200237I_Wangco_Mod_10_Operation_and_Maintenance_Dec73 200237I Wangco Mod 10 Operation And Maintenance Dec73
200237I_Wangco_Mod_10_Operation_and_Maintenance_Dec73 200237I_Wangco_Mod_10_Operation_and_Maintenance_Dec73
User Manual: 200237I_Wangco_Mod_10_Operation_and_Maintenance_Dec73
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MOD 10
MAGNETIC TAPE TRANSPORT
OPERATION & MAINTENANCE MANUAL
200237
December 1973
WANGCO Incorporated
5404 Jandy Place
Los Angeles, California
90066
PREFACE
This manual has been prepared to permit separation of the first three
sections, which then form an operator's manual. Material for these
sections has been scaled to the requirements and training of computer
and off-line system operators.
Sections N and following are addressed to the engineer responsible
for setting up and maintaining this equipment on site. Material
covered includes:
•
Installation of the tape system in system cabinets
•
Checkout procedures and requirements
•
Interconnection of the tape and data system s
•
Principles of design and operation
•
Module replacement and adjustment.
iii
MOD 10
REVISION LEVEL
REV. LETTER
DESCRIPTION
DATE
A
Original publication
5/70
B
To reflect basic product
re-design
9/70
C
Update all sections with
particular emphasis on
Section VI and Appendix B
10/71
D
Update all Sections
2/72
E
Changed pages - Title Page,
iV, IV-3, IV-9, VI-30,
VI-3l, VI-34, VI-39, VI-44,
VI-47, VI-50, VI-58, VI-59,
VI-60, VI-6l, updated
drawings to latest revision
6/72
F
Changed pages - Title Page,
vii, 11-7, IV-2, A-3.
Add pages - II-10, II-II,
11-12, IV-6A.
Updated
Appendix B drawings to
latest revisions.
10/72
G
Changed Title Page,
revised pages: 11-3, 11-6,
11-8, IV-2, IV-9, V-IS and
VI-32.
Updated drawings to
latest revisions.
1/73
iv
APPROVAL
REVISION LEVEL
I
LETTER
REV.
H
I
DESCRIPTION
Changed pages - Title page;
v through xi
Revised pages - I-I, 1-3, 11-1
through 11-9,111-1 through 111-4"
IV-l through IV-IS, VI-40, VI-42
DATE
I
6/73
I
I
Appendix B: revised list of
drawings: updated drawings to
latest revisions.
Deleted pages - 1-6, 1-7
I
Changed pgs: 1-4, VI-6l, Updated
Appendixes A & B
v
12i73
APPROVAL
TABLE OF CONTENTS
SECTION I.
GENERAL DESCRIPTION .
1.
2.
3.
SECTION II.
D",....'r\,.....~=
Y..L. .t"''-'fr"J'\"""o
.&.
•
•
I-I
•
•
•
•
•
•
•
T
1
..1.-.J...
•
Description
I-I
SYSTEM OPERATION
SECTION III. OPERATION MAINTENANCE FUNCTIONS
SECTION IV.
• 111-1
INSTALLATION AND INITIAL CHECKOUT •
1.
2.
3.
4.
4.1
4.2
4.2.1
4.2.2
4.2.2.1
4.3
4.4
4.4.1
4.4.2
4.4.3
4.4.4
4.4.5
4.4.6
4.4.7
4.5
4.5.1
4.5.2
4,,5 .. 3
4.5.4
4.5.5
4.5.6
4.6
4.7
4.7.1
4.7.2
4.7.3
4.7.4
4.7.5
IV-l
Unpacking and Inspection
• • • • IV-l
Initial Checkout Procedures • • • • •
IV-3
Rack Mounting the Transport . • • • •
IV-4
IV-6
Interface Requirements • • • • • • •
IV-6
Cabling • • • • • • • • • • • • •
Dai sy Chaining • • • • • • •
IV-7
Daisy Chaining Cable Configuration
without a Unit Select Switch • • • •
IV-8
Daisy Chaining with Unit Select Switch IV-8
T Cables • • • • . • • • • • • • • •
IV-8
Input Requirements
. ••
• • IV-II
Input Control Functions •
IV-12
Select • • • •
• • • • • • • • • IV-12
Uni t Select . •
IV-12
Forward/Reverse . • • •
• • • • • IV-13
Run/Stop . • • • • •
•• •
. IV-13
Rewind • • • • • • • •
• • • • • IV-13
Density Select
• • • • ••
• IV-13
Off-Line • • •
• • • • • • • • IV-13
Input Data Functions . • •
• IV-IS
Write Data • • • • • • • • • • • • • IV-IS
Write Data Strobe.
• IV-IS
TU_l ~
Write Reset ..
Read Permit • • •
• IV-16
IV-16
Write Permit . • • • • • • • • •
Low Read Threshold Select •
• IV-16
IV-16
Output Requirements • • •
IV-I?
Output Control Functions
Ready Status • • • • • •
• IV-17
• • IV-17
On-Line Status . • • • •
• • IV-17
Rewinding Status
EOT Status
· IV-17
BOT Status • • •
• IV-17
• • •
v
0
•
•
.,.v
-'--'
A
Page
4.7.6
4.7. 7
4.7.S
4.S
4.S.l
4.S.2
4.S.3
4.S.4
SECTION V.
· · ·
·
·
· ··
· ···
· · · · · · · · · ·
IV-IS
IV-IS
IV-IS
IV-IS
IV-IS
IV-IS
IV-IS
IV-IS
V-I
1.
2.
V-I
V-3
4.2
4.3
4.4
4.5
4.6
4.7
4.S
5.
5.1
5.2
6.
Power Supply • • • • • • • • • • •
Capstan Drive and Servo System
Reel Servo System . • • • • • •
Control Electronics . • • • • • • •
Bring-to-Ready Sequence & System
Interlock • • • • • • • • •
Brake Logic • • • • • • •
Reset and On-Line Logic •
Motion Logic Forward and Reverse
Rewind and Unload Logic •
Write Enable Logic • • • •
File Protect Logic • • • • • •
Ready Logic
• • • • • • •
Data Electronics
• . •
Data Electronics, Dual Gap Systems
Data Electronics, Single Gap Systems
Key to Logic Symbols
• • •
MAINTENANCE ON SITE • • • • • •
1.
1.1
1.2
1.3
1.4
2.
3.
4.
5.
6.
6.1
6.2
A
···
···
· ··
· ··
PRINCIPLES OF OPERATION
3.
4.
4.1
SECTION VI.
··
·
· ··· ·
.···· ·
·
· · ··· ·
Write Enable Status
Hi/Low Density Status
SEeed Status
Output Data Functions
Read Data
Read Strobe Pulse
NRZI Status
7-Track Status
V-7
V-lO
V-12A
V-13
V-IS
V-17
V-17
V-20
V-20
V-2S
V-34
V-43
VI-l
···
. . . · · · · · ·· ·· ·· ·· ··
· ··· ·· ·
Power Supply Maintenance
Checking Unregulated Power Supply
Circuit Breaker Reset
Fuses
Transformer Taps
Opening of Power Supply Assembly
Transport Module Replacement
Data Electronics Module Replacement
OCP Switch ReElacement
Arm Sense Lamp and Cell Replacement
Lamp Replacement
Cell Replacement
· ..
·
·
·
·
· ·
·····
·
·
·
·
·
·
· · · · · · · · ·
··
vi
v-s
·
VI-4
VI-4
VI-4
VI-4
VI-4
VI-6
VI-6
VI-9
VI-9
VI-12
VI-12
VT-12
Page
7•
7.1
7.2
8.
8.1
8.2
8.3
9.
9.1
9.2
9.3
10.
11.
12.
12.1
12.2
12.3
13.
14.
14.1
14.2
15.
15.1
15.2
15.3
16.
Head As sembly Replacement •
Replacing the Photosense Unit •
Cleaning the Tape Cleaner
Deck Overlay Removal • • •
Removal of Fixed Reel • • • •
Removai of Fixed Guide Post Assemblies • • •
Removal of Overlay • • • • • • • • • • •
Capstan and Capstan Motor Replacement ..
Capstan Only. • • • • • • •
Capstan Drive As sembly • • •
Calculating Capstan Speed Error • • • •
Reel Motor Replacement
•••••••••
Guide Roller Bearing Replacement •
Tape Tracking Alignment • • • • •
Forward Tape Tracking • • • • • • • • • •
Reverse Tape Tracking • • • • • • • • • •
Checking Tape Tracking..
• • • •
Regulated Power Supply Adjustments.
Arm Sense Module Adjustments
Fixed Reel Adjustments • • • •
File Reel Adjustments. • • • • • •
Transport Module Adjustments
EaT/BOT Photo sense Adjustment
Capstan Servo Adjustment • • • •
Reel Servo Adjustments • • • • • • • •
Data Electronics« Dual Gap Systems
Adjustments.. • .. .. .. .. ..
Adjustment Sequence • • • • • • • • • • •
Phase Splitter Quiescent Level • • • • • • •
Read Amplifier Gain • • • • • • •
0
16.1
16.2
1603
1~
-
..
•
•
•
•
16.7
16.8
17.
17.1
17.2
17.3
17.4
17.5
18.
VI-IS
VI-16
VI-16
VI-I6
VI-16
VI-19
VI-19
VI-19
VI-19
VI-20
VI-20
VI-22
VI-22
VI-25
VI-28
VI-29
VI-3~
VI-3~
VI-3~
VI-31
VI-31
VI-31
VI-33
VI-35
VI-35
VI-36
VI-37
VI-38
A
.Lv • •
16.5
16.6
VI-13
VI-13
Read Strobe Delay • • • • • • •
Read Stack Azimuth Measurement
and Correction
Write Stack Deskew
Verification--Staircase Measurement
Data Electronics« Single Gap Systems
Adiustments • • •
• • •
Adjustment Sequence • • • • • • • • •
Read Amplifier Gain. • • • • • • • • • • •
Read Strobe Delay • • • • • •
• • • •
Head Stack Azimuth Measurement
and Correction • • • • • • • • • • • •
Verification--Staircase Measurement • • • •
Trouble shooting
••••••••••••
......
......
APPENDIX A
Recommended Spare Parts List
APPENDIX B
Schematic and Assembly Drawings
ix
• • • • • • • • • • •
VI-39
VI-41
VI-43
VI-46
VI-47
VI-47
VI-48
VI-50
VI-51
VI-53
VI-55
A-I
LIST OF FIGURES
1.
2.
3.
4.
5.
6.
7.
B.
9.
10.
11.
llA.
lIB.
llC.
12.
13.
14.
15.
16.
17.
lB.
19.
19A.
20.
21.
22.
23.
24.
25.
26.
27.
2B.
29.
30.
Mod 10 Tape System - Fr ant View • • • • • • • . • •
File Reel Mounting Hold-Down Knob in Locked (top)
and Unlocked (Bottom) Positions • • • • • • • • • •
Tape Threading Path for 25 IPS or Less System (Top)
and 37.5 and 45 IPS System (Bottom) • • • • • • • •
Operator's Control Panels. • • • ••
• ••
Cleaning the Read/Write Head Assembly.
• •••
Cleaning the Roller Guides • • • • • • • • • • • •
Tape Transport Unpacking/Repacking Procedure • • •
Tape System Rack Mounting
••••••••••
Tape Transport Installation • • • • • • •
• • •
Interface Cable Installation •• • • • •
• • •
Daisy Chaining without Unit Select Option • • • • •
Daisy Chaining· wi th Adapter • • • • • • •
• • •
Daisy Chaining with Drive and Cable Removed
•••
Daisy Chaining with Unit Select Option • • • •
Input/Output Termination Configuration
Mod 10 Power Supply • • • • • • • • • •
Capstan Drive and Servo System • • • • • • • • • •
Timing Diagram of Commands to Capstan Servo • •
Reel Servo System • • • • • • • • • •
• • •
Transport Control Electronics • • • • • •
• • •
System Interlock Diagram
• • •
Flow Diagram of Autoload Sequence
• • • • •
Simplified Diagram of Brake Logic • • • .
• • •
Simplified Logic of Motion Control (Forward
and Reverse)
•••••••.•••••••
Simplified Logic of Rewind and Unload Control •
Simplified Logic of Write Enable Control
•••
File Protect Logic • • • • . • • • • • • • • • • •
Simplified Logic of Ready Control • • • • . • . • •
Track Locations and Spacing, 7-Track System • • • •
Track Locations and Spacing, 9-Track System • • • •
7-Track File Gap Format • • • • • •
9-Track File Gap Format • • • . • • . • • • • • • •
Write Data Flow, Dual Gap Systems • • • • • • • • •
Write Data Flow Timing Diagram, Dual Gap Systems
x
1-5
1-6
11-2
11-6
111-2
111-4
IV-2
IV-4
IV-5
IV-6
IV-9
IV-9
IV-IO
IV-IO
IV-II
V-2
V-4
V-6
V-8
V-9
V-II
V-12
V-12B
V-14
V-16
V-IB
V-19
V-21
V-22
V-22
V-24
V-24
V-26
V-27
31.
32.
33.
34.
35.
36.
37.
3S.
39.
40.
41.
42.
43.
44.
45.
46.
47.
4S.
49.
50.
51.
52e
53.
54.
55.
56.
57.
5S.
59.
60.
61.
62.
63.
64.
65.
66.
67.
68.
69.
Write Power Gate and Write Register DC Reset,
Dual Gap Systems. • • • • • • • • • •
Read Data Flow, Dual Gap Systems. • • • • • • • •
Read Strobe Generation Circuitry, Dual Gap Systems. •
Timing Diagram of Read Data Flow and Strobe
Generation, Dual Gap Systems. • • • • • • • • •
Write Data Flow, Single Gap Systems. • • • • • • •
Write Data Flow Timing Diagram I Single Gap System s •
Write Power Gate and Write Register DC Reset,
Single Gap Systems • • • • • • • • : • • • • •
Read Data Flow, Single Gap Systems • • • • • • • •
Timing Diagram of Read Data Flow and Strobe
Generation, Single Gap Systems • • • •
Read Strobe Generation, Single Gap Systems •
Logic Symbol Example • • • • • • • • • •
Mod 10 Power Transformer Lead Identification • • • •
How to Open Power Supply • • •
• • •
Transport Circuit Module Removal • • • • • • • • •
Data Module Removal • • • • • • • • • • • •
Control Panel Switch Removal • • • •
•••
Head Assembly Removal • • • • • • • . • • •
Fixed Reel Removal • • • • • • • • •
Deck Overlay Removal • • • •
•••••• • •
Guide Bearing Replacement • • •
Tape Guide Diagram • • • •
File Reel Arm Guide Alignment
Tilt Adjustment - File Reel Arm Guide •
• • •
File Reel Fixed Guide Adjustment
•••••••••
Checking Tape Tracking, Desired Waveforms
•••
Stop Ramp Time. • • • • • • • • • • • • • • • •
Read Amplifier Gain Adjustment, Dual Gap Systems
Head Gate Adjustment, Dual Gap Systems • • • •
Head Gate Adjustment Wavefonns, Dual Gap Systems
Read Strobe Delay.Adjustment, Dual Gap Systems •
Head Stack Shimming, Dual Gap Systems
Triggering Method (Write Head Deskewing). • • • •
Staircase Waveform, Dual Gap Systems • • • • •
Read Amplifier Gain Adjustment, Single Gap Systems. •
Read Strobe Delay Adjustment, Single Gap Systems
Head Stack Shimming, Single Gap System s. • • • • •
Staircase Waveform I Single Gap Systems
MOD 10 Tape System - Rear View • • • • • • • • •
Front View with Overlay Removed • • • • •
xi
V-29
V-30
V-32
V-33
V-35
V-36
V-38
V-39
V-40
V-42
V-43
VI-5
VI-7
VI-S
VI-IO
VI-II
VI-I4
VI-I7
VI-IS
VI-21
VI-23
VI-24
VI-26
VI-27
VI-29
VI-33
VI-37
VI-40
VI-40
VI-41
VI-42
VI-44
VI-46A
VI-49
VI-50
VI-52
VI-54
VI-62
VI-63
LIST OF TABLES
1.
Mod 10 Specifications. • •
1-3
2.
Input/Output Pin Assignments
IV-14
3.
Logic Symbols • • • • • • •
4.
Maintenance Tools and Supplies •
5.
Suggested Schedule for Preventive
6.
Data Electronics Adjustment Points, Dual Gap Systems.
VI-38
7.
Data Electronics Adjustment Points
'VI-49
xii
V-45
VI-2
Ma~ntenance
I
Single Gap Systems
VI-3
SECTION I
GENERAL DESCRIPTION
This manual describes the operation and maintenance of the
WANGCO "Mod 10 digital magnetic tape transport system.
1.
PURPOSE
The system provides the equipment necessary to:
A.
Move half-inch magnetic tape across a _read-write head in
response to commands from remote equipment or to signals
generated from the operator s control panel located on L;'e'
transport;
I
B.
2.
Read or write data on magnetic tape and transfer this data
between the transport and the controller.
DESCRIPTION
The Mod 10 is shown in Figure
1 of this section.
In a computer or other data processing system, the magnetic tape
units are used to store very large amounts of data. Recovery of the
data without errors depends on proper installation and maintenance
of the tape units and the tape itself. The Mod 10 has been designed
to permit easy operation and simple maintenance; it also has ample
safeguards to protect the tape from damage during its use with the
tape unit.
In its standard versions, the Mod lOuses half-inch computer-grade
tape, on reels up to 10-1/2 inches in diameter. The file or supply
reel mounts on a hold-down knob that is the same size as the knobs
on IBM units. Data on the tape is written so that it may be read
1-1
by IBM systems; tapes written with IBM equipment may also be
read on 'the Mod 10. Seven or nine tracks of data are written on
the tape at densities of 200, 556, 800, or 1600 characters per
inch. In the Mod 10, two NRZI densities are provided in the
following combinations of the three standard formats: 200 and
556, 556 and 800, 200 and 800 for the seven-track format, and
800 for the nine-track format. When data is written on tape at
a density of 1600 characters per inch, it is phase encoded and
only the single density is provided in the system.
Tape speeds that are standard to the Mod 10 are 10! 12.5 f
18.75,25,37.5 and 45 inches per second. With all the combinations of tape speed and data densities considered, data may
be transferred into or out of the tape system at rates from 2000
to 72,000 characters per second.
During normal operation of the tape unit with the data system, tape
motion and the reading or writing of data are controlled by the
system. When the tape system is not under computer control
(i. e., when it is off line), tape motion can be controlled by the
operator through pushbuttons on the front of the machine. Indicator
lights are also provided to show the conditions under which the
equipment is operating. Complete details about these functions
a nd indica tions are provided in Section II.
When the system is operating, the speed and direction of the tape
are determined by the capstan. As it turns, the capstan pulls the
tape past the head assembly so that it may be either written or
read. For the tape system to operate efficiently, the tape must be
started and brought up to speed as quickly as possible. The weight
of the tape on the reels prevents the reels from starting as rapidly
as the capstan, so a small length of tape is held by buffer arms
near the supply and takeup reels. When the capstan starts quickly,
the buffer arms are either pulled in or released by the tape motion.
Changes in the position of these arms result in the supply and takeup
reels either feeding tape to the capstan or taking up the slack created
by the capstan motion.
Reflective markers at either end of the tape prevent it from being
pulled completely from either the supply or takeup reels except
when the operator wants to change the reel. A sensing post near
the read/write head assembly illuminates the tape and issues a stop
signal when the marker reflects the light into a photocell. Markers
for the beginning and end of the tape are on opposite sides providing
to the computer or data system an indication of which end of the tape
has been reached.
I
I
1-2
To provide the greatest assurance that data on the tape will be read
correctly I the tape is cleaned just before it gets to the head assembly.
The tape cleaner has small holes into which loose dirt or oxide is deposited as the tape is drawn across the cleaner. For best system operation, the dirt must be removed from the cleaner periodically, as
described in Section III for t!'1e important operator maintenance functions
of head assembly and tape guide cleaning.
SPECIFICATIONS
Transport specifications are listed in Table 1.
Table 1. 1-1od 10 Specifications
Data Density:
9-track--800 cpi, 1600 cpi
7-track--800/556, 556/200,800;200 cpi
Tape Velocity:
10 , 12.5 I 18. 75 t 25 , 37.5 I 45 ips
Rewind Speed:
150 ips Nominal
Total Speed Variation:
:!:. 4% maximum
Start/Stop Distance:
start distance
stop distance
Start/Stop Time:
37.5 + 2.5 millisec at 10 ips
30.0 ±. 2.0 millisec at 12.5 ips
20.0 + 1.3 millisec at 18.75 ips
~15-, 0 ±. 1.0 millisec at 25 ips
10.0 + 0.7 millisec at 37 . 5 ips
8.3 0 .6 millisec at 45 ips
=
=
.17 + .02 in.
.19 + .02 in •.
±:
Head:
dual gap or single gap
Number of Track s:
7 IBM -compatible
9 ANSI-compatible
Recording Mode:
NRZI
1-3
- IBM and ANSI-compatible
Table 1. Mod 10 Specifications, cont'd.
Static Skew I WRITE:
electronic skew compensation
supplied on dual gap units
Static Skew I READ FORWARD:
100 micro- inches, maximum
Dynamic Skew:
75 micro-inches, maximum
Tape Specifications:
computer grade, 0.5" wide, 1.5 mil
thick Mylar base
Reel Size:
up to 10. 5-inch diameter, IBM hub
compatible
Tape Tension:
8.0 + 0.5 oz.
Electronics:
silicon solid state and 930 series
DTL logic
Tape Unit Interface:
Weight:
100 lbs.
Height:
24"
Width:
19"
Depth:
1111 (from mounting surface)
Power:
110-125 VAC ± 10 %,
2.3 amps/220-250VAC
1.2 amps, 48-60Hz
±.
10 %,
Operating Environment
Temperature:
Relati ve Humidity:
20 - 80 %, non-condensing
Non-Operating Environment
Temperature:
- 30 0 to 140 0 F .
Relative Humidity:
15 - 95 %, non-condensing
Altitude:
o - 20,000 feet
I - 4
(A) Tape System for Speeds of 25 IPS or Les s
(B) Tape System for Speeds of 37 • 5 and 45 IPS
Figure 1. Mod 10 Tape System - Front View
1-5
SECTION II
SYSTEM OPERATION
Operation of the Mod 10 tape system requires only a few
simple procedures.
These include tape loading and unloading, manual rewind, power failure recovery, and possible
other special operations required by the data processing
system using the tape equipment.
POWER ON the tape unit by setting the power switch located
on the power supply chassis to the ON position. Depress the
POWER pushbutton switch located on the operator's control
panel.. At this point, power will be available to all
assemblies and the power indicator will illuminate.
TAPE LOADING is made particularly easy by the toggle-action holddown knob (Figure 2) designed for the Mod 10. Positive indication
is provided by the knob for installation of the reel and for the locked
condition. To prepare the knob for installation of the reel, depress
the toggle at the end marked PRESS. It will remain in that position.
Place the tape reel on the knob, with the write enable ring, or the
slot provided for it, toward the tape unit. This will automatically
position the end of the tape on the reel for proper threading. After
pressing the reel firmly against the knob, using the fingertips against
the REEL HUB ONLY, press the extended end of the toggle tab until it
is flush with the face of the hold -down knob. The snap action of the
knob will be distinctly felt, and the knob is then firmly locked. It is
not necessary to hold the reel against the knob when the knob is being
locked. Care should also be taken to avoid pressing the reel flanges
against the tape pack when loading the tape or locking the knob ~
Pressure of the flange against the tape edges causes two types of
damage: oxide is dislodged from the film causing potential read
errors; deformity of the edge of the tape results in misalignment of
the tape as it passes the head, with an increased possibility of errors.
I
To thread tape on 10, 12.5, 18.75 or 25 ips Mod 10 systems (Figure 3),
follow this procedure:
II - 1
Figure 2.
File Reel Mounting Hold -Down Knob in
Locked (Top) and Unlocked (Bottom) Positions
II - 2
DECK MOUNTING GUIDE
HEAD GUIDE
HEAD COVER SLOT
I~~DODODOI
BUFFER ARM
GUIDES
Figure 3.
HEAD
COVER
DECK MOUNTING GUIDE
HEAD GUIDE
HEAD COVER SLOT
Tape Threading Path for 25 IPS or Less System (Top)
and 37.5 and 45 IPS System (Bottom)
11-3
1.
Lead the end of the tape over the buffer arm guide
and down through the slot guide in the head assembly
cover. The passage of the tape through the slot causes
the small shield over the head assembly to move away
from the head. The tape then tracks properly over the
read/write heads and other elements in the head assembly.
2.
At the capstan end of the head cover slot, lead the tape
around the capstan and over the top of the other buffer
guide.
3.
Pas s the tape over the top of the fixed takeup reel.
4.
Press the end of the tape against the hub through one
of the openings in the reel flange.
5.
Holding the tape against the hub, turn the reel until the
end of the tape is overlapped and secured by the next
tape layer.
6.
By hand, v!ind three full turns of tape onto the takeup reel.
7.
To complete the loading operation, firmly press the LOAD
pushbutton on the operator s control panel (Figure 4).
Both buffer arms will move to their normal operating
positions and the capstan will pull the tape forward
until the beginning-of-tape (BOT) marker reaches the
photosense assembly. Control of the tape system will
then be turned over to the data system tape controller
automatically, and the ON-LINE indicator and LOAD indicator will light up. No operator action is needed to put
the tape system on line.
I
8.
If the on-line mode is not desired, the tape unit may be
taken off line, for control from the operator's control panel,
by pressing the RESET pushbutton.
To thread tape on 37.5 ips or 45 ips Mod 10 systems (Figure 3), follow
the previously described procedure for 25 ips units, except that the tape
must be led across both rollers of each buffer arm guide assembly.
II-4
At the conclusion of a tape system operation with the computer or at
other times when it is necessary the tape will be rewound onto the
supply reeL Normally the computer or data system "NiH issue a rewind command without operator participation. Other conditions will
sometimes require the operator to re\AJind the tape by pressing the
REWIND pushbutton on the operator control panel. This will result
in high-speed reverse operation. When the beginning-of-tape marker
reache s the photosense unit the rewind will be ended and the tape
unit will advance the tape until the reflective marker is at the photosense head.
I
I
j
I
I
TO UNLOAD THE TAPE, push the REWIND pushbutton again. The tape
will be pulled through the tape path and returned to the supply reel.
The tape reel may then be removed from the machine by pressing the
knob toggle to the unlocked position. Again care should be taken to
avoid damage caused by pressing the reel flanges against the sides
of the tape.
I
To POWER OFF the unit, depress the POWER switch on the
operator's control panel.
In the event of power failure while the system is on line the buffer
arms will extend and tension on the tape will be relaxed preventing
any possible tape damage. When power has been restored tape system
operations may be resumed by first taking up the tape slack and then
pressing the LOAD pushbutton. When the buffer arms have returned to
their operating positions, pres s the RESET pushbutton to stop tape
motion. Then press the REWIND or ON-LINE pushbutton, depending
on the requirements of the system with which the Mod 10 is operating.
I
I
I
In the following list, the other operator control functions and indicators
(Figure 4) are described, with a review of those already mentioned:
11-5
~II
II
-
POWER
I
LOAD
I
il
I
LOAD
I
l II
I
POWER
II
LOAD
II
ION LINE I
ION LlNEI
ION LINE
I
I
IIREWIND
REWIND
I
Fl. E £
uPRdfECTI
d
DREVERSEI
rORWARDI
I RESET
I
REWIND
I
I
II,.PROTEC.
FILE-ri
DENSITY
IFORWARDII
I,
FI LE
I
I
I
I
RESET
I
(B) Density Option
I SELECT
UNIT II
:J
(C) Unit Select Option
Figure 4. Operator's Control Panels
II-6
ill!
II RESET I
FORWARj
'"
(A) Standard
I
:
I
IIPROTECT
--
..,
l
POWER
This is a combination pushbutton switch and
indicator. The indicator is on when regulated
power has been supplied to the Mod 10. For the
convenience of the maintenance or customer
engineer a power switch is provided on the
power supply chassis at the rear of the machine.
It is acces sible only when the tape unit is swung
open for service.
I
LOAD
After threading the tape, press this combination
pushbutton switch and indicator to complete the
tape loading operationo Tape is automatically
advanced to the load point or beginning-of-tape
marker, and then the tape system goes on line.
LOAD and ON LINE will be lit when the action is
completed. The LOAD light will go out when the
tape is advanced from the load point or rewound ..
The LOAD light will be lit any time that the tape
is positioned at the load point. After this sequence
of operations is completed the switch becomes
functionally disabled and can only be re-enabled
by loss of tape tension.
I
ON LINE
This is a combination pushbutton switch and
indicator. As previously mentioned, it is lit when
the system is under control of the computer or
data system. If the system is off line and if control is to be turned over to the com~uter I press
the ON-LINE pushbutton. The system will be
...""+ ....."",,,,A +" +..... ,..
.LeI.ULUeU
I.U
..,LIe
rYI:'L'_TT~TL'
V~-~ -.u~~'4l..1
............ A'" ..:.& 4-1-.",
lUUUt;;
~L
Ult;;
.... ~7 .... 4- ............
~y~l.t:all
..:_4- ...... __ _
LUI.t;;l-
locks are lost, an OFF-LINE controller command is
sensed or the RESET pushbutton is depressed.
I
FILE
PROTECT
This is an indicator that is lIt when. a write enable
ring is not installed on the file reel. When a supply
reel is put on the machine with the write enable ring
in place in the slot at the back of the reel, the FILE
PROTECT light will be off. This indicates that data
may be written on the tape. With the ring not
in place, protective circuits in the tape system prevent data from being written on the tape.
REWIND
Pressing this pushbutton switch will result in rewind
of the tape at high speed. The operator can stop this
reverse motion by pressing the RESET pushbutton. If
II - 7
REWIND
(cont'd. )
RESET is not pressed, the tape will go beyond
the beginning-of-tape marker, stop, and then
automatically return to the load point. If the
REWIND pushbutton is then again pressed, the
tape will be drawn out of the tape path and the
unload sequence will be completed. If the tape
system is under computer control, the REWIND
pushbutton is disabled. This safety feature prevents accidental tape damage.
FORWARD
This is a combination pushbutton switch and
indicator. The pushbutton will function only
when the rmchine is off line. If the ON-LINE
indicator is on, pressing the FORWARD pushbutton will have no effect. If the ON-LINE
indicator is off and the FORWARD pushbutton is
pressed, the indicator will light up and the tape
unit will move tape in the forward direction at
the normal tape speed. To stop the machine,
when it is running in this mode, press the RESET
pushbutton.
REVERSE
If the ON-LINE indicator is on, the REVERSE
pushbutton is disabled. If the tape unit is off
line, pressing this combination pushbutton switch
and indicator will light the light and move the
tape in reverse at the normal tape speed. To
stop the machine when it is running in this mode,
press the RESET pushbutton.
RESET
This switch is used only on NRZI units. All tape
motion, except UNLOAD, will stop when the RESET
pushbutton is pressed. Pressing RESET clears all
read, write and control functions. It also removes
the tape unit from on-line operation with the computer
or data system and turns off the ON-LINE indicator.
UNIT SELECT
This switch is optional on NRZI units.
When this switch is used, the REVERSE
switch is not installed. This is a
4-position switch used to make the transport assignment in a daisy chain configuration. A particular drive in the
II - 8
da1sy chain is automat1caLLy selected 1L
the switch identification number corresponds to the controller select line Wh1Ch
has been conditioned TRUE.
See Figure 4(C).
DENSITY
SELECT
This alternate action switch is optional
for NRZI units. When it is used, the
REVERSE switch is not installed.. When
depressed to select High Density, it
conditions the data electronics to operate
at the high data transfer rate and also
causes the indicator to light. When the
switch is again depressed, the lower data
rate capability is selected and the light
is extinguished.
See Figure 4(B).
II-9
Care and Handling of Digital Magnetic Tape.
Satisfactory performance of any digital magnetic tape
system depends very heavily on the use of good magnetic tape and upon proper handling of the tape by
computer operators.
Most data reliability problems
begin with improper or careless handling of magnetic
tape during the loading of the tape on the tape system or in removing the tape.
Reliable performance of
magnetic tape systems can be, to a great extent,
assured by observing a few simple rules and adopting
proper procedures in the handling of tape.
Whenever magnetic tape is handled it should be borne
in mind that the Mylar or polyester base on which the
magnetic coating is applied is only 1 or 1.5 thousandths of an inch thick.
The magnetic coating is only
a fraction of that thickness.
Several things happen
when tape is improperly handled.
One of the most
serious types of damage is that in which the tape is
bent, stretched, or otherwise physically deformed so
that part of the magnetic coating is dislodged. This
results in two possibilities for data errors.
In the
first case, the area from which the magnetic coating
has been removed will no longer accept data when i t
is written in the area, and of course data cannot be
recovered from that area.
The second potential data
error results from the redepositing of the loo~e oxide
at some other location where it can cause the tape to
be lifted from the head as the tape passes over the
head.
This again results in improper writing or reading
of the data.
Because of the fragility of the tape, it is important
that it be handled as little as possible when putting
the tape on the tape drive or removing it. At no
time should the tape be handled in any area other than
that ahead of the beginning-of-tape (BOT) marker.
Should it be necessary, because of power failure or
some other malfunction, to handle the tape at~any
other point in its length, extreme care should be
exercised to be sure that the edges are not deformed
in any way and that no dirt, lint, or other potential
contaminants be deposited on the oxide surface or back
of the tape.
Particles of dust or other material create
potential errors in the same way that oxide dislodged
11-10
from the surface does, by lifting the tape away from
the read and write heads.
When handling the tape in any area, including the
length used in threading or loading it on the tape
drive, the tape should not be permitted to touch the
floor or other surfaces where dust or dirt may be
transferred to it. Only that length of tape actually
required to thread the tape drive should be removed
from the reel in the process of threading. Any extra
length of tape that dangles or drops from the machine
in the threading process will be likely to pick up
dust or other contaminants. Care should be taken to
prevent grease from the fingers from being transferred
to the tape, and foods should not be brought into the
area where computer tapes are used.
When handling the reel upon which the tape is wound,
the flanges of the reel should never be pressed against
the tape wound on the reel. This is one of the most
common sources of damage to tape. When the reel flanges
are pressed against the tape, the tape edges protruding
from the tape pack will be bent, curled and deformed
so that oxide is dislodged and proper guiding of the
tape is prevented. To handle the reel properly, it
should be grasped with both hands at the outer edges
so that any pressure required to hold the reel is
directed toward the center opening. When mounting the
reel on the hold-down knob of the tape drive, proper
seating of the reel can be accomplished by pressing
with the fingertips against the area within half an
inch of the reel opening. There is a solid ring at
this point: no tape is wound in the area and no tape
damage to the tape can result. It is extremely important that the reel not be pressed on the tape drive
in any way other than that described. If the flexible
part of the reel flange is pressed to seat the reel
properly, damage to the tape will result.
In removing the tape from the tape handler, these same
precautions should be observed. After unlocking the
hold-down knob, the tape reel should again be grasped
at the outer edges and extreme caution must be used
to prevent the reel flange being brought forward to
the edge of the tape pack. The tape handler does not
II-II
discriminate between damage to the front edge or rear
edge of the tape.
Damage to either edge of the tape
results in the same eventual data unreliability.
Cannisters used for storing the tape should always be
handled carefully, with no abrupt motions or hard
impacts.
After the tape reel is removed from the
cannister to load it on the tape drive, the tape
cannister should immediately be closed and locked so
that dust will not be introduced into the cannister
while the tape is on the drive.
Broken: chipped, or
cracked cannisters should be discarded immediately.
The cost of a cannister is small compared to the value
of the data on a reel of magnetic tape.
When tape has been in use for a long time and data
errors begin to occur frequently, it is possible to
have the tape cleaned and recertified for additional
use.
If recertification does not restore the tape to
a satisfactory level of reliability, it should be discarded.
Most modern digital magnetic tape, if properly handled, will give long and reliable service.
It
will not last idefinitely, however, and a regular
program of tape recertification will help to establish
which tapes must be discarded to prevent costly errors
and data processing system down-time.
When tape is not in use, it should be stored in cannisters under temperature and humidity conditions prescribed by the tape manufacturer.
Tape should never
be stored or placed near electric motors, transformers,
or any other device that may be expected to generate
heavy magnetic fields.
II-12
SECTION III
OPERATOR MAINTENANCE FUNCTIONS
Proper and regular maintenance of the Mod 10 tape handler will assure
operation at the high levels of data and mechanical reliability that
have been designed into the system. Particularly important are the
operator maintenance functions that are intended to keep the system
free of dirt and contaminants. At the high densities of data on tapes
written or read with the Mod 10, extremely small particles of dust or
oxide from the tape are capable of causing data errors. Careful
attention to the cleaning procedures described in this section will
assure the greatest possibility of trouble-free operation.
TRANSPORT AND HEAD CLEANING should be perfonned after every eight
hours of system use. Following are the steps to be carried out:
1.
Remove tape from the tape unit, as described in Section II.
2.
Remove the head covers by pulling both pieces,
one at a time, directly away from the front of
the machine. The covers will corne off with a
gentle, steady pull.
3.
Moisten a soft, lint-free cloth or Q-tip applicator
with isopropyl alcohol. After the head surfaces,
including the surface of the erase head, have been
carefully swabbed, they should be dried with a
separate clean and lint-free cloth. See Figure 5.
III - 1
Figure 5.
Cleaning the Read/Write Head Assembly
III - 2
4.
Clean the face of the tape cleaner, following the
same procedure described in step 3.
5.
Clean the head guides and head guide blocks I shown
in Figure 5. The guide blocks are immediately in
back of the guides. Dry all parts with a clean, lintfree cloth.
6.
Clean the roller guides (Figure 6), rotating them to
be sure all surfaces are cleaned. Dry with a clean
lint-free cloth.
7.
I
If it has been removed, replace head cover by aligning
the holes in the cover with the mounting pins on the
transport and pressing firmly into place.
CAPSTAN CLEANING should be performed after every eight hours of use
following this procedure:
1.
Moisten a cloth with water.
2.
Rotate the capstan slowly with one hand, without touching
the rubber surface.
3.
At the same time clean the surface of the capstan with
the moistened cloth. Make a visual inspection of the
capstan surface for abrasion or polish; if defects are
4.
Dry the capstan with a separate
I
clean and lint-free
cloth.
Additional cleaning requirements are carried out at longer intervals.
Every four months the entire surface of the tape unit should be
cleaned, making sure that accumulations of dust around the holddown knobs and in the head area are removed. Head covers should be
removed and cleaned on the inside and outside I making sure that all
deposits of dust and other possible tape contaminants are removed.
Any periodic maintenance functions beyond those described here are
suggested for perfonnance by customer engineers. Details of these
additional procedures are described in Section VI.
III - 3
I
Figure 6.
Cleaning the Roller Guides
III - 4
SECTION N
INSTALlATION AND INITIAL CHECKOlJT
This section provides installation instructions for the Mod 10 magnetic
tape system. Information on unpacking the system and on the procedure
for electrically connecting and checking out the system is included.
1.
UNPACKING AND INSPECTION
Inspect the shipping conta.iner for evidence of in-transit damage.
Contact the carrier and manufacturer if damage is evident. Specify
nature and extent of damage.
Open shipping container and remove contents.
(See Figure
7, page IV-2.) Check items removed from shipping list to
verify container contents. Contact a company representatiVe in the event of a packing shortage.
Remove protective padding and covering from the tape system. Verify
that the serial number of the unit corresponds to that shown on the
shipping invoice.
Visually inspect the exterior of the enclosure for evidence of physical
damage that may have OCCUlTed in transit.
Check major component assemblies to determine if any assemblies or
screws have been loosened. Tighten any loose screws or mounting
hardware. Inspect input/output connectors.
IV - 1
~·~:.....:.--~SHIPPING
FRAME
T-OOIOI
@
~~---CORNER BlOCKS
~
4REO'o (TOP)
T- OO!03
-w:'"'t--~<--i~~~~:
(BOTTOM)
T-OOI02
®
UNPACKING PROCEDURE:
SAVE'. ALL PARTS FOR FUTURE USE.
1.
2.
3.
4.
5.
OPEN SHIPPING BOX & REMOVE 4 CORNER BLOCKS.
REMOVE TOP BASE FROM BOX.
REMOVE TAPE TRANSPORT FROM BOX.
REmVE STF.APPING & PROTECTIVE PADDING FROM TAPE TRANSPORT.
REMOVE SHIPPI~G FRAME.
DO NOT REMOVE BOTTOM BASE OR
COR...~ER
BLOCKS FROM BOTTOM OF' BOX.
REPACKING PROCEDURE:
1.
ASSEMBLY SHIPPING FRAME TO TAPE TRANSPORT USING SCREWS PREVIOUSLY
2.
3.
4.
5.
SECURE STRAPPING & PADDING AROUND TAPE TRANSPORT.
PLACE TAPE TRANSPORT IN SHIPPING BOX.
PLACE TOP BASE IN BOX.
PLACE 4 CORNER BLOCKS & RESEAL SHIPPING BOX.
JU;MOVED.
Figure 7.
Tape Transport Unpacking/Repacking Procedure
IV-2
2.
INITIAL CHECKOUT PROCEDURES
To check the proper operation of the transport before placing it in the
system I follow the specified procedure.
1.
For applications not employing 115 VAC line power
verify that the appropriate primary power transformer
wiring is correct. This can be accomplished by
swinging out the power supply chassis and checking
the v~iring against the voltage decal mounted on the
deck of the transport. See Figure 43.
2•
Turn the transport power on by setting the power
switch located on the power supply chassis to the
ON position and pressing the POWER pushbutton
switch located on the operator's control panel. At
this point the POWER indicator should light up.
3.
Load tape on the transport as described in Section II.
4.
Press the LOAD pushbutton to initiate the load sequence.
The tape will move fOIWard until it reaches the BOT
tab. The ON-LINE indicator should light when the
BOT reaches the photosensor. At this point, there
will be no action when the LOAD pushbutton is
pressed. To remove the system from the on-line
mode press the RESET pushbutton. The system is
now in the off -line mode.
I
I
5.
With the transport off line (ON LINE indicator not
illuminated) press the FORWARD pushbutton. Run
several feet of tape onto the takeup reel and press the
RESET pushbutton to stop the tape. Be sure that when
the transport is on line, the action of the FORWARD
pushbutton is inoperative.
I
6.
Press the REVERSE pushbutton. Tape will move backward
until the BOT tab reaches the photosensor. Be sure that
the action of the control is inoperative when the transport
is on line.
7•
U sing the FORWARD pushbutton run several feet of tape
onto the takeup reel. Press the REWIND pushbutton to
initiate the rewind mode. The tape will rewind pa st
the BOT tab, return to the BOT tab, and stop with the
LOAD indicator lit. If the REWIND pushbutton is now
pressed, the tape will rewind until tape tension is lost.
This action is used to unload tape. The reel can be
removed as outlined in Section II.
I
IV-3
3.
RACK MOUNTING THE TRANSPORT
The transport may be mounted in a standard 19-inch RETMA or Universal
rack with a minimum panel space of 24 inches. A depth of 11 inches
minimum is required behind the rack mounting surface. The procedure
for mounting (see Figures 8 & 9) is as follows:
1•
Remove safety blocks from below hinges then
lift transport off shipping frame.
2~
Remove hinge-half off shipping frame and install
same on rack in desired position.
3•
Hang transport on rack and lock in the closed
position by tightening catch screw in front of
the deck.
4.
Replace safety blocks •
..-rr~
./
(
•
I~ I:
I:
I'
,'~:
J:
~
Itt'. .2.
11.312
01~r.~~
r - - - - - - - i T - - + - t . -:-- -
t
~
_31 gll.OO MAX.
.Oll;r
:'~!-1'
I I ,~...
I
~
24_00
o
I
I
t
Figure 8.
t
Tape System Rack Mounting
IV-4
MAKE NECESSARY ADJUSTMENTS WITH THESE SCREWS
I
I
\
NO. 1/4 FLAT WASHER (REDUCED O. D.) BONDED TO THIS HALF OF HINGE
- - SAFETY BLOCK
i
INSTALL
AFTER DECK IS MOUNTED
15.750
\
Figure 9.
Tape Transport Installation
IV-5
4.
INTERFACE REQUIREMENTS
4. 1
CABLING
The interface cables shall be twisted pairs with returns grounded.
Wire shall be #24 or #26 AWG conductor with minimum insulation
thickness. Cable twist shall be approvimately 30 twists per foot.
Maximum cable length shall be 20 feet. The ground side of each
pair shall terminate within a few inches of the line receiver or
transmitter ground. Connectors shall-be Transitron 600-061-l8-SL
or equivaient. Cables should be wired and strain relieved as sho\vn
on Figure 10.
CONTROL
DATA
DATA
Figure 10.
Interface Cable Installation
IV-6
4.2
DAISY CHAINING (Units using 200632 Control Board and
201142 Data Board)
Up to four units can be daisy chained on the same bus s without
any modification to any of the tape units tied in the daisy chain
configuration. When the Unit Select option is installed, it is
feasible to add or delete tape units from the buss and re-assign
ne',J'1 tape unit addresses.
The following features incorporated into the Mod 10
Transport allow daisy chaining to become a simple operation.
1.
Parallel Connectors
Parallel Connectors are provided for all interface
cables (Control, Write, and Read). The advantages
of such a system are as follows:
a)
It allows all interface signals including the
four select lines to enter and leave all the
tape units in the daisy chain.
b)
It eliminates the requirement of using "T"
cables. This facilitates daisy chaining since
a drive may be added or removed by simply
adding or removing a cable, thus· eliminating
the requirement of modifying a cable to add
is optimized since only the necessary cabling
is used.
2.
Floating Line Terminators
The line terminating resistors, rather than being
mounted on the individual tape units, are packaged
on a special terminator board assembly. This assembly
is pluggable on any unit thereby facilitating a change
to a different drive when a unit is added or removed
from the chain. Regardless of what unit the terminator board is mounted on, as long as any unit on the
line is energized, power will be supplied to it.
IV-7
4.2. 1
Daisy Chaining Cable Configuration Without a Unit Select Switch
The following method is recommended when daisy chaining without
the unit select option. (See Figure 11 .) With this method, the
select lines are rotated in the "tape unit to tape unit" cable.
Pin J of the tape unit will always be the active select line of the
tape unit. If a tape unit is physically removed from the daisy
chain, and a 1 to 1 adapter (Wang PiN 200749) is placed in place
of the tape unit, the address of the tape units will remain
unchanged. (In all following discussions, 1 to 1 implies a pin
for pin connection.) (See Figure IIA.) However, if the tape unit
and cable are removed, then the address of the tape units following the removed tape unit will all be reduced by one. (See
Figure 11 B.) In any case, the address of the tape unit is fixed
by its physical position if no adapter is used.
The Read cable and the Write cable do not require any Signal
rotation; and therefore are 1 to 1 cables ~
4.2.2
Daisy Chaining With Unit Select Switch
When daisy chaining with the unit select option, all the cables
(Control, Read, Write) are 1 to 1 cables. (See Figure l1C.) With
the unit select switch installed, the operator has the freedom to
give each of the four units in the daisy chain the logical address
desired, regardless of its physical position on the buss. However
the address for each drive must be unique. That is, each select
line should select a different drive.
4.2.2.1
T Cables
The parallel connectors on the tape drive do not exclude the use
of "T" cables. The connections would be identical to Figure II,
11 B when used without the unit select option. If the unit select
option is used the connection would be as shown in Figure 11C.
I
IV-8
!
Ij
()
L(
,~
C,
l.
ITU2
I
I
I
SEr{
TAPE
t-----+-----tJ ........~J
CONTROLLER
SEL I
10--0-----+--....... 8
8 .......- - - - - '
Ii" \'/
I
SiEL 2/
\
:
l
....
S\E L
3
9
9
JI6A
SEL 0
I
I
SEL I
I
SEL 2
I
SEL 3
I
r-
J
J
8
8
7
7
I ""IJI6A
1--'"""""1--;--
7
9
t--~--+-,."
9
JI6S
l"L
L ____ J
I
JI6A
L_
I
I
I
JI6S I
___ .J
I
:~
u~
J
(;:'
J
8
r-.:5 /'l
V""
I
I
~I
~II
7
9
I
,'W\
9
~ '.
'-- -JJ
I
I _____
JI6A
JI6S
L
- __--1
Daisy Chaining Without Unit Select Option
I""-
9
7
I
I
I
-,
-
Iri'u3 -~E~
.;)
TAPE UNIT TO
T"APE UNIT CONTROL CABLE
CONTROLLER TO TAPE
UNIT CASLE
Figure 11.
1----1
I JI6A
I
I
8
t---~--J
JI6S
--,
-
SEL
J
7 t----t 1 t - - - - - - - '
L ____ J
TAPE
CONTROLLER
\
il
-.,
ITtTo -;E~
Io--o-....-...-~/----
--"'''"ft
\
-9
I
I
I
I
I
I
JI6S1
L ____ J
Figure IIA.
r-----l
-- -----,
rTU2
SEL
I
I
I
t
I
I
Ir-
r--
/i
/I
fiI .....
I
-
I
I
I
I
L .!'D~~~.J
r-
p--
fi
J
J
8
8
~I
7
/C
I
J
7
-- -9
JI6A
9
JI6S
I
I
I
I
J
8
7
I
t
I
L ____ 1
Dai sy Chaining With Adapter
-,
-,
a::
0
I
~
f~~p __~~.!l b~ ch_a~~ed at the time
of the 'vAlri te data strobe. (,tICi) 'l'his will change the direction ofthe---curre"nE--fhrough the write head and establish
a flux reversal (ONE) on the tape.
When FALSE, the ._
state of the fl~p- flop ~tlillnotbe ,?hanged at the time
of the writ~-'-d~t~"-~t~~b-~:-"'-ThI-s'-';ili"r~~su1t in no change
in the dlr'ectroo~orwrite head current, hence no flux
reversal (ZERO) will be on tape.
These data lines must
be.J!~J_q._ ~~_t~.~.d:y through the time interval from O. S usee.
before t() O. 5psecafterthe write data strobe. A mini-
!
------f
:.n~~~,.2~:f-:~n~. ,. ~9a~~,iIW~~li~_s'~: 1?i:~,5!i.iii,:tQ£:~=i~~-~-~~_tL~.
cJl-.;:
4.S.2
,i}
f
:::,t::..T
Write Data Strobe
A 2 llsec Eulse on this line causes a change in the state
of any }~~:gZI~._~ri te register cell for which the corresponding write data line is TRUE.
One pulse is required for
each ch~'a:cter to be recorded.
The recording densi ty is
determineg. _:Qy. the tape speecl and the frequency of the
pulses.
The frequency will be stable within 0.25 percent.
..L~.'
r~
4.S.3
Write Reset
2 ~sec pulse on this line resets the . NB-~_!._~!,i~e".£~g!ster.
This pulse is used to write the longitudinal parity ch,eck
(LPC) ~ha,~.~~:ter at the end of e~_g.h,·.RJ_q~c~c>.t.j;;1~~, creattl1~J, __.a.n.ev_e~_..~El!1?e~. of._~.f;t._~..~.,F,,~ver.sals (0f}e I s) in each
track of the
blocke
_""r.'__
,.
A
H·'~";\ ••
, .•"
.. w ....
In a ~en::-_tr_a"cksystem, this pulse occurs four character times after the last write data strobe of every block
of data.
In a nine-track system, this pulse occurs_~,:bg]l"f;:._ chqracter times after the last write data strobe of every
block of data.
IV-IS
A
4.5.4
Read Permit
The read permi t line is used to enable all the read
circuitry.
When this line goes FALSE, the strobe
generator is disabled and the read register is DC
reset.
This line can be tied permanently TRUE.
4.5.5
Write Permit
When a write enable ring is on the file reel and write
permit is TRUE, the tape transport is placed in the
wri te mode.
4.5.6
Low Read Threshold Select
A TRUE level on this line selects a low threshold level
(12 percent) for the read signals, allowing for the
detection of marginal areas of tape.
A FALSE level on
this line selects the normal read signal threshold leva
(25 percent).
This line is active only in the read mode
on dual gap machines since the threshold level in the
write mode is fixed at 45 percent~
4.6
OUTPUT REQUIREMENTS
Output requirements, output current levels, and a list
of output control and data functions are displayed
below.
Output Requirements
FALSE (Logic 0)
User terminates line
as shown in Figure 12 (A)
TRUE (Logic 1)
0.0 to +0.5V
Output Current Level
A
FALSE level
Open collector
TRUE level
40 milliamp max sink
IV-16
Output Functions
I
I
II
I
Output Control Status Lines
Output Data Lines
Ready Status
(1 line)
Read Data
Rewinding Status
(1 line)
Read Strobe
(1 line)
EDT Status
(1 line)
*NRZI Status
(1 line)
BOI' Status
(1 line)
*7 Track Status
(1 line)
Write Enable Status
(1 line)
(7 or 9 lines)
Hi/Lo Density Status (1 line)
Speed Status
(1 line)
*On daisy chain data board assembly 201142 only.
The following on-line output signals (sections 4.7 and
4.8) provide the data functions when the unit is ready
and selected.
The control status functions are activated when on-line and selected.
(Refer to Table 2
for pin connections.)
4.7
OUTPUT CONTROL FUNCTIONS
4.7.1
Ready Status
This line is TRUE when the transport interlocks are
made and the unit is on-line.
4.7. 2
On-Line Status
When TRUE, this line indicates that the on-line flipflop is set and the transport is under remote control.
4.7.3
Rewinding Status
When TRUE, this line indicates that the tape transport
is rewinding. The rewinding function is completed
when the tape stops at the Load Point.
4.7.4
EOI' Status
When TRUE, this line indicates that the tape transport
is sensing the EOI' r.eflective marker.
4.7.5
BOI' Status
When TRUE, this line indicates that the tape transport
is sensing the BOI' reflective marker.
IV-17
A
4.7.6
Write Enable Status
A TRUE level on this line indicates that a write
enable ring has been installed on the supply reel.
4.7.7
Hi/Low Densi ty
Status
When this line is TRUE, the transport has been set for
low-density operation, and the read circuitry has been
conditioned accordingly.
This line is used only for
seven-channel systems.
4.7.8
Speed Status
When this line is TRUE, it indicates to the system that
the selected tape unit operates at the lower one of
two tape speeds.
This line is utilized when two or more
drives of different tape speeds are used in a daisy
chain system.
4.8
OUTPUT DATA FUNCTIONS
4.8.1
Read Data
One for each bit in a character.
The data is in the form
of. pt;l,lse.a~,~Q~.C.llxrJng, ,$JIllyJja~tng9g~~,.lY an2rcoi'i1~c'[de-nE"~i-th-~-~-t.h~_Re9:.,£iJ~tt.fQ:e.~.~J2~~1,~e.
The pJ:..g§.,~,pceof a, pul_s,~ indicates
a.J)NE and the absence of a puls~ inCliq,§..:t~§;,~_.a,_ZERO. These
~~~~.,~s ha 1_1 .. ~b~~,~, ..J?~:~~~_,~± ~".~~..
4.8.2
Read Strobe Pulse
'r]le Read Strobe line shall provide a pulse of 2 I-lse~., for
each data character read from tape.
c oi n~:Lg~J11. ~_~.tJJ).__ ~.:t:J~~,~ da tCi _pul s e s •
4.8.3
This
Ey:ls~e
shall be
NRZI Status'
This line is TRUE whenever the tape unit is Selected and
On-Line, and indicates to the controller that the selected tape unit is a NRZI drive as opposed to a PE (Phase
Encode) drive.
This line is available only on the daisy
chain data board assembly 201142.
4.8.4
7 Track Status
When this line is TRUE, it indicates to the controller
that the selected tape unit has a 7 track head.
This
line is available only on the daisy chain data board
assembly 201142.
A
IV-18
SECTION V
PRINCIPLES OF OPERATION
For best understanding of the principles of operation of the Mod 10
tape system, the major suPassemblies are described separately.
The functional separation of system operations relates conveniently
to the actual physical packaging of the subassemblies. Following
are the major subassemblies, in the sequence in which their operation
is explained:
1.
1.
Power supply
2.
Capstan drive and selVO system
3.
Reef drive and servo systems
4.
Conlrol electronics
5.
Data electronics
POWER SUPPLY
A single assembly supplies power to the entire system, handling the
needs of the capstan and reel drive systems, the data electronics and
the option electronics. As shown in Figure 13, AC power to the system
is controlled by a double-pole I single-throw switch on the power supply
chassis and by a Single-pole I single-throw pushbutton switch on the
operator1s control panel. The switch on the power supply chassis must
be switched on to use the operator- s control panel switch to control
power. A three-wire cord is used with the ground line connected directly
to the power supply chassis. A circuit breaker is provided in the hot
s ide of the primary. power line.
V-I
TO
SERVOS
IQPERATOR-cONTRoL'
I PANEL POWER SWITCHI
I
I
___ ..J
I
I
L
FI
5A
·t-19V
+
+12 V
ADJ.
30,000 J,lF
25V
330A
3W
GND
+ 30,000
jJF
25V
.. TO SERVOS
<
-19V
N
DPST
SWITCH
~
LINE
VOLTAGE
F2
lOA
F3
lOA
.. TO SERVOS
CIRCUIT
BREAKER
+5V
ADJ.
(I)
~
0-...-:--0-""'\
I
I
I
+
13V
~~~------------~.-o-~
3l50J\.
3W
+
100,000 J.lF
20V
GND
330.1'1.
3W
+
100,000 j.JF
20V
-13V
F5
lOA
••
--------~-----.-~__----_<>_-->--~~-o
FROM
SERVO
POWER
rAMP
R
..
)>---1- 0= ~
I
~.10-
I
TID
-
~
T
>
1I,
SERVO
I
MOTOR..!.. J-IS P-18 -
I ASSEMBLY
I POWER SUPPLY
200498
II +12vUNREG.
-
9
'----Qo5
10
SIO
C
KI
-
-FIL-E -REE-L
-L-ONG-~O-Ol~-SEN-SI~-I
Ne
~~
3'>I----~
5,.....-----4~
SI2 NC
"'--___
Co- 0
R~
0
FIXED RE~:L
LONG LOOIP
SENSE
FIXED REEL
SHORT LOOP
SENSE
I.
~----~--------oIC6
......
......
-
START RETRACT.
_--a. 3
I
<:
-
1
SI3 NC
C~
_ _
FIILE REEL
SHORT LO()P
SENSE
6 .....- - - - - - - - - - - - - -
I
I
I
I
I
I
I
I
I
~
I
I
L __ J.!!,....._4____....I..---- ____L _ _ _ _ _ _ _ _ _ ,_ _ _ _ _ ._ _ J
4
PI9
LcOf3
r-·
@-I--
_NC_£
:~4
~,
--8
--,
e
START- I
RETRACT
I
~
MOTOR
I
I ~~~~~~f~MOTOR
I
L _ 200!!.! _ _ _ _ J
Pier -READY TRANSPORT READY
,_L_O_A_D____
P.._B;..;...- - - - - - - I
gf;tU~T
2
~
•-
-
-
-
I ASSEMBLY,
LR_ANS_POR_T
Figure 18. System Interlock Diagram
--l PI~I
OCP
[J~LOAD
D
-
I
E_LECT~,...J
P. B.
~l
"':'"
NO
NO EFFECT -"'--oil.
I
L _M.!.N~!:.- _ . ,
ACTIVATE
F""""'..........
NO
TENSION
ARMS
YES
RESET
FORWARD
MOTION
I
YES
READY
RELAY
SET FWD MOTION
AND ON LINE
RESET
ON LINE
FLIP-FLOP
STOP
MOTION
SET
REWIND
OFF LINE
START
READY
DELAY
NO
OFF LINE
a READY
ENTER
REWIND
LOAD POINT
CYCLE
NO
Figure 19. Flow Diagram of Auto Load Sequence
v-
12
In summary, reg.gy~§!glll.§Q:utput to the Jape c9Qtroller will not
be TRUE, unless there is no locally init~Cl.te9 fornard or reverse
m~ti;-rl;~ th~r~~"::t~;'~2_~I~~!~£l.tIJ.prQgre s~~~'~d ~~-Sh~n~q~J .r5~~~·dYJ
on-line statu~
4" 2
I
and s_~,le£!~.~..,.sta!~~._.?re ~?~~ TRU~.
BRAKE LOGIC (OPTIONAL)
Figure 19A diagrams the brake logic. \AyThen power is initially
turned on and if the retract position input is high (open), the
flip-flop is set, and the retract relay driver I] is held off. The
load cam driver I2 and the brake relay driver D are also held
off at this time if the input term Load P. B. is at ground. (Under
normal system operation this input is depressed). When the Load
P. B. input is High gate A is enabled and turns on 12' which initiates
a load cycle. Gate A also enables gate D which releases the brakes.
If the load operation is successful, the Ready (-) input will go High
and the power on flip-flop will be reset. If during the power on cycle
the retract position input is Low, the power on flip-flop is held reset.
When the power on flip-flop is in the reset state only the retract
relay driver I, is on. This allows normal loading and unloading
with the arms retracting automatically.
I
V-]2A
I
PWR
ON
SET
S
FF
+ 12v
LOAD P.S.
READY
(N.C.)--------I---.._~
LOAD CAM
(-) - - - - - {
BRAKE
RELAY
RETRACT POSITION - - - - - - - -
POWER ON F. F.
LOAD P. B. (N. C.)
LOAD CAM (READY RELAY) --------------~------_.
R~OL~~I..._._ _ _ _ _ _ _ __
I
~CLOSURE 14------------!~.I~
________________
BRAKE RELAY
~20MSI4_
READY (-)
1111111
I
i
RETRACT RELAY POWER
I ~I________
~Td~
TIMING SEQUENCE FOR BRAKE RELEASE
Figure 19A. Simplified Diagram of Brake Logic
V-12B
In summary, ready status output to the tape controller will not
be TRUE unless there is no locally initiated forward or reverse
motion, there is no rewind in progress, and mechanical ready
on-iine status, and selected status are all TRUE.
I
4.3
RESET AND ON-LINE LOGIC
\'Vhen on-line status is TRUE, all pushbutton s~Nitches at the
operator's control panel are disabled except RESET.
Pressing RESET at the control panel DC resets the terms Rewind,
Motion (Forward or Reverse) and On-Line to FALSE. Remote control of the transport can be restored after a RESET action by
pressing the ON-LINE pushbutton. The on-line command from the
operator's control panel is gated through two cross-coupled ORgates, and the transport is then ready to accept any remote command.
I
The transport can always be put in the off-line state by the remote
off-line command if the tape unit is selected.
4.4
MOTION LOGIC (FORWARD AND REVERSE)
A diagram of the logic governing forward and reverse motion is
given in Figure 20. Forward and reverse motion commands to the
seIVos are initiated locally from the operator's control panel
when the transport is in the off-line mode or from the remote controller when the transport is on-line.
The OCP-enable line must be TRUE (low) to initiate local motion.
from the operator's control panel. When the FORWARD pushbutton
is pressed, the motion latch is set (U20 7A, U2 0 7B, and U208 in
Figure 20), and the output of U207A will be TRUE (low). This output
is transmitted through NOR-gate U213B, which OR's the local and
remote forward commands and presents a forward (+) signal to the
capstan servo.
Local reverse motion is initiated by pressing the REVERSE pushbutton
on the operator's control panel. The reverse switch is interlocked
in such a way that a reverse command cannot be initiated simultaneously with a forward command. With the motion latch set by the
REVERSE pushbutton, the output of U207B will be TRUE (low). This
output is transmitted through NOR-gate U214, which OR's the local
and remote reverse commands and presents a reverse (+) signal to
the capstan servo.
v-
13
OCP
PANEL
RWD
SET FWD
REAllY 8 ON LINE
FeEMOTE FWD
OCP ENABLE
LI
~FWD(+)
FWD P. B.
B
TO SERVO
I
I
I
I
BOT + EOT
+REWIND
TO READY
LOGIC
I
I
I
<::
.....
~
I
~
0
I
RESET P. B.
+MECH
READY
REV P. B.
REV (+)
TO SERVO
BOT
READY 8 ON LINE
FtEMOTE REV
Figure 20. Simplified Logic of Motion Control (Forward and Reverse)
Local reverse or forward motion is terminated if a RESET ACTION is
taken if the transport is mechanically not ready, or if the terms
EOT BOT or Rewind are TRUE.
I
I
I
When the transport is in the on-line mode, the OCP-enable line will
be FALSE (high), thus disabling the FORWARD and REVERSE pushbutton
inputs to the motion latch. The NAND-gates labeled U209A and
U209B in Figure 20 are enabled by the terms Ready and On-Line, and
any subsequent forward or reverse motion commands from the remote
controller will be transmitted to the capstan servo control through
U213B or U214.
The NAND-gate labeled U209B has an additional term (NOT BOT) on
its input. This term prevents reversing off the BOT marker during
the on -line mode of opera tion .
4. 5
REWIND AND UNLOAD LOGIC
The rewind sequence is not internally different, whether it stems
from an action at the operator's control panel or from a remote command. A logic diagram of this function. is given in Figure 21.
The rewind sequence is mechanized with a series of three flip-flops,
U210A, U210B, and U211A. The flip-flop labeled U210A in the diagram is set initially either by the REWIND pushbutton through NANDgate U208, or by the remote rewind command through NAND-gate U209.
The NAND-gate labeled U212 decodes the outputs of flip-flops U210A
and U210B and presents ~ rewind (-) command to the capstan rewind
control through U214. When the capstan servo receives the rewind(-}
and reverse-for-rewind signals, the tape drive ramps to rewind speed
and runs until either BOT is reached or a RESET pushbutton action is
taken at the operator's control panel. If no RESET action 1s taken,
the leading edge of the BOT tab loads flip-flop U211A and the trailing
edge loads flip-flop U2108. With U210B set, the inputs to U212 are
no longer TRUE, and the rewind signals to the capstan servo are terminated. The capstan ramps to a stop I a set-forward pulse is generated,
and the tape drive begins searching forward for BOT. When BOT is
reached, the series of three flip-flops (U210A, U210B, and U211) is
reset and tape motion ceases.
At this point, two actions may be used to unload the tape. A RESET
action takes the transport off-line I and a subsequent REWIND action
causes tape to rewind until tape tension and mechanical interlocks
are lost. During the process of unloading, a regular rewind command
v-
15
Q
REWIND P. 13.
OFF
J
Q
J
U210
B
K RQ
U210
A
LINE
KR
":"
":"
BOT
REMOTE 8 REWIND
READY 8 ON LINE
Q
(RESET)
+
(MECH
NOT READY)
<
.....
0">
REWIND (-)
BOT
MOTION
NOT READY
ONLINE
(-) UNLOAD
BOT
READY OFF LINE
REWIND P.B.
Figure 21.
Simplified Logic of Rewind and Unload Control
(-) REWIND
REV
FOR
REWIND
is distinguished from a rewind-to-unload command by the gating together at U215B of the terms Off-Line and Ready r BOT and Rewind.
Under these conditions the easy unload latch comprising U20S and
U214, is set, and an unload (-) signal is sent to the fixed reel servo.
The fixed reel servo is biased to a position very close to the stop,
and the shortened stroke of the servo arms when tape tension is los t
prevents accidental damage to the tape as it unloads. The unload
latch is reset only by the term Not Mechanically Ready; thus I once
an unload is initiated, it must complete its cycle. (Note: If a
second BOT t?b is sensed during an unload cycle, the tape drive
will attempt a"~earch for load point cycle, and will in most cases loop-out, causing the ready relay to drop out.)
I
I
4.6
I
WRITE ENABLE LOGIC
Figure 22 diagrams the write enable logic which comprises a flip-flop
(U211) and a positive pulse generator (U219A and U219B). The flipflop is set when the write enable line from the controller is TRUE (high),
enabling the J input of U211, and when either a forward or reverse
motion command is initiated. The T input positive pulse is generated
by U219A and U219B. The pulse is generated when motion goes TRUE
(high). The output of U219A goes to ground after a time delay set by
R264 and C217 0 This negative transition initiates a positive pulse
at the output of U219B. The trailing edge of this pulse causes the
flip-flop to change states. The pulse width is determined by R265,
R266, and C2IB. When the write enable flip-flop is set, the transport is conditioned to write.
The write enable flip-flop is reset when the write enable line from the
controller is FALSE (i.e., when the K input of U211 goes high after
inversion by U201), and when either a forward or reverse motion command is initiated.
4. 7
FILE PROTECT LOGIC
The file protect logic is mechanized such that there will be a minimum
of scraping of the write enable ring during the initial loading cycle of
the transport.
The mechanization is shown in Figure 23. When a reel of tape is initially loaded, the file protect switch is closed, and the logic latches
the write enable solenoid, thus retracting the solenoid pin to prevent
scraping of the write enable ring.
v-
17
WRITE ENABLE
(+)
----41,. . .---------.I I
J
U211
T
"X:l~--t-.... K
R
READY
+5V
R265
MOTION -----r-~
R264
I
R266
C217
-.
MOTION
I
U219A - - - -......,
I
I
T INPUT
--..ltd
,
I--
Figure 22. Simplified Logic of Write Enable Control
v-
18
Q
WRITE ENABLE
.. TO DATA
+
PROTECT
V _
O
S1rATUS
--- - U
FILE
~
T
.. WRITE:
POWER
GATE
~O:-----~l"-----.-E~
+12V
+5v
JJ
~K
+5V LLO
, - - - , - ------.~~-------
OCP
LOAD
PB
<
TRANSPORT
READY
•
Figure 23.
J7
7
File Protect Logic
When the LOAD pushbutton is pressed, the logic releases the solenoid.
This is done to sample if there truly is a write enable ring in place, and
that the solenoid was not accidentally energized. When the loading
cycle is completed, the transport ready signal is the holding signal.
4. 8
READY LOGIC
The ready logic, diagrammed in Figure 24, provides three basic ready
signals:
a)
Select & Ready (+) from U20S, which conditions the
data electronics to accept and transmit information
to the controller.
b)
Ready & On Line from U201, which is transmitted to
the controller via an output driver. This line informs
the controller that the transport is ready and not rewinding, and "therefore able to accept any command
from the controller.
c)
Ready "& Off Line from U208. This is an internal ready
signal that enables the operator control panel so that
any motion command generated by the operator control
panel will be accepted by the transport.
The ready signal is generated by the following logic equation:
READY
=
(DELAYED MOTION)
·
(REWIND)· (RESET + MECH. READY
+ RESET
REWIND)
and is mechanized by U21S. If all the inputs to U215 are TRUE (high)
the output will be low. This low signal is inverted by U205A and gated
with the terms Select & On-Line by U212 to provide the Select & Ready
term. The low output of U215 is also inverted by U205B and gated with
the term Off-Line by U208 to provide the Ready & Off-Line term. U205A
and U201 are collector-GRid to provide the Ready & On-Line term.
5.
DATA ELECTRONICS
Data electronics described in this manual pertain to NRZI mode recording
only. Phase encoding requires additional special data electronics and
is described in a separate manual.
In the N.BZI mode of recording, a :: 11: is represented by a change of
direction of magnetization between'~po-sitive and negative saturation
levels, and a 01\ is represented by no change of magnetization. The
data electronics subsystem provides a format that is compatible with
the IBM 727-729, 7-track format, at data densities of 200, 556, and 800
cpi. The subsystem also provides compatibility with the IBM 2400 series
USASCII-compatible 9-track format at data densities of 800 cpi. Figures 25
and 26 present the 1- and 9-track location and space specifications.
II
I
v - 20
ON LINE
~---....- - - - - - - READY
III ON LINE
MOTION
<
SEt.EeT
SELECT
a ON LINE
a
REAC)Y (4)
REWIND
RESET
+
+ MECH
0------
READ\, _ _ _ _~
RESET REWI NO
OFF LrNE
Figure 24
It
Simplified Logic of Ready Control
REt\OY
a OFF
( OC P
LINE
E~NABl.E)
0.048 WRITE HEAD WIDTH
0 ..030 READ HEAD WIDTH
7 TRACK
0.498 1.002"
T
0.460"
T
T
0.390"
0.320"
T
f
0.250"
f
0.180"
1
R E.FF
F· ~F Fn
..
_R_N__
__GE
l'
!
0.112"
.J
I:
±
1
_II
C
B
A
8
4
2
I
i
u.04u
-'
DATA CHANNELS
WCP / IBM
DESIGNATIONS
TRACK LOCATIONS 2 - C: +0.0040"
-0.0035"
TRACK LOCATION
111111111111111111111111111
n11111111111 11111111111111
111111111111111111111111111
.....
, 111111111111111111111111111
111111111111111111111111111
111111111111111111111111111
111111111111111111111111111
J
0.002e"
Figure 25. Track Locations and Spacing, 7-Track System
0.044 WRITE HEAD WIDTH
0.040 READ HEAD WIDTH
9 TRACK
0.498
±
T
l
111111111111111111111111111 4
1111111111111111111111111116
0.469"
1111111111111""1111111111 0
0.414110.3S 9\1
T
1"
1111111111111111111111111111
----------+-111111111t1l11l11l11l11l1ll 2
0.304"
T
111111111111111111111111111 p
0.249"
---------+---111111111111111111111111 III 3
.002"
r
i
:>
t
--l~L---_--+-_IIIIIII"11I11I1II1I1I1I1I1 7
1 O.l~9..t"0.084"J,
~+-""I1I1I1I1"'11I111I11I1I 5
0.194"
•
I.
ALL
TRACK
REFERENCE
EDGE~
LOCATIONS
± 0.003"
DATA CHANNELS
WCP/IBM
DESIGNATIONS
Figure 2 G. Track Locations and Spacing, 9-Track System
v-
22
At the end of each data record, check characters must be recorded
and an inter-record gap inserted. Figures 27 and 28 present the 7-and
9-track IBM inter-record gap and tape mark formats. As indicated by
these figures, in the I-track format the iongitudinal redundancy check
character (LRCC) only is written, whereas in the 9-track format, both
a cyclic redundancy check character (CRCC) and an LRCC are written.
,
.)
V-
TheCRC. 9h9,J_C!gt~,r is supplied together with a sJJlgJ~"",..~!l~,g~!~___mphe_signal by the customer to the transport interface. It is separated by
four characte_r_s..Q~ces from the l~t gs's &haracter of the previous record. In the 9-track system, the LRC character is written four character
spaces after the CRCC character, whereas in the 7-track system, the
LRC character is written four character spaces after the last data
character of the previous record. The LRCc.Q.9.,t9_c.!~.r.,J;;~ wr,!tl~JL.Qy,
the cu stQme.r",tr.9..rl§.lJl~1ti,QSlIIJ:l!~ Y!IY..!'~._ ~.M.I)LIfIF;RJ_~~~§E~'t~$lgnal, (~e~?_c!!D.9_
e_ctg.el.,,_?!_~pe ,Qroper ~me. This ...s.i.ru19l.(~_sJ~._ts the :wr.itfLfl.Ul;:flops causing
the total nuUlber,pfJJl~gQe~!g;~J!9ntr~.I]§J~tQ.ns in,a.ny tragI< tQ .be an even
numbe.r"~
The In~.~r=r~90r=c1 G2E _(IRG) displacement is nominally 0.6 inch for
9-channel systems a~.z_§_J!'!~h _!Qt: 7-channel systems. The IRG is
established by the sum of the following component distances:
Stop Distance - Stop distance is the distance traveled by a
point on the tape from the time a stop command is issued
until the tape velocity is zero.
Stop Delay Distance - _Stop delay
di~tQnce
is the distance
travel~gJ~~_~t.RQJtllQ.D_Jh~!~ll~Lfrom t.het.inte_.1:he LRQC charaqter
is placed on .tapa"until,a ..~.tQP -GomJlland.,is.. 1s..s,ued. In dual gap
systems I if the read data is used to sense the e~..l.lbJLte..QQrd,
the stQ12 delay distance is the distanc_~ ~trav~~Jj..JrQIJl__tbJiLllnte the
L.R.CQ is s~n§..~.J:iJ._~'~hX~.ad_l;>1:1s until the stQ~ CQmmQng.j.$._J~stl.e.d.
The stop delay time is generated in the customer's controller.
Start Distance - This' is the distance traveled by a point on the
tape from the time a forward command is issued until the first
data character is placed on tape. The.W-ti1e Dgl~y t1IJle sU~.Q[9gJ:iate
to the_start diwnce.._1.s...ggngrated in the customer's controller.
A tape mark is used to separate files of infonnation recorded on tape.
The tape mark configuration for 7- and 9-track systems is shown 1n
Figures 27 and 28 respectively. Tape mark timing is established and
provided by the customer's controller. The command sequence for inserting a tape mark is as follows: ._a forward.command_.iA~s.s.u.ed, followed
v-
23
NOMINAL
IRG~
1-
t.~r4
.+' ~I·
0 .75 "
SPACES ~
CHARACTER
-I-
APPROX. 3.9"
.I
p C
I
I
I
I
tl
B
~
A
I
8
I
:5 4
I
1!
FIRST DATA
CHARACTER OF
NEXT FILE
J
LRCC
L
IRG
~
I--
0.6" -
LAST DATA CHARACTER
OF PREVIOUS FILE
L - -_ _
Figure 27.
NOMINAL
L
LRCC
TAPE MARK
4.
-1--------.. .
_1.\
7-Tr~ck
8 CHARACTER
_SPACES
I I
File Gap Fonnat
4 CHARACTER
'~.s ...
_e------ APPROX.
..
- ....
REFERENCE
EDGE
1
~SPACES
-I- 1 ~I
3.75" - - - - - -......- - - 1 - -......
\ I
I I
I I
I I
~I
I
1
\
I I
I I
I I
I I
31
71
I I
I I
I
f
L
LRCC
L
FIRST DATA
CHARACTER
NEXT FILE
NOTE:
TAPE
TAPE
MARK
f
LRCC
L
REFERENCE
EDGE
OF
VIEWED
FROM
MYLAR
Figure 28.
LAST DATA
CHARACTER OF
PREVIOUS FILE
SIDE.
9-Track File Gap Format
v-
24
CRCC
t
J
4
~
6
0
2
P
3
7
5
~
aJ
tl}~_prope~._ .!-!~£.y !.~e _~apemark character
~,tx:o~, which in turn is followed by the
together with its write
LRC chara9t~.r._,M,!.n~.n
fQUf charllcter sQac§..§ later in a 7 -track system and 8 character spaces
later in a 9-track system.
data
DATA ELECTRONICS
5.1.1
I
DUAL GAP SYSTEMS
Read-After-Write Head Assembly
A dual-gap read -after-write head is optionally available in either a
nine-channel or a seven-channel format. A full-width erase head is
located on the oxide side of the tape, positioned 0.34 inch from the write
stack head gaps. The write stack is center-tapped and it operates at
50 milliamps of current per leg. The voltage output of the read stack
is proportional to the speed of the tape; at 25 ips, it provides 18 to 20
millivolts peak to peak. The erase head operates at 50 milliamps.
Two auxiliary components are mounted adjacent to the read/write head
on a common base--the photocell and lamp assembly that detects beginning and end of tape, and the tape cleaner. The photosense assembly
is a self-contained unit that is directly cable-connected to the transport
electronics printed circuit board. The tape cleaner, whose operation
is entirely mechanical, is ideally positioned adjacent to the head so
that the cleaned tape passes directly to the read/write head, minimizing
the chance of contamination that might result in deterioration of data
reliability.
5.1.2
Write Data Flow
Figures 29 and 30 present a block diagram and timing diagram of the flow
of write data through the system. (Only one data line is shown~ The
components for the channel represented schematically in these diagrams
are, of course, duplicated for each of the other write data channels.)
Data enters through line receivers whose function is to invert the lowTRUE levels. Each receiver has a terminating impedance of 130 ohms.
A pulse on the write strobe line clocks information from the data lines
into the system. If a given data line is TRUE, the write strobe pulse
passes data on that line through the data strobe reset logic gates, which
consist of two NAND-gates, aRId together (see the block labeled A in
the figure). If a given data line is FALSE, the pulse is gated out.
At the block labeled B (Figure 29), electronic correction is made for the
static skew characteristics of the write head. The leading edge of the
gated data pulse triggers the write deskew single-shot, whose pulse width
v-
25
TERMINATION
+ 5V
DATA
LI NE
WRITE DESKEW
ADJ
DESKEW
ONE
SHOT
8
+5V
WRITE
REGISTER
WRITE
HEAD
DRIVER
C
WRITE
REGISTER
DC RESET
WRITE
STROBE
<
-.
N
(j)
+5V
WRITE
RESET
-.
Figure 29. Write Data Flow, Dual Gap Systems
+J2V
WRITE
POWER
---1 t-I I
o
CRCC
~~ ----U~-------'~~---
WRITE STROBE
,l-L
WRITE RESET
0.5 USEC MIN
:
--1
l: r
I
. t·
r---
I
DESKEW
DELAY TIME
l..
I
..J...----tl______J , l _
I,---,-_.~·r-----I........_ _
<
WRITE REGISTER
TP-I
r2USEC
'-------,.',---'-'1
-~----~,
I
SS
:
I: J
:
~
DESKEW
OUTPUT
I
0.5 USEC M I N :
+rl r--
WRITE [)ATA LINE
2 JJSEC
+5V--1
-~I
I
___
I
1--,
t
L__
-----'~-------------~
I
HEAD CURRENT
k~___~iF-~
Figure 30. Write Data Flow Timing Diagram, Dual Gap Systems
has been preset and is adjustable by means of a potentiometer.
The trailing edge of the pulse loads the write register, whose contents
are then converted into currents by the head drivers. The head drivers
operate the write heads, which put the data on tape.
At the end of each block of data, a write reset pulse enters the system.
In the nine-channel configuration, this pulse enters eight character
times after the last strobe of the data block; in the seven-channel
configuration, it enters four character times after the last strobe.
The function of this pulse is to reset any head drivers remaining in the
set state at the end of a data block, thereby generating the longitudinal
redundancy check character on tape.
The write register is DC reset at certain times and under certain conditions to ensure that information is not recorded on tape unless recording is deliberately intended. The logic created for this is such
that if anyone of the terms Motion, Write Enable I Select, and Ready
is FALSE, the write register will be DC reset.
The flow of power to the write heads is controlled through the write
povler gate (see Figure 31). This is an AND-gate function that comprises the terms Write Enable (or Write Permit), Select & Ready, and
File Protect. (Write power enters the data electronics printed circuit
board from the transport electronics printed circuit board if the file
protect switch on the deck has been energized.)
5.1.3
Read Data Flow
Figure 32 presents a block diagram of the flow of read data through the
system. (As in Figure 29 , only one channel is indicated.) The read
head generates a low-level analog Signal of approximately 10 to 20
millivolts peak to peak. The read amplifier which has a differential
input and Single-ended output, picks up this signal and amplifies it
to a suitable level, then sends it to a phase splitter, which generates
the complementary Signals required for full-wave rectification. The
phase splitter output signal level is adjusted to 12 volts peak to peak
by the attenuator control potentiometer at the output of the read amplifier.
A clipping level DC bias is fed into the input of the full-wave rectifier
with the result that positive peaks above the clip-level threshold are
observed at the output of the circuit. This signal is then sent to the
peak detector, which in turn generates a digital pulse whose trailing
edge is synchronous with the peak of the analog signal and is used to
load the read register at that time. The contents of the read register
are sent to' the output driver and then to the customer s data line.
I
l
v-
28
WRITE PERMIT OR
WRITE ENABLE
WRITE
PO WE R t - - -....~V'#-_ _
GATE
SELECT AND
READY
FILE
}
TO
WRITE
HEAD
DRIVERS
PROTECT
SWITCH
.+ 12 V ~""'-_ _ _---'
WRITE
POWER
WRITE REGISTER
DC RESET
MOTION
WRITE
REGISTER
RESET
WRITE POWER
Figure 31. Write Power Gate and Write Register DC Reset, Dual Gap Systems
v-
29
READ HEAD
GAIN
CONTROL
FULL WAVE
RECTIFIER 1--.......
PEAK
DETECTOR
FrEAD
REGISTER
READ
Q
o
N
INVERTING
AMPLIFIER
P
READ AMP
<:
w
<;>
WRITE
ENABLE(+)
WRITE/READ
THRESHOLD
DELAYED
- RESET
PULSE
CLIP
LOW READ
THRESHOLD
-[>-
LEVEL
GENERATOR
READ
STROBE
Y
LOW
CLIP
SELECT (-)
SELECT a READY
---4~---t
Figure 32. Read Data Flow, Dual Gap System s
READ
STROBE
O. D.
Auxiliary to this general flow of read data, several other functional
circuits complete and control the read data generation and transfer
process. These auxiliary functions are described in the subsections
following.
Stiobe Generation Circuitry. As in most other NRZI read systems the
ORld data method of read strobe pulse generation is used in the Mod 10
(see Figure 33). The first arriving bit sensed at the read register
is used to trigger the read strobe delay single-shot. This is implemented by taking the complement outputs of the read register and feeding
them into a nine-way OR-gate whose output goes to the single-shot. The
pulse width of the single-shot is controlled by adjusting a potentiometer
and is set to approximately one-half frame time.
I
At the end of the variable time delay period, a read strobe pulse is
generated (see the block labeled T in the diagram) and sent to the
tape controller. The leading edge of this pulse also triggers the
read register delayed reset pulse network I allowing 500 nanoseconds
for scanning of the data lines by the controller before the read registers
are reset. A summing function (data staircase) is provided at the output
of the read registers so that interchannel time displacement can be
measured.
A timing diagram for both read data flow and strobe generation is given
in Figure 34.
High-Low Density Select. Data can be recorded on tape at either a high
or low density (more or fewer characters per inch). An input from the highlow density select function changes the pu!s~ 'widt.~ of the read strobe
delay single-shot to correspond to the density of character generation.
Read Permit. This system function allows the remote tape controller
unit to enable or inhibit read data at any time. Read permit 1s conditioned
by the terms Select and Ready. If either of the two terms is FALSE the
read registers and output drivers are disabled.
I
Clipping Level Circuitry. This circuitry shown in Figure 32, generates
the clipping levels through which the read signals must pass before
reaching the peak detectors. In the write enable mode I approximately
45 per cent of the read Signal amplitude is clipped. In the read -on! y
mode I the level is decreased so that only 24 per cent of the read signal
amplitude is clipped. A provision has been implemented via the low
threshold select remote input line so that an even lower threshold level
(12 per cent) can be selected when reading marginal output tapes. The
state of this line has no effect on the clipping level while in the write
mode of operation.
I
v-
31
READ STROBE
DELAY ADJ
READ
STROBE OUTPUT
LINE DRIVER
TRACKS 1- 9
FROM READ
REGISTER
STAIRCASE
GENERATOR
READ STROBE
DELAY
ONE -SHOT
STROBE
PULSE
GENERATOR
,
)-- READ STROBE OUTPUT
T
S
U
R
READ OUTPUT
LINE DRIVER
ENABLE (REF. FIG.32 )
HI/LO DENSITY
SELECT INPUT
<
W
N
READ
REGISTER
DELAYED
RESET
PULSE
NETWORK
REGISTER
RESET
READ
REGISTER
W
Figure 33. Read Strobe Generation Circuitry, Dual Gap Systems
RECTIFIER
OUTPUT
--..Y-'
I
I
PK
II
READ REG OUTPUT
STROBE DELAY SS
READ REGISTER
DELAYED RESE1'
PULSE
Figure 34.
I
I
I
II
I
I
I
r·L-_
I
I
I
II
I
I
IJ
II
I
11
I
--=tIl.
FRAME
2 TIME
II
STROBE PULSE AT
STROBE PULSE
GEN OUTPUT
I
II
<
w
w
~I
I
I
---.nl
I
DET OUT
~
I
I
I
I I
1
I
I
I
I
I
nl
2 MIGROSEC
I
II
IU--
--.., r--
:;u;:
500 NANOSEC
I
..rI
I
.r-I
-
200 NANCtSEC
I
Timing Diagram of Read Data Flow and Strobe Generation, Dua:l Gap Systems
Rewind Inhibit. This system function prevents the reading of data
if the tape is rewinding. The relevant circuitry prevents current flow
in the phase splitter, disabling its operation during rewinding.
5.2
DATA ELECTRONICS, SINGLE GAP SYSTEMS
5.2.1
Read/Write Head Assembly
A single-gap read/write head is optionally available in either a ninechannel or a seven-channel format~ The head assembly is illustrated
in Figure 8. A full-width erase head is located on the oxide side of
the tape, positioned 0.34 inch from the head gaps. The stack has a
center tap configuration and is operated at 20 milliamps of current
per leg. The voltage output of the stack is proportional to the speed
of the tape; at 25 ips, it operates at 14 to 18 millivolts peak to peak.
The erase head operates at 50 milliamps.
Two auxiliary components are mounted adjacent to the read/write head
on a common base--the photocell and lamp assembly ·that detects
beginning and end of tape, and the tape cleaner. The photosense
assembly is a self;-contained unit that is connected by cable to the
transport electronics printed circ~it board. The tape cleaner, whose
operation is entirely mechanical, is ideally positioned so that the
cleaned tape passes directly to the read/write head, minim.izing the
chance of contamination that might result in deterioration of data
reliability.
5.2.2
Write Data Flow
Figure 35 presents a block diagram of the flow of write data through
the system. (Only one data line is shown. The channel components
represented schematically in this diagram are, of course, duplicated
for each write data channel.) Figure 36 presents a write data flow
timing diagram.
Data enters through line receivers whose function is to invert the lowTRUE levels. Each receiver has a terminating impedance of approximately 130 ohms. The output of the data line receiver is used to
condition the J-K inputs of the write register ceBs • The write strobe
signal is sent to the clock inputs of the write register. If the data
'line is TRUE at the time the write strobe pulse arrives, the write
register will switch states at the trailing edge of the pulse. This
in turn changes the state of the head driver which causes the current
in the head to reverse its direction.
v - 34
TERMINATION.
+5V
TPI
LINE
RECEIVER
o
DATA
LINE
WRITE
REGISTER
WRITE
HEAD
DRIVER
t<
-
+6V
<
WRITE
POWER
w
CJ"I
WRITE
STROBE •
-
+!5V
WRITE
RESET
. Figure 35. Write Data Flow, Single Gap Systems
READ/WRITE
HEAD
READ
AMPLIFIER
0
WRITE
STROBE
IJ r-' U =u=
~~
-1 r
U
CRce
2 USEC
0.5 USEC~
MIN
WRITE
LINE
DATA
0.5 USEC MIN
I I
-=tJ=
WRITE RESET
(LRCe)
-~J
WRITE
REGISTER
OUTPUT
w
1
+ 5V
<
0')
J
...
OV .--- .. _-
TPI
--L
4
+O.IV
-7V
HEAD
CURRENT
+
...
20 MA - - ( - ov
- 20 MA
\'---,----.-.(
Figure 36. Write Data Flow Timing Diagram, Single Gap Systems
I
~
2USEC
If the data line is FALSE at the time of write strobe: since this causes
both the J and the K inputs to be false, the register will not change
states; hence, no current reversal will occur at the head. Current
reversals at the heads cause data to be recorded on tape.
At the end of each block of data, a write reset pulse enters the system
and DC resets the write register. In the nine-channel configuration,
this pulse enters eight character times after the last strobe of the data
block; in 't.'1e seven-channel CO Ilfiguration I it enters four character times
after the last strobe. The function of this pulse is to reset any head
drivers remaining in the set state at the end of a data block, thereby
generating the longitudinal redundancy check character on tape.
The write register is DC reset at certain other times to ensure that
information is not recorded on tape unless recording is deliberately
intended. The logic created for this is such that if anyone of the
terms Motion, Write Enable, Select, and Ready is FALSE, the write
r~gister will be DC reset.
The flow of power to the write heads is controlled via the Write Enable
and Select & Ready NAND-gate which sends a signal to the DC set inputs
·of the write register. When either signal goes FALSE, the write register
is both DC set and DC reset, causing both its outputs to go to a high
level. This in turn disables both head driver outputs, hence removing
both current paths to the head. If both inputs are TRUE, the DC set
input to the register goes FALSE, allowing the head driver to drive
current into the head. (Write power enters the data electronics printed
circuit board from the transport electronics printed circuit board only
if the file protect switch on the deck has been energized (see
Figure 37.)
5.2.3
Read Data Flow
Figure 38 presents a block diagram of the flow of read data through the
system. (As in Figure 35, only one channel is indicated.) A timing
diagram for read data flow and strobe generation is given in Figure 39.
Input diodes protect the read amplifier during write operations. The
read head generates a low-level analog signal of approximately 14 to 18
millivolts peak to peak. The read amplifier, which has a differential
input and single-ended output, picks up this signal and amplifies it to
a suitable level, then sends it to an inverting amplifier which generates
the converted signal required for the full-wave rectifier. The amplifier
output signal level is adjusted to 12 volts peak to peak by the gain control
potentiometer. A clipping level DC bias is fed into the input of the
(Continued on page V-41)
v - 37
ERASE
HEAD
WRITE
ENABLE C+)
SEL 8
READY (+)
DC
SET
WRITE
REGISTER
WRITE
HEAD
DRIVER
READ/WRITE
HEAD
MOTION (-)
WRITE
POWER
+5V---G~-Y~------------------~~-----J
F I L E PROTECT
SWITCH
Figure 37. Write Power Gate and Write Register DC Reset, Single Gap Systems
v-
38
READ/WRITE
HEAD
GAIN
CONTROL
INVERTING
AMPLIFIER
FULL WAVE
RECTIFIER
PEAK
DETECTOR
=[Y-READ
READ
REGISTER
Q
READ AMP
o
N
P
<
READ
THRESHOLD
WRITE/READ
THRESHOLD
LOW READ
THRESHOLD
DELAYED
RESET
PULSE
/'
,
CLIP
LEVEL
GENERATOR.
READ
- - - STROBE
LOW
CLIP
SELECT
WRITE ENABLE
SELECT n READY
Figure 38 ~ Read Data Flow, Single Gap Systems
RECTIFIER
OUTPUT
yl
~
I
I
PEAK DET OUT
READ REG OUTPUT
n
I
f
I
I
STROBE DELAY SS
JL..,
I
I
I
1
I
I
I
-1
I
I
I
---t
I
I
..L
FRAME
2 TIME
0
I
I
I
I
I
I
I
I
I
I
I
I
nl,
STROBE PULSE AT
STROBE PULSE
GEN OUTPUT
READ REGISTER
DELAYED RESET
PULSE
I
I
I
I
~
I
rll
I
I
<:
t
I
t
II
IU
r-
~
:::;u::
500 NANOSEC
200 NANOSEC
I
Figure 39. Timing Diagram of Read Data Flow and Strobe Generation, Single Gap Systems
full-wave rectifier with the result that positive peaks above the cliplevel threshold are observed at the output of the circuit. This signal
is then sent to the peak detector I which in turn generates a digital
....... 1 ..............." ....... ,.._ ...... -...:1.: ..... ,.. . . . . "J,.. ........ ,.." ........ ",. ...... " ...... ..,.3
pU..I..:H::;
VVUVi:»C
U.O.l..I..l.U':::f
CU':::fC
...
vV.L.LCi:»PVUUi:»
..,,,
&OV
.... \..._
&oue
....................
1...
~.&
pea"" V.I.
.. \...,....
Wle
..... 'WI'IIIi~1,...,,..
OUO.l.V':::f
,..a"''P'Il~1
i:».I.':::fuO.l.
and is used to load the read register at that time. The contents of the
read register are sent to L"1e output driver and thence to the customer's
data line.
Auxiliary to this general flow of read data I several other functional
circuits are implemented to complete and control the read data generation and transfer process. These auxiliary functions are described .
in the subsections following.
Strobe Generation Circuitry. As in most other NRZI read systems I the
OR'd data method of read strobe pulse generation is used in the Mod 10
(see Figure 40). The first arriving bit sensed at the read register
is used to trigger the read strobe delay single-shot. This is implemented by taking the complement outputs of the read register and feeding
them into a nine-way OR-gate whose output goes to the single-shot.
The pulse width of the single-shot is controlled by adjusting a potentiometer and is set to approximately one-half frame time.
At the end of the variable time delay period I a read strobe pulse is
generated (see the block labeled T in the diagram) and sent to the
tape controller. The trailing edge of this pulse also triggers the
read register delayed reset pulse network, allowing 500 nanoseconds
for scanning of the data line s by the controller before the read
registers are reset. A summing function (data staircase) is provided
at the output of the read registers so that interchannel time displacement can be measured.
High-Low Density Select. Data can be recorded on tape at either a
high or low density (more or fewer characters per inch). An input
from the high-low density select function changes the pulse width
of the read strobe delay single-shot to correspond to the density
of character generation.
Clipping Level Circuitry. This circuitry shown in Figure 38, generates
the clipping levels through which the read signals must pass before
reaching the peak detectors. If the Read Threshold line is TRUE
approximately 45 per cent of the read signal amplitude is clipped. When
this line is FALSE, the level is decreased so that only 25 per cent of the
read signal amplitude is clipped. A provision has been implemented
via the low-read-thresnold remote input line so that an even lower
threshold level (12 per cent) can be selected when reading marginal output
tapes. The state of this line has no effect on the clipping level while
the Read Threshold line is TRUE.
I
I
v-
41
READ STROBE
DELAY ADJ
READ
STROBE OUTPUT
LI NE DRIVER
TRACKS 1- 9
FROM READ
REGISTER
STAIRCASE
GENERATOR
READ STROBE
DELAY
ON E -SHOT
STROBE
PULSE
GENERATOR
S
T
READ STROBE OUTPUT
U
R
<
READ OUTPUT
LINE DRIVER
ENABLE
HI/ LO DENSITY
S E LEe TIN PU T
READ
REGISTER
DELAYED
RESET
PULSE
NETWORK
REGISTER
RESET
READ
REGISTER
Figure 40. Read Strobe Generation" Single Gap Systems
6.0
KEY TO LOGIC SYMBOLS
In several portions of this Manual, primarily in this section and
in Appendix B, logic symbols are used to represent certain logical
functions or integrated circuit elements. The accepted integrated
circuit manufacturer's industry standard symbols are used here.
Since DTL and TTL logic is being employed, it is of the typical
inverting type, utilizing NAND=NOR eiements rather than ANDOR devices.
Although the same device is used to implement both the NAND
and the NOR function, the symbol is shown to correspond to the
particular functional operation.
The input/output lines to the device are shown for the TRUE (active)
state of the function. A state indicator, shown as a small circle
at the input or output of the device, means that if that line is in
the TRUE state I it will be at zero volts. Lack of a state indicator
means that the TRUE state of the line is at +5 volts. The following
symbol and explanation will serve as a clarification and example:
D=A+B+C
LOGIC EQUATION
LOGIC SYMBOL
Figure 41. Logic Symbol Example
Figure 41 shows a logical NOR element that says that D will be
at +5 volts (TRUE state) if anyone, or any combination of A B
or C, is at zero volts. Typically, the designation number of that
particular chip in the assembly is shown within the symbol, and
the corresponding chip pin numbers are shown on the lines external
to the symbol.
I
I
Table 3 shows all of the logic symbols used in this Manual with
their corresponding names and logical equations. The equations
shown are defined by the TRUE level of the input signal.
v-
43
The single shot produced a positive going pulse at the "1"
output and a negative going pulse at the "0" output and these
are initiated at the time that the input pulse transitions to its
TRUE state.
The flip-flops are of the J-K type and their input/output functions
are a s follows:
Designation
Function
Synchronous set input
Synchronous reset input
Clock input
Direct set input
Direct clear (or Reset) input
Set output
Reset output
J
K
T
SD
CD
1
o
The following truth tables are applicable to these devices:
ASYNCHRONOUS OPERATION
SYNCHRONOUS OPERATION
BEFORE CLOCKS
OUTPUTS
INPUTS
1
0
K
J
AFTER CLOCK
OUTPUTS
1
0
INPUTS
SO
CD
OUTPUTS
1
0
L
H
L
X
L
H
L
L
H
H
L
H
H
X
H
L
L
H
H
L
H
L
X
L
H
L
H
L
H
L
X
H
L
H
H
H
v-
44
L
H
Synchronous
Q'neration
TABLE 3
NAM E
SYM BOL
NEGATIVE
LOGICAL EQUATION
INVERTER
B
=A
I
B
I
t
I
I,
II
~~
A:
II B:.
I
POSITIVE INVERTER
C~
-~
•V
~--
..
.
-
NOR GATE
I
Iii
D = ABC
POSITIVE NAND GATE
NEGATIVE
B=A
I
D=A+B+C
ii
II
D
I
!
~
--aT
NEGAT IVE
WIRED OR GATE
o = A+B+C
SEE
TRUTH
TABLE
FLIP-FLOP (J-K)
-KCDQ ...~
............
f
:
I
II
...
A.tOYc~
I" T '. I
i
l-d-)l-q_J
I
SS
1--1I
SINGLE SHOT
!
'"'--'.....
O~
I
SEE
EXPLANATION
I
,I
I
I,I ~ I S II
DLVI
TIME DELAY NETWORK
v-
45
B= A· [DLY]
;
SECTION VI
MAINTENANCE ON SITE
Before any Mod 10 tape transport leaves the factory each of
its components has been thoroughly tested and all adjustments
have been made to ensure reliable operation. However, injudicious handling in transit or the effect of long use may
necessitate the replacement of some parts or the readjustment
of some components.
I
Table 4 lists a basic set of maintenance tools and supplies
required for servicing the Mod 10 e As the table suggests I some
supplies should also be available to the operator for daily or
shift-end cleaning.
Table 5 offers a suggested schedule for preventive maintenance e
Again, some of these functions are the responsibility of the tape
transport operator. Procedures for performing them have been
specified in Section III. The remainder--preventive maintenance
tasks that must be perfonned by a service engineer--are described
in connection with the repair procedures for the suba s sembly to
which they pertain.
In the pages that follow, instructions are provided for replacements, readjustments, and trouble shooting aids that can effectively
be made while the tape transport remains installed in the customer's
computer system. Some tasks of repair require test equipment not
normally available in the field, or special alignment and adjustment
tools that are not available to field engineers. Instructions for
repairs of this more complex kind are NOT included in this section.
As in the preceding sections, the maintenance instructions are
organized in terms of subassembly units.
VI - 1
Table 4.
Maintenance Tools and Supplies
FOR THE OPERATOR
Lint-free cloth
Cotton swabs
Isopropyl alcohol
FOR THE SERVICE ENGINEER
Model or Type
Equipment
Hex. wrench set
~n 1 ; njQo ~~1"rjQon
,.'h
-r----.. - -_.-..
Open-end wrench
Long-nose pliers
Screwdriver set
Screwdriver set
Soldering aid
Soldering iron
Tape tracking fixture
Voltmeter
Reel hub alignment fixtures
Oscilloscope
Dual trace plug-in
XIO scope probes (3)
Guide shims (as required)
Master alignment tape
Standard-level output tape
Scratch tape
Pulse generator or TCU
For #4, 6, 8, 10 and 1/4
cap screws and set screws
For
For 7/l6-inch bolts
Phillips
Standard blade
WANGCO PiN T-OOOIO
Triplett Model 800 or equivalent
WANGCO PI N T-00002
Tektronix 547 or equivalent
Tektronix lAl or equivalent
Tektronix
WANGCO PiN 200203
IBM #432640 or 432641
IBM #461108 or 432152
VI-2
Table 5. Suggested Schedule for Preventive Maintenance
Maintenance
Task
II
I
Interval
(in operating hours)
II
Procedure
Described in:
I
PERFORMED
BY
I
I
IOPERATOR II
I
a
Clean Head, Tape
Cleaner Face, Head
Guides, & Head
Guide Blocks
8
(Daily)
Section III
Clean and Check
Roller Guide s
8
(Daily)
Section III
Clean and Check
Capstan
Clean Entire Tape
Unit Surface
I
t
I
!
(Approx. 4 months)
~
~
.
ISERVICE
I
t
I
i
ENGINEER
I
I-
Section III
i
Section VI,
par. 7.2
Section VI,
par. 12.3
iJ j'
I
•
I
Replace Reel Motor
Brushes
5,000
Replace Reel Motors
10,000
I
i Replace Cap stan
~
Drive Assembly
I
II
10,000
I
( i
t ~
II
VI - 3
i
I
II
!i
I
I
,
~
III ,
I
I,
f ~
1
I,
,I
II
I
I
Section III
J
2,000
Check Tape Tracking
BY
I
III ,
1
(as required)
Clean Tape
Cleaner Unit
PERFORMED
8
(Daily)
I
.
Section VI,
par. 10
Section VI,
par. 9.2
I
I
I,
1.
POWER SUPPLY MAINTENANCE
1.1
CHECKING VNREGULATED POWER SUPPLY
A check may be made of the unregulated power supply by testing
with a voltmeter at test points provided on the transport board.
The table below shows the voltages and corresponding test points.
The voltages should be within ±20 per cent of the nominal specified.
(See Figure B17 for test point locations.)
Voltage
+19
-19
+13
-13
1 .2
V
V
V
V
Test Point
TP
TP
TP
TP
419
422
420
421
CIRCUIT BREAKER RESET
In the event of malfunction, an· automatic circuit breaker prevents
damage to the tape transport. The circuit breaker reset button is
located adjacent to the power switch on the power supply chassis.
The circuit breaker button will be in the OUT position after an
automatic circuit break has occurred. Pushing in the button remakes the circuit.
1.3
FUSES
Five fuses in the unregulated power supply lines are located on
the power ~upply subassembly. Fl is a 5 amp fuse in the +19 volt
line. F2 is a 10 amp fuse in the -19 volt line. F3 is a 10 amp fuse
in the +13 volt line supplying all loads except the +5 volt regulator.
F4 is a 4 amp fuse in the +13 v0lt line supplying current to only the
+5 volt regulator. F5 is a 10 amp fuse in the -13 volt line. All
fuses are fast-blow types.
I
1.4
I
TRANSFORMER' TAPS
The Mod 10 tape transport can accept power from sources of varying
voltage I depending on the power transformer primary tenninal connection chosen. Figure 42 shows the color coding of the transformer
primary wires attached to the terminal strip TBI under the power
supply chassis.
VI - 4
125V
GRAY
VIOLET
120V
0
""""11
.I
•
I-
II
OV
0
I
I
ORANGE
125V
BROWN
13
CENTER TAP
14
IOV RMS
15
15V RMS
I
I
120V
lO V
RED
IOV RMS
I
I
YELLOW
12
I
IOV
GREEN
15V RMS
I
I
BLUE
li
OV
I
~
1--
0
SHIELD BLACK
Figure 42. Mod 10 Power Transformer Lead Identification
VI - 5
For example, parallel connection to standard 115V power (plus
or minus 10 per cent) is made by connecting the gray and yellow
wire s to one side of the line voltage and the blue and red wire s
to the other side. Series connection to a 220V power source is
made by connecting the violet wire to one side of the line voltage,
connecting the blue to the orange wire on the terminal strip, and
connecting the red wire to the other side of the line. Unused wires
should be left attached to the tenninal strip.
2.
OPENING OF POWER SUPPLY ASSEMBLY
The opening of the pO\lIler supply is necessary when trouble shooting
and component replacement is required in this area. It is also required when it is desired to access TBI to change power transformer
taps. The following procedure shall be used:
1.
Turn power off of the unit with the toggle switch on
the power supply and disconnect the power cord from
the wali.
2.
3.
3.
Remove the 4 Phillips screws fastening the assembly
to the deck. These screws are shown flagged in the
photograph of Figure 43.
4.
Swing assembly open.
TRANSPORT MODULE REPLACEMENT
The transport module which houses all the servo and control logic
electronics can be removed by following the steps below:
1.
Turn power off of the unit with the toggle switch
on the power supply and disconnect the power cord
from the wall.
2.
Remove all the connectors from the module using care
to avoid damaging connector pins on the module.
3.
Swing open power supply assembly as described in
subsection 2.
4.
Remove the 3 screws on the heatsink fastening the
module to the deck. These screws are shown in the
photograph of Figure 44. Be sure to support the assembly
VI - 6
LpOWER SUPPLY
VOL TAG E DECAL
-
, ,) POWER
SUPPLY ASSY. MOUNTING
Figure 43.
SCREWS.
How To Open Power Supply
VI - 7
()TRANSPORT ELECTRONICS PWB ASSY.
MOUNTING HOLES.
Figure 44.
Transport Circuit Module Removal
VI - 8
to prevent damage vvhen screvvs are removed. The
module is now free to remove.
5.
4.
After installation of the new module! perform the
transport module adjustments described in subsection 15"
DATA ELECTRONICS MODULE REPLACEMENT
The· Data Electronics module which houses all of the record and
read electronics can be removed by following the steps below:
5.
1.
Turn main power off either at the control panel
or the power supply.
2.
Remove connectors P3 and P4.
3•
Remove the Winchester head cable connectors
from the module. IMPORTANT - use an appropriate
size screwdriver on the jackscrew fasteners. Loosen
the connectors evenly, alternating turns on each
screw. Attempting to loosen one side at a time will
cause the connectors to bind and possibly bend the
pins. Use of fingers instead of a screwdriver risks
the possibility of breaking wires on the connectors.
4.
While supporting the module to prevent damage, remove
the 4 Phillips screws, holding the module mounting
brackets to the deck. The location of the bracket
screws are shown in the photograph of Figure 45.
5.
After replacement of the new module, perform the
adjustments described in the appropriate data electronics alignment subsection.
OCP SWITCH REPLACEMENT
The operator's control panel pushbutton switches and indicators are
sealed assemblies. If either the switch or the indicator fails, the
whole sealed assembly must be replaced. (See the photograph in
Figure 46.)
1.
Put the utility power switch at the back of the
transport chassis in the OFF position.
VI - 9
......... DATA ELECTRONICS PWB ASSY.
MOUNTING HOLES (TYP).
Figure 45.
Data Module Removal
VI - 10
Figure 46.
Control Panel SVlitch Removal
VI - 11
2.
Grasp the pushbutton at either side and pull it
directly away from the deck, rocking it gently
from side to side, using care that the attached
wires are not damaged.
3.
Note the position of the push-on lugs before
removing them from their terminals.
4.
Connect the push -on lugs to the replacement
switch in the noted positions.
5•
Push the switch firmly into position.
6.
ARM SENSE LAMP AND CELL REPLACEMENT
6.1
LAMP REPLACEMENT
The lamp and holder assembly is a plug-in unit.
To replace the lamp disconnect holder from module.
If the assembly is not the plug-in type, unsolder
the lamp lead joints at top of shroud and break
glyptol to free lamp. Solder and glyptol leads of
new lamp. Perform the adj ustments of section VI -14.
6.2
CELL REPLACEMENT
It is required to remove the arm sense module in order to
replace the photocell. The following steps specify the
mechanical procedure for removal:
1.
Loosen the Allen screw on the collet clamp and
rotate the cam and clamp assembly until it is
free of the shaft.
2.
Cut the cable harness tie wraps to separate the
cable from the rest of the harness.
3•
Remove the three Phillips screws securing the
module to the main frame.
4.
Remove the connector at the end of the module
cable located on the transport module. This will
be P12 for the file side or P13 for the fixed side.
5.
Perform the arm sense module adjustments in subsection 14 after replacement is completed.
VI - 12
7.
HEAD ASSEMBLY REPLACEMENT
Read/Write head assemblies may be removed and replaced in
the field by using the rollowing procedure.
CAUTION: SYSTEIvi PO"VER iviUST BE TURNED OFF
PRIOR TO DISCONNECTING OR CONNECTING
THE HEAD ASSEMBLY.
7.1
1•
Remove the head connectors from the data
electronics module located at the rear of the
machine using an appropriate size slot screwdriver. Do not use fingers for this purpose so
that the possibility of damaging connector wires
is eliminated.
2•
Remove both pieces of head cover and remove the
three large Allen screws fa stening the head plate
assembly to the deck. These screws are shown
in the photograph of Figure 47.
3.
Since it is not desirable to replace the photosense
assembly due to its cable dressing configuration,
disconnect this subassembly from the baseplate by
removing the two Phillips screws at the rear of the
plate.
4.
Remove head assembly.
5.
Following the procedure in reverse, install the new
head assembly.
6•
Perform the tape tracking check described in Section 12.3.
7•
Perform the data electronics alignments described in
Section 16 for dual gap heads or Section 17 for single
gap heads.
REPLACING THE PHOTOSENSE UNIT
The EOT/BOT photosense unit is a sealed component. If either
lamp or photocell fails, the unit must be replaced in its entirety,
as follows:
VI - 13
Figure 47.
Head Assembly Removal
VI - 14
1.
Perform step 2 of paragraph 7.
2.
Remove both screws holding photosense unit to
read/write head assembly base plate i and move
it to rear of deck. Cut the cable harness so that
t.his cable is free;o Disconnect PII connector.'
3•
Replace photosense unit and reinstall read/write
....
'I
..
..
...
•
...... 1"'\..
..
..
...
"I..
neaa assemDiY. 1\aJust K:ll:> as aescrlDea In
paragraph 15.1 to ensure proper operation of the
photosense unit.
7.2
CLEANING THE TAPE CLEANER
A jet of air directed into the perforations of the tape cleaner
face will force the accumulation of particles through a vent
hole provided on the back of the tape cleaner.
1.
Remove read/write head assembly covers (both sides).
2.
Shield read/write head by inserting a piece of paper
or cloth between the tape cleaner and the head.
3•
Blow into the face of the cleaner.
4.
Clean the tape cleaner I magnetic head I and base
plate according to regular maintenance instructions (Section III) •
5•
Replace head covers.
If necessary I the tape cleaner can be removed from the head
assembly so that a more forceful air jet can be applied. It is
suggested, however I that frequent gentle cleaning is preferable
to infrequent forceful cleaning.
1.
Remove read/write head assembly covers.
2•
Remove the screw holding the tape cleaner to the
assembly base plate, and remove tape cleaner.
3.
Clean by forcing air through the face perforations.
4.
Replace tape cleaner and tighten screw. (Action of
the roll pin in conjunction with the screw will correctly
reposition the tape cleaner.)
5•
Replace head covers.
VI - 15
8.
DECK OVERLAY REMOVAL
Removal and replacement of many components requires the
removal of the deck overlay. The following procedures must
be followed:
8.1
REMOVAL OF FIXED REEL
1.
For fixed reel hub assemblies whose configuration
does not have three screws on the hub cover, insert a flat blade screwdriver behind the chamfered
edge of the hub cover and pry it up; this releases
the three spring clips holding the cover in place.
(See Figure 48.) Remove the three screws holding
the reel in place and remove the reel.
2.
For assemblies whose c9nfiguration have the three
screws through the cover, ignore step 1 and remove
these screws holding the reel in place. Remove reel.
REiviOVAL OF FIXED GUIDE POST ASSEivlBLIES
CAUTION: Identify the top and bottom assemblies prior to removal
in order to return them to their correct location upon re-assembly.
1•
8.3
Remove each guide post by unscrewing two Phillips
screws accessible from the rear of the deck. Under
no circumstances should the small set screw that
holds the roller guide assembly be removed. Removal
of this screw destroys an adjusted setting and
necessitates laboratory or factory re-tracking.
REMOVAL OF OVERLAY
1.
Remove covers from the read/write head assembly
by pulling in the direction perpendicular to the head
plate.
2•
Loosen, but do not remove, the four overlay screws
acces sible from the rear of the machine. These
screws are shown marked by arrows in the photograph
of Figure 49.
3•
Support the overlay prior to total removal of the screws
to eliminate the falling hence possible damage to it.
4.
Lift off overlay.
VI - 16
Figure 48.
Fixed Reel Removal
VI - 17
o
DECK OVERLAY MOUNTING SCREWS
Figure 49.
Deck Overlay Removal
VI - 18
9.
CAPSTAN AND CAPSTAN MOTOR REPLACEMENT
9.1
CAPSTAN ONLY
The capstan can be removed and replaced by releasing the Allen
screw on the top of the capstan motor shaft l101ding the shaft
by the flats provided. Note the orientation of the capstan before
removing it I and ensure that it is replaced in the same position
Capstan speed adjustments are specified in a later section.
I
e
9.2
CAPSTAN DRIV"E ASSEMBLY
Replacement of the entire capstan drive assembly (capstan and
capstan motor) should be done in accordance with the following
procedure:
9.3
1.
Remove capstan (see 9. 1) •
2.
Remove motor and tachometer leads at terminal
board at rear ..
3.
Remove four s crews holding motor to transport
deck.
4.
Replace capstandr!ve assembly ..
5.
Replace capstan (see 9. 1) •
6..
Perform the adjustments for speed and start/stop
ramps a s des cribed in subsections 15. 2 .. 2 - 15. 2 • 4.
CALCUIATING CAPSTAN SPEED ERROR
The 50160 Hz strobe disc is inserted into each capstan. The inner
strobe is for 60 Hz and is marked such. It is to be viewed with the
corresponding AC light (such as fluorescent). The 50 Hz disc operates
with a 100 Hz source whereas the 60 Hz disc requires 120 Hz source.
The disc image will appear stationary at 12.5, 25 and 37. 5 ips
only. The error from nominal for the mentioned speeds is:
624
E= ~
%;
where V is nominal speed in ips, and T is the time in seconds for the
image to drift one revolution. If the error exceeds 1% re-adjust speed
per section VI-1S.2.
VI-19
10.
REEL MOTOR REPLACEMENT
The preventive maintenance schedule (Table 5) suggests that
reel motors be replaced after 10,000 hours of operation. Replacement is as follows:
11.
I.
Remove overlay.
2.
Remove hub of motor to be replaced (two set screws).
NOTE: if WCP fixture # PiN T-00002 is not available,
measure and record the distance from the reference
boss to the hub outer flange prior to removal.
3.
Remove motor leads at terminal board at rear.
4.
Remove four screws holding motor to transport deck.
5.
Screw new motor into place.
6.
Replace motor hub using reel hub alignment fixture,
which sets the position of the outer flange to a
distance O. 727 inch above the adjacent reference
boss. . If fi~ture is not available, re-position the
hub to the distance measured in step 2. Tighten the two
set screws against the flats on the motor shaft.
7.
Replace overlay.
GUIDE ROLLER BEARING REPLACEMENT
Roller guide bearings, with the exception of those on the file
reel swing arm guide, which control tape motion to the head,
can be replaced whithout destroying preset tracking adjustment
if appropriate care is exercised. (See Figures 50-A & B.)
I .
Note the position of the guide roller with respect
to its shaft. (The roller guide must be replaced with
the same flange nearest the overlay panel that it
originally occupied.)
2.
Remove retaining ring at the shaft end and remove the
guide roller.
3•
Insert new bearing (s) •
4.
Replace guide roller.
5.
Replace retaining ring.
VI - 20
CA) Fixed Guide
200036
(B) Self Aligning Guide
200217
200425
Item No.
1
2
3
4
5
6
7
8
9
10
11
12
13
14
15
16
17
18
19
Description
Ring, Reta ining Ext.
Washer, Shim
Bearing I Roller
Drum
Spring
Shaft
Ring IReta ining Ext.
Washer, Shim
Bearing, Roller
Drum
Sleeve, Pin Retaining
Sleeve I Bearing
Pin
Spring
Shaft
Screw, Button Hd 2-56 x 3/16
Washer, Belleville
Sleeve, Bearing
Shaft
Figure 50.
•
(C) Fixed Eccentric Guide
200PlO
WCP Part No.
100132-001
200077-001
100006-001
200023
200156
200037
100132-002
200077-003
100006-002
200419
200423
200420
20·0422
200421
200418
100039-903
100256
200752
200766
Guide Bearing Replacement
VI-2l
Replacement of the file reel swing arm roller guide bearings
requires that the guide be re-set as described in paragraph 12. 1 . 1.
The bearings are changed by removing the locking screw and
withdrawing the eccentric guide assembly from the shaft.
(See Figure 50-C.)
12.
TAPE TRACKING ALIGNMENT
Tape tracking is the mechanical adjustment of elements in the
tape path which contribute to the static and dynamic skew of the
tape over the read/write head. Also the proper alignment of the
tape edges between the file and fixed reels consistent with
proper tape handling (i. e. , without damaging the tape.) If retracking is found to be required, it is necessary to afterwards
re-check the Read Stack Azimuth alignment per the procedure
described in sections 16.7 or 17 . 4.
Forward tape tracking is controlled by guiding elements between
the file reel and the capstan. Reverse tape tracking is controlled
by guiding elements between the fixed reel and the capstan (see
Figure 51).
The following tracking procedure assumes that there is no gross
misalignment of guiding elements which would cause tape edge
damage. Initially all roller guides' are set such that the inner
guiding edge is .837 inch· from the transport component mounting
surface.
12.1
FORWARD TAPE TRACKING
12.1.1
File Reel Swing Arm Roller Guide
Basic mechanical alignment of this guide is simplified through
the use of a special tool, WCP # T-OOOlO, the use of which
is illustrated in Figure 52. Alignment is as follows:
1•
Remove the overlay (see subsection 8 for procedure) •
2.
Fasten the alignment tool to the head guides making
sure the outer surface of the tool is against the fixed
guide outer edges with all shims removed from head guides.
I
3•
Adjust the position of the swing arm at the supporting
shaft (:tt8 screw) such that the roller guide trough mates
with the alignment tool.
VI - 22
...--_ _ _ _ _ _ FILE REEL SWING ARM
ROLLER GUIDE
FILE REEL FIXED
,ROLLER GUIDE
I
~
..
I
FIXED
HEAD GUIDE--
I ...... ,._~
( A)
READ HEAD _ _ liI.:., _ _""'.
FIXED
HEAD GUI DE --t-i-.t-~
( B)
' - - - - FIXED REEL
FIXED REEL SWING ARM
ROLLER GUIDE
FIXED REEL FIXED
----ROLLER GUIDE
REVERSE TRACKING
-----ROLLER GUIDE
L...-_ _ _ _ _ _ CAPSTAN
Figure 51. Tape Guide Diagram
VI - 23
--wcp
PART NO. T-OOOIO
Figure 52.
I
NO.8 SCREW
File Reel Arm Guide Alignment
VI-24
4.
Adjust the tilt of the roller guide such that the
width of the drum is parallel to the alignment
tool. This is accomplished by slackening the
roBer guide iocking screw 1/2 turn and rotating
the eccentric guide by means of the hexagon.
(See Figure 53.) For the purpose of this adjustment the drum should be presented to the alignment
tool by pressing against the roller guide as this
1.+,...
cool ........ "
co
w~UlU4Q" ... o;J
5.
12.1.2
+h"", "",-1=-1=,.,.,..+ ,,-1= +~n.'" +,...", ... 01"", " ... +h" """."':""
I.~" ...
~4.L ...
" ' ' ' V.L
I.u,,tJ ...
"""'w~"'"
v~,
"',...
U, Ul.
Shims should be replaced as required under
Paragraph 16. 7 or 17 .4.
File Reel Fixed Roller Guide
This guide must be aligned to the swing arm roller guide. This
may be done visually by rotating the file r.eel counterclockwise
against the servo, using old tape, under tape tension, until the
file reel swing arm reaches a point where the tape disengages the
file reel fixed roller guide (see Figure 54). At this point any misalignment between the rollers is seen as a curling or scuffing of
the tape edge against one of the file reel fixed guide flanges.
This may be corrected by adjusting the file reel fixed guide, using
the screw at the side of the guide support for this purpose.
12.2
REVERSE TAPE TRACKING
12.2.1
Reverse Tracking Roller Guide
1•
Remove the reverse tracking roller guide by means
of the screw at the side of the guide support.
2.
Run the tape forward and observe the lateral position
of the tape on the capstan. Now run in reverse and
see that there is no "tape walk
II •
3.
If this condition is observed, adjust the position of
the fixed reel swing arm at its pivot (#8 screw) and
align the adjacent fixed roller guide to the swing arm
roller guide. The procedure is the same as that for
the file reel fixed guide. Capstan "tape walk" between
forward and reverse should not be greater than .01 inch
with the reverse tracking guide removed.
4.
Replace the reverse tracking guide and adjust the
forward/reverse Utape walk" as close to zero as
possible by means of this guide only.
5•
Now that all the alignments are complete, check the
results by following the procedure in the next section.
VI - 25
/
LOCKING SCREW
HEXAGON
FOR
-=----~
ECCENTRIC TILT
ADJUSTMENT
I
Figure 53. Tilt Adjustment - File Reel Arm Guide
VI - 26
A
::
H/\4'IJ
~
If
---_-H.-_
FILE REEL FIXED
ROLLER GUIDE
FILE REEL SWING ARM
ROLLER GUIDE - - - - ___-lYl
FIXED
HEAD GUIDE
( A)
--~-"'I~
---oy---OBSERVE TAPE AS IT
ENTERS FIXED GUIDE
TROUGH FOR SCUFFING
OF EDGES.
VIEW'
A
Figure 54. File Reel Fixed Guide Adjustment
VI - 27
..
12.3
CHECKING TAPE TRACKING
This procedure provides an electrical check to verify that tape
is tracking in the reverse direction within acceptable limits with
respect to the forward direction. The procedure compares the
time displacements of the analog signal peaks of the two outside
channels while running tape forward with the time displacement of
those peaks while running tape in reverse. If the transport is
perfectly tracked, the time displacements in both directions will
be the same, but the pha se relationship between the two peaks
will be opposite. Since the accuracy of tape tracking is directly
dependent upon mechanical alignments and mechanical tolerance
build -ups, perfect tracking is usually not achieved; however,
limits are established that will guarantee reliable operation in
both directions.
Equipment required includes an oscilloscope a dual trace plugin, and three lOX probes (see Table 4); also required is a scratchpad tape having all ones recorded on the outside channels.
Procedural steps are as follows:
I
1•
Scope control s:
a)
Mode--Chop, AC.
b)
Sensitivity--a s required to get good resolution
of the peak time displacement.
c)
Trigger--External (+), AC, trigger mode.
d)
Sweeptime--5 }A sec/em .
2•
Place Channel 1 scope probe and trigger probe on the
test point corresponding to the head edge track located
closest to the transport. This test point is 602 for
nine-channel systems and 102 for seven-channel systems.
3.
Place Channel 2 probe on the test point corresponding
to the channel farthest from the transport. This test
point is 702 for nine-channel systems and 902 for sevenchannel systems.
4.
Load the scratch-pad tape and run tape in the forward
direction under manual control. Record T1 (~sec). Run
tape in the reverse direction and record T2 . (See Figure 55).
Since the read head azimuth angle can be in either
direction, the actual phase relation between the reference
channel and the other outside channel may be opposite to
that depicted in Figure 5S.
VI - 28
5•
The value of T2 should be related to T1 by the
following equation:
T" :-T. +
"
1 -
75
sec~
V
where V represents the transport speed. If this
condition is not met, b'1en eit.lier there is tape \.llalk
on the capstan I or the file reel swing arm guide is
improperly set. Retrack the unit per the procedure
described in subsection 12.1 and 12.2
.
I
~
/) 1(/
S: ~
I
III}
rill
-5
~
I
t\ -2
-1
0
~VI
lLN
ru
.&.
~~
\\~ II
\~~
j
/J
\' l\
i\\'
WIJ
, \l V 2
,\\ /
~/I
~
l'V IIJ[I
I
l\\'
-3
TI
I
...... -PORWARD
~lRECTION ""~ ~
irl/, ~\\
I
-.J
\ l\\
-4
...
~
l\\'
1\\\
~II/
.1.
T
2
REVERSE
DIRECTION
1\\' ~
3
1"4\
T
5
II \\"
I\l"
,-- FF( ~IIf~tf
fl, 1
Figure 55.· Checking Tape Tracking, Desired Waveform
13.
REGULATED POWER SUPPLY ADJUSTMENTS
Three potentiometer adjustments are required to adjust the power
supply regulators to the proper operating voltage . levels • These
potentiometers are located on the regulator subassembly module
(See Figure B6). A voltmeter having an accuracy of at least 2 per
cent should be used to make the adjustments. Each adjustment
should be made according to the following table:
Connect Meter
Between
Test Points
Adjust
Voltage
To:
By
Potentiometer
+ 5 Volts
R2
TPI (+) & TP4(-)
+12 Volts
R14
TP2(+) & TP4(-)
-12 Volts
R21
TP3 (-) & TP4 (+)
VI -29
14.
ARM SENSE MODULE ADJUSTMENTS
Correct adjustment of the arm sense module position, cam position,
and two potentiometers is necessary to ensure the correct operation
of each selVO swing arm. The adjustments must be· made in the
order in which they are specified below. (Either arm may be adj usted first.)
The power must be ON and the transport must be RESET at the
control panel.before starting the adjustment procedure. No tape
should be loaded on the machine.
14.1
14.2
FIXED REEL ADJUSTMENTS
1.
Mechanically position the swing arm in the center
of its normal operating arc and verify that the center
of the cam arc lines up with the photocell and lamp
housing. If the cam is improperly positioned, reposition cam as specified in subsection 6.
2.
Connect a voltmeter between test point 424 and
ground on the transport board. (See Figure B24e)
3.
Loosen the three screws that secure the arm sense
module to the main frame and adjust the position of
the module on the slotted holes until the voltmeter
reads 0 + 0 • 2 volts. Tighten the three mounting screws
locking the assembly in place.
4.
Adjust the fixed reel servo gain potentiometer R462 and
the swing arm position potentiometer R465 as outlined
in subsection 15. 3 •
FILE REEL ADJUSTMENTS
1.
Perform Step 1 in 14.1 above.
2.
Connect a voltmeter between test point 425 and ground
on the transport board. (See Figure B24.)
3•
Perform Step 3 in 14. 1 above.
4.
Adjust the file reel servo gain potentiometer R503 and
the swing arm position potentiometer R508 as outlined
in subsection 15. 3 •
VI - 30
15.
TRANSPORT MODULE ADJUSTMENTS
15.1
EOT/BOT PHOTOSENSE ADJUSTMENT
15.2
1.
Connect a voltmeter between test point 201
and ground.
(Reference Figure B24.)
2.
Adjust potentiometer R215 so that the voltmeter
reads O.OV ± 0.15V while tape is loaded on the
transport but neither
tab is
CAPSTAN SERVO ADJUSTMENT
Five adjustments are required to ensu~e correct operation
of the capstan drive. The order in which these adjustments
are given below must be carefully followed since there is
interrelationship between some adjustments. Adjustments
should be performed with tape loaded on the transport.
Ramp adjustments require that the transport be under
program control so that the tape repeatedly starts and
stops.
(See Figure B24 for potentiometer and test point
locations.)
15.2.1
15 .. 2 .. 2
Offset
1.
Press RESET pushbutton.
2.
Connect a voltmeter between test point 408 and
ground.
3.
Adjust potentiometer R438 for zero volts, ±100 mv.
Forward Motor Speed
The strobe disc is mounted on the front of the capstan and
has two patterns. The inner pattern is used for 60 Hz
units and the outer pattern is used for 50 Hz units.
1.
For standard speed units (see VI-9.3) containing a
strobe disc, while running the unit in the forward
direction under manual control, adjust R4l5 until
the strobe pattern appears stationary.
2.
For all other speed units, using an IBM skew tape,
adjust the potentiometer for a pulse repetition
period shown below. This will be observed at TP3
(D/G module) or TP5 (S/G module).
P
=
1250 Il sec
S
where S is machine speed.
VI - 31
15.2.3
15.2.4
Reverse Motor Speed
1.
Repeat the procedure of step 1 (Sec. 15.2.2)
while running in reverse using potentiometer R4ll.
2.
Duplicate the procedure of step 2 (Sec. 15.2.2)
while running in reverse using potentiometer R4l1.
Start/Stop Ramp Time
The start/stop ramp times can be properly adjusted only
after the forward-reverse speeds have been set up. Only
the forward and reverse stop ramps will be adjusted since
adjusting the stop ramp for one direction also adjusts the
start ramp for the opposite direction. The ramps will be
observed at the capstan tachometer output.
Forward Stop Ramp Time:
1.
Initiate a start/stop forward motion program.
2.
Trigger oscilloscope sweep on external negative
::. ... "'nc Mn+-;n'!"'!l
?nA
::::!'!"'!""'"
IA nhC!Q""uo
.f-~ .....'h
.........................
... -.....,. .... +-CC!+
.... '--..,"""" .,...,n;'!"'!I+1:'....., ...............
....., ..............
.....,....., .................
signal of TP406. In order to maintain a clean
tach signal, pick up scope probe ground on TP403.
Use sufficient vertical sensitivity on scope to
cleanly measure where the signal reaches the
zero axis.
v .......
-~
3.
'-""""' ......... ..
Adjust potentiometer R423 so that the time for the
tach signal to reach zero output is as follows:
T = 340 milliseconds
S
where T is the stop ramp in milliseconds and S is
the operating speed of the transport in ips (see
Figure 56). For example, a 25 ips transport would
have a stop ramp time as follows:
T = 340
25
VI - 32
= 13.5
milliseconds
. , . , . , , ,C, ._........ -,
_ _ FORWARD
I I I I. N
.
Ii
~
I
I. I I
1/11.
I'
l"r
-~
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L
:"\
-r~
-r
6
~33
,
I
I
II
I I
I
I I
I I I
I
I
,
I I I
I
"
I.~
r h
•
""
I
-.
f'"
~r-
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1\.-...
/T' """
I
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.
... .. .
•
I
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:r-A
,
-r
.~
.~ ~
/. r
. r-r
V -rI
L-13.
5M S
AT
~
25 IPS
'"
,
~
~REV
ERSE
Figure 56. Stop Ramp Time
Reverse Stop Ramp Time:
15.3
1.
Initiate a start/stop reverse motion program.
2.
Using the same procedure as outlined in step 2 of the
Forward Stop Ramp Time paragraph above I adjust
potentiometer R426 for the same stop ramp time established in step 3 of the procedure.
REEL SERVO ADJUSTMENTS
Two potentiometer adjustments are required in each reel servo to
provide proper servo gain and swing arm operating position. These
adjustments vary depending upon the transport operating speed
and are specified below.
VI - 33
15.3.1
15.3.2
1.
Mark off four inches of arc along the path traveled
by the swing arm tip.
2.
Connect an oscilloscope to the servo amplifier
output test point 418 for file reel or test point
410 for the fixed reel. (Reference Figure B24,.)
3.
With tape loaded and holding tension, move the
tip of the swing arm back and forth between the
end pOints of the four-inch arc marked off in
step 1. (This can be most easily accomplished
by moving the reel back and forth by hand rather
than the swing arm.)
4.
Adjust the gain potentiometer so that the four-inch
ann movement in step 3 produces a total voltage
change on the oscilloscope as specified below.
Potentiometer R503' adjusts the file reel servo gain
and R462 the fixed reei servo gain.
a}
For 45 ips machines adjust for a total
voltage change of 6.0 volts.
b)
For 37.5 ips machines adjust for a total
voltage change of 5.0 volts.
c)
For 25 ips and slower machines adjust for
a total voltage change of 3.5 volts.
Swing Arm Position
The swing arm position must be adjusted with tape loaded and
the machine operating at the proper speed. Both file and fixed
reel arm positions must be adjusted with minimum pack (less
than I/16-inch of tape on reels). The file reel ann position is
adjusted by potentiometer R508 while running forward and the
fixed reel arm position is adjusted by R465 while running in
reverse. The correct operating arm positions for each speed
machine is as follows:
VI - 34
1.
45 and 37.5 ips machines should have the swing
arm adjusted so that the center of the outermost
roller guide on the swing arm is 3/16 of an inch
above (measured vertically) the top edge of the
fixed roller guide support bracket •.
2.
25 ips and slower machines should have the swing
arm position adjusted according to the table below.
The distances given in the table are measured vertically
from the center of the swing arm roller guide to the top
edge of the fixed roller guide support bracket.
Machine
Speed
Swing Arm Position Above
Fixed Guide Bracket
25 ips
1/2 inch
18.75 ips
1.0 inch
12.5 ips
1-1/2 inches
10 ips
1-1/2 inches
VI - 34A
16.
DATA ELECTRONICS DUAL GAP SYSTEMS
16. 1
ADJUSTMENT SEQUENCE
ADJtJ~TMF.l\IT~
All alignments are made at the factory prior to shipment of equipment. Verify alignments if either subassembly has been replaced,
or if data electronics or heads seem to malfunction. Before performing the adjustments, verify that the scope probes, plug-in
unit, arid tim e ba s e are calibra ted.
All potentiometer and test point locations are identified by a silkscreened deSignator adjacent to the component on the module. (See
FigureB32 for the physical board location of test points and adjustments.)
WARNING:
SYSTEM POWER MUST BE TURNED OFF
BEFORE DISCONNECTING OR CONNECTING
EITHER THE DATA ELECTRONICS MODULE
OR THE HEAD ASSEMBLY.
Tape transport and power supply adjustments must be verified before
performing the data electronics adjustments. Because of the interrelationship among the circuits, the adjustments must be made in
the following sequence:
1.
2•
Phase split:ter quiescent level adjustment
. Read amplifier gain adjlistment
3.
Crossfeed shield
4.
Read strobe delay adjustment
5•
Read stack azimuth measurement and correction
6.
Write stack deskew
7.
a)
Read stack profile measurement
b)
Write deskew single-shot adjustment
Verification--staircase measurement.
VI-35
16.2
PHASE SPLITTER QUIESCENT LEVEL
The following prescribes the adjustment procedure for nine-channel
tape transports. The levels at test points 202 and 302 need not be
correct for seven-channel systems ~
1•
16.,3
Scope controls:
a)
Mode--Channel 1: DC.
b)
Sensitivity--O.OS V/cm.
c)
Trigger--Internal, automatic stability.
2.
Connect Channell probe to test point 102.
3.
Without running tape, adjust potentiometer R27 until
+ 1.0 VDC is observed at test point 102.
4.
Scan test points 202 to 902 to ensure that the quiescent
point of all the phase splitters falls within + 1.0 ±. 0.3 VDC.
S.
If this condition cannot be attained, readjust R27 until the
condition is satisfied.
READ AMPLIFIER GAIN
The following prescribes the adjustment procedure for nine-channel
tape transports.
, For seven-channel systems, set R218 and R318 fully
counterclockwis e •
1•
Scope controls:
a)
Mode--Channel 1: AC.
b)
Sensitivity--O. 2 Vlem.
c)
Trigger--Internal, automatic stability.
VI-36
I)
~.
T __ A
~UOU
C~ ... ",A ........ A
UL.OllUOiU.
T
"or .. ,,1
.u~v~~
~ •• ~ .......
~u
+
.. tJu ..
'T'~
..... "
~utJ~
" ....
VU
~J..."
Ul~
+uaui:)!Jv.L
... .". ............ "...+..
~ .... A
a,u,",
set the tape controller for a continuous write mode at
a frequency corresponding to 800 cpi and ones written
on all channels.
3.
Connect Channel 1 scope probe to test point 102 and run
tape fOIWard. Adjust RIl8 so that the analog signal has
a 12'-volt peak to peak amplitude. (See Figure 57.)
4.
Repeat for all channels. See Table 6 for correct
potentiometers and test points.
--
----
.i---
i---
12 V
AT TP !02
~
I
~
,
1111111.
111111 . ijl i: lill
,I'
11111~glllll IIII
IIIII IIi
1
1\1
I;!
I
I Ii
-r-roo
-~
-r-
Figure 57. Read Amplifier Gain Adjustment, Dual Gap Systems
VI-37
Table 6. Data Electronics Adjustment Points - Dual Gap Systems
Alignment Section
Channel
16.4
Read Amp Gain
Pot. No.
Test Point
\-lri te Deskew
Test Point
Pot. No.
P
TP-102
R-ll8
TP-I03
R-104
0-
TP-202
R-218
TP-203
R-204
1
TP-302
R-31B
TP-303
R-304
2
TP-402
R-418
TP-403
R-404
3
4
TP-502
TP-602
R-518
R-618
TP-503
-1'p-603
R-504
R-604
5
6
TP-702
TP-Bo2
H-71B
H-H18
TP-703
R-704
TP-Bo3
R-Bo4
...,
l'fI"D_Of'I'J
r:o ___ nl
P.
;/-'-\J
l'fI"D~Of'I-:>
LI-
.L.L
;;I'V..)
Comments
Not used in
7-Channel systems.
Not used in
7-Channel systems.
O_(V,\),
.1.\
;;IV'-
CROSSFEED SHIELD
This is a mechanical alignment on the head gate assembly necessary
to minimize the write-to-read crossfeed signal. If the complete head
assembly has been replaced, proceed starting with Step 1. If only
the crossfeed shield has been replaced, or if only a check is being
performed, skip Step 1.
1.
Turn all write deskew single-shot potentiometers
(RI04 to R904) so that all nine head drivers switch
simultaneously. This can be observed by scoping
test points 101 to 901.
2•
Place Channel 1 scope probe on test point
Channel 2 scope probe on test point 702.
a seven-channel system, place Channel 1
on 102 and Channel 2 scope probe on 902.
plug-in mode on alternate, set both scope
vertical gains to 0.01 V/ cm .
3.
Remove tape from capstan so that the tape will not
move when a run command is given. This is to be
done by threading the tape, such as to wrap the guide
adjacent to the capstan, onto the fixed reel swing arm.
VI - 38
602 and
If this is
scope probe
With scope
channel
4.
Set the tape controller unit for a ,continuous write
mode I all ones on all channels. Run transport and
observe crossfeed on the two edge channels. If the
peak to peak amplitude of the crossfeed is less than
the following I no adjustment is required.
Null Voltage (MV - P- P)
750
600
500
Speed (IPS)
10
12.5
18.75
25 and above
400
See Figure 59 for typical head gate wave forms.
5.
16.5
If the amplitude is greater than the voltage resulting
from the table in item 4 I loosen the two head gate
screws and reposition the gate by moving it in the
plane shown in Figure 58 until a null voltage is reached.
The edge of the ferrite should be approximately oPPosite
the Write gap. Be sure that the shield housing is resting
on the head block at front and back.
READ STROBE DELAY
1.
Scope controls:
a)
Mode--Channel I, DC.
b)
Sensitivity--O.l V/crn.
c)
Trigger--Internal (+) trigger mode.
2.
Connect Channel 1 scope probe to test point 3.
3•
Verify that the transport is selected for high
density operation and write all ones as described in paragraph 16.4 step 2.
I
4.
A positive pulse will be observed at test -point 3.
See Figure 60. Adjust R49 for a pulse VJidth of
approximately one-half frame time. At 25 ips this
should be 25 J..'sec. A frame time is defined
as__
l_, where V is the transport velocity
an~DD is the operating data density.
VI - 39
HEAD
GATE ASSEMBLY
COPPER
r - - - - - - SHIELD
~----
SLUG
HOUSING
FERRITE
CHIP
ADJUSTMENT
01 RECTION
FORWARD
TAPE MOTION
WRITE
HEAD
READ
HEAD
Figure 68. Head Gate Adjust,ment , Dual Gap Systems
IMPROPER
ALIGNMENT
TYPICAL
WAVEFORM
IDEAL
WAVEFORM
A
rv---,
~
~
~
~~~~~~~
I
MAXIMUM
CROSSFEED
AMPLITUDE
1
;,'
MAXIMUM
__~L-______~______~~______~~______+__ CROSSFEED
~~AMILITUDE
Figure 59. Head Gate Adjustment Waveforms, Dual Gap Systems
VI - 40
------t:""
=F I
~ I
II-
!-
l-
f
I~
~l..-
I
I"" I11It11l1l11l1111l1
I
I
•
it-
I
I
I
I
I
I
I
J
I
-----.-
I
1111111111,,11111'11111
~
-----=
----=
--------
•
I
1"1
I
I
I
I
I
it
I
I
tt.....
I
25 JJSEe AT TP 3--t
@ 25 IPS
Figure 60. Read Strobe Delay Adjustment, Dual Gap Systems
16.6
READ STACK AZIMUTH MEASUREMENT AND CORRECTION
This adjustment is required only when the read/write head assem]
has been replaced. Its purpose is to ensure that the read stack j
perpendicular to the tape path. This is "a mechanical adjustment
and is accomplished by shimming either (but only one) of the two
guides mounted on the head assembly base plate. The shims are
mounted by removing the guide, inserting a shim on the guide sh
and re-assembling the guide on the base plate. The shims are 0
inch thick and one shim will correct for 15 micro-inches of skew
1•
Scope controls:
a)
Mode--Chop.
b)
Sensitlvity--O. 2 VIcm I DC! both channels.
c)
Trigger--External (+) AC trigger mode.
d)
Sweeptime--Sufficient resolution so that the
positive-going edges of each trace can be
accurately measured.
VI - 41
2.
Place Channel 1 scope probe and trigger probe on the test
point corresponding to the head edge track located closest
to the transport. This test point is 603 for nine-channel
systems and 103 for seven-channel systems.
3.
Place. Channel 2 probe on the test point corresponding to
the channel farthest from the transport. This test point
is 703 for nine-channel systems and 903 for seven-channel
systems.
4.
Load a master skew alignment tape making sure that the
write enable ring is removed. Place the tape controller
unit in a read mode and observe the time displacement
between leading edges (see Figure 61). If the time displacement corresponds to a distance less than 25 micro- 7, "
inches (1 IJ.sec at 25 ips) I no shimming is required:
'~" ,I
Distance (lJ.inch)
.z
~ y,;5 6
= Velocity
u C" ';;l~
_
.~
-
'1,.; ...~jOf'>o
~~
(ips) X Time (IJ. sec).
v'
,'"
X ;v<,;e-,.. ,
• '-'-..
_.
2? ....L~t
-~
'7.
7~
..
~.
If the time
. , displacement corresponds to a distance greater ,:!.~ .
than 2 5 micro~inches I t..~e guide on the file reel side of
the head assembly must be shimmed. The number of shims
can be calculated as follows I where N represents the
number of shim s:
(Tape Speed) (Time)
15
N=
REFERENCE CHANNEL
.----....
~
'\
..l .. l .
,
•
.
L
I II •
I
J
J I
..
"
II
'
I III
I
I, I
------------
I i II
I I 1 1
I 1 ' 1 . I 1'1
1 1 I i
I
,
J
I I
,I
I
.
..LI
,
I
i
1
I
---------
~
TIME DISPLACEMENT (usee) BETWEEN
OUTSIDE CHANNELS
Figure 61. Head Stack Shimming, Dual Gap Systems
VI - 42
,~:-".~
. :' ,
Number of
Shims
I
I.
1
2
3
4
5
6
,7
8
Time Displacement for Speed Indicated (",sec)
12.5 ips
25 ips
37.5 ips
45 ips
0.7 - 1.8
1.9-3.0
3.1 - 4.2
4.3 - 5.4
5.5 - 6.6
6.7 -7 .. 8
7.9 - 9.0
9.1 -10.2
0.4 - 0.9
5
1.6 - 2.1
0.3 - 0.6
0.2 - 0.5
11.0 - 1.
1.1
1.5
2.8 - 3.3 1.9
-~ .....1 - ~ -q .2 .. 3
4.0 - 4.5 2.7
4.6 - 5.1 3.1
\2.2 - 2.7
.
1°. 7-1.0
~.
-
1.4
1.8
2.2
1°·6-0.9
1.0 - 1.2
11.3-1.5
1.6-1.8
2.6 .1 .. 9-2 .. 2
3.0
2.3 - 2.5
3.4
2.6 - 2.8
I
.\
Shim Table for Standard Tape Speeds
16.7
5•
If the leading edge of the trace being triggered is
seen but not that of the other channel, place the
scope trigger probe on the opposite channel and
observe the time displacement between pulse leading
edges. In this case, the tape guide on the capstan
side of the head assembly must be shimmed according
to the instructions in step 4.
6•
After the guide is shimmed, verify that the time
displacement between the outside channels corresponds to a distance less than 25 microinches.
7•
Measure and record the static data staircase using
the mas ter skew tape utilizing the method described
in subsection' 16.8. This data will later be used to
compare with the results of that section.
WRITE STACK DESKEW
The method used to ensure proper Write head deskewing is first to
plot the read stack gap scatter in the forward direction, referencing
each track to the leading track, and using an IBM Ma ster Skew Tape.
Then the gap scatter plot is duplicated while writing all ones on
a scratch-pad tape by adjusting the potentiometers of the Write
Deskew single shots.
16.7.1
Read Head Stack Profile
The method used to measure and record the gap scatter is first to
locate the leading track and then to measure the time displacement
of each of the other tracks with respect to this track.
VI - 43
How to Locate the Leading-Track:
16. 7.1.1
The. leading track will be located by comparing all the tracks
to each other in the method described below. The digital data
compared, will be only that which corresponds to the negative
peaks of the analog signals observed at TPI02 - TP902. By
taking this precaution, error due to the effect of the pulse pairing
phenomenon is eliminated.
1•
Scope Controls
a)
Mode--Chop
b)
Sensitivity--O • 2 V/ cm, DC, both channels
c)
Trigger--External (+) AC mode connected to
CHI Trigger out jack.
2.
U sing the IBM Skew Tape, run the transport in the
forward direction in the ON-LINE mode •
.,
c ....
f""'Il-._ .......... ~1
"!
\oJ.
uca. VUO.ll.lu:a.
J.
~
__
..... ___
_ _ JTI!"\"! "'1 _ _ .::I
o:l\,.;VlJt:: lJl VJJt:: VU J. r .L U.:J OllU
~
~
h~
f""'I'L. _ _ _ _ 1 '1
WIt:: VUOllllt::J. ~
d.'L.~
probe on TPI02. Set the scope sweeptime at 1 Po sec/em.
One of the patterns shown in Figure 62 will be observed
on the screen:
CH. I
--- . - - -
I
CH.2
I
B
A
c
Figure 62. Triggering Method
4.
If the display of Figure 62-A is observed, proceed to
step 5, since this indicates that correct triggering of
alternate bits generated by the negative analog signal
peaks has been achieved.
a)
If the display of Figure 62-B is observed,
triggering is on alternate bits but created
by the wrong polarity analog signal peak.
To correct the triggering, lift and re-apply
Channell probe to TPI03. Normally, after
one or two tries, triggering will switch to
the correct polarity.
VI - 44
5.
b)
If tJlle display of Figure 62-C is observed I
triggering again is incorrect because it is
occurring on every bit. To correct this
condition! change to a faster or slower scope
sweep speed.
c)
Once the display of Figure 62 -A is obtained I
do not change the sweep speed for the remainder of u"1e procedure.. If greatc:-!- sweep speed resolution is required I use the Horizontal
Magnifier. Correct triggering will be maintained as long as the trigger probe is not moved
to another point or if the tape does not change
direction.
Move Channel 2 probe to TP203.
a)
If it is observed that the positive going pulse of
TP203 follows the trigger pulse I move Channel 2
probe to TP303 since TPI03 is the leading of the
two tracks I and it is required to maintain the
Channel 1 probe on the leading track. Repeat
the process until the signal on Channel 2 is not
observed.
b)
If the signal on TP203 is not observed on the
screen, it is the leading track. Move Channel 1
probe to TP203. Since the trigger probe has now
changed location verify that triggering is still
correct, following the method described in step 4
by observing TPI02 with Channel 2. Move Channel
2 to TP303.
I
6.
Repeat the process described in step 5 until all the tracks
have been scanned I making sure correct triggering is
maintained every time the Channel 1 probe is moved to
the newly-found leading track.
7•
To verify that the leading track has truly been located
keep the Channell probe fixed on that track and scan
the remainder of the tracks with Channel 2 probe. The
leading edge of the positive pulse will be observed at
all of the test points.
I
VI - 45
16. 7 • 1 • 2
Profile Plot:
Keeping Channel 1 probe on the Read register test point
corresponding to the leading track, use Channel 2 probe
on TPI03 through TP903. Record the time displacement
between the leading edges of both pulses for each track I
making sure that the proper triggering method is used.
16.7.2
Write Single-Shot Deskew
This adjustment is performed while the transport is loaded with a
scratch tape for writing all ones on all tracks at 800 cpi.
16.8
1•
While running the transport continuously, display
the reference track on Channel 1 and the te st track
using Channel 2 of the scope. Set the reference
track potentiometer to approximately one-third turn
from- the counterclockwise position. Adjust the
corresponding write deskew potentiometer so that
the read profile of paragraph 16. 7.1.2 is duplicated,
making sure that the proper triggering method is used.
2.
Repeat for all tracks. See Table 6 for correct test
point ~nd potentiometer.
VERIFICATION --STAIRCASE MEASUREMENT
A quick verification of all the foregoing adjustments can be made
by checking the width of the data staircase when the transport is
running in the forward direction.
1•
2;;
Scope controls:
a)
Mode--Channel 1, DC.
b)
Sensitivity--O.l V/cm.
c)
Trigger--External (+) AC, Trigger mode.
Connect scope trigger probe to test point 3 and
Channel 1 probe to test point 2.
VI - 46
3.
While writing continuous ones; the wavefonn
should resemble that shown in Figure 63. Time T
should approximate the results. of subsection 16.6 ,
step 7 and should not exceed:
100
~sec
(T < 4 p. sec at 25 ips)
Time T shall not include the effects of dynamic skew.
4.
If this condition is not met, repeat the procedures
specified in paragraphs 16.6 through 16. 7 •
--1\
\
,.
~,"
~~ ;;.'
\
"
'I"
I
\
,
, ~ '
\'
T
\
.....
\
~
"\~
,,
'0:::"
Y
,
\
~-
'"
\
1\
LT-J
i
I
DYNAMIC SKEW EFFECTS
( EXAGGE RATED FOR ILLUSTRATION)
Figure 63. Staircase ..Waveform, Dual Gap Systems
VI - 46A
17 •
DATA ELECTRONICS SINGLE GAP SYSTEMS ADJUSTMENTS
17 • 1
ADJUSTlvIENT SEQUENCE
All alignments are made at the factory prior to shipment of equipment.
Verify alignments if either subassembly has been replaced, or if data
electronics or heads seem to malfunction. Before performing the
adj ustments, verify that the scope probes, plug-in unit, and time
base are calibrated.
All potentiometer and test point locations are identified on the module
by a silk-screened designator adjacent to the component. See
Figure B29for the location of test points and adjustments on the
module.
WARNING:
SYSTEM POWER MUST BE TURNED OFF
BEFORE DISCONNECTING OR CONNECTING
EITHER THE DATA ELECTRONICS MODULE
OR THE HEAD ASSEMBLY.
Tape transport and power supply adjustments must be verified before
performing the data electronics adjustments·. Because of the interrelationship among the circuits, the adjustments must be made in
the following sequence:
1.
Read amplifier gain adjustment
2.
Read strobe delay adjustment
3.
Read stack azimuth measurement and correction
4.
Verification--staircase measurement.
VI-47
17 • 2
READ AMPLIFIER GAIN
The following prescribes the adjustment procedure for nine-channel
tape transports. For seven-channel systems, Set R211 and R311
fully counterclockwise.
1•
Scope controls:
a)
Mode--Channel 1; AC
b)
Sensitivity--O. 2 VIcm.
c)
Trigger--internal, automatic stability.
NOTE: BE CAREFUL TO USE A STANDARD LEVEL
OUTPUT TAPE FOR THE READ AMPLIFIER GAIN
ADJUSTMENT.
2.
Load standard level output tape on the transport and
set the tape controller for a continuous write mode at
a frequency corresponding to 800 cpi and ones written
on all channels.
3.
Rewind and then run forward in a Read mode.
4.
Connect Channell scope probe to test point 103 and
run tape forward. Adjust RIll so that the analog signal
has a 12-volt peak to peak amplitude. (See Figure 64.)
5.
Repeat for all channels. See Table 7 for correct
potentiometers and test points.
VI-48
-r-.
-r-.
-,..
-~
~
1IIItii
12 V AT
TP 103
4-H+
~
i-----
-~
-~
-~
-~-
Figure 64. Read Amplifier Gain Adjustment, Single Gap System
Table 7. Data Electronics Adjustment Points - Single Gap System
Alignment Section
Read Amp Gain
Channel
Test Point
Pot. No.
Comments
--
P
Tp ... I03
R-III
0
TP-203
R-211
1
TP-303
R-311
2
TP-403
R-411
3
TP-503
R-511
4
TP-603
R-611
5
TP-703
R-711
6
TP-803
R-811
7
TP-903
R-911
VI - 49
Not used in
7-channel systems
Not used in
7 -channel systems
Pf:J~'
= f:~~'
I
;
Cll
READ STROBE DELAY
7.3 :
Scope controls:
1•
a)
Mode--Channel I, DC.
b)
Sensitivity--0.1 V/cm.
c)
Trigger--Internal (+) trigger mode.
Connect Channel 1 scope probe to test point 5.
Verify that the transport is selected for high
density operation and read all ones.
A positive pulse will be observed at test point 5.
(See Figure 65.) Adjust R28 for a pulse width of
approximately one-half frame time. At 25 ips this
7}f~~hould be ,~5 p.sec, at 37 • 5 i~s,.l? p. sec '. and at
4..5 ips, 14 #sec. A frame t1.me 1.S def1.ned__as VD"
1. =
,
Where V is the transport velocity ana il .
I
.
~
].
'-'
.: !
1
,.~
r
OJ"
::{''''
!
¥:".;
,,-
'"
is the operatinq data density •
t
-;'TJ
ji ,
~~ ~'~
".j
-~
~(,'
0::..
j (~
:::'1 ~
--------- -='"'
---=
:
~
~
---'11'
------
1111 III L I III I I I I III ;:
I I I I III I I
1111 II I I
./
III L.. ~III
---
:
-:--=
---
1111
1111
1111
1111
tl J 1 111...l
1111
II II
~
~
~
I-
~
~
~
~
2'J,.lSEC AT TP5
@ 25 IPS
j
Figure 65. Read Strobe Delay Adjustment, Single Gap Systems
VI - 50
17.4
HEAD STACK AZIMUTH MEASUREMENT AND CORRECTION
This adjustment is required only when the read/write head assembly
has been repiaced. Its purpose is to ensure that the stack is perpendicular to the tape path. This is a mechanical adjustment and
is accomplished by shimming either (but only one) of the two guides
mounted on the head assembly base plate. The shims are mounted
by removing the guide inserting a shim on the guide shaft! and reassembling the guide on the base plate. The shims ate 0.0002 inch
thick and one shim will correct for 15 microinches of skew.
I
1•
Scope controls:
a)
Mode--Chop.
b)
Sensitivity--O. 2 V/cm
c)
Trigger--External (+) AC trigger mode.
d)
Sweeptime--Sufficient resolution so that
the positive-going edges of each trace can
be accurately measured.
I
DC
I
both channels.
2•
Place Channel 1 scope probe and trigger probe on the
test point corresponding to the head edge track located
closest to the transport. This test point is 605 for
nine-channel systems and 105 for seven-channel systems.
3•
Place Channel 2 probe on t..i.e test point corresponding to
the channel farthest from the transport. This test point
is 705 for nine-channel systems and 905 for sevenchannel systems.
4.
Load a master skew alignment tape I making sure that the
write enable ring is removed. Place the tape controller
unit in a read mode and observe the time displacement
between leading edges • (See Figure 66.) If the time
displacement corresponds to a distance less than 25
microinches no shimming is required.
I
Distance (#linch) = Velocity (ips) X Time (#lsec.)
VI - 51
~ REFERENCE
CHANNEL
'\['\.
"
t-
r-
-~
"..
~-LL.L
,
-~
--
.. ~
-~
-I-~
-~
~l I
, I"
• I I.'
I I"
I
nr
I I
r1-
I I I I
I I"
I I ••
.'
• I
I
,
i
rHI
"I_I
.
.. . ,
II I I
-I-
I I I
~
-~
IIII111111
T
I I II
,. I I
II I
I'
i
I
I
•
.
1
1 rll
I11111
I
TIME DISPLACEMENT (usee) BETWEEN
OUTSIDE CHANNELS
Figure 66. Head Stack Shimming, Single Gap System
VI - 52
If the time displacement corresponds to a distance greater
than 25 microinches, the guide on the file reel side of
the head assembly must be shimmed. The number of shims
can be calculated as follows, where N represents the
number of shim s:
N=
Number of
Shims
(Tape Speed) (Time)
15
Time Displacement for Speed Indicated (J.&sec)
12.5 ips
25 ips
37 • 5 ips
0.7 - 1.8
1.9 - 3.0
3.1 - 4.2
4.3 - 5.4
5.5 - 6.6
6.7 - 7.8
7.9-9.0
9.1 -10.2
0.4 - 0.9
1.0 - 1.5
1.6 - 2.1
2.2-2.7
2.8 - 3.3
3.4 - 3.9
4.0 - 4.5
4.6 - 5.1
0.3
0.7
1.1
1.5
1.9
2.3
2.7
3.1
45 ips
,
1
2
3
4
5
6
7
8
17 • 5
-
0.6
1.0
1.4
1.8
2.2
2.6
3.0
3.4
0.2 - 0.5
0.6 - 0.9
1.0 - 1.2
1.3-1.5
1.6 - 1.8
1.9 - 2.2
2.3 - 2.5
2.6 - 2.8
5.
If the leading edge of the trace being triggered is seen
but not that of the other channel, place the scope trigger
probe on the opposite channel and observe the time displacement between pulse leading edges. In this case,
the tape guide on the capstan side of the head assembly
must be shimmed according to the instructions in step 4.
6.
After the guide is shimmed, verify that the time displacement between the outside channels corresponds
to a distance less than 25 microinches.
VERIFICATION --STAIRCASE MEASUREMENT
A quick verification of all the foregoing adjustments can be made by
checking the width of the data staircase when the transport 1s running
in the forward direction.
1.
Scope controls:
a)
b)
c)
Mode--Channel 1, DC.
Sensitivity--0.1 V/cm.
Trigger--External (+) AC I trigger mode.
VI - 53
2.
Connect scope trigger probe to test pOint 5 and
Channel 1 probe to test point 6.
3.
While reading continuous ones that have just been
recorded, the wavefonn should resemble that shown
in Figure 67. Time T should not exceed:
100
#l sec. (T < 4 #-,sec at 25 ips)
Tape Speed
Time T shall not include the effects of dynamic skew.
4.
If this condition is not met repeat t..lle procedures
specified in paragraph 17 • 4.
j
---1\1
\
-
.
~.
.,,''''
-\
~\
,
\
'- ~~ ~ '-......
\
,~
~' r" '" ......
\
'~
'.\
\
\
~
l~
:,~~
\
,
,
"
\
'" ~-
"'- -""
\
\
......
T
DYNAMIC SKEW EFFECTS
( EXAGGE RATED FOR ILLUSTRATION)
Figure 67
It
Staircase Waveform, Single Gap Systems
VI - 54
18.0
TROUBLESHOOTING
The following System Troubleshooting Chart provides a means
of isolating faults by citing symptoms pro~iding probable
causes and remedies and referencing descriptive sections within the text. This chart in general must be used in conjunction
with applicable schematics I assembly drawings and wiring
diagrams. Refer to the system photographs in Figure 68 and
Figure 69 to help locate the various subassemblies.
I
VI - 55
TROUBLESHOOTING;. GUIDE
I
Remedy
Probable Cause
Symptom
Reference
I
Power indicator light doe s
not work when switch is
pressed on front panel.
.
When the LOAD button
is pressed swing arms
do not move.
Switch S1 to ON position
located by AC cord input.
Section l, Figure 2
+5 volts mis sing.
Check +5 volts at TPl on
regulator circuit board which
j,s mounted on the power supply.
Section 6,
Paragraph 13
C Bl Thermo breaker open.
Push in thermo breaker button
located by AC cord input.
Section 1, Figure 2
Power Indicator Lamp burnt
out.
Check the two outside terminals
for lamp continuity. You can pull
the switch out from the front.
Section VI,
Paragraph 5
No AC voltage to transport.
Check outlet with voltmeter for
the proper AC voltage.
Electro-mechanical retract
assembly not working.
S16 micro switch open on cam
retract assembly.
B13 & B14
+13V unregulated is
missing.
C~heck
B3
P19 connector not seated.
Check connection.
Kl relay coil open.
Pull out relay and measure for
continuity between pins 1 and 4.
. S 1 power switch in OFF
position.
J19 Pin 2 for +Jl3V.
Sec. VI
Figure 49
.
-TROUBLESHOOTING GUIDE
--
I,
Symptom
When the LOAD button
is pressed the swing arms
travel to their upper
limits and retract to the
load position.
When the LOAD button is
pressed tape tensions and
moves forward at a fa st
speed.
When the LOAD button is
pres sed tape tensions and
travels at a fast reverse
speed.
Probable Cause
Remedy
•
.
----'------.---...
~
------------......
RE~ference
~
Tape threaded incorrectly.
Check threading diagram.
Electro-mechanical retract
assembly not: working.
S14 micro switch not closing
during a load cycle.
B13, B14
K1 power relay not picking.
Check JIg Pin 2 for +13V.
B3
+13 volt missing.
-13 volt missing.
Check TP 420.
Check TP 421.
Sec., VI
Para. 1.1
Tape not thre!aded correctly.
Check threclding diagram.
Sec., II. , Fig. 5
Fixed reel anrlpl1fier
defective.
Remove tape, pres s load button
when swing arms reach their upper
limit, turn power OFF & ON. Now
the swing a.rm s can be cycled by
hand and the voltages can be
checked.
Sec . VI.
Para. 15.3.
Check threading diagram.
Sec .. II.
Remove tape, pres s load button
when swing arm s reach their upper
limit, turn power OFF & ON. Now
the swing arm s can be cycled by
hand and the plus and minus
voltages at TP425 and TP418 can
be mea sured •
Sec" VI.
Para. 15.3.
Tape not
thrE~aded
File reel amplifier
defective.
correctly.
Sec. II .,
I
Fj~g.
5
Fig. 5
----------------~
TROUBLESHOOTING. GUIDE
Symptom
When the LOAD pushbutton
is pres sed, tape tensions,
but tape does not move
forward.
<
I-f
en
CX)
When the LOAD pushbutton
is pressed, tape tensions
and the tape move s forward but does not stop at
the BOT marker.
Swing arms continually
cycle up and down after
unloading the tape.
Probable Cause
Remedy
No forward motion (forward
lamp not lit.)
Check TP402 for +5 volts.
B24 & B25
Ramp generator circuit not
working.
Check TP404 for voltage output.
B24
Capstan amplifier not
working.
Check TP408 for voltage output.
B24 & B25
BOT tab dirty or tarnished.
Clean with IBM cleaner.
Photosense lamp burnt out.
Remove head cover and check.
Photosense assembly not
adjusted correctly.
WIth tape loaded and not at BOT
TP 20 1 should be zero volts.
Sec. VI.
Para. 15. 1 .
Microswitch on cam retract not opening.
Remove overlay and check SIS
microswitch by pressin9 LOAD
butt::>n and visually watching for
make and break action.
813 & B14
Defective microswitch.
Te'st microswitch with power OFF
usIng an ohmmeter.
B13 & B14
Reference
&
B25
~----------------.-------~------------------------~--_,--------------------------~----------------"
TROUBLESHOOTING GUIDE
___________.___...______
.
~------------.-----------.-----------.------------.--------------------------.
~______________________
~
~~ __________________________
Symptom
Probable Cause
Remedy
Tape does not respond to a
forward or reverse command in an ON LINE
condition.
,
No ready staltus from transport.
Check ready status J16 Pin T
for zero volts (low TRUE inter'
face. )
B23 & B24
Interface cable fault.
Check at controller cable and
for Ready Status zero volt levc~l
input.
Check forward level J16 Pin C for
zero volts i,nput.
B23 & B24
No select command
Check J16 Pin J for zero volts
input. Check Hand J jumper for
+5 volts.
B23 & B24
File protect logic not
working.
Remove tape ~Turn Power OFF., Turn B12
power ON and push in solenoid
Fig. 23.
plunger; it should stay in. Pr(ess
the LOAD button. The plunge:r
should now come out.
No write powrer.
Check TP6 for +12V. (Dual Gap)
Check TP3 for +5V. (Single G~lp)
Check TP207 for +5 volts.
.
B31 & B32
B28 & B29
Missing writ(e clock.
Check II Pin A for negative going
clock.
B28 &B29 (S/G)
B31 & B32 . (DIG)
Heads not plugged in
correctly.
Check J2 co'nnector
B28 & B29
(S/G)
B 3.1 & B32
(S/G)
No forward input command.
Write command given
but no data being
recorded.
--
_______ __...__
--------.------~
~
Reference
No write enable command.
B23 & B24
- ....._ _ _ _ _..;.._ _ _ _ _....._ _ _ _ _ _ I_IIIIiI-._ _ _ _...._ _ _ _ _ _ _ _ _...._ _ _ _ I_ _..._ , . . . -_ _ _ _ _ _....
TROUBLESHOOTING, GUIDE
Symptom
Written data is not
correct.
Correct written da ta
cannot be read.
Probable Cause
Remedy
Reference
Failure of one Write circuit.
Vlrite all one I s and check
TP101 through TP901 for
V'lrite signals.
B31 & B32 (DIG)
B28 &B29 !S/G)
Intermittent Write power,
motion, or write reset.
M[onitor Write 'TP6, (D/G) or
TP3 (S/G) motion TP204, Write
re: s et J1 Pin C. Look for level
changes.
l331 & B32 (DIG)
B28 & B29(S/G)
One of the read channels
is dead.
On dual gap units real all one: s
and check TP102 throu9h TP902
for proper analog waveform s •
Check TP103 through TP903 for
proper digital waveforms.
B31 & B32 (DIG)
I
(J")
o
On single gap units, read all
one's and check TP103 through
T1'903 for proper analo9 waveforms. Check TP105 through
T1'905 for proper digital waveforms.
Tape tracking is not
adjusted correctly.
Check sta'ircase.
B28 & B29 (S/G)
Sec. VI. Par. 16. 8
(Dual Gap)
Sec. VI. Par. 17.5
(Single Gap)
TROUBLESHOOTING CHART
Symptom
ProbabJle Cause
Correct written data
cannot be read I cont d •
I
Remedy
--.-------------------~
Reference:
Read amplifier gains are
incorrectly adjusted.
Check read amplifier gains.
Sec. VI. Par. 16. 3
(Dual Gap)
Sec. VI. Par. 1 7 • 2
(Single Gap)
Read Strobe Delay
adjustment not correct.
Check read strobe delay
adjustment
Sec. VI. Par. 16.5
(Dual Gap)
Sec. VI. Par. 17.3
(Single Gap)
II
(j')
......
1...._----1--------------
FILE
TRANSPORT
PWB
ELECTRONICS
ASSY
REEL
MOTOR
WRITE ENABLE SWITCH
ARM
SENSE ASSY
(FI LE)
-
DATA
.........- ELECTRONICS
PWB ASSY
ASSY-~-......-
POWER
SUPPLY
REGULATOR
~~l...-++-
ASSY.
AUTOMATIC
RETRACT
MOTOR
....,.,.,..;;.,=----I-.--......-+i-ARM
SENSE
ASSY. (FIXED)
OCP
CABLE
"'~~--+l- HEAD
CABLE
LAMP-
~~fi---H-HOLDER
ASSY.
(FIXED)
---id--POWERON
(51)
-'
POWER
SUPPLY ASSY
Figure 68.
FIXED
REEL
MOTOR
MOD 10 Tape System - Rear View
VI - 62
MOTOR
r-----------
SWING ARM (FIXED)
,..--_ _ _ _ _ _ _ _ WRITE ENABLE SWITCH
SWING ARM (FILE) _ _ _--,
,.......----- HOLD DOWN
ASSY. SWING ARM
GUIDE
ARM
DOOR
KNOB ASSY
STOP
ASSY.,
DECK MTG.
GUIDE
LIMIT
SWITCHES
ASSY., SW I NG
ARM GUIDE
_-...J..--OCP
SWITCHES
HEAD-------.....
GUIDE
BOT / EOT
SENSE - - ".....
TAPE--CLEANER
HEAD--.....
ASSY.,--......
DECK MTG.
GUIDE
HEAD--:-.GUI DE
ASSY.,
DECK MTG.
GUIDE
FIXED
REEL
Figure 69. Front View with Overlay Removed
VI - 63
HUB
APPENDIX A
RECOMMENDED SPARE PARTS LIST
WANGCO MOD 10 TAPE SYSTEM
For resistors,
other . items not
any equivalent
and quality may
r
capacitors, small hardware and
included in the following list,
in type, value, size, tolerance
be substituted.
A-I
RECOMMENDED 'S'PAREPARTS'LIST
WANGCO MOD 10 TAPE SYSTEM
Description
Wangco
Number
Qty
Remarks/
Commercial
Equivalent
HEAD ASSEMBLIES AND ASSOCIATED PARTS
Head Plate Assy, 9 Ch, D/G
200043
1
Head Plate Assy, 9 Ch, S;G
200227
1
Head Plate Assy, 0.300", 7 Ch, D/G
200115
1
Head Plate Assy, 0.150", 7 Ch, D/G
200589
1
Head Plate Assy, 7 Ch, SIG
200226
1
Tape Cleaner Assy
200048
1
lc;()" ,,
Cross Talk Shield Assy, ()-.--7 & 9 Ch, DIG
200057
1
Cross Talk Shield Assy, 0.300",
7 Ch. D/G
200461
1
Photosense Assy
200057
1
Head Cover
200277
1
Photosense Cover
200278
1
Tape Guide Washer
200046
1
Tape Guide Spring
200047
1
Tape Guide Drum
200096
1
Tape Guide Shim
200203
as req.
Spring Washer
100134-001
1
Tape Guide Cap
201311
1
100040-220
1
Reel Motor Assy
200063
1
Reel Motor and Brake Assy
201021
1 Reel Brake Option
Flat-Head Screw, 4-40 x
1~"
MOTORS AND BRUSHES
A-2
RECOMMENDED SPARE PARTS LIST
WANGCO MOD 10 TAPE SYSTEM
n ........... "" .....l , .... /
n.C.lua.L J\. i:) I
Wang co
NU!!lber
MOTORS
P~D
Commercial
()t-v
x. - . l
ROlli
1 Ant-_
-- V~
- ------~
BRUSHES (continued)
Reel Motor Brake
100249
1 Reel Brake Option
Reel Motor Brush
100190
1 Use with motors
200220, 200374-002
Reel Motor Brush
100379
1 Use with motor
200374-001
Reel Motor Brush
100397
1 Use with motor 201598
Auto Retract Motor ASsy
200119
1
Auto Retract Motor Assy
200500
1 Reel Brake Option
Capstan Motor/Tach ASsy
200547
1 Use with motors
200042, 201534
Capstan Motor Brush
100186
1 Use with motor 200042
Capstan Motor Brush
100430
1 Use with motor 201534
PRINTED WIRING BOARD ASSEMBLIES
Transport Electronics Assy, PWB
200488
1 Single Edge
Connectors
Transport Electronics Assy, PWB
200632
1 Dual Edge Connectors
Data Electronics Assy, PWB, S/G
200347
1
Data Electronics Assy, PWB, D/G
200521
1
Data Electronics Assy, PWB
201142
1 Dual Edge Connectors
Regulator ASsy
200495
1
Brake Logic Assy, PWB
200518
1 Reel Brake Option
Arm Sense Assy, PWB
200475
1
A-3
RECOMMENDED SPARE PARTS LIST
WANGCO MOD 10 TAPE SYSTEM
Description
Wangco
Number
Remarks/
Commercial
Equivalent
Qty
TAPE GUIDE ASSEMBLIES
Deck Mounting Guide Assy
200036
1 25 ips and below
Deck Mounting Guide Assy
200075
1
Deck Mounting Guide ASsy
200217
1
Self Aligning Guide Assy
200425
1 - 3
Eccentric Guide Assy
200810
1
37~
ips and above
MISCELLANEOUS ELECTRO-MECHANICAL PARTS
Arm Sense Lampho1der Assy
200794
1
Write Enable Switch ASsy
200378
1
Power Transformer
200011
1 25 ips, 115/240V
Power Transformer
200487
1
Power Transformer
201067
1 25 ips, 100/200V
Power Transformer
200116
1
Circuit Breaker
100014
1
Rectifier Bridge
100018
1 Sangamo 500-1943-01
37~
37~
ips & above, 115/240V
ips & above, 100/200V
Capacitor,
100,000uf
100020-008
1 Sangamo 500-1949-01
Capacitor,
30,000uf
100020-014
1 Litt1efuse, 311004
Fuse, 4 amp
100028-023
1 Litt1efuse, 311005
Fuse, 5 amp
100028-024
1 Litt1efuse, 311010
Fuse, 10 amp
100028-027
1
Power Supply Relay
100030
1
Arm Retract Relay
100215
1 Two required with Reel
Brake Option
A-4
RECOMMENDED SPARE PARTS LIST
WANGCO MOD 10 TAPE SYSTEH
Remarks/
Commercial
Equivalent
Wangco
Description
Number
Qty
MISCELLANEOUS ELECTRO-!-·1ECHANICAL PARTS (continued)
Switch & Indicator, FORWARD
100104-001
1
Control Panel
Switch & Indicator, LOAD
100104-0021
Control Panel
Switch & Indicator, ON-LINE
100104-003
1
Control Panel
Switch & Indicator, REVERSE
100104-004
1
Control Panel
Switch & Indicator, POWER
100179-001
1
Control Panel
Switch & Indicator, DENSITY
100179-005
1
Contr1 Pn1, Densi ty
Select Option
Swi tch
100130-001
1
Control
100130-002
1. Control Panel
&
Indicator', REWIND
Switch, RESET
Thumb Switch, UNIT SELECT
100245
Pan~l
1
Control Panel, unit
Select
ELECTRONIC COMPONEN'rs USED ON· 200347 PWB
I.C. Hex. Inverter
100084
1
~1otorola ~1C-8
I.C. Quad, 2-Input NAND
100085
1
TI SN 15846N
I.C. Quad, 2-Input Power
100086
1
TI SN 15858N
I.C. 10-Input· NAND
100087
1
Motorola HC-1804P
IoC= Dual Flip-Flop
100088
1
TI SN158093N
I.C. Monostable
100090
1
Fairchild U6A960159X
I.C. Dual Flip-Flop
100095
1
Hotorola HC-852P
I.C. Operational Amplifier
100167
1
Motorola MC-1437L
Transistor, NPN
100080
5
2N4l23
Transistor, PNP
100081
3
2N4125
Signal Diode
100091
12
A-5
IN914
36P
RECO~1MENDED
SPARE PARTS LIST
WANGCO MOD 10 TAPE SYSTEM
Description
Wang co
Number
Remarks/
Commercial
Equivalent
Qty
ELECTRONIC COMPONENTS USED ON 200488 PWB
I. C. Hex Inverter
100084
1
~otorola
I. C. Quad 2-Input NAND
100085
1
TI SN 15846N
I. C. Quad 2-Input Power
100086
1
TI SN 15858N
I. C. Dual Flip-Flop
100088
1
TI SN 158093N
I. C. Triple 3-Input NAND
100107
1
~1otoro1a
I. C. Operational Amp
100109
1
Fairchild U6A77241393
Transistor, NPN
100080
3
2N4123
Transistor, PNP
100081
2
2N4125
Transistor, NPN
100112
1
TI-P29
Transistor, PNP
100113
1
TI-P30
Transistor, NPN
100125
1
2N2219
Transistor, PNP
100158
1
2N3053
Transistor, PNP
100160
1
2N4037
Transistor, NPN
100173
1
2N3771
Signal Diode
100091
5
1N914
Zener Diode, 5.6V
100118
1
IN752
Power Diode
100174
1
IN3208
Rectifier Diode
100127
1
IN4003
MC-836P
HC-862P
ELECTRONIC COMPONENTS USED ON 200495 PWB
I. C. Voltage Regulator
100108
1
Fairchild U6A7723393
Transistor, PNP
100081
1
2N4125
Transistor. PNP
100113
1
TI~P30
A-6
RECOMMENDED SPARE PARTS LIST
WANGCO MOD 10 TAPE SYSTEM
T'"'\ _ _ _ _ _
! _ L . ! __
ue:::>l.,;L...LpL.....LUl1
.H.emarksi
Commercial
Wangco
D,....."I''': ... .,. ...... , ,...... ....... ~
.L:.oY,U..LVQ..LC::.llL.
1\T.~_1- ~_
1'1 U!ll.IJt: L
ELECTRONIC COMPONENTS USED ON 200495 PWB (continued)
Transistor, NPN
100159
1
Signal Diode
100091
.1
1N914
Zener Diode
100118
1
1N752
Rectified Diode
100127
1
IN4003
Zener Diode
100161
1
IN4736A
Silicon C Rectifier
100162
1
40654
2N3055
ELECTRONIC COMPONENTS USED ON 200518 PWB
Transisto~ NPN
100080
1
2N4123
Transistor,
100083
1
MPS-U51
Transistor, PNP
100125
1
2N2219
Signal Diode
100091
2
1N914
PNP
ELECTRONIC COMPONENTS USED ON 200521 PWB
I. C. Hex Inverter
100084
1
Motorola MC-836P
I. C. Quad 2-Input NAND
100085
1
TI SN 15846N
I. C. Quad 2-Input Power
100086
1
TI SN 15858N
100087
1
~1otorola ~1C-1804P
I. C. Dual Flip-Flop
100088
1
TI SN 158093N
I. C. Operation Amplifier
100089
1
Fairchild U6A7739393
I. C. Hono Hultivibrator
100090
1
Fairchild U6A960159X
Transistor NPN
100080
7
2N4123
Transistor PNP
100081
2
2N4125
Transistor Dual NPN
100082
1
TD 101
I.
c.
10-Input NAND
A-7
RECOMMENDED SPARE PARTS LIST
WANGCO MOD 10 TAPE SYSTEM
Description
Wangco
Number
Remarks /
Commercial
Equivalent
Qty
ELECTRONIC COMPONENTS USED ON 200521 PWB (continued)
Transistor PNP
100083
1
HPS-U51
Signal Diode
100091
5
IN914
ELECTRONIC COMPONENTS USED ON 200632 PWB
I. C. Hex Inverter
100084
1
Hotorola MC-836P
I. C. Quad 2-Input NAND
100085
1
TI SN 15846N
I. C. Quad 2-Input Power
100086
1
TI SN 15858N
I. C. Dual Flip-Flop
100088
1
TI SN"158093N
I. C. Triple 3-Input NAND
100107
1
"fotorola HC- 8 6 2P
I. C. Operational Amplifier
100109
1
Fairchild U6A7741393
I. C. Dual 4-Input Power Gate
100261
1
Transistor
100080
4
2N4123
Transistor PNP
100081
"2
2N4125
Transistor NPN
100112
1
TI~P29
Transistor PNP
100113
1
TI-P30
Transistor
NPN
100125
1
2N2219
Transistor
NPN
100158
1
2N3053
Transistor PNP
100160
1
2N4037
Transistor NPN
100173
1
2N3771
Transistor PNP
100083
1
t-1PS-U51
Zener Diode, 5.6V
100118
1
IN752
Rectifier Diode
100127
1
IN4003
Power Diode
100174
1
IN3208
NPN
A-8
RECOMMENDED SPARE PARTS LIST
WANGCO MOD 10 TAPE SYSTEM
Description
Wang co
Number
Remarks!
Commercial
Qty
Equi~alent
ELECTRONIC COMPONENTS USED ON 200632 PWB (continued)
,..
' ,..,,,"",,,
.., "''T'"
:J
l..UUU~..l
J..l'J ~ Ll!:
Signal Diode
A
ELECTRONIC COMPONENTS USED ON 201142 PWB
I.C. Hex Inverter
100084
;L
I.C. Quad 2-Input NAND
100085
1
I.C. Quad 2-Input Power
100086
1
I.C. 10-Input NAND
100087
1
I.C. Dual Flip-Flop
100088
.1
I.C. Operational Amplifier
100089
1
I.C. Monostable
100090
1
Transistor, NPN
100080
7
2N4123
Transistor PNP
100081
1
2N4125
Transistor Dual NPN
100082
1
TD-I0l
Transistor PNP
100083
1
HPS-U51
Signal Diode
100091
4
IN914
Rectifier Diode
100127
1
IN4003
A-9
..
APPENDIX B
This appendix contains the circuit schematics, assembly
drawings, and material lists for all assemblies and subassemblies in the MOD 10 Tape Transport.
These documents
are identified in the list on the following page.
The circuit schematics are complete representations of the
electronics circuitry.
The user of this manual will want
to consult the schematics in conjunction with his study of
the text and the simplified circuit diagrams in the text
sections.
The assembly drawings identify every part on any given
assembly or subassembly.
Parts are identified either by
item number (e.g., 1, 2, 3, etc.) or circuit reference
number (e.g., Rl, Cl, Ul, etc.).
The associated material
lists incorpo~ate these identification numbers, together
with the part description, WANGCO part number, and part
quantity (i.e., the quantity of a particular part required
for the given assembly).
APPENDIX B
List of Drawings
Drawing
No.
Material List, Power Supply
Schematic, Power Supply
Assembly, Power Supply
Material List, Power Supply Regulators
Schematic, Power Supply Regulators
Assembly, Power Supply Regulators
Deleted
Assembly, Regulator Output Cable
Assembly, Cable OCP
B-IO. Assembly, Photosense
B-IOa. Assembly, Photosense
B-ll.
Assembly, Arm Sense
B-12. Assembly, Write/Enable Switch
B-13. Schematic, Retract Motor
B-14. Assembly, Retract Motor
B-15. Material List, Retract Motor,
Brake Option
Schematic, Retract Motor, Brake Option
B-16.
B-17. Assembly, Retract Motor, Brake Option
Schematic, Brake Logic
B-18.
B-19. Assembly, Brake Logic
B-20. Assembly, Data Control Cable
B-21. Assembly, Micro Switch Harness
B-22. Material List, Transport Electronics
B-23.
Schematic, Transport Control Logic
B-24.
Schematic, Servo Amplifiers
B-25. Assembly, Transport Electronics
Deleted
B-26.
B-27. Material List, Transport Electronics
Schematic, Transport Control Logic
B-28.
Schematic, Servo Amplifiers
B-29.
Assembly, Transport Electronics
B-30.
B-31. Material List, Data Electronics,
Single Gap,
Schematic, Data Electronics,Single Gap
B-32.
B-33. Assembly, Data Electronics, Single Gap
B-34. Material List, Data Electronics,
Dual Gap
B-35. Schematic, Data Electronics, Dual Gap
B-36. Assembly, Data Electronics, Dual Gap
Material List, Data Electronics,
B-37.
Dual Gap
Schematic, Data Electronics, Dual Gap
B-38.
B-39. Assembly, Data Electronics, Dual Gap
B-40. Wiring Diagram - Single Gap
B-41. Wiring Diagram - Dual Gap
B-1.
B-2.
B-3.
B-4.
B-5.
B-6.
B-7.
B-8.
B-9.
200511G
200498E
200498E
200495H
200495F
200495F
200858B
200505E
200164D
200057A
200475E
200378J
200119M
200119M
200500G
200500F
200500F
200518B
200518B
200504C
200550C
200488T
200488T
200488T
200488T
Sheet
1 & 2
3 of 3
1 & 2
1 & 2
4 of 4
3 ·of 4
1 of 1
1 &
1 &
1 &
1 &
1 &
2
2
2
2
2
3 of 3
1 & 2
& 2
of 4
of 4
of 3
2 of 3
1 & 2
1
4
3
3
1 & 2
1 thru
58 of
57 of
59 of
57
59
59
59
200632U 16 thru 42
200632U
43 of 45
200632U
44 of 45
200632U
45 of 45
200347J
200347J
200347J
1 thru 8
10 of 10
9 of 10
200521M
200521M
200521M
1 thru 19
20 of 21
21 of 21
201142D
201142D
201142D
200851A
200549C
1 thru 35
19 of 20
20 of 20
1 of 1
1 of 1
MATERIAL
' \ } ) W,,, ..,
~I
LIST
COnlplIt(!r
PIOdLIt:lb
DRAWING
TITLE
ASSI. 115~. 6oM••
~R SUPPLY. ~ ~I!SI
DRAWING
1
Chass1s, Pow.r Supply.
2
Spec. PGwer Tran,toraer.
TITLI!
1-1__ f---,'--- '-'---' ---,-Breaker, C1rcu1t.
S
Switoh, Toggle.
6
Bridge, Rectit1er.
7
DPST.
14
15
t--16
1
100014
1
CB-l
100015
1
31.
100016
2
DB-I. DB-2.
n.
.--~--,
-,
,
Block, Te:na1na1.
100023-010
1
Ta.1.
Clamp, Capao1tor. 2" Die.
'~~2?.~~, ....
Clamp, Capac1tor. 3" Dia.
_.,. . -
-_._--
Holder, Fuee.
Fuee.
f-Fuse.
"
.- .-.
10002$..007
I
--..
~.
.....;.-
-,-.-----~-
Use with 1tem 7.
2
"100021"" -j-"s-
4 lIMp. 100028-(2)
S amp.
~~2~2~,-I
10 amp. l00026-o27
Fuse.
Use with 1t8111 6.
L_2.,.• _f-.,-,--
.--- ....-
"-- ...
....
1
F4.
1
Fl.
3
F2.F3.F!'.
DWG. NO.
f----
OAT
. . . , 0 .. ' -
...
-,--~---
,~"-
~.--
Screw, Pan Head.
1(00)6-310
4
Screw, Pan Head.
1000)6-$08
12
Washer, Flat.
~47-200
4
Washer, Flat.
100047-)00
6
No.6.
100047-500
4
No.IC
1(00)6-214
1(00)6-)0)
....
,4
6 - J
16
6 - 31
r--~~---.,--.-.
-,--------
49
-,r-'~
So
_- r52
.--------~-
'--r-
..
"'___ . . . . _.-0.-...
Washer, Flat.
51
....
Washer, USt. Toath Lollle:.
100059-300
22
No.6.
Washer, Int. Tooth Lock.
1000$9-500
4
No.le
.
~
100043-200
Nut, H.x.
4
59
Nut, Hex.
100043-500
4
18
Oro_to
100027-009
1
60
'('ec;T Pr-oc.eth.\V'e.
to1109-oo2.
{l.eP.
19
Strip, Marker.
1~8-o10
1
61
ASST. Power Supp17.
lOO149-OO7
r---'-- .-..- - . - - - - - .....
JlIlI!p8r, 2 Tel'lllinal.
..100150
f------
2
--21
--
2
22
2)
Cord, Power.
100152-001 T.._-l
1
100076
24
Tenll1nal, Ins. StUld-ott.
loo178-OO1
2S
Diode, Reot1t1er.
26
27
28
C1U1p, CaIb1••
Capac1tor.
.
200ut.
Power C()rd.
Male.
P1n,
n
Femo.1e.
100021-005
'1
68
P1n,
n
Female.
100021-006
II
69
Pin,
n
Male.
100021..007
2
70
P1n,
n
Male.
100021-010
)
100053-016
AIR
Rl. thrll
29
Conn.ctor, Femal••
100010-005
1
P21.
Connector, Feaale.
2
J1B.
31
Conneotor, F....l ••
l00010-oar
10001()..()()9
1
P14.
R4.
71
J1!~.
32
W1re, Inau1at.ed.
W1re, Ineulated.
100053-012
Afa
34
1000$3-014
AIR
3$
Wire, Ineu1ated.
10005)-016
AIR
)6
W1re, Inl!l\llated.
1000$)-024
A/R
31
Tendnal, Ins. R1ng Tongue.
)8
TeI'll1na1,
I~
leI. No.10.
1000$7..004
2.1
Red. No •. 6.
Red.No.l.O.
39
TeI'llinal,
1000$7-006
3
Ten!lina1, QJ.iok Di!lconneot.
100139-001
t.
41
Lug, Solder.
100136-004
8
1,2
Tena1nal, Ine. Ring TongUe.
1ooo5S-002
I
Wire, Insulated.
-------_
...
Stl"ap, Cal:>le
lOOil '71-001
Z
73
Stl'ap, Cable
100171-002.
6
74
Terminal ,Quic'\< DiSCOl\~~ ~~n~-OOl
\0011.1-00\
ttlsuLatov_.. _-,-_._--- f-.-.
75
r----rf---r-'
100055-004
40
12
f-.
t - - r'------·--,·--·-·----· r-'------- ~.
B-1.
r---
2..__
2.
-
-
-,-----------------
fo---\.\~e
\
-
r----r·
Ie1. No .. 6.
.
~
67
liS.
Drewi.na: 0!llT.
No.lC
...
C5.C6.
4
No.~,.
4-
CI.1. thn CR.9.
1
n
_.. --""-..
Ret.
Ref.
2
100068-)31
n
Pin, Connector.
Ret.
9
l00111"001
n
200S14
1.0031l
100021..(0)
6
1ool27
)30n
,.
TeST Proc.edul"e
200498
No.L •.
D
1oo1B)
0.1n.
n
Liet, Wire.
64
66
2
)W •
,.
63
65
30
33
:-
-
'~
Redetor. 5~. Sw.
Rell18tor.
"'6'2 t-'-----,------t- .-.... _-_.. ,----_._-_._._.
TB.3. TIl.4.
-
M
$8
Str1p, Te:na1na1.
1"
-
54
2
20
5/6"
~
100227-005
'---
It
No.4.
5S
57
K1.
-
No.4.
Orolllll\8t.
1
-
10 .' 32 x
4
17
1000)0
-
6 - 31 2
x 7/6"
M
... ".. _---- ..__ ._-_._.-._---- f-.
L'Iasher, Int. Tooth Lock.
1OOOS9-2oo
53 t- ..._-_.--_.
.,,--
--
REMARKS ON
4 - L,0
2
~.
------------f-.100(4)-300
Nut, Hex.
Rel~.
~"'
46
~--~---.~
-*--"-' -- " -.- r-- - .------.56
---_ ... 1--.-.,.
NO. REO.
Screw, Pan Head.
Screw, Pan Head.
46
C1.C2.) n~lIIrC¥:aoe ;ath~:---,-
._._- ----".,,-.-
MODEL NO.
1#
4)
44
"47-
2
-
TITLI!
DRAWING
-- ..'-- r-'-,---.-..---.---.--.-.---- f - o - - 1(00)6-)04
Screw, Pan Heod.
-- ,4$- f- •. - - , - - - - '- - ' . - , . - - . - - - - f-.-.
..
100020-014
fo---- r--"""--
-,--
- ...
Capac1tor, Elect.
f-.--- f--.- .. - -
13
1
C).C4. ~ ReMove Terminal Screws
~- f--' --'- ......",.__.__ ... __.
12
-
2
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~
LIST
D
ITEM
NO.
."._.""--- -
-----
1---
II
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100020..006
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ASRI. ll$v. 6atS.
POWER SUPPLY. 25 125.
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2OQS09
..
SHEET
MATERIAL
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P'nrhwt"-
Capao1tor, Elect. 100,000111.
ra-" f-'--"-'- - ,- - - - - - - - - 10
NO~REO.I
200011
~
4
DWG.
DATE~~
~
MODEL NO.
1
ITEM
NO.
'\})\'."..
JG
200SI,
I
Material List, Power Supply
-
-
-
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.
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200511
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9
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55
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I
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56
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lOOO47-2ob
9
9
100111-002
1
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57
Washl~r,
.2
100111-003
1
Rll.
58
!fut, ,Hex.
"
" "
)6
100156-560
1
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100
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4
150
100156-101
100111-151
59
60
"
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100059-:30(>
200496
200180
B-4. Material List, Power Supply Regulators
,
No.4.
9
~
2
REF
Ret.
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6 - )2.
No.6.
L
OF...!L.
DESIG.
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DRAWING
TITLE
ITEM
NO.
MATERIAL
ASS I • POWER SUPPLY
REGULA TORS.
MODEL NO.
TITLe:
DRAWING
IML:
LIST
DWG. NO.
lt
200497
200510
1
1
200515
2
4
S
I.C. Voltage Regulator.
100108
.3
6
7
Transistor. PNP.
Transistor. PNP.
8
Transistor. NPN.
2
3
IRl v.
NO.
OATE~ $I1HT~
\lJ
IH
OF
DIIAWINf}
TITLE
...!:l.-
REMARKS ON CIC1. DESIG.
12
Diode, Rectitier.
Diode, Zener.
Redstar.
TI.P30
l0011)
.3
Ql.3.6 •
2f13055
100159
.3
Q2.4.7 •
39
40
;
Rectif1er, Silicon C.
IN7,2
l00U8
1
VR2.
1N400.3
IN4736A
100127
100161
a
CR2, CR'
VRl.
40654
100162
Rc!l1ator.
5%.
1.21
MODEL NO.
l~
OWG. HO.
NO. FlEQ.
Capacitor, Ceramic.
Capacitor, Po1ytilm.
.OO1ut 100073·102
•01u! 100078.103
1
1
SeRlo
43
44
45
46
Capacitor, Tantalum
1
C12
4B
cs
49
50
1.Suf 100136-155
1
.3
..
lOu! 100070-106
1
n
47uf
100070-416
.3
CapaCitor,
CapaCitor,
21
Capacitor Po1vfilm .0221.1£ 00078-223
ReSistor, Variable.
100163-501
500
n
ReSistor,
1K
100163-102
1
C5.6.10.
Cl.
C4.9.1l •
1
R23.
Rl2.
100156-·15~
1
100156.• 201
1
Rl).
" "
2.2K
lOO156-·22~
3
R3.6.l6.
n
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.3.)K
100156... 3,*
.3
RlS.18.24.
1001S6-3~
1
R17.
100021··001
9
J21
"
" "
2K
1~2
2
1
R2.21.
Pin, Hale.
Pin, FeMle.
SHEET
Pin,. Test.
Pad, rra~sistor.
Insu~ator,
Insu~ator,
Trar.sistor •
Transist.or •
S
100098
4
Tf1 thrurp4.
100223
1
100146
100151
.3
3
Use with Item.14.
Use vith Item.7
lOOO21··0Cll
100251-:100
9
lOOO36-30~
2
No. 4.
6 - 32 x 3/8"
54
ScrelJl, Pan Head.
1oo036·.21~
.
9
4 - 40
lOOO42-~OO
9
9
No.4.
iashE;l:', Flat:
!:cr~IJf,
Rl4.
55
100111-004
I
ReS
56
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lOOO47-·2ob
5%. Sv.
•15
100111-002
1
R1.
Wa!lher, Nylon Shoulder •
100063-.Qli2
" "
•2
100111-003
1
Rll •
1oo04J-·~
ReSistor.
"
~.
56
100156-560
1
57
56
59
28
29
Resistor.
ReSistor.
II
"
100
150
100156-101
lOOUl-l51
4
30
31
ReSistor.
ReSistor.
ReSistor.
330
750
100156-331
100156-751
100156-102
1
1
1
RESISTOR 5%,5w.
25
Ree1stor.
26
Resistor.
27
5v.
"
" tv·
" "
" "
lK
1
R22
R4.9. 5,10.
R19.
R20.
Rl.
U88 with Item.B.
Pan Head.
53
.4
24
& J26.
J21 &: J26.
51
52
NO.
IREv.
Iii
60
Hex.
Nut, Hex.
'ria!'!hl!r, Int. Tooth Lock.
61
Artv-:)rk, Ka!lter.
62
Test Procedure.
~t!t,.
100043-Jot>
100059-.)0(>
200496
200180
RB.
B-4. Material List, Power Supply Regulators
,
No.4.
9
2
2
REF
Ret.
L
OF...!L..
REMARKS ON CKT. DESIG.
100156-·122
!Jprlng Lock: Washer
32
DATE~
1.2
·47
19
20
22
23
Resistor.
38
,Diode, Zener.
17
18
)7
36
DRAWING
200495
41
11
15
16
Resistor.
Resistor.
QS.
10
14
lSK
34
35
1
9
13
I
TITLE
two
" "
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Resistor.
IML:
LIST
POWER SUPPLY
D"AWING
33
100081
2N4125
~SSY.
NO.
Ul.2 • .3 •
MATERIAL
Rf.:.;ULATOftS.
ITEM
NO. FlEO.
Board, Processed.
Heatsink.
Bracket, Support.
1
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200495
h> ....·liO.
6 .. 32.
No.6.
X
5/8 11
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11
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1/1
1
6- )2 x 7/16
17
So...... Pan H.ad.
St.rap. Cable.
18
Wuh.I', nat..
1CX)Oh1-)OO
2
19
Wuhel'. nat.
loooh7-100
II
No.2.
20
So..... Pan H..d
lOOO:l6-lOIi
2
2-f6xi
1ooo)l-OO~
1
No.6.
9
~eGdIl>Aw~
6~F
(~
4
LUBRICATE J~ LL SLICIING SURFACES WITH
SILICONE GR~ lEASE, 1004091 , DOW NO. III
3
ITEM 5, SWI TCH MUST RELEASE WITH
PLUNGER EN ERGIZED AND ACTUATE WITH
PLUNGER 01:,-ENER(HZED,
2
WITH SOLEN 010, ITEM 5, ENERGIZED DIM nAil
= .67±.OI
NOTES:
NOTES UNLESS SPECIFIED
1. TOLERANCES
,XX!
.XXX!
I DENT I FY WITH WCf) SPEC 100031, TAG.
-----------------
DRAWN
CHECK
ANGULAR
Walnlco
1W
Incorporated
-----·--·---·-'----·------r~
2, BREAK ALL SHARP
EDGES APl'ROX, ,DID
3,
MACH, SURFACES
4,
ALL DIMS IN INCHES.
J
CJ S5 Y'.. J' 1/1/£n~
·"-l"
------,---'-"'--------------,
B-l2.
_______,_ _...._Io....__________
.....1M) NOT SCALE
'Z('?Q 2,B'5
Assembly, Write/Enable Switch
'r>,
liS DRAWING
.
\01
SW, faTv.
REO'D,
.200318
1.:\
_~
~IJ £)13(.:~
-
WEIGHT
ISHIlET
IV
~
I!)' 'Z.
,~eeF
--------------------~
PI9
L.e1AO
p.&.
~_1I_2_Q_3~4r
-fIt. V l/All2cdr-
515 ('STOP SWilCH. TbP)
CAM LOAD SWITcH'
/--@
+ .-:/
S 16 (tAID POS - 514. ~rI:JIf
G20tlI.)D
("CAM L014D
<:'14
'iw.) '-11--"';""""'"
~---------------------WIR'NG OlA6RAM
PI9
CAM LOAD SHllrcH
GflOVAJO
+lfV U4JIZEli.
-STA2r 1Z~rllAcr
+t-----'~
11/0
K~
(e'1'Il"Cr ~
.. ,,,
'.""''fJ
HOTES UN!.ESS SPECIFIED
1. TOLERANCES
.XXi .xXXi2. BREAK
ALI~
ANGULAR
i -
. .ARt'
EDGES APPROX • .010
TflAAiSPoRr /leADY' / ) - I . - - - - - . - - - " " ' t i (
3.
DRAWN
MACH. IU!JtFACES
~
J
\0\
R~bXb.
4. ALL DIMS IN INCHES.
I
~f.lE.MATIC
NEXT
'20v285
B-13.
Schematic,
RE~tract
'lOt:> \\ ~
ASSV
Motor
\WI:YL~
WEIGHT
SHEET
3
Of-
3
---------- - - . - . - - - -..
,-~---
77;)PI';;-3 - 7'0 .4'0 -,3
-
n::> K2 -.". 71::> K2-.A::I
!]:f,
eO,URS <:7.'" !{K//TC,//GS,WMfiAlP06IT/t!>Altt:/J.1J1ell:};:'OVGR AI",rcN,rS /AI /rGM·~ CeOrTOM t:JF.Ale7rCAl8.>' ,t:JIt:J rO.040
Q:I ~::<::"~:~::"r~AI::/T":e$s:r:,,:r&~~::~~~~
81 /£)6t/TIFY /9Ssv ,PeR Net:>
~07~;:S:
NO!.'~~.IPI~~=
....
1. TOUfIIAHCa
.JUClII*
t. IAIEAk AlL IHA'"
IDGUNffIOK. J:na
:L 1tI.IlICH....
--- .. ,._----_. "---,-_.
,,---_.-
----,~.---."-
-
B-14.
l\ssembly, Retract Motor
".ACU
('JlfIC.C-SS
sA:!''!::' ..t::\::t1.5'7,
OTNceNlst!" S..e"C'I,<"'/Ctl
\l)
DRAWING
TITLe:
MATERIAL
DR"""NG
[~"n
! IlliKE OPTION.
DRAWING
NO.
MOOEL NO.
TITLE
DWG.NC.
Assy. Brake Loe1c PWB.
200518
l~
DArrl1L1lL1J
NO. REQ.
Ie::;:
200122
Spacer, Small.
Retract Motor.
200123
SHUT...L
o,..l!....
REMARKS ON CKT. DUIG.
\l)
DIIAWfNG
TlTLt:
ITEM
NO.
MATER. AL
f,f!A1P' rtI:!IIQN:
O""'WING'TITLE
:
Pan Head.
1000)6,-108
4
2-56 x
100036>-114
100036-206
2
2-56 x 7/a"
100036-207
3
1
4-40 x 3/8"
4-40 x 7/16"
100036-508
2
10-32 x
Scrf~v,
36
SCt'I~W,
"
"
"
"
"
"
4
~tud,
5
6
Plate, Switch Mounting.
Crank.
200&03
3
1
37
Scr<~w ,
200804
1
lS
;Ct"l3W,
1
Spacor, Shim.
20060$
S
31
Scrlaw, Pan Head.
41
Split Lock.,
42
;;"!~1er,
100010-002
100010-003
2
1
J~~~J2S.
L3
12
Connector, Jack.
Connector, Plug.
PIO.
4'/
,:a!;;,'!r, ~pl1t Lock.
Wa"J!'ler, .SPUt'),,'t Lock.
13
Connector, Plug.
100010-006
1
P19.
4$
Wa~:'ler,
1L
Pin, Connector.
100021-003
8
IS'
16
Pin, Connector. Female.
100021-005
..
46
Strap, Cable.
100031-001
1
47
1!3
11
17
18
-'
Male.
;:t • . ~
flat.
ir.'as!1er, flat.
Wa~!'ler,
Wire, Insulated.
1000.53-924
A/R
S'l
~lutp ~ex.
100054-024
A/R
51
Nut, Hex.
20
Wire, T\dsted Pair.
Tenninal, In$. Ring TOnglle.
1000.57-004
3
21
Socket, Relay.
22
Pin, Coimector. Female.
19
100094
2
l00100-(\())
6
23
Pin, Connector. Male.
100100-004
<24
Connnctor, Plug.
100102-002
3
1
2S'
Connector, Plug.
100102-003
1
P23.
26
100127
100144-001
2
C!U. CR2.
27
Diode, Rectifier.
Spec. Retract Motor.
1
28
Strap, Cable.
10:>171-001
'7
29
31
Relay.
Switch, Snap Action.
Varistor.
32
Tubing, Shrink.
)0
1N400J
,t;.
Lock.
100042-500
2
No.1O.
10001.12-110
10OOl!2-100'
)
:-10.12.
6
No.2.
lOOOb2~-200
3
No.4.
lOOO47-2qD
2
No.4.
100047-500
4
No.lO.
lO(04)-2()()
10004)-$00
:3
4-40.
2
No.lO.
41
.,
• _ "'M_"
REMARKS ON
1-20 x 3/6"
3
9
NO. REQ.
100215
1002$2
4
100392
100185'-003
AIR
2
1
Ub.1./:JJ.
1
34
3$
10
DA Tt:
lOpD22'...606
33
b()
DWG. NO.
lit
DRAWING
P22.
K2. X3.
512.1).11.15.
VAR.l.
B-l'S. Material List, Retract M011:or, Brake "Option
i"
in
NO.
, 200500
Set. Sel! Lo~king.
1
.8
MOOIEL NO.
I
IMLf
1.1 S1
ASS'!. It!'.TRACT MOTOd.
-, f,::''''I
Scrf~"',
2
3
-fREY.
NO.
2))500
ASS 't. ltl::'l'[(A~1' MO'fOlt.
,1[M
1
IML;
LIST
SHU T
lREV.
IG
-2.. 01'..11..-
CK T. OUIG.
_ _.:;....~\,L-____,______ ~ __ -=.;.""'-11'-.--____
(. ______.____._______~
1)1 ___._. ________.__~
I:'.
_. ___ ._ .,,-._-_~l.
_______.
»1------------------------
J
CAM L.OIlO Sw.
G,I!oC/A/O
-/2 II
(/),fe.6~-
SrAfT 2ET&;cr
rIft' UN~Eo500
A ' - - - -..------B-16
----"'-----',:r--.-'---L-'-.I:-:i)~...J--.-
Schema'tic, Retract Motor, Brake Option
\W"..:~
_ _ __
WEIGHT
I!I
I'
oF
/ ReF
.40< 1"14)(
"'NCtl/& .•
ZREQD
2.
PI.AC.ES, PIN I
c.oop
/-~ 2
.:
l
4.3 TV!>
45
\
/
,eOt.L€RS t:?)~"5ii)ITC"'';S,WPt:'; ,4;lSITlON~!J
~~~c;~/:;;,~e,,:~:t~';:,';;':o~, %:4A1~ $PIlf.I/O
A:.1'Kt!!s
2.tfJO DIA ~OI.GI";I7'G"'~ ro8t;_,vsrAUGL>
coAlc€Aln?IC rONQTtM! S~AFr IV/NIN1:,005
.
0/~.nry ASSY A5,e .Ht::P ~ ~!j7,
-von:..s:
1. TOlERANCES
.xx>
&I..v..,.~.ss
.
07
ANGUlAR
. . .XXX.!· ...
2. lRiAK AllIHAM'
3. MACH. SURFAClI
I~
~200233
Assembly, Retract Motor Brake Option
\ll
Weng Computer Products
ASSY, R~TRACT MOTOR
- 13RAKE OPTION-
EOOES APffIOX •. 010
B-17
OTHe,eHlse S~;'''''''/c::'"'t>
101
Q+
MPSUSI
J23
+12V
+I2.V
CR~
CI +
1.5pF T
J'PR •
~
J
SCHEIV1ATIC
BR.A KE LOGIC
r-----------__~~~--~I~O----~~~_~
J~
_"", _ _ _ _ 0_., _ _. , , _ ' . _
200500
1)1)
NOT SCALE
. _ ._ _ _ _ _ _ _ _ _ _ __TIllS DRAWING
'c:1
WEIGHT
200518
J~EET
108
f-ai:Y.
REO'D.
8
3 ot: 3
U1
I'ML'.1
~:=M=A=T=E=R=IA::L=::::::L::I5:::T==
(I
MODELNO.--1tI:;r.'
1
DIIAWINO
TI.n.E
Owo. NO.
IIliV.
Ie
SHEET..!.. OF..L
IIU,AIIU ON CKT. DUIO.
1
200S23
BII'
100080
5
Ql.2.3.S.8 •
.1
S
DATE~
NO.IIEO.
Bouod, Prooe.....
OllAWIN'O NO.
ZOOS18
'lran81.tol'. PIP.
212219
lOOl2S
. lJI914
100091
"'.
6
7
Dlode, S1pal.
15
CIl.2.3.4.S.6.7 .8.9.1O.U •
CRl.2.13.1L.15.
8
9
10
U
c.Paoltol', hnt.alua.
Cttpae1tor,
Capae1t.OI',
1.Sut
1001)6..155
1
Cl.
2
03.4.
k7ut
lOOO'10-106
1OOilO-k76
1
02.
12
l0006b-lOl
14
1S
Bedew.·"
Be.1NI'." iv.
229
lOOlS6-221
16
. .l.tol'.""
330
17
S60'
18
"lNI'.""
Re.1NI'." p.
1OOlS6-331
loolS6-$61
19
RenNI'.""
iv.
l0006b-l02
2
Nl.26.
1
1l'l2.
1
Ril.
1
127.
1
2
88.
Rl.9.2O.
11.3.5.13.16.
Reeletol'."
11
1OOlS6-102
1.SIt
1.81
100156-152
1OO1S6-182
21
5
Redetol'.""
31
3.91
2
R23.29.
1
Il$.
••6.10.17.18.
26
. .18\01'.""
...l.tol'.""
18
29
Pln, Kale.
30
P1n, '.ale.
101:
Insulat.or, Translet"I'.
loolS6-392
100156-103
100223
100098
100099
__OU
__l"
__ __
,_Teat.
__,..____________ __
NOTES UNLt,SS SPECIFIEO'" .
t.l_~
*"
CHECK
I
~R.
Ie? ".~.,
v
~
~
~3_7
S
3
6
3
__
~_~
~
___________________ _
U1
I"Y~
g;m
2. BREAK ALL IHARP
EDGES APl'ROX ••010
MACH. SURfACES
101
ASSEMf3LY.,
BRAKE LOGIC
ALL DIMS IN INCHES.
MODEL No.
~________~~~M~~~D~/.~O~ ~
2:1
NEXT ASSY
200500
B-19
Usa v1t.11 lteJu S.
fI'..L70
3.
4.
1
Ren.tol'.""
RulNI'.""
Red.t.or.""
~3_1~_~
ANGULAR
:t
11
122.
128.
Blb.
21
22
2k
IS
.xx:t
.XXX:t
680
1
1
20
2)
1. TOLERANCES
220
Assembly, Brake Logic
.ilU.
C
I
~
I
200518
f-tEET
B
2 OF 3
'--~~-'~II!II-'----- _~_'
_____
I I _ ' . _ I_ _ _ _• _ _ _ _ _ _ _ _ _ _ _ _ _ _I_ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ • _ _ _ _ _- .
1 ... 50
'!?t.oo
l
~~==--------
P7
P3
L,4",-,cr.... ( ...")
-Q"'''''D (-)
-----K
-----1'<
S€L.f!CT, ~ Q6..0(' (+-."
o
- wRIT" e.aJA.eL.1 , ...., ----to<
- WlihT& ",,*,IZ &Wc - - - - t o (
Dt.... ~\T"(" (-, - - - - t K
-""CU,.. PWIZ "'Te - - - t <
-
'"'~
NOTES UNLE. SIlICIFIED
~ILl
LIST
'\lJ'-"'"'''I'''
p~"::,,
O....INO
TITLE
ITUI
NO.
,..
&HI. W&
~Q!fI!lQI.
DIIAWINO
!tAIII.
TITLI!
MODEL NO.
DWG. NO.
-»--
CO~lII8ctor.
lOOOlo-o()9
2
2
Pin. F..ale.
lOOO21-0()6
~
3
Pin. Male.
lOOO21..0()7
2
4
Wire. Insulated.
lOOOS)-Ol8
AIR
DRAWING
'RiV.
NO.
lC
2OOSOb
CHECK
t
SHEET
L.
0,..L,.
10811~
.010
l. MM:H. IIMMCII
.. NoI._IN ......
J
"
J.,J: -
MOD I¢
l.xl'''''''
200499
B-20
Assembly, Data Control Cable
1~,o"!"7
. T"-"
SPIXIFIEO:
17 /,,/,)0
I
-------------·,----------·------~~ri
C' A.TA.
I--.LNG.
~
""c;p SPE;c.
--------------------....
117.- ...9 ~ i ' ) I ?/.«I1I::'
1f-"'M-.
I
:::--------- -N'PtII.
ANGULAR
IIEMAIIKS ON CKT. OUIO.
P1.3
DRAWN
I.IRIMML . .AIIP
DA1'r'l.ll.tLm.
NO.IIEO.
1
Male.
~'!2
U~L£SS OTH£RW'/SE
1. TOUMNCU
JW .$0
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-
~\Gt\4 c,,-,bJ2.o.c:.iE.I2S
,000
\.
2.eF De S-I c& - J'z.
we::. f> spec.
t. IDtHJTIFV
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MATERIAL
MA,'~~
pe(it
M
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.
~~
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A.sse:. M
($ i-'f ,
CO"'l""~l- CABL.e
~:
i: .I_ \1J,:..,~
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WANGleD MATERIAL
LIST
,o$'SV; I'IIlOZO IUJdcli "~~I!'-NO. ~
o.... u
!h.sllzt.P;EEl ,_ OF
II:E""I'1I':!o 011
I
824Ca
CKY. DUID.
£WlITGil iIIOI.WTlAJ6 'l()()OI7
201(70
811/a'~T_SIVITCJlJIOPJlm.J~
~ 1-"'4-F~::.:~.:..:::.::;....
c~::::~""'l/P,-=I/C",-r.,,,~O="_+I1100..:..I,,-,f)~o..:o~c;,.~.:..~(.+-,:=---j-=!:::..:~:-,-_S=.o.:./~____ _
MI'Il~.IJ./SII[.l/rM
,
SWllTcll SAiAP ReT/OM
STIlI/P CIIBLE
'trJt>53-924 1'1/12
~z',_50012'Z/
SIO, SIz'
......,..
_-==---:_
J.-.-!!.:+=':'.ll.;;:=:'~~::!:!::;;~!:'!;'----f!~I.OO~ro::::/~:7~~':::':7:II~+--'~:---f------"-------12 SCA:I!W AAAJ /J6P1I
1OOO1i.-1O" 4
it -s.:. " i78
"
'4-
SC.l!EW PRN
I-If;fll)
WIISIlt:tt SPUT LocK
/(J()()3(..lo7
4
z-sr.. "
11JOO4.2-loO
8
Alo. 2
7/1'"
1-+---------+---+-4-.------1--4---------1----+--+----------
1--4----------1----+--+-------------1--4-------------1----+--+- -------.-.-
~~----------I----+---+----------I--I--------+---+---I-~-----.--------
00""""..: I'D' ".IIINATION.... S~ OJ~:~
IoIIAIIoIo .,.".
(It)
I
(.5)
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B-2l
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1'11-1
p~
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1'fAfot
$I!J£
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$4L
I$/I:-C SIJ-I,t: SIX.
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6
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1/I-,fA: !lIN..
$1M..
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tf.§O
o
tw1~:H":!.~;;:~~:~~s.ReP""':y.
IOI'NTI'
-
140
~
5%. :two
··
·
·· ·
··
··
··
D'IIIG.HO.
NO, REO.
ITEM
C
100070-106
1
C204.
131
Capacltol
7,0
100156-151
1
R234.
133 ReSistor,
REMARK 5 OM
CKT. DESIG.
100068-470
1
R2uB.
134
100156-751
1
11.268.
1Br.
100150-163
1
RJ.21.
135 Rell1stor,
1)6 Re.tator,
"
681(
100156-663
1
R431.
1)1
Ree1etor,
II
13K
100156-133
1
8432.
1)8
Bee1.8tor
680K
100156-68!t
1
R466.
139 Resll1tor
3901(
1001$6-)94
1
I1466.
141
ReIl1.etor
1.5M
100156-155
1
R509.
142
Resistor,
390l
100156-394
1
R511.
lJ&II Resistor,
3.3M
J.001.~6- )35
1
R5J6.
l45
146
100248-924
AIR
.,
1.5M
100156-1,5
1
R509.
)9OK
100156-394
1
R'll.
144
Ru1etor,
3.3M
100156-33,
1
R536.
l.45
llt6
R8Si~tor, 5J. ~w.
100248-924
AIR
141
Wire, Solic! Insulated.
141 Resister,
142 ReSistor,
Ih)
Jumper .14.
M
3
11405.406.45).
100156-104
5
11.242.277 .433.4$1.5)2.
Jumper
2201
100156-224
1
R24l.
JulItper J6.
2701
100156-274
1
11459.
Jumper J7.
JOOIC
l00156-~
3
11417.411.517.
JUllper .18.
2
IIUO.221.
JUllIPer J9.
1246., ...• 469.47G.1I76. 1,1.512.
JUIIIp"r JI0. •
.15.
PP "
F •
n.
G.
00" !!H.
H •
J.
'a • Fr.
)3Ol
100156-3311
)9Ol
iool$6-394
•
1lS23.
Jumper
ru. •
W'
1Mec.
100156-105
1
1S07.
Jwnper J19. •
DIl"
150
100156-151
2
11467.510.
390
100156.)91
2
R249.250.
100096
. 1001)98
2
),
:ro-S.
100099
1&
D •
M"
E.
NO.
47
8468.
V.
ASSY,
-lWL.
7,0
1
U "
TITL!
)W.
1:)0156-394
·
··
·"
·
DRAWING
iv.
390K
Jwnp.r J1. From JJ tit JUl.
U1
13~
l20l
,'"
.
lOur
TIT~E
100070-106
IML}
LIST
ASSY. TRANSPORT ELECTRONICS
f!iIl ~'EI l~ ~Ra IilQ. 2Ch. 1OO0EL
lOur
100156-473
Us. Id.th i;U7.418.
l' -
200486 • 001
471
lII8ludes .J6-b •
IREV.
HO.
DATE ll.Ll&L11SHEET...2...
Jumper J2.
;
DRAWING
1(0
Kale.
··
·
U
1)2
Resistor,
6.81
Rl.54.461.492.
IMLl
LIST
ASSY. TRlIiSPORT E!.ECTI/.ONICS
~ :tIlII I~' lQ;l.1I11 lU2. 2!;h. IoIOOEL
Capacitor, Tantalua.
131
4.71
MATERIAL
DR~.'NG
NO.
11429.
5.11
·
·
·
·
](1(.
_127
.1I.b06,!t58,ia95,53'"
).6l
DRAWING
Resistor,
680K
JUllpflr JB.
1l", lOO156-)()2
D
NO.
:;V.
Jw.Jper .19.
·· ·
· "·
·· ··
·· ··
··
750
CKT. DE$IC.
n
142
136 Resistor,
iv.
131 CapaC:itol
ReMARKS ON
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CR42S.426.427 .428.h29.430.431.
BaII1J1tor. 51.
C201..
R240. 278 .401.1.02 .449.472.477.
R4l3.4lh.42k.425.428.464.50S.
75
1
122
CB418.419.420.421.h!2.U).424.
Clil33.4J4.435.4)6.437.
NO. REO.
121
IaIID
SS. iv.
10005),916
Wire. So11d Insulated.
200532
ITEM
OWG. NO.
11.217.
O"AWING TITLIE
72
Wire, Insulated.
107
SpecUloation, Teet.
ASS!.
~
100070-106
1
ASSI. TUJlSPORT ILBOTRCIIIOS
CII2OO. 201. 202. 20). 2Q, .205.206.
106
I
DRAWING
TilLE
SHEET.:L.. Of _ _
lOut
100156-122
:..-
IIS~
R526.
.4118.
5%. iv.
Resistor,
ll2OO. 202. 204. 206. 208. 2l0.212.~.
11.214.216.
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1
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D. Tellil.!in
1.21
MATERIAL
DIll
Reshtor,
137
126
· ··
70
U1'
I
DAT~ SHEET.l.. Of _ _
NO. REO.
47
DRAWINC HD.
200li88 - 000
IRu.
136 Reshtor,
112
100125
1'.
TQ.3.
R2lB.219.
2112219
1
7
11502.
Tra81l1ter, lIPII.
~
100151
1
16
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Innl.1Ior, Tranll1etor.
lJh ReSistor,
100068-331
~)2.452.
1
135
330
2
lO(ll??
Q210.417.It1B.440.443.
Resietor. ,J. )we
100113
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100223
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TraD8Utor, PIIP.
N-_~
P8d., Trane1ator.
9
Relltater.
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102
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1001$6-331
Red,tor.
"'.
R443.444 .44S .4L7 .455 .456.h82.
330
IMLI
132
I14B3.4B9 .5~B. 529.
1
TITLE
Capadtor, Tantalua.
1)) Iles1~tor,
1001$6-))1
Ruutor.
J.113208
nO,on":!
132
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64
Ill. . . ' - r .
14
iv.
63
,at
100021-006
11
62
VlliI01.
~·etule.
1001.56-221
~05.408.1109.413.416.h2'r .431.
Cl432.
P1.n, Connec:tor.
101
220
Ru1.JItor.
1
100
R243. 255. 2$6.257.258.1127.4110.
two
aellllltor.
1
WI. '
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ASSY. TRA!ISI"JRr ELECTRO,UCS
~. T-il!e • P' 12hes.
~ '1OO0EL NO. ~
DRAWING
HO.
131
.......... _... ..--.-
PLO.
ITEM
DESIC.
CKT.
30
lOb
60
100118
REIlARKS ON
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100021-007
105
61
100174
NO.
Mal••
RJ.96.
~h6.44B.449.4SO.
0052
eWG. NO.
DRAWING
TITLE
OF_'_
Pin, Coanector.
RI.73.1.74.479.480.519.520.525.
I. ·
\lJ
99
B
~34.45h.
IlI.ocht, ~r. 5.6..
TITLIE
DATE Ull:zL11SHEET..2....
1
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100156-201
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NO.
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E":il~ ~QAIIIl.
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ITIlM
RUU.RKS ON CKT .. DESIG.
A:;:s r. TRAlfSPORT
100068-151
2
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1
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TITLE
200
100112
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OF
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150
TI.P29
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l00068~70
100
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m.
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47
iv.
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TITLE
U201.202. 20). 2Oh. 205.
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R260.261.
50
,lInoUt, Support..
I.O.QaM.2 Input Power.
2
1-.
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6, I.C.Qwl.2 IlIpIlt lIand.
NO. REO.
l00156-2R7
Jlea1etor. ~.
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2.7
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NO.
llVi L.12~88
MOOEL..NO.~ OATE YL1IL11SHEET..l...
M. 1G;!;l; BOIRD.
ITEM
DU'C.
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Bes1ster,
140 ~
14, ~
JUllpsr Jl. Froa JJ to U.
Juntper J2.
Jumpnr
.14.
Ju.per
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J11I'1P1Ir
Jo.
n.
JUJI"lper
JWlpflr .18.
.!wiper .19.
···
n
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CC.
Jumper JlO.
1.
.1v.tttper .Ill.
TP208.
Juntper J19. •
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PP
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• RR.
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• TP208.
147
Wire, So:
~
MATERIAL
ASSY. 'IRlNSPOIt1' ELECTRONICS
~t~G
!!!m. H§;t!i
ITEM
lIN1ator.
51
Ru1ator.
52
l!U1Itor.
S%. iv.
0
·
2.7
OWG.NO.
NO. REQ.
lRIV.
200k86 - 000
1
lOOl.)6..2R7
2
R26O.261.
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47
l0006B-470
1
tv.
100
10015"-101
10
.
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TITLE
OF _ _
ITEM
REMARKS ON Clf .. DESIG.
MATERIAL
~I.TlWISPORT
m
NODELNO_~
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DRAWING
110.
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TITLE
OWG.HO..
NO. REQ.
TITLE
ITEM
DRAWING
NO.
131
R271.
100
Pin. Qonnectar.
,'11l1li1••
100021-006
14
132
ii2h). 255.256. 2S'T.2$ii.4Z'1 .440.
101
133
Resi~tor,
lI44).bh4.lt45.lt41.455.456.1t62.
102
134
Resi!ltor,
ii463.489.S2a.529.
10)
Pad. Transiltor.
100223
5
Q2l.0.417.418.440.443.
135
Rellilltar,
Innlatar. Tranailtor.
1001$1
7
T0-3.
136
Re:!Jistor,
ur
~rt~tl)!";
1
RU96.
104
54
Ru~r.
0
lv.
200
100156-201
8
RU73.h7li.h79.L.80.$19.;2O.1)25.
lOS
R526.
106
Wire, Ineulated.
10005)-916
55
Ru1ator.
Sl.
tv.
220
100156-221
U
R2OO. 202. 204. 206. 208. 210.212."(
107
Wire, Solid Insulated.
100248-924
R235.239.269.21).
1)8
Resistor,
JUlllpllrJl2. From SS to 1'T.
139
Resi"tor,
1 1000)6-206
10
4-40 x 3/6-
Screv, Pan Head.
100036-21(,
16
4-40 x 0/8"
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100156-)01
1
RUO.
109
0
3)0
100156-331
9
R201.203.205.201.209.211.213.
UO
R218.219.
ill
Washer, Flat.
3)0
lOOO6B-331
1
$02.
112
Wuher, Int. Tooth Lock.
26
, No.4.
1000s9-2OO
26
No.u.
Washer, Nylon Shoulder.
l0006)"()12
14
WUher, Nylon Shoulder.
10006)-008
1
Nut, Hex.
10004)-200
26
100041-200
I
,
I IkO
J
141 Resistor,
.
Resistor,
142
1
C204.
;V.
750
100156-751
1
R234.
133
Re~istor, 5!'.
311.
47
100068-410
1
R2I.t8.
134
Resietor,
lv.
750
100156.751
1
R268.
135 He,,1e"tor,
271
1001.)6-27 "3
1
/il,21.
136
lOOK
lOO156-10l!
1
)11---,31-
137 F..esi!ter,
12K
100156-123
1
ii432.
136
!ieeistor,
68CK
1001$6..0684
1
/il,66.
139
Res1!1tor,
143
5%.
·
·
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0
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39'JK
100156-394
1
il468.
III Resistor,
100156-155
1
RS09.
142
3901{
100156-394
1
R511.
303M
100156-335
1
RS36.
,
1001)6-)61
2
R442.446~
n,
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100156-431
2
R251.252.
114
3w.
470
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4
ii434.43S.4)6.4J7 •
115
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510
1OOl56-5U
2
$33.534.
U6
JllIIIp0156-394
1
1.51t
100156-155
1
R468.
Rso9.
··
150
100156-151
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0
390K
100156-394
1
R511.
~-v.
3.3M
1()Q1,6-335
1
R5]6.
144
lJU
JUJlPer Jl. From JJ te
A/R
100248-924
390
100156-391
100096
Mal••
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11459.
0
iIIal1.41l.$11.
JWlper J6.
n
2
R220.221.
Jumper J9.
•
1246.
•469.470.476. '_l.SI2.
Jumper JI0.
·
·
Jumper JU ••
I
1S01.
2
R249.250.
I
2
ro-S.
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Inaludell J6-4.
..
I
1523.
ii461.510.
I
·
Jumper J6.
2
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i
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0
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with ~7.418.
II
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JUlllper Jl9. •
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TITLE
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n
two
1\24B.
R26B,
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0
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"
Resutor, 5~.
750
100156-751
1
15K
100156-153
1
B421.
5l!
lOOl.,..~SlJ
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Pl.3l.
13K
100156-133
1
1lh'2.
66C1t
l00156-6t!4
1
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3901
100lS6-)94
1
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100156-155
1
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iv.
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.
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390K
100156--394
1
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3.3M
100156·3),
1
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1002U6.92J4
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.!wiper J6.
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JUIIIP"r .lB.
DD
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NO. REO.
100070-106
1
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TP208.
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DATE ~1 SHEff..§... OF _ _
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TITLE
i
MATERIAL
·IML:
LIST
ASSI.T!WISPORT ILECTROlfICS
2Ch. MODEL NO.
fiil! Im'P'
J7i1R1.uLa.
ITEM
O~A.ING
NO.
131
C2OL.
rr.
"
no. •
JUllPllr J9 ••
JUlllpllr
I
DRAWING HO.
REMARKS ON
.lS.
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• E.
AA
ollIIIper Jl.
Jumper
I
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LIST
Wire, Solid llUIUlat.d.
TITLE
Capui"tor, 'hntalU11..
100156-751
1
1.5ut
~
OR",WINO
NO. REQ.
100136-155
1
C2~.
IN.,..
.,110..
200i86 -.. 90S .
D"T~
DWG. NO.
RUARKS
lOOO66-470
1
R248.
134
~.
750
1001$6-7,1
1
R26B.
135 Re.utor,
181;
100150-163
1
R421.
1)6 Resistor,
661:
l00156-~3
1
/il,31.
131
1)1(
1oo1$6-lJ'
1
Rb32.
136 !W!!i!ftor,
660K
100156-684
1
R466.
n
" "
)9OJ(
1001$6-394
1
R468.
n
1.5M
100156-1)5
1
&509.
"
llesister,
510.
n
·.,..
Resistor,
Resistor,
1)9
c.
Resletor,
..-
140
141
142
,
Resietor,
100156-394
1
&511.
3.3M
1OC'156- 3J5
1
R5)6.
10024B-924
A/R
lJa4
l45
t:>v
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1
1\234.
)v.
41
100068-410
1
8248.
" two
750
100156-751
1
R268.
n
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100156-10)
1
R421.
~"a.
·
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· ·"
·" ·"
·
Rellietor,
·
liellutor,
0
11.3
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.-.
r"'~
_oL__
IWOl.l:IT"O,,",
47
0
Rull1tor,
n __ -"
l33
R2.34"
)v.
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II
750
SMUT-;'»
I
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01' _ _
ON CU. DUIO.
....\JV...,O.. ,
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331
100156·333
.1
RUll.
151
lOOlS6-:!.~~
1
R4)2.
JOOl
100156-)04
1
R466.
n
)90K
100156-394
1
R466.
0
6601: ; 1001,6-684
1
R509.
·
3!'OI:
1
lQl..
-,
.h
loolSli-394
N
N
I
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146
Wire, Solle!. InIIuJ.ated.
147
..
Jul!lptlr Jl. Frw. JJ to
U
RR.
JUlIIp81'
Jb.
O.
Juaper
.IS. "
1lH.
JUMper J4.
0
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J.
JUIIlper .17.
0
H
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JUlIptIr J8.
0
E.
.lullper J9.
0
CC •
Jumper JlO. •
.,
I
R234.
1
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.
JlUlpftr J2.
DO" TP206.
1
100066-470
• IT.
D
m
V.
x.
100156-751
47
Jumper J4
lIt.6
Wire, Solid Insulated.
,t-""--
~d
;J~.
143
Jumper J2.
I
Resistor,
142 Resistor,
Jumper J7.
'lJIec. 1001$6-105 I 1
.•.
141
R24l.
ioo156-)9k
Resistor,
140
1
3901
lW51.;"vQJ:,
Resis"tor,
390K
750
)W.
"
OF _ _
SNIET..1...
011
litl!)';
132
134
100156-224
100156-334
NO.
n _____ .... __
2201(
))01
Juuper J9.
JllIIper JI0.
ASSY.TRUSl'ORT ELECTROIlICS
!:'liB :b:Il!:"~' ~ '".Pig. 2Ch. "'OOELNO.~
DRAWl NG
133
JUllpllr Ji:.
0
oil
47
R24B.
Jumper
· ··
P1A, T.lt Po1nt.
R23U.
1
R242.277.u33.uSl.532.
3
97
1
100066-470
R40S.406.453.
1001$6-)CIa
9iI
9S
96
100156-151
,
)001(
··
750
two
REMARKS
NO":
• • . 1-
C2Ob.
Ju.per 012,
I I
MATERIAL
131 Capacitor, Tantalua.
:J.00l56-413
3
n
I
I
I
ITEM
OESIC.
C204.
100156-104
0
Rerutor.
1
100070-106
lOuf
REM"RkS ON CKl.
471
1
IlelliBtor.
NO. REO_
1()(x
100156-274
93
NO.
ORAWING
TITLE
•
0
"
2701
1l'...., ..
; 11430.
·
··
"
0
0
RNiator.
ReSistor,
1
0
He&tII1nIc.
142
100156-12)
0
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Rellbtor,
121
0
0
141
2
··· ·tv:
·· ··
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R4B6.4BB.
"
J.l(
"
0
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DWG.
~
141
I
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~lSHEET..2.... Of _ _
1
U • V.
l'P • RR.
132
iv.
11454 .461.492.
IMLI~~=-...;.RA~~M_::~~1~7~'1
LIST
lW-DI giG. p.. "OOE~ NO. _.It.._ DATE
Capacitor, Tantalua.
4.31
lIMiltor. S••
18
Ie'
·
, _ _ Jl.9.
II I
J.
DW"WING TITLE
110.
75
·· ·
i
i
n
JU!Ip4'r J8.
II
I
II
i
I I: I
LI ST
MODEL NO.
D""WING TITLE
Rel1l1tor.
JUlllper J7.
122
!liB JMaIQ DID
NO.
JUMper J6.
120
· R21'1.
MATERIAL
72
119
126
·
.14 •
R$13.S1S.'16.S22.S24.527.
1
SJ.
JUJIII)er Jl. From JJ to KK.
Juapar J5.
RII.f.
100156-122
.ASSI.l'IllISPORT IU!Ci'BCiiICS
ITut
A/R
1.n
~.
DRAWING
TITLE
lOO24b-924
In.~ulat.d.
Wire, Solld
ii476.461.465.49l.494.497 .501.
R224.22S.231.231.26S.49).
1J,~
liesistor,
145
118
200532
100136-155
144 llesistor,
R2L.0.278.40l.402.449 .472.477.
Speci1"ioation, T.et.
~88
146
tv.
·· ··
tv.
.. ·
0
i
.lt46.
II
Res1stor, ,!'. :iV.
145
146
1.5u!
·· ·
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-- ---.
··
Rssi!!tor,
105M
)60
147
DRAW ING
D"'T~
NO. REQ.
Capacitor, Tantalllll!.
1 140
4)0
144 Reeiatctr,
4-40.
NO.
TITLE
lMLI·
DWG. NO.
DRAWING
131
:iv.
Resistor.
TITLE
ITEM
cn. OESIG.
LIST
ASSI.TRAIISPOBT ELECTROlIICS
l'WB. !:a!! I pi 22~1I. !!lO. 9Ch. MQOEL NO. ~
100070-106
Rel1l1tor.
Rel!ir..or.
DRAWING
MATERIAL
lOut
REMARKS ON
59
60
~
OAT~ SHEETloF _ _
Sl. 3w.
61
IRfv.
I
NO. REO.
Res1l!tor.
UII8 with CR432.
N~
DWG. HO.
58
··
·
DRAWING
200488 - 002
1)2
Fl'OII item 21 to hole B.
Screv, Pan H.ad.
TITL.E"
Cap!;c1tor, TantalUII.
A/R
J./R
1108
:iv.
I
OF_'_
REMARKS ON eKT. DESIG.
IML:
LIST
ASSY. TRA!ISI"JRT ELECTROiiICS
~·T"al" 'P' 12+i2S' Qlo. ~'''OOEL NO. ~
)0
100068-lSl
f.
DRAWING
MATERIAL
100021-007
150
ReI!1ator. 5~.
uLl1L11SHEET..2....
~
I
M8le.
.)v.
Res1l!tor.
IREV.
NO.
200486.000
Pin, COIUlIICtar.
SJ.
5T
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OR AWING
99
Ruilltor.
S6
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LIST
5)
1
2l2~
DR .... NG NO.
MODEL.NO.~ DATE !!L:ULl1 S1tEET ...J...
BCYRJ).
D""WING TITLE
NO.
SO
lMLl
LIST
!
,
n.
• V.
Wire, Solie! Inftlated.
141
I
PP • lIR.
F
g
D
.u
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s.aator.
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1
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6BoK
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1
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6BK
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100156-394
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6601t
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11511.
3901t
100248-924
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·
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3)K
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12K
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InII:'A' 3zhRI 11£~G. %h ...OCEL NO.--lSi- DA TEll.LlaL1J.
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200488 - 012
JuaperJ14. •
LIST
ASSI •TlWlSPORT ELECTRONICS
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750
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1
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DATE
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NO.
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TITLE
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1
R234.
133
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47
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1
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Re~i~tor.
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135
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Re~istor.
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,
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100156-684
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139
Resistor.
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1
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II
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136
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131
R.@@i!!t-n!'.::
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139
Resistor.
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113
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Resistor.
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TITLE
ITEM
NO.
~
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ASSY.TRANSPORT ELECTRONICS
PWB, !:ale'A'
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__
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NO.
REMARKS ON
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P..:~iatvr.
27K
lon...J.56-273
1
PJ.t31.
1)8
Resistor.
15K
100156-153
1
11432.
139
Resistor.
30CK
100156- 30U
1
Rl.66.
oaAIIING
TITL!
ITEM
HO.
MATERIAL
Resistor.
330K
1CXl156-334
Res1stor.
6801{
100156-684
750
lOOlS6~7S1
1
P.2~.
1~3
Resistor. 5%.
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100068-470
1
R248.
134
Resistor.
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150
100156-751
1
R268.
135
Resister.
18K
100156-163
1
Rl.21.
136
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1
11431.
1)1
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131
100156-133
1
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6801(
100156-684
1
RL66.
139
135
Resistor.
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200488 - 021
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Of _ _ '
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TITLE
ITEM
NO.
131
131
1
1llt2l.
136
Reabtor.
loo156-:m
1
IlltJl.
137
Resist.or.
15K
10015'6-153
1
11432.
138
Reslst.or.
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10015'6-3011
1
11466.
139
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140
n.
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3901
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138
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100156-681.
1
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140
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1
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138
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100156-68Ii
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139
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1001,6-394
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141
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1
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142
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1
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1
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100156-684
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100156-391.
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146
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143
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AS!:!. TRt.~ISPORT ELECTROXICS
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100246-924
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132
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146
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LIST
ASSY. TRA',SPORT ELECTRONICS
~ I:a!e 1.60 1 2:2;!,125. sLG, 2Ch • MODEL
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200L88 - 018
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DATE
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IIATeRIAL
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LIST.
1)8
Re~1stor.
•
lSK
100156-153
1
11432.
1
iih6b.
1}9
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300(
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1
11466.
1)9
1
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141 lleslstor.
Rla68.
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1
R509,
•
•
•
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100156-J9l.
1
142
14)
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lhS
100150-335
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J""t'V
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Jw.per
J7..
.lutI;Ier .lB.
w'1Dlper
•
•
•
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J~r
JU..
Jwoper .!IS. •
~r
nIJ.·
III to LL.
11" 'V_
pp. JIlL '
I
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JlUllp8r 0/4.
.0
15.'
JUlllper.l6. •
J.
EE . " .
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Ju=t:-r
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D;' I.
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REMARKS OM CKT. DE 51G.
'
I
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MATERIAL
ASSI.T\W(SP0RT EIZCTOONICS
~WE, !-rpe'J.' 10 ip~if:/::l, 1Cb.
ORAWING
TITL.E
MoDEl. NO.
DlrG.No..
~
DOTE
NO. REO.
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OF
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131
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132
ill
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1,)()1S6-3JJ
1
1201
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RL2l.
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1
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131 Cap.e1tor, 'rantalWII.
lSur. 100136-155
1
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.. 131
r.l::'1
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136 ReIIt,tor. S%. ~~
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131 CapacUor. TmtalD..
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C2OIa.
;11:21.
100~~.1C4
1h6
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iro.. U th LL.
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0
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1:J01$6.?7)
DL ,~
:le.1~tor.
llt3
21"
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139
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137 :lesi.tor.
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!.SS!. TlltI.!lSPJRT EIECTROHICS
.
rlf!:Ic Am,IA.' 12'19' ~/G.7Cb • ..w)DEI..NO.~
'nN. I
1_'_5~-1'r-1_;_.~_~_~_~_s~~_O'_R_~_Q·~c_~
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TITLE
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IIA.TERIAL
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t~~~~~~u_to~r.__~______3~~~~100~~~~3~~~~~~~··~·______________~
116
DRA'III'-IG
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+-~
ASSI.l'!!A!ZSPORT ::XZCTRO!fICS
PWB fvnr I pi L;1.pe .. ~/G! Ta:t.
=~c=~T=1. .=£= 1='~="'='!~ =1=.l~='~=~=~O=~5=5=!=HO='=.=EQ.~ G=2Ola= .="=!="'="="=' ':~=!="=G'= :~ ~1~1t;:t-c_ap_._Ci_~_r_,_-__~_tU~_"
'1..EM•
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LIST
II
m.·
D· I.
° I.
.lapel" JU..
V
V· I.
J1lIipU Jl)..
II· P.
~ C•
JWlper .rlh. "
R "S.
• CC.
.n..per .115••
,
Juper./lb ••
lJU
•
.l!ulper Jl7. •
w
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I 1-'''''
1-__t-____________________1-_______~--~..;~~~r_J.:;9~.--"--..;D~-O.:B:.:..--__...·~t---+----________________-+________~----~~~~~r~J~9.:.--.--.:D~.~!.~--~
.l\ulper 0110. ° U • CC.
Ju:wper 0110.· U • CC •
n.
J. • I.
. .. .
Jw.per
ro.·
Jwtper 0113.
JIIIip8I'
Jlh. •
V ' I.
I I . P.
R
• S.
.,,; .t-_+_--------------+----+---__~~--------J_-1
I
N
N
I
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1.IST" .
MATERIAL
~
DIIAW'NG
?We
Type '
.'("2·
6'
c:lr.
NO. IItEQ..
REMA.RK$ ON
Use the appropiate sheet
132
132
showing the comHnat Lon of
133
1'3
speed; type 'A' or
- '-to";'-r.;"';';.-·~
.---..:5:..Ii:...;....:1~OO-lS6-~..;.51:..3;...;.-;:;...+liL::..:u.;.:.:..--------.......;,.: I
-1iMUI
136 Renstor.
•
•
13K
139 lied.tor.
•
•
680K
140
lhl. Ra81.tor.
1.5!!
~ 110
3.:lX
I
100156-394
1
Rk3i.
lJ}'l156-27;
=:=======j
3JOK
142 Re.i,tor.
100156-1$$
143
390K
27';
~.istor.
!h::.
\,
1.IW Be.utar.
1.1.5 Rest.tor.
.
680':
::4)
:l468.
IPI,
REMARK'S
NO. REQ.
ON.
•
."d
9Gh. Transport P'fiB .1.t.h t'le
l\a..,uru. On.Line Ontio".
A/R
t·--+il-=-..;....::.....;.;...:.=~-~.;:.:..---+-i!--~-+-----'!----------
H
T'
U
• H.
Juooper J5.
I'
..
Jumper J7.
H
H" J.
J~.'
D ' E.
J""'per J10.·
Also:-
, JUtOper Jl.'l..
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Typt'"
M
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AA
W
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n
1.
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v.
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Jumper
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MODE~HO.~ D.TE~l"'EH~ 0>-::1/
TITLE
DWG.HO..
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AA
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W"
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CCT.~fSlg.
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MATERIAL
ASSI.nwlSPORT ELECTRONICS
PI!B 1W!!!AL1lE115ITISEUiCT.
...,.
IT ....
DRAWING
7
1~6-.103
MOOEL~O_~ OATE~
TITL.E
NO. FlEQ.
IilEMAAKS ON
1
139 IrM1l1.or.
i
!
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Rae1lttor.
~
____
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CICT. DESIG.
\lJ
or
MATERIAL
ITEM
DRAWING
NO.
9Cb. Traneport PWB 111t.h t.h.
9Ch.
lWIUal IltImolty Select Option.
5v.
451ps;
NO.
---1fi-
REMARKS ON
~heet
combination of
No.
EXA.'!PLE:- 20JI.85 - c06
Dlo
defines
3
Type
Tran"~rt
'P'
.u to n.
• V.
JuJoper 01).'
L · M.
Jwnper
015. " : F ·,G.
J~r
J7..
•
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Jmiper JB. From EE to FF.
Delete.
Jwoper 016.
Add.
•
IlD
• FF.
Jaorper JlO. Fl'OII II to cc.
Delete.
J1DIper J10.
Add.
.n.per
•
II
• BB.
.Jl.l. F.... W to I.
Jump.r.Jl.l.
•
h5i;J',
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P.ll:; with the
to the Car.troller Jption.
Adll.
Delete.
W • Y.
Md.
H· J.
EE'" .
Jumper .Jl.9. From DD to rP208.
Del.te.
D· E.
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cc.
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I
I
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MOOE~
"'1\1.
J~r J1. !'rca
~r
IMLI
LIST
letter C•
,.66.
'P'
_____
TITLE
firet digit of the dash
t,.
de1'ines a T]pe
JWlper J8..
".'
I
"
>,w.
750
100156-75]
R268.
15K
100156-1S,
R421.
100156-513
R431.
I
Resistor,
..
SIK
138
Resistor,
..
13K
100156-133
R432.
139
Resistor, "
300K
100156-304
R466.
1137
I
100156-39".
;~408 ..
II
680R
100156 684
RS09.
Resistor, ..
390K
100156-394
RSll.
kesistor, 5%
Resistor,
;:
390K
i
~;i:r;e,
Solid Insulated.
100248-924
AIR
J"mnpr.n
From JJ
.16.
CKT. DESIG •
Jumper J19.
Tn
1(T.(
u
.. V.
PP" RR.
.. G.
II
GG
H
..
EE
II
HH.
• J.
.. Fl'.
D " E.
..
Jumper Jll."
7 or 9 Ch. Then change the
9 c:h. 711... chuge the
&509.
A/R
Res istor,
R246.
Jumper J10.
____
g;;Y.;~N~:~!n~~r:NI::S
"'ItmG
El.AI!PLE: - 2OOIi88 - A06
11.3
10021.6-924
Resistor,
136
R234.
100068-47-
Jumper J8.
;
I
HJ.31..
lih6B.
660K 1001S6-6BL
135
100156-75
i
Jump~r J7.
• OC.
J!lU2.
i.LO
111 1ie81et.er. • •
47
Jumper J9.
l!se the appropiate
to letter A.
lSI 1OO1S6-153
750
3w.
';ump~r/
i
IML~r-...:~..;.R;.;.:..;.;B;.;.IN:.:_G-m;:.N°::·-~I·;;;E~v.
LIST
tim dig1t of the da8h No.
Re.letor.
O.
IC?04
Jumper JS.
Ehmdn~ the
. 137
57
REMA.RkS ON CKT .. DESIG.
Jumper J2. / .
Jumper J4.
i
i
••
Uae t.h" appropiate lIheet
].at
'.w.
Resistor,
14 7
G.
n.·
Jumper
_______
~LII--...;;;.;.~;.;.A;.;.;.;.;~N-':;.;.04.;.;.N..:.;;--=-=r~S;;:x..,
NO. REQ.
Resistor, 5%.
144
1<.
MM;SIji.7C1l •.
ASS-Y.TIlt.."ISRIKT ELW'I'RO!ilCS
ll'rLE
1
SHEfT
I
146
•.
LISt
100136-15~
7-6-72·
- 049 .
143
DtC.ete.
___~I~J'~u~e_rJ~_._R_.S_~~~
~~~J~_~_,_R~"S_.~~~
~
~
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",.TERt"L
TI TL E
Capacitor Tanta1u..'n L 5uf
IREV.'-
D.'.'NG NO.
.1 200488
'DATE
NO; REO.
133
S41
Re.isbr.
V;
JlIJ:lper ..13.'
Jumper Jl1.'
._.
OR.AWI NG
25
MODEL NO.
PwBTypa"P"25ips pIG 9 ch
134
142
: Ju:n~ J9. Frcill D to E.
:!...U7 firiire, Soli..d I:1!!'1.:.l.a·te:-<.
Jmoper J1. FI'OIII JJ to KK.
Jumper
:;~,
[
145
Jumper J2.
1~~I--------~!
I:ML'
LIST
140
146
.lL6
lh1 WiZ'8, Solid Inoulatec.
MATERIAL
132
ItS36.
lOOlS6-335
O~N'~~G
NO.
CKT. DESIO.
defins... Type 'P' LSip. DIG.
R509.
100156-6ciL
01"__
::XlL'fPlE:- 200488 - ,,06
"
144
R5l1.
lCO:,56-}3L
llf2 1l''Il)ni;c;....21
l~_~~~:~~~:~~~;~~~~~:~n~~~:~:~:=~~:=:=._~
___+ __~_____----~
r
~'!.#39.~.~!!e~8;l'~t;or;'~~~~~~3~cn~K~'~1~OO~I~5~t-~304~1:~3~!!4~66~.
il466.
1<466.
100156-.394
390X
lh2 Besl.tor.
~
I 'te.~stor~
~t~.1 jML
t-:l-:J8::-t:-'te-.':"is-:t-or-.~.:-::-"----1:..5K-+-l:.::.OC.;;.1:.::;;.:.6-.:1::.:~3~--=--+.:.:!ll;:;J::<:.:...-----'-----I
.32.
1ooJS6-684
137
l.\l
131
131
.t~·~~~~I_-·-~-r-.~5~%-.~~-.----s~I~~~~-~~~~~3~1--~1~.-tl-.-------~·~iI3lM.~~
r .
D¥fG. NO ••
NO.
1~
4
;"';1;;;'YI
ND. lREv. ~
2:J0488·:w:·1
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IT ....
NO.
CKT .. DESIe..
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MODELNO.~
·"ClI.
IT ....
T'T~E
II
SSY. T'RANSPORT ELECTROl>""ICS
ASSY. 'l'RANS?ORT EtECTllllIII1::S
'TfY!..!.
IIMLI
LI ST
MATERIAL
For Dual Guide Swina Arms
AI'.
W
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ee.
.. X.
DD" TP208
r--~--~--------~A~'L-____________~B~--- --------~Cr!------~----~D~I------------9------------~F11---=~--~+s~v~~~-----r----~~~--~-~~~-~~~n~--~T7
.,,,,.,
+5
.. --"
7
P
FILE PROnCT STATUS
~R I BOT STATUS
~
-----,I
GIIIO.
--:-+J1
L-7-----~3
SELECT" I'IWY(+)
10 IPS IOlJl'
IllllPS IOUI'
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REVlJI5€ _.OAlVa
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m1 ~=: :~1OOAER ~ER.
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IF A!AIW CEUlY NOT I!EQUIRro
msa:
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~ COM"ON£NTS TA!I.£ II
I
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-
IX)
I
LAST USaD
U220
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DEI..TlED
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QIIIl!
C21'
I
1.1OlI11W1C11
(",2i1
I
IU79
2....
l.A
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2.=~
TPa09
IJIII/U"
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I
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I
Cl
01
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6
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~--~--------~8
5
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~---------f< I FIXED RoeL ~
4
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REI!\..N1P
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4
VARIABLE COMPONENTS TABLE I
SPEED TYPE R421
PtA 33K
110 IPS
IZ~IPS ptA
16JrolPS
I ZSIPS
I 3711 IPS
4SIPS
PtA
PtA
PtA
PtA
27K
16K
15K
10K
9.IK
R431
120K
lOOK
66K
51K
33K
27K
11432 R466
12K 6110K
12K fo80K
13K 680K
13K 680K
15K 300K
15K 300K
R509
R536 R468 R511
1.5M
1.5M
1.5M
1.5M
680K
680K
390K 390K
390K 390K
~.}~- J?.QK. 390K
39(lK
3,-~
?.~t1
3:~t1
390K
;'\1f- ~~
~~.Q!'< 33'Cij(
..._-,.
I
)J:!;.=+-"';"-~=_-------"""-~-""":'--+-----"'1.-+--,,--+------'---(ij)TP"'17
I
2
G)
SEE VARIABLE COMPONENTS TABLE
1.
3. ALI. DIODES ARE IN,)I42. ALL PNP TRANSISTORS ARE 2N41Z5
I. ALL NPN TRANSISTORS ARE ~N412~
NOTES: UNLE5S OTHERWISE SPECIFIED
CMlI
-->
--T--'-
U4a...
MoQGA.tJ. [)
I
II49S
.)tXt
,XXXi
CII41)
I
"""ox ..
C418
I :&
41,.,
-r:
1 M..... ",O.AC..
71z:a./70
.1.1.
ANGULAR
2. I"EAK All SHARP
EMil
010
lie
I
J
I..f!li!iI!'*I,.,.,--------I
----------------T'1'iIl!n
ASSY. TRANS. ELECT. PWS
SCHE MAT I C.
SERVO
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n
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B-26.
Deleted
BASIC DAISY CHAIN WITH
BASIC OAISY CHAIN _ITH
U1flT SEurcr
L:)
-.;
DR.A"'NC
z
'"
~I~
'"
:g
.
::E
139
Red.tor," iW
151
100156-153
140
Resistor."
511[
100156-513
131
100156-133
Reaiator.
1001
100156-104
Rad_tor,
6801:
3901:
II
141
142
I
143
I
Reaistor.
145
! 149
R•• tator,
R421
TITLE
I~
ASSY. TJWISPOIIT ElECTRONICS
PWB 25IPS 7CH TYPE 'P'
O!l!A'!!'!~G
Capacitor, Poly!11.
.33uf
100128-334
1
C424
.-J
138
Reaiator, S,.,
I_
3~
1~4-391
1
1266
~
139
Reaiator,
~W
lS11:
100156-153
1
R421
140
Resistor.
511
100156-513
1
1311:
100156-133
100II:
100158-104
1
142
R•• i.tor,
100156-684
, Rr, 5%,,.
139
Resis tor,"
140
Resistor,
.
151
lleai.tor
750
100156-751
1
8251
152
Re.lstor,"
..
3~
100064-3111
1
Il280
Re.istor,
3W
47
153
Ilealstor.
3W
47
154
Wire. SoUd IDBulated
153
n.
154
i
II
1~6-470
Wire, Solid Insulated
U69
100248-924
Air
Jumper Jl. Fro. VV to
n.
n.
Fre. Y to Z.
i
:r J8. Frca S to T.
j
I
i
j
i
f
Juapera J3,J4,J5,JIOIJ12IJ13JJ
Juaper .J2. ....... GG to HR.
Juaper J7. I'J'OII Y to Z.
i
J _ r J7 ........
y to z.
, Juaper J8. P'rc. S to T.
i
I_r
n. ,.......
II to T.
J ....per J9. Fr. . P to R.
J _ r JII ........ P to R.
!
x.
I Juaper J16.FrOll
IU
..:~
CKT. CUIG.
\lJ
201324
~
.Jlapera .13 ,J4.J10 ,J13,J13,
D;tT~~C
Ref.
155
~~t'!~T~D :::i::'i:'=='i:';:'
MOcEC NO.
:3
136
Capacitor. TantalU1l
I.Sur
I'.'
~
100136-155
DATE
DR",NG
200632-016
~
,HEfT
I"EY·
NO.
f.!
!U
0'&
C209
~~13~?~~C~~p~a~c~it~o~~~.~~~_1~r~ti~_1~~--~.fi~8~U!~~1~O~Ol~2~8-~fi~8~~~~--~C~4~2d~_------------------~
Rll66
.-J
138
Resistor, 5~,;W
iw
9.1K
100156-912
R421
::E
139
Resistor,"
tW
II
II
21£
100156-273
R431
140
Resistor,"
141
Resistor,"
n
15K
100156-153
R432
141
Resistor,
142
Resistor,"
"
4311:
100166-433
8433
142
143
Resistor,"
..
300K
100156-304
R466
143
201324
~,:) UlWANGCO
IN~COAP'DRATE 0
MATER!U
DRAWING
0
z
TITLE
r-
"z
:~
..
"
ASSY . TRAIISPORT ILICTIO'lCS
PWB 2SIPS 9tH. DEI 1&'
ITUI
NO.
i
DRAWtNG
TITLE
.33,-,_
lOO!28-!!-!
!
C424
Real.tor, ~s,tw
3~
100064-3111
1
112M
9.1K
100156-912
R421
~
139
R•• tator,
tw
151
1001$'-1&3
1
R421
"
27K
100156-273
R431
140
a.at.tor,
5111:
100151-513
1
RUI
"
15K
100156-153
R432
141
Reat.tor,
R432
Resistor,"
"
431
100156-433
R433
142
Resistor, '"
..
300K
100156-304
R466
: 143
..
131
100156-133
1
Reatator,
.. ..
.. ..
.. "
1_
100158-104
1
llM1ator.
"
lIIOI
1001_114
1
.. ..
3Il0l:
100158-3"
1
1.511
100156-155
1
1lIIOI
"
3Il0l:
100156-394
1
11111
M
1001:
100156-104
1
15311
3.311
100156-335
1
JIlI36
2.211:
100156-222
1
RH2
150
100156-7&1
1
1235
.. ..
"
33011:
100156-334
R468
144
Resistor.
"
33011:
100156-334
R468
144
ReIIt.tor,
to
It
68011:
100166-"4
RS09
145
Resis tor, n
u
6801(
100156-684
RSOO
145
Reatator,
146
Resistor,
II
"
330K
100156-334
RSIl
146
Resistor,
II
..
330K
100156-334
RSIl
146
a..l.tor~
147
Resistor,!;
43K
100156-433
1532
141
ReSistor,
21
I'
43K
100156-433
R632
141
"ai.tor,
148
a•• tator, "
148
..
~
..
.. ..
.. ..
.. ..
.. l'r
149
Resistor,
II
If
2.21
100156-222
U62
149
Resistor.
2.21t
100156-222
U62
149
aeal.tor,
150
Resistor,
tt
,.
750
100156-751
1235
150
Resistor.
750
100156-751
R23~
ISO
a.at.tor t
151
Resistor,"
II
750
100156-751
R251
151
Resistor,
11
750
100156-751
R251
lSI
... I.tor,
152
Resistor."
tw
390
1~4-391
U80
1~2
Resistor,"
lw
3~
1~4-391
USo
152
a.alator.
1~3
Resistor.
3W'
47
100068-470
R269
153
Resistor,
3W
47
100068-470
R289
153
Rnt.tor,
154
Wire, So11d Insulated
100248-924
Jumper J1. FrOIO VV to n.
154
"'1re~
Jumper Jl. rrOll VV to n .
154
Wire, Solid I . . ulated
100248-924
AIR
Ref.
Il280
47
1~70
I
R2tItI
100241-'24
AIR
~r
.18. 1'..... CC to D.
JUllper 18. FI"OOI 5 to T.
J _ r n . r..- I to T.
JUliper J15.Frc-. IfN to PP.
Jumper J15 .. FJ'a. NN to PP.
Juaper JI6.Frooo U
to V.
I
Rework Instruc,tiona
i
201324
I
I _ r n . 1'..... P to R.
i
J _ r Jl:l.Froa II: to II.
I _ r Jl ... F ..... G to H.
J _ r o J3.J4.J5./7.Jll
I
i I_r
I J_per
oT18.Jao
I
DOt . . - .
I
U to V.
to ,.
I .....r JIll.'..... A to C.
JllIIper JaO.F""" AM to DBH.
Ret.
lUi ........ Nlf to W.
318.F., J _ r 117
........ 0
I
Juaper JI9.Fro. A to C.
15:»
as.
,
i
lwoper 117. FrOOl 0 to F.
!
201324
_1
1
J _ r nO.Fro. R. to
Jumper 114.Froo G to H.
Ju.per J19.FrOia A to C.
1
Jumper J7. Fro. Y to Z.
JUllper J14 .. 7r,. G to H.
I
100156-751
100064-3.1
lumper 16. Fro. CC to DO.
JUilper J9. Fro. P to R.
j
750
380
Froa VV to ft.
Jwoper Ill.FrOOl W to X.
Dot used
3W
R4lI3
1'..... GG to FF.
J9. Fro. P to R.
J13,J18
R
.-....
n.
Juaper Jl1.FrOll. .. to x.
Juaper Jl7. Frooo D to F.
0'.45..
n.
J ....per J6. Fro. CC to 00.
Ju.pers J3,J4,J5,J10,J12,
$H!fT~
J,.~r
lwoper 12. F,..". GG to 88.
Ju.per J16.}o"ro. U to v.
IV
J_per
IllIIper J2. Fl'OII GG to HR.
7rc::. S to T.
lu"
DRAWING NO.
REMARKS ON CI(T. DeSIG.
Caped tor, PolyUla
Solid Insulated
c.
200632-011
DAn.lalLlJ
137
ReSistor,
J".~r
NO. "EO.
138
Reststor,"
Ja.
OwG. NO.
.-J
tI
JlII.Fre. A to
136
144
JUllper
MODE" NO. --1lI....-
R266
II
v.
J20.r..... ANt. to 888.
lMLl
L!ST
100064-391
It
to
1181.
f---
145
148
I I_per
i J_r
,
3~
It
u
BASIC DAI8Y CHAIN .ITII
IMIL'
!.I.ST
=~~~--------------------~--------r----T----------------------~
; l~I~=E~~======D=R=~=W='N=G==T='T="=E=====*===D=.C=.N=O=.==~N=O=.R=E=Q*.=====.=EM=A=.'='=O="==CK=T=.=D=f'='G=.==~
C
Rework lnatructlou
JlII.r.....
J _ r Jl7.Fro. 0 to 1'.
1
UNIT SELECT.
, J _ r JIB ........ RII to lIP.
IJ _ r
I
1
DOt used.
I
o
Q
118
I
J ....per 117.Fro. 0 to F.
======
M"TERIAL.
ASSY . TRAlISFORT ELECfROI!ICS
PWB 451ps 7m TYPE I pi
J ...per Jll.rr. . W to I.
!
1
,
U to V.
i
BASIC DAISY CHAIN
,:
!
I
J_per Jl4.rroa G to H.
, Juaper 115.1'.... Nlf to PP.
IREV.
I _ r "I. r ..... CC to 00.
J .... per J14.FrOlO G to H.
ReIIOrk ID8tructiona
J _ r n . 1'..... VV to ft.
i
I
REMARKS ON
1
AIR
I
1 Jumper J11.FJ'OII W to
200632-015
R2119
l000e8-470
100248-924
Juaper J6. 1'I"00I CC to 00.
J _ r 19. rro. P to R.
NO.
..
I
J_per Jll.Froa _ to X.
D'IAWIHG
..
J\lJlper J2. I'r. . GG to 88.
1~4-391
Rework Instructions
JI23II
uao
390
155
R2112
1
8251
NO. REO.
not used
1
100156-151
100064-391
C424
.Jl8\ J20
100156-222
150
100156-751
IMLl
Juapers J3,J4,J5,JIO,J12,J13,
2.21
3~
loo! 2!-SB4
ft
1
750
II
.6!u:!
ii
100158-433
;W
~ ~~13~6=+=c=ap=a=C1=t=o=r=,=Ta=n=ta=1=_====I=.=5U=f~=1=00=1=3~6_=1~55==F====4=C=2W==========~~;;~==4
137
&:132
01
II
J_per Jl. Fro. VV to
.
1511
I
Re.iator,"
.
CWC.NO.
1
1
Resistor,
I~D~;,~~T~~G~~~~~45~1~~~~~:~~~'P~':::;__~~:c~E~C:NO:.~~10~;:~DA~T~E~8~/3~1~/7~2~'H:ff~T~2:0~D:F4S::~
~I" I~~
z ~
100156-394
T
JIlI09
1
100156-684
390E
161
UlIIT SELECT
LIST
8101[
R_
152
1~51
"-
..
.
R
..
....
8251
201324
INCORPORATED
1
R280
i -___---J-18-,-J-20--D-o-t-u----.-----lr--------,~---1
BASIC DAISY CHAII! WI11I
1
100156-394
R235
Dot uoed
ReWork Instruction.
100156-304
3901
a..i.tor,
147
i Juaper 119.FI'OIO A to C.
i
3001:
"
..
...!lllaa ...Eu 19 o.~ •
148
I . .per 115.Froa l1li to PP.
J13, J18
1
100156-751
JUllpen 33.J4,35.JIO./12,
: luaper 117.Froa 0 to F.
100156-433
750
I_per 114.l'roa G to H.
------------------------------~--~--~--~~~~---I_per Jll1.Fr. . A to C.
4311:
"
I
luaper 115.Froa lfII to PP.
,
a.aiator,
..
.. ..
..
"
Resistor."
! ~
I_per 114.1'I'0I0 G to H.
146
.
,
150
J . .per
i
,
148
I_per JB. Fre. CC to 00.
I
Ref.
.-J
101.
I
201324
C424
U"
iw
I I ... per Ill.Fr. . W to X.
i
C209
1
Rests tor.
I I ..... r III. Fr. . P to R.
I
1
139
\alV.
!U
DI.W.NG NO.
200632-olt
A("AIUI;5 ON CKT .. DESIG.
100128-684
1~4-391
1.511
DATE
NO.IUO.
100136-155
3~
39011:
D_C;. NO.
.68uf
Reohtor, 5~.~W
II
nv.
MOCEL NO. ___1_0___
TITLE
l.:'uf
138
Resis tor,
OIitAWINC
Capaci tor, Tantalta
.-J
Ileal. tor,
ASSY . TRAIIS~ ELlCTRCIIIICS
PWB 37;IPS 7CH TYPE'P'
Capacitor. Po1yfU.
"
I
TITLE
137
C424
143
ORAtiNG
ITUI
I
lML:
INCORPORATED
i
100128-684
II
0
MATERIAL
UlIIT SILICT.
Lin
136
"'"
.68uf
JIa
not u.ed
"
~EQ.
Capacitor, Polyf1la
::E
....
."
z
l"'pe1" 12. U.,. GG to lUI.
luaper 116.Fro. U to V.
z
137
144
i
0
°1.N
I
I ...per 18. 1'I'0I0 CC to 00.
J13 J J18 I J20
NQ.
T!TLE
--
C209
R468
,
ORAWt!'!G
~ '::I UlW~NaCD
100136-155
R466
47
3W
,
1U
2_32-013
1.5u!
1
100156-684
I
.. "
.. .
..
I
•
Caped tor. Tanhl....
1
680E
3_
I'
EV
136
100156-394
Re.e1ator, "
a.ai.tor,
LIST
t·
DO • .,N. HO.
MODEL NO. _ _
10_ _
PWB 37jIPS 9CH TYPE 'P'
ilEal
NO.
~I ~
137
.. ..
MATERIAL
INCORPORATED
D~i\~~G
~
j '"
Reaiator,
Juaper. J3.J4.J5,JIO,J12,
:
'":I~
g
HI
!
o
C209
..
\lJW~_NGI~D
BASIC DAISY CHAlIl WITH
IMIL.:
ASSY. TRAIISFOHT Eu:cTllOIIICS
O'~
a:r:.:...:.:::.::; 0;.:. C:;:i. OIUjG-,
REC.
~O.
.... ,,!Z.
::)
1
I R432
I R433
1
TILllL!a
DA f
~
_ r--
!u
100136-1~~
i 8431
1~8-470
!:l~G. ~O.
IREY.
DR . . ,NG NO.
200632-012
1.5uf
1
100248-924
·1
MOOELNO.~
'!"!'!'!..!!
tI1ITt SEUCT
BASIC DAISY CHAIN WITH
IMLL
CapaCitor, Tantalu.
3901:
Solid Insulated
UlIIT SEurcr
LIST
136
Q
.-J~13_8-+_R_e._l_.t_o_r~,_5_~,~S~W______~3~~~r-l~~_4_-~39~1~____~~U~"~----------------~
\lJ ~~~~T70D
MATERIAL
J _ r 113 ........ J to
155
Rework lnatructlou
201324
Bef.
t...
BASIC DAISY CHAI" "ITH
~.:>
--
OR ....,NG
lTTLE
0
z
I>
Z
"'
"
<
"U1 ~!p~~;foD
'"
0
i
....J
~
ITE"
ASSY. TRANSPORT ELECTROIIICS
PWB 25IPS 7CH. 'IYPE 'A'
DRAWING
NO.
lMLI.J
LIST
MODEL NO _ _ _
1_0_ _
TITLE
INa.
Owc,. NO.
DATE
BASIC DAISY CHAI" WITH
DR"'NG
200632-018
8/31/72 '"EET
IiBu,RKS ON
IOlEO.
NO.
23
IREV.
lu
o • .1i.
137
Capac! tor, Poly fila
138
Real.tor. 5':',
139
Re.lstor,
140
Resistor,
141
aeall1tor.
142
Restator,
143
Real.tor,
144
R.slator,
.
.
.
.
.
.
..
145
Reslstor,
146
Real.tor,
n
1407
Reaiator,
n
148
a.iSi.tor,
149
Re8t.tor,
150
".lator,
151
_iiStor,
152
a..l.tor,
153
IlNlator.
..
n
i"
i"
..
..
..
..
..
n
..I..... solld
DRAWING
0
z
TITLE
'"
.i
ITEM
Z
DRAWING
NO.
;
1
C424
100064-391
1
R266
151[
100156-153
1
8421
5U
100156-513
1
Capacitor, PolyfU.
138
Resistor, 5~, ;W
139
Resistor.
R431
140
Resistor.
....J
~
131[
100156-133
1
R432
141
ReSistor,
100156-104
1
R433
142
Resistor,
6801[
100156-684
1
R466
143
Resistor.
100156-394
1
8468
144
Resistor.
100156-155
1
R509
145
Res18...tor.
100156-394
1
R:ill
146
ReSistor,
Reel.tor.
C424
1
R266
10K
100156-103
1
R421
. 33K
100156-333
1
R431
Resistor. 5~,i'l'
139
Resistor,
iw
140
!tesis tor,
..
"
300K
100156-304
1
M66
143
390K
100156-394
1
R468
144
680K
100156-684
1
8509
145
39011:
100156-394
1
R:ill
146
43K
100156-433
1
8532
147
Resistor,
·
149
Resl.tor,
"
fl
100156-222
1
R262
149
Real.tor.
750
100156-751
1
8235
150
Reai.tor.
n
750
100156-751
1
R251
151
Real.tor:
"
~-391
1
R260
152
Real.tor.
100068-470
1
R269
153
Resi.tor.
100248-824
AIR
J . .per Jl. rroa VV to WI'.
154
!fI.re, Solie! Illoulated
NO, REO.
.68uf
100128-684
1
C4Z4
390
100064-391
1
R266
10K
100156-103
1
R4Zl
33E
100156-333
1
8431
..
. ..
Resistor,
n
DATE
OWG.MO.
n
Resistor,
2.21[
DRA.WING
IREV.
HO.
lU
200632-020
8/31172 '"OfT
REMARKS ON
Z5 o,4!i
CKT.
gUI~,
15K
100156-153
1
R432
n
n
100156-433
1
8433
ileai.tor,
..
43E
n
3001[
100156-304
1
R466
leal. tor,
" "
390K
100156-394
1
8468
Reailtor •
n
n
100158-684
1
11509
"
..
..
68011:
Resistor,
390K
100156-394
1
8511
431
100156-433
1
8532
4-1
lI.21
loolli6-222
1
Il2S2
N
750
100156-751
1
R235
~Q
lOOlU-7n
1
RMI
390
l0006t-1I9l
1
R280
47
100068-470
1
100241-924
AIR
o
148
n
n
..
2.21:
100156-222
1
.
750
100156-751
1
R235
150
Resl.tor,
750
100156-751
1
R251
151
ROlli.tOlI";
n
ilf
390
100064-391
1
R280
IS2
Roai.tor,
n
3'11
47
100068-470
1
R269
153
Reat.tor,
100248-924
AIR
Juaper Jl. Frca VV to W.
IS4
Ifi... , Solie! Iuulated
..
R262
n
..
n
· I.
·
3'11
uee
J ...per J1. Fro. VV to W.
n.
n.
J_per ·12. rroa GG to PI'.
JUllper J2. Frca GG to FF.
J_r
J_per J6. r... CC to lIB.
Juaper J6. r... CC to lIB.
J _ r J6. Frca CC to lIB.
ss.
J.-per JlO.r... RR to 88.
Froa GG to
oJ_per JI0.r... RR to 88.
Juaper JlO.r... RR to
" _ r "I. r... S to T.
JUllper J8. Froa 8 to T.
J"per
J _ r .19. r ..... p to a.
Juaper J9. Froa P to a.
J"per JII. Froa P to R.
J _ r JlZ. rroa I to II.
Juaper J12.F.... I to II.
J . .per J12. r... I to II.
J _ r J14. r .... G to H.
JUIOper J14. Fr. . G to R.
J"per JlC. 1'.-- G to H.
J . .per
J . .per JHi.Prca !III to PP.
J _ r J16. Fre. U to V.
J\JD;p8n;
J_per J17. Froa D. to P.
318 1 320
DOt
J\BDer
u.ed~
J17.p~
lUI.
D toiO F.
not
,!~~~
Y!I!ed.
201324
a.work Iutruct1011.8
Froa!lll to!IP.
.!'!'!'.
"'~rt!:o".
J . .per Jl3. r... J to L.
JlAper J13.'roa J to L.
1$5
J1~.
1'I'0Il 8 to T.
J . .per JIB. ,.... A to C.
luaper J19.Pro. A to C.
lief.
n.
Joaper J16. rroa U to V.
Soapere J3 ,"4.JS ,J7 ,Jll,
Juaper J16.FrOlO U to V.
J3,J4,JS,J7,Jll,
J.-per J13. Pr_ .J to L.
201324
Capac! tor f Polytl1m
138
141
148
.....rk I ... tructi .....
137
....J
~
142
J _ r JIll. r... A to C.
155
136
M33
R:i36
DOt_.
M
M32
. .
.. ..
.
MODEL NO. _ _
10_ _
TITL. E
OFlAWING
NO.
1
J _ r -115. 1'... JIll to PP.
"18,
· ~.
ITEM
1
.. ..
IMLf
0
'"0I
z
100156-433
1
Ju.per. J3,J" •.B,J7,Jll.
AS5Y. TRAlISPORT EIECTR(mICS
PWB 31iIPS 7CH. TYPE • A'
O~~Tw(~C
100156-153
100156-335
l ... ulated
.
~
..,
43K
3.3M
47
'HEET~ OF~_
llJIIT SElECT
LIST
MATERI AL
I~COA.DAAT'O
15K
147
3'11
8/31172
-I
~ =>I \ l ) "'-'AN.GgO
"
R:i3Z
M
1
100064-391
..
..
..
1
I
100128-684
390
.. ..
100156-104
",
jU
200632-019
lH'u.IU::S ON CKT. DES.:G.
.68uf
iw
lOO1[
n
NO. REO
OWG.hO.
lOEV.
NO.
~
137
..
n
DAlE
ORA.WIHG
136
1001[
1.511
BASIC DAISY CHAIN ..ITH
IMLI
MODEL "10. _ _1_0_ _
T! TL E
n
..
UNIT SEIECT
LIST
ASSY. TRAlISPORT EI.I!CTRONICS
P1fB 37~IPS 9CH. TYPE 'A'
3_
3_
.. ..
.. ..
..
~t--
MATERIAL
Q
100128-334 1
390
.33uf
\ l ) ~t}~~T€O
~;:)
'"
CKT. OE5IG.
I
136
154
UXIT SELECT
MATERIAL
aef.
155
aework IutruetiOlla
201324
..
lief.
r J
Jpe
20
. F.... AM to BRB.
BAIIIC DAISY ClIAIII lrlTB
i:>
~WAN_GCD
:~
0>
z
.. I
....J
:E
DRAWING
TITLE
ITEM
NO.
Y. TIlAIISPORT IC~Ic&
PWlI 45IPS 8cH. 'IYPI'A'
DIIAWtNG
TITL.E
MODEL. NO.
owc;~
lMLJ
HO.
10
DR.WING
OAT r'/3l/72
NO. REQ.
NO.
.... ET
REMARKS ON
IRev.
lu
200632-021
Z6 OF45
CKL DESIG.
$J
..
"
Q
138
~1ator, 5~, ",
131
a•• i.tor,
140
_i.tor,
141
anl.tor,
1-12
Reai.tor,
143
Resl.tor,
z
~
~
ITEM
NO.
137
Cap..,itor, I'OI1'fl1 •
....J
~
138
Re81otor, 5",,,,
139
Real.tor,
n
n
;
144
Rell.tor,
145
a.ai.tor,
145
Reat.tor,
" "
147
Relt.tor,
148
U9
a.aiator,
150
R.al.tor,
..
390
100064-391
1
11266
9.11
1001:16-912
1
RUl
271
1001116-273
1
11431
140
ReSistor,
151[
l001~6-153
1
R432
141
ReSistor,
431[
100156-433
1
a433
142
Resistor,
3001[
100156-304
1
R466
143
ReSistor,
3301
100156-334
1
a468
144
Rellistor,
..
.
n
68CE
loo156-e84
1
Il50B
145
Resistor.
3301[
100156-334
1
&511
146
Resistor,
431[
100156-433
1
R:i32
147
Re8i8tor.
148
n
.. ..
100128-684
1
C424
390
100064-391
1
R266
9.111:
100156-912
1
R421
271
100156-273
1
R431
151
100156-153
1
4311:
100156-433
1
JODI:
100156-304
330K
ilf
..
n
n
n
n
1
R262
149
Reei8tor,
1
R235
150
ReSistor.
.
..,
..z ..,'"0",
'" 0
·
151
ReSistor,
n
n
ITEM
HO.
ASSY. tRAIISPORT ELECTIlOllICS
PWB 25IPS 9CH. tyPE 'P'
DRAWING
capael tor. Tutalua
1.5ur
100136-155
1
C209
Capac 1 tor.
.33ut
100128-334
1
C424
138
Rest.tor, 5,.,,,,
390
lOOO6t-391
1
R2S6
139
Rell.tor,
151
100156-153
1
R421
140
Reai.tor,
51K
100156-513
1
M31
8432
141
R.li.tor,
R433
142
Reliator,
1
8466
143
Resi.tor.
100156-334
1
R468
144
Resistor.
6801[
100156-684
1
R509
145
Resiator,
330K
100156-334
1
R511
146
Reatator,
4311:
100156-433
1
R532
147
Reaistor,
....J
~
n
..
n
..
n
..
..
"
7M
100155-751
1
8251
151
Relt.tor,
Reaistor,
..
"
152
ResIstor,
153
&elt.tor,
3'11
47
100066-470
1
R269
153
Resistor.
154
Wlre, Solid In.ulated
100248-924
AIR
154
Wire, Solid InBulated
n
..
13K
100156-133
1
R432
n
10011:
100156-104
1
a433
"
6801
100156-684
1
R466
390K
100156-394
1
R468
.. ..
aelt.tor, .. ..
Reell1tor,
R280
ilf
n
Reaistor,
R251
11.
. .
.. .
..
IS0
1
"fMARK5 ON
137
~11 f
n
8511
10011:
100156-104
1
R532
3.311
100158-335
1
8536
1001&6-222
1
R262
100156-751
1
R235
n
750
loo156-7lil
1
Il2S1
tlf
390
100064-391
1
R280
3lf
47
100068-470
1
R269
100248-924
AIR
1
R280
3lf
47
100068-470
1
R269
153
Ree1etor
100248-924
AiR
154
..-tre, solid IllIIulated
Jumper J2. F .... GG to
11509
1
750
100864-381
Jumper Jl. F .... VV to WI'.
1
l00lli6-394
2.2K
390
n.
100156-155
n
jw
j
1.511
31IoK
n
.152
DRA"IH~
lu v•
NO.
IIJ
200632-023
D'TE~
10
NO. REO.
136
149
1
MOCEL NO.
DWG. NO.
TI TL. E
~
R26~
100064-391
IML:
LIST
II>
R235
100156-751
..
TITL!
1
390
SH . . .
28
0F
ft.
CIT. OESIG.
J . .per Jl. F .... VV to WI'.
n.
Juaper J2. Froa GG to l1li.
to £E.
JUIIlper J6. F .... CC to EE.
Juaper J6. F .... CC to 00.
J_per JlO.Froa RR to SS.
J ...per JI0.Fr. . RR to 85.
JUllper J7. FrOta Y to Z.
Juaper J8. Fro. S to T.
JUIlper J8. Frotl S to T.
Juaper J8. Fr_ S to T.
J_per J9. Fr_ P to R.
J ...per J9. Froot P to R.
JUllper J9. Proa P to R.
J_per J12.Fr_ II: to II.
Jumper J12. F .... I to II.
J ...per Jll.Froa
J"per JU.Fro. G to H.
Jumper Jl4,From G to H.
Juaper J14.Fro. G to H.
Juaper J6.
Fr~
JUllper JI5.Fr_ mr to PP.
Jumper .r15.Fn:e
Juaper JI6.FrOB U to V.
JWlperll J3,/4.J5,J7,Jll.
J_per J17.P .... D to P.
J18,
lIN
to PP.
not uaed.
Jl3,J20
J ....per J17.F .... D to F.
Juaper J16. r... U to V.
not u.ed
Juaper JI7.Proa D to P.
JIDper J19.Froa A to C.
J . .per JI3.P .... J to L.
J"",per JI9.' .... A to C.
Jutaper JI3.' .... J to L.
155
Rework In.tructloll8
201324
Juaper JI8.Pro. TT to DU.
155
Ref.
J . .per .r20. Pr. . AM to BBB.
II: to X.
Juaper Jlli.Fro. mr to PP.
J ...pers J3,J4,J5,JlO,J12,
Jumper J16.Froa U to V.
J_per Jl9.rroa A to C.
lief.
DRAWING
z
1
750
201324
REMARkS ON CkT. CUIG.
0
100156-751
lw
R.... rk llUItrllCUoao
45.
MATERIAL
INCQRPOIUTED
100156-222
n
155
OF
\l)WANGJ;;_D
750
a..letor, "
IlOt u...s.
27
5::>
f-f-
2.211:
Reat.tor,
Jl8,J2O
lu
n
151
J1aperl J3,J4,.J5,J7,J11,
IREY.
NO.
148
. .
..
100156-222
100156-751
ex:
OAT E 8/31/72 SHEET
• 68uf
n
750
Juaper Jl. Fro. VV to W.
_1_0_ _
NO. REO.
.. .
..
..
. ..
..
.
..
2.21
Juaper J2. F .... GG to
NO.
owc. NO.
TIl'LE
152
·
MODEL.
DRAWING
200632-022
Q
C424
n
IML;
LIST
136
1
n
.. ..
.. ..
DIltAWING
100128-684
.. ..
n
SY. 'I'IIOSPOIIT ELI!CTROIfICS
4SIPS 7CH.TYPE 'A'
~
.88uf
· tw
· ..
n
DRAWING
TITLE
co
'"
MATERIAL
BAIIIC DAISY CRAIl! lrl'mOUT IJJIlT SELECT
UNIT SELECT.
INCORPORATEO
z
Q
Cap..,1 tor, 1'017f1lA
"\lJWAN_GCD
r---
<
138
137
--
IJJIIT SELECT
LIST
INCORPORATED
-~
~
MATERIAL
BASIC DAISY CRAIN !rITB
Rework Iutruct10nl
201324
Ref.
BAlI IC DAISY CHAlll _ITIIOIIT IJIII T SElECT.
.:) ""'l
'-AJ WAN.GCO =M::A..T=E::;R..I::A=L==L::I=S=T=
~
~~
oz :;
IU
~ ~~~~3ti~·~c~a~p"~1t~o~r~'~T~e~t~a~I_=-__~I.~5~ut~~1~00~1=3~6~-1~5~5-r~__~C~2~09~__________~____~
Capacitor, Polyt1la
-.J
138
ltea1stor,
~
139
Reat. tor,
II
140
Reeistor I
UTERIAL
""'lWANGCO
'-AJ
IREV.
NO.
I U
200632-025
IN-COAPOFtATE[]-
~
\lJVI!~NG~O
:)
-r-
~ ~O~~~~~~~G~~Am~~37~~~I~PB~~~H~.~TY~PE~'~P:'::;--=::~~~10~:;~0:A~TE~8~/3:1~/~72~':H~Ef~T~3~O~oF~4:S~
,",OOEL NO. _ _1_0_ _
~~r~~fM-.~-----O-R-A-W-rN-G--T-rT-~-E----~---O-'G-.N-O-.--rN-O-.R-E-O.~----R-EM-'-.'-'-O-N--C'-T-.-O-f'-rG-.--~
137
~ :J
~-
Oq .... WINC
LIST
~
;
1~.5~
DRAWING
TITLE
OWG.NO.
NO. REQ.
REMJ.RI(S
ON
C"T. DESIG_
: ~~==4=====================*=======~~===*============~========~
--i
~ ~ ~1~3~6~c~a~p=ac~1~to~r~,~T~~~t~a~1~~__~1~.5~u~f~I~00~13~6~-1~5~5~~~~C~2~O~9________________
137
Capacitor, Po1y!1lrr1
.68ut
100128-684
DRAWING
LIST
ASSY. TRAl1SPORT ELECTRONICS
PWB 37,IPB 7CH. TYPE 'P'
~
O~fT·~~G
~
I~g~
~
136
Capacitor, TantalW11
1.5ut
100136-155
C209
137
Capec1tor, Po1ytll.
• G8ut
100128-684
C424
R26S
C424
CfltAWING
0"'<;."'0.
NO.
!l!'~Q.
C424
5l1,i_
390
100064-391
R266
.-J~1~3~8+-R_e_s_1s_t_o~r,~5$~,~~_________3_9O-t_1_00
__
06_4_-3_9_1~____t-R_2_6_6________________
-.J
138
Resistor, 5%t~W
390
100064-391
~.
151[
100156-153
R421
~
~
139
Resistor,"
iw
iOl:
100156-103
R421
5lE
100156-513
M31
140
psis-tor,
331
100156-333
ft431
139
Resistor,"
140
Resistor,
141
Besietor.
131[
100156-133
R432
141
Resistor,"
Reaiator,
lOOK
100156-104
R433
142
Resistor,
144
Reai.tor,"
"
15K
100156-153
R432
141
Resistor ,
43K
100156-433
R433
142
Resistor.
H
15K
100156-153
R432
4311:
100156-433
R433
100156-304
!\466
I
R466
143
Resia tor,
11
"
3001[
144
Resistor,"
"
390K
100156-394
8468
144
Resistor,
II
"
39011:
100156-394
R468
1. 511
100156-155
R509
145
Resistor."
II
6801
1 00156-684
R509
145
Resis tor,
tt
.,
6801
100156-684
R509
39011:
100156-394
R511
146
Resistor.
II
390K
39011:
1001
100156-104
. P.532
3.311
100156-335
R536
148
2.211:
100156-222
R262
149
Resistor."
II
2.2K
100156-222
Resistor, "
II
750
Resistor,"
II
Resi. tor,
149
a•• tstor
150
Reat. tor,
tI
II
750
100156-751
R235
150
151
Resi.tor,"
••
750
100156-751
R251
151
II
100156-394
';'::SK i
100156-433
R5Il
146
147
I
R532
I
I
Resistor,"
II
Resistor,;;
•.
Resistor,
R235
150
Resistor,"
"
750
100156-751
R235
151
Resistor,"
II
750
100156-751
R251
Resistor,"
390
100064-391
R280
152
Res istoT, II
;W
390
100064-391
R280
152
47
100068-470
R269
153
Resistor,"
3W
47
100068-470
R269
153 I Resistor.
154
W1re, Solid Insulated
154
Wire, Sol1d Insulated
100248-924
to DD.
I
100064-391
R280
47
100068-470
R269
Wire, Solid Insulated
100248-924
AIR
J . .per J2. FrOll GG to l1li.
Jumper J6. From. CC to DD.
Juaper J6. Fro. CC to DD.
Jumper J9. From P to R.
J _ r J9. FrOll p to R.
Jumper 114.From G to H.
I
i .Jumper Jll.FrOlll W to X.
J"'per Jll.Fro. 1f to
i
Juroper JI4.FrOOI G to H.
JUlllper J14. FrOli G to H.
Jumper J15. From NN to PP.
J13,J20
Ju.per J17.From D to F.
not used.
Jura""r J17 From
D
to
313
F.
not used
201324
J_per JI9.Fr_ A to C.
JUlIIper J1B.FrOB TT to UU.
155
Ret.'
R•• ork Instructions
201324
Ref.
JUllper .120. Fre. AM to 8BB.
0
.~
z
t-
z
S~
"
.
~
--'
~
CRAWlflie
TITLE
ITEM
ASSY. TRANSPORT ElECTRO!IICS
PWB 45 I PB 9CH. TYPE 'P'
IMLI
LIST
DRAWING
NO.
MODEL NO.
TlTL E
O",ING
·1200632-027
_1_0_ _
owG. NO.
NO. REO.
OAT.s~
IRev.
NO.
lu
o,~
," EET 32
REMARKS ON CI(T. DESIG.
~ I:J \ll~~~-~CO
r-r-
.. .
0
DR .... WlNG
TJTL.E
ASSY. TRANSPORT ElECTR<»IICS
Am 45 I PS 7CH. TYPE 'P'
z
.,
z
0
r
ITEM
HO.
c
i
136
Capac! tor J Tan talus
137
Capac1 tor, Poly!11m
138
139
Resistor,
. ..
MATERIAL
IML~
LIST
INCORPORATED
MOOEL. NO.
TITL E
10
O,*G. NO.
NO. REQ.
1.5ut
100136-155
1
C209
.68ut
100128-684
1
C424
Resistor, 5.".',,'1'
390
J00064-391
1
R266
" !-
9.11[
100156-912
1
R421
CRAWING
Capac! tor. Ta.ntalua
1.5ut
100136-155
1
C209
137
capac 1 tor I Poly!1l.
.68u!
100128-684
1
C424
138
nea1.tor, 5j,J'if
390
100064-391
1
R266
139
Reaiator,
9.111:
100156-1113
1
R421
140
a.aiator,
21£
100156-273
1
R431
140
Resistor,
"
27K
100156-273
1
141
Relt.tor,
15K
100156-153
1
R432
141
15K
100156-153
1
142
a.'iator,
143
431
100158-433
1
R433
Reailtor,
.. 1.. ,.
.. ..
.. ..
.. ..
3001[
l00156-3p4
1
R466.
144
Reai,tor,
" "
33011:
145
Rellator,
146
147
"'"
-.J
~
Re8istor,
..
..
142
"
Resistor, " "
143
a..i.tor,
..
100156-334
1
R468
144 .
Resistor,
8801:
100156-684
1
R509
145
ReSistor,
Reaiator.
.. ..
.. "
3301
100156-334
1
R511
146
Resistor,
Reaiator,
"
431[
100168-433
1
R532
147
R.alti11tor,
i
148
149
a•• lator.
1M
R.a1ator,
151
Relli.tor,
.. ..
..
"
" ..
152
I.e.iator,
"
153
Realator ,
" :nr
154
Wire, Solid In8ulated
,-
"
"
.. ..
..
..
"
"
2.211:
100156-222
1
R262
149
Resistor.
..
750
100156-751
1
R235
150
Resistor,
"
7110
100156-751
1
R2:n
151
Reet. tor ,
390
100064-391
1
R280
152
47
100068-470
1
R269
153
100248-924
AIR
154
Wire. So11d In.urate
r--
100156-433
J _ r J15.Fr. . IIlI to 1'1'.
J13,J20
REMA.RKS
IREY.
[U
43K
Juaper J9. Fro.. P to R.
I
NO.
aOOII:
Juaper Ja. 1'.... S to T.
JUilpera J3,J4,J5,J10,Jl2,
DRAWING
200632-028
0,,.8/31/72
136
148
BAS Ie DAISY CHAlK _ITROI1I' IJIIIT SELECT
BAIIIC DAISY CHAIN 'll"ITIIOUT IJIIIT SELECT
-F'-
v.
JUllper J17.FrOll D to F.
Jumper .Il9.From A to C.
Rework IO.litructlons
x.
J"",per J16.FrOll U to
I .Jumper JIB.From TT to UL'.
1551
...
JUllper JI5.Fr_ !Ill to PP.
JuaperB J'3 J J4 J J5,J10,J12,
JUllpeT J16. FrOli. U to V.
Jumpers J3,J4.J5,JIO,J12.
Q
to .....
Jumper J9. Fro. P to R.
BAIIIC DAISY CHAIN 'll"Il'IIOllT IJIIIT SEaCT
MATERIAL
vv
Jumper J2. From GG to HH.
JImiper J","u.FrOil AAA to B8B.
i i:J \lJ~~~~T~O
CI
Juaper Jl. F .....
Jua.per J7 .. Fro.. y to z.
Ref.
201324
390
J'l_per J8. Fro. 5 to T.
JUIlper JIS.From TT to UU.
Rework Instructions
!_
31'
Jumper J7. From Y to Z.
Jumper J19.From A to C.
I
II
Jumper J8. From S to T.
; Jumper JlS, From t' to V.
not used.
4
J\Dlper J8. Frc:. S to 7.
Jumper J15. From. NN to PP.
i
154
II
Jumper J7. From y to Z.
! Ju.per Jll.Froa W to X.
L
n.
JUllper Jl. FrOlll VV to
AIR
Jumper J2. Fro. GG to HH ..
J3,J4,J~,JIO.J12,
R262
R251
,W
!
100156-222
100156-751
3W
cc
2.2J[
750
It
Ju.per J6. From
II
(
II
n.
R532
100156-751
Relltator J
JUllper Jl. From VV to
R511
100156-433
149
Rest. tor,
AIR
100156-394
R262
153
100248-924
,
431
148
152
JI3,
II
R468
148
t
100156-333
100156-684
Reatstor,
..
33K
R421
100156-394
Bestator I
II
100156-103
68011
147
II
II
101
39011
146
II
I'll"
JRfV.
IU
14000L NO. __1_o_ _
TITLE
100128-334
--i
NO.
200632-028
.33ut
142
JUllperl
MATERIAL
lNCQ/=lPQRATEO
ASSY . TRANS PORT ELECTROKI CS
ASSY. TRAIISPORT ELECTROIIICS
PWB 25IPB 7CH. TYPE 'P'
TITL.E
IREV.
NO.
200632-024
INCORPORATED
DR ....",
BASIC DAISY CHAIII lI'ITROllT IiIlIT SElECT.
BAIIIC DAISY CHAIN WITHOUT UNIT SELECT.
ORAWINC
LUlIC DAISY CRAIII WITl/Ol'l' '""IT SElECT.
BAlIC DAISY CHAIB WITIIOIn' UIIIT S'llZCT
::J 'U)W~..N_GCP
-
AB5Y. TIWISPORT KUlCTRancs
PO 251PS 7CH.TYPB 'A'
TITLE
J.
ITlM
MODEL. NO.
TITLE
CltAWING
NO.
DWG. "'0.
10
D .... 'NO
200632-1)30
NO.
'REV.
"" .. 35 oF4~
DATE8/31/72
137
Capac 1 tor. Polyfl1a
..J
136
lI.olotol', 51-,iW
~::J "1W~_N.G~a
LU
- r--
o
wOOtL l1li0. _ _
10
__
o&
REII14RIC5, ON CKT. DESIG.
NO. REO.
til'.
-I 200632-031
II
iu
~~--~--------------------~-------'r----r----------------------1
0
ItE..
OI( .... I"'~ TlTL~
01l'--NO.
'-0. "to.
U •• IU ON (If. DfltG.
~..:~:~:~~=====================*========~====?======================I
139
..
Real.tor,
14~
a..tater. "
141
R•• iator,
142
Real.tor,
143
&elt.tor.
144
.... t.tor,
1~
... tator,
1"
... t.tor,
147
... t.tor,
1OO1211-33(
1
C424
390
100064-391
1
11266
lw
137
Capaeltor, I'017tl1.
.6But
100128-684
C(24
--I
138
~
13!)
Resist.or, ~l,~..
Rutotor,"
390
100064-391
11266
iw
101t
l001~6-103
un
331
100156-333
~
"
MATERIAL
1M L!t----'-'-D'.;.:...:"-,-'
II -.
LIST
~gS!:",' ,"=~ =~ 'fi: '~*~G==PIfB===3=7
.
200632-032
DwG.~O"
TITL.E
....
NO. REO.
REMARKS
ON
=3;::7=0,=4===1
Cl1I-684
1
R466
300K
100156-304
RU6
143
ResistQr ..
II
II
300K
100156-304
R466
143
Resistor,"
..
300K
100156-304
11466
3_
100156-394
1
8468
144
Resistor."
..
3_
100156-394
U6B
144
Resistor,
trI.
"
390K
100156-394
R468
144
Rest.tor,
"
330K
100156-334
R4el
n
1.511
100156-155
1
UOS
145
Resletor."
..
680K
100156-684
R509
14$
Resiatorr-
II
680K
100156-684
RS09
145
Reststor,"
"
680K
100156-5114
R509
3_
100156-394
1
U11
390l(
100156-394
1t511
146
Rc-slstor,"
n
390K
100156-394
RSH
146
ReSistor,
11
II
330K
100156-334
RSll
lOO1t
looll>6-104
1
8532
147
4llt
100156-433
R532
117
Resistor,."
"
43K
100156-433
R532
147
Resistor,"
"
43K
100156-433
RS32
148
bat.tor,
" "
" "
" "
3.311
looU8-335
1
U36
148
149
2.21:
100156-222
1
11262
750
lOOU6-751
1
R235
150
151
a•• iator, " n
a.. lltor, .. ..
".lator. " "
750
100156-751
1
11251
1:'>1
152
... tator,
"
;W
390
100064-391
1
R280
153
"III,tor, "
311
47
100068-470
1
11269
153
lU
.ire, SOlid lnlulated
l00248-92(
AIR
JUllper Jl. FrOll VV to W.
154
150
..
n
n
..
..
,
luapor. J3,/4,15,n,/ll,
Resistor."
..
..
a~.i.tor,"'
~'t'
2.2K
100156-222
R262
14i1
Resistor,"
tI
2.2K
100156-222
R262
149
Resl.tor,"
II
2.2K
100156-222
R262
750
100156-751
R235
150
R«:sistor,"
II
750
100156-751
R235
150
Resistor."
11
750
100156-751
R23S
151
Resistor!'''
n
750
100156-751
R2S1
lSi
Resistor .. "
"
750
100156-751
11251
390
100064-391
R280
151
Resistor,
11
~W
390
100064-391
R280
152
Rellstor."
~W
390
100064-391
R260
47
100068-470
R269
Resi8tor."
3"
47
100068-470
R269
153
Res18 tor.
3W
47
100068-470
R269
150
100248-924
Wire, Soltd lDlulated
AIR
JU1lper Jl. Froe VY to WI'.
15~
100248-924
Wire. Solid Insulated
Jumper Jl. From VV t .. "IIfI.
AIR
AlR./~ VJ....per Jl. FrOIO VV to WI'. 17;' k
~~~~__~~~~~~~~t7~~~~r-~_·~..e~tJ~~~~~r_J~2_._F_r~
__~~~tO~FF~.~~~~~~H.~". 00
154
Wire, Solid Insulated
100248-924
JIlIOper J2. Fr. . GG to Fr.
n.
Jumper J6 .. FrOil CC to EE.
Juaper nO.F ..... RR to SS.
I ...per 1l0.Froe IlR to S9_
Jumper JI0.From RR to 55.
Juaper J8. PrOil S to T.
J""per 18. Froe S to T.
Jumper
Juaper J9. Fro. P to R.
J"",per 19. F ..... P to ••
Jumper J9. From P to R.
JUllper J12.FrOOl K to II.
J""per J12.rl'Oll II: to II.
Jumper J12.Fra. K to III.
Jumper J12.FrOlR K to II.
Juaper J14.FrOII G to H.
JWl:per J14.1",," G to
B.
Jumper J14. FrOli G to H ..
JUllper J14. Fro. G to
Juaper .u5.F...,. NN to PP.
Jucper 115.'"", ~"" to PP.
Juaper 116.Fr... U to v.
JUliper Jl6.''''''' Ii to Y.
u
to
Jumper J2. FrClill GG to FF ..
11
Fr
100156-304
R466
330K
l0015&-3J4
8468
6801>
10015G-68~
U09
330K
1001S6-334
1
RSl1
330.
100156-334
8511
43K
100156-433
1
R532
OK
100156-433
~532
2.2K
100156-222
1
11262
2.2K
100156-222
R262
750
100156-751
1
11235
150
100156-751
R235
750
100156-751
1
R261
150
100156-751
R251
iW
390
100064-391
1
11280
390
100064-391
1;280
31r
47
100068-470
i
1\269
100248-924
AIR
. ;.
150
100158-751
1
11251
1:'1
Resistor,
390
100064-391
1
11280
152
ReBi8tor,
31r
41
100068-410
1
11269
153
Resistor,
1002"8-924
AIR
JllIIper Jl. FrCIII VV to ...
154
Wire. so11d lnsula.ted
Wire, 80114 1.....latlHl
R421
100156-273
-
Rest.tor, "
114
100156-91%
"
Resistor,
..
II.IX
Rt'siltor,"
150
Re.tator,
1w
R.dotor,"
149
... l.tor,
n.. ls,or,··
11&
R262
1113
119
l~~
11235
162
~
R468
1
..
R421
R509
1
n
R266
1
1
100158-751
&e.l.tor,
C424
lOOOU-391
1
100156-222
151
10012~-6A~
390
100156-684
150
H
.68~f
..
" "
..
..
Juaper J6. F1"OIII CC to lIE.
JUIlper nO.FrOOl RR to SS.
Jumper nO.Fr"" RR to ·SS.
n.
F .... S to T.
Jumper J8. Fr.". S to T:
Juaper J9. F ..... P to R.
Juaper J9. Froa P to R.
x:
to
Jumper Jl2.FrOll X to
)I.
Y
I_per J16. Froe U to V.
JUIlper J17.Froe D to F.
JUllper .J19.FrOlD A to C.
o,UU.
~:::~ ~~;:F~:: ; '
201324
J20
X
not used
,>(
155
0 rOlD AAA to BBB.
Juape r J2.r
1
Jumper J15. FrOll l1li to PP.
Rework Instructions
201350
lief.
..
W!re .. Solid In:n:lated
100248-924
A'R
,Jum;'er
.n.
201324
I/- '?hAs ~UIII,e~
#JW
.;i,
uu. ()"A
Ret.
-J'
~ ~ 7/f'K
r4
J_per J13.FrOll J to L.
~ ~~,; ~&HIS~
DI)I~ O~~ ~'W~.
i5~-
Fro.":I '"\' to ....
.ruwpoer J2. }'roc: GG to FF.
Jut:.;-er J6. froa CC to EE.
JUCl~r
i
JIO.FrOQ fiR 'to 5S.
Ju:per JR. Free, S to T.
JUllper J9. Froa P to R.
I'll~
I~per
J12.FrOQ
I(
to 1I.
I
Jumper J17.From D to E.
~F
V'
Jumper J19. FrOll A to B.
A-
t/!
:;::::~~ :HN~~ J\~OLUU.
I
Ref.
1Ie-51.tOT,"
..
-'-''''
Jumper J16.From U to V.
Jlapera J3,J4 ,J5.J7 ,Jll,
1~
Re,istor,"
T
II~
Jumper J14 .. Fro-. G to H.
I_per Jl5.Y",", liN to PP.
a.work ID. tructlon.
Jumpe r Jl. Frca VV to WW.
Juaper 16. Fro. CC to EE.
Juaper J14.Y",", G to H•.
l~D
l~~
Juaper J2. Fr"" GG to FF.
Juaper 312. From
Dot u •• d.
1.
Juaper J2. FrOll GG to FF.
Juap.r
Juaperl J3 ,J4 ,.JI.J1 ,J11,
ca;Joac:ltor, Pol,.!UII
100156-334
2.21
... l.tor
""t·~.::2
330K
"
... i..tOT.
1110
__
10
__
680K
.. ..
14.
~o
8~.htor, 5~,t'"
Resistor,
100156-153
..
..
..
..
WO:)C ..
1:tS
141
15K
CKT. DfSIG.
N1' 4S1P,i; 1CK.TiP£ 'A-
-...J
U32
.
..J
~
REMARKS ON
~
,",u.1E ~,12..
~~--~-------------------'---------r----~--------------------~
~g: '~"
e~~T-':'i;'
R266
27K
1
~
OF4S
tJ6
Res1stor,
100156-273
S,=T===
"_.'-'"-~"-J"""'"-+-III·U'-:-l·
IIJMIL·!f~··
.• 200;;]2-031
••
140
27!t
lU
C424
U31
U21
142
1
100156-912
1
"
100126-684
9.1K
100156-912
Rell.tor,
.6Suf
tw
9.U
lu
136
Resistor,
iw
loU
NO. REQ.
139
11266
"
OWG. NO,
TI TL. E
CRAWING
1
1
bat.tor,
NO.
100064-391
100064-391
160
i
ITE"
390
390
~00632-035
DATE8~ '""T40
!~ \ll~.~::~~~t=l:("=~::A17.'=~=.~=~::I="=L==L=1
IREV.
Rework Instructions
BB~.
8J.SIC CtIS'l' .ClUll!. Y/T",WT '"'1fT Sr.JECT.
Q.CJ.t
DO,,'NO HO.
on
Resistor • 5'~, , •
Relt.tor. 51- ....
..
..
MODEL "10. _ _
10
__
138
C424
... i.tor,
ASSY. TRANSPORT ElBCTROIIICS
PO 451PS 7CH. TYPE 'A'
CapacItor. Polyfilll
1
139
TITLE
137
100128-684
1311
DA ...wtHC
0
MATERIAL
155
Ju.per 120.From AM to
IML'-I
LIST
IN-CCi'A"POAATEo-
-;.-
Q
.68uf
Polyflla
Capacitor
Ref.
201324
Rework Instructions
155:
BASIC DAI5V'CRAIN WITHOUT UNIT SElBCT.
IlAl!UAlt DENS ITY- , '
~ ,:J "\lJWANGCa
'z" 0'",
RE,."RKS ON CI(T. DESIG.
NO. REO.
136
137
Rer.
pe I' J20 Froe AM to BBB.
(!)
~
Juauer J17.Fro. D to ,.
J ....,er 118.FI'OOl TT to
-
-- -_·t
H~
Juaper 115.!rOlll NH to PP.
1---+--J-um-p-er-.-J-3-,-J4-.-J5-,-iJ..
7,-J-U-,---+-------+---rJ.;:ua:lp;;e;'r";;J':;16;':.~F·~r~~·tf~'.:"~;;;;"v:':• ..:.......,-"'/1,'
~::g:i m·~~ JT.,to,UU.
a.work In.truetlOD.
o
Ju.,per .36. Froe
Juaper J19.Froe A to C.
103
4-1
Juorper J6. Fr... cc to EE.
cc
~
148
141
Re.l.tor,...
11
fuapel' J2. Fr_ GG to FF.
juaper .il7.Fro.
Dot u.ed.
=:)
r-
REM.R.' ON eKl. ""'G.
-+________ ____t-____________________
____________________
100128-684
13*
LIST
ORTA'T~NEO ASSY. TRANSPORT ELECTRONICS
D'T, 0'3' 17:::"-,e'/T· 3'tl:l OF 4/'.
~~_~~~~~!.~5~IPS~~~H~"TY~~=~~'A=·===;.__~MO:O:E~L:NO:.~::10~;:~"~~::~~~::::~~~~~~
.68uf
Ca.pac1tor, Po1yfllm
:!E
MATERIAL
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,.:~
~~1~36~
1~7
...J
"1
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S
:::10:::~=D=';::TE=8=/3;::1=1=72=='="="='
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CR/4.WIIIIG
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,.
N O:....;N;.::;;.O.
INCORPORATED
ASSY. TRANSPOIIT ELECTRONICS
.... :; r .......,
;
136
.33ut
BASIC DAISY CHAI!! WITHOUT UNIT 5EUICT.
BASIC DAISY CRAI!! .. ITHOUT UIIIT SELECT.
IIML' .... 'M' 00.
LI ST
.:
I
:E
MATERIAL
INCO~POAATEO
O_"WlNG
'"
S
IML'·1
LIST
J20
l!i~
not used
Jusrpe-r J1T.Troa D to
201424
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t.
«
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-.
J. ·1
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LOAD PB ry'C
LOAD PII Njo
N
I
I:!l[J
c:I
T,ali
+5\1
blczOI
1__+IOUF
LOAD PII
T~SPORT
READY (-)
GND
rll9
R242
IK
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F"
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R244
Q202
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10 220K
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SELECT ADD JUMPER Y TO Z.
00 +5\1 OPTIONS TO CUSTOMER CONTROLLER.
+5V
~+{5V
C218
o
+13V +SV
~0.uF
13 4'"
R2SZ Q205·
220"
V'"
4
1.5K
5 U2Z0 6
U
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TY
220
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~ FOR V.-.. COMPOIIENTS SEE
IIl53
J5.IK
R251
ID
TYP P VER -"WER COW'IIURATIDII SHOWN.
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MOOELNO.~
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CKT .. DESIGJ
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NO.
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200347 - 0000
IREv.
111
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MODELNO.~ DATE~ 5HEfT~ OF~
?WB, FASIC BOARD.
TITLE
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NO.
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LIST
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NO. REO.
REMARKS
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loev.
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I j-
001
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CKT. DESIG.
MATERIAL
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MOOELIljD_~
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MATERIAL
A,sSY. DATA ELECTOONICS
fl:.Jl I:a1§ l'. J1~ii!S.
ITEM
TIT L E
ORA WI N G
OATE~
UJ
NO. REO.
OIlG. NO.
REM"RKS
ON
ORA .... ING
110.
C!acitor, Cera"':'l.icc
6ep!
1:l0073-6tsO
9
CI02-902.
115
Capacitor, Ceramic
lOOpf
100073-101
9
C102-902.
l16
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,:lId
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CI04-904.
116
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.OO33uf' 1001il8·3J2
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.0068u! 1')1)165-<>52
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117
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5
6
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100084
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I
!.C.Q::.:.d.2 Inp-..:.t. POiiii;r.
lbt>088
I
I 100090
n
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1..7K
lOoJl5t>-472
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6.8K
10015(,..682
4
56
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U18.19.20.21.22.
57
Re~ietcr.
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I
I U28.
1
9
U21.
5
100087
9
100156=-222
"
1
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100156-182
2 .. 2K
$%.
R~!i!!t0r_
UJl.
U23.24025 o 26.30.
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1
5
8
.
51.
S-S
100085
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Ul.2.29.
3
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60
Re~i!!t"r.
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61
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lQll167.
10
15
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2N4J.2J
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2114125
I
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100081
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9
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27K
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9
. R109-909.
3L.8K
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9
Rll2-"9+2.
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lOOK
100156-101.
16
Resistor.
l.'I'!'g.
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9
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66
Ql02-902. Ql05-905.
67
100053-022
A/R
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I
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12K
IU1h-91L. Rll5-915.
Rl17 -917. Rl19-919.
Diode, Signal.
IH914
100091
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69
CilDl-90l. CRl.03-903.
Cll.n5-905. CRl06-906.
7') ,
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CRl07-907. CRl08-908.
71
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'1
Test. Test.
I
Station i
~: !
Ref.
2001~}8
Ref.
R4S.
120
ResistoI1, 5%. 4W•
9
mo-nc.
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123
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ITEM
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SHEET...L
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NO.
Capacitor. TantalUIII.
Capacitor.
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REMARI(S
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DRAWING
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TI TL E
DRAWING
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NO. REO.
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1
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ill Capacitor, 1antalum.
4.7llf'
100070.l.!75
9
CI01~01.
9
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115
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68¢
1'XYJ7 3-680
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C102..90?
115
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9
CI02-902-:.'
9
CI0}-903.
84
C4l.
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1·JO::J JG-2Ob
4-40 x )/8"
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1')(}.'W -21')
4-40
117
1iX)O$?-200
86
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4
X
,
5/8 ft
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.1J041uf
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9
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116
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9
C10L-904.
100165-332
9
C10S-9'l5.
117
CapaCitor, Mylar.
.0018uf
100165-182
9
CI05-905.
.
120
Rel!1st.or. 5%. 1w•
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121
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o.BK
1001;;6-<>02
1
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120
fte~istor.
5%.
9O.9K
l00155.l.!77
9
RllD-910.
121
Re3i~t.or.
1%. •
•
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Juntper Jl. Fr.m A to !:"
lU31-931.
Rlll-911.
Jul!l?'!r J2.
201(
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1
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Ju.G;>er J3. From F to }{.
91
100156-910
1
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two
2.7
1001$6-2R7
2
1141.I:J'-
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220
1001$6-221
13
Rl.4.15.17. RlOl-901.
2110
100156-241
19
R23. RlOSoo9OS. Rl06-906.
~istor.
U .•
309
100155-240
1
3)0
100156-331
15
41
Resilltoio. S~.
=w.
1170
100156-471
11
112
l!eeietor. U.
ft
5li
100155-261
43
Resistor.
634
1001.55-270
44
ReSistor. •
11
100155-289
.
Rl02-902 •
RlO.
1
Rl2.
1
!OJ.
,
R)8.
45
Resistor.
~.
160
1oo~lB1
liIIsi.atol'. 5%. ~.
lK
100l$6-102
47
48
Rae1.nor. 5$.
p.
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10006b-102
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~.
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100156-152
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1
1
1ill5.
9
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l24 Wire, Solid Ineu1ated.
l002l!C-924
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used.
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Rl23-92J.Rl03-903. 1tl.OIt-~.
R129-929. Rl.30-930.
I
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L
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II
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I I
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Jumper J?. Not used. J
Jumper J3. Fr.'111 F
~2.J7 .lU21-921.
1
1&6
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A/R
lOJ156-602
100155-453
..
Rll.
R2.5.9.16.16.
1002!;8-924
6.BK
51.ll
12J
9
Resimr. S~. •
Wire, Solid Insu1atec.
~w.
122
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119
?1.?2.23.2h.
124
L
1.7
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118
10001.3-200
CapaCitor, Ceraaic.
SHEET
00+.
C5.
.(0)3uf
119
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ON
IREV.
NO.
ORAmG
2003L7 '-
OATE~
C'.
100156-750
I
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60
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ELECTRONICS PW8
BOARO
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PROCESSED
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2 INPUT POWER
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100089
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100080
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72
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2.4Kllool56-24Z!
33
, RII,12,14,16,ZI,45
1% 114W
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100156-332
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63
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0106-906
0107-901
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85
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9
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86
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14
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86
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9
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91
92
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93
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100262
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10
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94
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100064·391 I
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82
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410
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