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Transcript

EP350
Portable Radios
Detailed Service Manual
Technical Information Updates
As we continue to make engineering enhancements to our products, the information in our
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Manual No.: 6878422A01
i
COPYRIGHT
Copyrights
© 2009 by Motorola, Inc. All rights reserved.
No part of this manual may be reproduced, transmitted, stored in a retrieval system, or translated into
any language or computer language, in any form or by any means, without the prior written
permission of Motorola Inc.
Computer Software Copyrights
The Motorola products described in this manual may include copyrighted Motorola computer
programs stored in semiconductor memories or other media. Laws in the United States and other
countries preserve for Motorola certain exclusive rights for copyrighted computer programs including,
but not limited to, the exclusive right to copy or reproduce in any form the copyrighted computer
program. Accordingly, any copyrighted Motorola computer programs contained in the Motorola
products described in this manual may not be copied, reproduced, modified, reverse-engineered, or
distributed in any manner without the express written permission of Motorola. Furthermore, the
purchase of Motorola products shall not be deemed to grant either directly or by implication, estoppel,
or otherwise, any license under the copyrights, patents or patent applications of Motorola, except for
the normal non-exclusive royalty-free license to use that arises by operation of law in the sale of a
product.
Trademarks
MOTOROLA and the Stylized M Logo are registered in the U.S.Patent and Trademark Office. All
other product or service names are the property of their respective owners.
ii
SAFETY INFORMATION
Product Safety and RF Energy Exposure Compliance
These servicing instructions are for use by qualified personnel only. To
reduce the risk of electric shock, do not perform any servicing other than that
contained in the Operating Instructions unless you are qualified to do so.
Refer all servicing to qualified service personnel.
Before using this product, read the operating instructions for safe usage
contained in the Product Safety and RF Exposure booklet enclosed with your
radio.
ATTENTION!
This is restricted to occupational use only to satisfy ICNIRP RF energy exposure
requirements. Before using this product, read the RF energy awareness information and
operating instructions in the Product Safety and RF Exposure booklet enclosed with your
(Motorola Publication part number 68007024010) to ensure compliance with RF energy
exposure limits.
For a list of Motorola-approved antennas, and other accessories, visit the following web site
which lists approved accessories: http://www.motorola.com/radiosolutions
iii
DOCUMENT HISTORY
The following major changes have been implemented in this manual since the previous edition:
Edition
Description
Date
6878422A01-A
Initial edition
Mar, 2009
6878422A01-B
Added VHF and UHF1 band information (Chapter 8,
9, 10, 11, 12, 13)
August, 2009
iv
Notes
Table of Contents
v
Table of Contents
Copyright ........................................................................................................ i
Safety Information......................................................................................... ii
Document History ........................................................................................ iii
Chapter 1
1.1
1.2
1.3
1.4
1.5
Preventive Maintenance ................................................................................................................ 1-1
Inspection ...................................................................................................................................... 1-1
Cleaning......................................................................................................................................... 1-1
Safe Handling of CMOS and LDMOS............................................................................................ 1-2
General Repair Procedures and Techniques ................................................................................ 1-2
Chapter 2
2.1
2.2
4.2
4.3
DC Power Distribution ........................................................ 3-1
DC Regulation and Distribution ..................................................................................................... 3-1
Chapter 4
4.1
Test Equipment, Service Aids, and Service Tools........... 2-1
Test Equipment.............................................................................................................................. 2-1
Service Aids................................................................................................................................... 2-2
Chapter 3
3.1
Maintenance ........................................................................ 1-1
Controller Theory of Operation.......................................... 4-1
RX Audio Circuit ............................................................................................................................ 4-1
4.1.1 Audio processor IC (U102) ............................................................................................... 4-1
4.1.1.1 RX Audio Processing......................................................................................... 4-1
4.1.1.2 RX Tone PL/Digital PL Decode Filtering............................................................ 4-2
4.1.2 Audio Amp ........................................................................................................................ 4-2
4.1.3 Internal and External Speaker .......................................................................................... 4-2
TX Audio Circuit............................................................................................................................. 4-3
4.2.1 MIC and External MIC ...................................................................................................... 4-3
4.2.2 4-order 4 kHz Low-Pass Filter (U501-C, D) ...................................................................... 4-3
4.2.3 Audio processor IC (U102) ............................................................................................... 4-3
4.2.3.1 TX Audio Processing ......................................................................................... 4-3
4.2.3.2 Tx Tone PL/Digital PL Encode Filtering............................................................. 4-4
4.2.4 TX audio amplifier and 6 order 3 kHz Low-Pass filter....................................................... 4-4
4.2.5 TX modulation Adjustment................................................................................................ 4-4
Microprocessor Circuitry ................................................................................................................ 4-4
4.3.1 Memory Usage ................................................................................................................. 4-5
4.3.2 Control and Indicator Interface ......................................................................................... 4-5
4.3.3 Interface to USB programming ......................................................................................... 4-5
4.3.4 Storage of Customer-Specific Information ........................................................................ 4-5
4.3.5 Sensing of VOX operating ................................................................................................ 4-5
4.3.6 Microprocessor Power-on reset Routine .......................................................................... 4-5
4.3.7 Microprocessor 7.3728 MHz Clock ................................................................................... 4-5
vi
Table of Contents
4.3.8
Battery indicator ................................................................................................................ 4-5
Chapter 5
435 – 480 MHz UHF2 Theory Of Operation ....................... 5-1
5.1
5.2
5.3
5.4
5.5
Introduction .................................................................................................................................... 5-1
UHF2 Receiver .............................................................................................................................. 5-1
5.2.1 Receiver Front End ........................................................................................................... 5-2
5.2.2 Receiver Back End ........................................................................................................... 5-2
UHF2 Transmitter .......................................................................................................................... 5-3
5.3.1 Power Amplifier................................................................................................................. 5-3
5.3.2 Antenna Switch ................................................................................................................. 5-3
5.3.3 Harmonic Filter.................................................................................................................. 5-3
5.3.4 Auto Power Control........................................................................................................... 5-4
UHF2 Frequency Generation Circuitry........................................................................................... 5-4
5.4.1 Reference Oscillator (12.8 MHz VCTCXO)....................................................................... 5-4
5.4.2 PLL IC Prescaler and Comparator.................................................................................... 5-5
5.4.3 Voltage Doubler and Charge Pump .................................................................................. 5-5
5.4.4 Loop Filter ......................................................................................................................... 5-5
5.4.5 Dual VCO .......................................................................................................................... 5-5
Keypad........................................................................................................................................... 5-6
Chapter 6
6.1
6.2
6.3
6.4
Troubleshooting Table for Receiver (UHF2) ................................................................................. 6-1
Troubleshooting Table for Synthesizer (UHF2) ............................................................................ 6-2
Troubleshooting Table for Transmitter (UHF2) ............................................................................. 6-3
Troubleshooting Table for Board and IC Signals (UHF2) ............................................................. 6-4
Chapter 7
7.1
7.2
7.3
8.3
8.4
UHF2 Schematic Diagrams, Overlays, and Parts Lists ... 7-1
Introduction .................................................................................................................................... 7-1
7.1.1 Notes For All Schematics and Circuit Boards ................................................................... 7-1
7.1.2 Four Layer Circuit Board ................................................................................................... 7-3
Speaker and Microphone Schematic ............................................................................................. 7-3
7.2.1 Speaker and Microphone Parts List.................................................................................. 7-3
Circuit Board/Schematic Diagram and Parts List (UHF2: 435–480 MHz)...................................... 7-4
7.3.1 Parts List ......................................................................................................................... 7-16
Chapter 8
8.1
8.2
UHF2 Troubleshooting Tables ........................................... 6-1
136 – 174 MHz VHF Theory Of Operation.......................... 8-1
Introduction .................................................................................................................................... 8-1
VHF Receiver................................................................................................................................. 8-1
8.2.1 Receiver Front End ........................................................................................................... 8-2
8.2.2 Receiver Back End ........................................................................................................... 8-2
VHF Transmitter............................................................................................................................. 8-3
8.3.1 Power Amplifier................................................................................................................. 8-3
8.3.2 Antenna Switch ................................................................................................................. 8-3
8.3.3 Harmonic Filter.................................................................................................................. 8-3
8.3.4 Auto Power Control........................................................................................................... 8-4
VHF Frequency Generation Circuitry............................................................................................. 8-4
8.4.1 Reference Oscillator (12.8 MHz VCTCXO)....................................................................... 8-4
8.4.2 PLL IC Prescaler and Comparator.................................................................................... 8-5
Table of Contents
8.5
8.4.3 Voltage Doubler and Charge Pump .................................................................................. 8-5
8.4.4 Loop Filter ......................................................................................................................... 8-5
8.4.5 Dual VCO.......................................................................................................................... 8-5
Keypad........................................................................................................................................... 8-6
Chapter 9
9.1
9.2
9.3
9.4
vii
VHF Troubleshooting Tables ............................................. 9-1
Troubleshooting Table for Receiver (VHF) ................................................................................... 9-1
Troubleshooting Table for Synthesizer (VHF) .............................................................................. 9-2
Troubleshooting Table for Transmitter (VHF) ............................................................................... 9-3
Troubleshooting Table for Board and IC Signals (VHF) ............................................................... 9-4
Chapter 10
VHF Schematic Diagrams, Overlays, and Parts Lists.... 10-1
10.1 Introduction .................................................................................................................................. 10-1
10.1.1 Notes For All Schematics and Circuit Boards ................................................................. 10-1
10.1.2 Four Layer Circuit Board................................................................................................. 10-3
10.2 Speaker and Microphone Schematic........................................................................................... 10-3
10.2.1 Speaker and Microphone Parts List................................................................................ 10-3
10.3 Circuit Board/Schematic Diagram and Parts List (VHF: 136–174 MHz)...................................... 10-1
10.3.1 Parts List....................................................................................................................... 10-14
Chapter 11
403 – 447 MHz UHF1 Theory Of Operation ..................... 11-1
11.1 Introduction .................................................................................................................................. 11-1
11.2 UHF1 Receiver ............................................................................................................................ 11-1
11.2.1 Receiver Front End ......................................................................................................... 11-2
11.2.2 Receiver Back End ......................................................................................................... 11-2
11.3 UHF1 Transmitter ........................................................................................................................ 11-3
11.3.1 Power Amplifier............................................................................................................... 11-3
11.3.2 Antenna Switch ............................................................................................................... 11-3
11.3.3 Harmonic Filter ............................................................................................................... 11-3
11.3.4 Auto Power Control......................................................................................................... 11-4
11.4 UHF1 Frequency Generation Circuitry ........................................................................................ 11-4
11.4.1 Reference Oscillator (12.8 MHz VCTCXO) .................................................................... 11-4
11.4.2 PLL IC Prescaler and Comparator.................................................................................. 11-5
11.4.3 Voltage Doubler and Charge Pump ................................................................................ 11-5
11.4.4 Loop Filter ....................................................................................................................... 11-5
11.4.5 Dual VCO........................................................................................................................ 11-5
11.5 Keypad......................................................................................................................................... 11-6
Chapter 12
12.1
12.2
12.3
12.4
UHF1 Troubleshooting Tables ......................................... 12-1
Troubleshooting Table for Receiver (UHF1) ............................................................................... 12-1
Troubleshooting Table for Synthesizer (UHF1) .......................................................................... 12-2
Troubleshooting Table for Transmitter (UHF1) ........................................................................... 12-3
Troubleshooting Table for Board and IC Signals (UHF1) ........................................................... 12-4
Chapter 13
UHF1 Schematic Diagrams, Overlays, and Parts Lists . 13-1
13.1 Introduction .................................................................................................................................. 13-1
viii
Table of Contents
13.1.1 Notes For All Schematics and Circuit Boards ................................................................. 13-1
13.1.2 Four Layer Circuit Board ................................................................................................. 13-3
13.2 Speaker and Microphone Schematic ........................................................................................... 13-3
13.2.1 Speaker and Microphone Parts List................................................................................ 13-3
13.3 Circuit Board/Schematic Diagram and Parts List (UHF1: 403–447 MHz).................................... 13-1
13.3.1 Parts List ....................................................................................................................... 13-13
Appendix A Warranty, Service Support, and Replacement Parts .......A-1
A.1
A.2
Scope of Manual ............................................................................................................................A-1
Warranty ........................................................................................................................................A-1
A.2.1 Warranty Period and Return Instructions..........................................................................A-1
A.2.2 After Warranty Period .......................................................................................................A-1
A.2.3 Piece Parts........................................................................................................................A-2
List of Figures
ix
List of Figures
Figure 2-1.
Figure 2-2.
Figure 2-3.
Figure 3-1.
Figure 4-1.
Figure 4-2.
Figure 5-1.
Figure 5-2.
Figure 5-3.
Figure 5-4.
Figure 7-1.
Figure 7-2.
Figure 7-3.
Figure 7-4.
Figure 7-5.
Figure 7-6.
Figure 7-7.
Figure 7-8.
Figure 7-9.
Figure 7-10.
Figure 7-11.
Figure 7-12.
Figure 7-13.
Figure 7-14.
Figure 8-1.
Figure 8-2.
Figure 8-3.
Figure 8-4.
Figure 10-1.
Figure 10-2.
Figure 10-3.
Figure 10-4.
Figure 10-5.
Figure 10-6.
Figure 10-7.
Figure 10-8.
Figure 10-9.
Figure 10-10.
Figure 10-11.
Figure 10-12.
Figure 10-13.
Figure 10-14.
Figure 10-15.
Figure 11-1.
Figure 11-2.
Figure 11-3.
Figure 11-4.
Figure 13-1.
Figure 13-2.
Figure 13-3.
Programming/Test Cable (PMDN4077_R)....................................................................... 2-3
Cloning Cable (PMDN4076_R) ........................................................................................ 2-3
Wiring of the Connectors.................................................................................................. 2-3
DC Power Distribution Block Diagram.............................................................................. 3-1
RX Audio Circuit ............................................................................................................... 4-1
TX Audio Circuit ............................................................................................................... 4-3
UHF2 Receiver Block Diagram ........................................................................................ 5-1
UHF2 Transmitter Block Diagram .................................................................................... 5-3
UHF2 Frequency Generation Unit Block Diagram ........................................................... 5-4
Keypad Block Diagram..................................................................................................... 5-6
Four–Layer Circuit Board: Copper Steps in Layer Sequence .......................................... 7-3
Speaker and Microphone Schematic ............................................................................... 7-3
UHF2 (435–480 MHz) Receiver Schematic Diagram....................................................... 7-4
VCO and PLL Schematic Diagram................................................................................... 7-5
Transmitter Schematic Diagram....................................................................................... 7-6
Microprocessor and Keypad Schematic Diagram ............................................................ 7-7
Audio Power Amplifier and External Audio Schematic Diagram ...................................... 7-8
Switches and Battery Schematic Diagram ....................................................................... 7-9
Transmitter Audio Filter and Sub-tone Schematic Diagram ........................................... 7-10
UHF2 (435–480 MHz) Mainboard Top Side: PCB No. 8431BEACON200..................... 7-11
UHF2 (435–480 MHz) Mainboard Bottom Side: PCB No. 8431BEACON200 ............... 7-12
UHF2 (435–480 MHz) Sub Circuit Board Top View: PCB No. 8421BEACON100......... 7-13
UHF2 (435–480 MHz) Sub Circuit Board Bottom View: PCB No. 8421BEACON100.... 7-14
UHF2 (435–480 MHz) Keypad Board: PCB No. 8422BEACON100 .............................. 7-15
VHF Receiver Block Diagram........................................................................................... 8-1
VHF Transmitter Block Diagram....................................................................................... 8-3
VHF Frequency Generation Unit Block Diagram.............................................................. 8-4
Keypad Block Diagram..................................................................................................... 8-6
Four–Layer Circuit Board: Copper Steps in Layer Sequence ........................................ 10-3
Speaker and Microphone Schematic ............................................................................. 10-3
VHF (136–174 MHz) Receiver Schematic Diagram....................................................... 10-1
VCO and PLL Schematic Diagram................................................................................. 10-2
Transmitter Schematic Diagram..................................................................................... 10-3
Microprocessor and Keypad Schematic Diagram .......................................................... 10-4
Audio Power Amplifier and External Audio Schematic Diagram .................................... 10-5
Switches and Battery Schematic Diagram ..................................................................... 10-6
Transmitter Audio Filter and Sub-tone Schematic Diagram ........................................... 10-7
Receiver Audio Filter and Sub-tone Schematic Diagram ............................................... 10-8
VHF (136–174 MHz) Mainboard Top Side: PCB No. 8431BEACON400....................... 10-9
VHF (136–174 MHz) Mainboard Bottom Side: PCB No. 8431BEACON400................ 10-10
VHF (136–174 MHz)Sub Circuit Board Top View: PCB No. 8421BEACON100 .......... 10-11
VHF (136–174 MHz)Sub Circuit Board Bottom View: PCB No. 8421BEACON100..... 10-12
VHF (136–174 MHz) Keypad Board: PCB No. 8422BEACON100 .............................. 10-13
UHF1 Receiver Block Diagram ...................................................................................... 11-1
UHF1 Transmitter Block Diagram .................................................................................. 11-3
UHF1 Frequency Generation Unit Block Diagram ......................................................... 11-4
Keypad Block Diagram................................................................................................... 11-6
Four–Layer Circuit Board: Copper Steps in Layer Sequence ........................................ 13-3
Speaker and Microphone Schematic ............................................................................. 13-3
UHF1 (403–447 MHz) Receiver Schematic Diagram..................................................... 13-1
x
List of Figures
Figure 13-4.
Figure 13-5.
Figure 13-6.
Figure 13-7.
Figure 13-8.
Figure 13-9.
Figure 13-10.
Figure 13-11.
Figure 13-12.
Figure 13-13.
Figure 13-14.
VCO and PLL Schematic Diagram ................................................................................. 13-2
Transmitter Schematic Diagram ..................................................................................... 13-3
Microprocessor and Keypad Schematic Diagram .......................................................... 13-4
Audio Power Amplifier and External Audio Schematic Diagram .................................... 13-5
Switches and Battery Schematic Diagram ..................................................................... 13-6
Transmitter Audio Filter and Sub-tone Schematic Diagram ........................................... 13-7
UHF1 (403–447 MHz) Mainboard Top Side: PCB No. 8431BEAUHF300 ..................... 13-8
UHF1 (403–447 MHz) Mainboard Bottom Side: PCB No. 8431BEAUHF300 ................ 13-9
UHF1 (403–447 MHz) Sub Circuit Board Top View: PCB No. 8421BEACON100 ....... 13-10
UHF1 (403–447 MHz) Sub Circuit Board Bottom View: PCB No. 8421BEACON100.. 13-11
UHF1 (403–447 MHz) Keypad Board: PCB No. 8422BEACON100 ............................ 13-12
List of Tables
xi
List of Tables
Table 1-1.
Table 1-2.
Table 2-1.
Table 2-2.
Table 3-1.
Table 4-1.
Table 6-1.
Table 6-2.
Table 6-3.
Table 6-4.
Table 9-1.
Table 9-2.
Table 9-3.
Table 9-4.
Table 12-1.
Table 12-2.
Table 12-3.
Table 12-4.
Lead Free Solder Wire Part Number List ......................................................................... 1-3
Lead Free Solder Paste Part Number List ....................................................................... 1-3
Recommended Test Equipment....................................................................................... 2-1
Service Aids ..................................................................................................................... 2-2
Voltage Regulators........................................................................................................... 3-2
Radio Memory Requirements........................................................................................... 4-4
Troubleshooting Table for Receiver (UHF2) .................................................................... 6-1
Troubleshooting Table for Synthesizer (UHF2)................................................................ 6-2
Troubleshooting Table for Transmitter (UHF2) ................................................................ 6-3
Troubleshooting Table for Board and IC Signals (UHF2)................................................. 6-4
Troubleshooting Table for Receiver (VHF)....................................................................... 9-1
Troubleshooting Table for Synthesizer (VHF) .................................................................. 9-2
Troubleshooting Table for Transmitter (VHF)................................................................... 9-3
Troubleshooting Table for Board and IC Signals (VHF)................................................... 9-4
Troubleshooting Table for Receiver (UHF1) .................................................................. 12-1
Troubleshooting Table for Synthesizer (UHF1).............................................................. 12-2
Troubleshooting Table for Transmitter (UHF1) .............................................................. 12-3
Troubleshooting Table for Board and IC Signals (UHF1)............................................... 12-4
xii
Notations Used in This Manual
Notations Used in This Manual
Throughout the text in this publication, you will notice the use of the following notations. These notations are
used to emphasize that safety hazards exist, and due care must be taken and observed.
Note
An operational procedure, practice, or condition that isessential to emphasize.
CAUTION indicates a potentially hazardous situation which, if not avoided,
might result in equipment damage.
Summary of Printed Circuit Boards and Bands Available
xiii
Summary of Printed Circuit Boards and Bands Available
Table below lists all the bands available in this manual.
Frequency
Band
Bandwidth
Power Level
PC Board Part Number
Board
Revision
Chapter
UHF2
435 – 480 MHz
1W or 4W
8431BEACON200
2
7
UHF2
–
–
8421BEACON100
1
7
UHF2
–
–
8422BEACON100
1
7
VHF
136 – 162 MHz
1W or 5W
8431BEACON400
4
10
VHF
–
–
8421BEACON100
1
10
VHF
–
–
8422BEACON100
1
10
UHF1
403 – 447 MHz
1W or 4W
8431BEAUHF300
3
13
UHF1
–
–
8421BEACON100
1
13
UHF1
–
–
8422BEACON100
1
13
xiv
Notes
Chapter 1 Maintenance
1.0
Introduction
This chapter of the manual describes:
•
Preventive maintenance
•
Safe handling of CMOS devices
•
Repair procedures and techniques
NOTE
1.1
The Servicing of your Intrinsically Safe Radios.
In order to maintain compliance, radios that are FM Approved to intrinsically safe
standards MUST be repaired at FM audited service centers. See Further Assistance From
Motorola on page 1-2 for more information.
Preventive Maintenance
Periodic visual inspection and cleaning is recommended.
1.2
Inspection
Check that the external surfaces of the radio are clean, and that all external controls and switches
are functional. It is not recommended to inspect the interior electronic circuitry.
1.3
Cleaning
The following procedures describe the recommended cleaning agents and the methods to be
used when cleaning the external and internal surfaces of the radio. External surfaces include the
front cover, housing assembly, and battery case. These surfaces should be cleaned whenever a
periodic visual inspection reveals the presence of smudges, grease, and/or grime.
NOTE
Internal surfaces should be cleaned only when the radio is disassembled for servicing or
repair.
The only recommended agent for cleaning the external radio surfaces is a 0.5% solution of a mild
dishwashing detergent in water. The only factory recommended liquid for cleaning the printed
circuit boards and their components is isopropyl alcohol (100% by volume).
CAUTION: The effects of certain chemicals and their vapors can have harmful results on
certain plastics. Aerosol sprays, tuner cleaners, and other chemicals should be avoided.
1.
Cleaning External Plastic Surfaces
The detergent-water solution should be applied sparingly with a stiff, non-metallic, shortbristled brush to work all loose dirt away from the radio. A soft, absorbent, lintless cloth or
tissue should be used to remove the solution and dry the radio. Make sure that no water
remains entrapped near the connectors, cracks, or crevices.
1-2
Introduction
2.
NOTE
1.4
Cleaning Internal Circuit Boards and Components
Isopropyl alcohol may be applied with a stiff, non-metallic, short-bristled brush to dislodge
embedded or caked materials located in hard-to-reach areas. The brush stroke should
direct the dislodged material out and away from the inside of the radio. Make sure that
controls or tunable components are not soaked with alcohol. Do not use high-pressure
air to hasten the drying process since this could cause the liquid to collect in unwanted
places. Upon completion of the cleaning process, use a soft, absorbent, lintless cloth to
dry the area. Do not brush or apply any isopropyl alcohol to the frame, front cover, or
back cover.
Always use a fresh supply of alcohol and a clean container to prevent contamination by
dissolved material (from previous usage).
Safe Handling of CMOS and LDMOS
Complementary metal-oxide semiconductor (CMOS) devices are used in this family of radios.
CMOS characteristics make them susceptible to damage by electrostatic or high voltage charges.
Damage can be latent, resulting in failures occurring weeks or months later. Therefore, special
precautions must be taken to prevent device damage during disassembly, troubleshooting, and
repair.
Handling precautions are mandatory for CMOS circuits and are especially important in low
humidity conditions. DO NOT attempt to disassemble the radio without first referring to the CMOS
CAUTION paragraph in the Disassembly and Reassembly section of the manual.
1.5
General Repair Procedures and Techniques
NOTE
Environmentally Preferred Products (EPP) (refer to the marking on the printed circuit
boards - examples shown below) were developed and assembled using environmentally
preferred components and solder assembly techniques that meet or exceed compliance
to the European Union’s ROHS and WEEE directives (Waste Electrical and Electronic
Equipment (WEEE) Directive 2002/96/EC and Restriction of Hazardous Subtances
(ROHS) Directive 2002/95/EC). To maintain product compliance and reliability, use only
the Motorola specified parts in this manual.
For the identification of lead (Pb) free assemblies, all EPP products will carry the EPP
Marking, shown below, on the printed circuit board (PCB). This marking provides
information to those performing assembly, servicing and recycling operation on this
product, adhering to the JEDEC standard #97. The EPP Marking takes the form of a
label or marking on the PCB.
Introduction
1-3
Any rework or repair on Environmentally Preferred Products must be done using the appropriate
lead-free solder wire and solder paste as stated in the following tables:
Table 1-1. Lead Free Solder Wire Part Number List
Motorola
Part
Number
Alloy
Flux Type
Flux
Content by
Weight
Melting
Point
Supplier
Part
number
Diamet
er
Weight
1088929Y01
95.5Sn/3.8Ag/0.7Cu
RMA Version
2.7-3.2%
217C
52171
0.015”
1lb spool
Table 1-2. Lead Free Solder Paste Part Number List
Motorola
Part Number
Manufacturer
Part Number
1085674C03
NC-SMQ230
Viscosity
Type
Composition & Percent Metal
900-1000KCPs
Brookfield (5rpm)
Type 3
(-325/+500)
(95.5%Sn-3.8%Ag-0.7%Cu)
89.3%
Liquid
Temperatur
e
217°C
Parts Replacement and Substitution
When damaged parts are replaced, identical parts should be used. If the identical replacement
component is not locally available, check the parts list for the proper Motorola part number and
order the component from the nearest Motorola Communications parts center listed in the “Piece
Parts” section of this manual.
Rigid Circuit Boards
The family of radios uses bonded, multi-layer, printed circuit boards. Since the inner layers are
not accessible, some special considerations are required when soldering and unsoldering
components. The through-plated holes may interconnect multiple layers of the printed circuit.
Therefore, care should be exercised to avoid pulling the plated circuit out of the hole.
When soldering near the connector pins:
•
Avoid accidentally getting solder in the connector.
•
Be careful not to form solder bridges between the connector pins
•
Closely examine your work for shorts due to solder bridges.
Chip Components
Use the RLN4062 Hot-Air Repair Station for chip component replacement. Adjust the
temperature control to 390 °C (735 °F), and adjust the airflow to a minimum setting. Airflow can
vary due to component density.
•
To remove a chip component:
1.
Use a hot-air hand piece and position the nozzle of the hand piece approximately 0.3 cm
(1/8") above the component to be removed.
2.
Begin applying the hot air. Once the solder reflows, remove the component using a pair
of tweezers.
3.
Using a solder wick and a soldering iron or a power desoldering station, remove the
excess solder from the pads.
1-4
Introduction
•
•
To replace a chip component using a soldering iron:
1.
Select the appropriate micro-tipped soldering iron and apply fresh solder to one of the
solder pads.
2.
Using a pair of tweezers, position the new chip component in place while heating the
fresh solder.
3.
Once solder wicks onto the new component, remove the heat from the solder.
4.
Heat the remaining pad with the soldering iron and apply solder until it wicks to the
component. If necessary, touch up the first side. All solder joints should be smooth and
shiny.
To replace a chip component using hot air:
1.
Use the hot-air hand piece and reflow the solder on the solder pads to smooth it.
2.
Apply a drop of solder paste flux to each pad.
3.
Using a pair of tweezers, position the new component in place.
4.
Position the hot-air hand piece approximately 0.3 cm (1/8”) above the component and
begin applying heat.
5.
Once the solder wicks to the component, remove the heat and inspect the repair. All
joints should be smooth and shiny.
Shields
Removing and replacing shields is recommended to be done with the Air Blower,
BOSCH GHG 603 or equivalent.
•
•
To remove the shield:
1.
Place the circuit board in the circuit board holder.
2.
Add solder paste flux around the base of the shield.
3.
Position the heat-focus head onto the shield.
4.
Turn on the heater and wait until the shield lifts off the circuit board.
5.
Once the shield is off, turn off the heat, and grab the part with a pair of tweezers.
6.
Remove the circuit board from the circuit board holder.
To replace the shield:
1.
Add solder to the shield if necessary, using a micro-tipped soldering iron.
2.
Next, rub the soldering iron tip along the edge of the shield to smooth out any excess
solder. Use solder wick and a soldering iron to remove excess solder from the solder
pads on the circuit board.
3.
Place the circuit board back in the circuit board holder.
4.
Place the shield on the circuit board using a pair of tweezers.
5.
Position the heat-focus head over the shield.
6.
Turn on the heater and wait for the solder to reflow.
7.
Once complete, turn off the heat, raise the heat-focus head and wait approximately one
minute for the part to cool.
8.
Remove the circuit board and inspect the repair. No cleaning should be necessary.
Chapter 2 Test Equipment, Service Aids, and Service
Tools
2.1
Test Equipment
Table 2-1 lists test equipment required to service the radios.
Table 2-1. Recommended Test Equipment
Motorola Part No.
Description
Characteristics
Application
R2600 series or
HP 8920A
System analyzer
This item will substitute for
items with an asterisk (*)
Frequency/Deviation meter and
signal generator for wide-range
troubleshooting and alignment
*R1074A
Fluke 87 digital
multi-meter
True RMS metering,
200 kHz frequency
counter, 32-segment bar
graph with backlit display
Digital voltmeter is recommended
for AC/DC voltage and current
measurements
Fluke 85 RF probe
500 MHz, 30 VAC max
Use with Fluke 87 digital
multi-meter for RF voltage
measurements.
*R1377A
AC voltmeter
1 mV to 300 mV, 10 mega- Audio voltage measurements
Ohm input impedance
R1611A
Dual channel
100 MHz
oscilloscope
(Agillent)
Two-channel, 100 MHz
bandwidth, 200 M sample
rate/sec, 2 MB memory/
channel
Waveform measurements
S1339A
RF millivolt meter
100 μV to 3V RF, 10 kHz to
1 GHz frequency range
RF level measurements
*R1013B or
SINAD meter or
Receiver sensitivity
measurements
*R1370A
SINAD meter with
RMS
Without RMS audio
voltmeter or
With RMS audio voltmeter
2-2
2.2
Test Equipment, Service Aids, and Service Tools: Service Aids
Service Aids
Table 2-2 lists the service aids recommended for working on the EP350 Series Radios. While all of
these items are available from Motorola, most are standard shop equipment items, and any
equivalent item capable of the same performance may be substituted for the item listed.
Table 2-2. Service Aids
Motorola Part
No.
Description
Application
PMDN4026_R
Flat Ceramic Tuning Tools
(1.8mm)
Used for tuning the VCO.
PMDN4038_R
Knob Remover/Chassis Opener
Used to remove the front cover assembly.
PMDN4039_R
Crab Eye Nut Opener
Used to remove the crab eye nut.
PMDN4040_R1
Radio Test Box
Enables communication between the radio, test
equipment and the computer's USB port.
PMDN4041_R
RF Adapter
Adapts radio’s antenna port to BNC cabling of test
equipment.
PMDN4044_R
T-Head Ceramic Tuning Tool
Used for tuning the VCO.
PMDN4053_R
Flat Ceramic Tuning Tools
(0.9mm)
Used for tuning the VCO.
PMDN4076_R
Radio to Radio Cloning Cable
Allows a radio to be duplicated from a master radio by
transferring programmed data from the master radio to
the other.
PMDN4077_R
Programming Cable
Used to program the radio through Customer
Programming Software and Radio Tuner.
PMDN4079_R
GND Plate
Interconnects radio’s chassis to RF Adaptor.
PMDN4080_R
Battery Eliminator
Interconnects radio to power supply.
PMVN4161_
Customer Programming
Software on CD Rom
Program customer option and channel data.
PMVN4165_
Tuner on CD Rom
Only Motorola Service Centers or Authorized Motorola
Service Dealers can perform this function.
Note: 1.Use PMDN4040BR or higher for tuning the EP350 Series radios as PMDN4040AR cannot be used to
perform this function.
Test Equipment, Service Aids, and Service Tools: Service Aids
2-3
Programming/Test Cable
2.5mm stereo
USB connection t
Figure 2-1. Programming/Test Cable (PMDN4077_R)
2.5mm stereo
~
2.5mm stereo
Figure 2-2. Cloning Cable (PMDN4076_R)
D+ D-
VBUS
TX_D
1
RX_D
2.5mm stereo >
2
2
3
VBUS
DD+
To Computor
GND
4, 5, 6
GND
IC : CP2102
1
RX / TX data
1
2
GND
Figure 2-3. Wiring of the Connectors
USB_CONNECTOR
2-4
Test Equipment, Service Aids, and Service Tools: Service Aids
Notes
Chapter 3 DC Power Distribution
3.1
DC Regulation and Distribution
A block diagram of the DC power distribution throughout the radio is shown in Figure 3-1.
VCTCXO
Vdd
Regulator
5V
Audio filter
½ Vcc
Voltage
Doubler
VCO
10V
Charge
Pump
SWB+
7.5V
Battery
RX B+
TXVB
Mech SW1
PA
Vdd
Regulator
APC
Key PCB
3.3V
MCU, EEPROM
PLL IC
Digital potentiometer
Driver,
Pre-driver
Low Batt.
detector
DTMF IC
LCD Driver
Audio
Amplifier
Figure 3-1. DC Power Distribution Block Diagram
Battery voltage enters at connector J602 and is routed through SW/VOL1 to become SWB+.
This voltage is routed to:
• SW/VOL1
• TX power amplifier Q403 (via R417)
• APC circuit U401
• RX audio power amplifier U601
• 5V regulator (U505)
• 3.3V regulator (U506)
• Voltage divider R153/R154, a microprocessor A/D input which measures battery voltage
• Key PCB
3-2
DC Power Distribution: DC Regulation and Distribution
The following regulators are used:
Table 3-1. Voltage Regulators
Reference No.
Description
Type
U505
5V regulator
TK11250
U506
3.3V regulator
TK11233
U507
Voltage Doubler (10V)
TC12140
The 5 V source from U505 is applied to:
• RX back end circuitry
• RX/TX audio filters
• 1/2 VCC generator
• VCO power source (Q705, Q706)
• RX B+ (Q304)
• TXVB (Q407)
• VCTCXO
The 5 V source is also applied to transistor switches Q304 and Q407. Q304 is turned on by Q305
when RX_EN (from U101 Pin 71) is high, and supplies the source to mixer, IF IC and LNA. Q407 is
turned on by Q408 when TX_EN2 (from U101 Pin 85) is high, and supplies the "TXVB" source to the
first transmitter stage Q401 base, Q402 gate, APC power source (U401 Pin 8) and ANT switch
(CR401).
The 3.3 V regulated source from U506 is applied to:
• MCU IC U101
• EEProm IC U104
• DTMF IC U103
• Audio processor IC U102
• Microphone bias circuitry
• And applied to Key PCB (LCD driver power source)
The 10 V source from U507 is applied to Charge Pump.
Chapter 4 Controller Theory of Operation
4.1
RX Audio Circuit
The RX audio circuit consists of Audio Processor IC, Audio Amplifier, Internal (INT)/External (EXT)
speaker and Sub-Audio Tones System.
Audio Processor IC (AK2347)
RXA1
Audio IN
(from IF IC)
RX LPF
TX/RX HPF
Scrambler/
Descrambler
VR3
pin24
Deemphasis
Expander
-4 to +3.5dB/
0.5dB
VR4
SMF
-18, -4.5 to +4.5dB/
0.25dB
pin21
U102
Sub audio
Programmable
LPF
-6 to +6dB/
0.5dB
Audio Amp.
Vol1
INT SPK.
VR5
J601
IN-
OUT-
IN+
pin18
Sub audio
HPF
OUT+
U105-A,B
U601
SVR
EXT SPK.
Comparator
To CPU
(tone detect)
U105-C
Audio Mute
control
Figure 4-1. RX Audio Circuit
4.1.1
Audio processor IC (U102)
The RX audio from Pin 9 of U201 enters to Pin 24 of Audio processor IC.
• RX A: An operational amplifier used for gain adjustment of the receive demodulation signal
from Pin 9 of U201. The gain is unity and it acts as a buffer amplifier.
4.1.1.1 RX Audio Processing
• VR3: This circuit controls the volume for adjusting the input level of receive demodulation
signal. Adjustment range: -4.0dB to +3.5dB in 0.5dB steps.
• RX LPF: Low-pass filter to eliminate high-frequency components higher than 3 kHz which are
included in the receive demodulation signal.
• TX/RX HPF: High-pass filter to eliminate low-frequency components lower than 250 Hz which
are included in receive audio signal. This circuit is turned on and off by control register of Audio
processor IC.
• Descrambler: This circuit inverts the spectrum distribution of receive audio signals with respect
to the carrier frequency. The carrier frequency is 3.388 kHz or 3.290 kHz.
4-2
Controller Theory of Operation: RX Audio Circuit
• De-emphasis: This circuit restores the original state of signal of which high-frequency
component has been emphasized by the pre-emphasis.
• Expander: This circuit expands the signal compressed twice by the Compressor in dB scale to
restore the original signal state.
• VR4: This circuit controls the volume for adjusting the RX output level.
Adjustment range: -18.0dB, -4.5dB to +4.5dB in 0.25dB steps.
• SMF: Smoothing filter to eliminate the high-frequency and clock components generated in the
Audio processor IC.
4.1.1.2 RX Tone PL/Digital PL Decode Filtering
• Sub-audio Programmable LPF: Low-pass filter to eliminate components of the RXA1 signal.
This circuit is controlled by the internal registers and by the audio processor IC for cut-off
frequency.
• VR5: This circuit controls the volume for adjusting the output level from the sub-audio LPF
signal. Adjustment range: -6.0dB, +6.0dB in 0.5dB steps
The sub-audio tone of U102 Pin 18 output pass through switchable high-pass filter U105. This filter
(U105-A, B) has 4 different high pass cut-off frequencies which can be selected accordingly to the
sub-tone audio. This filter (U105-A, B) filters the unwanted sub-tone. The tone of U105-B output
passed through U105-C comparator, which acts as a squaring circuit. This output signal is then sent
to microprocessor Pin 3. The micro-processor then decodes CTCSS and CDCSS from this square
signal.
4.1.2
Audio Amp
The de-emphasized audio signal from Pin 21 of audio processor IC passes through volume control
(SW/VOL1) and is amplified by U601BTL audio amplifier to a sufficient level to drive a loud speaker.
U601 has mute/un-mute function controlled by audio-mute control (Pin 83) of CPU. When U601
Pin 1 is low, the audio amp goes to active (un-mute) mode. When U601 Pin 1 is high, the audio amp
goes to mute mode.
4.1.3
Internal and External Speaker
When no external speaker is plugged into J601, the RX audio is passed through to the internal
speaker. When an external speaker is plugged into J601, the internal speaker is cut-off from the
rest of the circuit and RX audio is passed through the external speaker.
Controller Theory of Operation: TX Audio Circuit
4.2
4-3
TX Audio Circuit
The TX audio circuit consists of MIC/External MIC, LPF, Audio processor IC, and TX Sub-tone
system. For UHF1 and UHF2, refer to Figure 4-2. For VHF, refer to Figure 4-3.
4 Order LPF
(Fc=4KHz)
Mic
(Audio IN)
Audio Processor IC (AK2347)
U501-C,D
TX/RX HPF
TXA1
VR1
(HPF)
pin4
Compressor
Scrambler/
Descrambler
PreEmphasis
-6 to +4.5dB/
1.5dB
Limiter
VR2
Splatter
SMF
-9.6 to +3dB/ Fc=2.55KHz/
0.2dB
3KHz
Fc=300Hz
pin8
U102
DTA1
Tone IN
(from CPU)
Sub audio
Programmable -6 to +6dB/
LPF
0.5dB
2 Order LPF
(Fc=300Hz)
6 Order LPF
(Fc=3KHz)
TX AF Amp.
pin19
VR5
Mod.Adj,
pin17
U502-C
U508
U501-A,B
U502-A
To VCO &
VCTCXO
Figure 4-2. TX Audio Circuit (UHF1 and UHF2)
4 Order LPF
(Fc=4KHz)
Mic
(Audio IN)
Audio Processor IC (AK2347)
U501-C,D
TX/RX HPF
TXA1
pin4
VR1
(HPF)
Compressor
Scrambler/
Descrambler
PreEmphasis
-6 to +4.5dB/
1.5dB
Limiter
VR2
Splatter
-9.6 to +3dB/ Fc=2.55KHz/
0.2dB
3KHz
Fc=300Hz
pin8
U102
DTA1
Tone IN
(from CPU)
SMF
Sub audio
Programmable -6 to +6dB/
LPF
0.5dB
2 Order LPF
(Fc=300Hz)
6 Order LPF
(Fc=3KHz)
TX AF Amp.
pin19
Mod.Adj,
VR5
pin17
U501-A,B
U502-A
To VCO &
VCTCXO
Figure 4-3. TX Audio Circuit (VHF)
U502-C
U508
4-4
4.2.1
Controller Theory of Operation: TX Audio Circuit
MIC and External MIC
The TX audio enters the radio via the internal MIC or the external MIC jack. When using
the internal MIC, the audio passes through the external jack then rest of the circuits. When using the
external jack, the audio from the internal MIC is cut-off from the rest of the circuits and the external
MIC audio is passed to the rest of the circuits.
4.2.2
4-order 4 kHz Low-Pass Filter (U501-C, D)
4-order 4 kHz Low-pass filter to prevent aliasing noise of the ASIC switching cut-off frequency.
4.2.3
Audio processor IC (U102)
4.2.3.1 TX Audio Processing
Tx Audio from Pin 14 of U501-D enters the ASIC at Pin 3, 4 (Internal TX AMP).
• TX A1: Operational amplifier for gain adjustment of TX audio signal. R102, R103, C102, C103
are used to set the gain.
• VR1 (HPF): This circuit controls the volume for adjusting the input level of TX audio signal.
Adjustment range: -6.0dB, +4.5dB in 1.5dB steps
• Compressor: This circuit compresses the amplitude of transmit audio signal by 1/2 in dB scale.
• Pre-emphasis: This circuit emphasizes the high-pass frequency component of TX audio signal
to improve the S/N ratio of the modulation signal.
• TX/RX HPF: High-pass filter to eliminate low-frequency components lower than 250 Hz which
are included in transmitter audio signal. This circuit is turned on and off by control register of
Audio Processor IC.
• Scrambler: This circuit inverts the spectrum distribution of transmitter audio signals with
respect to the carrier frequency. The carrier frequency is 3.388 kHz or 3.290 kHz.
• Limiter: Amplitude limiting circuit to suppress frequency deviation in the modulation signal. The
limit level can be adjusted by applying a DC voltage the LIMLV Pin 7. When the pin is left open,
the level predetermined within the device is output.
• VR2: This circuit controls the volume for adjusting the output level on the MOD Pin 8.
Adjustment range: -9.6dB to +3.0dB in 0.2dB steps.
• Splatter: Low-pass filter to eliminate high-frequency components higher than 3 kHz which are
included in the limiter output signal. The cut-off frequency is 3 kHz.
• SMF: Smoothing filter to eliminate the high-frequency and clock components generated in the
ASIC.
4.2.3.2 Tx Tone PL/Digital PL Encode Filtering
The encode circuit of CTCSS and CDCSS mixes signals from 4 ports of microprocessor. This mixed
signal passes through ASIC Pin 19, 20 (U102).
• DTA1: Amplifier for gain adjustment of sub-audio signal which generated from CPU. Use
external resistor and capacitor to set the gain.
• Sub-audio Programmable LPF: Low-pass Filter to eliminate components of DAT1 signal in the
transmitter. This circuit is controlled cut-off frequency by the internal ASIC registers.
• VR5: This circuit controls the volume for adjusting the output level from the Sub-Audio LPF
signal. Adjustment range: -6.0dB to +6.0dB in 0.5 steps.
Controller Theory of Operation: Microprocessor Circuitry
4.2.4
4-5
TX audio amplifier and 6 order 3 kHz Low-Pass filter
The TX audio signal from ASIC Pin 8 (UHF1, UHF2) or U508 Pin 4 (VHF) is linked by TX audio amp
(U502-C) to increase limiting range. The limited audio signal is adjusted to a proper level by U508
and passes through 6 order 3 kHz low pass filter (U501-A,B) before being modulated.
4.2.5
TX modulation Adjustment
TX audio signal from Pin 8 of U502-C (UHF1, UHF2) or Pin 8 of ASIC (VHF) is linked TX modulation
adjustment IC (U508). The TX modulation is tuned in the factory. If any of the TX part is replaced, the
TX modulation must be tuned using Tuner.
4.3
Microprocessor Circuitry
The microprocessor circuitry includes microprocessor (U101) and associated EEPROM.
Table 4-1. Radio Memory Requirements
Reference No.
U101
U104
4.3.1
Description
Microprocessor
Serial EEPROM
Size
Flash ROM
128 Kbyte * 8
RAM
5 Kbyte * 8
8 Kbit * 8
Memory Usage
Radio operation is controlled by software that is stored in internal Flash ROM memory. Radio
parameters and customer specific information is stored in External EEPROM (U104). The operating
status of the radio is maintained in RAM located within the microprocessor. When the radio is turned
off, the operating status of the radio is written to EEPROM before operating voltage is removed from
the microprocessor.
4.3.2
Control and Indicator Interface
Ports Pin 35 and 36 are outputs which control the Sub-PCB mounted LED indicator. When Pin 35 is
high, the indicator is green. When Pin 36 is high, the indicator is red. When both are high, the
indicator is amber. When both are low, the indicator id is off.
Pressing the side-mounted PTT button (PB501) provides a low to port Pin 44, which indicates PTT is
asserted. Side-mounted function buttons 1 & 2 (PB502 and PB503) are connected to port Pin 21 and
Pin 32, respectively.
4.3.3
Interface to USB programming
The radio can be programmed, or the programmed information can be read, using a computer with
CPS (Customer Programming Software) connected to the radio via a USB Programming cable
(PMDN4077A). Connection to the radio is made via the microphone connector (part of accessory
connector J601). The line connects the programming connect (J601 Pin 6) to port PRG/CLONE_RX
(data into uP, Pin 34) and PRG/CLONE_TX(data out of uP, Pin 33).
4.3.4
Storage of Customer-Specific Information
Information that has been programmed using CPS, such as channel frequencies or selective
signaling codes, etc, are stored in the external EEPROM, where it is retained permanently (unless
reprogrammed) without needing DC power applied to the microprocessor.
4-6
4.3.5
Controller Theory of Operation: Microprocessor Circuitry
Sensing of VOX operating
Port PTT2 (Pin 68) is used to detect the presence of VOX operating when externally connected
accessories with VOX enabled. When port PTT2 is low, the VOX will start to operate.
4.3.6
Microprocessor Power-on reset Routine
On power-up, the microprocessor is held in reset until the digital 3.3V regulator (U506 Pin 4)
provides a stable supply voltage. Once the digital supply reaches steady state and releases the reset
line (U107 Pin 2), the microprocessor begins to start up. After reset release by all circuit, the software
within the microprocessor begins executing port assignment, RAM checking, and initialization.
4.3.7
Microprocessor 7.3728 MHz Clock
The 7.3728 MHz clock signal (Pin 13, X-in) is provided from the FL101.
4.3.8
Battery indicator
Various battery types are available having different capacities. The radio can select different battery
type by FPP (Front Panel Programming) or CPS. A voltage divided by R153 and R154. And
EEPROM have a data for each battery types.
Chapter 5 435 – 480 MHz UHF2 Theory Of Operation
5.1
Introduction
This chapter provides a detailed theory of operation for the radio components. Schematic diagrams
for the circuits described in the following paragraphs are located in Chapter 7 of this manual.
5.2
UHF2 Receiver
The UHF2 receiver design covers the frequency range of 435 – 480 MHz and it is a double
conversion super heterodyne with 1st IF 45.1 MHz and 2nd IF 455 kHz. The receiver is divided into
two major blocks, Front End and Back End as shown in Figure 5-1.
Preselector
Filter
RF
Amp
Postselector
Crystal IF
1st Mixer Filter Amp
Filter
RX from
Antenna Switch
Inj Filter
First LO
from Synthesizer
N/S_SW
Descriminator
455C24
LPF
Recovered Audio
Quadrature
Detector
Ceramic
Filter 455FW
455HW
IF
Amp
RSSI
Crystal
44.645MHz
Figure 5-1. UHF2 Receiver Block Diagram
5-2
5.2.1
435 – 480 MHz UHF2 Theory Of Operation: UHF2 Receiver
Receiver Front End
Incoming RF signals from antenna are first routed through the harmonic filter (L409, L410, L411,
C426, C427, C428, C429, C445, C446) and antenna switch (CR301), part of the transmitter circuitry,
before being applied to the receiver front end. The receiver front end consists of preselector filter,
RF amplifier, post-selector filter and a single-balanced mixer.
The preselector filter is a varactor-tuned 2-pole design using discrete elements (L320, L324, C351,
C352, C353, C354, C355, C356, C357, C358, C359, C360, C361) in a series/shunt resonator
configuration. It is a band-shift filter and the frequency shift is controlled by varactor diodes CR314
and CR307, which are connected to the microprocessor. It is configured to provide steeper
attenuation above the passband for improved spurious rejection when low-side local injection is used.
The frequency is separated into 8 steps and controlled by CPU (435 – 480 MHz).
The output of this filter is matched to the base of RF amplifier Q301 which provides 13dB of gain.
The output of the RF amplifier is applied to the post-selector filter. The post-selector filter designed
using discrete elements (L322, L323, L328, C379, C354, C355) in a series/shunt resonator
configuration. It is a band-shift filter and the frequency shift is controlled by varactor diodes CR313,
CR304 and CR305, which are connected to the microprocessor. It is configured to provide steeper
attenuation above the passband for improved spurious rejection when low-side local injection is used.
The frequency is separated into 8 steps and controlled by CPU (435 – 480 MHz).
The output of the post selector is connected to the single-balanced mixer consisting of components
L329, L333, Q306 and Q307. 1st local signal generated from VCO is filtered by injection filter (L310,
L331, C325, C326, C327) to remove second harmonics. The converted 1st IF frequency at mixer
passes through L331 and matches the 45.1 MHz IF signal to pair crystal filter (FL301).
5.2.2
Receiver Back End
The 1st IF signal is amplified about 15 dB by IF amp Q303. The output of the IF amp is connected to
IF IC (U201). 1st IF frequency (45.1 MHz) and 2nd LO frequency (44.645 MHz) are mixed in U201.
The second mixer converts the 45.1 MHz high IF frequency to 2nd IF frequency (455 kHz).
Additional IF selectivity is provided by two ceramic filters (CF1, CF2). The wider filter 455 FW is used
for 25 kHz channel spacing, and the narrower filter 455 HW is used for 12.5 kHz channel spacing.
These two ceramic filters may eliminate undesired signal and demodulated by demodulator in U201.
N/S_SW which connected to microprocessor is used to select the wide and narrow band.
The mute (squelch) circuit switches off the audio amplifier when no audio is present. The squelch
circuit consists of U201 and U202 and their associated components. The noise signal from Pin 9 of
U201 is used to control the squelch circuit sensitivity of U202. The noise passes through filter, and is
amplified by internal amp of U201. The amplified noise act as a DC voltage to control the mute
system. So if the noise level is under the threshold voltage, the microprocessor (U101) un-mutes the
radio. If the noise level is over the threshold voltage, the microprocessor mutes the radio.
The squelch level is tuned in the factory. When a component or a part in the RX system is replaced,
the squelch must be re-tuned using the Tuner.
435 – 480 MHz UHF2 Theory Of Operation: UHF2 Transmitter
5.3
5-3
UHF2 Transmitter
The UHF2 transmitter covers the range of 435 – 480 MHz. Depending on model, the output power of
the transmitter is switchable on a per-channel basis between high power (4 Watts) and low
power (1 Watt). The transmitter is divided into four major blocks as shown in Figure 5-2.
•
•
•
•
Power Amplifier
Harmonic Filter
Antenna Matching Network
Power Control.
SWB+
BAT+
Power Control
Current Detect
CR401
From VCO
Attenuator
Circuit
Antenna
Strip Line
Pre Driver
Amp
Driver
Amp
Final
Amp
Harmonic
Filter
To Receiver
Antenna
Switch
Figure 5-2. UHF2 Transmitter Block Diagram
5.3.1
Power Amplifier
The transmitter power amplifier has three stages of amplification – Pre Driver (Q401), Driver
Amp (Q402) and Final Amp (Q403). Signal from TX VCO is applied to the pre driver via an attenuator
circuit. The attenuator is pie style resistor attenuator, and is used as isolation between VCO and the
power amps. The -4dBm TX RF signal from attenuator is then amplified by pre driver and driver amp
to around +25dBm and is applied to the final amp. The final amp (Q403) is an enhancement-mode
N-channel MOSFET device providing a gain of 12dB. The device drain current is drawn directly from
the DC battery supply voltage input via L413. A matching network consisting of C416 to C420 and a
strip line, transforms the impedance to approximately 50 Ohm.
5.3.2
Antenna Switch
An antenna switch works mainly as a switching device between transmit and receive paths. In
transmit mode (PTT), Q407 is turned on and both PIN diodes (CR401, CR301) are forward biased
into conduction. This enables the RF signal to pass to the harmonic filter and then to the antenna. In
the receiver mode, both diodes are off. Signals applied to the antenna jack are routed via the LPF
(harmonic filter), through network L409 to L411, to the receiver input.
5.3.3
Harmonic Filter
The harmonic filter consists of components L409, L410, L411, C426, C427, C428, C429, C430, C445
and C446. The harmonic filter is a seven-pole Chebychev filter.
5-4
5.3.4
435 – 480 MHz UHF2 Theory Of Operation: UHF2 Frequency Generation Circuitry
Auto Power Control
The APC keeps the current supply constant to the final amp (Q403). The drain current of Q403 (final
amp) is sensed across resistor R417. The voltage difference across R417 is amplified through U401
by the ratio of R423 to R417. The differential signal at the output of U401 (Pin 7) is passed to Q404
and Q405 that produces a constant power output to the antenna. If the current is changed due to
change of battery voltage or load, APC controls gate voltage of Q403 and collector voltage of Q401
and drain voltage of Q402 to keep TX power stable. This circuit stabilizes TX power at a
pre-determined level adjusted by U402. This bias voltage is tuned in the factory. If the transistor
(Q403) is replaced, the RF Output Power must be tuned. By tuning the RF output power, the bias
voltage will be tuned through U402. Extra care has to be taken during the tuning process. Do not
exceed the maximum allowed bias voltage.
5.4
UHF2 Frequency Generation Circuitry
The PLL synthesizer subsystem consists of the reference oscillator (VCTCXO), VCO, PLL IC, Charge
Pump and Loop Filter.
TX VCO
Circuit
FL701
Modulating
Signal
TX Out
Synthesizer
U701
Charge
Pump
Loop
Filter
12.8MHz
Ref.OSC.
PLL Data
from μP
To PA Driver
Voltage
Doubler
RX Out
RX VCO
Circuit
To Mixer
Figure 5-3. UHF2 Frequency Generation Unit Block Diagram
5.4.1
Reference Oscillator (12.8 MHz VCTCXO)
The reference oscillator is powered by regulated 5V provided by U505. The reference frequency
12.8 MHz VCTCXO (Voltage Controlled Temperature Compensated Crystal Oscillator) is applied to
the PLL IC (U701) via Pin 1. Main frequency can be adjusted by chip trimmer of VCTCXO. This
frequency provides reference to the PLL IC and has a frequency stability of +/-2.5PPM (max) at the
temperature ranging from -30 to +60 Degree Celsius.
435 – 480 MHz UHF2 Theory Of Operation: UHF2 Frequency Generation Circuitry
5.4.2
5-5
PLL IC Prescaler and Comparator
The reference frequency from VCTCXO is divided to 6.25 kHz or 5 kHz by reference counter, R. The
RF signal input from the VCO is divided to by prescaler (1/64), divided by N and A counters in PLL IC
to determine frequency steps and then supplied to the comparator. The comparison frequency is
6.25/5 kHz. The internal phase comparator compares the phase difference between the reference
and VCO signal. When the phase of the reference frequency is leading, Pin15 (R) is the output.
When VCO frequency is leading, Pin 16 (P) is the output. When P=R, small pulses are the output of
the phase detector.
5.4.3
Voltage Doubler and Charge Pump
The voltage doubler (U507) converts 5V to 10V and is applied to the charge pump circuitry. The
charge pump is used for charging output signals P, R supplied by PLL IC from 0-3.3V to 0-10V. This
voltage is used to drive the VCO.
5.4.4
Loop Filter
The loop filter contains C751, C752, C753, C754, R726, R727, R728. It reduces the residual sideband noise to get the best signal-to-noise ratio. The output signal from loop filter is applied to VCO.
5.4.5
Dual VCO
The dual VCO module contains a RX VCO and a TX VCO. They are configured as colpitts oscillators
and connected to power up through transistor switches. Only one VCO is selected at a time. A
steering line voltage between 0.35V and 9.7V at varactor CR701 tunes the full RX frequency range
from 389.9MHz to 434.9MHz, and varactor CR702 tunes the full TX frequency range from 435MHz
to 480MHz.
In Receiver mode, high signal of RX_EN from Pin 71, U101 activates Q305. When Q305 is activated,
current flows through the base of Q304 and thus activates the Q705. The varactor CR701 sets the
resonance frequency. When there is a change in voltage supplied by loop filter, there is a change in
the resonance frequency. L703 is the resonating coil, which forms the tank circuit together with
variable cap C710.
In Transmit mode, high signal of TX_EN1 from Pin 84, U101 enables current flows through collector
of Q503 and thus activates Q706. The varactor CR702 sets the resonance frequency. When there is
a change in voltage supplied by loop filter, there is a change in the resonance frequency. L706 is the
resonating tuning coil, which forms the tank circuit together with variable cap C722.
5-6
Keypad
Left, Right and P1 to P3 keys are directly connected to microprocessor via 22 pin connector. When
any of these keys is pressed, the voltage goes "low" and microprocessor detects it.
KEYPAD
Left Right
P1 P2 P3
Key
detect
Key row
NUMBERS
Key
column
22pin connector
Main board
For full keypad models, the number keys are in matrix type which consisted of 3 rows and 4 columns.
When any of these keys is pressed, the voltage goes "low" and microprocessor interprets the voltage
for each key press.
22pin connector
Keypad board
5.5
435 – 480 MHz UHF2 Theory Of Operation: Keypad
Figure 5-4. Keypad Block Diagram
MCP
Chapter 6 UHF2 Troubleshooting Tables
6.1
Troubleshooting Table for Receiver (UHF2)
Table 6-1. Troubleshooting Table for Receiver (UHF2)
Symptom
Radio Dead (no
turn–on beep, no
LED indication)
Possible Causes
Corrective Action
1. Battery dead or
defective
Substitute good battery or battery
eliminator
Change or replace battery.
2. Defective battery
contacts
Inspect battery contacts for
corrosion or bent terminals
Clean/Repair/Replace J602
3. Microprocessor not
starting up
Verify clock input to U101 Pin 13 is
7.3728 MHz using high impedance
probe.
Troubleshoot/Replace FL101.
Verify U101 Pin10(reset) is high.
If reset is Low, troubleshoot
regulator U506 or U107.
Verify U506 Pin 4 is 3.3V
Check for shorts on outputs
Verify U505 Pin 4 is 5.0V
Troubleshoot/Repair as
needed, replace faulty regulator
5. Flexible Cable fault
Check connection of the 12 pin
flexible cable between J104 & J105
Re–assemble or replace flexible
cable
1. Speaker dead or
defective
Substitute a good housing (with
speaker)
Change the housing (with
accessory)
Verify J603 connection
Change the housing (with
accessory)
2. Audio Processor IC
not starting up
Verify clock input U102 Pin 14 is
3.5795 MHz using high impedance
probe.
Troubleshoot/Replace FL102
3. Audio Amp IC not
starting up
Verify U601 Pin 6 is battery voltage.
Troubleshoot/Replace U601
4. Regulator fault
No RX Audio (with
LED indication)
Procedure
If battery voltage is being supplied to
Pin 6, then verify audio output at
Pin 5 & 8.
No Receive (with
no LED indication)
1. IF IC dead or fault
Verify clock input to U201 Pin 1 & 2
is 44.645Mhz using high impedance
probe.
Troubleshoot/Replace FL201
No RX
1. RX–B+
Verify Q304’s collector voltage is
4.8V when RX–EN is high.
Check/Replace Q304
6-2
UHF2 Troubleshooting Tables: Troubleshooting Table for Synthesizer (UHF2)
6.2
Troubleshooting Table for Synthesizer (UHF2)
Table 6-2. Troubleshooting Table for Synthesizer (UHF2)
Symptom
Synthesizer Out of
Lock (No RX
Mode)
Possible Causes
Procedure
Corrective Action
1. Defective 12.8 MHz
VCTCXO
Verify clock output FL701 Pin 3 is
12.8 MHz using high impedance
probe.
Repair/Replace FL701
2. 1/2VCC defective
Verify FL701 Pin 1, U502–B Pin 5 &
U502–D Pin 14 voltage is 1.9V.
Troubleshoot: 1/2VCC circuitry
3. No RX–Enable
Verify U101 Pin 71 (RX–EN1) is
high.
Check U101 operating
Verify Q304 collector voltage is
approximately 4.7V in RX mode
Troubleshoot: Q304 & Q305
circuitry
Verify U101 Pin 27 is Low (Normal
Mode)
Troubleshoot: PLL circuitry.
Verify U101 Pin 27 is swept from low
to high (Power Save Mode)
Repair/Replace U701
Verify clock output FL701 Pin 3 is
12.8 MHz using high impedance
probe.
Repair/Replace FL701
2. 1/2VCC defective
Verify FL701 Pin 1, U502–B Pin 5 &
U502–D Pin 14 voltage is 1.9V.
Troubleshoot: 1/2VCC circuitry
3. No TX–Enable
Verify U101 Pin 84(TX–EN1) is high
when PTT is pressed.
Check U101 operating
Verify Q407 collector voltage is
approximately 4.7V when PTT is
pressed (TX–EN2).
Check U101–Pin 85 is high/
Replace Q407/check LK2 is
short
Verify U101 Pin 27 is Low (Normal
Mode)
Troubleshoot: PLL circuitry
Verify U101 Pin 27 is swept from low
to high (Power Save Mode)
Repair/Replace U701
4. Check PLL–LD port
Synthesizer Out of 1. Defective 12.8 MHz
Lock (No TX Mode) VCTCXO
4. Check PLL–LD port
UHF2 Troubleshooting Tables: Troubleshooting Table for Transmitter (UHF2)
6.3
6-3
Troubleshooting Table for Transmitter (UHF2)
Table 6-3. Troubleshooting Table for Transmitter (UHF2)
Symptom
No internal Mic
audio
Possible Causes
1. Mic dead or defective
Procedure
Verify audio present (~10mV rms)
when speaking into Mic.
Corrective Action
Replace Mic.
Check bias of R194 (3.3V).
2. Mic bias fault
Verify U101 Pin 78 is 1.1V when
PTT button is pressed.
Check/Replace U101
3. Audio Processor IC
not starting up
Verify clock input U102 Pin 14 is
3.5795 MHz using high impedance
probe.
Troubleshoot/Replace FL102
1. J601 defective
Check connection with EXT mic
Check/Replace J601
2. Audio Processor IC
not starting up
Verify clock input U102 Pin 14 is
3.579545 MHz using high
impedance probe.
Troubleshoot/Replace FL102
No transmit (No TX
LED indication)
1.PTT switch defective
Verify U101 Pin 44 is low when PTT
is pressed.
Replace PTT switch PB501
No transmit (TX
LED indication OK)
1. Synthesizer out of lock Refer to Table 6-2.
Check U101 operating
2. No TX–Enable
Verify U101 Pin 84 (TX–EN1) is high
when PTT is pressed.
Check U101 Pin 85 is high/
Verify Q407 collector voltage is
approximately 4.7V when PTT is
pressed (TX–EN2).
Replace Q407/Check LK2 is
short
1. Low TX injection
Check the RF level at Q409 & C449
per schematic.
Troubleshoot Q409 circuitry &
VCO bias
2. R417 defective
Verify resistance is 0.1 Ohm
Replace R417.
3. Incorrect control
voltage
Verify Q404 collector voltage is
approximately 5.5V in low frequency
& high power.
Troubleshoot APC circuitry
4. Q403 defective (High
current)
Verify U401 Pin 7 is near 0V
Replace Q403
5. Antenna switch defect
Verify CR401 anode voltage is
approximately 1.4V
Check/replace CR401 & CR301
6. Harmonic filter
defective
Visually inspect components
C426 – C429, C445, C446, C430
Repair/Replace if necessary
7. Incorrect power tuning
(this has to be performed
only after item 1-6 has
been checked)
Check conducted power
Re-tune power using tuner.
1. Defective or wrong
Antenna.
Verify correct antenna is installed.
Replace antenna
No EXT. Mic audio
Low Power
Poor TX range
(Conducted power
OK)
Try using another antenna.
Replace Q404
6-4
UHF2 Troubleshooting Tables: Troubleshooting Table for Board and IC Signals (UHF2)
6.4
Troubleshooting Table for Board and IC Signals (UHF2)
Table 6-4. Troubleshooting Table for Board and IC Signals (UHF2)
IC Designator
U201(IF IC)
Pin
Pin Function
DC Voltage (V)
Comments (Condition)
1
Osc1
3.9
2
Osc2
3.3
4
VCC
4.7
9
Audio frequency
1.2
12
RSSI out
Approximately 1
At –47dBm(with conducted)
13
N–DET(BUSY)
Low
At busy
15
GND
0
16
RF input
1
45.1 MHz input
1
Reference OSC input
1.4
12.8 MHz input
4
VCC
3.3
6
GND
0
7
XF IN
2.2
8
F IN
2.2
12
Power save
High
13
GND
0
14
LD_out
High
15
@P
2.4
16
@R
Low
U601
1
Mode (Mute con)
0
(Audio Amp.)
2
SVR
3.8
3
IN+
3.8
4
IN-
3.8
5
OUT-
3.8
6
VCC
7.5
7
GND
0
8
OUT+
3.8
1
IN+
1.6
U701(PLL IC)
U103
44.645 MHz input
If pll unlock is low
This voltage depends on Battery
UHF2 Troubleshooting Tables: Troubleshooting Table for Board and IC Signals (UHF2)
6-5
Table 6-4. Troubleshooting Table for Board and IC Signals (UHF2) (Continued)
IC Designator
(DTMF decoder)
FL701(VCTCXO)
Q206(N/S SW)
Q304
Q305
Q503
Q407
Q408
Pin
Pin Function
DC Voltage (V)
2
IN-
1.6
3
GS
1.6
4
Vref
1.6
8
OSC1
1.6
10
VSS
0
11
TOE
3.3
17
STD
High
18
EST
3.3
19
ST/GT
3.3
20
VDD
3.3
1
VCON
1.9
2
GND
0
3
OSC out
osc
4
VCC
5
E
GND
0
B
N/S SW
12.5 kHz: Low
C
Collector
12.5 kHz: High
25 kHz: Low
E
+5V
5
B
To Q305 collector
Low
C
RX_B+
4.7
E
GND
0
B
RX_EN
High
C
To Q304 base
Low
E
GND
0
B
TX_EN1
High
C
To Q706 base
Low
E
+5V
5
B
To Q408 collector
Low
C
TXVB
4.7
E
GND
0
B
TX_EN2
High
C
To Q407
Low
Comments (Condition)
3.579545 MHz input
At DTMF detecting
Generate the 12.8 MHz
At RX Mode
At RX Mode
At TX Mode
At TX Mode
At TX Mode
6-6
UHF2 Troubleshooting Tables: Troubleshooting Table for Board and IC Signals (UHF2)
Table 6-4. Troubleshooting Table for Board and IC Signals (UHF2) (Continued)
IC Designator
Q601
Pin
Pin Function
DC Voltage (V)
E
GND
0
B
Audio_MUTE_CON
Mute: Low
Comments (Condition)
None Mute: High
C
Mode
Mute: High
None Mute: Low
1. All voltages are measured with a high-impedance digital voltmeter and expressed in volts DC relative to ground (0V).
2. Voltages are measured with a DC input voltage of 7.50 + .02 volts DC applied to the battery connector (J602).
3. All voltages are measured in the squelched receive mode, unless otherwise indicated.
4. Voltages are identical for VHF and UHF models unless otherwise indicated.
Chapter 7 UHF2 Schematic Diagrams, Overlays, and
Parts Lists
7.1
Introduction
This section provides schematic diagrams, overlays, and parts lists for the radio circuit boards and
interface connections.
7.1.1
Notes For All Schematics and Circuit Boards
* Component is frequency sensitive. Refer to the Electrical Parts List for value and usage.
1. Unless otherwise stated, resistance values are in Ohms (K = 1000), capacitance values are in
nanofarads (nF), picofarads (pF) or microfarads (µF), and inductance values are in
nanohenries (nH) or microhenries (µH).
2. DC voltages are measured from point indicated to chassis ground using a Motorola DC
multimeter or equivalent. If the board has been removed from the chassis, the transmitter
module mounting screws may be used for ground connection. (Note: The antenna nut
bracket is connected to ground.) Operating mode dependent voltages are followed by (RX)
for receive mode, (TX) for transmit mode, (UNSQ) for unsquelched mode, etc.
3. RF voltages on VHF models are measured with a Fluke model 85 RF probe. The indicated
voltages expressed in mV (RF) are DC level readings which correspond approximately 1:1 to
the RF voltage level in mV rms. RF voltages in the Receiver Front End and Receiver Back
End circuits are measured with an on-channel 1mV (-47dBm) RF signal applied to the
antenna jack ANT1/ANT.
4. RF voltages on UHF models are measured both with a high–impedance RF voltmeter having
a bandwidth in excess of 500 MHz (levels are expressed in dBm) and with a Fluke model 85
RF probe [levels are expressed in mV (RF)]. These indicated voltages are DC level readings
which correspond approximately 1:1 to the RF voltage level in mV rms, and are only
approximate for UHF frequency measurements. RF voltages in the Receiver Front End and
Receiver Back End circuits are measured with an on-channel 1mV (-47dBm) RF signal
applied to the antenna jack ANT1/ANT.
5. Audio voltages are measured with a high-impedance AC rms voltmeter. The indicated
voltages are expressed in mV rms. Receive mode voltages are followed by (RX) and are
measured with an on-channel signal with 1 kHz modulation at 60% deviation (3 kHz for 25
kHz channels, or 1.5 kHz for 12.5 kHz channels). Transmit mode voltages are followed by
(TX) and are measured with a 1 kHz, 10 mV rms signal present at the external microphone
input (accessory connector J601).
7-2
UHF2 Schematic Diagrams, Overlays, and Parts Lists: Introduction
6. Reference Designators are assigned in the following manner:
Ref. No. Series
101 – 199
Circuit Block
Microprocessor & audio control
circuits
1001 – 1099
Microprocessor & audio control
circuits
201 – 299
IF IC circuit
301 – 399
Front-end and 1st Mixer
401– 499
Transmit RF stage & Auto power
control
501 – 599
Base band & generating circuit
601– 699
Audio amplifier
701– 799
VCO & PLL Synthesizer
7. Circuit Block Interconnection Legend:
Name
Description
+5V
5 Volts (Regulated)
+3.3V
3.3 Volts (Regulated)
SWB+
Switched Battery Voltage
BAT+
Unswitched Battery voltage
+10V
Digital 10V(Regulated)
RESET
Low-line reset signal fromU107 to U101 Pin 10
TX_EN1
Transmit enable signal from U101 Pin 84
TX_EN2
Transmit enable signal from U101 Pin 85
TXVB
TX operating voltage
TX_AF3
TX audio signal from audio processor IC to TX Audio
filter
TX_SUB_TONE
TX sub tone signal from audio processor IC to TX
modulation.
RX_B+
RX operating voltage
RSSI
RX signal strength indication from IF IC to U101
Busy
RX detect signal from IF IC to U101
FTV
RX frequency shift voltage
RX_AF1
RX audio signal from IF IC to Audio processor IC
PLL_LD
PLL lock detect signal from PLL IC to U101
N/S SW
Channel space selectable Switch (12.5 kHz/25 kHz)
1/2VCC
1.9 volts (divided by U502-D)
UHF2 Schematic Diagrams, Overlays, and Parts Lists: Speaker and Microphone Schematic
7.1.2
7-3
Four Layer Circuit Board
Plating (Au)
PSR ink
Copper Plate
Copper
PrePreg.
Copper
CCL (core)
Copper
PrePreg.
Copper
Copper Plate
PSR ink
Figure 7-1. Four–Layer Circuit Board: Copper Steps in Layer Sequence
7.2
Speaker and Microphone Schematic
MIC1
1
MATES WITH J103 ON
RADIO BOARD
2
SPK1
1
MATES WITH J603 ON
RADIO BOARD
2
Figure 7-2. Speaker and Microphone Schematic
7.2.1
Speaker and Microphone Parts List
Reference
Designator
Motorola Part No.
Description
MIC1
PMDN4139_R
Microphone
SPK1
PMDN4067BR
Speaker & Cable
7-4
Circuit Board/Schematic Diagram and Parts List (UHF2: 435–480 MHz)
7.3
Circuit Board/Schematic Diagram and Parts List (UHF2: 435–480 MHz)
RX_B +
R320
100R
C310
0.1uF
L304
39nH
RX_B +
+5V
C320
KRA305
Q304
+ 10uF / 16V(A)
FROM_HARMONIC_FILTER
C360
4pF
L328
18nH EJPS
C356
NA
C363
NA
Q301
2SC4226
L320
22nH EJPS
C361
22pF
L325
220nH(1608)
L321
N/A
C307
18pF
L324
22nH EJPS
C303
3pF
CR314
KDV154E
R323
100K
L322
22nH
C373
20pF
C318
15pF
C374
10pF
C319
10nF
C382
0.1uF
C
C358
15pF
L323
18nH EJPS
EJPS
C380
47pF
C375
NA
C354
10pF
C379
20pF
R334
100K
CR313
KDV154E
C357
56pF
C304
OR
Q305 E
KRC404
C343
0.1uF
C355
15pF
RX_EN
C344
470pF
BUSY
CR310
KDS114E
C351 CR309
10pF KDS114E
C372
33pF
B
C309
3pF
C301
5pF
C362
10pF
C312
15pF
R302
56K
CR304
KDV154E
R332
100K
R314
100R
CR305
KDV154E
R333
100K
+
C378
10uF / 16V(A)
R330
100K
R316
100K
CR306
KDS160E
C338
47nF
C334
1nF
RX_AF1
DEC1
455 C24(LCP)
R317
180K
C339
0.1uF(K)
CR307
KDV154E
RSSI
R318
3.3K
FTV
C340
0.1uF(K)
R315
100R
L340
820nH(1608)
3
6
L333
B4F(1664)
1
L329
B4F(1667)
C365
27pF
L330
33nH
4
2
R336
1K
R337
100R
Q307
2SK711
R338
100R
L332
820nH (1608)
R311
330R
C331
9pF
1
L310
18nH EJPS
4
5
C381
NA
AF_OUT
FIL_IN
FIL_O
DECO
7
C206
C207
0.1uF(K) 0.1uF(K)
6
C211
0.1uF(K)
FL201
44.645MHz
C203
120pF
R258
1.5K
C332
10pF
Q202
NA
C209
330pF
R210
120K
R203
22K
C367 C368
220pF 10nF
RT201
10K(TH)
+3.3V
C210
330pF
C327
12pF
CR201
KDS181
R204
22K
CR202
KDS181
Q207
KRC404
C208
0.1uF
CF2
C326
3pF
455HW
Q206
KRC404
R206
10K
Figure 7-3. UHF2 (435–480 MHz) Receiver Schematic Diagram
R207
22K
3
4
VDD U/D
VSS NC
A
B
W
CS/
MCP4011(502)
FROM_RX_VCD
C325
33pF
R220
5.6K
R250
10K
R217
10K
U202
1
2
R211
15K
CF1
R213
3.3K
R212
33K
455FW
C370
NA
20KHZ_SEL
R208
12K
8
C213
0.1uF(K)
Q303
2SC4226
N/S_SW
9
QUAD
10
IF_OUT
RSSI
VCC
3
11
IF_IN
N_DET
N_REC
MXOUT
2
C201
47pF
R312
150K
C204
0.1uF
L331
OR
GND
RF_IN
L327
820nH (1608)
FL301
45.1MHz(SMF - 1) 8.5K
1
4
12
10k
2
R335
2.2K
CR315
KDS160E U201
TA31136
13
R216
C369
NA
CR312
KDS160E
C377
NA
14
OSC2
C330
39pF
1
4
C376
0.1uF
Q306
2SK711
3
6
C329
10nF
R342
NA
C341
56pF
2
3
L334
8.2nH
C328
2pF
5
L306
820nH EJPS
OSC1
R310
4.7K
15
16
C347
0.1uF
RX_B +
R319
3.3K
Q201
KRC404
C337
10nF
R309
100R
C364
33pF
C342
0.1uF(K)
C214
0.1uF
8
SQ_U/D
7
6
5
SQ_CS
Circuit Board/Schematic Diagram and Parts List (UHF2: 435–480 MHz)
7-5
+5V
+
C538
10nF
R701
56R
Q705
KRA305
C539
10uF / 16V(A)
L701
27nH
+
R702
1.5K
C702
1nF
C701
22uF / 10V(A)
Q701
2SC4226
C728
4pF
VCO_OUT(RX)
Q706
KRA305
E
R706
100R
R703
4.7K (1%)
C705
2pF
Q702
2SC4226
TZY02
C704
1nF
C
C706 R704
3pF 4.7K (1%)
B
TX_EN1
+
C715
22uF / 10V(A)
C714
1nF
L704
220nH(1608)
C710
6pF
C709
4pF
L703
30113TL
C711
13pF
SH101
L702
2.2uH(1608)
RX_EN
CR701
KDV154E
C707
9pF
R705
220R
C712
470pF
L708
27nH
VCO_OUT(TX)
C729
6pF
R715
56R
C731
2pF
R711
100K
R707
1.5K
Q703
2SC4226
TZY02
C723
0.5pF
C721
3pF
C717
3pF
R714
56R
Q704
2SC4226
L705
2.2uH(1608)
C722
6pF
C724
11pF
R708
4.7K (1%)
L706
30103TL
C716
470pF
C730
2pF
C718
4pF
L707
220nH(1608)
C725
470pF
CR703
KDV154E
R709
6.8K (1%)
R713
30K
C719
7pF
R712
100K
R710
220R
C726
1pF
C727
2pF
CR702
KDV154E
Q711
KRA304
PLL_LD
+3.3V
L709
22nH
PLL_STB
PLL_DATA
PLL_CLK
C747
10pF
R735
1K
R729
100K
C746
10pF
C755
0.1uF(K)
R730
33K
R737
1K
R736
1K
+10V
C748
0.1uF
PLL_PS
R717
10R
R716
300R
14
15
@P
@R
VCC
VP
OSCOUT
OSCIN
6
5
4
3
2
1
ZC
PS
DO
7
LE
8
DATA
GND
16
XFIN
CLK
13
FIN
12
LD_FOUT
11
10
9
U701
MB15E03L
R732
10K
R719
1K
Q707
KTC4075
+3.3V
R720
R721
150R
Q709
KTA2014
R722
R731
10R
Q708
KTA2014
R740
1.5K
R727
2.7K
R728
2.7K
150R
C738
7pF
C756
1nF
C749
1uF(1608)
R718
7.5K
Q710
KTC4075
R726
3K
10K
+
C752
0.1uF(K)
C753
47nF(3216)
C754
47nF(3216)
+3.3V
R733
0R
C741
0.1uF
R723
1K
C750
0.1uF
R725
100R
R724
390R
C751
1uF / 35V
SH102
R734
10R
12.8MHZ VCXO
4 VCC
OUT 3
+5V
1
C740
0.1uF
C739
1nF
VCON
GND
FL701
2
U502-B
NJM324
7
5
1 / 2VCC
6
C515
0.1uF
R506
10K
C575
47pF
R504
47K
R503
56K
+
R505
12K
C516
10uF / 16(A)
Figure 7-4. VCO and PLL Schematic Diagram
7-6
Circuit Board/Schematic Diagram and Parts List (UHF2: 435–480 MHz)
TO_RX
C464
47pF
R412
1K
Q405
KTC4075
R413
8.2K
Q404
STB1188
Zo = 50
0.8t * 1.4(W)
SWB+
C462
33F
C422
12pF(1608)
C430
NA
C429
5pF(1608)
C428
6pF(1608)
C427
4pF(1608)
C426
6pF(1608)
C423
NA(1608)
C445
3pF(1608)
C446
4pF(1608)
R415
C466
220R(2012) 470pF
C416 7pF(1608)
R416
47K(1608)
C452
33pF(1608)
C417 12pF(1608)
MA4P7001F-1072
2
C418
15pF(1608)
C451 3pF(1608)
CR401
NA(1608)
L411
45143TL
C419
L409
451443TL
10pF(1608)
L410
45143TL
C420
C431
1nF(1608)
L412
220nH(1068)
ANT1
ANT
1
SH103
C413
27pF(1608)
C434
470pF
+
BAT+
C433
NA
R419
220K(0.5%)
J602
R420
4.7M
C440
470pF
Q401
PBR951
R407
4.7K
R408
2.2K
2
C409
NA(1608)
C401
3pF
R402
39R
L402
22nH(1608)
R405
1.5K
L406
220nH(1608)
R403
180R
R404
8.2K
C444
NA
R428
100R
L407
33nH
R429
3.6K C435
R427
6
5
+
R421
68K(0.5%)
2
3
R423
3.9M
+
U401-A
KIA358
R422
68K(0.5%)
1
C
47nF
U401-C
KIA358
R434
33K
Q409
2SC4226
R401
180R
C467
470pF
220K
C437
0.1uF
R432
27K
C438
NA
C471
0.1uF
C472
470pF
7
C439
1nF
U401-B
KIA358
R424
12K
C448
10nF
E
B
+
8
+
4
Q408
KRC404
TX_EN2
R425
3.9K
R426
4.7K
C436
0.1uF
R431
10K
U402
U/D VDD
+3.3V
1
7
Q406
KRC404
R433
0R
2
NC VSS
6 B
A 3
5 CS/
W 4
MCP4011(502)
C465
470pF
FROM_VCO
+5V
8
C469
0.1uF
C470
47pF
C473
47pF
R441
0R
TX_PWR_CS
TX_PWR_U/D
TX_PWR_LOW
Figure 7-5. Transmitter Schematic Diagram
C449 3pF
R436
100R
C447
3pF
Q407
KRA305
R418
220K(0.5%)
C432
1nF
TX_VCO_B+
1
C454
22uF/16V(B)
C460 C461
47pF 220pF
C404
56pF
C402
10nF
TXVB
C453
470pF
GND
060031MA005G500PL
C405
56pF
Q402
3 2SK3078
Q403
2SK3476
R430
100R
BAT+
C408
10nF
C403
470pF
L413
35167L
C468
0.5pF
SH105
R417
RLC63 0R1
L403
33nH(1608)
C410
27pF(1608)
L405
6.8nH(1608)
R406
22R
R409
10R
R410
10R
C411
NA
C463
470pF
L401 27nH(1608)
CR311
NA
LK2
CR301
KDS114
L301
45145TL
C406
0.1uF
R440
15K
R411
560R
R414
1K
R435
150R
Circuit Board/Schematic Diagram and Parts List (UHF2: 435–480 MHz)
7-7
47K
47K
47K
47K
R198
R199
R147
47K
R196
R197
47K
47K
R161
47pF
47pF
47pF
C1006
C1008
220pF
C164
C1007
220pF
C1018
220pF
C165
C173
220pF
220pF
220pF
220pF
220pF
6
7
3
4
5
2
220pF
0.1uF
C174
C187
47pF
C1004
47pF
4.7K
2
R163
100K
47pF
C1013
NA
200K
E
C
KTA2014
Q111
51K
100K
R169
1.2K
B
R190
15K
B
4
5
6
7
8
9
*
0
#
4.7K
TONE_IN
R119
R183
KIA7027AT
3
R184
15K
R164
100K
C145
15pF
R185
0R
FL101
7.372MHZ
C146
15pF
R148
1M
R114
10k
4.7K
POP_CON
+3.3V
B_S2
B_S1
A_S2
A_S3
FUN_KEY1
+3.3V
MOD_CON_CS
MOD_CON_U/D
SWB+
TP3
FUN_KEY2
R153
68K(1%)
PROGRAM_DATA
LOW_BATT
RX_TONE_EN
R154
47K(1%)
TP10
TP5
LED(GREEN)
TP2
LED(RED)
TP4
PTT1
47pF
TP8
C1036
CR101
NA
47pF
C194
10uF / 16V
C1034
+
TP6
47pF
C195
220pF
TP9
PLL_LD
C1035
C198
NA
C144
0.1uF(K)
U107
1
DTMF_OUT
E
DTMF_CON
R1006
NA
R168
100K
C
KTA 2014
Q112
R182
BEEP
R179
R165
3K
R180
R167
100K
3
R1004
10K
BEEP_CON
R1005
10nF
2
4.7K
C1012
C1014
R109
R112
R178
100K
1
47pF
47pF
C1015
47pF
220pF
28 VOX_EN
VOX_EN
27 PLL_LD
26 DTMF_OUT
DTMF_OUT
+3.3V
C1016
0.1uF
P3
C1005
47pF
C1003
R108
C169
TONE_INT2
23
POP_CON
22
FUN_KEY1
20 A_S3
21
A_S2
19
B_S2
B_S2
TONE_INT1
16
17
18
15
VCC1
14
X_IN
13
12
GND
X_OUT
RESET
11
BEEP
LCD_DATA
9
10
CNVSS
8
TONE1
TONE2
VSS
7
6
5
3
+3.3V
TONE3
TONE4
1
C124
1uF
2
C123
0.1uF
TONE_INT3
LCD_CS
RX_TONE_EN 100
MIC1
0B27P40(2.8mm)
29
220pF
AK_CSN
C168
A_VCC
LCD_CLK
R113
47K
680R
P2
1
30
AK_CLK
4
99
RT501
10K(TH)
R152
R_ARROW
31
V_REF
98
RSSI
33
32
C162
AK_DATA
100R
C163
RSSI_IN
R195
220pF
97
34
C167
+3.3V
FUN_KEY2
35
C172
PRG / CLONE_TX
A_GND
MOD_CON_CS
96
N/S_SW
TEMP_IN
MOD_CON_U/D
95
TX_EN2
R507
10K
PRG / CLONE_RX
24
94
TX_EN1
C571
15nF
LOW_BATT_IN
93
AUDIO_MUTE_CON
Q122
KRC404
+3.3V
LED(GREEN)
R158
1K
25
92
LOW_BATT
VOX_IN
36
C171
91
VOX
Q121
KRC404
2
37
LED(RED)
ANL_SUBTONE_IN
220pF
90
Q120
KRC404
220pF
38
RIGHT_BUTTON
89
47pF
M30302FCPGP
RX_TONE_CON2
RX_TONE_CON2
R177
C143
20K
0.1uF
RX_TONE_CON1
88
CR115
P1
47pF
N/S_SW
87
RX_TONE_CON1
C170
R175 51K
R176 24K
FTV
CR114
L_ARROW
C1001
U101
R157
1K
SH201
C1002
TX_EN2
86
220pF
R174 100K
CR113
47pF
PGM_BUTTON1 43
42
PGM_BUTTON2
41
PGM_BUTTON3
40
LEFT_BUTTON
39
AUDIO_MUTE_CON
TX_EN1
85
C166
84
CR112
KRC104
C1009
83
44
47pF
PTT1
47pF
FREQ_CON1
46
45
C1010
SW_SCAN4
R156
1K
+3.3V
C1011
FREQ_CON2
47
CR111
CR110~CR115 : BL-HG036
J103
04-6292-022-000-800+
SW_SCAN3
J102
05004HR_22A01S
51 SW_IN2
54
55
53
PLL_CLK
PLL_STB
BUSY 56
PLL_DATA
58
LIGHT_CON 57
EPP_CLK 59
EPP_DATA
62
VCC2 60
VSS
SQ_CS 61
DTMF_Q4 63
DTMF_Q3 64
DTMF_Q2 65
DTMF_Q1 66
PTT2
DCS_SEL 67
70
68
RX_EN 71
FREQ_CON3
82
R173
10K
R172
10K
49
48
SW_SCAN2
81
C1017
470pF R171
10K
50
SW_SCAN1
DTMF_DEC_EN
80
+5V
SW_IN3
DTMF_CON
MIC1
79
20KHZ_SEL 69
MIC_MUTE2 78
PWDN
SQ_U / D 73
BEEP_CON 77
DTMF_STEER 72
TX_PWR_CS 75
TX_PWR_U/D 76
TX_PWR_U/D
C142
470pF
TX_PWR_LOW 74
TX_PWR_CS
MIC1
TX_AF1
C141
NA
52 SW_IN1
SQ_U/D
TX_PWR_LOW
1
2
3
4
5
6
7
8
9
10
11
12
13
14
15
16
17
18
19
20
21
22
1
2
3
4
5
6
7
8
9
10
11
12
13
14
15
16
17
18
19
20
21
22
CR110
Q110
47K
RX_EN
SQ_CS
J101
05004HR_07C01S(G)
R155
470R
C176
0.1uF
U102_SCLK
U102_CSN
+3.3V
C175
B to B Flex. PCB
220pF
220pF
C188
C177
U102_SDATA
C179
C161
PLL_STB
PLL_DATA
C178
PLL_CLK
C189
220pF
BUSY
220pF
220pF
220pF
PLL_PS
1
SWB+
20KHZ_SEL
C140
47nF
6
LCD Flex.PCB
+3.3V
PTT2
R194
10K
7
LCD101
LCD_BEACON
4
4
R159
U106_SW
SDA VSS
U104
24LC64
2
3
R160
R139
10K
C147
0.1uF(K)
A2
1
3
5
Q1
STD
SCL
A1
5
6
Q2
A0
1
VCC
7 OC
2
8
+3.3V
Q4
Q3
TP1
TP7
R115
10K
R193
10K
Figure 7-6. Microprocessor and Keypad Schematic Diagram
R131 10R
C602
0.22uF(K)
C100
1uF(1608)
C623
47pF
C1026
47pF
C615
0.22uF (K)(1608)
R1001
10K
C114
220pF
C112
10uF/16V
J104
XF2M-1215-1A
J105
BEEP
SW/VOL1
RY8418
1
2
3
4
5
6
7
8
9
10
11
12
1
2
3
4
5
6
7
8
9
10
11
12
+3.3V
C1038
47pF
05504HR-12B01S(G)
U102
AK2347
5
20 DIN0
EXTIN
4
21 RXOUT
TXIN
3
22
FILO
TXINO
23
2
RXINO AGND
24
1
RXIN AGNDIN
6
EXTINO
19 DIN
7
RSAOUT LIMLV
18
8
MOD
16 VDD
17 TSAOUT
VSS
9
10
SDATA
XOUT
15
SCLK
XIN
14
CSN
TEST
13
11
Circuit Board/Schematic Diagram and Parts List (UHF2: 435–480 MHz)
12
7-8
C620
330pF
R1003 10K
RX_AF1
+
C619 33pF
R1002
9.1K
C113
560pF
R614
R613
15K(1608)
R619
10K
U601
4
3
R623 560R
R609 1K
AUDIO_MUTE_CON
Q601
KRC404
C605
4.7uF (2012)
R608
NA
R622 0R
+
IN-
OUT-
IN+
VCC
5
C616
0.1uF(K)
Q602
KRC404
R616
0R
TDA8541
C618
4.7uF / 16V(A)
R610
2R2
Figure 7-7. Audio Power Amplifier and External Audio Schematic Diagram
C621 C622
330pF 47pF
C609
0.1uF(K)
C606
0.1uF
L601 2.2uH(1608)
L602 2.2uH(1608)
R620
33K
R621
39K
-
6
2 SVR
GND 7
1 MODE OUT+ 8
SPK1
SM3624X1
+
C617
0.1uF(K)
SWB+
POP_CON
J603
53047-0210
R615
2R2
390K(1608)
C601
0.1uF
J601
0980683Z01
1
3
2
4
5
6
7
Circuit Board/Schematic Diagram and Parts List (UHF2: 435–480 MHz)
7-9
1 / 2VCC
R524
47K(1%)
-` 13
14
SWB+
+
SW/VOL1
RY8418
R523
30K(1%)
+5V
3
R734
C503
0.1uF
+5V
U501_pin4
8
3
6
9
Q705,706
1
C506
470pF
+
6
VIN C+
VOUT 5
GND
3
SHDN 4
C-
+10V
2
C572
0.1uF
C507
22uF / 16V(B)
+
CR501
BL-HEIG033B
4
2
1
3
47pF
47pF
47pF
C560
C561
C562
47pF
+5V
Q407
+5V
R171~173
+5V
R502
220R
+5V
C464
47pF
R412
1K
U502_pin4
C406
0.1uF
C529
0.1uF
R413
8.2K
Q404
STB1188
APC(U401_PIN7)
B
R716,717
U105_pin4
Q405
KTC4075
C
C512
470pF
Q304
SWB+
C563
47pF
R501
220R
+5V
+10V
C511
22uF / 16V(B)
5
47pF
2
U507
TC1240
C566
B
7
47pF
C
4
C510
4.7uF(2012)
Q501
KRC404
C533
0.1uF
+5V
SW1
RY8487
C564
10K
10K
A
1
C565
J104
J105
220pF
1
2
3
4
5
6
7
8
9
10
11
12
1
2
3
4
5
6
7
8
9
10
11
12
C540
47pF
C582
47pF
C581
47pF
C580
C579
LED(GREEN)
LED(RED)
47pF
B_S2
B_S1
A_S2
A_S3
SWB+
BAT+
4 VOUT
+` 12
+5V
10K
R535
R534
R533
R532
10K
+3.3V
C502
22uF / 16V(B)
C531
0.1uF
C545
22uF / 10V(A)
U505
TK11250AMTL
1
6
VIN
C
5
2
+
C501
470pF
NJM324
U502-D
C530
10nF
R414
1K
E
DRIVE_CON
Q502
KRC404
R440
15K
R411
560K
+3.3V
U107_pin1
C462
33pF
C463
470pF
+3.3V
U106_pin4
J602
BAT+
SWB+
+3.3V
R131
GND
060031MA005G500PL
C619
C460 C461
47pF 220pF
33pF
+3.3V
C615
0.22uF(K)(1608)
R613
15K(1608)
R619
10K
R609
1K
L413
BAT+
R417
RLC63 0R1
C432
1nF
R420
4.7M
R608
NA
R423
3.9M
2
3
+
U401-A
KIA358
R421
68K(0.5%)
R422
68K(0.5%)
1
+3.3V
U601
4 INOUT3
VCC
IN+
2
SVR
GND
1
MODE OUT+
U103_pin11,20
5
AF_OUT1
6
+3.3V
U104_pin8
7
8
AF_OUT2
+3.3V
J102_pin16
TDA8541
+3.3V
U101_pin14,96,97
+3.3V
R620
33K
R621
39K
R424
390K(1608)
C618
4.7uF / 16V(A)
C605
4.7uF(2012)
Q601
KRC404
C433
NA
R419
220K(0.5%)
R614
+
MUTE_CON
R418
220K(0.5%)
R622 OR
R150
U104_pin1
C606
0.1uF
SWB+
C601
0.1uF
+3.3V
Q711
+3.3V
U506
TK11233AMTL
6
1
VIN
C
5
2
4
VOUT
R719,722
+3.3V
R507
3
+3.3V
C541
0.1uF
+
C509
470pF
C508
10uF / 16V(A)
+3.3V
U508_pin1
+3.3V
R537
Figure 7-8. Switches and Battery Schematic Diagram
7-10
Circuit Board/Schematic Diagram and Parts List (UHF2: 435–480 MHz)
+3.3V
J601
0980683Z01
R194
10K
1
3
2
C140
47nF
4
5
6
7
2
L603
2.2uH(1608)
1
C142
470pF
MIC1
0B27P40(2.8mm)
C518
5.6nF
C520
6.8nF
PROGRAM_DATA
C546
R513
0.1uF(K)
10K
L604
2.2uH(1608)
R512
20K
9
10
C141
NA
13
R510
15K
R511
8.2K
8
12
+
C549
560pF
1 / 2VCC
C111
1uF(K)
-
R101
10K
C103
33pF
R102
47K
NJM324
U501-D
R107
3.9K
R162
820R
C102
2.2nF
C519
1.2nF
C550
560pF
C521
1.2nF
C101
1uF(K)
14
+
NJM324
U501-C
R539
330K
C624
47pF
C625
47pF(1608)
-
R103
150K
C576
47pF(1608)
MOD_CON_U /D
C1023
47pF
MOD_CON_CS
+3.3V
R150
10K(1%)
+3.3V
C1039
47pF
U102
AK2347
C153
C154
1uF(K) 1uF(K)
R151
12K(1%)
+3.3V
24
C3
47pF
23
C1038
47pF
22
C191
220pF
R536
330K
R105 R106
47K
47K
21
R104
47K
R521
330K
20
MCP4011(503)
C547
2.2nF
C105
15nF
+3.3V
10
7
RSAOUT LIMLV
EXTINO 6
DIN
5
DIN0
EXTIN
4
RXOUT
TXIN
3
FILO
TXINO
2
RXINO
AGND
1
RXIN
AGNDIN
+
19
8
NJM324
U502-C
VSS 9
4
MOD 8
3
TSAOUT
C542
10nF
C548
NA
A
W
18
C525
2.2nF
B
CS/
C107
0.1uF(K)
SDATA 10
3
C527
18nF
R538
10K
U101_PIN26(DTMF_IN)
C528
18nF
VDD
C523
470pF
+
R517
15K
C119
10nF
1
R141
100K
C536
15nF
R526
47K
-
1
+
2
C1028
47pF
C1027
47pF
R146
0R
U101_PIN79
10
C551
10uF / 10V(A)
R145
1M
C115
27pF C116
27pF
C1024
47pF
C579
47pF
C537
2.2nF
47K
47K
R531
Q3
C1020
47pF
1
2
C570
47pF
PB503
FUN2
EVQPUD02K
1
2
PB502
FUN1
EVQPUD02K
2
1
FUN_KEY2
C573
47pF
C1037
47pF
U101_PIN63
14
U101_PIN64
13
Q2
Q1
VSS
TOE
U101_PIN65
12
U101_PIN66
11
R180
TONE4
100K
R179
TONE3
51K
R182
R143
100K
C1021
47pF
C118
10uF / 16V
TONE2
200K
R183
PTT2
C574
47pF
15
OSC2
C1026
47pF
+3.3V
FUN_KEY1
U101_PIN72
16
OSC1
PTT1
47K
PB501
PTT
EVQPUD02K
Q4
NC
R142
330K
RX_AF2
U101_PIN30(CLK)
R530
PWDN
C117
1.2nF
U101_PIN29(CSN)
R529
NC
17
U103
MT88L70
U101_PIN31(SDATA)
+3.3V
8
9
+
INH
7
C120
15pF
R528
82K
NJM324
U502-A
EST
STD
C121
33nF
20
19
18
GS
VREF
5
6
FL102
3.5795MHz
R527
82K
3
C100
1uF(1608)
4
ST/GT
IN-
3
R140
68K
VDD
IN+
2
1 / 2_VCC
R541
330K
R116
1.2K
R110
270K
9
XOUT
NJM324
U501-A
R516
2.2K
R520
1M
-
13
C517
15nF
-2
1
R518
4.7K
17
NJM324
U501-B
R509
2.2K
5
R515
20K
2
CSN
R514
15K
5
1
TEST
6
7
VSS
16
6
R508
3.6K
TO_VCTCXO & VCO
U/D VDD
NC
C106
47nF
R118
47K
C104
150pF
15
7
12
C524
47nF
R117
8.2K
C1022
47pF
C1019
47pF(1608)
SCLK 11
8
C522
15nF
C577
47pF
R519
4.7M
U508
XIN
C583
47pF
14
C544
NA
10R R131
C543
2.2nF
+
R144
100K
TONE1
NA
U106
TC7S66FU
1
2
R540
47K
4
R537
1K
RX_TONE_CON2
C1025
47pF
Q505
KRA305
+5V
C1031
47pF
Q101
KRC413
Q504
KRC404
Q102
KRC413
C156
0.22uF
C126
33nF
TX_AF2
C125
47nF
CR502
NA
R126
15K
R137
4.7M
C1029
47pF
C139
10K
13
12
1 / 2VCC
R136
100K
C1032
47pF
R111
NA
CR117
14
NJM324
U105-D
C137
0.1uF(K)
+3.3V
C136
0.1uF
R120
47K
Q114
KRC404
Figure 7-9. Transmitter Audio Filter and Sub-tone Schematic Diagram
+
VOX_EN
KDS160E
CR116
KDS160E
C110
22nF
C1030
47pF
2
-
3
+
1
NJM324
U105-A
C128
47nF
R134
3.9M
C130
33nF
R128
3.9K
R122
330K
C109
22nF
Q103
KRC413
R132
1K
C158
0.22uF
6
-
5
+
R121
330K
7
9
-
10
+
R133
680K
NJM324
U105-B
1 / 2 VCC
R149
470K
8
NJM324
U105-C
C134
0.22uF(K)
C1033
47pF
Q113
KRC404
Q104
KRC413
R138
220K
4
11 NJM324
R129
150K
VOX
C138
0.22uF1608)
R135
0.1uF(K)
-
33K
U101_PIN79(DTMF_DEC_EN)
C135
47pF
+
U105-E
C129
47nF
R127
C127
47nF
C157
0.22uF
RX_TONE_CON1
U101_PIN100(RX_TONE_EN)
U101_PIN3_16_23
Circuit Board/Schematic Diagram and Parts List (UHF2: 435–480 MHz)
7-11
C622
C616 R615
J603
C621
R616 C617
L602
L601
J105
L604
L603
R619
C624
Q601
PB501
R419
R421
C625
C601
R609
R623
Q602
J601
C602
R608 C623
C460
C461
R420 C433 R423 C432
R424
U401
Q407
C454
L413
R427
C435
R425 C438
R426
C473
C469
C470
SH103
C468
C453
Q406
C437
R432
C436
R431
R441
U402
R417
R418
R433
LK2
C471
C472
R422
C439
Q408
C573
Q403
R507
C571
RT501
C411
R414
Q405
R411 R440
C570
R413
R412 C464
DEC1
PB502
C380
C1017
Q101
R213
R210
C211 R208 RT201
C209 R212
C210 R211
R732
Q708
R717
R726 R740
R728
R727
C753
C1039
C1028
Q710
R716
R737
C751
C752
R736
C750
R724
R725
C741
R731
R719
C119
C120
R141
R140
C749
R735
Q711
R729 C755
C738 R733
C748
R718
Q114
CR117
C1019
C746
C538
U701
CR116
R138
L709 C747
C756
R730
R720
R721
R722
R723 Q709 Q707
C1031
C1021
TP10
Q503
R137
C137
C138
TP4
C539
R126
C125
C1029
C136 R136
C135
R164
TP3
C1030
R127
R132
C1037
R118
C105
C107
C106
R116
R134
R169
R110
C1023
C1022 C104
R145 R146
R117
Q111
C126
C127
R111
C139 R135
R133
R165
C1016
R167
R1004
R1005
R1006
C116
C134 R163
R250
C208
C214
Q112
R168
C1027
C1026
C1025
C128
U105
SH102
C156
C110
R204 R217
C198
FL102
R129
CR201
R206
R207
Q206
C109 R149
C130
R122
R121
CR202
C206 R203
C204
C574
C213
R216
C465
Q113
Q103
C157
C129 C158
R128
Q207
Q104
Q102
R220
PB503
C463
C462
Q404
U202
C382
CR306
C339
R316
R314
C406
R317
R342 C381
Q202
C320
C334
C378
R318
C754
TP11
U507
C1024
C1038
C512
C511
C510
R115
R505
C739
C740
R185
C145 R148 C146
C516
C121
R142
C576
R523
C533
R524
U502
TP6
C545
TP1
J102
C528
C577
TP7
R526
C536
R527
C537
C530
C515
R506
TP2
TP5
R504
R503
R528
FL101
U103
TP8
C572
R734
C115
U101
TP9
R519 R521 R541
R520
C551
C531
C583
C578
Figure 7-10. UHF2 (435–480 MHz) Mainboard Top Side: PCB No. 8431BEACON200
7-12
Circuit Board/Schematic Diagram and Parts List (UHF2: 435–480 MHz)
ANT1
ANT4
ANT2
ANT3
C431
C430
L410
R416
ANT5
C112
U102
C1020
CR101
C501
C527
U501
C161
C178
C179
C177
C168
C167
C166
C508 TP14
TP13
U107
R534
R535
R530
C141
R531
R529
R120
R193
R152
C1034
C172
R195
C169
C173
R194
C162
C170
C163
C140
C171
C164
C189
C188
R515
C543
C522
R514
C165
R178
TP15 R114
R532
C509
TP16 R533
C142
C523
R509
R508 C517
R179
R182
R183
R190
C144
C507
C1035
C1036
R539
C520
R511
R510
C518
R536
Figure 7-11. UHF2 (435–480 MHz) Mainboard Bottom Side: PCB No. 8431BEACON200
C529
C548
C525
C516
C524
C544
R113
C124
C123
C194
C541
R139
C503 C506
U505
C546 R513
R512
C521
C549
R153
C195
C502
U506
U104
C147
R540
R537
U508
R154
CR502
Q504
Q505
R131 C100
R184
R180 C118
C191
R104
R105
R106
U106
C547
C542 R107
R538 R517 C519
C550
R518
R319 C342
C111
C702
C153
R162
C154
C101 R101 R103
C102 R102
R151
R150
C103
C711
R713
L705
CR701
C712
C575
C332
R1002
C710
FL701
Q201
CF2
R1003
C113
R1001 C117 R144
R143
C114
R705
C722
CR702
C207
L704
L703
C725
CF1
C1032
C704
C701
Q705
C707
C706
FL301
Q702
C331
C702 R701
L701 C704
L706
C724
C726
CR703
C705 R703 C709
L707
C719
R711
C727
R712
C718
R709
C721
C723
Q701
C715
R710
R708
Q704
R702
C714
C716
R258 C201
C203
R706
L708 R707
Q703
C341
U201
FL201
C1033
C731 R715
C728
C330
R175
R172
CR312
Q122
Q120
R311
C338
C340
Q303
L327
CR315
R176
R171
R174
SH101
R312 C337
C347
C377
C376
Q304
C319 R315
Q305
R173
L332
L340
C329
L306
C370
C328
R310
Q307
C326
L310
C344
R309
Q121
C717
C618
R338
C369 R335
Q306
L333
R337 C368
C367
C343
Q706
R622
R614
C619
CR305
C318
L329
C143
R177
C729 R714 C730
C606
C620
C615
C581
C582
C580
C579
C310
R320
C354 C355
J602
CR304
R332
R333
C327
R403
R401
R434
R436
C447
L323
C444
R405
C448
R435
C609 R610
C364 L334 R336
C365 L331
C325
C440
R408 C405 C404
R407
C467
Q401
C449 R402
R404
C401
Q409
L322
C374
C358
R409 C408
R410 C403
R406 C402
L401
L402
Q402
CR310
CR309
L304
L330
L403
U601
R613
CR313
C304
C418
L405
C413
C410
C312
C362
C356
C451
C419
C416
C452
C434 R429
R430 R428
C409
C605
C363
C379
R334
L328
C372
C373
C375
C417
L406
R323
Q301
C309
L321
C420
L407
C307 R302
C423
R415
C422
R621
R620
C540
R330
CR307
C466
L412
C361 C351
L320
C357
C446
L301
C360
C303
L325
C426
L411
CR401
C301
L324
CR314
CR301
L409
C445
CR311
C427
SH105
C428
C429
Circuit Board/Schematic Diagram and Parts List (UHF2: 435–480 MHz)
C566
C565
C562
Q502
CR501
C564
Q501
R502
C563
R501
7-13
C560
C561
Figure 7-12. UHF2 (435–480 MHz) Sub Circuit Board Top View: PCB No. 8421BEACON100
7-14
Circuit Board/Schematic Diagram and Parts List (UHF2: 435–480 MHz)
SW1
SW / VOL1
J104
Figure 7-13. UHF2 (435–480 MHz) Sub Circuit Board Bottom View: PCB No. 8421BEACON100
Circuit Board/Schematic Diagram and Parts List (UHF2: 435–480 MHz)
7-15
C1018
MIC1
J101
C176
C175
R155
Q110
C174
C187
R199
R147
C1005
C1004
CR111
SH201
C1011
C1010
C1009
CR110
R198
R161
R160
R159
C1001
J103
R196
R197
R156
C1007
C1008
CR114
CR115
C1006
R158
C1002
C1003
R108
C1012
R109
C1013
C1014
R112
CR112
CR113
R157
C1015
R119
Figure 7-14. UHF2 (435–480 MHz) Keypad Board: PCB No. 8422BEACON100
7-16
7.3.1
Circuit Board/Schematic Diagram and Parts List (UHF2: 435–480 MHz)
Parts List
Circuit
Ref.
Supplier
Circuit
Ref.
Supplier Part No.
Description
Supplier
Supplier Part No.
Description
Circuit
Ref.
Supplier
Supplier Part No.
Description
C130
TDK
–
Chip Cap,1005 K 333PF
C172
TDK
–
Chip Cap, 1005 J 220PF
C100
TDK
–
Chip Cap, 1608 Z 1μF
C134
TDK
–
Chip Cap, 1005 K 0.22μF
C173
TDK
–
Chip Cap, 1005 J 220PF
C101
TDK
–
Chip Cap, 1005 K 1μF
C135
TDK
–
Chip Cap, 1005 J 47PF
C174
TDK
–
Chip Cap, 1005 J 220PF
C102
TDK
–
Chip Cap, 1005 K 2200PF
C136
TDK
–
Chip Cap, 1005 Z 0.1μF
C175
TDK
–
Chip Cap, 1005 Z 0.1μF
C103
TDK
–
Chip Cap, 1005 J 33PF
C137
TDK
–
Chip Cap, 1005 K 0.1μF
C176
TDK
–
Chip Cap, 1005 J 220PF
C104
TDK
–
Chip Cap, 1005 J 150PF
C138
TDK
–
Chip Cap, 1608 K 0.22μF
C177
TDK
–
Chip Cap, 1005 J 220PF
C105
TDK
–
Chip Cap, 1005 K 153PF
C139
KAMAYA
–
Chip Res, 1005 J 10KΩ
C178
TDK
–
Chip Cap, 1005 J 220PF
C106
TDK
–
Chip Cap, 1005 K 473PF
C140
TDK
–
Chip Cap, 1005 K 473PF
C179
TDK
–
Chip Cap, 1005 J 220PF
C107
TDK
–
Chip Cap, 1005 K 0.1μF
C142
TDK
–
Chip Cap, 1005 K 470PF
C187
TDK
–
Chip Cap, 1005 Z 0.1μF
C109
TDK
–
Chip Cap, 1005 K 223PF
C143
TDK
–
Chip Cap, 1005 Z 0.1μF
C188
TDK
–
Chip Cap, 1005 J 220PF
C110
TDK
–
Chip Cap, 1005 K 223PF
C144
TDK
–
Chip Cap, 1005 K 0.1μF
C189
TDK
–
Chip Cap, 1005 J 220PF
C111
TDK
–
Chip Cap, 1005 K 1μF
C145
TDK
–
Chip Cap, 1005 J 15PF
C191
TDK
–
Chip Cap, 1005 J 220PF
C112
HITACH
–
Chip Tantal, 10uF–M/
16V(A)
C146
TDK
–
Chip Cap, 1005 J 15PF
C194
HITACH
–
C147
TDK
–
Chip Cap, 1005 K 0.1μF
Chip Tantal, 10uF–M/
16V(A)
C195
TDK
–
Chip Cap, 1005 J 220PF
C201
TDK
–
Chip Cap, 1005 J 47PF
C203
TDK
–
Chip Cap, 1005 J 120PF
C204
TDK
–
Chip Cap, 1005 Z 0.1μF
C206
TDK
–
Chip Cap, 1005 K 0.1μF
C207
TDK
–
Chip Cap, 1005 K 0.1μF
C208
TDK
–
Chip Cap, 1005 Z 0.1μF
C209
TDK
–
Chip Cap, 1005 J 330PF
C210
TDK
–
Chip Cap, 1005 J 330PF
C211
TDK
–
Chip Cap, 1005 K 0.1μF
C213
TDK
–
Chip Cap, 1005 K 0.1μF
C214
TDK
–
Chip Cap, 1005 Z 0.1μF
C301
TDK
–
Chip Cap, 1005 C 5PF
C303
TDK
–
Chip Cap, 1005 C 3PF
C304
KAMAYA
–
Chip Res, 1005 J 0Ω
C307
TDK
–
Chip Cap, 1005 J 18PF
C309
TDK
–
Chip Cap, 1005 C 3PF
C113
TDK
–
Chip Cap, 1005 K 560PF
C153
TDK
–
Chip Cap, 1005 K 1μF
C114
TDK
–
Chip Cap, 1005 J 220PF
C154
TDK
–
Chip Cap, 1005 K 1μF
C115
TDK
–
Chip Cap, 1005 J 27PF
C156
TDK
–
Chip Cap, 1005 K 0.22μF
C116
TDK
–
Chip Cap, 1005 J 27PF
C157
TDK
–
Chip Cap, 1005 K 0.22μF
C117
TDK
–
Chip Cap, 1005 K 122PF
C158
TDK
–
Chip Cap, 1005 K 0.22μF
C118
HITACH
–
Chip Tantal, 10uF–M/
16V(A)
C161
TDK
–
Chip Cap, 1005 J 220PF
C162
TDK
–
Chip Cap, 1005 J 220PF
C163
TDK
–
Chip Cap, 1005 J 220PF
C164
TDK
–
Chip Cap, 1005 J 220PF
C165
TDK
–
Chip Cap, 1005 J 220PF
C166
TDK
–
Chip Cap, 1005 J 220PF
C167
TDK
–
Chip Cap, 1005 J 220PF
C168
TDK
–
Chip Cap, 1005 J 220PF
C169
TDK
–
Chip Cap, 1005 J 220PF
C170
TDK
–
Chip Cap, 1005 J 220PF
C171
TDK
–
Chip Cap, 1005 J 220PF
C119
C120
C121
C123
C124
C125
C126
C127
C128
C129
TDK
TDK
TDK
TDK
TDK
TDK
TDK
TDK
TDK
TDK
–
–
–
–
–
–
–
–
–
–
Chip Cap, 1005 K 10nF
Chip Cap, 1005 J 15PF
Chip Cap, 1005 K 333PF
Chip Cap, 1005 Z 0.1μF
Chip Cap, 1005 K 1000PF
Chip Cap, 1005 K 473PF
Chip Cap, 1005 K 333PF
Chip Cap, 1005 K 473PF
Chip Cap, 1005 K 473PF
Chip Cap, 1005 K 473PF
Circuit Board/Schematic Diagram and Parts List (UHF2: 435–480 MHz)
Circuit
Ref.
Supplier
Supplier Part No.
Description
7-17
Circuit
Ref.
Supplier
Supplier Part No.
Description
Circuit
Ref.
Supplier
Supplier Part No.
Description
C310
TDK
–
Chip Cap, 1005 Z 0.1μF
C362
TDK
–
Chip Cap, 1005 D 10PF
C429
TDK
–
Chip Cap, 1608 C 5PF
C312
TDK
–
Chip Cap, 1005 J 15PF
C364
TDK
–
Chip Cap, 1005 J 33PF
C431
TDK
–
Chip Cap, 1608 K 1000PF
C318
TDK
–
Chip Cap, 1005 J 15PF
C365
TDK
–
Chip Cap, 1005 J 27PF
C432
TDK
–
Chip Cap, 1005 K 1000PF
C319
TDK
–
Chip Cap, 1005 K 10nF
C367
TDK
–
Chip Cap, 1005 J 220PF
C434
TDK
–
Chip Cap, 1005 K 470PF
C320
HITACH
–
Chip Tantal, 10uF–M/
16V(A)
C368
TDK
–
Chip Cap, 1005 K 10nF
C435
TDK
–
Chip Cap, 1005 K 473PF
C372
TDK
–
Chip Cap, 1005 J 33PF
C436
TDK
–
Chip Cap, 1005 Z 0.1μF
C325
TDK
–
Chip Cap, 1005 J 33PF
C373
TDK
–
Chip Cap, 1005 J 20PF
C437
TDK
–
Chip Cap, 1005 Z 0.1μF
C326
TDK
–
Chip Cap, 1005 C 3PF
C374
TDK
–
Chip Cap, 1005 D 10PF
C439
TDK
–
Chip Cap, 1005 K 1000PF
C327
TDK
–
Chip Cap, 1005 J 12PF
C376
TDK
–
Chip Cap, 1005 Z 0.1μF
C440
TDK
–
Chip Cap, 1005 K 470PF
C328
TDK
–
Chip Cap, 1005 C 2PF
C378
HITACH
–
TDK
–
Chip Cap, 1608 C 3PF
TDK
–
Chip Cap, 1005 K 10nF
Chip Tantal, 10uF–M/
16V(A)
C445
C329
C446
TDK
–
Chip Cap, 1608 C 4PF
C330
TDK
–
Chip Cap, 1005 J 39PF
C379
TDK
–
Chip Cap, 1005 J 20PF
C447
TDK
–
Chip Cap, 1005 C 3PF
C331
TDK
–
Chip Cap, 1005 D 9PF
C380
TDK
–
Chip Cap, 1005 J 47PF
C448
TDK
–
Chip Cap, 1005 K 10nF
C332
TDK
–
Chip Cap, 1005 D 10PF
C382
TDK
–
Chip Cap, 1005 Z 0.1μF
C449
TDK
–
Chip Cap, 1005 C 3PF
C334
TDK
–
Chip Cap, 1005 K 1000PF
C401
TDK
–
Chip Cap, 1005 C 3PF
C451
TDK
–
Chip Cap, 1608 C 3PF
C337
TDK
–
Chip Cap, 1005 K 10nF
C402
TDK
–
Chip Cap, 1005 K 10nF
C452
TDK
–
Chip Cap, 1608 J 33PF
C338
TDK
–
Chip Cap, 1005 K 473PF
C403
TDK
–
Chip Cap, 1005 K 470PF
C453
TDK
–
Chip Cap, 1005 K 470PF
C339
TDK
–
Chip Cap, 1005 K 0.1μF
C404
TDK
–
Chip Cap, 1005 J 56PF
C454
HITACH
–
C340
TDK
–
Chip Cap, 1005 K 0.1μF
C405
TDK
–
Chip Cap, 1005 J 56PF
Chip Tantal, 22uF–M/
16V(B)
C341
TDK
–
Chip Cap, 1005 J 56PF
C406
TDK
–
Chip Cap, 1005 Z 0.1μF
C460
TDK
–
Chip Cap, 1005 J 47PF
C342
TDK
–
Chip Cap, 1005 K 0.1μF
C408
TDK
–
Chip Cap, 1005 K 10nF
C461
TDK
–
Chip Cap, 1005 J 220PF
C343
TDK
–
Chip Cap, 1005 Z 0.1μF
C410
TDK
–
Chip Cap, 1608 J 27PF
C462
TDK
–
Chip Cap, 1005 J 33PF
C344
TDK
–
Chip Cap, 1005 K 470PF
C413
TDK
–
Chip Cap, 1608 J 27PF
C463
TDK
–
Chip Cap, 1005 K 470PF
C347
TDK
–
Chip Cap, 1005 Z 0.1μF
C416
TDK
–
Chip Cap, 1608 D 7PF
C464
TDK
–
Chip Cap, 1005 J 47PF
C351
TDK
–
Chip Cap, 1005 D 10PF
C417
TDK
–
Chip Cap, 1608 J 12PF
C465
TDK
–
Chip Cap, 1005 K 470PF
C354
TDK
–
Chip Cap, 1005 D 10PF
C418
TDK
–
Chip Cap, 1608 J 15PF
C466
TDK
–
Chip Cap, 1005 K 470PF
C355
TDK
–
Chip Cap, 1005 J 15PF
C420
TDK
–
Chip Cap, 1608 D 10PF
C467
TDK
–
Chip Cap, 1005 K 470PF
C357
TDK
–
Chip Cap, 1005 J 56PF
C422
TDK
–
Chip Cap, 1608 J 12PF
C468
TDK
–
Chip Cap, 1005 C 0.5PF
C358
TDK
–
Chip Cap, 1005 J 15PF
C426
TDK
–
Chip Cap, 1608 C 6PF
C469
TDK
–
Chip Cap, 1005 Z 0.1μF
C360
TDK
–
Chip Cap, 1005 C 4PF
C427
TDK
–
Chip Cap, 1608 C 4PF
C470
TDK
–
Chip Cap, 1005 J 47PF
C361
TDK
–
Chip Cap, 1005 J 22PF
C428
TDK
–
Chip Cap, 1608 C 6PF
C471
TDK
–
Chip Cap, 1005 Z 0.1μF
7-18
Circuit
Ref.
Circuit Board/Schematic Diagram and Parts List (UHF2: 435–480 MHz)
Supplier
Supplier Part No.
Description
Circuit
Ref.
Supplier
Supplier Part No.
Description
Circuit
Ref.
Supplier
Supplier Part No.
Description
C472
TDK
–
Chip Cap, 1005 K 470PF
C531
TDK
–
Chip Cap, 1005 Z 0.1μF
C575
TDK
–
Chip Cap, 1005 J 47PF
C473
TDK
–
Chip Cap, 1005 J 47PF
C533
TDK
–
Chip Cap, 1005 Z 0.1μF
C576
TDK
–
Chip Cap, 1608 J 47PF
C501
TDK
–
Chip Cap, 1005 K 470PF
C536
TDK
–
Chip Cap, 1005 K 153PF
C577
TDK
–
Chip Cap, 1005 J 47PF
C502
HITACH
–
Chip Tantal, 22uF–M/
16V(B)
C537
TDK
–
Chip Cap, 1005 K 2200PF
C578
TDK
–
Chip Cap, 1005 J 47PF
C538
TDK
–
Chip Cap, 1005 K 10nF
C579
TDK
–
Chip Cap, 1005 J 47PF
C503
TDK
–
Chip Cap, 1005 Z 0.1μF
C539
HITACH
–
TDK
–
Chip Cap, 1005 J 47PF
TDK
–
Chip Cap, 1005 K 470PF
Chip Tantal, 10uF–M/
16V(A)
C580
C506
C581
TDK
–
Chip Cap, 1005 J 47PF
C507
HITACH
–
Chip Tantal, 22uF–M/
16V(B)
C540
TDK
–
Chip Cap, 1608 J 220PF
C582
TDK
–
Chip Cap, 1005 J 47PF
C541
TDK
–
Chip Cap, 1005 Z 0.1μF
Chip Tantal, 10uF–M/
16V(A)
C583
TDK
–
Chip Cap, 1005 J 47PF
C542
TDK
–
Chip Cap, 1005 K 10nF
C601
TDK
–
Chip Cap, 1005 Z 0.1μF
Chip Cap, 1005 K 470PF
C543
TDK
–
Chip Cap, 1005 K 2200PF
C602
TDK
–
Chip Cap, 1005 K 0.22μF
HITACH
–
Chip Tantal, 22uF–M/
10V(A)
C605
TDK
–
Chip Cap, 2012 Z 475PF
C508
C509
HITACH
TDK
–
–
C510
TDK
–
Chip Cap, 2012 Z 475PF
C545
C511
HITACH
–
Chip Tantal, 22uF–M/
16V(B)
C546
TDK
–
Chip Cap, 1005 K 0.1μF
C606
TDK
–
Chip Cap, 1005 Z 0.1μF
C512
TDK
–
Chip Cap, 1005 K 470PF
C547
TDK
–
Chip Cap, 1005 K 2200PF
C609
TDK
–
Chip Cap, 1005 K 0.1μF
C515
TDK
–
Chip Cap, 1005 Z 0.1μF
C549
TDK
–
Chip Cap, 1005 K 560PF
C615
TDK
–
Chip Cap, 1608 K 0.22μF
C516
HITACH
–
Chip Tantal, 10uF–M/
16V(A)
C550
TDK
–
Chip Cap, 1005 K 560PF
C616
TDK
–
Chip Cap, 1005 K 0.1μF
C551
HITACH
–
Chip Tantal, 10uF–M/
10V(A)
C617
TDK
–
Chip Cap, 1005 K 0.1μF
C618
HITACH
–
Chip Tantal, 4.7uF–M/
16V(A)
C619
TDK
–
Chip Cap, 1005 J 33PF
C517
TDK
–
Chip Cap, 1005 K 153PF
C518
TDK
–
Chip Cap, 1005 K 562PF
C519
TDK
–
Chip Cap, 1005 K 122PF
C520
TDK
–
Chip Cap, 1005 K 682PF
C521
TDK
–
Chip Cap, 1005 K 122PF
C522
TDK
–
Chip Cap, 1005 K 153PF
C523
TDK
–
Chip Cap, 1005 K 470PF
C524
TDK
–
Chip Cap, 1005 K 473PF
C525
TDK
–
Chip Cap, 1005 K 2200PF
C527
TDK
–
Chip Cap, 1005 K 183PF
C528
TDK
–
Chip Cap, 1005 K 183PF
C529
TDK
–
Chip Cap, 1005 Z 0.1μF
C530
TDK
–
Chip Cap, 1005 K 10nF
C560
TDK
–
Chip Cap, 1005 J 47PF
C561
TDK
–
Chip Cap, 1005 J 47PF
C620
TDK
–
Chip Cap, 1005 J 330PF
C562
TDK
–
Chip Cap, 1005 J 47PF
C621
TDK
–
Chip Cap, 1005 J 330PF
C563
TDK
–
Chip Cap, 1005 J 47PF
C622
TDK
–
Chip Cap, 1005 J 47PF
C564
TDK
–
Chip Cap, 1005 J 47PF
C623
TDK
–
Chip Cap, 1005 J 47PF
C565
TDK
–
Chip Cap, 1005 J 47PF
C624
TDK
–
Chip Cap, 1005 J 47PF
C566
TDK
–
Chip Cap, 1005 J 47PF
C625
TDK
–
Chip Cap, 1608 J 47PF
C570
TDK
–
Chip Cap, 1005 J 47PF
C701
HITACH
–
C571
TDK
–
Chip Cap, 1005 K 153PF
Chip Tantal, 22uF–M/
10V(A)
C572
TDK
–
Chip Cap, 1005 Z 0.1μF
C702
TDK
–
Chip Cap, 1005 K 1000PF
C573
TDK
–
Chip Cap, 1005 J 47PF
C704
TDK
–
Chip Cap, 1005 K 1000PF
C574
TDK
–
Chip Cap, 1005 J 47PF
C705
TDK
–
Chip Cap, 1005 C 2PF
Circuit Board/Schematic Diagram and Parts List (UHF2: 435–480 MHz)
Circuit
Ref.
Supplier
Supplier Part No.
Description
7-19
Circuit
Ref.
Supplier
Supplier Part No.
Description
Circuit
Ref.
Supplier
Supplier Part No.
Description
C706
TDK
–
Chip Cap, 1005 C 3PF
C746
TDK
–
Chip Cap, 1005 D 10PF
C1018
TDK
–
Chip Cap, 1005 J 220PF
C707
TDK
–
Chip Cap, 1005 D 9PF
C747
TDK
–
Chip Cap, 1005 D 10PF
C1019
TDK
–
Chip Cap, 1005 J 47PF
C709
TDK
–
Chip Cap, 1005 C 4PF
C748
TDK
–
Chip Cap, 1005 Z 0.1μF
C1020
TDK
–
Chip Cap, 1005 J 47PF
C710
MURATA
–
Chip Trimmer Cap, 2PIE
6PF
C749
TDK
–
Chip Cap, 1608 Z 1μF
C1021
TDK
–
Chip Cap, 1005 J 47PF
C750
TDK
–
Chip Cap, 1005 Z 0.1μF
C1022
TDK
–
Chip Cap, 1005 J 47PF
C711
MURATA
–
Chip Cap, 1005 J 13PF
10V
C751
HITACH
–
Chip Tantal, 1uF–M/
35V(A)
C1023
TDK
–
Chip Cap, 1005 J 47PF
C712
TDK
–
Chip Cap, 1005 K 470PF
C1024
TDK
–
Chip Cap, 1005 J 47PF
C752
TDK
–
Chip Cap, 1005 K 0.1μF
C714
TDK
–
Chip Cap, 1005 K 1000PF
C1025
TDK
–
Chip Cap, 1005 J 47PF
C753
PANASINIC
–
C715
HITACH
–
Chip Tantal, 22uF–M/
10V(A)
Film Chip Cap, 3216 J
473PF
C1026
TDK
–
Chip Cap, 1005 J 47PF
C754
PANASINIC
–
Film Chip Cap, 3216 J
473PF
C1027
TDK
–
Chip Cap, 1005 J 47PF
C1028
TDK
–
Chip Cap, 1005 J 47PF
C716
TDK
–
Chip Cap, 1005 K 470PF
C717
TDK
–
Chip Cap, 1005 C 3PF
C755
TDK
–
Chip Cap, 1005 K 0.1μF
C1029
TDK
–
Chip Cap, 1005 J 47PF
C718
TDK
–
Chip Cap, 1005 C 4PF
C756
TDK
–
Chip Cap, 1005 K 1000PF
C1030
TDK
–
Chip Cap, 1005 J 47PF
C719
TDK
–
Chip Cap, 1005 D 7PF
C1001
TDK
–
Chip Cap, 1005 J 47PF
C1031
TDK
–
Chip Cap, 1005 J 47PF
C721
TDK
–
Chip Cap, 1005 C 3PF
C1002
TDK
–
Chip Cap, 1005 J 47PF
C1032
TDK
–
Chip Cap, 1005 J 47PF
C722
MURATA
–
Chip Trimmer Cap, 2PIE
6PF
C1003
TDK
–
Chip Cap, 1005 J 47PF
C1033
TDK
–
Chip Cap, 1005 J 47PF
C1004
TDK
–
Chip Cap, 1005 J 47PF
C723
TDK
–
Chip Cap, 1005 C 0.5PF
C1034
TDK
–
Chip Cap, 1005 J 47PF
C1005
TDK
–
Chip Cap, 1005 J 47PF
C724
MURATA
–
Chip Cap, 1005 J 11PF
10V
C1035
TDK
–
Chip Cap, 1005 J 47PF
C1006
TDK
–
Chip Cap, 1005 J 47PF
C1036
TDK
–
Chip Cap, 1005 J 47PF
C725
TDK
–
Chip Cap, 1005 K 470PF
C1007
TDK
–
Chip Cap, 1005 J 47PF
C1037
TDK
–
Chip Cap, 1005 J 47PF
C726
TDK
–
Chip Cap, 1005 C 0.5PF
C1008
TDK
–
Chip Cap, 1005 J 47PF
C1038
TDK
–
Chip Cap, 1005 J 47PF
C727
TDK
–
Chip Cap, 1005 C 2PF
C1009
TDK
–
Chip Cap, 1005 J 47PF
C1039
TDK
–
Chip Cap, 1005 J 47PF
C728
TDK
–
Chip Cap, 1005 C 4PF
C1010
TDK
–
Chip Cap, 1005 J 47PF
CF1
BGTech
8286045500120
C729
TDK
–
Chip Cap, 1005 D 6PF
C1011
TDK
–
Chip Cap, 1005 J 47PF
TOKO, Ceramic Filter,
ELFY455F
C730
TDK
–
Chip Cap, 1005 C 2PF
C1012
TDK
–
Chip Cap, 1005 J 47PF
CF2
BGTech
8286045500220
TOKO, Ceramic Filter,
ELFY455H
C731
TDK
–
Chip Cap, 1005 C 2PF
C1013
TDK
–
Chip Cap, 1005 J 47PF
CR110
BRIGHT LED
–
TDK
–
Chip Cap, 1005 J 47PF
LED DIODE, BL-HG036DTR
CR111
BRIGHT LED
–
LED DIODE, BL-HG036DTR
CR1122
BRIGHT LED
–
LED DIODE, BL-HG036DTR
C738
TDK
–
Chip Cap, 1005 D 7PF
C1014
C739
TDK
–
Chip Cap, 1005 K 1000PF
C1015
TDK
–
Chip Cap, 1005 J 47PF
C740
TDK
–
Chip Cap, 1005 Z 0.1μF
C1016
TDK
–
Chip Cap, 1005 Z 0.1μF
Chip Cap, 1005 Z 0.1μF
C1017
TDK
–
Chip Cap, 1005 K 470PF
C741
TDK
–
7-20
Circuit Board/Schematic Diagram and Parts List (UHF2: 435–480 MHz)
Circuit
Ref.
Supplier
Supplier Part No.
Description
CR1132
BRIGHT LED
–
LED DIODE, BL-HG036DTR
CR1142
BRIGHT LED
–
CR1152
BRIGHT LED
–
Circuit
Ref.
Supplier
Supplier Part No.
CR501
BRIGHT LED
–
LED DIODE, BLHEIG033B-TR
LED DIODE, BL-HG036DTR
CR701
KEC
–
LED DIODE, BL-HG036DTR
CR702
KEC
–
Description
Supplier
Supplier Part No.
Description
J105
BGTech
851612A01S110
VARIABLE DIODE, KDV–
154E (ESM)
YUNHO, FPC
CONNECTOR, 05004HR–
12B01S(G)
J601
BGTech
8500031009800
VARIABLE DIODE, KDV–
154E (ESM)
CHI CHENG, SPK MIC
JACK, 0980683Z01–D
J602
BGTech
85100G500PL00
SUYIN, BATTERY
CONNECTOR,
060031MA005G500PL
J603
BGTech
8510530470210
MOLEX, CONNECTOR,
53047–0210
L301
DEARIM
–
Coil Air, 0.45–1.4–5TL
L304
TAIYOYUDEN
–
Chip Ind, 1005 J 39N
CR116
KEC
–
SWITCH DIODE, KDS–
160E (ESM)
CR703
KEC
CR117
KEC
–
SWITCH DIODE, KDS–
160E (ESM)
DEC1
BGTech
8287455C24010
CQ, Descriminator,
JTBC455C24 (LCP)
CR201
KEC
–
SWITCH DIODE, KDS
181
FL101
BGTech
82827R3728M00
SHINSUNG, Crystal,
7.3728MHz (H: 2.8mm)
–
Circuit
Ref.
VARIABLE DIODE, KDV–
154E (ESM)
CR202
KEC
–
SWITCH DIODE, KDS
181
FL102
BGTech
82823R5795M00
SHINSUNG, Crystal,
3.5795MHz (H: 2.8mm)
L306
DELTA
–
Chip Ind, 2012 820NH
(Tolerance: 5%)
CR301
KEC
–
SWITCH DIODE, KDS–
114
FL201
BGTech
828244R645M00
SHINSUNG, Crystal,
44.645MHz (SMD)
L310
DELTA
–
Chip Ind, 2012 18NH
L320
DELTA
–
Chip Ind, 2012 22nH
CR304
KEC
–
VARIABLE DIODE, KDV–
154E (ESM)
FL301
BGTech
828645R100220
L322
DELTA
–
Chip Ind, 2012 18NH
CR305
KEC
–
VARIABLE DIODE, KDV–
154E (ESM)
SHINSUNG, Crystal Filter,
MCF 45.15S12.B (8.5
kHz)
L323
DELTA
–
Chip Ind, 2012 18NH
L324
DELTA
–
Chip Ind, 2012 22nH
L325
TAIYOYUDEN
–
Chip Ind, 1608 220nH J
L327
TAIYOYUDEN
–
Chip Ind, 1608 K 820NH
L328
DELTA
–
Chip Ind, 2012 18NH
L329
BGTech
8920PT1667020
TOKO, #617PT–1667
L330
TAIYOYUDEN
–
Chip Ind, 1005 J 33nH
L331
KAMAYA
–
Chip Res, 1005 J 0Ω
L332
TAIYOYUDEN
–
Chip Ind, 1608 K 820NH
L333
BGTech
L334
CR306
CR307
KEC
KEC
–
–
SWITCH DIODE, KDS–
160E (ESM)
VARIABLE DIODE, KDV–
154E (ESM)
FL701
BGTech
8289012R80010
SHINSUNG, VCTCXO,
12.8 MHZ
F–
CABLE
1
BGTech
8560228005000
SNAGGWA, BEACON
FLAT CABLE, FF12–
22N080XXA
BGTech
BGTech
CR309
KEC
–
SWITCH DIODE, KDS–
114E (ESM)
F–
CABLE
2
CR310
KEC
–
SWITCH DIODE, KDS–
114E (ESM)
J101
CR312
KEC
–
SWITCH DIODE, KDS–
160E (ESM)
CR313
KEC
–
VARIABLE DIODE, KDV–
154E (ESM)
CR314
KEC
–
VARIABLE DIODE, KDV–
154E (ESM)
CR315
KEC
–
SWITCH DIODE, KDS–
160E (ESM)
CR401
M/A COM
–
PIN DIODE, MA4P7001F–
1072T
J102
J103
J104
BGTech
BGTech
BGTech
8560124005000
851607C01S110
851622A01S110
8516220005020
851612151A110
SNAGGWA, , BEACON
FLAT CABLE, FF12–
12N040XXA
YUNHO, FPC
CONNECTOR, 05004HR07C01S(G)
YUNHO, FPC
CONNECTOR, 05004HR–
22A01S
KYOCERA, FPC
CONNECTOR, 04-6292022-000-800+
OMIRON, FPC
CONNECTOR, XF2M1215-1A
8920PT1664020
TOKO, #617PT–1664
TAIYOYUDEN
–
Chip Ind, 1005 J 8.2nH
L340
TAIYOYUDEN
–
Chip Ind, 1608 K 820NH
L401
TAIYOYUDEN
–
Chip Ind, 1608 J 27nH
L402
TAIYOYUDEN
–
Chip Ind, 1608 J 22nH
L403
TAIYOYUDEN
–
Chip Ind, 1608 33NJ
L405
TAIYOYUDEN
–
Chip Ind, 1608 J 6.8nH
Circuit Board/Schematic Diagram and Parts List (UHF2: 435–480 MHz)
Circuit
Ref.
Supplier
Supplier Part No.
L406
TAIYOYUDEN
–
Chip Ind, 1608 220nH J
L407
TAIYOYUDEN
–
Chip Ind, 1005 J 33nH
L409
DEARIM
–
Coil Air, 0.45–1.4–3TL
L410
DEARIM
–
Coil Air, 0.45–1.4–3TL
L411
DEARIM
–
Coil Air, 0.45–1.4–3TL
L412
TAIYOYUDEN
–
Chip Ind, 1608 220nH J
L413
DEARIM
–
Coil Air, 0.35–1.6–7TL
L601
TAIYOYUDEN
–
Chip Ind, 1608 K 2.2uH
L602
TAIYOYUDEN
–
Chip Ind, 1608 K 2.2uH
L603
TAIYOYUDEN
–
Chip Ind, 1608 K 2.2uH
L604
TAIYOYUDEN
–
Chip Ind, 1608 K 2.2uH
L701
TAIYOYUDEN
–
Chip Ind, 1005 J 27N
L702
TAIYOYUDEN
–
Chip Ind, 1608 K 2.2uH
L703
DAERIM
–
Coil Air, 0.3–1.1–3TL
L704
TAIYOYUDEN
–
Chip Ind, 1608 220nH J
L705
TAIYOYUDEN
–
Chip Ind, 1608 K 2.2uH
L706
DAERIM
–
Coil Air, 0.3–1.0–3TL
L707
TAIYOYUDEN
–
Chip Ind, 1608 220nH J
L708
TAIYOYUDEN
–
Chip Ind, 1005 J 27N
L709
TAIYOYUDEN
–
LCD101
BGTech
MIC1
BGTech
86343208A2020
8420063215000
Description
7-21
Circuit
Ref.
Supplier
Supplier Part No.
Description
Circuit
Ref.
Supplier
Supplier Part No.
Description
Q102
KEC
–
KRC 413 BJT NPN
Transistor
Q307
BGTech
81492SK711020
2SK711 TOSHIBA FET N–
Channel Transistor
Q103
KEC
–
KRC 413 BJT NPN
Transistor
Q401
BGTech
8142000951120
PBR 951LT1 PHILIPS BJT
NPN Transistor
Q104
KEC
–
KRC 413 BJT NPN
Transistor
Q402
BGTech
8149003078021
2SK3078 TOSHIBA FET
N–Channel Transistor
Q110
NEC
–
2SC4226 BJT NPN
Transistor
Q403
BGTech
8149003476021
2SK3476 TOSHIBA FET
N–Channel Transistor
Q111
KEC
–
KTA 2014 BJT PNP
Transistor
Q404
BGTech
8145001188021
STB 1188 AUK BJT NPN
Transistor
Q112
KEC
–
KTA 2014 BJT PNP
Transistor
Q405
KEC
–
KTC 4075 BJT NPN
Transistor
Q113
KEC
–
KRC 404 BJT NPN
Transistor
Q406
KEC
–
KRC 404 BJT NPN
Transistor
Q114
KEC
–
KRC 404 BJT NPN
Transistor
Q407
KEC
–
KRA 305 BJT PNP
Transistor
Q120
KEC
–
KRC 404 BJT NPN
Transistor
Q408
KEC
–
KRC 404 BJT NPN
Transistor
Q121
KEC
–
KRC 404 BJT NPN
Transistor
Q409
NEC
–
2SC4226 BJT NPN
Transistor
Q122
KEC
–
KRC 404 BJT NPN
Transistor
Q501
KEC
–
KRC 404 BJT NPN
Transistor
Q201
KEC
–
KRC 404 BJT NPN
Transistor
Q502
KEC
–
KRC 404 BJT NPN
Transistor
Chip Ind, 1005 J 22N
Q206
KEC
–
Q503
KEC
–
EVERRVIEW,VBS3208A2
–7FWLYA,REV4.0
KRC 404 BJT NPN
Transistor
KRC 404 BJT NPN
Transistor
Q207
KEC
–
Q504
KEC
–
BSE, C-MIC, 6.0*2.7/
2.2KΩ,2V,-44±3dB, Pin
type
KRC 404 BJT NPN
Transistor
KRC 404 BJT NPN
Transistor
Q301
KEC
–
2SC4226 BJT NPN
Transistor
Q505
KEC
–
KRA 305 BJT PNP
Transistor
PB501
BGTech
8466PUD02K020
PANASONIC, Tack
Switch, EVQPUD02K
Q303
NEC
–
2SC4226 BJT NPN
Transistor
Q601
KEC
–
KRC 404 BJT NPN
Transistor
PB502
BGTech
8466PUD02K020
PANASONIC, Tack
Switch, EVQPUD02K
Q304
KEC
–
KRA 305 BJT PNP
Transistor
Q602
KEC
–
KRC 404 BJT NPN
Transistor
PB503
BGTech
8466PUD02K020
PANASONIC, Tack
Switch, EVQPUD02K
Q305
KEC
–
KRC 404 BJT NPN
Transistor
Q701
NEC
–
2SC4226 BJT NPN
Transistor
Q101
KEC
KRC 413 BJT NPN
Transistor
Q306
BGTech
2SK711 TOSHIBA FET N–
Channel Transistor
Q702
NEC
–
2SC4226 BJT NPN
Transistor
–
81492SK711020
7-22
Circuit
Ref.
Q703
Circuit Board/Schematic Diagram and Parts List (UHF2: 435–480 MHz)
Supplier
NEC
Supplier Part No.
–
Description
2SC4226 BJT NPN
Transistor
Q704
NEC
–
2SC4226 BJT NPN
Transistor
Q705
KEC
–
KRA 305 BJT PNP
Transistor
Q706
KEC
–
KRA 305 BJT PNP
Transistor
Q707
KEC
–
KTC 4075 BJT NPN
Transistor
Circuit
Ref.
Supplier
Supplier Part No.
Description
Circuit
Ref.
Supplier
Supplier Part No.
Description
R118
KAMAYA
–
Chip Res, 1005 J 47KΩ
R152
KAMAYA
–
Chip Res, 1005 J 680Ω
R1192
KAMAYA
–
Chip Res, 1005 J 4.7KΩ
R153
KAMAYA
–
Chip Res, 1005 F 68KΩ
R120
KAMAYA
–
Chip Res, 1005 J 47KΩ
R154
KAMAYA
–
Chip Res, 1005 F 47KΩ
R121
KAMAYA
–
Chip Res, 1005 J 330KΩ
R155
KAMAYA
–
Chip Res, 1005 J 470Ω
R122
KAMAYA
–
Chip Res, 1005 J 330KΩ
R156
KAMAYA
–
Chip Res, 1005 J 1KΩ
R126
KAMAYA
–
Chip Res, 1005 J 15KΩ
R1572
KAMAYA
–
Chip Res, 1005 J 1KW
R127
KAMAYA
–
Chip Res, 1005 J 33KΩ
R1582
KAMAYA
–
Chip Res, 1005 J 1KΩ
R128
KAMAYA
–
Chip Res, 1005 J 3.9KΩ
R159
KAMAYA
–
Chip Res, 1005 J 47KΩ
R129
KAMAYA
–
Chip Res, 1005 J 150KΩ
R160
KAMAYA
–
Chip Res, 1005 J 47KΩ
R131
KAMAYA
–
Chip Res, 1005 J 10Ω
R161
KAMAYA
–
Chip Res, 1005 J 47KΩ
R132
KAMAYA
–
Chip Res, 1005 J 1KΩ
R162
KAMAYA
–
Chip Res, 1005 J 820Ω
Q708
KEC
–
KTA 2014 BJT PNP
Transistor
Q709
KEC
–
KTA 2014 BJT PNP
Transistor
Q710
KEC
–
KTC 4075 BJT NPN
Transistor
R133
KAMAYA
–
Chip Res, 1005 J 680KΩ
R163
KAMAYA
–
Chip Res, 1005 J 100KΩ
R134
KAMAYA
–
Chip Res, 1005 J 3.9MΩ
R164
KAMAYA
–
Chip Res, 1005 J 100KΩ
R135
TDK
–
Chip Cap,1005 K 0.1μF
R165
KAMAYA
–
Chip Res, 1005 J 3KΩ
R136
KAMAYA
–
Chip Res, 1005 J 100KΩ
R167
KAMAYA
–
Chip Res, 1005 J 100KΩ
R137
KAMAYA
–
Chip Res, 1005 J 4.7MΩ
R168
KAMAYA
–
Chip Res, 1005 J 100KΩ
R138
KAMAYA
–
Chip Res, 1005 J 220KΩ
R169
KAMAYA
–
Chip Res, 1005 J 1.2KΩ
R139
KAMAYA
–
Chip Res, 1005 J 10KΩ
R171
KAMAYA
–
Chip Res, 1005 J 10KΩ
R140
KAMAYA
–
Chip Res, 1005 J 68KΩ
R172
KAMAYA
–
Chip Res, 1005 J 10KΩ
R141
KAMAYA
–
Chip Res, 1005 J 100KΩ
R173
KAMAYA
–
Chip Res, 1005 J 10KΩ
R142
KAMAYA
–
Chip Res, 1005 J 330KΩ
R174
KAMAYA
–
Chip Res, 1005 J 100KΩ
R143
KAMAYA
–
Chip Res, 1005 J 100KΩ
R175
KAMAYA
–
Chip Res, 1005 J 51KΩ
R144
KAMAYA
–
Chip Res, 1005 J 100KΩ
R176
KAMAYA
–
Chip Res, 1005 J 24KΩ
R145
KAMAYA
–
Chip Res, 1005 J 1MΩ
R177
KAMAYA
–
Chip Res, 1005 J 20KΩ
R146
KAMAYA
–
Chip Res, 1005 J 0Ω
R178
KAMAYA
–
Chip Res, 1005 J 100KΩ
R147
KAMAYA
–
Chip Res, 1005 J 47KΩ
R179
KAMAYA
–
Chip Res, 1005 J 51KΩ
R148
KAMAYA
–
Chip Res, 1005 J 1MΩ
R180
KAMAYA
–
Chip Res, 1005 J 100KΩ
R149
KAMAYA
–
Chip Res, 1005 J 470KΩ
R182
KAMAYA
–
Chip Res, 1005 J 200KΩ
R150
KAMAYA
–
Chip Res, 1005 F 10KΩ
R184
KAMAYA
–
Chip Res, 1005 J 15KΩ
R151
KAMAYA
–
Chip Res, 1005 F 12KΩ
R185
KAMAYA
–
Chip Res, 1005 J 0Ω
Q711
KEC
–
KRA 304 BJT PNP
Transistor
R101
KAMAYA
–
Chip Res, 1005 J 10KΩ
R102
KAMAYA
–
Chip Res, 1005 J 47KΩ
R103
KAMAYA
–
Chip Res, 1005 J 150KΩ
R104
KAMAYA
–
Chip Res, 1005 J 47KΩ
R105
KAMAYA
–
Chip Res, 1005 J 47KΩ
R106
KAMAYA
–
Chip Res, 1005 J 47KΩ
R107
KAMAYA
–
Chip Res, 1005 J 3.9KΩ
R1082
KAMAYA
–
Chip Res, 1005 J 4.7KΩ
R1092
KAMAYA
–
Chip Res, 1005 J 4.7KΩ
R110
KAMAYA
–
Chip Res, 1005 J 270KΩ
R1122
KAMAYA
–
Chip Res, 1005 J 4.7KΩ
R113
KAMAYA
–
Chip Res, 1005 J 47KΩ
R114
KAMAYA
–
Chip Res, 1005 J 10KΩ
R115
KAMAYA
–
Chip Res, 1005 J 10KΩ
R116
KAMAYA
–
Chip Res, 1005 J 1.2KΩ
R117
KAMAYA
–
Chip Res, 1005 J 8.2KΩ
Circuit Board/Schematic Diagram and Parts List (UHF2: 435–480 MHz)
Circuit
Ref.
Supplier
Supplier Part No.
Description
7-23
Circuit
Ref.
Supplier
Supplier Part No.
Description
Circuit
Ref.
Supplier
Supplier Part No.
Description
R190
KAMAYA
–
Chip Res, 1005 J 15KΩ
R317
KAMAYA
–
Chip Res, 1005 J 180KΩ
R418
KAMAYA
–
Chip Res, 1608 D 220KΩ
R193
KAMAYA
–
Chip Res, 1005 J 10KΩ
R318
KAMAYA
–
Chip Res, 1005 J 3.3KΩ
R419
KAMAYA
–
Chip Res, 1608 D 220KΩ
R194
KAMAYA
–
Chip Res, 1005 J 10KΩ
R319
KAMAYA
–
Chip Res, 1005 J 3.3KΩ
R420
KAMAYA
–
Chip Res, 1005 J 4.7MΩ
R195
KAMAYA
–
Chip Res, 1005 J 100Ω
R320
KAMAYA
–
Chip Res, 1005 J 100Ω
R421
KAMAYA
–
Chip Res, 1608 D 68KΩ
R196
KAMAYA
–
Chip Res, 1005 J 47KΩ
R323
KAMAYA
–
Chip Res, 1005 J 100KΩ
R422
KAMAYA
–
Chip Res, 1608 D 68KΩ
R197
KAMAYA
–
Chip Res, 1005 J 47KΩ
R330
KAMAYA
–
Chip Res, 1005 J 100KΩ
R423
KAMAYA
–
Chip Res, 1005 J 3.9MΩ
R198
KAMAYA
–
Chip Res, 1005 J 47KΩ
R332
KAMAYA
–
Chip Res, 1005 J 100KΩ
R424
KAMAYA
–
Chip Res, 1005 J 12KΩ
R199
KAMAYA
–
Chip Res, 1005 J 47KΩ
R333
KAMAYA
–
Chip Res, 1005 J 100KΩ
R425
KAMAYA
–
Chip Res, 1005 J 3.9KΩ
R203
KAMAYA
–
Chip Res, 1005 J 22KΩ
R334
KAMAYA
–
Chip Res, 1005 J 100KΩ
R426
KAMAYA
–
Chip Res, 1005 J 4.7KΩ
R204
KAMAYA
–
Chip Res, 1005 J 22KΩ
R335
KAMAYA
–
Chip Res, 1005 J 2.2KΩ
R427
KAMAYA
–
Chip Res, 1005 J 220KΩ
R206
KAMAYA
–
Chip Res, 1005 J 10KΩ
R336
KAMAYA
–
Chip Res, 1005 J 1KΩ
R428
KAMAYA
–
Chip Res, 1005 J 100Ω
R207
KAMAYA
–
Chip Res, 1005 J 22KΩ
R337
KAMAYA
–
Chip Res, 1005 J 100Ω
R429
KAMAYA
–
Chip Res, 1005 J 3.6KΩ
R208
KAMAYA
–
Chip Res, 1005 J 12KΩ
R338
KAMAYA
–
Chip Res, 1005 J 100Ω
R430
KAMAYA
–
Chip Res, 1005 J 100Ω
R210
KAMAYA
–
Chip Res, 1005 J 120KΩ
R401
KAMAYA
–
Chip Res, 1005 J 180Ω
R431
KAMAYA
–
Chip Res, 1005 J 10KΩ
R211
KAMAYA
–
Chip Res, 1005 J 15KΩ
R402
KAMAYA
–
Chip Res, 1005 J 39Ω
R432
KAMAYA
–
Chip Res, 1005 J 27KΩ
R212
KAMAYA
–
Chip Res, 1005 J 33KΩ
R403
KAMAYA
–
Chip Res, 1005 J 180Ω
R433
KAMAYA
–
Chip Res, 1005 J 0Ω
R213
KAMAYA
–
Chip Res, 1005 J 3.3KΩ
R404
KAMAYA
–
Chip Res, 1005 J 8.2KΩ
R434
KAMAYA
–
Chip Res, 1005 J 33KΩ
R216
KAMAYA
–
Chip Res, 1005 J 10KΩ
R405
KAMAYA
–
Chip Res, 1005 J 1.5KΩ
R435
KAMAYA
–
Chip Res, 1005 J 150Ω
R217
KAMAYA
–
Chip Res, 1005 J 10KΩ
R406
KAMAYA
–
Chip Res, 1005 J 22Ω
R436
KAMAYA
–
Chip Res, 1005 J 100Ω
R220
KAMAYA
–
Chip Res, 1005 J 5.6KΩ
R407
KAMAYA
–
Chip Res, 1005 J 4.7KΩ
R440
KAMAYA
–
Chip Res, 1005 J 15KΩ
R250
KAMAYA
–
Chip Res, 1005 J 10KΩ
R408
KAMAYA
–
Chip Res, 1005 J 2.2KΩ
R441
KAMAYA
–
Chip Res, 1005 J 0Ω
R258
KAMAYA
–
Chip Res, 1005 J 1.5KΩ
R409
KAMAYA
–
Chip Res, 1005 J 10Ω
R501
KAMAYA
–
Chip Res, 1005 J 220Ω
R302
KAMAYA
–
Chip Res, 1005 J 56KΩ
R410
KAMAYA
–
Chip Res, 1005 J 10Ω
R502
KAMAYA
–
Chip Res, 1005 J 220Ω
R309
KAMAYA
–
Chip Res, 1005 J 100Ω
R411
KAMAYA
–
Chip Res, 1005 J 560Ω
R503
KAMAYA
–
Chip Res, 1005 J 56KΩ
R310
KAMAYA
–
Chip Res, 1005 J 4.7KΩ
R412
KAMAYA
–
Chip Res, 1005 J 1KΩ
R504
NOBLE
–
R311
KAMAYA
–
Chip Res, 1005 J 330Ω
R413
KAMAYA
–
Chip Res, 1005 J 8.2KΩ
Chip Semi V.R, 3PIE 47
KΩ
R312
KAMAYA
–
Chip Res, 1005 J 150KΩ
R414
KAMAYA
–
Chip Res, 1005 J 1KΩ
R505
KAMAYA
–
Chip Res, 1005 J 12KΩ
R314
KAMAYA
–
Chip Res, 1005 J 100Ω
R415
KAMAYA
–
Chip Res, 2012 J 220Ω
R506
KAMAYA
–
Chip Res, 1005 J 10KΩ
R315
KAMAYA
–
Chip Res, 1005 J 100Ω
R416
KAMAYA
–
Chip Res, 1608 J 47KΩ
R507
KAMAYA
–
Chip Res, 1005 J 10KΩ
R316
KAMAYA
–
Chip Res, 1005 J 100KΩ
R417
ROHM
–
Chip Res, 1W J 2512 0.1Ω
R508
KAMAYA
–
Chip Res, 1005 J 3.6KΩ
R509
KAMAYA
–
Chip Res, 1005 J 2.2KΩ
7-24
Circuit
Ref.
Circuit Board/Schematic Diagram and Parts List (UHF2: 435–480 MHz)
Supplier
Supplier Part No.
Description
Circuit
Ref.
Supplier
Supplier Part No.
Description
Circuit
Ref.
Supplier
Supplier Part No.
Description
R510
KAMAYA
–
Chip Res, 1005 J 15KΩ
R609
KAMAYA
–
Chip Res, 1005 J 1KΩ
R720
KAMAYA
–
Chip Res, 1005 J 150Ω
R511
KAMAYA
–
Chip Res, 1005 J 8.2KΩ
R610
KAMAYA
–
Chip Res, 1005 J 2.2Ω
R721
KAMAYA
–
Chip Res, 1005 J 150Ω
R512
KAMAYA
–
Chip Res, 1005 J 20KΩ
R613
KAMAYA
–
Chip Res, 1005 J 15KΩ
R722
KAMAYA
–
Chip Res, 1005 J 10KΩ
R513
KAMAYA
–
Chip Res, 1005 J 10KΩ
R614
KAMAYA
–
Chip Res, 1005 J 390KΩ
R723
KAMAYA
–
Chip Res, 1005 J 1KΩ
R514
KAMAYA
–
Chip Res, 1005 J 15KΩ
R615
KAMAYA
–
Chip Res, 1005 J 2.2Ω
R724
KAMAYA
–
Chip Res, 1005 J 390Ω
R515
KAMAYA
–
Chip Res, 1005 J 20KΩ
R616
KAMAYA
–
Chip Res, 1005 J 0Ω
R725
KAMAYA
–
Chip Res, 1005 J 100Ω
R516
KAMAYA
–
Chip Res, 1005 J 2.2KΩ
R619
KAMAYA
–
Chip Res, 1005 J 10KΩ
R726
KAMAYA
–
Chip Res, 1005 J 3KΩ
R517
KAMAYA
–
Chip Res, 1005 J 15KΩ
R620
KAMAYA
–
Chip Res, 1005 J 33KΩ
R727
KAMAYA
–
Chip Res, 1005 J 2.7KΩ
R518
KAMAYA
–
Chip Res, 1005 J 4.7KΩ
R621
KAMAYA
–
Chip Res, 1005 J 39KΩ
R728
KAMAYA
–
Chip Res, 1005 J 2.7KΩ
R519
KAMAYA
–
Chip Res, 1005 J 4.7MΩ
R622
KAMAYA
–
Chip Res, 1005 J 0Ω
R729
KAMAYA
–
Chip Res, 1005 J 100KΩ
R520
KAMAYA
–
Chip Res, 1005 J 1MΩ
R623
KAMAYA
–
Chip Res, 1005 J 560Ω
R730
KAMAYA
–
Chip Res, 1005 J 33KΩ
R521
KAMAYA
–
Chip Res, 1005 J 330KΩ
R701
KAMAYA
–
Chip Res, 1005 J 56Ω
R731
KAMAYA
–
Chip Res, 1005 J 10Ω
R523
KAMAYA
–
Chip Res, 1005 F 30KΩ
R702
KAMAYA
–
Chip Res, 1005 J 1.5KΩ
R732
KAMAYA
–
Chip Res, 1005 J 10KΩ
R524
KAMAYA
–
Chip Res, 1005 F 47KΩ
R703
KAMAYA
–
Chip Res, 1005 F 4.7KΩ
R733
KAMAYA
–
Chip Res, 1005 J 0Ω
R526
NOBLE
–
Chip Semi V.R, 2PIE 47
KΩ
R704
KAMAYA
–
Chip Res, 1005 F 4.7KΩ
R734
KAMAYA
–
Chip Res, 1005 J 10Ω
R705
KAMAYA
–
Chip Res, 1005 J 220Ω
R735
KAMAYA
–
Chip Res, 1005 J 1KΩ
R527
KAMAYA
–
Chip Res, 1005 J 82KΩ
R706
KAMAYA
–
Chip Res, 1005 J 100Ω
R736
KAMAYA
–
Chip Res, 1005 J 1KΩ
R528
KAMAYA
–
Chip Res, 1005 J 82KΩ
R707
KAMAYA
–
Chip Res, 1005 J 1.5KΩ
R737
KAMAYA
–
Chip Res, 1005 J 1KΩ
R529
KAMAYA
–
Chip Res, 1005 J 47KΩ
R708
KAMAYA
–
Chip Res, 1005 F 4.7KΩ
R740
KAMAYA
–
Chip Res, 1005 J 1.5KΩ
R530
KAMAYA
–
Chip Res, 1005 J 47KΩ
R709
KAMAYA
–
Chip Res, 1005 F 6.8KΩ
R1001
KAMAYA
–
Chip Res, 1005 J 10KΩ
R531
KAMAYA
–
Chip Res, 1005 J 47KΩ
R710
KAMAYA
–
Chip Res, 1005 J 220Ω
R1002
KAMAYA
–
Chip Res, 1005 J 9.1KΩ
R532
KAMAYA
–
Chip Res, 1005 J 10KΩ
R711
KAMAYA
–
Chip Res, 1005 J 100KΩ
R1003
KAMAYA
–
Chip Res, 1005 J 10KΩ
R533
KAMAYA
–
Chip Res, 1005 J 10KΩ
R712
KAMAYA
–
Chip Res, 1005 J 100KΩ
R1004
KAMAYA
–
Chip Res, 1005 J 10KΩ
R534
KAMAYA
–
Chip Res, 1005 J 10KΩ
R713
KAMAYA
–
Chip Res, 1005 J 30KΩ
R1005
TDK
–
Chip Cap, 1005 K 10nF
R535
KAMAYA
–
Chip Res, 1005 J 10KΩ
R714
KAMAYA
–
Chip Res, 1005 J 56Ω
RT201
TAIYOYUDEN
–
Thermistor, 103K
R536
KAMAYA
–
Chip Res, 1005 J 330KΩ
R715
KAMAYA
–
Chip Res, 1005 J 56Ω
RT501
TAIYOYUDEN
–
Thermistor, 103K
R537
KAMAYA
–
Chip Res, 1005 J 1KΩ
R716
KAMAYA
–
Chip Res, 1005 J 300Ω
SH101
BGTech
8860BEACA1010
Shield CAN, VCO
R538
KAMAYA
–
Chip Res, 1005 J 10KΩ
R717
KAMAYA
–
Chip Res, 1005 J 10Ω
SH102
BGTech
8860BEAC93010
Shield CAN, PLL
R539
KAMAYA
–
Chip Res, 1005 J 330KΩ
R718
KAMAYA
–
Chip Res, 1005 J 7.5KΩ
SH103
BGTech
8660BEACA4010
Shield CAN, PA
R540
KAMAYA
–
Chip Res, 1005 J 47KΩ
R719
KAMAYA
–
Chip Res, 1005 J 1KΩ
SH105
MOTOROLA
PMDN4149AR
Finger Strip TX
R541
KAMAYA
–
Chip Res, 1005 J 330KΩ
Circuit Board/Schematic Diagram and Parts List (UHF2: 435–480 MHz)
Circuit
Ref.
Supplier
SH201
MOTOROLA
SPK1
BGTech
Supplier Part No.
PMDN4151AR
8400362424100
84766N992N151
Description
Supplier
Supplier Part No.
Description
U508
BGTech
8191401150320
SHINMYUNG, Speaker,
24Ω 1.0W 36θ(Connector
type)
MIRCO CHIP,DIGITAL
POTENTIOMETER,
MCP4011(503)
U601
BGTech
811608541T020
TOKOS, Switch Volume,
RY-8418 Rev1
PHILIPS, AUDIO
AMP,TDA8541
U701
BGTech
810415E03S020
FUJISU, PLL IC,
MB15E03SLPFV1–G–
BND–EF–6
PCB1
BGTech
8431BEACON200
CAFSYSTEM, Main PCB,
FR4 4 Layer PCB Rev.#P4
KEY
PCB1
BGTech
8422BEACON100
CAFSYSTEM, Key PCB,
1.2T 2Layer
BGTech
U101
BGTech
81100303RF020
RENESAS, CPU IC,
M3030RFCPGP
U102
BGTech
8116AK2347020
ASAHI KASEL, AUDIO
LSI, AK2347
U103
BGTech
8192088L70020
ZERLINK, DTMF
RECEIVER, MT88L70
U104
BGTech
811324LC64020
MIRCO CHIP, EEPROM
IC, 24LC64
U105
JRC
U106
BGTech
8135TC7S66020
TOSHIBA, Analog SW IC,
TC7S66FU
U107
BGTech
81287027AT020
VOLTAGE DETECTOR,
KIA7027AT
U201
BGTech
8125311360020
TOSHIBA, FM IC,
TA31136
U202
BGTech
8191401150220
MIRCOCHIP, DIGITAL
POTENTIOMETER,
MCP4011(502)
U401
KEC
U402
BGTech
U501
–
Circuit
Ref.
Finger Strip–Pair
SW/
VOL1
–
7-25
OP AMP, NJM324
OP AMP (DUAL), KIA358
8191401150220
MIRCOCHIP, DIGITAL
POTENTIOMETER,
MCP4011(502)
JRC
–
JRC, OP AMP, NJM324
U502
JRC
–
JRC, OP AMP, NJM324
U505
BGTech
8123011250021
TOKO, REGULATOR IC,
TK11250AMTL
U506
BGTech
8123112330020
TOKO, REGULATOR IC,
TK11233AMTL
U507
BGTech
8128TC1240020
MICRO CHIP, VOLTAGE
DOUBLER, TC1240
Note:
2: Not for PMUE3144AAL
7-26
Notes
Chapter 8 136 – 174 MHz VHF Theory Of Operation
8.1
Introduction
This chapter provides a detailed theory of operation for the radio components. Schematic diagrams
for the circuits described in the following paragraphs are located in Chapter 10 of this manual.
8.2
VHF Receiver
The VHF receiver design covers the frequency range of 136 – 174 MHz and it is a double
conversion super heterodyne with 1st IF 45.1 MHz and 2nd IF 455 kHz. The receiver is divided into
two major blocks, Front End and Back End as shown in Figure 8-1.
Preselector
Filter
RF
Amp
Postselector
Crystal IF
1st Mixer Filter Amp
Filter
RX from
Antenna Switch
Inj Filter
First LO
from Synthesizer
N/S_SW
Descriminator
455C24
LPF
Recovered Audio
Quadrature
Detector
Ceramic
Filter 455FW
455HW
IF
Amp
RSSI
Crystal
44.645MHz
Figure 8-1. VHF Receiver Block Diagram
8-2
8.2.1
136 – 174 MHz VHF Theory Of Operation: VHF Receiver
Receiver Front End
Incoming RF signals from antenna are first routed through the harmonic filter (L409, L410, L411,
C426, C427, C428, C429, C445, C446) and antenna switch (CR301), part of the transmitter circuitry,
before being applied to the receiver front end. The receiver front end consists of preselector filter, RF
amplifier, post-selector filter and a single-balanced mixer.
The preselector filter is a varactor-tuned 2-pole design using discrete elements (L301, L302, L303,
L304, C301, C304, C305, C307) in a shunt or series resonator configuration. It is a band-shift filter
and the frequency shift is controlled by varactor diodes CR302 and CR303, which are connected to
the microprocessor. It is configured to provide steeper attenuation above the passband for improved
spurious rejection when high-side local injection is used. The frequency is separated into 6 steps and
controlled by CPU (136 – 174 MHz).
The output of this filter is matched to the base of RF amplifier Q301 which provides 15dB of gain.
The output of the RF amplifier is applied to the post-selector filter. The post-selector filter designed
using discrete elements (L307, L308, L309, L311, C315 and C354) in a series/shunt resonator
configuration. It is a band-shift filter and the frequency shift is controlled by varactor diodes CR305
and CR307, which are connected to the microprocessor. It is configured to provide steeper
attenuation above the passband for improved spurious rejection when low-side local injection is used.
The frequency is separated into 6 steps and controlled by CPU (136 – 174 MHz).
The output of the post selector is connected to the single-balanced mixer consisting of components
L329, L333, Q306 and Q307. 1st local signal generated from VCO is filtered by injection
filter (L310, L331, C325, C326, C327, C333 and C365) to remove second harmonics. The converted
1st IF frequency at mixer passes through L331 and matches the 45.1 MHz IF signal to pair crystal
filter (FL301).
8.2.2
Receiver Back End
The 1st IF signal is amplified about 15 dB by IF amp Q303. The output of the IF amp is connected to
IF IC (U201). 1st IF frequency (45.1 MHz) and 2nd LO frequency (44.645 MHz) are mixed in U201.
The second mixer converts the 45.1 MHz high IF frequency to 2nd IF frequency (455 kHz).
Additional IF selectivity is provided by two ceramic filters (CF1, CF2). The wider filter 455 FW is used
for 25 kHz channel spacing, and the narrower filter 455 HW is used for 12.5 kHz channel spacing.
These two ceramic filters may eliminate undesired signal and demodulated by demodulator in U201.
N/S_SW which connected to microprocessor is used to select the wide and narrow band.
The mute (squelch) circuit switches off the audio amplifier when no audio is present. The squelch
circuit consists of U201 and U202 and their associated components. The noise signal from pin 9 of
U201 is used to control the squelch circuit sensitivity of U202. The noise passes through filter, and is
amplified by internal amp of U201. The amplified noise act as a DC voltage to control the mute
system. So if the noise level is under the threshold voltage, the microprocessor (U101) un-mutes the
radio. If the noise level is over the threshold voltage, the microprocessor mutes the radio. The
squelch level is tuned in the factory. When a component or a part in the RX system is replaced, the
squelch must be re-tuned using the Tuner.
136 – 174 MHz VHF Theory Of Operation: VHF Transmitter
8.3
8-3
VHF Transmitter
The VHF transmitter covers the range of 136 – 174 MHz. Depending on model, the output power of
the transmitter is switchable on a per-channel basis between high power (5 Watts) and low
power (1 Watt). The transmitter is divided into four major blocks as shown in Figure 8-2.
• Power Amplifier
• Harmonic Filter
• Power Control
SWB+
BAT+
Power Control
Current Detect
CR401
From VCO
Attenuator
Circuit
Antenna
Strip Line
Pre Driver
Amp
Driver
Amp
Final
Amp
Harmonic
Filter
To Receiver
Antenna
Switch
Figure 8-2. VHF Transmitter Block Diagram
8.3.1
Power Amplifier
The transmitter power amplifier has three stages of amplification – Pre Driver (Q401), Driver Amp
(Q402) and Final Amp (Q403). Signal from TX VCO is applied to the pre driver via an attenuator
circuit. The attenuator is pie style resistor attenuator, and is used as isolation between VCO and the
power amps. The -3dBm TX RF signal from attenuator is then amplified by pre driver and driver amp
to around +28dBm and is applied to the final amp. The final amp (Q403) is an enhancement-mode
N-channel MOSFET device providing a gain of 12dB. The device drain current is drawn directly from
the DC battery supply voltage input via L413. A matching network consisting of C417, C418, C419,
C420, C455 and a strip line, transforms the impedance to approximately 50 Ohm.
8.3.2
Antenna Switch
An antenna switch works mainly as a switching device between transmit and receive paths. In
transmit mode (PTT), Q407 is turned on and both PIN diodes (CR401, CR301) are forward biased
into conduction. This enables the RF signal to pass to the harmonic filter and then to the antenna. In
the receiver mode, both diodes are off. Signals applied to the antenna jack are routed via the LPF
(harmonic filter), through a TX Low Pass Filter (L409, L410, L411, C426, C427, C428, C429, C430,
C445 and C446), to the receiver input.
8.3.3
Harmonic Filter
The harmonic filter consists of components L409, L410, L411, C426, C427, C428, C429, C430, C445
and C446. The harmonic filter is a seven-pole Chebychev filter.
8-4
8.3.4
136 – 174 MHz VHF Theory Of Operation: VHF Frequency Generation Circuitry
Auto Power Control
The APC keeps the current supply constant to the final amp (Q403). The drain current of Q403 (final
amp) is sensed across resistor R417. The voltage difference across R417. The differential signal at
the output of U401 (pin 7) is passed to Q404 and Q405 that produces a constant power output to the
antenna. If the current is changed due to change of battery voltage or load, APC controls gate voltage
of Q403 and collector voltage of Q401 and drain voltage of Q402 to keep TX power stable. This circuit
stabilizes TX power at a pre-determined level adjusted by U402. This bias voltage is tuned in the
factory. If the transistor (Q403) is replaced, the RF Output Power must be tuned. By tuning the RF
output power, the bias voltage will be tuned through U402. Extra care has to be taken during the
tuning process. Do not exceed the maximum allowed bias voltage.
8.4
VHF Frequency Generation Circuitry
The PLL synthesizer subsystem consists of the reference oscillator (VCTCXO), VCO, PLL IC, Charge
Pump and Loop Filter.
TX VCO
Circuit
FL701
Modulating
Signal
TX Out
Synthesizer
U701
Charge
Pump
Loop
Filter
12.8MHz
Ref.OSC.
PLL Data
from μP
To PA Driver
Voltage
Doubler
RX Out
RX VCO
Circuit
To Mixer
Figure 8-3. VHF Frequency Generation Unit Block Diagram
8.4.1
Reference Oscillator (12.8 MHz VCTCXO)
The reference oscillator is powered by regulated 5V provided by U505. The reference frequency
12.8 MHz VCTCXO (Voltage Controlled Temperature Compensated Crystal Oscillator) is applied to
the PLL IC (U701) via pin 1. Main frequency can be adjusted by chip trimmer of VCTCXO. This
frequency provides reference to the PLL IC and has a frequency stability of +/-2.5PPM (max) at the
temperature ranging from -30 to +60 Degree Celsius.
136 – 174 MHz VHF Theory Of Operation: VHF Frequency Generation Circuitry
8.4.2
8-5
PLL IC Prescaler and Comparator
The reference frequency from VCTCXO is divided to 6.25 kHz or 5 kHz by reference counter, R. The
RF signal input from the VCO is divided to by prescaler (1/64), divided by N and A counters in PLL IC
to determine frequency steps and then supplied to the comparator. The comparison frequency is
6.25/5 kHz. The internal phase comparator compares the phase difference between the reference
and VCO signal. When the phase of the reference frequency is leading, Pin15 (R) is the output.
When VCO frequency is leading, Pin16 (P) is the output. When P=R, small pulses are the output of
the phase detector.
8.4.3
Voltage Doubler and Charge Pump
The voltage doubler (U507) converts 5V to 10V and is applied to the charge pump circuitry. The
charge pump is used for charging output signals P, R supplied by PLL IC from 0-3.3V to 0-10V. This
voltage is used to drive the VCO.
8.4.4
Loop Filter
The loop filter contains C751, C752, C753, C754, R726, R727, R728. It reduces the residual sideband noise to get the best signal-to-noise ratio. The output signal from loop filter is applied to VCO.
8.4.5
Dual VCO
The dual VCO module contains a RX VCO and a TX VCO. They are configured as colpitts oscillators
and connected to power up through transistor switches. Only one VCO is selected at a time. A
steering line voltage between 0.35V and 9.7V at varactor CR701 tunes the full RX frequency range
from 181.1 MHz to 219.1 MHz, and varactor CR703 tunes the full TX frequency range from 136 MHz
to 174 MHz.
In Receiver mode, high signal of RX_EN from pin 71, U101 activates Q305. When Q305 is activated,
current flows through the base of Q304 and thus activates the Q705. The varactor CR701 sets the
resonance frequency. When there is a change in voltage supplied by loop filter, there is a change in
the resonance frequency. L703 is the resonating coil, which forms the tank circuit together with
variable cap C710.
In Transmit mode, high signal of TX_EN1 from pin 84, U101 enables current flows through collector
of Q503 and thus activates Q706. The varactor CR703 sets the resonance frequency. When there is
a change in voltage supplied by loop filter, there is a change in the resonance frequency. L706 is the
resonating tuning coil, which forms the tank circuit together with variable cap C722.
8-6
Keypad
Left, Right and P1 to P3 keys are directly connected to microprocessor via 22 pin connector. When
any of these keys is pressed, the voltage goes "low" and microprocessor detects it.
KEYPAD
Left Right
P1 P2 P3
Key
detect
Key row
NUMBERS
Key
column
22pin connector
Main board
For full keypad models, the number keys are in matrix type which consisted of 3 rows and 4 columns.
When any of these keys is pressed, the voltage goes "low" and microprocessor interprets the voltage
for each key press.
22pin connector
Keypad board
8.5
136 – 174 MHz VHF Theory Of Operation: Keypad
Figure 8-4. Keypad Block Diagram
MCP
Chapter 9 VHF Troubleshooting Tables
9.1
Troubleshooting Table for Receiver (VHF)
Table 9-1. Troubleshooting Table for Receiver (VHF)
Symptom
Radio Dead (no
turn–on beep, no
LED indication)
Possible Causes
Corrective Action
1. Battery dead or
defective
Substitute good battery or battery
eliminator
Change or replace battery.
2. Defective battery
contacts
Inspect battery contacts for
corrosion or bent terminals
Clean/Repair/Replace J602
3. Microprocessor not
starting up
Verify clock input to U101 pin 13 is
7.3728 MHz using high impedance
probe.
Troubleshoot/Replace FL101.
Verify U101 pin10(reset) is high.
If reset is Low, troubleshoot
regulator U506 or U107.
Verify U506 pin 4 is 3.3V
Check for shorts on outputs
Verify U505 pin 4 is 5.0V
Troubleshoot/Repair as
needed, replace faulty regulator
5. Flexible Cable fault
Check connection of the 12 pin
flexible cable between J104 & J105
Re–assemble or replace flexible
cable
1. Speaker dead or
defective
Substitute a good housing (with
speaker)
Change the housing (with
accessory)
Verify J603 connection
Change the housing (with
accessory)
2. Audio Processor IC
not starting up
Verify clock input U102 pin 14 is
3.5795 MHz using high impedance
probe.
Troubleshoot/Replace FL102
3. Audio Amp IC not
starting up right
Verify U601 pin 6 is battery voltage.
Troubleshoot/Replace U601
4. Regulator fault
No RX Audio (with
LED indication)
Procedure
If battery voltage is being supplied to
pin 6, then verify audio output at
pin5&8.
No Receive (with
no LED indication)
1. IF IC dead or fault
Verify clock input to U201 pin 1&2 is
44.645 Mhz using high impedance
probe.
Troubleshoot/Replace FL201
No RX
1. RX–B+
Verify Q304’s collector voltage is
4.8V when RX–EN is high.
Check/Replace Q304
9-2
VHF Troubleshooting Tables: Troubleshooting Table for Synthesizer (VHF)
9.2
Troubleshooting Table for Synthesizer (VHF)
Table 9-2. Troubleshooting Table for Synthesizer (VHF)
Symptom
Synthesizer Out of
Lock (No RX
Mode)
Possible Causes
Procedure
Corrective Action
1. Defective 12.8 MHz
VCTCXO
Verify clock output FL701 pin 3 is
12.8 MHz using high impedance
probe.
Repair/Replace FL701
2. 1/2VCC defective
Verify FL701 pin 1, U502–B pin 5&
U502–D pin 14 voltage is 1.9V.
Troubleshoot: 1/2VCC circuitry
3. No RX–Enable
Verify U101 pin 71 (RX–EN1) is
high.
Check U101 operating
Verify Q304 collector voltage is
approximately 4.7V in RX mode
4. Check PLL–LD port
Troubleshoot: Q304 & Q305
circuitry
Verify U101 pin 27 is Low (Normal
Mode)
Troubleshoot: PLL circuitry.
Verify U101 pin 27 is swept from low
to high (Power Save Mode)
Repair/Replace U701
Verify clock output FL701 pin 3 is
12.8 MHz using high impedance
probe.
Repair/replace FL701
2. 1/2VCC defective
Verify FL701 pin 1, U502–B pin 5 &
U502–D pin 14 voltage is 1.9V.
Troubleshoot: 1/2VCC circuitry
3. No TX–Enable
Verify U101 pin 84(TX–EN1) is high
when PTT is pressed.
Check U101 operating
Verify Q407 collector voltage is
approximately 4.7V when PTT is
pressed (TX–EN2).
Check U101–pin 85 is high/
Replace Q407/check LK2 is
short
Verify U101 pin 27 is Low (Normal
Mode)
Troubleshoot: PLL circuitry
Verify U101 pin 27 is swept from low
to high (Power Save Mode)
Repair/Replace U701
Synthesizer Out of 1. Defective 12.8 MHz
Lock (No TX Mode) VCTCXO
4. Check PLL–LD port
VHF Troubleshooting Tables: Troubleshooting Table for Transmitter (VHF)
9.3
9-3
Troubleshooting Table for Transmitter (VHF)
Table 9-3. Troubleshooting Table for Transmitter (VHF)
Symptom
No internal Mic
audio
Possible Causes
1. Mic dead or defective
Procedure
Verify audio present (~10mV rms)
when speaking into Mic.
Corrective Action
Replace Mic.
Check bias of R194 (3.3V).
2. Mic bias fault
Verify U101 pin 78 is 1.1V when PTT
button is pressed.
Check/Replace U101
3. Audio Processor IC
not starting up right
Verify clock input U102 pin 14 is
3.5795 MHz using high impedance
probe.
Troubleshoot/Replace FL102
1. J601 defective
Check connection with EXT mic
Check/Replace J601
2. Audio Processor IC
not starting up right
Verify clock input U102 pin 14 is
3.579545 MHz using high
impedance probe.
Troubleshoot/Replace FL102
No transmit (No TX
LED indication)
1.PTT switch defective
Verify U101 pin 44 is low when PTT
is pressed.
Replace PTT switch PB501
No transmit (TX
LED indication OK)
1. Synthesizer out of lock Refer to Table 9-2
Check U101 operating
2. No TX–Enable
Verify U101 pin 84 (TX–EN1) is high
when PTT is pressed.
Check U101 pin 85 is high/
Verify Q407 collector voltage is
approximately 4.7V when PTT is
pressed (TX–EN2).
Replace Q407/Check LK2 is
short
1. Low TX injection
Check the RF level at Q7 & C449
per schematic.
Troubleshoot Q409 circuitry &
VCO bias
2. R417 defective
Verify resistance is 0.1 Ohm
Replace R417.
3. Incorrect control
voltage
Verify Q404 collector voltage is
approximately 5.5V in low frequency
& high power.
Troubleshoot APC circuitry
4. Q403 defective (High
current)
Verify U401 pin 7 is near 0V
Replace Q403
5. Antenna switch defect
Verify CR401 anode voltage is
approximately 1.4V
Check/replace CR401 & CR301
6. Harmonic filter
defective
Visually inspect components
C426 – C429, C445, C446, C430
Repair/Replace if necessary
7. Incorrect power tuning
(this has to be performed
only after item 1-6 has
been checked)
Check conducted power
Re–tune power using tuner.
1. Defective or wrong
Antenna.
Verify correct antenna is installed.
Replace antenna
No EXT. Mic audio
Low Power
Poor TX range
(Conducted power
OK)
Try using another antenna.
Replace Q404
9-4
VHF Troubleshooting Tables: Troubleshooting Table for Board and IC Signals (VHF)
9.4
Troubleshooting Table for Board and IC Signals (VHF)
Table 9-4. Troubleshooting Table for Board and IC Signals (VHF)
IC Designator
U201(IF IC)
Pin
Pin Function
DC Voltage (V)
Comments (Condition)
1
Osc1
3.9
2
Osc2
3.3
4
VCC
4.7
9
Audio frequency
1.2
12
RSSI out
Approximately 1
At –47dBm(with conducted)
13
N–DET(BUSY)
Low
At busy
15
GND
0
16
RF input
1
45.1 MHz input
1
Reference OSC input
1.4
12.8 MHz input
4
VCC
3.3
6
GND
0
7
XF IN
2.2
8
F IN
2.2
12
Power save
High
13
GND
0
14
LD_out
High
15
@P
2.4
16
@R
Low
U601
1
Mode (Mute con)
0
(Audio Amp.)
2
SVR
3.8
3
IN+
3.8
4
IN-
3.8
5
OUT-
3.8
6
VCC
7.5
7
GND
0
8
OUT+
3.8
1
IN+
1.6
U701(PLL IC)
U103
44.645 MHz input
If pll unlock is low
This voltage depends on Battery
VHF Troubleshooting Tables: Troubleshooting Table for Board and IC Signals (VHF)
9-5
Table 9-4. Troubleshooting Table for Board and IC Signals (VHF) (Continued)
IC Designator
(DTMF decoder)
FL701(VCTCXO)
Q206(N/S SW)
Q304
Q305
Q503
Q407
Q408
Pin
Pin Function
DC Voltage (V)
2
IN-
1.6
3
GS
1.6
4
Vref
1.6
8
OSC1
1.6
10
VSS
0
11
TOE
3.3
17
STD
High
18
EST
3.3
19
ST/GT
3.3
20
VDD
3.3
1
VCON
1.9
2
GND
0
3
OSC out
osc
4
VCC
5
E
GND
0
B
N/S SW
12.5 kHz: Low
C
Collector
12.5 kHz: High
25 kHz: Low
E
+5V
5
B
To Q305 collector
Low
C
RX_B+
4.7
E
GND
0
B
RX_EN
High
C
To Q304 base
Low
E
GND
0
B
TX_EN1
High
C
To Q706 base
Low
E
+5V
5
B
To Q408 collector
Low
C
TXVB
4.7
E
GND
0
B
TX_EN2
High
C
To Q407
Low
Comments (Condition)
3.579545 MHz input
At DTMF detecting
Generate the 12.8 MHz
At RX Mode
At RX Mode
At TX Mode
At TX Mode
At TX Mode
9-6
VHF Troubleshooting Tables: Troubleshooting Table for Board and IC Signals (VHF)
Table 9-4. Troubleshooting Table for Board and IC Signals (VHF) (Continued)
IC Designator
Q601
Pin
Pin Function
DC Voltage (V)
E
GND
0
B
Audio_MUTE_CON
Mute: Low
Comments (Condition)
None Mute: High
C
Mode
Mute: High
None Mute: Low
1. All voltages are measured with a high-impedance digital voltmeter and expressed in volts DC relative to ground (0V).
2. Voltages are measured with a DC input voltage of 7.50 + .02 volts DC applied to the battery connector (J602).
3. All voltages are measured in the squelched receive mode, unless otherwise indicated.
4. Voltages are identical for VHF and UHF models unless otherwise indicated.
Chapter 10 VHF Schematic Diagrams, Overlays, and
Parts Lists
10.1 Introduction
This section provides schematic diagrams, overlays, and parts lists for the radio circuit boards and
interface connections.
10.1.1 Notes For All Schematics and Circuit Boards
* Component is frequency sensitive. Refer to the Electrical Parts List for value and usage.
1. Unless otherwise stated, resistance values are in Ohms (K = 1000), capacitance values are in
nanofarads (nF), picofarads (pF) or microfarads (µF), and inductance values are in
nanohenries (nH) or microhenries (µH).
2. DC voltages are measured from point indicated to chassis ground using a Motorola DC
multimeter or equivalent. If the board has been removed from the chassis, the transmitter
module mounting screws may be used for ground connection. (Note: The antenna nut
bracket is connected to ground.) Operating mode dependent voltages are followed by (RX)
for receive mode, (TX) for transmit mode, (UNSQ) for unsquelched mode, etc.
3. RF voltages on VHF models are measured with a Fluke model 85 RF probe. The indicated
voltages expressed in mV (RF) are DC level readings which correspond approximately 1:1 to
the RF voltage level in mV rms. RF voltages in the Receiver Front End and Receiver Back
End circuits are measured with an on-channel 1mV (-47dBm) RF signal applied to the
antenna jack ANT1/ANT.
4. RF voltages on UHF models are measured both with a high–impedance RF voltmeter having
a bandwidth in excess of 500 MHz (levels are expressed in dBm) and with a Fluke model 85
RF probe [levels are expressed in mV (RF)]. These indicated voltages are DC level readings
which correspond approximately 1:1 to the RF voltage level in mV rms, and are only
approximate for UHF frequency measurements. RF voltages in the Receiver Front End and
Receiver Back End circuits are measured with an on-channel 1mV (-47dBm) RF signal
applied to the antenna jack ANT1/ANT.
5. Audio voltages are measured with a high-impedance AC rms voltmeter. The indicated
voltages are expressed in mV rms. Receive mode voltages are followed by (RX) and are
measured with an on-channel signal with 1 kHz modulation at 60% deviation (3 kHz for 25
kHz channels, or 1.5 kHz for 12.5 kHz channels). Transmit mode voltages are followed by
(TX) and are measured with a 1 kHz, 10 mV rms signal present at the external microphone
input (accessory connector J601).
10-2
VHF Schematic Diagrams, Overlays, and Parts Lists: Introduction
6. Reference Designators are assigned in the following manner:
Ref. No. Series
101 – 199
Circuit Block
Microprocessor & audio control
circuits
1001 – 1099
Microprocessor & audio control
circuits
201 – 299
IF IC circuit
301 – 399
Front-end and 1st Mixer
401– 499
Transmit RF stage & Auto power
control
501 – 599
Base band & generating circuit
601– 699
Audio amplifier
701– 799
VCO & PLL Synthesizer
7. Circuit Block Interconnection Legend:
Name
Description
+5V
5 Volts (Regulated)
+3.3V
3.3 Volts (Regulated)
SWB+
Switched Battery Voltage
BAT+
Unswitched Battery voltage
+10V
Digital 10V(Regulated)
RESET
Low-line reset signal fromU107 to U101 Pin 10
TX_EN1
Transmit enable signal from U101 Pin 84
TX_EN2
Transmit enable signal from U101 Pin 85
TXVB
TX operating voltage
TX_AF3
TX audio signal from audio processor IC to TX Audio
filter
TX_SUB_TONE
TX sub tone signal from audio processor IC to TX
modulation.
RX_B+
RX operating voltage
RSSI
RX signal strength indication from IF IC to U101
Busy
RX detect signal from IF IC to U101
FTV
RX frequency shift voltage
RX_AF1
RX audio signal from IF IC to Audio processor IC
PLL_LD
PLL lock detect signal from PLL IC to U101
N/S SW
Channel space selectable Switch (12.5 kHz/25 kHz)
1/2VCC
1.9 volts (divided by U502-D)
VHF Schematic Diagrams, Overlays, and Parts Lists: Speaker and Microphone Schematic
10-3
10.1.2 Four Layer Circuit Board
Plating (Au)
PSR ink
Copper Plate
Copper
PrePreg.
Copper
CCL (core)
Copper
PrePreg.
Copper
Copper Plate
PSR ink
Figure 10-1. Four–Layer Circuit Board: Copper Steps in Layer Sequence
10.2 Speaker and Microphone Schematic
MIC1
1
MATES WITH J103 ON
RADIO BOARD
2
SPK1
1
MATES WITH J603 ON
RADIO BOARD
2
Figure 10-2. Speaker and Microphone Schematic
10.2.1 Speaker and Microphone Parts List
Reference
Designator
Motorola Part No.
Description
MIC1
PMDN4139_R
Microphone
SPK1
PMDN4067BR
Speaker & Cable
10-1
Circuit Board/Schematic Diagram and Parts List (VHF: 136–174 MHz)
10.3 Circuit Board/Schematic Diagram and Parts List (VHF: 136–174 MHz)
C337
10nF
C318
10nF
1
2
C201
47pF
FTV
13
14
15
3
4
C203
120pF
R216
4.7K
R258
1.5K
10
11
5
6
C206
0.1uF(K)
C213
0.1uF(K)
FL201
44.645MHZ
R309
10R
12
9
7
C207
0.1uF(K)
C211
0.1uF(K)
AF-OUT
16
Q201
KRC404
QUAD
KDS160E
CR315
CR312
KDS160E
U201
TA31136
C308
10nF
N/S_SW
C341
47pF
RX_B+
FTV
C381
0.1uF(K)
R342
6.8K
C340
0.1uF(K)
C347
0.1uF
C342
0.1uF(K)
R319
3.9K
20KHZ_SEL
FIL-IN
Q303
2SC4226
R306
100K
R358
1R
CR303
KDV269E
R312
220K
IF-OUT
C317
1nF
R311
560R
FIL-O
GND
C313
1nF
R301
100K
20pF
RSSI
C335
DECO
C356
10nF
CR307
KDV269E
C311
1nF
N-DET
L303
12nH
C310
0.1U
IF-IN
R302
100K
C322
NA
L307
12nH
R308
150R
DEC1
455 C24
N-REC
R357
1R
RX_AF1
R317
120k
C339
0.1uF(K)
VCC
L304
68nH
RSSI
R318
2.2K
L327
820nH(1608)
L309
22nH
Q301
2SC4226
C305
10P
R307
100K
C315
15P
C378
10UF/16V
C377
NA
GND
C307
15P
C376
0.1uF
CR306
KDS160E
C338
47nF
C334
1nF
OSC2
KDV269E
CR302
C321
NA
+
RF-IN
C359
10P
L302
27nH
BUSY
RX_B+
L308
68nH
KDV269E
CR305
R316 100K
R314 100R
L336
27nH
MXOUT
L305
L311
220nH 220nH
C354
9P
L326
220nH
C316
15P
OSC1
C304
20P
C301
47P
L335
27nH
R315
100R
C309
N/F
FROM_HARMONIC_FILTER
C314
15P
C312
10P
R305
39k
Q202
KRC404
R208
2K
8
C209
560pF
R212
100K
R210
120K
R203
22K
R213
20K
RT201
10K(TH)
RX_B+
R310
1K
Q306
2SK711
C369
NA
3
R335
NA
2
4
L330
82nH
L329
B4F(1667)
2
R250
10K
CF1
CR201
KDS181
R204
22K
R217
10K
3
CR202
KDS181
Q207
KRC404
L331
47nH
L310
47nH
C208
0.1uF
CF2
C325
39P
Figure 10-3. VHF (136–174 MHz) Receiver Schematic Diagram
VCO_OUT (RX)
C367 C368
220pF 10nF
C326
12P
C370
NA
Q206
KRC404
R206
10K
C327
10nH
R337
10R
VDD U/D
VSS
A
W
R207
22K
C214
0.1uF
NC
B
CS/
MCP4011(503)
TIGHT_SQ
C332
10pF
L337
22nH
R399
68R
U202
1
455FW
C204
0.1uF
455HW
C333
27P
+3.3V
4
C331
5P
L332
820nH
R336
1K
C365
47nH
4
1
R338
1P
L333
B4F(1664)
Q307
2SK711
1
6
FL301
45.1MHZ(SMF-1)
C330
7p
4
2
3
R211
15K
R222
1.2K
L340
820nH
1
6
C210
560pF
C329
10nF
2
3
C328
6P
5
L306
EJPS
820nH
8
SQ_U/D
7
6
5
SQ_CS
Circuit Board/Schematic Diagram and Parts List (VHF: 136–174 MHz)
10-2
RX_B+
+5V
KRA305
Q304
C320
10uF/16V(A)
+
C319
10nF
C
Q305
KRC404
B
RX_EN
E
C343
0.1uF
C380
470pF
C344
470pF
SH101
R701
+5V
100R
C539
10uF/16V(A)
+
Q705
KRA305
C701
22uF / 10V(A)
R702
3K(1%)
Q701
2SC4226
C728
10pF
VCO_OUT(RX)
L701
100nH
C702
1nF
C705
6pF
C704
470pF
Q706
KRA305
+
Q503
KRC404
C715
22uF / 10V(A)
TX_EN1
C706
10pF
Q702
2SC4226
R706
47R
L704
1uH(1608)
C714
1nF
R705
180R
R703
10K(1%)
C710
TZY02 10pF
C709
10pF
R704
10K(1%)
C711
33pF
L702
2.2uH(1608)
+
C538
10nF
CR701
KDV300E
L703
28116TL
C707
27pF
C712
470pF
L708
220nH
Q703
2SC4226
C447 5pF
VCO_OUT(TX)
C729
3pF
C731
4pF
C717
12pF
Q704
2SC4226
C730
4pF
R715
100R
R714
100R
C716
470pF
R707
4.7K(1%)
R708
12K(1%)
C722
TZY02 10pF
C721
12pF
L706
30146TL
R711
100K
C723
3pF
L705
2.7uH(1608)
C724
56pF
C725
470pF
CR703
KDV300E
R709
12K(1%)
C718
12pF
C726
6pF
L707
1uH(1608)
R713
R712
10K
100K
C719
27pF
R710
180R
C727
3pF
CR702
KDV300E
TX_AUDIO_AND_SUB_TONE
SH102
L709
47nH
C747
33pF
Q711
KRA304
C746
20pF
+3.3V
PLL_LD
R729
100K
PLL_STB
PLL_DATA
PLL_CLK
C755
0.1uF(K)
R753
1K
R730
33K
R751
1K
R752
1K
+10V
C748
0.1uF
PLL_PS
@P
@R
OSCIN
LD_FOUT
ZC
5
16
OSCOUT
GND
6
15
VP
LE
14
VCC
CLK
DATA
FIN
7
8
13
U701
MB15E03L
XFIN
R732
10K
12
PS
11
10
DO
9
3
2
4
R718
20K
R717
56R
R716
680R
R719
1K
Q707
KTC4075
+3.3V
C749
1uF(1608)
Q708
KTA2014
R740
1.8K
R720 270R
1
C756
1nF
C738
7pF
R731
10R
R721 270R
Q709
KTA2014
R722
22K
Q710
KTC4075
R733
0R
C741
0.1uF
R734
10R
12.8MHz
4
+5V
1
C740
0.1uF
5
1/2VCC
6
C515
0.1uF
C739
1nF
VCON
R723
1.2K
R724
820R
R725
220R
C752
0.1uF(K)
C753
47nF(3216)
C754
47nF(3216)
C751
1uF / 35V
VCXO
OUT
VCC
C750
0.1uF
R728
2.7K
R726
2.4K
+
+3.3V
R727
2.7K
GND
3
2
FL701
U502-B
NJM324
+
7
RT502
47K(TH)
R506
10K
R503
100K
R522
R504
30K
47K
+
R505
10K
C516
10uF / 16V(A)
Figure 10-4. VCO and PLL Schematic Diagram
10-3
Circuit Board/Schematic Diagram and Parts List (VHF: 136–174 MHz)
TO_RX
R412
3.9K
R413
8.2K
Q405
KTC4075
CR3002
NA
Q404
STB1188
SWB+
C415
20K
C406
0.1uF
R411
3.3K
R414
4.7K
Zo = 50
0.8t * 1.4(W)
C411
NA
CR311
NA
L413
L301
68nH(2520)
2
L410
35166TL
L409
35166TL
L411
35166TL
R416
47K(1608)
C430
12pF(1608)
L416
45143TL
CR401
MA4P7001F - 1072
C431
1nF(1608)
C429
10pF(1608)
C428
22pF(1608)
C427
12pF(1608)
C426
27pF(1608)
C445
9pF(1608)
35167TL
B401
MPZ1608D101B
B402
MPZ1608D101B
L412
1UH(1608)
ANT 1
ANT
1
C423
NA
C446
22pF(1608)
C422
270P
C419
18P
L408
28116TL
C417
15P
L405
22nH
L415
45143TL
C421
47pF
C402
NA
C403
NA
C408
NA
C405
20pF
C440
470pF
C404
15pF
Q401
PBR951
R407
8.2K
R408
2.2K
2
R402
39R
L402
NA
R405
2.7K
C413
30pF
L406
220nH(1608)
C401
5pF
1
C409
8P
R436
47R
L401
220nH
C444
NA
R404
10K
R403
180R
C449
C425
1nF(1608)
C416
0.1uF
R430
100R
C453
470pF
C454
22uF / 16V(B)
470pF
R429
3.6K
C435
C447
R423
3.9M
C448
10nF
+5V
10nF
C438
NA
47K
4
C437
0.1uF
R432
47K
B
6
7
5
R417
RLC63 OR1
BAT+
C433
NA
2
1
C439
1nF
U401-B
KIA358
R424
12K
C461
470P
C432
0.1uF
R420
4.7M
U401-A
KIA358
R421
68K(0.5%)
Q408
KRC404
TX_EN2
3
C464
0.1uF
J602
GND
060031MA005G500PL
C460
0.1uF
R419
220K(0.5%)
R425
2.4K
R426
3.9K
R422
68K(0.5%)
C436
0.1uF
Q406
KRC404
R433
0R
R431
47K
U402
8 U/D
VDD
7
NC VSS
6
A
B
5
W
CS/
1
+3.3V
2
3
4
MCP4011(502)
R499 1.5K
TX_PWR_CS
TX_PWR_U/D
TX_PWR_LOW
Figure 10-5. Transmitter Schematic Diagram
R434
33K
Q7
2SC4226
R401
180R
C
KIA358
U401-C
8
R427
R418
220K(0.5%)
Q407
KRA305
GND
R428
100R
C434
BAT+
5pF
L407
220nH
TXVB
R415
220R(2012)
Land
C462 C463
0.1uF 470P
L403
220nH(1608)
L404
22nH
SH103
SH104
SH105
C410
56pF
TX_VCO_B+
R406
10R
Q402
3 2SK3078
Q403
2SK3476
C418
56P
C455
12P
C420
5P
R409
10R
R410
10R
LK2
CR301
MA2S077
R435
180R
5pF
FROM_VCO
Circuit Board/Schematic Diagram and Parts List (VHF: 136–174 MHz)
10-4
1
7
6
4
5
3
2
1
0.1uF
220pF
C174
47K
47K
47K
47K
47K
47K
47K
47K
R159
R160
R161
R196
R197
R198
R199
R147
47pF
47pF
47pF
47pF
C1004
C1005
C1001
47pF
C1009
C1003
47pF
C1010
47pF
C1011
P3
47pF
47pF
0B27P40
47pF
220pF
C164
220pF
220pF
C163
MIC1
C1018
220pF
C162
1
47pF
47pF
47pF
47pF
C1015
C1014
C1013
C1012
220pF
220pF
C169
DTMF_OUT
220pF
27
C168
TONE_INT2
VOX_EN
R_ARROW
P2
P1
C1002 47pF
0.1uF
220pF
C175
C176
220pF
B to B Flex. PCB
220pF
220pF
C165
220pF
C173
220pF
220pF
C172
C171
R158
1K
R108
26
24
23
PLL_LD
MOD_CON_CS
10K
R115
R182 200K
2
R179
U107
R180 100K
KIA 7027AT
680R
CR115
SH201
4.7K
R109
1
2
3
4
5
6
7
8
9
*
0
#
4.7K
R112
4.7K
R119
4.7K
TONE_IN
R169
1.2K
R163
100K
C145
15pF
E
C
KTA2014
Q111
R190
15K
B
R164
100K
R184
15K
FL101
7.3728MHZ
C146
15pF
R185
0R
R148
1M
R114
10K
POP_CON
B
+3.3V
B_S2
DTMF_CON
R1006
NA
C198
NA
R168
100K
1
DTMF_OUT
E
C
KTA2014
Q112
C144
0.1uF(K)
3
BEEP
R165
3K
B_S1
BEEP_CON
R1004
10K
R178
100K
51K
+3.3V
R167
100K
VOX_EN 28
MOD_CON_U/D 25
POP_CON
22
A_S2
FUN_KEY1
21
20
A_S2
19
B_S2
TONE_INT1
VCC1
X_IN
B_S2
18
17
16
15
14
X_OUT
GND
13
12
11
LCD_DATA
RESET
BEEP
9
10
8
1
+3.3V
CNVSS
LCD_CLK
RX_TONE_EN 100
7
R113
47K
R152
CR114
AK_CLK 30
VSS
C124
1nF
100R
R157
1K
AK_CSN 29
TONE1
C123
0.1uF
TONE2
+3.3V
6
RSSI
RT501
10K (TH)
PRG/CLONE_RX 34
33
PRG/CLONE_TX
32
FUN_KEY2
AK_DATA 31
R195
CR113
L_ARROW
2
LED(GREEN) 35
5
R507
10K
TONE_INT3
Q122
KRC404
4
+3.3V
TONE3
LOW_BATT
N/S_SW
TONE4
TX_EN2
Q121
KRC404
CR112
+3.3V
37
LED(RED) 36
90 TIGHT_SQ
91
VOX_IN
92
LOW_BATT_IN
93
TEMP_IN
94
A_GND
95
RSSI_IN
96
V_REF
97
A_VCC
98
LCD_CS
99
3
TIGHT_SQ
VOX
2
TX_EN1
10K
R156
1K
CR110~CR115 : BL - HG036
C1006
89
Q120
KRC404
R193
CR111
KRC104
C1007
39
RIGHT_BUTTON 38
RX_TONE_CON2
1
2
3
4
5
6
7
8
9
10
11
12
13
14
15
16
17
18
19
20
21
22
CR110
Q110
C1008
M30302FCPGP
MIC1
N/S_SW
RX_TONE_CON1
C167
RX_TONE_CON2
AUDIO_MUTE_CON
PGM_BUTTON3 41
LEFT_BUTTON 40
U101
220pF
R177
C143
56K
0.1uF
TX_EN2
C170
87
88
PGM_BUTTON1 43
PGM_BUTTON2 42
220pF
86
C177
PTT1 44
Flex.PCB
J101
05004HR - 0701S(G)
R155
470R
J103
04-6292-022-000-800+
SW_SCAN3 46
SW_SCAN4 45
J102
05004HR-22A01S
SW_SCAN2 47
85
RX_TONE_CON1
51 SW_IN2
PLL_DATA 55
PLL_STB 54
58
LIGHT_CON 57
BUSY 56
59
EPP_CLK
EPP_DATA
VSS 62
SQ_CS 61
VCC2 60
DTMF_Q3 64
DTMF_Q4 63
DTMF_Q2 65
DCS_SEL 67
DTMF_Q1 66
70
71
79 DTMF_DEC_EN
80 FREQ_CON3
82 FREQ_CON1
83
AUDIO_MUTE_CON
84 TX_EN1
R173
10K
R172
10K
R174 120K
R175 47K
R176 30K
R1005
10nF
SW_IN3 50
C166
R171
10K
1
2
3
4
5
6
7
8
9
10
11
12
13
14
15
16
17
18
19
20
21
22
DTMF_CON 49
SW_SCAN1 48
81 FREQ_CON2
+5V
FTV
20KHZ_SEL 69
PTT2 68
MIC_MUTE2 78
PWDN
RX_EN
BEEP_CON 77
74
75
TX_PWR_CS
TX_PWR_U/D 76
TX_PWR_U/D
C142
470pF
TX_PWR_LOW
C141
NA
SQ_U/D 73
DTMF_STEER 72
TX_PWR_CS
MIC1
52 SW_IN1
C140
47nF
53 PLL_CLK
RX_EN
SQ_CS
SQ_U/D
TX_PWR_LOW
C179
U102_SDATA
U102_SCLK
U102_CSN
+3.3V
C178
PLL_STB
PLL_DATA
C161
PLL_CLK
C189
220pF
220pF
220pF
BUSY
220pF
PLL_PS
C188
20KHZ_SEL
TX_AF1
7
LCD
SWB+
PTT2
R194
6.8K
6
LCD101
LCD_BEACON
+3.3V
C187
R139
10K
4
2
5
A1
1
Q1
C147
0.1uF(K)
OC
6 SCL A2 3
5 SDA VSS 4
U104
24LC64
Q2
STD
U106_SW
VCC A0
2
7
Q3
3
8
+3.3V
Q4
A_S2
A_S3
FUN_KEY1
MOD_CON_CS
MOD_CON_U/D
SWB+
FUN_KEY2
R153
68K(1%)
C195
220pF
PLL_LD
C194
0.1U
PROGRAM_DATA
LOW_BATT
RX_TONE_EN
R154
47K(1%)
LED(GREEN)
LED(RED)
PTT1
CR101
NA
Figure 10-6. Microprocessor and Keypad Schematic Diagram
10-5
Circuit Board/Schematic Diagram and Parts List (VHF: 136–174 MHz)
AUDIO_IN
C615
0.22uF (K) (1608)
R636
560R
R613
15K
R619
10K
Q601
KRC404
R614
560K
4
R635 0R
+
1
IN-
OUT-
IN+
VCC
SVR
GND
MODE OUT+
6
C616
0.1uF(K)
7
TDA 8541
C618
4.7uF / 16V(A)
L601
2.2uH(1608)
R616
0R
L602
2.2uH(1608)
R610
2R2
+
R621
39K
C606
0.1uF
Figure 10-7. Audio Power Amplifier and External Audio Schematic Diagram
-
8
SWB+
Q610
KRC404
+
C617
0.1uF(K)
5
R620
33K
POP_CON
SPK1
SM3624X1
J603
53047-0210
R615
2R2
U601
2
C605
4.7uF (2012)
AUDIO_MUTE_CON
33pF
3
R609
1K
R608
NA
C619
C601
10uF / 16V(A)
C621
470pF
C609
0.1uF(K)
C622
47pF
J601
0980683Z01
1
3
2
4
5
6
7
Circuit Board/Schematic Diagram and Parts List (VHF: 136–174 MHz)
10-6
1/2 VCC
R524
47K(1%)
- 13
14
SWB+
+
C502
22uF/16V(B)
+ 12
R523
30K(1%)
C545
22uF/10V(A)
U505
TK11250AMTL
6
1
VIN
C
5
2
+
C501
470pF
NJM324
U502-D
C531
0.1uF
C533
0.1uF
+5V
+5V
R734
3
4 VOUT
+5V
C503
0.1uF
5
8
3
6
9
47pF
2
1
+
C506
470pF
CR501
BL-HEIG033B
4
2
1
220R
C+ 6
VOUT 5
GND
3
SHDN 4
C-
+10V
VIN
C507
22uF/16V(B)
C512
470pF
+
SWB+
+5V
+10V
Q304
R716,717
+5V
Q407
C511
22uF/16V(B)
C510
4.7uF(2012)
+5V
R171-173
+5V
U105_pin4
+5V
R502
220R
R412
3.9K
R501
C560
3
47pF
47pF
47pF
C562
C561
47pF
47pF
C563
C564
Q705,706
2
U502_pin4
R413
8.2K
C406
0.1uF
Q405
KTC4075
Q404
STB1188
R414 4.7K
C
APC(U401_PIN7)
E
+5V
U507
TC1240
B
Q501
KRC404
U501_pin4
47pF
B
7
C565
J104
0.22uF(k)
C602
0.1uF
C620
A C
1 4
SW1
RY8487
1
2
3
4
5
6
7
8
9
10
11
12
1
2
3
4
5
6
7
8
9
10
11
12
C540
470P
SW / VOL1
RY8418
J105
10K
10K
R535
10K
B_S2
B_S1
A_S2
A_S3
SWB+
BAT+
RX_AUDIO
BEEP
LED(GREEN)
LED(RED)
R534
R532
R533
10K
+3.3V
C566
RX_AF2
DRIVE_CON
Q502
KRC404
C415
20K
R411
3.3K
C411
NA
+3.3V
U107_pin1
+3.3V
J602
BAT+
U106_pin4
SWB +
+3.3V
R131
RX_AUDIO
C460 C461
0.1uF 470pF
C619
C615
0.22uF(K)(1608)
L413
R418
220K(0.5%)
BAT +
R417
RLC63 0R1
Q610
KRC404
C433
R419
NA
220K(0.5%)
2
3
C464
0.1uF
C432
0.1uF
R421
68K(0.5%)
R422
68K(0.5%)
+3.3V
U601
4
2
R609
1K
+
C605
4.7uF(2012)
IN-
OUT-
IN+
VCC
U103_pin11,20
5
AF_OUT1
6
+3.3V
U104_pin8
GND 7
1
8
MODE OUT+
R635 0R
R608
NA
+3.3V
R614 560K
3
SVR
AF_OUT2
+3.3V
J102_pin16
TDA8541
C618
4.7uF/16V(A)
+3.3V
U101_pin14,96,97
Q601
KRC404
R423
3.9M
1
+ U401-A
KIA358
R420
4.7M
R636
560R
33pF
R150
R613
15K
R619
10K
MUTE_CON
POP_CON
GND
060031MA005G500PL
R620
33K
R621
39K
R424
C606
0.1uF
SWB +
+3.3V
U104_pin1
+
+3.3V
C601
10uF/16V(A)
Q711
+3.3V
U506
TK11233AMTL
1
VIN
C
2
5
R719,722
6
4
VOUT
+3.3V
R507
3
+3.3V
C541
0.1uF
+
C509
470pF
C508
10uF/16V(A)
+3.3V
U508_pin1
+3.3V
R537
Figure 10-8. Switches and Battery Schematic Diagram
10-7
Circuit Board/Schematic Diagram and Parts List (VHF: 136–174 MHz)
R137
4.7M
C135 47pF
C139
10K
R135
0.1uF(K)
VOX
1/2VCC
R136
100K
C140
47nF
4
5
6
7
MIC1
0B27P40(2.8mm)
L603
C142
470pF
2.2uH(1608)
1
+
C138
0.22U(K)(1608)
VOX_EN
C518
5.6nF
R103
150K
PROGRAM_DATA
C546
0.1uF
CR601
KDZ5.1V
R512
20K
R513
10K
9
10
C141
NA
R539
330K
R138
220K
CR116
KDS160E
+3.3V
C520
4.7nF
L604
2.2uH(1608)
KDS160E
C137
0.1uF(K)
NJM324
105-D
Q114
KRC404
1
3
2
2
12
CR117
14
R120
47K
J601
0980683Z01
R194
6.8K
-
C136
0.1uF
R111
NA
+3.3V
13
C549
560pF
-
R511
8.2K
8
R510
15K
13
-
12
+
+
C521
1.2nF
C111
1uF(K)
14
NJM324
U501-D
NJM324
U501-C
C550
560pF
R107
3.9K
C101
1uF(K)
C103
47pF
R102
47K
R101
10K
R162
820R
C102
2.2nF
C519
1.2nF
1/2VCC
R117
8.2K
R118
47K
C106
47nF
R116
1.2K
U101-PIN26(DTMF_IN)
C104
150pF
+5V
4
C529
0.1uF
C544
NA
C568
10nF
C517
22nF
R597
4.7K
C523
1nF
C525
330P
C548
NA
C542
10nF
C547
NA
NJM324
U502-C
1
U102
AK2347
2
AGND
RXIN AGNDIN
RXIN0
4
5
TXIN0 3
FIL0
TXIN
RXOUT
R181
150R
C119
10nF
MCP4011(503)
GND
1/2VCC
R526
100R
R545
4.7k
2
1
NJM324
U502-A
+ 3
R527
100K
R541
330K
U101_PIN79
C120
15pF
R528
82K
10
+
R145
1M
C115
C116
27pF
27pF
C567
10uF / 10V(A)
1
2
47K
R537
1K
Q505
KRA305
Q504
KRC404
TX_AF2
Figure 10-9. Transmitter Audio Filter and Sub-tone Schematic Diagram
IN-
ST/GT
GS
EST
VREF
STD
INH
NC
PWDN
NC
OSC1
OSC2
VSS
19
18
17
R142
330K
U101_PIN72
16
Q4 15
14
Q3
13
Q2
12
Q1
11
TOE
100K
R179
51K
R182
C118
10uF / 16V
+
PTT2
C121
33nF
20
R180
C117 1.2nF
R144 100K
PB503
FUN2
DHT1114S
1
2
PB502
FUN1
DHT1114S
2
PB501
PTT
DHT1114S
R540
C570
47pF
VDD
U101_PIN63
U101_PIN64
U101_PIN65
U101_PIN66
U103
MT88L70
+3.3V
FUN_KEY2
IN+
RX_AF2
R143 91K
PTT1
FUN_KEY1
1
47K
7
9
U101_PIN30(CLK)
47K
6
8
U101_PIN29(CSN)
47K
2
3
4
5
FL102
3.5795MHz
U101_PIN31(SDATA)
R529
1
68K
R146
0R
C537
2.2nF
R531
R141
100K
C100
1uF(1608)
C536
10nF
+3.3V
R140
1/2VCC
R530
R151
12K(1%)
C154
1uF(K)
R599
NA
R536
330K
R521
330K
+3.3V
C153
1uF(K)
R150
10K(1%)
24
23
22
21
EXTIN
DIN0
7
8
9
10
6
EXTINO
DIN
CSN
SCLK
11
12
4
RSAOUT LIMLV
A
W
TSAOUT MOD
B
CS/
R105 R106
47K 47K
20
5
R104
47K
19
R598
20K
3
C190
10uF / 16V
18
- 9
+ 10
8
C191
220pF
2
VSS
6
+
1
SDATA
R518
5.6K
NC VSS
VDD
R538
8.2K
U/D VDO
7
XOUT
3
NJM324
U501-A
R517
15K
C528
18nF
17
R516
12K
8
R520
560K
16
1
+
NJM324
U501-B
R509
2.2K
- 2
U508
R519
2M
15
R515
12K
C199
470pF
XIN
5
+3.3V
TEST
+
NJM324
C524
33nF
R514
24K
C105
15nF
+3.3V
13
7
- 6
C107
0.1uF(K)
MOD_CON_U/D
MOD_CON_CS
10R R131
R508
1K
NJM324
U501-E
U502-E
+
-
11
+3.3V
C522
5.6nF
TO_VCTCXO&VCO
C530
10nF
14
C543
1.2nF
R110
270K
200K
R183
NA
TONE 4
TONE 3
TONE 2
TONE 1
Circuit Board/Schematic Diagram and Parts List (VHF: 136–174 MHz)
10-8
AUDIO_IN
C620
470P
1
2
3
4
5
6
7
8
9
10
11
12
B to B flex. PCB
SW/VOL1
RY8418
J104
XF2M-1215-1A
J105
52745-1297
C602
0.22uF(K)
RX_AF1
C112
10uF/16V
R1003
10K
+
C113
560pF
1
2
3
4
5
6
7
8
9
10
11
12
R150
10K(1%)
R181
150R
C153
1uF
U102
AK2347
23 RXINO AGND 2
24 RXIN AGNDIN 1
4
TXINO 3
TXIN
RXOUT
6
7
8
9
5
EXTIN
DINO
22 FILO
13
C100
1uF(1608)
21
R105 R106
47K
47K
20
R104
47K
16 VDD
VSS
17
TSAOUT MOD
18
RSAOUT LIMLV
19
EXTINO
DIN
C199
470P
C190
10uF/16V
TEST
14 XIN
15
XOUT
+
C191
220pF
R131
10R
12
CSN
SCLK 11
10
SDATA
+3.3V
+3.3V
R151
12K(1%)
C154
1uF
R1001
10K C114
220pF
R1002
9.1K
U106
TC7S66FU
1
2
R146
0R
FL102
3.5795MHz
4
RX_TONE_CON2
DCS_SEL
SDATA
SCLK
R145
C115 1M
27pF
+5V
C116
27pF
Q101
KRC413
CSN
Q102
KRC413
C156
0.22uF(K)
C157
0.22uF(K)
U105-E
C125
47nF
C126
33nF
C129
47nF
R127 33K
C127
47nF
2
3
R126
15K
-
R129
1
NJM324
U105-A
R134
150K
C130
33nF
+
C110
22nF
Q103
KRC413
C128
47nF
R191
15K R128
3.9K
C109
22nF
R122
330K
4
+
NJM324
11
C158
0.22uF(K)
6
-
5
+
R121
330K
R132
10K
7
9
-
8
10 +
R133
NJM324
U105-B
4.7M
R192
15K
470K
TONE_INT
NJM324
U105-C
C134
0.22uF(K)
R149
100K
1/2VCC
Q113
KRC404
Q104
KRC413
RX_TONE_EN
RX_TONE_CON1
Figure 10-10. Receiver Audio Filter and Sub-tone Schematic Diagram
10-9
Circuit Board/Schematic Diagram and Parts List (VHF: 136–174 MHz)
C622
C621
R616 C617
C616 R615
J603
J105
L602
L601
J601
L604
R609
R636
Q610
Q601
L603
R421
R419
R420 C433 R423 C432
C461
C460
C601
PB501
C602
R608
R619
C439
R424
LK2
B401
L413
C453
R427
C435
R425 C438
R426
Q406
U402
C437
R432
C436
R431
R499
R433
R417
R418
U401
Q407
R422
Q408
C454
B402
Q403
R507
RT501
R414 C411
Q405
R411 C415
C570
R412
DEC1
R317
CR306
Q202
R342 C381
U202
C339
R316
C380
Q102
R210
Q503
Q114
R751
C751
Q708
R717
R726 R740
R118
C105
R728
R727
C753
TP4
C741
R731
R719
Q707
C752
R752
R722
Q709
R723
Q711
C750
R724
R729 C755
R725 Q710
C749
R716
R753
CR116
U701
R730 R721 R720
R111
CR117
C138
R138
L709 C747
C756
C738 R733
C748
R718
C136 R136
C135
R137
C137
R732
C126
C127
R126
C125
R169
C104
R110
R145 R146 C115
R117
R132
R164
TP3
C139 R135
R133
R163
R165
R167
R1004
C198
R1006
Q111
C116
R134
C538
R127
R250
C208
C214
Q112
C156
C110
R122
R121
C129 C158
CR202
C206 R203
C204
C134
SH102
C539
U105
R204 R217
R206
R207
R1005
R168
FL102
Q113
Q103
C213
R216 CR201
Q206
Q104
C157 C109 R149
C130
R128
R192
R129
C128
C746
R222
Q207
Q404
Q101
R213
C211 R208 RT201
C209 R212
C210 R211
PB503
C320
R314
C406
C334
C378
R318
R413
PB502
SH103
C754
TP11
TP10
C119
C120
R141
R140
C512
U507
C106
R116
C107
C511
U101
R115
R505
TP8
R142
R503 RT502
R522
C121
C739
C740
C516
R526
R504
R545
C515
R506
R523
C533
R524
U502
TP2
TP5
C536
R527
C537
C530
R528
R185
C145 R148 C146
FL101
U103
R734
C510
TP9
TP6
C545
R519 R521 R541 C531
TP1
C567
TP7
Figure 10-11. VHF (136–174 MHz) Mainboard Top Side: PCB No. 8431BEACON400
J102
Circuit Board/Schematic Diagram and Parts List (VHF: 136–174 MHz)
10-10
ANT1
ANT4
ANT2
ANT3
C428
L410
R416
C431
C430
L409
CR311
ANT5
C605
C618
C312
L335
C314
L311
C315
C416
U601
R338
C311
C310
L305
R635
L304
C540
L332
R610
C609
C463
C462
R305
Q301
C354
C464
SH104
C420
L408
C307
R358
C356
R415
C422
C419
R357
C423
L412
L303
C321
R621
R620
R614
R613 C619
C304
C425
C446
CR401
C305
C620
C615
CR303
C308
C317 R301 R302
C301
C606
C359
CR3002
L301
L411
CR302
C426
L326
C445
L302
CR301
C427
SH105
C429
R308
L309
CR305
C455
L307
L415
C322
CR307
C316 L336
C332
FL301
C329
CF1
CF2
C112
C707
L704
R1003
C113
R1001 C117
C114 R143
R705
C706
R704
R1002
C153
R162
R181
C101 R101 R103
R102
R151
R150
U102
C103
C102
C111
CR701
C712
C154
C710
L702
L705
R713
CR702
C725
C207
Q201
Q705
Q702
C711
C722
R191
C701
R144
C100
R131
R104
R105
R106
U106
C191
R184
C190
R154
Q504
Q505
CR101
C501
U506
C503
R139
C541
U505
C168
C167
C166
R194
R530
C162
C163
C140
C141
C142
C170
C165 C171
U107
R534
R535
R531
R120 R529
R152
R195
R193
C172
C169
C173
C164
C189
C188
R515
R597
C543
C522
R514
C523
R509
R508 C517
C568
C507
R178
R114
R532
R533
CR601
U501
C161
C178
C179
C177
R113
C124
C123
TP14
R512
C521
C549
C509
C508
TP15
C528 R520
U508
C529
C548
C525
R516
C524
C544
C506
R536
C547
R538 C542 R107
R518 R517 C519
C550
R599
R539
C520
R511
R510
C518
C546 R513
C199
R180 C118
R179
R182
R183
R190
C144
C502
R153
C195
C194
TP12
TP13
C147
R540
FL701
R537
U104
R598
R319 C342
FL201
Q122
C341
U201
R258 C201
C203
Q121
CR312
C338
C340
C337
R312 C347
C377
C376
C319
R315
Q304
R175
R172
Q701
L703
C724
C726
CR703
L706
C705 R703 C709
C719
R711
C727
R712
R710
L707
R708
C718
R709
C721
C723
C715
C702 R701
L701 C704
C716
Q704
R702
C717
CR315
R715 C731
C728
Q706
C714
R707
Q703
R311 C335
Q303
SH101
R714
C703 R706
C729
L708
L306
L327
C143
R177
Q120
L340 C330 C331
R309
R173
R176
R171
R174
C447
C344
C343
C444
R405
C448
R435
C370
Q7
R399 L337
Q305
R434
R436
R403
R401
L407
L333
C328
R310
R404
C440
C369 R335
Q307
L401
R406
L402
R408 C405 C404
R407
Q401
C449 R402
C401
L329
R337
C367
C368
L403 C408
R410 C403
R409 C402
Q306
R429 C434
R430 R428
C409
Q402
R336
L330 C365 L331 L310
C333 C325 C326 C327
C410
C421
L404
C413
L405
L406
C313 C318
R306
R307
L416
C417
C418
L308
Figure 10-12. VHF (136–174 MHz) Mainboard Bottom Side: PCB No. 8431BEACON400
10-11
Circuit Board/Schematic Diagram and Parts List (VHF: 136–174 MHz)
Q502
C562
C560
C561
Figure 10-13. VHF (136–174 MHz) Sub Circuit Board Top View: PCB No. 8421BEACON100
C566
C565
CR501
C564
Q501
R502
C563
R501
Circuit Board/Schematic Diagram and Parts List (VHF: 136–174 MHz)
10-12
SW1
SW / VOL1
J104
Figure 10-14. VHF (136–174 MHz) Sub Circuit Board Bottom View: PCB No. 8421BEACON100
10-13
Circuit Board/Schematic Diagram and Parts List (VHF: 136–174 MHz)
C1018
MIC1
J101
C176
C175
R155
Q110
C174
C187
R199
R147
C1005
C1004
CR111
SH201
C1011
C1010
C1009
CR110
R198
R161
R160
R159
C1001
J103
R196
R197
R156
C1007
C1008
CR114
CR115
C1006
R158
R108
C1012
R109
C1013
C1014
R112
CR112
CR113
R157
C1015
R119
Figure 10-15. VHF (136–174 MHz) Keypad Board: PCB No. 8422BEACON100
C1002
C1003
Circuit Board/Schematic Diagram and Parts List (VHF: 136–174 MHz)
10.3.1 Parts List
Circuit
Ref.
Supplier
10-14
Circuit
Ref.
Supplier Part No.
Description
Supplier
Supplier Part No.
Description
Circuit
Ref.
Supplier
Supplier Part No.
Description
C127
TDK
–
Chip Cap, 1006 K 47nF
C169
TDK
–
Chip Cap,1005 J 220PF
B401
TDK
–
Chip beads 1608 D 100Ω
C128
TDK
–
Chip Cap, 1006 K 47nF
C170
TDK
–
Chip Cap,1005 J 220PF
B402
TDK
–
Chip beads 1608 D 100Ω
C129
TDK
–
Chip Cap, 1006 K 47nF
C171
TDK
–
Chip Cap,1005 J 220PF
C100
TDK
–
Chip Cap, 1608 Z 1μF
C130
TDK
–
Chip Cap,1005 K 33nF
C172
TDK
–
Chip Cap,1005 J 220PF
C101
TDK
–
Chip Cap, 1005 K 1μF
C134
TDK
–
Chip Cap,1005 K
0.2210nFμF
C173
TDK
–
Chip Cap,1005 J 220PF
C102
TDK
–
Chip Cap, 1005 K 2200PF
C174
TDK
–
Chip Cap,1005 J 220PF
C135
TDK
–
Chip Cap, 1005 J 47PF
C103
TDK
–
Chip Cap, 1005 J 47PF
C175
TDK
–
Chip Cap,1005 Z 0.1μF
C136
TDK
–
Chip Cap,1005 Z 0.1μF
C104
TDK
–
Chip Cap, 1005 J 150 PF
C176
TDK
–
Chip Cap,1005 J 220PF
C137
TDK
–
Chip Cap,1005 K 0.1μF
C105
TDK
–
Chip Cap, 1005 K 15nF
C177
TDK
–
Chip Cap,1005 J 220PF
C138
TDK
–
Chip Cap, 1608 K 0.22μF
C106
TDK
–
Chip Cap, 1005 K 47nF
C178
TDK
–
Chip Cap,1005 J 220PF
C139
KAMAYA
–
Chip Res, 1005 J 10KΩ
C107
TDK
–
Chip Cap,1005 K 0.1μF
C179
TDK
–
Chip Cap,1005 J 220PF
C140
TDK
–
Chip Cap, 1006 K 473PF
C109
TDK
–
Chip Cap,1005 K 22nF
C187
TDK
–
Chip Cap,1005 Z 0.1μF
C142
TDK
–
Chip Cap,1005 K 470PF
C110
TDK
–
Chip Cap,1005 K 22nF
C188
TDK
–
Chip Cap,1005 J 220PF
C143
TDK
–
Chip Cap,1005 Z 0.1μF
C111
TDK
–
Chip Cap, 1005 K 1μF
C189
TDK
–
Chip Cap,1005 J 220PF
C144
TDK
–
Chip Cap,1005 K 0.1μF
C112
HITACH
–
Chip Tantal, 10uF-M/
16V(A)
C190
HITACH
–
C145
TDK
–
Chip Cap, 1005 J 15PF
Chip Tantal, 10uF-M/
16V(A)
C113
TDK
–
Chip Cap,1005 K 560PF
C146
TDK
–
Chip Cap, 1005 J 15PF
C191
TDK
–
Chip Cap,1005 J 220PF
C114
TDK
–
Chip Cap,1005 J 220PF
C147
TDK
–
Chip Cap,1005 K 0.1μF
C194
TDK
–
Chip Cap,1005 Z 0.1μF
C115
TDK
–
Chip Cap, 1005 J 27PF
C153
TDK
–
Chip Cap, 1005 K 1μF
C195
TDK
–
Chip Cap,1005 J 220PF
C116
TDK
–
Chip Cap, 1005 J 27PF
C154
TDK
–
Chip Cap, 1005 K 1μF
C199
TDK
–
Chip Cap,1005 K 470PF
C117
TDK
–
Chip Cap, 1005 K 1.2nF
C156
TDK
–
Chip Cap,1005 K 0.22μF
C201
TDK
–
Chip Cap, 1005 J 47PF
C118
HITACH
–
Chip Tantal, 10uF-M/
16V(A)
C157
TDK
–
Chip Cap,1005 K 0.22μF
C203
TDK
–
Chip Cap,1005 J 120PF
C158
TDK
–
Chip Cap,1005 K 0.22μF
C204
TDK
–
Chip Cap,1005 Z 0.1μF
C119
TDK
–
Chip Cap,1005 K 10nF
C161
TDK
–
Chip Cap,1005 J 220PF
C206
TDK
–
Chip Cap,1005 K 0.1μF
C120
TDK
–
Chip Cap, 1005 J 15PF
C162
TDK
–
Chip Cap,1005 J 220PF
C207
TDK
–
Chip Cap,1005 K 0.1μF
C121
TDK
–
Chip Cap,1005 K 33nF
C163
TDK
–
Chip Cap,1005 J 220PF
C208
TDK
–
Chip Cap,1005 Z 0.1μF
C123
TDK
–
Chip Cap,1005 Z 0.1μF
C164
TDK
–
Chip Cap,1005 J 220PF
C209
TDK
–
Chip Cap,1005 K 560PF
C124
TDK
–
Chip Cap,1005 K 1000PF
C165
TDK
–
Chip Cap,1005 J 220PF
C210
TDK
–
Chip Cap,1005 K 560PF
C125
TDK
–
Chip Cap, 1006 K 47nF
C166
TDK
–
Chip Cap,1005 J 220PF
C211
TDK
–
Chip Cap,1005 K 0.1μF
C126
TDK
–
Chip Cap,1005 K 33nF
C167
TDK
–
Chip Cap,1005 J 220PF
C213
TDK
–
Chip Cap,1005 K 0.1μF
C168
TDK
–
Chip Cap,1005 J 220PF
C214
TDK
–
Chip Cap,1005 Z 0.1μF
10-15
Circuit
Ref.
Circuit Board/Schematic Diagram and Parts List (VHF: 136–174 MHz)
Supplier
Supplier Part No.
Description
Circuit
Ref.
Supplier
Supplier Part No.
Description
Circuit
Ref.
Supplier
Supplier Part No.
Description
C301
TDK
–
Chip Cap, 1005 J 47pF
C340
TDK
–
Chip Cap,1005 K 0.1μF
C422
TDK
–
Chip Cap,1608 J 270PF
C304
TDK
–
Chip Cap,1005 J 20PF
C341
TDK
–
Chip Cap, 1005 J 47PF
C425
TDK
–
Chip Cap,1608 K 1000PF
C305
TDK
–
Chip Cap, 1005 D 10PF
C342
TDK
–
Chip Cap,1005 K 0.1μF
C426
TDK
–
Chip Cap,1608 J 27PF
C307
TDK
–
Chip Cap, 1005 J 15PF
C343
TDK
–
Chip Cap,1005 Z 0.1μF
C427
TDK
–
Chip Cap,1608 J 12PF
C308
TDK
–
Chip Cap,1005 K 10nF
C344
TDK
–
Chip Cap,1005 K 470PF
C428
TDK
–
Chip Cap,1608 J 22PF
C310
TDK
–
Chip Cap,1005 Z 0.1μF
C347
TDK
–
Chip Cap,1005 Z 0.1μF
C429
TDK
–
Chip Cap,1608 D 10PF
C311
TDK
–
Chip Cap,1005 K 1000PF
C354
TDK
–
Chip Cap,1005 D 9PF
C430
TDK
–
Chip Cap,1608 J 12PF
C312
TDK
–
Chip Cap, 1005 D 10PF
C356
TDK
–
Chip Cap,1005 K 10nF
C431
TDK
–
Chip Cap,1608 J 1nF
C313
TDK
–
Chip Cap,1005 K 1000PF
C359
TDK
–
Chip Cap, 1005 D 10PF
C432
TDK
–
Chip Cap,1005 Z 0.1μF
C314
TDK
–
Chip Cap, 1005 J 15PF
C365
TAIYOYUDEN
–
Chip Ind, 1005 J 47N
C434
TDK
–
Chip Cap,1005 K 470PF
C315
TDK
–
Chip Cap, 1005 J 15PF
C367
TDK
–
Chip Cap,1005 J 220PF
C435
TDK
–
Chip Cap,1005 K 10nF
C316
TDK
–
Chip Cap, 1005 J 15PF
C368
TDK
–
Chip Cap,1005 K 10nF
C436
TDK
–
Chip Cap,1005 Z 0.1μF
C317
TDK
–
Chip Cap,1005 K 1000PF
C376
TDK
–
Chip Cap,1005 Z 0.1μF
C437
TDK
–
Chip Cap,1005 Z 0.1μF
C318
TDK
–
Chip Cap,1005 K 10nF
C378
HITACH
–
C439
TDK
–
Chip Cap,1005 K 1000PF
C319
TDK
–
Chip Cap,1005 K 10nF
Chip Tantal, 10uF-M/
16V(A)
C440
TDK
–
Chip Cap,1005 K 470PF
Chip Tantal, 10uF-M/
16V(A)
C380
TDK
–
Chip Cap,1005 K 470PF
C445
TDK
–
Chip Cap,1608 D 9PF
C381
TDK
–
Chip Cap,1005 K 0.1μF
C446
TDK
–
Chip Cap,1608 J 22PF
C447
TDK
–
Chip Cap,1005 C 5PF
C448
TDK
–
Chip Cap,1005 K 10nF
C449
TDK
–
Chip Cap,1005 C 5PF
C453
TDK
–
Chip Cap,1005 K 470PF
C454
HITACH
–
Chip Tantal, 22uF-M/
16V(B)
C320
HITACH
–
C325
TDK
–
Chip Cap,1005 J 39PF
C401
TDK
–
Chip Cap,1005 C 5PF
C326
TDK
–
Chip Cap, 1005 J 12PF
C404
TDK
–
Chip Cap, 1005 J 15PF
C327
TAIYOYUDEN
–
Chip Ind, 1005 J 10N
C405
TDK
–
Chip Cap,1005 J 20PF
C328
TDK
–
Chip Cap,1005 D 6PF
C406
TDK
–
Chip Cap,1005 Z 0.1μF
C329
TDK
–
Chip Cap,1005 K 10nF
C409
TDK
–
Chip Cap,1005 D 8PF
C330
TDK
–
Chip Cap, 1005 D 7PF
C410
TDK
–
Chip Cap, 1005 J 56PF
C331
TDK
–
Chip Cap, 1005 C 5PF
C413
TDK
–
Chip Cap,1608 J 30PF
C455
TDK
–
Chip Cap,1608 J 12PF
C332
TDK
–
Chip Cap, 1005 D 10PF
C415
KAMAYA
–
Chip Res, 1005 J 20KΩ
C460
TDK
–
Chip Cap,1005 Z 0.1μF
C333
TDK
–
Chip Cap, 1005 J 27PF
C416
TDK
–
Chip Cap,1005 Z 0.1μF
C461
TDK
–
Chip Cap,1005 K 470PF
C334
TDK
–
Chip Cap,1005 K 1000PF
C417
TDK
–
Chip Cap, 1608 J 15PF
C462
TDK
–
Chip Cap,1005 Z 0.1μF
C335
TDK
–
Chip Cap,1005 J 20PF
C418
TDK
–
Chip Cap,1608 J 56PF
C463
TDK
–
Chip Cap,1005 K 470PF
C337
TDK
–
Chip Cap,1005 K 10nF
C419
TDK
–
Chip Cap,1608 J 18PF
C464
TDK
–
Chip Cap,1005 Z 0.1μF
C338
TDK
–
Chip Cap, 1005 K 47nF
C420
TDK
–
Chip Cap,1608 C 5PF
C501
TDK
–
Chip Cap,1005 K 470PF
C339
TDK
–
Chip Cap,1005 K 0.1μF
C421
TDK
–
Chip Cap, 1005 J 47PF
Circuit Board/Schematic Diagram and Parts List (VHF: 136–174 MHz)
Circuit
Ref.
Supplier
Supplier Part No.
Description
10-16
Circuit
Ref.
Supplier
C502
HITACH
–
Chip Tantal, 22uF-M/
16V(B)
C503
TDK
–
Chip Cap,1005 Z 0.1μF
C506
TDK
–
Chip Cap,1005 K 470PF
C540
TDK
C507
HITACH
–
Chip Tantal, 22uF-M/
16V(B)
C541
C508
HITACH
–
Chip Tantal, 10uF-M/
16V(A)
C509
TDK
–
Chip Cap,1005 K 470PF
C510
TDK
–
Chip Cap, 2012 Z 4.7μF
C546
TDK
C511
HITACH
–
Chip Tantal, 22uF-M/
16V(B)
C549
C512
TDK
–
Chip Cap,1005 K 470PF
C515
TDK
–
C516
HITACH
–
Supplier Part No.
Description
Circuit
Ref.
Supplier
Supplier Part No.
Description
C538
TDK
–
Chip Cap,1005 K 10nF
C618
HITACH
–
C539
HITACH
–
Chip Tantal, 10uF-M/
16V(A)
Chip Tantal, 4.7uF-M/
16V(A)
C619
TDK
–
Chip Cap, 1005 J 33PF
–
Chip Cap, 1608 Z 0.1μF
C620
TDK
–
Chip Cap,1005 K 470PF
TDK
–
Chip Cap,1005 Z 0.1μF
C621
TDK
–
Chip Cap,1005 K 470PF
C542
TDK
–
Chip Cap,1005 K 10nF
C622
TDK
–
Chip Cap, 1005 J 47PF
C543
TDK
–
Chip Cap, 1005 K 1.2nF
C701
HITACH
–
C545
HITACH
–
Chip Tantal, 22uF-M/
10V(A)
Chip Tantal, 22uF-M/
10V(A)
C702
TDK
–
Chip Cap,1005 K 1000PF
–
Chip Cap,1005 K 0.1μF
C704
TDK
–
Chip Cap,1005 K 470PF
TDK
–
Chip Cap,1005 K 560PF
C705
TDK
–
Chip Cap,1005 D 6PF
C550
TDK
–
Chip Cap,1005 K 560PF
C706
TDK
–
Chip Cap, 1005 D 10PF
Chip Cap,1005 Z 0.1μF
C560
TDK
–
Chip Cap,1005 J 47PF
C707
TDK
–
Chip Cap, 1005 J 27PF
Chip Tantal, 10uF-M/
16V(A)
C561
TDK
–
Chip Cap,1005 J 47PF
C709
TDK
–
Chip Cap, 1005 D 10PF
C562
TDK
–
Chip Cap,1005 J 47PF
C710
MURATA
–
Chip Trimmer Cap, 2PIE
10PF
C711
TDK
–
Chip Cap, 1005 J 33PF
C712
TDK
–
Chip Cap,1005 K 470PF
C714
TDK
–
Chip Cap,1005 K 1000PF
C715
HITACH
–
Chip Tantal, 22uF-M/
10V(A)
C716
TDK
–
Chip Cap,1005 K 470PF
C717
TDK
–
Chip Cap, 1005 J 12PF
C718
TDK
–
Chip Cap, 1005 J 12PF
C719
TDK
–
Chip Cap, 1005 J 27PF
C517
TDK
–
Chip Cap,1005 K 22nF
C563
TDK
–
Chip Cap,1005 J 47PF
C518
TDK
–
Chip Cap, 1005 K 5.6nF
C564
TDK
–
Chip Cap,1005 J 47PF
C519
TDK
–
Chip Cap, 1005 K 1.2nF
C565
TDK
–
Chip Cap,1005 J 47PF
C520
TDK
–
Chip Cap, 1005 K 4.7nF
C566
TDK
–
Chip Cap,1005 J 47PF
C521
TDK
–
Chip Cap, 1005 K 1.2nF
C567
HITACH
–
C522
TDK
–
Chip Cap, 1005 K 5.6nF
Chip Tantal, 10uF-M/
16V(A)
C523
TDK
–
Chip Cap,1005 K 1000PF
C568
TDK
–
Chip Cap,1005 K 10nF
C524
TDK
–
Chip Cap,1005 K 33nF
C570
TDK
–
Chip Cap, 1005 J 47PF
C525
TDK
–
Chip Cap, 1005 K 330PF
C601
HITACH
–
Chip Tantal, 10uF-M/
16V(A)
C528
TDK
–
Chip Cap, 1005 K 18nF
C529
TDK
–
Chip Cap,1005 Z 0.1μF
C530
TDK
–
Chip Cap,1005 K 10nF
C531
TDK
–
Chip Cap,1005 Z 0.1μF
C533
TDK
–
Chip Cap,1005 Z 0.1μF
C536
TDK
–
Chip Cap,1005 K 10nF
C537
TDK
–
Chip Cap, 1005 K 2200PF
C602
TDK
–
Chip Cap,1005 K 0.22μF
C721
TDK
–
Chip Cap, 1005 J 12PF
C605
TDK
–
Chip Cap, 2012 Z 4.7uF
C722
MURATA
–
C606
TDK
–
Chip Cap,1005 Z 0.1μF
Chip Trimmer Cap, 2PIE
10PF
C609
TDK
–
Chip Cap,1005 K 0.1μF
C723
TDK
–
Chip Cap, 1005 C 3PF
C615
TDK
–
Chip Cap, 1608 K 0.22μF
C724
TDK
–
Chip Cap, 1005 J 56PF
C616
TDK
–
Chip Cap,1005 K 0.1μF
C725
TDK
–
Chip Cap,1005 K 470PF
C617
TDK
–
Chip Cap,1005 K 0.1μF
C726
TDK
–
Chip Cap, 1005 D 6PF
10-17
Circuit
Ref.
Circuit Board/Schematic Diagram and Parts List (VHF: 136–174 MHz)
Supplier
Supplier Part No.
Description
Circuit
Ref.
Supplier
Supplier Part No.
Description
C727
TDK
–
Chip Cap, 1005 C 3PF
C1010
TDK
–
Chip Cap, 1005 J 47PF
C728
TDK
–
Chip Cap, 1005 D 10PF
C1011
TDK
–
Chip Cap, 1005 J 47PF
C729
TDK
–
Chip Cap, 1005 C 3PF
C1012
TDK
–
Chip Cap, 1005 J 47PF
C730
TDK
–
Chip Cap, 1005 C 4PF
C1013
TDK
–
Chip Cap, 1005 J 47PF
C731
TDK
–
Chip Cap, 1005 C 4PF
C1014
TDK
–
Chip Cap, 1005 J 47PF
C738.
TDK
–
Chip Cap, 1005 D 7PF
C1015
TDK
–
Chip Cap, 1005 J 47PF
C739
TDK
–
Chip Cap,1005 K 1000PF
C1018
TDK
–
Chip Cap, 1005 J 220PF
C740
TDK
–
Chip Cap,1005 Z 0.1μF
CF1
BGTech
8286045500120
C741
TDK
–
Chip Cap,1005 Z 0.1μF
TOKO, Ceramic Filter,
ELFY455F
CF2
BGTech
8286045500220
TOKO, Ceramic Filter,
ELFY455H
CR110
Bright LED
–
LED DIODE, BL-HG036DTR
CR111
Bright LED
–
LED DIODE, BL-HG036DTR
CR1121
Bright LED
–
C746
TDK
–
Chip Cap, 1005 J 20PF
C747
TDK
–
Chip Cap, 1005 J 33PF
C748
TDK
–
Chip Cap,1005 Z 0.1μF
Circuit
Ref.
Supplier
Supplier Part No.
Description
CR305
KEC
–
VARIABLE DIODE,
KDV269E
CR306
KEC
–
SWITCH DIODE, KDS160E (ESM)
CR307
KEC
–
VARIABLE DIODE,
KDV269E
CR312
KEC
–
SWITCH DIODE, KDS160E (ESM)
CR315
KEC
–
SWITCH DIODE, KDS160E (ESM)
CR401
M/A COM
–
PIN DIODE, MA4P7001F1072T
CR501
BRIGHT LED
–
LED DIODE, BLHEIG033B-TR
CR601
KEC
–
ZENOR DIODE, KDZ5.1V
CR701
KEC
–
VARIABLE DIODE,
KDV300E
LED DIODE, BL-HG036DTR
CR702
KEC
–
VARIABLE DIODE,
KDV300E
–
VARIABLE DIODE,
KDV300E
C749
TDK
–
Chip Cap, 1608 Z 1μF
C750
TDK
–
Chip Cap,1005 Z 0.1μF
C751
HITACH
–
Chip Tantal, 1uF-M/35V(A)
C752
TDK
–
Chip Cap,1005 K 0.1μF
CR1131
Bright LED
–
CR703
KEC
C753
PANASONIC
–
Film Chip Cap, 3216 J
47nF
LED DIODE, BL-HG036DTR
CR1141
Bright LED
–
DEC1
BGTech
8287455c24010
Film Chip Cap, 3216 J
47nF
LED DIODE, BL-HG036DTR
CP, Desciminator,
JTBC455C24
CR1151
Bright LED
–
LED DIODE, BL-HG036DTR
BGTech
8560228005000
CR116
KEC
–
SWITCH DIODE, KDS160E (ESM)
FCABLE
1
SNAGGWA, BEACON
FLAT CABLE, FF1222N080XXA
8560124005000
KEC
–
SWITCH DIODE, KDS160E (ESM)
FCABLE
2
BGTech
CR117
SNAGGWA, BEACON
FLAT CABLE, FF1212N040XXA
FL101
BGTech
82827R3728M00
SHINSUNG, Crystal,
7.3728MHz (H: 2.8mm)
FL102
BGTech
82827R5795M00
SHINSUNG, Crystal,
3.5795MHz (H: 2.8mm)
FL201
BGTech
828244R645M00
SHINSUNG, Crystal,
44.645MHz (SMD)
FL301
BGTech
828645R100220
SHINSUNG, Crystal, MCF
45.15S12.B (8.5KHz)
C754
PANASONIC
–
C755
TDK
–
Chip Cap,1005 K 0.1μF
C756
TDK
–
Chip Cap,1005 K 1000PF
C1001
TDK
–
Chip Cap, 1005 J 47PF
C1002
TDK
–
Chip Cap, 1005 J 47PF
C1003
TDK
–
Chip Cap, 1005 J 47PF
CR201
KEC
–
Switch DIODE, KDS 181
C1004
TDK
–
Chip Cap, 1005 J 47PF
CR202
KEC
–
Switch DIODE, KDS 181
C1005
TDK
–
Chip Cap, 1005 J 47PF
CR301
PANASONIC
–
Switch DIODE,
MA2S07700L
C1006
TDK
–
Chip Cap, 1005 J 47PF
CR302
KEC
–
C1007
TDK
–
Chip Cap, 1005 J 47PF
VARIABLE DIODE,
KDV269E
C1008
TDK
–
Chip Cap, 1005 J 47PF
CR303
KEC
–
C1009
TDK
–
Chip Cap, 1005 J 47PF
VARIABLE DIODE,
KDV269E
Circuit Board/Schematic Diagram and Parts List (VHF: 136–174 MHz)
Circuit
Ref.
Supplier
Supplier Part No.
Description
FL701
BGTech
8289012R80010
SHINSUNG, VCTCXO,
12.8 MHZ
J101
BGTech
851607C01S110
YUNHO, FPC
CONNECTOR, 05004HR07C01S(G)
J102
J103
J104
J105
BGTech
BGTech
BGTech
BGTech
851622A01S110
8516220005020
851612151A110
851612A01S110
Circuit
Ref.
Supplier
Supplier Part No.
L327
TAIYOYUDEN
–
L329
BGTech
L330
Description
Circuit
Ref.
Supplier
Supplier Part No.
Description
Chip Ind,1608 K 820NH
L604
TAIYOYUDEN
–
Chip Ind, 1608 K 2.2uH
8920PT1667020
TOKO, #617PT-1667
L701
TAIYOYUDEN
–
Chip Ind, HK1005 R10J
TAIYOYUDEN
–
Chip Ind, 1005 J 82N
L702
TAIYOYUDEN
–
Chip Ind, 1608 K 2.2uH
L331
TAIYOYUDEN
–
Chip Ind, 1005 J 47N
L703
DAERIM
–
YUNHO, FPC
CONNECTOR, 05004HR22A01S
L332
TAIYOYUDEN
–
Chip Ind,1608 K 820NH
COIL AIR, 0.28-1.16TL(SMD)
L333
BGTech
L704
TAIYOYUDEN
–
Chip Ind, LK1608-1R0K-T
KYOCERA, FPC
CONNECTOR, 04-6292022-000-800+
L335
L705
TAIYOYUDEN
–
Chip Ind, 1608 K 2.2uH
L706
DAERIM
–
COIL AIR, 0.3-1.4-6TL
L707
TAIYOYUDEN
–
Chip Ind, LK1608-1R0K-T
OMIRON, FPC
CONNECTOR, XF2M1215-1A
L708
TAIYOYUDEN
–
Chip Ind, 1608 220nH J
L709
TAIYOYUDEN
–
Chip Ind, 1005 J 47N
LCD1
BGTech
86343208A2020
EVERRVIEW,VBS3208A27FWLYA,REV4.0
MIC1
BGTech
8420063215000
BSE, C-MIC, 6.0*2.7/
2.2KΩ,2V,-44±3dB, Pin
type
PB501
BGTech
8466PUD02K020
PANASONIC, Tack Switch,
EVQPUD02K
YUNHO, FPC
CONNECTOR, 05004HR12B01S(G)
J601
BGTech
8500031009800
CHI CHENG, SPK MIC
JACK, 0980683Z01-D
J602
BGTech
85100G500PL00
SUYIN, BATTERY
CONNECTOR,
060031MA005G500PL
8510530470210
10-18
J603
BGTech
MOLEX, CONNECTOR,
53047-0210
L301
TAIYOYUDEN
–
ChipInd, LEM2520T-68NK
L302
DELTA
–
Chip Ind, 2012 27nH
L303
DELTA
–
Chip Ind, 2012 12nH
L304
DELTA
–
Chip Ind, 2012 68nH
L305
TAIYOYUDEN
–
Chip Ind, 1608 220nH J
L306
DELTA
–
Chip Ind, 2012 820NH
(Tolerance: 5%)
L307
DELTA
–
Chip Ind, 2012 12nH
L308
DELTA
–
Chip Ind, 2012 68nH
L309
DELTA
–
Chip Ind, 2012 22nH
L310
TAIYOYUDEN
–
Chip Ind, 1005 J 47N
L311
TAIYOYUDEN
–
Chip Ind, 1608 220nH J
L326
DELTA
–
Chip Ind, 2012 220nH
8920PT1664020
TOKO, #617PT-1664
TAIYOYUDEN
–
Chip Ind, 1005 J 27N
L336
TAIYOYUDEN
–
Chip Ind, 1005 J 27N
L337
TAIYOYUDEN
–
Chip Ind, 1005 J 22N
L340
TAIYOYUDEN
–
Chip Ind,1608 K 820NH
L401
TAIYOYUDEN
–
Chip Ind, 1608 220nH J
L403
TAIYOYUDEN
–
Chip Ind, 1608 220nH J
L404
TAIYOYUDEN
–
Chip Ind, 1005 J 22N
L405
TAIYOYUDEN
–
Chip Ind, 1005 J 22N
L406
TAIYOYUDEN
–
Chip Ind, 1608 220nH J
L407
TAIYOYUDEN
–
Chip Ind, 1608 220nH J
L408
DAERIM
–
COIL AIR, 0.28-1.16TL(SMD)
PB502
BGTech
8466PUD02K020
PANASONIC, Tack Switch,
EVQPUD02K
L409
DAERIM
–
COIL AIR, 0.35-1.66TL(SMD)
PB503
BGTech
8466PUD02K020
PANASONIC, Tack Switch,
EVQPUD02K
L410
DAERIM
–
COIL AIR, 0.35-1.66TL(SMD)
Q101
KEC
–
KRC413
Q102
KEC
–
KRC413
L411
DAERIM
–
COIL AIR, 0.35-1.66TL(SMD)
Q103
KEC
–
KRC413
L412
TAIYOYUDEN
–
Chip Ind, LK1608-1R0K-T
Q104
KEC
–
KRC413
L413
DAERIM
–
COIL AIR, 0.35-1.67TL(SMD)
Q110
KEC
–
SWITCHING TR
Q111
KEC
–
KTA 2014
L415
DAERIM
–
COIL AIR, 0.45-1.4-3TL
Q112
KEC
–
KTA 2014
L416
DAERIM
–
COIL AIR, 0.45-1.4-3TL
Q113
KEC
–
KRC 404
L601
TAIYOYUDEN
–
Chip Ind, 1608 K 2.2uH
Q114
KEC
–
KRC 404
L602
TAIYOYUDEN
–
Chip Ind, 1608 K 2.2uH
Q120
KEC
–
KRC 404
L603
TAIYOYUDEN
–
Chip Ind, 1608 K 2.2uH
Q121
KEC
–
KRC 404
10-19
Circuit
Ref.
Circuit Board/Schematic Diagram and Parts List (VHF: 136–174 MHz)
Supplier
Supplier Part No.
Description
Q122
KEC
–
KRC 404
Q201
KEC
–
KRC 404
Q202
KEC
–
KRC 404
Q206
KEC
–
KRC 404
Q207
KEC
–
KRC 404
Q301
NEC
–
SWITCHING TR
Q303
NEC
–
SWITCHING TR
Q304
KEC
–
KRA 305
Q305
KEC
–
KRC 404
Q306
BGTech
81492SK711020
Q307
BGTech
81492SK711020
Circuit
Ref.
Supplier
Supplier Part No.
Description
Q504
KEC
–
KRC 404 BJT NPN
Transistor
Q505
KEC
–
KRA 305
Q601
KEC
–
KRC 404 BJT NPN
Transistor
Q610
KEC
–
KRC 404 BJT NPN
Transistor
Q7
NEC
–
2SC4226 BJT NPN
Transistor
Q701
NEC
–
2SC4226 BJT NPN
Transistor
2SK711 TOSHIBA FET NChannel Transistor
Q702
NEC
–
2SC4226 BJT NPN
Transistor
2SK711 TOSHIBA FET NChannel Transistor
Q703
NEC
–
2SC4226 BJT NPN
Transistor
Q401
BGTech
8142000951120
PBR 951LT1 PHILIPS BJT
NPN Transistor
Q704
NEC
–
2SC4226 BJT NPN
Transistor
Q402
BGTech
8149003078021
2SK3078A TOSHIBA FET
N-channel Transistor
Q705
KEC
–
KRA 305 BJT PNP
Transistor
Circuit
Ref.
Supplier
Supplier Part No.
Description
R106
KAMAYA
–
Chip Res, 1005 J 47KΩ
R107
KAMAYA
–
Chip Res, 1005 J 3.9KΩ
R1081
KAMAYA
–
Chip Res, 1005 J 4.7KΩ
R1091
KAMAYA
–
Chip Res, 1005 J 4.7KΩ
R110
KAMAYA
–
Chip Res, 1005 J 270KΩ
R1121
KAMAYA
–
Chip Res, 1005 J 4.7KΩ
R113
KAMAYA
–
Chip Res, 1005 J 47KΩ
R114
KAMAYA
–
Chip Res, 1005 J 10KΩ
R115
KAMAYA
–
Chip Res, 1005 J 10KΩ
R116
KAMAYA
–
Chip Res, 1005 J 1.2KΩ
R117
KAMAYA
–
Chip Res, 1005 J 8.2KΩ
R118
KAMAYA
–
Chip Res, 1005 J 47KΩ
R1191
KAMAYA
–
Chip Res, 1005 J 4.7KΩ
R120
KAMAYA
–
Chip Res, 1005 J 47KΩ
R121
KAMAYA
–
Chip Res, 1005 J 330KΩ
Q403
BGTech
8149003476021
2SK3476 TOSHIBA FET
N-channel Transistor
Q706
KEC
–
KRA 305 BJT PNP
Transistor
R122
KAMAYA
–
Chip Res, 1005 J 330KΩ
Q404
BGTech
8145001188021
STB 1188 AUK BJT NPN
Transistor
Q707
KEC
–
KTC 4075 BJT NPN
Transistor
R126
KAMAYA
–
Chip Res, 1005 J 15KΩ
R127
KAMAYA
–
Chip Res, 1005 J 33KΩ
Q405
KEC
–
KTC 4075 BJT NPN
Transistor
Q708
KEC
–
KTA 2014 BJT PNP
Transistor
R128
KAMAYA
–
Chip Res, 1005 J 3.9KΩ
R129
KAMAYA
–
Chip Res, 1005 J 150KΩ
Q406
KEC
–
KRC 404 BJT NPN
Transistor
Q709
KEC
–
KTA 2014 BJT PNP
Transistor
R131
KAMAYA
–
Chip Res, 1005 J 10Ω
Q407
KEC
–
KRA 305
Q710
KEC
–
R132
KAMAYA
–
Chip Res, 1005 J 10KΩ
Q408
KEC
–
KRC 404 BJT NPN
Transistor
KTC 4075 BJT NPN
Transistor
R133
KAMAYA
–
Chip Res, 1005 J 470KΩ
Q711
KEC
–
R134
KAMAYA
–
Chip Res, 1005 J 4.7MΩ
KRC 404 BJT NPN
Transistor
KRA304 BJT PNP
Transistor
R101
KAMAYA
–
Chip Res, 1005 J 10KΩ
R135
TDK
–
Chip Cap,1005 K 0.1μF
R102
KAMAYA
–
Chip Res, 1005 J 47KΩ
R136
KAMAYA
–
Chip Res, 1005 J 100KΩ
R103
KAMAYA
–
Chip Res, 1005 J 150KΩ
R137
KAMAYA
–
Chip Res, 1005 J 4.7MΩ
R104
KAMAYA
–
Chip Res, 1005 J 47KΩ
R138
KAMAYA
–
Chip Res, 1005 J 220KΩ
R105
KAMAYA
–
Chip Res, 1005 J 47KΩ
R139
KAMAYA
–
Chip Res, 1005 J 10KΩ
R140
KAMAYA
–
Chip Res, 1005 J 68KΩ
Q501
Q502
Q503
KEC
KEC
KEC
–
–
–
KRC 404 BJT NPN
Transistor
KRC 404 BJT NPN
Transistor
Circuit Board/Schematic Diagram and Parts List (VHF: 136–174 MHz)
Circuit
Ref.
Supplier
Supplier Part No.
Description
10-20
Circuit
Ref.
Supplier
Supplier Part No.
Description
Circuit
Ref.
Supplier
Supplier Part No.
Description
R141
KAMAYA
–
Chip Res, 1005 J 100KΩ
R173
KAMAYA
–
Chip Res, 1005 J 10KΩ
R213
KAMAYA
–
Chip Res, 1005 J 20KΩ
R142
KAMAYA
–
Chip Res, 1005 J 330KΩ
R174
KAMAYA
–
Chip Res, 1005 J 120KΩ
R216
KAMAYA
–
Chip Res, 1005 J 4.7KΩ
R143
KAMAYA
–
Chip Res, 1005 J 91KΩ
R175
KAMAYA
–
Chip Res, 1005 J 47KΩ
R217
KAMAYA
–
Chip Res, 1005 J 10KΩ
R144
KAMAYA
–
Chip Res, 1005 J 100KΩ
R176
KAMAYA
–
Chip Res, 1005 J 30KΩ
R222
KAMAYA
–
Chip Res, 1005 J 1.2KΩ
R145
KAMAYA
–
Chip Res, 1005 J 1MΩ
R177
KAMAYA
–
Chip Res, 1005 J 56KΩ
R250
KAMAYA
–
Chip Res, 1005 J 10KΩ
R146
KAMAYA
–
Chip Res, 1005 J 0Ω
R178
KAMAYA
–
Chip Res, 1005 J 100KΩ
R258
KAMAYA
–
Chip Res, 1005 J 1.5KΩ
R147
KAMAYA
–
Chip Res, 1005 J 47KΩ
R179
KAMAYA
–
Chip Res, 1005 J 51KΩ
R301
KAMAYA
–
Chip Res, 1005 J 100KΩ
R148
KAMAYA
–
Chip Res, 1005 J 1MΩ
R180
KAMAYA
–
Chip Res, 1005 J 100KΩ
R302
KAMAYA
–
Chip Res, 1005 J 100KΩ
R149
KAMAYA
–
Chip Res, 1005 J 100KΩ
R181
KAMAYA
–
Chip Res, 1005 J 150Ω
R305
KAMAYA
–
Chip Res, 1005 J 39KΩ
R150
KAMAYA
–
Chip Res, 1005 F 10KΩ
R182
KAMAYA
–
Chip Res, 1005 J 200KΩ
R306
KAMAYA
–
Chip Res, 1005 J 100KΩ
R151
KAMAYA
–
Chip Res, 1005 F 12KΩ
R184
KAMAYA
–
Chip Res, 1005 J 15KΩ
R307
KAMAYA
–
Chip Res, 1005 J 100KΩ
R152
KAMAYA
–
Chip Res, 1005 J 680Ω
R185
KAMAYA
–
Chip Res, 1005 J 0Ω
R308
KAMAYA
–
Chip Res, 1005 J 150Ω
R153
KAMAYA
–
Chip Res, 1005 F 68KΩ
R190
KAMAYA
–
Chip Res, 1005 J 15KΩ
R309
KAMAYA
–
Chip Res, 1005 J 10Ω
R154
KAMAYA
–
Chip Res, 1005 F 47KΩ
R191
KAMAYA
–
Chip Res, 1005 J 15KΩ
R310
KAMAYA
–
1005 J 1KΩ
R155
KAMAYA
–
Chip Res, 1005 J 470Ω
R192
KAMAYA
–
Chip Res, 1005 J 15KΩ
R311
KAMAYA
–
Chip Res, 1005 J 560Ω
R156
KAMAYA
–
Chip Res, 1005 J 1KΩ
R193
KAMAYA
–
Chip Res, 1005 J 10KΩ
R312
KAMAYA
–
Chip Res, 1005 J 220Ω
R1571
KAMAYA
–
Chip Res, 1005 J 1KΩ
R194
KAMAYA
–
Chip Res, 1005 J 6.8KΩ
R314
KAMAYA
–
Chip Res, 1005 J 100Ω
R1581
KAMAYA
–
Chip Res, 1005 J 1KΩ
R195
KAMAYA
–
Chip Res, 1005 J 100Ω
R315
KAMAYA
–
Chip Res, 1005 J 100Ω
R159
KAMAYA
–
Chip Res, 1005 J 47KΩ
R196
KAMAYA
–
Chip Res, 1005 J 47KΩ
R316
KAMAYA
–
Chip Res, 1005 J 100KΩ
R160
KAMAYA
–
Chip Res, 1005 J 47KΩ
R197
KAMAYA
–
Chip Res, 1005 J 47KΩ
R317
KAMAYA
–
Chip Res, 1005 J 120KΩ
R161
KAMAYA
–
Chip Res, 1005 J 47KΩ
R198
KAMAYA
–
Chip Res, 1005 J 47KΩ
R318
KAMAYA
–
Chip Res, 1005 J 2.2KΩ
R162
KAMAYA
–
Chip Res, 1005 J 820Ω
R199
KAMAYA
–
Chip Res, 1005 J 47KΩ
R319
KAMAYA
–
Chip Res, 1005 J 3.9KΩ
R163
KAMAYA
–
Chip Res, 1005 J 100KΩ
R203
KAMAYA
–
Chip Res, 1005 J 22KΩ
R336
KAMAYA
–
1005 J 1KΩ
R164
KAMAYA
–
Chip Res, 1005 J 100KΩ
R204
KAMAYA
–
Chip Res, 1005 J 22KΩ
R337
KAMAYA
–
Chip Res, 1005 J 10Ω
R165
KAMAYA
–
Chip Res, 1005 F 3KΩ
R206
KAMAYA
–
Chip Res, 1005 J 10KΩ
R338
KAMAYA
–
Chip Res, 1005 C 1PF
R167
KAMAYA
–
Chip Res, 1005 J 100KΩ
R207
KAMAYA
–
Chip Res, 1005 J 22KΩ
R342
KAMAYA
–
Chip Res, 1005 J 6.8KΩ
R168
KAMAYA
–
Chip Res, 1005 J 100KΩ
R208
KAMAYA
–
Chip Res, 1005 J 2KΩ
R357
KAMAYA
–
Chip Res, 1005 J 1Ω
R169
KAMAYA
–
Chip Res, 1005 J 1.2KΩ
R210
KAMAYA
–
Chip Res, 1005 J 120KΩ
R358
KAMAYA
–
Chip Res, 1005 J 1Ω
R171
KAMAYA
–
Chip Res, 1005 J 10KΩ
R211
KAMAYA
–
Chip Res, 1005 J 15KΩ
R399
KAMAYA
–
Chip Res, 1005 J 68Ω
R172
KAMAYA
–
Chip Res, 1005 J 10KΩ
R212
KAMAYA
–
Chip Res, 1005 J 100KΩ
R401
KAMAYA
–
Chip Res, 1005 J 180Ω
10-21
Circuit
Ref.
Circuit Board/Schematic Diagram and Parts List (VHF: 136–174 MHz)
Supplier
Supplier Part No.
Description
Circuit
Ref.
Supplier
Supplier Part No.
Description
Circuit
Ref.
Supplier
Supplier Part No.
Description
R402
KAMAYA
–
Chip Res, 1005 J 39Ω
R432
KAMAYA
–
Chip Res, 1005 J 47KΩ
R526
KAMAYA
–
Chip Res, 1005 J 100Ω
R403
KAMAYA
–
Chip Res, 1005 J 180Ω
R433
KAMAYA
–
Chip Res, 1005 J 0Ω
R527
KAMAYA
–
Chip Res, 1005 J 100KΩ
R404
KAMAYA
–
Chip Res, 1005 J 10KΩ
R434
KAMAYA
–
Chip Res, 1005 J 33KΩ
R528
KAMAYA
–
Chip Res, 1005 J 82KΩ
R405
KAMAYA
–
Chip Res, 1005 J 2.7KΩ
R435
KAMAYA
–
Chip Res, 1005 J 180Ω
R529
KAMAYA
–
Chip Res, 1005 J 47KΩ
R406
KAMAYA
–
Chip Res, 1005 J 10Ω
R436
KAMAYA
–
Chip Res, 1005 J 47Ω
R530
KAMAYA
–
Chip Res, 1005 J 47KΩ
R407
KAMAYA
–
Chip Res, 1005 J 8.2KΩ
R499
KAMAYA
–
Chip Res, 1005 J 1.5KΩ
R531
KAMAYA
–
Chip Res, 1005 J 47KΩ
R408
KAMAYA
–
Chip Res, 1005 J 2.2KΩ
R501
KAMAYA
–
Chip Res, 1005 J 220Ω
R532
KAMAYA
–
Chip Res, 1005 J 10KΩ
R409
KAMAYA
–
Chip Res, 1005 J 10Ω
R502
KAMAYA
–
Chip Res, 1005 J 220Ω
R533
KAMAYA
–
Chip Res, 1005 J 10KΩ
R410
KAMAYA
–
Chip Res, 1005 J 10Ω
R503
KAMAYA
–
Chip Res, 1005 J 100KΩ
R534
KAMAYA
–
Chip Res, 1005 J 10KΩ
R411
KAMAYA
–
Chip Res, 1005 J 3.3KΩ
R504
NOBLE
–
R535
KAMAYA
–
Chip Res, 1005 J 10KΩ
R412
KAMAYA
–
Chip Res, 1005 J 3.9KΩ
CHIP SEMI V.R, 3PIE 47
KΩ
R536
KAMAYA
–
Chip Res, 1005 J 330KΩ
R505
KAMAYA
–
Chip Res, 1005 J 10KΩ
R537
KAMAYA
–
1005 J 1KΩ
R506
KAMAYA
–
Chip Res, 1005 J 10KΩ
R538
KAMAYA
–
Chip Res, 1005 J 8.2KΩ
R507
KAMAYA
–
Chip Res, 1005 J 10KΩ
R539
KAMAYA
–
Chip Res, 1005 J 330KΩ
R508
KAMAYA
–
1005 J 1KΩ
R540
KAMAYA
–
Chip Res, 1005 J 47KΩ
R509
KAMAYA
–
Chip Res, 1005 J 2.2KΩ
R541
KAMAYA
–
Chip Res, 1005 J 330KΩ
R510
KAMAYA
–
Chip Res, 1005 J 15KΩ
R545
NOBLE
–
R511
KAMAYA
–
Chip Res, 1005 J 8.2KΩ
CHIP SEMI V.R, 2PIE 4.7
KΩ
R512
KAMAYA
–
Chip Res, 1005 J 20KΩ
R597
KAMAYA
–
Chip Res, 1005 J 4.7KΩ
R513
KAMAYA
–
Chip Res, 1005 J 10KΩ
R598
KAMAYA
–
Chip Res, 1005 J 20KΩ
R514
KAMAYA
–
Chip Res, 1005 J 24KΩ
R609
KAMAYA
–
Chip Res, 1005 J 1KΩ
R515
KAMAYA
–
Chip Res, 1005 J 12KΩ
R610
KAMAYA
–
Chip Res, 1005 J 2.2Ω
R516
KAMAYA
–
Chip Res, 1005 J 12KΩ
R613
KAMAYA
–
Chip Res, 1005 J 15KΩ
R517
KAMAYA
–
Chip Res, 1005 J 15KΩ
R614
KAMAYA
–
Chip Res, 1005 J 560KΩ
R518
KAMAYA
–
Chip Res, 1005 J 5.6KΩ
R615
KAMAYA
–
Chip Res, 1005 J 2.2Ω
R519
KAMAYA
–
Chip Res, 1005 J 2MΩ
R616
KAMAYA
–
Chip Res, 1005 J 0Ω
R520
KAMAYA
–
Chip Res, 1005 J 560KΩ
R619
KAMAYA
–
Chip Res, 1005 J 10KΩ
R521
KAMAYA
–
Chip Res, 1005 J 330KΩ
R620
KAMAYA
–
Chip Res, 1005 J 33KΩ
R522
KAMAYA
–
Chip Res, 1005 J 30KΩ
R621
KAMAYA
–
Chip Res, 1005 J 39KΩ
R523
KAMAYA
–
Chip Res, 1005 F 30KΩ
R635
KAMAYA
–
Chip Res, 1005 J 0Ω
R524
KAMAYA
–
Chip Res, 1005 F 47KΩ
R636
KAMAYA
–
Chip Res, 1005 J 560Ω
R413
R414
R415
R416
R417
R418
KAMAYA
KAMAYA
KAMAYA
KAMAYA
ROHM
KAMAYA
–
–
–
–
–
–
Chip Res, 1005 J 8.2KΩ
Chip Res, 1005 J 4.7KΩ
Chip Res, 2012 J 220Ω
Chip Res, 1608 J 47KΩ
Chip Res, 1W J 2512 0.1Ω
Chip Res, 1608 D 220KΩ
R419
KAMAYA
–
Chip Res, 1608 D 220KΩ
R420
KAMAYA
–
Chip Res, 1005 J 4.7MΩ
R421
KAMAYA
–
Chip Res, 1608 D 68KΩ
R422
KAMAYA
–
Chip Res, 1608 D 68KΩ
R423
KAMAYA
–
Chip Res, 1005 J 3.9MΩ
R424
KAMAYA
–
Chip Res, 1005 J 12KΩ
R425
KAMAYA
–
Chip Res, 1005 J 2.4KΩ
R426
KAMAYA
–
Chip Res, 1005 J 3.9KΩ
R427
KAMAYA
–
Chip Res, 1005 J 47KΩ
R428
KAMAYA
–
Chip Res, 1005 J 100Ω
R429
KAMAYA
–
Chip Res, 1005 J 3.6KΩ
R430
KAMAYA
–
Chip Res, 1005 J 100Ω
R431
KAMAYA
–
Chip Res, 1005 J 47KΩ
Circuit Board/Schematic Diagram and Parts List (VHF: 136–174 MHz)
Circuit
Ref.
Supplier
Supplier Part No.
Description
10-22
Circuit
Ref.
Supplier
Supplier Part No.
Description
R701
KAMAYA
–
Chip Res, 1005 J 100Ω
R731
KAMAYA
–
Chip Res, 1005 J 10Ω
R702
KAMAYA
–
Chip Res, 1005 F 3KΩ
R732
KAMAYA
–
Chip Res, 1005 J 10KΩ
R703
KAMAYA
–
Chip Res, 1005 F 10KΩ
R733
KAMAYA
–
R704
KAMAYA
–
Chip Res, 1005 F 10KΩ
R734
KAMAYA
R705
KAMAYA
–
Chip Res, 1005 J 180Ω
R740
R706
KAMAYA
–
Chip Res, 1005 J 47Ω
R707
KAMAYA
–
R708
KAMAYA
R709
Circuit
Ref.
Supplier
Supplier Part No.
Description
U401
BG Tech
8191401150220
DIGITAL
POTENTIOMETER,
MCP4011-502E/MS
Chip Res, 1005 J 0Ω
U402
BG Tech
8124000358011
OP AMP (DUAL), KIA358
–
Chip Res, 1005 J 10Ω
U501
BG Tech
8191401150220
KAMAYA
–
Chip Res, 1005 J 1.8KΩ
DIGITAL
POTENTIOMETER,
MCP4011(5002)
R751
KAMAYA
–
Chip Res, 1005 J 1KΩ
U502
BG Tech
8124000324011
OP AMP, NJM324
Chip Res, 1005 F 4.7KΩ
R752
KAMAYA
–
1005 J 1KΩ
U505
BG Tech
8124000324011
–
Chip Res, 1005 F 12KΩ
R753
KAMAYA
–
1005 J 1KΩ
REGULAR IC,
TK11250CMCL - G (AMTL)
KAMAYA
–
Chip Res, 1005 F 12KΩ
R1001
KAMAYA
–
Chip Res, 1005 J 10KΩ
U506
BG Tech
8123011250021
R710
KAMAYA
–
Chip Res, 1005 J 180Ω
R1002
KAMAYA
–
Chip Res, 1005 J 9.1KΩ
REGULATOR IC,
TK11250AMTL
R711
KAMAYA
–
Chip Res, 1005 J 100KΩ
R1003
KAMAYA
–
Chip Res, 1005 J 10KΩ
U507
BG Tech
8123011233020
VOLTAGE DOUBLER,
TC1240AECH
R712
KAMAYA
–
Chip Res, 1005 J 100KΩ
R1004
KAMAYA
–
Chip Res, 1005 J 10KΩ
U508
BG Tech
8128TC1240020
R713
KAMAYA
–
Chip Res, 1005 J 10KΩ
R1005
TDK
–
Chip Cap,1005 K 10nF
DIGITAL
POTENTIOMETER,
MCP4011-503E/MS
R714
KAMAYA
–
Chip Res, 1005 J 100Ω
RT201
TAIYOYUDEN
–
Thermistor, 10K (TH)
U601
BG Tech
811608541T020
R715
KAMAYA
–
Chip Res, 1005 J 100Ω
RT501
TAIYOYUDEN
–
Thermistor, 10K (TH)
AUDIO AMP (SOT 8PIN
TYPE) IC, TDA8541T
R716
KAMAYA
–
Chip Res, 1005 J 680Ω
RT502
TAIYOYUDEN
–
Thermistor, 47K (TH)
U701
BG Tech
810415E03S020
R717
KAMAYA
–
Chip Res, 1005 J 56Ω
SPK1
BG Tech
R718
KAMAYA
–
Chip Res, 1005 J 20KΩ
Speaker, 24Ω 1.0W 36θ
(Connector type)
PLL IC, MB15E03SLPFV1G-BND-EF-6
PCB1
BG Tech
8431BEAVHF400
R719
KAMAYA
–
1005 J 1KΩ
SW/
VOL1
BG Tech
TOKOS, Switch Volume
RY-8418
CAFSYSTEM, Main PCB,
FR4 4 Layer PCB
SH101
BG Tech
8860BEACA1010
SHIELD CAN - VCO
R720
KAMAYA
–
Chip Res, 1005 J 270Ω
U101
BG Tech
81100303RF020
CPU IC
SH102
BG Tech
8860BEAC93010
SHIELD CAN PLL
R721
KAMAYA
–
Chip Res, 1005 J 270Ω
U102
BG Tech
8116AK2347020
AUDIO LSI, AK2347
SH103
BG Tech
8660BEACA4010
PA SHIELD CAN
R722
KAMAYA
–
Chip Res, 1005 J 22KΩ
U103
BG Tech
8192088L70020
SH104
MOTOROLA
PMDN4137AR
Finger Strip PCB
R723
KAMAYA
–
Chip Res, 1005 J 1.2KΩ
DTMF RECEIVER,
MT88L70
SH105
MOTOROLA
PMDN4137AR
Finger Strip PCB
Chip Res, 1005 J 820Ω
U104
BG Tech
811324LC64020
EEPROM IC, 24LC64
SH201
MOTOROLA
PMDN4151AR
Finger Strip–Pair
Chip Res, 1005 J 220Ω
U105
BG Tech
8124000324011
OP AMP, NJM324
8421BEACON100
8135TC7S66020
Analog SW IC, TC7S66FU
SUB
PCB1
BGTech
BG Tech
CAFSYSTEM, Sub PCB,
1.2T 2 Layer
KEY
PCB1
BGTech
8422BEACON100
CAFSYSTTEM, Key PCB,
1.2T 2Layer
R724
R725
KAMAYA
KAMAYA
–
–
8400362424100
84766N992N151
R726
KAMAYA
–
Chip Res, 1005 J 2.4KΩ
U106
R727
KAMAYA
–
Chip Res, 1005 J 2.7KΩ
U107
BG Tech
81287027AT020
VOLTAGE DETECTOR,
KIA7027AT
R728
KAMAYA
–
Chip Res, 1005 J 2.7KΩ
U201
BG Tech
8125311360020
FM IC, TA31136
R729
KAMAYA
–
Chip Res, 1005 J 100KΩ
U202
BG Tech
8191401150320
R730
KAMAYA
–
Chip Res, 1005 J 33KΩ
DIGITAL
POTENTIOMETER,
MCP4011-503E/MS
Note:
1: Not for PMUD2441AAL
10-23
Notes
Chapter 11 403 – 447 MHz UHF1 Theory Of Operation
11.1 Introduction
This chapter provides a detailed theory of operation for the radio components. Schematic diagrams
for the circuits described in the following paragraphs are located in Chapter 14 of this manual.
11.2 UHF1 Receiver
The UHF1 receiver design covers the frequency range of 403 – 447MHz and it is a double
conversion super heterodyne with 1st IF 45.1MHz and 2nd IF 455kHz. The receiver is divided into
two major blocks, Front End and Back End as shown in Figure 11-1.
Preselector
Filter
RF
Amp
Postselector
Crystal IF
1st Mixer Filter Amp
Filter
RX from
Antenna Switch
Inj Filter
First LO
from Synthesizer
N/S_SW
Descriminator
455C24
LPF
Recovered Audio
Quadrature
Detector
Ceramic
Filter 455FW
455HW
IF
Amp
RSSI
Crystal
44.645MHz
Figure 11-1. UHF1 Receiver Block Diagram
11-2
403 – 447 MHz UHF1 Theory Of Operation: UHF1 Receiver
11.2.1 Receiver Front End
Incoming RF signals from antenna are first routed through the harmonic filter (L409 – L411, C426 –
C429, C445, C446) and antenna switch (CR301), part of the transmitter circuitry, before being applied
to the receiver front end. The receiver front end consists of preselector filter, RF amplifier, postselector filter and a double-balanced mixer.
The preselector filter is a varactor-tuned 2-pole design using discrete elements (L320, L324, C351,
C361, CR307 and CR314) in series/shunt resonator configuration. It is a band-shift filter and the
frequency shift is controlled by varactor diodes CR307 and CR314, which are connected to the
microprocessor. It is configured to provide steeper attenuation above the pass band for improved
spurious rejection when high-side local injection is used. The frequency is separated into 8 steps and
controlled by CPU (403 – 447MHz).
The output of this filter is matched to the base of RF amplifier Q301 which provides 13dB of gain. The
output of the RF amplifier is applied to the post-selector filter. The post-selector filter designed using
discrete elements (L323, L328, C379, C363 and C355) in a series/shunt resonator configuration. It is
a band-shift filter and the frequency shift is controlled by varactor diodes CR305 and CR313, which
are connected to the microprocessor. It is configured to provide steeper attenuation above the
passband for improved spurious rejection when high-side local injection is used. The frequency is
separated into 8 steps and controlled by CPU (403 – 447MHz).
The output of the post selector is connected to the double-balanced mixer consisting of components
L329, L333, CR316. 1st local signal generated from VCO is filtered by injection filter (L310, L331,
C325, C326, C388, C386, C365 and C387) to remove harmonics. The converted 1st IF frequency at
mixer passes through L333 and matches the 45.1MHz IF signal to crystal filter (FL301).
11.2.2 Receiver Back End
The 1st IF signal is amplified about 15dB by IF amp Q303. The output of the IF amp is connected to
IF IC (U201).
1st IF frequency (45.1MHz) and 2nd LO frequency (44.645MHz) are mixed in U201. The second
mixer converts the 45.1MHz high IF frequency to 2nd IF frequency (455kHz).
Additional IF selectivity is provided by two ceramic filters (CF1, CF2). The wider filter 455FW is used
for 25kHz channel spacing, and the narrower filter 455HW is used for 12.5kHz channel spacing.
These two ceramic filters may eliminate undesired signal and demodulated by demodulator in U201.
N/S_SW which connected to microprocessor is used to select the side and narrow band.
The mute (squelch) circuit switches off the audio amplifier when no audio is present. The squelch
circuit consists of U201 and U202 and their associated components. The noise signal from Pin 9 of
U201 is used to control the squelch circuit sensitivity of U202. The noise passes through filter, and is
amplified by internal amp of U201. The amplified noise acts as a DC voltage to control the mute
system. So if the noise level is under the threshold voltage, the microprocessor (U101) un-mutes the
radio. If the noise level is over the threshold voltage, the microprocessor mutes the radio. The
squelch level is tuned in the factory. When a component or a part in the RX system is replaced, the
squelch must be re-tuned using the Tuner.
403 – 447 MHz UHF1 Theory Of Operation: UHF1 Transmitter
11-3
11.3 UHF1 Transmitter
The UHF1 transmitter covers the range of 403 – 447MHz. Depending on model, the output power of
the transmitter is switchable on a per-channel basis between high power (4 Watt) and low power (1
Watt). The transmitter is divided into four major blocks as shown in Figure 11-2.
•
•
•
•
Power Amplifier
Harmonic Filter
Antenna Matching Network
Power Control.
SWB+
BAT+
Power Control
Current Detect
CR401
From VCO
Attenuator
Circuit
Antenna
Strip Line
Pre Driver
Amp
Driver
Amp
Final
Amp
Harmonic
Filter
To Receiver
Antenna
Switch
Figure 11-2. UHF1 Transmitter Block Diagram
11.3.1 Power Amplifier
The transmitter power amplifier has three stages of amplification – Pre Driver (Q401), Driver Amp
(Q402) and Final Amp (Q403). Signal from TX VCO is applied to the pre driver via an attenuator
circuit. The attenuator is pie style resistor attenuator, and is used as isolation between VCO and the
power amps. The -4dBm TX RF signal from attenuator is then amplified by pre driver and driver amp
to around +25dBm and is applied to the final amp. The final amp (Q403) is an enhancement-mode
N-channel MOSFET device providing a gain of 12dB. The device drain current is drawn directly from
the DC battery supply voltage input via L413. A matching network consisting of C416, C417, C418,
C419, C420, C451, C422, C452 and a strip line, transforms the impedance to approximately 50Ohm.
11.3.2 Antenna Switch
An antenna switch works mainly as a switching device between transmit and receive paths. In
transmit mode (PTT), Q407 is turned on and both PIN diodes (CR401, CR301) are forward biased
into conduction. This enables the RF signal to pass to the harmonic filter and then to the antenna. In
the receiver mode, both diodes are off. Signals applied to the antenna jack are routed via the LPF
(harmonic filter), through network L409, L410, L411, C426, C427, C428, C429, C430, C445, C446 to
the receiver input.
11.3.3 Harmonic Filter
The harmonic filter consists of components L409, L410, L411, C426, C427, C428, C429, C430, C445
and C446. The harmonic filter is a seven-pole Chebychev filter.
11-4
403 – 447 MHz UHF1 Theory Of Operation: UHF1 Frequency Generation Circuitry
11.3.4 Auto Power Control
The APC keeps the current supply constant to the final amp (Q403). The drain current of Q403 (final
amp) is sensed across resistor R417. The differential signal at the output of U401 (Pin 7) is passed to
Q404 and Q405 that produces a constant power output to the antenna. If the current is changed due
to change of battery voltage or load, APC controls gate voltage of Q403 and collector voltage of Q401
and drain voltage of Q402 to keep TX power stable. This circuit stabilizes TX power at a predetermined level adjusted by U402. This bias voltage is tuned in the factory. If the transistor (Q403) is
replaced, the RF Output Power must be tuned. By tuning the RF output power, the bias voltage will be
tuned through U402. Extra care has to be taken during the tuning process. Do not exceed the
maximum allowed bias voltage.
11.4 UHF1 Frequency Generation Circuitry
The PLL synthesizer subsystem consists of the reference oscillator (VCTCXO), VCO, PLLIC, Charge
pump and Loop Filter.
TX VCO
Circuit
FL701
Modulating
Signal
TX Out
Synthesizer
U701
Charge
Pump
Loop
Filter
12.8MHz
Ref.OSC.
PLL Data
from μP
To PA Driver
Voltage
Doubler
RX Out
RX VCO
Circuit
To Mixer
Figure 11-3. UHF1 Frequency Generation Unit Block Diagram
11.4.1 Reference Oscillator (12.8 MHz VCTCXO)
The reference oscillator is powered by regulated 5V provided by U505. The reference frequency
12.8MHz VCTCXO (Voltage Controlled Temperature Compensated Crystal Oscillator) is applied to
the PLL IC (U701) via Pin 1. Min frequency can be adjusted by chip trimmer of VCTCXO. This
frequency provides reference to the PLL IC and has a frequency stability of +/-2.5PPM (max) at the
temperature ranging from -30 to +60 Degree Celsius.
403 – 447 MHz UHF1 Theory Of Operation: UHF1 Frequency Generation Circuitry
11-5
11.4.2 PLL IC Prescaler and Comparator
The reference frequency from VCTCXO is divided to 6.25kHz or 5kHz by reference counter, R. The
RF signal input from the VCO is divided to by prescaler (1/64), divided by N and A counters in PLL IC
to determine frequency steps and then supplied to the comparator. The comparison frequency is
6.25/5kHz. The internal phase comparator compares the phase difference between the reference
and VCO signal. When the phase of the reference frequency is leading, Pin 15(R) is the output.
When VCO frequency is leading, Pin 16 (P) is the output. When P=R, small pulses are the output of
the phase detector.
11.4.3 Voltage Doubler and Charge Pump
The voltage doubler (U507) converts 5V to 10V and is applied to the charge pump circuitry. The
charge pump is used for charging output signals P, R supplied by PLL IC from 0-3.3v to 0-10v. This
voltage is used to drive the VCO.
11.4.4 Loop Filter
The loop filter contains C751 – C754, R726 – R728. It reduces the residual side-band noise to get
the best signal-to noise ratio. The output signal from loop filter is applied to VCO.
11.4.5 Dual VCO
The dual VCO module contains a RX VCO and a TX VCO. They are configured as colpitts oscillators
and connected to power up through transistor switches. Only one VCO is selected at a time. A
steering line voltage between 0.35V and 9.7V at varactor CR701 tunes the fill RX frequency range
from 357.9MHz to 401.9MHz and varactor CR703 tunes the full TX frequency range from 403MHz to
447MHz.
In Receiver mode, high signal of RX_EN from Pin 71, U101 activates Q305. When Q305 is activated,
current flows through the base of Q304 and thus activates the Q705. The varactor CR701 sets the
resonance frequency. When there is a change in voltage supplied by loop filter, there is a change in
the resonance frequency. L703 is the resonating coil, which forms the tank circuit together with
variable cap C710.
In Transmit mode, high signal of TX_EN1 from Pin 84, U101 enables current flows through collector
of Q503 and thus activates Q706. The varactor CR703 sets the resonance frequency. When there is
a change in voltage supplied by loop filter, there is a change in the resonance frequency. L706 is the
resonating tuning coil, which forms the tank circuit together with variable cap C722.
11-6
403 – 447 MHz UHF1 Theory Of Operation: Keypad
11.5 Keypad
Left, Right and P1 to P3 keys are directly connected to microprocessor via 22 Pin connector. When
any of these keys is pressed, the voltage goes “low” and microprocessor detects it.
Left Right
P1 P2 P3
Key
detect
Key row
NUMBERS
Key
column
22pin connector
Main board
KEYPAD
22pin connector
Keypad board
For full keypad models, the number keys are in matrix type which consisted of 3 rows and 4 columns.
When any of these keys is pressed, the voltage goes “low” and microprocessor interprets the voltage
for each key press.
Figure 11-4. Keypad Block Diagram
MCP
Chapter 12 UHF1 Troubleshooting Tables
12.1 Troubleshooting Table for Receiver (UHF1)
Table 12-1. Troubleshooting Table for Receiver (UHF1)
Symptom
Radio Dead (no
turn–on beep, no
LED indication)
Possible Causes
Corrective Action
1. Battery dead or
defective
Substitute good battery or battery
eliminator
Change or replace battery.
2. Defective battery
contacts
Inspect battery contacts for
corrosion or bent terminals
Clean/Repair/Replace J602
3. Microprocessor not
starting up
Verify clock input to U101 Pin 13 is
7.3728 MHz using high impedance
probe.
Troubleshoot/Replace FL101.
Verify U101 Pin10(reset) is high.
If reset is Low, troubleshoot
regulator U506 or U107.
Verify U506 Pin 4 is 3.3V
Check for shorts on outputs
Verify U505 Pin 4 is 5.0V
Troubleshoot/Repair as
needed, replace faulty regulator
5. Flexible Cable fault
Check connection of the 12 pin
flexible cable between J104 & J105
Re–assemble or replace flexible
cable
1. Speaker dead or
defective
Substitute a good housing (with
speaker)
Change the housing (with
accessory)
Verify J603 connection
Change the housing (with
accessory)
2. Audio Processor IC
not starting up
Verify clock input U102 Pin 14 is
3.5795 MHz using high impedance
probe.
Troubleshoot/Replace FL102
3. Audio Amp IC not
starting up
Verify U601 Pin 6 is battery voltage.
Troubleshoot/Replace U601
4. Regulator fault
No RX Audio (with
LED indication)
Procedure
If battery voltage is being supplied to
Pin 6, then verify audio output at
Pin 5 & 8.
No Receive (with
no LED indication)
1. IF IC dead or fault
Verify clock input to U201 Pin 1 & 2
is 44.645Mhz using high impedance
probe.
Troubleshoot/Replace FL201
No RX
1. RX–B+
Verify Q304’s collector voltage is
4.8V when RX–EN is high.
Check/Replace Q304
12-2
UHF1 Troubleshooting Tables: Troubleshooting Table for Synthesizer (UHF1)
12.2 Troubleshooting Table for Synthesizer (UHF1)
Table 12-2. Troubleshooting Table for Synthesizer (UHF1)
Symptom
Synthesizer Out of
Lock (No RX
Mode)
Possible Causes
Procedure
Corrective Action
1. Defective 12.8 MHz
VCTCXO
Verify clock output FL701 Pin 3 is
12.8 MHz using high impedance
probe.
Repair/Replace FL701
2. 1/2VCC defective
Verify FL701 Pin 1, U502–B Pin 5 &
U502–D Pin 14 voltage is 1.9V.
Troubleshoot: 1/2VCC circuitry
3. No RX–Enable
Verify U101 Pin 71 (RX–EN1) is
high.
Check U101 operating
Verify Q304 collector voltage is
approximately 4.7V in RX mode
Troubleshoot: Q304 & Q305
circuitry
Verify U101 Pin 27 is Low (Normal
Mode)
Troubleshoot: PLL circuitry.
Verify U101 Pin 27 is swept from low
to high (Power Save Mode)
Repair/Replace U701
Verify clock output FL701 Pin 3 is
12.8 MHz using high impedance
probe.
Repair/Replace FL701
2. 1/2VCC defective
Verify FL701 Pin 1, U502–B Pin 5 &
U502–D Pin 14 voltage is 1.9V.
Troubleshoot: 1/2VCC circuitry
3. No TX–Enable
Verify U101 Pin 84(TX–EN1) is high
when PTT is pressed.
Check U101 operating
Verify Q407 collector voltage is
approximately 4.7V when PTT is
pressed (TX–EN2).
Check U101–Pin 85 is high/
Replace Q407/check LK2 is
short
Verify U101 Pin 27 is Low (Normal
Mode)
Troubleshoot: PLL circuitry
Verify U101 Pin 27 is swept from low
to high (Power Save Mode)
Repair/Replace U701
4. Check PLL–LD port
Synthesizer Out of 1. Defective 12.8 MHz
Lock (No TX Mode) VCTCXO
4. Check PLL–LD port
UHF1 Troubleshooting Tables: Troubleshooting Table for Transmitter (UHF1)
12-3
12.3 Troubleshooting Table for Transmitter (UHF1)
Table 12-3. Troubleshooting Table for Transmitter (UHF1)
Symptom
No internal Mic
audio
Possible Causes
1. Mic dead or defective
Procedure
Verify audio present (~10mV rms)
when speaking into Mic.
Corrective Action
Replace Mic.
Check bias of R194 (3.3V).
2. Mic bias fault
Verify U101 Pin 78 is 1.1V when
PTT button is pressed.
Check/Replace U101
3. Audio Processor IC
not starting up
Verify clock input U102 Pin 14 is
3.5795 MHz using high impedance
probe.
Troubleshoot/Replace FL102
1. J601 defective
Check connection with EXT mic
Check/Replace J601
2. Audio Processor IC
not starting up
Verify clock input U102 Pin 14 is
3.579545 MHz using high
impedance probe.
Troubleshoot/Replace FL102
No transmit (No TX
LED indication)
1.PTT switch defective
Verify U101 Pin 44 is low when PTT
is pressed.
Replace PTT switch PB501
No transmit (TX
LED indication OK)
1. Synthesizer out of lock Refer to Table 12-2.
Check U101 operating
2. No TX–Enable
Verify U101 Pin 84 (TX–EN1) is high
when PTT is pressed.
Check U101 Pin 85 is high/
Verify Q407 collector voltage is
approximately 4.7V when PTT is
pressed (TX–EN2).
Replace Q407/Check LK2 is
short
1. Low TX injection
Check the RF level at Q409 & C449
per schematic.
Troubleshoot Q409 circuitry &
VCO bias
2. R417 defective
Verify resistance is 0.1 Ohm
Replace R417.
3. Incorrect control
voltage
Verify Q404 collector voltage is
approximately 5.5V in low frequency
& high power.
Troubleshoot APC circuitry
4. Q403 defective (High
current)
Verify U401 Pin 7 is near 0V
Replace Q403
5. Antenna switch defect
Verify CR401 anode voltage is
approximately 1.4V
Check/replace CR401 & CR301
6. Harmonic filter
defective
Visually inspect components
C426 – C429, C445, C446, C430
Repair/Replace if necessary
7. Incorrect power tuning
(this has to be performed
only after item 1-6 has
been checked)
Check conducted power
Re-tune power using tuner.
1. Defective or wrong
Antenna.
Verify correct antenna is installed.
Replace antenna
No EXT. Mic audio
Low Power
Poor TX range
(Conducted power
OK)
Try using another antenna.
Replace Q404
12-4
UHF1 Troubleshooting Tables: Troubleshooting Table for Board and IC Signals (UHF1)
12.4 Troubleshooting Table for Board and IC Signals (UHF1)
Table 12-4. Troubleshooting Table for Board and IC Signals (UHF1)
IC Designator
U201(IF IC)
Pin
Pin Function
DC Voltage (V)
Comments (Condition)
1
Osc1
3.9
2
Osc2
3.3
4
VCC
4.7
9
Audio frequency
1.2
12
RSSI out
Approximately 1
At –47dBm(with conducted)
13
N–DET(BUSY)
Low
At busy
15
GND
0
16
RF input
1
45.1 MHz input
1
Reference OSC input
1.4
12.8 MHz input
4
VCC
3.3
6
GND
0
7
XF IN
2.2
8
F IN
2.2
12
Power save
High
13
GND
0
14
LD_out
High
15
@P
2.4
16
@R
Low
U601
1
Mode (Mute con)
0
(Audio Amp.)
2
SVR
3.8
3
IN+
3.8
4
IN-
3.8
5
OUT-
3.8
6
VCC
7.5
7
GND
0
8
OUT+
3.8
1
IN+
1.6
U701(PLL IC)
U103
44.645 MHz input
If pll unlock is low
This voltage depends on Battery
UHF1 Troubleshooting Tables: Troubleshooting Table for Board and IC Signals (UHF1)
12-5
Table 12-4. Troubleshooting Table for Board and IC Signals (UHF1) (Continued)
IC Designator
(DTMF decoder)
FL701(VCTCXO)
Q206(N/S SW)
Q304
Q305
Q503
Q407
Q408
Pin
Pin Function
DC Voltage (V)
2
IN-
1.6
3
GS
1.6
4
Vref
1.6
8
OSC1
1.6
10
VSS
0
11
TOE
3.3
17
STD
High
18
EST
3.3
19
ST/GT
3.3
20
VDD
3.3
1
VCON
1.9
2
GND
0
3
OSC out
osc
4
VCC
5
E
GND
0
B
N/S SW
12.5 kHz: Low
C
Collector
12.5 kHz: High
25 kHz: Low
E
+5V
5
B
To Q305 collector
Low
C
RX_B+
4.7
E
GND
0
B
RX_EN
High
C
To Q304 base
Low
E
GND
0
B
TX_EN1
High
C
To Q706 base
Low
E
+5V
5
B
To Q408 collector
Low
C
TXVB
4.7
E
GND
0
B
TX_EN2
High
C
To Q407
Low
Comments (Condition)
3.579545 MHz input
At DTMF detecting
Generate the 12.8 MHz
At RX Mode
At RX Mode
At TX Mode
At TX Mode
At TX Mode
12-6
UHF1 Troubleshooting Tables: Troubleshooting Table for Board and IC Signals (UHF1)
Table 12-4. Troubleshooting Table for Board and IC Signals (UHF1) (Continued)
IC Designator
Q601
Pin
Pin Function
DC Voltage (V)
E
GND
0
B
Audio_MUTE_CON
Mute: Low
Comments (Condition)
None Mute: High
C
Mode
Mute: High
None Mute: Low
1. All voltages are measured with a high-impedance digital voltmeter and expressed in volts DC relative to ground (0V).
2. Voltages are measured with a DC input voltage of 7.50 + .02 volts DC applied to the battery connector (J602).
3. All voltages are measured in the squelched receive mode, unless otherwise indicated.
4. Voltages are identical for VHF and UHF models unless otherwise indicated.
Chapter 13 UHF1 Schematic Diagrams, Overlays, and
Parts Lists
13.1 Introduction
This section provides schematic diagrams, overlays, and parts lists for the radio circuit boards and
interface connections.
13.1.1 Notes For All Schematics and Circuit Boards
* Component is frequency sensitive. Refer to the Electrical Parts List for value and usage.
1. Unless otherwise stated, resistance values are in Ohms (K = 1000), capacitance values are in
nanofarads (nF), picofarads (pF) or microfarads (µF), and inductance values are in
nanohenries (nH) or microhenries (µH).
2. DC voltages are measured from point indicated to chassis ground using a Motorola DC
multimeter or equivalent. If the board has been removed from the chassis, the transmitter
module mounting screws may be used for ground connection. (Note: The antenna nut
bracket is connected to ground.) Operating mode dependent voltages are followed by (RX)
for receive mode, (TX) for transmit mode, (UNSQ) for unsquelched mode, etc.
3. RF voltages on VHF models are measured with a Fluke model 85 RF probe. The indicated
voltages expressed in mV (RF) are DC level readings which correspond approximately 1:1 to
the RF voltage level in mV rms. RF voltages in the Receiver Front End and Receiver Back
End circuits are measured with an on-channel 1mV (-47dBm) RF signal applied to the
antenna jack ANT1/ANT.
4. RF voltages on UHF models are measured both with a high–impedance RF voltmeter having
a bandwidth in excess of 500 MHz (levels are expressed in dBm) and with a Fluke model 85
RF probe [levels are expressed in mV (RF)]. These indicated voltages are DC level readings
which correspond approximately 1:1 to the RF voltage level in mV rms, and are only
approximate for UHF frequency measurements. RF voltages in the Receiver Front End and
Receiver Back End circuits are measured with an on-channel 1mV (-47dBm) RF signal
applied to the antenna jack ANT1/ANT.
5. Audio voltages are measured with a high-impedance AC rms voltmeter. The indicated
voltages are expressed in mV rms. Receive mode voltages are followed by (RX) and are
measured with an on-channel signal with 1 kHz modulation at 60% deviation (3 kHz for 25
kHz channels, or 1.5 kHz for 12.5 kHz channels). Transmit mode voltages are followed by
(TX) and are measured with a 1 kHz, 10 mV rms signal present at the external microphone
input (accessory connector J601).
13-2
UHF1 Schematic Diagrams, Overlays, and Parts Lists: Introduction
6. Reference Designators are assigned in the following manner:
Ref. No. Series
101 – 199
Circuit Block
Microprocessor & audio control
circuits
1001 – 1099
Microprocessor & audio control
circuits
201 – 299
IF IC circuit
301 – 399
Front-end and 1st Mixer
401– 499
Transmit RF stage & Auto power
control
501 – 599
Base band & generating circuit
601– 699
Audio amplifier
701– 799
VCO & PLL Synthesizer
7. Circuit Block Interconnection Legend:
Name
Description
+5V
5 Volts (Regulated)
+3.3V
3.3 Volts (Regulated)
SWB+
Switched Battery Voltage
BAT+
Unswitched Battery voltage
+10V
Digital 10V(Regulated)
RESET
Low-line reset signal fromU107 to U101 Pin 10
TX_EN1
Transmit enable signal from U101 Pin 84
TX_EN2
Transmit enable signal from U101 Pin 85
TXVB
TX operating voltage
TX_AF3
TX audio signal from audio processor IC to TX Audio
filter
TX_SUB_TONE
TX sub tone signal from audio processor IC to TX
modulation.
RX_B+
RX operating voltage
RSSI
RX signal strength indication from IF IC to U101
Busy
RX detect signal from IF IC to U101
FTV
RX frequency shift voltage
RX_AF1
RX audio signal from IF IC to Audio processor IC
PLL_LD
PLL lock detect signal from PLL IC to U101
N/S SW
Channel space selectable Switch (12.5 kHz/25 kHz)
1/2VCC
1.9 volts (divided by U502-D)
UHF1 Schematic Diagrams, Overlays, and Parts Lists: Speaker and Microphone Schematic
13-3
13.1.2 Four Layer Circuit Board
Plating (Au)
PSR ink
Copper Plate
Copper
PrePreg.
Copper
CCL (core)
Copper
PrePreg.
Copper
Copper Plate
PSR ink
Figure 13-1. Four–Layer Circuit Board: Copper Steps in Layer Sequence
13.2 Speaker and Microphone Schematic
MIC1
1
MATES WITH J103 ON
RADIO BOARD
2
SPK1
1
MATES WITH J603 ON
RADIO BOARD
2
Figure 13-2. Speaker and Microphone Schematic
13.2.1 Speaker and Microphone Parts List
Reference
Designator
Motorola Part No.
Description
MIC1
PMDN4139_R
Microphone
SPK1
PMDN4067BR
Speaker & Cable
13-1
13.3 Circuit Board/Schematic Diagram and Parts List (UHF1: 403–447 MHz)
Figure 13-3. UHF1 (403–447 MHz) Receiver Schematic Diagram
Circuit Board/Schematic Diagram and Parts List (UHF1: 403–447 MHz)
Circuit Board/Schematic Diagram and Parts List (UHF1: 403–447 MHz)
13-2
Figure 13-4. VCO and PLL Schematic Diagram
13-3
Figure 13-5. Transmitter Schematic Diagram
Circuit Board/Schematic Diagram and Parts List (UHF1: 403–447 MHz)
Circuit Board/Schematic Diagram and Parts List (UHF1: 403–447 MHz)
13-4
Figure 13-6. Microprocessor and Keypad Schematic Diagram
13-5
Figure 13-7. Audio Power Amplifier and External Audio Schematic Diagram
Circuit Board/Schematic Diagram and Parts List (UHF1: 403–447 MHz)
Circuit Board/Schematic Diagram and Parts List (UHF1: 403–447 MHz)
13-6
Figure 13-8. Switches and Battery Schematic Diagram
13-7
Figure 13-9. Transmitter Audio Filter and Sub-tone Schematic Diagram
Circuit Board/Schematic Diagram and Parts List (UHF1: 403–447 MHz)
C622
R615 C616
R427
C435
R425
R426
C633
C635 C634
SH103
C468
C454
Q403
C571
R507
8431BEAUHF300
UHF R&TTE Rev#MP01
C411
R414
C125
R126
C746
R732
R127
U701
C752
C1028
R717
C119
C120
R141
R140
TP11
R726 R740
C753
C754
C512
U101
C510
U103
R505
C739
C740
R504
R503
R526
C536
R527
C537
C530
TP2
C576
C515
R506
U502
TP5
R524
C533
R523
R528
R142
C516
TP6
C545
TP1
C577
C528
FL101
TP8
C121
R115
TP9
C146 R148 C145
R185
C115
C511
R734
C572
C751
R716 R718
C749 C748
R733 C738
R730
C741
R721R720
R731
R722
R719
R723 Q709 Q707
C750
Q711
R724
R725
R729 C755
Q710 Q708
R727
R728
R736 R735
R136 C136
Q114
CR117
C138
R138
C1021
TP4 C1019
C1039
TP10
R111
CR116
R164
TP3
C538
C110
C156
C1030
R121
R122
C135
R137
C137
Q503
L709 C747
C756
U507
C106
R116
R132
SH102
C1029
C1031
R117
R133
R135 C139
C1038 R146R145
C1024
C107
C105 R110 C1022
R118 C104
C1023
Q111
R134
C1037
R1006
R1005
R1004
R167 C1016
R165
C116
U105
R204R217
Q112
C539
C126
C127
R737
R220
R128
C158 C129
C214
C208 C204
R203 C206
R250
CR202
C213
R216 CR201
C1027
C1026
C1025
C465
Q113
Q103
C198
R168
FL102
Q101
C157 C109 R149
C130
R129
C128
R206
R207
Q206
C382
Q102 Q104
R210
Q207
C463
C462
Q404
C380
C1017
R213
C211 R208 RT201
C209 R212
C210 R211
PB503
C574
U202
R169 R163 C134
C381 R342
CR306
R317
C339
R316
C320
R314
C406
C378
R318
C334
DEC1
PB502
Q202
C464
R413 R412
Q405
C570
RT501
R440 R411
Q406
C469
C470
R417
L413
R431
C436
R432
U401
R418
LK2
C471
C472 Q407
C437
C439
R441
U402
R421 R419
R420C433R423
R422 R424 C432
C460
C461
C453
C625
L603
R433
C473
J601
L604
Q408
C573
C636
C602
R608 C623
R619
C601
R609
L601
Q601
Q602
PB501
L605
L602
J105
C624
R616 R617
R623
C621
J603
C631
13-8
C632
Circuit Board/Schematic Diagram and Parts List (UHF1: 403–447 MHz)
TP7
J102
R519 R521 R541
R520
C551
C531
C583
C578
Figure 13-10. UHF1 (403–447 MHz) Mainboard Top Side: PCB No. 8431BEAUHF300
13-9
Circuit Board/Schematic Diagram and Parts List (UHF1: 403–447 MHz)
ANT4
ANT1
ANT3
ANT2
C430
C428
C431
R416
C474
C618
C609 R610
R320
C310
CR309
U601
L304
C312
L328
R622
C606
C579
C580
C582
C581
C615
C620
R613
CR310
J602
CR313
R334
R333
CR305
L323
C358
C318
C418
C416
R330
C363
C379
C355
C356
C362
C451
C419
SH104
L321
C417
C452
R302 C307
Q301
C309
C605
C540
CR307
R339
C383
R415
L412
R621
R620
C619
R614
C357
C466
C422
C420
C351 C361
R323
CR314
C303
C360
C301
L320
L301
CR401
C423 C446
L411
L324
L325
L409
C445
CR311
CR301
C427
C429
C426
SH105
L410
R340
C143
R177
CR312
FL201
Q122
Q120
C1033
C207
C153
R181
R162
C101 R101 R103
C102 R102
R151
R150
TP13
TP14
TP16
TP15
U506
C1036
C1035
C509
C508
R178
R114
R532
U107
R533
R534
R535
R530
R531
R529
R193 C1034
R120
R152
C172
R195
C169
C173
R194
C162
C170
C163
C140
C171
C523
R509
R508 C517
C165
C141
C168
C167
C166
C144
R113
C124
C123
R153
C195
C188
C189
C164
C161
C178
C179
C177
R131 C100
R184
R180 C118
R179
R182
R183
R190
C194
C541
R139
R515
Figure 13-11. UHF1 (403–447 MHz) Mainboard Bottom Side: PCB No. 8431BEAUHF300
U505
C507
R512
C521
C549
R514
C522
C543
R536
C527
U508
C518
R510
R511
C520
R539
C546R513
C529 U501
C548
C525
R516
C524
C544
C501
C502
C506 C503
R540
C147
CR502
U104
C575
C547
C542 R107
R538 R517 C519
C550
R518
R154
CR101
C191
C103
R104
R105
R106
Q504
R537
U102
C1020
CR701
C712
Q505
R143 C114
C112
R144 C117 R1001
C113
R1003
C1032
R1002
C710
U106
FL701
Q201
CF2
C154
C707
L704
L703
C711
CR702
C725
SH101
CF1
Q705
C111
R713
L705
C727
R712
C706
R704
C722
C704 L701
R701 C702
R702
C709 R703 C705
C718
R709
C721
C723 L706
Q702
C701
R705
R706
C719
Q704
Q701
L702
R708
R711
Q706
C714
C716 C715
C726
C724
CR703
C731 R715
C728
L707
R710
R707 L708
Q703
C717
C341
U201
Q121
C729 R714 C730
C332
FL301
CR315
R311
C142
C448
C447 R435
Q303
L327
R173
R176
C342R319
C444
R405
C340
C338
C344
Q305
Q409
C343
C401
R174
R171
R436
R434
L407
R401
R403
C440
R408 C405C404
R407
Q401
C467
C449 R402 R404
CR316
C365 C386
C347
C337 R312
C325
L329
C203
C201 R258
C327
R241
C385
L402
Q308
R409 C408
R410 C403
R406 C402
R315 C319
C376
C377
L403
R338 L332
C390
L340
C330 C331
L333
R172
R175
C410
Q402
C384 C329
R309 L306 R343
C387 C388
Q304
C409
L331 L310 C326
R310
C434 R429
R430 R428
L401
L406
L405
C413
C364 L334 C389
Circuit Board/Schematic Diagram and Parts List (UHF1: 403–447 MHz)
C566
C565
C562
Q502
CR501
C564
Q501
R502
C563
R501
13-10
C560
C561
Figure 13-12. UHF1 (403–447 MHz) Sub Circuit Board Top View: PCB No. 8421BEACON100
13-11
Circuit Board/Schematic Diagram and Parts List (UHF1: 403–447 MHz)
SW1
SW / VOL1
J104
Figure 13-13. UHF1 (403–447 MHz) Sub Circuit Board Bottom View: PCB No. 8421BEACON100
Circuit Board/Schematic Diagram and Parts List (UHF1: 403–447 MHz)
13-12
MIC1
C1018
SH202
J101
C176
C175
Q110
R155
C174
C187
R199
R147
C1005
C1004
C1009
C1010
C1011
CR110
SH201
CR111
R198
R161
R160
R159
C1001
C1008
R156
C1007
C1002
C1003
C1006
R158
CR114
J103
R196
R197
CR115
R108
C1012
R109
C1013
C1014
R112
R157
CR112
CR113
C1015
R119
Figure 13-14. UHF1 (403–447 MHz) Keypad Board: PCB No. 8422BEACON100
13-13
Circuit Board/Schematic Diagram and Parts List (UHF1: 403–447 MHz)
13.3.1 Parts List
Circuit
Ref.
Supplier
Circuit
Ref.
Supplier Part No.
Description
Supplier
Supplier Part No.
Description
Circuit
Ref.
Supplier
Supplier Part No.
Description
C135
TDK
N/A
Chip Cap,1005 J 47PF
C176
TDK
N/A
Chip Cap,1005 J 220PF
C136
TDK
N/A
Chip Cap,1005 Z 0.1μF
C177
TDK
N/A
Chip Cap,1005 J 220PF
C137
TDK
N/A
Chip Cap,1005 K 0.1μF
C178
TDK
N/A
Chip Cap,1005 J 220PF
C138
TDK
N/A
Chip Cap, 1608 K 0.22μF
C179
TDK
N/A
Chip Cap,1005 J 220PF
C139
KAMAYA
N/A
Chip Res, 1005 J 10KW
C187
TDK
N/A
Chip Cap,1005 Z 0.1μF
C140
TDK
N/A
Chip Cap, 1006 K 47nF
C188
TDK
N/A
Chip Cap,1005 J 220PF
C142
TDK
N/A
Chip Cap,1005 K 470PF
C189
TDK
N/A
Chip Cap,1005 J 220PF
C143
TDK
N/A
Chip Cap,1005 Z 0.1μF
C191
TDK
N/A
Chip Cap,1005 J 220PF
C144
TDK
N/A
Chip Cap,1005 K 0.1μF
C194
HITACH
N/A
Chip Tantal, 10μF-M/16V(A)
C145
TDK
N/A
Chip Cap, 1005 J 15PF
C195
TDK
N/A
Chip Cap,1005 J 220PF
C146
TDK
N/A
Chip Cap, 1005 J 15PF
C201
TDK
N/A
Chip Cap,1005 J 47PF
C147
TDK
N/A
Chip Cap,1005 K 0.1μF
C203
TDK
N/A
Chip Cap,1005 J 82PF
C153
TDK
N/A
Chip Cap, 1005 K 0.1μF
C204
TDK
N/A
Chip Cap,1005 Z 0.1μF
C154
TDK
N/A
Chip Cap, 1005 K 0.1μF
C206
TDK
N/A
Chip Cap,1005 K 0.1μF
C156
TDK
N/A
Chip Cap,1005 K 0.22μF
C207
TDK
N/A
Chip Cap,1005 K 0.1μF
C157
TDK
N/A
Chip Cap,1005 K 0.22μF
C208
TDK
N/A
Chip Cap,1005 Z 0.1μF
C100
TDK
N/A
Chip Cap, 1608 Z 1μF
C101
TDK
N/A
Chip Cap, 1005 K 1μF
C102
TDK
N/A
Chip Cap, 1005 K 2.2nF
C103
TDK
N/A
Chip Cap, 1005 J 33PF
C104
TDK
N/A
Chip Cap, 1005 J 150 PF
C105
TDK
N/A
Chip Cap, 1005 K 15nF
C106
TDK
N/A
Chip Cap, 1005 K 47nF
C107
TDK
N/A
Chip Cap,1005 K 0.1μF
C109
TDK
N/A
Chip Cap,1005 K 22nF
C110
TDK
N/A
Chip Cap,1005 K 22nF
C111
TDK
N/A
Chip Cap, 1005 K 1μF
C1121
HITACH
N/A
Chip Tantal, 10μF-M/16V(A)
C1131
TDK
N/A
Chip Cap,1005 K 560PF
C1141
TDK
N/A
Chip Cap,1005 J 220PF
C1151
TDK
N/A
Chip Cap, 1005 J 27PF
C158
TDK
N/A
Chip Cap,1005 K 0.22μF
C209
TDK
N/A
Chip Cap,1005 K 470PF
C116
TDK
N/A
Chip Cap, 1005 J 27PF
C161
TDK
N/A
Chip Cap,1005 J 220PF
C210
TDK
N/A
Chip Cap,1005 K 470PF
C117
TDK
N/A
Chip Cap, 1005 K 1.2nF
C162
TDK
N/A
Chip Cap,1005 J 220PF
C211
TDK
N/A
Chip Cap,1005 K 0.1μF
C118
HITACH
N/A
Chip Tantal, 10μF-M/16V(A)
C163
TDK
N/A
Chip Cap,1005 J 220PF
C213
TDK
N/A
Chip Cap,1005 K 0.1μF
C119
TDK
N/A
Chip Cap,1005 K 10nF
C164
TDK
N/A
Chip Cap,1005 J 220PF
C214
TDK
N/A
Chip Cap,1005 Z 0.1μF
C120
TDK
N/A
Chip Cap, 1005 J 15PF
C165
TDK
N/A
Chip Cap,1005 J 220PF
C301
TDK
N/A
Chip Cap,1005 D 8PF
C121
TDK
N/A
Chip Cap,1005 K 33nF
C166
TDK
N/A
Chip Cap,1005 J 220PF
C303
TDK
N/A
Chip Cap,1005 C 5PF
C123
TDK
N/A
Chip Cap,1005 Z 0.1μF
C167
TDK
N/A
Chip Cap,1005 J 220PF
C307
TDK
N/A
Chip Cap, 1005 J 12PF
C124
TDK
N/A
Chip Cap,1005 K 1nF
C168
TDK
N/A
Chip Cap,1005 J 220PF
C310
TDK
N/A
Chip Cap,1005 Z 0.1μF
C125
TDK
N/A
Chip Cap, 1006 K 47nF
C169
TDK
N/A
Chip Cap,1005 J 220PF
C312
TDK
N/A
Chip Cap,1005 C 3PF
C126
TDK
N/A
Chip Cap,1005 K 33nF
C170
TDK
N/A
Chip Cap,1005 J 220PF
C318
TDK
N/A
Chip Cap,1005 J 15PF
C127
TDK
N/A
Chip Cap, 1006 K 47nF
C171
TDK
N/A
Chip Cap,1005 J 220PF
C319
TDK
N/A
Chip Cap,1005 K 10nF
C128
TDK
N/A
Chip Cap, 1006 K 47nF
C172
TDK
N/A
Chip Cap,1005 J 220PF
C320
HITACH
N/A
Chip Tantal, 10μF-M/16V(A)
C129
TDK
N/A
Chip Cap, 1006 K 47nF
C173
TDK
N/A
Chip Cap,1005 J 220PF
C326
TDK
N/A
Chip Cap,1005 D 8PF
C130
TDK
N/A
Chip Cap,1005 K 33nF
C174
TDK
N/A
Chip Cap,1005 J 220PF
C327
TDK
N/A
Chip Cap,1005 D 7PF
C134
TDK
N/A
Chip Cap,1005 K 0.22μF
C175
TDK
N/A
Chip Cap,1005 Z 0.1μF
C329
TDK
N/A
Chip Cap,1005 K 10nF
Circuit Board/Schematic Diagram and Parts List (UHF1: 403–447 MHz)
Circuit
Ref.
Supplier
Supplier Part No.
Description
13-14
Circuit
Ref.
Supplier
Supplier Part No.
Description
Circuit
Ref.
Supplier
Supplier Part No.
Description
C330
TDK
N/A
Chip Cap,1005 J 47PF
C386
TDK
N/A
Chip Cap,1005 J 12PF
C445
TDK
N/A
Chip Cap,1608 C 6PF
C331
TDK
N/A
Chip Cap,1005 J 20PF
C387
TDK
N/A
Chip Cap,1005 D 8PF
C446
TDK
N/A
Chip Cap,1608 C 3PF
C332
MURATA
N/A
Chip Cap, 1005 J 11PF
C388
TDK
N/A
Chip Cap,1005 D 10PF
C447
TDK
N/A
Chip Cap,1005 C 3PF
C334
TDK
N/A
Chip Cap,1005 K 1nF
C390
TDK
N/A
Chip Cap,1005 J 56PF
C448
TDK
N/A
Chip Cap,1005 K 10nF
C337
TDK
N/A
Chip Cap,1005 K 10nF
C401
TDK
N/A
Chip Cap,1005 C 3PF
C449
TDK
N/A
Chip Cap,1005 C 3PF
C338
TDK
N/A
Chip Cap, 1006 K 47nF
C402
TDK
N/A
Chip Cap,1005 K 10nF
C451
TDK
N/A
Chip Cap,1608 C 6PF
C339
TDK
N/A
Chip Cap,1005 K 0.1μF
C403
TDK
N/A
Chip Cap,1005 K 470PF
C452
TDK
N/A
Chip Cap,1608 J 47PF
C340
TDK
N/A
Chip Cap,1005 K 0.1μF
C404
TDK
N/A
Chip Cap, 1005 J 56PF
C453
TDK
N/A
Chip Cap,1005 K 470PF
C341
TDK
N/A
Chip Cap,1005 J 56PF
C405
TDK
N/A
Chip Cap, 1005 J 56PF
C454
HITACH
N/A
Chip Tantal, 22μF-M/16V(B)
C342
TDK
N/A
Chip Cap,1005 K 0.1μF
C406
TDK
N/A
Chip Cap,1005 Z 0.1μF
C460
TDK
N/A
Chip Cap,1005 J 47PF
C343
TDK
N/A
Chip Cap,1005 Z 0.1μF
C408
TDK
N/A
Chip Cap,1005 K 10nF
C461
TDK
N/A
Chip Cap,1005 Z 0.1μF
C344
TDK
N/A
Chip Cap,1005 K 470PF
C409
TDK
N/A
Chip Cap,1608 J 18PF
C462
TDK
N/A
Chip Cap,1005 J 33PF
C347
TDK
N/A
Chip Cap,1005 Z 0.1μF
C410
TDK
N/A
Chip Cap, 1608 J 39PF
C463
TDK
N/A
Chip Cap,1005 K 470PF
C351
TDK
N/A
Chip Cap,1005 J 12PF
C413
TDK
N/A
Chip Cap,1608 J 27PF
C464
TDK
N/A
Chip Cap,1005 J 47PF
C355
TDK
N/A
Chip Cap,1005 D 10PF
C416
TDK
N/A
Chip Cap,1608 C 8PF
C465
TDK
N/A
Chip Cap,1005 K 470PF
C356
TDK
N/A
Chip Cap,1005 C 3PF
C417
TDK
N/A
Chip Cap,1608 C 8PF
C466
TDK
N/A
Chip Cap,1005 K 470PF
C357
TDK
N/A
Chip Cap,1005 J 56PF
C418
TDK
N/A
Chip Cap,1608 J 15PF
C467
TDK
N/A
Chip Cap,1005 K 470PF
C358
TDK
N/A
Chip Cap,1005 J 15PF
C419
TDK
N/A
Chip Cap,1608 C 6PF
C469
TDK
N/A
Chip Cap,1005 Z 0.1μF
C360
TDK
N/A
Chip Cap,1005 C 4PF
C420
TDK
N/A
Chip Cap,1608 J 12PF
C470
TDK
N/A
Chip Cap,1005 J 47PF
C361
TDK
N/A
Chip Cap,1005 J 15PF
C422
TDK
N/A
Chip Cap,1608 C 8PF
C471
TDK
N/A
Chip Cap,1005 Z 0.1μF
C362
TDK
N/A
Chip Cap,1005 C 3PF
C426
TDK
N/A
Chip Cap,1608 D 7PF
C472
TDK
N/A
Chip Cap,1005 K 470PF
C363
TDK
N/A
Chip Cap,1005 C 1PF
C427
TDK
N/A
Chip Cap,1608 C 4PF
C473
TDK
N/A
Chip Cap,1005 J 47PF
C364
TDK
N/A
Chip Cap,1005 J 33PF
C428
TDK
N/A
Chip Cap,1608 D 7PF
C474
TDK
N/A
Chip Cap,1005 Z 0.1μF
C365
KAMAYA
N/A
Chip Res, 1005 J 0?
C429
TDK
N/A
Chip Cap,1608 C 3PF
C501
TDK
N/A
Chip Cap,1005 K 470PF
C376
TDK
N/A
Chip Cap,1005 Z 0.1μF
C431
TDK
N/A
Chip Cap,1608 J 1nF
C502
HITACH
N/A
Chip Tantal, 22μF-M/16V(B)
C378
HITACH
N/A
Chip Tantal, 10μF-M/16V(A)
C432
TDK
N/A
Chip Cap,1005 K 1nF
C503
TDK
N/A
Chip Cap,1005 Z 0.1μF
C379
TDK
N/A
Chip Cap,1005 D 10PF
C434
TDK
N/A
Chip Cap,1005 K 470PF
C506
TDK
N/A
Chip Cap,1005 K 470PF
C380
TDK
N/A
Chip Cap,1005 J 47PF
C435
TDK
N/A
Chip Cap, 1006 K 47nF
C507
HITACH
N/A
Chip Tantal, 22μF-M/16V(B)
C381
TDK
N/A
Chip Cap,1005 K 0.1μF
C436
TDK
N/A
Chip Cap,1005 Z 0.1μF
C508
HITACH
N/A
Chip Tantal, 10μF-M/16V(A)
C382
TDK
N/A
Chip Cap,1005 Z 0.1μF
C437
TDK
N/A
Chip Cap,1005 Z 0.1μF
C509
TDK
N/A
Chip Cap,1005 K 470PF
C383
TDK
N/A
Chip Cap,1005 K 1nF
C439
TDK
N/A
Chip Cap,1005 K 1nF
C510
TDK
N/A
Chip Cap, 2012 Z 4.7μF
C385
TDK
N/A
Chip Cap,1005 K 470PF
C440
TDK
N/A
Chip Cap,1005 K 470PF
C511
HITACH
N/A
Chip Tantal, 22μF-M/16V(B)
13-15
Circuit
Ref.
Circuit Board/Schematic Diagram and Parts List (UHF1: 403–447 MHz)
Supplier
Supplier Part No.
Description
Circuit
Ref.
Supplier
Supplier Part No.
Description
Circuit
Ref.
Supplier
Supplier Part No.
Description
C512
TDK
N/A
Chip Cap,1005 K 470PF
C560
TDK
N/A
Chip Cap,1005 J 47PF
C621
TDK
N/A
Chip Cap,1005 K 330PF
C515
TDK
N/A
Chip Cap,1005 Z 0.1μF
C561
TDK
N/A
Chip Cap,1005 J 47PF
C622
TDK
N/A
Chip Cap, 1005 J 47PF
C516
HITACH
N/A
Chip Tantal, 10μF-M/16V(A)
C562
TDK
N/A
Chip Cap,1005 J 47PF
C623
TDK
N/A
Chip Cap, 1005 J 47PF
C517
TDK
N/A
Chip Cap,1005 K 15nF
C563
TDK
N/A
Chip Cap,1005 J 47PF
C624
TDK
N/A
Chip Cap, 1005 J 47PF
C518
TDK
N/A
Chip Cap, 1005 K 5.6nF
C564
TDK
N/A
Chip Cap,1005 J 47PF
C625
TDK
N/A
Chip Cap, 1608 J 47PF
C519
TDK
N/A
Chip Cap, 1005 K 1.2nF
C565
TDK
N/A
Chip Cap,1005 J 47PF
C701
HITACH
N/A
Chip Tantal, 22μF-M/10V(A)
C520
TDK
N/A
Chip Cap, 1005 K 6.8nF
C566
TDK
N/A
Chip Cap,1005 J 47PF
C702
TDK
N/A
Chip Cap,1005 K 1nF
C521
TDK
N/A
Chip Cap, 1005 K 1.2nF
C570
TDK
N/A
Chip Cap,1005 J 47PF
C704
TDK
N/A
Chip Cap,1005 K 1nF
C522
TDK
N/A
Chip Cap, 1005 K 8.2nF
C571
TDK
N/A
Chip Cap,1005 K 15nF
C705
TDK
N/A
Chip Cap,1005 C 3PF
C523
TDK
N/A
Chip Cap,1005 K 470PF
C572
TDK
N/A
Chip Cap,1005 Z 0.1μF
C706
TDK
N/A
Chip Cap, 1005 D 9PF
C524
TDK
N/A
Chip Cap,1005 K 47nF
C573
TDK
N/A
Chip Cap,1005 J 47PF
C707
TDK
N/A
Chip Cap, 1005 J 18PF
C525
TDK
N/A
Chip Cap, 1005 K 3.3nF
C574
TDK
N/A
Chip Cap,1005 J 47PF
C709
TDK
N/A
Chip Cap, 1005 D 7PF
C527
TDK
N/A
Chip Cap, 1005 K 18nF
C575
TDK
N/A
Chip Cap,1005 J 47PF
C710
MURATA
N/A
Chip Trimmer Cap, 2PIE 6PF
C528
TDK
N/A
Chip Cap, 1005 K 18nF
C576
TDK
N/A
Chip Cap,1608 J 47PF
C711
MURATA
N/A
Chip Cap, 1005 J 16PF
C529
TDK
N/A
Chip Cap,1005 Z 0.1μF
C577
TDK
N/A
Chip Cap,1005 J 47PF
C712
TDK
N/A
Chip Cap,1005 K 470PF
C530
TDK
N/A
Chip Cap,1005 K 10nF
C578
TDK
N/A
Chip Cap,1005 J 47PF
C714
TDK
N/A
Chip Cap,1005 K 1nF
C531
TDK
N/A
Chip Cap,1005 Z 0.1μF
C579
TDK
N/A
Chip Cap,1005 J 47PF
C715
HITACH
N/A
Chip Tantal, 22μF-M/10V(A)
C533
TDK
N/A
Chip Cap,1005 Z 0.1μF
C580
TDK
N/A
Chip Cap,1005 J 47PF
C716
TDK
N/A
Chip Cap,1005 K 470PF
C536
TDK
N/A
Chip Cap,1005 K 15nF
C581
TDK
N/A
Chip Cap,1005 J 47PF
C717
TDK
N/A
Chip Cap, 1005 C 3PF
C537
TDK
N/A
Chip Cap, 1005 K 2.2μF
C582
TDK
N/A
Chip Cap,1005 J 47PF
C718
TDK
N/A
Chip Cap, 1005 C 4PF
C538
TDK
N/A
Chip Cap,1005 K 10nF
C583
TDK
N/A
Chip Cap,1005 J 47PF
C719
TDK
N/A
Chip Cap, 1005 D 7PF
C539
HITACH
N/A
Chip Tantal, 10μF-M/16V(A)
C601
TDK
N/A
Chip Cap,1005 Z 0.1μF
C721
TDK
N/A
Chip Cap, 1005 C 3PF
C540
TDK
N/A
Chip Cap, 1608 Z 0.1μF
C602
TDK
N/A
Chip Cap,1005 K 0.22μF
C722
MURATA
N/A
Chip Trimmer Cap, 2PIE 6PF
C541
TDK
N/A
Chip Cap,1005 Z 0.1μF
C605
TDK
N/A
Chip Cap, 2012 Z 4.7μF
C723
TDK
N/A
Chip Cap, 1005 C 0.5PF
C542
TDK
N/A
Chip Cap,1005 K 10nF
C606
TDK
N/A
Chip Cap,1005 Z 0.1μF
C724
TDK
N/A
Chip Cap, 1005 J 12PF
C543
TDK
N/A
Chip Cap, 1005 K 8.2nF
C609
TDK
N/A
Chip Cap,1005 K 0.1μF
C725
TDK
N/A
Chip Cap,1005 K 470PF
C545
HITACH
N/A
Chip Tantal, 22μF-M/10V(A)
C615
TDK
N/A
Chip Cap, 1608 K 0.22μF
C726
TDK
N/A
Chip Cap,1005 C 1PF
C546
TDK
N/A
Chip Cap,1005 K 0.1μF
C616
TDK
N/A
Chip Cap,1005 K 0.1μF
C727
TDK
N/A
Chip Cap,1005 C 3PF
C547
TDK
N/A
Chip Cap, 1005 K 2.2μF
C617
TDK
N/A
Chip Cap,1005 K 0.1μF
C728
TDK
N/A
Chip Cap,1005 C 5PF
C549
TDK
N/A
Chip Cap,1005 K 560PF
C618
HITACH
N/A
Chip Tantal, 4.7μF-M/16V(A)
C729
TDK
N/A
Chip Cap, 1005 D 6PF
C550
TDK
N/A
Chip Cap,1005 K 560PF
C619
TDK
N/A
Chip Cap, 1005 J 33PF
C730
TDK
N/A
Chip Cap, 1005 C 2PF
C551
HITACH
N/A
Chip Tantal, 10μF-M/10V(A)
C620
TDK
N/A
Chip Cap,1005 K 330PF
C731
TDK
N/A
Chip Cap, 1005 C 2PF
Circuit Board/Schematic Diagram and Parts List (UHF1: 403–447 MHz)
Circuit
Ref.
Supplier
Supplier Part No.
Description
13-16
Circuit
Ref.
Supplier
Supplier Part No.
Description
C738.
TDK
N/A
Chip Cap, 1005 D 7PF
C1018
TDK
N/A
Chip Cap, 1005 J 220PF
C739
TDK
N/A
Chip Cap,1005 K 1nF
C1019
TDK
N/A
Chip Cap, 1005 J 47PF
C740
TDK
N/A
Chip Cap,1005 Z 0.1μF
C1020
TDK
N/A
Chip Cap, 1005 J 47PF
C741
TDK
N/A
Chip Cap,1005 Z 0.1μF
C1021
TDK
N/A
C746
TDK
N/A
Chip Cap, 1005 D 10PF
C1022
TDK
C747
TDK
N/A
Chip Cap, 1005 D 10PF
C1023
C748
TDK
N/A
Chip Cap,1005 Z 0.1μF
C749
TDK
N/A
C750
TDK
C751
Circuit
Ref.
Supplier
Supplier Part No.
Description
CR116
KEC
N/A
SWITCH DIODE, KDS-160E
(ESM)
CR117
KEC
N/A
SWITCH DIODE, KDS-160E
(ESM)
Chip Cap, 1005 J 47PF
CR201
KEC
N/A
Switch DIODE, KDS 181
N/A
Chip Cap, 1005 J 47PF
CR202
KEC
N/A
Switch DIODE, KDS 181
TDK
N/A
Chip Cap, 1005 J 47PF
CR301
KEC
N/A
Switch DIODE, KDS 114
C1024
TDK
N/A
Chip Cap, 1005 J 47PF
CR305
KEC
N/A
Chip Cap, 1608 Z 0.1μF
C1025
TDK
N/A
Chip Cap, 1005 J 47PF
VARIABLE DIODE,
KDV154E (ESM)
N/A
Chip Cap,1005 Z 0.1μF
C1026
TDK
N/A
Chip Cap, 1005 J 47PF
CR306
KEC
N/A
SWITCH DIODE, KDS-160E
(ESM)
HITACH
N/A
Chip Tantal, 1μF-M/35V(A)
C1027
TDK
N/A
Chip Cap, 1005 J 47PF
CR307
KEC
N/A
C752
TDK
N/A
Chip Cap,1005 K 0.1μF
C1028
TDK
N/A
Chip Cap, 1005 J 47PF
VARIABLE DIODE,
KDV154E (ESM)
C753
PANASONIC
N/A
Film Chip Cap, 3216 J 47nF
C1029
TDK
N/A
Chip Cap, 1005 J 47PF
CR309
KEC
N/A
C754
PANASONIC
N/A
Film Chip Cap, 3216 J 47nF
C1030
TDK
N/A
Chip Cap, 1005 J 47PF
Switch DIODE, KDS 114E
(ESD)
C755
TDK
N/A
Chip Cap,1005 K 0.1μF
C1031
TDK
N/A
Chip Cap, 1005 J 47PF
CR310
KEC
N/A
Switch DIODE, KDS 114E
(ESD)
C756
TDK
N/A
Chip Cap,1005 K 1nF
C1032
TDK
N/A
Chip Cap, 1005 J 47PF
CR312
KEC
N/A
C1001
TDK
N/A
Chip Cap, 1005 J 47PF
C1033
TDK
N/A
Chip Cap, 1005 J 47PF
SWITCH DIODE, KDS-160E
(ESM)
C1002
TDK
N/A
Chip Cap, 1005 J 47PF
C1034
TDK
N/A
Chip Cap, 1005 J 47PF
CR313
KEC
N/A
VARIABLE DIODE,
KDV154E (ESM)
C1003
TDK
N/A
Chip Cap, 1005 J 47PF
C1035
TDK
N/A
Chip Cap, 1005 J 47PF
CR314
KEC
N/A
C1004
TDK
N/A
Chip Cap, 1005 J 47PF
C1036
TDK
N/A
Chip Cap, 1005 J 47PF
VARIABLE DIODE,
KDV154E (ESM)
C1005
TDK
N/A
Chip Cap, 1005 J 47PF
C1037
TDK
N/A
Chip Cap, 1005 J 47PF
CR315
KEC
N/A
SWITCH DIODE, KDS-160E
(ESM)
C1006
TDK
N/A
Chip Cap, 1005 J 47PF
C1038
TDK
N/A
Chip Cap, 1005 J 47PF
CR316
BGTech
8157MS2829020
Schotty DIODE, HSMS-2829
C1007
TDK
N/A
Chip Cap, 1005 J 47PF
C1039
TDK
N/A
Chip Cap, 1005 J 47PF
CR401
M/A COM
N/A
C1008
TDK
N/A
Chip Cap, 1005 J 47PF
CF1
BGTech
8286045500120
PIN DIODE, MA4P7001F1072T
C1009
TDK
N/A
Chip Cap, 1005 J 47PF
TOKO, Ceramic Filter,
ELFY455F
CR501
BRIGHT LED
N/A
CF2
BGTech
8286045500220
TOKO, Ceramic Filter,
ELFY455H
LED DIODE, BL-HEIG033BTR
CR701
KEC
N/A
VARIABLE DIODE,
KDV154E (ESM)
CR702
KEC
N/A
VARIABLE DIODE,
KDV154E (ESM)
CR703
KEC
N/A
VARIABLE DIODE,
KDV154E (ESM)
DEC1
BGTech
8287455C24010
CP, Desciminator,
JTBC455C24
C1010
TDK
N/A
Chip Cap, 1005 J 47PF
C1011
TDK
N/A
Chip Cap, 1005 J 47PF
CR110
Bright LED
N/A
LED DIODE, BL-HG036D-TR
C1012
TDK
N/A
Chip Cap, 1005 J 47PF
CR111
Bright LED
N/A
LED DIODE, BL-HG036D-TR
C1013
TDK
N/A
Chip Cap, 1005 J 47PF
CR1121
Bright LED
N/A
LED DIODE, BL-HG036D-TR
C1014
TDK
N/A
Chip Cap, 1005 J 47PF
1
N/A
LED DIODE, BL-HG036D-TR
C1015
TDK
N/A
Chip Cap, 1005 J 47PF
CR113
Bright LED
C1016
TDK
N/A
Chip Cap,1005 Z 0.1μF
CR1141
Bright LED
N/A
LED DIODE, BL-HG036D-TR
C1017
TDK
N/A
Chip Cap,1005 K 470PF
CR1151
Bright LED
N/A
LED DIODE, BL-HG036D-TR
13-17
Circuit
Ref.
Circuit Board/Schematic Diagram and Parts List (UHF1: 403–447 MHz)
Supplier
Supplier Part No.
Description
FCABLE1
BGTech
8560228005000
SNAGGWA, BEACON FLAT
CABLE, FF12-22N080XXA
FCABLE2
BGTech
8560124005001
SNAGGWA, BEACON FLAT
CABLE, FF12-12N040XXA
FL101
BGTech
82827R3728M00
SHINSUNG, Crystal,
7.3728MHz (H: 2.8mm)
FL102
BGTech
82827R5795M00
SHINSUNG, Crystal,
3.5795MHz (H: 2.8mm)
FL201
BGTech
828244R645M00
SHINSUNG, Crystal,
44.645MHz (SMD)
Circuit
Ref.
Supplier
Supplier Part No.
Description
L327
TAIYOYUDEN
N/A
Chip Ind,1608 K 820NH
L328
DELTA
N/A
Chip Ind, 2012 27nH
L329
BGTech
8920PT1667020
TOKO, #617PT-1667
L331
TAIYOYUDEN
N/A
Chip Ind, 1005 J 22N
L332
TAIYOYUDEN
N/A
Chip Ind,1608 K 220NH
L333
BGTech
8920PT1667020
TOKO, #617PT-1667
L334
KAMAYA
N/A
Chip Res, 1005 J 0?
L340
DELTA
N/A
Chip Ind, 2012 820nH
L401
TAIYOYUDEN
N/A
Chip Ind, 1608 27nH J
L402
TAIYOYUDEN
N/A
Chip Ind, 1608 22nH J
L403
TAIYOYUDEN
N/A
Chip Ind, 1608 33nH J
L405
TAIYOYUDEN
N/A
Chip Ind, 1608 6.8nH J
L406
TAIYOYUDEN
N/A
Chip Ind, 1608 220nH J
L407
TAIYOYUDEN
N/A
Chip Ind, 1005 J 33nH
FL301
BGTech
828645R100220
SHINSUNG, Crystal, MCF
45.15S12.B (8.5KHz)
FL701
BGTech
8289012R80010
SHINSUNG, VCTCXO, 12.8
MHZ
J101
BGTech
851607C01S110
YUNHO, FPC CONNECTOR,
05004HR-07C01S(G)
J102
BGTech
851622A01S110
YUNHO, FPC CONNECTOR,
05004HR-22A01S
J103
BGTech
8516220005020
KYOCERA, FPC CONNECTOR, 04-6292-022-000-800+
L409
DAERIM
N/A
COIL AIR, 0.45-1.43TL(SMD)
J104
BGTech
851612151A110
OMIRON, FPC CONNECTOR, XF2M-1215-1A
L410
DAERIM
N/A
COIL AIR, 0.45-1.43TL(SMD)
DAERIM
N/A
COIL AIR, 0.45-1.43TL(SMD)
J105
BGTech
8516220R50100
MOLEX, FPC CONNECTOR, 52745-1297
L411
J601
BGTech
8500031009800
CHI CHENG, SPK MIC
JACK, 0980683Z01-D
L412
TAIYOYUDEN
N/A
Chip Ind, 1608 220nH J
L413
DAERIM
N/A
J602
BGTech
85100G500PL00
SUYIN, BATTERY CONNECTOR, 060031MA005G500PL
COIL AIR, 0.35-1.67TL(SMD)
L601
TAIYOYUDEN
N/A
Chip Ind, 1608 K 2.2uH
L602
TAIYOYUDEN
N/A
Chip Ind, 1608 K 2.2uH
J603
BGTech
8510530470210
MOLEX, CONNECTOR,
53047-0210
L301
DAERIM
N/A
COIL AIR, 0.45-1.45TL(SMD)
L603
TAIYOYUDEN
N/A
Chip Ind, 1608 K 2.2uH
L604
TAIYOYUDEN
N/A
Chip Ind, 1608 K 2.2uH
L304
TAIYOYUDEN
N/A
Chip Ind, 1005 J 39N
L605
TAIYOYUDEN
N/A
Chip Ind, 1608 K 2.2uH
L306
TAIYOYUDEN
N/A
Chip Ind, 1005 J 33N
L701
TAIYOYUDEN
N/A
Chip Ind, 1005 J 27nH
L310
TAIYOYUDEN
N/A
Chip Ind, 1005 J 22N
L702
TAIYOYUDEN
N/A
Chip Ind, 1608 K 2.2uH
L320
DELTA
N/A
Chip Ind, 2012 27nH
L703
DAERIM
N/A
L323
DELTA
N/A
Chip Ind, 2012 27nH
COIL AIR, 0.30-1.13TL(SMD)
L324
DELTA
N/A
Chip Ind, 2012 27nH
L704
TAIYOYUDEN
N/A
Chip Ind, 1608 220nH J
L325
DELTA
N/A
Chip Ind, 2012 220nH
L705
TAIYOYUDEN
N/A
Chip Ind, 1608 K 2.2uH
Circuit
Ref.
Supplier
Supplier Part No.
Description
L706
DAERIM
N/A
COIL AIR, 0.30-1.13TL(SMD)
L707
TAIYOYUDEN
N/A
Chip Ind, 1608 220nH J
L708
TAIYOYUDEN
N/A
Chip Ind, 1005 J 27nH
L709
TAIYOYUDEN
N/A
Chip Ind, 1005 J 22nH
LCD1
BGTech
86343208A2020
EVERRVIEW,VBS3208A27FWLYA,REV4.0
MIC1
BGTech
8420063215000
BSE, C-MIC, 6.0*2.7/2.2KW
,2V,-44±3dB, Pin type
PB501
BGTech
8466PUD02K020
PANASONIC, Tack Switch,
EVQPUD02K
PB502
BGTech
8466PUD02K020
PANASONIC, Tack Switch,
EVQPUD02K
PB503
BGTech
8466PUD02K020
PANASONIC, Tack Switch,
EVQPUD02K
Q101
KEC
N/A
KRC 413 BJT NPN Transistor
Q102
KEC
N/A
KRC 413 BJT NPN Transistor
Q103
KEC
N/A
KRC 413 BJT NPN Transistor
Q104
KEC
N/A
KRC 413 BJT NPN Transistor
Q110
KEC
N/A
KRC 101 BJT NPN Transistor
Q111
KEC
N/A
KTA 2014 BJT PNP
Transistor
Q112
KEC
N/A
KTA 2014 BJT PNP
Transistor
Q113
KEC
N/A
KRC 404 BJT NPN Transistor
Q114
KEC
N/A
KRC 404 BJT NPN Transistor
Q120
KEC
N/A
KRC 404 BJT NPN Transistor
Q121
KEC
N/A
KRC 404 BJT NPN Transistor
Q122
KEC
N/A
KRC 404 BJT NPN Transistor
Q201
KEC
N/A
KRC 404 BJT NPN Transistor
Q202
KEC
N/A
KRC 404 BJT NPN Transistor
Q206
KEC
N/A
KRC 404 BJT NPN Transistor
Q207
KEC
N/A
KRC 404 BJT NPN Transistor
Q301
HITACH
N/A
2SC4901 BJT NPN Transistor
Circuit Board/Schematic Diagram and Parts List (UHF1: 403–447 MHz)
Circuit
Ref.
Supplier
Supplier Part No.
Description
Q303
NEC
N/A
2SC4226 BJT NPN Transistor
Q304
KEC
N/A
KRA 305 BJT PNP Transistor
Q305
KEC
N/A
Q308
NEC
N/A
Q401
Q402
Q403
BGTech
BGTech
BGTech
8142000951120
8149003078021
8149003476021
13-18
Circuit
Ref.
Supplier
Supplier Part No.
Description
Circuit
Ref.
Supplier
Supplier Part No.
Description
Q706
KEC
N/A
KRA 305 BJT PNP Transistor
R128
KAMAYA
N/A
Chip Res, 1005 J 3.9KW
Q707
KEC
N/A
KTC 4075 BJT NPN Transistor
R129
KAMAYA
N/A
Chip Res, 1005 J 150KW
R131
KAMAYA
N/A
Chip Res, 1005 J 10W
KRC 404 BJT NPN Transistor
Q708
KEC
N/A
R132
KAMAYA
N/A
Chip Res, 1005 J 1KW
2SC4226 BJT NPN Transistor
KTA 2014 BJT PNP Transistor
Q709
KEC
N/A
R132
KAMAYA
N/A
Chip Res, 1005 J 220KW
PBR 951LT1 PHILIPS BJT
NPN Transistor
KTA 2014 BJT PNP Transistor
R133
KAMAYA
N/A
Chip Res, 1005 J 680KW
Q710
KEC
N/A
R134
KAMAYA
N/A
Chip Res, 1005 J 3.9MW
2SK3078A TOSHIBA FET Nchannel Transistor
KTC 4075 BJT NPN Transistor
Q711
KEC
N/A
KRA304 BJT PNP Transistor
R135
TDK
N/A
Chip Cap,1005 K 0.1μF
R101
KAMAYA
N/A
Chip Res, 1005 J 10KW
R136
KAMAYA
N/A
Chip Res, 1005 J 100KW
R102
KAMAYA
N/A
Chip Res, 1005 J 47KW
R137
KAMAYA
N/A
Chip Res, 1005 J 4.7MW
R103
KAMAYA
N/A
Chip Res, 1005 J 150KW
R138
KAMAYA
N/A
Chip Res, 1005 J 220KW
R104
KAMAYA
N/A
Chip Res, 1005 J 47KW
R139
KAMAYA
N/A
Chip Res, 1005 J 10KW
R105
KAMAYA
N/A
Chip Res, 1005 J 47KW
R140
KAMAYA
N/A
Chip Res, 1005 J 68KW
R106
KAMAYA
N/A
Chip Res, 1005 J 47KW
R141
KAMAYA
N/A
Chip Res, 1005 J 100KW
R107
KAMAYA
N/A
Chip Res, 1005 J 3.9KW
R142
KAMAYA
N/A
Chip Res, 1005 J 330KW
R1081
KAMAYA
N/A
Chip Res, 1005 J 4.7KW
R143
KAMAYA
N/A
Chip Res, 1005 J 100KW
R144
KAMAYA
N/A
Chip Res, 1005 J 100KW
R145
KAMAYA
N/A
Chip Res, 1005 J 1MW
R146
KAMAYA
N/A
Chip Res, 1005 J 0W
R147
KAMAYA
N/A
Chip Res, 1005 J 47KW
R148
KAMAYA
N/A
Chip Res, 1005 J 1MW
R149
KAMAYA
N/A
Chip Res, 1005 J 470KW
R150
KAMAYA
N/A
Chip Res, 1005 F 10KW
R151
KAMAYA
N/A
Chip Res, 1005 F 12KW
R152
KAMAYA
N/A
Chip Res, 1005 J 680W
R153
KAMAYA
N/A
Chip Res, 1005 F 68KW
R154
KAMAYA
N/A
Chip Res, 1005 F 47KW
2SK3476 TOSHIBA FET Nchannel Transistor
Q404
BGTech
8145001188021
STB 1188 AUK BJT NPN
Transistor
Q405
KEC
N/A
KTC 4075 BJT NPN Transistor
Q406
KEC
N/A
KRC 404 BJT NPN Transistor
Q407
KEC
N/A
KRA 305 BJT PNP Transistor
Q408
KEC
N/A
KRC 404 BJT NPN Transistor
Q409
NEC
N/A
2SC4226 BJT NPN Transistor
R1091
KAMAYA
N/A
Chip Res, 1005 J 4.7KW
Q501
KEC
N/A
KRC 404 BJT NPN Transistor
R110
KAMAYA
N/A
Chip Res, 1005 J 270KW
Q502
KEC
N/A
KRC 404 BJT NPN Transistor
R1121
KAMAYA
N/A
Chip Res, 1005 J 4.7KW
Q503
KEC
N/A
KRC 404 BJT NPN Transistor
R113
KAMAYA
N/A
Chip Res, 1005 J 47KW
Q504
KEC
N/A
KRC 404 BJT NPN Transistor
R114
KAMAYA
N/A
Chip Res, 1005 J 10KW
Q505
KEC
N/A
KRA 305 BJT PNP Transistor
R115
KAMAYA
N/A
Chip Res, 1005 J 10KW
Q601
KEC
N/A
KRC 404 BJT NPN Transistor
R116
KAMAYA
N/A
Chip Res, 1005 J 1.2KW
Q602
KEC
N/A
KRC 404 BJT NPN Transistor
R117
KAMAYA
N/A
Chip Res, 1005 J 8.2KW
Q701
NEC
N/A
2SC4226 BJT NPN Transistor
R118
KAMAYA
N/A
Chip Res, 1005 J 47KW
R1191
KAMAYA
N/A
Chip Res, 1005 J 4.7KW
R120
KAMAYA
N/A
Chip Res, 1005 J 47KW
R155
KAMAYA
N/A
Chip Res, 1005 J 470W
R121
KAMAYA
N/A
Chip Res, 1005 J 330KW
R156
KAMAYA
N/A
Chip Res, 1005 J 1KW
R1571
KAMAYA
N/A
Chip Res, 1005 J 1KW
R1581
KAMAYA
N/A
Chip Res, 1005 J 1KW
R159
KAMAYA
N/A
Chip Res, 1005 J 47KW
Q702
NEC
N/A
2SC4226 BJT NPN Transistor
Q703
NEC
N/A
2SC4226 BJT NPN Transistor
R122
KAMAYA
N/A
Chip Res, 1005 J 330KW
Q704
NEC
N/A
2SC4226 BJT NPN Transistor
R126
KAMAYA
N/A
Chip Res, 1005 J 15KW
KRA 305 BJT PNP Transistor
R127
KAMAYA
N/A
Chip Res, 1005 J 33KW
Q705
KEC
N/A
13-19
Circuit
Ref.
Circuit Board/Schematic Diagram and Parts List (UHF1: 403–447 MHz)
Supplier
Supplier Part No.
Description
Circuit
Ref.
Supplier
Supplier Part No.
Description
Circuit
Ref.
Supplier
Supplier Part No.
Description
R160
KAMAYA
N/A
Chip Res, 1005 J 47KW
R204
KAMAYA
N/A
Chip Res, 1005 J 22KW
R342
KAMAYA
N/A
Chip Res, 1005 J 4.7KW
R161
KAMAYA
N/A
Chip Res, 1005 J 47KW
R206
KAMAYA
N/A
Chip Res, 1005 J 10KW
R343
TAIYOYUDEN
N/A
Chip Ind, 1005 J 2.2uH
R162
KAMAYA
N/A
Chip Res, 1005 J 820W
R207
KAMAYA
N/A
Chip Res, 1005 J 22KW
R401
KAMAYA
N/A
Chip Res, 1005 J 180W
R163
KAMAYA
N/A
Chip Res, 1005 J 100KW
R208
KAMAYA
N/A
Chip Res, 1005 J 12KW
R402
KAMAYA
N/A
Chip Res, 1005 J 39W
R164
KAMAYA
N/A
Chip Res, 1005 J 100KW
R210
KAMAYA
N/A
Chip Res, 1005 J 120KW
R403
KAMAYA
N/A
Chip Res, 1005 J 180W
R165
KAMAYA
N/A
Chip Res, 1005 J 3KW
R211
KAMAYA
N/A
Chip Res, 1005 J 15KW
R404
KAMAYA
N/A
Chip Res, 1005 J 8.2KW
R167
KAMAYA
N/A
Chip Res, 1005 J 100KW
R212
KAMAYA
N/A
Chip Res, 1005 J 47KW
R405
KAMAYA
N/A
Chip Res, 1005 J 1.5KW
R168
KAMAYA
N/A
Chip Res, 1005 J 100KW
R213
KAMAYA
N/A
Chip Res, 1005 J 3.3KW
R406
KAMAYA
N/A
Chip Res, 1005 J 22W
R169
KAMAYA
N/A
Chip Res, 1005 J 1.2KW
R216
KAMAYA
N/A
Chip Res, 1005 J 10KW
R407
KAMAYA
N/A
Chip Res, 1005 J 4.7KW
R171
KAMAYA
N/A
Chip Res, 1005 J 10KW
R217
KAMAYA
N/A
Chip Res, 1005 J 10KW
R408
KAMAYA
N/A
Chip Res, 1005 J 2.2KW
R172
KAMAYA
N/A
Chip Res, 1005 J 10KW
R220
KAMAYA
N/A
Chip Res, 1005 J 3.9KW
R409
KAMAYA
N/A
Chip Res, 1005 J 10W
R173
KAMAYA
N/A
Chip Res, 1005 J 10KW
R250
KAMAYA
N/A
Chip Res, 1005 J 10KW
R410
KAMAYA
N/A
Chip Res, 1005 J 10W
R174
KAMAYA
N/A
Chip Res, 1005 J 100KW
R258
KAMAYA
N/A
Chip Res, 1005 J 1.5KW
R411
KAMAYA
N/A
Chip Res, 1005 J 560W
R175
KAMAYA
N/A
Chip Res, 1005 J 51KW
R302
KAMAYA
N/A
Chip Res, 1005 J 56KW
R412
KAMAYA
N/A
Chip Res, 1005 J 1KW
R176
KAMAYA
N/A
Chip Res, 1005 J 24KW
R309
KAMAYA
N/A
Chip Res, 1005 J 8.2KW
R413
KAMAYA
N/A
Chip Res, 1005 J 8.2KW
R177
KAMAYA
N/A
Chip Res, 1005 J 24KW
R310
KAMAYA
N/A
Chip Res, 1005 J 5.6KW
R414
KAMAYA
N/A
Chip Res, 1005 J 1KW
R178
KAMAYA
N/A
Chip Res, 1005 J 100KW
R311
KAMAYA
N/A
Chip Res, 1005 J 330W
R415
KAMAYA
N/A
Chip Res, 2012 J 220W
R179
KAMAYA
N/A
Chip Res, 1005 J 51KW
R312
KAMAYA
N/A
Chip Res, 1005 J 150KW
R416
KAMAYA
N/A
Chip Res, 1608 J 47KW
R180
KAMAYA
N/A
Chip Res, 1005 J 100KW
R314
KAMAYA
N/A
Chip Res, 1005 J 100W
R417
ROHM
N/A
Chip Res, 1W J 2512 0.1W
R181
KAMAYA
N/A
Chip Res, 1005 J 10W
R315
KAMAYA
N/A
Chip Res, 1005 J 100W
R418
KAMAYA
N/A
Chip Res, 1608 D 220KW
R182
KAMAYA
N/A
Chip Res, 1005 J 200KW
R316
KAMAYA
N/A
Chip Res, 1005 J 100KW
R419
KAMAYA
N/A
Chip Res, 1608 D 220KW
R184
KAMAYA
N/A
Chip Res, 1005 J 15KW
R317
KAMAYA
N/A
Chip Res, 1005 J 180KW
R420
KAMAYA
N/A
Chip Res, 1005 J 4.7MW
R185
KAMAYA
N/A
Chip Res, 1005 J 0W
R318
KAMAYA
N/A
Chip Res, 1005 J 2.7KW
R421
KAMAYA
N/A
Chip Res, 1608 D 68KW
R190
KAMAYA
N/A
Chip Res, 1005 J 15KW
R319
KAMAYA
N/A
Chip Res, 1005 J 2.7KW
R422
KAMAYA
N/A
Chip Res, 1608 D 68KW
R193
KAMAYA
N/A
Chip Res, 1005 J 10KW
R320
KAMAYA
N/A
Chip Res, 1005 J 180W
R423
KAMAYA
N/A
Chip Res, 1005 J 4.7MW
R194
KAMAYA
N/A
Chip Res, 1005 J 10KW
R323
KAMAYA
N/A
Chip Res, 1005 J 100KW
R424
KAMAYA
N/A
Chip Res, 1005 J 12KW
R195
KAMAYA
N/A
Chip Res, 1005 J 100W
R330
KAMAYA
N/A
Chip Res, 1005 J 100KW
R425
KAMAYA
N/A
Chip Res, 1005 J 3.9KW
R196
KAMAYA
N/A
Chip Res, 1005 J 47KW
R333
KAMAYA
N/A
Chip Res, 1005 J 100KW
R426
KAMAYA
N/A
Chip Res, 1005 J 4.7KW
R197
KAMAYA
N/A
Chip Res, 1005 J 47KW
R334
KAMAYA
N/A
Chip Res, 1005 J 100KW
R427
KAMAYA
N/A
Chip Res, 1005 J 220KW
R198
KAMAYA
N/A
Chip Res, 1005 J 47KW
R338
KAMAYA
N/A
Chip Res, 1005 J 100W
R428
KAMAYA
N/A
Chip Res, 1005 J 100W
R199
KAMAYA
N/A
Chip Res, 1005 J 47KW
R339
KAMAYA
N/A
Chip Res, 1005 J 10W
R429
KAMAYA
N/A
Chip Res, 1005 J 3.6KW
R203
KAMAYA
N/A
Chip Res, 1005 J 22KW
R341
KAMAYA
N/A
Chip Res, 1005 J 100W
R430
KAMAYA
N/A
Chip Res, 1005 J 100W
Circuit Board/Schematic Diagram and Parts List (UHF1: 403–447 MHz)
Circuit
Ref.
Supplier
Supplier Part No.
Description
13-20
Circuit
Ref.
Supplier
Supplier Part No.
Description
Circuit
Ref.
Supplier
Supplier Part No.
Description
R431
KAMAYA
N/A
Chip Res, 1005 J 10KW
R527
KAMAYA
N/A
Chip Res, 1005 J 82KW
R707
KAMAYA
N/A
Chip Res, 1005 J 1.5KW
R432
KAMAYA
N/A
Chip Res, 1005 J 27KW
R528
KAMAYA
N/A
Chip Res, 1005 J 82KW
R708
KAMAYA
N/A
Chip Res, 1005 F 4.7KW
R433
KAMAYA
N/A
Chip Res, 1005 J 0W
R529
KAMAYA
N/A
Chip Res, 1005 J 47KW
R709
KAMAYA
N/A
Chip Res, 1005 F 6.8KW
R434
KAMAYA
N/A
Chip Res, 1005 J 33KW
R530
KAMAYA
N/A
Chip Res, 1005 J 47KW
R710
KAMAYA
N/A
Chip Res, 1005 J 220W
R435
KAMAYA
N/A
Chip Res, 1005 J 150W
R531
KAMAYA
N/A
Chip Res, 1005 J 47KW
R711
KAMAYA
N/A
Chip Res, 1005 J 100KW
R436
KAMAYA
N/A
Chip Res, 1005 J 100W
R532
KAMAYA
N/A
Chip Res, 1005 J 10KW
R712
KAMAYA
N/A
Chip Res, 1005 J 100KW
R440
KAMAYA
N/A
Chip Res, 1005 J 15KW
R533
KAMAYA
N/A
Chip Res, 1005 J 10KW
R713
KAMAYA
N/A
Chip Res, 1005 J 30KW
R441
KAMAYA
N/A
Chip Res, 1005 J 0W
R534
KAMAYA
N/A
Chip Res, 1005 J 10KW
R714
KAMAYA
N/A
Chip Res, 1005 J 56W
R501
KAMAYA
N/A
Chip Res, 1005 J 220W
R535
KAMAYA
N/A
Chip Res, 1005 J 10KW
R715
KAMAYA
N/A
Chip Res, 1005 J 56W
R502
KAMAYA
N/A
Chip Res, 1005 J 220W
R536
KAMAYA
N/A
Chip Res, 1005 J 330KW
R716
KAMAYA
N/A
Chip Res, 1005 J 330W
R503
KAMAYA
N/A
Chip Res, 1005 J 56KW
R537
KAMAYA
N/A
Chip Res, 1005 J 1KW
R717
KAMAYA
N/A
Chip Res, 1005 J 10W
R504
NOBLE
N/A
CHIP SEMI V.R, 3PIE 47 KW
R538
KAMAYA
N/A
Chip Res, 1005 J 6.8KW
R718
KAMAYA
N/A
Chip Res, 1005 J 7.5KW
R505
KAMAYA
N/A
Chip Res, 1005 J 12KW
R539
KAMAYA
N/A
Chip Res, 1005 J 330KW
R719
KAMAYA
N/A
Chip Res, 1005 J 1KW
R506
KAMAYA
N/A
Chip Res, 1005 J 10KW
R540
KAMAYA
N/A
Chip Res, 1005 J 47KW
R720
KAMAYA
N/A
Chip Res, 1005 J 150W
R507
KAMAYA
N/A
Chip Res, 1005 J 10KW
R541
KAMAYA
N/A
Chip Res, 1005 J 330KW
R721
KAMAYA
N/A
Chip Res, 1005 J 150W
R508
KAMAYA
N/A
Chip Res, 1005 J 3.6KW
R609
KAMAYA
N/A
Chip Res, 1005 J 1KW
R722
KAMAYA
N/A
Chip Res, 1005 J 10KW
R509
KAMAYA
N/A
Chip Res, 1005 J 2.2KW
R610
KAMAYA
N/A
Chip Res, 1005 J 2.2W
R723
KAMAYA
N/A
Chip Res, 1005 J 1KW
R510
KAMAYA
N/A
Chip Res, 1005 J 15KW
R613
KAMAYA
N/A
Chip Res, 1005 J 15KW
R724
KAMAYA
N/A
Chip Res, 1005 J 390W
R511
KAMAYA
N/A
Chip Res, 1005 J 8.2KW
R614
KAMAYA
N/A
Chip Res, 1005 J 390KW
R725
KAMAYA
N/A
Chip Res, 1005 J 100W
R512
KAMAYA
N/A
Chip Res, 1005 J 20KW
R615
KAMAYA
N/A
Chip Res, 1005 J 2.2W
R726
KAMAYA
N/A
Chip Res, 1005 J 3KW
R513
KAMAYA
N/A
Chip Res, 1005 J 10KW
R616
KAMAYA
N/A
Chip Res, 1005 J 0W
R727
KAMAYA
N/A
Chip Res, 1005 J 2.7KW
R514
KAMAYA
N/A
Chip Res, 1005 J 15KW
R619
KAMAYA
N/A
Chip Res, 1005 J 10KW
R728
KAMAYA
N/A
Chip Res, 1005 J 2.7KW
R515
KAMAYA
N/A
Chip Res, 1005 J 20KW
R620
KAMAYA
N/A
Chip Res, 1005 J 33KW
R729
KAMAYA
N/A
Chip Res, 1005 J 100KW
R516
KAMAYA
N/A
Chip Res, 1005 J 2.7KW
R621
KAMAYA
N/A
Chip Res, 1005 J 39KW
R730
KAMAYA
N/A
Chip Res, 1005 J 33KW
R517
KAMAYA
N/A
Chip Res, 1005 J 5.6KW
R622
KAMAYA
N/A
Chip Res, 1005 J 0W
R731
KAMAYA
N/A
Chip Res, 1005 J 10W
R518
KAMAYA
N/A
Chip Res, 1005 J 4.7KW
R623
KAMAYA
N/A
Chip Res, 1005 J 560W
R732
KAMAYA
N/A
Chip Res, 1005 J 10KW
R519
KAMAYA
N/A
Chip Res, 1005 J 4.7MW
R701
KAMAYA
N/A
Chip Res, 1005 J 56W
R733
KAMAYA
N/A
Chip Res, 1005 J 0W
R520
KAMAYA
N/A
Chip Res, 1005 J 1MW
R702
KAMAYA
N/A
Chip Res, 1005 J 1.5KW
R734
KAMAYA
N/A
Chip Res, 1005 J 10W
R521
KAMAYA
N/A
Chip Res, 1005 J 330KW
R703
KAMAYA
N/A
Chip Res, 1005 F 4.7KW
R735
KAMAYA
N/A
Chip Res, 1005 J 1KW
R523
KAMAYA
N/A
Chip Res, 1005 F 30KW
R704
KAMAYA
N/A
Chip Res, 1005 F 4.7KW
R736
KAMAYA
N/A
Chip Res, 1005 J 1KW
R524
KAMAYA
N/A
Chip Res, 1005 F 47KW
R705
KAMAYA
N/A
Chip Res, 1005 J 220W
R737
KAMAYA
N/A
Chip Res, 1005 J 1KW
R526
NOBLE
N/A
CHIP SEMI V.R, 2PIE 47 KW
R706
KAMAYA
N/A
Chip Res, 1005 J 100W
R740
KAMAYA
N/A
Chip Res, 1005 J 1.5KW
13-21
Circuit
Ref.
Circuit Board/Schematic Diagram and Parts List (UHF1: 403–447 MHz)
Supplier
Supplier Part No.
Description
R1001
KAMAYA
N/A
Chip Res, 1005 J 10KW
R1002
KAMAYA
N/A
Chip Res, 1005 J 9.1KW
R1003
KAMAYA
N/A
Chip Res, 1005 J 8.2KW
R1004
KAMAYA
N/A
Chip Res, 1005 J 10KW
R1005
TDK
N/A
Chip Cap,1005 K 10nF
RT201
TAIYOYUDEN
N/A
Thermistor, 103K
RT501
TAIYOYUDEN
N/A
Thermistor, 103K
SH101
BGTech
8860BEACA1010
Shield CAN, VCO
SH102
BGTech
8860BEAC93010
Shield CAN, PLL
SH103
BGTech
8660BEACA4010
Shield CAN, PA
SH104
MOTOROLA
PMDN4150AR
Finger Strip, T PCB
SH105
MOTOROLA
PMDN4149AR
Finger Strip TX
SH201
MOTOROLA
PMDN4151AR
Finger Strip – Pair
SH202
MOTOROLA
PMDN4152AR
Finger Strip - Single SMD
SPK1
BGTech
8400362424100
Speaker, 24W 1.0W
36q(Connector type)
SW/
VOL1
BGTech
84766N992N151
TOKOS, Switch Volume RY8418
U101
BGTech
81100303RF020
CPU IC
U102
BGTech
8116AK2347020
AUDIO LSI, AK2347
U103
BGTech
8192088L70020
DTMF RECEIVER, MT88L70
U104
BGTech
811324LC64020
EEPROM IC, 24LC64
U105
BGTech
8124000324011
OP AMP, NJM324
U106
BGTech
8135TC7S66020
Analog SW IC, TC7S66FU
U107
BGTech
81287027AT020
VOLTAGE DETECTOR,
KIA7027AT
U201
BGTech
8125311360020
FM IC, TA31136
U202
BGTech
8191401150220
DIGITAL POTENTIOMETER, MCP4011(502)
U401
BGTech
8124000358011
OP AMP (DUAL), KIA358
U402
BGTech
8191401150220
DIGITAL POTENTIOMETER, MCP4011(502)
U501
BGTech
8124000324011
OP AMP, NJM324
U502
BGTech
8124000324011
OP AMP, NJM324
Circuit
Ref.
Supplier
Supplier Part No.
Description
U505
BGTech
8123011250021
REGULATOR IC,
TK11250AMTL
U506
BGTech
8123011233020
REGULATOR IC,
TK11233AMTL
U507
BGTech
8128TC1240020
VOLTAGE DOUBLER,
TC1240
U508
BGTech
8191401150320
DIGITAL POTENTIOMETER, MCP4011(503)
U601
BGTech
811608541T020
AUDIO AMP, TDA8541
U701
BGTech
810415E03S020
PLL IC, MB15E03SLPFV1-GBND-EF-6
PCB1
BGTech
8431BEAUHF300
CAFSYSTEM, Main PCB,
FR4 4 Layer PCB
SUB
PCB1
BGTech
8421BEACON100
CAFSYSTEM, Sub PCB,
1.2T 2 Layer
KEY
PCB1
BGTech
8422BEACON100
CAFSYSTTEM, Key PCB,
1.2T 2Layer
Note:
1: Not for PMUE3323AAL
Appendix A
A.1
Warranty, Service Support, and
Replacement Parts
Scope of Manual
This manual is intended for use by service technicians familiar with similar types of equipment. It
contains service information required for the equipment described and is current as of the printing
date. Changes which occur after the printing date may be incorporated by a complete Manual revision
or alternatively as additions.
Note: Before operating or testing these units, please read the Product Safety and RF Exposure
Compliance section in the front of this manual.
A.2
Warranty
A.2.1 What This Warranty Covers And For How Long
MOTOROLA INC. (“MOTOROLA”) warrants the MOTOROLA manufactured Communication
Products listed below (“Product”) against defects in material and workmanship under normal use and
service for a period of time from the date of purchase as scheduled below:
Table A-1. Portable Radios and Product Accessories Warranty
EP350 Portable Radios
Two (2) Years
Product Accessories (including Batteries and Chargers)
One (1) Year
Motorola, at its option, will at no charge either repair the Product (with new or reconditioned parts),
replace it (with a new or reconditioned Product), or refund the purchase price of the Product during
the warranty period provided it is returned in accordance with the terms of this warranty. Replaced
parts or boards are warranted for the balance of the original applicable warranty period. All replaced
parts of Product shall become the property of MOTOROLA.
This express limited warranty is extended by MOTOROLA to the original end user purchaser only
and is not assignable or transferable to any other party. This is the complete warranty for the Product
manufactured by MOTOROLA. MOTOROLA assumes no obligations or liability for additions or
modifications to this warranty unless made in writing and signed by an officer of MOTOROLA.
Unless made in a separate agreement between MOTOROLA and the original end user purchaser,
MOTOROLA does not warrant the installation, maintenance or service of the Product.
MOTOROLA cannot be responsible in any way for any ancillary equipment not furnished by
MOTOROLA which is attached to or used in connection with the Product, or for operation of the
Product with any ancillary equipment, and all such equipment is expressly excluded from this
warranty. Because each system which may use the Product is unique, MOTOROLA disclaims
liability for range, coverage, or operation of the system as a whole under this warranty.
A.2.2 General Provisions
This warranty sets forth the full extent of MOTOROLA'S responsibilities regarding the Product.
Repair, replacement or refund of the purchase price, at MOTOROLA's option, is the exclusive
A-2
Warranty, Service Support, and Replacement Parts: Warranty
remedy. THIS WARRANTY IS GIVEN IN LIEU OF ALL OTHER EXPRESS WARRANTIES. IMPLIED
WARRANTIES, INCLUDING WITHOUT LIMITATION, IMPLIED WARRANTIES OF
MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE, ARE LIMITED TO THE
DURATION OF THIS LIMITED WARRANTY. IN NO EVENT SHALL MOTOROLA BE LIABLE FOR
DAMAGES IN EXCESS OF THE PURCHASE PRICE OF THE PRODUCT, FOR ANY LOSS OF
USE, LOSS OF TIME, INCONVENIENCE, COMMERCIAL LOSS, LOST PROFITS OR SAVINGS
OR OTHER INCIDENTAL, SPECIAL OR CONSEQUENTIAL DAMAGES ARISING OUT OF THE
USE OR INABILITY TO USE SUCH PRODUCT, TO THE FULL EXTENT SUCH MAY BE
DISCLAIMED BY LAW.
A.2.3 How To Get Warranty Service
You must provide proof of purchase (bearing the date of purchase and Product item serial number in
order to receive warranty service and, also, deliver or send the Product item, transportation and
insurance prepaid, to an authorized warranty service location. Warranty service will be provided by
Motorola through one of its authorized warranty service locations. If you first contact the company
which sold you the Product, it can facilitate your obtaining warranty service. You can also open a
Contact Us case on Motorola Online (www.motorola.com/businessonline).
A.2.4 What This Warranty Does Not Cover
• Defects or damage resulting from use of the Product in other than its normal and customary
• manner.
• Defects or damage from misuse, accident, water, or neglect.
• Defects or damage from improper testing, operation, maintenance, installation, alteration,
• modification, or adjustment.
• Breakage or damage to antennas unless caused directly by defects in material workmanship.
• A Product subjected to unauthorized Product modifications, disassemblies or repairs (including,
• without limitation, the addition to the Product of non-Motorola supplied equipment) which
• adversely affect performance of the Product or interfere with Motorola's normal warranty
• inspection and testing of the Product to verify any warranty claim.
• Product which has had the serial number removed or made illegible.
• Rechargeable batteries if:
- any of the seals on the battery enclosure of cells are broken or show evidence of
tampering.
- the damage or defect is caused by charging or using the battery in equipment or service
other than the Product for which it is specified.
• Freight costs to the repair depot.
• A Product which, due to illegal or unauthorized alteration of the software/firmware in the
Product,
• does not function in accordance with MOTOROLA’s published specifications or the FCC
• type acceptance labeling in effect for the Product at the time the Product was initially distributed
• from MOTOROLA.
• Scratches or other cosmetic damage to Product surfaces that does not affect the operation of
• the Product.
• Normal and customary wear and tear.
Warranty, Service Support, and Replacement Parts: Warranty
A-3
A.2.5 Patent And Software Provisions
MOTOROLA will defend, at its own expense, any suit brought against the end user purchaser to the
extent that it is based on a claim that the Product or parts infringe a United States patent, and
MOTOROLA will pay those costs and damages finally awarded against the end user purchaser in
any such suit which are attributable to any such claim, but such defense and payments are
conditioned on the following:
• that MOTOROLA will be notified promptly in writing by such purchaser of any notice of such
claim
• that MOTOROLA will have sole control of the defense of such suit and all negotiations for its
settlement or compromise
• should the Product or parts become, or in MOTOROLA's opinion be likely to become, the
subject of a claim of infringement of a United States patent, that such purchaser will permit
MOTOROLA, at its option and expense, either to procure for such purchaser the right to
continue using the Product or parts or to replace or modify the same so that it becomes
noninfringing or to grant such purchaser a credit for the Product or parts as depreciated and
accept its return. The depreciation will be an equal amount per year over the lifetime of the
Product or parts as established by MOTOROLA.
MOTOROLA will have no liability with respect to any claim of patent infringement which is based
upon the combination of the Product or parts furnished hereunder with software, apparatus or
devices not furnished by MOTOROLA, nor will MOTOROLA have any liability for the use of ancillary
equipment or software not furnished by MOTOROLA which is attached to or used in connection with
the Product. The foregoing states the entire liability of MOTOROLA with respect to infringement of
patents by the Product or any parts thereof.
Laws in the United States and other countries preserve for MOTOROLA certain exclusive rights for
copyrighted MOTOROLA software such as the exclusive rights to reproduce in copies and distribute
copies of such Motorola software. MOTOROLA software may be used in only the Product in which
the software was originally embodied and such software in such Product may not be replaced,
copied, distributed, modified in any way, or used to produce any derivative thereof. No other use
including, without limitation, alteration, modification, reproduction, distribution, or reverse
engineering of such MOTOROLA software or exercise of rights in such MOTOROLA software is
permitted. No license is granted by implication, estoppel or otherwise under MOTOROLA patent
rights or copyrights.
A-4
Warranty, Service Support, and Replacement Parts: Warranty
A.2.6 Piece Parts
Some replacement parts, spare parts, and/or product information can be ordered directly. If a
complete Motorola part number is assigned to the part, it is available from Motorola’s Managed
Technical Services (MTS). If no part number is assigned, the part is not normally available from
Motorola. If the part number is appended with an asterisk, the part is serviceable by Motorola Depot
only. If a parts list is not included, this generally means that no user-serviceable parts are available
for that kit or assembly.
All orders for parts/information should include the complete Motorola identification number. Request
for help in identification of non-referenced spare parts should be directed to the Motorola’s local area
representation. When damaged parts are replaced, identical parts should be used. If the identical
replacement part is not locally available, check the parts list for the proper Motorola part number.
Orders for replacement parts which are listed in the “Parts List” section of this manual, should be
placed directly on Motorola’s local distribution organization or via Motorola Online (Extranet).
Glossary of Terms
Term
Definition
ALC
Automatic Level Control: a circuit in the transmit RF path that controls RF power
amplifier output, provides leveling over frequency and voltage, and protects against high
VSWR (Voltage Standing Wave Ratio).
ASFIC
Audio Signalling Filter Integrated Circuit
BKC
Bad Key Chirp
CD
Compact Disk
CMP
Compression
CPS
Customer Programming Software
CSQ
Carrier Squelch
DTMF
Dual-Tone Multifrequency
DPL
Digital Private-Line™
EEPROM
Electronically Erasable/Programmable Read-Only Memory: used by the radio to store its
personality
EPP
Environmental Preferred Product
Firmware
Software, or a software/hardware combination of computer programs and data, with a
fixed logic configuration stores in a read-only memory. Information cannot be altered or
reprogrammed.
FGU
Frequency Generation Unit
GaAs
Gallium Arsenide: a type of crystalline material used in some semiconductors.
GKC
Good Key Chirp
ISW
Inbound Signalling Word: data transmitted on the control channel from a subscriber unit
to the central control unit.
LH DATA
Longhorn Data: a bidirectional 0-5V, RS-232 line protocol that uses the microcontroller’s
integrated RS-232 asynchronous serial communications interface (SCI) peripheral.
LLE
Low Level Expander: slight amount of volume expansion; used to improve the signal to
noise ratio.
MCU
Micro Controller Unit
MRTI
Motorola Radio-Telephone Interconnect: a system that provides a repeater connection to
the Public Switched Telephone Network (PSTN). The MRTI allows the radio to access
the telephone network when the proper access code is received.
OMPAC
Over-Molded Pad-Array Carrier: a Motorola custom package, distinguished by the
presence of solder balls on the bottom pads.
PC Board
Printed Circuit Board
G-2
Term
Definition
PL
Private-Line® tone squelch: a continuous sub-audible tone that is transmitted along with
the carrier.
PLL
Phase-Locked Loop: a circuit in which an oscillator is kept in phase with a reference,
usually after passing through a frequency divider.
PTT
Push-To-Talk: the switch located on the left side of the radio; when pressed, causes the
radio to transmit.
RAM
Random Access Memory: the radio’s RAM is loaded with a copy of the EEPROM data.
Registers
Short-term data-storage circuits within the microcontroller.
RESET
Reset line: an input to the microcontroller that restarts execution.
RF PA
Radio Frequency Power Amplifier
ROM
Read Only Memory
RSSI
Received Signal-Strength Indicator: a dc voltage proportional to the received RF signal
strength.
RPT/TA
Repeater/Talk-Around
Softpot
A computer-adjustable electronic attenuator
Software
Computer programs, procedures, rules, documentation, and data pertaining to the
operation of a system.
SPI (clock and data
lines)
Serial Peripheral Interface: how the microcontroller communicates to modules and ICs
through the CLOCK and DATA lines.
Squelch
Muting of audio circuits when received signal levels fall below a pre-determined value.
Standby Mode
An operating mode whereby the radio is muted but still continues to receive data
TOT
Time-Out Timer: a timer that limits the length of a transmission.
TPL
Tone Private-line
µC
Microcontroller
µP
Microprocessor
UHF
Ultra High Frequency
VCO
Voltage-Controlled Oscillator: an oscillator whereby the frequency of oscillation can be
varied by changing a control voltage.
VCOBIC
Voltage-Controlled Oscillator Buffer Integrated Circuit
VHF
Very High Frequency
VSWR
Voltage Standing Wave Ratio
© 2009 Motorola Inc. All rights reserved.
Motorola Technology Sdn Bhd (Co. No. 455657-H)
Plot 2 Bayan Lepas Technoplex Industrial Park
Mukim 12 S.W.D
11900 Penang, Malaysia
Printed in Malaysia
August 2009
*6878422A01*
6878422A01-B

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