Nautel Maine VECTOR125 Nautel VR125 User Manual

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Vector-LP
Radio Beacon
Transmitter
Technical Instruction Manual
VR125
VR250
Issue 1.8.1 ................. 01 February 2015
Nautel Limited
10089 Peggy's Cove Road,
Hackett's Cove, NS, Canada B3Z 3J4
T.877 6 nautel (628835) or +1.902.823.2233
F.+1.902.823.3183 info@nautel.com
U.S. customers please contact:
Nautel Inc.
201 Target Industrial Circle, Bangor ME 04401
T.877 6 nautel (628835) or +1.207.947.8200
F.+1.207.947.3693 info@nautel.com
e-mail: support@nautel.com
www.nautel.com
 Copyright 2015 NAUTEL. All rights reserved.
IMPORTANT
This manual makes frequent references to a mode of
operation called ‘beacon and voice’ (e.g., pages 1-1,
3-11, 3-23, 3-30, 4-4, 4-5, 4-7, 6-1 and 6-15).
Please ignore these references, as voice operation is not
authorized in FCC/FAA compliant transmitters.
Vector-LP Radio Beacon Transmitter Technical Instruction Manual Feb.01.15
Warranty
by Nautel Limited/Nautel Inc. (herein after referred to as Nautel)
Nautel Limited/Nautel Incorporated, hereinafter referred to as Nautel, guarantees all mechanical and electrical parts of
the equipment for a period of 18 months from date of shipment.
1.
A "Part Failure" shall be deemed to have occurred when the part has become defective, or does not have the
characteristics required for the specified equipment performance:
(a)
When the equipment is operated within the design parameters, and
(b)
When the equipment is installed and adjusted according to Nautel's prescribed procedures as stated in
the instruction manual.
2.
Nautel shall provide replacements for all "Parts" at no cost to the Customer when they become defective during
the warranty period, and upon the return of the defective part.
3.
In the event that a "Part" fails during the warranty period and causes damage to a sub-assembly that cannot be
readily repaired in the field, the entire sub-assembly so damaged may be returned to Nautel for repair. The
repairs will be made without charge to the Customer.
4.
Where warranty replacements or repair are provided under items 2 or 3, Nautel will pay that part of the shipping
costs incurred in returning the part/assembly to the Customer.
5.
Warranty replacement parts and repair, which are provided under items 2 or 3, shall be guaranteed for a period
of ninety days from date of shipment or until the end of the original warranty period, whichever occurs later.
6.
Nautel will not assume responsibility for any charges incurred by other than Nautel employees.
7.
Nautel shall have the privilege of investigating whether failures have been caused by factors beyond its control.
8.
Nautel shall in no event be liable for any consequential damages arising from the use of this equipment.
9.
When requesting a warranty repair/replacement, please provide complete and accurate information. Observe
the instructions regarding 'Equipment Being Returned to Nautel' on page two of this warranty and provide the
information requested.
10.
When ordering spare/replacement parts, please provide complete and accurate information. Refer to the parts
list of the Repair manual for ordering information. Provide as much of the information requested for 'Equipment
Being Returned to Nautel' on page two of this warranty as is practical. The information identified by an asterisk
is the minimum required.
Nautel Limited
10089 Peggy's Cove Road
Hackett's Cove NS Canada B3Z 3J4
T. 877 6 nautel (628835) or 1.902.823.2233
F. 1.902.823.3183
24hr. Answering Service 1.902.823.3900
Nautel Inc.
201 Target Industrial Circle
Bangor ME USA 04401
T. 877 6 nautel (628835) or 1.207.947.8200
F. 1.207.947.3693
Customer Service Notice
A ‘Technical Assistance’ and ‘Plug-in Module Exchange’ service is available to Nautel users.
Vector-LP Radio Beacon Transmitter Technical Instruction Manual Feb.01.15
Factory Support
TECHNICAL ASSISTANCE
Nautel's field service department provides telephone technical assistance on a 24 hour, seven days a week basis.
Requests by other media (facsimile or e-mail) will be responded to the next working day if received after Nautel's normal
working hours. Contact the appropriate field service centre from the following:
U.S.A. customers use:
Nautel Incorporated
201 Target Industrial Circle
Bangor, Maine 04401
T. +1.207.947.8200 (24 hours) or 877 6 nautel (628835)
F. +1.207.947.3693
All other customers use:
Nautel Limited
10089 Peggy’s Cove Road,
Hackett’s Cove, NS, Canada
B3Z 3J4
T. +1.902.823.3900 (24 hours) or 877 6 nautel (628835)
F. +1.902.823.3183
E-Mail
support@nautel.com
Web
www.nautel.com
MODULE EXCHANGE SERVICE
In order to provide Nautel customers with a fast and efficient service in the event of a problem, Nautel operates a
factory rebuilt, module exchange service which takes full advantage of the high degree of module redundancy in
Nautel equipment. This module exchange service is operated from Nautel’s factory in Bangor, Maine and Hackett’s
Cove, Nova Scotia. These two locations allow us to provide a quick turn around service to keep our customers on
the air. During the transmitter’s warranty period, up to 18 months from shipment, repair and exchange of modules is
at no charge to the customer. When the warranty has expired, a charge of 80% of the list price for all exchanged
modules is made. If the faulty module is returned to Nautel within 30 days, a credit is issued reducing this charge by
one half to 40% of the list price. U.S.A. customers are required to contact our Bangor, Maine facility. Canadian and
overseas customers should contact our Nova Scotia, Canada facility.
EQUIPMENT BEING RETURNED TO NAUTEL
For all equipment being returned to Nautel and all requests for repairs or replacements:
Obtain an RMA number from Nautel (you must have an RMA number to return equipment)
Mark the item as 'field return'
Mark the item with the RMA number assigned by Nautel
Address the item to the appropriate Nautel facility
Complete and accurate information regarding the equipment being returned will ensure prompt attention and will
expedite the dispatch of replacements. Refer to the nameplate on the transmitter and/or the appropriate
module/assembly to obtain name, type, part and serial number information. Refer to the parts list of this manual or the
appropriate service instruction manual for additional ordering information.
The following information should accompany each request:
Model of Equipment
Serial number of Equipment
Name of Part/Assembly
Serial number of Part/Assembly
Complete reference designation of Part/Assembly
Nautel's part number of Part/Assembly
OEM's part number of Part/Assembly
Number of hours in Use
Nature of defect
Return shipping address
* Denotes minimum information required to order spare/replacement parts
Safety
Symbols
General definitions of safety symbols used on equipment or in manuals.
DANGER – HIGH VOLTAGE
Indicates dangerous voltages (in excess of 72 V), capable of causing a fatal
electrical shock, are present on or near parts bearing this label.
GROUND (EARTH)
Used with wiring terminals to indicate the terminal must be connected to
earth ground before operating equipment. If power is supplied without
grounding the equipment, there is a risk of receiving a severe or fatal
electrical shock. Also used on electrical schematics to indicate a part that is
connected to earth ground.
GROUND (PROTECTIVE or SAFETY)
Used with protective (safety) conductor terminals to indicate the terminal
must be connected to ground before operating the equipment. If power is
supplied without grounding the equipment, there is a risk of receiving a
severe or fatal electrical shock.
ELECTROSTATIC SENSITIVE
Indicates a part or assembly is or contains devices that are electrostatic
sensitive. To prevent damage to these devices, ensure the handling
procedures outlined in this manual are observed.
WARNING
A WARNING denotes a hazard. It identifies an operating procedure,
condition, etc. which, if not strictly observed or adhered to, could result in
injury or death to personnel. Throughout the technical manual, a
WARNING shall immediately precede the text to which it applies.
CAUTION
A CAUTION denotes a hazard. It identifies an operating procedure,
condition, etc., which, if not strictly observed or adhered to, could result in
damage to, or destruction of the equipment. Throughout the technical
manual, a CAUTION shall immediately precede the text to which it
applies.
NOTE
A NOTE denotes important information pertaining to an operating
procedure, condition, statement, etc., which is essential to highlight. A
NOTE may precede or follow the text to which it applies.
Vector-LP Radio Beacon Transmitter Technical Instruction Manual Feb.01.15
Safety
Toxic Hazard Warning
There are devices used in this equipment containing beryllium oxide ceramic,
which is non-hazardous during normal device operation and under normal device
failure conditions. These devices are specifically identified in the equipment parts
list(s) by including ‘BeO’ in the part’s description.
DO NOT cut, crush or grind devices because the resulting dust may be
HAZARDOUS IF INHALED. Unserviceable devices should be disposed of as
harmful waste.
Vector-LP Radio Beacon Transmitter Technical Instruction Manual Feb.01.15
Contents
Page
GENERAL INFORMATION
1.1
1.2
1.3
1.4
1.5
1.6
1.7
INTRODUCTION
FACTORY SUPPORT
PURPOSE AND SCOPE OF MANUAL
PURPOSE OF EQUIPMENT
MECHANICAL DESCRIPTION
TEST EQUIPMENT AND SPECIAL TOOLS
GLOSSARY OF TERMS
1-1
1-1
1-1
1-1
1-2
1-2
1-2
PREPARATION FOR USE AND INSTALLATION
2.1
2.2
INTRODUCTION
PREPARATION FOR USE
2.2.1 Transmitter Room Requirements
2.2.1.1 Transmitter Dimensions
2.2.1.2 Transmitter Weights
2.2.1.3 Transmitter Clearances
2.2.1.4 Air Flushing
2.2.1.5 Cooling and Heating
2.2.1.6 Work Area
2.2.1.7 Power Source Switch
2.2.2
Lightning Protection
2.2.3
Station Reference Ground
2.2.4
Ac Power Source
2.2.4.1 Ac Wiring
2.2.5
Antenna Feed Cable
2.2.6
Antenna Tower
2.2.7
External Control/Monitor Wiring
2.2.8
Electrical Power
2.2.8.1 Ac Voltage Source
2.2.8.2 External Ac Switching
2.2.8.3 Dc Voltage Source
2.2.9
Antenna System
2.2.9.1 RF Feed Cable
2.2.9.2 Interface Protection Option
2.2.10 Internal DDS Source
2.2.11 External Interlocks
2.2.12 Remote Control Circuits
2.2.12.1 On/Off Control
2.2.12.2 Charger Alarm
2.2.12.3 Standby Code 1
2.2.12.4 Standby Code 2
2.2.13 Press-To-Talk Input
2.2.14 User Assigned Information
2.2.14.1 Carrier Frequency
2.2.14.2 Keyed Tone Frequency
Vector-LP Radio Beacon Transmitter Technical Instruction Manual Feb.01.15
2-1
2-1
2-1
2-1
2-1
2-1
2-1
2-1
2-1
2-1
2-2
2-2
2-2
2-2
2-7
2-7
2-7
2-7
2-7
2-7
2-7
2-8
2-8
2-8
2-8
2-9
2-9
2-10
2-10
2-10
2-10
2-10
2-10
2-10
2-10
Contents
Page
2.2.14.3 Identification Code
2.2.14.4 Standby Codes
2.2.15 Serial Port Features
2.2.15.1 Remote Control and Monitoring Interface
2.2.15.2 ATU Interface
2.2.16 RF Monitoring Sample
2.2.17 Parts Supplied By Nautel
2.2.18 Parts Not Supplied By Nautel
2.2.19 Test Equipment and Special Tools
2.2.20 Available Options
INSTALLATION
2.3.1 Acceptance of Shipment
2.3.2 Unpacking Instructions
2.3.3 Visual Inspection
2.3.4 Cabinet Mounting
2.3.5 Determining Control/Monitor Requirements
2.3.6 Installing External Control/Monitor Wiring
2.3.7 Installing Ac Power Source Wiring
2.3.8 Installing Dc Power Source Wiring (Optional)
COMMISSIONING
2.4.1 Precautions
2.4.2 Turn-On Prerequisites
2.4.3 Initial Turn-On
2.3
2.4
2-10
2-10
2-11
2-11
2-11
2-11
2-11
2-11
2-11
2-11
2-13
2-13
2-13
2-14
2-14
2-14
2-14
2-15
2-16
2-17
2-17
2-17
2-17
OPERATING INSTRUCTIONS
3.1
3.2
3.3
3.4
3.5
3.6
INTRODUCTION
3.1.1 Precautions
EMERGENCY SHUTDOWN
3.2.1 Turn Off RF Output
3.2.2 Complete Shutdown
EXTERNAL SAFETY INTERLOCK
ELECTROSTATIC DISCHARGE PROTECTION
CONTROLS AND INDICATORS
3.5.1 Front Panel
3.5.2 Exciter Interface PWB
3.5.3 Remote Interface PWB
3.5.4 RF Synthesizer PWB
3.5.5 Miscellaneous Control and Exciter
3.5.6 Miscellaneous RF Power Stage
3.5.7 Battery Boost PWB
DIAGNOSTIC DISPLAY
3.6.1 Pushbutton Switches
Vector-LP Radio Beacon Transmitter Technical Instruction Manual Feb.01.15
3-1
3-1
3-1
3-1
3-1
3-1
3-2
3-2
3-3
3-4
3-4
3-4
3-4
3-4
3-4
3-18
3-18
Contents
Page
3.6.2 Main Screens
3.6.3 Viewing Faults
3.6.4 Changeover Control
3.6.5 Viewing Events Log
3.6.6 Setting Real Time Clock
3.6.7 Setting RF Monitor Limits
3.6.8 Meter Settings
3.6.8.1 Changing Meter Groups
3.6.8.2 Selecting Analog Meter
3.6.8.3 Calibrating Analog Meter
3.6.9 Selecting Power Source
3.6.10 Configuring the Sonalert
3.6.11 Setting a Timed Shutdown
3.6.12 Changing Factory Calibrated Settings
3.6.12.1 Calibrating Diagnostic Display Meters
3.6.12.2 Setting Protection Threshold Levels
3.6.12.3 Setting Maximum Output Limitations
3.6.12.4 Using Factory Settings
3.6.13 Viewing and Setting Peripherals
3.6.13.1 Setting the Keyer
3.6.13.2 Viewing Power Module Status
3.6.13.3 ATU Controls
3.6.13.4 Testing the Standby Side
3.6.13.5 Selecting Peripherals
3.6.13.6 Checking Modules
3.6.14 Remote Control Monitor System Settings
3.6.14.1 Setting Control Points
3.6.14.2 Setting Monitor Points
3.6.14.3 Serial Settings
3.6.14.4 Automatic Reporting
3.6.15 Viewing Power Related Parameters and
Setting ATU Current Feedback
3-18
3-20
3-20
3-20
3-21
3-22
3-24
3-24
3-25
3-25
3-25
3-26
3-26
3-27
3-28
3-28
3-29
3-29
3-30
3-30
3-31
3-32
3-33
3-33
3-34
3-34
3-34
3-35
3-35
3-35
3-36
TESTING AND ADJUSTMENT
4.1
4.2
4.3
INTRODUCTION
OPERATING PRECAUTIONS
FUNCTIONAL TESTS
4.3.1 General
4.3.2 Test Equipment Required
4.3.3 Test Prerequisites
4.3.4 Initial Turn On
4.3.5 Standard Adjustments
4.3.6 Non-Standard Adjustments
Vector-LP Radio Beacon Transmitter Technical Instruction Manual Feb.01.15
4-1
4-1
4-1
4-1
4-3
4-3
4-3
4-4
4-8
Contents
Page
MAINTENANCE AND TROUBLESHOOTING
5.1
5.2
5.3
5.4
5.5
5.6
5.7
5.8
5.9
GENERAL
SCHEDULED MAINTENANCE
CORRECTIVE MAINTENANCE
ELECTROSTATIC PROTECTION
TROUBLESHOOTING FRONT PANEL ALARMS
REPLACING AN RF POWER MODULE
FET CHECKING/REPLACEMENT
EXCITER PANEL PWB REPLACEMENT
5.8.1 Exciter Interface PWB and Interconnecting PWB
Replacement
5.8.2 Exciter Monitor/Generator PWB Replacement
5.8.3 Interface PWB Replacement
BATTERY BOOST ASSEMBLY REPLACEMENT
5-1
5-1
5-2
5-2
5-3
5-9
5-11
5-12
5-12
5-13
5-14
5-14
THEORY OF OPERATION
6.1
6.2
6.3
6.4
6.5
6.6
6.7
INTRODUCTION
TRANSMITTER OVERVIEW
AC_DC POWER STAGE
6.3.1 Interface PWB
6.3.2 Ac/Dc Universal Input Power Supplies
EXCITER STAGE
6.4.1 Exciter Interface PWB
6.4.2 RF Synthesizer PWBs
6.4.3 Interphase PDM Driver PWBs
6.4.4 Exciter Monitor/Generator PWBs
CONTROL/MONITOR STAGE
6.5.1 Control/Display PWB
6.5.2 Remote Interface PWB
6.5.3 Front Panel Metering
6.5.4 NDB Site Interface PWB (Optional)
6.5.5 Modem (Optional)
RF POWER STAGE
6.6.1 RF Power Module(s)
6.6.2 RF Filter PWB
6.6.3 RF Power Probe PWB
MODULATION DEPTH WHEN USING A HIGH ‘Q’
ANTENNA
Vector-LP Radio Beacon Transmitter Technical Instruction Manual Feb.01.15
6-1
6-1
6-1
6-5
6-5
6-6
6-6
6-6
6-8
6-15
6-16
6-16
6-19
6-20
6-21
6-21
6-22
6-22
6-29
6-29
6-30
Contents
Page
PARTS INFORMATION
7.1
7.2
7.3
7.4
7.5
7.6
7.7
INTRODUCTION
WIRING LISTS NOT PROVIDED
PRINTED WIRING PATTERNS
WIRE COLOURS
WIRING LISTS PROVIDED
8.5.1 Connector Mating Information
7-1
7-1
7-1
7-2
7-3
8-1
8-1
8-1
8-1
8-1
8-1
ELECTRICAL SCHEMATICS
9.1
9.2
9.3
9.4
9.5
9.6
9.7
9.8
9.9
9.10
INTRODUCTION
COMPONENT VALUES
GRAPHIC SYMBOLS
LOGIC SYMBOLS
REFERENCE DESIGNATIONS
UNIQUE SYMBOLOGY
TROUBLESHOOTING AIDS
IDENTIFICATION OF SCHEMATIC DIAGRAMS
STRUCTURE OF SCHEMATICS
LOCATING THE SCHEMATIC DIAGRAM(S) FOR A
FUNCTIONAL BLOCK
9.11 LOCATING A PART/ASSEMBLY IDENTIFIED
ON A SCHEMATIC
10
7-1
7-1
WIRING INFORMATION
8.1
8.2
8.3
8.4
8.5
INTRODUCTION
FAMILY TREE
HOW TO LOCATE INFORMATION FOR A
SPECIFIC PART
REFERENCE DESIGNATION LISTS
COLUMN CONTENT EXPLANATION
OEM CODE TO MANUFACTURER CROSS-REFERENCE
COMMON ABBREVIATIONS/ACRONYMS
9-1
9-1
9-1
9-1
9-1
9-1
9-1
9-2
9-2
9-2
9-2
MECHANICAL DRAWINGS
10.1 INTRODUCTION
10.2 LOCATING ASSEMBLY DETAIL DRAWINGS
10.3 CONTENT OF MECHANICAL DRAWINGS
Vector-LP Radio Beacon Transmitter Technical Instruction Manual Feb.01.15
10-1
10-1
10-1
Contents
Page
List of Tables
1-1
1-2
1-3
2-1
2-2
2-3
2-4
2-5
2-6a
2-6b
2-7
3-1
3-2
3-3
3-4
3-5
3-6
3-7
3-8
3-9
5-1
6-1
7-1
8-1
9-1
10-1
Dimensions and Weights
Recommended Site Test Equipment
Glossary of Terms
Ac Power Consumption
Dc Power Consumption
ATU Serial Interface
RS-422 Remote Interface
RS-232 Remote Interface
RF Filter PWB Tap Settings vs Frequency (Standard Frequency Band)
RF Filter PWB Tap Settings vs Frequency (Extended Frequency Band)
Dc Power Connection
Front Panel – System Diagram Controls and Indicators
Front Panel – Control Section Controls and Indicators
Exciter Interface PWB Controls and Indicators
Remote Interface PWB Controls and Indicators
RF Synthesizer PWB Controls and Indicators
Miscellaneous Control and Exciter Assembly Controls and Indicators
Miscellaneous RF Power Stage Controls and Indicators
Battery Boost PWB Controls and Indicators
Events Log Displays – Non Alarm Events
Troubleshooting and Replacement Tips
Battery Select Logic
Manufacturer’s Index
Wiring Lists Provided
Electrical Schematics
Mechanical Drawings
Vector-LP Radio Beacon Transmitter Technical Instruction Manual Feb.01.15
1-2
1-3
1-4
2-7
2-8
2-14
2-14
2-14
2-16
2-16
2-16
3-5
3-7
3-9
3-11
3-13
3-14
3-15
3-17
3-21
5-5
6-5
7-4
8-1
9-3
10-2
Contents
Page
List of Figures/Drawings
2-1
2-2
2-3
2-4
2-5
2-6
3-1
3-2
3-3
3-4
3-5
3-6
3-7
3-8
3-9
3-10
4-1
4-2
4-3
4-4
5-1
6-1
6-2
6-3
6-4
6-5
6-6
7-1
Vector-LP Transmitter Environment Considerations
Customer Interface to Vector-LP Transmitter
Single Ended Input Selected
Differential Input Selected
2-3
2-5
2-9
2-10
Block Diagram – Recommended Transmitter System Installation (with SPU1) 2-19
Block Diagram – Recommended Transmitter System Installation (without SPU1)2-20
Vector-LP Transmitter Front Panel (Primary User Interface)
3-3
Vector-LP Transmitter Front Panel – System Diagram Section
3-4
Vector-LP Transmitter Front Panel – Control Section
3-6
Part of NAPI76A/02 Exciter Interface PWB A2
3-8
Part of NAPI78D/02 Remote Interface PWB A3
3-10
NAPE70C/01 RF Synthesizer PWB A5 and A8
3-12
NAPS35 Battery Boost PWB A16A1 (Optional)
3-16
Diagnostic Display – Meters Screen
3-18
Diagnostic Display – Main Menu
3-18
Flow Diagram – Diagnostic Display Functions
3-19
Exciter Panel and Rear View
4-2
CW signal set to fill display
4-15
CW signal with position adjusted to mid-point of display
4-15
MCW signal, 95% modulation
4-15
RF Power Module Securing Hardware
5-10
Block Diagram - Vector-LP Radio Beacon Transmitter
6-3
Block Diagram – Exciter/Control/Monitor Stage
6-11
Timing Diagram for PDM Differential Amplifier
6-13
Block Diagram – RF Power Stage
6-25
Block Diagram – RF Power Module
6-27
Simplified Principles of Class ‘D’ Operation
6-31
Family Tree – Vector-LP Radio Beacon Transmitter
7-5
Vector-LP Radio Beacon Transmitter Technical Instruction Manual Feb.01.15
Release Control Record
Issue
Date
Reason
1.8.1
01 February 2015
Manual to support transmitter configuration for FAA
(NARB18 and custom DWAs incorporated)
Vector-LP Radio Beacon Transmitter Technical Instruction Manual Feb.01.15
Vector-LP Radio Beacon Transmitter
TECHNICAL INSTRUCTION MANUAL
Section 1
GENERAL INFORMATION
1.1 INTRODUCTION
The Vector-LP radio beacon transmitter:


Automatically transmits specific
beacon identification signals at preselected repetition rates. Special codes
may also be transmitted when
commanded from an external source.
Provision is made for local or remote
operation of the transmitter as well as
antenna fine-tuning through controls on
the transmitter's front panel. Emission
is continuous carrier (NON), beacon
keyed identification tone (A2A) and
beacon with voice (A2A/A3A).
Provides continuous carrier power for
two different power configurations:
VR125
VR250
125 W maximum
250 W maximum

Can be modulated from 0 to 95%.

Operates in the LF/MF band (190 kHz
to 535 kHz).

VR125 has provision for extended
band operation, up to 125 W, in the MF
band (536 kHz to 1200 kHz and
1600 kHz to 1800 kHz).

Has provision for a standby exciter
section, which duplicates the PDM
and RF drive generation circuitry and
low voltage power supplies.

Has provision for single side or dual
side (A and B) RF power sections,
which can be manually or
automatically selected.
Vector-LP Radio Beacon Transmitter Technical Instruction Manual
Section 1 General Information

Can be serially connected to Nautel’s
ATU-LP or ATU500 Antenna Tuning
Unit, allowing a variety of control/
monitoring features, including
stabilization of the antenna current
(ATU-LP only) by automatically
adjusting transmitter power level.
1.2 FACTORY SUPPORT
Nautel provides after sales factory
support. Technical assistance is available
on a 24 hour, seven days a week basis. A
factory service facility for repair of
modules/assemblies is also available.
Refer to the Factory Support portion of the
Warranty pages at the front of this manual
for additional information.
1.3 PURPOSE AND SCOPE OF
MANUAL
This Technical Instruction manual
provides the information required to
install, operate and maintain the
equipment. Where applicable, changes
have been incorporated to reflect nonstandard customer requests.
1.4 PURPOSE OF EQUIPMENT
When combined with an appropriate
antenna system, the Vector-LP transmitter
provides reliable facilities for an NDB
reference station. It is ideally suited for
remote or unmanned sites. Remote control
facilities are incorporated to allow
unattended operation from a remote
location.
Page 1-1
Issue 1.8.1
1.5 MECHANICAL DESCRIPTION
See Figure MD-1. The Vector-LP
transmitter is a fabricated metal chassis
with an attached full-depth front panel. It is
intended for installation in a 19-inch
mounting rack. It can be supplied with nonswivel type drawer slides (including portion
attached to mounting rack).
All external connections are terminated at
the rear of the transmitter. The RF output
coaxial cable connects to an N-type
connector. The ac power cable connects to
a standard ac line connector. The dc power
cabling, if applicable, connects to a
terminal block. External input (RF drive and
control) and output (status and alarm
monitoring) connect to connectors on the
remote interface PWB. If the transmitter is
installed in the optional deluxe, short or tall
cabinet, cable entry holes are provided. If
the transmitter is installed in the optional
IP66 cabinet, weather-proof cable glands
are provided.
Nautel provides four rack mounting options
(see Table 1-1 for dimensions and
weights).
Deluxe Cabinet: supports 19-inch rack
mount equipment, including side
panels and rear door (see also
2.2.20.7 and Figure MD-1B)
1.6 TEST EQUIPMENT AND
SPECIAL TOOLS
Table 1-2 lists the test equipment and
special tools that are required to operate
and maintain the Vector transmitter.
IP66 Cabinet: meets IP66
requirements (see also 2.2.20.8 and
Figure MD-1C)
Short Cabinet (with or without internal
battery): supports 19-inch rack mount
equipment, including side panels and
rear door (see also 2.2.20.9 and Figure
MD-1D)
Tall Cabinet (with internal battery):
supports 19-inch rack mount
equipment, including side panels and
rear door (see also 2.2.20.10 and
Figure MD-1E)
1.7 GLOSSARY OF TERMS
Table 1-3 provides a list of unique terms,
abbreviations, and acronyms used in this
publication.
Table 1-1: Dimensions and Weights
VR125/VR250
(dual side installed)
DIMENSIONS
WEIGHT
Height
Width
Depth
Packed
Unpacked
No cabinet
21.0 in.
(53.3 cm)
19.0 in.
(48.3 cm)
27 in.
(68.6 cm)
TBD
54 lbs
(24.5 kg)
Deluxe cabinet
73.2 in.
(185.9 cm)
23.0 in.
(58.4 cm)
30.0 in.
(76.2 cm)
345 lbs
156.5 kg)
TBD
Short cabinet
42 in.
(106.7 cm)
23.0 in.
(58.4 cm)
30 in.
(76.2 cm)
TBD
TBD
Tall cabinet
73.3 in.
(186.3 cm)
23.1 in.
(58.6 cm)
30 in.
(76.2 cm)
TBD
TBD
IP66 cabinet
32.4 in.
(82.3 cm)
23.7in.
(60.0 cm)
26.1 in.
(66.3 cm)
TBD
87 lbs
(39.5 kg)
Page 1-2
Issue 1.8.1
Vector-LP Radio Beacon Transmitter Technical Instruction Manual
Section 1 General information
Table 1-2: Recommended Site Test Equipment
EQUIPMENT
PART/MODEL NUMBER
OR TYPE (EQUIVALENT
MAY BE USED)
Dummy load
50 , rated for at least twice
the maximum continuous
carrier power level (250 W
and 500 W), VSWR 1.1
APPLICATION
Provides precise load for ‘offair’ testing (calibration and
troubleshooting).
Digital multimeter
3-1/2 digit, ac and dc volts
(10 M input), ohms and
amps, ± 0.5% accuracy,
Beckman 3010
Testing and maintenance
Ac Voltmeter
HP400E
Precise measurement of RF
voltage across dummy load
during calibration procedures
Frequency counter
5 ppm up to 10 MHz
Fluke model 1900A
Measure carrier frequency
Oscilloscope
Tektronix model T922
Testing and maintenance
RF Signal Generator
Capable of operating in
frequency range of 190 – 550
kHz with an adjustable output
capable of supplying 0.5 V
pp – 4 V pp into 50 
Simulate external RF drive
source during testing and
troubleshooting.
Dc power supply (variable)
0 – 50 V, 1A
Testing and maintenance
Torque wrench
Capable of providing five
inch-pounds (0.665 NewtonMeters) of torque.
Installing power MOSFETs
Serial null modem adapter
9-pin null modem
Programming firmware
Current probe
Calibrate reflected power
Clip-on dc current meter
Calibrate battery current
Vector-LP Radio Beacon Transmitter Technical Instruction Manual
Section 1 General Information
Page 1-3
Issue 1.8.1
Table 1-3: Glossary of Terms
TERM
ac
DESCRIPTION
Alternating current
AM
Amplitude modulation
Bit
Basic timing increment derived from master clock in keying unit.
Length is dependent on frame length and number of characters
used. An 8-bit frame is nominally 125 ms long.
Character
Letter or number in the beacon identification signal
dBm
Decibel reference 1 mW
dc
Direct current
Element
Smallest divisible part of a character. May be either a dot or a
dash
Frame
Selected, fixed interval of time that is sufficiently long to
accommodate the beacon identification signal and an interval of
continuous tone. Normally set to 80 bits (10 seconds)
GUI
Graphic user interface. Referred to as diagnostic display
throughout the manual
Hz
Hertz
Modular Redundancy
Identical modules operating in an overall system design such that
failure of one module does not affect the output of the system
PDM
Pulse duration modulation
PSTN
Public Switched Telephone Network
PWB
Printed wiring board (also known as printed circuit board)
RF
Radio frequency
SPI
Serial Peripheral Interface
V ac
Volts ac
VSWR
Voltage standing wave ratio
Page 1-4
Issue 1.8.1
Vector-LP Radio Beacon Transmitter Technical Instruction Manual
Section 1 General information
Vector-LP Radio Beacon Transmitter
TECHNICAL INSTRUCTION MANUAL
Section 2
PREPARATION FOR USE AND INSTALLATION
2.1 INTRODUCTION
This section contains pre-installation and
installation information for the transmitter.
Nautel recommends that you incorporate
all requirements to ensure optimum
reliability and performance.
NOTE
Failure to comply with these
recommendations and instructions could
void the manufacturer’s warranty. Please
review Nautel’s warranty terms for more
information.
2.2 PREPARATION FOR USE
Prepare the transmitter site to receive the
transmitter prior to its delivery and
installation. Use the following information
to prepare new sites and as evaluating
criteria at existing sites.
NOTE
Frequent reference is made to connectors
and terminal blocks on the remote
interface PWB. This PWB is located on
the back of the front panel.
2.2.1 Transmitter Room
Requirements
The following criteria must be addressed
when finalizing the transmitter site.
2.2.1.1 Transmitter Dimensions
Refer to Table 1-1 or Figure MD-1 for
transmitter dimensions. Dimensions
identify room entry and floor space
requirements and will assist in determining
cable lengths and routing.
2.2.1.2 Transmitter Weights
Refer to Table 1-1 for transmitter weights.
Sufficient manpower or lifting apparatus is
required to move the transmitter.
Vector-LP Radio Beacon Transmitter Technical Instruction Manual
Section 2 Preparation for Use and Installation
2.2.1.3 Transmitter Clearances
Refer to Figure 2-1 for recommended
transmitter clearances.
2.2.1.4 Air Flushing
Fans below each RF power module draw
cooling air through filters in the bottom of
the transmitter and exhaust it through
ventilation holes in the top of the RF
power modules. For VR250 transmitters,
the air exchange rate required to achieve
an acceptable intake/exhaust temperature
rise is 110 CFM. Standard VR125
transmitters are convection cooled, but
can be equipped with optional cooling
fans for each RF power module.
2.2.1.5 Cooling and Heating
Refer to Figure 2-1 for transmitter room
ambient air temperature limitations. If
necessary, ensure adequate cooling and/
or heating systems are in place to
maintain appropriate ambient air
temperature.
2.2.1.6 Work Area
Nautel recommends that a suitable work
area with an adequate table surface be
provided adjacent to the transmitter to
permit bench adjustment and repair of
modules. Static precautions must be
observed.
2.2.1.7 Power Source Switch
The AC INPUT switch on the back of the
transmitter controls the application of the
ac power source. If an optional dc power
source is being used, Nautel recommends
installing a switching assembly for the dc
power source in close proximity to the
transmitter.
Page 2-1
Issue 1.8.1
2.2.2 Lightning Protection
Extremely high voltage and current
transients are produced when a lightning
strike occurs. These transients, which are
usually the most significant hazard to any
solid state transmitter, may be passed to
the transmitter through the wiring
connecting the transmitter to the power
source and the antenna system. All
practical precautions should be taken to
protect the transmitter from this
phenomenon. Refer to the Lightning
Protection section of Nautel’s
Recommendations for Transmitter Site
Preparation booklet for specific protection
techniques. Installing Nautel’s interface
protection unit is highly recommended.
The following requirements are
considered to be essential and failure to
follow the site layout requirements may
void the transmitter warranty.
NOTE
The following paragraphs discuss
customer required connections to the
transmitter. Figure 2-2 is provided as an
aid for various customer interface
connections and should be referenced
while planning and installing these
connections.
2.2.3 Station Reference Ground
The site must contain a station reference
ground, as defined in Nautel’s
Recommendations for Transmitter Site
Preparation booklet. This ground must
provide a continuous, low impedance path
to the earth. The transmitter cabinet's
designated station reference ground point,
the shield of the coaxial feed cable, and
the ground connection of the power
source's surge protection devices must be
connected directly to the station reference
ground using, as a minimum, 100 mm (4
inch) copper strap.
Page 2-2
Issue 1.8.1
2.2.4 Ac Power Source
If an ac power source is used, all
conductors should be protected by bidirectional surge protection devices that
are connected between each conductor
and the station reference ground. In
addition, the conductors, as a group,
should pass through a ferrite toroid. The
inductance formed by this toroid is
transparent to ac voltages, but presents
impedance to transients originating in the
power source. A surge protector panel,
containing suitably rated varistors, is
available from Nautel for this purpose. If
used, the surge protector panel should be
installed in close proximity to the station
reference ground.
2.2.4.1 Ac Wiring
The ac wiring for the transmitter should
not be smaller than 18 AWG, based on an
average ac input voltage of 200 V ac.
NOTE
Local electrical codes must be observed
when sizing cables. The ac power source
usually presents the lowest impedance
path to ground potential for a lightning
strike and will normally carry most of the
lightning induced current away from the
transmitter. When lightning hits the power
source, a significant amount of induced
current may flow towards the transmitter.
In this instance, the objective is to route
the current around the transmitter, instead
of through it, to the best ground available.
Vector-LP Radio Beacon Transmitter Technical Instruction Manual
Section 2 Preparation for Use and Installation
SHOWN MOUNTED
IN DELUXE
CABINET OPTION
Figure 2-1 Vector-LP Transmitter Environment Considerations
Vector-LP Radio Beacon Transmitter Technical Instruction Manual
Section 2 Preparation for Use and Installation
Page 2-3 (2-4 Blank)
Issue 1.8.1
RF MONITOR
AC INPUT
90-270 V ac
1-PHASE
(L-L OR L-N)
BACK OF TRANSMITTER
BACK OF FRONT PANEL
Dimensions = mm (inches)
Customer Interface to Vector-LP Transmitter
Issue 1.8.1
Not to Scale
Figure 2-2
Page 2-5 (2-6 Blank)
2.2.5 Antenna Feed Cable
The shield of the antenna feed coaxial cable
should be connected directly to the station
reference ground where it enters the
building. In addition, the centre conductor
and the shield of the feed cable should pass
through a ferrite toroid positioned between
the shield ground at the building entrance
and the shield termination at the transmitter
reference ground. This toroid is transparent
to the RF signal, but presents impedance to
transients originating in the antenna. When
Nautel’s interface protection unit is installed,
the RF feed cable is connected directly to it.
It contains the necessary ferrite for the ac
wiring and RF feeder cable.
(line-to-neutral) or 60 Hz (line-to-line) ac
power source. The voltage must be
maintained within the specified voltage
range under all loading conditions. The
transmitter contains circuitry that maintains
the RF output at the pre-set carrier level for
voltage variations within this range. Power
consumption and line current depends on
the transmitter’s maximum rated power level
(see Table 2-1). Nautel recommends the ac
power source have a 20% over-capacity to
ensure adequate regulation.
Table 2-1: Ac Power Consumption
Max. Power
Max. Line
Vector
Product Consumption Current
2.2.6 Antenna Tower
The antenna tower is the most likely target
for lightning strikes. It is imperative that it
contain lightning protection devices as the
first line of defense against lightning strikes.
2.2.7 External Control/Monitor
Wiring
All external control/monitor wiring that may
be subject to lightning induced transients
should be interfaced to the station reference
ground by surge protection devices at the
building entry. All conductors and shields
should pass through a ferrite toroid that is
positioned between its surge protection
device and the transmitter. This toroid is
transparent to control/monitor signals, but
presents impedance to lightning induced
transients. Connect shields to the ground
stud at the back of the transmitter, above the
cable routing channel (see Figure 2-2).
2.2.8 Electrical Power
The transmitter is configured during
manufacture to operate from an ac or dc
power source. The power source and
associated switching components and wiring
must meet the following requirements:
2.2.8.1 Ac Voltage Source
The VR250 can operate from a 170 to 270 V
ac, 50 Hz, (line-to-neutral) or 60 Hz (line-toline) ac power source. The VR125 can
operate from a 90 to 270 V ac, 50/60 Hz,
Vector-LP Radio Beacon Transmitter Technical Instruction Manual
Section 2 Preparation for Use and Installation
VR125
500 VA
*5 A RMS
VR250
1000 VA
*5 A RMS
based on worst-case parameters (maximum RF
output power, minimum ac voltage and efficiency)
* maximum line current cannot exceed 5 A (ac
power entrance uses a 5 A breaker)
2.2.8.2 External Ac Switching
All current carrying conductors from the ac
power source should be controlled by an
external switching box located in close
proximity to the transmitter. This switch box
should be clearly marked TRANSMITTER
EMERGENCY ON/OFF SWITCH. Refer to
Table 2-1 for current ratings that should be
observed when selecting a circuit breaker
and associated input wiring.
2.2.8.3 Dc Voltage Source
As an option, the transmitter may operate
from a dc power source (battery bank).

The dc source must provide a nominal
24 V (VR125 only) or 48 V. When a 24 V
battery is used in VR125 transmitters, a
24-48 V power supply (A16) is used to
boost the dc voltage. The no-load voltage
must be in excess of 44.0 V (or 22.0 V for
24 V sources, limit is adjustable) for the
transmitter to turn on initially.

Line current depends on the
transmitter’s maximum rated power level
(see Table 2-2).
Page 2-7
Issue 1.8.1
Table 2-2: Dc Power Consumption
Transmitter
Max. Line Current
VR125
6.3 A (48 V); 12.6 A (24 V)
VR250
12.4 A (for 48 V)
based on worst-case parameters (maximum RF
output power, minimum dc voltage and efficiency)


The capacity of the dc battery bank and
the Low Battery Voltage Threshold
setting, dictates the length of time the
transmitter will operate. When the battery
bank voltage falls below the low battery
voltage threshold (factory set for 42 V dc
for 48 V sources or 21 V for 24 V
sources; limit is adjustable), the
transmitter turns off and prevents the
battery from fully discharging.
Use an external circuit breaker for the dc
power source. There is an internal fuse
for the dc supply.
2.2.9 Antenna System
The antenna system must present 50 ± j0 
impedance at the carrier frequency. The
transmitter will function while operating into
a maximum VSWR of 1.5:1, but overall
system performance will be degraded.
Circuitry within the transmitter will prevent
damage to the transmitter from high VSWR
loads. Refer to the associated antenna
tuning unit’s manual for further information.
2.2.9.1 RF Feed Cable
The RF feed cable must be a 50  coaxial
cable that is terminated by a type N coaxial
connector. The RF output connector of the
transmitter is located at the back of the
transmitter. If the transmitter is installed in the
deluxe, short or tall cabinet mounting option,
the RF output connector is located on top of
the cabinet. If the transmitter is installed in the
IP66 cabinet mounting option, the RF output
connector is located on the side of the
cabinet.
Page 2-8
Issue 1.8.1
2.2.9.2 Interface Protection Unit
An interface protection unit (SPU1) is
available from Nautel. It prevents lightning
induced transients from flowing through the
transmitter. Isolation of the transmitter and
the desired lightning protection is
accomplished by:
 Inserting a 1:1 isolation transformer in the
RF feed cable to ensure there is no dc
connection between the transmitter's RF
output and the antenna system.
 Passing all wires through ferrite toroids. A
toroid is an inductance transparent to
normal signals but presents impedance to
lightning induced transients.
 Connecting suitably rated varistors
between the ac line and the station
reference ground.
 Connecting the shield of the coaxial
cable from the antenna/phaser directly to
the reference ground.
When used, the antenna feed cable is
connected directly to the interface protection
unit. Fifty feet of coaxial cable is provided for
the connection between the interface unit
and the transmitter.
2.2.10 Internal DDS Source
The integral numerically controlled oscillator
is the RF drive source. Configure the
shorting posts on RF synthesizer PWBs (A5
and, if used, A8) as follows:
- E1 in INT position (pins 2 and 3 shorted)
- E2 in INT position (pins 2 and 3 shorted)
- E4 in INT position (pins 2 and 3 shorted)
Vector-LP Radio Beacon Transmitter Technical Instruction Manual
Section 2 Preparation for Use and Installation
2.2.11 External Interlocks
The external electrical interlock circuit
connects between INTERLOCK terminals
TB1-19 and TB1-20 of the remote interface
PWB. When it is safe to produce an RF
output, the circuit must be closed and the
transmitter must be applying +24 V to
TB1-20. When it is not safe to produce RF
output (one or more of the external interlock
switches activated), the circuit must provide
an open circuit to TB1-20. You can install
any number of serial interlock switches,
provided +24 V is removed from TB1-20 if
any interlock switch is activated.
NOTE
Transients may be induced on the 24 V
source if the external wiring is lengthy. To
prevent this, install a relay controlled by
external interlock switches near the remote
interface PWB. Connect it as a fail-safe relay
(energized when the interlock circuit is
closed, de-energized when it is opened) with
its normally open contacts interconnecting
TB1-19 and TB1- 20.
2.2.12 Remote Control Circuits
You can control and monitor transmitter
functions by connecting to the remote
interface PWB using a conventional remote
interface or using an RS232 or RS422 serial
port (see 2.2.15 for a description of the serial
port features). You can control the on/off
status, standby code 1, and standby code 2
using switching circuits that are either a
single ended input or a differential input. The
charger alarm can also be monitored
remotely.
NOTE
External control circuits connect to the
transmitter circuits through opto- couplers on
the remote interface PWB. The optocouplers buffer/isolate the external circuits
and prevent any transients from affecting
transmitter operation. These opto-couplers
only have influence when Remote control is
selected at the transmitter. The remote
interface PWB contains selection circuits
that allow the user to select an internal
(single ended input) or external (differential
Vector-LP Radio Beacon Transmitter Technical Instruction Manual
Section 2 Preparation for Use and Installation
input) dc power supply as the current source
for the opto-coupler associated with each
controlled function.
The switching circuit for each remotely
controlled function must be the equivalent of
a normally open/held closed spring-loaded
(momentary) switch. Each must be
configured to operate as a single ended
input using the transmitter's unregulated
+24 V as the dc volts source (see Figure
2-3) or as a differential input using an
external dc power supply (24 V to 30 V) as
the dc volts source (see Figure 2-4). Each
control function has positive and negative
input terminals on the remote interface PWB
to accommodate the selected configuration.
+24V
S1970005 V1
E#
REMOTE
INTERFACE
PWB
REMOTE SELECTION CIRCUITRY
CONFIGURED FOR INTERNAL
DC VOLTS
Figure 2-3 Single Ended Input Selected
Single Ended Input (Internal V dc)
When using the transmitter’s +24 V as the
current source for a control function’s optocoupler, configure the remote interface PWB
circuit for a single ended input. Configure the
2-socket shunt post on the 3-pin header
associated with the control function as
shown in Figure 2-3. Apply a negative logic
command (current-sink-to-ground is active)
to the control’s negative (-) input terminal.
The ground must come from TB1-24.
Page 2-9
Issue 1.8.1
+24V
E#
REMOTE
INTERFACE
PWB
EXTERNAL DC
PWR SUPPLY
(+12V TO +30V)
S1970004 V1
REMOTE SELECTION CIRCUITRY
CONFIGURED FOR EXTERNAL
DC VOLTS
Figure 2-4 Differential Input Selected
Differential Input (External V dc)
When using an external dc voltage (24 V to
30 V) as the current source for a control
function’s opto-coupler, configure the control
function’s external switching circuit and the
remote interface PWB’s selection circuitry
for a differential input. Configure the 2socket shunt post on the 3-pin header
associated with the control function as
shown in Figure 2-4. The normally open/
held closed switch may be located between
the dc voltage's negative output and the
negative (-) input terminal (negative logic), or
between its positive output and the positive
(+) input terminal (positive logic).
2.2.12.1 On/Off Control
The remote on/off circuitry (TB1-5/6)
controls the on/off status of the RF power
stage. Activation of this circuit toggles the
status between on and off.
2.2.12.2 Charger Alarm
If an external battery charger is used, its
charger alarm output may be connected to
the transmitter (TB1-3/4) for fault monitoring.
2.2.12.3 Standby Code 1
The standby code 1 circuit (TB1-9/10)
controls the on/off status of standby code 1
generation.
2.2.12.4 Standby Code 2
The standby code 2 circuit (TB1-7/8)
controls the on/off status of standby code 2
generation.
Page 2-10
Issue 1.8.1
2.2.13 Press-To-Talk Input
The press-to-talk circuit should be a normally
open, single pole switch. When closed
(press-to-talk), it should apply a ground to
TB1-12. If the press-to-talk information is
phantom fed on the audio shield (TB1-15),
the switching circuit is not required (see
jumper E4 in Table 3-4 and on Figure SD-11).
In phantom feed operation, -15 V must be
applied to the shield of the audio input when
press-to-talk is to be asserted.
2.2.14 User Assigned Information
Determine the final configuration of the
transmitter according to user requirements
and applications. Obtain the following user
assigned information prior to final assembly
and installation of the transmitter.
2.2.14.1 Carrier Frequency
Determine the transmitter's assigned carrier
frequency.
2.2.14.2 Keyed Tone Frequency
Determine which keyed tone frequency
(400 Hz, 1020 Hz or external) is to be used.
2.2.14.3 Identification Code
Determine the identification code that has
been assigned to the transmitter. Determine if
the programmable filler space after the last
character of the identification code is to be no
tone (CW) (ICAO) or continuous tone (MCW)
(NAVCAN).
2.2.14.4 Standby Codes
Determine the code variation to be
transmitted as standby '1', noting that options
consist of increasing one or more of the notone intervals, between characters of the
identification code from 3 bits to 5 bits. When
the programmable filler space after the last
character is continuous tone, the no-tone
interval between the last character and the
continuous tone may be increased a similar
amount.
Vector-LP Radio Beacon Transmitter Technical Instruction Manual
Section 2 Preparation for Use and Installation
2.2.15 Serial Port Features
The Vector transmitter has several serial
port features which allow interfacing to the
remote control/monitor center and the ATU.
2.2.15.1 Remote Control and Monitoring
Interface
Remote control and monitoring is optionally
available over a serial connection. This
connection can be RS-232, RS-422 or
optionally via modem, USB or TCP/IP. Serial
connections are made to the remote
interface PWB on the back of the front
panel. The modem, USB to serial adapter,
and TCP/IP to serial adapter plug into the
RS-232 connection on the rear of the
exciter.
If purchased, the NAPI80 Site Interface
PWB provides 16 optically isolated monitor
points and 16 form C relay contact control
points. Using the front panel GUI, monitor
points can be configured to indicate alarms
in a high or low logic state and control points
can be configured to automatically toggle on
any status change in the transmitter.
2.2.15.2 ATU Interface
For transmitter systems that use a Nautel
ATU-LP or ATU500 (NAT39B only) antenna
tuning unit, a serial interface can be
established by connecting to the ATU RS485 25-pin D-sub connector (J3) on the
remote interface PWB on the back of the
front panel (see Figure 2-2).
2.2.16 RF Monitoring Sample
A true sample of the RF output voltage
waveform is provided on the RF MONITOR
BNC connector (J8) on the remote interface
PWB on the back of the front panel. The RF
MONITOR output should be applied to a
station modulation monitor with a 50  input
impedance. It may also be monitored by an
oscilloscope during maintenance
procedures. The RF MONITOR output will
be a nominal 1 V RMS, into a 50  load,
when the RF output power level is at rated
power.
Vector-LP Radio Beacon Transmitter Technical Instruction Manual
Section 2 Preparation for Use and Installation
2.2.17 Parts Supplied by Nautel
An ancillary parts kit is provided with the
transmitter. These parts ensure installation
is not delayed due to lost or damaged parts,
and allow you to maintain the equipment
until a full maintenance spares kit is
obtained. These parts are not intended to be
long-term maintenance spares. The contents
of the ancillary parts kit are itemized in the
packing list. Connectors for remote control/
monitor wiring are included in the ancillary
kit. Detailed information about these parts is
not included in this manual.
2.2.18 Parts Not Supplied by Nautel
Some parts required to complete installation
are not supplied with the transmitter, or are
not provided by Nautel. Each installation
dictates the parts required, but users will
normally need to supply the following:
 A suitable 50  RF output coaxial cable,
terminated by the appropriate RF
connector.
 All external control/monitor wiring,
including the associated terminating
devices and conduit clamps.
 All electrical power cables, including
conduit, clamps and terminating devices.
 Appropriate batteries when the dc option
is purchased.
 Appropriate ac breaker and dc fusing
2.2.19 Test Equipment and Special
Tools
The test equipment and special tools
required to install and maintain the
transmitter are listed in Table 1-2.
2.2.20 Available Options
There are several options available for the
Vector-LP transmitter. Each option is
described below to assist the user in
selecting the final configuration.
Page 2-11
Issue 1.8.1
2.2.20.1 Standby Side
The Vector-LP transmitter can be upgraded
to accept a standby RF power module and a
set of standby exciter assemblies, including:





RF synthesizer PWB (A8)
Interphase PDM driver PWB (A9)
Exciter monitor/generator PWB (A10)
RF power module (A13)
Universal input ac/dc power supply (U3)
When the standby side components are
installed, the transmitter must be placed in
NORMAL changeover mode to enable the
standby switching feature.
2.2.20.2 Spares Kit
A comprehensive maintenance spares kit is
available. The kit includes a quantity of each
through-hole semiconductor, LED, and fuse
used in the equipment as well as important
repair items such as semiconductor
insulators, fan filters, etc.
2.2.20.3 Interface Protection Unit
A surge protector panel rated for the ac
power source being applied to the
transmitter is available from Nautel. The
surge protector panel will help protect the
transmitter against lightning-induced voltage
transients on the ac power source and/or the
antenna system.
NOTE
Figure 2-5 shows the recommended system
installation for a transmitter system. This
drawing emphasizes the interconnections to
the interface protection unit.
2.2.20.4 Battery Backup
If purchased, the battery boost assembly
(A16) will distribute appropriate voltages to
the exciter assemblies and power modules.
When purchased, the battery boost PWB is
used in conjunction with a bank of user
supplied batteries attached in such a
manner as to provide 24 V dc (VR125 only)
or 48 V dc and suitable current to allow the
system to operate in battery backup mode.
Page 2-12
Issue 1.8.1
2.2.20.5 Site Interface
The optional site interface PWB (A4) mounts
below the remote interface PWB on the back
of the front panel (see Figure 2-2). It can be
used to provide 16 control points and 16
monitor points from a remote location via
terminal block connectors. The active status
of these control and monitor points can be
configured using the front panel GUI.
2.2.20.6 Modem Kit
An optional modem kit (Nautel Part #
195-3032) is available. The kit includes a
Multi-Tech Systems MT5634 modem (Nautel
Part # UW66) and cabling. The transmitter
can be set up for modem operation in the
RCMS section of the front panel GUI.
2.2.20.7 Deluxe Cabinet Mounting
A deluxe cabinet (Nautel Part # 205-8075,
see Figures SD-26 and MD-1B) is available.
This cabinet supports the Vector-LP on slides
and also contains:





terminal block TB1 to accept the external
ac power source
ac line cord (P3, Nautel Part # JN50) to
connect between TB1 and the Vector-LP
RF output connector on the side of the
cabinet, and coaxial cable (P2) for
connection to the Vector-LP’s RF output
interconnect cabling (see Table 8-6)
optional battery charger (U1), which
receives its ac input via TB1
2.2.20.8 IP66 Cabinet Mounting
An IP66 cabinet (Nautel Part # 205-8080-01,
see Figures SD-27 and MD-1C) is available.
This cabinet supports the Vector-LP in a
weather-proof cabinet with accessible
weather-proof connectors and also contains:




terminal block TB1 to accept the external
ac power source
terminal block TB2 accepts the optional
battery charger connections
ac line cord (P1, Nautel Part # JN50) to
connect between TB1 and the Vector-LP
RF output connector (N-type, J1) and
coaxial cable (P2) for connection to the
Vector-LP’s RF output
Vector-LP Radio Beacon Transmitter Technical Instruction Manual
Section 2 Preparation for Use and Installation
2.2.20.9 Short Cabinet Mounting
A short cabinet (Nautel Part # 205-8120 or
-01, see Figures SD-28 and MD-1D) is
available. This cabinet supports the
Vector-LP on slides and also contains:





terminal block TB1 to accept the
external ac power source and ac line
cord P1 (Nautel Part # JN50) to
connect between TB1 and the
Vector-LP
terminal block TB2 to accept the
optional battery charger connections
RF output connector at the top of the
cabinet, and coaxial cable (W1) for
connection to the Vector-LP’s RF
output
interconnect cabling (see Tables 8-7a
and 8-7b)
optional battery (205-8120 only) and
charger (U1), which receives its ac
input via TB1, and dc circuit breaker
(CB1), which provides on/off control of
the dc voltage
2.2.20.10 Tall Cabinet Mounting
A tall cabinet (Nautel Part # 205-8200, see
Figures SD-29 and MD-1E) is available.
This cabinet supports the Vector-LP on
slides and also contains:







terminal block TB1 to accept the
external ac power source and ac line
cord P1 (Nautel Part # JN50) to
connect between TB1 and the
Vector-LP
terminal block TB2 to accept the
optional battery charger connections
RF output connector at the top of the
cabinet, and coaxial cable (W1) for
connection to the Vector-LP’s RF
output
interconnect cabling (see Table 8-8)
internal battery
optional battery charger (U1), which
receives its ac input via TB1, and dc
circuit breaker (CB1), which provides
on/off control of the dc voltage
optional VR-Link unit, which facilitates
remote control/monitoring of the
Vector-LP
Vector-LP Radio Beacon Transmitter Technical Instruction Manual
Section 2 Preparation for Use and Installation
2.3 INSTALLATION
All assemblies (listed below) are installed
in the transmitter cabinet for shipping.
NOTE
Figure 2-5 shows the recommended
installation for a transmitter system. This
drawing emphasizes the interconnections
to the interface protection unit.
Refer to Figure MD-1 for the transmitter’s
assembly detail and dimensions.
NOTE
Metric, stainless steel attaching hardware
is used in this transmitter. Unless
otherwise specified, use metric wrenches/
sockets, except where an imperial
measure is specifically identified. When
required, replacement hardware should be
identical to the items being replaced.
2.3.1 Acceptance of Shipment
Inspect all shipments for transmitter
damage prior to acceptance.
2.3.2 Unpacking Instructions
Instructions for unpacking are dictated by
the method of packaging for shipment and
whether the transmitter has been installed
in one of the optional cabinets available
from Nautel. Transmitters not shipped by
electronic equipment moving specialists
may be packed in wooden crates.
Instructions accompany any crate that
requires special unpacking information.
Remove all items from packing and place
on a suitable work area. Verify shipped
contents with packing lists, which provide
detailed listings of shipment contents.
Page 2-13
Issue 1.8.1
2.3.3 Visual Inspection
A visual inspection should be performed
on the transmitter, its removable modules/
assemblies, and printed wiring boards.
The inspection should cover the following:
(a) Verify the LCD screen on the front
panel is not damaged.
(b) Remove any packing materials (tape,
tyraps) used to secure wiring that was
disconnected for shipment.
(c) Check for obvious damage and
missing parts.
(d) Check electrical wiring/cabling for
broken or frayed insulation, loose or
improper connections, and broken,
shorted or pinched conductors.
(e) Verify all hardware is firmly tightened.
(f) Remove any unwanted foreign objects
from the interior of the transmitter/
assemblies, paying particular attention
for floating conductive materials such
as wire strands, metal slivers/filing,
and loose hardware.
2.3.4 Cabinet Mounting
If the user is supplying the 19-inch
mounting cabinet, install the transmitter in
the cabinet, ensuring the drawer slides on
each side of the transmitter are mated/
locked together.If you purchased a Nautel
cabinet option (deluxe, short, tall or IP66),
the transmitter is shipped in the cabinet.
If the transmitter was shipped in a deluxe,
short or tall cabinet, temporarily remove
both of the cabinet’s side panels [two
screws at the top of the cabinet and one
at the bottom (for the deluxe and tall
cabinets) or two screws on the lower, front
and rear (for the short cabinet)] and then
remove four shipping screws (M8, two on
each side) from the transmitter (see
Figure MD-1B, MD-1D or MD-1E).
Page 2-14
Issue 1.8.1
2.3.5 Determining Control/
Monitoring Requirements
There are several remote control and
monitoring options to consider before
installing external wiring. The preinstallation information in paragraph 2.2
identifies the remote controls and alarm/
status outputs available. It is assumed the
user has already reviewed this information
and has determined which to use. It is
also assumed the options available for the
control inputs and the monitoring outputs
have been reviewed and the user has
determined which options are required to
interface with the external equipment.
2.3.6 Installing External Control/
Monitor Wiring
Connect the wiring from the remote
control/monitoring devices to the remote
interface PWB (A3) as follows:
NOTE
Remote control and monitor wiring
terminate on the remote interface PWB
(A3), which is accessible from the back of
the front panel (see Figure 2-2). The
connectors, included in the ancillary kit,
are solder-cup type and the terminal
blocks accept wires sizes (AWG) # 14
through # 24.
A cable routing channel (see Figure 2-2)
allows wiring to pass between the front
and back of the transmitter. Remote
control/monitor wiring should enter and
exit at the back of the transmitter.
Table 2-3: ATU Serial Interface
(for INTERNAL RS-485 connector J3)
Description
Pin
+5V (ISOL)
GND (ISOL)
2, 6, 25
INT BUS (+)
INT BUS (-)
DE/RE
Vector-LP Radio Beacon Transmitter Technical Instruction Manual
Section 2 Preparation for Use and Installation
Table 2-4: RS-422 Remote Interface
(for RS-422 connector J4)
Description
Pin
TX
TX
GND
RX
RX
Table 2-5: RS-232 Remote Interface
(for RS-232 connector J5)
Description
Pin
DCD
RXD
TXD
DTR
GND
DSR
RTS
CTS
(a) Route wires from the back of the
transmitter through the cable routing
channel hole to the remote interface
PWB (A3) on the back of the front
panel. Using Tables 2-3 through 2-5
(note the applicable serial interface
options), determine the specific
destination of each wire.
(b) Pass all control/monitor wires,
including their shields, through a
ferrite toroid supplied in the ancillary
kit. If practical, pass the wires through
each toroid a minimum of two times
(two turns).
(c) Determine which remote control
inputs are being applied and then
determine, if applicable, whether they
are differential or single-ended input.
See section 2.2.12 (Remote Control
Circuits), for more information on the
type of input.
(d) Cut each wire to the required length
and, if the wire is being terminated at
a terminal block, remove 3/8” (9.5
mm) of insulation from the end of
each conductor; if the wire is being
terminated in one of the connectors,
Vector-LP Radio Beacon Transmitter Technical Instruction Manual
Section 2 Preparation for Use and Installation
remove 1/8” (3.2 mm) of insulation
from the end of each conductor.
(e) Insert the control/monitor wiring into
the applicable terminals of the remote
interface PWB (A3). Ensure the
terminal block securing screws are
firmly tightened and the adjacent
wires do not touch (short).
(f) If the optional modem kit (Nautel Part
# 195-3032) is being used, verify
connectors P7 and P8 are connected
to the modem and connect the phone
line to the modem.
(g) If a Nautel ATU-LP or ATU500 is
being used, complete the serial
connection to the ATU (transmitter
connections detailed in Table 2-3) as
detailed in the ATU-LP or ATU500
Technical Instructions Manual. Also,
provide the ATU’s dc input source by
connecting a separate cable between
the transmitter’s 24 V source [TB1-1
(+) and TB1-3 (ground), see Figure
MD-1] and the associated ATU’s dc
input (see ATU manual).
2.3.7 Installing Ac Power Wiring
NOTE
The following procedures assume the ac
power is supplied from a single-phase,
50/60 Hz ac power source between 170
and 270 V ac (for VR250) or between 90
and 270 V ac (for VR125).
(a) If an interface protection unit was
purchased, route the ac power wiring
from the ac power source (service
entrance) to the interface protection
unit, noting that it should be located
close to the building’s ac entrance. If
an interface protection unit was not
purchased, Nautel recommends that
all ac power wiring pass through one
or more ferrite toroids positioned near
the transmitter’s power connection.
Page 2-15
Issue 1.8.1
Table 2-6a: RF Filter PWB Tap Settings vs. Frequency (Standard Frequency Band) (Connect E12 to E11)
Frequency
E20
E21
E33
E36
E15
E17
(kHz)
to
to
to
to
to
to
190.0 -209.0
E1
E22
E31
E34
E16
E18
209.1 - 229.9
E2
E23
E31
E34
E16
E18
230.0 - 252.9
E4
E25
E31
E34
E16
E18
253.0 - 278.2
E3
E24
E31
E35
E14
E18
278.3 - 306.0
E5
E26
E31
E35
E14
E18
306.1 - 336.6
E6
E27
E31
E35
E14
E18
E18
336.7 -370.3
E7
E28
E31
E35
E14
370.4 - 407.3
E6
E27
E32
E35
E14
E16
407.4 -447.9
E7
E28
E32
E35
E14
E16
448.0 - 492.9
E8
E29
E32
E35
E14
E16
493.0 - 535.0
E9
E30
E32
E35
E14
E16
Table 2-6b: RF Filter PWB Tap Settings vs. Frequency (Extended Frequency Band, 125 W only) (Connect Input to E1)
Frequency E5 E18 E22 E35 Jumper Jumper
Jumper
Jumper
Jumper
Jumper
Jumper
(kHz)
to
to
to
to
535.1 -592.0
E3
E17
E19
E23
E16 to E14
E15 to E12
E13 to E6
E24 to E25
E26 to E27
E28 to E29
E30 to E31
592.1 - 655.0
E3
E17
E19
E23
E16 to E10
E11 to E8
E24 to E25
E26 to E27
E28 to E31
655.1 - 725.0
E3
E15
E19
E23
E14 to E12
E13 to E10
E24 to E27
E28 to E29
E30 to E33
725.1 - 802.0
E3
E17
E19
E27
E16 to E6
E28 to E29
E30 to E31
E32 to E33
802.1 - 887.0
E4
E15
E20
E27
E14 to E12
E13 to E10
E28 to E29
E25 to E34
E30 to E33
887.1 - 981.0
E4
E17
E20
E27
E16 to E6
E28 to E29
E30 to E31
E32 to E33
981.1 - 1086.0
E4
E15
E20
E27
E14 to E10
E28 to E26
1086.1 - 1201.0
E4
E13
E20
E23
E12 to E8
E24 to E31
1201.1 - 1329.0
E2
E15
E21
E23
E14 to E10
E24 to E27
1600.0 - 1800.0
E2
E15
E21
E23
(b) Connect the transmitter’s ac input
(U5, see Figure 2-2) to the interface
protection unit, if purchased, or to ac
power source. An ac line cord (Nautel
Part # JN50) is included in the
ancillary kit or cabinet kit. If a Nautel
cabinet was purchased, connect the
ac source to TB1 (see Figure MD-1B,
MD-1C, MD-1D or MD-1E).
2.3.8 Installing Dc Power Source
Wiring (optional)
Connect the wiring from the dc power
source to the transmitter as follows:
NOTE
Batteries are typically provided by the
user and must be installed at the site.
Page 2-16
Issue 1.8.1
(a) Disable the dc power source.
(b) Connect the dc power source to TB1
of the transmitter as shown in Table
2-7. Ensure wiring is securely
tightened. If the short, tall or IP66
cabinet was purchased, disregard
Table 2-7 and connect dc power
source wiring to TB2-1 (+) and TB2-2
(-) of the cabinet.
Table 2-7: Dc Power Connection
TERMINAL
TB1-1
TB1-2
TB1-3
TB1-4
CONNECTION
Battery (+)
Battery (-)
Charger In
Charger Out
Vector-LP Radio Beacon Transmitter Technical Instruction Manual
Section 2 Preparation for Use and Installation
(c) Apply dc power. Verify the voltage
between TB1-1 and TB1-2 is the
battery’s nominal voltage [24 V dc
(VR125 only) or 48 V dc].
2.4 COMMISSIONING
The following procedures are in a step-bystep format. They permit a person who is
not familiar with the transmitter to perform
required checks. Complete the
procedures in sequence. The transmitter
is calibrated and burned-in during
manufacture. Unless otherwise specified
you should not need to make any
adjustment. If the tests associated with a
procedure indicate the pre-set
adjustments are not optimum, perform the
appropriate adjustment procedure detailed
in Section 4, Testing and Adjustment prior
to proceeding with additional tests.
2.4.1 Precautions
The transmitter contains many solid state
devices that can be damaged by
excessive heat or high voltage transients.
Read and observe the precautionary
information in Section 3 - Operating
Instructions prior to applying power.
2.4.2 Turn-On Prerequisites
Complete the following steps to verify the
transmitter is ready to turn on:
(a) Ensure that the RF filter PWB (A14) is
tuned for the desired frequency:


see Table 2-6a for standard
frequencies between 190 and
535 kHz.
see Table 2-6b for 125 W transmitters
operating at extended frequencies
between 536 and 1250 kHz or
between 1600 and 1800 kHz.
WARNING
If there is a jumper between TB1-19 and
TB1-20 on remote interface PWB A3,
safety features controlled by the external
interlocks will be disabled. Implement a
fail-safe method to alert personnel to this
fact. Dangerous voltages are present on
RF output stages and the antenna system
if the transmitter is on.
(b) Close all external interlocks or
connect a temporary jumper wire
between TB1-19 and TB1-20 of the
remote interface PWB (A3).
2.4.3 Initial Turn-On
Ensure that all connectors on the back of
the transmitter and the back of the front
panel are securely fastened. If there are
any loose connectors, ensure they are
mated according to the connector’s
labeled tag.
(a) Switch the ac power switch on the
back of the transmitter to ON.
(b) Verify that the GUI on the front panel is
on and displays legible text.
(c) Select local control by pressing the
Control – Local button.
(d) Confirm that the System Diagram’s
Control - RF Off and Local lamps are
on. Confirm that the amber LEDs in the
RF power modules are all flashing.
(e) Set the Requested Power Source to
AC (see 3.6.9).
(f) Clear the Events Log (see 3.6.5).
NOTE
250 W transmitters that operate in the
extended band of 1600 to 1800 kHz do
not require any jumper adjustments.
Vector-LP Radio Beacon Transmitter Technical Instruction Manual
Section 2 Preparation for Use and Installation
Page 2-17
Issue 1.8.1
(g) For dual side transmitters only, ensure
the transmitter’s main side is set to B
or and the monitor mode is set to
BYPASS (see 3.6.4).
(h) Reset the alarm status (see 3.6.3). The
pre-existing alarms should clear.
(i) There should be no alarms indicated
on the System Diagram or GUI.
(j) Connect the transmitter’s RF output to
a 50  dummy load rated for twice the
transmitter’s maximum output power.
(k) In the Test Standby Side menu (see
3.6.13.4), select Run All Tests. Each
test should take about 20 s. OK
should be displayed.
(l) For dual side transmitters only, set the
transmitter’s operating side to A (see
3.6.4). For single side transmitters,
skip to step (n).
(m) For dual side transmitters only, in the
Test Standby Side menu, select Run
All Tests. Each test should take
about 20 s. OK should be displayed.
(n) Press RF On and set the power level
to 0 W (simultaneously press the
Power - Increase and Decrease
buttons). Set modulation to 0% (off).
(o) Set the analog meter to display
reflected power on the 0 to 100 W
scale (see 3.6.8.2).
(p) In the Meters menu, use the  or 
buttons to display the average PA volts
for side A.
(q) Slowly increase the RF output until the
PA voltage is 65 V dc while ensuring
the reflected power does not exceed
the reflected power limit of 80 W. The
output power from the A side RF
power module should be 100  20 W.
Page 2-18
Issue 1.8.1
(r) Increase the RF output to rated power.
If a dual side system was not
purchased, proceed to step (y).
(s) Set power to 0 W. Press RF Off. Set
the active side to B.
(t) There should be no alarms indicated
on the System Diagram or the GUI.
(u) In the Meters menu, use the  or 
buttons to display the average PA volts
for side B.
(v) Increase the RF output until the PA
voltage is 65 V dc while ensuring the
reflected power does not exceed the
reflected power limit of 80 W. The
output from the B side RF power
module should be 100  20 W.
(w) Increase the RF output to rated power.
(x) Set the active side to A. The
transmitter should resume operating at
full power.
(y) If the dc power source option was not
purchased, proceed to step (cc).
(z) Apply dc power. In the GUI set the
Requested Power Source to BOTH
(see 3.6.9).
(aa) Switch the ac power switch on the
back of the transmitter to OFF. The
transmitter should continue to run at
full power on the dc source (battery).
(bb) Switch the ac power switch on the
back of the transmitter to ON. The
transmitter should return to operating
in ac mode.
(cc) Complete the Standard Adjustments in
Section 4 of this manual.
(dd) Set the RF output power to 0 W. Press
Control - RF Off.
Vector-LP Radio Beacon Transmitter Technical Instruction Manual
Section 2 Preparation for Use and Installation
PWR CABLE
FERRITE
DC
POWER
SOURCE
* DENOTES THERE IS ONLY ONE AUX CABLE FERRITE. TWO FERRITES ARE SHOWN FOR DRAWING CLARITY.
(P/N LXP44)
AUX CABLE
FERRITE
(P/N LXP38)
**
VECTOR LP
TRANSMITTER
RF CABLE
FERRITE
AUX CABLE
FERRITE
**
(P/N LXP44)
(P/N LXP44)
RS-485 CABLE
FERRITE
AUX CABLE
FERRITE
(P/N LXP38)
SPU1
NDB/DGPS
INTERFACE/
PROTECTION
UNIT
RF CABLE
FERRITE
PWR CABLE
FERRITE
PWR CABLE
FERRITE
**
**
(PART 1 OF 2)
SPU1
NDB/DGPS
INTERFACE/
PROTECTION
UNIT
(PART 2 OF 2)
**
(P/N LXP44)
(P/N LXP44)
STATION
REFERENCE
GROUND
(P/N LXP38)
(P/N LXP38)
RF
ISOLATION
TRANSFORMER
STATION REFERENCE GROUND
RF CABLE
FERRITE
ANTENNA
SYSTEM
ATU-LP
OR
ATU500
REMOTE CONTROL/
MONITOR CENTER
EARTH ELECTRODE SYSTEM
ANTENNA
FEEDER
(P/N LXP44)
NOTE: ALL ELECTRICAL CONDUCTORS MUST ENTER OR LEAVE THE BUILDING
VIA THE STATION REFERENCE GROUND POINT.
RS-485 CABLE
FERRITE
BASE
INSULATOR
CONTROL/
INTERLOCK
EXTERNAL
AUDIO
ATU VDC
(OPTIONAL)
** DENOTES CABLE LENGTH FROM EQUIPMENT TO SPU1 INTERFACE/PROTECTION UNIT
SHOULD BE A MINIMUM 20 FEET (6 METRES) LONG.
PASS THE WIRING (INCLUDING SHIELDS) THROUGH THE FERRITE AS MANY TIMES
AS THEIR DIAMETER WILL PERMIT.
(P/N LXP38)
SPARK
GAP
ANTENNA
SYSTEM
GROUND
LIGHTNING
GROUND
ROD(S)
PWR CABLE
FERRITE
AC
POWER
SOURCE
AC INPUT
(OPTIONAL)
B1510108 V1
(P/N LXP44)
ANTENNA
GROUND
RADIALS
EARTH ELECTRODE SYSTEM
NOTE: REFER TO "RECOMMENDATIONS FOR TRANSMITTER SITE PREPARATION" HANDBOOK FOR PHYSICAL LAYOUT CONSIDERATIONS.
Dimensions = mm (inches)
Block Diagram – Recommended Transmitter System Installation (with SPU1)
Issue 1.8.1
Not to Scale
Figure 2-5
Page 2-19
PWR CABLE
FERRITE
DC
POWER
SOURCE
(P/N LXP44)
VECTOR LP
TRANSMITTER
RF CABLE
FERRITE
AUX CABLE
FERRITE
(P/N LXP44)
(P/N LXP38)
RS-485 CABLE
FERRITE
PWR CABLE
FERRITE
(P/N LXP44)
PWR CABLE
FERRITE
STATION
REFERENCE
GROUND
(P/N LXP38)
SURGE
PROTECTION
UNIT
(P/N LXP44)
(CUSTOMER
SUPPLIED)
STATION REFERENCE GROUND
RF CABLE
FERRITE
ANTENNA
SYSTEM
ATU-LP
OR
ATU500
REMOTE CONTROL/
MONITOR CENTER
EARTH ELECTRODE SYSTEM
ANTENNA
FEEDER
(P/N LXP44)
NOTE: ALL ELECTRICAL CONDUCTORS MUST ENTER OR LEAVE THE BUILDING
VIA THE STATION REFERENCE GROUND POINT.
RS-485 CABLE
FERRITE
BASE
INSULATOR
CONTROL/
INTERLOCK
ATU VDC
(OPTIONAL)
EXTERNAL
AUDIO
(P/N LXP38)
SPARK
GAP
ANTENNA
SYSTEM
GROUND
LIGHTNING
GROUND
ROD(S)
PWR CABLE
FERRITE
AC
POWER
SOURCE
AC INPUT
(OPTIONAL)
B1510107 V2
(P/N LXP44)
ANTENNA
GROUND
RADIALS
EARTH ELECTRODE SYSTEM
NOTE: REFER TO "RECOMMENDATIONS FOR TRANSMITTER SITE PREPARATION" HANDBOOK FOR PHYSICAL LAYOUT CONSIDERATIONS.
Dimensions = mm (inches)
Block Diagram – Recommended Transmitter System Installation (without SPU1)
Issue 1.8.1
Not to Scale
Figure 2-6
Page 2-20
Vector-LP Radio Beacon Transmitter
TECHNICAL INSTRUCTION MANUAL
Section 3
OPERATING INSTRUCTIONS
3.1 INTRODUCTION
The following instructions are intended
primarily for persons involved in testing or
maintenance of the equipment.
3.1.1 Precautions
The Vector-LP transmitter contains many
solid state devices that can be damaged if
they are subjected to excessive heat or high
voltage transients. Ensure the circuits are not
overdriven and are not disconnected from
their loads while turned on.
3.2 EMERGENCY SHUTDOWN
If an emergency shutdown is necessary, no
special precautions are required. However,
the type of shutdown is dictated by the
reason for the shutdown. There are two
types of shutdown. The first turns off the RF
output by inhibiting the power stage. The
second turns off the RF output and disables
all of the internal power supplies by
disconnecting the ac and dc power sources.
3.2.1 Turn Off RF Output
When the cause of the emergency shutdown
is external to the transmitter or is in the RF
output portion of the transmitter, the following
will turn off the power produced by the RF
power module:
WARNING
The following will not remove the ac or dc
power source voltage from the
transmitter or inhibit any of the internal
low voltage dc supplies or the B+ power
supply. If the reason for the shutdown
requires all voltages be turned off,
proceed directly to paragraph 3.2.2
Vector-LP Radio Beacon Transmitter Technical Instruction Manual
Section 3 Operating Instructions
 If in local or remote control, press the RF
Off switch on the transmitter’s front panel.
 If in remote control, select RF Off at the
remote control site.
 Open any external interlock switch.
3.2.2 Complete Shutdown
When the cause of the emergency shutdown
dictates the need for a complete shutdown of
the transmitter, do the following:
 Switch the ac power switch on the back of
the transmitter to OFF.
 If applicable, disconnect the dc power
source (battery).
3.3 EXTERNAL SAFETY INTERLOCK
The external electrical interlock circuit is a
protection circuit controlled by user
determined, serially connected, normally
open/held closed interlock switches. It inhibits
the RF output when it is not safe to produce
RF output.
When all of the external interlock switches are
closed and it is safe to produce an RF output,
the front panel's system diagram External
Alarm lamp will be off. The operator will have
full control of transmitter functions.
When any external interlock switch is open,
the RF output stage will automatically turn off.
The front panel's system diagram External
Alarm lamp will turn on (alarm state). It is not
possible to enable the RF power stages until
all of the external interlock switches are
closed.
Page 3-1
Issue 1.8.1
3.4 ELECTROSTATIC DISCHARGE
PROTECTION
The transmitter's assemblies contain
semiconductor devices that are susceptible
to damage from electrostatic discharge
(ESD). Observe the following precautions
when handling an assembly that contains
these devices:
3.4.4 Stress Current Protection
Always ensure the static sensitive
semiconductor devices are protected from
unnecessary stress current. This is
achieved by ensuring:
NOTE
Electrostatic energy is produced when two
insulating materials are rubbed together. A
person wearing rubber-soled shoes,
walking across a nylon carpet or a waxed
floor can generate an extremely large
electrostatic charge. This effect is
magnified during periods of low humidity.
 Voltages are not present on external
control/monitoring circuits when they
are connected.
This high voltage may damage
semiconductor devices such as integrated
circuits, field-effect transistors, thyristors
and Schottky diodes unless adequate
precautions are taken.
3.4.1 Discharging of Personnel
Maintainers must be electrically discharged
by a suitable ground system (anti-static
mats, grounding straps) when removing an
assembly from the transmitter and while
handling the assembly for maintenance
procedures.
3.4.2 Handling/Storage
Place the assembly in an anti-static bag
when it is not installed in a host transmitter
or when it is not being subjected to
maintenance procedures. Electronic
components should be stored in anti-static
materials.
 Current is not flowing when an electrical
connection is broken.
3.5 CONTROLS AND INDICATORS
Nautel recommends the operator/
maintainer is familiar with the transmitter's
controls and indicators before operating the
transmitter and/or attempting to perform
fault diagnostics. In most cases, controls
and indicators are presented in an
assembly-by assembly format. A
mechanical drawing and an associated
table are provided as aids to locating and
understanding the assembly’s controls and
indicators.
NOTE
On some mechanical drawings, numbered
callouts are provided to cross-reference the
control/indicator to the description table.
The names used in the PANEL MARKING
column of the controls and indicators tables
are intended to be the closest possible
representation to the item’s label/
silkscreen.
3.4.3 Tools/Test Equipment
Testing and maintenance equipment,
including soldering and unsoldering tools,
should be suitable for contact with static
sensitive semiconductor devices.
Page 3-2
Issue 1.8.1
Vector-LP Radio Beacon Transmitter Technical Instruction Manual
Section 3 Operating Instructions
3.5.1 Front Panel
The front panel is the primary local user
interface for the transmitter. Control and
indicators are grouped into four sections of
the panel (see Figure 3-1) as follows:


System Diagram - a simple block
diagram of the transmitter complete with
alarm lamps. Refer to Figure 3-2 and
Table 3-1 for a description of the controls
and indicators.
Control – push-button switches that
allow convenient control of the
transmitter’s RF status (on or off and
increase or decrease) and its operator
control source (local or remote). The RF
Off switch is functional regardless of
local or remote selection. Refer to
Figure 3-3 and Table 3-2 for a
description of the controls and
indicators.

Diagnostic Display – a menu-driven
user interface screen - with five
associated push-buttons - which allows
control and monitoring of the transmitter’s
critical parameters and modes of
operation. Refer to paragraph 3.6 for a
full description of the diagnostic display.

Analog Meter – the front panel meter
displays a user selected analog sample
on a user selected scale. Scale selection
and meter enabling is done using the
diagnostic display (refer to paragraph
3.6.8).
Figure 3-1 Vector Transmitter Front Panel (Primary User Interface)
Vector-LP Radio Beacon Transmitter Technical Instruction Manual
Section 3 Operating Instructions
Page 3-3
Issue 1.8.1
3.5.2 Exciter Interface PWB
Controls and Indicators
Figure 3-4 and Table 3-3 identify and
describe the controls and indicators on the
exciter interface PWB (A2).
3.5.3 Remote Interface PWB
Controls and Indicators
Figure 3-5 and Table 3-4 identify and
describe the controls and indicators on the
remote interface PWB (A3).
3.5.4 RF Synthesizer PWB Controls
and Indicators
Figure 3-6 and Table 3-5 identify and
describe the controls and indicators on the
RF synthesizer PWBs (A5 and, if installed,
A8).
3.5.5 Miscellaneous Control and
Exciter Controls and Indicators
Table 3-6 describes the miscellaneous
controls and indicators of the control/
display PWB and exciter assemblies that
were not covered in previous paragraphs.
Refer to the mechanical drawings section
to locate a referenced item.
3.5.6 Miscellaneous RF Power
Stage Controls and Indicators
Table 3-7 describes the miscellaneous
controls and indicators of the RF power
modules (A12 and, If installed, A13). Refer
to the mechanical drawings section to
locate a referenced item.
3.5.7 Battery Boost PWB Controls
and Indicators
Figure 3-7 and Table 3-8 identify and
describe the controls on the optional
battery boost PWB (A16A1).
System Diagram
Exciter
IPA/
PA
Output
Network
Changeover
Low Voltage
Power Supply
External
Alarm
AC Mains
Power Supply
Figure 3-2 Vector-LP Transmitter Front Panel – System Diagram Section
Page 3-4
Issue 1.8.1
Vector-LP Radio Beacon Transmitter Technical Instruction Manual
Section 3 Operating Instructions
Table 3-1: Front Panel - System Diagram Controls and Indicators
PANEL MARKING
DESCRIPTION
Exciter
When turned on (red), typically indicates a failure has occurred in
the active exciter (side A or B). This alarm will initiate a changeover
in dual transmitters; the side of the transmitter designated as
standby will be operating as the active side.
Low Voltage Power
Supply
When turned on (red), indicates a failure has occurred in one of the
LVPS modules (U2 or, if installed, U3).
When turned on (red), indicates the ac voltage applied to the
transmitter has fallen below an acceptable level. If the battery
backup option is installed, the power source switches to battery
mode. If no battery is available, the transmitter’s RF output is
inhibited.
AC Mains
Power Supply
When turned on (red), indicates a fault has occurred in one or more
of the switching power supplies that supply the RF power modules
This alarm will initiate a changeover in dual transmitters; the side of
the transmitter designated as standby will be operating as the active
side.
External Alarm
When turned on (red), indicates the external interlock circuit is not
presenting a closed circuit (inhibiting RF power) OR the ATU
(optional) or site interface PWB (optional) are not responding OR the
battery voltage is below the user established threshold.
Changeover
When turned on (red), indicates a changeover to the standby side
has been enabled due to a fault in the main side.
IPA/PA
When turned on (red), indicates a fault has occurred in one of the
RF power modules (A12 or, if installed, A13). This alarm will initiate
a changeover in dual transmitters; the side of the transmitter
designated as standby will be operating as the active side.
Output Network
When turned on (red), indicates the transmitter’s RF power is being
cut back or shut back due to an impedance mismatch (high VSWR)
at the transmitter’s output.
NOTE
In each case, root-cause details of the fault are displayed in the
diagnostic display’s Events Logs (see paragraph 3.6.5)
Vector-LP Radio Beacon Transmitter Technical Instruction Manual
Section 3 Operating Instructions
Page 3-5
Issue 1.8.1
Figure 3-3 Vector-LP Transmitter Front Panel – Control Section
Page 3-6
Issue 1.8.1
Vector-LP Radio Beacon Transmitter Technical Instruction Manual
Section 3 Operating Instructions
Table 3-2: Front Panel - Control Section Controls and Indicators
PANEL
MARKING
Power Increase
DESCRIPTION
Pushbutton switch that increases the RF output power level of the
transmitter. RF power is increased from minimum power to maximum
power in approximately 200 steps. Each step will increase the output
voltage of the switch mode power supplies to the RF power modules
linearly – the RF output power increase will follow a square law.
Pressing and holding the switch increases the rate of change.
Power Decrease
Pushbutton switch that decreases the RF output power level of the
transmitter. RF power is decreased from maximum power to minimum
power in approximately 200 steps. Each step will decrease the output
voltage of the switch mode power supplies to the RF power modules
linearly – the RF output power decrease will follow a square law.
Pressing and holding the switch increases the rate of change.
Local
Pushbutton switch that sets control of transmitter functions to switches
on the front panel. When its integral lamp is on (amber) (by pressing the
switch), Local control has been selected.
When Local control is selected, all of the remote control circuits (except
the external interlock and RF off function) are disabled.
Remote
Pushbutton switch that sets control of transmitter functions to remote
control circuits. When its integral lamp is on (amber) (by pressing the
switch), Remote control has been selected.
When Remote control is selected, all pushbutton switches on the
exciter’s front panel that execute control functions, except the RF Off
switch, are disabled and have no influence. The RF Off switch is still
enabled to ensure the RF power stage can be turned off locally in the
event of an emergency.
RF On
Push button switch that turns on the transmitter's RF power stage and,
for VR250 transmitters, its cooling fans when it is pressed. Its integral
lamp will be on when the RF power stage is turned on. Transmitter will
operate at the level stored in the selected power pre-set.
RF Off
Push button switch that turns off the transmitter's RF power stage when
it is pressed. Its integral lamp will be on when the RF power stage is
turned off.
Vector-LP Radio Beacon Transmitter Technical Instruction Manual
Section 3 Operating Instructions
Page 3-7
Issue 1.8.1
E1
E1
C4
C5
R4
R5
C6
Q2
R6
R7
U4
Q3
C7
R8
R9
C8
Q4
R10
R11
C9
C10
Q5
E2
C11
C12
R14
R13
R35
R36
CR24
E11
DGPS
E2
E3
CR2
BEACON
E10
DGPS
CR3
CR26
R17
R16
R32
C13
C27
TP3
CR25
R18
R37
CR27
C14
R38
CR28
R40
J11
J6
R31
E10
BEACON
R15
E11
CR1
J13
E3
R12
CR23
Q1
R3
J15
C21
C28
E4
E4
BEACON
J4
DGPS
R19
R20
R21
DGPS
E5
BEACON
C16
J16
R22
CR4
R23
L2
DGPS
E5
E6
E6
BEACON
R24
L3
C17
CR5
R25
R26
L4
C18
R27
CR6
R28
R30
CR7
C19
TP4
R29
C20
CR8
R39
C15
Q7
CR9
CR10
K1
K2
CR11
CR12
CR13
CR14
J10
J5
Q6
E7
DGPS
E7
BEACON
CR18
C22
E8
CR15
L6
L7
C23
CR16
E8
E9
E9
Figure 3-4 Part of NAPI76A/02 Exciter Interface PWB A2
Page 3-8
Issue 1.8.1
Vector-LP Radio Beacon Transmitter Technical Instruction Manual
Section 3 Operating Instructions
Table 3-3: Exciter Interface PWB Controls and Indicators
REF DES
PANEL
MARKING
E1, E2,
E3, E8,
E9
Key CW
Jumpers
E4, E5,
E6, E7,
E10, E11
DGPS/BEACON
Jumpers
DESCRIPTION
Shorting jumpers that are installed in positions determined by
the type of transmitter. In NDB transmitters, the jumpers are
factory installed in position 1. No user adjustment is required.
Bi-position selection jumpers that are installed in positions
determined by the type of transmitter. In NDB transmitters,
the jumpers are factory installed to short pins 2 and 3. No
user adjustment is required.
Vector-LP Radio Beacon Transmitter Technical Instruction Manual
Section 3 Operating Instructions
Page 3-9
Issue 1.8.1
R163
E11
R37
E13 - E15
E17
E5 – E8
E4
E18
Figure 3-5 Part of NAPI78D/02 Remote Interface PWB A3
Page 3-10
Issue 1.8.1
Vector-LP Radio Beacon Transmitter Technical Instruction Manual
Section 3 Operating Instructions
Table 3-4: Remote Interface PWB Controls and Indicators
REF DES
E4
E5 – E8
PANEL
MARKING
Press-ToTalk/Phantom
Feed
Single/
Differential
DESCRIPTION
Bi-position selection jumper that is installed based on the type
of mode to enable voice operation. The jumper is factory
installed for ‘press-to-talk’ mode, position A (shorting pins 1
and 2). For ‘phantom feed’ mode, install the jumper in
position B (shorting pins 2 and 3). In ‘press-to-talk’ mode a
ground is applied to TB1-12 to enable voice. In ‘phantom
feed’ mode, -15 V is applied to the shield of the audio to
enable voice.
Bi-position selection jumpers that configure the remote
interface PWB to accept either single-ended or differential
remote control inputs.

A differential input is selected when the jumper shorts
pins 1 and 2 of its associated 3-pin header.

A single-ended input is selected when the jumper shorts
pins 2 and 3 of its associated 3-pin header.
E11
NORMAL/
BYPASS
Factory default is shorting pins 1 and 2. No user adjustment
is required.
E13 – E15
E17
NORM/NDB
Bi-position selection jumpers that are installed in positions
determined by the type of transmitter. In NDB transmitters,
the jumpers are factory installed in the NDB position (shorting
pins 2 and 3). No user adjustment is required.
E18
NORM/
BATTERY
Bi-position selection jumper that should always be installed in
the NORM position (shorting pins 1 and 2).
R37
AUDIO LEVEL
Adjusted for 100% modulation when the modulating audio is
between -20 dBm and +10 dBm and its amplitude is the level
that is expected to produce 100% modulation.
R163
MONITOR
LEVEL
Adjusted to set the level of the RF MONITOR output, which is
a sample of the RF output. This output is located on BNC
connector J8 on the remote interface PWB).
Vector-LP Radio Beacon Transmitter Technical Instruction Manual
Section 3 Operating Instructions
Page 3-11
Issue 1.8.1
E6
E3
C18
C47
C7
E1
EXT INT
E2
C17
R6
C9
TP1
C3
R26
R42
654
654
654
901
654
L9
TP3
GND
C19
R19
C38
C55
C22
U6
U7
C57
Q6
R50
Q5
Q3
TP7
E5
C1
R46
C31
L5
R47
R52
U11
Q2
C58
R49
C40
C35
A B C D E F
Q1
R15
C20
C46
R27
R48
C41
R32
R33
L4
C30
R16
TP6
C44
L7
R45
R31
SOURCE
E4
EXT INT
C33
R2
R43
U2
GRID1
901
C39
901
TP2
901
C32
E6
CR6
U12
R18
CR1
SYMMETRY ADJ
R34
R17
FREQUENCY (kHz) C43
S2
S3
S4
S5
x0.1
x100
x10
x1
C29
ENABLE DISABLE
C48
PDM
E3
LOW HIGH
R35
R12
C54
U10
R29
R13
R3
R37
C56
R28
R9
R4
L6
CR5
R11
C4
C37
654
R10
R25
C42
C28
U3
CR2
901
C21
U4
TP5
TP4
GND
C27
R8
CR3
S1
x1000
Q4
L1
L8
REF
C2
C16
R14
R22
J1
C25
L3
R20
C15
R5
U1
C6
C14
R23
C8
U5
CR4
C23
C12
SYMMETRY
R7
R51
IPM BAL
NAUTEL ASSY
194-3060
RF SYNTHESIZER
SER.
C5
C10
J2
C13
C11
NAPE
10MHz
REF
INPUT
R1
R32
R21
C26 +C24
3 2 1
U9
C36
U8
L2
S1-S5
C34
E1/E2
M1940198 V1
S1
x1000
901
654
FREQUENCY (kHz)
S2
S3
S4
x100
x10
x1
901
654
901
654
901
654
E4
S5
x0.1
SHOWN SET FOR 387.5 kHz
901
654
E5
Figure 3-6 Assembly Detail – NAPE70C/01 RF Synthesizer PWB A5 and A8
Page 3-12
Issue 1.8.1
Vector-LP Radio Beacon Transmitter Technical Instruction Manual
Section 3 Operating Instructions
Table 3-5: RF Synthesizer PWB Controls and Indicators
ITEM
PANEL
DESCRIPTION
(Ref
MARKING
E1, E2
REF (10 MHz)
Bi-position selection jumpers used to configure the RF
synthesizer PWB to use either an internal or external 10 MHz
reference generator. Jumpers are always set to INT (internal,
shorting pins 2 and 3) for Vector-LP transmitters.
E3
PDM High/Low
Bi-position selection jumper used to configure the RF
synthesizer PWB for high PDM (nominal 130 kHz) or low
PDM (nominal 65 kHz). Always set to HIGH PDM (shorting
pins 2 and 3) for Vector-LP transmitters.
E4
RF Drive Source
Bi-position selection jumper used to configure the RF
synthesizer PWB to use either the output of an integral
crystal controlled oscillator or an external RF generator as
the RF drive source. Always set for INT (internal c, shorting
pins 2 and 3) for Vector-LP transmitters.
E5
Drive Matching
Seven selection jumper (A-G) used to configure the RF drive
circuit for its host transmitter. The jumper is installed in the D
position (shorting pins 7 and 8) for Vector-LP transmitters.
E6
Symmetry
Adjust
Enable/Disable
Bi-position selection jumper used to enable or disable the RF
drive symmetry adjustment circuitry. Always set to ENABLE
(E6 installed between pins 1 and 2 of its 3-pin header) for
Vector-LP transmitters.
R32
RF DRIVE
SYMMETRY
R41
IPM BAL
S1-S5
X1000
X100
X10
X1
X0.1
S6:1/2/3
Correction
Selection
Not applicable to Vector-LP transmitters.
S6:4
Enable/Disable
Always closed for Vector-LP transmitters.
Adjusted to obtain an RF oscillator drive waveform that is a
symmetrical square wave.
Not applicable to Vector-LP transmitters.
Adjusts the carrier frequency in 1000 kHz steps.
Adjusts the carrier frequency in 100 kHz steps.
Adjusts the carrier frequency in 10 kHz steps.
Adjusts the carrier frequency in 1000 Hz steps.
Adjusts the carrier frequency in 100 Hz steps.
Vector-LP Radio Beacon Transmitter Technical Instruction Manual
Section 3 Operating Instructions
Page 3-13
Issue 1.8.1
Table 3-6: Miscellaneous Control and Exciter Controls and Indicators
REF DES
A1E1
A1E2
PANEL
MARKING
A/B
DESCRIPTION
No user adjustment should be required. Always installed in
position B.
A1E3
A/B
No user adjustment required. A link is soldered between pins
1 and 3 for Vector-LP transmitters.
A1LS1
SPEAKER
A6E1
or
A9E1
A/B
No user adjustment should be required. Always installed in
position A.
A6R31
or
A9R31
GAIN TRIM
Adjusted, when interphase PDM driver PWB is enabled (the
associated exciter is the active exciter). Compensates for
tolerance differences between side 'A' and side 'B' in dual
side transmitters. One or both must be adjusted to set the
PDM pulse train to produce identical RF output levels when
either side is selected (see 4.3.6.10).
A6R59
or
A9R59
DUMP
A7E1
A7E3
or
A10E1
A10E3
A/B
No user adjustment should be required. Always installed in
position B.
A7E2
or
A10E2
KEYED CW/
NORMAL
Bi-position selection jumpers that are installed in positions
determined by the type of transmitter. In Vector-LP
transmitters, the jumpers are factory installed in the
NORMAL position (shorting pins 2 and 3). No user
adjustment is required.
Provides an audible signal for local monitoring of the
demodulated keyed tone (identification code).
Not applicable to Vector-LP transmitters.
NOTE: Prefix all items with A2 to obtain complete reference designation.
Page 3-14
Issue 1.8.1
Vector-LP Radio Beacon Transmitter Technical Instruction Manual
Section 3 Operating Instructions
Table 3-7: Miscellaneous RF Power Stage Controls and Indicators
PANEL
MARKING
DESCRIPTION
A12A1DS1
or
A13A1DS1
MODULE
INSTALLED
When turned on (amber), indicates that RF power module A
or B is installed in the transmitter.
A12A1DS2
or
A13A1DS2
MODULE ON
When turned on (green), indicates that RF power module A
or B is on and is contributing to the transmitter’s RF output.
A12A1DS3
or
A13A1DS3
MODULE FAULT
When turned on (red), indicates that a fault has occurred in
RF power module A or B and it is not contributing to the
transmitter’s RF output.
A12A2DS1
or
A13A2DS1
AC IND
A12A2DS2
or
A13A2DS2
+18V
When turned on (green), indicates the +24 V power supply
voltage is being applied to RF power module A or B and that
the +18 V regulator is functioning.
A12A3F1
or
A13A3F1
+15V
Fuses the +15 V applied from the power module control/
interface PWB to the power amplifier at 1 A.
A12A5DS1
or
A13A5DS1
B+ ON
When turned on (green), indicates that the B+ voltage is
being applied from the switch mode power supply PWB (or
optional battery) to the modulator.
A14E1
through
A14E36
RF Filter
Jumpers
Frequency dependent jumpers that are factory installed for
the customer operating frequency. If a frequency change is
required, change the position of these jumpers (see Figure
MD-16 A or MD-16B).
REF DES
When turned on (amber), indicates the ac input voltage is
being applied to RF power module A or B.
Vector-LP Radio Beacon Transmitter Technical Instruction Manual
Section 3 Operating Instructions
Page 3-15
Issue 1.8.1
E7, E9, E10
R14
R24
C7
R15
R25
R1
C12
C17
CR1
Q1
250W 125W
E7
Q3
250W 125W
E9
J1
IN
L2
L3
E2
R2
C5
R3
R16
R26
R4
R17
R27
R35
250W 125W
E10
C6
C2
OUT
C3
C4
1 2 3
U1
CHARGER
C1
E1
R34
R28
R5
R19
R6
R21
R38
R39
R7
U4
R8
L1
DS1
R40
R41
R9
C10
DS1
C13
R22
Q6
C14
+ 15V
R37
C19
R20
C9
R36
R29
R18
C20
24
R10
CR4
Q7
CR5
12
13
Q4
R30
R31
E3
R32
R33
SMPS, 24/48V
BATTERY BOOST
1 2 3
L4
U2
E4
Q5
IN
E5
NAPS35
SER.
C11
E5
+ 48V
C15
CR6
R23
CR2
+ 24V
C8
CR3
Q2
R12
R13
U3
C16
E8
- OUT +
E6
R11
M2050021 V1
Figure 3-7 NAPS35 Battery Boost PWB A16A1 (Optional)
Page 3-16
Issue 1.8.1
Vector-LP Radio Beacon Transmitter Technical Instruction Manual
Section 3 Operating Instructions
Table 3-8: Battery Boost PWB Controls and Indicators
A16A1DS1
PANEL
MARKING
+15V
A16A1E5
+24V/+48V
Bi-position selection jumper that is installed in the position
determined by the backup battery voltage. The jumper is
installed in the +48V position (shorting pins 1 and 2) if a 48 V
battery is used. The jumper is installed in the +24V position
(shorting pins 2 and 3) if a 24 V battery is used.
A16A1E7
A16A1E9
A16A1E10
250W/125W
Bi-position selection jumpers that are installed in positions
determined by the rated power level of the transmitter. The
jumper is installed in the 250W position (shorting pins 1 and
2) for a VR250. The jumper is installed in the 125W position
(shorting pins 2 and 3) for a VR125.
REF DES
DESCRIPTION
When turned on (green), indicates the +15 V power supply
voltage is being applied to the battery boost PWB and its
switch mode PWM IC U4.
Vector-LP Radio Beacon Transmitter Technical Instruction Manual
Section 3 Operating Instructions
Page 3-17
Issue 1.8.1
STATUS BAR
12:43:16 Power:
METER
SELECTIONS
0W Side A Bypass
Fwd Power:
0W
Rfld Power:
0.0W
VSWR: 0.00
Mod %:
0.0%
RF Curr:
0.0A
Ant Curr:
0.0A
Mod % A:
0.0%
Mod % B:
0.0%
Meas Freq A:315000Hz Meas Freq B:314998Hz
Main Menu
Status
Power
METER
SELECTION
SCROLL
SOFT KEY
LABELS
Figure 3-8 Diagnostic Display – Meters Screen
SUB-MENU
SELECTIONS
12:43:16 Power:
0W Side A Bypass
Main Menu
Vector NDB
Changeover Control
rev 2. 6. 0. 2
Events Log
Jan 21 2010
Settings
11:22:41
Peripherals
Nautel
RCMS Settings
Select
Meters
SOFTWARE
VERSION
Figure 3-9 Diagnostic Display – Main Menu
3.6 DIAGNOSTIC DISPLAY
The diagnostic display (see Figure 3-9), in
the centre of the transmitter’s front panel, is
a 240 x 64 graphic LCD display and is the
primary local user interface for the
transmitter. With the exception of RF on/
off, power increase/decrease and local/
remote control, all transmitter functions can
be controlled and indicated by this display.
All critical parameters and events are
monitored from this display. The following
paragraphs describe how to use the
diagnostic display.
3.6.1 Pushbutton Switches
Navigating the diagnostic display is done
using the five pushbutton switches
adjacent the display. The up () and down
() pushbuttons, to the right of the display,
are used to move up and down through
displayed selections and to increase or
decrease the value of a selected
parameter. Pressing and holding the  or
 pushbutton will increase the rate of
change, where applicable. There are also
three  soft-key pushbuttons whose
functions are defined by the text displayed
directly above them for a given menu.
Page 3-18
Issue 1.8.1
3.6.2 Main Screens
The high level screens of the diagnostic
display (Figures 3-8 and 3-9) display:





Transmitter status bar
Three user-definable meter selections
Meter selection scroll (controlled by 
and  pushbuttons)
Sub-menu selections
Software version
3.6.2.1 Transmitter Status Bar
The transmitter status bar is the
information displayed along the top of the
diagnostic display. This information is
present at all times and indicates the
following (from left to right):




Current time (24-hour clock)
Current output power
Active side (A or B)
Monitor mode (blank for normal or
Bypass) – bypass indicates that
automatic changeover is inhibited.
For quick reference, locate the desired
function in the flow diagram depicted in
Figure 3-10, then refer to the referenced
paragraph for further information.
Vector-LP Radio Beacon Transmitter Technical Instruction Manual
Section 3 Operating Instructions
Diagnostic Display (GUI) Functions
(organized by menu hierarchy)
Reference
Paragraph
MAIN MENU
Meters
3.6.3
3.6.15
3.6.4
Status
Power
Changeover Control
3.6.5
Events Log
Settings
Calibrate Digital Meters
Set Thresholds
Maximum Output Gain
3.6.6
3.6.7
3.6.7 (b)
3.6.7 (d)
3.6.7 (f)
3.6.7 (h)
3.6.8
3.6.8.1
3.6.8.2
3.6.9
3.6.10
3.6.11
3.6.12
3.6.12.1
3.6.12.2
3.6.12.3
Feature Codes
3.6.12.4
Use Factory Settings
3.6.12.5
Set Real Time Clock
Monitor Settings
Monitor Timeout
Power Thresholds
Automatic Reset
Mod % Thresholds
Meter Settings
Select Analog Meter
Calibrate Analog Meter
Power Source Select
Configure Sonalert
Timed Shutdown
Factory Settings
3.6.13
Peripherals
Keyer Settings
Audio Levels
Keyer Modulation
Keyer Sequence
Standby Code 1
Standby Code 2
Power Modules
ATU Controls
Test Standby Side
Select Peripherals
Module Check
RCMS Settings
3.6.13.1
3.6.13.1 (a)
3.6.13.1 (b)
3.6.13.1 (c)
3.6.13.1 (d)
3.6.13.1 (d)
3.6.13.2
3.6.13.3
3.6.13.4
3.6.13.5
3.6.13.6
3.6.14
Control Points
Monitor Points
Serial Setting
3.6.14.1
3.6.14.2
3.6.14.3
Automatic Reporting
3.6.14.4
Figure 3-10 – Flow Diagram - Diagnostic Display Functions
Vector-LP Radio Beacon Transmitter Technical Instruction Manual
Section 3 Operating Instructions
Page 3-19
Issue 1.8.1
3.6.3 Viewing Faults
In addition to the system diagram’s fault
indicators, a list of current faults can be
viewed on the diagnostic display. View the list
of faults as follows:
12:43:16 Power:
Fwd Power:
0W
Rfld Power:
0.0W
VSWR: 0.00
Mod %:
0.0%
RF Curr:
0.0A
Ant Curr:
0.0A
Mod % A:
0.0%
Mod % B:
0.0%
Meas Freq A:315000Hz Meas Freq B:314998Hz
Main Menu
12:43:16 Power:
Status
Power
0W Side A Bypass
Fwd Power:
0W
Rfld Power:
0.0W
VSWR: 0.00
Mod %:
0.0%
RF Curr:
0.0A
Ant Curr:
0.0A
Mod % A:
0.0%
Mod % B:
0.0%
Meas Freq A:315000Hz Meas Freq B:314998Hz
Main Menu
0W Side A Bypass
Status
Power
12:43:16 Power:
0W Side A Bypass
Main Menu
Vector NDB
Changeover Control
rev 2. 6. 0. 2
Events Log
Jan 21 2010
Settings
11:22:41
Peripherals
Nautel
RCMS Settings
Select
Meters
12:43:16 Power:
0W Side A Bypass
Currently Active Faults:
Command RF OFF
Reset
Meters
(a) From the meter screen, press Status. A
list of current faults is displayed. If Status
is not displayed.
(a) Set the main side to either A or B.
NOTE
Use the Events Log (see paragraph 3.6.5) to
view alarm history.
(b) If necessary, press  or  to scroll
through the faults.
(c) Press Reset to attempt to clear the
alarm.
(d) Press Meters to return to the meters
screen.
3.6.4 Changeover Control
The transmitter may optionally contain two
fully redundant exciter and RF power paths
(sides A and B). The active side and the
monitor mode can be controlled using the
diagnostic display. View and, if necessary,
edit the changeover control settings as
follows:
Page 3-20
Issue 1.8.1
(b) Set the monitor mode to either BYPASS
or NORMAL. Bypass mode inhibits
automatic changeover from the main side
to the standby side.
(c) Set Monitor During SWR to ENABLED to
allow the transmitter to change over
during an SWR alarm. Monitor mode
must be set to NORMAL.
3.6.5 Viewing Events Log
The most recent 256 transmitter events
(alarms, operational changes, etc.) are stored
in memory. View the events log as follows:
12:43:16 Power:
0W Side A Bypass
Main Menu
Vector NDB
Changeover Control
rev 2. 6. 0. 2
Events Log
Jan 21 2010
Settings
11:22:41
Peripherals
Nautel
RCMS Settings
Select
Meters
Vector-LP Radio Beacon Transmitter Technical Instruction Manual
Section 3 Operating Instructions
12:43:16 Power:
08Apr80 12:33:15
08Apr80 12:33:13
08Apr80 12:33:13
08Apr80 12:33:13
08Apr80 12:33:02
08Apr80 12:32:56
Select 000
0W Side A Bypass
PS Module A1 Missing
Return to normal
Command Exciter B
Low AC Voltage
Power Up
Mod. Protection
Alarms Only
Back
(a) From the main menu, highlight Events
Log (using  and ) and press Select.
The center soft-key permits viewing the
Events Log in two different modes – All
Events or Alarms Only. For either
mode, a list of events is displayed, sorted
chronologically, with a root-cause
description of the event.
(e) To clear the history stored in the events
log, press the  and  buttons
simultaneously.
(f) Press Back to return to the main menu.
3.6.6 Setting Real Time Clock
Set the real-time clock as follows:
12:43:16 Power:
0W Side A Bypass
Main Menu
Vector NDB
Changeover Control
rev 2. 6. 0. 2
Events Log
Jan 21 2010
Settings
11:22:41
Peripherals
Nautel
RCMS Settings
Select
Meters
NOTE
Refer to Table 3-9 for a list of non-alarm
events that can be displayed on the Events
Log and a brief description of each. A list of
alarm events is available in Table 5-1.
12:43:16 Power:
0W Side A Bypass
Settings
Set Real Time Clock
Monitor Settings
Meter Settings
Power Source Select
Configure Sonalert
Main Menu
Select
Back
(b) Press  or  to scroll through the
events.
(d) Press Select ### on a highlighted event
to display the transmitter status when the
highlighted event occurred. Use the Next
event button to check the status of
subsequent numbered events.
NOTE
The 3-digit number shown in the Select ###
display is the number allocated to the
highlighted event. Event 000 is the most
recent occurrence.
12:43:16 Power:
0W Side A Bypass
Set Real Time Clock
Use up / down keys to select a value to
change. Press MODIFY to make changes.
SET: Save changes to clock
BACK: done
Time
Day
Date
14:30:29 Wed
08/Apr/80
Set
Modify
Back
NOTE
The real-time clock does not automatically
update for Daylight Savings Time (DST).
Table 3-9: Events Log Displays – Non-Alarm Events
NON-ALARM EVENTS
(as displayed)
DESCRIPTION
Return to normal
Transmitter alarms have cleared.
Power up
Transmitter has completed power up.
Vector-LP Radio Beacon Transmitter Technical Instruction Manual
Section 3 Operating Instructions
Page 3-21
Issue 1.8.1
3.6.7 Setting RF Monitor Limits
High and low power thresholds, low
modulation threshold and loss of keying can
be set to ensure the transmitter is operating
within acceptable limits. If the RF carrier is
outside these limits for a pre-defined delay
period, the transmitter initiates a changeover
to the standby side (in normal operation) or
continues to operate (in bypass mode). Set
the transmitter’s RF monitor limits as follows:
NOTE
International Civil Aviation Organization
(ICAO) standards dictate the transmitter be
turned off or a warning alarm be generated
when the RF output decreases by 3.0 dB or
increases by 2.0 dB from the intended carrier
level. The user can alter the monitor settings
provided these criteria are still met.
12:43:16 Power:
0W Side A Bypass
Main Menu
Vector NDB
Changeover Control
rev 2. 6. 0. 2
Events Log
Jan 21 2010
Settings
11:22:41
Peripherals
Nautel
RCMS Settings
Select
Meters
(b) Highlight Monitor Timeout and press
Select. See step (d) for Power
Thresholds.
12:43:16 Power:
0W Side A Bypass
Monitor Timeout
Monitor Timeout Period:
20
seconds
Monitor Shutdown:
DISABLED
Main Menu
12:43:16 Power:
0W Side A Bypass
Monitor Settings
Monitor Timeout
Power Thresholds
Automatic Reset
Mod % Thresholds
Main Menu
Select
Back
(a) From the main menu, highlight Settings
and press Select. Highlight Monitor
Settings and press Select.
Page 3-22
Issue 1.8.1
Back
(c) Use  and  to highlight the desired
monitor timeout field and press Modify:

The monitor timeout period can be set
(using  and ) between 4 and 82 s
(factory set for 20 s).

The monitor shutdown can be set (using
 and ) for ENABLED or DISABLED.
(d) Press Back, highlight Power
Thresholds and press Select. The
following message is displayed. Press
Continue to proceed.
12:43:16 Power:
12:43:16 Power:
0W Side A Bypass
Settings
Set Real Time Clock
Monitor Settings
Meter Settings
Power Source Select
Configure Sonalert
Main Menu
Select
Back
Modify
0W Side A Bypass
Before proceeding, make sure that you
have set the power level to your
Desired operating conditions.
Continue
Back
12:43:16 Power:
0W Side A Bypass
Power Thresholds
Monitor Power Reading:
Low Power Limit: -2.99 dB
High Power Limit: 1.99 dB
Compute New
Thresholds
Modify
Back
NOTE
As the warning message indicates, ensure
that the transmitter is operating at the desired
power level before computing the new
thresholds. If the power level of the
transmitter changes after computing the
thresholds, re-establish the thresholds.
Vector-LP Radio Beacon Transmitter Technical Instruction Manual
Section 3 Operating Instructions
(e) Use  and  to highlight the desired
monitor timeout field and press Modify:

The low limit is factory set for 3.00 dB.
Adjust using  and .

The high limit is factory set for 2.00 dB.
Adjust using  and .
(f) Press Back, highlight Automatic Reset
and press Select.
12:43:16 Power:
0W Side A Bypass
Automatic Reset
Fault 1
ENABLED (continue) Delay 00:40
Fault 2
ENABLED (repeat)
Delay 00:20
Fault 3
DISABLED
Fault 4
DISABLED
Fault 5
DISABLED
Main Menu
Modify
Back

Waits the Fault 1 delay period (40 min)

Attempts to reset transmitter. If
successful, Automatic Reset schedule
will begin on Fault 1 next shutdown. If
unsuccessful, reset sequence continues
to Fault 2 item.

Waits the Fault 2 delay period (20 min)

Attempts to reset transmitter. If
successful, Automatic Reset schedule
will begin on Fault 1 next shutdown. If
unsuccessful, repeats Fault 2 item.
(h) Press Back, highlight Mod% Thresholds
and press Select. The following message
is displayed. Press Continue to proceed.
12:43:16 Power:
0W Side A Bypass
-Before proceeding, make sure that you
have set the ident tone to the minimum
acceptable modulation depth with PTT
inactive, and again with PTT active.
-If this is a dual system, ensure tone
has been set correctly on both sides.
(g) Use  and  to highlight the desired
Fault 1 -5 field and press Modify. Set the
Automatic Reset schedule as follows:
NOTE
The Automatic Reset allows the user to
define a reset schedule for the transmitter
after a shutdown condition. The schedule can
have up to five sequential levels, each with
their own user definable delay period (up to
24 hours) and subsequent instruction.

ENABLED (continue): attempts a reset
the denoted delay time after a shutdown
and then, if no reset occurs, continues to
the next item in the Fault schedule.

ENABLED (repeat): attempt a reset the
denoted delay time after a shutdown and
continues attempting (as necessary) after
each delay time. All subsequent items in
the Fault schedule default to DISABLED.

ENABLED (halt): attempts a reset the
denoted delay time after a shutdown and
then, if no reset occurs, stops attempting.
All subsequent items in the Fault
schedule default to DISABLED.

DISABLED: no attempt to reset.
Vector-LP Radio Beacon Transmitter Technical Instruction Manual
Section 3 Operating Instructions
Continue
Side A
Back
Side B
12:43:16 Power:
0W Side A Bypass
Mod % Thresholds
Minimum Allowable Tone Modulation Depth:
...PTT Inactive:
164
153
...PTT Active:
1023
1023
63.8
63.8
35.4
Compute New Rf Mon: CURR 35.4
Thresholds
Toggle
Back
NOTE
As the warning message indicates, ensure
that the transmitter is operating at the
minimum allowable modulation depth before
computing the thresholds. If the transmitter is
to operate in both PTT and Normal modes,
set up both thresholds, otherwise, set up only
the applicable threshold.
(i) The screen shows the minimum
allowable modulation for PTT Inactive
(no voice) and PTT Active (voice).

The left column has side A values and
the right column has side B values.
Page 3-23
Issue 1.8.1

The first two values in each column are
internal tone generator reference values.

The third and fourth values are the
modulation depth (in %) for PTT Inactive
and PTT Active respectively.

Press Toggle to switch between RF
Mon: CURR and Rf Mon: VOLT, if
desired.
3.6.8.1 Selecting Analog Meter
Select the parameter to be displayed on the
front panel analog meter as follows:
12:43:16 Power:
0W Side A Bypass
Meter Settings
Select Analog Meter
Calib. Analog Meter
Main Menu
(j) Press Compute New Thresholds to
establish new monitor modulation %
thresholds.
(k) If a modification is made, a screen
appears which prompts you to save
changes to EEPROM. Select Yes or No.
3.6.8 Meter Settings
Determine the parameter to be displayed on
the front panel analog meter as follows:
(a) From the main menu, highlight Settings
(using  and ) and press Select.
Highlight Meter Settings and press
Select. Use  and  to highlight Select
Analog Meter or Calib. Analog Meter
and press Select. Refer to the
appropriate paragraph (3.6.8.1 or 3.6.8.2
for further details.
12:43:16 Power:
0W Side A Bypass
Main Menu
Vector NDB
Changeover Control
rev 1. 0. 4. 1
Events Log
Jul 27 2007
Settings
13:52:45
Peripherals
Nautel
RCMS Settings
Select
Meters
Select
Back
Selected Parameter
12:43:16 Power:
0W Side A Bypass
Select Analog Meter
Scale 0-400 P
PDM B: 0.00% ( )
PDM A: 0.00% ( )
DC Curr B: 0.00A ( )
DC Curr B: 0.00A ( )
Choose Scale
Select
Back
(a) Use  or  to select the desired meter
parameter and press Select. Press
Choose Scale to select from various
scale options to view the parameter on
the front panel analog meter. Note that
scales with a P suffix are power (square
law) scales whereas scales with an L
suffix are linear scales.
(b) Press Back to return to the Meter
Settings screen. A message appears to
confirm saving changes to the EEPROM.
Press Yes or No.
12:43:16 Power:
0W Side A Bypass
Settings
Set Real Time Clock
Monitor Settings
Meter Settings
Power Source Select
Configure Sonalert
Main Menu
Select
Back
Page 3-24
Issue 1.8.1
Vector-LP Radio Beacon Transmitter Technical Instruction Manual
Section 3 Operating Instructions
12:43:16 Power:
0W Side A Bypass
Power Source Select
DC Disconnect Level:
19
DC I/F
DC Reconnect Level:
21 Installed: Yes
Requested Source: AC
Active
Source: AC
3.6.8.2 Calibrating Analog Meter
Calibrate the analog meter as follows:
12:43:16 Power:
0W Side A Bypass
Meter Settings
Select Analog Meter
Calib. Analog Meter
Main Menu
12:43:16 Power:
Select
Back
0W Side A Bypass
Press the up/down keys to adjust the
analog meter. The reading on the upper
scale should read 100.
(Midscale calibration constant:224)
Reset
Done
Main Menu
3.6.9 Selecting Power Source
Select the transmitter’s power source and
view power source related parameters as
follows:
12:43:16 Power:
0W Side A Bypass
Main Menu
Vector NDB
Changeover Control
rev 2. 6. 0. 2
Events Log
Jan 21 2010
Settings
11:22:41
Peripherals
Nautel
RCMS Settings
Select
Meters
12:43:16 Power:
0W Side A Bypass
Settings
Set Real Time Clock
Monitor Settings
Meter Settings
Power Source Select
Configure Sonalert
Main Menu
Select
Back
Vector-LP Radio Beacon Transmitter Technical Instruction Manual
Section 3 Operating Instructions
Back
(a) From the main menu, highlight Settings
(using  and ) and press Select.
Highlight Power Source Select and
press Select.
(b) The parameters than can be modified
(press Modify and use  or ) are:

DC Disconnect Level (DC power source
operation): if the dc power source is
below this voltage, the transmitter will
discontinue operation

DC Reconnect Level (DC power source
operation): when the dc power source
recovers to this voltage, the transmitter
will attempt to restore operation.

Requested Power Source: AC, DC,
BOTH (if both ac and dc power sources
are installed) or NONE.
Cancel
(a) When the analog meter is calibrated,
press Done.
Modify
(c) Press Done to activate. A message
appears to confirm saving changes to the
EEPROM. Press Yes or No.
(d) The remaining parameters are for
monitoring only.

DC I/F Instld: Yes or No (indicates if
battery boost assembly A16 is installed).

Active Power Source: indicates the power
source configuration for the transmitter
(AC, DC, BOTH or NONE)
Page 3-25
Issue 1.8.1
3.6.10 Configuring the Sonalert
Configure the status of the audible alarm
(sonalert) for all transmitter alarms as follows:
12:43:16 Power:
0W Side A Bypass
Main Menu
Vector NDB
Changeover Control
rev 2. 6. 0. 2
Events Log
Jan 21 2010
Settings
11:22:41
Peripherals
Nautel
RCMS Settings
Select
Meters
12:43:16 Power:
0W Side A Bypass
Settings
Set Real Time Clock
Monitor Settings
Meter Settings
Power Source Select
Configure Sonalert
Main Menu
Select
Back
12:43:16 Power:
0W Side A Bypass
Alarm Signal
SonAlert
SiteCtrl
PDM Latch B
OFF
OFF
PDM Latch A
OFF
OFF
High RF Curr
OFF
OFF
SWR Shutback
OFF
OFF
Low AC Voltage
OFF
OFF
Toggle
Modify
Back
(a) From the main menu, highlight Settings
(using  and ) and press Select.
Highlight Configure Sonalert and press
Select.
NOTE
The Sonalert peripheral must be activated
(see 3.6.13.5) before settings in this section
can take effect.
(b) A list of transmitter alarms and their
current SonAlert (audible) and Site Ctrl
(remote outputs) status is displayed.

To configure an alarm for the sonalert,
use  and  to select the desired alarm;
press Toggle to change the status to ON.
Page 3-26
Issue 1.8.1

Press Modify to configure an alarm for
use with site interface PWB A4 (if
installed). Use  and  to select the
desired alarm and press Toggle to
change the status from OFF to the
appropriate remote control output (1
through 16).
3.6.11 Setting a Timed Shutdown
Modify timed shutdown parameters as
follows:
12:43:16 Power:
0W Side A Bypass
Main Menu
Vector NDB
Changeover Control
rev 2. 6. 0. 2
Events Log
Jan 21 2010
Settings
11:22:41
Peripherals
Nautel
RCMS Settings
Select
Meters
12:43:16 Power:
0W Side A Bypass
Settings
Meter Settings
Power Source Select
Configure Sonalert
Timed Shutdown
Factory Settings
Main Menu
Select
Back
(a) From the main menu, highlight Settings
(using  and ) and press Select.
Highlight Timed Shutdown and press
Select.
12:43:16 Power:
Timed Shutdown
Timed Shutdown
Interval
Auto Assert
Main Menu
0W Side A Bypass
[DISABLED
[00:05
[Monitor Point 1 ]
Timer State:
Stopped 00:05:00
Toggle
Back
(b) Use  and  to highlight Timed
Shutdown, Interval or Auto Assert,
noting:
Vector-LP Radio Beacon Transmitter Technical Instruction Manual
Section 3 Operating Instructions

For Timed Shutdown, press Toggle to
change between ENABLED and
DISABLED. When Timed Shutdown is
ENABLED, the transmitter will shut down
the Interval period (in hours:minutes)
after RF On is asserted.

For Interval, press Modify to enable
editing of the interval time. Use  and 
to change the interval between 5 minutes
and 24 hours (in 5 minute increments).
Press Done to store the change.
(a) From the main menu, highlight Settings
(using  and ) and press Select.
Highlight Factory Settings and press the
 and left soft-key simultaneously.
12:43:16 Power:

For Auto Assert, press Modify to enable
editing of the asserting monitor point. Use
 and  to change the monitor point
between 1 and 40 (or Disabled). Press
Done to store the change. Monitor points
can only enable the timed shutdown
timer. Set Timed Shutdown to
DISABLED when using Auto Assert.
3.6.12 Changing Factory Calibrated
Settings
Certain parameters, calibrated during factory
testing, can be changed, in local control only,
if an out-of-tolerance condition occurs.
12:43:16 Power:
0W Side A Bypass
Main Menu
Vector NDB
Changeover Control
rev 2. 6. 0. 2
Events Log
Jan 21 2010
Settings
11:22:41
Peripherals
Nautel
RCMS Settings
Select
Meters
0W Side A Bypass
Warning: Modifying these
settings can affect your
transmitter operation.
Do you wish to continue?
Yes
No
Press Yes to display the following options:
12:43:16 Power:
0W Side A Bypass
Factory Settings
Calibrate Meters
Set Thresholds
Maximum Output Gain
Feature Codes
Use Factory Settings
Main Menu
Select
Back
(b) Press  or  to scroll through the
options and press Select to enter the
appropriate sub-menu (see appropriate
paragraph 3.6.12.1 through 3.6.12.5):
12:43:16 Power:
0W Side A Bypass
Settings
Monitor Settings
Meter Settings
Power Source Select
Configure Sonalert
Factory Settings
Main Menu
Select
Back
Vector-LP Radio Beacon Transmitter Technical Instruction Manual
Section 3 Operating Instructions
Page 3-27
Issue 1.8.1
3.6.12.1 CALIBRATING DIAGNOSTIC
DISPLAY METERS
Re-align an out-of-tolerance meter reading for
a displayed parameter as follows:
12:43:16 Power:
Set Thresholds
Refl. Power Shutback:
Main Menu
12:43:16 Power:
0W Side A Bypass
Calibrate Meters
PDM B: 0.00
Main Menu
Modify
50
100
Back
NOTE
All meter readings displayed on the meters
screen can be adjusted. It is imperative that
reliable, calibrated test equipment be used
to verify the actual value of the out-oftolerance parameter.
(a) Press  or  until the desired out-oftolerance parameter and its current
metered level is displayed.
(b) To calibrate a meter, press Modify and
then  or  to adjust the level of the outof-tolerance parameter. When complete,
press Done.
(c) Continue calibration of other metered
parameters or return to previous menu by
pressing Back. A message prompt
appears to confirm saving all
modifications to the EEPROM. Press Yes
or No.
3.6.12.2 SETTING PROTECTION
THRESHOLD LEVELS
Adjustments can be made to the critical
transmitter shutback thresholds, such as RF
current, low ac voltage, and high reflected
power cutback levels. Less critical settings,
such as diagnostic display contrast and
speaker volume (audio) can also be adjusted.
Set these thresholds as follows:
CAUTION
Protection threshold levels are factory set
and do not normally require adjustment.
Contact Nautel prior to attempting to alter
these settings. Failure to comply could result
in equipment damage.
Page 3-28
Issue 1.8.1
0W Side A Bypass
38
Modify
Back
(a) Press  or  until the desired threshold
and its current value is displayed. The
following thresholds may be displayed
and edited:













Refl. Power Shutback
Low AC Voltage
RF Current Shutback
Chrgr. Current DC Offset
Audio
LCD Contrast
Bttry. Current DC Offset
Slowback Pwr (Per Block)
Max. PS Temperature (°C)
Max. ATU Temperature (°C)
Minimum Logged Cutback
Ac Meter Zero Offset
Carrier Frequency (kHz) **
** - available only when
the Frequency Monitor
feature code is turned on
(b) To edit a threshold value, press Modify
and then  or  to adjust the value.
When complete, press Done. Press
Reset to restore the value to its premodified setting.
NOTE
The Minimum Logged Cutback threshold
can be set between 1 (least severe) and 18
(most severe). Only cutback occurrences of
the set value and higher (more severe) will
be logged.
NOTE
If the Frequency Monitor feature code is
enabled (see 3.6.12.4), you can adjust the
Carrier Frequency (kHz) to the operational
carrier frequency.
(c) When complete, return to previous menu
by pressing Back. A prompt appears to
confirm saving modifications to the
EEPROM. Press Yes or No.
Vector-LP Radio Beacon Transmitter Technical Instruction Manual
Section 3 Operating Instructions
3.6.12.3 SETTING MAXIMUM OUTPUT
LIMITATIONS
The maximum allowable output gain can be
adjusted in terms of carrier reference.
12:43:16 Power:
0W Side A Bypass
Maximum Output Gain
Set Duty Cycle:
0.00
Set Forward Power:
Maximum Carrier Reference:
154
PDM A: 7.97%
Carr. Ref:
B+ Volt A: 75.0V
PA Volt A: 6.4V
Main Menu
Modify
Back
NOTE
The Set Duty Cycle and Set Forward
Power values represent actual transmitter
levels. The Maximum Carrier Reference
represents the maximum carrier reference
value and can be used to limit output power.
The bottom two rows display current levels
for the active side (A or B).
CAUTION
Do not adjust the Maximum Carrier
Reference to a value that causes the
transmitter to exceed its rated power level.
Failure to observe this may void the
equipment warranty.
(a) Press  or  until the desired parameter
(Set Duty Cycle and Set Forward
Power are grouped together) is
displayed.
(b) To edit a parameter, press Modify and
then  or  to adjust the value. If the
Set Duty Cycle and Set Forward Power
group is selected to Modify, use the Next
button to toggle between the two items.
(c) When complete, press Done. Press
Reset to restore the value to its premodified setting.
3.6.12.4 USING FEATURE CODES
(OPTIONAL)
Eight-digit codes can be entered to enable
various features that are available in software
for display on the GUI. Features are
application specific and are not all required.
Typically these features and their associated
codes are entered during factory testing.
NOTE
Feature codes are entered at the factory and
should not require user adjustment. Contact
Nautel if one of your GUI’s features is not
being displayed.
12:43:16 Power:
0W Side A Bypass
Feature Codes
Frequency Monitor
Enter Feature Code: 00000000
Main Menu
Modify
Back
3.6.12.5 USING FACTORY SETTINGS
The functions described in paragraphs
3.6.12.1 through 3.6.12.4 can be restored to
factory settings as follows:
12:43:16 Power:
0W Side A Bypass
Do you want to restore Factory Defaults?
All current settings will be lost.
Yes
No
(a) Pressing Yes will restore all setup and
calibration values and thresholds to
factory settings. All other saved
information, including changes to presets,
is also restored to factory settings.
(d) When complete, return to previous menu
by pressing Back. A prompt appears to
confirm saving modifications to the
EEPROM. Press Yes or No.
Vector-LP Radio Beacon Transmitter Technical Instruction Manual
Section 3 Operating Instructions
Page 3-29
Issue 1.8.1
3.6.13 Viewing and Setting
Peripherals
View and set parameters related to auxiliary
items, such as the keyer, the ATU or the
transmitter’s inactive (standby) side, as
follows:
12:43:16 Power:
0W Side A Bypass
Main Menu
Vector NDB
Changeover Control
rev 2. 6. 0. 2
Events Log
Jan 21 2010
Settings
11:22:41
Peripherals
Nautel
RCMS Settings
Select
Meters
(a) From the main menu, highlight
Peripherals (using  and ) and press
Select.
12:43:16 Power:
0W Side A Bypass
Peripherals
Keyer Settings
Power Modules
ATU Controls
Test Standby Side
Select Peripherals
Main Menu
Select
Back
(b) Press  or  to scroll through the
options and press Select to enter the
appropriate sub-menu (see 3.6.13.1
through 3.6.13.6).






Keyer Settings (para. 3.6.13.1)
Power Modules (para. 3.6.13.2)
ATU Controls (para. 3.6.13.3)
Test Standby Side (para. 3.6.13.4)
Select Peripherals (para. 3.6.13.5)
Module Check (para. 3.6.13.6)
12:43:16 Power:
Audio Levels
Mod %:
Side B Scale:
Keying Pot:
Voice Pot:
PTT Keying Pot:
Main Menu
SIDE A
Page 3-30
Issue 1.8.1
Modify
240
255
255
Back
SIDE B
(a) Audio Levels: Select the desired
parameter, using  or . To edit, press
Modify and then use  or  to adjust
the Side B Scale factor, Keying Pot (for
tone modulation level in beacon mode),
PTT Keying Pot (for tone modulation
level in PTT, or press-to-talk mode) or
Voice Pot (for voice modulation level in
PTT mode) value. Press Done and Back
when complete.
NOTE
The Side B Scale factor is factory set and
should not require user adjustment. If the
modulation depth on side B does not match
the modulation depth on side A, adjust the
Side B Scale factor up or down until they
agree.
After adjusting the Side B Scale factor,
adjust a Pot value (press  and ) to
enable the new scaling factor.

The Side B Scale factor is used to scale
pot values for side B to allow for an
adjustment so the modulation depth on
side B can be calibrated to match side A.

There are two values displayed for each
Pot. The left-hand value is for side A.
The right-hand value is for side B. The
side B Pot value should be the side A
Pot value multiplied by the Side B Scale
factor.

If a Pot value (side A or B) is adjusted,
the other side’s value will automatically
change according to the Side B Scale
factor.
3.6.13.1 SETTING THE KEYER
Set up the keyer as follows:
12:43:16 Power:
0W Side A Bypass
Keyer Settings
Audio Levels
Keyer Modulation
Keyer Sequence
Standby Code 1
Standby Code 2
Main Menu
Select
Back
0W Side A Bypass
0.0%
2.000
120
128
128
Vector-LP Radio Beacon Transmitter Technical Instruction Manual
Section 3 Operating Instructions
Frame Format
12:43:16 Power:
0W Side A Bypass
Frame Sequence
Press up/down
MK MK MK MK MK MK MK MK keys to select a
frame format to
Keyed String: TEST
use. Press Done
Frame Format: NAV CAN to confirm your
Frame Timing: 20.0 sec selection
Reset
Done
Cancel
12:43:16 Power:
0W Side A Bypass
Keyer Modulation
[ON
Modulation
[OFF
Keyer
[ON
Tone Generator
[1020 Hz]
Tone Frequency
Main Menu
Toggle
Back
(b) Keyer Modulation: Select the desired
parameter, using  or . Press Toggle
to change the status or value and then
press Back:


Modulation, Keyer and Tone Generator
can be set to ON or OFF.
Tone Frequency can be set to 400 Hz or
1020 Hz.
12:43:16 Power:
0W Side A Bypass
Frame Sequence
Press up/down
MK MK MK MK MK MK MK MK keys to select a
field to change
Keyed String: TEST
Press Modify to
Frame Format: TRANS CAN make changes
Frame Timing: 20.0 sec
Main Menu
Modify
Back
(c) Keyer Sequence: Select the desired
parameter, Frame Sequence, Keyed
String, Frame Format or Frame Timing,
using  or . Press Modify and follow
the instructions on the right-hand side of
the GUI display.
Frame Sequence
12:43:16 Power:
0W Side A Bypass
Frame Sequence
Legend:
MK MK MK MK MK MK MK MK MK: All Marks
SP: All Spaces
Keyed String: TEST
AL: Alternating
Frame Format: NAV CAN
Marks/Spaces
Frame Timing: 20.0 sec KY: Keyed String
Reset
Next
Cancel
Keyed String
12:43:16 Power:
0W Side A Bypass
Frame Sequence
Press up/down
MK MK MK MK MK MK MK MK keys to change
the selected
Keyed String: TEST
letter. Press
Frame Format: NAV CAN Next to go on to
Frame Timing: 20.0 sec the next letter
Reset
Next
Cancel
(set to either NAV CAN or ICAO)
Vector-LP Radio Beacon Transmitter Technical Instruction Manual
Section 3 Operating Instructions
ICAO: International Civil Aviation
Organization
NAV CAN: uses a 10 s frame and 0.125
ms bits to key out 3 symbols.
(set between 4.0 s and 20.0 s)
Frame Timing
12:43:16 Power:
0W Side A Bypass
Frame Sequence
Press up/down
MK MK MK MK MK MK MK MK keys to change
the duration of
Keyed String: TEST
each frame.
Frame Format: NAV CAN Press Done to
Frame Timing: 20.0 sec confirm changes.
Reset
Done
Cancel
(d) Standby Codes 1 and 2: Press Toggle to
enable [X] or disable [ ] the standby code
1 or 2. For Standby Code 1, use the 
and  buttons to move between field.
Continue using Toggle to select or deselect the location of additional inserted
spaces.
12:43:16 Power:
0W Side A Bypass
Standby Code 1
[ X ] Enable Standby Code 1
Inserts additional spaces between
selected characters in each keyed
Frame: __[ ]__[ ]__[ ]__[ ]__[ ]__
Main Menu
Toggle
Back
12:43:16 Power:
0W Site
Side A Bypass
Standby Code 2
[ X ] Enable Standby Code 2
Inserts a 2-bit mark at the beginning
of each keyed frame.
Main Menu
Select
Toggle
Back
3.6.13.2 VIEWING POWER MODULE
STATUS
Configure the transmitter’s software for the
number of power blocks and view the status
of individual power modules as follows:
Page 3-31
Issue 1.8.1
X = installed
12:43:16 Power:
0W Site A Bypass
Power Module
Number of Power block expected:
[3]
Block # 1
Side: A
OK
[X] [ ] [ ] [ ]
OK
[X] [ ] [ ] [ ]
Main Menu
View Details
Back
(a) Press  or  until the desired parameter
is highlighted.


If the Number of Power block expected
value is highlighted, the Modify option is
displayed. If necessary, press Modify
and use  or  to select 1 (for VectorLP). Press Done when complete.
If one of the power module fields (Block
# 1, Side A and B for Vector-LP) is
highlighted, the View Details option is
displayed. Press View Details to view
the following RF power module details:
PA = Side A
12:43:16 Power:
0W Side A Bypass
Detailed Status PA Bloc 1
B+ Setting : 150
Inhibited : Yes
Temperature: -50
B+ Voltage : 0.0
Dc Current : 0.10
PA Voltage : 0.0
Fan 1 Tach :
Fan 2 Tach :
PDM Inhib : No
PA Alarm
: No
Main Menu
Back
(b) Return to the previous menu by pressing
Back.
3.6.13.3 ATU CONTROLS
If a Nautel antenna tuning unit (ATU) is being
used, view and edit its control parameters as
follows:
NOTE
A serial interface allows communication
between the transmitter and the ATU. This
interface connects to the transmitter via the
INTERNAL RS-485 connector (25-pin D-sub)
on the rear of the exciter/control assembly.
(a) The screen below appears if the ATU is
in local mode of operation and autotuning is active and is tuned. This screen
allows viewing of ATU status only. No
adjustments are possible while the ATU
is in local mode.
Increase/Decrease Arrows
(Affected arrow is highlighted during
auto or manual tuning)
12:43:16 Power:
0W Site A Bypass
ATU Control
Antenna Curr.: 0.0A
Dec L N H Inc
Auto-Tuning
R  [ ] [] [ ] 
Active
L  [ ] [] [ ] 
Active
ATU is in LOCAL Mode
Back
Resistive (R) and
Inductive (L)
Tuning Status Line
(b) If the ATU is set to the remote mode of
operation, the screen is as shown below.
This screen allows ATU tuning to be
controlled from the transmitter GUI.
Press Coil Control.
12:43:16 Power:
0W Site A Bypass
ATU Control
Antenna Curr.: 0.0A
Dec L N H Inc
Auto-Tuning
R  [ ] [] [ ] 
Active
Active
L  [ ] [] [ ] 
ATU is in REMOTE Mode
Press Coil Control to modify ATU settings
Main Menu
Coil Control
Back
(c) In the coil control screen shown below,
use  and  to select the desired coil to
control - Resistive Coil or Inductive
Coil. Press Continue.
12:43:16 Power:
0W Site A Bypass
ATU Control
Antenna Curr.: 0.0A
Dec L N H Inc
Auto-Tuning
Active
R  [ ] [] [ ] 
L  [ ] [] [ ] 
Active
Coil Control: Resistive Coil
UP/Down Keys: Select a coil to configure
Main Menu
Page 3-32
Issue 1.8.1
Auto-Tuning Status
(Active or Inhibited)
Continue
Back
Vector-LP Radio Beacon Transmitter Technical Instruction Manual
Section 3 Operating Instructions
12:43:16 Power:
0W Site A Bypass
ATU Control
Antenna Curr.: 0.0A
Dec L N H Inc
Auto-Tuning
R  [ ] [] [ ] 
Active
L  [ ] [] [ ] 
Active
Coil Control: Resistive Coil
What would you like to do:
Auto Tuning
Slew Servo
Back
OR
(d) If Auto Tuning is selected, the
following screen appears which allows
the selected coil to be auto tuned
(active) or inhibited. Use  and  to
highlight Active or Inhibited, then
press Done to select.
under test fails, a root cause message
(e.g., PS Ovr Cur) is displayed.
NOTE
The root cause text is identical to that
displayed in the Status menu (see 3.6.3).
3.6.13.5 SELECTING PERIPHERALS
Configure the transmitter’s software for
peripheral equipment, such as an ATU or
site interface PWB as follows:
12:43:16 Power:
0W Side A Bypass
Select Peripherals
[X]
Site Control Board
[ ]
ATU
[ ] Indicates
SonAlert Buzzer
[ ] Selected
Speaker
[ ] Peripherals
Overmod Alarm
Main Menu
Select
Back
12:43:16 Power:
0W Site A Bypass
ATU Control
Antenna Curr.: 0.0A
Dec L N H Inc
Auto-Tuning
R  [ ] [] [ ] 
Active
L  [ ] [] [ ] 
Active
Coil Control: Resistive Coil
Up/Down Keys:
(De)Activate Auto Tuning
Done
(e) If Slew Servo is selected, the following
screen appears which allows the
selected coil to be manually tuned. Use
 and  to slew the coil high or low.
Press Done when complete.
12:43:16 Power:
0W Site A Bypass
ATU Control
Antenna Curr.: 0.0A
Dec L N H Inc
Auto-Tuning
R  [ ] [] [ ] 
Active
L  [ ] [] [ ] 
Active
Coil Control: Resistive Coil:Slew Servo
Up/Down Keys:
Slew coil High/Low
(a) Use  and  to highlight the desired
peripheral. Press Select to activate.

If the site interface PWB (A2A4) is
installed, select Site Control Board.

If a Nautel ATU is used and a serial
interface is connected to the
INTERNAL RS-485 connector on the
rear of the exciter/control assembly,
select ATU.

To hear the sonalert buzzer for a fault
defined in the sonalert setup menu,
select SonAlert.

To hear the transmitter output, select
Speaker.

To enable the GUI to display Audio
Limit alarm occurrences, select
Overmod Alarm.

If module fans are installed (VR250
only), select Module Fan Tachs.
Done
3.6.13.4 TESTING THE STANDBY SIDE
Test the operation of the transmitter’s
inactive (standby) side as follows:
(a) Use  and  to highlight the desired
test (Turn Standby Side Off, Test
Power Supply, Test Modulators,
Test RF Drive, or Run All Tests).
Press Select to activate.
(b) If you select a test, the display will
initially indicate Running. When the
test is complete, a pass (OK) or fail
indication is displayed. If the item
Vector-LP Radio Beacon Transmitter Technical Instruction Manual
Section 3 Operating Instructions
(b) Return to previous menu by pressing
Back or press Main Menu.
Page 3-33
Issue 1.8.1
3.6.13.6 CHECKING MODULES:
Check the software revision of various
modules that contain microcontrollers as
follows:
12:43:16
Module
10
11
Power:
Check
NAPE76u
NAPE76u
NAPI80u
Main Menu
Main Menu
0W Site A Bypass
rev 0.
rev 0.
0.
0.
rev 0.
1.
Select
0.
0.
0. 34
Back
(a) Use  and  to scroll through rows 1
to 12, noting:

12:43:16 Power:
0W Side A Bypass
RCMS Settings
Control Points
Monitor Points
Serial Setting
Automatic Reporting
Rows 0 through 7 are assigned to RF
power modules.

Rows 8 and 9 are assigned to the
exciter/monitor generator PWBs (side
A and, if applicable, side B).

Row 10 is assigned to the associated
ATUs control/monitor PWB.

Row 11 is assigned to the site control
PWB, if installed.
NOTE
If text is not displayed for a particular row,
the associated module or PWB is not
installed.
3.6.14 Remote Control Monitor
System Settings
If the NDB site interface PWB (A4) is
installed, configure the active logic states of
the control and monitor points as follows:
12:43:16 Power:
0W Side A Bypass
Main Menu
Vector NDB
Changeover Control
rev 2. 6. 0. 2
Events Log
Jan 21 2010
Settings
11:22:41
Peripherals
Nautel
RCMS Settings
Select
Meters
Select
Back
(a) From the main menu, highlight RCMS
Settings and press Select.
(b) Set the transmitter to Local mode.
(c) Press  or  to scroll through the
options and press Select to enter the
appropriate sub-menu (see paragraphs
3.6.14.1 through 3.6.14.3).




Control Points (see 3.6.14.1)
Monitor Points (see 3.6.14.2)
Serial Settings (see 3.6.14.3)
Automatic Reporting (see 3.6.14.4)
3.6.14.1 SETTING CONTROL POINTS
Set the site interface PWBs control points
as follows:
12:43:16 Power:
Control Points
Control Point 1
Control Point 2
Control Point 3
Control Point 4
Control Point 5
0W Side A Bypass
Set Value
Toggle
Back
(a) Use  and  to highlight the desired
control point (1 through 16). Press
Toggle to change the logic level (0 or
1) of the Set Value. The logic level
determines the active state for the
control point’s remote input.
NOTE
Control points 1 through 16 correspond to
inputs connected to CONTROL POINT 1
through 16 on TB3 of the remote control/
monitor interface PWB.
(b) Return to previous menu by pressing
Back.
Page 3-34
Issue 1.8.1
Vector-LP Radio Beacon Transmitter Technical Instruction Manual
Section 3 Operating Instructions
3.6.14.2 SETTING MONITOR POINTS
Set the site interface PWB’s monitor points
as follows:
12:43:16 Power:
Monitor Points
Monitor Point 1
Monitor Point 2
Monitor Point 3
Monitor Point 4
Monitor Point 5
Set Current
0W Side A
Default
Toggle

To modify Tx Address, use  and .

Press Toggle to set Connection Mode
to DIRECT or MODEM. When
MODEM is selected, the following
screen appears, which enables three
further settings:
Bypass
Current
12:43:16 Power:
0W Side A Bypass
Serial Settings
ABCD
Tx Address
[MODEM ]
Connection Mode
[DIAL UP]
Modem Line
0000
Passkey
Dial-up Number
Main Menu
Toggle
Back
Back
(a) Use  and  to highlight the desired
monitor point (1 through 16). Press
Toggle to change the logic level (0 or
1) of the Default value. The logic level
determines the active (for status
outputs) or normal (for alarm outputs)
state for the monitor point’s remote
output.
NOTE
Monitor points 1 through 16 correspond to
outputs connected to MONITOR POINT 1
through 16 on TB1 and TB2 of the site
interface PWB.
(b) The values in the Current column
represent the existing state of the
monitor point. Press Set Current to
set the Current values to match the
Default values.

Press Toggle to set Modem Line to
DIAL UP or LEASED. The Dial-up
number option disappears when
LEASED is selected.

Press ,  and Next to set the
Passkey and the Dial-up Number.
(b) Return to the previous menu by
pressing Back.
3.6.14.4 AUTOMATIC REPORTING
Configure the serial connection to
automatically report transmitter alarms
(without needing to poll the status) as
follows:
12:43:16 Power:
0W Side A Bypass
Fault
Automatic Reporting
PDM Latch B
OFF
PDM Latch A
OFF
High RF Current
OFF
SWR Shutback
OFF
Low AC Volts
OFF
Main Menu
Select
Back
(c) Return to previous menu by pressing
Back.
3.6.14.3 SERIAL SETTINGS
Set up the serial connection as follows:
12:43:16 Power:
0W Side A Bypass
Serial Settings
ABCD
Tx Address
[DIRECT ]
Connection Mode
Main Menu
Modify
Back
(a) Use  and  to highlight the desired
serial setting. Press Modify or Toggle
to change the setting. Press Next or
Done when complete.
Vector-LP Radio Beacon Transmitter Technical Instruction Manual
Section 3 Operating Instructions
(a) A list of transmitter alarms and their
current Automatic Reporting status is
displayed.

To configure an alarm for automatic
reporting, use  and  to select the
desired alarm and press Select to
change the status to ON.
Page 3-35
Issue 1.8.1
3.6.15 Viewing Power Related
Parameters and Setting ATU
Current Feedback
View the transmitter’s power menu and, if
necessary, set the status of the ATU
current feedback circuit as follows:
NOTE
The ATU current feedback circuit attempts
to regulate the antenna current over a
range of RF output power. The two ATU
options in the power menu are only
available when the transmitter is attached
(using a RS485 serial link) to an ATU-LP or
ATU500.
12:43:16 Power:
0W Side A Bypass
Fwd Power:
0W
Rfld Power:
0.0W
VSWR: 0.00
Mod %:
0.0%
RF Curr:
0.0A
Ant Curr:
0.0A
Mod % A:
0.0%
Mod % B:
0.0%
Meas Freq A:315000Hz Meas Freq B:314998Hz
Main Menu
Status
Power
12:43:16 Power:
0W Side A Bypass
Fwd. Power : 108W
Rfld.Power: 0.0W
Carr. Ref:
59
VSWR: 1.00
Ant. Curr. : 1.8A
B+ Volt A: 75.2V
DC Curr A: 0.70A
ATU Current Feedback: OFF
ATU Current Setpoint: 1.8
Main Menu
Page 3-36
Issue 1.8.1
Modify
(a) From the meter screen, press Power.
The current forward power, reflected
power, carrier reference, VSWR,
antenna current, B+ voltage (for the
active side’s power supply) and dc
current (for the active side’s power
supply).
(b) To edit the Fwd. Power or ATU
Current Feedback field, press Modify
and then use  and  to edit:

Fwd. Power changes in 1 W steps

ATU Current Feedback toggles
between ON and OFF.
(Not used for ATU500)
(c) Press Done when complete.
NOTE
The transmitter regulates the antenna
current to the ATU Current Setpoint value
displayed on the GUI. Ensure the
transmitter’s RF output is set to the desired
level before setting the ATU Current
Feedback field to ON.
Meters
Vector-LP Radio Beacon Transmitter Technical Instruction Manual
Section 3 Operating Instructions
Vector-LP Radio Beacon Transmitter
TECHNICAL INSTRUCTION MANUAL
Section 4
TESTING AND ADJUSTMENT
4.1 INTRODUCTION
This section contains step-by-step
functional test procedures using integral
meters and precision test/monitoring
equipment. The test procedures contain
routine adjustment instructions to bring the
parameter being tested within defined
limits, where appropriate.
NOTE
Nautel recommends all instructions be
followed in the order presented, particularly
by personnel who are not familiar with
detailed circuit theory and may not realize
the impact a specific adjustment can have
on other steps. These adjustments should
be performed during initial turn-on and after
major repairs or a frequency change.
4.2 OPERATING PRECAUTIONS
The transmitter contains protection circuits
that monitor critical parameters. When the
defined limits of any of these parameters
are exceeded, one of the operational lamps
on the exciter panel’s system diagram will
turn red. If the alarm condition could result
in excessive power amplifier stress current,
the control voltage applied to the power
amplifiers will effectively be reduced or
turned off until the out-of-tolerance
condition no longer exists. Maintainers
should read and fully understand the
Section 3 - Operating Instructions, and in
particular the section on controls and
indicators.
NOTE
The diagnostic display’s meters screen
displays three pre-determined parameters
(e.g., forward power, total dc current, +15 V
power supply, etc.). All transmitter
parameters may be displayed on this
screen. See paragraph 3.6.8.1.
Vector-LP Radio Beacon Transmitter Technical Instruction Manual
Section 4 Testing and Adjustment
4.3 FUNCTIONAL TESTS
To verify the transmitter circuits are within
factory specifications, complete the tests in
this section. In cases where a routine
adjustment will correct an out-of-tolerance
condition, the adjustment procedure is
included.
NOTE
If an in-tolerance condition cannot be
attained with the specified routine
adjustment, discontinue testing until the
cause of the out-of-tolerance condition is
corrected.
4.3.1 General
Functional tests should be performed as a
routine part of scheduled maintenance
checks, and as the first step in
troubleshooting procedures. The results
should be recorded for comparison with
past and future test results.
4.3.1.1 The functional test procedures are
provided in a step-by-step format. This
method of presentation will permit a person
who is unfamiliar with the transmitter to
perform the functional tests in a logical
sequence. The procedures should be
completed in sequence, as each procedure
establishes switch settings and contains
prerequisites for subsequent procedures.
4.3.1.2 The following assumes the initial
turn-on procedure detailed in Section 2 has
been completed during initial installation,
and after major repairs that warrant the
initial start-up procedure be repeated.
Page 4-1
Issue 1.8.1
Figure 4-1 Exciter Panel and Rear View
Page 4-2
Issue 1.8.1
Vector-LP Radio Beacon Transmitter Technical Instruction Manual
Section 4 Testing and Adjustment
4.3.1.3 Some of the transmitter’s PWBs
may be duplicated and connected as active
(main) and reserve (standby). The front
panel diagnostic display provides selection
of the active side (A or B). The following list
identifies the duplicated PWBs/assemblies
and which are active for a specific
selection. Refer to Figure 4-1 to locate
these assemblies. To locate an assembly’s
adjustment or test point, refer to the
controls and indicators portion of Section 3.
Side A Assemblies
RF Synthesizer PWB .......................................A5
Interphase PDM Driver PWB...........................A6
Exciter Monitor/Generator PWB ......................A7
RF Power Module ..........................................A12
LVPS Module ...................................................U2
Side B Assemblies (optional)
RF Synthesizer PWB .......................................A8
Interphase PDM Driver PWB...........................A9
Exciter Monitor/Generator PWB ....................A10
RF Power Module ..........................................A13
LVPS Module ...................................................U3
4.3.2 Test Equipment Required
A dummy load rated for twice the
maximum power capability of the
transmitter, an oscilloscope and a digital
multimeter are required to perform the
functional test procedures. Refer to Table
1-2 for recommended test equipment.
4.3.3 Test Prerequisites
The following steps must be completed
prior to performing any of the functional
test procedures:
(a) Verify that nothing affecting the RF
power stage has been changed or
altered since the initial start-up
procedure (described in Section 2 of
this manual) was completed.
(b) Ensure the ac or dc power source is
turned off or disconnected.
(c) Terminate the transmitter's RF output
into a suitably rated, precision 50 ,
load that is able to accurately display
the RF power being applied to it.
Vector-LP Radio Beacon Transmitter Technical Instruction Manual
Section 4 Testing and Adjustment
WARNING
If there is a jumper between TB1-19 and
TB1-20 on the remote interface PWB,
safety features provided by the external
interlocks are disabled. Implement a
fail-safe method to alert personnel to
this fact. Dangerous voltages will be
present near the RF output and the
antenna system if the transmitter is
turned on under these conditions.
(d) Close all external interlocks or connect
a jumper between TB1-19 and TB1-20
of the remote interface PWB.
NOTE
Remote interface PWB A3 is located on the
back of the front panel.
NOTE
This section makes frequent reference to
Section 3 - Operating Instructions. You
should be familiar with the transmitter’s
operating instructions, specifically the front
panel GUI, before testing or adjusting the
transmitter’s circuits.
4.3.4 Initial Turn-On
Enable the ac or dc power source, turn on
the transmitter, and observe its alarm and
status indicators as follows:
(a) Verify the requirements of paragraph
4.3.3 have been completed.
(b) Turn on (enable) the ac or dc power for
the transmitter. The AC IND lamp on
each RF power module (viewed from
transmitter top) will be on. The
presence and value of ac voltage can
also be viewed on the front panel GUI.
Ensure the transmitter’s RF power
stage is disabled by pressing the
Control - RF OFF switch.
(c) Select local control by pressing the
Control - Local switch.
Page 4-3
Issue 1.8.1
NOTE
During initial turn-on and adjustment of
transmitter power, the diagnostic display’s
meters screen should be monitored.
Various input parameters, such as
Forward Power, Average B+ Voltage,
and Total Dc Current should be displayed
while the transmitter RF output power is
being increased.
If the diagnostic display indicates an alarm,
discontinue adjustment of the transmitter
and press the Status button to determine
the nature of the fault.
4.3.5 Standard Adjustments
The following standard adjustments are
described in this section. Verify them after
transmitter commissioning.
Setting Sonalert Remote Control
States
4.3.5.2 Setting Low Battery Threshold
4.3.5.3 Setting Default Monitor States
4.3.5.4 Adjusting Audio Limiter
4.3.5.5 Setting Changeover Mode and RF
Monitor Thresholds
4.3.5.6 Verifying Exciter Changeover
Thresholds
4.3.5.7 Setting Mod Depth in Beacon Mode
4.3.5.8 Setting Mod Depth in Beacon and
Voice Mode
4.3.5.9 Setting Standby Codes
4.3.5.10 Setting the Keyer
4.3.5.11 Setting the Antenna Current Level
4.3.5.3 SETTING DEFAULT MONITOR
STATES
If the optional NDB site interface PWB (A4)
is installed, see 3.6.14.1 and 3.6.14.2 to
set default monitor states.
4.3.5.4 ADJUSTING AUDIO LIMITER
Adjust the audio limit threshold as follows:
(a) Adjust the remote interface PWB (A3)
AUDIO LEVEL potentiometer (R37)
fully clockwise.
(b) Connect an audio signal at the desired
level (between -20 dBm and +10 dBm,
in a 600  load) to the AUDIO INPUT
(+) (TB1-14) and (–) (TB1-16)
terminals of the remote interface PWB.
(c) The system diagram’s External Alarm
LED should turn on.
4.3.5.1
(d) In the Configure Sonalert menu (see
3.6.10), set the Mod Protection alarm
signal to ON.
(e) In the Select Peripherals menu
(3.6.13.5), select Sonalert Buzzer. The
sonalert will sound an alarm.
(f) Adjust the AUDIO LEVEL
potentiometer counter-clockwise until
the alarm stops, noting there is a five
second delay between the adjustment
and the alarm reaction. The External
Alarm LED should also turn off.
4.3.5.1 SETTING SONALERT REMOTE
CONTROL STATES
Use the sonalert menu to allow a
transmitter alarm to generate a change in a
control points state. See Configuring the
Sonalert (3.6.10).
(g) Sweep the test signal’s frequency
across the desired frequency band.
Adjust the AUDIO LEVEL
potentiometer when an audible alarm
occurs so that the level is as high as
possible without generating an alarm.
4.3.5.2 SETTING LOW BATTERY
THRESHOLD
If a dc power source (battery) is used, see
Selecting Power Source (3.6.9) to set the
DC disconnect and reconnect levels.
(h) In the Configure Sonalert menu (see
3.6.10), set the Mod Protection alarm
signal to OFF, if desired.
Page 4-4
Issue 1.8.1
Vector-LP Radio Beacon Transmitter Technical Instruction Manual
Section 4 Testing and Adjustment
4.3.5.5 SETTING CHANGEOVER MODE
AND RF MONITOR THRESHOLDS
If a standby side is being used, adjust the
transmitter’s high and low RF power limits,
low modulation and tone levels, and the
monitor delay period, as follows:
NOTE
International Civil Aviation Organization
(ICAO) standards dictate the transmitter be
turned off or a warning alarm be generated
when the RF output decreases by at least
3.0 dB or increases by at least 2.0 dB from
the intended carrier level. The user can
alter the monitor settings provided these
criteria are still met.
(a) Disable changeover. Set changeover
control to bypass mode (see 3.6.4).
(b) Set the transmitter to the desired RF
output level.
(c) Set the transmitter for desired
modulation depth in ‘beacon’ (PTT
inactive) and ‘beacon and voice’ (PTT
active) modes (see 3.6.7).
NOTE
If the NDB is to be used only in ‘beacon’ or
‘beacon and voice’ mode, you only need to
set up the NDB for the appropriate mode.
(d) Calculate the desired low modulation
depth for each mode. Set the
transmitter to modulate at these levels.
(e) In the Monitor Timeout screen (see
3.6.7), set the monitor timeout period
(in seconds) and decide whether
shutdown will be enabled or disabled.
(f) In the Power Thresholds screen (see
3.6.7), set the high and low power
limits and press Compute New
Thresholds.
(g) In the Mod % Thresholds screen (see
3.6.7), press Compute New
Thresholds in ‘beacon’ (PTT inactive)
and ‘beacon and voice’ (PTT active)
Vector-LP Radio Beacon Transmitter Technical Instruction Manual
Section 4 Testing and Adjustment
modes (see 3.6.7). The thresholds
should be updated with the desired
values.
NOTE
At this point the system has automatically
determined to use either a current or
voltage sample to control the modulation
detection and protection circuitry.
(h) Set the transmitter for desired
modulation depth in ‘beacon’ (PTT
inactive) and ‘beacon and voice’ (PTT
active) modes (see 3.6.7).
(i) Enable changeover. Set changeover
control to normal mode (see 3.6.4).
NOTE
Changeover is inhibited when a VSWR of
1.4:1 or greater is present.
(j) Check each threshold to ensure that it
functions properly by adjusting the
transmitter beyond the desired limit
and observing that the transmitter
reacts as expected. For detailed
testing information see 4.3.5.6.
NOTE
If you manually decrease the modulation
depth, the transmitter will inhibit output
power when the tone level is below the
desired threshold. The Keying Gate
Monitor Fail A or B fault will be displayed.
To restore power, increase the modulation
level and reset the fault status.
(k) When complete, restore the transmitter
to the desired power level and press
reset to clear all alarms (see 3.6.3).
Normal operation should resume.
4.3.5.6 VERIFYING EXCITER
CHANGEOVER THRESHOLDS
Verify the exciter changeover thresholds as
follows:
(a) Set the exciter control mode to
NORMAL (see 3.6.4). Set Keyer
Modulation to ON (see 3.6.13.1)
Page 4-5
Issue 1.8.1
Ensure that antenna current feedback
is OFF (disabled, see 3.6.15) before
proceeding.
(b) Select the exciter (A or B) that will be
operational for the next year as the
Main Side (see 3.6.4) and note the
forward power level on the screen.
NOTE
For clarity of description this procedure
uses factory default values for changeover
thresholds (3 dB for low RF power, 60% for
low modulation) and timeout values (20
seconds). These thresholds and values are
user adjustable.
(c) From the diagnostic display, select
Main Menu / Settings / Monitor
Settings. The timeout counter should
read 20 sec. (default value; can be
user adjusted).
(d) Decrease the RF power until the
counter begins to count down. The RF
power should be 3 dB (default value,
can be user adjusted) below the
power noted in step (b).
(e) A changeover should occur after the
timeout counter value in step (c). If
not, adjust the RF power to the
original level noted in step (b). Select
Main Menu/Settings/Monitor Settings/
Power Thresholds. Press Continue to
proceed. Press Compute New
Thresholds to establish new power
thresholds. If a modification is made,
a screen appears which prompts you
to save changes to EEPROM. Select
Yes. Return to step (d).
(g) Select Main Menu/Peripherals/Keyer
Settings/Audio Levels.
(h) Note the modulation level. Decrease
the Keying Pot level (see 3.6.13.1).
Power should be inhibited when 60 
2% modulation is reached. A
changeover should occur 20 seconds
later. Power should still be inhibited
on the standby side. If not, continue to
decrease the Keying Pot until power is
inhibited on the standby side (this
should also occur at 60  2%
modulation). Press Cancel. Press
Reset in the Status menu. The
transmitter should switch back to the
main side and the Changeover LED
should no longer be on.
(i) Select Main Menu/Settings/Monitor
Settings/Mod % Thresholds. Press
Continue to proceed.
Side A
Side B
12:43:16 Power:
0W Side A Bypass
Mod % Thresholds
Minimum Allowable Tone Modulation Depth:
...PTT Inactive:
164
153
...PTT Active:
1023
1023
63.8
63.8
35.4
Compute New Rf Mon: CURR 35.4
Thresholds
Toggle
Back
The third row in the Side A column
(63.8 in the example above) should
read 60  2%. The third row in the
Side B column (also 63.8 in the
example above) should read 60  2%.
(f) Increase the RF power to the desired
power level noted in step (b). Press
Reset in the Status menu. The
transmitter should switch back to the
main side and the Changeover LED
should no longer be on.
Page 4-6
Issue 1.8.1
Vector-LP Radio Beacon Transmitter Technical Instruction Manual
Section 4 Testing and Adjustment
(j) If the requirements of step (i) are not
met, set the transmitter to operate in
BYPASS mode. Press Reset in the
Status menu. The transmitter should
switch back to the main side and the
Changeover LED should no longer
be on.
(k) Decrease the modulation depth
(Keying Pot level) to 60%. Select Main
Menu/Settings/Monitor Settings/Mod
% Thresholds. Press Continue to
proceed. Press Compute New
Thresholds to establish new monitor
modulation % thresholds. If a
modification is made, a screen
appears which prompts you to save
changes to EEPROM. Select Yes.
Increase the modulation depth to the
desired level. Set changeover mode
to NORMAL. Return to step (g).
(l) Select Main Menu/Peripherals/Keyer
Settings/Audio Levels.
(m) The modulation levels should be as
close to desired modulation without
distortion.
4.3.5.7 SETTING MOD DEPTH IN
BEACON MODE
Set the modulation depth in beacon (no
voice) mode as follows:
(a) Ensure there is no link between the
PRESS-TO-TALK terminal (TB1-12)
and GND (TB1-13) on the remote
interface PWB (A3).
(b) In the Keyer Modulation menu (see
3.6.13.1), set Modulation and Tone
Generator to ON and set Keyer to
OFF. Set the Tone Frequency to 400
Hz or 1020 Hz.
(c) In the Audio Levels menu (see
3.6.13.1), set Keying Pot to 0.
(d) Press RF On. Increase the
transmitter’s output to desired power.
Vector-LP Radio Beacon Transmitter Technical Instruction Manual
Section 4 Testing and Adjustment
(e) In the Audio Levels menu, while
monitoring the Mod %, increase the
Keying Pot value until the Mod % is as
desired. If the modulating signal begins
to distort, stop increasing mod depth.
(f) In the Keyer Modulation menu, set
Keyer to ON.
4.3.5.8 SETTING MOD DEPTH IN
BEACON AND VOICE MODE
Set the modulation depth in PTT (beacon
and voice) mode as follows:
(a) Adjust the audio limiter as described in
4.3.5.4. The audio generator should
remain connected.
(b) Assert Press–To-Talk. The status
screen should indicate press to talk.
NOTE
If the system is in normal mode, connect a
link between the PRESS-TO-TALK
terminal (TB1-12) and GND (TB1-13) on
the remote interface PWB (A3). If the
system is being used in phantom feed
mode, apply -15 V down the shield of the
audio signal (see 2.2.13).
(c) In the Keyer Modulation menu (see
3.6.13.1), set Modulation to ON and
set Keyer and Tone Generator to OFF.
(d) In the Audio Levels menu (see
3.6.13.1), set Voice Pot and Keying
Pot to 0.
(e) Press RF On. Increase the
transmitter’s output to rated power.
(f) In the Audio Levels menu, while
monitoring the Mod %, increase the
Voice Pot value until the Mod % is at
the desired depth. If the modulating
signal begins to distort, stop increasing
the modulation depth.
(g) Turn off the audio generator.
Page 4-7
Issue 1.8.1
(h) In the Keyer Modulation menu, set
Modulation and Tone Generator to ON.
Set the Tone Frequency to 400 Hz or
1020 Hz.
(i) In the Audio Levels menu, while
monitoring the Mod %, increase the
PTT Keying Pot value until the Mod %
is at the desired depth. If the
modulating signal begins to distort,
stop increasing the modulation depth.
The total modulation depth cannot
exceed 95%.
(j) In the Keyer Modulation menu, set
Keyer to ON.
4.3.5.9 SETTING STANDBY CODES
See 3.6.13.1, Setting the Keyer.
4.3.5.10 SETTING THE KEYER
See Setting the Keyer (3.6.13.1).
4.3.5.11 SETTING THE ANTENNA
CURRENT LEVEL
Adjust the antenna current to the desired
level and set the antenna current feedback
feature as follows:
(a) Ensure the serial interface cable is
installed between the transmitter (at
the INTERNAL RS-485 connector on
remote interface PWB A3) and the
ATU.
(b) Apply power to the ATU.
(c) In the Power menu (see 3.6.15), set
the antenna current feedback to OFF.
(d) Adjust the transmitter for the desired
antenna current by adjusting the output
power level.
(e) Ensure that the changeover mode and
monitor thresholds have been set (see
4.3.5.5)
NOTE
When antenna current feedback is
enabled, the transmitter will adjust the
output power to ensure that antenna
current remains constant. With each
power adjustment, a new high and low
forward power threshold is calculated. In
this case the low and high power
thresholds have essentially become low
and high antenna current thresholds.
4.3.6 Non-Standard Adjustments
The following non-standard adjustments
are described in this section. They have
been factory set prior to shipping and do
not require verification or re-calibration
unless an unintentional adjustment has
been made or a fault has occurred.
4.3.6.1
4.3.6.2
4.3.6.3
4.3.6.4
4.3.6.5
4.3.6.6
4.3.6.7
4.3.6.8
4.3.6.9
4.3.6.10
4.3.6.11
4.3.6.12
4.3.6.13
4.3.6.14
Changing Frequency
Changing RF Filter Tap Settings
Calibrating Transmitter Output Power
Calibrating Exciter Dc Voltages and
Ambient Temperature
Calibrating PDM
Calibrating Reflected Power
Threshold and Output Network Alarm
Setting the RF Monitor Level
Calibrating the Ac Failure Alarm
Adjusting for RF Drive Symmetry
Equalizing Exciter Gain (Dual Exciter
Transmitters Only)
Calibrating Battery Voltage, Current
and Charger Current(Optional)
Setting Display Contrast
Adjusting Speaker Volume
Reading Modulation Level
(a) Verify the initial turn-on requirements
of paragraph 4.3.4 have been
completed and are being met.
4.3.6.1 CHANGING FREQUENCY
To perform a frequency change, perform
the following steps in order:
(a) Press RF Off.
(f) In the Power menu, set the antenna
current feedback to ON.
Page 4-8
Issue 1.8.1
Vector-LP Radio Beacon Transmitter Technical Instruction Manual
Section 4 Testing and Adjustment
(b) On the RF synthesizer PWB(s),
change the carrier frequency using
BCD switches S1 through S5. Each
switch represents one of the five most
significant digits in the carrier
frequency expressed in kHz:
- S1 is thousands digit (x1000)
- S2 is hundreds digit (x100)
- S3 is tens digit (x10)
- S4 is units digit (x1)
- S5 is the tenths digit (x0.1)
(c) If the Frequency Monitor feature is
enabled, adjust the Carrier Frequency
(kHz) (in the Set Thresholds menu;
see 3.6.12.2) to the operational carrier
frequency.
(d) Perform RF drive symmetry testing
and adjustment procedures (see
4.3.6.9).
(e) Change the RF filter tap settings (see
4.3.6.2).
(f) Calibrate the transmitter’s output
power (see 4.3.6.3).
4.3.6.2 CHANGING RF FILTER TAP
SETTINGS
For a frequency change, change the tap
settings on the RF filter PWB as follows:
NOTE
If your frequency is changing between the
standard frequency band (190 - 535 kHz)
and the extended frequency band (535 –
1800 kHz), you will need to change the RF
filter PWB (A14). Contact Nautel.
(a) Turn off the RF power and the ac and
dc circuit breakers.
(b) Remove the rear cover from the
transmitter to gain access to the RF
filter PWB (A14).
(c) Enter the frequency into Table 2-6a
(standard frequencies) or 2-6b (high
frequencies, VR125 only) to determine
the tap settings for the six jumpers.
Connect the jumpers to the appropriate
taps.
(d) Turn on the ac and dc circuit breakers.
(e) Install the rear cover on the transmitter
and perform the calibration in 4.3.6.3.
4.3.6.3 CALIBRATING TRANSMITTER
OUTPUT POWER
Calibrate the transmitter’s forward power
and related parameters as follows:
(a) Select reflected power to be monitored
on the exciter/control assembly’s front
panel analog meter (see 3.6.8.2).
(b) Select side A in the Changeover
Control menu. Go to the Power Module
menu.
(c) Monitor TP17 of interphase PDM driver
PWB A (A6) with an oscilloscope.
(d) Set the RF output to 0 W by pressing
the Power Increase and Power
Decrease buttons at the same time.
(e) Press RF On. Ensure all side A RF
power module fans turn on (VR250
only). Set modulation to 0%.
(f) While monitoring the PA voltage for the
side A RF power module (see
3.6.13.2), slowly increase the RF
output power until the PA voltage is
65 V. Stop increasing power if at any
time:

the PA voltage between RF power
modules varies by more than 5%, or

the reflected power on the analog
meter increases above 10 W
(g) Use an external current probe to verify
that the output power is 100  20 W.
Vector-LP Radio Beacon Transmitter Technical Instruction Manual
Section 4 Testing and Adjustment
Page 4-9
Issue 1.8.1
(h) Increase power to rated or maximum,
whichever is lower. Use an external
current probe and the following formula
to determine the output power:

Scroll through the parameters until
Forward Power is highlighted. Press
Modify.

Adjust the reading to the same value
calculated in step (h). Record this
level. Press Done.
Power = Current2 x Rload
(i) In the Maximum Output Gain menu
(see 3.6.12.3), calibrate the duty cycle
and forward power as follows:

Highlight the value for Set Duty Cycle.
Press Modify.

Change the value to match the positive
duty cycle measured at TP17 in step
(c). Press Next.

Change the value for Set Forward
Power to match the power calculated
in step (h).
(j) If the transmitter is operating at full
power, go to step (l). If not:

Highlight the value for Maximum
Carrier Reference. Press Modify.

Increase the value by 5. Press Done.
(k) Return to step (h).
(l) Set the maximum carrier reference:

Record the current duty cycle and
forward power values.

Record the power according to the
external current probe.

Highlight the value for Maximum
Carrier Reference. Press Modify.

Adjust the value to 1 higher than the
current Carr. Ref value. Press Done.
(m) The initial Forward Power
measurement should be within 20 % of
the actual value. In the Calibrate
Meters menu (see 3.6.12 and 3.6.12.1)
calibrate the Forward Power.
Page 4-10
Issue 1.8.1
(n) Increase the power until maximum
power is reached. Record the power
level on the top line (status bar) of the
GUI display.
(o) Press Power Increase and Power
Decrease at the same time to set the
RF power to 0 W. Press RF Off.
4.3.6.4 CALIBRATING EXCITER DC
VOLTAGES AND AMBIENT
TEMPERATURE
(a) Measure and record the following dc
voltages on the control/display PWB
(A1):




TP18 (approx. 24 V)
TP12 (approx. 15 V)
TP20 (approx. -15 V)
TP9 (approx. 5 V)
(b) In the Calibrate Meters menu (see
3.6.12 and 3.6.12.1) scroll through the
parameters until +24 Volt P/S is
highlighted. Press Modify.
(c) Adjust the value to match the TP18
voltage measured in step (a). Press
Done.
(d) Repeat step (c) to calibrate the other
parameters:





+15 Volt P/S (measured on TP12)
-15 Volt P/S (measured on TP20)
+5 Volt P/S (measured on TP9)
AC Voltage
Temperature (use a thermometer to
measure the ambient room
temperature
Vector-LP Radio Beacon Transmitter Technical Instruction Manual
Section 4 Testing and Adjustment
NOTE
When you exit the Calibrate Meters menu a
message is displayed indicating that you
have made changes. You will be prompted
to save the changes to EEPROM so that
they can be restored in the event of a
power failure. Press Yes each time this
prompt is displayed during the setup
procedure.
During initial turn-on and adjustment of
transmitter power, the diagnostic display’s
meters screen should be monitored.
4.3.6.5 CALIBRATING PDM
(a) Use an oscilloscope to monitor TP17 of
the active interphase PDM driver PWB
(A6 for side A or A9 for side B).
(b) Press RF On. Set modulation to 0%.
(c) In the Calibrate Meters menu (see
3.6.12 and 3.6.12.1) scroll through the
parameters until PDM A (or PDM B,
depending on the transmitter’s active
side) is highlighted. Press Modify.
(d) Adjust the value to match the positive
duty cycle measured on TP17 in step
(a). Press Done.
4.3.6.6 CALIBRATING REFLECTED
POWER THRESHOLD AND OUTPUT
NETWORK ALARM
(c) Set RF output power to 0 W. Press RF
On. Monitor the external current while
slowly increasing the power to half of
the reflected power limit. Try to achieve
a current of 1.8 A (should occur at
approximately 40 W).
(d) Calculate the actual reflected power
using the following equation:
Refld Pwr = (Ishort circuit / 2)2 x 50 
(e) In the Calibrate Meters menu (see
3.6.12 and 3.6.12.1) scroll through the
parameters until Reflec. Power is
highlighted. The Reflec. Power value
should be within 20% of the value
determined in step (d).

Press Modify.

Adjust the value to match the level
calculated in step (d). Press Done.
(f) Press Back and select Set
Thresholds.
(g) Press ,  or Next until Refl. Power
Shutback is displayed.

Monitor the external current while
slowly increasing the power to the
reflected power limit. Try to achieve a
current of 2.5 A (should occur at
approximately 80 W).
(a) Turn off the transmitter and disconnect
the dummy load from the transmitter’s
RF output. Short the transmitter’s RF
output to ground near the RF output.
Install the external current probe on the
shorting jumper.
(h) If an Output Network alarm occurs
before reaching the reflected power
limit, increase the Refl. Power
Shutback threshold level and press
Done and return to step (h). Otherwise
continue to step (j).
(b) In the Set Thresholds menu (see
3.6.12 and 3.6.12.2) set the Slowback
Pwr (Per Block) value to 100 W.
(i) Decrease the Refl. Power Shutback
threshold level until the Output
Network alarm occurs. Press Done.
(j) In the Set Thresholds menu, set the
Slowback Pwr to 30 W (for VR250) or
15 W (for VR125).
Vector-LP Radio Beacon Transmitter Technical Instruction Manual
Section 4 Testing and Adjustment
Page 4-11
Issue 1.8.1
(k) Verify the reflected power cutback is
below 30 W (for VR250) or 15 W (for
VR125). Press RF Off.
(l) Remove the shorting jumper from the
transmitter’s RF output. Reconnect the
dummy load to the transmitter’s RF
output.
4.3.6.7 SETTING THE RF MONITOR
LEVEL
(a) Increase the transmitter’s RF output to
full power.
(b) Connect a 50  load to the RF
MONITOR BNC connector (J8 of
remote interface PWB A3, accessible
at the back of the front panel. Monitor
the voltage with an oscilloscope.
(c) Adjust the remote interface PWB’s
MONITOR LEVEL potentiometer
(R163) until the voltage is 1.0 V RMS.
4.3.6.8 CALIBRATING THE AC FAILURE
ALARM
(a) With the transmitter connected to a
suitably rated dummy load, press RF
On and increase to rated power.
(b) Measure the dc voltage at TP13 on the
control/display PWB (A1). Calculate
and record the low ac voltage
reference:
For VR250:
Low AC ref = 170 x TP13/Ac Voltage
For VR125:
Low AC ref = 90 x TP13/Ac Voltage
(c) Monitor the dc voltage at TP19 on the
control/display PWB.
(e) Adjust the Low AC Voltage value until
the voltage at TP19 matches the low
ac voltage reference calculated in step
(b). Press Done.
(f) Turn off the transmitter’s ac power. If
testing is required, connect a variac
between the ac power source and the
transmitter. Turn on the ac power.
(g) Use the variac to decrease the ac
voltage until the System Diagram’s AC
Mains LED. The Diagnostic Display
should display both Shutback A and
Low AC. Record the ac voltage.
(h) Press RF Off.
(i) Turn off the ac power and disconnect
the variac. Reconnect ac to the
transmitter.
4.3.6.9 ADJUSTING FOR RF DRIVE
SYMMETRY
Measure the symmetry of the RF drive
applied from the active RF synthesizer
PWB to the RF power modules as follows:
(a) Select the side for the symmetry
adjustment.
(b) Press RF On and set the transmitter’s
RF output power to 0 W.
(c) Connect an oscilloscope between TP2
(TP1 for side B) and ground on the
exciter interface PWB (A2).
(d) The oscilloscope should indicate a
symmetrical (50% duty cycle) square
wave with a nominal amplitude of 5 V
peak-to-peak.
(e) Adjust the appropriate RF synthesizer
PWB’s SYMMETRY potentiometer
(R32) to obtain a 50  1 % duty cycle.
(d) In the Set Thresholds menu (see
3.6.12 and 3.6.12.2), scroll to the Low
AC Voltage threshold. Press Modify.
Page 4-12
Issue 1.8.1
Vector-LP Radio Beacon Transmitter Technical Instruction Manual
Section 4 Testing and Adjustment
NOTE
If an external RF generator is producing
the RF drive, verify its output waveform is
symmetrical.
4.3.6.10 EQUALIZING EXCITER GAIN
(Dual Side Transmitters Only)
If the RF output of the transmitter varies
between side A and B, you may need to
equalize the exciter gain. Equalize the
PDM pulse train between sides A and B so
that no change in RF output level occurs
during exciter changeover, as follows:
(a) Go to the Power Module Status menu
(see 3.6.13.2).
(b) Use an oscilloscope to monitor TP17 of
interphase PDM driver PWB A (A6).
(c) On interphase PDM driver PWB A
(A6), adjust the GAIN TRIM
potentiometer (R31) four turns counter
clockwise and one and a half turns
clockwise. On interphase PDM driver
PWB B (A9), adjust the GAIN TRIM
potentiometer (R31) four turns counter
clockwise.
(d) Press RF On. Increase the
transmitter’s RF output to full rated or
maximum power, whichever is lower.
(e) Use an external current probe to
measure RF output power:

Change the value for Set Forward
Power to match the power calculated
in step (e). Press Done.
(g) If the transmitter is operating at full
power, go to step (o). If not:

Highlight the value for Maximum
Carrier Reference. Press Modify.

Increase the value by 5. Press Done.
(h) Repeat step (e).
(i) Set the maximum carrier reference:

Record the current duty cycle and
forward power values.

Record the power according to the
external current probe.

Highlight the value for Maximum
Carrier Reference. Press Modify.

Adjust the value to 1 higher than the
current Carr. Ref value. Press Done.
(j) Increase the power until maximum
power is reached. Record the power
level on the top line (status bar) of the
GUI display.
(k) Press Power Increase and Power
Decrease at the same time to set the
RF power to 0 W. Press RF Off.
Power = Current2 x Rload
(f) In the Maximum Output Gain menu
(see 3.6.12.3), calibrate the duty cycle
and forward power as follows:


Highlight the value for Set Duty Cycle.
Press Modify.
Change the value to match the positive
duty cycle measured at TP17 in step
(c). Press Next.
Vector-LP Radio Beacon Transmitter Technical Instruction Manual
Section 4 Testing and Adjustment
(l) Select side B in the Changeover
Control menu.
(m) Press RF On. Ensure all side B RF
power module fans are on.
(n) Press Power Increase until you reach
maximum power. Adjust GAIN TRIM
potentiometer R31 on interphase PDM
driver PWB B (A9) to ensure that the
output power matches the output
power recorded in step (j).
Page 4-13
Issue 1.8.1
4.3.6.11 CALIBRATING BATTERY
VOLTAGE, BATTERY CURRENT AND
CHARGER CURRENT (Optional)
NOTE
This procedure applies to transmitters that
use a dc power source and the battery
boost PWB (A16).
(a) Press RF Off.
(b) Open the dc breaker and remove ac
power from the transmitter. Disconnect
the positive lead of the battery from the
terminal block (TB1) on the battery
boost PWB (A16). Reconnect the
positive lead of the battery to TB1-3 on
the battery boost PWB.
(h) Press RF On and increase the RF
output to rated power.
(i) Use a clip-on dc current meter to
measure the current between the
battery and TB1-3 of the battery boost
PWB.
(j) In the Calibrate Meters menu scroll
through the parameters until Battery
Current is highlighted. Press Modify.
(k) Adjust the value to match the current
measured in step (i). Press Done.
(l) In the Calibrate Meters menu scroll
through the parameters until Charger
Current is highlighted. Press Modify.
(c) Connect a link, using 14 AWG wire,
between TB1-4 and TB1-1 on the
battery boost PWB. Close the dc
breaker.
(m) Adjust the value to match the current
measured in step (i). Press Done.
(d) Measure and record the dc voltage
between TB1-1 and TB1-2 on the
battery boost PWB.
(o) Open the dc breaker. Remove the link,
between TB1-4 and TB1-1 on the
battery boost PWB. Disconnect the
positive lead of the battery from TB1-3
on the battery boost PWB and
reconnect it to TB1-1.
(e) In the Calibrate Meters menu (see
3.6.12 and 3.6.12.1) scroll through the
parameters until Battery Voltage is
highlighted. Press Modify.
(f) Adjust the value to match the voltage
measured in step (a). Press Done.
NOTE
When you exit the Calibrate Meters menu a
message is displayed indicating that you
have made changes. You will be prompted
to save the changes to EEPROM so that
they can be restored in the event of a
power failure. Press Yes each time this
prompt is displayed during the setup
procedure.
(g) In the Power Source Select menu,
change the transmitter’s Requested
Power Source to DC (see 3.6.9).
Page 4-14
Issue 1.8.1
(n) Press RF Off.
(p) Close the dc breaker and reapply ac
power to the transmitter.
(q) In the Power Source Select menu,
change the transmitter’s Requested
Power Source to AC (see 3.6.9).
4.3.6.12 SETTING DISPLAY CONTRAST
Set the contrast of the diagnostic display’s
GUI as follows:
(a) In the Set Thresholds menu (see
3.6.12 and 3.6.12.2), scroll to the LCD
Display Contrast threshold. Press
Modify.
(b) Adjust the contrast to the desired level.
Press Done.
Vector-LP Radio Beacon Transmitter Technical Instruction Manual
Section 4 Testing and Adjustment
4.3.6.13 ADJUSTING SPEAKER
VOLUME
See Setting Protection Thresholds
(3.6.12.2). Adjust the Audio parameter as
desired.
4.3.6.14 READING MODULATION LEVEL
Read the modulation level as follows:
(a) Connect an oscilloscope to the RF
MONITOR connector (J8) on the
remote interface PWB (A3).
(b) Set the exciter in CW mode: use ▲
and ▼ to scroll the display and set
Modulation to OFF using the Toggle
switch.
(c) Adjust the oscilloscope’s timescale to
500 s per division (for 400 Hz
modulation). Adjust the amplitude
level of the oscilloscope to just cover
all eight divisions of the display with
the RF signal (see Figure 4-2).
Figure 4-3: CW signal with position
adjusted to mid-point of display
(e) Set the exciter in MCW mode: use ▲
and ▼ to scroll the display and set
Modulation to ON and the Keyer to
OFF using the Toggle switch.
(f) Measure the bottom of the waveform.
Each sub-division should correspond
to 5% in modulation. The bottom of
the waveform should be one subdivision above the bottom of the
display when the modulation is at 95%
(see Figure 4-4).
NOTE
There may be some distortion in the
trough. This is an effect of class D
amplification called pinch off and can be
ignored as it does not produce significant
total harmonic distortion (THD).
Figure 4-2: CW signal set to fill display
(d) Adjust the position of the oscilloscope
signal so that the bottom of the CW
waveform is at the mid-point of the
display (see Figure 4-3).
Figure 4-4: MCW signal, 95% modulation
Vector-LP Radio Beacon Transmitter Technical Instruction Manual
Section 4 Testing and Adjustment
Page 4-15
Issue 1.8.1
(g) If the modulation level requires
adjustment select Main Menu/
Peripherals/Keyer Settings/Audio
Levels.
(h) Adjust the Keying Pot (in Press-to-talk
mode adjust the PTT Keying Pot) to
get the desired level of modulation.
This adjustment will affect both
exciters.
(i) Check if the reading on the diagnostic
display agrees with the oscilloscope
measurement. If necessary calibrate
the meter as described in 3.6.12.1.
Page 4-16
Issue 1.8.1
Vector-LP Radio Beacon Transmitter Technical Instruction Manual
Section 4 Testing and Adjustment
Vector-LP Radio Beacon Transmitter
TECHNICAL INSTRUCTION MANUAL
Section 5
MAINTENANCE AND TROUBLESHOOTING
5.1 GENERAL
This section contains scheduled and
corrective maintenance information for the
Vector-LP transmitter. Fault symptoms
should be analyzed to determine the
corrective action required. Troubleshooting
information (see paragraph 5.5) is
presented based on the exciter panel’s
diagnostic information.
CAUTION
The Vector-LP transmitter contains many
solid state devices that may be damaged if
subjected to excessive heat or high voltage
transients. Ensure circuits are not
overdriven or disconnected from their loads
while turned on.
5.2 SCHEDULED MAINTENANCE
Scheduled maintenance consists of
performing a visual inspection of the
transmitter at scheduled intervals. The
recommended minimum time between
scheduled maintenance visits is one year.
Local operating and environmental
conditions may dictate more frequent visits
and in remote sites, less frequent visits
may be acceptable. Experience and
system reliability will determine the most
practical schedule for a specific installation.
5.2.1 Cleaning the Transmitter
As a minimum, perform the following
cleaning procedures:
NOTE
A site located in a dirty area using open-air
cooling requires more extensive cleaning
than a site located in a clean area using
closed-air cooling.
Vector-LP Radio Beacon Transmitter Technical Instruction Manual
Section 5 Maintenance and Troubleshooting
 Once a year, clean the transmitter
using a vacuum cleaner and a softbristle brush to remove loose dirt. Use
clean, damp rags to remove dirt that
cannot be vacuumed. NEVER use
compressed air to clean the
transmitter.
 For VR250 transmitters only: Once a
year, inspect and clean air filters using
soap and warm water. If the air filters
are damaged, replace them as soon as
possible.
5.2.2 Checking Hardware
All hardware MUST be checked at least
once a year. Thermal cycling from turning
the transmitter on and off will require more
frequent checks.
 Ensure the proper sized tools are used
to prevent damaging the hardware. In
most cases, hardware is metric.
 A mounting surface or terminal that
has changed colour indicates a loose
hardware connection.
 Multi-stranded cables installed on
terminal strips MUST be re-torqued.
5.2.3 Battery Replacement
The transmitter's control/display PWB
contains a battery backup circuit that
provides a memory of alarm occurrences
during ac power failure. The battery
should be replaced at least once a year or
whenever the diagnostic display on the
exciter/control assembly’s front panel
indicates a ‘low NVRM battery’ message.
Page 5-1
Issue 1.8.1
5.3 CORRECTIVE MAINTENANCE
Corrective maintenance procedures consist
of identifying and correcting defects or
deficiencies that arise during operation of
the transmitter. Local/remote alarm signals
are generated when a malfunction occurs.
The nature of the fault and station policy
dictates whether immediate maintenance
response is necessary. Fault analysis and
rectification may be conducted from three
different levels with a different technical
competence level required for each.
5.3.1 On-Air Troubleshooting
On-air troubleshooting can be performed
from a remote location or locally at the
transmitter site.
5.3.1.1 Remote Troubleshooting
Remote on-air troubleshooting consists of
monitoring the transmitter's RF output
using an on-air monitor and polling the
status of the transmitter using the optional
remote control and monitoring software.
This information enables you to decide if a
response is deferred to a more convenient
time, if immediate corrective action is
taken, and whether a standby transmitter is
enabled (if available). Nautel recommends
you incorporate the significance of remote
indications and the appropriate responses
into the station’s standard operating
procedures. Refer to paragraph 5.5 to
determine the troubleshooting action
required for a given fault.
5.3.1.2 Local Troubleshooting
Local on-air troubleshooting consists of
monitoring the transmitter's diagnostic
display and fault alarm indicators. Analysis
of their status normally identifies the type of
fault and in most cases determines what
corrective action must be taken. Refer to
paragraph 5.5 to determine the
troubleshooting action required for a given
fault.
Page 5-2
Issue 1.8.1
5.3.2 Off-Air and Standby Side
Troubleshooting
Off-air troubleshooting is performed when
proper operation cannot be restored. In
dual side (A and B) transmitters, if an
active side PWB or assembly is defective,
the transmitter automatically changes over
allowing safe replacement of the defective
PWB or assembly. You can remove the RF
power module from the active side, but a
changeover (for dual side applications) or
inhibit (for single side applications) will
occur. Troubleshooting for a majority of
standby side faults can be performed using
the test standby side troubleshooting menu
(paragraph 3.6.13.4).
For off-air troubleshooting procedures,
Nautel recommends you connect the
output to a precision 50 , resistive
dummy load (rated for twice the
transmitter’s maximum carrier power). If a
suitable dummy load is not available, the
transmitter may remain connected to its
antenna for these procedures. When it is
necessary to troubleshoot faults in the
power amplifier stage, reduce the RF
output level to a minimal value when the
RF output is connected to the antenna.
5.4 ELECTROSTATIC PROTECTION
The transmitter's assemblies contain
semiconductor devices that may be
damaged by electrostatic discharge. Before
removing an assembly from the transmitter,
and while servicing an assembly, observe
the following precautions:
NOTE
Electrostatic energy is produced when two
insulating materials are rubbed together. A
person wearing rubber-soled shoes,
walking across a nylon carpet or a waxed
floor can generate an extremely large
electrostatic charge. This effect is
magnified during periods of low humidity.
This high voltage may damage
components such as integrated circuits,
field-effect transistors, thyristors, and
Schottky diodes unless adequate
precautions are taken.
Vector-LP Radio Beacon Transmitter Technical Instruction Manual
Section 5 Maintenance and Troubleshooting
5.4.1 Discharging of Personnel
Maintainers should be electrically
discharged by a suitable grounding
system (anti-static mats, grounding
straps) during removal of an assembly
from the exciter and while handling the
assembly for maintenance procedures.
5.4.2 Handling/Storage
A sub-assembly should be placed in an
anti-static bag when it is not installed in the
exciter or when it is not being subjected to
maintenance procedures. Electronic
components should be stored in anti-static
materials.
5.4.3 Tools/Test Equipment
Testing and maintenance equipment,
including soldering (for example: Irons with
grounded tips) and unsoldering tools,
should be suitable for contact with static
sensitive semiconductor devices.
5.4.4 Stress Current Protection
Protect static sensitive semiconductor
devices from unnecessary stress current
as follows:
 Ensure electrical connections are not
broken while current is flowing in the
circuit.
 Ensure voltages are not present on
external control/monitoring circuits
when they are connected.
5.5 TROUBLESHOOTING FRONT
PANEL ALARMS
Front panel fault analysis can be performed
from the exciter panel. There are several
ways to use the front panel to determine
the occurrence and origin of a fault:

The system diagram is a flow diagram
that indicates the operational status of
various sections of the transmitter. If a
lamp is on (red), a fault is occurring in
the associated section of the
transmitter.
Vector-LP Radio Beacon Transmitter Technical Instruction Manual
Section 5 Maintenance and Troubleshooting

The diagnostic display’s meter screen
has real-time meter indications (e.g.,
forward power) to assist in fault
analysis.

The diagnostic display’s main screen
will indicate when a fault is occurring.
Press the Status soft key to display all
active faults.

The diagnostic display’s Events Log
(see paragraph 3.6.5) provides a
chronological list of faults/events as
well as root cause information to assist
in fault diagnosis.
NOTE
It is important to consider both the real-time
and the logged information when
troubleshooting. Displayed active faults
may or may not be the root cause of the
problem. The Events Log displays the root
cause of an event (i.e., the first fault
detected), which may have been transient,
but resulted in other faults that remain
active. It also displays the status of certain
parameters at the time of the event.
(a) Determine the origin of the fault by
noting which of the system diagram’s
lamps has turned on. If no system
diagram lamp is on, proceed to step (b)
for non-alarm troubleshooting tips.
NOTE
In dual side (A and B) transmitters, some
faults will also initiate a Changeover
alarm. In this case, the transmitter will
continue to operate using the standby side.
This may allow troubleshooting (and
subsequent repair) to be deferred to a
more convenient time.
NOTE
The troubleshooting procedures in this
manual are limited to module level checks
and sub-assembly replacement.
Page 5-3
Issue 1.8.1
(b) From the diagnostic display’s main
screen, press the Status button. Note
the alarm indication(s) and refer to
Table 5-1 for troubleshooting tips,
which may also reference replacement
and subsequent re-calibration
procedures.
(c) The diagnostic display will indicate the
current active faults and more
specifically identify the nature of the
fault.
e.g., PDM Drive A Fail
(d) Attempt to clear the alarm by pressing
the reset button. If the alarm persists,
it will not be cleared from the display.
(e) In the example given in step (c), a
PDM Drive A Fail has occurred
indicating a problem with exciter A’s
interphase PDM driver PWB. The
suspect PWB should be replaced as
detailed in paragraph 5.8.1.2.
Viewing the diagnostice display’s Events
Log (see paragraph 3.6.5) can also assist
in diagnosing a fault.
(f) Other fault indications may prompt the
troubleshooter to replace other PWBs/
assemblies or an RF power module
(e.g., PA Alarm A indicates a fault has
occurred on the side A RF power
module).
NOTE
Replacement procedures (paragraphs 5.6,
5.8 and 5.9) are provided for RF power
modules and PWBs/assemblies that
require specific removal/installation or
adjustment instructions. Instructions have
not been included for assemblies that are
straightforward to replace and require no
re-calibration.
(g) If replacement of a suspect PWB or
assembly does not remove the fault
condition, contact Nautel.
NOTE
For dual side transmitters, a changeover
to the standby side should also occur.
Determine which side caused the fault,
noting it is the opposite side to that
displayed on the transmitter status bar at
the top of the diagnostic display.
Page 5-4
Issue 1.8.1
Vector-LP Radio Beacon Transmitter Technical Instruction Manual
Section 5 Maintenance and Troubleshooting
Table 5-1: Troubleshooting and Replacement Tips
See Troubleshooting/
Replacement Paragraph
5.8.3
See Re-calibration
Paragraph
N/A
Replace associated ac/dc universal input power supply [side A (U2) or side B (U3)].
N/A
N/A
Over Voltage PS
A or B
Replace switch mode power supply PWB (A2 of associated RF power module).
5.6.1
Over Current PS
A or B
Replace switch mode power supply PWB (A2 of associated RF power module).
5.6.1
If the transmitter is running in dc mode (optional), and this alarm is indicated on the active side, replace
battery boost assembly A16. Otherwise, check cabling between A7 and A3 through A6.
5.9
3.6.13.4 (ensure the
replaced/repaired module is
on the standby side)
3.6.13.4 (ensure the
replaced/repaired module is
on the standby side)
Front Panel
LED
AC Mains
Status
Message
Low AC Voltage
Low Voltage Power Supply
LVPS Fault A or B
Power Supply
Power Supply
Action
The ac voltage is less than 170 V ac (or 90 V ac for VR125 transmitters). If the ac source voltage is present,
check the ac breaker at the back of the transmitter. If the breaker is OK, replace the interface PWB (A11).
Power Supply
High Temp PS
A or B
Check fans. Ensure they are spinning at an adequate speed (a minimum of 3000 RPM, see 3.6.13.2). If
necessary, replace the appropriate fan.
N/A
N/A
Power Supply
PS A or B Missing Module
An RF power module has been removed from the associated side.
N/A
N/A
PA
Modulator Fail
A or B
Check/replace FET on modulator assembly (A5 of associated RF power module).
5.6.1
5.7
PA
PA Alarm
A or B
Check/replace FETs on power amplifier (A3 of associated RF power module).
5.6.1
5.7
PA
PDM Inhibit A or B
A module has been removed from the transmitter. A PS Missing Module message will indicate which module
has been removed.
N/A
3.6.13.4 (ensure the
replaced/repaired module is
on the standby side)
3.6.13.4 (ensure the
replaced/repaired module is
on the standby side)
N/A
Exciter
Low NVRAM Bty
Replace battery BT1 on the control/display PWB (A1).
N/A
N/A
Exciter
RF Fail A or B
Replace the RF synthesizer PWB [side A (A5) or side B (A8)].
5.8.1.1
4.3.6.1
4.3.6.9
Exciter
PDM Latch A or B
Change the active side of the exciter and run a standby side test on the power supply (see 3.6.13.4). If a fault
is detected, replace switch mode power supply PWB of faulty power module. If no fault is detected, replace
interphase PDM driver PWB [side A (A6) or exciter B (A9)].
5.8.1.2
4.3.6.3 (single side) or
4.3.6.10 (dual side)
3.6.13.4 (ensure the
replaced/repaired module is
on the standby side)
Vector-LP Radio Beacon Transmitter Technical Instruction Manual
Section 5 Maintenance and Troubleshooting
Page 5-5
Issue 1.8.1
Table 5-1: Troubleshooting and Replacement Tips (Continued)
Front Panel
Status
LED
Message
Exciter
Monitor Fault
A or B
Action
Indicates a fault in a monitor PWB. The Monitor Fault will be accompanied by an indication of the fault. If it is
not accompanied by a specific fault, replace the exciter monitor/generator PWB [side A (A7) or side B (A10)].
See Troubleshooting/
Replacement Paragraph
5.8.2
Exciter
E/G not responding A or B
Indicates that an exciter monitor/generator PWB is not responding. Replace the exciter monitor/generator
PWB [side A (A7) or side B (A10)].
5.8.2
Exciter
Mon PGM Fault A or B
Indicates that an exciter monitor/generator PWB has an EEPROM or Flash memory error. Replace the
exciter monitor/generator PWB [side A (A7) or side B (A10)].
5.8.2
Exciter
Keying Gate Monitor Fail A or B
Indicates that the tone level is not at the correct level. Ensure that the thresholds have been set up correctly.
If they have been, and the tone is at an adequate level, replace the exciter monitor/generator PWB [side A
(A7) or side B (A10)]. As long as this fault persists, output power is inhibited.
5.8.2
Exciter
Pwr. Monitor Fail A or B
Indicates that the transmitter’s output power is outside of the desired thresholds. If there is no accompanying
error message, a power amplifier (A3) in an RF power block may be damaged. Try operating the transmitter
at rated power. If the problem persists, check/replace FETs on the associated power amplifier.
5.6
Exciter
Mod Depth Fault A or B
Indicates that the transmitter’s modulation depth is below the desired low limit. Ensure that the thresholds
have been set up correctly. If they have been, and the mod depth is at an adequate level, replace the exciter
monitor/generator PWB [side A (A7) or side B (A10)].
5.8.2
Exciter
Monitor Fail
Indicates that one, not both, of the exciter monitor/generator PWBs [side A (A7) or side B (A10)] requested a
changeover. It is typical for a brief monitor fail event to occur after a changeover.
If the problem persists and the transmitter is not operating near an alarm threshold, replace the faulty exciter
monitor/generator PWB [side A (A7) or side B (A10)].
5.8.2
Vector-LP Radio Beacon Transmitter Technical Instruction Manual
Section 5 Maintenance and Troubleshooting
See Re-calibration
Paragraph
4.3.5.5 (if applicable)
4.3.5.6 (if applicable)
4.3.5.7 (if applicable)
4.3.5.8 (if applicable)
4.3.5.9 (if applicable)
4.3.5.10
4.3.5.5 (if applicable)
4.3.5.6 (if applicable)
4.3.5.7 (if applicable)
4.3.5.8 (if applicable)
4.3.5.9 (if applicable)
4.3.5.10
4.3.5.5 (if applicable)
4.3.5.6 (if applicable)
4.3.5.7 (if applicable)
4.3.5.8 (if applicable)
4.3.5.9 (if applicable)
4.3.5.10
4.3.5.5 (if applicable)
4.3.5.6 (if applicable)
4.3.5.7 (if applicable)
4.3.5.8 (if applicable)
4.3.5.9 (if applicable)
4.3.5.10
3.6.13.4 (ensure the
replaced/repaired module is
on the standby side)
4.3.5.5 (if applicable)
4.3.5.6 (if applicable)
4.3.5.7 (if applicable)
4.3.5.8 (if applicable)
4.3.5.9 (if applicable)
4.3.5.10
4.3.5.5 (if applicable)
4.3.5.6 (if applicable)
4.3.5.7 (if applicable)
4.3.5.8 (if applicable)
4.3.5.9 (if applicable)
4.3.5.10
Page 5-6
Issue 1.8.1
Table 5-1: Troubleshooting and Replacement Tips (Continued)
Front Panel
LED
Output Network
Status
Message
SWR Shutback
Output Network
Cutback Level
1-18
Action
RF power has been inhibited due to high reflected power. Check the RF path between the transmitter’s RF
output and the antenna system. If the instantaneous reflected power exceeds 80 W, the RF output is shut
back. The power level will automatically recover to its previous level. If two consecutive SWR shutbacks
occur within a two second period, the RF output is cut back (see SWR Cutback).
There are 18 steps (or cutback levels) available. The transmitter will continue decreasing or increasing the
RF output power until normal operating power is achieved, at which point the SWR alarm will disappear.
See Troubleshooting/
Replacement Paragraph
N/A
See Re-calibration
Paragraph
N/A
N/A
N/A
If two consecutive SWR shutbacks occur within a two second period, the transmitter enters the next highest
cutback level (1-18).
If the average peak reflected power exceeds 30 W (VR250) or 15 W (VR125), the transmitter enters the next
highest cutback level (1-18). When the reflected power level falls below 30 W (VR250) or 15 W (VR125), the
transmitter will enter the next lowest cutback level (1-18).
During a cutback, the System Diagram’s Output Network alarm lamp blinks and the Diagnostic Display
indicates the cutback level (1-18).
Changeover
Monitor Changeover
Check the accompanying error message to determine the cause of the changeover.
N/A
N/A
Changeover
Monitor Shutdown
Check the accompanying error message to determine the cause of the shutdown.
N/A
N/A
Changeover
Frequency Monitor A or B
The carrier frequency of the associated RF synthesizer PWB is outside the acceptable tolerance (typically
± 0.01%, or ± 0.005% if operating at frequencies ≥ 1606.5 kHz and power levels > 200 W). If only one alarm
occurs, suspect the monitoring circuitry on the associated exciter/monitor/generator PWB. If both A and B
alarms occur, suspect a fault with the RF synthesizer PWB that was active prior to the changeover.
N/A
N/A
External Alarm
Ext Interlock Open
An external interlock circuit is open. Check the integrity of the circuitry connected between terminals TB1-19
and TB1-20 of the remote interface PWB (A3).
N/A
N/A
External Alarm
Charger Alarm
Check for battery charger failure.
N/A
N/A
External Alarm
Low Battery Voltage
The battery voltage is below the low voltage threshold. Check battery.
N/A
N/A
External Alarm
ATU Not Responding
The associated ATU is not responding. Check connection between transmitter and ATU.
N/A
N/A
External Alarm
RCMI Not Responding
The NDB site interface PWB is not responding. Replace the NDB site interface PWB.
N/A
4.3.5.1
4.3.5.3
Vector-LP Radio Beacon Transmitter Technical Instruction Manual
Section 5 Maintenance and Troubleshooting
Page 5-7
Issue 1.8.1
Table 5-1: Troubleshooting and Replacement Tips (Continued)
Front Panel
Status
LED
Message
Replace the RF power probe (A15).
See Troubleshooting/
Replacement Paragraph
N/A
See Re-calibration
Paragraph
4.3.6.3
Action
Replace the optional battery boost assembly (A16).
5.9
4.3.6.11 (if applicable)
Replace the modulator filter PWB (A4) of the applicable RF power module (A12 or A13).
5.6
3.6.13.4 (ensure the
replaced/repaired module is
on the standby side)
Replace the RF filter PWB (A14).
Tables 2-7a and 2-7b
4.3.6.2
Replace the control/display PWB (A1). Verify all jumper settings on the replacement PWB are the same as
the replaced PWB.
N/A
4.3.5.1
4.3.5.2
4.3.5.3 (if applicable)
4.3.5.5 (if applicable)
4.3.5.11
4.3.6.3 (single side) or
4.3.6.10 (dual side)
4.3.6.4
4.3.6.5
4.3.6.8
4.3.6.11 (if applicable)
4.3.6.12
Replace the remote interface PWB (A3). Verify all jumper settings on the replacement PWB are the same as
the replaced PWB.
N/A
4.3.5.4
4.3.5.9 (if applicable)
4.3.5.10 (if applicable)
4.3.5.11 (if applicable)
4.3.6.7
NOTE: PWBs and assemblies that are not referenced in this table do not require special replacement or re-calibration procedures.
Vector-LP Radio Beacon Transmitter Technical Instruction Manual
Section 5 Maintenance and Troubleshooting
Page 5-8
Issue 1.8.1
5.6 REPLACING AN RF POWER
MODULE
The diagnostic display status messages
indicate which RF power module caused
an alarm. In dual side applications (A and
B), the transmitter should change over to
operate on the standby side.
(d) Grip the flanged edge at the top of the
RF power module and carefully lift the
module out of the transmitter cabinet.
NOTE
A defective RF power module can be
removed for repair as described below.
After removing the RF power module (in
dual side applications), the transmitter can
resume operation on its standby side.
NOTE
If an operational RF power module is
available, you can install it in the
transmitter while you repair the defective
module. Refer to paragraph 5.6.2 to install
an RF power module.
CAUTION
RF power modules contain solid-state
devices that can be damaged if subjected
to excessive heat or high voltage
transients. Ensure circuits are not
overdriven or disconnected from their loads
while turned on.
5.6.2 RF Power Module Installation
5.6.1 RF Power Module Removal
See Figure 5-1.
(a) Remove the top cover from the
applicable RF power module by
removing five M4 screws. RF power
module A is nearer the front of the
transmitter. For some transmitters, it
will also be necessary to remove the
support brackets on either side of the
RF power module. To do this, you will
need to remove the two screws from
the other RF power module’s cover.
(b) If they were not removed during
installation, remove four M4 shipping
screws (for each RF power module)
from the bottom of the transmitter.
These screws are no longer required.
(c) Remove the cable connected near the
top of the RF power module by
releasing the spring latches on either
side of the connector, then unplugging
the connector.
Vector-LP Radio Beacon Transmitter Technical Instruction Manual
Section 5 Maintenance and Troubleshooting
(e) Replace a defective FET (see 5.7) or
an entire PWB or assembly (see
Figure MD-10) as necessary.
CAUTION
Ensure proper orientation of an RF power
module before installing it in the
transmitter. The mating connector at the
bottom of the module (see Figure MD-10)
should face the back of the transmitter.
(a) Carefully insert the operational RF
power module in the appropriate slot in
the top of the transmitter. Align the
module with the guides on each side of
the transmitter. Slide the module down
into the transmitter and push firmly into
place.
(b) Replace the top cover for the
applicable RF power module and
secure using five M4 screws. Three of
these screws fasten to the holes in the
flanged edge at the top of the module.
(c) Press Reset in the status menu. Verify
the PA or Power Supply lamp on the
front panel’s system diagram turns off.
In single side applications, the
transmitter should resume operation at
the desired operating level.
Page 5-9
Issue 1.8.1
Battery Boost Assembly A16
Replacement: Remove two M3
TOP COVERS: Remove five M4
screws from top cover for each RF
power module. Reinstall this
hardware after module replacement
SHIPPING SCREWS: Remove two M4
screws from bottom for each RF power
module. NOTE: Shipping screws may have
been removed during installation. They are
not required after module replacement.
Figure 5-1: RF Power Module Securing Hardware
Page 5-10
Issue 1.8.1
Vector-LP Radio Beacon Transmitter Technical Instruction Manual
Section 5 Maintenance and Troubleshooting
5.7 FET CHECKING/
REPLACEMENT
The transmitter contains many FETs. The
FETs most likely to fail are in RF power
modules A and B. For failures caused in
an RF power module, remove the module
(see 5.6.1), check the devices listed below
and, if necessary, replace them.
NOTE
The station spares kit, if purchased,
contains Nautel parts referenced below.
 FETs Q1 and Q2 (Nautel Part # QR54)
of switch mode power supply PWB A2
(see Figures MD-10 and MD-12)
 power MOSFETs Q1 through Q4
(Nautel Part # QAP49) of power
amplifier A3 (see Figures MD-10 and
MD-13)
 power MOSFET Q1 (Nautel Part #
QAP49) of modulator A5 (see Figures
MD-10 and MD-15; same device as in
power amplifier A3)
(a) Unsolder the gate pins of the FET
under test and all parallel devices.
Refer to the assembly’s electrical
schematic in Section 9 to determine
the parallel devices, if applicable.
Refer to the assembly’s detail drawing
in Section 10 to verify pin-out.
NOTE
To turn on a FET under test, apply a dc
voltage between its gate and source
terminals. Some digital multimeters have
enough dc voltage (9 V battery
recommended) on their test leads when
set to the ‘diode’ or ‘resistance’ positions.
If not, obtain another dc voltage source.
(b) Turn off the FET by shorting the gate
and source. Using a digital multimeter,
momentarily place the negative lead
on the gate pin and positive lead on
the source pin for each FET in the
circuit.
Vector-LP Radio Beacon Transmitter Technical Instruction Manual
Section 5 Maintenance and Troubleshooting
(c) Measure the drain-source resistance
with the positive lead on the drain and
the negative lead on the source. The
digital multimeter should indicate an
open circuit.
(d) Measure the drain-source resistance
with the negative lead on the drain
and the positive lead on the source.
The digital multimeter should indicate
a diode pedestal.
(e) If the requirements of steps (c) and (d)
are not met, replace the device as
detailed in steps (i) through (m).
(f) Turn on the device under test by
placing the positive lead on the gate
and the negative lead on the source.
(g) Measure the drain-source resistance
with the positive lead on the drain and
the negative lead on the source. The
digital multimeter reading should
indicate a short circuit.
(h) If the requirement of step (g) is met,
the FET is operational. Turn it off as
detailed in step (b) and proceed to the
next suspect device. If the
requirement of step (g) is not met,
replace the device as detailed in steps
(i) through (m).
(i) Unsolder the drain and source pins of
the defective device.
(j) Remove the hardware securing the
device in place and remove the
defective device. Clean the
associated heat sink surface near the
input PWB.
(k) Apply a thin, even coat of thermal
compound on the bottom of the new
device.
NOTE
FETs are static sensitive. Handle
replacement devices in a manner that
protects the FETs from static.
Page 5-11
Issue 1.8.1
(l) Reinstall the device on its cleaned
heat sink using the hardware removed
in step (j). Replace the Belleville
(cupped) washer with a new washer
(Nautel Part # HZ48, located in
ancillary kit). Apply a thin, even coat
of thermal compound to both sides of
the insulator (if replaced). Refer to the
assembly’s detail drawing in Section
10 to verify the hardware orientation
for the device being replaced.
(m) Using a torque screwdriver, tighten
the mounting hardware to the value
(typically 3 to 4 inch-pounds) specified
on the assembly’s detail drawing in
Section 10, ensuring that the pins of
the device are aligned with their
corresponding solder terminals.
Solder the pins to their associated
terminals.
5.8 EXCITER PANEL PWB
REPLACEMENT
Replace defective printed wiring boards
(PWBs) on the exciter panel and perform
necessary adjustments as follows:
NOTE
The exciter panel is located directly
behind the transmitter’s front panel (see
Figure 2-2). It contains all the PWBs
referenced in the following replacement
procedures.
(a) Press the Control - RF OFF switch.
Switch off the ac power and disconnect
the dc supply, if applicable.
(b) Gain access to the exciter panel by
opening the hinged front panel.
(c) Replace the appropriate assembly or
PWB (see 5.8.1, 5.8.2 or 5.8.3).
Page 5-12
Issue 1.8.1
5.8.1 Exciter Interface PWB and
Interconnecting PWB Replacement
See 5.8 first. The exciter interface PWB
(A2) physically interconnects with the RF
synthesizer PWBs (A5 and A8) and the
interphase PDM driver PWBs (A6 and A9).
Removing the exciter interface PWB
involves removing its interconnecting
PWBs first. Complete the instructions in the
sub-paragraphs (5.8.1.1, 5.8.1.2, and/or
5.8.1.3) to replace the appropriate PWB.
Complete all three paragraphs if replacing
the exciter interface PWB.
5.8.1.1 RF SYNTHESIZER PWB
REMOVAL/REPLACEMENT
(See 5.8 and 5.8.1 first)
(a) Remove six sets of mounting hardware
from the RF synthesizer PWB being
replaced (A5 or A8). If the exciter
interface PWB is to be removed (see
5.8.1.3), remove both RF synthesizer
PWBs, if applicable, and go to 5.8.1.2.
(b) Pull the PWB(s) away from the exciter
interface PWB (A2A2). It may be
helpful to gently pry the connector
loose with a screwdriver.
(c) Install the new RF synthesizer PWB by
reversing the steps above.
(d) Install all shorting jumpers on the
replacement PWB in the same position
as the replaced PWB.
(e) Verify the carrier frequency is set using
BCD switches S1 through S5. Each
switch represents one of the five most
significant digits in the carrier
frequency expressed in kHz:
- S1 is thousands digit (x1000)
- S2 is hundreds digit (x100)
- S3 is tens digit (x10)
- S4 is units digit (x1)
- S5 is the tenths digit (x0.1)
Vector-LP Radio Beacon Transmitter Technical Instruction Manual
Section 5 Maintenance and Troubleshooting
NOTE
When an RF synthesizer PWB configured
to operate from an external RF drive
source is installed in a transmitter, its
frequency synthesizer must be operational
and its BCD switches must be set to
produce the assigned carrier frequency.
The synthesizer's output is used to obtain
the 2(PDM) output which ultimately
determines the host transmitter's pulse
duration modulation frequency (PDM).
(f) Perform RF drive symmetry testing
and adjustment procedures (see
4.3.6.9).
5.8.1.2 INTERPHASE PDM DRIVER PWB
REMOVAL/REPLACEMENT
(See 5.8 and 5.8.1 first)
(a) Remove the protective cover over the
interphase PDM driver PWB being
replaced (A6 or A9). The cover is
secured using seven sets of M3
mounting hardware.
(b) Remove and retain four sets of
mounting hardware for the interphase
PDM driver PWB being replaced (A6 or
A9). If the exciter interface PWB is to
be removed (see 5.8.1.3, remove both
interphase PDM driver PWBs, if
applicable, and go to 5.8.1.3.
(c) Pull the PWB(s) away from the exciter
interface PWB (A2). It may be helpful to
gently pry the connector loose with a
screwdriver.
(d) Install the new interphase PDM driver
PWB by reversing the steps above.
(e) Verify that shorting jumper E1 is
installed in the D position.
(f) For dual side transmitters, perform the
Equalizing Exciter Gain adjustment
procedure (see 4.3.6.10). For a single
side transmitter perform the
Calibrating Transmitter Output Power
adjustment procedure (see 4.3.6.3).
Vector-LP Radio Beacon Transmitter Technical Instruction Manual
Section 5 Maintenance and Troubleshooting
5.8.1.3 EXCITER INTERFACE PWB
REMOVAL/REPLACEMENT
(See 5.8 and 5.8.1 first)
(a) Remove all connections to the top and
bottom of the exciter interface PWB.
(b) Remove and retain 13 sets of mounting
hardware for the exciter interface PWB.
Remove the PWB.
(c) Install the new exciter interface PWB.
Re-install connections to the top and
bottom sides. Use the connector tag
labels or the connector mating
information after Table 8-2 to determine
proper connections.
(d) Set all shorting jumpers as per the
original exciter interface PWB.
(e) Re-install the RF synthesizer PWB(s)
removed in paragraph 5.8.1.1 and the
interphase PDM driver PWB(s)
removed in paragraph 5.8.1.2.
(f) Re-install the exciter/control assembly
in the transmitter by reversing the steps
in paragraph 5.8.
5.8.2 Exciter Monitor/Generator
PWB Replacement
See 5.8 first. Remove the exciter/monitor
generator PWB (A7 and, for dual side
transmitters, A10) as follows.
(a) Remove and retain four sets of
mounting hardware for the exciter
monitor/generator PWB being replaced.
(b) Remove all connections to the exciter
monitor/generator PWB.
(c) Install the new exciter monitor/
generator PWB. Re-install connections.
Use the connector tag labels or the
connector mating information in Section
8 to determine proper connections.
(d) Perform the following calibration
procedures: 4.3.5.5, 4.3.5.6, 4.3.5.7,
4.3.5.8, 4.3.5.9 and 4.3.5.10.
Page 5-13
Issue 1.8.1
5.8.3 Interface PWB Replacement
See 5.8 first. Remove the interface PWB
(A11) as follows.
(a) Press the Control - RF OFF switch.
Switch off the ac power and disconnect
the dc supply, if applicable.
NOTE
The interface PWB is located on the back of
the exciter panel (see Figure 4-1).
(b) Disconnect the dc input wiring from in
terminal block A16TB1
(a) Remove the RF power module(s) from
the transmitter (see 5.6.1) to gain
access to the interface PWB.
(b) Remove all connections (ribbon cables,
D-subs and quick-disconnects) to the
interface PWB.
(c) Using a short Philips screwdriver,
remove and retain ten sets of M3
mounting hardware.
(d) Install the new interface PWB. Reinstall connections. Use the connector
tag labels or the connector mating
information in Section 8 to determine
proper connections.
(e) Reinstall the RF power module(s) in the
transmitter (see 5.6.2).
5.9 BATTERY BOOST ASSEMBLY
REPLACEMENT
Replace a defective battery boost assembly
(A16) as follows:
NOTE
The battery boost PWB (A16A1) is not
provided as a spare part on its own. If a
spare is purchased, it is provided as part of
the entire battery boost assembly (A16).
For ease of maintenance it should be
replaced as an assembly, as described in
this paragraph.
Page 5-14
Issue 1.8.1
(c) Remove the access panel at the back
of the transmitter (see Figure 2-2),
noting it is secured by 12 M3 screws.
(d) Remove all connections (D-sub and
quick-disconnects) to the battery boost
assembly.
(e) Remove and retain four sets of M3
mounting hardware for the battery
boost assembly at the back of the
transmitter (see Figure 2-2) and two
sets of M3 mounting hardware on the
bottom of the transmitter (see Figure
5-1). Remove the battery boost
assembly.
(f) On the replacement assembly, ensure
that shorting jumpers A1E5 and A1E7
through A1E10 are installed in the
same position as the replaced
assembly (see Table 3-8).
(g) Install the new battery boost assembly
using retained hardware for the back
and the bottom. Re-install dc input
wiring and mating connectors. Use the
connector tag labels or the connector
mating information in Section 8 to
determine proper connections.
(h) Reinstall the access panel removed in
step (c).
Vector-LP Radio Beacon Transmitter Technical Instruction Manual
Section 5 Maintenance and Troubleshooting
Vector-LP Radio Beacon Transmitter
TECHNICAL INSTRUCTION MANUAL
Section 6
THEORY OF OPERATION
6.1 INTRODUCTION
The theory of operation for the Vector-LP
Radio Beacon transmitter is presented in
this section. Frequent reference is made to
electrical schematics (e.g., Figure SD-1).
They are located in Section 9 of this
manual. Circuits that are shown on
electrical schematics, but not described in
this section are either beyond the scope of
this manual or are not used for NDB
applications.
6.2 TRANSMITTER OVERVIEW
The transmitter operates at one fixed
frequency in the LF/MF band (190 kHz to
535 kHz) or in the MF band (536 kHz to
1200 kHz and 1600 kHz to 1800 kHz). It
provides up to 125 W (VR125) or 250 W
(VR250) of continuous carrier power. It
automatically transmits specific beacon
identification signals at pre-selected
repetition rates. Special codes may also be
transmitted when commanded from an
external source. Provision is made for local
or remote operation of the transmitter as
well as antenna fine-tuning through
controls on the transmitter's front panel. If
the standby option is purchased, provision
is made for automatic changeover from the
selected main side of the transmitter to the
standby side when the selected main side's
critical parameters are not met. The
transmitter operates from a single phase,
47 Hz to 63 Hz ac power supply (170 V to
270 V ac for VR250; 90 V to 270 V for
VR125), using switch mode power
supplies. A 48 V dc input option (and 24 V
dc for VR125 only) can also be
purchased. Emission is continuous carrier
(NON) beacon keyed identification tone
(A2A) and beacon with voice (A2A/A3A).
Vector-LP Radio Beacon Transmitter Technical Instruction Manual
Section 6 Theory of Operation
Local control/monitoring is done using
front panel membrane switches and a
graphic liquid crystal display. Critical
parameters such as forward power,
reflected power and antenna current can
also be displayed on an analog meter on
the front of the transmitter.
Remote control and monitoring can be
provided over several optional interfaces.
The transmitter also has provision to
interface with a Nautel antenna tuning unit
(ATU), using an isolated RS485 serial link.
This ATU link allows the transmitter to
regulate antenna current, and therefore
maintain constant field strength, by autoadjusting its output power in accordance
with the ATUs antenna current sample.
The transmitter circuitry can be
represented using four functional stages
(see Figure 6-1):




Ac-Dc Power Stage
Exciter Stage
Control/Monitor Stage
RF Power Stage
6.3 AC-DC POWER STAGE
See Figures 6-1 and SD-1. The ac-dc
power stage accepts the ac power source
or optional dc power source and converts it
to the necessary low level dc voltages
required throughout the transmitter. The ac
input voltage is also applied directly to the
RF power stage. The ac-dc power stage’s
primary components are the ac-dc
universal input power supplies (U2 and U3,
if used) and the interface PWB (A11). If the
dc input option is purchased, the
transmitter also includes the dc-dc
universal input power supply (U10) and the
battery boost PWB (A16A1).
Page 6-1 (6-2 Blank)
Issue 1.8.1
+/- VDC (A)
+/- VDC (B)
AC/DC POWER STAGE
AC POWER
AC POWER
DUAL AC/DC
LVPS POWER
SUPPLIES
+/- VDC (A)
SMPS
AC POWER
+/- VDC (B)
RF POWER STAGE
DC POWER
(OPTIONAL BATTERY)
DC POWER
(BATTERY BOOST
OPTION)
B+ (A) (DC POWER)
B+ (B) (DC POWER)
CONTROL/MONITOR
DC/DC LVPS
POWER SUPPLY
+/- VDC
MOD DRIVE
EXCITER AND
CONTROL/MONITOR
STAGES
B+ (A) (DC POWER)
B+ (B) (DC POWER)
MODULATOR
See Figure 6-2
PA
RF DRIVE
INT SERIAL LINK,
CONTROL/MONITOR
+/- VDC (A)
RF FILTER
RF POWER PROBE
RF OUTPUT
RF POWER MODULE
(SINGLE OR DUAL)
+/- VDC (B)
EXTERNAL AUDIO INPUT
MONITOR
PTSN (FOR OPTIONAL MODEM)
RS232/RS422 EXT SERIAL LINK
EXTERNAL CONTROL/MONITOR
B2050017 VB
Dimensions = mm (inches)
Block Diagram – Vector-LP Radio Beacon Transmitter
Issue 1.8.1
Not to Scale
Figure 6-1
Page 6-3 (6-4 Blank)
The ac input is applied through 10 A circuit
breaker U5 and line filter U6. The ac voltage
for the RF power stage (RF power modules
A12 and A13) passes through thermistor RT1
and choke L1. Thermistor RT1 limits the
inrush current to the RF power modules.
Choke L1 improves the power factor on the
ac lines applied to the RF power modules.
The ac input is also applied to ac-dc universal
power supplies U2 and U3 (U3 optional, for
dual side transmitters), which convert the ac
voltage to low level dc voltages. The ac input
voltage is also applied to the interface PWB
(A11) for sampling by the control/monitor
stage.
Dc voltage is applied from an external 24 V or
48 V battery connected to A16TB1. The dc
voltage is fused by F1 and applied to rectifier
U8 and line filter U7 before being distributed
to dc-dc universal power supply U10 and
battery boost PWB A16A1. The battery boost
PWB boosts the dc voltage and applies it to
the RF power stage via rectifier U9.
6.3.1 Interface PWB
See Figures SD-1 and SD-21. The interface
PWB (A11) provides an interface between the
ac-dc power stage and the rest of the
transmitter. It also contains voltage regulators
(U1 and U2) that provide 9 V for the optional
modem (via E5 and E6) and 24 V (limited to
1A) for the ATU (via E3 and E4). It also
provides a dc sample of the ac input voltage
to the control/display PWB as an aid in
determining if the ac input source is at an
acceptable level.
6.3.2 Ac/Dc Universal Input Power
Supplies
See Figure SD-1. The ac/dc universal input
power supplies [U2 (side A) and U3 (side B,
if used)] are 110 W, universal ac input,
multiple dc output power supplies. The
transmitter’s ac input is applied to U2 and
U3 and the regulated 24.5 V, 15.6 V, 5.6 V
and -15.5 V supplies are provided on the
output. The outputs are applied through the
interface PWB to the remaining functional
blocks of the transmitter.
Vector-LP Radio Beacon Transmitter Technical Instruction Manual
Section 6 Theory of Operation
6.3.3 Battery Boost PWB (optional)
See Figures SD-1 and SD-25. The battery
boost PWB is a boost type switching power
supplies that provide a regulated B+ supply
voltage to the transmitter when a 24 V or
48 V battery is acting as the power source.
A 24 V or 48 V supply is applied to the drain
of switching FETs Q4 and Q5 through
inductors L1 and L4. The gate of FETs Q4
and Q5 is driven with square wave pulses
from pulse width modulation switching power
supply controller U4 through push-pull buffer
stage Q6/Q7. U4 is a fixed-frequency, pulse
width modulation control circuit,
incorporating the functions required for the
control of a switching power supply. The
device contains an internal sawtooth
oscillator that is set to a nominal frequency
of 100 kHz by external components R22 and
C14. The output pulse width modulated
control pulses to the gate of FETs Q4 and Q5
are generated by the comparison of this
sawtooth waveform with a feed-back voltage
sample from the output (CR6-cathode) and
the bias voltage created from the in-circuit
resistors selected by the Battery Select 1
(J1-18) and 2 (J1-19) inputs.
The resultant variable pulse width, 100 kHz
square wave at U4-8 (E) is applied to the
gate of FETs Q4 and Q5 (through Q6/Q7)
and turns it on and off with the appropriate
pulses to maintain the desired set dc output
voltage.
The Battery Select 1 and 2 inputs, applied
from the control/monitor stage, change the
level of Battery Boost (B+) voltage based on
the transmitter’s power level. See Table 6-1
for the logic levels.
Table 6-1: Battery Select Logic
B+ Voltage
VR250 VR125
79 V
55 V
136 V
97 V
236 V
167 V
Invalid
Invalid
Battery
Select 1
Battery
Select 2
Page 6-5
Issue 1.8.1
6.4 EXCITER STAGE
See Figures 6-2 and SD-2. In dual
configuration the exciter stage contains two
independent exciter sections (A and B) which
can be supplied in a single or a main/standby
configuration. In a main/standby
configuration, the exciter can be selected
automatically or manually by local or remote
control. Each exciter section consists of an
RF synthesizer PWB, interphase PDM driver
PWB and exciter monitor/generator PWB.
6.4.1 Exciter Interface PWB
See Figures SD-9 and SD-10.The exciter
interface PWB (A2) provides signal
distribution, as well as the interconnection for
all the PWBs and assemblies in the exciter
control/monitor stage. The RF drive failure
detection, changeover/shutdown and monitor
fail logic circuits are located on the exciter
interface PWB.
6.4.1.1 RF Drive Circuitry and Failure
Detection
U3:A, U3:B, U2:A, U2:B, and U2C and their
associated components drive the RF signal to
the RF power blocks for side A. Q9 and its
associated components provide a low when
the RF drive is present and a high when it is
not present.
U3:C, U3:D, U1:A, U1:B, and U1C and their
associated components drive the RF signal to
the power blocks for side B. Q8 and its
associated components provide a low when
the RF drive is present and a high when it is
not present.
6.4.1.2 Changeover/Shutdown
U4, Q1 through Q7, K1 and K2 along with
their associated components allows for the
selection of the main side of the transmitter. If
the NDB A/B input is held low, the main side
will be B, otherwise it will be A. If no
changeover or shutdown is indicated (U4
inputs 3, 4, 6, and 7 are all high level), the
relay for the main side will be energized,
closing the contact and providing voltages to
the main PDM driver and RF synthesizer. The
relay for the standby side will be open. The
RF relay control FET (Q5) selects the main
Page 6-6
Issue 1.8.1
position for RF relay K1. If a changeover is
indicated by a low on either U4:3 or U4:4, the
relay for the main side will open and the relay
for the standby side will close. The RF relay
control FET (Q5), will select the standby
position for RF relay K1. U4:17, U4:21,
U4:22, and U4:15 drive transistors Q1
through Q4 to indicate to the control board
information about the active side of the
transmitter and the changeover/ shutdown
state. If a shutdown is indicated, both K2 and
K1 are opened so that neither PDM driver or
RF synthesizer has power.
6.4.2 RF Synthesizer PWBs
See Figures SD-16 and SD-17. The RF
synthesizer PWBs (A5 and, if installed, A8)
use direct digital synthesis (DDS) to
generate carrier frequencies within the
LF/MF broadcast band (190 kHz to 1800
kHz). The output of a digital synthesizer
integrated circuit with internal high-speed
12-bit digital-to-analog converter is low-pass
filtered to provide a sinusoidal continuous
output. The sine wave is digitized and
divided by a factor of four to obtain the
carrier frequency. The digitized sine wave is
also divided by a factor of N to obtain a
2PDM frequency that ultimately determines
the transmitter's pulse duration modulation
(PDM) frequency. The RF synthesizer PWB
consists of a microprocessor, direct digital
synthesizer, low pass filter, digitizer, IPM
correction, balanced drive, and N divider.
6.4.2.1 MICROPROCESSOR
The microprocessor consists of an 87C51
integrated circuit (U4), which is clocked at
the system oscillator frequency (10.0000
MHz). Firmware resides in U4's internal four
kilobytes of EPROM memory. The
microprocessor generates control
information for the DDS circuit and
generates control information for the N
divider circuit.
Vector-LP Radio Beacon Transmitter Technical Instruction Manual
Section 6 Theory of Operation
6.4.2.1.1 DDS Control Information
The RF carrier frequency is set using five
binary coded decimal (BCD) switches (S1
through S5). When a current-sink-to-ground
is applied at the Reset DDS input, or during
turn on, the microprocessor monitors these
switches and outputs the appropriate 48-bit
value to the DDS Frequency Tuning Word
#1 register. The 48-bit value is written in six
consecutive bytes to the DDS's six internal
registers. The sclk signal is enabled on each
write cycle.
6.4.2.1.2 N Divider Control Information
The 4C/B frequency is divided by an 'N'
factor to provide 2PDM output frequency
between 126 kHz and 134 kHz (when E3 is
set in LOW PDM mode) or between 245 kHz
and 276 kHz (when E3 is set in HIGH PDM
mode) (see formula below). The
microprocessor determines the value of N
and outputs the information at pins 2, 3, 4, 5,
6 and 7. The N divider circuit uses this
information as the N dividing factor.
- for PDM = 130 kHz (HIGH PDM position):
C and PDM are expressed in kHz
2 PDM 
4 C
 2 C  65 
int 

 130 
6.4.2.2 DIRECT DIGITAL SYNTHESIZER
The direct digital synthesizer consists of
integrated circuit U5 (AD98525Q) and
associated components. It generates a
frequency of 4C based on information
provided by microprocessor U4 (refer to
paragraph 6.5.2.1). Integrated circuit U5 is a
CMOS, numerically controlled oscillator with
a 48-bit phase accumulator and 12-bit
digital-to-analog converter (DAC). The
phase accumulator, which is responsible for
generating an output frequency, is presented
with a 48-bit value from the Frequency
Tuning Word 1 registers, whose contents
determine the FTW as follows:
Vector-LP Radio Beacon Transmitter Technical Instruction Manual
Section 6 Theory of Operation
FTW  ( DesiredOutputFrequencyx2 48 )
SYSCLK
The 10 MHz clock input is coupled with U5's
internal programmable reference clock
multiplier. This results in a system clock of
50 MHz (i.e., SYSCLK = 50 MHz).
The 12-bit output from the phase
accumulator is input to the DAC, which
outputs a stepped sine wave at 4c. The 4c
output is then low-pass filtered to remove
high frequency components.
6.4.2.3 LOW PASS FILTER
A low-pass filter consisting of C21, L1, and
C23 removes the high frequency images
present in the DDS output signal. The output
is a sine wave at a frequency of 4C.
6.4.2.4 DIGITIZER
The output of the low-pass filter is connected
to a digitizer circuit consisting of transistor
Q4, inverter U10:B, and associated
components. Inverter U10:B outputs an
approximate square wave at a frequency of
4C, which is applied to a 4 circuit and to
the N divider circuit.
6.4.2.5 IPM CORRECTION
Not applicable to Vector transmitters.
6.4.2.6 WAVEFORM SYMMETRY
RF DRIVE SYMMETRY potentiometer R32
is adjusted for an RF drive output waveform,
which is a symmetrical square wave (50%
duty cycle). The position of SYMMETRY
ADJ shorting jumper E6 determines when
the RF drive symmetry circuit is enabled or
disabled. E6 should be installed in the
ENABLE position (shorting pins 1 and 2)
when used in a Vector transmitter.
Page 6-7
Issue 1.8.1
6.4.2.7 BALANCED DRIVE
The balanced drive buffer is a switching
circuit that ensures the rise and fall times of
its output square wave are minimal. The C
signal is a 15 V peak-to-peak square wave
that is the low level RF drive signal for the
RF power stage of the transmitter.
6.4.2.7.1 Balanced Drive Matching
Different values are possible on the
balanced drive output, depending on the
transmitter’s requirements. The position of
shorting shunt post E5 on 7-position header
XE5 can be changed to choose between
different capacitor and resistor values. E5 is
factory installed in the D position (shorting
pins 7 and 8) for Vector transmitters.
6.4.2.8 N DIVIDER
The N divider circuit is a cascade counter
made up of U6, U7, and inverters U8:A and
U8:F. The 4C/B signal is divided by N to
provide a 2PDM frequency, which is between
126 kHz and 134 kHz (when E3 is set in
LOW PDM mode) or between 245 kHz and
276 kHz (when E3 is set in HIGH PDM
mode). The value of N is supplied by
microprocessor U4 (see 6.5.2.1.2). The
2PDM output, which is nominal 5 V pk-to-pk
pulses, is applied to the transmitter's PDM
generation circuit, and ultimately determines
the PDM frequency.
6.4.2.9 RF DRIVE SOURCE SELECTION
The RF drive (c) source is provided by the
integral numerically controlled oscillator or
an external RF generator. The position of
shorting shunt posts E1, E2 and E4
determine which source is selected. Vector
transmitters use the internal source.
Page 6-8
Issue 1.8.1
6.4.2.9.1 Internal c Source
To use the integral numerically controlled
oscillator’s output as the RF drive source,
set the shorting shunt posts as follows:
 E1 in INT position (pins 2 and 3 shorted)
 E2 in INT position (pins 2 and 3 shorted)
 E4 in INT position (pins 2 and 3 shorted)
6.4.3 Interphase PDM Driver PWBs
See Figure SD-18. The interphase PDM
driver PWBs (A6 and, if installed, A9)
produce a pulse train of variable width as
their PDM output. The PDM repetition rate
(PDM) is a fixed frequency normally between
130 kHz and 133 kHz. The frequency is
determined by the 2PDM input, which is
produced by the active exciter monitor/
generator PWB. The PDM drive signal, which
determines the transmitter output power level,
is applied to the modulator assemblies in RF
power modules A or B (see Figure SD-22).
6.4.3.1 CARRIER LEVEL CONTROL
The carrier level control circuit consists of U6,
U7, U2A, U2D, U3B, U3D, U13A and their
associated components. U6 and U7 are
analog multipliers connected as a variable
gain, wide-band, linear amplifier. The
modulation reference (U6-X1) is multiplied by
a factor determined by the carrier ref (U6-Y1)
and B+ sample (U7-X1) signals to determine
the gain and, in turn, the status of U7-Y1.
When there is no Unbalanced Audio input at
P1-15, U2D's output (TP3), which is the
modulation reference, will be a nominal 1.4 V.
This voltage is applied as U6's X1 input.
The Carrier Ref input at P1-2 is a dc voltage
directly proportional to the square of the
expected RF carrier level. This voltage is
applied to U6-Y1.
Vector-LP Radio Beacon Transmitter Technical Instruction Manual
Section 6 Theory of Operation
The B+ Sample input at P1-3 is a dc voltage
directly proportional to the B+ voltage being
applied to the transmitter's RF power stage.
When the B+ voltage is 236 V (for VR250) or
167 V (for VR125), the B+ Sample input and,
in turn, the output of buffer U3D (TP4), are a
nominal 4.0 V (for VR250) or 2.8 V (for
VR125). This voltage is applied to U7-X1.
The gain of U6 and U7 and, in turn, the
voltage at U7-Y1 is determined by the
following formula:
Unbalanced Audio * Carrier Ref / B+ Ref
When the Carrier Ref input (U6-Y1) is 4.7 V
and the B+ Sample input (U7-X1) is 4.0 V (for
VR250) or 2.8 V (for VR125), the gain of U6
is 1.18 (for VR250) or 1.68 (for VR125) for the
dc reference applied to U6-X1. The U7-Y1
current is 1.18 (for VR250) or 1.68 (for
VR125) times the U6-X1 current. U3B is
connected as a less than unity amplifier and
its gain is summed with U7's gain. The end
result is the total voltage gain of the circuit,
relative to the voltage at the output of U2D
(1.4 V), is a nominal 1.11 (for VR250) or 1.58
(for VR125) when GAIN TRIM potentiometer
R31 is set to the centre of its range. The
output of U3B (TP8) is 1.55 (for VR250; 1.4 V
x 1.11) or 2.21 (for VR125; 1.4 V x 1.58).
The gain of U7 will change in direct proportion
to changes in the Carrier Ref voltage. If the
Carrier Ref voltage is set to 0 V, or it is
clamped to ground because Q1 is turned on,
U7's gain is minimum (zero). In turn, the dc
reference's multiplication factor is minimum
(zero). The transmitter's RF output is turned
off.
The gain of U7 will change in inverse
proportion to changes in the B+ Sample input.
This feature eliminates the need for
sophisticated filtering of the transmitter's B+
power supply and maintains the transmitter's
RF output at the original level for B+ voltage
variations of ±10%.
Vector-LP Radio Beacon Transmitter Technical Instruction Manual
Section 6 Theory of Operation
GAIN TRIM potentiometer R31 provides a
nominal 10% adjustment in the carrier level
ref output of U3B. In dual exciter applications,
it is adjusted to compensate for tolerance
differences in the PDM generators of exciters
A and B. When it is set properly, the
transmitter's RF output is the same when
either exciter is selected, provided the same
Carrier Ref is being applied.
6.4.3.2 PDM DIVIDER
The PDM divider circuit divides the 2PDM
input frequency (P1-7) by two. The resulting
PDM output (P1-10) is a 0 V to 15 V square
wave. Unless otherwise established during
the transmitter's manufacture, it should be a
fixed frequency, nominally 130 kHz.
6.4.3.3 LINEAR INTEGRATOR
The linear integrator circuit converts the PDM
square wave input to a triangular waveform.
The triangular waveform has negative and
positive voltage excursions of equal
amplitude and duration. The long R/C time
constant formed by C26/R10 ensures a linear
rise and fall time. Since the R/C time constant
is fixed, the waveform amplitude varies over
the frequency range of PDM. The charge/
discharge time and waveform amplitude are
maximum at the lowest frequency.
6.4.3.4 INTEGRATOR PEAK DETECTOR
The integrator peak detector circuit detects
the positive going parts of the linear
integrator's triangular waveform. A portion of
the resulting positive dc voltage (nominally
1.8 V) at U2C’s output, is applied to the
inverting input of differential amplifier U3A.
The carrier level ref output of U3A is offset by
this voltage, which is proportional to the
triangular waveform voltage peaks. This
offset effectively sets the carrier level ref’s
zero power reference to the triangular
waveform's peak voltage. This ensures no RF
output is produced when the Carrier Ref input
(P1-2) is 0 V.
Page 6-9 (6-10 Blank)
Issue 1.8.1
FREQUENCY
SYNTHESIZER
PWB
+15VDC (A)
INT SERIAL LINK, CONTROL/MONITOR
CONTROL/MONITOR
RF DRIVE(A), PDM(A)
RF DRIVE (A), 2FPDM (A)
RF DRIVE(B), PDM(B)
RELAY CONTROL
INTERPHASE
PWM DRIVER
PWB
PTSN
(OPTIONAL)
NDB SITE
INTERFACE
INT SERIAL LINK
(OPTIONAL)
INTERPHASE
PWM DRIVER
PWB
EXT CONTROL MONITOR
USER INTERFACE
FROM RF POWER STAGE
+ VDC (B)
PDM (A)
+15VDC (B)
CONTROL/MONITOR
RF DRIVE (B), 2FPDM (B)
9 VDC
2FPDM(B), +15VDC(B), CARRIER REF(B), KEYED TONE/EXT AUDIO(B)
CONTROL/MONITOR
EXCITER
INTERFACE
PWB
PDM (B)
and
ISOLATED INT SERIAL LINK
REMOTE
INTERFACE
PWB
CONTROL/MONITOR, INT SERIAL LINK
KEYED TONE/EXT AUDIO (A)
EXT AUDIO
FWD/REFLD PWR, RF VOLT MONITOR, RF CURRENT MONITOR
CONTROL/MONITOR, INT SERIAL LINK
TO/FROM AC/DC POWER STAGE
CONTROL/MONITOR
EXT AUDIO INPUT
EXT SERIAL LINK (RS232, RS422)
ANTENNA TUNING UNIT
+ VDC (A)
FREQUENCY
SYNTHESIZER
PWB
MODEM
9 VDC
2FPDM(A), +15VDC(A), CARRIER REF(A), KEYED TONE/EXT AUDIO(A)
CONTROL/MONITOR
KEYED TONE/EXT AUDIO (B)
EXCITER/
MONITOR
GENERATOR
PWB A
CONTROL/MONITOR
EXCITER/
MONITOR
GENERATOR
PWB B
CONTROL/MONITOR
INTERFACE
PWB
+/-VDC
+/-VDC
+/-VDC
CONTROL/MONITOR, INT SERIAL LINK
CONTROL/MONITOR, EXT SERIAL LINK
KEYED TONE/EXT AUDIO (A) & (B)
CARRIER REF (A) & (B)
CONTROL/MONITOR, INT SERIAL LINK
LOCAL CONTROL
CONTROL/
DISPLAY
PWB
+/-VDC
SPEAKER
TO/FROM AC/DC POWER STAGE
B2050018 VB
+/- VDC
CONTROL/MONITOR
ANALOG/
DIGITAL
DISPLAY
Dimensions = mm (inches)
Block Diagram – Exciter/Control/Monitor Stage
Issue 1.8.1
Not to Scale
Figure 6-2
Page 6-11 (6-12 Blank)
TO RF POWER STAGE
Carrier Reference
Level
Ramp
PDM 1
Figure 6-3 Timing Diagram for PDM Differential Amplifier
6.4.3.5 INTERPHASE PDM
GENERATOR
The interphase PDM generator consists of
two identical variable pulse duration
generators (PDM1 and PDM2; PDM1
circuitry is described). The PDM1
generator produces a 0 V to 15 V
rectangular waveform at the PDM
repetition rate. The waveform on/off ratio
(duty cycle) is directly proportional to the
carrier level. The transmitter uses three B+
voltage levels to maximize performance.
As the RF output power is increased from
0 W (B+ voltage is 55 V for VR125; 79 V
for VR250), the PDM duty cycle increases
proportionally. When the RF output is
increased so that the PDM duty cycle
reaches 45 %, the control/ display PWB
initiates a B+ voltage increase (to 97 V for
VR125; 136 V for VR250) and a PDM duty
cycle decrease (to 27%). When the RF
output is increased to a level where the
PDM duty cycle again reaches 45%, the
control/ display PWB initiates a B+ voltage
increase (to 167 V for VR125; 236 V for
VR250) and a PDM duty cycle decrease
(to 32%).
Vector-LP Radio Beacon Transmitter Technical Instruction Manual
Section 6 Theory of Operation
6.4.3.5.1 PDM1 Generator
The PDM1 generator consists of U10B,
transistors Q4, Q5, and associated
components. The compensated carrier
level ref input from the integrator peak
detector circuit is applied to differential
amplifier U10B's non-inverting input,
where it is compared to the triangular
waveform from the linear integrator circuit.
When the compensated carrier level ref is
more positive than the triangular
waveform, U10B's output is open collector.
+15 V is applied through R60 and R62 to
the balanced drive formed by Q4/Q5. Q4
turns on and applies +15 V to K1-3 as the
PDM1 output (Q5 is off). For the rest of the
triangular waveform's period, the
compensated carrier level ref is less
positive than the triangular waveform.
U10B's output is a current-sink-to -15 V
and Q4 turns off. Q5 turns on and clamps
the PDM1 output to ground. The minimum
'on time' (zero RF power) occurs at the
negative peaks of the triangular waveform.
See Figure 6-3 for a timing diagram.
Page 6-13
Issue 1.8.1
6.4.3.6 PDM FAULT DETECTOR
The PDM fault detector circuit contains a
voltage controlled switch that controls the
'set/'reset' status of the shutback latch
circuit and, in turn, controls the on/off
status of relay K1.
The PDM1 fault detector circuit consists of
U12A and its associated components.
R67/C58 form an integrator with a long
time constant, relative to the PDM
frequency. C58's charge voltage is applied
to U12A's inverting input and compared to
the 5 V reference voltage applied to its
non-inverting input from voltage divider
R70/R71/R72. U12A's output is an open
collector and has no influence when C58's
charge voltage is less positive than the
reference voltage. U12A's output will
switch to a current-sink-to-ground when
C58's charge voltage goes more positive
than the reference voltage.
During normal operation, C58 will charge
through R67 towards 15 V when the
PDM1 output is 15 V ('on time') and CR3
is reversed biased. It will instantly
discharge to 0 V, through CR3, when the
PDM1 output switches to 0 V ('off time').
The repetition rate of the PDM1 on/off
periods ensures the charge on C58 will not
exceed 5 V, provided each PDM1 cycle
contains an 'off time'. If a PDM failure
occurs such that it produces a continuous
'on time', C58 will charge more positively
than 5 V. U12A's output will switch to a
current-sink-to-ground and toggle the
shutback latch circuit to its 'set' state.
6.4.3.7 SHUTBACK LATCH
The shutback latch circuit inhibits the 'on
time' of the PDM output and, in turn, the
RF output of the transmitter whenever a
transmitter originated Inhibit PDM (P1-16)
command is applied. This circuit provides
additional protection to the transmitter's
RF power stages when faults are detected
or actions are initiated that may cause RF
stress current thresholds to be exceeded.
Its function is to de-energize K1 and
Page 6-14
Issue 1.8.1
disconnect the PDM 1 output from the
transmitter circuits when the PDM fault
detector output is a current-sink-to-ground
(logic low). It also inhibits the PDM
generator when relay K1 is de-energized
or when a logic true inhibit PDM command
is applied to P1-16.
U9A/U9B form a bistable flip/flop. The flipflop's output (U9-3) will be 15 V (logic
high) in its 'reset' state, and a current-sinkto-ground (logic low) in its 'set' state.
Normally the inhibit PDM input and the
output of the PDM fault detector circuit,
which are the flip-flop's controlling inputs,
are open collector. 5 V (logic high) is
applied to U9-1 and U9-5 through their
pull-up resistors and the flip-flop is latched
in its 'reset' state. Relay K1 is held
energized and the PDM output is applied
to the transmitter circuits.
If a PDM fault is sensed, the PDM fault
detector circuit applies a current-sink-toground (logic low) to U9-5 and causes the
flip-flop to switch to and latch in its 'set'
state. Relay K1 de-energizes and
disconnects the PDM output from the
transmitter circuits. The PDM latch output
(J1-11) is activated (5 V). This condition is
maintained until the flip-flop is reset by the
removal of the logic low from U9-5 (no
PDM fault) and the application of logic low
to U9-1 (a logic true current-sink-to-ground
reset PDM command is applied to J1-1).
6.4.3.8 PDM INHIBIT
The PDM inhibit circuit consists of U9D,
transistor Q2, and their associated circuits.
Its function is to instantly clamp the output
of the PDM generator to ground (zero
carrier level) when a logic true (currentsink-to-ground) inhibit PDM input is
applied to P1-16, or when the PDM fault
detector circuit senses a PDM fault and
the shutback latch circuit’s flip-flop is
latched in its ‘set’ state. When neither of
these conditions are true, the PDM inhibit
circuit has no influence.
Vector-LP Radio Beacon Transmitter Technical Instruction Manual
Section 6 Theory of Operation
6.4.4 Exciter Monitor/Generator
PWBs
See Figures SD-19 and SD-20. The exciter/
monitor/generator PWBs [A7 (exciter A) and
A10 (exciter B, if used)] perform the
following functions:
6.4.4.2 PRESS-TO-TALK
The input to U11:11 indicates to the exciter
monitor/generator PWB which mode of
operation it should be operating in. It will
react by adjusting the U16:1 that controls the
MUX U1:X.

Use the press-to-talk input to select
between beacon and voice modes.

Monitor and control modulation depth

Selects the parameter, RF current or RF
voltage, to be applied to the remote
interface PWB for external monitoring.
6.4.4.3 MODULATION DEPTH
FUNCTIONS
Modulation depth of the beacon, voice and
beacon, and voice are controlled using the
digital pots 1, 2 and 3 of U10 respectively.
The levels of the pots in U10 are adjusted by
the microcontroller U11 over the SPI bus.

Generate the appropriate tone frequency

Monitors tone and keyer operation

Monitors the forward power and controls
changeover and inhibit functions.
6.4.4.1 MICROCONTROLLER
Microcontroller U11 uses the SPI bus to
communicate with shift register U16 which
shifts out digital data used to control various
signals including changeover, shutdown, RF
off, and alarm. Watchdog timer IC U2 and
associated components generate a Keying/
Misc Alarm (J1-4) if the microcontroller falls
into an unknown state.
The clock for the microcontroller and the tone
oscillator is generated using Y1, U4:E and the
associated components.
The microcontroller (U11) continually
monitors its internal Flash and EEPROM
memory using checksums. If for some
reason, the checksum returns as invalid, the
microcontroller will detect the error and raise
a flag, resulting in the output power being
inhibit. U2 acts as a watchdog timer, if the
watchdog times out, the monitor fault will also
be raised, causing the output power to be
inhibited (via the control/display PWB). This
will guarantee that the U11 is always
operating as intended.
Vector-LP Radio Beacon Transmitter Technical Instruction Manual
Section 6 Theory of Operation
A selection between RF Monitor Voltage and
RF Monitor Current samples is made using
the MUX U14:C. CR9, U9:B and their
associated components RF detect the
selected RF monitor signal. The RF monitor
signal is then used to calculate the
modulation depth. The microcontroller (U11)
compares the average and peak levels of
the RF signal. The average value is detected
using U9:A and its associated components.
The peak level is detected using U9:C, CR7,
and their associated components.
6.4.4.4 TONE GENERATION
The keyer tone is generated using the DDS
IC U5. The microcontroller U11 sends an
SPI signal to U5 indicating the frequency of
the tone to generate. The tone is then
amplified using U8:C and its associated
components. The microcontroller (U11) then
controls keying by toggling the MUX U1:Z.
Correct operation of the keyer is monitored
by U8:A, U8:B, CR11, and CR12 and there
associated components. The analog
samples at U11:27 and U11:28 are
compared to the low threshold levels (set up
using the GUI) to determine if the keying
gate is opened or closed. If at any time the
keying gate is opened when it should be
closed or closed when it should be opened,
and alarm is flagged and output power is
inhibited (via the control/display PWB).
Page 6-15
Issue 1.8.1
6.4.4.5 FORWARD POWER MONITOR
A dc voltage, proportional to the transmitter’s
forward power, is applied to the Forward
Power Sample input (P1-1). This voltage is
filtered by operational amplifier U9 and
associated components and applied to
U11’s internal ADC. If the forward power
sample is above or below user-defined limits
for a user-defined time period, the
Changeover output (J4-15) becomes active
(logic low). If a changeover had already
occurred prior to this occurrence, a
Shutdown output (J4-16) will also be
generated. All user-defined parameters are
established using the front panel GUI and
applied to the exciter monitor/generator
PWB via the internal serial bus.
6.4.4.6 RF MONITOR PARAMETER
SELECTION
Multiplexer U14 and associated components
allows the user to select the parameter (RF
voltage or RF current) to be applied to the
RF MONITOR output at the rear of the
exciter.
6.5 CONTROL/MONITOR STAGE
See Figures 6-2 and SD-3. The control/
monitor stage contains the control/display
PWB, which contains the transmitter’s
embedded microcontroller. The remote
interface PWB, graphic user interface (GUI),
analog/digital displays and audio speaker are
also contained here. The NDB site interface
PWB (A4) and a modem (U11) are optional
items that can also be part of the control/
monitor stage.
6.5.1 Control/Display PWB
See Figures SD-5 through SD-8. The control/
display PWB (A1) performs the following
functions:


Monitors critical parameters and turns off
(shuts back) or reduces (cuts back) the
Carrier Ref voltage when defined fault
threshold limits are exceeded.

Identifies out-of-tolerance parameters
when the carrier level is shut back or cut
back by providing a visual indication for
local monitoring or an electrical status
output for remote monitoring.

Selects the main exciter (A or B) that will
provide the RF drive and PDM drive to
the RF power stage’s RF amplifiers, if no
changeover has occurred.

Determines on/off status of RF power
stage.

Interfaces with the diagnostic display.
6.5.1.1 CARRIER REFERENCE VOLTAGE
The Carrier Ref (A) (J7-38) and (B) (J7-40)
outputs are applied to the interphase PDM
driver PWB of each exciter to generate the
PDM drive pulse that ultimately controls the
RF output of the transmitter. DACs U31 and
U32, in conjunction with microcontroller U22,
establish a dc reference voltage for the
Carrier Ref outputs. The voltage is buffered
through operational amplifiers U27B, U28B
and associated components.
6.5.1.2 ALARM THRESHOLD CIRCUITS
Certain parameters that are monitored by the
control/display PWB can initiate an alarm
indication and appropriate transmitter control
if an out of tolerance condition occurs.
Produces dc voltage Carrier Ref (A) and
(B) outputs that ultimately determine the
forward power (RF carrier) level of the RF
output. These voltages are the reference
voltages for the variable pulse duration
modulation (PDM) generator in each
exciter (A and B).
Page 6-16
Issue 1.8.1
Vector-LP Radio Beacon Transmitter Technical Instruction Manual
Section 6 Theory of Operation
6.5.1.2.1 Ac Supply Voltage
The Ac Power input (J4-21) is an
unregulated dc voltage that is proportional to
the ac source. The input is filtered and
compared to the low ac ref fault threshold on
operational amplifier U4C. If the Ac Power
voltage is below this threshold, the ac low
signals switch to 0 V. The Carrier Ref (A)
and (B) outputs clamp to 0 V and the
Shutback (A) (J7 1) and (B) (J7-2) outputs
switch to 0 V and inhibit the exciter’s
modulator drive. The transmitter's RF output
turns off (shuts back) and remains off until
the ac power returns to an acceptable
voltage. The system diagram’s AC Mains
lamp displays a fault condition. An Ac
Sample signal is applied to ADC U9 for
application to the diagnostic display.
6.5.1.2.2 Reflected Power Monitor
The Refld Pwr Sample input (J1-5) is a dc
voltage that is proportional to the reflected
power at the transmitter's output. The input is
filtered and buffered by operational amplifier
U1B and associated components, and then
applied to the remote interface PWB via the
external serial interface (microcontroller U22).
The signal is also compared to a predetermined refld pwr shtbk ref fault threshold
on operational amplifier U4A. When the
reflected power indicates a VSWR of greater
than 2:1, relative to rated forward power, the
refld pwr sample input exceeds the fault
threshold and the refld_pwr_shutback signal
switches to 5 V. The Carrier Ref (A) and (B)
outputs clamp to 0 V and the Shutback (A)
(J7-1) and (B) (J7-2) outputs switch to 0 V
and inhibit the exciter’s modulator drive. A
clock pulse is also applied to an alarm count/
cutback circuit in complex programmable
logic device (CPLD) U18. The RF output is
instantly shut back (turn off). The system
diagram’s Output Network lamp displays a
fault condition. A Refld Pwr Sample signal is
applied to ADC U9 for application to the front
panel’s diagnostic display.
Vector-LP Radio Beacon Transmitter Technical Instruction Manual
Section 6 Theory of Operation
Turning off the RF output reduces the refld
pwr sample input to 0 V. The Carrier Ref (A)
and (B) outputs are restored to their
pre-shutback levels, the Shutback A and B
outputs return to open collector, and the RF
output is restored at an exponential rate. If
the fault threshold is exceeded before the
pre-set power level is reached, the shutback
cycle is repeated. If two or more shutback
cycle clock pulses are applied within any two
second period, the Carrier Ref outputs are cut
back (reduced) until the carrier level is cut
back to a level that results in an acceptable
reflected power. When the transmitter enters
cutback mode, the system diagram’s Output
Network lamp flashes on and off. When the
refld pwr sample input returns to or is
maintained at a level which is less than the
fault threshold, the Shutback outputs returns
to open collector but the system diagram’s
Output Network lamp continues to display a
fault as a maintenance aid. The lamp remains
on until reset by the diagnostic display menu.
6.5.1.3 SAMPLE MONITORING CIRCUITS
In addition to the parameters described in
paragraph 6.5.6.2, various parameters are
applied to the control/display PWB for local
(via the front panel’s diagnostic display) and
external (via the remote interface PWB)
monitoring. In some cases, these parameters
have associated alarm detection circuitry, but
it is not resident on the control/display PWB.
6.5.1.3.1 PDM Drive
The PDM (A) (J4-9) and PDM (B) (J4-7)
inputs are pulses which represent the PDM
signal applied to RF power modules A and B.
The inputs are filtered through operational
amplifiers U7B and U11B and associated
components. PDM (A) Sample and PDM (B)
Sample signals are applied to ADC U9 for
application to the front panel’s diagnostic
display.
Page 6-17
Issue 1.8.1
6.5.1.3.2 Forward Power
The Fwd Pwr Sample input (J1-3) is a dc
voltage which represents the forward power at
the transmitter’s RF output. The input is filtered
through operational amplifier U2D and
associated components. A fwd_pwr_sample
signal is applied to ADC U9 for application to
the front panel’s diagnostic display. The
fwd_pwr_sample input is also applied to the
remote interface PWB via the external serial
interface (microcontroller U22). The Fwd Pwr
Sample input is also low-pass filtered through
operational amplifier U2C and associated
components. A speaker_ref_level signal is
applied through DAC U32. The analog output
(pin 12) is filtered through operational amplifier
U28D and associated components and applied
to the Audio (Speaker) output (J11-1), then
applied to speaker LS1 for audio monitoring.
6.5.1.3.3 Battery Voltage
The Battery Voltage input (J1-27) is a dc
voltage which represents the voltage applied
from the transmitter’s optional battery supply.
The input is filtered through operational
amplifier U3B and associated components.
The bat_volt_sample signal is applied to ADC
U12 for application to the front panel’s
diagnostic display.
6.5.1.3.4 Battery Current
The Battery Current input (J1-25) is a dc
voltage which represents the current drawn
by the transmitter’s optional battery supply.
The input is filtered through operational
amplifier U3A and associated components.
The bat_cur_sample signal is applied to ADC
U12 for application to the front panel’s
diagnostic display.
Page 6-18
Issue 1.8.1
6.5.1.3.5 Low Voltage Power Supplies
Attenuated, buffered samples of all low
voltage dc power supplies (+24 V,  15 V and
+ 5 V) are applied to ADCs U9 and U12 for
application to the front panel’s diagnostic
display.
6.5.1.3.6 Cabinet Temperature
Low voltage temperature sensor U5 provides
a dc voltage (between 0 and 5 V) which
represents the ambient cabinet temperature.
This voltage is buffered by operational
amplifier U8A and associated components
and applied to ADC U12 for application to the
front panel’s diagnostic display.
6.5.1.4 MICROCONTROLLER
Microcontroller IC U22 interfaces between the
diagnostic display and its associated softkeys. It controls the level of the Carrier Ref
signals (see paragraph 6.5.1.1), which
ultimately determines the forward power level
of the transmitter. It also acts as an internal
and external serial interface for transmitter
alarm and status signals.
6.5.1.5 CPLD
Complex programmable logic device (CPLD)
U18 continuously reads digital inputs for all
transmitter alarm events. It is programmed to
perform root cause detection of a fault as well
as high-speed fault protection. Depending on
the nature of the fault, the CPLD generates
transmitter Shutback outputs (J7-1 and J7-2)
or various digital control/inhibit signals via a
parallel data bus.
Vector-LP Radio Beacon Transmitter Technical Instruction Manual
Section 6 Theory of Operation
6.5.2 Remote Interface PWB
See Figures SD-11 through SD-13. The
remote interface PWB (A2A2) performs the
following functions:

Buffers all external transmitter remote
control inputs and provides the
connection for the system’s external
interlock circuit

Provides RF filtering for RF power probe
samples (forward power, reflected
power, and RF current)

Provides an isolated ATU serial interface

Converts external serial levels from TTL
to RS232 and RS422

RF monitor conditioning

Press-to-talk input

Audio conditioning

Audio monitoring

Provides distribution and interface point
between the ac/dc distribution stages and
exciter control/monitor stage
6.5.2.1 Remote Inputs/Outputs
U7:A and associated components form the
circuitry to allow control of RF on/off when in
remote mode. U21:C and associated
components form the circuitry to control the
external interlock. If the link between TB1-19
and TB2-20 is open, U21:C will output a high
(external interlock), causing the transmitter to
inhibit RF power.
6.5.2.2 Isolated ATU Serial Interface
U9, U11, U13, U14, U15, and U17 provide
isolation to the internal serial bus (RS485) to
allow for ATU control. The ATU provides 5 V
to opto-isolators U13 and U14, which provide
isolation between differential transceivers
U11 and U17. The ATU controls the DE/RE
signal (J3-5), allowing the ATU to specify
direction of transmission through the isolated
link preventing collisions over the serial bus.
Vector-LP Radio Beacon Transmitter Technical Instruction Manual
Section 6 Theory of Operation
6.5.2.3 RS232 and RS422 Interface
U19, U18, U12, convert the TTL levels
produced by the control/display PWB to
RS232 and RS422 levels for external
control/monitoring of the transmitter.
6.5.2.4 RF Monitor Conditioning
U16 and associated components allow the
user to specify the RF monitor level from the
GUI. U23 and R163 form an adjustable gain
amplifier for the RF monitor signal that is able
to drive a 50  load.
6.5.2.5 Press-To-Talk Input
Link E4 allows for the selection of phantom
feed or normal press-to-talk operation. When
in position A, normal operation is selected
and grounding TB1-12 indicates press-to-talk
mode. When in position B, phantom feed
mode is selected and applying -15 V to the
shield (TB1-15) will indicate press-to-talk
mode.
6.5.2.6 Audio Conditioning
The audio conditioning circuitry on the remote
interface board consists of 3 parts, balanced
conditioning, audio filtering, and the audio
limiting.
6.5.2.6.1 Balanced Conditioning
U3:A and its associated components convert
the balance audio signal between TB1-14
and TB1-16 to an unbalanced signal. The
level of the audio signal is adjusted using
AUDIO LEVEL potentiometer R37.
6.5.2.6.2 Audio Filtering
U8:B, U8:C, U8:D and their associated
components forms the audio input filter. This
filter, along with the poles located on the
Exciter Interface PWB and the Modulator
Filter, is a band pass filter passing signals
from 300 to 3000 Hz.
Page 6-19
Issue 1.8.1
6.5.2.6.3 Audio Limiting
U10:B, U10:C, U10:D, Q7, and their
associated components form the audio
limiter. The limiter will raise an alarm at
U10:13 when the audio signal goes above a
pre-defined threshold. It will then compress
the audio signal by adjusting the resistance
across the JFET Q7. This is accomplished by
adjusting the JFET’s base voltage at the
output of the comparators U10:B and U10:C.
6.5.2.7 Audio Monitor
U1:B and T1 condition the forward power
sample signal to produce an audio monitor
signal that can be used to view the modulated
signal being output by the transmitter.
6.5.3 Front Panel Metering
The front panel of the exciter control/monitor
assembly provides local controls and a
graphic user interface to display operating
status, root cause fault detection, RF power,
and critical dc voltage/current levels. The
controller/display PWB is mounted on the
rear of the panel. The front panel is divided
into three sections – system diagram,
diagnostic display and control.
6.5.3.1 SYSTEM DIAGRAM
The system diagram is a functional flow
diagram of the transmitter. Each section of
the flow diagram contains an alarm lamp,
which turns on when a fault occurs in that
section. If a lamp is flashing, the transmitter
has entered a cutback (reduced power) mode
of operation. The lamp that is flashing is likely
the cause for the cutback.
6.5.3.3 CONTROL SWITCHES
The control switches determine the
transmitter’s control location (local or remote)
and its RF status (on or off).
6.5.3.3.1 Local/Remote Selection
When Local is selected, all remote control
functions, except RF off, are disabled and
have no influence on the transmitter's
operating status or pre-set RF power levels.
When Remote is selected, all front panel
control functions, except RF Off, are disabled
and have no influence on the transmitter's
operating status or pre-set RF power levels.
6.5.3.3.2 RF On/RF Off Selection
When RF On is selected (enabled in Local
mode only), the transmitter’s RF power stage
is enabled to provide an RF output. When RF
Off is selected (enabled in Local and
Remote modes), the transmitter’s RF power
stage is inhibited.
6.5.3.3.3 Power Increase/Decrease
When Power Increase is pressed (enabled in
Local mode only), the transmitter’s RF output
power is increased. When Power Decrease
is pressed (enabled in Local mode only), the
transmitter’s RF output power is decreased.
Additionally, if both the Power Increase and
Power Decrease switches are depressed
simultaneously, the transmitter’s RF output
power will be reduced to 0 W.
6.5.3.2 DIAGNOSTIC DISPLAY
The diagnostic display is a graphic user
interface (GUI) screen that is navigated using
five associated soft-keys. The majority of the
transmitter’s local control (exciter selection,
power level, etc.) and monitoring (critical
parameter levels, alarm events, etc.) may be
performed from menus on this display. An
analog meter is provided, which can display
forward power, reflected power, modulation
percentage or antenna current.
Page 6-20
Issue 1.8.1
Vector-LP Radio Beacon Transmitter Technical Instruction Manual
Section 6 Theory of Operation
6.5.4 NDB Site Interface PWB
(Optional)
See Figures SD-14 and 15. The NDB site
interface PWB (A4), if purchased, provides:

16 optically isolated monitor inputs.

16 form C contact relay closure control
points.
6.5.4.1 Site Monitor Points
RFI filtering is provided on all control input
lines to ensure transmitter operation is not
interrupted due to RF pick-up on control lines.
Opto-couplers buffer/isolate the external
circuits and prevent unwanted transients
from affecting transmitter operation. All
isolated inputs are driven by isolated dc to
dc converter U1 to prevent unwanted
transients from affecting the transmitter’s dc
supplies. The monitor inputs are shifted in
through shift registers U6 and U9. These
values are then relayed to the control/display
PWB over the internal serial bus using
RS485 transceiver U12.
Vector-LP Radio Beacon Transmitter Technical Instruction Manual
Section 6 Theory of Operation
6.5.4.2 Site Control Points
Shift registers U17 and U19, controlled by
microcontroller U13 over the SPI bus will
control relays K1 to K16. Control point logic
levels are determined by the control/display
PWB and are communicated to the NDB site
interface PWB over the internal serial bus.
6.5.5 Modem (Optional)
See Figure SD-3. An optional modem (U11)
can be provided to interface the transmitter’s
RS232 Ext Serial Link to a PTSN. The link
provides remote monitoring and status for the
transmitter.
Page 6-21
Issue 1.8.1
6.6 RF POWER STAGE
See Figures 6-5 and SD-4. The RF power
stage produces the transmitter’s final RF
output. It contains the RF power modules
(A12 and A13, if used), the RF filter PWB
(A14) and the RF power probe (A15).
6.6.1 RF Power Module(s)
See Figure SD-22. Each RF power module
(A12 and, if purchased, A13) produces up to
250 W (for VR250) or 125 W (for VR125) RF
carrier power to the transmitter's RF output
and contains a wideband power amplifier, a
modulator, and a modulator filter. A switch
mode power supply PWB is provided to
convert the ac input voltage to the high level
B+ voltage used by the modulator assembly.
Each module’s RF output is applied to the
RF filter PWB (A14) via RF relay K1 (see
SD-4), which determines the ‘on-air’
module’. A power module interface PWB is
provided to interface control/monitor signals
between the RF power modules and the
exciter and control/monitor stages as
required. For VR250 transmitters, cooling air
for the RF power modules is provided by
fans B1 and B2.
6.6.1.1 SWITCH MODE POWER SUPPLY
PWB
See Figure SD-24. The switch mode power
supply PWB (A2) converts the transmitter’s
ac input voltage to the B+ voltage used by
the modulator. In the VR250, the ac input
voltage range is 170 – 270 V ac and the B+
voltages used by the modulator are 79 V,
136 V and 236 V. In the VR125, the ac input
voltage range is 90 – 270 V ac and the B+
voltages used by the modulator are 55 V,
97 V and 167 V.
6.6.1.1.1 Rectifier
The ac input voltage is rectified by diodes
U1 and U2, providing a dc voltage across
capacitors C12 through C17. Varistors RV1
through RV3 provide protection from high
voltage transients. AC IND lamp DS1
provides a status indication of the ac voltage
on the RF power module.
Page 6-22
Issue 1.8.1
6.6.1.1.2 Switching Signal
IC U3 is a high current FET driver that
provides a switching PWM signal (0-18 V) to
the primary of transformer T2. The
secondaries of T2 control the on/off status of
FETs Q1 and Q2, which in turn switch the
rectified ac voltage to the primary of step-up
transformer T1/T4.
6.6.1.1.3 B+ Voltage
The secondaries of step-up transformer T1
are rectified by diodes CR9, CR10, CR11,
CR13, CR14, and CR15 and combine,
through chokes L4, L5 and L6, to form the
high level B+ voltage. This voltage is applied
to the Dc Output (J2-1). Samples of the B+
voltage and current are applied to inputs of
current mode PWM controller U8, which
provides PWM switching information to
regulate the B+ voltage. FETs Q4, Q5 and
resistors R10, R11, R24 and R25, in
conjunction with opto-couplers U4 and U6,
provide a means to adjust the attenuated
voltage applied to U8, thereby adjusting the
level of the B+ voltage.
6.6.1.1.4 Inhibit PWM
When an RF power module fault occurs, an
Inhibit signal is provided to J1-7. Opto-coupler
U7 will turn on and apply a signal to current
mode PWM controller U8 to inhibit the
switching signal output of FET driver U3.
6.6.1.2 POWER MODULE CONTROL/
INTERFACE PWB
See Figure SD-23. With the exception of the
ac input for the switching power supply and
the RF output of the module, the power
module control/interface PWB (A1) provides
the input and output connections for the RF
power module. It performs the following
functions:
6.6.1.2.1 Module Status
Module status such as B+ and PA voltage,
dc current, and temperature are measured
using ADC inputs on microcontroller U7. The
Fan Tach 1 and 2 inputs are also captured
using interrupt 0 and interrupt 1 on U7. All
information is transmitted to the control/
display PWB using the internal serial bus.
Vector-LP Radio Beacon Transmitter Technical Instruction Manual
Section 6 Theory of Operation
6.6.1.2.2 Gate Bias Drive Signal
U7, Q2 and associated components
generate a 15 V square wave at 263 kHz to
drive the gate bias drive in the modulator.
6.6.1.2.3 Switch Mode Supply Control
Decodes the serial control (B+ settings) from
the control/display PWB and outputs the
settings using darlington transistor U1.
6.6.1.3 MODULATOR
See Figure SD-22. The modulator (A5) is a
logic level converter that converts the low
level (0 to 15 V) logic of the PDM input to a
high level (0-B+) logic PDM (B+) output.
6.6.1.3.1 13 V Power Supply
The 15 V LO output (pin 1) of FET driver U1
is full-wave rectified by bridge rectifier CR1
through CR4, at the PDM frequency. The
resultant dc voltage is filtered by capacitor
C7 and limited to 13 V by zener diode CR5.
The power supply's less positive output is
referenced to the source terminal of power
FET Q1 via resistor R7. Therefore, the
positive output is always 13 V higher than
the voltage on the FET source terminal. The
13 V output is applied to U1’s VB (+) and VS
(-) inputs as the switched gate drive for the
FETs. Transformer T1 provides isolation
between the high and low level signals.
6.6.1.3.2 FET Driver
FET driver U1 is an integrated circuit
configured to produce outputs as follows:
 When the PDM signal applied to the HIN
input is high (15 V), the HO output is the dc
voltage applied to the VB input.
 When the PDM signal applied to the HIN
input is low (0 V), the HO output is the
reference voltage applied to the VS input.
The HO output, which contains the PDM data,
is applied to the gate of power MOSFET Q1
as its on/off control.
Vector-LP Radio Beacon Transmitter Technical Instruction Manual
Section 6 Theory of Operation
6.6.1.3.3 B+ Switching MOSFET
Power MOSFET Q1 is connected to switch
the B+ voltage at the on/off ratio of the PDM
data on U1's HO output, which is applied to its
gate. The resultant PDM (B+) output contains
the PDM data applied to J2-7 at a high (0-B+)
logic level. Free-wheeling diode CR6
prevents negative overshoot by providing
current flow when MOSFET Q1 is off.
6.6.1.4 MODULATOR FILTER PWB
See Figure SD-22. The modulator filter PWB
(A4) consists of inductors L1 and L2 and
capacitors C1 and C3 as well as C2 of the
power amplifier (A3). These components form
a low pass filter that passes the audio
components but rejects the PDM frequency.
When no modulating audio information is
present, the PA Volts output will be a dc
voltage equal to the modulator input voltage
multiplied by the duty cycle of the PDM (B+)
signal. Capacitor C3 in conjunction with L2 is
resonant at a frequency to provide optimal
rejection of the PDM frequency.
6.6.1.5 POWER AMPLIFIER
See Figure SD-22. The power amplifier (A3)
uses two parallel pairs of MOSFETs to
produce an unfiltered, modulated RF output.
Q1 through Q4 are connected as cascode or
‘H’ bridge class ‘D’ amplifiers, which switch
the PA volts at the RF drive frequency (see
Figure 6-6 for a description of class D
operation). Transformer T1 splits the RF
drive signal and applies it, through buffer
amplifier U1 (fused by F1) to the MOSFETs
with the required phase relationship. Diodes
CR1 through CR4 prevent the output of the
RF amplifier from going negative. Transistor
Q5 and associated components detect the
RF drive level and provide an alarm signal to
the control/display PWB. Resistors R5
through R7 provide a PA Volts Sample for
front panel monitoring.
6.6.1.6 RF TRANSFORMER
RF transformer T1 provides impedance
matching between the power amplifier
output and the RF filter PWB.
Page 6-23 (6-24 Blank)
Issue 1.8.1
FROM AC/DC
POWER STAGE
AC POWER
SERIAL LINK, CONTROL/MONITOR
RF DRIVE(A), PDM(A)
RF POWER
MODULE
+VDC
RF POWER MODULE
OUTPUT A
RF FILTER
RF OUTPUT
TO RF POWER PROBE
FROM EXCITER/
CONTROL/MONITOR BLOCK
SERIAL LINK, CONTROL/MONITOR
RF DRIVE(B), PDM(B)
RF POWER
MODULE
MONITOR
RF POWER MODULE
OUTPUT B
TO EXCITER/
CONTROL/MONITOR BLOCK
+VDC
RELAY CONTROL
FROM AC/DC
POWER STAGE
DC POWER
(OPTIONAL)
B2050103 VA
Dimensions = mm (inches)
Block Diagram – RF Power Stage
Issue 1.8.1
Not to Scale
Figure 6-4
Page 6-25 (6-26 Blank)
FROM AC/DC
POWER STAGE
BATTERY BOOST B+
(OPTIONAL)
AC POWER
FROM EXCITER/
CONTROL/MONITOR
STAGE
CONTROL/MONITOR
INT SERIAL LINK,
CONTROL/MONITOR
SWITCH
MODE
POWER
SUPPLY
MODULATOR
FILTER
B+ VDC
RF POWER MODULE
OUTPUT
TO RF FILTER
VIA SELECTION RELAY
MODULATOR
+VDC
RF POWER
AMPLIFIER
+VDC, RF DRIVE, PDM
CONTROL/MONITOR
+VDC
POWER
MODULE
INTERFACE
Fpdm/PDM
+VDC
RF DRIVE
MONITOR
24VDC
B2050101 VB
FANS
TACH
Dimensions = mm (inches)
Block Diagram – RF Power Module
Issue 1.8.1
Not to Scale
Figure 6-5
Page 6-27 (6-28 Blank)
6.6.2 RF Filter PWB
See Figure SD-4. The RF filter PWB (A14) is
a band pass filter that attenuates the
harmonics of the square wave output applied
from the selected RF power module before it
is applied to the RF combiner/probe. The filter
has a flat response characteristic over the
operating bandwidth [three PWB options;
standard frequency band (190 - 535 kHz),
extended frequency band for 125 W
transmitters (536 - 1250 kHz and 1600 –
1800 kHz), and extended frequency band for
250 W transmitters (1600 – 1800 kHz)]. It
has a nominal input and output impedance of
50  and a loaded Q of 2. The band-pass is
selected using frequency dependent link
connections (E1 through E36; see Tables 27a and 2-7b).
6.6.3 RF Power Probe PWB
See Figure SD-4. The RF power probe PWB
(A15) contains various circuits that monitor
the RF output and provide RF voltage, RF
current, forward power and reflected power
monitoring samples to the control/monitor
stage.
6.6.3.1 FORWARD/REFLECTED POWER
PROBE
The forward/reflected power probe circuit
consists of 40:1 RF current transformer T1,
80:4 RF voltage transformer T3 and
associated components. These transformers
form the current and voltage arms of a
forward/reflected power bridge, which
samples the RF output.
The current flowing into the RF output passes
through transformer T1’s primary. The current
in T1’s secondary develops a voltage across
resistors R33, R34, R41, R42, R43 that is
proportional to the RF output current. The
anti-phase voltage across the secondary of
RF voltage transformer T3 is applied
(summed) to the centre-tap of T1’s
secondary. When the RF output impedance is
precisely 50 , the RF current waveform is inphase and of equal amplitude to the RF
voltage waveform on one half of T1’s centertapped secondary and equal amplitude, but
180 out-of-phase on the other half.
Vector-LP Radio Beacon Transmitter Technical Instruction Manual
Section 6 Theory of Operation
The in-phase voltages are summed, rectified
by CR35, low-pass filtered by L9/C53/L11,
resulting in a dc voltage being applied to the
Fwd Pwr Sample output (J1-1). This voltage
is proportional to the RF output's forward
power level.
The out-of-phase voltages are summed,
rectified by CR36, low-pass filtered by
L8/C54/L10, resulting in a dc voltage being
applied to the Refld Pwr Sample output
(J1-5). This voltage is proportional to the RF
output's reflected power level.
T3’s secondary voltage, which is a true
sample of the RF output’s voltage waveform,
is also applied to the RF Volts Monitor output
(J1-9). This output is intended for monitoring
by a modulation monitor and for test
equipment during maintenance.
6.6.3.2 RF CURRENT PROBE
The RF current probe circuit consists of 40:1
RF current transformer T2 and associated
components. The current flowing into the RF
output passes through the primary of
transformer T2. The current in T2’s
secondary winding develops a voltage across
resistors R37 and R40 that is proportional to
the primary (RF output) current. This voltage
is applied to the RF Current Sample output
(J1-17), which is used by the control/display
PWB's high RF current detector and
metering circuit. This high RF current
detector produces a high RF current alarm
and – via the control/display PWB - causes
the transmitter's RF output to shut back (turn
off) when the RF current exceeds a
threshold that represents the maximum
stress current for the RF power modules.
The current sample voltage is also applied to
the RF Current Monitor output (J1-13), which
is used for external monitoring purposes.
Page 6-29
Issue 1.8.1
6.7 MODULATION DEPTH WHEN
USING A HIGH ‘Q’ ANTENNA
When the transmitter's output is connected to
a high 'Q' antenna system, the modulation
envelope observed on the RF current
waveform may differ from that on the RF
voltage waveform. This difference is caused
by antenna impedance mismatch at the
sideband frequencies, which results in
reflected power standing waves on the feed
cable. Depending upon feed cable length, the
sideband impedance may be more or less
than 50 . When the sideband impedance is
less than 50 , the sideband current will
increase and may place undesirable stress
on the solid state devices in modulator/power
amplifier.
A typical radiobeacon antenna is relatively
inefficient, since it is very short when
compared with the wavelength of the carrier
frequency. The high capacitive reactance of a
typical antenna is tuned to the carrier
frequency, by an antenna tuning unit's (ATU)
loading coils, to produce a series resonant
circuit. The resulting net antenna system
resistance is then transformed to 50  by a
matching transformer. When the antenna is
very short compared with the wavelength of
the carrier frequency, the series resonant
circuit has an extremely high 'Q'. Under these
conditions, the antenna system may present
a 50  load to the transmitter at the carrier
frequency but different impedance at the
sideband frequencies.
When calibrating the modulation limits for the
monitor (see 3.6.7), the system automatically
tests using both current and voltage samples
and selects the sample that places most
stress on the transmitter (i.e., the highest
modulation depth).
The mismatch at the sideband frequencies
will cause a standing wave on the feed cable.
Depending upon the length of the feed cable,
the sideband impedance of the antenna
system will appear to be more or less than
50 . When the transmitter is connected to a
high 'Q' antenna system, the difference
between the carrier impedance and the
sideband impedance may cause RF stress
current limits to be exceeded. When this
occurs, remedial action must be taken
instantly.
The following explanation should assist in
understanding this phenomenon.
Page 6-30
Issue 1.8.1
Vector-LP Radio Beacon Transmitter Technical Instruction Manual
Section 6 Theory of Operation
SIMPLE CLASS 'D' OPERATION
If the switch is opened and closed with a 50%
duty cycle, a square wave at the switching
frequency will result at the filter input. If the
filter is designed to pass the switching
frequency, but attenuate its harmonics, a sine
wave is applied to the load.
PUSH-PULL CLASS 'D' OPERATION
If S1 and S2 are opened and closed with a
50% duty cycle, a square wave of current, at
the switching frequency, is passed through
the primary of the transformer and
transformed to its secondary. If the filter is
designed to pass the switching frequency, but
attenuate its harmonics, a sine wave is
applied to the load.
POWER MOSFET CLASS 'D' OPERATION
Power MOSFETs can be used to replace the
switches as depicted in the simple class 'D'
operation and push-pull class 'D' operation
examples. Note that the switch contacts are
replaced by the phase-oriented secondaries
of an RF drive transformer. Q1 corresponds
to S1-A, Q2 to S1-B, Q3 to S2-B and Q4 to
S2-A, as depicted in the push-pull class 'D'
operation example. Q1 and Q4 turn on/off
together and Q2 and Q3 turn on/off together.
Figure 6-6 Simplified Principles of Class 'D' Operation
Vector-LP Radio Beacon Transmitter Technical Instruction Manual
Section 6 Theory of Operation
Page 6-31
Issue 1.8.1
Vector-LP Radio Beacon Transmitter
TECHNICAL INSTRUCTION MANUAL
Section 7
PARTS INFORMATION
7.1 INTRODUCTION
This section contains parts lists that provide
descriptive and provisioning information for all
electrical and mechanical parts that have
been assigned a reference designation and
form a part of the subject equipment.

Follow the family tree branches to the
block that represents the lowest level
assembly assigned a Nautel
configuration control number. Then locate
the reference designation table for that
Nautel configuration control number.
7.2 FAMILY TREE
Figure 7-1 depicts the family tree for the
subject equipment. It is based on the
descending order of the reference
designation hierarchy and identifies all
assemblies that have an assigned Nautel
configuration control number.

Locate the part's reference designation in
the specified table.
7.3 HOW TO LOCATE INFORMATION
FOR A SPECIFIC PART
To locate the information for a specific part,
the assigned reference designation for the
part must be known. In addition, the Nautel
configuration control number (e.g.,
NAPC147D) assigned to the assembly
containing the part or the full reference
designation, including the reference
designation of all higher assemblies, must be
known.

Assemblies assigned an alpha-prefixed
Nautel nomenclature (e.g., NAPC147D)

Cable harnesses that are assigned a
numbered Nautel part (e.g., 205-8001)

Optional kits that are assigned a
numbered Nautel part (e.g., 205-8045)
7.3.1 When Nautel Configuration
Control Number Is Known
When the Nautel configuration control
number (e.g., NAPC147D) is known, the
information for a specific part can be located
in the alphanumerically sorted reference
designation lists.
7.3.2 When Ref Des Is Known
When the full reference designation is
known, the information for a part can be
located as follows:

Refer to the family tree depicted in Figure
7-1 with the full reference designation.
Vector-LP Radio Beacon Transmitter Technical Instruction Manual
Section 7 Parts Information
7.4 REFERENCE DESIGNATION
LISTS
Individual reference designation lists are
provided for:
The reference designation lists, which are
titled and presented in alphanumeric order,
are divided into columns to aid in locating
specific information.
7.5 COLUMN CONTENT
EXPLANATION
The following paragraphs explain the purpose
and contents of each column in the reference
designation lists.
7.5.1 Ref Des Column
The ‘ref des’ column contains the reference
designation for a specific part. These
designations are assigned in accordance with
the requirements of American National
Standard Specification ANSI Y32.16.
Reference designations are listed
alphanumerically in this column.
Page 7-1
Issue 1.8.1
7.5.2 Description Column
This column contains the name and
descriptive information for each part. The key
word or noun is presented first, followed by
the adjective identifiers. When the description
is 'See Family Tree for Assembly
Nomenclature', the associated part is subject
to its own reference designation list or is
contained in an optional kit’s list. If a family
tree is not provided in this section, assume
the latter to be true.
7.5.3 Nautel # Column
This column contains the Nautel part number
assigned to each part. This number is
Nautel's drawing number for Nautel
manufactured parts, Nautel's configuration
control number for assemblies that are under
configuration control management or Nautel's
inventory management number for purchased
parts. When a Nautel configuration control
number (e.g. NAPC*) is referenced in this
column, the associated ref des item is subject
to its own reference designation table.
7.5.4 Vendor # Column:
This column contains an original equipment
manufacturer's part number for a part. A
single part number is listed for each part,
even if there is more than one known
manufacturer. The listed number is Nautel's
usual or preferred choice. The use of this
number does not restrict Nautel from
selecting and using commercial equivalents,
where their use will not degrade circuit
operation or reliability, during manufacture.
NOTE
OEM code 37338 is listed for parts
manufactured by Nautel or to a Nautel control
drawing. United States of America customers
should refer all replacement part orders to
Nautel Maine Incorporated (OEM code
57655).
7.6 OEM CODE TO
MANUFACTURER CROSSREFERENCE
The OEM (CAGE) codes listed in the
reference designation lists are
representative of the original equipment
manufacturers of those parts. To determine
a specific part’s manufacturer contact
information, enter the five-character OEM
(CAGE) code for that part in the following
website:
https://www.bpn.gov/bincs/begin_search.asp
Upon entering the OEM (CAGE) code
number, manufacturer pertinent information
(address, telephone number, fax number,
etc.) shall be displayed. Please contact
Nautel if a part cannot be obtained (see also
ON-LINE PART QUOTES in this manual’s
Warranty section).
7.6.1 Manufacturer’s Index
For users without internet access, Table 7-1
provides a cross-reference from the original
equipment manufacturer’s (OEM) codes to
the manufacturer’s name. The listing is sorted
alphanumerically by the OEM code.
7.5.5 OEM Code Column
This column typically contains a five digit
coded group as the original equipment
manufacturer's (OEM) identifier. The code
was extracted from Cataloging Handbook
H4/H8 - Commercial and Government Entity
(Cage) Code. Manufacturers that were not
listed in the catalog when this listing was
compiled have been assigned a unique fiveletter code. This code is assigned arbitrarily
and has no other significance. The
manufacturers identified for parts that have
JAN or MIL part numbers are Nautel's
normal supply source for that part.
Page 7-2
Issue 1.8.1
Vector-LP Radio Beacon Transmitter Technical Instruction Manual
Section 8 Parts Information
7.7 COMMON ABBREVIATIONS/
ACRONYMS
The following abbreviations/acronyms may
appear in Description column:
MTA - Denotes item is a Mass Termination
Assembly connector.
DIP - Dual In-line Package
SMT - Denotes item is designed to be
installed using Surface Mount
Technology.
IDC - Denotes item is an Insulation
Displacement connector for ribbon
cable.
Vector-LP Radio Beacon Transmitter Technical Instruction Manual
Section 7 Parts Information
SIP - Single In-line Package
Page 7-3
Issue 1.8.1
Table 7-1: Manufacturer’s Index
00779
01295
01961
021P3
02660
04713
06090
07263
08779
09482
0A5K5
0B0A9
0CVK3
0G343
0GP12
12969
13150
14655
16704
17856
19647
1EM90
1FN41
1JRT7
1K126
1MQ07
1UX99
1W344
22421
23875
24355
25706
27014
31433
31781
33062
35005
37338
36AB3
3DX59
3N087
45496
50434
54583
56289
56699
56845
57655
59124
5Y407
Page 7-4
Issue 1.8.1
CTS Company Incorporated
Texas Instruments Incorporated
Pulse Engineering Inc.
Ametherm Inc.
Amphenol Corp Spectra-Strip/Ltd.
Motorola Incorporated
Raychem Corporation
Fairchild Camera and Instrument Corp
Signal Transformer Company Inc
Amp of Canada Limited
IXYS Corporation
Dallas Semiconductor Corporation
Allegro Microsystems Inc.
Huffman Mfg. Co.
Radiall Incorporated
Micro USPD Incorporated
Axsys Technologies Incorporated
Cornell Dubilier Electronics
Cramer Coil and Transformer Co. Inc.
Vishay Siliconix
Caddock Electronics Incorporated
Lumex Opto/Components Incorporated
Atmel Corporation
Epson Electronics American, Inc
C & D Technologies
ZRG Incorporated
Molex Connector Corporation
United Chemi-Con
Thomas and Betts Limited
M-Tron Industries Incorporated
Analog Devices Inc.
Daburn Electronics & Cable Corporation
National Semiconductor Corp
Kemet Electronics Corporation
Edac Incorporated
Ferronics Incorporated
Dale Electronics Limited
Nautel Limited
Pacific Display Devices
Citizen America Corporation
Mill-Max Manufacturing Corporation
Digital Systems
Agilent Technologies Incorporated
TDK Electronics Corporation
Sprague Electric Company
BC Components
Vishay Dale Electronics Incorporated
Nautel Incorporated
KOA Speer Electronics Incorporated
Phoenix Contact Incorporated
61529
62959
63590
Airmat Corporation
Multi-Tech Systems, Inc.
Premier Industrial Corp SPC Technology
Div
64155
Linear Technology Corporation
65786
Cypress Semiconductor Corp.
68994
XILINX Incorporated
69669
Hammond Power Solutions Inc
74199
Quam Nichols Co.
75042
TRW Incorporated
75915
Littelfuse Tracor Incorporated
7D893
Fairchild Semiconductor Corporation
80294
Bourns Instruments Incorporated
81073
Grayhill Incorporated
81483
International Rectifier
83330
Dialight Corporation, DBA Dialight
90201
Mallory Sonalert Products Inc.
91833
Keystone Electronics Corporation
91929
Honeywell Incorporated
96095
AVX Ceramics Div of AVX Corp.
97525
Transico Inc.
AGILENT See 50434
ATC-FROS ATC-Frost
BIVAR
Bivar Inc.
C3057
Conec Elektronische Bauelemente
GMBH
COILCRA Coilcraft
COMP-C Components Corporation
DEARBO Dearborn Electronics Incorporated
EPCOS
Epcos
ER737
Texas Instruments
IPD
Integrated Power Designs
IR
See 81483
ITT CANN ITT Cannon
IXYS
See 0A5K5
LITEON Liteon Inc.
MAGNE MagneTek Triad
MICREL Micrel Incorporated
MURATA Murata
ONSEMI ON Semiconductors
PANAS
Panasonic
QT
QT Optoelectronics
RALTRON Ralton Electroincs Corp.
ROHM
ROHM
SBE
SB Electronics Incorporated
Shurter
Schurter Inc.
SOSH
Soshin Electric Company, Limited
TYCO
Tyco Electronics
U3040
ST Microelectronics Ltd.
UNITED United Chemi-Con, Inc.
Vector-LP Radio Beacon Transmitter Technical Instruction Manual
Section 8 Parts Information
VECTOR - LP
NARB18
A1
A2
A3
A4
CONTROL/DISPLAY PWB
NAPC147D
EXCITER INTERFACE
NAPI76A/02
REMOTE INTERFACE
NAPI78D/02
SITE INTERFACE
NAPI79 OR NAPI80
(OPTIONAL)
A5
A6
A7
A8
RF SYNTHESIZER PWB
NAPE70C/01
INTERPHASE PDM DRIVER
NAPM11
EXTERNAL MONITOR/GENERATOR PWB
NAPE76A/03
RF SYNTHESIZER PWB
NAPE70C/01
(NDB)
(DUAL NDB)
A9
A10
A11
INTERPHASE PDM DRIVER
NAPM11
EXTERNAL MONITOR/GENERATOR PWB
NAPE76A/03
INTERFACE PWB
NAPI94A
(DUAL NDB/DGPS)
(DUAL NDB/DGPS)
A12
A13
RF POWER MODULE
NAP35B/01
RF POWER MODULE
NAP35B/01
A12A1
A12A2
CONTROL/INTERFACE
NAPC151A
SWITCH MODE POWER SUPPLY
NAPS31B/03
A12A3
A12A4
POWER AMPLIFIER
NAAA06
MODULATOR FILTER
NAPF06A
A13A1
A13A2
CONTROL/INTERFACE
NAPC151A
SWITCH MODE POWER SUPPLY
NAPS31B/03
A13A3
A13A4
POWER AMPLIFIER
NAAA06
MODULATOR FILTER
NAPF06A
A12A5
A13A5
MODULATOR
NASM11A/01
MODULATOR
NASM11A/01
A14
A15
A16
RF FILTER
NAPF05A (190 - 535 kHz)
RF POWER PROBE
NAPF07C/01
BATTERY BOOST ASSEMBLY
205-8035
(OPTIONAL)
F2050501 V1
(DWAs inc'd)
A16A1
BATTERY BOOST PWB
NAPS35
Figure 7-1: Family Tree – Vector-LP Radio Beacon Transmitter
Vector-LP Radio Beacon Transmitter Technical Instruction Manual
Section 7 Parts Information
Page 7-5
Issue 1.8.1
195-3019
REFDES
Display Mod
DESCRIPTION
NAUTEL #
VENDOR #
OEM CODE
J01
Conn, Header, Ribbon Cbl, 20Pin
JQ55
103308-5
00779
U01
Display,LCD,240x60 Graphic,Ext Temp
UT81
C10815(STATIC)
PACIFIC DISPLAY
DEVICES
36AB3
195-3023
REFDES
Ribbon Cable Assy
DESCRIPTION
NAUTEL #
VENDOR #
OEM CODE
W16P01
Conn, Recept, Ribbon Cable, 20 pin
JP45
746288-4
00779
W16P02
Conn, Recept, Ribbon Cable, 20 pin
JP45
746288-4
00779
195-3032
REFDES
U04
DESCRIPTION
P01
NAUTEL #
Modem, Industrial, V.92 Data/Fax
205-1016
REFDES
Modem Kit
UW66
VENDOR #
MT5634IND-NAM
OEM CODE
62959
Cableform Assy
DESCRIPTION
NAUTEL #
Conn,Rcpt Housing,12 Pin,Metrimate
JP65
VENDOR #
211759-1
OEM CODE
09482
P02
Conn, Plug, 3-Pin, Mate-N-Lok
JT50
350766-1
00779
P03
Conn, Plug, 3-Pin, Mate-N-Lok
JT50
350766-1
00779
P04
Conn, Plug, 3-Pin, Mate-N-Lok
JT50
350766-1
00779
205-1018
REFDES
Ribbon Cable Assy
DESCRIPTION
NAUTEL #
VENDOR #
OEM CODE
W1P1
Conn, Recept, Ribbon Cable, 10 pin
JP50
746285-1
00779
W1P2
Conn, Recept, Ribbon Cable, 10 pin
JP50
746285-1
00779
W2P1
Conn, Recept, Ribbon Cable, 10 pin
JP50
746285-1
00779
W2P2
Conn, Recept, Ribbon Cable, 10 pin
JP50
746285-1
00779
W3P1
Conn, Recept, Ribbon Cable, 20 pin
JP45
746288-4
00779
W3P2
Conn, Recept, Ribbon Cable, 20 pin
JP45
746288-4
00779
Page 1 of 114
205-1018
205-5050
REFDES
RF Transformer Assy
DESCRIPTION
NAUTEL #
VENDOR #
OEM CODE
E01
Connector, Quick-Dis, M,1/4 Tab, PWB
HR26
1287
91833
E02
Connector, Quick-Dis, M,1/4 Tab, PWB
HR26
1287
91833
E03
Connector, Quick-Dis, M,1/4 Tab, PWB
HR26
1287
91833
E04
Connector, Quick-Dis, M,1/4 Tab, PWB
HR26
1287
91833
T01
RF Transformer Assy
195-6055
195-6055
37338
Page 2 of 114
205-5050
205-8001
REFDES
Cableform, Vector-LP
DESCRIPTION
NAUTEL #
VENDOR #
OEM CODE
P01
MTA, Standard Dust Cover, 8 pin
JU07
640551-8
09482
P01
MTA, Keyed Closed End Housing,8 pin,22AWG
JU28
644463-8
00779
P02
MTA, Standard Dust Cover, 8 pin
JU07
640551-8
09482
P02
MTA, Keyed Closed End Housing,8 pin,22AWG
JU28
644463-8
00779
P03
MTA, Keyed Closed End Housing,10 Pin, 22 AWG
JU37
1-644463-0
00779
P03
MTA, Standard Dust Cover,10 Pin
JU38
1-640551-0
00779
P04
MTA, Keyed Closed End Housing,10 Pin, 22 AWG
JU37
1-644463-0
00779
P04
MTA, Standard Dust Cover,10 Pin
JU38
1-640551-0
00779
P05
MTA,Closed End Housing,3 pin,22 AWG
JU46
3-640433-3(ROHS)
TYCO
P05
MTA,Standard Dust Cover,3 pin
JU47
640551-3(ROHS)
TYCO
P06
MTA,Closed End Housing,3 pin,22 AWG
JU46
3-640433-3(ROHS)
TYCO
P06
MTA,Standard Dust Cover,3 pin
JU47
640551-3(ROHS)
TYCO
P07
Conn, Plug, D-Sub, 25 pin, HDP-20
JR39
205208-1
09482
P07
Conn, Lock Screw, D-Sub, Male
JT16
205980-1
09482
P08
Conn, Socket, D-Sub, HDP-20, 25 pin
JR38
205207-1
09482
P08
Conn, Lock Screw, D-Sub, Male
JT16
205980-1
09482
P09
Conn, Plug, D-Sub, 25 pin, HDP-20
JR39
205208-1
09482
P09
Conn, Lock Screw, D-Sub, Male
JT16
205980-1
09482
P10
Conn, Socket, D-Sub, HDP-20, 25 pin
JR38
205207-1
09482
P10
Conn, Lock Screw, D-Sub, Male
JT16
205980-1
09482
P11
Conn, Socket, D-Sub, HDP-20, 25 pin
JR38
205207-1
09482
P12
Conn, Socket, D-Sub, HDP-20, 25 pin
JR38
205207-1
09482
P12
Conn, Lock Screw, D-Sub, Male
JT16
205980-1
09482
P13
Conn, Plug, D-Sub, 25 pin, HDP-20
JR39
205208-1
09482
P14
Conn, Plug, D-Sub, 25 pin, HDP-20
JR39
205208-1
09482
P14
Conn, Lock Screw, D-Sub, Male
JT16
205980-1
09482
P15
Conn, Coax, N, Plug, 50ohm, Crimp, RG58
JDP22
82-5375
02660
P16
Conn, Plug, D-Sub, 25 pin, HDP-20
JR39
205208-1
09482
P17
Conn, Socket, D-Sub, HDP-20, 25 pin
JR38
205207-1
09482
P18
Conn,Spring Latch,D-sub Plate
JS65
D110278(ROHS)
ITT CANNO
P18
Conn,Shell,D-sub,25 pin,90 deg
JS66
DB51213(ROHS)
ITT CANNO
P18
Conn, IDC, D-Sub, S, HDE-20, 25-Pos
JT30
745495-3
09482
P19
Conn,Spring Latch,D-sub Plate
JS65
D110278(ROHS)
ITT CANNO
P19
Conn,Shell,D-sub,25 pin,90 deg
JS66
DB51213(ROHS)
ITT CANNO
P19
Conn, IDC, D-Sub, S, HDE-20, 25-Pos
JT30
745495-3
09482
P20
Conn, Plug, D-Sub, 25 pin, HDP-20
JR39
205208-1
09482
P21
Conn, Plug, D-Sub, 25 pin, HDP-20
JR39
205208-1
09482
P21
Conn, Lock Screw, D-Sub, Male
JT16
205980-1
09482
P22
MTA, Standard Dust Cover, 4 pin
JU02
640551-4
09482
Page 3 of 114
205-8001
Continued from previous page
205-8001
REFDES
Cableform, Vector-LP
DESCRIPTION
NAUTEL #
P22
MTA, Keyed Closed End Housing,4 pin,22AWG
JU27
P23
Conn, Socket, D-Sub, HDP-20, 25 pin
JR38
P24
Conn, Plug, D-Sub, 25 pin, HDP-20
P24
Conn, Lock Screw, D-Sub, Male
P25
MTA, Keyed Closed End Housing,10 Pin, 22 AWG
P25
MTA, Standard Dust Cover,10 Pin
VENDOR #
OEM CODE
3-644463-4(ROHS)
AMP
205207-1
00779
JR39
205208-1
09482
JT16
205980-1
09482
JU37
1-644463-0
00779
JU38
1-640551-0
00779
09482
P26
MTA, Standard Dust Cover, 12 pin
JU04
1-640551-2
09482
P26
MTA, Keyed Closed End Housing,12pin,22AWG
JU26
1-644463-2
00779
P27
Conn, Socket, D-Sub, HDP-20, 25 pin
JR38
205207-1
09482
P27
Conn, Lock Screw, D-Sub, Male
JT16
205980-1
09482
P28
Conn, Recept, Mate-N-Lok, 3 pin, Mini
JT40
172234-1
09482
P29
Conn, Recept, Mate-N-Lok, 3 pin, Mini
JT40
172234-1
09482
P30
Conn, Recept, Mate-N-Lok, 3 pin, Mini
JT40
172234-1
09482
P31
Conn, Recept, Mate-N-Lok, 3 pin, Mini
JT40
172234-1
09482
P32
MTA, Standard Dust Cover, 4 pin
JU02
640551-4
09482
P32
MTA, Keyed Closed End Housing,4 pin,22AWG
JU27
00779
XA12P1
Conn,Sckt Housing,12 Socket,Metrimate
JP66
3-644463-4(ROHS)
AMP
211758-1
XA13P1
Conn,Sckt Housing,12 Socket,Metrimate
JP66
211758-1
09482
Page 4 of 114
205-8001
09482
205-8019
REFDES
Ribbon Cable Assy
DESCRIPTION
NAUTEL #
VENDOR #
OEM CODE
W01P1
Conn, Recept, Ribbon Cable, 40 pin
JP51
746288-9
00779
W01P2
Conn, Recept, Ribbon Cable, 40 pin
JP51
746288-9
00779
W02P1
Conn, Recept, Ribbon Cable, 40 pin
JP51
746288-9
00779
W02P2
Conn, Recept, Ribbon Cable, 40 pin
JP51
746288-9
00779
W03P1
Conn, Recept, Ribbon Cable, 40 pin
JP51
746288-9
00779
W03P2
Conn, Recept, Ribbon Cable, 40 pin
JP51
746288-9
00779
W04P1
Conn, Recept, Ribbon Cable, 40 pin
JP51
746288-9
00779
W04P2
Conn, Recept, Ribbon Cable, 40 pin
JP51
746288-9
00779
W05P1
Conn, Recept, Ribbon Cable, 40 pin
JP51
746288-9
00779
W05P2
Conn, Recept, Ribbon Cable, 40 pin
JP51
746288-9
00779
W06P1
Conn, Recept, Ribbon Cable, 20 pin
JP45
746288-4
00779
W06P2
Conn, Recept, Ribbon Cable, 20 pin
JP45
746288-4
00779
W06P3
Conn, Recept, Ribbon Cable, 40 pin
JP51
746288-9
00779
W07P1
Conn, Recept, Ribbon Cable, 20 pin
JP45
746288-4
00779
W07P2
Conn, Recept, Ribbon Cable, 20 pin
JP45
746288-4
00779
W10P1
Conn, Recept, Ribbon Cable, 40 pin
JP51
746288-9
00779
W10P2
Conn, Recept, Ribbon Cable, 40 pin
JP51
746288-9
00779
205-8035
REFDES
Battery Boost Assy
DESCRIPTION
NAUTEL #
VENDOR #
OEM CODE
A01
SMPS, 24/48V Battery Boost PWB Assy
NAPS35
205-7020
37338
C01
Capacitor, Plastic, 1.0uF 10PC 250V
CS11
B32232A3105K
EPCOS
C02
Capacitor, Metal,Polyprop, 5uF +/-10% 100V
CS22
5MP12D505K
50558
CR06
Diode, Fast Recovery, 600V, 60A
QH43
DSEI60-06A
0A5K5
Q04
Transistor,FET,N,500V,0.1 Ohm
QR56
STW26NM50(STATIC) 0G343
Q05
Transistor,FET,N,500V,0.1 Ohm
QR56
STW26NM50(STATIC) 0G343
TB01
Terminal Block, 4-Pos, Double, 61A
JF27
G10/4
205-8073
REFDES
5Y407
Wire Assy Cabinet Vector-LP
DESCRIPTION
NAUTEL #
VENDOR #
OEM CODE
J1
Conn, Coax, Jack, N, Crimp for RG303
JT52
24-N-50-3-11C/133
0GZ58
P2
Conn, Coax, N, Plug, 50ohm, Crimp, RG58
JDP22
82-5375
02660
Page 5 of 114
205-8073
205-8075
REFDES
Cabinet-Vector-LP (Tall Rack)
DESCRIPTION
NAUTEL #
VENDOR #
OEM CODE
P3
Cord, Line Assy, SJT, 250V,10A
JN50
17569
VOLEX
TB01
Terminal Block, 4-Pos, Double, 61A
JF27
G10/4
5Y407
W1
Wire Assy Cabinet Vector-LP
205-8073
205-8073
37338
205-8080
REFDES
J01
IP66 Cabinet w/Vector-LP Assy
DESCRIPTION
NAUTEL #
Conn, Coax, N, Bulkhead,Receptacle
VENDOR #
OEM CODE
JA54
UG-680/U
00795
P01
Cord, Line Assy, SJT, 250V,10A
JN50
17569
VOLEX
P02
Conn, Coax, N, Plug, 50ohm, Crimp, RG58
JDP22
82-5375
02660
TB01
Terminal Block, 4-Pos, Double, 61A
JF27
G10/4
5Y407
TB02
Terminal Block, 4-Pos, Double, 61A
JF27
G10/4
5Y407
205-8120
REFDES
Cabinet-Vector-LP (Short Rack)w/ Internal Battery
DESCRIPTION
NAUTEL #
VENDOR #
OEM CODE
CB01
Circuit Breaker, 1-pole, 65Vdc20A
SB46
W91-X152-20
U5588
P01
Cord, Line Assy, SJT, 250V,10A
JN50
17569
VOLEX
TB01
Terminal Block, 4-Pos, Double, 61A
JF27
G10/4
5Y407
TB02
Terminal Block, 4-Pos, Double, 61A
JF27
G10/4
5Y407
W01
Wire Assy Cabinet Vector-LP
205-8073
205-8073
37338
205-8120-01
REFDES
Cabinet-Vector-LP (Short Rack)
DESCRIPTION
NAUTEL #
VENDOR #
OEM CODE
P01
Cord, Line Assy, SJT, 250V,10A
JN50
17569
VOLEX
TB01
Terminal Block, 4-Pos, Double, 61A
JF27
G10/4
5Y407
TB02
Terminal Block, 4-Pos, Double, 61A
JF27
G10/4
5Y407
W01
Wire Assy Cabinet Vector-LP
205-8073
205-8073
37338
Page 6 of 114
205-8120-01
205-8200
REFDES
Cabinet-Vector-LP (Tall Rack)w/ Internal Battery
DESCRIPTION
NAUTEL #
VENDOR #
OEM CODE
CB01
Circuit Breaker, 1-pole, 65Vdc20A
SB46
W91-X152-20
U5588
P01
Cord, Line Assy, SJT, 250V,10A
JN50
17569
VOLEX
P03
See Sales Order
37338
TB01
Terminal Block, 4-Pos, Double, 61A
JF27
% SEE SALES
ORDER
G10/4
TB02
Terminal Block, 4-Pos, Double, 61A
JF27
G10/4
5Y407
U01
See Sales Order
37338
U02
See Sales Order
W01
Wire Assy Cabinet Vector-LP
205-8073
% SEE SALES
ORDER
% SEE SALES
ORDER
205-8073
W02
See Sales Order
37338
W03
See Sales Order
% SEE SALES
ORDER
% SEE SALES
ORDER
Page 7 of 114
205-8200
5Y407
37338
37338
37338
NAAA06
REFDES
Power Amplifier Assy
DESCRIPTION
NAUTEL #
VENDOR #
OEM CODE
C01
Capacitor, Ceramic, 1.0uF 100V
CAP16
RPE114Z5U105M100V 91929
C02
Capacitor,Polyprop,0.056uF,10%,600V
CP30
716P56396L
C03
Capacitor, Ceramic, 0.47uF 10% 50V
CCG09
CKR06BX474KRV
56289
C04
Capacitor, Ceramic, 0.01uF 10% 100V
CCG04
CKR05BX103KRV
56289
C05
Capacitor, Ceramic, 1.0uF 100V
CAP16
RPE114Z5U105M100V 91929
C06
Capacitor, Ceramic, 1.0uF 100V
CAP16
RPE114Z5U105M100V 91929
C07
Capacitor, Ceramic, 0.1uF 10%100V
CCG07
CKR06BX104KRV
56289
CR01
Diode, Power Rectifier, 4A, Ultra Fast
QM22
MUR460
04713
CR02
Diode, Power Rectifier, 4A, Ultra Fast
QM22
MUR460
04713
CR03
Diode, Power Rectifier, 4A, Ultra Fast
QM22
MUR460
04713
CR04
Diode, Power Rectifier, 4A, Ultra Fast
QM22
MUR460
04713
CR05
Diode, General Purpose, 200V,0.1A
QAP29
1N4938
07263
E01
Connector, Quick-Dis, M,1/4 Tab, PWB
HR26
1287
91833
E02
Connector, Quick-Dis, M,1/4 Tab, PWB
HR26
1287
91833
E03
Connector, Quick-Dis, M,1/4 Tab, PWB
HR26
1287
91833
F01
Fuse, 1A, 250V, Slow, 3AG
FA08
313001
75915
J01
Conn, Header, Ribbon Cbl, 10 pin
JA49
499910-1
00779
Q01
Installed at Next Higher Assy
37338
Q02
Installed at Next Higher Assy
Q03
Installed at Next Higher Assy
Q04
Installed at Next Higher Assy
Q05
Transistor, NPN, Switch/Amplifier
QA45
INSTALLED AT NEXT
HIGHER ASSY
INSTALLED AT NEXT
HIGHER ASSY
INSTALLED AT NEXT
HIGHER ASSY
INSTALLED AT NEXT
HIGHER ASSY
2N4401
R01
Resistor, Film, 100 Ohms, 5%2W
RBP07
GS-3, 100 OHMS
75042
R02
Installed at Next Higher Assy
37338
R03
Resistor, MF, 15.0K Ohms, 1PC1/4W
RAB39
INSTALLED AT NEXT
HIGHER ASSY
MF1/4DL1502F
R04
Resistor, MF, 8.25K Ohms, 1PC1/4W
RAB36
MF1/4DL8251F
59124
R05
Resistor, Film, 33K Ohms, 5%,2W
RBP22
GS-3, 33K OHMS
75042
R06
Resistor, MF, 1K Ohms, 1PC 1/4W
RAB25
MF1/4DL1001F
59124
R07
Resistor, MF, 1K Ohms, 1PC 1/4W
RAB25
MF1/4DL1001F
59124
T01
Installed at Next Higher Assy
37338
U01
Installed at Next Higher Assy
XF01
Fuseholder, PWB Mount, Type 3AG
FA31
INSTALLED AT NEXT
HIGHER ASSY
INSTALLED AT NEXT
HIGHER ASSY
4245
Page 8 of 114
NAAA06
SBE
37338
37338
37338
04713
59124
37338
91833
NAP35%
REFDES
RF Power Module Assy,Vector-LP250/D375
DESCRIPTION
NAUTEL #
VENDOR #
OEM CODE
A01
Power Module Control/InterfacePWB Assy
NAPC151A
205-4110-01
37338
A02
SPS, Forward Converter PWBAssy
NAPS31B/02
197-7022-10
37338
A03
Power Amplifier Assy
NAAA06
195-1055
37338
A04
Modulator Filter PWB Assy
NAPF06A
195-1090-01
37338
A05
Modulator (Vector) Assy
NASM11A/01
195-1077-02
A3Q01
Transistor, FET, N Channel
QAP49
STW14NM50(STATIC) OG343
A3Q02
Transistor, FET, N Channel
QAP49
STW14NM50(STATIC) OG343
A3Q03
Transistor, FET, N Channel
QAP49
STW14NM50(STATIC) OG343
A3Q04
Transistor, FET, N Channel
QAP49
STW14NM50(STATIC) OG343
A3R02
Resistor, 2.5 Ohm/15W, TO-126
RAB51
MP915-2.5-1
19647
A3T01
RF Drive Transformer Assy
197-1020
197-1020
37338
A3U01
IC, Mosfet Driver, T0220-5-12A
UD54
MIC4452CT(STATIC)
MICRELL
A5CR08
Diode, Ultrafast, Soft Recovery, 600V, 8A
QR24
HFA08TB60(STATIC)
81483
A5L01
Bead, Ferrite, 3.5mm, B Mtl
LXP20
21-030-B
33062
A5Q01
Transistor, FET, N Channel
QAP49
STW14NM50(STATIC) OG343
T01
RF Transformer Assy
205-5050
205-5050-P
NAP35%/01
REFDES
37338
37338
RF Power Module Assy,Vector-LP125/D200
DESCRIPTION
NAUTEL #
VENDOR #
OEM CODE
A01
Power Module Control/InterfacePWB Assy
NAPC151A
205-4110-01
37338
A02
SPS, Fwd Conv PWB Assy
NAPS31B/03
197-7022-11
37338
A03
Power Amplifier Assy
NAAA06
195-1055
37338
A04
Modulator Filter PWB Assy
NAPF06A
195-1090-01
37338
A05
Modulator (Vector) Assy
NASM11A/01
195-1077-02
A3Q01
Transistor, FET, N Channel
QAP49
STW14NM50(STATIC) OG343
A3Q02
Transistor, FET, N Channel
QAP49
STW14NM50(STATIC) OG343
A3Q03
Transistor, FET, N Channel
QAP49
STW14NM50(STATIC) OG343
A3Q04
Transistor, FET, N Channel
QAP49
STW14NM50(STATIC) OG343
A3R02
Resistor, 2.5 Ohm/15W, TO-126
RAB51
MP915-2.5-1
19647
A3T01
RF Drive Transformer Assy
197-1020
197-1020
37338
A3U01
IC, Mosfet Driver, T0220-5-12A
UD54
MIC4452CT(STATIC)
MICRELL
A5CR08
Diode, Ultrafast, Soft Recovery, 600V, 8A
QR24
HFA08TB60(STATIC)
81483
A5L01
Bead, Ferrite, 3.5mm, B Mtl
LXP20
21-030-B
33062
A5Q01
Transistor, FET, N Channel
QAP49
STW14NM50(STATIC) OG343
T01
RF Transformer Assy
205-5050
205-5050-P
Page 9 of 114
NAP35A/01
37338
37338
NAPC147B
REFDES
Control Display PWB Assy
DESCRIPTION
NAUTEL #
VENDOR #
OEM CODE
BT01
Battery, Lithium, 3V,20mm Coin Cell
BBLT01
CR2032
PANAS
C001
Cap,SMT,Ceramic,0.01uF,10%,50V,X7R,0603
CCFS04
C0603C103K5RAC
31433
C002
Cap,SMT,Ceramic,0.01uF,10%,50V,X7R,0603
CCFS04
C0603C103K5RAC
31433
C003
Cap,SMT,Ceramic,0.01uF,10%,50V,X7R,0603
CCFS04
C0603C103K5RAC
31433
C004
Cap,SMT,Ceramic,0.01uF,10%,50V,X7R,0603
CCFS04
C0603C103K5RAC
31433
C005
Cap,SMT,Ceramic,0.01uF,10%,50V,X7R,0603
CCFS04
C0603C103K5RAC
31433
C006
Cap,SMT,Ceramic,0.01uF,10%,50V,X7R,0603
CCFS04
C0603C103K5RAC
31433
C007
Cap,SMT,Ceramic,0.01uF,10%,50V,X7R,0603
CCFS04
C0603C103K5RAC
31433
C008
Cap,SMT,Ceramic,0.1uF,10%,50V,X7R,0805
CCFS07
C0805C104K5RAC
31433
C009
Cap,SMT,Ceramic,0.1uF,10%,50V,X7R,0805
CCFS07
C0805C104K5RAC
31433
C010
Cap,SMT,Ceramic,0.1uF,10%,50V,X7R,0805
CCFS07
C0805C104K5RAC
31433
C011
Cap,SMT,Ceramic,0.1uF,10%,50V,X7R,0805
CCFS07
C0805C104K5RAC
31433
C012
Cap,SMT,Ceramic,0.001uF,10%,50V,X7R,0603
CCFS01
C0603C102K5RAC
31433
C013
Cap,SMT,Ceramic,0.01uF,10%,50V,X7R,0603
CCFS04
C0603C103K5RAC
31433
C014
Cap,SMT,Ceramic,0.01uF,10%,50V,X7R,0603
CCFS04
C0603C103K5RAC
31433
C015
Cap,SMT,Ceramic,0.01uF,10%,50V,X7R,0603
CCFS04
C0603C103K5RAC
31433
C016
Cap,SMT,Ceramic,0.1uF,10%,50V,X7R,0805
CCFS07
C0805C104K5RAC
31433
C017
Cap,SMT,Ceramic,0.1uF,10%,50V,X7R,0805
CCFS07
C0805C104K5RAC
31433
C018
Cap,SMT,Ceramic,0.001uF,10%,50V,X7R,0603
CCFS01
C0603C102K5RAC
31433
C019
Cap,SMT,Ceramic,0.1uF,10%,50V,X7R,0805
CCFS07
C0805C104K5RAC
31433
C020
Cap,SMT,Ceramic,0.1uF,10%,50V,X7R,0805
CCFS07
C0805C104K5RAC
31433
C021
Cap,SMT,Ceramic,0.1uF,10%,50V,X7R,0805
CCFS07
C0805C104K5RAC
31433
C022
Cap,SMT,Ceramic,0.1uF,10%,50V,X7R,0805
CCFS07
C0805C104K5RAC
31433
C023
Cap,SMT,Ceramic,0.1uF,10%,50V,X7R,0805
CCFS07
C0805C104K5RAC
31433
C024
Cap,SMT,Ceramic,0.001uF,10%,50V,X7R,0603
CCFS01
C0603C102K5RAC
31433
C025
Cap,SMT,Ceramic,0.1uF,10%,50V,X7R,0805
CCFS07
C0805C104K5RAC
31433
C026
Cap,SMT,Ceramic,0.1uF,10%,50V,X7R,0805
CCFS07
C0805C104K5RAC
31433
C027
Cap,SMT,Ceramic,0.1uF,10%,50V,X7R,0805
CCFS07
C0805C104K5RAC
31433
C028
Cap,SMT,Ceramic,0.1uF,10%,50V,X7R,0805
CCFS07
C0805C104K5RAC
31433
C029
Cap,SMT,Ceramic,0.1uF,10%,50V,X7R,0805
CCFS07
C0805C104K5RAC
31433
C030
Cap,SMT,Ceramic,0.1uF,10%,50V,X7R,0805
CCFS07
C0805C104K5RAC
31433
C031
Cap,SMT,Ceramic,0.1uF,10%,50V,X7R,0805
CCFS07
C0805C104K5RAC
31433
C032
Cap,SMT,Ceramic,0.0022uF,10%,50V,X7R,0603
CCFS02
C0603C222K5RAC
31433
C033
Cap,SMT,Ceramic,0.0047uF,10%,50V,X7R,0603
CCFS03
C0603C472K5RAC
31433
C034
Cap,SMT,Ceramic,0.1uF,10%,50V,X7R,0805
CCFS07
C0805C104K5RAC
31433
C035
Cap,SMT,Ceramic,0.1uF,10%,50V,X7R,0805
CCFS07
C0805C104K5RAC
31433
C036
Cap,SMT,Ceramic,0.1uF,10%,50V,X7R,0805
CCFS07
C0805C104K5RAC
31433
C037
Cap,SMT,Ceramic,0.1uF,10%,50V,X7R,0805
CCFS07
C0805C104K5RAC
31433
C038
Cap,SMT,Ceramic,0.1uF,10%,50V,X7R,0805
CCFS07
C0805C104K5RAC
31433
Page 10 of 114
NAPC147B
Continued from previous page
NAPC147B
REFDES
Control Display PWB Assy
DESCRIPTION
NAUTEL #
VENDOR #
OEM CODE
C039
Cap,SMT,Ceramic,0.1uF,10%,50V,X7R,0805
CCFS07
C0805C104K5RAC
31433
C040
Cap,SMT,Ceramic,0.1uF,10%,50V,X7R,0805
CCFS07
C0805C104K5RAC
31433
C041
Cap,SMT,Ceramic,0.1uF,10%,50V,X7R,0805
CCFS07
C0805C104K5RAC
31433
C042
Cap,SMT,Ceramic,0.1uF,10%,50V,X7R,0805
CCFS07
C0805C104K5RAC
31433
C043
Cap,SMT,Ceramic,0.1uF,10%,50V,X7R,0805
CCFS07
C0805C104K5RAC
31433
C044
Cap,SMT,Ceramic,0.1uF,10%,50V,X7R,0805
CCFS07
C0805C104K5RAC
31433
C045
Cap,SMT,Ceramic,0.1uF,10%,50V,X7R,0805
CCFS07
C0805C104K5RAC
31433
C046
Cap,SMT,Ceramic,0.1uF,10%,50V,X7R,0805
CCFS07
C0805C104K5RAC
31433
C047
Cap,SMT,Tantalum,10uF,10%,35V,2917
CTFS03
T494D106K035AS
31433
C048
Cap,SMT,Ceramic,0.01uF,10%,50V,X7R,0603
CCFS04
C0603C103K5RAC
31433
C049
Cap,SMT,Ceramic,0.1uF,10%,50V,X7R,0805
CCFS07
C0805C104K5RAC
31433
C050
Cap,SMT,Ceramic,0.01uF,10%,50V,X7R,0603
CCFS04
C0603C103K5RAC
31433
C051
Cap,SMT,Ceramic,0.1uF,10%,50V,X7R,0805
CCFS07
C0805C104K5RAC
31433
C052
Cap,SMT,Ceramic,0.1uF,10%,50V,X7R,0805
CCFS07
C0805C104K5RAC
31433
C053
Cap,SMT,Ceramic,0.1uF,10%,50V,X7R,0805
CCFS07
C0805C104K5RAC
31433
C054
Cap,SMT,Ceramic,0.01uF,10%,50V,X7R,0603
CCFS04
C0603C103K5RAC
31433
C055
Cap,SMT,Ceramic,0.1uF,10%,50V,X7R,0805
CCFS07
C0805C104K5RAC
31433
C056
Cap,SMT,Ceramic,0.1uF,10%,50V,X7R,0805
CCFS07
C0805C104K5RAC
31433
C057
Cap,SMT,Ceramic,0.1uF,10%,50V,X7R,0805
CCFS07
C0805C104K5RAC
31433
C058
Cap,SMT,Ceramic,0.1uF,10%,50V,X7R,0805
CCFS07
C0805C104K5RAC
31433
C059
Cap,SMT,Ceramic,0.1uF,10%,50V,X7R,0805
CCFS07
C0805C104K5RAC
31433
C060
Cap,SMT,Ceramic,0.1uF,10%,50V,X7R,0805
CCFS07
C0805C104K5RAC
31433
C061
Cap,SMT,Ceramic,0.01uF,10%,50V,X7R,0603
CCFS04
C0603C103K5RAC
31433
C062
Cap,SMT,Ceramic,0.01uF,10%,50V,X7R,0603
CCFS04
C0603C103K5RAC
31433
C063
Cap,SMT,Ceramic,0.01uF,10%,50V,X7R,0603
CCFS04
C0603C103K5RAC
31433
C064
Cap,SMT,Ceramic,0.01uF,10%,50V,X7R,0603
CCFS04
C0603C103K5RAC
31433
C065
Cap,SMT,Ceramic,0.1uF,10%,50V,X7R,0805
CCFS07
C0805C104K5RAC
31433
C066
Cap,SMT,Ceramic,0.1uF,10%,50V,X7R,0805
CCFS07
C0805C104K5RAC
31433
C067
Cap,SMT,Tantalum,10uF,10%,35V,2917
CTFS03
T494D106K035AS
31433
C068
Cap,SMT,Ceramic,0.1uF,10%,50V,X7R,0805
CCFS07
C0805C104K5RAC
31433
C069
Cap,SMT,Ceramic,0.1uF,10%,50V,X7R,0805
CCFS07
C0805C104K5RAC
31433
C070
Cap,SMT,Ceramic,0.01uF,10%,50V,X7R,0603
CCFS04
C0603C103K5RAC
31433
C071
Cap,SMT,Ceramic,0.01uF,10%,50V,X7R,0603
CCFS04
C0603C103K5RAC
31433
C072
Cap,SMT,Tantalum,10uF,10%,35V,2917
CTFS03
T494D106K035AS
31433
C073
Cap,SMT,Ceramic,0.1uF,10%,50V,X7R,0805
CCFS07
C0805C104K5RAC
31433
C074
Cap,SMT,Ceramic,0.1uF,10%,50V,X7R,0805
CCFS07
C0805C104K5RAC
31433
C075
Cap,SMT,Ceramic,0.1uF,10%,50V,X7R,0805
CCFS07
C0805C104K5RAC
31433
C076
Cap,SMT,Ceramic,0.01uF,10%,50V,X7R,0603
CCFS04
C0603C103K5RAC
31433
C077
Cap,SMT,Tantalum,10uF,10%,35V,2917
CTFS03
T494D106K035AS
31433
Page 11 of 114
NAPC147B
Continued from previous page
NAPC147B
REFDES
Control Display PWB Assy
DESCRIPTION
NAUTEL #
VENDOR #
OEM CODE
C078
Cap,SMT,Ceramic,0.1uF,10%,50V,X7R,0805
CCFS07
C0805C104K5RAC
31433
C079
Cap,SMT,Ceramic,0.1uF,10%,50V,X7R,0805
CCFS07
C0805C104K5RAC
31433
C080
Cap,SMT,Ceramic,0.1uF,10%,50V,X7R,0805
CCFS07
C0805C104K5RAC
31433
C081
Cap,SMT,Ceramic,0.1uF,10%,50V,X7R,0805
CCFS07
C0805C104K5RAC
31433
C082
Cap,SMT,Ceramic,0.01uF,10%,50V,X7R,0603
CCFS04
C0603C103K5RAC
31433
C083
Cap,SMT,Ceramic,0.1uF,10%,50V,X7R,0805
CCFS07
C0805C104K5RAC
31433
C084
Cap,SMT,Ceramic,0.1uF,10%,50V,X7R,0805
CCFS07
C0805C104K5RAC
31433
C085
Cap,SMT,Ceramic,0.1uF,10%,50V,X7R,0805
CCFS07
C0805C104K5RAC
31433
C086
Cap,SMT,Ceramic,0.1uF,10%,50V,X7R,0805
CCFS07
C0805C104K5RAC
31433
C087
Cap,SMT,Ceramic,0.1uF,10%,50V,X7R,0805
CCFS07
C0805C104K5RAC
31433
C088
Cap,SMT,Ceramic,0.1uF,10%,50V,X7R,0805
CCFS07
C0805C104K5RAC
31433
C089
Cap,SMT,Ceramic,0.1uF,10%,50V,X7R,0805
CCFS07
C0805C104K5RAC
31433
C090
Cap,SMT,Ceramic,0.1uF,10%,50V,X7R,0805
CCFS07
C0805C104K5RAC
31433
C091
Cap,SMT,Ceramic,0.01uF,10%,50V,X7R,0603
CCFS04
C0603C103K5RAC
31433
C092
Cap,SMT,Ceramic,0.1uF,10%,50V,X7R,0805
CCFS07
C0805C104K5RAC
31433
C093
Cap,SMT,Ceramic,0.01uF,10%,50V,X7R,0603
CCFS04
C0603C103K5RAC
31433
C094
Cap,SMT,Ceramic,0.01uF,10%,50V,X7R,0603
CCFS04
C0603C103K5RAC
31433
C095
Cap,SMT,Ceramic,0.1uF,10%,50V,X7R,0805
CCFS07
C0805C104K5RAC
31433
C096
Cap,SMT,Ceramic,0.01uF,10%,50V,X7R,0603
CCFS04
C0603C103K5RAC
31433
C097
Cap,SMT,Ceramic,0.01uF,10%,50V,X7R,0603
CCFS04
C0603C103K5RAC
31433
C098
Cap,SMT,Ceramic,0.1uF,10%,50V,X7R,0805
CCFS07
C0805C104K5RAC
31433
C099
Cap,SMT,Ceramic,0.01uF,10%,50V,X7R,0603
CCFS04
C0603C103K5RAC
31433
C100
Cap,SMT,Ceramic,0.01uF,10%,50V,X7R,0603
CCFS04
C0603C103K5RAC
31433
C101
Cap,SMT,Ceramic,0.01uF,10%,50V,X7R,0603
CCFS04
C0603C103K5RAC
31433
C102
Cap,SMT,Ceramic,0.1uF,10%,50V,X7R,0805
CCFS07
C0805C104K5RAC
31433
C103
Cap,SMT,Ceramic,0.1uF,10%,50V,X7R,0805
CCFS07
C0805C104K5RAC
31433
C104
Cap,SMT,Ceramic,0.01uF,10%,50V,X7R,0603
CCFS04
C0603C103K5RAC
31433
C105
Cap,SMT,Ceramic,0.01uF,10%,50V,X7R,0603
CCFS04
C0603C103K5RAC
31433
C106
Cap,SMT,Ceramic,0.1uF,10%,50V,X7R,0805
CCFS07
C0805C104K5RAC
31433
C107
Cap,SMT,Ceramic,0.1uF,10%,50V,X7R,0805
CCFS07
C0805C104K5RAC
31433
C108
Cap,SMT,Ceramic,0.1uF,10%,50V,X7R,0805
CCFS07
C0805C104K5RAC
31433
C109
Cap,SMT,Ceramic,0.01uF,10%,50V,X7R,0603
CCFS04
C0603C103K5RAC
31433
C110
Cap,SMT,Ceramic,0.01uF,10%,50V,X7R,0603
CCFS04
C0603C103K5RAC
31433
C111
Cap,SMT,Ceramic,0.01uF,10%,50V,X7R,0603
CCFS04
C0603C103K5RAC
31433
C112
Cap,SMT,Ceramic,0.1uF,10%,50V,X7R,0805
CCFS07
C0805C104K5RAC
31433
C113
Cap,SMT,Ceramic,0.01uF,10%,50V,X7R,0603
CCFS04
C0603C103K5RAC
31433
C114
Cap,SMT,Ceramic,0.01uF,10%,50V,X7R,0603
CCFS04
C0603C103K5RAC
31433
C115
Cap,SMT,Ceramic,0.1uF,10%,50V,X7R,0805
CCFS07
C0805C104K5RAC
31433
C116
Cap,SMT,Ceramic,0.1uF,10%,50V,X7R,0805
CCFS07
C0805C104K5RAC
31433
Page 12 of 114
NAPC147B
Continued from previous page
NAPC147B
REFDES
Control Display PWB Assy
DESCRIPTION
NAUTEL #
VENDOR #
OEM CODE
C117
Cap,SMT,Ceramic,0.01uF,10%,50V,X7R,0603
CCFS04
C0603C103K5RAC
31433
C118
Cap,SMT,Ceramic,0.01uF,10%,50V,X7R,0603
CCFS04
C0603C103K5RAC
31433
C119
Cap,SMT,Ceramic,0.1uF,10%,50V,X7R,0805
CCFS07
C0805C104K5RAC
31433
C120
Cap,SMT,Tantalum,10uF,10%,35V,2917
CTFS03
T494D106K035AS
31433
C121
Cap,SMT,Ceramic,0.01uF,10%,50V,X7R,0603
CCFS04
C0603C103K5RAC
31433
C122
Cap,SMT,Tantalum,10uF,10%,35V,2917
CTFS03
T494D106K035AS
31433
C123
Cap,SMT,Ceramic,0.01uF,10%,50V,X7R,0603
CCFS04
C0603C103K5RAC
31433
C124
Cap,SMT,Ceramic,0.01uF,10%,50V,X7R,0603
CCFS04
C0603C103K5RAC
31433
C125
Cap,SMT,Ceramic,18pF,2%,50V,C0G,0603
CCFS23
C0603C180G5GAC
31433
C126
Cap,SMT,Ceramic,18pF,2%,50V,C0G,0603
CCFS23
C0603C180G5GAC
31433
C127
Cap,SMT,Ceramic,0.1uF,10%,50V,X7R,0805
CCFS07
C0805C104K5RAC
31433
C128
Cap,SMT,Ceramic,0.01uF,10%,50V,X7R,0603
CCFS04
C0603C103K5RAC
31433
C129
Cap,SMT,Ceramic,0.1uF,10%,50V,X7R,0805
CCFS07
C0805C104K5RAC
31433
C130
Cap,SMT,Ceramic,0.01uF,10%,50V,X7R,0603
CCFS04
C0603C103K5RAC
31433
C131
Cap,SMT,Ceramic,0.01uF,10%,50V,X7R,0603
CCFS04
C0603C103K5RAC
31433
C132
Cap,SMT,Ceramic,0.01uF,10%,50V,X7R,0603
CCFS04
C0603C103K5RAC
31433
C133
Cap,SMT,Ceramic,0.1uF,10%,50V,X7R,0805
CCFS07
C0805C104K5RAC
31433
C134
Cap,SMT,Ceramic,0.01uF,10%,50V,X7R,0603
CCFS04
C0603C103K5RAC
31433
C135
Cap,SMT,Ceramic,0.01uF,10%,50V,X7R,0603
CCFS04
C0603C103K5RAC
31433
C136
Cap,SMT,Ceramic,0.01uF,10%,50V,X7R,0603
CCFS04
C0603C103K5RAC
31433
C137
Cap,SMT,Ceramic,0.1uF,10%,50V,X7R,0805
CCFS07
C0805C104K5RAC
31433
C138
Cap,SMT,Ceramic,0.01uF,10%,50V,X7R,0603
CCFS04
C0603C103K5RAC
31433
C139
Cap,SMT,Ceramic,0.01uF,10%,50V,X7R,0603
CCFS04
C0603C103K5RAC
31433
C140
Cap,SMT,Ceramic,0.1uF,10%,50V,X7R,0805
CCFS07
C0805C104K5RAC
31433
C141
Cap,SMT,Ceramic,0.1uF,10%,50V,X7R,0805
CCFS07
C0805C104K5RAC
31433
C142
Cap,SMT,Ceramic,0.1uF,10%,50V,X7R,0805
CCFS07
C0805C104K5RAC
31433
C143
Cap,SMT,Ceramic,0.1uF,10%,50V,X7R,0805
CCFS07
C0805C104K5RAC
31433
C144
Cap,SMT,Ceramic,0.01uF,10%,50V,X7R,0603
CCFS04
C0603C103K5RAC
31433
C145
Cap,SMT,Ceramic,0.1uF,10%,50V,X7R,0805
CCFS07
C0805C104K5RAC
31433
C146
Cap,SMT,Tantalum,10uF,10%,35V,2917
CTFS03
T494D106K035AS
31433
C147
Cap,SMT,Ceramic,0.1uF,10%,50V,X7R,0805
CCFS07
C0805C104K5RAC
31433
C148
Cap,SMT,Ceramic,0.1uF,10%,50V,X7R,0805
CCFS07
C0805C104K5RAC
31433
C149
Cap,SMT,Ceramic,0.1uF,10%,50V,X7R,0805
CCFS07
C0805C104K5RAC
31433
C150
Cap,SMT,Ceramic,0.1uF,10%,50V,X7R,0805
CCFS07
C0805C104K5RAC
31433
C151
Cap,SMT,Ceramic,0.1uF,10%,50V,X7R,0805
CCFS07
C0805C104K5RAC
31433
C152
Cap,SMT,Ceramic,0.1uF,10%,50V,X7R,0805
CCFS07
C0805C104K5RAC
31433
C153
Cap,SMT,Ceramic,0.1uF,10%,50V,X7R,0805
CCFS07
C0805C104K5RAC
31433
C154
Cap,SMT,Ceramic,0.01uF,10%,50V,X7R,0603
CCFS04
C0603C103K5RAC
31433
C155
Cap,SMT,Ceramic,0.1uF,10%,50V,X7R,0805
CCFS07
C0805C104K5RAC
31433
Page 13 of 114
NAPC147B
Continued from previous page
NAPC147B
REFDES
Control Display PWB Assy
DESCRIPTION
NAUTEL #
VENDOR #
OEM CODE
C156
Cap,SMT,Ceramic,0.01uF,10%,50V,X7R,0603
CCFS04
C0603C103K5RAC
31433
C157
Cap,SMT,Ceramic,0.1uF,10%,50V,X7R,0805
CCFS07
C0805C104K5RAC
31433
C158
Cap,SMT,Tantalum,10uF,10%,35V,2917
CTFS03
T494D106K035AS
31433
C159
Cap,SMT,Ceramic,0.01uF,10%,50V,X7R,0603
CCFS04
C0603C103K5RAC
31433
C160
Cap,SMT,Ceramic,0.1uF,10%,50V,X7R,0805
CCFS07
C0805C104K5RAC
31433
C161
Cap,SMT,Ceramic,0.01uF,10%,50V,X7R,0603
CCFS04
C0603C103K5RAC
31433
C162
Cap,SMT,Ceramic,0.1uF,10%,50V,X7R,0805
CCFS07
C0805C104K5RAC
31433
C163
Cap,SMT,Ceramic,0.01uF,10%,50V,X7R,0603
CCFS04
C0603C103K5RAC
31433
C164
Cap,SMT,Ceramic,0.47uF,10%,25V,X7R,0805
CCFS09
C0805C474K3RAC
31433
C165
Cap,SMT,Ceramic,0.1uF,10%,50V,X7R,0805
CCFS07
C0805C104K5RAC
31433
C166
Cap,SMT,Ceramic,0.1uF,10%,50V,X7R,0805
CCFS07
C0805C104K5RAC
31433
CR01
Diode,SMT,Schottky,30V,0.2A,SOD-323
QDSS01
BAT54HT1(STATIC)
04713
CR02
Diode,SMT,Schottky,30V,0.2A,SOD-323
QDSS01
BAT54HT1(STATIC)
04713
CR03
Diode,SMT,Schottky,30V,0.2A,SOD-323
QDSS01
BAT54HT1(STATIC)
04713
CR04
Diode,SMT,Schottky,30V,0.2A,SOD-323
QDSS01
BAT54HT1(STATIC)
04713
CR05
Diode,SMT,Schottky,30V,0.2A,SOD-323
QDSS01
BAT54HT1(STATIC)
04713
CR06
Diode,SMT,Schottky,30V,0.2A,SOD-323
QDSS01
BAT54HT1(STATIC)
04713
CR07
Diode,SMT,Schottky,30V,0.2A,SOD-323
QDSS01
BAT54HT1(STATIC)
04713
CR08
Diode,SMT,Schottky,30V,0.2A,SOD-323
QDSS01
BAT54HT1(STATIC)
04713
CR09
Diode,SMT,Schottky,30V,0.2A,SOD-323
QDSS01
BAT54HT1(STATIC)
04713
CR10
Diode,SMT,Schottky,30V,0.2A,SOD-323
QDSS01
BAT54HT1(STATIC)
04713
CR11
Diode,SMT,Schottky,30V,0.2A,SOD-323
QDSS01
BAT54HT1(STATIC)
04713
CR12
Diode,SMT,Schottky,30V,0.2A,SOD-323
QDSS01
BAT54HT1(STATIC)
04713
CR13
Diode,SMT,Schottky,30V,0.2A,SOD-323
QDSS01
BAT54HT1(STATIC)
04713
CR14
Diode,SMT,Schottky,30V,0.2A,SOD-323
QDSS01
BAT54HT1(STATIC)
04713
CR15
Diode,SMT,Schottky,30V,0.2A,SOD-323
QDSS01
BAT54HT1(STATIC)
04713
CR16
Diode,SMT,Zener,39V,5%,3W,SMB
QDZS04
1SMB5939BT3
04713
E01
Conn, Post Shunt, 2 Pos, .10 Centreline
JQ15
390088-2
09482
E02
Conn, Post Shunt, 2 Pos, .10 Centreline
JQ15
390088-2
09482
E03
Conn, Post Shunt, 2 Pos, .10 Centreline
JQ15
390088-2
09482
J01
Conn, Header, Ribbon Cbl, 40 pin
JP52
499910-9
00779
J02
Conn, Plug, D-Sub, 25 pin, PWB Mt
JS12
K22-B25P-NJ
63590
J03
Conn, Header, SIP,12 Pin Breakaway,.10 Ctr
JQ16
1-103185-2
09482
J04
Conn, Header, Ribbon Cbl, 40 pin
JP52
499910-9
00779
J05
Conn, Header, SIP,12 Pin Breakaway,.10 Ctr
JQ16
1-103185-2
09482
J06
Conn, Header, SIP,12 Pin Breakaway,.10 Ctr
JQ16
1-103185-2
09482
J07
Conn, Header, Ribbon Cbl, 40 pin
JP52
499910-9
00779
J08
Conn, Header,Square Post,Gold,Dual,40-pin
JF47
4-102973-0
09482
J09
Conn, Header, Ribbon Cbl, 20Pin
JQ55
103308-5
00779
Page 14 of 114
NAPC147B
Continued from previous page
NAPC147B
REFDES
Control Display PWB Assy
DESCRIPTION
NAUTEL #
VENDOR #
OEM CODE
J10
Conn, Header,Square Post,Gold,Dual,40-pin
JF47
4-102973-0
09482
J11
MTA, Keyed Square Post HeaderAssy, 4 pin
JU25
647123-4
00779
L01
Inductor, SMT, Choke, 600ohms,2A, 0805
LCFS01
ILHB0805RK601V
56845
L02
Inductor, SMT, Choke, 600ohms,2A, 0805
LCFS01
ILHB0805RK601V
56845
L03
Inductor, SMT, Choke, 600ohms,2A, 0805
LCFS01
ILHB0805RK601V
56845
L04
Inductor, SMT, Choke, 600ohms,2A, 0805
LCFS01
ILHB0805RK601V
56845
L05
Inductor, SMT, Choke, 600ohms,2A, 0805
LCFS01
ILHB0805RK601V
56845
L06
Inductor, SMT, Choke, 600ohms,2A, 0805
LCFS01
ILHB0805RK601V
56845
L07
Inductor, SMT, Choke, 600ohms,2A, 0805
LCFS01
ILHB0805RK601V
56845
L08
Inductor, SMT, Choke, 600ohms,2A, 0805
LCFS01
ILHB0805RK601V
56845
L09
Inductor, SMT, Choke, 600ohms,2A, 0805
LCFS01
ILHB0805RK601V
56845
L10
Inductor, SMT, Choke, 600ohms,2A, 0805
LCFS01
ILHB0805RK601V
56845
L11
Inductor, SMT, Choke, 600ohms,2A, 0805
LCFS01
ILHB0805RK601V
56845
L12
Inductor, SMT, Choke, 600ohms,2A, 0805
LCFS01
ILHB0805RK601V
56845
L13
Inductor, SMT, Choke, 600ohms,2A, 0805
LCFS01
ILHB0805RK601V
56845
L14
Inductor, SMT, Choke, 600ohms,2A, 0805
LCFS01
ILHB0805RK601V
56845
L15
Inductor, SMT, Choke, 600ohms,2A, 0805
LCFS01
ILHB0805RK601V
56845
LS01
Alarm, Audio Piezoelectric,Sonalert
LP30
MSR516N
90201
Q01
Transistor,SMT,NPN,Switch/Amp,SOT-23
QBNS01
04713
Q02
Transistor,SMT,NPN,Switch/Amp,SOT-23
QBNS01
Q03
Transistor,SMT,NPN,Switch/Amp,SOT-23
QBNS01
Q04
Transistor,SMT,NPN,Switch/Amp,SOT-23
QBNS01
Q05
QN53
R001
Transistor,SMT,MOSFET,N-Channel,60V,115mA,SOT23
Resistor,SMT,MF,4750ohms,1%,1/10W,0603
RFFS46
MMBT4401LT1(STATI
C)
MMBT4401LT1(STATI
C)
MMBT4401LT1(STATI
C)
MMBT4401LT1(STATI
C)
2N7002LT1G(STATIC)
(ROHS)
RK73H1JLTD4751F
59124
R002
Resistor,SMT,MF,100ohms,1%,1/10W,0603
RFFS26
RK73H1JLTD1000F
59124
R003
Resistor,SMT,MF,100ohms,1%,1/10W,0603
RFFS26
RK73H1JLTD1000F
59124
R004
Resistor,SMT,MF,4750ohms,1%,1/10W,0603
RFFS46
RK73H1JLTD4751F
59124
R005
Resistor,SMT,MF,100ohms,1%,1/10W,0603
RFFS26
RK73H1JLTD1000F
59124
R006
Resistor,SMT,MF,100ohms,1%,1/10W,0603
RFFS26
RK73H1JLTD1000F
59124
R007
Resistor,SMT,MF,100ohms,1%,1/10W,0603
RFFS26
RK73H1JLTD1000F
59124
R008
Resistor,SMT,MF,4750ohms,1%,1/10W,0603
RFFS46
RK73H1JLTD4751F
59124
R009
Resistor,SMT,MF,4750ohms,1%,1/10W,0603
RFFS46
RK73H1JLTD4751F
59124
R010
Resistor,SMT,MF,100ohms,1%,1/10W,0603
RFFS26
RK73H1JLTD1000F
59124
R011
Resistor,SMT,MF,100ohms,1%,1/10W,0603
RFFS26
RK73H1JLTD1000F
59124
R012
Resistor,SMT,MF,4750ohms,1%,1/10W,0603
RFFS46
RK73H1JLTD4751F
59124
R013
Resistor,SMT,MF,4750ohms,1%,1/10W,0603
RFFS46
RK73H1JLTD4751F
59124
R014
Resistor,SMT,MF,100ohms,1%,1/10W,0603
RFFS26
RK73H1JLTD1000F
59124
Page 15 of 114
NAPC147B
04713
04713
04713
1MQ07
Continued from previous page
NAPC147B
REFDES
Control Display PWB Assy
DESCRIPTION
NAUTEL #
VENDOR #
OEM CODE
R015
Resistor,SMT,MF,100ohms,1%,1/10W,0603
RFFS26
RK73H1JLTD1000F
59124
R016
Resistor,SMT,MF,4750ohms,1%,1/10W,0603
RFFS46
RK73H1JLTD4751F
59124
R017
Resistor,SMT,MF,475Kohms,1%,1/10W,0603
RFFS70
RK73H1JLTD4753F
59124
R018
Resistor,SMT,MF,475Kohms,1%,1/10W,0603
RFFS70
RK73H1JLTD4753F
59124
R019
Resistor,SMT,MF,10.0Kohms,1%,1/10W,0603
RFFS50
RK73H1JLTD1002F
59124
R020
Resistor,SMT,MF,1000ohms,1%,1/10W,0603
RFFS38
RK73H1JLTD1001F
59124
R021
Resistor,SMT,MF,10.0Kohms,1%,1/10W,0603
RFFS50
RK73H1JLTD1002F
59124
R022
Resistor,SMT,MF,8250ohms,1%,1/10W,0603
RFFS49
RK73H1JLTD8251F
59124
R023
Resistor,SMT,MF,4750ohms,1%,1/10W,0603
RFFS46
RK73H1JLTD4751F
59124
R024
Resistor,SMT,MF,100ohms,1%,1/10W,0603
RFFS26
RK73H1JLTD1000F
59124
R025
Resistor,SMT,MF,100ohms,1%,1/10W,0603
RFFS26
RK73H1JLTD1000F
59124
R026
Resistor,SMT,MF,4750ohms,1%,1/10W,0603
RFFS46
RK73H1JLTD4751F
59124
R027
Resistor,SMT,MF,4750ohms,1%,1/10W,0603
RFFS46
RK73H1JLTD4751F
59124
R028
Resistor,SMT,MF,100ohms,1%,1/10W,0603
RFFS26
RK73H1JLTD1000F
59124
R029
Resistor,SMT,MF,10.0Kohms,1%,1/10W,0603
RFFS50
RK73H1JLTD1002F
59124
R030
Resistor,SMT,MF,1000ohms,1%,1/10W,0603
RFFS38
RK73H1JLTD1001F
59124
R031
Resistor,SMT,MF,100ohms,1%,1/10W,0603
RFFS26
RK73H1JLTD1000F
59124
R032
Resistor,SMT,MF,100ohms,1%,1/10W,0603
RFFS26
RK73H1JLTD1000F
59124
R033
Resistor,SMT,MF,10.0Kohms,1%,1/10W,0603
RFFS50
RK73H1JLTD1002F
59124
R034
Resistor,SMT,MF,1000ohms,1%,1/10W,0603
RFFS38
RK73H1JLTD1001F
59124
R035
Resistor,SMT,MF,10.0Kohms,1%,1/10W,0603
RFFS50
RK73H1JLTD1002F
59124
R036
Resistor,SMT,MF,1000ohms,1%,1/10W,0603
RFFS38
RK73H1JLTD1001F
59124
R037
Resistor,SMT,MF,39.2Kohms,1%,1/10W,0603
RFFS57
RK73H1JLTD3922F
59124
R038
Resistor,SMT,MF,10.0Kohms,1%,1/10W,0603
RFFS50
RK73H1JLTD1002F
59124
R039
Resistor,SMT,MF,475Kohms,1%,1/10W,0603
RFFS70
RK73H1JLTD4753F
59124
R040
Resistor,SMT,MF,475Kohms,1%,1/10W,0603
RFFS70
RK73H1JLTD4753F
59124
R041
Resistor,SMT,MF,100ohms,1%,1/10W,0603
RFFS26
RK73H1JLTD1000F
59124
R042
Resistor,SMT,MF,475Kohms,1%,1/10W,0603
RFFS70
RK73H1JLTD4753F
59124
R043
Resistor,SMT,MF,475Kohms,1%,1/10W,0603
RFFS70
RK73H1JLTD4753F
59124
R044
Resistor,SMT,MF,475Kohms,1%,1/10W,0603
RFFS70
RK73H1JLTD4753F
59124
R045
Resistor,SMT,MF,10.0Kohms,1%,1/10W,0603
RFFS50
RK73H1JLTD1002F
59124
R046
Resistor,SMT,MF,1000ohms,1%,1/10W,0603
RFFS38
RK73H1JLTD1001F
59124
R047
Resistor,SMT,MF,10.0Kohms,1%,1/10W,0603
RFFS50
RK73H1JLTD1002F
59124
R048
Resistor,SMT,MF,1000ohms,1%,1/10W,0603
RFFS38
RK73H1JLTD1001F
59124
R049
Resistor,SMT,MF,100ohms,1%,1/10W,0603
RFFS26
RK73H1JLTD1000F
59124
R050
Not Used
NOT USED
37338
R051
Resistor,SMT,MF,0.0ohms,Jumper,0603
RFFS01
RK73Z1JLTD
59124
R052
Resistor,SMT,MF,475Kohms,1%,1/10W,0603
RFFS70
RK73H1JLTD4753F
59124
R053
Resistor,SMT,MF,100ohms,1%,1/10W,0603
RFFS26
RK73H1JLTD1000F
59124
Page 16 of 114
NAPC147B
Continued from previous page
NAPC147B
REFDES
Control Display PWB Assy
DESCRIPTION
NAUTEL #
VENDOR #
OEM CODE
R054
Resistor,SMT,MF,475Kohms,1%,1/10W,0603
RFFS70
RK73H1JLTD4753F
59124
R055
Resistor,SMT,MF,475Kohms,1%,1/10W,0603
RFFS70
RK73H1JLTD4753F
59124
R056
Resistor,SMT,MF,475Kohms,1%,1/10W,0603
RFFS70
RK73H1JLTD4753F
59124
R057
Resistor,SMT,MF,10.0Kohms,1%,1/10W,0603
RFFS50
RK73H1JLTD1002F
59124
R058
Resistor,SMT,MF,1000ohms,1%,1/10W,0603
RFFS38
RK73H1JLTD1001F
59124
R059
Resistor,SMT,MF,100ohms,1%,1/10W,0603
RFFS26
RK73H1JLTD1000F
59124
R060
Resistor,SMT,MF,475Kohms,1%,1/10W,0603
RFFS70
RK73H1JLTD4753F
59124
R061
Resistor,SMT,MF,5620ohms,1%,1/10W,0603
RFFS47
RK73H1JLTD5621F
59124
R062
Resistor,SMT,MF,8250ohms,1%,1/10W,0603
RFFS49
RK73H1JLTD8251F
59124
R063
Resistor,SMT,MF,4750ohms,1%,1/10W,0603
RFFS46
RK73H1JLTD4751F
59124
R064
Resistor,SMT,MF,100Kohms,1%,1/10W,0603
RFFS62
RK73H1JLTD1003F
59124
R065
Resistor,SMT,MF,1500ohms,1%,1/10W,0603
RFFS40
RK73H1JLTD1501F
59124
R066
Resistor,SMT,MF,100ohms,1%,1/10W,0603
RFFS26
RK73H1JLTD1000F
59124
R067
Resistor,SMT,MF,100ohms,1%,1/10W,0603
RFFS26
RK73H1JLTD1000F
59124
R068
Resistor,SMT,MF,475Kohms,1%,1/10W,0603
RFFS70
RK73H1JLTD4753F
59124
R069
Resistor,SMT,MF,10.0Kohms,1%,1/10W,0603
RFFS50
RK73H1JLTD1002F
59124
R070
Resistor,SMT,MF,1000ohms,1%,1/10W,0603
RFFS38
RK73H1JLTD1001F
59124
R071
Resistor,SMT,MF,100ohms,1%,1/10W,0603
RFFS26
RK73H1JLTD1000F
59124
R072
Resistor,SMT,MF,475Kohms,1%,1/10W,0603
RFFS70
RK73H1JLTD4753F
59124
R073
Resistor,SMT,MF,475Kohms,1%,1/10W,0603
RFFS70
RK73H1JLTD4753F
59124
R074
Resistor,SMT,MF,475Kohms,1%,1/10W,0603
RFFS70
RK73H1JLTD4753F
59124
R075
Resistor,SMT,MF,10.0Kohms,1%,1/10W,0603
RFFS50
RK73H1JLTD1002F
59124
R076
Resistor,SMT,MF,1000ohms,1%,1/10W,0603
RFFS38
RK73H1JLTD1001F
59124
R077
Resistor,SMT,MF,10.0Kohms,1%,1/10W,0603
RFFS50
RK73H1JLTD1002F
59124
R078
Resistor,SMT,MF,4750ohms,1%,1/10W,0603
RFFS46
RK73H1JLTD4751F
59124
R079
Resistor,SMT,MF,100Kohms,1%,1/10W,0603
RFFS62
RK73H1JLTD1003F
59124
R080
Resistor,SMT,MF,1500ohms,1%,1/10W,0603
RFFS40
RK73H1JLTD1501F
59124
R081
Resistor,SMT,MF,475Kohms,1%,1/10W,0603
RFFS70
RK73H1JLTD4753F
59124
R082
Resistor,SMT,MF,15.0Kohms,1%,1/10W,0603
RFFS52
RK73H1JLTD1502F
59124
R083
Resistor,SMT,MF,10.0Kohms,1%,1/10W,0603
RFFS50
RK73H1JLTD1002F
59124
R084
Resistor,SMT,MF,10.0Kohms,1%,1/10W,0603
RFFS50
RK73H1JLTD1002F
59124
R085
Resistor,SMT,MF,1000ohms,1%,1/10W,0603
RFFS38
RK73H1JLTD1001F
59124
R086
Resistor,SMT,MF,10.0Kohms,1%,1/10W,0603
RFFS50
RK73H1JLTD1002F
59124
R087
Resistor,SMT,MF,1000ohms,1%,1/10W,0603
RFFS38
RK73H1JLTD1001F
59124
R088
Resistor,SMT,MF,10.0Kohms,1%,1/10W,0603
RFFS50
RK73H1JLTD1002F
59124
R089
Resistor,SMT,MF,4750ohms,1%,1/10W,0603
RFFS46
RK73H1JLTD4751F
59124
R090
Resistor,SMT,MF,100ohms,1%,1/10W,0603
RFFS26
RK73H1JLTD1000F
59124
R091
Resistor, SMT, MF, 221 Ohms,1% 1/4W
RAD17
RK73H2BL2210F
59124
R092
Resistor, SMT, MF, 221 Ohms,1% 1/4W
RAD17
RK73H2BL2210F
59124
Page 17 of 114
NAPC147B
Continued from previous page
NAPC147B
REFDES
Control Display PWB Assy
DESCRIPTION
NAUTEL #
VENDOR #
OEM CODE
R093
Resistor,SMT,MF,10.0Kohms,1%,1/10W,0603
RFFS50
RK73H1JLTD1002F
59124
R094
Resistor,SMT,MF,1000ohms,1%,1/10W,0603
RFFS38
RK73H1JLTD1001F
59124
R095
Resistor,SMT,MF,68.1Kohms,1%,1/10W,0603
RFFS60
RK73H1JLTD6812F
59124
R096
Resistor,SMT,MF,1000ohms,1%,1/10W,0603
RFFS38
RK73H1JLTD1001F
59124
R097
Resistor,SMT,MF,10.0Kohms,1%,1/10W,0603
RFFS50
RK73H1JLTD1002F
59124
R098
Resistor,SMT,MF,100ohms,1%,1/10W,0603
RFFS26
RK73H1JLTD1000F
59124
R099
Resistor,SMT,MF,475Kohms,1%,1/10W,0603
RFFS70
RK73H1JLTD4753F
59124
R100
Resistor,SMT,MF,681ohms,1%,1/10W,0603
RFFS36
RK73H1JLTD6810F
59124
R101
Resistor,SMT,MF,681ohms,1%,1/10W,0603
RFFS36
RK73H1JLTD6810F
59124
R102
Resistor,SMT,MF,10.0Kohms,1%,1/10W,0603
RFFS50
RK73H1JLTD1002F
59124
R103
Resistor,SMT,MF,10.0Kohms,1%,1/10W,0603
RFFS50
RK73H1JLTD1002F
59124
R104
Resistor,SMT,MF,10.0Kohms,1%,1/10W,0603
RFFS50
RK73H1JLTD1002F
59124
R105
Resistor,SMT,MF,475Kohms,1%,1/10W,0603
RFFS70
RK73H1JLTD4753F
59124
R106
Resistor,SMT,MF,100ohms,1%,1/10W,0603
RFFS26
RK73H1JLTD1000F
59124
R107
Resistor,SMT,MF,10.0Kohms,1%,1/10W,0603
RFFS50
RK73H1JLTD1002F
59124
R108
Resistor,SMT,MF,100ohms,1%,1/10W,0603
RFFS26
RK73H1JLTD1000F
59124
R109
Resistor,SMT,MF,100ohms,1%,1/10W,0603
RFFS26
RK73H1JLTD1000F
59124
R110
Resistor,SMT,MF,100ohms,1%,1/10W,0603
RFFS26
RK73H1JLTD1000F
59124
R111
Resistor,SMT,MF,100ohms,1%,1/10W,0603
RFFS26
RK73H1JLTD1000F
59124
R112
Resistor,SMT,MF,100ohms,1%,1/10W,0603
RFFS26
RK73H1JLTD1000F
59124
R113
Resistor,SMT,MF,475Kohms,1%,1/10W,0603
RFFS70
RK73H1JLTD4753F
59124
R114
Resistor,SMT,MF,475Kohms,1%,1/10W,0603
RFFS70
RK73H1JLTD4753F
59124
R115
Resistor,SMT,MF,4750ohms,1%,1/10W,0603
RFFS46
RK73H1JLTD4751F
59124
R116
Resistor,SMT,MF,100ohms,1%,1/10W,0603
RFFS26
RK73H1JLTD1000F
59124
R117
Resistor,SMT,MF,10.0Kohms,1%,1/10W,0603
RFFS50
RK73H1JLTD1002F
59124
R118
Resistor,SMT,MF,47.5Kohms,1%,1/10W,0603
RFFS58
RK73H1JLTD4752F
59124
R119
Resistor,SMT,MF,1210ohms,1%,1/10W,0603
RFFS39
RK73H1JLTD1211F
59124
R120
Resistor,SMT,MF,4750ohms,1%,1/10W,0603
RFFS46
RK73H1JLTD4751F
59124
R121
Resistor,SMT,MF,100ohms,1%,1/10W,0603
RFFS26
RK73H1JLTD1000F
59124
R122
Resistor,SMT,MF,10.0Kohms,1%,1/10W,0603
RFFS50
RK73H1JLTD1002F
59124
R123
Resistor,SMT,MF,10.0Kohms,1%,1/10W,0603
RFFS50
RK73H1JLTD1002F
59124
R124
Resistor,SMT,MF,475Kohms,1%,1/10W,0603
RFFS70
RK73H1JLTD4753F
59124
R125
Resistor,SMT,MF,475Kohms,1%,1/10W,0603
RFFS70
RK73H1JLTD4753F
59124
R126
Resistor,SMT,MF,10.0Kohms,1%,1/10W,0603
RFFS50
RK73H1JLTD1002F
59124
R127
Resistor,SMT,MF,1000ohms,1%,1/10W,0603
RFFS38
RK73H1JLTD1001F
59124
R128
Resistor,SMT,MF,4750ohms,1%,1/10W,0603
RFFS46
RK73H1JLTD4751F
59124
R129
Resistor,SMT,MF,100ohms,1%,1/10W,0603
RFFS26
RK73H1JLTD1000F
59124
R130
Resistor,SMT,MF,4750ohms,1%,1/10W,0603
RFFS46
RK73H1JLTD4751F
59124
R131
Resistor,SMT,MF,100ohms,1%,1/10W,0603
RFFS26
RK73H1JLTD1000F
59124
Page 18 of 114
NAPC147B
Continued from previous page
NAPC147B
REFDES
Control Display PWB Assy
DESCRIPTION
NAUTEL #
VENDOR #
OEM CODE
R132
Resistor,SMT,MF,22.1Kohms,1%,1/10W,0603
RFFS54
RK73H1JLTD2212F
59124
R133
Resistor,SMT,MF,1820ohms,1%,1/10W,0603
RFFS41
RK73H1JLTD1821F
59124
R134
Resistor,SMT,MF,12.1Kohms,1%,1/10W,0603
RFFS51
RK73H1JLTD1212F
59124
R135
Resistor,SMT,MF,10.0Kohms,1%,1/10W,0603
RFFS50
RK73H1JLTD1002F
59124
R136
Resistor,SMT,MF,10.0Kohms,1%,1/10W,0603
RFFS50
RK73H1JLTD1002F
59124
R137
Resistor,SMT,MF,100ohms,1%,1/10W,0603
RFFS26
RK73H1JLTD1000F
59124
R138
Resistor,SMT,MF,475Kohms,1%,1/10W,0603
RFFS70
RK73H1JLTD4753F
59124
R139
Resistor,SMT,MF,475Kohms,1%,1/10W,0603
RFFS70
RK73H1JLTD4753F
59124
R140
Resistor,SMT,MF,10.0Kohms,1%,1/10W,0603
RFFS50
RK73H1JLTD1002F
59124
R141
Resistor,SMT,MF,10.0Kohms,1%,1/10W,0603
RFFS50
RK73H1JLTD1002F
59124
R142
Resistor,SMT,MF,10.0Kohms,1%,1/10W,0603
RFFS50
RK73H1JLTD1002F
59124
R143
Resistor,SMT,MF,10.0Kohms,1%,1/10W,0603
RFFS50
RK73H1JLTD1002F
59124
R144
Resistor,SMT,MF,10.0Kohms,1%,1/10W,0603
RFFS50
RK73H1JLTD1002F
59124
R145
Resistor,SMT,MF,10.0Kohms,1%,1/10W,0603
RFFS50
RK73H1JLTD1002F
59124
R146
Resistor,SMT,MF,10.0Kohms,1%,1/10W,0603
RFFS50
RK73H1JLTD1002F
59124
R147
Not Used
NOT USED
37338
R148
Resistor,SMT,MF,10.0Kohms,1%,1/10W,0603
RFFS50
RK73H1JLTD1002F
59124
R149
Resistor,SMT,MF,10.0Kohms,1%,1/10W,0603
RFFS50
RK73H1JLTD1002F
59124
R150
Resistor,SMT,MF,10.0Kohms,1%,1/10W,0603
RFFS50
RK73H1JLTD1002F
59124
R151
Resistor,SMT,MF,10.0Kohms,1%,1/10W,0603
RFFS50
RK73H1JLTD1002F
59124
R152
Resistor,SMT,MF,10.0Kohms,1%,1/10W,0603
RFFS50
RK73H1JLTD1002F
59124
R153
Resistor,SMT,MF,10.0Kohms,1%,1/10W,0603
RFFS50
RK73H1JLTD1002F
59124
R154
Resistor,SMT,MF,10.0Kohms,1%,1/10W,0603
RFFS50
RK73H1JLTD1002F
59124
R155
Resistor,SMT,MF,10.0Kohms,1%,1/10W,0603
RFFS50
RK73H1JLTD1002F
59124
R156
Resistor,SMT,MF,2210ohms,1%,1/10W,0603
RFFS42
RK73H1JLTD2211F
59124
R157
Resistor,SMT,MF,2210ohms,1%,1/10W,0603
RFFS42
RK73H1JLTD2211F
59124
R158
Resistor,SMT,MF,4750ohms,1%,1/10W,0603
RFFS46
RK73H1JLTD4751F
59124
R159
Resistor,SMT,MF,100ohms,1%,1/10W,0603
RFFS26
RK73H1JLTD1000F
59124
R160
Resistor,SMT,MF,10.0Kohms,1%,1/10W,0603
RFFS50
RK73H1JLTD1002F
59124
R161
Resistor,SMT,MF,10.0Kohms,1%,1/10W,0603
RFFS50
RK73H1JLTD1002F
59124
R162
Resistor,SMT,MF,2210ohms,1%,1/10W,0603
RFFS42
RK73H1JLTD2211F
59124
R163
Resistor,SMT,MF,2210ohms,1%,1/10W,0603
RFFS42
RK73H1JLTD2211F
59124
R164
Resistor,SMT,MF,2210ohms,1%,1/10W,0603
RFFS42
RK73H1JLTD2211F
59124
R165
Resistor,SMT,MF,4750ohms,1%,1/10W,0603
RFFS46
RK73H1JLTD4751F
59124
R166
Resistor,SMT,MF,100ohms,1%,1/10W,0603
RFFS26
RK73H1JLTD1000F
59124
R167
Resistor,SMT,MF,4750ohms,1%,1/10W,0603
RFFS46
RK73H1JLTD4751F
59124
R168
Resistor,SMT,MF,100ohms,1%,1/10W,0603
RFFS26
RK73H1JLTD1000F
59124
R169
Resistor,SMT,MF,2210ohms,1%,1/10W,0603
RFFS42
RK73H1JLTD2211F
59124
R170
Resistor,SMT,MF,2210ohms,1%,1/10W,0603
RFFS42
RK73H1JLTD2211F
59124
Page 19 of 114
NAPC147B
Continued from previous page
NAPC147B
REFDES
Control Display PWB Assy
DESCRIPTION
NAUTEL #
VENDOR #
OEM CODE
R171
Resistor,SMT,MF,2210ohms,1%,1/10W,0603
RFFS42
RK73H1JLTD2211F
59124
R172
Resistor,SMT,MF,4750ohms,1%,1/10W,0603
RFFS46
RK73H1JLTD4751F
59124
R173
Resistor,SMT,MF,100ohms,1%,1/10W,0603
RFFS26
RK73H1JLTD1000F
59124
R174
Resistor,SMT,MF,4750ohms,1%,1/10W,0603
RFFS46
RK73H1JLTD4751F
59124
R175
Resistor,SMT,MF,100ohms,1%,1/10W,0603
RFFS26
RK73H1JLTD1000F
59124
R176
Resistor,SMT,MF,2210ohms,1%,1/10W,0603
RFFS42
RK73H1JLTD2211F
59124
R177
Resistor,SMT,MF,2210ohms,1%,1/10W,0603
RFFS42
RK73H1JLTD2211F
59124
R178
Resistor,SMT,MF,2210ohms,1%,1/10W,0603
RFFS42
RK73H1JLTD2211F
59124
R179
Resistor,SMT,MF,10.0Kohms,1%,1/10W,0603
RFFS50
RK73H1JLTD1002F
59124
R180
Resistor,SMT,MF,10.0Kohms,1%,1/10W,0603
RFFS50
RK73H1JLTD1002F
59124
R181
Resistor,SMT,MF,10.0Kohms,1%,1/10W,0603
RFFS50
RK73H1JLTD1002F
59124
R182
Resistor,SMT,MF,10.0Kohms,1%,1/10W,0603
RFFS50
RK73H1JLTD1002F
59124
R183
Resistor,SMT,MF,1000ohms,1%,1/10W,0603
RFFS38
RK73H1JLTD1001F
59124
R184
Resistor,SMT,MF,10.0Kohms,1%,1/10W,0603
RFFS50
RK73H1JLTD1002F
59124
R185
Resistor,SMT,MF,10.0Kohms,1%,1/10W,0603
RFFS50
RK73H1JLTD1002F
59124
R186
Resistor,SMT,MF,10.0Kohms,1%,1/10W,0603
RFFS50
RK73H1JLTD1002F
59124
R187
Resistor,SMT,MF,10.0Kohms,1%,1/10W,0603
RFFS50
RK73H1JLTD1002F
59124
R188
Resistor,SMT,MF,2210ohms,1%,1/10W,0603
RFFS42
RK73H1JLTD2211F
59124
R189
Resistor,SMT,MF,10.0Kohms,1%,1/10W,0603
RFFS50
RK73H1JLTD1002F
59124
R190
Resistor,SMT,MF,10.0Kohms,1%,1/10W,0603
RFFS50
RK73H1JLTD1002F
59124
R191
Resistor,SMT,MF,10.0Kohms,1%,1/10W,0603
RFFS50
RK73H1JLTD1002F
59124
R192
Resistor,SMT,MF,10.0Kohms,1%,1/10W,0603
RFFS50
RK73H1JLTD1002F
59124
R193
Resistor,SMT,MF,10.0Kohms,1%,1/10W,0603
RFFS50
RK73H1JLTD1002F
59124
R194
Resistor,SMT,MF,10.0Kohms,1%,1/10W,0603
RFFS50
RK73H1JLTD1002F
59124
R195
Resistor,SMT,MF,1000ohms,1%,1/10W,0603
RFFS38
RK73H1JLTD1001F
59124
R196
Resistor,SMT,MF,4750ohms,1%,1/10W,0603
RFFS46
RK73H1JLTD4751F
59124
R197
Resistor,SMT,MF,100ohms,1%,1/10W,0603
RFFS26
RK73H1JLTD1000F
59124
R198
Resistor,SMT,MF,4750ohms,1%,1/10W,0603
RFFS46
RK73H1JLTD4751F
59124
R199
Resistor,SMT,MF,100ohms,1%,1/10W,0603
RFFS26
RK73H1JLTD1000F
59124
R200
Resistor,SMT,MF,4750ohms,1%,1/10W,0603
RFFS46
RK73H1JLTD4751F
59124
R201
Resistor,SMT,MF,4750ohms,1%,1/10W,0603
RFFS46
RK73H1JLTD4751F
59124
R202
Resistor,SMT,MF,4750ohms,1%,1/10W,0603
RFFS46
RK73H1JLTD4751F
59124
R203
Resistor,SMT,MF,4750ohms,1%,1/10W,0603
RFFS46
RK73H1JLTD4751F
59124
R204
Resistor,SMT,MF,100ohms,1%,1/10W,0603
RFFS26
RK73H1JLTD1000F
59124
R205
Resistor,SMT,MF,4750ohms,1%,1/10W,0603
RFFS46
RK73H1JLTD4751F
59124
R206
Resistor,SMT,MF,100ohms,1%,1/10W,0603
RFFS26
RK73H1JLTD1000F
59124
R207
Resistor,SMT,MF,4750ohms,1%,1/10W,0603
RFFS46
RK73H1JLTD4751F
59124
R208
Resistor,SMT,MF,100ohms,1%,1/10W,0603
RFFS26
RK73H1JLTD1000F
59124
R209
Resistor,SMT,MF,4750ohms,1%,1/10W,0603
RFFS46
RK73H1JLTD4751F
59124
Page 20 of 114
NAPC147B
Continued from previous page
NAPC147B
REFDES
Control Display PWB Assy
DESCRIPTION
NAUTEL #
VENDOR #
OEM CODE
R210
Resistor,SMT,MF,100ohms,1%,1/10W,0603
RFFS26
RK73H1JLTD1000F
59124
R211
Resistor,SMT,MF,4750ohms,1%,1/10W,0603
RFFS46
RK73H1JLTD4751F
59124
R212
Resistor,SMT,MF,100ohms,1%,1/10W,0603
RFFS26
RK73H1JLTD1000F
59124
R213
Resistor,SMT,MF,4750ohms,1%,1/10W,0603
RFFS46
RK73H1JLTD4751F
59124
R214
Resistor,SMT,MF,100ohms,1%,1/10W,0603
RFFS26
RK73H1JLTD1000F
59124
R215
Resistor,SMT,MF,4750ohms,1%,1/10W,0603
RFFS46
RK73H1JLTD4751F
59124
R216
Resistor,SMT,MF,100ohms,1%,1/10W,0603
RFFS26
RK73H1JLTD1000F
59124
R217
Resistor,SMT,MF,4750ohms,1%,1/10W,0603
RFFS46
RK73H1JLTD4751F
59124
R218
Resistor,SMT,MF,100ohms,1%,1/10W,0603
RFFS26
RK73H1JLTD1000F
59124
R219
Resistor,SMT,MF,10.0Kohms,1%,1/10W,0603
RFFS50
RK73H1JLTD1002F
59124
R220
Resistor, Film, 4.75 Ohms, 1PC 1/2W
RC09
MF1/2DL4R75F
59124
R221
Resistor, Film, 4.75 Ohms, 1PC 1/2W
RC09
MF1/2DL4R75F
59124
R222
Resistor,SMT,MF,0.0ohms,Jumper,0603
RFFS01
RK73Z1JLTD
59124
R223
Resistor,SMT,MF,10.0Kohms,1%,1/10W,0603
RFFS50
RK73H1JLTD1002F
59124
R224
Resistor,SMT,MF,1000ohms,1%,1/10W,0603
RFFS38
RK73H1JLTD1001F
59124
R225
Resistor,SMT,MF,1000ohms,1%,1/10W,0603
RFFS38
RK73H1JLTD1001F
59124
R226
Resistor,SMT,MF,4750ohms,1%,1/10W,0603
RFFS46
RK73H1JLTD4751F
59124
R227
Resistor,SMT,MF,1500ohms,1%,1/10W,0603
RFFS40
RK73H1JLTD1501F
59124
R228
Resistor,SMT,MF,10.0Kohms,1%,1/10W,0603
RFFS50
RK73H1JLTD1002F
59124
R229
Resistor,SMT,MF,4750ohms,1%,1/10W,0603
RFFS46
RK73H1JLTD4751F
59124
R230
Resistor,SMT,MF,15.0Kohms,1%,1/10W,0603
RFFS52
RK73H1JLTD1502F
59124
R231
Resistor,SMT,MF,10.0Kohms,1%,1/10W,0603
RFFS50
RK73H1JLTD1002F
59124
R232
Resistor,SMT,MF,10.0Kohms,1%,1/10W,0603
RFFS50
RK73H1JLTD1002F
59124
R233
Resistor,SMT,MF,100ohms,1%,1/10W,0603
RFFS26
RK73H1JLTD1000F
59124
R234
Resistor,SMT,MF,10.0Kohms,1%,1/10W,0603
RFFS50
RK73H1JLTD1002F
59124
R235
Resistor,SMT,MF,10.0Kohms,1%,1/10W,0603
RFFS50
RK73H1JLTD1002F
59124
R236
Resistor,SMT,MF,100ohms,1%,1/10W,0603
RFFS26
RK73H1JLTD1000F
59124
R237
Resistor,SMT,MF,10.0Kohms,1%,1/10W,0603
RFFS50
RK73H1JLTD1002F
59124
R238
Resistor,SMT,MF,0.0ohms,Jumper,0603
RFFS01
RK73Z1JLTD
59124
R239
Resistor,SMT,MF,2740ohms,1%,1/10W,0603
RFFS43
RK73H1JLTD2741F
59124
R240
Resistor,SMT,MF,3920ohms,1%,1/10W,0603
RFFS45
RK73H1JLTD3921F
59124
R241
Resistor,SMT,MF,10.0Kohms,1%,1/10W,0603
RFFS50
RK73H1JLTD1002F
59124
R242
Resistor,SMT,MF,33.2Kohms,1%,1/10W,0603
RFFS56
RK73H1JLTD3322F
59124
R243
Resistor, Film, 3.92 Ohms, 1PC 1/2W
RC08
MF1/2DL3R92F
59124
R244
Resistor,SMT,MF,3920ohms,1%,1/10W,0603
RFFS45
RK73H1JLTD3921F
59124
R245
Resistor,SMT,MF,10.0Kohms,1%,1/10W,0603
RFFS50
RK73H1JLTD1002F
59124
R246
Resistor, Film, 3.92 Ohms, 1PC 1/2W
RC08
MF1/2DL3R92F
59124
R247
Resistor,SMT,MF,4750ohms,1%,1/10W,0603
RFFS46
RK73H1JLTD4751F
59124
R248
Resistor,SMT,MF,4750ohms,1%,1/10W,0603
RFFS46
RK73H1JLTD4751F
59124
Page 21 of 114
NAPC147B
Continued from previous page
NAPC147B
REFDES
Control Display PWB Assy
DESCRIPTION
NAUTEL #
VENDOR #
OEM CODE
R249
Resistor,SMT,MF,1000ohms,1%,1/10W,0603
RFFS38
RK73H1JLTD1001F
59124
R250
Resistor,SMT,MF,100ohms,1%,1/10W,0603
RFFS26
RK73H1JLTD1000F
59124
R251
Resistor,SMT,MF,10.0Kohms,1%,1/10W,0603
RFFS50
RK73H1JLTD1002F
59124
R252
Resistor,SMT,MF,3920ohms,1%,1/10W,0603
RFFS45
RK73H1JLTD3921F
59124
R253
Resistor,SMT,MF,100Kohms,1%,1/10W,0603
RFFS62
RK73H1JLTD1003F
59124
R254
Resistor,SMT,MF,475Kohms,1%,1/10W,0603
RFFS70
RK73H1JLTD4753F
59124
R255
Resistor,SMT,MF,475Kohms,1%,1/10W,0603
RFFS70
RK73H1JLTD4753F
59124
U01
IC,SMT,Opamp,Quad,Rail-To-Rail,SOIC-14
ULAS02
TLV2374ID(STATIC)
01295
U02
IC,SMT,Opamp,Quad,Rail-To-Rail,SOIC-14
ULAS02
TLV2374ID(STATIC)
01295
U03
IC,SMT,Opamp,Quad,Rail-To-Rail,SOIC-14
ULAS02
TLV2374ID(STATIC)
01295
U04
IC,SMT,Comparator,Quad,SOIC-14
ULCS01
MC3302D(STATIC)
04713
U05
IC,Low Voltage Temp Sensor,+/-3 Deg,TO-92
UC58
TMP36GT9(STATIC)
45496
U06
IC,SMT,RS-485 Transceiver,Sgl,SOIC-8
UDTS03
DS36C278TM(STATIC) 27014
U07
IC,SMT,Opamp,Quad,Rail-To-Rail,SOIC-14
ULAS02
TLV2374ID(STATIC)
01295
U08
IC,SMT,Opamp,Quad,Rail-To-Rail,SOIC-14
ULAS02
TLV2374ID(STATIC)
01295
U09
IC,SMT,ADC,10-Bit,11-ch,SPI,SOIC-20
UMAS01
TLC1543IDW(STATIC) 01295
U10
IC,SMT,4.096V Reference,0.1%,SOT-23-6
ULRS02
U11
IC,SMT,Opamp,Quad,Rail-To-Rail,SOIC-14
ULAS02
LT1790BIS64.096(STATIC)
TLV2374ID(STATIC)
U12
IC,SMT,ADC,10-Bit,11-ch,SPI,SOIC-20
UMAS01
TLC1543IDW(STATIC) 01295
U13
IC,CMOS,Hex Schmitt,Trigger Inverter,SOIC-14
UG35
MM74HC14M(STATIC) 07263
U14
IC,CMOS,Hex Schmitt,Trigger Inverter,SOIC-14
UG35
MM74HC14M(STATIC) 07263
U15
IC,CMOS,Hex Schmitt,Trigger Inverter,SOIC-14
UG35
MM74HC14M(STATIC) 07263
U16
IC,CMOS,Hex Schmitt,Trigger Inverter,SOIC-14
UG35
MM74HC14M(STATIC) 07263
U17
IC,CMOS,Hex Schmitt,Trigger Inverter,SOIC-14
UG35
MM74HC14M(STATIC) 07263
U18
IC,SMT,Complex Prog Logic Dev,PLCC-84
UX74
U19
Not Used
XC957215PC84I(STATIC)
NOT USED
U20
IC, SMT, SRAM, 32Kx8, SOIC-28(Wide)
UDMS01
U21
IC,SMT,Non-Volatile RAM Ctrlr,SOIC-8
UDSS01
U22
IC, SMT, Micro, ADC, PWM,Flash, TQFP-64
UDMS02
U23
IC, SMT, CMOS, Octal Latch,SOIC-20
UDLS02
U24
IC,CMOS,Hex Schmitt,Trigger Inverter,SOIC-14
UG35
ATMEGA1281FN41
16AI(STATIC)
SN74AHC573DW(STA 01295
TIC)
MM74HC14M(STATIC) 07263
U25
IC,SMT,Real-Time Clock,SPI,SOIC-16
UDTS01
M41T94MQ6(STATIC) U3040
Page 22 of 114
NAPC147B
CY62256NLL55SNXI(STATIC)(RoH
S)
DS1312S-2(STATIC)
64155
01295
68994
37338
65786
0B0A9
Continued from previous page
NAPC147B
REFDES
Control Display PWB Assy
DESCRIPTION
NAUTEL #
U26
IC,SMT,2.5V Reference,0.1%,SOT-23-6
UX83
U27
IC,SMT,Opamp,Quad,Single Supply,SOIC-14
ULAS01
U28
IC,SMT,Opamp,Quad,Single Supply,SOIC-14
U29
IC,SMT,CMOS,Octal Flip Flop,SOIC-20
U30
IC,SMT,Trans Array, 7 Darl.,SOIC-16
U31
U32
VENDOR #
OEM CODE
LT1790BIS62.5(STATIC)
MC33074AD(STATIC)
64155
ULAS01
MC33074AD(STATIC)
04713
UDLS01
UDAS01
SN74AHC574DW(STA 01295
TIC)
MC1413BD(STATIC)
04713
IC,SMT,DAC,8-Bit,4-ch,SPI,SOIC-14
UMDS01
TLV5620ID(STATIC)
64155
IC,SMT,DAC,8-Bit,4-ch,SPI,SOIC-14
UMDS01
TLV5620ID(STATIC)
64155
U33
IC,SMT,CMOS,Octal Flip Flop,SOIC-20
UDLS01
U34
IC,SMT,Trans Array, 7 Darl.,SOIC-16
UDAS01
SN74AHC574DW(STA 01295
TIC)
MC1413BD(STATIC)
04713
U35
IC,SMT,Trans Array, 7 Darl.,SOIC-16
UDAS01
MC1413BD(STATIC)
U36
IC,SMT,CMOS,Octal Flip Flop,SOIC-20
UDLS01
U37
IC,SMT,Trans Array, 7 Darl.,SOIC-16
UDAS01
SN74AHC574DW(STA 01295
TIC)
MC1413BD(STATIC)
04713
U38
IC,SMT,Trans Array, 7 Darl.,SOIC-16
UDAS01
MC1413BD(STATIC)
04713
XBT01
Holder, 20mm Coin Cell, PWB Mt
BBHT01
1065
91833
XE01
Conn, Header, SIP,12 Pin Breakaway,.10 Ctr
JQ16
1-103185-2
09482
XE02
Conn, Header, SIP,12 Pin Breakaway,.10 Ctr
JQ16
1-103185-2
09482
XE03
Conn, Header, SIP,12 Pin Breakaway,.10 Ctr
JQ16
1-103185-2
09482
XJ08
Conn, Header,Square Post,Gold,Dual,40-pin
JF47
4-102973-0
09482
Y01
Crystal,SMT,Fund,Par Res,11.0592MHz
XFPS01
Y02
Crystal,SMT,Fund,Par Res,32.768kHz
XFPS02
CMR309T11.0592MAB 3DX59
JTR
MC20632.7680KA-A0 1JRT7
Page 23 of 114
NAPC147B
04713
04713
NAPC147D
REFDES
Control Display PWB Assy
DESCRIPTION
NAUTEL #
VENDOR #
OEM CODE
BT01
Battery, Lithium, 3V,20mm Coin Cell
BBLT01
CR2032
PANAS
C001
Cap,SMT,Ceramic,0.01uF,10%,50V,X7R,0603
CCFS04
C0603C103K5RAC
31433
C002
Cap,SMT,Ceramic,0.01uF,10%,50V,X7R,0603
CCFS04
C0603C103K5RAC
31433
C003
Cap,SMT,Ceramic,0.01uF,10%,50V,X7R,0603
CCFS04
C0603C103K5RAC
31433
C004
Cap,SMT,Ceramic,0.01uF,10%,50V,X7R,0603
CCFS04
C0603C103K5RAC
31433
C005
Cap,SMT,Ceramic,0.01uF,10%,50V,X7R,0603
CCFS04
C0603C103K5RAC
31433
C006
Cap,SMT,Ceramic,0.01uF,10%,50V,X7R,0603
CCFS04
C0603C103K5RAC
31433
C007
Cap,SMT,Ceramic,0.01uF,10%,50V,X7R,0603
CCFS04
C0603C103K5RAC
31433
C008
Cap,SMT,Ceramic,0.1uF,10%,50V,X7R,0805
CCFS07
C0805C104K5RAC
31433
C009
Cap,SMT,Ceramic,0.1uF,10%,50V,X7R,0805
CCFS07
C0805C104K5RAC
31433
C010
Cap,SMT,Ceramic,0.1uF,10%,50V,X7R,0805
CCFS07
C0805C104K5RAC
31433
C011
Cap,SMT,Ceramic,0.1uF,10%,50V,X7R,0805
CCFS07
C0805C104K5RAC
31433
C012
Cap,SMT,Ceramic,0.001uF,10%,50V,X7R,0603
CCFS01
C0603C102K5RAC
31433
C013
Cap,SMT,Ceramic,0.01uF,10%,50V,X7R,0603
CCFS04
C0603C103K5RAC
31433
C014
Cap,SMT,Ceramic,0.01uF,10%,50V,X7R,0603
CCFS04
C0603C103K5RAC
31433
C015
Cap,SMT,Ceramic,0.01uF,10%,50V,X7R,0603
CCFS04
C0603C103K5RAC
31433
C016
Cap,SMT,Ceramic,0.1uF,10%,50V,X7R,0805
CCFS07
C0805C104K5RAC
31433
C017
Cap,SMT,Ceramic,0.1uF,10%,50V,X7R,0805
CCFS07
C0805C104K5RAC
31433
C018
Cap,SMT,Ceramic,0.001uF,10%,50V,X7R,0603
CCFS01
C0603C102K5RAC
31433
C019
Cap,SMT,Ceramic,0.1uF,10%,50V,X7R,0805
CCFS07
C0805C104K5RAC
31433
C020
Cap,SMT,Ceramic,0.1uF,10%,50V,X7R,0805
CCFS07
C0805C104K5RAC
31433
C021
Cap,SMT,Ceramic,0.1uF,10%,50V,X7R,0805
CCFS07
C0805C104K5RAC
31433
C022
Cap,SMT,Ceramic,0.1uF,10%,50V,X7R,0805
CCFS07
C0805C104K5RAC
31433
C023
Cap,SMT,Ceramic,0.1uF,10%,50V,X7R,0805
CCFS07
C0805C104K5RAC
31433
C024
Cap,SMT,Ceramic,0.001uF,10%,50V,X7R,0603
CCFS01
C0603C102K5RAC
31433
C025
Cap,SMT,Ceramic,0.1uF,10%,50V,X7R,0805
CCFS07
C0805C104K5RAC
31433
C026
Cap,SMT,Ceramic,0.1uF,10%,50V,X7R,0805
CCFS07
C0805C104K5RAC
31433
C027
Cap,SMT,Ceramic,0.1uF,10%,50V,X7R,0805
CCFS07
C0805C104K5RAC
31433
C028
Cap,SMT,Ceramic,0.1uF,10%,50V,X7R,0805
CCFS07
C0805C104K5RAC
31433
C029
Cap,SMT,Ceramic,0.1uF,10%,50V,X7R,0805
CCFS07
C0805C104K5RAC
31433
C030
Cap,SMT,Ceramic,0.1uF,10%,50V,X7R,0805
CCFS07
C0805C104K5RAC
31433
C031
Cap,SMT,Ceramic,0.1uF,10%,50V,X7R,0805
CCFS07
C0805C104K5RAC
31433
C032
Cap,SMT,Ceramic,0.0022uF,10%,50V,X7R,0603
CCFS02
C0603C222K5RAC
31433
C033
Cap,SMT,Ceramic,0.0047uF,10%,50V,X7R,0603
CCFS03
C0603C472K5RAC
31433
C034
Cap,SMT,Ceramic,0.1uF,10%,50V,X7R,0805
CCFS07
C0805C104K5RAC
31433
C035
Cap,SMT,Ceramic,0.1uF,10%,50V,X7R,0805
CCFS07
C0805C104K5RAC
31433
C036
Cap,SMT,Ceramic,0.1uF,10%,50V,X7R,0805
CCFS07
C0805C104K5RAC
31433
C037
Cap,SMT,Ceramic,0.1uF,10%,50V,X7R,0805
CCFS07
C0805C104K5RAC
31433
C038
Cap,SMT,Ceramic,0.1uF,10%,50V,X7R,0805
CCFS07
C0805C104K5RAC
31433
Page 24 of 114
NAPC147D
Continued from previous page
NAPC147D
REFDES
Control Display PWB Assy
DESCRIPTION
NAUTEL #
VENDOR #
OEM CODE
C039
Cap,SMT,Ceramic,0.1uF,10%,50V,X7R,0805
CCFS07
C0805C104K5RAC
31433
C040
Cap,SMT,Ceramic,0.1uF,10%,50V,X7R,0805
CCFS07
C0805C104K5RAC
31433
C041
Cap,SMT,Ceramic,0.1uF,10%,50V,X7R,0805
CCFS07
C0805C104K5RAC
31433
C042
Cap,SMT,Ceramic,0.1uF,10%,50V,X7R,0805
CCFS07
C0805C104K5RAC
31433
C043
Cap,SMT,Ceramic,0.1uF,10%,50V,X7R,0805
CCFS07
C0805C104K5RAC
31433
C044
Cap,SMT,Ceramic,0.1uF,10%,50V,X7R,0805
CCFS07
C0805C104K5RAC
31433
C045
Cap,SMT,Ceramic,0.1uF,10%,50V,X7R,0805
CCFS07
C0805C104K5RAC
31433
C046
Cap,SMT,Ceramic,0.1uF,10%,50V,X7R,0805
CCFS07
C0805C104K5RAC
31433
C047
Cap,SMT,Tantalum,10uF,10%,35V,2917
CTFS03
T494D106K035AS
31433
C048
Cap,SMT,Ceramic,0.01uF,10%,50V,X7R,0603
CCFS04
C0603C103K5RAC
31433
C049
Cap,SMT,Ceramic,0.1uF,10%,50V,X7R,0805
CCFS07
C0805C104K5RAC
31433
C050
Cap,SMT,Ceramic,0.01uF,10%,50V,X7R,0603
CCFS04
C0603C103K5RAC
31433
C051
Cap,SMT,Ceramic,0.1uF,10%,50V,X7R,0805
CCFS07
C0805C104K5RAC
31433
C052
Cap,SMT,Ceramic,0.1uF,10%,50V,X7R,0805
CCFS07
C0805C104K5RAC
31433
C053
Cap,SMT,Ceramic,0.1uF,10%,50V,X7R,0805
CCFS07
C0805C104K5RAC
31433
C054
Cap,SMT,Ceramic,0.01uF,10%,50V,X7R,0603
CCFS04
C0603C103K5RAC
31433
C055
Cap,SMT,Ceramic,0.1uF,10%,50V,X7R,0805
CCFS07
C0805C104K5RAC
31433
C056
Cap,SMT,Ceramic,0.1uF,10%,50V,X7R,0805
CCFS07
C0805C104K5RAC
31433
C057
Cap,SMT,Ceramic,0.1uF,10%,50V,X7R,0805
CCFS07
C0805C104K5RAC
31433
C058
Cap,SMT,Ceramic,0.1uF,10%,50V,X7R,0805
CCFS07
C0805C104K5RAC
31433
C059
Cap,SMT,Ceramic,0.1uF,10%,50V,X7R,0805
CCFS07
C0805C104K5RAC
31433
C060
Cap,SMT,Ceramic,0.1uF,10%,50V,X7R,0805
CCFS07
C0805C104K5RAC
31433
C061
Cap,SMT,Ceramic,0.01uF,10%,50V,X7R,0603
CCFS04
C0603C103K5RAC
31433
C062
Cap,SMT,Ceramic,0.01uF,10%,50V,X7R,0603
CCFS04
C0603C103K5RAC
31433
C063
Cap,SMT,Ceramic,0.01uF,10%,50V,X7R,0603
CCFS04
C0603C103K5RAC
31433
C064
Cap,SMT,Ceramic,0.01uF,10%,50V,X7R,0603
CCFS04
C0603C103K5RAC
31433
C065
Cap,SMT,Ceramic,0.1uF,10%,50V,X7R,0805
CCFS07
C0805C104K5RAC
31433
C066
Cap,SMT,Ceramic,0.1uF,10%,50V,X7R,0805
CCFS07
C0805C104K5RAC
31433
C067
Cap,SMT,Tantalum,10uF,10%,35V,2917
CTFS03
T494D106K035AS
31433
C068
Cap,SMT,Ceramic,0.1uF,10%,50V,X7R,0805
CCFS07
C0805C104K5RAC
31433
C069
Cap,SMT,Ceramic,0.1uF,10%,50V,X7R,0805
CCFS07
C0805C104K5RAC
31433
C070
Cap,SMT,Ceramic,0.01uF,10%,50V,X7R,0603
CCFS04
C0603C103K5RAC
31433
C071
Cap,SMT,Ceramic,0.01uF,10%,50V,X7R,0603
CCFS04
C0603C103K5RAC
31433
C072
Cap,SMT,Tantalum,10uF,10%,35V,2917
CTFS03
T494D106K035AS
31433
C073
Cap,SMT,Ceramic,0.1uF,10%,50V,X7R,0805
CCFS07
C0805C104K5RAC
31433
C074
Cap,SMT,Ceramic,0.1uF,10%,50V,X7R,0805
CCFS07
C0805C104K5RAC
31433
C075
Cap,SMT,Ceramic,0.1uF,10%,50V,X7R,0805
CCFS07
C0805C104K5RAC
31433
C076
Cap,SMT,Ceramic,0.01uF,10%,50V,X7R,0603
CCFS04
C0603C103K5RAC
31433
C077
Cap,SMT,Tantalum,10uF,10%,35V,2917
CTFS03
T494D106K035AS
31433
Page 25 of 114
NAPC147D
Continued from previous page
NAPC147D
REFDES
Control Display PWB Assy
DESCRIPTION
NAUTEL #
VENDOR #
OEM CODE
C078
Cap,SMT,Ceramic,0.1uF,10%,50V,X7R,0805
CCFS07
C0805C104K5RAC
31433
C079
Cap,SMT,Ceramic,0.1uF,10%,50V,X7R,0805
CCFS07
C0805C104K5RAC
31433
C080
Cap,SMT,Ceramic,0.1uF,10%,50V,X7R,0805
CCFS07
C0805C104K5RAC
31433
C081
Cap,SMT,Ceramic,0.1uF,10%,50V,X7R,0805
CCFS07
C0805C104K5RAC
31433
C082
Cap,SMT,Ceramic,0.01uF,10%,50V,X7R,0603
CCFS04
C0603C103K5RAC
31433
C083
Cap,SMT,Ceramic,0.1uF,10%,50V,X7R,0805
CCFS07
C0805C104K5RAC
31433
C084
Cap,SMT,Ceramic,0.1uF,10%,50V,X7R,0805
CCFS07
C0805C104K5RAC
31433
C085
Cap,SMT,Ceramic,0.1uF,10%,50V,X7R,0805
CCFS07
C0805C104K5RAC
31433
C086
Cap,SMT,Ceramic,0.1uF,10%,50V,X7R,0805
CCFS07
C0805C104K5RAC
31433
C087
Cap,SMT,Ceramic,0.1uF,10%,50V,X7R,0805
CCFS07
C0805C104K5RAC
31433
C088
Cap,SMT,Ceramic,0.1uF,10%,50V,X7R,0805
CCFS07
C0805C104K5RAC
31433
C089
Cap,SMT,Ceramic,0.1uF,10%,50V,X7R,0805
CCFS07
C0805C104K5RAC
31433
C090
Cap,SMT,Ceramic,0.1uF,10%,50V,X7R,0805
CCFS07
C0805C104K5RAC
31433
C091
Cap,SMT,Ceramic,0.01uF,10%,50V,X7R,0603
CCFS04
C0603C103K5RAC
31433
C092
Cap,SMT,Ceramic,0.1uF,10%,50V,X7R,0805
CCFS07
C0805C104K5RAC
31433
C093
Cap,SMT,Ceramic,0.01uF,10%,50V,X7R,0603
CCFS04
C0603C103K5RAC
31433
C094
Cap,SMT,Ceramic,0.01uF,10%,50V,X7R,0603
CCFS04
C0603C103K5RAC
31433
C095
Cap,SMT,Ceramic,0.1uF,10%,50V,X7R,0805
CCFS07
C0805C104K5RAC
31433
C096
Cap,SMT,Ceramic,0.01uF,10%,50V,X7R,0603
CCFS04
C0603C103K5RAC
31433
C097
Cap,SMT,Ceramic,0.01uF,10%,50V,X7R,0603
CCFS04
C0603C103K5RAC
31433
C098
Cap,SMT,Ceramic,0.1uF,10%,50V,X7R,0805
CCFS07
C0805C104K5RAC
31433
C099
Cap,SMT,Ceramic,0.01uF,10%,50V,X7R,0603
CCFS04
C0603C103K5RAC
31433
C100
Cap,SMT,Ceramic,0.01uF,10%,50V,X7R,0603
CCFS04
C0603C103K5RAC
31433
C101
Cap,SMT,Ceramic,0.01uF,10%,50V,X7R,0603
CCFS04
C0603C103K5RAC
31433
C102
Cap,SMT,Ceramic,0.1uF,10%,50V,X7R,0805
CCFS07
C0805C104K5RAC
31433
C103
Cap,SMT,Ceramic,0.1uF,10%,50V,X7R,0805
CCFS07
C0805C104K5RAC
31433
C104
Cap,SMT,Ceramic,0.01uF,10%,50V,X7R,0603
CCFS04
C0603C103K5RAC
31433
C105
Cap,SMT,Ceramic,0.01uF,10%,50V,X7R,0603
CCFS04
C0603C103K5RAC
31433
C106
Cap,SMT,Ceramic,0.1uF,10%,50V,X7R,0805
CCFS07
C0805C104K5RAC
31433
C107
Cap,SMT,Ceramic,0.1uF,10%,50V,X7R,0805
CCFS07
C0805C104K5RAC
31433
C108
Cap,SMT,Ceramic,0.1uF,10%,50V,X7R,0805
CCFS07
C0805C104K5RAC
31433
C109
Cap,SMT,Ceramic,0.01uF,10%,50V,X7R,0603
CCFS04
C0603C103K5RAC
31433
C110
Cap,SMT,Ceramic,0.01uF,10%,50V,X7R,0603
CCFS04
C0603C103K5RAC
31433
C111
Cap,SMT,Ceramic,0.01uF,10%,50V,X7R,0603
CCFS04
C0603C103K5RAC
31433
C112
Cap,SMT,Ceramic,0.1uF,10%,50V,X7R,0805
CCFS07
C0805C104K5RAC
31433
C113
Cap,SMT,Ceramic,0.01uF,10%,50V,X7R,0603
CCFS04
C0603C103K5RAC
31433
C114
Cap,SMT,Ceramic,0.01uF,10%,50V,X7R,0603
CCFS04
C0603C103K5RAC
31433
C115
Cap,SMT,Ceramic,0.1uF,10%,50V,X7R,0805
CCFS07
C0805C104K5RAC
31433
C116
Cap,SMT,Ceramic,0.1uF,10%,50V,X7R,0805
CCFS07
C0805C104K5RAC
31433
Page 26 of 114
NAPC147D
Continued from previous page
NAPC147D
REFDES
Control Display PWB Assy
DESCRIPTION
NAUTEL #
VENDOR #
OEM CODE
C117
Cap,SMT,Ceramic,0.01uF,10%,50V,X7R,0603
CCFS04
C0603C103K5RAC
31433
C118
Cap,SMT,Ceramic,0.01uF,10%,50V,X7R,0603
CCFS04
C0603C103K5RAC
31433
C119
Cap,SMT,Ceramic,0.1uF,10%,50V,X7R,0805
CCFS07
C0805C104K5RAC
31433
C120
Cap,SMT,Tantalum,10uF,10%,35V,2917
CTFS03
T494D106K035AS
31433
C121
Cap,SMT,Ceramic,0.01uF,10%,50V,X7R,0603
CCFS04
C0603C103K5RAC
31433
C122
Cap,SMT,Tantalum,10uF,10%,35V,2917
CTFS03
T494D106K035AS
31433
C123
Cap,SMT,Ceramic,0.01uF,10%,50V,X7R,0603
CCFS04
C0603C103K5RAC
31433
C124
Cap,SMT,Ceramic,0.01uF,10%,50V,X7R,0603
CCFS04
C0603C103K5RAC
31433
C125
Cap,SMT,Ceramic,18pF,2%,50V,C0G,0603
CCFS23
C0603C180G5GAC
31433
C126
Cap,SMT,Ceramic,18pF,2%,50V,C0G,0603
CCFS23
C0603C180G5GAC
31433
C127
Cap,SMT,Ceramic,0.1uF,10%,50V,X7R,0805
CCFS07
C0805C104K5RAC
31433
C128
Cap,SMT,Ceramic,0.01uF,10%,50V,X7R,0603
CCFS04
C0603C103K5RAC
31433
C129
Cap,SMT,Ceramic,0.1uF,10%,50V,X7R,0805
CCFS07
C0805C104K5RAC
31433
C130
Cap,SMT,Ceramic,0.01uF,10%,50V,X7R,0603
CCFS04
C0603C103K5RAC
31433
C131
Cap,SMT,Ceramic,0.01uF,10%,50V,X7R,0603
CCFS04
C0603C103K5RAC
31433
C132
Cap,SMT,Ceramic,0.01uF,10%,50V,X7R,0603
CCFS04
C0603C103K5RAC
31433
C133
Cap,SMT,Ceramic,0.1uF,10%,50V,X7R,0805
CCFS07
C0805C104K5RAC
31433
C134
Cap,SMT,Ceramic,0.01uF,10%,50V,X7R,0603
CCFS04
C0603C103K5RAC
31433
C135
Cap,SMT,Ceramic,0.01uF,10%,50V,X7R,0603
CCFS04
C0603C103K5RAC
31433
C136
Cap,SMT,Ceramic,0.01uF,10%,50V,X7R,0603
CCFS04
C0603C103K5RAC
31433
C137
Cap,SMT,Ceramic,0.1uF,10%,50V,X7R,0805
CCFS07
C0805C104K5RAC
31433
C138
Cap,SMT,Ceramic,0.01uF,10%,50V,X7R,0603
CCFS04
C0603C103K5RAC
31433
C139
Cap,SMT,Ceramic,0.01uF,10%,50V,X7R,0603
CCFS04
C0603C103K5RAC
31433
C140
Cap,SMT,Ceramic,0.1uF,10%,50V,X7R,0805
CCFS07
C0805C104K5RAC
31433
C141
Cap,SMT,Ceramic,0.1uF,10%,50V,X7R,0805
CCFS07
C0805C104K5RAC
31433
C142
Cap,SMT,Ceramic,0.1uF,10%,50V,X7R,0805
CCFS07
C0805C104K5RAC
31433
C143
Cap,SMT,Ceramic,0.1uF,10%,50V,X7R,0805
CCFS07
C0805C104K5RAC
31433
C144
Cap,SMT,Ceramic,0.01uF,10%,50V,X7R,0603
CCFS04
C0603C103K5RAC
31433
C145
Cap,SMT,Ceramic,0.1uF,10%,50V,X7R,0805
CCFS07
C0805C104K5RAC
31433
C146
Cap,SMT,Tantalum,10uF,10%,35V,2917
CTFS03
T494D106K035AS
31433
C147
Cap,SMT,Ceramic,0.1uF,10%,50V,X7R,0805
CCFS07
C0805C104K5RAC
31433
C148
Cap,SMT,Ceramic,0.1uF,10%,50V,X7R,0805
CCFS07
C0805C104K5RAC
31433
C149
Cap,SMT,Ceramic,0.1uF,10%,50V,X7R,0805
CCFS07
C0805C104K5RAC
31433
C150
Cap,SMT,Ceramic,0.1uF,10%,50V,X7R,0805
CCFS07
C0805C104K5RAC
31433
C151
Cap,SMT,Ceramic,0.1uF,10%,50V,X7R,0805
CCFS07
C0805C104K5RAC
31433
C152
Cap,SMT,Ceramic,0.1uF,10%,50V,X7R,0805
CCFS07
C0805C104K5RAC
31433
C153
Cap,SMT,Ceramic,0.1uF,10%,50V,X7R,0805
CCFS07
C0805C104K5RAC
31433
C154
Cap,SMT,Ceramic,0.01uF,10%,50V,X7R,0603
CCFS04
C0603C103K5RAC
31433
C155
Cap,SMT,Ceramic,0.1uF,10%,50V,X7R,0805
CCFS07
C0805C104K5RAC
31433
Page 27 of 114
NAPC147D
Continued from previous page
NAPC147D
REFDES
Control Display PWB Assy
DESCRIPTION
NAUTEL #
VENDOR #
OEM CODE
C156
Cap,SMT,Ceramic,0.01uF,10%,50V,X7R,0603
CCFS04
C0603C103K5RAC
31433
C157
Cap,SMT,Ceramic,0.1uF,10%,50V,X7R,0805
CCFS07
C0805C104K5RAC
31433
C158
Cap,SMT,Tantalum,10uF,10%,35V,2917
CTFS03
T494D106K035AS
31433
C159
Cap,SMT,Ceramic,0.01uF,10%,50V,X7R,0603
CCFS04
C0603C103K5RAC
31433
C160
Cap,SMT,Ceramic,0.1uF,10%,50V,X7R,0805
CCFS07
C0805C104K5RAC
31433
C161
Cap,SMT,Ceramic,0.01uF,10%,50V,X7R,0603
CCFS04
C0603C103K5RAC
31433
C162
Cap,SMT,Ceramic,0.1uF,10%,50V,X7R,0805
CCFS07
C0805C104K5RAC
31433
C163
Cap,SMT,Ceramic,0.01uF,10%,50V,X7R,0603
CCFS04
C0603C103K5RAC
31433
C164
Cap,SMT,Ceramic,0.47uF,10%,25V,X7R,0805
CCFS09
C0805C474K3RAC
31433
C165
Cap,SMT,Ceramic,0.1uF,10%,50V,X7R,0805
CCFS07
C0805C104K5RAC
31433
C166
Cap,SMT,Ceramic,0.1uF,10%,50V,X7R,0805
CCFS07
C0805C104K5RAC
31433
CR01
Diode,SMT,Schottky,30V,0.2A,SOD-323
QDSS01
BAT54HT1(STATIC)
04713
CR02
Diode,SMT,Schottky,30V,0.2A,SOD-323
QDSS01
BAT54HT1(STATIC)
04713
CR03
Diode,SMT,Schottky,30V,0.2A,SOD-323
QDSS01
BAT54HT1(STATIC)
04713
CR04
Diode,SMT,Schottky,30V,0.2A,SOD-323
QDSS01
BAT54HT1(STATIC)
04713
CR05
Diode,SMT,Schottky,30V,0.2A,SOD-323
QDSS01
BAT54HT1(STATIC)
04713
CR06
Diode,SMT,Schottky,30V,0.2A,SOD-323
QDSS01
BAT54HT1(STATIC)
04713
CR07
Diode,SMT,Schottky,30V,0.2A,SOD-323
QDSS01
BAT54HT1(STATIC)
04713
CR08
Diode,SMT,Schottky,30V,0.2A,SOD-323
QDSS01
BAT54HT1(STATIC)
04713
CR09
Diode,SMT,Schottky,30V,0.2A,SOD-323
QDSS01
BAT54HT1(STATIC)
04713
CR10
Diode,SMT,Schottky,30V,0.2A,SOD-323
QDSS01
BAT54HT1(STATIC)
04713
CR11
Diode,SMT,Schottky,30V,0.2A,SOD-323
QDSS01
BAT54HT1(STATIC)
04713
CR12
Diode,SMT,Schottky,30V,0.2A,SOD-323
QDSS01
BAT54HT1(STATIC)
04713
CR13
Diode,SMT,Schottky,30V,0.2A,SOD-323
QDSS01
BAT54HT1(STATIC)
04713
CR14
Diode,SMT,Schottky,30V,0.2A,SOD-323
QDSS01
BAT54HT1(STATIC)
04713
CR15
Diode,SMT,Schottky,30V,0.2A,SOD-323
QDSS01
BAT54HT1(STATIC)
04713
CR16
Diode,SMT,Zener,39V,5%,3W,SMB
QDZS04
1SMB5939BT3
04713
E01
Conn, Post Shunt, 2 Pos, .10 Centreline
JQ15
390088-2
09482
E02
Conn, Post Shunt, 2 Pos, .10 Centreline
JQ15
390088-2
09482
E03
Conn, Post Shunt, 2 Pos, .10 Centreline
JQ15
390088-2
09482
J01
Conn, Header, Ribbon Cbl, 40 pin
JP52
499910-9
00779
J02
Conn, Plug, D-Sub, 25 pin, PWB Mt
JS12
K22-B25P-NJ
63590
J03
Conn, Header, SIP,12 Pin Breakaway,.10 Ctr
JQ16
1-103185-2
09482
J04
Conn, Header, Ribbon Cbl, 40 pin
JP52
499910-9
00779
J05
Conn, Header, SIP,12 Pin Breakaway,.10 Ctr
JQ16
1-103185-2
09482
J06
Conn, Header, SIP,12 Pin Breakaway,.10 Ctr
JQ16
1-103185-2
09482
J07
Conn, Header, Ribbon Cbl, 40 pin
JP52
499910-9
00779
J08
Conn, Header,Square Post,Gold,Dual,40-pin
JF47
4-102973-0
09482
J09
Conn, Header, Ribbon Cbl, 20Pin
JQ55
103308-5
00779
Page 28 of 114
NAPC147D
Continued from previous page
NAPC147D
REFDES
Control Display PWB Assy
DESCRIPTION
NAUTEL #
VENDOR #
OEM CODE
J10
Conn, Header,Square Post,Gold,Dual,40-pin
JF47
4-102973-0
09482
J11
MTA, Keyed Square Post HeaderAssy, 4 pin
JU25
647123-4
00779
L01
Inductor, SMT, Choke, 600ohms,2A, 0805
LCFS01
ILHB0805RK601V
56845
L02
Inductor, SMT, Choke, 600ohms,2A, 0805
LCFS01
ILHB0805RK601V
56845
L03
Inductor, SMT, Choke, 600ohms,2A, 0805
LCFS01
ILHB0805RK601V
56845
L04
Inductor, SMT, Choke, 600ohms,2A, 0805
LCFS01
ILHB0805RK601V
56845
L05
Inductor, SMT, Choke, 600ohms,2A, 0805
LCFS01
ILHB0805RK601V
56845
L06
Inductor, SMT, Choke, 600ohms,2A, 0805
LCFS01
ILHB0805RK601V
56845
L07
Inductor, SMT, Choke, 600ohms,2A, 0805
LCFS01
ILHB0805RK601V
56845
L08
Inductor, SMT, Choke, 600ohms,2A, 0805
LCFS01
ILHB0805RK601V
56845
L09
Inductor, SMT, Choke, 600ohms,2A, 0805
LCFS01
ILHB0805RK601V
56845
L10
Inductor, SMT, Choke, 600ohms,2A, 0805
LCFS01
ILHB0805RK601V
56845
L11
Inductor, SMT, Choke, 600ohms,2A, 0805
LCFS01
ILHB0805RK601V
56845
L12
Inductor, SMT, Choke, 600ohms,2A, 0805
LCFS01
ILHB0805RK601V
56845
L13
Inductor, SMT, Choke, 600ohms,2A, 0805
LCFS01
ILHB0805RK601V
56845
L14
Inductor, SMT, Choke, 600ohms,2A, 0805
LCFS01
ILHB0805RK601V
56845
L15
Inductor, SMT, Choke, 600ohms,2A, 0805
LCFS01
ILHB0805RK601V
56845
LS01
Alarm, Audio Piezoelectric,Sonalert
LP30
MSR516N
90201
Q01
Transistor,SMT,NPN,Switch/Amp,SOT-23
QBNS01
04713
Q02
Transistor,SMT,NPN,Switch/Amp,SOT-23
QBNS01
Q03
Transistor,SMT,NPN,Switch/Amp,SOT-23
QBNS01
Q04
Transistor,SMT,NPN,Switch/Amp,SOT-23
QBNS01
Q05
QN53
R001
Transistor,SMT,MOSFET,N-Channel,60V,115mA,SOT23
Resistor,SMT,MF,4750ohms,1%,1/10W,0603
RFFS46
MMBT4401LT1(STATI
C)
MMBT4401LT1(STATI
C)
MMBT4401LT1(STATI
C)
MMBT4401LT1(STATI
C)
2N7002LT1G(STATIC)
(ROHS)
RK73H1JLTD4751F
59124
R002
Resistor,SMT,MF,100ohms,1%,1/10W,0603
RFFS26
RK73H1JLTD1000F
59124
R003
Resistor,SMT,MF,100ohms,1%,1/10W,0603
RFFS26
RK73H1JLTD1000F
59124
R004
Resistor,SMT,MF,4750ohms,1%,1/10W,0603
RFFS46
RK73H1JLTD4751F
59124
R005
Resistor,SMT,MF,100ohms,1%,1/10W,0603
RFFS26
RK73H1JLTD1000F
59124
R006
Resistor,SMT,MF,100ohms,1%,1/10W,0603
RFFS26
RK73H1JLTD1000F
59124
R007
Resistor,SMT,MF,100ohms,1%,1/10W,0603
RFFS26
RK73H1JLTD1000F
59124
R008
Resistor,SMT,MF,4750ohms,1%,1/10W,0603
RFFS46
RK73H1JLTD4751F
59124
R009
Resistor,SMT,MF,4750ohms,1%,1/10W,0603
RFFS46
RK73H1JLTD4751F
59124
R010
Resistor,SMT,MF,100ohms,1%,1/10W,0603
RFFS26
RK73H1JLTD1000F
59124
R011
Resistor,SMT,MF,100ohms,1%,1/10W,0603
RFFS26
RK73H1JLTD1000F
59124
R012
Resistor,SMT,MF,4750ohms,1%,1/10W,0603
RFFS46
RK73H1JLTD4751F
59124
R013
Resistor,SMT,MF,4750ohms,1%,1/10W,0603
RFFS46
RK73H1JLTD4751F
59124
R014
Resistor,SMT,MF,100ohms,1%,1/10W,0603
RFFS26
RK73H1JLTD1000F
59124
Page 29 of 114
NAPC147D
04713
04713
04713
1MQ07
Continued from previous page
NAPC147D
REFDES
Control Display PWB Assy
DESCRIPTION
NAUTEL #
VENDOR #
OEM CODE
R015
Resistor,SMT,MF,100ohms,1%,1/10W,0603
RFFS26
RK73H1JLTD1000F
59124
R016
Resistor,SMT,MF,4750ohms,1%,1/10W,0603
RFFS46
RK73H1JLTD4751F
59124
R017
Resistor,SMT,MF,475Kohms,1%,1/10W,0603
RFFS70
RK73H1JLTD4753F
59124
R018
Resistor,SMT,MF,475Kohms,1%,1/10W,0603
RFFS70
RK73H1JLTD4753F
59124
R019
Resistor,SMT,MF,10.0Kohms,1%,1/10W,0603
RFFS50
RK73H1JLTD1002F
59124
R020
Resistor,SMT,MF,1000ohms,1%,1/10W,0603
RFFS38
RK73H1JLTD1001F
59124
R021
Resistor,SMT,MF,10.0Kohms,1%,1/10W,0603
RFFS50
RK73H1JLTD1002F
59124
R022
Resistor,SMT,MF,8250ohms,1%,1/10W,0603
RFFS49
RK73H1JLTD8251F
59124
R023
Resistor,SMT,MF,4750ohms,1%,1/10W,0603
RFFS46
RK73H1JLTD4751F
59124
R024
Resistor,SMT,MF,100ohms,1%,1/10W,0603
RFFS26
RK73H1JLTD1000F
59124
R025
Resistor,SMT,MF,100ohms,1%,1/10W,0603
RFFS26
RK73H1JLTD1000F
59124
R026
Resistor,SMT,MF,4750ohms,1%,1/10W,0603
RFFS46
RK73H1JLTD4751F
59124
R027
Resistor,SMT,MF,4750ohms,1%,1/10W,0603
RFFS46
RK73H1JLTD4751F
59124
R028
Resistor,SMT,MF,100ohms,1%,1/10W,0603
RFFS26
RK73H1JLTD1000F
59124
R029
Resistor,SMT,MF,10.0Kohms,1%,1/10W,0603
RFFS50
RK73H1JLTD1002F
59124
R030
Resistor,SMT,MF,1000ohms,1%,1/10W,0603
RFFS38
RK73H1JLTD1001F
59124
R031
Resistor,SMT,MF,100ohms,1%,1/10W,0603
RFFS26
RK73H1JLTD1000F
59124
R032
Resistor,SMT,MF,100ohms,1%,1/10W,0603
RFFS26
RK73H1JLTD1000F
59124
R033
Resistor,SMT,MF,10.0Kohms,1%,1/10W,0603
RFFS50
RK73H1JLTD1002F
59124
R034
Resistor,SMT,MF,1000ohms,1%,1/10W,0603
RFFS38
RK73H1JLTD1001F
59124
R035
Resistor,SMT,MF,10.0Kohms,1%,1/10W,0603
RFFS50
RK73H1JLTD1002F
59124
R036
Resistor,SMT,MF,1000ohms,1%,1/10W,0603
RFFS38
RK73H1JLTD1001F
59124
R037
Resistor,SMT,MF,39.2Kohms,1%,1/10W,0603
RFFS57
RK73H1JLTD3922F
59124
R038
Resistor,SMT,MF,10.0Kohms,1%,1/10W,0603
RFFS50
RK73H1JLTD1002F
59124
R039
Resistor,SMT,MF,475Kohms,1%,1/10W,0603
RFFS70
RK73H1JLTD4753F
59124
R040
Resistor,SMT,MF,475Kohms,1%,1/10W,0603
RFFS70
RK73H1JLTD4753F
59124
R041
Resistor,SMT,MF,100ohms,1%,1/10W,0603
RFFS26
RK73H1JLTD1000F
59124
R042
Resistor,SMT,MF,475Kohms,1%,1/10W,0603
RFFS70
RK73H1JLTD4753F
59124
R043
Resistor,SMT,MF,475Kohms,1%,1/10W,0603
RFFS70
RK73H1JLTD4753F
59124
R044
Resistor,SMT,MF,475Kohms,1%,1/10W,0603
RFFS70
RK73H1JLTD4753F
59124
R045
Resistor,SMT,MF,10.0Kohms,1%,1/10W,0603
RFFS50
RK73H1JLTD1002F
59124
R046
Resistor,SMT,MF,1000ohms,1%,1/10W,0603
RFFS38
RK73H1JLTD1001F
59124
R047
Resistor,SMT,MF,10.0Kohms,1%,1/10W,0603
RFFS50
RK73H1JLTD1002F
59124
R048
Resistor,SMT,MF,1000ohms,1%,1/10W,0603
RFFS38
RK73H1JLTD1001F
59124
R049
Resistor,SMT,MF,100ohms,1%,1/10W,0603
RFFS26
RK73H1JLTD1000F
59124
R050
Not Used
NOT USED
37338
R051
Resistor,SMT,MF,0.0ohms,Jumper,0603
RFFS01
RK73Z1JLTD
59124
R052
Resistor,SMT,MF,475Kohms,1%,1/10W,0603
RFFS70
RK73H1JLTD4753F
59124
R053
Resistor,SMT,MF,100ohms,1%,1/10W,0603
RFFS26
RK73H1JLTD1000F
59124
Page 30 of 114
NAPC147D
Continued from previous page
NAPC147D
REFDES
Control Display PWB Assy
DESCRIPTION
NAUTEL #
VENDOR #
OEM CODE
R054
Resistor,SMT,MF,475Kohms,1%,1/10W,0603
RFFS70
RK73H1JLTD4753F
59124
R055
Resistor,SMT,MF,475Kohms,1%,1/10W,0603
RFFS70
RK73H1JLTD4753F
59124
R056
Resistor,SMT,MF,475Kohms,1%,1/10W,0603
RFFS70
RK73H1JLTD4753F
59124
R057
Resistor,SMT,MF,10.0Kohms,1%,1/10W,0603
RFFS50
RK73H1JLTD1002F
59124
R058
Resistor,SMT,MF,1000ohms,1%,1/10W,0603
RFFS38
RK73H1JLTD1001F
59124
R059
Resistor,SMT,MF,100ohms,1%,1/10W,0603
RFFS26
RK73H1JLTD1000F
59124
R060
Resistor,SMT,MF,475Kohms,1%,1/10W,0603
RFFS70
RK73H1JLTD4753F
59124
R061
Resistor,SMT,MF,5620ohms,1%,1/10W,0603
RFFS47
RK73H1JLTD5621F
59124
R062
Resistor,SMT,MF,8250ohms,1%,1/10W,0603
RFFS49
RK73H1JLTD8251F
59124
R063
Resistor,SMT,MF,4750ohms,1%,1/10W,0603
RFFS46
RK73H1JLTD4751F
59124
R064
Resistor,SMT,MF,100Kohms,1%,1/10W,0603
RFFS62
RK73H1JLTD1003F
59124
R065
Resistor,SMT,MF,1500ohms,1%,1/10W,0603
RFFS40
RK73H1JLTD1501F
59124
R066
Resistor,SMT,MF,100ohms,1%,1/10W,0603
RFFS26
RK73H1JLTD1000F
59124
R067
Resistor,SMT,MF,100ohms,1%,1/10W,0603
RFFS26
RK73H1JLTD1000F
59124
R068
Resistor,SMT,MF,475Kohms,1%,1/10W,0603
RFFS70
RK73H1JLTD4753F
59124
R069
Resistor,SMT,MF,10.0Kohms,1%,1/10W,0603
RFFS50
RK73H1JLTD1002F
59124
R070
Resistor,SMT,MF,1000ohms,1%,1/10W,0603
RFFS38
RK73H1JLTD1001F
59124
R071
Resistor,SMT,MF,100ohms,1%,1/10W,0603
RFFS26
RK73H1JLTD1000F
59124
R072
Resistor,SMT,MF,475Kohms,1%,1/10W,0603
RFFS70
RK73H1JLTD4753F
59124
R073
Resistor,SMT,MF,475Kohms,1%,1/10W,0603
RFFS70
RK73H1JLTD4753F
59124
R074
Resistor,SMT,MF,475Kohms,1%,1/10W,0603
RFFS70
RK73H1JLTD4753F
59124
R075
Resistor,SMT,MF,10.0Kohms,1%,1/10W,0603
RFFS50
RK73H1JLTD1002F
59124
R076
Resistor,SMT,MF,1000ohms,1%,1/10W,0603
RFFS38
RK73H1JLTD1001F
59124
R077
Resistor,SMT,MF,10.0Kohms,1%,1/10W,0603
RFFS50
RK73H1JLTD1002F
59124
R078
Resistor,SMT,MF,4750ohms,1%,1/10W,0603
RFFS46
RK73H1JLTD4751F
59124
R079
Resistor,SMT,MF,100Kohms,1%,1/10W,0603
RFFS62
RK73H1JLTD1003F
59124
R080
Resistor,SMT,MF,1500ohms,1%,1/10W,0603
RFFS40
RK73H1JLTD1501F
59124
R081
Resistor,SMT,MF,475Kohms,1%,1/10W,0603
RFFS70
RK73H1JLTD4753F
59124
R082
Resistor,SMT,MF,15.0Kohms,1%,1/10W,0603
RFFS52
RK73H1JLTD1502F
59124
R083
Resistor,SMT,MF,10.0Kohms,1%,1/10W,0603
RFFS50
RK73H1JLTD1002F
59124
R084
Resistor,SMT,MF,10.0Kohms,1%,1/10W,0603
RFFS50
RK73H1JLTD1002F
59124
R085
Resistor,SMT,MF,1000ohms,1%,1/10W,0603
RFFS38
RK73H1JLTD1001F
59124
R086
Resistor,SMT,MF,10.0Kohms,1%,1/10W,0603
RFFS50
RK73H1JLTD1002F
59124
R087
Resistor,SMT,MF,1000ohms,1%,1/10W,0603
RFFS38
RK73H1JLTD1001F
59124
R088
Resistor,SMT,MF,10.0Kohms,1%,1/10W,0603
RFFS50
RK73H1JLTD1002F
59124
R089
Resistor,SMT,MF,4750ohms,1%,1/10W,0603
RFFS46
RK73H1JLTD4751F
59124
R090
Resistor,SMT,MF,100ohms,1%,1/10W,0603
RFFS26
RK73H1JLTD1000F
59124
R091
Resistor, SMT, MF, 221 Ohms,1% 1/4W
RAD17
RK73H2BL2210F
59124
R092
Resistor, SMT, MF, 221 Ohms,1% 1/4W
RAD17
RK73H2BL2210F
59124
Page 31 of 114
NAPC147D
Continued from previous page
NAPC147D
REFDES
Control Display PWB Assy
DESCRIPTION
NAUTEL #
VENDOR #
OEM CODE
R093
Resistor,SMT,MF,10.0Kohms,1%,1/10W,0603
RFFS50
RK73H1JLTD1002F
59124
R094
Resistor,SMT,MF,1000ohms,1%,1/10W,0603
RFFS38
RK73H1JLTD1001F
59124
R095
Resistor,SMT,MF,68.1Kohms,1%,1/10W,0603
RFFS60
RK73H1JLTD6812F
59124
R096
Resistor,SMT,MF,1000ohms,1%,1/10W,0603
RFFS38
RK73H1JLTD1001F
59124
R097
Resistor,SMT,MF,10.0Kohms,1%,1/10W,0603
RFFS50
RK73H1JLTD1002F
59124
R098
Resistor,SMT,MF,100ohms,1%,1/10W,0603
RFFS26
RK73H1JLTD1000F
59124
R099
Resistor,SMT,MF,475Kohms,1%,1/10W,0603
RFFS70
RK73H1JLTD4753F
59124
R100
Resistor,SMT,MF,681ohms,1%,1/10W,0603
RFFS36
RK73H1JLTD6810F
59124
R101
Resistor,SMT,MF,681ohms,1%,1/10W,0603
RFFS36
RK73H1JLTD6810F
59124
R102
Resistor,SMT,MF,10.0Kohms,1%,1/10W,0603
RFFS50
RK73H1JLTD1002F
59124
R103
Resistor,SMT,MF,10.0Kohms,1%,1/10W,0603
RFFS50
RK73H1JLTD1002F
59124
R104
Resistor,SMT,MF,10.0Kohms,1%,1/10W,0603
RFFS50
RK73H1JLTD1002F
59124
R105
Resistor,SMT,MF,475Kohms,1%,1/10W,0603
RFFS70
RK73H1JLTD4753F
59124
R106
Resistor,SMT,MF,100ohms,1%,1/10W,0603
RFFS26
RK73H1JLTD1000F
59124
R107
Resistor,SMT,MF,10.0Kohms,1%,1/10W,0603
RFFS50
RK73H1JLTD1002F
59124
R108
Resistor,SMT,MF,100ohms,1%,1/10W,0603
RFFS26
RK73H1JLTD1000F
59124
R109
Resistor,SMT,MF,100ohms,1%,1/10W,0603
RFFS26
RK73H1JLTD1000F
59124
R110
Resistor,SMT,MF,100ohms,1%,1/10W,0603
RFFS26
RK73H1JLTD1000F
59124
R111
Resistor,SMT,MF,100ohms,1%,1/10W,0603
RFFS26
RK73H1JLTD1000F
59124
R112
Resistor,SMT,MF,100ohms,1%,1/10W,0603
RFFS26
RK73H1JLTD1000F
59124
R113
Resistor,SMT,MF,475Kohms,1%,1/10W,0603
RFFS70
RK73H1JLTD4753F
59124
R114
Resistor,SMT,MF,475Kohms,1%,1/10W,0603
RFFS70
RK73H1JLTD4753F
59124
R115
Resistor,SMT,MF,4750ohms,1%,1/10W,0603
RFFS46
RK73H1JLTD4751F
59124
R116
Resistor,SMT,MF,100ohms,1%,1/10W,0603
RFFS26
RK73H1JLTD1000F
59124
R117
Resistor,SMT,MF,10.0Kohms,1%,1/10W,0603
RFFS50
RK73H1JLTD1002F
59124
R118
Resistor,SMT,MF,47.5Kohms,1%,1/10W,0603
RFFS58
RK73H1JLTD4752F
59124
R119
Resistor,SMT,MF,1210ohms,1%,1/10W,0603
RFFS39
RK73H1JLTD1211F
59124
R120
Resistor,SMT,MF,4750ohms,1%,1/10W,0603
RFFS46
RK73H1JLTD4751F
59124
R121
Resistor,SMT,MF,100ohms,1%,1/10W,0603
RFFS26
RK73H1JLTD1000F
59124
R122
Resistor,SMT,MF,10.0Kohms,1%,1/10W,0603
RFFS50
RK73H1JLTD1002F
59124
R123
Resistor,SMT,MF,10.0Kohms,1%,1/10W,0603
RFFS50
RK73H1JLTD1002F
59124
R124
Resistor,SMT,MF,475Kohms,1%,1/10W,0603
RFFS70
RK73H1JLTD4753F
59124
R125
Resistor,SMT,MF,475Kohms,1%,1/10W,0603
RFFS70
RK73H1JLTD4753F
59124
R126
Resistor,SMT,MF,10.0Kohms,1%,1/10W,0603
RFFS50
RK73H1JLTD1002F
59124
R127
Resistor,SMT,MF,1000ohms,1%,1/10W,0603
RFFS38
RK73H1JLTD1001F
59124
R128
Resistor,SMT,MF,4750ohms,1%,1/10W,0603
RFFS46
RK73H1JLTD4751F
59124
R129
Resistor,SMT,MF,100ohms,1%,1/10W,0603
RFFS26
RK73H1JLTD1000F
59124
R130
Resistor,SMT,MF,4750ohms,1%,1/10W,0603
RFFS46
RK73H1JLTD4751F
59124
R131
Resistor,SMT,MF,100ohms,1%,1/10W,0603
RFFS26
RK73H1JLTD1000F
59124
Page 32 of 114
NAPC147D
Continued from previous page
NAPC147D
REFDES
Control Display PWB Assy
DESCRIPTION
NAUTEL #
VENDOR #
OEM CODE
R132
Resistor,SMT,MF,22.1Kohms,1%,1/10W,0603
RFFS54
RK73H1JLTD2212F
59124
R133
Resistor,SMT,MF,1820ohms,1%,1/10W,0603
RFFS41
RK73H1JLTD1821F
59124
R134
Resistor,SMT,MF,12.1Kohms,1%,1/10W,0603
RFFS51
RK73H1JLTD1212F
59124
R135
Resistor,SMT,MF,10.0Kohms,1%,1/10W,0603
RFFS50
RK73H1JLTD1002F
59124
R136
Resistor,SMT,MF,10.0Kohms,1%,1/10W,0603
RFFS50
RK73H1JLTD1002F
59124
R137
Resistor,SMT,MF,100ohms,1%,1/10W,0603
RFFS26
RK73H1JLTD1000F
59124
R138
Resistor,SMT,MF,475Kohms,1%,1/10W,0603
RFFS70
RK73H1JLTD4753F
59124
R139
Resistor,SMT,MF,475Kohms,1%,1/10W,0603
RFFS70
RK73H1JLTD4753F
59124
R140
Resistor,SMT,MF,10.0Kohms,1%,1/10W,0603
RFFS50
RK73H1JLTD1002F
59124
R141
Resistor,SMT,MF,10.0Kohms,1%,1/10W,0603
RFFS50
RK73H1JLTD1002F
59124
R142
Resistor,SMT,MF,10.0Kohms,1%,1/10W,0603
RFFS50
RK73H1JLTD1002F
59124
R143
Resistor,SMT,MF,10.0Kohms,1%,1/10W,0603
RFFS50
RK73H1JLTD1002F
59124
R144
Resistor,SMT,MF,475ohms,1%,1/10W,0603
RFFS34
RK73H1JLTD4750F
59124
R145
Resistor,SMT,MF,475ohms,1%,1/10W,0603
RFFS34
RK73H1JLTD4750F
59124
R146
Resistor,SMT,MF,475ohms,1%,1/10W,0603
RFFS34
RK73H1JLTD4750F
59124
R147
Not Used
NOT USED
37338
R148
Resistor,SMT,MF,10.0Kohms,1%,1/10W,0603
RFFS50
RK73H1JLTD1002F
59124
R149
Resistor,SMT,MF,10.0Kohms,1%,1/10W,0603
RFFS50
RK73H1JLTD1002F
59124
R150
Resistor,SMT,MF,10.0Kohms,1%,1/10W,0603
RFFS50
RK73H1JLTD1002F
59124
R151
Resistor,SMT,MF,475ohms,1%,1/10W,0603
RFFS34
RK73H1JLTD4750F
59124
R152
Resistor,SMT,MF,475ohms,1%,1/10W,0603
RFFS34
RK73H1JLTD4750F
59124
R153
Resistor,SMT,MF,475ohms,1%,1/10W,0603
RFFS34
RK73H1JLTD4750F
59124
R154
Resistor,SMT,MF,10.0Kohms,1%,1/10W,0603
RFFS50
RK73H1JLTD1002F
59124
R155
Resistor,SMT,MF,475ohms,1%,1/10W,0603
RFFS34
RK73H1JLTD4750F
59124
R156
Resistor,SMT,MF,2210ohms,1%,1/10W,0603
RFFS42
RK73H1JLTD2211F
59124
R157
Resistor,SMT,MF,2210ohms,1%,1/10W,0603
RFFS42
RK73H1JLTD2211F
59124
R158
Resistor,SMT,MF,4750ohms,1%,1/10W,0603
RFFS46
RK73H1JLTD4751F
59124
R159
Resistor,SMT,MF,100ohms,1%,1/10W,0603
RFFS26
RK73H1JLTD1000F
59124
R160
Resistor,SMT,MF,10.0Kohms,1%,1/10W,0603
RFFS50
RK73H1JLTD1002F
59124
R161
Resistor,SMT,MF,10.0Kohms,1%,1/10W,0603
RFFS50
RK73H1JLTD1002F
59124
R162
Resistor,SMT,MF,2210ohms,1%,1/10W,0603
RFFS42
RK73H1JLTD2211F
59124
R163
Resistor,SMT,MF,2210ohms,1%,1/10W,0603
RFFS42
RK73H1JLTD2211F
59124
R164
Resistor,SMT,MF,2210ohms,1%,1/10W,0603
RFFS42
RK73H1JLTD2211F
59124
R165
Resistor,SMT,MF,4750ohms,1%,1/10W,0603
RFFS46
RK73H1JLTD4751F
59124
R166
Resistor,SMT,MF,100ohms,1%,1/10W,0603
RFFS26
RK73H1JLTD1000F
59124
R167
Resistor,SMT,MF,4750ohms,1%,1/10W,0603
RFFS46
RK73H1JLTD4751F
59124
R168
Resistor,SMT,MF,100ohms,1%,1/10W,0603
RFFS26
RK73H1JLTD1000F
59124
R169
Resistor,SMT,MF,2210ohms,1%,1/10W,0603
RFFS42
RK73H1JLTD2211F
59124
R170
Resistor,SMT,MF,2210ohms,1%,1/10W,0603
RFFS42
RK73H1JLTD2211F
59124
Page 33 of 114
NAPC147D
Continued from previous page
NAPC147D
REFDES
Control Display PWB Assy
DESCRIPTION
NAUTEL #
VENDOR #
OEM CODE
R171
Resistor,SMT,MF,2210ohms,1%,1/10W,0603
RFFS42
RK73H1JLTD2211F
59124
R172
Resistor,SMT,MF,4750ohms,1%,1/10W,0603
RFFS46
RK73H1JLTD4751F
59124
R173
Resistor,SMT,MF,100ohms,1%,1/10W,0603
RFFS26
RK73H1JLTD1000F
59124
R174
Resistor,SMT,MF,4750ohms,1%,1/10W,0603
RFFS46
RK73H1JLTD4751F
59124
R175
Resistor,SMT,MF,100ohms,1%,1/10W,0603
RFFS26
RK73H1JLTD1000F
59124
R176
Resistor,SMT,MF,2210ohms,1%,1/10W,0603
RFFS42
RK73H1JLTD2211F
59124
R177
Resistor,SMT,MF,2210ohms,1%,1/10W,0603
RFFS42
RK73H1JLTD2211F
59124
R178
Resistor,SMT,MF,2210ohms,1%,1/10W,0603
RFFS42
RK73H1JLTD2211F
59124
R179
Resistor,SMT,MF,10.0Kohms,1%,1/10W,0603
RFFS50
RK73H1JLTD1002F
59124
R180
Resistor,SMT,MF,10.0Kohms,1%,1/10W,0603
RFFS50
RK73H1JLTD1002F
59124
R181
Resistor,SMT,MF,10.0Kohms,1%,1/10W,0603
RFFS50
RK73H1JLTD1002F
59124
R182
Resistor,SMT,MF,10.0Kohms,1%,1/10W,0603
RFFS50
RK73H1JLTD1002F
59124
R183
Resistor,SMT,MF,1000ohms,1%,1/10W,0603
RFFS38
RK73H1JLTD1001F
59124
R184
Resistor,SMT,MF,475ohms,1%,1/10W,0603
RFFS34
RK73H1JLTD4750F
59124
R185
Resistor,SMT,MF,475ohms,1%,1/10W,0603
RFFS34
RK73H1JLTD4750F
59124
R186
Resistor,SMT,MF,10.0Kohms,1%,1/10W,0603
RFFS50
RK73H1JLTD1002F
59124
R187
Resistor,SMT,MF,10.0Kohms,1%,1/10W,0603
RFFS50
RK73H1JLTD1002F
59124
R188
Resistor,SMT,MF,2210ohms,1%,1/10W,0603
RFFS42
RK73H1JLTD2211F
59124
R189
Resistor,SMT,MF,10.0Kohms,1%,1/10W,0603
RFFS50
RK73H1JLTD1002F
59124
R190
Resistor,SMT,MF,475ohms,1%,1/10W,0603
RFFS34
RK73H1JLTD4750F
59124
R191
Resistor,SMT,MF,10.0Kohms,1%,1/10W,0603
RFFS50
RK73H1JLTD1002F
59124
R192
Resistor,SMT,MF,10.0Kohms,1%,1/10W,0603
RFFS50
RK73H1JLTD1002F
59124
R193
Resistor,SMT,MF,10.0Kohms,1%,1/10W,0603
RFFS50
RK73H1JLTD1002F
59124
R194
Resistor,SMT,MF,10.0Kohms,1%,1/10W,0603
RFFS50
RK73H1JLTD1002F
59124
R195
Resistor,SMT,MF,1000ohms,1%,1/10W,0603
RFFS38
RK73H1JLTD1001F
59124
R196
Resistor,SMT,MF,4750ohms,1%,1/10W,0603
RFFS46
RK73H1JLTD4751F
59124
R197
Resistor,SMT,MF,100ohms,1%,1/10W,0603
RFFS26
RK73H1JLTD1000F
59124
R198
Resistor,SMT,MF,4750ohms,1%,1/10W,0603
RFFS46
RK73H1JLTD4751F
59124
R199
Resistor,SMT,MF,100ohms,1%,1/10W,0603
RFFS26
RK73H1JLTD1000F
59124
R200
Resistor,SMT,MF,4750ohms,1%,1/10W,0603
RFFS46
RK73H1JLTD4751F
59124
R201
Resistor,SMT,MF,4750ohms,1%,1/10W,0603
RFFS46
RK73H1JLTD4751F
59124
R202
Resistor,SMT,MF,4750ohms,1%,1/10W,0603
RFFS46
RK73H1JLTD4751F
59124
R203
Resistor,SMT,MF,4750ohms,1%,1/10W,0603
RFFS46
RK73H1JLTD4751F
59124
R204
Resistor,SMT,MF,100ohms,1%,1/10W,0603
RFFS26
RK73H1JLTD1000F
59124
R205
Resistor,SMT,MF,4750ohms,1%,1/10W,0603
RFFS46
RK73H1JLTD4751F
59124
R206
Resistor,SMT,MF,100ohms,1%,1/10W,0603
RFFS26
RK73H1JLTD1000F
59124
R207
Resistor,SMT,MF,4750ohms,1%,1/10W,0603
RFFS46
RK73H1JLTD4751F
59124
R208
Resistor,SMT,MF,100ohms,1%,1/10W,0603
RFFS26
RK73H1JLTD1000F
59124
R209
Resistor,SMT,MF,4750ohms,1%,1/10W,0603
RFFS46
RK73H1JLTD4751F
59124
Page 34 of 114
NAPC147D
Continued from previous page
NAPC147D
REFDES
Control Display PWB Assy
DESCRIPTION
NAUTEL #
VENDOR #
OEM CODE
R210
Resistor,SMT,MF,100ohms,1%,1/10W,0603
RFFS26
RK73H1JLTD1000F
59124
R211
Resistor,SMT,MF,4750ohms,1%,1/10W,0603
RFFS46
RK73H1JLTD4751F
59124
R212
Resistor,SMT,MF,100ohms,1%,1/10W,0603
RFFS26
RK73H1JLTD1000F
59124
R213
Resistor,SMT,MF,4750ohms,1%,1/10W,0603
RFFS46
RK73H1JLTD4751F
59124
R214
Resistor,SMT,MF,100ohms,1%,1/10W,0603
RFFS26
RK73H1JLTD1000F
59124
R215
Resistor,SMT,MF,4750ohms,1%,1/10W,0603
RFFS46
RK73H1JLTD4751F
59124
R216
Resistor,SMT,MF,100ohms,1%,1/10W,0603
RFFS26
RK73H1JLTD1000F
59124
R217
Resistor,SMT,MF,4750ohms,1%,1/10W,0603
RFFS46
RK73H1JLTD4751F
59124
R218
Resistor,SMT,MF,100ohms,1%,1/10W,0603
RFFS26
RK73H1JLTD1000F
59124
R219
Resistor,SMT,MF,10.0Kohms,1%,1/10W,0603
RFFS50
RK73H1JLTD1002F
59124
R220
Resistor, Film, 4.75 Ohms, 1PC 1/2W
RC09
MF1/2DL4R75F
59124
R221
Resistor, Film, 4.75 Ohms, 1PC 1/2W
RC09
MF1/2DL4R75F
59124
R222
Resistor,SMT,MF,0.0ohms,Jumper,0603
RFFS01
RK73Z1JLTD
59124
R223
Resistor,SMT,MF,10.0Kohms,1%,1/10W,0603
RFFS50
RK73H1JLTD1002F
59124
R224
Resistor,SMT,MF,1000ohms,1%,1/10W,0603
RFFS38
RK73H1JLTD1001F
59124
R225
Resistor,SMT,MF,1000ohms,1%,1/10W,0603
RFFS38
RK73H1JLTD1001F
59124
R226
Resistor,SMT,MF,4750ohms,1%,1/10W,0603
RFFS46
RK73H1JLTD4751F
59124
R227
Resistor,SMT,MF,1500ohms,1%,1/10W,0603
RFFS40
RK73H1JLTD1501F
59124
R228
Resistor,SMT,MF,10.0Kohms,1%,1/10W,0603
RFFS50
RK73H1JLTD1002F
59124
R229
Resistor,SMT,MF,4750ohms,1%,1/10W,0603
RFFS46
RK73H1JLTD4751F
59124
R230
Resistor,SMT,MF,15.0Kohms,1%,1/10W,0603
RFFS52
RK73H1JLTD1502F
59124
R231
Resistor,SMT,MF,10.0Kohms,1%,1/10W,0603
RFFS50
RK73H1JLTD1002F
59124
R232
Resistor,SMT,MF,10.0Kohms,1%,1/10W,0603
RFFS50
RK73H1JLTD1002F
59124
R233
Resistor,SMT,MF,100ohms,1%,1/10W,0603
RFFS26
RK73H1JLTD1000F
59124
R234
Resistor,SMT,MF,10.0Kohms,1%,1/10W,0603
RFFS50
RK73H1JLTD1002F
59124
R235
Resistor,SMT,MF,10.0Kohms,1%,1/10W,0603
RFFS50
RK73H1JLTD1002F
59124
R236
Resistor,SMT,MF,100ohms,1%,1/10W,0603
RFFS26
RK73H1JLTD1000F
59124
R237
Resistor,SMT,MF,10.0Kohms,1%,1/10W,0603
RFFS50
RK73H1JLTD1002F
59124
R238
Resistor,SMT,MF,0.0ohms,Jumper,0603
RFFS01
RK73Z1JLTD
59124
R239
Resistor,SMT,MF,2740ohms,1%,1/10W,0603
RFFS43
RK73H1JLTD2741F
59124
R240
Resistor,SMT,MF,3920ohms,1%,1/10W,0603
RFFS45
RK73H1JLTD3921F
59124
R241
Resistor,SMT,MF,10.0Kohms,1%,1/10W,0603
RFFS50
RK73H1JLTD1002F
59124
R242
Resistor,SMT,MF,33.2Kohms,1%,1/10W,0603
RFFS56
RK73H1JLTD3322F
59124
R243
Resistor, Film, 3.92 Ohms, 1PC 1/2W
RC08
MF1/2DL3R92F
59124
R244
Resistor,SMT,MF,3920ohms,1%,1/10W,0603
RFFS45
RK73H1JLTD3921F
59124
R245
Resistor,SMT,MF,10.0Kohms,1%,1/10W,0603
RFFS50
RK73H1JLTD1002F
59124
R246
Resistor, Film, 3.92 Ohms, 1PC 1/2W
RC08
MF1/2DL3R92F
59124
R247
Resistor,SMT,MF,4750ohms,1%,1/10W,0603
RFFS46
RK73H1JLTD4751F
59124
R248
Resistor,SMT,MF,4750ohms,1%,1/10W,0603
RFFS46
RK73H1JLTD4751F
59124
Page 35 of 114
NAPC147D
Continued from previous page
NAPC147D
REFDES
Control Display PWB Assy
DESCRIPTION
NAUTEL #
VENDOR #
OEM CODE
R249
Resistor,SMT,MF,1000ohms,1%,1/10W,0603
RFFS38
RK73H1JLTD1001F
59124
R250
Resistor,SMT,MF,100ohms,1%,1/10W,0603
RFFS26
RK73H1JLTD1000F
59124
R251
Resistor,SMT,MF,10.0Kohms,1%,1/10W,0603
RFFS50
RK73H1JLTD1002F
59124
R252
Resistor,SMT,MF,3920ohms,1%,1/10W,0603
RFFS45
RK73H1JLTD3921F
59124
R253
Resistor,SMT,MF,100Kohms,1%,1/10W,0603
RFFS62
RK73H1JLTD1003F
59124
R254
Resistor,SMT,MF,475Kohms,1%,1/10W,0603
RFFS70
RK73H1JLTD4753F
59124
R255
Resistor,SMT,MF,475Kohms,1%,1/10W,0603
RFFS70
RK73H1JLTD4753F
59124
U01
IC,SMT,Opamp,Quad,Rail-To-Rail,SOIC-14
ULAS02
TLV2374ID(STATIC)
01295
U02
IC,SMT,Opamp,Quad,Rail-To-Rail,SOIC-14
ULAS02
TLV2374ID(STATIC)
01295
U03
IC,SMT,Opamp,Quad,Rail-To-Rail,SOIC-14
ULAS02
TLV2374ID(STATIC)
01295
U04
IC,SMT,Comparator,Quad,SOIC-14
ULCS01
MC3302D(STATIC)
04713
U05
IC,Low Voltage Temp Sensor,+/-3 Deg,TO-92
UC58
TMP36GT9(STATIC)
45496
U06
IC,SMT,RS-485 Transceiver,Sgl,SOIC-8
UDTS03
DS36C278TM(STATIC) 27014
U07
IC,SMT,Opamp,Quad,Rail-To-Rail,SOIC-14
ULAS02
TLV2374ID(STATIC)
01295
U08
IC,SMT,Opamp,Quad,Rail-To-Rail,SOIC-14
ULAS02
TLV2374ID(STATIC)
01295
U09
IC,SMT,ADC,10-Bit,11-ch,SPI,SOIC-20
UMAS01
TLC1543IDW(STATIC) 01295
U10
IC,SMT,4.096V Reference,0.1%,SOT-23-6
ULRS02
U11
IC,SMT,Opamp,Quad,Rail-To-Rail,SOIC-14
ULAS02
LT1790BIS64.096(STATIC)
TLV2374ID(STATIC)
U12
IC,SMT,ADC,10-Bit,11-ch,SPI,SOIC-20
UMAS01
TLC1543IDW(STATIC) 01295
U13
IC,CMOS,Hex Schmitt,Trigger Inverter,SOIC-14
UG35
MM74HC14M(STATIC) 07263
U14
IC,CMOS,Hex Schmitt,Trigger Inverter,SOIC-14
UG35
MM74HC14M(STATIC) 07263
U15
IC,CMOS,Hex Schmitt,Trigger Inverter,SOIC-14
UG35
MM74HC14M(STATIC) 07263
U16
IC,CMOS,Hex Schmitt,Trigger Inverter,SOIC-14
UG35
MM74HC14M(STATIC) 07263
U17
IC,CMOS,Hex Schmitt,Trigger Inverter,SOIC-14
UG35
MM74HC14M(STATIC) 07263
U18
IC,SMT,Complex Prog Logic Dev,PLCC-84
UX74
U19
Not Used
XC957215PC84I(STATIC)
NOT USED
U20
IC, SMT, SRAM, 32Kx8, SOIC-28(Wide)
UDMS01
U21
IC,SMT,Non-Volatile RAM Ctrlr,SOIC-8
UDSS01
U22
IC, SMT, Micro, ADC, PWM,Flash, TQFP-64
UDMS02
U23
IC, SMT, CMOS, Octal Latch,SOIC-20
UDLS02
U24
IC,CMOS,Hex Schmitt,Trigger Inverter,SOIC-14
UG35
ATMEGA1281FN41
16AI(STATIC)
SN74AHC573DW(STA 01295
TIC)
MM74HC14M(STATIC) 07263
U25
IC,SMT,Real-Time Clock,SPI,SOIC-16
UDTS01
M41T94MQ6(STATIC) U3040
Page 36 of 114
NAPC147D
CY62256NLL55SNXI(STATIC)(RoH
S)
DS1312S-2(STATIC)
64155
01295
68994
37338
65786
0B0A9
Continued from previous page
NAPC147D
REFDES
Control Display PWB Assy
DESCRIPTION
NAUTEL #
U26
IC,SMT,2.5V Reference,0.1%,SOT-23-6
UX83
U27
IC,SMT,Opamp,Quad,Single Supply,SOIC-14
ULAS01
U28
IC,SMT,Opamp,Quad,Single Supply,SOIC-14
U29
IC,SMT,CMOS,Octal Flip Flop,SOIC-20
U30
IC,SMT,Trans Array, 7 Darl.,SOIC-16
U31
U32
VENDOR #
OEM CODE
LT1790BIS62.5(STATIC)
MC33074AD(STATIC)
64155
ULAS01
MC33074AD(STATIC)
04713
UDLS01
UDAS01
SN74AHC574DW(STA 01295
TIC)
MC1413BD(STATIC)
04713
IC,SMT,DAC,8-Bit,4-ch,SPI,SOIC-14
UMDS01
TLV5620ID(STATIC)
64155
IC,SMT,DAC,8-Bit,4-ch,SPI,SOIC-14
UMDS01
TLV5620ID(STATIC)
64155
U33
IC,SMT,CMOS,Octal Flip Flop,SOIC-20
UDLS01
U34
IC,SMT,Trans Array, 7 Darl.,SOIC-16
UDAS01
SN74AHC574DW(STA 01295
TIC)
MC1413BD(STATIC)
04713
U35
IC,SMT,Trans Array, 7 Darl.,SOIC-16
UDAS01
MC1413BD(STATIC)
U36
IC,SMT,CMOS,Octal Flip Flop,SOIC-20
UDLS01
U37
IC,SMT,Trans Array, 7 Darl.,SOIC-16
UDAS01
SN74AHC574DW(STA 01295
TIC)
MC1413BD(STATIC)
04713
U38
IC,SMT,Trans Array, 7 Darl.,SOIC-16
UDAS01
MC1413BD(STATIC)
04713
XBT01
Holder, 20mm Coin Cell, PWB Mt
BBHT01
1065
91833
XE01
Conn, Header, SIP,12 Pin Breakaway,.10 Ctr
JQ16
1-103185-2
09482
XE02
Conn, Header, SIP,12 Pin Breakaway,.10 Ctr
JQ16
1-103185-2
09482
XE03
Conn, Header, SIP,12 Pin Breakaway,.10 Ctr
JQ16
1-103185-2
09482
XJ08
Conn, Header,Square Post,Gold,Dual,40-pin
JF47
4-102973-0
09482
Y01
Crystal,SMT,Fund,Par Res,11.0592MHz
XFPS01
Y02
Crystal,SMT,Fund,Par Res,32.768kHz
XFPS02
CMR309T11.0592MAB 3DX59
JTR
MC20632.7680KA-A0 1JRT7
Page 37 of 114
NAPC147D
04713
04713
NAPC151A
REFDES
Power Module Control/InterfacePWB Assy
DESCRIPTION
NAUTEL #
VENDOR #
OEM CODE
C01
Cap,SMT,Ceramic,0.01uF,10%,50V,X7R,0603
CCFS04
C0603C103K5RAC
31433
C02
Cap,SMT,Ceramic,0.1uF,10%,50V,X7R,0805
CCFS07
C0805C104K5RAC
31433
C03
Cap,SMT,Tantalum,1uF,10%,35V,1411
CTFS02
T494B105K035AS
31433
C04
Cap,SMT,Tantalum,1uF,10%,35V,1411
CTFS02
T494B105K035AS
31433
C05
Cap,SMT,Ceramic,0.1uF,10%,50V,X7R,0805
CCFS07
C0805C104K5RAC
31433
C06
Cap,SMT,Ceramic,0.1uF,10%,50V,X7R,0805
CCFS07
C0805C104K5RAC
31433
C07
Cap,SMT,Ceramic,0.1uF,10%,50V,X7R,0805
CCFS07
C0805C104K5RAC
31433
C08
Cap,SMT,Ceramic,0.1uF,10%,50V,X7R,0805
CCFS07
C0805C104K5RAC
31433
C09
Cap,SMT,Ceramic,0.1uF,10%,50V,X7R,0805
CCFS07
C0805C104K5RAC
31433
C10
Cap,SMT,Ceramic,0.1uF,10%,50V,X7R,0805
CCFS07
C0805C104K5RAC
31433
C11
Cap,SMT,Ceramic,0.01uF,10%,50V,X7R,0603
CCFS04
C0603C103K5RAC
31433
C12
Cap,SMT,Ceramic,0.01uF,10%,50V,X7R,0603
CCFS04
C0603C103K5RAC
31433
C13
Cap,SMT,Ceramic,0.01uF,10%,50V,X7R,0603
CCFS04
C0603C103K5RAC
31433
C14
Cap,SMT,Ceramic,0.01uF,10%,50V,X7R,0603
CCFS04
C0603C103K5RAC
31433
C15
Cap,SMT,Ceramic,0.1uF,10%,50V,X7R,0805
CCFS07
C0805C104K5RAC
31433
C16
Cap,SMT,Ceramic,18pF,2%,50V,C0G,0603
CCFS23
C0603C180G5GAC
31433
C17
Cap,SMT,Ceramic,18pF,2%,50V,C0G,0603
CCFS23
C0603C180G5GAC
31433
C18
Cap,SMT,Ceramic,0.1uF,10%,50V,X7R,0805
CCFS07
C0805C104K5RAC
31433
C19
Cap,SMT,Ceramic,0.1uF,10%,50V,X7R,0805
CCFS07
C0805C104K5RAC
31433
C20
Cap,SMT,Ceramic,0.1uF,10%,50V,X7R,0805
CCFS07
C0805C104K5RAC
31433
C21
Cap,SMT,Ceramic,0.1uF,10%,50V,X7R,0805
CCFS07
C0805C104K5RAC
31433
C22
Cap,SMT,Ceramic,0.1uF,10%,50V,X7R,0805
CCFS07
C0805C104K5RAC
31433
C23
Cap,SMT,Ceramic,0.1uF,10%,50V,X7R,0805
CCFS07
C0805C104K5RAC
31433
C24
Cap,SMT,Ceramic,0.1uF,10%,50V,X7R,0805
CCFS07
C0805C104K5RAC
31433
C25
Cap,SMT,Ceramic,0.1uF,10%,50V,X7R,0805
CCFS07
C0805C104K5RAC
31433
C26
Cap,SMT,Ceramic,0.1uF,10%,50V,X7R,0805
CCFS07
C0805C104K5RAC
31433
C27
Cap,SMT,Ceramic,0.1uF,10%,50V,X7R,0805
CCFS07
C0805C104K5RAC
31433
C28
Cap,SMT,Ceramic,0.1uF,10%,50V,X7R,0805
CCFS07
C0805C104K5RAC
31433
C29
Cap,SMT,Tantalum,1uF,10%,35V,1411
CTFS02
T494B105K035AS
31433
C30
Cap,SMT,Ceramic,0.1uF,10%,50V,X7R,0805
CCFS07
C0805C104K5RAC
31433
C31
Cap,SMT,Ceramic,0.01uF,10%,50V,X7R,0603
CCFS04
C0603C103K5RAC
31433
C32
Cap,SMT,Ceramic,0.01uF,10%,50V,X7R,0603
CCFS04
C0603C103K5RAC
31433
C33
Cap,SMT,Ceramic,0.1uF,10%,50V,X7R,0805
CCFS07
C0805C104K5RAC
31433
C34
Cap,SMT,Ceramic,0.1uF,10%,50V,X7R,0805
CCFS07
C0805C104K5RAC
31433
C35
Cap,SMT,Tantalum,10uF,10%,35V,2917
CTFS03
T494D106K035AS
31433
C36
Cap,SMT,Ceramic,0.1uF,10%,50V,X7R,0805
CCFS07
C0805C104K5RAC
31433
C37
Cap,SMT,Ceramic,0.1uF,10%,50V,X7R,0805
CCFS07
C0805C104K5RAC
31433
CR01
Diode,SMT,Schottky,30V,0.2A,SOD-323
QDSS01
BAT54HT1(STATIC)
04713
CR02
Diode,SMT,Schottky,30V,0.2A,SOD-323
QDSS01
BAT54HT1(STATIC)
04713
Page 38 of 114
NAPC151A
Continued from previous page
NAPC151A
REFDES
Power Module Control/InterfacePWB Assy
DESCRIPTION
NAUTEL #
VENDOR #
OEM CODE
CR03
Diode,SMT,Switching,250V,0.2A,SOD-323
QDRS01
BAS21HT1(STATIC)
04713
DS01
Diode, LED, Amber
QK14
HLMP-3451
50434
DS02
Diode, LED, Green
QK12
HLMP-3554
50434
DS03
Diode, LED, Red
QK13
HLMP-3351
50434
J01
Conn, Header,Square Post,Gold,Dual,40-pin
JF47
4-102973-0
09482
J02
Conn, Header, Ribbon Cbl, 10 pin
JA49
499910-1
00779
J04
Conn, Header, Ribbon Cbl, 10 pin
JA49
499910-1
00779
J06
Conn, Header, Ribbon Cbl, 20Pin
JQ55
103308-5
00779
J07
Conn, Plug, D-Sub, 25 pin, Vert PWB
JS43
627 025 220 017
31781
L01
Inductor, SMT, Choke, 600ohms,2A, 0805
LCFS01
ILHB0805RK601V
56845
L02
Inductor, Choke, 2.5 Turns, JMtl
LA16
82-152-J
33062
Q01
Transistor, FET, N Channel, 100V, 8A
QR13
IRF520(STATIC)
81483
Q02
QN53
R01
Transistor,SMT,MOSFET,N-Channel,60V,115mA,SOT23
Transistor,SMT,MOSFET,N-Channel,60V,115mA,SOT23
Resistor,SMT,MF,10.0Kohms,1%,1/10W,0603
RFFS50
2N7002LT1G(STATIC) 1MQ07
(ROHS)
2N7002LT1G(STATIC) 1MQ07
(ROHS)
RK73H1JLTD1002F
59124
R02
Resistor,SMT,MF,681ohms,1%,1/10W,0603
RFFS36
RK73H1JLTD6810F
59124
R03
Resistor,SMT,MF,681ohms,1%,1/10W,0603
RFFS36
RK73H1JLTD6810F
59124
R04
Resistor,SMT,MF,10.0Kohms,1%,1/10W,0603
RFFS50
RK73H1JLTD1002F
59124
R05
Resistor,SMT,MF,10.0Kohms,1%,1/10W,0603
RFFS50
RK73H1JLTD1002F
59124
R06
Resistor,SMT,MF,10.0Kohms,1%,1/10W,0603
RFFS50
RK73H1JLTD1002F
59124
R07
Resistor,SMT,MF,10.0Kohms,1%,1/10W,0603
RFFS50
RK73H1JLTD1002F
59124
R08
Resistor,SMT,MF,10.0Kohms,1%,1/10W,0603
RFFS50
RK73H1JLTD1002F
59124
R09
Resistor,SMT,MF,10.0Kohms,1%,1/10W,0603
RFFS50
RK73H1JLTD1002F
59124
R10
Resistor,SMT,MF,10.0Kohms,1%,1/10W,0603
RFFS50
RK73H1JLTD1002F
59124
R11
Resistor,SMT,MF,2210ohms,1%,1/10W,0603
RFFS42
RK73H1JLTD2211F
59124
R12
Resistor,SMT,MF,121Kohms,1%,1/10W,0603
RFFS63
RK73H1JLTD1213F
59124
R13
Resistor,SMT,MF,10.0Kohms,1%,1/10W,0603
RFFS50
RK73H1JLTD1002F
59124
R14
Resistor,SMT,MF,10.0Kohms,1%,1/10W,0603
RFFS50
RK73H1JLTD1002F
59124
R15
Resistor,SMT,MF,10.0Kohms,1%,1/10W,0603
RFFS50
RK73H1JLTD1002F
59124
R16
Resistor,SMT,MF,10.0Kohms,1%,1/10W,0603
RFFS50
RK73H1JLTD1002F
59124
R17
Resistor,SMT,MF,10.0Kohms,1%,1/10W,0603
RFFS50
RK73H1JLTD1002F
59124
R18
Resistor,SMT,MF,6810ohms,1%,1/10W,0603
RFFS48
RK73H1JLTD6811F
59124
R19
Resistor,SMT,MF,10.0Kohms,1%,1/10W,0603
RFFS50
RK73H1JLTD1002F
59124
R20
Resistor,SMT,MF,475Kohms,1%,1/10W,0603
RFFS70
RK73H1JLTD4753F
59124
R21
Resistor,SMT,MF,475Kohms,1%,1/10W,0603
RFFS70
RK73H1JLTD4753F
59124
R22
Not Used
NOT USED
37338
R23
Resistor,SMT,MF,100ohms,1%,1/10W,0603
RFFS26
RK73H1JLTD1000F
59124
R24
Resistor,SMT,MF,1000ohms,1%,1/10W,0603
RFFS38
RK73H1JLTD1001F
59124
Q03
Page 39 of 114
NAPC151A
QN53
Continued from previous page
NAPC151A
REFDES
Power Module Control/InterfacePWB Assy
DESCRIPTION
NAUTEL #
VENDOR #
OEM CODE
R25
Not Used
NOT USED
37338
R26
Resistor,SMT,MF,100ohms,1%,1/10W,0603
RFFS26
RK73H1JLTD1000F
59124
R27
Resistor,SMT,MF,475ohms,1%,1/10W,0603
RFFS34
RK73H1JLTD4750F
59124
R28
Resistor,SMT,MF,1000ohms,1%,1/10W,0603
RFFS38
RK73H1JLTD1001F
59124
R29
Resistor,SMT,MF,475ohms,1%,1/10W,0603
RFFS34
RK73H1JLTD4750F
59124
R30
Resistor,SMT,MF,475ohms,1%,1/10W,0603
RFFS34
RK73H1JLTD4750F
59124
R31
Resistor,SMT,MF,22.1ohms,1%,1/10W,0603
RFFS18
RK73H1JLTD22R1F
59124
R32
Resistor,SMT,MF,10.0Kohms,1%,1/10W,0603
RFFS50
RK73H1JLTD1002F
59124
R33
Resistor,SMT,MF,1500ohms,1%,1/10W,0603
RFFS40
RK73H1JLTD1501F
59124
R34
Resistor,SMT,MF,10.0ohms,1%,1/10W,0603
RFFS14
RK73H1JLTD10R0F
59124
R35
Resistor,SMT,MF,100Kohms,1%,1/10W,0603
RFFS62
RK73H1JLTD1003F
59124
R36
Resistor,SMT,MF,10.0Kohms,1%,1/10W,0603
RFFS50
RK73H1JLTD1002F
59124
TP01
Terminal, SMT, Test Point, PWB
HAJ66
TP02
Terminal, SMT, Test Point, PWB
HAJ66
TP03
Terminal, SMT, Test Point, PWB
HAJ66
TP04
Terminal, SMT, Test Point, PWB
HAJ66
TP05
Terminal, SMT, Test Point, PWB
HAJ66
TP06
Terminal, SMT, Test Point, PWB
HAJ66
U01
IC,SMT,Trans Array, 7 Darl.,SOIC-16
UDAS01
TP-107-02-1-T(RoHS)
COMPONENTS CORP
TP-107-02-1-T(RoHS)
COMPONENTS CORP
TP-107-02-1-T(RoHS)
COMPONENTS CORP
TP-107-02-1-T(RoHS)
COMPONENTS CORP
TP-107-02-1-T(RoHS)
COMPONENTS CORP
TP-107-02-1-T(RoHS)
COMPONENTS CORP
MC1413BD(STATIC)
04713
U02
IC,SMT,RS-485 Transceiver,Sgl,SOIC-8
UDTS03
DS36C278TM(STATIC) 27014
U03
IC,SMT,Microprocessor Supervisor, SC70
UDSS02
U04
IC, CMOS, Hex Inverter
UG03
ADM80324355
MAKS(STATIC)
MC74AC04N(STATIC) 04713
U05
IC,SMT,CMOS,8-Bit Shft Reg,Par I/P, SOIC-16
UDLS04
U06
IC,SMT,CMOS,Quad Tri-State Buffer, SOIC-14
UDLS06
U07
IC, SMT, Micro, ADC, PWM,Flash, TQFP-32
UDMS03
U08
IC,SMT,4.096V Reference,0.1%,SOT-23-6
ULRS02
XJ01
Conn, Header,Square Post,Gold,Dual,40-pin
Y01
Crystal,SMT,Fund,Par Res,3.6864MHz,Comm
Page 40 of 114
NAPC151A
JF47
MC74HC165AD(STATI
C)
MC74HC125AD(STATI
C)
ATMEGA816AI(STATIC)
LT1790BIS64.096(STATIC)
4-102973-0
04713
09482
XFPS03
ATSM49-3.6864MHz
23875
04713
1FN41
64155
NAPE70C/01
REFDES
RF Synthesizer PWB Assy
DESCRIPTION
NAUTEL #
VENDOR #
OEM CODE
C01
Not Used
NOT USED
37338
C02
Capacitor, Ceramic, 0.1uF 10%100V
CCG07
CKR06BX104KRV
56289
C03
Capacitor, Ceramic, 0.1uF 10%100V
CCG07
CKR06BX104KRV
56289
C04
Capacitor, Tantalum, 2.2uF 10PC 20V
CCP16
CSR13E225KM
56289
C05
Capacitor, Ceramic, 0.01uF 10% 100V
CCG04
CKR05BX103KRV
56289
C06
Capacitor, Ceramic, 0.1uF 10%100V
CCG07
CKR06BX104KRV
56289
C07
Capacitor, Ceramic, 0.1uF 10%100V
CCG07
CKR06BX104KRV
56289
C08
Capacitor, Ceramic, 0.1uF 10%100V
CCG07
CKR06BX104KRV
56289
C09
Capacitor, Ceramic, 0.1uF 10%100V
CCG07
CKR06BX104KRV
56289
C10
Capacitor, Ceramic, 0.1uF 10%100V
CCG07
CKR06BX104KRV
56289
C11
Capacitor, Ceramic, 0.1uF 10%100V
CCG07
CKR06BX104KRV
56289
C12
Capacitor, Ceramic, 0.1uF 10%100V
CCG07
CKR06BX104KRV
56289
C13
Capacitor, Ceramic, 0.1uF 10%100V
CCG07
CKR06BX104KRV
56289
C14
Capacitor, Ceramic, 0.1uF 10%100V
CCG07
CKR06BX104KRV
56289
C15
Capacitor, Ceramic, 0.1uF 10%100V
CCG07
CKR06BX104KRV
56289
C16
Capacitor, Ceramic, 0.1uF 10%100V
CCG07
CKR06BX104KRV
56289
C17
Capacitor, Ceramic, 0.1uF 10%100V
CCG07
CKR06BX104KRV
56289
C18
Capacitor, Ceramic, 0.1uF 10%100V
CCG07
CKR06BX104KRV
56289
C19
Capacitor, Ceramic, 0.01uF 10% 100V
CCG04
CKR05BX103KRV
56289
C20
Capacitor, Ceramic, 0.01uF 10% 100V
CCG04
CKR05BX103KRV
56289
C21
Capacitor, Mica, Dipped, 390pF 2% 500V
CB32
CM05FD391G03
14655
C22
Capacitor, Mica, Dipped, 100pF 2% 500V
CB25
CM05FD101G03
SOSH
C23
Capacitor, Mica, Dipped, 390pF 2% 500V
CB32
CM05FD391G03
14655
C24
Capacitor, Tantalum, Dipped, 10uF, 35V
CCP36
96095
C25
Capacitor, Ceramic, 0.01uF 10% 100V
CCG04
T351G106K035AT(Ro
HS) KEMET
CKR05BX103KRV
56289
C26
Capacitor, Ceramic, 0.1uF 10%100V
CCG07
CKR06BX104KRV
56289
C27
Capacitor, Ceramic, 0.01uF 10% 100V
CCG04
CKR05BX103KRV
56289
C28
Capacitor, Ceramic, 0.1uF 10%100V
CCG07
CKR06BX104KRV
56289
C29
Capacitor, Tantalum, Dipped, 10uF, 35V
CCP36
96095
C30
Capacitor, Tantalum, Dipped, 10uF, 35V
CCP36
C31
Capacitor, Tantalum, Dipped, 10uF, 35V
CCP36
C32
Capacitor, Ceramic, 0.22uF 10% 50V
CCG08
T351G106K035AT(Ro
HS) KEMET
T351G106K035AT(Ro
HS) KEMET
T351G106K035AT(Ro
HS) KEMET
CKR06BX224KRV
C33
Capacitor, Ceramic, 0.1uF 10%100V
CCG07
CKR06BX104KRV
56289
C34
Capacitor, Ceramic, 0.1uF 10%100V
CCG07
CKR06BX104KRV
56289
C35
Capacitor, Tantalum, Dipped, 10uF, 35V
CCP36
96095
C36
Capacitor, Ceramic, 0.47uF 10% 50V
CCG09
T351G106K035AT(Ro
HS) KEMET
CKR06BX474KRV
Page 41 of 114
NAPE70C/01
96095
96095
56289
56289
Continued from previous page
NAPE70C/01
REFDES
RF Synthesizer PWB Assy
DESCRIPTION
NAUTEL #
C37
Capacitor, Tantalum, Dipped, 10uF, 35V
CCP36
C38
Capacitor, Tantalum, Dipped, 10uF, 35V
CCP36
C39
Capacitor, Ceramic, 0.1uF 10%100V
CCG07
C40
Capacitor, Tantalum, Dipped, 10uF, 35V
CCP36
C41
Capacitor, Tantalum, 47uF 10%20V
CM01
C42
Capacitor, Tantalum, Dipped, 10uF, 35V
CCP36
C43
Capacitor, Tantalum, Dipped, 10uF, 35V
CCP36
C44
Capacitor, Ceramic, 0.01uF 10% 100V
C45
Not Used
C46
VENDOR #
T351G106K035AT(Ro
HS) KEMET
T351G106K035AT(Ro
HS) KEMET
CKR06BX104KRV
OEM CODE
96095
96095
56289
96095
CCG04
T351G106K035AT(Ro
HS) KEMET
T356K476K020AT(Ro
HS) KEMET
T351G106K035AT(Ro
HS) KEMET
T351G106K035AT(Ro
HS) KEMET
CKR05BX103KRV
NOT USED
37338
Capacitor, Ceramic, 0.1uF 10%100V
CCG07
CKR06BX104KRV
56289
C47
Capacitor, Ceramic, 0.1uF 10%100V
CCG07
CKR06BX104KRV
56289
C48
Capacitor, Ceramic, 0.1uF 10%100V
CCG07
CKR06BX104KRV
56289
C49
Not Used
NOT USED
37338
C50
Not Used
NOT USED
37338
C51
Not Used
NOT USED
37338
C52
Not Used
NOT USED
37338
C53
Not Used
NOT USED
37338
C54
Capacitor, Ceramic, 0.001uF 10% 200V
CCG01
91929
C55
Capacitor, Ceramic, 0.1uF 10%100V
CCG07
CKR05BX102KRV
SPRAGUE
CKR06BX104KRV
56289
C56
Capacitor, Ceramic, 0.1uF 10%100V
CCG07
CKR06BX104KRV
56289
C57
Capacitor, Ceramic, 0.1uF 10%100V
CCG07
CKR06BX104KRV
56289
C58
Capacitor, Ceramic, 0.47uF 10% 50V
CCG09
CKR06BX474KRV
56289
CR01
Diode, Schottky
QR15
MBD301(STATIC)
04713
CR02
Diode, General Purpose, 200V,0.1A
QAP29
1N4938
07263
CR03
Diode, General Purpose, 200V,0.1A
QAP29
1N4938
07263
CR04
Diode, General Purpose, 200V,0.1A
QAP29
1N4938
07263
CR05
Diode, General Purpose, 200V,0.1A
QAP29
1N4938
07263
CR06
Diode, General Purpose, 200V,0.1A
QAP29
1N4938
07263
E01
Conn, Post Shunt, 2 Pos, .10 Centreline
JQ15
390088-2
09482
E02
Conn, Post Shunt, 2 Pos, .10 Centreline
JQ15
390088-2
09482
E03
Conn, Post Shunt, 2 Pos, .10 Centreline
JQ15
390088-2
09482
E04
Conn, Post Shunt, 2 Pos, .10 Centreline
JQ15
390088-2
09482
E05
Conn, Post Shunt, 2 Pos, .10 Centreline
JQ15
390088-2
09482
E06
Conn, Post Shunt, 2 Pos, .10 Centreline
JQ15
390088-2
09482
J01
Conn, Socket, D-Sub, 25 pin, PWB Mt
JS13
K22-B25S-NJ
22421
J02
Conn, BNC, Recept, PWB Mt
JF35
R141426161
0GP12
Page 42 of 114
NAPE70C/01
96095
96095
96095
56289
Continued from previous page
NAPE70C/01
REFDES
RF Synthesizer PWB Assy
DESCRIPTION
NAUTEL #
VENDOR #
OEM CODE
L01
Inductor, Moulded, Shielded, 1.8uH
LAP28
IMS-5-1.8UH+/-10%
35005
L02
Inductor, Choke, 2.5 Turns, JMtl
LA16
82-152-J
33062
L03
Inductor, Choke, 2.5 Turns, JMtl
LA16
82-152-J
33062
L04
Inductor, Choke, 2.5 Turns, JMtl
LA16
82-152-J
33062
L05
Inductor, Choke, 2.5 Turns, JMtl
LA16
82-152-J
33062
L06
Inductor, Choke, 2.5 Turns, JMtl
LA16
82-152-J
33062
L07
Inductor, Choke, 2.5 Turns, JMtl
LA16
82-152-J
33062
L08
Inductor, Choke, 2.5 Turns, JMtl
LA16
82-152-J
33062
L09
Inductor, Choke, 2.5 Turns, JMtl
LA16
82-152-J
33062
L10
Not Used
NOT USED
37338
Q01
Transistor, NPN, Switch/Amplifier
QA15
2N3904
04713
Q02
Transistor, NPN, Switch/Amplifier
QA15
2N3904
04713
Q03
Transistor, NPN, Switch/Amplifier
QA15
2N3904
04713
Q04
Transistor, NPN, Switch/Amplifier
QA15
2N3904
04713
Q05
Transistor, NPN, General Purpose
QAP04
2N2219A
04713
Q06
Transistor, PNP, Switch/Amplifier
QA23
2N2905A
04713
R01
Resistor, MF, 100 Ohms, 1PC 1/4W
RAB13
MF1/4DL1000F
59124
R02
Resistor, MF, 4.75K Ohms, 1PC1/4W
RAB33
MF1/4DL4751F
59124
R03
Resistor, MF, 1K Ohms, 1PC 1/4W
RAB25
MF1/4DL1001F
59124
R04
Resistor, MF, 1K Ohms, 1PC 1/4W
RAB25
MF1/4DL1001F
59124
R05
Resistor, MF, 274 Ohms, 1PC 1/4W
RAB18
MF1/4DL2740F
59124
R06
Resistor, MF, 100 Ohms, 1PC 1/4W
RAB13
MF1/4DL1000F
59124
R07
Resistor, MF, 1.21K Ohms, 1PC1/4W
RAB26
MF1/4DL1211F
59124
R08
Resistor, MF, 100 Ohms, 1PC 1/4W
RAB13
MF1/4DL1000F
59124
R09
Resistor, MF, 100 Ohms, 1PC 1/4W
RAB13
MF1/4DL1000F
59124
R10
Resistor, MF, 47.5 Ohms, 1PC 1/4W
RAB09
MF1/4DL47R5F
59124
R11
Resistor, MF, 47.5 Ohms, 1PC 1/4W
RAB09
MF1/4DL47R5F
59124
R12
Resistor, MF, 47.5 Ohms, 1PC 1/4W
RAB09
MF1/4DL47R5F
59124
R13
Resistor, MF, 3.92K Ohms, 1PC1/4W
RAB32
MF1/4DL3921F
59124
R14
Resistor, MF, 47.5 Ohms, 1PC 1/4W
RAB09
MF1/4DL47R5F
59124
R15
Resistor, MF, 100 Ohms, 1PC 1/4W
RAB13
MF1/4DL1000F
59124
R16
Resistor, MF, 10.0K Ohms, 1PC1/4W
RAB37
MF1/4DL1002F
59124
R17
Resistor, MF, 10.0 Ohms, 1PC 1/4W
RAB01
MF1/4DL10R0F
59124
R18
Resistor, MF, 10.0 Ohms, 1PC 1/4W
RAB01
MF1/4DL10R0F
59124
R19
Resistor, MF, 10.0 Ohms, 1PC 1/4W
RAB01
MF1/4DL10R0F
59124
R20
Resistor, MF, 82.5 Ohms, 1PC 1/4W
RAB12
MF1/4DL82R5F
59124
R21
Resistor, Film, 22 Ohms, 5% 2W
RBP03
GS-3, 22 OHMS
75042
R22
Resistor, MF, 27.4K Ohms, 1PC1/4W
RAB42
MF1/4DL2742F
59124
R23
Resistor, MF, 1.82K Ohms, 1PC1/4W
RAB28
MF1/4DL1821F
59124
Page 43 of 114
NAPE70C/01
Continued from previous page
NAPE70C/01
REFDES
RF Synthesizer PWB Assy
DESCRIPTION
NAUTEL #
VENDOR #
OEM CODE
R24
Not Used
NOT USED
37338
R25
Resistor, MF, 1.50K Ohms, 1PC1/4W
RAB27
MF1/4DL1501F
59124
R26
Resistor, MF, 100 Ohms, 1PC 1/4W
RAB13
MF1/4DL1000F
59124
R27
Resistor, MF, 10.0K Ohms, 1PC1/4W
RAB37
MF1/4DL1002F
59124
R28
Resistor, MF, 10.0K Ohms, 1PC1/4W
RAB37
MF1/4DL1002F
59124
R29
Resistor, MF, 10.0K Ohms, 1PC1/4W
RAB37
MF1/4DL1002F
59124
R30
Not Used
NOT USED
37338
R31
Resistor, MF, 562 Ohms, 1PC 1/4W
RAB22
MF1/4DL5620F
59124
R32
Resistor, Variable, Film, 1000 Ohms, 1/2W
RV06
3339P-1-102
80294
R33
Resistor, MF, 562 Ohms, 1PC 1/4W
RAB22
MF1/4DL5620F
59124
R34
Resistor, MF, 2.21K Ohms, 1PC1/4W
RAB29
MF1/4DL2211F
59124
R35
Resistor, MF, 4.75K Ohms, 1PC1/4W
RAB33
MF1/4DL4751F
59124
R36
Not Used
NOT USED
37338
R37
Resistor, MF, 3.32K Ohms, 1PC1/4W
RAB31
MF1/4DL3321F
59124
R39
Not Used
NOT USED
37338
R40
Not Used
NOT USED
37338
R41
Not Used
NOT USED
37338
R42
Resistor, MF, 10.0K Ohms, 1PC1/4W
RAB37
MF1/4DL1002F
59124
R43
Resistor, MF, 2.74K Ohms, 1PC1/4W
RAB30
MF1/4DL2741F
59124
R44
Not Used
NOT USED
37338
R45
Resistor, MF, 1.21K Ohms, 1PC1/4W
RAB26
MF1/4DL1211F
59124
R46
Resistor, MF, 47.5 Ohms, 1PC 1/4W
RAB09
MF1/4DL47R5F
59124
R47
Resistor, MF, 27.4 Ohms, 1PC 1/4W
RAB06
MF1/4DL27R4F
59124
R48
Resistor, MF, 4.75K Ohms, 1PC1/4W
RAB33
MF1/4DL4751F
59124
R49
Resistor, MF, 4.75K Ohms, 1PC1/4W
RAB33
MF1/4DL4751F
59124
R50
Resistor, MF, 4.75K Ohms, 1PC1/4W
RAB33
MF1/4DL4751F
59124
R51
Resistor, MF, 100 Ohms, 1PC 1/4W
RAB13
MF1/4DL1000F
59124
R52
Not Used
NOT USED
37338
S01
Switch, DIP, Rotary, 10-pos, BCD
SB40
230002G
97525
S02
Switch, DIP, Rotary, 10-pos, BCD
SB40
230002G
97525
S03
Switch, DIP, Rotary, 10-pos, BCD
SB40
230002G
97525
S04
Switch, DIP, Rotary, 10-pos, BCD
SB40
230002G
97525
S05
Switch, DIP, Rotary, 10-pos, BCD
SB40
230002G
97525
S06
Not Used
NOT USED
37338
U01
Oscillator, TCXO, 10.000MHz,2ppm
UT55
RALTRON
U02
Res, Network, SIP, 9 x 4700 Ohms, 2% Bus
RT07
RTXT-781DJZ5-C10.000(STATIC)
4610X-101-472
U03
IC, CMOS, Hex Inverter
UG03
MC74AC04N(STATIC) 04713
U04
IC, Programmed MicrocontrollerDDS
190-5043-02
190-5043-02
37338
U05
IC, CMOS, 48-bit DDS
UT58
AD9852ASQ(STATIC)
45496
Page 44 of 114
NAPE70C/01
80294
Continued from previous page
NAPE70C/01
REFDES
RF Synthesizer PWB Assy
DESCRIPTION
NAUTEL #
VENDOR #
OEM CODE
U06
IC, CMOS, Synchronous Counter
UT56Z
74ACT163PC(STATIC) 07263
U07
IC, CMOS, Synchronous Counter
UT56Z
74ACT163PC(STATIC) 07263
U08
IC, CMOS, Hex Inverter
UX11
U09
IC, Voltage Regulator, +5V, 1A, Plastic
UX17
MC74HC04AN(STATIC 01295
MC7805ACT
04713
U10
IC, CMOS, Hex Schmitt Trigger
UM23
U11
IC, Voltage Regulator, +3.3V,1A
UT59
U12
IC, CMOS, Dual, Type D, Flip Flop
UB15
U13
Not Used
MC14013BCP(STATIC 04713
NOT USED
37338
XE01
Conn, Header, SIP,12 Pin Breakaway,.10 Ctr
JQ16
1-103185-2
09482
XE02
Conn, Header, SIP,12 Pin Breakaway,.10 Ctr
JQ16
1-103185-2
09482
XE03
Conn, Header, SIP,12 Pin Breakaway,.10 Ctr
JQ16
1-103185-2
09482
XE04
Conn, Header, SIP,12 Pin Breakaway,.10 Ctr
JQ16
1-103185-2
09482
XE06
Conn, Header, SIP,12 Pin Breakaway,.10 Ctr
JQ16
1-103185-2
09482
XE5A
Conn, Header, SIP,12 Pin Breakaway,.10 Ctr
JQ16
1-103185-2
09482
XE5B
Conn, Header, SIP,12 Pin Breakaway,.10 Ctr
JQ16
1-103185-2
09482
XS01
Socket, IC, 6-pin
UD43
390261-1
00779
XS02
Socket, IC, 6-pin
UD43
390261-1
00779
XS03
Socket, IC, 6-pin
UD43
390261-1
00779
XS04
Socket, IC, 6-pin
UD43
390261-1
00779
XS05
Socket, IC, 6-pin
UD43
390261-1
00779
XU01
Not Used
NOT USED
37338
XU02
Not Used
NOT USED
37338
XU03
Socket, IC, 14-pin
UC02
2-641261-1
00779
XU04
Not Used
NOT USED
37338
XU05
Not Used
NOT USED
37338
XU06
Socket, IC, 16-pin
UC03
2-641262-1
00779
XU07
Socket, IC, 16-pin
UC03
2-641262-1
00779
XU08
Socket, IC, 14-pin
UC02
2-641261-1
00779
XU09
Not Used
NOT USED
37338
XU10
Socket, IC, 14-pin
UC02
2-641261-1
00779
XU11
Not Used
NOT USED
37338
XU12
Socket, IC, 14-pin
UC02
2-641261-1
00779
XU13
Not Used
NOT USED
37338
Page 45 of 114
NAPE70C/01
MC14584BCP(STATIC 04713
LM3940IT-3.3/NOPB
27014
NAPE76A/00
REFDES
Exciter Monitor/GeneratorPWB Assy, Basic
DESCRIPTION
NAUTEL #
VENDOR #
OEM CODE
C01
Cap,SMT,Ceramic,0.1uF,10%,50V,X7R,0805
CCFS07
C0805C104K5RAC
31433
C02
Cap,SMT,Ceramic,0.1uF,10%,50V,X7R,0805
CCFS07
C0805C104K5RAC
31433
C03
Cap,SMT,Ceramic,0.047uF,10%,50V,X7R,0603
CCFS06
C0603C473K5RAC
31433
C04
Cap,SMT,Ceramic,10uF,20%,6.3V,X5R,0805
CCFS57
C2012X5R0J106M
54583
C05
Cap,SMT,Ceramic,0.01uF,10%,50V,X7R,0603
CCFS04
C0603C103K5RAC
31433
C06
Cap,SMT,Ceramic,0.1uF,10%,50V,X7R,0805
CCFS07
C0805C104K5RAC
31433
C07
Cap,SMT,Tantalum,10uF,10%,16V,1411
CTFS01
T494B106K016AS
31433
C08
Cap,SMT,Ceramic,0.1uF,10%,50V,X7R,0805
CCFS07
C0805C104K5RAC
31433
C09
Cap,SMT,Ceramic,0.01uF,10%,50V,X7R,0603
CCFS04
C0603C103K5RAC
31433
C10
Cap,SMT,Ceramic,0.001uF,10%,50V,X7R,0603
CCFS01
C0603C102K5RAC
31433
C11
Cap,SMT,Ceramic,0.01uF,10%,50V,X7R,0603
CCFS04
C0603C103K5RAC
31433
C12
Cap,SMT,Ceramic,0.1uF,10%,50V,X7R,0805
CCFS07
C0805C104K5RAC
31433
C13
Cap,SMT,Ceramic,0.1uF,10%,50V,X7R,0805
CCFS07
C0805C104K5RAC
31433
C14
Cap,SMT,Ceramic,0.1uF,10%,50V,X7R,0805
CCFS07
C0805C104K5RAC
31433
C15
Cap,SMT,Ceramic,0.01uF,10%,50V,X7R,0603
CCFS04
C0603C103K5RAC
31433
C16
Cap,SMT,Ceramic,0.1uF,10%,50V,X7R,0805
CCFS07
C0805C104K5RAC
31433
C17
Cap,SMT,Ceramic,0.01uF,10%,50V,X7R,0603
CCFS04
C0603C103K5RAC
31433
C18
Cap,SMT,Tantalum,1uF,10%,35V,1411
CTFS02
T494B105K035AS
31433
C19
Cap,SMT,Ceramic,0.1uF,10%,50V,X7R,0805
CCFS07
C0805C104K5RAC
31433
C20
Cap,SMT,Ceramic,0.1uF,10%,50V,X7R,0805
CCFS07
C0805C104K5RAC
31433
C21
Cap,SMT,Ceramic,0.1uF,10%,50V,X7R,0805
CCFS07
C0805C104K5RAC
31433
C22
Cap,SMT,Ceramic,0.1uF,10%,50V,X7R,0805
CCFS07
C0805C104K5RAC
31433
C23
Cap,SMT,Ceramic,0.1uF,10%,50V,X7R,0805
CCFS07
C0805C104K5RAC
31433
C24
Cap,SMT,Ceramic,0.1uF,10%,50V,X7R,0805
CCFS07
C0805C104K5RAC
31433
C25
Cap,SMT,Tantalum,1uF,10%,35V,1411
CTFS02
T494B105K035AS
31433
C26
Cap,SMT,Ceramic,0.1uF,10%,50V,X7R,0805
CCFS07
C0805C104K5RAC
31433
C27
Cap,SMT,Ceramic,0.01uF,10%,50V,X7R,0603
CCFS04
C0603C103K5RAC
31433
C28
Cap,SMT,Ceramic,0.01uF,10%,50V,X7R,0603
CCFS04
C0603C103K5RAC
31433
C29
Cap,SMT,Ceramic,0.47uF,10%,25V,X7R,0805
CCFS09
C0805C474K3RAC
31433
C30
Cap,SMT,Ceramic,0.1uF,10%,50V,X7R,0805
CCFS07
C0805C104K5RAC
31433
C31
Cap,SMT,Ceramic,0.1uF,10%,50V,X7R,0805
CCFS07
C0805C104K5RAC
31433
C32
Cap,SMT,Ceramic,0.1uF,10%,50V,X7R,0805
CCFS07
C0805C104K5RAC
31433
C33
Cap,SMT,Ceramic,0.1uF,10%,50V,X7R,0805
CCFS07
C0805C104K5RAC
31433
C34
Cap,SMT,Ceramic,0.01uF,10%,50V,X7R,0603
CCFS04
C0603C103K5RAC
31433
C35
Cap,SMT,Ceramic,0.1uF,10%,50V,X7R,0805
CCFS07
C0805C104K5RAC
31433
C36
Cap,SMT,Ceramic,0.1uF,10%,50V,X7R,0805
CCFS07
C0805C104K5RAC
31433
C37
Cap,SMT,Ceramic,0.1uF,10%,50V,X7R,0805
CCFS07
C0805C104K5RAC
31433
C38
Cap,SMT,Ceramic,0.1uF,10%,50V,X7R,0805
CCFS07
C0805C104K5RAC
31433
C39
Cap,SMT,Ceramic,0.1uF,10%,50V,X7R,0805
CCFS07
C0805C104K5RAC
31433
Page 46 of 114
NAPE76A/00
Continued from previous page
NAPE76A/00
REFDES
Exciter Monitor/GeneratorPWB Assy, Basic
DESCRIPTION
NAUTEL #
VENDOR #
OEM CODE
C40
Cap,SMT,Ceramic,0.1uF,10%,50V,X7R,0805
CCFS07
C0805C104K5RAC
31433
C41
Cap,SMT,Ceramic,0.1uF,10%,50V,X7R,0805
CCFS07
C0805C104K5RAC
31433
C42
Cap,SMT,Ceramic,0.1uF,10%,50V,X7R,0805
CCFS07
C0805C104K5RAC
31433
C43
Cap,SMT,Ceramic,0.01uF,10%,50V,X7R,0603
CCFS04
C0603C103K5RAC
31433
C44
Cap,SMT,Ceramic,0.1uF,10%,50V,X7R,0805
CCFS07
C0805C104K5RAC
31433
C45
Cap,SMT,Ceramic,0.1uF,10%,50V,X7R,0805
CCFS07
C0805C104K5RAC
31433
C46
Cap,SMT,Ceramic,18pF,2%,50V,C0G,0603
CCFS23
C0603C180G5GAC
31433
C47
Cap,SMT,Ceramic,0.1uF,10%,50V,X7R,0805
CCFS07
C0805C104K5RAC
31433
C48
Cap,SMT,Ceramic,0.1uF,10%,50V,X7R,0805
CCFS07
C0805C104K5RAC
31433
C49
Cap,SMT,Ceramic,10uF,20%,6.3V,X5R,0805
CCFS57
C2012X5R0J106M
54583
C50
Cap,SMT,Ceramic,0.01uF,10%,50V,X7R,0603
CCFS04
C0603C103K5RAC
31433
C51
Cap,SMT,Ceramic,0.01uF,10%,50V,X7R,0603
CCFS04
C0603C103K5RAC
31433
C52
Cap,SMT,Ceramic,0.1uF,10%,50V,X7R,0805
CCFS07
C0805C104K5RAC
31433
C53
Cap,SMT,Ceramic,0.01uF,10%,50V,X7R,0603
CCFS04
C0603C103K5RAC
31433
C54
Cap,SMT,Ceramic,10uF,20%,6.3V,X5R,0805
CCFS57
C2012X5R0J106M
54583
C55
Cap,SMT,Ceramic,0.001uF,10%,50V,X7R,0603
CCFS01
C0603C102K5RAC
31433
C56
Cap,SMT,Tantalum,10uF,10%,35V,2917
CTFS03
T494D106K035AS
31433
C57
Cap,SMT,Ceramic,18pF,2%,50V,C0G,0603
CCFS23
C0603C180G5GAC
31433
C58
Cap,SMT,Ceramic,0.01uF,10%,50V,X7R,0603
CCFS04
C0603C103K5RAC
31433
C59
Cap,SMT,Ceramic,0.01uF,10%,50V,X7R,0603
CCFS04
C0603C103K5RAC
31433
C60
Cap,SMT,Ceramic,0.01uF,10%,50V,X7R,0603
CCFS04
C0603C103K5RAC
31433
C61
Cap,SMT,Ceramic,0.01uF,10%,50V,X7R,0603
CCFS04
C0603C103K5RAC
31433
C62
Cap,SMT,Ceramic,0.1uF,10%,50V,X7R,0805
CCFS07
C0805C104K5RAC
31433
C63
Cap,SMT,Ceramic,0.1uF,10%,50V,X7R,0805
CCFS07
C0805C104K5RAC
31433
C64
Cap,SMT,Tantalum,10uF,10%,16V,1411
CTFS01
T494B106K016AS
31433
C65
Cap,SMT,Ceramic,0.01uF,10%,50V,X7R,0603
CCFS04
C0603C103K5RAC
31433
C66
Cap,SMT,Ceramic,0.01uF,10%,50V,X7R,0603
CCFS04
C0603C103K5RAC
31433
C67
Cap,SMT,Tantalum,10uF,10%,35V,2917
CTFS03
T494D106K035AS
31433
C68
Cap,SMT,Ceramic,0.1uF,10%,50V,X7R,0805
CCFS07
C0805C104K5RAC
31433
C69
Cap,SMT,Ceramic,0.01uF,10%,50V,X7R,0603
CCFS04
C0603C103K5RAC
31433
C70
Cap,SMT,Ceramic,0.1uF,10%,50V,X7R,0805
CCFS07
C0805C104K5RAC
31433
C71
Cap,SMT,Ceramic,0.001uF,10%,50V,X7R,0603
CCFS01
C0603C102K5RAC
31433
C72
Cap,SMT,Ceramic,0.1uF,10%,50V,X7R,0805
CCFS07
C0805C104K5RAC
31433
C73
Cap,SMT,Tantalum,10uF,10%,35V,2917
CTFS03
T494D106K035AS
31433
C74
Cap,SMT,Ceramic,0.1uF,10%,50V,X7R,0805
CCFS07
C0805C104K5RAC
31433
C75
Cap,SMT,Ceramic,0.1uF,10%,50V,X7R,0805
CCFS07
C0805C104K5RAC
31433
C76
Cap,SMT,Ceramic,10uF,20%,6.3V,X5R,0805
CCFS57
C2012X5R0J106M
54583
C77
Cap,SMT,Ceramic,0.47uF,10%,25V,X7R,0805
CCFS09
C0805C474K3RAC
31433
C78
Cap,SMT,Ceramic,0.001uF,10%,50V,X7R,0603
CCFS01
C0603C102K5RAC
31433
Page 47 of 114
NAPE76A/00
Continued from previous page
NAPE76A/00
REFDES
Exciter Monitor/GeneratorPWB Assy, Basic
DESCRIPTION
NAUTEL #
VENDOR #
OEM CODE
C79
Cap,SMT,Ceramic,10uF,20%,6.3V,X5R,0805
CCFS57
C2012X5R0J106M
54583
C80
Cap,SMT,Ceramic,0.47uF,10%,25V,X7R,0805
CCFS09
C0805C474K3RAC
31433
C81
Cap,SMT,Ceramic,0.47uF,10%,25V,X7R,0805
CCFS09
C0805C474K3RAC
31433
C82
Cap,SMT,Ceramic,0.1uF,10%,50V,X7R,0805
CCFS07
C0805C104K5RAC
31433
C83
Cap,SMT,Ceramic,0.1uF,10%,50V,X7R,0805
CCFS07
C0805C104K5RAC
31433
C85
Cap,SMT,Ceramic,10uF,20%,6.3V,X5R,0805
CCFS57
C2012X5R0J106M
54583
CR01
Diode,SMT,Schottky,30V,0.2A,SOD-323
QDSS01
BAT54HT1(STATIC)
04713
CR02
Diode,SMT,Schottky,30V,0.2A,SOD-323
QDSS01
BAT54HT1(STATIC)
04713
CR03
Diode,SMT,Schottky,30V,0.2A,SOD-323
QDSS01
BAT54HT1(STATIC)
04713
CR04
Diode,SMT,Schottky,30V,0.2A,SOD-323
QDSS01
BAT54HT1(STATIC)
04713
CR05
Diode,SMT,Schottky,30V,0.2A,SOD-323
QDSS01
BAT54HT1(STATIC)
04713
CR06
Diode,SMT,Schottky,30V,0.2A,SOD-323
QDSS01
BAT54HT1(STATIC)
04713
CR07
Diode,SMT,Schottky,30V,0.2A,SOD-323
QDSS01
BAT54HT1(STATIC)
04713
CR08
Diode,SMT,Schottky,30V,0.2A,SOD-323
QDSS01
BAT54HT1(STATIC)
04713
CR09
Diode,SMT,Schottky,30V,0.2A,SOD-323
QDSS01
BAT54HT1(STATIC)
04713
CR10
Diode,SMT,Zener,5.1V,5%,3W,SMB
QDZS01
1SMB5918BT3
04713
CR11
Diode,SMT,Schottky,30V,0.2A,SOD-323
QDSS01
BAT54HT1(STATIC)
04713
CR12
Diode,SMT,Schottky,30V,0.2A,SOD-323
QDSS01
BAT54HT1(STATIC)
04713
CR13
Diode,SMT,Schottky,30V,0.2A,SOD-323
QDSS01
BAT54HT1(STATIC)
04713
DS01
Diode, SMT, LED, Green,(560nm), 0603
QDLS01
83330
E01
Installed at Next Higher Assy
E02
Installed at Next Higher Assy
E03
Installed at Next Higher Assy
J01
Installed at Next Higher Assy
J02
Conn, Header,Square Post,Gold,Dual,40-pin
JF47
597-5312402F(STATIC)(RoHS)
INSTALLED AT NEXT
HIGHER ASSY
INSTALLED AT NEXT
HIGHER ASSY
INSTALLED AT NEXT
HIGHER ASSY
INSTALLED AT NEXT
HIGHER ASSY
4-102973-0
J03
Conn,SMT,Plug,SATA,Signal,Vert PWB
JQ57
67491-0031
1UX99
J04
Installed at Next Higher Assy
37338
L01
Inductor, SMT, Choke, 600ohms,2A, 0805
LCFS01
INSTALLED AT NEXT
HIGHER ASSY
ILHB0805RK601V
56845
L02
Inductor, SMT, Choke, 600ohms,2A, 0805
LCFS01
ILHB0805RK601V
56845
L03
Inductor, SMT, Choke, 600ohms,2A, 0805
LCFS01
ILHB0805RK601V
56845
Q01
Transistor,SMT,NPN,Switch/Amp,SOT-23
QBNS01
R01
Resistor,SMT,MF,56.2ohms,1%,1/10W,0603
RFFS23
MMBT4401LT1(STATI 04713
C)
RK73H1JLTD56R2F
59124
R02
Resistor,SMT,MF,10.0Kohms,1%,1/10W,0603
RFFS50
RK73H1JLTD1002F
59124
R03
Resistor,SMT,MF,18.2Kohms,1%,1/10W,0603
RFFS53
RK73H1JLTD1822F
59124
R04
Resistor,SMT,MF,18.2Kohms,1%,1/10W,0603
RFFS53
RK73H1JLTD1822F
59124
R05
Resistor,SMT,MF,12.1Kohms,1%,1/10W,0603
RFFS51
RK73H1JLTD1212F
59124
Page 48 of 114
NAPE76A/00
37338
37338
37338
37338
09482
Continued from previous page
NAPE76A/00
REFDES
Exciter Monitor/GeneratorPWB Assy, Basic
DESCRIPTION
NAUTEL #
VENDOR #
OEM CODE
R06
Resistor,SMT,MF,1000ohms,1%,1/10W,0603
RFFS38
RK73H1JLTD1001F
59124
R07
Resistor,SMT,MF,1000ohms,1%,1/10W,0603
RFFS38
RK73H1JLTD1001F
59124
R08
Resistor,SMT,MF,825ohms,1%,1/10W,0603
RFFS37
RK73H1JLTD8250F
59124
R09
Resistor,SMT,MF,3920ohms,1%,1/10W,0603
RFFS45
RK73H1JLTD3921F
59124
R10
Resistor,SMT,MF,8250ohms,1%,1/10W,0603
RFFS49
RK73H1JLTD8251F
59124
R11
Resistor, SMT, MF, 100 Ohms,1% 1/4W
RAD13
RK73H2BL1000F
59124
R12
Resistor, SMT, MF, 100 Ohms,1% 1/4W
RAD13
RK73H2BL1000F
59124
R13
Resistor,SMT,MF,475ohms,1%,1/10W,0603
RFFS34
RK73H1JLTD4750F
59124
R14
Resistor,SMT,MF,1000ohms,1%,1/10W,0603
RFFS38
RK73H1JLTD1001F
59124
R15
Resistor,SMT,MF,22.1Kohms,1%,1/10W,0603
RFFS54
RK73H1JLTD2212F
59124
R16
Resistor,SMT,MF,33.2Kohms,1%,1/10W,0603
RFFS56
RK73H1JLTD3322F
59124
R17
Resistor,SMT,MF,27.4Kohms,1%,1/10W,0603
RFFS55
RK73H1JLTD2742F
59124
R18
Resistor,SMT,MF,1000ohms,1%,1/10W,0603
RFFS38
RK73H1JLTD1001F
59124
R19
Resistor,SMT,MF,100Kohms,1%,1/10W,0603
RFFS62
RK73H1JLTD1003F
59124
R20
Resistor,SMT,MF,10.0Kohms,1%,1/10W,0603
RFFS50
RK73H1JLTD1002F
59124
R21
Resistor,SMT,MF,1000ohms,1%,1/10W,0603
RFFS38
RK73H1JLTD1001F
59124
R22
Resistor,SMT,MF,3.32Mohms,1%,1/10W,0603
RFFS80
RK73H1JLTD3324F
59124
R23
Resistor,SMT,MF,3.32Mohms,1%,1/10W,0603
RFFS80
RK73H1JLTD3324F
59124
R24
Resistor,SMT,MF,18.2Kohms,1%,1/10W,0603
RFFS53
RK73H1JLTD1822F
59124
R25
Resistor,SMT,MF,1.00Mohms,1%,1/10W,0603
RFFS74
RK73H1JLTD1004F
59124
R26
Resistor,SMT,MF,475Kohms,1%,1/10W,0603
RFFS70
RK73H1JLTD4753F
59124
R27
Resistor,SMT,MF,10.0Kohms,1%,1/10W,0603
RFFS50
RK73H1JLTD1002F
59124
R28
Resistor,SMT,MF,10.0Kohms,1%,1/10W,0603
RFFS50
RK73H1JLTD1002F
59124
R29
Resistor,SMT,MF,68.1Kohms,1%,1/10W,0603
RFFS60
RK73H1JLTD6812F
59124
R30
Resistor,SMT,MF,182Kohms,1%,1/10W,0603
RFFS65
RK73H1JLTD1823F
59124
R31
Resistor,SMT,MF,182Kohms,1%,1/10W,0603
RFFS65
RK73H1JLTD1823F
59124
R32
Resistor,SMT,MF,100Kohms,1%,1/10W,0603
RFFS62
RK73H1JLTD1003F
59124
R33
Resistor,SMT,MF,10.0Kohms,1%,1/10W,0603
RFFS50
RK73H1JLTD1002F
59124
R34
Resistor,SMT,MF,10.0Kohms,1%,1/10W,0603
RFFS50
RK73H1JLTD1002F
59124
R35
Resistor,SMT,MF,681ohms,1%,1/10W,0603
RFFS36
RK73H1JLTD6810F
59124
R36
Resistor,SMT,MF,8250ohms,1%,1/10W,0603
RFFS49
RK73H1JLTD8251F
59124
R37
Resistor,SMT,MF,56.2Kohms,1%,1/10W,0603
RFFS59
RK73H1JLTD5622F
59124
R38
Resistor,SMT,MF,18.2Kohms,1%,1/10W,0603
RFFS53
RK73H1JLTD1822F
59124
R39
Resistor,SMT,MF,18.2Kohms,1%,1/10W,0603
RFFS53
RK73H1JLTD1822F
59124
R40
Resistor,SMT,MF,18.2Kohms,1%,1/10W,0603
RFFS53
RK73H1JLTD1822F
59124
R41
Resistor,SMT,MF,100ohms,1%,1/10W,0603
RFFS26
RK73H1JLTD1000F
59124
R42
Resistor,SMT,MF,100ohms,1%,1/10W,0603
RFFS26
RK73H1JLTD1000F
59124
R43
Resistor,SMT,MF,10.0Kohms,1%,1/10W,0603
RFFS50
RK73H1JLTD1002F
59124
R44
Resistor,SMT,MF,100Kohms,1%,1/10W,0603
RFFS62
RK73H1JLTD1003F
59124
Page 49 of 114
NAPE76A/00
Continued from previous page
NAPE76A/00
REFDES
Exciter Monitor/GeneratorPWB Assy, Basic
DESCRIPTION
NAUTEL #
VENDOR #
OEM CODE
R45
Resistor,SMT,MF,100ohms,1%,1/10W,0603
RFFS26
RK73H1JLTD1000F
59124
R46
Resistor,SMT,MF,100ohms,1%,1/10W,0603
RFFS26
RK73H1JLTD1000F
59124
R47
Resistor,SMT,MF,5620ohms,1%,1/10W,0603
RFFS47
RK73H1JLTD5621F
59124
R48
Resistor,SMT,MF,100ohms,1%,1/10W,0603
RFFS26
RK73H1JLTD1000F
59124
R49
Resistor,SMT,MF,18.2Kohms,1%,1/10W,0603
RFFS53
RK73H1JLTD1822F
59124
R50
Resistor,SMT,MF,10.0Kohms,1%,1/10W,0603
RFFS50
RK73H1JLTD1002F
59124
R51
Resistor,SMT,MF,10.0Kohms,1%,1/10W,0603
RFFS50
RK73H1JLTD1002F
59124
R52
Resistor,SMT,MF,10.0Kohms,1%,1/10W,0603
RFFS50
RK73H1JLTD1002F
59124
R53
Resistor,SMT,MF,10.0Kohms,1%,1/10W,0603
RFFS50
RK73H1JLTD1002F
59124
R54
Resistor,SMT,MF,100ohms,1%,1/10W,0603
RFFS26
RK73H1JLTD1000F
59124
R55
Resistor,SMT,MF,0.0ohms,Jumper,0603
RFFS01
RK73Z1JLTD
59124
R56
Resistor,SMT,MF,100Kohms,1%,1/10W,0603
RFFS62
RK73H1JLTD1003F
59124
R57
Resistor,SMT,MF,100ohms,1%,1/10W,0603
RFFS26
RK73H1JLTD1000F
59124
R58
Resistor,SMT,MF,10.0Kohms,1%,1/10W,0603
RFFS50
RK73H1JLTD1002F
59124
R59
Resistor,SMT,MF,681ohms,1%,1/10W,0603
RFFS36
RK73H1JLTD6810F
59124
R60
Resistor,SMT,MF,332Kohms,1%,1/10W,0603
RFFS68
RK73H1JLTD3323F
59124
R61
Resistor,SMT,MF,15.0Kohms,1%,1/10W,0603
RFFS52
RK73H1JLTD1502F
59124
R62
Resistor,SMT,MF,475Kohms,1%,1/10W,0603
RFFS70
RK73H1JLTD4753F
59124
R64
Resistor,SMT,MF,2210ohms,1%,1/10W,0603
RFFS42
RK73H1JLTD2211F
59124
R65
Resistor,SMT,MF,100ohms,1%,1/10W,0603
RFFS26
RK73H1JLTD1000F
59124
R66
Resistor,SMT,MF,10.0Kohms,1%,1/10W,0603
RFFS50
RK73H1JLTD1002F
59124
R67
Resistor,SMT,MF,10.0Kohms,1%,1/10W,0603
RFFS50
RK73H1JLTD1002F
59124
R68
Resistor,SMT,MF,10.0Kohms,1%,1/10W,0603
RFFS50
RK73H1JLTD1002F
59124
R69
Resistor,SMT,MF,681ohms,1%,1/10W,0603
RFFS36
RK73H1JLTD6810F
59124
R71
Resistor,SMT,MF,10.0Kohms,1%,1/10W,0603
RFFS50
RK73H1JLTD1002F
59124
R72
Resistor,SMT,MF,0.0ohms,Jumper,0603
RFFS01
RK73Z1JLTD
59124
R73
Resistor,SMT,MF,10.0Kohms,1%,1/10W,0603
RFFS50
RK73H1JLTD1002F
59124
R74
Resistor,SMT,MF,100Kohms,1%,1/10W,0603
RFFS62
RK73H1JLTD1003F
59124
R75
Resistor,SMT,MF,100Kohms,1%,1/10W,0603
RFFS62
RK73H1JLTD1003F
59124
R76
Resistor,SMT,MF,22.1Kohms,1%,1/10W,0603
RFFS54
RK73H1JLTD2212F
59124
R77
Resistor, SMT, MF, 1000 Ohms,1% 1/4W
RAD25
RK73H2BL1001F
59124
R78
Resistor, SMT, MF, 1000 Ohms,1% 1/4W
RAD25
RK73H2BL1001F
59124
R79
Resistor,SMT,MF,47.5Kohms,1%,1/10W,0603
RFFS58
RK73H1JLTD4752F
59124
R80
Resistor,SMT,MF,825ohms,1%,1/10W,0603
RFFS37
RK73H1JLTD8250F
59124
R81
Resistor,SMT,MF,22.1Kohms,1%,1/10W,0603
RFFS54
RK73H1JLTD2212F
59124
R82
Resistor,SMT,MF,1.00Mohms,1%,1/10W,0603
RFFS74
RK73H1JLTD1004F
59124
R83
Resistor,SMT,MF,1.00Mohms,1%,1/10W,0603
RFFS74
RK73H1JLTD1004F
59124
R84
Resistor,SMT,MF,100Kohms,1%,1/10W,0603
RFFS62
RK73H1JLTD1003F
59124
R85
Resistor,SMT,MF,100Kohms,1%,1/10W,0603
RFFS62
RK73H1JLTD1003F
59124
Page 50 of 114
NAPE76A/00
Continued from previous page
NAPE76A/00
REFDES
Exciter Monitor/GeneratorPWB Assy, Basic
DESCRIPTION
NAUTEL #
VENDOR #
OEM CODE
R86
Resistor,SMT,MF,562Kohms,1%,1/10W,0603
RFFS71
RK73H1JLTD5623F
59124
R87
Resistor,SMT,MF,562Kohms,1%,1/10W,0603
RFFS71
RK73H1JLTD5623F
59124
U01
IC,SMT,CMOS,Analog Multiplexer,SOIC-16
UX86
04713
U02
IC,SMT,Micro Supervisor,Watchdog,SO-8
UX85
MC74HC4053AD(STA
TIC)
ADM705AR(STATIC)
U03
IC,SMT,Opamp,Quad,Rail-To-Rail,SOIC-14
ULAS02
TLV2374ID(STATIC)
01295
U04
IC,SMT,CMOS,Hex Inverter,Unbuff,SO-14
UDLS09
U05
IC,SMT,Prog Wave Gen,28 bit,MSOP-10
UX89
MM74HCU04M(STATI 07263
C)
AD9833BRM(STATIC) 45496
U06
IC,SMT,Comparator,Quad,SOIC-14
ULCS01
MC3302D(STATIC)
04713
U07
IC,SMT,4.096V Reference,0.1%,SOT-23-6
ULRS02
64155
01295
45496
U08
IC,SMT,Opamp,Quad,Single Supply,SOIC-14
ULAS01
LT1790BIS64.096(STATIC)
MC33074AD(STATIC)
U09
IC,SMT,Opamp,Quad,Rail-To-Rail,SOIC-14
ULAS02
TLV2374ID(STATIC)
U10
IC,SMT,Digital Pot,Quad,20K,TSSOP-24
UX87
U11
IC,SMT,Micro, ADC,PWM,TQFP-32,16k Flash
UX95
U12
IC,SMT,RS-485 Transceiver,Sgl,SOIC-8
UDTS03
AD5263BRU20(STATI 45496
C)
ATMEGA 1681FN41
20AI(STATIC)
DS36C278TM(STATIC) 27014
U13
IC,SMT,Microprocessor Supervisor, SC70
UDSS02
U14
IC,SMT,CMOS,Analog Multiplexer,SOIC-16
UX86
U15
IC,SMT,CMOS,Hex Inverter,Unbuff,SO-14
UDLS09
U16
IC,SMT,CMOS,8-Bit Shft Reg,Par O/P, SOIC-16
UDLS05
U17
IC,SMT,CMOS,Hex Inv,SOIC
UX88
U18
IC,SMT,CMOS,Hex Schm,Trig,Inv,SOIC-14
UDLS03
U19
IC,SMT,Opamp,Quad,Rail-To-Rail,SOIC-14
ULAS02
U20
IC,SMT,CMOS,Hex Inv,SOIC
UX88
XE01
Installed at Next Higher Assy
XE02
Installed at Next Higher Assy
XE03
Installed at Next Higher Assy
Y01
Crystal,SMT,Fund,Par Res,3.6864MHz,Comm
XFPS03
Page 51 of 114
NAPE76A/00
04713
ADM803MAKS(STATIC)
MC74HC4053AD(STA
TIC)
MM74HCU04M(STATI
C)
MC74HC595AD(STATI
C)
CD74ACT04M(STATIC
SN74AHCT14D(STATI
C)
TLV2374ID(STATIC)
24355
CD74ACT04M(STATIC
INSTALLED AT NEXT
HIGHER ASSY
INSTALLED AT NEXT
HIGHER ASSY
INSTALLED AT NEXT
HIGHER ASSY
ATSM49-3.6864MHz
01295
04713
07263
04713
01295
01295
01295
37338
37338
37338
23875
NAPE76A/03
REFDES
Exciter Monitor/GeneratorPWB Assy
DESCRIPTION
NAUTEL #
VENDOR #
OEM CODE
E01
Conn, Post Shunt, 2 Pos, .10 Centreline
JQ15
390088-2
09482
E02
Conn, Post Shunt, 2 Pos, .10 Centreline
JQ15
390088-2
09482
E03
Conn, Post Shunt, 2 Pos, .10 Centreline
JQ15
390088-2
09482
J01
Conn, Plug, D-Sub, 25 pin, Vert PWB
JS43
627 025 220 017
31781
J04
Conn, Header, Ribbon Cbl, 20 pin
JP46
499910-4
00779
R63
Resistor, SMT, MF, 681 Ohms,1% 1/4W
RAD23
R70
Resistor, SMT, MF, 681 Ohms,1% 1/4W
RAD23
XE01
Conn, Header, SIP,12 Pin Breakaway,.10 Ctr
JQ16
MCR18EZHF6810(RO ROHM
HS)
MCR18EZHF6810(RO ROHM
HS)
1-103185-2
09482
XE02
Conn, Header, SIP,12 Pin Breakaway,.10 Ctr
JQ16
1-103185-2
09482
XE03
Conn, Header, SIP,12 Pin Breakaway,.10 Ctr
JQ16
1-103185-2
09482
Page 52 of 114
NAPE76A/03
NAPF05A
REFDES
RF Filter PWB Assy
DESCRIPTION
NAUTEL #
VENDOR #
OEM CODE
C01
Capacitor,Polyprop,0.0036uF,3%,900VAC
CP29
715P3623900L-1138
SBE
C02
Capacitor,Polyprop,0.0036uF,3%,900VAC
CP29
715P3623900L-1138
SBE
C03
Capacitor,Polyprop,0.0036uF,3%,900VAC
CP29
715P3623900L-1138
SBE
C04
Capacitor,Polyprop,0.0036uF,3%,900VAC
CP29
715P3623900L-1138
SBE
C05
Capacitor,Polyprop,0.0036uF,3%,900VAC
CP29
715P3623900L-1138
SBE
C06
Capacitor,Polyprop,0.0036uF,3%,900VAC
CP29
715P3623900L-1138
SBE
C07
Capacitor,Polyprop,0.0036uF,3%,900VAC
CP29
715P3623900L-1138
SBE
C08
Capacitor,Polyprop,0.0036uF,3%,900VAC
CP29
715P3623900L-1138
SBE
C09
Capacitor,Polyprop,0.0036uF,3%,900VAC
CP29
715P3623900L-1138
SBE
C10
Capacitor,Polyprop,0.0036uF,3%,900VAC
CP29
715P3623900L-1138
SBE
C11
Capacitor,Polyprop,0.0036uF,3%,900VAC
CP29
715P3623900L-1138
SBE
C12
Capacitor,Polyprop,0.0036uF,3%,900VAC
CP29
715P3623900L-1138
SBE
C13
Capacitor,Polyprop,0.0036uF,3%,900VAC
CP29
715P3623900L-1138
SBE
C14
Capacitor,Polyprop,0.0036uF,3%,900VAC
CP29
715P3623900L-1138
SBE
C15
Capacitor,Polyprop,0.0036uF,3%,900VAC
CP29
715P3623900L-1138
SBE
C16
Capacitor,Polyprop,0.0036uF,3%,900VAC
CP29
715P3623900L-1138
SBE
E01
Connector, Quick-Dis, M,1/4 Tab, PWB
HR26
1287
91833
E02
Connector, Quick-Dis, M,1/4 Tab, PWB
HR26
1287
91833
E03
Connector, Quick-Dis, M,1/4 Tab, PWB
HR26
1287
91833
E04
Connector, Quick-Dis, M,1/4 Tab, PWB
HR26
1287
91833
E05
Connector, Quick-Dis, M,1/4 Tab, PWB
HR26
1287
91833
E06
Connector, Quick-Dis, M,1/4 Tab, PWB
HR26
1287
91833
E07
Connector, Quick-Dis, M,1/4 Tab, PWB
HR26
1287
91833
E08
Connector, Quick-Dis, M,1/4 Tab, PWB
HR26
1287
91833
E09
Connector, Quick-Dis, M,1/4 Tab, PWB
HR26
1287
91833
E10
Connector, Quick-Dis, M,1/4 Tab, PWB
HR26
1287
91833
E11
Connector, Quick-Dis, M,1/4 Tab, PWB
HR26
1287
91833
E13
Connector, Quick-Dis, M,1/4 Tab, PWB
HR26
1287
91833
E14
Connector, Quick-Dis, M,1/4 Tab, PWB
HR26
1287
91833
E16
Connector, Quick-Dis, M,1/4 Tab, PWB
HR26
1287
91833
E18
Connector, Quick-Dis, M,1/4 Tab, PWB
HR26
1287
91833
E19
Connector, Quick-Dis, M,1/4 Tab, PWB
HR26
1287
91833
E22
Connector, Quick-Dis, M,1/4 Tab, PWB
HR26
1287
91833
E23
Connector, Quick-Dis, M,1/4 Tab, PWB
HR26
1287
91833
E24
Connector, Quick-Dis, M,1/4 Tab, PWB
HR26
1287
91833
E25
Connector, Quick-Dis, M,1/4 Tab, PWB
HR26
1287
91833
E26
Connector, Quick-Dis, M,1/4 Tab, PWB
HR26
1287
91833
E27
Connector, Quick-Dis, M,1/4 Tab, PWB
HR26
1287
91833
E28
Connector, Quick-Dis, M,1/4 Tab, PWB
HR26
1287
91833
Page 53 of 114
NAPF05A
Continued from previous page
NAPF05A
REFDES
RF Filter PWB Assy
DESCRIPTION
NAUTEL #
VENDOR #
OEM CODE
E29
Connector, Quick-Dis, M,1/4 Tab, PWB
HR26
1287
91833
E30
Connector, Quick-Dis, M,1/4 Tab, PWB
HR26
1287
91833
E31
Connector, Quick-Dis, M,1/4 Tab, PWB
HR26
1287
91833
E32
Connector, Quick-Dis, M,1/4 Tab, PWB
HR26
1287
91833
E34
Connector, Quick-Dis, M,1/4 Tab, PWB
HR26
1287
91833
E35
Connector, Quick-Dis, M,1/4 Tab, PWB
HR26
1287
91833
J01
Conn, Coax, N, Recept, Panel,50ohm
JDP21
UG58A/U
02660
L01
Tapped Inductor Assy
195-6056-01
195-6056-01
37338
L02
Tapped Inductor Assy
195-6057-01
195-6057-01
37338
NAPF06$
REFDES
Modulator Filter PWB Assy
DESCRIPTION
NAUTEL #
VENDOR #
OEM CODE
C01
Capacitor, Metal, Polyprop, 0.22uF, 5%, 630V
CAP50
2222-378-64224
BC COMP
C02
Not Used
NOT USED
37338
C03
Capacitor, Metal, Polyprop, 0.22uF, 5%, 630V
CAP50
2222-378-64224
BC COMP
C04
Not Used
NOT USED
37338
CR01
Diode, Power Rectifier, 1000V,8A
QM45
MUR8100E(STATIC)
1MQ07
L01
Clip,Spring,Mounting Clamp forLY50
HX63
00C353517(ROHS)
MAGNETIC
L01
Pot Core (halves), 35mm, PC44Gapped
LY41
L01
Bobbin for 35mm Pot Core
LY42
PC44PQ35/35G2.2754583
22SG+/0.022mm(ROHS) TDK
BPQ35/35 - OD
54583
L01
Wire, Litz, 170/40 SNSN, Nylon18 AWG
WB45
NELC170/40SNSN
25706
L02
Clip,Spring,Mounting Clamp forLY50
HX63
00C353517(ROHS)
MAGNETIC
L02
Pot Core (halves), 35mm, PC44Gapped
LY41
L02
Bobbin for 35mm Pot Core
LY42
PC44PQ35/35G2.2754583
22SG+/0.022mm(ROHS) TDK
BPQ35/35 - OD
54583
L02
Wire, Litz, 170/40 SNSN, Nylon18 AWG
WB45
NELC170/40SNSN
Page 54 of 114
NAPF06A
25706
NAPF07C/00
REFDES
RF Power Probe PWB Assy
DESCRIPTION
NAUTEL #
VENDOR #
OEM CODE
C01
Capacitor, Mica, Dipped,1800pF 2% 500V
CB40
CM06FD182G03
14655
C02
Capacitor, Mica, Dipped,1800pF 2% 500V
CB40
CM06FD182G03
14655
C03
Installed at Next Higher Assy
37338
C04
Installed at Next Higher Assy
C05
Installed at Next Higher Assy
C06
Installed at Next Higher Assy
CR01
Diode, Power Rectifier, 1A, UltraFast
QN33
INSTALLED AT NEXT
HIGHER ASSY
INSTALLED AT NEXT
HIGHER ASSY
INSTALLED AT NEXT
HIGHER ASSY
INSTALLED AT NEXT
HIGHER ASSY
MUR160
CR02
Diode, Power Rectifier, 1A, UltraFast
QN33
MUR160
04713
CR03
Diode, Power Rectifier, 1A, UltraFast
QN33
MUR160
04713
CR04
Diode, Power Rectifier, 1A, UltraFast
QN33
MUR160
04713
CR05
Installed at Next Higher Assy
37338
CR06
Installed at Next Higher Assy
CR07
Installed at Next Higher Assy
CR08
Installed at Next Higher Assy
CR09
Installed at Next Higher Assy
E01
Installed at Next Higher Assy
E02
Installed at Next Higher Assy
E03
Installed at Next Higher Assy
E04
Installed at Next Higher Assy
J01
Conn, Socket, D-Sub, 25 pin, PWB Mt
JS13
INSTALLED AT NEXT
HIGHER ASSY
INSTALLED AT NEXT
HIGHER ASSY
INSTALLED AT NEXT
HIGHER ASSY
INSTALLED AT NEXT
HIGHER ASSY
INSTALLED AT NEXT
HIGHER ASSY
INSTALLED AT NEXT
HIGHER ASSY
INSTALLED AT NEXT
HIGHER ASSY
INSTALLED AT NEXT
HIGHER ASSY
INSTALLED AT NEXT
HIGHER ASSY
K22-B25S-NJ
J02
Installed at Next Higher Assy
37338
L01
Inductor, Moulded, Shielded, 10000uH
LAP41
L02
Inductor, Moulded, Shielded, 10000uH
LAP41
L03
Inductor, Moulded, Shielded, 10000uH
LAP41
L04
Inductor, Moulded, Shielded, 10000uH
LAP41
R01
Installed at Next Higher Assy
R02
Installed at Next Higher Assy
R03
Resistor, Film, 1000 Ohms, 5%, 2W
RBP13
INSTALLED AT NEXT
HIGHER ASSY
IMS-5-10000UH+/10%
IMS-5-10000UH+/10%
IMS-5-10000UH+/10%
IMS-5-10000UH+/10%
INSTALLED AT NEXT
HIGHER ASSY
INSTALLED AT NEXT
HIGHER ASSY
GS-3, 1000 OHMS
R04
Resistor, Film, 1000 Ohms, 5%, 2W
RBP13
GS-3, 1000 OHMS
75042
Page 55 of 114
NAPF07C/00
37338
37338
37338
04713
37338
37338
37338
37338
37338
37338
37338
37338
22421
35005
35005
35005
35005
37338
37338
75042
Continued from previous page
NAPF07C/00
REFDES
RF Power Probe PWB Assy
DESCRIPTION
NAUTEL #
VENDOR #
OEM CODE
R05
Resistor, Film, 1000 Ohms, 5%, 2W
RBP13
GS-3, 1000 OHMS
75042
R06
Resistor, Film, 1000 Ohms, 5%, 2W
RBP13
GS-3, 1000 OHMS
75042
R07
Resistor, Film, 1000 Ohms, 5%, 2W
RBP13
GS-3, 1000 OHMS
75042
R08
Resistor, Film, 4700 Ohms, 2PC 1/2W
RD03
RL20S472G
35005
R09
Resistor, Film, 100 Ohms, 5%2W
RBP07
GS-3, 100 OHMS
75042
R10
Resistor, Film, 100 Ohms, 5%2W
RBP07
GS-3, 100 OHMS
75042
R11
Resistor, Film, 4700 Ohms, 2PC 1/2W
RD03
RL20S472G
35005
T01
Transformer Assy
195-9065
195-9065
37338
T02
RF Current Transformer
195-9064
195-9064
37338
T03
Voltage Transformer
195-9060
195-9060
37338
TB01
Terminal Block, 4-pos, Double, 30A
JB33
382100104
13150
NAPF07C/01
REFDES
RF Power Probe (VECTOR) PWBAssy
DESCRIPTION
NAUTEL #
VENDOR #
OEM CODE
C03
Not Used
NOT USED
37338
C04
Not Used
NOT USED
37338
C05
Not Used
NOT USED
37338
C06
Not Used
NOT USED
37338
CR05
Not Used
NOT USED
37338
CR06
Not Used
NOT USED
37338
CR07
Not Used
NOT USED
37338
CR08
Not Used
NOT USED
37338
CR09
Not Used
NOT USED
37338
E01
Not Used
NOT USED
37338
E02
Not Used
NOT USED
37338
E03
Not Used
NOT USED
37338
E04
Not Used
NOT USED
37338
E05
Not Used
NOT USED
37338
E06
Not Used
NOT USED
37338
J02
Not Used
NOT USED
37338
R01
Resistor, Film, 100 Ohms, 5%2W
RBP07
GS-3, 100 OHMS
75042
R02
Resistor, Film, 100 Ohms, 5%2W
RBP07
GS-3, 100 OHMS
75042
Page 56 of 114
NAPF07C/01
NAPI76A/00
REFDES
Exciter Interface PWB AssyBasic
DESCRIPTION
NAUTEL #
VENDOR #
OEM CODE
C01
Capacitor, Ceramic, 0.1uF 10%100V
CCG07
CKR06BX104KRV
56289
C02
Capacitor, Ceramic, 0.1uF 10%100V
CCG07
CKR06BX104KRV
56289
C03
Capacitor, Ceramic, 0.1uF 10%100V
CCG07
CKR06BX104KRV
56289
C04
Capacitor, Ceramic, 0.01uF 10% 100V
CCG04
CKR05BX103KRV
56289
C05
Capacitor, Ceramic, 0.01uF 10% 100V
CCG04
CKR05BX103KRV
56289
C06
Capacitor, Ceramic, 0.01uF 10% 100V
CCG04
CKR05BX103KRV
56289
C07
Capacitor, Ceramic, 0.01uF 10% 100V
CCG04
CKR05BX103KRV
56289
C08
Capacitor, Ceramic, 0.01uF 10% 100V
CCG04
CKR05BX103KRV
56289
C09
Capacitor, Ceramic, 0.01uF 10% 100V
CCG04
CKR05BX103KRV
56289
C10
Capacitor, Ceramic, 0.1uF 10%100V
CCG07
CKR06BX104KRV
56289
C11
Capacitor, Ceramic, 0.01uF 10% 100V
CCG04
CKR05BX103KRV
56289
C12
Capacitor, Tantalum, Dipped, 10uF, 35V
CCP36
96095
C13
Capacitor, Ceramic, 0.0022uF 10% 100V
CCG02
T351G106K035AT(Ro
HS) KEMET
CKR05BX222KRV
C14
Capacitor, Ceramic, 0.0022uF 10% 100V
CCG02
CKR05BX222KRV
56289
C15
Capacitor, Mica, Dipped, 2200pF 2% 500V
CB41
CM06FD222G03
14655
C16
Capacitor, Tantalum, Dipped, 10uF, 35V
CCP36
96095
C17
Capacitor, Tantalum, Dipped, 10uF, 35V
CCP36
C18
Capacitor, Tantalum, Dipped, 10uF, 35V
CCP36
C19
Capacitor, Ceramic, 0.0022uF 10% 100V
CCG02
T351G106K035AT(Ro
HS) KEMET
T351G106K035AT(Ro
HS) KEMET
T351G106K035AT(Ro
HS) KEMET
CKR05BX222KRV
C20
Capacitor, Ceramic, 0.0022uF 10% 100V
CCG02
CKR05BX222KRV
56289
C21
Capacitor, Mica, Dipped, 2200pF 2% 500V
CB41
CM06FD222G03
14655
C22
Capacitor, Tantalum, Dipped, 10uF, 35V
CCP36
96095
C23
Capacitor, Tantalum, Dipped, 10uF, 35V
CCP36
C24
Capacitor, Tantalum, Dipped, 10uF, 35V
CCP36
C25
Capacitor, Ceramic, 0.1uF 10%100V
CCG07
T351G106K035AT(Ro
HS) KEMET
T351G106K035AT(Ro
HS) KEMET
T351G106K035AT(Ro
HS) KEMET
CKR06BX104KRV
C26
Capacitor, Ceramic, 0.1uF 10%100V
CCG07
CKR06BX104KRV
56289
C27
Capacitor, Tantalum, Dipped, 10uF, 35V
CCP36
96095
C28
Capacitor, Tantalum, Dipped, 10uF, 35V
CCP36
CR01
Diode, General Purpose, 200V,0.1A
QAP29
T351G106K035AT(Ro
HS) KEMET
T351G106K035AT(Ro
HS) KEMET
1N4938
CR02
Diode, General Purpose, 200V,0.1A
QAP29
1N4938
07263
CR03
Diode, General Purpose, 200V,0.1A
QAP29
1N4938
07263
CR04
Installed at Next Higher Assy
37338
CR05
Installed at Next Higher Assy
INSTALLED AT NEXT
HIGHER ASSY
INSTALLED AT NEXT
HIGHER ASSY
Page 57 of 114
NAPI76A/00
56289
96095
96095
56289
96095
96095
56289
96095
07263
37338
Continued from previous page
NAPI76A/00
REFDES
Exciter Interface PWB AssyBasic
DESCRIPTION
NAUTEL #
CR06
Installed at Next Higher Assy
CR07
Installed at Next Higher Assy
CR08
Diode, General Purpose, 200V,0.1A
CR09
VENDOR #
OEM CODE
37338
QAP29
INSTALLED AT NEXT
HIGHER ASSY
INSTALLED AT NEXT
HIGHER ASSY
1N4938
Diode, General Purpose, 200V,0.1A
QAP29
1N4938
07263
CR10
Diode, General Purpose, 200V,0.1A
QAP29
1N4938
07263
CR11
Installed at Next Higher Assy
37338
CR12
Installed at Next Higher Assy
CR13
Installed at Next Higher Assy
CR14
Installed at Next Higher Assy
CR15
Installed at Next Higher Assy
CR16
Installed at Next Higher Assy
CR17
Installed at Next Higher Assy
CR18
Installed at Next Higher Assy
CR19
Installed at Next Higher Assy
CR20
Installed at Next Higher Assy
CR21
Diode, General Purpose, 200V,0.1A
QAP29
INSTALLED AT NEXT
HIGHER ASSY
INSTALLED AT NEXT
HIGHER ASSY
INSTALLED AT NEXT
HIGHER ASSY
INSTALLED AT NEXT
HIGHER ASSY
INSTALLED AT NEXT
HIGHER ASSY
INSTALLED AT NEXT
HIGHER ASSY
INSTALLED AT NEXT
HIGHER ASSY
INSTALLED AT NEXT
HIGHER ASSY
INSTALLED AT NEXT
HIGHER ASSY
INSTALLED AT NEXT
HIGHER ASSY
1N4938
CR22
Diode, General Purpose, 200V,0.1A
QAP29
1N4938
07263
CR23
Diode, General Purpose, 200V,0.1A
QAP29
1N4938
07263
CR24
Diode, General Purpose, 200V,0.1A
QAP29
1N4938
07263
CR25
Diode, General Purpose, 200V,0.1A
QAP29
1N4938
07263
CR26
Diode, General Purpose, 200V,0.1A
QAP29
1N4938
07263
CR27
Diode, General Purpose, 200V,0.1A
QAP29
1N4938
07263
CR28
Diode, General Purpose, 200V,0.1A
QAP29
1N4938
07263
E01
Not Used
NOT USED
37338
E02
Not Used
NOT USED
37338
E03
Not Used
NOT USED
37338
E04
Conn, Post Shunt, 2 Pos, .10 Centreline
JQ15
390088-2
09482
E05
Conn, Post Shunt, 2 Pos, .10 Centreline
JQ15
390088-2
09482
E06
Conn, Post Shunt, 2 Pos, .10 Centreline
JQ15
390088-2
09482
E07
Conn, Post Shunt, 2 Pos, .10 Centreline
JQ15
390088-2
09482
E08
Not Used
NOT USED
37338
E09
Not Used
NOT USED
37338
E10
Conn, Post Shunt, 2 Pos, .10 Centreline
JQ15
390088-2
09482
Page 58 of 114
NAPI76A/00
37338
07263
37338
37338
37338
37338
37338
37338
37338
37338
37338
07263
Continued from previous page
NAPI76A/00
REFDES
Exciter Interface PWB AssyBasic
DESCRIPTION
NAUTEL #
VENDOR #
OEM CODE
E11
Conn, Post Shunt, 2 Pos, .10 Centreline
JQ15
390088-2
09482
J01
Conn, Header, Ribbon Cbl, 40 pin
JP52
499910-9
00779
J02
Conn, Header, Ribbon Cbl, 40 pin
JP52
499910-9
00779
J03
Conn, Header, Ribbon Cbl, 40 pin
JP52
499910-9
00779
J04
Conn,SMT,Plug,SATA,Signal,Vert PWB
JQ57
67491-0031
1UX99
J05
Conn, Plug, D-Sub, 25 pin, PWB Mt
JS12
K22-B25P-NJ
63590
J06
Conn, Plug, D-Sub, 25 pin, PWB Mt
JS12
K22-B25P-NJ
63590
J07
Conn, Header, Ribbon Cbl, 40 pin
JP52
499910-9
00779
J08
Conn, Plug, D-Sub, 25 pin, PWB Mt
JS12
K22-B25P-NJ
63590
J09
Conn, Socket, D-Sub, 25 pin, PWB Mt
JS13
K22-B25S-NJ
22421
J10
Conn, Socket, D-Sub, 25 pin, PWB Mt
JS13
K22-B25S-NJ
22421
J11
Conn, Socket, D-Sub, 25 pin, PWB Mt
JS13
K22-B25S-NJ
22421
J12
Installed at Next Higher Assy
37338
J13
Installed at Next Higher Assy
J14
Installed at Next Higher Assy
J15
Installed at Next Higher Assy
J16
Conn,SMT,Plug,SATA,Signal,Vert PWB
JQ57
INSTALLED AT NEXT
HIGHER ASSY
INSTALLED AT NEXT
HIGHER ASSY
INSTALLED AT NEXT
HIGHER ASSY
INSTALLED AT NEXT
HIGHER ASSY
67491-0031
K01
Relay, 5V Coil, 2PDT, 1A
KC18
TQ2-5V
61529
K02
Relay, 5V Coil, 2PDT, 1A
KC18
TQ2-5V
61529
L02
Inductor, Choke, 2.5 Turns, JMtl
LA16
82-152-J
33062
L03
Inductor, Choke, 2.5 Turns, JMtl
LA16
82-152-J
33062
L04
Inductor, Choke, 2.5 Turns, JMtl
LA16
82-152-J
33062
L06
Inductor, Choke, 2.5 Turns, JMtl
LA16
82-152-J
33062
L07
Inductor, Choke, 2.5 Turns, JMtl
LA16
82-152-J
33062
L08
Inductor, Choke, 2.5 Turns, JMtl
LA16
82-152-J
33062
Q01
Transistor, NPN, Switch/Amplifier
QA45
2N4401
04713
Q02
Transistor, NPN, Switch/Amplifier
QA45
2N4401
04713
Q03
Transistor, NPN, Switch/Amplifier
QA45
2N4401
04713
Q04
Transistor, NPN, Switch/Amplifier
QA45
2N4401
04713
Q05
Transistor, FET, N Channel
QN54
2N7000(STATIC)
04713
Q06
Transistor, FET, N Channel
QN54
2N7000(STATIC)
04713
Q07
Transistor, FET, N Channel
QN54
2N7000(STATIC)
04713
Q08
Transistor, NPN, Switch/Amplifier
QA45
2N4401
04713
Q09
Transistor, NPN, Switch/Amplifier
QA45
2N4401
04713
R01
Resistor, MF, 10.0K Ohms, 1PC1/4W
RAB37
MF1/4DL1002F
59124
R02
Resistor, MF, 10.0K Ohms, 1PC1/4W
RAB37
MF1/4DL1002F
59124
R03
Resistor, MF, 10.0K Ohms, 1PC1/4W
RAB37
MF1/4DL1002F
59124
Page 59 of 114
NAPI76A/00
37338
37338
37338
1UX99
Continued from previous page
NAPI76A/00
REFDES
Exciter Interface PWB AssyBasic
DESCRIPTION
NAUTEL #
VENDOR #
OEM CODE
R04
Resistor, MF, 10.0K Ohms, 1PC1/4W
RAB37
MF1/4DL1002F
59124
R05
Resistor, MF, 10.0K Ohms, 1PC1/4W
RAB37
MF1/4DL1002F
59124
R06
Resistor, MF, 10.0K Ohms, 1PC1/4W
RAB37
MF1/4DL1002F
59124
R07
Resistor, MF, 10.0K Ohms, 1PC1/4W
RAB37
MF1/4DL1002F
59124
R08
Resistor, MF, 10.0K Ohms, 1PC1/4W
RAB37
MF1/4DL1002F
59124
R09
Resistor, MF, 10.0K Ohms, 1PC1/4W
RAB37
MF1/4DL1002F
59124
R10
Resistor, MF, 10.0K Ohms, 1PC1/4W
RAB37
MF1/4DL1002F
59124
R11
Resistor, MF, 10.0K Ohms, 1PC1/4W
RAB37
MF1/4DL1002F
59124
R12
Resistor, MF, 10.0K Ohms, 1PC1/4W
RAB37
MF1/4DL1002F
59124
R13
Resistor, MF, 22.1K Ohms, 1PC1/4W
RAB41
MF1/4DL2212F
59124
R14
Resistor, MF, 10.0K Ohms, 1PC1/4W
RAB37
MF1/4DL1002F
59124
R15
Resistor, MF, 82.5K Ohms, 1PC1/4W
RAB48
MF1/4DL8252F
59124
R16
Resistor, MF, 8.25K Ohms, 1PC1/4W
RAB36
MF1/4DL8251F
59124
R17
Resistor, MF, 3.32K Ohms, 1PC1/4W
RAB31
MF1/4DL3321F
59124
R18
Resistor, MF, 3.32K Ohms, 1PC1/4W
RAB31
MF1/4DL3321F
59124
R19
Resistor, MF, 332 Ohms, 1PC 1/4W
RAB19
MF1/4DL3320F
59124
R20
Resistor, MF, 332 Ohms, 1PC 1/4W
RAB19
MF1/4DL3320F
59124
R21
Resistor, MF, 332 Ohms, 1PC 1/4W
RAB19
MF1/4DL3320F
59124
R22
Resistor, MF, 100 Ohms, 1PC 1/4W
RAB13
MF1/4DL1000F
59124
R23
Resistor, MF, 100 Ohms, 1PC 1/4W
RAB13
MF1/4DL1000F
59124
R24
Resistor, MF, 332 Ohms, 1PC 1/4W
RAB19
MF1/4DL3320F
59124
R25
Resistor, MF, 332 Ohms, 1PC 1/4W
RAB19
MF1/4DL3320F
59124
R26
Resistor, MF, 332 Ohms, 1PC 1/4W
RAB19
MF1/4DL3320F
59124
R27
Resistor, MF, 82.5K Ohms, 1PC1/4W
RAB48
MF1/4DL8252F
59124
R28
Resistor, MF, 8.25K Ohms, 1PC1/4W
RAB36
MF1/4DL8251F
59124
R29
Resistor, MF, 3.32K Ohms, 1PC1/4W
RAB31
MF1/4DL3321F
59124
R30
Resistor, MF, 3.32K Ohms, 1PC1/4W
RAB31
MF1/4DL3321F
59124
R31
Resistor, MF, 56.2K Ohms, 1PC1/4W
RAB46
MF1/4DL5622F
59124
R32
Resistor, MF, 100 Ohms, 1PC 1/4W
RAB13
MF1/4DL1000F
59124
R33
Resistor, MF, 33.2K Ohms, 1PC1/4W
RAB43
MF1/4DL3322F
59124
R34
Resistor, MF, 33.2K Ohms, 1PC1/4W
RAB43
MF1/4DL3322F
59124
R35
Resistor, MF, 22.1K Ohms, 1PC1/4W
RAB41
MF1/4DL2212F
59124
R36
Resistor, MF, 22.1K Ohms, 1PC1/4W
RAB41
MF1/4DL2212F
59124
R37
Resistor, MF, 56.2K Ohms, 1PC1/4W
RAB46
MF1/4DL5622F
59124
R38
Resistor, MF, 100 Ohms, 1PC 1/4W
RAB13
MF1/4DL1000F
59124
R39
Resistor, MF, 68.1K Ohms, 1PC1/4W
RAB47
MF1/4DL6812F
59124
R40
Resistor, MF, 68.1K Ohms, 1PC1/4W
RAB47
MF1/4DL6812F
59124
U01
IC, CMOS, Hex Inverter
UG03
MC74AC04N(STATIC) 04713
U02
IC, CMOS, Hex Inverter
UG03
MC74AC04N(STATIC) 04713
Page 60 of 114
NAPI76A/00
Continued from previous page
NAPI76A/00
REFDES
Exciter Interface PWB AssyBasic
DESCRIPTION
NAUTEL #
VENDOR #
OEM CODE
U03
IC, CMOS, Quad, 2-input NAND GAte
UM15
MC74HC00N(STATIC) 04713
U04
IC, Programmed, GAL
190-5077
190-5077
37338
XE04
Conn, Header, SIP,12 Pin Breakaway,.10 Ctr
JQ16
1-103185-2
09482
XE05
Conn, Header, SIP,12 Pin Breakaway,.10 Ctr
JQ16
1-103185-2
09482
XE06
Conn, Header, SIP,12 Pin Breakaway,.10 Ctr
JQ16
1-103185-2
09482
XE07
Conn, Header, SIP,12 Pin Breakaway,.10 Ctr
JQ16
1-103185-2
09482
XE10
Conn, Header, SIP,12 Pin Breakaway,.10 Ctr
JQ16
1-103185-2
09482
XE11
Conn, Header, SIP,12 Pin Breakaway,.10 Ctr
JQ16
1-103185-2
09482
XK01
Socket, IC, 10 Pin
UW43
110-93-310-41-001
3N087
XK02
Socket, IC, 10 Pin
UW43
110-93-310-41-001
3N087
XU01
Not Used
NOT USED
37338
XU02
Not Used
NOT USED
37338
XU03
Not Used
NOT USED
37338
XU04
Socket, IC, 24-Pin, 0.3"W
UD44
390261-8
00779
Page 61 of 114
NAPI76A/00
NAPI76A/02
REFDES
Exciter Interface PWB AssyVector-LP
DESCRIPTION
NAUTEL #
VENDOR #
OEM CODE
CR04
Diode, Schottky Rectifier, 45V, 16A
QM43
MBR1645(STATIC)
ONSEMI
CR05
Diode, Schottky, 1A 40V
QS13
04713
CR06
Diode, Schottky, 1A 40V
QS13
CR07
Diode, Schottky Rectifier, 45V, 16A
QM43
1N5819(STATIC)
MOTO
1N5819(STATIC)
MOTO
MBR1645(STATIC)
CR11
Diode, Schottky, 1A 40V
QS13
04713
CR12
Diode, Schottky, 1A 40V
QS13
CR13
Diode, Schottky Rectifier, 45V, 16A
QM43
1N5819(STATIC)
MOTO
1N5819(STATIC)
MOTO
MBR1645(STATIC)
CR14
Diode, Schottky Rectifier, 45V, 16A
QM43
MBR1645(STATIC)
ONSEMI
04713
ONSEMI
04713
ONSEMI
CR15
Diode, Schottky Rectifier, 45V, 16A
QM43
MBR1645(STATIC)
ONSEMI
CR16
Diode, Schottky, 1A 40V
QS13
04713
CR17
Diode, Schottky, 1A 40V
QS13
CR18
Diode, Schottky Rectifier, 45V, 16A
QM43
1N5819(STATIC)
MOTO
1N5819(STATIC)
MOTO
MBR1645(STATIC)
CR19
Diode, Schottky Rectifier, 45V, 16A
QM43
MBR1645(STATIC)
ONSEMI
CR20
Diode, Schottky Rectifier, 45V, 16A
QM43
MBR1645(STATIC)
ONSEMI
J12
Not Used
NOT USED
37338
J13
Conn, Header, Ribbon Cbl, 40 pin
JP52
499910-9
00779
J14
Not Used
NOT USED
37338
J15
Conn, Header, Ribbon Cbl, 40 pin
JP52
499910-9
00779
Page 62 of 114
NAPI76A/02
04713
ONSEMI
NAPI78B/00
REFDES
Remote Interface, Basic
DESCRIPTION
NAUTEL #
VENDOR #
OEM CODE
C001
Cap,SMT,Ceramic,0.0022uF,10%,50V,X7R,0603
CCFS02
C0603C222K5RAC
31433
C002
Cap,SMT,Ceramic,0.0047uF,10%,50V,X7R,0603
CCFS03
C0603C472K5RAC
31433
C003
Cap,SMT,Tantalum,10uF,10%,35V,2917
CTFS03
T494D106K035AS
31433
C004
Cap,SMT,Ceramic,1000pF,2%,50V,C0G,0805
CCFS42
C0805C102G5GAC
31433
C005
Not Used
NOT USED
37338
C006
Cap,SMT,Ceramic,1000pF,2%,50V,C0G,0805
CCFS42
C0805C102G5GAC
31433
C007
Cap,SMT,Ceramic,1000pF,2%,50V,C0G,0805
CCFS42
C0805C102G5GAC
31433
C008
Cap,SMT,Ceramic,0.1uF,10%,50V,X7R,0805
CCFS07
C0805C104K5RAC
31433
C009
Cap,SMT,Ceramic,0.1uF,10%,50V,X7R,0805
CCFS07
C0805C104K5RAC
31433
C010
Cap,SMT,Ceramic,0.1uF,10%,50V,X7R,0805
CCFS07
C0805C104K5RAC
31433
C011
Not Used
NOT USED
37338
C012
Cap,SMT,Ceramic,0.1uF,10%,50V,X7R,0805
CCFS07
C0805C104K5RAC
31433
C013
Cap,SMT,Tantalum,10uF,10%,35V,2917
CTFS03
T494D106K035AS
31433
C014
Not Used
NOT USED
37338
C015
Cap,SMT,Ceramic,150pF,1%,50V,C0G,0603
CCFS33
06035A151FAT2A
56289
C016
Cap,SMT,Ceramic,0.1uF,10%,50V,X7R,0805
CCFS07
C0805C104K5RAC
31433
C017
Capacitor, Ceramic, 1.0uF 10%50V
CCG10
CKR06BX105KRV
56289
C018
Not Used
NOT USED
37338
C019
Not Used
NOT USED
37338
C020
Cap,SMT,Ceramic,0.1uF,10%,50V,X7R,0805
CCFS07
C0805C104K5RAC
31433
C021
Cap,SMT,Tantalum,10uF,10%,35V,2917
CTFS03
T494D106K035AS
31433
C022
Cap,SMT,Ceramic,150pF,1%,50V,C0G,0603
CCFS33
06035A151FAT2A
56289
C023
Cap,SMT,Ceramic,0.1uF,10%,50V,X7R,0805
CCFS07
C0805C104K5RAC
31433
C024
Not Used
NOT USED
37338
C025
Not Used
NOT USED
37338
C026
Cap,SMT,Ceramic,0.1uF,10%,50V,X7R,0805
CCFS07
C0805C104K5RAC
31433
C027
Not Used
NOT USED
37338
C028
Not Used
NOT USED
37338
C029
Cap,SMT,Tantalum,10uF,10%,16V,1411
CTFS01
T494B106K016AS
31433
C030
Cap,SMT,Ceramic,0.1uF,10%,50V,X7R,0805
CCFS07
C0805C104K5RAC
31433
C031
Cap,SMT,Ceramic,0.01uF,10%,50V,X7R,0603
CCFS04
C0603C103K5RAC
31433
C032
Not Used
NOT USED
37338
C033
Not Used
NOT USED
37338
C034
Cap,SMT,Ceramic,0.1uF,10%,50V,X7R,0805
CCFS07
C0805C104K5RAC
31433
C035
Cap,SMT,Ceramic,0.1uF,10%,50V,X7R,0805
CCFS07
C0805C104K5RAC
31433
C036
Cap,SMT,Tantalum,10uF,10%,35V,2917
CTFS03
T494D106K035AS
31433
C037
Not Used
NOT USED
37338
C038
Not Used
NOT USED
37338
C039
Cap,SMT,Ceramic,0.01uF,10%,50V,X7R,0603
CCFS04
C0603C103K5RAC
31433
Page 63 of 114
NAPI78B/00
Continued from previous page
NAPI78B/00
REFDES
Remote Interface, Basic
DESCRIPTION
NAUTEL #
VENDOR #
OEM CODE
C040
Cap,SMT,Ceramic,0.1uF,10%,50V,X7R,0805
CCFS07
C0805C104K5RAC
31433
C041
Cap,SMT,Ceramic,0.01uF,10%,50V,X7R,0603
CCFS04
C0603C103K5RAC
31433
C042
Cap,SMT,Ceramic,0.47uF,10%,25V,X7R,0805
CCFS09
C0805C474K3RAC
31433
C043
Not Used
NOT USED
37338
C044
Cap,SMT,Ceramic,0.1uF,10%,50V,X7R,0805
CCFS07
C0805C104K5RAC
31433
C045
Cap,SMT,Ceramic,0.1uF,10%,50V,X7R,0805
CCFS07
C0805C104K5RAC
31433
C046
Cap,SMT,Tantalum,10uF,10%,35V,2917
CTFS03
T494D106K035AS
31433
C047
Cap,SMT,Ceramic,0.47uF,10%,25V,X7R,0805
CCFS09
C0805C474K3RAC
31433
C049
Cap,SMT,Ceramic,0.001uF,10%,50V,X7R,0603
CCFS01
C0603C102K5RAC
31433
C050
Cap,SMT,Ceramic,0.1uF,10%,50V,X7R,0805
CCFS07
C0805C104K5RAC
31433
C051
Cap,SMT,Ceramic,0.01uF,10%,50V,X7R,0603
CCFS04
C0603C103K5RAC
31433
C052
Cap,SMT,Tantalum,10uF,10%,35V,2917
CTFS03
T494D106K035AS
31433
C053
Not Used
NOT USED
37338
C054
Cap,SMT,Ceramic,0.001uF,10%,50V,X7R,0603
CCFS01
C0603C102K5RAC
31433
C055
Cap,SMT,Ceramic,0.1uF,10%,50V,X7R,0805
CCFS07
C0805C104K5RAC
31433
C056
Cap,SMT,Ceramic,0.0047uF,10%,50V,X7R,0603
CCFS03
C0603C472K5RAC
31433
C057
Cap,SMT,Ceramic,0.001uF,10%,50V,X7R,0603
CCFS01
C0603C102K5RAC
31433
C058
Cap,SMT,Ceramic,3300pF,2%,50V,C0G,1206
CCFS46
C1206C332G5GAC
31433
C059
Cap,SMT,Ceramic,3300pF,2%,50V,C0G,1206
CCFS46
C1206C332G5GAC
31433
C060
Cap,SMT,Ceramic,0.1uF,10%,50V,X7R,0805
CCFS07
C0805C104K5RAC
31433
C061
Cap,SMT,Ceramic,3300pF,2%,50V,C0G,1206
CCFS46
C1206C332G5GAC
31433
C062
Cap,SMT,Ceramic,0.01uF,10%,50V,X7R,0603
CCFS04
C0603C103K5RAC
31433
C063
Not Used
NOT USED
37338
C064
Cap,SMT,Ceramic,0.01uF,10%,50V,X7R,0603
CCFS04
C0603C103K5RAC
31433
C065
Cap,SMT,Ceramic,390pF,2%,50V,C0G,0603
CCFS37
C0603C391G5GAC
31433
C066
Cap,SMT,Ceramic,0.1uF,10%,50V,X7R,0805
CCFS07
C0805C104K5RAC
31433
C067
Cap,SMT,Ceramic,0.01uF,10%,50V,X7R,0603
CCFS04
C0603C103K5RAC
31433
C068
Cap,SMT,Tantalum,10uF,10%,16V,1411
CTFS01
T494B106K016AS
31433
C069
Cap,SMT,Ceramic,0.1uF,10%,50V,X7R,0805
CCFS07
C0805C104K5RAC
31433
C070
Cap,SMT,Ceramic,0.1uF,10%,50V,X7R,0805
CCFS07
C0805C104K5RAC
31433
C071
Cap,SMT,Ceramic,0.047uF,10%,50V,X7R,0603
CCFS06
C0603C473K5RAC
31433
C072
Cap,SMT,Ceramic,100pF,2%,50V,C0G,0603
CCFS32
C0603C101G5GAC
31433
C073
Cap,SMT,Ceramic,390pF,2%,50V,C0G,0603
CCFS37
C0603C391G5GAC
31433
C074
Cap,SMT,Ceramic,0.1uF,10%,50V,X7R,0805
CCFS07
C0805C104K5RAC
31433
C075
Cap,SMT,Ceramic,0.1uF,10%,50V,X7R,0805
CCFS07
C0805C104K5RAC
31433
C076
Cap,SMT,Ceramic,0.01uF,10%,50V,X7R,0603
CCFS04
C0603C103K5RAC
31433
C077
Cap,SMT,Tantalum,10uF,10%,16V,1411
CTFS01
T494B106K016AS
31433
C078
Cap,SMT,Ceramic,0.0022uF,10%,50V,X7R,0603
CCFS02
C0603C222K5RAC
31433
C079
Cap,SMT,Tantalum,1uF,10%,35V,1411
CTFS02
T494B105K035AS
31433
Page 64 of 114
NAPI78B/00
Continued from previous page
NAPI78B/00
REFDES
Remote Interface, Basic
DESCRIPTION
NAUTEL #
VENDOR #
OEM CODE
C080
Cap,SMT,Ceramic,0.1uF,10%,50V,X7R,0805
CCFS07
C0805C104K5RAC
31433
C081
Cap,SMT,Ceramic,0.1uF,10%,50V,X7R,0805
CCFS07
C0805C104K5RAC
31433
C082
Cap,SMT,Ceramic,0.01uF,10%,50V,X7R,0603
CCFS04
C0603C103K5RAC
31433
C083
Cap,SMT,Tantalum,1uF,10%,35V,1411
CTFS02
T494B105K035AS
31433
C084
Cap,SMT,Tantalum,1uF,10%,35V,1411
CTFS02
T494B105K035AS
31433
C085
Cap,SMT,Tantalum,1uF,10%,35V,1411
CTFS02
T494B105K035AS
31433
C086
Not Used
NOT USED
37338
C087
Not Used
NOT USED
37338
C088
Cap,SMT,Ceramic,0.1uF,10%,50V,X7R,0805
CCFS07
C0805C104K5RAC
31433
C089
Cap,SMT,Ceramic,0.1uF,10%,50V,X7R,0805
CCFS07
C0805C104K5RAC
31433
C091
Not Used
NOT USED
37338
C092
Not Used
NOT USED
37338
C094
Cap,SMT,Tantalum,1uF,10%,35V,1411
CTFS02
T494B105K035AS
31433
C095
Cap,SMT,Ceramic,0.1uF,10%,50V,X7R,0805
CCFS07
C0805C104K5RAC
31433
C098
Cap,SMT,Ceramic,0.1uF,10%,50V,X7R,0805
CCFS07
C0805C104K5RAC
31433
C100
Cap,SMT,Ceramic,0.1uF,10%,50V,X7R,0805
CCFS07
C0805C104K5RAC
31433
C102
Cap,SMT,Ceramic,0.1uF,10%,50V,X7R,0805
CCFS07
C0805C104K5RAC
31433
C103
Cap,SMT,Ceramic,0.1uF,10%,50V,X7R,0805
CCFS07
C0805C104K5RAC
31433
C105
Cap,SMT,Ceramic,0.01uF,10%,50V,X7R,0603
CCFS04
C0603C103K5RAC
31433
C106
Cap,SMT,Ceramic,0.1uF,10%,50V,X7R,0805
CCFS07
C0805C104K5RAC
31433
C107
Cap,SMT,Ceramic,10uF,20%,6.3V,X5R,0805
CCFS57
C2012X5R0J106M
54583
C108
Cap,SMT,Ceramic,0.1uF,10%,50V,X7R,0805
CCFS07
C0805C104K5RAC
31433
C109
Cap,SMT,Ceramic,0.01uF,10%,50V,X7R,0603
CCFS04
C0603C103K5RAC
31433
C112
Cap,SMT,Ceramic,0.01uF,10%,50V,X7R,0603
CCFS04
C0603C103K5RAC
31433
C113
Cap,SMT,Ceramic,0.1uF,10%,50V,X7R,0805
CCFS07
C0805C104K5RAC
31433
C115
Not Used
NOT USED
37338
C118
Cap,SMT,Tantalum,10uF,10%,16V,1411
CTFS01
T494B106K016AS
31433
C119
Cap,SMT,Ceramic,0.1uF,10%,50V,X7R,0805
CCFS07
C0805C104K5RAC
31433
C120
Cap,SMT,Ceramic,0.01uF,10%,50V,X7R,0603
CCFS04
C0603C103K5RAC
31433
C121
Not Used
NOT USED
37338
C122
Capacitor, Tantalum, Dipped, 10uF, 35V
CCP36
96095
C123
Capacitor, Ceramic, 0.1uF 10%100V
CCG07
T351G106K035AT(Ro
HS) KEMET
CKR06BX104KRV
C124
Capacitor, Ceramic, 1.0uF 100V
CAP16
RPE114Z5U105M100V 91929
C125
Capacitor, Ceramic, 0.1uF 10%100V
CCG07
CKR06BX104KRV
56289
C126
Capacitor, Ceramic, 0.1uF 10%100V
CCG07
CKR06BX104KRV
56289
C127
Capacitor, Ceramic, 1.0uF 100V
CAP16
RPE114Z5U105M100V 91929
CR01
Diode,SMT,Switching,250V,0.2A,SOD-323
QDRS01
BAS21HT1(STATIC)
04713
CR02
Diode,SMT,Switching,250V,0.2A,SOD-323
QDRS01
BAS21HT1(STATIC)
04713
Page 65 of 114
NAPI78B/00
56289
Continued from previous page
NAPI78B/00
REFDES
Remote Interface, Basic
DESCRIPTION
NAUTEL #
VENDOR #
OEM CODE
CR03
Diode,SMT,Switching,250V,0.2A,SOD-323
QDRS01
BAS21HT1(STATIC)
04713
CR04
Not Used
NOT USED
37338
CR05
Not Used
NOT USED
37338
CR06
Not Used
NOT USED
37338
CR07
Not Used
NOT USED
37338
CR08
Not Used
NOT USED
37338
CR09
Diode,SMT,Switching,250V,0.2A,SOD-323
QDRS01
BAS21HT1(STATIC)
04713
CR10
Diode,SMT,Switching,250V,0.2A,SOD-323
QDRS01
BAS21HT1(STATIC)
04713
CR11
Diode,SMT,Switching,250V,0.2A,SOD-323
QDRS01
BAS21HT1(STATIC)
04713
CR12
Diode,SMT,Switching,250V,0.2A,SOD-323
QDRS01
BAS21HT1(STATIC)
04713
CR13
Not Used
NOT USED
37338
CR14
Not Used
NOT USED
37338
CR15
Diode,SMT,Switching,250V,0.2A,SOD-323
QDRS01
BAS21HT1(STATIC)
04713
CR16
Diode,SMT,Switching,250V,0.2A,SOD-323
QDRS01
BAS21HT1(STATIC)
04713
CR17
Diode,SMT,Switching,250V,0.2A,SOD-323
QDRS01
BAS21HT1(STATIC)
04713
CR18
Diode,SMT,Switching,250V,0.2A,SOD-323
QDRS01
BAS21HT1(STATIC)
04713
CR19
Not Used
NOT USED
37338
CR20
Diode,SMT,Zener,39V,5%,3W,SMB
QDZS04
1SMB5939BT3
04713
CR21
Diode,SMT,Zener,5.1V,5%,3W,SMB
QDZS01
1SMB5918BT3
04713
CR22
Diode,SMT,Switching,250V,0.2A,SOD-323
QDRS01
BAS21HT1(STATIC)
04713
CR23
Not Used
NOT USED
37338
CR24
Not Used
NOT USED
37338
E01
Not Used
NOT USED
37338
E02
Not Used
NOT USED
37338
E03
Not Used
NOT USED
37338
E04
Installed at Next Higher Assy
37338
E05
Installed at Next Higher Assy
E06
Installed at Next Higher Assy
E07
Installed at Next Higher Assy
E08
Installed at Next Higher Assy
E09
Not Used
INSTALLED AT NEXT
HIGHER ASSY
INSTALLED AT NEXT
HIGHER ASSY
INSTALLED AT NEXT
HIGHER ASSY
INSTALLED AT NEXT
HIGHER ASSY
INSTALLED AT NEXT
HIGHER ASSY
NOT USED
E11
Installed at Next Higher Assy
37338
E12
Not Used
INSTALLED AT NEXT
HIGHER ASSY
NOT USED
E13
Installed at Next Higher Assy
E14
Installed at Next Higher Assy
Page 66 of 114
NAPI78B/00
INSTALLED AT NEXT
HIGHER ASSY
INSTALLED AT NEXT
HIGHER ASSY
37338
37338
37338
37338
37338
37338
37338
37338
Continued from previous page
NAPI78B/00
REFDES
Remote Interface, Basic
DESCRIPTION
NAUTEL #
E15
Installed at Next Higher Assy
E16
Not Used
E17
Installed at Next Higher Assy
E18
Installed at Next Higher Assy
J01
Not Used
J02
Not Used
J03
Conn,Socket,D-Sub,25 pin,VertPWB
J04
VENDOR #
INSTALLED AT NEXT
HIGHER ASSY
NOT USED
OEM CODE
37338
37338
INSTALLED AT NEXT
HIGHER ASSY
INSTALLED AT NEXT
HIGHER ASSY
NOT USED
37338
NOT USED
37338
JS53
628-025-220-017
31781
Conn, Socket, D-Sub, 9-Pin,Vertical PWB
JS50
164A16669X
C3057
J05
Connector,Plug,D-Sub,9-Pin,Vert., PWB
JPDT01
163 A 16259 X
C3057
J06
Conn, BNC, Recept, PWB Mt
JF35
R141426161
0GP12
J07
Conn, BNC, Recept, PWB Mt
JF35
R141426161
0GP12
J08
Conn, BNC, Recept, PWB Mt
JF35
R141426161
0GP12
J09
Not Used
NOT USED
37338
J10
Conn, Header, Ribbon Cbl, 20 pin
JP46
499910-4
00779
J11
Conn,Socket,D-Sub,25 pin,VertPWB
JS53
628-025-220-017
31781
J12
Conn, Plug, D-Sub, 25 pin, Vert PWB
JS43
627 025 220 017
31781
J13
Installed at Next Higher Assy
37338
J14
Not Used
INSTALLED AT NEXT
HIGHER ASSY
NOT USED
37338
J15
Not Used
NOT USED
37338
J16
Installed at Next Higher Assy
37338
J17
Installed at Next Higher Assy
J18
Conn, Header, Ribbon Cbl, 40-Pin
JQ53
INSTALLED AT NEXT
HIGHER ASSY
INSTALLED AT NEXT
HIGHER ASSY
103308-8
L01
Inductor, SMT, Choke, 600ohms,2A, 0805
LCFS01
ILHB0805RK601V
56845
L02
Inductor, SMT, Choke, 600ohms,2A, 0805
LCFS01
ILHB0805RK601V
56845
L03
Inductor, Choke, 2.5 Turns, JMtl
LA16
82-152-J
33062
L04
Inductor, SMT, Choke, 600ohms,2A, 0805
LCFS01
ILHB0805RK601V
56845
L06
Inductor, SMT, Choke, 600ohms,2A, 0805
LCFS01
ILHB0805RK601V
56845
L07
Inductor, Choke, 2.5 Turns, JMtl
LA16
82-152-J
33062
L08
Inductor, SMT, Choke, 600ohms,2A, 0805
LCFS01
ILHB0805RK601V
56845
L09
Inductor, SMT, Choke, 600ohms,2A, 0805
LCFS01
ILHB0805RK601V
56845
L10
Not Used
NOT USED
37338
L11
Inductor, Choke, 2.5 Turns, JMtl
LA16
82-152-J
33062
L12
Inductor, Choke, 2.5 Turns, JMtl
LA16
82-152-J
33062
Q01
Not Used
NOT USED
37338
Q02
Not Used
NOT USED
37338
Q03
Not Used
NOT USED
37338
Page 67 of 114
NAPI78B/00
37338
37338
37338
00779
Continued from previous page
NAPI78B/00
REFDES
Remote Interface, Basic
DESCRIPTION
NAUTEL #
VENDOR #
OEM CODE
Q04
Not Used
NOT USED
37338
Q05
Not Used
NOT USED
37338
Q06
Not Used
NOT USED
37338
Q07
Transistor, FET, P ChannelSTATIC
QM21
2N5116(STATIC)
17856
Q08
Not Used
NOT USED
37338
Q11
Not Used
NOT USED
37338
R001
Resistor,SMT,MF,5620ohms,1%,1/10W,0603
RFFS47
RK73H1JLTD5621F
59124
R002
Not Used
NOT USED
37338
R003
Not Used
NOT USED
37338
R004
Resistor,SMT,MF,15.0Kohms,1%,1/10W,0603
RFFS52
RK73H1JLTD1502F
59124
R005
Resistor,SMT,MF,3920ohms,1%,1/10W,0603
RFFS45
RK73H1JLTD3921F
59124
R006
Resistor,SMT,MF,3920ohms,1%,1/10W,0603
RFFS45
RK73H1JLTD3921F
59124
R007
Not Used
NOT USED
37338
R008
Not Used
NOT USED
37338
R009
Resistor,SMT,MF,68.1Kohms,1%,1/10W,0603
RFFS60
RK73H1JLTD6812F
59124
R010
Not Used
NOT USED
37338
R011
Not Used
NOT USED
37338
R012
Resistor,SMT,MF,1000ohms,1%,1/10W,0603
RFFS38
RK73H1JLTD1001F
59124
R013
Resistor,SMT,MF,10.0Kohms,1%,1/10W,0603
RFFS50
RK73H1JLTD1002F
59124
R014
Resistor,SMT,MF,10.0Kohms,1%,1/10W,0603
RFFS50
RK73H1JLTD1002F
59124
R015
Resistor, SMT, MF, 3320 Ohms,1% 1/4W
RAD31
RK73H2BL3321F
59124
R016
Resistor,SMT,MF,10.0Kohms,1%,1/10W,0603
RFFS50
RK73H1JLTD1002F
59124
R017
Resistor,SMT,MF,10.0Kohms,1%,1/10W,0603
RFFS50
RK73H1JLTD1002F
59124
R018
Resistor,SMT,MF,68.1Kohms,1%,1/10W,0603
RFFS60
RK73H1JLTD6812F
59124
R019
Resistor,SMT,MF,1000ohms,1%,1/10W,0603
RFFS38
RK73H1JLTD1001F
59124
R020
Not Used
NOT USED
37338
R021
Not Used
NOT USED
37338
R022
Resistor,SMT,MF,475Kohms,1%,1/10W,0603
RFFS70
RK73H1JLTD4753F
59124
R023
Resistor,SMT,MF,10.0Kohms,1%,1/10W,0603
RFFS50
RK73H1JLTD1002F
59124
R024
Not Used
NOT USED
37338
R025
Not Used
NOT USED
37338
R026
Resistor,SMT,MF,10.0Kohms,1%,1/10W,0603
RFFS50
RK73H1JLTD1002F
59124
R027
Resistor,SMT,MF,475ohms,1%,1/10W,0603
RFFS34
RK73H1JLTD4750F
59124
R028
Resistor, MF, 301 Ohms, 1%1/4W
RAC23
MF1/4DL3010F
59124
R029
Resistor, MF, 301 Ohms, 1%1/4W
RAC23
MF1/4DL3010F
59124
R030
Resistor,SMT,MF,1.82Mohms,1%,1/10W,0603
RFFS77
RK73H1JLTD1824F
59124
R031
Resistor,SMT,MF,475Kohms,1%,1/10W,0603
RFFS70
RK73H1JLTD4753F
59124
R032
Resistor,SMT,MF,22.1Kohms,1%,1/10W,0603
RFFS54
RK73H1JLTD2212F
59124
R033
Resistor,SMT,MF,10.0Kohms,1%,1/10W,0603
RFFS50
RK73H1JLTD1002F
59124
Page 68 of 114
NAPI78B/00
Continued from previous page
NAPI78B/00
REFDES
Remote Interface, Basic
DESCRIPTION
NAUTEL #
VENDOR #
OEM CODE
R034
Resistor,SMT,MF,475ohms,1%,1/10W,0603
RFFS34
RK73H1JLTD4750F
59124
R035
Not Used
NOT USED
37338
R036
Not Used
NOT USED
37338
R037
Resistor, Variable, Film, 5000 Ohms, 1/2W
RV10
3339P-1-502
80294
R038
Resistor,SMT,MF,22.1Kohms,1%,1/10W,0603
RFFS54
RK73H1JLTD2212F
59124
R039
Not Used
NOT USED
37338
R040
Not Used
NOT USED
37338
R041
Not Used
NOT USED
37338
R042
Not Used
NOT USED
37338
R043
Not Used
NOT USED
37338
R044
Not Used
NOT USED
37338
R045
Not Used
NOT USED
37338
R046
Not Used
NOT USED
37338
R047
Not Used
NOT USED
37338
R048
Resistor,SMT,MF,0.0ohms,Jumper,0603
RFFS01
RK73Z1JLTD
59124
R049
Not Used
NOT USED
37338
R050
Resistor,SMT,MF,10.0Kohms,1%,1/10W,0603
RFFS50
RK73H1JLTD1002F
59124
R051
Resistor, SMT, MF, 4750 Ohms,1%, 1/4W
RAD33
RK73H2BL4751F
59124
R052
Not Used
NOT USED
37338
R053
Resistor,SMT,MF,10.0Kohms,1%,1/10W,0603
RFFS50
RK73H1JLTD1002F
59124
R054
Resistor, SMT, MF, 4750 Ohms,1%, 1/4W
RAD33
RK73H2BL4751F
59124
R055
Resistor,SMT,MF,8250ohms,1%,1/10W,0603
RFFS49
RK73H1JLTD8251F
59124
R056
Not Used
NOT USED
37338
R057
Not Used
NOT USED
37338
R058
Not Used
NOT USED
37338
R059
Not Used
NOT USED
37338
R060
Not Used
NOT USED
37338
R061
Not Used
NOT USED
37338
R062
Not Used
NOT USED
37338
R063
Resistor,SMT,MF,1000ohms,1%,1/10W,0603
RFFS38
RK73H1JLTD1001F
59124
R064
Not Used
NOT USED
37338
R065
Not Used
NOT USED
37338
R066
Not Used
NOT USED
37338
R067
Not Used
NOT USED
37338
R068
Not Used
NOT USED
37338
R069
Not Used
NOT USED
37338
R070
Resistor,SMT,MF,10.0Kohms,1%,1/10W,0603
RFFS50
RK73H1JLTD1002F
59124
R071
Resistor, SMT, MF, 4750 Ohms,1%, 1/4W
RAD33
RK73H2BL4751F
59124
R072
Resistor,SMT,MF,1000ohms,1%,1/10W,0603
RFFS38
RK73H1JLTD1001F
59124
Page 69 of 114
NAPI78B/00
Continued from previous page
NAPI78B/00
REFDES
Remote Interface, Basic
DESCRIPTION
NAUTEL #
VENDOR #
OEM CODE
R073
Resistor,SMT,MF,6810ohms,1%,1/10W,0603
RFFS48
RK73H1JLTD6811F
59124
R074
Resistor,SMT,MF,1820ohms,1%,1/10W,0603
RFFS41
RK73H1JLTD1821F
59124
R075
Resistor,SMT,MF,10.0Kohms,1%,1/10W,0603
RFFS50
RK73H1JLTD1002F
59124
R076
Resistor, SMT, MF, 4750 Ohms,1%, 1/4W
RAD33
RK73H2BL4751F
59124
R077
Resistor,SMT,MF,6810ohms,1%,1/10W,0603
RFFS48
RK73H1JLTD6811F
59124
R078
Resistor,SMT,MF,1820ohms,1%,1/10W,0603
RFFS41
RK73H1JLTD1821F
59124
R079
Not Used
NOT USED
37338
R081
Resistor,SMT,MF,100Kohms,1%,1/10W,0603
RFFS62
RK73H1JLTD1003F
59124
R082
Resistor,SMT,MF,681Kohms,1%,1/10W,0603
RFFS72
RK73H1JLTD6813F
59124
R083
Resistor,SMT,MF,150Kohms,1%,1/10W,0603
RFFS64
RK73H1JLTD1503F
59124
R084
Resistor,SMT,MF,150Kohms,1%,1/10W,0603
RFFS64
RK73H1JLTD1503F
59124
R085
Resistor,SMT,MF,6810ohms,1%,1/10W,0603
RFFS48
RK73H1JLTD6811F
59124
R086
Resistor,SMT,MF,150Kohms,1%,1/10W,0603
RFFS64
RK73H1JLTD1503F
59124
R087
Resistor,SMT,MF,1.82Mohms,1%,1/10W,0603
RFFS77
RK73H1JLTD1824F
59124
R088
Resistor,SMT,MF,100Kohms,1%,1/10W,0603
RFFS62
RK73H1JLTD1003F
59124
R089
Resistor,SMT,MF,150Kohms,1%,1/10W,0603
RFFS64
RK73H1JLTD1503F
59124
R090
Resistor,SMT,MF,4750ohms,1%,1/10W,0603
RFFS46
RK73H1JLTD4751F
59124
R091
Resistor,SMT,MF,1.82Mohms,1%,1/10W,0603
RFFS77
RK73H1JLTD1824F
59124
R092
Resistor,SMT,MF,10.0Kohms,1%,1/10W,0603
RFFS50
RK73H1JLTD1002F
59124
R093
Resistor,SMT,MF,10.0Kohms,1%,1/10W,0603
RFFS50
RK73H1JLTD1002F
59124
R094
Resistor,SMT,MF,1820ohms,1%,1/10W,0603
RFFS41
RK73H1JLTD1821F
59124
R095
Not Used
NOT USED
37338
R096
Resistor, MF, 1K Ohms, 1PC 1/4W
RAB25
MF1/4DL1001F
59124
R097
Resistor,SMT,MF,562Kohms,1%,1/10W,0603
RFFS71
RK73H1JLTD5623F
59124
R098
Resistor,SMT,MF,4750ohms,1%,1/10W,0603
RFFS46
RK73H1JLTD4751F
59124
R099
Resistor,SMT,MF,1000ohms,1%,1/10W,0603
RFFS38
RK73H1JLTD1001F
59124
R100
Resistor,SMT,MF,1.00Mohms,1%,1/10W,0603
RFFS74
RK73H1JLTD1004F
59124
R101
Resistor,SMT,MF,1000ohms,1%,1/10W,0603
RFFS38
RK73H1JLTD1001F
59124
R102
Resistor,SMT,MF,1000ohms,1%,1/10W,0603
RFFS38
RK73H1JLTD1001F
59124
R103
Resistor,SMT,MF,1.00Mohms,1%,1/10W,0603
RFFS74
RK73H1JLTD1004F
59124
R104
Not Used
NOT USED
37338
R105
Resistor,SMT,MF,100ohms,1%,1/10W,0603
RFFS26
RK73H1JLTD1000F
59124
R106
Resistor,SMT,MF,2210ohms,1%,1/10W,0603
RFFS42
RK73H1JLTD2211F
59124
R107
Not Used
NOT USED
37338
R108
Not Used
NOT USED
37338
R109
Resistor,SMT,MF,1000ohms,1%,1/10W,0603
RFFS38
RK73H1JLTD1001F
59124
R110
Resistor,SMT,MF,1000ohms,1%,1/10W,0603
RFFS38
RK73H1JLTD1001F
59124
R114
Resistor,SMT,MF,10.0Kohms,1%,1/10W,0603
RFFS50
RK73H1JLTD1002F
59124
R116
Not Used
NOT USED
37338
Page 70 of 114
NAPI78B/00
Continued from previous page
NAPI78B/00
REFDES
Remote Interface, Basic
DESCRIPTION
NAUTEL #
VENDOR #
OEM CODE
R117
Not Used
NOT USED
37338
R123
Resistor,SMT,MF,100ohms,1%,1/10W,0603
RFFS26
RK73H1JLTD1000F
59124
R127
Not Used
NOT USED
37338
R130
Resistor,SMT,MF,100ohms,1%,1/10W,0603
RFFS26
RK73H1JLTD1000F
59124
R131
Resistor,SMT,MF,100ohms,1%,1/10W,0603
RFFS26
RK73H1JLTD1000F
59124
R132
Resistor,SMT,MF,1000ohms,1%,1/10W,0603
RFFS38
RK73H1JLTD1001F
59124
R133
Resistor,SMT,MF,2210ohms,1%,1/10W,0603
RFFS42
RK73H1JLTD2211F
59124
R134
Resistor,SMT,MF,1000ohms,1%,1/10W,0603
RFFS38
RK73H1JLTD1001F
59124
R135
Resistor,SMT,MF,2210ohms,1%,1/10W,0603
RFFS42
RK73H1JLTD2211F
59124
R136
Resistor,SMT,MF,121Kohms,1%,1/10W,0603
RFFS63
RK73H1JLTD1213F
59124
R137
Resistor,SMT,MF,121Kohms,1%,1/10W,0603
RFFS63
RK73H1JLTD1213F
59124
R138
Resistor,SMT,MF,10.0Kohms,1%,1/10W,0603
RFFS50
RK73H1JLTD1002F
59124
R139
Resistor, SMT, MF, 121K Ohms,1% 1/4W
RAE02
RK73H2BL1213F
59124
R140
Not Used
NOT USED
37338
R141
Not Used
NOT USED
37338
R142
Resistor,SMT,MF,221ohms,1%,1/10W,0603
RFFS30
RK73H1JLTD2210F
59124
R143
Resistor,SMT,MF,221ohms,1%,1/10W,0603
RFFS30
RK73H1JLTD2210F
59124
R144
Resistor,SMT,MF,4750ohms,1%,1/10W,0603
RFFS46
RK73H1JLTD4751F
59124
R145
Resistor, SMT, MF, 121K Ohms,1% 1/4W
RAE02
RK73H2BL1213F
59124
R147
Not Used
NOT USED
37338
R149
Not Used
NOT USED
37338
R150
Not Used
NOT USED
37338
R152
Resistor, SMT, MF, 1000 Ohms,1% 1/4W
RAD25
RK73H2BL1001F
59124
R153
Resistor, SMT, MF, 1000 Ohms,1% 1/4W
RAD25
RK73H2BL1001F
59124
R154
Not Used
NOT USED
37338
R155
Not Used
NOT USED
37338
R156
Resistor,SMT,MF,10.0Kohms,1%,1/10W,0603
RFFS50
RK73H1JLTD1002F
59124
R157
Not Used
NOT USED
37338
R158
Resistor,SMT,MF,10.0Kohms,1%,1/10W,0603
RFFS50
RK73H1JLTD1002F
59124
R159
Resistor, SMT, MF, 121K Ohms,1% 1/4W
RAE02
RK73H2BL1213F
59124
R160
Resistor, SMT, MF, 121K Ohms,1% 1/4W
RAE02
RK73H2BL1213F
59124
R161
Resistor,SMT,MF,10.0Kohms,1%,1/10W,0603
RFFS50
RK73H1JLTD1002F
59124
R162
Resistor, MF, 3.92K Ohms, 1PC1/4W
RAB32
MF1/4DL3921F
59124
R163
Installed at Next Higher Assy
37338
R164
Resistor, MF, 10.0K Ohms, 1PC1/4W
RAB37
INSTALLED AT NEXT
HIGHER ASSY
MF1/4DL1002F
R165
Resistor, Film, 150 Ohms, 2PC1/2W
RC27
RL20S151G
35005
R166
Resistor, Film, 1500 Ohms, 2PC 1/2W
RC39
RL20S152G
35005
R167
Resistor, Film, 150 Ohms, 5%,2W
RBP08
GS-3, 150 OHMS
75042
Page 71 of 114
NAPI78B/00
59124
Continued from previous page
NAPI78B/00
REFDES
Remote Interface, Basic
DESCRIPTION
NAUTEL #
R168
Installed at Next Higher Assy
S01
Not Used
VENDOR #
INSTALLED AT NEXT
HIGHER ASSY
NOT USED
OEM CODE
37338
37338
T01
Transformer, Audio,600CT/600CT, PWB
TTAT01
101F
69669
T02
Not Used
NOT USED
37338
TB01
Terminal Block,5mm,3-pos,PWBMt,Angled,Blue
JR49
796688-3
5Y407
U01
IC,SMT,Opamp,Quad,Single Supply,SOIC-14
ULAS01
MC33074AD(STATIC)
04713
U02
Not Used
NOT USED
37338
U03
IC,SMT,Instrumentation Amp,SOIC-8
UP98
AD620AR(STATIC)
45496
U04
Not Used
NOT USED
37338
U05
Not Used
NOT USED
37338
U06
IC,SMT,Dual Optocoupler,SOIC-8
UDOS01
MOCD223-M(STATIC) 7D893
U07
IC,SMT,Dual Optocoupler,SOIC-8
UDOS01
MOCD223-M(STATIC) 7D893
U08
IC,SMT,Opamp,Quad,Single Supply,SOIC-14
ULAS01
MC33074AD(STATIC)
U09
IC,SMT,CMOS,Hex Schm,Trig,Inv,SOIC-14
UDLS03
U10
IC,SMT,Comparator,Quad,SOIC-14
ULCS01
SN74AHCT14D(STATI 01295
C)
MC3302D(STATIC)
04713
U11
IC,SMT,RS-485 Transceiver,Sgl,SOIC-8
UDTS03
DS36C278TM(STATIC) 27014
U12
IC,SMT,RS-232 Transceiver,3.3V,SO-16
UDTS05
U13
IC,SMT,Dual,Optocoupler,SOIC-8
UX81
ADM3202ARN(STATIC 45496
HCPL-0731(STATIC)
AGILENT
U14
IC,SMT,Dual,Optocoupler,SOIC-8
UX81
HCPL-0731(STATIC)
U15
IC,SMT,CMOS,Hex Schm,Trig,Inv,SOIC-14
UDLS03
U16
IC,SMT,CMOS,Analog Multiplexer,SOIC-16
UX86
U17
IC,SMT,RS-485 Transceiver,Sgl,SOIC-8
UDTS03
SN74AHCT14D(STATI 01295
C)
MC74HC4053AD(STA 04713
TIC)
DS36C278TM(STATIC) 27014
U18
IC,SMT,RS-485 Transceiver,Sgl,SOIC-8
UDTS03
DS36C278TM(STATIC) 27014
U19
IC,SMT,RS-485 Transceiver,Sgl,SOIC-8
UDTS03
DS36C278TM(STATIC) 27014
U21
IC,SMT,Trans Array, 7 Darl.,SOIC-16
UDAS01
MC1413BD(STATIC)
04713
U23
IC,SMT,Amp,35MHz,CurrentFeedback 1.1A,TO263-7
UT90
LT1210CR(STATIC)
64155
XE04
Installed at Next Higher Assy
37338
XE05
Installed at Next Higher Assy
XE06
Installed at Next Higher Assy
XE07
Installed at Next Higher Assy
XE08
Installed at Next Higher Assy
XE11
Installed at Next Higher Assy
INSTALLED AT NEXT
HIGHER ASSY
INSTALLED AT NEXT
HIGHER ASSY
INSTALLED AT NEXT
HIGHER ASSY
INSTALLED AT NEXT
HIGHER ASSY
INSTALLED AT NEXT
HIGHER ASSY
INSTALLED AT NEXT
HIGHER ASSY
Page 72 of 114
NAPI78B/00
04713
AGILENT
37338
37338
37338
37338
37338
Continued from previous page
NAPI78B/00
REFDES
Remote Interface, Basic
DESCRIPTION
NAUTEL #
XE13
Installed at Next Higher Assy
XE14
Installed at Next Higher Assy
XE15
Installed at Next Higher Assy
XE17
Installed at Next Higher Assy
XE18
Installed at Next Higher Assy
Page 73 of 114
NAPI78B/00
VENDOR #
INSTALLED AT NEXT
HIGHER ASSY
INSTALLED AT NEXT
HIGHER ASSY
INSTALLED AT NEXT
HIGHER ASSY
INSTALLED AT NEXT
HIGHER ASSY
INSTALLED AT NEXT
HIGHER ASSY
OEM CODE
37338
37338
37338
37338
37338
NAPI78B/02
REFDES
Remote Interface PWB
DESCRIPTION
NAUTEL #
VENDOR #
OEM CODE
E04
Conn, Post Shunt, 2 Pos, .10 Centreline
JQ15
390088-2
09482
E05
Conn, Post Shunt, 2 Pos, .10 Centreline
JQ15
390088-2
09482
E06
Conn, Post Shunt, 2 Pos, .10 Centreline
JQ15
390088-2
09482
E07
Conn, Post Shunt, 2 Pos, .10 Centreline
JQ15
390088-2
09482
E08
Conn, Post Shunt, 2 Pos, .10 Centreline
JQ15
390088-2
09482
E11
Conn, Post Shunt, 2 Pos, .10 Centreline
JQ15
390088-2
09482
E13
Conn, Post Shunt, 2 Pos, .10 Centreline
JQ15
390088-2
09482
E14
Conn, Post Shunt, 2 Pos, .10 Centreline
JQ15
390088-2
09482
E15
Conn, Post Shunt, 2 Pos, .10 Centreline
JQ15
390088-2
09482
E17
Conn, Post Shunt, 2 Pos, .10 Centreline
JQ15
390088-2
09482
E18
Conn, Post Shunt, 2 Pos, .10 Centreline
JQ15
390088-2
09482
J13
Conn, Header, Ribbon Cbl, 40 pin
JP52
499910-9
00779
J16
Conn,Socket,D-Sub,25 pin,VertPWB
JS53
628-025-220-017
31781
J17
Conn,Socket,D-Sub,25 pin,VertPWB
JS53
628-025-220-017
31781
R163
Resistor, Variable, Film, 100K Ohms, 1/2W
RW01
3339P-1-104
80294
R168
Not Used
NOT USED
37338
XE04
Conn, Header, SIP,12 Pin Breakaway,.10 Ctr
JQ16
1-103185-2
09482
XE05
Conn, Header, SIP,12 Pin Breakaway,.10 Ctr
JQ16
1-103185-2
09482
XE06
Conn, Header, SIP,12 Pin Breakaway,.10 Ctr
JQ16
1-103185-2
09482
XE07
Conn, Header, SIP,12 Pin Breakaway,.10 Ctr
JQ16
1-103185-2
09482
XE08
Conn, Header, SIP,12 Pin Breakaway,.10 Ctr
JQ16
1-103185-2
09482
XE11
Conn, Header, SIP,12 Pin Breakaway,.10 Ctr
JQ16
1-103185-2
09482
XE13
Conn, Header, SIP,12 Pin Breakaway,.10 Ctr
JQ16
1-103185-2
09482
XE14
Conn, Header, SIP,12 Pin Breakaway,.10 Ctr
JQ16
1-103185-2
09482
XE15
Conn, Header, SIP,12 Pin Breakaway,.10 Ctr
JQ16
1-103185-2
09482
XE17
Conn, Header, SIP,12 Pin Breakaway,.10 Ctr
JQ16
1-103185-2
09482
XE18
Conn, Header, SIP,12 Pin Breakaway,.10 Ctr
JQ16
1-103185-2
09482
Page 74 of 114
NAPI78B/02
NAPI78D/00
REFDES
Remote Interface, Basic
DESCRIPTION
NAUTEL #
VENDOR #
OEM CODE
C001
Cap,SMT,Ceramic,0.0022uF,10%,50V,X7R,0603
CCFS02
C0603C222K5RAC
31433
C002
Cap,SMT,Ceramic,0.0047uF,10%,50V,X7R,0603
CCFS03
C0603C472K5RAC
31433
C003
Cap,SMT,Tantalum,10uF,10%,35V,2917
CTFS03
T494D106K035AS
31433
C004
Cap,SMT,Ceramic,1000pF,2%,50V,C0G,0805
CCFS42
C0805C102G5GAC
31433
C005
Not Used
NOT USED
37338
C006
Cap,SMT,Ceramic,1000pF,2%,50V,C0G,0805
CCFS42
C0805C102G5GAC
31433
C007
Cap,SMT,Ceramic,1000pF,2%,50V,C0G,0805
CCFS42
C0805C102G5GAC
31433
C008
Cap,SMT,Ceramic,0.1uF,10%,50V,X7R,0805
CCFS07
C0805C104K5RAC
31433
C009
Cap,SMT,Ceramic,0.1uF,10%,50V,X7R,0805
CCFS07
C0805C104K5RAC
31433
C010
Cap,SMT,Ceramic,0.1uF,10%,50V,X7R,0805
CCFS07
C0805C104K5RAC
31433
C011
Not Used
NOT USED
37338
C012
Cap,SMT,Ceramic,0.1uF,10%,50V,X7R,0805
CCFS07
C0805C104K5RAC
31433
C013
Cap,SMT,Tantalum,10uF,10%,35V,2917
CTFS03
T494D106K035AS
31433
C014
Not Used
NOT USED
37338
C015
Cap,SMT,Ceramic,150pF,1%,50V,C0G,0603
CCFS33
06035A151FAT2A
56289
C016
Cap,SMT,Ceramic,0.1uF,10%,50V,X7R,0805
CCFS07
C0805C104K5RAC
31433
C017
Capacitor, Ceramic, 1.0uF 10%50V
CCG10
CKR06BX105KRV
56289
C018
Not Used
NOT USED
37338
C019
Not Used
NOT USED
37338
C020
Cap,SMT,Ceramic,0.1uF,10%,50V,X7R,0805
CCFS07
C0805C104K5RAC
31433
C021
Cap,SMT,Tantalum,10uF,10%,35V,2917
CTFS03
T494D106K035AS
31433
C022
Cap,SMT,Ceramic,150pF,1%,50V,C0G,0603
CCFS33
06035A151FAT2A
56289
C023
Cap,SMT,Ceramic,0.1uF,10%,50V,X7R,0805
CCFS07
C0805C104K5RAC
31433
C024
Not Used
NOT USED
37338
C025
Not Used
NOT USED
37338
C026
Cap,SMT,Ceramic,0.1uF,10%,50V,X7R,0805
CCFS07
C0805C104K5RAC
31433
C027
Not Used
NOT USED
37338
C028
Not Used
NOT USED
37338
C029
Cap,SMT,Tantalum,10uF,10%,16V,1411
CTFS01
T494B106K016AS
31433
C030
Cap,SMT,Ceramic,0.1uF,10%,50V,X7R,0805
CCFS07
C0805C104K5RAC
31433
C031
Cap,SMT,Ceramic,0.01uF,10%,50V,X7R,0603
CCFS04
C0603C103K5RAC
31433
C032
Not Used
NOT USED
37338
C033
Not Used
NOT USED
37338
C034
Cap,SMT,Ceramic,0.1uF,10%,50V,X7R,0805
CCFS07
C0805C104K5RAC
31433
C035
Cap,SMT,Ceramic,0.1uF,10%,50V,X7R,0805
CCFS07
C0805C104K5RAC
31433
C036
Cap,SMT,Tantalum,10uF,10%,35V,2917
CTFS03
T494D106K035AS
31433
C037
Not Used
NOT USED
37338
C038
Not Used
NOT USED
37338
C039
Cap,SMT,Ceramic,0.01uF,10%,50V,X7R,0603
CCFS04
C0603C103K5RAC
31433
Page 75 of 114
NAPI78D/00
Continued from previous page
NAPI78D/00
REFDES
Remote Interface, Basic
DESCRIPTION
NAUTEL #
VENDOR #
OEM CODE
C040
Cap,SMT,Ceramic,0.1uF,10%,50V,X7R,0805
CCFS07
C0805C104K5RAC
31433
C041
Cap,SMT,Ceramic,0.01uF,10%,50V,X7R,0603
CCFS04
C0603C103K5RAC
31433
C042
Cap,SMT,Ceramic,0.47uF,10%,25V,X7R,0805
CCFS09
C0805C474K3RAC
31433
C043
Not Used
NOT USED
37338
C044
Cap,SMT,Ceramic,0.1uF,10%,50V,X7R,0805
CCFS07
C0805C104K5RAC
31433
C045
Cap,SMT,Ceramic,0.1uF,10%,50V,X7R,0805
CCFS07
C0805C104K5RAC
31433
C046
Cap,SMT,Tantalum,10uF,10%,35V,2917
CTFS03
T494D106K035AS
31433
C047
Cap,SMT,Ceramic,0.47uF,10%,25V,X7R,0805
CCFS09
C0805C474K3RAC
31433
C049
Cap,SMT,Ceramic,0.001uF,10%,50V,X7R,0603
CCFS01
C0603C102K5RAC
31433
C050
Cap,SMT,Ceramic,0.1uF,10%,50V,X7R,0805
CCFS07
C0805C104K5RAC
31433
C051
Cap,SMT,Ceramic,0.01uF,10%,50V,X7R,0603
CCFS04
C0603C103K5RAC
31433
C052
Cap,SMT,Tantalum,10uF,10%,35V,2917
CTFS03
T494D106K035AS
31433
C053
Not Used
NOT USED
37338
C054
Cap,SMT,Ceramic,0.001uF,10%,50V,X7R,0603
CCFS01
C0603C102K5RAC
31433
C055
Cap,SMT,Ceramic,0.1uF,10%,50V,X7R,0805
CCFS07
C0805C104K5RAC
31433
C056
Cap,SMT,Ceramic,0.0047uF,10%,50V,X7R,0603
CCFS03
C0603C472K5RAC
31433
C057
Cap,SMT,Ceramic,0.001uF,10%,50V,X7R,0603
CCFS01
C0603C102K5RAC
31433
C058
Cap,SMT,Ceramic,3300pF,2%,50V,C0G,1206
CCFS46
C1206C332G5GAC
31433
C059
Cap,SMT,Ceramic,3300pF,2%,50V,C0G,1206
CCFS46
C1206C332G5GAC
31433
C060
Cap,SMT,Ceramic,0.1uF,10%,50V,X7R,0805
CCFS07
C0805C104K5RAC
31433
C061
Cap,SMT,Ceramic,3300pF,2%,50V,C0G,1206
CCFS46
C1206C332G5GAC
31433
C062
Cap,SMT,Ceramic,0.01uF,10%,50V,X7R,0603
CCFS04
C0603C103K5RAC
31433
C063
Not Used
NOT USED
37338
C064
Cap,SMT,Ceramic,0.01uF,10%,50V,X7R,0603
CCFS04
C0603C103K5RAC
31433
C065
Cap,SMT,Ceramic,390pF,2%,50V,C0G,0603
CCFS37
C0603C391G5GAC
31433
C066
Cap,SMT,Ceramic,0.1uF,10%,50V,X7R,0805
CCFS07
C0805C104K5RAC
31433
C067
Cap,SMT,Ceramic,0.01uF,10%,50V,X7R,0603
CCFS04
C0603C103K5RAC
31433
C068
Cap,SMT,Tantalum,1uF,10%,35V,1411
CTFS02
T494B105K035AS
31433
C069
Cap,SMT,Ceramic,0.1uF,10%,50V,X7R,0805
CCFS07
C0805C104K5RAC
31433
C070
Cap,SMT,Ceramic,0.1uF,10%,50V,X7R,0805
CCFS07
C0805C104K5RAC
31433
C071
Cap,SMT,Ceramic,0.047uF,10%,50V,X7R,0603
CCFS06
C0603C473K5RAC
31433
C072
Cap,SMT,Ceramic,100pF,2%,50V,C0G,0603
CCFS32
C0603C101G5GAC
31433
C073
Cap,SMT,Ceramic,390pF,2%,50V,C0G,0603
CCFS37
C0603C391G5GAC
31433
C074
Cap,SMT,Ceramic,0.1uF,10%,50V,X7R,0805
CCFS07
C0805C104K5RAC
31433
C075
Cap,SMT,Ceramic,0.1uF,10%,50V,X7R,0805
CCFS07
C0805C104K5RAC
31433
C076
Cap,SMT,Ceramic,0.01uF,10%,50V,X7R,0603
CCFS04
C0603C103K5RAC
31433
C077
Cap,SMT,Tantalum,10uF,10%,16V,1411
CTFS01
T494B106K016AS
31433
C078
Cap,SMT,Ceramic,0.0022uF,10%,50V,X7R,0603
CCFS02
C0603C222K5RAC
31433
C079
Cap,SMT,Tantalum,1uF,10%,35V,1411
CTFS02
T494B105K035AS
31433
Page 76 of 114
NAPI78D/00
Continued from previous page
NAPI78D/00
REFDES
Remote Interface, Basic
DESCRIPTION
NAUTEL #
VENDOR #
OEM CODE
C080
Cap,SMT,Ceramic,0.1uF,10%,50V,X7R,0805
CCFS07
C0805C104K5RAC
31433
C081
Cap,SMT,Ceramic,0.1uF,10%,50V,X7R,0805
CCFS07
C0805C104K5RAC
31433
C082
Cap,SMT,Ceramic,0.01uF,10%,50V,X7R,0603
CCFS04
C0603C103K5RAC
31433
C083
Cap,SMT,Tantalum,1uF,10%,35V,1411
CTFS02
T494B105K035AS
31433
C084
Cap,SMT,Tantalum,1uF,10%,35V,1411
CTFS02
T494B105K035AS
31433
C085
Cap,SMT,Tantalum,1uF,10%,35V,1411
CTFS02
T494B105K035AS
31433
C086
Not Used
NOT USED
37338
C087
Not Used
NOT USED
37338
C088
Cap,SMT,Ceramic,0.1uF,10%,50V,X7R,0805
CCFS07
C0805C104K5RAC
31433
C089
Cap,SMT,Ceramic,0.1uF,10%,50V,X7R,0805
CCFS07
C0805C104K5RAC
31433
C091
Not Used
NOT USED
37338
C092
Not Used
NOT USED
37338
C094
Cap,SMT,Tantalum,1uF,10%,35V,1411
CTFS02
T494B105K035AS
31433
C095
Cap,SMT,Ceramic,0.1uF,10%,50V,X7R,0805
CCFS07
C0805C104K5RAC
31433
C098
Cap,SMT,Ceramic,0.1uF,10%,50V,X7R,0805
CCFS07
C0805C104K5RAC
31433
C100
Cap,SMT,Ceramic,0.1uF,10%,50V,X7R,0805
CCFS07
C0805C104K5RAC
31433
C102
Cap,SMT,Ceramic,0.1uF,10%,50V,X7R,0805
CCFS07
C0805C104K5RAC
31433
C103
Cap,SMT,Ceramic,0.1uF,10%,50V,X7R,0805
CCFS07
C0805C104K5RAC
31433
C105
Cap,SMT,Ceramic,0.01uF,10%,50V,X7R,0603
CCFS04
C0603C103K5RAC
31433
C106
Cap,SMT,Ceramic,0.1uF,10%,50V,X7R,0805
CCFS07
C0805C104K5RAC
31433
C107
Cap,SMT,Ceramic,10uF,20%,6.3V,X5R,0805
CCFS57
C2012X5R0J106M
54583
C108
Cap,SMT,Ceramic,0.1uF,10%,50V,X7R,0805
CCFS07
C0805C104K5RAC
31433
C109
Cap,SMT,Ceramic,0.01uF,10%,50V,X7R,0603
CCFS04
C0603C103K5RAC
31433
C112
Cap,SMT,Ceramic,0.01uF,10%,50V,X7R,0603
CCFS04
C0603C103K5RAC
31433
C113
Cap,SMT,Ceramic,0.1uF,10%,50V,X7R,0805
CCFS07
C0805C104K5RAC
31433
C115
Not Used
NOT USED
37338
C118
Cap,SMT,Tantalum,10uF,10%,16V,1411
CTFS01
T494B106K016AS
31433
C119
Cap,SMT,Ceramic,0.1uF,10%,50V,X7R,0805
CCFS07
C0805C104K5RAC
31433
C120
Cap,SMT,Ceramic,0.01uF,10%,50V,X7R,0603
CCFS04
C0603C103K5RAC
31433
C121
Not Used
NOT USED
37338
C122
Capacitor, Tantalum, Dipped, 10uF, 35V
CCP36
96095
C123
Capacitor, Ceramic, 0.1uF 10%100V
CCG07
T351G106K035AT(Ro
HS) KEMET
CKR06BX104KRV
C124
Capacitor, Ceramic, 1.0uF 100V
CAP16
RPE114Z5U105M100V 91929
C125
Capacitor, Ceramic, 0.1uF 10%100V
CCG07
CKR06BX104KRV
56289
C126
Capacitor, Ceramic, 0.1uF 10%100V
CCG07
CKR06BX104KRV
56289
C127
Capacitor, Ceramic, 1.0uF 100V
CAP16
RPE114Z5U105M100V 91929
CR01
Diode,SMT,Switching,250V,0.2A,SOD-323
QDRS01
BAS21HT1(STATIC)
04713
CR02
Diode,SMT,Switching,250V,0.2A,SOD-323
QDRS01
BAS21HT1(STATIC)
04713
Page 77 of 114
NAPI78D/00
56289
Continued from previous page
NAPI78D/00
REFDES
Remote Interface, Basic
DESCRIPTION
NAUTEL #
VENDOR #
OEM CODE
CR03
Diode,SMT,Switching,250V,0.2A,SOD-323
QDRS01
BAS21HT1(STATIC)
04713
CR04
Not Used
NOT USED
37338
CR05
Not Used
NOT USED
37338
CR06
Not Used
NOT USED
37338
CR07
Not Used
NOT USED
37338
CR08
Not Used
NOT USED
37338
CR09
Diode,SMT,Switching,250V,0.2A,SOD-323
QDRS01
BAS21HT1(STATIC)
04713
CR10
Diode,SMT,Switching,250V,0.2A,SOD-323
QDRS01
BAS21HT1(STATIC)
04713
CR11
Diode,SMT,Switching,250V,0.2A,SOD-323
QDRS01
BAS21HT1(STATIC)
04713
CR12
Diode,SMT,Switching,250V,0.2A,SOD-323
QDRS01
BAS21HT1(STATIC)
04713
CR13
Not Used
NOT USED
37338
CR14
Not Used
NOT USED
37338
CR15
Diode,SMT,Switching,250V,0.2A,SOD-323
QDRS01
BAS21HT1(STATIC)
04713
CR16
Diode,SMT,Switching,250V,0.2A,SOD-323
QDRS01
BAS21HT1(STATIC)
04713
CR17
Diode,SMT,Switching,250V,0.2A,SOD-323
QDRS01
BAS21HT1(STATIC)
04713
CR18
Diode,SMT,Switching,250V,0.2A,SOD-323
QDRS01
BAS21HT1(STATIC)
04713
CR19
Not Used
NOT USED
37338
CR20
Diode,SMT,Zener,39V,5%,3W,SMB
QDZS04
1SMB5939BT3
04713
CR21
Diode,SMT,Zener,5.1V,5%,3W,SMB
QDZS01
1SMB5918BT3
04713
CR22
Diode,SMT,Switching,250V,0.2A,SOD-323
QDRS01
BAS21HT1(STATIC)
04713
CR23
Not Used
NOT USED
37338
CR24
Not Used
NOT USED
37338
CR25
Diode,SMT,Schottky,30V,0.2A,SOD-323
QDSS01
BAT54HT1(STATIC)
04713
CR26
Diode,SMT,Schottky,30V,0.2A,SOD-323
QDSS01
BAT54HT1(STATIC)
04713
E01
Not Used
NOT USED
37338
E02
Not Used
NOT USED
37338
E03
Not Used
NOT USED
37338
E04
Installed at Next Higher Assy
37338
E05
Installed at Next Higher Assy
E06
Installed at Next Higher Assy
E07
Installed at Next Higher Assy
E08
Installed at Next Higher Assy
E09
Not Used
INSTALLED AT NEXT
HIGHER ASSY
INSTALLED AT NEXT
HIGHER ASSY
INSTALLED AT NEXT
HIGHER ASSY
INSTALLED AT NEXT
HIGHER ASSY
INSTALLED AT NEXT
HIGHER ASSY
NOT USED
E11
Installed at Next Higher Assy
37338
E12
Not Used
INSTALLED AT NEXT
HIGHER ASSY
NOT USED
E13
Installed at Next Higher Assy
Page 78 of 114
NAPI78D/00
INSTALLED AT NEXT
HIGHER ASSY
37338
37338
37338
37338
37338
37338
37338
Continued from previous page
NAPI78D/00
REFDES
Remote Interface, Basic
DESCRIPTION
NAUTEL #
E14
Installed at Next Higher Assy
E15
Installed at Next Higher Assy
E16
Not Used
E17
Installed at Next Higher Assy
E18
Installed at Next Higher Assy
J01
Not Used
J02
VENDOR #
OEM CODE
INSTALLED AT NEXT
HIGHER ASSY
INSTALLED AT NEXT
HIGHER ASSY
NOT USED
37338
37338
INSTALLED AT NEXT
HIGHER ASSY
INSTALLED AT NEXT
HIGHER ASSY
NOT USED
Not Used
NOT USED
37338
J03
Conn,Socket,D-Sub,25 pin,VertPWB
JS53
628-025-220-017
31781
J04
Conn, Socket, D-Sub, 9-Pin,Vertical PWB
JS50
164A16669X
C3057
J05
Connector,Plug,D-Sub,9-Pin,Vert., PWB
JPDT01
163 A 16259 X
C3057
J06
Conn, BNC, Recept, PWB Mt
JF35
R141426161
0GP12
J07
Conn, BNC, Recept, PWB Mt
JF35
R141426161
0GP12
J08
Conn, BNC, Recept, PWB Mt
JF35
R141426161
0GP12
J09
Not Used
NOT USED
37338
J10
Conn, Header, Ribbon Cbl, 20 pin
JP46
499910-4
00779
J11
Conn,Socket,D-Sub,25 pin,VertPWB
JS53
628-025-220-017
31781
J12
Conn, Plug, D-Sub, 25 pin, Vert PWB
JS43
627 025 220 017
31781
J13
Installed at Next Higher Assy
37338
J14
Not Used
INSTALLED AT NEXT
HIGHER ASSY
NOT USED
37338
J15
Not Used
NOT USED
37338
J16
Installed at Next Higher Assy
37338
J17
Installed at Next Higher Assy
J18
Conn, Header, Ribbon Cbl, 40-Pin
JQ53
INSTALLED AT NEXT
HIGHER ASSY
INSTALLED AT NEXT
HIGHER ASSY
103308-8
L01
Inductor, SMT, Choke, 600ohms,2A, 0805
LCFS01
ILHB0805RK601V
56845
L02
Inductor, SMT, Choke, 600ohms,2A, 0805
LCFS01
ILHB0805RK601V
56845
L03
Inductor, Choke, 2.5 Turns, JMtl
LA16
82-152-J
33062
L04
Inductor, SMT, Choke, 600ohms,2A, 0805
LCFS01
ILHB0805RK601V
56845
L06
Inductor, SMT, Choke, 600ohms,2A, 0805
LCFS01
ILHB0805RK601V
56845
L07
Inductor, Choke, 2.5 Turns, JMtl
LA16
82-152-J
33062
L08
Inductor, SMT, Choke, 600ohms,2A, 0805
LCFS01
ILHB0805RK601V
56845
L09
Inductor, SMT, Choke, 600ohms,2A, 0805
LCFS01
ILHB0805RK601V
56845
L10
Not Used
NOT USED
37338
L11
Inductor, Choke, 2.5 Turns, JMtl
LA16
82-152-J
33062
L12
Inductor, Choke, 2.5 Turns, JMtl
LA16
82-152-J
33062
Q01
Not Used
NOT USED
37338
Q02
Not Used
NOT USED
37338
Page 79 of 114
NAPI78D/00
37338
37338
37338
37338
37338
00779
Continued from previous page
NAPI78D/00
REFDES
Remote Interface, Basic
DESCRIPTION
NAUTEL #
VENDOR #
OEM CODE
Q03
Not Used
NOT USED
37338
Q04
Not Used
NOT USED
37338
Q05
Not Used
NOT USED
37338
Q06
Not Used
NOT USED
37338
Q07
Transistor, FET, P ChannelSTATIC
QM21
2N5116(STATIC)
17856
Q08
Not Used
NOT USED
37338
Q11
Not Used
NOT USED
37338
R001
Resistor,SMT,MF,5620ohms,1%,1/10W,0603
RFFS47
RK73H1JLTD5621F
59124
R002
Not Used
NOT USED
37338
R003
Not Used
NOT USED
37338
R004
Resistor,SMT,MF,15.0Kohms,1%,1/10W,0603
RFFS52
RK73H1JLTD1502F
59124
R005
Resistor,SMT,MF,3920ohms,1%,1/10W,0603
RFFS45
RK73H1JLTD3921F
59124
R006
Resistor,SMT,MF,3920ohms,1%,1/10W,0603
RFFS45
RK73H1JLTD3921F
59124
R007
Not Used
NOT USED
37338
R008
Not Used
NOT USED
37338
R009
Resistor,SMT,MF,68.1Kohms,1%,1/10W,0603
RFFS60
RK73H1JLTD6812F
59124
R010
Not Used
NOT USED
37338
R011
Not Used
NOT USED
37338
R012
Resistor,SMT,MF,1000ohms,1%,1/10W,0603
RFFS38
RK73H1JLTD1001F
59124
R013
Resistor,SMT,MF,10.0Kohms,1%,1/10W,0603
RFFS50
RK73H1JLTD1002F
59124
R014
Resistor,SMT,MF,10.0Kohms,1%,1/10W,0603
RFFS50
RK73H1JLTD1002F
59124
R015
Resistor, SMT, MF, 3320 Ohms,1% 1/4W
RAD31
RK73H2BL3321F
59124
R016
Resistor,SMT,MF,10.0Kohms,1%,1/10W,0603
RFFS50
RK73H1JLTD1002F
59124
R017
Resistor,SMT,MF,10.0Kohms,1%,1/10W,0603
RFFS50
RK73H1JLTD1002F
59124
R018
Resistor,SMT,MF,68.1Kohms,1%,1/10W,0603
RFFS60
RK73H1JLTD6812F
59124
R019
Resistor,SMT,MF,1000ohms,1%,1/10W,0603
RFFS38
RK73H1JLTD1001F
59124
R020
Not Used
NOT USED
37338
R021
Not Used
NOT USED
37338
R022
Resistor,SMT,MF,475Kohms,1%,1/10W,0603
RFFS70
RK73H1JLTD4753F
59124
R023
Resistor,SMT,MF,10.0Kohms,1%,1/10W,0603
RFFS50
RK73H1JLTD1002F
59124
R024
Not Used
NOT USED
37338
R025
Not Used
NOT USED
37338
R026
Resistor,SMT,MF,10.0Kohms,1%,1/10W,0603
RFFS50
RK73H1JLTD1002F
59124
R027
Resistor,SMT,MF,475ohms,1%,1/10W,0603
RFFS34
RK73H1JLTD4750F
59124
R028
Resistor, MF, 301 Ohms, 1%1/4W
RAC23
MF1/4DL3010F
59124
R029
Resistor, MF, 301 Ohms, 1%1/4W
RAC23
MF1/4DL3010F
59124
R030
Resistor,SMT,MF,1.82Mohms,1%,1/10W,0603
RFFS77
RK73H1JLTD1824F
59124
R031
Resistor,SMT,MF,475Kohms,1%,1/10W,0603
RFFS70
RK73H1JLTD4753F
59124
R032
Resistor,SMT,MF,22.1Kohms,1%,1/10W,0603
RFFS54
RK73H1JLTD2212F
59124
Page 80 of 114
NAPI78D/00
Continued from previous page
NAPI78D/00
REFDES
Remote Interface, Basic
DESCRIPTION
NAUTEL #
VENDOR #
OEM CODE
R033
Resistor,SMT,MF,10.0Kohms,1%,1/10W,0603
RFFS50
RK73H1JLTD1002F
59124
R034
Resistor,SMT,MF,475ohms,1%,1/10W,0603
RFFS34
RK73H1JLTD4750F
59124
R035
Not Used
NOT USED
37338
R036
Not Used
NOT USED
37338
R037
Resistor, Variable, Film, 5000 Ohms, 1/2W
RV10
3339P-1-502
80294
R038
Resistor,SMT,MF,22.1Kohms,1%,1/10W,0603
RFFS54
RK73H1JLTD2212F
59124
R039
Not Used
NOT USED
37338
R040
Not Used
NOT USED
37338
R041
Not Used
NOT USED
37338
R042
Not Used
NOT USED
37338
R043
Not Used
NOT USED
37338
R044
Not Used
NOT USED
37338
R045
Not Used
NOT USED
37338
R046
Not Used
NOT USED
37338
R047
Not Used
NOT USED
37338
R048
Resistor,SMT,MF,0.0ohms,Jumper,0603
RFFS01
RK73Z1JLTD
59124
R049
Not Used
NOT USED
37338
R050
Resistor,SMT,MF,10.0Kohms,1%,1/10W,0603
RFFS50
RK73H1JLTD1002F
59124
R051
Resistor, SMT, MF, 4750 Ohms,1%, 1/4W
RAD33
RK73H2BL4751F
59124
R052
Not Used
NOT USED
37338
R053
Resistor,SMT,MF,10.0Kohms,1%,1/10W,0603
RFFS50
RK73H1JLTD1002F
59124
R054
Resistor, SMT, MF, 4750 Ohms,1%, 1/4W
RAD33
RK73H2BL4751F
59124
R055
Resistor,SMT,MF,8250ohms,1%,1/10W,0603
RFFS49
RK73H1JLTD8251F
59124
R056
Not Used
NOT USED
37338
R057
Not Used
NOT USED
37338
R058
Not Used
NOT USED
37338
R059
Not Used
NOT USED
37338
R060
Not Used
NOT USED
37338
R061
Not Used
NOT USED
37338
R062
Not Used
NOT USED
37338
R063
Resistor,SMT,MF,1000ohms,1%,1/10W,0603
RFFS38
RK73H1JLTD1001F
59124
R064
Not Used
NOT USED
37338
R065
Not Used
NOT USED
37338
R066
Not Used
NOT USED
37338
R067
Not Used
NOT USED
37338
R068
Not Used
NOT USED
37338
R069
Not Used
NOT USED
37338
R070
Resistor,SMT,MF,10.0Kohms,1%,1/10W,0603
RFFS50
RK73H1JLTD1002F
59124
R071
Resistor, SMT, MF, 4750 Ohms,1%, 1/4W
RAD33
RK73H2BL4751F
59124
Page 81 of 114
NAPI78D/00
Continued from previous page
NAPI78D/00
REFDES
Remote Interface, Basic
DESCRIPTION
NAUTEL #
VENDOR #
OEM CODE
R072
Resistor,SMT,MF,1000ohms,1%,1/10W,0603
RFFS38
RK73H1JLTD1001F
59124
R073
Resistor,SMT,MF,6810ohms,1%,1/10W,0603
RFFS48
RK73H1JLTD6811F
59124
R074
Resistor,SMT,MF,1820ohms,1%,1/10W,0603
RFFS41
RK73H1JLTD1821F
59124
R075
Resistor,SMT,MF,10.0Kohms,1%,1/10W,0603
RFFS50
RK73H1JLTD1002F
59124
R076
Resistor, SMT, MF, 4750 Ohms,1%, 1/4W
RAD33
RK73H2BL4751F
59124
R077
Resistor,SMT,MF,6810ohms,1%,1/10W,0603
RFFS48
RK73H1JLTD6811F
59124
R078
Resistor,SMT,MF,1820ohms,1%,1/10W,0603
RFFS41
RK73H1JLTD1821F
59124
R079
Not Used
NOT USED
37338
R081
Resistor,SMT,MF,100Kohms,1%,1/10W,0603
RFFS62
RK73H1JLTD1003F
59124
R082
Resistor,SMT,MF,681Kohms,1%,1/10W,0603
RFFS72
RK73H1JLTD6813F
59124
R083
Resistor,SMT,MF,150Kohms,1%,1/10W,0603
RFFS64
RK73H1JLTD1503F
59124
R084
Resistor,SMT,MF,150Kohms,1%,1/10W,0603
RFFS64
RK73H1JLTD1503F
59124
R085
Resistor,SMT,MF,6810ohms,1%,1/10W,0603
RFFS48
RK73H1JLTD6811F
59124
R086
Resistor,SMT,MF,150Kohms,1%,1/10W,0603
RFFS64
RK73H1JLTD1503F
59124
R087
Resistor,SMT,MF,1.82Mohms,1%,1/10W,0603
RFFS77
RK73H1JLTD1824F
59124
R088
Resistor,SMT,MF,100Kohms,1%,1/10W,0603
RFFS62
RK73H1JLTD1003F
59124
R089
Resistor,SMT,MF,150Kohms,1%,1/10W,0603
RFFS64
RK73H1JLTD1503F
59124
R090
Resistor,SMT,MF,4750ohms,1%,1/10W,0603
RFFS46
RK73H1JLTD4751F
59124
R091
Resistor,SMT,MF,1.82Mohms,1%,1/10W,0603
RFFS77
RK73H1JLTD1824F
59124
R092
Resistor,SMT,MF,10.0Kohms,1%,1/10W,0603
RFFS50
RK73H1JLTD1002F
59124
R093
Resistor,SMT,MF,10.0Kohms,1%,1/10W,0603
RFFS50
RK73H1JLTD1002F
59124
R094
Resistor,SMT,MF,1820ohms,1%,1/10W,0603
RFFS41
RK73H1JLTD1821F
59124
R095
Not Used
NOT USED
37338
R096
Resistor, MF, 1K Ohms, 1PC 1/4W
RAB25
MF1/4DL1001F
59124
R097
Resistor,SMT,MF,562Kohms,1%,1/10W,0603
RFFS71
RK73H1JLTD5623F
59124
R098
Resistor,SMT,MF,4750ohms,1%,1/10W,0603
RFFS46
RK73H1JLTD4751F
59124
R099
Resistor,SMT,MF,1000ohms,1%,1/10W,0603
RFFS38
RK73H1JLTD1001F
59124
R100
Resistor,SMT,MF,1.00Mohms,1%,1/10W,0603
RFFS74
RK73H1JLTD1004F
59124
R101
Resistor,SMT,MF,1000ohms,1%,1/10W,0603
RFFS38
RK73H1JLTD1001F
59124
R102
Resistor,SMT,MF,1000ohms,1%,1/10W,0603
RFFS38
RK73H1JLTD1001F
59124
R103
Resistor,SMT,MF,1.00Mohms,1%,1/10W,0603
RFFS74
RK73H1JLTD1004F
59124
R104
Not Used
NOT USED
37338
R105
Resistor,SMT,MF,100ohms,1%,1/10W,0603
RFFS26
RK73H1JLTD1000F
59124
R106
Resistor,SMT,MF,2210ohms,1%,1/10W,0603
RFFS42
RK73H1JLTD2211F
59124
R107
Not Used
NOT USED
37338
R108
Not Used
NOT USED
37338
R109
Resistor,SMT,MF,1000ohms,1%,1/10W,0603
RFFS38
RK73H1JLTD1001F
59124
R110
Resistor,SMT,MF,1000ohms,1%,1/10W,0603
RFFS38
RK73H1JLTD1001F
59124
R114
Resistor,SMT,MF,10.0Kohms,1%,1/10W,0603
RFFS50
RK73H1JLTD1002F
59124
Page 82 of 114
NAPI78D/00
Continued from previous page
NAPI78D/00
REFDES
Remote Interface, Basic
DESCRIPTION
NAUTEL #
VENDOR #
OEM CODE
R116
Not Used
NOT USED
37338
R117
Not Used
NOT USED
37338
R123
Resistor,SMT,MF,100ohms,1%,1/10W,0603
RFFS26
RK73H1JLTD1000F
59124
R127
Not Used
NOT USED
37338
R130
Resistor,SMT,MF,100ohms,1%,1/10W,0603
RFFS26
RK73H1JLTD1000F
59124
R131
Resistor,SMT,MF,100ohms,1%,1/10W,0603
RFFS26
RK73H1JLTD1000F
59124
R132
Resistor,SMT,MF,1000ohms,1%,1/10W,0603
RFFS38
RK73H1JLTD1001F
59124
R133
Resistor,SMT,MF,2210ohms,1%,1/10W,0603
RFFS42
RK73H1JLTD2211F
59124
R134
Resistor,SMT,MF,1000ohms,1%,1/10W,0603
RFFS38
RK73H1JLTD1001F
59124
R135
Resistor,SMT,MF,2210ohms,1%,1/10W,0603
RFFS42
RK73H1JLTD2211F
59124
R136
Resistor,SMT,MF,121Kohms,1%,1/10W,0603
RFFS63
RK73H1JLTD1213F
59124
R137
Resistor,SMT,MF,121Kohms,1%,1/10W,0603
RFFS63
RK73H1JLTD1213F
59124
R138
Resistor,SMT,MF,10.0Kohms,1%,1/10W,0603
RFFS50
RK73H1JLTD1002F
59124
R139
Resistor, SMT, MF, 121K Ohms,1% 1/4W
RAE02
RK73H2BL1213F
59124
R140
Not Used
NOT USED
37338
R141
Not Used
NOT USED
37338
R142
Resistor,SMT,MF,221ohms,1%,1/10W,0603
RFFS30
RK73H1JLTD2210F
59124
R143
Resistor,SMT,MF,221ohms,1%,1/10W,0603
RFFS30
RK73H1JLTD2210F
59124
R144
Resistor,SMT,MF,4750ohms,1%,1/10W,0603
RFFS46
RK73H1JLTD4751F
59124
R145
Resistor, SMT, MF, 121K Ohms,1% 1/4W
RAE02
RK73H2BL1213F
59124
R147
Not Used
NOT USED
37338
R149
Not Used
NOT USED
37338
R150
Not Used
NOT USED
37338
R152
Resistor, SMT, MF, 1000 Ohms,1% 1/4W
RAD25
RK73H2BL1001F
59124
R153
Resistor, SMT, MF, 1000 Ohms,1% 1/4W
RAD25
RK73H2BL1001F
59124
R154
Not Used
NOT USED
37338
R155
Not Used
NOT USED
37338
R156
Resistor,SMT,MF,10.0Kohms,1%,1/10W,0603
RFFS50
RK73H1JLTD1002F
59124
R157
Not Used
NOT USED
37338
R158
Resistor,SMT,MF,10.0Kohms,1%,1/10W,0603
RFFS50
RK73H1JLTD1002F
59124
R159
Resistor, SMT, MF, 121K Ohms,1% 1/4W
RAE02
RK73H2BL1213F
59124
R160
Resistor, SMT, MF, 121K Ohms,1% 1/4W
RAE02
RK73H2BL1213F
59124
R161
Resistor,SMT,MF,10.0Kohms,1%,1/10W,0603
RFFS50
RK73H1JLTD1002F
59124
R162
Resistor, MF, 3.92K Ohms, 1PC1/4W
RAB32
MF1/4DL3921F
59124
R163
Installed at Next Higher Assy
37338
R164
Installed at Next Higher Assy
R165
Resistor, Film, 150 Ohms, 2PC1/2W
RC27
INSTALLED AT NEXT
HIGHER ASSY
INSTALLED AT NEXT
HIGHER ASSY
RL20S151G
R166
Resistor, Film, 1500 Ohms, 2PC 1/2W
RC39
RL20S152G
35005
Page 83 of 114
NAPI78D/00
37338
35005
Continued from previous page
NAPI78D/00
REFDES
Remote Interface, Basic
DESCRIPTION
NAUTEL #
VENDOR #
OEM CODE
R167
Resistor, Film, 150 Ohms, 5%,2W
RBP08
GS-3, 150 OHMS
75042
R168
Installed at Next Higher Assy
37338
R169
Resistor,SMT,MF,10.0Kohms,1%,1/10W,0603
RFFS50
INSTALLED AT NEXT
HIGHER ASSY
RK73H1JLTD1002F
R170
Resistor, SMT, MF, 681 Ohms,1% 1/4W
RAD23
R171
Resistor, SMT, MF, 681 Ohms,1% 1/4W
RAD23
S01
Not Used
MCR18EZHF6810(RO ROHM
HS)
MCR18EZHF6810(RO ROHM
HS)
NOT USED
37338
T01
Transformer, Audio,600CT/600CT, PWB
TTAT01
101F
69669
T02
Not Used
NOT USED
37338
TB01
Terminal Block,5mm,3-pos,PWBMt,Angled,Blue
JR49
796688-3
5Y407
59124
U01
IC,SMT,Opamp,Quad,Single Supply,SOIC-14
ULAS01
MC33074AD(STATIC)
04713
U02
Not Used
NOT USED
37338
U03
IC,SMT,Instrumentation Amp,SOIC-8
UP98
AD620AR(STATIC)
45496
U04
Not Used
NOT USED
37338
U05
Not Used
NOT USED
37338
U06
IC,SMT,Dual Optocoupler,SOIC-8
UDOS01
MOCD223-M(STATIC) 7D893
U07
IC,SMT,Dual Optocoupler,SOIC-8
UDOS01
MOCD223-M(STATIC) 7D893
U08
IC,SMT,Opamp,Quad,Single Supply,SOIC-14
ULAS01
MC33074AD(STATIC)
U09
IC,SMT,CMOS,Hex Schm,Trig,Inv,SOIC-14
UDLS03
U10
IC,SMT,Comparator,Quad,SOIC-14
ULCS01
SN74AHCT14D(STATI 01295
C)
MC3302D(STATIC)
04713
U11
IC,SMT,RS-485 Transceiver,Sgl,SOIC-8
UDTS03
DS36C278TM(STATIC) 27014
U12
IC,SMT,RS-232 Transceiver,3.3V,SO-16
UDTS05
U13
IC,SMT,Dual,Optocoupler,SOIC-8
UX81
ADM3202ARN(STATIC 45496
HCPL-0731(STATIC)
AGILENT
U14
IC,SMT,Dual,Optocoupler,SOIC-8
UX81
HCPL-0731(STATIC)
U15
IC,SMT,CMOS,Hex Schm,Trig,Inv,SOIC-14
UDLS03
U16
IC,SMT,CMOS,Analog Multiplexer,SOIC-16
UX86
U17
IC,SMT,RS-485 Transceiver,Sgl,SOIC-8
UDTS03
SN74AHCT14D(STATI 01295
C)
MC74HC4053AD(STA 04713
TIC)
DS36C278TM(STATIC) 27014
U18
IC,SMT,RS-485 Transceiver,Sgl,SOIC-8
UDTS03
DS36C278TM(STATIC) 27014
U19
IC,SMT,RS-485 Transceiver,Sgl,SOIC-8
UDTS03
DS36C278TM(STATIC) 27014
U21
IC,SMT,Trans Array, 7 Darl.,SOIC-16
UDAS01
MC1413BD(STATIC)
04713
U23
IC,SMT,Amp,35MHz,CurrentFeedback 1.1A,TO263-7
UT90
LT1210CR(STATIC)
64155
XE04
Installed at Next Higher Assy
37338
XE05
Installed at Next Higher Assy
INSTALLED AT NEXT
HIGHER ASSY
INSTALLED AT NEXT
HIGHER ASSY
Page 84 of 114
NAPI78D/00
04713
AGILENT
37338
Continued from previous page
NAPI78D/00
REFDES
Remote Interface, Basic
DESCRIPTION
NAUTEL #
XE06
Installed at Next Higher Assy
XE07
Installed at Next Higher Assy
XE08
Installed at Next Higher Assy
XE11
Installed at Next Higher Assy
XE13
Installed at Next Higher Assy
XE14
Installed at Next Higher Assy
XE15
Installed at Next Higher Assy
XE17
Installed at Next Higher Assy
XE18
Installed at Next Higher Assy
Page 85 of 114
NAPI78D/00
VENDOR #
INSTALLED AT NEXT
HIGHER ASSY
INSTALLED AT NEXT
HIGHER ASSY
INSTALLED AT NEXT
HIGHER ASSY
INSTALLED AT NEXT
HIGHER ASSY
INSTALLED AT NEXT
HIGHER ASSY
INSTALLED AT NEXT
HIGHER ASSY
INSTALLED AT NEXT
HIGHER ASSY
INSTALLED AT NEXT
HIGHER ASSY
INSTALLED AT NEXT
HIGHER ASSY
OEM CODE
37338
37338
37338
37338
37338
37338
37338
37338
37338
NAPI78D/02
REFDES
Remote Interface PWB (Vector-LP)
DESCRIPTION
NAUTEL #
VENDOR #
OEM CODE
E04
Conn, Post Shunt, 2 Pos, .10 Centreline
JQ15
390088-2
09482
E05
Conn, Post Shunt, 2 Pos, .10 Centreline
JQ15
390088-2
09482
E06
Conn, Post Shunt, 2 Pos, .10 Centreline
JQ15
390088-2
09482
E07
Conn, Post Shunt, 2 Pos, .10 Centreline
JQ15
390088-2
09482
E08
Conn, Post Shunt, 2 Pos, .10 Centreline
JQ15
390088-2
09482
E11
Conn, Post Shunt, 2 Pos, .10 Centreline
JQ15
390088-2
09482
E13
Conn, Post Shunt, 2 Pos, .10 Centreline
JQ15
390088-2
09482
E14
Conn, Post Shunt, 2 Pos, .10 Centreline
JQ15
390088-2
09482
E15
Conn, Post Shunt, 2 Pos, .10 Centreline
JQ15
390088-2
09482
E17
Conn, Post Shunt, 2 Pos, .10 Centreline
JQ15
390088-2
09482
E18
Conn, Post Shunt, 2 Pos, .10 Centreline
JQ15
390088-2
09482
J13
Conn, Header, Ribbon Cbl, 40 pin
JP52
499910-9
00779
J16
Conn,Socket,D-Sub,25 pin,VertPWB
JS53
628-025-220-017
31781
J17
Conn,Socket,D-Sub,25 pin,VertPWB
JS53
628-025-220-017
31781
R163
Resistor, Variable, Film, 100K Ohms, 1/2W
RW01
3339P-1-104
80294
R164
Resistor, MF, 10.0K Ohms, 1PC1/4W
RAB37
MF1/4DL1002F
59124
R168
Not Used
NOT USED
37338
XE04
Conn, Header, SIP,12 Pin Breakaway,.10 Ctr
JQ16
1-103185-2
09482
XE05
Conn, Header, SIP,12 Pin Breakaway,.10 Ctr
JQ16
1-103185-2
09482
XE06
Conn, Header, SIP,12 Pin Breakaway,.10 Ctr
JQ16
1-103185-2
09482
XE07
Conn, Header, SIP,12 Pin Breakaway,.10 Ctr
JQ16
1-103185-2
09482
XE08
Conn, Header, SIP,12 Pin Breakaway,.10 Ctr
JQ16
1-103185-2
09482
XE11
Conn, Header, SIP,12 Pin Breakaway,.10 Ctr
JQ16
1-103185-2
09482
XE13
Conn, Header, SIP,12 Pin Breakaway,.10 Ctr
JQ16
1-103185-2
09482
XE14
Conn, Header, SIP,12 Pin Breakaway,.10 Ctr
JQ16
1-103185-2
09482
XE15
Conn, Header, SIP,12 Pin Breakaway,.10 Ctr
JQ16
1-103185-2
09482
XE17
Conn, Header, SIP,12 Pin Breakaway,.10 Ctr
JQ16
1-103185-2
09482
XE18
Conn, Header, SIP,12 Pin Breakaway,.10 Ctr
JQ16
1-103185-2
09482
Page 86 of 114
NAPI78D/02
NAPI80
REFDES
NDB Site Interface PWB Assy
DESCRIPTION
NAUTEL #
VENDOR #
OEM CODE
C01
Cap,SMT,Tantalum,10uF,10%,35V,2917
CTFS03
T494D106K035AS
31433
C02
Cap,SMT,Ceramic,0.01uF,10%,50V,X7R,0603
CCFS04
C0603C103K5RAC
31433
C03
Cap,SMT,Ceramic,0.1uF,10%,50V,X7R,0805
CCFS07
C0805C104K5RAC
31433
C04
Capacitor, Elect, 100uF 20% 25V
CAP42
1W344
C05
Cap,SMT,Ceramic,0.1uF,10%,50V,X7R,0805
CCFS07
KME25VB101M6X11L
C0805C104K5RAC
31433
C06
Cap,SMT,Ceramic,0.1uF,10%,50V,X7R,0805
CCFS07
C0805C104K5RAC
31433
C07
Cap,SMT,Ceramic,0.1uF,10%,50V,X7R,0805
CCFS07
C0805C104K5RAC
31433
C08
Cap,SMT,Ceramic,0.1uF,10%,50V,X7R,0805
CCFS07
C0805C104K5RAC
31433
C09
Cap,SMT,Tantalum,10uF,10%,35V,2917
CTFS03
T494D106K035AS
31433
C10
Cap,SMT,Ceramic,0.1uF,10%,50V,X7R,0805
CCFS07
C0805C104K5RAC
31433
C11
Cap,SMT,Ceramic,0.01uF,10%,50V,X7R,0603
CCFS04
C0603C103K5RAC
31433
C12
Cap,SMT,Ceramic,0.1uF,10%,50V,X7R,0805
CCFS07
C0805C104K5RAC
31433
C13
Cap,SMT,Ceramic,0.1uF,10%,50V,X7R,0805
CCFS07
C0805C104K5RAC
31433
C14
Cap,SMT,Ceramic,0.1uF,10%,50V,X7R,0805
CCFS07
C0805C104K5RAC
31433
C15
Cap,SMT,Ceramic,0.1uF,10%,50V,X7R,0805
CCFS07
C0805C104K5RAC
31433
C16
Cap,SMT,Ceramic,0.1uF,10%,50V,X7R,0805
CCFS07
C0805C104K5RAC
31433
C17
Cap,SMT,Ceramic,0.1uF,10%,50V,X7R,0805
CCFS07
C0805C104K5RAC
31433
C18
Cap,SMT,Ceramic,0.1uF,10%,50V,X7R,0805
CCFS07
C0805C104K5RAC
31433
C19
Cap,SMT,Ceramic,0.1uF,10%,50V,X7R,0805
CCFS07
C0805C104K5RAC
31433
C20
Cap,SMT,Ceramic,0.1uF,10%,50V,X7R,0805
CCFS07
C0805C104K5RAC
31433
C21
Cap,SMT,Ceramic,0.1uF,10%,50V,X7R,0805
CCFS07
C0805C104K5RAC
31433
C22
Cap,SMT,Ceramic,0.1uF,10%,50V,X7R,0805
CCFS07
C0805C104K5RAC
31433
C23
Cap,SMT,Ceramic,0.1uF,10%,50V,X7R,0805
CCFS07
C0805C104K5RAC
31433
C24
Cap,SMT,Ceramic,0.1uF,10%,50V,X7R,0805
CCFS07
C0805C104K5RAC
31433
C25
Cap,SMT,Ceramic,0.1uF,10%,50V,X7R,0805
CCFS07
C0805C104K5RAC
31433
C26
Cap,SMT,Ceramic,0.01uF,10%,50V,X7R,0603
CCFS04
C0603C103K5RAC
31433
C27
Cap,SMT,Ceramic,0.1uF,10%,50V,X7R,0805
CCFS07
C0805C104K5RAC
31433
C28
Cap,SMT,Ceramic,18pF,2%,50V,C0G,0603
CCFS23
C0603C180G5GAC
31433
C29
Cap,SMT,Ceramic,18pF,2%,50V,C0G,0603
CCFS23
C0603C180G5GAC
31433
C30
Cap,SMT,Ceramic,0.1uF,10%,50V,X7R,0805
CCFS07
C0805C104K5RAC
31433
C31
Cap,SMT,Ceramic,0.001uF,10%,50V,X7R,0603
CCFS01
C0603C102K5RAC
31433
C32
Cap,SMT,Ceramic,0.01uF,10%,50V,X7R,0603
CCFS04
C0603C103K5RAC
31433
C33
Cap,SMT,Ceramic,0.1uF,10%,50V,X7R,0805
CCFS07
C0805C104K5RAC
31433
C34
Cap,SMT,Ceramic,0.1uF,10%,50V,X7R,0805
CCFS07
C0805C104K5RAC
31433
C35
Cap,SMT,Ceramic,0.1uF,10%,50V,X7R,0805
CCFS07
C0805C104K5RAC
31433
C36
Cap,SMT,Ceramic,0.1uF,10%,50V,X7R,0805
CCFS07
C0805C104K5RAC
31433
C37
Cap,SMT,Ceramic,0.1uF,10%,50V,X7R,0805
CCFS07
C0805C104K5RAC
31433
C38
Cap,SMT,Ceramic,0.1uF,10%,50V,X7R,0805
CCFS07
C0805C104K5RAC
31433
CR01
Diode,SMT,Switching,250V,0.2A,SOD-323
QDRS01
BAS21HT1(STATIC)
04713
Page 87 of 114
NAPI80
Continued from previous page
NAPI80
REFDES
NDB Site Interface PWB Assy
DESCRIPTION
NAUTEL #
VENDOR #
OEM CODE
CR02
Diode,SMT,Switching,250V,0.2A,SOD-323
QDRS01
BAS21HT1(STATIC)
04713
CR03
Diode,SMT,Switching,250V,0.2A,SOD-323
QDRS01
BAS21HT1(STATIC)
04713
CR04
Diode,SMT,Switching,250V,0.2A,SOD-323
QDRS01
BAS21HT1(STATIC)
04713
CR05
Diode,SMT,Switching,250V,0.2A,SOD-323
QDRS01
BAS21HT1(STATIC)
04713
CR06
Diode,SMT,Switching,250V,0.2A,SOD-323
QDRS01
BAS21HT1(STATIC)
04713
CR07
Diode,SMT,Switching,250V,0.2A,SOD-323
QDRS01
BAS21HT1(STATIC)
04713
CR08
Diode,SMT,Switching,250V,0.2A,SOD-323
QDRS01
BAS21HT1(STATIC)
04713
CR09
Diode,SMT,Switching,250V,0.2A,SOD-323
QDRS01
BAS21HT1(STATIC)
04713
CR10
Diode,SMT,Switching,250V,0.2A,SOD-323
QDRS01
BAS21HT1(STATIC)
04713
CR11
Diode,SMT,Switching,250V,0.2A,SOD-323
QDRS01
BAS21HT1(STATIC)
04713
CR12
Diode,SMT,Switching,250V,0.2A,SOD-323
QDRS01
BAS21HT1(STATIC)
04713
CR13
Diode,SMT,Switching,250V,0.2A,SOD-323
QDRS01
BAS21HT1(STATIC)
04713
CR14
Diode,SMT,Switching,250V,0.2A,SOD-323
QDRS01
BAS21HT1(STATIC)
04713
CR15
Diode,SMT,Switching,250V,0.2A,SOD-323
QDRS01
BAS21HT1(STATIC)
04713
CR16
Diode,SMT,Switching,250V,0.2A,SOD-323
QDRS01
BAS21HT1(STATIC)
04713
J01
Conn, Header, Ribbon Cbl, 20Pin
JQ55
103308-5
00779
J02
Conn, Header,Square Post,Gold,Dual,40-pin
JF47
4-102973-0
09482
K01
Relay, 5V Coil, 2PDT, 1A
KC18
TQ2-5V
61529
K02
Relay, 5V Coil, 2PDT, 1A
KC18
TQ2-5V
61529
K03
Relay, 5V Coil, 2PDT, 1A
KC18
TQ2-5V
61529
K04
Relay, 5V Coil, 2PDT, 1A
KC18
TQ2-5V
61529
K05
Relay, 5V Coil, 2PDT, 1A
KC18
TQ2-5V
61529
K06
Relay, 5V Coil, 2PDT, 1A
KC18
TQ2-5V
61529
K07
Relay, 5V Coil, 2PDT, 1A
KC18
TQ2-5V
61529
K08
Relay, 5V Coil, 2PDT, 1A
KC18
TQ2-5V
61529
K09
Relay, 5V Coil, 2PDT, 1A
KC18
TQ2-5V
61529
K10
Relay, 5V Coil, 2PDT, 1A
KC18
TQ2-5V
61529
K11
Relay, 5V Coil, 2PDT, 1A
KC18
TQ2-5V
61529
K12
Relay, 5V Coil, 2PDT, 1A
KC18
TQ2-5V
61529
K13
Relay, 5V Coil, 2PDT, 1A
KC18
TQ2-5V
61529
K14
Relay, 5V Coil, 2PDT, 1A
KC18
TQ2-5V
61529
K15
Relay, 5V Coil, 2PDT, 1A
KC18
TQ2-5V
61529
K16
Relay, 5V Coil, 2PDT, 1A
KC18
TQ2-5V
61529
L01
Inductor, Choke, 2.5 Turns, JMtl
LA16
82-152-J
33062
L02
Inductor, Choke, 2.5 Turns, JMtl
LA16
82-152-J
33062
L03
Inductor, SMT, Choke, 600ohms,2A, 0805
LCFS01
ILHB0805RK601V
56845
L04
Inductor, SMT, Choke, 600ohms,2A, 0805
LCFS01
ILHB0805RK601V
56845
L05
Inductor, SMT, Choke, 600ohms,2A, 0805
LCFS01
ILHB0805RK601V
56845
L06
Inductor, SMT, Choke, 600ohms,2A, 0805
LCFS01
ILHB0805RK601V
56845
Page 88 of 114
NAPI80
Continued from previous page
NAPI80
REFDES
NDB Site Interface PWB Assy
DESCRIPTION
NAUTEL #
VENDOR #
OEM CODE
R01
Resistor,SMT,MF,10.0Kohms,1%,1/10W,0603
RFFS50
RK73H1JLTD1002F
59124
R02
Resistor,SMT,MF,10.0Kohms,1%,1/10W,0603
RFFS50
RK73H1JLTD1002F
59124
R03
Resistor, Film, 150 Ohms, 5%,2W
RBP08
GS-3, 150 OHMS
75042
R04
Resistor,SMT,MF,3920ohms,1%,1/10W,0603
RFFS45
RK73H1JLTD3921F
59124
R05
Resistor,SMT,MF,10.0Kohms,1%,1/10W,0603
RFFS50
RK73H1JLTD1002F
59124
R06
Resistor,SMT,MF,4750ohms,1%,1/10W,0603
RFFS46
RK73H1JLTD4751F
59124
R07
Resistor,SMT,MF,4750ohms,1%,1/10W,0603
RFFS46
RK73H1JLTD4751F
59124
R08
Resistor,SMT,MF,3920ohms,1%,1/10W,0603
RFFS45
RK73H1JLTD3921F
59124
R09
Resistor,SMT,MF,10.0Kohms,1%,1/10W,0603
RFFS50
RK73H1JLTD1002F
59124
R10
Resistor,SMT,MF,3920ohms,1%,1/10W,0603
RFFS45
RK73H1JLTD3921F
59124
R11
Resistor,SMT,MF,10.0Kohms,1%,1/10W,0603
RFFS50
RK73H1JLTD1002F
59124
R12
Resistor,SMT,MF,4750ohms,1%,1/10W,0603
RFFS46
RK73H1JLTD4751F
59124
R13
Resistor,SMT,MF,4750ohms,1%,1/10W,0603
RFFS46
RK73H1JLTD4751F
59124
R14
Resistor,SMT,MF,3920ohms,1%,1/10W,0603
RFFS45
RK73H1JLTD3921F
59124
R15
Resistor,SMT,MF,10.0Kohms,1%,1/10W,0603
RFFS50
RK73H1JLTD1002F
59124
R16
Resistor,SMT,MF,3920ohms,1%,1/10W,0603
RFFS45
RK73H1JLTD3921F
59124
R17
Resistor,SMT,MF,10.0Kohms,1%,1/10W,0603
RFFS50
RK73H1JLTD1002F
59124
R18
Resistor,SMT,MF,4750ohms,1%,1/10W,0603
RFFS46
RK73H1JLTD4751F
59124
R19
Resistor,SMT,MF,4750ohms,1%,1/10W,0603
RFFS46
RK73H1JLTD4751F
59124
R20
Resistor,SMT,MF,10.0Kohms,1%,1/10W,0603
RFFS50
RK73H1JLTD1002F
59124
R21
Resistor,SMT,MF,3920ohms,1%,1/10W,0603
RFFS45
RK73H1JLTD3921F
59124
R22
Resistor,SMT,MF,10.0Kohms,1%,1/10W,0603
RFFS50
RK73H1JLTD1002F
59124
R23
Resistor,SMT,MF,3920ohms,1%,1/10W,0603
RFFS45
RK73H1JLTD3921F
59124
R24
Resistor,SMT,MF,10.0Kohms,1%,1/10W,0603
RFFS50
RK73H1JLTD1002F
59124
R25
Resistor,SMT,MF,4750ohms,1%,1/10W,0603
RFFS46
RK73H1JLTD4751F
59124
R26
Resistor,SMT,MF,4750ohms,1%,1/10W,0603
RFFS46
RK73H1JLTD4751F
59124
R27
Resistor,SMT,MF,3920ohms,1%,1/10W,0603
RFFS45
RK73H1JLTD3921F
59124
R28
Resistor,SMT,MF,10.0Kohms,1%,1/10W,0603
RFFS50
RK73H1JLTD1002F
59124
R29
Resistor,SMT,MF,3920ohms,1%,1/10W,0603
RFFS45
RK73H1JLTD3921F
59124
R30
Resistor,SMT,MF,10.0Kohms,1%,1/10W,0603
RFFS50
RK73H1JLTD1002F
59124
R31
Resistor,SMT,MF,4750ohms,1%,1/10W,0603
RFFS46
RK73H1JLTD4751F
59124
R32
Resistor,SMT,MF,4750ohms,1%,1/10W,0603
RFFS46
RK73H1JLTD4751F
59124
R33
Resistor,SMT,MF,3920ohms,1%,1/10W,0603
RFFS45
RK73H1JLTD3921F
59124
R34
Resistor,SMT,MF,10.0Kohms,1%,1/10W,0603
RFFS50
RK73H1JLTD1002F
59124
R35
Resistor,SMT,MF,3920ohms,1%,1/10W,0603
RFFS45
RK73H1JLTD3921F
59124
R36
Resistor,SMT,MF,10.0Kohms,1%,1/10W,0603
RFFS50
RK73H1JLTD1002F
59124
R37
Resistor,SMT,MF,4750ohms,1%,1/10W,0603
RFFS46
RK73H1JLTD4751F
59124
R38
Resistor,SMT,MF,4750ohms,1%,1/10W,0603
RFFS46
RK73H1JLTD4751F
59124
R39
Resistor,SMT,MF,3920ohms,1%,1/10W,0603
RFFS45
RK73H1JLTD3921F
59124
Page 89 of 114
NAPI80
Continued from previous page
NAPI80
REFDES
NDB Site Interface PWB Assy
DESCRIPTION
NAUTEL #
VENDOR #
OEM CODE
R40
Resistor,SMT,MF,10.0Kohms,1%,1/10W,0603
RFFS50
RK73H1JLTD1002F
59124
R41
Resistor,SMT,MF,3920ohms,1%,1/10W,0603
RFFS45
RK73H1JLTD3921F
59124
R42
Resistor,SMT,MF,10.0Kohms,1%,1/10W,0603
RFFS50
RK73H1JLTD1002F
59124
R43
Resistor,SMT,MF,4750ohms,1%,1/10W,0603
RFFS46
RK73H1JLTD4751F
59124
R44
Resistor,SMT,MF,4750ohms,1%,1/10W,0603
RFFS46
RK73H1JLTD4751F
59124
R45
Resistor,SMT,MF,3920ohms,1%,1/10W,0603
RFFS45
RK73H1JLTD3921F
59124
R46
Resistor,SMT,MF,10.0Kohms,1%,1/10W,0603
RFFS50
RK73H1JLTD1002F
59124
R47
Resistor,SMT,MF,3920ohms,1%,1/10W,0603
RFFS45
RK73H1JLTD3921F
59124
R48
Resistor,SMT,MF,10.0Kohms,1%,1/10W,0603
RFFS50
RK73H1JLTD1002F
59124
R49
Resistor,SMT,MF,4750ohms,1%,1/10W,0603
RFFS46
RK73H1JLTD4751F
59124
R50
Resistor,SMT,MF,4750ohms,1%,1/10W,0603
RFFS46
RK73H1JLTD4751F
59124
R51
Resistor,SMT,MF,3920ohms,1%,1/10W,0603
RFFS45
RK73H1JLTD3921F
59124
R52
Resistor,SMT,MF,10.0Kohms,1%,1/10W,0603
RFFS50
RK73H1JLTD1002F
59124
R53
Resistor,SMT,MF,10.0Kohms,1%,1/10W,0603
RFFS50
RK73H1JLTD1002F
59124
R54
Resistor,SMT,MF,10.0Kohms,1%,1/10W,0603
RFFS50
RK73H1JLTD1002F
59124
TB01
Terminal Block,5mm,3-pos,PWBMt,Green
JR50
282836-3
5Y407
TB02
Terminal Block,5mm,3-pos,PWBMt,Green
JR50
282836-3
5Y407
TB03
Terminal Block,5mm,3-pos,PWBMt,Green
JR50
282836-3
5Y407
U01
IC,DC-DC Converter,12V-12V,Isolated,3W
UT80
NDY1212(STATIC)
1K126
U02
IC,SMT,Dual Optocoupler,SOIC-8
UDOS01
MOCD223-M(STATIC) 7D893
U03
IC,SMT,Dual Optocoupler,SOIC-8
UDOS01
MOCD223-M(STATIC) 7D893
U04
IC,SMT,Dual Optocoupler,SOIC-8
UDOS01
MOCD223-M(STATIC) 7D893
U05
IC,SMT,Dual Optocoupler,SOIC-8
UDOS01
MOCD223-M(STATIC) 7D893
U06
IC,SMT,CMOS,8-Bit Shft Reg,Par I/P, SOIC-16
UDLS04
U07
IC,SMT,Dual Optocoupler,SOIC-8
UDOS01
MC74HC165AD(STATI 04713
C)
MOCD223-M(STATIC) 7D893
U08
IC,SMT,Dual Optocoupler,SOIC-8
UDOS01
MOCD223-M(STATIC) 7D893
U09
IC,SMT,CMOS,8-Bit Shft Reg,Par I/P, SOIC-16
UDLS04
U10
IC,SMT,Dual Optocoupler,SOIC-8
UDOS01
MC74HC165AD(STATI 04713
C)
MOCD223-M(STATIC) 7D893
U11
IC,SMT,Dual Optocoupler,SOIC-8
UDOS01
MOCD223-M(STATIC) 7D893
U12
IC,SMT,RS-485 Transceiver,Sgl,SOIC-8
UDTS03
DS36C278TM(STATIC) 27014
U13
IC, SMT, Micro, ADC, PWM,Flash, TQFP-32
UDMS03
U14
IC,SMT,Microprocessor Supervisor, SC70
UDSS02
U15
IC,SMT,CMOS,Quad Tri-State Buffer, SOIC-14
UDLS06
U16
IC,SMT,Trans Array, 7 Darl.,SOIC-16
UDAS01
ATMEGA816AI(STATIC)
ADM803MAKS(STATIC)
MC74HC125AD(STATI
C)
MC1413BD(STATIC)
U17
IC,SMT,CMOS,8-Bit Shft Reg,Par O/P, SOIC-16
UDLS05
U18
IC,SMT,Trans Array, 7 Darl.,SOIC-16
UDAS01
Page 90 of 114
NAPI80
1FN41
24355
04713
04713
MC74HC595AD(STATI 04713
C)
MC1413BD(STATIC)
04713
Continued from previous page
NAPI80
REFDES
NDB Site Interface PWB Assy
DESCRIPTION
NAUTEL #
VENDOR #
OEM CODE
U19
IC,SMT,CMOS,8-Bit Shft Reg,Par O/P, SOIC-16
UDLS05
U20
IC,SMT,Trans Array, 7 Darl.,SOIC-16
UDAS01
MC74HC595AD(STATI 04713
C)
MC1413BD(STATIC)
04713
Y01
Crystal,SMT,Fund,Par Res,3.6864MHz,Comm
XFPS03
ATSM49-3.6864MHz
Page 91 of 114
NAPI80
23875
NAPI94
REFDES
Interface PWB Assy
DESCRIPTION
NAUTEL #
VENDOR #
OEM CODE
C01
Capacitor, Ceramic, 0.1uF 10%100V
CCG07
CKR06BX104KRV
56289
C02
Capacitor, Ceramic, 1.0uF 10%50V
CCG10
CKR06BX105KRV
56289
C03
Capacitor, Ceramic, 1.0uF 10%50V
CCG10
CKR06BX105KRV
56289
C04
Capacitor, Tantalum, Dipped, 10uF, 35V
CCP36
96095
C05
Capacitor, Ceramic, 0.1uF 10%100V
CCG07
T351G106K035AT(Ro
HS) KEMET
CKR06BX104KRV
C06
Capacitor, Tantalum, Dipped, 10uF, 35V
CCP36
C07
Capacitor, Elect, 33uF, 63V,+/-20%
CBP16
CR01
Diode, Zener Transient Supressor, 30V
QM12
CR02
Diode, Schottky, 1A 40V
QS13
CR03
Diode, Schottky, 1A 40V
QS13
CR04
Diode, Schottky, 1A 40V
QS13
CR05
Diode, Schottky, 1A 40V
QS13
CR06
Diode, Schottky, 1A 40V
QS13
CR07
Diode, General Purpose, 200V,0.1A
QAP29
1N5819(STATIC)
MOTO
1N5819(STATIC)
MOTO
1N5819(STATIC)
MOTO
1N5819(STATIC)
MOTO
1N5819(STATIC)
MOTO
1N4938
CR08
Diode, General Purpose, 200V,0.1A
QAP29
1N4938
07263
CR09
Diode, Schottky, 1A 40V
QS13
04713
CR10
Diode, Schottky, 1A 40V
QS13
CR11
Diode, Schottky, 1A 40V
QS13
CR12
Diode, Schottky, 1A 40V
QS13
CR13
Diode, Schottky, 1A 40V
QS13
CR14
Diode, Schottky, 1A 40V
QS13
CR15
Diode, Schottky Rectifier, 45V, 16A
QM43
1N5819(STATIC)
MOTO
1N5819(STATIC)
MOTO
1N5819(STATIC)
MOTO
1N5819(STATIC)
MOTO
1N5819(STATIC)
MOTO
1N5819(STATIC)
MOTO
MBR1645(STATIC)
CR16
Diode, Schottky Rectifier, 45V, 16A
QM43
MBR1645(STATIC)
ONSEMI
CR17
Diode, Schottky Rectifier, 45V, 16A
QM43
MBR1645(STATIC)
ONSEMI
CR18
Diode, Schottky Rectifier, 45V, 16A
QM43
MBR1645(STATIC)
ONSEMI
CR19
Diode, Schottky Rectifier, 45V, 16A
QM43
MBR1645(STATIC)
ONSEMI
CR20
Diode, Schottky Rectifier, 45V, 16A
QM43
MBR1645(STATIC)
ONSEMI
CR21
Diode, Schottky Rectifier, 45V, 16A
QM43
MBR1645(STATIC)
ONSEMI
CR22
Diode, Schottky Rectifier, 45V, 16A
QM43
MBR1645(STATIC)
ONSEMI
CR23
Diode, Schottky, 1A 40V
QS13
04713
CR24
Diode, Schottky, 1A 40V
QS13
1N5819(STATIC)
MOTO
1N5819(STATIC)
MOTO
Page 92 of 114
NAPI94
56289
T351G106K035AT(Ro 96095
HS) KEMET
KME63VB33RM6X11L UNITED
P6KE30CA
04713
04713
04713
04713
04713
04713
07263
04713
04713
04713
04713
04713
ONSEMI
04713
Continued from previous page
NAPI94
REFDES
Interface PWB Assy
DESCRIPTION
NAUTEL #
CR25
Diode, Schottky, 1A 40V
QS13
CR26
Diode, Schottky, 1A 40V
QS13
E01
Connector, Quick-Dis, M,1/4 Tab, PWB
E02
VENDOR #
OEM CODE
04713
HR26
1N5819(STATIC)
MOTO
1N5819(STATIC)
MOTO
1287
Connector, Quick-Dis, M,1/4 Tab, PWB
HR26
1287
91833
E03
Connector, Quick-Dis, M,1/4 Tab, PWB
HR26
1287
91833
E04
Connector, Quick-Dis, M,1/4 Tab, PWB
HR26
1287
91833
E05
Connector, Quick-Dis, M,1/4 Tab, PWB
HR26
1287
91833
E06
Connector, Quick-Dis, M,1/4 Tab, PWB
HR26
1287
91833
J01
Conn, Header, Ribbon Cbl, 40 pin
JP52
499910-9
00779
J02
Conn, Header, Ribbon Cbl, 40 pin
JP52
499910-9
00779
J03
Conn, Plug, D-Sub, 25 pin, PWB Mt
JS12
K22-B25P-NJ
63590
J04
MTA, Keyed Square Post HeaderAssy, 8 pin
JU24
647123-8
00779
J05
MTA, Keyed Square Post HeaderAssy, 8 pin
JU24
647123-8
00779
J06
MTA, Keyed Square Post HeaderAssy,12 Pin
JU23
1-647123-2
00779
J07
Conn, Plug, D-Sub, 25 pin, PWB Mt
JS12
K22-B25P-NJ
63590
J08
Conn, Socket, D-Sub, 25 pin, PWB Mt
JS13
K22-B25S-NJ
22421
J09
Conn, Socket, D-Sub, 25 pin, PWB Mt
JS13
K22-B25S-NJ
22421
J10
Conn, Plug, D-Sub, 25 pin, PWB Mt
JS12
K22-B25P-NJ
63590
L01
Transformer Assy, Servo Probe
195-9535
195-9535
37338
R01
Resistor, Wirewound, 1 Ohms, 1%, 2.5W, NH
RS44
NS-2C-1 OHM-1%
35005
R02
Resistor, MF, 121 Ohms, 1%, 1/4W
RAB14
MF1/4DL1210F
59124
R03
Resistor, MF, 562 Ohms, 1PC 1/4W
RAB22
MF1/4DL5620F
59124
R04
Resistor, MF, 182 Ohms, 1PC 1/4W
RAB16
MF1/4DL1820F
59124
R05
Resistor, MF, 15.0K Ohms, 1PC1/4W
RAB39
MF1/4DL1502F
59124
R06
Resistor, MF, 2.21K Ohms, 1PC1/4W
RAB29
MF1/4DL2211F
59124
04713
91833
R07
Resistor, MF, 22.1K Ohms, 1PC1/4W
RAB41
MF1/4DL2212F
59124
T01
Signal Transformer, 1.1VA230V/36V
TD46
DST-2-36
08779
TP01
Terminal, Test Point, PWB,Yellow
HR10
TP-106-01-04
COMP-C
U01
Voltage Regulator, Adj Voltage, 3A
UT36
LM350T
27014
U02
Voltage Regulator, Adj Voltage, 3A
UT36
LM350T
27014
Page 93 of 114
NAPI94
NAPI94A
REFDES
Interface PWB Assy
DESCRIPTION
NAUTEL #
VENDOR #
OEM CODE
C01
Capacitor, Ceramic, 0.1uF 10%100V
CCG07
CKR06BX104KRV
56289
C02
Capacitor, Ceramic, 1.0uF 10%50V
CCG10
CKR06BX105KRV
56289
C03
Capacitor, Ceramic, 1.0uF 10%50V
CCG10
CKR06BX105KRV
56289
C04
Capacitor, Tantalum, Dipped, 10uF, 35V
CCP36
96095
C05
Capacitor, Ceramic, 0.1uF 10%100V
CCG07
T351G106K035AT(Ro
HS) KEMET
CKR06BX104KRV
C06
Capacitor, Elect, 4.7uF, 100V,+/-20%
CD48
C07
Capacitor, Elect, 4.7uF, 100V,+/-20%
CD48
CR01
Diode, Zener Transient Supressor, 30V
QM12
KME100VB4R7M5X11
LL
KME100VB4R7M5X11
LL
P6KE30CA
04713
CR02
Not Used
NOT USED
37338
CR03
Diode, Schottky, 1A 40V
QS13
04713
CR04
Diode, Schottky, 1A 40V
QS13
CR05
Diode, Schottky, 1A 40V
QS13
CR06
Diode, Schottky, 1A 40V
QS13
CR07
Diode, General Purpose, 200V,0.1A
QAP29
1N5819(STATIC)
MOTO
1N5819(STATIC)
MOTO
1N5819(STATIC)
MOTO
1N5819(STATIC)
MOTO
1N4938
CR08
Diode, General Purpose, 200V,0.1A
QAP29
1N4938
07263
CR09
Diode, Schottky, 1A 40V
QS13
04713
CR10
Diode, Schottky, 1A 40V
QS13
CR11
Diode, Schottky, 1A 40V
QS13
CR12
Diode, Schottky, 1A 40V
QS13
CR13
Diode, Schottky, 1A 40V
QS13
CR14
Diode, Schottky, 1A 40V
QS13
CR15
Diode, Schottky Rectifier, 45V, 16A
QM43
1N5819(STATIC)
MOTO
1N5819(STATIC)
MOTO
1N5819(STATIC)
MOTO
1N5819(STATIC)
MOTO
1N5819(STATIC)
MOTO
1N5819(STATIC)
MOTO
MBR1645(STATIC)
CR16
Diode, Schottky Rectifier, 45V, 16A
QM43
MBR1645(STATIC)
ONSEMI
CR17
Diode, Schottky Rectifier, 45V, 16A
QM43
MBR1645(STATIC)
ONSEMI
CR18
Diode, Schottky Rectifier, 45V, 16A
QM43
MBR1645(STATIC)
ONSEMI
CR19
Diode, Schottky Rectifier, 45V, 16A
QM43
MBR1645(STATIC)
ONSEMI
CR20
Diode, Schottky Rectifier, 45V, 16A
QM43
MBR1645(STATIC)
ONSEMI
CR21
Diode, Schottky Rectifier, 45V, 16A
QM43
MBR1645(STATIC)
ONSEMI
CR22
Diode, Schottky Rectifier, 45V, 16A
QM43
MBR1645(STATIC)
ONSEMI
CR23
Diode, Schottky, 1A 40V
QS13
04713
CR24
Diode, Schottky, 1A 40V
QS13
1N5819(STATIC)
MOTO
1N5819(STATIC)
MOTO
Page 94 of 114
NAPI94A
56289
04713
04713
04713
07263
04713
04713
04713
04713
04713
ONSEMI
04713
Continued from previous page
NAPI94A
REFDES
Interface PWB Assy
DESCRIPTION
NAUTEL #
CR25
Diode, Schottky, 1A 40V
QS13
CR26
Diode, Schottky, 1A 40V
QS13
E01
Connector, Quick-Dis, M,1/4 Tab, PWB
E02
VENDOR #
OEM CODE
04713
HR26
1N5819(STATIC)
MOTO
1N5819(STATIC)
MOTO
1287
Connector, Quick-Dis, M,1/4 Tab, PWB
HR26
1287
91833
E03
Connector, Quick-Dis, M,1/4 Tab, PWB
HR26
1287
91833
E04
Connector, Quick-Dis, M,1/4 Tab, PWB
HR26
1287
91833
E05
Connector, Quick-Dis, M,1/4 Tab, PWB
HR26
1287
91833
E06
Connector, Quick-Dis, M,1/4 Tab, PWB
HR26
1287
91833
J01
Conn, Header, Ribbon Cbl, 40 pin
JP52
499910-9
00779
J02
Conn, Header, Ribbon Cbl, 40 pin
JP52
499910-9
00779
J03
Conn, Plug, D-Sub, 25 pin, PWB Mt
JS12
K22-B25P-NJ
63590
J04
MTA, Keyed Square Post HeaderAssy, 8 pin
JU24
647123-8
00779
J05
MTA, Keyed Square Post HeaderAssy, 8 pin
JU24
647123-8
00779
J06
MTA, Keyed Square Post HeaderAssy,12 Pin
JU23
1-647123-2
00779
J07
Conn, Plug, D-Sub, 25 pin, PWB Mt
JS12
K22-B25P-NJ
63590
J08
Conn, Socket, D-Sub, 25 pin, PWB Mt
JS13
K22-B25S-NJ
22421
J09
Conn, Socket, D-Sub, 25 pin, PWB Mt
JS13
K22-B25S-NJ
22421
J10
Conn, Plug, D-Sub, 25 pin, PWB Mt
JS12
K22-B25P-NJ
63590
L01
Transformer Assy, Servo Probe
195-9535
195-9535
37338
R01
Resistor, Wirewound, 1 Ohms, 1%, 2.5W, NH
RS44
NS-2C-1 OHM-1%
35005
R02
Not Used
NOT USED
37338
R03
Not Used
NOT USED
37338
R04
Not Used
NOT USED
37338
R05
Resistor, MF, 15.0K Ohms, 1PC1/4W
RAB39
MF1/4DL1502F
59124
R06
Resistor, MF, 2.21K Ohms, 1PC1/4W
RAB29
MF1/4DL2211F
59124
04713
91833
R07
Resistor, MF, 22.1K Ohms, 1PC1/4W
RAB41
MF1/4DL2212F
59124
T01
Signal Transformer, 1.1VA230V/36V
TD46
DST-2-36
08779
TP01
Terminal, Test Point, PWB,Yellow
HR10
TP-106-01-04
COMP-C
U01
Voltage Regulator, Adj Voltage, 3A
UT36
LM350T
27014
U02
Not Used
NOT USED
37338
Page 95 of 114
NAPI94A
NAPM11
REFDES
Interphase PDM Driver PWB Assy
DESCRIPTION
NAUTEL #
C01
Capacitor, Tantalum, Dipped, 10uF, 35V
CCP36
C02
Capacitor, Tantalum, Dipped, 10uF, 35V
CCP36
C03
Capacitor, Tantalum, Dipped, 10uF, 35V
CCP36
C04
Capacitor, Tantalum, Dipped, 10uF, 35V
CCP36
C05
Capacitor, Ceramic, 0.22uF 10% 50V
C06
Capacitor, Mica, Dipped, 470pF 2% 500V
C07
VENDOR #
OEM CODE
96095
CCG08
T351G106K035AT(Ro
HS) KEMET
T351G106K035AT(Ro
HS) KEMET
T351G106K035AT(Ro
HS) KEMET
T351G106K035AT(Ro
HS) KEMET
CKR06BX224KRV
CB33
CD15FD471G03
14655
Capacitor, Ceramic, 0.1uF 10%100V
CCG07
CKR06BX104KRV
56289
C08
Capacitor, Ceramic, 0.47uF 10% 50V
CCG09
CKR06BX474KRV
56289
C09
Capacitor, Tantalum, Dipped, 10uF, 35V
CCP36
96095
C10
Capacitor, Tantalum, Dipped, 10uF, 35V
CCP36
C11
Capacitor, Ceramic, 0.1uF 10%100V
CCG07
T351G106K035AT(Ro
HS) KEMET
T351G106K035AT(Ro
HS) KEMET
CKR06BX104KRV
C12
Capacitor, Tantalum, Dipped, 10uF, 35V
CCP36
C13
Capacitor, Ceramic, 0.1uF 10%100V
C14
96095
96095
96095
56289
96095
56289
CCG07
T351G106K035AT(Ro
HS) KEMET
CKR06BX104KRV
56289
Capacitor, Mica, Dipped, 100pF 2% 500V
CB25
CM05FD101G03
SOSH
C15
Capacitor, Ceramic, 0.1uF 10%100V
CCG07
CKR06BX104KRV
56289
C16
Capacitor, Ceramic, 0.1uF 10%100V
CCG07
CKR06BX104KRV
56289
C17
Capacitor, Ceramic, 0.1uF 10%100V
CCG07
CKR06BX104KRV
56289
C18
Capacitor, Tantalum, Dipped, 10uF, 35V
CCP36
96095
C19
Capacitor, Mica, Dipped, 470pF 2% 500V
CB33
T351G106K035AT(Ro
HS) KEMET
CD15FD471G03
C20
Capacitor, Tantalum, Dipped, 10uF, 35V
CCP36
96095
C21
Capacitor, Ceramic, 0.1uF 10%100V
CCG07
T351G106K035AT(Ro
HS) KEMET
CKR06BX104KRV
56289
C22
Capacitor, Ceramic, 0.1uF 10%100V
CCG07
CKR06BX104KRV
56289
C23
Capacitor, Ceramic, 0.1uF 10%100V
CCG07
CKR06BX104KRV
56289
C24
Capacitor, Ceramic, 0.1uF 10%100V
CCG07
CKR06BX104KRV
56289
C25
Capacitor, Mica, Dipped, 100pF 2% 500V
CB25
CM05FD101G03
SOSH
C26
Capacitor, Ceramic, 0.047uF 10% 100V
CCG06
CKR06BX473KRV
56289
C27
Capacitor, Mica, Dipped, 330pF 2% 500V
CB31
CM05FD331G03
14655
C28
Capacitor, Ceramic, 0.1uF 10%100V
CCG07
CKR06BX104KRV
56289
C29
Capacitor, Ceramic, 0.1uF 10%100V
CCG07
CKR06BX104KRV
56289
C30
Capacitor, Ceramic, 0.1uF 10%100V
CCG07
CKR06BX104KRV
56289
C31
Not Used
NOT USED
37338
C32
Not Used
NOT USED
37338
C33
Capacitor, Ceramic, 0.1uF 10%100V
CCG07
CKR06BX104KRV
56289
C34
Capacitor, Ceramic, 0.1uF 10%100V
CCG07
CKR06BX104KRV
56289
C35
Capacitor, Ceramic, 0.1uF 10%100V
CCG07
CKR06BX104KRV
56289
Page 96 of 114
NAPM11
96095
14655
Continued from previous page
NAPM11
REFDES
Interphase PDM Driver PWB Assy
DESCRIPTION
NAUTEL #
VENDOR #
OEM CODE
C36
Capacitor, Ceramic, 0.1uF 10%100V
CCG07
CKR06BX104KRV
56289
C37
Capacitor, Ceramic, 0.1uF 10%100V
CCG07
CKR06BX104KRV
56289
C38
Capacitor, Ceramic, 0.1uF 10%100V
CCG07
CKR06BX104KRV
56289
C39
Capacitor, Tantalum, Dipped, 10uF, 35V
CCP36
96095
C40
Not Used
T351G106K035AT(Ro
HS) KEMET
NOT USED
37338
C41
Capacitor, Ceramic, 0.22uF 10% 50V
CCG08
CKR06BX224KRV
56289
C42
Capacitor, Ceramic, 0.1uF 10%100V
CCG07
CKR06BX104KRV
56289
C43
Capacitor, Tantalum, Dipped, 10uF, 35V
CCP36
96095
C44
Capacitor, Ceramic, 0.1uF 10%100V
CCG07
T351G106K035AT(Ro
HS) KEMET
CKR06BX104KRV
C45
Capacitor, Ceramic, 0.001uF 10% 200V
CCG01
C46
Capacitor, Ceramic, 0.1uF 10%100V
CCG07
C47
Capacitor, Tantalum, Dipped, 10uF, 35V
CCP36
C48
Capacitor, Ceramic, 0.001uF 10% 200V
CCG01
C49
Capacitor, Mica, Dipped, 100pF 2% 500V
C50
CKR05BX102KRV
SPRAGUE
CKR06BX104KRV
56289
91929
56289
96095
CB25
T351G106K035AT(Ro
HS) KEMET
CKR05BX102KRV
SPRAGUE
CM05FD101G03
Capacitor, Mica, Dipped, 100pF 2% 500V
CB25
CM05FD101G03
SOSH
C51
Capacitor, Ceramic, 0.001uF 10% 200V
CCG01
91929
C52
Capacitor, Ceramic, 0.001uF 10% 200V
CCG01
C53
Capacitor, Ceramic, 0.001uF 10% 200V
CCG01
C54
Capacitor, Ceramic, 0.1uF 10%100V
CCG07
CKR05BX102KRV
SPRAGUE
CKR05BX102KRV
SPRAGUE
CKR05BX102KRV
SPRAGUE
CKR06BX104KRV
56289
C55
Capacitor, Ceramic, 0.1uF 10%100V
CCG07
CKR06BX104KRV
56289
C56
Capacitor, Tantalum, Dipped, 10uF, 35V
CCP36
96095
C57
Capacitor, Tantalum, Dipped, 10uF, 35V
CCP36
C58
Capacitor, Ceramic, 0.01uF 10% 100V
CCG04
T351G106K035AT(Ro
HS) KEMET
T351G106K035AT(Ro
HS) KEMET
CKR05BX103KRV
C59
Capacitor, Ceramic, 0.01uF 10% 100V
CCG04
CKR05BX103KRV
56289
C60
Capacitor, Ceramic, 0.1uF 10%100V
CCG07
CKR06BX104KRV
56289
C61
Capacitor, Ceramic, 0.1uF 10%100V
CCG07
CKR06BX104KRV
56289
C62
Capacitor, Ceramic, 0.1uF 10%100V
CCG07
CKR06BX104KRV
56289
C63
Capacitor, Ceramic, 0.001uF 10% 200V
CCG01
91929
C64
Capacitor, Tantalum, Dipped, 10uF, 35V
CCP36
C65
Capacitor, Ceramic, 0.1uF 10%100V
CCG07
CKR05BX102KRV
SPRAGUE
T351G106K035AT(Ro
HS) KEMET
CKR06BX104KRV
56289
C66
Capacitor, Ceramic, 0.1uF 10%100V
CCG07
CKR06BX104KRV
56289
C71
Capacitor, Ceramic, 0.1uF 10%100V
CCG07
CKR06BX104KRV
56289
CR01
Diode, General Purpose, 200V,0.1A
QAP29
1N4938
07263
Page 97 of 114
NAPM11
91929
SOSH
91929
91929
96095
56289
96095
Continued from previous page
NAPM11
REFDES
Interphase PDM Driver PWB Assy
DESCRIPTION
NAUTEL #
VENDOR #
OEM CODE
CR02
Diode, General Purpose, 200V,0.1A
QAP29
1N4938
07263
CR03
Diode, General Purpose, 200V,0.1A
QAP29
1N4938
07263
CR04
Diode, General Purpose, 200V,0.1A
QAP29
1N4938
07263
CR05
Diode, General Purpose, 200V,0.1A
QAP29
1N4938
07263
E01
Conn, Post Shunt, 2 Pos, .10 Centreline
JQ15
390088-2
09482
J01
Conn, Plug, D-Sub, 25 pin, PWB Mt
JS12
K22-B25P-NJ
63590
K01
Relay, 5V Coil, 2PDT, 1A
KC18
TQ2-5V
61529
L01
Inductor, Choke, 2.5 Turns, JMtl
LA16
82-152-J
33062
L02
Inductor, Choke, 2.5 Turns, JMtl
LA16
82-152-J
33062
L03
Inductor, Choke, 2.5 Turns, JMtl
LA16
82-152-J
33062
L04
Inductor, Choke, 2.5 Turns, JMtl
LA16
82-152-J
33062
L05
Not Used
NOT USED
37338
L06
Inductor, Choke, 2.5 Turns, JMtl
LA16
82-152-J
33062
L07
Inductor, Choke, 2.5 Turns, JMtl
LA16
82-152-J
33062
L08
Inductor, Choke, 2.5 Turns, JMtl
LA16
82-152-J
33062
Q01
Transistor, NPN, Switch/Amplifier
QA45
2N4401
04713
Q02
Transistor, NPN, Switch/Amplifier
QA45
2N4401
04713
Q03
Transistor, NPN, Switch/Amplifier
QA45
2N4401
04713
Q04
Transistor, NPN, Switch/Amplifier
QA45
2N4401
04713
Q05
Transistor, PNP, Switch/Amplifier
QA44
2N4403
04713
Q06
Transistor, NPN, Switch/Amplifier
QA45
2N4401
04713
Q07
Transistor, PNP, Switch/Amplifier
QA44
2N4403
04713
Q08
Not Used
NOT USED
37338
Q09
Not Used
NOT USED
37338
Q10
Transistor, NPN, Switch/Amplifier
QA45
2N4401
04713
R01
Resistor, MF, 100K Ohms, 1PC 1/4W
RAC01
MF1/4DL1003F
59124
R02
Resistor, MF, 22.1K Ohms, 1PC1/4W
RAB41
MF1/4DL2212F
59124
R03
Resistor, MF, 10.0K Ohms, 1PC1/4W
RAB37
MF1/4DL1002F
59124
R04
Resistor, MF, 681K Ohms, 1%1/4W
RAC11
MF1/4DL6813F
59124
R05
Resistor, MF, 562 Ohms, 1PC 1/4W
RAB22
MF1/4DL5620F
59124
R06
Resistor, MF, 1K Ohms, 1PC 1/4W
RAB25
MF1/4DL1001F
59124
R07
Resistor, MF, 100K Ohms, 1PC 1/4W
RAC01
MF1/4DL1003F
59124
R08
Resistor, MF, 1K Ohms, 1PC 1/4W
RAB25
MF1/4DL1001F
59124
R09
Resistor, MF, 15.0K Ohms, 1PC1/4W
RAB39
MF1/4DL1502F
59124
R10
Resistor, MF, 10.0K Ohms, 1PC1/4W
RAB37
MF1/4DL1002F
59124
R11
Resistor, MF, 2.21M Ohms, 1%1/4W
RAC17
MF1/4DL2214F
59124
R12
Resistor, MF, 10.0K Ohms, 1PC1/4W
RAB37
MF1/4DL1002F
59124
R13
Resistor, MF, 10.0K Ohms, 1PC1/4W
RAB37
MF1/4DL1002F
59124
R14
Resistor, MF, 4.75K Ohms, 1PC1/4W
RAB33
MF1/4DL4751F
59124
Page 98 of 114
NAPM11
Continued from previous page
NAPM11
REFDES
Interphase PDM Driver PWB Assy
DESCRIPTION
NAUTEL #
VENDOR #
OEM CODE
R15
Resistor, MF, 2.74K Ohms, 1PC1/4W
RAB30
MF1/4DL2741F
59124
R16
Resistor, MF, 681K Ohms, 1%1/4W
RAC11
MF1/4DL6813F
59124
R17
Not Used
NOT USED
37338
R18
Not Used
NOT USED
37338
R19
Not Used
NOT USED
37338
R20
Not Used
NOT USED
37338
R21
Not Used
NOT USED
37338
R22
Resistor, MF, 1K Ohms, 1PC 1/4W
RAB25
MF1/4DL1001F
59124
R23
Not Used
NOT USED
37338
R24
Not Used
NOT USED
37338
R25
Resistor, MF, 1.21K Ohms, 1PC1/4W
RAB26
MF1/4DL1211F
59124
R26
Resistor, MF, 1K Ohms, 1PC 1/4W
RAB25
MF1/4DL1001F
59124
R27
Resistor, MF, 18.2K Ohms, 1PC1/4W
RAB40
MF1/4DL1822F
59124
R28
Not Used
NOT USED
37338
R29
Resistor, MF, 2.21M Ohms, 1%1/4W
RAC17
MF1/4DL2214F
59124
R30
Resistor, MF, 2.21M Ohms, 1%1/4W
RAC17
MF1/4DL2214F
59124
R31
Resistor, Variable, Film, 5000 Ohms, 1/2W
RV10
3339P-1-502
80294
R32
Not Used
NOT USED
37338
R33
Resistor, MF, 1K Ohms, 1PC 1/4W
RAB25
MF1/4DL1001F
59124
R34
Resistor, MF, 10.0K Ohms, 1PC1/4W
RAB37
MF1/4DL1002F
59124
R35
Resistor, MF, 10.0K Ohms, 1PC1/4W
RAB37
MF1/4DL1002F
59124
R36
Resistor, MF, 100K Ohms, 1PC 1/4W
RAC01
MF1/4DL1003F
59124
R37
Resistor, MF, 1K Ohms, 1PC 1/4W
RAB25
MF1/4DL1001F
59124
R38
Resistor, MF, 10K Ohms, 0.1%,1/4W
RAC28
MF55E1002B
59124
R39
Resistor, MF, 10K Ohms, 0.1%,1/4W
RAC28
MF55E1002B
59124
R40
Not Used
NOT USED
37338
R41
Not Used
NOT USED
37338
R42
Resistor, MF, 10K Ohms, 0.1%,1/4W
RAC28
MF55E1002B
59124
R43
Not Used
NOT USED
37338
R44
Resistor, MF, 10K Ohms, 0.1%,1/4W
RAC28
MF55E1002B
59124
R45
Not Used
NOT USED
37338
R46
Resistor, MF, 10K Ohms, 0.1%,1/4W
RAC28
MF55E1002B
59124
R47
Resistor, MF, 4990 Ohms, 1%1/4W
RAC32
MF1/4DL4991F
59124
R48
Resistor, MF, 10.0K Ohms, 1PC1/4W
RAB37
MF1/4DL1002F
59124
R49
Resistor, MF, 10K Ohms, 0.1%,1/4W
RAC28
MF55E1002B
59124
R50
Resistor, MF, 562 Ohms, 1PC 1/4W
RAB22
MF1/4DL5620F
59124
R51
Resistor, MF, 1K Ohms, 1PC 1/4W
RAB25
MF1/4DL1001F
59124
R52
Resistor, MF, 1K Ohms, 1PC 1/4W
RAB25
MF1/4DL1001F
59124
R53
Resistor, MF, 562 Ohms, 1PC 1/4W
RAB22
MF1/4DL5620F
59124
Page 99 of 114
NAPM11
Continued from previous page
NAPM11
REFDES
Interphase PDM Driver PWB Assy
DESCRIPTION
NAUTEL #
VENDOR #
OEM CODE
R54
Resistor, MF, 1K Ohms, 1PC 1/4W
RAB25
MF1/4DL1001F
59124
R55
Resistor, MF, 1K Ohms, 1PC 1/4W
RAB25
MF1/4DL1001F
59124
R56
Resistor, MF, 1K Ohms, 1PC 1/4W
RAB25
MF1/4DL1001F
59124
R57
Resistor, MF, 10.0K Ohms, 1PC1/4W
RAB37
MF1/4DL1002F
59124
R58
Resistor, MF, 15.0K Ohms, 1PC1/4W
RAB39
MF1/4DL1502F
59124
R59
Resistor, Variable, Film, 1000 Ohms, 1/2W
RV06
3339P-1-102
80294
R60
Resistor, MF, 1.21K Ohms, 1PC1/4W
RAB26
MF1/4DL1211F
59124
R61
Resistor, MF, 1.21K Ohms, 1PC1/4W
RAB26
MF1/4DL1211F
59124
R62
Resistor, MF, 1K Ohms, 1PC 1/4W
RAB25
MF1/4DL1001F
59124
R63
Resistor, MF, 1K Ohms, 1PC 1/4W
RAB25
MF1/4DL1001F
59124
R64
Not Used
NOT USED
37338
R64
Resistor, MF, 33.2K Ohms, 1PC1/4W
RAB43
MF1/4DL3322F
59124
R65
Resistor, MF, 56.2K Ohms, 1PC1/4W
RAB46
MF1/4DL5622F
59124
R66
Resistor, MF, 56.2K Ohms, 1PC1/4W
RAB46
MF1/4DL5622F
59124
R67
Resistor, MF, 1.00M Ohms, 1%1/4W
RAC13
MF1/4DL1004F
59124
R68
Resistor, MF, 1.00M Ohms, 1%1/4W
RAC13
MF1/4DL1004F
59124
R69
Resistor, MF, 1K Ohms, 1PC 1/4W
RAB25
MF1/4DL1001F
59124
R70
Resistor, MF, 10.0K Ohms, 1PC1/4W
RAB37
MF1/4DL1002F
59124
R71
Resistor, MF, 10.0K Ohms, 1PC1/4W
RAB37
MF1/4DL1002F
59124
R72
Resistor, MF, 10.0K Ohms, 1PC1/4W
RAB37
MF1/4DL1002F
59124
R73
Resistor, MF, 3.32K Ohms, 1PC1/4W
RAB31
MF1/4DL3321F
59124
R74
Resistor, MF, 10.0 Ohms, 1PC 1/4W
RAB01
MF1/4DL10R0F
59124
R75
Resistor, MF, 10.0 Ohms, 1PC 1/4W
RAB01
MF1/4DL10R0F
59124
R76
Resistor, MF, 10.0 Ohms, 1PC 1/4W
RAB01
MF1/4DL10R0F
59124
R77
Resistor, MF, 1K Ohms, 1PC 1/4W
RAB25
MF1/4DL1001F
59124
R78
Resistor, MF, 1K Ohms, 1PC 1/4W
RAB25
MF1/4DL1001F
59124
R79
Not Used
NOT USED
37338
R80
Not Used
NOT USED
37338
U01
IC, CMOS, Dual, Type D, Flip-Flop
UX13
MC74HC74N(STATIC) 04713
U02
IC, Op Amp, Quad, Single Supply
UR42
MC34074AP(STATIC)
U03
IC, Op Amp, Quad, Single Supply
UR42
MC34074AP(STATIC)
04713
U04
IC, Voltage Regulator, +5V, 1A, Plastic
UX17
MC7805ACT
04713
U05
IC, Comparator, Dual, High Speed
UD07
LM319J(STATIC)
27014
U06
IC, Analog Multiplier, 8 PDIP
UN44
AD633AN(STATIC)
45496
U07
IC, Analog Multiplier, 8 PDIP
UN44
AD633AN(STATIC)
45496
U08
IC, Op Amp, Quad, Single Supply
UR42
MC34074AP(STATIC)
04713
U09
IC, CMOS, Quad, 2-input NAND GAte
UM15
MC74HC00N(STATIC) 04713
U10
IC, Comparator, Dual, High Speed
UD07
LM319J(STATIC)
27014
U11
IC, Comparator, Dual, High Speed
UD07
LM319J(STATIC)
27014
Page 100 of 114
NAPM11
04713
Continued from previous page
NAPM11
REFDES
Interphase PDM Driver PWB Assy
DESCRIPTION
NAUTEL #
VENDOR #
OEM CODE
U12
IC, Comparator, Quad
UL02
MC3302L(STATIC)
04713
U13
IC, Op Amp, Quad, Single Supply
UR42
MC34074AP(STATIC)
04713
XE01
Conn, Header, SIP,12 Pin Breakaway,.10 Ctr
JQ16
1-103185-2
09482
XK01
Socket, IC, 10 Pin
UW43
110-93-310-41-001
3N087
Page 101 of 114
NAPM11
NAPS31B/00
REFDES
SPS, Fwd Converter PWBAssy
DESCRIPTION
NAUTEL #
VENDOR #
OEM CODE
C01
Capacitor, Ceramic, 0.001uF 10% 200V
CCG01
C02
Capacitor, Ceramic, 1.0uF 100V
CAP16
CKR05BX102KRV
91929
SPRAGUE
RPE114Z5U105M100V 91929
C03
Not Used
NOT USED
37338
C04
Capacitor,Polypro,0.015uF800Vac
CT39
715P1535800L
SBE
C05
Capacitor, Ceramic, 0.1uF 10%100V
CCG07
CKR06BX104KRV
56289
C06
Capacitor, Ceramic, 0.1uF 10%100V
CCG07
CKR06BX104KRV
56289
C07
Capacitor, Ceramic, 0.1uF 10%100V
CCG07
CKR06BX104KRV
56289
C08
Capacitor, Ceramic, Coated, 2.2uF 20% 50V
CCG45
C340C225M5R5CA
91929
C09
Capacitor, Ceramic, Y, 0.01uF250VAC
CCG44
DE1607F103M-KH
MURATA
C10
Capacitor, Ceramic, 1.0uF 100V
CAP16
RPE114Z5U105M100V 91929
C11
Capacitor, Ceramic, Y, 0.01uF250VAC
CCG44
DE1607F103M-KH
MURATA
C12
Capacitor, Electrolytic, 470uF450V
CBP15
14655
C13
Capacitor, Electrolytic, 470uF450V
CBP15
C14
Capacitor, Ceramic, 0.01uF 10% 100V
CCG04
381LR471M450A052
CORNELL
381LR471M450A052
CORNELL
CKR05BX103KRV
C15
Capacitor, Electrolytic, 470uF450V
CBP15
C16
Capacitor, Ceramic, 0.001uF 10% 200V
CCG01
C17
Capacitor, Metal,Polyprop, 5uF +/-20% 600V
CT40
381LR471M450A052
CORNELL
CKR05BX102KRV
SPRAGUE
734G505X0600
C18
Capacitor, Ceramic, 1.0uF 100V
CAP16
RPE114Z5U105M100V 91929
C19
Capacitor, Mica, Dipped, 470pF 2% 500V
CB33
CD15FD471G03
14655
C20
Capacitor, Dipped Mica, 220pF5% 1000V
CT16
CDV18FF221J03
14655
C21
Capacitor, Dipped Mica, 220pF5% 1000V
CT16
CDV18FF221J03
14655
C22
Capacitor, Ceramic, 0.001uF 10% 200V
CCG01
91929
C23
Capacitor, Dipped Mica, 220pF5% 1000V
CT16
CKR05BX102KRV
SPRAGUE
CDV18FF221J03
14655
C24
Capacitor, Ceramic, 0.1uF 10%100V
CCG07
CKR06BX104KRV
56289
C25
Capacitor, Ceramic, 0.1uF 10%100V
CCG07
CKR06BX104KRV
56289
C26
Capacitor, Mica, Dipped, 1000pF 2% 500V
CB37
CM06FD102G03
14655
C27
Capacitor, Metal,Polyprop, 5uF +/-20% 600V
CT40
734G505X0600
DEARBO
C28
Capacitor, Ceramic, 0.01uF 10% 100V
CCG04
CKR05BX103KRV
56289
C29
Capacitor, Ceramic, 1.0uF 100V
CAP16
RPE114Z5U105M100V 91929
C30
Capacitor, Ceramic, 0.01uF 10% 100V
CCG04
CKR05BX103KRV
56289
C31
Capacitor, Ceramic, 2700pF, 1%, 100V
CAP47
C052C272F1G5CA
91929
C32
Capacitor, Ceramic, 0.47uF 10% 50V
CCG09
CKR06BX474KRV
56289
C33
Capacitor, Ceramic, 0.1uF 10%100V
CCG07
CKR06BX104KRV
56289
C34
Capacitor, Ceramic, 0.001uF 10% 200V
CCG01
CKR05BX102KRV
SPRAGUE
91929
Page 102 of 114
NAPS31B/00
14655
56289
14655
91929
DEARBO
Continued from previous page
NAPS31B/00
REFDES
SPS, Fwd Converter PWBAssy
DESCRIPTION
NAUTEL #
VENDOR #
OEM CODE
C35
Capacitor, Mica, Dipped, 100pF 2% 500V
CB25
CM05FD101G03
SOSH
C36
Capacitor, Ceramic, 0.01uF 10% 100V
CCG04
CKR05BX103KRV
56289
C37
Capacitor, Ceramic, 0.001uF 10% 200V
CCG01
91929
C38
Capacitor, Ceramic, 0.001uF 10% 200V
CCG01
C39
Not Used
CKR05BX102KRV
SPRAGUE
CKR05BX102KRV
SPRAGUE
NOT USED
37338
C40
Not Used
NOT USED
37338
C41
Capacitor, Ceramic, 0.47uF 10% 50V
CCG09
CKR06BX474KRV
56289
C42
Not Used
NOT USED
37338
C43
Capacitor, Metal,Polyprop, 3.3uF, 10%, 250V
CD47
725M33592LA3
SBE
C44
Capacitor, Metal,Polyprop, 3.3uF, 10%, 250V
CD47
725M33592LA3
SBE
C45
Capacitor, Metal,Polyprop, 3.3uF, 10%, 250V
CD47
725M33592LA3
SBE
CR01
Diode, Schottky, 1A 40V
QS13
04713
CR02
Diode, Schottky, 1A 40V
QS13
CR03
Diode, General Purpose, 200V,0.1A
QAP29
1N5819(STATIC)
MOTO
1N5819(STATIC)
MOTO
1N4938
CR04
Diode, Zener Transient Supressor, 20V
QI29
P6KE20CA
07263
CR05
Diode, General Purpose, 200V,0.1A
QAP29
1N4938
07263
CR06
Diode, Rect, 1200V,8 AmpUltrafast, Soft Recovery
QM52
HFA08TB120(STATIC) IR
CR07
Diode, Rect, 1200V,8 AmpUltrafast, Soft Recovery
QM52
HFA08TB120(STATIC) IR
CR08
Not Used
NOT USED
CR09
Diode, Rect, 1200V,8 AmpUltrafast, Soft Recovery
QM52
HFA08TB120(STATIC) IR
CR10
Diode, Rect, 1200V,8 AmpUltrafast, Soft Recovery
QM52
HFA08TB120(STATIC) IR
CR11
Diode, Rect, 1200V,8 AmpUltrafast, Soft Recovery
QM52
HFA08TB120(STATIC) IR
CR12
Diode, Schottky, 1A 40V
QS13
CR13
Diode, Rect, 1200V,8 AmpUltrafast, Soft Recovery
QM52
1N5819(STATIC)
04713
MOTO
HFA08TB120(STATIC) IR
CR14
Diode, Rect, 1200V,8 AmpUltrafast, Soft Recovery
QM52
HFA08TB120(STATIC) IR
CR15
Diode, Rect, 1200V,8 AmpUltrafast, Soft Recovery
QM52
HFA08TB120(STATIC) IR
CR16
Diode, Schottky, 1A 40V
QS13
04713
CR17
Diode, Zener, 5.1V, 1W, 5%
QM07
1N5819(STATIC)
MOTO
1N4733A
CR18
Diode, Zener, 16V, 1.5W, 2%
QL23
1N5930C
91929
CR19
Diode, Schottky, 1A 40V
QS13
CR20
Diode, Rect, 1200V,8 AmpUltrafast, Soft Recovery
QM52
1N5819(STATIC)
04713
MOTO
HFA08TB120(STATIC) IR
Page 103 of 114
NAPS31B/00
91929
04713
07263
37338
04713
Continued from previous page
NAPS31B/00
REFDES
SPS, Fwd Converter PWBAssy
DESCRIPTION
NAUTEL #
CR21
Diode, Schottky, 1A 40V
QS13
DS01
Diode, LED, Amber
DS02
E01
VENDOR #
OEM CODE
QK14
1N5819(STATIC)
MOTO
HLMP-3451
50434
Diode, LED, Green
QK12
HLMP-3554
50434
Installed at Next Higher Assy
37338
E02
Installed at Next Higher Assy
E03
Installed at Next Higher Assy
E04
Installed at Next Higher Assy
E05
Installed at Next Higher Assy
J01
Installed at Next Higher Assy
J02
Conn, Pin Header,3-Pin,Mate-N-Lok, Vert
JT65
INSTALLED AT NEXT
HIGHER ASSY
INSTALLED AT NEXT
HIGHER ASSY
INSTALLED AT NEXT
HIGHER ASSY
INSTALLED AT NEXT
HIGHER ASSY
INSTALLED AT NEXT
HIGHER ASSY
INSTALLED AT NEXT
HIGHER ASSY
641966-1
J03
Installed at Next Higher Assy
37338
L01
Inductor, Choke, 2.5 Turns, JMtl
LA16
INSTALLED AT NEXT
HIGHER ASSY
82-152-J
L02
Not Used
NOT USED
37338
L03
Choke, Common Mode High L, .58mH, 13Amps
TG48
P3224-A
COILCRA
L04
Inductor Assy
197-1105
197-1105
37338
L05
Inductor Assy
197-1105
197-1105
37338
L06
Inductor Assy
197-1105
197-1105
37338
Q01
Transistor, FET, 600V, 44A,TO264
QR54
IXFK44N60
IXYS
Q02
Transistor, FET, 600V, 44A,TO264
QR54
IXFK44N60
IXYS
Q03
Not Used
NOT USED
37338
Q04
Transistor, FET, N Channel
QN54
2N7000(STATIC)
04713
Q05
Transistor, FET, N Channel
QN54
2N7000(STATIC)
04713
Q06
Not Used
NOT USED
37338
Q07
Transistor, FET, N Channel, 100V, 8A
QR13
IRF520(STATIC)
81483
Q08
Transistor, FET, N Channel
QN54
2N7000(STATIC)
04713
R01
Resistor, Film, 100K Ohms, 5%, 2W
RBP25
GS-3, 100K OHMS
75042
R02
Resistor, MF, 10.0K Ohms, 1PC1/4W
RAB37
MF1/4DL1002F
59124
R03
Resistor, MF, 1K Ohms, 1PC 1/4W
RAB25
MF1/4DL1001F
59124
R04
Resistor, MF, 10.0K Ohms, 1PC1/4W
RAB37
MF1/4DL1002F
59124
R05
Resistor, MF, 3.32M Ohms, 1%1/4W
RAC19
MF1/4DL3324F
59124
R07
Resistor, Film, 100K Ohms, 5%, 2W
RBP25
GS-3, 100K OHMS
75042
R08
Not Used
NOT USED
37338
R09
Resistor, Film, 1M Ohms, 2PC 1/2W
RD31
RL20S105G
14655
R10
Installed at Next Higher Assy
INSTALLED AT NEXT
HIGHER ASSY
37338
Page 104 of 114
NAPS31B/00
04713
37338
37338
37338
37338
37338
09482
33062
Continued from previous page
NAPS31B/00
REFDES
SPS, Fwd Converter PWBAssy
DESCRIPTION
NAUTEL #
R11
Installed at Next Higher Assy
R12
Resistor, MF, 332 Ohms, 1PC 1/4W
R13
R14
VENDOR #
OEM CODE
37338
RAB19
INSTALLED AT NEXT
HIGHER ASSY
MF1/4DL3320F
Resistor, Film, 390 Ohms, 5%,2W
RBP33
GS-3, 390 OHMS
75042
Resistor, Film, 390 Ohms, 5%,2W
RBP33
GS-3, 390 OHMS
75042
R15
Resistor, Film, 390 Ohms, 5%,2W
RBP33
GS-3, 390 OHMS
75042
R16
Resistor, Film, 390 Ohms, 5%,2W
RBP33
GS-3, 390 OHMS
75042
R17
Resistor, Film, 390 Ohms, 5%,2W
RBP33
GS-3, 390 OHMS
75042
R18
Resistor, Film, 390 Ohms, 5%,2W
RBP33
GS-3, 390 OHMS
75042
R19
Resistor, Film, 390 Ohms, 5%,2W
RBP33
GS-3, 390 OHMS
75042
R20
Resistor, Film, 390 Ohms, 5%,2W
RBP33
GS-3, 390 OHMS
75042
R21
Resistor, Film, 390 Ohms, 5%,2W
RBP33
GS-3, 390 OHMS
75042
R22
Resistor, MF, 68.1 Ohms, 1PC 1/4W
RAB11
MF1/4DL68R1F
59124
R23
Resistor, MF, 392 Ohms, 1PC 1/4W
RAB20
MF1/4DL3920F
59124
R24
Installed at Next Higher Assy
37338
R25
Installed at Next Higher Assy
R26
Installed at Next Higher Assy
R27
Installed at Next Higher Assy
R28
Resistor, MF, 2.21K Ohms, 1PC1/4W
RAB29
INSTALLED AT NEXT
HIGHER ASSY
INSTALLED AT NEXT
HIGHER ASSY
INSTALLED AT NEXT
HIGHER ASSY
INSTALLED AT NEXT
HIGHER ASSY
MF1/4DL2211F
R29
Resistor, MF, 681 Ohms, 1PC 1/4W
RAB23
MF1/4DL6810F
59124
R30
Resistor, MF, 6.81K Ohms, 1PC1/4W
RAB35
MF1/4DL6811F
59124
R31
Not Used
NOT USED
37338
R32
Resistor, MF, 10.0K Ohms, 1PC1/4W
RAB37
MF1/4DL1002F
59124
R33
Resistor, MF, 10.0K Ohms, 1PC1/4W
RAB37
MF1/4DL1002F
59124
R34
Not Used
NOT USED
37338
R35
Resistor, MF, 332 Ohms, 1PC 1/4W
RAB19
MF1/4DL3320F
59124
R36
Not Used
NOT USED
37338
R37
Resistor, MF, 10.0K Ohms, 1PC1/4W
RAB37
MF1/4DL1002F
59124
R38
Not Used
NOT USED
37338
R39
Resistor, MF, 1K Ohms, 1PC 1/4W
RAB25
MF1/4DL1001F
59124
R40
Resistor, MF, 10.0K Ohms, 1PC1/4W
RAB37
MF1/4DL1002F
59124
R41
Resistor, MF, 10.0K Ohms, 1PC1/4W
RAB37
MF1/4DL1002F
59124
R42
Not Used
NOT USED
37338
R43
Resistor, Wirewound, 33K ohms, 1PC5W
RN13
RS5-33K OHMS-1%
35005
R44
Resistor, MF, 1K Ohms, 1PC 1/4W
RAB25
MF1/4DL1001F
59124
R45
Not Used
NOT USED
37338
R46
Resistor, MF, 182 Ohms, 1PC 1/4W
RAB16
MF1/4DL1820F
59124
R47
Resistor, MF, 825 Ohms, 1PC 1/4W
RAB24
MF1/4DL8250F
59124
Page 105 of 114
NAPS31B/00
59124
37338
37338
37338
59124
Continued from previous page
NAPS31B/00
REFDES
SPS, Fwd Converter PWBAssy
DESCRIPTION
NAUTEL #
VENDOR #
OEM CODE
R48
Not Used
NOT USED
37338
R49
Resistor, MF, 1K Ohms, 1PC 1/4W
RAB25
MF1/4DL1001F
59124
R50
Resistor, Wirewound, 0.2 ohms, 1%, 3W
RT12
RS-2B
35005
R51
Resistor, MF, 10.0 Ohms, 1PC 1/4W
RAB01
MF1/4DL10R0F
59124
R52
Resistor, MF, 39.2 Ohms, 1PC 1/4W
RAB08
MF1/4DL39R2F
59124
R53
Resistor, MF, 1.50K Ohms, 1PC1/4W
RAB27
MF1/4DL1501F
59124
R54
Resistor, MF, 100 Ohms, 1PC 1/4W
RAB13
MF1/4DL1000F
59124
R55
Resistor, MF, 121 Ohms, 1%, 1/4W
RAB14
MF1/4DL1210F
59124
R56
Resistor, MF, 10.0K Ohms, 1PC1/4W
RAB37
MF1/4DL1002F
59124
R57
Resistor, Film, 3.32 Ohms, 1PC 1/2W
RZ04
MF1/2DL3R32F
59124
R58
Resistor, Film, 15 Ohms, 2PC 1/2W
RC15
RL20S150G
35005
R59
Not Used
NOT USED
37338
R60
Not Used
NOT USED
37338
R61
Resistor, MF, 5.62K Ohms, 1PC1/4W
RAB34
MF1/4DL5621F
59124
R62
Resistor, MF, 10.0K Ohms, 1PC1/4W
RAB37
MF1/4DL1002F
59124
R63
Resistor, MF, 39.2 Ohms, 1PC 1/4W
RAB08
MF1/4DL39R2F
59124
R64
Resistor, MF, 681 Ohms, 1PC 1/4W
RAB23
MF1/4DL6810F
59124
R65
Resistor, MF, 1K Ohms, 1PC 1/4W
RAB25
MF1/4DL1001F
59124
R66
Resistor, MF, 10.0K Ohms, 1PC1/4W
RAB37
MF1/4DL1002F
59124
R67
Resistor, MF, 10.0K Ohms, 1PC1/4W
RAB37
MF1/4DL1002F
59124
R68
Resistor, MF, 10.0 Ohms, 1PC 1/4W
RAB01
MF1/4DL10R0F
59124
R69
Resistor, MF, 1K Ohms, 1PC 1/4W
RAB25
MF1/4DL1001F
59124
RT01
Thermistor, PTC, .50-.77 Ohms, 0.5A Hold
RT16
RXE050
06090
RV01
Varistor, 300VAC, 173J, Clamp775V
QI46
SIOV-S14K300
EPCOS
RV02
Varistor, 300VAC, 173J, Clamp775V
QI46
SIOV-S14K300
EPCOS
RV03
Varistor, 300VAC, 173J, Clamp775V
QI46
SIOV-S14K300
EPCOS
T01
Transformer, Double Ended,Forward Converter
TA44D
16704
T02
Transformer, Gate Drive, HighFreq
TZ74
CSM 5521-074
CRAMER
P0584
T03
Transformer, Current Sense, High Freq
TZ51
CST306-3A
MAGNE
U01
Diode, Power Rectifier, 1600VDual 2x28A
UR68
DSP25-16A(STATIC)
0A5K5
U02
Diode, Power Rectifier, 1600VDual 2x28A
UR68
DSP25-16A(STATIC)
0A5K5
U03
IC, FET Driver, High Current,8-Pin
UT45
UC3710N(STATIC)
12969
U04
Optocoupler/Optoisolator, 6-Pin DIP
UM53
MOC8104(STATIC)
QT
U05
IC, Op Amp, Quad, Single Supply
UR42
MC34074AP(STATIC)
04713
U06
Optocoupler/Optoisolator, 6-Pin DIP
UM53
MOC8104(STATIC)
QT
U07
Optocoupler/Optoisolator, 6-Pin DIP
UM53
MOC8104(STATIC)
QT
U08
IC, Current Mode PWMController
UR72
UC1844AJ (STATIC)
ER737
U09
Optocoupler/Optoisolator, 6-Pin DIP
UM53
MOC8104(STATIC)
QT
U10
Voltage Regulator, Adj Voltage, 3A
UT36
LM350T
27014
Page 106 of 114
NAPS31B/00
01961
Continued from previous page
NAPS31B/00
REFDES
U11
DESCRIPTION
NAUTEL #
IC,Low Voltage Temp Sensor,+/-3 Deg,TO-92
NAPS31B/02
REFDES
SPS, Fwd Converter PWBAssy
UC58
VENDOR #
TMP36GT9(STATIC)
OEM CODE
45496
SPS, Forward Converter PWBAssy
DESCRIPTION
NAUTEL #
VENDOR #
OEM CODE
E01
Connector, Quick-Dis, M,1/4 Tab, PWB
HR26
1287
91833
E02
Connector, Quick-Dis, M,1/4 Tab, PWB
HR26
1287
91833
J01
Conn, Header, Ribbon Cbl, 20 pin
JP46
499910-4
00779
J03
Conn, Pin Header,3-Pin,Mate-N-Lok, Vert
JT65
641966-1
09482
R10
Resistor, MF, 68.1K Ohms, 1PC1/4W
RAB47
MF1/4DL6812F
59124
R11
Resistor, MF, 39.2K Ohms, 1PC1/4W
RAB44
MF1/4DL3922F
59124
R24
Resistor, MF, 39.2K Ohms, 1PC1/4W
RAB44
MF1/4DL3922F
59124
R25
Resistor, MF, 4.75K Ohms, 1PC1/4W
RAB33
MF1/4DL4751F
59124
R26
Resistor, MF, 15.0K Ohms, 1PC1/4W
RAB39
MF1/4DL1502F
59124
R27
Resistor, MF, 18.2K Ohms, 1PC1/4W
RAB40
MF1/4DL1822F
59124
NAPS31B/03
REFDES
SPS, Fwd Conv PWB Assy
DESCRIPTION
NAUTEL #
VENDOR #
OEM CODE
E01
Connector, Quick-Dis, M,1/4 Tab, PWB
HR26
1287
91833
E02
Connector, Quick-Dis, M,1/4 Tab, PWB
HR26
1287
91833
J01
Conn, Header, Ribbon Cbl, 20 pin
JP46
499910-4
00779
J03
Conn, Pin Header,3-Pin,Mate-N-Lok, Vert
JT65
641966-1
09482
R10
Resistor, MF, 392K Ohms, 1%1/4W
RAC08
MF1/4DL3923F
59124
R11
Resistor, MF, 39.2K Ohms, 1PC1/4W
RAB44
MF1/4DL3922F
59124
R24
Resistor, MF, 56.2K Ohms, 1PC1/4W
RAB46
MF1/4DL5622F
59124
R25
Resistor, MF, 4.75K Ohms, 1PC1/4W
RAB33
MF1/4DL4751F
59124
R26
Resistor, MF, 6.81K Ohms, 1PC1/4W
RAB35
MF1/4DL6811F
59124
R27
Resistor, MF, 39.2K Ohms, 1PC1/4W
RAB44
MF1/4DL3922F
59124
Page 107 of 114
NAPS31B/03
NAPS35
REFDES
SMPS, 24/48V Battery Boost PWB Assy
DESCRIPTION
NAUTEL #
VENDOR #
OEM CODE
C01
Capacitor, Ceramic, 0.01uF 10% 100V
CCG04
CKR05BX103KRV
56289
C02
Capacitor, Ceramic, 0.1uF 10%100V
CCG07
CKR06BX104KRV
56289
C03
Capacitor, Tantalum, Dipped, 10uF, 35V
CCP36
96095
C04
Capacitor, Ceramic, 0.1uF 10%100V
CCG07
T351G106K035AT(Ro
HS) KEMET
CKR06BX104KRV
C05
Capacitor, Tantalum, Dipped, 10uF, 35V
CCP36
C06
Capacitor, Ceramic, 0.1uF 10%100V
C07
Capacitor, Ceramic, 0.01uF 10% 100V
C08
56289
CCG07
T351G106K035AT(Ro
HS) KEMET
CKR06BX104KRV
96095
56289
CCG04
CKR05BX103KRV
56289
Capacitor, Metal,Polyprop, 3.3uF, 10%, 250V
CD47
725M33592LA3
SBE
C09
Capacitor, Tantalum, 22uF 10%35V
CCF05
56289
C10
Capacitor, Ceramic, 0.0047uF10% 100V
CCG03
T356K226K035AT(Ro
HS) KEMET
CKR05BX472KRV
C11
Capacitor, Ceramic, 0.1uF 10%100V
CCG07
CKR06BX104KRV
56289
C12
Capacitor, Ceramic, 0.1uF 10%100V
CCG07
CKR06BX104KRV
56289
C13
Capacitor, Tantalum, Dipped, 10uF, 35V
CCP36
96095
C14
Capacitor, Ceramic, 0.001uF 10% 200V
CCG01
C15
Capacitor, Mica, Dipped, 560pF 2% 500V
CB34
T351G106K035AT(Ro
HS) KEMET
CKR05BX102KRV
SPRAGUE
CM06FD561G03
C16
Capacitor, Electrolytic, 470uF450V
CBP15
14655
C17
Capacitor, Ceramic, 0.1uF 10%100V
CCG07
381LR471M450A052
CORNELL
CKR06BX104KRV
56289
C19
Capacitor, Elect, 47uF 100V
CD13
TVX2A47OMAA
55680
C20
Capacitor, Ceramic, Y, 0.01uF250VAC
CCG44
DE1607F103M-KH
MURATA
56289
91929
14655
CR01
Diode, Zener, 16V, 1W, 5%
QE32
1N4745A
04713
CR02
Diode, Zener, 18V, 1.5W, 10%
QK37
1N5931A
04713
CR03
Diode, Zener, 20V, 1W, 5%
QK46
1N4747A(STATIC)
04713
CR04
Diode, Schottky, 1A 40V
QS13
04713
CR05
Diode, Schottky, 1A 40V
QS13
CR06
Installed at Next Higher Assy
DS01
Diode, LED, Green
QK12
1N5819(STATIC)
MOTO
1N5819(STATIC)
MOTO
INSTALLED AT NEXT
HIGHER ASSY
HLMP-3554
E01
Connector, Quick-Dis, M,1/4 Tab, PWB
HR26
1287
91833
E02
Connector, Quick-Dis, M,1/4 Tab, PWB
HR26
1287
91833
E03
Connector, Quick-Dis, M,1/4 Tab, PWB
HR26
1287
91833
E04
Connector, Quick-Dis, M,1/4 Tab, PWB
HR26
1287
91833
E05
Conn, Post Shunt, 2 Pos, .10 Centreline
JQ15
390088-2
09482
E06
Connector, Quick-Dis, M,1/4 Tab, PWB
HR26
1287
91833
E07
Conn, Post Shunt, 2 Pos, .10 Centreline
JQ15
390088-2
09482
E08
Connector, Quick-Dis, M,1/4 Tab, PWB
HR26
1287
91833
E09
Conn, Post Shunt, 2 Pos, .10 Centreline
JQ15
390088-2
09482
Page 108 of 114
NAPS35
04713
37338
50434
Continued from previous page
NAPS35
REFDES
SMPS, 24/48V Battery Boost PWB Assy
DESCRIPTION
NAUTEL #
VENDOR #
OEM CODE
E10
Conn, Post Shunt, 2 Pos, .10 Centreline
JQ15
390088-2
09482
J01
Conn,Socket,D-Sub,25 pin,VertPWB
JS53
628-025-220-017
31781
L01
LVPS Distribution Board ChokeAssy
205-8037
205-8037
37338
L02
Inductor, Choke, 2.5 Turns, JMtl
LA16
82-152-J
33062
L03
Inductor, Choke, 2.5 Turns, JMtl
LA16
82-152-J
33062
L04
Inductor Assy
205-7026
205-7026
37338
Q01
Transistor, FET, N Channel
QN54
2N7000(STATIC)
04713
Q02
Transistor, NPN, Switch/Amplifier
QA45
2N4401
04713
Q03
Transistor, FET, N Channel
QN54
2N7000(STATIC)
04713
Q04
Installed at Next Higher Assy
37338
Q05
Installed at Next Higher Assy
Q06
Transistor, NPN, General Purpose
QAP04
INSTALLED AT NEXT
HIGHER ASSY
INSTALLED AT NEXT
HIGHER ASSY
2N2219A
Q07
Transistor, PNP, Switch/Amplifier
QA23
2N2905A
04713
R01
Resistor, MF, 4.75K Ohms, 1PC1/4W
RAB33
MF1/4DL4751F
59124
R02
Resistor, Film, 68K Ohms, 5%,2W
RBP24
GS-3, 68K OHMS
75042
R03
Resistor, MF, 5.62K Ohms, 1PC1/4W
RAB34
MF1/4DL5621F
59124
R04
Resistor, MF, 182 Ohms, 1PC 1/4W
RAB16
MF1/4DL1820F
59124
R05
Resistor, MF, 475K Ohms, 1%1/4W
RAC09
MF1/4DL4753F
59124
R06
Resistor, MF, 475K Ohms, 1%1/4W
RAC09
MF1/4DL4753F
59124
R07
Resistor, MF, 10.0 Ohms, 1PC 1/4W
RAB01
MF1/4DL10R0F
59124
R08
Resistor, MF, 1.00M Ohms, 1%1/4W
RAC13
MF1/4DL1004F
59124
R09
Resistor, MF, 15.0K Ohms, 1PC1/4W
RAB39
MF1/4DL1502F
59124
R10
Resistor, MF, 1.21K Ohms, 1PC1/4W
RAB26
MF1/4DL1211F
59124
R11
Resistor, MF, 4.75K Ohms, 1PC1/4W
RAB33
MF1/4DL4751F
59124
R12
Resistor, MF, 10.0K Ohms, 1PC1/4W
RAB37
MF1/4DL1002F
59124
R13
Resistor, MF, 10.0K Ohms, 1PC1/4W
RAB37
MF1/4DL1002F
59124
R14
Resistor, MF, 10.0K Ohms, 1PC1/4W
RAB37
MF1/4DL1002F
59124
R15
Resistor, MF, 10.0K Ohms, 1PC1/4W
RAB37
MF1/4DL1002F
59124
R16
Resistor, MF, 3.92K Ohms, 1PC1/4W
RAB32
MF1/4DL3921F
59124
R17
Resistor, MF, 182 Ohms, 1PC 1/4W
RAB16
MF1/4DL1820F
59124
R18
Resistor, MF, 3.32K Ohms, 1PC1/4W
RAB31
MF1/4DL3321F
59124
R19
Resistor, MF, 3.32K Ohms, 1PC1/4W
RAB31
MF1/4DL3321F
59124
R20
Resistor, MF, 39.2K Ohms, 1PC1/4W
RAB44
MF1/4DL3922F
59124
R21
Resistor, MF, 10.0K Ohms, 1PC1/4W
RAB37
MF1/4DL1002F
59124
R22
Resistor, MF, 12.1K Ohms, 1PC1/4W
RAB38
MF1/4DL1212F
59124
R23
Resistor, Film, 10 Ohms, 5%, 2W
RBP01
GS-3, 10 OHMS
75042
R24
Resistor, MF, 10.0K Ohms, 1PC1/4W
RAB37
MF1/4DL1002F
59124
R25
Resistor, MF, 10.0K Ohms, 1PC1/4W
RAB37
MF1/4DL1002F
59124
Page 109 of 114
NAPS35
37338
04713
Continued from previous page
NAPS35
REFDES
SMPS, 24/48V Battery Boost PWB Assy
DESCRIPTION
NAUTEL #
VENDOR #
OEM CODE
R26
Resistor, MF, 10.0K Ohms, 1PC1/4W
RAB37
MF1/4DL1002F
59124
R27
Resistor, MF, 56.2 Ohms, 1PC 1/4W
RAB10
MF1/4DL56R2F
59124
R28
Resistor, MF, 332 Ohms, 1PC 1/4W
RAB19
MF1/4DL3320F
59124
R29
Resistor, MF, 27.4K Ohms, 1PC1/4W
RAB42
MF1/4DL2742F
59124
R30
Resistor, MF, 10.0 Ohms, 1PC 1/4W
RAB01
MF1/4DL10R0F
59124
R31
Resistor, MF, 10.0 Ohms, 1PC 1/4W
RAB01
MF1/4DL10R0F
59124
R32
Resistor, MF, 10.0 Ohms, 1PC 1/4W
RAB01
MF1/4DL10R0F
59124
R33
Resistor, MF, 10.0 Ohms, 1PC 1/4W
RAB01
MF1/4DL10R0F
59124
R34
Resistor, MF, 6.81K Ohms, 1PC1/4W
RAB35
MF1/4DL6811F
59124
R35
Resistor, MF, 274 Ohms, 1PC 1/4W
RAB18
MF1/4DL2740F
59124
R36
Resistor, MF, 10.0K Ohms, 1PC1/4W
RAB37
MF1/4DL1002F
59124
R37
Resistor, MF, 825 Ohms, 1PC 1/4W
RAB24
MF1/4DL8250F
59124
R38
Resistor, MF, 4.75K Ohms, 1PC1/4W
RAB33
MF1/4DL4751F
59124
R39
Resistor, MF, 2.74K Ohms, 1PC1/4W
RAB30
MF1/4DL2741F
59124
R40
Resistor, MF, 10.0K Ohms, 1PC1/4W
RAB37
MF1/4DL1002F
59124
R41
Resistor, Film, 100 Ohms, 5%2W
RBP07
GS-3, 100 OHMS
75042
U01
Current sensor,Hall,50A,5VDCUniDirect
UP102
OCVK3
U02
Current sensor,Hall,50A,5VDCUniDirect
UP102
U03
Optocoupler/Optoisolator, 6-Pin DIP
UM53
ACS755LCB-050PFF(STATIC)(ROHS)
AMI
ACS755LCB-050PFF(STATIC)(ROHS)
AMI
MOC8104(STATIC)
U04
IC, Switchmode PWM Control Circuits
UM39
XE05
Conn, Header, SIP,12 Pin Breakaway,.10 Ctr
XE07
XE09
XE10
OCVK3
QT
04713
JQ16
MC33060AP(STATIC)
MOTO
1-103185-2
Conn, Header, SIP,12 Pin Breakaway,.10 Ctr
JQ16
1-103185-2
09482
Conn, Header, SIP,12 Pin Breakaway,.10 Ctr
JQ16
1-103185-2
09482
Conn, Header, SIP,12 Pin Breakaway,.10 Ctr
JQ16
1-103185-2
09482
Page 110 of 114
NAPS35
09482
NARB18
REFDES
Final Assy, Vector-LP
DESCRIPTION
NAUTEL #
A01
Control Display PWB Assy
NAPC147D
A02
Exciter Interface PWB AssyVector-LP
NAPI76A/02
A03
Remote Interface PWB
NAPI78D/02
A04
See Sales Order
A05
See Master Work Order
A06
Interphase PDM Driver PWB Assy
A07
Exciter Monitor/GeneratorPWB Assy
A08
VENDOR #
OEM CODE
195-2050-04
195-3020-03
37338
37338
195-2060-10
37338
37338
NAPM11
% SEE SALES
ORDER
* SEE MASTER
WORK ORDER
197-3060
NAPE76A/03
195-3030-06
37338
See Master Work Order
37338
A09
See Master Work Order
A10
See Master Work Order
A11
Interface PWB Assy
* SEE MASTER
WORK ORDER
* SEE MASTER
WORK ORDER
* SEE MASTER
WORK ORDER
205-4044-01
A12
See Master Work Order
37338
A13
See Master Work Order
A14
See Master Work Order
A15
RF Power Probe (VECTOR) PWBAssy
NAPF07C/01
* SEE MASTER
WORK ORDER
* SEE MASTER
WORK ORDER
* SEE MASTER
WORK ORDER
195-6020-08
A16
See Sales Order
37338
B01
See Master Work Order
B02
See Master Work Order
B03
See Master Work Order
B04
See Master Work Order
F01
See Sales Order
J01
Conn, Coax, N, Recept, Panel,50ohm
JDP21
% SEE SALES
ORDER
* SEE MASTER
WORK ORDER
* SEE MASTER
WORK ORDER
* SEE MASTER
WORK ORDER
* SEE MASTER
WORK ORDER
% SEE SALES
ORDER
UG58A/U
K01
Relay,24Vdc,DPDT,25A
KA55
W389CX-8(RoHS) MAGN
L01
Choke, 2.5mH, 10A
TC46
CHC159ZL-N
ATC-FROS
LS01
Speaker, 45 Ohm, 2W
LP07
30A05Z45
74199
M01
Meter,0-400W/100W,0-12/4A,mod%,142ohm,1mA FSD
MD53
195-9020-01
37338
NAPI94A
37338
37338
37338
37338
37338
37338
37338
37338
37338
37338
37338
37338
37338
02660
RT01
Thermistor, Mega Surge, 10 Ohm, 15 A
RX54
MS32 10015
021P3
S01
Switch, Miniature, SPDT, Actuated
SD47
V-15G4-1C25-K
34361
S02
Switch, Miniature, SPDT, Actuated
SD47
V-15G4-1C25-K
34361
TB01
Terminal Block, 4-pos, Double, 30A
JB33
382100104
13150
TB02
Terminal Block, 4-pos, Double, 30A
JB33
382100104
13150
U01
Display Mod
195-3019
195-3019
37338
Page 111 of 114
NARB18
ECR
Continued from previous page
NARB18
REFDES
Final Assy, Vector-LP
DESCRIPTION
NAUTEL #
U02
Pwr Sply,85-264Vac,80W,5.6,15.6,24.5,-15.5V
UG50
U03
See Master Work Order
U05
AC Power Entrance,c/w 5A Circuit Brkr
U06
VENDOR #
OEM CODE
IPD
UC56
REL-110-4007-5.6WT(STATIC)(ROHS)
INTEGRATED
* SEE MASTER
WORK ORDER
6145.3431.001
Filter, AC Line, 20A, 250Vac,50/60Hz
UC54
20VP6
05245
U07
See Sales Order
37338
U08
See Sales Order
U09
Rect/Assy, Bridge, 800V, 35A
UF28
% SEE SALES
ORDER
% SEE SALES
ORDER
GBPC3508
U10
See Sales Order
37338
U11
See Sales Order
U12
See Sales Order
U13
See Sales Order
U14
See Sales Order
XF01
See Sales Order
% SEE SALES
ORDER
% SEE SALES
ORDER
% SEE SALES
ORDER
% SEE SALES
ORDER
% SEE SALES
ORDER
% SEE SALES
ORDER
Page 112 of 114
NARB18
37338
61935
37338
LITEON
37338
37338
37338
37338
37338
NASM11A/00
REFDES
Modulator Assy
DESCRIPTION
NAUTEL #
VENDOR #
OEM CODE
C01
Capacitor, Ceramic, 0.1uF 10%100V
CCG07
CKR06BX104KRV
56289
C02
Capacitor, Tantalum, 6.8uF 10PC 35V
CCP19
CSR13F685KM
56289
C03
Capacitor, Ceramic, 0.1uF 10%100V
CCG07
CKR06BX104KRV
56289
C04
Capacitor, Electrolytic, 470uF450V
CBP15
14655
C05
Capacitor, Electrolytic, 470uF450V
CBP15
C06
Capacitor, Electrolytic, 470uF450V
CBP15
C07
Capacitor, Tantalum, 6.8uF 10PC 35V
CCP19
381LR471M450A052
CORNELL
381LR471M450A052
CORNELL
381LR471M450A052
CORNELL
CSR13F685KM
56289
C08
Capacitor, Polyprop, 0.12uF,5%, 600V
CT44
715P12456MA3
SBE
C09
Capacitor, Ceramic, 0.1uF 10%100V
CCG07
CKR06BX104KRV
56289
C10
Installed at Next Higher Assy
37338
CR01
Diode, General Purpose, 200V,0.1A
QAP29
INSTALLED AT NEXT
HIGHER ASSY
1N4938
CR02
Diode, General Purpose, 200V,0.1A
QAP29
1N4938
07263
CR03
Diode, General Purpose, 200V,0.1A
QAP29
1N4938
07263
CR04
Diode, General Purpose, 200V,0.1A
QAP29
1N4938
07263
CR05
Diode, Zener, 13V, 1W, 10%
QK19
1N4743
04713
CR06
Diode, Power Rectifier, 4A, Ultra Fast
QM22
MUR460
04713
CR07
Installed at Next Higher Assy
37338
CR08
Installed at Next Higher Assy
CR09
Diode, Zener Transient Supressor, 20V
QI29
INSTALLED AT NEXT
HIGHER ASSY
INSTALLED AT NEXT
HIGHER ASSY
P6KE20CA
CR10
Diode, Zener Transient Supressor, 20V
QI29
P6KE20CA
07263
CR11
Installed at Next Higher Assy
37338
CR12
Diode, General Purpose, 400V,1A
QE28
INSTALLED AT NEXT
HIGHER ASSY
1N4004
04713
CR13
Diode, Zener Transient Supressor, 20V
QI29
P6KE20CA
07263
DS01
Diode, LED, Yellow, 8.6mm Lg
QM19
SSL-LX5093YD
1EM90
E01
Connector, Quick-Dis, M,1/4 Tab, PWB
HR26
1287
91833
E02
Connector, Quick-Dis, M,3/16 Tab PWB
HAM52
1212
91833
J01
Installed at Next Higher Assy
37338
J02
Conn, Header, Ribbon Cbl, 10 pin
JA49
INSTALLED AT NEXT
HIGHER ASSY
499910-1
L01
Installed at Next Higher Assy
37338
Q01
Installed at Next Higher Assy
Q02
Installed at Next Higher Assy
R01
Resistor, MF, 33.2 Ohms, 1PC 1/4W
RAB07
INSTALLED AT NEXT
HIGHER ASSY
INSTALLED AT NEXT
HIGHER ASSY
INSTALLED AT NEXT
HIGHER ASSY
MF1/4DL33R2F
R02
Resistor, Film, 68K Ohms, 5%,2W
RBP24
GS-3, 68K OHMS
75042
R03
Resistor, Film, 68K Ohms, 5%,2W
RBP24
GS-3, 68K OHMS
75042
Page 113 of 114
NASM11A/00
14655
14655
07263
37338
07263
00779
37338
37338
59124
Continued from previous page
NASM11A/00
REFDES
Modulator Assy
DESCRIPTION
NAUTEL #
VENDOR #
OEM CODE
R04
Resistor, MF, 10.0 Ohms, 1PC 1/4W
RAB01
MF1/4DL10R0F
59124
R05
Resistor, MF, 1.82K Ohms, 1PC1/4W
RAB28
MF1/4DL1821F
59124
R06
Installed at Next Higher Assy
37338
R07
Resistor, Film, 2.21 Ohms, 1%, 1/2W
RC05
INSTALLED AT NEXT
HIGHER ASSY
MF1/2DL2R21F
R08
Installed at Next Higher Assy
37338
R09
Resistor, Film, 33K Ohms, 5%,2W
RBP22
INSTALLED AT NEXT
HIGHER ASSY
GS-3, 33K OHMS
R10
Resistor, MF, 15.0K Ohms, 1PC1/4W
RAB39
MF1/4DL1502F
59124
R11
Resistor, MF, 15.0K Ohms, 1PC1/4W
RAB39
MF1/4DL1502F
59124
R12
Installed at Next Higher Assy
37338
T01
Transformer Assy
197-1019
INSTALLED AT NEXT
HIGHER ASSY
197-1019
U01
IC, MOS Gate Driver, High Voltage
UN18
IR2110(STATIC)
81483
XU01
Socket, IC, 14-pin
UC02
2-641261-1
00779
NASM11A/01
REFDES
59124
75042
37338
Modulator (Vector) Assy
DESCRIPTION
NAUTEL #
VENDOR #
OEM CODE
C10
Not Used
NOT USED
37338
CR07
Not Used
NOT USED
37338
CR08
Installed at Next Higher Assy
37338
CR11
Not Used
INSTALLED AT NEXT
HIGHER ASSY
NOT USED
37338
J01
Conn, Pin Header,3-Pin,Mate-N-Lok, Vert
JT65
641966-1
09482
L01
Installed at Next Higher Assy
37338
Q01
Installed at Next Higher Assy
Q02
Not Used
INSTALLED AT NEXT
HIGHER ASSY
INSTALLED AT NEXT
HIGHER ASSY
NOT USED
R06
Not Used
NOT USED
37338
R08
Not Used
NOT USED
37338
R12
Not Used
NOT USED
37338
Page 114 of 114
NASM11A/01
37338
37338
Vector-LP Radio Beacon Transmitter
TECHNICAL INSTRUCTION MANUAL
Section 8
WIRING INFORMATION
8.1 INTRODUCTION
This section contains wiring information for
hard-wired assemblies of the subject unit.
Refer to Table 8-1 for an itemized listing of
assemblies that have wiring lists.
8.2 WIRING LISTS NOT PROVIDED
Separate wiring lists are not provided for
some assemblies, including:
 Assemblies that have separate
maintenance manuals. Refer to the
associated maintenance manual for
detailed wiring information of these
assemblies.
 Assemblies that have their wiring
information adequately depicted/
tabulated on their assembly detail
drawings. Refer to the associated
assembly detail drawing for detailed
wiring information of these assemblies.
8.3 PRINTED WIRING PATTERNS
Printed wiring pattern information is beyond
the scope of this manual. Therefore, detailed
printed wiring patterns for printed circuit
boards are not included.
8.4 WIRE COLOURS
Every effort is made to manufacture the
assemblies using wire that is the colour
tabulated in the ‘Code’ column of the wiring
list tables. In some instances, a white wire
will be substituted. In this case identification
must be determined by locating the assigned
identification number.
8.5 WIRING LIST PROVIDED
Wiring lists are provided in table format. A
list of the table numbers and the associated
wiring list are shown in Table 8-1. These
lists provide non-printed wiring pattern,
point-to-point (source/destination) interconnecting information.
8.5.1 Connector Mating Information
Where applicable, connector mating
information is provided at the bottom of an
associated wiring list. These tables identify
the mating connectors for the referenced
assembly.
Table 8-1: Wiring Lists Provided
Table #
Description
8-2
Wiring List – NARB18 Transmitter
8-3
Wiring List – NAP35B/01 RF Power Module
8-4
Wiring List – Optional Battery Boost Assembly (205-8035)
8-5
Wiring List – Optional Modem Kit (195-3032) Interface
8-6
Wiring List – Optional Deluxe Cabinet (205-8075)
8-7a
Wiring List – Optional Short Cabinet, with battery (205-8120)
8-7b
Wiring List – Optional Short Cabinet, without battery (205-8120-01)
8-8
Wiring List – Optional Tall Cabinet (205-8200)
Vector-LP Radio Beacon Transmitter Technical Instruction Manual
Section 8 Wiring Information
Page 8-1
Issue 1.8.1
Table 8-2: Wiring List – NARB18 Transmitter
Source
Destination
TB2-03
TB2-01
U5-04
U5-03
U5-G
TB2-01
TB2-01
TB2-01
TB2-03
TB2-03
TB2-03
TB2-2
TB2-2
TB2-04
TB2-04
XA12P1-12
XA13P1-12
XA12P1-11
XA13P1-11
K1-07
TB2-04
TB2-02
U6-1 (line)
U6-1 (line)
SFTY GND
P5-03
P6-03
A11E2
P5-01
P6-01
A11E1
XA12P1-01
XA13P1-01
XA12P1-02
XA13P1-02
K1-01
K1-04
GND
GND
A14E13
10
11
12
13
14
15
16
Grey
Grey
Grn/Yel
Grey
Grey
Grey
Not Used
Grey
Grey
Grey
Not Used
Grey
Grey
Grey
Grey
Yellow
Yellow
Yellow
Yellow
Yellow
P15
P15
P1-01
P1-02
P1-03
P1-04
P1-05
P1-06
P1-07
P1-08
P2-01
P2-02
P2-03
P2-04
P2-05
P2-06
P2-07
P2-08
P7-02
P7-01
P7-03
P7-04
A15TB1-01
A15TB1-02
P3-06
P3-05
P3-01
P3-02
P3-04
P3-03
P3-10
P3-07
P4-06
P4-05
P4-01
P4-02
P4-04
P4-03
P4-10
P4-07
P8-02
P8-01
P8-03
P8-04
18
19
20
21
22
23
24
25
26
27
28
29
30
31
32
33
34
35
35
36
37
Core
Shield
Not Used
White
Black
White
Black
White
Black
White
Black
White
Black
White
Black
White
Black
White
Black
White
Shield
White
White
Page 8-2
Issue 1.8.1
Wire #
Color
Size
18
18
14
22
22
22
Remarks
RT1
L1
Jumper
Jumper
Jumper
22
22
22
14
14
14
14
14
14
14
14
14
RG58A/U
22
22
22
22
22
22
22
22
22
22
22
22
22
22
22
22
22
Teflon
Teflon
Teflon
Teflon
Teflon
Jumper
1 conductor shielded
22
22
Vector-LP Radio Beacon Transmitter Technical Instruction Manual
Section 8 Wiring Information
Table 8-2: Wiring List – NARB18 Transmitter (Continued)
Source
P7-05
P7-08
P7-07
P7-06
P7-10
P7-09
P7-11
P7-13
P7-12
P7-15
P7-14
P7-18
P7-17
P7-21
P7-20
P7-23
P7-22
P7-24
P7-25
P9-02
P9-01
P9-03
P9-04
P9-05
P9-08
P9-07
P9-06
P9-10
P9-09
P9-11
P9-13
P9-12
P9-15
P9-14
P9-18
P9-17
P9-21
P9-20
P9-23
P9-22
P9-24
P9-25
P11-01
P11-02
P11-10
P11-11
Destination
P8-05
P8-08
P8-07
P8-06
P8-10
P8-09
P8-11
P8-13
P8-12
P8-15
P8-14
P8-18
P8-17
P8-21
P8-20
P8-23
P8-22
P8-24
P8-25
P10-02
P10-01
P10-03
P10-04
P10-05
P10-08
P10-07
P10-06
P10-10
P10-09
P10-11
P10-13
P10-12
P10-15
P10-14
P10-18
P10-17
P10-21
P10-20
P10-23
P10-22
P10-24
P10-25
P12-01
P12-02
P12-10
P12-11
Wire #
Color
Size
38
39
39
39
40
40
41
42
42
43
43
44
44
45
45
46
46
47
48
49
49
50
51
52
53
53
53
54
54
55
56
56
57
57
58
58
59
59
60
60
61
62
63
64
65
65
White
White
Black
Shield
White
Shield
White
White
Shield
White
Shield
White
Shield
White
Shield
White
Shield
White
White
White
Shield
White
White
White
White
Black
Shield
White
Shield
White
White
Shield
White
Shield
White
Shield
White
Shield
White
Shield
White
White
White
Black
White
Shield
22
22
22
2 conductor shielded
22
1 conductor shielded
22
22
1 conductor shielded
22
1 conductor shielded
22
1 conductor shielded
22
1 conductor shielded
22
1 conductor shielded
22
22
22
1 conductor shielded
Vector-LP Radio Beacon Transmitter Technical Instruction Manual
Section 8 Wiring Information
22
22
22
22
22
22
22
Remarks
2 conductor shielded
1 conductor shielded
22
22
1 conductor shielded
22
1 conductor shielded
22
1 conductor shielded
22
1 conductor shielded
22
1 conductor shielded
22
22
22
22
22
1 conductor shielded
Page 8-3
Issue 1.8.1
Table 8-2: Wiring List – NARB18 Transmitter (Continued)
Source
Destination
P11-12
P11-13
P11-14
P11-15
P11-20
P11-21
P11-22
P11-23
P11-24
P11-25
P13-10
P13-11
P13-12
P13-13
P13-14
P13-15
P13-20
P13-21
P13-22
P13-23
P13-24
P13-25
P16-13
P16-12
P16-11
P16-10
P16-09
P16-08
P16-07
P16-06
P16-05
P16-04
P16-03
P16-02
P16-01
P16-24
P16-23
P16-19
P16-18
P16-17
P16-16
P16-15
P17-01
P17-02
P17-03
P17-04
P12-12
P12-13
P12-14
P12-15
P12-20
P12-21
P12-22
P12-23
P12-24
P12-25
P14-04
P14-03
P14-02
P14-01
P14-25
P14-24
P14-19
P14-18
P14-17
P14-16
P14-15
P14-14
P18-01
P18-02
P18-03
P18-04
P18-05
P18-06
P18-20
P18-09
P18-10
P18-11
P18-12
P18-13
P18-14
K1-A
K1-B
P18-15
P18-16
P18-17
P18-18
P18-19
P19-01
P19-02
P19-03
P19-04
Page 8-4
Issue 1.8.1
Wire #
Color
66
66
67
67
68
68
69
69
69
70
71
71
72
72
73
73
74
74
75
76
77
78
79
80
81
82
83
84
85
86
86
87
87
88
88
89
90
91
91
92
92
92
93
94
95
96
White
Shield
White
Shield
White
Shield
White
Black
Shield
Black
White
Shield
White
Shield
White
Shield
White
Shield
White
White
White
Black
White
Black
White
Black
White
Black
White
White
Shield
White
Shield
White
Shield
White
Black
White
Shield
White
Black
Shield
White
Black
White
Black
Size
Remarks
22
1 conductor shielded
22
1 conductor shielded
22
1 conductor shielded
22
22
2 conductor shielded
22
22
1 conductor shielded
22
1 conductor shielded
22
1 conductor shielded
22
1 conductor shielded
22
22
22
22
22
22
22
22
22
22
22
22
1 conductor shielded
22
1 conductor shielded
22
1 conductor shielded
22
22
22
1 conductor shielded
22
22
2 conductor shielded
22
22
22
22
Vector-LP Radio Beacon Transmitter Technical Instruction Manual
Section 8 Wiring Information
Table 8-2: Wiring List – NARB18 Transmitter (Continued)
Source
P17-05
P17-06
P17-07
P17-08
P17-09
P17-10
P17-11
P17-12
P17-13
P17-20
P17-21
P17-22
P17-23
P17-24
P18-21
P19-21
TB1-01
TB1-03
P20-01
P20-02
P20-05
P20-06
P20-09
P20-10
P20-13
P20-14
P20-17
P20-18
P18-07
P18-08
P18-22
P18-23
P18-24
P18-25
P19-07
P19-08
P19-22
P19-23
P19-24
P19-25
P22-01
P22-02
P22-03
P22-04
Destination
P19-05
P19-06
P19-20
P19-09
P19-10
P19-11
P19-12
P19-13
P19-14
P19-15
P19-16
P19-17
P19-18
P19-19
S1-02
S2-02
A11E3
A11E4
P21-01
P21-02
P21-05
P21-06
P21-09
P21-10
P21-13
P21-14
P21-17
P21-18
P28-02
P29-02
P28-03
P29-03
P28-01
P29-01
P30-02
P31-02
P30-03
P31-03
P30-01
P31-01
LS1-(+)
LS1-(-)
M1-(+)
M1-(-)
Wire #
97
98
99
100
100
101
101
102
102
103
103
104
104
104
105
106
107
108
109
110
111
111
112
112
113
113
114
114
115
115
116
117
118
119
120
121
122
123
124
125
126
127
128
129
130
131
Vector-LP Radio Beacon Transmitter Technical Instruction Manual
Section 8 Wiring Information
Color
White
Black
White
White
Shield
White
Shield
White
Shield
White
Shield
White
Black
Shield
White
White
Not Used
Not Used
White
Black
White
Shield
White
Shield
White
Shield
White
Shield
White
Shield
White
White
Black
Black
White
White
White
White
Black
Black
White
White
White
Black
White
Black
Size
Remarks
22
22
22
22
1 conductor shielded
22
1 conductor shielded
22
1 conductor shielded
22
1 conductor shielded
22
22
2 conductor shielded
22
22
22
22
22
1 conductor shielded
22
1 conductor shielded
22
1 conductor shielded
22
1 conductor shielded
22
1 conductor shielded
22
22
22
22
22
22
22
22
22
22
22
22
22
22
22
22
Page 8-5
Issue 1.8.1
Table 8-2: Wiring List – NARB18 Transmitter (Continued)
Source
Destination
P23-01
P23-02
P23-03
P23-04
P23-18
P23-19
P25-01
P25-02
P25-03
P25-04
P25-05
P25-06
P25-08
P25-10
P24-07
P24-10
P24-11
P24-21
P24-22
P24-23
P24-24
P24-25
U9-AC1
U9-AC2
XA12P1-06
XA13P1-06
XA12P1-03
XA13P1-03
S1-01
S2-01
A15TB1-04
A15TB1-02
TB1-01
TB1-02
TB1-03
TB1-04
XF1-02
U8-AC1
U8-AC2
U7-L (LOAD)
U7-N (LOAD)
U7-L (LOAD)
U7-N (LOAD)
A16E08
A16E06
P24-01
P24-02
P24-03
P24-04
P24-18
P24-19
P26-03
P26-04
P26-06
P26-05
P26-02
P26-01
P26-08
P26-07
P27-07
P27-10
P27-11
P27-21
P27-22
P27-23
P27-24
P27-25
XA12P1-05
XA13P1-05
GND
GND
SFTY GND
SFTY GND
GND
GND
J1-Centre
J1-GND
XF1-01
U7-N (LINE)
A16E01
A16E02
U8-(-)
U7-L (LINE)
U7-L (LINE)
A16E03
A16E04
P32-04
P32-01
U9-(-)
GND
Page 8-6
Issue 1.8.1
Wire #
Color
132
133
134
135
136
137
138
139
140
141
142
143
144
145
146
147
148
149
150
151
152
153
154
155
156
157
160
161
162
163
164
165
166
167
168
169
170
171
172
173
174
White
Black
White
Black
White
White
White
Black
Black
White
Black
White
Black
White
White
White
Black
White
White
Black
White
Black
White
White
Black
Black
Grn/Yel
Grn/Yel
Black
Black
Yellow
Yellow
Grey
Grey
Grey
Grey
Grey
Grey
Grey
Grey
Grey
White
Black
White
Black
Size
22
22
22
22
22
22
22
22
22
22
22
22
22
22
22
22
22
22
22
22
22
22
14
14
14
14
14
14
22
22
14
14
18
18
18
18
18
18
18
18
18
22
22
14
14
Remarks
Jumper
Jumper
Jumper
Jumper
Jumper
Jumper
Jumper
Jumper
Jumper
Jumper
Jumper
Jumper
Jumper
Jumper
Jumper
Jumper
Jumper
Vector-LP Radio Beacon Transmitter Technical Instruction Manual
Section 8 Wiring Information
Table 8-2: Wiring List – NARB18 Transmitter (Continued)
Source
Destination
U6-3
U6-4
U6-GND
TB2-01
TB2-03
SFTY GND
Connector Mating Information
Connector
Mate
P1
P2
P3
P4
P5
P6
P7
P8
P9
P10
P11
P12
P13
P14
P15
P16
P17
P18
P19
P20
P21
P22
P23
P24
P25
P26
P27
P28
P29
P30
P31
P32
A11J4
A11J5
U2-OUTPUT
U3-OUTPUT
U2-INPUT
U3-INPUT
A3J17
A7J1
A3J16
A10J1
A2J8
A11J7
A2J9
A11J8
A14J1
A11J9
A11J10
A12A1J7
A13A1J7
A15J1
A3J11
A1J11
A11J3
A16J1
U10P2
A11J6
A3J12
B1P1
B2P1
B3P1
B4P1
U10P1
Wire #
Color
Grey
Grey
Grn/Yel
Size
Connector
Mate
W1P1
W1P2
W2P1
W2P2
W3P1
W3P2
W4P1
W4P2
W5P1
W5P2
W6P1
W6P2
W6P3
W7P1
W7P2
W8P1
W9P1
W10P1
W10P2
A2J7
A1J7
A2J3
A1J4
A3J18
A1J1
A11J1
A2J1
A3J13
A2J15
A7J4
A10J4
A2J13
A1J9
U1J1
A1J5
A1J6
A11J2
A2J2
Vector-LP Radio Beacon Transmitter Technical Instruction Manual
Section 8 Wiring Information
Remarks
14
14
14
Page 8-7
Issue 1.8.1
Table 8-3: Wiring List – NAP35B/01 RF Power Module
Source
Destination
Wire #
P1-01
P1-02
P1-03
P1-05
P1-06
P3-01
P3-03
P1-11
P1-12
A4-(A)
A4-(B)
A4-(C)
A3T1
A3T1
A3T1
A3T1
A3T1
A3T1
A3T1
A3T1
A3T1
A3T1
A3T1
A3T1
A3E2
A3E3
P2-01
P2-02
P2-03
P3-01
P3-03
P4-01
P4-03
T1E3
T1E4
A5E2
A5E1
A3E1
A3(+)
A3(+)
A3(-)
A3(-)
A3Q1-Gate
A3Q1-Source
A3Q2-Source
A3Q2-Gate
A3Q3-Source
A3Q3-Gate
A3Q4-Gate
A3Q4-Source
T1E2
T1E1
Color
White
White
Grn/Yel
White
Black
White
Black
Yellow
Yellow
Yellow
Yellow
Yellow
Orange
Yellow
Org/Blk
Yel/Blk
Brown
Brn/Blk
Red
Red/Blk
Green
Grn/Blk
Blue
Blue/Blk
Yellow
Yellow
Size
14
14
14
18
18
18
18
14
14
18
14
14
14
14
Remarks
Teflon Twisted
Teflon Twisted
Teflon/Jumper
Teflon/Jumper
Teflon/Jumper
A3T1 Lead
A3T1 Lead
A3T1 Lead
A3T1 Lead
A3T1 Lead
A3T1 Lead
A3T1 Lead
A3T1 Lead
A3T1 Lead
A3T1 Lead
A3T1 Lead
A3T1 Lead
Teflon/Jumper
Teflon/Jumper
Connector Mating Information
Connector
P2
P3
P4
W1P1
W1P2
W2P1
W2P2
W3P1
W3P2
Page 8-8
Issue 1.8.1
Mate
A2J3
A2J2
A5J1
A1J2
A5J2
A1J4
A3J1
A1J6
A2J1
Vector-LP Radio Beacon Transmitter Technical Instruction Manual
Section 8 Wiring Information
Table 8-4: Wiring List – Optional Battery Boost Assembly (205-8035)
Source
A16TB1-01
A16TB1-02
A16TB1-03
A16TB1-04
XF1-02
U8-AC1
U8-AC2
U7-L (LOAD)
U7-N (LOAD)
U7-L (LOAD)
U7-N (LOAD)
A16E08
A16E06
Destination
XF1-01
U7-N (LINE)
A16E01
A16E02
U8-(-)
U7-L (LINE)
U7-L (LINE)
A16E03
A16E04
P32-04
P32-01
U9-(-)
GND
Wire #
Color
Size
162
163
164
165
166
167
168
169
170
171
172
173
174
White
Black
White
Black
White
White
White
White
Black
White
Black
White
Black
14
14
14
14
14
14
14
14
14
22
22
14
14
Remarks
Connector Mating Information
Connector
P32
Mate
U10P1
Vector-LP Radio Beacon Transmitter Technical Instruction Manual
Section 8 Wiring Information
Page 8-9
Issue 1.8.1
Table 8-5: Wiring List – Optional Modem Kit (195-3032) Interface
Source
Destination Wire #
Color
Size Remarks
P7
A13-A
Black
Modem DC cable,
Without ribbing
P7
A13-B
Black
Modem DC cable,
With ribbing
P8 (male)
P9 (female)
Modem 9-pin D-sub
Connector Mating
Connector
P7
P8
P9
Information
Mate
Modem-DC
Modem-DB9
Remote Interface PWB - EXTERNAL RS-232
Table 8-6: Wiring List – Optional Deluxe Cabinet (205-8075)
Source
Destination
Wire #
Color
Size
W1J1-Center
W1P2-Center
Core
RG58A/U
W1J1-Bodt
W1P2-Body
Shield
Ground Bolt
Grn/Yel
14
Station Ref Gnd
Ground Bolt
Grn/Yel
14
Station Ref Gnd
Ground Bolt
TB1-1
Grn/Yel
14
Ground Bolt
TB1-1
Grn/Yel
14
TB1-1
P3-Ground
Grn/Yel
18
TB1-2
P3-Neutral
Blue
18
TB1-3
P3-Line
Brown
18
Ground Bolt
1-Ref Gnd
Grn/Yel
14
Ground Bolt
1-Ref Gnd
Grn/Yel
14
*TB1-1
U1-G (Input)
Grn/Yel
*TB1-2
U1-N (Input)
Blue
*TB1-3
U1-PH (Input)
Brown
*U1- B+
1A16TB1-3
White
14
*U1- B1A16TB1-2
Black
14
*1A16TB1-4
1A16TB1-1
White
14
*U1-RFA (NC)
1A3TB1-3
White
22
1A3TB1-4
Black
22
*U1-RFA (COM)
*U1-BTC
U1-Battery Sensor
White
22
U1-Battery Sensor
White
22
*U1-BTC
Remarks
Coaxial Cable W1
Ac line cord
Ac line cord
Ac line cord
Battery Sensor Assy
Battery Sensor Assy
Items prefixed with 1 are part of Vector-LP transmitter
* - Denotes used only if optional battery charger kit is installed
Connector Mating
Connector
W1P2
P3
Page 8-10
Issue 1.8.1
Information
Mate
1J1 (RF Output)
1U5
Vector-LP Radio Beacon Transmitter Technical Instruction Manual
Section 8 Wiring Information
Table 8-7a: Wiring List – Optional Short Cabinet, with battery (205-8120)
Source
Destination
Wire # Color
Size
*U1-B+
1A16TB1-3
White
14
*U1-B1A16TB1-2
Black
14
*U1-RFA (NC)
1A3TB1-4
White
22
*U1-RFA (COM) 1A3TB1-11
Black
22
*U1-BTC
Temp Sensor
*U1-BTC
Temp Sensor
*1A16TB1-2
TB2-2
Black
14
*CB1-Load
1A16TB1-1
Black
*CB1-Line
TB2-1
10
Black
W1J1-Center
W1P2-Center
Core
RG58A/U
W1J1-Body
W1P2-Body
Shield
TB1-1
Gnd Bolt
Grn/Yel
14
TB1-1
Gnd Bolt
Grn/Yel
14
TB1-1
P1-Ground
Grn/Yel
18
TB1-2
P1-Neutral
Blue
18
TB1-3
P1-Line
Brown
18
1-Ref Gnd
Gnd Bolt
Grn/Yel
14
1-Ref Gnd
Gnd Bolt
Grn/Yel
14
TB1-1
*U1-G (Input)
Grn/Yel
14
TB1-2
*U1-N (Input)
Blue
14
TB1-3
*U1-PH (Input)
Brown
14
1A16TB1-4
*1A16TB1-1
White
14
GND
GND
Grn/Yel
14
GND bolt
Station Ref GND
Grn/Yel
14
GND bolt
Station Ref GND
Grn/Yel
14
Battery (-)
TB2-2
Black
Battery (+)
TB2-1
Black
Remarks
W1
Line Cord
Line Cord
Line Cord
Jumper
Jumper
Items prefixed with 1 are part of Vector-LP transmitter
* - Denotes used only if optional battery charger kit is installed
Connector Mating
Connector
W1P2
P3
Information
Mate
1J1 (RF Output)
1U5
Vector-LP Radio Beacon Transmitter Technical Instruction Manual
Section 8 Wiring Information
Page 8-11
Issue 1.8.1
Table 8-7b: Wiring List – Optional Short Cabinet, without battery (205-8120-01)
Source
Destination
Wire # Color
Size
Remarks
*U1-B+
1A16TB1-3
White
14
*U1-B1A16TB1-2
Black
14
*U1-RFA (NC)
1A3TB1-4
White
22
*U1-RFA (COM) 1A3TB1-11
Black
22
*U1-BTC
Temp Sensor
*U1-BTC
Temp Sensor
1A16TB1-2
TB2-2
Black
14
TB2-1
1A16TB1-1
White
14
W1J1-Center
W1P2-Center
Core
RG58A/U W1
W1J1 - Body
W1P2-Body
Shield
TB1-1
Gnd Bolt
Grn/Yel
14
TB1-1
Gnd Bolt
Grn/Yel
14
TB1-1
P1-Ground
Grn/Yel
18
Line Cord
TB1-2
P1-Neutral
Blue
18
Line Cord
TB1-3
P1-line
Brown
18
Line Cord
1 Ref Gnd
Gnd Bolt
Grn/Yel
14
1 Ref Gnd
Gnd Bolt
Grn/Yel
14
TB1-1
*U1-G (Input)
Grn/Yel
14
TB1-2
*U1-N (Input)
Blue
14
TB1-3
*U1-PH (Input)
Brown
14
1A16TB1-4
*1A16TB1-1
White
14
GND
GND
Grn/Yel
14
GND bolt
Station Ref GND
Grn/Yel
14
GND bolt
Station Ref GND
Grn/Yel
14
Items prefixed with 1 are part of Vector-LP transmitter
* - Denotes used only if optional battery charger kit is installed
Connector Mating
Connector
W1P2
P3
Page 8-12
Issue 1.8.1
Information
Mate
1J1 (RF Output)
1U5
Vector-LP Radio Beacon Transmitter Technical Instruction Manual
Section 8 Wiring Information
Table 8-8: Wiring List – Optional Tall Cabinet (205-8200)
Source
Destination
Wire # Color
*U1-B+
1A16TB1-3
White
*U1-B1A16TB1-2
Black
*U1-RFA (NC)
1A3TB1-4
White
*U1-RFA (COM) 1A3TB1-11
Black
*U1-BTC
Temp Sensor
*U1-BTC
Temp Sensor
*1A16TB1-2
TB2-2
Black
CB1-Load
1A16TB1-1
Black
CB1-Line
TB2-1
10
Black
W1P1-Center
W1P2-Center
Core
W1P1-Body
W1P2-Body
Shield
TB1-1
GND Bolt
Grn/Yel
TB1-1
GND Bolt
Grn/Yel
TB1-1
P1-Ground
Grn/Yel
TB1-2
P1-Neutral
Blue
TB1-3
P1-line
Brown
1 Ref Gnd
GND Bolt
Grn/Yel
1 Ref Gnd
GND Bolt
Grn/Yel
TB1-1
*U1-G (Input)
Grn/Yel
TB1-2
*U1-N (Input)
Blue
TB1-3
*U1-PH (Input)
Brown
1A16TB1-4
*1A16TB1-1
White
GND
GND
Grn/Yel
GND bolt
Station Ref GND
Grn/Yel
GND bolt
Station Ref GND
Grn/Yel
*Battery (-)
TB2-2
Black
*Battery (+)
TB2-1
Black
TB1-1
P3-Ground
Grn/Yel
TB1-2
P3-Neutral
Blue
TB1-3
P3-Line
Brown
W3P1
W3P2
W2P1-1
W2P2
White
W2P1-4
W2P3
Black
Size
14
14
22
22
14
RG58A/U
14
14
18
18
18
14
14
14
14
14
14
14
14
14
18
18
18
Remarks
W01
Line Cord
Line Cord
Line Cord
Jumper
Jumper
Line Cord
Line Cord
Line Cord
Serial Cable
14
14
Items prefixed with 1 are part of Vector-LP transmitter
* - Denotes used only if optional battery charger kit is installed
Connector Mating
Connector
W1P1
W1P2
W2P1*
W2P2*
W2P3*
W3P1*
W3P2*
P1
P3*
Information
Mate
J1{RF OUT}
1J1{RF OUT}
U2J1{DC}
1A16TB1-3
1A16TB1-2
U2A1J1{RS232}
1A3J5{RS232}
1U5{AC}
U2U2{AC}
Vector-LP Radio Beacon Transmitter Technical Instruction Manual
Section 8 Wiring Information
Page 8-13
Issue 1.8.1
Vector-LP Radio Beacon Transmitter
TECHNICAL INSTRUCTION MANUAL
Section 9
ELECTRICAL SCHEMATICS
9.1 INTRODUCTION
This section contains electrical schematics/
logic diagrams for the subject equipment.
Block diagrams, simplified electrical
schematics, and/or logic diagrams may be
included. Refer to Table 9-1 for an itemized
listing.
9.2 COMPONENT VALUES
Unless otherwise specified on the logic/
schematic diagram, the following applies:
 Resistor values are shown in ohms.
(K = 1000 and M = 1 000 000).
 Resistor power ratings are not shown
when less than 0.5 W.
 Capacitor values are shown in
microfarads (F).
 Unidentified diodes are part number
1N4938.
9.3 GRAPHIC SYMBOLS
The graphic symbols used on electrical
schematics are in accordance with American
National Standard ANSI Y32.2-1975 Graphic Symbols for Electrical and Electronic
Diagrams.
9.4 LOGIC SYMBOLS
The logic symbols used on electrical
schematics and logic diagrams are in
accordance with American National Standard
ANSI Y32.14-1975 - Graphic Symbols for
Logic Diagrams.
9.5 REFERENCE DESIGNATIONS
Reference designations were assigned in
accordance with American National Standard
ANSI Y32.16-1975 - Reference Designations
for Electrical and Electronic Parts and
Equipment. Each electrical symbol is
identified with its basic reference designation.
To obtain the full reference designation for a
specific part, this basic identifier must be
Vector-LP Radio Beacon Transmitter Technical Instruction Manual
Section 9 Electrical Schematics
prefixed with the reference designation
assigned to all higher assemblies.
9.6 UNIQUE SYMBOLOGY
Nautel utilizes unique symbology on electrical
schematics to describe two-state (logic)
inputs/outputs that differ from those inputs/
outputs having only one distinct state or
multiple states (analog).
9.6.1 Type of Inputs/Outputs
On electrical schematics, names used to
describe two-state (logic) inputs/outputs are
prefixed by a '#'. Those inputs/outputs
representing a one-state or analog signal will
have no prefix.
9.6.2 Logic Level/Convention
The '#' prefix identifies an input/output that
has two distinct states - 'high' and 'low'. A
suffix, '+' or '-', identifies the active (true)
state of the input/output. The 'high' (+) is the
more positive of the two levels used to
represent the logic states. The 'low' (-) is the
less positive of the two levels used to
represent the logic states. Two types of
logic, positive and negative, may be
represented on a particular schematic. In
positive logic, 'high' represents the active
(true) state and 'low' represents the inactive
(false) state. In negative logic, 'low'
represents the active state and 'high'
represents the inactive state.
9.7 TROUBLESHOOTING AIDS
Waveforms and/or voltage levels are
provided on some electrical schematics to
aid in troubleshooting. Where applicable,
accompanying text is included to establish
conditional operating parameters that apply
to the corresponding waveforms or voltages.
Page 9-1
Issue 1.8.1
9.8 IDENTIFICATION OF SCHEMATIC
DIAGRAMS
A number that is both the figure number and
the page number identifies each illustration
in this section. The numbers are assigned
sequentially and are prefixed by the letters
'SD-'. The electrical schematics/logic
diagrams included in this section are listed in
Table 9-1.
9.9 STRUCTURE OF SCHEMATICS
The electrical schematics are structured in a
hierarchical format that is based on function
and signal flow. Wherever practical, the
signal flow is from left to right. Inputs normally
originate on the left-hand side and outputs will
extend to the right-hand side. Exceptions are
shown by an arrow indicating the direction of
signal flow.
NOTE
The physical location of a part/assembly was
not necessarily a factor when a schematic
was drawn. The full reference designation
assigned to a part/assembly, in conjunction
with the family tree in Figure 7-1 and the
assembly detail drawings in section 10 will
identify its location.
Figure SD-1 identifies each major stage and
its detailed interconnection. Each stage
contains cross-references that identify which
block is the signal source for inputs or the
destination for outputs.
Page 9-2
Issue 1.8.1
When a sub-function is treated as a block in
Figure SD-1, its detailed circuit information is
included in its own schematic drawing(s), also
included in this section.
9.10 LOCATING THE SCHEMATIC
DIAGRAM(S) FOR A FUNCTIONAL
BLOCK
The text inside a functional block provides
the key to locating its schematic diagram(s).
When a functional block is assigned a
reference designation, refer to Table 9-1 with
the Nautel nomenclature number and/or the
description to identify the appropriate figure
number(s), if applicable.
9.11 LOCATING A PART/ ASSEMBLY
IDENTIFIED ON A SCHEMATIC
The full reference designation assigned to a
part/assembly is the key to physically locating
that part/assembly.
NOTE
Full reference designations contain the
assembly hierarchical coding. When the end
item is divided into units (cabinets), the first
coding is a unit number (1, 2, 3, etc). When
the end item is divided into assemblies, the
first coding is an assembly number (A1, A2,
A3, etc). If a unit or an assembly is divided
into sub-assemblies, assembly coding that
identifies assembly relationship (1A1, A2A1,
A2A1A1, etc) is added.
Vector-LP Radio Beacon Transmitter Technical Instruction Manual
Section 9 Electrical Schematics
Table 9-1: Electrical Schematics
Figure #
SD-1
SD-2
SD-3
SD-4
SD-5
SD-6
SD-7
SD-8
SD-9
SD-10
SD-11
SD-12
SD-13
SD-14
SD-15
SD-16
SD-17
SD-18
SD-19
SD-20
SD-21
SD-22
SD-23
SD-24
SD-25
SD-26
SD-27
SD-28
SD-29
Description
Electrical Schematic – Vector-LP Transmitter: Ac/Dc Power Stage
Electrical Schematic – Vector-LP Transmitter: Exciter Stage
Electrical Schematic – Vector-LP Transmitter: Control/Monitor Stage
Electrical Schematic – Vector-LP Transmitter: RF Power Stage
Electrical Schematic – Control/Display PWB (NAPC147D) (Sheet 1 of 4)
Electrical Schematic – Control/Display PWB (NAPC147D) (Sheet 2 of 4)
Electrical Schematic – Control/Display PWB (NAPC147D) (Sheet 3 of 4)
Electrical Schematic – Control/Display PWB (NAPC147D) (Sheet 4 of 4)
Electrical Schematic – Exciter Interface PWB (NAPI76A/02) (Sheet 1 of 2)
Electrical Schematic – Exciter Interface PWB (NAPI76A/02) (Sheet 2 of 2)
Electrical Schematic – Remote Interface PWB (NAPI78D/02) (Sheet 1 of 3)
Electrical Schematic – Remote Interface PWB (NAPI78D/02) (Sheet 2 of 3)
Electrical Schematic – Remote Interface PWB (NAPI78D/02) (Sheet 3 of 3)
Electrical Schematic – Site Interface PWB (NAPI80, Optional) (Sheet 1 of 2)
Electrical Schematic – Site Interface PWB (NAPI80, Optional) (Sheet 1 of 2)
Electrical Schematic – RF Synthesizer PWB (NAPE70C/01) (Sheet 1 of 2)
Electrical Schematic – RF Synthesizer PWB (NAPE70C/01) (Sheet 2 of 2)
Electrical Schematic – Interphase PDM Driver PWB (NAPM11)
Electrical Schematic – Exciter Monitor/Generator PWB (NAPE76A/03) (Sheet 1 of 2)
Electrical Schematic – Exciter Monitor/Generator PWB (NAPE76A/03) (Sheet 2 of 2)
Electrical Schematic – Interface PWB (NAPI94A)
Electrical Schematic – RF Power Module (NAP35B/01)
Electrical Schematic – Power Module Control/Interface PWB (NAPC151A)
Electrical Schematic – Switch Mode Power Supply PWB (NAPS31B/03)
Electrical Schematic – Battery Boost PWB (NAPS35, Optional)
Electrical Schematic – Vector-LP in Deluxe Cabinet (205-8075, Optional)
Electrical Schematic – Vector-LP in IP66 Cabinet (205-8080, Optional)
Electrical Schematic – Vector-LP in Short Cabinet [205-8120 (with battery) &
205-8120-01 (no battery), Optional]
Electrical Schematic – Vector-LP in Tall Cabinet (205-8200, Optional)
Vector-LP Radio Beacon Transmitter Technical Instruction Manual
Section 9 Electrical Schematics
Page 9-3
Issue 1.8.1
TB2
LINE
AC
VOLTS
(B)
L01
2.5mH
10A
t°
LINE
LINE
LINE
RT1
TO RF
POWER
STAGE
AC
VOLTS
(A)
TB1
E3
+24V
1 +
E4
GND
E1
LOAD
E2
U2
U6
U5
LINE
(PART OF)
AC/DC
UNIVERSAL
INPUT
POWER
SUPPLY
CB1
P5
J1
OUTPUT
AC INPUT
E1
A11
10
P3
+5.6V
GND
+15.6V
GND
-15.5V
GND
+24.5V
RETURN
P1
INTERFACE
PWB
J4
E1
P6
U3
AC/DC
UNIVERSAL
INPUT
POWER
SUPPLY
AC INPUT
OUTPUT
J1
10
P4
+5.6V
GND
P2
+15.6V
GND
-15.5V
GND
+24.5V
RETURN
J5
U10
DC/DC
UNIVERSAL
INPUT
POWER SUPPLY
BATTERY
(OPTIONAL)
A16TB1
BATTERY (+)
BATTERY (-)
U7
F1
U8
LINE
FILTER
(OPTIONAL)
LOAD
LINE
P2
OUTPUT
P32
P1
AC INPUT
10
P25
+5.9V
P26
10
11
12
13
14
15
W4P2
N/C
N/C
+5V RETURN
+5V RETURN
+5V RETURN
+5V RETURN
+5V (A)
+5V (A)
+5V (A)
+5V (A)
-15V RETURN
-15V (A)
+15V RETURN
+15V RETURN
+15V RETURN
W4P1
10
11
12
13
14
15
16
17
18
+15V RETURN
+15V (A)
+15V (A)
16
17
18
19
20
21
22
+15V (A)
+15V (A)
N/C
N/C
19
20
21
22
23
24
25
N/C
N/C
N/C
23
24
25
26
27
28
29
N/C
RETURN
RETURN
AC SIGNAL (A)
26
27
28
29
30
31
32
33
AC SIGNAL (A)
AC SIGNAL RETURN
AC SIGNAL RETURN
+24V (A)
30
31
32
33
34
35
36
37
38
39
40
+24V (A)
+24V (A)
+24V (A)
+24V RETURN
+24V RETURN
+24V RETURN
+24V RETURN
34
35
36
37
38
39
40
A2
GND
+15.8V
GND
-15.7V
GND
+24.7V
RETURN
J6
J3
P23
+15V
P24
J1
J2
GND
+5V
GND
18
BATTERY SELECT 1
18
19
BATTERY SELECT 2
19
# DC INHIBIT -
21
E8
(OPTIONAL)
E1
E2
N/C
+5V RETURN
+5V RETURN
+5V RETURN
+5V RETURN
+5V (B)
+5V (B)
10
11
12
+5V (B)
+5V (B)
-15V RETURN
-15V (B)
10
11
12
13
14
15
16
17
18
19
20
21
22
23
24
25
26
27
28
29
30
31
32
33
34
+15V RETURN
+15V RETURN
+15V RETURN
+15V RETURN
+15V (B)
+15V (B)
+15V (B)
+15V (B)
N/C
N/C
N/C
N/C
N/C
N/C
RETURN
RETURN
AC SIGNAL (B)
AC SIGNAL (B)
AC SIGNAL RETURN
AC SIGNAL RETURN
+24V (B)
+24V (B)
13
14
15
16
17
18
19
20
21
22
23
24
25
26
27
28
29
30
31
32
33
34
35
36
37
38
+24V (B)
+24V (B)
+24V RETURN
+24V RETURN
35
36
37
38
39
40
+24V RETURN
+24V RETURN
39
40
+9V MODEM SUPPLY (+)
MODEM SUPPLY (-)
(PART OF)
A2
EXCITER
INTERFACE
PWB
J2
TO CONTROL/
MONITOR STAGE
TO RF
POWER
STAGE
U9
E6
BATTERY BOOST (B)
E4
E3
E6
P24
#DC INSTALLED -
10
W10P1
J1
CHARGER CURRENT SAMPLE
11
GND
22
BATTERY CURRENT SAMPLE
23
GND
24
BATTERY VOLTAGE SAMPLE
25
GND
TO CONTROL/
MONITOR STAGE
# DC INHIBIT S2050010 VD
Dimensions = mm (inches)
Electrical Schematic – Vector-LP Transmitter: Ac/Dc Power Stage
Issue 1.8.1
+24V
(TO ATU)
BATTERY BOOST (A)
BATTERY
BOOST
PWB
J1
N/C
E5
A16A1
BATTERY VOLTS
FROM CONTROL/
MONITOR STAGE
INTERFACE
PWB
RETURN
CHARGER OUT
A11
EXCITER
INTERFACE
PWB
CHARGER IN
(PART OF)
(PART OF)
W10P2
Not to Scale
Figure SD-1
Sheet 1 of 1
J17
13
12
11
10
25
24
23
22
21
20
19
18
17
16
15
14
P7
FWD PWR SAMPLE
GND
# PTT (A) VOICE INPUT (A)
GND
INT BUS (+)
INT BUS (-)
GND
# MISC (A) # KEYING/MISC ALM (A) # MSK ALARM (A) KEYED TONE/AUDIO (A)
GND
KEYING MONITOR (A)
KEYING MONITOR (B)
RF VOLTS MONITOR (A)
GND
RF CURRENT MONITOR (A)
GND
N/C
RF MONITOR (A)
GND
N/C
MSK (A)
GND
P8
***
13
12
11
10
25
24
23
22
21
20
19
18
17
16
15
14
J3
A7
EXCITER
MONITOR/
GENERATOR
J1
J4
19
20
17
18
15
16
13
14
11
12
10
W8P1
***
Fc MONITOR (B)
GND
W8P2
Fc MONITOR (A)
GND
W6P1
# SYNTH INSTALLED (A) # ACTIVE SIDE (A/B) # SHUTBACK (A) GND
# CHANGEOVER (A) # SHUTDOWN (A) # INHIBIT Fc (A) GND
N/C
+5V
GND
+15V
GND
-15V
GND
# KEYED CW (A) GND
CARRIER REF (A)
GND
CARRIER REF (FILTERED) (A)
W6P3
39
40
37
38
35
36
33
34
31
32
29
30
27
28
25
26
23
24
21
22
GND
+15V (A)
# RESET DDS (A) +
J16
N/C
GND
GND
IPM COMPENSATION (A)
EXT Fc (A)
N/C
N/C
# TUNE SELECTED (A) N/C
J13
J5
J10
# RESET PDM (A) CARRIER REF (A)
B+ SAMPLE 1 (A)
B+ SAMPLE 2 (A)
2Fpdm (A)
-15V (A)
AUDIO SHIELD (A)
AUDIO (A)
# INHIBIT PDM (A) N/C
+15V (A)
GND
14
15
16
17
18
19
23
24
12
14
15
16
17
18
19
10
11
12
13
20
21
22
25
A5
RF
SYNTHESIZER
PWB
J1
J1
A6
INTERPHASE
PDM DRIVER
PWB
P1
P1
10
11
13
20
21
22
23
24
25
J5
GND
# SYNTH INSTALLED (A) # DDS INHIBIT (A) +
# HIGH BAND (A) # TUNE RF DRIVE (A) +
N/C
N/C
Fc (A)
N/C
N/C
N/C
N/C
J8
2Fpdm (A)
J10
DUMP (A)
GND
N/C
GND
Fpdm (A)
# PDM LATCH (A) +
# PDM INSTALLED (A) N/C
N/C
PDM 2 (A)
GND
PDM 1 (A)
GND
(PART OF)
(PART OF)
(PART OF)
A3
A2
A2
REMOTE
INTERFACE
PWB
J16
S2050043 V1
13
12
11
10
25
24
23
22
21
20
19
18
17
16
15
14
P9
FWD PWR SAMPLE
GND
# PTT (B) VOICE INPUT (B)
GND
INT BUS (+)
INT BUS (-)
GND
# MISC (B) # KEYING/MISC ALM (B) # MSK ALARM (B) KEYED TONE/AUDIO (B)
GND
KEYING MONITOR (B)
KEYING MONITOR (A)
RF VOLTS MONITOR (B)
GND
RF CURRENT MONITOR (B)
GND
N/C
RF MONITOR (B)
GND
N/C
MSK (B)
GND
P10
**
***
13
12
11
10
25
24
23
22
21
20
19
18
17
16
15
14
J3
A10
EXCITER
MONITOR/
GENERATOR
J1 **
J4
19
20
17
18
15
16
13
14
11
12
10
W9P1
**
***
Fc MONITOR (B)
GND
Fc MONITOR (A)
GND
W6P2
EXCITER
INTERFACE
PWB
# SYNTH INSTALLED (B) # ACTIVE SIDE (A/B) # SHUTBACK (B) GND
# CHANGEOVER (B) # SHUTDOWN (B) # INHIBIT Fc (B) GND
N/C
+5V
GND
+15V
GND
-15V
GND
# KEYED CW (B) GND
CARRIER REF (B)
GND
CARRIER REF (FILTERED) (B)
W9P2
W6P3
19
20
17
18
15
16
13
14
11
12
10
GND
+15V (B)
# RESET DDS (B) +
J4
N/C
GND
GND
IPM COMPENSATION (B)
EXT Fc (B)
N/C
N/C
# TUNE SELECTED (B) N/C
10
11
12
13
14
15
16
17
18
19
20
21
22
23
24
25
P11
# RELAY CONTROL B GND
N/C
N/C
N/C
N/C
N/C
N/C
N/C
Fc (A)
SHIELD
B+ SAMPLE (A)
SHIELD
DUMP (A)
SHIELD
N/C
N/C
N/C
N/C
PDM (A)
SHIELD
INT BUS (+)
INT BUS (-)
GND
GND
P12
10
11
12
13
14
15
16
17
18
19
20
21
22
23
24
25
14
15
16
17
18
19
23
24
10
11
12
13
20
21
22
25
A8
RF
SYNTHESIZER
PWB
J1
J1
**
J6
GND
# SYNTH INSTALLED (B) # DDS INHIBIT (B) +
# HIGH BAND (B) # TUNE RF DRIVE (B) +
N/C
N/C
Fc (B)
N/C
N/C
N/C
N/C
J9
2Fpdm (B)
J13
J11
# RESET PDM (B) CARRIER REF (B)
B+ SAMPLE 1 (B)
B+ SAMPLE 2 (B)
2Fpdm (B)
-15V (B)
AUDIO SHIELD (B)
AUDIO (B)
# INHIBIT PDM (B) N/C
+15V (B)
GND
12
14
15
16
17
18
19
A9
INTERPHASE
PDM DRIVER
PWB
P1 ** P1
10
11
13
20
21
22
23
24
25
J11
DUMP (B)
GND
N/C
GND
Fpdm (B)
# PDM LATCH (B) +
# PDM INSTALLED (B) N/C
N/C
PDM 2 (B)
GND
PDM 1 (B)
GND
J9
P16
+15V A
GND
+5V A
GND
+24V A
GND
SIDE A +
B+ SAMPLE (A)
SHIELD
Fc (A)
SHIELD
DUMP (A)
SHIELD
N/C
N/C
N/C
N/C
PDM (A)
SHIELD
INT BUS (+)
INT BUS (-)
GND
N/C
RELAY CTRL B +24V
A11
INTERFACE
PWB
10
11
12
13
14
15
16
17
18
19
20
21
22
23
24
25
P13
N/C
N/C
N/C
N/C
N/C
N/C
N/C
N/C
N/C
Fc (B)
SHIELD
B+ SAMPLE (B)
SHIELD
DUMP (B)
SHIELD
N/C
N/C
N/C
N/C
PDM (B)
SHIELD
BATTERY B+ SELECT 1
BATTERY B+ SELECT 2
BATTERY B+ SELECT 3
GND
P14
13
10
11
12
25
24
23
22
20
21
19
18
17
16
15
14
J8
J10
10
11
12
13
14
15
16
17
18
19
20
21
22
23
24
25
P17
+15V B
GND
+5V B
GND
+24V B
GND
SIDE B +
B+ SAMPLE (B)
SHIELD
Fc (B)
SHIELD
DUMP (B)
SHIELD
N/C
N/C
N/C
N/C
N/C
N/C
PDM (B)
SHIELD
INT BUS (+)
INT BUS (-)
GND
N/C
* DENOTES INSTALLED FOR NDB OPERATION ONLY
** DENOTES INSTALLED FOR DUAL TRANSMITTER
*** DENOTES INSTALLED FOR DGPS OPERATION ONLY
Dimensions = mm (inches)
Electrical Schematic – Vector-LP Transmitter: Exciter Stage
Issue 1.8.1
TO RF POWER
STAGE
(PART OF)
EXCITER
INTERFACE
PWB
J6
J7
13
12
11
10
25
22
21
20
19
18
17
16
15
14
24
23
Not to Scale
Figure SD-2
Sheet 1 of 1
TO RF POWER
STAGE
CHARGER
ALARM
RF ON/OFF
STANDBY CODE 2
STANDBY CODE 1
N/C
N/C
(+)
(-)
(+)
(-)
(+)
(-)
(+)
(-)
10
GND
11
PRESS-TO-TALK
12
GND
13
AUDIO
INPUT
(+)
14
SHIELD
15
(-)
16
GND
17
N/C
18
TO/FROM
AC/DC POWER
STAGE
FROM RF
POWER STAGE
J6
MSK (B)
J7
P27
10
GND
11
BATTERY CURRENT SAMPLE
22
GND
23
BATTERY VOLTAGE SAMPLE
24
GND
25
# DC INHIBIT -
21
(PART OF)
A3
REMOTE
INTERFACE
PWB
13
14
15
16
17
18
19
20
21
22
23
25
26
27
28
29
30
31
32
33
34
39
40
J18
J12
17
GND
18
RF CURRENT MONITOR
13
GND
14
RF VOLTS MONITOR
GND
10
FWD PWR SAMPLE
GND
REFLD PWR SAMPLE
GND
W5P1
J11
J14
W3P1
10MHz (A)
W3P2
FWD PWR SAMPLE
GND
REFLD PWR SAMPLE
GND
RF CURRENT SAMPLE
GND
# MSK ALARM (A) +
# MSK ALARM (B) +
# EXT RF OFF # EXT RF ON # CHARGER ALARM GND
# STANDBY CODE 2 # RF ON +/OFF # MISC FAIL (A) # MISC FAIL (B) # SPARE ADC
BATTERY CURRENT
GND
BATTERY VOLTAGE
GND
# EXT INTLK OPEN +
# EXT PDM INHIBIT # MOD PROT GND
CHARGER CURRENT
GND
# STANDBY CODE 1 # DC INSTALLED -
13
14
15
16
17
18
19
20
21
22
23
25
26
27
28
29
30
31
32
33
34
39
40
J4
J1
A1
CONTROL/
DISPLAY
PWB
J7
(PART OF)
RF OFF
REMOTE
LOCAL
10
J5
11
COMMON
POWER DECREASE
W9P1
POWER
INCREASE
KEY
KEY
SOFT KEY 3
SOFT KEY 2
SOFT KEY 1
COMMON
SHIELD
11
12
13
29
30
31
32
33
34
35
36
37
38
39
40
(PART OF)
FRONT PANEL OVERLAY
10MHz (A)
12
13
16
17
18
19
20
21
22
28
29
30
31
32
33
34
35
36
37
38
39
40
10
11
12
13
14
15
16
17
J6
39
40
35
36
33
24
21
22
19
20
17
18
15
16
13
14
11
10
GND
GND
GND
GND
MAG/AUDIO 2
GND
RF ON W8P1
J15
W5P2
KEYED TONE/AUDIO (A)
RETURN
RF IN
GND
N/C
MAG/AUDIO 1
KEYED TONE/AUDIO (B)
RETURN
+24V (BATTERY)
+24V (BATTERY)
+24V (BATTERY)
+24V (BATTERY)
+24V (BATTERY)
GND
13
14
11
10
CHARGER CURRENT SAMPLE
RF CURRENT SAMPLE
TB1
20
MSK (A)
P21
J13
19
INTERLOCK
#DC INSTALLED -
39
40
35
36
33
24
21
22
19
20
17
18
15
16
J9
10
19
20
W2P2
W1P2
W7P1
N/C
N/C
N/C
N/C
GND
N/C
GND
GND
GND
N/C
GND
N/C
GND
N/C
GND
# SHUTBACK (A) # SHUTBACK (B) GND
N/C
GND
GND
N/C
# RESET PDM INT BUS (+)
RETURN
INT BUS (-)
RETURN
N/C
GND
# MON BYPASS +
GND
BATTERY B+ SELECT 1
BATTERY B+ SELECT 2
N/C
# STANDBY TEST # SIDE B MAIN RETURN
CARRIER REF (A)
RETURN
CARRIER REF (B)
VCC
VEE
WR
RD
CE
C/D
LED_A
RESET
FS
LED_K
W2P1
W1P1
W7P2
J15
J15
37
38
34
31
32
29
30
27
28
25
26
23
12
(PART OF)
12
13
16
17
18
19
20
21
22
28
29
30
31
32
33
34
35
36
37
38
39
40
10
11
12
EXCITER
INTERFACE
PWB
J3
J3
J7
J7
U1
GRAPHIC
DISPLAY
J1
J1
10
14
15
16
17
18
19
20
21
22
23
24
25
26
27
28
10
11
14
15
23
24
25
26
27
11
12
13
14
15
16
17
18
W5P1
RF OSC SAMPLE
GND
+24V
GND
+24V
GND
+15V
GND
+15V
GND
-15V
+5V
GND
+24V
A2
11
12
13
29
30
31
32
33
34
35
36
37
38
39
40
W5P2
+24V
GND
INT BUS (+)
INT BUS (-)
GND
GND
W2P1
W1P1
W7P2
N/C
N/C
N/C
N/C
N/C
PDM RETURN (B)
PDM (B)
PDM RETURN (A)
PDM (A)
GND
GND
+24V
GND
+15V
GND
+15V
AC POWER RETURN
AC POWER
GND
-15V
GND
+5V
GND
+5V
GND
# RF OSC FAIL +
# SYNTH INSTALLED (A) # PDM LATCH (A) +
# PDM LATCH (B) +
# RF FAIL (A) +
# RF FAIL (B) +
# LVPS FAIL (A) # LVPS FAIL (B) # SYNTH INSTALLED (B) # MONITOR FAIL +
# SHUTDOWN +
# ACTIVE SIDE B # CHANGEOVER +
# PDM INSTALLED (A) # PDM INSTALLED (B) -
FGND
VSS
D0
D1
D2
D3
D4
D5
D6
D7
18
W2P2
W1P2
W7P1
10
14
15
16
17
18
19
20
21
22
23
24
25
26
27
28
10
11
14
15
23
24
25
26
27
11
12
13
14
15
16
17
18
J1
J4
37
38
34
31
32
29
30
27
28
25
26
23
12
10
11
12
24
35
36
37
38
W3P2
# AC ENABLE # DC INHIBIT # REMOTE COMMON # OPERATING B MONITOR AMPLIFIER GAIN
RF MONITOR SELECT
GND
EXT RXD
GND
EXT TXD
GND
W3P1
10
11
12
24
35
36
37
38
J10
J13
(PART OF)
A3
REMOTE
INTERFACE
PWB
J3
LS1
TB1
TX
TX
N/C
N/C
GND
N/C
RX
RX
N/C
25
J18
P22
J4
J11
W16P1
W16P2
+5V
GND
+15V
GND
+24V
+24V
+24V
10
10
GND
11
11
GND
12
12
GND
17
17
INT BUS (+)
18
INT BUS (-)
18
19
19
GND
20
20
GND
A4
SITE
INTERFACE
PWB
(OPTIONAL)
J1
RS-422
SERIAL BUS
+5V (ISOL)
GND (ISOL)
INT BUS (+)
INT BUS (-)
DE/RE
GND (ISOL)
GND (ISOL)
RS-485
SERIAL BUS
(TO ATU)
21
AUDIO MONITOR (+)
22
SHIELD
23
AUDIO MONITOR (-)
24
GND
J8
RF MONITOR
M1
(PART OF)
A1
CONTROL/
DISPLAY
PWB
J5
J7
J6
J9
(PART OF)
FRONT PANEL OVERLAY
W8P1
+15V
(LED 11)
RF ON
J5
(LED 12)
RF OFF
(LED 10)
W9P1
+15V
REMOTE
DCD
RXD
TXD
DTR
GND
DSR
RTS
CTS
N/C
U11-U14
MODEM
(OPTIONAL)
(LED 9)
LOCAL
(LED 1)
FROM AC/DC
POWER STAGE
OUTPUT
NETWORK
MODEM SUPPLY (+)
MODEM SUPPLY (-)
*OPTIONAL*
(LED 2)
IPA/PA
(LED 3)
EXCITER
(LED 4)
LOW VOLTAGE
POWER SUPPLY
(LED 5)
CHANGEOVER
(LED 6)
EXTERNAL ALARM
(LED 7)
POWER SUPPLY
(LED 8)
AC MAINS
S2050013 VD
Dimensions = mm (inches)
Electrical Schematic – Vector-LP Transmitter: Control/Monitor Stage
Issue 1.8.1
Not to Scale
Figure SD-3
Sheet 1 of 1
PHONE
LINE
(EXTENDED FREQUENCY BAND)
125 W TRANSMITTERS
A12
RF POWER
MODULE
20
10
11
12
13
14
15
16
17
18
19
E1
L3
L1
P18
22
J7
B1P1
FAN TACH 1A
FAN 1 ENABLE
L2
C12
2700pF
C9
1600pF
C10
1600pF
C7
1600pF
C8
1300pF
C5
1300pF
C6
1300pF
E17
E12
E13
E3
E5
E2
C4
750pF
C1
330pF
C2
330pF
E10
C16
1600pF
E11
E8
E9
E6
FAN 2 TACH
23
FAN 2 ENABLE
25
+24V FAN 2
21
# INHIBIT PDM A -
B2P1
B2
P1
12
11
FROM AC/DC
POWER STAGE
+24V
FROM
EXCITER STAGE
S2050014 V1
+15V B
GND
+5V B
GND
+24V B
GND
SIDE A +
B+ VOLTAGE B
SHIELD
Fc (B)
SHIELD
DUMP (B)
SHIELD
N/C
N/C
N/C
N/C
PDM (B)
SHIELD
INT BUS (+)
INT BUS (-)
GND
N/C
P1
20
10
11
12
13
14
15
16
17
18
19
A14
RF FILTER PWB
(EXTENDED FREQUENCY BAND)
250 W TRANSMITTERS
E31
C21
1600pF
E32
C22
330pF
E34
E23
J1
12
11
P15
C14
1600pF
L6
T1
1T
E21
20T
1 4
20T
XA13P1
E18
C3
C7
0.0036 0.0036
C14
0.0036
C13
0.0036
C11
0.0036
C9
0.0036
C10
0.0036
C16
0.0036
C15
0.0036
R3
1000
2W
E34
E33
E36
E32
E35
E15
C1
C5
0.0036 0.0036
E14
E21
T3
4T
80T
RF OUTPUT
T2
J1
100
2W
R10
100
2W
R1
100
2W
R5
1000
2W
E30
E29
E28
E27
E26
E25
E24
E23
E22
40T
R9
R4
1000
2W
C2
C6
0.0036 0.0036
E16
RF POWER
MODULE
**
C12
0.0036
E31
E17
A13
C4
C8
0.0036 0.0036
J5
R2
100
2W
R6
1000
2W
R7
1000
2W
CR4
MUR160
L3
CR3
10000μH
MUR160
L4
C2
1800pF 10000μH
CR1
MUR160
L1
CR2
10000μH
MUR160
L2
C1
1800pF 10000μH
R11
4700
0.5W
R8
4700
0.5W
17
P20
RF CURRENT SAMPLE
18
GND
13
RF CURRENT MONITOR
14
GND
RF VOLTS MONITOR
10
GND
FWD PWR SAMPLE
GND
REFLD PWR SAMPLE
GND
TO CONTROL/
MONITOR STAGE
A1J7
J7
P19**
FAN 1 TACH
P30** B3P1** FAN TACH 1B
22
FAN 1 ENABLE
24
+24V FAN 1
B3
**
P31** B4P1** FAN TACH 2B
FAN 2 TACH
23
FAN 2 ENABLE
25
+24V FAN 2
21
# INHIBIT PDM B -
B4
**
** DENOTES INSTALLED FOR DUAL TRANSMITTER
S2-2
**
Dimensions = mm (inches)
Electrical Schematic – Vector-LP Transmitter: RF Power Stage
Issue 1.8.1
Not to Scale
Figure SD-4
E22
J1
E20
E19
1T
E35
C13
1600pF
S1950253 V1
A14
RF FILTER PWB
E18
C10
1600pF
E33
P1
P19
C9
1600pF
RF POWER PROBE PWB
K1
BATTERY BOOST (B)
E30
E14
S1-2
E13
XA13P1
E5
E2
L2
A15
XA12P1
RELAY CTRL
AC VOLTS (B)
AC VOLTS (B)
E1
E29
C20
1300pF
(STANDARD FREQUENCY BAND)
FROM EXCITER
STAGE
RF INPUT
C19
1300pF
FAN TACH 2A
E28
C18
1300pF
E7
E21
L6
E27
C17
1300pF
P29
E25
E26
RF OUTPUT
E20
L5
C15
1600pF
J1
E22
E19
L4
E24
C14
1600pF
E15
E35
E23
C13
1600pF
E14
E4
C3
1300pF
E18
B1
+24V FAN 1
24
A1J7
P28
FAN 1 TACH
C11
3900pF
E9
E8
E7
E6
E5
E4
E3
E2
E1
P18
RF FILTER PWB
P1
E10
FROM
EXCITER STAGE
A14
BATTERY BOOST (A)
+15V A
GND
+5V A
GND
+24V A
GND
SIDE A +
B+ VOLTAGE A
SHIELD
Fc (A)
SHIELD
DUMP (A)
SHIELD
N/C
N/C
N/C
N/C
PDM (A)
SHIELD
INT BUS (+)
INT BUS (-)
GND
N/C
E11
AC VOLTS (A)
AC VOLTS (A)
E16
E12
FROM AC/DC
POWER STAGE
XA12P1
Sheet 1 of 1
RF OUT
E1:2 E1:3
E2:2 E2:3
J8
MICROCONTROLLER
TP14
PE.7
EXT RXD 35
36
MOSI
J1
R6
100
J1
+5V
J8
+5V
INTERNAL
BUS
(-) 21
20
22
J7
# SOFTKEY 1 - 16
# SOFTKEY 2 - 15
# SOFTKEY 3 - 14
# UP KEY -12
# DOWN KEY - 13
# LOCAL - 11
# REMOTE -10
# RF ON -
# EXT RF ON - 16
# RF OFF - 8
# EXT RF OFF - 15
R91
221
J7
AD6
AD5
RO
DO/RI
AD4
AD3
CR14
BAT54HT1
AD2
TP27
TP26
27
16
RE
U6
DS36C278TM DE 3
R92
221
J7
J7
+5V
+5V
R155
475
+5V
C49
0.1
+5V
R144
475
C54
0.01
23
DO/RI
Y1
11.0592MHz
+5V
R145
475
C125
18pF
C126
18pF
24
22
53
+5V
R152
475
+5V
R151
475
+5V
R184
475
+5V
R185
475
+5V
R187
10.0K
RXD1
A14
PB.6
A13
A12
XTAL2
A11
XTAL1
A9
A8
44
D7
45
D6
46
D5
47
D4
48
D3
49
D2
J6
61
J6
60
J6
59
J6
58
J6
29
J5
18
J5
30
J1
31
J5
32
A14
A13
A12
A11
A10
A9
A8
41
40
39
38
37
36
35
CR5
CR4
CR12
CR13
CR11
GND
FROM SHEET 3
+5V
+5V
C119
0.1
C118
0.01
C127
0.1
C128
0.01
INT0
FROM SHEET 2
FROM SHEET 3
FROM SHEET 4
PROG TCK
PROG TMS
PROG TDO
PROG TDI
PROG RESET
PROG RESET
FROM SHEET 2
C117
0.01
PG.4
ALE
#EOC-
#AC_LOW-
J10
57
J10
56
J10
55
J10
54
26
25
24
23
21
A14
A13
A12
I/O7
A11
I/O6
A10
I/O5
A9
A8
I/O4
A7
I/O3
A6
I/O2
A5
I/O1
A4
I/O0
A3
A2
A1
19
D7
18
D6
17
D5
16
D4
15
D3
13
D2
12
D1
11
D0
U20
CY62256LL
A0
WR
PF.2
CEO
TO
SHEET 2
+5V
A15
PF.1
A15
C115
0.1
C121
0.01
PF.3
R250
100
BT1
3V
PD.4
PG.3
PD.5
PD.6
16
+5V
PD.7
VCC
20
R219
10.0K
U25
M41T94MQ6
12
MOSI
INT0
MISO
INT6
PEN
INT5
SS
PB.4
OC3B
PB.5
AREF
TOL
20
28
C112
0.1
C111
0.01
+5V
CE
VCC
BW
RST
RSTIN2
SCL
XO
14
11
R200
4750
#LOW_BAT-
XI
RSTIN1
J5
R223
10.0K
J6
TP51
J6
TP49
R225
1000
J8
J10
J10
PROG VCC
RF ON COMMON
SWITCH COMMON
17 SWITCH COMMON
18 SHIELD
PROG GND
PROG GND
10 PROG GND
Y2
32.768kHz
J8
MOSI
PROG SCK
TO
SHEET 3
MISO
13
RESET
10
RESET
14
TO SHEET 2
+5V
15
PROG VCC
12
62
PROG VCC
TO SHEET 2
J5
R224
1000
+5V
SDI
SDO
J10
J8
CEI
VBAT
J10
C139
0.01
SCK
TMS
OC3A
U21
DS1312S-2
VCCO
14
11
TCK
TDO
SQW
VSS
10
VCC
AVCC
FT/OUT
VCC
TP48
15
GND
+5V
WDI
C137 13
THS
0.1
OE
VBAT
+5V
INT1
C120
10
35V
REAL-TIME CLOCK
PE.2
VCCI
GND
U24:A
42
WE
RAM MONITOR
ALE
43
PF.0
SCK
25
INT4
FROM SHEET 2
C116
0.1
22
64
L10
ADDRESS
27
+5V
TO SHEET 2
FROM SHEET 2
TP47
PB.7
RESET
52
L12
GND
34
CR10
21
L11
GND
10
33
C138
0.01
26
+5V
GND
TP52
A14
A13
A12
A11
A10
A9
A8
A7
A6
A5
A4
A3
A2
A1
A0
GND
J1
CR9
TP46
D0
J5
CR8
TP32
RD
19
CR7
TP5
GND
R190
475
J6
CR3
RAM
D1
50
TO SHEET 2
GND
RD
17
CR6
DATABUS
A14
WR
J6
38
TXD1
+5V
R186
10.0K
R249
1000
U22
ATmega128-16AI AD0 51
A10
63
+5V
R146
475
GND
VCC
AD1
28
R100
681
R153
475
# PWR DECREASE - 10
DI
R101
681
+5V
# PWR INCREASE - 11
AD7
RXD0
R201
4750
INTERNAL
SERIAL INTERFACE
(+) 19
37 EXT TXD
Q4
MMBT4401LT1
TP45
CR15
BAT54HT1
J1
LS1
MSR516N
TXD0
+5V
R202
4750
R5
100
+15V
DATABUS
J1
EXTERNAL
SERIAL
INTERFACE
ADDRESS
J1
E2:1
MISO
TO
SHEET 2
#RMT_RF_ON+
E1:1
INT BUS (-)/ 20
# RMT RF ON +/OFF -
#STANDBY_2-
DATABUS
J1
ADDRESS
INT BUS (+)/ 19
# STANDBY CODE 2 -
+5V
R251
10.0K
R252
3920
Q5
2N7002LT1
R253
100K
C164 R254
0.47 475K
C165
0.1
13
R255
475K
12
U11:D
C166
0.1
J1
14
TDI
J10
J8
#SS6(RTC)S1950199 SHEET 1 OF 4 V1
Dimensions = mm (inches)
Electrical Schematic – Control/Display PWB (NAPC147D)
Issue 1.8.1
Not to Scale
Figure SD-5
Sheet 1 of 4
11 MONITOR
AMPLIFIER GAIN
77
47
79
48
80
51
#REFLD_PWR_SHUTBACK+
52
#HIGH_RF_CURRENT+
+5V
CPLD TDI
CPLD TMS
CPLD TCK
R123
10.0K
J3
# EXT INTERLOCK OPEN + 29
# EXT PDM INHIBIT - 30
# BTRY/MOD PROTN - 31
# PM FAULT (A)/RF OSC FAIL +
# SPARK GAP SHTBCK/SYNTH INSTALLED (A) -
# PM INSTALLED (A) -/RF FAIL (A) +
# MSK ALARM (A) + 13
# MISC FALL (A) - 21
# PM INSTALLED (C)/SYNTH INSTALLED (B) - 14
# PDM LATCH (B) +
# RF DRIVE FAIL -/RF FAIL (B) +
# LVPS FAIL (B) - 11
16
31
# MSK ALARM (B) + 14
# MISC FALL (B) - 22
# PM FAULT (B) -/SHUTDOWN + 23
# PDM INSTALLED (A) - 26
# PM INSTALLED (B)/MONITOR FAIL - 15
# ACTIVE SIDE B - 24
# STANDBY CODE 1 - 39
18
32
# DC INSTALLED - 40
# PM FAULT (C) -/CHANGEOVER ALM + 25
# PDM INSTALLED (B) - 27
# CHARGER ALARM - 17
FROM
SHEET 1
N/C
R117
10.0K
#RF_ON+
83
R193
10.0K
59
29
J3
30
R9
4750
J1
R10
J1
100
R28
J1
R7
100
J7
100
R199
J7
R175
100
J7
100
R197
J7
R206
100
R27
4750
J7
J1
100
R15
J1
R11
100
J7
100
R210
J7
R173
100
J7
100
R168
J7
R166
100
J7
J7
J1
100
J7
R216
100
J7
100
R214
J7
R159
100
J7
100
R208
J1
R3
100
22
L4
C15
0.01
+5V
R16
4750
C3
0.01
+5V
R12
4750
C110
0.01
+5V
R209
4750
C101
0.01
+5V
R172
4750
C109
0.01
+5V
R167
4750
C114
0.01
+5V
+5V
R165
4750
R161
10.0K
+5V
R182
10.0K
76
23
#SS6(RTC)-
71
INT0
13
+5V
R26
4750
+5V
R215
4750
+5V
R213
4750
C100
0.01
+5V
R158
4750
C97
0.01
+5V
R207
4750
C96
0.01
+5V
R4
4750
L5
C92
0.1
C2 11
0.01
D7
61
D6
D5
11
10
U15:A
U15:C
D7
D4
D6
J9
63
D3
D5
J9
TCK
54
D2
D1
70
D0
+5V
+5V
R149
10.0K
R150
10.0K
36
45
12
+5V
L13
14
17
GND
19
GND
GND
26
GND
11
GND
13
GND
16
27
R246
3.92
0.5W
42
49
60
R220
6.81
0.5W
+5V
18
+5V
VCC_IO
56
+5V
R194
10.0K
12
U16:B
U16:D
31
24
+5V
32
37
J9
D2
J9
D1
J9
D0
J9
J9
J9
J9
J9
J9
C143
0.1
40
34
10
62
D7
17
D6
16
D5
15
D4
14
D3
13
D2
12
D1
11
D0
R189
10.0K
+5V
+5V
R1
4750
J1
R2
J7
100
R218
J7
R212
100
J1
100
R217
4750
+5V
R13
4750
+5V
R128
4750
+5V
R130
4750
+5V
R115
4750
U16:F
E3:1
19
20
R14
100
#RMT_RF_ON+
100
R131
R116
C1
0.01
C136
0.01
C6
0.01
C70
0.01
C71
0.01
C61 13
0.01
12
U17:C
U17:F
C130
0.01
U17:D
100
U17:A
U17:E
11
10
D4
D3
D2
D1
D0
J9
A0
RD
WR
TP44
VO(LCD)
TP40
RESET
J9
J9
J9
J9
J9
J9
U23:G
Q6
D5
U23:F
Q5
D4
U23:E
Q4
D3
U23:D
Q3
D2
U23:C
D1
U23:B Q1
D0
R160
10.0K
U23:A Q0
11 LATCH
ENABLE
VCC
1 OUTPUT
ENABLE
GND
D7
D6
D5
D4
D3
D2
D1
D0
11
D7
D6
D4
D3
D2
LED_A
D1
LED_A
D0
C/D
RD
WR
VEE
10
RESET
CE
CSOUT2
11
D8
U29:H
Q8
D7
U29:G
Q7
D6
U29:F
Q6
D5
U29:E
Q5
D4
U29:D
Q4
D3
U29:C
Q3
D2
U29:B Q2
D1
U29:A Q1
CLK
VCC
A0
20
A0
+5V
C129
0.1
C134
0.01
10
12
J4
J4
DIGITAL OUTPUTS
U30:B
13
14
15
16
13
18
11
R163
J6
U30:E 2210 R157
J6
12
10
J6
2210
J5
+5V
U35:A
+5V
C150
0.1
2210 R156
U30:G
19
20
J1
14
U30:F
17
J1
16
U30:C
U30:D
15
U30:A
C154
0.01
10
R176
2210
R247
4750
16
U35:B
15
J5
R188
2210
U33:H
Q8
D7
U33:G
Q7
D6
U33:F
Q6
D5
U33:E
Q5
D4
U33:D
Q4
D3
U33:C
Q3
J6
14
R162
2210
J5
C95
0.1
VCC
GND
14
17
19
12
R164
13
J6
2210
J7
U34:F
10
TO SHEET 1
D7
D6
D5
D4
D3
CSOUT2
D1
75
CSOUT3
D0
TP38
J7
C107
0.1
# SHUTBACK (A) -
CSOUT3
11
D8
U36:H
Q8
U36:G
Q7
D6
U36:F
Q6
D5
U36:E
Q5
D4
U36:D
Q4
D3
U36:C
Q3
D2
U36:B Q2
U36:A Q1
CLK
VCC
1 OUTPUT
ENABLE
J7
C108
0.1
J7
GND
N/C
N/C
# REMOTE COMMON -
10 # OPERATING B -
# CHANGEOVER LED -
# POWER SUPPLY LED -
# AC MAINS LED -
# RF ON LED -
# RF OFF LED -
# EXTERNAL ALARM LED -
+15V
+15V
U37:A
J7
16
12 # DCC RMT COM -/RF MON SELECT
32 BATT B+ SELECT 1
33 BATT B+ SELECT 2
# LOW VOLT PS LED -
36 # INHIBIT FAN +/SIDE B MAIN 35 # B+ SEL 1 +/STANDBY TEST 34 BATT B+ SELECT 3
30 # INHIBIT RF DRIVE/MON BYPASS +
+5V
C160
0.1
C161
0.01
+5V
10
12
R248
4750
U35:F
U35:D
12
13
13
U37:D
14
15
17
19
11
15
U38:D
13
J5
R177
2210
J5
2210
J7
14
J7
U37:E
R169
R170 12
J6
2210
J6
2210
1 # LOCAL LED #REMOTE_STATUS+
R178
U38:B 2210 R171
14
20
16
U38:C
18
U37:C
13
U38:A
16
J6
J1
J1
# REMOTE LED -
17 N/C
18 # RESET PDM 4
# EXCITER LED -
# PA LED -
# OUTPUT NETWORK LED -
# AC ENABLE -
# DC INHIBIT -
+5V
C162
0.1
U36:I
SN74AHC574DW
TP39
J7
U35:E
D7
D1
J7
11
20
J7
U34:D
U34:G
J7
15
U34:E
16
U33:A Q1
U34:B
U34:C
15
D1
C102
0.1
J1
16
14
U33:B Q2
CLK
13
D2
J6
U34:A
12
18
#RF_ON+
INT4
Q2
MMBT4401LT1
GND
D8
1 OUTPUT
ENABLE
74
R195
1000
A1
19
U33:I
SN74AHC574DW
82
A2
18
+15V
D5
35
A3
17
D2
R183
1000
A4
16
U35:C
LED_K
Q1
MMBT4401LT1
A5
15
U29:I
SN74AHC574DW
CSOUT1
81
A6
14
LED_K
TP41
TP37
21
Q2
A7
13
U23:I
SN74AHC573DW
GRAPHIC DISPLAY SHOWN FOR REFERENCE ONLY.
84
41
D6
12
VSS
R238
0.0
Q7
FGND
E3:3
E3:2 B
33
44
U23:H
FS
25
39
D5
D7
VCC
43
12
U17:B
R129
100
R211
4750
13
#STANDBY_2-
S1950199 SHEET 2 OF 4 V1
+5V
CSOUT1
72
J1
CPLD GND
* DENOTES LINK
INSTALLED FOR
VECTOR ONLY
+5V
R191
10.0K
D6
1 OUTPUT
ENABLE
R221
6.81
0.5W
LCD_CE
CPLD VCC
D7
DMF5005NY-LY-AKE
C144
0.01
R243
3.92
0.5W
15
C105
0.01
U15:F
13
D3
R222
0.0
65
J9
VCC_INT
20
10
D4
18
TP34
TP35
10
64
C106
0.1
J9
67
68
GRAPHIC
DISPLAY
TMS
L8
J3
TDI
VCC_IO
C64
0.01
+5V
TO
SHEET 3
TO
SHEET 1
J3
+5V
C94
0.01
U14:E
12
U16:E
C123
0.01
C99 L6
0.01
38
U16:C
C93
0.01
C98
0.1
+5V
U16:A
C131
0.01
U15:E
C135
0.01
U14:B
+5V
11
C14
0.01
C103
0.1
C104 L7
0.01
78
U13:D
U15:D
C124
0.01
U13:B
U15:B
TDO
73
TO
SHEET 1
ADDRESS
R148
10.0K
#SS1(ADC1)#SS2(ADC2)#SS3(ADC3)#SS4(DAC1)#SS5(DAC2)-
U14:F
C5
0.01
C91
0.01
U14:D
C7
0.01
C90
0.1
U13:A
U14:C
C13
0.01
J1
J4
R205
4750
R25
100
+5V
U14:A
R23
4750
R24
R196
4750
+5V
+5V
J1
R174
4750
+5V
C113
0.01
100
R198
4750
+5V
U13:C
R203
4750
R204
R8
4750
+5V
C4
0.01
100
+5V
U18
XC9572-15PC84C
58
J3
+5V
VCC_INT
57
28
+5V
# LVPS FAIL (A) - 10
R122
10.0K
TP43
TP42
69
+5V
R192
10.0K
+5V
#REMOTE_STATUS+
J3
+5V
# PDM LATCH (A) +
+5V
VO(LCD)
VCC_INT
55
+5V
CPLD TDO
R179
10.0K
+5V
50
#AC_LOW-
+5V
R180
10.0K
+5V
53
#LOW_BAT-
R181
10.0K
+5V
ADDRESS
46
+5V
DATABUS
RD
A15
FROM
SHEET 3
66
WR
A14
FROM
SHEET 4
+5V
DATABUS
CPLD
DATABUS
ALE
FROM
SHEET 1
DATABUS
DIGITAL INPUTS
WR
DATABUS
RD
RESET
C163
0.01
10
# SOFTSTART/SHUTBACK (B) -
Dimensions = mm (inches)
Electrical Schematic – Control/Display PWB (NAPC147D)
Issue 1.8.1
Not to Scale
Figure SD-6
Sheet 2 of 4
TP9
COM
U35:H
MC1413BD
GND
+5V 25
+5V 27
24
+5V
+15V
C148
0.1
VCC
U27:E
MC33074AD
10 12 8
VEE
11
-15V
+5V
R136
10.0K
C149
0.1
13 14
26
+15V 17
12
11
+5V
14
VCC
C83
0.1
+5V
14
VCC
14
VCC
R59
100
C19
0.1
R38
10.0K
+15V 19
A10
16
A9
18
A8
ANALOG TO DIGITAL
CONVERTERS
U9
TLC1543IDW
FWD_PWR_SAMPLE
REFLD_PWR_SAMPLE
AC_SAMPLE
U15:G
GND
SN74AHCT14D
14
VCC
14
VCC
C89
0.1
PDM_A_SAMPLE
PDM_B_SAMPLE
POLARITY_ERROR
A7
VCC
20
C63
0.01
A6
CR16
1SMB5939B
39V
COM
U38:H
MC1413BD
COM
GND
SCK
COM
COM
U34:H
MC1413BD
U37:H
MC1413BD
GND
GND
14
VREF
#SS1(ADC1)-
15
#SS2(ADC2)-
15
17
MOSI
+5V
GND
18
SCK
U30:H
MC1413BD
17
MOSI
MOSI
FROM
SHEET 1
U17:G
GND
SN74AHCT14D
C58
0.1
14
+5V
10
-15V 23
A4
GND
A1
REF-
10
22
VDD
C34
0.1
C50
0.01
18
SCK
t° U5
3 TMP36G
U8:A
14
VREF
VDD
R103
10.0K
+24V
R95
68.1K
C55
0.1
R104
10.0K
-15V
R102
10.0K
R110
100
U8:B
VDD
C37
0.1
VCC
U1:E
TLV2374ID
+15V
C67
10
35V
J4
C62
0.01
J4
J4
L1
J4
J4
R109
100
R120
4750
R134
12.1K
R133
1820
C66 R119
0.1 1210
U8:C
40
A2
EOC
ADDRESS
R154
10.0K
19
TP20
L9
J4
-15V
C122
10
35V
C132
0.01
I/O_CLK
REF+
DATA_OUT
J4
TP30
+5V
GND
11
U4:E
MC3302D
GND
GND
FROM
SHEET 4
11
TO
SHEET 1
MISO
16
+5V
C145
0.1
VCC
C153
0.1
CS
DATA_OUT
I/O_CLK
EOC
REF+
16
19
CR1
BAT54HT1
+5V
A10
C147
0.1
VIN
U26
LT1790BIS6-2.5 VOUT
GND1
GND2
C146
10
35V
VCC
20
C82
0.01
R121
100
A8
GND
REF-
C81
0.1
VDD
14
L14
C155
0.1
DACA
DACB
DACC
DATA
GND
CLK
LDAC
LOAD
REFA
DACD
REFLD_PWR_SHTBK_REF
11
LOW_AC_REF
10
RF_CURRENT_REF
C159
0.01
MOSI
SCK
#SS5(DAC2)-
14
R111
100
C65 12
0.1
A7
FROM SHEET 4
SPEAKER_REF_LEVEL
BAT_CUR_SAMPLE
RF_CURRENT_SAMPLE
B+_SAMPLE
DC_CURRENT_SAMPLE
PA_VOLTS_SAMPLE
48V_SAMPLE
FROM SHEET 1
A6
RESET
REFC
A4
R233
100
J7
C140
0.1
J7
REFD
VEE
11
C151
0.1
-15V
C56
0.1
VDD
U7:E
TLV2374ID
12
GND
11
+5V
13 14
C57
0.1
VDD
U8:E
TLV2374ID
GND
11
+5V
C78
0.1
REFD
VDD
DACA
U32
TLV5620ID
DATA
GND
LDAC
12
12
13
13
DACB
R242
R241 33.2K
10.0K
R245
10.0K
4750
LOAD
DACC
C158
10
35V
R229
11
+5V
REFA
J11
14
U28:D
CLK
R226
4750
R227
1500
C141
0.1
C157
0.1
J11
R230
15.0K
U27:A
VO(LCD)
REFB
DACD
R244
3920
R236
100
J7
C142
0.1
J7
R235
R234 10.0K
10.0K
A0
10 12
13 14
11
+5V
14
C133
0.1
VCC
U24:G
GND
MM74AHCU04M
11 13
S1950199 SHEET 3 OF 4 V1
Dimensions = mm (inches)
Electrical Schematic – Control/Display PWB (NAPC147D)
Issue 1.8.1
AUDIO
(SPEAKER)
(LS1)
TO SHEET 2
J11
C152 J11
0.1
R237
10.0K
U28:B
A1
GND
10
U11:E
TLV2374ID
37
ANALOG METER
(M1)
TP53
A2
VDD
38 CARRIER REF (A)
REFC
R240
3920
A3
Q3
MMBT4401LT1
R239
2740
A5
R228
10.0K
U27:B
+5V
BAT_VOLT_SAMPLE
TO
SHEET 4
TP50
13
10
13
VREF
C73
0.1
12
REFB
+5V
+5V
C72
10
35V
R231 R232
10.0K 10.0K
A9
TO SHEET 4
DIGITAL TO ANALOG
CONVERTER
U31
TLV5620ID
MOSI
SCK
#SS4(DAC1)-
FROM SHEET 2
C156
0.01
U28:E
MC33074AD
14
L15
VIN LT1790BIS6-4.096 VOUT
GND1
GND2
12
+5V
R118
47.5K
C74
0.1
U10
13
U8:D
R132
22.1K
+5V
CS
ADDRESS
TO SHEETS 1, 2 & 4
+5V
#EOC-
CR2
BAT54HT1
U12
TLC1543IDW
C48
0.01
+15V
A3
TP33
10
+24V
C47
10
35V
J4
11
11
13 14
U2:E
TLV2374ID
GND
13 14
12
C25
0.1
+15V
L2
J4
13
12
U3:E
TLV2374ID
12
C17
0.1
+15V
J4
A0
FROM SHEET 2
+5V
J4
+5V
TP24
+5V
J4
C76
0.01
TP18
+24V 15
A5
R107
10.0K
U16:G
GND
SN74AHCT14D
FROM
SHEET 2
+5V
+5V
C77
10
35V
+5V
C86
0.1
+5V
R37
39.2K
CHARGER_CURRENT
FROM
SHEET 4
C85
0.1
+5V
+15V
U14:G
GND
SN74AHCT14D
U2:A
11 13
C84
0.1
+5V
U13:G
GND
SN74AHCT14D
L3
J4
TP12
R135
10.0K
TP3
J4
Not to Scale
Figure SD-7
Sheet 3 of 4
40 CARRIER REF (B)
39
N/C 39
BATTERY CURRENT 25
FWD PWR SAMPLE
J1
TP1
J1
R22
8250
R20
1000
R21
10.0K
R19
10.0K
C12
0.001
R51
0.0
R62
8250
SPEAKER_REF_LEVEL
U2:C
J2
N/C 37
C33
0.0047
C36
0.1
+5V
+15V
R52
475K
38
C32 10
0.0022
R61
5620
J2
FROM
SHEET 3
26
TO SHEET 3
BATTERY VOLTAGE 27
13
U2:D
R60
475K
C31
0.1
FWD_PWR_SAMPLE
14
R71
100
12
28
TO SHEET 3
36
RF CURRENT SAMPLE
RF CURRENT SAMPLE
REFLD PWR SAMPLE
J1
C10
0.1
TP2
U1:B
J2
J1
R36
1000
R34
1000
R35
10.0K
R33
10.0K
C18
0.001
R44
475K
R18
475K
C11
0.1
J2
R65
34
13
1500
R77
10.0K
J7
C41
0.1
C21
0.1
TP4
R30
1000
R29
10.0K
C16
0.1
R40
475K
R39
475K
U4:A
TP10
R63
4750
#REFLD_PWR_SHUTBACK+
20
CHARGER_CURRENT
34
R49
100
TO
SHEET 3
R84
10.0K
C43
0.1
FROM SHEET 3
R82
15.0K
LOW_AC_REF
R83
10.0K
R81
475K
U4:C
C42
0.1
14
R89
4750
R68
475K
R54
475K
C27
0.1
J4
C28
0.1
TP8
J1
R70
1000
R69
10.0K
C35
0.1
R74
475K
R55
475K
C29
0.1
R67
100
TO
SHEET 3
J4
J1
C8
0.1
TP6
U1:A
J2
J1
R48
1000
R47
10.0K
R46
1000
R45
10.0K
C24
0.001
R56
475K
R17
475K
C9
0.1
RF_CURRENT_SAMPLE
R31
100
+5V
J2
R80
RF_CURRENT_REF
R88
10.0K
R79
100K
11
1500
U4:D
C45
0.1
R78
4750
13
TP16
#HIGH_RF_CURRENT+
TO SHEET 2
10
C60
0.1
GND 33
32
J4
R94
1000
R93
10.0K
C46
0.1
R114
475K
C75
0.1
R127
1000
R126
10.0K
C69
0.1
R125
475K
R124
475K
C59
0.1
R112
100
10
U11:A
J4
J4
R113
475K
B+_SAMPLE
U7:C
J4
TP22
#AC_LOW-
C68
0.1
DC_CURRENT_SAMPLE
R137
100
#AC_LOW-
TO SHEET 2
C39
0.1
TP11
TO SHEET 1
N/C 31
30
J4
J4
R76
1000
R75
10.0K
C40
0.1
R73
475K
C23
0.1
TP17
N/C 29
28
28
SPARE ADC 23
24
29
J4
J4
R87
1000
J7
R86
10.0K
C44
0.1
U7:A
R96
1000
R97
10.0K
R42
475K
PDM (A)
R66
100
C38 10
0.1
48V_SAMPLE
U1:C
R41
100
C22 10
0.1
C51
0.1
TO
SHEET 3
POLARITY_ERROR
R108
100
J7
C52
0.1
J4
R142
10.0K
R143
10.0K
C88
0.1
R105
475K
C80
0.1
R140
10.0K
R141
10.0K
C87
0.1
R139
475K
R138
475K
C53
0.1
R98
100
U11:B
J4
J4
R99
475K
PDM_A_SAMPLE
U7:B
J4
TP29
PDM (B)
PA_VOLTS_SAMPLE
U3:C
TP25
J1
J1
R43
475K
R72
475K
TP28
S1950199 SHEET 4 OF 4 V1
BAT_VOLT_SAMPLE
U3:B
J1
R90
100
+5V
TP19
C30
0.1
TP31
AC_SAMPLE
J4
R85
1000
R57
10.0K
R53
100
J4
TP23
J7
J4
R58
1000
BAT_CUR_SAMPLE
U3:A
TO SHEET 2
TP13
B+ SAMPLE/AC POWER 21
C20
0.1
J1
TP21
N/C 35
U2:B
C26
0.1
TP7
J1
FROM SHEET 3
J1
J1
R64
100K
TO SHEET 3
+5V
REFLD_PWR_SHTBK_REF
FROM SHEET 3
12
R32
100
TP15
CHARGER CURRENT 33
REFLD_PWR_SAMPLE
J4
C79
0.1
PDM_B_SAMPLE
R106
100
Dimensions = mm (inches)
Electrical Schematic – Control/Display PWB (NAPC147D)
Issue 1.8.1
Not to Scale
Figure SD-8
Sheet 4 of 4
+5V A
10
+5V B
10
INHIBIT RF (A)-
RF DRIVE (A) MISC
33
34
FC (A) SYNTH
RF DRIVE (B) MISC
12
FC (B) SYNTH
INHIBIT FC (B)-
12
13
14
-15V A
12
11
-15V B
12
11
+15V A
17
18
19
20
+15V B 17
18
19
20
J1
J1
L6
+5V
C22 CR15
10 MBR1645
35V
J1
N/C
J7
J1
R33
33.2K
J2
J2
L2
C16
CR4
10 MBR1645
35V
J2
J13
J16
R23
100
J16
#CHANGEOVER A-
#CHANGEOVER B-
# SIDE B MAIN
#SHUTDOWN A-
#SHUTDOWN B-
# MON BYPASS +
35
35
15
36
36
16
30
C26
0.1
20
# RF FAIL A +
# RF OSC FAIL +
E6:1
R25
332
TP2
U3:A
U3:B
J4
J6
5 V square wave at RF frequency
– RF is on and appropriate side is active
– Audio limit adjusted
# PDM B INSTALLED (-) 13
# SYNTH A INSTALLED (-)
CR16
1N5819
# SYNTH B INSTALLED (-)
J9
J9
10
J10
FC POWER MODULE (B)
28
26
-15V MOD DRIVE (A)
27
28
K1:A
CR17
1N5819
J11
J5
J10
CR14
MBR1645
12
-15V MOD DRIVE (B)
+15V SYNTHESIZER (A)
18
+15V MOD DRIVE (A)
+24V A 33
34
K1:B
C18
10
35V
J2
CR13
MBR1645
+5V
J2
R14
10K
J6
J11
CR9
J7
K1:C
18
35
+15V SYNTHESIZER (B)
36
+15V MOD DRIVE (B)
+24V B 33
34
+5V
CR10
35
36
10
24
R10
10K
R8
10K
R6
10K
R5
10K
R3
10K
ENABLE B
18
J13
C9
0.01
ENABLE A
VCC
C8
0.01
J7
C7
0.01
J13
U4
GAL20V8
GND
24
12
Q3
2N4401
R11
10K
10
11
16
13
23
14
CR24
20
R35
+24V
CR23
R36
R13
22.1K
C12
10
35V
13
23
# SHUTDOWN +
15
25
# CHANGEOVER +
10
J7
Q4
2N4401
15
# ACTIVE SIDE (A/B)
16
J7
R9
10K
24
14
J7
R7
10K
C4
0.01
Q2
2N4401
22
J7
Q1
2N4401
R4
10K
40
J7
C5
0.01
38
Q7
2N7000
C28
10
35V
CR28 R38
100
C10
0.1
21
J13
37
39
CR27 R37
56.2K
17
C6
0.01
Q6
2N7000
C27
10
35V
19
+5V
J13
23
CR25 R31
56.2K
CR26 R32
100
C11
0.01
S1950156 SHEET 1 OF 2 V2
K2:C
10
R12
10K
J12
J12
J12
CR20
MBR1645
J12
J12
N/C
J15
J15
J15
J15
CR19
MBR1645
J15
J14
J14
J14
J14
J14
J14
J14
J14
J10
J7
J11
J7
J5
J7
J6
J7
J1
J13
N/C
26
# PDM A INSTALLED (-)
27
# PDM B INSTALLED (-)
# SYNTH A INSTALLED (-)
39
# SYNTH A INSTALLED (-)
14
# SYNTH B INSTALLED (-)
19
# SYNTH B INSTALLED (-)
10
# LVPS A FAIL +
11
# LVPS B FAIL +
J1
J1
J1
J7
J2
J2
J7
J2
J2
CR11
1N5819
CR6
1N5819
L4
J12
J12
-15V
+15V
J2
27
11
12
J12
J13
CR12
1N5819
K2:B
J1
26
J1
J1
# PDM A INSTALLED (-) 13
25
CR5
1N5819
C24
10
35V
U1:C
K2:A
L8
11
+5V
J1
C17
10
35V
J8
25
R2
10K
L3
13
J13
J2
U1:B
11
U3:D
R21
332
J13
C23
10
35V
10
12
U3:C
L7
FC POWER MODULE (A)
TP1
BEACON
E5:3
R20
332
J8
U1:A
10
R19
332
U2:C
R24
332
R22 E5:1
100
J4
N/C
U2:B
DGPS E5:2
J4
18
BEACON
E6:3
19
17
U2:A
R26
332
J2
BATTERY (24V)
J7
J5
J1
15
DGPS E6:2
J16
J2
# RF FAIL B +
Q9
2N4401
R1
10K
J13
J1
+5V
+5V
# STANDBY TEST -
J7
R34
33.2K
J2
Q8
2N4401
C25
0.1
J8
15
16
# MONITOR FAIL+
J1
J8
CR18
MBR1645
J1
J1
J8
+24V
J1
J9
CR7
MBR1645
J2
J9
J2
J13
J2
J13
J2
J1
J1
J1
J1
J1
J1
J1
J1
J1
J1
J1
J1
J1
J1
24
23
37
38
39
40
13
14
15
16
+15V
J2
J3
J2
J2
+5V
J2
14
C3
0.1
VCC
U3:E
MC74HC00
GND
J15
J15
J2
J13
J2
J2
+5V
J2
14
C2
0.1
VCC
J13
U2:G
GND
MC74AC04N
+5V
J15
J3
J2
J2
J3
J3
+5V
J2
14
C1
0.1
VCC
U1:G
GND
MC74AC04N
J13
J13
J2
-15V
J2
J15
J3
J2
+24V
J15
J15
J15
J15
J15
J15
J15
J3
10 +15V MISC B
17
19
30
32 +5V MISC A
12 +5V MISC B
23 +5V RMT
25
27
+5V CTRL
28 -15V MISC A
8 -15V MISC B
26 -15V RMT
23 -15V CTRL
34
32
+24V RMT BOARD
15 +24V CTRL BOARD
Dimensions = mm (inches)
Electrical Schematic – Exciter Interface PWB (NAPI76A/02)
Figure SD-9
+15V CTRL
28 +15V RMT
#RF RELAY CTRL (A/B)
Not to Scale
N/C
30 +15V MISC A
Q5
2N7000
Issue 1.8.1
N/C
Sheet 1 of 2
PDM1 (A)
24
J10
J8
20
J8
21
J3
J11
J9
J3
J3
KEYED TONE/AUDIO (A)
KEYED TONE/AUDIO (B)
39
21
40
22
J10
R39
68.1K
C15
0.0022
J11
R40
68.1K
J15
C21
0.0022
J10
J15
J11
20
PDM (B)
21
Fpdm (A)
10
Fpdm (B)
10
J10
J8
J11
J9
PDM (B)
15
J9
J11
J10
J8
J11
J9
2FPDM (A) SYNTH
25
2FPDM (A) MISC
J5
J16
2FPDM (B) MISC
J10
J10
14 DUMP (A)
14 DUMP (B)
15
15
18 N/C
18 N/C
19
19
2FPDM (A)
J6
E4:3
UNBALANCED AUDIO (B)
14
BEACON
E7:1
DGPS E7:2
UNBALANCED AUDIO (A)
25
J9
E7:3
15
J8
J10
J8
2FPDM (B) SYNTH
J15
PDM (A)
J9
J15
DUMP (A)
DUMP (B)
J3
PDM1 (B) 24
PDM (A)
J4
BEACON
E4:1
J11
DGPS E4:2
14
J11
2FPDM (B)
TP4
B+ SAMPLE (A)
12
13
B+ SAMPLE (B)
12
13
# PDM LATCH A +
11
# PDM LATCH B +
11
# SHUTBACK A -
# SHUTBACK A -
37
# SHUTBACK B # SHUTBACK B -
17
J8
J10
R27
82.5K
J8
R28
8250
R29
3320
C19
0.0022
R30
3320
C20
0.0022
J10
TP3
J11
R15
82.5K
R16
8250
R17
3320
C13
0.0022
R18
3320
C14
0.0022
J11
J10
J7
J11
J7
J7
J10
J13
CR22
CR2
DGPS
BEACON
CR1
DGPS
BEACON
18
29
AC SIGNAL (A)
30
AC SIGNAL (B)
29
30
31
32
31
32
J15
B+ SAMPLE 1 (B)
B+ SAMPLE 2 (B)
# PDM LATCH A +
# PDM LATCH B +
16
J15
INT BUS (+)
INT BUS (-)
16
19
21
20
22
# INHIBIT PDM (A) -
38
37
# INHIBIT PDM (B) -
32
BATTERY B+ SELECT 2
33
BATTERY B+ SELECT 3
34
38
18
J8
J7
J8
J7
J8
J7
J8
KEY CW
E9
J7
J7
KEY CW
KEY CW
E8
J10
KEY CW
J13
INT BUS (+)
INT BUS (-)
22 INT BUS (+)
23 INT BUS (-)
24
25
CARRIER REF (A)
22
CARRIER REF (FILTERED) (A)
24
CARRIER REF (A)
E11:1 E11:2 E11:3
CR8
J7
J11
CR3
# RESET PDM (A) -
CARRIER REF (B)
40
39
# RESET PDM (B) -
J1
14
J1
J3
J2
J3
21 AC POWER
16
20
18
J2
22
J1
24
J1
26
J2
28
J2
30
32
BATTERY B+ SELECT 1
J7
J13
J10
# RESET PDM -
B+ SAMPLE 2 (A)
J15
CARRIER REF (A)
J11
CR21
E10:1 E10:2 E10:3
J7
J13
B+ SAMPLE 1 (A)
J15
J9
J9
J7
J9
J7
J9
J7
J9
22
BATTERY B+ SELECT 1
33
23
BATTERY B+ SELECT 2
34
24
N/C
36
J13
38
J13
40
J7
J3
J3
J3
J3
J3
J3
13
16
29
31
S1950156 SHEET 2 OF 2 V2
J7
J7
J7
J3
J3
14
15
J5
25
29
J5
11
12
14
15
KEY CW
E2
J11
KEY CW
J13
J13
J13
J13
J13
J13
J13
J13
J13
J13
J13
J13
J5
J6
13
J6
14
J6
25
J8
27
29
J8
31
J3
J3
27
J7
J7
J3
J3
KEY CW
J3
J3
KEY CW
E3
J7
J15
J15
J15
KEY CW
E1
KEY CW
J15
J13
J13
CARRIER REF (B)
CARRIER REF (FILTERED) (B)
CARRIER REF (B)
23
21
26
#KEY CW (A) -
#KEY CW (B) -
J15
J15
J15
J15
J4
J4
J4
25
J9
J9
J9
J16
J16
J16
Dimensions = mm (inches)
Electrical Schematic – Exciter Interface PWB (NAPI76A/02)
Issue 1.8.1
Not to Scale
Figure SD-10
Sheet 2 of 2
REFLD PWR SAMPLE
RF CURRENT SAMPLE 17
18
J11
J18
R73
6810
J11
C49
0.001
R74
1820
J18
J11
J11
J18
R19
1000
CR22
C56
0.0047
R156
10.0K
R158
10.0K
C57
0.001
J18
J18
J17
FWD PWR SAMPLE
J11
J16
R77
6810
J11
C54
0.001
R78
1820
R48
0.0
Shorting jumper E4 installed in position:
 A when audio and press-to-talk
inputs are applied separately.
 B when press-to-talk input is
phantom fed on audio input
PRESS-TO-TALK
GND
R55
8250
T1
C2
0.0047
E4:1
13
R38
22.1K
E4:3
C23
0.1
CR10
AUDIO
INPUT
10
C17
1.0
R27 R17
475 10.0K
R18
68.1K
U1:C
+15V
V+
C20 TRIM
0.1
R96
1000
R26 C21
R29 10.0K 10
301
35V
R31
475K
C22
150pF
U3:B
AD620R
V-
TRIM
-15V
+5V
C16
0.1
REF
14
VCC
C66
0.1
TP1
U9:G
GND
SN74AHCT14D
11
TP4
TP9
J17
TP2
R23 C13
10.0K 10
35V
R22
475K
C15
150pF
CR2
-15V
U3:A
R34
475
R37
5000
AUDIO
LEVEL
C65
390pF
R84
150K
CW
CR3
R87
1.82M
R81
100K
R83
150K
C59
C58
C61
3300pF 3300pF 3300pF
C73
390pF
U8:C
U8:B
R85
6810
C64 R86
0.01 150K
R89
150K
R88
100K
13
C71
0.047
10
C72
100pF
R93
R94
1820 10.0K
R92
10.0K
U8:D
R90
4750
14
C69
0.1
12
R9
68.1K
C75
0.1
U1:A
U9:A
U9:B
U9:C
R99
1000
R101
681
R82
681K
C6
1000pF
R4
15.0K
C4
1000pF
R5
3920
R6
3920
U1:D
14
Q7
2N5116
13
R14
10.0K
R13
10.0K
C78
0.0022
R91
1.82M
R100
100K
R103
100K
R102
1000
12
C7
1000pF
J17
+15V
S1950190 SHEET 1 OF 3 V2
(-)
J16
+5V
# OPERATING B - 10
23
AUDIO
MONITOR
# PTT (A) -
# PTT (B) -
VOICE INPUT (B)
GND GND GND GND
17
J18
FWD PWR SAMPLE
SHIELD
CR12
R28
301
11
FWD PWR SAMPLE
TP12
-15V
16
22
J16
+15V
(-)
FWD PWR SAMPLE
E4:2
CR11
14
RF CURRENT SAMPLE
R114
10.0K
+15V
(+)
(+)
J16
CR9
REFLD PWR SAMPLE
21
J17
R32
22.1K
12
SHIELD 15
C3
10
35V
C1
0.0022
R1
5620
Audio limit adjusted;
5 V pk-pk
+15V
U1:B
+15V
10
U10:D
U10:B
R98
4750
13
U21:B
15
J18
J18
11
VOICE INPUT (A)
31 # MOD PROT/
AUDIO LIMIT 32
+15V
U10:C
14
R97
562K
C122
10
35V
R30
1.82M
J13
J13
J17
J17
J16
J18
32
36
# MISC (A) -
Dimensions = mm (inches)
Electrical Schematic - Remote Interface PWB (NAPI78D/02)
Issue 1.8.1
Not to Scale
Figure SD-11
Sheet 1 of 3
+5V
+24V-B
22
J17
12 XO
E11:3
J17
BYPASS
E11:1
X 14
NORMAL E11:2
RF MONITOR (B) 21
22
J16
13 X1
2 Y0
MONITOR
LEVEL
16
VCC
U16
MC74HC4053AD
J16
C105
0.01
CW
RF MONITOR (A) 21
C103
0.1
+5V
R163
100K
R164
10K
5 ZO
RF MONITOR SELECT 12
J18
R161
10.0K
C100
0.1
U23:A
J8
R167
150
2W
C123
0.1
RF MONITOR
+24V-B
(+)
RF OFF /
STANDBY CODE 2
(-)
9 C
L12
C124
1.0
GND
C125
0.1
V+
COMP
U23:B
LT1210CR
V-
SHUTDOWN
RF ON /
RF ON/OFF
BATTERY CURRENT 22
SAMPLE
23
C126
0.1
C127 L11
1.0
# REMOTE COMMON -
C34
0.1
R50
10.0K
CR15
NDB
E13:2
U6:A
MOCD223-M
E6:3
J18
E13:3
NORM
NDB
E6:2
R54
4750
C40
0.1
R53
10.0K
CR16
E14:2
U6:B
MOCD223-M
E7:1
E7:3
NORM
R71
4750
C44
0.1
R70
10.0K
CR17
E17:2
J18
E15:2
U7:A
MOCD223-M
J18
E14:1
J18
E15:3
NDB
E7:2
J18
E13:1
J18
E14:3
NORM
J18
E15:1
J12
J18
R63
1000
C42
0.47
J18
25 BATTERY CURRENT
CHARGER ALARM
(-)
26
E8:1
E8:2
30 # EXT PDM INHIBIT -
19
J12
J12
J18
R72
1000
C47
0.47
J18
27
R76
4750
C50
0.1
R75
10.0K
CR18
16 # EXT RF ON -
E17:1
U7:B
MOCD223-M
J18
17 # CHARGER ALARM 18
GND
BATTERY VOLTAGE
19
28
EXT INTLK
# DC INSTALLED -
# POLARITY ERROR -
CHARGER CURRENT 10
SAMPLE
11
J12
J18
J12
J18
40 # DC INSTALLED -
20
R162
4990
+24V-B
U21:C
R15
3320
C10
0.1
CR1
R16
10.0K
J18
14
+5V 17
11
J12
J12
J18
R12
475K
C9
0.1
J18
J12
+24V_BATTERY
J12
J12
23 # POLARITY ERROR -
PHASE
33 CHARGER CURRENT
TP8
34
3 E9:B 4
TO SHEET 3
J13
J13
J12
J13
J12
J13
J12
J13
J13
L2
C29
10
16V
J13
J13
C30
0.1
J13
+5V
C31
0.01
J13
J13
J13
+24V 10
31
33
+15V 12
14
13
15
J13
J13
J13
J13
L3
J13
C36
10
35V
C35
0.1
L1
L6
J13
J13
C52
10
35V
+15V
+24V-B
C26
0.1
J13
J13
J12
J12
+24V-A
+15V
C55
0.1
J12
J12
C51
0.01
J12
+15V-B
J17
J17
J16
J13
L4
C46
10
35V
C45
0.1
S1950190 SHEET 2 OF 3 V2
C41
0.01
1 E9:A 2
J13
J13
J13
RF IN
34
NORM
21 +24V (BATTERY)
22
5 E9:C 6
23
10MHz
24
25
26
J17
EXT RF IN /
MSK (A)
27
J6
J17
24 MSK (A)
25
28
29
J16
MSK (B)
J7
30
J16
24 MSK (B)
25
+24V-A
C39
0.01
-15V
-15V 16
29 # EXT INTLK OPEN +
J12
HD-R Ø
+24V (BATTERY)
# RF ON +/OFF -
20
24
BATTERY VOLTAGE 24
SAMPLE
25
# STANDBY CODE 2 -
15 # EXT RF OFF -
E17:3
E8:3
J18
(+)
39 # STANDBY CODE 1 -
NORM
NDB
J18
J12
R51
4750
(-)
-15V
+24V-B
11
E5:2
(+)
PWB PART: HW1
HR106
ENABLE
E6:1
+24V-B
+15V
10 B
E5:1
R144
4750
-5V
11 A
10
Z 4
3 Z1
+5V
VEE
(-)
Y 15
1 Y1
PDM INHIBIT /
STANDBY CODE 1
R165 R166
1500
150
0.5W 0.5W
(+)
E5:3
C80
0.1
R152
1000
R153
1000
C118
10
16V
C119 C120
0.1
0.01
-5V
J16
RF OSC SAMPLE
12 +15V
13
19
RF VOLTS MONITOR 9
14 +24V
10
15
RF CURRENT MONITOR 13
17
14
19
J13
FREQ MONITOR
J13
J11
J17
J11
J16
J11
J17
J11
J16
17
19
CR21
1SMB5918B
5.1V
Dimensions = mm (inches)
Electrical Schematic - Remote Interface PWB (NAPI78D/02)
Issue 1.8.1
Not to Scale
Figure SD-12
Sheet 2 of 3
16 RF VOLTS MONITOR (A)
16 RF VOLTS MONITOR (B)
18 RF CURR MONITOR (A)
18 RF CURR MONITOR (B)
EXTERNAL SERIAL INTERFACE
+5V
R138
10.0K
TP10
EXT TXD (TTL) 37
38
EXT RXD (TTL) 35
36
J18
DE
RE
VCC
DO/RI
DO/RI
DI
GND
J18 +5V
J18
J18
R169
10.0K
C112
0.01
U19
DS36C278TM
RO
14
C113
0.1
+5V
J4
J4
TX
TX
RO
VCC
DO/RI
DI
DE
DO/RI
RE
GND
R145
121K
R160
121K
J4
C109
0.01
+5V
C106
0.1
+5V
R170
681
R143
221
R142
221
INT BUS (+) 37
J4
J4
INT BUS (-) 38
RX
39
RX
40
R171
681
C81
0.1
C82
0.01
EXT SERIAL BUS
RS-422
+5V
INTERNAL SERIAL INTERFACE
J13
J13
RO
VCC
+5V
C88
0.1
R106
2210
+5V
DO/RI
TP7
DO/RI
DI
U11
DS36C278TM
R109
1000
K1
VO1
VO2
K2
GND
GND
DE
RE
12
13
CR26
BAT54HT1
11
R1OUT
T1OUT
VCC
T1IN
V+
R130
100
16
R123
100
T2IN
V15
GND
R2IN
R105
100
KEY MONITOR (A)
14
KEY MONITOR (B) 14
# KEYING/MISC ALM (A) -
10
# KEYING/MISC ALM (B) -
10
# MSK ALARM (A) -
11
# MSK ALARM (B) -
11
KEYED TONE/AUDIO (A) 12
13
KEYED TONE/AUDIO (B) 12
13
# AC INHIBIT # DC INHIBIT -
R1IN
C1+
C1C2+
13
C2-
C83
1.0
35V
C94
1.0
35V
C84
1.0
35V
C79
1.0
35V
C85
1.0
35V
TXD
GND
11 13
DI
K1
R137
121K
DO/RI
A2
R135
2210
VO1
R133
2210
VO2
J3
1 +5V (ISOL)
C107
10
VCC
DO/RI
RO
C108
0.1
J3
J3
RE
J3
DE
J3
R136
121K
GND
J3
U15:A
GND
J3
C102
0.1
R33 R132
10.0K 1000
J17
+15V
RXD
EXT SERIAL BUS
RS-232
J5
J5
J5
J5
J17
J16
J16
J17
J17
J18
J16
J18
J17
J18
J16
J18
J17
J13
J17
J13
J16
J13
J16
J13
J18
J12
J18
J12
DCD
DTR
DSR
RTS
CTS
+15V
C8
0.1
C60
0.1
VCC
VCC
U1:E
MC33074AD
U8:E
MC33074AD
VEE
VEE
11
C12
0.1
11
C70
0.1
-15V
-15V
+15V
C74
0.1
U10:E
MC3302D
VCC
CR20
1SMB5939B
39V
GND
12
J16
J16
U21:H
MC1413BD
COM
4 INT BUS (-)
2 GND (ISOL)
INT SERIAL BUS
RS-485
6 GND (ISOL)
25 GND (ISOL)
J16
GND
5 DE/RE
J17
3 INT BUS (+)
J17
J5
+5V
J5
J5
R131
100
R2OUT
T2OUT
C95
0.1
U12
ADM3202ARN
10
J5
14
U17
DS36C278TM
12
K2
U9:F
R134
1000
A1
VCC
TP6
J13
U13 VCC
A1
HCPL-0731
U14
HCPL-0731
R110
1000
U15:G
GND
SN74AHCT14D
A2
C89
0.1
J13
VCC
TP5
U18
DS36C278TM
R159
121K
TP11
CR25
BAT54HT1
R139
121K
C98
0.1
J10
J10
J10
J10
6 (+)
7 (-)
INT BUS (A)
6 (+)
7 (-)
INT BUS (B)
17 INT BUS (+)
18 INT BUS (-)
19
20
15 KEY MONITOR (A)
15 KEY MONITOR (B)
NAPI78C/00 TO /02
NAPI78D/00 TO /02
21 #MISC A FAIL 22 #MISC B FAIL -
+5V
C68
10, 16V
1.0, 35V
14 # MSK ALARM (B) ?
+24V-A
KEYED TONE/AUDIO (A)
FROM SHEET 2
C76
0.01
+24V_BATTERY
E18:1
NORM
E18:3
L9
J10
J10
+15V
13 # MSK ALARM (A) ?
J10
C77
10
16V
C68
C67
0.01
L8
E18:2
J10
J10
BATTERY
C62
0.01
L7
J10
J10
J10
19 KEYED TONE/AUDIO (B)
J10
20
J10
1 +5V
3 +15V
+24V
10
11
12
20 # AC INHIBIT 21 # DC INHIBIT -
S1950190 SHEET 3 OF 3 V2
Dimensions = mm (inches)
Electrical Schematic – Remote Interface PWB (NAPI78D/02)
Issue 1.8.1
Not to Scale
Figure SD-13
Sheet 3 of 3
TO
DAUGHTER
BOARD
MISO
+5V
14
+5V
C35
0.1
U15:E
GND
MC74HC125AD
VCC
+12V
+5V
R31
4750
R33
3920
C18
0.1
R34
10.0K
CR10
MONITOR POINT 9 13
11
SA
U7:A
MOCD223-M
QH
+5V
J2
1 MISO
INTERNAL
SERIAL INTERFACE
+5V
L3
C27
0.1
C26
0.01
TP10
16
MISO
TXD
31
DO/RI
DI
J1
J1
U12
DS36C278TM
J1
14
R53
10.0K
RXD
SS
30
32
J1
L2
C9
10
35V
C12
0.1
C11
0.01
PD.3
+5V
PB.0
PC.2
PC.3
PC.4
PC.5
C28
18pF
Y1
3.6864MHz
+12V
19
20
DE
C33
0.1
R39
3920
C20
0.1
R40
10.0K
C32
0.01
XTAL1
XTAL2
PD.5
C31
0.001
18
20
25
R35
3920
C19
0.1
R36
10.0K
21
+12V
27
28
R45
3920
C23
0.1
R46
10.0K
22
23
24
13
+12V
U8:A
MOCD223-M
J2
+12V
MONITOR POINT 3
U9
MC74HC165AD
14
R4
3920
C5
0.1
R5
10.0K
CR1
VCC
GND
R41
3920
C21
0.1
R42
10.0K
CR13
MONITOR POINT 14 20
R14
3920
C8
0.1
R15
10.0K
CR4
AREF
SCK
J2
15
J2
17
MOSI
+12V
SCK
+12V
MONITOR POINT 4
GND
C25
0.1
GND A
R52
10.0K
ADC6
CR16
SCK
PC.0
PC.1
PD.7
11
TO SHEET 2
+12V
LATCH_CLK
R10
3920
C7
0.1
R11
10.0K
CR3
VCC
16
C22
0.1
+5V
+12V
U10:A
MOCD223-M
GND
CLK_INH
MONITOR POINT 16 23
C24
0.1
R48
10.0K
CR15
12
13
U3:A
MOCD223-M
U6
MC74HC165AD
14
U3:B
MOCD223-M
MONITOR POINT 5
R21
3920
C13
0.1
R22
10.0K
CR6
VCC
+12V
GND
CLK_INH
MONITOR POINT 6
R19
4750
R16
3920
C10
0.1
R17
10.0K
CR5
RESET
PD.6
C30
0.1
VCC
U14
ADM803MAKS RESET
GND
R54
10.0K
J2
15
U4:B
MOCD223-M
+5V
+12V
U11:A
MOCD223-M
R25
4750
R27
3920
C15
0.1
R28
10.0K
CR8
MONITOR POINT 7 10
U5:A
MOCD223-M
+5V
SHIFT/LOAD
CLK
+12V
U11:B
MOCD223-M
SHIFT/LOAD
R26
4750
R23
3920
C14
0.1
R24
10.0K
MONITOR POINT 8 11
CR7
U5:B
MOCD223-M
+5V
+5V
C17
0.1
U4:A
MOCD223-M
+5V
16
SHIFT/LOAD
10
SCK
29
U2:B
MOCD223-M
R18
4750
15
U10:B
MOCD223-M
R50
4750
R47
3920
QH
R13
4750
+5V
MOSI
ADC7
10
+5V
R49
4750
R51
3920
SA
QH
+5V
+5V
AVCC
U2:A
MOCD223-M
R12
4750
U8:B
MOCD223-M
R44
4750
C34
0.1
11
R7
4750
CR14
MONITOR POINT 15 22
19
+12V
+5V
L5
CR2
+5V
R43
4750
MONITOR POINT 13 19
13
J2
R9
10.0K
+5V
VCC
GND
CR11
TP13
GND GND GND
26
C6
0.1
+5V
MONITOR POINT 2
R38
4750
12
VCC
MOSI
TP6
R8
3920
CR12
+12V
TP3
MONITOR POINT 1
TP5
U7:B
MOCD223-M
R37
4750
18 INT BUS (-)
RE
R6
4750
+5V
MONITOR POINT 11 16
+5V
L4
OC1A
PD.4
C29
18pF
+5V
MONITOR POINT 12 17
R20
10.0K
CR9
MONITOR POINT 10 14
TP4
J1
R30
10.0K
12
+5V
U13
ATmega8-16AI
C16
0.1
TP8
PD.2
+5V
R29
3920
17 INT BUS (+)
RO
QH
R32
4750
GND
DO/RI
J1
TP9
+5V
VCC
TP7
U15:A
+12V
+12V
10
5 RESET
S1950064 SHEET 1 OF 2 V2
Dimensions = mm (inches)
Electrical Schematic – Site Interface PWB (NAPI80), Optional
Issue 1.8.1
Not to Scale
Figure SD-14
Sheet 1 of 2
CLK
+5V
TP1
TP2
+15V 3
R2
10.0K
J1
L1
C1
10
35V
J1
C3
0.1
C2
0.01
+V
VIN
OV
U1
NDY1212
12
+V
GND
GND
VIN
OV
R1
10.0K
14
+12V
10
11
C4
100
25V
13
12
R3
150
2W
15
24
18
15
21
24
+5V
L6
C37
0.1
COM
U16:H
MC1413BD
GND
K1:A
COM
U18:H
MC1413BD
GND
COM
U20:H
MC1413BD
GND
K2:A
K3:A
COM
N/C
N/O
COM
N/C
N/O
COM
N/C
N/O
CONTROL
POINT 1
K9:A
CONTROL
POINT 2
K10:A
CONTROL
POINT 3
K11:A
10 COM
+5V
QH
U16:A
16
10
+5V
+5V
10
C36
0.1
16
13
QG
15
GND
QF
OE
14
10
10
U17
MC74HC595AD
13
K4:C
10
12
K5:C
10
11
10
TP11
10
FROM SHEET 1
14
SCK
11
LATCH_CLK
12
QA
SHIFT_CLK
LATCH_CLK
16
QG
17
N/C
18
N/O
QF
21
N/C
10
14
K8:A
N/C
24
N/O
10
10
U19
MC74HC595AD
CONTROL
POINT 7
K12:C
12
10
+5V
QD
SQH
N/O
COM
N/C
N/O
COM
N/C
N/O
CONTROL
POINT 10
CONTROL
POINT 11
K13:C
11
10
+5V
CONTROL
POINT 8
QC
K8:C
10
C38
0.1
16
13
10
QB
10
10
+5V
OE
QA
SQH
K16:C
U20:B
15
K16:A
K15:C
16
VCC
GND
14
12
15
10
SHIFT_CLK
LATCH_CLK
Dimensions = mm (inches)
Electrical Schematic – Site Interface PWB (NAPI80), Optional
Issue 1.8.1
Not to Scale
12
N/O
CONTROL
POINT 12
14
N/C
15
N/O
CONTROL
POINT 13
Figure SD-15
17
N/C
18
N/O
CONTROL
POINT 14
20
N/C
21
N/O
CONTROL
POINT 15
22 COM
U20:A
RESET
K15:A
K14:C
10
+5V
+5V
N/C
U18:G
11
19 COM
U18:F
K14:A
TP12
CONTROL
POINT 9
16 COM
U18:E
K13:A
K11:C
13
+5V
N/O
23
N/C
13 COM
K10:C
U18:D
K12:A
U18:C
CONTROL
POINT 6
11
S1950064 SHEET 2 OF 2 V2
15
+5V
U18:A
15
N/O
CONTROL
POINT 5
K7:C
10
+5V
MOSI
22 COM
U16:G
15
20
K7:A
K6:C
+5V
QB
U18:B
K9:C
U16:F
N/C
+5V
19 COM
+5V
QC
K6:A
U16:E
QH
QE
+5V
QD
+5V
N/O
14
COM
10 COM
CONTROL
POINT 4
16 COM
U16:D
K5:A
K3:C
+5V
QE
N/C
13 COM
U16:C
12
K2:C
+5V
VCC
K4:A
U16:B
RESET
K1:C
11
Sheet 2 of 2
23
N/C
24
N/O
CONTROL
POINT 16
+3.3V-D
4FC/B
P0.6/AD6
69
55
C6
0.1
INT
14
15
C2
0.1
N/C
GND
SHIELD
J1
R7
1210
10
C8
0.1
R5
274
11
12
23
+3.3V-D
J1
24
25
J1
Q2
Q3
GND
16
C20
0.01
+5V-B
TP2
R16
10K
15
R15
100
14
13
C22
100pF
U8:A
U8:F
13
J1
12
J1
25 2Fpdm
12
11
63
58
57
68
REFCLKB
N/C
N/C
N/C
35
30
36
VOUT
N/C
29
18
A1/SD0
IOUT1
C9
0.1
26
27
28
4FC/A
48
C21
390pF
R14
47.5
AVDD
AVDD
31
L1
1.8μH
C23
390pF
R20
82.5
AGND
REFCLK
AGND
DACBP
AVDD
PLL_FILTER
AGND
U5
AD9852ASQ
DVDD
AGND
DVDD
AGND
DGND
AVDD
DGND
AGND
DVDD
AGND
DVDD
AGND
+3.3V-A
32
RDB/CSB
33
C16
0.1
34
37
+3.3V-A
38
39
C17
0.1
40
41
44
45
C18
0.1
+3.3V-A
46
47
DVDD
DIFF_CLK_EN
DGND
DGND
DGND
80
# SYNTH INSTALLED - 2
E1:2
GND
15
S1940197 SHEET 1 OF 2 V1
+3.3V-D
C11
0.1
+3.3V-D
C13
0.1
R8
100
R9
100
R10
47.5
R11
47.5
S/P_SELECT
R12
47.5
64
70
D0
REFERENCE (A)
+5V-A
Q1
AVDD
61
+3.3V-D
U1
VCC RTXT//10.0MHz OUT
P1
D1
C5
0.01
14
Q0
+3.3V-A
E1:1
E1:3
22
12
EXT
P0
PE
D2
E2:3
CR3
TC
MASTER_RESET
D3
INT
R4
1000
10
C3
0.1
11
A0/SDIO
D4
EXT
11
71
I/O_UD_CLK
R51
100
U3:E
18
R6
100
U3:F
13
19
R1
100
CR2
17
D5
J2
R3
1000
E2:2
20
10 MHz
REFERENCE
INPUT
E2:1
P3.6/WR
16
WRB/SCLK
D6
REFERENCE (B)
XTAL1
P3.5/T1
21
+3.3V-D +3.3V-D
21
P3.4/T0
15
D7
TP1
P3.7/RD
P3.3/INT1
SHAPED_KEYING
19
P0.3/AD3
TP4
12
C15
0.1
FSK/BPSK/HOLD
J1
P0.2/AD2
C14
0.1
17
40
P0.1/AD1
C12
0.1
16
C10
0.1
# TUNE SELECTED - 23
41
TP3
13
34
DAC_RSET
14
+3.3V-A
56
42
N/C
+3.3V-A
15
P0.0/AD0
+3.3V-A
A2/IO_RESET
X0.1
43
+3.3V-A
33
A3
PSEN
65
CP
32
IOUT2
P0.7/AD7
ALE
S5
52
36
14
P1.5
A4
37
P1.4
GND
U7
74ACT163PC
P3
P0.4/AD4
P0.5/AD5
R19
10
9 # TUNE RF DRIVE +
P2
13
22
VCC
CEP
A5
38
TC
SR
C7
0.1
N/C
Q3
CET
+5V-B
IOUT2B
39
Q2
J1
Q3
2N3904
P2.7/A15
VSS
CET
PE
10
44
51
31
VCC
53
P2.6/A14
35
AGND
30
Q1
C19
0.01
R50
4750
+5V-B
+3.3V-D
EA/VPP
IOUT1B
P2.5/A13
Q0
CEP
16
7 # HIGH BAND -
20
49
29
XTAL2
50
P2.4/A12
AVDD
28
GND
SR
CP
P2.3/A11
U6
74ACT163PC
P3
VINN
P2
23
43
27
N/C
VCC
P1
10
59
P2.2/A10
N/C
P0
+5V-B
12
AGND
26
P2.1/A9
U4
190-5043-02
VINP
P2.0/A8
42
25
54
24
N/C
AVDD
10
DGND
DGND
76
X1
75
62
S4
AGND
DGND
72
X10
60
P1.3
AVDD
S3
P1.2
DVDD
P1.1/T2EX
E3:1
DVDD
LOW
P1.0/T2
73
4610X-101-472
P3.2/INT0
74
X100
9x 4700
14
66
U2
E3:2
HIGH
DGND
S2
+3.3V-D
67
PDM E3:3
+3.3V-D
AGND
J1
Q2
2N3904
R18
10 +3.3V-D
P3.1/TxD
AGND
13
DGND
X1000
R49
4750
11
77
P3.0/RxD
78
S1
RST
6 # DDS INHIBIT +
Q1
2N3904
R17
10 +3.3V-D
AVDD
10
R2
4750
P1.6
J1
R48
4750
DVDD
C4
2.2
20V
CR1
MBD301
J1
P1.7
DVDD
# RESET DDS + 5
+3.3V-D
79
+3.3V-D
R13
3920
Dimensions = mm (inches)
Electrical Schematic – RF Synthesizer PWB (NAPE70C/01)
Issue 1.8.1
Not to Scale
Figure SD-16
Sheet 1 of 2
4FC/B
R43
2740
R45
1210
Fc
BALANCED
DRIVE
+15V-A
* DENOTES FREQUENCY DEPENDENT PART.
R31
562
Freq 590 kHz
RF DRIVE
SYMMETRY
REFER TO REF DES INDEX FOR VALUE/PART NUMBER.
CW
R32
1000
1 E5:A 2
C57
0.1
C46
0.1
R33
562
R42
10K
+15V-A
Freq 2360 kHz
+15V-B
+15V-B
R22
27.4K
4FC/A
C25
0.01
R23
1820
CR4
EXT Fc 17
IPM COMPENSATION 16
+15V-B
R25
1500
R28
10K
C28
Q4
2N3904 0.1
R29
10K
R26
100
U10:B
11
U12:B
10
13
U12:A
12
R35
4750
RF DRIVE
E4:3
E4:2
INT
C44
0.01
CR5
DISABLE
C54
0.001
E6:1
U10:F
13
E6:2
12
+15V-C
U10:E
11
C58
0.47
Q5
2N2219A
C1
NOT USED
10
U10:C
Q6
2N2905A
5 E5:C 6
TP7
7 E5:D 8
R46
47.5
R47
27.4
C27
0.01
3 E5:B 4
11
J1
Fc
E5:E 10
E5:F
12
13 E5:G 14
R52
NOT USED
R27
10K
J1
L6
C37
10
35V
L7
C38
10
35V
J1
R21
22
2W
15 V RF drive square wave
TP7 –
A5 – A
A9 – B
+5V-A
C39
0.1
+5V-B
+3.3V-D
14
U9
V_IN MC7805ACT V_OUT
GND
C35
10
35V
C36
0.47
IN
U11
LM3940IT-3.3 OUT
GND
C40
10
35V
C41
47
20V
L8
C42
10
35V
J1
L9
J1
C43
10
35V
U3:G
GND
MC74AC04N
VCC
+5V-B
14
VCC
U8:G
SN74HC04N
GND
VDD
U10:G
MC14584B
VSS
C55
0.1
+3.3V-A
+3.3V-D
+15V-B
14
C48
0.1
U12:C
MC14013B
VDD
VSS
11
+15V-A
14
C56
0.1
+15V
+15V 4
12
J1
N/C 18
R37
3320
TP6
U10:D
EXT
C47
0.1
N/C 19
CR6
E4:1
E6:3
ENABLE
U10:A
R34
2210
SYMMETRY ADJust
J1
L2
C24
10
35V
C26
0.1
L3
C29
10
35V
C32
0.22
L4
C30
10
35V
C33
0.1
L5
C31
10
35V
C34
0.1
+15V-A
+15V-B
S1940197 SHEET 2 OF 2 V1
+15V-C
Dimensions = mm (inches)
Electrical Schematic – RF Synthesizer PWB (NAPE70C/01)
Issue 1.8.1
Not to Scale
Figure SD-17
Sheet 2 of 2
+5V
2Fpdm
P1
TP2
U1:A
CLK
C14
100pF
R5
562
P1
R57
10K
R11
2.21M
C27
330pF
R8
1000
C25
C26 R10
100pF 0.047 10K
U2:B
C33
0.1
R22
1000
PDM DRIVER
12
U5:A
TP15
R30
2.21M
R25 R26
1210 1000
U2:C
14
14
C5
0.22
Audio
1.4 V offset
2.8 Vpp under
100% modulation
+15V 18
19
-15V 12
N/C 17
C7
0.1
U4
V_IN MC7805ACT V_OUT
GND
P1
L1
C1
10
35V
L2
P1
C9
10
35V
C2
10
35V
C15
0.1
C10
10
35V
C16
0.1
P1
L4
C4
10
35V
P1
C13 L3
0.1
C12
10
35V
C17
0.1
C3
10
35V
# PDM INSTALLED - 13
U6
AD633AN
Y2
+VS
Y1
-VS
+15V-B
B Sample = B
TP4 – A6 – A
A10 – B
-15V-A
C37
0.1
C39 L6
10
35V
C38
0.1
C20 L7
10
35V
 54.9
X2
+15V-A
R52
R53
562
C71
0.1
Y1
TP9
CW
U13:A
R27
18.2K
R2
22.1K
14
U3:B
R31
5000
U2:A
P1
C8
0.47
GAIN
TRIM
TP8
# INHIBIT PDM - 16
# RESET PDM -
R38
10K
0.1%
R39
10K
0.1%
R42
10K
0.1%
U3:A
TP13
R49
10K
0.1%
R46
10K
0.1%
U3:C
R50
R51
1000
R47
4990
R7
100K
12
R36
100K
+5V
14
C18
10
35V
C21
0.1
VCC
U1:C
MC74HC74
GND
+15V-A
10 11 12 13
C34
0.1
VCC
U8:E
MC34074
12
13
VEE
11
10 12 6
S1970043 SHEET 1 OF 1 V4
R65
56.2K
11
C30
0.1
-15V-A
+15V-A
+15V-A
C22
0.1
C23
0.1
VCC
U2:E
MC34074
VCC
VEE
11
C28
0.1
10
U3:E
MC34074
10 11 13
VEE
11
C29
0.1
-15V-A
+5V
-15V-A
+15V-B
14
C35
0.1
C36
0.1
K1:A
R77
1000
+15V-B
C49
100pF
R61 R63
1210 1000
Q6
2N4401
Q7
2N4403
C51
0.001
Q3
2N4401
C57
10
35V
C61
0.1
C42
0.1
14
VCC
U9:E
MC74HC00
GND
VCC
U12:E
MC3302
GND
25
15V PDM modulated
square wave at approx.
130 kHz
TP18
R75
10
R66
56.2K
K1:B
R78
1000
P1
P1
22 PDM 2
23
+15V-B
R68
1.0M
U12:B
E1:3
Q1
2N4401
C45
0.001
24 PDM 1
U12:A
CR4
C53
0.001
P1
+15V-B
+15V-B
10
R55
1000
DUMP
PDM FAULT
DETECTOR
R70
10K
+15V-B
P1
E1:1
R71
10K
11
E1:2
R72
10K
+5V
CR5
K1:C
10
P1
R69
1000
U9:B
Q10
2N4401
SHUTBACK
LATCH
C63
0.001
TP11
-15V-A
+15V-A
VEE
R74
10
13
U9:A
R33
1000
U9:D
+5V
P1
U13:E
MC34074
U11:B
TP17
R67
1.0M
562
10
R48
10K
CR1 R6
1000
VCC
Q2
2N4401
C52
0.001
INTERPHASE PDM
GENERATOR (2)
TP14
13 14
10
C60
0.1
C59
0.01
+5V
C24
0.1
Q5
2N4403
C56
10
35V
C58
0.01
CARRIER
LEVEL
CONTROL
R37
1000
+15V-A
Q4
2N4401
+5V
P1
R60 R62
1210 1000
C50
100pF
R54
1000
X1
0 to 6 Vdc depending on
power level
TP5 – A6 – A
A10 – B
TP5
P1
+15V-B
R44
10K
0.1%
12
C6
470pF
CR1 Anode Low
Power Inhibited
C48
0.001
TP12
R13
10K
CR3
TP4
U3:D
R3
10K
U10:B
U8:B
U8:C
+15V-B
1000
U7
+VS
AD633AN
Y2
10 Fpdm
10
INTERPHASE PDM
GENERATOR (1)
R12
10K
P1
-15V-A
P1
P1
R59
1000
DUMP
R1
100K
R56
1000
R15
2740
TP1
CARRIER REF
X2
-VS
+15V-A
13
B+ SAMPLE 1
X1
+5V
C11
0.1
R64
33.2K
U8:A
P1
R76
10
R58
15K
12
C19
R16
470pF 681K
R4
681K
P1
TP19
R73
3320
2f PDM Exciter
260 kHz, 5 V pulse train
TP19 – A6 – A
A10 – B
CW
UNBALANCED AUDIO 15
R14
4750
GND
C65
0.1
14
U12:C
+15V-A
TP3
U2:D
P1
R9
15K
C64
10
35V
TP10
C41
0.22
13
TP16
GND
R35
10K
10
R29 R34
2.21M 10K
CR2
L8
+15V-B
+15V-A
LINEAR
INTEGRATOR
+5V
+15V-B
INTEGRATOR
PEAK DETECTOR
TP7
11
C43
10
35V
C44
0.1
U5:C
LM319J
+V
-V
GND-A
GND-B
C46
0.1
10
C47
10
35V
-15V-A
+15V-B
11
C54
0.1
U10:C
LM319J
+V
-V
GND-A
GND-B
C55
0.1
-15V-A
+15V-B
12
11
C62
0.1
U11:C
LM319J
+V
-V
GND-A
GND-B
C66
0.1
12
12
Dimensions = mm (inches)
Electrical Schematic – Interphase PDM Driver PWB (NAPM11)
Issue 1.8.1
Not to Scale
Figure SD-18
Sheet 1 of 1
-15V-A
11 # PDM
LATCH +
XTAL2
+5V
+5V
SCK
MOSI
RESET
MISO
VCC
GND
C53
0.01
E1:1 E1:2
RESET
GND
MOSI
SCK
J2
15
J2
29
J2
16
INT BUS (-)
SCK
PC.0
MOSI
C9
0.01
23
R13
475
RESET
MISO
VCC
RESET
WDI
PFI
PFO
MR
WDO
J2
U7
+5V
VIN LT1790BIS6-4.096 VOUT
GND1
GND2
C26
0.1
C38
0.1
VCC
C43
0.01
U12
DS36C278TM
J1
J1
RO
DI
RE
DO/RI
DE
DO/RI
GND
J1
20
C25
1.0
35V
TP2
C24
0.1
KEYER OK
# KEYED CW # MISC -
KEYING MONITOR I/P 24
R66
10.0K
J1
J4
AREF
SS/PB.2
14
12
R27
10.0K
R28
10.0K
30
31
26
TXD
PD.5
C51
0.01
C50
0.01
R58
10.0K
R42
100
32
C52
0.1
C37
0.1
C42
0.1
FORWARD POWER 13
12
J1
R26
475K
R62
475K
18
C28
0.01
C27
0.01
R25
1.00M
VCC
INT1
XTAL1
C6
0.1
U4:E
10
Y1
3.6864MHz
R54
100
PC.1
GND
+5V
10
C35
0.1
C34
0.01
15
R30
182K
R31
182K
C31
0.1
19
10
13
MOSI
SCK
21
+5V
14
11
12
R45
100
R22
3.32M
CR7
BAT54HT1
22
C49
10
R60
332K
R55
0.0
C84
10
R41
100
FROM SHEET 2
VOICE I/P 10
12
U15:D
15 # CHANGEOVER 16 # SHUTDOWN -
RF_OFF
MOD_SELECT
15
#KEYED_CW+
TO SHEET 2
OE
MOD ENABLE
10 B
PTT
11 A
VCC
16
C17
0.01
C16
0.1
+5V
27
C82
0.1
C80
0.47
CR11
R84
100K BAT54HT1
VEE
SDATA
COMP
C5
0.01
SCLK
FSYNC
VDD
CAP/2.5V
+5V
ENABLE
GND
AGND
DGND
VOUT
10
C4
10
MCLK
TP4
C13
0.1
U5
AD9833BRM
-5V
C1
0.1
TONE GENERATOR
R2
10.0K
5 ZO
R16
33.2K
U8:C
TP1
Z 4
3 Z1
10
+5V
VLOGIC
W1 3
SHDN
CW
CW
CW
CS/AD0
12 XO
W3 6
13 X1
W2 22
R56
100K
A2 23
20K
DIS
U10
AD5263BRU20 GND 8
VDD
C33
0.1
CLK/SCL
+5V
C76
10
12
U8:D
2 Y0
1 Y1
RES/AD1
SDI/SDA
X 14
R44
100K
A3 5
R48
100
R19
100K
A1 2
Y 15
J1
C18
1.0
35V
13
R37
56.2K
R49
18.2K
R29 TP5
68.1K
14
R17
27.4K
J1
R23
3.32M
ICP/PB.0
OC1A
28
C83
0.1
C81
0.47
CR12
R85
100K BAT54HT1
CW
21 B4
MSK_REF
A4 20
TO SHEET 2
20K
SDO/O1
NC/O2
VSS
18
C41
0.1
-5V
R86
562K
J3
U8:A
J3
U17:A
R87
562K
U4:A
13
J3
J3
U17:C
U17:B
J1
J1
R76
22.1K
C85
10
R81
22.1K
KEYED TONE/AUDIO (A)
U8:B
ADC7
U1
MC74HC4053AD
J3
PC.5
DGPS_CARRIER_FAULT
J4
KEYING/# MISC ALARM -
19 W4
17
U9:C
QB
20K
ADC6
PC.4
10
QD
GND
20K
U9:A
VCC
1 B1
16
C30
0.1
J4
U15:C
R52
10.0K
R15
22.1K
C57
18pF
AVCC
GND
FROM SHEET 2
QA
R47
5620
GND
RF_MONITOR
QH
LATCH_CLK
24 B2
24
R64
2210
PD.4
INT0
C7
10
16V
PD.7
C46
18pF
RESET
14
C48 12
0.1
13
U9:D
25
VCC
PD.6
J1
QE
SHIFT_CLK
4 B3
+5V
C47
0.1
R51
10.0K
RESET
J1
U15:B
9 C
11
11
U15:A
CR5
BAT54HT1
SCK
+5V
QF
KEYING_GATE_CTRL
R50
10.0K
PC.3
MOSI
+5V
25 KEYING MONITOR OUTPUT
RXD
R65
100
C40
0.1
C65
0.01
13
R57
100
16
+5V
U11
ATmega168-20AI
+5V
R43
10.0K
11
SQH
U16
MC74HC595AD
QC
TP3
R46
100
J1
J1
+5V
14
MOSI
SCK
PC.2
+5V
10
RESET
DS1
+5V
# PTT - 11
QG
J1
E3:1 E3:2
CR6
BAT54HT1
U2
GND
ADM705AR
E1:3
+5V
+5V
+5V
17
INTERNAL
SERIAL INTERFACE
INT BUS (+)
CR4
BAT54HT1
J2
J2
E3:3
R67
10.0K
U13
VCC ADM803MAKSRESET
S1950151 SHEET 1 OF 2 V2
Dimensions = mm (inches)
Electrical Schematic – Exciter Monitor/Generator PWB (NAPE76A/03)
Issue 1.8.1
Not to Scale
Figure SD-19
Sheet 1 of 2
2Fpdm
U14
MC74HC4053AD
9 C
KEYING_GATE_CTRL
MOD_SELECT
16
VCC
C69
0.01
10 B
VEE
RF CURRENT MONITOR 21
+5V
C12
0.1
U3:E
TLV2374ID
VDD
GND
11
20
RF VOLTS MONITOR 23
+5V
C32
0.1
U9:E
TLV2374ID
VDD
GND
11
22
J1
2 Y0
R63
J1
C45
0.1
C70
0.1
-5V
R59
681
+5V
C19
0.1
14
VCC
C39
0.1
U8:E
MC33074AD
VCC
VEE
11
C44
0.1
14
VCC
C23
0.1
NAPE76A/02
1500
1500
C77
0.47
J1
1 Y1
R70
J1
R80
825
C8
0.1
R69
681
GND
C36
0.1
13 X1
R40
18.2K
R24
18.2K
C20
0.1
U3:C
C22 10
0.1
U6:E
MC3302D
GND
C71
0.001
R79
47.5K
R3
18.2K
C21 12
0.1
R38
18.2K
U3:A
R4
18.2K
J4
J4
C3
0.047
-15V
3 Z1
14
VCC
C74
0.1
Z 4
11
U6:D
13
R33
10.0K
KEYED CW
U15:E
11
C55
0.001
12
U18:G
GND
SN74AHCT14D
+5V
R9
3920
J1
R11
100
J1
TP6
U20:G
VCC
GND
CD74ACT04M
C72
0.1
+5V 12
U17:G
VCC
GND
CD74ACT04M
C63
0.1
J4
J4
L1
C64
10
16V
C58
0.01
+15V 10
VDD
U19:E
TLV2374ID
GND
L2
C56
10
35V
C59
0.01
11
NORMAL
J4
J4
J4
13 # INHIBIT Fc 14
18
CR2
R68
10.0K BAT54HT1
R20
10.0K
+5V
R5
12.1K
R18
1000
C10
0.001
U15:F
R53 13
10.0K
S1950151 SHEET 2 OF 2 V2
L3
C67
10
35V
C66
0.01
U18:A
C78
0.001
C60
0.01
R1
56.2
+15V
U18:B
R72
0.0
R71
10.0K
U20:D
R74
100K
C61
0.01
R75
100K
U19:A
R77
1000
R10
8250
C54
10
R21
1000
C73
10
35V
C68
0.1
# MSK ALARM -
R83
1.00M
C75
0.1
C79
10
R32
100K
C14
0.1
R36
8250
J3
RF DRIVE OUTPUT
U6:B
U6:C
14
CR1
BAT54HT1
DGPS_CARRIER_FAULT
-5V
Dimensions = mm (inches)
Electrical Schematic – Exciter Monitor/Generator PWB (NAPE76A/03)
Issue 1.8.1
Not to Scale
C11
0.01
R82
1.00M
J3
TP8
CR10
1SMB5918B
5.1V
U20:C
+5V
GND
R78
1000
J1
CR3
BAT54HT1
U20:A
R73
10.0K
+5V
J4
J4
R14
1000
Q1
MMBT4401LT1
12
U20:B
R8
825
MSK 50/50
GENERATOR
-15V
-15V
C15
0.01
TP9
J4
J4
R12
100
+5V
14
E2:2
R35
681
R7
R6
1000 1000
14
C62
0.1
E2:1
10
10
CR13
BAT54HT1
MSK_REF
+5V
CARRIER REF
(FILTERED)
CR8
BAT54HT1
RF_OFF
14
+5V
#KEYED_CW+
MSK 15
+5V
17
+5V
R34
10.0K
18 RF MONITOR
+5V
+5V
+5V
TO SHEET 1
14
U3:D
R39
18.2K
C2
0.1
13
J4
U4:G
GND
MM74AHCU04M
VCC
CR9
BAT54HT1
RF_MONITOR
U9:B
KEY SHAPING FILTER
U6:A
+5V
J1
ENABLE
J4
U15:G
GND
MM74AHCU04M
R61
15.0K
J1
FROM SHEET 1
+5V
R70
681
Y 15
5 ZO
+15V
R63
681
C29
0.47
X 14
NAPE76A/01
12 XO
CARRIER REF
+5V
* DENOTES SEE CHART FOR COMPONENT VALUE
+5V
E2:3
FROM SHEET 1
11 A
Figure SD-20
Sheet 2 of 2
TO SHEET 1
-15.5V (A)
-15.7V BATTERY
J4
J4
CR6
1N5819
J6
J6
J1
J1
J3
J3
CR5
1N5819
-15.5V (B)
CR4
1N5819
12
11
-15V (A)
-15V BATTERY BOOST
# RELAY CONTROL B-
INT BUS (+)
INT BUS (-)
INT BUS (GND)
22
23
24
25
J7
J7
J9
J7
J7
J7
J7
J9
J9
J9
J9
CR3
1N5819
J5
J5
J2
J2
12
11
-15V (B)
TP1
GND
+5V (A)
+5.9V BATTERY
J4
J4
J1
J1
J1
J1
J1
J1
J1
J1
CR21
MBR1645
J6
J6
CR22
MBR1645
CR23
1N5819
CR13
1N5819
J9
J9
J3
J3
CR14
1N5819
+5.6V (B)
J5
J5
CR24
1N5819
J10
J10
J2
J2
J2
J2
J2
J2
J2
J2
CR25
1N5819
+15.6V (A)
+15.8V BATTERY
J4
J4
CR15
MBR1645
CR9
1N5819
CR16
MBR1645
CR10
1N5819
J6
J6
CR26
1N5819
+15.6V (B)
S2050029 V1
J5
J5
J9
J9
J1
J1
J1
J1
J1
J1
J1
J1
J3
J3
J10
J10
J2
J2
J2
J2
J2
J2
J2
J2
10
+5V (A)
11
10
+5V (A)
POWER MODULE
J10
J10
J10
J10
J10
J9
24
# RELAY CONTROL B-
17
16
15
14
INT BUS (+)
INT BUS (-)
INT BUS (GND)
INT BUS (GND)
22
23
24
25
INT BUS (+)
INT BUS (-)
INT BUS (GND)
INT BUS (GND)
SIDE A +
SIDE A +
Fc (A)
B+ SAMPLE (A)
DUMP (A)
19
18
PDM (A)
+24.5V (A)
+24.7V BATTERY
MODULE A
J4
J4
J1
J1
J1
J1
J1
J1
J1
J1
CR17
MBR1645
J6
J6
CR19
MBR1645
MODULE B
J9
J9
CR11
1N5819
V_IN
CR18
MBR1645
U1
LM350T
V_OUT
+24V (A)
+24V (A)
E3
ADJ
33
34
35
36
37
38
39
40
R1
2.5W
CR1
P6KE30CA
30V
C1
0.1
C2
1.0
C5
0.1
C4
10
35V
L1
+24V (ATU)
E4
E5
Fc (A)
10
11
B+ SAMPLE (A)
12
13
DUMP (A)
14
15
PDM (A)
20
21
J7
J7
J9
J9
J7
J7
J9
J9
J7
J7
J9
J9
J7
J7
J9
J9
CR20
MBR1645
C3
1.0
J3
J3
J9
CR12
1N5819
J10
J10
+5V BATTERY BOOST
+5V (B)
POWER MODULE
10
+5V (B)
13
12
+15V (A)
POWER MODULE
17
18
19
20
13
14
15
16
+15V (A)
+15V BATTERY BOOST
+15V (B)
POWER MODULE
17
18
19
20
13
14
15
16
+15V (B)
Fc (B)
B+ SAMPLE (B)
DUMP (B)
25
24
PDM (B)
19
18
BATT B+ SELECT 1
BATT B+ SELECT 2
BATT B+ SELECT 3
17
16
15
14
J8
J8
J10
J10
J8
J8
J10
J10
J8
J8
J10
J10
J8
J8
J10
J10
J8
J8
J8
J8
J3
J3
J3
10
11
Fc (B)
B+ SAMPLE (B)
12
13
DUMP (B)
20
21
PDM (B)
18
19
20
BATT B+ SELECT 1
BATT B+ SELECT 2
N/C
+24.5V (B)
J5
J5
J2
J2
J2
J2
J2
J2
J2
J2
E1
T1
CR8
90-270VAC
C7
33
63V
R7
22.1K
R6
2210
R5
15K
CR7
C6
10
35V
E2
+24V SUPPLY (MODEM) (+)
E6
J1
J1
J2
J2
J1
J1
J2
J2
N/C
23
+24V
+24V (B)
33
34
35
36
+24V (B)
37
38
39
40
29
30
29
30
31
32
31
32
AC SIGNAL (A)
AC SIGNAL (B)
Dimensions = mm (inches)
Electrical Schematic – Interface PWB (NAPI94A)
Issue 1.8.1
Not to Scale
Figure SD-21
Sheet 1 of 1
LINE 1
90 – 270 V ac
P1
P2
LINE 2
GND 3
J3
A2
LINE 1
LINE 2
GND 3
110/220
VOLTAGE
DOUBLER
(OPTIONAL)
SWITCH MODE
POWER SUPPLY
PWB
1 LINE
2 LINE
3 GND
12
W3P2
BATTERY
BOOST
(+) 5
P1
(-) 6
J1
10
14
W3P2
DC CURRENT
19
20
# FAN FAIL +
20
17
GND
PART OF
A1
POWER
MODULE
INTERFACE
PWB
MODULATOR
J2
P3
DC OUTPUT
P4
J1
J2
B+
R2
68K
2W
C4
470
450V
R3
68K
2W
C5
470
450V
C6
470
450V
C8
0.12
J6
PART OF
A1
POWER
MODULE
CONTROL/
INTERFACE
PWB
C1
0.1
DS1
R11
15K
11
10
14
W1P2
R4
10
C7
6.8
35V
CR1
CR5
1N4743A
13V
C9
0.1
R5
1820
PA VOLTS
CLAMP
CR1
MUR8100E
VS
W1P2
W1P1
# PDM INHIBIT +
PDM
R1
33.2
C2
6.8
35V
VDD
N/C
C3
0.1
12
COM
10
CR12
LIN
VB
HO
11
CR9
P6KE20CA
20V
10
CR10
P6KE20CA
20V
CR23
P6KE20CA
20V
VCC
N/C
VSS
+15V
FPDM
J2
PDM (B+)
E1
U1
IR2110 N/C
CR6
MUR460
R7
2.21
0.5W
A4
MODULATOR
FILTER
PWB
Q1
STW14NM50
LO
L1
250μH
CR8
HFA08TB60
L2
C3
0.22 250μH
PA VOLTS
E1
C1
0.22
C2
0.056
R6
1000
J4
POWER
AMPLIFIER
SD
CR5
HIN
PDM Modulator
PDM @ 150, 250,
or 350 Vdc
C7 R3
0.1 15K
R4
8250
C4
0.01
Q1
STW14NM50
T1
W2P2
J1
10
#RF ALARM+
T1
CR1
MUR460
RED
3T
CR2
MUR460
RF TRANSFORMER
PWB
E2 20
E2
Q2
STW14NM50
10
Q5
2N4401
C5
1.0
T1
11
E1
E3
E3
C6
1.0
E4
10
U1:A
R1
47.5
+15V
W2P1
A3
L1
PA VOLT
W2P2 SAMPLE
J4
ORANGE
2T
R7
1000
5 V RF drive
square wave
Fc
J1
13
BROWN
3T
W2P1
R5
33K
2W
14
J7
J2
PA Volts with 95% modulation
Audio is filtered PDM
(see class D operation notes)
E2
2f PDM
Power Module
CR4
W3P1
W1P1
B+ SAMPLE
GND
CR3
R10
15K
CR2
J2
T1
R9
33K
2W
TP1
B+ ON
S2050060 V1
17
A5
OUTPUT ADJUST 2
OUTPUT ADJUST 1
# INHIBIT +
+24V
+24V
10
11
12
13
14
15
16
17
18
19
20
22
24
23
25
21
J6
B  5.4
J1
+15V
GND
+5V
GND
+24V
GND
B+ SAMPLE
SHIELD
Fc
SHIELD
DUMP
SHIELD
PDM
SHIELD
INT BUS (+)
INT BUS (-)
GND
# SIDE A (+)
FAN 1 TACH
FAN 1 ENABLE
+24V FAN 2
FAN 2 TACH
FAN 2 ENABLE
+24V FAN 2
# INHIBIT PDM A -
12
19
11
P18
W3P1
TEMPERATURE
C3
0.47
R2
2.5
15W
YELLOW
2T
Q3
STW14NM50
GREEN
3T
F1
1A
SLOW
C1
1.0
Vs
U1:B
MIC4452CT
GND
GND
Q4
STW14NM50
BLUE
3T
CR3
MUR460
CR4
MUR460
Dimensions = mm (inches)
Electrical Schematic – RF Power Module (NAP35B/01)
Issue 1.8.1
Not to Scale
Figure SD-22
Sheet 1 of 1
P1
12 RF OUT
11
+5V
+5V
R4
10.0K
+5V
R5
10.0K
+5V
R6
10.0K
+5V
R7
10.0K
+5V
R13
10.0K
+5V
R14
10.0K
+5V
R15
10.0K
+15V
U5
MC74HC165AD
R16
10.0K
# SIDEA + 20
# INHIBIT PDM - 21
# RF ALARM +
# FAN FAIL + 20
FAN 1 TACH
FAN 2 TACH
# RESET -
MISO
SCK
MOSI
VCC
GND
INT BUS (+) 17
J7
14
J7
13
J4
12
J6
11
C7
0.1
C8
0.1
C9
0.1
C10
0.1
C21
0.1
C22
0.1
C23
0.1
C24
0.1
+5V
R8
10.0K
J7
19
VCC
QH
SHIFT/LOAD
GND
SA
CLK_INH
16
C14
0.01
QH
CLK
U8
VIN LT1790BIS6-4.096 VOUT
GND1
GND2
C33
0.1
DC CURRENT 19
17
20
C29
1.0
35V
C30
0.1
24
10
15
TP2
U6:A
+5V
+5V
C11
0.01
R17
10.0K
U3
VCC ADM803MAKSRESET
GND
R10
10.0K
29
14
R9
10.0K
32
16
J1
17
J1
15
+5V
J4
J4
J4
+5V
+5V
R3
681
J7
C2
0.1
C1
0.01
R2
681
C17
18pF
Y1
3.6864MHz
DI
DO/RI
RE
DO/RI
DE
GND
31
30
23
18
+5V
C32
0.01
C31
0.01
C12
0.01
C13
0.01
J6
22
R28
1000
R22
??
C28
0.1
R25
??
C34
0.1
R23
100
J6
19
R24
1000
J6
R26
100
C37
0.1
12
R27
475
J7
+24V
C20
0.1
DS1
MODULE INSTALLED
PC.2
J6
25
R30
475
PD2 (INT0)
J7
J6
PB2 (SS)
DS2
J6
MODULE ON
PD3 (INT1)
J6
26
R29
475
MISO
14
+5V
DS3
C18
0.1
MODULE FAULT
SCK
VCC
U4:G
GND
MC74AC04N
+15V
J4
J4
MOSI
COM
U1:H
MC1413BD
GND
PA VOLT SAMPLE
+24V
Fc 11
12
J2
28
R12
121K
J2
GND
+5V
GND
DUMP
13
14
R20
475K
C15
0.1
J4
14
C25
0.1
XTAL2
R11
2210
J4
J7
RXD
PD4
VCC
R21
475K
C27
0.1
11
24 +24V FAN 1
25 +24V FAN 2
+24V
+24V
+15V
10
U1:A
PC.0
AVCC
VCC
PD5
PD6
J6
16
U1:B
J6
15
U1:C
10
J6
14
VCC
J7
ADC7
Q1
IRF520
J7
OUTPUT ADJUST 1
11 OUTPUT ADJUST 2
# INHIBIT +
22 FAN ENABLE
23
R1
10.0K
ADC6
PC5
GND
GND
21
+15V
J6
R31
22.1
C35
10
35V
C36 R33
0.1 1500
PC4
PB1 (OC1A)
Q2
2N7002LT1
13
10
14
TP4
J2
R34
10.0
J2
Fpdm
R32
10.0K
PD7
TP1
U4:A
J7
J7
U4:B
J7
L2
C3
1.0
35V
C5
0.1
L1
C4
1.0
35V
C6
0.1
J7
CR3
U4:C
+15V
J7
B+ SAMPLE
10
U4:D
J7
J7
C26
0.1
+15V
U6:E
GND
MC74HC125AD
+24V
J7
J7
R19
10.0K
TXD
GND
27
+15V
R18
6810
C19
0.1
# INHIBIT PDM +
J6
B+ SAMPLE
XTAL1
+5V
C16
18pF
VCC
U2
DS36C278TM
J7
J7
INTERNAL
SERIAL INTERFACE
J1
PB.0
J2
+15V
R35
100K
GND
PC.3
J1
J1
Q3
2N7002LT1
PC.1
RESET
J2
TP3
U7
ATmega8-16AI
CR2
BAT54HT1
J1
R36
10.0K
AREF
+5V
+5V
TEMPERATURE 12
+15V
+5V
CR1
BAT54HT1
J7
RO
INT BUS (-) 18
+5V
J4
J4
+5V
Fc - TO PA
TP5
J7
J2
J7
J2
10
DUMP
TP6
PDM
15
16
J7
J2
J7
J2
S2050004 V3
Dimensions = mm (inches)
Electrical Schematic – Power Module Control/Interface (NAPC151A)
Issue 1.8.1
Not to Scale
Figure SD-23
Sheet 1 of 1
PDM
+18V +18V
OUTPUT ADJUST 2
11
R4
10K
J1
+18V
OUTPUT ADJUST 1
+18V
R56
10K
J1
R40
10K
R33
10K
U4
MOC8104
* DENOTES SEE CHART BELOW FOR COMPONENT VALUE
R32
10K
CR3
U6
MOC8104
R37
10K
CR5
+18V
C14
0.01
C16
0.001
U5:E
MC34074
VCC
VEE
11
R13
390
2W
12
C11
0.01
J3
C4
0.015
14
L3
580uH
C9
0.01
C13
470
450V
C15
470
450V
C17
600V
5T
DS1
20
19
21T
CR10
HFA08TB120
CR14
HFA08TB120
+18V
J1
C2
1.0
VCC
OUT
V_IN
U3
UC3710
N/C
CR2
1N5819
N_INV
C10
1.0
R57
CR20
3.3 HFA08TB120
0.5W
CR4
P6KE20CA
20V
Q1
IXFK44N60
6T
10
18
Q2
IXFK44N60
16
21T
CR11
HFA08TB120
CR6
HFA08TB120
CR15
HFA08TB120
R27
1820
18.2K
E3
NOT USED
NOT USED
NAPS31B/03
NAPS31B/04
392K
22.1K
39.2K
NOT USED
56.2K
22.1K
4750
4750
6810
15.0K
39.2K
1820
NOT USED
INSTALLED
C27
600V
R17
390
2W
R20
390
2W
R10
L5
300μH
C44
3.3
C21
220pF
R11
Q4
MPF960
1T
T3
R24
R26
R25
R27
R29
681
C35
100pF
R18
390
2W
R21
390
2W
Q5
MPF960
C6
0.1
L4
300μH
+18V
C29
1.0
C43
3.3
C30
0.01
C23
220pF
C19
470pF
CR12
1N5819
J2
DC OUTPUT
C37 R22 R23
0.001 68.1 392
R12
332
C31
2700pF
VFB
C32
0.47
COMP
C28
0.01
U8
UC1844AJ
VCC
CUR_SEN
VREF
R30
6810
200T
R43
33K
5W
R5
3.32M
C5
0.1
R50
0.2
3W
L_GND
R58
15
0.5W
INV
+18V +18V
T2
CR1
1N5819
R26
15.0K
15.0K
R9
1.0M
0.5W
R25
4750
4750
J2
R15
390
2W
R24
22.1K
39.2K
C45
3.3
14
R11
NOT USED
39.2K
R14
390
2W
R10
22.1K
68.1K
L6
300μH
C20
220pF
6T
P_GND
AC
IND
R1
100K
2W
C12
470
450V
J1
# INHIBIT +
R7
100K
2W
U1
DSP25-16A
RV3
SIOV-S14K300
CR9
HFA08TB120
R19
390
2W
T1
CR7
HFA08TB120
U2
DSP25-16A
RV2
SIOV-S14K300
+18V
10
J3
J3
21T
RV1
SIOV-S14K300
AC INPUT
CR13
HFA08TB120
R16
390
2W
NAPS31B/01
NAPS31B/02
R63 R64
39.2 681
RT/CT
OUTPUT
C26
1000pF
GND
R35
332
R61
5620
J1
Q8
2N7000
U7
MOC8104
CR19
CR18
1N5819 1N5930C
16V
R52
39.2
C41
0.47
R28
2210
C36
0.01
R69
1000
+18V
R62
10K
E2
Q7
IRF520
U9
MOC8104
C18
1.0
35V
13
E2
FAN -
E1
FAN +
CR16
1N5819
J1
J1
L1
C1
0.001
J1
RT1
RXE050
J1
C25
0.1
V_IN
U10
LM350T
V_OUT
+18V
350 V
INVALID
236 V
INVALID
167 V
INVALID
R3
1000
OUTPUT OUTPUT
ADJUST 1 ADJUST 2
10
U5:B
R39
1000
U5:C
R44
1000
R46
182
R49
1000
C24
0.01
+18V
R65
1000
CR17
1N4733A
5.1V
C33
0.1
C22 R51
0.001 10
C38
0.001
R2
10K
J1
14
U5:D
12
t° U11
3 TMP36G
R55
R53 121
1500
R47
825
J1
U5:A
R66
10K
J1
C34 R68
0.001 10
17
12
TEMPERATURE
R67
10K
DS2
+18V
E3*
J1
CR21
1N5819
19 DC CURRENT SIGNAL
ADJ
R54
100
FAN FAIL
NAPS31B VARIATION
/01, /04
/02
/03
55 V
150 V
79 V
136 V
97 V
250 V
C7
0.1
E1
21-24V INPUT
C8
2.2
R41
10K
20 FAN FAIL
S1970095 V2
Dimensions = mm (inches)
Electrical Schematic – Switch Mode Power Supply PWB (NAPS31B/03)
Issue 1.8.1
Not to Scale
Figure SD-24
Sheet 1 of 1
J1
+15V
+5V
IN
J1
J1
L3
C5
10
35V
C6
0.1
J1
J1
L2
C3
10
35V
C4
0.1
R2
68K
2W
+15V
+5V
+5V
C11
0.1
VOUT
VCC
I+
I-
C8
3.3
E4
BATTERY RETURN
22
BATTERY CURRENT SAMPLE
23
L4
L1
E10:1
332
R29
27.4K
R36
10K
R37
825
E8
R9
15K
250W
E9:2
R24
10K
J1
R25
10K
Q3
2N7000
C17
0.1
13
+15V
R26
10K
R34
6810
+15V
250W
R35
274
E7:2
R14
10K
R15
10K
BATTERY BATTERY
SELECT SELECT
VR250/VRD375 VR125/VRD200
79 V
55 V
136 V
97 V
167 V
236 V
INVALID
INVALID
Q1
2N7000
C12
0.1
R3
5620
R8
1.0M
R4
182
R17
182
B+ VOLTAGE
CR2
1N5931A
18V
+24V
CR3
1N4747A
20V
J1
R12
10K
R38
4750
R20
39.2K
R22
12.1K
R11
4750
R41
100
2W
CR4
1N5819
R31
10
Q7
2N2905A
CR5
1N5819
R30
10
PWM_COMP
R23
10
2W
C15
560pF
R33
10
VREF
DEAD-TIME
VCC
C14
0.001
+ BATTERY BOOST (B+)
E6
Q4
STW26NM50
Q5
STW26NM50
INA-
R19
3320
14
10
R10
1210
RT
DS1
TP1
+15V
CT
GND
NC
INB+
+15V
C13
10
35V
GND
11
U3
MOC8104
Q2
2N4401
R13
10K
E1
+5V
S2050020 V4
+15V
E5:1 +48V E5:2
U4
MC34060
12
R16
3920
INB-
C16
470
450V
+15V
Q6
2N2219A
R32
10
R21
10K
R18
3320
E5:3
C9
22
35V
R7
10
C19
47
100V
125W
E7:3
CR6
DSEI60-06A
INA+
R39
2740
E7:1
J1
C20
0.01
R40
10K
R27
56.2
125W
E9:3
R6
R5
C10
0.0047 475K 475K
+15V
E9:1
+15V
CHARGER IN
BATTERY VOLTAGE SAMPLE
25
E3
E10:3
21
J1
24
GND
U2
ACS755LCB-050-PFF
125W
# DC INHIBIT -
J1
J1
E10:2
BATTERY SELECT 2 19
R1
4750
C7
0.01
250W R28
BATTERY SELECT 1 18
CR1
1N4745A
16V
C2
0.1
E2
IU1
ACS755LCB-050-PFF 2
I+
VCC
VOUT
CHARGER OUT
GND
J1
C1
0.01
J1
J1
10
CHARGER CURRENT SAMPLE
# BATTERY MODULE INSTALLED -
11
Dimensions = mm (inches)
Electrical Schematic – Battery Boost PWB (NAPS35)
Issue 1.8.1
Not to Scale
Figure SD-25
Sheet 1 of 1
STATION
REFERENCE
GROUND
CABINET
REF GND
1-PHASE
SPLIT PHASE
LINE
LINE
GROUND
GROUND
NEUTRAL
LINE
N/C
NEUTRAL
P3
REF GND
U5
UNIT 1
J1
W1P2
W1J1
VECTOR
NDB/DGPS
TRANSMITTER
RFA (N/C)
COMMON
11
B+
A3TB1
U1
BATTERY
CHARGER
(OPTIONAL)
A16TB1
A16TB1
B-
(+)
TO BATTERIES
(OPTIONAL)
(-)
TEMPERATURE
SENSOR
BTC
S2050023 V2
Dimensions = mm (inches)
Electrical Schematic – Vector-LP in Deluxe Cabinet (205-8075, Optional)
Issue 1.8.1
Not to Scale
Figure SD-26
Sheet 1 of 1
STATION
REFERENCE
GROUND
1-PHASE
SPLIT PHASE
TB1
LINE
LINE
GROUND
GROUND
NEUTRAL
LINE
N/C
NEUTRAL
P1
REF GND
U5
UNIT 1
J1
P2
J1
VECTOR
NDB/DGPS
TRANSMITTER
RFA (N/C)
COMMON
11
A3TB1
U1
BATTERY
CHARGER
(OPTIONAL)
B+
A16TB1
B-
TB2
A16TB1
(+)
(-)
BTC
TO BATTERIES
(OPTIONAL)
TEMPERATURE
SENSOR
S2050025 V2
Dimensions = mm (inches)
Electrical Schematic – Vector-LP in IP66 Cabinet (205-8080, Optional)
Issue 1.8.1
Not to Scale
Figure SD-27
Sheet 1 of 1
STATION
REFERENCE
GROUND
CABINET
REF GND
1-PHASE
SPLIT PHASE
TB1
LINE
LINE
GROUND
GROUND
NEUTRAL
LINE
N/C
NEUTRAL
P1
20A
BT1
(-)
VECTOR
NDB/DGPS
TRANSMITTER
CB1 *
FROM BATTERIES
(OPTIONAL)
REF GND
UNIT 1
TB2
(+)
U5
PH
* DENOTES BATTERY AND CIRCUIT BREAKER CB1
INSTALLED ONLY IN 205-8120 VARIATION.
TEMPERATURE
SENSOR
B-
B+
RFA (N/C)
U1
BATTERY
CHARGER
(OPTIONAL)
BTC
J1
P2
J1
A16TB1
A3TB1
COMMON
11
S2050037 V3
Dimensions = mm (inches)
Electrical Schematic – Vector-LP in Short Cabinet [205-8120 (with battery) or
205-8120-01 (no battery), Optional]
Issue 1.8.1
Not to Scale
Figure SD-28
Sheet 1 of 1
STATION
REFERENCE
GROUND
CABINET
REF GND
1-PHASE
SPLIT PHASE
TB1
LINE
LINE
GROUND
GROUND
NEUTRAL
LINE
N/C
NEUTRAL
P1
U5
P3
RS-232
A1J1
W2P1
TB2
W3P1 W3P2
VR-LINK
J1
UNIT 1
(OPTIONAL)
VECTOR
NDB/DGPS
TRANSMITTER
CB1
20A
BT1
W2P2
PH
TEMPERATURE
SENSOR
W2P3
B-
B+
RFA (N/C)
COMMON
11
U1
BATTERY
CHARGER
(OPTIONAL)
BTC
REF GND
A3J5
U2
J1
P2
J1
A16TB1
A3TB1
S2050042 V1
Dimensions = mm (inches)
Electrical Schematic – Vector-LP in Tall Cabinet (205-8200), Optional]
Issue 1.8.1
Not to Scale
Figure SD-29
Sheet 1 of 1
Vector-LP Radio Beacon Transmitter
TECHNICAL INSTRUCTION MANUAL
Section 10
MECHANICAL DRAWINGS
10.1 INTRODUCTION
This section contains mechanical drawings
for assemblies of the subject equipment.
Dimensional drawings may be included.
Refer to Table 10-1 for an itemized list.
Assembly detail drawings for assemblies/
modules that have separate maintenance
manuals are not included. Refer to the
appropriate maintenance manual for the
assembly detail of these assemblies.
10.2 LOCATING ASSEMBLY DETAIL
DRAWINGS
Each illustration in this section is identified
by a number that is both the figure number
and the page number. The numbers are
assigned sequentially and are prefixed by
the letters 'MD-'. Drawings in this section are
listed in Table 10-1.
Vector-LP Radio Beacon Transmitter Technical Instruction Manual
Section 10 Mechanical Drawings
10.3 CONTENT OF MECHANICAL
DRAWINGS
Mechanical drawings are illustrations that
depict the location of electrical components
and show assembly outline detail.
Dimensional information is included, where
appropriate.
When a module/assembly is the subject of its
own assembly detail drawing and it is also
shown in a higher level assembly, the detail
depicted in the higher level assembly may
have minor differences from the module/
assembly actually installed. In this case,
always refer to the assembly detail drawing of
the module/assembly for detailed information.
Page 10-1
Issue 1.8.1
Table 10-1: Mechanical Drawings
Figure #
MD-1A
MD-1B
MD-1C
MD-1D
MD-1E
MD-2
MD-3
MD-4
MD-5
MD-6
MD-7
MD-8
MD-9
MD-10
MD-11
MD-12
MD-13
MD-14
MD-15
MD-16
MD-17
MD-18
MD-19
Page 10-2
Issue 1.8.1
Description
Assembly Detail and Dimensional Information – Vector-LP Transmitter
Assembly Detail and Dimensional Information – Vector-LP Transmitter
(Installed in a Deluxe Cabinet)
Assembly Detail and Dimensional Information – Vector-LP Transmitter
(Installed in an IP66 Cabinet)
Assembly Detail and Dimensional Information – Vector-LP Transmitter
(Installed in a Short Cabinet)
Assembly Detail and Dimensional Information – Vector-LP Transmitter
(Installed in a Tall Cabinet)
Assembly Detail – NAPC147D Control/Display PWB
Assembly Detail – NAPI76A/02 Exciter Interface PWB
Assembly Detail – NAPI78D/02 Remote Interface PWB
Assembly Detail – NAPI80 Site Interface PWB (Optional)
Assembly Detail – NAPE70C/01 RF Synthesizer PWB
Assembly Detail – NAPM11 Interphase PDM Driver PWB
Assembly Detail – NAPE76A/03 Exciter Monitor/Generator PWB
Assembly Detail – NAPI94A Interface PWB
Assembly Detail – NAP35B/01 RF Power Module
Assembly Detail – NAPC151A Control/Interface PWB
Assembly Detail – NAPS31B/03 Switch Mode Power Supply PWB
Assembly Detail – NAAA06 Power Amplifier
Assembly Detail – NAPF06A Modulator Filter PWB
Assembly Detail – NASM11A/01 Modulator Assembly
Assembly Detail – NAPF05A RF Filter PWB (Standard Frequency Band)
Assembly Detail – NAPF07C/01 RF Power Probe
Assembly Detail – 205-8035 Battery Boost Assembly (Optional)
Assembly Detail – NAPS35 Battery Boost PWB (Optional)
Vector-LP Radio Beacon Transmitter Technical Instruction Manual
Section 10 Mechanical Drawings
TB1
ATU DC POWER
Dimensions = mm (inches)
Assembly Detail and Dimensional Information– Vector-LP Transmitter
Issue 1.8.1
Not to Scale
Figure MD-1A
Sheet 1 of 1
Dimensions = mm (inches)
Assembly Detail and Dimensional Information– Vector-LP Transmitter
(Installed in a Deluxe Cabinet)
Issue 1.8.1
Not to Scale
Figure MD-1B
Sheet 1 of 1
Dimensions = mm (inches)
Assembly Detail and Dimensional Information– Vector-LP Transmitter
(Installed in an IP66 Cabinet)
Issue 1.8.1
Not to Scale
Figure MD-1C
Sheet 1 of 1
Dimensions = mm (inches)
Assembly Detail and Dimensional Information– Vector-LP Transmitter
(Installed in a Short Cabinet)
Issue 1.8.1
Not to Scale
Figure MD-1D
Sheet 1 of 1
Dimensions = mm (inches)
Assembly Detail and Dimensional Information– Vector-LP Transmitter
(Installed in a Tall Cabinet)
Issue 1.8.1
Not to Scale
Figure MD-1E
Sheet 1 of 1
R35
R36
TP8
TP23
R253
C44
C46
R57
R58
R69
R70
R75
R76
R86
R87
R93
R94
C49
TP27
J2
TP26
R252
Q5
R251
E2
C68
R113
R114
C69
R125
R126
R127
C70
R128
R129
C71
R130
R131
C61
R115
R116
C85
C106
L8
R189
R190
R191
R192
R193
R194
TP34
TP35
C79
R138
C165
C92
C86
C80
R139
R149
R150
C89
R255
C166
C94
L5
C93
R158
R159
C96
R165
R166
C97
R167
R168
C100
R183
R195
TP39
R172 TP38
R173
C101
Q1
Q2
R174
R175
C107
C108
J4
R186
R92
R101
TP45
C139
TP41 C118
L11
TP43
TP44
C109
R196
R197
C110
R198
R199
TP46
GND
C113
R203
R204
C114
R205
R206
C123
R207
R208
C124
R209
R210
TP48
C130
R211
R212
C131
R213
R214
C153
TP49
L2
R140
C76
C67
L3
C77
J5
R142
R141
R143
C87
C88
C95
R187
R188
R176
R177
R178
C156
C146
R223
R224
R225
C135
R215
R216
C136
R217
R218
U36
R238
R222
Y1
C119 C126
U33
L15
C125
U29
J9
(U/S)
R219
TP40
U26
TP51
R226
R227
TP50
C141
TP52
GND
C140
L14
C148
C155
Q3
R239
R240
R241
C149
LS1
R242
C158
C151
R244
C157
R245
C152
C142
R249
J11
R237
Q4
TP53
C122
CR16
C159
R233 C145
R234
R235
R236
R247
R248
C147
R229
R230
R231
R232
R228
J7
L9
C163
C138
U22
C162
U37
U24
C137
TP47
R184
R185
TP29
R100
C143
C144
TP28
C54
R91
R221
U19
(U/S)
C128
C161
U34
C105
U18
C91
R148
C117
C160
C154
U30
U14
C90
R200
R201
CR14
CR15
R202
C150
L13
U25
C104
C116
Y2
C103
L10
C127
U13
L7
L4
C78
CR3
CR4
CR5
CR6
CR7
CR8
CR9
CR10
CR11
CR12
CR13
L12
R220
C133
R250
U35
C59
C62
U21
U8
R254
C164
C40
E1
R124
R105
C35
R47
R48
R112
C60
C99
E3
R246
U38
R90
R137
R243
U23
U31
C53
C30
C56
R99
TP19
C43
R73
TP13
R84
R74
R85
TP11
TP17
R108
C52
TP22
TP32
GND
C121
BT1
J10
U32
TP7
R89
C74
R135
C75
R98
R179
R180
R181
R182
C84
R136
C51
L6
C98
C115
C102
U10
U9
R96
R97
C45
C73
C63
R169
R170
R171
J8
U27
R56
R88
C83
R162
R163
R164
TP37
C134
U28
C29
R66
R67
R68
TP21
R78
R79
R80
R81
R82
R83
C42
C39
R55
R44
C24
R45
R46
C38
C28
R43
TP15
R72
R121
R106
R107
TP25
TP16
R134
R160
R161
C72
C58
C41
TP33
R155
R156
R157
TP42
C27
R54
R109
R110
R111
R77
C34
R119
R120
U15
R41
R42
TP6
C18
R33
R34
R21
R22
C26
R95
L1
U17
C11
C12
R19
R20
TP5
GND
C22
C23
R32
TP2
R52
R53
C66
R151
R152
R153
R154
C129
C120
C112
U20
R144
R145
R146
CR1
CR2
U16
C10
TP1
R51
TP4
C36
C32
R61 TP10
C33
R62
C37
R63
R64
R65
R49
R104
J6
U12
TP30
R132
R133
C65
C111
C82
R122
R123
R117
R118
TP14
U4
C21
C17
R18
C31
C20
R39
R40
R71
C57
U7
C9
U2
C19
U3
R17
R59
R60
C55
C48
C25
R38
R102
R103
C47
R37
R29
R30
R31
C8
TP24
A B C D E F GH I J
TP3
C16
R23
R24
C13
C14
R25
R26
R27
R28
C15
C81
C64
U11
U1
J1
J3
GRID1
SER.
C50
U5
NAPC
R1
R2
C1
C2
R3
R4
R5
R6
C3
R7
R8
R9
R10
C4
C5
R11
R12
R13
R14
C6
C7
R15
R16
+ 15V + 24V -15V
TP12 TP18 TP20
TP31
+ 5V
TP9
NAUTEL ASSY 195-2050
CONTROL/DISPLAY
U6
C132
M1950078 V1
Dimensions = mm (inches)
Assembly Detail – NAPC147D Control/Display PWB
Issue 1.8.1
Not to Scale
Figure MD-2
Sheet 1 of 1
14
13
A B C D E F
GRID1
SER.
NAPI
CR19
NAUTEL ASSY 195-3020
EXCITER INTERFACE
J9
12
11
10
Issue 1.8.1
Not to Scale
Figure MD-3
C23
Dimensions = mm (inches)
Assembly Detail – NAPI76A/02 Exciter Interface PWB
Sheet 1 of 1
J7
CR17
L8
CR16
L7
L6
CR15
CR18
CR6
L4
CR5
L3
L2
CR4
CR23
C12
R22
CR7
CR13
DGPS
E9
E8
J3
A B C D E F
GRID2
BEACON
E7
CR12
CR11
CR14
K2
K1
CR10
C15
R39
CR8
C20
R30
C19
R29
R28
R27
R26
R25
CR9
E6
BEACON
R24
R23
Q7
Q6
E5
BEACON
R21
R20
R19
DGPS
BEACON
E10
BEACON
E11
BEACON
DGPS
DGPS
E4
C21
R40
CR28
R38
C28
C14
CR27
R37
R18
C13
R17
C27
R16
R15
CR3
CR26
DGPS
CR2
CR1
R32
DGPS
R14
C11
R12
C9
R10
C8
R8
C7
R6
CR25
E3
C10
U4
C6
R5
C5
R3
C4
R31
R13
R35
R36
CR24
E2
Q5
R11
Q4
R9
Q3
R7
Q2
R4
Q1
R2
U3
C3
R1
J8
J10
Q9
C22
TERMINAL,TESTPOINT,PWB,YELLOW
C26
J5
CR22
C18
Q8
J15
R34
C17
C25
J6
C16
R33
CR21
TP2
TP1
CR20
U2
U1
C2
C1
15
16
17
TP3
HR10
TP4
J4
J11
J16
E1
J13
C24
M1950154 V1
MONITOR LEVEL
TP9
GND
HD-R
INPUT
MAGNITUDE
PHASE
EXT RF IN/
MSK (A)
R163
MSK (B)
TP8
J6
E11
BYPASS NORM
RF
J7
MONITOR
FREQUENCY
J8
11
J13
J17
J16
J16
RS-422
TP4
GND
RS-232
12
11
+ SHLD 14 15 16
13
17
18
19
20
REAR
AUDIO
MONITOR
B E4 A
10
EXT
INTERLOCK
PDM INHIBIT/
STANDBY CODE 1
TP7
TP12
GND
RF OFF/
STANDBY
CODE 2
RF ON/
RF ON/OFF
TP6
J12
TP2
GND
E15
CHARGER
ALARM
E14
TP5
TP3
NDB
E17
NORM
E13
R37
GND
NORM
NDB
J11
J3
POWER SUPPLY
AUDIO
LEVEL
AUDIO
INPUT
PROBES
INTERNAL RS-485
GND
PRESSTO-TALK
GND
J17
+ SHLD -
21
22
23
TP1
GND
24
TP10
SGL
E5
DIFF
SGL
E6
DIFF
TP11
SGL
E8
DIFF
SGL
E7
DIFF
TB1
J22
J5
J4
E18
BATTERY NORM
REMOTE INTERFACE
NAPI78
SER.
C87
TP9
GND
NORM
HD-R PHASE
10MHz
10MHz (A)
10MHz (B)
TP8
R164
L11
MONITOR
LEVEL
C127
C126
C123
R152
NORM BYPASS
E11
R166
R167
R165
U23
C103 C105
C125
U16
C100
C59
TP2
C13
T1
R23
R29
C17
TP1
GND
R73
R74
C49
C21
R28
R87
R114
R32
CR10
R158
R85
C64
R86
C65
CR22
C56
R156
C57
C66
R93 C122
R94
C72
R88
C73
R89
C74
E4
E17
NORM
NDB
C81
R9
C78+
C70
C71
R83
R84
R97
C75
R98 TP5
R99
R100
R101
R102
TP4
GND
C80
Q7
R90
C23
R18
C54
R48
R55
CR9
R26
R19
R91 R30
C69
C82
R103
TP6
TP7
R169
R106
C98
C88
C89
R109
R33 R132
R110
R139
R159
R145
R160
R133
R134
R135
CR25
R38
NORM BATTERY
R51
R54
R71
C50
CR18
R75
L7
R76
C62
L8
L9
C67
C76
C68
C77
C94
C83
C79
R105
U12
SINGLE
R70
DIFF
CR17
E8
SINGLE
R53
DIFF
R50
C107
C108NORM
R144
1 E13
NORM
TP12
GND
1 E14
NORM
C109
C106
R142
R143
NDB
NDB
NDB
E15
R170
R171
C44
CR16
E7
CR15
SINGLE
E18
C40
C34
DIFF
R16
CR1
C26
E5
R162
DIFF
L1
C10
E6
R15
SINGLE
TP10
R136
C102 R137
C84
C85
C95
CR26
TP11
R130
R131
R138
C112
U19
R22
R77
R78
TP3
U7
CR3
C22 THRESHOLD
CR11
CR12
R31
C16
C15
U6
C3
CR2
C61
R34
U3
R12
C9
C60
R82
C51
C20
FRONT
J17
U21
R72
C58
U17
R63
J16
R81
C55
U18
C47
U15
NORM NDB
C52
C42
U14 U13
C41
U11
C39
C31 C35
R17
C8
C46
C30
C12
R92
L3
C36
C29
R27
U1
C7
L6
U8
C6
L4
U9
R5
R6
C1
R1
C2
C45
L2
U10
R13
R14
J18
R96
R4
C119
C120
R161
L12
CR20
C4
J13
CR21
C118
C124
AUDIOAUDIO HD-R
FILTER
EXCITER
R153
C113
R123
M1950192 V2
Assembly Detail – NAPI78D/02 Remote Interface PWB
Issue 1.8.1
Not to Scale
Figure MD-4
Sheet 1 of 1
J1
C9
L2
R20
C11
C12
U6
TP5
N/O
N/C
10 11 12 13 14 15 16 17 18 19 20 21 22 23 24
N/C
COM
N/O
N/C
COM
COM
N/O
N/O
N/C
N/C
COM
COM
N/O
N/O
N/C
COM
COM
N/O
N/O
N/C
N/C
CONTROL
POINT 16
K16
K15
K14
K13
K12
K11
K10
K9
TB3
K8
K7
K6
K5
K4
K3
C30
U14
R54
C26
TP9
C27
U13
L3 C29
C28
C31
C32
C33
L4
R53
Y1
U9
C37
J2
NAUTEL ASSY 195-2080
NDB SITE INTERFACE
NAPI
TP13
TP10
L5
C34
SER.
L6
U20
TP6
R49
R50
TP8
U18
U12
CR15
TP7
U11
GND
TP4
CONTROL
POINT 15
TP11
C35
U19
GND
CONTROL
POINT 14
R52
C25
CR16
TP3
TP2
CONTROL
POINT 13
U16
R43
R44
K2
C24 R48
R37
R38
K1
C21 R42
U10
CR14
CR13
C23 R46
C19 R36
R31
R32
CR12
U8
C20 R40
R47 R51
CR11
R41 R45
CONTROL
POINT 12
U17
R25
R26
C18 R34
C16 R30
C14 R24
C15 R28
CR9
CR8
C13 R22
CR7
C8 R15
C10 R17
CR6
U7
R35 R39
CONTROL
POINT 11
TB2
U15
L1
R18
R19
U5
TB1
C22
R12
R13
U4
R23 R27 R29 R33
C17
R2
C2
C3
U3
CR5
C6
U2
R6
R7
C1
R16 R21
CR10
U1
CR1
R10 R14
R9
CR4
R8
R5
C5
C7 R11
R4
C4
R3
CR3
R1
CR2
TP1
22 23 24
CONTROL
POINT 10
COM
10 11 12 13 14 15 16 17 18 19 20 21 22 23 24
11 12 13 14 15 16 17 18 19 20 21
CONTROL
POINT 9
N/O
N/C
COM
N/O
N/C
COM
N/O
N/C
COM
N/O
N/C
N/C
COM
COM
N/O
N/O
16
CONTROL
POINT 8
N/C
15
CONTROL
POINT 7
COM
14
CONTROL
POINT 6
N/O
13
CONTROL
POINT 5
N/C
10
12
CONTROL
POINT 4
COM
11
CONTROL
POINT 3
N/O
10
CONTROL
POINT 2
N/C
CONTROL
POINT 1
COM
MONITOR
POINT
COMMON
MONITOR
POINT
COMMON
MONITOR
POINT
COMMON
MONITOR
POINT
COMMON
MONITOR
POINT
MONITOR
POINT
COMMON
COMMON
MONITOR
POINT
COMMON
COMMON
MONITOR
POINT
TP12
C36
GND
C38
M1950065 V1
Dimensions = mm (inches)
Assembly Detail – NAPI80 Site Interface PWB (Optional)
Issue 1.8.1
Not to Scale
Figure MD-5
Sheet 1 of 1
S1
x1000
E5
SHOWN CONNECTED
IN 'B' POSITION
901
654
901
654
S5
x0.1
901
901
654
901
654
901
654
901
654
901
654
901
654
SHOWN SET FOR 1294.0 kHz
654
654
GRID1
654
TP3
GND
654
901
654
L9
C39
901
U2
C19
R19
C38
R16
R15
C20
C55
U6
U7
TP6
C44
Q1
L4
C30
L3
Q2
Q3
TP7
E5
C58
R49
Q6
R50
Q5
C31
L5
C1
R46
C46
C57
R48
C40
R32
R33
R27
SOURCE
E4
EXT INT
C41
C35
A B C D E F
CR6
R31
R35
U12
L7
R43
C32
E6
ENABLE DISABLE
R34
C33
R2
R45
C48
R18
C29
SYMMETRY ADJ
U10
R29
R47
R52
U11
R21
C26 +
C24
3 2 1
U9
U8
C36
SHOWN SET FOR 387.5 kHz
FREQUENCY (kHz)
S3
S4
S2
x10
x1
x100
654
901
CR1
TP2
TORQUE ATACHING HARDWARE TO
4.0 INCH POUNDS (0.45 NEWTON METERS)
FREQUENCY (kHz) C43
S2
S3
S4
S5
x0.1
x100
x10
x1
901
R42
R17
R3
L6
901
R26
R28
C54
J1
R4
S1
x1000
CR5
PDM
E3
LOW HIGH
C4
C37
C56
R12
M3 HEX NUT
R25
R13
CR2
R10
R9
U4
R37
C28
R11
U3
CR3
U9 & U11 MOUNTING DETAIL
C42
TP5
TP4
GND
C21
R8
C3
M3 WASHER
C7
C47
C17
E1
EXT INT
E2
Q4
C27
C8
R6
L8
REF
M2000125 V1
TP1
C16
C2
R22
L1
R14
PWB
#4 BELLEVILLE WASHER
C25
C18
C9
HEATSINK
(OMIT FOR U11)
R20
C15
R5
U1
SEMICONDUCTOR
U5
C6
C14
R23
SYMMETRY
R51
CR4
C23
C12
L2
C5
C10
C13
C11
SER.
R7
C34
J2
IPM BAL
NAUTEL ASSY
194-3060
RF SYNTHESIZER
C22
M3 PAN HEAD SCREW
NAPE
10MHz
REF
INPUT
R1
M1940198 V1
901
654
Dimensions = mm (inches)
Assembly Detail – NAPE70C/01 RF Synthesizer PWB
Issue 1.8.1
Not to Scale
Figure MD-6
Sheet 1 of 1
C6
C21
U9
R3
C8
R1
C14
R25
U1
L8
L4
R60
CR3
R62
Q5
TP17
C58
C60
C56
R77
TP18
Q2
C47
C10
C57
C16
R66
Q3
Q7
R61
R52
C48
C55
R69
C53
Q6
C20
C23
C42
TP12
TP10
R38
R42
C38
Q10
C63
U11
C17
C12
C39
C37
C29
R27
TP4
R31
GAIN
C4
L6
R39
R53
U3
R44
C50
CR5
R55
R22
U10
R54
K1
C33
C54
C52
R75
C61
C2
C28
R35
U8
C44
R78
CR4
R64
R30
R10
U5
R74
L2
TP15
GND
R68
R67
Q4
R56
R34
L7
C59
R65
R29
U2
R47
R2
R12
C71
R13
R15
R46
R49
TP16
GND
C62
U13
R50
R51
C51
C66
R63
C49
NAUTEL ASSY 197-3040
INTERPHASE PDM DRIVER
NAPM
SER.
M1970044 V2
Dimensions = mm (inches)
Assembly Detail – NAPM11 Interphase PDM Driver PWB
Issue 1.8.1
Not to Scale
Figure MD-7
Sheet 1 of 1
C30
R70
R58
C22
U7
R72
U12
TP7
E1
C46
TP19
R76
C45
C41
C26
R14
R48
DUMP Q1
C34
C43
TP3
C9
R59
TP9 TP8
C64
P1
C25
R9
R71
R8
C36
C65
R26
TP13
R73
CR2
R57
TP2
R5
U6
C3 C18
R4
TP5
C27
C19
R11
R37
R16
C35
C24
L1
R36
C11
L3
U4
3 2 1
C5
C13
C7
R7
R33
TP14
R6
CR1
TP1
C15
TP11
C1
7
J1
R10
R21
C20
R4
U3
R24
C2
C3
DS1
R13
C36
U7
C28
TP2
R81
U20
U17
R72 C60
U19
L3
C66
R46
C40
C57
R64
U11
C50
R77
C51
R78
R65
R42
R57
R66
C52
C53
R43
R58
C37
C42
C83
C38
TP3
L2
Y1
C82
R27
R28
L1
C56
C46
U12
J2
TP6
C59
R40
R26
TP8
C65
C58
C26
C27
U2
CR4
CR6
CR5
R39
C24
U4
C9
R38
C25
C62 NORMALCR13
R52
R53
E1
C75
R83
C79
R51
R36
C22
C23
KEYER OK
R60
R35
R25
C39
R50
CR2
C12
R3
TP9
GND
R82
J4
U6
R20
C54
C67
R7
C10
C11
R74
R34
C21
E2
R6
E1
C61
R33
R5
C74
C14
R32
C8
R73
R75
CR1
C78
C41
C35
C72
C55 R71
R55
R56
U15
C7
C13
CR7
U10
U5
C63
U16
R47
C6
E3 R41
R44
C5
J4
C31
TP1
C34 C33
J3
C49
C84
C77
R61
CR8 1 E2
U1
C1
E3
C29
R80
C71
R79
CR9
C47
R62
C48
C17
C32
R19
C70
U18
C4
R45 R54
C30
R31
C16
TP4
R86
R30
R76 C85
C69
C64
R18
C19
U9
Q1
C45
R16
R2
R15
U8
R87
C15
R14
R59
R69
C44
CR3
CR11
R22
R9
R8
J3
CR12
R23
R85
C81
C80
R84
R11
R1 R12
R70
KEYED
CW
C76 R29
C18
R63
R49
R37
U14
R48
TP5
R68
R17
J1
TP8
C68
CR10
C73
NAPE76
U13 SER.
R67
C43
EXCITER MONITOR/
GENERATOR
M1950152 V2
REAR VIEW
TOP VIEW
Dimensions = mm (inches)
Assembly Detail – NAPE76A/03 Exciter Monitor/Generator PWB
Issue 1.8.1
Not to Scale
Figure MD-8
Sheet 1 of 1
10
10
A B C D E F GH I J
GRID1
Issue 1.8.1
Not to Scale
C7
C6
CR8
R7
R6
R5
CR7
CR6
CR5
CR4
T1
Figure MD-9
GND
CR3
C5
C4
C3
C2
C1
CR1
R1
U1
1 2 3
TP1
J7
L1
J4
J1
CR14
CR13
CR12
CR11
CR10
CR9
NAPI94
SER.
INTERFACE
CR22
CR21
CR20
CR19
CR18
CR17
CR16
CR15
CR26
CR25
CR24
CR23
E6
E5
E4
E3
J8
J5
11
J2
E1
J10
J9
J3
J6
M2050030 V1
Dimensions = mm (inches)
Assembly Detail – NAPI94A Interface PWB
Sheet 1 of 1
E2
Dimensions = mm (inches)
Assembly Detail – NAP35B/01 RF Power Module
Issue 1.8.1
Not to Scale
Figure MD-10
Sheet 1 of 1
Issue 1.8.1
Not to Scale
Figure MD-11
10
11
12
13
R1
Q1
R2
R3
C2
C1
CR1
C10
R7
C9
R6
C8
R5
C7
R4
TP1
R20
C11
C13
C12
C16
C19
U3
TP2
C27
R21
C26
R19
R26
C32
C33
C34
R24
U8
C30
R25
C28
C29
C31
R28
R23
TP6
TP5
R31
C35
C36
R33
Q2
R32
C37
R34
Q3
TP4
C20
R27
R35
R36
R22
GND
TP3
C25
C24
R16
C23
R15
C22
R14
C21
R13
CR3
J7 (U/SIDE)
C6
R11
R17
U7
C4
L1
C18
C14
U4
C5
C15
R18
R10
R12
CR2
C3
L2
R9
R8
Y1
C17
PWR MODULE CONTROL/INTERFACE
NAPC151
SER.
M2050022 V1
Dimensions = mm (inches)
Assembly Detail – NAPC151A Power Module Control/Interface PWB
Sheet 1 of 1
R29
R30
MODULE ON
DS1 DS2 DS3
MODULE
INSTALLED
J2 (U/SIDE)
MODULE
FAULT
J6 (U/SIDE)
J1
U1
U6
J4 (U/SIDE)
U2
U5
8
20
J3
T1
NAPS
L3
NAUTEL ASSY 197-7022
FORWARD CONVERTER
CR7
CR11
R20
C21
T3
T2
CR14
R19
10
R16
R13
L5
CR4
C27
C44
HEATSINK
CR18
C36
R69
CR20
C20
M3 WASHER
HAT46
SEMICONDUCTOR
U3
CR9
M3 PAN HEAD SCREW
C30
C2
R41
C18
E2
R10
C45
E1
R11
L6
R9
Q7
GD S
R23
CR19
R63
C37
C26
R30
C15
R35
U8
C28
C38
C31
R29
CR1
C35
R64
C41
R5
R28
R52
U11
L1
Q4
C1
C6
RT1
R49
R39
R44
Q5
U5
R3
R26
R27
C8
C22
R24
R25
R47
R51
CR21
C12
C19
CR2
E2
ALM
C7
E1
J2
CR13
R22
R12
C32
C5
CR6, CR7, U1, U2 & U10 MOUNTING DETAIL
TORQUE ATTACHING HARDWARE TO
4.0 INCH POUNDS (0.45 NEWTON METRES)
CR12
C29
R58
C10
R43
Q8
R57
R7
R1
DS1
AC IND
C13
U1
J1
U9
U10
C16
R66
R68
R46
C14
R67
C34
C33
U7
R62
R37
R55
CR17
R65
U6
R61
R53
R54
C24
C43
L4
#4 BELLEVILLE WASHER
U2
CR10
M3 HEX NUT
C25
C9
R17
Q1
11
CR6
10
CR15
R14
C11
HEATSINK
Q1 & Q2 MOUNTING DETAIL
TORQUE ATTACHING HARDWARE TO
6.0 INCH POUNDS (0.68 NEWTON METRES)
RV3
RV2
HAT46
RV1
SEMICONDUCTOR
M3 WASHER
Q2
R50
#4 BELLEVILLE WASHER
C17
R21
C23
R18
R15
M3 PAN HEAD SCREW
C4
SER.
R32
R2
1 2 3
CR5
U4
R56
R40
DS2
+18V
CR16
CR3
R4
R33
M1970096 V1
Dimensions = mm (inches)
Assembly Detail – NAPS31B/03 Switch Mode Power Supply PWB
Issue 1.8.1
Not to Scale
Figure MD-12
Sheet 1 of 1
1
R1
C3
R6
C1
R4
C7
R3
CR5
R2
R2
U1
12345
U1
J1
R7
Q5
C4
F1
M3 HEX NUT
E1
#4 BELLEVILLE WASHER
M3 WASHER
Q3
Q3
INSULATOR
Q1
Q1
SEMICONDUCTOR
R5
Q4
Q2
Q4
Q2
CR2
NAAA
TORQUE ATTACHING HARDWARE TO
4.0 INCH POUNDS (0.45 NEWTON METRES)
C2
T1
M3 PAN HEAD SCREW
SER.
CR3
NAUTEL ASSY 197-1055
POWER AMPLIFIER
CR1
CHASSIS
C6
E3
C5
E2
CR4
M1970016 V1
Dimensions = mm (inches)
Assembly Detail – NAAA06 Power Amplifier
Issue 1.8.1
Not to Scale
Figure MD-13
Sheet 1 of 1
A5E1
NAUTEL ASSY
195-1090
MODULATOR FILTER
C1
NAPF
SER.
L2
A3E2
CR1
C3
A3E1
L1
M1950012 V2
Dimensions = mm (inches)
Assembly Detail – NAPF06A Modulator Filter PWB
Issue 1.8.1
Not to Scale
Figure MD-14
Sheet 1 of 1
MODULATOR
NASM
CAUTION
SER.
HIGH VOLTAGE PRESENT
WHEN LAMP IS ON
J2
CR10
R1
4 RED
CR9
CR13
R11
R10
J1
R9
DS1
B+
ON
CR12
RED
CR3
T1
CR4
CR2
WHT
C3
C7
C9
CR5
R4
R5
C1
WHT
C2
R3
R2
CR1
U1
TP1
GND
CR6
R7
C4
E1
C8
E2
C5
C6
M1950121 V1
Dimensions = mm (inches)
Assembly Detail – NASM11A/01 Modulator Assembly
Issue 1.8.1
Not to Scale
Figure MD-15
Sheet 1 of 1
1
E1
E22
L1
E2
E1
E2
E4
E3
E5
E6
E7
E6
E7
E8
E9
E22
E23
E25
E24
E26
E27
E28
E27
E28
E29
E30
E31
E31
E31
E31
E31
E31
E31
E32
E32
E32
E32
E34
E34
E34
E35
E35
E35
E35
E35
E35
E35
E35
E16
E16
E16
E14
E14
E14
E14
E14
E14
E14
E14
E18
E18
E18
E18
E18
E18
E18
E16
E16
E16
E16
E25
E5
E26
E6
E27
E7
E28
E8
E29
E9
E10
E21
E30
10
10
E14
E11
E15
C1
E16
E13
E17
E34
E32
E35
C5
11
E12
E31
C2
C16
190.0 -209.0
209.1 - 229.9
230.0 - 252.9
253.0 - 278.2
278.3 - 306.0
306.1 - 336.6
336.7 -370.3
370.4 - 407.3
407.4 -447.9
448.0 - 492.9
493.0 - 535.0
E4
C15
E17
to
C6
E33
E36
E18
NAUTEL ASSY 195-6050
RF FILTER
C3
E19
NAPF
C4
SER.
C7
C8
J1
RF OUT
C14
E15
to
C12
E36
to
C13
E33
to
C10
E21
to
C11
E20
to
E24
C9
Frequency
(kHz)
Connect E12 to E11
E3
JUMPER SETTINGS
L2
E23
E20
M1950024 V2
Dimensions = mm (inches)
Assembly Detail – NAPF05A RF Filter PWB
Issue 1.8.1
Not to Scale
Figure MD-16
Sheet 1 of 1
7
TB1
T3
R9
T2
R10
GND
CR1
R7
R6
R5
R4
T1
R3
CR2
CR3
RF IN
SER.
NAPF07
RF OUT
RF POWER PROBE
CR4
C1
R1
R2
L1
C2
L2
L3
R8
L4
R11
J1
M1950170 V1
Dimensions = mm (inches)
Assembly Detail – NAPF07C/01 RF Power Probe
Issue 1.8.1
Not to Scale
Figure MD-17
Sheet 1 of 1
Dimensions = mm (inches)
Assembly Detail – 205-8035 Battery Boost Assembly
Issue 1.8.1
Not to Scale
Figure MD-18
Sheet 1 of 1
R14
R24
C7
R15
R25
R1
C12
C17
CR1
Q1
250W 125W
E7
Q3
250W 125W
E9
J1
IN
OUT
C3
R2
C4
1 2 3
U1
E2
L3
C5
R3
R16
R26
R4
R17
R27
R35
250W 125W
E10
C6
C2
R5
R19
R6
R21
C9
R40
R41
R9
C10
DS1
C13
R22
Q6
C14
+ 15V
R37
R38
U4
R8
L1
R36
R29
R39
R7
R28
C19
R20
C20
24
R18
R34
R10
CR4
Q7
CR5
12
13
R30
Q4
L2
E1
CHARGER
C1
R31
E3
R32
R33
L4
SMPS, 24/48V
BATTERY BOOST
U2
1 2 3
E4
NAPS35
SER.
Q5
IN
C11
+ 48V
E5
C15
CR6
R23
CR2
+ 24V
CR3
C8
R12
Q2
R13
U3
E6
C16
- OUT +
E8
R11
M2050021 V1
Dimensions = mm (inches)
Assembly Detail – NAPS35 Battery Boost PWB
Issue 1.8.1
Not to Scale
Figure MD-19
Sheet 1 of 1

---

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Modify Date                     : 2015:02:24 13:47:12-04:00
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