Ericsson GE ORION LBI-39073, ORION Service Manual

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LBI-39073

SERVICE SECTION

ORION™

806 - 870 MHz

SYNTHESIZED TWO-WAY FM RADIO

TABLE OF CONTENTS

Page

DESCRIPTION............................................................................................................................................................... 2

INITIAL MEASUREMENTS......................................................................................................................................... 2

TRANSMITTER............................................................................................................................................... 2

RECEIVER ....................................................................................................................................................... 2

MAINTENANCE............................................................................................................................................................ 3

PREVENTATIVE............................................................................................................................................. 3

DISASSEMBLY PROCEDURES..................................................................................................................... 3

ALIGNMENT PROCEDURES....................................................................................................................................... 7

INTRODUCTION............................................................................................................................................. 7

TRACKING DATA .......................................................................................................................................... 9

TEST FREQUENCIES ..................................................................................................................................... 9

SETTING TRACKING DATA......................................................................................................................... 9

TRANSMITTER ALIGNMENT..................................................................................................................................... 10

PA TRANSISTOR REPLACEMENT............................................................................................................................. 11

RECEIVER ALIGNMENT............................................................................................................................................. 11

TEST EQUIPMENT REQUIRED.................................................................................................................... 11

ADJUSTMENT PROCEDURES...................................................................................................................... 11

SQUELCH ADJUSTMENT ............................................................................................................................. 12

TROUBLESHOOTING GUIDE..................................................................................................................................... 12

INTRODUCTION............................................................................................................................................. 12

MICROPHONICS............................................................................................................................................. 12

SERVICEABLE PARTS................................................................................................................................... 13

DIAGNOSTIC PROCEDURES...................................................................................................................................... 14

ADDITIONAL TOOL REQUIRED.................................................................................................................. 14

TRANSMITTER............................................................................................................................................... 15

RECEIVER ....................................................................................................................................................... 16

CONTROL UNIT ............................................................................................................................................. 17

GENERAL ........................................................................................................................................................ 18

ERROR CODES................................................................................................................................................ 18

LBI-39073

DESCRIPTION

This section contains the information required to service the ORION 800 MHz two-way FM mobile radio. Included are disassembly procedures, alignment procedures and troubleshooting information (see Table of Contents).

This radio is adjusted by setting personality parameters stored in the radio computer memory. Therefore, all radio alignment procedures require the use of a Personal Computer along with an Ericsson GE Programming Interface TQ3370, and ORION PC Programming cable TQ3377. Ericsson GE PC Programming Software Version 3.00 or later is also required.

This radio is designed to be serviced by replacement of modules and/or circuit boards. As such, there are very few serviceable component parts contained on any of the circuit boards within the radio. Normally, defective boards should be replaced and returned to an Authorized Ericsson

(IBM PC, or equivalent)

(PC)

GE Service Center. Any serviceable parts are listed in the troubleshooting guide for the individual circuit boards.

INITIAL MEASUREMENTS

After the radio has been installed as described in the Installation Manual, the following measurements should be made by a certified electronics technician and recorded for future reference:

TRANSMITTER

• RF power into 50 ohm resistive load

• Forward power into antenna

• Reflected power from antenna

• Carrier frequency

• Modulation deviation

RECEIVER

• 12 dB SINAD sensitivity

LBI-39073

MAINTENANCE

PREVENTIVE MAINTENANCE

NOTE

To ensure high operating efficiency, and to prevent mechanical and electrical failures from interrupting system operations, routine checks should be made of all mechanical and electrical equipment at regular intervals. This preventive maintenance should include the checks as listed in Table 1, Maintenance Checks.

Table 1 - Maintenance Checks

MAINTENANCE CHECKS INTERVAL

CONNECTIONS

be periodically checked for tightness. Loose or poor connections to the power source will cause excessive voltage drops and faulty operation. When ground connections are not made directly to the battery, the connection from the battery to vehicle chassis must be checked for low impedance. A high impedance may cause excessive voltage drops and alternator noise problems.

ELECTRICAL SYSTEM

periodically to keep the electrical system within safe and economical operating limits. Over voltage is indicated when the battery loses water rapidly. Usage of 1 or 2 ounces of water per cell per week is acceptable for batteries in continuous operation. A weak battery will often cause excessive noise or faulty operation.

MECHANICAL INSPECTION

vibration, check for loose plugs, nuts, screws, and parts to make sure that nothing is working loose. Be sure that all screws are properly torqued.

ANTENNA INSPECTION

clean and free from dirt or corrosion. If the antenna or its base should become coated or poorly grounded, loss of radiation and a weak signal will result.

- Ground connections and co nnections to the voltage source should

- Check the voltage regulator and alternator or generator

- Since mobile units are subject to constant shock and

- The antenna, antenna base, and all contacts should be kept

Every

months

Required

Every 6

months

Every 6

months

ALIGNMENT

periodically, and the alignment "touched up" when necessary. Refer to the applicable Alignment Procedure and troubleshooting sheet for typical voltage readings.

FREQUENCY CHECK

the FCC. Normally, these checks are made when the unit is first put into operation, after the first six months, and once a year thereafter.

- The transmitter and receiver meter readings should be checked

- Check transmitter frequency and deviation, as required by

Required

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DISASSEMBLY PROCEDURE

To Remove Unit From Mounting Bracket

1. Remove the microphone, power and accessory/remote control cables, as required.

2. Remove the lock screws at the side of the radio unit, using a #20

3. Pull the radio out of the mounting bracket.

To Gain Access To The Circuitry For Servicing

RF Power Amplifier Module:

1. Remove the waterproof cover on bottom of the module, using a #20 mounting screws are captivated to the cover.

2. Remove the inner shield by pulling with the attached handle.

Transceiver (TXRX) Module:

1. Remove the waterproof top and bottom covers using #20

TORX

located on the bottom of the module. These screws are captivated to the bottom cover.

2. To expose the Logic/Audio/455 kHz IF circuitry, remove the shield on top of the module by pulling with the attached handle.

3. To expose the Exciter/RX front end circuitry, remove the shield on the bottom of the module by pulling with the attached handle.

TORX

driver.

TORX

driver. Note that the four

driver. Four cover mounting screws are

NOTE

2. Disconnect Flex Circuit PC2 from connector J701, by carefully disengaging the locking tab from each side of the connector with a jeweler's screwdriver or tweezers. Use extreme care not to damage plating runs or surface mounted components on the printed wire board during this procedure.

3. Turn the radio upside down, and disengage the two mounting screws, using #10

driver. Be sure to

TORX

engage the screws in the captivation threads on the transceiver chassis. Do this by pulling each screw upward with tweezers or needle nose pliers, while simultaneously turning the screw counterclockwise with the TORX (cr ) driver. See maintenance manual LBI-38909 for more details.

4. Disengage the control unit from the transceiver chassis using a pivoting motion about the top edge of the transceiver chassis.

5. Disengage the four captivated screws on the rear cover, using #10

driver. Slide the rear cover

TORX

off the front panel assembly, using care not to damage the black

"O-Ring"

moisture gasket attached to the rear cover. Note that flex circuit PC2 slides through a slot opening on the rear cover.

Control Head (Remote Mounting)

1. Disconnect the remote control and accessory cables, using a small flat blade screwdriver.

2. Remove the two side mounting screws from the mounting bracket. Carefully remove the control head assembly from the bracket.

3. Disengage the four captivated screws on the rear half , also known as the Remote Interface Adapter

(RIA)

of the control head. Slide the two halves apart, using care not to damage the black

"O-Ring"

moisture

gasket attached to the RIA.

The VCO/Synthesizer circuitry is exposed by removing screws from the shield casting, also located on the bottom of the module. However, this is not recommended, except in extreme situations. If the shield is removed, it should be replaced using exact screw torque and installation sequence given in maintenance manual LBI-38909.

Control Unit (Front Mounted):

1. Expose Logic/Audio/455 kHz IF circuitry according to instructions 1 and 2 above.

4. Disconnect flex circuit PC2 from connector J2, by carefully disengaging the locking tab from each side of the connector with a jeweler's screwdriver or tweezers. Use extreme care not to damage plating runs or surface mounted components on the printed wire board during this procedure.

To Reassemble The Radio After Service

Essentially follow the reverse of the above instructions. However, in order to preserve moisture seals, be sure to follow the

EXACT

torque and sequencing

specifications for screw engagement during reassembly.

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These specifications are given in maintenance manual LBI-38909.

NOTE

For re-assembly of the Control Units (Front and Remote Mounting) Revision "A" or later, be sure the black "O- Ring" is lubricated properly with "HIVAC-G" silicone grease (See Figures 1A and 1B for instructions).

Steps:

1. Remove dust and dirt from the black O-Ring gasket.

2. Apply proper amount of the silicone grease to a cloth as shown in Figures 1A and 1B.

3. Put the silicon grease on the black O-Ring gasket, covering the surface of the gasket evenly (see Figure 1A and 1 B).

CAUTION

No Fibers of the cloth must remain on the gasket after the silicone is applied.

4. Wipe out protruded silicone grease form the Rear/RIA Cover.

LBI-39073

Figure 1A - Front Mount Control Unit "O-Ring" Lubrication

Figure 1B - Remote Mount Control Unit "O-Ring" Lubrication

LBI-39073

ALIGNMENT PROCEDURES

INTRODUCTION

All operations of this radio are controlled by an embedded digital computer, which is programmed with a personality unique to the customer. In order to align and test the radio, it must be programmed with a specific test personality, which will allow conventional operation on certain test frequencies. Certain tests can be carried out by altering the personality. Furthermore, certain commands, known as Test Mode Commands, cause the radio to perform specific test functions. These will be noted as required in the following alignment and troubleshooting instructions.

In order to program an and control unit must first be connected to a personal computer through PC Pr ogramming Cable and Hardware Programming Interface TQ3370, in one of the configurations shown in Figure 2. Accessories may be connected to the appropriate accessory cable 19B802554P1-P4 as needed.

The PC must be equipped with the Ericsson GE PC Programming Software, Version 4.0 or later. It is assumed in this manual that the Service Technician is familiar with the operation of the PC Programming Software programs

"EDACS3"

Programming Software manuals for further details regarding this software.

and

ORION

"MRKMAINT"

personality, the radio

. Consult the PC

CAUTION

Before bench testing the radio, be sure of the output voltage characteristics of your bench power supply.

To protect the transmitter power output transistors from possible instant destruction, the following input voltages must not be exceeded.

Transmitter unkeyed 16.5 Volts Transmitter keyed

(50 ohms resistive load) 16.3 Volts

Transmitter keyed

(No load or non-resistive load) 14.0 Volts

These voltages are specified at the normal vehicle battery terminals of the radio and take the voltage drop of standard cables into account. The voltage limits shown for a non-optimum load is for "worst case" conditions. For antenna mismatches likely to be encountered in practice, the actual limit will approach the 16.3 Volt figure.

Routine transmitter test should be performed at EIA Standard Test Voltages (13.6 Vdc for loads of 6 to 16 amperes; 13.4 Vdc for loads of 16 to 36 amperes). Input voltages must not exceed the limits shown, even for transient peaks of short duration.

Many commonly used bench power supplies cannot meet these requirements for load regulation and transient voltage suppression. Bench supplies which employ

"brute force"

Model 73) may be usable when operated in parallel with a 12 Volt automotive storage battery.

regulation and filtering (such as Lapp

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Figure 2 - ORION Programming Configurations

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TRACKING DATA

The radio personality contains certain information bytes known as computer to calibrate transmitter power , modulation deviation and squelch threshold. Normally, no adjustments need be made to the radio to maintain specified limits for the above parameters, since the radio computer makes the necessary adjustments using the Tracking Data established at the factory. However, should the transmitter PA, synthesizer or logic circuit boards be replaced, it may be necessary to alter the Tracking Data to re-set these parameters properly. Furthermore, if the

Tracking Data

TABLE 2 - TRACKING DATA FREQUENCIES - TX RF POWER/RX SQUELCH

Parameter TX RPT INPUT TX TALK AROUND Squelch Set

fH (MHz) 806.0000 851.0000 851.0000

fLM (MHz) 810.7500 855.7500 855.7500

fM (MHz) 815.5000 860.5000 860.5000

fMH (MHz) 820.2500 865.2500 865.2500

fH (MHz) 825.0000 870.0000 870.0000

TABLE 3 - TRACKING DATA FREQUENCIES - TX MODULATION

, which allow the radio

Tracking Data is lost, specialized procedures are required to load new Tracking Data. Therefore, it is

IMPORTANT

of every radio as it is received from the factory. The frequencies at which Tracking Data is established are given in the

to establish a record of the Tracking Data

"Test Frequencies"

section.

VERY

TEST FREQUENCIES

The following frequencies are those for which Tracking Data is established and are used as Test Frequencies:

Parameter Modulation Deviation

f1L (MHz) 806.0000 f1H (MHz) 815.5000 f2L (MHz) 815.5125 f2H (MHz) 825.0000 f3L (MHz) 851.0000 f3H (MHz) 860.5000 f4L (MHz) 860.5125 f4H (MHz) 870.5000

SETTING TRACKING DATA

Normally, tracking data is set at the factory and need not be reloaded. However, the following repair situations

require reloading some or all of the tracking data:

SITUATION

Replace PA module RF Power, Squelch (Reload if necessary)

Replace TXRX module RF Power, Modulation Deviation, Squelch, Feature Encryption, Data Offset

Replace Control Unit None

Replace synthesizer Board Modulation Deviation, Data Offset

NEW TRACKING DATA REQUIRED

Replace Logic Board RF Power, Squelch, Modulation Deviation, Feature Encryption, Data Offset

LBI-39073

To reload Tracking Data, connect the radio in the appropriate configuration as shown in Figure 1 or 2, and perform the following steps:

1. When using the Ericsson GE PC Programming Software, make sure the radio is programmed in the following sequence:

a. Customer Operational Software (If necessary)

b. Tracking Data (1st Iteration - Tracking Data

originally shipped with the radio is a good starting point

c. Feature Encryption File (If necessary). Note that

in order to load an Encryption File into a new Logic board, Ericsson GE Service Parts Department must first be contacted at 1-800-368-3277 for the authorization code. Otherwise, the file will not load.

d. Personality, which contains a

CONVENTIONAL SYSTEM using the frequencies given inTable 2 or Table 3.

2. Connect the radio unit in the normal operating configuration. Activate the radio unit and using aService Monitor HP8920A or equivalent. Measure transmitter power, modulation deviation and squelch threshold for each of the applicable frequencies given in Table 2 or Table 3. Measurements should be within the following limits:

PARAMETER LIMIT

TX Modulation Deviation 4.4 ± 0.1 kHz

NOTE

When measuring TX power it is extremely important to account for RF cable and connector losses at 800 MHz. Use only short cable lengths, and use the largest diameter cable possible with the radio unit. Also, use new connectors where possible. Discard any connectors which are worn or bent out of shape.

3. If measurements are within limits, the job is complete. If not, reconnect in the programming configuration according to Figures 1 or 2 and execute the programming maintenance software "MRKMAINT". Display the Tracking Data screen. For those frequencies where measurements are not within limits, enter new Tracking Data, following instructions on the screen. Program into radio personality and exit.

4. Repeat Steps 2 and 3 until measurements at every frequency given in Table 2 or 3 are within the limits specified above.

TRANSMITTER ALIGNMENT

The transmitter consists of synthesizer, exciter and

power amplifier. These have been calibrated at the factory such that the radio computer automatically adjusts RF power and modulation deviation, based upon Tracking Data. The following adjustments can be made by Ericsson GE PC Programming Software:

CAUTION

TX High Power

35/30 Watt Model 806-825 MHz 35 +3, -0 Watts

851-870 MHz 30 +3, -0 Watts

12 Watt Model 12 +1.5, -0 Watts

TX Low Power

35/30 Watt Model 19 +0.5, -0.5 Watts 12 Watt Model 6 +0.5, -0.5 Watts

RX Squelch Threshold 8 +0.5, -0.5 dB

SINAD

DO NOT CHANGE TRACKING DATA UNLESS THE PA MODULE OR LOGIC BOARD HAS BEEN REPLACED. DO NOT CHANGE TRACKING DATA FOR ANY FREQUENCY OTHER THAN THAT GIVEN IN TABLES 2 OR 3.

1. Modulation Deviation - Change Tracking Data using "MRKMAINT" maintenance software. Follow the procedure given in "TRACKING DATA" section. Be sure to record new tracking data and modulation levels.

2. RF Power - Set RF power for system (EDACS) or channel (CONVENTIONAL) in radio personality, using "EDACS3" programming software.

LBI-39073

There are no other adjustments to be made on the transmitter. However, there are components located on the synthesizer and power amplifier, which appear to be adjustable. These are summarized as follows:

SYNTHESIZER CV201, CV202, RV201

POWER AMPLIFIER (35/30 WATT) RV1

POWER AMPLIFIER (12 WATT) RV1

These components have been set at the factory, and are NOT ADJUSTABLE

THESE COMPONENTS WILL VOID THE WARRANTY OF THIS PRODUCT.

. ANY READJUSTM ENT OF

PA TRANSISTOR REPLACEMENT

WARNIN

The RF Power Transistors used in the transmitter contain Beryllium Oxide, a TOXIC substance. If the ceramic or other encapsulation is opened, crushed, broken, or abraded, the dust may be hazardous if inhaled. Use care in replacing transistors of this type.

care not to use excessive heat that causes the printed wire board runs to separate from the board. Check for shorts and solder bridges before applying power.

CAUTION

Failure to solder the transistor leads as directed may result in the generation of RF loops that could damage the transistor or may cause low power output.

RECEIVER ALIGNMENT

Alignment of the Front End and Local Injection circuits are not required because band-pass filters are employed in the ORION wide-band synthesized radio receiver.

TEST EQUIPMENT REQUIRED

Distortion Analyzer

•

AC Voltmeter

•

RF Signal Generator

•

To Replace the PA RF Transistors

1. Unsolder one lead at a time with a 50-watt soldering iron. Use a scribe or X-acto

away from the printed circuit board until the solder cools. Remove the mounting screws.

2. Lift out the transistor. Remove any old solder from the printed circuit board with a vacuum de-soldering tool. Special care should be taken to prevent damage to the printed circuit board runs because part of the matching network is included in the base and collector runs.

3. Trim the new transistor leads (if required) to the lead length of the removed transistor.

4. Apply a coat of silicone grease to the transistor mounting surface. Place the transistor in the mounting hole. Align the leads as shown on the Outline Diagram. Then replace the transistor mounting screws using moderate torque (9.4 kg.cm).

5. Solder the leads to the printed circuit pattern. Start at the inner edge of the mounting hole and solder the remaining length of transistor lead to the board. Take



knife to hold the lead

Frequency Counter (806-870 MHz)

•

4-Ohm, 25-Watt Resistor

•

Audio Isolation Transformer (1:1)

•

19A116736P1 or equivalent

NOTE

Before aligning the receiver or making any adjustments to the radio, be sure that the output of the 9-Volt Regulator is

9.0 ±0.2 Vdc.

ADJUSTMENT PROCEDURES

Receiver Frequency Adjustment

No receiver frequency adjustment is required.

LBI-39073

2nd Receiver Oscillator

Using a frequency counter monitor TP5 Terminal, set

L521 for a frequency of 82.655 MHz ±200 Hz.

IF/FM Detector Alignment

1. Apply a 1000 micro volt, on-frequency test signal modulated by 1,000 Hz with standard deviation to antenna jack J1.

2. Connect a 4-ohm, 25-watt resistor in place of the speaker. Connect the isolation transformer input across the resistor. Connect the isolation transformer output to the Distortion Analyzer (see Figure 3).

SQUELCH ADJUSTMENT

Squelch threshold has been set at the factory to 8 dB SINAD. Adjustment of the threshold requires changing the tracking Data. To change the squelch tracking data, follow the iterative procedure set forth in the

"TRACKING DATA"

section, except let the desired squelch threshold level replace the 8 +0.5, -0.5 dB SINAD level set at the factory. BE SURE TO CHANGE THE TRACKING DATA FOR ALL FREQUENCIES GIVEN IN TABLE 2 OR 3. Otherwise the level will not be consistent across the frequency band.

TROUBLESHOOTING GUIDE

3. Adjust the VOLUME control for 15 watts output (7.75 VRMS) using the Distortion Analyzer as a voltmeter.

4. Set the output signal level of the RF signal generator so as to obtain 12 dB SINAD at audio output.

5. Adjust coils L502, L504, L505, and L507 to obtain minimum 12 dB SINAD.

6. Set the output signal level of the RF signal generator to 1000 microvolts.

7. Adjust L523 for maximum audio output.

8. Adjust RV501 for XTONEDEC output at ORCC to 500 mVRMS.

4-OHM LOAD

INTRODUCTION

of modules an/or circuit boards. As such, there are very few serviceable component parts contained on any of the circuit boards within the radio. Normally, defective boards should be replaced and returned to an Authorized Ericsson GE Service Center. A list of serviceable parts is given in the next section.

MICROPHONICS

vibration, creating microphonics. The construction of the

ORION

shield, and multiple board-mounting screws, provides a high degree of immunity. When removing printed cir cuit boards or shields, note the location of all mounting hardware.

ISOLATION

TRANSFORMER

This radio is designed to be serviced by replacement

Synthesized radios tend to be sensitive to shock and

radio with its die-cast aluminum frame, cast

DISTORTION ANALYZER

AC VOLTMETER

Figure 3 - Audio Isolation Transformer

Isolation transformer needed only if instrument cannot be isolated from ground at input terminals.

1 : 1

NOTE

When servicing the radio be sure that no solder b uild-

up has occurred on the chassis or shield.

To assure a high degree of resistance to microphonics be sure to replace exactly, all hardware removed. Be sure that all mounting screws are properly torqued and shields are in place. Refer to the Mechanical Layout Diagram found in LBI-38909.

NOTE

Loose or rubbing parts, especially in the VCO area, are particularly sensitive and can cause microphonics. Again, be certain all hardware is properly installed and torqued.

SERVICEABLE PARTS

Control Unit - Switch Circuit CDF-368B/M

No serviceable parts.

Control Unit - Panel Control CMC-638

No serviceable parts.

Remote Control Unit - RIA NQZ-4882

J2 Connector, 18 pin B19/5JBAX00020

LBI-39073

Radio Unit - System Control Logic CMC-682

F601 Fuse, 5 amp. B19/5ZFAP00008 IC604 AF Power Amplifier B19/5DAAA00350 J701 Connector, 18 pin B19/5JDAG00315

Radio Unit - IF CMF-138P

No Serviceable parts.

Radio Unit - Synthesizer/Receiver/Exciter CMN-358

No Serviceable parts.

Radio Unit - Power Amplifier CAH-585L, CAH-585H

12Watt Model CAH-585L

HC1 Power Amplifier Module B19/5DHAA0053 HC2 Power Amplifier Module B19/5DDAB00509 IC1 Positive Voltage Regulator B19/DAAA00428

35/30 Watt Model CAH-585H

HC1 Power Amplifier Module B19/5DHAA0053 HC2 Power Amplifier Module B19/5DDAB00509 TR1 Silicon: NPN B19/5TCAD00145 IC1 Positive Voltage Regulator B19/DAAA00428 C15 and C16 C17 and C18

Ceramic: 15 pF ±5% 100 VDCW, temp coef 0±60 PPM.

Metal mica: 22 pF ±5% 100 VDCW.

B19/5CAAA03101

B19/5CAAH00024

LBI-39073

DIAGNOSTIC PROCEDURES

This product can be easily measured for maintenance using a Communications Service Monitor, of which several models

are available. A typical test configuration for the ORION product is shown in Figure 4.

NOTE

It is also possible to combine this test configuration with the PC programming configuration shown in Figure 2. This usually results in increased efficiency, since the service technician can alternate between programming and hardware testing, as the need arises.

Figure 4 - Typical ORION Test Configuration

ADDITIONAL TOOLS REQUIRED:

• RF Power Attenuator (30 dB, 150 watt, for transmitters with RF power beyond capability of the Service Monitor)

• Digital Voltmeter

• Oscilloscope (Optional)

LBI-39073

TRANSMITTER

SYMPTOM DIAGNOSTIC PROCEDURE

No RF power output a) Program a conventional system with frequencies given in Table 2 or 3. Use the

"EDACS3"

PC Programming utility.

b) Check RF Power Tracking Data, using the

Data should be the same as that shipped with the radio. If fail, re-enter Tracking data using procedure given in the

c) Check TP1 on PA board for A+.If no A+ present, check power cable fuse.

d) Key the radio and measure the DC voltage at TP4 (9 Vdc typical, when keyed). If not

there, trace

e) Unscrew PA module from rest of the radio unit. Remove P1 from J151 and connect an

RF wattmeter to J151. Power should be 9 ±5 mW. If not, replace Synthesizer board and reload the Modulation Tracking Data. If the correct power level is there, replace PA board.

Frequency too low/high Adjust the reference oscillator XU201 on the Synthesizer board. If the frequency still not

correct, replace the Synthesizer board.

Low or no modulation a) Program a conventional system with frequencies given in Tables 2 or 3. Us the

"EDACS3"

b) Check the Modulation Tracking Data, using the

utility. The data should be the same as that shipped with the radio. If not, re-enter the Tracking Data using the procedure given in the

c) Apply a 1000 mVRMS, 1 kHz audio signal to the microphone connector, Pin 1 (Pin 2 is

ground reference). Key the radio (make sure the antenna connector is connected to the proper 50 ohm load). Check for an audio signal at TP202 on the Synthesizer board. If not there, replace the Synthesizer board and reload the Modulation Tracking Data.

TXENABLE

PC programming utility.

"Tracking Data"

signal back to Logic board.

"MRKMAINT"

Section of this manual.

"MRKMAINT"

"Tracking Data"

PC programming utility.

PC programming

section of this manual.

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RECEIVER

SYMPTOM DIAGNOSTIC PROCEDURE

Low RF sensitivity a) Program a Conventional System with frequencies given in Tables 2 or 3. Use

"EDACS3"

PC programming utility.

b) Unscrew the PA module from the

on the Synthesizer board. Do not disconnect any other cable.

c) Set the frequency of the RF signal generator to the middle of the split. Apply a standard

RF signal to J401 and measure 12 dB SINAD sensitivity. Sensitivity should be better than 0.29 µV.

d) If correct, replace the PA board.

e) If not, realign the receiver, as instructed in the

sensitivity at J401.

f) If correct now, reassemble with the PA module and recheck sensitivity at the antenna

connector. If correct, the job is complete.

g) If not correct, substitute a known good Synthesizer board and recheck sensitivity.

h) If still not correct, replace the Logic board. Be sure to perform complete reprogramming

on the new logic board. If correct , replace the Synthesizer board and reload Modulation Tracking Data.

High audio distortion a) Program a Conventional System with frequencies given in Tables 2 or 3. Use the

"EDACS3"

b) Apply a standard 1000 µ V RF signal (with 1 kHz audio modulation at 3 kHz deviation)

at one of the programmed RF frequencies in the center of the split to J1001. Set the volume control to produce 15 watts at the 4 ohm speaker load.

PC programming utility.

module. Disconnect coaxial cable P2 from J401

TXRX

"ALIGNMENT

" section and recheck

c) Measure audio distortion at

correct (3% THD), replace IC604 Audio Power Amplifier on the Logic board.

d) If not, realign the receiver according to the alignment procedure. Recheck

distortion at the speaker load or

e) If not correct, replace the Logic board. If correct, job is complete.

"VOL HI"

output (J1003, Pin 13 referenced to Pin 12). If

CONTROL UNIT

SYMPTOM DIAGNOSTIC PROCEDURE

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Radio dead at power-on (display dark and no lighted indicators)

a) Check battery connections and the Red Lead A+ fuse on the Power Cable.

b) Turn unit "OFF", then simultaneously press and hold

"OPTION"

buttons, while turning the unit "ON". All indicator lights and all disp lay

"EMERGENCY"

and

dots should light. Release the buttons and the display should show the following message:



- 1993

EGE

This indicates that the Control Unit is functioning correctly. If correct, check programming and feature encryption, using the

"EDACS3"

PC programming utility.

c) If not correct, measure A+ voltage at the microphone connector, Pin 6 (reference

ground at Pin 7). If not present, check fuse F601 on the Logic board for A+ on each side of part. Replace if open circuited.

d) If the fuse is OK, check the connection of Flex Circuit PC2 with J701 on the Logic

board. If still not present, reconnect, making sure side tabs are locked. Recheck microphone connector Pin 6 for A+.

e) If A+ is present, Check programming and feature encryption, using "EDACS3" PC

programming utility. If symptom persists, substitute a known good Logic board and reprogram.

f) If no A+ is at the microphone, Pin 7, check for A+ on the Logic board, J704, Pin 3. If

not there, check the J704/J1004 connection. If still not there, replace the PA module. If there, replace the Logic board.

Display lights, then goes

dead

a) Turn unit "OFF", then simultaneously press and hold the

"OPTION"

buttons, while turning the unit "ON". All indicator lights and all display dots

"EMERGENCY"

and

should light. Release the buttons and the display should show the following message:



- 1993

EGE

This indicates that the Control Unit is functioning correctly. If OK, check programming and feature encryption, using "EDACS3" PC programming utility.

b) If OK, check connection of Flex Circuit PC2 with J701 on the Logic board. If not OK,

reconnect , making sure side tabs are locked.

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GENERAL

SYMPTOM DIAGNOSTIC PROCEDURE

Any Hardware malfunction Printed Wire Board substitution is a valid technique for service and repair of the ORION

product, since there are only a few circuit boards in the product:

1) RF Power Amplifier

2) Logic/IF/Audio

3) Synthesizer/Exciter/RX Front End

4) Control Unit Panel Control

5) Control Unit Switching

6) Control Unit RIA (Remote only)

7) DSP (AEGIS only)

The service shop should be equipped with a set of the above circuit boards which can be used for substitution. Defective circuit boards can be isolated simply by substituting one at a time. It is recommended that the Logic board used for substitution be preprogrammed with a conventional system and frequency set given in Tables 2 or 3.

ERROR CODES

This section list all of the ORION radio errors and warnings. Each error code in the list includes an explanation of what went wrong and what action to take to correct the problem. These error codes are divided into three different categories:

Fatal Operational Error Codes -

that are displayed during the radio normal operation

or on the radio power-up (Fatal System Errors).

These errors will cause the radio to reset.

Non-Fatal Operational Error Codes -

errors that are displayed during the radio normal

operation or on the radio power-up. The radio will

NOT reset.

These are errors

These are

Radio Programming Errors -

are displayed on the radio or the programming PC display during radio programming.

All System Groups ORION

System Errors:

Fatal system errors will cause the radio to display an error message/code and then reset the radio to the starting operation. The reset condition will remain until the fatal error(s) is (are) corrected.

Non-Fatal errors are displayed for a short period (about 2 seconds) then normal radio operation will resume.

The errors are displayed on the radio as shown in Figure 5.

These are errors that

LBI-39073

message

ERR = xxxx

Figure 5 - Error Message/Code Display

where xxx is the error code and the message is

one of the messages listed below

FATAL ERRORS NON-FATAL ERRORS

ERROR MESSAGE DESCRIPTION ERROR MESSAGE DESCRIPTION

HARDWARE ROM errors UNKNOWN SOFTWARE General software failure FEAT ERR Feature encryption error TRACKING Tracking data fatal error DSP ERR DSP error

NO LOCK Synthesizer not locking FREQDATA Frequency data fatal error PERSDATA Personality errors

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ROM Fatal Systems Errors

ROM fatal errors may be corrected by cycling the radio power (turn it off then on). When the power cycle does not

correct the problem the radio must be serviced.

ERROR NAME MESSAGE CODE DESCRIPTION

FATAL_SYS_TRAP HARDWARE 0 Fatal system error trap number. FATAL_NMI_ERROR HARDWARE 1 NMI occurred outside of sleep. FATAL_RAM_ERROR HARDWARE 2 8K RAM test error. FATAL_ROM_CHKSUM HARDWARE 3 32K ROM checksum test error. FATAL_FLSH_CHKSUM HARDWARE 4 Flash checksum test error. FATAL_ASIC_LOAD HARDWARE 10 ASIC driver failed initialization. FATAL_ICP_LOAD HARDWARE 11 ICP driver failed initialization. FATAL_ASP_LOAD HARDWARE 12 ASP driver failed initialization. FATAL_EE_LOAD HARDWARE 13 EEPROM driver failed initialization. FATAL_ICP_PORTNIT HARDWARE 14 ICP digital I/O initialization failed. FATAL_INTOUT_LOAD HARDWARE 15 Standard input/output driver failed initialization. FATAL_INTIN_LOAD HARDWARE 16 Standard input driver failed initialization. FATAL_RADIO_LOAD HARDWARE 17 RADIO driver failed initialization. FATAL_MODEM_LOAD HARDWARE 18 MODEM driver failed initialization. FATAL_EXTIO_LOAD HARDWARE 19 External I/O driver failed initialization. FATAL_SCI_LOAD HARDWARE 20 Serial communication interface driver failed initialization. FATAL _ICP_CHKSUM HARDWARE 21 ICP prom checksum. FATAL_ADI_NOACK HARDWARE 30 ADI did not respond to command. FATAL_LCD_NOACK HARDWARE 40 LCD did not acknowledge message. FATAL_LCD_HARD_FAIL HARDWARE 41 LCD hardware is invalid. FATAL_SCI_NOHEAP HARDWARE 50 Serial communication interface out of heap (RAM memory) space. FATAL_ICP_NOACK HARDWARE 60 ICP did not acknowledge message. FATAL_EXTIO_ICPFAIL HARDWARE 70 ICP failed in a fork. FATAL_RADIO_ASPWRT HARDWARE 80 Radio driver could not write to ASP. FATAL_ROM_NOHEAP HARDWARE 90 Software memory error - ROM task. FATAL_BL_NOHEAP HARDWARE 91 Software memory error - Boot loader. FATAL_BL_SCI_ATACH HARDWARE 92 Boot loader could not attach to SCI.

Operational Software Non-Fatal System Errors

ERROR NAME MESSAGE CODE DESCRIPTION

PIFEAT_SNR_ERROR FEAT ERR 550 Feature encryption - Can not read radio ROM serial number. PIFEAT_READ_ERROR FEAT ERR 551 Personality feature encryption read failure or data not available. PIFEAT_CRC_ERROR FEAT ERR 552 Decryption failure. Personality feature encryption CRC failure. AEGIS_ADIDOWN_ NOTFOUND AEGIS_ADIDOWN_ CRCFAIL AEGIS_ADIDOWN_ ENCERR AEGIS_ADIDOWN_PMFAIL DSP ERR 854 DSP file is corrupted or hardware failure. RE-program radio or power cycle the

AEGIS_ADIDOWN_DMFAIL DSP ERE 855 DSP file is corrupted or hardware failure. Re-program radio or power cycle radio. AEGIS_ADIDOWN_ BIOSERR

DSP ERR 851 DSP file not found.

DSP ERR 852 DSP file not found.

DSP ERR 853 Radio feature encryption does not match DSP file.

radio.

DSP ERR 856 Hardware failure.

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Operational Software Fatal System Errors

ERROR NAME MESSAGE CODE DESCRIPTION

RADC_PITD_ERROR TRACKING 200 Personality tracking data error. Re-program the tracking data. RADC_PIHW_ERROR PERSDATA 201 Personality hardware data error. Re-program the personality. RADC_FREQ_ERROR FREQDATA 202 Personality frequency data error. Re-program the personality. RADC_PITD_MALLOC_ ERROR RADC_PITD_CKSUM_ ERROR DACS_NO_LOCK NO LOCK 300 Synthesizer did not lock or became unlocked. Check the frequencies in the PC

DACS_MODEM_FATAL_ ERROR DACS_RADC_FAILURE SOFTWARE 302 Power cycle the radio. DACS_MODEM_RXOVR SOFTWARE 304 Hardware Modem overflow. Power cycle the radio. DACS_MODEM_RXAVR SOFTWARE 305 Power cycle the radio. CONV_RADC_ERROR SOFTWARE 400 Error calling RADC function. Power cycle the radio. CONV_NOLOCK_ERROR NO LOCK 401 Synthesizer became unlocked. check the frequencies in the PC programmer and re-

CONV_PUT_UIMSG_ ERROR CONV_MODEM_RXOVR SOFTWARE 403 Conventional DIGV modem overflow. CONV_MODEM_RXAVR SOFTWARE 404 Conventional DIGV modem underflow. CONV_MODEM_FATAL_ ERROR CONV_PERS_ERROR PERSDATA 407 Conventional personality error. PI_NOPERS_ERROR PERSDATA 500 Personality data is not present. Program the personality. PI_CRC_ERROR PERSDATA 501 Flash personality CRC did not match EEPROM. Re-program the personality. PI_DESC_CRC_ERROR PERSDATA 502 Crucial personality data has incorrect CRC. Re-program the personality. PI_MALLOC_ERROR SOFTWARE 503 Could not allocate memory to store crucial personality data. UI_FATAL_DEVICE_ ERROR UI_FATAL_SWTO_ MALLOC_ERROR UI_FATAL_SWTO_MAX_ ERROR UI_FATAL_WINDOW_MAX _ ERROR UI_FATAL_WINDOW_ MALLOC_ERROR UI_FATAL_MESSAGE_ INVP_ARM UI_FATAL_RI_MSGBUF_ FULL UI_FATAL_RISYS_ MSGBUF_FULL UI_FATAL_CI_MSGBUF_ FULL UI_FATAL_DEVICE_ NOTSUPPORTED UI_FATAL_AUXIO_ MALLOC_ERROR AEGIS_ADI_OVERFLOW SOFTWARE 801 ADI Transmit event not serviced in time and buffer has overflown.

SOFTWARE 203 Personality tracking data malloc error. Re-program the tracking data.

SOFTWARE 204 Personality tracking data checksum error. Re-program the tracking data.

programmer and re-program the radio personality.

SOFTWARE 301 Unable to correctly configure the modem for EDACS operation. Re-program the

personality.

program the radio personality.

SOFTWARE 402 UI message buffer not enabled. Power cycle the radio.

SOFTWARE 405 Unable to correctly configure the modem for conventional DIGV operation.

PERSDATA 600 Input/Output device error.

SOFTWARE 601 Software memory error.

SOFTWARE 602 Software error, power cycle the radio.

SOFTWARE 603 Too many open windows.

SOFTWARE 604 Software memory error.

SOFTWARE 605 Invalid parameter to UI_PUT_MESSAGE(). software error, report how error was

encountered.

SOFTWARE 606 UI Task message buffer full error. Software error, report how error was

encountered.

SOFTWARE 607 Radio Interface System (EDACS/CONV) task message buffer full.

SOFTWARE 608 CI Task message buffer full.

PERSDATA 609 I/O device type (from personality) not supported.

SOFTWARE 610 Software memory error.

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Radio Programming Errors

Programming errors are divided into three categories:

1. Protocol Errors - These are errors produced by the low level communication routines.

2. Radio Errors - These are errors that are returned from the radio ROM or operating software.

3. PC Errors - These are errors that are produced by the PC Programming software.

MESSAGE CODE DESCRIPTION

Successful 0 Command was performed successfully. Protocol - Canceled by receiver 5 x328 protocol received a cancel. The radio detected a cancel command. Protocol - Canceled by sender 6 x 328 protocol transmitted cancel. The radio is canceling the read command. Protocol - Terminate transmission 7 x328 protocol received an end of transmission. Protocol - Transmit error 8 x328 protocol could not transmit. Reliable communication can not be established. It could be

Protocol - Protocol initialization error 9 x328 protocol not initialized or failed to initialize. Radio - Programmed successfully 10 Radio responded with a success. Radio acknowledged successful programming. Radio - Comport configuration failed 11 Radio could not configure its comport (hardware failure). Radio - Flash erase failed 12 Radio failed to erase the flash memory. The radio flash memory part is unusable or it can not

Radio - Flash write failed 13 Radio failed in writing to the flash memory. Retry the programming process (hardware

Radio - Flash code CRC did not match 14 Flash code not programmed correctly. CRC did not match. The operating software will not

Radio - Canceled by receiver 15 The radio operating software received a cancel command. Radio - Canceled by sender 16 Radio - End of transmission received 17 The radio software received or sent an end of transmission. Radio - Transmit error 18 Radio could not transmit the required data. Check all hardware connections and try

Radio - Invalid command 19 Radio did not understand the received command. Radio - No application code 20 No application code is loaded, the radio con not accept personality commands. Re-program

Radio - Application code error 21 The radio application code failed to perform the command. Radio - EEPROM programming error 22 Could not program the radio EEPROM part. Radio - Baud rate has changed 23 The radio acknowledged a successful baud communication baud rate change. PC - Cannot allocate memory 50 The PC programming software could not allocate adequate memory space to perform the

PC - Cannot open data file 51 The specified file (code or personality) could not be opened (file does not exist or has access

PC - Cannot read data file 52 The specified file (code or personality) could not be read. PC - Cannot write to file 53 The specified file (code or personality) could not be written. PC - File not found 54 The specified file (code or personality) in not found in the current directory. PC - File is larger than radio memory 55 The radio flash part size is unknown or the operating software file size is larger than the radio's

PC - Incorrect Tracking Data RF band split PC - Incorrect Tracking Data version 58 Incorrect Tracking Data version. PC - Tracking Data checksum error 59 Tracking Data checksum error. PC- Time-out, radio not responding 60 Radio is not connected or not turned on or the selected PC comport number is invalid. PC - Comport configuration error 61 Comport configuration error, can not set comport. PC - Abort, message canceled 62 Aborted by operator, message canceled. PC - Requested personality data does not exist

the radio or PC hardware problems (programming cable, interface box, or radio hardware).

detect the 12 volts power. Check the programming box and cables.

failure).

execute. Re-program the radio.

programming again.

the operating software (flash code) and re-program the personality.

function.

protection).

flash memory size.

57 Incorrect Tracking Data RF band split.

63 The personality table does not exist (Tracking or Encryption table).

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(Intentionally Left Blank)

Ericsson GE Mobile Communications Inc.

Mountain View Road • Lynchburg, Virginia 24502

Printed in U.S.A.

Ericsson GE ORION LBI-39073, ORION Service Manual

Specifications and Main Features

Frequently Asked Questions

User Manual