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User Manual: 45D11_A_Basic ServMan_EN s

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Commercial Series
CM Radios
Basic Service Manual
6866545D11-A
Issue: October 2004
ii
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 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 or reproduced 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.
iii
SAFETY INFORMATION
Read this information before using your radio.
PRODUCT SAFETY AND RF EXPOSURE FOR MOBILE TWO-WAY RADIOS
INSTALLED IN VEHICLES OR AS FIXED SITE CONTROL STATIONS.
This document provides information and instructions for the safe and efficient operation of Motorola
Mobile Two-Way Radios. The information provided in this document supersedes information
contained in user guides published prior to February 2002.
RF Energy Exposure Awareness and Control Information, and Operational
Instructions for FCC Occupational Use Requirements
Note: This radio is intended for use in occupational /controlled conditions, where users have full
knowledge of their exposure and can exercise control over their exposure to meet FCC/ICNIRP limits.
This radio device is NOT authorized for general population, consumer or any other use.
This 2-way radio uses electromagnetic energy in the radio frequency (RF) spectrum to provide
communications between two or more users over a distance. It uses radio frequency (RF) energy or
radio waves to send and receive calls. RF energy is one form of electromagnetic energy. Other forms
include, but are not limited to, sunlight and x-rays. RF energy, however, should not be confused with
these other forms of electromagnetic energy, which when used improperly, can cause biological
damage. Very high levels of x-rays, for example, can damage tissues and genetic material.
Experts in science, engineering, medicine, health and industry work with organisations to develop
standards for safe exposure to RF energy. These standards provide recommended levels of RF
exposure for both workers and the general public. These recommended RF exposure levels include
substantial margins of protection.
All Motorola 2-way radios are designed, manufactured and tested to ensure they meet government-
established RF exposure levels. In addition, manufacturers also recommend specific operating
instructions to users of 2-way radios. These instructions are important because they inform users
about RF energy exposure and provide simple procedures on how to control it.
Please refer to the following Web sites for more information on what RF energy exposure is and how
to control your exposure to assure compliance with established RF exposure limits.
http://www.fcc.gov/oet/rfsafety/rf-faq.html
http://www.osha.gov/SLTC/radiofrequencyradiation/index.html
Federal Communications Commission Regulations (US markets only)
The FCC rules require manufacturers to comply with the FCC RF energy exposure limits for mobile 2-
way radios before they can be marketed in the U.S. When 2-way radios are used as a consequence
of employment, the FCC requires users to be fully aware of and able to control their exposure to meet
occupational requirements. Exposure awareness can be facilitated by the use of a label directing
users to specific user awareness information. Your Motorola 2-way radio has an RF exposure product
label. Do not remove this RF exposure label from the device. Also, your Motorola user manual, or
separate safety booklet, includes information and operating instructions required to control your RF
exposure and to satisfy compliance requirements.
Compliance with RF Exposure Standard
Your Motorola radio is designed and tested to comply with a number of national and international
standards and guidelines (listed below) regarding human exposure to radio frequency
electromagnetic energy. This radio complies with IEEE and ICNIRP exposure limits for
occupational/controlled RF exposure environments at duty factors of up to 50% talk–50% listen and
is authorised by the IEEE/ICNIRP for occupational use. In terms of measuring RF energy for
compliance with these exposure guidelines, your radio antenna radiates measurable RF energy only
while it is transmitting (during talking), not when it is receiving (listening) or in standby mode.
iv
Your Motorola two-way radio complies with the following RF energy exposure standards and
guidelines:
United States Federal Communications Commission, Code of Federal Regulations; 47 CFR part 2
sub-part J
American National Standards Institute (ANSI) / Institute of Electrical and Electronic Engineers
(IEEE) C95. 1-1992
Institute of Electrical and Electronic Engineers (IEEE) C95.1-1999 Edition
International Commission on Non-Ionizing Radiation Protection (ICNIRP) 1998
Ministry of Health (Canada) Safety Code 6. Limits of Human Exposure to Radiofrequency
Electromagnetic Fields in the Frequency Range from 3 kHz to 300 GHz, 1999
Australian Communications Authority Radiocommunications (Electromagnetic Radiation - Human
Exposure) Standard 2003
ANATEL, Brasil Regulatory Authority, Resolution 256 (April 11, 2001) “additional requirements for
SMR, cellular and PCS product certification.”
RF Exposure Compliance and Control Guidelines and Operating Instructions
To control exposure to yourself and others and to ensure compliance with the RF exposure limits,
always adhere to the following procedures.
Guidelines
:
User awareness instructions should accompany device when transferred to other users.
Do not use this device if the operational requirements described herein are not met.
Instructions
:
Transmit no more that the rated duty factor of 50% of the time. To transmit (talk), push the
Push-To-Talk (PTT) button. To receive calls, release the PTT button.
Transmitting 50% of the time, or less, is important because this radio generates measurable RF
energy exposure only when transmitting (in terms of measuring for standards compliance).
Transmit only when people outside the vehicle are at least the recommended minimum
lateral distance away, as shown in Table 1, from the body of a vehicle with a properly
installed antenna. This separation distance will ensure that there is sufficient distance from a
properly installed (according to installation instructions) externally-mounted antenna to satisfy the
RF exposure requirements in the standards listed above.
Note:Table 1 lists the recommended lateral distance for bystanders in an uncontrolled environment
from the body of a vehicle with an approved, properly installed transmitting antenna (i.e monopoles
over a ground plane, or dipoles) at several different ranges of rated radio power for mobile radios
installed in a vehicle.
If you are not sure of the rated power of your radio, contact your Motorola representative or dealer
and supply the radio model number found on the radio model label. If you cannot determine the rated
power out, then assure 90cms (3 feet) separation from the body of the vehicle.
Table 1: Recommended Lateral Distances
Mobile Radio Rated Power
(see Note below)
Minimum Lateral Distance From
Vehicle Body
Less than 7 Watts 20 cm (8 Inches)
7 to 15 Watts 30 cm (1 Ft)
16 to 39 Watts 60 cm (2 Ft)
40 to 110 Watts 90 cm (3 Ft)
v
Mobile Antenna Installation Guidelines
These mobile antenna installation guidelines are limited to metal body motor vehicles or vehicles
with appropriate ground planes.
Antennas should be installed in the centre area of the roof or the trunk lid taking into account the
bystander exposure conditions of backseat passengers and according to the specific instructions
and restrictions in the Radio Installation Manual along with the requirements of the antenna
supplier.
Trunk lid installations are limited to vehicles with clearly defined flat trunk lids, and in some cases, to
specific radio models and antennas. See the Radio Installation Manual for specific information on
how and where to install specific types of approved antennas to facilitate recommended operating
distances to all potentially exposed persons.
Use only Motorola-approved supplied antenna or a Motorola approved replacement antenna.
Unauthorised antennas, modifications, or attachments could damage the radio and may result in
non-compliance with RF Safety Standards.
Approved Accessories
This radio has been tested and meets the RF Safety Standards when used with the Motorola acces-
sories supplied or designated for this product. Use of other accessories may result in non-compli-
ance with RF Safety Standards.
For a list of Motorola approved antennas, please see your dealer or local Motorola contact. Your
nearest dealer can be found at the following web site:
http://www.motorola.com/cgiss/emea/dealerlocator.html
Additional Information
For additional information on exposure requirements or other training information, visit
http://www.motorola.com/rfhealth
Compliance and Control Guidelines and Operating Instructions for Mobile Two-Way
Radios Installed as Fixed Site Control Stations
If mobile radio equipment is installed at a fixed location and operated as a control station or as a fixed
unit, the antenna installation must comply with the following requirements in order to ensure optimal
performance and compliance with the RF energy exposure limits in the standards and guidelines
listed on page page iv:
The antenna should be mounted outside the building on the roof or a tower if at all possible.
As with all fixed site antenna installations, it is the responsibility of the licensee to manage the site in
accordance with applicable regulatory requirements and may require additional compliance actions
such as site survey measurements, signage, and site access restrictions in order to insure that
exposure limits are not exceeded.
vi
Electromagnetic Interference/Compatibility
Note: Nearly every electronic device is susceptible to electromagnetic interference (EMI) if
inadequately shielded, designed or otherwise configured for electromagnetic compatibility. It may be
necessary to conduct compatibility testing to determine if any electronic equipment used in or around
vehicles or near fixed site antenna is sensitive to external RF energy or if any procedures need to be
followed to eliminate or mitigate the potential for interaction between the radio transmitter and the
equipment or device.
Facilities
To avoid electromagnetic interference and/or compatibility conflicts, turn off your radio in any
facility where posted notices instruct you to do so. Hospitals or health care facilities may be
using equipment that is sensitive to external RF energy.
Vehicles
To avoid possible interaction between the radio transmitter and any vehicle electronic control
modules, such as, ABS, engine, or transmission controls, the radio should be installed only by an
experienced installer and that the following precautions be used when installing the radio:
1. Refer to the manufacturer’s instructions or other technical bulletins for recommendations on radio installa-
tion.
2. Before installing the radio, determine the location of the electronic control modules and their harnesses in
the vehicle.
3. Route all radio wiring, including the antenna transmission line, as far away as possible from the electronic
control units and associated wiring.
Driver Safety
Check the laws and regulations on the use of radios in the area where you drive. Always obey them.
When using your radio while driving, please:
Give full attention to driving and to the road.
Pull off the road and park before making or answering a call if driving conditions so require.
vii
OPERATIONAL WARNINGS
Vehicles with an air bag
Potentially Explosive Atmospheres
Blasting caps and areas
WARNING: Do not mount or place a mobile radio in the area over an air bag or in the air bag
deployment area. Air bags inflate with great force. If a radio is placed in the air bag
deployment area and the air bag inflates, the radio may be propelled with great force and
cause serious injury to occupants of the vehicle.
WARNING: Turn off your radio prior to entering any area with a potentially explosive atmo-
sphere. Sparks in a potentially explosive atmosphere can cause an explosion or fire
resulting in bodily injury or even death.
NOTE The areas with potentially explosive atmospheres referred to above include fuelling areas such as
below decks on boats, fuel or chemical transfer or storage facilities, areas where the air contains
chemicals or particles, such as grain, dust or metal powders. Areas with potentially explosive
atmospheres are often but not always posted.
WARNING: To avoid possible interference with blasting operations, turn off your radio when
you are near electrical blasting caps, in a blasting area, or in areas posted:
"Turn off two-way radio". Obey all signs and instructions.
NOTE For radios installed in vehicles fueled by liquefied petroleum gas, refer to the (U.S.) National Fire
Protection Association standard, NFPA 58, for storage, handling, and/or container information. For
a copy of the LP-gas standard, NFPA 58, contact the National Fire Protection Association, One
Battery Park, Quincy, MA.
!
!
!
viii
ix
Table of Contents
SAFETY INFORMATION........................................................................................iii
Chapter 1 INTRODUCTION
1.0 Scope of Manual ..................................................................................................1-1
2.0 Warranty and Service Support.............................................................................1-1
2.1 Warranty Period and Return Instructions .......................................................1-1
2.2 After Warranty Period.....................................................................................1-1
2.3 European Radio Support Centre (ERSC).......................................................1-2
2.4 Piece Parts .....................................................................................................1-2
2.5 Technical Support...........................................................................................1-3
3.0 Radio Model Information......................................................................................1-4
Chapter 2 MAINTENANCE
1.0 Introduction ..........................................................................................................2-1
2.0 Preventive Maintenance ......................................................................................2-1
2.1 Inspection .......................................................................................................2-1
2.2 Cleaning Procedures ......................................................................................2-1
3.0 Safe Handling of CMOS and LDMOS Devices ....................................................2-2
4.0 Repair Procedures and Techniques — General ..................................................2-3
5.0 Disassembling and Reassembling the Radio — General ....................................2-3
6.0 Radio Disassembly - Detailed..............................................................................2-4
6.1 Control Head Removal ...................................................................................2-4
6.2 Top Cover Removal........................................................................................2-6
6.3 Main Shield Removal......................................................................................2-7
6.4 PA Shield and DC Cable Removal .................................................................2-7
6.5 Main PCB Removal ........................................................................................2-8
6.6 Disassembly of Control Head - CM140/CM340............................................2-10
6.7 Disassembly of Control Head - CM160/CM360............................................2-11
7.0 Radio Assembly.................................................................................................2-12
7.1 Chassis Assembly ........................................................................................2-12
7.2 Control Heads -Assembly.............................................................................2-13
7.3 Control Head Fitting......................................................................................2-13
7.4 Option Board Installation .............................................................................2-14
8.0 Radio Exploded Mechanical Views and Parts Lists...........................................2-15
8.1 Radio Assembly - 25W Models ....................................................................2-15
8.2 Radio Assembly - 40W Models ....................................................................2-16
8.3 Control Head - CM140/CM340 .....................................................................2-17
8.4 Control Head - CM160/CM360 .....................................................................2-18
9.0 Service Aids.......................................................................................................2-19
10.0 Test Equipment..................................................................................................2-21
11.0 Programming/Test Cable - RKN4083_ ..............................................................2-22
12.0 Adapter Cable - FKN8113_................................................................................2-23
x
Chapter 3 TRANSCEIVER PERFORMANCE TESTING
1.0 General ................................................................................................................3-1
2.0 Setup ...................................................................................................................3-1
3.0 RF Test Mode (5-Tone Radios) ...........................................................................3-2
4.0 RF Test Mode (MDC Radios) ..............................................................................3-5
Chapter 4 RADIO TUNING AND PROGRAMMING
1.0 Introduction ..........................................................................................................4-1
2.0 CPS Programming/Flashing Setup with RIB .......................................................4-1
3.0 CPS Programming/Flashing Setup Ribless .........................................................4-2
4.0 CPS Programming Setup with RIB (Telco Connector) ........................................4-2
5.0 CPS Programming Setup with RIB (Accessory Connector) ................................4-3
6.0 CPS Programming Setup with RIB ......................................................................4-3
7.0 Radio Tuning Setup ............................................................................................4-4
7.1 Initial Test Equipment Control Settings ..........................................................4-4
Chapter 5 POWER UP SELF-TEST
1.0 Error Codes (5-Tone Radios) ..............................................................................5-1
2.0 Error Codes (MDC Radios)..................................................................................5-2
Chapter 6 ACCESSORIES & CONNECTOR PIN FUNCTIONS
1.0 Accessories .........................................................................................................6-1
2.0 Accessory Connector Pin Functions....................................................................6-4
3.0 Microphone Connector Pin Functions..................................................................6-5
Chapter 7 MODEL CHART AND TEST SPECIFICATION
1.0 Model Chart (Midband 66-88 MHz) .....................................................................7-1
2.0 Model Chart (VHF1 136-162 MHz) ......................................................................7-2
3.0 Model Chart (VHF2 146-174 MHz) ......................................................................7-3
4.0 Model Chart (UHF1 403-440 MHz)......................................................................7-4
5.0 Model Chart (UHF2 438-470 MHz)......................................................................7-5
6.0 Model Chart (VHF1 136-162 MHz - High Power) ................................................7-6
7.0 Model Chart (VHF2 146-174 MHz - High Power) ................................................7-7
8.0 Model Chart (UHF1 403-440 MHz - High Power) ................................................7-8
9.0 Model Chart (UHF2 438-470 MHz - High Power) ................................................7-9
10.0 Specifications .................................................................................................... 7-10
GLOSSARY............................................................................................ i
Chapter 1
INTRODUCTION
1.0 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.
2.0 Warranty and Service Support
Motorola offers long term support for its products. This support includes full exchange and/or repair
of the product during the warranty period, and service/ repair or spare parts support out of warranty.
Any "return for exchange" or "return for repair" by an authorised Motorola Dealer must be
accompanied by a Warranty Claim Form. Warranty Claim Forms are obtained by contacting an
Authorised Motorola Dealer.
2.1 Warranty Period and Return Instructions
The terms and conditions of warranty are defined fully in the Motorola Dealer or Distributor or
Reseller contract. These conditions may change from time to time and the following notes are for
guidance purposes only.
In instances where the product is covered under a "return for replacement" or "return for repair"
warranty, a check of the product should be performed prior to shipping the unit back to Motorola.
This is to ensure that the product has been correctly programmed or has not been subjected to
damage outside the terms of the warranty.
Prior to shipping any radio back to the appropriate Motorola warranty depot, please contact
Customer Resources (Please see page 2 and page 3 in this Chapter). All returns must be
accompanied by a Warranty Claim Form, available from your Customer Services representative.
Products should be shipped back in the original packaging, or correctly packaged to ensure no
damage occurs in transit.
2.2 After Warranty Period
After the Warranty period, Motorola continues to support its products in two ways.
1. Motorola's Radio Aftermarket and Accessory Division (AAD) offers a repair service to both
end users and dealers at competitive prices.
2. AAD supplies individual parts and modules that can be purchased by dealers who are
technically capable of performing fault analysis and repair.
NOTE Before operating or testing these units, please read the Safety Information Section in the
front of this manual.
1-2 INTRODUCTION
2.3 European Radio Support Centre (ERSC)
The ERSC Customer Information Desk is available through the following service numbers:
Austria: 08 00 29 75 41 Italy: 80 08 77 387
Belgium: 08 00 72 471 Luxemburg: 08 00 23 27
Denmark: 80 88 05 72 Netherlands: 08 00 22 45 13
Finland: 08 00 11 49 910 Norway: 80 01 11 15
France: 08 00 90 30 90 Portugal: 08 00 84 95 70
Germany: 08 00 18 75 240 Spain: 90 09 84 902
Greece: 00 80 04 91 29 020 Sweden: 02 07 94 307
UK : 08 00 96 90 95 Switzerland: 08 00 55 30 82
Ireland: 18 00 55 50 21 Iceland: 80 08 147
Or dial the European Repair and Service Centre:
Tel: +49 30 6686 1555
Please use these numbers for repair enquiries only.
2.4 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 Radio
Aftermarket and Accessory Division (AAD). 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 part orders should be directed to :
Motorola GmbH
Customer Care
Am Borsigturm 130
13507 Berlin
Germany.
Warranty and Service Support 1-3
2.5 Technical Support
Motorola Product Services is available to assist the dealer/distributors in resolving any malfunctions
which may be encountered.
UK/Ireland - Richard Russell
Telephone: +44 (0) 1256 488 082
Fax: +44 01256 488 080
Email: BRR001@email.mot.com
Central/East Europe - Siggy Punzenberger
Telephone: +49 (0) 6128 70 2342
Fax: +49 (0) 6128 95 1096
Email: TFG003@email.mot.com
Scandinavia
Telephone: +46 8 735 9282
Fax: +46 8 735 9280
Email: C14749@email.mot.com
Germany -Customer Connect Team
Telephone: +49 (0) 30 6686 1539
Fax: +49 (0) 30 6686 1916
Email: cgiss.emea@europe.mot.com
France - Lionel Lhermitte
Telephone: +33 1 6929 5722
Fax: +33 1 6929 5904
Email: TXE037@email.mot.com
Italy - Ugo Gentile
Telephone: +39 0 2822 0325
Fax: +39 0 2822 0334
Email: C13864@email.mot.com
Africa & Middle East - Armand Roy
Telephone: +33 1 6929 5715
Fax: +33 1 6929 5778
Email: armand.roy@Motorola.com
1-4 INTRODUCTION
3.0 Radio Model Information
The model number and serial number are located on a label attached to the back of your radio. You
can determine the RF output power, frequency band, protocols, and physical packages. The
example below shows one mobile radio model number and its specific characteristics.
Table 1-1 Radio Model Number (Example: MDM50FNC9AN2_N)
Type of
Unit
Model
Series
Freq.
Band
Power
Level
Physical
Packages
Channel
Spacing Protocol Feature
Level
Model
Revision
Model
Package
MD M 50 F
Midband
(66-
88MHz)
J
VHF
(136-
162MHz)
K
VHF
(146-
174MHz)
N
1-25W
C
CM140
CM340
9
Program-
mable
AA
Conven-
tional
MDC
1
RF
Connector :
Mini-UHF
AN
Q
UHF1
(403-
440MHz)
P
25-40W
F
CM160
CM360
AN
5 Tone
2
RF
Connector :
BNC
R
UHF2
(438-
470MHz)
Q
25-45W
S
UHF3
(465-
495MHz)
MD = Motorola Internal Use
M = Mobile
Chapter 2
MAINTENANCE
1.0 Introduction
This chapter provides details about the following:
Preventive maintenance (inspection and cleaning).
Safe handling of CMOS and LDMOS devices.
Disassembly and reassembly of the radio.
Repair procedures and techniques.
Installation of Option Boards.
2.0 Preventive Maintenance
The radios do not require a scheduled preventive maintenance program; however, periodic visual
inspection and cleaning is recommended.
2.1 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.
2.2 Cleaning Procedures
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 and housing assembly. These surfaces should be cleaned whenever a periodic visual
inspection reveals the presence of smudges, grease, and/or grime.
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 (70% by volume).
Cleaning External Plastic Surfaces
Apply the 0.5% detergent-water solution sparingly with a stiff, non-metallic, short-bristled brush to
work all loose dirt away from the radio. Use a soft, absorbent, lintless cloth or tissue to remove the
solution and dry the radio. Make sure that no water remains entrapped near the connectors, cracks,
or crevices.
NOTE Internal surfaces should be cleaned only when the radio is disassembled for service or
repair.
CAUTION: The effects of certain chemicals and their vapors can have harmful results on
certain plastics. Avoid using aerosol sprays, tuner cleaners, and other chemicals.
!
2-2 MAINTENANCE
Cleaning Internal Circuit Boards and Components
Isopropyl alcohol (100%) 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 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. After completing 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
top cover.
3.0 Safe Handling of CMOS and LDMOS Devices
Complementary metal-oxide semiconductor (CMOS) devices are used in this family of radios, and
are 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 following
CAUTION statement.
NOTE Always use a fresh supply of alcohol and a clean container to prevent contamination by
dissolved material (from previous usage).
CAUTION: This radio contains static-sensitive devices. Do not open the radio unless you are
properly grounded. Take the following precautions when working on this unit:
Store and transport all CMOS devices in conductive material so that all exposed
leads are shorted together. Do not insert CMOS devices into conventional plastic
“snow” trays used for storage and transportation of other semiconductor devices.
Ground the working surface of the service bench to protect the CMOS device. We
recommend using the Motorola Static Protection Assembly (part number
0180386A82), which includes a wrist strap, two ground cords, a table mat, and a
floor mat.
Wear a conductive wrist strap in series with a 100k resistor to ground.
(Replacement wrist straps that connect to the bench top covering are Motorola part
number 4280385A59)
Do not wear nylon clothing while handling CMOS devices.
Do not insert or remove CMOS devices with power applied. Check all power
supplies used for testing CMOS devices to be certain that there are no voltage
transients present.
When straightening CMOS pins, provide ground straps for the apparatus used.
When soldering, use a grounded soldering iron.
If at all possible, handle CMOS devices by the package and not by the leads. Prior
to touching the unit, touch an electrical ground to remove any static charge that you
may have accumulated. The package and substrate may be electrically common. If
so, the reaction of a discharge to the case would cause the same damage as
touching the leads.
!
Repair Procedures and Techniques — General 2-3
4.0 Repair Procedures and Techniques — General
Parts Replacement and Substitution
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 and order the part
from the nearest Motorola Parts centre listed in the “Piece Parts” section in Chapter 1 of this manual.
Rigid Circuit Boards
This 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 printed-through holes may interconnect multiple layers of the printed circuit. Therefore, exercise
care to avoid pulling the plated circuit out of the hole.
When soldering near the RF connector, potentiometer, 16-pin and 20-pin connectors:
Avoid accidentally getting solder in the connector.
Be careful not to form solder bridges between the connector pins.
Examine your work closely for shorts due to solder bridges.
5.0 Disassembling and Reassembling the Radio — General
Since these radios may be disassembled and reassembled with the use of only 14 (board to casting)
screws, it is important to pay particular attention to the snaps and tabs, and how parts align with
each other.
The following tools are required for disassembling/assembling the radio:
Small flat blade screwdriver
Phillips small 1# screwdriver
TORX™ T9 screwdriver
TORX™ T10 screwdriver
Torque screwdriver set
Torque spanner
Hex Tool ( part number 6680334F39)
If a unit requires more complete testing or service than is customarily performed at the basic level,
send this unit to a Motorola Authorized Service Centre. (See Chapter 1 for a list of authorized
service centres.)
The following disassembly procedures should be performed only if necessary:
2-4 MAINTENANCE
6.0 Radio Disassembly - Detailed
The procedure to remove and replace a Control Head, Top Cover or Transceiver Board is similar for
all models of radio. A typical procedure is therefore shown followed by specific disassembly
procedures for Control Heads on radio models without a display and radio models fitted with a
display.
6.1 Control Head Removal
Volume Knob Removal
1. Insert the flat screwdriver between the control head plastic and the volume knob and push the
volume knob upwards. See Figure 2-1.
Figure 2-1 Volume Knob Removal.
2. Insert the flat screw driver (4 mm maximum) into the slot and push the plastic up.
Do the same with the second slot to free the control head from the chassis assembly. See
Figure 2-2.
NOTE Ensure that the volume knob is in the OFF position before disassembling the radio.
Radio Disassembly - Detailed 2-5
Figure 2-2 Control Head Removal
3. To free the head, disconnect the flat cable from the chassis assembly See Figure 2-3.
Figure 2-3 Flat Cable Removal
2-6 MAINTENANCE
6.2 Top Cover Removal
1. Place the radio in a vertical position as shown in Figure 2-4..
Figure 2-4 Top Cover Removal (Chassis Vertical).
2. Insert the flat screw driver near the ‘T’ and push the plastic cover up until it pops over the ‘T’
mount boss. Perform the same function on the ‘T’ location on the other side of the chassis.
3. Next place the radio in a horizontal position as shown in Figure 2-5 and insert the flat screw
driver into the slot to release the upper cover.
Figure 2-5 Top Cover Removal (Chassis Horizontal)
Radio Disassembly - Detailed 2-7
6.3 Main Shield Removal
1. Insert the screw driver in the gap between the main shield and chassis (speaker cutout area)
and push the shield up. See Figure 2-6.
2. Lift the cover from the chassis.
Figure 2-6 Main Shield Removal
6.4 PA Shield and DC Cable Removal
1. Remove the three screws that attach the PA shield to PCB, and remove the PA shield.
2. Remove the accessory Connector cap.
3. Remove the two screws that attach the DC power cable to the PCB and pull it out from the
side.
Figure 2-7 PA Shield and DC Cable Removal (for Radios with PA Clip)
PA Shield
Fixing Screws (3)
Accessory
Connector
Cap
DC
Cable
DC Cable
Fixing Screws
(2)
2-8 MAINTENANCE
Figure 2-8 PA Shield and DC Cable Removal (for Radios without PA Clip)
6.5 Main PCB Removal
6.5.1 For Radios with PA Clip
1. Remove the screw that attaches the PA clip to the chassis. See Figure 2-9.
2. Remove the PA clip.
3. Remove all the screws that fix the PCB to the chassis.
4. Loosen the M2 screw (if fitted) on the RF connector, about 3 to 4 turns using Hex tool.
5. Loosening this screw, enables you to unscrew the RF connector from outside.
6. Carefully remove the main PCB in a diagonal manner.
Figure 2-9 PA Clip and Main PCB Removal
NOTE It is recommended to grip the volume potentiometer and remove the PCB board
PA Shield
Fixing Screws (3)
DC
Cable
DC Cable
Fixing Screws
(2)
M2 Screw
PA Clip
Main PCB
Accessory
Connector
Cap
Radio Disassembly - Detailed 2-9
6.5.2 For Radios without PA Clip
1. Remove the PA screws. See Figure 2-10.
2. Remove all the screws that fix the PCB to the chassis.
3. Loosen the M2 screw (if fitted) on the RF connector, about 3 to 4 turns using Hex tool.
4. Unscrew the RF connector from outside.
5. Carefully remove the main PCB in a diagonal manner.
Figure 2-10 Main PCB Removal (for Radios without PA Clip)
NOTE It is recommended to grip the volume potentiometer and remove the PCB board
Grub Screw (M2)
PA Screws
Main PCB
2-10 MAINTENANCE
6.6 Disassembly of Control Head - CM140/CM340
1. Disconnect the flat cable from the Control Head PCB connector. See Figure 2-11
2. Remove the keypad assembly from the control head housing by lifting it up from the face
side.
3. Disconnect the speaker socket and remove the speaker from the keypad assembly.
4. Remove the pcb from the keypad assembly.
5. Remove the LENs from the rubber keypad assembly.
.
Figure 2-11 Control Head Housing Removal (CM140/CM340)
NOTE DO NOT touch or contaminate the conductive pads on the under side of the keypad
or the conductive contacts on the printed circuit board.
Control Head Housing
Keypad Assembly
Lens
PCB
Speaker
Radio Disassembly - Detailed 2-11
6.7 Disassembly of Control Heads - CM160 and CM360
1. Disconnect the flat cable from the Control Head PCB connector. See Figure 2-12
2. Remove the keypad assembly from the control head housing by lifting it up from the face side.
3. Disconnect the speaker socket and remove the speaker from the keypad assembly.
4. Remove the PCB from the keypad assembly.
5. Remove the LCD assembly from the rubber keypad assembly.
Figure 2-12 Control Head Housing Removal (CM160/CM360)
NOTE DO NOT touch or contaminate the conductive pads on the under side of the keypad,
the conductive contacts on the printed circuit board or the elastomeric connector.
Control Head Housing
Speaker Keypad Assembly
LCD AssemblyPCB
2-12 MAINTENANCE
7.0 Radio Assembly
7.1 Chassis Assembly
7.1.1 For Radios with PA Clip
1. Ensure that the Fugi Poly Thermal Pad is on the small pedestal located on the PA
compartment of the chassis.
2. Verify that the potentiometer is soldered properly.
3. Take the main PCB and smear thermal paste on LDMOS Power Amplifier, TO220, and Audio
Power Amplifier.
4. Slide the main board diagonally into the chassis.
5. Tighten all eight screws (Torx T10).
6. Assemble the O-ring on the RF connector and tighten it using Torque 2.4Nm (22 lb.in).
7. Tighten the RF connector security screw M2 (if fitted) using Torque 0.17Nm (1.5 lb.in)
(through the opening in the PCB).
8. Take the Power Amplifier Clip and insert the leg-shape side into the opening groove located
on the PCB. Tighten the screw using Torque 1.47Nm (13 lb.in).
9. Take the PA Shield and place it on the PA compartment. Tighten the three screws using
Torque 1.47Nm (13 lb.in). Tighten the middle screw first, then the screw located on the left
side, and lastly the screw located on the right side.
10. Insert the DC cable into the slot. Ensure that it is seated correctly on the chassis hook located
below the DC cable. Attach it to the chassis and PCB by tightening the two screws using
Torque 1.47Nm (13 lb.in) (Torx T10).
11. Take the main shield and place it on the chassis. Check that the corners of the main shield
are seated properly on the corner supports.
12. Take the main seal and place it inside the top cover. Verify that the main seal is seated prop-
erly on its placement ribs and all around the groove.
13. Take the upper cover, place it properly on the chassis, and push it down. Three click sounds
are heard from both sides and back.
7.1.2 For Radios without PA Clip
1. Verify that the potentiometer is soldered properly.
2. Take the main PCB and smear thermal paste on TO220, and Audio Power Amplifier.
3. Slide the main board diagonally into the chassis.
4. Tighten all eight screws (Torx T10).
5. Assemble the O-ring on the RF connector and tighten it using Torque 2.4Nm (22 lb.in).
6. Tighten the RF connector security screw M2 (if fitted) using Torque 0.17Nm (1.5 lb.in)
(through the opening in the PCB).
7. Take the two PA screws and place in screw holes in PA. Tighten the screw using Torque
1.47Nm (13 lb.in).
NOTE If replacing old RF connector with new RF connector (new connector supplied with
washer), remove and dispose existing M2 screw on RF-PCB connector.
NOTE If replacing old RF connector with new RF connector (new connector supplied with
washer), remove and dispose existing M2 screw on RF-PCB connector.
Radio Assembly 2-13
8. Take the PA Shield and place it on the PA compartment. Tighten the three screws using
Torque 1.47Nm (13 lb.in). Tighten the middle screw first, then the screw located on the left
side, and lastly the screw located on the right side.
9. Insert the DC cable into the slot. Ensure that it is seated correctly on the chassis hook located
below the DC cable. Attach it to the chassis and PCB by tightening the two screws using
Torque 1.47Nm (13 lb.in) (Torx T10).
10. Take the main shield and place it on the chassis. Check that the corners of the main shield are
seated properly on the corner supports.
11. Take the main seal and place it inside the top cover. Verify that the main seal is seated prop-
erly on its placement ribs and all around the groove.
12. Take the upper cover, place it properly on the chassis, and push it down. Three click sounds
are heard from both sides and back.
7.2 Control Heads Assembly
1. Assemble the Contol Heads by reversing the procedure for dis-assembly.
7.3 Control Head Fitting
1. Hold the Control Head in one hand and the chassis assembly in the other hand.
2. Insert the flat cable into the main PCB connector through the slot in the chassis.
3. Place the Control Head Assembly on the chassis assembly in a diagonal manner. Two clicking
sounds are heard.
4. Insert the Volume Knob into its groove and push it in.
5. Place the cap of the accessory connector over the accessory pin.
NOTE Care should be taken not to touch or contaminate the conductive strip connectors and key-
pad conductors on the underside of the display and the elastomeric connectors (CM160/
CM360 only).
2-14 MAINTENANCE
7.4 Option Board Installation
1. Follow the disassembly procedure in paragraphs 6.1 to 6.3.
2. Remove and discard the 4xM3 screws holding the main pcb and replace with the 4 spacers
provided. Torque the spacers to 1.13Nm (10 lbs.in).
3. Insert the jumper flex into the connector on the option board. Notice the orientation of the
right-angle flex circuit.
4. Insert the other end of the jumper flex into the connector on the main pcb.
5. Fold the flex circuit under the option board.
6. Position the option board over the spacers and retain using the 4xM2 screws provided.
Figure 2-13 Option Board Installation
7. With the option board correctly in place, the main shield and top cover can be assembled as
detailed in paragraph 7.1.1 steps 11 to 13.
Spacers
Flex
Option Board
M2 Screws
4xM3 screws
(replaced by spacers)
Radio Exploded Mechanical Views and Parts Lists 2-15
8.0 Radio Exploded Mechanical Views and Parts Lists
8.1 Radio Assembly - 25W Models (for Radios with PA Clip)
Figure 2-14 Radio Assembly - 25W Models
Table 2-1 Radio Assembly Parts List - 25W Models
Item No. Description Part Number
1 Upper Cover 1589224U01
2 Main Seal 3289329U01
3 Bumper 7587509V06
4 Main Shield 2689338U01
5 PA Shield 2689337U01
6 Screw 0310943J12
7 PA Clip 0789352U01
8 VHF Main PCB
UHF Main PCB
Midband Main PCB
FLD6000A
FLE6029A
FUC1600A
9 Connector Jack:
Mini UHF
BNC
5886750Z01
5886751Z01
10 Power Cable Assembly 0189484U01
11 Cap, Accessory Connector 3202607Y01
12 Chassis 25W 2789223U01
13 Felt 3586661Z01
1
2
3
4
5
6
78
99
10
11 13
12
2-16 MAINTENANCE
8.2 Radio Assembly - 40W Models (for Radios without PA Clip)
Figure 2-15 Radio Assembly - 40W Models
Table 2-2 Radio Assembly Parts List - 40W Models
Item No. Description Part Number
1 Upper Cover 1589224U01
2 Main Seal 3289329U01
3 Main Shield 2689338U01
4 PA Shield 2689337U01
5 Screw 0310943J12
6 VHF Main PCB
UHF Main PCB
Midband Main PCB
FLD6000A
FLE6029A
FUC1600A
7 Connector Jack:
Mini UHF
BNC
5886750Z01
5886751Z01
8 Power Cable Assembly 0189484U01
9 Cap, Accessory Connector 3202607Y01
10 Chassis 40W 2789223U02
11 Felt 3586661Z01
12 PA Screw 0386663Z01
13 Bumper 7587509V06
Radio Exploded Mechanical Views and Parts Lists 2-17
8.3 Control Head - CM140/CM340
Figure 2-16 Control Head CM140/CM340
Table 2-3 Control Head CM140/CM340 Parts List
Item no Description Part No
1Control Head PCB FCN6288A
2Lens 6189338U01
3Keypad 7589330U01
4Control Head Plastic 1589332U01
5Knob Spring (part of knob - item 6)
6Knob, Volume 3689331U02
7Speaker 5005156Z02
8Flat Cable (not shown) 3089305U01
2-18 MAINTENANCE
8.4 Control Head - CM160/CM360
Figure 2-17 Control Head - CM160/CM360
Table 2-4 Control Head CM160/CM360 Parts List
Item no Description Part No.
1Control Head PCB FCN5523A
2 Light Guide 6189624U01
3 Elastomeric Connector 2802619S03
4 LCD Holder 0789623U01
5 LCD 7202421H33
6 Keypad 7589340U01
7 Speaker 5005156Z02
8 Control Head Plastic 1589333U01
9 Knob Spring (part of Knob - item 10)
10 Knob 3689331U02
11 Lens:
CM160
CM360
6189339U06
6189339U01
12 Flat Cable (Not Shown) 3089305U01
1
2
3
4
5
6
7
8
9
10
11
Service Aids 2-19
9.0 Service Aids
Table 2-4 lists the service aids recommended for working on the radio. While all of these items are
available from Motorola, most are standard workshop equipment items, and any equivalent item
capable of the same performance may be substituted for the item listed.
Table 2-5 Service Aids
Motorola Part
No. Description Application
RLN4460_ Portable Test Set Enables connection to audio/accessory jack.
Allows switching for radio testing.
GMVN5034A Customer Programming
Software (CPS) and Tuner
CDROM (MDC)
Programs customer options and channel data.
Tunes hardware parameters, front end,
power, deviation etc.
GMVN5033A Customer Programming
Software (CPS) and Tuner
CDROM (5-Tone)
Programs customer options and channel data.
Tunes hardware parameters, front end,
power, deviation etc.
RKN4081_ Programming Cable with
Internal RIB
Includes radio interface box (RIB) capability.
FKN8096_ Data/Flash Adapter Used with RKN4081 (10 to 8 pin adapter for
front Telco connector with CPS/Flash switch
for programming/flashing only).
RKN4083_ Mobile Programming/Test Cable Connects radio to RIB (RLN4008_) via rear
accessory connector
FKN8113_ Adapter Cable Used with RKN4083 (20 to 16 pin adapter for
rear accessory connector).
GTF374_ Program Cable Connects RIB to Radio microphone input.
RLN4008_ Radio Interface Box Enables communications between radio and
computer’s serial communications adapter.
HLN8027_ Mini UHF to BNC Adaptor Adapts radio antenna port to BNC cabling of
test equipment.
GPN6133_ Power Supply Provides the radio with power when bench
testing.
EPN4040_ Wall-Mounted Power Supply Used to supply power to the RIB (UK).
EPN4041_ Wall-Mounted Power Supply Used to supply power to the RIB (Euro).
8180384N64 Housing Eliminator (25W) Test Fixture used to bench test the radio pcb.
3080369B71 Computer Interface Cable Connects the RIB to the Computer (25-pin).
3080369B72 Computer Interface Cable Connects the RIB to the Computer (9-pin)
(Use for IBM PC AT - other IBM models use
the B71 cable above).
6686119B01 Removal Tool Assists in the removal of radio control head.
2-20 MAINTENANCE
6680334F39 Hex Tool Assists in the removal of antenna connector.
WADN4055A Portable Soldering Station Digitally controlled soldering iron.
6604008K01 0.4mm Replacement Tip For WADN4055A Soldering iron.
6604008K02 0.8mm Replacement Tip For WADN4055A Soldering iron.
0180386A82 Anti-static Grounding Kit Used for all radio assembly/disassembly
procedures.
6684253C72 Straight Prober
6680384A98 Brush
1010041A86 Solder (RMA type) 63/37, 0.5mm diameter, 2.2kg (1lb) spool.
Table 2-5 Service Aids
Motorola Part
No. Description Application
Test Equipment 2-21
10.0 Test Equipment
Table 2-5 lists test equipment required to service the radio and other two-way radios.
Table 2-6 Recommended Test Equipment
Motorola Part
No. Description Characteristics Application
R2600_NT Comms System
Analyzer (non MPT)
This monitor will
substitute for items with
an asterisk *
Frequency/deviation meter
and signal generator for wide-
range troubleshooting and
alignment
*R1072_ Digital Multimeter AC/DC voltage and current
measurements
*R1377_ AC Voltmeter 100 µV to 300 V,
5Hz-1MHz,
10 Megohm input
impedance
Audio voltage
measurements
WADN4133 Delay
Oscilloscope
2 Channel 40 MHz
bandwidth,
5 mV/cm - 20 V/cm
Waveform measurements
R1440_
0180305F17
0180305F31
0180305F40
RLN4610_
T1013_
Wattmeter,
Plug-in Elements
Plug-in Elements
Plug-in Elements
Carry case
RF Dummy Load
Thruline 50-Ohm,
±5% accuracy
10W, 25 - 60 MHz
10W, 100 - 250 MHz
10W, 200 - 500 MHz
Wattmeter and
6 elements
Transmitter power output
measurements
S1339_ RF Millivolt Meter 100mV to 3 VRF,
10 kHz to 1.2 GHz
RF level measurements
R1011_/220V 220V Power
Supply
0-40V, 0-40A Programmable
2-22 MAINTENANCE
11.0 Programming/Test Cable - RKN4083_
Figure 2-18 Programming/Test Cable
Figure 2-19 Pin Configuration of RKN4083
P1 (Male)
To Radio
Test Set
J2 (Female)
To Mobile Radio
Accessory
Connector
113 13 1
14
25
25
14
J1 (Female)
To RIB
RLN4008
FL0830308O
1000 50mm
Cable
+
_
1000 50mm
Cable
+
_
17
18
1
2
19
20
Viewed from
Front (pin end)
of Connector
FLO830308-0
Note: Use with Adapter Cable FKN8113_
J2 Mobile
Radio
Accessory
Connector
SPEAKER -
EXTERNAL MIC
DIGITAL IN 1 (EXT. PTT)
DIGITAL OUT 2 (EXT. ALARM)
FLAT TX AUDIO SENSITIVITY
DIGITAL IN 3/MPT MAP 27 RX
GND
DIGITAL IN/OUT 4/MPT MAP 27 TX
DIGITAL IN 5 w WAKEUP (EMG)
IGNITION
FLAT/FILTERED RX AUDIO
DIGITAL IN/OUT 7
SWITCHED BATTERY VOLTAGE
DIGITAL IN/OUT 8
RSSI
SPEAKER +
BUS + (FOR CPS AND FLASHING)
BOOT CONTROL
N/C
N/C
1
2
3
4
5
6
7
8
9
10
11
12
13
14
15
16
17
18
19
20
AUDIO +
AUDIO -
AUDIO +
AUDIO -
MIC AUDIO
MIC AUDIO
GND
VOL CTRL
DISC
PTT
BOOT CTR
L
1
2
5
7
10
15
16
18
19
20
25
P1
To Radio
Test Set
RLN4460
GND
BIAS
BUS -
SW B +
BUS +
BOOT CTR
L
1
4
11
12
15
25
J1
To RIB
RLN4008
FL0830307O
FLO830307-0
Adapter Cable - FKN8113_ 2-23
12.0 Adapter Cable - FKN8113_
Figure 2-20 Pin Configuration of FKN8113
16-pin Female
To Radio
Accessory
Connector
SPEAKER -
EXTERNAL MIC
EXT. PTT
FLAT TX AUDIO SENSITIVITY
BUS+ (FOR CPS AND FLASHING)
GND
SWITCHED BATTERY VOLTAGE
SPEAKER +
1
2
3
4
5
6
7
8
9
10
11
12
13
14
15
16
SPEAKER -
EXTERNAL MIC
EXT.PTT
EXT ALARM
FLAT TX AUDIO
DIG IN
GND
DIG I/O
DIG IN
IGNITION
FLAT/FILTERED RX AUDIO
DIG IN
SWITCHED BATTERY VOLTAGE
DIG IN
RSSI
SPEAKER +
BUS +
BOOT CONTROL
N/C
N/C
1
2
3
4
5
6
7
8
9
10
11
20-pin Male
To Prog/Test
Cable
RKN4083_
12
13
14
15
16
17
18
19
20
15
16
1
2
Viewed from
Front (pin end)
of Connector
2-24 MAINTENANCE
Chapter 3
TRANSCEIVER PERFORMANCE TESTING
1.0 General
These radios meet published specifications through their manufacturing process by utilizing high-
accuracy laboratory-quality test equipment. The recommended field service equipment approaches
the accuracy of the manufacturing equipment with few exceptions. This accuracy must be
maintained in compliance with the manufacturer’s recommended calibration schedule.
2.0 Setup
Supply voltage is provided using a power supply (13.8 Vdc for low power models, 13.6Vdc for high
power models). The equipment required for alignment procedures is connected as shown in the
Radio Tuning Test Setup Diagram, Chapter 4, Figure 4-6.
Initial equipment control settings should be as indicated in Table 3-1. The remaining tables in this
chapter contain the following related technical data:
Table Number
5-Tone MDC Title
3-2 3-5 Test Environments
3-3 3-6 Test Channel Spacing
3-4 3-7 Test Frequencies
3-8 Transmitter Performance Checks
3-9 Receiver Performance Checks
Table 3-1 Initial Equipment Control Settings
Service Monitor Test Set Power Supply
Monitor Mode: Power Monitor Spkr set: A Voltage: 13.2Vdc
RF Attn: -70 Spkr/load:
Speaker
DC On/Standby:
Standby
AM, CW, FM: FM PTT: OFF Volt Range: 20V
Oscilloscope Source: Mod
Oscilloscope Horiz: 10mSec/Div
Oscilloscope Vert: 2.5kHz/Div
Oscilloscope Trig: Auto
Monitor Image: Hi
Monitor BW: Nar
Monitor Squelch: mid CW
Monitor Vol: 1/4 CW
Current: 20A
3-2 TRANSCEIVER PERFORMANCE TESTING
3.0 RF Test Mode (5-Tone Radios)
When the radio is operating in its normal environment, it is not possible to test all individual aspects
of the transmitter and receiver performance. Therefore a special “test mode” is used to allow the
service technician to perform certain functional tests on the product. A control head fuctional test
mode is also available.
To enter test mode (CM360):
1. Turn the radio on.
2. Within less than one second of the power-up beep, press button P2, five times in succession.
3. Six characters appear on the 8-character display, ‘TT XX CC’, where ‘TT’ indicates the test
environment (Table 3.2), ‘XX’ indicates the channel number 1-14 (Table 3.4), and ‘CC’
indicates the channel spacing (Table 3.3). Test frequencies (channels) may be changed with
use of the Up-Down button. Each additional press of P2 will scroll through the remaining
channel spacings supported.
4. Pressing P1 scrolls through and accesses test environments as shown in Table 3-2.
5. Pressing P2 for at least one second switches the radio to the control head test mode. ‘LCD
Test appears on the display.
6. Pressing P1 causes the radio to turn on all segments of the first character. A second P1 press
turns on all the segments of the second character and so on until all segments of all eight
characters are illuminated.
7. Pressing P1 at the end of the LCD test activates the ‘Icon & LED Test’. The next P1 press
turns on the first icon. Successive presses of P1 cycle through all icons and finally the three
LEDs.
8. Pressing P1 at the end of the ‘Icon & LED Test’ activates the button test. When a button is
pressed a single beep is heard and another beep on each release of all four P buttons plus
the Up-Down button.
9. Pressing P2 for at least one second in the control head test mode causes the radio to return
to the RF test mode.
Note: The radio powers up on the last used test state i.e. the last used test environment and
channel spacing, but always starts at channel 1.
To enter test mode (CM340):
1. Turn the radio on.
2. Within less than one second of the power-up beep, press button P2, five times in succession.
3. The three LEDs will turn on and the single character segment display will indicate channel 1.
As the display can only show 1 to 8, channels 1 to 7 are repeated with a dot on the display to
indicate high power. Channels 1 to 7 with no dot represent low power (Table 3.4). An audio
alert will sound to indicate the test environment.
4. Pressing P1 will scroll through the other 12 test environments with its associated audio beep.
(Table 3.2)
5. Press P2 to scroll through the three supported channel spacings channel spacings supported
(Table 3.3)
6. Pressing P2 for at least one second switches radio to the control head test mode. A beep will
sound and the segment goes blank.
7. Pressing P1 will cycle scroll through the segment test, then the LED test and finally the HI/LO
power segment indicator; a high pitched beep will also sound as P1 is pressed.
RF Test Mode (5-Tone Radios) 3-3
8. In this mode all buttons, when pressed and held, will emit a high pitched beep and another
when the button is released to verify button functionality.
9. Pressing P2 for at least one second will return the user to RF Test Mode
Note: The radio powers up on the last used test state i.e. the last used test environment, test
channel, and channel spacing.
Table 3-2 Test Environments
No. of
Beeps
Code ‘TT’
CM360 Description Function
1
(high pitch)
SQ Carrier Squelch
(CSQ)
RX: unsquelch if carrier detected
TX: mic audio
11 CP CMP RX: constant unsquelch
TX: mic audio
12 LL LLE RX: constant unsquelch
TX: mic audio
5 US Unsquelch
(UNSQ)
RX: constant unsquelch
TX: mic audio
2DP Digital
Private-Line (DPL)
RX: unsquelch if carrier and digital code (131) detected
TX: mic audio + digital code (131)
1TPTone
Private-Line (TPL)
RX: unsquelch if carrier and tone (192.8Hz) detected
TX: mic audio + tone (192.8Hz)
3DT Dual-Tone multiple
frequency (DTMF)
RX: unsquelch if carrier detected
TX: selected DTMF tone pair
9 M0 MPT 0 RX: unsquelch if carrier detected
TX: 1200 baud with data “0”
10 M1 MPT 1 RX: unsquelch if carrier detected
TX: 1200 baud with data “1”
4 M3 MPT 3 RX: speaker muted, high tone sounds when below
sequence detected
TX: 1200 baud with bit pattern
“aa aa c4 d7 d2 90 49 f1 f1 bb f5 c7”
6SC Select 5 CCIR
(SV-C)
RX: speaker muted, high tone sounds when below
sequence detected
TX: CCIR sequence 1124, 1275, 1446, 1640, 1860 Hz
7 SZ Select 5 ZVEI
(SV-Z)
RX: speaker muted, high tone sounds when below
sequence detected
TX: CCIR sequence 1060, 1270, 1530, 1830, 2200 Hz
8EX Data Mode
(EXT)
RX: unsquelch if carrier detected
TX: flat TX audio
13 BS Base Station Mode
(B-ST)
RX: constant unsquelch
TX: mic audio
3-4 TRANSCEIVER PERFORMANCE TESTING
Table 3-3 Test Channel Spacing
Number of Beeps Code ‘CC’
CM360 Channel Spacing
125 25 kHz
2 12 12.5 kHz
320 20 kHz
Table 3-4 Test Frequencies
Test
Mode
Test Channel Low
Power
CM360 CM340
Test Channel High
Power
CM360 CM340
MIDBAND VHF1 VHF2 UHF1 UHF2
TX 01 108 1.66.125 136.125 146.025 403.025 438.025
RX 01 1 08 1.66.025 136.125 146.025 403.025 438.025
TX 02 209 2.69.125 140.275 150.700 409.150 443.350
RX 02 2 09 2.69.025 140.275 150.700 409.150 443.350
TX 03 310 3.73.125 144.675 155.350 415.350 448.700
RX 03 3 10 3.73.025 144.675 155.350 415.350 448.700
TX 04 411 4.77.125 149.125 160.025 421.500 454.025
RX 04 4 11 4.77.025 149.125 160.025 421.500 454.025
TX 05 512 5.81.125 153.475 164.700 427.650 459.350
RX 05 5 12 5.81.025 153.475 164.700 427.650 459.350
TX 06 613 6.85.125 157.775 169.350 433.850 464.700
RX 06 6 13 6.85.025 157.775 169.350 433.850 464.700
TX 07 714 7.87.975 161.775 173.975 439.025 469.975
RX 07 7 14 7.87.875 161.775 173.975 439.025 469.975
RF Test Mode (MDC Radios) 3-5
4.0 RF Test Mode (MDC Radios)
When the radio is operating in its normal environment, it is not possible to test all individual aspects
of the transmitter and receiver performance. Therefore a special “test mode” is used to allow the
service technician to perform certain functional tests on the product. A control head fuctional test
mode is also available.
To enter test mode (display radios):
1. Turn the radio on.
2. Within ten seconds after the self test is complete, press button P2, five times in succession.
3. Channel number appears in the display. The radio is on channel XX*, carrier squelch mode,
25 kHz channel spacing.
4. Each additional press of P2 scrolls through to the next channel spacing and a corresponding
set of tones are sounded.
5. Pressing P1 scrolls through and accesses test environments as shown in Table 3-5.
6. Pressing P2 for three seconds switches the radio to the control head test mode and zero
appears on the display.
7. Pressing P1 causes the radio to display the channel number “1”. Another P1 press causes the
radio to display the next channel “2”, and so on until channel “9”.
8. Pressing P1 at the end of the LCD test activates the ‘LED Test’. The next P1 press turns the
LEDs and dot On/Off.
9. Pressing P1 at the end of the LED test activates the button test. Pressing any button (except
P1) or any keypad button during the LCD test or Icon test immediately activates this test.
10. Pressing P2 for 3 seconds in the control head test mode causes the radio to return to the RF
test mode.
*XX = channel number (01 - 09)
Table 3-5 Test Environments
No. of
Beeps Description Function
1Carrier Squelch RX: if carrier detected
TX: mic audio
1 Tone
Private-Line
RX: unsquelch if carrier and tone (192.8Hz) detected
TX: mic audio + tone (192.8Hz)
2Digital
Private-Line
RX: unsquelch if carrier and digital code (131) detected
TX: mic audio + digital code (131)
3 Dual-Tone
multiple
frequency
RX: unsquelch if carrier detected
TX: selected DTMF tone pair
9MDC1200
HSS
RX: unsquelch if carrier detected
TX: 1500Hz tone
5 Unsquelch
Open
RX: constant unsquelch
TX: mic audio
11 CMP RX: if carrier detected
TX: mic audio
3-6 TRANSCEIVER PERFORMANCE TESTING
Table 3-6 Test Channel Spacing
Number of Beeps Channel Spacing
125 kHz
2 12.5 kHz
320 kHz
Table 3-7 Test Frequencies
Test
Mode
Test Channel Low
Power
CM160 CM140
Test Channel High
Power
CM160 CM140
VHF1 VHF2 UHF1 UHF2
TX 01 108 8.136.125 146.025 403.025 438.025
RX011088.136.125 146.025 403.025 438.025
TX 02 209 9.140.275 150.700 409.150 443.300
RX022099.140.275 150.700 409.150 443.300
TX 03 310 0.144.675 155.300 415.350 448.700
RX033100.144.675 155.300 415.350 448.700
TX 04 411 1.149.125 160.000 421.500 454.000
RX 04 4 11 1.149.125 160.000 421.500 454.000
TX 05 512 2.153.475 164.700 427.650 459.300
RX055122.153.475 164.700 427.650 459.300
TX 06 613 3.157.775 169.300 433.850 464.700
RX066133.157.775 169.300 433.850 464.700
TX 07 714 4.161.775 173.025 439.025 469.025
RX077144.161.775 173.025 439.025 469.025
RF Test Mode (MDC Radios) 3-7
* See Tables 3-4 & 3.7
Table 3-8 Transmitter Performance Checks
Test Name Communications Analyzer Radio Test Set Comment
Reference
Frequency
Mode: PWR MON
4th channel test frequency*
Monitor: Frequency error
Input at RF In/Out
TEST MODE,
Test Channel 4
carrier squelch
PTT to
continuous
(during the
performance
check)
Frequency error:
±150 Hz VHF,
±150 Hz UHF
±150 Hz MB
Power RF As above As above As above 1-25W
Voice
Modulation
Mode: PWR MON
4th channel test frequency*
atten to -70, input to RF In/ Out
Monitor: DVM, AC Volts
Set 1kHz Mod Out level for
800mVrms at test set,
800mVrms at AC/DC test set
jack
As above As above,
meter selector
to mic
Deviation:
2.5 kHz Max.
(12.5 kHz Ch. Sp).
4 kHz Max.
(20 kHz Ch. Sp).
5 kHz Max.
(25 kHz Ch. Sp).
Voice
Modulation
(internal)
Mode: PWR MON
4th channel test frequency*
atten to -70, input to RF In/ Out
TEST MODE,
Test Channel 4
carrier squelch
output at
antenna
Remove
modulation
input
Deviation:
2.5 kHz Max.
(12.5 kHz Ch. Sp.).
4 kHz Max.
(20 kHz Ch. Sp.).
5 kHz Max.
(25 kHz Ch. Sp.).
High-Speed
Data
Modulation
As above TEST MODE,
Test Channel 4
high speed
output at
antenna
PTT to
continuous
(during the
performance
check).
Deviation:
1.5-2.0 kHz
(12.5 kHz Ch. Sp.).
2.3-3.2 kHz
(20 kHz Ch. Sp.).
3.0-4.0 kHz
(25 kHz Ch. Sp.).
DTMF
Modulation
As above,
4th channel test frequency*
TEST MODE,
Test Channel 4
DTMF output at
antenna
As above Deviation:
1.4-1.9 kHz
(12.5 kHz Ch. Sp.).
2.3-3.0 kHz
(20 kHz Ch. Sp.).
2.9-3.8 kHz
(25 kHz Ch. Sp.).
PL/DPL
Modulation
As above
4th channel test frequency*
BW to narrow
TEST MODE,
Test Channel 4
TPL
DPL
As above Deviation:
0.25-0.5 kHz
(12.5 kHz Ch. Sp.).
0.4-0.8 kHz
(20 kHz Ch. Sp.)
0.5-1.0 kHz
(25 kHz Ch. Sp.).
3-8 TRANSCEIVER PERFORMANCE TESTING
Table 3-9 Receiver Performance Checks
* See Tables 3-4 & 3.7
Test Name Communications
Analyzer Radio Test Set Comment
Reference
Frequency
Mode: PWR MON
4th channel test frequency*
Monitor: Frequency error
Input at RF In/Out
TEST MODE,
Test Channel 4
carrier squelch
output at
antenna
PTT to
continuous
(during the
performance
check)
Frequency
error to be
±150 Hz VHF
±150 Hz UHF
±150 Hz MB
Rated Audio Mode: GEN
Output level: 1.0mV RF
4th channel test frequency*
Mod: 1kHz tone at
3kHz deviation
Monitor: DVM: AC Volts
TEST MODE
Test Channel 4
carrier squelch
PTT to OFF
(center), meter
selector to
Audio PA
Set volume
control to
8.10Vrms
Distortion As above, except to
distortion
As above As above Distortion
<5.0%
Sensitivity
(SINAD)
As above, except SINAD,
lower the RF level for 12dB
SINAD.
As above PTT to OFF
(center)
RF input to be
<0.3µV
Noise Squelch
Threshold
(only radios
with
conventional
system need
to be tested)
RF level set to 1mV RF As above PTT to OFF
(center), meter
selection to
Audio PA,
spkr/ load to
speaker
Set volume
control to
3.16Vrms
As above, except change
frequency to a conventional
system. Raise RF level from
zero until radio unsquelches.
out of TEST
MODE; select
a conventional
system
As above Unsquelch to
occur at
<0.25µV.
Preferred
SINAD =
9-10dB
Chapter 4
RADIO TUNING AND PROGRAMMING
1.0 Introduction
This chapter provides an overview of the Customer Programming Software (CPS) and tuner
program designed for use in a Windows 98/ME/NT/2000 environment. A CPS/Tuner Installation
Manual (6866545D09) is included in this Product Manual.
Table 4-1 Software Installation Kits Radio Tuning Setup
2.0 CPS Programming/Flashing Setup with RIB
The CPS programming setup, shown in Figures 4-1 is used to program and flash the radio using the
Radio front Telco connector.
NOTE Refer to the CPS on-line help files for programming procedures.
Description Kit Number
5-Tone/MDC CPS (includes Global Tuner) GMVN5067_
Software Installation Manual 6866545D09_
Figure 4-1 CPS Programming/Flashing Setup with RIB
RIB
RLN-4008 Rx
Gnd
Data
Tx Data
Cable 3080369B72 (9 PIN)
DB15
Cable 3080369B71 (25 PIN)
Power
Supply
+13,2VDC
Programming
3080070N01
Cable DB25
Radio
DC
RF
ACC
FKN8096
8-pin Telco
10-pin Telco
FKN8096
Data =Programming
Boot = Flashing
4-2 RADIO TUNING AND PROGRAMMING
3.0 CPS Programming/Flashing Setup Ribless
The CPS programming setup, shown in Figures 4-2 is used to program and flash the radio using the
Radio front Telco connector.
Figure 4-2 CPS Programming/Flashing Setup Cable with Internal RIB
4.0 CPS Programming Setup with RIB
The CPS programming setup, shown in Figures 4-3 is used to program the radio using the Radio
front Telco connector.
Figure 4-3 CPS Programming Setup with RIB
Power
Supply
+13,2VDC
Ribless Programming Cable RKN4081
Rx Data
Gnd
Tx Data
DB25
Radio
DC
RF
ACC
FKN8096
8-pin Telco
10-pin Telco
FKN8096
Data =Programming
Boot = Flashing
RIB
RLN-4008 Rx
Gnd
Data
Tx Data
Cable 3080369B72 (9 PIN)
DB15
Cable 3080369B71 (25 PIN)
Power
Supply
+13,2VDC
Programming
GTF374
Cable
DB25
Radio
DC
RF
ACC
CPS Programming Setup with RIB 4-3
5.0 CPS Programming Setup with RIB
The CPS programming setup, shown in Figures 4-4 is used to program the radio using the Radio
rear accessory connector.
Figure 4-4 CPS Programming Setup Cable with RIB and Rear Adapter Cable
6.0 CPS Programming Setup with RIB
The CPS programming setup, shown in Figures 4-5 is used to program the radio using the Radio
rear accessory connector.
Figure 4-5 CPS Programming Setup Cable with RIB and Rear Adapter Cable
RIB
RLN-4008 Rx
Gnd
Data
Tx Data
Cable 3080369B72 (9 PIN)
DB15
Cable 3080369B71 (25 PIN)
Power
Supply
+13,2VDC
Programming/Test
RKN4083
Cable DB25
Radio
DC
RF
ACC
FKN8113
Adapter Cable
RIB
RLN-4008 Rx
Gnd
Data
Tx Data
Cable 3080369B72 (9 PIN)
DB15
Cable 3080369B71 (25 PIN)
Power
Supply
+13,2VDC
Programming
GTF374
Cable DB25
Radio
DC
RF
ACC
GTF377
Cable
4-4 RADIO TUNING AND PROGRAMMING
7.0 Radio Tuning Setup
A personal computer (PC), Windows 98/ME/NT/2000 and a tuner program are required to tune the
radio. To perform the tuning procedures, the radio must be connected to the PC, radio interface box
(RIB), and test equipment setup as shown in Figure 4-6.
Figure 4-6 Radio Tuning Test Equipment Setup with External RIB
7.1 Initial Test Equipment Control Settings
The initial test equipment control settings are listed in Table 4-2.
Table 4-2 Initial Equipment Control Settings
Service Monitor Test Set Power Supply
Monitor Mode: Power Monitor Speaker set: A Voltage: 13.2Vdc
RF Attenuation: -70 Speaker/load:
Speaker
DC on/standby:
Standby
AM, CW, FM: FM PTT: OFF Volt Range: 20V
Oscilloscope Source: Mod
Oscilloscope Horizontal: 10mSec/Div
Oscilloscope Vertical: 2.5 kHz/Div
Oscilloscope Trigger: Auto
Monitor Image: Hi
Monitor BW: Nar
Monitor Squelch: mid CW
Monitor Volume: 1/4 CW
Current: 20A
NOTE Refer to Tuner on-line help files for tuning procedures.
Wattmeter
Audio Generator
Sinad Meter
AC Voltmeter
30 dB Pad
Audio In Tx
Rx
Receive
Transmit
RF Generator
RIB
RLN-4008
RLN4460
Tes t B o x
Cable 3080369B72 (9 PIN)
Program/
RKN4083
Test Cable
Service Monitor
or Counter
DB15
Cable 3080369B71 (25 PIN)
Power
Supply
+13,2VDC
Rx Data
Gnd
Tx Data
Radio
DC
RF
ACC
ELM Adapter
cable FKN8113
Chapter 5
POWER UP SELF-TEST
1.0 Error Codes (5-Tone Radios)
Turning on the radio starts a self-test routine that checks the radio functionality. If the checks are
successful, the radio generates a high-pitched self-test pass tone. If the self-test is not successful,
one low-pitched (300Hz) error tone is heard and the RED LED flashes several times to indicate the
reason for the failure (see Table 5-1 below). After flashing the error code, the LED remains off for 5
seconds and then repeats the error code. The LED sequence and the error tone continue until the
radio is switched off. Radios with displays are also able to display error codes. The meaning of the
LED indication, the displayed error codes and the related corrections are listed in Table 5-1.
Table 5-1 Power-up Error Codes
If the error code
displayed is…
The LED
flashes...
then, there is a... To correct the problem...
“Test 1 Failed” Once Hardware codeplug error,
possibly codeplug structure
mismatch or non-existant
codeplug.
Reprogram codeplug. If message
re-occurs, replace main board or
return it to the nearest Motorola
depot.
“Test 2 Failed” Twice Select 5 Application Vector
corrupted.
Reprogram codeplug and retest the
radio.
“Test 3 Failed” Three times Codeplug Checksum error. Reprogram codeplug and retest the
radio.
“Test 4 Failed” Four times Codeplug Version Error. Reprogram codeplug using the
correct version and retest the radio.
“Test 5 Failed” - - - - - - - - Reserved
“Test 6 Failed” Six times RAM Checksum test failure. Turn the radio off then on again. If the
message re-occurs replace the main
board or return it to the nearest
Motorola depot.
“Test 7 Failed” - - - - - - - - Reserved
“Test 8 Failed” - - - - - - - - Reserved
300Hz Tone and
Flashing LED.
Radio failure or invalid
codeplug as described
above.
Turn the radio off then on again.
Confirm that there is a 300Hz fail
tone and count the number of flashes
made by the LED. Make the relevant
correction as described above
5-2 POWER UP SELF-TEST
2.0 Error Codes (MDC Radios)
Turning on the radio starts a self-test routine that checks the RAM, ROM checksum, EEPROM
hardware, and EEPROM checksum. If these checks are successful, the radio generates two high-
pitched self-test pass tones. If the self-test is not successful, one low-pitched tone is heard. Radios
with displays are able to display the error codes. Following are the possible errors and the related
corrections.
Table 5-2 Power Up Error Codes
Possible Errors To correct the problem...
RAM test failure. Retest the radio by turning it off and turning it on
again. If bad tone reoccurs, replace RAM (U0122).
Codeplug structure mis-
match or non existence of
codeplug.
Reprogram codeplug with correct version and retest
radio. If message reoccurs, replace EEPROM
(U0111).
Wrong codeplug checksum. Reprogram codeplug.
Chapter 6
ACCESSORIES & CONNECTOR PIN FUNCTIONS
1.0 Accessories
To order, refer to Chapter 1 (paragraph 2.4 - ‘Piece Parts’) of this manual.
1.1 Antenna
1.2 Audio
RAD4198_ 136 - 144 MHz 1/4 Wave Roof Mount - BNC
RAD4199_ 144 - 152 MHz 1/4 Wave Roof Mount - BNC
RAD4200_ 150.8 - 162 MHz 1/4 Wave Roof Mount - BNC
RAD4201_ 162 - 174 MHz 1/4 Wave Roof Mount - BNC
RAE4151_ 403 - 430 MHz 1/4 Wave Roof Mount - BNC
RAE4152_ 450 - 470 MHz 1/4 Wave Roof Mount - BNC
RAE4154_ 450 - 470 MHz 5dB Gain Roof Mount - BNC
RAC4000_RA 66 - 88 MHz 1/4 Wave Roof Mount - Mini UHF
RAC4000_MA 66 - 88 MHz 1/4 Wave Magnetic Mount - Mini UHF
5880367B28 BNC Adapter (for use with Mini UHF antenna)
HMN3413- Compact Microphone
HMN1035_ Heavy Duty Microphone
HMN3000_ Black Desk Microphone
RMN5029_ Enhanced Keypad Microphone
RMN5018_ Mag One Microphone
RMN5019_ Mag One Keypad Microphone
MDREX4617_ Telephone Style Handset Kit
GMMN4065_ Visor Microphone (Omni Direction)
RSN4001_ External Speaker, 13 W
HSN8145_ External Speaker 7.5 W
HLN9073_ Microphone Hang-up Clip
6-2 ACCESSORIES & CONNECTOR PIN FUNCTIONS
1.3 Alarms and Accessories
1.4 Control Station
1.5 Public Address
1.6 Cables
1.7 Peripherals
RLN4586_ Footswitch with Remote PTT
RLN4857_ Pushbutton with Remote PTT
RLN4858_ Gooseneck PTT
RLN4836_ External PTT with Emergency Footswitch
HLN9328_ External Alarm Relay (used in conjunction with GLN7282)
GLN7282_ Buzzer Kit (used in conjunction with HLN9328)
HPN4002_ Desktop Power Supply 1-25 W (not EMC approved)
HKN4139_ 12V Power Cable to Battery (1-25 W)
HPN4001_ Desktop Power Supply 25-60 W (not EMC approved)
HKN9455_ Power Cable to Battery (25-60 W)
GPN6145_ Desktop Power Supply
GKN6266_ 12V Cable to Radio, for use with GPN6145 Desktop Power Supply
RLN5390_ Desktop Tray with Speaker
RLN5391_ Desktop Tray without Speaker
RLN5288_ Public Address Kit (includes switch box and cabling)
HKN9324_R Speaker Cable for PA (15 ft.)
HSN1000 External Speaker, 6 W for public address
HKN9327 Ignition Switch Cable
HKN4137 Low Power Cable to Battery (1-25 W)
HKN4191 High Power Cable to Battery (25-60 W)
GMKN4084_ Speaker Extension Cable)
HLN3948_ Basic RICK (Repeater Interface Comm Kit)
HLN3333_ RICK (Repeater Interface Comm Kit)
Accessories 6-3
1.8 Mounting
1.9 Programming
GLN7324_ Low Profile Mounting Bracket
GLN7317_ High Profile Mounting Bracket
FTN6083_ DIN Mount
GLN7341_ Removable Slide Mount
RLN4779_ Keylock Mounting Bracket
GTF374__ Programming Cable
GTF377__ Adapter Cable for GTF374
RKN4081_ Ribless Cable
FKN8096_ Adapter Cable for use with RKN4081
RKN4083_ Programming/Test Cable
FKN8113_ Adapter Cable for use with RKN4083
3080369B72 RS232 Cable 9-pin
3080369B71 RS232 Cable 25-pin
RLN4008_ Rib Box
RLN4460_ Test Box
6-4 ACCESSORIES & CONNECTOR PIN FUNCTIONS
2.0 Accessory Connector Pin Function
Pin Function Description
1External Speaker (-) Connect external 8 or 4 ohms speaker to pin 1 and 16.
Caution: Bridge-type output. Neither pin 1 or 16 is grounded.
2 External Mic Audio Input impedence:500 ohms
80 mV rms at 1 kHz for 60% deviation.
This path is enabled when external mic PTT is keyed.
3External Mic PTT Put this pin low (less than 0.66 Vdc) to key transmitter and enable
external mic audio path. This path is pulled low via a diode when front
panel mic PTT is pulled low to allow sensing of mic PTT by accessory.
This pin pulled high to 3.3 Vdc via 3.3k ohms
4 Programmable
Output
Defaults to External Alarm. Provides an active high to 13.8 Vdc battery
supply. maximum current: 0.25 amps.
5Flat_TX_Audio Input Input impedance: Greater than 35k ohms. The nominal input level is 150
mV rms for 60% deviation.
6 Bus+ Serial Communication Interface. On MDC and P/L radios only, this pin
can be configured as a general purpose input by removing resistor R421.
7Ground Used as ground.
8 Programmable I/O Input or output depending on dealer programming.
9Emergency Input When connecting the Emergency Footswitch between pin 9 and 7, the
radio will sense the connection upon Power-up.
Shorting this pin to Ground by pressing the switch when the radio is OFF,
turns ON the radio in Emergency Mode.
Shorting this pin to Ground by pressing the switch when the radio is ON,
activates Emergency Mode.
To turn OFF a radio that was turned ON by Emergency Footswitch (ON/
OFF knob in OFF position) turn knob to ON and then to OFF position.
10 Ignition Sense For optional 3-wire ignition control, connect this pin to the vehicle
ignition-controlled voltage source for ignition-controlled radio ON/OFF.
To resume NON ignition state, remove the battery connection for 10
seconds; remove the ignition connection from this pin and re-connect the
battery connections.
11 Receive Audio
Output
Programmable (using CPS in the RX Audio Type): 660mV rms (de-
emphasized/muted) or 330mV rms (non de-emphasized muted.
Minimum load resistance: 5k ohms
12 Programmable I/O Input or Output
13 Switched B+ (Switched Battery Voltage) 13.8Vdc (500mA max.) when radio is ON
14 Programmable I/O Input or Output
15 Internal Speaker Connect to internal speaker (+) and by internal jumper to pin 16
16 External Speaker (+) Connect external 8 or 4 ohms speaker to pins 1 and 16.
CAUTION: Bridge type output. Neither pin 1 nor 16 is grounded.
Microphone Connector Pin Function 6-5
3.0 Microphone Connector Pin Function
Pin Function Description
19.3V Regulated 9.3V Supply (50mA max.)
2 Boot/DTMF
Keypad Column
This pin function depends on the voltage applied to pin 3 (See pin 3, Hook
description).
When configured as “Boot”, applying 5V to this pin will set the radio to Boot
state.
When configured as “DTMF Keypad Column”, this pin will carry column
voltages generated by the DTMF microphone (RMN5029).
3Hook When 0V is applied to this pin (mic on hook), pins 2 and 7 will be
configured to “Column” and “Row”.
When no voltage is applied to this pin (mic off hook), this pin will read 2.7V,
and pins 2 and 7 will be configured to “Column” and “Row”.
When 9.3V is applied to this pin (programming cables or Mag One mic
RMN5018), pins 2 and 7 will be configured to “Boot” and “SCI”.
4 Ground Used as ground
5Mic. Audio Audio input impedance: 500 ohms
80 mV rms input (standard mic) or 1.8 mV rms (low cost mic) at 1 kHz for
60% deviation.
This path is enabled when Mic. PTT (pin 6) is keyed
6 Mic. PTT Microphone PTT is active low, so this port reads “0” when PTT is pressed
and “1” when PTT is released.
10 K ohms internal pull up resistor to 9.3 V.
Pulling low this pin will also pull low, via a diode, pin 3 (external MIC PTT)
of the accessory connector.
7SCI/DTMF
Keypad Row
The function of this pin depends on the voltage applied to pin 3 (see pin 3
description).
When configured as “SCI”, serial communication with the radio is
facilitated.
When configured as “DTMF Keypad Row” this pin will carry new voltages
generated by the DTMF mic (RMN5029)
8 Handset Rx
Audio
Handset audio output provides de-emphasized, muted Rx audio. The
source impedance is 10 ohms and the output level (open circuit) is
controlled by the volume control setting.
6-6 ACCESSORIES & CONNECTOR PIN FUNCTIONS
Chapter 7
MODEL CHART AND TEST SPECIFICATION
1.0 Model Chart (Midband 66-88 MHz)
CM Series Midband 66-88 MHz
Model Description
MDM50FNC9AN2_N CM340 66-88 MHz 1-25W 10-Ch
MDM50FNF9AN2_N CM360 66-88 MHz 1-25W 100-Ch
Item Description
X FUC1601_ S. Tanapa Midband 25W 10 Ch BNC
XFUC1603_ S. Tanapa Midband 25W 100 Ch BNC
XFCN6288_ Control Head
XFCN5523_ Control Head
XX HKN4137_ Battery Power Cable
X X HMN3596_ Compact Microphone
XX GLN7324_ Low Profile Trunnion
XX 6866546D02_ RTTE Leaflet
XX6866537D37_ Safety Leaflet
XPMUC1033AS Servicing Kit CM340
XFUC1605AS Servicing Kit CM360
X = Indicates one of each is required
7-2 MODEL CHART AND TEST SPECIFICATION
2.0 Model Chart (VHF1 136-162 MHz)
CM Series VHF1 136-162MHz
Model Description
MDM50JNC9AA2_N CM140 136-162 MHz 1-25W 8-Ch
MDM50JNF9AA2_N CM160 136-162 MHz 1-25W 64-Ch
MDM50JNF9AN2_N CM360 136-162 MHz 1-25W 100-Ch
Item Description
X PMUD1936_ S. Tanapa VHF1 25W 8 Ch BNC
XPMUD1940_ S. Tanapa VHF1 25W 64 Ch BNC
X PMUD1941_ S. Tanapa VHF1 25W 100 Ch BNC
X FCN6288_ Control Head
X X FCN5523_ Control Head
XXX HKN4137_ Battery Power Cable
XX
X
RMN5018_
HMN3596_
Mag One Microphone
Compact Microphone
XXX GLN7324_ Low Profile Trunnion
X X X 6866546D02_ RTTE Leaflet
X X X 6866537D37_ Safety Leaflet
X PMUD1952AS Servicing Kit CM140
XPMUD1956AS Servicing Kit CM160
X PMUD1957AS Servicing Kit CM360
X = Indicates one of each is required
Model Chart (VHF2 146-174 MHz) 7-3
3.0 Model Chart (VHF2 146-174 MHz)
CM Series VHF2 146-174MHz
Model Description
MDM50KNC9AA2_N CM140 146-174 MHz 1-25W 8-Ch
MDM50KNC9AN2_N CM340 146-174 MHz 1-25W 10-Ch
MDM50KNF9AA2_N CM160 146-174 MHz 1-25W 64-Ch
MDM50KNF9AN2_N CM360 146-174 MHz 1-25W 100-Ch
Item Description
X FUD1183_ S. Tanapa VHF2 25W 8 Ch BNC
X PMUD1879_ S. Tanapa VHF2 25W 10 Ch BNC
X PMUD1874_ S. Tanapa VHF2 25W 64 Ch BNC
X PMUD1881_ S. Tanapa VHF2 25W 100 Ch BNC
X X FCN6288_ Control Head
X X FCN5523_ Control Head
XXXX HKN4137_ Battery Power Cable
X
X
X
X
RMN5018_
HMN3596_
Mag One Microphone
Compact Microphone
XXXX GLN7324_ Low Profile Trunnion
X X X X 6866546D02_ RTTE Leaflet
XXXX 6866537D37_ Safety Leaflet
XFLD1934AS Servicing Kit CM140
X PMUD1889AS Servicing Kit CM340
X PMUD1883AS Servicing Kit CM160
X PMUD1891AS Servicing Kit CM360
X = Indicates one of each is required
7-4 MODEL CHART AND TEST SPECIFICATION
4.0 Model Chart (UHF1 403-440 MHz)
CM Series UHF1 403-440MHz
Model Description
MDM50QNC9AA2_N CM140 403-440 MHz 1-25W 8-Ch
MDM50QNF9AA2_N CM160 403-440 MHz 1-25W 64-Ch
MDM50QNF9AN2_N CM360 403-440 MHz 1-25W 100-Ch
Item Description
X PMUE2002_ S. Tanapa UHF1 25W 8 Ch BNC
XPMUE2005_ S. Tanapa UHF1 25W 64 Ch BNC
X PMUE2025_ S. Tanapa UHF1 25W 100 Ch BNC
X FCN6288_ Control Head
X X FCN5523_ Control Head
XXX HKN4137_ Battery Power Cable
XX
X
RMN5018_
HMN3596_
Mag One Microphone
Compact Microphone
XXX GLN7324_ Low Profile Trunnion
X X X 6866546D02_ RTTE Leaflet
X X X 6866537D37_ Safety Leaflet
X PMUE2029AS Servicing Kit CM140
XPMUE2031AS Servicing Kit CM160
X PMUE2047AS Servicing Kit CM360
X = Indicates one of each is required
Model Chart (UHF2 438-470 MHz) 7-5
5.0 Model Chart (UHF2 438-470 MHz)
CM Series UHF2 438-470MHz
Model Description
MDM50RNC9AA2_N CM140 438-470 MHz 1-25W 8-Ch
MDM50RNC9AN2_N CM340 438-470 MHz 1-25W 10-Ch
MDM50RNF9AA2_N CM160 438-470 MHz 1-25W 64-Ch
MDM50RNF9AN2_N CM360 438-470 MHz 1-25W 100-Ch
Item Description
X FUE1021_ S. Tanapa UHF2 25W 8 Ch BNC
X PMUE2019_ S. Tanapa UHF2 25W 10 Ch BNC
X PMUE1999_ S. Tanapa UHF2 25W 64 Ch BNC
X PMUE2021_ S. Tanapa UHF2 25W 100 Ch BNC
X X FCN6288_ Control Head
X X FCN5523_ Control Head
XXXX HKN4137_ Battery Power Cable
X
X
X
X
RMN5018_
HMN3596_
Mag One Microphone
Compact Microphone
XXXX GLN7324_ Low Profile Trunnion
X X X X 6866546D02_ RTTE Leaflet
XXXX 6866537D37_ Safety Leaflet
XFLE1621AS Servicing Kit CM140
X PMUE2041AS Servicing Kit CM340
X PMUE2027AS Servicing Kit CM160
X PMUE2043AS Servicing Kit CM360
X = Indicates one of each is required
7-6 MODEL CHART AND TEST SPECIFICATION
6.0 Model Chart (VHF1 136-162 MHz - High Power)
CM Series VHF1 136-162 MHz
Model Description
MDM50JQF9AA2_N CM160 136-162 MHz 25-45W 64-Ch
Item Description
X PMUD1947_ S. Tanapa VHF1 45W 64 Ch BNC
XFCN5523__ Control Head
XHKN4191_ Battery Power Cable
XRMN5018_ Mag One Microphone
X GLN7324_ Low Profile Trunnion
X6866546D02_ RTTE Leaflet
X 6866537D37_ Safety Leaflet
XPMUD1963AS Servicing Kit CM160
X = Indicates one of each is required
Model Chart (VHF2 146-174 MHz - High Power) 7-7
7.0 Model Chart (VHF2 146-174 MHz - High Power)
CM Series VHF2 146-174 MHz
Model Description
MDM50KQC9AA2_N CM140 146-174 MHz 25-45W 8-Ch
MDM50KQF9AA2_N CM160 146-174 MHz 25-45W 64-Ch
Item Description
X PMUD1848_ S. Tanapa VHF2 45W 8 Ch BNC
X PMUD1894_ S. Tanapa VHF2 45W 64 Ch BNC
XFCN6288_ Control Head
XFCN5523_ Control Head
XX HKN4191_ Battery Power Cable
X X RMN50188_ Mag One Microphone
X X GLN7324_ Low Profile Trunnion
XX 6866546D02_ RTTE Leaflet
XX6866537D37_ Safety Leaflet
XPMUD1885AS Servicing Kit CM140
XPMUD1887AS Servicing Kit CM160
X = Indicates one of each is required
7-8 MODEL CHART AND TEST SPECIFICATION
8.0 Model Chart (UHF1 403-440 MHz - High Power)
CM Series UHF1 403-440 MHz
Model Description
MDM50QPF9AA2_N CM160 403-440 MHz 25-40W 64-Ch
Item Description
X PMUE2160_ S. Tanapa UHF1 40W 64 Ch BNC
XFCN5523_ Control Head
XHKN4191_ Battery Power Cable
XRMN50188_ Mag One Microphone
X GLN7324_ Low Profile Trunnion
X6866546D02_ RTTE Leaflet
X 6866537D37_ Safety Leaflet
X PMUE2207AS Servicing Kit CM160
X = Indicates one of each is required
Model Chart (UHF2 438-470 MHz - High Power) 7-9
9.0 Model Chart (UHF2 438-470 MHz - High Power)
CM Series UHF2 438-470 MHz
Model Description
MDM50RPC9AA2_N CM140 438-470 MHz 25-40W 8-Ch
MDM50RPF9AA2_N CM160 438-470 MHz 25-40W 64-Ch
Item Description
X PMUE2008_ S. Tanapa UHF2 40W 8 Ch BNC
XPMUE2011_ S. Tanapa UHF2 40W 64 Ch BNC
XFCN6288_ Control Head
XFCN5523_ Control Head
XX HKN4191_ Battery Power Cable
X X RMN50188_ Mag One Microphone
X X GLN7324_ Low Profile Trunnion
XX 6866546D02_ RTTE Leaflet
XX6866537D37_ Safety Leaflet
X PMUE2033AS Servicing Kit CM140
X PMUE2035AS Servicing Kit CM160
X = Indicates one of each is required
7-10 MODEL CHART AND TEST SPECIFICATION
10.0 Specifications
General
Specification VHF1 VHF2 UHF1 UHF2 Midband
Frequency Range: 136-162 MHz 146-174 MHz 403-440 MHz 438-470 MHz 66-88 MHz
Frequency Stability
(-30°C to +60°C, 25°C Ref.)
±2.5 PPM ±2.5 PPM ±2 PPM ±2 PPM ±5.0 PPM
Channel Capacity: CM140 - 8
CM340 - 10
CM160 - 64
CM360 - 100
Channel Spacing: 12.5/20/25 kHz
Power Output: 1-25W, 25-45W 1-25W, 25-45W 1-25W, 25-40W 1-25W, 25-40W 1-25W
Power Supply: 13.8Vdc (11.0 - 16.6 Vdc) 25W Radios - negative vehicle ground
13.6Vdc (10.8 - 16.3 Vdc) 40W Radios - negative vehicle ground
Dimensions (L X W X H) 118mm X 169mm X 44mm
Weight: 1.02 Kg
Operating Temperature -30 to 60 o C
Storage temperature -40 to 80o C
Shock and Vibration Meets MIL-STD 810-C,D&E
and TIA/EIA 603
Dust Meets EN60529: IP54
Humidity Meets MIL-STD 810-C,D&E
and TIA/EIA 603
Specifications 7-11
Transmitter
Specification VHF1 VHF2 UHF1 UHF2 Midband
Frequency Stability: +/- 2.5ppm +/- 5ppm
Modulation Limiting: ±2.5 kHz @ 12.5 kHz
±4.0 kHz @ 20 kHz
±5.0 kHz @ 20/25 kHz
Current Drain Transmit: 7A (25W) 8A (25W)
FM Hum and Noise: -40 dB@12.5 kHz
-45 dB@ 20/25 kHz
-35 dB@12.5 kHz
-40 dB@ 20/25 kHz
-40 dB@12.5 kHz
-45 dB@ 20/25 kHz
Conducted/Radiated
Emissions:
-36 dBm < 1 GHz
-30 dBm > 1 GHz
Adjacent Channel Power -60dB @12.5,
-70dB @ 20/25kHz
Audio Response:
( 300 to 3000Hz) +1, -3dB
Audio Distortion:
@ 1000 Hz, 60%
Rated Maximum Deviation:
3% Typical
Receiver
Specification VHF1 VHF2 UHF1 UHF2 Midband
Sensitivity (12dBSINAD):
(ETS)
0.35µV (12.5kHz) 0.30µV (25kHz) Typical
Intermodulation : (ETS) >65 dB
Adjacent Channel
Selectivity: (ETS)
75 dB @ 25 kHz
65 dB @ 12.5 kHz
70 dB @ 25 kHz
60 dB @ 12.5 kHz
Spurious Rejection: (ETS) 75 dB 70 dB
Rated Audio: (ETS)
(Extended audio with
4 Ohm speaker)
4W Internal , 13W External
Audio Distortion @ Rated
Audio:
3% Typical
Hum and Noise: -40 dB @ 12.5 kHz
-45 dB @ 20/25 kHz
-35 dB @ 12.5 kHz
-40 dB @ 20/25 kHz
-40 dB @ 12.5 kHz
-45 dB @ 20/25 kHz
Audio Response:
( 300 to 3000Hz) +1, -3dB
Conducted Spurious
Emission per FCC Part 15:
-57 dBm <1 GHz
-47 dBm >1 GHz
7-12 MODEL CHART AND TEST SPECIFICATION
Glossary I
GLOSSARY
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 pro-
tects against high VSWR (voltage standing wave ration).
ASF IC Audio Signalling Filter Integrated Circuit with voice compander.
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.
Firmware Software, or a software/hardware combination of computer programs and data,
with a fixed logic configuration stored in a read-only memory. Information can-
not be altered or reprogrammed.
FGU Frequency Generation Unit.
GaAs Gallium Arsenide: a type of crystalline material used in some semiconductors.
ISW Inbound Signalling Word: data transmitted on the control channel from a sub-
scriber unit to the central control unit.
LCD Liquid Crystal Display: a module used to display the radio’s current operating
channel or system and scan status.
LDMOS Lateral Diffusion MOS.
LH DATA Longhorn Data: a bidirectional 0-5V, RS-232 line that uses the microcontroller’s
integrated RS-232 asynchronous serial communications interface (SCI) periph-
eral.
LLE Low Level Expander: slight amount of volume expansion; used to improve the
signal to noise ratio.
LSH Low-Speed Handshake: 150 baud digital data sent to the radio during trunked
operation while receiving audio.
MDC Motorola Data Communication.
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.
II Glossary
OSW Outbound Signalling Word: data transmitted on the control channel from the
central controller to the subscriber unit.
PC Board Printed Circuit Board
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 refer-
ence, usually after passing through a frequency divider.
PTT Push-To-Talk: the switch located on the left side of the radio which, 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.
Repeater Remote transmit/receive facility that retransmits received signals to improve
communications coverage.
RESET Reset line: an input to the microcontroller that restarts execution.
RF PA Radio Frequency Power Amplifier
RIB Radio Interface Box
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 Software Potentiometer: 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
System Central Con-
troller
Main control unit of the trunked dispatch system; handles ISW and OSW mes-
sages to and from subscriber units (see ISW and OSW).
System Select The act of selecting the desired operating system with the system-select switch
(also, the name given to this switch).
TOT Time-Out Timer: a timer that limits the length of a transmission.
TPL Tone Private-Line
µC Microcontroller
Glossary III
UHF Ultra High Frequency
µP Microprocessor
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
IV Glossary

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