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EVX-531 UHF Service Manual

11

Introduction

The 

EVX-531

 series has been aligned at the factory for the 

specified performance across the entire frequency range spec-

ified. Realignment should therefore not be necessary except 

in the event of a component failure. All component replace-

ment and service should be performed only by an authorized 

Vertex Standard representative, or the warranty policy may be 

voided.
The following procedures cover the sometimes critical and 

tedious adjustments that are not normally required once the 

transceiver has left the factory. However, if damage occurs 

and some parts are replaced, realignment may be required. If 

a sudden problem occurs during normal operation, it is likely 

due to component failure; realignment should not be done un-

til after the faulty component has been replaced.
We recommend that servicing be performed only by autho-

rized Vertex Standard service technicians who are experi-

enced with the circuitry and fully equipped for repair and 

alignment. Therefore, if a fault is suspected, contact the deal-

er from whom the transceiver was purchased for instructions 

regarding repair. Authorized Vertex Standard service techni-

cians realign all circuits and make complete performance 

checks to ensure compliance with factory specifications after 

replacing any faulty components. Those who do undertake 

any of the following alignments are cautioned to proceed at 

their own risk. Problems caused by unauthorized attempts 

at realignment are not covered by the warranty policy. Also, 

Vertex Standard must reserve the right to change circuits 

and alignment procedures in the interest of improved perfor-

mance, without notifying owners. Under no circumstances 

should any alignment be attempted unless the normal func-

tion and operation of the transceiver are clearly understood, 

the cause of the malfunction has been clearly pinpointed and 

any faulty components replaced, and the need for realignment 

determined to be absolutely necessary.  The following test 

equipment (and thorough familiarity with its correct use) is 

necessary for complete realignment. Correction of problems 

caused by misalignment resulting from use of improper test 

equipment is not covered under the warranty policy. While 

most steps do not require all of the equipment listed, the inter-

actions of some adjustments may require that more complex 

adjustments be performed afterwards. Do not attempt to per-

form only a single step unless it is clearly isolated electrically 

from all other steps. Have all test equipment ready before 

beginning, and follow all of the steps in a section in the order 

presented.

Alignment

Required Test Equipment

r

  Radio Tester with calibrated output level at 600 MHz

r

  In-line Wattmeter with 5% accuracy at 600 MHz

r

  50-, 10-W RF Dummy Load

r

  Regulated DC Power Supply (standard 7.5 VDC, 3 A)

r

  Frequency Counter: ±0.2 ppm accuracy at 600 MHz

r

  AF Signal Generator

r

  AC Voltmeter

r

  DC Voltmeter

r

  UHF Sampling Coupler

r

  IBM PC/Compatible Computer with Microsoft

®

 Win-

dows

®

 2000, XP, Vista, or 7

r

  Vertex Standard CE142 PC Programming Software

r

  Vertex Standard FIF-12 USB Programming Interface and 

CT-106 PC Programming Cable

r

  Vertex Standard FRB-6 Tuning Interface Box and CT-160 

Connection Cable

Alignment Preparation & Precautions

A 50- RF Dummy Load and in-line wattmeter must be con-

nected to the main antenna jack in all procedures that call 

for transmission, except where specified otherwise. Correct 

alignment is not possible with an antenna.
After completing one step, read the following step to deter-

mine whether the same test equipment will be required. If not, 

remove the test equipment (except dummy load and wattme-

ter, if connected) before proceeding.
Correct alignment requires that the ambient temperature be 

the same as that of the transceiver and test equipment, and 

that this temperature be held constant between 20 °C and 30 

°C. When the transceiver is brought into the shop from hot or 

cold air, it should be allowed  time to come to room tempera-

ture before alignment.
Whenever possible, alignments should be made with oscilla-

tor shields and circuit boards firmly affixed in place. Also, the 

test equipment must be thoroughly warmed up before begin-

ning.

Note

: Signal levels in dB referred to in this procedure are 

based on 0 dBµ EMF = 1.0 µV.

Test Setup

Setup the test equipment as shown below for transceiver 

alignment, then apply 7.5 V DC power to the transceiver.

Inline

Wattmeter

50-ohm

Dummy Load

RF Signal

Generator

AF Signal

Generator

SINAD Meter

Power Supply

7.5 VDC

Computer

(CE142)

FRB-6

Deviation

Meter

Frequency

Counter

Transceiver

MIC/SP

D-Sub 15-pin

Connector

MIC IN

SP OUT B

CT-160

SP/LOAD Switch: LOAD
LOAD Switch: 16

Battery Terminal

CLONE Port

CT-104A, CT-106, or CT-171

ANT

Sampling

Coupler

FIF-12

Содержание EVX-531

Страница 1: ...ormation in this manual to be correct Vertex Standard assumes no liability for damage that may occur as a result of typographical or other errors that may be present Your cooperation in pointing out any inconsistencies in the technical in formation would be appreciated Important Note This transceiver is assembled using Pb lead free solder based on the RoHS specification Only lead free solder Alloy...

Страница 2: ...oz 315 g w FNB V134LI UNI Antenna Belt Clip Receiver Measured by TIA603 603D Circuit Type Double Conversion Super heterodyne IF 50 85 MHz 101 7 MHz Sensitivity 0 25 µV Analog 12 dB SINAD 0 28 µV Digital 1 BER Conducted Spurious 57 dBm Adjacent Channel Selectivity 70 dB 25 kHz Step TIA603 60 dB 12 5 kHz Step TIA603 70 dB 25 kHz Step TIA603D 45 dB 12 5 kHz Step TIA603D Intermodulation 65 dB 25 kHz S...

Страница 3: ...I Antenna Belt Clip Receiver Measured by ETS 300 086 Circuit Type Double Conversion Super heterodyne IF 50 85 MHz 101 7 MHz Sensitivity 0 4 µV Analog 20 dB SINAD 0 28 µV Digital 1 BER Conducted Spurious 57 dBm 1 GHz 47 dBm 1 GHz Adjacent Channel Selectivity 70 dB 25 kHz Step 60 dB 12 5 kHz Step Intermodulation 65 dB Spurious Image Rejection 70 dB Hum and Noise 45 dB 25 kHz Step 40 dB 12 5 kHz Step...

Страница 4: ...SSY Component KNOB VOL KNOB FREQ WASHER BUSH 2 pcs CAP MIC SP SPEAKER WIRE ASSY SPEAKER HOLDER 2 pcs RUBBER PACKING SP O RING CAP O RING 0 8x2 2 2 pcs BINDING HEAD SCREW M2 6X6B 2 pcs FRONT CASE ASSY Component FRONT CASE MODEL LABEL NAME PLATE ESCUTCHEON 16CH DOUBLE FACE TAPE ECS PLATE FREQ RUBBER TOP SEL SUPPORT TOP SEL LIGHT GUIDE SP NET RUBBER PTT FRAME PTT SHEET PTT RUBBER SIDE LATCH NAIL LATC...

Страница 5: ...157 SPEAKER 36N D2114B T9207535A WIRE ASSY RA125110A KNOB FREQ RA125100A KNOB VOL RA125090A x 2 psc BUSH CB6388000 FRONT CASE SUB ASSY RA1448500 RUBBER PACKING CHASSIS RA090590A x 2 psc NUT C065 RA1458000 RUBBER BOOTS RA1483000 SHIELD COVER FET RA037690B SHEET 6x6 CB6614000 CHASSIS ASSY Li Ion BATTERY PACK FNB V133LI UNI AAJ67X001 or FNB V134LI UNI AAJ68X001 k l m RA1483100 SHEET HEAT8X8t1 k l RA1...

Страница 6: ...EMI ABSORBER RA1364100 PAN HEAD SCREW 2 pcs M2X2 5 3KA U07225001 BIND HEAD TAPTITE B 2 pcs 2X10 U24110001 MAIN UNIT CB6389000 TYPE G7 F 1001 CHIP FUSE 3 15A 36V FHC16 322ADTP Q0000118 MC1001 MIC ELEMENT PF0 1055P M3290045 Q 1513 FET RQA0011DNS G3070392 S 1001 TACT SWITCH EVQPUB02K N5090167 S 1002 TACT SWITCH EVQP8403M N5090173 S 1003 TACT SWITCH EVQPUB02K N5090167 S 1004 TACT SWITCH EVQPUB02K N509...

Страница 7: ...53SDF 50 85MHZ H1102479 SHIELD COVER FET RA1483000 SHEET HEAT8X8t1 RA1483100 NUT 2 psc C065 RA090590A PAN HEAD TAPTITE B 9 pcs M2X5 U44105001 MAIN 3 UNIT CB6611000 TYPE G6 CB6609000 TYPE G7 F 3001 CHIP FUSE 3 15A 36V FHC16 322ADTP Q0000118 F 3301 CHIP FUSE 1 15A 36V FCC16 132ABTP Q0000109 MC3001 MIC ELEMENT PF0 1055P M3290045 Q 3513 FET RQA0011DNS G3070392 S 3001 TACT SWITCH EVQPUB02K N5090167 S 3...

Страница 8: ...EVX 531 UHF Service Manual Block Diagram 8 ...

Страница 9: ...e output signal from the custom IC Qx017 CPCAP is applied to the audio speaker 2 Transmitter System 2 1 MIC Amplifier Modulator The speech signal from internal microphone MCx001 or ex ternal microphone Jx003 is supplied to the custom IC Qx017 CPCAP which is amplified the speech signal The amplified speech signal from the custom IC Qx017 CPCAP is supplied to another custom IC Qx306 OMAP which proce...

Страница 10: ...23 3SK293 through the buffer amplifier Qx524 2SC5005 in case of the reception In the transmission the output is modulated to the FM or digi tal in the custom IC Qx522 RODINIA and then supplied to the transmitter section described previously 3 2 VCV Varactor Control Voltage Control The tuning voltage VCV of the VCO establishes the lock range of VCO by controlling the cathode of varactor diode Dx502...

Страница 11: ...pment listed the inter actions of some adjustments may require that more complex adjustments be performed afterwards Do not attempt to per form only a single step unless it is clearly isolated electrically from all other steps Have all test equipment ready before beginning and follow all of the steps in a section in the order presented Alignment Required Test Equipment r Radio Tester with calibrat...

Страница 12: ...he detail information is written in the help document of CE142 PC Programming Software 1 VCO confirmation only 2 PLL Reference Frequency Frequency 3 RX Sensitivity RX Tune 4 Squelch SQL RSSI 5 TX Power High Low3 Low2 Low1 6 Maximum Deviation Wide Narrow Adjust the following items when needed Symbol Deviation Modulation Balance CTCSS Deviation Wide Narrow DCS Deviation Wide Narrow DTMF Deviation MS...

Страница 13: ...CO status Alignment 2 PLL Reference Frequency Frequency This parameter is to align the reference frequency for PLL 1 Click the Frequency button to open the Frequency Align ment window 2 Click the PTT button or press the SPACE bar of the com puter s keyboard the radio will start to transmit on the center frequency channel 3 Set the value to get the desired frequency according to the fol lowing ways...

Страница 14: ...ment to get the best RX sensitivity Highest RSSI value 5 Click the OK button to finish the RX Sensitivity alignment and save the data 1 You may adjust the RX sensitivity manually by the following method l Dragging the slide bar l Clicking the arrow buttons l Pressing the left right arrow key of the computer s keyboard l Entering the value 800 FFF in the Current Data box from the computer s keyboar...

Страница 15: ...vel at Wide 5k 4k or Nar row 2 5k The procedure for all the alignments is as follows 1 Click the Start button you wish to align to open the SQL RSSI Alignment window 2 Click the Start button on the desired alignment item to open other window 3 Set the RF Signal Generator according to the indication of the window then click the Start button 4 The automatic alignment will start to get the optimum le...

Страница 16: ...elected chan nel All Freq Alignment value changes on all channels Alignment 6 Maximum Deviation Wide Narrow This parameter is to align the Maximum Deviation Wide Narrow 1 Press the Max Dev W N button to open the Max Deviation Alignment window 2 Click the PTT button on the desired channel The radio starts to transmit on the selected channel 3 Set the value to get desired deviation Wide 4 2 kHz Narr...

Страница 17: ...ragging the slide bar l Clicking the arrow buttons l Pressing the up down key of the computer s keyboard l Entering the value in the entry box from the computer s keyboard 4 After getting the desired deviation click the PTT button or press the SPACE bar to stop transmitting 5 Click the OK button to finish the Symbol Deviation align ment and save the data You may select the alignment type from the ...

Страница 18: ...ation level that wrote down according to the following ways l Dragging the slide bar l Clicking the arrow buttons l Pressing the left right arrow key of the computer s keyboard l Entering the value 0 3FF in the Current Data box from the computer s keyboard 6 Click the PTT button or press the SPACE bar to stop trans mitting 7 Click the OK button to finish the Modulation Balance align ment and save ...

Страница 19: ... tone frequency default 67 0 Hz by changing the value of the CTCSS Freq box located at the bottom of the screen if needed DCS Deviation Wide Narrow This parameter is to align DCS Deviation of the selected channel 1 Press the CTCSS Dev W N button to open the DCS De viation Alignment window 2 Click the PTT button or press the SPACE bar of the com puter s keyboard to transmit the radio 3 Set the valu...

Страница 20: ...align the deviation level by any DTMF tone default A available selection 0 9 A D E and F by changing the value of the DTMF Code box located at the bottom of the screen if needed MSK Deviation This parameter is to align MSK Deviation which use for the ANI operation of the MDC1200 System 1 Press the MSK button to open the MSK Deviation Align ment window 2 Click the PTT button or press the SPACE bar ...

Страница 21: ...one Deviation for the 2 Tone and 5 Tone Encoder 1 Press the Seq Tone button to open the Sequential Tone De viation Alignment window 2 Entering the desired value in the New box from the comput er s keyboard 3 Click the OK button to finish the Sequential Tone Deviation alignment and save the data Alignment ê ...

Страница 22: ...EVX 531 UHF Service Manual 22 MAIN Unit Type G7 w o Option Connector Circuit Diagram FR024460D Interface Power Supply Sections ...

Страница 23: ...EVX 531 UHF Service Manual 23 MAIN Unit Type G7 w o Option Connector Circuit Diagram FR024460D Control Sections ...

Страница 24: ...EVX 531 UHF Service Manual 24 MAIN Unit Type G7 w o Option Connector Circuit Diagram FR024460D RF Sections ...

Страница 25: ...EVX 531 UHF Service Manual 25 MAIN 2 Unit Type G6 w o Option Connector Circuit Diagram FR025510A Interface Power Supply Sections ...

Страница 26: ...EVX 531 UHF Service Manual 26 MAIN 2 Unit Type G6 w o Option Connector Circuit Diagram FR025510A Control Sections ...

Страница 27: ...EVX 531 UHF Service Manual 27 MAIN 2 Unit Type G6 w o Option Connector Circuit Diagram FR025510A RF Sections ...

Страница 28: ...EVX 531 UHF Service Manual 28 MAIN 3 Unit Type G6 G7 w o Option Connector Circuit Diagram FR025720A Interface Power Supply Sections ...

Страница 29: ...EVX 531 UHF Service Manual 29 MAIN 3 Unit Type G6 G7 w o Option Connector Circuit Diagram FR025720A Control Sections ...

Страница 30: ...EVX 531 UHF Service Manual 30 MAIN 3 Unit Type G6 G7 w o Option Connector Circuit Diagram FR025720A RF Sections ...

Страница 31: ...EVX 531 UHF Service Manual 22 Copyright 2013 Vertex Standard LMR Inc All rights reserved No portion of this manual may be reproduced without the permission of Vertex Standard LMR Inc ...

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