070 3836 01_DAS_9100_Series_Service_Manual_Vol_2_Mar84 01 DAS 9100 Series Service Manual Vol 2 Mar84

User Manual: 070-3836-01_DAS_9100_Series_Service_Manual_Vol_2_Mar84

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COMMITTEO TO EXCELLENCE

DAS 9100 SERIES
SERVICE MANUAL WITH OPTIONS
VOL. II
This Tektronix manual supports al/ products listed below. It revises the original
manual (issued January 1982, part numbers 070-3625-00 and 070-3836-00) by
incorporating service information for the DAS9129 Color Mainframe throughout al/
sections.

MAINFRAMES

DAS9129 - Color
DAS9109 - Basic
DAS9119 - ATE
INSTRUMENT MODULES

91 A32
91 AOe
91 P 16
91 P32

-

Data Acquisition
Data Acquisition
Pattern Generator
Pattern Generator

OPTIONS

Option
Option
Option
Option

01 - Tapedrive
02 - I/O Interface
03, 04 - + 5 V Power Supply
05 - Rackmount

PLEASE CHECK FOR CHANGE INFORMATION
AT THE REAR OF THIS MANUAl.

070-3836-01
Product Group 57

FIRST PRINTING AUGUST 1982
REVISED PRINTING MARCH 1984

WARNING
THE FOLLOWING SERVICING INSTRUCTIONS
ARE FOR USE BY QUALIFIED PERSONNEL
ONLY. TO AVOID PERSONAL INJURY, DO NOT
PERFORM ANY SERVICING OTHER THAN THAT
CONTAINED IN OPERATING INSTRUCTIONS
UNLESS YOU ARE QUALIFIED TO DO SO.
Copyright ® 1981, 1982 Tektronix, Inc. All rights reserved.
Contents of this publication may not be reproduced in any
form without the written permission of Tektronix, Inc.
Products of Tektronix, Inc. and its subsidiaries are covered
by U.S. and foreign patents and/or pending patents.

~

TEKTRONIX, TEK, SCOPE-MOBILE, and
are
registered trademarks of Tektronix, Inc. TELEQUIPMENT
is a registered trademark of Tektronix U.K. Limited.
Printed in U.S.A. Specification and price change privileges
are reserved.

Tektronix, Inc.
Walker Road Industrial Park
P.O. Box 4600
Beaverton, Or. 97075

MANUAL REVISION STATUS
PRODUCT: DAS 9100 SERIES SERVICE MANUAL WITH OPTIONS VaLli
This manual supports the following versions of this product: All

REV DATE

DESCRIPTION

AUGUST 1982

Original Issue

APRIL 1983

Revised Printing

NOV 1983

Revised Printing with Major Revisions

MARCH 1984

Revised Printing

CAS 9100 Series Service Vol. II

PREFACE
The DAS 9100 Series Service Manual is organized in two volumes. The first volume contains the
specifications, the theory of operation, and other instrument familiarization information. The second volume contains the information most likely to be used directly while repairing or maintaining
a DAS module or system. Note, however, that both of the volumes are required to complete a
repair because the Verification and Adjustment Procedures are contained in the first volume.
This manual is designed for use by a qualified service technician with moderate experience with
high-speed digital circuitry. Familiarity with both the TTL and Eel logic families is assumed.
Familiarity with, and the ability to operate, standard test instruments used on digital circuitry, like
high-speed oscilloscopes and logic analyzers, is also assumed.
The DAS 9100 Series contains come complicated and/or non-standard circuits. For most effective
use or repair time, it is wise to become familiar with the operation of the instrument, both the
hardware and the firmware. The Theory of Operation is organized as a learning guide to the
structure and function of the instrument.
Since, in many cases familiarity with the instrument is not feasible, the Maintenance: General
Information and the Maintenance: Troubleshooting sections in volume two give the required information to complete most repairs in a short time. This will prove useful to the technician who does
not often have occasion to repair a DAS 9100 Series instrument.

The Service Manual is divided into twelve sections that are located in two binders. The third
binder is available for Addenda to the Service Manual.

VlOiIl.ame i
Section 1-lntroduction and Specifications. This section describes the DAS 9100, its modes of
operation, products and options, standard and optional accessories, and electrical and physical
specifications.
Section 2-0ptions. This section lists the options that are available with the DAS 9100 Series of
instruments.
Section 3-0perating Instructions. This section describes the DAS 9100 power requirements,
module installation procedures, probe connections, and the keyboard. There is also an overview
of the menus used by the operator to control the system. Refer to the DAS 9100 Series Operator's Manual for complete operating instructions.
Section 4-Theory of Operation. This section contains a discussion of the basic operation of the
DAS 9100 Series instruments, a block diagram description of the DAS, and detailed circuit descriptions of all parts of the mainframe, modules, probes, and options.
Section 5-Verification and Adjustment Procedures. This section contains the functional check
procedures, the adjustment procedures and the performance check procedures for all parts of the
DAS.

REV NOV 1983

DAS 9100 Series Service Vol. II

Volume II
Section 6-Maintenance: General Information. This section of the manual contains information

necessary to maintain the DAS. General precautions, disassembly procedures, and general maintenance information is included in this section.
Section 7-Maintenance: Troubleshooting. This section contains troubleshooting trees and
information.
Section a-Maintenance: Diagnostic Test Descriptions. This section gives detailed instructions
for using the Diagnostics menu. It also provides detailed descriptions of the operation of each test
used by the diagnostics.
Section 9-Reference Material. This section provides quick reference material for use while

troubleshooting or adjusting any part of the DAS.
Section lO-Replaceable Electrical Parts. This section contains a list (including Tektronix part

numbers) of all replaceable electrical parts in the DAS.
Section ll-Diagrams. This section contains all schematics for the DAS as well as board and
component locator diagrams and tables.
Section l2-Replaceable Mechanical Parts. This section contains lists (including part numbers)
of all replaceable mechanical parts in the DAS and provides illustrations to show the location of
each of these parts.

ii

DAS 9100 Series Service Vol. II

TABLE OF CONTENTS
CAS 9100 Series Service Vol.
SECTION ~

~

INTRODUCTION AND SPECIFICATIONS

SECTION 2 OPTIONS
SECTION 3 OPERATING INSTRUCTIONS
SECTION 4 THEORY OF OPERATION
SECTION 5 VERIFICATION AND ADJUSTMENT

PROCEDURES
CAS 9100 Series Service Vot
SIECT~ON

6 MAINTENANCE: GENERAL

n

~NFORMATION

MAINTENANCE PRECAUTIONS ............................
Soldering ... . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . ..
Light-Emitting Diodes (LEDs) ...........................
Static Precautions ...................................
TEST EQUIPMENT REQUIRED FOR MAINTENANCE . . . . . . . . . . ..
TOOLS REQUIRED FOR MAINTENANCE .....................
DISASSEMBLY/INSTALLATION PROCEDURES ................
General Disassembly Precautions ...........................
Removing Panels and Covers ..........................
Installing/Removing Instrument Modules ..................
Removing/Installing Power Supplies and Related Assemblies .
Removing the Monitor (MONOCHROME ONLY) ............
Removing the Montior (COLOR ONLY) ...................
Removing the Keyboard ...............................
Removing the Interconnect Board (MONOCHROME ONLY) ...
Removing the Interconnect Board (COLOR ONLY) ..........
Removing the Front Fan and the Power Switch
(MONOCHROME ONLY) ..............................
Removing the Front Fan and the Power Switch (COLOR ONLY)
Removing the Tape Drive (Option 01) ....................
PREVENTIVE MAINTENANCE . . . . . . . . . . . . . . . . . . . . . . . . . . . . ..
Tape Drive Preventive Maintenance . . . . . . . . . . . . . . . . . . . . ..
Exterior Cleaning ....................................
Interior Cleaning .....................................
Inspection ..........................................
Power-up Self Test ...................................

Page

6-1
6-1
6-1
6-1
6-3
6-3
6-3
6-4
6-4
6-10
6-15
6-20
6-23
6-27
6-31
6-33
6-35
6-38
6-39
6-43
6-44
6-44
6-45
6-46
6-46

iii

DAS 9100 Series Service Vol. "

TABLE OF CONTENTS (cont)
Page
CORRECTIVE MAINTENANCE .............................
Obtaining Replacement Parts . . . . . . . . . . . . . . . . . . . . . . . . . ..
Straps and Test Points. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . ..
Fuse locations ......................................
Circuit Board Pin Replacement .........................
Repairing Multi-conductor Connectors . . . . . . . . . . . . . . . . . . ..
Repairing the Display Monitor ..........................
Repairing the DAS Carrying Handle .................... "
Repairing a P6452 Data Acquisition Probe ................
Repairing a P6454 100 MHz Clock Probe .................
Repairing a P6455 TTL/MOS Pattern Generator Probe ......
Repairing a P6456 ECl Pattern Generator Probe " . . . . . . . ..
Repairing the Tape Drive (Option 01) .. . . . . . . . . . . . . . . . . . ..

6-46
6-46
6-47
6-47
6-48
6-49
6-50
6-51
6-51
6-51
6-52
6-52
6-52

SECTION 7 MAINTENANCE: TROUBLESHOOTING
TROUBLESHOOTING PRECAUTIONS . . . . . . . . . . . . . . . . . . . . . . ..
Internal Instrument Access . . . . . . . . . . . . . . . . . . . . . . . . . . . ..
Soldering . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . ..
Static Discharge Damage . . . . . . . . . . . . . . . . . . . . . . . . . . . . ..
TROUBLESHOOTING EQUIPMENT ..........................
TROUBLESHOOTING AIDS ................................
THE DIAGNOSTIC MENU . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . ..
Diagnostics Control Summary ..........................
Diagnostics Menu User-changeable Fields. . . . . . . . . . . . . . . ..
THE TROUBLESHOOTING TREE ........................... ,
Using the Troubleshooting Tree .........................
Starting the Tree . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . ..
Troubleshooting DAS Power Supplies ....................
Troubleshooting Advances in the 91 P16 ..................
Troubleshooting the Tape Drive Servo Board ..............
Troubleshooting Option 02, the I/O Interface .............. ,
Equipment Needed to Troubleshoot the I/O Interface ........
Troubleshooting the DAS Interface ......................
Troubleshooting the RS-232 ........................... ,
Troubleshooting the GPIB .............................
Troubleshooting the Color Monitor . . . . . . . . . . . . . . . . . . . . . ..

7-1
7-1
7-1
7-1
7-2
7-3
7-3
7-5
7-5
7-6
7-6
7-7
7-17
7-105
7-130
7-135
7-135
7-135
7-136
7-138
7-139

SECTION 8 MAINTENANCE: DIAGNOSTIC TEST
DESCRIPTIONS
DIAGNOSTIC MENU FIELDS ...............................
Module ............................................
Slot ..................................... '. . . . . . . . ..
Mode .. . . . . . .......... . ....... .. .. ...... . .... .. ....
Function ...........................................
looping .......................................•....
Display ............................................

iv

8-1
8-1
8-1
8-1
8-2
8-2
8-3

CAS 9100 Series Service Vol. II

Page
QUICK REFERENCE FUNCTION DESCRIPTIONS ..............
Controller ..........................................
Trigger/Time Base ...................................
91 A32 Data Acquisition ...............................
91 A08 Data Acquisition ...............................
91 P16 Pattern Generator ..............................
91 P32 Pattern Generator Expander. . . . . . . . . . . . . . . . . . . . ..
CONTROLLER FUNCTIONAL TESTS ........................
KEYBD (Keyboard) ...................................
Displays ...........................................
Tape Read and Tape Write . . . . . . . . . . . . . . . . . . . . . . . . . . . ..
TRIGGER/TIM IE BASE FUNCTIONAL TESTS ..................
WR & SEQ (Word Recognizer and Sequence) .............
A Counter ..........................................
Delay. . ... . . . . . ..... ... .... .. . . ... . . . ..... . . . . ... ..
91 A32 GEN (Clock Generator) ..........................
91 A32 SEL (Clock Selector) . . . . . . . . . . . . . . . . . . . . . . . . . . ..
91 A08 SEL (Clock Selector) . . . . . . . . . . . . . . . . . . . . . . . . . . ..
DAC THRSH (DAC Threshold) . . .. . . . ...... .. .. .. .. . . ...
91A32 FUNCTIONAL TIESTS ...............................
MEM AD DR (Memory Address Register) . . . . . . . . . . . . . . . . ..
ACQ MEM (Acquisition Memory) ........................
WRD REC (Word Recognizer) ..........................
DAC THRSH (DAC Threshold) . . . . . . . . . . . . . . . . . . . . . . . . ..
91A08 FUNCTIONAL TESTS.. . ...... .. ... . . . . . . .. ... ......
MEM ADDR (Memory Address) .........................
DIF CNTR (Difference Counter) .........................
DEL CNTR (Delay Counter) ............................
WORD REC (Word Recognizer) .........................
ACO MEM (Acquisition Memory) ........................
DAC THRSH (DAC Threshold) . . . . . . . . . . . . . . . . . . . . . . . . ..
91P16 FUNCTIONAL TESTS ...............................
PC (Program Counter) ................................
Vector RAM ........................................
Micro RAM .........................................
Advance ...........................................
Goto ..............................................
Call ...............................................
Return ............................. . . . . . . . . . . . . . . ..
Stack RAM .........................................
Clock. . . .. .. .. . .. ... . . ............ . . . . ... ..........
91 P32 FUNCTIONAL TESTS ...............................
Vector RAM ........................................

8-3
8-4
8-4
8-4
8-5
8-5
8-5
8-6
8-6
8-7
8-8
8-11
8-11
8-12
8-14
8-15
8-17
8-19
8-19
8-20
8-20
8-22
8-27
8-31
8-32
8-32
8-34
8-35
8-36
8-37
8-42
8-43
8-43
8-44
8-45
8-47
8-49
8-50
8-50
8-51
8-52
8-54
8-54

v

DAS 9100 Series Service Vol. II

TABLE OF CONTENTS (cont)
SECTION 9 REFERENCE INFORMATION
GENERAL INFORMATION ................................ .
Self-Diagnostics in Looping Mode ...................... .
Troubleshooting the Controller Board Kernel .............. .
DAS Character Set .................................. .
Memory Map ...................................... .
Loading the 91 AOS Acquisition Memory ................. .
Reading the 91AOS Acquisition Memory ................. .
MAIN EXTENDER BOARD ................................ .
Signal Test Points and Jumpers ........................ .
Power Indicator Lights ............................... .
High-speed Bus Buffers .............................. .
MAIN POWER SUPPLY EXTENDER BOARD .................. .
ERROR CODES AND INDICATORS ......................... .
Error and Prompter Messages ......................... .
Power-up Error Light Codes) .......................... .
ROM Checksum Codes .............................. .
TEST POINT, JUMPER, AND ADJUSTMENT LOCATIONS ....... .
DAS9109 (Monochrome) Interconnect Board (A 1) ......... .
DAS9129 (Color) Interconnect Board (A31) ............... .
Main Power Supply Board (A2) ........................ .
+ 5 V Power Supply Module (A3) ...................... .
Motorola Display Monitor (A4) ......................... .
DAS9129 Color Display Monitor (A30) ................... .
Controller Board (A6) ................................ .
Trigger/Time Base Board (A 10) ........................ .
91 A32 Data Acquisition Module (A 12) ................... .
91 AOS Data Acquisition Module (A 13) ................... .
91 P16 Pattern Generator Module (A 14) ................. .
91 P32 Pattern Generator Expander Module (A 17) ......... .
Option 01, Tape Drive (A 1S) ........................... .
Option 02, I/O Interface (A 19) ......................... .
ONLINE DEBUGGING TOOL (ODT) INFORMATION ............ .
Initiating ODT ...................................... .
ODT Commands .................................... .
I/O MAPS ............................................. .
SIGNAL GLOSSARY ..................................... .

SECTION 10 REPLACEABLE ELECTRICAL PARTS
SECTION 11 DIAGRAMS
SECTION 12 REPLACEABLE MECHANICAL PARTS
vi

Page

9-1
9-1
9-1
9-1
9-3
9-3
9-4
9-4
9-4

9-5
9-5
9-5
9-7
9-7
9-14

9-15
9-16
9-19
9-20
9-21
9-22
9-22
9-24
9-27
9-2S
9-30
9-32
9-35
9-36
9-37
9-40
9-41
9-41
9-42
9-43

9-65

DAS 9100 Series Service Vol. II

l~ST
Figure
6-1
6-2
6-3
6-4
6-5
6-6
6-7
6-8
6-9
6-10
6-11
6-12
6-13
6-14
6-15
6-16
6-17
6-18
6-19
6-20
6-21
6-22
6-23
6-24
7-1
7-2
7-3
7-4
7-5
7-6
7-7
7-8

OF illUSTRATIONS
Page

Removing the top panel and the module compartment cover ........... 6-5
Interconnect board components are accessible when the bottom panel is
removed (MONOCHROME ONLY) ................................ 6-7
Interconnect board components are accessible when the bottom panel is
removed (COLOR ONLY) ....................................... 6-8
Removing the back panel (MONOCHROME ONLY) ................... 6-9
Installing an instrument module in the mainframe .................... 6-11
Removing an instrument module from the mainframe ................. 6-12
Installing the I/O board ......................................... 6-13
Removing the I/O board ........................................ 6-14
Removing the + 5 V power supply module ......................... 6-16
Removing the main power supply board ........................... 6-18
Item locations for monitor disassembly (MONOCHROME ONLY) ........ 6-23
Item locations for monitor disassembly (COLOR ONLY) ............... 6-26
Socket-head set screws securing the rear keyboard frame to an angled
metal bar on the front casting .................................... 6-28
Lift the front edge of the keyboard 30 0 , then pull it away from the
mainframe ................................................... 6-29
Dismantling the keyboard to access the circuit board ................. 6-30
Removing the rear casting so the interconnect board can be removed from
the mainframe (MONOCHROME ONLY) ............................ 6-33
Removing the rear casting so the interconnect board can be removed from
the mainframe (COLOR ONLY) ................................... 6-35
Location of the screws that attach the front fan to the mainframe
(MONOCHROME ONLY) ........................................ 6-37
Location of the screws that attach the front fan to the mainframe
(COLOR ONLY) ............................................... 6-38
Location of the four circuit boards and the tape transport assembly in the
tape drive .................................................... 6-42
Exploded view of tape drive mechanical parts ....................... 6-43
Location of the read/write head in the tape drive ..................... 6-44
Circuit board pin and ferrule ...................................... 6-49
Multi-conductor terminal connectors ............................... 6-50
Failure in the power-up self test .................................. 7-4
Diagnostics Menu ............................................. 7-4
Troubleshooting Chart 1 - Power-up through diagnostics .............. 7-8
Troubleshooting Chart 2 - Controller (sheet 1 of 8) ................... 7-9
Troubleshooting Chart 2 - Controller with bad kernel or LED driver
(sheet 2 of 8) ................................................. 7-10
Troubleshooting Chart 2 - Controller with RAM failure
(sheet 3 of 8) ................................................. 7-11
Troubleshooting Chart 2 - Controller with Controller ROM failure
(sheet 4 of 8) ................................................. 7-12
Troubleshooting Chart 2 - Controller with display, CRT controller, or DMA
failure (sheet 5 of 8) ........................................... 7-13

vii

CAS 9100 Series Service Vol. II

LIST OF ILLUSTRATIONS (cont)
7-9
7-10
7-11
7-12
7-13
7-14
7-15
7-16
7-17
7-18
7-19
7-20
7-21
7-22
7-23
7-24
7-25
7-26
7-27
7-28
7-29
7-30
7-31
7-32
7-33
7-34
7-35
7-36
7-37
7-38
7-39
7-40
7-41
7-42
7-43
7-44
7-45
7-46
7-47
7-48
7-49

viii

Troubleshooting Chart 2 - Controller with display, CRT controller, or DMA
failure cont (sheet 6 of 8) ....................................... 7-14
Troubleshooting Chart 2 - Controller with display, CRT controller, or DMA
failure cont (sheet 7 of 8) ....................................... 7-15
Troubleshooting Chart 2 - Controller with Instrument ROM failure
(sheet 8 of 8) ................................................. 7-16
Troubleshooting Chart 3 - Power supply failure - main board (sheet 1 of 4) 7-19
Troubleshooting Chart 3 - Power supply failure - main board cont
(sheet 2 of 4) ................................................. 7-20
Troubleshooting Chart 3 - Power supply failure - +5 V module (sheet 3 of 4) 7-21
Troubleshooting Chart 3 - Power supply failure - + 5 V module cont
(sheet 4 of 4) ................................................. 7-22
Power supply waveforms for comparison ........................... 7-23
Troubleshooting Chart 4 - Controller keyboard failure ................. 7-24
Troubleshooting Chart 5 - Trigger/Timebase failures (sheet 1 of 29) ...... 7-25
Troubleshooting Chart 5 cont (sheet 2 of 29) ........................ 7-26
Troubleshooting Chart 5 cont (sheet 3 of 29) ........................ 7-27
Troubleshooting Chart 5 cont (sheet 4 of 29) ........................ 7-28
Troubleshooting Chart 5 cont (sheet 5 of 29) ........................ 7-29
Troubleshooting Chart 5 cont (sheet 6 of 29) ........................ 7-30
Troubleshooting Chart 5 cont (sheet 7 of 29) ........................ 7-31
Troubleshooting Chart 5 cont (sheet 8 of 29) ........................ 7-32
Troubleshooting Chart 5 cont (sheet 9 of 29) ........................ 7-33
Troubleshooting Chart 5 cont (sheet 10 of 29) ....................... 7-34
Troubleshooting Chart 5 cont (sheet 11 of 29) ....................... 7-35
Troubleshooting Chart 5 cont (sheet 12 of 29) ....................... 7-36
Troubleshooting Chart 5 cont (sheet 13 of 29) ....................... 7-37
Troubleshooting Chart 5 cont (sheet 14 of 29) ....................... 7-38
Troubleshooting Chart 5 cont (sheet 15 of 29) ....................... 7-39
Troubleshooting Chart 5 cont (sheet 16 of 29) ....................... 7-40
Troubleshooting Chart 5 cont (sheet 17 of 29) ....................... 7-41
Troubleshooting Chart 5 cont (sheet 18 of 29) ....................... 7-42
Troubleshooting Chart 5 cont (sheet 19 of 29) ....................... 7-43
Troubleshooting Chart 5 cont (sheet 20 of 29) ....................... 7-44
Troubleshooting Chart 5 cont (sheet 21 of 29) ....................... 7-45
Troubleshooting Chart 5 cont (sheet 22 of 29) ....................... 7-46
Troubleshooting Chart 5 cont (sheet 23 of 29) ....................... 7-47
Troubleshooting Chart 5 cont (sheet 24 of 29) ....................... 7-48
Troubleshooting Chart 5 cont (sheet 25 of 29) ....................... 7-49
Troubleshooting Chart 5 cont (sheet 26 of 29) ....................... 7-50
Troubleshooting Chart 5 cont (sheet 27 of 29) ....................... 7-51
Troubleshooting Chart 5 cont (sheet 28 of 29) ....................... 7-52
Troubleshooting Chart 5 cont (sheet 29 of 29) ....................... 7-53
Troubleshooting Chart 6 - 91A32 Data Acquisition failure (sheet 1 of 13).. 7-54
Troubleshooting Chart 6 cont (sheet 2 of 13) ........................ 7-55
Troubleshooting Chart 6 cont (sheet 3 of 13) ........................ 7-56

DAS 9100 Series Service Vol. II

7-50
7-51
7-52
7-53
7-54
7-55
7-56
7-57
7-58
7-59
7-60
7-61
7-62
7-63
7-64
7-65
7-66
7-67
7-68
7-69
7-70
7-71
7-72
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7-80
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7-83
7-84
7-85
7-86
7-87
7-88
7-89
7-90
7-91
7-92
7-93
7-94
7-95

Troubleshooting
Troubleshooting
Troubleshooting
Troubleshooting
Troubleshooting
Troubleshooting
Troubleshooting
Troubleshooting
Troubleshooting
Troubleshooting
Troubleshooting
Troubleshooting
Troubleshooting
Troubleshooting
Troubleshooting
Troubleshooting
Troubleshooting
Troubleshooting
Troubleshooting
Troubleshooting
Troubleshooting
Troubleshooting
Troubleshooting
Troubleshooting
Troubleshooting
Troubleshooting
Troubleshooting
Troubleshooting
Troubleshooting
Troubleshooting
Troubleshooting
Troubleshooting
Troubleshooting
Troubleshooting
Troubleshooting
Troubleshooting
Troubleshooting
Troubleshooting
Troubleshooting
Troubleshooting
Troubleshooting
Troubleshooting
Troubleshooting
Troubleshooting
Troubleshooting
Troubleshooting

Chart 6 cont (sheet 4 of 13) ........................ 7-57
Chart 6 cont (sheet 5 of 13) ........................ 7-58
Chart 6 cont (sheet 6 of 13) ........................ 7-59
Chart 6 cont (sheet 7 of 13) ........................ 7-60
Chart 6 cont (sheet 8 of 13) ........................ 7-61
Chart 6 cont (sheet 9 of 13) ........................ 7-62
Chart 6 cont (sheet 10 of 13) ....................... 7-63
Chart 6 cont (sheet 11 of 13) ....................... 7-64
Chart 6 cont (sheet 12 of 13) ....................... 7-65
Chart 6 cont (sheet 13 of 13) ....................... 7-66
Chart 7 - 91 A08 Data Acquisiton failure (sheet 1 of 25) .. 7-67
Chart 7 cont (sheet 2 of 25) ........................ 7-68
Chart 7 cont (sheet 3 of 25) ........................ 7-69
Chart 7 cont (sheet 4 of 25) ........................ 7-70
Chart 7 cont (sheet 5 of 25) ........................ 7-71
Chart 7 cont (sheet 6 of 25) ........................ 7-72
Chart 7 cont (sheet 7 of 25) ........................ 7-73
Chart 7 cant (sheet 8 of 25) ........................ 7-74
Chart 7 cont (sheet 9 of 25) ........................ 7-75
Chart 7 cont (sheet 10 of 25) ....................... 7-76
Chart 7 cont (sheet 11 of 25) ....................... 7-77
Chart 7 cont (sheet 12 of 25) ....................... 7-78
Chart 7 cont (sheet 13 of 25) ...........•........... 7-79
Chart 7 cont (sheet 14 of 25) ....................... 7-80
Chart 7 cont (sheet 15 of 25) ....................... 7-81
Chart 7 cont (sheet 16 of 25) ....................... 7-82
Chart 7 cont (sheet 17 of 25) ....................... 7-83
Chart 7 cont (sheet 18 of 25) ....................... 7-84
Chart 7 cont (sheet 19 of 25) ....................... 7-85
Chart 7 cont (sheet 20 of 25) ....................... 7-86
Chart 7 cont (sheet 21 of 25) ....................... 7-87
Chart 7 cont (sheet 22 of 25) ....................... 7-88
Chart 7 cont (sheet 23 of 25) ....................... 7-89
Chart 7 cont (sheet 24 of 25) ....................... 7-90
Chart 7 cont (sheet 25 of 25) ....................... 7-91
Chart 8 - 91 P16 Pattern Generator failure (sheet 1 of 23) 7-92
Chart 8 cont (sheet 2 of 23) ........................ 7-93
Chart 8 cont (sheet 3 of 23) ........................ 7-94
Chart 8 cont (sheet 4 of 23) ........................ 7-95
Chart 8 cont (sheet 5 of 23) ........................ 7-96
Chart 8 cont (sheet 6 of 23) ........................ 7-97
Chart 8 cont (sheet 7 of 23) ........................ 7-98
Chart 8 cont (sheet 8 of 23) ........................ 7-99
Chart 8 cont (sheet 9 of 23) ........................ 7-100
Chart 8 cont (sheet 10 of 23) ...... '" .............. 7-101
Chart 8 cont (sheet 11 of 23) ....................... 7-102

in

DAS 9100 Series Service Vol. II

LIST OF ILLUSTRATIONS (cont)
7-96
7-97
7-98
7-99
7-100
7-101
7-102
7-103
7-104
7-105
7-106
7-107
7-108
7-109
7-110
7-111
7-112
7-113
7-114
7-115
7-116
7-117
7-118
7-119
7-120
7-121
7-122
7-123
7-124
7-125
7-126
7-127
7-128
7-129
7-130
7-131
7-132
7-133
8-1
8-2
8-3
8-4
8-5
9-1
9-2

x

Troubleshooting Chart 8 cont (sheet 12 of 23) ....................... 7-103
Troubleshooting Chart 8 cont (sheet 13 of 23) ....................... 7-104
Diagnostics Menu showing selections for Pattern Generator test program 7-106
Program example, SEQ 30, shown on Pattern Generator Program
Sub-menu ................................................... 7-106
Program example, SEQ 255, shown on Pattern Generator Sub-menu .... 7-107
Troubleshooting Chart 8 - 91 P16 Pattern Generator failure (sheet 14 of 23). 7-108
Pattern Generator Program showing GOTO sequences ............... 7-1 09
Troubleshooting Chart 8 - 91 P16 Pattern Generator failure (sheet 15 of 23). 7-110
Troubleshooting Chart 8 cont (sheet 16 of 23) ....................... 7-111
Troubleshooting Chart 8 cont (sheet 17 of 23) ....................... 7-112
Troubleshooting Chart 8 cont (sheet 18 of 23) ....................... 7-113
Troubleshooting Chart 8 cont (sheet 19 of 23) ....................... 7-114
Troubleshooting Chart 8 cont (sheet 20 of 23) ....................... 7-115
Troubleshooting Chart 8 cont (sheet 21 of 23) ....................... 7-116
Troubleshooting Chart 8 cont (sheet 22 of 23) ....................... 7-117
Pattern Generator Program example A for Troubleshooting ............ 7-118
Pattern Generator Program example B for Troubleshooting ............ 7-118
Troubleshooting Chart 8 - 91 P16 Pattern Generator failure (sheet 23 of 23). 7-119
Troubleshooting Chart 9 - Pattern Generator Power Supply failure ...... 7-120
Troubleshooting Chart 10 - 91 P32 Pattern Generator failure (sheet 1 of 5) 7-121
Troubleshooting Chart 10 cont (sheet 2 of 5) ........................ 7-122
Troubleshooting Chart 10 cont (sheet 3 of 5) ........................ 7-123
Troubleshooting Chart 10 cont (sheet 4 of 5) ........................ 7-124
Troubleshooting Chart 10 cont (sheet 5 of 5) ........................ 7-125
Troubleshooting Chart 11 - Tape Drive failure (sheet 1 of 6) ............ 7-126
Troubleshooting Chart 11 cont (sheet 2 of 6) ........................ 7-127
Troubleshooting Chart 11 cont (sheet 3 of 6) ........................ 7-128
Troubleshooting Chart 11 cont (sheet 4 of 6) ........................ 7-129
Troubleshooting Chart 11 - Tape Drive failure cont (sheet 5 of 6) ........ 7-132
Troubleshooting Chart 11 cont (sheet 6 of 6) ........................ 7-133
Special purpose modem connector................................ 7-137
Troubleshooting Chart 12 - Color Display Monitor failure (sheet 1 of 5) ... 7-141
Troubleshooting Chart 12 cont (sheet 2 of 5) ........................ 7-142
Troubleshooting Chart 12 cont (sheet 3 of 5) ........................ 7-143
Troubleshooting Chart 12 cont (sheet 4 of 5) ........................ 7-144
Troubleshooting Chart 12 cont (sheet 5 of 5) ........................ 7-145
Color Monitor waveforms for comparison (sheet 1 of 2) ............... 7-146
Color Monitor waveforms for comparison (sheet 2 of 2) ............... 7-147
The hexadecimal codes of the DAS keyboard ....................... 8-6
All character diagnostic display................................... 8-8
91 A32 Acquisition Memory block diagram .......................... 8-23
91 A32 Word Recognizer block diagram ............................ 8-28
91 A08 Acquisition Memory block diagram .......................... 8-38
Main extender A-side and B-side terminal connectors and test pOints .... 9-5
Connecting the main power supply to the extender board ............. 9-6

DAS 9100 Series Service Vol. II

LIST OF ILLUSTRATIONS (cont)

9-3
9-4
9-5
9-6
9-7
9-8
9-9
9-1 0
9-11
9-12
9-13
9-14
9-15
9-16
9-17
9-18
9-19
9-20
9-21
9-22
9-23
9-24
9-25
9-26
9-27

DAS circuit board locations ..................................... 9-16
Power supply and I/O Interface circuit board locations ................ 9-17
Tape drive circuit board locations ................................. 9-18
DAS9109 Interconnect board (A 1) test point locations ................ 9-19
DAS9129 Interconnect board (A31) test point locations ............... 9-20
DAS Main Power Supply board (A2) test point and adjustment locations . 9-21
+ 5 V Power Supply board (A3) test pOint locations .................. 9-22
Motorola Display Monitor signal circuit board (A4A2) test point and
adjustment locations ........................................... 9-23
Motorola Display Monitor deflection circuit board (A4A 1) test point and
adjustment locations ........................................... 9-23
DAS9129 Color Display Monitor deflection circuit board (A30A 1) test
point and adjustment locations ................................... 9-24
DAS9129 Color Display Monitor Z-axis circuit board (A30A2) test point and
adjustment locations ........................................... 9-26
Controller board (A6) test point and adjustment locations .............. 9-27
Trigger/Time Base board (A10) test point and adjustment locations ...... 9-28
91 A32 Data Acquisition Module (A12) test point and adjustment locations 9-30
91A32 write-enable timing ....................... , ............... 9-32
91 A08 Data Acquisition Module (A13) test point and adjustment locations 9-32
91A08 write-enable timing .................. " ................... 9-33
91 P16 Pattern Generator Module (A 14) test point and adjustment locations 9-35
91 P16 write-enable timing ....................................... 9-36
91 P32 Pattern Generator Expander Module (A 17) test point and adjustment
locations .................................................... 9-36
Tape drive data board (A 18A1) test point and adjustment locations ...... 9-37
Tape drive servo board (A 18A2) test point and adjustment locations ..... 9-38
Tape drive status board (A18A3) test point and adjustment locations .... 9-38
I/O Interface (A19) test point and adjustment locations ................ 9-40
Schematic of a null modem ...................................... 9-41

xi

DAS 9100 Series Service Vol. II

LIST OF TABLES

xii

Table

Page

6-1
7-1
7-2
7-3
7-4
8-1
8-2
8-3
8-4
8-5a
8-5b
8-5c
8-6
8-7
8-8a
8-8b
8-8c
8-9
8-10a
8-10b
8-10c
9-1
9-2
9-3
9-4
9-5
9-6
9-7
9-8
9-9
9-10
9-11
9-12
9-13
9-14

Relative Susceptibility of Semiconductors to Static Discharge Damage ..... 6-2
Relative Susceptibility of Semiconductors to Static Discharge Damage ..... 7-2
6500/1 Check Port Values ........................................ 7-130
Servo Board Test Routine ......................................... 7-134
GPIB Stimulation Program ........................................ 7-138
Diagnostic Memory Tests ......................................... 8-2
Tape Drive Diagnostic Test Readback Fields .......................... 8-9
Tape Drive Diagnostic Test Error Codes .............................. 8-1 0
Expected Results from ACO MEM Tests 0 - 3 ......................... 8-25
Values Loaded by ACO MEM Test 4, First Pass ....................... 8-26
Values Loaded by ACO MEM Test 4, Second Pass .................... 8-26
Values Loaded by ACO MEM Test 4, Third Pass ...................... 8-26
91 A32 Acquisition Memory Readback Ports .......................... 8-27
Word Recognizer Test 0 Data ...................................... 8-29
Word Recognizer Test 1 (First Run) Data ............................. 8-30
Word Recognizer Test 1 (Second Run) Data .......................... 8-31
Word Recognizer Test 1 (Third Run) Data ............................ 8-31
91 A08 Acquisition Memory Organization ............................. 8-39
Values Loaded by ACO MEM Test 3, First Load ....................... 8-42
Values Loaded by ACO MEM Test 3, Second Load .................... 8-42
Values Loaded by ACO MEM Test 3, Third Load ...................... 8-42
DAS Character Set .............................................. 9-2
DAS Memory Map .............................................. 9-3
Error and Prompter Messages ..................................... 9-8
Power-up Error Light Codes ....................................... 9-15
ROM Checksum Error Codes ...................................... 9-15
List of ODT Commands .......................................... 9-42
Controller I/O Map .............................................. 9-43
Trigger/Time Base I/O Map ........................................ 9-45
91 A32 I/O Map ................................................. 9-47
91 A08 I/O Map ................................................. 9-49
91 P16 I/O Map ................................................. 9-52
91 P32 I/O Map ................................................. 9-55
Option 01 (Tape Drive for DC100-Type Cartridges) I/O Map .............. 9-57
Option 02 (I/O Interface) I/O Map ................................... 9-59

DAS 9100 Series Service Vol. II

The general safety information in this summary is for both operator and service personnel. Specific cautions and warnings are placed throughout the manual where they apply but may not appear
in this summary.

CAUTION statements identify conditions or practices that could result in damage to the equipment or other property.
WARNING statements identify conditions or practices that could result in personal injury or loss

of life.

CAUTION indicates a personal injury hazard not immediately accessible as one reads the marking, or a hazard to property, including the equipment itself.
DANGER indicates a personal injury hazard immediately accessible as one reads the marking.

DANGleR-high voltage
Protective ground (earth) terminal.
ATTENTION-refer to manual.

This product is intended to operate from a power source that does not apply more than 250 volts rms
between the supply conductors or between either supply conductor and ground.
This product is grounded through the grounding conductor of the power cord. To avoid electrical shock, plug
the power cord into a properly wired receptacle before connecting it to the product. A protective ground
connection by way of the grounding conductor in the power cord is essential for safe operation.

Upon loss of the protective-ground connection, all accessible conductive parts (including keys and controls
that may appear to be insulating) can render an electrical shock.

xiii

DAS 9100 Series Service Vol. II

USE THE PROPER POWER CORD
Use only the power cord and connector specified for this product, and be sure it is in good condition.
Refer to the Operating Instructions section of this manual for information on power cords and connectors.

USE THE PROPER FUSE
To avoid fire hazard, use only a fuse of the correct type, voltage rating, and current rating as specified in the
parts list for this product.

DO NOT OPERATE IN EXPLOSIVE ATMOSPHERES
To avoid explosion, do not operate this product in an explosive atmosphere unless it has been specifically
certified for such operation.

xiv

DAS 9100 Series Service Vol. II

SERVICE SAFETY SUMMARY
FOR QUALIFIED SERVICE PERSONNEL ONLY
Refer a/so to the preceding Operator's Safety Summary.

DO NOT SERVICE ALONE
Do not perform internal service or adjustment of this product unless another person capable of
rendering first aid and resuscitation is present.

USE CARE WHEN SERVICING WITH POWER ON
Dangerous voltages exist at several pOints in this product. To avoid personal injury, do not touch
exposed connections and components while power is on. Do not wear metal neck chains, wristbands or other metal jewelry while power is on and connections and components are exposed.
Disconnect power before removing protective panels, soldering, or replacing components.

USE CAUTION WHEN SERVICING THE CRT
The CRT should be serviced only by qualified personnel familiar with CRT servicing procedures
and precautions.
CRTs retain hazardous voltages for long periods of time after power-down. Before attempting
any work inside the monitor, discharge the CRT by shorting the anode connection to chassis
ground. When discharging, connect to ground, then to anode.
Use extreme caution when handling the CRT. Rough handling may cause it to implode. Do not
nick or scratch the glass or subject it to undue pressure during removal or installation. When
handling the CRT, wear safety goggles and heavy gloves for protection.

REMOVE LOOSE OBJECTS
During disassembly or installation procedures, screws or other small objects may fall to the
bottom of the mainframe. To avoid shorting out the primary power supply, do not power up the
instrument until such objects have been removed.

xv

MAINTENANCE:
GENERAL
INFORMATION
MAINTENANCE PRECAUTIONS .
Soldering. . . . . . . . . . . . . . . . . .
Light-Emitting Diodes (LEOs) . .
Static Precautions. . . . . . . . . . .

............
............
............
............

...
...
...
...

..
..
..
..

...
...
...
...

..
..
..
..

..
..
..
..

6

. . . . . . . . . . . . . . . . . . . . . ..
. . . . . . . . . . . . . . . . . . . . . ..
. . . . . . . . . . . . . . . . . . . . . ..
. . . . . . . . . . . . . . . . . . . . . ..

6-1
6-1
6-1
6-1

TEST EQUIPMENT REQUIRED FOR MAINTENANCE. . . . . . . . . . . . . . . . . . . . . . . . . . . . .. .. 6-3
TOOLS REQUIRED FOR MAINTENANCE. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .. 6-3
DISASSEMBLY/INSTALLATION PROCEDURES. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . ..
General Disassembly Precautions . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
Removing Panels and Covers. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . ..
Top Panel . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
Power Supply Cover. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .. . . . . . . . . . . . . .. . . . . . .
Side Panels. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
Bottom Panel . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
Removing the Back Panel (MONOCHROME ONLY) .............................
Removing the Back Panel (COLOR ONLY) ....................................
Installing/Removing Instrument Modules ........................................
Module Installation . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
Module Removal. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
Installing the I/O Interface (Option 02) ........................................
Removing the I/O Circuit Board (Option 02) ...................................
Removing/Installing Power Supplies and Related Assemblies ........................
+ 5 V Power Supply Module Removal. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
+5 V Power Supply Module Installation ......................................
Main Power Supply Removal. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
Main Power Supply Installation . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
Filtering Capacitor Removal (MONOCHROME ONLY) ...........................
Filtering Capacitor Removal (COLOR ONLy) ...................................
Heat Sink Removal (MONOCHROME ONLY) ..................................
Heat Sink Removal (COLOR ONLY) .....' ....................................

6-3
6-4
6-4
6-4
6-5
6-6
6-6
6-8
6-10
6-10
6-10
6-11
6-12
6-13
6-15
6-15
6-16
6-17
6-18
6-19
6-19
6-20
6-20

6-b

Removing the Monitor (MONOCHROME ONLy) ..................................
Removing the Monitor (COLOR ONLY) .........................................
Removing the Keyboard. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . ..
Removing the Interconnect Board (MONOCHROME ONLY) .........................
Removing the Interconnect Board (COLOR ONLY) . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . ..
Removing the Front Fan and Power Switch (MONOCHROME ONLY) .................
Removing the Front Fan (MONOCHROME ONLY) ..............................
Removing the Power Switch (MONOCHROME ONLY) ...........................
Removing the Front Fan and Power Switch (COLOR ONLY) ........................
Removing the Front Fan (COLOR ONLY) ................................... "
Removing the Power Switch (COLOR ONLY) ..................................
Removing the Tape Drive (Option 01) . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . ..

6-20
6-23
6-27
6-31
6-33
6-35
6-35
6-36
6-38
6-38
6-39
6-39

PREVENTIVE MAINTENANCE. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . ..
Tape Drive Preventive Maintenance. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . ..
Exterior Cleaning ...........................................................
Interior Cleaning . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . ..
Inspection ................................................................
Power-up Self Test .........................................................

6-43
6-44
6-44
6-45
6-46
6-46

CORRECTIVE MAINTENANCE . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . ..
Obtaining Replacement Parts. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . ..
Straps and Test Points ......................................................
Fuse Locations ............................................................
Circuit Board Pin Replacement ................................................
Repairing Multi-Conductor Connectors . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . ..
Repairing the Display Monitor . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . ..
Repairing the DAS Carrying Handle ............................................
Repairing a P6452 Data Acquisition Probe ......................................
Repairing a P6454 100 MHz Clock Probe .......................................
Repairing a P6455 TTUMOS Pattern Generator Probe .. . . . . . . . . . . . . . . . . . . . . . . . . ..
Repairing a P6456 ECL Pattern Generator Probe. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . ..
Repairing the Tape Drive (Option 01) . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . ..

6-46
6-46
6-47
6-47
6-48
6-49
6-50
6-51
6-51
6-51
6-52
6-52
6-52

Section 6-DAS 9100 Series Service Vol. II

MA~NTfENANCIE:

GENERAL

iNFORMAT~ON

Unless otherwise specified (by MONOCHROME ONLY or COLOR ONLY), the following
procedures, tables, and figures apply to both the monochrome and color DAS
mainframes.

Tektronix maintains repair and recalibration facilities at its local Field Service Centers and the
Factory Service Center. For further information or assistance, contact your local Tektronix Field
Office or representative.

MAINTENANCE PRECAUTIONS
SOLDERING
Most of the components in the instrument are soldered in place. If it is necessary to replace a
soldered part, use a 15 W soldering iron to prevent heat damage to the circuit board or components. Excessive heat will lift circuit runs on the circuit board.
The flux in the solder may leave a residue on the circuit board which can provide a high resistance
leakage path and affect instrument operation. Be sure to clean off this residue. Isopropyl alcohol
may be used.

LIGHT-EMITTiNG DIODES (lEOS)
To avoid damage to the LEOs always keep soldering time and temperature to a minimum. Do not
bend the leads or apply force when inserting the leads into circuit board holes. Clean the circuit
board holes of all excess solder before attempting to install a new LED.

NOTE
Damage to the LEOs may not be immediately apparent. Always follow the precautionary
measures listed above when handling the LEOs.

STATIC PRECAUTIONS

~
Static discharge can damage any semiconductor in this instrument.
This instrument contains electrical components that are susceptible to damage from static discharge. See Table 6-1 for the relative susceptibility of various classes of semiconductors. Static
voltages of 1-30 kV are common in unprotected environments.

6-1

Maintenance: General Information-DAS 9100 Series Service Vol. II

Observe the following precautions to avoid damage:
1. Minimize handling of static-sensitive components.

2. Transport and store static-sensitive components or assemblies in their original containers,
on a metal rail, or on conductive foam. label any package that contains static-sensitive
components or assemblies.

3. Discharge the static voltage from your body by wearing a wrist strap while handling these
components. Servicing static-sensitive assemblies should be performed only in a staticfree work station by qualified service personnel.

4. Nothing capable of generating or holding a static charge should be allowed on the work
station surface.

5. Keep the component leads shorted together whenever possible.
6. Pick up components by the body, never by the leads.
7. Do not slide the components over any surface.
8. Avoid handling components in areas that have a floor or work-surface covering capable of
generating a static charge.

9. Use a soldering iron that is connected to earth ground.
10. Use only special anti-static suction type or wick type desoldering tools.
NOTE
Damage to electrical components may not be immediately apparent. Always follow the
precautionary measures listed above when handling static-sensitive components.
Table 6-1
Relative Susceptibility of Semiconductors to Static Discharge Damage
Semiconductor Class
MOS or CMOS
ECl
Schottky signal diodes
Schottky TTL
High frequency bipolar transistors
JFETs
Linear microcircuits
low-power Schottky TTL

Danger Voltage 8
100 - 500 V
200 - 500 V
250 V
500 V
400 - 600 V
600 - 800 V
400 - 1000 V
1200V

8Voltage discharged from a 100 pF capacitor through a resistance of 100 O.

6-2

Maintenance: General Information-DAS 9100 Series Service Vol. II

TEST EQUIPMENT REQUIRED FOR MAINTENANCE
Test equipment required to service the instrument is listed under Troubleshooting Equipment in
the Maintenance: Troubleshooting section of this manual.

TOOLS REQUIRED FOR MAINTENANCE

The following tools are those most often needed when servicing the instrument:
Tool
1.
2.
3.
4.
5.
6.
7.
8.
9.
10.
11.
12.
13.
14.
15.
16.
17.
18.
19.

Tektronix Part No.

Soldering iron, (15 W)
Rosin core solder, 60/40
Isopropyl alcohol
Lint-free dust cloth
Soft-bristle brush
IC extractor
Desolder tool
Solder wick
Magnetic screwdrivers, 7 inch shank and 4 inch shank
POZIDRIV-type magnetic bits, 2 inch and 1 inch
TORX-type magnetic bit, size T-20
Angled tweezers, 6 inch
Long-nose pliers
1/4 inch combination open/box wrench
Plastic alignment tool, 5 inches
Fiber adjustment tool, 9 inches
Open end wrench, 7/16 inch
Allen wrenches, 0.050 inch, 1/16 inch and 5/64 inch
Circuit board ejector

003-0866-00

214-3154-00

DISASSEMBLYIINSTALLATION PROCEDURES

I WARNING

I

Dangerous electric-shock hazards inside the mainframe may be exposed when the covers
are removed. .Be sure power is off and the power cord is disconnected before removing the
covers. Disassembly procedures should only be attempted by qualified service personnel.

Reassembly procedures are the reverse of the disassembly procedures in most cases. Separate
reassembly instructions are provided only when necessary.
Unless otherwise noted, screws mentioned in the text are the pan-head, POZIDRIV type. Size
specifications are provided for most screws.

6-3

Maintenance: General Information-DAS 9100 Series Service Vol. II

In the following procedures, directional terms (top, bottom, left, right, etc.) are based on the
assumption that the DAS is in a normal, upright position and the user is facing the front of the
instrument.

GENERAL DISASSEMBLY PRECAUTIONS
• DO NOT attempt any disassembly or installation procedures if power is on.
• DO NOT disconnect probes from the back of the mainframe by pulling on the cables; pull only
on the plastic cable holders.
• DO NOT remove connectors between circuit boards by pulling on the wires; pull only on the
connectors.
• DO NOT press or pull on components when manipulating circuit boards.
• GUARD against static discharge damage by following the precautions listed in Maintenance
Precautions in this section.

REMOVING PANELS AND COVERS
Top Panel
Figure 6-1 illustrates how to remove the top panel and the module compartment cover.
1. Loosen the two large slotted screws in the upper corners of the back panel. Rotate the
brackets behind these screws until they no longer block the edge of the top panel.
2. Press backward on the ridges at the front of the top panel. Simultaneously, pull on the rear
edge until the front edge disengages.
3. Lift the panel up and off the mainframe.
4. Loosen the slotted-head screws that secure the module compartment cover until approximately 1/4 inch of each screw is exposed. Grasp the front edge of the cover and lift it off the
mainframe.

6-4

Maintenance: General Information-DAS 9100 Series Service Vol. II

Figure 6-1. Removing the top panel and the module compartment cover. (This figure shows the Monochrome DAS.
The Color DAS is similar.)

Power Supply Cover

The power supply cover should be removed only by qualified service personnel. Hazardous
voltages may be present; use extreme caution. Be sure power is off and the power cord is
disconnected before removing the cover.

There are three holes located in the power supply cover. Chrome pins show through these holes
to indicate the position of +5 V power supply modules currently installed.
o

The + 5 V power supply module in the left position (adjacent to the main power supply) provides power to bus slots 1 and 2; this power supply module is provided as a part of the basic
DAS mainframe.

+ 5 V power supply module in the center position provides power to bus slots 5 and 6.

o

The

o

The +5 V power supply in the right position (closest to the instrument modules) provides power
to bus slots 3 and 4.

6-5

Maintenance: General Information-CAS 9100 Series Service Vol. II

I

WARNING

I

DANGEROUS VOLTAGES ARE PRESENT ON THE CAPACITOR BRACKET BOARD
DURING OPERATION AND FOR FIVE MINUTES AFTER POWER-DOWN. Each filtering
capaCitor can hold a 160 V charge. Wait at least five minutes for the capaCitors to discharge
before accessing the power supplies or related assemblies.
A blinking neon lamp on the capaCitor bracket board, visible beneath a Plexiglas panel,
indicates that an extremely dangerous charge is present in the capaCitors. This lamp continues to blink for approximately 45 seconds after power is turned off. Wait at least five
minutes after the lamp stops flashing before accessing the power supplies.
1. Remove the flat-head, POZIDRIV screws that secure the power supply cover.
2. Lift the cover up and off.

Side Panels
1. Loosen the two large slotted screws on the appropriate side corners of the back panel. Rotate
the plastiC brackets until they no longer block the edge of the side panel to be removed.
2. Slide the panel straight out backwards.

Bottom Panel
When the bottom panel is removed, two windows in the chassis frame provide access to portions
of the interconnect board. Figure 6-2 shows which components are accessible on the monochrome mainframe. Figure 6-3 shows which components are accessible on the color mainframe.
Perform the following procedure to remove the bottom panel.
1. Loosen the two large slotted screws in the lower corners of the back panel. Rotate the plastic
brackets until they no longer block the edge of the bottom panel.
2. Slide the panel straight out backwards.

6-6

Maintenance: General Information-CAS 9100 Series Service Vol. II

1'02,

3·

4·

5·

T101

Q

3836·158

Figure 6·2. Interconnect board components are accessible when the bottom panel is removed (MONOCHROME
ONLY).

6-7

Maintenance: General Information-CAS 9100 Series Service Vol. II

I J427
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3836-200

BACK OF DAS

...

Figure 6-3. Interconnect board components are accessible when the bottom panel is removed (COLOR ONLY).

Removing the Back Panel (MONOCHROME ONLY)
Figure 6-4 shows the parts which must be removed to free the back panel. Remove the back
panel when service requires access to the filtering capacitors, the power supply fan, or the power
supply portion of the interconnect board. This procedure also makes the heat sink accessible.

I WARNING

I

Hazardous voltages may be exposed when the back panel is removed. Be sure power is off
and the power cord is disconnected. After power-down, wait five minutes before starting this
procedure to allow the filtering capacitors to discharge.

1. Remove the top panel and module and power supply compartment covers.

6-8

Maintenance: General Information-DAS 9100 Series Service Vol. II

2. Disconnect the 9-pin and 3-pin connectors between the heat sink and the main power supply
board. Remove the connectors at the main power supply end. Do not pull on the wires.
3. Remove the I/O connector panel by removing the four screws (4-40 x 0.312) in the corners of
the panel. (In Mainframes without the I/O Interface (Option 02), this panel is blank.)
4. Remove the two flat-head, POZIDRIV screws (4-40 x 0.438) in the upper edge of the back
panel. One screw is in the upper left corner (not shown in figure) and the other is near the
center.
5. Remove the four screws (6-32 x 0.375) surrounding the module configuration label. These
screws attach the capacitor frame to the back panel.
6. Remove the three screws (4-40 x 0.312) along the right side of the back panel, the screw (4-40
x 0.312) in the center bottom, and the two screws (6-32 x 0.375) on the left side of the back
panel.
7. Carefully pull the panel away from the mainframe. The power supply fan and the heat sink will
come away with the panel.

I/O CONNECT
PAN

3836-159

Figure 6-4. Removing the back panel (MONOCHROME ONLY).

6-9

Maintenance: General Information-DAS 9100 Series Service Vol. II

To reassemble the back panel (MONOCHROME ONLY):
1. Attach the back panel to the frame with one of the flat-head screws at the top and one of the
POZIDRIV screws (4-40 x 0.312) in the lower right corner.
2. Insert the two screws (6-32 x 0.375) in the left side of the panel.
3. Insert the remaining flat-head screw in the upper edge of the panel. Also insert the remaining
two screws (4-40 x 0.312) in the right side and the screw (4-40 x 0.312) in the center bottom of
the panel.
4. Reattach the I/O connector panel to the back panel. It is secured by four screws (4-40 x
0.312). Refer to Figure 6-8 for placement of the ribbon cable along the I/O board.
5. Insert the four screws (6-32 x 0.375) that secure the capacitor frame to the back panel.

Removing the Back Panel (COLOR ONLY)
The back of the color DAS is a one-piece casting and does not have a removable back panel like
that used on the monochrome DAS. Removal of the color DAS back casting is required only when
the interconnect board is to be removed. Removal of the back casting and the interconnect board
is described later in this section.

INSTALLING/REMOVING INSTRUMENT MODULES
Module Installation
Figure 6-5 illustrates the steps used when installing a module in the mainframe.
1. Position the module over the bus slot, with the ejector tab toward the front of the mainframe.
Make sure this tab is parallel to the top of the module.
2. Insert the module between the guide slots at the top of the mainframe. This procedure is
easiest if you align the module with the rear guide first.
3. Slide the module down through the slots until its connectors are resting on top of the bus slot
connectors on the interconnect board.
4. Push the module down into the bus slot connectors. Press firmly on the board but do not press
on components.

6-10

Maintenance: General Information-DAS 9100 Series Service Vol. II

EJECTOR TAB (down)

3624-11

Figure 6-5. Installing an instrument module in the mainframe. (This figure shows the Monochrome DAS. The Color
DAS is similar.)

Module Removal

Figure 6-6 illustrates the procedure for removing a module from the mainframe.

~
Probes must be disconnected from the rear of the instrument modules before attempting to
remove the modules. Failure to observe this precaution can damage connectors on probes
and modules.

1. Disconnect and remove probes from the rear of the instrument modules.
2. Insert the circuit board ejector tool in the small hole located in the upper rear corner of the
module, then brace it against the rear edge of the mainframe.
3. Use the ejector tool to pry up the back end of the module. Simultaneously, pull up on the inside
edge of the module's ejector tab. You will feel the module disengage from the bus slot
connectors.
4. Grasp the top of the module and pull it straight up. Do not pull on components.

6-11

Maintenance: General Information-DAS 9100 Series Service Vol. II

CIRCUIT BOARD EJECTOR
EJECTOR TAB (up)

3624-12

Figure 6-6. Removing an instrument module from the mainframe. (This figure shows the Monochrome DAS. The Color
DAS is similar.)

Installing the I/O Interface (Option 02)
The I/O interface option consists of a plug-in circuit board and a back panel insert with appropriate connectors and plugs. Install the panel first. Refer to Figure 6-7.

WARNING

I

Hazardous voltages may be exposed when the I/O panel and circuit board are instal/ed. Be
sure power is off and the power cord is disconnected. After power-down, wait five minutes
before starting this procedure to aI/ow the filtering capaCitors to discharge.

1. Unplug the unit.
2. Remove the top panel, the module compartment cover, and the power supply compartment
cover. Wait five minuites after the warning lamp on the capaCitor bracket board stops flashing
before proceding to the next step.
3. Remove the four screws (6-32 x 0.250) in the blank section of the back panel immediately to
the left of the power supply fan cover, and remove the blank panel.
4. Install the I/O connector panel using the screws removed from the blank panel. Position the
ribbon cable as shown in Figure 6-7.

6-12

Maintenance: General Information-DAS 9100 Series Service Vol. II

5. Insert the I/O circuit board in the guide slots. Lower the board until the ribbon cable connector
can be attached to J121.
6. Attach the connector to J121. Be sure to align the pins properly; pin 1 is marked on the board,
and is identified on the plug.
7. Slide the circuit board down the guide slots until its connectors rest on top of the bus slot
connectors.
8. Press the board down evenly and firmly. Do not press on components.

I/O BOARD------...

INSTRUMENT MODULES

RIBBON CABLE - -_____
MODULE GUIDE
SLOT-----...

CAPACITOR AREA

+5 V POWER SUPPLIES

3629-1

Figure 6-7. Installing the I/O Board. (This figure shows the Monochrome DAS. The Color DAS is similar.)

Removing the I/O Circuit Board (Option 02)
Figure 6-8 illustrates the procedure for removing the I/O circuit board.
1. Unplug the unit.
2. Remove the top panel, the module compartment cover, and the power supply compartment
cover. Wait five minutes after the warning lamp on the capacitor bracket board stops flashing
before proceeding to the next step.

6-13

Maintenance: General Information-CAS 9100 Series Service Vol. II

3. Insert the end of the circuit board ejector tool in the small hole in the upper rear corner of the
circuit board.
4. Brace the ejector tool against the back edge of the mainframe, then pry up the back end of the
circuit board.
5. Grasp the top of the board and lift straight up a few inches until the ribbon cable connector is
accessible. Do not pull on components.
6. Disconnect the ribbon cable from the circuit board.
7. Pull the board out of the mainframe.

To remove the I/O (Option 02) rear panel:
1. Remove the four screws (6-32 x 0.250) securing the I/O rear panel to the mainframe rear
casting.
2. Pull the I/O panel out, taking care not to damage the ribbon cable.

,---1/0 BOARD
CIRCUIT BOARD EJECTOR

3836-160

Figure 6-8. Removing the 1/0 board. (This figure shows the Monochrome DAS. The Color DAS is similar.)

6-14

Maintenance: General Information-DAS 9100 Series Service Vol. II

REMOVING/INSTALLING POWER SUPPLIES AND RELATED ASSEMBLIES

I WARNING

I

DANGEROUS VOLTAGES ARE PRESENT ON THE CAPACITOR BRACKET BOARD
DURING OPERATION AND FOR FIVE MINUTES AFTER POWER-DOWN. Each filtering
capacitor can hold a 160 V charge. Wait at least five minutes for the capacitors to discharge
before accessing the power supplies or related assemblies.
A blinking neon lamp on the capacitor bracket board, visible beneath a Plexiglas panel,
indicates that an extremely dangerous charge is present in the capacitors. This lamp continues to blink for approximately 45 seconds after power-down. Wait at least five minutes after
the lamp stops flashing before accessing the power supplies or related assemblies.
NOTE
Use a 7/16 inch open end wrench to remove/install stud-mounted diodes on the +5 V power
modules and the main power supply.

+5 V Power Supply Module Removal
Refer to Figure 6-9. This basic procedure applies to all three +5 V power supply modules.
1. Unplug the unit.
2. Remove the top panel and the power supply cover. Wait five minutes after the warning lamp
on the capacitor bracket board stops flashing before proceeding to the next step.
3. Loosen the two, 1/4 inch hex head screws securing the module to the frame. (It is not necessary to remove the screws.)
4. Lift the module up and out.

6-15

Maintenance: General Information-DAS 9100 Series Service Vol. "

RIGHT +5V POWER SUPPLY
PROVIDES POWER TO
BUS SLOTS 3 AND 4. - - -......

INSTRUMENT MODULES

CENTER +5V POWER SUPPLY
PROVIDES POWER TO
BUS SLOTS 5 AND 6.

LEFT +5V POWER SUPPLY
PROVIDES POWER TO
BUS SLOTS 1 AND 2.
3630-1

Figure 6-9. Removing a +5 V power supply module. (This figure shows the Monochrome DAS. The Color DAS is
similar.)
.

+5 V Power Supply Module Installation
Figure 6-9 shows the required orientation of +5 V power supply modules in the left, center, and
right positions. The modules in the left and right slots have the same placement; the center
module has the reverse orientation.
1. Unplug the unit.
2. Remove the top panel and the power supply cover. Wait five minutes after the warning lamp
on the capacitor bracket board stops flashing before proceeding to the next step.
3. Slide the +5 V power supply module into the mainframe in the appropriate position (left,
center, or right). The position is determined by which instrument module bus slots require
power. Be sure to install the module in the correct orientation.
4. Carefully align the connector on the power supply with the pins on the interconnect board.
Press down firmly. Do not press on components.
5. Secure the module to the frame with the two hex-head screws. Do not over-tighten the
screws.

6-16

Maintenance: General Information-DAS 9100 Series Service Vol. II

E:~
Instrument damage may occur if power is applied to a +5 V power supply module installed
in an incorrect orientation.
Instrument damage is also possible if power is applied to a
aligned with its pins on the interconnect board.

+5 V module that is not properly

iVlain Power Supply Removal
Figure 6-10 illustrates the procedure for removing the main power supply board.
1. Unplug the unit. Remove the top panel and the side panel adjoining the power supplies.
Remove the power supply cover, and wait five minutes after the warning lamp on the CRT
bracket board stops flashing before proceeding to the next step.
2. Remove the three screws securing the main power supply board to the mainframe.
3. Disconnect the 9-pin and 3-pin connectors between the heat sink and the main power supply
board. Pull the connectors at the power supply end. Do not pull on the wires.
4. Use the plastic loop attached to the board to pull it up and out of the mainframe. Pull evenly
and firmly.

~
To avoid instrument damage, do not pull up on components to remove the main power
supply board. Specifically avoid pulling on the power transistor housing in the upper front
corner of the board.

6-17

Maintenance: General Information-DAS 9100 Series Service Vol. II

MAIN POWER SUPPLY
BOARD

3- AND 9-PIN CONNECTORS------.
HEAT SINK - - - - - , .

POWER SUPPLY FAN

METAL HEAT SINK PLATE
3836-201

Figure 6-10. Removing the main power supply board.

Main Power Supply Installation

~
Instrument damage may occur if power is applied when the main power supply board is not
properly connected with the pins on the interconnect board.

1. Position the board with components facing away from the left side of the mainframe. Carefully
align the three connectors on the board with the three sets of pins on the interconnect board.
2. Press down firmly. Do not press on components. If the board is properly positioned on the
interconnect pins, the screw holes in the side support strip will align with the corresponding
holes in the board.
3. Secure the board to the support strip with the three screws (6-32 x 0.312).
4. Connect the 3-pin and 9-pin connectors from the heat sink to J155 and J165.

6-18

Maintenance: General Information-CAS 9100 Series Service Vol. II

Filtering Capacitor Removal (MONOCHROME ONLY)
The filtering capacitors are C305 and C125, 2000 tLF each.
1. Remove the back panel.
2. Remove the three screws (4-40 x 0.250) in the Plexiglas cover over the capacitor bracket
board. Lift the cover off.
3. Remove the four screws (10-32 x 0.312) in the capacitor bracket board (labeled as capacitor
terminals). These screws secure the capacitor bracket board to the capacitors.
4. Remove the connector at J1 01 0 and lift the board out.
5. Remove the two screws (10-32 x 0.375 with internal star washers) that secure the capacitor to
the top of the frame.
6. Remove the two screws (6-32 x 0.250) on the front part of the capacitor frame near the +5 V
power supplies. (These screws can be seen in Figure 6-16.)
7. Carefully lift the frame and capacitors out of the mainframe. It may be necessary to detach the
connectors attaching the capacitors to the interconnect board.
8. Loosen the screw (equipped with external star washer and nut) that holds the circular clamp
around the capacitor. It is not necessary to remove the screw. Pull the capacitor down through
the loosened clamp.

Filtering Capacitor Removal (COLOR ONLY)
The filtering capacitors are C305 and C125, 2000 tLF each.
1. Remove the I/O Interface (Option 02) board and panel.
2. Remove the three screws (6-32 x 0.250) in the Plexiglas cover over the capacitor bracket
board. Lift the cover off.
3. Remove the connector at J1 01 on the capacitor bracket board and lift the board out. (Squeeze
on the ends of the connector to disengage it.)
4. Remove the four screws (10-32 x 0.312) in the capacitor bracket board. These screws secure
the capacitor bracket board to the capacitors.
5. Remove the two screws (6.32 x 0.312), one near each end of the rear-panel CAUTION decal.
6. Remove the two screws (6-32 x 0.250) that secure the capacitor bracket to the +5 V power
supply frame.
7. Carefully lift the frame and capacitors out of the mainframe.

6-19

Maintenance: General Information-DAS 9100 Series Service Vol. II

Heat Sink Removal (MONOCHROME ONLY)
The heat sink is adjacent to the main power supply and directly in front of the power supply fan. It
is shown in Figure 6-10. The heat sink can be accessed by removing the back panel or by the
following procedure:
1. Disconnect the 9-pin and 3-pin connectors attaching the heat sink to the main power supply
board at J165 and J153. Detach the connectors at the main power supply end. Do not pull on
the wires.
2. Remove the three screws (6-32 x 2.000) in the left side and the lower right corner of the power
supply fan cover on the back panel. These screws pass through the fan to the heat sink. DO
NOT remove the screw in the upper right corner of the power supply fan.
3. Carefully lift the heat sink up and out of the mainframe.

Heat Sink Removal (COLOR ONLY)
The heat sink is adjacent to the main power supply and directly in front of the power supply fan. It
is shown in Figure 6-10. The heat sink can be accessed by the following procedure:
1. Disconnect the 9-pin and 3-pin connectors attaching the heat sink to the main power supply
board at J165 and J153. Detach the connectors at the main power supply end. Do not pull on
the wires.
2. Loosen the four screws (6-32 x 2.000) at the corners of the power supply fan cover on the
back panel until the heat sink is free of the fan assembly. These screws pass through the fan
to the heat sink.
3. Carefully lift the heat sink up and out of the mainframe, leaving the fan assembly hanging on
the four screws.

REMOVING THE MONITOR (MONOCHROME ONLY)

I WARNING

I

CRTs RETAIN HAZARDOUS VOLTAGES FOR LONG PERIODS OF TIME AFTER
POWER-DOWN. The monitor should be serviced only by qualified personnel familiar with
CRT servicing procedures and precautions.
USE EXTREME CAUTION WHEN HANDLING THE CRT. Rough handling may cause it to
violently implode. Do not nick or scratch the glass or subject it to undue pressures during
removal or installation. When handling the CRT, wear safety goggles and heavy gloves for
protection.

6-20

Maintenance: General Information-CAS 9100 Series Service Vol. II

Figure 6-11 shows the locations of the two circuit boards in the monitor. It also calls out the parts
that must be disconnected or removed in order to remove the circuit boards.
1. Unplug the unit and wait five minutes before proceeding to the next step.
2. Remove the top panel and the side panel adjoining the power supplies and the monitor.
3. Remove the module compartment cover and the modules in slots 0 and 1.
4. Two metal framing pieces on either side of the monitor provide added support. The right piece
is approximately 5 inches long and connects to the top-front casting, the metal frame behind
the front fan, and the monitor cover. The left piece is a small rectangular piece that is positioned between the left, top side rail and the monitor cover. Remove the screw (6-32 x 0.375)
from the center of the right support piece. This screw connects the metal piece to the monitor
cover. Also, remove the two flat-head POZIDRIV screws (4-40 x 0.375) from the ends of the
frame support.
5. Remove the two screws (top, 6-32 x 0.250; bottom, 6-32 x 0.875) from the left frame support.
6. Remove the four screws (two front, 10-32 x 0.312; two rear, 8-32 x 0.375) securing the
monitor to the bottom of the mainframe. Use a screwdriver with a 7 inch shank to access the
screws on the inner side of the monitor. (A magnetic screwdriver is very helpful.) A small
window in the metal wall between the monitor and the module section permits access to the
screw in the right, back position.
7. Disconnect the ribbon cable connecting the monitor to the interconnect board at J421.
8. Lift the monitor by the two plastiC loops in the metal cover. Raise the monitor slowly; take care
not to jar the monitor on the mainframe rims.
9. The metal cover is secured to the monitor frame by six pan-head, POZIDRIV screws (6-32 x
0.188). Four of these screws rim the back edge of the cover, and the other two are in the top of
the cover, toward the front. The cover is also secured to the monitor frame by two hex-head
screws (8-24 x 0.250 with flat washers) on the lower front corners of the cover.
Remove these eight screws and lift the cover off, pulling out the sides to avoid other screw
heads.

I'<

Wj.l'UV'NGj
eEl;m;;:wwm

CRTs RETAIN HAZARDOUS VOLTAGES FOR LONG PERIODS OF TIME AFTER
POWER-DOWN. Before attempting any work inside the monitor, discharge the CRT by
shorting the anode connection to chassis ground. When discharging, go from ground to
anode.
10. BEFORE REMOVING ANY BOARDS, BE SURE TO DISCHARGE THE CRT BY SHORTING
THE ANODE CONNECTION TO CHASSIS GROUND. Attach a grounding strap to the frame
for ground, then attach the strap to a metal probe. Carefully insert the probe beneath the
plastiC anode connector insulator on the side of the CRT (refer to Figure 6-11).

6-21

Maintenance: General Information-OAS 9100 Series Service Vol. II

NOTE
Instead of probing the anode connector, you can protect yourself from high voltage in the
monitor by separating the two halves of the high voltage rectifier. Gently grasp the two
plastiC insulator guards and pull in opposite directions. This part is labeled in Figure 6-11.
When reconnecting the high voltage rectifier, simply press the two parts together until the
spring (visible through the plastic insulator) is compressed.

To remove the deflection board and signal board (MONOCHROME ONLY):
11. To remove the two monitor circuit boards, the back frame of the monitor must be removed.
Do this by removing the screw (6-32 x 0.188) in the top rear corner of each side of the frame.
12. Remove all connectors between the CRT and both boards and between the deflection board
and the choke coil. Take note of the position of wire colors before pulling any connectors. The
deflection board is connected to the CRT yoke by four single connectors and to the CRT
socket at the end of the yoke by five wires. One yellow wire connects the CRT socket to the
signal board. Pull the CRT socket straight out, away from the end of the yoke. A 3-wire
harmonica connector, next to the high voltage power transformer, attaches the choke coil to
the deflection board. Refer to Figure 6-11.
13. Remove the two screws (8-32 x 0.375 with captive lock washers) that secure the deflection
board to the monitor frame.
14. Carefully pull up on the deflection board to free it from the connector on the signal board.
15. Slide the signal board out of the back of the monitor frame.
16. If it is necessary to adjust or replace the CRT yoke, first loosen the slotted head screw
holding the clamp.

WARNING

I

When removing or replacing connectors and other parts on the boards, do not provide
leverage by pressing on any part of the CRT.

6-22

Maintenance: General Information-DAS 9100 Series Service Vol. II

MONITOR FRAME ------,.
DEFLECTION BOARD
(pull up )

r---HIGH VOLTAGE RECTIFIER

ANODE CONNECTOR
r-----INSULATOR

~++---~~L-~---CRTYOKE

CRTSOCKET--'~~~~~

'-----CHOKE COIL
SIGNAL BOARD-----'
(slide out )
3836-162

Figure 6-11. Item locations for monitor disassembly (MONOCHROME ONLY).

REMOVING THE MONITOR (COLOR ONLY)

WARNING

I

CRTs RETAIN HAZARDOUS VOLTAGES FOR LONG PERIODS OF TIME AFTER
POWER-DOWN. The monitor should be serviced only by qualified personnel familiar with
CRT servicing procedures and precautions.
Before attempting any work inside the monitor, discharge the CRT by shorting the anode to
ground through a 1 Mil resistor. When discharging, connect to ground first, then through a
lead and a 1 Mil resistor to the anode, making sure all conductive materials on the connection are well insulated. Allow at least five minutes for discharge of dielectric materials. Repeat this discharge process several times because dielectric soak-in charges tend to build
up again after they are discharged.
USE EXTREME CAUTION WHEN HANDLING THE CRT. Rough handling may cause it to
violently implode. Do not nick or scratch the glass or subject it to undue pressures during
removal or installation. When handling the CRT, wear safety goggles and heavy gloves for
protection.

6-23

Maintenance: General Information-DAS 9100 Series Service Vol. II

Figure 6-12 shows the locations of the circuit boards in the monitor. It also calls out the parts that
must be disconnected or removed in order to remove the circuit boards.
1. Unplug the unit.
2. Remove the top and bottom panels, the left side panel, the power supply cover, and the
instrument module cover. Wait five minutes after the warning lamp on the capacitor bracket
board stops flashing before proceeding to the next step.
3. Remove the eight screws (6-32 x 0.250) securing the monitor cover to the top of the monitor.
Do not try to lift the cover off yet.
4. Remove the three screws (6-32 x 0.250) securing the side of the monitor cover to the top rail
of the mainframe.
5. Remove the two screws (6-32 x 0.250) securing the side of the monitor cover to the bottom
rail of the mainframe.
6. lift the black-en am ailed cover and the mu-metal shield out of the mainframe. Observe that
the tapered end of the mu-metal shield is toward the rear of the mainframe.
7. Close and latch the keyboard into the face of the mainframe.
8. Place the mainframe face-down on the work surface.
9. Remove the four screws (6-32 x 0.250) from the indents in the bottom of the mainframe.

~
Use care in pulling the monitor out of the mainframe. The cables connecting the monitor to
the mainframe can be damaged by snagging on mainframe components.
10. Carefully pull the monitor straight out of the top of the mainframe.
11. Disconnect the cables from J422 and J410 on the interconnect board near the rear of the
monitor, and disconnect the cable from J645 from the monitor deflection board just under the
rear of the CRT.
12. Return the mainframe to its normal position (flat) on the work surface.
13. To perform tests and adjustments on the monitor, reconnect the cables, open the keyboard
and power up the DAS.

6-24

Maintenance: General Information-DAS 9100 Series Service Vol. II

To remove the Z-axis board, deflection board and CRT socket board (COLOR ONLY):

I WARNING

I

CRTs RETAIN HAZARDOUS VOLTAGES FOR LONG PERIODS OF TIME AFTER
POWER-DOWN. Before attempting any work inside the monitor, discharge the CRT by
shorting the anode connection to chassis ground. When discharging, go from ground to
anode.
When removing or replacing connectors and other parts on the monitor boards, do not
provide leverage by pressing on any part of the CRT.
1. BEFORE REMOVING ANY BOARDS, BE SURE TO DISCHARGE THE CRT BY SHORTING
THE ANODE CONNECTION TO CHASSIS GROUND. Attach a grounding strap to chassis
ground, then attach the other end of the strap to a metal probe. Carefully insert the probe
beneath the plastic anode connector insulator on the side of the CRT (refer to Figure 6-12).
2. Disconnect the cable from P820 near the center of the signal board and mark it for
identification.
3. Remove the three screws (6-32 x 0.250) from the top center of the Z-axis board.
4. Using a circuit board ejector tool, carefully lift straight up on the Z-axis board.
5. Disconnect the cables from the rear of the deflection board and mark each for identification.

~
Before removing the deflection board, the Z-axis board must be either removed or pulled up
clear of the connector pins connecting it to the deflection board. Failure to observe this
precaution can break these pins.
Do not move or remove any of the neck components on the CRT. These are covergence and
purity adjustments which are factory set by the CRT vendor. Any attempt to move or adjust
these components can destroy color capability of the unit.
6. Remove the CRT socket board from the CRT by pulling the socket to the rear. Pull on the
socket, not the board.
7. Slide the CRT socket board through the monitor frame so that it is positioned loosely on top
of the CRT.
8. Remove the screw (6-32 x 0.250) securing the top rear of the high-voltage transformer shield
to the monitor frame.
9. Remove the two screws (6-32 x 0.250) securing the bottom rear of the high-voltage transformer shield to the bottom of the monitor frame.

6-25

Maintenance: General Information-DAS 9100 Series Service Vol. II

10. Remove the screw (6-32 x 0.250) securing the deflection board to the bottom of the monitor
on the side nearest the Z-axis board connectors.

~
Use care in sliding the deflection board out of the monitor frame. The metal shield around the
high-voltage transformer can catch on its mounting bracket and cause damage to the deflection board at the base of the transformer. Also, the CRT socket board can be damaged by
snagging on the monitor frame or CRT yoke.
11. Press on the deflection board on the side nearest the Z-axis board connectors while pulling
on the opposite side with a board ejector tool (hole for pulling is under front corner of highvoltage transformer shield).

Z-AXIS BOARD
MOUNTING SCREWS

Z-AXIS BOARD

--.I----..::.......---~

J420 -I-~~--"":::""'~

J320 -+--+.-.!

'i,....~-+it--++

ANODE
CONNECTOR

CRT
SOCKET-t--I--I-I'"
BOARD

DEFLECTION
BOARD
~~~-(ONFLOOR
OF MONITOR)

J615
J301

HV
'---->---->-

TRANSFORMER
SHIELD SCREWS
3836-202

Figure 6-12. Item locations for monitor disassembly (COLOR ONLY).

6-26

Maintenance: General Information-CAS 9100 Series Service Vol. II

REMOVING THE KEYBOARD
Figures 6-13 and 6-14 illustrate the steps required for removing the keyboard from the mainframe.
Figure 6-15 demonstrates how to dismantle the keyboard to remove the circuit board. Refer to
these figures while reading the following instructions.
1. Pull one of the side panels 6 to 10 inches back from the front of the mainframe.
2. The rear keyboard frame rests on two metal bars (angled approximately 30°) inside the front
molding. Each metal bar is anchored by two socket-head set screws. As shown in Figure
6-14, these screws are inside the mainframe, directly behind the bar assembly. Another
socket-head set screw in the side, front casting permits adjustment of the keyboard's horizontal position by controlling how far the bar assembly recedes into the side casting.
Loosen the side set screw with a 0.050 Allen wrench until about 1/4 inch of the screw is
exposed. It is not necessary to remove the screw.
3. Loosen the two recessed set screws behind the bar assembly with a 1/16 Allen wrench.
These screws are accessible when the side panel is moved back.
4. Push the keyboard toward the loosened bar assembly. The bar will move deeper into the side
casting.
5. Lift the front edge of the keyboard approximately 30° as shown in Figure 6-14. Pull the
keyboard away from the mainframe a few inches. The keyboard cable will slide out of a slot
beneath the screen.
6. Disconnect the connector from the keyboard. Do not pull on the cable.

NOTE
Examine the corner castings of the keyboard frame. The structure of the castings allows the
keyboard to move up and down freely on the angled metal bars on the front of the
mainframe.
7. Remove the two socket-head cap screws (2-56 x 0.188) on the sides of the keyboard frame
near the corner castings (see Figure 6-15). Use a 5/64 Allen wrench.
8. Carefully pull the plastic housing away from the metal keyboard frame and the faceplate and
circuit board.
9. Remove the two flat-head, POZIDRIV screws (4-40 x 0.312) from the bottom of the keyboard
frame.
10. Pull the metal frame away from the faceplate and circuit board. Notice that the two side rails
have guide slots for the circuit board.
11. To remove the keyboard panel (faceplate) from the circuit board, remove the 10 screws (4-40
x 0.312 with washers) securing the two parts.

6-27

Maintenance: General Information-CAS 9100 Series Service Vol. II

Figure 6-13. Socket-head set screws secure the rear keyboard frame to an angled metal bar on the front casting.

6-28

Maintenance: General Information-DAS 9100 Series Service Vol. II

3640-08

Figure 6-14. Lift the front edge of the keyboard 30°, then pull it away from the mainframe.

6-29

Maintenance: General Information-CAS 9100 Series Service Vol. II

METALFRAME----------~

CORNER CASTING ------,.
SOCKET-HEAD SCREW ~

r-"1----"...--------------1"""-.. ----az{l

PLASTIC HOUSING

I

I

I

I

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I

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III

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KEYBOARD FACEPLATE

1- I

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METALFRAME-------~

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PLASTIC HOUSING

I

,
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KEYBOARD
FACEPLATE
,
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METAL SIDE RAIL - - - \

KEYBOARD CIRCUIT BOARD
(reverse of faceplate)

3836-165

Figure 6-15. Dismantle the keyboard to access the circuit board.

6-30

Maintenance: General Information-DAS 9100 Series Service Vol. II

To reassemble the keyboard:

1. Secure the circuit board to the face plate with the ten screws (4-40 x 0.312 with washers).
2. Position the metal frame so that the guide slots in the side rails align with the circuit board.
3. Slide the faceplate and circuit board into the frame.
4. Secure the circuit board to the metal frame with the two flat-head, POZIDRIV screws (4-40 x
0.312).
5. Press the metal frame, with faceplate and circuit board, into the plastic housing until the
screw holes on the side of the frame are aligned with the screw holes on the side of the
housing. It may be necessary to gently pry back the top, side edges of the plastic housing to
let the corner castings slip down completely.
6. Insert the socket-head cap screws (2-56 x 0.188) into the side of the frame.
7. Attach the keyboard cable connector to the circuit board. The connector is a polarized type
and can be joined in only one way.
8. Move the keyboard toward the mainframe, pushing the keyboard cable back into the slot as
you go.
9. Tilt the bottom of the keyboard up until the corner castings slip over the angled metal bars on
the front of the mainframe. Lower the keyboard to its normal position.
10. Tighten the set screw on the side molding until it is flush with the surface.
11. Tighten the two set screws inside the mainframe, behind the bar assembly.
12. Replace the side panel.

REMOViNG THE INTERCONNECT BOARD (MONOCHROME ONLY)

I WARNING

I

Hazardous voltages may be exposed during this disassembly procedure. Be sure power is
off and the power cord is disconnected. After power-down, wait five minutes before starting
this procedure to allow the filtering capacitors to discharge.

Figure 6-16 illustrates the procedures for removing the rear casting so that the interconnect board
can be removed from the mainframe.

6-31

Maintenance: General Information-DAS 9100 Series Service Vol. II

NOTE
Unless otherwise noted, screws mentioned in the text are the pan-head, POZIDRIV type.

1. Remove the four large slotted screws located in the four corners of the back panel. Also,
remove the plastic brackets and springs.
2. Remove the top panel and both side panels. Move the bottom panel back a few inches to
expose a set of screws. Also remove the module and power supply compartment covers.
3. Remove all instrument modules and power supplies.
4. Remove the three screws (6-32 x 0.250) that secure the rear casting to the vertical panel
dividing the instrument modules from the power supplies.
5. Remove the three screws (4-40 x 0.188) inside the mainframe on the floor of the module
compartment that secure the rear casting to the bottom of the mainframe.
6. Remove the Plexiglas cover over the capacitor board.
7. Remove the two screws (6-32 x 0.250) on the top, front part of the capacitor frame, just
beyond the front edge of the capacitor bracket board, and the screw (6-32 x 0.250) on the
outside of the capacitor frame that connects the frame to the power supplies.
8. Remove the two screws (6-32 x 1.000) in the center of the lower edge of the rear casting.
These screws are not visible if the bottom panel is in place.
9. Remove the four TORX screws (8-32 x 1.38) at the four corners of the rear casting.
10. Carefully lower the rear casting. The power supply fan, heat sink, and capacitor frame will
come away with it.
11. Remove the connectors between the filtering capacitors and the interconnect board at J124
and J125 (quick-release) and J121 (harmonica).
12. All remaining connectors on the interconnect board are in the section directly behind the
monitor. Note the position of the connectors, then remove them.
13. Remove the 17 screws (4-40 x 0.250 with washers) that secure the interconnect board to the
bottom of the mainframe.
14. Remove the nut in the lower back, right corner of the mainframe that secures the green and
yellow chassis ground wire.
15. Carefully lift the large, plastic-wrapped cable harness away from the interconnect board.
16. Lift the entire rear casting and set it on top of the mainframe.
17. Carefully move the interconnect board out of the back of the mainframe.

6-32

Maintenance: General Information-DAS 9100 Series Service Vol. II

CAPACITOR BRACKET BD. FRAME - - - .

I
PANEL SEPARATING I
POWER SUPPLIES FROM
MODULE COMPARTMENT---~-tf

II

MAINFRAME FLOOR

POWER SUPPLY::::::
FRAME

o~

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----

~
~

~~~:o~~ ~
~'

:1~~~J
3836·166

Figure 6-16. Removing the rear casting so the interconnect board can be removed from the mainframe (MONOCHROME ONLY).

REMOVING THE INTERCONNECT BOARD (COLOR ONLY)

I WARNING

I

Hazardous voltages may be exposed during this disassembly procedure. Be sure power is
off and the power cord is disconnected before starting this procedure.

Figure 6-17 illustrates the procedures for removing the rear casting so that the interconnect board
can be removed from the mainframe.
NOTE
Unless otherwise noted, screws mentioned in the text are the pan-head, POZIDRIV type.

1. Remove the four large slotted screws located in the four corners of the back panel. Also,
remove the plastic brackets and springs.
2. Remove the top panel, both side panels, and the bottom panel. Also remove the instrument
module and power supply compartment covers. WAIT UNTIL THE WARNING LAMP ON
THE CAPACITOR BRACKET BOARD STOPS FLASHING BEFORE PROCEEDING TO THE
NEXT STEP.

6-33

Maintenance: General Information-DAS 9100 Series Service Vol. II

3. Remove all instrument modules and power supplies.
4. Remove the three screws (6-32 x 0.250) that secure the rear casting to the vertical panel that
divides the instrument modules from the power supplies.
5. Remove the Plexiglas cover over the capacitor board.
6. Remove the two screws (6-32 x 0.250) on the top, front part of the capacitor frame, just
beyond the front edge of the capacitor bracket board.
7. Remove the two screws (6-32 x 1.000) in the center of the lower edge of the rear casting.
These screws are not visible if the bottom panel is in place.
8. Remove the four TORX screws (8-32 x 1.38) at the four corners of the rear casting.
9. Carefully lower the rear casting. The power supply fan, heat sink, and capacitor frame will
come away with it. Place the rear panel to one side so that wires that remain connected are
out of the way.
10. Note the position of all connectors at the rear of the interconnect board, disconnect them and
disconnect the cable leading to the degaussing switch on the rear panel.
11. Remove the screw (4-40 x 0.312) securing the power supply cage to the floor of the
mainframe.
12. Remove four screws (6-32 x 0.250) securing the power supply cage to the mainframe center
divider.
13. Remove three screws (6-32 x 0.250) securing the power supply cage to the upper-outside rail
of the mainframe.
14. Remove one screw (6-32 x 0.250) securing the power supply cage to the lower-outside rail
near the center of the mainframe.
15. Carefully lift the +5 V power supply frame out of the top of the mainframe.
16. All remaining connectors on the interconnect board are in the section directly behind the
monitor. Note the position of the connectors, then remove them.
17. Remove the 17 screws (4-40 x 0.250 with washers) that secure the interconnect board to the
bottom of the mainframe.
18. Remove the nut in the lower back, right corner of the mainframe that secures the green and
yellow chassis ground wire, and remove the nut at the lower center of the mainframe that
secures the shielding to chassis ground.
19. Carefully lift the degaussing cable harness away from the interconnect board.
20. Disconnect the single black and white wire from the WORD RECOGNIZER OUTPUT connector on the inside of the rear casting.

6-34

Maintenance: General Information-DAS 9100 Series Service Vol. II

21. Disconnect the single blue and white wire from the TRIGGER INPUT connector on the inside
of the rear casting.
22. Lift the entire rear casting and set it on top of the mainframe.
23. Carefully move the interconnect board out of the back of the mainframe.

PANEL SEPARATING
POWER SUPPLIES
FROM MODULE
COMPARTMENT
~--+

CAPACITOR
BRACKET

/

3836-203

Figure 6-17. Removing the rear casting so the interconnect board can be removed from the mainframe (COLOR
ONLY).

REMOVING THE FRONT FAN AND THE POWER SWITCH
(MONOCHROME ONLY)
Removing the Front Fan (MONOCHROME ONLY)
1. Remove the top panel, the module compartment cover, and all instrument modules. Removing
the side panel adjoining the fan is helpful but not necessary.
2. Remove the two screws (6-32 x 0.875) in the horizontal metal bar located between the two
plastic module guide bars. Refer to Figure 6-18.

6-35

Maintenance: General Information-DAS 9100 Series Service Vol. II

3. Pull the fan housing up from the mainframe. Place the fan on top of the monitor cover. Unless
the wires connecting the fan to the mainframe are disconnected, the fan cannot be moved
farther.
4. If you need to replace the fan or disconnect the wires joining it to the mainframe, remove the
four screws (8-32 x 2.000 with nut and assembled lockwasher) that secure the fan assembly to
the housing.
5. Lift the fan assembly out of the housing until the connectors attaching the power wires to the
fan can be removed.
6. Make a note of the position of the different wire colors then pull the connectors. Long-nose
pliers are helpful.
7. Thread the wires back through the hole in the housing to free the fan assembly from the
housing and the entire unit from the mainframe.

Removing the Power Switch (MONOCHROME ONLY)
1. Remove the top panel and the module compartment cover.
2. Remove the front fan.
3. If a tape drive (Option 01) is installed in the mainframe, remove the tape drive data board.
4. Remove the plastiC power switch knob on the front of the mainframe. This is accomplished by
unscrewing the knob while holding the shaft to the switch assembly steady with long-nose
pliers.
5. To remove the power switch bracket and expose the toggle switch, remove the two screws
(4-40 x 0.250) at the back of the bracket.
6. To free the entire switch assembly from the mainframe, remove the three screws (4-40 x
0.312) on the outer edges of the assembly. There are two screws on the front of the assembly
and one on the rear.

6-36

Maintenance: General Information-DAS 9100 Series Service Vol. \I

f"lgure 6-18. Location of the screws that attach the front fan to the mainframe (MONOCHROME ONLY).

6-37

Maintenance: General Information-DAS 9100 Series Service Vol. II

REMOVING THE FRONT FAN AND THE POWER SWITCH (COLOR ONLY)
Removing the Front Fan (COLOR ONLY)
1. Remove the top panel, the module compartment cover, and all instrument modules. Removing
the side panel adjoining the fan is helpful but not necessary. Also, removing the eight top
screws from the monitor cover helps clear the wires leading to the front fan assembly. (It is not
necessary to entirely remove the monitor cover.)
2. Remove the four screws (6-32 x 0.250) securing the fan to mainframe (refer to Figure 6-19).
These screws are accessed through the instrument module compartment.

3. Pull the fan housing up from the mainframe. Place the fan on top of the monitor cover. Unless
the wires connecting the fan to the mainframe at J419 Oust behind the monitor) are disconnected, the fan cannot be moved farther.

4. If you need to replace the fan or disconnect the wires joining it to the mainframe, remove the
four screws (8-32 x 2.000 with nut and assembled lockwasher) that secure the fan assembly to
the housing.

5. Lift the fan assembly out of the housing until the connectors attaching the power wires to the
fan can be removed.

6. Make a note of the position of the different wire colors then pull the connectors. Long-nose
pliers are helpful.

7. Thread the wires back through the hole in the housing to free the fan assembly from the
housing and the entire unit from the mainframe.

TOP OF FRONT FAN HOUSING
FRONT
OF
UNIT
FAN
MOUNTING
SCREWS

FAN
MOUNTING
SCREWS

3836·204

Figure 6-19. Location of the screws that attach the front fan to the mainframe (COLOR ONLY).

6-38

Maintenance: General Information-CAS 9100 Series Service Vol. II

Removing the Power Switch (COLOR ONLY)

If the color monitor has been removed from the mainframe, start this procedure at step 5. If it has
not been removed, begin at step 1.
1. Remove the top panel, bottom panel, and the module compartment cover.
2. Remove the front fan.
3. If a tape drive (Option 01) is installed in the mainframe, remove the tape drive data board.
4. Unscrew the plastic power switch knob on the front of the mainframe.
5. Place the mainframe on its side.
6. Hold onto the switch assembly with one hand. With the other, remove the two screws (6-32 x
0.250) on the bottom of the mainframe that secure the power switch assembly to the
mainframe.
7. Lift the switch free of the mainframe, note the color coding of the four wires connected to the
switch, and disconnect those wires.
8. Remove the rear screw (6-32 x 0.5000) securing the two parts of the switch bracket and
separate the sliding portion from the stationary portion.
NOTE
When this screw is reinstalled during reassembly, adjust the screw so that the on-off action
of the switch assembly is firm but does not bind.

9. Squeeze on the ends of the switch assembly and slide it out through the top of the bracket.

REMOVING THE TAPE DRIVE (OPTION (1)
Figure 6-20 shows the positions of the four circuit boards and the tape transport assembly in the
tape drive.
1. Remove the top panel, the bottom panel, the module compartment cover, the side panel
nearest the tape drive, and all instrument modules.
2. Remove the front fan assembly.
To remove the tape drive data board:

1. Note the position of the six colored connectors at the edge of the board, then disconnect them.
2. Remove the two screws (4-40 x 0.250 with washers) securing the tape drive data board to the
tape transport assembly; lift the board out of the mainframe.

6-39

Maintenance: General Information-DAS 9100 Series Service Vol. II

To remove the servo board:
1. Disconnect J131, J132, and J351 from the servo board.
2. Remove the four screws (4-40 x 0.250 with washers) that secure the board to the bottom of
the mainframe. Lift the board out of the mainframe.
To remove the tape transport assembly (MONOCHROME ONLY):
1. Remove the tape drive data board.
2. Disconnect the 2-pin connector on the servo board at J367. No other connectors need be
removed.
3. Remove the two screws (6-32 x 0.625) in the base of the transport assembly that attach the
assembly to the mainframe. Lift the unit composed of the tape transport assembly, the status
board, and the sensor board out of the mainframe.
To remove the tape transport assembly (COLOR ONLY):
1. Remove the tape drive data board.
2. Disconnect the 2-pin connector on the servo board at J367. No other connectors need be
removed.
3. Place the mainframe on its side.
4. Hold onto the tape transport assembly with one hand. With the other, remove the four screws
(6-32 x 0.250) that secure the transport assembly to the mainframe. (These screws are accessed on the bottom of the mainframe.)
5. Lift the unit composed of the tape transport assembly, the status board, and the sensor board
out of the mainframe.
To remove the sensor board:
1. Remove the tape transport assembly.
2. Pull the connector between the sensor board and the status board at J11 on the sensor board.
3. Remove the screw (4-40 x 0.250) that attaches the sensor board to the tape transport
assembly.
To remove the status board:
1. Remove the tape transport assembly.
2. Disconnect the 8-pin connector at J2 on the status board.
3. Carefully remove DS2 from its holder beneath the status board with angled tweezers.

6-40

Maintenance: General Information-CAS 9100 Series Service Vol. II

4. Remove the thread-forming screw (2-32 x 0.312) on the edge of the board between 81 and 82.
5. Remove the screw (4-40 x 0.312 with washer) near J2 that secures the status board to the
tape transport assembly.

~
Do not bend the gold switch arms on S1 and S2. Keep clothing and tools away from these
delicate parts.

To remove the motor from the tape transport assembly:
Figure 6-21 is an exploded-view of the tape drive, and is the reference for disassembly and
reassembly of the tape drive.
NOTE
Numbers following the drive components correspond to the labels in the exploded-view
figure.

1. Remove the tape transport assembly from the mainframe.
2. Remove the sensor board.
3. Use long-nose pliers to remove the motor support springs (4) located on each side of the
motor (3). 8ee Figure 6-21.
4. Remove the eject spring (7) on the side of the transport assembly.
5. Remove the four screws (two 4-40 x 0.312 and two 4-40 x 0.625 with washers) (5) (6) in the
corners of the bottom of the transport assembly that hold the two halves together.
6. As you separate the two halves of the tape transport assembly, the motor can be removed. Be
very careful not to damage the tach wheel (1).

6-41

Maintenance: General Information-CAS 9100 Series Service Vol. II

Figure 6-20. Location of the four circuit boards and the tape transport assembly in the tape drive. (This figure shows
the Monochrome DAS. The Color DAS is similar.)

To reassemble the tape transport assembly:
1. Position the tach wheel in the upper half of the assembly.
2. Carefully move the lower half of the assembly around the motor and up to join the upper half.
Secure the two halves with the four screws (two 4-40 x 0.312 and two 4-40 x 0.625 with
washers) (5) (6); the longer screws belong nearest the motor.
3. Replace the motor support springs (4) and the eject spring (7).
4. Replace the sensor board (2). Replace the connector at J11. The tape transport unit is now
ready to be reinstalled in the mainframe.

6-42

Maintenance: General Information-DAS 9100 Series Service Vol. II

A18A1

A18A3A1

3836-208

Figure 6-21. Exploded view of tape drive mechanical parts.

PREVENTIVE

MA~NTENANCE

Preventive maintenance consists of periodic cleaning and inspection. When performed on a regular basis, instrument breakdown will be reduced and reliability will increase.
The severity of the conditions under which the instrument is operated will determine the frequency
of preventive maintenance procedures. A convenient and appropriate time to perform these procedures is immediately prior to instrument adjustment.

6-43

Maintenance: General Information-DAS 9100 Series Service Vol. II

TAPE DRIVE PREVENTIVE MAINTENANCE
In order to minimize oxide and foreign matter accumulation, the read/write head of the drive
should be cleaned regularly. Frequency of cleaning depends on the frequency of use and upon the
cleanliness of the area in which the drive is used. Recommended cleaning intervals are once a
month for units that are used moderately; once a week for units that are used where high foreign
matter accumulations occur. The read/write head should be cleaned with reagent grade 91 %
isopropyl alcohol and a cotton swab. Other solvents can damage the plastic of the read/write
head and chassis. Refer to Figure 6-22 for the location of the read/write head.

~
Damage to the tape's read/write head may occur if any solvent other than isopropyl alcohol
is used in cleaning.
The read/write head should also be de-magnetized periodically as part of the standard preventive
maintenance routine. Use a standard cassette tape head demagnetizer and follow the instructions
that come with it.

' - - - READ/WRITE HEAD
3836-169

Figure 6-22. Location of the read/write head in the tape drive.

EXTERIOR CLEANING
Dust the exterior surfaces with a dry, lint-free cloth or a soft bristle brush. If hard dirt remains, use
a cloth or swab dampened with warm water or a mild detergent. The swab is also useful for
cleaning in narrow spaces around the controls. Do not use abrasive compounds.

6-44

./

Maintenance: General Information-DAS 9100 Series Service Vol. II

~
To prevent getting water inside the instrument during external cleaning, use only enough
water to dampen the cloth or swab.
DO NOT use chemical cleaning agents as they may damage the plastics used in the instrument. In particular, avoid chemicals that contain benzene, toluene, xylene, acetone, or similar solvents.

INTERIOR CLEANING
Internal cleaning should be done with a dry, low-velocity stream of air. A soft bristle brush is
useful for cleaning around components. If a liquid must be used for minor internal cleaning, use
isopropyl alcohol.
Should the interior of the instrument be so dirty as to require a thorough cleaning, it can be
washed according to the wash procedure below.

~
DO NOT wash the power switch. The power switch must be covered during washing
procedures.
When washing near unsealed electromechanical components like the keyboard keys and the
tape drive sensing switches, use as little washing action as possible. This is to prevent
washing the lubricant out of the switches and getting an excess of detergent into the contact areas of the switches.
DO NOT use a freon-based cleaner for cleaning the circuit boards. Freon will destroy aluminum capaCitors.
DO NOT use fluorocarbon base spray cleaners or silicon spray lubricants on switches or
switch contacts. These sprays may damage the circuit board material or plastic parts, and
leave a dust-collecting residue. If necessary, New Improved NO NOISE may be used as a
lubricant.
1. Disassemble the instrument to the point that all areas requiring washing are easily accessible.
The amount of disassembly required will vary according to the instrument configuration and
what options are installed. During disassembly, refer to the Disassembly/Installation Procedures described earlier in this section.
2. Cover the main power switch in the front of the mainframe to prevent detergent from getting
inside.
3. Spray-wash components with a 5% solution of mild detergent and water (Kelite, or equivalent,
is a usable mild detergent).

6-45

Maintenance: General Information-CAS 9100 Series Service Vol. II

NOTE
After performing the previous steps, be sure to perform the following procedure on the bus
connectors on the interconnect board and on the connectors on the instrument modules,
power supplies, and options.
4. Thoroughly rinse components with clean water.
5. Blow-dry components with low velocity air.
6. Spray all switch contact areas and connectors with isopropyl alcohol, wait 60 seconds, then
blow dry with low velocity air.
7. Heat all components in an oven or compartment using Circulating air at + 51 to + 65 ° C ( + 125
to +150°F).
8. If necessary, the contact areas of push switches can be lubricated with New Improved NO
NOISE.

INSPECTION
Inspect the instrument for broken connections, frayed wires, poorly seated components, leaking
capacitors, damaged hardware, and heat damaged components.
Repair any obvious problems. However, take particular care if you find any heat damaged parts.
Overheating usually indicates other circuit problems. To prevent a recurrence of the damage, find
and correct the cause of the overheating (see the Maintenance: Troubleshooting section).

POWER-UP SELF-TEST
The power-up selt-test can indicate when maintenance is required. If any of the power-up diagnostics are not passed when the instrument is turned on, maintenance is required. Additional indepth diagnostic routines are discussed in the Troubleshooting and the Diagnostic Test
Description sections.

CORRECTIVE MAINTENANCE
OBTAINING REPLACEMENT PARTS
All electrical and mechanical replaceable parts for the instrument can be obtained through your
Tektronix Field Office or representative. However, many of the standard electrical components
can be obtained locally. Before purchacing an ordinary part, check the Replaceable Parts list for
value, tolerance, rating and description.

6-46

Maintenance: General Information-CAS 9100 Series Service Vol. II

~
Check the parts list before replacing electrical components. If the part is called out as
screened or burned-in, the replacement part must also be screened or burned-in or the
repair may not be effective.
NOTE
When selecting replacement parts, remember that the physical size and shape of a component
may affect its performance in the instrument. All replaceable parts should be direct replacements
unless it is known that a different component will not adversely affect instrument performance.

Most of the mechanical parts and some of the electrical parts in this instrument are manufactured
by Tektronix. Some parts are manufactured or selected by Tektronix to satisfy particular requirements, or are manufactured to certain specifications for Tektronix. To determine the manufacturer of a part, refer to the Parts List Cross Index of Code Number to Manufacturer. This is found in
the Replaceable Parts list.
When ordering replacement parts from Tektronix, include the following information:
1. Instrument type
2. Instrument serial number
3. A description of the part (if electrical, include the component number)
4. Tektronix part number

STRAPS AND TEST POINTS
Before attempting any corrective maintenance, the location and orientation of straps on the circuit
should be verified. In the Reference Information section, all circuit boards with straps and/or test
pOints are shown along with the proper orientation of each strap. The function of each test point
on the board is also given with the illustration.

FUSE LOCATIONS
There are four fuses in the mainframe. One fuse is accessible through the fuse holder on the back
panel of the mainframe. One fuse is located on the Main Power Supply board. Two fuses are on
the capacitor bracket board inside the power supply compartment of the mainframe. Refer to the
Disassembly/Installation Procedures, earlier in this section, for access to the capacitor bracket
board.
There is one fuse in each P6452 Data Acquisition Probe. This fuse must be un-soldered to be
replaced.

6-47

Maintenance: General Information-DAS 9100 Series Service Vol. II

CIRCUIT BOARD PIN REPLACEMENT
A circuit-board pin replacement kit, including necessary tools, instructions, and replacement pins
with attached spare ferrules, is available from Tektronix.

~
Replace circuit board pins on multi-layer boards with extreme care. These boards have
conductive paths laminated between the top and bottom board layers. All soldering, removal, and reinsertion of pins must be done with care to prevent breaking any electrical paths on
the board.

To replace pins (refer to Figure 6-23 while reading these instructions):
1. Use a 15 W soldering iron to unsolder the pin while pulling it out of the board with a pair of
pliers. If the pin is too short to use the pliers, it can be pushed out with any round device not
over 0.028 inches in diameter.
2. If the ferrule remained in the board, carefully ream the solder out with a 0.031 inch drill. If the
ferrule came out with the pin, clean the excess solder out of the hole with a solder-removing
wick and a scribe.
3. If the ferrule remained in the board, remove the ferrule from the new pin and insert the pin into
the old ferrule in the same orientation as the old pin. If the ferrule came out with the old pin,
insert the new pin with ferrule in the same orientation as the old pin.
4. When the new pin is properly positioned in the circuit board, carefully solder it on both sides of
the board.

6-48

Maintenance: General Information-DAS 9100 Series Service Vol. II

REPLACEMENT
PIN

SPARE
FERRULE

PROPER
PLACEMENT OF
FERRULES IN
CIRCUIT BOARD
1967-5

Figure 6·23. Circuit board pin and ferrule.

REPAIRING MULTI-CONDUCTOR CONNECTORS
Some of the interconnecting cable assemblies in the instrument consist of multi-conductor cable
with machine-installed terminal connectors, mounted in plastic holders. For a picture of these
connectors refer to Figure 6-24_ The plastic holders can be replaced easily. However, if the cable
is defective it must be replaced as a complete cable assembly_ If one of the terminal connectors
comes loose from the plastic holder, it can be reinstalled as shown in Figure 6-24. When reinstalling the connector into the circuit-board pins, be sure to match the triangle on the connector.

6·49

Maintenance: ·General Information-CAS 9100 Series Service Vol. II

TURN

~~ ~'
~~ •. ~
...•

CRIMPEDSIDE~
z···· . ·~
OF TERMINAL
..", "
l)

CONNECTOR
---TOWARD HINGED
PORTION OF
HOLDER

II

(2042-36) 2145-42

Figure 6-24. Multi-conductor terminal connectors_

REPAIRING THE DISPLAY MONITOR
The display monitor is delicate and contains high voltages. Follow these precautions as you
handle the monitor:
• While performing maintenance on the display monitor, keep the chassis grounded, then use
only one hand when making tests. This prevents hand-to-hand electrical shock.
• Use extreme care when handling the CRT. Rough handling may cause the tube to implode due
to pressure differential. Do not nick or scratch glass or subject it to undue pressure in removal
or installation. When handling, safety goggles and heavy gloves should be worn for protection.
• Discharge the CRT by shorting the anode to chassis ground. When discharging, make connections first to ground then to anode.
• Always reinstall protective devices, such as insulation, isolation resistors and capacitors, and
shields after working on a monitor.

6-50

Maintenance: General Information-DAS 9100 Series Service Vol. II

o

Before returning a serviced display monitor, the unit must be tested to verify its safety as
follows (do not use a line isolation transformer for the following test):
1. Connect a 1500 n, 10 W resistor across the leads of a 1000 n per V (or higher sensitivity)
ac voltmeter.
2. Connect the common lead of the meter to a good earth ground such as a water pipe.
3. Connect the voltage lead to the display monitor frame.
4. Apply ac line voltage to the monitor.
5. Observe that the meter indication does not exceed 7.5 V. If the indicated voltage exceeds
this value, locate and repair the fault.
6. Reverse the ac line voltage and again observe that the meter indication does not exceed
7.5 V. If the indicated voltage exceeds this value, locate and repair the fault.

REPAIRING THE CAS CARRYING HANDLE
The carrying handle of the instrument is an integral part of the side panel to which it is connected.
If the handle is damaged, the entire side panel must be replaced as a unit.

REPAIRING A P6452 DATA ACQUISITION PROBE
The P6452 probe is generally repairable to the component level. However, note that the hybrids
that provide all active circuitry for the probes are bonded to the circuit board. New hybrids cannot
be bonded to the board without destroying the new hybrid. If any active circuitry fails in a P6452,
then the entire circuit board and both hybrids must be replaced.

REPAIRING A P6454 100 MHz CLOCK PROBE
The P6454 probe is calibrated at the factory by having its cable cut to an electrical length. If the
cable needs to be replaced, the new cable must have the same electrical length as the old cable.
For this reason, do not replace the cable with anything other than the Tektronix part shown in the
Replaceable Parts List. The Tektronix cable has already been cut to electrical length. When
installing this cable, DO NOT CUT MORE CABLE THAN IS ABSOLUTELY NECESSARY for
proper soldering.
If the P6454 hybrid needs to be replaced, there are certain soldering precautions that should be
followed. These precautions are listed below.
o

Keep soldering temperature and time to a minimum to avoid melting the hybrid.

o

Use as small an amount of solder as possible.

• Take care not to scrape the gold plating from the leads.

6-51

Maintenance: General Information-DAS 9100 Series Service Vol. II

REPAIRING A P6455 TTl/MOS PATTERN GENERATOR PROBE
The P6455 probe is repairable to the component level. Note that the hybrids running parallel to
the long axis of the case are considered components, and may not be repaired internally. If they
fail, they must be replaced.

REPAIRING A P6456 Eel PATTERN GENERATOR PROBE
The P6456 probe is repairable to the component level. There are no special precautions required
to repair this probe.

REPAIRING THE TAPE DRIVE (OPTION 01)
Refer to the Disassembly/Installation Procedures while repairing the tape drive. In particular, note
that the tape head is glued into the tape drive housing, so it can neither be adjusted nor replaced.

6-52

MAINTENANCE:
TROUBLESHOOTING
TROUBLESHOOTING PRECAUTIONS. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
Internal Instrument Access. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
Soldering. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
Static Discharge Damage. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .

7

. . . . . ..
. . . . . ..
. . . . . ..
. . . . . ..

7-1
7-1
7-1
7-1

TROUBLESHOOTING EQUIPMENT . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .. 7-2
TROUBLESHOOTING AIDS . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .. 7-3
THE DIAGNOSTIC MENU. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .. 7-3
Diagnostics Control Summary . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .. 7-5
Diagnostics Menu User-Changeable Fields. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .. 7-5
THE TROUBLESHOOTING TREE. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . ..
Using the Troubleshooting Tree . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . ..
Starting the Tree ........................................................
Troubleshooting DAS Power Supplies . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . ..
The Main Power Supply Chart ...........................................
The Main Power Supply Series Pass Section ...............................
The + 5 V Power Supply Module Chart. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . ..
Troubleshooting Advances in the 91 P16 . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . ..
Troubleshooting the Tape Drive Servo Board. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . ..
Troubleshooting Option 02, the I/O Interface. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . ..
Equipment Needed to Troubleshoot the I/O Interface . . . . . . . . . . . . . . . . . . . . . . . ..
Troubleshooting the DAS Interface ...... . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . ..
Troubleshooting the RS-232. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . ..
Troubleshooting the GPIB ...............................................
Troubleshooting the Color Monitor. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . ..

7-6
7-6
7-7
7-17
7-17
7-17
7-18
7-105
7-130
7-135
7-135
7-135
7-136
7-138
7-139

Section 7-DAS 9100 Series Service Vol. \I

MAINTENANCE: TROUBLESHOOTING
Tektronix maintains repair and recalibration facilities at its local Field Service Centers and the
Factory Service Center. For further information or assistance, contact your local Tektronix Field
Office or representative.

TROUBLESHOOTING PRECAUTIONS
INTERNAL INSTRUMENT ACCESS

WARNING

I

Electric shock hazards inside the instrument may be exposed when protective covers are
removed.

To gain access to the interior of the instrument, refer to the disassembly procedures in the
Maintenance: General Information section.

SOLDERING
Most of the components in the instrument are soldered in place. If it is necessary to replace a
soldered part, use a 15 W soldering iron to prevent heat damage to the circuit board or components. Excessive heat will lift circuit runs on the circuit board.
The flux in the solder may leave a residue on the circuit board, which can provide a high resistance leakage path and affect instrument operation. Be sure to clean off this residue with isopropyl alchohol or a similar solvent.

STATIC DISCHARGE DAMAGE

~
All devices in the instrument are susceptible to damage by static discharge to some degree.

Most of the devices used in the DAS are static sensitive and may be damaged by improper
handling. See Table 7-1 for the relative susceptibility of various classes of semiconductors. Static
voltages of 1 to 30 kV are common in unprotected environments.

7-1

Maintenance: Troubleshooting-DAS 9100 Series Service Vol. II

Table 7-1
Relative Susceptibility of Semiconductors to Static Discharge Damage
Semiconductor Class
MOS or CMOS
ECl
Schottky signal diodes
Schottky TTL
High frequency bipolar transistors
JFETs
Linear microcircuits
low-power Schottky TTL

Danger Voltage a
100-S00V
200 - SOO V
2S0V
SOOV
400 - 600 V
600 - 800 V
400 - 1000 V
1200 V

aVoltage discharged from a 100 pF capacitor through a resistance of 100 n.

TROUBLESHOOTING EQUIPMENT
The following equipment, or equivalent, is recommended for troubleshooting DAS 9100 systems.
• DAS 9100 Series Service Maintenance Kit (see Optional Accessories for the part number).
• A 200 MHz (or better), 2 channel oscilloscope (for example, the TEKTRONIX 47S Oscilloscope).
• A 100 MHz pulse generator with variable amplitude (for example, the TEKTRONIX PG S02
Pulse Generator).
• A 3.S digit, 1% accuracy digital multimeter (for example, the TEKTRONIX OM 502A Digital
Multimeter).
• A variable voltage source.
The above equipment is needed for most DAS troubleshooting. The following equipment is needed only in special cases.
• A general purpose logic analyzer (for example, the SONY/TEKTRONIX 308 Data Analyzer, the
TEKTRONIX 7001 logic Analyzer, or another DAS).
• A TEKTRONIX 4051 Desktop Computer is required when troubleshooting the Option 02 1/0
Interface of the DAS. The 4051 may also be useful in troubleshooting the DAS Controller board.
NOTE

All Basic programs found in this text are written for a Tektronix 4050 series computer and
may be incompatible with other versions of Basic.

7-2

Maintenance: Troubleshooting-DAS 9100 Series Service Vol. \I

TROUBLESHOOTING AIDS
The DAS contains a set of self-diagnostic tests. These tests can be used by the troubleshooter to
isolate the section of a circuit board that failed, and in some instances, to indicate the specific
component at fault.
The self-diagnostics are the basis of the troubleshooting tree provided later. This tree starts from
the power-up tests provided by the diagnostics and, in many instances, isolates circuit faults to
specific components. The diagnostic tests may also be used alone, without the tree, by looking up
the description of the test in the Maintenance: Diagnostic Test Descriptions section of this
manual.
There are parts of the troubleshooting tree that do not rely on the self-diagnostics. For example,
the Main Power Supply, the +5 V Power Supplies, Option 01 (the tape drive), and Option 02 (the
I/O interface) are not examined by the self-diagnostics. The Controller board has very little internal
diagnostics. Troubleshooting methods for these parts of the DAS are also in this section.
As an additional aid in troubleshooting, those circuit boards with extensive diagnostics have the
signal flow of the diagnostics shown in colors on the schematics. For more information on the
uses of the color coding on the schematics refer to the introduction of the Diagrams section.

THE DiAGNOSTICS MENU
The DAS diagnostics present their information in two menus: the power-up display and the
Diagnostics menu.
The DAS self-diagnostics are only accessible when the power-up display shows that one of the
modules has failed the power-up diagnostics. The power-up diagnostics are a limited number of
fast functional tests that are run whenever the DAS is powered up. These tests verify the basic
functions of the DAS, but should not be considered comprehensive.
It is possible for a module in the DAS to fail in such a way that the power-up diagnostics do not
detect the failure. To access the self-diagnostics in this situation, the operator can induce a
diagnostic failure from the keyboard by holding down any key on the keyboard (other than SHIFT)
from the time the DAS is turned on to the time the power-up diagnostics are finished.
When the power-up diagnostics fail, the power-up display should be similar to Figure 7-1. To enter
the Diagnostics menu, press the START SYSTEM key.

NOTE
Do not press any key other than START SYSTEM. If you do, you may leave the power-up
display, and lose access to the diagnostics menu. The only time the diagnostics are accessible is when the power-up display shows a failure.

7-3

Maintenance: Troubleshooting-DAS 9100 Series Service Vol. II

TEKTRONIX CAS 9180 SELF TEST IN PROGRESS

FIRMWARE UERSIIIH 1.97

tXtfIQRATIIIH :
SLOT 0
SLOT 1

SLOT 2
SlOT3
SlOT 4

CONTROLLER
91P16 16 CHANNEL I 4BnS PATTERN GENERATOR
91A32 32 CHANNEL I 49nS ACQUISITION MODULE

91A32 32 CHANNEL I 49nS ACQUISITION MODULE
BCHANNEL I 19n5 ACQUISITION MODULE
SlOT 6 91A0B
SLOT7 TRIGGER I TIME BASE
SlOT B lIO OPTION
SLOT 5

PRESS:

FAIL B3F
PASS
PASS
PASS
PASS

PASS

START SYSTEM TO ENTER DIAGNOSTICS.
DON'T CARE TO BEGIN OPERATION.
3836-209

Figure 7-1. Failure in the power-up self-test.

When first entered, the Diagnostics menu should look similar to Figure 7-2. The Diagnostics menu
is controlled in the same way as the standard menus.
All changeable fields are shown in the reverse video. Fields are changed by moving the blinking
screen cursor into the field to be altered. Cursor movement is controlled by the up, down, right,
and left cursor arrows, and the NEXT key. The value in the field is changed either by using the
SELECT key, or by entering a hexadecimal value from the data entry keys.

DAS 9190 DIAGNOSTICS

MODULE: . .

LOOPING: . .

SlOTS:
9 CctrrROLLER

1 91P16

291AJ2

4
5 91AJ2
6 91A08

3

7 TRIGGER

PRESS: START SYSTEM TO BEGIN TEST.
3836-210

Figure 7-2. Diagnostics Menu

7-4

Maintenance: Troubleshooting-DAS 9100 Series Service Vol. II

After the various fields have been changed to run the desired test, the test can be started by
pressing the START SYSTEM key. A test can be stopped at any time by pressing the STOP key.
The Diagnostic menu may be exited by pressing any menu selection key while no tests are
running. This will display the selected menu on the screen. The diagnostics cannot be re-entered
from the standard menu displays.

DIAGNOSTICS CONTROL SUMMARY
In summary, the diagnostics are controlled in the following way:
• A power-up diagnostic failure is forced by pressing and holding down a keyboard key immediately after turning on the DAS.
• The START SYSTEM key is pressed to enter the Diagnostic test menu.
• The reverse video fields on the display are changed to the desired values using the cursor
control keys and the data entry keys .
.. The START SYSTEM key is pressed to start the diagnostic test or function .
., The function will either stop by itself, or the STOP key may be pressed to stop the function at
any time .
.. The Diagnostics menu may be exited at any time by pressing a menu selection key while no
tests are running. The DAS must be turned off or reset to re-enter the Diagnostics menu.

DIAGNOSTICS MENU USER-CHANGEABLE FIELDS
There are six user-changeable fields normally used with the diagnostics. All of these fields can
apply to any diagnostic test. These fields and their functions are listed below.
The following four fields select which modules will be tested by the self-diagnostics and which
functional tests will be run on the selected modules.
• MODULE. This field can be set to either ALL or SINGLE. ALL causes all modules in the system

to be tested. SINGLE allows modules to be tested individually.
NOTE
When entering the MODULE field, the DAS display shows all the modules installed in the
DAS and their slot numbers. The modules that fail diagnostics are highlighted.
• SLOT. This field only appears when the MODULE field is set to SINGLE. Using the hexadecimal

keys, enter the slot number of the module to be tested in this field.

7-5

Maintenance: Troubleshooting-CAS 9100 Series Service Vol. II

• MODE. This field only appears when a slot number has been entered in the SLOT field. This

field can contain either ALL or SINGLE. ALL causes most of the functions for the selected
module to be executed in sequence. SINGLE allows individual functions to be selected.

NOTE
When entering the MODE field, the DAS display lists a/l the test functions for the slot
selected.
• FUNCTION. This field appears when the MODE field is set to SINGLE. Enter the number

corresponding to the diagnostic function-to-be-run in this field using the hexadecimal keys.
The following two fields influence the way the selected functional tests are run by the DAS.
• LOOPING. The LOOPING field is always present and may be set to either ON or OFF using the

SELECT key. When the field is set to ON, the looping feature allows one test or a sequence of
tests to be run continuously. Use this feature to catch intermittent faults or for circuit tracing
with an oscilloscope.
• DISPLAY. This field only appears when the LOOPING field is set ON. The DISPLAY field may

be set to either ON or OFF. When the field is set to OFF, the Controller board disables direct
memory access for the display monitor whenever a test is running. This allows the diagnostic
test that is looping to run continuously without interruptions. Use this mode to perform circuit
tracing with an oscilloscope.

NOTE
If an error occurs· while a diagnostic test is running and the display is turned off, the LOCKOUT and REMOTE lights are turned on.
For more detailed information regarding the Diagnostic menu or the functional tests, refer to the
Maintenance: Diagnostic Test Descriptions section of this manual.

THE TROUBLESHOOTING TREE
The troubleshooting tree is entered at the top of Figure 7-3 (troubleshooting chart 1). This figure
correlates modules or sub-assemblies to chart numbers. Begin at the top of the tree from DAS
power-up.

USING THE TROUBLESHOOTING TREE
The troubleshooting tree is divided into several charts. The charts are numbered in the sequence
recommended for troubleshooting. The charts are separated into the board or SUb-assembly level. '
Most charts start from board failures discovered in the Diagnostics menu. Other charts may .
simply start from the assumption that the board, module, or assembly is thought to be faulty. In
most cases, the initial information that is necessary to progress through the tree is found in the
Diagnostics menu.

7-6

Maintenance: Troubleshooting-DAS 9100 Series Service Vol. II

NOTE
The troubleshooting tree will not isolate all instrument faults. Faults not isolated by the tree
must be found using the schematics and traditional troubleshooting methods. Refer to the
introduction of the Diagrams section of the manual for suggestions regarding use of the
color-coded schematics.

STARTING THE TREE
Refer to the troubleshooting tree charts starting with Figure 7-3. Turn on the DAS. If there is a
power-up failure, note the circled number in the tree that corresponds to the type of failure named
in the display. Find that circled number further on in the tree and follow the steps for that chart.
If there is no power-up failure indication, perform the following procedure:
1. Turn off the mainframe, then turn it back on while holding a key (other than the SHIFT key)
down. This causes the needed power-up failure indication.
2. Enter the Diagnostics menu by pressing the START SYSTEM key.
3. Press the START SYSTEM key again after entering the menu to run most of the functional
tests in the DAS self-diagnostics program.
4. If a failure occurs, note the circled number in the tree that corresponds to the type of failure
named in the display.
5. Find that circled number further back in the tree and follow the steps for that chart.

If no faults are detected in the previous steps, the trees probably will not isolate the circuit
problem. If you wish to attempt the tree anyway, decide which board might contain the fault and
note the circled number in the tree that corresponds to that board or sUb-assembly. Find that
circled number further back in the tree and follow the steps for that chart.

7-7

Maintenance: Troubleshooting-DAS 9100 Series Service Vol. II

POWER UP
DAS

POWER-DOWN DAS,
THEN UP, WHILE
HOLDING STOP KEY
DOWN

ENTER DIAGNOSTICS
MENU AND RUN

YES

YES

SEE PARr
CN I/O AT
END OF 'nUS
SErl'ICN

YES

END

Figure 7-3. Troubleshooting Chart 1-Power-up through diagnostics.

7-8

Maintenance: Troubleshooting-DAS 9100 Series Service Vol. II

NO

LIFT PIN 5 OF 0141
Otrr OF SOCKET ,
SHORT PIN 16 OF 0351
TO +S , POWER UP

YES

INTERUPT PROBLEM
CHECK INPUT OF u141
FOR ONE STUCK LOW

PULL I/O BOARD

YES

HARDWARE OR FIRMWARE PROBLEM

YES

TAPE HARDWARD PROBLEMS

PULL TAPE DRIVE
CABLES

PULL TRIGGER
BOARD

>-___..jTRIGGER

HARDWARE
OR FIRMWARE PROBLEMS

Figure 7-4. Troubleshooting Chart 2-Controtter (sheet 1 of 8).

REV NOV 1983

7-9

Maintenance: Troubleshooting-DAS 9100 Series Service Vol. II

NOTE:
TO CHECK LINES,
USE OSCILLOSCOPE,
WATCH THEM GO
HIGH AND LOW

REPLACE DEFECT IVE
COMPONENT
•

I------~* FORCE NO-OP (ADDRESS BUS
INCREMENTS IN LOOP). PULL
DATA BUS BUFFER (U LOCATED
ON CONTROLLER BOARD NEAR
ze OA) FROM SOCKET.
REPLACE WITH 1KOHM SIL
RESISTOR PACK WITH PIN 1
OF RESISTOR IN PIN 10
OF SOCKET (GROUNDS OUT
DATA BUS). FROM THEN ON,
zeo CPU WILL EXECUTE NO-DPS.

Figure 7-5. Troubleshooting Chart 2 - Controller with bad kernel or LED driver (sheet 2 of 8).

7-10

REV NOV 1983

Maintenance: Troubleshooting-CAS 9100 Series Service Vol. \I

REMOVE DATA
BUS BUFFER,
U555, AND
SHORT TO
GROUND

REPAIR BAD
ADDRESS LINE

CHANGE EACH RAM,

ONE AT A TIME,
UNTIL BAD RAM
IS FOUND

CHECK PIN 4
U485, NOT
STUCK
HIGH OR LOW

CHECK PIN 1,
U1Bl,
OR PIN 6, U5B7l
NOT STUCK LOW

Figure 7-6. Troubleshooting Chart 2-Controller with RAM failure (sheet 3 of 8).

7-11

Maintenance: Troubleshooting-DAS 9100 Series Service Vol. II

CHECK ADDRESS
DECODER AND
DRIVERS U495,
488, U195

Figure 7-7. Troubleshooting Chart 2-Controller with Controller ROM failure (sheet 4 of 8).

7-12

Maintenance: Troubleshooting-DAS 9100 Series Service Vol. II

CHECK
U515
CIRCUIT

COLOR

YES

MONOCHROME

NO

REPAIR
DISPLAY
MONITOR

NO

NO

NO

CHECK U345
I/O REGISTER

CHECK Ul00
AND U200

CHECK U425,
U535 CLOCK
CIRCUIT

Figure 7-8. Troubleshooting Chart 2-Controller with display, CRT controller, or DMA failure (sheet 5 of 8).

7-13

Maintenance: Troubleshooting-CAS 9100 Series Service Vol. II

NOTE:
TO CHECK LINES
USE OSCILLOSCOPE;
WATCH THEM GO
HIGH AND LOW

NO

YES

YES

REPLACE
U121

YES

CHECK READ/WRITE
CIRCUITRY
COMING FROM Z80A

NO

REPLACE
U121

NO

REPAIR CLOCK
OR REPLACE
U321

NO

CHECK U215
AND U315

NO

REPLACE
U421

REPLACE Q425

Figure 7·9. Troubleshooting Chart 2-Controller with display, CRT controller, or DMA failure cont (sheet 6 of 8).

7-14

Maintenance: Troubleshooting-CAS 9100 Series Service Vol. II

YES

CHECK U345
CIRCUITRY

NO

REPAIR CLOCK
CIRCUIT

NO

YES

REPLACE
U251

YES

CHECK U445
CIRCUITRY
AND Z80A

Figure 7-10. Troubleshooting Chart 2-Controller with display, CRT controller, or DMA failure cont (sheet 7 of 8).

7-15

Maintenance: Troubleshooting-DAS 9100 Series Service Vol. "

ROM CHECKSUM CODES

OBSERVE NUMBERS
AFTER ROM CHECKSUM
ERROR ON POWER-UP
MENU WITH FAILURE

CODE

LOCATION

o

CONTROLLER
TRIGGER
TRIGGER
TRIGGER
TRIGGER
TRIGGER
TRIGGER
TRIGGER
TRIGGER
TRIGGER
TRIGGER
I 0 OPTION
I 0 OPTION
I 0 OPTION
I 0 OPTION

7
7
7
7
7
7

0
1
2
3
4
5
6

7 7
1ST NO.
2ND NO.

7 8
7 9

SLOT
ROM

7 A
8 0
8 D
8 E
8 F

COMPONENT

*,0

REPLACE ROM
INDICATED BY
2ND NO.

U597
U391
U291
U385
U395
U281
U283
U287
U181
U183
U295
U255
U451
U445
U441
U481

NAME OF ROM
PATCH ROM
DIAGNOSTICS 1
I 0 MENU
START
DIAGNOSTICS 2
STATE TABLE
TIMING DIAGRAM
DEFINE MNEMONICS
CHANNEL SPECIFICATION
TRIGGER MENU
PATCH ROM
UNUSED
GPIB 1
GPIB 2
PATCH ROM
PATTERN GENERATOR ROM

*CODE NUMBER SHOWS WHERE PATTERN GENERATOR MODULE
RESIDES (SLOTS 1 THROUGH 6).

NO

CONTINUE
POWER-UP
SEQUENCE

CHECK ADDRESS
CHECK CHIP
I---~ AND DATA
1 - - -....
SELECT CIRCUIT
BUS DRIVERS

CHECK
READ STROBE

Figure 7-11. Troubleshooting Chart 2-Controller with Instrument ROM failure (sheet 8 of 8).

7-16

Maintenance: Troubleshooting-CAS 9100 Series Service Vol. \I

TROUBLESHOOTING DAS POWER SUPPLIES
Use the following instructions when troubleshooting the DAS power supplies with troubleshooting
chart 3 (Figures 7-12 through 7-15).

The Main Power Supply Chart

To troubleshoot the Main Power Supply follow these procedures:
1. Disconnect all voltage-sensitive parts of the DAS from the supply. This is done by removing all
boards from the instrument compartment of the DAS.
2. If the I/O Interface, Option 02, is installed, pull the I/O Interface board (A 19A1) out of its socket
and allow it to hang by its cable over the back of the mainframe.
3. Remove any +5 V Power Supply Modules in the power supply compartment.
4. Disconnect the following cables from the interconnect board:

Monitor
Keyboard
Tape Dr

DAS9109
(Mono)

DAS9129
(Color)

A1J421
A1J423
A1J422

A31J422
A31J429
A31J427

5. Use the Main Power Supply Extender Board (from the DAS Service Maintenance Kit) to
elevate the power supply. Directions for connecting the extender to the Main Power Supply
and to the heat sink may be found in the Reference Information section of this manual or in the
DAS Service Maintenance Kit Instructions.
6. Connect a 15 n, 10 W (or greater) resistor between the +12 V pin and the ground pin of J1 022
on the extender board. (A minimum load of 0.85 A must be drawn from the supply for proper
operation.)
7. Make sure the cables that connect the series pass transistors are properly connected between
the Main Power Supply, extender board, and heat sink.
8. Follow troubleshooting tree chart 3 (Figures 7-12 through 7-15).

The Main Power Supply Series Pass Section

The series pass sections of the Main Power Supply board provide the final regulation for the
+6 V, +5 V, and -5 V supplies. Refer to the Theory of Operation section of this manual for a
circuit description to help with troubleshooting. Since all three of these regulators are similar, a
common troubleshooting procedure can be used as follows:
1. If one of these supplies has little or no output, check for a current limit condition. A current limit
condition or failure is indicated when the diode between pins 1 and 5 of the associated op amp
is forward biased. If no low-resistance load or short can be found, check the "A" section of the
op amp and connecting components.

7-17

Maintenance: Troubleshooting-DAS 9100 Series Service Vol. II

2. If all voltages supplied are too low (or too high), check the
line.

+ V reference and the ground sense

3. The "B" sections of the series pass op amps are responsible for the voltage regulation of the
+6 V, +5 V, and -5 V supplies. The typical output at pin 7 of these "B" sections should be
approximately 2 diode drops above the desired output voltage. If the output is much higher
than this, check the driver and series pass transistors. Another possible problem area is the
wiring harness between the series pass transistors and the Main Power Supply board.
4. The two -12 V supplies do not have series pass sections. The -12 V supply for the keyboard is regulated with a 3-terminal regulator. The other -12 V supply has no direct regulation. (It is tied to the + 12 V supply regulation, but does have a 1.5 A fuse, designated F150.)

The

+5 V Power Supply Module Chart

Troubleshoot a +5 V Power Supply Module as follows:
1. Each +5 V Power Supply Module powers 2 slots in the mainframe's instrument module section. Remove the modules powered by the supply under test, if they have not already been
removed.
2. Use the + 5 V Power Supply Extender Board (from the DAS Service Maintenance Kit) to raise
the supply to a convenient level above the DAS mainframe. No special connections are required to use this extender.
3. Connect a 5 n, 5 W (or greater) resistor between the +5 V pin and the ground pin of J400 on
the extender. (A minimum load of 1 A must be drawn from the supply for proper operation.)

7-18

Maintenance: Troubleshooting-DAS 9100 Series Service Vol. "

NCYl'E:

tsE EllTENDER BC:lI'.ROO FKM
SERVICE MAIN'l'ENAta KIT '10
EXTEND PG/ER SUPPLY BC:lI'.ROO
ABOVE DAB IN ORDER '10 REAal
CCMP~N~O~~OR LOW RESISTANCE
LOAD ON +12 V
SUPPPLY. CHECK U830D
AND CIRCUITRY

TO CHART 3
(SHEET 1 OF 4)
NO

CHECK VOLTAGE
SENSE CIRCUITRY,
U830D AND
+5 V REF.
CHECK SERIES
PASS SECTION ALSO

YES

END MAIN PS CHECK

Figure 7·13. Troubleshooting Chart 3-Power supply failure-main board cont (sheet 2 of 4).

7-20

Maintenance: Troubleshooting-DAS 9100 Series Service Vol. "

NOTE:
USE OSCILLOSCOPE AND
FIGURE 7-16 TO CHECK
FOR CORRECT WAVEFORMS
CHECK +5 V REF
+11.3 v AND
:~~~~ l~T Pl00_
L....._...;.....:-.--_

CHECK U415C,
0318, 0319,
AND CI RCUI TRY

:I~;N~;+ -,.; ~

;;o-:i

SUPPLIES IF EITHER FUSE I
IS _
BWWN
_
_ _ _ _ _ _ _ .J

I

~

NO

CHECK U415A,
YES
B,D, AND
~----------~~~
CIRCUITRY

REPLACE
0165, 0265,
CHECK C252,

INSTALL
SHORTING
STRAP ACROSS
R338 -RESTART
SUPPLY

C350,C121,
ellS, el3S,
C155 AND T1l4
FOR SHORTS

POWER SWITCH/
CONTROL DRIVE
FAILURE. CHECK U315
U215, 0248, 0246,
0244 AND CIRCUITRY

• REGULATION
PROBLEM.
CHECK U415D
AND CIRCUITRY
• SEE THAT

C625 HAS
NOT BEEN
DAMAGED
OR

:s
AT T225

TO CHART 3
(SHEET 4 OF 4)

:~2'3

F

Figure 7-14. Troubleshooting Chart 3-Power supply failure-+S V module (sheet 3 of 4).

7-21

Maintenance: Troubleshooting-DAS 9100 Series Service Vol. II

FROM CHART 3
(SHEET 3 OF 4)

Q817, L325,
OR C326 BAD

RE-CONNECT
+ AND -160 V
SUPPLIES

REMOVE JUMPER ...._ _ _-<
AT W316

NO

CHECK CR555
AND CR755
FOR SHORTS;
CHECK CIRCUITRY

CHECK FOR CURRENT
LIMIT (SHORT OR
LOW RESISTANCE)
LOAD ON +5 v.
CHECK U415A AND
CIRCUITRY

CHECK U415D
AND CIRCUITRY

YES

END +5 V PS CHECK

Figure 7-15. Troubleshooting Chart 3-Power supply failure-+5 V module cont (sheet 4 of 4).

7-22

Maintenance: Troubleshooting-DAS 9100 Series Service Vol. II

A

B
10 'I

,

-rIfI5".,.}
-fJf15

~~

1

~

~-ov

rr

r)

rr--Ov

1

t1-0V

~

1'15"1

5'1

IOV

IO)lS

10 V

r

U3z.o

PIAJ Ilf

rrJ_

0'1

IO)lS

o,

.. 0 "

11.3 v SUPPlY ON ML'(

c

o
5'0 v

50'1

TP2.25
J"IIMPER.
ATW8.2.3
INsrllt..L£{)

lOpS

3836-211

E
50v

-ov

IOp.S
:JVMI'ER M

w 8'23

INsrAU.E{) - ell. 3fi7 ,SHORTED

Figure 7-16. Power supply waveforms for comparison.

7-23

Maintenance: Troubleshooting-DAS 9100 Series Service Vol. II

NOTES:
CHECK DIAGNOSTIC
DISPLAY FOR
CONTROLLER FAILURE

KEYBOARD FAILURE
SHOWS AS CONTROLLER
FAIL.
FAIL VALUE
SHOWS AT FAR RIGHT
OF CONTROLLER ENTRY
OF POWER-UP SELF TEST
MENU (SEE FIGURE 7-1)

HOLD F KEY
DOWN THEN
POWER DOWN
AND POWER UP
DAS

NO

CHECK
DIAGNOSTIC
DISPLAY FOR
FAIL VALUE

FAILURE NOT
ON KEYBOARD.
SUSPECT U525
ON CONTROLLER

NO

YES
REFER TO
KEY VALUE
AND LOCATION
BELOW

SHIFT KEY
STUCK

CHECK A5A1 KEYBOARD
SCHEMATIC

KEY LOCATION AND KEY VALUE

§] §] §]

B

~ §]

§]

~ §J ~

EJ El

§1
E] ~ E]

~ §] @]

8

~ ~ §]

§] ~ §] ~
0 §] @] @)

~

~ ~ ~

~ ~

§]

El

~
~

§J

~ ~ ~
~
§J §]

Figure 7-17. Troubleshooting Chart 4-Controller keyboard failure.

7-24

~
@]

~

[§J

Maintenance: Troubleshooting-DAS 9100 Series Service Vol. II

NOTE;
SEE FAIL VALUE AT
FAR RIGHT OF
TRIGGER ENTRY
ON POWER-UP SELF TEST
MENU (SEE FIGURE 7-1).
USE EXTENIER BOP.RD FIn1
SERVICE MAINI'ENlINCE KIT TO
EXTElID TRIGGER BClMD ABOVE
DI\S FOR EASY Acx::ESS TO
CXl>I!'CNENIS AND TEST POINTS

NO

POWER-DOWN
THEN POWER-UP
DAS

HOLD ANY KEY
DOWN DURING
POWER UP FOR
FAILURE

SELECT AND
RUN TRIGGER
TEST

YES

NO

GOOD

NO

Figure 7·18. Troubleshooting Chart 5-Trigger/Time Base failures (sheet 1 of 29).

7·25

Maintenance: Troubleshooting-DAS 9100 Series Service Vol. II

NOTE:
REFER TO SELECT
EXPLANATION IN
DIAGNOSTICS MENU
AT FRONT OF THIS
SECTION.

SELECT FUNCTION
Rf AND RUN TEST;
START SYSTEM.

NO

TRY AGAIN
IF PASS,
THEN END

Figure 7·19. Troubleshooting Chart 5 cont (sheet 2 of 29).

7-26

Maintenance: Troubleshooting-DAS 9100 Series Service Vol. II

NOTE:
REFER TO SELECT
EXPLANATION IN

DIAGNOSTICS MENU
AT FRONT OF THIS
SECTION.

CHECK FOR HIGH

>':':::~ao-I ON PIN 4 OF
U145

1-----<

SUSPECT

U491

SUSPECT
CLEAR
LOGIC

CHECK FOR
HIGH ON
PIN 13 OF

SUSPECT

U245B

U245

SUSPECT

U491

Figure 7-20. Troubleshooting Chart 5 cont (sheet 3 of 29).

7-27

Maintenance: Troubleshooting-DAS 9100 Series Service Vol. "

CHEC~ FOR
LOW WITH
HIGH PULSES

3.1.1
AGAIN

SUSPECT
U491
EVEN IF THE SET
INPUT IS NOT HIGH
IIITH LOll PULSES

FOR
LOW ON
PIN 15 OF
U145
CHEC~

CHECK FOR
YES
HIGH WITH
>='--~--t LOW PULSES
ON PIN 4 OF
U145

SUSPECT
U145

SUSPECT
CLEAR LOGIC

SUSPECT
U491

CHEC~ FOR
STEADY LOll
ON PIN 11
OF U245

Figure 7-21. Troubleshooting Chart 5 cont (sheet 4 of 29).

7-28

Maintenance: Troubleshooting-CAS 9100 Series Service Vol. II

CHECK FOR HIGH
WITH LOW PULSES
ON PIN 5 OF

U145

SUSPECT Ul77
READBACK

SUSPECT
U491

CHECK FOR
TOGGLING
ON PIN 15
OF U145

SUSPECT

U145

SUSPECT
U491

SUSPECT
CLEAR LOGIC

Figure 7·22. Troubleshooting Chart 5 cont (sheet 5 of 29).

7·29

Maintenance: Troubleshooting-DAS 9100 Series Service Vol. II

CH~CK FOR
HIGH WITH
LOW PULSES
ON PIN 1
OF U145

SUSPECT
CLOCK SELECT
OR SEQUENCE
LOGIC

L-.-...,

CHECK FOR
HIGH WITH
LOW PULSES
ON PIN 15
OF U145

>=...... CHECK

<

FOR HIGHI-_ _
PIN 4 OF U145

SUSPECT
U491

NO

YES

CHECK FOR
HIGH WITH
LOW PULSES
ON PIN 13
OF U245

CHECK FOR
HIGH ON
PIN 3
OF U145

SUSPECT

SUSPECT
U491

CHECK FOR
HIGH WITH
LOW PULSES
ON PIN 10
OF U245

BAD

CONNECTION

CHECK FOR
LOW PIN 2
OF U145

SUSPECT
CLEAR LOGIC

SUSPECT
U145

NO

YES

SUSPECT
U245

SUSPECT
BAD

CONNECTION
/.

Figure 7-23. Troubleshooting Chart 5 cont (sheet 6 of 29).

7-30

Maintenance: Troubleshooting-DAS 9100 Series Service Vol. II

NOTE: REFER TO SELECT
EXPLANATION IN DIAGNOSTICS
IN THE FRONT OF THIS
SECTION.

SELECT LOOPING
ON TEST 0

SELECT LOOPING
ON TEST 1

SELECT LOOPING
ON TEST 2

SELECT LOOPING
ON TEST 3

I----t~

SELECT LOOPING
ON TEST 4

SELECT LOOPING
ON TEST 5

Figure 7-24. Troubleshooting Chart 5 cont (sheet 7 of 29).

7-31

Maintenance: Troubleshooting-DAS 9100 Series Service Vol. II

SUSPECT
UI77 OR
U491
(READBACK
SEL)

CHECK FOR STEADY
HIGH ON PIN 1 OF
U274

NO

SUSPECT
CLEAR
LOGIC

YES

CHECK FOR LOW
PULSES ON PIN 11
OF U274

NO

SUSPECT
U491

NO

SUSPECT
OPEN/SHORT
OR U475

CHECK FOR DATA
SIGNAL ON PIN 13
OF U274

SUSPECT SHORT AT
PIN 13 OF U274 OR
SUSPECT U475 OR
U274

Figure 7·25. Troubleshooting Chart 5 cont (sheet 8 of 29).

7-32

Maintenance: Troubleshooting-DAS 9100 Series Service Vol. II

SUSPECT
U177 OR
U491

NO

C.HECK FOR LOW
PULSES ON
PIN 11 U274

NO

SUSPECT
U491

YES

CHECK FOR DATA
SIGNAL ON PIN
13 OF U274

SUSPECT
U475

YES

SUSPECT
U274 OR
U475

Figure 7-26. Troubleshooting Chart 5 cont (sheet 9 of 29).

7-33

Maintenance: Troubleshooting-DAS 9100 Series Service Vol. II

CHECK FOR B IGH
ON PIN 12 OP
U165 AND PIN 12
OF U261

SUSPECT
U375 OR
U491

CHECK POR LOW
PULSES ON PIN
19 OF U165 AND
PIN 1 OF U261

CHECK FOR HIGH
ON PIN 11 OF
U165 AND PIN 11
OF U261

CHECI( FDR STEADY
HIGH ON PIN 8 OF
U165 AND PIN 8
OF U261

SUSPECT
U491

CHECK FOR STEADY
HIGH ON PIN 1 OF
U271 AND PIN 1
OF U274

CHECK FOR OATA
SIGNAL ON PIN
13 OF U271 AND
PIN 13 OF U274

SUSPECT
U438

CHECK FOR~ LOW
PULSES ON PIN
11 OF U271 AND
PIN 11 OF U274

Figure 7·27. Troubleshooting Chart 5 cont (sheet 10 of 29).

7-34

SUSPECT
U475

Maintenance: Troubleshooting-DAS 9100 Series Service Vol. II

SUSPECT
0177 OR
U491

CHECK FOR LOW
PULSES ON PIN 1
OF U165 AND PIN
1 OF U261

SUSPECT
CLEAR
LOGIC

CHECK FOR STEADY
LOW ON PIN 8 OF
U165 AND PIN 8
OF 0261

SUSPEC:)
CLOCK
SELECT
LOGIC

SUSPECT
U438

SUSPECT
U491

CHECK FOR DATA

~~G~~l O~~I;I~3

1---..004-,

SUSPECT
U475

13 OF U274

YES

CHECK FOR LOW
PULSES ON PIN 11
OF U271 AND PIN
11 OF U274

SUSPECT
U271 OR
U274

Figure 7-28. Troubleshooting Chart 5 cont (sheet 11 of 29).

7-35

Maintenance: Troubleshooting-DAS 9100 Series Service Vol. II

CHECK FOH 7FFFH
ON INPUTS OF
COUNTERS U255,
0261, U161 AND
U165

CHECK FOR DATA
SIGNALS ON INPUTSt---_-.c~
OF U271 AND U274

CHECK FOR LOW
PULSES ON PINS 1
OF: U255, U261,
U161 AND Ul65

SUSPECT
U475

CHECK FOR STEADY
HIGH ON PIN 1 OF
U271 AND PIN 1 OF
U274

SUSPECT
0438

SUSPECT
0491

USE LA TO DETERMINE
IF 7FFFH IS BEING
LOADED INTO U255,
U261, U161 AND U165

YES

SUSPECT
READBACK
U375

Figure 7-29. Troubleshooting Chart 5 cont (sheet 12 of 29).

7-36

Maintenance: Troubleshooting-CAS 9100 Series Service Vol. II

CHECK FOR LOW PULSES ' -_ _,"",
ON PIN 9 OF U265

SUSPECT
U265

USE OSCILLOSCOPE
'1'0 DETERMINE THAT

PIN 11 OF U145 IS
LOll DURING LOll
PULSES ON PIN 13
OF U145

--.....

CHECK FOR LOW
PULSES ON PIN
14 OF U155

CHECK U151 FOR
PROPER OPERATION

t----"""'YES

NO

REMOVE ALL ACQ
CARDS THEN CHECK
FOR HIGH ON PIN
11 OF U155

SUSPECT
U155

REFER TO
SCHEMATIC
IF NOT
OPERATING

BAD
ACQ
CARD
NO

SUSPECT U446
OR U451

/

Figure 7-31. Troubleshooting Chart 5 cont (sheet 14 of 29).

7-38

Maintenance: Troubleshooting-CAS 9100 Series Service Vol. II

NOTE:
REFER TO SELECT
EXPLANATION IN
DIAGNOSTICS MENU
AT FRONT OF THIS
SECTION

SELECT LOOPING
AND RUN TEST 0

SELECT LOOPING
AND RUN TEST 1

SELECT LOOPING
AND RUN TEST 2

SELECT LOOPING
AND RUN TEST 3

SELECT LOOPING
AND RUN TEST 4

SELECT LOOPING
AND RUN TEST 5

SELECT LOOPING
AND RUN TEST 6

Figure 7-32. Troubleshooting Chart 5 cont (sheet 15 of 29).

7-39

Maintenance: Troubleshooting-DAS 9100 Series Service Vol. II

SUSPECT
U375

SUSPECT
U491

CHECK FOR STEADY
~=-4.,j HIGH ON PIN 8 OF
U351

1----<

REFER TO
SCHEMATICS
TO CORRECT

SUSPECT
U475

SUSPECT U495

Figure 7-33. Troubleshooting Chart 5 cont (sheet 16 of 29).

7-40

Maintenance: Troubleshooting-DAS 9100 Series Service Vol. II

SUSPECT

U375

SUSPECT

U491

REFER TO SCHEMATICS
TO CORRECT

NO

>;.;...-.......Il>0-l

CHECK FOR STEADY
HIGH ON PIN 12 OF

1---_-<

U345
YES

SUSPECT

U345

SUSPECT

U475

'*.

OR OPEN

Figure 7-34. Troubleshooting Chart 5 cont (sheet 17 of 29).

7-41

Maintenance: Troubleshooting-DAS 9100 Series Service Vol. II

SUSPECT
U375

SUSPECT
U491

CHECK FOR STEADY
HIGH ON PIN 8 OF
U351

t-----<..

SUSPECT
U475 OR
OPEN

CHECK FOR PIN 11
OF U361 BEING
HIGH DURING LOW
PULSE ON PIN 1 OF
U361

Figure 7-35. Troubleshooting Chart 5 cont (sheet 18 of 29).

7-42

SUSPECT
U351

Maintenance: Troubleshooting-CAS 9100 Series Service Vol. II

SUSPECT
U375

SUSPECT
U491

REFER TO
SCHEMATICS

TO CORRECT

SUSPECT
0475 OR
OPEN

CHECK THAT PIN 11
OF U365 IS HIGH
DURING LOW PULSES
ON PIN 1 OF U365

<

PIN 11
HIGH
DURING
LOW
PULSES

SUSPECT
U475 OR
BUS
CONNECTION

REFER TO SCHEMATICS
TO CORRECT

YES

Figure 7-36. Troubleshooting Chart 5 cont (sheet 19 of 29).

7-43

Maintenance: Troubleshooting-DAS 9100 Series Service Vol. II

CHECR FOR
i'OGGELING
ON PIN 12
OF 0361
AND PIN 12
OF U365

SUSPECT
U375 OR
0491

CHECK FOR BORSTS
OF FIVE HIGH
PULSES ON PIN 9 OF
U341

VERIFY THAT 7FFFH
IS BEING LOADED
INTO U351, 0361,
AND U365

REFER TO SCHEMATICS
TO CORRECT POSSIBLE
DATA BUS PROBLEMS

CHECR FOR
TOGGELING
ON PIN 12
OF U351, PIN
12 OF U361,
AND PIN 12 OF
U345

SUSPECT CHIP
THAT'S NOT
TOGGLING

REFER TO
SCHEMATICS
FOR PROBLEMS
REMAINING

Figure 7-37. Troubleshooting Chart 5 cont (sheet 20 of 29).

7-44

Maintenance: Troubleshooting-CAS 9100 Series Service Vol. II

SUSPECT
U375

SUSPECT
CLEAR
LOGIC

SUSPECT
0543

REFER TO
SCHEMATICS
TO CORRECT

CHECK PIN 9 OF
0341 FOR LOW
WITH BURSTS OF
FOUR HIGH PULSES

CHECK PIN 10 OF
0341 FOR LOW
DURING BURST
PULSES

REFER TO
SCHEMATIC
TO CORRECT

REFER TO
SCHEMATICS
TO CORRECT

Figure 7-38. Troubleshooting Chart 5 cont (sheet 21 of 29).

7-45

Maintenance: Troubleshooting-DAS 9100 Series Service Vol. II

CHECK FOR
TOGGLING
ON PIN 5
OF U543

CHECK FOR
TOGGLING ON
ALL INPUTS OF
U353

SUSPECT
U375

SUSPECT
0353

CHECK FOR HIGH
WI TH LOW PULSES
ON PIN 15 OF
U543

SUSPECT
CLEAR
LOGIC

SUSPECT CHIP
WITH OUTPUTS
THAT ARE NOT
TOGGLING

CHECK FOR
TOGGLING
ON PIN 3
OF U543

SUSPECT
U543

CHECK FOR
TOGGLING ON
ALL OUTPUTS
OF U351, U361,
U345 AND U365

CHECK FOR
TOGGLING
ON PIN 9
OF U353

Figure 7-39. Troubleshooting Chart 5 cont (sheet 22 of 29).

7-46

SUSPECT
0341

Maintenance: Troubleshooting-DAS 9100 Series Service Vol. II

NOTE:
REFER TO SELECT EXPLANA~ION
IN DIAGNOSTICS MENU AT THE
FRONT OF THIS SECTION.

CHECK 40 NS CLOCK
SELECTION CIRCUITRY

CHECK 91A32 INT CK
SELECTION CIRCUITRY

REFER TO SCHEMATICS
TO CORRECT

NO

END

Figure 7-40. Troubleshooting Chart 5 cont (sheet 23 of 29).

7-47

Maintenance: Troubleshooting-DAS 9100 Series Service Vol. II

NOTE:
REFER TO SELECT EXPLANATION
IN DIAGNOSTICS MENU AT THE
FRONT OF THIS SECTION.

CHECK PIN 15 OF
U425 FOR A CLOCK
SIGNAL WITH A
PERIOD SHOWN IN
TIME TABLE

~~l

CLOCK

PERICil

0
1

40ns

sOns

2

lOOns

3
4

lus
~.

4C

6

lOU.
10OU.
1ms

50
68
88
AS

7

8

•

03
"4

28
48

SUSPECT A
COUNTERS
OR QUALIFIER
DEALY CIRCUIT

CHECK OUTPUTS OF
U135 FOR PROPER
DATA BYTE POUND
I.N TIME TABLE

>=-...

CHECK FOR LOW
PULSES ON PIN
OP U135

lll---t-C

SUSPECT
U438

Figure 7·41. Troubleshooting Chart 5 cont (sheet 24 of 29).

7-48

Maintenance: Troubleshooting-CAS 9100 Series Service Vol. II

CHECK FOR 40 NS
CLOCK ON PIN 5
OF U425

NO

REFER TO
SCHEMATICS
TO REPAIR

NO

SUSPECT
U435

NO

SUSPECT
U231

YES

CHECK PIN 4 OF
U425 FOR HIGH
ON PIN 1 OF U425

YES

CHECK FOR HIGH
ON PIN 12 OF
U425

YES

SUSPECT
U425

Figure 7-42. Troubleshooting Chart 5 cont (sheet 25 of 29).

7-49

Maintenance: Troubleshooting-DAS 9100 Series Service Vol. II

CHECK THAT PIN 15
OF U231 IS 5 TIMES
THE PERIOD ON PIN
2 OF U231 AND PIN
1 OF U231 IS 2
TIMES THE PERIOD
ON PIN 2 OF U231

SUSPECT
U225

SUSPECT
U231

REFER TO
SCHEMATICS
TO REPAIR
BASE CLOCKS

Figure 7·43. Troubleshooting Chart 5 cont (sheet 26 of 29).

7-50

Maintenance: Troubleshooting-DAS 9100 Series Service Vol. II

SELECT LOOPING
AND RUN TEST 0

SELECT LOOPING
AND RUN TEST 1

NO

END

NOTE:
REFER TO SELECT
EXPLANATION IN
DIAGNOSTICS MENU
AT FRONT OF THIS
SECTION.

Figure 7-44. Troubleshooting Chart 5 cont (sheet 27 of 29).

7-51

Maintenance: Troubleshooting-DAS 9100 Series Service Vol. II

CHECK FOR HIGH
ON PIN 12 OF
U141

YES

SUSPECT
Ul77 OR
U491

NO

SUSPECT
U491

NO

SUSPECT
U438

CHECK FOR LOW
PULSES ON PIN
11 OF U141

YES

CHECK FOR STEADY
HIGH ON PIN 1 OF
U141

YES

CHECK FOR DATA
SIGNAL ON PIN 13
OF U141

NO

SUSPECT
U475 OR
SHORT

YES

SUSPECT
U141

Figure 7-45. Troubleshooting Chart 5 cont (sheet 28 of 29).

7-52

Maintenance: Troubleshooting-DAS 9100 Series Service Vol. II

SUSPECT

U177 OR
U491

SUSPECT

U491

SUSPECT

U438

SUSPECT

U475

Figure 7·46. Troubleshooting Chart 5 cont (sheet 29 of 29).

7-53

Maintenance: Troubleshooting-CAS 9100 Series Service Vol. II

NOTE:
REFER TO SELECT EXPLANATION
IN DIAGNOSTICS MENU AT THE
FRONT OF THIS SECTION.
USE EXTrnDER BO!\RD :E1OI

SERVICE MAINI'ENANCE KIT 'ID
EXTEND OOTA lCJ. BO!\RD
N3(NE

ms roR EASY ACCESS

'ID cn!POOENI'S AND!' lEST POINI'S.

POWER-DOWN DAS
POWER UP AND
HOLD A KEY DOWN
TO ENTER
DIAGNOSTICS

NO

PRESS START SYSTEM
PRESS SELECT KEY
PRESS RIGHT ARROW
PRESS SLOT NO. X
FOR 91A32
PRESS START SYSTEM

PRESS START SYSTEM
PRESS SELECT KEY
PRESS RIGHT ARROW
PRESS SLOT NO. X
FOR 91A32 UNDER TEST
PRESS START SYSTEM

YES

YES

RUN DI\C THRESHOLD
TEST (SEE THAT
THRESHOLD VOLTAGES
ARE WITHIN SPEC)

YES

CHECK ll'\C AND

ASSOCIATED
CIIOJITRY
YES

RESET DAS
(POWERDOWN, THEN
POWER-UP)

RUN FUNCTIONAL TEST
TO COMPLETE
VERIFICATION

Figure 7-47. Troubleshooting Chart 6-91A32 Data Acquisition failure (sheet 1 of 13).

7-54

Maintenance: Troubleshooting-CAS 9100 Series Service Vol. II

SET UP TO RUN
FUNCTION 0
MEM ADDR

NOTE:
REFER TO SELECT EXPLANATION
IN DIAGNOSTICS MENU AT THE
FRONT OF THIS SECTION.

YES

END

Figure 7-48. Troubleshooting Chart 6 cont (sheet 2 of 13).

7-55

Maintenance: Troubleshooting-DAS 9100 Series Service Vol. II

NOTE:
REFER TO SELECT EXPLANATION
IN DIAGNOSTICS MENU AT THE
FRONT OF THIS SECTION.

SELECT LOOPING
FOR RUN TEST 0

NO

USE OSCILLOSCOPE
OR LOGIC ANALYZER
TO SEE LOW PULSE
AT PIN 10 OF U655

YES

CHECK PIN 11 OF
~N.;.;;O__... U451 (CTRCK
LINE)

SUSPECT
U241

YES

SUSPECT
U655 OR
U241

NO

USE OSCILLOSCOPE
OR LOGIC ANALYZER
TO SEE LOW PULSE
AT PIN 13 OF U655

YES

SUSPECT
U241

NO

CHECK PIN 13 OF

">0;;.;.;.-...... U441 (O-MAR LD
LINE)
YES

SUSPECT
U655 OR
U241

Figure 7-49. Troubleshooting Chart 6 cont (sheet 3 of 13).

7-56

Maintenance: Troubleshooting-CAS 9100 Series Service Vol. II

SUSPECT
U658

NOTE:
REFER TO SELECT EXPLANATION
IN DIAGNOSTICS MENU AT THE
FRONT OF THIS SECTION.

USE OSCILLOSCOPE OR
LOGIC ANALYZER TO SEE
TRIGGER ON PIN 11 OF
U658

REI'ERTO
SCHEMATICS

NO

CHECK U341 FOR PROPER
OPERATION

USE LOGIC ANALYZER
TO CHECK INPUT LINES
ON U251 (TRIGGER ON
ACTUAL VALUE DISPLAYED
BY MENU)

~~'t>
LOGIC
ANALYZER
TRIGGER
ON

YES
•

~, s_g_~_~_~C_T ~~
___

__

J

4.1.3.1

\.J

Figure 7·50. Troubleshooting Chart 6 cont (sheet 4 of 13).

7-57

Maintenance: Troubleshooting-DAS 9100 Series Service Vol. II

f
\
4.1.3.1

NOTE:
REFER TO SELECT EXPLANATION
IN DIAGNOSTICS MENU AT THE
FRONT OF THIS SECTION.

MOVE LOGIC ANALYZER
TO PINS 3-6 OF U158
AND U161 TRIGGER ON
ACTUAL VALUE

SUSPECT PROBLEM
ON DATA PATH
FROM U668

MJ\IE I.A 'IO

PINS 11-14 OF
0158 & U151
TRIGGER CN
AClUAL VAWE

SUSPECT
U158 OR
U161

SUSPECT
U255 OR
U261

CHECK FOR A LOW ON
PIN 15 OF U153

SUSPECT
U341

SUSPECT
U441

SUSPECT
U153

Figure 7-51. Troubleshooting Chart 6 cont (sheet 5 of 13).

7-58

Maintenance: Troubleshooting-CAS 9100 Series Service Vol. II

NOTE:
REFER TO SELECT EXPLANATION
IN DIAGNOSTICS MENU AT THE
PRONT OF THIS SECTION.

SUSPECT
U153

SUSPECT
U255

USE LOGIC ANALYZER
TO CHECK OUTPUTS
OF U158 AND U161
(TRIGGER ON ACTUAL
VALUE DISPLAYED BY
MENU)

DETERMINE walCH BIT IS
STUCK AND CHECK TO SEE
THAT IT IS ON THE INPUT
SIDE

SUSPECT
BIT 7
OF U255,
U158, U161,
U661, U665
ANDU415

MOVE LOGIC ANALYZER
TO INPUTS OF U251
(TRIGGER VALUE
REMAINS THE SAME)

Figure 7-52. Troubleshooting Chart 6 cont (sheet 6 of 13).

7-59

Maintenance: Troubleshooting-DAS 9100 Series Service Vol. II

NOTE:
REFER TO SELECT EXPLANATION
IN DIAGNOSTICS MENU AT THE
FRONT OF THIS SECTION.

SET UP TO
RUN ACQ
FUNCTION 1
ACQ MEM
YES

YES

POWER-DOWN
THEN POWER-UP
TRY CHECK AGAIN
IF GOOD, END

Figure 7-53. Troubleshooting Chart 6 cont (sheet 7 of 13).

7-60

Maintenance: Troubleshooting-DAS 9100 Series Service Vol. II

CHECK WE FOR
PROPER DELAY AND
PULSE WIDTH (SEE
SPECS)

RAM ADDRESSES
ADDR

04
05
06
07
08
09
OA
OB

RAM
U165,
Ul71,
U178,
U185,
U265,
U271,
U278,
U285,

U168
U175
U181
U188
U268
U275
U281
U288

SUSPECT
0345 AND
U341

YES
POSSIBLE BAD RAM
REFER TO
JWo\ AIXI!ESS TJ\BLE

Figure 7-54. Troubleshooting Chart 6 cont (sheet 8 of 13).

7-61

Maintenance: Troubleshooting-DAS 9100 Series Service Vol. II
NOTE:
REFER TO SELECT EXPLANATION
IN DIAGNOSTICS MENU AT THE
FRONT OF THIS SECTION.

CHECK PINS 2, 6
AND 9 OF U665 FOR
A LOW WITH HIGH
PULSES

CHECK PINS 2, 5
AND 9 OF U665 FOR
A LOW WITH HIGH
PULSES

CHECK PINS 5, 6
AND 9 OF U665 FOR
A LOW WITH HIGH
PULSES

Figure 7-55. Troubleshooting Chart 6 cont (sheet 9 of 13).

7-62

Maintenance: Troubleshooting-DAS 9100 Series Service Vol. II

NOTE:
REFER TO SELECT EXPLANATION
IN DIAGNOSTICS MENU AT THE
PRONT OF TBIS SECTION.

°THE FAIL AIlOR IS THE
ADDRESS ON THE A,D,e,D
INPUTS ON DECODER U341
EXAMPLE: 04 ON THE
A,B,C,D INPUTS ENABLE
EVEN BYTE 0 RD.

SUSPECT
U271. U275
U228. U328

SUSPECT
U278. U281
U428. U528

SUSPECT
U285. U288
U528. U628

Figure 7-56. Troubleshooting Chart 6 cont (sheet 10 of 13).

7-63

Maintenance: Troubleshooting-DAS 9100 Series Service Vol. "

NOTE:
REFER TO SELECT EXPLANATION
IN DIAGNOSTICS MENU AT THE
FRONT OF THIS SECTION.

SET UP TO RUN
FUNCTION 2
WRD. REC.

YES

POWER-DOWN DAS
THEN POWER-UP
TRY CHECK AGAIN
IF GOOD, END

REFER TO SCHEMATIC
FLOW AND TO
ADJUSTMENT PROCEDURE

Figure 7-57. Troubleshooting Chart 6 cont (sheet 11 of 13).

7-64

Maintenance: Troubleshooting-CAS 9100 Series Service Vol. II

NOTE:
REFER TO SELECT EXPLANATION
IN DIAGNOSTICS MENU AT THE
FRONT OF THIS SECTION.
CHECK WE FOR :
1 MS NEGATIVE
PULSE ON PINS 7,
9 AND 10 OF U451
AND PIN 15 OF
U441

SUSPECT
U451
U441 OR
ASSOCIATED
RAM

YES

CHECK U671-4, 7, 9
AND 12 FOR HIGH
WITH LOW PULSES

NO

VERIFY OPERATION OF
NAND GATES USE LA
TO VERIFY OPERATION
OF NAND GATES U688,
U685, U681 AND U675

YES

SUSPECT
NAND GATE
OR RAM
YES

SUSPECT
U545

SUSPECT
U671 OR
U545
YES

SUSPECT
U645 OR
U241

Figure 7·58. Troubleshooting Chart 6 cont (sheet 12 of 13).

7-65

Maintenance: Troubleshooting-DAS 9100 Series Service Vol. II

NOTE:
REFER TO SELECT EXPLANATION
IN DIAGNOSTICS MENU AT THE
FRONT OF THIS SECTION.

SELECT LOOPING ON
TO RUN TEST 2

USE LOGIC ANALYZER
TO VERIFY ADDRESS
LINE ARE
INCREMENTING
THROUGH OO-FF

SUSPECT
HUNG
ADDR BUS

YES

SUSPECT
BAD RAM

Figure 7-59. Troubleshooting Chart 6 cont (sheet 13 of 13).

7-66

Maintenance: Troubleshooting-CAS 9100 Series Service Vol. II

91ADB DA

NOTE:

POWER-DOWN HOLD
KEY DOWN AND
POWER-UP
TO ENTER
DIAGNOSTICS

NO

REFER TO SELECT EXPLANATION
IN DIAGNOSTICS MENU AT THE
FRONT OF THIS SECTION.

DS

USE EXTENDER BCl/UID FRCM
SERIJICE MAlNI'ENANCE

KIT

TO

RUN TEST ALL

EXTEND Jll\TA 1CJ BCl/UID
llBCNE Jll\S FUR EASY ACCESS

ro

ON 91ADB
MODULES

cnlPCNENl'S AND TEST FOINI'S.

DS

YES

RUN DAC
THRESHOLD TEST
(SEE THAT THRESHOLD

VOLTAGES ARE WITHIN
SPEC)

0lECK
DI'.C

CIRCUITRY

RUN FUNCTIONAL
TEST TO COMPLETE
VERIFICATION
(START AT
5 AGAIN)

TRY AGAIN,IF PASS
THEN END

*SEE VERIFICATION AND
ADJUSTMENT PROCEDURES
SECTION FOR DAC TEST
INFORMATION

Figure 7-60. Troubleshooting Chart 7-91A08 Data Acquisition failure (sheet 1 of 25).

7-67

Maintenance: Troubleshooting-DAS 9100 Series Service Vol. II

NOTE:
REFER TO SELECT EXPLANATION
IN DIAGNOSTICS MENU AT THE
FRONT OF THIS SECTION.

SET UP DAS TO RUN
MEM AODR TEST

YES

YES

POWER-DOWN DAS
THEN POWER-UP
TRY AGAIN THEN
END

Figure 7-61. Troubleshooting Chart 7 cont (sheet 2 of 25).

7-68

Maintenance: Troubleshooting-DAS 9100 Series Service Vol. II

NOTE:

SELECT LOOPING
ON

REFER TO SELECT EXPLANATION
IN DIAGNOSTICS MENU AT THE
FRONT OF THIS SECTION.

RUN HEM

ADDR TEST 0

CHECK rOR AN ECL
LOW OF +3.5 V
AT PIN 14 OF U655

CHECK FOR AN
ECL HIGH
AT PIN 12 OF U655

NO

CHECK FOR A TTL
LOW AT
PIN 6 OF U661

SUSPECT
U655

CHECK FOR A
TTL HIGH
AT PIN 19 OF U135

SUSPECT
U67lF, U165C,
OR 0649

SUSPECT
U661 OR U555A

YES

CHECK FOR HIGH
WITH LOW GOING
PULSES : 1 us AT
PIN 11 OF U135

SUSPECT
UI7l OR U135

NO

SUSPEJ:T

U135

Figure 7-62. Troubleshooting Chart 7 cont (sheet 3 of 25).

7-69

Maintenance: Troubleshooting-DAS 9100 Series Service Vol. II

SELECT LOOPING ON
FOR RUN TEST 1

CHECK FOR HIGH
WITH LOW GOING
PULSES : 1 us AT
PIN 9 OF U265
AND U465

SUSPECT
U528, U581
U185, U578

USE A LOGIC
ANALYZER TO
LOOK AT
CAO-OA 7 CLOCK
AT PIN 9

CHECK
ECL DATA BUS,
U258, U161, U165
AND U168

NO

OIEX:K PIN 7 OF
U258 FOR AN EO,

HIGH CF +4.5 V

1----<

CHECK FOR AN ECL
HIGH WITH A LOW
GOING PULSE : 1 us
AT PIN 5 OF U255
AND U258

"USE LOGIC
ANALYZER TO
LOOK AT
INPUT S I DE OF
U685

SUSPECT
Ul71 OR
R545

SUSPECT
U461, U488 OR
U685

YES

"THRESHOLD LEVEL OF LOGIC
ANALYZER SHOULD BE +4 V
""THRESHOLD LEVEL OF LOGIC
ANALYZER SHOULD BE +1. 4 V

SUSPECT
U685, U175 OR
U675

Figure 7-63. Troubleshooting Chart 7 cont (sheet 4 of 25).

7-70

Maintenance: Troubleshooting-DAS 9100 Series Service Vol. II

NOTE:
REFER TO SELECT EXPLANATION
IN DIAGNOSTICS MENU AT TIlE
FRONT OF TIllS SECTION.

CHECK FOR AN EeL
LOW OF +3.5 V
WITH TWO 80 NS
PULSES 200 us
APART AT PIN 13
OF U255 AND U258

SELECT LOOPING ON
FOR RUN TEST 2

SUSPECT
U528, U255
OR U258

"IiITH LOGIC
ANALYZER CHECK
EAO-EA7 AT U258
AND U255 (SAMPLE
INTERVAL .2 MS)

NO

SUSPECT
U258 OR
U255

SELECT LOOPING ON
FOR RUN TEST 3

CHECK FOR AN EeL
HIGH OF4.SV AT PIN
6 OF U558

SUSPECT
U558
"THRESHOLD LEVEL FOR
LOGIC ANALYZER SHOULD
BE +4.0 V

Figure 7-64. Troubleshooting Chart 7 cont (sheet 5 of 25).

7-71

Maintenance: Troubleshooting-DAS 9100 Series Service Vol. II

NOTE:
SET UP DAS TO

REFER TO SELECT EXPLANATION
IN DIAGNOSTICS MENU AT THE
FRONT OF THIS SECTION.

RUN
DIF CNTR TEST
(LOOPING ENABLED)

CHECK THE
EXPECTED
AND ACTUAL
RESULTS
DISPLAYED BY
DIAGNOSTICS

SUSPECT
US91A
AND U688

CHECK PINS
1 AND 19 OF U688
FOR A HIGH
WITH A LOW GOING
PULSE : 1 us

YES

WITH
OSCILLOSCOPE
CHECK OUTPUT OF
US88

SUSPECT
U688

NO

SUSPECT
U675

SUSPECT
U688

CHECK FOR A LOW
WITH HIGH GOING
PULSES: 1 us
AT PIN 2 OF
USSS

SUSPECT
US88 OR
U688

Figure 7·65. Troubleshooting Chart 7 cont (sheet 6 of 25).

7-72

Maintenance: Troubleshooting-CAS 9100 Series Service Vol. II

CHECK FOR A LOW

WITH HIGH GOING
PULSES : 1 us
AT PIN 7
OF U435B

SUSPECT
TRIGGER/TlME BASE
U605. U435 OR
OPEN V BETWEEN
TRIGGER/TIME BASE
AND 91A08

CHECK FOR A HIGH
WITH LOW GOING
PULSES: 1 us
AT PIN 1
OF U588

CHECK FOR A LOW
WITH HIGH GOING
PULSES: 1 us
AT PIN 8
OF U185

CHECK FOR A HIGH
AT
PIN 9 OF U185

CHECK FOR A LOW
AT
PIN 6 OF U435

CHECK FOR A HIGH
AT
PIN 7 OF U588

SUSPECT
PIN 3 OFU435 AND
PIN 2 OF U588
NO

SELECT LOOPING
CHECK
FOR A HIGH
WITH A LOW
GOING
PULSE: 1 us*

REFER TO
SCHEMATICS

CHECK FOR A HIGH
AT
PIN 10 OF U588

"THIS PULSE HAPPENS
ONLY ONCE DURING
THE TEST. YOU CANNOT
SEE IT WHILE LOOPING

SUSPECT
U588. U185.
AND U595A

SUSPECT
Ul71 OR
U131

Figure 7-66. Troubleshooting Chart 7 cont (sheet 7 of 25).

7-73

Maintenance: Troubleshooting-DAS 9100 Series Service Vol. II

CHECK POR ECL
LOW OF +3.5 V
AT PIN
13 OF U525

CHECK FOR EeL
LOW OF +3.5 V
AT PINS
14 AND 15

NO

OF U525

REFER TO
SCHEMATIC

NO

YES

SUSPECT

U525C, 0571 OR
0572

SET UP DIIS '1'0
RUN DEL CNTR

POWER-DOWN CAS
POWER - UP THEN

RUN AGAIN IF

PASS, END

Figure 7-67. Troubleshooting Chart 7 cont (sheet B of 25).

7-74

Maintenance: Troubleshooting-DAS 9100 Series Service Vol. II

NOTE:
REFER TO SELECT EXPLANATION
IN DIAGNOSTICS MENU AT THE
FRONT OF THIS SECTION.

SELECT LOOPING ON
FOR RUN TEST 0

CHECK ACTUAL
RESULTS
DISPLAYED BY
DIAGNOSTICS

CHECK FOR A LOW AT
PIN 3 OF U145 AND
U155

SUSPECT
Ul48 OR
U681

CHECK FOR A LOW AT
PIN 3 OF U145

NO

OlEO< FOR A

SUSPECT
U155 OR TTL
DATA BUS

rrn

AT PIN 3 OR Ul45
AND Ul55

CHECK FOR A HIGH
WITH LOW GOING
PULSES AT PIN 1,
19 OF U681

SUSPECT
U681, U158
OR Dl48

Figure 7-68. Troubleshooting Chart 7 cont (sheet 9 of 25).

7-75

Maintenance: Troubleshooting-DAS 9100 Series Service Vol. II

NOTE:
REFER TO SELECT EXPLANATION
IN DIAGNOSTICS MENU AT THE
FRONT OF THIS SECTION.

SELECT LOOPING ON
FOR RUN TEST 1

CHECK ACTUAL VALUE
DISPLAYED BY
DIAGNOSTICS

CHECK FOR A HIGH
WITH LOW GOING
PULSES AT PIN 3
OF U145

CHECR FOR A HIGH
WITH LOW GOING
PULSES AT PI N 3
OF U155

SUSPECT
U14B OR
U6Bl

NO

SUSPECr U145
OR TTL D BUS

SUSPECT
U155 OR TTL
DATA BUS

CHECK FOR A HIGH
WITH LOW GOING
PULSES AT PIN 3
OF U145 AND U155

CHECK FOR A HIGH
WITH LOW GOING
PULSES AT PINS 1 r
19 OF U6B1

SUSF= U145,
U155 OR TTL

o BUS

Figure 7-69. Troubleshooting Chart 7 cont (sheet 10 of 25).

7-76

SUSPECT
U6B1, U15B OR
U14B

Maintenance: Troubleshooting-CAS 9100 Series Service Vol. II

NOTE:
REFER TO SELECT EXPLANATION
IN DIAGNOSTICS MENU AT THE
PRONT OF THIS SECTION.

SELECT LOOPING ON
POR RUN TEST 2

CHEC~ ACTUAL
RESULTS DISPLAYED
BY DIAGNOSTICS

CHECK POR TOGGLE
ON
PIN 5 OF U145

SUSPECT U155 OR

Ul71

CHECK FOR A TOGGLE
AT PIN 5 OF U155

(COUNTER
LOADED
WRONG)

REreR

SUSPECT U155

ro

SQIrHI\TIC FUl\
AND CIRCUIT
lESCRIP!ICtl

IS !Dr axmING

CHECK FOR ECL
TOGGLE
AT PIN 14 OF U428

CHECK FOR A
TOGGLE
AT PIN 2 OF U438

SUSPECT
Q151 OR
Q152

Figure 7-70. Troubleshooting Chart 7 cont (sheet 11 of 25).

7-77

Maintenance: Troubleshooting-DAS 9100 Series Service Vol. II

NOTE:
REFER TO SELECT EXPLANATION
IN DIAGNOSTICS MENU AT THE
FRONT OF THIS SECTION.

SET UP DAS TO
RUN WORD REC
TEST

POWER-DOWN DAS
POWER-UP AND
RUN AGAIN--IF
PASS, THEN END

Figure 7-71. Troubleshooting Chart 7 cont (sheet 12 of 25).

7-78

Maintenance: Troubleshooting-DAS 9100 Series Service Vol. II

NOTE:
REFER TO SELECT EXPLANATION
IN DIAGNOSTICS MENU AT THE

FRONT OF THIS SECTION.

SELECT LOOPING ON
FOR RUN TEST 0

CHECK ACTUAL VALUE
DISPLAYED BY
DIAGNOSTICS

CHECK FOR A RIGH
WITH LOW GOING
PULSE: at
PINS 1. 19 OF U678

CHECK FOR A LOW
AT PINS 15. 17
OF U678

CHECK FOR A LOW
PIN 15 OF Ul25

CHECK FOR A HIGH
WITH LOW GOING
PULSE : 1 us
AT PIN 11 OF U125

CHECK FOR A LOW
AT PIN 12 OF U128

SUSPECT

Ul71

SUSPECT
U678

SUSPECT
U125

CHECK FOR A HIGH
WITH LOw GOING
PULSES AT PIN 11
OF U128

SUSPECT
Ul71 OR
U128

Figure 7-72. Troubleshooting Chart 7 cont (sheet 13 of 25).

7-79

Maintenance: Troubleshooting-CAS 9100 Series Service Vol. II

NOTE:
REFER TO SELECT EXPLANATION
IN DIAGNOSTICS MENU AT THE
FRONT OF THIS SECTION.

SELECT LOOPING ON
FOR RUN TEST 1

CHECK FOR A LOW
AT PIN 16 OF U121

SUSPECT
U681

CHECK FOR A HIGH
WITH LOW GOING
PULSE AT PIN 4 OF
U121

SUSPECT
U121

SUSPECT
U121 OR
Ul71

Figure 7-73. Troubleshooting Chart 7 cont (sheet 14 of 25).

7-80

Maintenance: Troubleshooting-CAS 9100 Series Service Vol. II

NOTE:
REFER TO SELECT EXPLANATION
IN DIAGNOSTICS MENU AT THE
FRONT OF THIS SECTION.

SELECT LOOPING ON
FOR RUN TEST 2

CHECK ACTUAL VALUE
DISPLAYED BY
DIAGNOSTICS

YES

NO

>-___......

CHECK FOR A HIGH
AT PIN 12 OF U128

CHECK FOR A HIGH
AT PIN 15 OF U125

YES

YES
REPLACE U678

NO

REPLACE U128

REPLACE U678

NO

REPLACE U128

Figure 7-74. Troubleshooting Chart 7 cont (sheet 15 of 25).

7-81

Maintenance: Troubleshooting-CAS 9100 Series Service Vol. II

NOTE:
REFER TO SELECT EXPLANATION
IN DIAGNOSTICS MENU AT THE
FRONT OF THIS SECTION.

SELECT LOOPING ON
FOR RUN TEST 3

CHECK FOR HIGH
AT PIN 16 OF U121

YES
REPLACE U681

NO

REPLACE U121

Figure 7-75. Troubleshooting Chart 7 cont (sheet 16 of 25).

7-82

Maintenance: Troubleshooting-DAS 9100 Series Service Vol. II

NOTE:
REFER TO SELECT EXPLANATION
IN DIAGNOSTICS MENU AT THE
FRONT OF THIS SECTION.

SET UP DAS TO RUN
ACQ MEM TEST

YES

POWER-DOWN DAS
POWER-UP AND RUN
AGAIN--IF PASS,
THEN END

Figure 7-76. Troubleshooting Chart 7 cont (sheet 17 of 25).

7-83

Maintenance: Troubleshooting-DAS 9100 Series Service Vol. II

NOTE:
REFER TO SELECT EXPLANATION
IN DIAGNOSTICS MENU AT THE
FRONT OF THIS SECTION.

SELECl' IJXJPIN3
CN
RUN TEST 0

CHEC~

DIAGNOSTIC
ERROR MESSAGE.
DID THE EVEN
OR ODD SIDE FAIL

COMPARE EXPECTED
RESULTS TO ACTUAL
RESULTS

COMPARE EXPECTED
RESULTS TO ACTUAL
RESULTS *

*EXPECTED RESULTS • X
MISC.

XX
GLITCH

XX
DATA

Figure 7-77. Troubleshooting Chart 7 cont (sheet 18 of 25).

7-84

Maintenance: Troubleshooting-CAS 9100 Series Service Vol. II

CHECK FOR ECL
HIGH WITH
LOW GOING PULSE
: 2 ns AT
PIN 22 OF U271

YES

POSSIBLE ADDRESS
OR DATA BUS
PROBLEM REFER TO
SCHEMATICS

CHECK FOR A
ECL TOGGLE
AT PIN 9 OF U585

SUSPECT U575,
U491 OR U495

SUSPECT
U585 OR
U455

Figure 7-78. Troubleshooting Chart 7 cont (sheet 19 of 25).

7-85

Maintenance: Troubleshooting-DAS 9100 Series Service Vol. II

CHECK FOR A
TOGGLE AT PIN 15
OF U585

YES

SUSPECT
U285

CHECK FOR
A TOGGLE
AT PIN 3
OF U585

SUSPECT
U278 OR
U281

SUSPECT
U585,
U278 OR U281

Figure 7-79. Troubleshooting Chart 7 cont (sheet 20 of 25).

7-86

Maintenance: Troubleshooting-DAS 9100 Series Service Vol. II

CHECK FOR A
TOGGLE AT
PIN 14 OF U585

YES

SUSPECT
U268 OR U271

CHECK FOR ECL
HIGH WITH
LOW GOING PULSES
- 2 ns AT
PIN 22 OF U485

SUSPECT BAD
RAM REFER TO
SCHEMATICS

SUSPECT
U561 OR
U568

Figure 7-80. Troubleshooting Chart 7 cont (sheet 21 of 25).

7-87

Maintenance: Troubleshooting-DAS 9100 Series Service Vol. II

CHECK FOR
A TOGGLE
AT PIN 13
OF U585

SUSPECT
U485

NO

SUSPECT

U585 OR
U485

CHECK FOR
A TOGGLE
AT PIN 2
OF U585

SUSPECT
U478 OR
U481

CHECK FOR
A TOGGLE
AT PIN 4
OF U585

NO

SUSPECT
U585.
U478 OR U481

SUSPECT
U468 OR
U471

NO

SUSPECT
U585.
U468 OR U471

Figure 7-81. Troubleshooting Chart 7 cont (sheet 22 of 25).

7-88

Maintenance: Troubleshooting-CAS 9100 Series Service Vol. II

NOTE:
REFER TO SELECT EXPLANATION
IN DIAGNOSTICS MENU AT THE
FRONT OF THIS SECTION.

SELECT LOOPING
ON FOR RUN
TEST 1

CHECK DIAGNOSTIC
ERROR MESSAGE.
DID THE EVEN
OR ODD
SIDE FAIL

COMPARE EXPECTED
RESULTS
TO ACTUAL
RESULTS*

ODD

EVEN

COMPARE EXPECTED
RESULTS
TO ACTUAL
RESULTS*

SUSPECT
U485

SUSPECT
U285

SUSPECT
U478 OR
U481

SUSPECT
U278 OR
U281
NO

NO

SUSPECT
U268 OR
U271

SUSPECT
U468 OR
U471

*EXPECTED RESULTS:

X

MISC.

XX

XX

GLITCH

DATA

Figure 7-82. Troubleshooting Chart 7 cont (sheet 23 of 25).

7-89

Maintenance: Troubleshooting-DAS 9100 Series Service Vol. II

NOTE:
SELECT LOOPING
ON FOR RUN
TEST 2

REFER TO SELECT EXPLANATION
IN DIAGNOSTICS MENU AT THE
FRONT OF THIS SECTION.

CHECK DIAGNOSTIC
ERROR MESSAGE.
DID THE EVEN
OR ODD
SIDE FAIL

COMPARE EXPECTED
RESULTS
TO ACTUAL
RESULTS*

ODD

EVEN

COMPARE EXPECTED
RESULTS
TO ACTUAL
RESULTS*

SUSPECT
U485

SUSPECT
U285

SUSPECT
U478 OR
U481

SUSPECT
U271 OR
U281

NO

NO

SUSPECT
U468 OR
U471

SUSPECT
U268 OR
U271

*EXPECTED RESULTS:

X

MISC

XX
GLITCH

XX
DATA

Figure 7·83. Troubleshooting Chart 7 cont (sheet 24 of 25).

7-90

Maintenance: Troubleshooting-DAS 9100 Series Service Vol. II

NOTE:
REFER TO SELECT EXPLANATION
IN DIAGNOSTICS MENU AT THE
FRONT OF THIS SECTION.

SELECT LOOPING ON
FOR RUN TEST 3

CHECK DIAGNOSTIC
ERROR MESSAGE.
DID THE EVEN
OR ODD SIDE FAIL

COMPARE EXPECTED
RESULTS TO
ACTUAL RESULTS·

EVEN

ODD

COMPARE EXPECTED
RESULTS TO
ACTUAL RESULTS·

SUSPECT
U285

SUSPECT
U485

SUSPECT
U271 OR
U281

SUSPECT
U478 OR
U481
NO

NO
SUSPECT
U268 OR
U271

SUSPECT
U468 OR
U471

*EXPECTED RESULTS:

X
MISC

XX
GLITCH

xx
DATA

Figure 7-84. Troubleshooting Chart 7 cont (sheet 25 of 25).

7-91

Maintenance: Troubleshooting-DAS 9100 Series Service Vol. II

NOTE:
REFER TO SELECT EXPLANATION
IN DIAGNOSTICS MENU AT THE
FRONT OF THIS SECTION.

USE EXTENlER BOI\RD FID1
SERVICE MIUNl.'ENI\J'a:

KIT

'ID

EXTEND PATT GEN BOI\RD
ABOVE DI\S roR EASY ACCESS
'ID CXMPCNENl'S AND TEST POINI'S.

NO
POWER-DOWN, POWER-UP
RUN ONCE MORE

Figure 7·85. Troubleshooting Chart 8-91P16 Pattern Generator failure (sheet 1 of 23).

7-92

Maintenance: Troubleshooting-DAS 9100 Series Service Vol. II

NOTE:
REFER TO SELECT EXPLANATION
IN DIAGNOSTICS MENU AT THE
FRONT OF THIS SECTION.

Figure 7-86. Troubleshooting Chart 8 cont (sheet 2 of 23).

7-93

Maintenance: Troubleshooting-CAS 9100 Series Service Vol. II

CHECK PINS 21. 19 AND
18 ON U685 MARING LOW
TRANSITIONS (ENABLE
AND ADRESS SELECT)

CHECK FOR uC PC LD
ON PIN 13 OF U685

YES
SUSPECT CONNECTION
BETWEEN PIN 13 OF
U685 AND PIN 9 OF
U5n OR U445
SUSPECT U665 DATA BUS
INTERFACE OR CONNECTION
BETWEEN U665 AND U541
OR UHS

SUSPECT
U541 OR

U445

SUSPECT CONNECT ION
BETWEEN U535 OR
U531 AND usn OR

U44S

CHECK POR VECT PC LD
SIGNAL ON PIN 11 OF
U685

.r

CIlECK PINS 23. 21. 19
AND 18 ON U685 MAKING
--, LOW TRANSITIONS (ENABLE
AND ADDRESS SELECT)

SUSPECT CONNECTION
BETWEEN PIN 11 OF
U685 AND PIN 9 OF
U535 OR U531

Figure 7-87. Troubleshooting Chart 8 cont (sheet 3 of 23).

7-94

Maintenance: Troubleshooting-CAS 9100 Series Service Vol. \I

SUSPECT U681, U671,
OR ADDRESS BUS
INTERFACE
YES

SUSPECT
U685

SUSPECT U681, U671,
OR ADDRESS BUS
INTERFACE

YES

SUSPECT
U685

Figure 7-88. Troubleshooting Chart 8 cont (sheet 4 of 23).

7-95

Maintenance: Troubleshooting-CAS 9100 Series Service Vol. "

SUSPECT
U535 AND
U53l

SUSPECT U321 OR U325,
VMEM SEL BUS, OR PC
BUS CONNECTION

SUSPECT CONNECTION
BETWEEN READBACK
COMPARATOR AND U371

YES

SUSPECT U371 IF VECT

MEMRii IS WORKING
PROPERLY

Figure 7-89. Troubleshooting Chart 8 cont (sheet 5 of 23).

7-96

Maintenance: Troubleshooting-DAS 9100 Series Service Vol. II

SELECT ENABLE
LOOPING ON TO
RUN TEST 1

NOTE:
REFER TO SELECT EXPLANATION
IN DIAGNOSTICS MENU AT THE
FRONT OF THIS SECTION.

CHECK PINS 20, 19, AND
18 ON U685 MAKING LOW
TRANSITIONS (ENABLE AND
ADDRESS SELECT)

CHECK FOR WE PULSE
ON PIN 8 OF U685

YES

SUSPECT CONNECTION BETWEEN
PIN 8 OF U685 AND WE INPUT
(PIN 22) OF U421 OR U425
SUSPECT U665, DATA BUS
INTERFACE, OR CONNEC"rION
BETWEEN U665 AND U521
OR U525

SUSPECT
U425 OR
U421

SUSPECT CONNECTION
BETWEEN VECTOR MEMORY
OUTPUT AND OUTPUT
COUNTER INPUTS

NO
CHECK FOR OUTPUT CNTRLD
SIGNAL PRESENT ON PIN 3
OF U241 (LOW TRANSITIONS)

'ADDRESS LINES WON'T
TOGGLE AT LOCATION
DO HEXAUECIMAL

SUSPECT CONNECTION BETWEEN
PIN 3 OF U241 AND PIN 7 OF
U315 OR U415

Figure 7·90. Troubleshooting Chart 8 cont (sheet 6 of 23).

7-97

Maintenance: Troubleshooting-DAS 9100 Series Service Vol. II

U681, U671, OR
BUS INTERFACE

YES

SUSPECT U685

SUSPECT U315 OR U415

SUSPECT U410 OR U310,
VMEM SEL BUS, OR
CONNECTION BETWEEN
COMPARATORS AND U315
OR U415

>-;;;.;......."1

SUSPECT CONNECTION
BETWEEN READBACK
COMPARATORS AND U371

YES
SUSPECT U371 IF
VCTR MEMRD
SIGNAL IS WORKING
PROPERLY (MAKING
LOW TRANSITIONS)

Figure 7·91. Troubleshooting Chart 8 cont (sheet 7 of 23).

7-98

Maintenance: Troubleshooting-DAS 9100 Series Service Vol. II

SELECT ENABLE LOOI'ING
ON TEST 1 SELECT
VECTOR 1 ROUTINE

NOTE:
REFER TO SELECT EXPLANATION
IN DIAGNOSTICS MENU AT THE
FRONT OF THIS SECTION.

FOLLOW TROUBLESHOOTING
TREE 6.1.1 TO LOCATE
PROGRAM COUNTER ERROR

CHECK PINS 23, 22, 21,
19, AND 18 ON U685
MARING LOW TRANSITIONS
(ENABLE AND ADDRESS
SELECTS)

FOR im PULSE ON
OF U685

YES
SUSPECT CONNECTION
BETWEEN PIN 9 OF U685
AND WE INPUT (PIN 22)
OF U521 OR U525

SUSPECT U665, DATA BUS
INTERFACE, OR CONNECTION
BETWEEN U665 AND U521
OR U525

SUSPECT CONNECTION
BETWEEN VECTOR MEMORY
OUTPUT AND OUTPUT
COUNTER INPUTS

NO
CHECR FOR OUTPUT CNTRLD
SIGNAL PRESENT ON PIN 3
OF U241 (LOW TRANSITIONS)

• ADDRESS LINES WON-T
TOGGLE AT LOCATION
00 HEXADECIMAL

SUSPECT CONNECTION
BETWEEN PIN 3 OF U241
AND PIN 7 OF U615 OR
U515

Figure 7-92. Troubleshooting Chart 8 cont (sheet 8 of 23).

7-99

Maintenance: Troubleshooting-DAS 9100 Series Service Vol. II

U681, U671, OR
BUS INTERFACE

YES

SUSPECT U685

SUSPECT U615 OR U515

SUSPECT U510 OR U610,
VMEM SEL BUS, OR
CONNECTION BETWEEN
COMPARATORS AND U615
OR U515

YES

SUSPECT U371 IF
VCTR MEMRD
SIGNAL IS WORKING
PROPERLY (MAKING
LOW TRANSITIONS)

Figure 7-93. Troubleshooting Chart 8 cont (sheet 9 of 23).

7-100

Maintenance: Troubleshooting-DAS 9100 Series Service Vol. II

SUSPECT U241

NO

CHECK U617 FOR SELECTING
SINGLE STEP CLOCK (PIN
4 AND 12) INPUT (LOAD
SIGNAL)

SUSPECT U685, U681 OR
ADDRESS BUS INTERFACE

CHECK PIN 10 ON U685
FOR LOAD SIGNAL

YES

SUSPECT U617

YES

SUSPECT CONNECTION
BETWEEN PIN 10 OF
U685 AND PINS 4, 7,
AND 12 OF U617

Figure 7-94. Troubleshooting Chart 8 cont (sheet 10 of 23).

7-101

Maintenance: Troubleshooting-DAS 9100 Series Service Vol. II

NOTE:
REFER TO SELECT EXPLANATION
IN DIAGNOSTICS MENU AT THE
PRONT OF THIS SECTION.

POLLOW TROUBLESHOOT ING
TREE 6.1.1 TO LOCATE
PROGRAM COUNTER ERROR

CHECK PINS 22, 20, 19
AND 18 ON U68S MAKING
LOW TRANSITIONS (ENABLE
AND ADDRESS SELECTS)

CHECK FOR UCO SIGNAL
ON PIN 6 OF U685

YES

SUSPECT U665, DATA BUS
INTERFACE, OR CONNECTION
BETWEEN U665 AND U435 OR
U441

SUSPECT CONNECTION
BETWEEN PIN 6 OF U68S
AND PIN 22 OF U435 OR
U441

SUSPECT UH1 OR U435

SUSPECT CONNECTION
BETWEEN UC6DE OUTPUT
AND INSTRUCTION REGISTER
(U467, U453 AND U451)

Figure 7-95. Troubleshooting Chart 8 cont (sheet 11 of 23).

7-102

Maintenance: Troubleshooting-DAS 9100 Series Service Vol. II

CHECK PIN 23, 22, 19,
AND 16 ON U665 HAKING
LOW TRANSITIONS (ENABLE
AND ADDRESS SELECTS)

CHECK PIN 14 OF U665
FOR IRLDO PULSE (LOW
TRANSITION)
YES

SUSP::CT CONNECTION
BETWEEN PIN 14 OF U665
AND IRLDO SIGNAL
(PIN 9) OF U453 OR U467
OR U451
SUSPECT EITHER U451, U453,
OR U467

SUSPECT CONNECTION
BETWEEN INSTRUCTION
MUX AND INSTRUCT ION
REGISTER
YES
CHECK INSTRUCTION MUX FOR
PROPER OPERATION, PIN 9 ON
U337, U335, U331, AND U327
SHOULD BE HAKING LOW
TRANSITIONS, SELECTING
GOTO FIELD INPUT

SUSPECT INSTRUCTION MUX
OR SIGNALS LEADING INTO
INSTRUCTION MUX CHECK
FOR LOW GOING PULSES
ON PIN 14 ON INSTRUCTION
MUX INPUT.

READBACK CIRCUITRY SHOULD
BE WORJIING PROPERLY SINCE
IT HAS ALREADY BEEN CHECKED
IN TEST O.
BACKTRACK AND
RECHECK SIGNAL LINES.
YES

SUSPECT CONNECTION
BETWEEN INSTRUCTION
MUX AND U535 OR US3l

SUSPECT U661, U671, OR
ADDRESS BUS INTERFACE

Figure 7-96. Troubleshooting Chart 8 cont (sheet 12 of 23)

7-103

Maintenance: Troubleshooting-CAS 9100 Series Service Vol. II

SUSPECT U681, U671, OR
ADDRESS BUS INTERFACE

YES

SUSPECT U685

CHECK FOR LOW TRANSITIONS
ON PIN 11 AND 7 ON U581

SUSPECT EITHER OF THE
FOLLOWING: U337, U335,~'-""'<
U331, OR U327

NO

PIN 14 IS THE uC PCEN
LINE. CHECK PIN 5 OF
U581 FOR LOW GOING
TRANSITIONS
YES

SUSPECT CONNECTION
BETWEEN U581 AND
INSTRUCTION MUX

<

LOW
TRANSITIONS
PRESENT ON
PINS 7 AND
11 OF U581

SUSPECT U685, U665,
DATA OR ADDRESS BUS
INTERFACE

YES

SUSPECT U581

Figure 7-97. Troubleshooting Chart 8 cont (sheet 13 of 23).

7-104

Maintenance: Troubleshooting-DAS 9100 Series Service Vol. "

TROUBLESHOOTING ADVANCES IN THE 91P16
Text Reference to Figure 7-101, point 6.1.4.1.
Troubleshoot problems in the Advance area of the 91 P16 Pattern Generator Module by writing a
program in the Pattern Generator Program menu that exercises the malfunctioning area. The
following is an example of how such a program can be written.
Figure 7-98 shows the Diagnostics menu with an ADVANCE failure in TEST O. This figure shows
that at address 1F hexadecimal (31 decimal), the test expects to read 20 hexadecimal (32 decimal) but actually reads 00. The hexadecimal address in memory corresponds to the sequence
numbers used to program the pattern generator, according to the following equation:
Sequence Number = Memory Address-1.
Note, however, that the memory address must be translated into decimal before making this
conversion.
The information in the Diagnostics menu means that rather than stepping from sequence 30 to
sequence 31 as expected, the 91 P16 actually stepped from sequence 30 to sequence 255.
(Sequence 255 is calculated by finding address 00-1, which on an 8-bit bus is 255 decimal.) The
desired and actual steps are shown below.

Desired
SEQ
SEQ
SEQ
SEQ
SEQ
SEQ

29
30
31
32

Actual
PASS
PASS
PASS
PASS
PASS

29
30
255

PASS
PASS
PASS
#FAIL#

Verify the actual sequence of events as follows:
1. Set the pattern generator to the single-step mode and watch the sequence numbers at the top
of the menu. Single-step the pattern generator until you reach the sequence number that
corresponds to the diagnostic failure.
2. Press the START PAT GEN key again to ensure the sequence number at the top of the menu
goes to the expected value. In this example, the pattern generator stepped from sequence 30
(Figure 7-99) to sequence 255 (Figure 7-100) and then to sequences 0, 1, 2, 3, .....
3. Having verified the above sequence of events, re-enter the troubleshooting tree at 6.1.4.1.
While in this small section of the tree, stay in the Pattern Generator Program menu and leave
the pattern generator in single-step mode. Hold down the START PAT GEN key so that the
pattern generator single-steps continuously.
NOTE

If the pattern generator reaches sequence 254, halt the pattern generator by pressing the
STOP key. Then continue following the tree, again holding down the START PAT GEN key.

7-105

Maintenance: Troubleshooting-DAS 9100 Series Service Vol. "

MOOULE: IImJ SLOT:

DRS 9180 DIAGHOSTICS

n

LOCfIHG: . .

MODE: IImJ FUHCTIOH:.
FUNCTIONS FOR SLOT: 1, 91P16
e PC
4 GOTO
1 VECTOR RAM
5 CALL
2 MICRO RAM
6RETURN
3 ADVANCE
7 STACK RAM

8 CLOCK

PRESS: START SYSTEM TO BEGIN TEST.
-------------------------------SLOT: 1, 91P16
ADDR EXPECTED
20
3 A!MtlCE
TESTe
1F
TEST 1
99
AA
3~
88
AA
3 AI:MttE
TEST 2
3~
TEST 3
Of!
AA

,------ACTUAL
00
AA

FAIL
PASS
PASS
PASS

AA
AA

3836-212

Figure 7-98. Diagnostics Menu showing selections for Pattern Generator test program.

GEHERAT~: - I I I
INTERRUPT: CALL _
ON •
SEQ: 39 VECTOR: XXXX
CLOCK:
lib
. . + 1.40V PAUSE ON:
INHIBIT 00: •

PATTERN

-_ .......
SEQ

LABEL

25

25

26

PODICB
_

XXXX

XXXX

28
29
30

32
33
34

XXXX
XXXX
XXXX
XXXX
XXXX
XXXX
lOO(X

35

XXXX

36
Jl

XlOO!

38

XlOO!
XXXX

39

40

STROBES

XXXX

27

31

INSTRUCTIONS

n

XXXX
XXXX

3836-213

Figure 7-99. Program example,

7-106

sea 30, shown on Pattern Generator Program Sub-menu.

Maintenance: Troubleshooting-CAS 9100 Series Service Vol. II

PATTERN GENERATOR: Mlil
SEQ: 255 VECTOR: 0100
CLOCK:
III

INTERRUPT: CAlL _

ON.

IIiII + 1.40U PAUSE ON:. IHHIBIT 00: •

-_ .......
SEQ LABEL
25
26

27
28
29
30
31
32

33
34
35
36

37
3S
39
40

25

PODlCB

Ie9II IHSTRUCTIONS
XXXX
XXXX
XXXX
XXXX
XXXX
XXXX
XXXX
XXXX
XXXX
XXXX
XXXX
XXXX
XXXX
XXXX
XXXX
XXXX

STROBES

3836-214

Figure 7-100. Program example, SEQ 255, shown on Pattern Generator Sub-menu.

7-107

Maintenance: Troubleshooting-DAS 9100 Series Service Vol. II

NOTE:
REFER TO SELECT EXPLANATION
IN DIAGNOSTICS MENU AT THE
FRONT OF THIS SECTION.

SUSPECT U427

SUSPECT U431

Figure 7-101. Troubleshooting Chart 8-91P16 Pattern Generator failure (sheet 14 of 23).

7-108

Maintenance: Troubleshooting-DAS 9100 Series Service Vol. II

INTERRUPT:

PATTERN GENERATOR: Imll

CALL _

00 •

CLOCK: IIIIIIij!l41111 . . + 1.40U PAUSE OH:. INHIBIT 00: 0
P001CB

----- ... SEQ LABEL

27

2B

32

33
34

35
36
37
3S
39
40

INSTRUCTIONS

STROBES

XXXX
XXXX
XXXX
XXXX
XXXX

25
26

29
30
31

Ie§II

30
31

XXXX

GOTO

XXXX GOTO
XXXX
XXXX
XXXX
XXXX
XXXX
XXXX
XXXX
XXXX
XXXX

31
30

3836-215

Figure 7-102. Pattern Generator Program showing GOTO sequences.

TROUBLESHOOTING ADVANCES IN THE 91 P16, continued
Text Reference to Figure 7-103 point 6.1.4.1.1
At this pOint, the circuit problem has been isolated to the advance generator circuitry. To check
the advance generator, a looping program must be written to exercise the point that does not
advance properly. In the previous example, it was found that the pattern generator would not
advance from sequence 30 to sequence 31 (memory address 1 F hexadecimal to 20 hexadecimal).
Figure 7-102 shows a program that forces the advance generator to exercise at those addresses.
To exercise the sequences through which your pattern generator cannot advance, enter a similar
program into the Pattern Generator Program menu.
Note that the GOTO bus in the 91 P16 has the correct data when the advance bus goes astray.
Because of this, the GOTO bus can be used as a reference in performing the next few steps.
Below is a listing that compares the values in the GOTO bus to the values in the advance bus in
the example given previously.

7-109

Maintenance: Troubleshooting-DAS 9100 Series Service Vol. II

GOTO Bus

Advance Bus

1F

21

20

20

1F

21

20

20

The troubleshooting tree can now be re-entered at 6.1.4.1 .1. The pattern generator should be
loaded with the exercising program, and the clock for the pattern generator should be set to
internal, at 1 MS. Press the START PAT GEN key to start operation of the pattern generator.

SUSPECT U327, U331, U335
OR 337

SUSPECT U471 OR U367

NO

FIND THE DEFECTIVE XOR
GATE OR AND GATE

Figure 7-103. Troubleshooting Chart 8-91P16 Pattern Generator failure (sheet 15 of 23).

7-110

Maintenance: Troubleshooting-CAS 9100 Series Service Vol. II

PRESS PATTERN GEN MENU
KEY AND ENTER COUNT
PROGRAM SINGLE STEP
PROGRAM 170 TIMES

SUSPECT U515 OR U615

SUSPECT U241

SUSPECT U137 OR U140

Figure 7-104. Troubleshooting Chart 8 cont (sheet 16 of 23).

7-111

Maintenance: Troubleshooting-DAS 9100 Series Service Vol. II

SUSPECT DECODE LOGIC
U241 OR U341

YES

SUSPECT U235 OR Ul17

SUSPECT U241

NO

SUSPECT U341

SUSPECT U237

NO

SUSPECT U341

Figure 7-105. Troubleshooting Chart 8 cont (sheet 17 of 23).

7-112

Maintenance: Troubleshooting-DAS 9100 Series Service Vol. II

NOTE:
REFER TO SELECT EXPLANATION
IN DIAGNOSTICS MENU AT THE
FRONT OF THIS SECTION.

SUSPECT U427

YES

YES

SUSPECT U453

SUSPECT U431

YES

SUSPECT U337, U335,
U331 OR U327

YES

SUSPECT U467

Figure 7-106. Troubleshooting Chart 8 cont (sheet 18 of 23).

7-113

Maintenance: Troubleshooting-DAS 9100 Series Service Vol. "

NOTE:
REFER TO SELECT EXPLANATION
IN DIAGNOSTICS MENU AT THE
FRONT OF THIS SECTION.

SUSPECT U427

YES

YES

SUSPECT U453

SUSPECT U431

SUSPECT U337, U335,
U331 OR U327

SUSPECT U467

Figure 7-107. Troubleshooting Chart 8 cont (sheet 19 of 23).

7-114

Maintenance: Troubleshooting-DAS 9100 Series Service Vol. II

LOOP ON

TEST 6

SUSPECT U427

SUSPECT U453

SUSPECT U431

CONNECT SCOPE PROBE TO
PIN 7 OF u327. WITH
OTHER SCOPE PROBE CHECK
AO - A7 INPUTS OF U337,
U335, U331 AND U327

SUSPECT U453

YES

SUSPECT U337, U335,
U331, OR U327

SUSPECT U345 OR U245

Figure 7-108. Troubleshooting Chart 8 cont (sheet 20 of 23).

REV NOV 1983

7-115

Maintenance: Troubleshooting-CAS 9100 Series Service Vol. II

Figure 7·109. Troubleshooting Chart 8 cont (sheet 21 of 23).

7-116

Maintenance: Troubleshooting-CAS 9100 Series Service Vol. II

NOTE:
REFER TO SELECT EXPLANATION
IN DIAGNOSTICS MENU AT THE
FRONT OF THIS SECTION.

PRESS PATTERN GENERATOR
MENU KEY ENTER AND RUN
PROG. A*

*

SEE FIGURE 7-111

SUSPECT U353

** SEE FIGURE 7-112

SUSPECT U353

Figure 7-110. Troubleshooting Chart 8 cont (sheet 22 of 23).

7-117

Maintenance: Troubleshooting-DAS 9100 Series Service Vol. II

PATTERN GENERATOR:

lib

CLOCK:

INTERRUPT: CALL _

MIMi
. . + 1.40U

-_ ...._.
PODICB

SEQ

LABEL

1
2
3
4

l19li INSTRUCTIONS

00 •

PAUSE ON:. INHIBIT 00:

R

STROBES

XXXX
XXXX
XXXX
XXXX
XXXX
XXXX
XXXX
XXXX
XXXX
XXXX
XXXX
XXXX
XXXX
XXXX
XXXX
XXXX

5

6
7
8
9
19
11
12
13
14
15
16

3836-216

Figure 7-111. Pattern Generator Program example A for troubleshooting.

INTERRUPT: CALL _
ON 101
utllil
_Oi!l!l4_ . . + 1.40U PAUSE ON: D INHIBIT ON: •

PATTERN GENERATOR:
CLOCK:

POOICB

IW9II INSTRUCTIONS
_ _ ImIII
SEQ

1
2
3
4
5
6

7

8

9
19
11
12
13
14
15
16

LABEL

0009
XXXX
XXXX
XXXX
XXXX
XXXX
XXXX
XXXX
XXXX
XXXX
XXXX
XXXX
XXXX
XXXX
XXXX
XXXX

STROBES

•

RETURN

3836-217

Figure 7-112. Pattern Generator Program example B for troubleshooting.

7-118

Maintenance: Troubleshooting-DAS 9100 Series Service Vol. II

NOTE:
REFER TO SELECT EXPLANATION
IN DIAGNOSTICS MENU AT THE
FRONT OF THIS SECTION.

SUSPECT TRIGGER

~

~-,-,

SUSPECT CONTROL REG U585

SUSPECT U617

SUSPECT CONTROL REG U581

SUSPECT U121

SUSPECT PAUSE CIRCUIT

Figure 7-113. Troubleshooting Chart 8-91P16 Pattern Generator failure (sheet 23 of 23).

7-119

Maintenance: Troubleshooting-CAS 9100 Series Service Vol. II

NO

YES

PIN 3 OF U198 SHOULD BE
176 V LOWER THAN PIN 2
(R293, R291 AND R299)
IF ABOVE CONDITIONS ARE
MET, U198 IS DEFECTIVE
YES

CHECK 0196,
0197 AND ASSOC
CIRCUITRY

SUSPECT 0196 OR 0197

CHECK U198 AND CIRCUITRY
CONNEC~ING TO PINS 2 AND
3 OF U198

SUSPECT 0196
OR 0197

YES

TURN OFF POWER 0398 IS
PROBABLY DESTROYED
CHECK CONTINUITY OF
0398, ALSO CHECK C498
AND CR496 FOR SHORTS
SWITCHER GOOD

REPLACE FUSE AND POWER UP

Figure 7-114. Troubleshooting Chart 9-Pattern Generator Power Supply failure.

7-120

Maintenance: Troubleshooting-DAS 9100 Series Service Vol. II

91F32 PA'IT. Gl:N.
EXPANDER

Figure 7-115. Troubleshooting Chart 10-91P32 Pattern Generator failure (sheet 1 of 5).

7-121

Maintenance: Troubleshooting-DAS 9100 Series Service Vol. II

NOTE:
REFER TO SELECT EXPLANATION
IN DIAGNOSTICS MENU AT THE
FRONT OF '1'HIS SECTION.

CHECK PIN 14 ON UUl
FOR LOW GOING PULSES

",>-=-t.-{ SUSPECT U441 OR U648

SUSPECT CONNECTION
BETWEEN U441 AND U125
OR U131

CHECK PIN 15 ON U408

).::::..._~ OR PIN 14 ON U618 FORi--_-<

LOW GOING PULSES

SUSPECT READBACK
CIRCUITRY (UI08,
U111, OR U635)
-DATA PRESENT MEANS
LOWGOING PULSES
--EXCEPT ADDRESS 00,
IlllERE '1'HE ADDRESS
LINES WILL NOT TOGGLE

Figure 7-116. Troubleshooting Chart 10 cont (sheet 2 of 5).

7-122

SUSPECT U408, U618
OR CLOCK INTERFACE
CONNECTION

Maintenance: Troubleshooting-DAS 9100 Series Service Vol. II

NOTE:
REFER TO SELECT EXPLANATION
IN DIAGNOSTICS MENU AT THE
FRONT OF THIS SECTION.

CHECK PIN 13 ON U441
FOR LOW GOING PULSES

>N"'O;........o{ SUSPECT U441 OR U646

SUSP= CXJHX:Tlal

~

U645 AND U331 OR U325

SUSPECT U645 OR
CONNECTION BETWEEN
U645 AND U331 OR U325

SUSPECT U331 OR U325

r=---l

CHECK PIN 15 ON U406
OR PIN 14 ON U618 FOR!--.....
LOW GOING PULSES

-<

SUSPECT U408. U618
OR CLOCK INTERfACE
CONNECTION

SUSPECT READBACK
CIRCUITRY (U308.
U311. OR U635)
'DATA PRESENT MEANS
LOWGOING PULSES
""EXCEPT ADDRESS 00.
WHERE THE ADDRESS
LINES WILL NOT TOGGLE

Figure 7·117. Troubleshooting Chart 10 cont (sheet 3 of 5).

7-123

Maintenance: Troubleshooting-CAS 9100 Series Service Vol. II

NOTE:
REFER TO SELECT EXPLANATION
IN DIAGNOSTICS MENU AT THE
FRONT OF THIS SECTION.

CHECR PIN l2 ON U44l
FOR LOW GOING PULSES

>'-;.;;;......~

~.:;:::........~ SUSPECT U441 OR U648

CHECK PIN 15 ON U408
OR PIN 14 ON U618 FOR!---4_C.
LOW GOING PULSES

SUSPECT U415. U515 OR
CONNECTION BETWEEN
THESE CHIPS AND U408

"DATA PRESENT MEANS
LOWGOING PULSES

··EXCEPT ADDRESS 00,
WHERE THE ADDRESS
LINES WILL NOT TOGGLE

Figure 7-118. Troubleshooting Chart 10 cont (sheet 4 of 5).

7-124

SUSPECT U408. U416
OR CLOCR INTERFACE
CONNECTION

Maintenance: Troubleshooting-CAS 9100 Series Service Vol. II

NOTE.
REFER TO SELECT EXPLANATION
IN DIAGNOSTICS MENU AT THE
FRONT OF THIS SECTION.

">=--I.c SUSPECT

U441 OR U648

SUSPECT U64 5 OR
CONNECTION BETWEEN
U645 AND U53l ORU525

U621. U628 OR
BUS INTERFACE

SUSPECT U525 OR U531

CHECK PIN 15 ON U408

r'''----i OR PIN 14 ON UU8 FORI--__..c;.
LOW GOING PULSES

SUSPECT U408. UU8
OR CLOCK INTERfACE
CONNECTION

.DATA PRESENT MEANS
LOWGOING PULSES
··EXCEPT ADDRESS 00,
WHERE THE ADDRESS
LINES WILL NOT TOGGLE

Figure 7-119. Troubleshooting Chart 10 cont (sheet 5 of 5).

7-125

Maintenance: Troubleshooting-DAS 9100 Series Service Vol. II

REMOVE FRONT FAN ASSEMBLY
AND ALL INSTRUMENT MODULES
EXCEPT CONTROLLER AND
TRIGGER/TlMEBASE TO GAIN
ACCESS TO TAPE DRIVE

*VOLTAGES

A18A2P351

··FREQUENCIES

PIN

PIN

VOLTAGE

1

+12 +3t

3
4

-12 !3t

A18A1P470

Al8A2U301 ON
FREQUENCY

PIN

4
3
4
5
6
11
10
9
8

2
1
0.5
250
125
6.25
31. 25
15.675

GND

VOLTAGE
+5 V.:!:5t

MHz
MHz
MIIz

KHz
KHz
KHz
KHz
KHz

A18A1P450
PIN

VOLTAGE

10

+12 !3t

A18A1TP3 - +2 V !7t

Figure 7-120. Troubleshooting Chart 11-Tape Drive failure (sheet 1 of 6).

7-126

Maintenance: Troubleshooting-DAS 9100 Series Service Vol. II

Figure 7-121. Troubleshooting Chart 11 cont (sheet 2 of 6).

7-127

Maintenance: Troubleshooting-DAS 9100 Series Service Vol. II

VISUALLY INSPECT TACH
WHEEL. NONE OF THE
BLACK STRIPES SHOULD
BE SCRATCHED. THE OTHER
PLASTIC SHOULD BE CLEAR

ROTATE TAPE DRIVE WHEEL
BY HAND. CHECK A18A2U22l
PIN 38 FOR TTL HIGH AND
LOW AS WHEEL TURNS.
(SERVO BOARD)

MONITOR A18A2U22l, PIN 31.
CHECK FOR TTL LOW WITH
CARTRIDGE IN PLACE, TTL
WITH CARTRIDGE OUT.
(SERVO BOARD)

CHECK CONTROLLER AND
INTERCONNECT BOARDS

*FIND BEGINNING OF TAPE (FBOT)
IS INDICATED BY THE FOLLOWING
TTL VOLTAGES ON A18AlU66l (ON
DATA BOARD)
PIN 24 - SCI LOW
PIN 23 - ~ HIGH
PIN 22 - SC3 HIGH

REPLACE FAILED
BUFFER

CONNECT LA TO PINS 3 (LSB) 7 (MSB) OF A18A2J3ll (ON
SERVO BOARD). CLOCK LA
ASYNCHRONOUSLY AT 10 us.
TRIGGER ON IE.

INSERT CARTRIDGE IN TAPE
DRIVE. CYCLE POWER TO DAS.

Figure 7-122 .. Troubleshooting Chart 11 cont (sheet 3 of 6).

7-128

Maintenance: Troubleshooting-DAS 9100 Series Service Vol. II

COMPARE DATA ACQUIRED
BY LA TO LIST IN TEST
REFER TO 8.1.2

ANALYZE TEST RESULTS
TO FIND PROBLEM
SEE TEXT REF. 8.1.2

')---tl~1

TO FIND PROBLEM,
SEE MODULATOR
OPEN LOOP TESTS

Figure 7·123. Troubleshooting Chart 11 cont (sheet 4 of 6).

7-129

Maintenance: Troubleshooting-DAS 9100 Series Service Vol. II

TROUBLESHOOTING THE TAPE DRIVE SERVO BOARD
Text Reference to Figure 7-123, pOint 8.1.2.
When the servo controller on the tape drive is reset, the 6500/1 does a self test. The status of the
self test is indicated by the data read on pins 3 through 7 of the 6500/1 (A 18A2J311). If the test
does not get past any of the values 1E through 1B hexadecimal (as read on pins 3 through 7),
then the 6500/1 is faulty.
Values 1A through 00 hexadecimal indicate the firmware routine being performed by the 6500/1
during operation. If the value reaches 00, then the 6500/1 is probably functional.
NOTE
Some of the steps between 1F and 00 hexadecimal may be skipped. As long as the value at
the port reads 00 at some point, the 6500/1 is probably functional.

If the value at the port cannot get past some point between (but not including) 00 and 1B
hexadecimal, then analyze the test results to see what might cause the error other than the
6500/1. The fault may lie with either the external circuitry or the 6500/1.

Table 7-2
6500/1 Check Port Values
Port Value

7-130

Meaning

1F

Hardware reset.

1E

Internal ROM check in progress, ports assigned.

10

RAM check in progress, ROM OK.

1C

Modulator check in progress, RAM OK.

1B

Modulator OK. Signal the Controller board that everything works.

1A

Acknowledgment received from the Controller board. Start tape operation.

19

The sequence does not progress past this point if the tape drive does not detect
a cartridge in place

18

Fault 1 error.

17

Waiting for cartrldge removal.

16

Hole detected.

15

Waiting for fault acknowledge, hole too long. This may indicate that the tape ran
off the end.

14

BRK error.

13

Waiting for hole acknowledge from the Controller board.

12

Waiting for fault acknowledge from the Controller board.

Maintenance: Troubleshooting-DAS 9100 Series Service Vol. II

Table 7-2 (cont)
6500/1 Check Port Values

Port Value

Meaning

11

Slow clock error.

10

Fast clock error.

OF

Waiting for BOT (beginning of tape acknowledge).

OE

Double hole found (located at beginning of tape).

OD

Start BOT sequence (find the beginning of the tape).

OC

Executing the HARDRAMP sequence.

OB

Executing SLOWDWN25 sequence. This sequence slows the drive from 60 ips to
25 ips.

OA

Executing STOP60. Brings tape motion to a stop.

09

Executing REG60. Brings the tape drive up to 60 ips and regulates the speed.

08

RAMPC subroutine entered. Brings the tape drive from 0 ips up to 25 ips.

O?

Executing the HARDSTOP routine.

06

6500/1 sets up the pointers for the SLOWDWN25 routine and turns off the tape
drive motor.

05

Executing the COAST routine, which sets up painters for the STOP60 routine,
and turns off the tape drive motor.

04

Setting up pointers for ramping the tape drive up to 60 ips.

03

Setting up painters for ramping the tape drive up to 25 ips.

02

Executing the DLY1 00 subroutine. This subroutine delays 100 counts. It is used
for final tape positioning at the end of a BOT (find beginning of tape) command.

01

Executing the tape hole checking subroutine.

00

Executing SCAN. This subroutine ensures that tape motion commands are valid
and executed in a manner that is safe for the magnetic tape.

7-131

Maintenance: Troubleshooting-DAS 9100 Series Service Vol. "

'JOO)l.V

50.11-5

CYCLE POWER TO DAS
WHILE HOLDING STOP
KEY DOWN TO CAUSE
POWER-UP FAILURE

ENTER DIAGNOSTICS
MENU. SELECT TO RUN
SINGLE MODE ON SLOT
o (THE CONTROLLER)

NOTE:
PERFORM TEST BELOW THIS
POINT ON THIS PAGE WHILE
TAPE IS BEING READ. THIS
MAY REOUIRE RESTARTING
DIAGNOSTIC TEST

REPAIR CIRCUITRY
AROUND A18A1U611B
(THRESHOLD DETECTOR)

1V

50J'S
REPAIR CIRCUITRY
AROUND A18AlU611A
(PEAK DETECTOR)

REPAIR GAP DETECTOR
CIRCUITRY. (DATA BOARD
U805 AND U611C, AND D)

Figure 7-124. Troubleshooting Chart 11-Tape Drive failure cont (sheet 5 of 6).

7-132

Maintenance: Troubleshooting-DAS 9100 Series Service Vol. II

CAUTION:
• ANY DATA STORED ON A TAPE WILL
BE OVER-WRITTEN BY THE TAPE
WRITE TEST. USE A FORMATTED
BLANK TAPE OR A TAPE WITH
UNIMPORTANT DATA.

NOTE:
PERFORM TESTS BELOW THIS
POINT ON THIS PAGE WHILE
TAPE HEAD IS WRITTING.
THIS HAY REQUIRE RESTARTING
THE DIAGNOSTIC TEST.

REPAIR WRITE INHIBIT
DETECT SWITCH

REPAIR CIRCUITRY AROUND
A18A1Q765

REPAIR CIRCUITRY AROUND
A18A1Q666

5v

50p.S

REPAIR WRITE CIRCUITRY
(CR631, U851, AND U841
ON DATA BOARD)

5V

Figure 7-125. Troubleshooting Chart 11 cont (sheet 6 of 6)

7-133

Maintenance: Troubleshooting-DAS 9100 Series Service Vol. "

TROUBLESHOOTING THE TAPE DRIVE SERVO BOARD, continued
Modulator Open-Loop Tests
At this pOint, the fault in the tape drive seems to be isolated to the modulator circuitry. There is a
special routine in the 6500/1 on the servo board (A 18A2U211) that provides an open loop test for
the modulator circuits. The low duration of NMI determines which test is performed.

~
Running the drive at high speeds for prolonged periods of time may burn out the motor.
Modulator tests should be performed with the bridge off (see Table 7-3). Bridge tests should
be performed at low modulator values.
Running these tests with a data cartridge in place will run the tape off the end.
During these tests, the values at pins 16 (MSB) through pin 20 (LSB) take on new meanings.
Table 7-3 gives the tests available, how long NMI must be held low to activate them, and the new
port meanings.
Table 7-3
Servo Board Test Routine

7-134

Port
Value

Drive Direction
(Bridge)

Modulator
Value

00
01
02
03

Forward
Forward
Forward
Forward

00
20
40
60

64.77
63.03
60.70
58.63

ms
ms
ms
ms

04
05
06
07

Forward
Forward
Forward
Forward

80
AO
CO
EO

56.57
54.53
52.44
50.42

ms
ms
ms
ms

08
09
OA
OB

Reverse
Reverse
Reverse
Reverse

00
20
40
60

48.22
46.18
44.14
42.03

ms
ms
ms
ms

OC
OD
OE
OF

Reverse
Reverse
Reverse
Reverse

80
AO
CO
EO

40.01
37.95
36.01
33.77

ms
ms
ms
ms

10
11
12
13

Off
Off
Off
Off

00
20
40
60

31.78
29.75
27.68
25.61

ms
ms
ms
ms

14
15
16
17

Off
Off
Off
Off

80
AO
CO
EO

23.59 ms
21.54 ms
19.50 ms
17.59 ms

NMI
held low

Maintenance: Troubleshooting-CAS 9100 Series Service Vol. II

TROUBLESHOOTING OPTION 02, THE I/O INTERFACE
Option 02, the I/O Interface, involves four major divisions:
• Interface to the DAS-If the interface to the DAS is nonfunctioning, it will cause some obvious
problems that are difficult to work around. Troubleshoot this first.
• RS-232 Interface-The RS-232 interface is the least complicated of the two remaining interfaces. Troubleshoot it next.
• GPIB Interface-The GPIB interface is the last part of the I/O Interface to troubleshoot.
• Composite Video Output-The composite video output involves very few components, so no
troubleshooting procedures are included here. Since the composite video output doesn't interact with any other circuits on the I/O interface, you can troubleshoot it at any point.
Equipment Needed to Troubleshoot the I/O Interface
The following equipment is required to troubleshoot the I/O Interface:
• DAS mainframe
• DAS 9100 Service Maintenance Kit (includes an extender board for the I/O Interface)
• 2 Channel Oscilloscope, with probes
• TEKTRONIX 4051 Desktop Computer with Option 01 (Data Communications Interface.)
NOTE
All Basic programs found in this text are written for a Tektronix 4050 series computer, and
may be incompatible with other versions of Basic.

• RS-232 cable
• GPIB cable
Troubleshooting the DAS Interface
The Option 02 interface to the DAS consists mainly of the ROM area, the data buffer, and the
address decoder.
Turn on the DAS and, after power-up, enter the Input Output menu.
Locate the DIP switch on the back of the DAS. This switch is used to set the address of the DAS
on the GPIB. Close switch number 8. Open the other seven switches.
Verify that the message "GPIB TALK/LISTEN ADDRESS: 1" is present at the top of the Input
Output menu.

7-135

Maintenance: Troubleshooting-DAS 9100 Series Service Vol. II

1. If this message is present, the interface between the DAS and the I/O Interface is probably
functioning properly.
2. If the message appears at the top of the screen, but calls out the wrong address (e.g., "GPIB
TALK/LISTEN ADDRESS: 0") the problem is probably in the DIP switch or the GPIB control
buffer, A19A1U135.
3. If the message does not appear at the top of the screen, the problem is probably in the ROM
decoding area (A 19A 1U331 and U335B) or in the data and address buffers (A 19A 1U551 ,
U545, and U246).
4. If the ROM decoders and address and data buffers are OK, then ROM problems will be found
by the power-up checksum.

Troubleshooting the RS-232

The only way to troubleshoot the RS-232 port is to stimulate it in a repetitive manner. To do this,
use a TEKTRONIX 4051 Desktop Computer with Option 01, the Data Communications Interface.
Connect the 4051 RS-232 port to the DAS RS-232 port with a modem connector similar to that
illustrated in Figure 7-126.
Pin 1 of the connector is the ground line, pin 2 receives data, and pin 3 sends data. The shorted
pins on the connector take the place of signals sent to the interface when a modem is ready to
send or receive.
Close switches 4 through 8 of the the GPIB Address DIP switch on the back of the DAS. This
sets the I/O Interface in a special mode that receives and transmits GPIB commands in ASCII
characters through the RS-232 port.
Enter the Input Output menu. Using the SELECT key, set the DEVICE field to RS-232, the
STATUS field to OFF, and the BAUD RATE field to 300. There should be a message at the top of
the screen that says "GPIB OFFLINE". This verifies that the RS-232 port will receive GPIB
commands.
Turn on the 4051. Set the RS-232 port of the 4051 to 300 baud with the following command
sequence.
CALL "RATE" ,300,0,2
Return to the home page of the 4051 and enter the following program on the 4051.
100 PRINT @ 40: "TRIGGER"
110 GOTO 100
RUN 
This program should cause the DAS to enter the Trigger Specification menu. The loop in the
program aids in signal tracing.
At this pOint, the data is continuously being sent to the DAS. The DAS should be continuously
echoing this data.

7-136

Maintenance: Troubleshooting-DAS 9100 Series Service Vol. II

4

1'"
I

11
I

•

•

2
'ID R3 232
romEClDR
CN lYIS

~

2

..-.--~---.-!-----,X,-----..-!______~
5

I

I

n=:
I

~
..J
\

4

'ID 4051
OR OI'HER

 twice. This will stop execution of the program. Press
 on the 4051. On the 4051 enter (with no line number)
1: "TRIGGER" 
The DAS screen should change to the Trigger Specification menu. If the screen does not
change, the communication is not reaching the DAS. The SRQ LED on the back of the DAS
should light and stay on.
a. If the LED does not light:
- Check the line driving the LED.
- Check A 19A1 U235 pins 8, 11 and pins 9, 12. If the GPIB IC (U242) is driving the SRQ
line, but the signal doesn't get through, then replace U235.
- Replace U242.
b. If the SRQ LED does come on:
- Replace A 19A1U242 (the GPI B IC).
- Check the buffers driving the GPIB lines (U431, U127, U227, and U231). The GPIB
stimulation program (Table 7-4) can be used to stimulate these buffers.

TROUBLESHOOTING THE COLOR MONITOR
Text Reference to Troubleshooting Chart 12, point 9.1.
At this pOint, the fault in the Controller with display, CRT controller, or DMA failure seems to be
isolated to the color monitor circuitry.

WARNING

I

CRTs RETAIN HAZARDOUS VOLTAGES FOR LONG PERIODS OF TIME AFTER POWER
DOWN. The monitor should be serviced only by qualified personnel familiar with CRT servicing procedures and precautions.
Before attempting to remove the monitor, or to perform any work inside the monitor, discharge the CRT by shorting the anode connection to chassis ground through a 1 Mil resistor. When discharging, make the first connection to chassis ground, then work toward the
anode making sure the shorting probe, resistor, and other conductive materials are well
insulated. Allow at least five minutes for discharge of charges on dielectric materials in and
around the CRT. Repeat the discharge process several times because dielectric soak-in
charges tend to build up again after they have been discharged.

7-139

Maintenance: Troubleshooting-DAS 9100 Series Service Vol. "

WARNING

I

USE EXTREME CAUTION WHEN HANDLING THE CRT. Rough handling may cause it to
violently implode. Do not nick or scratch the glass or subject it to undue pressures during
removal or installation. When handling the CRT, wear safety goggles and heavy gloves for
protection.
The color monitor does not require a special extender cable. The existing cables connecting the
color monitor to other DAS assemblies are long enough to connect the color monitor to the
mainframe after it has been removed from the mainframe.
Remove the color monitor from the mainframe in accordance with the procedures provided in the
Maintenance General Information section of this manual, or in the DAS Service Maintenance Kit
Instructions.
Place the mainframe flat on the workbench with the color monitor beside the monitor compartment. Reconnect the cables to the monitor and power up the system

7-140

Maintenance: Troubleshooting-DAS 9100 Series Service Vol. II

COLOR DISPLAY MONITOR

YES
NO

NO

CHECK MAIN
POWER SUPPLY
BOARD Al

NO

CHECK
CONTROLLER
BOARD A33

CAUTION
USE lOOx PROBE

CHECK Q639
CIRCUIT ON
DEFLECTION
BOARD

..

NO

PERFORM
PERFORMANCE
CHECK AND
ADJUSTMENTS

END COLOR DISPLAY MONITOR CHECK

Figure 7·127. Troubleshooting Chart 12-Color Display Monitor failure (sheet 1 of 5).

7-141

Maintenance: Troubleshooting-CAS 9100 Series Service Vol. "

COLOR MONITOR POWER SUPPLY Z-AXIS BOARD

YES

NO

NO

CHECK U510

CHECK U410
AND U520

NO

CHECK U510,
CURRENT LIMIT
CIRCUIT, AND
+12 V CURRENT
NO

YES

CHECK T300, AND
DIODES AND
INDUCTORS IN
T300 SECONDARY

Figure 7-128. Troubleshooting Chart 12 cont (sheet 2 of 5).

7-142

CHECK Q410
AND Q420

Maintenance: Troubleshooting-CAS 9100 Series Service Vol. II

Z-AXIS AMPLIFIERS
Z-AXIS BOARD

YES

NO

CHECK WIRING
TO CRT BOARD

CHECK U635
AND U645

YES

CHECK Q440, Q530,
Q540, L330, L430,
AND L440

Figure 7-129. Troubleshooting Chart 12 cont (sheet 3 of 5).

7-143

Maintenance: Troubleshooting-DAS 9100 Series Service Vol. II

VERTICAL DEFLECTION DEFLECTION BOARD

CHECK
CONTROLLER
BOARD

CHECK 0132,
0134, AND 0232

REPLACE U16

YES

CHECK FEEDBACK
LOOP THROUGH
YOKE, R310, AND
R221

YES

NO

CHECK 0230
AND 0235

Figure 7·130. Troubleshooting Chart 12 cont (sheet 4 of 5).

7-144

Maintenance: Troubleshooting-DAS 9100 Series Service Vol. II

HORIZONTAL DEFLECTION DEFLECTION BOARD

NO

CHECK
CONTROLLER
BOARD

CHECK Q507
NO

YES

NOTE

~

NO

YES

VERTICAL MUST BE
OPERAT,.G NORMACLY.

CHECK u1l6B
AND Q507

CHECK Q443,
CR334, L255
CIRCUIT

SEE FIG. 7-133
NO

CHECK U50S
AND Q517

Figure 7-131. Troubleshooting Chart 12 cont (sheet 5 of 5).

7-145

Maintenance: Troubleshooting-DAS 9100 Series Service Vol. II

B

A
MPSCK
Z-AXIS BOARD
TP111

VIDEO OUT
Z-AXIS BOARD
TP230, TP240, TP250

n n
PERIOD

~31.2

"" 50 V p.p

",sec

C

D
FLY BACK PULSE
DEFLECTION BOARD
TP259

VERTICAL DRIVE
DEFLECTION BOARD
TP270

(\

\
~27

~900

V P-P

E

VP-P

F
Z-AXIS BOARD
BASE OR Q410 AND Q420

CORRECTION WAVEFORM
DEFLECTION BOARD
TP265

1::::::2.2 V POp
~3.3

V p-p
3836-218

Figure 7-132. Color monitor waveforms for comparison (sheet 1 of 2).

7-146

Maintenance: Troubleshooting-DAS 9100 Series Service Vol. II

G
HORIZONTAL BASE DRIVE
DEFLECTION BOARD
TP262

=4.5 V p.p
3836-219

Figure 7-133. Color monitor waveforms for comparison (sheet 2 of 2).

7-147

MAINTENANCE:
DIAGNOSTIC TEST
DESCRIPTIONS

8

DIAGNOSTIC MENU FIELDS . ..... , . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . ..
. Module ........................................................ . . . . . . . . ..
Slot ..................................... , ...............................
Mode ....................................................................
Function .................................................................
Looping. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . ..
Display ...................................................................

8-1
8-1
8-1
8-1
8-2
8-2
8-3

QUICK REFERENCE FUNCTION DESCRIPTION. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . ..
Controller. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . ..
Trigger/Time Base ..........................................................
91 A32 Data Acquisition . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . ..
91 A08 Data Acquisition . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . ..
91 P16 Pattern Generator ....................................................
91 P32 Pattern Generator Expander. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . ..

8-3
8-4
8-4
8-4
8-5
8-5
8-5

CONTROLLER FUNCTIONAL TESTS . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . ..
KEYBD (Keyboard) .........................................................
Displays. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
Tape Read and Tape Write. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . ..

8-6
8-6
8-7
8-8

TRIGGER/TIME BASE FUNCTIONAL TESTS. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . ..
WR & SEQ (Word Recognizer and Sequence). . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . ..
A Counter .....................................' . . . . . . . . . . . . . . . . . . . . . . . . . ..
Delay ....................................................................
91 A32 GEN (Clock Generator) ................................................
91 A32 SEL (Clock Selector). . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . ..
91 A08 SEL (Clock Selector) ..................................................
DAC TH RSH (DAC Threshold). . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . ..

8-11
8-11
8-12
8-14
8-15
8-17
8-19
8-19

91A32 FUNCTIONAL TESTS . .................. , ...............................
MEM ADDR (Memory Address Register) ........................................
ACQ MEM (Acquisition Memory) ..............................................
WRD REC (Word Recognizer .................................................
Word Recognizer Circuit Overview. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . ..
Detailed View of the Word Recognizer. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . ..
DAC THRSH (DAC Threshold) ................................................

8-20
8-20
8-22
8-27
8-28
8-28
8-31

c

m

Ul

C'l

:a

~

oz
Ul

91 Aoa FUNCTIONAL TESTS ...................................................
MEM ADDR (Memory Address) ...............................................
DIF CNTR (Difference Counter ................................................
DEL CNTR (Delay Counter ...................................................
WORD REC (Word Recognizer) ...............................................
ACO MEM (Acquisition Memory) ..............................................
DAC THRSH (DAC Threshold) ................................................

8-32
8-32
8-34
8-35
8-36
8-37
8-42

91P16 FUNCTIONAL TESTS ...................................................
PC (Program Counter) . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . ..
Vector RAM ..............................................................
Micro RAM ...............................................................
Advance . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . ..
Goto ....................................................................
Call .....................................................................
Return. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
Stack RAM ...............................................................
Clock .................................................................. "

8-43
8-43
8-44
8-45
8-47
8-49
8-50
8-50
8-51
8-52

91 P32 FUNCTIONAL TESTS . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .. 8-54
Vector RAM .............................................................. 8-54

8-b

Section 8-DAS 9100 Series Service Vol. II

MAINTENANCE:
DIAGNOSTIC TEST DESCRIPTIONS
This section contains detailed descriptions of all self-test diagnostics contained in the DAS. The
section starts with an introduction to operating the Diagnostics menu, followed by a short description of each function. The diagnostic tests within each function are then described in detail on
a board-by-board basis.

DIAGNOSTIC MENU FIELDS
There are six different user-changeable fields normally used in the Diagnostics menu. All of these
fields can apply to any diagnostic test. These fields, and procedures for changing them, are
described below. There may also be other changeable fields associated with individual functions.
These unique fields are explained by the Diagnostics menu when they appear on the screen.

MODULIE
This field is used to specify whether a single module or all of the modules are to be tested. The
field may be set to a value of either SINGLE or ALL by using the SELECT key.
If the field is set to ALL, all modules in the system are run through a limited number of diagnostic
functions. Not all of the diagnostic functions are run when ALL is selected in order to keep the
amount of time required to run the tests reasonable.
If the field is set to SINGLE, another field (SLOT) appears that allows the user to select the
specific module to be tested. All available functions for that module can then be run.

SLOT
The SLOT field appears when the MODULE field is set to SINGLE. The SLOT field is used to
specify which individual module is to be tested. The individual module is specified by entering the
module's bus slot number into the field.

MODE
The MODE field appears when a bus slot number has been entered into the SLOT field. The
MODE field is used to specify whether a single function or all of the module functions are to be
tested. The MODE field may be set to a value of either SINGLE or ALL by using the SELECT key.
When the cursor is moved to the MODE field, a list of module functions appears on the DAS
screen. If the MODE field is set to ALL, all of these module functions will be tested.
If the MODE field is set to SINGLE, a new field (FUNCTION) appears which allows selection of an
individual function. This individual function may then be tested.

8-1

Maintenance: Diagnostic Test-DAS 9100 Series Service Vol. "

FUNCTION
The FUNCTION field appears when the MODE field is set to SINGLE. The FUNCTION field is
used to specify which one of the displayed list of functions will be tested. A function is specified by
entering its corresponding number into the FUNCTION field.

LOOPING
NOTE

When the DAS self-diagnostics are in the looping mode, the signal at TP191 on the
Trigger/Time Base assembly (slot 7) is switched off, then on again (toggled) at the end of
each execution of any diagnostic test in the DAS. Use this test point to trigger oscilloscopes
or logic analysers.
Function tests will be run once or continuously. The field may be set to a value of ON or OFF by
using the SELECT key. If the field is set ON, the selected function tests will be run continuously. If
it is set to OFF, the selected function tests will be run once, then stopped.
If the LOOPING field is set to ON, the diagnostics react in one of two ways, depending on
whether the selected tests are non-memory or memory type. Table 8-1 lists all memory-type
tests. Non-memory tests are those which are not listed in Table 8-1.
If the LOOPING field is set to ON during a non-memory test, the test will run until an error is found
or until the end of the test, whichever comes first. In either case, the test then loops, and starts
over again from the beginning.
If the LOOPING field is set to ON during a memory-type test, the test will run until an error is
found or until the end of the test, whichever comes first. If the end of the test is reached before an
error is found, the memory-type test behaves the same as a non-memory test. If an error is found,
however, the test will repeatedly write to and read from the address where the failure occurred.
This write/read loop will continue until the STOP key is pressed.
When the LOOPING field is set to ON, only one test in a function will loop at a time. The looping
sequence starts by running the first test in a function, test O. The SELECT key must be pressed to
run the next test. All the tests in a function can be chosen by pressing the SELECT key repeatedly. Pressing SELECT while the last test of a function is looping will select the first test in the
function.
Table 8-1
Diagnostic Memory Tests

8-2

91A32 Memory Tests

ACO MEM
WRD REC

91 A08 Memory Tests

ACO MEM

91 P16 Memory Tests

VECTOR RAM
J.LCODE RAM

91 P32 Memory Tests

ACO MEM

Maintenance: Diagnostic Test-DAS 9100 Series Service Vol. II

DISPLAY
The DISPLAY field only appears on the screen when the LOOPING field is set to ON and the
MODE field is set to SINGLE. The field may be used to turn off the video screen during a looping
test. This is useful when tracing circuits with an oscilloscope, since it helps to stablize the oscilloscope's traces.
The DISPLAY field may be set to ON or OFF by using the SELECT key. If the field is set to ON,
the video screen display is present. If the field is set to OFF, the screen is blank.

NOTE
When the DISPLAY field is set to OFF, the test loop being run can only be terminated by
pressing the STOP key or by turning off power to the DAS.
When the DISPLAY field has been set to OFF and a test is being run, the following keys have
these effects:
o

Pressing STOP ends the test and returns the display to normal.

o

Pressing SELECT displays the results of the previous test momentarily, then turns the display
back off and runs the next test under the selected function.

o

Pressing any key on the keyboard (except SHIFT) turns the display on momentarily.

If an error occurs while a diagnostic test is running and the DISPLAY field is set to OFF, the
LOCKOUT and REMOTE indicators on the keyboard will be illuminated.

QUICK REFERENCE FUNCTION DESCRIPTIONS
The following list briefly describes the diagnostic functions for the various module types. If functions are run individually, they should be run in the order in which they are listed under the module
types. Only the functions for the module in question need be run.
There are a few diagnostic functions that do not have self-readback capability (digital-to-analog
converter tests, for example). These tests require the technician to monitor test points while the
test is running. Non-readback tests are indicated by an * (asterisk) after the test name.
The tests in each function can be selected individually only when the diagnostics are in a looping
mode. For more information, refer to the description of the LOOPING field provided earlier in this
section.

8-3

Maintenance: Diagnostic Test-DAS 9100 Series Service Vol. II

CONTROLLER
KEYBD. This function allows the DAS keyboard to be tested for non-functional keys and intermittent connections.
DISPLAYS. This function provides a test for the display monitor controller part of the Controller
board. It also has displays that check the CRT for phosphor faults and centering.
TAPE READ. This function has the tape drive read a tape all the way through and look for errors.
TAPE WRITE. This function has the tape drive write data onto a tape, read the tape back, and
look for errors in either reading or writing.

TRIGGER/TIME BASE
WR & SEQ. This function checks the trigger-done recognition circuit in the trigger.
A COUNTER. This function verifies the operation of the A counter (occurrence counter) in the
trigger circuit.
DELAY. This function exercises the delay counter and the stop-store circuit in the trigger.
91A32 GEN. This function verifies the operation of the 91A32 internal clock provided by the
Trigger/Time Base Module.
91A32 SEL. This function exercises the 91A32 internal clock to make sure all possible internal
clock rates can be selected.
91A08 SEL. This function exercises the 91A08 internal clock to make sure all possible internal
clock rates can be selected.
DAC THRSH*. This function exercises the probe threshold DAC to verify voltage accuracy, and to
make sure that all voltages may be selected.

91A32 DATA ACQUISITION
MEM ADDR. This function verifies the operation of the even-memory odd-memory address registers on the 91 A32.
ACK MEM. This function checks the RAM used by the 91 A32 to store acquired data.
WRD REC. This function exercises the DAC that controls the 91 A32.
DAC THRSH*. This function exercises the DAC that controls probe threshold levels.

8-4

Maintenance: Diagnostic Test-DAS 9100 Series Service Vol. II

91A08 DATA ACQUISITION
MEM ADDR. This function verifies the operation of the even-memory odd-memory address registers on the 91 AOa.
DIFF CNTR. This function tests the difference counter in the 91 AOa.
DELAY CNTR. This function checks the delay counter in the 91 AOa trigger.
WRD REC. This function exercises the registers that control the 91 AOa word recognizers.
ACQ MEM. This function verifies the RAM used by the 91 AOa to store acquired data and glitches.
DAC THRSH*. This function exercises the DAC that controls the probe threshold levels.

91P16 PATTERN GENERATOR

pc. This function

tests the 91 P16's two program counter
registers for bit independence.

VECTOR RAM. This function checks the operation of the vector RAM in the 91 P16.
MICRO RAM. This function verifies the operation of the least significant eight bits of the J-tCode
RAM in the 91 P16.
ADVANCE. This function tests the operation of ADVANCE, COUNT, REPEAT, and HOLD instructions at each ).lCode RAM address.
GOTO. This function checks each address in the J-tCode RAM for the ability to hold a GOTO
instruction.
CALL. This function verifies the circuitry used by the CALL instruction and executes a CALL
instruction from each location in the J-tCode RAM.
RETURN. This function executes a RETURN instruction from each address in the J-tCode RAM.
STACK RAM. This function verifies that all addresses in the J-tCode RAM can be loaded and read
back.
CLOCK. This function tests the clock select circuitry on the 91 P16.

91P32 PATTERN GENERATOR EXPANDER
VECTOR RAM. This function verifies the operation of all vector RAMs in the 91 P32.

8-5

Maintenance: Diagnostic Test-DAS 9100 Series Service Vol. "

CONTROLLER FUNCTIONAL TESTS
KEYBD (KEYBOARD)
The KEYBD function checks the ability of the mainframe keyboard to communicate with the
Controller. It verifies the operation of both the keyboard (schematic 9) and the Controller's
keyboard buffer (schematic 13). The hexadecimal codes for each key are shown in Figure 8-1.

MENU SelECTION
CHANNEl
SPEC

EJ

DEfIr'lE
MNEMONICS

TRIGGER
SPEC

DATA ENTRY

II'lPUT
OUTPUT

§] §]
STATE
TABLE

~ ~

PATTfRN
(;ENERATOR

TIMING
DIA.GRAM

G

§J

OE

00

GJu

OB

B

@] @]

0
01

~ ~ ~

[2]J

PATTERN GENERATOR INSTRUCTlONS

[~Jo [~}
02

D

03

[~} [~}
00

HALT

~

N

12

[~} ~H
CARE

STMH

PAT GEN

CURSOR

17

~

09

06

START

ACQUISITION

LINE

LINE

[!} [~} [~}
05

SYSHM

~ @J

OC

[~} 0~
08

07

START

10

11

[~} [~} [~}
OA

SYSTEM CONTROL

EDITING

OF

18

1A
15

E]0
8

~

B

@]

19

[i]

16

M

13

8

SCROll

1B

1

1C



."'"

3836·171

Figure 8-1. The hexadecimal codes of the DAS keyboard.

The following paragraphs describe the two tests of the keyboard function.
Test 0
In this test, the keyboard is read by the scanning decoder. The decoder scans all the keys and
whenever it finds one that is depressed, it stops scanning and outputs the code corresponding to
that key. At the same time, the KEY DN(H) line becomes active. This situation remains true until
the key is released. Then the decoder resumes scanning and the KEY DN(H) becomes non-active.
Test 0 starts by reading the keyboard once, through buffer A6U525. If a depressed key is found,
the test fails. The test stops at this point unless looping is selected.

NOTE
This test is run at power-up. If a depressed key is detected at power-up, the number corresponding to that key is shown on the display. A stuck key prevents the DAS from operation,
so the keyboard must be repaired before operation can continue.

8-6

Maintenance: Diagnostic Test-DAS 9100 Series Service Vol. II

If the LOOPING field is set to ON, the test will continue to run. The last key value read by the
Controller becomes the EXPECTED value. If the key read the previous time is the same as the
key read this time, the test passes. The test also passes if the key is released. If the key value
read by the Controller is different from the value read previously and the KEY DN(H) line is active,
the test fails. While looping, this test identifies an open key (key failed to make contact). If a key
different from the key previously depressed makes contact, the display flashes FAIL, then resumes showing PASS.

Test 1
In this test, the keyboard is read by a scanning decoder. The decoder scans all the keys and
whenever it finds one that is depressed, it stops scanning and outputs the code corresponding to
that key. At the same time, the KEY DN(H) line becomes active. This situation remains true until
the key is released. Then the decoder resumes scanning and the KEY DN(H) becomes nonactive.
Test 1 is a fast scanning test that reads the keyboard buffer (A6US2S) and sees if there are any
keys depressed. If the KEY DN(H) line is active, the test fails and the value of the depressed key is
shown on the screen next to the PASS/FAIL field. The EXPECTED value is 80, which is a one bit
indication of whether the KEY DN(H) line is active. If the test fails, the ACTUAL should show 00,
which means the KEY DN(H) line is asserted.
If the LOOPING field is set to ON, test 1 can be used to find intermittent keys. This is done by
starting the test and pushing the edges of the suspect key(s) while watching for flickers in the
PASS/FAIL field. The /).., SELECT, and STOP keys cannot be verified in this manner, since they
will cause the test to be terminated. The SHIFT key can only be tested by holding down another
key while checking the edges of the SHIFT keys.

DISPLAYS
The DISPLAYS function shows three different screen displays. These displays can be used to
verify the operation of the Controller's character generator (schematic 12) and the display monitor
(schematic 8).
The DISPLAYS function does not produce pass or fail signals. Instead the technician must examine the video screen to make sure the appropriate information is displayed. The three different
screen displays are selected using the SELECT key.
The first display of the test shows a border and cross-hairs made of 8s. This display can be used
to check the centering and rotation of the display area in relation to the CRT screen. (This field is
red on the DAS-9129 color system.)
The second display is for the monochrome DAS (9109) only, which shows a green area anywhere a character may be displayed. This display can be used to detect phosphor defects on the
screen.

8-7

Maintenance: Diagnostic Test-CAS 9100 Series Service Vol. II

The third display shows all of the characters available in the controller's character generator
(schematic 12). (These characters are shown in all possible colors on the DAS 9129.) This display
can be used to verify that all available characters can be created by the character generator. It
also can be used on the color DAS (9129) to adjust the color balance. Figure 8-2 shows an
example of this display.
The only way to exit the DISPLAYS function, once the START SYSTEM key is pressed, is to
press the STOP key or to turn off power to the DAS.

nABCDEFGHIJKlMHOPQRSTUUWXVZXI:A~Il&'(>*+,-.10123456789:p(=)?

I*IIl&'()i+,-.181234567S9:p(

nABCDEFGHIJKLHHOP9RSTU2WXYZXI:A_

ABCDEFGHIJKlMNOPQRSTUUWXYZXI:A~Il&'()*+,-.101234567S9:
nABCDEFGHIJKLItH~TU2WXYZXO·_

IFIIl&'( >i+,-.181234567S9:p(=)?

ABCDEFGHIJltINOPQRSTUUWXVZX

JllI~.nnrT~."'.I-JJ

_-HI . . . . . _-HI . . . .

I . . . . . _-JII . . . .
11.ll~.I1f1TT"""".1

I ....
jJUl_~i.nnr_.TII""'iiii.i""iiiI.i'i;-ijJ1Ii'j"'iiii.~.--n
11.ll~.I1f1TT"""".1

_-nl " "•• _-111 . . . .

3836-220

Figure 8-2. All-character diagnostic display.

TAPE READ AND TAPE WRITE
The TAPE READ and TAPE WRITE functions are a part of the Controller diagnostic routine set. If
the DAS being tested does not have a tape drive, these tests will not appear. To run these
functions a formatted DAS tape must be inserted in the drive. Instructions for formatting a tape
are given in the Operating Instructions section.
The TAPE READ function reads the data present on the tape inserted in the drive. The TAPE
WRITE function writes data on a block of the tape, then reads back the data written on that block.
Both functions verify one block at a time.

8-8

Maintenance: Diagnostic Test-DAS 9100 Series Service Vol. II

The TAPE WRITE function should be run only on a formatted but otherwise blank DAS tape.
If a tape with data on it is used, the data will be erased.

Failures in the tape drive functions come from three main sources:
Operator. If a tape is not inserted in the drive, or if the tape is not DAS formatted, an error will
occur.
Tape. The tape may cause an error in the TAPE READ test if it is partially erased or otherwise
damaged. The tape can also cause errors in the TAPE WRITE mode if the tape is write-protected
or is subject to dropout.
The tape drive unit. Hardware or software failures in the tape drive unit will cause failures in
these tests.
The TAPE READ and TAPE WRITE functions write the status of the test to the display after each
tape block is read or written. The categories of information reported are those shown in Table 8-2.

Table 8-2
Tape Drive Diagnostic Test Readback Fields
PASS COUNT

This is the total number of blocks read or written during the current run
of the test.

HARD ERRORS

This is the cumulative number of hard errors that occurred during the
current run. Hard errors are writing or reading problems such that
regardless of the number of re-tries the tape drive cannot force the
expected data into or out of a particular block.

SOFT ERRORS

This is the cumulative number of soft errors that occurred during the
current run. Soft errors are writing or reading problems such that,
given a sufficient number of re-tries, the expected data can be read
from or written into the tape.

CURRENT BLOCK
NUMBER

This field contains the number of the block currently being written or
read. There are a total of 650 blocks on a DAS formatted tape. These
blocks are numbered sequentially in decimal.

ERROR CODE

Each error distinguishable by the tape drive has an associated hexadecimal code. The ERROR CODE field shows the code for the last
error to be detected by the tape drive. A code of 0000 means no error
has occurred.

Table 8-3 is a list of error codes for the errors that can be detected by the tape drive. These error
codes are shown in the ERROR CODE field while the tape functional test is being run.

8-9

Maintenance: Diagnostic Test-DAS 9100 Series Service Vol. II

Table 8-3
Tape Drive Diagnostic Test Error Codes

8001

This error code means the block being written to or read from has generated 32
soft errors in a row. The Controller considers 32 soft errors in a row a hard error.

8008

Two different errors can cause this error code to occur. During a read operation,
this error code occurs if bytes from the tape are being passed to the tape controller IC more rapidly than the tape controller can process them. During a write
operation, this code occurs if the tape drive detects that the tape cartridge is
write protected.

8010

This error code means the tape drive has read a gap in the tape data where a gap
was not expected. Gaps are expected between blocks on the tape. Unexpected
gaps may be caused by accidental erasure of the tape due to stray magnetic
fields.

8020

If this error code occurs, the tape drive has detected that the tape has been
removed during tape operation.

8040

This error code occurs when the tape drive detects the end of the tape at an
unexpected time.
The end of the tape can be detected in two ways. The DC100-type cartridge has
holes at either end of the tape. If a hole is detected at an unexpected point, an
error occurs. The other way this code is generated relates to block numbering.
The number of the block being read is written at the front of each block. If the
tape drive reads this block number as negative, the error code is displayed.

8-10

8080

This error code means the Servo Motor Controller (A 18A2U211) has made or
detected an error.

8100

A checksum error, when detected by the tape drive unit, causes this error code to
appear. (Each block of information on the tape has a block header that contains
information such as the block number, tape type, and checksum.)

8200

This error code indicates that the block number in the block header did not read
correctly, and could not be read correctly upon thirteen re-tries.

9000

This error code indicates the tape in the tape drive is not formatted correctly for
use with the DAS.

Maintenance: Diagnostic Test-DAS 9100 Series Service Vol. II

TfUGGER/TIMIE BASE FUNCTIONAL TIESTS
WR & SEQ (WORD RECOGNIZER AND SEQUENCE)
The WR & SEQ function focuses all of its tests on the B-done flip-flop (A 1aU245B) and the 91 A32
triggered flip-flop (A 1au 145A). These circuits are found on schematic 18 in the Diagrams section.
The tests in this function assure that the trigger flip-flops are operational and that the single-step
clock is working.
The following paragraphs describe the WR & SEQ function tests. All circuit numbers in these test
descriptions are assumed to have an A 1a preface unless otherwise specified.

NOTE
The ADDR readout in the WR & SEQ function represents the port that is being read by the
diagnostics. The ACTUAL and EXPECTED values can help find a stuck bit or a faulty IC.
These tests center around two flip-flops, U245B and U145A, on the Trigger/Time Base
board (A 10).
Test 0
This test clears the Trigger/Time Base (asserts the CLEAR{L) line). This sets the B-done flip-flop
(U245), so the Q(L) pin goes low. This low causes U145A to be reset, which makes its Q pin go
low. The 91A32 TRIGRD line is then made low, and this is read back by the Controller board
through buffer U177 (schematic 15). If the 91A32 TRIGRD{H) line is low, the test is passed.

Test 1
This test clears the Trigger/Time Base (asserts the CLEAR(L) line), so U245B is set. This asserts
and holds the reset pin on U145A. The DIAG 91A32 TRIG{L) line then makes a pulse low,
returning high. The 91 A32 TRIGRD (H) line is then looked at by the Controller through buffer
U177 (schematic 15). The 91A32 TRIGRD(H) line should still be held reset by U245B. If the 91A32
TRIGRD(H) line is high, either the CLEAR(L) signal failed or U245B or U145A is faulty.

Test 2
This test clears the Trigger/Time Base (asserts the CLEAR(L) line). Flip-flop U245B is then reset
by the DIAG B DONE(L) line, so flip-flop U145A is no longer held reset. U145A is then set by the
DIAG 91 A32 TRIG(L) going low and returning high, which should make the Q pin of U145A high.
The test is passed if the 91A32 TRIGRD(H) line is read as high through buffer U177 (schematic
15).

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Maintenance: Diagnostic Test-DAS 9100 Series Service Vol. II

Test 3
This test clears the Trigger/Time Base (asserts the CLEAR(L) line), and then resets flip-flop
U245B with the DIAG B DONE(L) line. This leaves the Q pin of flip-flop U145A low, but not held
reset. The single-step clock is then used to clock the Trigger/Time Base once. The clock should
make flip-flop U145A's Q pin go high. This high is read on the 91A32 TRIGRD(H) line through
buffer U177 (schematic 15). The test is passed if the read back port bit 5 is high.
A COUNTER
The A COUNTER function checks the operation of the A counter's latches and counters, and
checks the gates used to detect the end of the count. The main circuitry being tested can be seen
on schematic 18 in the Diagrams section.
The following paragraphs describe the A COUNTER function tests. All circuit numbers in these
test descriptions are assumed to have an A 10 preface unless otherwise specified.

NOTE
The ADDR readout in the A counter function represents the port that is being read by the
diagnostics. The ACTUAL and EXPECTED values can help find a stuck bit or a faulty IC. For
example, if the ACTRL 15(H) line were stuck low, the screen data on Test 0 would show:
A COUNTER 1

TEST 0

ADDR EXPECTED ACTUAL
05
08
00
*FAIL*

Test 0
This test loads FF hexadecimal into A counter latch U274 (schematic 18). Pin 12 of this latch is
then read back by'the ACTRL15(H) line through U177 (schematic 15). The readback data should
be high.

Test 1
This test loads 00 hexadecimal into A counter latch U274 (schematic 18). Pin 12 of this latch is
then read back by the ACTRL15(H) line through U177 (schematic 15). The readback data should
be low.

Test 2
This test loads FF hexadecimal into both A counter latches, U271 and U274 (schematic 18). The
CLEAR(L) line is then asserted, so that all the counters in the A counter (U255, U261, U161, and
U165) are loaded from the latches. Pins 12 of both U261 and U165 are then checked for a high by
the ACT7(H) and the ACT15(H) lines respectively. These two lines are read back through buffer
U375 (schematic 15).

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Maintenance: Diagnostic Test-DAS 9100 Series Service Vol. II

Test 3

This test loads 00 hexadecimal into both A counter latches, U271 and U274 (schematic 18). The
ClEAR(l) line is then asserted, so that all the counters in the A counter (U255, U261, U161, and
U165) are loaded from the latches. Pins 12 of both U261 and U165 are then checked for a low by
the ACT7(H) and the ACT15(H) lines, respectively. These two lines are read back through buffer
U375 (schematic 15).

Test 4

This test loads latch U274 (schematic 18) with 7F hexadecimal, and then loads latch U271 with FF
hexadecimal. To enable the A counter section, the 10R2 and INV3 lines are made high. The
ClEAR(l) line is then asserted, which loads all the counters in the A counter (U255, U261, U161
and U165) from the latches. The counters are then clocked once by the single-step clock. The
data in the counters should change to 8000. This is verified by reading the ACT7(H) line (should be
low) and the ACT15(H) line (should be high) through buffer U375 (schematic 15).
The signal that clocks the counters comes from JK flip-flop U155B. This flip-flop makes a negative pulse every time ClK B(l) goes low and the AAA(H) line is high. To make the AAA(H) line
high, all acquisition modules in the system are programmed to put a high on the EVENT 1(H) line
of the Interconnect board. If any acquistion module has a failure in that section of its circuitry,
Test 4 will fail.
If you suspect an acquisition module is causing a failure, remove all acquisition modules from the
system and re-run the test. There are pull-up resistors on the Interconnect board that make the
EVENT 1(H), EVENT 2(H), and EVENT 3(H) lines on the Interconnect high.

Test 5

This test loads both latch U271 and latch U274 (schematic 18) with FF hexadecimal. The CLEAR
(l) line is then asserted, which loads the counters in the A counter (U255, U261, U161, and U165)
from the latches. The 10R2 and INV3 lines on the Trigger/Time Base are then asserted. This,
after decoding by U451, sets the BBB(H) line always high and the CCC(H) line always low.
An FFFF from the counters makes NAND gate U248 output a low, which asserts the A DONE(l)
signal. The A DONE(l) signal disables the clock to the counters so the line stays low. The
Trigger/Time Base is clocked by the single-step clock five times. This causes the ClK B(l) line to
clock once.
When ClK B(l) clocks flip-flop U155A (schematic 18), the clock of the B-done flip-flop (U245B)
receives a rising edge. The rising edge puts a high on the Q(l) pin of U245B. This high disasserts
the reset on flip-flop U145A. The single-step clock is clocked one more time. This clocks a high
onto the Q pin of U145A, which asserts the 91A32 TRIGRD(H) line. The 91A32(H) TRIGRD line is
then read back by the Controller through buffer U177 (schematic 15). If this read back data is high,
the test is passed.

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DELAY
The DELAY counter function exercises the delay counters, the stop/store flip-flop (A 1OU543A),
and the gates that detect the end of count. The main circuitry being tested can be seen on
schematic 18 in the Diagrams section.
The following paragraphs describe the DELAY function tests. All circuit numbers in these test
descriptions are assumed to have an A 10 preface unless otherwise specified.
NOTE
The ADDR readout in the Delay Counter function represents the port that is being read by
the diagnostics. The ACTUAL and EXPECTED values can find a stuck bit or a faulty IC. For
example, if the STOP STORE(H) line was stuck high, the screen data on Test 5 would show:

2 DELAY TEST 5

ADDR
02

EXPECTED
00

ACTUAL
01
*FAIL*

Test 0
This test loads delay counters U361 and U351 (schematic 18) with 00 hexadecimal. Pin 12 of
U361 is then read back by the DC7(H) line through buffer U375 (schematic 15). This output port
should read low.

Test 1
This test loads delay counters U365 and U345 (schematic 18) with 00 hexadecimal. Pin 12 of
U365 is then read back by the DC15(H) line through buffer U375 (schematic 15). This output port
should read low.

Test 2
This test loads delay counters U361 and U351 (schematic 18) with FF hexadecimal. Pin 12 of
U361 is then read back by the DC7(H) line through buffer U375 (schematic 15). This output port
should read high.

Test 3
This test loads delay counters U365 and U345 (schematic 18) with FF hexadecimal. Pin 12 of
U365 is then read back by the DC15(H) line through buffer U375 (schematic 15). This output port
should read high.

Test 4
This test starts by loading F (in hexadecimal) into counter U351, F into counter U361, F into
counter U345, and 7 into counter U365 (schematic 18). This means the delay counter is set at
7FFF. The delay counters are then clocked once, which should cause them to output 8000. Pin 12
of U361 should be low (read back by the DC7(H) line) and pin 12 of U365 should be high (read
back by the DC15(H) line). These two signals are read through buffer U375 (schematic 15).

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Maintenance: Diagnostic Test-DAS 9100 Series Service Vol. II

The delay counters are clocked by the CLK(H) line through NAND gate U341 C. U341 C is controlled by NAND gate U461 B. U461 B is forced to output a high by DIAG DELAY EN(H) being low.
The high from U461 B allows CLK(H) to pass through U341 C. CLK(H) is then single-stepped.
Test 5
This test starts by loading all the delay counters (U351, U361, U345, and U365, schematic 18)
with F hexadecimal. This causes the 13-input NAND gate, U355, to output a falling edge. The
falling edge goes through inverter U341 A and becomes a rising edge. Because flip-flop U543A is
falling-edge clocked, this does not clocl< the flip-flop.
Flip-flop U145A is set by DIAG 91A32 TRIG(L), so that 91A32 TRIGRD(H) goes active. DIAG
DELAY EN(H) also goes low, so CLK(H) can pass through NAND gate U341C. This combination
of signals sets the delay counter immediately before the delay is done.
At this point, the STOP STORE line is checked for a low by the Controller board through buffer
U375 (schematic 15). A high indicates the test failed.

Test 6
This test starts by loading all the delay counters (U351, U361, U345, and U365, schematic 18)
with F hexadecimal. This causes the 13-input NAND gate, U355, to go low. This low goes through
inverter U341 A and presents a high to the clock pin of flip-flop U543A.
The DIAG 91A32 TRIG(L) line asserts the 91A32 TRIGRD(H) line by setting flip-flop U145A. This
should allow CLK(H) to pass through NAND gate U341 C. The CLK(H) line is now single-stepped
once.
The single-step clock causes the delay counters to wrap around to 0000 hexadecimal. This
causes a rising edge to come from the 13-input NAND gate, U355. The rising edge is inverted by
U341 A, which clocks flip-flop U543A. When U543A is clocked, the J input is high, so the Q output
goes high. This high asserts the STOP STORE(H) line, which is then checked by the Controller
through buffer U375 (schematic 15).
This test simulates the action of the complete delay counter in the situation where all triggering
conditions have been met and the delay is set for O.

91 A32 GEN (CLOCK GENERATOR)
The 91 A32 GEN function uses the A Counter (see the A Counter function description) to verify
that the 91 A32 INT CLK(L) is running. These tests also check the 40 ns clock rate by comparing
the 40 ns clock with the Controller clock rate. Most of the circuitry described in this test is shown
on schematic 19 in the Diagrams section.
The following paragraphs describe the 91 A32 GEN function tests. All circuit numbers in these test
descriptions are assumed to have an A 10 preface unless otherwise specified.

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NOTE
The ADDR readout in the 91A32 clock generator function represents the port that is being
read by the diagnostic test routine. The ACTUAL and EXPECTED values can help find a
stuck bit or faulty IC. For example, if the 91A32 TRIGRD(H) line was stuck high, the screen
data on Test would show:

a

2 91A32 GEN TEST 0

ADDR EXPECTED ACTUAL
01
00
01
*FAIL*

Test 0
This test compares the Trigger/Time Base 40 ns clock rate to the Controller clock rate. E657
hexadecimal is loaded into the A Counter latches (U271 and U274, schematic 18). Then the
91A32 clock rate register U135 (schematic 19) on the Trigger/Time Base is loaded with 03 hexadecimal, which selects the 40 ns clock to be used for the 91 A32 INT CK(L) signal. Finally, register
U128 (schematic 17) selects the 91A32 INT CK(L) to run the Trigger/Time Base.
DMAs and interrupts on the Controller are disabled at this point so the test can accurately time.
The CLEAR(L) line on the Trigger/Time Base is then asserted to load the counters in the A
Counters (U255, U261, U161, and U165, schematic 18) with the contents of the A Counter
latches. The CLEAR(L) also starts the selected clock through the pipelined internal timing sequencer (registers U543B and U473A on schematic 17).
After the CLEAR(L) is asserted, the Controller allows the Trigger/Time Base to run for a specific
number of Controller clock periods. The Controller then examines the 91 A32 TRIGRD(H) line to
see if triggering has occurred. If the 40 ns clock is running too slowly, the trigger will not have
occurred, the 91 A32 TRIGRD(H) line will be low, and the test will fail.

Test 1
This test compares the Trigger/Time Base 40 ns clock rate to the Controller clock rate. E5F3
hexadecimal is loaded into the A Counter latches (U271 and U274, schematic 18). Then the
91 A32 clock rate register U135 (schematic 19) on the Trigger/Time Base is loaded with 03 hexadecimal, which selects the 40 ns clock to be used for the 91A32 INT CLK(L) signal. Finally,
register U128 (schematic 17) selects the 91A32 INT CLK(L) to run the Trigger/Time Base.
DMAs and interrupts on the Controller are disabled at this point so the test can accurately time.
The CLEAR(L) line on the Trigger/Time Base is then asserted to load the counters in the A
Counter (U255, U261, U161, and U165, schematic 18) with the contents of the A Counter latches.
The CLEAR(L) also starts the selected clock through the pipelined internal timing sequencer
(registers U543B and U473A on schematic 17).
After CLEAR(L), the Controller allows the Trigger/Time Base to run for a specific number of
Controller clock periods. The Controller then examines the 91 A32 TRIGRD(H) line to see if triggering has occurred. If the 40 ns clock is running too fast, the trigger will have occurred, the
91 A32 TRIGRD(H) line will be high, and the test will fail.

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Test 2
(This test assures that the 91 A32 INT CLK(L) is running.) FFFF hexadecimal is loaded into the A
Counter latches (U271 and U274, schematic 18). Then the 91 A32 clock rate register U135 (schematic 19) on the Trigger/Time Base is loaded with 03 hexadecimal, which selects the 40 ns clock
to be used for the 91A32 INT CLK(L) signal. Finally, register U128 (schematic 17) selects the
91 A32 INT CLK(L) to run the Trigger/Time Base.
The CLEAR(L) line on the Trigger/Time Base is then asserted to load the counter in the A Counter
(U255, U261, U161, and U165, schematic 18) with the contents of the A Counter latches. The
CLEAR(L) also starts the selected clock through the pipelined internal timing sequencer (registers
U543B and U473A on schematic 17).
After CLEAR(L) is asserted, the Controller immediately examines the 91 A32 TRIGRD(H) line to
see if triggering has occurred. Because the Controller runs slower than the 40 ns clock, the trigger
should occur by the time the check is completed. If 91 A32 TRIGRD(H) is low, the test is failed.

91A32 SEl (CLOCK SELECTOR)
The 91A32 SEL function verifies that all 91A32 clock rates can be selected. The only difference
between the 91 A32 SEL function tests is the clock rate tested and the value loaded into the A
Counter of the Trigger/Time Base. Therefore, the structure of the tests is described only once.
Information specific to each test is listed with the test.
Most of the circuitry described in these tests is shown on schematic 19 in the Diagrams section.
All circuit numbers in these tests are assumed to have an A 10 preface unless otherwise specified.
NOTE
The ADDR readout on the 91A32 SEL function represents the port that is being read by the
diagnostic routine. The ACTUAL and EXPECTED values can help indicate a stuck bit or
faulty IC. An ACTUAL of 00 is expected. An ACTUAL of 01 indicates the A Counter finished
before or after it should have (clock too fast or too slow). An ACTUAL of FF indicates the
Controller finished counting before the A Counter finished (indicates a very slow clock or no
clock).

All Tests
At the start of each test, a value is loaded into the A Counter latches (U271 and U274, schematic
18). The EVENT 1, EVENT 2, and EVENT 3 lines on the Interconnect board are made high by
programming all data acquisition modules in the system. Also, the clock rate to be tested is
selected through the 91A32 clock rate register U135 (schematic 19).

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All DMAs and interrupts are disabled at this point and the CLEAR(L) line on the Trigger/Time
Base is asserted. The CLEAR(L) loads the counters in the A Counter (U255, U261, U161, and
U165, schematic 18) and starts the selected clock through the pipelined internal timing sequencer
(registers U543B and U473A, schematic 17). The Controller now counts (at its own clock rate)
until the 91 A32 TRIGRD(H) line goes high. The count is then compared with the expected count
(some variations in the Controller clock rate are allowed for). If the actual count does not fall
within the expected bounds the test is failed. When the test or tests are finished, the DMAs and
interrupts are enabled again.

Test 0
This test checks the 40 ns clock rate. The 40 ns clock is selected by loading 03 hexadecimal into
register U135. The A Counter is loaded with FC21 hexadecimal.

Test 1
This test checks the 50 ns clock rate. The 50 ns clock is selected by loading 04 hexadecimal into
register U135. The A Counter is loaded with FC21 hexadecimal.

Test 2
This test checks the 100 ns clock rate. The 100 ns clock is selected by loading 28 hexadecimal
into register U135. The A Counter is loaded with FC21 hexadecimal.

Test 3
This test checks the 1 JiS clock rate. The 1 JiS clock is selected by loading 48 hexadecimal into
register U135. The A Counter is loaded with FC21 hexadecimal.

Test 4
This test checks the 2 JiS clock rate. The 2 JiS clock is selected by loading 4C hexadecimal into
register U135. The A Counter is loaded with FF9B hexadecimal.

Test 5
This test checks the 5 JiS clock rate. The 5 JiS clock is selected by loading 50 hexadecimal into
register U135. The A Counter is loaded with FF9B hexadecimal.

Test 6
This test checks the 10 JiS clock rate. The 10 JiS clock is selected by loading 68 hexadecimal into
register U135. The A Counter is loaded with FF9B hexadecimal.

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Maintenance: Diagnostic Test-DAS 9100 Series Service Vol. II

Test 7

This test checks the 100 JlS clock rate. The 100).l.S clock is selected by loading 88 hexadecimal
into register U135. The A Counter is loaded with FFFF hexadecimal.

Test 8

This test checks the 1 ms clock rate. The 1 ms clock is selected by loading A8 hexadecimal into
register U135. The A Counter is loaded with FFFF hexadecimal.

91A08 SEL (CLOCK SELECTOR)
The 91 A08 SEL function tests the 91 A08 clock-selector latch. This latch can be seen on schematic 19 in the Diagrams section. All circuit numbers in this test description are assumed to have an
A 10 preface unless otherwise specified.

NOTE
The ADDR readout in the 91A08 SEL function represents the port that is being read by the
diagnostic test routine. The ACTUAL and EXPECTED values can help find a stuck bit or
faulty IC. For example, if the TB07(H) line were stuck high, the screen data on Test 1 would
show:
5 91 A08 SEL TEST 1

ADDR
05

EXPECTED
00

ACTUAL
01

*FAIL*

Test 0

This test loads latch U141 (schematic 19) with 80 hexadecimal. The TB07(H) line is then checked
for being high by the Controller through register U177 (schematic 15).

Test 1

This test loads latch U141 (schematic 19) with 00 hexadecimal. The TB071ine is then checked for
being low by the Controller through register U177 (schematic 15).

DAC THRSH (DAC THRESHOLD)
The digital-to-analog converter threshold function tests the DAC that specifies threshold levels on
the External Control Acquisition Probe. Most of the circuitry being tested can be seen on schematic 17 in the Diagrams section. All circuit numbers in this test description are assumed to have
an A 10 preface unless otherwise specified.

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Maintenance: Diagnostic Test-DAS 9100 Series Service Vol. II

This function has no read back capability, so the output of the DAC must be monitored by connecting a digital multimeter between test pOints TP1 05 (ground) and TP208 (THRESHOLD) on the
Trigger/Time Base. The indication at the test point should be 0.00 V, ± 0.005 V; + 1.60 V,
±0.021 V; -1.5875 V, ±0.021 V; and a ramp waveform. The voltage between the two test
pOints is chosen using the SELECT key in the special DAC THRESHOLD SET field. This field only
appears on the Diagnostic menu when this test has been individually selected and START SySTEM has been pressed.
The DAC threshold test writes data corresponding to the voltage to be output. This data is
latched into register U131 (schematic 17). This register then writes to the DAC U121. A value of
00 hexadecimal causes a -1.5875 V output; 80 hexadecimal causes a 0.00 V output; and FF
hexadecimal causes a + 1.60 V output. Ramping is done by incrementing 00 up to FF with a delay
to settle the DAC.
NOTE
The steady voltages in the DAC THRSH function can be used to determine the accuracy and
correct operation of the DAC circuitry. The ramp can be use to determine whether al/ selectable voltages are available.

91 A32 FUNCTIONAL TESTS
MEM AD DR (MEMORY ADDRESS REGISTER)
The MEM ADDR function exercises the even- and odd-memory address registers (MARs) on the
91 A32. These tests check most of the circuitry that addresses the acquisition RAMs. The
majority of the tested circuitry is shown on schematic 24 in the Diagrams section. All circuit
numbers in this test description are assumed to have an A 12 preface unless otherwise specified.
NOTE
The ADDR value shown in the memory address register function represents the address of
the port read by the diagnostics. Using the EXPECTED and ACTUAL values, stuck lines and
faulty ICs can be detected. For example, if pin 9 of register U655B were stuck low, the
screen data on Test 0 would show:

MEM ADDR TEST 0

ADDR EXPECTED ACTUAL
02
20
00

*FAIL*

Test 0

This test loads 00 hexadecimal into registers U158 and U161 (schematic 24). This is done by
placing 00 on DO-D7, asserting the EMAR LD(L) line, and then toggling the MAR CLK(H) line. If
all these actions are completed successfully, the EVEN WORD(H) line makes a transition high.
This transition then loads 00 into the registers. The Controller board verifies the test by examining
the EVEN WORD(H) line after the load. If the line is high, the test is passed.

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Maintenance: Diagnostic Test-DAS 9100 Series Service Vol. II

Test 1
This test asserts the OMAR LO(L) line, which loads the contents of registers U158 and U161 (the
even MAR) into registers U261 and U255C,0 (the odd MAR). The even MARs is loaded with 00
hexadecimal before the test starts (see Test 0). In order to load the odd MAR, EVEN WORO(H)
must go low. EVEN WORO(H) is then read by the Controller board through buffer U241 (schematic 20). If EVEN WORO(H) is low, the test is passed. Tests 0 and 1, if passed, indicate that the
circuitry that loads the memory address registers is working properly.

Test 2
This test loads 80 hexadecimal into registers U158 and U161, the even MAR (schematic 24). This
is done by placing 80 on 00-07 asserting EMAR(L), then toggling MAR CLK(L). This loads the
registers, which then output 80.
Next, the OMAR LO(L) line is asserted, which loads registers U261 and U255C,0 (the odd MAR)
with the output from the even MAR. The MAR ROBK(L) line is then asserted. This enables buffer
U251, which passes the output of the odd MAR onto the data bus to be read by the Controller.
This sequence of steps is repeated, next loading the MARs with 40, then 20, down through 01 in
a walking bit sequence. After each load the odd MAR is checked for the proper data content. If all
the read back data is as expected, the test is passed.
If this test is passed, the MAR latches and the readback circuitry are working properly.

Test 3
This test toggles the INIT(L) line on the 91A32. This should cause register U153A (the all valid
register on schematic 24) to be reset. The ALL VALlO(H) line is then checked for being low
through buffer U241 (schematic 20). If this line is low, the test is passed.

Test 4
This test loads FE hexadecimal into registers U158 and U161, the even MAR (schematic 24). This
is done by placing FE on 00-07, asserting the EMAR LO(L) line, and then toggling the MAR
CLK(L) line. This loads the even MAR, which then outputs FE.
This output is loaded into the odd MAR (U261 and U255C,O) by toggling the OMAR LO(L) line.
The EMAR LO(L) line is also made inactive.
The even MAR is then clocked twice to make it count to 00. This is done in the following steps:
the MAR CLK(L) is toggled which makes the even MAR count up one (to FF). The OMAR LO(L)
line is toggled to load the odd MAR with FF. The MAR CLK(L) is toggled again, which makes the
even MAR count to 00. Finally the OMAR LO(L) line is toggled to load the 00 into the odd MAR.
When the odd MAR is loaded with 00, the most significant bit of the MAR makes a falling edge.
This edge clocks register U153A (the all valid register), which then makes the ALL VALlO(H) line
go high. The ALL VALlO(H) line is read by the Controller through buffer U241 (schematic 20). If
the ALL VALlO(H) line is high, the test is passed.
If this test is passed, the MARs are probably counting and register U153A is probably operating.

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Maintenance: Diagnostic Test-DAS 9100 Series Service Vol. II

Test 5
This test loads the even MAR (U 158 and U161 on schematic 24) with 00 hexadecimal. This is
done by placing 00 on DO-D7, asserting the EMAR LD(L) line, and then toggling the MAR
CLK(L) line. This loads the even MAR, which then outputs 00.
This output is loaded into the odd MAR (U261 and U255C,D) by toggling the OMAR LD(L) line.
The EMAR LD(L) line is also made inactive.
The MARs are then advanced to FF by alternately toggling the MAR CLK(L) and the OMAR LD(L)
lines. Each line gets toggled 255 times. When this toggling of lines is finished, the output of the
odd MAR should read FF. This FF is then read by the Controller through buffer U251. If FF is read
back, the test is passed.

ACQ MEM (ACQUISITION MEMORY)
The ACO MEM function tests the RAMs that are used by the 91A32 to store acquired data. The
main circuitry being tested is shown on schematic 23 in the Diagrams section. Refer to the
schematics and to Figure 8-3 while reading this description. All circuit numbers in this test description are assumed to have an A 12 preface unless otherwise specified.
The Acquisition Memory in the 91 A32 acquisition module consists of two sides, even and odd.
Data from the probes is loaded into the memories through data input registers. There is one set of
registers for each side of memory. The sets of registers are alternately loaded, so each memory
side receives alternating sets of data from the probes.
When the memory is being tested by the diagnostics, the probes are bypassed by writing data
through the test bus TBDO-TBD7 (schematics 21 and 22). This data is the inverse of the data
that the Controller board writes on the data bus to be written into the RAM; the Controller always
writes inverted data to TBDO-TBD7. Whenever the test bus is not in use all its lines are programmed high.
Any input signals from the probes are also disabled during the memory tests by asserting the
TEST BUS EN(L) line. This line pulls all input lines from the probes high through transistors 0115
and 0223 on schematic 21, and through 0418 and 0520 on schematic 22.
NOTE
In tests 0 through 3, the ADDR value in the acquisition memory function represents the port
that is read by the diagnostics. In test 4, both the port being read and the memory location
are shown on the screen under ADDR, port first, then the RAM address. Using the EXPECTED and ACTUAL values faults in the circuitry can be detected. For example, if data bit
6 in byte 3 of the even side memory were stuck low, then Test 4 would read:
1 ACO MEM

8-22

TEST 4

ADDR EXPECTED ACTUAL
07 00
CA
8A
*FAIL*

Maintenance: Diagnostic Test-DAS 9100 Series Service Vol. II

(E)VEN MAR

a

EVEN RAMS

i>'-'-=.:..c.=-c'-----7.L-"--~e~

4

ACQUISITION MEMORY

EVEN

8

MAR REAOBACI( BUS

ACQUIRED! :
DATA
8

r-r--r-"""'--"
8
>--T---L./

ENABLE

(0)00 MAR

s

3836·221

Figure 8-3. 91 A32 Acquisition Memory block diagram.

Tests 0-3
All four of these tests are very similar in structure, so they will only be described in detail once.
The differences between each of these tests are pointed out individually by test. These four tests
verify the read back and write enable circuitry.
To initialize the board, the SINGLE STEP(H) clock is selected by writing 0 octal to clock selector
U638 (schematic 24). The SINGLE STEP(H) clock will be used to load the data from the test bus
(T8DO-T8D7) into the login register and the acquisition memory.

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Maintenance: Diagnostic Test-DAS 9100 Series Service Vol. II

The even and odd memory address registers (MAR) are loaded with FF hexadecimal (the MARs
will increment to 00 by the time the memories are loaded). The Controller board then writes 55
onto TBDO-TBD7. This presents AA AA AA AA to the login registers (U221 , U121, U321, U421,
U521, and U621 , on schematic 23). The SINGLE STEP(H) clock is now clocked once. This clock:
1. Logs the value AA AA AA AA into the login registers;
and,
2. Makes the even MAR increment to 00.
AA AA AA AA hexadecimal is now present at the inputs to the registers in both the even and the
odd acquisition memories. The Controller writes AA to the test bus, which puts 55 on the
TBDO-TBD7 lines. The SINGLE STEP(H) is toggled again. This time the clock:
1. Logs AA AA AA AA into the even side memory registers;
2. Causes the even write enable generator (on schematic 24) to load the even side memory with
AA AA AA AA at address 00 (where the even MAR pOints);

3. Logs 55 55 55 55 into the login registers; and
4. Loads the odd MAR with 00.
There is one more single-step pulse that loads the odd side memory with 55 55 55 55.
The procedure begins again by re-Ioading the even and odd MARs with FF, as outlined previously.
The data on the test bus is left the same. The next steps will write 55 into eight bits of the even
memory at address 00 while leaving the other twenty-four bits at AA.
The chip select signals on the even side RAMs come from the CSO-CS3(L) bus. The chip selects
are turned off (high) for three bytes of the even RAM (U165, U168, U171, U175, U178, U181,
U185, and U188, schematic 23). One byte (two RAMs) remains enabled. The SINGLE STEP(H)
line is toggled once to load the login register with 55 55 55 55.
The Controller now writes 55 to the test bus, so AA AA AA AA is presented to the login registers.
The SINGLE STEP(H) clock is toggled again. This time the clock:
1. Logs 55 55 55 55 into the even side memory registers;
2. Causes the even write enable generator (on schematic 24) to load the RAMs that are enabled
in the even side memory;
3. Logs 55 55 55 55 into the login registers; and,
4. Loads the odd MAR with 00.
There is one more single step pulse which loads AA into the enabled odd side RAM.

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Maintenance: Diagnostic Test-DAS 9100 Series Service Vol. II

The test is now complete, except for reading back the data held in the memories at address 00.
The even side is read back through buffer U351 and the odd side is read back through buffer
U361 (schematic 23). The data read by the Controller from the even side should be all 55's in the
three bytes not being tested, and AA in the byte under test. The Controller should read AA's from
three bytes of the odd memory and 55 from the byte under test.
Table 8-4 shows the expected memory contents for each test.
Table 8-4
Expected Results from ACQ MEM Tests 0 - 3
Odd Side

Even Side
Test

Byte 3

Byte 2

Byte 1

Byte 0

Byte 3

Byte 2

Byte 1

Byte 0

0
1
2
3

AA
55
55
55

55
AA
55
55

55
55
AA
55

55
55
55
AA

55
AA
AA
AA

AA
55
AA
AA

AA
AA
55
AA

AA
AA
AA
55

Test 0
This test verifies U185 and U188 on the even side, and U285 and U288 on the odd side.

Test 1
This test verifies U178 and U181 on the even side, and U278 and U281 on the odd side.

Test 2
This test verifies U171 and U175 on the even side, and U271 and U275 on the odd side.

Test 3
This test verifies U165 and U168 on the even side and U265 and U268 on the odd side.

Test 4
This test checks each address of the acquisition memory RAMs for bit independence. Since the
previous four tests verified the operation of the write enable and read back circuitry for each byte,
this description will leave out the details of the memory loading and read back procedures.
The entire memory is filled with CA, A 1, or 1C. If all three of these values can be stored and read
back from one location, all lines at that location are capable of both high and low values. The
hexadecimal values are loaded in the following sequence:
First the whole memory is filled with the progression of CA, 1C, A 1, starting with CA on the even
side and A 1 on the odd side.

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Maintenance: Diagnostic Test-DAS 9100 Series Service Vol. II

On the second pass the memory is filled again with the same sequence, but this time starting with
A 1 on the even side and 1C on the odd side.
On the third and final pass, the sequence starts with 1C on the even side and CA on the odd side.
Refer to Tables a-Sa-c, which show how the memory is loaded during each of the three passes
in Test 4.
Table 8-5a
Values Loaded by ACQ MEM Test 4, First Pass
Even Side

Odd Side

Addr

Byte 0

Byte 1

Byte 2

Byte 3

Byte 0

Byte 1

Byte 2

Byte 3

00
01
02

CA
1C
A1

CA
1C
A1

CA
1C
A1

CA
1C
A1

A1
CA
1C

A1
CA
1C

A1
CA
1C

A1
CA
1C

FF

CA

CA

CA

CA

A1

A1

A1

A1

Table 8-5b
Values Loaded by ACQ MEM Test 4, Second Pass
Even Side

Odd Side

Addr

Byte 0

Byte 1

Byte 2

Byte 3

Byte 0

Byte 1

Byte 2

Byte 3

00
01
02

A1
CA
1C

A1
CA
1C

A1
CA
1C

A1
CA
1C

1C
A1
CA

1C
A1
CA

1C
A1
CA

1C
A1
CA

FF

A1

A1

A1

A1

1C

1C

1C

1C

Table 8-5c
Values Loaded by ACQ MEM Test 4, Third Pass
Even Side
Odd Side
Addr

Byte 0

Byte 1

Byte 2

Byte 3

Byte 0

Byte 1

Byte 2

Byte 3

00
01
02

1C
A1
CA

1C
A1
CA

1C
A1
CA

1C
A1
CA

CA
1C
A1

CA
1C
A1

CA
1C
A1

CA
1C
A1

FF

1C

1C

1C

1C

CA

CA

CA

CA

Whenever Test 4 is run in a Power Up situation, only location 00 in the RAMs is checked.
Otherwise, all 256 locations in the memory are rechecked.

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Maintenance: Diagnostic Test-DAS 9100 Series Service Vol. II

NOTE
If an error is detected in Test 4, the test shows the error results on the screen and does no
further testing of the memory, unless the diagnostics are in the looping mode. If an error is
detected, the results of the test are displayed as follows:

1 ACO MEM TEST 4

ADDR EXPECTED ACTUAL
PO LO
XX
XX

PO stands for the I/O port the data is read from and LO is the address of the location that
failed the test. The EXPECTED and ACTUAL values should indicate which bit(s) in the byte
failed. The PO value can be used to determine which byte in the acquisition memory failed.
Each memory byte is read back at a different I/O port, which can be decoded as shown in
Table 8-6.

Table 8-6
91A32 Acquisition Memory Readback Ports
I/O Port

Readback Byte

04

Even Side Byte 0 (U16S, U168)

OS
06

Even Side Byte 1 (U 171, U17S)

07

Even Side Byte 3 (U18S, U188)

08

Odd Side Byte 0 (U26S, U268)

09

Odd Byte 1 (U271, U27S)

OA
OB

Odd Side Byte 2 (U278, U281)

Even Side Byte 2 (U178, U181)

Odd Byte 3 (U28S, U288)

WRD REC (WORD RECOGNIZER)
The WRD REC function verifies the operation of the word recognition RAMs on the 91 A32. Most
of the circuitry tested is shown on schematic 2S. All circuit numbers in this test description are
assumed to have an A 12 preface unless otherwise specified. Refer to the schematics and to
Figure 8-4 while reading this description.
NOTE
If a failure is detected to test 0 or test 1, two characters will be displayed to the right of the
address column. The first character will be an A indicating an even memory failure, or a B
indicating an odd memory failure. The second character will be from 0 to 3 which indicate
RAM sets as follows:

Character

o
1

2
3
REV NOV 1983

RAM Set
U465 and U468
U471 and U475
U478 and U481
U485 and U488
8-27

Maintenance: Diagnostic Test-DAS 9100 Series Service Vol. II

WORD RECOGNIZER BLOCK DIAGRAM
RAMS

MUX
U671
TEST BUS

LATCH

8
EN

8

iRa

A=,""{ :
DATA

B

c
8

B
8

8

:J
:

EVENT
RECOGNITION

A

(
FOUR·INPUT
NAND·GATES

3836·222

Figure 8·4. 91A32 Word Recognizer block diagram.

Word Recognizer Circuit Overview
The 32-bit-wide data from the circuit under test is placed on the address pins of the word recognizer RAM. Thus, the acquired word becomes the address to a location in the RAMs. The systems response to the acquired word depends on which bits have been set at the RAM location
addressed by the acquired word.
For instance, if each word recognizer RAM contained 0001 binary at location 00 hexadecimal,
then EVENT 1(H) would would go high when the module acquired 00 00 00 00 hexadecimal.
Detailed View Of The Word Recognizer
Before the 91A32 module is used to acquire data, the word recognition RAM must be programmed by the Controller board. The SINGLE STEP clock is selected to drive the 91 A32 module. Next the Controller writes FF hexadecimal to the test bus, so TBDO-TBD7 holds 00. The
clock is single-stepped twice, so the data on TBDO-TBD7 passes through the login register and
the even acquistion memory registers.

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Maintenance: Diagnostic Test-DAS 9100 Series Service Vol. II

The RAMs on the even side of the word recognizer (U465, U471, U478, and U485, on schematic
25) are now all addressed at location 00. The Controller board then loads the even word recognizer RAM at address 00 by writing data on 00-07 and selecting the WD REC WEO(L)-WD REC
WE4(L) lines to clock in the data. The data continues to be similarly addressed, loaded, and
clocked until both sides of the word recognizer RAM are completely programmed.
During data acquisition, the word recognizer RAMs are addressed by the same data that is being
clocked into the acquisition RAM. For a word to be recognized, all four of the RAMs on one of the
sides must output highs on the corresponding bits (e.g. pin 10 of all four RAMs go high). These
four lines are NANDed by a four-input NAND gate, and then passed through a demultiplexer
(U671). Finally, the word recognition signals are passed through a register to go through NAND
gates and become EVENT 1(H), EVENT 2(H), EVENT 3(H), and SRDO(H).
EVENT 2(H) and EVENT 3(H) are exclusive-ORed for the diagnostic test read back and EVENT
1(H) is read back directly.

NOTE
The SRDO line is not tested or read back by these tests. This line is not currently used by the
system.

Test 0
This test verifies the data lines of the 91 A32 word recognition RAMs. The individual RAM ICs are
verified in sets of two; an even side RAM and a corresponding odd side RAM. The test is run four
times. Each time it is run, it verifies a different set of two RAMs.
The Controller board loads 0001 into address 00 of the least significant word recognizer RAMs
(U645 and U648). All other RAMs are loaded with 1111 at address 00. The Controller then
increments the address to 01 and loads 0010 into the least significant RAMs and, again, loads the
others with 1111. The Controller increments the address again and continues to load incrementing data into the least significant RAM and 1111 into the other RAMs through address 06 hexadecimal. The data loaded into the RAMs is shown in Table 8-7.

Table 8-7
Word Recognizer Test 0 Data
Address
(Hex)
00
01
02
03
04
05
06

Data (Binary)
RAM set under test
Other 3 RAM sets
0001
0010
0011
0100
0101
0110
0111

1111
1111
1111
1111
1111
1111
1111

Readback
3 XOR 2

Data
1

Display
(Hex)

0
1
1
1
1
0
1

0
1
0
1
0
1
0

00
CO
80
CO
80
40
00

The Controller board then sends the same addresses to the word recognizer RAM and expects to
read back the values shown under the readback data column in Table 8-7.

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Maintenance: Diagnostic Test-DAS 9100 Series Service Vol. II

After the least significant RAM pair have been verified, the Controller board tests the next to least
significant RAM pairs (U471 and U475) in the same way, while loading all the other RAMs with
1111. Then the next to most significant RAMs (U478 and U481) are verified the same way.
Finally, the most significant RAM pair is checked (U485 and U488). This ends test O.

NOTE
In test 0, both the even and odd sides of the word recognition RAM are checked during the
same run of the test. When the data is read back at one address the even side is enabled
(read back) first, followed by the odd side. In some failure modes an error is inherent to both
the even and odd sides. If this occurs, the screen will always indicate that the even side
failed, since the even side is read by the Controller board first.
Also, if one of the lines in a RAM cannot be programmed high, a failure may be assigned to
the incorrect RAM. This is due to the RAM data passing through the 4-input NAND gates.

Test 1
This test verifies the system's ability to access all the memory locations in the word recognizer
RAM. It also verifies the RAM's ability to store data.
The Controller board addresses 00, 01, 02 hexadecimal on all RAMs and loads these addresses
with 0000, 0010,0101 binary respectively. At address 03 hexadecimal, the Controller again writes
0000 binary and repeats the sequence until it has loaded address FF hexadecimal with 0010. See
Table 8-8a.
The Controller then addresses all the locations in the RAM and monitors the RAM outputs
through the WD1 (H) and WD2 XOR 3(H) lines.
If the RAM passes this first procedure, the routine is run two more times, (or until an error is
found). On the second run, the sequence begins by loading address 00 hexadecimal with 0010
binary (instead of 0000 binary). See Table 8-8b for the second data sequence.
On the third run, the sequence begins by loading address 00 hexadecimal with 0101 binary. See
Table 8-8e for the third and last data sequence. Thus, all three bit patterns are loaded into each
RAM location.
Table 8-8a
Word Recognizer Test 1 (First Run) Data
Address
(Hex)
00
01
02
03
04

8-30

Data Loaded (Binary)
(All RAMs)
0000
0010
0101
0000 (begin repeat)
0010

--

--

FF

0010

Readback
3 XOR 2

Data
1

Display
(Hex)

0
1
1
0
1

0
0
1
0
0

40
CO
80
40
CO

-

-

--

1

0

CO

REV NOV 1983

Maintenance: Diagnostic Test-DAS 9100 Series Service Vol. II

Table B-Bb
Word Recognizer Test 1 (Second Run) Data
Address
(Hex)
00
01
02
03
04

Data Loaded (Binary)
(All RAMs)
0010
0101
0000
0010 (begin repeat)
0101

Readback Data
3 ){OR 2
1
1
1
0
1
1

0
1
0
0
1

Display
(Hex)
CO
80
40
CO
80

--

--

-

-

--

FF

0101

1

1

80

Table B-Bc
Word Recognizer Test 1 (Third Run) Data
Address
(Hex)
00
01
02
03
04

Data Loaded (Binary)
(All RAMs)
0101
0000
0010
0101 (begin repeat)
0000

Readback Data
3 XOR 2 1
1
0
1
1
0

1
0
0
1
0

Display
(Hex)
80
40
CO
80
40

--

--

-

-

--

FF

0000

0

0

40

DAC THRSH (DAC THRESHOLD)
The digital-to-analog converter threshold function tests the DAC that specifies threshold levels on
the data acquisition probes. Most of the circuitry being tested can be seen on schematic 20 in the
Diagrams section. All circuit numbers in this test description are assumed to have an A12 preface
unless otherwise specified.
This function has no readback capability, so the output of the DAC must be monitored by connecting a digital multimeter between test point TP147 (ground) and the outputs of op amps U122,
U133, U140, and U142 on the 91A32 (hot). The indications should be 0.00 V, ±0.005 V;
+ 1.60 V, ± 0.021 V; -1.5875 V, ± 0.021 V; and a ramp waveform. The voltage between the
two pOints is chosen by using the SELECT key in the special DAC THRESHOLD SET field. This
field only appears when this test has been individually selected and START SYSTEM has been
pressed.
The DAC threshold test writes data corresponding to the voltage to be output. This data is
latched into register U661 (schematic 20). This register then writes to the DAC, U152. 00 hexadecimal causes a -1.5875 V output. 80 hexadecimal causes a 0.00 V output; and FF hexadecimal causes a + 1 .60 V output. Ramping is done by incrementing 00 up to FF with a delay to settle
the DAC.

REV NOV 1983

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Maintenance: Diagnostic Test-DAS 9100 Series Service Vol. II

NOTE
The steady voltages in the DAC threshold function can be used to determine the accuracy
and correct operation of the DAC circuitry. The ramp can be used to determine whether all
selectable voltages are available.

91 A08 FUNCTIONAL TESTS
MEM ADDR (MEMORY ADDRESS REGISTER)
The MEM AD DR function exercises the even- and odd-memory address registers (MARs) on the
91 A08. The majority of the tested circuitry is shown on schematic 29. All circuit numbers in this
test description are assumed to have an A 13 preface unless otherwise specified.
NOTE
The ADDR value shown in the memory address register function represents the port being
read by the Controller. The ACTUAL and EXPECTED values can indicate circuitry faults to
the troubleshooter. For example, if the MAR Overflow register has its Q(L) output stuck low,
test 0 would read:

a MEM ADDR

TEST

a

ADDR EXPECTED ACTUAL
02
10
00
*FAIL*

In all of the MEM ADDR tests but test 0, the MARs must be loaded with data. The MAR loading
sequence is given below (refer to schematic 29).
1. The MAR LD(L) line controls the MAR loading sequence. Before the MARs are loaded, the
MAR LD(L) line is high. This maintains the outputs of counter U591 B (in the memory read and
load circuitry) at a high state.

2. The data to be loaded into the MARs is put on the ECLDO-ECLD7 bus by the Controller
board.

3. The MAR LD(L) line now goes low, so the output of NOR gate U178C goes low. This allows
the oscillator built around NAND gate U181 B to start running. The MAR LD(L) line going low
also allows the even MAR, counters U255 and U258, to be loaded with data when clocked.

4. The clock coming from NAND gate U181 B causes counter U591 B to increment from 0000
through 1000 binary. When 1000 is reached, the oscillator is stopped by NOR gate U178C.

5. The up count from U591 B toggles the set and reset lines of register U528B. The Q(H) and Q(L)
lines from register U528 clock the even and odd MARs respectively.

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Maintenance: Diagnostic Test-DAS 9100 Series Service Vol. II

6. When the even MAR (U255 and U258) is clocked, the data on the ECLDO-ECLD7 bus is
logged through to the Q outputs of the even MAR. When the Odd MAR (U265 and U465E,F) is
clocked, the output from the even MAR gets logged into the odd MAR.

7. The above sequence is always followed whenever the MARs are loaded with data from the
ECLDO-ECLD7 bus.

Test 0
This test starts by toggling the CLEAR TRIG-ECL line. This sets the MAR. Overflow flip-flop
(U655B, schematic 29). The output of this flip-flop, MAR OVERFLOW(H), is then read by the
Controller through buffer U681 (schematic 26). If this signal is low, the test is passed.

Test 1
This test checks for bit independence of the MARs by walking a high through all bit positions.
The test starts by toggling the CLEAR TRIG ECL(H) line, so the previous test is cleared from the
circuitry. 80 hexadecimal is then loaded into the MARs as outlined at the beginning of this MEM
ADDR function description.
The Controller now reads the output of the odd MAR onto the OAO-OA7 bus through buffer
U685 (schematic 26). If the Controller reads the same data that was loaded into the MARs, the
test continues.
The Controller follows the same procedure, loading 40 into the MARs and then reading it back.
Then it loads 20 and reads it back, continuing in a walking one sequence until all bits of the MARs
have been checked for independence. If all readback data matches the expected data, the test is
passed.

Test 2
This test verifies that the MARs can count by loading them with FF hexadecimal, clocking them
once, and seeing if they roll over to 00.
The test starts by toggling the CLEAR TRIG-ECL(H) line so the previous test does not affect the
results of this test. Then the even and odd MARs (U255 and U258, and U265 and U465E,F,
schematic 29) are loaded with FF hexadecimal. The MAR loading sequence is shown at the
beginning of this MEM ADDR function description.
After the MARs are loaded with FF, MEM ACC EN(H) is pushed low which makes TTL MEM ACC
EN(L) active. These signals stop holding counter U578 cleared and enable decoder U581.
The MEM RD(L) line is now toggled eight times. This causes counter U578 to count from 0
through 8, which is decoded by U581. As decoder U581 scans up, outputs YO(L) and Y4(L)
activate inverting input OR gates U185A and B. YO(L) going low resets flip-flop U528 B, which
causes a pulse on the EVEN CLK(H) line that makes the even MAR (U255 and U2558) increment
to 00.

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Maintenance: Diagnostic Test-DAS 9100 Series Service Vol. II

When Y4(L) toggles low, flip-flop U528B gets set. This logs the data output from the even MAR
into the odd MAR (U265 and U465E,F). The odd MAR should now output 00 instead of FF. The
~AO-~Al bus is read by the Controller through buffer U685 (schematic 26) and compared with
00. If the Controller reads the expected data, the test is passed.

Test 3
This test verifies the operation of the MAR overflow register (U655B). The test assumes that Test
2, above, was run just before attempting Test 3. Test 2 performs some of the actions outlined
below.
In Test 2 the MARs (U255, U258, U256, and U465E,F, schematic 29) in the 91 A08 are loaded
with FF hexadecimal. The MEM RD(L) line is then toggled eight times, which should cause both
MARs to output 00. For more information on this process, refer to Test 2, above. When the odd
MAR rolls over from FF to 00, the OAl line of the ~AO-~Al bus should exhibit a falling edge.
This falling edge is converted to a rising edge by inverter U558B. The rising edge clocks flip-flop
U655B, so the Q(L) output goes from low to high. The MAR OVERFLOW(H) line is then read by
the Controller through buffer U681 (schematic 26). If the Controller reads a high on this line, the
test is passed.

DIF CNTR (DIFFERENCE COUNTER)
The DIF CNTR function verifies that the difference counter in the 91A08 can count and that the
lowest eight bits of the counter are independent. The majority of the tested circuitry is shown on
schematic 30. All circuit numbers in this test description are assumed to have an A 13 preface
unless otherwise specified.
NOTE
This function runs only on a 91AOB installed in bus slot 6 of the DAS mainframe. For 91AOB
modules installed in other bus slots, this function will not appear on the diagnostics menu.
The ADDR value in the difference counter function represents the readback port used by the
diagnostics. The ACTUAL and EXPECTED values should indicate possible trouble spots to
the troubleshooter.

Test 0
This test starts by setting up the Trigger/Time Base. The 91 A32 internal clock on the Trigger/
Time Base is set to single step. The 91 A32 TRIG O(H) line (pin A 18 on the High Speed Bus,
schematic 3) from the Trigger/Time Base is programmed high at the same time. Setting the
Trigger/Time Base this way enables the difference counter in the 91 A08.
The difference counter (U588, U591 A, U595B, and U595A, schematic 30) is now enabled, by
91 A32 TRIGGER O(L) being low. This makes the output of OR gate U431 B low, which is converted from ECL to TTL and used to enable counter U588. The 91A32 INTL CLK SEL(L) signal is then
made true (low), which selects the 91 A32 internal clock to drive the difference counter.

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Maintenance: Diagnostic Test-DAS 9100 Series Service Vol. II

The 91 A32 internal clock is then single stepped 85 times. This should cause the difference
counter to increment to 0055 hexadecimal. The Controller reads the counter through buffers
U688 and U691. If the Controller reads 0055 hexadecimal, the test continues.
The Controller now single steps another 85 times, which should cause the difference counter to
increment to OOAA. The Controller again reads the counter through buffers U688 and U691. If the
Controller reads OOAA hexadecimal, the test is passed.

DEL CNTR (DELAY COUNTER)
The DEL CNTR function verifies that the 91 A08 module's delay counter can be loaded properly
and that it can count. The majority of the circuitry tested is shown on schematic 31. All circuit
numbers in this test description are assumed to have an A 13 preface unless otherwise specified.
NOTE
The ADDR value shown in the DEL CNTR function represents the port that the diagnostics
read back. The ACTUAL and EXPECTED values should help indicate specific circuit faults.
For example, if counter U155 had its outputs stuck low, test 1 would show:

1 DEL CNTR

TEST 1

AD DR EXPECTED ACTUAL
02
CO
80
*FAIL*

All of the delay counter tests require data to be loaded into the delay counter. The procedure for
loading the delay counter is outlined below.
1. The delay counter has sixteen bits. For the purposes of loading, the counter is divided into the
upper eight-bit section and the lower eight-bit section.
2. The Controller loads the lower eight-bit section by putting the count value into register U168
(schematic 26). The data in this register is put on the TTLDO-TTLD7 bus and the
ECLDO-ECLD8 bus. The lowest four bits of the ECLDO-ECLD7 bus are used to load the
lowest quarter of the counter (U428, schematic 31). The highest four bits of the
TTLDO-TTLD7 bus load the top of the lowest half of the counter (U155, schematic 31).
3. The data on these busses is loaded into the lowest eight bits of the counter by toggling the EN
LD DELAY O(H) line (loads ECL data) then toggling the DELAY O(L) line (loads TTL data).
4. The data to be loaded into the top half of the counter is now placed in buffer U168 (schematic
26) by the Controller.
5. The DELAY 1(L) line, which loads the upper half of the counter, is toggled. The delay counter is
now fully loaded.

'-.

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Maintenance: Diagnostic Test-DAS 9100 Series Service Vol. II

Test 0
This test checks whether the delay counter can be loaded with zeros. The counter (U145, U151,
U155, and U428, schematic 31) is loaded with 0000 hexadecimal as outlined previously. The
DELAY 0 BIT 4(H) and DELAY 1 BIT O(H) lines are then read by the Controller through buffer
U681 (schematic 26). If the Controller reads bits 6 and 7 from this buffer as low the test is passed.

Test 1
This test checks whether the delay counter can be loaded with ones. The counter (U145, U151,
U155, and U428, schematic 31) is loaded with FFFF hexadecimal as outlined above. The DELAY
OBIT 4(H) and DELAY 1 BIT O(H) lines are then read by the Controller through buffer U681
(schematic 26). If the Controller reads bits 6 and 7 from the buffer as high the test is passed.

Test 2
This test verifies that the delay counter can increment. The counter (U145, U151, U155, and
U428, schematic 31) is loaded with OOFF hexadecimal as outlined above.
The Trigger/Time Base now selects the single-step clock to drive the 91 A08 INTL CLK lines. The
clock selector on the 91 A08 (U605, schematic 30) is set to pass the 91 A08 INTL CLK signal.
When the 91 A08 is powered up, it is already set to count (a low at CE(L) on U428 in the lower 1/4
delay counter, schematic 31).
The 91 A08 INTERNAL CLOCK is toggled once by the single step clock. This causes the delay
counter to increment to 0100 hexadecimal. The DELAY 0 BIT 4(H) and DELAY 1 BIT O(H) lines
are then read by the Controller through buffer U681 (schematic 26). If the Controller reads bit 6
from this buffer as low and bit 7 as high, the test is passed.

WORD REC (WORD RECOGNIZER)
The WORD REC function tests verify the operation of the registers that control the word recognizers. The word recognizers themselves are not tested. The majority of the circuitry tested is
shown on schematic 27. All circuit numbers in this test description are assumed to have an A 13
preface unless otherwise specified.

NOTE
The ADDR value shown in the WORD REC function represents the port that is read back by
the diagnostics. The ACTUAL and EXPECTED values should help indicate faulty circuitry.
For example, if register U125 has its outputs stuck high, then test will show:

a

2 WORD REC TEST 0

8-36

ADDR
01

EXPECTED
00

ACTUAL
80 *FAIL*

Maintenance: Diagnostic Test-DAS 9100 Series Service Vol. II

Test 0

This test starts by loading 00 hexadecimal into registers U121, U125, and U128 (schematic 27).
The Controller then reads back the WD REC DATA WD2(H) and WD REC CONT WC3(H) lines
through buffer U678 (schematic 26). If these two lines are read as low by the Controller, the test is
passed.

Test 1

This test starts by loading 00 hexadecimal into registers U121, U125, and U128 (schematic 27).
The Controller then reads back the GLITCH CNTR GC1 (H) line through buffer U681 (schematic
26). If this line is read as low by the Controller, the test is passed.

Test 2

This test starts by loading FF hexadecimal into registers U121, U125, and U128 (schematic 27).
The Controller then reads back the WD REC DATA WD2(H) and WD REC CONT WC3(H) lines
through buffer U678 (schematic 26). If these two lines are read as high by the Controller, the test
is passed.

Test 3
This test starts by loading FF hexadecimal into registers U121, U125, and U128 (schematic 27).
The Controller then reads back the GLITCH CNTR GC1 (H) line through buffer U681 (schematic
26). If this line is read as high by the Controller, the test is passed.

ACQ MEM (ACQUISITION MEMORY)
The Acquisition Memory functional test verifies the RAMs that are used by the 91 A08 to store
acquired data. The main circuitry being tested by this function is shown on schematic 28. All
circuit numbers in this test description are assumed to have an A 13 preface unless otherwise
specified. Refer to the schematics and to the 91 A08 Acquisition Memory block diagram, Figure
8-5, while reading this description.

REV NOV 1982

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EAO·EA7 (MEMORY ADDRESS)

MISCELLANEOUS

EVEN

8

4

ACQUIRED GLITCHES B

DATA

AcaUIRED DATA

EN MEM Ace Eel
EDO·E07

MISCELLANEOUS

000

0

ACQUIRED GUTCHES 3

DATA

ACQUIRED DATA

3836-223

Figure 8-5. 91AD8 Acquisition Memory block diagram.

NOTE
The ADDR value shown in theACQ MEM function represents the address in the Acquisition
Memory of the first detected error. The EXPECTED and ACTUAL values should indicate
possible circuit faults to the troubleshooter. The EVEN and ODD labels show which side of
memory had the detected failure. For example, if data bit 0 were shorted to data bit 1 on the
even side, test 0 would show:

3 ACO MEM TEST 0

ADDR
00 EVEN

EXPECTED
AAA~

ACTUAL
AAA57 *FAIL*

~Data

~GlitCh
Misc.

All four of the acquisition memory tests require information to be loaded into and read back from
the RAMs. The memory loading procedure is outlined below.
1. The acquisition memory is organized into several subdivisions. A complete breakdown of the
Acquisition Memory organization is shown below in Table 8-9.

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Maintenance: Diagnostic Test-DAS 9100 Series Service Vol. II

Table 8-9
91A08 Acquisition iVlemory Organization
Even

Odd

Data (8 bits)

U268 and U271

U468 and U471

Glitches (8 Bits)

U278 and U281

U478 and U481

U285

U485

Data Type Stored

Misc (4 bits)

2. When writing into the Acquisition Memory, the Controller starts by setting the Even Memory
Address Register (Even MAR) (U255 and U258, schematic 29) to the memory address to be
written into.

3. The Controller is now set to load the even data storage RAMs (U268 and U271, schematic
28). The data to be loaded into the RAMs is put on the ECLDO-ECLD7 bus by the Controller.

4. The MEM ACC EN (H) and the ENABLE LOAD(H) lines (schematic 29) are then asserted high
and held by the Controller. The data on the ECLDO-ECLD7 bus is now presented to the
inputs of all the Acquisition Memory through various AND/NAND gates (schematic 28). When
the MEM ACC EN(H) line is asserted, the even MAR is incremented (to the address that will be
loaded) because decoder U581 and flip-flop U528 (the even-odd clock generator, schematic
29) toggle the EVEN CLK(H) line. Asserting the MEM ACC EN(H) line also sets the bank select
bus, BSO-BS6, to enable the Even Data Storage RAMs. Finally, when the EVEN CLK(H) line
toggles, an EVEN WE(L) signal is generated to load the RAMs. So, asserting the MEM ACC
EN(H) line writes the data on the ECLDO-ECLD7 bus into the selected bank in the Acquistion
Memory.

5. Still on schematic 29, the Controller now puts the data to be loaded into the next memory bank
on the ECLDO-ECLD7 bus and toggles the MEM LD(L) line. The MEM LD(L) increments the
BSO-BS6 bus and, because the ENABLE LOAD(H) line is high, causes both the EVEN WE(L)
and the ODD WE(L) signals to be generated. This loads data into the RAM specified by the
BSO-BS6 bus.

6. Toggling the MEM LD(L) line continues to load data into the acquisition memory in the following sequence:
Write
Write
Write
Write
Write
Write
Write
Write
Write

1
2
3
4
5
6
7
8
9

Even Data Storage (8 bits)
Even Glitch Storage (8 bits)
Even Misc. Storage (4 bits)
No RAM
Odd Data Storage (8 bits)
Odd Glitch Storage (8 bits)
Odd Misc. Storage (4 bits)
No RAM
Starts repeat of above sequence at address plus one

When all the odd-side data has been loaded, the even MAR is automatically incremented by
the hardware.

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7. The memory loading procedure is ended by dis-asserting the MEM ACC EN(H) line.
The memory read back procedures are similar to the data loading procedures. The read back
sequence is outlined below.
1. The acquisition RAM is organized the same for read back as for loading (see 1, above, in the
RAM loading procedures).
2. The MAR is set to the address to be loaded minus one (see 2, in RAM loading procedures).
3. Now the MEM ACC EN(H) line is asserted and held. This action increments the MAR and
causes the bank select bus, BSO-BS6, to enable the even data storage RAM. In this way the
data stored at the address specified by the MAR is put on the memory read bus, MRO-MR7.
NOTE
During the entire memory read back procedure the INH WR EN(H) line is asserted to prevent
acquired data from being over-written.

4. The Controller can now read the data from the acquisition memory through buffer U685 (schematic 26).
5. To read the next eight bits of data, the Controller toggles the MEM RD(L) line. This causes the
bank select bus to advance by one every time MEM RD(L) has a falling edge. The BANK
SELECT BUS advances in the following sequence:
Read
Read
Read
Read
Read
Read
Read
Read
Read

1
2
3
4
5
6
7
8
9

Even Data Storage (8 bits)
Even Glitch Storage (8 bits)
Even Misc. Storage (4 bits)
No RAM (0 bits)
Odd Data Storage (8 bits)
Odd Glitch Storage (8 bits)
Odd Misc. Storage (4 bits)
No RAM (0 bits)
Repeat above at address plus one

When all odd data at one address has been read, the even MAR is automatically incremented
by the hardware.
6. The memory readback procedure is ended by disasserting the MEM RD(L) and MEM ACC
EN(H) lines.

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Maintenance: Diagnostic Test-DAS 9100 Series Service Vol. II

Test 0
The Controller loads the even acquisition memory with AAA55 hexadecimal at address 00 with
the procedure outlined above. Then 555AA is loaded into the odd acquisition memory at address
00. The Controller then reads back all the data stored at address 00 and compares it with the
values loaded. If the values match, the test is passed.
Test 1
The Controller loads the even acquisition memory with A55AA hexadecimal at address 00 with
the procedure outlined above. Then 5AA55 is loaded into the odd acquisition memory at address
00. The Controller then reads back all the data stored at address 00 and compares it with the
values loaded. If the values match, the test is passed.
Test 2
The Controller loads the even acquisition memory with 5AAAA hexadecimal at address 00 with
the procedure outlined above. Then A5555 is loaded into the odd acquisition memory at address
00. The Controller then reads back all the data stored at address 00 and compares it with the
values loaded. If the values match, the test is passed.
Test 3
This test checks each address of the acquisition RAM for bit independence. For memory loading
and readback procedures, refer to the read and write outlines, above.
The entire memory is filled with CA, A 1, or 1C hexadecimal. If all three of these values can be
loaded into and read back from one location in memory, all lines at that location are capable of
both high and low states. The hexadecimal values are loaded in the following sequence:
Say CA is the value loaded at address 00. CA would be loaded into all of the eight-bit sets of data
at address 00, both the even and odd sides. The four-bit sets of data (the miscellaneous data) is
treated as though it is the lowest four bits of an eight-bit set.
The memory location is now incremented to 01 and A 1 is loaded into all of the eight-bit sets of
data at address 01, both the even and odd sides. Next, 1C is loaded into all RAM at address 02,
and the cycle repeats. CA is loaded into address 03, A 1 is loaded into address 04, etc., until all
256 RAM locations have been written to. The data stored in the acquisition memory at all addresses is then read back and compared with the data previously loaded in.
The whole process repeats two more times, each time starting the sequence at a different value-A 1 then 1C. When all three load and read cycles are finished, each of the three test values
will have been loaded into each byte at each memory location. See Tables 8-10 for an example of
the values loaded into the acquisition memory.

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Table 8-10a
Values Loaded by ACQ MEM Test 3, First Load
Even Side

Odd Side

Addr

Data

Glitch

Misc.

Data

Glitch

Misc.

00
01
02

CA
A1
1C
-A1

CA
A1
1C

A
1
C

CA
A1
1C

CA
A1
1C

A
1
C

--

FF

--

-

--

--

-

A1

1

A1

A1

1

Table 8-10b
Values Loaded by ACQ MEM Test 3, Second Load
Even Side

Odd Side

Addr

Data

Glitch

Misc.

Data

Glitch

Misc.

00
01
02

A1
1C
CA
-1C

A1
1C
CA
-1C

1
C
A

A1
1C
CA
-1C

A1
1C
CA

1
C
A

-FF

C

--

-

1C

C

Table 8-10c
Values Loaded by ACQ MEM Test 3, Third Load
Even Side

Odd Side

Addr

Data

Glitch

Misc.

Data

Glitch

Misc.

00
01
02

1C
CA
A1

1C
CA
A1

C
A
1

1C
CA
A1

1C
CA
A1

C
A
1

--

FF

--

--

-

--

CA

--

-

CA

A

CA

CA

C

Test 3 is not run in the power-up sequence. If an error is detected during the test, the error results
are shown on the screen and the test stops, unless the diagnostics are in the looping mode. In the
looping mode, if an error is found, the test will continuously read the address where the error is
found until the test is stopped. This action is latched and will continue even if the error disappears.

DAC THRSH (DAC THRESHOLD)
The digital to analog converter threshold (DAC) function tests the DAC that specifies threshold
levels on the data acquisition probe. Most of the circuitry being tested can be seen on schematic
26 in the Diagrams section. All circuit numbers in this test description are assumed to have an
A 13 preface unless otherwise specified.

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This function has no readback capability, so the output of the DAC must be monitored by connecting a digital multimeter between test point TP1 06 (ground) and test point TP201 or TP204 on
the 91A08 (positive). The indications should be 0.00 V, ±0.005V; +1.60V, ±0.021 V;
-1.5875 V, ±0.021 V; and a ramp. The voltage between the two pOints is chosen using the
SELECT key in the special DAC THRESHOLD SET field. This field only appears when this test
has been individually selected and START SYSTEM has been pressed.
The DAC threshold test writes data corresponding to the voltage to be put out. This data is
latched into the DAC U118 (schematic 20). 00 hexadecimal causes a -1.5875 V output. 80
hexadecimal causes a 0.00 V output; and FF hexadecimal causes a + 1.60 V output; ramping is
done by incrementing 00 up to FF with a delay to settle the DAC.
NOTE
The steady voltages in the DAC threshold function can be used to determine the accuracy
and correct operation of the DAC circuitry. The ramp can be used to determine whether all
selectable voltages are available.

91 P 16 !FUNCTIONAL TESTS
PC (PROGRAM COUNTER)
The Program Counter function tests two program counter registers in the 91 P16 for bit
independence. One register is used to address the ~Code memory and the other is used to
address the vector memory. Most of the circuitry being tested can be seen on schematics 33 and
34 in the Diagrams section. All circuit numbers in this test description are assumed to have an
A 14 preface unless otherwise specified.
NOTE
Compare the ACTUAL and EXPECTED values in the program counter function to find a
possible stuck bit or hung clock input. A hung clock line would look like:

o

PC

TEST 0

ADDR EXPECTED ACTUAL
04
01
00

*FAIL*

The ADDR shown is the readback port the Controller checks to see if the test is passed. A
hung bit will be reflected in the ACTUAL value that is read back on the screen. For example,
if bit 5 were stuck high, the screen would read:

o

PC

TEST 0

ADDR EXPECTED ACTUAL
04
01
21

*FAIL*

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Maintenance: Diagnostic Test-DAS 9100 Series Service Vol. II

Test 0
This test starts by loading the DO-D? bus on the 91 P16 with 80 hexadecimal. The data on this
bus is then logged into registers U541 and U445 by toggling the ,."C PC LD(L) line (schematic 33).
This puts an 80 on the EPCO-EPC? bus. The contents of the EPCO-EPC? bus are then loaded
into registers U531 and U535 (schematic 34) by toggling the VCTR PC LD(L) line. The data out of
these registers goes onto the PCO-PC? bus. The PCO-PC? bus is then read back by the
Controller through comparators U321 and U325 (schematic 36).
The data read back by the Controller is compared with the expected data. If the data is good, the
input bit is shifted to the right (40 hexadecimal). The test is run again using 40, then 20, each time
shifting right until 01 is reached. Then the test is stopped.
If the test is in looping mode and a failure is found, the Controller stops the shift right, and
continually loads the registers with the data that caused the failure.

VECTOR RAM
The Vector RAM function verifies the ability of the vector RAMs to hold a 0 and 1 in each location.
The data and address lines of the Vector RAM are also checked. There are two tests in the
Vector RAM function. The two tests are basically identical, so they will be described in detail only
once. The differences between the tests are described under the individual tests. Most of the
circuitry being tested can be seen on schematic 36 in the Diagrams section. All circuit numbers in
this test description are assumed to have an A 14 preface unless otherwise specified.

NOTE
The ADDR data shown in the vector memory function is the address in the memory being
tested, not the readback port. If the VECTOR O(L) line were hung, the screen would look
like:

1 VECTOR RAM TEST 0

AD DR EXPECTED ACTUAL
00
0080
OOXX

*FAIL*

where the XX under ACTUAL indicates random data.
Hung data and address lines can be found by observing the ADDR, EXPECTED, and ACTUAL values on the screen. For example, if address bit 2 were stuck high, the screen would
read:

1 VECTOR RAM TEST 0

ADDR EXPECTED ACTUAL
04
0000
OOFF *FAIL*

Test 0-1
These tests start by setting the PCO-PC? bus to 00 hexadecimal. This is done as discussed in
the previously described Program Counter function. The DO-D? bus on the 91 P16 is then loaded
with 80. The data on the DO-D? bus is loaded into the vector memory being tested at address
00 by toggling either the VCTR O(L) or the VCTR 1(L) lines, depending on the test performed.

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Maintenance: Diagnostic Test-DAS 9100 Series Service Vol. II

The data just loaded into the vector memory should now be output by the memory. The output
latches (U315, U415, U515, and U615, schematic 36) are now loaded with the output of the
vector memory by holding the OUT CNTR LO(L) line low and clocking the OUT CNTR CLK(H) line.
The data logged out of the output latches is read back by the Controller through the read back
circuitry (U310, U410, U510, U610, schematic 36, and U371 , schematic 32). If the data read back
matches the data sent, the test continues.
The data loaded into the vector memory is shifted right to 40 hexadecimal, and the above procedure is repeated. The data is shifted right again, to 20, then again, repeating the test each time
until the test for 01 has been run. This part of the test is now complete and the second part is
started.
If no errors occurred in the above procedure, the test continues by writing 00 hexadecimal data
into each address, 00 through FF, in the vector memory being tested. When this is complete, the
data at address 00 is read back by the Controller through the output latch and the read back
circuitry. If the data read back is 00, an FF is loaded into the vector memory at address 00. The
address then increments to 01 hexadecimal and repeats, increments again, and continues until an
error is found or address FF is loaded.
After address FF has FF written into it, the vector memory being tested is addressed at 00. The
data at address 00 is read back. If the data is FF, the address is incremented and the data at 01
hexadecimal is read back. This continues until address FF has been read back and found to
contain FF. The test then is passed.
Test 0
This test verifies the operation of vector memory byte
VCTR O(L) line loads this memory.

a (U421 , and U425, schematic 36). The

Test 1
This test verifies the operation of vector memory byte 1 (U521 , and U525, schematic 36). The
VECTOR 1(L) line loads this memory.

MICRO RAM
The JLCode RAM function verifies the independence of the data and address lines of the least
significant eight bits of the JLCode memory. The other five bits of the memory are tested later by
the Advance, Goto, Call, and Return functions. The majority of the circuitry tested can be seen on
schematic page 33. All circuit numbers in this test description are assumed to have an A 14
preface unless otherwise specified.

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Maintenance: Diagnostic Test-DAS 9100 Series Service Vol. II

NOTE
The ADDR data shown in the f,lCode RAM function is the address in the memory being
tested, not the readback port. If the f,lCO(L) line is stuck high, the test will fail at the first
address, showing data similar to:
2 MICRO RAM TEST 0

ADDR EXPECTED ACTUAL
00
0080
OOXX *FAIL*

where the XX under ACTUAL stands for random data.
Stuck address or data lines can be found by observing the ADDR, EXPECTED and ACTUAL
values on the screen. For example, if data bit 2 were stuck high the screen would read:
2 MICRO RAM TEST 0

ADDR EXPECTED ACTUAL
00
0080
0084 *FAIL*

Test 0

PART A. This test starts by setting the 00-07 bus to 00 hexadecimal. The f,lC PC LD(L) line is
then toggled to load registers U541 and U445 (schematic 33). This sets the address of the p,Code
memory (U427, U431, U435, and U441) to 00.
The byte 0 of the p,Code memory is now loaded with 80 by putting 80 on the 00-07 bus and
toggling the f,lCO(L) line. 80 should now be the output from byte 0 of the p,Code memory. Byte 1 of
the p,Code memory is now loaded with 08 hexadecimal by putting 08 on the 00-07 bus and
toggling the f,lC1 (L) line. The address of the p,Code memory is left at 00.
The IR CLK(H) line is now toggled so the data from the p,Code memory is loaded into the instruction register. The important lines at this point are CO,C1(H) and the GOTO FIELO(H). CO,C1(H) is
set to 01 binary because of the data loaded into byte 1 of the p,Code memory. This is decoded by
the instruction multiplexer (U337, U335, U331 , and U327, on schematic 34) so the GOTO
FIELO(H) is put on the EPCO-EPC7 bus.
The GOTO FIELO(H) is set to 80, which was the value loaded into byte 0 of the p,Code memory.
So at this pOint, the value loaded originally in to byte 0 of the p,Code memory has passed through
the RAM, the instruction register, and the instruction multiplexer to get to the EPCO-EPC7 bus.
The VCTR PC LO(L) line is now toggled so the EPCO-EPC7 bus is put onto the PCO-PC7 bus
through the program counter buffer (U531 and U535, schematic 34).
The PCO-PC7 bus is then read by the Controller through the readback circuitry (schematic 36). If
the PCO-PC7 bus matches the value originally put into byte 0 of the p,Code memory, the test
continues.
After the first run, the Controller loads 40 into byte 0 of the p,Code memory and performs the
same test. The test is repeated again, shifting the high bit right (20,10, ... ,01) until all eight lines
have been tested. If these test subsections are passed, the test continues on to the next section.

PART B. For the second part of this test, 00 is written into all addresses (00 through FF) of byte 0
of the p,Code memory. This is done in the same way the p,Code memory was loaded in the first
part of the test. 01 is loaded into all addresses (00 through FF) of byte 1 of the p,Code memory.

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The data in byte 0 is then read back by the Controller in the same way the data is read in the first
part of the test (through the instruction register, the instruction mux, and the program counter
buffer on schematic 34). The data at address 00 hexadecimal is read and compared with 00. If the
data matches, that address has FF written into it and the address is incremented. The test
continues until all addresses in byte zero have been read back and over-written with FF.
Finally, the data in byte 0, address 00 is read by the Controller and compared with FF. If the data
matches, the address is incremented and another comparison is made, until all addresses have
been read again and found to contain FF. If the test gets to this point, the test is passed.

ADVANCE
The advance (blank), COUNT, REPEAT, and HOLO instructions all use basically the same circuitry in the 91 P16. Therefore, all these instructions are tested under the Advance function. There is a
separate test for the operation of each instruction. All circuit numbers in this test description are
assumed to have an A14 preface unless otherwise specified.

NOTE
In test 0 only the ADDR value shown in the advance function is the address in the RAM that
failed, not the readback port. All of the other tests give the ADDR value as the readback port
used by the Controller to read test data.

Test 0
This test verifies the operation of the advance instruction. The test starts by loading 00 binary into
bits 03 and 04 of byte 1 of the JLCode memory (U427 and U431 , schematic 33). This data is
loaded into all addresses in the memory (00 through FF). This sets an advance instruction at every
location in the JLCode memory.
00 hexadecimal is now put on the EPCO-EPC7 bus. This is done by putting 00 on the 00-07
bus and toggling the UC PC LO(L} line. This loads registers U541 and U445 (schematic 33) with
00. This 00 controls the EPCO-EPC7 bus. The value on the EPCO-EPC7 bus is input to the
advance generator (U545, U551, U645, and U651, schematic 34). The advance generator adds
one to the value on the EPCO-EPC7 bus and puts it through registers U367 and U471.
The 91 P16 module's clock selector (U617, schematic 35) is now set to pass the SINGLE STEP (L)
line, which then clocks the module. The 91 P16 is clocked once. This clocks the output of the
advance generator into the instruction multiplexer input. The 00 binary on the CO,C1 (H) bus is
decoded by the instruction multiplexer (U337, U335, U331 , and U327, schematic 34) to pass the
PC + 1 value on to the EPCO-EPC7 bus.
The clock single steps again. This puts the value on the EPCO-EPC7 bus onto the PCO-PC7
bus by clocking registers U531 and U535 (schematiC 34). The PCO-PC7 bus is then read by the
Controller through the RVBO-RVB7 bus (schematiC 36).

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When each clock pulse occurs, the value on the EPCO-EPC7 bus is used to address new data
from the tLCode memory. If the advance generator and the instruction multiplexer are working
properly, each time the 91 P16 is clocked during this test, the EPCO-EPC7 bus will increment by
one. The value readback by the Controller should be the value on the EPCO-EPC7 bus minus 1
(due to registers U531 and U535).
The single step clock toggles 257 times. After each clock, the Controller reads the value of the
PCO-PC7 bus. If the value on the PCO-PC7 bus does not increment properly, the test fails.

Test 1
This test verifies the count circuitry. The test starts by writing a COUNT instruction (0010 hexadecimal) to the tLCode memory (U427, U431 , U435, and U441, schematic 33) at address 00. This
consists of setting the address of the tLCode memory to 00 through registers U445 and U541.
Byte 0 of the memory is then loaded with 10 hexadecimal and byte 1 is loaded with 00. This
tLCode data executes a COUNT instruction of the duration specified at address 0 of the clock
control RAM (U 145 and U151, schematic 35).
Address 00 of the vector memory (U421 and U425, schematic 33) now has 00 loaded into byte O.
This is the value that the instruction will count up from.
The clock control RAM (U151 and U145, schematic 35) now has 55 hexadecimal written to
address 000. 55 is the complement of the number of times the COUNT instruction will increment
(170 decimal increments). The 91 P16 module's clock selector (U617, schematic 35) is now set to
pass the SINGLE STEP(L) line, which then clocks the module. The clock is toggled 170 times. The
clock signals should cause the 91 P16 module to execute the programmed instructions. It should
start by outputting 00, then counting up at each clock. When the clocking is done, the Controller
reads the output latches through the read back circuitry (schematic 36). If the Controller reads an
output of AA from byte 0 of the output latches, the test is passed.

Test 2
This test verifies the repeat circuitry. The test starts by writing a REPEAT instruction (0020
hexadecimal) to the tLCode memory (U427, U431 , U435, and U441, schematic 33) at address 00.
This consists of setting the address of the tLCode memory to 00 through registers U541 and
U445. Byte 0 of the memory is then loaded with 20 hexadecimal and byte 1 is loaded with 00. This
tLCode data executes a REPEAT instruction of the duration specified at address 0 of the clock
control RAM.
Address 00 of the vector memory (U421, U425, U521, and U525, schematic 33) now has AA
loaded into byte O. This is the value to be repeated by the REPEAT instruction.
The clock control RAM (U151 and U145, schematic 35) now has 55 hexadecimal written to
address O. 55 is the complement of the number of clock cycles the REPEAT instruction will last
(170 decimal clock cycles).

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Maintenance: Diagnostic Test-DAS 9100 Series Service Vol. II

The 91 P16 module's clock selector (U617, schematic 35) is now set to pass the SINGLE STEP(L)
line, which then clocks the module. The clock is toggled 170 times. The clock signals should
cause the 91 P16 to execute the programmed instructions. It should start by outputting AA, then
repeating this value at each clock. When the clocking is done, the Controller reads the output of
the output latches through the read back circuitry (schematic 36). If the Controller reads an output
of AA from byte 0 of the output latches, the test is passed.

Test 3
This test verifies the hold circuitry. The test starts by writing a HOLD instruction (0040 hexadecimal) to the MCode memory (U427, U431 , U435, and U441, schematic 33) at address 00. This
consists of setting the address of the MCode memory to 00 through registers U541 and U445.
Byte 0 of the memory is then loaded with 40 hexadecimal and byte 1 is loaded with 00. This
MCode data executes a HOLD instruction of the duration specified at address 0 of the clock
control RAM.
Address 00 of the vector memory (U421, U425, U521, and U525, schematic 33) now has AA
loaded into byte O. This is the value to be held by the HOLD instruction.
The clock control RAM (U151 and U145, schematic 35) now has 55 hexadecimal written to
address O. 55 is the complement of the number of clock cycles the HOLD instruction will last (170
decimal clock cycles).
The single step clock is now selected to run the Pattern Generator. The clock is toggled 170
times. While clocking, the 91 P16 should be executing the programmed instructions. It should start
by outputting AA, then holding this value for 170 clocks. When the clocking is done, the Controller
reads the output of the output latches through the read back circuitry (schematic 36). If the Controller reads an output of AA from byte 0 of the output latches, the test is passed.

GOTO
The GOTO function verifies that each location of the MCode memory can hold a GOTO instruction.
Most of the circuitry tested can be seen on schematic 33. All circuit numbers in this test description are assumed to have an A 14 preface unless otherwise specified.

NOTE
The value shown in the ADDR field in the GOTO function is the address in the RAM that
failed, not the readback port used by the Controller.
Test 0
This test starts by loading a GOTO instruction into all addresses (00 through FF) of the MCode
memory (U427, U431, U435, and U441 , schematic 33). This is done by writing 08 into byte 1 in all
addresses. Then byte 0 of the MCode memory is filled with an incrementing hexadecimal pattern
so that address 00 contains 0001, address 01 contains 0002, etc.
Registers U541 and U445 (schematic 33) are now loaded with 00, so the 91 P16 starts its program from address 00 in the MCode memory. The 91 P16 module's clock selector (U617, schematic 35) is now set to pass the SINGLE STEP(L) line, which then clocks the module.

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Maintenance: Diagnostic Test-DAS 9100 Series Service Vol. "

The 91 P16 is now clocked once the Controller reads the value on the PCO-PC? bus through the
read back circuitry (schematic 36). After the first clock it should read 00. If the value read is the
expected one, the single step clock is toggled again. This sequence of clock-then-read continues
until all addresses in the ~Code memory have been tested. Each time the clock line is toggled, the
value read by the Controller on the PCO-PC? bus should increment by one. If this pattern
follows through from addresses 00 through FF, the test is passed.

CALL
The Call function verifies the circuitry used by a CALL instruction, and tests every location in the
~Code memory for its ability to hold a CALL instruction. Most of the circuitry tested can be seen
on schematics 33 and 34. All circuit numbers in this test description are assumed to have an A 14
preface unless otherwise specified.

NOTE
The ADDR field shown in the call function contains the address in the RAM where the failure
occurred, not the readback port used by the controller.

Test 0
This test starts by loading byte 1 of the ~Code memory (U42?, U431, U435, and U441, schematic
33) with CALL instructions (10 hexadecimal) at all addresses. Then byte 0 of the ~Code is loaded
with an incrementing pattern with address 00 holding 01, address 01 holding 02, address 02
holding 03, etc.
Registers U541 and U445 are now loaded with 00, so the 91 P16 starts its program from ~Code
address 00. The 91 P16 module's clock selector (U61?, schematic 35) is now set to pass the
SINGLE STEP(L) line, which then clocks the module.
The 91 P16 is clocked once. This should log the value on the EPCO-EPC? bus (00 hexadecimal)
onto the PCO-PC? bus, which can be read by the Controller. That clock pulse also activates the
CALL instruction that was stored in ~Code memory at address 00. That instruction CALLed
address 01, so the EPCO-EPC? bus should change to address 01.
The Controller now reads the data on the PCO-PC? bus. It should contain 00 at this pOint, and
increment each time the 91 P16 gets clocked. If the Controller does read 00, the 91 P16 gets
clocked again. After each clock the Controller reads the PCO-PC? bus again and expects to find
the value it read just previously, incremented by one.
This continues until the Controller has clocked the 91 P16 256 times. The value read now should
be FF. If so, the test is passed.

RETURN
The Return function verifies that the return circuitry works and that each location in ~Code
memory is capable of holding a RETURN instruction. Most of the circuitry tested can be seen on
schematics 33 and 34. All circuit numbers in this test description are assumed to have an A14
preface unless otherwise specified.

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Maintenance: Diagnostic Test-DAS 9100 Series Service Vol. II

NOTE
The ADDR value shown in the return function indicates the address in the RAM that failed,
should a failure occur. If a WE(L) line to memory fails, the test will fail at address 01 (byte 0
of the j.lCode RAM).

Test 0
The test starts by loading a CALL instruction into }lCode memory (U42?, U431, U435, and U441,
schematic 33) address 00. This is done by loading 10 hexadecimal into byte 1 of the memory, and
01 into byte O. The rest of the }lCode memory is filled with RETURN instructions. This means
filling byte 1 at addresses 01 through FF with 18 hexadecimal.
Registers U541 and U445 (schematic 33) are now loaded with 00 so the 91 P16 starts its program
from location 00 in the }lCode memory. The 91 P16 module's clock selector (U16?, schematic 35)
is now set to pass the SINGLE STEP(L) line, which then clocks the module twice. The first clock
should load 00 into the PCO-PC? bus and cause the }lCode memory to CALL address 01. The
second clocking should make the }lCode memory RETURN to address 00, and load 01 into the
PCO-PC? bus. The Controller now reads the PCO-PC? bus through the readback circuitry
(schematic 36). If it reads 01, the test continues by loading address 00 of byte 0 of the }lCode
memory with 02. This will cause the CALL instruction to CALL address 02. The 91 P16 is again
clocked twice, and the PCO-PC? bus is read back. If the Controller reads 02 it loads address 00
of byte 0 of the }lCode memory with 03 and clocks the 91 P16 twice.
This sequence continues until all addresses in the }lCode memory except 00 (i.e., addresses 01
through FF) have been CALLed and RETURNed from. If this is completed without incident, the
test is passed.

STACK RAM
The Stack RAM function verifies that all locations in the call stack (U251 and U351, schematic 34)
can be loaded and read back. The call stack consists of a memory address counter and two 4x16
bit RAMs. Most of the circuitry tested can be seen on schematics 33 and 34. All circuit numbers in
this test description are assumed to have an A 14 preface unless otherwise specified.

NOTE
The ADDR value shown in the Stack RAM function represents the stack address that was in
use when the failure was detected. If no error occurs, then the ADDR field should read 04,
which is the last address read in the call stack.

Test 0
This test starts by loading the following instructions into locations 0 through 31 in the }lCode
memory (U42?, U431, U435, and U441, schematic 33):

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Maintenance: Diagnostic Test-DAS 9100 Series Service Vol. II

Sequence #
0
1
2
3
4
5
6-2?
28
29
30
31

Instruction
CALL 2
RETURN
CALL 4
RETURN
CALL 6
RETURN
(Repeat the pattern)
CALL 30
RETURN
ADVANCE
RETURN

JLCode Data
1003
18XX
1004
18XX
1007
18XX
101 F
18XX
0008
18XX

Registers U541 and U445, schematic 33, are then loaded with 00 hexadecimal. This finalizes the
setup of the 91 P16. The 91 P16 is now ready to run the loaded instructions starting at sequence O.
The 91 P16 module's clock selector (U61?, schematic 35) is now set to pass the SINGLE STEP(L)
line, which then clocks the module The 91 P16 is then single stepped 16 times. This should load
the call stack (U251 and U351, schematic 43) with data equal to 2 through 30 (decimal) incremented by 2 (2,4,6, ... ,28,30), so all 16 addresses in the call stack are used.
The single step clock is toggled once more. This causes the advance instruction at sequence 30
to be executed. The 91 P16 is now ready to execute the RETURN instruction at sequence 31. The
PCO-PC? bus on the 91 P16 is now read by the Controller. The Controller expects to read 1F
hexadecimal.
If The Controller finds the expected data, the 91 P16 is clocked again. This causes the RETURN
at sequence 31 to be executed. The Pattern Generator program should now RETURN to sequence 29. The Controller reads the PCO-PC? bus again, expecting to find 1D hexadecimal (29
decimal). If the Controller reads the expected value, the Pattern Generator is clocked again, so
the RETURN at sequence 29 is executed. This pattern continues until all RETURN instructions in
the Pattern Generator program have been executed (from sequence 31 through 3).
The test is passed if all of the RETURN instructions are executed correctly. Since there are
sixteen RETURN instructions, all addresses in the call stack are loaded and read by this test.

CLOCK
The Clock function tests the clock select circuitry of the 91 P16. Most of the circuitry tested can be
seen on schematic 35. All circuit numbers in this test description are assumed to have an A 14
preface unless otherwise specified.

NOTE
The ADDR value shown in the clock function is always 00, because that is the only address
used in the ,uCode memory. The EXPECTED and ACTUAL values should indicate trends to
the troubleshooter, should the test FAIL.

8-52

REV NOV 1983

Maintenance: Diagnostic Test-DAS 9100 Series Service Vol. II

Test 0
The 91 P16 module's clock selector (schematic 35) is programmed to select the 91 AOa INTL
CLK(L) signal. The 91 AOa internal clock on the Trigger/Time Base is then programmed to single
step.
Reception of the 91 AOa internal clock selector is verified by programming the 91 P16 to a COUNT
instruction, and seeing if the 91 AOa internal clock causes the pattern generator output to count up
to the proper quantity. The J.iCode memory (U427, U431, U435, and 441, schematic 33) has a
COUNT instruction loaded into address 00 (10 hexadecimal is loaded into the low order byte, 00
hexadecimal is loaded into the high order byte). Byte 0 of the vector memory (U421 and U425,
schematic 36) now has 00 written into address 00. This is the value that the COUNT instruction
increments from.
The clock control RAM (U 145 and U151, schematic 35) has 55 hexadecimal loaded into address
O. 55 hexadecimal is the complement of the number of times the 91 P16 will increment (AA
hexadecimal is the actual number of counts).
The test is now ready to run. The Controller single steps the 91 ADa internal clock on the Trigger/
Time Base 170 times (AA hexadecimal). When the single stepping is finished, the 91 P16 should
output AA from its B Connector in the rear of the DAS. When the Controller is done single
stepping, it reads the RVBO-RVB7 bus (schematic 36) to see if output vector byte 0 is AA. If the
Controller reads AA from this output, then the test is passed.
Test 1
The 91 P16 module's clock selector (U617, schematic 35) is programmed to select the 91 A32
INTL CLK(L) signal. The 91 A32 internal clock on the Trigger/Time Base is then programmed to
single-step.
Reception of the 91 A32 internal clock is verified by programming the 91 P16 to a COUNT instruction, and seeing if the 91 A32 internal clock causes the pattern generator output to count to the
proper quantity. The J.iCode memory (U427, U431, U435, and U441, schematic 33) has a COUNT
instruction loaded into address 00 (10 hexadecimal is loaded into the low order byte, 00 is loaded
into the high order byte). The byte 0 of the vector memory (U421 , and U425, schematic 36) now
has 00 written into address 00. This is the value that the COUNT instruction counts up from.
The clock control RAM (U145 and U151, schematic 35) has 55 hexadecimal loaded into address
00. 55 hexadecimal is the complement of the number of times the 91 P16 will increment (AA
hexadecimal is the actual number of counts).
The test is now ready to run. The Controller single-steps the 91 A32 internal clock on the Trigger/
Time Base 170 times (AA hexadecimal). When the single-stepping is finished, the 91 P16 should
output AA from its B Connector in the rear of the DAS. When the Controller is done singlestepping, it reads the RVBO-RVB7 bus (schematic 36) to see if output vector byte 0 is AA.
The Controller reads AA from this output, the test is passed.

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Maintenance: Diagnostic Test-DAS 9100 Series Service Vol. II

91 P32 FUNCTIONAL TESTS
VECTOR RAM
The Vector RAM function verifies the ability of the vector RAMs to hold a 0 and 1 in each location.
Data and address line independence of the vector RAMs is also checked. Most of the circuitry
being tested can be seen on schematics 38 and 39 in the Diagrams section. All circuit numbers in
this test description are assumed to have an A 17 preface unless otherwise specified.

NOTE
The ADDR data shown in the vector memory function is the address in the memory being
tested, not the readback port. If the VECTOR 2(L) line were hung, the screen would look
like:
VECTOR RAM TEST 0

ADDR EXPECTED ACTUAL
00 00000080 OOOOOOXX

*FAIL*

where the XX under ACTUAL stands for random data.
Hung data and address lines can be found by observing the ADDR, EXPECTED, and
ACTUAL values on the screen. For example, if address bit 2 were stuck high, the screen
would read:

o VECTOR RAM TEST 0

ADDR EXPECTED ACTUAL
04 00000000 OOOOOOFF

*FAIL*

There are four tests in the Vector RAM function. These tests are basically identical, so they will be
described in detail only once. The differences between the tests are described under the individual
tests.

Test 0-3
These tests start by setting the PC bus (PCO-PC7) of the 91 P16 (A 14) to 00 hexadecimal. The
PC bus on the 91 P16 addresses the vector RAM on the 91 P32 module. The DO-D7 bus on the
91 P32 module is then loaded with 01. The data on the DO-D7 bus is loaded into the vector RAM
being tested at address 00 by toggling the VCTR 2(L), VCTR 3(L) VCTR 4(L) or the VCTR 5(L)
line. (For specific schematic references please refer to the individual test, below.)
The data just loaded into the vector RAM should now be output by the memory. The output
latches (U115, U315, U318, U415, U515, and U615, schematics 38 and 39) are now loaded with
the output of the vector RAM. The data logged out of the output latches is read back by the
Controller through the read back circuitry (many comparators and U635, on schematics 38 and
39). If the data read back matches the data sent, the test continues.
The data loaded into the vector RAM at address 00 hexadecimal is shifted left to 02 hexadecimal,
and the above procedure is repeated. The data is shifted left again, to 04, then again, repeating
the test each time until the test for 80 has been run. This part of the test is now complete and the
second part is started.

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Maintenance: Diagnostic Test-DAS 9100 Series Service Vol. II

If no errors occurred in the above procedure, the test continues by writing 00 hexadecimal data
into each address, 00 through FF hex, in the vector RAM being tested. When this is complete, the
data at address 00 is read back by the Controller through the output latch and the readback
circuitry. If the readback data is 00 hexadecimal, an FF is loaded into the vector memory being
tested at address 00 hexadecimal. The address then increments to 01 and repeats, increments
again, and continues until an error is found or address FF is written into.
After address FF has FF written into it, the Vector Memory being tested is addressed at 00. The
data at address 00 is readback. If the data is FF, the address is incremented and readback. This
continues until address FF has been read back and found to contain FF. The test then is passed.

Test 0
This test verifies the operation of vector memory byte 2 (U 125, and U 131, schematic 38). The
VCTR 2(L) line loads this memory.

Test 1
This test verifies the operation of Vector Memory byte 3 (U325, and U331, schematic 38). The
VCTR 3(L) line loads this memory.

Test 2
This test verifies the operation of Vector Memory byte 4 (U425, and U431, schematic 39). The
VCTR 4(L) line loads this memory.

Test 3
This test verifies the operation of Vector Memory byte 5 (U525, and U531, schematic 39). The
VCTR 5(L) line loads this memory.

8-55

REFERENCE
INFORMATION

9

GENERAL INFORMATION .................................................. 9-1
Self-diagnostics in Looping Mode ........................................... 9-1
Troubleshooting the Controller Board Kernel .................................. 9-1
DAS Character Set ...................................................... 9-1
Memory Map ........................................................... 9-3
Loading the 91 AOS Acquisition Memory ...... : ............................... 9-3
Reading the 91 AOS Acquisition Memory ..................................... 9-4
MAIN EXTENDER BOARD .................................................. 9-4
Signal Test Points and Jumpers .................... : ....................... 9-4
Power Indicator Lights ................................................... 9-5
High-speed Bus Buffers .................................................. 9-5
MAIN POWER SUPPLY EXTENDER BOARD .................................... 9-5
ERROR CODES AND INDICATORS ........................................... 9-7
Error and Prompter Messages ............................................. 9-7
Power-up Indicator Lights ................................................. 9-14
ROM Checksum Codes .................................................. 9-15
TEST POINT, JUMPER, AND ADJUSTMENT LOCATIONS ......................... 9-16
DAS9109 (Monochrome) Interconnect Board (A 1) .............................. 9-19
DAS9129 (Color) Interconnect Board (A31) ................................... 9-20
Main Power Supply Board (A2) ............................................ 9-21
+5 V Power Supply Module (A3) ........................................... 9-22
Motorola Display Monitor (A4) ............................................. 9-22
DAS 9129 Color Display Monitor (A30) ...................................... 9-24
Controller Board (A6) .................................................... 9-27
Trigger/Time Base Board (A 10) ............................................ 9-2S
91 A32 Data Acquisition Module (A 12) ....................................... 9-30
91 A08 Data Acquisition Module (A 13) ....................................... 9-32
91 P16 Pattern Generator Module (A 14) ...................................... 9-35
91 P32 Pattern Generator Expander Module (A 17) ............................. 9-36
Option 01, Tape Drive (A 18) ............................................... 9-37
Option 02, I/O Interface (A 19) .............................................. 9-40
ONLINE DEBUGGING TOOL (ODT) INFORMATION .............................. 9-41
Initiating ODT .......................................................... 9-41
ODT Commands ........................................................ 9-42

I/O MAPS

............................................................... 9-43

SIGNAL GLOSSARY ....................................................... 9-65

Section 9-DAS 9100 Series Service Vol. II

REFERENCE INFORMATION

GENERAL INFORMATION
SELF-DIAGNOSTICS IN LOOPING MODE
Whenever the DAS self-diagnostics are in looping mode, TP191 on the Trigger/Time Base (slot 7)
toggles at the end of each execution of any diagnostic test. Use this test pOint to trigger
oscilloscopes or logic analyzers.

TROUBLESHOOTING THE CONTROLLER BOARD KERNEL
The suggested method for exercising the kernel of the DAS Controller board is forcing the
microprocessor to execute NOP instructions. The NOP command for a Z80 is 00 hexadecimal.
The easiest method for forcing the NOP instruction is to remove A6U555 (the data bus buffer)
from the Controller board. Replace the buffer with a 1 kr! single-in-line resistor pack, installing pin
1 of the resistor pack in pin 10 of the socket that held the buffer.
A 1 kr! resistor pack is included in the DAS 9100 Series Service Maintenance kit. The resistor
pack is stored in one of the spare sockets in the lower right corner of the main extender board.

DAS CHARACTER SET
The DAS uses a modified version of the standard ASCII character set (see Table 9-1). This set is
only used to generate characters for the display monitor. If the DAS online debugging tool (ODT)
is used to load characters for display into the DAS system RAM, then DAS character set codes
should be loaded. There is no correspondence between DAS keyboard codes and the DAS
character set.

9-1

Reference Information-DAS 9100 Series Service Vol. II

Table 9-1
DAS Character Set

20
_
21 ! m22 " ;C J
23 # # 1
24 $ I
25 % 1 I
26 & a:
27
I I
28 ( (l
29) ) r
2A * II
2B ++D
2C
20 - -.
2E. .•
2F I
I

I

9-2

*
I'
.I.

30 0 0 _
31 1 1 32 2 2 J
33 3 3 1
34 4 4
35 5 5.
36 6 5
37 7 7.
38 8 81.
39 9 :3 r
3A: : U
3B ; ,u II
3C <  ) •
3F? '?

40 @n _
41 A AJ
42 B BJ
43 C CJ
44 0 D_
45 E EJ
46 F F.
47 G GJ
48 H H1
49 I I 4A J J 1
4B K K 1
4C L L 40 MM1
4E N N4F 0 0 1

50 P P 1
51 Q Q
52 R R U
53 S S I
54 TTl
55 U U•
56 V l) I
57 WW•
58 X X 1
59 Y ~(I r
5A Z Z I
5B [ I
5C \ I 1
50] I.
5E 1\ to, 1
5F - _ •

r

n

Reference Information-CAS 9100 Series Service Vol. II

MEMORY MAP
Table 9-2 gives the locations of various elements of the DAS memory system. This table may be
used in combination with the DAS online debugging tool (ODT) for troubleshooting DAS firmware
and kernel problems.
Table 9-2
DAS Memory Map

FFFF
Patch ROM
EOOO
Personality ROM for modules
COOO
AOOO
8000
6000
4000

32K RAM

Runtime ROM
2000
Interp ROM
0000

lOADING THE 91A08 ACQUISITION MEMORY
This is the sequence used by the DAS firmware to load the 91A08 acquisition memory. This
information may be useful when troubleshooting acquisition memory problems.
1. Load the first address to be written to into the MAR (memory address register) (address 3
hex).
2. Load the qualifier and memory control register (address C hex) with CO hex.
3. Load the qualifier and memory control register (address C hex) with EO hex.
4. Load the qualifier and memory control register (address C hex) with 60 hex.
5. Write the desired data to the memory load line (address 4 hex). Data will be loaded in the
following sequence:
Even side data
Even side glitches
Even side miscellaneous data
Data ignored
Odd side data
Odd side glitches
Odd side miscellaneous data
Data ignored
Even side data at previous address

+1

After the memory has been loaded, write 00 to the qualifier and memory control register (address
C hex).

9-3

Reference Information-CAS 9100 Series Service Vol. II

READING THE 91A08 ACQUISITION MEMORY
This is the sequence used by the DAS firmware to read the 91A08 acquisition memory. This
information may be useful when troubleshooting acquisition memory problems.
1. Load the qualifier and memory control register (address C hex) with 80 hex.
2. Load the first address to be read back into the MAR (address 3 hex).
3. Load the qualifier and memory control register (address C hex) with CO hex.
4. Read the desired data from the memory read line (address 4 hex). Data will be read in the
following sequence:
Even side data
Even side glitches
Even side miscellaneous data
Data ignored
Odd side data
Odd side glitches
Odd side miscellaneous data
Data ignored
Even side data at previous address

+1

5. After the memory has been read, write 00 to the qualifier and memory control register
(address C hex).

MAIN EXTENDER BOARD
Use the main extender (in the DAS 9100 Series Service Maintenance Kit) when troubleshooting
any DAS instrument module. The extender board elevates the module to be tested out of the
mainframe so test pOints and components are accessible.

SIGNAL TEST POINTS AND JUMPERS
Each instrument module has an A side and a B side. The B side of a module holds all of the
components on the board, while the A side is the solder side. The main extender board also has
an A side and a B side. Each side is labeled at the top and bottom of the board. The extender
pulls A-side signals through to the B side, so all signals on the board are accessable in the same
area. Each signal is passed though a two-pin terminal connector and a test pOint, then A-side
signals are routed back to the A side of the board. Signals can be prevented from leaving or
entering the module being tested by removing the appropriate terminal connector. The signal lines
are numbered beneath the row of A-side terminal connectors.
Figure 9-1 shows the rows of A-side and B-side terminal connectors and test pOints. Note the four
ground connections.

9-4

Reference Information-DAS 9100 Series Service Vol. II

Test points and
terminal connectors

1m B-,id'

Connectors for
attaching instrument

'i9~ mOl,-ul_es_"_ _ _-._'---_ _ _ _ _ _ _- ,

0000000000000

OOOOOOOJ1-B SIDE

HBiiiiiiiiiiisiiiiiiiijiii
.-----_--'lmmnmmUllllllm

°

GND GNOD

0000000000000000000000 J0"-B SIDE

niiiiiaiiiiiiiiiiiiii.i.ii

GND

+6V -5V +5V -12V '12V
O

0

°

00 0

.;'

0

0

0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 00 0 0 0 0 0 0

00000040000000000000000000

ommnammmamllDRI

°

3836-176

Figure 9-1. Main extender A-side and B-side terminal connectors and test points.

POWER INDICATOR LIGHTS
Five red LEOs in the upper right corner of the main extender board indicate the presence of +6 V,
-5 V, +5 V, -12 V, and +12 V (left to right).

HIGH-SPEED BUS BUFFERS
High-speed instrument modules can operate while connected to the main extender board. Buffers
located on the lower left side of the extender help isolate the extender "stub" from the high speed
bus. The termination of signals is changed, but not the signals themselves.
When troubleshooting modules in mainframe bus slots 1 through 6, activate the buffers by placing
the ten terminal connectors (located on the lower left side of the extender board) over the upper
two pins. When troubleshooting the Controller Trigger/Time Base modules (slots 0 and 7) place
the terminal connectors on the lower two pins.

MAIN POWER SUPPLY EXTENDER BOARD

I

WARNING

I

Hazardous voltages are exposed during troubleshooting procedures using the main
power supply extender board. Use extreme caution.

9-5

Reference Information-DAS 9100 Series Service Vol. II

Use the main power supply extender (in the DAS 9100 Series Service Maintenance Kit) when
troubleshooting the DAS Main Power Supply. The extender board elevates the board out of the
mainframe so test pOints and components are accessible. Figure 9-2 illustrates the proper connection of the extender and supply.

NOTE
For detailed instructions for removing the Main Power Supply, refer to the disassembly
procedures in the Maintenance: General Information section of this manual.

Figure 9-2. Connecting the Main Power Supply to the extender board.

9-6

Reference Information-DAS 9100 Series Service Vol. II

The Main Power Supply is held in place in the mainframe by three screws located underneath the
left side panel of the mainframe. This side panel (on the same side as the display monitor) must be
removed from the mainfame to access these three screws.
The series pass sections of the Main Power Supply have transistors mounted on a heat sink near
the rear fan. These transistors are attached to the supply by cables. Remove the two connectors
that attach these cables to the board. It should now be possible to remove the supply entirely
from the mainframe.
Insert the extender board in the mainframe in the same position the Main Power Supply occupied.

~
Make sure the connectors at the bottom of the extender mate properly with the pins
protruding from the mainframe. If the extender is connected to either side of the proper
position (i.e., one or more pins are not connected), the Main Power Supply may be
damaged when the instrument is powered-up.
The series pass transistors must now be connected to the extender board. There are two rows of
pins on the upper right side of the extender board. Use the lower set of pins to connect the series
pass transistors to the extender in the same way they were connected to the Main Power Supply.

Attach the Main Power Supply to the top of the extender. Verify that the connectors and pins
mate properly. Using the cables found in the DAS 9100 Series Service Maintenance Kit, connect
the pins on the Main Power Supply that were attached to the series pass transistors to the pins
on the extender immediately above the transistor connectors.

~
Do not twist the cables used to connect the Main Power Supply to the extender.
Twisting the cables may destroy the transistors or other components of the power
supply.
The extender and supply combination should now look identical to Figure 9-2. The DAS may now
be powered-up for troubleshooting.

ERROR CODES AND INDICATORS
ERROR AND PROMPTER MESSAGES
Table 9-3 lists the error and prompter messages that may appear on the monitor screen. The
messages are listed in alphabetical order.

9-7

Reference Information-DAS 9100 Series Service Vol. II

Table 9-3
Error and Prompter Messages
256 VALUES EXCEEDED

The total number of allowable mnemonic values is 256.

ACQUISITION AND PATTERN
GENERATOR STARTED

This message is displayed when data acquisition and pattern
generation are started simultaneously via the START
SYSTEM key.

ACQUISITION STARTED

This message is displayed whenever data acquisition is
started.

ADD LINE WOULD ELIMINATE
SEQ 255

If SEQ 255 of the Define Mnemonics table has an assigned
value, an ADD LINE cannot be executed until a DEL (delete)
LINE occurs.

ASSIGN AT LEAST ONE CLK1

When using the 91 A32's EXT SPLIT clocks, at least one
CLK1 must be assigned. This clock serves as the master
clock.

CANNOT EXIT WITH
DUPLICATE CHANNELS

All duplicate channel assignments must be eliminated before
you can exit the Channel Specifications menu.

COMMUNICATION ERROR,
PRESS STOP TO EXIT

The carrier detect (CD) signal has been lost in the
master/slave RS-232 transmission.

COMPARE UNTIL = STARTED

This message is displayed when the COMPARE
pressed.

COMPARE UNTIL

9-8

"* STARTED

This message
pressed.

i~

displayed when the COMPARE

=

key is

"*

key is

CONFIGURATION ERROR

When you restore a tape file that uses data acquisition
modules, the modules must be in the same bus slots used
when the file was saved. This message is displayed if modules
have been removed or repositioned.

DECREASE COMPARE LIMITS

This message is displayed when the value of the STOP SEQ
field is greater than the largest acquisition memory SEQ
number.

DELAY PLUS WIDTH CANNOT
EXCEED 40.920 ~S

When programming strobes in the Pattern Generator menu,
the total of the values in the DELAY and WIDTH fields cannot
exceed 40.920 ~s.

DIRECTORY FULL

The DC100 tape cartridge directory is full and no more files
may be saved on that tape. A maximum of 48 files can be
stored on a tape.

Reference Information-DAS 9100 Series Service Vol. II

Table 9-3 (cant)
Error and Prompter Messages
DUPLICATE LABEL AT

SEa xx
DUPLICATE VALUE

The same label value cannot be assigned to more than one
sequence line in the Pattern Generator menu.
If a value is assigned to more than one sequence line in the
Define Mnemonics table, only the first entered value will be
used during disassembly.

ENTER A LARGER VALUE
ENTER A SMALLER VALUE
ENTER A VALUE BETWEEN
1 AND 32767

These prompter messages appear when you try to enter an
invalid numeric value into a field.

ENTER IN BINARY
ENTER IN HEX
ENTER IN OCTAL
ENTER VALUE FIRST

A value must be entered before a mnemonic can be assigned.

FAST MODULE DELAY
CANNOT BE > 500

When you are using the ARMS mode in the Trigger
Specification menu, the 91 AOa trigger must be positioned
within acquisition memory.

FILE ALREADY EXISTS

The 10 Menu will not save a file if a file of the same name
already exists on the tape.

FILE NOT FOUND

This message appears if you attempt to access a file not
stored on the inserted tape cartridge.

FIRMWARE ERROR (XX)

This message indicates a system failure. Refer the instrument
to qualified service personnel.

FIRMWARE ERROR (XX)
AT (XX)

When you are restoring a tape file, the firmware version in the
DAS mainframe must match the firmware version present
when the file was made.

GROUP CANNOT HAVE
A TABLE

To be defined with mnemonics, a channel group must be
assigned at least one and no more than 32 channels.

INCREASE COMPARE LIMITS

The value of the STOP SEQ field must be greater than the
value of the START SEQ field.

INVALID CHANNEL NUMBER

In the Channel Specification menu, a valid channel number is
indicated by the values 0-7. Any other character is invalid.

9-9

Reference Information-DAS 9100 Series Service Vol. II

Table 9-3 (cant)
Error and Prompter Messages

9-10

INVALID CLOCK
COMBINATION
-START NOT PERFORMED

The 91 A32 and 91 ADa modules and the pattern generator
modules share two internal clocks. This message is displayed
when more than two internal clock rates are specified.

INVALID POD COMBINATION

Only pods from the same types of data acquisition modules
can be combined in the same channel group. 91 A32 pods
cannot be combined with 91AOa pods.

INVALID POD ID

The POD ID (bus slot number, pod connector letter) entered
does not match the actual mainframe configuration.

10 BOARD NOT PRESENT

The RS-232 sub-menu of the Input Output menu was entered
but the I/O interface (Option 02) is not installed in the
mainframe.

LINK ESTABLISHED

The RS-232 master/slave link between two DAS mainframes
has been established (i.e., a message has been sent from the
master to the slave and back again).

LOADING STROBES

It can take up to 30 seconds to load the strobes programmed
in the Pattern Generator menu. This message is displayed
during the process.

NO TAPE IN DRIVE

The tape drive sub-menu of the Input Output menu was
entered but there is no DC1 00 tape cartridge in the tape drive.

NOT A DAS TAPE

The inserted tape is not formatted for use with the DAS. The
tape must be bulk-erased and then formatted.

NOT ENOUGH BLOCKS
TO STORE FILE

Not enough contiguous empty blocks remain on the DC100
tape cartridge for the file to be stored on the tape.

PARTIAL RESTORE
IN PROGRESS

If you are restoring an ALL-type file and the data acquisition
modules do not match the tape configuration, the tape file only
restores the mnemonic and pattern generator setups.

PATTERN GENERATOR
STARTED

This message is displayed whenever the pattern generator is
started.

PATTERN GENERATOR
STOPPED

This message is displayed when the pattern generator is
stopped by any other means than a HALT instruction.

PICK UP THE PHONE

When two DAS mainframes are linked as master/slave in an
RS-232 transmission, you may press SHIFT/INPUT OUTPUT
to send this message to the other DAS mainframe.

Reference Information-CAS 9100 Series Service Vol. II

Table 9-3 (cont)
Error and Prompter Messages
TAPE DRIVE FAILURE

The tape drive has failed to power up correctly. No tape
operation will be possible. Power the DAS down then back up
again. If the failure still occurs, contact qualified service
personnel.

TAPE DRIVE NOT PRESENT

You enter the tape drive sub-menu of the Input Output menu
and no tape drive (Option 01) is installed.

TAPE ERROR (XXX)

The number following the message indicates which tape drive
error(s) have occurred. A combination of errors would cause
the following numbers to be ANDed then displayed in
hexadecimal.

010

Gap Detect-A gap in the data on the tape was detected in an
unusual place. Gaps are normally found at the end of a data
record.

020

The tape cartridge was removed during a tape operation.

040

Hole Detect-A hole was detected on the tape when the drive
was not expecting one. Holes normally occur at the beginning
and end of tapes and denote to the driver that the end of
useable tape has been reached.

080

Servo Motor Control Error.

100

Checksum Error-This error indicates that the record header
has the wrong checksum.

200

Record Number Check Error-This error indicates that the
record number did not read correctly and was not readable for
33 attempts.

TAPE OPERATION HAS
MODIFIED THE MODULE
CONFIGURATION

A file has been restored from tape that uses less modules than
those installed in the mainframe. The extra modules cannot be
accessed until another file is restored which uses them or the
DAS is powered down then up again.

TAPE OPERATION
IN PROGRESS

The selected tape operation is being executed.

TAPE UNFORMATTED,
PLEASE FORMAT IT

The inserted tape is not formatted and must be formatted for
use with the DAS.

TAPE WRITE PROTECTED

The tape's RECORD switch has been set for write protect.
The tape can be read but no files can be saved or deleted.

9-11

Reference Information-CAS 9100 Series Service Vol. II

Table 9-3 (cont)
Error and Prompter Messages
TOO MANY DUPLICATE
CHANNELS

Some duplicate channels are allowed while setting up the
Channel Specification menu. This message is displayed when
more than 120 channels have been assigned.

TOO MANY LABELS

The maximum number of label values allowed in the Pattern
Generator menu is 32.

TOO MANY MODULES-104
ACQ, 80 PG CHANNELS MAX

The maximum number of acquisition channels is 104, and the
maximum of pattern generator channels is 80. Power down
the DAS. No operations are allowed until this condition is
remedied.

TRIGGER MODES
DON'T MATCH

This message is displayed when you try to perform a
COMPARE = or COMPARE
against a reference memory
that was acquired using a different trigger mode.

TRIGGER NOT IN MEMORY

The trigger word is not in acquisition memory because a long
delay was used or the STOP key was pressed.

TRYING TO LINK

This message is displayed while the RS-232 master/slave
handshake is being established.

UNDEFINED LABEL

This message is displayed in the Pattern Generator menu
when you try to exit the menu while an undefined CALL or
GOTO label exists.

USE 0, 1 OR DON'T CARE

These prompting messages list the valid entries for certain
fields.

"*

PLEASE USE THE DATA
ENTRY KEYS
PLEASE USE INCR OR DECR

These messages appear when you use the wrong key when
trying to select a field value. The messages list the valid keys.

PLEASE USE THE
SELECT KEY

9-12

POD (XX) CONNECTED

A probe was connected to the specified pod connector on the
back panel.

POD (XX) DISCONNECTED

A probe was disconnected from the specified pod connector
on the back panel.

PODS DISPLAYED HAVE NO
ACQUIRED DATA

The channel traces displayed on the Timing Diagram menu
were not used to acquire data. You must enter the appropriate
channels (those that acquired data during the last acquisition)
into the POD and CH fields.

Reference Information-CAS 9100 Series Service Vol. II

Table 9-3 (cont)
Error and Prompter Messages
(XXX) RESTARTS

This message is displayed on the right side of the display while
a comparison is running. After the comparison condition is
met or the STOP key is pressed, the message moves to the
left side of the display. The value preceding the message
indicates how many times new data has been acquired.
If the comparison condition is not met and the system is not
stopped, the RESTARTS counter will count to 65,535. At that
point, restarts will continue but the number will not increase.

RESTORE IN PROGRESS(XXXX)

This message has several variations depending on whether all
DAS menu setups or an individual setup is being restored from
the GPIB.

RAM ERROR

The lower 16K of RAM did not pass the RAM test at powerup. The DAS is inoperable. Contact qualified service
personnel.

REFERENCE MEMORY EMPTY

Comparison functions are inoperable if no data is stored in
reference memory.

REMOVE FIRST INSTRUCTION
OF INTERRUPT ROUTINE

In the Pattern Generator menu, the first line of the CALLed
interrupt routine cannot have an instruction.

ROM ADDRESS ERROR

At system power-up, the Trigger, Channel, or Start ROMs
cannot be addressed or are missing. The DAS is inoperable.
Contact quailfied service personnel.

ROM CHECKSUM ERROR

This power-up error message indicates a faulty module. Refer
the module to qualified service personnel. If the module is not
critical, limited operations may continue.

SAVE IN PROGRESS(XXXXX)

This message has several variations depending on whether all
DAS menu setups or an individual setup is being saved on
tape.

SEARCHING

The DAS is searching for a specific data word in the State
Table or Timing Diagram menu.

SLOW ACQUISITION

The external clock being used for the acquisition is slower
than 500 ms. Qualifiers may also cause this to happen.

SOFT ERRORS: (XXX)

The tape drive keeps track of the number of retries to perform
the current tape operation. Soft errors indicate that the tape
cartridge may be dirty, the tape is worn, or the tape head
needs to be cleaned. The requested operation has been
peformed without any loss of data.

9-13

Reference Information-CAS 9100 Series Service Vol. II

Table 9-3 (cont)
Error and Prompter Messages
STOPPED

Data acquisition and/or pattern generator operation has been
stopped via the STOP key.

USE ADD/DEL ONLY IN
POD FIELD

The ADD LINE and DEL LINE keys may only be used in the
POD field of the Channel Specification menu.

USE DON'T CARE

This message is displayed when the only valid entry for a field
is don't care.

USE SELECT, INCR, OR DECR

Use the SELECT, INCR, or DECR keys in the clock fields of
the Trigger and Pattern Generator menus.

WAITING FOR 91AXX
TRIGGER

The system is currently waiting for a trigger event from the
91A32 and 91A08 module.

WAITING FOR STOP STORE

The trigger has been recognized and a delay is being
exercised before acquisition is stopped.

WORD NOT FOUND

A search for a specific word was unsuccessful. This message
is seen in the State Table and Timing Diagram menus.

POWER-UP ERROR LIGHT CODES
Whenever a DAS mainframe is reset or powered-up, the Controller board runs a self test. This
test verifies the kernel of the Controller, the system RAM circuitry, and the ROMs in the
mainframe.
Because all of the above listed components are required for operation of the DAS display monitor,
the status of the tests is indicated with the LOCKOUT and REMOTE lights on the DAS keyboard
housing. If any of the tests fail or cannot be executed, the light corresponding to that test comes
on and stays on. The video display of the DAS will not appear if any of these conditions occur.
The conditions and their corresponding light sequences are shown in Table 9-4.

9-14

Reference Information-DAS 9100 Series Service Vol. II

Table 9-4
Power-Up Error Light Codes
Light Status
LOCKOUT

REMOTE

Meaning

ON

OFF

The DAS Controller is running a test on the system RAM that resides
on the Controller board.

OFF

ON

The DAS Controller is running a checksum on the Runtime ROM on
the Controller board.

ON

ON

The Controller board is executing a checksum on all ROMs in the DAS
mainframe. At the same time, the I/O driver routines are initialized by
the DAS.

OFF

OFF

The DAS is finished with the power-up sequence.

ROM CHECKSUM CODES
If the DAS detects a checksum error upon power-up, an error code is displayed at the top of the
screen reading ROM CHECKSUM ERROR. The message also contains a numeric code that
corresponds to a socket location on a DAS board. The code is interpreted as shown in Table 9-5.

Table 9-5
ROM Checksum Error Codes
Code

Location

0,0

Controller

A6U597

a,O

91P16

A14U481

7,1
7,2
7,3
7,4
7,5
7,6
7,7
7,8
7,9
7,A

Trigger/Time
Trigger/Time
Trigger/Time
Trigger/Time
Trigger/Time
Trigger/Time
Trigger/Time
Trigger/Time
Trigger/Time
Trigger/Time

8,0
8,D
8,E
8,F

I/O
I/O
I/O
I/O

Part Location Number

Base
Base
Base
Base
Base
Base
Base
Base
Base
Base

Interface
Interface
Interface
Interface

A10U391
A10U291
A10U385
A10U395
A10U281
A10U283
A10U287
A10U181
A10U183
A10U295
A19A1U455
A19A1U451
A19A1U445
A19A1 U441

8This number indicates which slot number the 91P16 Pattern Generator module resides in. (May be slots 1-6.)

9-15

Reference Information-DAS 9100 Series Service Vol. II

TEST POINT, JUMPER, AND ADJUSTMENT LOCATIONS
The illustrations and paragraphs on the following pages are intended to be a fast reference for
adjusting and troubleshooting circuit boards in the DAS. Each illustration shows pOints of interest
on the board in question. The callouts below the illustration and on the adjacent pages give the
reason for pointing out each location, what the point is for, or what voltages or signals should be
present at the point. The DAS9129 is similar to the DAS9109 shown in the figures.
For further information on adjusting, troubleshooting, or verifying a DAS circuit board or module,
refer to the appropriate section of this manual.

POWER SUPPLIES

SLOTS 1-6

(Options 03 and 04)

DISPLAY MONITOR
(A4 OR A30)
.
SIGNAL BOARD
(A4A2) OR
DEFLECTION BOARD
(A30A1)

-- ---

------ --INTERCONNECT

/

---- --...

//

----__

./

~/

---./

(A1 )

OPTION 01
TAPE DRIVE
A18)

KEYBOARD
(AS)
3836-224

Figure 9-3. DAS circuit board locations.

9-16

Reference Information-DAS 9100 Series Service Vol. II

CENTER +5 POWER
SUPPLY PROVIDES
POWER TO BUS SLOTS
5 AND 6. (A3)

RIGHT +5V POWER SUPPLY
PROVIDES POWER TO BUS
-------~I
3 AND 4, (A3)
---~

I/O CONNECTOR BOARD
(A 19A2) ---~

OPTION 02 I/O INTERFACE
(A19A1)

CAPACITOR BRACKET
(A25J----~

LEFT +5V POWER SUPPLY
PROVIDES POWER TO
BUS SLOTS 1 AND 2
( A3 \-+-II----f!f
MAIN POWER SUPPLY,
(A2) _1--11-_

3836-225

Figure 9-4. Power supply and 110 Interface circuit board locations_

9-17

Reference Information-DAS 9100 Series Service Vol. II

TAPE DRIVE
DATA BOARD

Figure 9-5. Tape drive circuit board locations.

9-18

Reference Information-DAS 9100 Series Service Vol. 1\

DAS9109 (MONOCHROME) INTERCONNECT BOARD (A1)
Jl02
ClOG

~m

T101



l

j

~

cC

u~

0

..,
~

Ll12
CR120

CR109

uno

Cl01 Cl02

JBl

J124 J125

Rll0
RIll
VR111
Qlll
Q112

RT120
Ll13

..'"

J121

..,
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~

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.. ..,'"
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II:

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II:

&:

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r

u

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ii:

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g

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pa:
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NP
_a:

E124 E125

..,..,
~

.

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..,

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",'"
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..,
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..,
CD

..,.... fi
~

'"
~

.....
....
"''''

a:_

CD a:

..,'"'"

..,'"'"

~

..,..,

..,..,'"

..,..,'"

0>

(j

~

~

~

ii:

~

~

~

..,'"

C40

eso

C70

';!
<.)

:ll

c

1}

u
'"

Ii!
..,

J410

C412

J421
L418

TP416

J431

J422

R432 J432

J423

0

..,<:>

0

..,
~

..,'"<:>

..,..,
0

..,.,<:>

..,<:>
It)

§
0

..,

CD

2

..,....0

3836-181

Figure 9-6. DAS9109 Interconnect board (A1) test point locations.

1. TP416. This test point can be used to verify the accuracy of the +3 V supply on the
Interconnect board. If this supply goes out of regulation, the Eel busses on the Interconnect board may exhibit ringing and glitches.
2. J80. This jack has two pins. Pin 1 is the RESET(l) pin. Shorting this pin to ground will cause
the OAS to perform its power-up sequence again, including the RAM and ROM checks and
the power-up diagnostics.

NOTE
Causing a RESET will destroy any current configuration data stored in the DAS. The
DAS will be in its normal power-up configuration after a RESET.

Pin 2 of J80 is the NMI(l) pin. Shorting this pin to ground will cause the OAS to enter the OOT
(online debugging tool) routine. For more information about OOT, refer to the paragraphs on aOT
later in this section.

9-19

Reference Information-OAS 9100 Series Service Vol. "

DAS9129 (COLOR) INTERCONNECT BOARD (A31)

C

fl[J

J101

NfN,l'l,

c

a

"I:t

~,-

E115 E119

RT111 T

I

J131
,-

'~8
L127

~oa:o~o•

;t

~

n

J211

on

~'"
0::,..

8:g R205

II

J312

"

J321

l l

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n

J311

~(f)t?.,.

C303 a: 0 ~

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a:o

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ci)

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n~~",
Il,Il en

~'~'itiU""

~

a: ...
..,a:

~

on

~l

!l;

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J01

II.. a::e

~

""a:
u

a:

0:

J11

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R61

~

a:

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I

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,-

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n
00

r-;

J221

r-

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......

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J212

J72

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r

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~:gI1J
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C101

c

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J119

c::= J 125

U
J201

I

J105::::J

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J21

J31

~

~

~

J41

J51

J61

J71

EB

J401
,C,30,-

II

~
~
J410

J419

J421

EJ422

:3

C~,-

,-C50,-

,-ceo

I;

C81

C436

I~80

J425

E

J427

3

R432

EJ429

C82
'C

J432

JOO .710 ':;;-0 :i3o ':;0 J"so J'60 ~o
3836-226

Figure 9-7. DAS9129 Interconnect board (A31) test point locations.

J80. This jack has two pins. Pin 1 is the RESET{L) pin. Shorting this pin to ground will
cause the DAS to perform its power-up sequence again, including the RAM and ROM
checks and the power-up diagnostics.

NOTE
Causing a RESET will destroy any current configuration data stored in the DAS. The
DAS will be in its normal power-up configuration after a RESET.

Pin 2 of J80 is the NMI{L) pin. Shorting this pin to ground will cause the DAS to enter the
ODT (online debugging tool) routine. For more information about ODT, refer to the paragraphs on ODT later in this section.

9-20

CD

Reference Information-DAS 9100 Series Service Vol. \I

MAIN POWER SUPPLY BOARD (A2)

J155

I

~

TP225

0205

0'58

FISO

W256

CR255

o

J165

··

T235

Q21S

W258

ali"

0168

[-

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I
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CR430

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L448

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R536

. jCR585 ~,~

'C466
0

R486

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R582

RS60

'CS36

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TP435

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R532

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q.

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C458

C584

(fO:570~ 5

.

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RB7B

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RB14

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RBtS
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'R915 ,
0916 091.13

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R7a1

"'C9JO
• VR931
. R931
• R932
C939

R9J5

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.936

R7B3

R755

CW32 0634

.

R7BO

R172

f, VR773

'I!ill.
0

C")

R77D

R771
• CR712

(.cA73S ~


L645

R634

C10B

U975

CD~

U885

R8St
C897
R6SS
CR9S0
CR9Sl
R982

',C955

.1;:960

(;965

C970

. R931

D.
P94D

"

C975

C976
CR97S
CR977

R9Sl
R984

0985

3836·227

Figure 9-B. CAS Main Power Supply board (A2) test point and adjustment locations.

1. R936. This trimmer potentiomenter is used to bring the
Supply within specification.

+ 12 V supply of the Main Power

2. W823. These two pins can be shorted together to disable the + 12 V sense circuitry.
Shorting these pins together causes the supply to switch at the same rate as the power
supply clock. Short these pins together, when testing the supply after repair, to avoid
catastrophic failures in the ± 160 V sections of the supply.
3. Pins 1, 2, and 3 of T415. Under normal operation, pins 1 and 3 of this transformer should
show a push/pull waveform for the high-voltage drivers. Pin 2 of T415 should show the
turn-off pulses for the high-voltage drivers.
4. TP225. Under normal operation, this test point should show a symmetric switching waveform centered around ground.

9-21

Reference Information-DAS 9100 Series Service Vol. "

+ 5 V POWER SUPPLY MODULE (A3)
'>iI112'f-

~~~

Ll16
C155

""'

~ iC252 -

CR25fa

T255

CR254'G

CR555
T565
R635
C625
R720

CR755

W737
W745

R756

75s ~,
3836-228

Figure 9·9. +5 V Power Supply board (A3) test pOint locations.

1. W316. These two pins can be shorted together to disable the +5 V sense circuitry. Shorting these pins together causes the supply to switch at the same rate as the power supply
clock. Short these pins together, when testing the supply after repair, to avoid catastrophic
failures in the ± 160 V sections of the supply.
2_ Pins 1,2, and 3 of T255. Under normal operation, pins 1 and 3 of this transformer should
show a push/pull waveform for the high.voltage drivers. Pin 2 of T255 should show the turn·
off pulses for the high-voltage drivers.
3. TP260. Under normal operation, this test point should show a symetric switching waveform
centered around ground.

MOTOROLA DISPLAY MONITOR (A4)

NOTE
The following material regarding the Motorola Display Monitor was taken from the
"M1000 and M2000 Series Service Manual" 1979 Motorola, Inc., by permission of
Motorola, Inc.

9·22

Reference Information-CAS 9100 Series Service Vol. II

T1

07
HORIZ.
DRIVER

A35
HORIZ,

A14
VIDEO
BIAS

A52
VERT.
SIZE.

Q4

VIDEO
OUTPUT
R57

LIN.

le1

A49

R6
CONTRAST

JU1

TTL/COMP.

WITH

3836-184

Figure 9-10. Motorola Display Monitor signal circuit board (A4A2) test pOint and adjustment locations.

H.V. LEAD
TO CRT
2ND ANODE

\

P3
MATES
WITH 53

FOCUS

H-e.

-P1
MATES WITH 51
ON SIGNAL
T3
S SHAPING
(M2000 ONLY)

CI RCUIT CARD

3836-229

Figure 9-11. Motorola Display Monitor deflection circuit board (A4A1) test pOint and adjustment locations.

9-23

Reference Information-DAS 9100 Series Service Vol. II

DAS9129 COLOR DISPLAY MONITOR (A30)
The following figures identify test pOints and ajustments on the color display boards.

~T"5
-... L!j
3

~
Tp@9 TPl!&2

8
o
o
o

e1

T

00

e

e-344@

8

R44i


281-077S-00
281-077S-00
281-077S-00
281-077S-00
281-077S-00
281-0775-00

CAP.,FXD,CER
CAP.,FXD,CER
CAP.,FXD,CER
CAP.,FXD,CER
CAP.,FXD,CER
CAP.,FXD,CER

DI:0.1 UF,20%,SOV
DI:0.1 UF,20%,SOV
DI:0.1 UF,20%,SOV
DI:0.1UF,20%,SOV
DI:0.1 UF,20%,SOV
DI:0.1 UF,20%,50V

04222
04222
04222
04222
04222
04222

MA20SE104MAA
MA20SE104MAA
MA20SE104MAA
MA20SE104MAA
MA20SE104MAA
MA205 E1 04MAA

A6C478
A6C481
A6C487
A6C488
A6C496
A6C521

281-0775-00
281-0775-00
281-0775-00
281-077S-00
281-0775-00
281-0775-00

CAP.,FXD,CER
CAP.,FXD,CER
CAP.,FXD,CER
CAP.,FXD,CER
CAP.,FXD,CER
CAP.,FXD,CER

DI:0.1 UF,20%,50V
DI:0.1UF,20%,50V
DI:0.1 UF,20%,50V
DI:0.1 UF,20%,50V
DI:0.1UF,20%,50V
DI:0.1UF,20%,50V

04222
04222
04222
04222
04222
04222

MA205E104MAA
MA205E104MAA
MA205E104MAA
MA205E104MAA
MA205E104MAA
MA205E104MAA

A6C525
A6C527
A6C536
A6C537
A6C538
A6C539

281-0775-00
281-0819-00
283-0177-00
281-0775-00
290-0755-00
281-0775-00

CAP.,FXD,CER DI:0.1UF,20%,50V
CAP.,FXD,CER DI:33PF,5%,50V
CAP.,FXD,CER DI:1 UF,+80-20%,25V
CAP.,FXD,CER DI:0.1 UF,20%,50V
CAP.,FXD,ELCTLT:100UF,+50-10%,10V
CAP.,FXD,CER DI:0.1 UF,20%,50V

04222
72982
56289
04222
55680
04222

MA205E104MAA
8035SCOG330
2C20Z5U105Z025S
MA205E104MAA
ULA1A01TEA
MA205E104MAA

A6C545
A6C549
A6C550
A6C591
A6C597
A6C638

281-0775-00
290-0748-00
290-0748-00
281-0775-00
281-0775-00
290-0536-00

CAP.,FXD,CER DI:0.1UF,20%,50V
CAP.,FXD,ELCTLT:1 OUF, +50-1 0%,25V
CAP.,FXD,ELCTLT:1 OUF, +50-1 0%,25V
CAP.,FXD,CER DI:0.1 UF,20%,50V
CAP.,FXD,CER DI:0.1 UF,20%,50V
CAP.,FXD,ELCTLT:10UF,20%,25V

04222
T0900
T0900
04222
04222
90201

MA205E104MAA
SL25T10(T)TP
SL25T10(T)TP
MA205E104MAA
MA205E104MAA
TDC106M025FL

A6CRl15
A6CR535
A6CR539
A6J337
A6J337
A6J339

152-0141-02
152-0141-02
152-0141-02
131-0608-00

SEMICOND DEVICE:SILlCON,30V,150MA
SEMICOND DEVICE:SILlCON,30V,150MA
SEMICOND DEVICE:SILlCON,30V,150MA
TERMINAL,PIN:0.365 LX 0.025 PH SRZ GOLD
(QUANTITY OF 2)
TERMINAL,PIN:0.365 LX 0.025 PH SRZ GOLD

01295
01295
01295
22526

1N4152R
1N4152R
1N4152R
47357

22526

47357

22526

47357

22526

47357

22526

47357

22526

47357

OOOJS
80009
07263

QMS-06
108-0735-00
S032677

Component No.

Tektronix
Part No.

A6C381
A6C382
A6C38S
A6C386
A6C388
A6C389

281-077S-00
281-077S-00
281-077S-00
281-077S-00
281-077S-00
281-077S-00

CAP.,FXD,CER
CAP.,FXD,CER
CAP.,FXD,CER
CAP.,FXD,CER
CAP.,FXD,CER
CAP.,FXD,CER

AGC395
A6C396
A6C411
A6C41S
A6C42S
A6C431

281-077S-00
281-077S-00
281-077S-00
281-077S-00
281-077S-00
283-0333-00

A6C438
A6C44S
A6C467
A6C468
A6C471
AGC47S

A6J339
A6J340
A6J340
A6J344
A6J344
A6J498
A6J498
A6J499
A6J499
A6L100
A6LR435
A6Q110

REV MAR 1984

131-0608-00

131-0608-00
131-0608-00
131-0608-00

131-0608-00
119-1427-00
108-0735-00
151-0190-00

Serial/Model No.
Eft
Dscont

Name & Description

(QUANTITY OF 2)
TERMINAL,PIN:0.365 LX 0.025 PH SRZ GOLD
(QUANTITY OF 2)
TERMINAL,PIN:0.365 LX 0.025 PH SRZ GOLD
(QUANTITY OF 2)
TERMINAL,PIN:0.365 LX 0.025 PH SRZ GOLD
(QUANTITY OF 3)
TERMINAL,PIN:0.365 LX 0.025 PH SRZ GOLD
(QUANTITY OF 3)
XDCR,AUDIO:6V,30MA,1-4.2 KHZ
COIL,RF:FIXED,560NH
TRANSISTOR:SILlCON,NPN

10-21

Replaceable Electrical Parts
DAS 9100 Series Service VoUI

Component No.

Tektronix
Part No.

A6Q335
A6Q425
A6Q435
A6Q438
A6Q539
A6R115

Name & Description

Mfr
Code

Mfr Part Number

151-0188-00
151-0223-00
151-0188-00
151-0188-00
151-0190-00
315-0101-00

TRANSISTOR:SILlCON,PNP
TRANSISTOR:SILlCON,NPN
TRANSISTOR:SILlCON,PNP
TRANSISTOR:SILlCON,PNP
TRANSISTOR:SILlCON,NPN
RES.,FXD,CMPSN:100 OHM,5%,0.25W

04713
04713
04713
04713
07263
01121

SPS6868K
SPS8026
SPS6868K
SPS6868K
S032677
CB1015

A6R121
A6R125
A6R134
A6R140
A6R141
A6R145

311-1562-00
315-0102-00
315-0101-00
315-0102-00
307-0542-00
307-0542-00

RES.,VAR,NONWIR:2K OHM,20%,0.50W
RES.,FXD,CMPSN:1K OHM,5%,0.25W
RES.,FXD,CMPSN:100 OHM,5%,0.25W
RES.,FXD,CMPSN:1 K OHM,5%,0.25W
RES,NTWK,FXD,FI:l0K OHM,5%,0.125W
RES,NTWK,FXD,FI:10K OHM,5%,0.125W

73138
01121
01121
01121
01121
01121

91-84-0
CB1025
CB1015
CB1025
106A103
106Al03

A6R146
A6R147
A6R150
A6R185
A6R201
A6R202

315-0393-00
31 5-0393-00
315-0203-00
307-0540-00
315-0103-00
315-0103-00

RES.,FXD,CMPSN:39K OHM,5%,0.25W
RES.,FXD,CMPSN:39K OHM,5%,0.25W
RES.,FXD,CMPSN:20K OHM,5%,0.25W
RES,NTWK,FXD,FI:(5) 1K OHM,10%,0.7W
RES.,FXD,CMPSN:10K OHM,5%,0.25W
RES.,FXD,CMPSN:10K OHM,5%,0.25W

01121
01121
01121
57924
01121
01121

C83935
C83935
C82035
4306R-1 01-1 02
CB1035
CB1035

A6R215
A6R225
A6R234
A6R295
A6R331
A6R332

315-0101-00
315-0750-00
315-0101-00
315-0102-00
315-0150-00
315-0221-00

RES.,FXD,CMPSN:100 OHM,5%,0.25W
RES.,FXD,CMPSN:75 OHM,5%,0.25W
RES.,FXD,CMPSN:100 OHM,5%,0.25W
RES.,FXD,CMPSN:1 K OHM,5%,0.25W
RES.,FXD,CMPSN:150HM,5%,0.25W
RES.,FXD,CMPSN:220 OHM,5%,0.25W

01121
01121
01121
01121
01121
01121

C81015
C87505
C81015
CB1025
C81505
C82215

A6R333
A6R334
A6R341
A6R342
A6R411
A6R415

315-0122-00
315-0150-00
31 5-0203-00
315-0203-00
315-0241-00
315-0101-00

RES.,FXD,CMPSN:l.2K OHM,5%,0.25W
RES.,FXD,CMPSN:150HM,5%,0.25W
RES.,FXD,CMPSN:20K OHM,5%,0.25W
RES.,FXD,CMPSN:20K OHM,5%,0.25W
RES.,FXD,CMPSN:240 OHM,5%,0.25W
RES.,FXD,CMPSN:1000HM,5%,0.25W

01121
01121
01121
01121
01121
01121

C81225
C81505
C82035
C82035
C82415
CB1015

A6R416
A6R417
A6R418
A6R421
A6R430
A6R431

315-0562-00
315-0562-00
315-0562-00
315-0102-00
315-0511-00
315-0511-00

RES.,FXD,CMPSN:5.6K OHM,5%,0.25W
RES.,FXD,CMPSN:5.6K OHM,5%,0.25W
RES.,FXD,CMPSN:5.6K OHM,5%,0.25W
RES.,FXD,CMPSN:1 K OHM,5%,0.25W
RES.,FXD,CMPSN:510 OHM,5%,0.25W
RES.,FXD,CMPSN:510 OHM,5%,0.25W

01121
01121
01121
01121
01121
01121

CB5625
C85625
C85625
CB1025
CB5115
C85115

A6R432
A6R434
A6R436
A6R437
A6R438
A6R441

315-0512-00
315-0102-00
315-0510-00
315-0472-00
315-0101-00
307-0540-00

RES.,FXD,CMPSN:5.1 K OHM,5%,0.25W
RES.,FXD,CMPSN:l K OHM,5%,0.25W
RES.,FXD,CMPSN:51 OHM,5%,0.25W
RES.,FXD,CMPSN:4.7K OHM,5%,0.25W
RES.,FXD,CMPSN:100 OHM,5%,0.25W
RES,NTWK,FXD,FI:(5) 1K OHM,10%,0.7W

01121
01121
01121
01121
01121
57924

C85125
CB1025
CB5105
CB4725
C81015
4306R-l 01-1 02

A6R445
A6R468
A6R478
A6R481
A6R485
A6R488

307-0446-00
315-0101-00
315-0101-00
315-0101-00
315-0101-00
315-0101-00

RES,NTWK,FXD FI:10K OHM,20%,(9) RES
RES.,FXD,CMPSN:l00 OHM,5%,0.25W
RES.,FXD,CMPSN:l00 OHM,5%,0.25W
RES.,FXD,CMPSN:l00 OHM,5%,0.25W
RES.,FXD,CMPSN:l00 OHM,5%,0.25W
RES.;FXD,CMPSN:100 OHM,5%,0.25W

91637
01121
01121
01121
01121
01121

MSP10A01-l03M
C81015
CB1015
CB1015
C81015
CB1015

A6R497
A6R511
A6R525
A6R527
A6R535
A6R536

315-0101-00
315-0241-00
315-0561-00
315-0561-00
315-0102-00
315-0513-00

RES.,FXD,CMPSN:l00 OHM,5%,0.25W
RES.,FXD,CMPSN:240 OHM,5%,0.25W
RES.,FXD,CMPSN:560 OHM,5%,0.25W
RES.,FXD,CMPSN:560 OHM,5%,0.25W
RES.,FXD,CMPSN:1K OHM,5%,0.25W
RES.,FXD,CMPSN:51 K OHM,5%,0.25W

01121
01121
01121
01121
01121
01121

C81015
C82415
C85615
C85615
C81025
CB5135

10-22

Serial/Model No.
Eft
Dscont

B050000

B010l00

B049999

8010100
8010100

8049999
B049999

REV MAR 1984

Replaceable Electrical Parts
DAS 9100 Series Service Vo!.11

Component No.

Tektronix
Part No.

A6R539
A6R540
A6R555
A6R581
A6R597
A6TP141

315-0513-00
315-0101-00
307-0675-00
307-0445-00
307-0445-00
214-0579-00

A6TP151
A6TP211
A6TP351
A6TP397
A6TP420
A6TP436

Mfr
Code

Mfr Part Number

RES.,FXD,CMPSN:51 K OHM,5%,0.25W
RES.,FXD,CMPSN:100 OHM,5%,0.25W
RES NTWK,FXD FI:9,lK OHM,2%,1.25W
RES NTWK,FXD,FI:4.7K OHM,20%,(9) RES
RES NTWK,FXD,FI:4.7K OHM,20%,(9) RES
TERM,TEST POINT:BRS CD PL

01121
01121
01121
91637
91637
80009

CB5135
CB1015
21 OA1 02
MSP10AOl-472M
MSP10AOl-472M
214-0579-00

214-0579-00
214-0579-00
214-0579-00
214-0579-00
214-0579-00
214-0579-00

TERM,TEST
TERM,TEST
TERM,TEST
TERM,TEST
TERM,TEST
TERM,TEST

80009
80009
80009
80009
80009
80009

214-0579-00
214-0579-00
214-0579-00
214-0579-00
214-0579-00
214-0579-00

A6TP468
A6TP537
A6U100
A6U105
A6Ul15
A6U121

214-0579-00
214-0579-00
156-0798-02
156-0480-02
156-0381-02
156-1455-00

TERM,TEST POINT:BRS CD PL
TERM,TEST POINT:BRS CD PL
MICROCIRCUIT,DI:DUAL 14 TO 1 LINE SEWMUX
MICROCIRCUIT,DI:QUAD 2 INP & GATE
MICROCIRCUIT,DI:QUAD 2-INP EXCL OR GATE
MICROCIRCUIT,DI:PROGRAMMABLE CRT CONT

80009
80009
01295
01295
01295
34649

214-0579-00
214-0579-00
SN74LS153
SN74LS08NP3
SN74LS86
P8275

A6U127
A6U131
A6U137
A6U138
A6U141
A6U151

156-0479-02
156-0798-02
156-1172-01
156-0479-02
156-0994-02
156-0480-02

MICROCIRCUIT,DI:QUAD 2-INP OR GATE
MICROCIRCUIT,DI:DUAL 14 TO 1 LINE SEWMUX
MICROCIRCUIT,DI:DUAL 4 BIT CNTR
MICROCIRCUIT,DI:QUAD 2-INP OR GATE
MICROCIRCUIT,DI:8 INPUT DATA SEWMUX
MICROCIRCUIT,DI:QUAD 2 INP & GATE

01295
01295
01295
01295
01295
01295

SN74LS32NP3
SN74LS153
SN74LS393
SN74LS32NP3
SN74LS151NP3
SN74LS08NP3

A6U155
A6U161
A6U165
A6U168
A6U175
A6U178

156-0464-02
156-0480-02
156-0479-02
156-0388-03
156-0385-02
156-0388-03

MICROCIRCUIT,DI:DUAL 4 INP NAND GATE
MICROCIRCUIT,DI:QUAD 2 INP & GATE
MICROCIRCUIT,DI:QUAD 2-INP OR GATE
MICROCIRCUIT,DI:DUAL D FLIP-FLOP
MICROCIRCUIT,DI:HEX INVERTER
MICROCIRCUIT,DI:DUAL D FLIP-FLOP

01295
01295
01295
07263
01295
07263

SN74LS20
SN74LS08NP3
SN74LS32NP3
74LS74A
SN74LS04
74LS74A

A6U181
A6U185
A6U188
A6U195
A6U197
A6U200

156-0382-02
156-0388-03
156-0321-02
156-0694-02
156-0180-04
156-0798-02

MICROCIRCUIT,DI:QUAD 2-INP NAND GATE
MICROCIRCUIT,DI:DUAL D FLIP-FLOP
MICROCIRCUIT,DI:TRIPLE 3 INP NAND GATE
MICROCIRCUIT,DI:DCDR/3 LINE TO 8 lINE,SCRN
MICROCIRCUIT,DI:QUAD 2-INPUT NAND GATE
MICROCIRCUIT,DI:DUAL 14 TO 1 LINE SEWMUX

01295
07263
01295
07263
01295
01295

SN74LSOO
74LS74A
SN74S10
74S138DCQR
SN74S00NP3
SN74LS153

A6U205
A6U211
A6U215
A6U227
A6U231
A6U237

156-0479-02
156-0530-02
160-0823-01
156-0865-02
156-1172-01
156-0956-02

MICROCIRCUIT,DI:QUAD 2-INP OR GATE
MICROCIRCUIT,DI:QUAD 2-INP MUX,SCRN
MICROCIRCUIT,DI:1024 X 8 PROM,PRGM
MICROCIRCUIT,DI:OCTAL D-TYPE FF W/CLEAR
MICROCIRCUIT,DI:DUAL 4 BIT CNTR
MICROCIRCUIT,DI:OCTAL BFR W/3 STATE OUT

01295
01295
80009
01295
01295
01295

SN74LS32NP3
SN74LS157P3
160-0823-01
SN74LS273NP3
SN74LS393
SN74LS244NP3

A6U251

156-1202-00

A6U261
A6U265
A6U268
A6U275
A6U278

156-0968-02
156-0968-02
156-0968-02
156-0968-02
156-0968-02

MICROCIRCUIT,DI:PROGRAMMABLE DMA CONTROLLER
51984
MICROCIRCUIT,DI:16384 X 1 DYNAMIC RAM
80009
MICROCIRCUIT,DI:16384 X 1 DYNAMIC RAM
80009
MICROCIRCUIT,DI:16384 X 1 DYNAMIC RAM
80009
MICROCIRCUIT,DI:16384 X 1 DYNAMIC RAM
80009
MICROCIRCUIT,DI:16384 X 1 DYNAMIC RAM
80009

UPD8257C-5
156-0968-02
156-0968-02
156-0968-02
156-0968-02
156-0968-02

A6U281
A6U285
A6U288
A6U295
A6U297
A6U300

156-0968-02
156-0968-02
156-0968-02
156-0718-03
156-0381-02
156-0480-02

MICROCIRCUIT,DI:16384 X 1 DYNAMIC RAM
MICROCIRCUIT,DI:16384 X 1 DYNAMIC RAM
MICROCIRCUIT,DI:16384 X 1 DYNAMIC RAM
MICROCIRCUIT,DI:TRIPLE 3-INP NOR GATE
MICROCIRCUIT,DI:QUAD 2-INP EXCL OR GATE
MICROCIRCUIT,DI:QUAD 2 INP & GATE

156-0968-02
156-0968-02
156-0968-02
SN74LS27
SN74LS86
SN74LS08NP3

REV MAR 1984

Serial/Model No.
Eft
Dscont

Name & Description

POINT:BRS
POINT:BRS
POINT:BRS
POINT:BRS
POINT:BRS
POINT:BRS

CD
CD
CD
CD
CD
CD

PL
PL
PL
PL
PL
PL

80009
80009
80009
01295
01295
01295

10-23

Replaceable Electrical Parts
DAS 9100 Series Service Vol.lI

Component No.

Tektronix
Part No.

A6U305
A6U311
A6U315
A6U321
A6U325
A6U331

156-0388-03
156-0382-02
156-1313-00
156-1326-00
156-0385-02
156-0948-02

A6U337
A6U338
A6U345
A6U351
A6U365
A6U368

Serial/Model No.
Eft
Dscont

Mfr
Code

Mfr Part Number

MICROCIRCUIT,DI:DUAL D FLIP-FLOP
MICROCIRCUIT,DI:QUAD 2-INP NAND GATE
MICROCIRCUIT,DI:8 BIT SHIFT REGISTER,SCRN
MICROCIRCUIT,DI:QUAD D TYPE FF,SCRN
MICROCIRCUIT,DI:HEX INVERTER
MICROCIRCUIT,DI:QUAD D F-F,BURN-IN

07263
01295
01295
80009
01295
01295

74 LS74A
SN74LSOO
SN741S166
156-1326-00
SN74LS04
SN74S175J4

156-0323-02
156-0383-02
156-0469-02
156-0983-00
156-0968-02
156-0968-02

MICROCIRCUIT,DI:HEX INVERTER,BURN-IN
MICROCIRCUIT,DI:QUAD 2-INP NOR GATE
MICROCIRCUIT,DI:3/8 LINE DCDR
MICROCIRCUIT,DI:MICROPROCESSOR EIGHT BIT
MICROCIRCUIT,DI:16384 X 1 DYNAMIC RAM
MICROCIRCUIT,DI:16384 X 1 DYNAMIC RAM

01295
01295
01295
56708
80009
80009

SN74S04
SN74LS02
SN74LS138NP3
Z 80 ACS
156-0968-02
156-0968-02

A6U375
A6U378
A6U381
A6U385
A6U388
A6U395

156-0968-02
156-0968-02
156-0968-02
156-0968-02
156-0968-02
156-0968-02

MICROCIRCUIT,DI:16384
MICROCIRCUIT,DI:16384
MICROCIRCUIT,DI:16384
MICROCIRCUIT,DI:16384
MICROCIRCUIT,DI:16384
MICROCIRCUIT,DI:16384

80009
80009
80009
80009
80009
80009

156-0968-02
156-0968-02
156-0968-02
156-0968-02
156-0968-02
156-0968-02

A6U397
A6U400
A6U405
A6U411
A6U415
A6U421

156-0321-02
156-0388-03
156-0479-02
156-0385-02
156-0392-03
156-1313-00

MICROCIRCUIT,DI:TRIPLE 3 INP NAND GATE
MICROCIRCUIT;DI:DUAL D FLIP-FLOP
MICROCIRCUIT,DI:QUAD 2-INP OR GATE
MICROCIRCUIT,DI:HEX INVERTER
MICROCIRCUIT,DI:QUAD LATCH W/CLEAR
MICROCIRCUIT,DI:8 BIT SHIFT REGISTER,SCRN

01295
07263
01295
01295
01295
01295

SN74S10
74LS74A
SN74LS32NP3
SN74LS04
SN74S175NP3
SN741S166

A6U425
A6U431
A6U438
A6U445
A6U461
A6U475

156-0784-02
156-0205-02
156-0956-02
156-0955-02
156-1065-01
156-1065-01

MICROCIRCUIT,DI:SYNC 4 BIT BINARY COUNTER
MICROCIRCUIT,DI:QUAD 2-INP NOR GATE,SCRN
MICROCIRCUIT,DI:OCTAL BFR W/3 STATE OUT
MICROCIRCUIT,DI:OCTAL BFR W/3 STATE OUT
MICROCIRCUIT,DI:OCTAL D TYPE TRANS LATCHES
MICROCIRCUIT,DI:OCTAL D TYPE TRANS LATCHES

A6U478
A6U481
A6U485
A6U488
A6U495
A6U497

156-0956-02
156-0125-02
156-0125-02
156-0956-02
156-0956-02
156-0478-02

A6U500
A6U511
A6U515
A6U517
A6U521
A6U525

Name & Description

X
X
X
X
X
X

1
1
1
1
1
1

DYNAMIC
DYNAMIC
DYNAMIC
DYNAMIC
DYNAMIC
DYNAMIC

RAM
RAM
RAM
RAM
RAM
RAM

27014
04713
01295
04713
·34335
34335

DM74LS163ANA+
MC1 01 02PD/LD
SN74LS244NP3
SN74LS241
AM74LS373
AM74LS373

MICROCIRCUIT,DI:OCTAL BFR W/3 STATE OUT
MICROCIRCUIT,DI:QUAD 2-INP MUX,SCRN
MICROCIRCUIT,DI:QUAD 2-INP MUX,SCRN
MICROCIRCUIT;DI:OCTAL BFR W/3 STATE OUT
MICROCIRCUIT,DI:OCTAL BFR W/3 STATE OUT
MICROCIRCUIT,DI:DUAL 4 INP & GATE,BURN-IN

01295
01295
01295
01295
01295
01295

SN74LS244NP3
SN74157(NP3 OR J
SN74157(NP3 OR J
SN74LS244NP3
SN74LS244NP3
SN74LS21 NP3

156-0731-02
156-0469-02
156-0784-02
156-0718-03
156-0784-02
156-0956-02

MICROCIRCUIT,DI:DUAL J-K FF W/PRESET & CLR
MICROCIRCUIT,DI:3/8 LINE DCDR
MICROCIRCUIT,DI:SYNC 4 BIT BINARY COUNTER
MICROCIRCUIT,DI:TRIPLE 3-INP NOR GATE
MICROCIRCUIT,DI:SYNC 4 BIT BINARY COUNTER
MICROCIRCUIT,DI:OCTAL BFR W/3 STATE OUT

01295
01295
27014
01295
27014
01295

SN74LS76N3
SN74LS138NP3
DM74LS163ANA+
SN74LS27
DM74LS163ANA+
SN74LS244NP3

A6U531
A6U535
A6U537
A6U541
A6U555
A6U563

156-0180-04
156-0948-02
156-0645-02
156-0392-03
156-1111-02
156-0469-02

MICROCIRCUIT,DI:QUAD 2-INPUT NAND GATE
MICROCIRCUIT,DI:QUAD D F-F,BURN-IN
MICROCIRCUIT,DI:HEX INV ST NAND GATES,SCRN
MICROCIRCUIT,DI:QUAD LATCH W/CLEAR
MICROCIRCUIT,DI:OCTAL BUS TRANSCEIVERS
MICROCIRCUIT,DI:3/8 LINE DC DR

01295
01295
01295
01295
01295
01295

SN74S00NP3
SN74S175J4
SN74LS14
SN74S175NP3
SN74LS245JP3
SN74LS138NP3

A6U565
A6U571
A6U581
A6U585
A6U591

156-0469-02
156-0956-02
156-1111-02
160-0826-00
160-0827-00

MICROCIRCUIT,DI:3/8 LINE DCDR
MICROCIRCUIT,DI:OCTAL BFR W/3 STATE OUT
MICROCIRCUIT,DI:OCTAL BUS TRANSCEIVERS
MICROCIRCUIT,DI:8192 X 8 PROM,PRGM,SCRN
MICROCIRCUIT,DI:8192 X 8 PROM,PRGM,SCRN

01295
01295
01295
80009
80009

SN74LS138NP3
SN74LS244NP3
SN74LS245JP3
160-0826-00
160-0827-00

I

10-24

REV MAR 1984

/

Replaceable Electrical Parts
DAS 9100 Series Service Vol.Il

Component No.

Tektronix
Part No.

Serial/Model No.
Eft
Dscont

A6U597
A6U597
A6U597
A6U597
A6U597
A6U597

160-1525-00
160-1525-01
160-1525-02
160-1679-00
160-1679-01
160-1679-02

B010100
B010181
B010200
B010440
B010630
B020473

B010180
B010199
B010439
B010629
B020472
B029999

MICROCIRCUIT,DI:8192
MICROCIRCUIT,DI:8192
MICROCIRCUIT,DI:8192
MICROCIRCUIT,DI:8192
MICROCIRCUIT,DI:8192
MICROCIRCUIT,DI:8192

A6U597
A6U597
A6U605
A6W160
A6W441
A6Y432

160-1679-03
160-1679-03
156-0469-02
131-0566-00
131-0566-00
158-0223-00

B030000
B040000

B039999

MICROCIRCUIT,DI:8192 X 8 EPROM,PRGM
MICROCIRCUIT,DI:8192 X 8 EPROM,PRGM
MICROCIRCUIT,DI:3/8 LINE DCDR
BUS CONDUCTOR:DUMMY RES,2.375,22 AWG
BUS CONDUCTOR:DUMMY RES,2.375,22 AWG
XTAL UNIT,QTZ:29.4912 MHZ,0.01%,SERIES

REV MAR 1984

B030000

Name & Description
X8
X8
X8
X8
X8
X8

EPROM,PRGM
EPROM,PRGM
EPROM,PRGM
EPROM,PRGM
EPROM,PRGM
EPROM,PRGM

Mfr
Code

Mfr Part Number

80009
80009
80009
80009
80009
80009

160-1525-00
160-1525-01
160-1525-02
160-1679-00
160-1679-01
160-1679-02

80009
80009
01295
57668
57668
33096

160-1679-03
1 60-1679-03
SN74LS138NP3
JWW-0200EO
JWW-0200EO
HC-18/U

10-25

Replaceable Electrical Parts
DAS 9100 Series Service Vol.lI

Mfr
Code

Mfr Part Number

PROBE,DATA ACQ:P6452,8-CHANNEL
SWITCH,PUSH:T,NO CONTACT,BLACK BTN
SWITCH,SLlDE:SPDT,0.4A,20VDC

80009
81073
95146

010-6452-01
39-3
TSS-11-DG-1-PC

670-7265-00

CKT BOARD ASSY:DATA ACQUISITION PROBE

80009

670-7265-00

A7A1C138
A7A1C139
A7A1C202
A7A1C204
A7A1C238
A7A1C331

283-0204-00
283-0204-00
283-0204-00
283-0204-00
283-0204-00
283-0204-00

CAP.,FXD,CER
CAP.,FXD,CER
CAP.,FXD,CER
CAP.,FXD,CER
CAP.,FXD,CER
CAP.,FXD,CER

96733
96733
96733
96733
96733
96733

R2676
R2676
R2676
R2676
R2676
R2676

A7A1C338
A7A1CR328
A7A1F300
A7A1Jl00
A7A1J202
A7A1R100

283-0204-00
152-0725-00
159-0195-00
131-1811-00
131-1812-00
317-0151-00

CAP.,FXD,CER 01:0.01 UF,20%,50V
SEMICOND DEVICE:SILlCON,SCHOTTKY,20V,1.2PF
FUSE,RADIAL LD:7A,125V,0.125 SEC
TERM SET,PIN:10,0.025 SQ ON 0.15 CTR
TERM SET,PIN:10,0.025 SQ ON 0.15 CTR
RES.,FXD,CMPSN:150 OHM,5%,0.125W

96733
50434
75915
22526
22526
01121

R2676
5082-2810
256-007
65595-110
65603-110
BB1515

A7A1R103
A7A1R105
A7A1R107
A7A1R120
A7A1R122
A7Al R124

317-0151-00
317-0151-00
317-0151-00
317-0511-00
317-0511-00
317-0511-00

RES.,FXD,CMPSN:150
RES.,FXD,CMPSN:150
RES.,FXD,CMPSN:150
RES.,FXD,CMPSN:510
RES.,FXD,CMPSN:510
RES.,FXD,CMPSN:510

OHM,5%,0.125W
OHM,5%,0.125W
OHM,5%,0.125W
OHM,5%,0.125W
OHM,5%,0.125W
OHM,5%,0.125W

01121
01121
01121
01121
01121
01121

BB1515
BB1515
BB1515
BB5115
BB5115
BB5115

A7Al R131
A7A1R132
A7A1R134
A7A1R200
A7A1R220
A7A1R222

317-0511-00
317-0511-00
317-0511-00
317-0151-00
317-0511-00
317-0511-00

RES.,FXD,CMPSN:510
RES.,FXD,CMPSN:510
RES.,FXD,CMPSN:510
RES.,FXD,CMPSN:150
RES.,FXD,CMPSN:510
RES.,FXD,CMPSN:510

OHM,5%,0.125W
OHM ,5%,0.125W
OHM,5%,0.125W
OHM,5%,0.125W
OHM,5%,0.125W
OHM,5%,0.125W

01121
01121
01121
01121
01121
01121

B85115
8B5115
885115
8B1515
B85115
BB5115

A7Al R224
A7A1R226
A7A1R231
A7A1R232
A7A1R234
A7A1R300

317-0511-00
317-0150-00
317-0511-00
317-0511-00
317 -0511-00
317-0101-00

RES.,FXD,CMPSN:510 OHM,5%,0.125W
RES.,FXD,CMPSN:150HM,5%,0.125W
RES.,FXD,CMPSN:5100HM,5%,0.125W
RES.,FXD,CMPSN:510 OHM,5%,0.125W
RES.,FXD,CMPSN:510 OHM,5%,0.125W
RES.,FXD,CMPSN:100 OHM,5%,0.125W

01121
01121
01121
01121
01121
01121

BB5115
BB1505
B85115
BB5115
8B5115
881015

A7A1R302
A7Al R304
A7A1R306
A7Al R308
A7A1R309
A7A1 R320

317-0151-00
317-0151-00
317-0151-00
317-0151-00
317-0151-00
317-0511-00

RES.,FXD,CMPSN:150
RES.,FXD,CMPSN:150
RES.,FXD,CMPSN: 150
RES.,FXD,CMPSN:150
RES.,FXD,CMPSN:150
RES.,FXD,CMPSN:510

OHM,5%,0.125W
OHM,5%,0.125W
OHM,5%,0.125W
OHM,5%,0.125W
OHM,5%,0.125W
OHM,5%,0.125W

01121
01121
01121
01121
01121
01121

B81515
881515
B81515
B81515
B81515
B85115

A7A1R322
A7A1R324
A7A1 R326
A7A1R329
A7A1R332
A7A1R334

317-0511-00
317-0511-00
317-0511-00
317-0511-00
317-0511-00
317-0511-00

RES.,FXD,CMPSN:510
RES.,FXD,CMPSN:510
RES.,FXD,CMPSN:510
RES.,FXD,CMPSN:510
RES.,FXD,CMPSN:510
RES.,FXD,CMPSN:510

OHM,5%,0.125W
OHM,5%,0.125W
OHM,5%,0.125W
OHM,5%,0.125W
OHM,5%,0.125W
OHM,5%,0.125W

01121
01121
01121
01121
01121
01121

B85115
BB5115
8B5115
8B5115
885115
885115

A7A1R336
A7A1U130
A7Al U230
A7A1U330
A7A1U430
A7A1W140

317-0511-00
156-0369-02
156-0369-02
156-0369-02
156-0369-02
175-3642-00

RES.,FXD,CMPSN:510 OHM,5%,0.125W
MICROCIRCUIT,DI:TRIPLE DIFF LINE RECEIVER
MICROCIRCUIT,DI:TRIPLE DIFF LINE RECEIVER
MICROCIRCUIT,DI:TRIPLE DIFF LINE RECEIVER
MICROCIRCUIT,DI:TRIPLE DIFF LINE RECEIVER
CA ASSY,SP,ELEC:34,28 AWG,79.13 L

01121
04713
04713
04713
04713
22526

885115
SC22689P216
SC22689P216
SC22689P216
SC22689P216
80278-001

Component No.

Tektronix
Part No.

A7
A7S100
A7S200

010-6452-01
260-0735-01
260-2081-00

A7A1

10-26

Serial/Model No.
Eft
Dscont

Name & Description

01:0.01 UF,20%,50V
01:0.01 UF,20%,50V
01:0.01 UF,20%,50V
01:0.01 UF,20%,50V
01:0.01 UF,20%,50V
01:0.01 UF,20%,50V

REV MAR 1984

Replaceable Electrical Parts
DAS 9100 Series Service Va!.11

Component No.
A7A1W340
A7A1W340
A7A1W340
A7A1W340
A7A1W440

REV MAR 1984

Tektronix
Part No.
195-3500-00
195-3501-00
195-3097 -00

Serial/Model No.
Ell
Dscont

Name & Description
LEAD,ELEC:26 AWG,24.0 L,9-01
(QUANTITY OF 2)
LEAD,ELEC:26 AWG,lB.O L,9-7
(QUANTITY OF 2)
LEAD,ELEC:26 AWG,3.0 L,9-0

Mlr
Code

Mlr Part Number

BOO09

195-3500-00

BOO09

195-3501-00

80009

195-3097-00

10-27

Replaceable Electrical Parts
DAS 9100 Series Service Vol.1I

Component No.

Tektronix
Part No.

Serial/Model No.
Eff
Dscont

A10

670-6738-00

B010100

B010599

A10

670-6738-01

B010600

B011414

A10

670-6738-03

B011415

B019999

A10

670-6738-01

B010100

B010495

A10

670-6738-03

B010496

B019999

A10
A10

670-6738-04
670-6738-05

B020000
B030000

B029999

A10C100
A10C107
A10C113
A10C114
A10C115
A10C151

281-0775-00
283-0330-00
281-0773-00
281-0775-00
281-0775-00
281-0775-00

CAP.,FXD,CER
CAP.,FXD,CER
CAP.,FXD,CER
CAP.,FXD,CER
CAP.,FXD,CER
CAP.,FXD,CER

A10C152
A10C153
A10C154
A10C155
A10C161
A10C172

281-0762-00
281-0762-00
281-0762-00
281-0775-00
281-0775-00
281-0775-00

A10C184
A10C201
A10C202
A10C208
A10C209
A10C210

Mfr
Code

Mfr Part Number

80009

670-6738-00

80009

670-6738-01

80009

670-6738-03

BASE

80009

670-6738-01

BASE

80009

670-6738-01

BASE
BASE

80009
80009

670-6738-04
670-6738-05

01:0.1 UF,20%,50V
DI:100PF,5%,50V
01:0.01 UF,1 0%,1 OOV
01:0.1 UF,20%,50V
01:0.1 UF,20%,50V
01:0.1 UF,20%,50V

04222
51642
04222
04222
04222
04222

MA205E104MAA
200-050-NPO-1 01 J
MA201C103KAA
MA205E104MAA
MA205E104MAA
MA205E104MAA

CAP.,FXD,CER
CAP.,FXD,CER
CAP.,FXD,CER
CAP.,FXD,CER
CAP.,FXD,CER
CAP.,FXD,CER

DI:27PF,20%,100V
DI:27PF,20%,100V
DI:27PF,20%,100V
01:0.1 UF,20%,50V
01:0.1 UF,20%,50V
DI:0.1UF,20%,50V

04222
04222
04222
04222
04222
04222

GC101A270M
GC101A270M
GC101A270M
MA205E104MAA
MA205E104MAA
MA205E104MAA

281-0775-00
281-0811-00
281-0773-00
281-0775-00
283-0330-00
281-0775-00

CAP.,FXD,CER
CAP.,FXD,CER
CAP.,FXD,CER
CAP.,FXD,CER
CAP.,FXD,CER
CAP.,FXD,CER

01:0.1 UF,20%,50V
DI:10PF,10%,100V
01 :0.01 UF,1 0%,1 OOV
01:0.1 UF,20%,50V
DI:100PF,5%,50V
DI:0.1UF,20%,50V

04222
96733
04222
04222
51642
04222

MA205E104MAA
R2911
MA201 C1 03KAA
MA205E104MAA
200-050-N PO-1 01 J
MA205E104MAA

A10C211
A10C212
A10C214
A10C221
A10C231
A10C235

281-0775-00
281-0775-00
281-0775-00
281-0775-00
281-0775-00
281-0775-00

CAP.,FXD,CER
CAP.,FXD,CER
CAP.,FXD,CER
CAP.,FXD,CER
CAP.,FXD,CER
CAP.,FXD,CER

01:0.1 UF,20%,50V
01:0.1 UF,20%,50V
DI:0.1UF,20%,50V
01:0.1 UF,20%,50V
01:0.1 UF,20%,50V
DI:0.1UF,20%,50V

04222
04222
04222
04222
04222
04222

MA205E104MAA
MA205E104MAA
MA205E104MAA
MA205E104MAA
MA205E104MAA
MA205E104MAA

A10C241
A10C245
A10C265
A10C275
A10C284
A10C303

281-0775-00
281-0775-00
281-0775-00
281-077 5-00
281-0775-00
281-0775-00

CAP.,FXD,CER
CAP.,FXD,CER
CAP.,FXD,CER
CAP.,FXD,CER
CAP.,FXD,CER
CAP.,FXD,CER

01:0.1 UF,20%,50V
01:0.1 UF,20%,50V
DI:0.1UF,20%,50V
01:0.1 UF,20%,50V
01:0.1 UF,20%,50V
DI:0.1UF,20%,50V

04222
04222
04222
04222
04222
04222

MA205E104MAA
MA205E104MAA
MA205E104MAA
MA205E104MAA
MA205E104MAA
MA205E104MAA

A10C304
A10C315
A10C316
A10C319
A10C331
A10C332

281-0775-00
281-0775-00
281-0775-00
281-0775-00
281-0762-00
281-0762-00

CAP.,FXD,CER
CAP.,FXD,CER
CAP.,FXD,CER
CAP.,FXD,CER
CAP.,FXD,CER
CAP.,FXD,CER

01:0.1 UF,20%,50V
DI:0.1UF,20%,50V
DI:0.1UF,20%,50V
01:0.1 UF,20%,50V
DI:27PF,20%,100V
DI:27PF,20%,100V

04222
04222
04222
04222
04222
04222

MA205E104MAA
MA205E104MAA
MA205E104MAA
MA205E104MAA
GC101A270M
GC101A270M

A10C333
A10C341
A10C355
A10C375
A10C381
A10C391

281-0775-00
281-0775-00
281-0775-00
281-0775-00
281-0775-00
281-0775-00

CAP.,FXD,CER
CAP.,FXD,CER
CAP.,FXD,CER
CAP.,FXD,CER
CAP.,FXD,CER
CAP.,FXD,CER

01:0.1 UF,20%,50V
01:0.1 UF,20%,50V
DI:0.1UF,20%,50V
01:0.1 UF,20%,50V
01:0.1 UF,20%,50V
01:0.1 UF,20%,50V

04222
04222
04222
04222
04222
04222

MA205E104MAA
MA205E104MAA
MA205E104MAA
MA205E104MAA
MA205E104MAA
MA205E104MAA

Name & Description
CKT BOARD ASSY:TRIGGER/TIME BASE
(DAS 9109 ONLY)
CKT BOARD ASSY:TRIGGER/TIME BASE
(DAS 9109 ONLY)
CKT BOARD ASSY:TRIGGER/TIME BASE
(DAS 9109 ONLY)
CKT BOARD ASSY:TRIGGER/TIME
(DAS 9129 ONLY)
CKT BOARD ASSY:TRIGGER/TIME
(DAS 9129 ONLY)
CKT BOARD ASSY:TRIGGER/TIME
CKT BOARD ASSY:TRIGGER/TIME

/,,,--

10-28

REV MAR 1984

Replaceable Electrical Parts
DAS 9100 Series Service Vo!.11

Component No.

Tektronix
Part No.

Serial/Model No.
Eft
Dscont

Al0C395
Al0C396
Al0C425
Al0C427
Al0C429
Al0C431

281-0775-00
281-0775-00
281-0775-00
281-0775-00
281-0775-00
281-0775-00

Al0C435
Al0C437
Al0C439
Al0C445
Al0C451
Al0C455

281-0775-00
281-0775-00
281-0775-00
281-0775-00
281-0775-00
281-0775-00

Al0C461
Al0C465
Al0C471
Al0C475
Al0C481
A10C501

281-0775-00
281-0775-00
281-0775-00
281-0775-00
281-0775-00
281-0775-00

A10C502
Al0C511

281-0775-00
281-0773-00

B011415

Al0C511

281-0773-00

B010496

Al0C541

Name & Description

Mfr
Code

Mfr Part Number

CAP.,FXD,CER
CAP.,FXD,CER
CAP.,FXD,CER
CAP.,FXD,CER
CAP.,FXD,CER
CAP.,FXD,CER

DI:O.l UF,20%,50V
DI:O.l UF,20%,50V
DI:O.l UF,20%,50V
DI:O.l UF,20%,50V
DI:O.l UF,20%,50V
DI:O.l UF.20%,50V

04222
04222
04222
04222
04222
04222

MA205El04MAA
MA205El04MAA
MA205El04MAA
MA205El04MAA
MA205El04MAA
MA205El04MAA

CAP.,FXD,CER
CAP.,FXD,CER
CAP.,FXD,CER
CAP.,FXD,CER
CAP.,FXD,CER
CAP.,FXD,CER

DI:0.1UF,20%,50V
DI:O.l UF,20%,50V
DI:O.l UF,20%,50V
DI:O.l UF,20%,50V
DI:O.l UF,20%,50V
DI:0.1UF,20%,50V

04222
04222
04222
04222
04222
04222

MA205El04MAA
MA205El04MAA
MA205El04MAA
MA205El04MAA
MA205El04MAA
MA205El04MAA

CAP.,FXD,CER
CAP.,FXD,CER
CAP.,FXD,CER
CAP.,FXD,CER
CAP.,FXD,CER
CAP.,FXD,CER

DI:O.l UF,20%,50V
DI:O.l UF,20%,50V
DI:0.1UF,20%,50V
DI:O.l UF,20%,50V
DI:0.1UF,20%,50V
DI:0.1 UF,20%,50V

04222
04222
04222
04222
04222
04222

MA205El04MAA
MA205El04MAA
MA205El04MAA
MA205El04MAA
MA205E104MAA
MA205El04MAA

DI:0.1 UF,20%,50V
DI:0.01 UF,l 0%,1 OOV

04222
04222

MA205E104MAA
MA201Cl03KAA

DI:0.01 UF, 10%,1 OOV

04222

MA201 Cl 03KAA

281-0792-00

CAP.,FXD,CER
CAP.,FXD,CER
(9109 ONLY)
CAP .,FXD,CER
(9129 ONLY)
CAP.,FXD,CER

DI:82PF,10%,100V

12969

CGB820KEN

A10C542
A10C551
A10C561
Al0C571
A10C585
A10C596

281-0792-00
281-0770-00
283-0177-00
281-0775-00
281-0775-00
281-0775-00

CAP.,FXD,CER
CAP.,FXD,CER
CAP.,FXD,CER
CAP.,FXD,CER
CAP.,FXD,CER
CAP.,FXD,CER

DI:82PF, 10%,1 OOV
DI:0.001UF,20%,100V
DI:1UF,+80-20%.25V
DI:O.l UF,20%,50V
DI:0.1 UF,20%.50V
DI:O.l UF,20%,50V

12969
04222
56289
04222
04222
04222

CGB820KEN
MA 101 C1 02MAA
2C20Z5U105Z025B
MA205E104MAA
MA205E104MAA
MA205E104MAA

Al0C610
Al0C630
Al0J195
A10J195
Al0J200
A10J200

281-0775-00
281 -0775-00
131 -0608-00

CAP.,FXD,CER DI:O.l UF,20%,50V
CAP.,FXD,CER DI:0.1 UF,20%,50V
TERMINAL,PIN:0.365 LX 0.025 PH BRZ GOLD
(QUANTITY OF 6)
TERMINAL,PIN:0.365 LX 0.025 PH BRZ GOLD
(QUANTITY OF 3)

04222
04222
22526

MA205E104MAA
MA205El04MAA
47357

22526

47357

A10J400
A10J400
A10J600
Al0J600
A10L101
Al0Q116

131-2567-00
131-2797-00
131-0608-00

22526
22526
22526

65461-006
65461-033
47357

108-0182-00
151-0710-00

CONN,RCPT,ELEC:CKT BD,17/34 CONT,RT ANGLE
CONN,RCPT,ELEC:RTANG HEADER.2 X 17,0.1 CTR
TERMINAL,PIN:0.365 L X 0.025 PH BRZ GOLD
(QUANTITY OF 3)
COIL,RF:0.3UH
TRANSISTOR:SILlCON,NPN

80009
27014

108-0182-00
2N6715/92 PUOl A

Al0Q211
A10Q212
A10Q310
A10Q311
A10Q312
A10Q431

151-0221-00
151-0221-00
151-0223-00
151-0221-00
151-0221-00
151-0221-00

TRANSISTOR:SILlCON,PNP
TRANSISTOR:SILlCON,PNP
TRANSISTOR:SILlCON,NPN
TRANSISTOR:SILlCON,PNP
TRANSISTOR:SILlCON,PNP
TRANSISTOR:SILlCON,PNP

04713
04713
04713
04713
04713
04713

SPS246
SPS246
SPS8026
SPS246
SPS246
SPS246

A10Q432
A10Q538
A10Q539
A10R100
A10R106
A10R107

151-0221-00
151-0223-00
151-0223-00
315-0511-00
311-1257-00
315-0475-00

TRANSISTOR:SILlCON,PNP
TRANSISTOR:SILlCON,NPN
TRANSISTOR:SILlCON,NPN
RES.,FXD,CMPSN:510 OHM,5%,0.25W
RES.,VAR,NONWIR:5M OHM,20%,0.50W
RES.,FXD,CMPSN:4.7M OHM,5%,0.25W

04713
04713
04713
01121
32997
01121

SPS246
SPS8026
SPS8026
CB5115
3386F-T04-505
CB4755

REV MAR 1984

B010525

131-0608-00

B010l00
8010215

B010214

10-29

Replaceable Electrical Parts
DAS 9100 Series Service Vol.II

Component No.

Tektronix
Part No.

Al0Rll0
Al0Rlll
Al0Rl12
Al0Rl13
Al0Rl14
Al0Rl14

311-1307-00
321-0166-00
321-0931-03
315-0511-00
315-0271-00
315-0561-00

Al0Rl15
Al0Rl16
Al0Rl17
Al0Rl18
Al0R121
Al0R121

321 -0641-07
321-0754-07
321-0318-00
315-0203-00
315-0271-00
315-0561-00

Al0R124
Al0R152
Al0R153
Al0R154
Al0R161
Al0R172

Serial/Model No.
Eft
Dscont

Mfr
Code

Mfr Part Number

RES.,VAR,NONWIR:500 OHM,0.50W
RES.,FXD,FILM:523 OHM,l %,0.125W
RES.,FXD,FILM:l.ll K OHM,0.25%,0.125W
RES.,FXD,CMPSN:510 OHM,5%,0.25W
RES.,FXD,CMPSN:270 OHM,5%,0.25W
RES.,FXD,CMPSN:560 OHM,5%,0.25W

32997
91637
91637
01121
01121
01121

3299W-R27 -501
MFF1816G523ROF
MFF1816Dlll00C
CB5115
CB2715
CB5615

RES.,FXD,FILM: 1.8K OHM ,0.1 %,0.125W
RES.,FXD,FILM:900 OHM,0.1%,0.125W
RES.,FXD,FILM:20K OHM,1%,0.125W
RES.,FXD,CMPSN:20K OHM,5%,0.25W
RES.,FXD,CMPSN:270 OHM,5%,0.25W
RES.,FXD,CMPSN:560 OHM,5%,0.25W

91637
91637
91637
01121
01121
01121

MFF1816C18000B
MFF1816C900ROB
MFF1816G20001 F
CB2035
CB2715
CB5615

307-0811-00
315-0101-00
315-0101-00
315-0101-00
315-0102-00
315-0102-00

RES NTWK,FXD,FI:
RES.,FXD,CMPSN:l00 OHM,5%,0.25W
RES.,FXD,CMPSN:l00 OHM,5%,0.25W
RES.,FXD,CMPSN:l00 OHM,5%,0.25W
RES.,FXD,CMPSN:l K OHM,5%,0.25W
RES.,FXD,CMPSN:l K OHM,5%,0.25W

01121
01121
01121
01121
01121
01121

316Tll0
CB1015
CB1015
CB1015
CB1025
CB1025

Al0R173
Al0R174
Al0R176
Al0R201
A10R202
Al0R203

315-0102-00
315-0102-00
315-0103-00
315-0512-00
315-0511-00
315-0511-00

RES.,FXD,CMPSN:l K OHM,5%,0.25W
RES.,FXD,CMPSN: 1K OHM,5%,0.25W
RES.,FXD,CMPSN:l0K OHM,5%,0.25W
RES.,FXD,CMPSN:5.1 K OHM,5%,0.25W
RES.,FXD,CMPSN:510 OHM,5%,0.25W
RES.,FXD,CMPSN:510 OHM,5%,0.25W

01121
01121
01121
01121
01121
01121

CB1025
CB1025
CB1035
CB5125
CB5115
CB5115

Al0R204
Al0R205
Al0R206
A10R207
A10R208
Al0R209

321-0231-00
321-0289-00
315-01 04-00
315-0103-00
315-01 04-00
307-0811-00

RES.,FXD,FILM:2.49K OHM,1%,0.125W
RES.,FXD,FILM:l0K OHM,1%,0.125W
RES.,FXD,CMPSN:l00K OHM,5%,0.25W
RES.,FXD,CMPSN:l0K OHM,5%,0.25W
RES.,FXD,CMPSN:l00K OHM,5%,0.25W
RES NTWK,FXD,FI:

91637
91637
01121
01121
01121
01121

MFF1816G24900F
MFF1816Gl 0001 F
CB1045
CB1035
CB1045
316T110

Al0R210
Al0R213
Al0R214
Al0R215
Al0R221
Al0R225

321-0272-07
315-0330-00
315-0511-00
31 5-0561-00
315-0101-00
315-0102-00

RES.,FXD,FILM:6.65K OHM,0.1%,0.125W
RES.,FXD,CMPSN:330HM,5%,0.25W
RES.,FXD,CMPSN:510 OHM,5%,0.25W
RES.,FXD,CMPSN:560 OHM,5%,0.25W
RES.,FXD,CMPSN:l00 OHM,5%,0.25W
RES.,FXD,CMPSN:l K OHM,5%,0.25W

91637
01121
01121
01121
01121
01121

MFF1816C66500B
CB3305
CB5115
CB5615
CB1015
CB1025

Al0R235
Al0R236
Al0R241
Al0R242
Al0R251
Al0R302

315-0101-00
315-0101-00
315-0101-00
315-0101-00
315-0102-00
321-0097-00

B011415

RES.,FXD,CMPSN:l00 OHM,5%,0.25W
RES.,FXD,CMPSN:l00 OHM,5%,0.25W
RES.,FXD,CMPSN:l00 OHM,5%,0.25W
RES.,FXD,CMPSN:l00 OHM,5%,0.25W
RES.,FXD,CMPSN:l K OHM,5%,0.25W
RES.,FXD,FILM:l00 OHM,1%,0.125W

01121
01121
01121
01121
01121
91637

CB1015
CB1015
CB1015
CB1015
CB1025
MFF1816Gl00ROF

Al0R302

321-0097-00

B010496

91637

MFF1816Gl00ROF

Al0R303

321-0114-00

B011415

91637

MFF1816G150ROF

Al0R303

321-0114-00

B010496

91637

MFF1816G150ROF

Al0R304

321-0105-00

BOl1415

91637

MFF1816G121ROF

A10R304

321-0105-00

B010496

91637

MFF1816G121ROF

10-30

BOl 01 00
B010600

B010l00
B010600

B010599

B010599

Name & Description

(DAS 9109 ONLY)
RES.,FXD,FILM:l00 OHM,1%,0.125W
(DAS 9129 ONLY)
RES.,FXD,FILM:150 OHM,1%,0.125W
(DAS 9109 ONLY)
RES.,FXD,FILM:150 OHM,1%,0.125W
(DAS 9129 ONLY)
RES.,FXD,FILM:121 OHM,1%,0.125W
(DAS 9109 ONLY)
RES.,FXD,FILM:121 OHM,l %,0.125W
(DAS 9129 ONLY)

REV MAR 1984

Replaceable Electrical Parts
DAS 9100 Series Service Vol.lI

Component No.

Tektronix
Part No.

Serial/Model No.
Eff
Dscont

Mfr
Code

Mfr Part Number

A10R304

321 ·01 05·00

B011415

91637

MFF1816G121ROF

91637

MFF1816G121ROF

315·0151 ·00
315·0103·00

RES.,FXD,FILM:121 OHM,1%,0.125W
(DAS 9109 ONLY)
RES.,FXD,FILM:121 OHM,1%,0.125W
(DAS 9129 ONLY)
RES.,FXD,CMPSN:150 OHM,5%,0.25W
RES.,FXD,CMPSN: 1OK OHM,5%,0.25W

A10R305

321 ·01 05·00

B010496

A10R306
A10R307

01121
01121

CB1515
CB1035

A10R308
A10R309
A10R310
A10R311
A10R312
A10R313

315·0271 ·00
315·0271 ·00
315·0101 ·00
315·0101 ·00
315·0511·00
315·0330·00

RES.,FXD,CMPSN:270 OHM,5%,0.25W
RES.,FXD,CMPSN:270 OHM,5%,0.25W
RES.,FXD,CMPSN: 100 OHM,5%,0.25W
RES.,FXD,CMPSN: 100 OHM,5%,0.25W
RES.,FXD,CMPSN:510 OHM,5%,0.25W
RES.,FXD,CMPSN:33 OHM,5%,0.25W

01121
01121
01121
01121
01121
01121

CB2715
CB2715
CB1015
CB1015
CB5115
CB3305

A10R330
A10R331
A10R332
A10R333
A10R334
A10R335

321 ·0185·00
321 ·0138·00
321 ·0122·00
321 ·0239·00
315·0102·00
321 ·0185·00

RES.,FXD,FILM:8250HM,1%,0.125W
RES.,FXD,FILM:2670HM,1%,0.125W
RES.,FXD,FILM:1820HM,1%,0.125W
RES.,FXD,FILM:3.01 K OHM,1 %,0.125W
RES.,FXD,CMPSN: 1K OHM,5%,0.25W
RES.,FXD,FILM:8250HM,1%,0.125W

91637
91637
91637
91637
01121
91637

MFF1816G825ROF
MFF1816G267ROF
MFF1816G182ROF
MFF1816G30100F
CB1025
MFF1816G825ROF

A10R336
A10R351
A10R376
A10R377
A10R379
A10R380

321 ·0138·00
315·0102·00
321 ·0075·00
321·0136·00
321·0160·00
321·0075·00

RES.,FXD,FILM:2670HM,1%,0.125W
RES.,FXD,CMPSN:1 K OHM,5%,0.25W
RES.,FXD,FILM:590HM,1%,0.125W
RES.,FXD,FILM:2550HM,1%,0.125W
RES.,FXD,FILM:4530HM,1%,0.125W
RES.,FXD,FILM:590HM,1%,0.125W

91637
01121
91637
91637
91637
91637

MFF1816G267ROF
CB1025
MFF1816G59ROOF
MFF1816G255ROF
MFF1816G453ROF
MFF1816G59ROOF

A10R383
A10R400
A10R401
A10R402
A10R403
A10R404

307·0445·00
315·0271 ·00
315·0271 ·00
321·0105·00
321 ·0097·00
321·0105·00

RES NTWK,FXD,FI:4.7K OHM,20%,(9) RES
RES.,FXD,CMPSN:270 OHM,5%,0.25W
RES.,FXD,CMPSN:270 OHM,5%,0.25W
RES.,FXD,FILM:121 OHM,1%,0.125W
RES.,FXD,FILM:100 OHM,1%,0.125W
RES.,FXD,FIl.M:121 OHM,1%,0.125W

91637
01121
01121
91637
91637
91637

MSP10A01·472M
CB2715
CB2715
MFF1816G121ROF
MFF1816G100ROF
MFF1816G121ROF

A10R405
A10R406
A10R407
A10R408
A10R409
A10R410

321 ·0097·00
321 ·01 05·00
321·0097·00
321·0097·00
321 ·01 05·00
321 ·01 05·00

RES.,FXD,FILM:100
RES.,FXD,FILM:121
RES.,FXD,FILM:100
RES.,FXD,FILM:100
RES.,FXD,FILM:121
RES.,FXD,FILM:121

OHM,1%,0.125W
OHM,1%,0.125W
OHM,1%,0.125W
OHM,1%,0.125W
OHM,1%,0.125W
OHM,1%,0.125W

91637
91637
91637
91637
91637
91637

MFF1816G100ROF
MFF1816G121ROF
MFF1816G100ROF
MFF1816G100ROF
M FF1816G121 ROF
MFF1816G121ROF

A10R411
A10R412
A10R413
A10R414
A10R415
A10R416

321 ·0114·00
321·0105·00
321·0114·00
321 ·01 05·00
321·0114·00
321·0114·00

RES.,FXD,FILM:150
RES.,FXD,FILM:121
RES.,FXD,FILM:150
RES.,FXD,FILM:121
RES.,FXD,FILM:150
RES.,FXD,FILM:150

OHM,1%,0.125W
OHM,1%,0.125W
OHM,1%,0.125W
OHM,1%,0.125W
OHM,1%,0.125W
OHM,1%,0.125W

91637
91637
91637
91637
91637
91637

MFF1816G150ROF
MFF1816G121ROF
MFF1816G150ROF
MFF1816G121ROF
MFF1816G150ROF
MFF1816G150ROF

A10R417
A10R418
A10R419
A10R420
A10R421
A10R422

321 ·01 05·00
315·0511 ·00
315·0271 ·00
315·0511 ·00
315·0511 ·00
315·0511 ·00

RES.,FXD,FILM:121 OHM,1%,0.125W
RES.,FXD,CMPSN:510 OHM,5%,0.25W
RES.,FXD,CMPSN:270 OHM,5%,0.25W
RES.,FXD,CMPSN:510 OHM,5%,0.25W
RES.,FXD,CMPSN:510 OHM,5%,0.25W
RES.,FXD,CMPSN:510 OHM,5%,0.25W

91637
01121
01121
01121
01121
01121

MFF1816G121ROF
CB5115
CB2715
CB5115
CB5115
CB5115

A10R423
A10R424
A10R425
A10R427
A10R429
A10R434

315·0102·00
315·01 02·00
315·0511·00
315·0511·00
315·0511·00
315·0512·00

RES.,FXD,CMPSN:1 K OHM,5%,0.25W
RES.,FXD,CMPSN:1 K OHM,5%,0.25W
RES.,FXD,CMPSN:510 OHM,5%,0.25W
RES.,FXD,CMPSN:510 OHM,5%,0.25W
RES.,FXD,CMPSN:510 OHM,5%,0.25W
RES.,FXD,CMPSN:5.1 K OHM,5%,0.25W

01121
01121
01121
01121
01121
01121

C81025
CB1025
C85115
C85115
CB5115
C85125

REV MAR 1984

Name & Description

10-31

Replaceable Electrical Parts
DAS 9100 Series Service Vol.1I

Component No.

Tektronix
Part No.

Name & Description

Mfr
Code

Mfr Part Number

A10R435
A10R436
A10R438
A10R440
A10R441
A10R444

321-0033-00
321-0195-00
315-0102-00
315-0391-00
315-0102-00
315-0103-00

RES.,FXD,FILM:21.50HM,l%,O.125W
RES.,FXD,FILM: 1.05K OHM,l %,O.125W
RES.,FXD,CMPSN: 1K OHM,5%,O.25W
RES.,FXD,CMPSN:390 OHM,5%,O.25W
RES.,FXD,CMPSN:1K OHM,5%,O.25W
RES.,FXD,CMPSN:10K OHM,5%,O.25W

91637
91637
01121
01121
01121
01121

MFF1816G21 R50F
MFF1816G10500F
CB1025
CB3915
CB1025
CB1035

A10R455
A10R474
A10R475
A10R476
A10R481
A10R485

315-0102-00
315-0102-00
315-0101-00
315-0103-00
315-0101-00
315-0101-00

RES.,FXD,CMPSN: 1K OHM,5%,O.25W
RES.,FXD,CMPSN:1K OHM,5%,O.25W
RES.,FXD,CMPSN:100 OHM,5%,O.25W
RES.,FXD,CMPSN:10K OHM,5%,O.25W
RES.,FXD,CMPSN:100 OHM,5%,O.25W
RES.,FXD,CMPSN:100 OHM,5%,O.25W

01121
01121
01121
01121
01121
01121

CB1025
CB1025
CB1015
CB1035
CB1015
CB1015

A10R491
A10R500
A10R501
A10R502
A10R503
A10R504

315-0101-00
321-0105-00
321-0097-00
321-0097-00
321-0105-00
321-0105-00

RES.,FXD,CMPSN:100 OHM,5%,O.25W
RES.,FXD,FILM:t210HM,l%,O.125W
RES.,FXD,FILM:100 OHM,l%,O.125W
RES.,FXD,FILM:100 OHM,l%,0.125W
RES.,FXD,FILM:121 OHM,l%,0.125W
RES.,FXD,FILM:121 OHM,l%,0.125W

01121
91637
91637
91637
91637
91637

CB1015
MFF1816G121 ROF
MFF1816G100ROF
MFF1816G100ROF
MFF1816G121ROF
MFF1816G121ROF

A10R505
A10R506
A10R508
A10R509
A10R510
A10R511

321-0097-00
315-0103-00
315-0103-00
315-0103-00
321-0105-00
321-0114-00

RES.,FXD,FILM:100 OHM,l%,O.125W
RES.,FXD,CMPSN:10K OHM,5%,0.25W
RES.,FXD,CMPSN:10K OHM,5%,0.25W
RES.,FXD,CMPSN:10K OHM,5%,0.25W
RES.,FXD,FILM:1210HM,1%,0.125W
RES.,FXD,FILM:150 OHM,1%,0.125W

91637
01121
01121
01121
91637
91637

MFF1816G100ROF
CB1035
CB1035
CB1035
MFF1816G121 ROF
MFF1816G150ROF

A10R511
A10R512
A10R513
A10R514
A10R515
A10R516

315-0100-00
321-0114-00
321-0105-00
321-0105-00
321-0114-00
315-0820-00

RES.,FXD,CMPSN:10 OHM,5%,0.25W
RES.,FXD,FILM:150 OHM,1%,0.125W
RES.,FXD,FILM:121 OHM,1%,0.125W
RES.,FXD,FILM:121 OHM,l%,O.125W
RES.,FXD,FILM:150 OHM,l%,O.125W
RES.,FXD,CMPSN:82 OHM,5%,0.25W

01121
91637
91637
91637
91637
01121

CB1005
MFF1816G150ROF
MFF1816G121ROF
MFF1816G121ROF
MFF1816G150ROF
CB8205

A10R517
A10R518
A10R519
A10R520
A10R523
A10R524

315-0131-00
315-0131-00
315-0820-00
321-0122-00
321-0089-00
321-0106-00

RES.,FXD,CMPSN:130 OHM,5%,0.25W
RES.,FXD,CMPSN:130 OHM,5%,0.25W
RES.,FXD,CMPSN:82 OHM,5%,0.25W
RES.,FXD,FILM:1820HM,l%,0.125W
RES.,FXD,FILM:82.50HM,l%,O.125W
RES.,FXD,FILM:1240HM,1%,O.125W

01121
01121
01121
91637
91637
91637

CB1315
CB1315
CB8205
MFF1816G182ROF
MFF1816G82R50F
MFF1816G124ROF

A10R525
A10R526
A10R528
A10R529
A10R530
A10R531

321-0106-00
321-0089-00
321-0089-00
321-0106-00
315-0911-00
315-0391-00

RES.,FXD,FILM:1240HM,l%,O.125W
RES.,FXD,FILM:82.50HM,l%,O.125W
RES.,FXD,FILM:82.50HM,1%,0.125W
RES.,FXD,FILM:1240HM,1%,0.125W
RES.,FXD,CMPSN:910 OHM,5%,O.25W
RES.,FXD,CMPSN:390 OHM,5%,0.25W

91637
91637
91637
91637
01121
01121

MFF1816G124ROF
MFF1816G82R50F
MFF1816G82R50F
MFF1816G124ROF
CB9115
CB3915

A10R532
A10R533
A10R534
A10R535
A10R536
A10R537

315-0511-00
315-0391-00
315-0911-00
315-0391-00
315-0911-00
315-0391-00

RES.,FXD,CMPSN:510
RES.,FXD,CMPSN:390
RES.,FXD,CMPSN:910
RES.,FXD,CMPSN:390
RES.,FXD,CMPSN:910
RES.;FXD,CMPSN:390

OHM,5%,O.25W
OHM,5%,0.25W
OHM,5%,0.25W
OHM,5%,O.25W
OHM,5%,O.25W
OHM,5%,0.25W

01121
01121
01121
01121
01121
01121

CB5115
CB3915
CB9115
CB3915
CB9115
CB3915

A10R538
A10R539
A10R540
A10R541
A10R542
A10R543

315-0911-00
315-0271-00
315-0241-00
315-0431-00
315-0241-00
315-0431-00

RES.,FXD,CMPSN:910
RES.,FXD,CMPSN:270
RES.,FXD,CMPSN:240
RES.,FXD,CMPSN:430
RES.,FXD,CMPSN:240
RES.,FXD,CMPSN:430

OHM,5%,O.25W
OHM,5%,0.25W
OHM,5%,0.25W
OHM,5%,O.25W
OHM,5%,O.25W
OHM,5%,O.25W

01121
01121
01121
01121
01121
01121

CB9115
CB2715
CB2415
CB4315
CB2415
CB4315

Serial/Model No.
Eft
Dscont

B010180
B010181

B010100

B010100
B010600

B010599

B010599

/

10-32

REV MAR 1984

Replaceable Electrical Parts
DAS 9100 Series Service Vol.lI

Component No.

Tektronix
Part No.

Al0R551
Al0R560
Al0R600
Al0R601

307-0811-00
315-0101-00
315-0100-00
315-0100-00

B010600
BOl1415

Al0R601

315-0100-00

B010496

AlOTPl05
Al0TPll0
Al0TP191
Al0TP208
Al0TP221

214-0579-00
214-0579-00
131-1493-00
214-0579-00
214-0579-00

Al0TP245
Al0TP248
Al0TP255
Al0TP303
Al0TP341
Al0TP378

Serial/Model No.
Eft
Dscont

Name & Description

Mfr
Code

Mfr Part Number

RES NTWK,FXD,FI:
RES.,FXD,CMPSN:l00 OHM,5%,0.25W
RES.,FXD,CMPSN:l0 OHM,5%,0.25W
RES.,FXD,CMPSN:l0 OHM,5%,0.25W
(DAS 9109 ONLY)
RES.,FXD,CMPSN:l0 OHM,5%,0.25W

01121
01121
01121
01121

316Tll0
CB1015
CB1005
CB1005

01121

CB1005

(DAS 9129 ONLY)
TERM,TEST POINT:BRS CD PL
TERM,TEST POINT:BRS CD PL
CONTACT,ELEC:TEST POINT STRAP
TERM,TEST POINT:BRS CD PL
TERM,TEST POINT:BRS CD PL

80009
80009
80009
80009
80009

214-0579-00
214-0579-00
131-1493-00
214-0579-00
214-0579-00

214-0579-00
214-0579-00
214-0579-00
214-0579-00
214-0579-00
214-0579-00

TERM,TEST
TERM,TEST
TERM,TEST
TERM,TEST
TERM,TEST
TERM,TEST

POINT:BRS
POINT:BRS
POINT:BRS
POINT:BRS
POINT:BRS
POINT:BRS

CD
CD
CD
CD
CD
CD

PL
PL
PL
PL
PL
PL

80009
80009
80009
80009
80009
80009

214-0579-00
214-0579-00
214-0579-00
214-0579-00
214-0579-00
214-0579-00

Al0TP380
Al0TP3B7
Al0TP473
Al0TP537
Al0TP545
Al0TP565

214-0579-00
214-0579-00
214-0579-00
214-0579-00
214-0579-00
214-0579-00

TERM,TEST
TERM,TEST
TERM,TEST
TERM,TEST
TERM,TEST
TERM,TEST

POINT:BRS
POINT:BRS
POINT:BRS
POINT:BRS
POINT:BRS
POINT:BRS

CD
CD
CD
CD
CD
CD

PL
PL
PL
PL
PL
PL

80009
BOO09
80009
80009
BOO09
BOO09

214-0579-00
214-0579-00
214-0579-00
214-0579-00
214-0579-00
214-0579-00

Al0TP567
Al0TP573
Al0Ul00
Al0Ul0B
Al0Ul09
Al0U121

214-0579-00
214-0579-00
156-0205-02
156-0B58-00
156-0105-00
156-1255-01

TERM,TEST POINT:BRS CD PL
TERM,TEST POINT:BRS CD PL
MICROCIRCUIT,DI:QUAD 2-INP NOR GATE,SCRN
MICROCIRCUIT,DI:QUAD SPST ANALOG XMSN GATE
MICROCIRCUIT,LI:OPERATIONAL AMPLIFIER
MICROCIRCUIT,LI:D/A CONVERTER,BURN-IN

BOO09
BOO09
04713
17856
27014
04713

214-0579-00
214-0579-00
MCl 01 02PD/LD
DG201ACJ
LM301AN
DAC-08HQDS

Al0U12B
Al0U131
Al0U135
Al0U141
Al0U145
Al0U151

156-0865-02
156-0865-02
156-0865-02
156-0865-02
156-011 B-03
156-0320-03

MICROCIRCUIT,DI:OCTAL D-TYPE FF W/CLEAR
MICROCIRCUIT,DI:OCTAL D-TYPE FF W/CLEAR
MICROCIRCUIT,DI:OCTAL D-TYPE FF W/CLEAR
MICROCIRCUIT,DI:OCTAL D-TYPE FF W/CLEAR
MICROCIRCUIT,DI:l DUAL J-K FF,BURN-IN
MICROCIRCUIT,DI:TRIPLE 3 INP NAND GATE

01295
01295
01295
01295
01295
01295

SN74LS273NP3
SN74LS273NP3
SN74LS273NP3
SN74LS273NP3
SN74S112JP3
SN74S11 NP3

Al0U155
Al0U161
Al0U165
Al0Ul77
Al0U181
Al0U181

156-0118-03
156-1183-00
156-1183-00
156-0956-02
160-0832-00
160-0832-02

MICROCIRCUIT,DI:l DUAL J-K FF,BURN-IN
MICROCIRCUIT,DI:PRESET BINARY LATCH/CNTR
MICROCIRCUIT,DI:PRESET BINARY LATCH/CNTR
MICROCIRCUIT,DI:OCTAL BFR W/3 STATE OUT
MICROCIRCUIT,DI:8192 X 8 PROM,PRGM,SCRN
MICROCIRCUIT,DI:8192 X 8 EPROM,PROGRAMMED

01295
80009
BOO09
01295
80009
80009

SN74S112JP3
156-11 83-00
156-1183-00
SN74LS244NP3
160-0832-00
160-0832-02

Al0U183
Al0U1B3
Al0U183
Al0U206
Al0U215
Al0U221

160-0931-00
160-0931-01
160-0931-03
156-0105-00
156-0642-01
156-0324-03

MICROCIRCUIT,DI:8192 X 8 PROM,PRGM,SCRN
MICROCIRCUIT,DI:8192 X 8 PROM,PRGM,SCRN
MICROCIRCUIT,DI:8192 X 8 PROM,PRGM,SCRN
MICROCIRCUIT,LI:OPERATIONAL AMPLIFIER
MICROCIRCUIT,DI:BI QUINARY CNTR,SCRN
MICROCIRCUIT,DI:8 INP DATA SEL,SCRN

80009
80009
80009
27014
04713
01295

160-0931-00
160-0931-00
160-0931-00
LM301AN
MC10138PD/LD
SN74S151

Al0U225
Al0U231
Al0U235
Al0U241
Al0U245
A10U248

156-0883-02
156-0324-03
156-0910-02
156-0910-02
156-0331-03
156-0472-03

MICROCIRCUIT,DI:100MHZ PRESETTABLE DECADE
MICROCIRCUIT,DI:8 INP DATA SEL,SCRN
MICROCIRCUIT,DI:DUAL DECADE COUNTER
MICROCIRCUIT,DI:DUAL DECADE COUNTER
MICROCIRCUIT,DI:DUAL D TYPE POS EDGE TRIG
MICROCIRCUIT,DI:13 INPUT NAND GATE,SCRN

27014
01295
01295
01295
80009
01295

DM74S196JA+
SN74S151
SN74LS390
SN74LS390
156-0331-03
SN74S133

REV MAR 1984

B010l00

B010599

B010100
B030000

B029999

B010l00
B020000
B030000

B019999
B029999

10-33

Replaceable Electrical Parts
CAS 9100 Series Service Vol.1I

Component No.

Tektronix
Part No.

Al0U251
Al0U255
Al0U261
Al0U265
Al0U271
Al0U274

156-0324-03
156-1183-00
156-1183-00
156-0459-02
156-0865-02
156-0865-02

Al0U275
Al0U281
Al0U281
Al0U281
Al0U283
A10U287

156-0865-02
160-0928-00
160-0928-02
160-0928-04
160-0828-00
160-0829-00

B010l00
B020000
B030000

B019999
B029999

B010100

B019999

Al0U287
Al0U291
Al0U291
Al0U295
Al0U308

160-0929-01
160-0930-00
160-0930-01
160-1841-00
156-0369-03

B020000
B010100
B020000
B020000
BOl1415

Al0U308

156-0369-03

B010496

Al0U309
Al0U310
Al0U315
Al0U321

Mlr
Code

Mlr Part Number

MICROCIRCUIT,DI:8 INP DATA SEL,SCRN
MICROCIRCUIT,DI:PRESET BINARY LATCH/CNTR
MICROCIRCUIT,DI:PRESET BINARY LATCH/CNTR
MICROCIRCUIT,DI:QUAD 2 INPUT & GATE,BURN
MICROCIRCUIT,DI:OCTAL D-TYPE FF W/CLEAR
MICROCIRCUIT,DI:OCTAL D-TYPE FF W/CLEAR

01295
80009
80009
01295
01295
01295

SN74S151
156-1183-00
156-1183-00
SN74S08
SN74LS273NP3
SN74LS273NP3

MICROCIRCUIT,DI:OCTAL D-TYPE FF W/CLEAR
MICROCIRCUIT,DI:8192 X 8 PROM,PRGM,SCRN
MICROCIRCUIT,DI:8192 X 8 PROM,PRGM,SCRN
MICROCIRCUIT,DI:8192 X 8 PROM,PRGM,SCRN
MICROCIRCUIT,DI:8192 X 8 PROM,PRGM,SCRN
MICROCIRCUIT,DI:8192 X 8 PROM,PRGM,SCRN

01295
80009
80009
80009
80009
80009

SN74LS273NP3
160-0928-00
160-0928-02
160-0928-04
160-0828-00
160-0829-00

MICROCIRCUIT,DI:512 X 8 BIPOLAR,PRGM
MICROCIRCUIT,DI:8192 X 8 PROM.PRGM,SCRN
MICROCIRCUIT,DI:8192 X 8 PROM,PRGM,SCRN
MICROCIRCUIT,DI:8192 X 8 MROM,PROGRAMMED
MICROCIRCUIT,DI:TRIPLE LINE RECEIVER,SCRN
(DAS 9109 ONLY)

80009
80009
80009
04713
04713

160-0929-01
160-0930-00
160-0930-01
MCM68364-30/SCM9
MC10216PD/LD

04713

MC10216PD/LD

156-0687-01
156-0308-00
156-0230-02
156-0324-03

MICROCIRCUIT,DI:TRIPLE LINE RECEIVER,SCRN
(DAS 9129 ONLY)
MICROCIRCUIT,DI:QUAD EXCL OR CMPTR
MICROCIRCUIT,DI:QUAD DIFF LINE RECEIVER
MICROCIRCUIT,DI:DUAL D-TYPE M/S,FF,SCRN
MICROCIRCUIT,DI:8 INP DATA SEL,SCRN

04713
04713
04713
01295

MC10113PD
SC22689Pl15
MC10131LD
SN74S151

Al0U325
Al0U335
Al0U341
Al0U345
Al0U351
Al0U355

156-0883-02
156-0324-03
156-0180-04
156-0629-01
156-11 83-00
156-0472-03

MICROCIRCUIT,DI:100MHZ PRESETIABLE DECADE
MICROCIRCUIT,DI:8 INP DATA SEL,SCRN
MICROCIRCUIT,DI:QUAD 2-INPUT NAND GATE
MICROCIRCUIT,DI:30 MHZ PRESETIABLE BIN
MICROCIRCUIT,DI:PRESET BINARY LATCH/CNTR
MICROCIRCUIT,DI:13 INPUT NAND GATE,SCRN

27014
01295
01295
01295
80009
01295

DM74S196JA+
SN74S151
SN74S00NP3
SN74LS197
156-1183-00
SN74S133

Al0U361
Al0U365
Al0U371
Al0U373
Al0U375
Al0U378

156-0629-01
156-0629-01
156-0480-02
156-0388-03
156-0956-02
156-0180-04

MICROCIRCUIT,DI:30 MHZ PRESETIABLE BIN
MICROCIRCUIT,DI:30 MHZ PRESETIABLE BIN
MICROCIRCUIT,DI:QUAD 2 INP & GATE
MICROCIRCUIT,DI:DUAL D FLIP-FLOP
MICROCIRCUIT,DI:OCTAL BFR W/3 STATE OUT
MICROCIRCUIT,DI:QUAD 2-INPUT NAND GATE

01295
01295
01295
07263
01295
01295

SN74LS197
SN74LS197
SN74LS08NP3
74LS74A
SN74LS244NP3
SN74S00NP3

Al0U381
Al0U385
Al0U385
Al0U391
Al0U395
Al0U410

156-0956-02
160-1078-01
160-1078-03
160-0932-00
160-1039-00
156-0369-03

MICROCIRCUIT,DI:OCTAL BFR W/3 STATE OUT
MICROCIRCUIT,DI:8192 X 8 MROM,PRGM
MICROCIRCUIT,DI:8192 X 8 MROM,PRGM
MICROCIRCUIT,DI:ROM CSTM MSK 256 X 8
MICROCIRCUIT,DI:8192 X 8 MROM,PRGM,SCRN
MICROCIRCUIT,DI:TRIPLE LINE RECEIVER,SCRN

01295
80009
80009
80009
80009
04713

SN74LS244NP3
160-1078-01
160-1078-03
160-0932-00
160-1039-00
MC10216PD/LD

Al0U415
Al0U421
Al0U425
Al0U435
Al0U438
Al0U443

156-0205-02
156-0205-02
156-0369-03
156-0403-02
156-1058-01
156-0707-03

MICROCIRCUIT,DI:QUAD 2-INP NOR GATE,SCRN
MICROCIRCUIT,DI:QUAD 2-INP NOR GATE,SCRN
MICROCIRCUIT,DI:TRIPLE LINE RECEIVER,SCRN
MICROCIRCUIT,DI:HEX INVERTER,SCRN
MICROCIRCUIT,DI:OCTAL ST BFR W/3 STATE OUT
MICROCIRCUIT,DI:QUAD 2 INP EXCL OR GATE

04713
04713
04713
01295
01295
07263

MCl 01 02PD/LD
MCl 01 02PD/LD
MC10216PD/LD
SN74S05
SN74S240JP4
74S86

A10U446
A10U451
Al0U455
Al0U456
A10U461
Al0U465

156-0331-03
156-0325-02
156-0331-03
156-0180-04
156-0304-02
156-0469-02

MICROCIRCUIT,DI:DUAL D TYPE POS EDGE TRIG
MICROCIRCUIT,DI:DUAL 4-1 LINE DATA,BURN-IN
MICROCIRCUIT,DI:DUAL D TYPE POS EDGE TRIG
MICROCIRCUIT,Df:QUAD 2-INPUT NAND GATE
MICROCIRCUIT,DI:DUAL 4 INP NAND GATE
MICROCIRCUIT,DI:3/8 LINE DCDR

80009
01295
80009
01295
01295
01295

156-0331-03
SN74S153JP3
156-0331-03
SN74S00NP3
SN74S20
SN74LS138NP3

10-34

Serial/Model No.
Ell
Dscont

B019999

B010181

BOl 01 00
B030000

B029999

Name & Description

REV MAR 1984

Replaceable Electrical Parts
DAS 9100 Series Service Vol.lI

Component No.

Tektronix
Part No.

Al0U471
Al0U473
Al0U475
Al0U478
Al0U481
Al0U485

156-0541-02
156-0118-03
156-0956-02
156-0690-03
156-0956-02
156-0956-02

Al0U491
Al0U495
Al0U508
Al0U518
A10U525
Al0U543

Mfr
Code

Mfr Part Number

MICROCIRCUIT,DI:DUAL 2 TO 4 LINE DCDR
MICROCIRCUIT,DI:l DUAL J-K FF,BURN-IN
MICROCIRCUIT,DI:OCTAL BFR W/3 STATE OUT
MICROCIRCUIT,DI:QUAD 2 INP NOR GATE,BURN IN
MICROCIRCUIT,DI:OCTAL BFR W/3 STATE OUT
MICROCIRCUIT,DI:OCTAL BFR W/3 STATE OUT

01295
01295
01295
01295
01295
01295

SN74LS139NP3
SN74S112JP3
SN74LS244NP3
SN74S02
SN74LS244NP3
SN74LS244NP3

156-1026-02
156-0391-02
156-0645-02
156-0369-03
156-0180-04
156-0118-03

MICROCIRCUIT,DI:4/1 LINE DECODER,BURN-IN
MICROCIRCUIT,DI:HEX LATCH W/CLEAR
MICROCIRCUIT,DI:HEX INV ST NAND GATES,SCRN
MICROCIRCUIT,DI:TRIPLE LINE RECEIVER,SCRN
MICROCIRCUIT,DI:QUAD 2-INPUT NAND GATE
MICROCIRCUIT,DI:1 DUAL J-K FF,BURN-IN

80009
01295
01295
04713
01295
01295

156-1026-02
SN74LS174
SN74LS14
MC10216PD/LD
SN74S00NP3
SN74S112JP3

A10U546
A10U595
A10U596
A10VRl12
A10W175
A10W478

156-0690-03
156-0469-02
156-0469-02
152-0461-00
131-0566-00
131-0566-00

MICROCIRCUIT,DI:QUAD 2 INP NOR GATE,BURN IN
MICROCIRCUIT,DI:3/8 LINE DCDR
MICROCIRCUIT,DI:3/8 LINE DC DR
SEMICOND DEVICE:ZENER,O.4W,6.2V,5%
BUS CONDUCTOR:DUMMY RES,2.375,22 AWG
BUS CONDUCTOR:DUMMY RES,2.375,22 AWG

01295
01295
01295
04713
57668
57668

SN74S02
SN74LS138NP3
SN74LS138NP3
SZG25002K2
JWW-0200EO
JWW-0200EO

A10Y100

158-0106-00

XTAL UNIT,QTZ:1 OOMHZ, + /-0.0025%,SERIES

13571

TEK158-0106-00

REV MAR 1984

Serial/Model No.
Ell
Dscont

Name & Description

10-35

Replaceable Electrical Parts
DAS 9100 Series Service VoUI

Tektronix
Part No.

Serial/Model No.
Eft
Dscont

A12
A12
A12
A12
A12Cl0l
A12Cl02

670-6742-00

B010l00

670-6742-01

B013055

281-0775-00
281-0775-00

CKT BOARD ASSY:32 CHAN DATA ACQUISITION
(91A32 ONLY)
CKT BOARD ASSY:32 CHAN DATA ACQUISITION
(91A32 ONLY)
CAP.,FXD,CER 01:0.1 UF,20%,50V
CAP.,FXD,CER DI:0.1UF,20%,50V

A12Cl03
A12Cl05
A12Cl15
A12Cl16
A12Cl18
A12C121

281-0775-00
283-0330-00
281-0799-00
281-0799-00
281-0799-00
283-0330-00

A12C133
A12C140
A12C142
A12C145
A12C149
A12C150

Mfr
Code

Mfr Part Number

80009

670-6742-00

80009

670-6742-01

04222
04222

MA205El04MAA
MA205El04MAA

CAP.,FXD,CER 01:0.1 UF,20%,50V
CAP.,FXD,CER DI:l00PF,5%,50V
CAP.,FXD CER DI:62PF,2%,100V
CAP.,FXD CER DI:62PF,2%,100V
CAP.,FXD CER DI:62PF,2%,100V
CAP.,FXD,CER DI:l00PF,5%,50V

04222
51642
04222
04222
04222
51642

MA205El04MAA
200-050-N PO-101 J
MAl 01 A620GAA
MA 101 A620GAA
MA 101 A620GAA
200-050-N PO-l 01 J

283-0330-00
283-0330-00
283-0330-00
283-0177-00
281-0775-00
281-0762-00

CAP.,FXD,CER DI:l00PF,5%,50V
CAP.,FXD,CER DI:l00PF,5%,50V
CAP.,FXD,CER 01: 100PF,5%,50V
CAP.,FXD,CER.DI:l UF,+80-20%,25V
CAP.,FXD,CER 01:0.1 UF,20%,50V
CAP.,FXD,CER DI:27PF,20%,100V

51642
51642
51642
56289
04222
04222

200-050-N PO-101 J
200-050-NPO-l01J
200-050-N PO-101 J
2C20Z5Ul05Z025B
MA205El04MAA
GC101A270M

A12C151
A12C152
A12C153
A12C154
A12C155
A12C156

281-0773-00
281-0773-00
281-0765-00
281-0167-00
281-0775-00
281-0765-00

CAP.,FXD,CER
CAP.,FXD,CER
CAP.,FXD,CER
CAP.,VAR,CER
CAP.,FXD,CER
CAP.,FXD,CER

DI:0.01UF,10%,100V
DI:0.01UF,10%,100V
DI:l00PF,5%,100V
DI:9-45PF,200V
01:0.1 UF,20%,50V
DI:l00PF,5%,100V

04222
04222
51642
59660
04222
51642

MA201Cl03KAA
MA201 Cl 03KAA
G171 0-1 OONPOl 01 J
538-011 09-45
MA205El04MAA
G1710-100NP0101J

A12C158
A12C161
A12C181
A12C203
A12C211
A12C212

281-0167-00
281-0775-00
281-0775-00
281-0775-00
281-0799-00
281-0799-00

CAP.,VAR,CER
CAP.,FXD,CER
CAP.,FXD,CER
CAP.,FXD,CER
CAP.,FXD CER
CAP.,FXD CER

DI:9-45PF,200V
DI:0.1UF,20%,50V
01:0.1 UF,20%,50V
DI:0.1UF,20%,50V
DI:62PF,2%,100V
DI:62PF,2%,100V

59660
04222
04222
04222
04222
04222

538-011 09-45
MA205El04MAA
MA205El04MAA
MA205El04MAA
MA 101 A620GAA
MAl 01 A620GAA

A12C213
A12C214
A12C215
A12C216
A12C219
A12C221

281-0799-00
281-0799-00
281-0799-00
281-0799-00
281-0775-00
281-0775-00

CAP.,FXD CER
CAP.,FXD CER
CAP.,FXD CER
CAP.,FXD CER
CAP.,FXD,CER
CAP.,FXD,CER

DI:62PF,2%,100V
DI:62PF,2%,100V
DI:62PF,2%,100V
DI:62PF,2%,100V
DI:0.1UF,20%,50V
01:0.1 UF,20%,50V

04222
04222
04222
04222
04222
04222

MA 101 A620GAA
MA 101 A620GAA
MAl 01 A620GAA
MA 101 A620GAA
MA205El04MAA
MA205El04MAA

A12C222
A12C228
A12C231
A12C242
A12C243
A12C251

281-0775-00
281-0775-00
281-0775-00
281-0762-00
281-0762-00
281-0775-00

CAP.,FXD,CER
CAP.,FXD,CER
CAP.,FXD,CER
CAP.,FXD,CER
CAP.,FXD,CER
CAP.,FXD,CER

01:0.1 UF,20%,50V
DI:0.1UF,20%,50V
DI:0.1UF,20%,50V
DI:27PF,20%,100V
DI:27PF,20%,100V
01:0.1 UF,20%,50V

04222
04222
04222
04222
04222
04222

MA205El04MAA
MA205El04MAA
MA205El04MAA
GC101A270M
GC101A270M
MA205El04MAA

A12C301
A12C303
A12C311
A12C312
A12C313
A12C314

281-0775-00
281-0775-00
281-0799-00
281-0799-00
281-0799-00
281-0799-00

CAP.,FXD,CER
CAP.,FXD,CER
CAP.,FXD CER
CAP.,FXD CER
CAP.,FXD CER
CAP.,FXD CER

DI:0.1UF,20%,50V
DI:0.1UF,20%,50V
DI:62PF,2%,100V
DI:62PF,2%,100V
DI:62PF,2%,100V
DI:62PF,2%,100V

04222
04222
04222
04222
04222
04222

MA205El04MAA
MA205El04MAA
MAl 01 A620GAA
MA 101 A620GAA
MA 101 A620GAA
MA 101 A620GAA

A12C315
A12C316
A12C317
A12C321
A12C325
A12C328

281-0799-00
281-0799-00
281-0775-00
281-0775-00
281-0775-00
281-0775-00

CAP.,FXD CER
CAP.,FXD CER
CAP.,FXD,CER
CAP.,FXD,CER
CAP.,FXD,CER
CAP.,FXD,CER

DI:62PF,2%,100V
DI:62PF,2%,100V
01:0.1 UF,20%,50V
DI:0.1UF,20%,50V
01:0.1 UF,20%,50V
01:0.1 UF,20%,50V

04222
04222
04222
04222
04222
04222

MA 101 A620GAA
MAl 01 A620GAA
MA205El04MAA
MA205El04MAA
MA205El04MAA
MA205El04MAA

Component No.

B013054

Name & Description

/1"'"

10-36

REV MAR 1984

Replaceable Electrical Parts
DAS 9100 Series Service Vol.lI

Mfr
Code

Mfr Part Number

01:0.1 UF,20%,50V
01:0.1 UF,20%,50V
DI:27PF,20%,100V
DI:9-45PF,200V
DI:27PF,20%,100V
01:0.1 UF,20%,50V

04222
04222
04222
59660
04222
04222

MA205E104MAA
MA205E104MAA
GC101A270M
538-011 09-45
GC101A270M
MA205E104MAA

CAP.,FXD,CER
CAP.,FXD,CER
CAP.,FXD,CER
CAP.,FXD,CER
CAP.,FXD,CER
CAP.,FXD,CER

01:0.1 UF,20%,50V
01:0.1 UF,20%,50V
01:0.1 UF,20%,50V
01:0.1 UF,20%,50V
01:0.1 UF,20%,50V
01:0.1 UF,20%,50V

04222
04222
04222
04222
04222
04222

MA205E104MAA
MA205E104MAA
MA205E104MAA
MA205E104MAA
MA205E104MAA
MA205E104MAA

281-0775-00
281-0799-00
281-0799-00
281-0799-00
281-0799-00
281-0799-00

CAP.,FXD,CER
CAP.,FXD CER
CAP.,FXD CER
CAP.,FXD CER
CAP.,FXD CER
CAP.,FXD CER

01:0.1 UF,20%,50V
DI:62PF,2%,100V
DI:62PF,2%,100V
DI:62PF,2%,1 OOV
DI:62PF,2%,1 OOV
DI:62PF,2%,100V

04222
04222
04222
04222
04222
04222

MA205E104MAA
MA101A620GAA
MA101A620GAA
MA 101 A620GAA
MA 101 A620GAA
MA 101 A620GAA

A12C420
A12C425
A12C434
A12C435
A12C436
A12C441

281-0799-00
281-0775-00
281-0762-00
281-0167-00
281-0762-00
281-0775-00

CAP.,FXD CER
CAP.,FXD,CER
CAP.,FXO,CER
CAP.,VAR,CER
CAP.,FXD,CER
CAP.,FXD,CER

DI:62PF,2%,100V
01:0.1 UF,20%,50V
01:27PF,20%,1 OOV
01:9-45PF,200V
DI:27PF,20%,100V
DI:0.1UF,20%,50V

04222
04222
04222
59660
04222
04222

MA 101 A620GAA
MA205E104MAA
GC101A270M
538-01109-45
GC101A270M
MA205E104MAA

A12C442
A12C503
A12C512
A12C513
A12C514
A12C515

281-0791-00
281-0775-00
281-0799-00
281-0799-00
281-0799-00
281-0799-00

CAP.,FXD,CER
CAP.,FXD,CER
CAP.,FXD CER
CAP.,FXD CER
CAP.,FXD CER
CAP.,FXD CER

DI:270PF,10%,100V
01:0.1 UF,20%,50V
DI:62PF,2%,100V
DI:62PF,2%,100V
DI:62PF,2%,100V
DI:62PF,2%,100V

04222
04222
04222
04222
04222
04222

GC101C271K
MA205El04MAA
MAl 01 A620GAA
MA 101 A620GAA
MA 101 A620GAA
MA 101 A620GAA

A12C516
A12CS19
A12C525
A12C531
A12C533
A12CS34

281-0799-00
281-077S-00
281-077S-00
281-0775-00
SELECTED
SELECTED

CAP.,FXD CER
CAP.,FXD,CER
CAP.,FXD,CER
CAP.,FXD,CER

01:62PF,2%,100V
01:0.1 UF,20%,50V
DI:0.1UF,20%,50V
DI:0.1UF,20%,SOV

04222
04222
04222
04222

MA 101 A620GAA
MA20SE104MAA
MA20SE104MAA
MA205E104MAA

A12C541
A12CS4S
A12CS46
A12C601
A12C602
A12C611

281-0791-00
281-077S-00
281-077S-00
281-077 S-OO
281-077 5-00
281-0799-00

CAP.,FXD,CER
CAP.,FXD,CER
CAP.,FXD,CER
CAP.,FXD,CER
CAP.,FXD,CER
CAP.,FXD CER

DI:270PF,1 0%,1 OOV
DI:0.1UF,20%,SOV
DI:0.1UF,20%,SOV
01:0.1 UF,20%,50V
01:0.1 UF,20%,SOV
DI:62PF,2%,100V

04222
04222
04222
04222
04222
04222

GC101C271K
MA205E104MAA
MA20SE104MAA
MA205E104MAA
MA20SE104MAA
MA 101 A620GAA

A12C612
A12C613
A12C614
A12C615
A12C616
A12C617

281-0799-00
281-0799-00
281-0799-00
281-0799-00
281-0799-00
281-0799-00

CAP.,FXD
CAP.,FXD
CAP.,FXD
CAP.,FXD
CAP.,FXD
CAP.,FXD

CER
CER
CER
CER
CER
CER

DI:62PF,2%,100V
DI:62PF,2%,100V
DI:62PF,2%,100V
DI:62PF,2%,100V
DI:62PF,2%,100V
DI:62PF,2%,100V

04222
04222
04222
04222
04222
04222

MA 101 A620GAA
MA 101 A620GAA
MA 101 A620GAA
MA 101 A620GAA
MA 101 A620GAA
MAl 01 A620GAA

A12C618
A12C619
A12C625
A12C631
A12C646
A12C6S1

281-0799-00
281-0775-00
281-077S-00
281-077S-00
281-077S-00
281-077S-00

CAP.,FXD CER
CAP.,FXD,CER
CAP.,FXD,CER
CAP.,FXD,CER
CAP.,FXD,CER
CAP.,FXD,CER

DI:62PF,2%,100V
DI:0.1UF,20%,SOV
01:0.1 UF,20%,50V
01:0.1 UF,20%,SOV
01:0.1 UF,20%,SOV
DI:0.1 UF,20%,SOV

04222
04222
04222
04222
04222
04222

MA 101 A620GAA
MA205E104MAA
MA20SE104MAA
MA20SE104MAA
MA20SE104MAA
MA20SE104MAA

Component No.

Tektronix
Part No.

A12C331
A12C341
A12C345
A12C351
A12C352
A12C355

281-0775-00
281-0775-00
281-0762-00
281-0167-00
281-0762-00
281-0775-00

CAP.,FXD,CER
CAP.,FXD,CER
CAP.,FXD,CER
CAP.,VAR,CER
CAP.,FXD,CER
CAP.,FXD,CER

A12C361
A12C371
A12C381
A12C388
A12C403
A12C404

281-0775-00
281-0775-00
281-0775-00
281-0775-00
281-0775-00
281-0775-00

A12C405
A12C411
A12C412
A12C413
A12C418
A12C419

REV MAR 1984

Serial/Model No.
Eff
Dscont

8010181
8010181

8010181

Name & Description

10-31

Replaceable Electrical Parts
CAS 9100 Series Service Vol.lI

Component No.

Tektronix
Part No.

Serial/Model No.
Eft
Dscont

A12C655
A12C661
A12C703
A12CR153
A12CR156
A12CR352

281-0775-00
281-0775-00
281-0775-00
152-0141-02
152-0141-02
152-0141-02

A12CR435
A12CR648
A12J101
A12J101
A12J103
A12J103

152-0141-02
152-0141-02
131-2567-00
131-2797-00
131-0608-00

A12J241
A12J241
A12J243
A12J243
A12J301
A12J301

131-0608-00

A12J441
A12J441
A12J445
A12J445
A12J501
A12J501

131-0608-00

131-2567-00
131-2797-00

B010100
8010215

B010214

A12J701
A12J701
A12Q101
A12Q102
A12Q103
A12Q104

131-2567-00
131-2797-00
151-0221-00
151-0221-00
151-0221-00
151-0221-00

B010100
8010215

B010214

A12Q105
A12Q106
A12Q107
A12Q108
A12Q109
A12Q110

B010100
B010215

B010214

131-0608-00
131-2567-00
131-2797-00

B010100
B010215

8010214

Mfr
Code

Mfr Part Number

CAP.,FXD,CER DI:0.1UF,20%,50V
CAP.,FXD,CER DI:0.1 UF,20%,50V
CAP.,FXD,CER DI:0.1UF,20%,50V
SEMICOND DEVICE:SILlCON,30V,150MA
SEMICOND DEVICE:SILlCON,30V,150MA
SEMICOND DEVICE:SILlCON,30V,150MA

04222
04222
04222
01295
01295
01295

MA205E104MAA
MA205E104MAA
MA205E104MAA
1N4152R
1N4152R
1N4152R

SEMICOND DEVICE:SILlCON,30V,150MA
SEMICOND DEVICE:SILlCON,30V,150MA
CONN,RCPT,ELEC:CKT BD,17/34 CONT,RT ANGLE
CONN,RCPT,ELEC:RTANG HEADER,2 X 17,0.1 CTR
TERMINAL,PIN:0.365 LX 0.025 PH BRZ GOLD
(QUANTITY OF 3)

01295
01295
22526
22526
22526

1N4152R
1N4152R
65461-006
65461-033
47357

TERMINAL,PIN:0.365 L X 0.025 PH BRZ GOLD
(QUANTITY OF 3)
TERMINAL,PIN:0.365 LX 0.025 PH BRZ GOLD
(QUANTITY OF 3)
CONN,RCPT,ELEC:CKT 8D,17/34 CONT,RT ANGLE
CONN,RCPT,ELEC:RTANG HEADER,2 X 17,0.1 CTR

22526

47357

22526

47357

22526
22526

65461-006
65461-033

22526

47357

Name & Description

TERMINAL,PIN:0.365 L X 0.025 PH 8RZ GOLD
(QUANTITY OF 3)
TERMINAL,PIN:0.365 L X 0.025 PH 8RZ GOLD
(QUANTITY OF 3)
CONN,RCPT,ELEC:CKT BD,17/34 CONT,RT ANGLE
CONN,RCPT,ELEC:RTANG HEADER,2 X 17,0.1 CTR

22526

47357

22526
22526

65461-006
65461-033

CONN,RCPT,ELEC:CKT BD,17/34 CONT,RT ANGLE
CONN,RCPT,ELEC:RTANG HEADER,2 X 17,0.1 CTR
TRANSISTOR:SILlCON,PNP
TRANSISTOR:SILlCON,PNP
TRANSISTOR:SILlCON,PNP
TRANSISTOR:SILlCON,PNP

22526
22526
04713
04713
04713
04713

65461-006
65461-033
SPS246
SPS246
SPS246
SPS246

151-0221-00
151-0221-00
151-0221-00
151-0221-00
151-0221-00
151-0221-00

TRANSISTOR:SILlCON,PNP
TRANSISTOR:SILlCON,PNP
TRANSISTOR:SILlCON,PNP
TRANSISTOR:SILlCON,PNP
TRANSISTOR:SILlCON,PNP
TRANSISTOR:SILlCON,PNP

04713
04713
04713
04713
04713
04713

SPS246
SPS246
SPS246
SPS246
SPS246
SPS246

A12Q115
A12Q201
A12Q202
A12Q203
A12Q204
A12Q205

151-0710-00
151-0221-00
151-0221-00
151-0221-00
151-0221-00
151-0221-00

TRANSISTOR:SILlCON,NPN
TRANSISTOR:SILlCON,PNP
TRANSISTOR:SILlCON,PNP
TRANSISTOR:SILlCON,PNP
TRANSISTOR:SILlCON,PNP
TRANSISTOR:SILlCON,PNP

27014
04713
04713
04713
04713
04713

2N6715/92 PU01A
SPS246
SPS246
SPS246
SPS246
SPS246

A12Q206
A12Q207
A12Q208
A12Q209
A12Q210
A12Q223

151-0221-00
151-0221-00
151-0221-00
151-0221-00
151-0221-00
151-0710-00

TRANSISTOR:SILlCON,PNP
TRANSISTOR:SILlCON,PNP
TRANSISTOR:SILlCON,PNP
TRANSISTOR:SILlCON,PNP
TRANSISTOR:SILlCON,PNP
TRANSISTOR:SILlCON,NPN

04713
04713
04713
04713
04713
27014

SPS246
SPS246
SPS246
SPS246
SPS246
2N6715/92 PU01A

A120301
A12Q302
A120303
A120304
A120305
A120306

151-0221-00
151-0221-00
151-0221-00
151-0221-00
151-0221-00
151-0221-00

TRANSISTOR:SILlCON,PNP
TRANSISTOR:SILlCON,PNP
TRANSISTOR:SILlCON,PNP
TRANSISTOR:SILlCON,PNP
TRANSISTOR:SILlCON,PNP
TRANSISTOR:SILlCON,PNP

04713
04713
04713
04713
04713
04713

SPS246
SPS246
SPS246
SPS246
SPS246
SPS246

10-38

131-0608-00

REV MAR 1984

Replaceable Electrical Parts
CAS 9100 Series Service Vol.lI

Mfr
Code

Mfr Part Number

TRANSISTOR:SILlCON,PNP
TRANSISTOR:SILlCON,PNP
TRANSISTOR:SILlCON,PNP
TRANSISTOR:SILlCON,PNP
TRANSISTOR:SILlCON,PNP
TRANSISTOR:SILlCON,PNP

04713
04713
04713
04713
04713
04713

SPS246
SPS246
SPS246
SPS246
SPS246
SPS246

151-0221-00
151-0221-00
151-0221-00
151-0221-00
151-0221-00
151-0221-00

TRANSISTOR:SILlCON,PNP
TRANSISTOR:SILlCON,PNP
TRANSISTOR:SILlCON,PNP
TRANSISTOR:SILlCON,PNP
TRANSISTOR:SILlCON,PNP
TRANSISTOR:SILlCON,PNP

04713
04713
04713
04713
04713
04713

SPS246
SPS246
SPS246
SPS246
SPS246
SPS246

A12Q409
A12Q410
A12Q411
A12Q418
A12Q501
A12Q502

151-0221-00
151-0221-00
151-0188-00
151-0710-00
151-0221-00
151-0221-00

TRANSISTOR:SILlCON,PNP
TRANSISTOR:SILlCON,PNP
TRANSISTOR:SILlCON,PNP
TRANSISTOR:SILlCON,NPN
TRANSISTOR:SILlCON,PNP
TRANSISTOR:SILlCON,PNP

04713
04713
04713
27014
04713
04713

SPS246
SPS246
SPS6868K
2N6715/92 PUOl A
SPS246
SPS246

A12Q503
A12Q504
A12Q505
A12Q506
A12Q507
A12Q508

151-0221-00
151-0221-00
151-0221-00
151-0221-00
151-0221-00
151-0221-00

TRANSISTOR:SILlCON,PNP
TRANSISTOR:SILlCON,PNP
TRANSISTOR:SILlCON,PNP
TRANSISTOR:SILlCON,PNP
TRANSISTOR:SILlCON,PNP
TRANSISTOR:SILlCON,PNP

04713
04713
04713
04713
04713
04713

SPS246
SPS246
SPS246
SPS246
SPS246
SPS246

A12Q509
A12Q510
A12Q520
A12Q533
A12Q534
A12Q601

151-0221-00
151-0221-00
151-0710-00
151-0221-00
151-0221-00
151-0221-00

TRANSISTOR:SILlCON,PNP
TRANSISTOR:SILlCON,PNP
TRANSISTOR:SILlCON,NPN
TRANSISTOR:SILlCON,PNP
TRANSISTOR:SILlCON,PNP
TRANSISTOR:SILlCON,PNP

04713
04713
27014
04713
04713
04713

SPS246
SPS246
2N6715/92 PU01A
SPS246
SPS246
SPS246

A12Q602
A12Q603
A12Q604
A12Q605
A12Q606
A12Q607

151-0221-00
151-0221-00
151-0221-00
151-0221-00
151-0221-00
151-0221-00

TRANSISTOR:SILlCON,PNP
TRANSISTOR:SILlCON,PNP
TRANSISTOR:SILlCON,PNP
TRANSISTOR:SILlCON,PNP
TRANSISTOR:SILlCON,PNP
TRANSISTOR:SILlCON,PNP

04713
04713
04713
04713
04713
04713

SPS246
SPS246
SPS246
SPS246
SPS246
SPS246

A12Q608
A12Q609
A12Q610
A12Q611
A12Q612
A12Q613

151-0221-00
151-0221-00
151-0221-00
151-0221-00
151-0221-00
151-0221-00

TRANSISTOR:SILlCON,PNP
TRANSISTOR:SILlCON,PNP
TRANSISTOR:SILlCON,PNP
TRANSISTOR:SILlCON,PNP
TRANSISTOR:SILlCON,PNP
TRANSISTOR:SILlCON,PNP

04713
04713
04713
04713
04713
04713

SPS246
SPS246
SPS246
SPS246
SPS246
SPS246

A12Q614
A12Q615
A12Q616
A12Q617
A12Q618
A12Rl00

151-0221-00
151-0221-00
151-0221-00
151-0221-00
151-0221-00
315-0101-00

TRANSISTOR:SILlCON,PNP
TRANSISTOR:SILlCON,PNP
TRANSISTOR:SILlCON,PNP
TRANSISTOR:SILlCON,PNP
TRANSISTOR:SILlCON,PNP
RES.,FXD,CMPSN:l00 OHM,5%,0.25W

04713
04713
04713
04713
04713
01121

SPS246
SPS246
SPS246
SPS246
SPS246
CB1015

A12R101
A12Rl02
A12Rl03
A12Rl04
A12Rl05
A12R106

315-0104-00
315-0104-00
321-0289-00
307-0695-00
321-0231-00
307-0832-00

RES.,FXD,CMPSN:l00K OHM,5%,0.25W
RES.,FXD,CMPSN:l00K OHM,5%,0.25W
RES.,FXD,FILM:10K OHM,1%,0.125W
RES NTWK,FXD FI:9,150 OHM,2%,0.2W EACH
RES.,FXD,FILM:2.49K OHM,1%,0.125W
RES NTWK,FXD,FI:9,120 OHM,2%,0.15W

01121
01121
91637
01121
91637
01121

CB1045
CB1045
MFF1816Gl 0001 F
110A151
MFF1816G24900F
210A121

Component No.

Tektronix
Part No.

A12Q307
A12Q308
A12Q309
A12Q310
A12Q401
A12Q402

151-0221-00
151-0221-00
151-0221-00
151-0221-00
151-0221-00
151-0221-00

A12Q403
A12Q404
A12Q405
A12Q406
A12Q407
A12Q408

REV MAR 1984

Serial/Model No.
Elf
Dscont

Name & Description

10-39

Replaceable Electrical Parts
DAS 9100 Series Service Vol.1I

Mfr
Code

Mfr Part Number

RES.,FXD,FILM:10K OHM,1%,0.125W
RES,NTWK,FXD,FI:100 OHM,20%,1W
RES NTWK,FXD,FI:10,680 OHM,2%,0.15W EACH
RES NTWK,FXD FI:9,150 OHM,2%,0.2W EACH
RES,NTWK,FXD FI:9,220 OHM,2%,2W
RES.,FXD,CMPSN:4.7M OHM,5%,0.25W

91637
57924
01121
01121
91637
01121

MFF1816G1 0001 F
4308R-1 01-1 01
110A681
110A151
MSP1 OA01-221 G
CB4755

315-0391-00
315-0102-00
311-1257-00
321-0318-00
315-0203-00
315-0475-00

RES.,FXD,CMPSN:390 OHM,5%,0.25W
RES.,FXD,CMPSN:1 K OHM,5%,0.25W
RES.,VAR,NONWIR:5M OHM,20%,0.50W
RES.,FXD,FILM:20K OHM,1%,0.125W
RES.,FXD,CMPSN:20K OHM,5%,0.25W
RES.,FXD,CMPSN:4.7M OHM,5%,0.25W

01121
01121
32997
91637
01121
01121

CB3915
CB1025
3386F-T04-505
MFF1816G20001 F
CB2035
CB4755

A 12R131
A12R132
A12R134
A12R135
A12R136
A12R137

311-1257-00
321-031 8-00
321-0272-07
321-0272-07
315-0203-00
315-0475-00

RES.,VAR,NONWIR:5M OHM,20%,0.50W
RES.,FXD,FILM:20K OHM,1%,0.125W
RES.,FXD,FILM:6.65K OHM,0.1 %,0.125W
RES.,FXD,FILM:6.65K OHM,0.1 %,0.125W
RES.,FXD,CMPSN:20K OHM,5%,0.25W
RES.,FXD,CMPSN:4.7M OHM,5%,0.25W

32997
91637
91637
91637
01121
01121

3386F-T04-505
MFF1816G20001 F
MFF1816C66500B
MFF1816C66500B
CB2035
CB4755

A12R138
A12R139
A12R140
A12R141
A12R142
A12R143

311-1257-00
321-0318-00
321-0272-07
315-0203-00
315-0475-00
311-1257-00

RES.,VAR,NONWIR:5M OHM,20%,0.50W
RES.,FXD,FILM:20K OHM,1%,0.125W
RES.,FXD,FILM:6.65K OHM,0.1%,0.125W
RES.,FXD,CMPSN:20K OHM,5%,0.25W
RES.,FXD,CMPSN:4.7M OHM,5%,0.25W
RES.,VAR,NONWIR:5M OHM,20%,0.50W

32997
91637
91637
01121
01121
32997

3386F-T04-505
MFF1816G20001 F
MFF1816C66500B
CB2035
CB4755
3386F-T04-505

A12R144
A12R145
A12R146
A12R147
A12R148
A12R149

321-0272-07
315-0203-00
321-0318-00
311-1307-00
321-0763-07
321-0754-07

RES.,FXD,FILM:6.65K OHM,0.1%,0.125W
RES.,FXD,CMPSN:20K OHM,5%,0.25W
RES.,FXD,FILM:20K OHM.1 %,0.125W
RES.,VAR,NONWIR:500 OHM,0.50W
RES.,FXD,FILM:1.12K OHM,0.1%,0.125W
RES.,FXD,FILM:900 OHM,0.1%,0.125W

91637
01121
91637
32997
91637
91637

MFF1816C66500B
CB2035
MFF1816G20001 F
3299W-R27 -501
MFF1816C11200B
MFF1816C900ROB

A12R150
A12R151
A12R153
A12R156
A12R159
A12R208

321-0641-07
321-0166-00
315-0101-00
315-0101-00
315-0102-00
307-0832-00

RES.,FXD,FILM: 1.8K OHM,0.1 %,0.125W
RES.,FXD,FILM:523 OHM,1%,0.125W
RES.,FXD,CMPSN:100 OHM,5%,0.25W
RES.,FXD,CMPSN:100 OHM,5%,0.25W
RES.,FXD,CMPSN:1 K OHM,5%,0.25W
RES NTWK,FXD,FI:9,120 OHM,2%,0.15W

91637
91637
01121
01121
01121
01121

MFF1816C18000B
MFF1816G523ROF
CB1015
CB1015
CB1025
210A121

A12R209
A12R210
A12R212
A12R213
A12R214
A12R217

315-0101-00
315-0101-00
315-0102-00
315-0102-00
315-0102-00
315-0102-00

RES.,FXD,CMPSN:1000HM,5%,0.25W
RES.,FXD,CMPSN:100 OHM,5%,0.25W
RES.,FXD,CMPSN:1 K OHM,5%,0.25W
RES.,FXD,CMPSN:1K OHM,5%,0.25W
RES.,FXD,CMPSN:1 K OHM,5%,0.25W
RES.,FXD,CMPSN:1 K OHM,5%,0.25W

01121
01121
01121
01121
01121
01121

CB1015
CB1015
CB1025
CB1025
CB1025
CB1025

A12R218
A12R219
A12R221
A12R223
A12R240
A12R241

315-0102-00
315-0102-00
315-0391-00
315-0102-00
315-0102-00
315-0102-00

RES.,FXD,CMPSN:1 K OHM,5%,0.25W
RES.,FXD,CMPSN:1 K OHM,5%.0.25W
RES.,FXD,CMPSN:390 OHM,5%,0.25W
RES.,FXD,CMPSN:1 K OHM,5%,0.25W
RES.,FXD,CMPSN:1 K OHM,5%,0.25W
RES.,FXD,CMPSN:1 K OHM,5%,0.25W

01121
01121
01121
01121
01121
01121

CB1025
CB1025
CB3915
CB1025
CB1025
CB1025

A12R255
A12R281
A12R288
A12R304
A12R310
A12R311

315-0102-00
315-0102-00
315-0102-00
307-0695-00
307-0739-00
307-0695-00

RES.,FXD,CMPSN:1 K OHM,5%,0.25W
RES.,FXD,CMPSN:1 K OHM,5%,0.25W
RES.,FXD,CMPSN: 1K OHM,5%,0.25W
RES NTWK,FXD FI:9,150 OHM,2%,0.2W EACH
RES NTWK,FXD,FI:10,680 OHM,2%,0.15W EACH
RES NTWK,FXD FI:9,150 OHM,2%,0.2W EACH

01121
01121
01121
01121
01121
01121

CB1025
CB1025
CB1025
110A151
110A681
110A151

Component No.

Tektronix
Part No.

A12R107
A12R108
A12R110
A12R111
A12R112
A12R113

321-0289-00
307-0489-00
307-0739-00
307-0695-00
307-0592-00
315-0475-00

A12R114
A12R115
A12R120
A12R121
A12R127
A12R128

10-40

Serial/Model No.
Eff
Dscont

Name & Description

REV MAR 1984

Replaceable Electrical Parts
DAS 9100 Series Service Vol.lI

Mfr
Code

Mfr Part Number

RES,NTWK,FXD FI:9,220 OHM,2%,2W
RES.,FXD,CMPSN:1 K OHM,5%,O.25W
RES.,FXD,CMPSN:1 K OHM,5%,O.25W
RES.,FXD,CMPSN:1 K OHM,5%,O.25W
RES.,FXD,CMPSN:1 K OHM,5%,O.25W
RES.,FXD,CMPSN:1 K OHM,5%,O.25W

91637
01121
01121
01121
01121
01121

MSP1 OAOl-221 G
CB1025
CB1025
CB1025
CB1025
CB1025

315-0102-00
315-0102-00
315-0101-00
307-0489-00
307-0832-00
315-0101-00

RES.,FXD,CMPSN:1K OHM,5%,O.25W
RES.,FXD,CMPSN:1 K OHM,5%,O.25W
RES.,FXD,CMPSN:100 OHM,5%,O.25W
RES,NTWK,FXD,FI:100 OHM,20%,lW
RES NTWK,FXD,FI:9,120 OHM,2%,O.15W
RES.,FXD,CMPSN:100 OHM,5%,O.25W

01121
01121
01121
57924
01121
01121

CB1025
CB1025
CB1015
4308R-1 01-1 01
21 OA 121
CB1015

A12R414
A12R415
A12R416
A12R417
A12R418
A12R419

315-0102-00
315-0102-00
315-0102-00
315-0391-00
315-0102-00
315-0102-00

RES.,FXD,CMPSN:1 K OHM,5%,O.25W
RES.,FXD,CMPSN:1 K OHM,5%,O.25W
RES.,FXD,CMPSN:1 K OHM,5%,O.25W
RES.,FXD,CMPSN:390 OHM,5%,O.25W
RES.,FXD,CMPSN:1 K OHM,5%,O.25W
RES.,FXD,CMPSN:1 K OHM,5%,O.25W

01121
01121
01121
01121
01121
01121

CB1025
CB1025
CB1025
CB3915
CB1025
CB1025

A12R435
A12R451
A12R452
A12R463
A12R464
A12R465

315-0101-00
315-0202-00
315-0202-00
315-0101-00
315-0101-00
315-0102-00

RES.,FXD,CMPSN:100 OHM,5%,O.25W
RES.,FXD,CMPSN:2K OHM,5%,O.25W
RES.,FXD,CMPSN:2K OHM,5%,O.25W
RES.,FXD,CMPSN:100 OHM,5%,O.25W
RES.,FXD,CMPSN:1000HM,5%,O.25W
RES.,FXD,CMPSN:1 K OHM,5%,O.25W

01121
01121
01121
01121
01121
01121

CB1015
CB2025
CB2025
CB1015
CB1015
CB1025

A12R472
A12R473
A12R475
A12R478
A12R479
A12R481

315-0101-00
315-0101-00
315-0102-00
315-0101-00
315-0101-00
315-0102-00

RES.,FXD,CMPSN:100 OHM,5%,O.25W
RES.,FXD,CMPSN:100 OHM,5%,O.25W
RES.,FXD,CMPSN:1 K OHM,5%,O.25W
RES.,FXD,CMPSN:100 OHM,5%,O.25W
RES.,FXD,CMPSN:1000HM,5%,O.25W
RES.,FXD,CMPSN:1 K OHM,5%,O.25W

01121
01121
01121
01121
01121
01121

CB1015
CB1015
CB1025
CB1015
CB1015
CB1025

A12R485
A12R488
A12R504
A12R507
A12R508
A12R510

315-0101-00
315-0101-00
307 -0695-00
315-0101-00
307-0489-00
307-0739-00

RES.,FXD,CMPSN:100 OHM,5%,O.25W
RES.,FXD,CMPSN:100 OHM,5%,O.25W
RES NTWK,FXD FI:9,150 OHM,2%,O.2W EACH
RES.,FXD,CMPSN:100 OHM,5%,O.25W
RES,NTWK,FXD,FI:100 OHM,20%,lW
RES NTWK,FXD,FI:10,680 OHM,2%,O.15W EACH

01121
01121
01121
01121
57924
01121

CB1015
CB1015
110A151
CB1015
4308R-1 01-1 01
110A681

A12R511
A12R512
A12R519
A12R520
A12R531
A12R533

307-0695-00
307-0592-00
315-0391-00
315-0102-00
315-0271-00
321-0042-00

RES NTWK,FXD FI:9,150 OHM,2%,O.2W EACH
RES,NTWK,FXD FI:9,220 OHM,2%,2W
RES.,FXD,CMPSN:390 OHM,5%,O.25W
RES.,FXD,CMPSN:1 K OHM,5%,O.25W
RES.,FXD,CMPSN:270 OHM,5%,O.25W
RES.,FXD,FILM:26.70HM,l%,O.125W

01121
91637
01121
01121
01121
91637

110A151
MSP1 OAOl-221 G
CB3915
CB1025
CB2715
MFF1816G26R70F

A12R534
A12R535
A12R536
A12R541
A12R551
A12R552

321-0042-00
307-0542-00
315-0101-00
315-0102-00
315-0202-00
315-0202-00

RES.,FXD,FILM:26.70HM,l%,O.125W
RES,NTWK,FXD,FI:10K OHM,5%,O.125W
RES.,FXD,CMPSN:100 OHM,5%,O.25W
RES.,FXD,CMPSN:1 K OHM,5%,O.25W
RES.,FXD,CMPSN:2K OHM,5%,O.25W
RES.,FXD,CMPSN:2K OHM,5%,O.25W

91637
01121
01121
01121
01121
01121

MFF1816G26R70F
106A103
CB1015
CB1025
CB2025
CB2025

A12R604
A12R606
A12R608
A12R610
A12R611
A12R612

307 -0695-00
307-0832-00
307-0489-00
307-0739-00
307-0695-00
307-0592-00

RES NTWK,FXD FI:9,150 OHM,2%,O.2W EACH
RES NTWK,FXD,FI:9,120 OHM,2%,O.15W
RES,NTWK,FXD,FI:100 OHM,20%,lW
RES NTWK,FXD,FI:10,680 OHM,2%,O.15W EACH
RES NTWK,FXD FI:9,150 OHM,2%,O.2W EACH
RES,NTWK,FXD FI:9,220 OHM,2%,2W

01121
01121
57924
01121
01121
91637

110A151
210A121
4308R-l 01-1 01
110A681
110A151
MSP10AOl-221G

Component No.

Tektronix
Part No.

A12R312
A12R315
A12R331
A12R332
A12R335
A12R340

307 -0592-00
315-0102-00
315-0102-00
315-0102-00
315-0102-00
315-0102-00

A12R341
A12R342
A12R352
A12R404
A12R408
A12R409

REV MAR 1984

Serial/Model No.
Elf
Dscont

Name & Description

10-41

Replaceable Electrical Parts
DAS 9100 Series Service Vol.lI

Component No.

Tektronix
Part No.

A12R633
A12R63B
A12R645
A12R64B
A12R65B
A12R670

307-0540-00
307 -059B-00
315-0103-00
315-0102-00
315-0102-00
315-0101-00

A12R671
A12R672
A12R673
A12R674
A12R675
A12R676

Mfr
Code

Mfr Part Number

RES,NTWK,FXD,FI:(5) 1K OHM,l 0%,0.7W
RES NTWK,FXD FI:7,330 OHM,2%,1.0W
RES.,FXD,CMPSN:l0K OHM,5%,0.25W
RES.,FXD,CMPSN:1 K OHM,5%,0.25W
RES.,FXD,CMPSN:1K OHM,5%,0.25W
RES.,FXD,CMPSN:100 OHM,5%,0.25W

57924
91637
01121
01121
01121
01121

4306R-l 01-1 02
MSPOBA01331G
CB1035
CB1025
CB1025
CB1015

321 -01 B5-00
321-0138-00
321-0122-00
321-0185-00
321-0138-00
321-0122-00

RES.,FXD,FILM:B250HM,1%,0.125W
RES.,FXD,FILM:2670HM,1%,0.125W
RES.,FXD,FILM:1820HM,1%,0.125W
RES.,FXD,FILM:8250HM,1%,0.125W
RES.,FXD,FILM:2670HM,1%,0.125W
RES.,FXD,FILM:1820HM,1%,0.125W

91637
91637
91637
91637
91637
91637

MFF1 B16G825ROF
MFF1816G267ROF
MFF1816G1B2ROF
MFF1816GB25ROF
MFF1816G267ROF
MFF1816Gl B2ROF

A12R677
A12R678
A12R679
A12R680
A12R703
A12TP121

321-0185-00
321-0122-00
321-013B-00
315-0101-00
315-0101-00
214-0579-00

RES.,FXD,FILM:825 OHM,1 %,0.125W
RES.,FXD,FILM:1820HM,1%,0.125W
RES.,FXD,FILM:2670HM,1%,0.125W
RES.,FXD,CMPSN:100 OHM,5%,0.25W
RES.,FXD,CMPSN:100 OHM,5%,0.25W
TERM,TEST POINT:BRS CD PL

91637
91637
91637
01121
01121
BOO09

MFF1816GB25ROF
MFF1816G1 B2ROF
MFFl B16G267ROF
CB1015
CB1015
214-0579-00

A12TP122
A12TP131
A12TP136
A12TP146
A12TP147
A12TP14B

214-0579-00
214-0579-00
214-0579-00
214-0579-00
214-0579-00
214-0579-00

B013055

TERM,TEST
TERM,TEST
TERM,TEST
TERM,TEST
TERM,TEST
TERM,TEST

POINT:BRS
POINT:BRS
POINT:BRS
POINT:BRS
POINT:BRS
POINT:BRS

CD
CD
CD
CD
CD
CD

PL
PL
PL
PL
PL
PL

80009
80009
BOO09
80009
80009
BOO09

214-0579-00
214-0579-00
214-0579-00
214-0579-00
214-0579-00
21 4-0579-00

A12TP146
A12TP160
A12TP161
A12TP162
A12TP209
A12TP2B1

214-0579-00
214-0579-00
214-0579-00
214-0579-00
214-0579-00
214-0579-00

B013055

TERM,TEST
TERM,TEST
TERM,TEST
TERM,TEST
TERM,TEST
TERM,TEST

POINT:BRS
POINT:BRS
POINT:BRS
POINT:BRS
POINT:BRS
POINT:BRS

CD
CD
CD
CD
CD
CD

PL
PL
PL
PL
PL
PL

BOO09
80009
BOO09
80009
BOO09
BOO09

214-0579-00
214-0579-00
214-0579-00
214-0579-00
214-0579-00
214-0579-00

A12TP331
A12TP409
A12TP441
A12TP510
A12TP611
A12TP651

214-0579-00
214-0579-00
214-0579-00
214-0579-00
214-0579-00
214-0579-00

TERM,TEST
TERM, TEST
TERM,TEST
TERM,TEST
TERM,TEST
TERM,TEST

POINT:BRS
POINT:BRS
POINT:BRS
POINT:BRS
POINT:BRS
POINT:BRS

CD
CD
CD
CD
CD
CD

PL
PL
PL
PL
PL
PL

BOO09
BOO09
BOO09
BOO09
BOO09
BOO09

214-0579-00
214-0579-00
214-0579-00
214-0579-00
214-0579-00
214-0579-00

A12TP6B1
A12U105
A12U111
A12U115
A12U121
A12U122

214-0579-00
156-0106-00
156-0413-02
156-0413-02
156-0738-04
156-0105-00

TERM,TEST POINT:BRS CD PL
MICROCIRCUIT,LI:MONOLITHIC,6-DIODE ARRAY
MICROCIRCUIT,DI:QUAD 2-INP SCHMITI TRIG
MICROCIRCUIT,DI:QUAD 2-INP SCHMITI TRIG
MICROCIRCUIT,DI:HEX 0 FF W/CLEAR,BURN-IN
MICROCIRCUIT,LI:OPERATIONAL AMPLIFIER

80009
02735
80009
80009
01295
27014

214-0579-00
CA3039
156-0413-02
156-0413-02
SN74S174(JP4)
LM301AN

A12U125
A12U128
A12U131
A12U133
A12U134
A12U140

156-0385-02
156-073B-04
156-0738-04
156-0105-00
156-085B-00
156-0105-00

MICROCIRCUIT,DI:HEX INVERTER
MICROCIRCUIT,DI:HEX 0 FF W/CLEAR,BURN-IN
MICROCIRCUIT,DI:HEX 0 FF W/CLEAR,BURN-IN
MICROCIRCUIT,LI:OPERATIONAL AMPLIFIER
MICROCIRCUIT,DI:QUAD SPST ANALOG XMSN GATE
MICROCIRCUIT,LI:OPERATIONAL AMPLIFIER

01295
01295
01295
27014
17856
27014

SN74LS04
SN74S174(JP4)
SN74S174(JP4)
LM301AN
DG201ACJ
LM301AN

A12U142
A12U151
A12U152
A12U153
A12U155
A12U158

156-0105-00
156-0459-02
156-1255-01
156-0118-03
156-0331-03
156-0765-03

MICROCIRCUIT,LI:OPERATIONAL AMPLIFIER
MICROCIRCUIT,DI:QUAD 2 INPUT & GATE,BURN
MICROCIRCUIT,LI:D/A CONIJERTER,BURN-IN
MICROCIRCUIT,DI:1 DUAL J-K FF,BURN-IN
MICROCIRCUIT,DI:DUAL 0 TYPE POS EDGE TRIG
MICROCIRCUIT,DI:SYN UP/DOWN BINARY COUNTER

27014
01295
04713
01295
80009
80009

LM301AN
SN74S08
DAC-08HQDS
SN74S112JP3
156-0331-03
156-0765-03

10-42

Serial/Model No.
Eft
Dscont

B013055
B013055

Name & Description

REV MAR 1984

Replaceable Electrical Parts
CAS 9100 Series Service Vol.1I

Tektronix
Part No.

A12U161
A12U165
A12U168
A12U171
A12U175
A12U178

156-0765-03
156-1360-01
156-1360-01
156-1360-01
156-1360-01
156-1360-01

MICROCIRCUIT,DI:SYN UP/DOWN
MICROCIRCUIT,DI:256 X 4 STATIC
MICROCIRCUIT,DI:256 X 4 STATIC
MICROCIRCUIT,DI:256 X 4 STATIC
MICROCIRCUIT,DI:256 X 4 STATIC
MICROCIRCUIT,DI:256 X 4 STATIC

A12U181
A12U185
A12U188
A12U215
A12U221
A12U225

156-1360-01
156-1360-01
156-1360-01
156-0413-02
156-0738-04
156-0385-02

MICROCIRCUIT,DI:256 X 4 STATIC RAM
MICROCIRCUIT,DI:256 X 4 STATIC RAM
MICROCIRCUIT,DI:256 X 4 STATIC RAM
MICROCIRCUIT,DI:QUAD 2-INP SCHMITT TRIG
MICROCIRCUIT,DI:HEX D FF W/CLEAR,BURN-IN
MICROCIRCUIT,DI:HEX INVERTER

80009
80009
80009
80009
01295
01295

156-1360-01
156-1360-01
156-1360-01
156-0413-02
SN74S174(JP4)
SN74LS04

A12U228
A12U231
A12U233
A12U241
A12U245
A12U251

156-0738-04
156-0738-04
156-0331-03
156-0956-02
156-0956-02
156-0956-02

MICROCIRCUIT,DI:HEX D FF W/CLEAR,BURN-IN
MICROCIRCUIT,DI:HEX D FF W/CLEAR,BURN-IN
MICROCIRCUIT,DI:DUAL D TYPE POS EDGE TRIG
MICROCIRCUIT,DI:OCTAL BFR W/3 STATE OUT
MICROCIRCUIT,DI:OCTAL BFR W/3 STATE OUT
MICROCIRCUIT,DI:OCTAL BFR W/3 STATE OUT

01295
01295
80009
01295
01295
01295

SN74S174(JP4)
SN74S174(JP4)
156-0331-03
SN74LS244NP3
SN74LS244NP3
SN74LS244NP3

A12U255
A12U261
A12U265
A12U268
A12U271
A12U275

156-0738-04
156-0738-04
156-1360-01
156-1360-01
156-1360-01
156-1360-01

MICROCIRCUIT,DI:HEX D FF W/CLEAR,BURN-IN
MICROCIRCUIT,DI:HEX D FF W/CLEAR,BURN-IN
MICROCIRCUIT,DI:256 X 4 STATIC RAM
MICROCIRCUIT,DI:256 X 4 STATIC RAM
MICROCIRCUIT,DI:256 X 4 STATIC RAM
MICROCIRCUIT,DI:256 X 4 STATIC RAM

01295
01295
80009
80009
80009
80009

SN74S174(JP4)
SN74S174(JP4)
156-1360-01
156-1360-01
156-1360-01
156-1360-01

A12U278
A12U281
A12U285
A12U288
A12U311
A12U315

156-1360-01
156-1360-01
156-1360-01
156-1360-01
156-0413-02
156-0413-02

MICROCIRCUIT,DI:256 X 4 STATIC RAM
MICROCIRCUIT,DI:256 X 4 STATIC RAM
MICROCIRCUIT,DI:256 X 4 STATIC RAM
MICROCIRCUIT,DI:256 X 4 STATIC RAM
MICROCIRCUIT,DI:QUAD 2-INP SCHMITT TRIG
MICROCIRCUIT,DI:QUAD 2-INP SCHMITT TRIG

80009
80009
80009
80009
80009
80009

156-1360-01
156-1360-01
156-1360-01
156-1360-01
156-0413-02
156-0413-02

A12U321
A12U325
A12U328
A12U331
A12U335
A12U341

156-0738-04
156-0385-02
156-0738-04
156-0738-04
156-0956-02
156-1 026-02

MICROCIRCUIT,DI:HEX D FF W/CLEAR,BURN-IN
MICROCIRCUIT,DI:HEX INVERTER
MICROCIRCUIT,DI:HEX D FF W/CLEAR,BURN-IN
MICROCIRCUIT,DI:HEX D FF W/CLEAR,BURN-IN
MICROCIRCUIT,DI:OCTAL BFR W/3 STATE OUT
MICROCIRCUIT,DI:4/1 LINE DECODER,BURN-IN

01295
01295
01295
01295
01295
80009

SN74S174(JP4)
SN74LS04
SN74S174(JP4)
SN74S174(JP4)
SN74LS244NP3
156-1026-02

A12U345
A10U345
A12U346
A12U351
A12U361
A12U411

156-0478-02
156-0297-02
156-0385-02
156-0956-02
156-0956-02
156-0180-04

MICROCIRCUIT,DI:DUAL 4 INP & GATE,BURN-IN
MICROCIRCUIT,DI:DUAL 4-INP AND GATE,SCRN
MICROCIRCUIT,DI:HEX INVERTER
MICROCIRCUIT,DI:OCTAL BFR W/3 STATE OUT
MICROCIRCUIT,DI:OCTAL BFR W/3 STATE OUT
MICROCIRCUIT,DI:QUAD 2-INPUT NAND GATE

01295
07263
01295
01295
01295
01295

SN74LS21 NP3
7421(PCQR OR DCQ
SN74LS04
SN74LS244NP3
SN74LS244NP3
SN74S00NP3

A12U415
A12U421
A12U425
A12U428
A12U431
A12U435

156-0180-04
156-0738-04
156-0385-02
156-0738-04
156-0738-04
156-0323-02

MICROCIRCUIT,DI:QUAD 2-INPUT NAND GATE
MICROCIRCUIT,DI:HEX D FF W/CLEAR,BURN-IN
MICROCIRCUIT,DI:HEX INVERTER
MICROCIRCUIT,DI:HEX D FF W/CLEAR,BURN-IN
MICROCIRCUIT,DI:HEX D FF W/CLEAR,BURN-IN
MICROCIRCUIT,DI:HEX INVERTER,BURN-IN

01295
01295
01295
01295
01295
01295

SN74S00NP3
SN74S174(JP4)
SN74LS04
SN74S174(JP4)
SN74S174(JP4)
SN74S04

A12U441
A12U451
A12U465
A12U468
A12U471
A12U475

156-0469-02
156-0469-02
156-1360-01
156-1360-01
156-1360-01
156-1360-01

MICROCIRCUIT,DI:3/8 LINE DCDR
MICROCIRCUIT,DI:3/8 LINE DCDR
MICROCIRCUIT,DI:256 X 4 STATIC
MICROCIRCUIT,DI:256 X 4 STATIC
MICROCIRCUIT,DI:256 X 4 STATIC
MICROCIRCUIT,DI:256 X 4 STATIC

01295
01295
80009
80009
80009
80009

SN74LS138NP3
SN74LS138NP3
156-1360-01
156-1360-01
156-1360-01
156-1360-01

REV MAR 1984

Serial/Model No.
Eff
Dscont

Mfr
Code

Component No.

B010100
B010375

B010374

Name & Description

BINARY COUNTER 80009
RAM
80009
RAM
80009
RAM
80009
RAM
80009
RAM
80009

RAM
RAM
RAM
RAM

Mfr Part Number
156-0765-03
156-1360-01
156-1360-01
156-1360-01
156-1360-01
156-1360-01

10-43

Replaceable Electrical Parts
DAS 9100 Series Service Vo!.11

Component No.

Tektronix
Part No.

A12U478
A12U481
A12U485
A12U488
A12U511
A12U515

156-1360-0 1
156-1360-0 1
156-1360-0 1
156-1360-01
156-0413-02
156-0413-02

A12U521
A12U525
A12U528
A12U531
A12U541
A12U545

Mfr
Code

Mfr Part Number

MICROCIRCUIT,DI:256 X 4 STATIC RAM
MICROCIRCUIT,DI:256 X 4 STATIC RAM
MICROCIRCUIT,DI:256 X 4 STATIC RAM
MICROCIRCUIT,DI:256 X 4 STATIC RAM
MICROCIRCUIT,DI:QUAD 2-INP SCHMITT TRIG
MICROCIRCUIT,DI:QUAD 2-INP SCHMITT TRIG

80009
80009
80009
80009
80009
80009

156-1360-01
156-1360-01
156-1360-01
156-1360-01
156-0413-02
156-0413-02

156-0738-04
156-0385-02
156-0738-04
156-0738-04
156-1393-00
156-0738-04

MICROCIRCUIT,DI:HEX D FF W/CLEAR,BURN-IN
MICROCIRCUIT,DI:HEX INVERTER
MICROCIRCUIT,DI:HEX D FF W/CLEAR,BURN-IN
MICROCIRCUIT,DI:HEX D FF W/CLEAR,BURN-IN
MICROCIRCUIT,DI:4096 X 8 EPROM,PRGM
MICROCIRCUIT,DI:HEX D FF W/CLEAR,BURN-IN

01295
01295
01295
01295
01295
01295

SN74S174(JP4)
SN74LS04
SN74S174(JP4)
SN74S174(JP4)
SN74S38
SN74S174(JP4)

A12U611
A12U615
A12U621
A12U625
A12U628
A12U631

156-0413-02
156-0413-02
156-0738-04
156-0385-02
156-0738-04
156-0738-04

MICROCIRCUIT,DI:QUAD 2-INP SCHMITT TRIG
MICROCIRCUIT,DI:QUAD 2-INP SCHMITT TRIG
MICROCIRCUIT,DI:HEX D FF W/CLEAR,BURN-IN
MICROCIRCUIT,DI:HEX INVERTER
MICROCIRCUIT,DI:HEX D FF W/CLEAR,BURN-IN
MICROCIRCUIT,DI:HEX D FF W/CLEAR,BURN-IN

80009
80009
01295
01295
01295
01295

156-041 3-02
156-0413-02
SN74S174(JP4)
SN74LS04
SN74S174(JP4)
SN74S174(JP4)

A12U635
A12U638
A12U641
A12U645
A12U646
A12U651

156-0369-02
156-0640-02
156-1393-00
156-0707-03
156-0180-04
156-0331-03

MICROCIRCUIT,DI:TRIPLE DIFF LINE RECEIVER
MICROCIRCUIT,DI:8 LINE MULTIPLEXER
MICROCIRCUIT,DI:4096 X 8 EPROM,PRGM
MICROCIRCUIT,DI:QUAD 2 INP EXCL OR GATE
MICROCIRCUIT,DI:QUAD 2-INPUT NAND GATE
MICROCIRCUIT,DI:DUAL D TYPE POS EDGE TRIG

04713
04713
01295
07263
01295
80009

SC22689P216
MC10164PD/LD
SN74S38
74S86
SN74S00NP3
156-0331-03

A12U655
A12U658
A12U661
A12U665
A12U668
A12U669

156-0331-03
156-0865-02
156-0865-02
156-0865-02
156-0956-02
156-0956-02

MICROCIRCUIT,DI:DUAL D TYPE POS EDGE TRIG
MICROCIRCUIT,DI:OCTAL D-TYPE FF W/CLEAR
MICROCIRCUIT,DI:OCTAL D-TYPE FF W/CLEAR
MICROCIRCUIT,DI:OCTAL D-TYPE FF W/CLEAR
MICROCIRCUIT,DI:OCTAL BFR W/3 STATE OUT
MICROCIRCUIT,DI:OCTAL BFR W/3 STATE OUT

80009
01295
01295
01295
01295
01295

156-0331-03
SN74LS273NP3
SN74LS273NP3
SN74LS273NP3
SN74LS244NP3
SN74LS244NP3

A12U671
A12U675
A12U681
A12U685
A12U688
A12VR148

156-1064-02
156-0304-02
156-0304-02
156-0304-02
156-0304-02
152-0461-00

MICROCIRCUIT,DI:QUAD 2/1 LINE TRUE DATA
MICROCIRCUIT,DI:DUAL 4 INP NAND GATE
MICROCIRCUIT,DI:DUAL 4 INP NAND GATE
MICROCIRCUIT,DI:DUAL 4 INP NAND GATE
MICROCIRCUIT,DI:DUAL 4 INP NAND GATE
SEMICOND DEVICE:ZENER,0.4W,6.2V,5%

01295
01295
01295
01295
01295
04713

SN74S157JP4
SN74S20
SN74S20
SN74S20
SN74S20
SZG25002K2

10·44

Serial/Model No.
Eft
Dscont

Name & Description

REV MAR 1984

Replaceable Electrical Parts
DAS 9100 Series Service VoUI

Tektronix
Part No.

Serial/Model No.
Eft
Dscont

A13
A13
A13
A13
A13
A13

670-6743-00

B010l00

BOllS44

670-6743-01

BOllS4S

BOl1760

670-6743-02

BOl1761

B019999

A13
A13
A13Cl0l
A13C112
A13Cl1S
A13Cl16

670-6743-04

B020000

Component No.

Name & Description
CKT BOARD ASSY:8 CHAN DATA ACQUISITION
(91 A08)
CKT BOARD ASSY:8 CHAN DATA ACQUISITION
(91 A08)
CKT BOARD ASSY:8 CHAN DATA ACQUISITION
(91AD8)

Mfr
Code

Mfr Part Number

80009

670-6743-00

80009

670-6743-01

80009

670-6743-02

80009

670-6743-04

281-0814-00
283-0177-00
281-0773-00
281-077S-00

CKT BOARD ASSY:8 CHAN DATA ACQUISITION
(91A08)
CAP.,FXD,CER DI:l00PF,10%,100V
CAP.,FXD,CER 01:1 UF,+80-20%,2SV
CAP.,FXD,CER DI:0.OlUF,10%,100V
CAP.,FXD,CER 01:0.1 UF,20%,50V

04222
56289
04222
04222

GC101Al01K
2C20ZSU10SZ02SB
MA201 Cl 03KAA
MA20SE104MAA

A13C128
A13C131
A13C136
A13C142
A13C149
A13C178

281-077S-00
281-077S-00
281-077S-00
281-077S-00
261-077S-00
281-08S1-00

CAP.,FXD,CER
CAP.,FXD,CER
CAP.,FXD,CER
CAP.,FXD,CER
CAP.,FXD,CER
CAP.,FXD,CER

04222
04222
04222
04222
04222
04222

MA20SE104MAA
MA20SE104MAA
MA205El04MAA
MA20SE104MAA
MA20SE104MAA
GC10-l-A-181K

A13C184
A13C187
A13C190
A13C190
A13C194
A13C199

283-0164-00
281-077S-00
290-0932-00
290-0773-00
281-077S-00
281-077S-00

CAP.,FXD,CER DI:2.2UF,20%,2SV
CAP.,FXD,CER DI:0.1UF,20%,SOV
CAP.,FXD ELECT:390UF,+ 100-10%,lSVDC
CAP.,FXD,ELCTLT: 1OOOUF, + SO-l 0%,1 OV
CAP.,FXD,CER 01:0.1 UF,20%,SOV
CAP.,FXD,CER 01:0.1 UF,20%,SOV

04222
04222
90201
56289
04222
04222

SR402E22SMAA
MA20SE104MAA
VPR391 NOl El A3J
SOOD1S4
MA20SE104MAA
MA20SE104MAA

A13C203
A13C204
A13C211
A13C212
A13C232
A13C236

281-0814-00
281-077S-00
281-077S-00
281-0814-00
281-0775-00
281-077S-00

CAP.,FXD,CER
CAP.,FXD,CER
CAP.,FXD,CER
CAP.,FXD,CER
CAP.,FXD,CER
CAP.,FXD,CER

DI:l00PF,10%,100V
DI:0.lUF,20%,SOV
DI:0.lUF,20%,50V
DI:l00PF,10%,100V
01:0.1 UF,20%,SOV
DI:0.lUF,20%,SOV

04222
04222
04222
04222
04222
04222

GC101Al01K
MA20SE104MAA
MA20SE104MAA
GCl 01 A 101l(
MA20SE104MAA
MA20SE104MAA

A13C239
A13C2S8
A13C267
A13C273
A13C291
A13C303

281-0775-00
281-077S-00
281-077S-00
281-0775-00
283-0194-00
281-077S-00

CAP.,FXD,CER
CAP.,FXD,CER
CAP.,FXD,CER
CAP.,FXD,CER
CAP.,FXD,CER
CAP.,FXD,CER

DI:0.lUF,20%,SOV
DI:0.1UF,20%,SOV
DI:0.1UF,20%,SOV
01:0.1 UF,20%,SOV
DI:4.7UF,20%,SOV
DI:0.1UF,20%,SOV

04222
04222
04222
04222
S6289
04222

MA20SE104MAA
MA20SE104MAA
MA20SE104MAA
MA20SE104MAA
SC37ZSU47SMOSOB
MA20SE104MAA

A13C304
A13C30S
A13C306
A13C331
A13C332
A13C3S6

281-077S-00
281-077S-00
281-077S-00
281-077S-00
281-077S-00
281-077S-00

CAP.,FXD,CER
CAP.,FXD,CER
CAP.,FXD,CER
CAP.,FXD,CER
CAP.,FXD,CER
CAP.,FXD,CER

01:0.1 UF,20%,SOV
01:0.1 UF,20%,SOV
01:0.1 UF,20%,SOV
01:0.1 UF,20%,SOV
01:0.1 UF,20%,SOV
01:0.1 UF,20%,SOV

04222
04222
04222
04222
04222
04222

MA20SE104MAA
MA20SE104MAA
MA20SE104MAA
MA20SE104MAA
MA20SE104MAA
MA20SE104MAA

A13C393
A13C39S
A13C424
A13C436
A13C437
A13C439

281-077S-00
281-077S-00
281-077S-00
281-077S-00
281-077S-00
281-0775-00

CAP.,FXD,CER
CAP.,FXD,CER
CAP.,FXD,CER
CAP.,FXD,CER
CAP.,FXD,CER
CAP.,FXD,CER

DI:0.1UF,20%,SOV
01:0.1 UF,20%,SOV
01:0.1 UF,20%,SOV
DI:0.1UF,20%,SOV
DI:0.1UF,20%,SOV
DI:0.1UF,20%,SOV

04222
04222
04222
04222
04222
04222

MA20SE104MAA
MA20SE104MAA
MA20SE104MAA
MA20SE104MAA
MA20SE104MAA
MA20SE104MAA

A13C446
A13C4S2
A13C457
A13C479
A13C481
A13C486

281-077S-00
281-077S-00
281-077S-00
281-077S-00
281-077S-00
281-077S-00

CAP.,FXD,CER
CAP.,FXD,CER
CAP.,FXD,CER
CAP.,FXD,CER
CAP.,FXD,CER
CAP.,FXD,CER

DI:0.1UF,20%,SOV
DI:0.1UF,20%,SOV
01:0.1 UF,20%,SOV
01:0.1 UF,20%,50V
01:0.1 UF,20%,50V
DI:0.1UF,20%,50V

04222
04222
04222
04222
04222
04222

MA20SE104MAA
MA20SE104MAA
MA20SE104MAA
MA20SE104MAA
MA20SE104MAA
MA20SE104MAA

REV MAR 1984

BOllS4S
B010l00
BOl154S

BOllS44

01:0.1 UF,20%,SOV
01:0.1 UF,20%,SOV
01:0.1 UF,20%,SOV
01:0.1 UF,20%,SOV
01:0.1 UF,20%,50V
DI:180PF,S%,100VDC

10-45

Replaceable Electrical Parts
CAS 9100 Series Service Vo!.11

Component No.

Tektronix
Part No.

Serial/Model No.
Eft
Dscont

A13C511
A13C514
A13C515
A13C519
A13C533
A13C546

281-0775-00
281-0775-00
281-0775-00
281-0775-00
281-0775-00
281-0775-00

CAP.,FXD,CER
CAP.,FXD,CER
CAP.,FXD,CER
CAP.,FXD,CER
CAP.,FXD,CER
CAP.,FXD,CER

A13C562
A13C566
A13C591
A13C601
A13C602
A13C618

281-0775-00
281-0775-00
281-0775-00
281-0775-00
281-0775-00
281-0775-00

CAP.,FXD,CER
CAP.,FXD,CER
CAP.,FXD,CER
CAP.,FXD,CER
CAP.,FXD,CER
CAP.,FXD,CER

A13C628
A13C632
A13C636
A13C637
A13C650
A13C653

281-0775-00
281-0759-00
283-0194-00
290-0920-00
281-0775-00
281-0775-00

CAP.,FXD,CER DI:0.1 UF,20%,50V
CAP.,FXD,CER DI:22PF,10%,100V
CAP.,FXD,CER DI:4.7UF,20%,50V
CAP.,FXD,ELCTLT:33UF, +50-1 0%,35V
CAP.,FXD,CER DI:0.1 UF,20%,50V
CAP.,FXD,CER DI:0.1 UF,20%,50V

A13C656
A13C657
A13C665
A13C669
A13C670
A13C675

281-0811-00
281-0811-00
281-0811-00
281-0811-00
281-0775-00
281-0775-00

CAP.,FXD,CER
CAP.,FXD,CER
CAP.,FXD,CER
CAP.,FXD,CER
CAP.,FXD,CER
CAP.,FXD,CER

A13C681
A13C686
A13C687
A13C689
A13C696
A13C701

281-0775-00
281-0775-00
281-0775-00
281-0775-00
281-0775-00
281-0773-00

CAP.,FXD,CER
CAP.,FXD,CER
CAP.,FXD,CER
CAP.,FXD,CER
CAP.,FXD,CER
CAP.,FXD,CER

A13C704
A13C708
A13C709
A13CR291
A13CR458
A13CR516

283-0164-00
281-0775-00
283-0353-00
152-0582-00
152-0066-00
152-0066-00

A13CR630
A13CR686
A13DL215
A13DL215
A13DL219
A13DL219

152-0536-00
152-0066-00
119-1088-00
119-1488-00
119-1088-00
119-1488-00

8010100
8011545
8010100
8011545

8011544

A13DL223
A13DL223
A13DL227
A13DL227
A13DL314
A13DL314

11 9-1088-00
119-1488-00
119-1088-00
119-1488-00
119-1088-00
119-1488-00

8010100
8011545
8010100
8011545
8010100
8011545

8011544

A13DL319
A13DL319
A13DL323
A13DL323
A13DL327
A13DL327

119-1088-00
119-1488-00
119-1 088-00
119-1488-00
119-1 088-00
119-1488-00

8010100
8011545
8010100
8011545
8010100
8011545

8011544

8011544

8011544
8011544

8011544
8011544

Mfr
Code

Mfr Part Number

DI:0.1 UF,20%,50V
DI:0.1 UF,20%,50V
01:0.1 UF,20%,50V
DI:0.1 UF,20%,50V
DI:0.1 UF,20%,50V
DI:0.1 UF,20%,50V

04222
04222
04222
04222
04222
04222

MA205E104MAA
MA205E104MAA
MA205E104MAA
MA205E104MAA
MA205E104MAA
MA205E104MAA

DI:0.1 UF,20%,50V
DI:0.1 UF,20%,50V
DI:0.1 UF,20%,50V
DI:0.1 UF,20%,50V
DI:0.1 UF,20%,50V
DI:0.1 UF,20%,50V

04222
04222
04222
04222
04222
04222

MA205E104MAA
MA205El04MAA
MA205E104MAA
MA205E104MAA
MA205E104MAA
MA205E104MAA

04222
96733
56289
55680
04222
04222

MA205E104MAA
R2735
5C37Z5U475M0508
UL81 V330TEAANA
MA205E104MAA
MA205E104MAA

DI:10PF,10%,100V
DI:10PF,10%,100V
DI:10PF,10%,100V
DI:10PF,10%,100V
DI:0.1 UF,20%,50V
DI:0.1 UF,20%,50V

96733
96733
96733
96733
04222
04222

R2911
R2911
R2911
R2911
MA205E104MAA
MA205E104MAA

DI:0.1 UF,20%,50V
DI:0.1UF,20%,50V
DI:0.1UF,20%,50V
DI:0.1UF,20%,50V
DI:0.1 UF,20%,50V
DI:0.01UF,10%,100V

04222
04222
04222
04222
04222
04222

MA205E104MAA
MA205E104MAA
MA205E104MAA
MA205E104MAA
MA205E104MAA
MA201 C1 03KAA

CAP.,FXD,CER DI:2.2UF,20%,25V
CAP.,FXD,CER DI:0.1 UF,20%,50V
CAP.,FXD,CER DI:0.1 UF, 10%,50V
SEMICOND DEVICE:SILlCON,20V,3A
SEMICOND DEVICE:SILlCON,400V,750MA
SEMICOND DEVICE:SILlCON,400V,750MA

04222
04222
04222
04713
14433
14433

SR402E225MAA
MA205E104MAA
12105C104KA2075
1N5820
LG4016
LG4016

SEMICOND DEVICE:SILlCON,HOT CARRIER,4V
SEMICOND DEVICE:SILlCON,400V,750MA
DELAY LlNE:4NS,1 00 OHM
DELAY LlNE,ELEC:8NS,100 OHM
DELAY LlNE:4NS,100 OHM
DELAY LlNE,ELEC:8NS,100 OHM

80009
14433
01961
01961
01961
01961

152-0536-00
LG4016
PE-20943
23084
PE-20943
23084

DELAY
DELAY
DELAY
DELAY
DELAY
DELAY

LlNE:4NS,100 OHM
LlNE,ELEC:8NS,100 OHM
LlNE:4NS,100 OHM
LlNE,ELEC:8NS,1 00 OHM
LlNE:4NS,100 OHM
LlNE,ELEC:8NS,100 OHM

01961
01961
01961
01961
01961
01961

PE-20943
23084
PE-20943
23084
PE-20943
23084

DELAY
DELAY
DELAY
DELAY
DELAY
DELAY

LlNE:4NS,100 OHM
LlNE,ELEC:8NS,100 OHM
LlNE:4NS,100 OHM
LlNE,ELEC:8NS,100 OHM
LlNE:4NS,100 OHM
LlNE,ELEC:8NS,1 00 OHM

01961
01961
01961
01961
01961
01961

PE-20943
23084
PE-20943
23084
PE-20943
23084

Name & Description

/

10-46

REV MAR 1984

Replaceable Electrical Parts
DAS 9100 Series Service Vol.lI

Tektronix
Part No.

Serial/Model No.
Eft
Dscont

A13DL418
A13DL418
A13J208
A13J208
A13J300
A13J500

119-1088-00
119-1488-00
131-0608-00

B010l00
BOl1545

BOl1544

131-0265-00
131-2567 -00

8010100

8010219

A13J500
A13J545
A13J545
A13J545
A13J545
A13J615

131-2797-00
131-0608-00

8010220
8010100

B010434

131-1934-00

B010435

Component No.

Name & Description
DELAY LlNE:4NS,100 OHM
DELAY LlNE,ELEC:8NS, 100 OHM
TERMINAL,PIN:0.365 L X 0.025 PH BRZ GOLD
(QUANTITY OF 2)
CONN,RCPT,ELEC:MINTR,CKT BD MTD,FEM,RTANG
CONN,RCPT,ELEC:CKT 8D,17/34 CONT,RT ANGLE

Mfr
Code

Mfr Part Number

01961
01961
22526

PE-20943
23084
47357

98291
22526

51-053-0000
65461-006

22526
22526

65461-033
47357

22526

65539-001

22526

47357

131-0608-00

CONN,RCPT,ELEC:RTANG HEADER,2 X 17,0.1 CTR
TERMINAL,PIN:0.365 LX 0.025 PH BRZ GOLD
(QUANTITY OF 3)
TERM. SET,PIN:l X 36,0.1 CTR,0.9 L
(QUANTITY OF 3)
TERMINAL,PIN:0.365 LX 0.025 PH 8RZ GOLD

A13J615
A13L192
A13L290
A13Q138
A13Q151
A13Q152

108-0336-00
108-0336-00
151-01 88-00
151-0221-00
151-0221-00

(QUANTITY OF 2)
COIL,RF:l00UH
COIL,RF:l00UH
TRANSISTOR:SILlCON,PNP
TRANSISTOR:SILlCON,PNP
TRANSISTOR:SILlCON,PNP

80009
80009
04713
04713
04713

108-0336-00
108-0336-00
SPS6868K
SPS246
SPS246

A13Q295
A13Q297
A13Q298
A13Q571
A13Q572
A13Q601

151-0352-00
151-0188-00
151-0190-00
151-0221-00
151-0221-00
151-0447-00

TRANSISTOR:SILlCON,NPN
TRANSISTOR:SILlCON,PNP
TRANSISTOR:SILlCON,NPN
TRANSISTOR:SILlCON,PNP
TRANSISTOR:SILlCON,PNP
TRANSISTOR:SILlCON,NPN

03508
04713
07263
04713
04713
04713

X44C282
SPS6868K
S032677
SPS246
SPS246
SRF502-1

A13Q602
A13Q608
A13Q616
A13Q623
A13Q631
A13Q632

151-0447-00
151-0427-00
151-0427 -00
151-0427-00
151-0223-00
151-0221-00

TRANSISTOR:SILlCON,NPN
TRANSISTOR:SILlCON,NPN
TRANSISTOR:SILlCON,NPN
TRANSISTOR:SILlCON,NPN
TRANSISTOR:SILlCON,NPN
TRANSISTOR:SILlCON,PNP

04713
80009
80009
80009
04713
04713

SRF502-1
151-0427-00
151-0427-00
151-0427-00
SPS8026
SPS246

A13Q644
A13Q645
A13Q649
A 13Rl01
A13Rl02
A13Rl03

151-0221-00
151-0221-00
151-0223-00
311-1399-00
321-0289-07
321-0986-07

TRANSISTOR:SILlCON,PNP
TRANSISTOR:SILlCON,PNP
TRANSISTOR:SILlCON,NPN
RES.,VAR,NONWIR:5M OHM,20%,0.50W
RES.,FXD,FILM:l0K OHM,O.1%,0.125W
RES.,FXD,FILM:25K OHM,0.1%,0.125W

04713
04713
04713
73138
91637
91637

SPS246
SPS246
SPS8026
72-90-0
MFF1816Cl0001B
MFF1816C25001 B

A13Rl04
A13Rl05
A13Rl06
A13Rl07
A13Rl08
A13Rl09

321-1133-02
311-1936-00
321-0171-00
321-0222-07
321-0144-00
321-0812-07

RES.,FXD,FILM:240 OHM,0.5%,0.125W
RES.,VAR,NONWIR:CKT BD,50 OHM,20%,0.5W
RES.,FXD,FILM:590 OHM,1%,0.125W
RES.,FXD,FILM:2K OHM,0.1%,0.125W
RES.,FXD,FILM:3090HM,1%,0.125W
RES.,FXD,FILM:4550HM,O.1%,0.125W

91637
73138
91637
91637
91637
91637

MFF1816D240ROD
72XR50-232A
MFF1816G590ROF
M FF1816C20000B
MFF1816G309ROF
MFF1816C455ROB

A13Rl09
A13Rl10
A13Rlll
A13Rl12
A13Rl12
A13Rl13

321-0729-06
311-1307-00
321-0998-07
321-1722-07
321-0666-07
321-0318-00

RES.,FXD,FILM:7860HM,0.25%,0.125W
RES.,VAR,NONWIR:500 OHM,0.50W
RES.,FXD,FILM:l.915K OHM,0.1%,O.125W
RES.,FXD,FILM:3.39K OHM,O.l %,0.125W
RES.,FXD,FILM:3.04K OHM,0.1%,0.125W
RES.,FXD,FILM:20K OHM,1%,0.125W

91637
32997
24546
24546
91637
91637

MFF1816C786ROC
3299W-R27 -501
NE55E19150B
NE55E3391B
MFF1816C30400B
MFF1816G20001F

A13R120
A13R123
A13R126
A13R128
A13R131
A13R135

307-0675-00
307-0675-00
307-0675-00
315-0750-00
315-0242-00
315-0221-00

RES NTWK,FXD FI:9,lK OHM,2%,1.25W
RES NTWK,FXD FI:9,lK OHM,2%,l.25W
RES NTWK,FXD FI:9,lK OHM,2%,1.25W
RES.,FXD,CMPSN:75 OHM,5%,0.25W
RES.,FXD,CMPSN:2.4K OHM,5%,0.25W
RES.,FXD,CMPSN:220 OHM,5%,0.25W

01121
01121
01121
01121
01121
01121

210Al02
210Al02
210Al02
CB7505
CB2425
CB2215

REV MAR 1984

B011545

B010l00

B010434

8010435

B010l00
B010435

BOl1761
B011545

8010434

10-47

Replaceable Electrical Parts
DAS 9100 Series Service Vol.lI

Component No.

Tektronix
Part No.

Serial/Model No.
Eff
Dscont

A13R136
A13R139
A13R145
A13R149
A13R150
A13R158

315-0432-00
315-0750-00
315-0750-00
315-0101-00
315-0330-00
315-0102-00

B011545

A13R167
A13R179
A13R182
A13R184
A13R186
A13R191

Name & Description

Mfr
Code

Mfr Part Number

RES.,FXD,CMPSN:4.3K OHM,5%,0.25W
RES.,FXD,CMPSN:75 OHM,5%,0.25W
RES.,FXD,CMPSN:75 OHM,5%,0.25W
RES.,FXD,CMPSN:100 OHM,5%,0.25W
RES.,FXD,CMPSN:33 OHM,5%,0.25W
RES.,FXD,CMPSN:1 K OHM,5%,0.25W

01121
01121
01121
01121
01121
01121

CB4325
CB7505
CB7505
CB1015
CB3305
CB1025

307 -0675-00
315-0101-00
315-0511-00
315-0102-00
315-0102-00
308-0136-00

RES NTWK,FXD FI:9,1K OHM,2%,1.25W
RES.,FXD,CMPSN:100 OHM,5%,0.25W
RES.,FXD,CMPSN:510 OHM,5%,0.25W
RES.,FXD,CMPSN:1 K OHM,5%,0.25W
RES.,FXD,CMPSN:1 K OHM,5%,0.25W
RES.,FXD,wW:0.050HM,10%,5W

01121
01121
01121
01121
01121
80009

21 OA 102
CB1015
CB5115
CB1025
CB1025
308-0136-00

A13R195
A13R196
A13R197
A13R198
A13R201
A13R202

315-0102-00
315-0512-00
315-0101-00
315-0180-00
321-0986-07
321-0318-07

RES.,FXD,CMPSN:1 K OHM,5%,0.25W
RES.,FXD,CMPSN:5.1 K OHM,5%,0.25W
RES.,FXD,CMPSN:100 OHM,5%,0.25W
RES.,FXD,CMPSN:180HM,5%,0.25W
RES.,FXD,FILM:25K OHM,0.1%,0.125W
RES.,FXD,FILM:20K OHM,0.1%,0.125W

01121
01121
01121
01121
91637
24546

CB1025
CB5125
CB1015
CB1805
MFF1816C25001 B
NE55E2002B

A13R203
A13R204
A13R204
A13R205
A13R207
A13R208

321-0272-07
31 5-0475-00
315-0305-00
315-0335-00
31 5-01 04-00
315-01 03-00

RES.,FXD,FILM:6.65K OHM,0.1 %,0.125W
RES.,FXD,CMPSN:4.7M OHM,5%,0.25W
RES.,FXD,CMPSN:3M OHM,5%,0.25W
RES.,FXD,CMPSN:3.3M OHM,5%,0.25W
RES.,FXD,CMPSN:100K OHM,5%,0.25W
RES.,FXD,CMPSN:10K OHM,5%,0.25W

91637
01121
01121
01121
01121
01121

MFF1816C66500B
CB4755
CB3055
CB3355
CB1045
CB1035

A13R209
A13R210
A13R211
A13R212
A13R214
A13R215

315-0104-00
321-0289-07
321-0289-00
321-0231-00
31 5-0750-00
315-0101-00

RES.,FXD,CMPSN:100K OHM,5%,0.25W
RES.,FXD,FILM:10K OHM,0.1%,0.125W
RES.,FXD,FILM:10K OHM,1%,0.125W
RES.,FXD,FILM:2.49K OHM,1%,0.125W
RES.,FXD,CMPSN:75 OHM,5%,0.25W
RES.,FXD,CMPSN:1000HM,5%,0.25W

01121
91637
91637
91637
01121
01121

CB1045
MFF1816C10001B
MFF1816G1 0001 F
MFF1816G24900F
CB7505
CB1015

A13R216
A13R217
A13R218
A13R219
A13R220
A13R221

315-0361-00
315-0620-00
31 5-0750-00
315-0101-00
31 5-0361-00
315-0620-00

RES.,FXD,CMPSN:360 OHM,5%,0.25W
RES.,FXD,CMPSN:62 OHM,5%,0.25W
RES.,FXD,CMPSN:75 OHM,5%,0.25W
RES.,FXD,CMPSN:1000HM,5%,0.25W
RES.,FXD,CMPSN:360 OHM,5%,0.25W
RES.,FXD,CMPSN:62 OHM,5%,0.25W

01121
01121
01121
01121
01121
01121

CB3615
CB6205
CB7505
CB1015
CB3615
CB6205

A13R222
A13R223
A13R224
A13R225
A13R226
A13R227

315-0750-00
315-0101 '00
315-0361-00
315-0620-00
315-0750-00
315-0101-00

RES.,FXD,CMPSN:75 OHM,5%,0.25W
RES.,FXD,CMPSN:1000HM,5%,0.25W
RES.,FXD,CMPSN:360 OHM,5%,0.25W
RES.,FXD,CMPSN:62 OHM,5%,0.25W
RES.,FXD,CMPSN:75 OHM,5%,0.25W
RES.,FXD,CMPSN:100 OHM,5%,0.25W

01121
01121
01121
01121
01121
01121

CB7505
CB1015
CB3615
CB6205
CB7505
CB1015

A13R228
A13R229
A13R230
A13R231
A13R233
A13R257

315-0361-00
315-0620-00
307-0545-00
315-0102-00
315-0750-00
307-0503-00

RES.,FXD,CMPSN:360 OHM,5%,0.25W
RES.,FXD,CMPSN:62 OHM,5%,0.25W
RES NTWK,FXD,FI:9,75 OHM,5%,0.15W
RES.,FXD,CMPSN:1 K OHM,5%,0.25W
RES.,FXD,CMPSN:75 OHM,5%,0.25W
RES NTWK,THK FI:(9)510 OHM,20%,0.125W

01121
01121
32997
01121
01121
91637

CB3615
CB6205
4310R-101-750
CB1025
CB7505
MSP1 OA01-511 G

A13R268
A13R273
A13R278
A13R282
A13R283
A13R285

307-0546-00
307-0546-00
307-0546-00
307-0546-00
307-0545-00
315-0750-00

RES NTWK,FXD FI:5,75 OHM,5%,0.15W
RES NTWK,FXD FI:5,75 OHM,5%,0.15W
RES NTWK,FXD FI:5,75 OHM,5%,0.15W
RES NTWK,FXD FI:5,75 OHM,5%,0.15W
RES NTWK,FXD,FI:9,75 OHM,5%,0.15W
RES.,FXD,CMPSN:75 OHM,5%,0.25W

91637
91637
91637
91637
32997
01121

MSP06A01750J
MSP06A01750J
MSP06A01750J
MSP06A01750J
4310R-101-750
CB7505

10-48

B010100
B010435

B010434

REV MAR 1984

Replaceable Electrical Parts
DAS 9100 Series Service Ve!.11

Mfr
Code

Mfr Part Number

RES NTWK,FXD FI:5,75 OHM,5%,0.15W
RES.,FXD,CMPSN:l K OHM,5%,0.25W
RES.,FXD,CMPSN:l K OHM,5%,0.25W
RES.,FXD,CMPSN:l K OHM,5%,0.25W
RES.,FXD,CMPSN:l K OHM,5%,0.25W
RES.,FXD,CMPSN:l K OHM,5%,0.25W

91637
01121
01121
01121
01121
01121

MSP06A01750J
CB1025
CB1025
CB1025
CB1025
CB1025

315-0101-00
315-0750-00
315-0101-00
315-0361-00
315-0620-00
315-0750-00

RES.,FXD,CMPSN:l00 OHM,5%,0.25W
RES.,FXD,CMPSN:75 OHM,5%,0.25W
RES.,FXD,CMPSN:l00 OHM,5%,0.25W
RES.,FXD,CMPSN:360 OHM,5%,0.25W
RES.,FXD,CMPSN:62 OHM,5%,0.25W
RES.,FXD,CMPSN:75 OHM,5%,0.25W

01121
01121
01121
01121
01121
01121

CB1015
CB7505
CB1015
CB3615
CB6205
CB7505

A13R323
A13R324
A13R325
A13R326
A13R327
A13R328

315-0101-00
315-0361-00
315-0620-00
315-0750-00
315-0101-00
315-0361-00

RES.,FXD,CMPSN:100 OHM,5%,0.25W
RES.,FXD,CMPSN:360 OHM,5%,0.25W
RES.,FXD,CMPSN:62 OHM,5%,0.25W
RES.,FXD,CMPSN:750HM,5%,0.25W
RES.,FXD,CMPSN:l00 OHM,5%,0.25W
RES.,FXD,CMPSN:360 OHM,5%,0.25W

01121
01121
01121
01121
01121
01121

CB1015
CB3615
CB6205
CB7505
CB1015
CB3615

A13R329
A13R330
A13R334
A13R335
A13R357
A13R392

315-0620-00
307-0545-00
315-0750-00
315-0750-00
315-0511-00
315-0122-00

RES.,FXD,CMPSN:62 OHM,5%,0.25W
RES NTWK,FXD,FI:9,75 OHM,5%,0.15W
RES.,FXD,CMPSN:75 OHM,5%,0.25W
RES.,FXD,CMPSN:75 OHM,5%,0.25W
RES.,FXD,CMPSN:510 OHM,5%,0.25W
RES.,FXD,CMPSN:l.2K OHM,5%,0.25W

01121
32997
01121
01121
01121
01121

CB6205
431 OR-l 01-750
CB7505
CB7505
CB5115
CB1225

A13R396
A13R397
A13R398
A13R399
A13R411
A13R412

315-0124-00
321-0237 -00
321-0222-00
321-0097 -00
315-0750-00
315-0361-00

RES.,FXD,CMPSN:120K OHM,5%,0.25W
RES.,FXD,FILM:2.87K OHM,1%,0.125W
RES.,FXD,FILM:2K OHM,1%,0.125W
RES.,FXD,FILM:l00 OHM,1%,0.125W
RES.,FXD,CMPSN:75 OHM,5%,0.25W
RES.,FXD,CMPSN:360 OHM,5%,0.25W

01121
91637
91637
91637
01121
01121

CB1245
M FF1816G28700F
M FF1816G20000F
MFF1816Gl00ROF
CB7505
CB3615

A13R414
A13R415
A13R416
A13R417
A13R418
A13R419

315-0620-00
315-0620-00
315-0750-00
31 5-0361-00
315-0101-00
315-0511-00

RES.,FXD,CMPSN:62 OHM,5%,0.25W
RES.,FXD,CMPSN:62 OHM,5%,0.25W
RES.,FXD,CMPSN:75 OHM,5%,0.25W
RES.,FXD,CMPSN:360 OHM,5%,0.25W
RES.,FXD,CMPSN:l00 OHM,5%,0.25W
RES.,FXD,CMPSN:510 OHM,5%,0.25W

01121
01121
01121
01121
01121
01121

CB6205
CB6205
CB7505
CB3615
CB1015
CB5115

A13R420
A13R421
A13R422
A13R425
A13R428
A13R429

315-0511-00
315-0750-00
315-0750-00
315-051 0-00
315-0510-00
307-0792-00

RES.,FXD,CMPSN:510 OHM,5%,0.25W
RES.,FXD,CMPSN:75 OHM,5%,0.25W
RES.,FXD,CMPSN:75 OHM,5%,O.25W
RES.,FXD,CMPSN:51 OHM,5%,0.25W
RES.,FXD,CMPSN:51 OHM,5%,0.25W
RES NTWK,FXD,FI:7,82 OHM,2%,0.15W

01121
01121
01121
01121
01121
11236

CB5115
CB7505
CB7505
CB5105
CB5105
750-81-R82

A13R430
A13R431
A13R432
A13R434
A13R436
A13R437

315-0750-00
315-0750-00
315-0750-00
315-0750-00
315-0102-00
307-0675-00

B011545
B010l00

B011544

B011545
B010100

B011544

RES.,FXD,CMPSN:75 OHM,5%,0.25W
RES.,FXD,CMPSN:75 OHM,5%,0.25W
RES.,FXD,CMPSN:75 OHM,5%,0.25W
RES.,FXD,CMPSN:75 OHM,5%,0.25W
RES.,FXD,CMPSN:1K OHM,5%,0.25W
RES NTWK,FXD FI:9,lK OHM,2%,1.25W

01121
01121
01121
01121
01121
01121

CB7505
CB7505
CB7505
CB7505
CB1025
210Al02

A13R438
A13R442
A13R449
A13R450
A13R456
A13R458

315-0102-00
307-0546-00
315-0562-00
307 -0541-00
315-0102-00
315-0750-00

B011545

RES.,FXD,CMPSN:1K OHM,5%,0.25W
RES NTWK,FXD FI:5,75 OHM,5%,0.15W
RES.,FXD,CMPSN:5.6K OHM,5%,0.25W
RES,NTWK,THK FI:(7)lK OHM,10%,lW
RES.,FXD,CMPSN:l K OHM,5%,0.25W
RES.,FXD,CMPSN:750HM,5%,0.25W

01121
91637
01121
91637
01121
01121

CB1025
MSP06A01750J
CB5625
MSP08A01-102G
CB1025
CB7505

Component No.

Tektronix
Part No.

A13R286
A13R307
A13R308
A13R312
A13R313
A13R314

307 -0546-00
315-0102-00
315-0102-00
315-0102-00
315-0102-00
315-0102-00

A13R315
A13R318
A13R319
A13R320
A13R321
A13R322

REV MAR 1984

Serial/Model No.
Eft
Dscont

Name & Description

10-49

Replaceable Electrical Parts
DAS 9100 Series Service Vol.Il

Component No.

Tektronix
Part No.

A13R461
A13R468
A13R473
A13R478
A13R482
A13R483

315-0750-00
307-0546-00
307-0546-00
307-0546-00
307-0546-00
307-0545-00

A13R485
A13R487
A13R491
A13R492
A13R493
A13R494

Serial/Model No.
Eft
Dscont

Mfr
Code

Mfr Part Number

RES.,FXD,CMPSN:75 OHM,5%,0.25W
RES NTWK,FXD FI:5,75 OHM,5%,0.15W
RES NTWK,FXD FI:5,75 OHM,5%,0.15W
RES NTWK,FXD FI:5,75 OHM,5%,0.15W
RES NTWK,FXD FI:5,75 OHM,5%,0.15W
RES NTWK,FXD,FI:9,75 OHM,5%,0.15W

01121
91637
91637
91637
91637
32997

CB7505
MSP06A01750J
MSP06A01750J
MSP06A01750J
MSP06A01750J
431 OR-1 01-750

315-0750-00
307-0546-00
315-0102-00
315-0272-00
315-0102-00
315-0272-00

RES.,FXD,CMPSN:75 OHM,5%,0.25W
RES NTWK,FXD FI:5,75 OHM,5%,0.15W
RES.,FXD,CMPSN:1K OHM,5%,0.25W
RES.,FXD,CMPSN:2.7K OHM,5%,0.25W
RES.,FXD,CMPSN:1 K OHM,5%,O.25W
RES.,FXD,CMPSN:2.7K OHM,5%,0.25W

01121
91637
01121
01121
01121
01121

CB7505
MSP06A01750J
CB1025
CB2725
CB1025
CB2725

A13R496
A13R508
A13R509
A13R510
A13R511
A13R513

307-0675-00
315-0750-00
307-0540-00
315-0750-00
315-0750-00
307-0501-00

RES NTWK,FXD FI:9,1K OHM,2%,1.25W
RES.,FXD,CMPSN:75 OHM,5%,0.25W
RES,NTWK,FXD,FI:(5) 1K OHM,10%,0.7W
RES.,FXD,CMPSN:750HM,5%,0.25W
RES.,FXD,CMPSN:750HM,5%,0.25W
RES,NTWK,FXD,FI:THICK FILM,(5) 50 OHM,5%

01121
01121
57924
01121
01121
91637

210A102
CB7505
4306R-101-102
CB7505
CB7505
MSP06A01-500J

A13R514
A13R516
A13R522
A13R523
A13R526
A13R527

307-0546-00
315-0103-00
315-0750-00
315-0750-00
315-0750-00
315-0102-00

RES NTWK,FXD FI:5,75 OHM,5%,0.15W
RES.,FXD,CMPSN:10K OHM,5%,0.25W
RES.,FXD,CMPSN:75 OHM,5%,0.25W
RES.,FXD,CMPSN:75 OHM,5%,0.25W
RES.,FXD,CMPSN:75 OHM,5%,0.25W
RES.,FXD,CMPSN:1 K OHM,5%,0.25W

91637
01121
01121
01121
01121
01121

MSP06A01750J
CB1035
CB7505
CB7505
CB7505
CB1025

A13R528
A13R532
A13R533
A13R534
A13R536
A13R537

31 5-051 0-00
315-0181-00
307-0811-00
315-0821-00
315-0102-00
315-0511-00

RES.,FXD,CMPSN:51 OHM,5%,0.25W
RES.,FXD,CMPSN:180 OHM,5%,0.25W
RES NTWK,FXD,FI:
RES.,FXD,CMPSN:820 OHM,5%,0.25W
RES.,FXD,CMPSN:1K OHM,5%,0.25W
RES.,FXD,CMPSN:510 OHM,5%,0.25W

01121
01121
01121
01121
01121
01121

CB5105
CB1815
316T110
CB8215
CB1025
CB5115

A13R538
A13R539
A13R540
A13R541
A13R542
A13R543

315-0271-00
315-0102-00
315-0102-00
315-0821-00
315-0271-00
315-0181-00

RES.,FXD,CMPSN:270 OHM,5%,0.25W
RES.,FXD,CMPSN:1 K OHM,5%,0.25W
RES.,FXD,CMPSN:1 K OHM,5%,0.25W
RES.,FXD,CMPSN:820 OHM,5%,0.25W
RES.,FXD,CMPSN:270 OHM,5%,0.25W
RES.,FXD,CMPSN:180 OHM,5%,0.25W

01121
01121
01121
01121
01121
01121

CB2715
CB1025
CB1025
CB8215
CB2715
CB1815

A13R545
A13R545
A13R546
A13R548
A13R561
A13R565

307-0811-00
315-0102-00
315-0102-00
315-0102-00
315-0102-00
315-0102-00

RES NTWK,FXD,FI:
RES.,FXD,CMPSN:1 K
RES.,FXD,CMPSN:1 K
RES.,FXD,CMPSN:1 K
RES.,FXD,CMPSN:1 K
RES.,FXD,CMPSN:1 K

01121
01121
01121
01121
01121
01121

316T110
CB1025
CB1025
CB1025
CB1025
CB1025

A13R570
A13R571
A13R573
A13R574
A13R578
A13R584

315-0511-00
315-0330-00
315-0102-00
315-0101-00
307-0541-00
307-0541-00

RES.,FXD,CMPSN:510 OHM,5%,0.25W
RES.,FXD,CMPSN:330HM,5%,0.25W
RES.,FXD,CMPSN:1 K OHM,5%,0.25W
RES.,FXD,CMPSN:100 OHM,5%,0.25W
RES,NTWK,THK FI:(7)1K OHM,10%,1W
RES,NTWK,THK FI:(7)1K OHM,10%,1W

01121
01121
01121
01121
91637
91637

CB5115
CB3305
CB1025
CB1015
MSP08A01-102G
MSP08A01-102G

A13R601
A13R602
A13R603
A13R604
A13R605
A13R615

321-0158-00
315-0471-00
315-0471-00
317-0510-00
317-0510-00
315-0681-00

RES.,FXD,FILM:4320HM,1%,0.125W
RES.,FXD,CMPSN:470 OHM,5%,0.25W
RES.,FXD,CMPSN:470 OHM,5%,0.25W
RES.,FXD,CMPSN:51 OHM,5%,0.125W
RES.,FXD,CMPSN:51 OHM,5%,0.125W
RES.,FXD,CMPSN:680 OHM,5%,0.25W

91637
01121
01121
01121
01121
01121

MFF1816G432ROF
CB4715
CB4715
BB5105
BB5105
CB6815

10·50

B010100

B011544

B010100

B011544

B020000

B010100
B011545

B011544

Name & Description

OHM,5%,0.25W
OHM,5%,0.25W
OHM,5%,0.25W
OHM,5%,0.25W
OHM,5%,0.25W

REV MAR 1984

Replaceable Electrical Parts
DAS 9100 Series Service Vol.1I

Component No.

Tektronix
Part No.

Serial/Model No.
Eff
Dscont

A13R616
A13R616
A13R617
A13R618
A13R619
A13R627

315-0241-00
315-0181-00
315-0750-00
315-0750-00
315-051 0-00
315-0750-00

B010100
B020000

A13R628
A13R628
A13R629
A13R631
A13R632
A13R633

307-0493-00
307-0492-00
307-0546-00
315-0201-00
315-0102-00
315-0471-00

B010100
B011545
B011545

A13R634
A13R637
A13R639
A13R641
A13R642
A13R643

Name & Description

Mfr
Code

Mfr Part Number

B019999

RES.,FXD,CMPSN:240 OHM,5%,O.25W
RES.,FXD,CMPSN: 180 OHM,5%,O.25W
RES.,FXD,CMPSN:750HM,5%,O.25W
RES.,FXD,CMPSN:75 OHM,5%,O.25W
RES.,FXD,CMPSN:51 OHM,5%,O.25W
RES.,FXD,CMPSN:75 OHM,5%,O.25W

01121
01121
01121
01121
01121
01121

CB2415
CB1815
CB7505
CB7505
CB5105
CB7505

B011544

RES,NTWK,FXD,FI:(7)50 OHM,5%,O.125W
RES.NTWK,FXD FI:(3)50 OHM,5%,O.125W
RES NTWK,FXD FI:5,75 OHM,5%,O.15W
RES.,FXD,CMPSN:200 OHM,5%,O.25W
RES.,FXD,CMPSN:1 K OHM,5%,O.25W
RES.,FXD,CMPSN:470 OHM,5%,O.25W

32997
91637
91637
01121
01121
01121

4308R-101-500
CSC04C01-500J
MSP06A01750J
CB2015
CB1025
CB4715

315-0510-00
315-0100-00
315-0432-00
315-0511-00
315-0750-00
315-0510-00

RES.,FXD,CMPSN:51 OHM,5%,O.25W
RES.,FXD,CMPSN:10 OHM,5%,O.25W
RES.,FXD,CMPSN:4.3K OHM,5%,O.25W
RES.,FXD,CMPSN:510 OHM,5%,O.25W
RES.,FXD,CMPSN:75 OHM,5%,O.25W
RES.,FXD,CMPSN:51 OHM,5%,O.25W

01121
01121
01121
01121
01121
01121

CB5105
CB1005
CB4325
CB5115
CB7505
CB5105

A13R645
A13R646
A13R647
A13R648
A13R650
A13R658

315-0102-00
315-0151-00
315-0561-00
315-0750-00
315-0101-00
311-1564-00

RES.,FXD,CMPSN:1K OHM,5%,O.25W
RES.,FXD,CMPSN:150 OHM,5%,O.25W
RES.,FXD,CMPSN:560 OHM,5%,O.25W
RES.,FXD,CMPSN:75 OHM,5%,O.25W
RES.,FXD,CMPSN:100 OHM,5%,O.25W
RES.,VAR,NONWIR:TRMR,500 OHM,O.5W

01121
01121
01121
01121
01121
73138

CB1025
CB1515
CB5615
CB7505
CB1015
91-86-0

A13R659
A13R660
A13R661
A13R662
A13R663
A13R664

315-0511-00
315-0750-00
311-1564-00
315-0101-00
315-0750-00
315-0101-00

RES.,FXD,CMPSN:5100HM,5%,O.25W
RES.,FXD,CMPSN:75 OHM,5%,O.25W
RES.,VAR,NONWIR:TRMR,500 OHM,O.5W
RES.,FXD,CMPSN:100 OHM,5%,O.25W
RES.,FXD,CMPSN:75 OHM,5%,O.25W
RES.,FXD,CMPSN:100 OHM,5%,O.25W

01121
01121
73138
01121
01121
01121

CB5115
CB7505
91-86-0
CB1015
CB7505
CB1015

A13R665
A13R666
A13R667
A13R668
A13R669
A13R670

311-1564-00
315-0750-00
315-0101-00
311-1564-00
315-0101-00
315-0750-00

RES.,VAR,NONWIR:TRMR,500 OHM,O.5W
RES.,FXD,CMPSN:75 OHM,5%,O.25W
RES.,FXD,CMPSN:100 OHM,5%,O.25W
RES., VAR,NONWIR:TRMR,500 OHM,O.5W
RES.,FXD,CMPSN:100 OHM,5%,O.25W
RES.,FXD,CMPSN:75 OHM,5%,O.25W

73138
01121
01121
73138
01121
01121

91-86-0
CB7505
CB1015
91-86-0
CB1015
CB7505

A13R671
A13R672
A13R678
A13R681
A13R683
A13R684

315-0750-00
315-0750-00
307-0719-00
315-01 02-00
315-0103-00
307-0719-00

RES.,FXD,CMPSN:75 OHM,5%,O.25W
RES.,FXD,CMPSN:75 OHM,5%,O.25W
RES NTWK,FXD,FI:9,1.5K OHM,1%,O.15W EACH
RES.,FXD,CMPSN:1 K OHM,5%,O.25W
RES.,FXD,CMPSN:10K OHM,5%,O.25W
RES NTWK,FXD,FI:9,1.5K OHM,1%,O.15W EACH

01121
01121
32997
01121
01121
32997

CB7505
CB7505
431 OR1 01152F
CB1025
CB1035
4310R101152F

A13R701
A13R702
A13R703
A13R704
A13R705
A13R706

315-051 0-00
321-0751-06
317-0510-00
317-051 0-00
321-0112-00
321-0086-00

RES.,FXD,CMPSN:51 OHM,5%,O.25W
RES.,FXD,FILM:50 OHM,O.25%,O.125W
RES.,FXD,CMPSN:51 OHM,5%,O.125W
RES.,FXD,CMPSN:51 OHM,5%,O.125W
RES.,FXD,FILM:1430HM,1%,O.125W
RES.,FXD,FILM:76.80HM,1%,O.125W

01121
91637
01121
01121
91637
91637

CB51 05
MFF1816C50ROOC
BB5105
BB5105
MFF1816G143ROF
MFF1816G76R80F

A13R707
A13R708
A13R709
A13TP103
A13TP106
A13TP111

321-0086-00
321-0112-00
315-0471-00
214-0579-00
214-0579-00
214-0579-00

RES.,FXD,FILM:76.8 OHM,1 %,O.125W
RES.,FXD,FILM:1430HM,1%,O.125W
RES.,FXD,CMPSN:470 OHM,5%,O.25W
TERM,TEST POINT:BRS CD PL
TERM,TEST POINT:BRS CD PL
TERM,TEST POINT:BRS CD PL

91637
91637
01121
80009
80009
80009

MFF1816G76R80F
MFF1816G143ROF
CB4715
214-0579-00
214-0579-00
214-0579-00

REV MAR 1984

10-51

Replaceable Electrical Parts
DAS 9100 Series Service Vol.1I

Mfr
Code

Mfr Part Number

Component No.

Tektronix
Part No.

Serial/Model No.
Eft
Dscont

A13TPl13
A13TPl15
A13TP148
A13TP190
A13TP201
A13TP204

214-0579-00
214-0579-00
214-0579-00
214-0579-00
214-0579-00
214-0579-00

BOl1545

A13TP208
A13TP218
A13TP221
A13TP225
A13TP228
A13TP281

214-0579-00
214-0579-00
214-0579-00
214-0579-00
214-0579-00
214-0579-00

A13TP285
A13TP318
A13TP321
A13TP325
A13TP328
A13TP378

214-0579-00
214-0579-00
214-0579-00
214-0579-00
214-0579-00
214-0579-00

A13TP381
A13TP418
A13TP481
A13TP485
A13TP495
A13TP501

214-0579-00
214-0579-00
214-0579-00
214-0579-00
214-0579-00
214-0579-00

A13TP511
A13TP514
A13TP515
A13TP548
A13TP678
A13U101

214-0579-00
214-0579-00
214-0579-00
214-0579-00
214-0579-00
156-01 05-00

TERM,TEST POINT:BRS CD PL
TERM,TEST POINT:BRS CD PL
TERM,TEST POINT:BRS CD PL
TERM,TEST POINT:BRS CD PL
TERM,TEST POINT:BRS CD PL
MICROCIRCUIT,LI:OPERATIONAL AMPLIFIER

A13Ul15
A13Ul18
A13U121
A13U125
A13U128
A13U131

156-0858-00
156-1555-00
156-0865-02
156-0865-02
156-0865-02
156-0865-02

MICROCIRCUIT,DI:QUAD SPST ANALOG XMSN GATE 17856
34335
MICROCIRCUIT,LI:D/A CONVERTER
MICROCIRCUIT,DI:OCTAL D-TYPE FF W/CLEAR
01295
MICROCIRCUIT,DI:OCTAL D-TYPE FF W/CLEAR
01295
MICROCIRCUIT,DI:OCTAL D-TYPE FF W/CLEAR
01295
MICROCIRCUIT,DI:OCTAL D-TYPE FF W/CLEAR
01295

DG201ACJ
AM6080PC
SN74LS273NP3
SN74LS273NP3
SN74LS273NP3
SN74LS273NP3

A13U131
A13U135
A13U141
A13U145
A13U148
A13U151

156-1327-00
156-0865-02
156-0865-02
156-0412-02
156-1080-01
156-0412-02

MICROCIRCUIT,DI:3 STATE OCTAL D FF,SCRN
MICROCIRCUIT,DI:OCTAL D-TYPE FF W/CLEAR
MICROCIRCUIT,DI:OCTAL D-TYPE FF W/CLEAR
MICROCIRCUIT,DI:SYN 4 BIT UP/DOWN CNTR
MICROCIRCUIT,DI:HEX BUFFERS U/OC HV
MICROCIRCUIT,DI:SYN 4 BIT UP/DOWN CNTR

27014
01295
01295
01295
27014
01295

MM74C374
SN74LS273NP3
SN74LS273NP3
SN74LS193N3
DM7407
SN74LS193N3

A13U155
A13U158
A13U161
A13U165
A13U168
A13U171

156-0412-02
156-1080-01
156-0308-02
156-0308-02
156-0956-02
156-1 026-02

MICROCIRCUIT,DI:SYN 4 BIT UP/DOWN CNTR
MICROCIRCUIT,DI:HEX BUFFERS U/OC HV
MICROCIRCUIT,DI:QUAD LINE RECEIVER
MICROCIRCUIT,DI:QUAD LINE RECEIVER
MICROCIRCUIT,DI:OCTAL BFR W/3 STATE OUT
MICROCIRCUIT,DI:4/1 LINE DECODER,BURN-IN

01295
27014
04713
04713
01295
80009

SN74LS193N3
DM7407
MC10115L
MC10115L
SN74LS244NP3
156-1026-02

A13U175
A13U178
A13U181
A13U185
A13U201
A13U211

156-0480-02
156-0383-02
156-0721-02
156-0382-02
156-0105-00
156-0105-00

MICROCIRCUIT,DI:QUAD 2 INP & GATE
MICROCIRCUIT,DI:QUAD 2-INP NOR GATE
MICROCIRCUIT,DI:QUAD 2-IN NAND SCHMITT TRI
MICROCIRCUIT,DI:QUAD 2-INP NAND GATE
MICROCIRCUIT,LI:OPERATIONAL AMPLIFIER
MICROCIRCUIT,LI:OPERATIONAL AMPLIFIER

01295
01295
04713
01295
27014
27014

SN74LS08NP3
SN74LS02
SN74LS132NDS
SN74LSOO
LM301AN
LM301AN

BOl1545

BOl1545

BOl1545

B010100
BOl1545

BOl1544

Name & Description
TERM,TEST
TERM,TEST
TERM,TEST
TERM,TEST
TERM,TEST
TERM,TEST

POINT:BRS
POINT:BRS
POINT:BRS
POINT:BRS
POINT:BRS
POINT:BRS

CD
CD
CD
CD
CD
CD

PL
PL
PL
PL
PL
PL

80009
80009
80009
80009
80009
80009

214-0579-00
214-0579-00
214-0579-00
214-0579-00
214-0579-00
214-0579-00

TERM,TEST
TERM,TEST
TERM,TEST
TERM,TEST
TERM,TEST
TERM,TEST

POINT:BRS
POINT:BRS
POINT:BRS
POINT:BRS
POINT:BRS
POINT:BRS

CD
CD
CD
CD
CD
CD

PL
PL
PL
PL
PL
PL

80009
80009
80009
80009
80009
80009

214-0579-00
214-0579-00
214-0579-00
214-0579-00
214-0579-00
214-0579-00

TERM,TEST
TERM,TEST
TERM,TEST
TERM,TEST
TERM,TEST
TERM,TEST

POINT:BRS
POINT:BRS
POINT:BRS
POINT:BRS
POINT:BRS
POINT:BRS

CD
CD
CD
CD
CD
CD

PL
PL
PL
PL
PL
PL

80009
80009
80009
80009
80009
80009

214-0579-00
214-0579-00
214-0579-.00
214-0579-00
214-0579-00
214-0579-00

TERM,TEST
TERM,TEST
TERM,TEST
TERM,TEST
TERM,TEST
TERM,TEST

POINT:BRS
POINT:BRS
POINT:BRS
POINT:BRS
POINT:BRS
POINT:BRS

CD
CD
CD
CD
CD
CD

PL
PL
PL
PL
PL
PL

80009
80009
80009
80009
80009
80009

214-0579-00
214-0579-00
214-0579-00
214-0579-00
214-0579-00
214-0579-00

80009
80009
80009
80009
80009
27014

214-0579-00
214-0579-00
214-0579-00
214-0579-00
214-0579-00
LM301AN

./

10-52

REV MAR 1984

Replaceable Electrical Parts
CAS 9100 Series Service Vol.lI

Component No.

Tektronix
Part No.

Serial/Model No.
Eft
Dscont

A13U218
A13U218
A13U221
A13U221
A13U225
A13U225

155-0215-47
155-0215-00
155-0215-47
155-0215-00
155-0215-47
155-0215-00

B010l00
B011545
B010100
BOl1545
B010100
BOl1545

A13U228
A13U228
A13U231
A13U235
A13U238
A13U241

155-021 5-47
155-0215-00
156-0743-01
156-0743-01
156-0743-01
156-0743-01

B010100
BOl1545

A13U245
A13U248
A13U251
A13U255
A13U258
A13U265

156-0543-01
156-0543-01
156-0543-01
156-1038-01
156-1038-01
156-0633-02

A13U268
A13U271
A13U278
A13U281
A13U285
A13U298

156-1297-00
156-1297-00
156-1297-00
156-1297-00
156-1297-00
156-1225-00

A13U318
A13U318
A13U321
A13U321
A13U325
A13U325

155-0215-47
155-0215-00
155-0215-47
155-0215-00
155-0215-47
155-0215-00

B010l00
BOl1545
B010l00
B011545
B010100
B011545

BOl1544

A13U328
A13U328
A13U331
A13U335
A13U338
A13U341

155-0215-47
155-0215-00
156-0743-01
156-0743-01
156-0743-01
156-0743-01

B010l00
BOl1545

B011544

A13U345
A13U348
A13U351
A13U355
A13U415
A13U418

156-0543-01
156-0543-01
156-0543-01
156-0543-01
156-1031-00
156-0307-00

A13U421
A13U425
A13U428
A13U431
A13U435
A13U438
A13U441
A13U445
A13U451
A13U455
A13U461
A13U465

REV MAR 1984

Name & Description

Mfr
Code

Mfr Part Number

MICROCIRCUIT,DI:LOGIC
MICROCIRCUIT,DI:LOGIC
MICROCIRCUIT,DI:LOGIC
MICROCIRCUIT,DI:LOGIC
MICROCIRCUIT,DI:LOGIC
MICROCIRCUIT,DI:LOGIC

ANALYZER
ANALYZER
ANALYZER
ANALYZER
ANALYZER
ANALYZER

INPUT
INPUT,16 DIP
INPUT
INPUT,16 DIP
INPUT
INPUT,16 DIP

80009
80009
80009
80009
80009
80009

155-0215-47
155-0215-00
155-0215-47
155-0215-00
155-0215-47
155-0215-00

MICROCIRCUIT,DI:LOGIC
MICROCIRCUIT,DI:LOGIC
MICROCIRCUIT,DI:HEX D
MICROCIRCUIT,DI:HEX D
MICROCIRCUIT,DI:HEX D
MICROCIRCUIT,DI:HEX D

ANALYZER INPUT
ANALYZER INPUT,16 DIP
MAS SLAVE FF W/RESET
MAS SLAVE FF W/RESET
MAS SLAVE FF W/RESET
MAS SLAVE FF W/RESET

80009
80009
04713
04713
04713
04713

155-0215-47
155-0215-00
MC10186PD/LD
MC10186PD/LD
MC10186PD/LD
MC10186PD/LD

MICROCIRCUIT,DI:HEX BUFFER,SCREENED
MICROCIRCUIT,DI:HEX BUFFER,SCREENED
MICROCIRCUIT,DI:HEX BUFFER,SCREENED
MICROCIRCUIT,DI:4 BIT BINARY COUNTER
MICROCIRCUIT,DI:4 BIT BINARY COUNTER
MICROCIRCUIT,DI:HEX D MAST-SLV FF,SCRN

18324
18324
18324
80009
80009
04713

10188(NB)
10188(NB)
10188(NB)
156-1038-01
156-1038-01
MC10176PD/LD

MICROCIRCUIT,DI:256 X 4 STATIC RAM
MICROCIRCUIT,DI:256 X 4 STATIC RAM
MICROCIRCUIT,DI:256 X 4 STATIC RAM
MICROCIRCUIT,DI:256 X 4 STATIC RAM
MICROCIRCUIT,DI:256 X 4 STATIC RAM
MICROCIRCUIT,LI:DUAL COMPARATOR,8 DIP

OODIG
OOOIG
OOOIG
OODIG
OODIG
27014

MB7072E
MB7072E
MB7072E
MB7072E
MB7072E
LM393N

MICROCIRCUIT,DI:LOGIC
MICROCIRCUIT,DI:LOGIC
MICROCIRCUIT,DI:LOGIC
MICROCIRCUIT,DI:LOGIC
MICROCIRCUIT,DI:LOGIC
MICROCIRCUIT,DI:LOGIC

ANALYZER
ANALYZER
ANALYZER
ANALYZER
ANALYZER
ANALYZER

INPUT
INPUT,16 DIP
INPUT
INPUT,16 DIP
INPUT
INPUT,16 DIP

80009
80009
80009
80009
80009
80009

155-0215-47
155-0215-00
155-0215-47
155-0215-00
155-0215-47
155-0215-00

MICROCIRCUIT,DI:LOGIC
MICROCIRCUIT,DI:LOGIC
MICROCIRCUIT,DI:HEX D
MICROCIRCUIT,DI:HEX D
MICROCIRCUIT,DI:HEX D
MICROCIRCUIT,DI:HEX D

ANALYZER INPUT
ANALYZER INPUT,16 DIP
MAS SLAVE FF W/RESET
MAS SLAVE FF W/RESET
MAS SLAVE FF W/RESET
MAS SLAVE FF W/RESET

80009
80009
04713
04713
04713
04713

155-0215-47
155-0215-00
MC10186PD/LD
MCl 01 86PD/LD
MC10186PD/LD
MCl 01 86PD/LD

MICROCIRCUIT,DI:HEX BUFFER,SCREENED
MICROCIRCUIT,DI:HEX BUFFER,SCREENED
MICROCIRCUIT,DI:HEX BUFFER,SCREENED
MICROCIRCUIT,DI:HEX BUFFER,SCREENED
MICROCIRCUIT,DI:TRIPLE D FLIP FLOP
MICROCIRCUIT,LI:QUAD DIFF LINE RECEIVER

18324
18324
18324
18324
07263
80009

10188(NB)
10188(NB)
10188(NB)
10188(NB)
Fl00131 FC
156-0307-00

156-0880-02
156-0880-02
156-1038-01
156-0759-02
156-0205-02
156-0458-01

MICROCIRCUIT,DI:DUAL D MASTER SLAVE FF
MICROCIRCUIT,DI:DUAL D MASTER SLAVE FF
MICROCIRCUIT,DI:4 BIT BINARY COUNTER
MICROCIRCUIT,DI:QUAD 2-INP OR GATE,SCRN
MICROCIRCUIT,DI:QUAD 2-INP NOR GATE,SCRN
MICROCIRCUIT,DI:QUAD AND GATE 2 INP,SCRN

04713
04713
80009
04713
04713
04713

MCl 0231 PD/LD
MCl 0231 PD/LD
156-1038-01
MCl 01 03PD/LD
MCl 01 02PD/LD
MCl 01 04PD/LD

156-0880-02
156-0880-02
156-0385-02
156-0458-01
156-0411-02
156-0633-02

MICROCIRCUIT,DI:DUAL D MASTER SLAVE FF
MICROCIRCUIT,DI:DUAL D MASTER SLAVE FF
MICROCIRCUIT,DI:HEX INVERTER
MICROCIRCUIT,DI:QUAD AND GATE 2 INP,SCRN
MICROCIRCUIT,LI:QUAD COMPARATOR,SEL
MICROCIRCUIT,DI:HEX D MAST-SLV FF,SCRN

04713
04713
01295
04713
04713
04713

MCl 0231 PD/LD
MCl 0231 PD/LD
SN74LS04
MCl 01 04PD/LD
LM339JDS
MC10176PD/LD

B011544
B011544
BOl1544

B011544

BOl1544
BOl1544

10-53

Replaceable Electrical Parts
DAS 9100 Series Service Vol.Il

Component No.

Tektronix
Part No.

Mfr
Code

Mfr Part Number

A13U468
A13U471
A13U478
A13U481
A13U485
A13U488

156-1297-00
156-1297-00
156-1297-00
156-1297-00
156-1297-00
156-0411-02

MICROCIRCUIT,DI:256 X 4 STATIC RAM
MICROCIRCUIT,DI:256 X 4 STATIC RAM
MICROCIRCUIT,DI:256 X 4 STATIC RAM
MICROCIRCUIT,DI:256 X 4 STATIC RAM
MICROCIRCUIT,DI:256 X 4 STATIC RAM
MICROCIRCUIT,LI:QUAD COMPARATOR,SEL

OOOIG
OOOlG
OOOlG
OOOlG
OOOIG
04713

MB7072E
MB7072E
MB7072E
MB7072E
MB7072E
LM339JDS

A13U491
A13U495
A13U511
A13U515
A13U518
A13U521

156-0411-02
156-0411-02
156-1032-00
156-0688-01
156-1031-00
156-0880-02

MICROCIRCUIT,LI:QUAD COMPARATOR,SEL
MICROCIRCUIT,LI:QUAD COMPARATOR,SEL
MICROCIRCUIT,DI:QUINT 2 OR/NOR
MICROCIRCUIT,DI:DUAL J-K MASTER SLAVE FF
MICROCIRCUIT,DI:TRIPLE D FLIP FLOP
MICROCIRCUIT,DI:DUAL D MASTER SLAVE FF

04713
04713
07263
04713
07263
04713

LM339JDS
LM339JDS
F100102FC
MC10135PD/LD
Fl00131FC
MC10231PD/LD

A13U525
A13U528
A13U541
A13U551
A13U555
A13U558

156-1500-00
156-1031-00
156-0323-02
156-0180-04
156-0411-02
156-0369-02

MICROCIRCUIT,DI:QUINT EXCL OR/NOR GATE
MICROCIRCUIT,DI:TRIPLE D FLIP FLOP
MICROCIRCUIT,DI:HEX INVERTER,BURN-IN
MICROCIRCUIT,DI:QUAD 2-INPUT NAND GATE
MICROCIRCUIT,LI:QUAD COMPARATOR,SEL
MICROCIRCUIT,DI:TRIPLE DIFF LINE RECEIVER

02763
07263
01295
01295
04713
04713

Fl00l07FC
Fl00131FC
SN74S04
SN74S00NP3
LM339JDS
SC22689P216

A13U561
A13U568
A13U570
A13U575
A13U578
A13U581

156-1031-00
156-0369-02
156-0369-03
156-0403-02
156-0412-02
156-0469-02

MICROCIRCUIT,DI:TRIPLE D FLIP FLOP
MICROCIRCUIT,DI:TRIPLE DIFF LINE RECEIVER
MICROCIRCUIT,DI:TRIPLE LINE RECEIVER,SCRN
MICROCIRCUIT,DI:HEX INVERTER,SCRN
MICROCIRCUIT,DI:SYN 4 BIT UP/DOWN CNTR
MICROCIRCUIT,DI:3/8 LINE DCDR

07263
04713
04713
01295
01295
01295

Fl00131FC
SC22689P216
MC10216PD/LD
SN74S05
SN74LS193N3
SN74LS138NP3

A13U585
A13U588
A13U591
A13U595
A13U605
A13U615

156-1021-01
156-1044-01
156-1172-01
156-1172-01
156-1557-00
156-1032-00

MICROCIRCUIT,DI:HEX & GATE,SCRN
MICROCIRCUIT,DI:4 BIT SYNC BIN CNTR,SCRN
MICROCIRCUIT,DI:DUAL 4 BIT CNTR
MICROCIRCUIT,DI:DUAL 4 BIT CNTR
MICROCIRCUIT,DI:ECL,DUAL 8-INP MUXER
MICROCIRCUIT,DI:QUINT 2 OR/NOR

04713
07263
01295
01295
07263
07263

MC10197PD/LD
F93S16DCQR
SN74LS393
SN74LS393
F100163FC
F100102FC

A13U621
A13U625
A13U628
A13U651
A13U655
A13U671

156-1032-00
156-1 032-00
156-0880-02
156-0479-02
156-0230-02
156-0914-02

MICROCIRCUIT,DI:QUINT 2 OR/NOR
MICROCIRCUIT,DI:QUINT 2 OR/NOR
MICROCIRCUIT,DI:DUAL D MASTER SLAVE FF
MICROCIRCUIT,DI:QUAD 2-INP OR GATE
MICROCIRCUIT,DI:DUAL D-TYPE M/S,FF,SCRN
MICROCIRCUIT,DI:OCT ST BFR W/3 STATE OUT

07263
07263
04713
01295
04713
01295

Fl00l02FC
Fl00l02FC
MCl 0231 PD/LD
SN74LS32NP3
MC10131LD
SN74LS240

A13U675
A13U678
A13U681
A13U685
A13U688
A13U691

156-0469-02
156-0956-02
156-0956-02
156-0956-02
156-0956-02
156-0956-02

MICROCIRCUIT,DI:3/8 LINE DCDR
MICROCIRCUIT,DI:OCTAL BFR W/3
MICROCIRCUIT,DI:OCTAL BFR W/3
MICROCIRCUIT,DI:OCTAL BFR W/3
MICROCIRCUIT,DI:OCTAL BFR W/3
MICROCIRCUIT,DI:OCTAL BFR W/3

OUT
OUT
OUT
OUT
OUT

01295
01295
01295
01295
01295
01295

SN74LS138NP3
SN74LS244NP3
SN74LS244NP3
SN74LS244NP3
SN74LS244NP3
SN74LS244NP3

A13U695
A13U701
A13VR106
A13W160

156-0956-02
156-1344-00
152-0461-00
131-0566-00

MICROCIRCUIT,DI:OCTAL BFR W/3 STATE OUT
MICROCIRCUIT,LI:COMPARATOR
SEMICOND DEVICE:ZENER,0.4W,6.2V,5%
BUS CONDUCTOR:DUMMY RES,2.375,22 AWG

01295
52648
04713
57668

SN74LS244NP3
SP9685CM
SZG25002K2
JWW-0200EO

10-54

Serial/Model No.
Eft
Dscont

B020000

Name & Description

STATE
STATE
STATE
STATE
STATE

REV MAR 1984

Replaceable Electrical Parts
CAS 9100 Series Service Vol.1I

Component No.

Tektronix
Part No.

Serial/Model No.
Eff
Dscont

Name & Description

Mfr
Code

Mfr Part Number

80009

670-6739-00

04222
04222
04222
04222

MA205E104MAA
MA205E104MAA
MA205E104MAA
MA205E104MAA

04222
04222
04222
04222
04222
04222

MA205E104MAA
MA205E104MAA
MA20SE104MAA
MA20SE104MAA
MA20SE104MAA
MA20SE104MAA

A14
A14
A14C101
A14C102
A14C103
A14C107

670-6739-00
281-0775-00
281-0775-00
281-0775-00
281-0775-00

CKT BOARD ASSY:PATTERN GENERATOR
(91P16)
CAP.,FXD,CER DI:0.1UF,20%,50V
CAP.,FXD,CER DI:0.1UF,20%,50V
CAP.,FXD,CER DI:0.1UF,20%,50V
CAP.,FXD,CER DI:0.1UF,20%,50V

A14Cl17
A14C152
A14C160
A14C166
A14C167
A14C187

281-0775-00
281-0775-00
281-0775-00
281-0775-00
281-077S-00
281-077S-00

CAP.,FXD,CER
CAP.,FXD,CER
CAP.,FXD,CER
CAP.,FXD,CER
CAP.,FXD,CER
CAP.,FXD,CER

A14C196
A14C197
A14C201
A14C203
A14C204
A14C214

281-0814-00
281-0234-00
283-0028-00
283-0028-00
281-077S-00
281-077S-00

CAP.,FXD,CER DI:100PF,10%,100V
CAP .,VAR,PLSTC:5.S-6SPF,l OOV
CAP.,FXD,CER DI:0.0022UF,20%,SOV
CAP.,FXD,CER D1:0.0022UF,20%,SOV
CAP.,FXD,CER DI:0.1 UF,20%,SOV
CAP.,FXD,CER DI:0.1UF,20%,SOV

04222
80031
59660
59660
04222
04222

GC101A101K
2810CSR56SUJ02F
0805S85YSS0222M
0805S85YSS0222M
MA20SE104MAA
MA20SE104MAA

A14C227
A14C231
A14C233
A14C233
A14C234
A14C23S

281-0775-00
281-0775-00
281-0814-00
281-0809-00
281-077S-00
283-011S-00

CAP.,FXD,CER
CAP.,FXD,CER
CAP.,FXD,CER
CAP.,FXD,CER
CAP .,FXD,CER
CAP .,FXD,CER

D1:0.1UF,20%,SOV
DI:0.1UF,20%,SOV
DI:100PF,10%,100V
DI:200PF,S%,100V
01:0.1 UF,20%,SOV
DI:47PF,S%,200V

04222
04222
04222
96733
04222
59660

MA20SE104MAA
MA20SE104MAA
GC101A101K
R291S
MA205E104MAA
805-S19-COG0470J

A14C244
A14C2S0
A14C2S4
A14C288
A14C294
A14C296

281-077 S-OO
281-077S-00
281-0775-00
281-077 S-OO
281-077S-00
283-0177-00

CAP.,FXD,CER
CAP.,FXD,CER
CAP.,FXD,CER
CAP.,FXD,CER
CAP.,FXD,CER
CAP.,FXD,CER

DI:0.1UF,20%,SOV
DI:0.1UF,20%,SOV
DI:0.1UF,20%,SOV
DI:0.1UF,20%,SOV
DI:0.1UF,20%,SOV
DI:1UF,+80-20%,25V

04222
04222
04222
04222
04222
S6289

MA20SE104MAA
MA20SE104MAA
MA20SE104MAA
MA20SE104MAA
MA20SE104MAA
2C20Z5U10SZ025B

A14C304
A14C30S
A14C316
A14C340
A14C354
A14C362

281-077S-00
283-0028-00
281-077S-00
281-07'7S-00
281-077S-00
281-07S9-00

CAP.,FXD,CER
CAP.,FXD,CER
CAP.,FXD,CER
CAP.,FXD,CER
CAP.,FXD,CER
CAP.,FXD,CER

DI:0.1 UF,20%,SOV
DI:0.0022UF,20%,SOV
DI:0.1 UF,20%,SOV
DI:0.1 UF,20%,SOV
DI:0.1UF,20%,50V
DI:22PF,10%,100V

04222
59660
04222
04222
04222
96733

MA20SE104MAA
080558SY5S0222M
MA20SE104MAA
MA20SE104MAA
MA20SE104MAA
R2735

A14C366
A14C375
A14C382
A14C404
A14C412
A14C417

281-077S-00
281-077S-00
290-0932-00
283-0028-00
281-077S-00
281-077S-00

CAP.,FXD,CER D1:0.1UF,20%,SOV
CAP .,FXD,CER DI:0.1 UF,20%,SOV
CAP.,FXD ELECT:390UF,+ 100-10%,lSVDC
CAP.,FXD,CER DI:0.0022UF,20%,50V
CAP.,FXD,CER D1:0.1UF,20%,SOV
CAP.,FXD,CER DI:0.1UF,20%,SOV

04222
04222
90201
59660
04222
04222

MA205E104MAA
MA205E104MAA
VPR391 N01 E1 A3J
0805S85YSS0222M
MA205E104MAA
MA205E104MAA

A14C431
A14C434
A14C443
A14C451
A14C481
A14C491

281-077S-00
281-077S-00
281-077S-00
281-077S-00
281-077 S-OO
281-077S-00

CAP.,FXD,CER
CAP.,FXD,CER
CAP.,FXD,CER
CAP.,FXD,CER
CAP.,FXD,CER
CAP.,FXD,CER

04222
04222
04222
04222
04222
04222

MA205E104MAA
MA205E104MAA
MA205E104MAA
MA205E104MAA
MA205E104MAA
MA205E104MAA

A14C498
A14CS04
A14CS10
A14C520
A14CS24
A14CS32

290-0932-00
281-077S-00
281-077S-00
281-0775-00
281-0775-00
281-0775-00

CAP.,FXD ELECT:390UF,+ 100-10%,lSVDC
CAP.,FXD,CER DI:0.1UF,20%,SOV
CAP.,FXD,CER DI:0.1UF,20%,50V
CAP.,FXD,CER D1:0.1UF,20%,SOV
CAP.,FXD,CER DI:0.1UF,20%,SOV
CAP.,FXD,CER DI:0.1UF,20%,SOV

90201
04222
04222
04222
04222
04222

VPR391N01E1A3J
MA205E104MAA
MA205E104MAA
MA205E104MAA
MA205E104MAA
MA205E104MAA

REV MAR 1984

B010100
B0102S0

B010249

DI:0.1 UF,20%,50V
DI:0.1 UF,20%,50V
DI:0.1 UF,20%,SOV
DI:0.1UF,20%,SOV
DI:0.1UF,20%,SOV
DI:0.1UF,20%,SOV

DI:0.1UF,20%,SOV
DI:0.1UF,20%,SOV
DI:0.1UF,20%,SOV
DI:0.1UF,20%,SOV
DI:0.1UF,20%,SOV
DI:0.1UF,20%,SOV

10-55

Replaceable Electrical Parts
DAS 9100 Series Service VoUl

Mfr
Code

Mfr Part Number

DI:0.1UF,20%,50V
DI:0.1UF,20%,50V
DI:0.1 UF,20%,50V
DI:51 PF,1%,100V
DI:0.1 UF,20%,50V
DI:0.1 UF,20%,50V

04222
04222
04222
96733
04222
04222

MA205E104MAA
MA205E104MAA
MA205E104MAA
R2928
MA205E104MAA
MA205E104MAA

CAP.,FXD,CER
CAP.,FXD,CER
CAP.,FXD,CER
CAP.,FXD,CER
CAP.,FXD,CER
CAP.,FXD,CER

DI:0.1 UF,20%,50V
DI:0.1UF,20%,50V
DI:0.1UF,20%,50V
DI:0.1UF,20%,50V
DI:0.1UF,20%,50V
DI:0.1UF,20%,50V

04222
04222
04222
04222
04222
04222

MA205E104MAA
MA205E104MAA
MA205E104MAA
MA205E104MAA
MA205E104MAA
MA205E104MAA

281-0775-00
281-0775-00
283-0177-00
283-0177-00
281-0775-00
281-0775-00

CAP.,FXD,CER
CAP.,FXD,CER
CAP.,FXD,CER
CAP.,FXD,CER
CAP.,FXD,CER
CAP.,FXD,CER

DI:0.1UF,20%,50V
DI:0.1UF,20%,50V
DI:1UF,+80-20%,25V
DI:1UF,+80-20%,25V
DI:0.1 UF,20%,50V
DI:0.1 UF,20%,50V

04222
04222
56289
56289
04222
04222

MA205E104MAA
MA205E104MAA
2C20Z5U105Z025B
2C20Z5U105Z025B
MA205E104MAA
MA205E104MAA

A14C680
A14C684
A14C696
A14C697
A14C720
A14C725

281-0775-00
283-0177-00
281-0775-00
283-0177-00
281-0775-00
281-077 5-00

CAP.,FXD,CER
CAP.,FXD,CER
CAP.,FXD,CER
CAP .,FXD,CER
CAP.,FXD,CER
CAP.,FXD,CER

DI:0.1 UF,20%,50V
DI:1UF,+80-20%,25V
DI:0.1UF,20%,50V
01: 1UF, +80-20%,25V
DI:0.1UF,20%,50V
DI:0.1UF,20%,50V

04222
56289
04222
56289
04222
04222

MA205E104MAA
2C20Z5U105Z025B
MA205E104MAA
2C20Z5U105Z025B
MA205E104MAA
MA205E104MAA

A14C730
A14C731
A14C750
A14C756
A14CR496
A14DS198

283-0177-00
283-0177-00
281-0775-00
281-0775-00
152-0582-00
150-1061-00

CAP.,FXD,CER DI:1UF,+80-20%,25V
CAP.,FXD,CER DI:1UF,+80-20%,25V
CAP.,FXD,CER DI:0.1UF,20%,50V
CAP.,FXD,CER DI:0.1 UF,20%,50V
SEMICOND DEVICE:SILlCON,20V,3A
LT EMITTING DIO:RED,660NM,50MA MAX

56289
56289
04222
04222
04713
50434

2C20Z5U105Z025B
2C20Z5U105Z025B
MA205E104MAA
MA205E104MAA
1N5820
HLMP-1301

A14F696
A14J200
A14J200
A14J400
A14J400
A14L294

159-0153-00
131-2567-00
131-2797-00
131-2567-00
131-2797-00
108-0742-00

FUSE,WIRE LEAD:1.5A,125V,FAST BLOW
CONN,RCPT,ELEC:CKT BD,17/34 CONT,RT ANGLE
CONN,RCPT,ELEC:RTANG HEADER,2 X 17,0.1 CTR
CONN,RCPT,ELEC:CKT BD,17/34 CONT,RT ANGLE
CONN,RCPT,ELEC:RTANG HEADER,2 X 17,0.1 CTR
COIL,RF:83UH,TOROIDAL

71400
22526
22526
22526
22526
80009

GFA 1-1/2
65461-006
65461-033
65461-006
65461-033
108-0742-00

A14L494
A14L695
A140196
A140197
A140398
A14R105

108-0728-00
108-0742-00
151-0190-00
151-0302-00
151-0625-00
321-0108-00

COIL,RF:116UF
COIL,RF:83UH,TOROIDAL
TRANSISTOR:SILlCON,NPN
TRANSISTOR:SILlCON,NPN
TRANSISTOR:SILlCON,PNP
RES.,FXD,FILM:130 OHM,1%,0.125W

80009
80009
07263
07263
03508
91637

108-0728-00
108-0742-00
S032677
S038487
D45H11
MFF1816G130ROF

A14R106
A14R110
A14R124
A14R130
A14R134
A14R136

321-0089-00
307-0738-00
307-0503-00
307-0818-00
315-0511-00
315-0511-00

RES.,FXD,FILM:82.50HM,1%,0.125W
RES NTWK,FXD,FI:10,270 OHM,2%,0.19 EACH
RES NTWK,THK FI:(9)510 OHM,20%,0.125W
RES NTWK,FXD,FI:8,81&8,130 OHM,2%,0.17W EA
RES.,FXD,CMPSN:5100HM,5%,0.25W
RES.;FXD,CMPSN:5100HM,5%,0.25W

91637
91637
91637
91637
01121
01121

MFF1816G82R50F
CSC11 A-1-271 G
MSP10A01-511G
MSP10A05-810131G
CB5115
CB5115

A14R140
A14R143
A14R161
A14R164
A14R166
A14R173

307-0503-00
315-0511-00
307-0539-00
307-0503-00
315-0511-00
315-0511-00

RES NTWK,THK FI:(9)510 OHM,20%,0.125W
RES.,FXD,CMPSN:510 OHM,5%,0.25W
RES NTWK,THK FI:(7)510 OHM,10%,1W
RES NTWK,THK FI:(9)51 0 OHM,20%,0.125W
RES.,FXD,CMPSN:510 OHM,5%,0.25W
RES.,FXD,CMPSN:510 OHM,5%,0.25W

91637
01121
01121
91637
01121
01121

MSP10A01-511G
CB5115
208A511
MSP10A01-511G
CB5115
CB5115

Component No.

Tektronix
Part No.

A14C543
A14C553
A14C560
A14C562
A14C566
A14C584

281-0775-00
281-0775-00
281-0775-00
281-0798-00
281-0775-00
281-0775-00

CAP.,FXD,CER
CAP.,FXD,CER
CAP.,FXD,CER
CAP.,FXD,CER
CAP.,FXD,CER
CAP.,FXD,CER

A14C598
A14C600
A14C602
A14C603
A14C604
A14C605

281-0775-00
281-0775-00
281-0775-00
281-0775-00
281-0775-00
281-0775-00

A14C609
A14C630
A14C635
A14C650
A14C656
A14C666

10-56

Serial/Model No.
Eff
Dscont

B010100
B010210
B010100
B010210

B010209
B010209

Name & Description

REV MAR 1984

"

Replaceable Electrical Parts
CAS 9100 Series Service Vol.lI

Component No.

Tektronix
Part No.

Name & Description

Mfr
Code

Mfr Part Number

A14R1BO
A14R192
A14R193
A14R194
A14R197
A14R201

315-0511-00
315-0331-00
315-0101-00
315-0511-00
315-0331-00
315-0102-00

RES.,FXD,CMPSN:510 OHM,5%,0.25W
RES.,FXD,CMPSN:330 OHM,5%,0.25W
RES.,FXD,CMPSN:l00 OHM,5%,0.25W
RES.,FXD,CMPSN:510 OHM,5%,0.25W
RES.,FXD,CMPSN:330 OHM,5%,0.25W
RES.,FXD,CMPSN:l K OHM,5%,0.25W

01121
01121
01121
01121
01121
01121

CB5115
CB3315
CB1015
CB5115
CB3315
CB1025

A14R203
A14R205
A14R210
A14R212
A14R213
A14R215

315-0102-00
307 -0738-00
315-0511-00
321-0089-00
321-010B-00
315-0472-00

RES.,FXD,CMPSN:l K OHM,5%,0.25W
RES NTWK,FXD,FI:l0,270 OHM,2%,0.19 EACH
RES.,FXD,CMPSN:510 OHM,5%,0.25W
RES.,FXD,FILM:82.5 OHM,1%,0.125W
RES.,FXD, FILM: 130 OHM, 1%,0.125W
RES.,FXD,CMPSN:4.7K OHM,5%,0.25W

01121
91637
01121
91637
91637
01121

CB1025
CSCll A-1-271 G
CB5115
MFF1816G82R50F
MFF1816G130ROF
CB4725

A14R216
A14R217
A14R218
A14R219
A14R220
A14R223

307-1096-00
307-0595-00
315-0472-00
315-0512-00
315-0512-00
315-0271-00

RES NTWK,FXD,FI:7,2 OHM,2%,lW
RES NTWK,FXD FI:7,5.6K OHM,2%,1.0W
RES.,FXD,CMPSN:4.7K OHM,5%,0.25W
RES.,FXD,CMPSN:5.1 K OHM,5%,0.25W
RES.,FXD,CMPSN:5.1 K OHM,5%,0.25W
RES.,FXD,CMPSN:270 OHM,5%,0.25W

57924
32997
01121
01121
01121
01121

4308R-101-202
4308R-l01-562
CB4725
CB5125
CB5125
CB2715

A14R232
A14R233
A14R240
A14R242
A14R252
A14R271

315-0511-00
315-0102-00
307 -0818-00
307-0503-00
307-0503-00
307-0503-00

RES.,FXD,CMPSN:510 OHM,5%,0.25W
RES.,FXD,CMPSN:l K OHM,5%,0.25W
RES NTWK,FXD,FI:8,81&B,130 OHM,2%,0.17W EA
RES NTWK,THK FI:(9)510 OHM,20%,0.125W
RES NTWK,THK FI:(9)510 OHM,20%,0.125W
RES NTWK,THK FI:(9)510 OHM,20%,0.125W

01121
01121
91637
91637
91637
91637

CB5115
CB1025
MSPl OA05-81 0131 G
MSPl OAOl-511 G
MSPl OAOl-511 G
MSP10AOl-511G

A14R275
A14R287
A14R288
A14R290
A14R291
A14R292

315-0511-00
307 -0539-00
321-0108-00
321-0089-00
321-0260-00
321-0108-00

RES.,FXD,CMPSN:510 OHM,5%,0.25W
RES NTWK,THK FI:(7)510 OHM,10%,lW
RES.,FXD,FILM:130 OHM,l %,0.125W
RES.,FXD,FILM:82.50HM,1%,0.125W
RES.,FXD,FILM:4.99K OHM,1%,0.125W
RES.,FXD,FILM:130 OHM,1%,0.125W

01121
01121
91637
91637
91637
91637

CB5115
208A511
MFF1816G130ROF
MFF1816G82R50F
MFF1816G49900F
MFF1816G130ROF

A14R293
A14R294
A14R295
A14R296
A14R297
A14R298

321-0122-00
321-0089-00
303-01 01-00
315-0132-00
31 5-0331 -00
315-0511-00

RES.,FXD,FILM:1820HM,1%,0.125W
RES.,FXD,FILM:82.5 OHM,1%,0.125W
RES.,FXD,CMPSN:l00 OHM,5%,lW
RES.,FXD,CMPSN:l.3K OHM,5%,0.25W
RES.,FXD,CMPSN:330 OHM,5%,0.25W
RES.,FXD,CMPSN:510 OHM,5%,0.25W

91637
91637
01121
01121
01121
01121

MFF1816G182ROF
MFF1816G82R50F
GB1015
CB1325
CB3315
CB5115

A14R299
A14R305
A14R312
A14R317
A14R327
A14R334

315-0201-00
307 -0738-00
307-0503-00
307-0818-00
307-0818-00
307-0818-00

RES.,FXD,CMPSN:200 OHM,5%,0.25W
RES NTWK,FXD,FI:l0,270 OHM,2%,0.19 EACH
RES NTWK,THK FI:(9)510 OHM,20%,0.125W
RES NTWK,FXD,FI:8,81&8,130 OHM,2%,0.17W EA
RES NTWK,FXD,FI:8,81 &8,130 OHM,2%,0.17W EA
RES NTWK,FXD,FI:8,81 &8,130 OHM,2%,0.17W EA

01121
91637
91637
91637
91637
91637

CB2015
CSCll A-1-271 G
MSP10AOl-511G
MSPl OA05-81 0131 G
MSPl OA05-Bl 0131 G
MSPl OA05-81 0131 G

A14R351
A14R360
A14R363
A14R371
A14R394
A14R404

307-0503-00
311-1562-00
315-0271-00
307-0445-00
308-0678-00
315-0102-00

RES NTWK,THK FI:(9)510 OHM,20%,0.125W
RES.,VAR,NONWIR:2K OHM,20%,0.50W
RES.,FXD,CMPSN:270 OHM,5%,0.25W
RES NTWK,FXD,FI:4.7K OHM,20%,(9) RES
RES.,FXD,WW:0.l0HM,5%,2W
RES.,FXD,CMPSN:l K OHM,5%,0.25W

91637
73138
01121
91637
75042
01121

MSP10AOl-511G
91-84-0
CB2715
MSP10AOl-472M
BWH-Rl000J
CB1025

A14R405
A14R416
A14R455

307 -0738-00
307 -0503-00
307-0818-00

RES NTWK,FXD,FI:l0,270 OHM,2%,0.19 EACH
RES NTWK,THK FI:(9)510 OHM,20%,0.125W
RES NTWK,FXD,FI:8,81 &8,130 OHM,2%,0.17W EA

91637
91637
91637

CSCll A-1-271 G
MSP10AOl-511G
MSPl OA05-81 0131 G

A14R456
A14R457
A14R466

307-0818-00
307-0503-00
315-0511-00

RES NTWK,FXD,FI:8,Bl&8,130 OHM,2%,0.17W EA
RES NTWK,THK FI:(9)510 OHM,20%,0.125W
RES.,FXD,CMPSN:510 OHM,5%,0.25W

91637
91637
01121

MSP10A05-810131G
MSP10AOl-511G
CB5115

REV MAR 1984

Serial/Model No.
Eff
Dscont

10-51

Replaceable Electrical Parts
CAS 9100 Series Service VoLlI

Component No.

Tektronix
Part No.

A14R471
A14R490
A14R494
A14R496
A14R504
A14R505

307-0818-00
315-0102-00
315-0243-00
315-0101-00
315-0102-00
307-0738-00

A14R512
A14R516
A14R526
A14R527
A14R528
A14R529

Mfr
Code

Mfr Part Number

RES NTWK,FXD,FI:8,81&8,130 OHM,2%,O.17W EA
RES.,FXD,CMPSN:l K OHM,5%,O.2SW
RES.,FXD,CMPSN:24K OHM,5%,O.25W
RES.,FXD,CMPSN:l00 OHM,5%,O.25W
RES.,FXD,CMPSN:1K OHM,5%,O.25W
RES NTWK,FXD,FI:l0,270 OHM,2%,O.19 EACH

91637
01121
01121
01121
01121
91637

MSP10A05-810131G
CB1025
CB2435
CB1015
CB1025
CSCllA-1-271G

307-0503-00
307-0503-00
321-0089-00
321-0108-00
321-0089-00
321-0108-00

RES NTWK,THK FI:(9)510 OHM,20%,O.125W
RES NTWK,THK FI:(9)510 OHM,20%,O.125W
RES.,FXD,FILM:82.50HM,l%,O.125W
RES.,FXD,FILM:130 OHM,l%,O.125W
RES.,FXD,FILM:82.50HM,l%,O.125W
RES.,FXD,FILM:130 OHM,l%,O.125W

91637
91637
91637
91637
91637
91637

MSP10AOl-511G
MSP10AOl-511G
MFF1816G82R50F
MFF1816G130ROF
MFF1816G82R50F
MFF1816G130ROF

A14R531
A14R550
A14R564
A14R565
A14R571
A14R580

307-0818-00
307-0503-00
315-0271-00
315-0511-00
307-0811-00
315-0101-00

RES NTWK,FXD,FI:8,81&8,130 OHM,2%,O.17W EA
RES NTWK,THK FI:(9)510 OHM,20%,O.125W
RES.,FXD,CMPSN:270 OHM,5%,O.25W
RES.,FXD,CMPSN:510 OHM,5%,O.25W
RES NTWK,FXD,FI:
RES.,FXD,CMPSN:l00 OHM,5%,O.25W

91637
91637
01121
01121
01121
01121

MSP10A05-810131G
MSP10AOl-511G
CB2715
CB5115
316Tl10
CB1015

A14R583
A14R595
A14R597
A14R612
A14R614
A14R620

315-0101-00
307-0811-00
307-0811-00
321-0089-00
321-0108-00
321-0089-00

RES.,FXD,CMPSN:100 OHM,5%,O.25W
RES NTWK,FXD,FI:
RES NTWK,FXD,FI:
RES.,FXD,FILM:82.50HM,l%,O.125W
RES.,FXD,FILM:130 OHM,l%,O.125W
RES.,FXD,FILM:82.50HM,l%,O.125W

01121
01121
01121
91637
91637
91637

CB1015
316Tll0
316Tll0
MFF1816G82R50F
MFF1816G130ROF
MFF1816G82R50F

A14R621
A14R652
A14R653
A14R663
A14R667
A14R678

321-0108-00
315-0331-00
315-0182-00
311-1562-00
307-0811-00
315-0101-00

RES.,FXD,FILM:130 OHM,l%,O.125W
RES.,FXD,CMPSN:330 OHM,5%,O.25W
RES.,FXD,CMPSN:l.8K OHM,5%,O.25W
RES.,VAR,NONWIR:2K OHM,20%,O.50W
RES NTWK,FXD,FI:
RES.,FXD,CMPSN:l00 OHM,5%,O.25W

91637
01121
01121
73138
01121
01121

MFF1816G130ROF
CB3315
CB1825
91-84-0
316Tll0
CB1015

A14R681
A14R695
A14R696
A14R697
A14R710
A14R712

315-0101-00
307-0811-00
315-0561-00
315-0681-00
321-0089-00
321-0108-00

RES.,FXD,CMPSN:l00 OHM,5%,O.25W
RES NTWK,FXD,FI:
RES.,FXD,CMPSN:560 OHM,5%,O.25W
RES.,FXD,CMPSN:680 OHM,5%,O.25W
RES.,FXD,FILM:82.50HM,l%,O.125W
RES.,FXD,FILM:130 OHM,l%,O.125W

01121
01121
01121
01121
91637
91637

CB1015
316Tll0
CB5615
CB6815
MFF1816G82R50F
MFF1816G130ROF

A14TP194
A14TP205
A14TP211
A14TP230
A14TP265
A14TP266

214-0579-00
214-0579-00
214-0579-00
214-0579-00
214-0579-00
214-0579-00

TERM,TEST
TERM,TEST
TERM,TEST
TERM,TEST
TERM,TEST
TERM,TEST

POINT:BRS
POINT:BRS
POINT:BRS
POINT:BRS
POINT:BRS
POINT:BRS

CD
CD
CD
CD
CD
CD

PL
PL
PL
PL
PL
PL

80009
80009
80009
80009
80009
80009

214-0579-00
214-0579-00
214-0579-00
214-0579-00
214-0579-00
214-0579-00

A14TP294
A14TP336
A14TP363
A14TP604
A14TP635
A14TP680

214-0579-00
214-0579-00
214-0579-00
214-0579-00
214-0579-00
214-0579-00

TERM,TEST
TERM,TEST
TERM,TEST
TERM,TEST
TERM,TEST
TERM,TEST

POINT:BRS
POINT:BRS
POINT:BRS
POINT:BRS
POINT:BRS
POINT:BRS

CD
CD
CD
CD
CD
CD

PL
PL
PL
PL
PL
PL

80009
80009
80009
80009
80009
80009

214-0579-00
214-0579-00
214-0579-00
214-0579-00
214-0579-00
214-0579-00

A14Ul07
A14Ull0
A14Ul15

156-0633-01
156-0182-02
156-1592-00

MICROCIRCUIT,DI:HEX D MASTER SLAVE FF
MICROCIRCUIT,DI:TRIPLE 2-3-2 INPUT GATE
MICROCIRCUIT,DI:4-3-3 NOR BUS DRIVERS

04713
04713
07263

MC10176LD
MCl 01 05PD/LD
Fl0123DC

A14Ul17
A14U121
A14U125

156-0205-02
156-1592-00
156-0230-02

MICROCIRCUIT,DI:QUAD 2-INP NOR GATE,SCRN
MICROCIRCUIT,DI:4-3-3 NOR BUS DRIVERS
MICROCIRCUIT,DI:DUAL D-TYPE M/S,FF,SCRN

04713
07263
04713

MC10l02PD/LD
Fl0123DC
MC10131LD

10-58

Serial/Model No.
Eft
Dscont

Name & Description

REV MAR 1984

Replaceable Electrical Parts
DAS 9100 Series Service Vol.lI

Mfr
Code

Mfr Part Number

MICROCIRCUIT,DI:DUAL D-TYPE M/S,FF,SCRN
MICROCIRCUIT,DI:QUAD AND GATE 2 INP,SCRN
MICROCIRCUIT,DI:UNIV HEX CNTR,SCRN
MICROCIRCUIT,DI:UNIV HEX CNTR,SCRN
MICROCIRCUIT,DI:64 BIT REGISTER FILE,SCRN
MICROCIRCUIT,DI:64 BIT REGISTER FILE,SCRN

04713
04713
04713
04713
07263
07263

MC10131LD
MC1 01 04PD/LD
MC10136PD/LD
MC10136PD/LD
10145ADCQR
10145ADCQR

156-0761-01
156-0761-01
156-0641-01
156-0641-01
156-0641-01
156-0182-02

MICROCIRCUIT,DI:1024 X 1 RAM,CHECKED
MICROCIRCUIT,DI:1024 X 1 RAM,CHECKED
MICROCIRCUIT,DI:UNIV HEX CNTR,SCRN
MICROCIRCUIT,DI:UNIV HEX CNTR,SCRN
MICROCIRCUIT,DI:UNIV HEX CNTR,SCRN
MICROCIRCUIT,DI:TRIPLE 2-3-2 INPUT GATE

04713
04713
04713
04713
04713
04713

MCM10146L
MCM10146L
MC10136PD/LD
MC10136PD/LD
MC10136PD/LD
MC1 01 05PD/LD

A14U198
A14U215
A14U217
A14U221
A14U225
A14U235

156-1225-00
156-0411-02
156-0182-02
156-0411-02
156-0541-02
156-0230-02

MICROCIRCUIT,LI:DUAL COMPARATOR,8 DIP
MICROCIRCUIT,LI:QUAD COMPARATOR,SEL
MICROCIRCUIT,DI:TRIPLE 2-3-2 INPUT GATE
MICROCIRCUIT,LI:QUAD COMPARATOR,SEL
MICROCIRCUIT,DI:DUAL 2 TO 4 LINE DCDR
MICROCIRCUIT,DI:DUAL D-TYPE M/S,FF,SCRN

27014
04713
04713
04713
01295
04713

LM393N
LM339JDS
MC1 01 05PD/LD
LM339JDS
SN74LS139NP3
MC10131 LD

A14U237
A14U241
A14U245
A14U251
A14U261
A14U265

156-0458-01
156-0458-01
156-0633-01
156-0847-01
156-0295-02
156-0230-02

MICROCIRCUIT,DI:QUAD AND GATE 2 INP,SCRN
MICROCIRCUIT,DI:QUAD AND GATE 2 INP,SCRN
MICROCIRCUIT,DI:HEX 0 MASTER SLAVE FF
MICROCIRCUIT,DI:64 BIT REGISTER FILE,SCRN
MICROCIRCUIT,DI:TRIPLE 2-INP EXCL OR NOR
MICROCIRCUIT,DI:DUAL D-TYPE M/S,FF,SCRN

04713
04713
04713
07263
04713
04713

MC1 01 04PD/LD
MC1 01 04PD/LD
MC10176LD
10145ADCQR
MC1 01 07PD/LD
MC10131 LD

A14U267
A14U271
A14U275
A14U281
A14U285
A14U305

156-0230-02
156-0458-01
156-0458-01
156-0230-02
156-0230-02
156-0631-02

MICROCIRCUIT,DI:DUAL D-TYPE M/S,FF,SCRN
MICROCIRCUIT,DI:QUAD AND GATE 2 INP,SCRN
MICROCIRCUIT,DI:QUAD AND GATE 2 INP,SCRN
MICROCIRCUIT,DI:DUAL D-TYPE M/S,FF,SCRN
MICROCIRCUIT,DI:DUAL D-TYPE M/S,FF,SCRN
MICROCIRCUIT,DI:QUAD 2 INPUT OR/NOR GATE

04713
04713
04713
04713
04713
04713

MC10131 LD
MC1 01 04PD/LD
MC1 01 04PD/LD
MC10131LD
MC10131LD
MC1 01 01 (PO OR LD

A14U310
A14U315
A14U321
A14U325
A14U327
A14U331

156-0411-02
156-0641-01
156-0411-02
156-0411-02
156-0637-01
156-0637-01

MICROCIRCUIT,LI:QUAD COMPARATOR,SEL
MICROCIRCUIT,DI:UNIV HEX CNTR,SCRN
MICROCIRCUIT,LI:QUAD COMPARATOR,SEL
MICROCIRCUIT,LI:QUAD COMPARATOR,SEL
MICROCIRCUIT,DI:DUAL 4 TO 1 MUX
MICROCIRCUIT,DI:DUAL 4 TO 1 MUX

04713
04713
04713
04713
04713
04713

LM339JDS
MC10136PD/LD
LM339JDS
LM339JDS
MC10174PD/LD
MC1 0174PD/LD

A14U335
A14U337
A14U341
A14U345
A14U351
A14U353

156-0637-01
156-0637 -01
156-0759-02
156-0633-01
156-0847-01
156-0641-01

MICROCIRCUIT,DI:DUAL 4 TO 1 MUX
MICROCIRCUIT,DI:DUAL 4 TO 1 MUX
MICROCIRCUIT,DI:QUAD 2-INP OR GATE,SCRN
MICROCIRCUIT,DI:HEX 0 MASTER SLAVE FF
MICROCIRCUIT,DI:64 BIT REGISTER FILE,SCRN
MICROCIRCUIT,DI:UNIV HEX CNTR,SCRN

04713
04713
04713
04713
07263
04713

MC1 0174PD/LD
MC1 017 4PD/LD
MC1 01 03PD/LD
MC10176LD
10145ADCQR
MC10136PD/LD

A14U365
A14U367
A14U371
A14U405
A14U410
A14U415

156-0458-01
156-0230-02
156-0956-02
156-0631-02
156-0411-02
156-0641-01

MICROCIRCUIT,DI:QUAD AND GATE 2 INP,SCRN
MICROCIRCUIT,DI:DUAL D-TYPE M/S,FF,SCRN
MICROCIRCUIT,DI:OCTAL BFR W/3 STATE OUT
MICROCIRCUIT,DI:QUAD 2 INPUT OR/NOR GATE
MICROCIRCUIT,LI:QUAD COMPARATOR,SEL
MICROCIRCUIT,DI:UNIV HEX CNTR;SCRN

04713
04713
01295
04713
04713
04713

MC1 01 04PD/LD
MC10131LD
SN74LS244NP3
MC10101(PD OR LD
LM339JDS
MC10136PD/LD

A14U421
A14U425
A14U427

156-1297-01
156-1297-01
156-1297-01

MICROCIRCUIT,DI:256 X 4 STATIC RAM,BURN-IN
MICROCIRCUIT,DI:256 X 4 STATIC RAM,BURN-IN
MICROCIRCUIT,DI:256 X 4 STATIC RAM,BURN-IN

80009
80009
80009

156-1297-01
156-1297-01
156-1297-01

A14U431
A14U435
A14U441

156-1297-01
156-1297-01
156-1297-01

MICROCIRCUIT,DI:256 X 4 STATIC RAM,BURN-IN
MICROCIRCUIT,DI:256 X 4 STATIC RAM,BURN-IN
MICROCIRCUIT,DI:256 X 4 STATIC RAM,BURN-IN

80009
80009
80009

156-1297-01
156-1297-01
156-1297-01

Component No.

Tektronix
Part No.

A 14U131
A14U135
A14U137
A14U141
A14U145
A14U151

156-0230-02
156-0458-01
156-0641-01
156-0641-01
156-0847-01
156-0847-01

A14U153
A14U165
A14U167
A14U171
A14U175
A14U185

REV MAR 1984

Serial/Model No.
Elf
Dscont

Name & Description

10-59

Replaceable Electrical Parts
DAS 9100 Series Service Vol.II

Component No.

Tektronix
Part No.

A14U445
A14U451
A14U453
A14U461
A14U465
A14U467

156-0230-02
156-0633-01
156-0633-01
156-0205-02
156-0759-02
156-0633-01

A14U471
A14U481
A14U485
A14U495
A14U505
A14U510

Mfr
Code

Mfr Part Number

MICROCIRCUIT,DI:DUAL D-TYPE M/S,FF,SCRN
MICROCIRCUIT,DI:HEX D MASTER SLAVE FF
MICROCIRCUIT,DI:HEX D MASTER SLAVE FF
MICROCIRCUIT,DI:QUAD 2-INP NOR GATE,SCRN
MICROCIRCUIT,DI:QUAD 2-INP OR GATE,SCRN
MICROCIRCUIT,DI:HEX D MASTER SLAVE FF

04713
04713
04713
04713
04713
04713

MC10131LD
MC10176LD
MC10176LD
MC1 01 02PD/LD
MC1 01 03PD/LD
MC10176LD

156-0633-01
160-0831-00
156-0956c02
156-0469-02
156-0631-02
156-0411-02

MICROCIRCUIT,DI:HEX D MASTER SLAVE FF
MICROCIRCUIT,DI:8192 X 8 MROM,PRGM,SCRN
MICROCIRCUIT,DI:OCTAL BFR W/3 STATE OUT
MICROCIRCUIT,DI:3/8 LINE DCDR
MICROCIRCUIT,DI:QUAD 2 INPUT OR/NOR GATE
MICROCIRCUIT,LI:QUAD COMPARATOR,SEL

04713
80009
01295
01295
04713
04713

MC10176LD
160-0831-00
SN74LS244NP3
SN74LS138NP3
MC10101(PD OR LD
LM339JDS

A14U515
A14U521
A14U525
A14U531
A14U535
A14U541

156-0641-01
156-1297-01
156-1297-01
156-0633-01
156-0633-01
156-0633-01

MICROCIRCUIT,DI:UNIV HEX CNTR,SCRN
MICROCIRCUIT,DI:256 X 4 STATIC RAM,BURN-IN
MICROCIRCUIT,DI:256 X 4 STATIC RAM,BURN-IN
MICROCIRCUIT,DI:HEX D MASTER SLAVE FF
MICROCIRCUIT,DI:HEX D MASTER SLAVE FF
MICROCIRCUIT,DI:HEX D MASTER SLAVE FF

04713
80009
80009
04713
04713
04713

MC10136PD/LD
156-1297-01
156-1297-01
MC10176LD
MC10176LD
MC10176LD

A14U545
A14U551
A14U565
A14U567
A14U581
A14U585

156-0458-01
156-0458-01
156-0230-02
156-0205-02
156-0865-02
156~0865-02

MICROCIRCUIT,DI:QUAD AND GATE 2 INP,SCRN
MICROCIRCUIT,DI:QUAD AND GATE 2 INP,SCRN
MICROCIRCUIT,DI:DUAL D-TYPE M/S,FF,SCRN
MICROCIRCUIT,DI:QUAD 2-INP NOR GATE,SCRN
MICROCIRCUIT,DI:OCTAL D-TYPE FF W/CLEAR
MICROCIRCUIT,DI:OCTAL D-TYPE FF W/CLEAR

04713
04713
04713
04713
01295
01295

MC10104PD/LD
MC10104PD/LD
MC10131LD
MC10102PD/LD
SN74LS273NP3
SN74LS273NP3

A14U605
A14U610
A14U615
A14U617
A14U627
A14U631

156-0631-02
156-0411-02
156-0641-01
156-0637-01
156-0252-02
156-0252-02

MICROCIRCUIT,DI:QUAD 2 INPUT OR/NOR GATE
MICROCIRCUIT,LI:QUAD COMPARATOR,SEL
MICROCIRCUIT,DI:UNIV HEX CNTR,SCRN
MICROCIRCUIT,DI:DUAL 4 TO 1 MUX
MICROCIRCUIT,DI:TRIPLE 4-3-3 INP NOR GATE
MICROCIRCUIT,DI:TRIPLE 4-3-3 INP NOR GATE

04713
04713
04713
04713
04713
04713

MC1 01 01 (PD OR LD
LM339JDS
MC10136PD/LD
MC1 0174PD/LD
MC1 01 06PD/LD
MC1 01 06PD/LD

A14U635
A14U645
A14U651
A14U661
A14U665
A14U671

156-0252-02
156-0687-01
156-0687-01
156-0956-02
156-0956-02
156-0956-02

MICROCIRCUIT,DI:TRIPLE 4-3-3 INP NOR GATE
MICROCIRCUIT,DI:QUAD EXCL OR CMPTR
MICROCIRCUIT,DI:QUAD EXCL OR CMPTR
MICROCIRCUIT,DI:OCTAL BFR W/3 STATE OUT
MICROCIRCUIT,DI:OCTAL BFR W/3 STATE OUT
MICROCIRCUIT,DI:OCTAL BFR W/3 STATE OUT

04713
04713
04713
01295
01295
01295

MC1 01 06PD/LD
MC10113PD
MC10113PD
SN74LS244NP3
SN74LS244NP3
SN74LS244NP3

A14U681
A14U685

156-0956-02
156-1026-02

MICROCIRCUIT,DI:OCTAL BFR W/3 STATE OUT
MICROCIRCUIT,DI:4/1 LINE DECODER,BURN-IN

01295
80009

SN74LS244NP3
156-1026-02

10-60

Serial/Model No.
Eff
Dscont

Name & Description

REV MAR 1984

Replaceable Electrical Parts
CAS 9100 Series Service VoLlI

Mfr
Code

Mfr Part Number

PROBE,WORD GEN:P6455,TTL/MOS
SWITCH,PUSH:T,NO CONTACT, BLACK BTN
SWITCH,SLlDE:SPDT,0.4A,20VDC

80009
81073
95146

010-6455-01
39-3
TSS-ll-DG-l-PC

670-7266-01

CKT BOARD ASSY:TTL/MOS PATTERN GEN PROBE

80009

670-7266-01

A15A1Cl00
A15A1Cl04
A15A1Cl14
A15A1Cl15
A15A1Cl18
A15A1C200

283-0204-00
283-0204-00
283-0204-00
283-0204-00
290-0847-00
283-0204-00

CAP.,FXD,CER DI:O.Ol UF,20%,50V
CAP.,FXD,CER DI:O.Ol UF,20%,50V
CAP.,FXD,CER DI:O.Ol UF,20%,50Y
CAP.,FXD,CER DI:0.01UF,20%,50Y
CAP.,FXD,ELCTLT:47UF, +50-1 0%,1 0 Y
CAP.,FXD,CER DI:O.Ol UF,20%,50Y

96733
96733
96733
96733
54473
96733

R2676
R2676
R2676
R2676
ECE-Bl AV470S
R2676

A15A1C214
A15A1C215
A15A1C218
A15A1C219
A15A1C319
A15A1CR104

283-0177-00
283-0177-00
290-0847-00
283-0024-00
283-0177-00
152-0307-00

CAP.,FXD,CER DI:l UF, +80-20%,25Y
CAP.,FXD,CER DI:l UF, +80-20%,25V
CAP.,FXD,ELCTLT:47UF,+50-10%,10 Y
CAP.,FXD,CER DI:O.l UF, +80-20%,50Y
CAP.,FXD,CER DI:1UF,+80-20%,25V
SEMICOND DEYICE:SILlCON,300Y,0.13A

56289
56289
54473
72982
56289
04713

2C20Z5Ul05Z025B
2C20Z5Ul05Z025B
ECE-Bl AY470S
8121 N083Z5U0104Z
2C20Z5Ul05Z0258
SSDl150

A15A1CR105
A15A1CR106
A15A1CR107
A15A1CR110
A15A1CR111
A15A1CR112

152-0501-00
152-0307 -00
152-0501-00
152-0141-02
152-0141-02
152-0141-02

SEMICOND
SEMICOND
SEMICOND
SEMICOND
SEMICOND
SEMICOND

DEYICE:SILlCON,70Y,200MA
DEYICE:SILlCON,300Y,0.13A
DEYICE:SILlCON,70V,200MA
DEYICE:SILlCON,30Y,150MA
DEYICE:SILlCON,30Y,150MA
DEYICE: SILlCON,30V, 150MA

04713
04713
04713
01295
01295
01295

SSD2405
SSD1150
SSD2405
lN4152R
lN4152R
1N4152R

A15A1CRl14
A15A1CR204
A15A1CR205
A15A1CR206
A15A1CR207
A15A1CR210

152-0581-00
152-0307-00
152-0501-00
152-0307-00
152-0501-00
152-0141-02

SEMICOND
SEMICOND
SEMICOND
SEMICOND
SEMICOND
SEMICOND

DEYICE:SILlCON,20V,lA
DEYICE:SILlCON,300V,0.13A
DEYICE:SILlCON,70Y,200MA
DEYICE:SILlCON,300Y,0.13A
DEYICE:SILlCON,70Y,200MA
DEYICE:SILlCON,30Y,150MA

04713
04713
04713
04713
04713
01295

1N5817
SSDl150
SSD2405
SSDl150
SSD2405
lN4152R

A15A1CR211
A15A1CR212
A15A1CR213
A15A1CR306
A15A1CR307
A15A1CR310

152-0141-02
152-0141-02
152-0141-02
152-0307-00
152-0501-00
152-0141-02

SEMICOND
SEMICOND
SEMICOND
SEMICOND
SEMICOND
SEMICOND

DEVICE:SILlCON,30Y,150MA
DEVICE:SILlCON,30Y,150MA
DEYICE:SILlCON,30Y,150MA
DEYICE:SILlCON,300Y,0.13A
DEYICE:SILlCON,70Y,200MA
DEYICE:SILlCON,30Y,150MA

01295
01295
01295
04713
04713
01295

1N4152R
lN4152R
lN4152R
SSDl150
SSD2405
1N4152R

A15Al Fl15
A15A1J100
A 15A lJ102
A15A1J200
A15A1J300
A15A1Ql14

159-0195-00
131-2746-00
131-2757-00
131-2746-00
131-2746-00
151-0220-00

FUSE,RADIAL LD:7A,125Y,0.125 SEC
TERM,SET PIN:2 MALE,RIGHT ANGLE
CONN,RCPT,ELEC:HEADER,10 CONT
TERM,SET PIN:2 MALE,RIGHT ANGLE
TERM,SET PIN:2 MALE,RIGHT ANGLE
TRANSISTOR:SILlCON,PNP

75915
22526
22526
22526
22526
07263

256-007
67171-102
67170-110
67171-102
67171-102
S036228

A15A1Q214
A15A1Q316
A15A1Q318
A15A1Rl12
A15A1R213
A15A1R215

151-0220-00
151-0221-00
151-0221-00
317-0102-00
317-0100-00
317-0561-00

TRANSISTOR:SILlCON,PNP
TRANSISTOR:SILlCON,PNP
TRANSISTOR:SILlCON,PNP
RES.,FXD,CMPSN:1K OHM,5%,0.125W
RES.,FXD,CMPSN:l0 OHM,5%,0.125W
RES.,FXD,CMPSN:560 OHM,5%,0.125W

07263
04713
04713
01121
01121
01121

S036228
SPS246
SPS246
B81025
8Bl005
B85615

A15A1R216
A15A1R310
A15A1R314
A15A1R315
A15A1Ul04
A15A1Ul05

317-0201-00
317-0102-00
317 -0201-00
317-0121-00
155-0229-00
155-0229-00

RES.,FXD,CMPSN:200 OHM,5%,0.125W
RES.,FXD,CMPSN: 1K OHM,5%,0.125W
RES.,FXD,CMPSN:200 OHM,5%,O.125W
RES.,FXD,CMPSN:120 OHM,5%,0.125W
MICROCIRCUIT,DI:WORD GENERATOR
MICROCIRCUIT,DI:WORD GENERATOR

01121
01121
01121
01121
80009
80009

8B2015
BB1025
BB2015
BB1215
155-0229-00
155-0229-00

Component No.

Tektronix
Part No.

A15
A15S1
A15S2

010-6455-01
260-0735-01
260-2081-00

A15Al

REV MAR 1984

Serial/Model No.
Dscont
Eff

Name & Description

10-61

Replaceable Electrical Parts
DAS 9100 Series Service Vol.II

Component No.

Tektronix
Part No.

A15A1U106
A15A1U107
A15A1U204
A15A1U205
A15A1U206
A15A1U207

155-0229-00
155-0229-00
155-0229-00
155-0229-00
155-0229-00
155-0229-00

MICROCIRCUlT,DI:WORD
MICROCIRCUIT,DI:WORD
MICROCIRCUIT,DI:WORD
MICROCIRCUIT,DI:WORD
MICROCIRCUIT,DI:WORD
MICROCIRCUIT,DI:WORD

A15A1U306
A15A1U307
A15A1W119
A15A1W119
A15A1W119
A15A1W119

155-0229-00
155-0229-00
195-3100-00

A15A1W120
A15A1W311
A15A1W311
A15A1W311
A15A1W311
A15A1W319

175-3642-00
195-3097-00

A15A1W319

195-3099-00

195-3097-00
195-31 01-00

Serial/Model No.
Eft
Dscont

Mfr
Code

Mfr Part Number

GENERATOR
GENERATOR
GENERATOR
GENERATOR
GENERATOR
GENERATOR

80009
80009
80009
80009
80009
80009

155-0229-00
155-0229-00
155-0229-00
155-0229-00
155-0229-00
155-0229-00

MICROCIRCUIT,DI:WORD GENERATOR
MICROCIRCUIT,DI:WORD GENERATOR
LEAD,ELEC:26 AWG,3.0 L,9-2
(QUANTITY OF 1)
LEAD,ELEC:26 AWG,3.0 L,9-1
(QUANTITY OF 2)

80009
80009
80009

155-0229-00
155-0229-00
195-31 00-00

80009

195-3099-00

CA ASSY,SP,ELEC:34,28 AWG,79.13 L
LEAD,ELEC:26 AWG,3.0 L,9-0
(QUANTITY OF 1)
LEAD,ELEC:26 AWG,3.0 L,9-0
(QUANTITY OF 2)
LEAD,ELEC:26 AWG,3.0 L,9-3

22526
80009

80278-001
195-3097-00

80009

195-3097-00

80009

195-3101-00

Name & Description

(QUANTITY OF 1)

,/

I

\

10-62

REV MAR 1984

'--

Replaceable Electrical Parts
DAS 9100 Series Service VoUI

Mfr
Code

Mfr Part Number

PROBE,PAT GEN:P6456,ECL
SWITCH,PUSH:T,NO CONTACT,BLACK BTN
SWITCH,SLlDE:SPDT,0.4A,20VDC

80009
81073
95146

010-6456-01
39-3
TSS-ll-DG-l-PC

670-7267-01

CKT BOARD ASSY:ECL PATTERN GEN PROBE

80009

670-7267-01

A16A1Cl00
A16A1C121
A16A1C134
A16A1C146
A16A1C244
A16A1C300

283-0204-00
283-0024-00
283-0177-00
283-0204-00
283-0204-00
283-0204-00

CAP.,FXD,CER
CAP.,FXD,CER
CAP .,FXD,CER
CAP.,FXD,CER
CAP.,FXD,CER
CAP.,FXD,CER

96733
72982
56289
96733
96733
96733

R2676
8121 N083Z5U0104Z
2C20Z5Ul05Z025B
R2676
R2676
R2676

A16A1C318
A16A1C328
A16A1C344
A16A1CR102
A16A1CR103
A16A1CR104

283-0204-00
283-0204-00
283-0204-00
152-0307-00
152-0501-00
152-0307-00

CAP.,FXD,CER DI:O.Ol UF,20%,50V
CAP.,FXD,CER DI:O.Ol UF,20%,50V
CAP.,FXD,CER 01:0.01 UF,20%,50V
SEMICOND DEVICE:SILlCON,300V,0.13A
SEMICOND DEVICE:SILlCON,70V,200MA
SEMICOND DEVICE:SILlCON,300V,0.13A

96733
96733
96733
04713
04713
04713

R2676
R2676
R2676
SSDl150
SSD2405
SSDl150

A16A1CR105
A16A1CRl16
A16A1CRl17
A16A1CR200
A16A1CR201
A16A1CR202

152-0501-00
152-0322-00
152-0322-00
152-0307-00
152-0501-00
152-0307-00

SEMICOND
SEMICOND
SEMICOND
SEMICOND
SEMICOND
SEMICOND

DEVICE:SILlCON,70V,200MA
DEVICE:SILlCON,15V,HOT CARRIER
DEVICE:SILlCON,15V,HOT CARRIER
DEVICE:SILlCON,300V,0.13A
DEVICE:SILlCON,70V,200MA
DEVICE:SILlCON,300V,0.13A

04713
50434
50434
04713
04713
04713

SSD2405
5082-2672
5082-2672
SSD1150
SSD2405
SSDl150

A16A1CR215
A16A1CR216
A16A1CR221
A16A1CR223
A16A1CR300
A16A1CR301

152-0322-00
152-0322-00
152-0322-00
152-0322-00
152-0501-00
152-0307-00

SEMICOND
SEMICOND
SEMICOND
SEMICOND
SEMICOND
SEMICOND

DEVICE:SILlCON,15V,HOT CARRIER
DEVICE:SILlCON,15V,HOT CARRIER
DEVICE:SILlCON,15V,HOT CARRIER
DEVICE:SILlCON,15V,HOT CARRIER
DEVICE:SILlCON,70V,200MA
DEVICE:SILlCON,300V,0.13A

50434
50434
50434
50434
04713
04713

5082-2672
5082-2672
5082-2672
5082-2672
SSD2405
SSDl150

A16A1CR302
A16A1CR318
A16A1CR319
A16A1CR323
A16A1CR324
A16A1CR326

152-0501-00
152-0322-00
152-0581-00
152-0322-00
152-0322-00
152-0322-00

SEMICOND
SEMICOND
SEMICOND
SEMICOND
SEMICOND
SEMICOND

DEVICE:SILlCON,70V,200MA
DEVICE:SILlCON,15V,HOT CARRIER
DEVICE:SILICON,20V,lA
DEVICE:SILlCON,15V,HOT CARRIER
DEVICE:SILlCON,15V,HOT CARRIER
DEVICE:SILlCON,15V,HOT CARRIER

04713
50434
04713
50434
50434
50434

SSD2405
5082-2672
lN5817
5082-2672
5082-2672
5082-2672

A16A1DSll0
A16A1DSlll
A16A1DSl12
A16A1DSl13
A16Al DS210
A16Al DS212

150-0057-01
150-0057-01
150-0057-01
150-0057-01
150-0057-01
150-0057-01

LAMP,INCAND:5V,0.115A,WIRE
LAMP,INCAND:5V,0.115A,WIRE
LAMP,INCAND:5V,0.115A,WIRE
LAMP,INCAND:5V,0.115A,WIRE
LAMP,INCAND:5V,0.115A,WIRE
LAMP,INCAND:5V,0.115A,WIRE

LD,SEL
LD,SEL
LD,SEL
LD,SEL
LD,SEL
LD,SEL

76854
76854
76854
76854
76854
76854

17AS15
17AS15
17AS15
17AS15
17AS15
17AS15

A16A1DS214
A16A1DS310
A16A1DS312
A16A1DS314
A16A1Fl12
A16A1Jl00

150-0057-01
150-0057-01
150-0057-01
150-0057-01
159-0195-00
131-2746-00

LAMP,INCAND:5V,0.115A,WIRE LD,SEL
LAMP,INCAND:5V,0.115A,WIRE LD,SEL
LAMP,INCAND:5V,0.115A,WIRE LD,SEL
LAMP,INCAND:5V,0.115A,WIRE LD,SEL
FUSE,RADIAL LD:7A,125V,0.125 SEC
TERM,SET PIN:2 MALE,RIGHT ANGLE

76854
76854
76854
76854
75915
22526

17AS15
17AS15
17AS15
17AS15
256-007
67171-102

A16A1Jl02
A16A1J200
A16A1J300
A16A1Ll12
A16A1L113
A16A1L211

131-2757-00
131-2746-00
131-2746-00
108-0543-00
108-0543-00
108-0543-00

CONN,RCPT,ELEC:HEADER,10 CO NT
TERM,SET PIN:2 MALE,RIGHT ANGLE
TERM,SET PIN:2 MALE,RIGHT ANGLE
COIL,RF:FIXED,1.1UH
COIL,RF:FIXED,l.1UH
COIL,RF:FIXED,1.1 UH

22526
22526
22526
80009
80009
80009

67170-110
67171-102
67171-102
108-0543-00
108-0543-00
108-0543-00

Component No.

Tektronix
Part No.

A16
A16S1
A16S2

010-6456-01
260-0735-01
260-2081-00

A16Al

REV MAR 1984

Serial/Model No.
Eft
Dscont

Name & Description

DI:O.Ol UF,20%,50V
DI:O.l UF,+80-20%,50V
01: 1UF, + 80-20%,25V
DI:O.Ol UF,20%,50V
DI:0.01UF,20%,50V
DI:O.Ol UF,20%,50V

10-63

Replaceable Electrical Parts
CAS 9100 Series Service VoLIl

Component No.

Tektronix
Part No.

A16A1L213
A16A1 L215
A16A1L217
A16A1 L314
A16A1L315
A16A1L316

108-0543-00
108-0543-00
108-0543-00
108-0543-00
108-0543-00
108-0543-00

A16A1L319
A16A10106
A16A10107
A16A10108
A16A10109
A16A10126

Serial/Model No.
Eff
Dscont

Mfr
Code

Mfr Part Number

COIL,RF:FIXED,1.1 UH
COIL,RF:FIXED,1.1 UH
COIL,RF:FIXED,1.1 UH
COIL,RF:FIXED,1.1 UH
COIL,RF:FIXED,1.1 UH
COIL,RF:FIXED,1.1 UH

80009
80009
80009
80009
80009
80009

108-0543-00
108-0543-00
108-0543-00
108-0543-00
108-0543-00
108-0543-00

108-0543-00
151-0223-00
151-0223-00
151-0223-00
151-0223-00
151-0223-00

COIL,RF:FIXED,1.1 UH
TRANSISTOR:SILlCON,NPN
TRANSISTOR:SILlCON,NPN
TRANSISTOR:SILlCON,NPN
TRANSISTOR:SILlCON,NPN
TRANSISTOR:SILlCON,NPN

80009
04713
04713
04713
04713
04713

108-0543-00
SPS8026
SPS8026
SPS8026
SPS8026
SPS8026

A16A10127
A16A10128
A16A10129
A16A10131
A16A10132
A16A10133

151-0223-00
151 -0223-00
151-0223-00
151-0188-00
151-0188-00
151-0188-00

TRANSISTOR:SILlCON,NPN
TRANSISTOR:SILlCON,NPN
TRANSISTOR:SILlCON,NPN
TRANSISTOR:SILlCON,PNP
TRANSISTOR:SILlCON,PNP
TRANSISTOR:SILlCON,PNP

04713
04713
04713
04713
04713
04713

SPS8026
SPS8026
SPS8026
SPS6868K
SPS6868K
SPS6868K

A16A10136
A16A10137
A16A10138
A16A10139
A16A10205
A16A10206

151-0188-00
151-0188-00
151-0188-00
151-0188-00
151-0223-00
151-0223-00

TRANSISTOR:SILlCON,PNP
TRANSISTOR:SILlCON,PNP
TRANSISTOR:SILlCON,PNP
TRANSISTOR:SILlCON,PNP
TRANSISTOR:SILlCON,NPN
TRANSISTOR:SILlCON,NPN

04713
04713
04713
04713
04713
04713

SPS6868K
SPS6868K
SPS6868K
SPS6868K
SPS8026
SPS8026

A16A10207
A16A10208
A16A10228
A16A10229
A16A10231
A16A10232

151-0223-00
151-0223-00
151-0223-00
151-0223-00
151-0188-00
151-0188-00

TRANSISTOR:SILlCON,NPN
TRANSISTOR:SILlCON,NPN
TRANSISTOR:SILlCON,NPN
TRANSISTOR:SILlCON,NPN
TRANSISTOR:SILlCON,PNP
TRANSISTOR:SILlCON,PNP

04713
04713
04713
04713
04713
04713

SPS8026
SPS8026
SPS8026
SPS8026
SPS6868K
SPS6868K

A16A10233
A16A10236
A16A10237
A16A10238
A16A10305
A16A10306

151-0188-00
151-0188-00
151-0188-00
151-0188-00
151-0223-00
151-0223-00

TRANSISTOR:SILlCON,PNP
TRANSISTOR:SILlCON,PNP
TRANSISTOR:SILlCON,PNP
TRANSISTOR:SILlCON,PNP
TRANSISTOR:SILlCON,NPN
TRANSISTOR: SILlCON,NPN

04713
04713
04713
04713
04713
04713

SPS6868K
SPS6868K
SPS6868K
SPS6868K
SPS8026
SPS8026

A16A10307
A16A10327
A16A10328
A16A10329
A16A10331
A16A10332

151-0223-00
151-0223-00
151-0223-00
151-0223-00
151-0188-00
151-0188-00

TRANSISTOR:SILlCON,NPN
TRANSISTOR:SILlCON,NPN
TRANSISTOR:SILlCON,NPN
TRANSISTOR:SILlCON,NPN
TRANSISTOR:SILlCON,PNP
TRANSISTOR:SILlCON,PNP

04713
04713
04713
04713
04713
04713

SPS8026
SPS8026
SPS8026
SPS8026
SPS6868K
SPS6868K

A16A10333
A16A10334
A16A10336
A16A10337
A16A10338
A16A1R112

151-0188-00
151-0188-00
151-0188-00
151-0188-00
151-0188-00
307-0486-00

TRANSISTOR:SILlCON,PNP
TRANSISTOR:SILlCON,PNP
TRANSISTOR:SILlCON,PNP
TRANSISTOR:SILlCON,PNP
TRANSISTOR:SILlCON,PNP
RES,NTWK,THK FI:100 OHM,20%,1.125W

04713
04713
04713
04713
04713
91637

SPS6868K
SPS6868K
SPS6868K
SPS6868K
SPS6868K
MSP10A01-101J

A16A1R114
A16A1R115
A16A1R122
A16A1R123
A16A1R125
A16A1R135

317-0331-00
317-0331-00
317-0100-00
307-0737-00
307-0738-00
307-0738-00

RES.,FXD,CMPSN:330 OHM,5%,O.125W
RES.,FXD,CMPSN:330 OHM,5%,O.125W
RES.,FXD,CMPSN:10 OHM,5%,O.125W
RES NTWK,FXD,FI:10,6.2K OHM,2%,O.19 EA
RES NTWK,FXD,FI:10,270 OHM,2%,O.19 EACH
RES NTWK,FXD,FI:10,270 OHM,2%,O.19 EACH

01121
01121
01121
91637
91637
91637

883315
883315
881005
CSP11 G01622G
CSC11 A-1-271 G
CSC11 A-1-271 G

Name & Description

/I

l',-

10-64

REV MAR 1984

Replaceable Electrical Parts
DAS 9100 Series Service Vol.Il

Mfr
Code

Mfr Part Number

OHM,5%,0.125W
OHM,5%,0.125W
OHM,5%,0.125W
OHM,5%,0.125W
OHM,5%,0.125W
OHM.5%,0.125W

01121
01121
01121
01121
01121
01121

881215
881215
881215
881215
883315
883315

RES.,FXD,CMPSN:330
RES.,FXD,CMPSN:330
RES.,FXD,CMPSN:120
RES.,FXD,CMPSN: 120
RES.,FXD,CMPSN:l00
RES.,FXD,CMPSN:l00

OHM,5%,0.125W
OHM,5%,0.125W
OHM,5%,0.125W
OHM ,5%,0.125W
OHM,5%,0.125W
OHM,5%,0.125W

01121
01121
01121
01121
01121
01121

883315
883315
881215
881215
881015
881015

317-0331-00
317-0331-00
317-0331-00
317 -0331-00
317-0121-00
317-0121-00

RES.,FXD,CMPSN:330
RES.,FXD,CMPSN:330
RES.,FXD,CMPSN:330
RES.,FXD,CMPSN:330
RES.,FXD,CMPSN:120
RES.,FXD,CMPSN:120

OHM,5%,0.125W
OHM,5%,0.125W
OHM,5%,0.125W
OHM,5%,0.125W
OHM,5%,0.125W
OHM,5%,0.125W

01121
01121
01121
01121
01121
01121

883315
883315
883315
883315
881215
881215

A16A1R343
A16A1R345
A16A1R346
A16A1W141
A16A1W144
A16A1W147

317-0121-00
317-0121-00
317-0121-00
195-3100-00
195-3099-00
175-3642-00

RES.,FXD,CMPSN:120 OHM,5%,0.125W
RES.,FXD,CMPSN:120 OHM,5%,0.125W
RES.,FXD,CMPSN:120 OHM,5%,0.125W
LEAD,ELEC:26 AWG,3.0 L,9-2
LEAD,ELEC:26 AWG,3.0 L,9-1
CA ASSY,SP,ELEC:34,28 AWG,79.13 L

01121
01121
01121
80009
80009
22526

881215
881215
881215
195-3100-00
195-3099-00
80278-001

A16A1W335
A16A1W336
A16A1W347

195-3097-00
195-3097-00
195-3101-00

LEAD,ELEC:26 AWG,3.0 L,9-0
LEAD,ELEC:26 AWG,3.0 L,9-0
LEAD,ELEC:26 AWG,3.0 L.9-3

80009
80009
80009

195-3097-00
195-3097-00
195-3101-00

A16A1A1

670-7360-00

CKT 80ARD ASSY:PATIERN GEN LEAD SET

80009

670-7360-00

A16A1A1Rl00
A16A1A1Rl02
A16A1A1R104
A16A1A1Rl06
A16A1A1Rl08
A16A1A1R111

317 -0240-00
317 -0240-00
317-0240-00
317-0240-00
317-0240-00
317-0240-00

RES.,FXD,CMPSN:240HM,5%,0.125W
RES.,FXD,CMPSN:240HM,5%,0.125W
RES.,FXD,CMPSN:24 OHM,5%,0.125W
RES.,FXD,CMPSN:240HM,5%,0.125W
RES.,FXD,CMPSN:24 OHM,5%,0.125W
RES.,FXD,CMPSN:240HM,5%,0.125W

01121
01121
01121
01121
01121
01121

882405
882405
882405
882405
882405
882405

A16A1A1Rl13
A16A1A1Rl15
A16A1A1Rl17
A16A1A1Rl19

317-0240-00
317-0240-00
317-0240-00
317-0240-00

RES.,FXD,CMPSN:240HM,5%,0.125W
RES.,FXD,CMPSN:24 OHM,5%,0.125W
RES.,FXD,CMPSN:240HM,5%,0.125W
RES.,FXD,CMPSN:240HM,5%,0.125W

01121
01121
01121
01121

882405
882405
882405
882405

Component No.

Tektronix
Part No.

A16A1R141
A16A1R142
A16A1R143
A16A1R144
A16A1R214
A16A1R215

317-0121-00
317-0121-00
317-0121-00
317-0121-00
317-0331-00
317-0331-00

RES.,FXD,CMPSN:120
RES.,FXD,CMPSN:120
RES.,FXD,CMPSN:120
RES.,FXD,CMPSN:120
RES.,FXD,CMPSN:330
RES.,FXD,CMPSN:330

A16A1R218
A16A1R225
A16A1R241
A16A1R242
A16A1R311
A16A1R313

317-0331-00
317-0331-00
317-0121-00
317-0121-00
317 -0101-00
317-0101-00

A16A1R316
A16A1R317
A16A1R321
A16A1R325
A16A1R341
A16A1R342

REV MAR 1984

Serial/Model No.
Dscont
Eff

Name & Description

10-65

Replaceable Electrical Parts
DAS 9100 Series Service Vol.Il

Component No.

Tektronix
Part No.

A17
A17
A17Cl0l
A17Cl02
A17Cl04
A17Cl05

670-6740-00

Serial/Model No.
Eft
Dscont

Name & Description

Mfr
Code

Mfr Part Number

80009

670-6740-00

281-0775-00
281-0775-00
281-0775-00
281-0775-00

CKT BOARD ASSY:32 CHAN PAn GEN EXPANSION
(91 P32)
CAP.,FXD,CER DI:0.1UF,20%,50V
CAP.,FXD,CER 01:0.1 UF,20%,50V
CAP.,FXD,CER 01:0.1 UF,20%,50V
CAP.,FXD,CER 01:0.1 UF,20%,50V

04222
04222
04222
04222

MA205El04MAA
MA205El04MAA
MA205El04MAA
MA205E104MAA

A17C109
A17C116
A17C127
A17C138
A17C144
A17C149

281-0775-00
281-0775-00
281-0775-00
281-0775-00
281-0775-00
281-0775-00

CAP.,FXD,CER
CAP.,FXD,CER
CAP.,FXD,CER
CAP.,FXD,CER
CAP.,FXD,CER
CAP.,FXD,CER

DI:0.1UF,20%,50V
DI:0.1UF,20%,50V
01:0.1 UF,20%,50V
01:0.1 UF,20%,50V
01:0.1 UF,20%,50V
01:0.1 UF,20%,50V

04222
04222
04222
04222
04222
04222

MA205E104MAA
MA205E104MAA
MA205E104MAA
MA205E104MAA
MA205E104MAA
MA205E104MAA

A17C158
A17C160
A17C164
A17C301
A17C302
A17C303

281-0234-00
281-0765-00
281-0775-00
281-0775-00
281-0775-00
281-0775-00

CAP.,VAR,PLSTC:5.5-65PF,100V
CAP.,FXD,CER DI:l00PF,5%,100V
CAP.,FXD,CER DI:0.1UF,20%,50V
CAP.,FXD,CER 01:0.1 UF,20%,50V
CAP.,FXD,CER 01:0.1 UF,20%,50V
CAP.,FXD,CER 01:0.1 UF,20%,50V

80031
51642
04222
04222
04222
04222

2810C5R565UJ02F
G171 0-1 00NP01 01J
MA205El04MAA
MA205E104MAA
MA205El04MAA
MA205E104MAA

A17C306
A17C313
A17C333
A17C343
A17C349
A17C357

281-0775-00
281-0775-00
281-0775-00
281-0775-00
281-0775-00
281-0775-00

CAP.,FXD,CER
CAP.,FXD,CER
CAP.,FXD,CER
CAP.,FXD,CER
CAP.,FXD,CER
CAP.,FXD,CER

01:0.1 UF,20%,50V
DI:0.1UF,20%,50V
01:0.1 UF,20%,50V
01:0.1 UF,20%,50V
01:0.1 UF,20%,50V
DI:0.1UF,20%,50V

04222
04222
04222
04222
04222
04222

MA205E104MAA
MA205E104MAA
MA205E104MAA
MA205El04MAA
MA205E104MAA
MA205E104MAA

A17C363
A17C403
A17C409
A17C418
A17C427
A17C438

281-0775-00
281-0775-00
281-0775-00
281-0775-00
281-0775-00
281-0775-00

CAP.,FXD,CER
CAP.,FXD,CER
CAP.,FXD,CER
CAP.,FXD,CER
CAP.,FXD,CER
CAP.,FXD,CER

01:0.1 UF,20%,50V
01:0.1 UF,20%,50V
DI:0.1UF,20%,50V
01:0.1 UF,20%,50V
01:0.1 UF,20%,50V
DI:0.1UF,20%,50V

04222
04222
04222
04222
04222
04222

MA205E104MAA
MA205E104MAA
MA205E104MAA
MA205E104MAA
MA205E104MAA
MA205E104MAA

A17C447
A17C459
A17C501
A17C502
A17C503
A17C505

281-0775-00
281-0775-00
283-0024-00
281-0775-00
283-0024-00
281-0775-00

CAP.,FXD,CER
CAP.,FXD,CER
CAP.,FXD,CER
CAP.,FXD,CER
CAP.,FXD,CER
CAP.,FXD,CER

01:0.1 UF,20%,50V
DI:0.1UF,20%,50V
DI:0.1UF,+80-20%,50V
DI:0.1UF,20%,50V
DI:0.1UF,+80-20%,50V
DI:0.1UF,20%,50V

04222
04222
72982
04222
72982
04222

MA205El04MAA
MA205E104MAA
8121 N083Z5U01 04Z
MA205E104MAA
8121 N083Z5U01 04Z
MA205E104MAA

A17C509
A17C516
A17C523
A17C533
A17C539
A17C547

281-0775-00
281-0775-00
281-0775-00
281-0775-00
281-0775-00
281-0775-00

CAP.,FXD,CER
CAP.,FXD,CER
CAP.,FXD,CER
CAP.,FXD,CER
CAP.,FXD,CER
CAP.,FXD,CER

01:0.1 UF,20%,50V
01:0.1 UF,20%,50V
01:0.1 UF,20%,50V
01:0.1 UF,20%,50V
01:0.1 UF,20%,50V
01:0.1 UF,20%,50V

04222
04222
04222
04222
04222
04222

MA205E104MAA
MA205E104MAA
MA205E104MAA
MA205E104MAA
MA205E104MAA
MA205El04MAA

A17C601
A17C602
A17C603
A17C605
A17C609
A17C613

283-0024-00
283-0024-00
283-0024-00
281-0775-00
281-0775-00
281-0775-00

CAP.,FXD,CER
CAP.,FXD,CER
CAP.,FXD,CER
CAP.,FXD,CER
CAP.,FXD,CER
CAP.;FXD,CER

01:0.1 UF, +80-20%,50V
DI:0.1UF,+80-20%,50V
DI:0.1UF,+80-20%,50V
01:0.1 UF,20%,50V
01:0.1 UF,20%,50V
01:0.1 UF,20%,50V

72982
72982
72982
04222
04222
04222

8121 N083Z5U01 04Z
8121N083Z5U0104Z
8121 N083Z5U01 04Z
MA205El04MAA
MA205E104MAA
MA205El04MAA

A17C625
A17C633
A17C635
A17C636
A17C637
A17C638

281-0775-00
281-0775-00
281-0826-00
281-0826-00
281-0826-00
281-0826-00

CAP.,FXD,CER
CAP.,FXD,CER
CAP.,FXD,CER
CAP.,FXD,CER
CAP.,FXD,CER
CAP.,FXD,CER

01:0.1 UF,20%,50V
DI:0.1UF,20%,50V
DI:2200PF,5%,100V
DI:2200PF,5%,1 OOV
DI:2200PF,5%,1 OOV
DI:2200PF,5%,100V

04222
04222
12969
12969
12969
12969

MA205E104MAA
MA205E104MAA
CGB222KEX
CGB222KEX
CGB222KEX
CGB222KEX

10-66

REV MAR 1984

Replaceable Electrical Parts
DAS 9100 Series Service Vol.1I

Component No.

Tektronix
Part No.

Mfr
Code

Mfr Part Number

A17C639
A17C640
A17C641
A17C642
A17C646
A17C725

281-0826-00
281-0826-00
281-0826-00
281-0826-00
281-0775-00
283-0177-00

CAP.,FXD,CER
CAP.,FXD,CER
CAP.,FXD,CER
CAP.,FXD,CER
CAP.,FXD,CER
CAP.,FXD,CER

DI:2200PF,5%,100V
DI:2200PF,5%,100V
DI:2200PF,5%,1 OOV
DI:2200PF,5%,100V
DI:0.1UF,20%,50V
DI:1UF,+80-20%,25V

12969
12969
12969
12969
04222
56289

CG8222KEX
CG8222KEX
CG8222KEX
CG8222KEX
MA205El04MAA
2C20Z5U 105Z0258

A17C728
A17C738
A17C741
A17C742
A17Jl00
A17Jl00

283-0177-00
283-0177-00
283-0177-00
283-0177-00
131-2567-00
131-2797-00

CAP.,FXD,CER DI:1UF,+80-20%,25V
CAP.,FXD,CER DI:l UF, +80-20%,25V
CAP.,FXD,CER DI:l UF,+80-20%,25V
CAP.,FXD,CER DI:l UF,+80-20%,25V
CONN,RCPT,ELEC:CKT 8D,17/34 CONT,RT ANGLE
CONN,RCPT,ELEC:RTANG HEADER,2 X 17,0.1 CTR

56289
56289
56289
56289
22526
22526

2C20Z5U 105Z0258
2C20Z5Ul05Z0258
2C20Z5Ul05Z0258
2C20Z5Ul05Z0258
65461-006
65461-033

8010100
8010120

8010119

A17J300
A17J300
A17J500
A17J500
A17J600
A17J600

131-2567-00
131-2797-00
131-2567-00
131-2797-00
131-2567-00
131-2797-00

8010100
8010120
8010100
8010120
8010100
8010120

8010119

CONN,RCPT,ELEC:CKT 8D,17/34 CONT,RT ANGLE
CONN,RCPT,ELEC:RTANG HEADER,2 X 17,0.1 CTR
CONN,RCPT,ELEC:CKT 8D,17/34 CONT,RT ANGLE
CONN,RCPT,ELEC:RTANG HEADER,2 X 17,0.1 CTR
CONN,RCPT,ELEC:CKT 8D,17/34 CONT,RT ANGLE
CONN,RCPT,ELEC:RTANG HEADER,2 X 17,0.1 CTR

22526
22526
22526
22526
22526
22526

65461-006
65461-033
65461-006
65461-033
65461-006
65461-033

A17Rl00
A17Rl01
A17Rl03
A17Rl07
A17Rl08
A17R138

307-0738-00
307-0738-00
307-0503-00
315-0202-00
315-0562-00
307-0818-00

RES NTWK,FXD,FI:l0,270 OHM,2%,0.19 EACH
RES NTWK,FXD,FI:l0,270 OHM,2%,0.19 EACH
RES NTWK,THK FI:(9)510 OHM,20%,0.125W
RES.,FXD,CMPSN:2K OHM,5%,0.25W
RES.,FXD,CMPSN:5.6K OHM,5%,0.25W
RES NTWK,FXD,FI:8,81&8,130 OHM,2%,0.17W EA

91637
91637
91637
01121
01121
91637

CSCll A-1-271 G
CSC11 A-1-271 G
MSP10AOl-511G
C82025
C85625
MSP10A05-810131G

A17R140
A17R143
A17R144
A17R147
A17R152
A17R153

307-0539-00
315-0820-00
315-0131-00
307-0503-00
307-0539-00
315-0101-00

RES NTWK,THK FI:(7)510 OHM,10%,lW
RES.,FXD,CMPSN:82 OHM,5%,0.25W
RES.,FXD,CMPSN:130 OHM,5%,0.25W
RES NTWK,THK FI:(9)510 OHM,20%,0.125W
RES NTWK,THK FI:(7)510 OHM,10%,lW
RES.,FXD,CMPSN: 100 OHM,5%,0.25W

01121
01121
01121
91637
01121
01121

208A511
C88205
C81315
MSP10AOl-511G
208A511
C81015

A17R154
A17R158
A17R159
A17R165
A17R166
A17R207

315-0331-00
307-0539-00
315-0331-00
315-0820-00
315-0131-00
315-0202-00

RES.,FXD,CMPSN:330 OHM,5%,0.25W
RES NTWK,THK FI:(7)510 OHM,10%,lW
RES.,FXP,CMPSN:330 OHM,5%,0.25W
RES.,FXD,CMPSN:82 OHM,5%,0.25W
RES.,FXD,CMPSN:130 OHM,5%,0.25W
RES.,FXD,CMPSN:2K OHM,5%,0.25W

01121
01121
01121
01121
01121
01121

C83315
208A511
C83315
C88205
C81315
C82025

A17R208
A17R300
A17R301
A17R303
A17R307
A17R308

315-0562-00
307-0738-00
307-0738-00
307-0503-00
315-0820-00
315-0511-00

RES.,FXD,CMPSN:5.6K OHM,5%,0.25W
RES NTWK,FXD,FI:l0,270 OHM,2%,0.19 EACH
RES NTWK,FXD,FI:l0,270 OHM,2%,0.19 EACH
RES NTWK,THK FI:(9)510 OHM,20%,0.125W
RES.,FXD,CMPSN:82 OHM,5%,0.25W
RES.,FXD,CMPSN:510 OHM,5%,0.25W

01121
91637
91637
91637
01121
01121

C85625
CSCll A-1-271 G
CSC11A-1-271G
MSP10AOl-511G
C88205
C85115

A17R311
A17R314
A17R319
A17R335
A17R347
A17R352

315-0131-00
307-0503-00
307-0503-00
307-0811-00
307-0539-00
307-0539-00

RES.,FXD,CMPSN:130 OHM,5%,0.25W
RES NTWK,THK FI:(9)510 OHM,20%,0.125W
RES NTWK,THK FI:(9)510 OHM,20%,0.125W
RES NTWK,FXD,FI:
RES NTWK,THK FI:(7)510 OHM,10%,lW
RES NTWK,THK FI:(7)510 OHM,10%,lW

01121
91637
91637
01121
01121
01121

C81315
MSP10AOl-511G
MSP10AOl-511G
316Tll0
208A511
208A511

A17R369
A17R370
A17R400
A17R401
A17R433
A17R434

307-0503-00
315-0511-00
307-0738-00
307-0738-00
315-0512-00
315-0512-00

RES NTWK,THK FI:(9)510 OHM,20%,0.125W
RES.,FXD,CMPSN:510 OHM,5%,0.25W
RES NTWK,FXD,FI:10,270 OHM,2%,0.19 EACH
RES NTWK,FXD,FI:l0,270 OHM,2%,0.19 EACH
RES.,FXD,CMPSN:5.1 K OHM,5%,0.25W
RES.,FXD,CMPSN:5.1 K OHM,5%,0.25W

91637
01121
91637
91637
01121
01121

MSP10AOl-511G
C85115
CSC11 A-1-271 G
CSCll A-1-271 G
C85125
C85125

REV MAR 1984

Serial/Model No.
Eft
Dscont

8010119
8010119

Name & Description

10-67

Replaceable Electrical Parts
CAS 9100 Series Service Vol.lI

Mfr
Code

Mfr Part Number

RES NTWK,FXD,FI:
RES NTWK,THK FI:5,510 OHM,10%,0.125W
RES.,FXD,CMPSN:130 OHM,5%,0.25W
RES.,FXD,CMPSN:82 OHM,5%,0.25W
RES NTWK,FXD,FI:10,270 OHM,2%,0.19 EACH
RES NTWK,THK FI:(9)510 OHM,20%,0.125W

01121
57924
01121
01121
91637
91637

316T110
4306R-101-511J
CB1315
CB8205
CSC11 A-1-271 G
MSP10A01-511G

315-0202-00
315-0562-00
307-0503-00
315-0820-00
315-0131-00
315-0101-00

RES.,FXD,CMPSN:2K OHM,5%,0.25W
RES.,FXD,CMPSN:5.6K OHM,5%,0.25W
RES NTWK,THK FI:(9)510 OHM,20%,0.125W
RES.,FXD,CMPSN:82 OHM,5%,0.25W
RES.,FXD,CMPSN:130 OHM,5%,0.25W
RES.,FXD,CMPSN:100 OHM,5%,0.25W

01121
01121
91637
01121
01121
01121

CB2025
CB5625
MSP10A01-511 G
CB8205
CB1315
CB1015

A17R535
A17R544
A17R548
A17R553
A17R600
A17R601

307-0811-00
315-0101-00
307-0811-00
307-0526-00
307-0738-00
307-0738-00

RES NTWK,FXD,FI:
RES.,FXD,CMPSN:100 OHM,5%,0.25W
RES NTWK,FXD,FI:
RES NTWK,THK FI:5,510 OHM,10%,0.125W
RES NTWK,FXD,FI:10,270 OHM,2%,0.19 EACH
RES NTWK,FXD,FI:10,270 OHM,2%,0.19 EACH

01121
01121
01121
57924
91637
91637

316T110
CB1015
316T110
4306R-101-511J
CSC11 A-1-271 G
CSC11 A-1-271 G

A17R603
A17R607
A17R608
A17R633
A17R635
A17R642

307-0503-00
315-0562-00
315-0202-00
307-0675-00
307-0445-00
315-0512-00

RES NTWK,THK FI:(9)510 OHM,20%,0.125W
RES.,FXD,CMPSN:5.6K OHM,5%,0.25W
RES.,FXD,CMPSN:2K OHM,5%,0.25W
RES NTWK,FXD FI:9,1K OHM,2%,1.25W
RES NTWK,FXD,FI:4.7K OHM,20%,(9) RES
RES.,FXD,CMPSN:5.1 K OHM,5%,0.25W

91637
01121
01121
01121
91637
01121

MSP10A01-511G
CB5625
CB2025
210A102
MSP10A01-472M
CB5125

A17R649
A17R717
A17TP100
A17TP108
A17TP138
A17TP142

315-0101-00
307-0503-00
214-0579-00
214-0579-00
214-0579-00
214-0579-00

RES.,FXD,CMPSN:100 OHM,5%,0.25W
RES NTWK,THK FI:(9)510 OHM,20%,0.125W
TERM,TEST POINT:BRS CD PL
TERM,TEST POINT:BRS CD PL
TERM,TEST POINT:BRS CD PL
TERM,TEST POINT:BRS CD PL

01121
91637
80009
80009
80009
80009

CB1015
MSP10A01-511G
214-0579-00
214-0579-00
214-0579-00
214-0579-00

A17TP150
A17TP349
A17TP353
A17TP400
A17TP463
A17TP535

214-0579-00
214-0579-00
214-0579-00
214-0579-00
214-0579-00
214-0579-00

TERM,TEST
TERM,TEST
TERM,TEST
TERM,TEST
TERM,TEST
TERM,TEST

80009
80009
80009
80009
80009
80009

214-0579-00
214-0579-00
214-0579-00
214-0579-00
214-0579-00
214-0579-00

A17TP550
A17TP600
A17TP605
A17U101
A17U105
A17U108

214-0579-00
214-0579-00
214-0579-00
156-0631-02
156-0631-02
156-0411-02

TERM,TEST POINT:BRS CD PL
TERM,TEST POINT:BRS CD PL
TERM,TEST POINT:BRS CD PL
MICROCIRCUIT,DI:QUAD 2 INPUT OR/NOR GATE
MICROCIRCUIT,DI:QUAD 2 INPUT OR/NOR GATE
MICROCIRCUIT,LI:QUAD COMPARATOR,SEL

80009
80009
80009
04713
04713
04713

214-0579-00
214-0579-00
214-0579-00
MC10101(PD OR LD
MC10101(PD OR LD
LM339JDS

A17U111
A17U115
A17U125
A17U131
A17U135
A17U141

156-0411 -02
156-0633-01
156-1297-00
156-1297-00
156-1297-00
156-0230-02

MICROCIRCUIT,LI:QUAD GOMPARATOR,SEL
MICROCIRCUIT,DI:HEX D MASTER SLAVE FF
MICROCIRCUIT,DI:256 X 4 STATIC RAM
MICROCIRCUIT,DI:256 X 4 STATIC RAM
MICROCIRCUIT,DI:256 X 4 STATIC RAM
MICROCIRCUIT,DI:DUAL D-TYPE M/S,FF,SCRN

04713
04713
OOOIG
OOOIG
OOOIG
04713

LM339JDS
MC10176LD
MB7072E
MB7072E
MB7072E
MC10131 LD

A17U145
A17U148
A17U151
A17U155
A17U158
A17U161

156-0458-01
156-0458-01
156-0230-02
156-0230-02
156-0182-00
156-0230-02

MICROCIRCUIT,DI:QUAD AND GATE 2 INP,SCRN
MICROCIRCUIT,DI:QUAD AND GATE 2 INP,SCRN
MICROCIRCUIT,DI:DUAL D-TYPE M/S,FF,SCRN
MICROCIRCUIT,DI:DUAL D-TYPE M/S,FF,SCRN
MICROCIRCUIT,DI:TRIPLE 2-3-2 INPUT GATE
MICROCIRGUIT,DI:DUAL D-TYPE M/S,FF,SCRN

04713
04713
04713
04713
04713
04713

MC1 01 04PD/LD
MC1 01 04PD/LD
MC10131 LD
MC10131LD
MC10105P/L
MG10131LD

Component No.

Tektronix
Part No.

A17R435
A17R453
A17R460
A17R461
A17R500
A17R503

307-0811-00
307-0526-00
315-0131-00
315-0820-00
307-0738-00
307-0503-00

A17R507
A17R508
A17R514
A17R518
A17R519
A17R534

10-68

Serial/Model No.
Eff
Dscont

Name & Description

POINT:BRS
POINT:BRS
POINT:BRS
POINT:BRS
POINT:BRS
POINT:BRS

CD
CD
CD
CD
CD
CD

PL
PL
PL
PL
PL
PL

REV MAR 1984

Replaceable Electrical Parts
DAS 9100 Series Service Vol.1I

Mfr
Code

Mfr Part Number

MICROCIRCUIT,DI:QUAD 2 INPUT OR/NOR GATE
MICROCIRCUIT,DI:QUAD 2 INPUT OR/NOR GATE
MICROCIRCUIT,LI:QUAD COMPARATOR,SEL
MICROCIRCUIT,LI:QUAD COMPARATOR,SEL
MICROCIRCUIT,DI:HEX 0 MASTER SLAVE FF
MICROCIRCUIT,DI:HEX D MASTER SLAVE FF

04713
04713
04713
04713
04713
04713

MC10l0l(PD OR LD
MC10l0l(PD OR LD
LM339JDS
LM339JDS
MC10176LD
MC10176LD

156-1297-00
156-1297-00
156-0759-02
156-0230-02
156-0458-01
156-0230-02

MICROCIRCUIT,DI:256 X 4 STATIC RAM
MICROCIRCUIT,DI:256 X 4 STATIC RAM
MICROCIRCUIT,DI:QUAD 2-INP OR GATE,SCRN
MICROCIRCUIT,DI:DUAL D-TYPE M/S,FF,SCRN
MICROCIRCUIT,DI:QUAD AND GATE 2 INP,SCRN
MICROCIRCUIT,DI:DUAL D-TYPE M/S,FF,SCRN

OOOIG
OOOlG
04713
04713
04713
04713

MB7072E
MB7072E
MCl 01 03PD/LD
MC10131LD
MCl 01 04PD/LD
MC10131LD

A17U351
A17U355
A17U358
A17U361
A17U365
A17U368

156-0230-02
156-0641-01
156-0761-01
156-0761-01
156-0761-01
156-0761-01

MICROCIRCUIT,DI:DUAL D-TYPE M/S,FF,SCRN
MICROCIRCUIT,DI:UNIV HEX CNTR,SCRN
MICROCIRCUIT,DI:1024 Xl RAM,CHECKED
MICROCIRCUIT,DI:1024 X 1 RAM,CHECKED
MICROCIRCUIT,DI:1024 Xl RAM,CHECKED
MICROCIRCUIT,DI:1024 Xl RAM,CHECKED

04713
04713
04713
04713
04713
04713

MC10131LD
MC10136PD/LD
MCM10146L
MCM10146L
MCM10146L
MCM10146L

A17U401
A17U405
A17U408
A17U415
A17U425
A17U431

156-0631-01
156-0631-02
156-0631-02
156-0633-01
156-1297-00
156-1297-00

MICROCIRCUIT,DI:QUAD 2-INP OR/NOR GATE
MICROCIRCUIT,DI:QUAD 2 INPUT OR/NOR GATE
MICROCIRCUIT,DI:QUAD 2 INPUT OR/NOR GATE
MICROCIRCUIT,DI:HEX D MASTER SLAVE FF
MICROCIRCUIT,DI:256 X 4 STATIC RAM
MICROCIRCUIT,DI:256 X 4 STATIC RAM

04713
04713
04713
04713
OOOlG
OOOIG

MC10l01L
MCl 01 01 (PO OR LD
MC10l0l(PD OR LD
MC10176LD
MB7072E
MB7072E

A17U438
A17U441
A17U445
A17U44B
A17U451
A17U455

156-0411-02
156-0469-02
156-0469-02
156-0469-02
156-0295-02
156-0641-01

MICROCIRCUIT,LI:QUAD COMPARATOR,SEL
MICROCIRCUIT,DI:3/8 LINE DCDR
MICROCIRCUIT,DI:3/B LINE DCDR
MICROCIRCUIT,DI:3/8 LINE DCDR
MICROCIRCUIT,DI:TRIPLE 2-INP EXCL OR NOR
MICROCIRCUIT,DI:UNIV HEX CNTR,SCRN

04713
01295
01295
01295
04713
04713

LM339JDS
SN74LS138NP3
SN74LS138NP3
SN74LS138NP3
MCl 01 07PD/LD
MC10136PD/LD

A17U45B
A17U501
A17U505
A17U508
A17U511
A17U515

156-0641-01
156-0631-02
156-0631-02
156-0411-02
156-0411-02
156-0633-01

MICROCIRCUIT,DI:UNIV HEX CNTR,SCRN
MICROCIRCUIT,DI:QUAD 2 INPUT OR/NOR GATE
MICROCIRCUIT,DI:QUAD 2 INPUT OR/NOR GATE
MICROCIRCUIT,LI:QUAD COMPARATOR,SEL
MICROCIRCUIT,LI:QUAD COMPARATOR,SEL
MICROCIRCUIT,DI:HEX D MASTER SLAVE FF

04713
04713
04713
04713
04713
04713

MC10136PD/LD
MC10l01(PD OR LD
MC10l0l(PD OR LD
LM339JDS
LM339JDS
MC10176LD

A17U525
A17U531
A17U541
A17U551
A17U601
A17U605

156-1297-00
156-1297-00
156-0383-02
156-0295-02
156-0631-02
156-0631-02

MICROCIRCUIT,DI:256 X 4 STATIC RAM
MICROCIRCUIT,DI:256 X 4 STATIC RAM
MICROCIRCUIT,DI:QUAD 2-INP NOR GATE
MICROCIRCUIT,DI:TRIPLE 2-INP EXCL OR NOR
MICROCIRCUIT,DI:QUAD 2 INPUT OR/NOR GATE
MICROCIRCUIT,DI:QUAD 2 INPUT OR/NOR GATE

OOOIG
OOOIG
01295
04713
04713
04713

MB7072E
MB7072E
SN74LS02
MCl 01 07PD/LD
MC10l0l(PD OR LD
MC10l0l(PD OR LD

A17U608
A17U611
A17U615
A17U61B
A17U621
A17U62B

156-0411-02
156-0411-02
156-0633-01
156-0631-02
156-0631-02
156-0631-02

MICROCIRCUIT,LI:QUAD COMPARATOR,SEL
MICROCIRCUIT,LI:QUAD COMPARATOR,SEL
MICROCIRCUIT,DI:HEX 0 MASTER SLAVE FF
MICROCIRCUIT,DI:QUAD 2 INPUT OR/NOR GATE
MICROCIRCUIT,DI:QUAD 2 INPUT OR/NOR GATE
MICROCIRCUIT,DI:QUAD 2 INPUT OR/NOR GATE

04713
04713
04713
04713
04713
04713

LM339JDS
LM339JDS
MC10176LD
MC10l0l(PD OR LD
MC10l0l(PD OR LD
MC10l0l(PD OR LD

A17U635
A17U638
A17U641
A17U645
A17U64B

156-0956-02
156-0956-02
156-0956-02
156-0956-02
156-0956-02

MICROCIRCUIT,DI:OCTAL
MICROCIRCUIT,DI:OCTAL
MICROCIRCUIT,DI:OCTAL
MICROCIRCUIT,DI:OCTAL
MICROCIRCUIT,DI:OCTAL

01295
01295
01295
01295
01295

SN74LS244NP3
SN74LS244NP3
SN74LS244NP3
SN74LS244NP3
SN74LS244NP3

Component No.

Tektronix
Part No.

A17U301
A17U305
A17U308
A17U311
A17U315
A17U318

156-0631-02
156-0631-02
156-0411-02
156-0411-02
156-0633-01
156-0633-01

A17U325
A17U331
A17U338
A17U341
A17U345
A17U348

REV MAR 1984

Serial/Model No.
Eft
Dscont

Name & Description

BFR
BFR
BFR
BFR
BFR

W/3
W/3
W/3
W/3
W/3

STATE
STATE
STATE
STATE
STATE

OUT
OUT
OUT
OUT
OUT

10-69

Replaceable Electrical Parts
CAS 9100 Series Service Vo!.11

Mfr
Code

Mfr Part Number

TAPE DRIVE OPTION 01

80009

119-1311-00

670-6752-00
283-0421-00
290-0755-00

CKT BOARD ASSY:DATA
CAP.,FXD,CER DI:0.1UF,+80-20%,50V
CAP.,FXD,ELCTLT: 1OOUF, +50-1 0%,1 OV

80009
04222
55680

670-6752-00
DG015El04Z
ULA1A01TEA

A18A1C507
A 18A 1C511
A18A1C512
A18A1C531
A18A1C561
A18A1C611

285-1049-00
283-0421-00
283-0421-00
283-0421-00
290-0804-00
283-0698-00

CAP.,FXD,PLSTC:O.Ol UF,l %,200V
CAP.,FXD,CER DI:O.l UF, +80-20%,50V
CAP.,FXD,CER DI:O.l UF, +80-20%,50V
CAP.,FXD,CER DI:0.1 UF,+80-20%,50V
CAP .. FXD,ELCTLT:l OUF, +50-1 0%,25V
CAP.,FXD,MICA D:390PF,l %,500V

14752
04222
04222
04222
55680
09023

230B1Cl03F
DG015El04Z
DG015El04Z
DG015El04Z
ULA 1 E1 OOTEA
CD15FD391 F03

A18A1C613
A18A1C625
A18A1C711
A18A1C830
A18A1C831
A18A1C835

285-1049-00
283-0421-00
283-0421-00
281-0770-00
283-0421-00
283-0421-00

CAP.,FXD,PLSTC:0.01 UF,l %,200V
CAP.,FXD,CER DI:O.l UF,+80-20%,50V
CAP.,FXD,CER DI:O.l UF,+80-20%,50V
CAP.,FXD,CER DI:O.OOl UF,20%,100V
CAP.,FXD,CER DI:O.l UF,+80-20%,50V
CAP.,FXD,CER DI:O.l UF,+80-20%,50V

14752
04222
04222
04222
04222
04222

230B1Cl03F
DG015El04Z
DG015El04Z
MA 101 Cl 02MAA
DG015El04Z
DG015El04Z

A18A1C875
A18A1C876
A18A1CR421
A18A1CR631
A18A1J400
A18A1J400

290-0804-00
290-0804-00
152-0141-02
156-1450-00
131-0589-00

CAP.,FXD,ELCTLT: 1OUF, +50-1 0%,25V
CAP.,FXD,ELCTLT: 1OUF, +50-1 0%,25V
SEMICOND DEVICE:SILlCON,30V,150MA
MICROCIRCUIT,LI:DIODE ARRAY
TERMINAL,PIN:0.46 LX 0.025 SQ
(QUANTITY OF 10)

55680
55680
01295
02735
22526

ULA1E100TEA
ULA1E100TEA
lN4152R
CA3141E
48283-029

A18A1J415
A18A1J415
A18A1J420
A18A1J420
A18A1J440
A18A1J440

131-0589-00

TERMINAL,PIN:0.46 LX 0.025 SQ
(QUANTITY OF 3)
TERMINAL,PIN:0.46 L X 0.025 SQ
(QUANTITY OF 8)
TERMINAL,PIN:0.46 L X 0.025 SQ
(QUANTITY OF 5)

22526

48283-029

22526

48283-029

22526

48283-029

A18A1J450
A18A1J450
A18A1J470
A18A1J470
A18A1J505
A18A1J505

131-0589-00

TERMINAL,PIN:0.46 L X 0.025 SQ
(QUANTITY OF 10)
TERMINAL,PIN:0.46 L X 0.025 SQ
(QUANTITY OF 10)
TERMINAL,PIN:0.365 L X 0.025 PH BRZ GOLD
(QUANTITY OF 3)

22526

48283-029

22526

48283-029

22526

47357

Component No.

Tektronix
Part No.

A18

119-1311-00

A18Al
A18A1C477
A18A1C478

131-0589-00
131-0589-00

131-0589-00
131-0608-00

Serial/Model No.
Dscont
Eff

Name & Description

A18A1Q665
A18A1Q666
A18A1Q765
A18A1R461
A18A1R462
A18A1R505

151-0190-00
151-0188-00
151-0190-00
315-0220-00
315-0103-00
315-0100-00

TRANSISTOR:SILlCON,NPN
TRANSISTOR:SILlCON,PNP
TRANSISTOR:SILlCON,NPN
RES.,FXD,CMPSN:22 OHM,5%,O.25W
RES.,FXD,CMPSN:10K OHM,5%,O.25W
RES.,FXD,CMPSN:l0 OHM,5%,O.25W

07263
04713
07263
01121
01121
01121

S032677
SPS6868K
S032677
CB2205
CB1035
CB1005

A18A1R509
A18Al R607
A18A1R612
A18A1R615
A18A1R621
A18A1R622

315-0332-00
321-0346-00
321-0381-00
31 5-01 03-00
321-0393-00
321-0393-00

RES.,FXD,CMPSN:3.3K OHM,5%,O.25W
RES.,FXD,FILM:39.2K OHM,l%,O.125W
RES.,FXD,FILM:90.9K OHM,l%,O.125W
RES.,FXD,CMPSN:l0K OHM,5%,O.25W
RES.,FXD,FILM: 121 K OHM,l %,0.125W
RES.;FXD,FILM:121 K OHM,l %,O.125W

01121
91637
91637
01121
91637
91637

CB3325
MFF1816G39201 F
MFF1816G90901 F
CB1035
MFF1816G12102F
MFF1816G12102F

A18A1R623
A18A1R624
A18A1R625
A18A1R626
A18A1R627
A18A1R628

321-0393-00
321-0393-00
321-0289-00
321-0216-00
321-0289-00
321-0216-00

RES.,FXD,FILM:121K OHM,l%,O.125W
RES.,FXD,FILM:121K OHM,l%,0.125W
RES.,FXD,FILM:l0K OHM,l%,0.125W
RES.,FXD,FILM:l.74K OHM,l %,0.125W
RES.,FXD,FILM:l0K OHM,l%,0.125W
RES.,FXD,FILM:l.74K OHM,l%,O.125W

91637
91637
91637
91637
91637
91637

MFF1816G12102F
MFF1816G12102F
MFF1816Gl 0001 F
MFF1816G17400F
MFF1816Gl 0001 F
MFF1816G17400F

10-70

REV MAR 1984

Replaceable Electrical Parts
DAS 9100 Series Service VoUI

Name & Description

Mfr
Code

Mfr Part Number

315-0220-00
315-0332-00
315-0272-00
315-0103-00
315-0103-00
315-0622-00

RES.,FXD,CMPSN:22 OHM,5%,0.25W
RES.,FXD,CMPSN:3.3K OHM,5%,0.25W
RES.,FXD,CMPSN:2.7K OHM,5%,0.25W
RES.,FXD,CMPSN: 1OK OHM,5%,0.25W
RES.,FXD,CMPSN:10K OHM,5%,0.25W
RES.,FXD,CMPSN:6.2K OHM,5%,0.25W

01121
01121
01121
01121
01121
01121

CB2205
CB3325
CB2725
CB1035
CB1035
CB6225

A18A1R714
A18A1R715
A18A1R716
A18A1R725
A18A1R726
A18A1R727

315-0154-00
321-0272-00
321-0272-00
321-0289-00
321-0216-00
321-0289-00

RES.,FXD,CMPSN:150K OHM,5%,0.25W
RES.,FXD,FILM:6.65K OHM,1%,0.125W
RES.,FXD,FILM:6.65K OHM,1%,0.125W
RES.,FXD,FILM:10K OHM,1%,0.125W
RES.,FXD,FILM:1.74K OHM,1%,0.125W
RES.,FXD,FILM:10K OHM,1%,0.125W

01121
91637
91637
91637
91637
91637

CB1545
MFF1816G66500F
MFF1816G66500F
MFF1816G1 0001 F
MFF1816G17400F
MFF1816G10001F

A18A1R728
A18A1R729
A18A1R730
A18A1R731
A18A1R732
A18A1R766

321-0216-00
321-0289-00
321-0274-00
315-0103-00
31 5-0333-00
315-0472-00

RES.,FXD,FILM:1.74K OHM,1%,0.125W
RES.,FXD,FILM:10K OHM,1%,0.125W
RES.,FXD,FILM:6.98K OHM,1 %,0.125W
RES.,FXD,CMPSN:10K OHM,5%,0.25W
RES.,FXD,CMPSN:33K OHM,5%,0.25W
RES.,FXD,CMPSN:4.7K OHM,5%,0.25W

91637
91637
91637
01121
01121
01121

MFF1816G17400F
MFF1816G10001F
MFF1816G69800F
CB1035
CB3335
CB4725

A18A1R776
A18A1R811
A18A1R812
A18A1R813
A18A1R821
A18A1R822

315-0102-00
321-0460-00
321-0354-00
321-0460-00
321-0320-00
321-02B9-00

RES.,FXD,CMPSN:1 K OHM,5%,0.25W
RES.,FXD,FILM:604K OHM,1%,0.125W
RES.,FXD,FILM:47.5K OHM,1%,0.125W
RES.,FXD,FILM:604K OHM,1%,0.125W
RES.,FXD,FILM:21K OHM,1%,0.125W
RES.,FXD,FILM:10K OHM,1%,0.125W

01121
91637
91637
91637
91637
91637

CB1025
MFF1816G60402F
MFF1816G47501 F
MFF1816G60402F
MFF1816G21 001 F
MFF1 B16G1 0001 F

A18A1R823
A18A1R824
A18A1R826
A18A1RB27
A18A1R828
A18A1R831

321-0391-00
315-0821-00
315-0300-00
315-0512-00
315-0103-00
311-1235-00

RES.,FXD,FILM:115K OHM,1%,0.125K
RES.,FXD,CMPSN:B20 OHM,5%,0.25W
RES.,FXD,CMPSN:30 OHM,5%,0.25W
RES.,FXD,CMPSN:5.1 K OHM,5%,0.25W
RES.,FXD,CMPSN: 1OK OHM,5%,0.25W
RES.,VAR,NONWIR:100K OHM,20%,0.50W

91637
01121
01121
01121
01121
32997

MFF1816G11502F
CB8215
CB3005
CB5125
CB1035
3386F-T04-104

A18A1R833
A18A1RB34
A18A1R835
A18A1R875
A18AHP1
A18AHP2

315-0472-00
315-0152-00
307-0706-00
315-0H)3-00
131-060B-00
131-060B-00

RES.,FXD,CMPSN:4.7K OHM,5%,0.25W
RES.,FXD,CMPSN:1.5K OHM,5%,0.25W
RES NTWK,FXD,FI:4,10K OHM,2%,0.2W
RES.,FXD,CMPSN:10K OHM,5%,0.25W
TERMINAL,PIN:0.365 L X 0.025 PH BRZ GOLD
TERMINAL,PIN:0.365 L X 0.025 PH BRZ GOLD

01121
01121
01121
01121
22526
22526

CB4725
CB1525
208B103
CB1035
47357
47357

A18AHP3
A18AHP4
A18AHP5
A1BAHP6
A18AHP7
A1BAHP8

131-060B-00
131-0608-00
131-0608-00
131-0608-00
131-060B-00
131-0608-00

TERMINAL,PIN:0.365
TERMINAL,PIN:0.365
TERMINAL,PIN:0.365
TERMINAL,PIN:0.365
TERMINAL,PIN:0.365
TERMINAL,PIN:0.365

22526
22526
22526
22526
22526
22526

47357
47357
47357
47357
47357
47357

A1BAHP9
A1BAHP10
A18A1U611
A18A1 U615
A1BA1U641
A18A1U651

131-0608-00
131-0608-00
156-1284-00
156-0644-03
156-0956-02
156-1111-02

TERMINAL,PIN:0.365 LX 0.025 PH BRZ GOLD
TERMINAL,PIN:0.365 L X 0.025 PH BRZ GOLD
MICROCIRCUIT,LI:DUAL OPER AMPLJCOMP
MICROCIRCUIT,DI:QUAD BILATERAL SW,BURN-IN
MICROCIRCUIT,DI:OCTAL BFR W/3 STATE OUT
MICROCIRCUIT,DI:OCTAL BUS TRANSCEIVERS

22526
22526
04713
80009
01295
01295

47357
47357
MC3405P
156-0644-03
SN74LS244NP3
SN74LS245JP3

A18A1U661
A1BA1 U721
A18A1U805
A18A1 U815
A18A1U841
A18A1U851

155-0247-00
156-0495-00
156-0143-02
156-03B5-02
156-0479-02
156-0153-02

MICROCIRCUIT,DI:TAPE CONTROLLER
MICROCIRCUIT,LI:OPNL AMPL
MICROCIRCUIT,DI:RETRIG ONE SHOT,W/CLEAR
MICROCIRCUIT,DI:HEX INVERTER
MICROCIRCUIT,DI:QUAD 2-INP OR GATE
MICROCIRCUIT,DI:HEX INVERTER BUFFER

80009
27014
80009
01295
01295
27014

155-0247-00
LM324N
156-0143-02
SN74LS04
SN74LS32NP3
DM8006

Component No.

Tektronix
Part No.

A18A1R675
A18A1R705
A18A1R706
A18A1 R707
A18A1R712
A18A1R713

A18A1W570

REV MAR 1984

Serial/Model No.
Eff
Dscont

LX
LX
LX
LX
LX
LX

0.025
0.025
0.025
0.025
0.025
0.025

PH
PH
PH
PH
PH
PH

BRZ
BRZ
BRZ
BRZ
BRZ
BRZ

GOLD
GOLD
GOLD
GOLD
GOLD
GOLD

(PART OF A18A1)

10-71

Replaceable Electrical Parts
CAS 9100 Series Service Vol.lI

Mfr
Code

Mfr Part Number

CKT BOARD ASSY:SERVO
CAP.,FXD,CER DI:0.1 UF,+ 80-20%,50V
CAP.,FXD,CER DI:0.1UF,+80-20%,50V
CAP.,FXD,CER DI:0.1 UF,+80-20%,50V
CAP.,FXD,ELCTLT: 1OOUF, +50-1 0%,1 OV
CAP.,FXD,CER DI:0.1UF,+80-20%,50V

80009
04222
04222
04222
55680
04222

670-6753-00
DG015E104Z
DG015E104Z
DG015E104Z
ULA1AOHEA
DG015E104Z

283-0421-00
283-0421-00
283-0672-00
290-0725-00
290-0939-00
283-0421-00

CAP.,FXD,CER DI:0.1 UF,+80-20%,50V
CAP.,FXD,CER DI:0.1 UF,+80-20%,50V
CAP.,FXD,MICA D:200PF,1%,500V
CAP.,FXD,ELCTLT: 1OOUF, + 75-1 0%,50V
CAP.,FXD,ELCTLT:1 OUF,+ 100-10%,1 OOV
CAP.,FXD,CER DI:0.1 UF,+80-20%,50V

04222
04222
00853
56289
56289
04222

DG015E104Z
DG015E104Z
D155F2010FO
30D107G050DH9
672D1 06H 100CG2C
DG015E104Z

A18A2C328
A18A2C331
A18A2C342
A18A2C344
A18A2C358
A18A2CR140

283-0421-00
283-0672-00
283-0421-00
283-0421-00
283-0421-00
152-0400-00

CAP.,FXD,CER DI:0.1 UF, +80-20%,50V
CAP.,FXD,MICA D:200PF,1%,500V
CAP.,FXD,CER DI:0.1 UF, +80-20%,50V
CAP.,FXD,CER DI:0.1 UF,+80-20%,50V
CAP.,FXD,CER DI:0.1 UF,+80-20%,50V
SEMICOND DEVICE:SILlCON,400V,1A

04222
00853
04222
04222
04222
80009

DG015E104Z
D155F2010FO
DG015E104Z
DG015E104Z
DG015E104Z
152-0400-00

A18A2CR228
A18A2CR241
A18A2J131
A18A2J131
A18A2J132
A18A2J132

152-0141-02
152-0141-02
131-0608-00

SEMICOND DEVICE:SILlCON,30V,150MA
SEMICOND DEVICE:SILlCON,30V,150MA
TERMINAL,PIN:0.365 LX 0.025 PH BRZ GOLD
(QUANTITY OF 10)
TERMINAL,PIN:0.365 LX 0.025 PH BRZ GOLD
(QUANTITY OF 3)

01295
01295
22526

1N4152R
1N4152R
47357

22526

47357

A18A2J311
A 18A2J311
A18A2J351
A18A2J351
A18A2J367
A18A2J367

131-0608-00

TERMINAL,PIN:0.365 LX 0.025 PH BRZ GOLD
(QUANTITY OF 9)
TERMINAL,PIN:0.365 LX 0.025 PH BRZ GOLD
(QUANTITY OF 5)
TERMINAL,PIN:0.365 LX 0.025 PH BRZ GOLD
(QUANTITY OF 2)

22526

47357

22526

47357

22526

47357

A18A2L150
A18A2L347
A18A2Q161
A18A2Q165
A18A2Q260
A18A2Q265

108-1053-00
108-0422-00
151-0190-00
151-0657-00
151-0657-00
151-0657-00

COIL,RF:FIXED,1 MH
COIL,RF:FIXED,82UH
TRANSISTOR:SILlCON,NPN
TRANSISTOR:SILlCON,PNP
TRANSISTOR:SILlCON,PNP
TRANSISTOR:SILlCON,PNP

80009
80009
07263
04713
04713
04713

108-1053-00
108-0422-00
S032677
SJE1973
SJE1973
SJE1973

A18A2Q352
A18A2Q354
A18A2Q360
A18A2Q365
A18A2R111
A18A2R135

151-0190-00
151-0190-00
151-0656-00
151-0656-00
307-0445-00
301-0272-00

TRANSISTOR:SILlCON,NPN
TRANSISTOR:SILlCON,NPN
TRANSISTOR:SILlCON,NPN
TRANSISTOR:SILlCON,NPN
RES NTWK,FXD,FI:4.7K OHM,20%,(9) RES
RES.,FXD,CMPSN:2.7K OHM,5%,0.50W

07263
07263
04713
04713
91637
01121

S032677
S032677
SJE1972
SJE1972
MSP10A01-472M
EB2725

A18A2R220
A18A2R225
A18A2R240
A18A2R244
A18A2R246
A18A2R250

315-0102-00
315-01 03-00
315-0472-00
315-0821 -00
315-0472-00
315-0102-00

RES.,FXD,CMPSN:1 K OHM,5%,0.25W
RES.,FXD,CMPSN:10K OHM,5%,0.25W
RES.,FXD,CMPSN:4.7K OHM,5%,0.25W
RES.,FXD,CMPSN:820 OHM,5%,0.25W
RES.,FXD,CMPSN:4.7K OHM,5%,0.25W
RES.;FXD,CMPSN:1 K OHM,5%,0.25W

01121
01121
01121
01121
01121
01121

CB1025
CB1035
CB4725
CB8215
CB4725
CB1025

A18A2R320
A18A2R325
A18A2R334
A18A2R335
A18A2R340
A18A2R346

315-0103-00
307-0706-00
321-0147-00
321-0147-00
315-0243-00
315-0243-00

RES.,FXD,CMPSN:10K OHM,5%,0.25W
RES NTWK,FXD,FI:4,10K OHM,2%,0.2W
RES.,FXD,FILM:3320HM,1%,0.125W
RES.,FXD,FILM:3320HM,1%,0.125W
RES.,FXD,CMPSN:24K OHM,5%,0.25W
RES.,FXD,CMPSN:24K OHM,5%,0.25W

01121
01121
91637
91637
01121
01121

CB1035
208B103
MFF1816G332ROF
MFF1816G332ROF
CB2435
CB2435

Component No.

Tektronix
Part No.

A18A2
A18A2C101
A18A2C116
A18A2C128
A18A2C130
A18A2C201

670-6753-00
283-0421-00
283-0421-00
283-0421-00
290-0755-00
283-0421-00

A18A2C205
A18A2C225
A18A2C231
A18A2C235
A18A2C255
A18A2C301

10-72

131-0608-00

131-0608-00
131-0608-00

Serial/Model No.
Eft
Dscont

Name & Description

REV MAR 1984

Replaceable Electrical Parts
DAS 9100 Series Service Vol.Il

Component No.

Tektronix
Part No.

A18A2R348
A18A2R350
A18A2R355
A18A2R357
A18A2U105
A18A2U115

315-0242-00
315-0242-00
315-0102-00
315-0102-00
156-0956-02
156-0679-01

A18A2U201
A18A2U211
A18A2U221
A18A2U301
A18A2U321
A18A2U325

156-0679-01
160-0796-00
156-0388-03
156-1172-01
156-0058-02
156-1225-01

A18A2W301
A18A2W310
A18A2Y333
A18A2Y333

REV MAR 1984

158-0224-00

Serial/Model No.
Eff
Dscont

Mfr
Code

Mfr Part Number

RES.,FXD,CMPSN:2.4K OHM,5%,0.25W
RES.,FXD,CMPSN:2.4K OHM,5%,0.25W
RES.,FXD,CMPSN:1 K OHM,5%,0.25W
RES.,FXD,CMPSN:1 K OHM,5%,0.25W
MICROCIRCUIT,DI:OCTAL BFR W/3 STATE OUT
MICROCIRCUIT,DI:4 BIT BINARY ADDER, BURN-IN

01121
01121
01121
01121
01295
04713

CB2425
CB2425
CB1025
CB1025
SN74LS244NP3
SN74LS283NDS

MICROCIRCUIT,DI:4 BIT BINARY ADDER, BURN-IN
MICROCIRCUIT,DI:MICROCOMPUTER
MICROCIRCUIT,DI:DUAL 0 FLIP-FLOP
MICROCIRCUIT,DI:DUAL 4 BIT CNTR
MICROCIRCUIT,DI:HEX INVRTR,SCREENED
MICROCIRCUIT,LI:DUAL COMPARATOR,SCREENED

04713
34576
07263
01295
01295
27014

SN74LS283NDS
R6500/1A
74LS74A
SN74LS393
SN7404
LM393N/AT

34630

OBD

Name & Description

(NOT A REPLACEABLE PART OF A 18A2)
(NOT A REPLACEABLE PART OF A 18A2)
XTAL UNIT,QTZ:4.0MHZ,O.1%
(XTAL UNIT REQUIRES FOAM ADHESIVE)

10-13'

Replaceable Electrical Parts
DAS 9100 Series Service Vo!.11

Mfr
Code

Mfr Part Number

TAPE TRANSPORT:
HEAD,RCDG,MAG T:W/CHASSIS
MOTOR,DC:7600 RPM,12V W/CONNECTOR
SEMICOND DEVICE:LED,GAAS,1.5MW
CONTACT,ELEC:COPPER-BERYLLlUM,PLATED
CONTACT,ELEC:COPPER-BERYLLlUM,PLATED

80009
11983
80009
80009
80009
80009

650-0254-00
DCA21 P007N-35C16
147-0054-02
152-0621-00
131-2541-01
131-2541-01

80009
22526

670-6755-00
48283-029

315-0161-00

CKT BOARD ASSY:SENSOR
TERMINAL,PIN:0.46 LX 0.025 SQ
(QUANTITY OF 3)
RES.,FXD,CMPSN:160 OHM,5%,0.25W

01121

CB1615

A18A3A1U11

156-1440-00

MICROCIRCUIT,SW:OPTICAL INTERRUPTER

09019

H22A5

A18A3A2
A18A3A2
A18A3A2C1

670-6754-00
670-6754-01
283-0421-00

CKT BOARD ASSY:CARTRIDGE STATUS
CKT BOARD ASSY:CRTRIDGE STATUS
CAP.,FXD,CER DI:0.1UF,+80-20%,50V

80009
80009
04222

670-6754-00
670-6754-01
DG015E104Z

A18A3A2C3
A18A3A2C11
A18A3A2C30
A18A3A2J1
A18A3A2J1
A18A3A2J2

283-0421-00
283-0421-00
283-0421-00
131-0608-00

04222
04222
04222
22526

DG015E104Z
DG015E104Z
DG015E104Z
47357

131 -0608-00

CAP .,FXD,CER DI:0.1 UF, + 80-20%,50V
CAP.,FXD,CER DI:0.1 UF, +80-20%,50V
CAP.,FXD,CER DI:0.1 UF, +80-20%,50V
TERMINAL,PIN:0.365 LX 0.025 PH BRZ GOLD
(QUANTITY OF 3)
TERMINAL,PIN:0.365 LX 0.025 PH BRZ GOLD

22526

47357

A18A3A2J2
A18A3A2Q1
A18A3A2R4
A18A3A2R5
A18A3A2R6
A18A3A2R8

151-0628-00
315-0161-00
315-0101-00
315-0106-00
315-0333-00

(QUANTITY OF 8)
TRANSISTOR:SILlCON,NPN
RES.,FXD,CMPSN:160 OHM,5%,0.25W
RES.,FXD,CMPSN:100 OHM,5%,0.25W
RES.,FXD,CMPSN:10M OHM,5%,0.25W
RES.,FXD,CMPSN:33K OHM,5%,0.25W

80009
01121
01121
01121
01121

151-0628-00
CB1615
CB1015
CB1065
CB3335

A18A3A2R9
A18A3A2R10
A18A3A2R13
A18A3A2R14
A18A3A2R16
A18A3A2R18

315-0123-00
315-0202-00
315-0512-00
315-0332-00
315-0822-00
315-0332-00

RES.,FXD,CMPSN:12K OHM,5%,0.25W
RES.,FXD,CMPSN:2K OHM,5%,0.25W
RES.,FXD,CMPSN:5.1 K OHM,5%,0.25W
RES.,FXD,CMPSN:3.3K OHM,5%,0.25W
RES.,FXD,CMPSN:8.2K OHM,5%,0.25W
RES.,FXD,CMPSN:3.3K OHM,5%,0.25W

01121
01121
01121
01121
01121
01121

CB1235
CB2025
CB5125
CB3325
CB8225
CB3325

A18A3A2R19
A18A3A2R20
A18A3A2R22
A18A3A2R24
A18A3A2R26
A18A3A2R28

315-0473-00
315-0103-00
315-0162-00
315-0103-00
315-0222-00
315-01 03-00

RES.,FXD,CMPSN:47K OHM,5%,0.25W
RES.,FXD,CMPSN:10K OHM,5%,0.25W
RES.,FXD,CMPSN:1.6K OHM,5%,0.25W
RES.,FXD,CMPSN:10K OHM,5%,0.25W
RES.,FXD,CMPSN:2.2K OHM,5%,0.25W
RES.,FXD,CMPSN:10K OHM,5%,0.25W

01121
01121
01121
01121
01121
01121

CB4735
CB1035
CB1625
CB1035
CB2225
CB1035

A18A3A2TP1
A18A3A2TP9
A18A3A2TP29

131-0608-00
131-0608-00
131-0608-00

TERMINAL,PIN:0.365 L X 0.025 PH BRZ GOLD
TERMINAL,PIN:0.365 LX 0.025 PH BRZ GOLD
TERMINAL,PIN:0.365 L X 0.025 PH BRZ GOLD

22526
22526
22526

47357
47357
47357

Component No.

Tektronix
Part No.

A18A3
A18A3A1050
A18A3B1050
A18A3DS2
A18A3S1
A18A3S2

650-0254-00
119-1410-00
147-0054-02
152-0621-00
131-2541-01
131-2541-01

A18A3A1
A18A3A1J11
A18A3A1J11
A18A3A1R11

670-6755-00
131-0589-00

10-74

Serial/Model No.
Eff
Dscont

B010100
B010558

B010557

Name & Description

REV MAR 1984

Replaceable Electrical Parts
DAS 9100 Series Service Vol.1I

Mfr
Code

Mfr Part Number

CKT BOARD ASSY:1/0 OPTION
CKT BOARD ASSY:I/O OPTION
CAP.,FXD,CER DI:0.1UF,20%,50V
CAP.,FXD,CER DI:0.1UF,20%,50V
CAP.,FXD,CER DI:0.1UF,20%,50V
CAP.,FXD,CER DI:0.1UF,20%,SOV

80009
80009
04222
04222
04222
04222

670-6750-00
670-6750-01
MA205E104MAA
MA205E104MAA
MA205E104MAA
MA205E104MAA

281-0775-00
283-0680-00
283-0680-00
283-0680-00
283-0680-00
283-0680-00

CAP.,FXD,CER DI:0.1UF,20%,50V
CAP.,FXD,MICA D:330PF,1%,500V
CAP.,FXD,MICA D:330PF,1%,500V
CAP.,FXD,MICA D:330PF,1%,500V
CAP.,FXD,MICA D:330PF,1 %,500V
CAP.,FXD,MICA D:330PF,1%,500V

04222
00853
00853
00853
00853
00853

MA205E104MAA
D155F331FO
D155F331FO
D155F331 FO
D155F331FO
D155F331FO

A19A1C155
A19A1C156
A19A1C231
A19A1C237
A19A1C255
A19A1C324

283-0177-00
283-0177-00
281-0775-00
281-0775-00
281-0775-00
281-0775-00

CAP.,FXD,CER
CAP.,FXD,CER
CAP.,FXD,CER
CAP.,FXD,CER
CAP.,FXD,CER
CAP.,FXD,CER

DI:1 UF, +80-20%,25V
DI:1UF,+80-20%,25V
DI:0.1UF,20%,50V
DI:0.1UF,20%,50V
DI:0.1UF,20%,50V
DI:0.1UF,20%,50V

56289
56289
04222
04222
04222
04222

2C20Z5U105Z025B
2C20Z5U105Z025B
MA205E104MAA
MA205E104MAA
MA20SE104MAA
MA205E104MAA

A19A1C325
A19A1C328
A19A1C351
A19A1C433
A19A1C447
A19A1C542

281-0775-00
283-0177-00
281-0775-00
281-0775-00
281-0775-00
281-0775-00

CAP.,FXD,CER
CAP.,FXD,CER
CAP.,FXD,CER
CAP.,FXD,CER
CAP .,FXD,CER
CAP.,FXD,CER

DI:0.1UF,20%,50V
DI:1 UF,+80-20%,25V
DI:0.1 UF,20%,50V
DI:0.1UF,20%,50V
DI:0.1 UF,20%,50V
DI:0.1UF,20%,50V

04222
56289
04222
04222
04222
04222

MA205E104MAA
2C20Z5U105Z025B
MA205E104MAA
MA205E104MAA
MA205E104MAA
MA205E104MAA

A19A1C555
A19A1J121
A19A1J121
A19A1J121
A19A1J121
A19A1J440

281-0775-00
131-1425-00

CAP.,FXD,CER DI:0.1 UF,20%,50V
TERM SET,PIN:(36) 0.025 SQ RTANG,0.15L
(QUANTITY OF 1)
TERM SET,PIN:(36) 0.025 SQ RTANG,0.25L
(QUANTITY OF 1)
BUS,CONDUCTOR:2 WIRE BLACK

04222
22526

MA205E104MAA
65521-136

22526

65524-136

00779

850100-01

Component No.

Tektronix
Part No.

Serial/Model No.
Eft
Dscont

A19A1
A19A1
A19A1C122
A19A1C128
A19A1C141
A19A1C145

670-6750-00
670-6750-01
281-0775-00
281-0775-00
281-0775-00
281-077S-00

B010100
B020000

A19A1C147
A19A1C150
A19A1C151
A19A1C152
A19A1C153
A19A1C154

131-1426-00
131-0993-00

B020000

B019999

Name & Description

A19A1J440
A19A1Q139
A19A1R122
A19A1R125
A19A1R126
A19A1R129

151-0221-00
315-0102-00
315-0101-00
315-0102-00
307-0675-00

(QUANTITY OF 2)
TRANSISTOR:SILlCON,PNP
RES.,FXD,CMPSN:1K OHM,5%,0.25W
RES.,FXD,CMPSN:100 OHM,5%,O.25W
RES.,FXD,CMPSN:1 K OHM,5%,0.25W
RES NTWK,FXD FI:9,1K OHM,2%,1.25W

04713
01121
01121
01121
01121

SPS246
CB1025
CB1015
CB1025
210A102

A19A1R137
A19A1R139
A19A1R140
A19A1R141
A19A1R142
A19A1R143

315-0102-00
321-0143-00
321-0193-00
321-0117-00
321-0117-00
321-0201-00

RES.,FXD,CMPSN:1 K OHM,5%,0.25W
RES.,FXD,FILM:301 OHM,1 %,0.125W
RES.,FXD,FILM:1 K OHM,1 %,O.125W
RES.,FXD,FILM:1620HM,1%,O.125W
RES.,FXD,FILM:1620HM,1%,0.125W
RES.,FXD,FILM:1.21K OHM,1%,O.125W

01121
91637
91637
91637
91637
91637

CB1025
MFF1816G301ROF
MFF1816G10000F
MFF1816G162ROF
MFF1816G162ROF
MFF1816G12100F

A19A1R146
A19A1R147
A19A1R151
A19A1R157
A19A1R221
A19A1R222

315-0102-00
315-0102-00
317-0103-00
323-0150-00
315-0241-00
315-0241-00

RES.,FXD,CMPSN:1K OHM,5%,O.25W
RES.,FXD,CMPSN:1 K OHM,5%,O.25W
RES.,FXD,CMPSN:10K OHM,5%,O.125W
RES.,FXD,FILM:357 OHM,1 %,O.50W
RES.,FXD,CMPSN:240 OHM,5%,0.25W
RES.,FXD,CMPSN:240 OHM,5%,O.25W

01121
01121
01121
91637
01121
01121

CB102S
CB1025
BB1035
MFF1226G357ROF
CB2415
CB2415

A19A1R223
A19A1R224
A19A1R325
A19A1R548
A19A1R554

315-0241-00
315-0241-00
307-0103-00
315-0101-00
315-0101-00

RES.,FXD,CMPSN:240 OHM,5%,O.25W
RES.,FXD,CMPSN:240 OHM,5%,O.25W
RES.,FXD,CMPSN:2.70HM,5%,O.25W
RES.,FXD,CMPSN:100 OHM,5%,O.25W
RES.,FXD,CMPSN:100 OHM,5%,O.25W

01121
01121
01121
01121
01121

CB2415
CB2415
CB27G5
CB1015
CB1015

A19A1R557

307-0445-00

RES NTWK,FXD,FI:4.7K OHM,20%,(9) RES

91637

MSP10A01-472M

REV MAR 1984

10·75

Replaceable Electrical Parts
CAS 9100 Series Service VoLlI

Component No.

Tektronix
Part No.

A19AHP122
A19AHP339
A19A1U127
A 19A 1U131
A19A1U135
A19A1U145

214-0579-00
214-0579-00
156-1133-01
156-1133-01
156-0956-02
156-0730-02

A 19A1U151
A19A1U155
A19Al U227
A19A1U231
A19A1U235
A19A1U242

Mfr
Code

Mfr Part Number

TERM,TEST POINT:BRS CD PL
TERM,TEST POINT:BRS CD PL
MICROCKT,INTFC:QUAD 3-STATE XCVR,CHK
MICROCKT,INTFC:QUAD 3-STATE XCVR,CHK
MICROCIRCUIT,DI:OCTAL BFR W/3 STATE OUT
MICROCIRCUIT,DI:QUAD 2-INP NOR BFR,BURN-IN

80009
80009
80009
80009
01295
01295

214-0579-00
214-0579-00
156-1133-01
156-1133-01
SN74LS244NP3
SN74LS33

156-0878-01
156-0879-01
156-1133-01
156-1133-01
156-0955-02
156-1444-01

MICROCIRCUIT,DI:QUAD LINE RCVR,SCRN
MICROCIRCUIT,DI:QUAD LINE DRIVER,SCRN
MICROCKT,INTFC:QUAD 3-STATE XCVR,CHK
MICROCKT,INTFC:QUAD 3-STATE XCVR,CHK
MICROCIRCUIT,DI:OCTAL BFR W/3 STATE OUT
MICROCIRCUIT,DI:NMOS,GPIB ADAPTER

80009
80009
80009
80009
04713
01295

156-0878-01
156-0879-01
156-1133-01
156-1133-01
SN74LS241
TMS9914NL

A19Al U246
A19A1U251
A19Al U328
A19A1U331
A19A1U335
A19A1U346

156-1111-02
156-0877-04
156-0479-02
156-0391-02
156-0541-02
156-0541-02

MICROCIRCUIT,DI:OCTAL BUS TRANSCEIVERS
MICROCIRCUIT,DI:USART
MICROCIRCUIT,DI:QUAD 2-INP OR GATE
MICROCIRCUIT,DI:HEX LATCH W/CLEAR
MICROCIRCUIT,DI:DUAL 2 TO 4 LINE DCDR
MICROCIRCUIT,DI:DUAL 2 TO 4 LINE DCDR

01295
34335
01295
01295
01295
01295

SN74LS245JP3
AM8251A
SN74LS32NP3
SN74LS174
SN74LS139NP3
SN74LS139NP3

A19A1U347
A19A1U351
A19Al U431
A19A1U440
A19A1U451
A19A1U455

156-0481-02
156-0382-02
156-0382-02
160-1842-00
160-0830-00
160-1077-00

MICROCIRCUIT,DI:TRIPLE 3 INP & GATE
MICROCIRCUIT,DI:QUAD 2-INP NAND GATE
MICROCIRCUIT,DI:QUAD 2-INP NAND GATE
MICROCIRCUIT,DI:2048 X 8 EPROM,PRGM
MICROCIRCUIT,DI:8192 X 8 MROM,PRGM
MICROCIRCUIT,DI:8192 X 8 MROM,PRGM

27014
01295
01295
80009
80009
80009

DM74LSllNA+
SN74LSOO
SN74LSOO
160-1842-00
160-0830-00
160-1077-00

A19A1U545
A19A1U551

156-0956-02
156-0956-02

MICROCIRCUIT,DI:OCTAL BFR W/3 STATE OUT
MICROCIRCUIT,DI:OCTAL BFR W/3 STATE OUT

01295
01295

SN74LS244NP3
SN74LS244NP3

10-76

Serial/Model No.
Eff
Dscont

B020000

Name & Description

REV MAR 1984

Replaceable Electrical Parts
DAS 9100 Series Service Vol.lI

Tektronix
Part No.

Serial/Model No.
Eff
Dscont

A19A2
A19A2
A19A2
A19A2
A19A2
A19A2

670-6751-00

B010100

670-7391-00

B020000

A19A2C301
A19A2C301
A19A2C322
A19A2C322
A19A2DS201
A19A2DS202

281-0775-00

Component No.

670-7391-00

B019999

Name & Description
CKT BOARD ASSY:I/O CONNECTOR
(DAS9109 OPTION 02)
CKT BOARD ASSY:I/O CONNECTOR
(DAS9109 OPTION 02)
CKT BOARD ASSY:I/O CONNECTOR
(DAS9129 OPTION 02)

Mfr
Code

Mfr Part Number

80009

670-6751-00

80009

670-7391-00

80009

670-7391-00

04222

MA205E104MAA

04222

MA205E104MAA

150-1061-00
150-1061-00

CAP.,FXD,CER 01:0.1 UF,20%,50V
(LOCATED ON BACK OF CKT BOARD)
CAP.,FXD,CER DI:0.1UF,20%,50V
(LOCATED ON BACK OF CKT BOARD)
LT EMITTING DIO:RED,660NM,50MA MAX
LT EMITTING DIO:RED,660NM,50MA MAX

50434
50434

HLMP-1301
HLMP-1301

A19A2DS203
A19A2DS204
A19A2J130
A19A2S120
A19A2W121

150-1061-00
150-1061-00
131-1097-00
260-1721-00
175-3643-00

LT EMITTING DIO:RED,660NM,50MA MAX
LT EMITTING DIO:RED,660NM,50MA MAX
CONNECTOR,RCPT,:BNC,FEMALE,CKT BOARD MT
SWITCH,ROCKER:8,SPST,125MA,30VDC
CA ASSY,SP,ELEC:40,28 AWG,14.5 L

50434
50434
24931
00779
OOOEO

HLMP-1301
HLMP-1301
28JR220-2
435166-5
OBD

A25A1
A25A1
A25A1C315

670-7190-00

80009

670-7190-00

283-0208-00

CKT BOARD ASSY:CAPACITOR BRACKET
(DAS9109 ONLY)
CAP.,FXD,CER DI:0.22UF,10%,200V

72982

8151N230 C 224K

A25A1C1031
A25A1C3010
A25A1DS320
A25A1F120
A25A1F209
A25A1J200

290-0813-00
290-0813-00
150-0035-00
159-0014-00
159-0014-00
131-1849-00

CAP.,FXD,ELCTLT:2000UF,-1 0+ 75%,200V
CAP.,FXD,ELCTLT:2000UF,-1 0+ 75%,200V
LAMP,GLOW:90V,0.3MA,AID-T,WIRE LD
FUSE,CARTRIDGE:3AG,5A,250V,FAST-BLOW
FUSE,CARTRIDGE:3AG,5A,250V,FAST-BLOW
TERM,QIK DISC:0.187 X 0.25 TAB,90 DEG

56289
56289
OOOLI
71400
71400
13150

36DX9463
36DX9463
JH005/3011 JA
MTH5
MTH5
1215

A25A1R115
A25A1R308
A25A1R322

308-0313-00
308-0313-00
315-0475-00

RES.,FXD,WW:20K OHM,1%,3W
RES.,FXD,WW:20K OHM,1%,3W
RES.,FXD,CMPSN:4.7M OHM,5%,O.25W

91637
91637
01121

RS2B-B20001 F
RS2B-B20001 F
CB4755

REV MAR 1984

281-0775-00

10-77

Replaceable Electrical Parts
DAS 9100 Series Service Vo!.11

Tektronix
Part No.

Serial/Model No.
Eft
Dscont

Mfr
Code

Mfr Part Number

A30A1
A30A1
A30A1
A30A1
A30A1
A30A1

670-7295-00

8010100

B010149

80009

670-7295-00

670-7295-01

8010150

B020489

80009

670-7295-01

670-7295-02

8020490

80009

670-7295-01

A30A1C115
A30A1C135
A30A1C137
A30A1C142
A30A1C211
A30A1C238

283-0114-00
290-0745-00
285-0894-00
290-0745-00
283-0003-00
285-0809-00

CAP.,FXD,CER DI:0.0015UF,5%,200V
CAP.,FXD,ELCTLT:22UF, +50-10%,25V
CAP.,FXD,PLSTC:5UF,5%,50V
CAP.,FXD,ELCTLT:22UF,+50-10%,25V
CAP.,FXD,CER DI:O.01 UF, +80-20%,150V
CAP.,FXD,PLSTC:1 UF,10%,50V

59660
54473
56289
54473
59821
56289

805534Y5D0152J
ECE-A25V22L
LP66A 1A505J002
ECE-A25V22L
2DDH66J103Z
LP66A1A105K

A30A1C319
A30A1C340
A30A1C344
A30A1C412
A30A1C424
A30A1C523

290-0767-00
285-1031-00
283-0263-00
290-0962-00
290-0942-00
290-0770-00

CAP ..FXD,ELCTLT:4.7UF, + 75-10%,160V
CAP.,FXD,PLSTC:0.56UF,10%,50V
CAP.,FXD,CER DI:0.0022UF,20%,3000V
CAP.,FXD,ELCTLT:27UF, + 100-1 0%,150VDC
CAP.,FXD.ELCTLT: 1OOUF, + 100-1 0%,25V
CAP.,FXD,ELCTLT: 1OOUF, + 50-1 0%,25V

56289
84411
59660
56289
56289
56289

5020228
TEK116-56492
828556Y5R0222M
672D276H150GE2C
672D107H025CG2C
502D230

A30A1C530
A30A1C534
A30A1C549
A30A1C605
A30A1C614
A30A1CR112

285-1161-00
285-1161-00
283-0199-00
290-0770-00
283-0027-00
152-0333-00

CAP. ,FXD,PLSTC:0.0027U F,5%,1600V
CAP .,FXD,PLSTC:0.0027UF,5%,1600V
CAP.,FXD,CER DI:25PF,10%,4000V
CAP.,FXD,ELCTLT: 1OOUF, + 50-1 0%,25V
CAP.,FXD,CER DI:0.02UF,20%,50V
SEMICOND DEVICE:SILlCON,55V,200MA

56289
56289
60705
56289
56289
07263

715P272516LA3
715P272516LA3
564CAA402EJ250KA
502D230
1C20X5R203M050B
FDH-6012

A30A1CR113
A30A1CR210
A30A1CR211
A30A1CR212
A30A1CR214
A30A1CR215

152-0333-00
152-0141-02
152-0141-02
152-0141-02
152-0333-00
152-0333-00

SEMICOND
SEMICOND
SEMICOND
SEMICOND
SEMICOND
SEMICOND

DEVICE:SILlCON,55V,200MA
DEVICE:SILlCON,30V,150MA
DEVICE:SILlCON,30V,150MA
DEVICE:SILlCON,30V,150MA
DEVICE:SILlCON,55V,200MA
DEVICE:SILlCON,55V,200MA

07263
01295
01295
01295
07263
07263

FDH-6012
1N4152R
1N4152R
1N4152R
FDH-6012
FDH-6012

A30A1CR216
A30A1CR217
A30A1CR218
A30A1CR219
A30A1CR320
A30A1CR322

152-0333-00
152-0333-00
152-0333-00
152-0333-00
152-0333-00
152-0333-00

SEMICOND
SEMICOND
SEMICOND
SEMICOND
SEMICOND
SEMICOND

DEVICE:SILlCON,55V,200MA
DEVICE:SILlCON,55V,200MA
DEVICE:SILlCON,55V,200MA
DEVICE:SILlCON,55V,200MA
DEVICE:SILlCON,55V,200MA
DEVICE:SILlCON,55V,200MA

07263
07263
07263
07263
07263
07263

FDH-6012
FDH-6012
FDH-6012
FDH-6012
FDH-6012
FDH-6012

A30A1CR334
A30A1CR338
A30A1CR339
A30A1CR435
A30A1CR436
A30A1CR437

152-0752-00
152-0674-00
152-0674-00
152-0674-00
152-0674-00
152-0674-00

SEMICOND
SEMICOND
SEMICOND
SEMICOND
SEMICOND
SEMICOND

DEVICE:RECT,SI,1A,1600V,MED REC
DEVICE:SILlCON,800V,1.0A
DEVICE:SILlCON,800V,1.0A
DEVICE:SILlCON,800V,1.0A
DEVICE:SILlCON,800V,1.0A
DEVICE:SILlCON,800V,1.0A

04713
14936
14936
14936
14936
14936

MR1-1600
RGP10K-009
RGP10K-009
RGP10K-009
RGP10K-009
RGP10K-009

A30A1CR438
A30A1CR511
A30A1CR512
A30A1CR513
A30A1CR522
A30A1CR611

152-0674-00
152-0141-02
152-0141-02
152-0581-00
152-0141-02
152-0333-00

SEMICOND
SEMICOND
SEMICOND
SEMICOND
SEMICOND
SEMICOND

DEVICE:SILlCON,800V,1.0A
DEVICE:SILlCON,30V,150MA
DEVICE:SILlCON,30V,150MA
DEVICE:SILlCON,20V,1 A
DEVICE:SILlCON,30V,150MA
DEVICE:SILlCON,55V,200MA

14936
01295
01295
04713
01295
07263

RGP10K-009
1N4152R
1N4152R
1N5817
1N4152R
FDH-6012

A30A1CR612
A30A1J100
A30A1J600
A30A1J615
A30A1J615
A30A1J635

152-0333-00
131-2788-00
131-2265-00
131-0608-00

SEMICOND DEVICE:SILlCON,55V,200MA
CONN,RCPT,ELEC:HEADER,1 X 5,0156 CTR
TERM,FEEDTHRU:10 PIN,INSULATED
TERMINAL,PIN:0.365 LX 0.025 PH BRZ GOLD
(QUANTITY OF 4)
CONN,RCPT,ELEC:HEADER,1 X 6 MALE,8MM

07263
27264
80009
22526

FDH-6012
09-70-1051
131-2265-00
47357

51984

73793006

Component No.

10-78

131-2750-00

B010100

B010149

Name & Description
CKT BOARD ASSY:DEFLECTION
(DAS9129 ONLY)
CKT BOARD ASSY:DEFLECTION
(DAS9129 ONLY)
CKT BOARD ASSY:DEFLECTION
(DAS9129 ONLY)

REV MAR 1984

Replaceable Electrical Parts
DAS 9100 Series Service Vol.!1

Component No.
A30A1J645
A30A1J645
A30A1J650
A30A1J650
A30A1 L255
A30A10132

Tektronix
Part No.

Serial/Model No.
Eft
Dscont

Mfr
Code

Mfr Part Number

22526

47357

22526

47357

114-0412-00
151-0188-00

TERMINAL,PIN:0.365 L X 0.025 PH BRZ GOLD
(QUANTITY OF 3)
TERMINAL,PIN:0.365 LX 0.025 PH BRZ GOLD
(QUANTITY OF 7)
COIL,RF:VARIABLE,O.15MH TO 1.1 MH
TRANSISTOR:SILlCON,PNP

80009
04713

114-0412-00
SPS6868K

A30A10134
A30A10232
A30A10235
A30A10330
A30A10443
A30A10507

151-0188-00
151-0190-00
151-0625-00
151-0426-00
151-0449-00
151-0331-00

TRANSISTOR:SILlCON,PNP
TRANSISTOR:SILlCON,NPN
TRANSISTOR:SILlCON,PNP
TRANSISTOR:SILlCON,NPN
TRANSISTOR:SILlCON,NPN
TRANSISTOR:SILlCON,NPN

04713
07263
03508
03508
25403
03508

SPS6868K
S032677
D45H11
X44H242
BU208A
X40Cl15

A30A10517
A30A10639
A30A1 R114
A30A1 R115
A30A1R120
A30A1 R122

151-0302-00
151-0625-00
315-0471-00
315-0562-00
315-0471-00
315-0163-00

TRANSISTOR:SILlCON,NPN
TRANSISTOR:SILlCON,PNP
RES.,FXD,CMPSN:470 OHM,5%,O.25W
RES.,FXD,CMPSN:5.6K OHM,5%,O.25W
RES.,FXD,CMPSN:470 OHM,5%,O.25W
RES.,FXD,CMPSN:16K OHM,5%,O.25W

07263
03508
01121
01121
01121
01121

S038487
D45H11
CB4715
CB5625
CB4715
CB1635

A30A1R123
A30A1R124
A30A1R125
A30A1R146
A30A1R147
A30A1R147

315-0562-00
315-0682-00
315-0103-00
315-0103-00
315-0471-00
131-0566-00

RES.,FXD,CMPSN:5.6K OHM,5%,O.25W
RES.,FXD,CMPSN:6.8K OHM,5%,O.25W
RES.,FXD,CMPSN:10K OHM,5%,O.25W
RES.,FXD,CMPSN:10K OHM,5%,O.25W
RES.,FXD,CMPSN:470 OHM,5%,O.25W
BUS CONDUCTOR:DUMMY RES,2.375,22 AWG

01121
01121
01121
01121
01121
57668

CB5625
CB6825
CB1035
CB1035
CB4715
JWW-0200EO

A30A1R148
A30A1R149
A30A1R170
A30A1R175
A30A1R175
A30A1R210

315-0101-00
315-0183-00
311-1245-00
311-1198-00
315-0201-00
315-0103-00

RES.,FXD,CMPSN:100 OHM,5%,O.25W
RES.,FXD,CMPSN:18K OHM,5%,O.25W
RES.,VAR,NONWIR:10K OHM,10%,O.50W
RES.,VAR,NONWIR:20K OHM,20%,O.5W
RES.,FXD,CMPSN:200 OHM,5%,O.25W
RES.,FXD,CMPSN:10K OHM,5%,O.25W

01121
01121
73138
73138
01121
01121

CB1015
CB1835
72-28-0
72-29-0
CB2015
CB1035

A30A1 R211
A30A1R213
A30A1 R214
A30A1 R215
A30A1R219
A30A1R220

315-0222-00
315-0203-00
315-0304-00
315-0822-00
315-0331-00
315-0271-00

RES.,FXD,CMPSN:2.2K OHM,5%,O.25W
RES.,FXD,CMPSN:20K OHM,5%,O.25W
RES.,FXD,CMPSN:300K OHM,5%,O.25W
RES.,FXD,CMPSN:8.2K OHM,5%,O.25W
RES.,FXD,CMPSN:330 OHM,5%,O.25W
RES.,FXD,CMPSN:270 OHM,5%,O.25W

01121
01121
01121
01121
01121
01121

CB2225
CB2035
CB3045
CB8225
CB3315
CB2715

A30A1R222
A30A1R223
A30A1R224
A30A1R225
A30A1R227
A30A1R228

315-0121-00
315-0152-00
315-0152-00
315-0680-00
31 5-0221-00
315-0151-00

RES.,FXD,CMPSN:120 OHM,5%,O.25W
RES.,FXD,CMPSN:1.5K OHM,5%,O.25W
RES.,FXD,CMPSN:1.5K OHM,5%,O.25W
RES.,FXD,CMPSN:68 OHM,5%,O.25W
RES.,FXD,CMPSN:220 OHM,5%,O.25W
RES.,FXD,CMPSN:150 OHM,5%,O.25W

01121
01121
01121
01121
01121
01121

CB1215
CB1525
CB1525
CB6805
CB2215
CB1515

A30A1R229
A30A1R270
A30A1R310
A30A1R345
A30A1R422
A30A1R510

315-0752-00
311-1646-00
308-0441-00
31 5-0225-00
305-0120-00
31 5-01 03-00

RES.,FXD,CMPSN:7.5K OHM,5%,O.25W
RES.,VAR,NONWIR:TRMR,2M OHM,O.5W
RES.,FXD,WW:30HM,5%,3W
RES.,FXD,CMPSN:2.2M OHM,5%,O.25W
RES.,FXD,CMPSN:120HM,5%,2W
RES.,FXD,CMPSN:10K OHM,5%,O.25W

01121
01121
91637
01121
01121
01121

CB7525
E4A205
CW2B-3ROOJ
CB2255
HB1205
CB1035

A30A1R511
A30A1R520
A30A1R521
A30A1R610
A30A1R640
A30A1R649

315-0684-00
315-0512-00
315-0101-00
301-0431-00
308-0838-00
301-0221-00

RES.,FXD,CMPSN:680K OHM,5%,O.25W
RES.,FXD,CMPSN:5.1 K OHM,5%,O.25W
RES.,FXD,CMPSN:100 OHM,5%,O.25W
RES.,FXD,CMPSN:430 OHM,5%,O.50W
RES.,FXD,WW:12.0 OHM,l%,5.0W
RES.,FXD,CMPSN:220 OHM,5%,O.50W

01121
01121
01121
01121
05347
01121

CB6845
CB5125
CB1015
EB4315
CS6-12ROF
EB2215

REV MAR 1984

131-0608-00

Name & Description

131-0608-00

B010100
B010150

B010100
B010150

B010149

B010149

10-79

Replaceable Electrical Parts
DAS 9100 Series Service Vol.1I

Mfr Part Number

51406
80009
80009
80009
80009
80009

FBT MSH-S477
214-0579-00
214-0579-00
214-0579-00
214-0579-00
214-0579-00

TERM,TEST POINT:BRS CD PL
TERM,TEST POINT:BRS CD PL
TERM,TEST POINT:BRS CD PL
MICROCIRCUIT,LI:DUAL OPNL AMPL
MICROCIRCUIT,DI:DUAL 2-INP NAND DRVR,SCRN
SEMICOND DEVICE:ZENER,0.4W,B.2V,5%

80009
80009
BOO09
01295
01295
04713

214-0579-00
214-0579-00
214-0579-00
MC155BP
SN75452(PP3 OR J
SZG20

SEMICOND DEVICE:ZENER,1W,10V,5%
SEMICOND DEVICE:ZENER,0.4W,6.8V,5%

04713
04713

SZ1619
SZG35014K3RL

Tektronix
Part No.

A30AH460
A30AHP175
A30AHP259
A30AHP262
A30AHP265
A30AHP26B

120-1425-00
214-0579-00
214-0579-00
214-0579-00
214-0579-00
214-0579-00

XFMR,PWR,STU:FLYBACK
TERM,TEST POINT:BRS CD
TERM,TEST POINT:BRS CD
TERM,TEST POINT:BRS CD
TERM,TEST POINT:BRS CD
TERM,TEST POINT:BRS CD

A30AHP270
A30AHP272
A30AHP275
A30A1 U116
A30A1U50B
A30A1VR320

214-0579-00
214-0579-00
214-0579-00
156-1607-00
156-0302-02
152-0217-00

A30A1VR510
A30A1VR641

152-0120-00
152-0647-00

10-80

Serial/Model No.
Eff
Dscont

Mfr
Code

Component No.

B010150

Name & Description

PL
PL
PL
PL
PL

REV MAR 1984

Replaceable Electrical Parts
DAS 9100 Series Service Vo!.11

Component No.

Tektronix
Part No.

Serial/Model No.
Elf
Dscont

Name & Description

Mlr
Code

Mfr Part Number

80009

670-7292-00

290-0767-00
290-0962-00
290-0919-00
290-0919-00

CKT BOARD ASSY:COLOR "Z" AXIS
(DAS9129 ONLY)
CAP.,FXD,ELCTLT:4.7UF,+ 75-10%, 160V
CAP.,FXD,ELCTLT:27UF,+ 1 00-1 0%,150VDC
CAP.,FXD,ELCTLT:470UF, +50-1 0%,35V
CAP"FXD,ELCTLT:470UF, +50-1 0%,35V

56289
56289
T0510
T0510

5020228
672D276H150GE2C
ECEA1BB471SC
ECEA 1 BB471 SC

A30A2C221
A30A2C300
A30A2C321
A30A2C324
A30A2C330
A30A2C400

290-0745-00
290-0804-00
283-0000-00
283-0000-00
281-0619-00
290-0800-00

CAP.,FXD,ELCTLT:22UF, +50-1 0%,25V
CAP.,FXD,ELCTLT:1 OUF, +50-10%,25V
CAP.,FXD,CER 01:0.001 UF, + 100-0%,500V
CAP.,FXD,CER DI:0.001UF,+ 100-0%,500V
CAP.,FXD,CER DI:1.2PF,+/-0.1 PF,200V
CAP.,FXD,ELCTLT:250UF,+ 100-1 0%,20V

54473
55680
59660
59660
59660
56289

ECE-A25V22L
ULA1E100TEA
831610Y5U0102P
831610Y5U0102P
374018 COK0129B
672D257H0200M5C

A30A2C403
A30A2C430
A30A2C440
A30A2C508
A30A2C510
A30A2C513

283-0268-00
281-0619-00
281-0619-00
285-0894-00
290-0745-00
281-0775-00

CAP.,FXD,CER DI:0.015UF,10%,50V
CAP.,FXD,CER DI:1.2PF,+/-0.1PF,200V
CAP.,FXD,CER DI:1.2PF,+/-0.1 PF,200V
CAP.,FXD,PLSTC:5UF,5%,50V
CAP.,FXD,ELCTLT:22UF, +50-1 0%,25V
CAP.,FXD,CER DI:0.1UF,20%,50V

56289
59660
59660
56289
54473
04222

1C20X7R153K050B
374 018 COK0129B
374018 COK0129B
LP66A1A505J002
ECE-A25V22L
MA205E104MAA

A30A2C515
A30A2C530
A30A2C535
A30A2C540
A30A2C611
A30A2C618

290-0745-00
281-0773-00
281-0773-00
281-0773-00
283-0268-00
283-0114-00

CAP.,FXD,ELCTLT:22UF, +50-1 0%,25V
CAP.,FXD,CER DI:0.01UF,10%,100V
CAP.,FXD,CER DI:0.01UF,1 0%,1 OOV
CAP.,FXD,CER 01:0.01 UF, 10%,100V
CAP.,FXD,CER DI:0.015UF,1 0%,50V
CAP.,FXD,CER DI:0.0015UF,5%,200V

54473
04222
04222
04222
56289
59660

ECE-A25V22L
MA201 C1 03KAA
MA201 C1 03KAA
MA201C103KAA
1C20X7R153K050B
805534Y5D0152J

A30A2C619
A30A2C630
A30A2C634
A30A2C636
A30A2C650
A30A2CR300

290-0745-00
283-0159-00
283-0159-00
290-0771-00
283-0159-00
152-0141-02

CAP .,FXD,ELCTLT:22UF, +50-1 0%,25V
CAP.,FXD,CER DI:18PF,5%,50V
CAP.,FXD,CER DI:18PF,5%,50V
CAP.,FXD,ELCTLT:220UF, + 50-1 0%,1 OVDC
CAP.,FXD,CER DI:18PF,5%,50V
SEMICOND DEVICE:SILlCON,30V,150MA

54473
51642
51642
56289
51642
01295

ECE-A25V22L
T150-050NP0180J
T150-050NP0180J
5020231
T150-050NP0180J
1N4152R

A30A2CR325
A30A2CR421
A30A2CR423
A30A2CR424
A30A2CR426
A30A2CR427

152-0400-00
152-0400-00
152-0400-00
152-0400-00
152-0400-00
152-0400-00

SEMICOND
SEMICOND
SEMICOND
SEMICOND
SEMICOND
SEMICOND

80009
80009
80009
80009
80009
80009

152-0400-00
152-0400-00
152-0400-00
152-0400-00
152-0400-00
152-0400-00

A30A2CR501
A30A2L100
A30A2L 111
A30A2L121
A30A2L221
A30A2L330

152-0141-02
108-1139-00
108-1113-00
108-1114-00
108-0245-00
108-1120-00

SEMICOND DEVICE:SILlCON,30V,150MA
COIL,RF:FIXED,7MH
COIL,RF:FIXED,1.2MH
COIL,RF:FIXED,600MH
COIL,RF:3.9UH
COIL,RF:FIXED,33UH

01295
80009
80009
80009
76493
80009

1N4152R
108-1139-00
108-1113-00
108-1114-00
B631 0-1
108-1120-00

A30A2L430
A30A2L440
A30A2L655
A30A2P100
A30A2P320
A30A2P600

108-1120-00
108-1120-00
108-0245-00
131-2787-00
131-0608-00
131-2264-00

COIL,RF:FIXED,33UH
COIL,RF:FIXED,33UH
COIL,RF:3.9UH
CONN,RCPT,ELEC:HEADER,RTANGLE
TERMINAL,PIN:0.365 L X 0.025 PH BRZ GOLD
CONN,RCPT,ELEC:CKT BD,10 CONTACT,R ANGLE

80009
80009
76493
27264
22526
80009

108-1120-00
108-1120-00
B631 0-1
09-62-3051
47357
131-2264-00

A30A2Q400
A30A2Q410
A30A2Q420
A30A2Q440
A30A2Q530
A30A2Q540

151-0188-00
151-0426-00
151-0426-00
151-0124-00
151-0124-00
151-0124-00

TRANSISTOR:SILlCON,PNP
TRANSISTOR:SILlCON,NPN
TRANSISTOR:SILlCON,NPN
TRANSISTOR:SILlCON,NPN,SEL FROM 2N3501
TRANSISTOR:SILlCON,NPN,SEL FROM 2N3501
TRANSISTOR:SILlCON,NPN,SEL FROM 2N3501

04713
03508
03508
04713
04713
04713

SPS6868K
X44H242
X44H242
SM8138
SM8138
SM8138

A30A2
A30A2
A30A2C130
A30A2C200
A30A2C210
A30A2C220

670-7292-00

REV MAR 1984

DEVICE:SILlCON,400V,1A
DEVICE:SILlCON,400V,1A
DEVICE:SILlCON,400V,1 A
DEVICE:SILlCON,400V, 1A
DEVICE:SILlCON,400V, 1A
DEVICE:SILlCON,400V,1A

10-81

Replaceable Electrical Parts
DAS 9100 Series Service Vol.II

Component No.

Tektronix
Part No.

A30A2R120
A30A2R121
A30A2R130
A30A2R140
A30A2R150
A30A2R230

301-0183-00
315-0120-00
311-1562-00
311-1562-00
311-1562-00
308-0809-00

A30A2R240
A30A2R250
A30A2R300
A30A2R305
A30A2R321
A30A2R324

Serial/Model No.
Eft
Dscont

Mfr
Code

Mfr Part Number

RES.,FXD,CMPSN: 18K OHM,5%,O.50W
RES.,FXD,CMPSN:120HM,5%,O.25W
RES., VAR,NONWIR:2K OHM,20%,O.50W
RES.,VAR,NONWIR:2K OHM,20%,O.50W
RES.,VAR,NONWIR:2K OHM,20%,O.50W
RES.,FXD,WW:1.5K OHM,2%,10W

01121
01121
73138
73138
73138
91637

EB1835
CB1205
91-84-0
91-84-0
91-84-0
NS10-B15000G

308-0809-00
308-0809-00
315-0134-00
315-0473-00
315-0101-00
315-0101-00

RES.,FXD,WW:1.5K OHM,2%,1 OW
RES.,FXD,WW:1.5K OHM,2%,10W
RES.,FXD,CMPSN:130K OHM,5%,O.25W
RES.,FXD,CMPSN:47K OHM,5%,O.25W
RES.,FXD,CMPSN:100 OHM,5%,O.25W
RES.,FXD,CMPSN:100 OHM,5%,O.25W

91637
91637
01121
01121
01121
01121

NS10-B15000G
NS10-B15000G
CB1345
CB4735
CB1015
CB1015

A30A2R404
A30A2R442
A30A2R443
A30A2R444
A30A2R500
A30A2R501

315-0470-00
315-0821-00
315-0821-00
315-0821-00
315-0125-00
315-0102-00

RES.,FXD,CMPSN:470HM,5%,O.25W
RES.,FXD,CMPSN:820 OHM,5%,O.25W
RES.,FXD,CMPSN:820 OHM,5%,O.25W
RES.,FXD,CMPSN:820 OHM,5%,O.25W
RES.,FXD,CMPSN: 1.2M OHM,5%,O.25W
RES.,FXD,CMPSN:1 K OHM,5%,O.25W

01121
01121
01121
01121
01121
01121

CB4705
CB8215
CB8215
CB8215
CB1255
CB1025

A30A2R510
A30A2R511
A30A2R512
A30A2R513
A30A2R520
A30A2R525

308-0680-00
315-0622-00
315-0102-00
315-0392-00
301-0330-00
301-0330-00

RES.,FXD,WW:0.045 OHM,10%,3W
RES.,FXD,CMPSN:6.2K OHM,5%,O.25W
RES.,FXD,CMPSN:1 K OHM,5%,O.25W
RES.,FXD,CMPSN:3.9K OHM,5%,O.25W
RES.,FXD,CMPSN:330HM,5%,O.50W
RES.,FXD,CMPSN:330HM,5%,O.50W

91637
01121
01121
01121
01121
01121

RS2B-R0450K
CB6225
CB1025
CB3925
EB3305
EB3305

A30A2R600
A30A2R610
A30A2R611
A30A2R614
A30A2R615
A30A2R618

315-0221-00
315-0102-00
315-0300-00
315-0333-00
315-0202-00
315-0102-00

RES.,FXD,CMPSN:220 OHM,5%,O.25W
RES.,FXD,CMPSN:1 K OHM,5%,O.25W
RES.,FXD,CMPSN:30 OHM,5%,O.25W
RES.,FXD,CMPSN:33K OHM,5%,O.25W
RES.,FXD,CMPSN:2K OHM,5%,O.25W
RES.,FXD,CMPSN:1 K OHM,5%,O.25W

01121
01121
01121
01121
01121
01121

CB2215
CB1025
CB3005
CB3335
CB2025
CB1025

A30A2R630
A30A2R631
A30A2R632
A30A2R636
A30A2R640
A30A2R642

301-0331-00
315-0681-00
301-0331-00
315-0681-00
315-0221-00
315-0120-00

RES.,FXD,CMPSN:330 OHM,5%,O.50W
RES.,FXD,CMPSN:680 OHM,5%,O.25W
RES.,FXD,CMPSN:330 OHM,5%,O.50W
RES.,FXD,CMPSN:680 OHM,5%,O.25W
RES.,FXD,CMPSN:220 OHM,5%,O.25W
RES.,FXD,CMPSN:120HM,5%,O.25W

01121
01121
01121
01121
01121
01121

EB3315
CB6815
EB3315
CB6815
CB2215
CB1205

A30A2R645
A30A2R650
A30A2R652
A30A2R653
A30A2T300
A30A2TP100

315-0222-00
315-0221-00
301-0331-00
315-0681-00
120-1422-00
214-0579-00

RES.,FXD,CMPSN:2.2K OHM,5%,O.25W
RES.,FXD,CMPSN:220 OHM,5%,O.25W
RES.,FXD,CMPSN:330 OHM,5%,O.50W
RES.,FXD,CMPSN:680 OHM,5%,O.25W
TRANSFORMER,RF:POWER CONVERTER
TERM, TEST POINT:BRS CD PL

01121
01121
01121
01121
80009
80009

CB2225
CB2215
EB3315
CB6815
120-1422-00
214-0579-00

A30A2TP105
A30A2TP111
A30A2TP114
A30A2TP116
A30A2TP118
A30A2TP120

214-0579-00
214-0579-00
214-0579-00
214-0579-00
214-0579-00
214-0579-00

TERM,TEST
TERM,TEST
TERM,TEST
TERM,TEST
TERM,TEST
TERM,TEST

POINT:BRS
POINT:BRS
POINT:BRS
POINT:BRS
POINT:BRS
POINT:BRS

CD
CD
CD
CD
CD
CD

PL
PL
PL
PL
PL
PL

80009
80009
80009
80009
80009
80009

214-0579-00
214-0579-00
214-0579-00
214-0579-00
214-0579-00
214-0579-00

A30A2TP122
A30A2TP126
A30A2TP130
A30A2TP230
A30A2TP240
A30A2TP250

214-0579-00
214-0579-00
214-0579-00
214-0579-00
214-0579-00
. 214-0579-00

TERM,TEST
TERM,TEST
TERM,TEST
TERM,TEST
TERM,TEST
TERM,TEST

POINT:BRS CD
POINT:BRS CD
POINT:BRS CD
POINT:BRSCD
POINT:BRS CD
POINT:BRS CD

PL
PL
PL
PL
PL
PL

80009
80009
80009
80009
80009
80009

214-0579-00
214-0579-00
214-0579-00
214-0579-00
214-0579-00
214-0579-00

Name & Description

/'

i\,

10-82

REV MAR 1984

Replaceable Electrical Parts
DAS 9100 Series Service VoUI

Component No.

Tektronix
Part No.

A30A2U410
A30A2U510
A30A2U520
A30A2U635
A30A2U645
A30A2VR126

156-0402-00
156-1585-00
156-1275-02
156-0302-02
156-0302-02
152-0120-00

REV MAR 1984

Serial/Model No.
Eff
Dscont

Name & Description
MICROCIRCUIT,LI:TIMER
MICROCIRCUIT,LI:REGULATING PULSE
MICROCIRCUIT,DI:5-BIT SHIFT REGISTERS,SCRN
MICROCIRCUIT,DI:DUAL 2-INP NAND DRVR,SCRN
MICROCIRCUIT,DI:DUAL 2-INP NAND DRVR,SCRN
SEMICOND DEVICE:ZENER,1W,10V,5%

Mfr
Code

Mfr Part Number

27014
34333
01295
01295
01295
04713

LM555CN
SG10083/3526J
SN74LS96
SN75452(PP3 OR J
SN75452(PP3 OR J
SZ1619

10-83

Replaceable Electrical Parts
DAS 9100 Series Service Vol.1I

Component No.

Tektronix
Part No.

A30A3
A30A3
A30A3C303
A30A3C304
A30A3E305
A30A3E306

670-7293-00

Serial/Model No.
Eft
Dscont

Name & Description

Mfr
Code

Mfr Part Number

80009

670-7293-00

283-0002-00
283-0263-00
119-0181-00
119-0287-00

CKT BOARD ASSY:CRT SOCKET
(DAS9129 ONLY)
CAP.,FXD,CER DI:0.01 UF,+80-20%,500V
CAP.,FXD,CER DI:0.0022UF,20%,3000V
ARSR,ELEC SURGE:230V,GAS FILLED
ARSR,ELEC Sl.JRGE:800+/-200VDC

59821
59660
74276
25088

SDDH69L103Z
828556Y5R0222M
CG230L
B2-B800

A30A3E310
A30A3E311
A30A3E320
A30A3J301
A30A3J320
A30A3R301

119-0181-00
119-0181-00
119-0181-00
131-0608-00
131-0608-00
301-0104-00

ARSR,ELEC SURGE:230V,GAS FILLED
ARSR,ELEC SURGE:230V,GAS FILLED
ARSR,ELEC SURGE:230V,GAS FILLED
TERMINAL,PIN:0.365 L X 0.025 PH BRZ GOLD
TERMINAL,PIN:0.365 L X 0.025 PH BRZ GOLD
RES.,FXD,CMPSN:100K OHM,5%,0.5W

74276
74276
74276
22526
22526
01121

CG230L
CG230L
CG230L
47357
47357
EB1045

A30A3R303
A30A3R305
A30A3R315
A30A3R318
A30A3R320

301-0111-00
301-0103-00
301-0111-00
301-0111-00
301-0111-00

RES.,FXD,CMPSN:110 OHM,5%,0.50W
RES.,FXD,CMPSN:10K OHM,5%,0.50W
RES.,FXD,CMPSN:110 OHM,5%,0.50W
RES.,FXD,CMPSN:110 OHM,5%,0.50W
RES.,FXD,CMPSN:110 OHM,5%,0.50W

01121
01121
01121
01121
01121

EB1115
EB1035
EB1115
EB1115
EB1115

I

10-84

REV MAR 1984

/'

Replaceable Electrical Parts
DAS 9100 Series Service Vol.1I

Mfr
Code

Mfr Part Number

CKT BOARD ASSY:MAIN INTERCONNECT
(DAS9129 ONLY)
CKT BOARD ASSY:MAIN INTERCONNECT
(DAS9129 ONLY)
CKT BOARD ASSY:MAIN INTERCONNECT
(DAS9129 ONLY)

80009

670-7294-00

80009

670-7294-01

80009

670-7294-02

CKT BOARD ASSY:MAIN INTERCONNECT
(DAS9109 ONLY)
CKT BOARD ASSY:MAIN INTERCONNECT
(DAS9109 ONLY)
CKT BOARD ASSY:MAIN INTERCONNECT
(DAS9109 ONLY)

80009

670-7294-00

80009

670-7294-01

80009

670-7294-02

80009

670-7294-01

281-0775-00
281-0775-00
281-0775-00
281-0775-00

CKT BOARD ASSY:MAIN INTERCONNECT
(DAS9119 ONLY)
CAP.,FXD,CER 01:0.1 UF,20%,50V
CAP.,FXD,CER DI:0.1UF,20%,50V
CAP.,FXD,CER DI:0.1UF,20%,50V
CAP.,FXD,CER 01:0.1 UF,20%,50V

04222
04222
04222
04222

MA205E104MAA
MA205E104MAA
MA205E104MAA
MA205E104MAA

A31C15
A31C20
A31C30
A31C50
A31C61
A31C70

281-0775-00
283-0177-00
283-0177-00
283-0177-00
281-0775-00
281-0775-00

CAP.,FXD,CER
CAP.,FXD,CER
CAP.,FXD,CER
CAP.,FXD,CER
CAP .,FXD,CER
CAP .,FXD,CER

04222
56289
56289
56289
04222
04222

MA205E104MAA
2C20Z5U105Z025B
2C20Z5U105Z0258
2C20Z5U105Z025B
MA205E104MAA
MA205E104MAA

A31C73
A31C80
A31C81
A31C82
A31C101
A31C204

281-0775-00
283-0177-00
281-0773-00
281-0773-00
290-0831-00
283-0164-00

CAP.,FXD,CER 01:0.1 UF,20%,50V
CAP.,FXD,CER DI:1UF,+80-20%,25V
CAP.,FXD,CER DI:0.01UF,10%,100V
CAP.,FXD,CER DI:0.01UF,10%,100V
CAP.,FXD,ELCTLT:470UF, +50-1 0%,50V
CAP.,FXD,CER DI:2.2UF,20%,25V

04222
56289
04222
04222
55680
04222

MA205E104MAA
2C20Z5U105Z025B
MA201 C1 03KAA
MA201 C1 03KAA
UL81 E471TFANNA
SR402E225MAA

A31C206
A31C207
A31C207
A31C207
A31C207
A31C301

281-0775-00
281-0812-00

8020300

04222
04222

MA205E104MAA
MA101C102KAA

281-0812-00

B020275

04222

MA 101 C1 02KAA

281-0775-00

CAP.,FXD,CER DI:0.1UF,20%,50V
CAP.,FXD,CER DI:1000PF,10%,100V
(DAS9109 ONLY)
CAP.,FXD,CER DI:1000PF,10%,100V
(DAS9129 ONLY)
CAP.,FXD,CER 01:0.1 UF,20%,50V

04222

MA205E104MAA

A31C303
A31C304
A31C305
A31C420
A31C436
A31CR120

290-0919-00
290-0755-00
281-0775-00
290-0932-00
283-0177-00
152-0769-00

CAP.,FXD,ELCTLT:470UF, +50-1 0%,35V
CAP.,FXD,ELCTLT:1 OOUF, +50-1 0%,1 OV
CAP.,FXD,CER 01:0.1 UF,20%,50V
CAP.,FXD ELECT:390UF,+ 100-10%,15VDC
CAP.,FXD,CER DI:1UF,+80-20%,25V
SEMICOND DEVICE:RECT 8RIDGE,SI,400V

T0510
55680
04222
90201
56289
05828

ECEA18B471SC
ULA1A01TEA
MA205E104MAA
VPR391 N01 E1 A3J
2C20Z5U105Z025B
KBPC804

A31CR120
A31CR202
A31E115
A31 E115
A31E119
A31JOO

152-0826-00
152-0585-00
119-0181-00
307-0449-00
119-0181-00
131-2029-00

SEMICOND,DVC,DI: ZENER,SI,6.9V
SEMICOND DEVICE:SILlCON,BRIDGE,200V,1 A
ARSR,ELEC SURGE:230V,GAS FILLED
RES,V SENSITIVE:
ARSR,ELEC SURGE:230V,GAS FILLED
CONN,RCPT,ELEC:EDGECARD,2 X 36,0.1 CTR

04713
80009
74276

P6KE6.8A
152-0585-00
CG230L

74276
00779

CG230L
532093-1

A31J01
A31J10
A31J11
A31J20
A31J21
A31J30

131-2029-00
131-2029-00
131-2029-00
131-2029-00
131-2029-00
131-2029-00

CONN,RCPT,ELEC:EDGECARD,2
CONN,RCPT,ELEC:EDGECARD,2
CONN,RCPT,ELEC:EDGECARD,2
CONN,RCPT,ELEC:EDGECARD,2
CONN,RCPT,ELEC:EDGECARD,2
CONN,RCPT,ELEC:EDGECARD,2

00779
00779
00779
00779
00779
00779

532093-1
532093-1
532093-1
532093-1
532093-1
532093-1

Tektronix
Part No.

Serial/Model No.
Eft
Dscont

A31
A31
A31
A31
A31
A31

670-7294-00

B010100

B020274

670-7294-01

B020275

B050249

670-7294-02

8050250

A31
A31
A31
A31
A31
A31

670-7294-00

8010100

B020299

670-7294-01

8020300

8050249

670-7294-02

B050250

A31
A31
A31C10
A31C11
A31C12
A31C14

670-7294-01

Component No.

REV MAR 1984

B010100

B050249

B050250
8010100
8050250

B050249

Name & Description

DI:0.1UF,20%,50V
DI:1UF,+80-20%,25V
01:1 UF,+80-20%,25V
DI:1UF,+80-20%,25V
01:0.1 UF,20%,50V
01:0.1 UF,20%,50V

X
X
X
X
X
X

36,0.1
36,0.1
36,0.1
36,0.1
36,0.1
36,0.1

CTR
CTR
CTR
CTR
CTR
CTR

10·85

Replaceable Electrical Parts
DAS 9100 Series Service Vol.lI

Component No.

Tektronix
Part No.

A31J31
A31J40
A31J41
A31J50
A31J51
A31J60

131-2029-00
131-2029-00
131-2029-00
131-2029-00
131-2029-00
131-2029-00

CONN,RCPT,ELEC:EDGECARD,2
CONN,RCPT,ELEC:EDGECARD,2
CONN,RCPT,ELEC:EDGECARD,2
CONN,RCPT,ELEC:EDGECARD,2
CONN,RCPT,ELEC:EDGECARD,2
CONN,RCPT,ELEC:EDGECARD,2

X 36,0.1
X 36,0.1
X 36,0.1
X 36,0.1
X 36,0.1
X 36,0.1

A31J61
A31J70
A31J71
A31J72

131 -2029-00
131-2029-00
131-2029-00
131-1003-00

CONN,RCPT,ELEC:EDGECARD,2
CONN,RCPT,ELEC:EDGECARD,2
CONN,RCPT,ELEC:EDGECARD,2
CONN,RCPT,ELEC:CKT BD MT,3

A31J75
A31J80
A31J80
A31Jl0l
A31J105
A31J125

131-1003-00
131-1343-00
131-2265-00
131-2803-00
131-2621-00

CONN,RCPT,ELEC:CKT BD MT,3 PRONG
TERM. SET,PIN:36-0.525 L X 0.025 SQ
(QUANTITY OF 2)
TERM,FEEDTHRU:l0 PIN,INSULATED
CONN,RCPT,ELEC:HEADER,l X 4,0.25
CONN,RCPT,ELEC:HEADER,l X 5,0.25 CTR

A31J131
A31J201
A31J211
A31J212
A31J221
A31J311

131-2570-00
131-2265-00
131-2664-00
131-2265-00
131-2664-00
131-2265-00

A31J312
A31J321
A31J401
A31J410
A31J419
A31J421

131-2664-00
131-2265-00
131 -2664-00
131-2804-00
131-2801-00
131-1343-00

A31J421
A31J422
A31J422
A31J425
A31J425
A31J427
A31J427
A31J429
A31J432
A31J432
A31L126
A31L127

131-2238-00
131-1343-00
131-2238-00

Serial/Model No.
Eft
Dscont

Mfr
Code

Mfr Part Number

CTR
CTA
CTR
CTR
CTR
CTR

00779
00779
00779
00779
00779
00779

532093-1
532093-1
532093-1
532093-1
532093-1
532093-1

X 36,0.1 CTR
X 36,0.1 CTR
X 36,0.1 CTR
PRONG

00779
00779
00779
80009

532093-1
532093-1
532093-1
131-1003-00

80009
22526

131-1003-00
65501-136

80009
00779
00779

131-2265-00
350430-1
640900-1

CONN,RCPT,ELEC:CKT BD,50/100 CONT,FEM
TERM,FEEDTHRU:l0 PIN,INSULATED
CONN,RCPT,ELEC:HEADER,l X 10,0.156 SP
TERM,FEEDTHRU:l0 PIN,INSULATED
CONN,RCPT,ELEC:HEADER,l X 10,0.156 SP
TERM,FEEDTHRU:10 PIN,INSULATED

00779
80009
99801
80009
99801
80009

532094-1
131 -2265-00
09-70-1101-3
131 -2265-00
09-70-1101-3
131-2265-00

CONN,RCPT,ELEC:HEADER,l X 10,0.156 SP
TERM,FEEDTHRU:10 PIN,INSULATED
CONN,RCPT,ELEC:HEADER,l X 10,0.156 SP
CONN,RCPT,ELEC:HEADER,l X 2,0.25 CENTERS
CONN,RCPT,ELEC:HEADER,l X 2,0.25 CENTERS
TERM. SET,PIN:36-0.525 LX 0.025 SQ

99801
80009
99801
00779
00779
22526

09-70-1101-3
131 -2265-00
09-70-1101-3
350428-1
350786-1
65501-136

OOOGS

OBD

22526

65501-136

OOOGS

OBD

22526
22526

65863-015
65501-136

80009
80009

108-1122-00
108-1122-00

Name & Description

(QUANTITY OF 3)
CONN,RCPT,ELEC:CKT BD,2 X 20,MALE
(QUANTITY OF 20)
TERM. SET,PIN:36-0.525 LX 0.025 SQ
(QUANTITY OF 5)
CONN,RCPT,ELEC:CKT BD,2 X 20,MALE

108-1122-00
108-1122-00

(QUANTITY OF 20)
CONN,RCPT,ELEC:HEADER,2 X 8,16 MALE
TERM. SET,PIN:36-0.525 L X 0.025 SQ
(QUANTITY OF 2)
COIL,RF:FIXED,450UH
COIL,RF:FIXED,450UH

A31L420
A31Q202
A31Q205
A31Rl0
A31 Rll
A31R12

108-0336-00
151-0464-00
151-0429-00
307 -0492-00
307-0594-00
307-0492-00

COIL,RF:l00UH
TRANSISTOR:SILlCON,NPN
TRANSISTOR:SILlCON,PNP
RES.NTWK,FXD FI:(3)50 OHM,5%,0.125W
RES NTWK,FXD FI:7,220 OHM,2%,1.0W
RES.NTWK,FXD FI:(3)50 OHM,5%,0.125W

80009
04713
04713
91637
91637
91637

108-0336-00
SJE412
SJE957
CSC04COl-500J
CSC08AOll 01221 G
CSC04COl-500J

A31R13
A31R14
A31R15
A31R16
A31R17
A31R18

315-051 0-00
307-0492-00
307-0492-00
315-051 0-00
307-0492-00
307-0486-00

RES.;FXD,CMPSN:51 OHM,5%,0.25W
RES.NTWK,FXD FI:(3)50 OHM,5%,0.125W
RES.NTWK,FXD FI:(3)50 OHM,5%,0.125W
RES.,FXD,CMPSN:51 OHM,5%,0.25W
RES.NTWK,FXD FI:(3)50 OHM,5%,0.125W
RES,NTWK,THK FI:100 OHM,20%,1.125W

01121
91637
91637
01121
91637
91637

CB5105
CSC04COl-500J
CSC04COl-500J
CB5105
CSC04COl-500J
MSP10A01-101J

A31R19
A31R29

315-0510-00
307-0492-00

RES.,FXD,CMPSN:51 OHM,5%,0.25W
RES.NTWK,FXD FI:(3)50 OHM,5%,0.125W

01121
91637

CB5105
CSC04COl-500J

10-86

131-2786-00
131-1343-00

REV MAR 1984

Replaceable Electrical Parts
DAS 9100 Series Service Vol.II

Component No.

Tektronix
Part No.

A31R61
A31 R71
A31 R72
A31R74
A31R76
A31R203

307-0492-00
307-0492-00
307-0594-00
307-0486-00
315-0510-00
315-0102-00

A31R205
A31R206
A31 R301
A31R305

Mfr
Code

Mfr Part Number

RES.NTWK,FXD FI:(3)50 OHM,5%,0.125W
RES.NTWK,FXD FI:(3)50 OHM,5%,0.125W
RES NTWK,FXD FI:7,220 OHM,2%,1.0W
RES,NTWK,THK FI:100 OHM,20%,1.125W
RES.,FXD,CMPSN:51 OHM,5%,0.25W
RES.,FXD,CMPSN:1 K OHM,5%,0.25W

91637
91637
91637
91637
01121
01121

CSC04C01-500J
CSC04C01-500J
CSC08A011 01221 G
MSP1 OA01-1 01 J
CB5105
CB1025

321-0222-00
315-0101-00
315-0122-00
321-0239-07

RES.,FXD,FILM:2K OHM,1%,0.125W
RES.,FXD,CMPSN:100 OHM,5%,0.25W
RES.,FXD,CMPSN:1.2K OHM,5%,0.25W
RES.,FXD,FILM:3.01 K OHM,0.1%,0.125W

91637
01121
01121
91637

MFF1816G20000F
CB1015
CB1225
MFF1816C30100B

A31 R432
A31 RT111
A31T1 01
A31U207
A31VR203

315-0471-00
307-0842-00
120-1252-00
156-0067-00
152-0055-00

RES.,FXD,CMPSN:470 OHM,5%,0,25W
RES.,THERMAL:60 OHM,25%
XFMR,PWR,STPDN:
MICROCIRCUIT,L1:0PERATIONAL AMPLIFIER
SEMICOND DEVICE:ZENER,0.4W,11V,5%

01121
51406
80009
01295
04713

CB4715
PTH4474
120-1252-00
MICROA741CP
SZG35009K1

A32A1
A32A1
A32A1C103
A32A1C113
A32A1C114
A32A1DS120

670-7291-00

80009

670-7291-00

290-0813-00
290-0813-00
283-0208-00
150-0035-00

CKT BOARD ASSY:CAPACITOR BRACKET
(DAS9129 ONLY)
CAP.,FXD,ELCTLT:2000UF,-1 0+ 75%,200V
CAP.,FXD,ELCTLT:2000UF,-1 0+ 75%,200V
CAP.,FXD,CER DI:0.22UF,1 0%,200V
LAMP,GLOW:90V,0.3MA,AID-T,WIRE LD

56289
56289
72982
OOOLI

36DX9463
36DX9463
8151N230 C 224K
JH005/3011JA

A32A1F205
A32A1F215
A32A1J101
A32A1R111
A32A1 R201
A32A1R203

159-0014-00
159-0014-00
131-2621-00
308-0313-00
31 5-0475-00
308-031 3-00

FUSE,CARTRIDGE:3AG,5A,250V,FAST-BLOW
FUSE,CARTRIDGE:3AG,5A,250V,FAST-BLOW
CONN,RCPT,ELEC:HEADER,1 X 5,0.25 CTR
RES.,FXD,WW:20K OHM,1%,3W
RES.,FXD,CMPSN:4.7M OHM,5%,0.25W
RES.,FXD,WW:20K OHM,1%,3W

71400
71400
00779
91637
01121
91637

MTH5
MTH5
640900-1
RS2B-B20001 F
CB4755
RS2B-B20001 F

REV MAR 1984

Serial/Model No.
Eft
Dscont

Name & Description

10-87

Replaceable Electrical Parts
DAS 9100 Series Service Vol.lI

Tektronix
Part No.

Serial/Model No.
Eft
Dscont

A33
A33
A33
A33
A33
A33

670-747S-00

B010100

B019999

670-747S-01

B020000

B029999

670-747S-02

B030000

BOS0099

A33
A33
A33
A33
A33
A33

670-747S-03
670-747S-01

BOS0100
B020000

B029999

670-747S-02

B030000

BOS0099

670-747S-03

BOS0100

A33C10S
A33C121
A33C127
A33C131
A33C137
A33C14S

281-077S-00
281-077S-00
281-077S-00
281-077S-00
281-0775-00
281-0775-00

CAP.,FXD,CER
CAP.,FXD,CER
CAP.,FXD,CER
CAP.,FXD,CER
CAP.,FXD,CER
CAP.,FXD,CER

A33C148
A33C161
A33C162
A33C165
A33C168
A33C17S

281-0775-00
281-077S-00
281-0775-00
281-077S-00
281-0775-00
281-077S-00

A33C178
A33C181
A33C18S
A33C188
A33C2S1
A33C261

Mfr
Code

Mfr Part Number

CKT BOARD ASSY:CONTROLLER
(DAS9129 ONLY)
CKT BOARD ASSY:CONTROLLER
(DAS9129 ONLY)
CKT BOARD ASSY:CONTROLLER
(DAS9129 ONLY)

80009

670-747S-00

80009

670-747S-01

80009

670-747S-02

CKT BOARD ASSY:CONTROLLER
CKT BOARD ASSY:CONTROLLER
(DAS9109 ONLY)
CKT BOARD ASSY:CONTROLLER
(DAS9109 ONLY)
CKT BOARD ASSY:CONTROLLER

80009
80009

670-747S-03
670-747S-01

80009

670-747S-02

80009

670-747S-03

DI:0.1 UF,20%,SOV
DI:0.1 UF,20%,SOV
DI:0.1UF,20%,SOV
DI:0.1 UF,20%,SOV
DI:0.1UF,20%,SOV
DI:0.1 UF,20%,50V

04222
04222
04222
04222
04222
04222

MA20SE104MAA
MA20SE104MAA
MA20SE104MAA
MA20SE104MAA
MA205E104MAA
MA20SE104MAA

CAP.,FXD,CER
CAP.,FXD,CER
CAP.,FXD,CER
CAP.,FXD,CER
CAP.,FXD,CER
CAP.,FXD,CER

DI:0.1 UF,20%,50V
DI:0.1 UF,20%,SOV
DI:0.1 UF,20%,50V
DI:0.1 UF,20%,50V
DI:0.1 UF,20%,SOV
DI:0.1 UF,20%,SOV

04222
04222
04222
04222
04222
04222

MA20SE104MAA
MA205E104MAA
MA205E104MAA
MA20SE104MAA
MA20SE104MAA
MA205E104MAA

281-0775-00
281-0775-00
281-077S-00
281-077S-00
281-077S-00
281-077S-00

CAP.,FXD,CER
CAP.,FXD,CER
CAP.,FXD,CER
CAP.,FXD,CER
CAP.,FXD,CER
CAP.,FXD,CER

DI:0.1 UF,20%,50V
DI:0.1 UF,20%,SOV
DI:0.1UF,20%,SOV
DI:0.1 UF,20%,50V
DI:0.1 UF,20%,50V
DI:0.1 UF,20%,SOV

04222
04222
04222
04222
04222
04222

MA205E104MAA
MA20SE104MAA
MA20SE104MAA
MA205E104MAA
MA20SE104MAA
MA205E104MAA

A33C262
A33C26S
A33C266
A33C268
A33C269
A33C27S

281-077S-00
281-077S-00
281-077S-00
281-0775-00
281-077S-00
281-077S-00

CAP.,FXD,CER DI:0.1 UF,20%,SOV
CAP.,FXD,CER DI:0.1 UF,20%,50V
CAP.,FXD,CER DI:0.1UF,20%,50V
CAP.,FXD,CER DI:0.1 UF,20%,50V
CAP.,FXD,CER DI:0.1 UF,20%,SOV
CAP.,FXD,CER DI:0.1 UF,20%,SOV

04222
04222
04222
04222
04222
04222

MA205E104MAA
MA20SE104MAA
MA205E104MAA
MA205E104MAA
MA205E104MAA
MA205E104MAA

A33C276
A33C278
A33C279
A33C281
A33C282
A33C28S

281-077S-00
281-0775-00
281-077S-00
281-077S-00
281-077S-00
281-077S-00

CAP.,FXD,CER
CAP.,FXD,CER
CAP.,FXD,CER
CAP.,FXD,CER
CAP.,FXD,CER
CAP.,FXD,CER

DI:0.1 UF,20%,50V
DI:0.1 UF,20%,50V
DI:0.1 UF,20%,SOV
DI:0.1 UF,20%,SOV
DI:0.1 UF,20%,50V
DI:0.1UF,20%,SOV

04222
04222
04222
04222
04222
04222

MA205E104MAA
MA20SE104MAA
MA20SE104MAA
MA20SE104MAA
MA20SE104MAA
MA205E104MAA

A33C286
A33C288
A33C289
A33C300
A33C321
A33C325

281-077S-00
281-077S-00
281-077S-00
281-0759-00
281-077S-00
281-0775-00

CAP.,FXD,CER
CAP.,FXD,CER
CAP.,FXD,CER
CAP.,FXD,CER
CAP.,FXD,CER
CAP.,fXD,CER

DI:0.1UF,20%,SOV
DI:0.1UF,20%,SOV
DI:0.1 UF,20%,SOV
DI:22PF,10%,100V
DI:0.1UF,20%,SOV
DI:0.1 UF,20%,50V

04222
04222
04222
96733
04222
04222

MA205E104MAA
MA20SE104MAA
MA205E104MAA
R2735
MA205E104MAA
MA20SE104MAA

A33C330
A33C332
A33C337
A33C361
A33C365
A33C366

283-0111-00
283-0144-00
281-077S-00
281-0775-00
281-0775-00
281-0775-00

CAP.,FXD,CER
CAP.,FXD,CER
CAP.,FXD,CER
CAP.,FXD,CER
CAP.,FXD,CER
CAP.,FXD,CER

DI:0.1UF,20%,SOV
DI:33PF,1%,SOOV
DI:0.1 UF,20%,50V
DI:0.1UF,20%,SOV
DI:0.1UF,20%,50V
DI:0.1UF,20%,SOV

S6289
S9660
04222
04222
04222
04222

273C11
801-547P2G330G
MA205E104MAA
MA20SE104MAA
MA205E104MAA
MA20SE104MAA

A33C368
A33C369

281-0775-00
281-0775-00

CAP.,FXD,CER DI:0.1 UF,20%,50V
CAP.,FXD,CER DI:0.1 UF,20%,50V

04222
04222

MA205E104MAA
MA20SE104MAA

Component No.

10-88

Name & Description

REV MAR 1984

/'

Replaceable Electrical Parts
DAS 9100 Series Service Votll

Mfr
Code

Mfr Part Number

DI:0.1UF,20%,50V
DI:0.1 UF,20%,50V
DI:0.1 UF,20%,50V
DI:0.1UF,20%,50V
DI :0.1 UF,20%,50V
DI:0.1 UF,20%,50V

04222
04222
04222
04222
04222
04222

MA205E104MAA
MA205E104MAA
MA205E104MAA
MA205E104MAA
MA205E104MAA
MA205E104MAA

CAP.,FXD,CER
CAP.,FXD,CER
CAP.,FXD,CER
CAP.,FXD,CER
CAP.,FXD,CER
CAP.,FXD,CER

DI:0.1 UF,20%,50V
DI:0.1 UF,20%,50V
DI:0.1 UF,20%,50V
DI:0.1UF,20%,50V
DI:0.1UF,20%,50V
DI:0.1UF,20%,50V

04222
04222
04222
04222
04222
04222

MA205E104MAA
MA205E104MAA
MA205E104MAA
MA205E104MAA
MA205E104MAA
MA205E104MAA

281-0775-00
281-0775-00
281-0775-00
283-0333-00
281-0775-00
281-0775-00

CAP.,FXD,CER
CAP.,FXD,CER
CAP.,FXD,CER
CAP.,FXD,CER
CAP.,FXD,CER
CAP.,FXD,CER

DI:0.1 UF,20%,50V
DI:0.1 UF,20%,50V
DI:0.1 UF,20%,50V
DI:35PF,5%,1000V
DI:0.1 UF,20%,50V
DI:0.1 UF,20%,50V

04222
04222
04222
72982
04222
04222

MA205E104MAA
MA205E104MAA
MA205E104MAA
838-534 A 350>
MA205E104MAA
MA205E104MAA

A33C467
A33C468
A33C471
A33C475
A33C478
A33C481

281·0775-00
281-0775-00
281-0775-00
281-0775-00
281-0775-00
281-0775-00

CAP.,FXD,CER
CAP.,FXD,CER
CAP.,FXD,CER
CAP.,FXD,CER
CAP.,FXD,CER
CAP.,FXD,CER

DI:0.1UF,20%,50V
DI:0.1 UF,20%,50V
DI:0.1UF,20%,50V
DI:0.1UF,20%,50V
DI:0.1 UF,20%,50V
DI:0.1 UF,20%,50V

04222
04222
04222
04222
04222
04222

MA205E104MAA
MA205E104MAA
MA205E104MAA
MA205E104MAA
MA205E104MAA
MA205E104MAA

A33C487
A33C488
A33C496
A33C521
A33C525
A33C527

281-0775-00
281-0775-00
281-0775-00
281-0775-00
281-0775-00
281-0819-00

CAP.,FXD,CER
CAP.,FXD,CER
CAP.,FXD,CER
CAP.,FXD,CER
CAP.,FXD,CER
CAP.,FXD,CER

DI:0.1 UF,20%,50V
DI:0.1 UF,20%,50V
DI:0.1UF,20%,50V
DI:0.1UF,20%,50V
DI:0.1UF,20%,50V
DI:33PF,5%,50V

04222
04222
04222
04222
04222
72982

MA205E104MAA
MA205E104MAA
MA205E104MAA
MA205E104MAA
MA205E104MAA.
8035BCOG330

A33C537
A33C538
A33C545
A33C549
A33C550
A33C591

283-0177-00
290-0755-00
281-0775-00
290-0748-00
290-0748-00
281-0775-00

CAP.,FXD,CER DI:1UF,+80-20%,25V
CAP.,FXD,ELCTLT:100UF, +50-10%,1 OV
CAP.,FXD,CER DI:0.1UF,20%,50V
CAP.,FXD,ELCTLT: 1OUF, + 50-1 0%,25V
CAP.,FXD,ELCTLT:1 OUF,+50-1 0%,25V
CAP.,FXD,CER DI:0.1 UF,20%,50V

56289
55680
04222
T0900
T0900
04222

2C20Z5U105Z025B
ULA1AOHEA
MA205E104MAA
SL25T10(T)TP
SL25T10(T)TP
MA205E104MAA

A33C597
A33C637
A33C638
A33C639
A33CRl15
A33CR535

281-0775-00
281-0775-00
290-0536-00
281-0775-00
152-0141-02
152-0141-02

CAP.,FXD,CER DI:0.1 UF,20%,50V
CAP.,FXD,CER DI:0.1 UF,20%,50V
CAP.,FXD,ELCTLT:10UF,20%,25V
CAP.,FXD,CER DI:0.1 UF,20%,50V
SEMICOND DEVICE:SILlCON,30V,150MA
SEMICOND DEVICE:SILlCON,30V,150MA

04222
04222
90201
04222
01295
01295

MA205E104MAA
MA205E104MAA
TDC106M025FL
MA205E104MAA
1N4152R
1N4152R

A33CR539
A33J337
A33J339
A33J340
A33J344
A33J498

152-0141-02
131-0608-00
131 -0608-00
131-0608-00
131-0608-00
131-0608-00

SEMICOND DEVICE:SILlCON,30V,150MA
TERMINAL,PIN:0.365 LX 0.025 PH BRZ GOLD
TERMINAL,PIN:0.365 L X 0.025 PH BRZ GOLD
TERMINAL,PIN:0.365 L X 0.025 PH BRZ GOLD
TERMINAL,PIN:0.365 L X 0.025 PH BRZ GOLD
TERMINAL,PIN:0.365 LX 0.025 PH BRZ GOLD

01295
22526
22526
22526
22526
22526

1N4152R
47357
47357
47357
47357
47357

A33J499
A33J603
A33LR435
A33LS100

131-0608-00
131-1426-00
108-0735-00
119-1427-00

TERMINAL,PIN:0.365 LX 0.025 PH BRZ GOLD
TERM SET,PIN:(36) 0.025 SO RTANG,0.25L
COIL,RF:FIXED,560NH
XDCR,AUDIO:6V,30MA,1-4.2 KHZ

22526
22526
80009
OOOJB

47357
65524-136
108-0735-00
OMB-06

A330110
A330335
A330425

151-0190-00
151-0188-00
1 51-0223-00

TRANSISTOR:SILlCON,NPN
TRANSISTOR:SILlCON,PNP
TRANSISTOR:SILlCON,NPN

07263
04713
04713

S032677
SPS6B68K
SPS8026

Component No.

Tektronix
Part No.

A33C375
A33C376
A33C378
A33C379
A33C381
A33C382

281-0775-00
281-0775-00
281-0775-00
281-0775-00
281-0775-00
281-0775-00

CAP.,FXD,CER
CAP.,FXD,CER
CAP.,FXD,CER
CAP.,FXD,CER
CAP .,FXD,CER
CAP.,FXD,CER

A33C385
A33C386
A33C388
A33C389
A33C395
A33C396

281-0775-00
281-0775-00
281-0775-00
281-0775-00
281-0775-00
281-0775-00

A33C411
A33C415
A33C425
A33C431
A33C438
A33C445

REV MAR 1984

Serial/Model No.
Eft
Dscont

B050100

B050199

Name & Description

10-89

Replaceable Electrical Parts
CAS 9100 Series Service Vol.II

Component No.

Tektronix
Part No.

A33Q435
A33Q438
A33Q539
A33R115
A33R121
A33R125

151-0188-00
151-0188-00
151-0190-00
315-0101-00
311-1562-00
315-01 02-00

A33R134
A33R140
A33R141
A33R145
A33R146
A33R147

315-0101-00
315-0102-00
307-0542-00
307-0542-00
315-0393-00
315-0393-00

A33R150
A33R185
A33R201
A33R202
A33R215
A33R225

Serial/Model No.
Eft
Dscont

Mfr
Code

Mfr Part Number

TRANSISTOR:SILlCON,PNP
TRANSISTOR:SILlCON,PNP
TRANSISTOR:SILlCON,NPN
RES.,FXD,CMPSN:100 OHM,5%,0.25W
RES.,VAR,NONWIR:2K OHM,20%,0.50W
RES.,FXD,CMPSN:1 K OHM,5%,0.25W

04713
04713
07263
01121
73138
01121

SPS6868K
SPS6868K
S032677
CB1015
91-84-0
CB1025

RES.,FXD,CMPSN:100 OHM,5%,0.25W
RES.,FXD,CMPSN:1 K OHM,5%,0.25W
RES,NTWK,FXD,FI:10K OHM,5%,0.125W
RES,NTWK,FXD,FI:10K OHM,5%,0.125W
RES.,FXD,CMPSN:39K OHM,5%,0.25W
RES.,FXD,CMPSN:39K OHM,5%,0.25W

01121
01121
01121
01121
01121
01121

CB1015
CB1025
106A103
106A103
CB3935
CB3935

315-0203-00
307-0540-00
315-01 03-00
315-0103-00
315-0101-00
315-0750-00

RES.,FXD,CMPSN:20K OHM,5%,0.25W
RES,NTWK,FXD,FI:(5) 1K OHM,10%,0.7W
RES.,FXD,CMPSN:10K OHM,5%,0.25W
RES.,FXD,CMPSN:10K OHM,5%,0.25W
RES.,FXD,CMPSN:100 OHM,5%,0.25W
RES.,FXD,CMPSN:750HM,5%,0.25W

01121
57924
01121
01121
01121
01121

CB2035
4306R-1 01-1 02
CB1035
CB1035
CB1015
CB7505

A33R234
A33R295
A33R332
A33R331
A33R333
A33R334

315-0101-00
315-0102-00
315-0221-00
315-0150-00
315-0122-00
315-0150-00

RES.,FXD,CMPSN:100 OHM,5%,0.25W
RES.,FXD,CMPSN:1 K OHM,5%,0.25W
RES.,FXD,CMPSN:220 OHM,5%,0.25W
RES.,FXD,CMPSN:150HM,5%,0.25W
RES.,FXD,CMPSN:1.2K OHM,5%,0.25W
RES.,FXD,CMPSN:150HM,5%,0.25W

01121
01121
01121
01121
01121
01121

CB1015
CB1025
CB2215
CB1505
CB1225
CB1505

A33R341
A33R342
A33R411
A33R415
A33R416
A33R417

315-0203-00
315-0203-00
315-0241-00
315-0101-00
315-0752-00
315-0752-00

RES.,FXD,CMPSN:20K OHM,5%,0.25W
RES.,FXD,CMPSN:20K OHM,5%,0.25W
RES .. FXD,CMPSN:240 OHM,5%,0.25W
RES.,FXD,CMPSN:100 OHM,5%,0.25W
RES.,FXD,CMPSN:7.5K OHM,5%,0.25W
RES.,FXD,CMPSN:7.5K OHM,5%,0.25W

01121
01121
01121
01121
01121
01121

CB2035
CB2035
CB2415
CB1015
CB7525
CB7525

A33R418
A33R421
A33R430
A33R431
A33R432
A33R434

315-0752-00
315-0102-00
315-0511-00
315-0511-00
315-0512-00
315-0102-00

RES.,FXD,CMPSN:7.5K OHM,5%,0.25W
RES.,FXD,CMPSN:1 K OHM,5%,0.25W
RES.,FXD,CMPSN:510 OHM,5%,0.25W
RES.,FXD,CMPSN:5100HM,5%,0.25W
RES.,FXD,CMPSN:5.1 K OHM,5%,0.25W
RES.,FXD,CMPSN:1 K OHM,5%,0.25W

01121
01121
01121
01121
01121
01121

CB7525
CB1025
CB5115
CB5115
CB5125
CB1025

A33R436
A33R437
A33R438
A33R441
A33R445
A33R468

315-0510-00
315-0472-00
315-0101-00
307-0540-00
307-0446-00
315-0101-00

RES.,FXD,CMPSN:51 OHM,5%,0.25W
RES.,FXD,CMPSN:4.7K OHM,5%,0.25W
RES.,FXD,CMPSN:100 OHM,5%,0.25W
RES,NTWK,FXD,FI:(5) 1K OHM,10%,0.7W
RES,NTWK;FXD FI:10K OHM,20%,(9) RES
RES.,FXD,CMPSN:100 OHM,5%,0.25W

01121
01121
01121
57924
91637
01121

CB51 05
CB4725
CB1015
4306R-1 01-1 02
MSP1 OA01-1 03M
CB1015

A33R478
A33R481
A33R485
A33R488
A33R497
A33R511

315-0101-00
315-0101-00
315-0101-00
315-0101-00
315-0101-00
315-0241-00

RES.,FXD,CMPSN:100
RES.,FXD,CMPSN:100
RES.,FXD,CMPSN:100
RES.,FXD,CMPSN: 100
RES.,FXD,CMPSN: 100
RES.,FXD,CMPSN:240

OHM,5%,0.25W
OHM,5%,0.25W
OHM,5%,0.25W
OHM,5%,0.25W
OHM,5%,0.25W
OHM,5%,0.25W

01121
01121
01121
01121
01121
01121

CB1015
CB1015
CB1015
CB1015
CB1015
CB2415

A33R525
A33R527
A33R535

315-0561-00
315-0561-00
315-01 02-00

RES.,FXD,CMPSN:560 OHM,5%,0.25W
RES.,FXD,CMPSN:560 OHM,5%,0.25W
RES.,FXD,CMPSN:1 K OHM,5%,0.25W

01121
01121
01121

CB5615
CB5615
CB1025

A33R536
A33R539
A33R540
A33R555

315-0513-00
. 315-0513-00
315-0101-00
307-0675-00

RES.,FXD,CMPSN:51 K OHM,5%,0.25W
RES.,FXD,CMPSN:51 K OHM,5%,0.25W
RES.,FXD,CMPSN:100 OHM,5%,0.25W
RES NTWK,FXD FI:9,1K OHM,2%,1.25W

01121
01121
01121
01121

CB5135
CB5135
CB1015
21 OA1 02

B050100

B010100

B050099

B010100

B050099

B010100

B050099

Name & Description

~"

\

10-90

REV MAR 1984

Replaceable Electrical Parts
DAS 9100 Series Service Vol.lI

Component No.

Tektronix
Part No.

A33R5B1
A33R597
A33R600
A33S100
A33TP141
A33TP151

307-0445-00
307-0445-00
315-0472-00
260-1 B27 -00
214-0579-00
214-0579-00

A33TP211
A33TP351
A33TP397
A33TP420
A33TP436
A33TP46B

Serial/Model No.
Eft
Dscont

Mfr
Code

Mfr Part Number

RES NTWK,FXD,FI:4.7K OHM,20%,(9) RES
RES NTWK,FXD,FI:4.7K OHM,20%,(9) RES
RES.,FXD,CMPSN:4.7K OHM,5%,0.25W
SWITCH,ROCKER:5,SPST
TERM,TEST POINT:BRS CD PL
TERM,TEST POINT:BRS CD PL

91637
91637
01121
B1073
BOO09
BOO09

MSP10A01-472M
MSP10A01-472M
CB4725
76SB05S
214-0579-00
214-0579-00

214-0579-00
214-0579-00
214-0579-00
214-0579-00
214-0579-00
214-0579-00

TERM,TEST
TERM,TEST
TERM,TEST
TERM,TEST
TERM,TEST
TERM,TEST

BOO09
BOO09
BOO09
BOO09
BOO09
BOO09

214-0579-00
214-0579-00
214-0579-00
214-0579-00
214-0579-00
214-0579-00

A33TP637
A33U100
A33U105
A33U115
A33U121
A33U127

214-0579-00
156-079B-02
156-0480-02
156-0381-02
156-1455-00
156-0479-02

TERM,TEST POINT:BRS CD PL
MICROCIRCUIT,DI:DUAL 14 TO 1 LINE SEUMUX
MICROCIRCUIT,DI:QUAD 2 INP & GATE
MICROCIRCUIT,DI:QUAD 2-INP EXCL OR GATE
MICROCIRCUIT,DI:PROGRAMMABLE CRT CONT
MICROCIRCUIT,DI:QUAD 2-INP OR GATE

BOO09
01295
01295
01295
34649
01295

214-0579-00
SN74LS153
SN74LS08NP3
SN74LS86
P8275
SN74LS32NP3

A33U131
A33U137
A33U13B
A33U141
A33U151
A33U155

156-079B-02
156-1172-01
156-0479-02
156-0994-02
156-0480-02
156-0464-02

MICROCIRCUIT,DI:DUAL 14 TO 1 LINE SEUMUX
MICROCIRCUIT,DI:DUAL 4 BIT CNTR
MICROCIRCUIT,DI:QUAD 2-INP OR GATE
MICROCIRCUIT,DI:8 INPUT DATA SEUMUX
MICROCIRCUIT,DI:QUAD 2 INP & GATE
MICROCIRCUIT,DI:DUAL 4 INP NAND GATE

01295
01295
01295
01295
01295
01295

SN74LS153
SN74LS393
SN74LS32NP3
SN74LS151 NP3
SN74LSOBNP3
SN74LS20

A33U161
A33U165
A33U168
A33U175
A33U178
A33U181

156-04BO-02
156-0479-02
156-038B-03
156-03B5-02
156-0388-03
156-0382-02

MICROCIRCUIT,DI:QUAD 2 INP & GATE
MICROCIRCUIT,DI:QUAD 2-INP OR GATE
MICROCIRCUIT,DI:DUAL 0 FLIP-FLOP
MICROCIRCUIT,DI:HEX INVERTER
MICROCIRCUIT,DI:DUAL D FLIP-FLOP
MICROCIRCUIT,DI:QUAD 2-INP NAND GATE

01295
01295
07263
01295
07263
01295

SN74LS08NP3
SN74LS32NP3
74LS74A
SN74LS04
74LS74A
SN74LSOO

A33U185
A33U188
A33U195
A33U197
A33U200
A33U205

156-0388-03
156-0321-02
156-0694-02
156-0180-04
156-0798-02
156-0479-02

MICROCIRCUIT,DI:DUAL D FLIP-FLOP
MICROCIRCUIT,DI:TRIPLE 3 INP NAND GATE
MICROCIRCUIT,DI:DCDR/3 LINE TO 8 L1NE,SCRN
MICROCIRCUIT,DI:QUAD 2-INPUT NAND GATE
MICROCIRCUIT,DI:DUAL 14 TO 1 LINE SEUMUX
MICROCIRCUIT,DI:QUAD 2-INP OR GATE

07263
01295
07263
01295
01295
01295

74LS74A
SN74S10
74S138DCQR
SN74S00NP3
SN74LS153
SN74LS32NP3

A33U208
A33U211
A33U215
A33U227
A33U231
A33U237

156-0530-02
156-0530-02
160-0823-01
156-0865-02
156-1172-01
156-0956-02

MICROCIRCUIT,DI:QUAD 2-INP MUX,SCRN
MICROCIRCUIT,DI:QUAD 2-INP MUX,SCRN
MICROCIRCUIT,DI:1024 X 8 PROM,PRGM
MICROCIRCUIT,DI:OCTAL D-TYPE FF W/CLEAR
MICROCIRCUIT,DI:DUAL 4 BIT CNTR
MICROCIRCUIT,DI:OCTAL BFR W/3 STATE OUT

01295
01295
80009
01295
01295
01295

SN74LS157P3
SN74LS157P3
160-0823-01
SN74LS273NP3
SN74LS393
SN74LS244NP3

A33U251

156-1202-00

A33U261
A33U265
A33U268
A33U275
A33U27B

B050000

B050000

B050199

B050099

Name & Description

POINT:BRS
POINT:BRS
POINT:BRS
POINT:BRS
POINT:BRS
POINT:BRS

CD
CD
CD
CD
CD
CD

PL
PL
PL
PL
PL
PL

156-0968-02
156-0968-02
156-0968-02
156-0968-02
156-0968-02

MICROCIRCUIT,DI:PROGRAMMABLE DMA CONTROLLER
51984
MICROCIRCUIT,DI:16384 X 1 DYNAMIC RAM
80009
MICROCIRCUIT,DI:16384 X 1 DYNAMIC RAM
80009
MICROCIRCUIT,DI:16384 X 1 DYNAMIC RAM
80009
MICROCIRCUIT,DI:16384 X 1 DYNAMIC RAM
80009
MICROCIRCUIT,DI:16384 X 1 DYNAMIC RAM
80009

UPD8257C-5
156-0968-02
156-0968-02
156-0968-02
156-0968-02
156-0968-02

A33U281
A33U285

156-0968-02
156-0968-02

MICROCIRCUIT,DI:16384 X 1 DYNAMIC RAM
MICROCIRCUIT,DI:16384 X 1 DYNAMIC RAM

80009
80009

156-0968-02
156-0968-02

A33U288
A33U295
A33U297
A33U300
A33U305
A33U311

156-0968-02
156-0718-03
156-0381-02
156-0480-02
156-0388-03
156-0382-02

MICROCIRCUIT,DI:16384 X 1 DYNAMIC RAM
MICROCIRCUIT,DI:TRIPLE 3-INP NOR GATE
MICROCIRCUIT,DI:QUAD 2-INP EXCL OR GATE
MICROCIRCUIT,DI:QUAD 2 INP & GATE
MICROCIRCUIT,DI:DUAL 0 FLIP-FLOP
MICROCIRCUIT,DI:QUAD 2-INP NAND GATE

80009
01295
01295
01295
07263
01295

156-0968-02
SN74LS27
SN74LS86
SN74LS08NP3
74LS74A
SN74LSOO

REV MAR 1984

10·91

Replaceable Electrical Parts
DAS 9100 Series Service Vol.II

Component No.

Tektronix
Part No.

A33U315
A33U321
A33U325
A33U331
A33U337
A33U338

156-1313-00
156-1326-00
156-0385-02
156-0948-02
156-0323-02
156-0383-02

A33U345
A33U351
A33U365
A33U368
A33U375
A33U378

Serial/Model No.
Eff
Dscont

Mfr
Code

Mfr Part Number

MICROCIRCUIT,DI:8 BIT SHIFT REGISTER,SCRN
MICROCIRCUIT,DI:QUAD D TYPE FF,SCRN
MICROCIRCUIT,DI:HEX INVERTER
MICROCIRCUIT,DI:QUAD D F-F,BURN-IN
MICROCIRCUIT,DI:HEX INVERTER,BURN-IN
MICROCIRCUIT,DI:QUAD 2-INP NOR GATE

01295
80009
01295
01295
01295
01295

SN741S166
156-1326-00
SN74LS04
SN74S175J4
SN74S04
SN74LS02

156-0469-02
156-0983-00
156-0968-02
156-0968-02
156-0968-02
156-0968-02

MICROCIRCUIT,DI:3/8 LINE DCDR
MICROCIRCUIT,DI:MICROPROCESSOR
MICROCIRCUIT,DI:16384 X 1 DYNAMIC
MICROCIRCUIT,DI:16384 X 1 DYNAMIC
MICROCIRCUIT,DI:16384 X 1 DYNAMIC
MICROCIRCUIT,DI:16384 X 1 DYNAMIC

01295
56708
80009
80009
80009
80009

SN74LS138NP3
Z 80 ACS
156-0968-02
156-0968-02
156-0968-02
156-0968-02

A33U381
A33U385
A33U388
A33U395
A33U397
A33U400

156-0968-02
156-0968-02
156-0968-02
156-0968-02
156-0321-02
156-0388-03

MICROCIRCUIT,DI:16384 X 1 DYNAMIC RAM
MICROCIRCUIT,DI:16384 X 1 DYNAMIC RAM
MICROCIRCUIT,DI:16384 X 1 DYNAMIC RAM
MICROCIRCUIT,DI:16384 X 1 DYNAMIC RAM
MICROCIRCUIT,DI:TRIPLE 3 INP NAND GATE
MICROCIRCUIT,DI:DUAL D FLIP-FLOP

80009
80009
80009
80009
01295
07263

156-0968-02
156-0968-02
156-0968-02
156-0968-02
SN74S10
74LS74A

A33U405
A33U411
A33U415
A33U421
A33U425
A33U431

156-0479-02
156-0385-02
156-0392-03
156-1313-00
156-0784-02
156-0205-02

MICROCIRCUIT,DI:QUAD 2-INP OR GATE
MICROCIRCUIT,DI:HEX INVERTER
MICROCIRCUIT,DI:QUAD LATCH W/CLEAR
MICROCIRCUIT,DI:8 BIT SHIFT REGISTER,SCRN
MICROCIRCUIT,DI:SYNC 4 BIT BINARY COUNTER
MICROCIRCUIT,DI:QUAD 2-INP NOR GATE,SCRN

01295
01295
01295
01295
27014
04713

SN74LS32NP3
SN74LS04
SN74S175NP3
SN741S166
DM74LS163ANA+
MC1 01 02PD/LD

A33U438
A33U445
A33U461
A33U475
A33U478
A33U481

156-0956-02
156-0955-02
156-1065-01
156-1065-01
156-0956-02
156-0125-02

MICROCIRCUIT,DI:OCTAL BFR W/3 STATE OUT
MICROCIRCUIT,DI:OCTAL BFR W/3 STATE OUT
MICROCIRCUIT,DI:OCTAL D TYPE TRANS LATCHES
MICROCIRCUIT,DI:OCTAL D TYPE TRANS LATCHES
MICROCIRCUIT,DI:OCTAL BFR W/3 STATE OUT
MICROCIRCUIT,DI:QUAD 2-INP MUX,SCRN

01295
04713
34335
34335
01295
01295

SN74LS244NP3
SN74LS241
AM74LS373
AM74LS373
SN74LS244NP3
SN74157(NP3 OR J

A33U485
A33U488
A33U495
A33U497
A33U500
A33U505

156-0125-02
156-0956-02
156-0956-02
156-0478-02
156-0784-02
156-0784-02

MICROCIRCUIT,DI:QUAD 2-INP MUX,SCRN
MICROCIRCUIT,DI:OCTAL BFR W/3 STATE OUT
MICROCIRCUIT,DI:OCTAL BFR W/3 STATE OUT
MICROCIRCUIT,DI:DUAL 4 INP & GATE,BURN-IN
MICROCIRCUIT,DI:SYNC 4 BIT BINARY COUNTER
MICROCIRCUIT,DI:SYNC 4 BIT BINARY COUNTER

01295
01295
01295
01295
27014
27014

SN74157(NP3 OR J
SN74LS244NP3
SN74LS244NP3
SN74LS21NP3
DM7 4LS 163ANA +
DM7 4LS 163ANA +

A33U511
A33U515
A33U517
A33U521
A33U525
A33U531

156-0469-02
156-0784-02
156-0718-03
156-0784-02
156-0956-02
156-0180-04

MICROCIRCUIT,DI:3/8 LINE DCDR
MICROCIRCUIT,DI:SYNC 4 BIT BINARY COUNTER
MICROCIRCUIT,DI:TRIPLE 3-INP NOR GATE
MICROCIRCUIT,DI:SYNC 4 BIT BINARY COUNTER
MICROCIRCUIT,DI:OCTAL BFR W/3 STATE OUT
MICROCIRCUIT,DI:QUAD 2-INPUT NAND GATE

01295
27014
01295
27014
01295
01295

SN74LS138NP3
DM74LS163ANA+
SN74LS27
DM7 4LS 163ANA +
SN74LS244NP3
SN74S00NP3

A33U535
A33U537
A33U541
A33U555
A33U563
A33U565

156-0948-02
156-0645-02
156-0392-03
156-1111-02
156-0469-02
156-0469-02

MICROCIRCUIT,DI:QUAD D F-F,BURN-IN
MICROCIRCUIT,DI:HEX INV ST NAND GATES,SCRN
MICROCIRCUIT,DI:QUAD LATCH W/CLEAR
MICROCIRCUIT,DI:OCTAL BUS TRANSCEIVERS
MICROCIRCUIT,DI:3/8 LINE DCDR
MICROCIRCUIT,DI:3/8 LINE DCDR

01295
01295
01295
01295
01295
01295

SN74S175J4
SN74LS14
SN74S175NP3
SN74LS245JP3
SN74LS138NP3
SN74LS138NP3

A33U571
A33U581
A33U585
A33U591
A33U597
A33U597

156-0956-02
156-1111-02
160-0826-00
160-0827-00
160-1679-00
160-1679-01

MICROCIRCUIT,DI:OCTAL BFR W/3 STATE OUT
MICROCIRCUIT,DI:OCTAL BUS TRANSCEIVERS
MICROCIRCUIT,DI:8192 X 8 PROM,PRGM,SCRN
MICROCIRCUIT,DI:8192 X 8 PROM,PRGM,SCRN
MICROCIRCUIT,DI:8192 X 8 EPROM,PRGM
MICROCIRCUIT,DI:8192 X 8 EPROM,PRGM

01295
01295
80009
80009
80009
80009

SN74LS244NP3
SN74LS245JP3
160-0826-00
160-0827-00
160-1679-00
160-1679-00

B010100
B010146

B010145
B019999

Name & Description

EIGHT BIT
RAM
RAM
RAM
RAM

\

10-92

REV MAR 1984

"

Replaceable Electrical Parts
DAS 9100 Series Service Vol.1I

Mfr
Code

Mfr Part Number

MICROCIRCUIT,DI:8192 X 8 EPROM,PRGM
MICROCIRCUIT,DI:8192 X 8 EPROM,PRGM
MICROCIRCUIT,DI:8192 X 8 EPROM,PRGM
MICROCIRCUIT,DI:SYNC 4 BIT BINARY COUNTER
MICROCIRCUIT,DI:QUAD 2-INP NAND GATE
MICROCIRCUIT,DI:3/8 LINE DCDR

80009
80009
80009
27014
01295
01295

160-1679-00
160-1679-00
160-1679-00
DM74LS163ANA+
SN74LSOO
SN74LS138NP3

B030000

BUS CONDUCTOR:DUMMY RES,2.375,22 AWG
XTAL UNIT,QTZ:29.4912 MHZ,0.01 %,SERIES

57668
33096

JWW-0200EO
HC-18/U

119-1594-00

B020000

DISPLAY ASSY:9 INCH CH,TTL,SYNC OR DRIVE

80009

119-1594-00

118-2984-00

B020000

CKT BOARD ASSY:DISPLAY

80009

118-2984-00

Component No.

Tektronix
Part No.

Serial/Model No.
Eff
Dscont

A33U597
A33U597
A33U597
A33U600
A33U603
A33U605

160-1679-02
160-1679-03
160-1679-06
156-0784-02
156-0382-02
156-0469-02

B020000
B030000
B040000

A33W160
A33Y432

131-0566-00
158-0223-00

A34

A34A1

REV MAR 1984

B029999
B039999

Name & Description

Replaceable Electrical Parts
DAS 9100 Series Service Vol.Il

Component No.

Tektronix
Part No.

Serial/Model No.
Ell
Dscont

Name & Description

Mlr
Code

Mlr Part Number

14752
OOOFG
59660

C-2585
PME271Y422
OBD

71400

MDA 10

S3629

FST034-312

T0946

NSDL05A

CHASSIS PARTS

C100
C101
C104

285-0981-00
285-1192-00
283-0358-00

F100

159-0057 -00

F100

159-0210-00

F100

159-0211-00

(DAS9129 ONLY)
FUSE,CARTRIDGE:3AG,10A,250V,SLOW-BLOW
(STANDARD ONLY)
FUSE,CARTRIGE:DIN 5 X 20MN,250V
(OPTION A1,A2,A3 ONLY)
FUSE CARTRIDGE:3AG,5 AMP,250V,SLOW BLOW

F101
J150
J151
K101
L100

159-0125-00
131-1315-01
131-1315-01
148-1005-00
108-1115-00

(OPTION A4 ONLY)
FUSE,THERMAL:150 DEG C OPEN30A MAX,AX LD
CONN,RCPT,ELEC:BNC,FEMALE
CONN,RCPT,ELEC:BNC,FEMALE
RELAY,SOL STATE:250VAC,10A CONT,12VDC
COIL,RF:FIXED,DEGAUSSING

27012
24931
24931
05292
80009

4300A
28JR 306-1
28JR 306-1
C1-12D-PC-24
108-1115-00

Q155
Q160
Q165
Q170
R100
R101

151-0625-00
151-0426-00
151-0426-00
151-0426-00
308-0634-00
305-01 04-00

TRANSISTOR:SILlCON,PNP
TRANSISTOR:SILlCON,NPN
TRANSISTOR:SILlCON,NPN
TRANSISTOR:SILlCON,NPN
RES.,FXD,WW:12.50HM.1%,5W
RES.,FXD,CMPSN:100K OHM,5%,2W

03508
03508
03508
03508
91637
01121

D45H11
X44H242
X44H242
X44H242
HL605Z812R50F
HB1045

R645

311-1365-00

01121

11M164

S100

260-0638-00

93410

430-364

S101

260-1901-00

15605

7320K55 29-761

S101

260-0413-00

73803

20700L63-253

S102

260-1663-00

14604

3450-21-418

S103

260-1967-00

OOOFJ

4021.0512

S104
V315
W81
W100

260-0574-00
154-0857-00
175-4097-00
179-2777-00

SWITCH,PUSH:SPDT,10A,250VAC
ELECTRON TUBE:CRT,HI-RESOLN COLOR
CABLE ASSY,RF:50 OHM COAX,12.0 L,9-0
WIRING HARNESS:POWER
(FRONT FAN TO INTRCON BD & REAR FAN
DAS 9109 ONLY)

04426
OOOKL
80009
80009

76-2351-404
220DB22
175-4097-00
179-2777-00

W100

198-4688-00

80009

198-4688-00

W101

198-4689-00

80009

198-4689-00

W110

179-2869-00

WIRE SET,ELEC:
(VOLTAGE SLIDE SW TO J105 MAIN
INTERCONNECT BD DAS 9129 ONLY)
WIRE SET,ELEC:
(LINE SELECTER SW TO J11 0 ON W11 0)
WIRING HARNESS:POWER SWITCH

80009

179-2869-00

W112

198-4691-00

80009

198-4691-00

W119

198-4690-00

80009

198-4690-00

CAP.,FXD,PLSTC:2.0UF,10%,400V
CAP.,FXD,PPR DI:0.0022UF,20%,250VAC
CAP.,FXD,CER DI:0.01 UF,+80-20%,1.4KV

B010400

B010100

B019999

(DAS 9129 ONLY)
RES.,VAR,NONWIR:50K OHM,20%,lW
(DAS 9129 ONLY)
SW,THERMOSTATIC:10A,240V,OPEN 75 DEG C
(DAS 9109 ONLY)
SWITCH,TOGGLE:DPST,8A,250V
(DAS 9109 ONLY)
SW,THERMOSTATIC: 1 OA,240V
(DAS 9129 ONLY)
SWITCH,THRMSTC:C,OPEN 100,CL 88,8A,250V
(DAS 9109 ONLY)
SWITCH,SLlDE:DPDT,5A/250V

(POWER SW TO P110 ON W101)
WIRE SET,ELEC:
(FRONT FAN TO J419 ON MAIN INTCON BD
WIRE SET,ELEC:
(DEGAUSSING SW TO J119 ON MAIN
INTCON BD DAS 9129 ONLY)

~

10-94

REV MAR 1984

Replaceable Electrical Parts
CAS 9100 Series Service Vol.1I

Component No.

Tektronix
Part No.

W121

198-4685-00

W150

175-4097-00

W151

175-5703-00

W155

198-4686-00

W165

198-4687-00

W320

198-4652-00

W351

175-3868-00

W367

175-4383-00

W400

175-3867-00

W415

175-3864-00

W420

175-3095-00

W421

175-4522-00

W422

175-4522-00

W422

198-4651-00

W423

175-3672-00

W440

175-3865-00

W470

198-4403-00

B010100

W470

198-4403-00

B020220

W470

198-4403-00

B010100

W470

198-4403-00

B020240

W524

198-4457-00

W645

175-5700-00

W650

175-4779-00

V315
V315

154-0857-00
154-0857-01

REV MAR 1984

Serial/Model No.
Eft
Dscont

Mfr
Code

Mfr Part Number

80009

198-4685-00

80009

175-4097-00

80009

175-5703-00

80009

198-4686-00

80009

198-4687-00

80009

198-4652-00

80009

175-3868-00

80009

175-4383-00

CA ASSY,SP,ELEC:10,26 AWG,8.0L,RIBBON
(J400 ON DATA BD TO J131 ON SERVO BO)
CA ASSY,SP,ELEC:3,26 AWG,7.0L,RIBBON
(J415 ON DATA BD TO J131 ON SERVO BO)
CA ASSY,SP,ELEC:8.26 AWG,3.0L,RIBBON
(J2 ON STATUS BD TO J420 ON DATA BD)

80009

175-3867-00

80009

175-3864-00

80009

175-3095-00

CA ASSY,SP,ELEC:10,22 AWG,8.0 L,RIBBON
(J421 ON MAIN INTRCON BD TO P2 ON
DISPLAY BD 9109 ONLY)
CA ASSY,SP,ELEC:10,22 AWG,8.0 L,RIBBON
(J422 ON MAIN INTRCON BD TO DEFL BD
DAS 9109 ONLY)

80009

175-4522-00

80009

175-4522-00

WIRE SET,ELEC:
(J615 ON DEFL BD TO J422 ON MAIN
INTRCON BD DAS 9129 ONLY)
CA ASSY,SP,ELEC:16,28 AWG,16.5 L
(J429 ON MAIN INTRCON BD TO KEYBOARD)
CA ASSY,SP,ELEC:5,26 AWG,4.0L,RIBBON

80009

198-4651-00

80009

175-3672-00

80009

175-3865-00

80009

198-4403-00

80009

198-4403-00

80009

198-4403-00

80009

198-4403-00

80009

198-4457-00

80009

175-5700-00

80009

175-4779-00

OOOKL
OOOKL

220DB22
220DB22

Name & Description
WIRE SET,ELEC:
(J125 ON MAIN INTCON BO TO J101
ON CAP BRKT BO)
CABLE ASSY,RF:50 OHM COAX,12.0 L,9-0
(J72 ON MAIN INTRCON BO TO WORD BNG)
CABLE ASSY,RF:50 OHM COAX, 13.0 L,9-1
(J75 ON MAIN INTRCON BO TO TRIG INP BNC)
WIRE SET,ELEC:
(Q155 TO J155 MAIN PWR SPLY BD)
WIRE SET,ELEC:
(Q160,Q165,Q170 TO J165 MAIN PWR SPLY BO)
WIRE SET,ELEC:
(P320 ON Z-AXIS BD TO J320 ON SOCKET BD)
CA ASSY,SP,ELEC:5,22 AWG,10.0L,RIBBON
(J351 ON SERVO BD TO J425 ON MAIN
INTRCON BO)
CA ASSY,SP,ELEC:8,22 AWG,26.0L,RIBBON
(MOTOR EXTENSION TO J367 ON SERVO BO)

B010100
B020180

B020219

B020239

(J440 ON DATA BD TO
WIRE SET,ELEC:(9109
(J470 ON DATA BD TO
WIRE SET,ELEC:(9109
(J470 ON DATA BD TO
WIRE SET,ELEC:(9129

TAPE DRIVE HSG
ONLY)
MAIN INTRCON BD
ONLY)
MAIN INTRCON BD
ONLY)

(J470 ON DATA BD TO MAIN INTRCON BD
WIRE SET,ELEC:(9129 ONLY)
(J470 ON DATA BD TO MAIN INTRCON BD
WIRE SET,ELEC:
(J524 ON +5 PWR BD TO R720)
CA ASSY,SP,ELEC:3,26 AWG,30.0L,RIBBON

B020179

(BRIGHTNESS SW TO J645 ON DEFL BD
DAS 9129 ONLY)
CA ASSY,SP,ELEC:7,26 AWG,7.0L,RIBBON
(J650 ON DEFL BO TO J301 ON SOCKET BD)
ELECTRON TUBE:CRT,HI-RESOLN COLOR
ELECTRON TUBE:CRT,HI-RESOLN COLOR

10-95

Section 11 - DAS 9100 Series Service Manual Vol. II

DIAGRAMS AND

C~RCUIT

BOARD

m

Introduction
V14.15,1966
V14.2, 1973
V 10. 5, 1968

Graphic symbols and class designation letters are
based on ANSI Standard Y32.2-1975.
Logic symbology is based on ANSI Y32.14-1973 in
terms of positive logic. Logic symbols depict the logic
function performed and may differ from the manufacturer's data.

Drafting Practices.
Line Conventions and Lettering.
Letter Symbols for Quantities Used in
Electrical Science and Electrical
Engineering.

American National Standard Institute
1430 Broadway
New York, New York 10018

The overline on a signal name indicates that the signal
performs its intended function when it is in the low state.

Component Values
Electrical components shown on the diagrams are in
the following units unless noted otherwise:

Abbreviations are based on ANSI Y1.1-1972.

Capacitors = Values one or greater are in picof.arads (pF).
Values less than one are in microfarads
(tlF).
Resistors = Ohms (0).

Other ANSI standards that are used in the preparation
of diagrams by Tektronix, Inc. are:

- - - - The information and special symbols Ibelow may appear in this
Assembly Numbers and Grid Coordinates

The schematic diagram and circuit board component
location illustration have grids. A lookup table with the
grid coordinates is provided for ease of locating the
component. Only the components illustrated on thefaci ng
diagram are listed in the lookup table. When more than
one schematic diagram is used to illustrate the circuitry on
a circuit board, the circuit board illustration may only
appear opposite the first diagram on which it was illustrated; the lookup table will list the diagram number of
other diagrams that the circuitry of the circuit board
appears on.

Each assembly in the instrument is assigned an
assembly number (e.g., A20). The assembly number
appears on the circuit board outline on the diagram, in the
title for the circuit board component location illustration,
and in the lookup table for the schematic diagram and
corresponding component locator illustration. The
Replaceable Electrical Parts list is arranged by assemblies
in numerical sequence; the components are listed by
component number "(see following illustration for
constructing a component number).

Function Block Title -_...
Internal
Screwdriver
Adjustment
Cam Switch

f6~~i~di~~t~~

manuaL-~-

. . . . . . . .:t=========::::::::::::::----'L--------''---::::::::::::::===-____.

~''-_",

Modified Component-See
Parts List (Depicted in grey,
or with grey outline)

........ --.~~. Strap or Link

~

~

_. '-+4-+'----· T ...= ,/
Plug to E.C. Board

switch closure)

I ~0\1Identifies Panel
on rols, Connectors and

Etched Circuit Board

Outlined in Black

Indicators
Coaxial connectors:
male
female
Plug Index; signifies pin No.1

ICtype---HL

External Screwdriver Adj.

Test Voltage

Shielding

Heat Sink ....
Selected value, see Parts List
and Maintenance Section for
Selection Criteria
P/O-Part of
circuit board

BOARD
R330

Assembly Number
Tektronix Part No.
for circuit boards

Decoupled or Filtered
Voltage

1\< COMPO~ENT NUMBER EXAMPLE

SYNC

GENERA TOR

<§>
\z,

Refer to Diagram Number

Schematic Name
and Number

o-i

COLORS ON SCHEMATICS

~lLUSTRAT~ONS

Symbols

@

III

Some of the schematics in this section are color-coded. This
coding indicates the flow of the self-diagnostic tests
contained in the DAS. Each separate color stands for an
individual diagnostic function. The correlation between colors and functions is indicated in the legend at the lower left
corner of each color schematic.

PARTS OF THE COLOR SCHEMATiCS
There are three parts to each color schematic in this
manual:
o

Color. The color follows the lines of the schematics that
are first used by a diagnostic function.

m

Legend. The legend makes the correlation between colors and specific diagnostic functions.

"

Function Tags. The function tag at the beginning and
end of each colored line indicates all functions that are
present on the line.

The colors on the schematics indicate the presence of a
diagnostic self-test at the point the color is present. The
specific color at any point on the schematic indicates only
the first diagnostic function that is run at that point on the
board. (This has been done to avoid possible confusion arising from trying to show multiple colors on a single line.)
Note, however, that if the diagnostic test functions are run in
the recommended sequence, then any circuitry that was
tested by a previous test is not shown in the color of the
most recent test. Only the new circuitry that is tested by a
diagnostic function is indicated in the colors of the
schematics.
NOTE

Any color will always stand for the same test on all
schematics for one board. That same color may be
used on schematics for another board and signify an
entirely different diagnostic test function. Colors are
consistent on anyone board, but do not try to relate
colors on one board to colors on another board -there is no correlation.
To indicate which colors correspond to each diagnostiC test,
there is a legend near the lower left corner of the schematic.
Refer to this legend whenever the DAS self-diagnostics are
used to troubleshoot a board. On any schematic or set of
schematics for a board, one color always stands for the
same diagnostic function.

oZ
c
i>

At the point where a colored line enters or leaves a schematic, there is a note that refers to the functions on that line.
Use these function tags when tracing the sources of diagnostic tests through the schematiCS or when looking for circuitry common to more than one test. All diagnostic
functions that enter or leave the page at that point are indicated by the function tag.

C>

:0

TABLE 11-1
Ie Pin Information

The color on the schematics is designed exclusively as a
troubleshooting aid. Three examples follow that show how
the colors can be used to find circuit faults.

One DiagnostiC Function Failure
Start the troubleshooting procedure by running all the DAS
diagnostic functions on the board to be repaired. Suppose
only one of the tests failed. Note the function that failed, and
flip to the schematics for that board. Refer to the legend on
the schematic page to see which color corresponds to the
function that failed. Any point on the schematic that shows
the color corresponding the the diagnostic function is the
probable location of the failure.
Mu!~iple

Diagnostic Function Failures

Start the troubleshooting procedure by running all the DAS
diagnostic functions on the board to be repaired. Suppose
more than one of the tests failed. Note the functions that
failed as well as the numbers of the functions. Flip to the
schematics for the board to be repaired. Refer to the legend
on the schematic page to find out which color corresponds
to the diagnostic function with the lowest number.
Since more than one diagnostic function failed, the failure
must be in circuitry that is common to all of the failed tests .
This means the failure is on the color that corresponds to
the lowest function number. Find the areas on the schematics that show that color. Now refer to the function tags at
the beginnings and ends of lines of this color. Use the function tags to define an area in the failed color that contains all
of the failed diagnostic functions. This area will probably be
much smaller than the area covered by the selected color.

No Diagnostic Function Failures
When troubleshooting failures not detected by the
diagnostiCS, first define the type of failure and the possible
causes. Next, examine the white (uncolored) areas of the
schematics that might contain this type of circuit fault. (You
need only examine the white areas since all colored areas
are covered by the diagnostics.)

n
z

"D

Device Type

USING THE COLOR
IN TROUBLESHOOTING

»
s:
I/)

vee or VDD

GND

Device Type

vee or VDD

GND

Z
...,
o

10016
10101
100101
100102
100107
100122
100131
100136
100141
100151
100155
100164
10101
10102
10103
10104
10105
10106
10107
10113
10115
10123
10131
10135
10136
10138
10145
10146
10164
10165
10174
10176
10186
10188
10197
10216
10231
11 C01
1458
1488
1489
1692
2716
2764
4013 (B)
4025
6080
6500/1

7071H
7072
74S00 (LS)
74S02 (LS)
7404A
74S04 (LS)
74S05
7407
74S08 (LS)
74S10
74S11 (LS)
74LS14
74S20 (LS)

1,16
1,16
9,10
9,10
9,10
4,9,10,16,22
9,10
9,10
9,10
9,10
9,10
9,10
1,16
1,16
1,16
1,16
1,16
1,16
1,16
1,16
1,16
1,16
1,16
1,16
1,16
1,16
1,16
16
1,16
1,16
1,16
1,16
16
1,16
1,16
1,16
1,16
4,5
8
14
14
1,16
24
28
14
14
20
30,1
1,24
20,21
14
14
14
14
14
14
14
14
14
14
14

8
8
21
21
21
21
21
21
21
21
21
21
8
8
8
8
8
8
8
8
8
8
8
8
8
8
8
8
8
8
8
8
8
8
8
8
8
12
4
7
7
8
12
16
7
7
10
12
15
11
7
7
7
7
7
7
7
7
7
7
7

74LS21
74LS27
74LS32
74LS33
74S38
74LS74A
74S74 (LS)
74LS76
74S112
74S132 (LS)
74S133
74S138 (LS)
74LS139
74S151 (LS)
74S153 (LS)
74LS154
74157(S)(LS)
745161 (LS)
74LS163
74LS166
74S169
74S174 (LS)
74S175 (LS)
74LS193
74S196
74S197 (LS)
74S240 (LS)
74LS241
74LS244
74LS245
74LS273
74LS273
74LS283
74LS373
74LS379
74LS390
74LS393
74C374
7555
78L15
8251A
8257
8275
93422
9914
AM6080
CD4066B
DAC08
LM301
LM3M
LM3N
LM339
LM393A
LM393
LM358
M218
M223
MC3405
MC3423
MC3448
MK36000

14
14
14
14
14
14
14
16
14
14
14
16
16
16
16
24
16
16
16
16
16
16
16
16
14
14
20
20
20
20
20
20
16
20
16
16
14
20
8
26
31
40

7
7
7
7
7
7
7
8
7
7
7

8
8
8
8
12
8
8
8
8
8
8
8
8
7
7
10
10
10
10
10
10
8
10
8
8
7
10
1
2
4

40
20

20
20
8
20
10

3,13
+12 V7

NONE
-12 V4

7
4
3

11
12

22

7

8
8
8
13
27,39
4
1

16
24

4
4
4

19
11
7
8
12

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Number

A23

Pler'~-leelndO!ReplambI1E1eclncalrartsl1sl

t

FOR.

DAS9100 Series

A

p/o
CONT'ROLLE.R

r-

~f:::

CIRCUIT
NUMBER

SCHEM
LOCATION

A5

S\.OT \

-

,,"ao
-

r--

Plo
,S\...OT 3

J'O

-

A" 1-_~~",_ _IA>7I------_IAI1

p/o
SLOT 4-

J"O

-

POp,T \

617

AlB

A\sl-------IAI7

B3z'

PORT 2.

B18

8\8

81,

M3

.s~L.o:~O~3

AI")

AI")

Ala}------_jAI1

I-_T"A"-Pc.E=--=":=S'----iA I Z
"'U",._-iLJ--_____--1AI

B33

B \<)

BIc)

B 18

B 11

AN

A2.0

"-,")

/>..181_------iA"

sto

.s

I-- -i-SV

~\4.4KH'!"

6

o
L ::
O"'C-""c:
'bl-::

2

.sE~

p/o
.5\...01" 2-

J"\O

SEL SLOT 2.

R.~MOTE.

M4

p/o
SLOT .5

plo

p/o

SLOT &

S\..OT

J_o

0"50

r-

r-

61'1

81'

AI9
A.1...0

Bto

SE\.. SLOTS

M.I

A'?.O

BIB
AI,,)

BI1

A35

A~\

'B\~

KelT ¢

,1,2.\

MS

POR.T 5

8'LI

62.1

Bt..

51'}

618

lit

KeiTZ

AU.

A3&

SEL. SLoT6

An

A.'2.\

Ale

A.I"I

I>.\8}-------IA"

II

t<.elT.3

A'l.3

8:36

!=lOR, 6

BZ.t

an

82.\

eto

OCI"!

BIS

'a }-:;K,,"'C',.O'''::----l-l--------1A?c
" }-"K.::Sc.',.:.:s=-_ _-l-l_---;c=----1A25

Jt.,31

SE.\.. SLOT"7
PORT' (

A2.3
6t.:;.

A'Z.3
6'2.;

AU
'Ott

.0\2.1
B'Z.t

A.2.0

1<:)

'212.

"at"')

BIS

,.,2.

At

A'l.

A2.

A-aA

A2.4
102.4

603"1

A1.'l

7 1_----:::::~:..::----1.-I--------1A>eI-----':,,:::.'.!G---i.AZ4--------IA·2A
638

80S

'aDS

AISI-------iAn
en
el'1

A\S}-------IAn

BlA

1)2.4

B2.

Sl.

8'2.4

~2.

S!

1\'2.5

A'2.S

A?5

A2.

A2.S

/I.:'2.S

A1.5

B2.5

BaS

Bl.S

B2.5

B'2.S

'011

C1

A2
C3

13

BC4

_

63'}

8 D4-

e2.S

B1

15

Bo.3

_

M·o

SD'3

./1.:2.6

A'2.6

A.'2.6

;"2.6

A2.6

1l-:2.6

A.z."

A.2.("

C1

,"-

52'"

B2.

BltO

82.6

82'"

B2.6

sa6

B2.~

1\'2.1
82.1

A2.1
82.1

A:Z.l
sal

A",
8'2.,

AZI

A1.1
82.1

"':2.1

~2.1

'02.,

A2.1
82.,

"21-------i".,I_------i1>.2.8

A2.8

AlB

A.?.8

i:l+2

82.l'>

B'2.e

A.'l.&
82.e

Baa

A.2."'!

II

C1
C1
01
01
E1

C3

: --r-+ 5V

B1

.......J 1<.8lT6

A5

B2
B3
B3
B2

A4
A1

B1

A5
E1
F1
F1

A5
A5

C3
C3
C3

eo2.

A3'}

M

BDI

17
18

SDal

f

_

• }--'.O=-"'-----{..--t---,~~""'~rlAZ.

----t>

"7

Ie;

I-_T.cAOC"""-,--'"R,,E=-SE.=-''--!I\\3

2.01--+12.'0/

1>.1£
8'2.8

AZ.~

"?-9

A2."1

82.<;1

A'l!'1
S?.cl

/>,2.'1

82.'1

B2.Cf

1\"30

A,30

- -

/1.2.8

"'2.9

1>.2.9

&2."1

82.9

,.,30

/I..~O

/l.,3\
631

A'31
831

"3\
83\

A31
83\

1>.3\
831

/>..3\
83\

-

A,46

'0,1>..9

,1.32.

A32

1>.32.

/1.32

10.32.

A,:''2.

,1.,32.

A32.

8\6r---

846

0;;,,,,,

B

83'2.

832

B32.

BSt

a32.

'P3t

1'1)2.

/1."2..11-

.l\41~,I>., 1

B3~

,11..33

A33

1'1.33

1>.33

/1.33

/1..33

A.'~•.3

.1>.33

/1..'331-

847

633

833

'033

B33

B33

.,33

1'133

'a33

~

1'134

~

B3<\

~

B34

-

B34

-

B'34

~

B34-

-

A35

.1>.35

A3S

A3S

A3S

!\:'S

1'1.:'5

aS5

635

1'135

1'135

6'35

1'135

11.36

1'1.%

!\3E.

11..36

.10.,%

1'136

1'136

B36

e3f,
".1<>

636

A+5
645

'OA-I!

:::~

s ... ~

BA5

A.~O

~~e

El~'"

g

A4"l

BA3

A'SS

'B4"l

SA. '2.

BSS

BA \

1'1.36

:"36

~36

,< r-----'''-'''------I---t:_-JS=-''~'ii7L;:,=:S~=L"O':,T~''8---j_lB50
B:96
4AI I
POR;, 8
A I }------_j,A("

B%

1'136

1-----:""-",,',----1._1--------11'1.5
B'

B'
A.3

5b

4-

r--=S~EL~s~c~or"":'--1A2

1-~,;,P,;O"";,;T",,,'=_IBa
SEL SLOT"IO

634

I:.~

e,l>.,~

}-",';';;;;;;";;",,_j61

AZ

~-I"2..V

B2.B

-

'CA'1J

lTl=:'zv

828

-

14

p/o

82.8

B2.5

-

"

834

(POWE.R)
TAF'E.. ORIVE
,]42.2.

B~\S
::::

A4

~

4

A43
A'

A\~/-

03
03
B3
B3

So¢,

M:9

~
AIOA14l-

C3
C3

BDI

.11.'2.5

B~5

-

• }-"-'=-"-'-'O:.O"'w="_----.,I--l--_ _ _ _ ___jA2.B

3

MI
8+1

Bea

i

JOo

r-

"'BIT I

r---

B~"

SE.I... SLOT ....
POR.T 4-

F

13

.,

C412
JOO
J01
J10
J131
J20
J30
J40
J421
J422
J423
J431
J432
J50
J60
J70
L418
R432

r--

plo
St..OT \

E

831

4

15
14

BOARD
LOCATION

J¢9

J"13\

D

A'!>'Z.

Table 11-3M

ASSEMBLY A01

,pic
SLOT 0

./0

\tJ.TE,RFACE.

""a'
r-

J"43\

0

p/o

plo
TAPE. OR.IVE.

1

INTERCONNECT BOARD M

c

B

AI:,

1'1.6

8..

66

4-

Ur

1>.30

8Z"l
A30

A6

At..

66

+,

4-

eb

B2."i
A30

-

A31
83\

Ab

'C"

/>..31
83\

B3

A ..

BoS

Bb

4-

U_

4-

'

1'1.'3

s,I-~~P~0~R~T~'O~_j.3

..

A4

EXPANSION
?OWER ON

J43Z.

<~

-I

A5

'#'v-

A4
1'14

A.6

SEL Sl.OTI3

56
AS

t=~P~O~"~T~'3~j Be.

+51/

~

5

PORT II

as }-",,,0,,:O~R,eT~IZ~_jB5

R+32.
4;70

S~l. SLOT\\

SE,L SLOT 11. AS

SEL SLOT 14-

At..
t...7

COMPONENT NUMBER EXAMPLE

a B I-",,;,O~O~R;;T~'4~-I"'
/>."-t

f\/\O N \ TO R

BC)

Se:;L SLOT 15

Compolrenf Number

AS

A23i' R1234

1_--,0:;00:,:"",'-,,"'---1, B

~"emblyT
L
/lumber
Sub,ssembly

~'
A\5}---;.,-",':;0'(;/::3==-I""
'I-.cH-'-0=-R,,"'' -=-SY.c"-'-CO-_ _ _ _ _ _ _--1621 ~::~ Sc.::C BI3
I
'=j

--{>v
VER.T

SYNc..

C.RT
+\'(..1/ -

--t>

-,

I-l~~,.;.v"'-t''l.V

L4\8
II'h.l..r.

L-

C4-I'Z.

T 3qO/.J...~
9

-+

eireuri
N"mlJer

CCJs.111--'=-;'-:':"-cc=-''''---i~14
B'Z.B
VeR.T SYt--lC
'014

\!IOEO
S 1--" ' = = - - - - - - - - - - - - - 162.9
10

Schemlri~

Numb.' (:1 """)

+5V'--tL A. \6
51"

L ""
-,2,-J'LAI'

tI

'018

Devices

See Mdmtenance SectJOn

B\~



A

c

B

o

F

E

DAS 9100 Series

COMPONENT NUMBER EXAMPLE
Component Number

Ass~mD!

Numbe~

Table 11-4M
INTERCONNECT BOARD M

1

0

BOARD
LOCATION

CIRCUIT
NUMBER

plo
2t3V

rBOTH

+3V

.50-"-

I~~
SCHEM
LOCATION

S LO T
J2.1

I

r-

ASSEMBLY A01

CIRCUIT
NUMBER

p/o

plo
5LOT
JI I

SCHEM
LOCATION

SO

BOARD
LOCATION

RI2e -4

9/A06 INiL CLK

AI3

INTL eLi<.

91A08

813

tili°-

5 L0 T
J_ 31

SL 0 i 4
J41

:JI

' W >s- AIO

R2.0C- 4
v-BIO

SIO

AI3

AI3
BI3

p/o

pio
3

A13!

BI3

813

plo

SLOT 5
'::"='1

A2
A4

AS
B2
E1
F3
FS
A1
B1
C1
C1
D1
E1
E1
F3
A3
A3
A3
A3
A3
A3
A4

A3
A2
A1
A2
A4
A4

AS
A2
A5

C1
C1
C2
C1
D1
D1
D1
C1
C1
C1
C1
C1
D1
D1
D1
C1
C1
C1
C1
C1
C1
C1
C1
C1
C1
C1
C1
C1
C1
C1
C1

R16B
R16C
R17A
R17B
R17C
R18A
R18B
R18C
R19A
R19B
R19C
R20B
R20C
R20D
R60C
R60D
R60E
R6SA
R6SB
R6SC
R71A
R71B
R71C
R72E
R74A
R74B
R74C
R7SA
R7SB
R75C

AS
AS
AS
A4
A4
A4
A4

AS
A4
A4
A4

B2
B1
B1
E1
E1
F3
F4
F4
F4
F4
F4
F4
F2
F4
F4
F4
FS
F4
F5

C1
C1
C1
C1
C1
C1
C1
C1
C1
C1
C1
C1
C1
C1
D1
D1
D1
D1
D1
D1
D1
D1
D1
D1
D1
D1
D1
D1
D1
D1

2

C2.0

BIO

BIO

AI3

f

IM.f

+SV
I

+3V

AI5

50

RI5F -7

--"M-

2. 2.0 JL

BIS
A"2.3
11.18

I.

N.U.

91A32. TRIG ¢

RIIA-2.

~'W>-

RIlC-4

ALL
50-,,-

R II B -.3
RI 2.B- 3

CLK3
C.LK3

84-

FIRST C.LOCK

All
RI3 C-4
RI2.A-2.

Clc;,
f"

~

RI4"'- 2.
RI'lA.- 2.

+3'1

RI'1B-3

4

~~
RIBA-2.

ALL

RI7B-3

lOOn.

~'Wv-

RI7C-

4-

AI4
B/8

E.CL FUTURE
')IA08 DATA wr<
91A08 C,LITC.H BUS

BI9

EXP

82.0
A2.5

PCI
pc. 2-

A2.7

Pc..3

A2.8

PC 4-

A2.9

PC-S

A30

RIBB-.3

PC-6

f - - ' W v - A31

RI8c:.-4

so .R-

\.

R16C-4

{

R168-3
RI6A-2.

A33

f - - ' W > - B2.b

R14B-3

~'YVV-

PC.7

/>,32.

82.7

B2.S

CLK.

pc.¢>

A2.6

PG

E.XT

P6

E.XT INi

PG

CLK

EXT PAUSE

PG E.XT TRI-Si

RI7A-2.
PC;; EXP TRI-ST
~"""- 8a'l
C I 9 ...'::

100 .n..

4-

AIS

I

91AOB P CLK.



E)(." E

AS

AS

A"l

A9

A"l

AI5

AIS

AI5

BI5

R.'2.E.

A7.:;

A2.3

A"2.3

6 2.2.0
A2.3 t---'W>- t5V

AI8

AI8

AI8

AI8

AlB

AI8

BIS

AI

&1

L

81

BI

L

AI

AI

BI

83

B3

63

83

83

B3

A2.

11.2.

A2.

I>,"Z.

A"Z.

A2.

A4

1>.4

1>-.4-

A4-

A4

A4

B4-

B4-

B4-

64-

B4

'04-

All

All

All

All

All

All

,b..14

,b..14

I>,IA

AI4-

BIB

BI8

BI8

'a18

BI8

BIB

819

BI.,

820

819

BI9

Blc)

B2.o

'020

Bao

Baa

A2.5

A2.5

A?oS

11.2.5

A2.S

A2.6

/>,2.6

A2.1>

A2.t"

A2.6

Al7

A2.'

A2.'

A1..7

A2.1

A2B

A2.8

A2.8

1>."2.8

A2.c

A2.9

A2.'l

A2.Il

A2.'l

A2.'l
A30

WORD

le'l

6 RroOE ~ 11.lj:

'-R'"

} A'_C

50-,,-

3-R116

A30

"'?lo

A"'30

A"'30

A31

A31

A3\

"'3\

A31

A32.

A32.

A32

A3

1>.32.

4-R."lIC
B2.0 ~'W>-~F3V
2.- R"'SA.
"\'3V
A2.5
3-R",SB
A2.6
4-R.:3
BI

17

(

BIS

AI

"'' 'AI..LP'

TRI",('ER
ENABLE

A'l

r---

JI5
r-

Ate

AI5

L

Wl51

BI5

AI

CLK 2.

A4-

QUA.L

BI5

AZ3

CLK 2.

/>'2.

91A08

BI3

A2.3

81

B3

, - A'l

SO

813
814

BIS

C.LKI

BI

RIOC-4
~'W>-

AI5

B8

AI3

L
a

Chassls·mounled components ha~e no Assembly Number
pre/ix-see end of Replaceable Electrical Parts List

1(-1>

AI4

91A08 P CLK

~~~~I!r

C60

L

91A08 P CLI<.

Number (If used)

BOiH SOA Ill.-\'

BII

CLKI

' W > - - AI

R.IOA.-2.

QUI'.L

~IA32.

RIOB-3

~'W>-

3

t3Y
91A3"2- INTL CLK

r------

AI3

4-R"',~C

iTLsChematic

- - Subassembly

r-

AIO S-RC00ti-=

r----

~

+3V

r-

BI3

B8

1Al.{~B_3

c
R13B-3
)
O--'W>,,11
STOP PG
.s TO P P"
,1,12,1,1'SR.D0
-El G
r
BZ,
8z.3
+5V I
EVENT I
6 13
11,2.1
A2. I
I
D15
EVENT 2.
R.15 I
A2.2,1,2.2Z2.0 I
CI4
EVENT 3
82.2.
",2.2.
>-'IN'v---c-

'CI5
I.u.~

__ -.l

~

-

82.

>--

,1,3

>--

......

66
6g

6\1
>-- BI2.

>--

>-- BI4
>--

A\'l

>--

A2.0

A24824>->-- B2.8
>-- 830
>-- B31
~ B3,~

833

~

4

"1" or" L

pic

SL.OT :3
eLL

L; -i r;

.sLOT

pIa

4

J51

JIoI

J4-1

82.1

62.1

A1"7
,1,12-

AI'
11,12.

,-621
A1"7
AI2.

623

62-3

e.z,

A'2.1
A2.262.2-

11,<.1

A2.1

A'Z.'2

A2.'2.

au.

622-

,--

plo

SLOT !o

J3\

-

pia

.sL.O' 5

r-

,--

sal

aZI

An

An

Ala

,1,1'82-3

923
11,'2.1

,1,2.1

11,2."2B2.'2.

r

oSLO,
J"71

sro---l
2.IA
41c

,~

A2.?. r---'lN'v--<
318
62"2.
L __

+511

I

I

R,12
I 22.0

I

-J

=: c

SHIE~D

>- B5

3

pic

a

Subassembly
Number (if used)

Chassis-mounted components h~~e no Assembly Numb8f
pl~rjx-s€e end of Replaceable Electrical Parts list

-

>--

A'
>-- B7
>--- AI6
>-- Blo,
>- A34
1-- B34

\7

~35

B35

,1,%
B3b

4\

pic
SLOT
J 2. I

SLOT
J II

TTLscnemaric
r~:~~;r

I

SHIE.LD
SI-\IELD
.5\4 I ELP
SI-\IELD
51-\1E.LO
5H\£..I.-D

5\-\!

E.~D

SI-\IE-LD
S\--II~LO

.5I-\IELD
SI-\IE.LD
SI~\ELO

.51-\1E:LD
.5 \-\IE.LO
S\--IIELD
.5111 E.LD
6ND
6ND
G.ND

GND
GI-\D
6f.\D

-5V

-sv
tGV
tbV

62.

Ba

Ba

\32-

A3

A"3

A"3

A"3 --l>

BS

B5

BS

B"

".:0

65
6("

6'1

6"1
611

S'l

811
BI2

B'I
6\1
812.

61z

814

~14-

AI'I
,1,'2.0

BS

--l>

65

~

I---<

t-<

B'l

B<)

I---<

BII

611
61'-

811 t-<
81z. r--<

~\4

812
814-

A 1"1

A1'1

A 1'1

A"2.0
A'2.4

A2.'"
..... 2.4

AZo

A\q
AZO

A'2.

A2A

A2.4 ---<

B2.4
B26

824-

BM --<

82.8

82.4
BZS

82.4

BZ6

62.8 --<

~30

8:'0

830

830

1330 --<

831

63\

831

831

83Z
833

832-

831 --<
832. --<

Al
B1

AZ4
BZ4

8Z6

630
631

6b

~

B'4- r--<
Aig I---<
A2.0 r--<

S32

832

B32

B.33
A,

1333

833

Al

A'

Bl
All,

lOr
AI6

.81
AI6

Alb

Ai
87
AI6

B16

B\b

BIb

816

Bib

81b

A34

,1,34

A"'>

A,,4

B34

B34

A34
B34-

B34

834

A34
834- --<

A"35
635
A36

.!.35
835

B33

633
A,

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A35

A35

B35

835

63S

A36

835
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A~6

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B3b

B3b

B%

836

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636

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4-

4-

4-

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See Maintenance Section

IN,ERCONNECi BD.
R.E". \.lO",

DAS '1\00 SERIES

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A

B

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1

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B

0

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A

c

B

1

D

L126

E

J72

o
,..,.

J131

o

!o

f' .".""'.

J101

10,1

L 127

RT111

<

i i"
J01

~ J21
J11 a:

J31

J41

J61

J51

J71

J401
~C50

J421

;J80

·~:J:~2..'E."

R432

C82
J43:2

4
IV:\ Static Sensitive Devices

\2::1

JOO

See Maintenance SectIOn

J10

J20

J30

J40

J50

J60

Companent Number

3836·232

, A23 A2 R1234 '
Assembly
Number

TTLSC~~~~i'C
Subassembly
Number (if lised)

Number

Chassis· mounted components have no Assembly Number
prefix-see end of Replaceable Electrical Paris List

iNTERCONNECT BOARD
Figure 11·2C. A3l Interconnect Board Location.

'J425
J410l

C80
C81

C436

I.:..JAl22.,

i"~

Figure 11·lC. A3l Interconnect Board Component Locations.

3836·254

A

pia

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MAIM POWE.l\

1

Table ll-2C
INTERCONNECT BOARD C

~

J~

C20
C30
C436

0

cso

C80
C81
C82
JOO
J10
J101
J131
J20
J212
J212
J30
J311
J311
J321
J40
J50
J60
J70
J80
J80

A4

C1
E2
E1
C1
B2
B1
D1
D1
E1
F1
F1
F5
F4

03
03
C3
E3
E3
E3
E3
04
04
A1
C1
04
B2
B2
04
B2
B2
C2
04
E4
E4
E4
E3
E3

,t

+5'1"-

AI

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c

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,

ASSEMBLY A31

I.
IS

0

C420
JOO
J01
J10
J20
J30
J40
J422
J425
J427
J429
J432
J50
J60
J70
L420
R432

A5
C1
B1
C1
01
01
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A4

B1
A1
A5
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F1
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A5

C3
04
02
04
04
04
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,,31

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p/o
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J~

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.
INTERCONNECT BOARD

"10

p/o

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DAS 9100 Series

A

c

B

E

D

F
CO~'PONENT

NUMBER EXAMPLE

Component Number

• A23
Assembly
Number

p/o
SLOT
JII

r--

Table ll-4C
INTERCONNECT BOARD C

0

C10
C11
C14
C15
C61
C73
J11
J21
J31
J41
J51
J71
R10A
R10B
R10C
R11G
R12A
R12B
R12C
R13
R14A
R14B
R14C
R15A
R15B
R15C
R16
R17A
R17B

SCHEM
BOARD
LOCATION LOCATION
B2

A4

A2
A5
F3
F5
A1
B1
C1
C1
01
F1
A3
A3
A3
A2
A5
A5
A5
A5
A3
A3
A3
A3
A2
A2
A2
A4
A4

01
D2
01
02
E2
E2
02
02
02
02
E2
E2
01
01
01
02
02
02
02
02
01
01
01
01
01
01
01
02
02

CIRCUIT
NUMBER
R17C
R18A
R1BB
R1BC
R180
R1BE
R18F
R1BG
R1BH
R19
R29A
R29B
R29C
R61A
R61B
R61G
R71A
R71B
R71C
R72
R74A
R74B
R74C
R740
R74E
R74F
R74G
R74H
R76
W150
W151

,sOA

50

Rls6-3
50

SCHEM
BOARD
LOCATION LOCATION
A4
A4
A4
A4

A4
A4
A4
A4

A5
A5
C2
C1
C1
E1
E1
F3
F4
F4
F4
F2
F4
F4
F4
F4
F4
F4
F4
F5
F5
F3
F2

02
02
02
02
02
02
02
02
02
02
01
01
01
E1
E1
E1
E2
E2
E2
E2
E2
E2
E2
E2
E2
E2
E2
E2
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+5V
+3V

AI5

51

R IIG- 8

al5

- - - - " M - A2.3

2. 2.0-"-

,

Ala

(NOT

ALL

f',IOC-4

SOA

P,IOe-3
RI5A-2.
f',nA-2.

I~

R1l8-3

Ill..

R11C-4

"I

R18A-2
RIB6-3
RIBC.-4

RIBD-s
ALL

RI8E-t.

\OO..A.

R18F-1
RI8G-8
RI8H-"I
R 19 - 51-"-

1\12C

ALL
50.n.

{

RI2.8

RI2A
1\13

IS

4

eLK:!.

clk3

A4-

64
All
1\14
BIS

CLK3
FIRS T

e:CL FUTUP-.<.

cHADe, GLITCH BUS

819

EXP

pc:.. 2.

2.1

pc-3

/.\2.8

4pc..s
PC.

2.'!
30

PC'T

'32.
1'1.33
St.l

3 8 M>
2. .~.
51..11.

at.'

+

P.G.. EXT
P6
P'"

eLK

I:..XT INT

Ir,l{l'

AtO

815

Ac)

A"l

AIS

AIS

~a3

1>,23

A.'t

A2.;

,,1-

1\2.3

AIS

11.1&

AIS

11.1 !l

....I!)

1\,16

L

PAUSE

Pel E.I(T TRI-ST
PC:; El1.P TRI-

r=g,

AI

Ell

A.\
81

SI

AI

L

1>.,3

L

sa

Ell

B3

83
A2.

133

B3

83

11.2.

A2.

Aa

A4

A4

A.4-

AI,

A4

A4

El4-

64

S4

B4-

B4-

B4

All

All

All

All

81&

BI8

1\11

All

1\14

1\14-

/,\1

AI4

ala

618

818

BI8

81'1 t----

8/q

BI~

81'1

,~o

B20

S2.
I

I'll'l
82.0

52.0

AlS

A1..5

A~S

2.5

A1..5

112..S

A2.6

Al.I.

Aat.

A2.<>

AU.

2.,

Atl

2.1

A'Z.1

A'l.1

A2.1

Az.-!

A2.B

112.a

111.8

11.1.8

A
Al'!

30

A30

A30

31

A31

A31

~31

,1,31

32,

11.32-

A32- -.

A3'

10,32.

~"33

~33

"33

"'3

1>2.1

62.1

tt.

2k
el.!i
at'!

82S
l."l

+

+

:13

30

,0

2.
AZ.q

A3

3\
11.32

REAR.
~A.NEL...

0,",

.nfo

'! IA32.. TRiGo I

P'72.

.11.\."

RwlC

a-RIIA

} ,cc
SO-"-

3-R"6
4'R"C

2.

R14-A

:;I

R148

S'Z.,
Btb

"'u

82.f.

t.S
at,!

825
Bt.'t

B2~

Btq

sas
BZ"

4-

+

l+

4-

~3V

I

I t3V

4- R14C
5

R14P

ID

Rl~

7

Ri4-F

ALL

looe

8 Rl4G

'1 R14tt

-

Sz.,
Rl«>
51

,

C73

IV:\ Static Sensitive Devices
\.2:::1 See Maintenance Section

IN"TERCONNt:CT 8D.

DA5 '1129 INTERCONNECT
HIGH SPEE.D BUS (COLOR) C
DAS Ql09 INTERCONN EC.T

~

HIG\-\ SPE.ED BUS (MONOCHROME) N\

JI50

~M

lC~I
4-

0151

MOLlIo4TEO
+5V

33

sz.,
'"

2.1

alo

81

A 2..

2'!

8

AI

A2.

Atq

P15

R'7C!.G

BIS

53

At'!

@fF1

E)<, TERNA,L
-.115
TRIGG,ER ENABLE

AS

1\15

p/O A31

DAS 9100 SERIES

/>, ..

AS

1315

A2.~

\'>c.",

31

Aq

P CLK

813

AI5

82.0

PCI

U.

136

I

a.
4>

813

A13

1315

BI'!
CLlt..

~

IItS

f-- '11,0,08

814

R"IAJ

EllS

CLOC.K

glADe DATA WR

82-

QU/h,L

P CLI<.

L

end of Replaceable Electrical Parls ust

-

1\15

51

CLK 2.

A 2..

,$0

~1A.o8

~IAoe

1>14

Schematic
CircUil
Number

BOTl'ISOA

AI3

L

prefi~-see

15

AI

CLK I

t'll

AIS

(111\,08 P CLK

t--

I--

2-

+3V
Rl..llill

L

Subassembly
Numb~r (If ~s~d)

SLOT "1
J71

BI7

CLlt I

RI4C- 4
1--"""'- 03
R146-3

QUA-I...

91A32. TRIG ¢

RI4-A- 2.

RloA-2.

USED)

91 I>., '32

AI

c

ItoITL CL-K

q1A3~

Rib

!;.f

t3V

1310

613

BS
2.
,---- A~

J61
r-AI0 3

13

813

6S

.'Ll~~A

_I

AI3

BI3

cia
C 14~

-

r--

SLOT ..

R1234 '

ChassIs, mounted components ha\'e no Assembly Number

P/O

pIa

J31

AI3

91..,08 INTL eLI<.

pia

pIa
SLOT ....

3

SLOT 5
J51
r--

C.LI(

2

5

SLOT
+3\(

BOTH
RISC-4

I

pia
1-

r-

+3V

ASSEMBLY A3l
CIRCUIT
NUMBER

plo
S L-OT
Jl.1

I

g

'T"!

~,

~

o

DAS 9100 Series

A

c

B

o

F

E

1
pic

Table 11-5C
INTERCONNECT BOARD C

SLOT
JII

-

0

e~1

ASSEMBLY A31
CIRCUIT
NUMBER
C12

C70
J11
J21
J31
J41
J51
J61
J71
R11C
R11D
R11 E
R11 F
R72C
R720
R72E
R72F

~

SCHEM
BOARD
LOCATION LOCATION
A2
F2
81
81
C1
01
01
E1
F1
A2
A2
A2
A2
F2
F2
F2
F2

02
E2
02
02
02
02
E2
E2
E2
02
02
02
02
E2
E2
E2
E2

STOP
5>1

"'\\

U.O

r-

-F17

I

A. I '
AI2.

C l4

I

j;lb

I
I

L

2

"6

C I5

__ .-l

B'l:~

....2. \

..t.?
a2.'

SLO

T t.

.$T""T .... e.Q
STOP Pc.

SRCf>

I

EVENT
EVENT

~

EVeNT 3

-

62.1

pIa

SLOT Co

,rS\

,rCa I

SLOT" i
J"'71

8tl

821

6~\

BZI

An

Ali

plo

SLOT 3

Jtl
';:>

Bo

80

B'9

e~

e"!

6'1

!>'I

Bo) I--<

8\1

811 I--'

f4>

e2.
~s

e"

8" I--'

611

BIZ

B\t

!Ila

>-- 61+

814

~\4

814

1514-

AI'I

A 1'1

A 1'1

Alq

"~4

>-- !stS
)..-

830

)..-

831

I"- B~2.

633

--- "1

-->--

-----

e1
"'It.
81"

>-- ,1,34

COM PONE NT NUMBER EXAMPLE
omponent Number

T TRl[4;,',m'tic
A
23

CJrcuit

Numb€f

634
1\35

815
A3"

8U

-1-

S\\IE.LO
SHIE.Ll:>
SHIE.LO
SHIE.1.0
5HI&LO
S~\ELt)

SI-\ \ ELt)
.sHIE.LO

oND
,"1010
<01010
GIoIO

61010
<»,",0

-5'/

-5\1
't-,"V

t""

1\2.

,,2

t

'1.4

82.4
24
;!O

2.8
8

"'''I

Alq

I--'

,,2.

A2.

1"2.4

A2.4 I--'

82.4

82.4

82,4

8'2.4 I--<

82.8

82,6

830

830

82.8
830

8,0 I--'

Ate I--'

28 I--'

........

"31

31

831

B31

831

831

32-

53?

632-

832-

5.33

33

833

833

B32.
833

B3Z. I--'

,...,

r-

Ai
81

",1

",1

1>.'

1>.'

B1

81

B1

AI6

"IE.

AI"

AlE.

AI6

B' >Alt. r-

I.

Bib

81b

Bib

81"

BU.

"34
34

AM

/1.34

A3

"~4

,..34 ,.....

34

834

-34

B3

"'34 f---<
"'!oS
635

as

35

A3S

A.35

"-35

,.
'"
-{.--

835

835

35

835

36

A36

a6

~

3"

83E.

894:.

"';1.
"'310

+

4-

4-

""

340

+

4-

o

B3;! f-

5i

r-

IV:\. Static

\2::1

prefix-see end of Replac€2ble Electrical Puis List

P/o "-31

S~nsitive Dev~ces
See Maintenance SectIOn

INTERCONNEC" 8D.
REV. NOV.

DAS 9100 SERIES

812. I--<
814 I--'

At

Chas,ls-mounted components have no Assembly Number

5

f-i>

I--<

1,,"t0

A2!'

C
.1

I-

85

81a

5HIELO

....J

"3 I--<

BII

>-- 82.4-

SulJ3Ssembly
Number (rl used)

92-

A~

BI2-

>--

ASSOmbfy ...
Number

51-<1£.1.0

lI2.

>-- BIZ.

>-- A'a

,

SHIE.LO

112-

611

..- AI"

4

~HIE.LP

~

I 2.2.0

I

~

10.3
85

all

>-- BII

3

SHIELD

I ,,12-

E

I- __

CI2.

+511

I

\~83

C363G--z.(4)
383" -ho3

DAS g12'1 INTERCONNECT HIGH SPEE.D SHIELDS (CO LOR)C.

«>

DAS gl09 INTERC.ONNECT HIGH SPEED SHIELDS (MONOCROML)M0»

DAS 9100 Series

A

B

c

o

J101

1

R111

CAPACITOR BRACKET
BOARLI--'

OS120

C103

2
II)

Z

o
~

R203

f-U

Figure 11-4C. Capacitor Bracket Board Location.

O

w
:.:..J

uf-

ct Z

F215

a: W
mZ
a:~
0:E
!::o
uu

;fo!l
<0
ua:
",<
MO
<10

Figure 11·3C. Capacitor Bracket Board Component Locations.

IV:\ Static Sensitive Devices

\:?::I

See Maintenance SectIOn

COMPONENT NUMBER EXAMPLE

Chassis-mounted components have no ksembly Number
prefix-see end 01 Replaceable Electncal Parts List.

3836-233

CAS 9100 Series

A

C

J155

J165

0158

F150

C360

TP225

A183
R184
C184

Q172

0168

MAIN POWER SUPPLY BOARD---......

R360
W256

CR255
Q205

W258

~

00

R362
C362.

~

~

a:

o

o

M
0

.. "

CR355
m

N

a:

a:

0
M

0

CR282
A283
A285
R28G
R289
R381
R382

OFF BOARD

W356

~

~

NN

N

a:

CR258

U260

~w

~
~

CR268

T235

Q215

R365

CR356 ~ ~ CR359

0

00

m

N

N

a:

~

0:

CR37G

~~

M

~
~

C377

R375

M~

~~

C456

~~

a: a:

w

R384
CR385
C386

~
~

0

U465

CR430

T415
L448

C505

a:

L425

..

"a:~

~
~
~

TP475

C45B

C486

m
~

a:

0

R488
A582
CS84

R5GO

:2

~

a:
0

~ ~
0 0

~

a:

w

m

M

C532

~
m a:
~

~; ~:; ~

:;:

,....0 

l701

ca13

o
o

CR814
R814
R815
AB16

a:
call
C612

A818
R819

3

C912

R915
0916 0916

o

'"'"

::::>

C920

R921
CR921
CR922

C923
R923

P910

R736

e72S

R737

C823

R817
T905

R734

CA73S
R738

W823

C824
R825
R826
R827

o

'"'"::::>
C930

C925

VR931
R93l
A932

C928
R923

0

~

C860

H835
R836
R837

C939

C845

C8GS

CS7D

U675

U975
~

N

M

m

;I; ;I;

~

a:

a: a:

C955

C9S0

R937

C96S

C970

C975

C976
CR976
CR977

P940

RB87
CBS7
RBBa
CR9S0
CR981
R982
R983
R9B4
0985

Figure 11-5. A02 Main Power Supply Component Locations.

Z

~

o

~g
n.1n. Z

R'\ Static Sensitive Devices
\Z:)J See Mamtenance Section
COMPONENT NUMBER EXAMPLE

, Component Number ,

::J UJ
Ul Z

A23 A2.. R1234

a:O
UJn.

=:::=

00
n.O

~ci1

-'--------'-~F

p/o

Pia
Fz'OS J/ol

~/"'l+

SAMP

~

.,OCI

p/o

Piol Will

C"I

r
TO

pW~.

"".'M

~

~-

... S

VOL.T"

RZOI

SUpp~V

1/~W

<3>

~ SSL

,

L

8-0

~

•

P/O WIIO

p"",q I ~~
n~.+

3

WI I

POWER
SWITC.H

CIRCUIT
NUMBER

FRONT

~FA~.

SIOI

A"

D

CSI20

SAl
J

".;,

TO +5

R203
20K

VOL.T
PIN~

3W

SU?PL.Y

<3>
lOOK

SSL
LINE SELECTOR
SWITCH

5103

115>1

3
D. 4ND

'(:/ POST

.,..

2c:.

26'

T
,',
,.",'".. _ ......
I

TO

I

WIOO

M .... 'N

r-

POWER
SuPPLY

~

I'::'

0---0

lera

2301/

TO +5
'VOLT

PW,,SU?Pl.y

o

4

~ I' EXPANSION

r ~~.

E.c.~

INPUT

FROto'\,

POWER CONTROL..
+~

VOLT

TE.P.,ti\\~A.T

P~R

ION.

J\~\.

e30

".v

.sUPPL.'(

.5V
TO

"""N

POWER.

o

SUPPLY

COMPONENT NUMBER EXAMPLE

T

~

:0 ~ ~

Component Number

5

SEE PARTS UST FOR EARLIER

VALUfU". !lJ{D__ ~~!lI!\t.:. NUMpER

~ftl1,GE7~c~E6t;~T~r&.~:UNfm

l ______________

DeVices...T
\J)I See Maintenance Section
As~emblr

R1234'

-

I·

(j)

(\ <.

'11

Ii"o

...

~

-

-

c:: <

~ ~ ~ a ~

L S~::;iC

-+

~

t

Z

~~~~~~~~~~~~~~r_------~-~-T~-;.T-W~--~-~-;-~O..-'C_______C_p~_;~_:~_~_~ _:~_~_~_~_;~_;:_~_~M_iC~_;_;_;_:~_' ~3~3~1:~~~~.ol;1;1~1~~I~.,~"""l----...
I~Tt:"'CON'''.C'f
1 i i ~,.
____

Pia 1131

80",,"'0

REV, NO". \q83

DAS 9100 SERIES

IV:\ Static Sensitive

' A23

(

~.,. ... ZOS)

58,""'''01-

3

<3>

TO +s yo\..T
PWF\ SUPPLY

DAS 9129 INTERCONNECT ±160'l SUPPLY(COLOR')C~
~

DA'S'lIO'l INTERCONNECT :: IWV SUPPL'< (MONOCHROME.) M

'SEE PARTS LIST FOR SERIAL NUMBER RANGES.

o

til

Z

o
~
u

DAS 9100 Series

~g

a.fa. z
=>w
tIl

z

0:0

Wa.
::::;:

00

a.u

>o!S
"'0

+0:

M<
<10

00

A

c

B

o

E
RIGHT +5V POWER SUPPLY
PROVIDES POWER TO
BUS SLOTS 3 AND 4. - - -______

R112

INSTRUMENT MODULES

L116

P100

1

C13~

.'t\\'"

IX)

~

~

'"
[i

[i

CENTER +5V POWER SUPPLY
PROVIDES POWER TO
BUS.SLOTS 5 AND 6.

0235
U225

..,..,
0:0:
"''''
.. Ill

U215

R227
R325 0335
C326
CD.'" 03180319 R327.

2

::;::;

0:0:

P400

3

"C328

C425
R426
'C428
R429
R525
CS26
'R527

C625

3836·259

Figure 11-7. A03

LEFT +5V POWER SUPPLY
PROVI DES POWER TO
BUS SLOTS 1 AND 2.

+ 5 V Power Supply Component Locations.

3836·260

Figure 11-8. +5 V Power Supply Location.

N\ Static Sensitive Devices

\J::I

See Maintenance Section

COMPONENT NUMBER EXAMPLE
tAJmponent Number

• A23 A2 R1234 '
Assembly

Number

TTLSch.em~tic
Subasse~bly

Number (If used)

~~~~~r

Chassis· mounted components have no Assembly Number
prefix-see end of Replaceable Electmal Parts List

DAS 9100 Series

Table 11-7

A

<8>

MAIN POWER SUPPLY

POWER

5UPPl.Y

c

B
CL.OCK

1~

+IR. VOL. T

D

E

F

m

SoENS=:

ASSEMBLY A02
CIRCUIT
NUMBER

C184
C223
C275
C276
C307
C316
• C360
.. C362

C377
C386
C456
C458
C476
C486
C505
C525
• C532
• CS36
C570
C577
C579
C584
C635
C665
C708
• C725
C728
C745
C811
C812
C813
C823
C824
C845
C860
C865
C870
C875
C887
C912
C920
C923
C925
C928
C930
C939
C955
C960
C965
C970
C975
C976
CA178
CA255
CR258
CR268
CA282
CR306
CA308
CR312
CA315
CA317
CA318
CA355
CA356
CA357
CR358
CA359

SCHEM
LOCATION

F1
03
E3
F6
C3

C4
02
02
F2
F1
F6
E3
F6
E5
C2
83
03
03
04
E5
F6
F1
E2
E6
C3
E2
02
E2
C2
82
81
E1
01
E2
F5
F3
F5
86
85
83
F2
81
E2
E2
F2
01
F6
F3
F5
F5
F4
E4
F3
03
02
02
E3
C3
C3
C3
C4
C4
C4
03
04
04
D4
D4

BOARD
LOCATION

01
81
01
01
A1
A1
C1
C1
01
02
C2
C2
02
02
A2
82
82
82
C2
02
02
02
82
C2
A2
83
83
83
A3
A3
A3
83
83
83
C3
C3
C3
03
03
A3
83
83
83
83
83
83
C3
C3
C3
C3
03
03
01
C1
OFF BRO,
OFF 8RO,
01
A1
A1
A1
A1
A1
A1
C1
C1
C1
C1
C1

CIRCUIT
NUMBER

CR376
CR385
CR430A
CR4308
CR47B
CR513
CR519
CR565
CR576
CR688
CR738
CR772
CR783
• CR813
CR921
CR922
CR976
CR977
CR980
CR981
F150
J155
J165
J165
L425
L448
L845
L701
L850
P155
P165
P165
P910
P910
P910
P940
P940
P940
P940
P960
P960
0158
0155
0160
0165
0168
0170
0172
0205
0215
0514
0516
0518
0832
0834
0916
091B
0985
A177
A178
A183
R184
A224
A275
A277
A278

SCHEM
LOCATION

F3
E5
03
03
E4
C4
C3
F5
F6
E6
E2
86
A6
81
81
81
E4
F4
85
86
F6
F6
F4
F3
E6
E3
E2
82
E6
F6
F4
F3
F1
F2
A3
A1
F1
F2
F6
F3
F5
F6
F6
F5
F4
F4
F3
F3
C3
C4
B4
84
83
C2
C1
81
C4
C5
E3
F3
F3
F3
03
F3
F3
F3

BOARD
LOCATION

CIRCUIT
NUMBER

01
R283
01
R2B5
82
A2B6
82
R2B9
A2
• R'360
02
... R362
A2
A365
C2
R375
02
R3B1
02
R382
83
R384
02
R462
03
R464
A3
R466
83
R468
83
R473
03
R474
03
R477
03
R479
03
R4B8
C1
.. R532
C1
• R536
C1
R560
C1
• R571
82
R572
C2
R575
82
R576
A3
R582
C3
R600
TO HEAT SINK
R606
TO HEAT SINK
R615
TO HEAT SINK
R616
A3
R617
A3
R618
A3
A620
B3
R622
83
A625
83
• R633
83
R634
C3
R675
C3
R676
C1
R677
TO HEAT SINK
R678
TO HEAT SINK
R688
TO HEAT SINK
A726
R730
C1
TO HEAT SINK
R731
C1
R734
A1
R736
A1
A737
A2
A738
A2
• R739
A2
A755
83
A770
83
A771
A3
A772
A3
A780
03
A781
01
A782
01
A783
01
ABOO
01
• R814
81
AB15
01
A816
01
A817
01
R818
A819
R822

SCHEM
LOCATION

BOARD
LOCATION

01
E3
E3
01
01
F3
F3
01
C1
02
C1
02
F5
C1
C2
F4
F5
01
01
F5
E5
01
F4
C2
C2
F5
C2
F5
C2
F4
02
E5
02
E5
02
F4
02
E4
02
F5
82
03
82
03
C2
F6
C1
04
C2
04
02
F6
02
E6
02
E5
A2
C2
A2
C3
A2
84
A2
84
A2
84
A2
84
A2
83
82
83
82
84
B2
81
82
81
02
F6
02
F5
02
E5
02
86
02
E5
83
.1
E1
82
E2 SOLDERED 8ETWEEN
R739 AND R822
01
82
02
83
E2
83
C1
B3
C2
83
E6
C3
86
02
86
02
B6
02
E6
02
E5
02
E6
02
F6
02
82
A3
81
A3
81
A3
81
A3
B1
A3
81
A3
81
A3
E1
83

CIRCUIT
NUMBER

R825
R826
R827
R833
R835
R836
R837
R8B7
R888
R915
R921
R923
R924
R926
R927
R929
R931
R932
R935
R936
R937
R942
R943
R944
R976
R982
R983
R984
T235
T415
T905
TP225
TP475
TP625
U280A
U280B
U485A
U4858
U585A
U5858
U715A
U7158
U715C
U720A
U7208
U820A
U8208
U820C
U8200
U830A
U8308
U830C
U8300
U875
U8B5
U975
VA773
VR931
W256
W258
W356
W823

SCHEM
LOCATION

BOARD
LOCATION

01
83
E2
83
E2
83
C1
83
A1
83
A1
83
E1
83
A5
03
85
03
81
A3
81
83
C4
83
F2
83
F2
83
A2
83
F2
83
83
01
83
E2
E1
83
F2
83
01
83
83
A1
83
A1
E1
83
E2 SOLDERED 8ETWEEN CR976
ANO PIN 9 OF U830
85
03
03
85
03
C5
81
03
A2
C4
A3
83
81
03
C2
03
82
A3
01
E3
E3
01
02
E5
02
E5
02
E6
02
E6
84
A2
A2
83
84
A2
82
83
B2
84
B3
F2
83
82
83
C1
83
81
A1
83
C2
83
83
E1
83
01
86
03
03
85
03
E4
03
86
83
E2
C1
03
C1
02
C1
02
83
C2

1

Ra25

5.11'1

R93T
I~.

I

I

W823

LM339
l'

+
~
2'2K

I

2

+5V

U820B

R92.'

~~O'

Ii
.

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+rl.3V

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o/~

C9.;l9

"Q"",8""'",,2

A·:;!9;
4.'SK

+sv
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REF

~C~~~~~~~~~~-+~~~~~~~~~

Pia

TO

J40,

o

1'1224
,0

3W

3

CR255

rRSW
IS

<"'"

'W~

',__0,32-

~____-+~'~W~

10 GN
:l

"

CR.430B

=~ IR~~~!r.:::'
(.~~L

CR35 T

IO.J.'-F

RS'l'Z

'0

CR31l'

Q215

U720B
4013

4

u

C RSI3

I~

-~==~f::~~I,J
~RQ

~

U715C
402.5
.'l

12
~

10

"
+112.VI~

12.

~Q514

R(.,'"
a.'K

RIo,5
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'~~"',"
ry
r
R92-3
"

r---v+J3V

Q918

.-------.....---------"'1 V~l

R984

RS80

Z.bIK

"

RBB,

5

3.4-01\.

+'"

+.,,,

SENSE

RT70
1.621'1

VRi7C1
I"-V

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r.:b

U875

~
Vce

I.e?)

5 CR981

COMPONENT NUMBER EXAMPLE

6

Component

R7,Z

Numb~r

Z.611'\

IJ

1----------'-' 'Ie E
&

(h",,,-mount,d,,mp,,,o" h". ,o/.s"mtl, Numb"
prel"-",, "dd R·pl,o.abl, E!eot"", P.,:I Lilt

pia

MAKE Al.L CONNECTIONS TO
THE -I," LINE ON THE ",USE
SIDE 01'" THE -12-1/ I-INE

fl

NOTe: Tabl. 11 ·1 -"OWl Ie
Pinout. Nee & Gndl.

®

Lfl50+
ImH

Static Sensitive Devices
See MJintemnce

• SEE PARTS LIST FOR SERIAL NUMBER RANGES.

~t~20

~,

MAIN

POVVER

SUPPLY

RE:\}. NOV. IC}S.:a
3e3"-2.0~

MOClULE

11----'-',~
:,; \
-'"V (
C)

WJ221J

Jaqlqlll
.,J211

'"+

p'\OO

en

1>

<

2

-a
o
:E

CRa.SL

U31SB
4013

TeSS

'0

m

I

:Il

C/)

CRIse.

c::

-a
TO J31f,
.J~IOA
J~12

Q317

L
3
U41S0
VOJ..r".,&.£

r-r-_____s'-'_~_'_S_L_
PoSI""

a.lle

HI.3V

J!k5

+II.~I(

_'_,0"1-

,I.

C"tl~

+!I.3V

G

L

~("M.3aq P,~IS

O""R

~OLTA,,'

PROTECT'Ot<

II

S. I I(,

+SIIp, --+-~,w1Z'".~..!.'"iY'-I1
"" 11

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f

2.21(.

~~'·~L___
Q33S"

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C3a.~
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___+-________ ________________ __________________________________
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c.ass

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v

C.uR.R,£NT
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p

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~- -

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SYNC

s .. ?

VIDEO

Ii

AMPLlFIER

51

PI

12

11.

>

It

': !

e10

~S

~

"

I'

HORIZONTAL

~1

OUTPUT

__________+-__,
'RD

BLV

;<,48

r-l

;;'ERT HOLD

N.C.

'BKL-__~l.!~;~~________________________~

fo6\

,

COMPONENT NUMBER EXAMPLE

~'g~

Component Number

• A23 A2 R1234 '

Ass~mUy TTLsc~.:~tc
Number

Sub.Jssembly

Numter

(If

Number

used)

Ct_"lS',S_rru)~ 1ted COrlp~nen~

preh~~~~

hive ~o Assemb:y Nurrber
end 01 Replaceable Electrical ParIs lis~.

A4
IV:\ Static Sensitive

OFF BRD.
A4A 2

SIGNA.L CiRCUIT

@

DAS 9100 SERIES

38"300-2.08

\J::I

C~RD

Dev~ces

See Marlltellallce Section

NOTE; Tabl.. 11·1 ~how, Ie
Pinout. (Vee 80 Gnd).

A4-Al

NOTE:

*

TO M~Hn~JN ORIGH1~l PROOUC.T SJ\H.. l'l DE'2>lGN 5";ANDARDS R.£.l~IJ\lE
TO )("R"'-'1 RADIATlON, FEDERAL REGUU'.. -:ION::' REQUIRE -rl-\A"l Tfl£.S£.
PJ\RTS. BE REPl ..... CED 'NI1H IOENTlCl>..l PART NU\>',BER5 3HOWN "iN
THE REPll\CEABlE ELECTRICAL PARTS UST.

DEfLE.CTION CTRCUIT CARD

DAS glOg MOTOROLA DISPLAY
MONITOR (MONOCHROfVIE.)

M<§>

DAS 9100 Series

A

c

B

D

E
Z·AXIS BOARD
MOUNTING SCREWS

1

, .. ..., TP;f75

{'S::f46}i)
'Rf;i.zj.(il
"RI4.SH

~~mJ··c:

I,::

i

"'' ' ',?I...........(\RI"~·§

'fff.23},:i)

Irll'I

r""--'----~

i :'~>

A17si
I

i

J420 -+-...l\£i""'..,-----=

It_'~"M_J

L ... J

;R2241,:,',

L255

C238

fi12§),;'

J320 -+-----1-_

II!?.?J}I;; "..........;·::::::~I':::=II•..••ili'§2·~· .~...............-:
,~

•.~ .•~ .··.I..... ~........

'~?l!lJ<§)

CCR320@1
CR322,"£ •. ~......-'

2

Z·AXIS BOARD -,./--",:::

'11

~2701

GR22m,'

.JI221J
'IJI.12.a!·;{'1
i'

I.

1 .........1

,.c:·r12"I...! ......

I1RT24}<,')
:'tRIB'·'

I

R17DI

TPZ~9

TP26.2
TP2S8
TP272
TP265
TP270
TP275

ANODE

'"'""--rr-+-lt-++- CONN ECTOR

CRT
SOCKET-+---I-BOARD

STMENT

;".=.,t--

'ICR338 ~'fizJ
i~=,,-,,'"'-~'"'-,~

(··£344
.. ·..)
,'-"'--'-~ ----.~,-

'_~''Y,~ __ ~_w,,,

J615

_'"M ____ ~'-'

(0CR3~4'if~ : .."ICR339 f..-..P3

HV

i-""'-="~"=~"-"""'.,I

~--'----'-

JCR435
["'if?:\
I
,
'~~~-'-=t~-""1

·'~CR436

'·81

, ..:,!CR437 ~~31
r: .... ....... .

0-

<';"1CR438

at/)

~


CA5f1;~1~1!l
CR5120Q) 'rr'
(;CS:51~

Figure 11 ·9C. A30 Color Monitor Component Locations.

'~j

/;1f

CR52il?:(
,/"'-:::"

652~\1

!

,I

. . ii'

i>·rR610-}~.),

:CR61:f1le~'~
iCR6t2c1 J;iJt,!
5

TRANSFORMER
SHIELD SCREWS
3836-240

t=,,·"'-~-·"-="',:,=;

o:z

DEFLECTION
BOARD
(ON FLOOR
OF MONITOR)

J635

J6(JO
Figure 11 ·9CA. Deflection Board Component Locations.

3836·235

DAS 9100 Series

A

c

B

D

F

E

Table 11-9CA
DEFLECTION BOARD C

<6>

"1

ASSEMBLY A30A01
CIRCUIT
NUMBER
C115
C135
C137
C142
C211
C238
C319
C340
C344
C412
C424
C523
C530
C534
C549
C605
C614
CR112
CR113
CR210
CR211
CR212
CR214
CR215
CR216
CR217
R218
CR219
CR320
CR322
CR334
CR338
CR339
CR435
CR436
CR437
CR438
CR511
CR512
CR513
CR522
CR611
CR612
J100
J600
J600
J615
J635
J635
J635
J645
J650
J650
L255
0132
0134

BOARD
SCHEM
LOCATION LOCATION
C2
E2
C3
B2
C2
B3
03
F5
04
E3
05
C5
E5
E5
F5
A1
F4
03
03
C3
E2
E2
02
03
C3
C3
03
03
F2
02
E5
04
E4
05
05
05
05
E3
03
C5
C5
F4
F4
F1
F3
F1
A1
F5
B2
F2
F3
A3
F3
F5
C3
B2

B1
C1
C1
C1
B1
C2
B2
02
C2
B3
B3
B3
C3
C3
03
A4
B4
B1
B1
B1
B2
B2
B1
B1
B2
B2
B2
B2
B2
B2
B2
C2
C2
C3
C3
C3
C3
B3
B3
B4
B3
B4
B4
A1
A4
A4
A4
C4
C4
C4
C4
04
04
02
B1
B1

CIRCUIT
NUMBER
0232
0235

0330
0443

0507

0517
0639

R114
R115
R120
R122
R123
R124
R125
R146
R147
R148
R149
R170
R175
R210
R211
R213
R214
R215
R219
R220
R222
R223
R224
R225
R227
'R228
R229
R270
R310
R442
'R505
R510
R511
R520
R521
R610
R640
R649
T460
TP175
TP259
TP262
TP265
TP268
TP270
TP272
TP275
U116
U5D8
U508
'VR320
VR510
VR641

tAXISA

SCHEM
BOARD
LOCATION LOCATION
B3
03
02
E5
E3
04
A4
C2
C3
C2
E2
C2
C2
03
E2
E2
B2
B2
E2
B2
C3
C2
E2
E2
C3
03
C4
B2
B3
B3
03
02
02
02
F4
F2
05
F2
E3
03
02
C5
C4
A4
A4
E4
C2
F5
E5
E3
C4
F2
B3
A2
03
C5
C4
F2
E3
A4

B1
C2
B2
03
A3
B3
C4
B1
B1
B1
B1
B1
B1
B1
C1
C1
C1
C1
E1
E1
B1
B1
B2
B2
B1
B2
B1
B1
B1
B2
B2
B2
B2 BACK OF BO.
B2
E1
B2
B3
A4 BACK OF BO.
B2
B3
B3
B3
B4
C4
04
E3
E1
02
02
02
E2
E2
E2
E2
B1
A3
A3
04 BACK OF BO.
B3
C4

BOAR.DV

~i

2

R310

3
3W

VERT

i
i

DEF'-.

YOKE

3
1='/0

§

P/O

+ 12.YP

~n0 ~:. :. .~ +-51°- - ,

RAMP GE.NE.RATOR

'1

TO
CRT

BOARD

4
USOBA

'J'

7545~ ~ J

COMPONENT NUMBER EXAMPLE

US08B

T

Component Nvmber

, A23

r~
A.s~rr;b,y ... J
I'/L'mb~f

5

754$2.

~sche ..rrallc

L'

Svbas5embly
,'JumlJer (rfused)

R4:z..2.

~5

R1234'

12.-0.

~4

CJrCUlt
Number

2.W

+IZ,.VP

c...S'30
.oOZ2
M-F

c..4-24

Ch.sslS·mou~ted comPJnents hove ro As\e!Jlblj Num~r
Dfefix----!;ee end 01 Replaceabl€ Elettr:~al hrts L,,\

100

A..I..P

25V

1(,00\1 5%

1-101'(2
DEi=L
YOK\:.

:g1:;

>0

~=:
C

m
"11
,....

m

N\ Static Sensitive Devices

\Z::I

See Maintenance Section

NOTE: Table 11-1 showslC
Pinout. (Vee I!o Gnd).

-*

DENOTES

HEATSINK

REQUIR.ED
MOAI

DAS 9100 SERIES

o-I
15
z

TO-:,
c.ol-I-£.croi\
D~LED"'ION

RE.'\I. NOV.

BD.

l':iB~

383/0:1- ~OS

Pt-..,,~'f..

DAS 9129 MONITOR DISPLAY DEFLECTION BOARD (COLOR) C ~
n

'SEE PARTS LIST FOR SERIAL NUMBER RANGES.

DAS9100 Series

A

1

,...
,..
It)

0,..

Ili.

fo'-'

c

B

,..
Ili.:

'"",

CD
0
.... ,..,.. co,.. N,...
,..
a.;.:,
,.. fo'-'
,.. a.;.:
,",,'
O;;;j

fo'-

~J

N
N

D

CD
N

....

...a..
R240
R230
o
....

'~
fo'-

2

~

';:C221

:J

0:'"""",,,,-1''''':'

" -;-;:;:.::.;'->

3

[ R,~~2,:J{::

Assembly
Number

, A23 A2 R1234 '
S,h,m";,

iT

.-J

L

Subassembly
Number (if used)

CirCUit
Number

Ch~$,is- mounted components have no Assembly Number
prefix-see end of Replaceable Electrical Parts list

Figure 11-9CB. Z-Axis Board Component locations.

3636-236

»
'"
a
DAS 9100 Series

»

N

N

>
)(

IB

iii

c

-I]

IE

OJ

o
»
:llJ

v

o

Table 11 ·9CB
Z·A)(IS BOARD C



<>

ASSEMBLY A30A2
CIRCUIT
NUMBER

C130
C200
C210
C220
C221
C300
C321
C324
C330
C400
C403
C430
C440
C508
C510
C513
C515
C530
C535
C540
C611
C618
C619
C630
C634
C636
C650
CR300
CR325
CR421
CR423
CR424
CR426
CR427
CR501
L100
L111
L121
L221
L330
L430
L440
L655
P100
P320
P600
P600
0400
0410
0420
0440
0530
0540
R120
R121
R130
R140

SCHEM
LOCATION

BOARD
LOCATION

F3
F3
F4
F4
A2
A5
F4
F4
02

04
02
03

C1
A2
B2
B2
B2
A3
B2
B2
C3
A3
A3
C3
C3

A4

A4

C4
B5
C4
C2
C2
C3
B5
B4
B4

B3
C4
B3
C3
C3
03

E4

B1

B2
A1
B2
A5
E4
E4
E4
E4
E4
E3

A4

F3
F4
F4
A2
01
02
02
A1
A1
F2

F4
A3
B5
04
04
C1
C2
C2
F3
F3
C2
C1

A4

B4
B4
C4
C4
C4
04
A3
B3
B3
B3
B3
B3
B3
A3
A1
B2
B2
B2
C2
C3
C3
04
04
B3
A4
A4

A3
B3
B3
C3
C3
C3
B1
B1

C1
C1

CIRCUIT
NUMBER

R150
R230
R240
R250
R300
R305
R321
R324
R404
R442
R443
R444
R500
R501
R510
R511
R512
R513
R520
R525
R600
R610
R611
R614
R615
R618
R630
R631
R632
R636
R640
R642
R645
R650
R652
R653
T300
TP100
TP105
TP111
TP114
TP116
TP118
TP120
TP122
TP126
TP130
TP230
TP240
TP250
U410
U510
U520
U635A
U635B
U645A
U645B
VR126

11
SCHEM
LOCATION

BOARD
LOCATION

C2

01
C2
C1
02
A2
A3
B2
B2
A3

F2
F1

F3
A5
A5
E4
E4
04
C2
C1
C2
A4

B4
05
B4
B4
B4
C4
C4
C2

D3

03
D3

A4
A4

B3
B3
C4

A4

A4
A4
A4
A4
A4

B1
B1

C4
C4
C4
C4
C4
C4
C4
04
04
04
A2
A1
A1
A1
A1
A1

B5
B4
B5
C5
B2
B2
C1
B1

A1
C2
B2
B2
E4
F3
04
A3
F4
F4
C4
B3
A3
A2
A2
02
01
02
B4
C4
B3
B2
B1
B1

B2
F3

2

A3
A3
A3
A3

3

C508

s.o,ut'
..,., SOY

LJ4/0
8

R.50Q

B1
B1
B1

B1
C1
B2
C2
C2
A3
B4
B4
C4
C4
C4
C4

555

c.R50J

/.2.M

5

®

B1

A30A2.

DAS 9100 SERIES

Static Sensitive DeVices
See Mamtenance Sec/Ion

NOTE: Table 11-1 shows Ie
Pinout. (Vee eo. Gnd).

Z.-AY..\S SO.

@
383b-00,=:>

DAS '112'1 DISPLAY MONITOR Z-AXIS BOARD (COLOR) C-$>

CAS 9100 Series

A

B

c

o

1

2

J301

3

-__0'_'-,:'

'.c,c

::

"(

~

;'

I
C304 'E306
i
'
I

J320

Figure 11-9CC. CRT Socket Board Component Locations.

tV:\ Static Sensitive Devices
\Z::I See Maintenance Section
COMPONENT NUMBER EXAMPLE
Component Number

, A23 A2 R1234 '
Assembly
Number

TTLsc~~~~tc
Subassembly
Number (if used)

Number

Chassis-mounted components have no Assembly Number
prefix-see end of Replaceable Electrical Parts LIst.

3836·234

c

B

A

DAS 9100 Series

D

Table 11-9CC
CRT SOCKET BOARD C

1

~

t 2.\ KV - FRoM D£,.-J....81(0.

V3\5

ASSEMBLY A30A3
CIRCUIT
NUMBER

SCHEM
LOCATION

BOARD
LOCATION

C303
C304
E305
E306
E310
E311
E320
J301
J301
J320
J320
R301
R303
R305
R315
R318
R320
V315
V315
V315

C3
C2
03
03
03
03
C3
A3
A2
A3
A1
C2
C3
C2
63
C3
63
03
01
02

A2
63
62
63
61
63
03
A3
A3
C3
C3
A3
62
63
C3
C3
03
C2
C2
C2

pIa

pia

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,

I

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Component Number

.

FOC-US

bl

ssem y

Number

,

FOCU$

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I

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TABLE.

T

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OUTPUT

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START
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A

c

B

D

E

1.1127

1

'C137'

'0237
lJ23i1~

C175

C178

C161'

C165

0261

1.1265 0268 U275 U278 u2il1,

c2sl

'<:265
'C266"
'C365

C168

'C181

'C18S

C188

1:.1285

1.12i1i1,

U295

'G285
,C286',
C385

'C288
'C289"
C388

'R29!>,
C39!>.

!:Ja85

!:Jail8

U395

1.129~

U251
TP211

'C262"
C321"

031g

tl32~

tI:f45

U338.
1.1325

J340

'C411'

C415' 'R415"

tl405 1.14'11'tl415

1.1421

C375·

C368

GZ.l8,
'C279"
C378

'G28.1
'C282"
'C3Bl

U365 U368 ,U375 U378 U381

U351

TP397

'1.1397;

J344
TP351
«:445"

2

'<:275
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'ij44S'

'C425'

0425'

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1.1461

C36'"

'C461'>

C369
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C.38&
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R481'

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Configuration Guidelines

IX>

iii

CJ)

Z

o

~
o
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CR539 C'
11539'
R540

t:J500,

o

C536

I-

1:.1541

TP468

U555 "
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1.1563 USGS .

C591'

C597'

j

US'97

w

w

TP537 'C5,3"'"
C539

..JQ.
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Recommended
Bus 510t(s)

Functional in
Bus Slot(s)

D

D

Required
Required

Trigger/Time Base

1

7

7

91AD8

4

6(5,4,3)

6(5,4,3)

91A32

3

2-6

1-6

U605

00

a:o
~olS
00
Oa:

Max. per
Mainframe

Controller

;

Z

Z
a: O

Module

3

3836·266

o, 0«

91P32
Figure

2

tV:'I Static Sensitive Devices
\2::JI See Maintenance Sec/Ion
COMPONENT NUMBER EXAMPLE
Compone~t

Number

r

•

A23 A2 R1234

Assembly
Number

rTLsc~;~~tc
Subassembly
Number (If used)

Number

Chassis-mounted components have no Assembly Number
prefix-see end of Replaceable Electrical Parts Lisl

670-7475-00, use Figure 11-20 and associated schematics.

2-6

1-6

11-14M. A06 (670-6737-00) Controller Component Locations.

Will not function without a
91 P16 installed.
3836-267

Figure
NOTE: If part number on Controller Board is

Required: first 91 AD8 in slot 6
additional 91 AD8s in descending slots (5,4,3)

1-6

91P16

,'Ill

Comments

11-15M. Controller Location (670-6737-00).

Table 11-11M
CONTROLLER M

DAS 9100 Series

<§>

A.

ASSEMBLY A06 (670-6737-00)

~

~

CIRCUIT
NUMBER

SCHEM
LOCATION

BOARD
LOCATION

CIRCUIT
NUMBER

SCHEM
LOCATION

BOARD
LOCATION

c

B
..

~A~S~-~A~'S~

PO
PO

0335
0435
0438
0539
R134
R141A
R141B
R141C
R141E
R145A
R145B
R145C
R1450
R331
R332
R333
R334
R341
R342
R430
R431
R432
R434
R436
R437
R438
R441A
R441B
R441D
R441E
R445C
R445F
R445H
R4451
R468
R478
R535
R536
R539
R540
R555B
R555C
R5550
R555E
R555F
R555G

A2
E2
B1
01
05
C1
05
F4
A5
B1
A2
F1
E2
B1
C1
05
C3
B2
B2
B2
B2
B3
B3
B3
B3
E2
E2
E2
E2
05
F4
A1
B1
B1
B1
B1
C1
F5
B3
05
B3
05
F5
E5
F5
F5
F4
F3
C2
C1
05
05
A3
A3
A4
A4
A4
A4

B2
B2
B2
B3
C2
B2
C2
C2
C2
B2
03
03
B2
B2
B2
C2
B1
C1
C1
C1
C1
C1
C1
C1
C1
B2
B2
B2
B2
C2
C2
B2
B2
B2
B2
B2
B2
C2
C2
C2
C2
C2
C2
C2
C2
C2
02
02
B2
B3
C2
C2
03
03
03
03
03
03

R555H
R5551
TP351
U137A
U138A
U138B
U1380
U141
U151B
U155B
U161C
U165B
U168A
U168B
U181C
U237
U295A
U295C
U297A
U297B
U2970
U331A
U331B
U337A
U337C
U3370
U337E
U338A
U338C
U351
U431C
U4310
U438A
U438B
U438C
U4380
U438E
U438F
U438G
U438H
U445A
U445B
U445C
U4450
U445F
U445G
U475
U478
U495H
U535B
U537B
U537C
U5370
U537F
U555

A4
A4

* W160
* W441

E2
C2
B4
B3
C3
C3
C2
C4
03
03
C4
04
C4
02
B4
B4
B4
E5
B4
01
01
E2
C1
E1
E1
C5
F4
E2
A1
B1
F5
B3
B3
F5
F5
F5
F5
F5
A5
A5
A5
A5
B5
B5
F4
F2
E5
C1
01
C4
05
01
C5
A2
A2

Y432

B1

03
03
C2
B1
C1
C1
C1
C1
C1
C1
01
01
01
01
01
B1
E1
E1
E1
E1
E1
B2
B2
B2
B2
B2
B2
C2
C2
C2
B2
B2
C2
C2
C2
C2
C2
C2
C2
C2
C2
C2
C2
C2
C2
C2
02
02
E2
B2
B2
B2
B2
B2
C2
C1
C2
B2

1
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R.EV. NOV· 1'183

'SEE PARTS LIST FOR SERIAL NUMBER RANGES.

E

____________________________________________________________________________________________________________________________________vr________________________

Q438

C330
C332
C431
C536
C538
CR535
CR539
J339
J340
LR435

D

DAS 9100 SERIES

3e3<:o-c.IO

DAS giL")

CONTROLLER

DA5 '1109 CONTROLLER

MICROPROCESSOR(COLORj C. ~
MICROPROC E550R (MONOCH ROME)M

C"U

DAS 9100 Series

Table 11-12M
CONTROLLER M

~­

)100

)Io~

ZOl



A

c

B

D

E

Co
WO

F

r-z

O-i
-i:O

wO

ASSEMBLY A06 (670-6737-00)
CIRCUIT
NUMBER

SCHEM
LOCATION

mrr-rmm

BOARD
LOCATION

0:0

__

<@>~ -D-¢~~~D,,7'-:---------------------------_+----------------------------------------------------________________,

"'I

A¢..-A7

-i

U2.51

'5V

U,"IOI

8£57

_

~~~~-------------------------------t--------------------------------------~A~¢__~5~2fA~¢tfR~'~'~D'''D,,¢~3~D~~~~0~¢~

C300
CR115
J337
J344
LS100
PO
PO
P1
P1
P1
Q110
R115
R125
R146
R147
R150
R201
R202
R234
R411
R445A
R445B
R445D
R445E
R445G
R511
TP151
U127C
U127D
U131B
U138C
U151A
U151C
U165A
U227
U231A
U231B
U251
U305A
U305B
U325F
U331C
U331D
U337B
U337F
U338D
U345
U411A
U411D
U461
U511
U531B
U537A
U541
U563
U565
U605

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81
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om
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NOTE, Table '1-' ,howl Ie
I Pinout.
(Vee &. Gndl.

DAS 9109 CONTROLLER SYSTEM MEMORY C.ONTROL(MONOCHROME)M<1}

DAS 9100 Series

Table 11-15M
CONTROLLER M

<8>

ASSEMBLY A06 (670-6737-00)
CIRCUIT
NUMBER

c

A

SCHEM
LOCATION

BOARD
LOCATION

CIRCUIT
NUMBER

SCHEM
LOCATION

BOARD
LOCATION

F4
F4
F4
F4
F4
F4
F4

A1
81
81
81
81
C1
C1

C4

E2

01
01
01
01
01
01
01

F4
F4
F4
F4
F4
F4
F4
F4
F4
F4
F4
F4
F4
F4
F4
F4
F4
F4
F4
F4

A2
A2
82
C2
C2

04

C396
*C411
*C415
*C425
*C438
*C445
*C467
*C468
*C471
*C475
*C478
*C481
*C487
*C488
*C496
*C521
*C525
*C537
C539
*C545
C549
C550
*C591
*C597
C638

IE

::

PoA¢ - RA",

*C105
*C121
*C127
*C131
*C137
*C145
*C148
C161
*C162
C165
C168
C175
C178
C181
C185
C188
*C251
C261
*C262
C265
*C266
C268
*C269
C275
*C276
C278
*C279
C281
*C282
C285
*C286
C288
*C289
*C321
*C325
C337
C361
C365
C366
C368
C369
C375
C376
C378
C379
C381
C382
C385
C386
C388
C389
C395

F4
02
03
02

E2
E2
E3

E4
F4
04

F4
02

F4
03

F4
02

F4
E2
F4
E2
F4
E3

F4
E4
F4
F4
F4
F4
F4
84
84
82
82
83
83
82
82
C2
C2
C2
C2
C3
C3
C4

*Decoupling capacitors

E1
E1
C1

01
02
01
02
01
02
01
02
01
02
01
02

E1
E2
E1
E2
82
82
82

02
02
02
02
02
02
02
02
02
02
02

E2
E2
E2
E2
E2

PO
P1
R1850
TP141
TP2n
TP397
TP420
TP436
TP468
TP537
U261
U265
U268
U275
U278
U281
U285
U288
U365
U368
U375
U378
U381
U385
U388
U395

UPR CA'S
UPR RAS

11

UPR WR

.1

J
i,

T¢ -I"I

LWR Rl\iJ

02
02
02
02
02
02

E2
E2
E2

LWR WR)

PIO

~

LWR RAS 4
L\NR WR

~

I

1

WR

I'T,,¢+_ _ _ _2-1 D1N

2

C '3,,8
.1

DO 14

TtiJ

VDD
LWR RAS

4- AAS

LWR WR

3

WR

4-t-__---="'-jD'N
['-T__

~~

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~,~,'

:1

uPR

:1' c:~

,

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83
83

L'..NR RhS 4

02

E1

LWR vvR a

E4
E4
E4
E4
F4
F4
F4

C1
A1

04
03
03
02

01
01
01
01
01
01

1"~"'w~R"=CA~S--,'.:;51CCIA'5S VDD~r:

;'A33

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LWR"\NR 3

),

~

14

TI

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LWR WR

3

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NOTE:

THIS BLOCK

IS

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7(0

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82
82

02

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83

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DO

FORTy-oNE
CAPACITORS
SE.E.
TABLE If-IS

. -_ _,+I2.V C2.eB

CAS VOD
1
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1
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lJ"i5"R"CAs

IS CAS 'IDO

UPR WR :5 WR

.1

r'_

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4 _ _ _ _T_3/

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61

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U288

U2
UPR WR

CI'1S

DOI-"-_45_V
_ __'_'_T__¢"1

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C389

15 rc--A-S-V-D-O' BI

L..WR RAS

~

:

U315

VDD~3;:

VDO

WR

3

ii['-"I"..:¢+_4-t-_---="CjOIN

DO 1-'1_4_ _ _ _,-=5'1

'------'

C!D3~1

CAs

tjll(v

RI8se

rC-A-";-VD-D-'~~

L.W R RAS 4- RAS
LWR 'WR 3 WR

'5

UZ78
t-12V

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411("

CAS

UPR WR

AI4
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3

C3E

~.

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A3
F3
A2

84
83
83
82
C2
C3
C3
C4

41\(0

-SV

E2
E2

E4

RAS VBB

'3

F4
F4

E3
E3

U3BI

41H;;'

IS rC-A-5-VD-D',.8_1
_ _-l""~

F3

E2

U318
-1-12'1 C.3"79

82
82
83
83
C2
C3
C3

03

IF

Number

-12.'1

~

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ccmponenls ho~'e na As~cmblv Number
prehl-seeEndc'RepIJceableElec!rlc,IPar\sllS!

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See Maintenance Sec!/on

ChaSSIS-mou1tr~

pic

NOTE: Tobl(! 11·1 shows Ie
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A

B

c

D

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C288'
C289 K2~~
C388 C395

TP397

2
CONTROLLER BOARD
Configuration Guidelines
Max. per
Mainframe

Recommended
Bus Slot(s)

Functional in
Bus Slot(s)

Controller

1

D

D

Required

Trigger/Time Base

1

7

7

Required

91AD8

4

6(5,4,3)

6(5,4,3)

91A32

3

2-6

1-6

;1 ~,' ""'"

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q5551~
f

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Comments

f

f

(1)0

t

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<§>

1

ASSEMBLY A33 (670-7475-00)
CIRCUIT
NUMBER

SCHEM
LOCATION

BOARD
LOCATION

C330
C332
C431
C536
C538
CR535
CR539
J339
J340
LR435
PO
PO
0335
0435
0438
0539
R134
R141A
R141B
R141C
R141E
R145A
R145B
R145C
R1450
R331
R332
R333
R334
R341
R342
R430
R431
R432
R434
R436
R437
R438
R441A
R441B
R441D
R441E
R445C
R445F
R445H
R4451
R468
R478
R535
R536
R539
R540
R555B
R555C
R5550
R555E
R555F
R555G

A2
E2
B1
01
05
C1
05
F4
A5
B1
A2
F1
E2
B1
C1
05
C3
B2
B2
B2
B2
B3
B3
B3
B3
E2
E2
E2
E2
05
F4
A1
B1
A1
B1
B1
C1
F5
83
05
B3
05
F5
E5
F5
F5
F4
F3
C2
C1
05
05
A3
A3

82
82
B2
82
C2
82
C2
C2
C2
82
03
03
82
82
B2
C2
81
C1
C1
C1
C1
C1
C1
C1
C1
82
82
82
82
C2
C2
82
82
82
82
82
82
C2
C2
C2
C2
C2
C2
C2
C2
C2
02
02
82
83
C2
C3
03
03
03
03
03
03

A4
A4
A4
A4

CIRCUIT
NUMBER

R555H
R5551
TP351
U137A
U138A
U1388
U1380
U141
U1518
U155B
U161C
U1658
U168A
U1688
U181C
U237
U295A
U295C
U297A
U2978
U2970
U331A
U331B
U337A
U337C
U3370
U337E
U338A
U338C
U351
U431C
U4310
U438A
U438B
U438C
U4380
U438E
U438F
U438G
U438H
U445A
U445B
U445C
U4450
U445F
U445G
U475
U478
U495H
U5358
U5378
U537C
U5370
U537F
U555
• W160
W455
Y432

SCHEM
LOCATION

BOARD
LOCATION

A4
A4

03
03
C2
81
C1
C1
C1
C1
C1
C1
01
01
01
01
01
B1
E1
E1
E1
E1
E1
B2
82
82
82
82
82
C2
C2
C2
82
82
C2
C2
C2
C2
C2
C2
C2
C2
C2
C2
C2
C2
C2
C2
02
02
E2
82
B2
82
82
B2
C3
C1
C2
82

E2
C2
B4
B3
C3
C3
C2
C4
04
04
C4
04
C4
02
B4
84
B4
E5
84
01
01
E2
C1
E1
E1
C5
F4
E2
A1
81
F5
B3
B3
F5
F5
F5
F5
F5
A5
A5
A5
A5
85
B5
F4
F2
E5
C1
01
C4
05
01
C5
A2
A2
81

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'SEE PARTS LIST FOR SERIAL NUMBER RANGES.

DA5 9100 SERIES

(363"- Z.IO)
3831.-1.08

670-7475-00

DAS 9129 CONTROLLER MICROPROCESSOR(COLOR)C ~
DA5 9109 CONTROLLER MICROPROCESSOR(MONOCHROME)M 

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D

F

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CONTROLLER C



ASSEMBLY A33

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r~~~~-A~7~______________________________t-__________________________________~;A~~~~~~~~R:~,f:,,:'w-oo¢~~.a~·~~·;_I-o~~D~~~

11

Table 11-12CM

<3>

(670-7475-00)

J

R.°==M==A==R==°
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BOARD
LOCATION

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CIRCUIT
NUMBER
C527
P1

Q425
R121
R215
R225
R415
R416
R417
R418
R421
R525
R527
8100
U100
U105A
U1058
U105C
U105D
U115A
U1158
U115C
U115D
U121
U1278
U185A
U197C
U200
U205A
U2058
U205D
U211
U215
U300A
U300D
U311A
U3118
U311C
U311D

BOARD
SCHEM
LOCATION LOCATION
F4
F1
F4
F3
D3
F3
E3
E1
E1
E1
E5
F4
F4
E1
F5
D4
C4
84
D3
E3
84
82
84
82
A5
85
D5
F4
E5
E5
83
C3
D3
C1
F3
D2
D2
C2
D2

83
83
82
81
81
81
82
A2
A2
A2
82
82
83
A1
A1
A1
A1
A1
A1
A1
A1
A1
A1
81
81
E1
E1
A2
A1
A1
A1
A1
A1
A2
A2
A2
A2
A2
A2

CIRCUIT
NUMBER
U315
U321
U325A
U3258
U325C
U325D
U325E
U400A
U4008
U405A
U4058
U405C
U405D
U4118
U411D
U411F
U4158
U415C
U415D
U421
U425
U500
U505
U515
U517A
U517A
U5178
U521
U531A
U531C
U531D
U535C
U535D
U600
U600A
U603A
U6038
U603C
U603D

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C4
F4
C5
82
F4
C5
F2
E3
C1
E5
C4
84
E2
82
D2
C2
C2
82
E5
85
D1
E1
C1
C3
C2
C1
F1
C5
85
C2
85
A5
D1
E2
E1
E2
82
82

A2
82
82
82
82
82
82
A2
A2
A2
A2
A2
A2
A2
A2
A2
A2
A2
A2
82
82
A3
A3
A3
A3
A3
A3
83
82
82
82
82
82
A3
A3
A3
A3
A3
A3

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CIRCUIT
NUMBER
J498
J499

PO

P1

R185A
. R185B
R185C
R185D
R185E
R295
R481
R485
R488
R497
R581B
R581C
R581D
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R581F
R581G
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R5811
R597B
R597C
R597D
R597E
R597F
R597G
R597H
R5971
U127A
U165C
U175A

SCHEM
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LOCATION LOCATION
D2
D2
F2
A2
E5
E5
B5
E5
E4
C5
C3
B3
A1
B1
F3
F3
F3
F3
F3
F4
F4
F4
E1
E1
E1
E1
E1
E1
E1
E1
A3
F3
A4

E2
E2
D3
B3
E1
E1
E1
E1
E1
E2
D2
E2
E2
E2
E3
E3
E3
E3
E3
E3
E3
E3
E3
E3
E3
E3
E3
E3
E3
E3
B1
D1
D1

CIRCUIT
NUMBER
U175C
U175E
U175F
U178A
U178B
U181A
U181B
U185B
U188A
U188B
U188C
U195
U197A
U197B
U197D
U295B
U397A
U397B
U481
U485
U488
U495A
U495B
U495C
U495D
U495E
U497A
U525
U571
U581
U585
U591
U597

SCHEM
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B5
B4
B5
B4
C5
B4
B5
D5
C5
D4
D5
B2
C5
C5
B5
D3
D3
D3
C4
B4
A1
B1
B1
B1
B1
B1
E3
A2
F2
E3
D1
C1
E1

D1
D1
D1
D1
D1
D1
D1
E1

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E1
E1
E1
E1
E1
E2
E2
D2
E2
E2
E2
E2
E2
E2
E2
E2
B3
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E3
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CIRCUIT
NUMBER
'Cl05
'C121
'C127
'C131
'C137
'C145
'C148
C161
'C162
C165
C168
C175
C178
C181
C185
C188
'C251
C261
'C262
C265
'C266
C268
'C269
C275
'C276
C278
'C279
C281
'C282
C285
'C286
C288
'C289
'C321
'C325
'C337
'C361
C365
C366
C368
C369
C375
C376
C378
C379
C381
C382
C385
C386
C388
C389
C395
C396
'C411
'C415

SCHEM
LOCATION

F4
F4
F4
F4
F4
F4
F4
04

F4
02
03
02
E2
E2
E3
E4

F4
04

F4
02

F4
03

F4
02

F4
E2

F4
E2

F4
E3

F4

E4

F4
F4
F4
F4
F4

84

B4
B2
B2

B3
B3

B2
B2
C2
C2
C2
C2
C3
C3
C4
C4

F4
F4

BOARD
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Bl
Bl
Bl
Bl
Cl
Cl
01
01
01
01
01
01
01
El
El
Cl
01
02
01
02
01
02
01
02
01
02
01
02
El
E2
El
E2

CIRCUIT
NUMBER
'C425
'C438
'C445
'C467
'C468
'C471
'C475
'C478
'C481
'C487
'C488
'C496
'C521
'C525
'C545
C549
C550
'C591
'C597
'C637
C638
C639

PO

B2
B2
B2
02
02
02
02
02
02
02
02
02
02
02
E2
E2
E2
E2
E2
E2
A2
A2

SCHEM
LOCATION

•
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Pl
R185C
TP141
TP211
TP397
TP420
TP436
TP468
TP637
U261
U265
U268
U275
U278
U281
U285
U288
U365
U368
U375
U378
U381
U385
U388
U395
OECOUPLING
OECOUPLING
OECOUPLING
OECOUPLING
OECOUPLING
OECOUPLING

BOARD
LOCATION

F4
F4
F4
F4
F4
F4
F4
F4
F4
F4
F4
F4
F4
F4
F4
F4
F3

F4
F4
F4

A3

F5
F3
A2
02
E4
E4
E4
E4

F4
F4
F4

04
03
03
02
E2
E3
E3
E4

B4

B3
B3

B2
C2
C3
C3
C4
CAPACITORS
CAPACITORS
CAPACITORS
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02
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02
02
02
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E2
E2
E2

B2
B2

C2
C3
C3
E2
E2
B3
83
B3
03
B3
El
Cl
Al
E2

B2
B2
02
B3
01
01
01
01
01
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El
El
02
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02
02
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E2
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c...___.:.2'1 OIJJ

"Tc...1

COMPONENT NUMBER EXAMPLE

-

00

AI'S '-

r'_..____T_7.J

B\3~

Component Number

T

, A23.
A,semtiy
IiJ,'TIber

I
..J

R1234 '

~SCh!m3IrC

L ' CircUit

Subassembly
IIL''7IDer(dulcd)

Numher

Chmls·mJunted (Orr.pJnenls have no k;sem~I;' Numtcr
~-reli'-see end of Re~11CeJ~I~ Elecir,CJI P,rtl List

pIa

\,

3

.1

U ___

+5'1

~~

UPf\ RA'5 .. RI'..S VBB ~r-t>

UPRWR

DAS 9100 SERIES

NOTE: Tnblc 11.1 shows Ie
Pinoul. (vee & Gnd).

A.33 CONTROLLER BD.

5
-~

'5 CAS VDO

RiSSe

A'.

<>

411(0

C275

IS , . - - - - ,
.1
CAS veD ~f--{>

I'=:==,----
I I C3S!
-5'11

, B1

2

LWR RJ.,S 4LW~ WR

'OD~e~

UZ75

670-7475-00

<&
<&

DAS 9129 CONTROLLER S'1'STEM RAM (COLOR) C
DA5 9109 CONTROLLER SYSTEM RAM (MONOCHROME)M

TO
J¢¢r

<2>

til

Z

a

~
o

DAS 9100 Series

wO

tIl-'

«I-

IIlZ

Ww
::!!z
_0

1-11.

-::!!

A

ICO

~o
o-u
D:C

c

B

D

E

I-IC

0«
'-0
«Ill
R110

TP10S

Rl00

ClOD

el13
C114
e115

Rl11
R112
VR112
R113
'Rl14
Rl17
Rl1B

U10a
Y1QD

1

TP110

Rl06

U1'08

Rl07
Cl07
U109

U177
U121

U128

A124

R115

~ ~~g~

R209

R302
R303
R304

U309

R313

C3l5
R3l2
R307

U310

R406
, R407
R408

R415
R416

R418

ROO"

R417

R403
R404
R405

RSOO
R501
R502

R503
R504

R505
eSDl
C502
R506

R510

R419
U410

U241

U321

U325

=1

R420

C427

R421
R422
A423
R424
R425
C425
U415

R427
R532
U421

C42"
R429
C435
U425

R332
C332
C333
A333
R334

A436
C437
A435
C431

R434

RS11

0431'0432
R53D

TP245
U245

TP248

R251

U248

U251

U261

U255

U271

U274

U283

U281

U275

U287

A3S1

~

a:

U335

U351

U345

U341

U291
U295

U265

TP387

C355

C3l5

~

R379
,C38J

U361

U355

U365

U373

U371

U375

TP380 R3BO

C395

C3~1_

, R377
R376

U381

U391

U385

U395

U378

TRIGGER/TIME BASE BOA

:ll

~

TP341

C439

R438
U435

R440

R444
C445

U438

U443

C461

C455

C465

C471

W478
R476

C475

C481

Configuration Guidelines

U451

U446

U455

U456

U461

U465

U471

;,; U473

U475

~

a:

0-

f-

U478

U481
U48S

~

U491

U495

a:

Module

A529
A523

R540
RS41
C541
R542

U518

R525 '
R526

TP537 Q539

C610

R600

C26S

R531

AS28

R508
R509

e275

C,161

C151

TP378
R330
R331

AS24

U508

~

C319

U315

R512
R513
R514
R515

~

()

TP255

0310

R40Q
R401
R410
R411
R412
R413
R414

U195

U165

C245

C341

R308

R402

U235

U231

e316

Q3110312

R309

2

U225

C241
R241
R242

TP221

R310

R306

C304

R225

C235
R23S
R23S

R311

R30S
TP303
U308
C303

R221

U215

0212
R214
C214
R215

TP208

U191

U187

U161

U155

TPJ~l

elM

U183

N

U221

R.213
0211

U206

C208

C212

U181

R161

C154
A154

C210

R206

R152
C152
A153
C1S3

Q116

.c21l

R204
R205

o

U151

Rl16

e231

C209

C155

U141
U145

Ll01
C201
R201
R202
C202
R203

U135

U131

RS43
C542

U595

U543
U546

RSS1

R455

R560

C551
CS61

Controller

fP573

Trigger/Time Base

C58S

CS71

C63D

Recommended
Bus Slot(s)

Functional in
Bus Slot(s)

D

D

Required
Required

CS96

7

7

91AD8

4

6(5,4,3)

6(5,4.3)

91A32

3

2-6

1-6

1

1-6

2

2-6

1-6

A601

J600
C511

3

3836-268
P1

Figure 11-16. A1Q Trigger/Time Base Component Locations.

Comments

U596

TP567
TP565

Max. per
Mainframe

91P16
91P32

Required: first 91AD8 in slot 6,
additional 91 AD8s in descending slots (5,4,3)

Will not function without a
91 P16 installed.
3836-269

Figure 11-17. Trigger/Time Base Location.

t<:i:\ Static Sensitive Devices
\:t::I See Maintenance Section
COMPONENT NUMBER EXAMPLE
Component Number

, A23 A2 R1234 '

TTLsc~~~~tc

Assembly ..
Number

Subassembly
Number (,1 used)

Number

Cllassis-mounted components have no Assembly Number
prefix-see end of Replaceable Electrical Parts list

REV MAR 1984

0"11

0-

zO

-4:':II~

0

c

B

A

0

'-4

o

E

':11

m-

F

:lie;)
-e;)

Zm

-4:11
m:II:::!

"3:
~m
FUNCTION 0. 1, 2,

3'1?:;

4, 5 , 6~

~

1

Table 11-16

('

mDl

:.-

80"

. RE-'ET
v

U475

U 2. 75

"

"7 Ap. LS Z,.4+

I -

NC.

~~; ~'

~o. ':'. ~c

C, K

'>. S T

0,

BO'

0
. J <0>

.cUNCTION 0, 1, 2, 3, 4, 5, 6

!Nv 3

TRIGGER/TIME BASE

04

FUNCTION 1, 3, 4

<@>

Q4

FUNCTION 1. 3, 4

o.
7

ASSEMBLY A 1 0
3, 4, 5, 6

CIRCUIT
NUMBER

SCHEM
LOCATION

C172

B3

01

'C511

F5

J400
J400

A2
A3

PO
PO
PO
PO

A4

A3
A2
A2
03
03
03
03
B3

A1
A2
A5
F3

Pl

C3
C2
C2
C2
B3
B3
B3
B3

Rl72
R173
R174
R176
'R302
'R303
' R304
' R305
R43B
R475
R476
R48l
R485
'R49l
R525
R526
R560
'R600
' R60l

F3

B2
C3
B5
B5
05
F3
F3

E2
E5
E5
05
02

' TP19l

Ul77

BOARD
LOCATION

CIRCUIT
NUMBER

U245A
U275
' U308
U341 B
U3410
U375
U3780
U435C
U438B
U438C
U4380
U438E
U438G
U443A
U455B
U456A
U456B
U4560
U465
U475
U481
U485
U491
W175
W478

01
01
01
01

A2
A2
A2
A2
B2
02
Back of B

02
E2
E3
B3
B3
C3
A3
A3
E1

SCHEM
LOCATION

BOARD
LOCATION

F3

C1

C1
B3
E1
E4
03
E5

01

F3

E4
02
B1
A1
E1
E3
E2
E3
E3
E2
C5
B1
B5
B4
05
C2
C3

A2
B2
B2
02
02
B2
B2
B2
B2
B2
B2
C2
C2
C2
C2
C2
C2
02

,---------------------------------------~~~~~--_r_r--------------------------------------------------____5~~_O_P_'~
p~~, ~

03

17 07

FUNCTION 0, " 2.

4

O~

18

De

C

" A~

~~z~~:

+r

U \ 77

FUNCTION 0, 1, 3, 4

Component Number

2

• A23 A2 R1234 '

U45 6 D
112. 2 .".5 00
~

.,

STATUS

FUNCTION 5

)' 1

A$~mb,'y TrLSct,~~~~c

R5~O

100

HI/moe.

U45 5 B

SiJl).lSSelllb!y
Numbtr (Jf usfd)

NIJmb#:r

Cft~sl; - roo u ill ed C OmD(Hle nl~ hl ~ e
pr~f .. -s~

end ot

R~ pl a(u ble

00 Assem bl y Num[)e r
[It( trocll ram LIst

U375
1'4 L S2,.4-4--

~

BO'

--

3
TO

0-01

D2

FUNCTION 2

E2
E2
01
D2

4

FUNCTION 0, " 2, 3, 4 , S, 6

01

U4 9 \

2.

'"

18

7 4LS2. ... " " ,

.• " 'J

•

: : : : : : 4591A08
91A32 SEl
GEN
:

6 DAe THRSH

3 91A32 GEN
The function numbers at the be ginning and e nd of each colored line indicate all tests that enter or exit that
point The colors correspond to the first test that is run on the line. For more information refer to the introduction of this Diagrams section.

"let ! R.481
SEE PARTS LIST FOR EARLIER
VA-lUES AND SERIAL NUMBER

RANGES OF PARTS OUTLINED
OR DEPICTED IN GREY

'i '

YS

"

Y<

FUNCTION; , 3, 4

D I ....G 10 00"''''

YiO"

~}~
~

®-=-LE_3 - - - - '

¢ 100

NOTE: Table 11 - 1 shows
Ie Pinout. (Vee &. Gnd).

FUNCTION 1, 3 , 4
FUNCTION 0, 1, 2

'f,)

FUNCTION 0
P/ O
J 4 00

FUNCTION 0
FUNCTION 2

E7-" FUNCTION 0 , 1, 2, 3, 4

'0

IV:\ Static Sensitive [)evices
\:!:JI See Maintenance Sec/irm
PIC AIO

DAS 9 10 0 SER IES

FUNCTION 2

V

.rl~~,~_h~' 4~~~~====]
C

FUNCTION 2

B

y ~

f4LS \ ~8

B

FUNCTION 5

~

Yi. .7

Y7

FUNCTION 0, 1, 2, 3, 4

Y8

U 4(, S

The color s on thi s page correspond to the follow ing Trigger /Time Base diagnostic functions:

~
ys

2,3, 4, 5, S

5

FUNCTION O. 1, 2, 3, 4 , 5, 6
FUNCTION 6

n[~~
~C~NlT~-L~
¢ ;;~~~~~~~~~~~~~~ 0
=

U 4 8\

: : : : : : 0 WR&$EQ
1 A COUNTER

4L S IS4

;. ~

• SEE PARTS LISTS FOR SERIAL NUMBER RANGE

2 DELAY

A

COMPONENT NUMBER EXAMPLE

Ie.

:

CCITR

0<,

''''-IE BASE
RE"'I, NOV. Iq83

383b-2. \5

~
'0

0 .0 '

"C K ' A ~

13

Ad>

·A I Z

13Z:

BUS

60,

TR ICiCiER/TIME BASE CONTROLLER

I NTERFACE ~

III

m

A

c

B

o

E

F

MAP 0

p/o

.-

1

I--

0

911

J 70

o <9

Table 11-17

U411B

p¢

' A,I,

"74LS139
PERSONA,L I T'"

15 E.M

SEL

I:'

Sl.OT
~

-i-

2.0

~I

U 4-95

~

CIRCUIT
NUMBER

SCHEM
LOCATION

BOARD
LOCATION

J195

E4
A1
04
F2
F2
F2
F3
F3
01
F1
01
02
F3
04
02
03
F1
B1
B2
C2
C3

E1
03
02
01
01
01
E1
E1
01
01
E1
E1
E1
02
E2
E2
E2
02
E2
E2
E2

R383
U181
U183
·U187
·U191
·U195
U281
U283
U287
U291
U295
U381
U385
U391
U395
U471B
U495
U595
U596

FUNCTION 0, ' .

2,

<

D~,: D3

3 , 4,

5, 6

2

I:J

0:'

Q3

D2-

Q'Z-

DI

Gil

D~

Q(o

- -.....rvIAfO-¢ -

~.s.M''''I>+

'---- l-4- A

,..... IL....-a,

-c.~~p~ --'

l~

-.s

IL--,s

S....!:.

R

L <@>

U59S

4

,4-LS 1-'4

v

ROM

G2..A

"',

YEo '1

C.

Y5

20

QjO~ Q

~

e'
B

,

E
E:'.'

'"
~

'y3
Y"4

'5

3

<\

~')

*

~"

II

I>-:-N
,0

r-

,-

'"

4

1_'''''''
•..,.1 ....

8""

'll

2,"'Be'>

~4'1(e

,E "' ....P I

""",C;. A..B

COiZ8

,{I

2

MP\?2.

3
Go

'"
B

'13

C.

'14

'1'Z.

'15

61

u--- *

.0..12-

I

The colors on this page correspon d to the following T rigger/ Time Base diagnostic funct ions :

no cOlor assigned

2 DELAY

no c%r assigned 6 OAe THRSH

3 91A32 GEN

The function numbers at the beginning and end of each colo red tine in dicate ali l ests that enter or exi llhat
pOint. The co lors correspond to the first test that is run on the line Fo r more information refer to the
introduction of this Diagrams section .

Lrl4

CS

15

AIO

I'!

Aq

2.2.

A6

2..3

AI

I

.,"
;;;I

'",

"' .....

0

AIO

Act

"'S
~,

CEo

I

\I

I
I

10

r ~
II

10

-q

i

~

G F E. D C B

e- i

~

-5 I~ '3

__ ' /r:-]

+5\1

I
I

'

U381

I

1, 19

--'

87

\I

i4Ls2-44

'1

BD7

'"

13

B3

IS

- C> -

"7

To
t:l'¢- z .-

'1

P,D51

[:IL:.B~31
5

Btl;!

""

P>DI

.'0"2..- 4"

1\

SEE PARTS LIST FOR EARLIER
VALUES AND SERIAL NUMBER
RANGES OF PARTS OUTL INED
OR DEPICTED IN GREY ,

21

,

AII,AI2.

ROM

U2'1':l1'
c.'s

MK3~OO

OR
271CO

. , Z / (S K)

18

Q<

/'\\1

/ 31

b
, _~.

( 'I-/(<'K,+5V
ZI

~

AIZ

CD /

'LJ

...

~

I ~

SDQl I

BD

A

B

c

o

E

F

FUNCTION 2

FUNCTION 2

1

FUNCTION " 2. 3, 4
FUNCTION " 3, 4

Tabla 11-19
TRIGGER/TIME BASE

~

ASSEMBLY A10
CIRCUIT
NUMBER

SCHEM
LOCATION

BOARD
LOCATION

CIRCUIT
NUMBER

C152
C153
C154
C541
C542
P1
P1
0538
0539
R152
R153
R154
R161
R251
R351
R440
'R441
'R444
R455
R530
R531
R533
R534
R535
R536
R537
R538
R539
R540
R541
R542
R543
TP245
TP248
TP341
TP537
U145A
U145B
U151A
U151B '

05
C6
C5
F4

F6

C1
C1
C1
B3
B3
B3
B3
B3
B3
C1
C1
C1
C1
C1
C2

E5

Back of Board

A4
A4
F6

C2
C2
C3
B2
B2
B2
B2
B2
B2
B2
B2
B2
82
B3
B3
83
C1
C1
C2
63
C1
C1
C1
C1

U151C
U155A
U1556
U161
U165
U2456
U248
U251
U255
U261
U265A
U2656
U265C
U2650
U271
U274
U341A
U341C
U345
U351
U355
U361
U365
U371A
U3718
U371D
'U373A
U378C
U4350
U435E
U4436
'U443C
U4430
U446A
U4468
U451
U455A
U461A
U4616
U543A

SCHEM
LOCATION

BOARD
LOCATION

2
FUNCTION " 3, 4

F5

A5
F5

F4
F4
05
C6
C5
F6

B5

E6
E5
A4
A4

A5
A5
A5
A6
E5
F4
F4
F4
F4
04
E6
F5

F3
E5
05
C6
05

C5
C6
C5
C2
C3
06
02
86
61
62
C3
C3
83
C3
62
83
F2
F5

E2
E1
F2

E2
F3
F3
F3
F3
B4
E4
E5
E5
E4
A4

85
65
B4
65
86
E5
E5
F4

C1
C1
C1
C1
C1
C1
C1
C1
C1
C1
C1
C1
C1
C1
01
01
82
62
C2
C2
C2
C2
C2
02
02
02
02
02
82
82
C2
C2
C2
C2
C2
C2
C2
C2
C2
C3

3

4

FUNCTION 1, 3, 4

TO

,n ,

<$>0
5

00

FUNCTION 1. 3, 4

FUNCTION 0, 1, 3, 4

-i"V
:»-

FUNCTION 1 , 3, 4

-0

C>J>
C> ...
ma

:»-i
0:»

FUNCTION 1, 3, 4

The colors on this page correspond to the following Trigger/ Time Base diagnostic functions:

~:::::o1 WR&$EQ
•
A COUNTER
2 DELAY

::::::::::::491A32SEL
5 91AOS GEN
:

6 DAC THRSH

• • • • • • 391A32GEN

• SEE PARTS LISTS FOR SERIAL NUMBER RANGE

4)

6

;DoC>
c:C>
_m

FUNCTION 1, 3, 4
FUNCTION 0
FUNCTION 0, 2
FUNCTION

-i:»
-i

11)-

a

3:
m

FUNCTION 2

IV:\ Static Stnsitive Oevicts
\:!::JI Set Mllnt~II~1ICt S« flOlI

FUNCTION 2

The function numbers at the beginning and end of each colored line indicate all test s that enter or exit that
pOint. The colors correspond to the first lest that is run on the line. For more informa tion re'er to the introduction of this Diagrams section.

NO lE: , .... " . , ,howl Ie
Piooovt.

p/o

DAS 9 100 SERIES

rvcc • a .... l·

Al O TR I~GE R/TI"' E BASE 80,



II)

m

UI

Z

o
z-

o!ci:

DAS 9100 Series

-U

!:::O
!!1...1
:::)1-

OZ

UW

cez
ceO
!ci:~

A

CO
.. U

B

c

D

E

~oe
... C

... a:

.. ce
"'0
ceal
"-,,,~~~,,"' '"~"

"'"

"

TPH;2

1

\

i

aI61~o
;.,'I;I~BF.

TP2B1

(C35 hi

2

I

c§si
R3]:2J""
CR352'!.(?

DATA ACQUISITION MODULE

I
a4.H}-c
"f!5?'2':~

Configuration Guidelines

R~§1 ~~

\

'R,~5_?~-k

,

'I

i:;r'""~"'"

L_ ,~,_'"_~__,__,~_,~,--","~",,__~,_,,__~~__J

Recommended
Bus Slot(s)

Functional, in
Bus Slot(s)

Controller

o

o

Required

Trigger/Time Base

1

7

7

Required

91A08

4

6(5,4,3)

6(5,4,3)

91A32

3

2-6

1-6

I

·_ _ _ _ _ _ ~____ J

Module

Max. per
Mainframe

3836-270

91P32

Required: first 91A08 in slot 6,
additional 91 A08s in descending slots (5,4,3)

1-6

91P16
Figure 11-18. A12 91A32 Component Locations.

Comments

2

2-6

1-6

Will not function without a
91 P16 installed,
3836-271

IV:\ Static Sensitive Devices
\2:1 See Maintenance Section
COMPONENT NUMBER EXAMPLE
Component Number

• A23 A2 R1234 '
Assembly

Number

TTLSChem~t'c
Subassembly

;:~~~r

Number (If used)
Chassls-mQunted components have no Assembl~ Number
prefi~-see

@

end of Replaceable Electrical Parts list

Figure 11-19. 91 A32 Location.

Table 11·21
91A32 DATA ACQUISITION

A

~

ASSEMBLY A 12
CIRCUIT
NUMBER
C101
C102
C105
C121
C133
C140
C142
C145
C151
C152
C301
C404
C601
J101
J101
J301
J301
J501
J501
J701
J701

PO
Q411
R101
R102
R103
R105
R107
R113
R120
R121
R127
R128
R131
R132
R134
R135
R136
R137
R138
R139
R140
R141
R142
R143
R144
R145
R146
R147
R148
R149
R150
R151
R213
R214
R240
R241
R215

SCHEM
LOCATION
B4
A5
B5
F4
F4
F5
F5
E5
E5
E4
B4
84
B4
A5
F3
A4
F4

A4
F4
F5
A3
A1
F1
A5
A5
B5
85
B5
F4
F4
F3
F3
F4
F4
F4
F3
F4
F4
F5
F5
F4
F4
F5
F5
F5
F5
F5
F5
E4
E4
E4
E4
E4
85
B5
84
B4
B5

BOARD
LOCATION
A1
A1
B1
B1
B1
C1
C1
C1
C1
C1
A2
A2
A3
A1
A1
A1
A1
A2
A2
A3
A3
03
B2
A1
A1
B1
B1
B1
B1
B1
B1
B1
B1
B1
B1
B1
B1
C1
C1
C1
C1
C1
C1
C1
C1
C1
C1
C1
C1
C1
C1
C1
C1
A1
A1
C1
C1
B2

SCHEM
LOCATION

BOARD
LOCATION

R331
R332
R335
R340
R341
R342
R414
R415
R416
R670

B5
B5
B5
B4
B5
B5
F1
B4
F1
B3
F4
F4
F5
05
E4
F5
B5
F4
F5
F4
F5
F5
E4
C3
C5
C4
E2
F2
03
03
02
03
02
03
02
03
03
F2
E3
B1
04
05
A1
B2
E5
E4

B2
B2
B2
C2
C2
C2
A2
A2
A2
03
82
B2
B2
C1
C1
C2
B1
B1
B1
C1
C1
C1
C1
C2
C2
C1
C2
C2
B2
B2
B2
B2
B2
B2
B2
B2
B2
C2
C2
03
03
03
03
03
C1
C1

TP147
TP148

' TP150
U105A
U122
U133
U134
U140
U142
U152
U241
U245
U335
U341
U346B
U411A
U411B
U411C
U411D
U415A
U415B
U415C
U4150
U435E
U441
U451
U658
U661
U665
U668
U669
VR148
W103

D

E

F

.

COMPONENT NUMBU UAIlPlE

CIRCUIT
NUMBER

'TP122
'TP136
'TP146

c

B

®
11

1

Function D. 1, 2
Function 0, 1

U0SB
"~ LS2.1 3

~l o l l\ "I 2.

Function 0, '. 2, 3

Function 1, 2,

Function 1, 2

1

0"11

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r ...
r

r
Function 1, 2
Function 0, 1, 2

Function 0

Function 0

Function'
Function 0, 1

3

Function 1

Function ~
Function 2

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5
The colors on this page correspond to the
following 91 A32 diagnostic functions :

o MEM AD DR
1 AGO MEM

~unction 1

2 WAD REG
3 DAGTHRSH
The function numbers at t he beginning and
end of each colored line indicate all
lests that enter or exit that point. The
colors correspond to the first test that
is run on the line. For more information
refer to the introduction of this Diagrams

Function " 2

section.

• SEE PARTS LISTS FOR SERIAL NUMBER RANGE

PiC Ale QIA3Z DATA AC'lU (SITION 00 .

DAS 9 100 SERIES

@
~e3.-2Z.0

RE.\I . NOV. a'S

- .,

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m~

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Function 0, 1, 2, 3

...

m>
:II..,

91A32 CONTROLLER IN TE RF.A.CE ~

~>

»
00
mp

Tobie' ,·22
9,1.32 DATA ACQUISITION

~

c

B

A

o

E

F

ASSEMBLY 1.12
CIRCUIT
NUMBER

CI03
C1l5
C',6
CllS
C203
C2ll
C2,2
C2,3
C214
C215
C2'6
C303
C3ll
C3,2
C3,3
C314
C3,5
C3,S
C40J
C4ll
C4,2
C4'J
JIOI
J301
0'0'
0'02
0'03
0'04
0'05
0,06
0107
0108
0'09
0110
0115
020'
0202
0203
0204
0205
0206
0201'
0208
0209
0210
0223
0301
0302
0303
0304
0305
0306
0307
0308
0309
OJIO
0401
0402
0403
0404
0405
0406
R'OO
R,04A
RI04B

SCHEM
LOCATION

A5
85
85

B4
A2
B4
B3
B3
B2
B2
BI
05
E5
E5
E4
E4
E3
E3
02
E2
E2
EI
A'
0,
85
B5
B4
B4
B4
B4
B3
63
63
6J
C5
62
62
62
BI
62
B,
B'
6'
E5
E5
F5
E4
E4
E4
E4
E3
E3
E3
E3
E2
E2
E2
E2
E,
E,
E'
E,
A5
A5

A4

BOARD
LOCATION

A,
AI
A'
AI
AI
AI
AI
A'
AI
A'
A'
A2
A2
A2
A2
A2
A2
1.2
1.2
1.2
1.2
1.2
AI
AI
AI
AI
AI
AI
A'
A,
A'
AI
A'
A'
A'
A'
A'
A'
AI
A'
AI
A'
AI
A'
A'
1.2
A2
1.2
,.,2
A2
1.2
A2
1.2
1.2
A2
A2
A2
A2
1.2
1.2
1.2
A2
A'
A'
AI

COMPONENT NUMBER EXAMPLE

CIRCUIT
NUMBER

SCHEM
LOCATION

BOARD
LOCATION

RI04C
RI040
R'04E
R,04F
R,04G
RI04H
R'041
R,06A
RI06B
R'06C
RI06D
RI06E
RI06F
R'06G
RI06H
RI061
RIOSA
R,08B
RI08C
RI08D
R,08E
R,08F
R,08G
Rll0A
Rll0B
Rll0C
RIIOD
RIIOE
RIIOF
RIIOG
R"OH
R"OI
Rll'A
R",B
RlllC
Rl110
Rll1E
RIIIF
Rll,G
RlllH
Rll11
RII2A
R112B
R112C
R112D
R,,2E
RI12F
R112G
R112H
R1121

A4
A3
A3
A3
A2
A2
AI
A5
A4
A4
A3
A3
A2
A2
AI

AI
AI
A'
A'
A'
AI
A'
A'
AI
A'
A'
AI
AI
A'
A'
A'
A'
A'
A'
A'
A'
AI
A'
AI
A'
A'
AI
AI
AI
AI
AI
A'
AI
AI
A'
AI
A'
A'
A'
AI
A'
AI
AI

R,,4
R115
R208A
R208B
R208C
R2080
R208E
R208F
R208G
R208G
R2081
R209
R2,O
R217

A'
1.2
A2
1.3
1.4
1.3

1.4
1.4
85
84
84
B3
63
62
62
61
6'
B5
65
64
64
63
BJ
B2
B2
B,
B5
B5

B4
B4
B3
B3
B2
62
6'
C5
C5
05
04
04
03
03
0'
0'
02
02
AI
05
C5

A'
A'
AI
A'
A'
A'
A'
A'
A'
1.2
1.2
A2
A2
1.2
A2
1.2
1.2
1.2
A'
AI
BI

CIRCUIT
NUMBER

R221
R223
R304A
R304B
R304C
R304D
R304E
R304F
R304G
R304G
R3041
R310A
R3,OB
R310C
R3100
R310E
R310F
RJIOG
RJ,OH
R3101
RJIIA
RJIIB
RJllC
R3110
RJIIE
RJIIF
R311G
R311H
R3",
RJ,26
RJI2B
R3'2C
R3,2D
R3,2E
R3,2F
R3'2G
R3,2H
R3,21
R404A
R404B
R404C
R4040
R404E
R404F
R404G
R409
UlllA
UlllB
Ull1C
UII I O
U115A
UI15B
Ul15C
UI15D
U215B
U2,5C
U311A
U311B
U311C
U3110
U315B
U315C
U3,50
U3,50

SCHEM
LOCATION

F5
F5
05
04
04
03
03
03
02
02
01
E5
E4
E4
E3
E3
E2
E2
E,
EI
E5
E5
E4
E4
E3
E3
E2
E2
E,
E5
E5
E4
E4
E3
EJ
E2
E2
E,
02
03
04
04
04
03
02
01
C4
C3
C2
C4
C5
C3
C2
C4
CI
F5
F4
F2
F2
F4
F3
FI
F3
F4

BOARD
LOCATION

A2
A2
A2
1.2
1.2
1.2
1.2
A2
1.2
1.2
1.2
1.2
A2
A2
A2
A2
1.2
1.2
1.2
1.2
1.2
1.2
A2
1.2
1.2
1.2
A2
1.2
A2
A2
1.2
1.2
1.2
1.2
1.2
A2
1.2
1.2
1.2
1.2
A2
A2
A2
1.2
1.2
1.2
BI
BI
B'
B,
B'
B'
B,

Q40~

1

""'It

U 2.15B

C11IU1i1· n.)~nttd COIIIpi)/ltilh
no Alstmbly Numbtf
pe!I. -$ft rlld 01 Repllcnble EJKtrQI P.u list,

745 1'32-

~ ~-'"

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...

U3ISC.
745132.

~

2

3

J I

I"

......,......(
1

,"3

GNP

t>

~ I~\ I c.,,"..

4

B'
62
B2
62
B2

II

I

---

-----,-------."
-"----/1

~ ':0

"'ObB

B2

Q I 03

.~

R \\ OB
G,S03

Q I 04
UIIID
"~S'32..

B2
B2
B2
B2
B2

1

~
Function 1. 2

The colors on this page correspond to the
following 91 A32 diagnostic functions :

5

Not s ho w n on t h is page 0 MEM ADOR

, ACO MEM
N o t sho wn on this pag e 2 WAD REC
Not s ho w n on t h is page 3 OAe THRSH
POD

!~g b~~Catic~n~~~~fn:t i~~?c~i~lring and
tests that enter or exit that point. The
colors correspond to the first test that
is run on the line. For more information
refer to the introduction of this Diagrams
section.

_LB.

e

CONNfCTOR

.-=

®

I

poe A CO NNE.CTOR __

P/ O "12.

DAS 91 00 SER IES

I
Static Sensitive Devices
Set

Mlinten~ nce

Sed/On

NOTE : T.bIe

Pinout . {Vce

11 .'
•

.now.IC

Gncll.

91A.32. DATA ACQUISITION SO .

@

3836- i!i!I

C)IA32 POD A AND B RECEIVE.~ ~

CIRCUIT
NUMBER
C40S
C418
C419
C420
C503
C512
CS13
C514
CS1S
CS16
C602
C611
C612
C613
C614
C61S
C616
C617
C618
C703
J501
J701
0407
0408
0409
0410
0418
OS01
OS02
OS03
OS04
OS05
OS06
0507
0508
OS09
0510
0520
0601
0602
0603
0604
060S
0606
0607
0608
0609
0610
0611
0612
0613
0614
0615
0616
0617
0618
R212
R4D8B
R4D8C
R4D80
R408E
R408F
R408G
R408H
R4081

SCHEM
LOCATION

BOARD
LOCATION

AS
BS
B4

A2
A2
A2
A2
A2
A2
A2
A2
A2
A2
A3
A3
A3
A3
A3
A3
A3
A3
A3
A3
A2
A3
A2
A2
A2
A2
A2
A2
A2
A2
A2
A2
A2
A2
A2
A2
A2
A3
A2
A2
A2
A3
A3
A3
A3
A3
A3
A3
A3
A3
A3
A3
A3
A3
A3
A3
A1
A2
A2
A2
A2
A2
A2
A2
A2

B4

A2
B3
B3
B2
B2
B1
05
ES
E4
E4
E3
E3
E2
E2
E1
02
A1
01
B4
B4
B4
B4
CS
B3
B3
B3
B3
B2
B2
B2
B2
B1
B1
FS
B1
B1
E4
E4
E4
E4
E3
E3
E3
E3
E2
E2
E2
E2
E1
E1
E1
E1
BS
A4
A4

A3
A3
A2
A2
A1
A1

Table 11-23
91A32 DATA ACQUISITION
ASSEMBLY A12
BOARD
CIRCUIT
SCHEM
NUMBER LOCATION LOCATION
R417
R418
RS04A
RS04B
R504C
RS040
RS04E
R504G
RS04H
R5041
RS07
RS08A
R508B
R508C
RS080
RS08E
R508F
RS08G
R510A
R510B
RS10C
R5100
R510E
RS10G
R510H
R5101
RS11A
RS11B
R511C
RS110
RS11E
R511 F
R511G
RS11H
R512A
RS12B
RS12C
RS120
RS12E
RS12F
R512G
R512H
RS19
R520
R604A
R604C
R6040
R604E
R604F
R604G
R604H
R6041
R606A
R606B
R606D
R606E
R6D6F
R6D6G
R6D6H
R6D61
R6D8A
R6D8B
R6D8C
R6D8D
R6D8E

BS
CS
A4
A4

A3
A3
A3
A2
A2
A1
A1
A2
A2
A3
A4

A3
A4

A4
B4
B4
B3
B3
B2
B2
B1
B1
B5
B4
B4
B3
B3
B2
B2
B1
B5
B4
B4
B3
B3
B2
B2
B1
FS
FS
04
04
03
03
03
02
02
01
D4
04
03
03
02 ·
02
01
D1
02
02
D3
03
04

A2
A2
A2
A2
A2
A2
A2
A2
A2
A2
A2
A2
A2
A2
A2
A2
A2
A2
A2
A2
A2
A2
A2
A2
A2
A2
A2
A2
A2
A2
A2
A2
A2
A2
A2
A2
A2
A2
A2
A2
A2
A2
A2
A3
A3
A3
A3
A3
A3
A3
A3
A3
A3
A3
A3
A3
A3
A3
A3
A3
A3
A3
A3
A3
A3

~
CIRCUIT
NUMBER

SCHEM
LOCATION

BOARD
LOCATION

R608F
R6D8G
R610A
R610B
R610C
R6100
R610F
R61DG
R610H
R61DI
R611A
R611B
R611C
R6110
R611E
R611F
R611G
R6111
R612A
R612B
R612C
R612D
R612E
R612F
R612G
R612H
R703
U511A
U511B
U511C
U5110
U51SB
US1SC
U51S0
US1S0
U611A
U611B
U611C
U6110
U61SA
U61S8
U61SC
U61S0

04
04
E4
E4
E3
E3
E2
E2
E1
E1
E5
E4
E4
E3
E3
E2
E2
E1
ES
E4
E4
E3
E3
E2
E2
E1
01
C4
C2
C1
C4
C3
C2
C3
C4
F4
F3
F2
F4
F4
F2
F1
F3

A3
A3
A3
A3
A3
A3
A3
A3
A3
A3
A3
A3
A3
A3
A3
A3
A3
A3
A3
A3
A3
A3
A3
A3
A3
A3
A3
B2
B2
B2
B2
B2
B2
B2
B2
B3
B3
B3
B3
B3
83
B3
B3

B

A

c

o

F

. /0
0."".

p/o

0."

E

-t1'Z,.V

PROBE

PRO SE.
P L.uG

PL UIJ

1

""T4 S 132.

2

/ 45132.

3

4

Function 1. 2
Fun ct ion 1, 2

COMPONENT NUMBER EXAMPLE
Th e c,?lors on this page ~rr espond to the
follOWing 91 A32 diagnostic functions :

Component Number

Nor shown on t his page 0 MEM ADO R

. . . . . . . . . . . . . . . 'ACQ MEM
Not shown on this page 2 WRD REC

~m~

5

·:rA23~R1L4~
1

+5 V
R52. 0

Otcui!
Nulltoo

Su N Uf"~

Hum"'"

.._

".=il 'IQ<. 5 2.0

N!J6tM.r (II U#d)

OIISS1s-mountE1l componeltS tI....e 1'10 Assembly Nullbti
~th-set end of Replltt,1N E1ectral P,rb Lost.

Not show n on this page 3 DA e THR SH
The function numbers at the beginning and

end o f each colored line indicate all

"'--

M'

tests that entsr or e xit th at point. T he

colors correspond to the first test that
is run on the line. For more information
refer to the introduction of this Diagrams

...

~

_~__

_

.~

-

_

..~

-_.
_

M

-.~_

,

-

.......

--~. . _

_

_

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_

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3"1 0

tci\ Stllic ~nsitiw Dewitl'
\Z::tI Sft M~mterlinc, Section
NOTE : ,-..11 ·1 .now.IC
Pinout.

(Vce •

Ond)

section .

DAS 9 100 SERIES

'7IA32 POD C AND D RECEIVERS

~

Table 11-24
91A32 DATA ACQUISITION

A

~

B

c

D

E

F

ASSEMBLY A12

CIRCUIT
NUMBER
R21B
R219
R2B1
R2BB
R419
U121
U125
U128
U131
U165
U16B
U171
U175
U178
U181
U185
U188
U2218
U221C
U221D
U221E
U225A
U225C
U225D
U225E
U22B6
U228C
U228D
U228F
U2316
U231C
U231D
U231F
U265
U268
U271
U275
U278
U281
U285
U2B8
U321
U325

SCHEM
LOCATION

BOARD
LOCATION

CIRCUIT
NUMBER

AS
E5
03
F3
85
A2
82
E2
C2
C1
C2
C3
C3
C4
C4
C5
C5
A1
A3
A3
A1
61
83
63
61
E1
E3
E3
E1
C1
C3
C3
C1
F1
F2
F3
F3
F4
F4
F5
F5
A3
63

81
81
E1
E1
82
81
81
81
81
D1
D1
01
E1
E1
E1
E1
E1
62
62
62
62
62
62
62
82
82
62
62
62
82
82
82
62
D2
D2
02
E2
E2
E2
E2
E2
62
62

U328
U331
'U345A
'U345B
U351
U361
U421
U425
U4288
U428C
U428F
U4316
U431C
U431F
U521A
U5216
U521C
U521D
U521E
U521F
U525A
U5258
U525C
U525D
U525E
U525F
U528A
U5286
U528C
U5280
U528E
U528F
U531A
U5316
U531C
U531D
U531E
U531F
U621
U625
U628
U631

SCHEM
LOCATION

BOARD
LOCATION

E3
C3
F2
02
01
F1
A4
84
E4
E4
E4
C4
C4
C4
A4
A4
AS
AS

1

84
84
65
65
84
64
E4
E4
E5
E5
E4
E4
C4
C4
C5
C5
C4
C4
A5
85
E5
C5

n

:::

82
82
C2
C2
02
02
82
82
82
82
62
62
62
62
62
62
62
62
62
62
62
62
62
62
62
62
82
82
82
82
82
82
82
82
82
82
62
62
83
83
83
83

A4
A4

Function 1, 2

V

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Function', 2

2
READBACK

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3

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COMPONENT NUMBER [U,MPlE

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pOD

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The function numbers at the beginning and
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refer to the introduction of this Diagrams
section .

•• SEE PARTS LISTS FOR SERIAL NUMBER RANGE
DA5 9100 SERIES

91A32 TIMING CIRCU ITS<&

c

B

A

D

E

F

Table 11-26
91A32 DATA ACQUISITION

r'tm

~

1

ASSEMBLY A12
CIRCUIT
NUMBER
Pl
R463
R464
R465
R472
R473
R475
R478
R479
R481
R485
R488
R535A
R5358
R535D
R535E
R541
R680
U465
U468
U471

SCHEM
LOCATION
F3
A3
A4

D5
83
B4
D5
C3
C4
D5
D3
D4
F3
F3
F4
F4
F5
E5
A2
A4

B2

BOARD
LOCATION
B3
D2
D2
D2
D2
D2
E2

E2
E2
E2
E2
E2
C2
C2
C2
C2
C2
E3
D2
D2
D2

CIRCUIT
NUMBER
U475
U478
U481
U485
U488
U541A
U5418
U541C
U541D
U545
U645A
U671
U675A
U6758
U681A
U681B
U685A
U685B
U688A
U688B

SCHEM
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C2
C4
D2
D4
F3
F4
F4
F4
F4
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colors correspond to the first test that
is run on the hne . For more informa tion
refe~ to the introduction of this Diagrams
section .

.-~

COMPONENT NUMBER EXAMPLE

2 DELAY CNTR

3 WRO REC

~

0'V

~o

Table 11-28
91A08 DATA ACQUISITION MODULE

c

B

A

0

:.:.

o

E

:D"
me.>
0 ...

F

m"
-:.

<0
m",
:Do

0)0-

ASSEMBLY A13

~

:.
CIRCUIT
NUMBER
·OL215
·0L219
·0L223
· 0L227
·OL314
·OL319
·OL323
·OL327
J500
PO
R120A
R1208
R120C
R1200
R120E
R120F
R120H
R1201
R123A
R123B
R123C
R1230
R123E
R123F
R123H
R1231
R126A
R126B
R126C
R1260
R126E
R126F
R126H
R1261
R128
R214
R215
R216
R217

SCHEM
LOCATION
C4
C3
C2
C1
C3
C3
C2
C2
A1
A1
F3
F2
F2
F3
F3
F2
F3
F3
03
02
02
03
03
02
03
03
E3
E2
E2
E3
E3
E2
E3
E3
A4

B3
C4
A4

B3

BOARD
LOCATION
A1
B1
B1
81
A2
B2
B2
B2
A2
03
B1
B1
81
B1
B1
81
B1
B1
81
B1
B1
B1
B1
B1
B1
B1
81
B1
81
B1
B1
B1
B1
B1
B1
A1
A1
A1
A1

CIRCUIT
NUMBER

SCHEM
LOCATION

R218
R219
R220
R221
R222
R223
R224
R225
R226
R227
R228
R229
R230A
R230B
R2300
R230E
R230F
R230G
R230H
R233
R315
R318
R319
R320
R321
R322
R323
R324
R325
R326
R327
R328
R329
R3300
R330E
R330F
R330G
R330H
R3301

83
C3
83
83
82
C2
82
82
A1
C1
A1
A1
84
05
05
04
04
B5
B5
B4
C3
A2
C3
A3
A2
81
C2
B2
81
B2
C2
B2
B2
F5
F4
F4
E5
E5
F5

BOARD
LOCATION
81
81
81
81
81
81
81
81
B1
B1
81
B1
81
B1
B1
B1
B1
81
B1
B1
A2
B2
82
82
82
82
82
82
82
B2
82
B2
B2
B2
B2
B2
B2
B2
B2

CIRCUIT
NUMBER

SCHEM
LOCATION

R3301
R334
R335
R411
R412
R414
R421
R422
R429F
R429G
TP218
TP221
TP225
TP228
TP31B
TP321
TP325
TP328
U121
U125
U128
U218
U218
U221
U221
U225
U225
U228
U228
U318
U318
U321
U321
U325
U325
U328
U328
U671 0
U671G

E4
A5
E4
83
83
B3
B5
85
85
B5
C4
C3
C2
C1
C3
C3
C2
C2
F2
02
E2
F5
B4
05
B3
B2
C4
A1
B4
F4
B3
04
A3
85
B2
C5
B2
B1
81

BOARD
LOCATION
82
81
C2
A2
A2
A2
B2
82
B2
B2
A1
81
B1
81
A2
B2
82
B2
B1
81
81
A1
A1
B1
B1
81
81
B1
B1
A2
A2
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B2
B2
B2
B2
B2
03
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The colors on this page ~res~nd to the
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";;+
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II

lCHI

IZ

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PJo U'l Z5

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2 DELAY CNTR

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COMPONENT NUMBER EIAMPlE

5 DAC TH RSH
The function numbers at the beginning and
end of each colored line indicate all
tests that enter or exit that point. The
colors correspond to the first test that
is run on the line. For more information
refer to the introduction of this Diagrams
section.

CIl.u~'$· ,'lCl\lIIt'd COIII!lOntm!$ n.ve 11(1
I)/etl. -~

ef'ld 01

RepilCUbie

As.5embl,

NU rtibel ,

E1tctflul Parts List

seE PARTS LIST FOR EARLIER
VALUES AND SERIAL NUMBER
RANGES OF PARTS OUTLINED
OR DEPICTED IN GREY

tV:\ Static SensitiYe Deyices
\;!jI Stt Mlmte~nce S«tion

--.;;0

AI3

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DATA

RE". NO,""

• SEE PARTS LISTS FOR SERIAL NUMBER RANGE

DAS 9100 S E RIES

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NOTE: T.bI. 1' ·'
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Function 3

Table 11-29

c

B

A

o

E

F

91Aoe DATA ACQUISITION MODULE
ASSEMBLY A13

Function 4

U33 8F

CIRCUIT
NUMBER

SCHEM
LOCATION

BOARD
LOCATION

CIRCUIT
NUMBER

SCHEM
LOCATION

BOARD
LOCATION

CIRCUIT
NUMBER

SCHEM
LOCATION

BOARD
LOCATION

R231
R268B
R2680
R2680
R268E
R273B
R273C
R2730
R273E
R2786
R278C
R2780
R278E
R282B
R282C
R2820
R282E
R2836
R283C
R2830
R283E
R283F
R283G
R283H
R2831
R285
R2866
R286C
R2860
R286E
R461
R4686
R468C
R4680
R468E
R4736
R473C
R4730
R473E
R4786
R478C
R4780
R478E
R4826
R482C
R4820
R482E
R483A
R4836
R483C
R4830
R483E
R483F
R483G
R483H
R485
R4876
R487C
R4870
R487E
R4966
R496C
R4960
R496E

01
B4
B4
B4
B4
B4
B5
B4
B5
63
B2
63
63
62
62
63
B2
C5
C5
C5
C5
C5
C5
C5
C5
B6
62
61
61
61
01
E4
E4
E4
E5
E4
E4
E4
E4
E3
E3
E2
E3
E3
E2
E2
E2
E5
E5
E5
E5
F5
F5
F5
F5
E6
E1

B1
01
01
01
01
01
01
01
01
01
01
01
01
E1
E1
E1
E1
E1
E1
E1
E1
E1
E1
E1
E1
E1
E1
E1
E1
E1
02
02
02
02
02
02
02
02
02
02
02
02
02
E2
E2
E2
E2
E2
E2
E2
E2
E2
E2
E2
E2
E2
E2
E2
E2
E2
E2
E2
E2
E2

R496F
R496G
R496H
R4961
R584A
R584B
R584C
R5840
R584E
R584F
R642
TP281
TP285
TP481
TP485
U231A
U2316
U231C
U2310
U231E
U231F
U235A
U2356
U235C
U2350
U235E
U235F
U238A
U238B
U238C
U2380
U238E
U23BF
U241A
U2416
U245A
U2456
U245C
U2450
U245E
U245F
U248A
U2486
U248C
U2480
U248E
U248F
U251A
U2516
U251C
U2510
U251E
U251F
U268A
U268B
U268C
U2680
U271A
U271B
U271C
U2710
U278A
U2786
U278C

F4
F4
F4
F5
F3
C3
F5
F1
C1
C4
A3
C6
B6
E6
E6
62
B4
B2
B4
B4
B2
B4
B2
65
B3
B5
63
63
65
63
64
62
B1
B1
61
C1
C5
C4
C1
C1
C4
C5
C1
C3
C3
C3
C3
C2
C4
C2
C4
C2
C2
C4
C4
C5
C5
C4
C5
C5
C5
C3
C2
C3

E2
E2
E2
E2
E2
E2
E2
E2
E2
E2
C3
E1
E1
E2
E2
61
61
61
61
61
61
61
61
61
61
61
61
C1
C1
C1
C1
C1
C1
C1
C1
C1
C1
C1
C1
C1
C1
C1
C1
C1
C1
C1
C1
C1
C1
C1
C1
C1
C1
01
01
01
01
01
01
01
01
01
01
01

U2780
U281A
U281B
U281C
U281D
U285
U331A
U331B
U331C
U3310
U331E
U331F
U335A
U335B
U335C
U3350
U335E
U335F
U338A
U3386
U338C
U3380
U338E
U338F
U341A
U341B
U345A
U345B
U345C
U3450
U345E
U345F
U34BA
U348B
U348C
U3480
U348E
U348F
U351A
U3516
U351C
U351 0
U355A
U355B
U355C
U3550
U355E
U355F
U468A
U468B
U46BC
U46BO
U471
U478A
U4786
U478C
U4780
U481A
U4816
U481C
U4810
U485

C3
C2
C2
C3
C2
C1
02
04
02
04
04
02
04
02
04
03
04
03
03
05
03
04
02
01
01
01
E1
E1
E4
E5
E3

01
E1
E1
E1
E1
E1
B2
B2
62
62
62
62
62
B2
62
62
62
62
C2
C2
C2
C2
C2
C2
C2
C2
C2
C2
C2
C2
C2
C2
C2
C2
C2
C2
C2
C2
C2
C2
C2
C2
C2
C2
C2
C2
C2
C2
02
02
02
02
02
02
02
02
02
E2
E2
E2
E2
E2

E2

E1
E1
F4
F4
F4
F4

E2

E4
E2

E4
E1
E3
E2
E2
E4
E3
E1
E4
E3
E4
E3
C2
C4
F4
F4
F4
F5
F4
F3
F3
F2
F3
F3
F2
F2
F2
F1

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... 50 "

0.....•.-.....:1 _ _. . 110 .. 00"'-01''''-_
II'tIa __ tl!d".IIIootaKtlElK1nc.thl'blJll

Function 4

., 8

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Not sho w n on Ihls p8ge 0 MEM A DDR
No t sho wn on this page 1 DIFF CNTR
Not shown on this page 2 DELAY CNTA

•

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Not shown on t his page 3 WAD REC
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~{
O·~-9Q~'~·~~--------------------------~Ir+-t----------------------------------------~
A ~

Not shown on this page 5 OAe THRSH
The function numbers at the beginning and
end of each colored line indicate all
tests that enter or exit that point. The

~~nS ~~~ee~.d ~gr t~~:=~~f~r~!7~

ECl. M[M ACe. EN

Function 4

~ ~E~C~'~C;~~-~'~"~~~C~'~~~__________________________2-1-__~______________________----------------------t-----------------------------~
a~ ~ -Bsa,

BS'1 - BS,,"

'"

3

A{ -~O~.~F.-O~~~6------------------------------------------~~--------------~
V
0 0 0 we

r P 4- eo.; t;
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R""
3 ,"0

I

Go

J

1______..

R52.B

100131'23

5 \

"2.4 -

E.C ~I:~;LE.N I ~

100102..

"'5'37

o MEM ADDR

The function numbers at the beginning and
end of each colored tine indicate aU
tests that enter or exit that point. The
colors correspond to the first test that
Is run on the line. For more information
refer to the in troduction of this Diagrams
section.

U"2. I A

PIa P I

h

Act I

~


I



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¢

DELM

R

~

+3V

I'

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WIQTH

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4

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9

U 5 66C.

1

13 ", 15

~~~I ~f~

HI-;:;"'~I'A...;:'-~--"'---+3'I--C..b-.5-.,..~-HY: 1-:12.~j[~:>,~~I=..==:::::l.:O.:D:.:C:.....W:.:..:E:.....1\

P;~i e.

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R

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H I'" NO S TORE

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Q

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L-=~~+'14_'-;s>-~: .2.---"'. 0 -;1--..j~z.N'~0-

/,;,.. ...:C:.:L:,:K
c.:....:::
B ____________________

5 DAC THR SH

1C.~

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o,-~~~lt~J.~~q:L~~6~~~~~----~~--~

R4 5 0C

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1\ 1
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The colors on this page correspond to the
following 91A08 diagnostic fu nctions :

~5

4

till-r.ee tnd

101 7 0

-~
':'"
U558B

' l"T P381 1

en s

05

E:

Q¢
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i
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U4IoSE,F

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qUA L

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L~4~======}-----------------------------J_----------------------------__JCi\
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Static Sensitiye Deyices
NOTE : TlbI. ll - l .howl Ie
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DATA. ACQUIS I TI ON
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91A08 MEMORY AN D QUALIFI ER CONTROLS

~

Table 11-31
91AOS DATA ACQUISITION MODULE

A

c

B

D

F

E

<@>

ASSEMBLY A13
CIRCUIT
BER

CS14
C601
C602
C701
C704
C709
J300
J302
J70S
P1
P1

-0138
OS71
OS72
0601
0602
0608
0616
0623
0644
064S
0649
'R131
' R13S
' R136
R139
'R4370
'R4370
' R437G
R442A
R442B
R442C
R4420
RSOe
' RS09C
' RS090
'RS09E
RS10
'RS11
RS13B
RS13E
RS140
RS14E
' RS27
RS32
RS34
RS3e
RS4SA
RS4S8
RS70
RS71
RS74
RS01
R602
RS03
RS04
R605
RS1S
RS1S
RS17
RS27
'R629C
RS39
RS41

SCHEM
LOCATION

BOARD
LOCATION

CIRCUIT
NUMBER

SCHEM
LOCATION

BOARD
LOCATION

C2
C4
C3
84
B4
B4

A2
A3
A3
A3
A3
A3
A1
A2
A3
B3
B3

R643
R645
RS4S
R647
R6S0
R701
R702
R703
R704
R70S
R706
R707
R70e
R709
TPS11
'U131
'U17SC
U18SC
U18S0
U41SA
U41SC
U41S0
U431B
U435A
U43S8
U43S0
U441A
U441B
U44SA
U445B
U45SB
U511C
U511D
U511E
'U52SB
US41B
U541F
U568B
U588
US91A
U595A
U595B
U605
US1SA
U61SC
U61S0
US1SE
U671E
US8S
U691
U701

01
C1
C1
C1
02

C3
C3
C3
C3
C3
A3
A3
A3
A3
A3
A3
A3
A3
A3
A2

A4

A4
B4

A3
F4
A2
B1
B1

C4
C4
B3
B3

B3
02
02
C1
A2
A2
A2
F5
82
82
82
C4
F5
E5
02
C4
C2
C2
C2
C4
F4
E4
B3

E4
E4
B3
BS

C1

02
02
A3
A3
A3
A3
B3

C3
C3
C3
B1

81
81
C1

B2
82
B2
C2
C2
C2
C2
A2
A2
A2

A2
A2
A2
A2
A2
A2
A2
B2

B4
B4
B4
B4

C3
C3
C3
C3
C4
E4
82
A2
C1
01
F3
C4
C4
B1
C3

C3
C3
ES

C4
ES

F5
84
E4
E4
E4
C3
A4
AS

F5
E1

E2

1

~--2

01
A2
A2
A2
B2
82
B2
B2
C2
C2
C2
C2
C2
A2
A2
A2
82
C2
C2
02
E2
E2

E3

E2

E2
C2
E4
E4
E4
E4
01

E2
A3
A3
A3
A3
A3
03
E2
E2
A3

3

_ _J

A3

C4
C4

A3

1 DIFF CNTR

A3

C4

A3

2 DELAY CNTR
3 WRD REC

B3
B3
05

A3

4 ACO MEM

A3

5 DA e THR SH

F3

F4
02
ES

B3

83
83
C3

C3

F2
C4

4
p{o
PI

:;;;-;-

C4

F1

•

E1
E1

C4

BS
B1
B1
B1

Function 1, 2

B1

C2
C2
C2
C2
C2
02
02
02
A3

B5
B5
B4

Function 0

's s

PI O

~IA o e

PROBE.

e LK

IN

5

tOZ31

U445A

following 91 AOS diagnostic functions:

• SEE PARTS LISTS FOR SERIAL NUMBER RANGE

SEE PARTS LIST FOR EARLIER
VALUES AND SERIAL NUMBER
RA N GES OF PARTS OUTLINED
OR DEPICTED IN GREY.

U541F
'1"t504

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13 f"o...

11.

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,____________ 2
CIRcu;T l

DAS g lOO 5ER IE S

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IV:\ Static Sensitive Devices
\Z)I See M.inttn~nct Section

fI'/OAi3

9"0 6

DATA ACQUISITION

@
~e.3cO-230

RE.". NO\{. 83

•

60,

10'( 3 1

~ ,....--

,---~~D

' i - -- -- - -- - - - --f'--l>
.; [ 0

o MEM ADDR

The func ti on numbers at the be9lnning and
end of each colored line indicate all
tests that enter or exit that point. The
colors correspond to the first test that
is run on the line. Fo r more information
refer to the introduction of this Diagrams
section.

..,

~r----

Q~
'--

Q

Z.

U445B ~R "4- 2B

:

I
~OZ.31
I lO r - - IS

I ~~D

f-

0.

,..:00;0
O'tl

--_ ._-----U441A

The colors on this page correspond to the

3

~

75
1'0\'1

,

••• '" ..• .
I"'IW, MJI

C'"

'2

q

:;;~

"'0

,,'

NOTE :T.bI.11 · 1 1hoW,IC
Pi _ to (VCe • Gndl .

m ..
~c

102.1""

"

10

"7

...

go",

U5ID8 B

~ 3V ~c

Function 2

'''~

z~

o·

~.
0

I

;

c

B

A

Table 11·32

o

E

F

A

ASSEMBLY A13

pJo

Function 0

PI

CIRCUIT
NUMBER

C632
CR630
P1
P1
0151
0152

0631
0632
R145
R149
R150
R158
R419
R420
R425
R428
R429A
R4298
R429C
R4290
R429E
' R430
' R431
R432C
' R436
R437F
R4371
' R438
R4508
R450E
R450F
R450G
R458
R513A
R513D
R513E
R514A
R514B
R514C
R522
R523
R526
R5336
R5330
R536
R539
R540
R541
R542
R543
R545C
'R546
R618
R619
R6286
R628F
' R629C
'R629E
R631
R632

R633
R634

SCHEM
LOCATION

E2
F2
A3
F1
E3
E3
F2
F2
E4
E3
E3
F3
C2
C2
C2

04
04
C3
E3

04
E5

62
63
03

61
61
61
61
61
E4
63
65
65

BOARD
LOCATION

63
63
63
63
C1

C1
83
63
C1
C1
C1
C1

62
62
62
62
62
62
62
62
62
62
62
62
62
62
62
C2
C2
C2
C2

C2
02

03

A2

C4
C4
C4
64
C4

A2

E3
E2

04
63
C1

63
63
01
OS
OS
05
C5

62
64
E5
C2
02
A2
C2
F2

E2
El
F1

A2
A2
A2
A2
62
62
62
62
62
C2
C2
C2
C2

C2
C2
C2
C2
63
63
63
63
63
63
63
63
63
63

CIRCUIT
NUMBER

SCHEM
LOCATION

BOARD
LOCATION

R648
U135
U145
U148A
U1486
U148C
U1480
U148E
U148F
U1S1
U1S5
U158A
U1S86
U158C
U1580
U158E
U158F
U421A
U42sA
U428
U431A
U431C
U4310
U435C
U438A
U43B6
U43BC
U451A
U451C
U455A
U511A
U5116
U515A
U5156
U51B6
U521A
U5216
U525A
U52BA
U5288
U541C
U541E
U621C
U6210
U621E
U625A
U6258
U62SC
U6250
U625F
U628A
U6286
U671F
W545
W615

E2
61
F4
F4
F4
F4
Fs
F4
F5
Fs
F3
F3
Fs
Fs
F3
F3
F3

C3
61
C1
C1
C1

C1

C2
04
OS
C3
C3
EA

04
02
02
02
82
82

I

ASGI5TE R

Function 2

T R I GG ER

J
. -_ _ _--4'<.0.,;;;5"'0_ +3~

4

"

2-

Function 2

14

10

COMPONENT NUMBER EXAMPLE

9 11loo..08

T~le:.R.O

'2,0

R'S14C

100\0'"

R+l.s

~==~==~===========c==~~........~~~;;;;::::::::::::::I==t==~,~.11=~'3
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U"'2.58
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ChaSSlS-II'I(Iunled camDOOents h.lve 00 A&se",bI~ Nurnbtr
pttti<-stotelldol RepliCubltEJectnu l F'¥tslrst

I

'5

U02. Ie
10010 2.

~Jb

I "~18 5

1

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10135

7Cs-

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US IS'"

~"1S

2.

•

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'O'Q'i

Q

~ f-'3~-'-R.'V5v.'4-'-B=- +

3V

,0010 28
5

50

I'/.

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I OOIO'Z.,

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101 3 5 '

, O~:-- 15

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1'.5'30

I

;

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+3\/

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to

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+-__+-~2~~~ n
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+3V
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----~-~~Ir-L·O·W·'~R. ."·4·D~E~~·V~CO~U·N~T~E~R. .i
U42.8
100 ' "
T3 V
R,4ZCJ,.,

c..e. Q¢

3

l.

.5 PE..
ECI..O/jEI -, O
-"------4

CD

5 DAC THRSH

The function numbers at the beginning and
end of each colored line indicate all
tests that enter or exit that point. The
colors correspond to the first test that
is run on the line. For more information
refer to the introduction of this Diagrams
sectfon.

UI 58B

3~47401

CL':: G A.

. . OINN 2 13[>V,~ ~~~~

Function 2

2 DELAY CNTR

81
E5

COuNT ER,

1010 4-

5

,4 504
TR\G0

DELAy

U438/>..

U541 E

PI

'11A~'l.

3 /4

33

F<.,513.A.,

4

p/o

q

TOP

RISO

f

3

A2
62
62
62
62
62
62
C2
63
63
63
63
63
63
63
63
63
63

l

,.sv
A..RM

81

• SEE PARTS LISTS FOR
SERIAL NUMBER RANGE

Q0 3 1

2

C1

C2
A2
A2
A2

Bl l /

TRIG~ER CONTROL

62
62
62
62
62
62
62
C2

65
C4
C4
64
C4
E4

EV ENT \

8

C1
C1
C1
C1
C1
C1
C1

C2
C2

Q"'32.

rTLQ¢Function 0

81

CS
83

E2

51

C1
C1

C2
C2

02
OS
A3
84
C4
C4

Function 0

Rb34

C1

D3
83
83

E1
E2
E2
01

1

P'PELIN£D

I NTERN.6IL

TIMING

S EQ U E NC.ER.

I

Ifi:\ Static Sensitive Devices
\Z::I See Maintenance Section

SEE PARTS LIST fOR EARLIER
VALUES AND SERIAL NUMBER
RANGES OF PARTS OUTLINED
OR DEPICTED IN GREY

NO TE : T.,." . ,.t.ow.IC
Pinout. (Vee. Gndl.

"tIAoe

S T OP SToR£"

A

L-~~_______________________~~I~~o---,e~~~_u~~=L~e~u~s~ ~

P/O A I3 QlA08 DATA. ACQUISITION BO.

g lAOe TRIGGER

DAS 91 00 SERIE 5
RE.V. NOV· 83

<®>A

o:UI

O~
!;j;i=

DAS 9100 Series

0:'<

wU
zO
w-'

CHZz
o:W
wZ
..... 0
..... Do
c::E

DoO

coU

iLa/I

A

"'0

"'0:

... c

B

o

c

E

"'0
Clll

1

2

91P16 PATTERN GENERATOR MODULE

~,~~,

i,n:tn'l();

~~'~

,[;'~", t
~~663 !

Configuration Guidelines

'U661i'

Recommended
Bus Slot(s)

Functional in
Bus Slot(s)

Controller

o

o

Required

Trigger/Time Base

7

7

Required

Module

esso
;m~::~ >{elSO

Max. per
Mainframe

91A08

4

6(5,4,3)

6(5,4,3)

91A32

3

2-6

1-6

1

1-6

2-6

1-6

3636·274

3

91P16
Figure 11-22. A14 91P16 Component Locations.

91P32

2

Comments

Required: first 91A08 in slot 6,
additional 91 A08s in descending slots (5,4,3)

Will not function without a
91 P16 installed.
3636·275

.-B

ASSEMBLY A13
CIRCUIT
NUMBER

SCHEM
LOCATION

BOARD
LOCATION

CIRCUIT
NUMBER

Function 0

SCHEM
LOCATION

BOARD
LOCATION

1

B'B
Function 0

6 NO

1
C632
CR630
P1
P1
0151
Q152
0631
0632
R145
R149
R150
R158
R419
R420
R425
R428
R429A
R429B
R429C
R4290
R429E
°R430
°R431
R432C
°R4;36
R437F
R4371
°R438
R4508
R450E
R450F
R450G
R458
R513A
R5130
R513E
R514A
R514B
R514C
R522
R523
R526
R533B
R533D
R536
R539
R540
R541
R542
R543
R545C
"R546
R618
R619
R6288
R628F
"R629E
R631
R632

E2
F2
A3
F1
E3
E3
F2
F2
E4
E3
E3
F3
C2
C2
C2
04
04
C3
E3
04
E5
B2
83
03
B1
B1
B1
81
B1
E4
B3
B5
B5
03
C4
C4
C4
B4
C4
E3
E2
04
83
C1

E2

B3
B3
B3
B3
C1
C1
B3
B3
C1
C1
C1
C1
B2
B2
B2
B2
B2
B2
B2
82
B2
B2
B2
B2
B2
B2
B2
C2
C2
C2
C2
C2
02
A2
A2
A2
A2
A2
A2
B2
B2
B2
B2
B2
C2
C2
C2
C2
C2
C2
C2
C2
83
B3
B3
B3
83
83
83

R633
R634

101
F1

B3
B3

B3

83
01
05
05
05
C5
82
B4

E5
C2
02
C2
F2

R648
U135
U145
U148A
U148B
U148C
U1480
U148E
U148F
U151
U155
U158A
U1588
U158C
U1580
U158E
U158F
U421A
U425A
U428
U431A
U431C
U431 0
U435C
U438A
U4388
U438C
U451A
U451C
U455A
U511A
U5118
U515A
U515B
U518B
U521A
U521B
U525A
U528A
U528B
U541C
U541E
U621C
U6210
U621E
U625A
U625B
U625C
U6250
U625F
U628A
U628B
U671F
W545
W615

E2
B1
F4
F4
F4
F4
F5
F4
F5
F5
F3
F3
F5
F5
F3
F3
F3
C1
C2
04
05
C3
C3
EA
03
B3
B3
C5
B3
B5
C4
C4
B4
C4
E4
E1
E2
E2
01
02
05
A3
B4
C4
C4
E2

04
02
02
02
B2
82
B1
81
E5

C3
B1
C1
C1
C1
C1
C1
C1
C1
C1
C1
C1
C1
C1
C1
C1
C1
B2
B2
B2
B2
B2
82
82
C2
C2
C2
C2
C2
C2
A2
A2
A2
A2
B2
B2
B2
B2
B2
B2
C2
C2
83
83
83
83
B3
83
83

O£'L ,c"Y W

6

Q u AL

-

,r--

U5 2. 11\
10 2.3 1

D

r TLD¢ FunctIOn 0

,
22.2.

2

7
;3V

Ub ~S I\
10 0 10 2.

-

<€P (

Function 2

U5 2. 18 l R. .... B

R4,o

'--

l~-'S

IOZ3 /

~9 ~ ~ r'~5r-__~____+-R_S_2._,--------------------9-'A--O-6-T-R-'6-R~D~ ~
r'1...-/

6R t2l, G P.,.\

~ , 'Nfl...,

~

RGi j-'_4 t-r=Z:":'1>""'_
' _ ......~'N5,_ +3V

___J-________

"---:~:;;;~;;;;;;;;;;;;;;r1r1~~~~~~~~~~~~~~~~~~~~~~-±~5~':0-t-====~~~--1--~7-0
~"~r-~
US2.SA
~ __=C=L~K~B~'---~~________~~~-+----~--------------------------~-------------1I~------~--__________~--------------------'-C=L="~B~--.....J
L-r-r-_'_O_O_I_O_-,_________________________A_~_~__q_'_A_O~6__T_R~'G~.~ <&
t-3V~

U43 8C

, 5

..... R.t.\ ct l o\0 8 'TR. I G

U4-S IC

ARM

T RI GG ER

1\

\ ~~O .l!r

.'£!....j

I

A RPVi q lAO S ON I
' LO
COMPONENT NUMBER EXAMPLE

D EL AY

, -_ _ _ _ __="':..-'_'_T_'_"'-_ _
C L R,

5 UP

,40-'

Q~ ~
2 ~,
QS

-C>-

~

"c -=--=~

Q0 2-...!

1-:'2:~t-~=.- R \ 58 +Sv
~o

II<

-;;'
Q

'----.....J~D

R 450E
-,,
'~
"'-.,

+5 D 2 -

's~f

.____ ~...__"""'-....__....__.....'!Ii"
-~

Chus.s· mounred COrll oonents ....e Ill) .t.ssembjy Number
Dfe!II - >et end of Rt!llacublf E1«1flcal l'artsLtSl

4

I

,

LOW ER

1/4 O e:v..'f COUNTER

"

:

~

I

I

eLK B

U45SA.
4

I 0 104-

~~SB

-+50"2..

100 10 Z.

I

+3 v

U518C

~ I OOI31

Function 2

foil o wing 91 AOe diagnos tic fu nction s:

B3

o MEM ADDR

83
83
03
C3
A3

1 DIFF CNTR

-

11

~

3

3

~

b

Function 2

4----4

LD QB~ -- C>-- ..:..
:~ _H,

~
'

0

<' 0

.5 J

14

~
~

U I5 1

w,

'3

'CD

Z

OW N

QS

a

T TL.Ob IO

c

:r T L.~

D

r-..

1'2. , 4 0"

v

UI48 D

3--f':4
13

A,

TTLDS I

v

UI S8B
7At O
?
UI48 F

"'LS I" 3

UP QA

Q C '"

q '" 6

r--v
7

Q D --

5

7 4 07

U I5 8C
r-- " 7 4 07

-t.'

c

5 DAC THRSH
P I PEL 'NED

I N T E R N .... L

les IS thai enter or exit that

point. The
colors correspond to the first test that
r~f er to the intrOduction of this Diagrams
section.

I

II

2 DELAY CN TR

14-0~

WI

OWN n
_
""I>..

+-+rr
-CD-'--'
~" 5-"1
Function 2

B IT 0

~
.-:"'I"!
::::-:-'I4-=-8-A-:'!--fC--Et-=---'-'-~

CLR

Iq
t SV

5

OE.L,.,.,,"{ I

7 4 L. S I Cf3

II

TTL.03 "t

II

R~50
'"
U4SIA.
~10
~I R54 5 C
IK.
74LS04
....
~ --~E~N~L~O~D~E~L~A:~~~~~~r_~L-t---~==================~~8~---~
---==~'v"~~~===-____'~'~~~~~~70~~~~~J~I-~4~----~

3 WRD REC
4 ACO MEM

is run on the line. For more information

T nO \

U I4-5

uP

TT L 02. I O C.

Q

+5 v

~

75

IS 0 S Q f-'.:4_ _ _ _..

r:~:J5D}Z~--L:~-- +3V

The colors on this page correspond to the

ot-5V

TT\"~'S

R I 45

-£1>
r,
~ +50 '-:::'i... F ------,

50

,

14

~

,I

The function numbers at the beginning and
end of each coIoI"ed line indicate all

'SEE PARTS LIST FOR
SERIAL NUMBER RANGESo

8 11

+5 V

DAS 91 0 0 SER IES

T . M IN(l

S EQ U E N C.ER

I

te

Table 11-33

A

c

B

D

E

F

91P16 PATTERN GENERATOR
P / O prj

-~

_.

+

-------~-

-

-----~

-

.....---._~~_l;'O'

ASSEMBLY A14

- _____
__
-~

-----------~--

.. '_'U."

~__..

+ sv

~_

UID85

',ICD

-- - - - - - - - -

"'74LSLS.q.

CIRCUIT
NUMBER

C201
C203
C296
C305
C3B2
C404
C498
C6B4
C697
CR496
OS19B
F696
J200
J200
J400
J400
L294
L494
L695

PO
PO
0196
0197
0398
R201
R203
R291
R293
R295
R296
R297
R298
R299
R394
R404
R490
R494

SCHEM
LOCATION

84
84
A4

84
A5
84
C5
01
C5
85
C4
C4
A4
A3
A4

A3
A4
85
C5
A1
A4
85
85
C5
83
83
A5
85
85
85
85
85
A4

A5
83
03
85

BOARD
LOCATION

A1
A1
E1
A2
E1
A2
E2
E3
E3
E2
E1
E3
A1
A1
A2
A2
E1
E2
E2
03
03
E1
E1
E1
A1
A1
E1
E1
E1
E1
E1
E1
E1
E1
A2
E2
E1

CIRCUIT
NUMBER

R496
R504
R571A
R5718
R571C
R5710
R571E
R571F
R580
R583
R595
R597
R667
R678
R681
R695A
R6958
R695C
R6950
R695E
R695F
R696
R697
U181
U198
U225A
U371
U4B1
U485
U495
U581
U585
U661
U665
U671
U6B1
U685

SCHEM
LOCATION

Function D, 1, 2. 3,

BOARD
LOCATION

C5
83
F3
05
05
F3
F3
F3
E3
E5
F4
E1
05
A2
A2
E2
E2
E2
E2
E1
E2
C5
C5
SPARE
85
A3
C3
81
C1
03
E3
E4
C4
05
A2
A1
01

UI. 8 1

.,

4,5. 6,7, 8

1

t;,..
- 11"'
--

U 'T

U 485

13

i!!i!!!lii~~~~~~~.!fA~¢-~0~¢~~--K-3-~-0-O-O---------'-1~r------';4L~~~6
1..J

!

0

s

"

A'l..

"3

~------~--------------~~~'4

E2
A2
02
02
02
02
02
02
02
E2
E2
E2
02
02
03
E3
E3
E3
E3
E3
E3
E3
E3

I

~'-~------A-5~------------~3~

••

~'~~--~A~~=-------------~~~A~
18

A7

~----------------------~'7
2.3

A.S

'U.... ct

0 1

02

10

15

S TACK

15

LO

Function 3, 8
Function 2, 3, 4,

BD
_~ __ 5=___.:
.:....c'

I--_______________'-'-I~

5, 6, 7, 8
Function 0, 1, 2, 3,

802-

4,5, 6,7, B
BO,

C.~'~3--------------~
"

Function 0 , 1, 2

••

"" ~'-"--------------_'1e

eo...

Function 1, 3 , 4,

5,6,7

C5~'-S--------------~~

Function'

2

5, 6 , 7, B

m-a

r-~

:D~
_ m

Z-a

iil~

:D-i
~m
O:D

Z
m C>
m

Function 0, 1, 2, 3 ,

4 , 5,6,7, 8

;z:

Chls:\is'1!I01I1!tH eompontlts!llve 1'10 Assembly Nuntbfl'
prelU. __ tnd 01 RlplaCllbit EltdJjgI Pn tnt

USBI
r-____-,7~LSZ. 75

YIP ..

. 03

3
RS04

IK

R Z0 3

lK

I

H.C. ,

9
,"

ENT

(poe

SOq.

;

B)

CONTROL.LER INTERFACE

C203

C404

ZZOO JZZOO J

RS71 A , O-F

1,1f.

<9>

i1LtJi~~~~~
J!::::
e.c Eli
'Q'
L;,..

Ql

.0..
~

1-__~+""'_:_r_";..,..,;........:.:.......,:_:::_--~[:::":.cT-=E:.c"~~

I

I

5, 6, 7,8

~

,

____________ J

8

uses

607

+sv

74 1.. 52.73

r----,

4

R.~q5

I,'"

1------------- -

",,,
+ 12V

Function 0, 1, 2, 3,

t SV

Q~'78
L4 q 4

4, 5,6, 7, 8
Fl.4-Ct+

The colors on this page correspond to the
following 91 P1 6 diagnostic functions :

2 " l<

R:r=Jo 4

1 140.J.-L-H

O .I.,Q

RZ.q.3

R Z qq

L 2. ~4
B3~

R-0_'_____4~OI

~lrs~--~~i_=~~~h-~.:....c_+~----s-T-e~I--POL--~~

11'0_2._____7., 02.

q2.

rF
o.::3____-'e~ 03

(nr"..:....---=:;-t-:=~..;y;,;...~...:..c_+__:_'S=-..:"'-T.::B-=t:::.T-R-=t.:L"'.~

r..=-__~.!....!_:,-:-:~~;,;...~=_+~=-~~:.:T..:e:....:L.:O.:E:::N-I~

C 2.9"

+C 3 82.

+-___'~..:.~=---+-_2_00
__-, ~ 3 Q OJo" F ~

I ;.-..F

FLnCtion 1, 3, 4,

o PC

..

1 VECTOR RAM
2 M ICRO RAM
3 ADVANCE

4 GOTO

5

i- J2. v

5 CALL
6 RETURN
7 STACK RAM

c AMP CURRENT SOURCE

~NOTE :

5, 6 , 7, 8

-==-:;n

I '~!

t=~==-==
- ::-=-::
--::-::-

J

I

.~~

Function 0, 1, 2, 3 ,

+sf.V~~~~ R

4, 5, 6, 7, 8

R!)83

SEPERATE

,oc

GNO

PLANE

Function 0, 1, 2, 3,

8 CLOCK
The function numbers at the beginning and
end of each colored line indicate all
tests that enter or exit that point. The
colors correspond to the first test that
is run on the line. For more infom1ation
refer to the introduction at this Diagrams

Function 1, 2, 3, 8
Function 2 , 3. 4,

~~~~$l5~~ <9>

6 0S

3

N .C.

P/O

~----~--~~~~~~=-+_~~.:::R:::e~c=L:::K:::.N.:....c~

eOeD
PRE!)ENT ( Poe C)

+5'1

1-------------

L

,,,

section.

Function 2, 3, 4,

0"
r-",

:D~

E1
81
01
E2
E2
E2
E2
E2
02
02
02
E3
E3

No color assigned

o-a
0zO
-i)o

El

No color assign ed

Function 1, 3, 8

4,5,6, 7, 8

/Ci\ StlUc Sensitivi Dlvias

\:t::I
PI O AI4

DAS 9100 SERIES

~TTE.RN

~ENERA TOR

Set iUinftfUnc, s.ction

NOT!: T.tM 11 ·1 ..... Ie

Pinout.

(Vee. Glldl .

BD.

91Plb CONTROLLER INTERFACE

~

Table 11-35

91P16 PATTERN GENERATOR

A

<&

c

B

o

F

E

ASSEMBLY A14
CIRCUIT
NUMBER

SCHEM
LOCATION

BOARD
LOCATION

C362
C562
P1
R130A
R130B
R240G
R242A
R242B
R2420
R242E
R242G
R242H
R2421
R252B
R252C
R2520
R2520
R252E
R252F
R252H
R2521
R327A
R327B
R3270
R334B
R334C
R3340
R334E
R334G
R3510
R351E
R351F
R351G
R351H
R3511
R360
R363
R457A
R457B
R457C
R457E
R457F
R457G
R457H
R466
R471
' R4718
' R471C
R528
R529
R550B
R550C
R5500
R550E
R550F
R550G
R550H
R5501
R564
R565
R652

C2
C2
F4
B4
B3
E5
F2
F2
F1
F1
F1
F1
F1
01
01
02
01
C1
C1
C1
C1
04
E5
04
05
05
05
05
B4
E1
E1
F1
E1
01
E1
C2
C2
C1
C1
C2
B1
B2
05
C5
B1
05
B4
B4
B3
B3
B4
85
C5
C5
C4
C5
C5
C5
C2
02
C5

02
02
B3
B1
B1
C1
C1
C1
C1
C1
C1
C1
C1
C1
C1
C1
C1
C1
C1
C1
C1
B1
B1
B1
C1
C1
C1
C1
C1
C1
C1
C1
C1
C1
C1
01
02
02
02
02
02
02
02
02
02
02
02
02
B2
B2
C2
C2
C2
C2
C2
C2
C2
C2
02
02
C2

CIRCUIT
NUMBER

SCHEM
LOCATION

BOARD
LOCATION

1

, SEE PARTS LISTS FOR SERIAL NUMBER ANGE

R653
R663
TP336
TP363
U131A
U131B
U135A
U1350
U245
U251
U327
U331
U335
U337
U345
U351
U353
U367
U461A
U461C
U4610
U465A
U465B
U465C
U4650
U471
U531
U535
U545A
U545B
U545C
U5450
U551A
U551B
U551C
U551D
U5658
U567C
U5670
U627A
U627B
U631
U635
U645
U645A
U651
U651A

C5
C2
B2
02
83
B3
B3
B4
F2
01
F3
E3
03
C3
F1
E1
C1
04
C2
B1
B2
C2
B1
B1
A3
05
F5
F4
B5
B5
85
B4
B5
B5
B5
B5
C2
C2
83
F5
F5
F5
F4
C5
C4
C5
C5

C2
02
C1
01
B1
B1
C1
C1
C1
C1
B1
B1
C1
C1
C1
C1
01
01
02
02
02
02
02
02
02
02
C2
C2
C2
C2
C2
C2
C2
C2
C2
C2
02
02
02
B3
B3
C3
C3
C2
C2
C2
C2

Functi on 7

INT

2

•

TP33 &

I

rn

INSTOCTION

," ,

Function 2. 3, 4, 5, 6, 7, 8
Function 2. 3, 4, 5, 6, 7, e
I.

~

3

•
IA DV b

•

vp
YI
YZ

w-...

U32 7
101,4

•

V3

4
Function 0, 1, 2

Function 3, 4, 5, 6, 7, 8

<& __-,-p..:.c-'c:..:'c..:'_ _+-__---'

5

The colors on this page correspond to the
fOllowing 91 P16 diagnostic functions:

o PC
1 VE CTOR RAM
2 MICRO RAM

Function 0 , 1, 2 , 3,

3 ADVAN CE

No color assigned

4,5, 6, 7, 8

4 GOTO
5CALL

No color assigned

SEE PARTS LIST FOR EARUER
VALUES AND SEAI"l NU M BEA
flANGES OF PARTS OUTLINED
OR DEPICTED IN GREV

6 RETURN

7 STACK RAM
8 CLOCK
The function numbers at the beginning and
end of each colored line indicate all
tests that enter or exit that point. The
colors correspond to the first test that
is run on the line. For more information
refer to the introduction of this Diagrams
section.

ADVANCE

"

.,.

I

DAS 9 100 SERI ES

tti:\ Static Sensiti'tt Devices
\:!::I SH Ihmtfn~nc.e Sect.lOn

I p/ o

AI "

NOTE: T.bI.l1 ·' ahow.le
(Vee . GndJ.

l"i.-.1 .

PATT~RN
RCv, NOV.

Iq 8 ~

3e~ ~- Z3 '"

qlPI~ STACK AND INSTRUC T ION M ULTIPL EXER ~

-i"1l

3:0
Table 11-36
91P16 PATTERN GENERATOR
ASSEMBLY A14
CIRCUIT
NUMBER

SCHEM
LOCATION

BOARD
LOCATION

CIRCUIT
NUMBER

SCHEM
LOCATION

'C680
'C696
'C720
'C725
C730
C731
'C750
'C756
J200
J400
PO
Pl
P1
P1
Rl06
R110C
R1100
R110E
R110F
R110H
R124A
R1248
R124C
R1240
R124E
R124G
R1241
R1300
R130E
R130F
R134
R136
R140A
R140B
R140C
R1400
R140E
R140F
R140G
R140H
R1401
R143
R205A
R2059
R205C
R2050
R210
R212
R213
R215
R2169
R216F
R2178
'C103
'C107
'C117
'C152
'C160
'C166

F5
F5
F5
F5

02
E3
B3
B3
B3
B3
C3
03
A1
A2
03
B3
93
B3
A1
A1
A1
A1
A1
A1
81
81
91
81
91
81
91
91
81
91
C1
C1
C1
C1
C1
C1
Cl
C1
C1
C1
C1
C1
A1
A1
A1
A1
A1
A1
A1
91
B1
91
91
A1
A1
91
C1
01
01

'C167
'C187
'C204
'C214
'C227
'C231
'C233
' C234
C235
'C244
'C250
'C254
'C288
'C294
'C304
'C316
'C340
'C354
'C366
'C375
'C412
'C417
'C431
'C434
'C443
'C451
' C481
' C491
'C504
'C510
'C520
'C524
'C532
'C543
'C553
' C560
'C566
'C584
'C598
'C602
'C604
'C605
'C609
'C630
C635
C650
'C656
'C666
R217F
R218
R223
R232
R233
R240C
R242C
R242F
R292
R294
R456G

F5
F5
F5
F5
F5
F5
04
F5
C3
F5
F5
F5
F5
F5
F5
F5
F5
F5
F5
F5
F5
F5
F5
F5
F5
F5
F5
F5
F5
F5
F5
F5
F5
F5
F5
F5
F5
F5
F5
F5
F5
F5
F5
F5
F5
F5
F5
F5
E2
F2
E1
C3
04
C2
B3
83
B1
91
E4

A4

A2
F5
F5
F1
F2
F5
F1
F3
A1
C1
E2
E2

02
E2

01
91
C3
92
C5
02
82
04
02
C3
C2
C5
05
94
94
95
84
94
C4
85
C4
95
95
E1
E1
E1
01
01
C2
C2
F3
E3
E2
E3
F5
F5
F5
F5
F5
F5

~

BOARD
LOCATION
01
El
Al
Al
Bl
91
91
91
C1
C1
C1
01
El
E1
A2
B2
C1
01
01
01
A2
82
B2
C2
C2
C2
E2
E2
A2
A2
92
82
C2
C2
C2
02
02
E2
E2
A3
A3
A3
A3
83
C2
C3

D

z>
Q ....

F

E

0'"
-CD

:21 ....

0"11

C; ....

CIRCUIT
NUMBER
R526
R527
R612
R614
R620
R621
R710
R712
U107
U110
U115
U117C
U1170
U121A
U121 B
U121C
U125A
U1258
U1359
U135C
U137
U141
U145
U151
U207
U215
U221A
U235A
U2358
U237A
U2379
U237C
U2370
U241A
U2418
U241C
U241D
U341
U365C
U617
U627C

81
91
91
91
91
C1
C1
C1
E1
E1
02

* SEE PARTS LISTS FOR SERIAL NUMBER RANGE

SCHEM
LOCATION

BOARD
LOCATION

E1
E1
04
E4
E4
E5
03
E4
C1
02
B2
C5
C5
C2
03
91
C3
03
04
05
C4
C5
94
95
01
E3
E1
C5
04
C5
83
83
04
04
04
93
93
93
E5
B2
F1

92
92
A3
A3
92
92
A3
A3
A1
A1
91
91
91
91
91
91
91
91
Cl
C1
C1
C1
C1
Cl
A1
81
91
Cl
C1
C1
Cl
C1
C1
C1
C1
C1
C1
C1
01
93
93

U 2 07
, -_

_

~i
=l

!llz

UCcZ 7C

.,' O I O S

f=~~~~~~---------------1----------~--------~~--------------------~~
S~~~~~
~~~~_~
~
-i~~~~__ ' 5V

_________

1

______-+____ __

c;)

m

;z:

U IO?
Function' . 3, 4.

U(,, 17

•

10 17 '4

5, 6, 7,8

tNT

R 2.40C.

T R I 'SoT

RL'3 0 F

,,,
I

Fl 2. 18
,,\.' K

LJ II ofi,c

2

Function t , 3,4,5,6,

!:~~~liii~~~~~~I~~

------

,

. -_ _., 10 10 5

U2.ISD

~__~/)~~~----------------------~H~.L~T~R~D~ <§>
+SV

U341tl· O
C¢,CL

U I 2. IB

_r _ _- , I OI0 3

ZK

P iO

5. CoK

p ,

~~~---+c:j-

3

E.xP

e LK

Function 3, 8

LJ2.4 I A

.7 10

~~~~~~"""""~~~~"""""~~r-~~~..~~:::::!~~~~~iP;lt;;;;;;;~~;:;;;;~~;:~;i~~lIlIillt~' io~,o~4~liiBlIlIlIJ.;;;Bz.s

II: ? Ll

' 30

Function 1,3, 8
+5 V

4
L.w...... .J,

______

Function 3 , 8

1<: 140
5 '0

Function 3, 8

U I51

~~

, -_ _, 10 145'

~
The colors on t his page correspond to the
following 91 A 16 diagnostic functions:

__+-__________________~~~~---------+--------~~~-------r-------l----------------------~I-----------____________~P:C~C~LK~~ ~
R~2 '

U lrl C

'30

10104

o PC
2 MICRO RAM

3 ADVANCE
No co for assig ned

COMPONENT NUMBER EXAMPLE

5

mn · 5'K

Component flumber

4 GOTO

~mb4y

5 CALL
No co lor assigne d

}!

. I,u.f

, VECTOR RAM

IWmoer

'¥~Rle '
..J

J

Scc~::n;

Submtmbly

Numlwr

CA PACITO RS
SEE"
TABL E 11- 3"

6 RET URN

7 STACK RAM

8 CLOCK
The funct ion numbers at.t~ beginning alll
end of each colored line Indicate all
test s that enter or e)(it that point. The
colors correspond to the first test that
is run on the line. For more information
refe~ to the introduction of this Diagrams

section.

• Decoupling capacitors

c

B

A

DAS 9100 SERIES

RE. Y. N O,""

,Qa3

383~-C3S

9 1Plb T I MIN~ CIRC UITS ~

Function 2,3, 4, 5, 6, 7, 8

Function 3, 4, 5, 6,7.8

Table 11-37
91P16 PATTERN GENERATOR

,i

4 5 6 7 8

SCHEM
LOCATION

BOARD
LOCATION

CIRCUIT
NUMBER

F2
F4
F5
F5
F1
F4
F4
F4
F4
F4
F4
03
05
02
03
05
F2
B2
B1
F4
F4
F4
F3
F3
F3
F3
F3
F3
04
04
04
04
04
03
03
03
03
E1
F2
F1
F1
01
01
01
E3
E2
E3
E3
E2
E3
E3
E2
F3
F3
02
02
C1
C3
F5
D5

A1
A1
A3
A3
A1
A2
A1
A1
A1
A1
A1
B1
B1
B1
81
B1
B1
81
B1
A2
A2
A2
A2
A2
A2
A2
A2
A2
A2
A2
A2
A2
A2
A2
A2
A2
A2
82
B2
B2
B2
B2
82
82
01
01
01
01
01
01
01
01
A2
A2
A2
82
B2
82
A2
A2

R405C
R4050
R405E
R405F
R405G
R405H
R4051
R416A
R416B
R416C
R4160
R416E
R416F
R416G
R416H
R4161
R505A
R505B
R505C
R5050
R505E
R505F
R505G
R505H
R5051
R512A
R512B
R512C
R5120
R512E
R512F
R512G
R512H
R5121
R516B
R516C
R5160
R516E
R516F
R516G
R516H
R5161
TP205
TP604
U2218
U221C
U221D
U225B
U305
U310
U315
U321
U325
U405
U515
U521
U525
U605
U610
U615

F

E

SCHEM
LOCATION

o~as - pc,

_ II

F5
F5
F5
F5
F5
F5
F5
C3
C3
C3
C3
03
C2
C2
C2
C2
F5
F5
F5
F5
F5
F5
F5
F5
F5
05

U4 21

1

.,

D5

05

A2

AI

D5
D5

A2
A2

....

05
05

A2

"5

D5

05
C5
C5
C5
C5
C4
C4
C4
C4
F3
F5
B1
B1
B1
B1
F3
D3

03
F1
01
F2
05
C4
C5
F4
04
D4

r----

A q>

II

,4

~

'5
A7

f,Z,q
5 . 1K

5 E L OCT

I

2

A.

Cl IN

DIN

L.M 33 ~

•

;;!! :~

4, 5, 6, 7, 8

00

:,;-- -

~
~

DO

D'"

Dc

DIN

DC

"i!i2~W~E_J
U 4Z~

I~

- -,

~

,", v

4, 5, 6, 7,8

U ~ll

_ ",,_ _. ,,07 2..

A2
A2
A2
A2
A2
A2
A2
B2
82
B2
B2
B2
B2
B2
82
B2
A2
A2
A2
A2
A2
A2
A2
A2
A2
A2
A2

A2
A2
A2
B2
B2
B2
B2
B2
B2
B2
B2
A1
A2
B1
B1
B1
B1
A2
A2
B2
B2
B2
A2
B2
B2
B2
A3
A3
83

Function 0, 1, 2, 3,
v

BOARD
LOCATION

Function 0, 1, 2 , 3.

C101
C102
CGOO
C603
J200
J400
R205E
R205F
R205G
R205H
R2051
R216A
R2160
R216E
R217A
R2170
R217E
R219
R220
R305A
R3058
R305C
R3050
R305E
R305F
R305G
R305H
R3051
R312A
R3128
R312C
R3120
R312E
R312F
R312G
R312H
R3121
R317A
R317B
R317C
R3170
R317E
R317F
R317H
R371B
R371C
R3710
R371E
R371F
R371G
R371H
R3711
R405A
R405B
U410
U415
U421
U425
U505
U510

o

Function 0, 1, 2, 3,

ASSEMBLY A14
CIRCUIT
NUMBER

c

B

A

.

1 _

_____

_

__ ,

0 ' 8'

I

:

<'V

m-

,

oO

IF+:~
'-.-.t

-I>
0 ...

i
I

I
I
I
I

,

::II~

t=!:W o,
.c,

.co

1:'"
m'"

,_

Function 8

I

I
I
I

111::11

mz

I

,

zQ
-1m
mz

U30S

::II.

\0101

~

om

3

1.
Function 1, 3 , 8

-JY

I,

..,

LD

Aa

:-;ili"c ~~ :
:L ______ :

) Function B

--R--!o;1- --,
4 .'K

I

A4

R312.

U" 15

".,

10

"'7

5 10

101 '3 (0

IF- - - .,

,~

!-,OINO~.
! ...

4

Ol l't

Olt>!

'I

[)oN

wr.

Function 1

U5ZS

' 811

7 0 "12.

,I

USOS
101 0 L

5

A7

The colors on this page correspond to the
following 9 1 PIS diagnostic functions :

O PC
1 VECTOR RAM

0 \1'.1

00

DIN

DO

0 1111

DO

w,

2 MICRO RAM

!.... - - - - - - - - -- - --:

+-5 '1

_--:;'~SV~.:.:::..
'O~

_05

CH+

IS

.' 4

CHs

17

13

-~~.- -.-~
-.~~-----------------CH+~~~~~~
~

IB13 "

_I>~_~-_.p;-=-I-+-.---------+--------.:C::.::H'~
5 ....:-,.~

IB~.

_11Fa __~4-~------+-------~~~~~w~

'81<

rv.=:-'--'1--I>: .~ _ I-'r.=---+-H-+~---+---....;C;;,;H';;....!
" ...::t.~'
L'

CH"1

,~

00

3 ADVANCE

No color assigned

Rq.OS

4 GOTO
5 CALL

2 70

COMPONENT NUMBER EUMPLE

Function , . 3, 8

Com,OOnen\ Number

6 RETURN

7 STAC K RAM
8 CLOCK
The fu nction numbers at the beginning and
end of each colored line indica te all
tests that enter or exit that point. The
colors co rrespond to the first test that
is run on the line. For more information
refer to the introduc1ion of this Diagrams

section.

Si"'V

~~
Om

I

I

No color assigned

.I::!. .

R\ Static Sensitive [)evicts
\Z)I SH Ahmt~"mce SKIion

DAS 9 10 0 S ERIES

NOTI! : T.... 11 . 1.how. te
P inOUI . (\I CC .

a .... '

9

'l1PI" "ECTOR MEMORY AND PROBE It(fERFACE ,~

~

DAS 9100 Series

c

B

A

o

OJ04,

li
8..,...

1

11153
R154

TP108
810<",
8TOli

~

~
u

I
c;:



0
~

:::)

:::)

0

E

\")

"'0

~

'jT""
~

:::)

'"
~

~

:::)

co.,

'";;;'"

~
,.

"''''
o;u
....,T""

TP138

0

.
0

-

0;

!

G

~

"'"

; TP1~,2
~j:
"';,r

'""'"
~

:::)

fp15i1~
~
~

a:

CD

"'~"
~

'" '"on '"'"

~
...

-

~

0

:::)

0;

R159
elS0,
~

~

~

:::)

:::)

'"
a:
on

CD
~

~.:ri_lo

co 
'"'"0

:::)

:::)

U'"
0;

<:1

~

0
M

0
M

:::)

00
"0

Z

a..

...a..

CD

~

'"

.....

Z
a: W
Z
w 0
.....
N

,.
'"
0;
0

R314

"'"'""

0

:::)

0

...'"on

"-

:J:

~

~

CD

'"

"'"'""

",",
,:::)

:::)

0;
'

'"'"

m"'' :'

"'CD
oo::tOl:t:'I:t

()o;o;

TP463

"'"

:::)

0>

.... c(
~

c(

2

0

ID

~507

0

g

-

a.

?

-0

0

on

In

0

0
¢

;.f

~I

,'"

O~

TP600

~'

"4

CO,",

.,,'"....
If·a:

.-:

~
CD

'"
0

CD

:::)



:::)

0

CD

,,1'1801.
'11608'

It)

.,.:

0;

~

N
In
0;

CD

M

'"
:::)

(A

en

'"
on
U

~

'""'"

..."

on

0;
_~

r

TP550
q

....

~

U

:::)

.

')

{)

co

~

on

0;

'"'"

'"onon
0;

:::)'
;~'

91P32 PATTERN GENERATOR EXPANDER MODULE

TP535

TP605
'::7

0

:0

on
'"
on

CD

"",
'"

~

...

CD

U

'"
CD

ai{,ce

aLb-

0,(3

(3'B

~\M

Zfi

~;



CD

0;

~i~
0'0

Module

C.73l"t74jC74?

Max. per
Mainframe

Controller
3636-276

Trigger/Time Base

Recommended
Bus 510t(s)

Functional in
Bus 510t(s)

D

D

Required
Required

7

7

91AD8

4

6(5,4,3)

6(5,4,3)

91A32

3

2~6

1~6

91P16

1

91P32

2

3
Figure 11-24. A 17 91 P32 Pattern Generator Expander Component Locations.

Comments

Required: first 91 AD8 in slot 6,
additional 91AD8s in descending slots (5,4,3)

1~6

2-6

1-6

Will not function without a
91 P16 installed,
3836-277

Figure 11-25. 91 P32 Location.

IV:\ Static Sensitive Devices
\:!::JI See Maintenance Section
COMPONENT NUMBER EXAMPLE

T~sch_ematlC

Component Number

, A23
'""mbl
"»"

y

Number

~

~

R1234 \

L'

Subassembly
Number (If used)

CirCUit

Number

Chassis·mounled components ha~e no Assembly Number
prefix-see end of Replaceable Electrical Parts List.

@

•
Table 11·38
91P32 PATTERN GENERATOR EXPANDER

c

B

A

0

D

E

F

ASSEMBLY A17
CIRCUIT
NUMBER

SCHEM
LOCATION

BOARD
LOCATION

CIRCUIT
NUMBER

SCHEM
LOCATION

BOARD
LOCATION

r---------------------------------------------------------~~-~---) ,~

1

Ilf

UCD48

·Cl0l
'Cl05
' Cl09
'Cl16
' C127
'C138
' C144
'C149
'C164
'C302
'C306
'C313
'C333
·C343
'C349
'C357
' C363
'C403
' C409
'C418
'C427
' C438
'C447
'C459
'C503
'C505
' C509
'C516
' C523
'C533
' C539
'C547
' C603
'C605
' C609
' C613
' C625
' C633
C635
C636
C637
C638
C639
C640
C641
C642
'C646

F2
F2
F2
F2
F2
F2
F2
F2
F2
F2
F2
F2
F2
F2
F2
F2
F2
F2
F2
F2
F2
F2
F2
F2
F2
F2
F2
F2
F2
F2
F2
F2
F2
F2
F2
F2
F2
F2
93
93
93
93
93
93
93
93
F2

Al
Al
91
91
91
Cl
Cl
01
El

A2
Al
91
Cl
Cl
01
01
El

A2
92
92
92
C2
02
02
A2
A2
92
92
92
C2
C2
02
A3
A3
92
92
92
C2
C2
C2
C3
C3
C2
C2
C3
C3
02

C738
C741
C742
Jl00
J300
J500
J600
PO
PO
PO
Rl07
Rl 08
R207
R208
R335
R433
R434
R435A
R4359
R50?
R508
R534
R535
R544
R548
R60?
R608
R633
R642
R649
U4089
U438
U441
U445
U448
U538
U541
U545
U635
U638
U641
U645
U648

F2
F2
F3
A2
A2
A3
A3
Al
F2
A4

04
04
04
04
E5

C5
C5
95
El

04
05
C5
95
E5
E4

05
05
92
E2
A2
F5

04
E2
02
92
C5
92
E4

C3
93
E3
03
A2

C3
C3
C3
Al
Al
A2
A3
03
03
03
91
91
Al
91
Cl
C2
C2
C2
C2
A2
92
C2
C2
C2
02
A3
A3
C2
C2
02
A2
C2
C2
C2
02
C2
C2
C2
C2
C2
C2
C2
02

74LS.2.q.4

""III

I

t

,

Ee L

FUNCTiON 0

B

3 C
~

FUNCTION 0 <

c

FUNCTION

GI
FUNCTION

u541

FUNCTION

PIO

2

p¢

PIC

,E:::::)

JIOO

311
34

IO<" Tl F' (A I
PIlOBE

f

IK

:--- - - - - - - - --

(A)

:,~:,
I~F

L

- I
I

U- -

3

e DO

,

''''

BDI

:

18

Boi

CA PA C I T o R S
S EE

TABLE 11 - 31

:

14

eo 3

~

I

12.

,,0 4

:

7

Bo S

5

BD?

~
'---+_-'-1
15

TH IRTY~ N I NE.

I

----.:.

~

I

r'J"-Ft

?q.. L5'l 44-

" r'--'C-,---,

+-----1
~

I

3

Dal

5. 1 ~

t lL......_-+I..:''';c''~-7I~
¢

~ 5V ~~--+~S~V_+~
A -'~t
l S I,

UCD 41

R{Q 4 Z

r-;3,

+ IZV

i Ai'

+-----+1-BZ~

'-----t-"-"--7
G.ND

AS

165 ,

___g:,_ _ q e D "
COMPONENT NUMBER EXAIIPLE
1

Component Number

'TA23
~bIy
NlJm~

¥Rlc'

- I'Z!/

B Ze(
A4- '

o-u
0zO

eo. :

Sclttm~ fic

C./CUlt

StJlwssemllly
Numbfl rlfUfftJ)

oil>

NUIII~'

;o~

0'"

r-
O il
01'
013

wt

FUNCTI ON 0

+"~

FUNCTION 0

7.

U3 Z':;
70,2.

~O . CC

FUNCTION 0
V E CTO R

A
V E C T OR RAM

~

AN D 3

I

"

ANo 3

I

A A ND 6

P ROBE 'N ' O~"..CO

I

AI

A2
A3
A4

R"31q

,..,

4

5 10

O'¢DOI ~ ··

OIIOOI

~

0 12. 002
0 13 0 0 3

~.

COM PONENT NUMBER EXAMPLE

5

<'U
m-

OO

ChUlIS- lnI) unted componu h I\i.t no Au embly N. ",btt
..,eILl - l«endotFleplfCNbIt£lee!lw P, ml.JSI

-I»

A7

0 ....

::u ....
~CD
m
....
~~
ON
::u'U

Ol 
0 11

OI Z

0''''


"'10'12-

. -_ _-, I.M 33 '3'

AI

SIO

..

~

11--- -7-1_L,.,...
~-+"'---'+

,

VBIQ

,
8:~
,

r...
r~

BOARD
LOCATION

CIRCUIT
NUMBER

SCHEM
LOCATION

BOARD
LOCATION

r-

C501
C502
C601
C603
J500
J600
R319H
R4008
R400C
R4000
R400E
R400H
R4001
R400J
R500A
R5008
R500C
R5000
R500E
R500F
R500G
R500H
R5001
R503
R514A
R5148
R514C
R5140
R514E
R514F
R514G
R514H
R5141
R51B
R519
R600A
R600C
R6000
R600E
R600F
R600G
R600H
R6001
R600J
R6010
R601E
R601F

F3
F1
F5
F3
F1
F3
Cl

F3
F3
F3
F3
F3
F3
F3
F3
F2
F2
F2
F2
F2
F2
F2
F2
E2
C2
C2
C2
C2
C3
C3
Cl

C4
C4
C5
C5
F5
F4
F5
F4
F5
F4
F4
F4
F4
F5
F4
F4

A2
A2
A3
A3
A2
A3
82
A2
A2
A2
A2
A2
A2
A2
A2
A2
A2
A2
A2
A2
A2
A2
A2
A2
82
82
82
82
82
82
82
82
82
82
82
A3
A3
A3
A3
A3
A3
A3
A3
A3
A3
A3
A3

R601G
R601H
R6011
R601J
R603
R717A
R7178
R717C
R7170
R717E
R717F
TP400
TP600
U415A
U4158
U415C
U4150
U415E
U415F
U425
U431
U501
U505
U50S
U511
U515A
U515C
U5150
U515E
U525
U531
U601A
U6018
U601C
U6010
U605A
U6058
U605C
U6050
U60S
U611
U615A
U6158
U615C
U6150
U615E
U615F

F5
F5
F5
F5
E4
C5
C4
C5
C5
C3
C5
F2
F4
01
02
02
03
02
02
81
83
E2
El

01
02
03
01
04
04
84
85
E5
E4
E5
E4
E5
E4
E3
E3
04
05
05
05
05
05
03
05

A3
A3
A3
A3
A2
83
83
83
83
83
83
A2
A2
82
82
82

~

U ~31

,
,
,

ZOI'l11

7072.

C I ,.

WE

+5\1

s

...~

".M el.~

3

..... JO ;

....

FUNCTION 0

I

U415D

I

IOI'~

J

13

~----~'-~__'7
r
Iq ~

t-----~Ul:-::-~~

,

1 : 3

C rt 4-

II

3

:- ,,-

"'" 5

BCD

U:\O__-+~--j--j__i----I_.---~c=""..-+_'.;:2~
l\r=-T:,::'I---HI:c--'=-I- -12:~\182.7

9

~

po l rta-'oJMai5'

10

e

It

r ~ -1-; -;

10 ""

WE

U 5 31
70"12

,,

,
,

,

,

,

,I

,,
,
,
I

RtllliCubk Bt tiriCll l'il1t3 list

I

5

,I

U!.I SA,B,C,QF
. -_ _, lone..
"'''2,;1,---<0 0 '
Q, ~
ve n -

E-

C -,
,I

L________ _

I

II

¥
TP60Q Go N O
I- F- " - '
7

,

J

Fli l l

Sl O
: - - - -B-1 3

COMPONENT NUMBER EXAMPLE

CI'13

9

"1- ' 1M &Z""

,20 013 DO! ,I ,,"-¥Me ~

comDDnentS !'.He no Msembl~ "~mt4!'

.;-

+ ~

I

i.___________ j

I

DL 2. 002

oj

6, tJD

. -_ _, 10101

1?- -v MBU

O'  Dq~I;:~~~ j

Plth. _ eM

I ~F

TP+OO

I

A?

B2

•

us 0 I

L~.-:

AS
<> A

FUNC TION 0

&.

E

I

Ol¢ ~ 1~ __VMB Zj

+5 V - . - - - ,
'1.01

FUNCTION 0

l Z._~

I~V~8~tO~37,~:L,.,...
~--~:~-?~ - -C}~~- p~~----~------------------------'C~H=4~-t.:I~~

D4

,,

.... "D"'--I~ 0 12 0

"1

F

,

AU.

DO I f;-&- \ lMBZ-

8

;C;

I

A'

0 1J

9

CH 3

:

:

V M8W_i'~,- D!:.

F,

PC.- 7 - -IG

'2.

4

I

,I

*

1O

CH2.

'- -1-:---++-+-H-t-------="'--+-''----'7

J

,
p e 6~ g.-

CHI

-t5_- --p.;;---t-t-t-t-,....--------:;;C"'H~<-r8:-7

I

I

82
82

82
82
82
82
82
A3
A3
A3
A3
A3
A3
A3
A3
A3
82
82
82
82
82
82
82

,,

0'

B2

82
A2
A2
A2
82

'M. '~7 0'

I
I

2

:

IS

'-N'v--<

,

r-

SCHEM
LOCATION

""I:F

++~-----------C., "='_1-'5,_-'7/

I V--7:, ~I~-+':,,--~- -~~:~ rS~-~~t-~~~~~1------------~CH~3-t-":-7

A <'

r'""
...

: H~::3

'JBIe> 9

AS

ASSEMBLY A17

JS~

~~-:2""--=-+_~,;-V--j-,7-7

_ _-, 10101

. 1

A<-

91P32 PATTERN GENERATOR EXPANDER

,

OV'_B_"_'.O
:.:.:.."L,.,...
__+,:,---,-,0-'1_ t'Q;: __ _p'____
I 1
I
""\..c""___
I'

A2

Table 11-40

\~j V

USOS

"50 3

_ ~~~ __ ~':;;;:===~¥-;,; "~'0..
~' ;;J 1 /"_B.:'~-=87r.,G----------,",__-'+ -[2_~~~P:::--~----------"':''''''=--C;;C",:;;:-I-':''-7

'\Ja

.¢
p

CIRCU IT
NUMBER

F

E

FUNCTION 0

1

D

,
I

~

,
I

,,_ _' _
- _ I'

""

I

I

I
F I
I

.:

I
I

D,

,
,

<}-'~'l."",,':'C+::!J
· ~~~;:;;::~ 02.

Q 2.

r4'-1/

Q

01 2 0 0 2.

,z,-: D\~
F UNC T ION

z,::-z

a

003

~l

I\SIB

___ .sv

! .,.~ey'2

w E.

RS I"i

,,0

FUNCTI O N 0
F UNCTION

a

RE.ADBACK VECTOR 4 AND 5

.•

C AND D PROBE INTERFACE

I
N:\ Static: Sensitive DeviCiS

PIO All

\:!)I Sn MiJlnlen,nct ~Mn

ql P32.

PATTERt>l

The colors on thiS page correspond to the follOWing 91P32 diagnostic function.

DAS 9 100 SERIES

-

0 VECTOR RAM

The function numbers at the beginning and end of each colored line indicate all tests that enter or exit that point.
The colors correspond to the fi rst test that is run on the line. For more information refer to the IntrOduction 01 this
Diagrams section

G.ENE.RATOR

@
3B3b- 23.,

FUNCTION 0
NOTE: TIIbI. 'I ·I .how.le
Pi nOOJI IVCC" Gndl .

EXPANDE R B O.

9 1P32 VECTOR MEMORY 4 AND 5

~

Table 11-41

c

B

A

o

F

E

PATTERN GENERATOR EXPANDER
5 TB 'L POL

ASSEMBLY A17

S T B3 POL

STS4 P OL

CIRCUIT
NUMBER

SCHEM
LOCATION

BOARD
LOCATION

CIRCUIT
NUMBER

SCHEM
LOCATION

BOARD
LOCATION

CIRCUIT
NUMBER

SCHEM
LOCATION

BOARD
LOCATION

1

~

Po1...

5T B 5

{

b-

D((J - D 3
10, -

is''

C158
C160
C725
C728
J100
J100
J300
J300
J500
J500
J600
J600
P1
A1000
A100E
A101l
A101J
R138
R140C
R1400
R140E
R140F
R143
R144
R147A
R147B
R1470
A147E
R147F
R147G
R147H
R152A
R152C
R1520
R152E
R152F
R152G
R153
R154
R158C
R1580
R158E
R158F
R159
R165
R166
A300A
R300B
R301A
R301C
R301H

85
85
A5
A4

F1
F4
F5
F2
F5
F2
F6
F3
A3
F1
F1
F4
F4
B2
C2
C2
C2
C2
C3
C4
C3
C3
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-

B+

J420

'n II---!>
I 2
_______ C I P2-0
/,J

I 3
I 4
15
16
I 7
I 8

~

rll--1- WP2-1
------.. TPL-1

I'fJ----- CIPl-0
U

~WP'-l

Bo.1

J415



2 I 9-2
~ +V
+ V _ cr~~~~-t~1~2~
3 I 9-3
cr~~~~-+~1~3~
~ +5V
+ 5 V 1 -£!>----E'J

LJ

P470
l-N r
2-N
3-N
4-N
5-N
6-N
7-N
8-N
9-N
0-N

FROM

COMPONENT NUMBER EXAMPLE
Component Number

,

Af3J¥ R1234
Assembly _
Number

,

Suba.;semt'ly
Number (If used)

Chos,ls-lllounted com[lOrlenls

Schematic
Number

ha~'e no Assembly r~lImber
prf,x-sp..:' end of Rrrlaceable flr.ctmal P?rts 'list

c0

------

J400i P400

/,J I:!!---t>
I 2
13

I 4
I 5
I 6
17

I B
I 9
I, •

~

INTERCONNECT,
J 43\ OR J42.7

M0

'n

J470

U

U

BCLK-l 1I----l!l
HOL-0 ~
TPL-l ~

II---!>
IRq-0
+"SV

HOT-l

r:-;-l

"2I

---------

EXTCLK-l
SCl-0 ~
SELECT-0
SC2-0 ~
DATA7-0
SC3-0 ---to>-liII
CIP-0
~ REAO-0
DATA6-0
SFF-0 ~
111----" WRITE-0 RESET-l

--------------

3 I
4 I

51
61
71
8 I
9 I
,. I

l-N
2-N
3-N
4-N
5-N
6-N
7-N
8-N
9-N
0-N

~

~1,
I

2

I 3
14

I 5
I 6
17
I 8

I 9
I, •
'--'

iJI31
_______ BCLK- 1
~

HOL-0

II!I---J>- T P L - 1

_

HOT-l

_SCl-0
_SCZ-0
_SC3-0
_CIP-0
_ _ _ SFF-0
_
RESET-'

P4501J450
l-N
2-N
3-N
4-N
5-N
6-N
7-N
8-N
9-N
0-N

~

'n

/,J . . . OATA5-0

I
I
I
I
I

2

~ ADR0-1
- - . DATA4-0
_
AOR1-l
_
OATA3-1
I§- DATA2-1

3
4

5
6
17
I8
I9

I,.
'--'

.......... DATA1-l

OATA0-1
____ RESET-0

~

~

~+12V

AI8A2
SERVO BO.

AIBAI
TAPE DRIVE DATA BO.

®

L _________________ ...JL~e~~~2ETloil _ _ _ ~m:::e:::::.n__ ~~~~)~ __ __1
DAS 9100 SERIES

TEKTRONIX)

INC.

©' 980

Static Sensitive Devices

NOTE: Table

11-1 shows Ie

TAPE DRIVE
INTERCONNECT

DAS 9100 Series

B

A

c

III

Z
eo::Q

"'!;;:
°u
al O
~-'

i~,

Z

TP4

1

-0

0:: a.
e::;;
a.u
~oiI

1U0

lB6J,5. "

{~ R'ii~1

U615

R622
R623

.... 0

R624
C~~~::;

<0::

"'<
.... 0

U721

"'ID

;;:P711, ,
" Rl05 ! ~

'~rR:;:06\'
'R707

ihh

" ;' R'7,-:i

R~.~}""
RB12

R813

2
Figure 11-29. A 18A 1 Tape Drive Data Board Component Locations.

Figure 11-30. Tape Drive Data Board Location.

® Static

S~nsitjve

Devices

See Maintenance Section

COMPONENT NUMBER EXAMPLE
Component Number
I

A23

A

hi

~
J

ssem y __

Number

T

,

R1234

~SChemat;c
L ' encUif

Subassembly
Number (II used)

Number

ChassIs' mounted components have no Assembly Number

prefix-see end of Replaceable Electrical Parts list

Table 11-45
TAPE DRIVE

<8>

A

c

B

D

E

F

ASSEMBLY A18A 1
CIRCUIT
NUMBER

SCHEM
LOCATION

BOARD
LOCATION

CIRCUIT
NUMBER

SCHEM
LOCATION

BOARD
LOCATION

CIRCUIT
NUMBER

SCHEM
LOCATION

BOARD
LOCATION

rJ WR !TE

C I RCU !TRY

t

;:

READ/\'!R~~~fJ
HEAD,~:,,_~;Ji

\.

C477
C478
C507
C511
C512
C531
C561
C611
C613
C625
C711
C830
C831
C835
C875
C876
CR421
CR631A
CR631B
CR631C
CR631D
CR631E
J400
J400
J400
J400
J415
J415
J420
J420
J420
J420
J440
J440
J450
J450
J450
J470
J470
J470
J470
J470
J505
P400
P400
P400
P400
P415
P415
P420
P420
P420
P420

A4
A4

C4
02
B5
B4
E1
E3
C4
B5
A4

B4
A4
A4

B4
B3
E4
C1
C2
C2
C2
C3
E4
E3
A3
E5
E4
A5
E5
A3
A5
A4

C2
C1
A1
A4

A2
A2
A4

E3
A1
A3
A5
A3
F3
F4
F5
A5
F4
A3
A4

A5
F5

C1
C1
A1
A1
A1
B1
C1
A1
A1
B1
A1
B2
B2
B2
C2
C2
A1
B1
B1
B1
B1
B1
A1
A1
A1
A1
A1
A1
B1
B1
B1
B1
B1
B1
C1
C1
C1
C1
C1
C1
C1
C1
A1
TO SERVO BD.
TO SERVO BD.
TO SERVO BD.
TO SERVO BD.
TO SERVO BD.
TO SERVO BD.
TO STATUS BD.
TO STATUS BD.
TO STATUS BD.
TO STATUS BD.

P440
P440
P450
P450
P450
P470
P470
P470
P470
P470
PU1050
PU1051
0665
0666
0765
R461
R462
R505
R509
R607
R612
R615
R621
R622
R623
R624
R625
R626
R627
R628
R675
R705
R706
R707
R712
R713
R714
R715
R716
R725
R726
R727
R728
R729
R730
R731
R732
R766
R776
R811
R812
R813
R821

C1
TO P1050
C2
TO P1050
A1 TO INTERCONNECT BD.
A2 TO INTERCONNECT BD.
A4 TO INTERCONNECT BD.
A1 TO INTERCONNECT BD.
A2 TO INTERCONNECT BD.
A3 TO INTERCONNECT BD.
A4 TO INTERCONNECT BD.
F3 TO INTERCONNECT BD.
C1
TO TAPE HEAD
02
TO TAPE HEAD
C3
C1
A4
C1
A3
C2
B4
C1
C3
C1
B5
A1
E2
A1
C4
A1
C4
A1
02
A1
D1
B1
D3
B1
02
B1
02
B1
C3
B1
C3
B1
C1
B1
C1
B1
B5
B1
E2
A2
C4
A2
E2
A2
E2
A2
E3
A2
E2
A2
E3
A2
E2
A2
C2
B1
C2
B1
C2
B1
C2
B2
01
B2
01
B2
A4
B2
A3
B2
B3
C1
B3
C2
E2
A2
C4
A2
E2
A2
E2
B2

R822
R823
R824
R826
R827
R828
R831
R833
R834
R835A
R835C
R835E
R835G
R875
TP1
TP10
TP2
TP3
TP4
TP5
TP6
TP7
TP8
TP9
U611A
U611B
U611C
U611D
U615A
U615B
U615D
U641
U641H
U651
U661
U721A
U721B
U721C
U721D
U805
U815A
U815B
U815C
U815D
U841C
U841D
U851A
U851B
U851C
U851D
U851E
U851F
W570

D2
B4
B4
E1
E2
B4
E2
A4
A4

C3
C3
C1
C1
B3
A5
01
B4
E1
C3
B3
02
E2
E2
D2
E3
E2
B4
C4
01
02
E2
A2
A3
B1
B1
D2
E1
E2
01
C4
B4
03
02
A2
C2
C2
C2
C3
C2
C1
C1
C2
A3

B2
B2
B2
B2
B2
B2
B2
B2
B2
B2
B2
B2
B2
C2
A1
A1
A1
B1
C1
C1
C1
B2
A2
A2
A1
A1
A1
A1
A1
A1
A1
B1
B1
C1
C1
B1
B1
B1
B1
A2
A2
A2
A2
A2
C2
C2
C2
C2
C2
C2
C2
C2
C1

1

U851 E

DATA7-1~

DATAB-l

~I ~9

•

~,

P,7__

5

jR731Z1~
:j 6. 98K~

J44F0'-___

R728

U8S1F

U8150
71LSi214

f

[!

1i21.0K
112,

5 ADR1

R623

:

6 G-

fl.~;5~2 +-R'V~V'~r6Ty
5 -

TP10

\"i~r

+

~

2

U851A

1274LS32

2(;

15

14
12

~

R726
1.74K

U84-1D

~IG

1,./57121

3

6
<5

LM324

-

Iii :LY ~U1050

t---

7 ADRIZI

~
~~1111
<1
}{~~~~1
P400

1.74K

""'"

l~2

U721D

13

8/A~·~4+---~~~--.,.,-,-,----~+*--------------i2~V--------_t__1

~ ~i';o!8~-L-----------"-.,-----------7---'11 RESET
P47e

BCLK-I
HOL-i2l

9

1 All Y 1 1"8"-<>+________+---"1' SSE
ELL
1 AZ 1 yZI"'6'-_I._--------+--,'JRREEAAio5

. f-!

R628

7~~~31~

8 1 A4 1 Y4 12

I

~'I

EXTCLK-l

15 DB0

I.

-~~~12AI2Ylg

~I'I

;

TAPE

DRIVE

DATA

+5 VOLTS

:LY

Ie

Pinout. (Vee & Gnd).

N

:.<]+-lo: : r'~J : : : ~~~=~0
ol"3l ..

BD.

TPL-l

o--±--!---. HOT-0

I .Lv-L
~.~~~~7;~~~~~~~~--------------------l.~A~I!8~A~I~TA~P~E~D~RI~V~E~O~PT~I~O~N~D~A~TA~~a~D.~Jr------------------------~_;~~--~~~~;-~~~~~~~~ ~
DAS 9100 SERIES

CIP-0

P420

J42.(')

°0

~:o

"'(;;Y

°0
"'"o
O·

Q...2...4 +5
VOLTS
a---l-4
G 0

"I

11,13

~;;!

:0-1

RESET-I

r--l

111

O~

"'<
ll1.m

P4-15

...............
<}----.a

+ 5Yl

0

~
~GND~
L ______ --.J

R\ Static Sensitive Devices
\.:!::I See Mamlen;mce Sec/ion

1c512

U615
C040668

~113
112

IRQ-0

14

114

m",

<"tI
mm

D+5V~R4~

1------1

C04-0668

C
+5V

STRAP

A

R812

13

\j0.1UF

R67S--d:.C62S+ 5V2

~ ~ h~5V ~~~:.

~ ..
~,
P~0 J420
~ II
... ~ "'I

T

11

SUP:~~ES

I .C.
DEVICE

SC2-0
SC3-0

P402l

•.'.,-Ji,-------------
SCI-0

:LY

J400

- - -•.:.-.

J470

'\j

GNO

-+~____________________________________________________________________J_4_7_0-r-t11~0 ~

1:t~O:66~~T:.~;~~~:~~~~~~~~~~~~====================i1 &8l •
,-.20

I",·

~ ~I
P470

____

....,~'Q555

-I'

fBl···

WP1-l

'.___

~
~

PDA TAl NT~
T ~L35
P~~______________ jL____________~~~______________________________________________________~~______~

';R731

4

f~~iR,~~~~2____T~?P~4

37 GOET

~::

~

I-'¥

+~~

32 WINH
TPS

<'0K

P4-20

"~C:;'

SCI 16
: 20i CNIP SC2 17
R875C876~* I
SC3 18

.·,·_,__

•. ,~HI~iT. 4.7K~
RIll 076 17

5

RB27

R835G

J47el

P471Z1

2

CR631

11~06
*A
10.0K
121K
A+~ ~~~10~~7~34}2~1~----~"~\--------V0'---~---V~--,
_

~

CAS 9100 Series

A

B

c

1

2

til

Z

o

!iu

...o

01-

Z
a:
<:(IU

3836-283

OZ

ID~

Figure 11-31_ A 18A2 Servo Board Component Locations_

0:;;
>0

a:U

»leiS
",0

«a:

"'«
~O

Figure 11-32_ Servo Board Location_

«ID

t M+

REV-I

6 81

71LS283
U201

:~0:.~8~3t67

0354() -

R"Ii:,>

'''!'

'1"","'",',-" '._.!~P,·,~I,;.>:,~,:~;v:'
1l:_A_'._\,C~~~: "'llllce
"II(II'!,,,,,,.,,,,....
,,,1

/'

q26R535R0~~~

)-____1-__-<1_ -a c~ MU

~'0352

$.A,2 R1234'

/"

~:~,8

COMPONENT NUMBER EXAMPLE

DR 1 1'2"-7______
· · __________________________-'--______________+_---"6-:----'V\
i! :!i!. ~ ±! ~ ±! :l:! ~
LI

-

+V,

l~~'

1

RIll

3
U221A

P131

r-=-,--------------+----------------;-;-;-----------------------------------------0 o---!------t>
BCLK-l

lQA 3

,/

200T~:

200

~
20DP"8----~------,
2QCP"g----~----,

,-____~3':11d

:~~.~ITCRPC0~~
W310

10K

L ___ -.I

0{gsE

NMI~

'£CNTR

R320

1!ZK

U325A
LM393!\

J311

PC1~:

0-4:>

, -____~I>_33''''l T[;531T'

R225

JI31

74~ S2"l4

PI 3 1

NM I T SFF ~lce3----~--------------------------+___,_--------''-'I' >g'--------------------------------------o ~ SFF-O
,F35..0 NM
I HOL~'2'----~--------------------------+_-------"-'j3f'-. 7
O.1.~t>- HOL-('i

4

V

R1~('i

P13Z1JI32

+5 VOL TS

~ m-----I------l>---c-t>- +5V
~C101 C201
I
+
C130
Io.1UF C115C225

I

I
P351
1

GND

~

~

Tt

2028

+28V)
VOLT

DIFFERENTIAL
(-12V;O

+V~12

GND

I

•

_9rr-

~I"

rJ

-'7V)-V~!
I 5

U

~[>

10euF

l.ly1

J(OOSF

+5V

74LS244

§1§~ §~~~

.
JI32

Jo51

~

(+ 12 v

I

[J

".:

P132

,---------------------------------------------------------------------------------~~__,_~--~~~--------------------------------O~

+l,

L347
...LC344
N • Co T0.1uF

c34~1

('i.tuFT

6
1

+V,

+

[>

~ ~ N. C

IT~JI}

BR I DGE

CONTROL

t\f:\Static Sensitive Devices

NOTE: Table " . , shows

\..Z)J

Pinout. (Vee & Gnd).

OR3

OR2

DRI

DR0

SIATL.

0

1

0

1

NEVE'"

0

,

1

0

FWD

:

121

121

1

REV

1
1

~t>-v

o l

o

5

ALL

OTHERS

o
NOT

SL.RVO
SC3 SC2 SC1

OFF
ALLOWED

See Mil!nlenanee Section

~

IZl
IZl

0
1
0

~:~~*1
RS~ *2
APU*3

Ie

u,~

+V

[+1 1 V

TC +28V)

m~

<:I>

ON

CONTROL

1lJj;!
0."

SC3 SC2 SCI

~: ~
:2)~,

IZl

~

1
12:

25 ~ORWARD
25 ~EVERSE
60 r:-ORWARD
50

~m

cC

::tI

~EVERSE

<:

FBOT-FINO BEGIN~ING OF TAPE
RSF-RESET SERVO FAIL

~ AI8A2 TAPE DRIVE OPTION SERVO SO.

(/):1>
::tIeo

-

1"

APU-ACKNOWLEOGE POWER UP

o

."
TEKTRONIX)

DAS 9100 SERIES

INC.

©

@
3836-246

;-1
o

....

1980

TAPE DRIVE SERVO BOARD

~

DAS 9100 Series

(0
ED
EB
J11

EiIJ U11 EB

GJ

(:B

SENSOR BOARO

J2

J1

E3
D
D

D
D
D

D

II
D
D
D
STATUS BOARD

3B36-290

Figure 11-33. Sensor Board (A 18A3A 1) and Status Board (A 18A3A2) Component Locations.

Figure 11-34. Sensor Board (A 18A3A 1) and Status Board (A 18A3A2) Location.

mm

::Jz
!;cQ
t-!;c

mo

<>!I 0

a:..J

tV:\ Static Sensitive Devices

\Z>I

Ot-

mz
zw
wz

Component Number

mo
",n.

Assem~ly

oCt::;;

Number

"'0

"fo
;;lie
~~
~<>!I

I

~

g

See Mamtenance Section

COMPONENT NUMBER EXAMPLE

, A23 A2 R1234 '

ITLsCII.emafiC
~~;~~r
Subassef!1bly

Number (I' used)

Ch~ssis-mounled components have no Assembly Number
prefix-see end 01 Replaceable Electrical Parts List.

@

",UI

oZ
ZQ
Q~

CAS 9100 Series

1-0

&9

ui!z

A

Ow
~Z

c

B

D

0::0

wD..

1-:;

~8

goU

TP122

.. 0

~~

"0

R122
C.122

<1:10

CO

l"'-

....
;:)
C\I

'"

('OJ
T""

0

.,..
.,..

Ln
M

;:)

;:)

M

R129

III CO
NN

y-

R139
0139 C141
R140
R141
C'?
R142
,...
R143
a:

""

.... ,...
a: a:

J121

C155

C150

III
,...

.....

Ln

co ..........
o:t ,..
,...
..... '

C.351

TP339

.,..

I"'-

o:t

Ln
M

M
;:)

;:)

J440

I!.J Ln
Ln
<=I: ('I)

a:

D.. ;:)

(/)

.....

':J'

3

:::;)

0

.....

It)

o:T

;:)

Figure 11-36. I/O Interface Board Location .

....
Ln

II)

:;)

III
III
III

o

R554

P521
N:\ Static Sensitive Devices

3836·286

\Z:;J See Maintenance Section

COMPONENT NUMBER EXAMPLE

Component Number
, A23 A2 R1234 '
A 'bl

5S m y

Number

TT~scfJemafiC
-.-J
L. ' CircUit
Subassembly
Number (II used)

Nvmber

Chassis-mounted components have no Assembly Number
jlrefi~-see

@

end of Repl
R10

SENSOR BD. ~

AI8A3AI

Itoi

JI
10~+5V

1
1
1 U11
1 H22A5
1
1
1
1

L_I - - - - -

+5 VOLTS

~

5t~

~ Il!l+5~'5:'·

+5V

:;i:'·,"'~

,

TP1

+5V

R14
3.3K

~~----~~-----------------------------------------------11 ~ HDT-0

COMPONENT NUMBER EXAMPLE

,

.

Component Number

,

A23 A2 R1234

Assembly
Number

:rTLSC~~~~{'C
Subassembly
Number (If used)

Number

Chassis-mounted components have no Assembly Number
prefix-see end of ReplaceJble Electrical Parts List.

52

CIP2-0
WP2-1

~~------------~OTO~-------------------------------------------------------------------------------4mi ~

~!~~!
~~

0

511

0

® Static Sensitive Devices

NOTE: Table 11-1 shows Ie
Pinout. (Vee & Gnd).

See Maintenance Section

TEKTRONIX,

INC.

©

1ll'I[~\81"

CIP1-0
WP1-1

~~

AI8A3A2

STATUS

BOARD

1980

@
3636-247

DAS 9100 SERIES

TAPE DRIVE SENSOR AND STATUS BD.

~

A

c

B

D

E

F

P,O
PSZ.!

Table 11-48
I/O INTERFACE

~

1

+12.V

L.

<8>

L9

J ,,,,F

C141
C145
C147
C155
C156
C231
C237
C255
C324
C328
C351
C433
C447
C542
C555
J121
P521
P521
Q139
R139
R140
R141
R142
R143
R157
TP122
TP339
U145A
U145B

SCHEM
LOCATION

E4
A1
A1
A2
A1
A1
A1
A1
A1
A1
A1
A1
A1
A1
A1
F4
01
A1
E4
E4
E4
E4
E4
E4
E4
A3

A4
E4
E4

BOARD
LOCATION

C1
01
01
01
01
C1
C2
01
B2
C2
02
C3
03
03
04
B1
B4
B4
C1
C1
C1
C1
C1
C1
01
B1
C2
01
01

+SY
t+t""'F

>5V

cd

I ~=

~+

LB

2

FROM
..113 \

3

INTERCONNEC.T

SlOP

A.

SEL

SLOTIC

C'2...::'1

A4

S.L

SLOT II

C.'Z=-7
C'2.SS

AS

SEL 5 LCTIZ.

C324
c3::'1

C.4"1-7

-IZY
C,155

C54'2.
C.SS5

I,u...F

p~

A29

INT3

B30

EXPANSION

PWR

CONT

}

ACP

5--0

TP339

SAl

Bq9

BAZ

/A4

BAil

84<1-

SAIZ-

A4'1-

SAlo

O~

BRD

NOT C.ONNECT ED

}~

<~

;DO

3

"IDEO

~.q

UI45A

RI41

74"LS33
I

1"'/",

Z

-I

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L3

SYNC.

VEFT SYNC

e:'(PANDER

-Iy-

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S

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bJ.TT
, A23

Ri4-2..
,,;,~

74-LS33
4-

k

1"10

LSChemJ/ic

,.em Y
Nurr"ff

'5V

CircUlI
Number

Sub~S$emblr

ChaISI\-mOJnt€d componen:s h)',e ro AI,emblj
prefi.-\e~

end

~I ~,pl,teab'e EI~d"cal

tlum~er

p"t. Ld

RI"T3
1.2.IK

'"

I "'/"

1%.

r,;

lel4-'

\::,

l"

@
3B3.c - 24-9

OPTIOJ.J

.jIZI

COMP VIOE:O

Fa

lrv.

RI::'9
3DI

See Maintenance Sect,on

I/O INTERF"ACE

PIO

Q13")

® Static Sensitive Devices
AI9AI

R1234'

Number (rfL"iedJ

RI40

P/O

o
m

Component Number

UI"l-5B
HORZ

~

COMPONENT NUMBER EXAMPLE

'-'"

°Blq.

DAS 9100 SERIES

:Dl>

+IZY

BI~

NOT

1

Cit)

~

BA¢- B1\12

m~

BVVR

CONN!=.:C,TED

82<0

BA¢

A50

L A4 ;;:

B4Z

>---0

NOT
CONNECTED

CONNECTE"P

Lo

L3

SEL SLOT":!

CI47

C433

-IZY

BI9

CIRCUIT
NUMBER

PS2.,

A.

el2S
C145

I JtC.ISIC

81~

ASSEMBLY A19A1

~

-tl2.Y

.'8

NOTE: Table l1-1lhowllC
Pinout. IVee '" Gnd).

BD.

1I0 INTERFACE -VIDEO DRIVER

P/O

P/O

aD
CABLE

WI;'..I

DAS 9100 Series

B

A

c

D

W121

1
I/O INTERFACE CONNECTOR BOARD

05202.

J221

2
ICI/l

Oz

05204

1-0

uw!cc
Zu

Zo

8-'
wI-

3836-289

U Z

W


ASSEMBLY A19A2

CIRCUIT
NUMBER

C301
C322
08201
08202
08203
08204
J130
J221
J321
8120
W121
W121

SCHEM
LOCATION

F3
85
E3
E3
E2
E2
F1
C1
C4
E4
01
A1

BOARD
LOCATION

A3
02
A2
A2
A2
A2
01
C2
C3
C1
81
81

3

I z I,
I3 a

.D
.•
.
Id.
lei.
I

115 <

0101'0

11\

OIOS

lsi

0104

101

124 m

a

131

e

I

1338

I

1288

14<

~D5203

LED'S

12

I

3<

I

2 <

0101

I

I <

liB
119
1:<0'
117 <

I FC

19<

NDAC

I8(
I 7<

NRFD

.
,
.

EOl

I

1221

ATN

I

1340

SRQ

122

Component Number

bl

TTLSchemJ~IC

I~~:e,~""':

ChaSSI$·mU1Jr.ted
prerl~-see

comDo~enls ha~e

end of ReploceJJ'e

3~

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129

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W

+12V

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8 )

I

CTS

I

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I

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120 )



DAS 9100 SERIES

I
I

I

J.~F

+12.V

+sv

SIZO

CD

TX

•
I 1201
•
I I 3-,.0
•
I 1381
•
I 119 m
•

'CJ

j---l

I

Parts list

I

I/O INTERFACE. CONNECTOR

@

3836-250

:

~

~DS201

NDAC

C3DI

J~

no As:;em~ly Number

[I~ctncal

"J

~.~F

124

~~r~~~r

SubJI,embly
Number (,' used)

~DS20;?'

NRFD

To I/O
OPTION
THROUGH
PI21

123

, A23 A2 R1234 '
A

+SV

'-.:/

121

~

!

~DSZ04

DAV

110 <

'"

JI30

"J

I IJ

I Ib (
I5(
III(

DAV

4

GPI8
CONNECTOR

REN

SRQ

J
J
J

112/

"

•
I 1301
•
I I 2(' S
I I 230
•
I 13d,
I Izd

I

139!

11\

DID;?,

COMPONENT NUMBER EXAMPLE

5

I

COMPOSITE V IDEO
BNC CONNECTOR

GPIB
STATUS

0103

"-

.

TO 1/0
OPTION
THROUGH
PI2 I

010"<

4

127

",,<

0108

F

E

"fl,"'
," I

J2~

Pia
WIZI

nl •

D

)

I
R5- 2.3.2CONNECTOR

:

8D~

I
I
I
21
TERMINATOR I
,
•
I
IJ O;PAI6 I
•
I
I
"PAS
I" •
•
I
IJ GiPA4 I

.

I IJ,

C;PAc:

I IJ,

"PA¢

lY

®

~
512.0-2

~
512.0-1

~
5120-4

~

I

GPIB
ADDRESS
SWITCHES

I
I
I
I
I
I
I

I
I
I
I
I
I
I

.::::>
O~

I 512.0-10 I
• ~
I
I
L ___ J

0'"

I
•

5120-3

.I
.II

5120-5

~
5120-(,

~
5120-,

~

Sta1ic S~nsit[ve Devices
See Mam/enance Sec/IOn

_CD

z>

-I'"

m-

JJ-

,..0

>-

OZ

mill

OJJ

z>

\

zO

mm

NOTE: Table 11·1 shows Ie
Pinout. {Vee & GndJ.

~

JJ

I/O INTE.RFACE. CONN ECTOR

<@>

Section 12-DAS 9100 Series Service Vol. II

\

REPLACEABLE
MECHANICAL PARTS

"

PARTS ORDERING INFORMATION

INDENTATION SYSTEM

Replacement parts are available from or through your local
Tektronix, Inc. Field Office or representative.

This mechanical parts list is indented to indicate item
relationships. Following is an example of the indentation system
used in the description column.

Changes to Tektronix instruments are sometimes made to
accommodate improved components as they become available,
and to give you the benefit of the latest circuit improvements
developed in our engineering department. It is therefore
important, when ordering parts, to include the following
information in your order: Part number, instrument type or
number, serial number, and modification number if applicable.

1 2 3 4 5

Detail Part of Assembly and/or Component
Attaching parts for Detail Part

If a part you have ordered has been replaced with a new or
improved part, your local Tektronix, Inc. Field Office or
representative will contact you concerning any change in part
number.
Change information, if any, is located at the rear of this
manual.

SPECIAL NOTES AND SYMBOLS
XOOO

Part first added at this serial number

OOX

Part removed after this serial number

Name & Description

Assembly and/or Component
Attaching parts for Assembly and/or Component

Parts of Detail Part
Attaching parts for Parts of Detail Part

Attaching Parts always appear in the same indentation as
the item it mounts, while the detail parts are indented to the right.
Indented items are part of, and included with, the next higher
indentation. The separation symbol - - - • - - - indicates the end of
attaching parts.

Attaching parts must be purchased separately. unless otherwise
specified.

FIGURE AND INDEX NUMBERS
Items in this section are referenced by figure and index
numbers to the illustrations.

ITEM NAME
In the Parts List, an Item Name is separated from the
description by a colon (:). Because of space limitations, an Item
Name may sometimes appear as incomplete. For further Item
Name identification, the U.S. Federal Cataloging Handbook H6-1
can be utilized where possible.

ABBREVIATIONS
#

ACTR
ADPTR
ALIGN
AL
ASSEM
ASSY
ATTEN
AWG
BD
BRKT
BRS
BRZ
BSHG
CAB
CAP
CER
CHAS
CKT
COMP
CONN
COV
CPLG
CRT
DEG
DWR
.~

INCH
NUMBER SIZE
ACTUATOR
ADAPTER
ALIGNMENT
ALUMINUM
ASSEMBLED
ASSEMBLy
ATIENUATOR
AMERICAN WiRE GAGE
BOARD
BRACKET
BRASS
BRONZE
BUSHING
CABINET
CAPACITOR
CERAMIC
CHASSIS
CIRCUIT
COMPOSITION
CONNECTOR
COVER
COUPLING
CATHODE RAY TUBE
DEGREE
DRAWER

ELCTRN
ELEC
ELCTLT
ELEM
EPL
EQPT
EXT
FIL
FLEX
FLH
FLTR
FR
FSTNR
FT
FXD
GSKT
HDL
HEX
HEX HD
HEX SOC
HLCPS
HLEXT
HV
IC
10
IDENT
IMPLR

ELECTRON
ELECTRICAL
ELECTROLYTIC
ELEMENT
ELECTRICAL PARTS LIST
EQUIPMENT
EXTERNAL
FILLISTER HEAD
FLEXIBLE
FLAT HEAD
FILTER
FRAME or FRONT
FASTENER
FOOT
FIXED
GASKET
HANDLE
HEXAGON
HEXAGONAL HEAD
HEXAGONAL SOCKET
HELICAL COMPRESSION
HELICAL EXTENSION
HIGH VOLTAGE
INTEGRATED CIRCUIT
INSIDE DIAMETER
IDENTIFICATION
IMPELLER

IN
INCAND
INSUL
INTL
LPHLDR
MACH
MECH
MTG
NIP
NON WIRE
OBD
OD
OVH
PH BRZ
PL
PLSTC
PN
PNH
PWR
RCPT
RES
RGD
RLF
RTNR
SCH
SCOPE
SCR

INCH
INCANDESCENT
INSULATOR
INTERNAL
LAMPHOLDER
MACHINE
MECHANICAL
MOUNTING
NIPPLE
NOT WIRE WOUND
ORDER BY DESCRIPTION
OUTSIDE DIAMETER
OVAL HEAD
PHOSPHOR BRONZE
PLAIN or PLATE
PLASTIC
PART NUMBER
PAN HEAD
POWER
RECEPTACLE
RESISTOR
RIGID
RELIEF
RETAINER
SOCKET HEAD
OSCILLOSCOPE
SCREW

SE
SECT
SEMICOND
SHLD
SHLDR
SKT
SL
SLFLKG
SLVG
SPR
SQ
SST
STL
SW
T
TERM
THD
THK
TNSN
TPG
TRH
V
VAR
WI
WSHR
XFMR
XSTR

SINGLE END
SECTION
SEMICONDUCTOR
SHIELD
SHOULDERED
SOCKET
SLIDE
SELF·LOCKING
SLEEVING
SPRING
SQUARE
STAINLESS STEEL
STEEL
SWITCH
TUBE
TERMINAL
THREAD
THICK
TENSION
TAPPING
TRUSS HEAD
VOLTAGE
VARIABLE
WITH
WASHER
TRANSFORMER
TRANSISTOR

12·1

Replaceable Mechanical Parts
DAS 9100 Series Service Vol.ll

CROSS INDEX-MFR .. CODE NUMBER TO MANUFACTURER

Mfr. Code

Manufacturer

Address

City, State, Zip

OOOOA
OOOBB
OOOBK
OOOCX
OOOCY
OOOEL
OOOEP
OOOFU
00613
00779
01295

LEMO USA
BERQUIST COMPANY
STAUFFER SUPPLY
N W SPRING AND MANUFACTURING COMPANY
NORTHWEST FASTENER SALES, INC.
PORTLAND SCREW CO.
AROW FASTENERS INC.
WRIGHT ENGINEERED PLASTICS
USM CORPORATION, MOLLY FASTENER DIVISION
AMP, INC.
TEXAS INSTRUMENTS, INC.
SEMICONDUCTOR GROUP
BUNKER RAMO CORP., CONNECTOR DIVISION
COMPONENT MANUFACTURING SERVICE, INC.
WAKEFIELD ENGINEERING, INC.
PANDUIT CORPORATION
GENERAL DEVICES CO., INC.
RELIANCE MICA CORP.
BURNDY CORPORATION
NORTRONICS COMPANY, INC.
FREEWAY CORPORATION
THERMALLOY COMPANY, INC.

P. O. BOX 6626
4350 WEST 78TH
105 SE TAYLOR
5525 ROSEWOOD STREET
7923 SW CIRRUS DRIVE
6520 N. BASIN AVE.
2112 AMERICAN AVENUE
10350 OLD REDWOOD HIGHWAY
504 MT. LAUREL AVENUE
P.O. BOX 3608

SANTA ROSA, CA 95406
MINNEAPOLIS, MN 55435
PORTLAND, OR 97214
LAKE OSWEGO, OR 97034
BEAVERTON, OR 97005
PORTLAND, OR 97217
HAYWARD, CA 94545
WINDSOR, CA 95492
TEMPLE, PA 19560
HARRISBURG, PA 17105

P.O. BOX 5012
2801 S 25TH AVENUE
1 COMPONENT PARK WEST
AUDUBON ROAD
17301 RIDGELAND
525 S. WEBSTER AVE.
342-39TH ST.
RICHARDS AVENUE
8101 10TH AVENUE NORTH
9301 ALLEN DRIVE
2021 W VALLEY VIEW LANE
POBOX 34829
3730 W. MORSE
P. O. BOX 1331
YOUK EXPRESSWAY
770 AIRPORT BLVD.
2620 ENDRESS PLACE
147 N. MICHIGAN AVE.
30 ROCKEFELLER PLAZA

DALLAS, TX 75222
BROADVIEW, IL 60153
BRIDGEWATER, MA 02379
WAKEFIELD, MA 01880
TINLEY PARK, IL 60477
INDIANAPOLIS, IN 46219
BROOKLYN, NY 11232
NORWALK, CT 06852
MINNEAPOLIS, MN 55427
CLEVELAND, OH 44125

1 RIVER ROAD
5224 NE 42ND AVENUE

SCHENECTADY, NY 12306
PORTLAND, OREGON 97218

3M CENTER
36 BUTLER ST.
666 E. DYER RD.
1501 MORSE AVENUE
446 MORGAN ST.

ST. PAUL, MN 55101
ELIZABETH, NJ 07207
SANTA ANA, CA 92702
ELK GROVE VILLAGE, IL 60007
CINCINNATI, OH 45206

34 FOREST STREET
31 BROOK ST. WEST
33 E. FRANKLIN ST.
800 E. NORTHWEST HWY
POBOX 5115,INDUSTRIAL PARKWAY

ATTLEBORO, MA 02703
HARTFORD, CT 06110
DANBURY, CT 06810
DES PLAINES, IL 60016
NORTH BRANCH, NJ 08856

ST. CHARLES ROAD
47-16 AUSTEL PLACE
2100 S. 0 BAY ST.
POBOX 500

ELGIN, IL 60120
LONG ISLAND CITY, NY 11101
MILWAUKEE, WI 53207
BEAVERTON, OR 97077

POBOX 287
5555 N. ELSTON AVE.
7-9 HASBROUCK LANE
271 MAYHILL ST.
2530 CRESCENT DR.
2527 GRANT AVENUE
701 SONORA AVENUE
71 MURRAY STREET
172 STERLING STREET
600 18TH AVE
4444 WEST IRVING PARK RD.
19115 HAMILTON AVE., POBOX 389
135 W. MAGNOLIA BLVD.
P.O. BOX 6626
2015 SECOND ST.
5713 NORTHWEST HIGHWAY

MILFORD, IL 60953
CHICAGO, IL 60630
WOODSTOCK, NY 12498
SADDLE BROOK, NJ 07662
BROADVIEW, IL 60153
SAN LEANDRO, CA 94579
GLENDALE, CA 91201
NEW YORK, NY 10007
CLINTON, MA 01510
ROCKFORD, IL 61101
CHICAGO, IL 60641
GARDENA, CA 90247
BURBANK, CA 91502
SANTA ROSA, CA 95406
BERKELEY, CA 94170
CHICAGO, IL 60646

02660
04919
05820
06383
06666
08530
09922
11983
12327
13103
14438
16428
22526
23936
24931
28520
49671
50293
52905
53387
59730
71468
71785
73743
73803
74445
74868
75915
77339
78189
79136
79807
80009
81041
82389
82877
83294
83385
85471
86928
89663
90484
93907
95987
98159
98978
S3109
S3629
T1105

12-2

USM CORP., NYLOK FASTERNER DIV.
BELDEN CORP.
BERG ELECTRONICS, INC.
PAMOTOR DIV., WILLIAM J PURDY COMPANY
SPECIALITY CONNECTOR CO., INC.
HEYMAN MFG. CO.
RCA CORPORATION
GENERAL ELECTRIC COMPANY, INSTALLATION AND SERVICE ENGINEERING DEPT.
SIMPLEX MFG. COMPANY
MINNESOTA MINING AND MFG. CO., ELECTRO
PRODUCTS DIVISION
THOMAS AND BETTS COMPANY
ITT CANNON ELECTRIC
TRW, CINCH CONNECTORS
FISCHER SPECIAL MFG. CO.
TEXAS INSTRUMENTS, INC., METALLURGICAL
MATERIALS DIV.
HOLO-KROME CO.
BUNKER-RAMO CORP., THE AM PHENOL RF DIV.
LlTTELFUSE, INC.
NATIONAL LOCK WASHER COMPANY
ILLINOIS TOOL WORKS, INC.
SHAKEPROOF DIVISION
WALDES, KOHINOOR, INC.
WROUGHT WASHER MFG. CO.
TEKTRONIX, INC.
HOWARD INDUSTRIES, DIVISION OF MSL
INDUSTRIES, INC.
SWITCH CRAFT, INC.
ROTRON, INC.
ARROW FASTENER CO., INC.
CENTRAL SCREW CO.
BOYD, A. B., CO.
SEASTROM MFG. COMPANY, INC.
REESE, J. RAMSEY, INC.
ITT, SURPRENANT DIV.
TEXTRON INC. CAMCAR DIV
WECKESSER CO., INC.
RUBBER TECK, INC.
INTERNATIONAL ELECTRONIC RESEARCH CORP.
C/O PANEL COMPONENTS CORP.
PANEL COMPONENTS CORP.
J PHILLIP INDUSTRIES INC

DALLAS, TX 75234
LINCOLNWOOD, IL 60645
RICHMOND, IN 47374
NEW CUMBERLAND, PA 17070
BURLINGAME, CA 94010
GREENWOOD, IN 46142
KENILWORTH, NJ 07033
NEW YORK, NY 10020

REV MAR 1984

Replaceable Mechanical Parts
DAS 9100 Series Service Vol.lI

"'---

Fig. &
Index
No.

Tektronix
Part No.

1-1
-2
-3

334-4324-00
105-0891-00
426-1773-01

-4
-5

211-0038-00
211-0253-00

2
2

-6
-7

214-3120-00
386-4500-01

2

-8

211-0261-00

2

-9

386-4499-01

-10

211-0261-00

-11
-12

426-1775-00
333-2698-00
333-2698-01

-13

211-0661-00

10

-14

366-2030-00
366-2030-01
366-2030-02
366-2030-03
366-2030-04
366-2030-05
366-2030-06
366-2030-07
366-2030-08
366-2030-09
366-2030-10
366-2030-11
366-2030-12
366-2030-13
366-2030-14
366-2030-15
366-2030-16
366-2030-17
366-2030-18
366-2030-19
366-2030-20
366-2030-21
366-2030-22
366-2033-00
366-2033-01
366-2033-02

22

-15

Serial/Model No.
Eft
Dscont

2

B010l00
B020000

B019999

1
1
2
4
2

-16
-17
-18
-19

'-

Qty

1
2
52

-20
-21

426-1790-00

-22

211-0016-00

2
B010100

B019999
8

1 234 5

Name & Description

MARKER,IDENT:MKD TEK LOGO
LATCH,KEYBOARD:
FRAME SECT,KYBD:
.. •...... •.... (ATIACHING PARTS)·· ........ •
SCREW,MACHINE:4-40 X 0.312,FLH,100 DEG
SCREW,CAP.:4-40 X 0.5 L,HEX SCH,SST
...... •.. • ..(END ATIACHING PARTS).... •....
PIVOT,KEYBOARD:0.5 DIA
SUPPORT,KYBD:RIGHT HINGE
• .. •• .. • .. ····(ATIACHING PARTS)...... • .. ••
SCREW,MACHINE:2-56 X 0.125 HEX SCH,SST
............ (END ATTACHING PARTS)...... • ..
SUPPORT,KYBD:LEFT HINGE
.... • ...... •..(ATIACHING PARTS) .... • .. •• ..
SCREW,MACHINE:2-56 X 0.125 HEX SCH,SST
.. •.. •...... (END ATIACHING PARTS) .... • ....
FRAME SECT,KYBD:REAR
PANEL,FRONT:KEYBOARD
PANEL,FRONT: KEYBOARD
.. •• .. • .. • .. ··(ATIACHING PARTS)' .. • .... •••
SCREW,MACHINE:4-40 X 0.25 INCH,PNH,STL
............(END ATIACHING PARTS)'·· ......
PUSH BUTION:IVORY GRAY,OA sa X 0.175
PUSH BUTION:IVORY GRAY,l
PUSH BUTION:IVORY GRAY,2
PUSH BUTION:IVORY GRAY,3
PUSH BUTION:IVORY GRAY,4
PUSH BUTION:IVORY GRAY,5
PUSH BUTION:IVORY GRAY,6
PUSH BUTION:IVORY GRAY,7
PUSH BUTION:IVORY GRAY,8
PUSH BUTION:IVORY GRAY,9
PUSH BUTION:IVORY GRAY,O
PUSH BUTION:IVORY GRAY,A
PUSH BUTION:IVORY GRAY,B
PUSH BUTION:IVORY GRAY,C
PUSH BUTION:IVORY GRAY,D
PUSH BUTION:IVORY GRAY,E
PUSH BUTION:IVORY GRAY,F
PUSH BUTION:IVORY GRAY,NEXT
PUSH BUTION:IVORY GRAY,DEL/LINE
PUSH BUTION:IVORY GRAY,ADD/LiNE
PUSH BUTION:IVORY GRAY,DON'T
PUSH BUTION:IVORY GRAY,DECR
PUSH BUTION:IVORY GRAY,INCR
PUSH BUTION:DOVE GRAY,OA sa X 0.175 H
PUSH BUTION:DOVE GRAY,UP ARROW
PUSH BUTION:DOVE GRAY,DELTA
CKT BOARD ASSY:KEYBOARD(SEE A5Al REPL)
.CONN,RCPT,ELEC:(SEE A5A1J141 REPL)
.TERM,TEST POINT:(SEE A5AlTPl15,TP249 REPL
.sWITCH PB ASSY:(SEE A5A 1S205,21 0,215,225,
.230,235,257,270,280,305,310,315,325,330,
.335,355,370,380,410,425,430,435,450,455,
A60,4 75,505,510,515,525,530,535,540,555,
.605,610,615,625,630,635,640,710,725,730,
.735,740,752,757,770 REPL)
.LT EMITIING DIO:(SEE A5A1DS572,DS577 REPL
FRAME,CABINET:FRONT
• .. • .. •...... ·(ATIACHING PARTS).. •.... •.. •
SCREW,MACHINE:4-40 X 0.625 INCH,PNH STL
...... •.... ·(ENO ATIACHING PARTS) ........ •

Mfr
Code

Mfr Part Number

80009
80009
80009

334-4324-00
105-0891-00
426-1773-01

83385
OOOEP

ORD BY DESCR
ORD BY DESCR

80009
80009

214-3120-00
386-4500-01

OOOCY

ORD BY DESCR

80009

386-4499-01

OOOCY

ORD BY DESCR

80009
80009
80009

426-1775-00
333-2698-00
333-2698-01

78189

ORD BY DESCR

OOOFU
80009
OOOFU
OOOFU
OOOFU
OOOFU
OOOFU
OOOFU
OOOFU
OOOFU
OOOFU
OOOFU
OOOFU
OOOFU
OOOFU
OOOFU
OOOFU
OOOFU
OOOFU
OOOFU
OOOFU
OOOFU
OOOFU
OOOFU
OOOFU
OOOFU

OBD
366-2030-01
OBD
OBD
OBD
OBD
OBD
OBD
OBD
OBD
OBD
OBD
OBD
OBD
OBD
OBD
366-2030-16
OBD
OBD
OBD
aBD
OBD
OBD
OBD
OBD
OBO

80009

426-1790-00

83385

ORO BY OESCR

-

REV MAR 1984

12-3

Replaceable Mechanical Parts
CAS 9100 Series Service Vo!.11

Fig. &
Index
No.

Tektronix
Part No.

Serial/Model No.
Eff
Dscont

1-23

391-0170-00
391-0169-00

B01 01 00

-24

211-0512-00

4

-25
-26

213-0189-00
386-4510-00
386-4513-00

4

-27

211-0512-00

4

-28
-29
-30
-31

21 3-021 8-00
213-0885-00
378-2055-00
101-0068-01
407 -2633-00

-32

211-0008-00

-33
-34
-35
-36
-37

105-0874-00
366-1859-00
384-1606-00
214-2654-00
386-4575-00

-38

211-0097-00

-39
-40
-41
-42

210-0021-00
361-1011-00
386-4449-00

-43

211-0504-00

B010100
B020556

Oty

B019999

B020555

4
4

2

3

2

1 234 5

Name & Description

BLOCK,MOUNTING:TOP RIGHT,ALUMINUM
BLOCK,MOUNTING:TOP LEFT,ALUMINUM
··············(ATTACHING PARTS).... •••••••
SCREW,MACHINE:6-32 X 0.50" 100 DEG,FLH ST
•• .. •••• .. ··(END ATTACHING PARTS).... •••••
SETSCREW:4-40 X 0.375,HEX SKT,CUP PT
SUPPORT,KYBD:MAINFRAME,LEFT
SUPPORT,KYBD:MAINFRAME,RIGHT
•••• .. •• .... ··(ATTACHING ·PARTS)' .. •••• .. ••
SCREW,MACHINE:6-32 X 0.50" 100 DEG,FLH ST
•.. •••• .. ···(END ATTACHING PARTS)' .... •• ..
SETSCREW:6-32 X 0.25 INCH,HEX SOC ST
SETSCREW:6-32 X 0.25,STL BLK OXD
FILTER,LT,CRT:GRAY,7.925 X 5.8 X 0.3 PLEX
TRIM, DECORATIVE: FACADE, PLASTIC
BRKT,SW PLT MTG:ALUMINUM
•••••••••• .. ··(ATTACHING PARTS)·· .. •••••••
SCREW,MACHINE:4-40 X 0.250,PNH,STL,POZ
•.. •.. •.. ···(END ATTACHING PARTS)' .. •• ....
ACTUATOR,SW:POWER
KNOB:SLATE GRAY,PWR SW,4-40 INT
EXTENSION SHAFT:1.08 L X 0.125 OD,ALUMINUM
SPRING,HLCPS:0.188 00 X 0.69 L,CLOSED EN
PLATE,SW MTNG:POWER SWITCH,ALUMINUM
• .. ••• .. ······(ATTACHING PARTS)'··········
SCREW,MACHINE:4-40 X 0.312 INCH,PNH STL
············(END ATTACHING PARTS)···· .. •..
SWITCH,TOGGLE:(SEE CHASSIS PARTS S101 REPL
WASHER,LOCK:INTL,0.476 10 X 0.60"00 ST
SPACER,SLEEVE:0.15 LX 0.567 ID,ALUMINUM
SPRT,TAPE DRIVE:ALUMINUM
··············(ATTACHING PARTS)'······· .. •
SCREW,MACHINE:6-32 X 0.25 INCH,PNH STL
•.. ••• .. ····(END ATTACHING PARTS)' .. •••• ..

Mfr
Code

Mfr Part Number

80009
80009

391-0170-00
391-0169-00

83385

ORO BY DESCR

80009
80009

386-4510-00
386-4513-00

83385

ORO BY DESCR

74445
14438
80009
80009
80009

ORO BY DESCR
ORO BY DESCR
378-2055-00
101-0068-01
407-2633-00

83385

ORO BY DESCR

80009
80009
80009
OOOCX
80009

105-0874-00
366-1859-00
384-1606-00
OBD
386-4575-00

83385

ORO BY DESCR

78189
80009
80009

1222-01-00-0541 C
361-1011-00
386-4449-00

83385

ORDBY DESCR

80009

200-2661-00

83385

ORO BY DESCR

80009

407 -2860-00

83385

ORO BY DESCR

00613
80009

E-632
334-5013-01

REMAINING PARTS ARE USED IF THE TAPE DRIVE
OPTION IS NOT USED:
-44

200-2661-00

-45

211-0097 -00

-46

407 -2860-00

-47

213-0088-00

2

-48

220-0886-00
334-5013-01

2

12-4

2

COVER,HOLE:PLASTIC
··············(ATTACHING PARTS)···········
SCREW,MACHINE:4-40 X 0.312 INCH,PNH STL
············(END ATTACHING PARTS)'········
BRACKET,COVER:ALUMINUM
··············(ATTACHING PARTS)' .. ••••••••
SCR,TPG,THD CTG:4-24 X 0.25 INCH,PNH STL
············(END ATTACHING PARTS)'········
NUT,SLEEVE:6-32 X 0.437 OD,NEOPRENE
EMBLEM:TEKTRONIX

REV MAR 1984

."

P
c

DAS 9109

»
en

...o



ADD JUN 1982

DAS 9100 SERIES

0---_

A7A1
A15A1
A16A1

m

III

o

If
8...

01

en

~

...

CD

DAS 9100 SERIES
REV NOV 1983

Replaceable Mechanical Parts
CAS 9100 Series Service Vol.II

\

'----

Fig. &
Index
No.

Tektronix
Part No.

Serial/Model No.
Eft
Dscont

Qty

1 234 5

Name & Description

Mfr
Code

Mfr Part Number

80009
80009
80009
80009
80009

P6452
334-4239-00
334-4174-00
334-4175-00
380-0682-00

83385
73743

ORO BY DESCR
12161-50

80009
80009
80009

200-2731-00
361-0758-01
343-1018-00

80009

343-1019-00

80009
78189

358-0660-00
1208-00-00-0541 C

80009
80009

343-1036-00
343-0979-00

80009
80009
80009
80009

012-0747-00
012-0989-00
020-0720-00
070-3615-00

80009
80009
80009
80009
80009
80009

003-0709-00
012-0800-00
012-0968-00
012-0987-00
012-0989-01
012-1000-00

80009

012-1000-00

80009
80009
80009
80009

015-0330-00
015-0339-00
015-0339-02
103-0209-00

REFER TO THE LEFT HALF OF THIS ILLUSTRATIO
FOR THREE PROBES:P6452,P6455
AND P6456 ALTHOUGH THE FIGURE AND
INDEX NUMBERS (16-1 THRU 16-19) ARE THE
SAME,THE TEKTRONIX PART NUMBER AND ITS
DESCRIPTION VARY WITH EACH PROBE.
THE RIGHT HALF OF THIS ILLUSTRATION
(FIG. & INDEX 16-20 THRU 16-27) REFERS TO
P6454
EACH PARTS LIST IS FOLLOWED BY AN ACCESS
LIST FOR THAT PROBE.
16-1
-2
-3

P6452
334-4239-00
334-4174-00
334-4175-00
380-0682-00

1
1
1
1
2

-4
-5

211-0086-00
210-0406-00

4
4

-6
-7
-8
-9

200-2731-00
361-0758-01
343-1 01 8-00

2

-10
-11
-12
-13
-14

343-1019-00

-15
-16

358-0660-00
210-0008-00

-17
-18
-19

343-1 036-00
343-0979-00

PROBE,DATA ACQ:P6452,8-CHANNEL
.MARKER,IDENT:MKD 1M OHM,5PF
.MARKER,IDENT:MKD EXTERNAL CLOCK
.MARKER,IDENT:MKD 91A32/91A08 DATA ACQUIS
.HOUSING,PROBE:POLYCARB,SLATE GRAY
.·············(ATTACHING PARTS)"··········
.SCREW,MACHINE:4-40 X 0.75 100' DEG,FLH ST
.NUT,PLAIN,HEX.:4-40 X 0.188 INCH,BRS
:··········(END ATTACHING PARTS)"········
.COVER,HOLE:POLYCARB,GRAY
.SPACER,PROBE:ACETAL,SLATE GRAY
.STRAIN RLF,CA:1.89 L
.CKT BOARD ASSY:DATA ACQUISITION PROBE
.(SEE A7A1 REPL)
..TERM SET,PIN:(SEE A7A1J100 REPL)
.. TERM SET,PIN:(SEE A7A1J202 REPL)
.STRAIN RLF,CA:1.89 L
.SWITCH,SLlDE:(SEE A7A1S2 REPL)
.SWITCH,PUSH:(SEEA7A1S1 REPL)
.·············(ATTACHING PARTS)"..•••••..•
.BUSHING,SW MTNG:ALUMINUM
.wASHER,LOCK:INTL,0.17210 X 0.331 "OD,S
:··········(END ATTACHING PARTS)·····....
.CA ASSY,SP,ELEC:(SEE A7A1W140 REPL)
.STRAIN RLF,CA:PVC BLANK
.STRAIN RLF,CA:ACETAL,SLATE GRAY

P6452 STANDARD ACCESSORIES
012-0747-00
012-0989-00
020-0720-00
070-3615-00

LEAD SET,ELEC:10 WIDE,25 CML
LEAD SET,ELEC:GROUND OR VL SENSE LEAD
ACCESSORY KIT:PKG OF 12
SHEET, TECHNICAL: INSTRUCTION,01 0-6452-00

P6452 OPTIONAL ACCESSORIES
003-0709-00
012-0800-00
012-0968-00
012-0987-00
012-0989-01
012-1000-00
012-1 000-00

\,

'-

015-0330-00
015-0339-00
015-0339-02
103-0209-00

REV MAR 1984

B010100

B010184

EXTRACTOR,1C:16 PIN TEST CLIP
LEAD SET,ELEC:10 WIDE,9.843 L
LEAD SET,ELEC:12 WIDE,5.0 L
LEAD SET,ELEC:18 WIDE,5.0 L
LEAD SET,ELEC:GRND OR UL SENSE LEAD,4.0 L
LEAD SET,ELEC:12 WIDE,10.0 L
(DAS9109 ONLY)
LEAD SET,ELEC:12 WIDE,10.0 L
(DAS9129 ONLY)
ADPTR,TEST CLIP:16 DIP
ADPTR,TEST CLIP:40 DIP
ADPTR,TEST CLlP:40 DIP
ADAPTER,CONN:GRIB TO PROBE

12-33

Replaceable Mechanical Parts
DAS 9100 Series Service Vo!.11

Fig. &
Index
No.

Tektronix
Part No.

16-

P6455

-1
-2
-3

334-4176-00
334-4240-00
380-0682-00

1
2

-4
-5

211-0086-00
21 0-0406-00

4
4

-6
-7
-8
-9

200-2731-00
361-0758-01
343-1018-00

2

-10
-11
-12
-13
-14

343-1019-00

-15
-16

358-0660-00
210-0008-00

-17
-18
-19

343-1036-00
343-0979-00

Serial/Model No.
Eft
Dscont

Qty

1
3

1 2 3 4 5

Name & Description

PROBE, WORD GEN:P6455,TTL/MOS
(SEE A15 REPL)
.MARKER,IDENT:MKD TTL/MaS PATT GEN
.MARKER,IDENT:MKD VH VL
.HOUSING,PROBE:POLYCARB,SLATE GRAY
.·············(ATTACHING PARTS)'··········
.SCREW,MACHINE:4-40 X 0.75 100" DEG,FLH ST
.NUT,PLAIN,HEX.:4-40 X 0.188 INCH,BRS
.. ··········(END ATTACHING PARTS)······· ..
.COVER,HOLE:POLYCARB,GRAY
.SPACER,PROBE:ACETAL,SLATE GRAY
.STRAIN RLF,CA:l.89 L
.CKT BOARD ASSY:TTL/MOS PATTERN GEN
.(SEE A15Al REPL)
.. CONN,RCPT,ELEC:(SEE A15A1Jl02 REPL)
.. TERM SET,PIN:(SEE A15A1Jl00,200,300 REPL
.STRAIN RLF,CA:l.89 L
.SWITCH,SLlDE:(SEE A 15A1S2 REPL)
.SWITCH,PUSH:(SEE A15A1S1 REPL)
.·············(ATTACHING PARTS)···········
.BUSHING,SW MTNG:ALUMINUM
.wASHER,LOCK:INTL,O.l72 ID x 0.331 "OD,S
.···········(END ATTACHING PARTS)·· ..•• .. •
.CA ASYS,SP,ELEC:(SEE A15A1W120 REPL)
.STRAIN RLF,CA:PVC BLANK
.STRAIN RLF,CA:ACETAL,SLATE GRAY

Mfr
Code

Mfr Part Number

80009

P6455

80009
80009
80009

334-4176-00
334-4240-00
380-0682-00

83385
73743

ORD BY DESCR
12161-50

80009
80009
80009

200-2731-00
361-0758-01
343-1018-00

80009

343-1019-00

80009
78189

358-0660-00
1208-00-00-0541 C

80009
80009

343-1036cOO
343-0979-00

80009
80009
80009
80009
80009

012-0926-00
012-0989-00
012-0990-00
020-0720-00
070-3616-00

80009
80009
80009
80009
80009

012-0747-00
012-0989-01
012-0990-01
012-1000-00
012-100

P6455 STANDARD ACCESSORIES
012-0926-00
012-0989-00
012-0990-00
020-0720-00
070-3616-00

LEAD SET,ELEC:18 WIDE,8.25 L
LEAD SET,ELEC:GROUND OR VL SENSE LEAD
LEAD SET,ELEC:GROUND OR VL SENSE LEAD
ACCESSORY KIT:PKG OF 12
SH EET ,TECHNICAL: INSTR UCTION,Ol 0-6455-00

P6455 OPTIONAL ACCESSORIES
012-0747-00
012-0989-01
012-0990-01
012-1000-00
012-1001-00

12-34

LEAD
LEAD
LEAD
LEAD
LEAD

SET,ELEC:l0 WIDE,25 CML
SET,ELEC:GRND OR UL SENSE LEAD,4.0 L
SET,ELEC:GROUND OR VL SENSE LEAD 4.0
SET,ELEC:12 WIDE,10.0 L
SET,ELEC:20 WIDE,5.0 L

REV MAR 1984

Replaceable Mechanical Parts
CAS 9100 Series Service Vol.1I

Fig. &
Index
No.

Tektronix
Part No.

16-1
-2
-3

P6456
334-4241-00
334-4182-00
380-0682-00

2

-4
-5

211-0086-00
210-0406-00

4
4

-6
-7
-8
-9

200-2731-00
361-0758-01
343-1018-00

2

-10
-11
-12
-13
-14

343-1019-00

-15
-16

358-0660-00
210-0008-00

-17
-18
-19

343-1036-00
343-0979-00

Serial/Model No.
Eft
Dscont

Qty

1
3

1 2 3 4 5

Name & Description

PROBE,PAT GEN:P6456,ECL
.MARKER,IDENT:MKD VH VL
.MARKER,IDENT:MKD ECL
.HOUSING,PROBE:POLYCARB,SLATE GRAY
.•••• .. ·······(ATIACHING PARTS)"········ ..
.SCREW,MACHINE:4-40 X 0.75 100" DEG,FLH ST
.NUT,PLAIN,HEX.:4-40 X 0.188 INCH,BRS
: .. ········(END ATIACHING PARTS)"········
.COVER,HOLE:POLYCARB,GRAY
.SPACER,PROBE:ACETAL,SLATE GRAY
.STRAIN RLF,CA:l.89 L
.CKT BOARD ASSY:ECL PATIERN GEN PROBE
.(SEE A16Al REPL)
.. CONN,RCPT,ELEC:(SEE A16A1Jl02 REPL)
.. TERM SET,PIN:(SEE A16A1Jl00,200,300 REPL
.STRAIN RLF,CA:l.89 L
.SWITCH,SLlDE:(SEE A16A1S2 REPL)
.SWITCH,PUSH:(SEE A16A1Sl REPL)
.••• .. ········{ATIACHING PARTS)"·····..•••
.BUSHING,SW MTNG:ALUMINUM
WASHER,LOCK:INTL,O.l72 ID X 0.331 "OD,S
..... • ......{END ATIACHING PARTS)'· ....• ..
.CA ASSY,SP,ELEC:{SEE A16A1W147 REPL)
.STRAIN RLF,CA:PVC BLANK
.STRAIN RLF,CA:ACETAL,SLATE GRAY

Mfr
Code

Mfr Part Number

80009
80009
80009
80009

P6456
334-4241-00
334-4182-00
380-0682-00

83385
73743

ORD BY DESCR
12161-50

80009
80009
80009

200-2731-00
361-0758-01
343-1018-00

80009

343-1019-00

80009
78189

358-0660-00
1208-00-00-0541 C

80009
80009

343-1036-00
343-0979-00

80009

012-0926-00

80009
80009
80009
80009
80009

012-0989-00
012-0990-00
012-100
020-0720-00
070-3753-00

80009
80009
80009

012-0989-01
012-0990-00
012-1000-00

P6456 STANDARD ACCESSORIES
012-0926-00

012-0989-00
012-0990-00
012-1001-00
020-0720-00
070-3753-00

LEAD SET,ELEC:18 WIDE,8.25 L
.CKT BOARD ASSY:PATI GEN LEAD SET
.(SEE A16A1Al REPL)
LEAD SET,ELEC:GROUND OR VL SENSE LEAD
LEAD SET,ELEC:GROUND OR VL SENSE LEAD
LEAD SET,ELEC:20 WIDE,5.0 L
ACCESSORY KIT:PKG OF 12
SH EET, TECHNICAL: INSTRUCTION, 01 0-6456-00

P6456 OPTIONAL ACCESSORIES
012-0989-01
012-0990-00
012-1000-00

REV MAR 1984

LEAD SET,ELEC:GRND OR UL SENSE LEAD,4.0 L
LEAD SET,ELEC:GROUND OR VL SENSE LEAD
LEAD SET,ELEC:12 WIDE,10.0 L

12-35

Replaceable Mechanical Parts
DAS 9100 Series Service Vol.Il

Fig. &
Index
No.

Tektronix
Part No.

Serial/Model No.
Eft
Dscont

Mfr
Qty

-22

P6454
175-4790-00
334-4244-00
119-1475-00
426-1794-00

-23
-24

211-0317-00
21 0-0504-00

3
3

-25
-26
-27
-28
-29

131-2695-00
386-4566-00
426-1795-00
195-2234-00
195-3659-00

2
1
1
2

16-20
-21

1 2 3 4 5

Name & Description

Code

Mfr Part Number

PROBE,DATA ACQ:P6454,100MHZ CLOCK
.CABLE ASSY,RF:50 OHM COAX,10.5 L
.MARKER,IDENT:MKD P6454
.HYBRID CKT ASSY:
.. FR SECT,PROBE:LOWER

80009
80009
80009
80009
80009

P6454
175-4790-00
334-4244-00
119-1475-00
426-1794-00

80009
73743

211-0317-00
3004-402

71468
80009
80009
80009
80009

031-9569-000
386-4566-00
426-1795-00
195-2234-00
195-3659-00

80009

070-3837-00

80009
80009

195-1943-06
195-2234-06

.... "'*********(ATTACHING PARTS)*·* ....... ••• ..

.. SCREW,MACHINE:0-80 X 0.12,PNH
.. NUT,PLAIN,HEX.:0-8 X 0.156INCH,BRS
...·········(END ATTACHING PARTS)·········
.. CONTACT,ELEC:MICROMINATURE CONN
.. PLATE,GROUND:
.. FR SECT,PROBE:UPPER
.LEAD,ELECTRICAL:30 AWG,1.75 L,O-N
.LEAD,ELECTRICAL:23 AWG,1.5 L,O-N

P6454 STANDARD ACCESSORIES
070-3837-00

SHEET TECHNICAL:INSTRUCTION

P6454 OPTIONAL ACCESSORIES
195-1943-06
195-2234-06

12-36

LEAD,ELECTRICAL:30 AWG,2.0 L,4-N,PKG OF 10
LEAD,ELECTRICAL:30 AWG,1.75L,0-N,PKG OF 10

REV MAR 1984

»

(")
(")

Fig. &
Index
No.

m

Tektronix
Part No.

Serial/Model No.
Eft
Dscont

Qty

1 2 3 4 5

Name & Description

Mfr
Code

en
en

0

:0

Mfr Part Number

m

en

OPTIONS
DAS
DAS
DAS
DAS
DAS

9129
9129
9129
9129
9129

01
02
03
04
05

TAPE DRIVE FOR DC100 TYPE CARTRIDGES
RS-232, GPIB AND HARD COPY INTERFACE
ADDITIONAL POWER SUPPLY
TWO ADDITIONAL POWER SUPPLIES
RACKMOUNT HARDWARE (655-1524-00)

STANDARD ACCESSORIES

-1

P6452
012-1000-00
012-1000-00

B010100

PROBE, DATA ACQ:P6452,8-CHANNEL
LEAD SET,ELEC:12 WIDE,10.0 L
(DAS9109 ONLY)
LEAD SET,ELEC:12 WIDE,10.0 L
(DAS9129 ONLY)
MANUAL SET,TECH:OPERATORS
.MANUAL,TECH:OPERATOR, DAS 9100 SERIES
.MANUAL,TECH:REFERENCE,DAS 9100 SERIES
.MANUAL,TECH:PROGRAMMING GUIDE, DAS 9100
.MANUAL,TECH:OPERATORS ADDENDUM,41A04
MANUAL,TECH:SERVICE,W!OPTIONS VOL. 2
CABLE ASSY,PWR,:3,16 AWG,125V,90.0 L
(STANDARD ONLY)
CABLE ASSY,PWR:3,0.75MM SQ,220V,96.0 L
(OPTION A1 EUROPEAN ONLY)
CABLE ASSY,PWR:3,0.75MM SQ,240V,96.0 L
(OPTION A2 UNITED KINGDOM ONLY)
CABLE ASSY,PWR:3,0.75MM,240V,96.0L
(OPTION A3 AUSTRALIAN ONLY)
CABLE ASSY,PWR:3,18 AWG,240V,96.0 L
(OPTION A4 NORTH AMERICAN ONLY)

B010184

80009
80009

P6452
012-1000-00

80009

012-1000-00

80009
80009
80009
80009
80009
80009
16428

062-5847-02
070-3624-01
070-3694-01
070-3781-01
070-4254-00
070-3836-01
CH-8686

S3109

OBD

S3109

OBD

S3109

1600

T1105

OBD

-2

062-5847 -03
070-3624-01
070-3694-01
070-3781-01
070-4254-00
070-3836-01
161-0118-00

-3

161-0066-09

-4

161-0066-10

-5

161-0066-11

-6

161-0066-12

--7

161-0154-00

CABLE ASSY,PWR:3,0.75MM SQ,240V,6A,2.5M L
(OPTION A5-SWITZERLAND ONLY)

OOOJA

A25SW

-8

214-3154-00

EXTRACTOR,CKT B:

80009

214-3154-00

80009
80009
80009
80009
80009
80009
74868
02660
04919
80009
80009
80009
80009
80009
80009
80009
80009
80009
80009
80009
80009
53387
80009

P6452
P6453
P6454
P6455
P6456
012-0074-00
AC30111102 REVC
OBD
OBD
012-0820-00
016-0463-00
020-0707-00
070-3836-01
070-3625-01
062-5848-00
062-5848-01
070-3204-00
067 -0980-00
175-7322-00
195-0995-00
067 -1037-00
DC-100A BOX OF 5
175-2753-00

~

OPTIONAL ACCESSORIES
P6452
P6453
P6454
P6455
P6456
012-0074-00
012-0630-01
012-0630-02
012-0815-00
012-0820-00
016-0463-00
020-0707-00
070-3836-01
070-3625-01
062-5848-00
062-5848-01
070-3204-00
067 -0980-00
175-7322-00
195-0995-00
067-1037-00
119-1350-01
175-2753-00

B010100
B020550
B020550

B020549

2

PROBE,DATA ACQ:P6452,8-CHANNEL
PROBE,DATA ACQ:P6453,300MHZ
PROBE,DATA ACQ:P6454,100MHZ CLOCK
PROBE,WORD GEN:P6455,TTL/MOS
PROBE, PAT GEN:P6456,ECL
CABLE ASSY,RF:75 OHM COAX,42.0 L
CABLE,INTCON:2 METERS LONG
CABLE,INTCON:4.0 M
CABLE,INTCON:2.0 METERS
CABLE,INTCON:60.0 L
HDW KIT,ELEK EQ:
COMPONENT KIT:POWER SUPPLY MODULE
MANUAL,TECH:SERVICE,w!OPTIONS VOL.2
MANUAL,TECH:SERVICE,W!OPTIONS VOL.1
MANUAL SET,TECH:SERVICE
MANUAL SET,TECH:SERVICE
MANUAL,TECH:SERVICE
FIXTURE,CAL:DAS SERVICE
.CABLE ASSY,RF:50 OHM COAX,10.0 L
.LEAD,ELECTRICAL:26 AWG,12.0 L,9-4
FIXTURE,CAL:SET-UP & HOLD
CARTRIDGE,TAPE:BOX OF 5
CABLE ASSY:75 OHM COAX,120.0 L

REV DEC 1983

DAS 9100 SERIES



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