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VX-820 Series - R

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Contents

1.
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3. Block Diagram J1002 J100
4. 81355 8 gt 4 ay PA 7 552 T1004 e SPMS001 L0022027 _ _ RX 4 8 V g Da 5 dBuV emf pe 3 0 V 2552 3 1 V 0 8 V 1 7 0 1 i CH 2 5 dBuV emf TX 0 V ja TX 0 V TX 0 V 091111 61581 T1001 i 1 B tev 59 91357 21366 LU E T 0 0 0 1810 20022444 1 I 1 7 2 Ty 2 R1182 1 1 1 R1354 L 3 6 V 3 2 of 0
5. 8X5V 8X5V 8X5V ist ist NARROW 01054 1001 2nd IF SPMS001 50 LS KHz CF1001 BPF v 9 ANT SW WIDE WIDE NARROWL 1 jwIDEZNARROW 01011 TUNED TUNED SELECT SW CF1002 SELECT SN WIDE NARROW WIDE NARRDW pen 91021 G105b ET E 810648 SELECT SW SELECT SW PF HPF BPF BPF 01070 01071 HVU131 2505226 2505226 DAN222 DAN222 1 1 DET 4B _ ist Local
6. 0 01uF 10uF 0 1uF 0 001uF 0 022uF 0 01uF 120pF 0 1uF 0 01uF 82pF 150pF 0 001uF 0 01uF 0 001uF 0 001uF 330pF 0 001uF 0 01uF 0 01uF 0 1uF 33pF 0 0022uF 0 001uF 0 01uF 12pF 0 1uF 10uF 0 0047uF 0 1uF 0 001uF 0 01uF 0 001uF 10uF 18pF 4 7uF 10pF 0 001uF 0 1uF 18pF 3pF 0 01uF 15pF 0 01uF 47 12 68 12 0 001uF 180pF 47pF 0 1uF 0 001uF 0 1uF 0 01uF 47pF 0 5pF 0 01uF 1pF UU 0 00 00 09 09 w u 0 000 GRM36B103K16PT TEMSVA0J106M 8R GRM36B104K10PT GRM155B11H102KA01D GRM36B223K16PT GRM36B103K16PT GRM1552C1H121JA01D GRM36B
7. EE 05505 20 555227552 5523222 05 55 5550555 7552255 722005215752 02 S 052525055 252 a 02 6 C 585 6 52055 ic lc c cci LLL lt 525 502 0255 2052 5522525 52052 H 0 0 0 7 4 3 8 V Q25 0 T EXT SP MUTE 0 2 V 7 4 I UNIT MUTE 0 6 V PWR 5 0 V TPzooz 0 554 BUSY 9 4 V TX 02V PWR OFF PWR OFF 0V 2005 _ RRO 12 5 TX 0 6 V 254 1602A F 1 EL LLL LLL LA 0 n gt 0200
8. 0 001uF 0 047uF 22pF 0 68uF 1uF 1uF 0 001uF 0 01uF 0 01uF 82pF 0 01uF 0 1uF 0 1uF 0 001uF 4 7uF 82pF 0 1uF 0 1uF 0 1uF 0 1uF 0 01uF 0 001uF 220pF 270pF 150pF 10uF 0 01uF 0 1uF 0 1uF 0 1uF 10uF 33pF 0 047uF 0 001uF 0 1uF 0 1uF 33pF 0 1uF 100pF 0 001uF 0 047uF 10uF 0 1uF 0 1uF 0 01uF 0 01uF 560pF 0 1uF 0 1uF 0 1uF 0 01uF 0 001uF 0 001uF 0 001uF 0 001uF 10pF 0 01uF 0 01uF 47pF 22pF 00 09 09 09 09 09 09 009 009 00 GRM155B11H102KA01D GRM36B473K10PT GRM1552C1H220JZ01D TEMSVA1V684M 8R ECJ1VB1A105K ECJ1VB1A105K GRM155B11H102KA01D GRM36B103K16PT GRM36B103K16PT GRM1552C1H820JD01D GRM36B103K16PT GRM36B104K10PT GRM36B104K10PT GRM155B11H102KA01D 04475 GRM1552C1H820JD01D GRM36B104K10PT GRM36B104K10PT GRM36B104K10PT GRM36B104K10PT GRM36B103K16PT GRM155B11H102KA01D GRM36CH221J25PT GRM36CH271J25PT GRM1552C1H151JA01D TEMSVA0J106M 8R GRM36B103K16PT GRM36B104K10PT GRM36B104K10PT GRM36B104K10PT TEMSVA0J106M 8R GRM1552C1H330JZ01D GRM36B473K10PT GRM155B11H102KA01D GRM36B104K10PT GRM36B104K10PT GRM1552C1H330JZ01D GRM36B104K10PT GRM1552C1H101JD01D GRM155B11H102KA01D GRM36
9. DISC OUT INT INT MIC 00 I e C5001 0 Parts Layout Parts List DESCRIPTION VALUE MFR S DESIG VXSTD VERS LOT SIDE LAY ADR Printed Circuit Board 058 000 013270 5001 0 001uF 50 GRM188B11H102KA01D K22174821 1 B MC5001 MIC ELEMENT EM 140 M3290032 111 41 Vertex Standard Copyright 2005 VERTEX STANDARD CO LTD rights reserved No portion of this manual may be reproduced without the permission of VERTEX STANDARD CO LTD
10. Main Unit Parts List DESCRIPTION VALUE MFR S DESIG VXSTD VERS LAY ADR CHIP RES 1 165 334JTH 424189055 1 165 333JTH 424189043 1 165 224 424189053 1 165 473JTH J24189045 A CHIP RES RMC1 16S 103JTH J24189037 B CHIP RES 1 165 222JTH J24189029 B CHIP RES RMC1 16S JPTH J24189070 A CHIP RES 1 165 471JTH J24189021 B CHIP RES RMC1 16S 332JTH J24189031 A CHIP RES RMC1 16S 684JTH J24189059 A CHIP RES 1 165 123JTH J24189038 A CHIP RES RMC1 16S 220JTH J24189005 B CHIP RES RMC1 16S 102JTH J24189025 A CHIP RES RMC1 16S 102JTH J24189025 A CHIP RES RMC1 16S 102JTH J24189025 A CHIP RES RMC1 16S 102JTH J24189025 A CHIP RES RMC1 16S 102JTH J24189025 A CHIP RES RMC1 16S 102JTH J24189025 A CHIP RES RMC1 16S 102JTH J24189025 A CHIP RES RMC1 16S 102JTH J24189025 A CHIP RES RMC1 16S 102JTH J24189025 A CHIP RES RMC1 16S 102JTH J24189025 A CHIP RES 1 165 102JTH J24189025 A CHIP RES RMC1 16S 102JTH J24189025 A CHIP RES RMC1 16S 102JTH J24189025 A CHIP RES RMC1 16S 102JTH J24189025 A CHIP RES RMC1 16S 102JTH J24189025 A CHIP RES RMC1 16S 102JTH J24189025 A CHIP RES RMC1 16S 102JTH J24189025 A CHIP RES RMC1 16S 332JTH J24189031 A CHIP RES RMC1 16S 333JTH J24189043 A CHIP RES RMC1 16S 102JTH J24189025 A CHIP RES RMC1 16S 332JTH J24189031 A CHIP RES RMC1 16S
11. SW 02008 SW 02011 I CL 1147 11 SW 02004 DTCIIUTE AF CNT 2022 CURRENT LIMIT Q20 19 25 177 PU CLONE IC AM Q20 14 LM2902 5 CPU 6 KEY MATRI IV C2006 16 NJU6624 9 SCK I SEL SW L_REQ 02025 B ITC 1141 9 I e I SW i II CL 1141 8 8 d o mm n I 02014 LM2902 i 1 0 1 5 a RO 3 gt Z I EE TEUER D 2 un
12. gt gt GY 5 22 gt ape 777 060400 LATCH PLATE RA0663800 0727300 pw RA068970A S5 gt FRAME G6090163 LCD 0663700 2 pcs INTER CONNECTOR RA0689100 LIGHT GUIDE 0698000 REFERECTOR 5 8 DISPLAY UNIT 98356 pw ae RA0712300 RA0727300 HOLDER RUBBER SW SW g LCD 9 eg 0731500 x2 pcs PAD E1 9 19207217 E FW ASSY d RA0697900 SHEET FET 0664000 8212001 55 0607300 1 8 5 3 0602000 COVER 0663500 5 0729100 BLIND 5 RA0731400 SHEET 9 5X4 068950 0697400 5 5 8304003 gt PANEL ASSY 16 KEY EE D ISS Ww XI d ANS 31 N 17 N RA0688700 LATCH NAIL RA0745400 x2 pcs COIL SPRING RUBBER KNOB 16KEY CP8304002 M PANEL ASSY 4 KEY 0688700 LATCH NAIL 0745400 2 pcs SPRING 060400 LATCH PLATE 070350 KNOB 4 8304001 gt PANEL ASSY NO KEY 5 nee n 688700 LATCH NAIL 0745400 2 pcs COIL SPRING 060400 LATCH PLATE RA0681900
13. 2 2 1 2 T 51215 I 54 4 4 e m T ES gt TX gt ETC y PTT ACC CLONE 5V LJ SC DUT SEL 1 Circuit Configuration by Frequency The receiver is a double conversion superhetero dyne type with a first Intermediate Frequency IF of 50 85 MHZ and a second IF of 450 KHz Incoming signals from the antenna are mixed with the local signal from the VCO PLL to produce the first IF of 50 85 MHz The signals are then mixed with the 50 4 MHz second local oscillator output to produce the 450 kHz second IF This is detected to give the de modulated signal The transmit signal frequency is generated by the PLL VCO and modulated by the signal from the microphone It is then amplified and sent to the antenna 2 Receiver System 2 1 Front end RF amplifier Incoming signals from the antenna are delivered to the Main Unit and pass through a Low pass fil ter antenna switching diode D1011 HVU131 and a high pass filter and undesired out of band signals are then removed by a varactor diode tuned band pass filter D1013 D1014 D1015 and D1016 all 15 323 The residual signals are amplified by 01021 25 5226 and then pass through a varactor diode tuned image stripping band pass filter D1019 D1020 01021
14. C Sm S 6 5 dig d T PEER RR 3 5V z 686 CH WM 805055 53 83 733 0000 Y SG Fs 17 gt 5 gt 2 5 E a d 117815 0 B ON 3 4 V SLONE RXD 1K NETIBb1 S ON LONE TxD 11771 ole is m I dd DROLE id Mme M oA LED OFF IK 2 753039 gt 81249 3 _ RX 2 74 FLASH_TxD 2 G1075 1 A a ia 81320 1K TX 0 7V LED 3 3 22 INI ea Ty LM2902PW Nom 402 on AMW RES W 0 V76 16 SAVE R1430 1K Nc Sm gt L seats any in T 81 98 AUDIO PC A LED LOW DEC_D V 7417 gt ae ut 1501 99 AUDIO PC B LED OFF Sam 556 DTMF_PD 8 Sal 35V 5 n5 z 7r LI 2 75 2 mu NETL1 amp 594 GND sv 17 M_CLK 106 ENCSTBY 5 k 85 BUSY 1 NETLT18 PWR OFF 3 5 V acont AELS 5 57 1 TX 17V 81980 4 CLOCK SHIFT 1 9 V ciist 114 20V 50
15. zd 0 C2048 XXX 10 b 2422 21 12 CI 9 9 3 95 95 9 NST NST UFFA R2059 c2057 R2051 R2062 02008 _ 020 10 gt l gt l gt l gt eel eel ojo 0 010 C2049 XXX T x a 8 2K 0 1B10V 47K B 2K DTC114T DTC 118 je ol H Wd H 0 5 gt gt gt gt AW C2011 eel cd owe C2050 XXX 0 58 0 n 7 1 j i i j i j Y 5 N N gt O 0 18 2 10V 7 Ome XXX m Bue Dm 28 155 10 2 To TaT 5 0 25 O C x C O L O 1 i ce e C 0 ad SERES pu G2023 SALA als 777 777 777 77 77 D OG 0 OO I C 5 906119 ELE 5 Qu O7 g gg gt 9 NS I mas 59 1 5M 5 0 N 0 92021 5 PWR 3 5 V HER I SELECT UMD 1 2N PWR OFF DOO OODOOO SEN 0 4 INT MIC 7 4V INT MIC ce EXT MIC 0 V EXT MIC 2 7 V 0 22K b P C2021 1 LED ON 33 V AW 3 LED OFF 0 IET 82044 N 5 1 220K 02014 an REG 4 n 3 5V D rP2020 7 5 TP2023 P es E Y CS Ses 3 TP202u 02006
16. PLATE POW RUBBER PACKING POW Non designated parts are available only as part of a designated assembly 400103002 PAN HEAD SCREW M2X3NI ___ 1 007230227 PAN HEAD SCREW 2 3 50582 1 U07A35220 PAN HEAD SCREW M2X3 5SUS 2 4 5 gt 907460220 HEAD SCREW 2 6 505 2 4 044104002 TAPTITE SCREW 12 U44110020 SCREW 2 10845 2 951106027 SOCKET BOLT M2X6BSUS 2 99900094 TAPTITE SCREW 2 5 42 2 840604400 SPECIAL SCREW 3 1 1 w LCD 2 LCD 3 MI gt Exploded View amp Miscellaneous Parts Note 15u 17uMHz DET B
17. 16 keypad Exit Key Operation 1 13 CHANNEL BY CHANNEL Fine Alignment Mode The Fine Alignment Mode you to align gt the radio separately for every operating channel The Px Frequency 54 175000 Frequency 134 175000 Wide RX Sub Audio None TX Sub Audio None value of each parameter can be changed to the de RX TX VCV RX Tune 46 START 4 ML 4 7 yy xo fas sired position using the and up down arrow keys direct number input dragging _ the PC mouse Mod Bal START Deviation 181 To enter the CH Fine Alignment Mode select Fine Alignment in the main Radio menu It will start to Upload the written personalized data from the radio Pressing the button will then start the CH Fine Alignment Mode Note Detailed information for each step may be found in the Help file within CE59 Clone Editor Pin 1 WHITE 220 UF A 1 2 OUTPUT LEVEL 16 2 N 220 Pin 3 SHIELD 6 O AUDIO GENERATOR 10 UF 5 BLUE 6 SW Pin 6 YELLOW 27 k Ohm 2 2 k Ohm 7 Pin 8 GREEN 5 9 5 Pin 10 ORANGE Pin 11 L_GREEN Pin 12 CLEAR Pin 13 PI
18. 184 85 22 85MHz 1 i i FINAL AMP DRIVER TUNE CNTL 1 CD1001 91019 ed 01024 2520 t IF IC 01065 TA311 6FN 0804500 28 I 1 25 5476 2552875 LM2902 Bedae T 1 L QUADRATURE LAMP SW SW PTT SW I BUFF FILTER n 23 gt na S 01027 51005 51004 51005 2565555 222 OFF SW CPU TAX 81072 81072 01025 0 0 0 LM2902 2902 l me no Bis m rum gt KEY MATRIX KEY MATRIX INT AX VCO SW ASSI NOISE AMP 2865226 X3 OSC FILTER 01072 D A CONVERTER DTCIUUEE DTARY Sw VR SW LM2902 I 01020 M62364FP 51007 VR1001 VR1001 tB BUFF BUFF AMP 22 86 01040 F1001 LPF 1 ae ewes 25C5226 25652325 0 0 5 RX TUNE CPU CPU FILTER AMP ASW VA IN 3 5V BUFF AMP SW BUFF AMP SW S208 aioa 01046 2504617 25 508 4 4 114 Z5 MOD BAL 1 LY NOISE DET 8 1 1 P_SAVEZ 5V D1049 1 1 D1050 1 1 TX OSC DA221 i 1 LOOP FILTER CH3 91051 lt gt 01075 4 L _ _ _ DEV 2504227 1 LM2302 1 1 VCV DET 1 AF MOD 1 I 1
19. A ose v v M weg 1 31 d 5 a o gt M509015 95 71621 C DO mot MUTE 3 5 gt 5 2 N 718 PER 5 ne gt D gt nl gt VI CV ne E 8 AS 94 les Ge fav ue TB bv op J I 195 2 E 8858 D gt gt 8 Y LM2902PW 0 d E 2 2 2 1554006 E 1 bel Ro 91014 Lu TX 0 6 V say am EM o We E m 2 Z 2 2 e ott 55 Fe C rx 01075 1 m ON ie d 2 y 2 2 2 m MONI KEY 118 5 5 LM2902PW amp gt y Z E xg PWR ON 5 0 V DE 3 5 2 2 9 MUTE 0 3 V 0 V v z E A 4 m wisis PEPS ans 4 3 8 a apy 98 08 08V a 2 95V 1 1554006 al 9 gt gt 2 CI m gt 23 m 2 51007 4 89 aj 825 TX 0 1 V 02V E E gt gt a Z 6C109016 9540_ _ _ H 2 o 2 Le als E M 2627 a 2 2 M 121202 n t free 1 5 ri 2 a gt t gt A
20. 01066 4 CI 01030 TX VCO SW CPU ee gt Mm lt 22 22 255860 LI 0 0 Dr 7 DTMF BEEP L2 1SV286 91047 lt 54 54 5 i IX5V TEF 8 Hao ek OO E a LL D 8 PLL DATA i TN VCV DC AMP DC FILTER 5V AVR 1 LI 2 rGLSW 01020 01025 01028 91055 n CMIL NJM2130F 04221 BDb111FV 2541774 1 1 0 1 1 AK2345 1 CNTL DATA 1 TEMP DET 1 0 5016 Le s PLL IC 01058 SD7025DK i TH1001 2 Mb2364FP i i CNTL DATA 0 1 CPU 1 1 4 0 6 1 60 65 72 MAIN FRACTIONAL PRESCALER 91067 1002 MODULUS LCB7F72CBA FEN19 7 3728MHz a PRESCALER DIVIDERS ACCUMULATOR CONTROL FREQ ADU DISPLAY Qd y DATA T i t 1 1 M i i NORMAL CH P_SAVE 9 SHIFT 1 PLL DATA CNTL LOGIC OUTPUT i GAIN SAVE CHARGE PUMP 5 r 5 EEPROM 1 1 CL 1 m i lt 2 01065 D lt Z T 1 4 5 Q T L ko s H gt 8695
21. 1 165 123 1 165 102JTH 1 165 103 RMC1 16S 104JTH RMC1 16S 333JTH 1 165 102JTH RMC1 16S 102JTH RMC1 16S 102JTH RMC1 16S 102JTH 1 165 104JTH 1 165 123JTH 1 165 123JTH RMC1 16S 102JTH RMC1 16S 102JTH RMC1 16S 104JTH RMC1 16S 473JTH 1 165 123JTH RMC1 16S 102JTH RMC1 16S 102JTH RMC1 16S 102JTH RMC1 16S 102JTH RMC1 16S 334JTH RMC1 16S 102JTH 1 165 224JTH RMC1 16S 102JTH RMC1 16S 105JTH RMC1 16S 102JTH RMC1 16S 102JTH 1 165 102JTH RMC1 16S 102JTH RMC1 16S 102JTH RMC1 16S 102JTH RMC1 16S 102JTH RMC1 16S 102JTH RMC1 16S 102JTH RMC1 16S 102JTH J24189038 J24189025 J24189035 J24189013 J24189025 J24189025 J24189038 J24189005 J24189025 J24189025 J24189033 J24189048 J24189049 J24189035 J24189044 J24189038 J24189150 J24189034 J24189047 J24189037 J24189049 J24189025 J24189025 24189041 24189038 24189025 24189037 24189049 24189043 24189025 24189025 24189025 24189025 24189049 24189038 24189038 24189025 24189025 24189049 J24189045 J24189038 J24189025 J24189025 J24189025 J24189025 J24189055 J24189025 J24189053 J24189025 J24189061 J24189025 J24189025 J24189025 J24189025 J24189025 J24189025 J24189025 J24189025 J24189025 J24189025 Main Unit Parts List DESCRIPTION VALUE MFR S DESIG VXSTD VERS LAY ADR CHIP RES CHIP RES CHIP RES CHIP RES CHIP RES CHIP RES CHIP RES
22. 6 AK 5 Lo AW TX OV id 7 AN oy 01049 81422 2 115 AW 1 aks 221 220K 4 gt BuV emf LS 60 CH 01255 Q iy nes 9 5 jus 5 is MOM H gt gt La ESS T a C1379 gt m 61100 ej E ciiua 2115 5 70 a Lux 25 24 0 5 47 B 2 Dy 1 MHZ rie 01022 550 CH MA 4 ha 0 0 8 V n 55 De Lors 0 23 AN 1184 21019 C1138 15 5 10p CH Ax 0 x 22 TX OV 10 5 1 c ds 555 T2928 gatas 2p CH EI IM 9 01055 15 on i TX 0V 35 5 1K it 9 7 ne in m 72 og C1015 810 gt AW m 2 30 7 Ro 21022 1055 T xh uL 2 XXX LINES Rs Rx 2 3 Vr og amp 00 Se D VE RX 3 0 V 35 143113566 81306 gt i B C 22K o NT 1 ie Ge I NE ME NE 006 1027 68 0102 29 1 4 ME ma ERLE 0 0420 2 0 4 tonic 7 16 5 28C5226 4 5 o CV z 2HEHUHSHE HOHE Eja 251052 an 10v T Goo lt 8 S 28 2 4V SAVE ON 0 AE fe E 25 lt gt a 55 gt
23. component replacement and service should be per formed only by an authorized Vertex Standard rep resentative or the warranty policy may be void The following procedures cover the sometimes crit ical and tedious adjustments that are not normally required once the transceiver has left the factory However if damage occurs and some parts subse quently are placed realignment may be required If a sudden problem occurs during normal operation it is likely due to component failure realignment should not be done until after the faulty component has been replaced We recommend that servicing be performed only by authorized Vertex Standard service technicians who are experienced with the circuitry and fully equipped for repair and alignment Therefore if a fault is suspected contact the dealer from whom the transceiver was purchased for instructions regard ing repair Authorized Vertex Standard service tech nicians realign all circuits and make complete per formance checks to ensure compliance with factory specifications after replacing any faulty components Those who do undertake any of the following align ments are cautioned to proceed at their own risk Problems caused by unauthorized attempts at re alignment are not covered by the warranty policy Also Vertex Standard reserves the right to change circuits and alignment procedures in the interest of improved performance without notifying owners Under no circumstances sho
24. 1 gt TX Lan pr a gt _____ 55 55 se M m8 gt ETC RGB LED CNT CPU KEY MATRIX lt 5 L gt z 5y Oe CRU Main Unit DISPLAY DATA 5 AVR 91060 55 55 z 5v TX5V AVR Q1003 CPH6102 TX5V 5 5V AVR 01061 TAR5S35 RESET 91059 01064 01045 5 80835 2504617 DA221 gt cpuz 5 CPU RST PD TX5V AVR 01002 1501 TX RX SW 01004 CPU TRX ET 5V AVR 01005 5550 CPU M SAVE 5 SW 91006 UMDSN CPU HX5V P SAVE SW 01041 UNS 1 1F _5 5V s sv P_SAVE Block Diagram Display Unit ees SE XT CONTRAST CNTL 92004 02005 X gt
25. G2070934 0434 003 3 0A 20000107 FB1001 FERRITE BEADS SMB304729 L9190094 FB1002 FERRITE BEADS BLM21A121SPT L9190108 1001 HEATSINK PLATE 0697800 SPRING CONNECTOR CONNECTOR CONNECTOR 9636S 28A TC AXK6S40535P CONNECTOR SHIELD FINGER 96365 12 900 E01J3028Y 0152490 1091189 91209 1091187 55000266 Main Unit Parts List DESCRIPTION VALUE MFR S DESIG VXSTD VERS LAY ADR J 1008 SHIELD FINGER E01J3028Y 55000266 1 J 1009 SHIELD FINGER E01J4032Y 55000267 3 2 M RFC M RFC M RFC M RFC M RFC CHIP COIL COIL COIL COIL CHIP COIL COIL M RFC CHIP COIL M RFC CHIP COIL M RFC M RFC M RFC M RFC M RFC M RFC M RFC M RFC M RFC M RFC M RFC M RFC M RFC M RFC M RFC COIL M RFC M RFC COIL M RFC M RFC M RFC M RFC M RFC M RFC M RFC CHIP COIL M RFC M RFC M RFC TRANSISTOR TRANSISTOR TRANSISTOR IC TRANSISTOR TRANSISTOR IC TRANSISTOR TRANSISTOR 0 047uH 0 047uH 0 047uH 0 033uH 0 047uH 0 22uH 2 7 uH 2 7 uH 1uH 0 068uH 0 025uH 0 009uH 0 047uH 0 068uH 0 025uH 0 22uH 0 068uH 0 047uH 0 068uH 0 1uH 0 22uH 1uH 1uH 1uH 0 047uH 0 056uH 0 047uH 0 047uH 0 047uH 0 22uH 0 82uH 1uH 0 22uH 0 22uH 0 051uH 1uH 0 22uH 0 0418uH 0 22uH 0 39uH 0 039uH 1uH 0 039uH 0 39uH 0 39uH 33uH 0 039uH 0 15uH 0 018uH 5030821 47 AS030821 47NJ AS030821 47NK AS030621 33NJ C1608CB 47NG
26. Saget od el TX 156 1MHz 52 ol 18 0 i 1 77 n CV RX 4 1 V 9 25585 35 I SAVE 0 V d 912 61507 35 D E 25 e 01085 C114 35V cH US SIDE SEL KEY TX OV jg 1 SAVE OFF 3 s d UNRA 11FJ i 1046 1 1050 D 2 1003 7 O Y 2 6 25 81160 1199 81215 020818 dot 00990 5 5 DEC R 2 Le T N5090 15 VE OFF 3 4 V 470K n 005 0 II 01047 075 ems OV ans t I 22 MUTE OV Ay Wy 1 8 II p NT ol 61557 1584006 S 2 7 QUE TX TARSS50U 2637 BUSY 3 5V 22232 pues end 1 25 go 2409 852 0 001 SA 075 5 E 3 2 MET a gt gt 2 gt mA 1 9 3 5 V 3 5 Dy 52 SN OR ON PLL LOCK 3 4 col Sio 7 RS Een 81151 91155 u 81177 1185 81190 SAVE OFF 0 6 c 2 OCK 0V alts Tor a 210 LI gt m Sun TPl028 50 5 won ja hyd By gt 550 330K gt iv 550 350K on 4 Bi270 PLL UNL um 2 Al 51004 181025
27. f 2 _ ni d PWR ON 1 7 V 21285 4 2 SIR 2 L 2 5 5 4 5 V 2 1 PWR OFF 0 V 0 53 ee gt gt ty y y 2 9 E lt E 1 0 1 Gs 21 Bg b y 2 2 e 2 Euer 81245 22 X U ciza 81305 in a 2 180p CH 2 1 SW OFF 3 5 V 5 OR 5 b Ug 2 2 2 au m 2 0 16 DEC 560K V 2 0 2 20KA SW E z 5 M M zn 1 LETTY CJ Yg wy y v lt 3 5 cis i VER ees lt a PWR ON 1 9 V 3 2 55 2 5 5 aye RUE mum y 2 1 180 25 5 s z ral m mmm m sse Sym ul Duf b yy a 8 amp 8 S C120 91080 n a P 8 28209 E m 28 221222214 s 918 0 01 B Biss R1229 g gt L uu 2 2 2 ang 4414 5 16 30 6ROK 074 M m a Do 5 5 2121212 994 ij 9 lt i E 7 NN 381 2 AE S Bu 1422 215 5 gt S da 3 5 86 PWR ON 7 4 V zx s 68K nz d gt gt gt gt E 2 2 Dalm 7 5 BIAS MN LAR m ti gt df 91074 2 mos
28. G1093746 G1091675 G1093074 G1093184 53350058 53070075 51093686 G3117748R G3070074 G1091788 G3070225 G3350058 G3070349 G3070075 G3805087B G3070225 G3070075 G3350058 53342277 53342278 G3346178R G3352268D G3070343 G1093606 G1094096 G1094096 G3070225 G1093874 G3346178R G1091605 G3808807G G1093014 G3346178R G3070075 G3070075 G1093592 G1094009 G1094009 G1094009 G1093865 G1094010 G1094009 G3070225 G1093074 G3070349 G3070075 G3070075 G3070347 J24189041 J24189025 J24189025 J24189033 X gt gt gt gt gt gt gt gt gt gt gt gt gt gt gt gt 0 gt gt gt gt gt gt gt gt gt gt gt gt gt Please contact VERTEX STANDARD 1 165 103 1 8 1 8 1 8 1 165 680 1 165 680 MCRO1MZPD1503 MCRO1MZPD1503 1 165 333JTH RMC1 16S 683JTH MCRO1MZPD3303 1 165 104JTH RMC1 16S 104JTH 1 165 183JTH MCRO1MZPD3303 RMC1 16S 104JTH RMC1 16S 103JTH RMC1 16S 103JTH RMC1 16S 101JTH RMC1 16S 103JTH 1 165 563JTH RMC1 16S 103JTH RMC1 16S JPTH RMC1 16S 223JTH RMC1 4 221JATP 1 165 153JTH 1 165 563JTH RMC1 16S 102JTH 1 165 274JTH RMC1 16S JPTH 1 165 333JTH
29. J24189058 J24189070 J24189055 J24189033 J24189070 J24189045 J24189019 J24189043 J24189070 J24189053 J24189051 J24189017 J24189013 J24189013 J24189025 J24189048 J24189031 J24189021 J24189036 J24189025 J24189025 J24189045 J24189029 J24189015 J24189038 J24189053 J24189070 J24189018 J24189021 J24189055 J24189045 J24189049 J24189037 J24189053 J24189061 J24189045 J24189053 J24189057 J24189057 J24189031 J24189045 J24189059 J24189045 J24189031 J24189029 J24189029 J24189015 J24189049 J24189029 Main Unit Parts List DESCRIPTION VALUE MFR S DESIG VXSTD VERS LAY ADR CHIP RES CHIP RES CHIP RES CHIP RES CHIP RES CHIP RES CHIP RES CHIP RES CHIP RES CHIP RES CHIP RES CHIP RES CHIP RES CHIP RES CHIP RES CHIP RES CHIP RES CHIP RES CHIP RES CHIP RES CHIP RES CHIP RES CHIP RES CHIP RES CHIP RES CHIP RES CHIP RES CHIP RES CHIP RES CHIP RES CHIP RES CHIP RES CHIP RES CHIP RES CHIP RES CHIP RES CHIP RES CHIP RES CHIP RES CHIP RES CHIP RES CHIP RES CHIP RES CHIP RES CHIP RES CHIP RES CHIP RES CHIP RES CHIP RES CHIP RES CHIP RES CHIP RES CHIP RES CHIP RES CHIP RES CHIP RES CHIP RES CHIP RES CHIP RES CHIP RES gt
30. LAYADR Te CHIP CAP 0 1uF CHIP CAP 0 1uF CHIP CAP 0 01uF CHIP CAP 0 01uF GRM36B104K10PT GRM36B104K10PT GRM36B103K16PT GRM36B103K16PT JMK212BJ106KG T GRM36B104K10PT GRM36B104K10PT GRM36B223K16PT GRM155B11H102KA01D CHIP CAP 10uF CHIP CAP 0 1uF CHIP CAP 0 1uF CHIP CAP 0 022uF CHIP CAP 0 001uF CHIP CAP 0 001uF GRM155B11H102KA01D K22178809 CD1001 CERAMIC DISC 450 24 7901460 1002 FILTER PTZ 25 15A 1554006 T2R 1554006 T2R HVU131TRF HVU131TRF 1SV323 TPH3 1SV323 TPH3 1SV323 TPH3 1SV323 TPH3 1554006 T2R 1SV323 TPH3 1SV323 TPH3 1SV323 TPH3 1SV323 TPH3 DAN222 TL 1554006 T2R DA221 TL DA221 TL 1SV286 TPL3 1554006 T2R 1SV286 TPL3 1SV286 TPL3 1SV286 TPL3 1SV282 TPH3 1SV282 TPH3 1SV282 TPH3 1SV286 TPL3 1SV282 TPH3 1554006 T2R DA221 TL DA221 TL HZUBALL TR DAN222 TL 1554006 T2R DAN222 TL DA221 TL DA221 TL 2 Nr 22108802 22108802 22128804 22128804 22080802 22108802 22108802 22128806 22178809 ELFY450E H3900549 ELFC450G H3900538 G2070692 G2070934 G2070934 G2070462 G2070462 G2071006 G2071006 G2071006 G2071006 G2070934 G2071006 G2071006 G2071006 G2071006 G2070174 G2070934 G2070178 G2070178 G2070610 G2070934 G2070610 G2070610 G2070610 G2070778 G2070778 G2070778 G2070610 G2070778 G2070934 G2070178 G2070178 G2070754 G2070174 G2070934 G2070174 G2070178 G2070178 1554006 2
31. RMC1 16S 102JTH RMC1 16S 102JTH RMC1 16S 102JTH RMC1 16S 102JTH RMC1 16S 102JTH RMC1 16S JPTH RMC1 16S JPTH RMC1 16S 104JTH RMC1 16S 102JTH 1 165 224JTH 1 165 224JTH RMC1 16S JPTH RMC1 16S 393JTH RMC1 16S 224JTH 1 165 124JTH 1 165 103JTH RMC1 16S 102JTH RMC1 16S 473JTH RMC1 16S 473JTH RMC1 16S JPTH RMC1 16S 333JTH RMC1 16S 683JTH RMC1 16S 104JTH RMC1 16S 104JTH RMC1 16S JPTH RMC1 16S JPTH RMC1 16S 473JTH RMC1 16S 331JTH RMC1 16S 180JTH RMC1 16S 331JTH RMC1 16S JPTH RMC1 16S 223JTH RMC1 16S 223JTH RMC1 16S 681JTH SKRTLAEO10 SKRTLAEO10 SKRTLAEO10 EC10SP16 93A0 3 317197 3 317197 BF3 281 8007 02 TACT SWITCH TACT SWITCH ROTARY SWITCH COIL O4WIDE COIL O4WIDE COIL WIDE TRANS 68 TACT SWITCH 1001 VR1001 1002 026 0103281 1003 9500830 XF1001 PAD SHIELD CASE VCO E rJ pc 7 3728 2 7 3728 7 femme NI 424189025 424189025 424189025 424189025 424189025 424189025 424189025 424189025 424189025 424189025 424189025 424189070 424189070 424189049 424189025 424189053 424189053 424189070 424189044 424189053 424189050 424189037 424189025 424189045 424189045 424189070 424189043 424189047 424189049 424189049 424189070 424189070 424189045 424189019 424189004 424189019 424189070 424189041 424189041 424189023 5090130 5090130 5090130 29000820 10022449 10022449 10022927 73150
32. The value of each parameter can be changed to the desired position by use of the and up down arrow keys along with direct number input and dragging of the PC mouse To enter the Basic Alignment Mode select Basic Alignment in the main Radio menu It will start to Upload the written personalized data from the radio Pressing the OK button will then start the Basic Alignment Mode Note when all items are to be aligned it is strongly recommended to align them according to following sequence Detailed information for each step may be found in the Help file within CE59 Clone Ed itor Voltage Maximum Deviation Maximum Deviation lt Narrow gt Sub Audio Deviation lt CTCSS gt 10 Sub Audio Deviation lt DCS gt jasic Alighnment 2 TX VCO Tune Voltage TX VCO 3 PLL Reference Frequency Frequency 4 RXSensitivity RX Tune 5 Squelch SOL 6 TX Power 7 8 9 VOO Freq RX Tune SQL Tx Pwr MOD Others Band Low Edge 13410000 MHz High Edge 17390000 MHz Center 15410000 MHz D A R32 START NSQ W RX Tune Low 45 Center 95 TI N START High 88 ER Basic Alighnment UNI VCO Freq RX Tune SQL Tx Pwr MOD Others Band 5
33. 0 gt 00000000 gt gt gt gt Main Unit Parts List DESCRIPTION VALUE MFR S DESIG VXSTD VERS LAY ADR TRANSISTOR IC TRANSISTOR TRANSISTOR TRANSISTOR TRANSISTOR IC TRANSISTOR TRANSISTOR IC TRANSISTOR TRANSISTOR TRANSISTOR TRANSISTOR FET TRANSISTOR TRANSISTOR TRANSISTOR TRANSISTOR TRANSISTOR TRANSISTOR TRANSISTOR TRANSISTOR TRANSISTOR IC TRANSISTOR TRANSISTOR TRANSISTOR TRANSISTOR TRANSISTOR IC TRANSISTOR TRANSISTOR TRANSISTOR FET CHIP RES CHIP RES CHIP RES CHIP RES 25 3476 121 M62364FP 6000 2SC5226 4 5 TL LA8630M B TE R 2SK3475 T2LVX DTC114TE TL 2SC3356 T2B R25 BD6111FV E2 TC4W53FU TE12L NJM2130F TE1 AK2345 TAPE 2SC5005 T1 DTC144EE TL SPM5001 2SA1774 TLR DTA144EE TL TC7W74FU TE12R DTC114TE TL 2SC5005 T1 UNR911FJOL DTC144EE TL 2SK508 T2B K52 DTC114TE TL DTC144EE TL 2SC5005 T1 25 4227 2 R32 25 4227 1 R32 2SC4617 TLR 2SC5226 4 TL UMD5N TR S 80835CNMC B8U T2 TAR5S35U TAR5S35U DTC114TE TL BR93L66RFVM WTR 2SC4617 TLR TA31136FN EL 2SK880GR TE85R LC87F5BP6A F54P8 E SA7025DK 2SC4617 TLR DTC144EE TL DTC144EE TL NJM12902V TE1 LM2902PWR LM2902PWR LM2902PWR CD4066BPWR LM2904PWR LM2902PWR DTC114TE TL NJM2130F TE1 UNR911FJOL DTC144EE TL DTC144EE TL RTMOO2PO2 TAPE RMC1 16S 223JTH RMC1 16S 102JTH RMC1 16S 102JTH RMC1 16S 472JTH G3834768 G1093033 G3352268Z G1093452 G3070318 G3070225 G3333567E
34. 0 001uF 0 033uF 10uF 22pF 0 01uF 0 1uF 0 001uF 0 1uF 0 001uF 8pF 0 01uF 0 01uF 0 022uF 180pF 0 01uF 0 001uF 0 01uF 0 001uF 0 01uF GRM155B11H102KA01D GRM1554C1H1R5BZ01D GRM1552C1H150JZ01D GRM1552C1H150JZ01D GRM155B11H102KA01D GRM155B11H102KA01D GRM155B11H102KA01D GRM1552C1H9RODZ01D GRM36B103K16PT GRM1552C1H150JZ01D GRM155B11H102KA01D GRM1552C1H330JZ01D GRM1552C1H330JZ01D GRM155B11H102KA01D TESVSP0J106M 8R GRM1552C1H6RODZ01D GRM1552C1H330JZ01D GRM155B11H102KA01D GRM1552C1H820JD01D GRM155B11H102KA01D GRM1552C1H330JZ01D GRM155B11H102KA01D TESVSPO0J106M 8R GRM36B104K10PT GRM1552C1H120JZ01D GRM155B11H102KA01D GRM155B11H102KA01D GRM36B104K10PT 1552 1 4 0 27010 GRM36B104K10PT GRM36B103K16PT GRM1552C1H270JZ01D GRM1552C1H150JZ01D GRM1552C1H150JZ01D TEMSVA1C475M 8R GRM36B103K16PT GRM36B104K10PT GRM155B11H102KA01D GRM1552C1H5ROCZ01D TEMSVA1C475M 8R GRM36B104K10PT GRM155B11H102KA01D GRM36B333K10PT TEMSVA0J106M 8R GRM1552C1H220JZ01D GRM36B103K16PT GRM36B104K10PT GRM155B11H102KA01D GRM36B104K10PT GRM155B11H102KA01D GRM1552C1H8RODZ01D GRM36B103K16PT GRM36B103K16PT GRM36B223K16PT GRM36CH181J25PT GRM36B103K16PT GRM155B11H102KA01D GRM36B103K16PT GRM155B11H102KA01D GRM36B103K16PT K22178809 K22178288 K22178216 K22178216 K22178809 K22178809 K22178809 K22178211 K22128804 K22178216 K22178809 K22178224 K22178224 K22178809 K78080055 K22178208 K22178224 K22178809 K221 78234 K22178809 K22
35. 1 165 224JTH RMC1 16S JPTH RMC1 16 000JATP RMC1 16S 473JTH RMC1 16S 473JTH 1 165 334JTH RMC1 16S 101JTH 1 165 103JTH 1 165 222JTH 1 165 123JTH 1 165221 RMC1 16S 104JTH RMC1 16S 472JTH 1 165 472JTH 1 165 470JTH 1 165 123JTH 1 165 125JTH RMC1 16S 104JTH RMC1 16S 472JTH 1 165 472JTH RMC1 16S 103JTH 1 165 824JTH RMC1 16S 470JTH RMC1 16S 101JTH RMC1 16S 104JTH 1 165 472JTH 1 165 103JTH 1 165 223JTH RMC1 16S 103JTH J24189037 J24219001 J24219001 J24219001 J24189011 J24189011 J24189328 J24189328 J24189043 J24189047 J24189330 J24189049 J24189049 J24189040 J24189330 J24189049 J24189037 J24189037 J24189013 J24189037 J24189046 J24189037 J24189070 J24189041 J24245221 J24189039 J24189046 J24189025 J24189054 J24189070 J24189043 J24189053 J24189070 J24185000 J24189045 J24189045 J24189055 J24189013 J24189037 J24189029 J24189038 J24189017 J24189049 J24189033 J24189033 J24189009 J24189038 J24189062 J24189049 J24189033 J24189033 J24189037 J24189060 J24189009 J24189013 J24189049 J24189033 J24189037 J24189041 J24189037 Main Unit Parts List DESCRIPTION VALUE MFR S DESIG VXSTDP N VERS LAY ADR CHIP RES CHIP RES CHIP RES CHIP RES CHIP RES CHIP RES CHIP RES CHIP RES CHIP RES CHIP RES CHIP RES CHIP RES CHIP RES CHIP RES CHIP RES CHIP RES CHIP RES CHIP RES CHIP
36. 1086 1087 ou Drain Gate Source RTM002 Q1088 NC NC OUT VSS VDD S 80835CNMC Q1059 VIN CONTROL NOISE GND TAR5S35U Q1060 1061 Main Unit Parts Layout Side A ub 0 T Hh Tib rom Mf 15 Q Ce a 1 gt 2 Base Emitter UNR911FJOL 60 Q1041 1085 Collector _ or 10 Emitter 1 5 2 1 UMD5N Q1006 1058 Emitter Common 1 Base 2 Cathode 1 Anode 2 Anode 1 Cathode 2 DA221 K D1026 1042 1043 1049 1050 Collector 1 Collector 2 XP1501 5R Q1002 Cathode 1 2 Anode 1 Anode 2 DAN222 N D1046 1048 17 Unit Parts Layout Side 18 eoo N E Fe ee 25 Collector En Base Emitter 2541774 FR Q1035 Gate Source Drain 25 508 K52 Q1046 2SK880GR Q1066 Gate Drain Source 2SK3475 Q1024 2 EE 28 Collector Base Emitter 25 3356 R24 Q1027 25 4227 R32 01051 25 4617 01053 25 5005 73 25 5226 822 01021 Y Hh wp ow zd Collector Base Emitter DTA144EE 16 01036 01032 1040 1049 ftr ET 8 Ja 9 Base Emitter DTC114TE 04 Q1038 1047 1083 Collector Base Emitter DTC144
37. 224 12 2 TX 0 6 V SAVE OFF 4 9 V ne 2 cz OV TRX W 3 5 V 0 gt ve pal Kx 2 1 rg 250 525 oN Je OV Tz 156 1 MHz FA 2 INO TX 0V Mont 2 RX N 0 V On OF gt 5 Ta 24 RX 7 4V 2 le ls Rye 24 198 e PU ER gis 7 RXIWE 1 0V ds 5 B 02 d LES qi 55 D W 1 de TX 6 9 V fot 95 NS 135 fie 2 4 RX N 1 9 V L P mf 01 C10B9 oe a 05 ES 26 7 6 dBuV e 0102490 cious L1012 open 95 i gt 51050 ass 2 L ire 10 TX W OV 01012 025u 0 0054 5 u A oS V 3 56 1 2 0 R 9V Wm 1 1902 801 5 029 TRE Rx 2 3 V 61225 2 42 SAVE ON 0 V O idol INI 24 V TX INE 1 C100 1007 22 XXX Ee T Uo gt a i Ex 0105 81580 RS pu NE 25 351 la 61 2 IX 21V X 7 4V TX L1026 B 2560617 8 SAVE Grea FER 55 85 MEA _ 5 223 S 254576 TX 6 9 V L1022 RX 29V TX OV 43 NM D um 4 of o TI 1098 220 L192 550 8 5 VE 4 25 Sg 100p CH Ww 0 056 85 t TX 0V 2 2 JRx 0 3 665005306 C 1002 ot ag 491 TX 0 8V 23 4 81
38. 8 5 8 i gl d d 1 8 Had Eh 5555 lt 5 46 A sz a EE EIE Ja d 18438 84934435 SES lo q gt E 5 yu wy 41114453 434 18945 sp 25 E El 9 r 2 2 2 5 44 a 4 4 d Es 1 M uy 81 sl als el ale 5 15 b 58 y 2 wy un 4 S ug m 222 EAE y y 201223 EIE EE ul C I 2 2 3 uy 212 2 2 Z 2 2 15 Main Unit 16 gt Pin 1 Pin 75 1 25 51 LC87FF5BP6A Q1067 Source 2SK3476 01019 3 lt lt B Pin 7 Pin 1 CD4066BPWR Q1078 LM2902PWR Q1073 1074 1075 NJM12902V Q1072 16 Collector TA31136FN Q1065 Q1003 Collector BR93L66RFVM 2SC4617 BR Q1063 01064 1069 LM2904PWR 2SC5226 R22 01080 01056 25 1132 Base Emitter Collector Base Emitter DTC114TE 04 Q1010 1025 1062 Collector MI Base Emitter DTC144EE 26 Q1004 1017 1018 1070 1071
39. 822JTH RMC1 16S 104JTH RMC1 16S 101JTH 1 165 102JTH 1 165 123JTH RMC1 16S 102JTH RMC1 16S 102JTH RMC1 16S 102JTH RMC1 16S 102JTH RMC1 16S 103JTH RMC1 16S 822JTH RMC1 16S 473JTH RMC1 16S 102JTH 1 165 222JTH RMC1 16S 102JTH 1 165 222JTH RMC1 16S 102JTH 1 165 273JTH RMC1 16S 103JTH RMC1 16S 473JTH RMC1 16S 103JTH 1 165 473JTH RMC1 16S 103JTH RMC1 16S 473JTH RMC1 16S JPTH RMC1 16 000JATP RMC1 16S 102JTH J24189025 J24189017 J24189029 J24189019 J24189029 J24189022 J24189037 J24189070 J24189021 J24189029 424189041 424189063 424189053 424189041 424189037 424189053 424189037 424189055 424205279 424205279 424189037 424189045 424189045 424189045 424189045 424189066 424189066 424189066 424189066 424189029 424189036 424189036 424189036 424189036 424189049 424189013 424189025 424189038 424189025 424189025 424189025 424189025 424189037 424189036 424189045 424189025 424189029 424189025 424189029 424189025 424189042 424189037 424189045 424189037 424189045 424189037 424189045 424189070 424185000 424189025 Display Unit Parts List DESCRIPTION VALUE MFR S DESIG VXSTD VERS LAY ADR CHIP RES CHIP RES CHIP RES CHIP RES CHIP RES CHIP RES CHIP RES CHIP RES CHIP RES CHIP RES CHIP RES CHIP RES CHIP RES CHIP RES CHIP RES CHIP
40. CCP SW METLA 21008 51008 218 01060 TP1082 41007 880005356 55000257 SEL n M W RENTE NE 74M TAR5S35U 9 211 55000255 81255 F EXT C1208 ps nue 230K METEL ETLAI gt 25 25 0 0022 220K I52 KSUM NETIS 9 82 STD DEV E II 7 0 9 KSZC LM m 29 M 1 Se 0 IL4I Ye 2a LED HI gt KS2C o Vo 2 6808 KS2M NETL LED B 9 516 2 LED_G an 5 15 GND 35V 14 81192 81202 7 3 5 ile 6 8127 PWR 3 LED_A gt 0 VDD y M 1 81078 uns PW 31078 3 5 81188 CD40 b6BPW Jii a PONT L 688 0 1 gt d 5 vss We d L REG gt lt gt gt 252 PWR 3 4 1716W T 1 G1074 1 OFF OV RESISTOR VALUES 50V L DATA 1 LM2402PN 74 id A TCADA TIOR VALUES ANE TANTAUUM x IN H EXT ACC PTT 1 MUTE 3 1 as UNLESS OTMERWIEE NOTED ne ncs gt 01083 T t 81455 48 amp n BUSY AP p i 2 56 1K So LM2902PW 93 TX 3 1 V th al 2155 3 i B GND 2 m 4 gt ii 5
41. GRM36B104K10PT GRM36B104K10PT GRM36B104K10PT GRM36B104K10PT TESVA1C105M1 8R GRM1552C1H5ROCZ01D GRM36B104K10PT GRM155B11H102KA01D GRM36B104K10PT GRM1552C1H100JZ01D UVR1A101MDA6 100UF GRM36B223K16PT GRM36B223K16PT GRM36B103K16PT TEMSVA1D475M 8R GRM36B103K16PT TEMSVA0J106M 8R TEMSVA0J106M 8R GRM36B104K10PT GRM36B104K10PT GRM36B104K10PT GRM36B104K10PT GRM155B11H102KA01D GRM155B11H102KA01D GRM36B104K10PT GRM36B104K10PT GRM155B11H102KA01D GRM1552C1H101JD01D GRM36B103K16PT GRM36B104K10PT GRM40B225K6 3PT TEMSVA0J475M 8R GRM36B104K10PT GRM36B104K10PT GRM36B104K10PT GRM155B11H102KA01D GRM155B11H102KA01D GRM36B223K16PT GRM36B223K16PT GRM36B103K16PT FA1101F TR FA1101F TR TLOU1020 T14 TLOU1020 T14 TLOU1020 T14 TLOU1020 T14 1554006 T2R 1554006 T2R 1 400 T2R 1554006 T2R CB3074001 LCD OFF CB3074002 LCD ON 0123400 22108802 22128804 22178809 78120031 22108802 78080027 22108802 22108802 22108802 22108802 22108802 78120009 22178207 22108802 22178809 22108802 22178212 40109028 22128806 22128806 22128804 78130048 22128804 78080027 78080027 22108802 22108802 22108802 22108802 22178809 22178809 22108802 22108802 22178809 22178236 22128804 22108802 22080801 78080017 22108802 22108802 22108802 22178809 22178809 22128806 22128806 22128804 02070842 02070842 52070990 52070990 52070990 52070
42. RES CHIP RES CHIP RES CHIP RES CHIP RES CHIP RES CHIP RES CHIP RES CHIP RES CHIP RES CHIP RES CHIP RES CHIP RES CHIP RES CHIP RES CHIP RES CHIP RES CHIP RES CHIP RES CHIP RES CHIP RES CHIP RES CHIP RES CHIP RES CHIP RES CHIP RES CHIP RES CHIP RES CHIP RES CHIP RES CHIP RES CHIP RES CHIP RES CHIP RES CHIP RES CHIP RES CHIP RES CHIP RES CHIP RES CHIP RES CHIP RES CHIP RES CHIP RES CHIP RES CHIP RES gt Display Unit Parts List DESCRIPTION VALUE MFR S DESIG VXSTD VERS LAY ADR CHIP RES 1 165 563JTH J24189046 CHIP RES 1 165 333 424189043 1 165 103 424189037 W LCD RMC1 16S 473JTH J24189045 W LCD CHIP RES RMC1 16S 183JTH J24189040 CHIP RES RMC1 16S JPTH J24189070 8 2002 l ferne won 8 TH2001 THERWISTOR 68090150 je REFLECTOR SHEET 0698000 LIGHT GUIDE 0689100 W LCD 068970 INTER CONNECTOR RA0663700 W LCD PAD 0727300 40 Cable Unit Circuit Diagram EXT SP EXT SP
43. and D1022 all 18V323 prior to de livery to the 1st mixer 2 2 First Mixer The 1st mixer consists of Q1034 SPM5001 T1001 T1002 and T1008 Buffered output from the VCO is amplified by 01032 25C5005 to provide a pure first local signal between 184 85 and 224 85 MHz for injection to the first mixer The signal then passes through monolithic crystal filter XF1001 5 5 kHz BW to strip away undesired mixing products 2 3 IF Amplifier The first IF signal is amplified by 01056 2565226 The amplified first IF signal is applied to FM IF sub system IC Q1065 TA31136FN which contains the second mixer second local oscillator limiter ampli fier noise amplifier and S meter amplifier The sig nal from reference oscillator X1003 is multiplied by three by Q1065 TA31136FN and then is mixed with the IF signal to produce a 450 KHz second IF The second IF signal then passes through the ceramic Circuit Description filter CF1001 wide channels CF1002 narrow chan nels to strip away all but the desired signal and is applied to the limiter amplifier in Q1065 TA31136FN which removes amplitude variations in the 450 IF before detection of the speech by the ceramic discriminator CD1001 2 4 Audio amplifier Detected audio from 01065 TA31136FN is applied to 01031 2345 and is fed to the bandpass filter inside Q1031 2345 If an optional signaling unit is installed Q1078 CD4066BPWR is set to OFF
44. gt 2 RESET NJUb62UAFG 1 05 Q VIR LS C20 TP2025 0 1 4 4 AW 5 2320 11 79 82087 HN 0 92V p 3 lt 8 C oO 5 eu 0 5 9 1 0 00 7 W ANN 9 d 1 a 20 Rh2079 02020 g Co 0 1 DA22 1 2050 es que 5 0 K2 LAMP 3 1 LAMP 3 1 LED OFF 2 8 3 3 V 9 0 LAMP OFF 3 7V LAMP OFF 4 0V LED B LOW 1 6 V MIC SE n C t D lt LED B HI 1 4 V a 9 9 SEGI11 2 od a 6 4 qu 0 K Al SEGI2 8 4 0 0 CI KS1 N F AF SW om 0 D T 22078 4 TA dem SE LAMP ON 1 2 V LAMP ON 1 2V LED OFF 2 7 3 3 V I C 20 INT MIC 1 9 V 32 cm tm 9 K82 LAMP OFF 2 4V LAMP OFF 2 6V LED 9 LOW 1 8 8 0 5 SEGI4 LED G HI 1 6 V 0 0 EXT MIC 0 1 53 53 0 S a 82076 seals 1 i _ 2 0 BE M LAMP ON 0 V LAMP ON 0 1V LED R OFF 3 5 3 8 V 0 CLONE 5 82064 LAMP OFF 2 4 V LAMPOFF 26V LED R LOW 2 6 V 1 AM LED 2 5 V 0 0 TP2033 A 1 DISC OUT AW 82065 O 110 CLONE 20 09 0 9 3 e OGC CCE SE 0 82067 0 12 Eb g a a 0 4 BE TP20 54 TP2042 ojojoj 0 m SV 8 D 1 0
45. lator is amplified by buffer amplifier Q1040 25 5005 and becomes the output of the output from 15 divided one part is amplified by 01049 25 5005 and fed back to the PLL IC at pin 5 The other is amplified by Q1032 2SC5005 and in case of the reception it is fed via D1023 DAN222 to the mixer as the 1st local signal On transmit it is fed via 01023 DAN222 to buffer amplifire 01027 25 3356 passed through the final amplifier driver 01024 2SK2375 to the final amplifier 01019 2SK2376 3 4 2 Varactor Control Voltage Control The tuning voltage of the establishes the lock range of the VCO by controlling the anode of a varactor diode using negative voltage and the control voltage from PLL IC 01068 SA7025DK negative voltage is fed to the varactor diode after conversion to negative value at Q1030 NJM2130F using the output voltage of the D A converter Q1020 M62364FP 3 4 3 PLL PLL Q1068 SA7025DK consists of a refer ence divider main divider phase detector charge pumps and a fractional accumulator The reference frequency from TCXO is applied to pin 8 of the PLL Circuit Description IC Q1068 SA7025DK and is divided by the refer ence divider This IC is a decimal point dividing PLL IC and the dividing ratio becomes 1 8 of the usual PLL frequency step Therefore the output of refer ence divider is 8 times the frequency of the cha
46. nto 010 M ul a 51 SEN ETT ME 7 512 25 Lender se Sr PWR 6 7 V m a PWROFF 0V 5 2 4 3 _ gt 100 ul a m 77 3 2 33 77 7 gt 21 12 E 59257 US PARA Y UO 585 e minm gt L 4 485 0 2232 00 24 2 ls c 08 m NW gn sro 21212112 pei j 5 E a gt al C pita 1 01041 gt Lai S pA giu ur 2 2 2 4121515 yy AK 1216 1554006 Login No z ziziu s4 OO gt MI e 58 uh os 5 elele XIX X X cays ert Y Y ex 49 5 1 OO 2 m z 01051 9 JEJEJE 8 uo nS RSN RX 180p 25 Dru Lev 7 1554006 S 9 oF 0S C E Fjala a oom ae 2 5 81209 10 8 BT mT ay My 2303 91084 2 X a alal 3 5 ayn C1156 RY a a oc ayo DDO ae 8 Exe gt d ns B V sav e300 dO 3 3 OO mem JE 555055 L E 95 gt x SOO 20040405 6 gt C AWW 233335393 1544 9 3 2 1210 TDET II 5 L DGG 2 2 Riua7 1K NETI93 000009 LA mj HN 2 ciiz 15K
47. 0 RA0699400 BORA N m N 1 1 1 c1 NO 1 Display Unit Circuit Diagram
48. 0JTH J24189004 B CHIP RES RMC1 16S JPTH J24189070 A CHIP RES RMC1 16S 684JTH J24189059 A CHIP RES RMC1 16S 105JTH J24189061 A CHIP RES RMC1 16S 473JTH J24189045 B CHIP RES RMC1 16S 104JTH J24189049 B CHIP RES RMC1 16S 180JTH J24189004 B 1 165 394JTH RMC1 16S JPTH RMC1 16S JPTH RMC1 16S 180JTH RMC1 16S 220JTH 1 165 684JTH RMC1 16S 105JTH RMC1 16S 103JTH 1 165 224JTH 1 165 474JTH 1 165 824JTH 1 165 564JTH RMC1 16S JPTH 1 165 334JTH 1 165 472JTH RMC1 16S JPTH RMC1 16S 473JTH 1 165 331JTH 1 165 333JTH RMC1 16S JPTH 1 165 224JTH 1 165 154JTH 1 165221 RMC1 16S 101JTH RMC1 16S 101JTH 1 165 102 1 165 823 1 165 332JTH 1 165471 1 165 822 1 165 102JTH 1 165 102JTH 1 165 473JTH 1 165 222JTH RMC1 16S 151JTH 1 165 123JTH 1 165 224JTH RMC1 16S JPTH 1 165 271JTH 1 165 471JTH RMC1 16S 334JTH RMC1 16S 473JTH RMC1 16S 104JTH RMC1 16S 103JTH 1 165 224JTH RMC1 16S 105JTH RMC1 16S 473JTH 1 165 224JTH 1 165 474JTH 1 165 474JTH RMC1 16S 332JTH RMC1 16S 473JTH RMC1 16S 684JTH RMC1 16S 473JTH RMC1 16S 332JTH 1 165 222JTH RMC1 16S 222JTH RMC1 16S 151JTH RMC1 16S 104JTH RMC1 16S 222JTH J24189056 J24189070 J24189070 J24189004 J24189005 J24189059 J24189061 J24189037 J24189053 J24189057 J24189060
49. 1 51 8 L gt V L E Yn E 4 91086 91078 Acer NETLSSI 6 2 82005565 3 151 DTC LUUEE C0M 0668CVI BEC GEO CCE e D pi 10 100K HS 21 2 RX 0 V 3 5 V A AGND n 8 59 8 gt ii GND TX 3 4 V 4 25 22220770 x n 2 go go ONTROL NETL151 oem 9 1 0 7 zi 12 MAINRST TP1078 4 S 55 771 81274 ENCSTEY EMERGENCY 124 4 9 a 5 7 AW 9 0 ur ENCE t TXD B 2 D DISC 79 781 2 E 5 5 2 2 de di RI DTMFPD SEL iL 2 AFOUT 80 T MM 0 AFIN E DTMFSTD SM 3 api n N 1 26 DTMFSD 81 35V qam C OUT n Ox o 01082 1082 9 29001 1 5 EM 2527 DIS 2 N 29 5 8 2902 83 58 2s gt jme EXE NETLSO N TUN t 5 gt y 047 500 a e 1 z 5 uc 11 gt 500 2 N n7 2 2 m 101 8 mo id 22 1151 c LM2902PW ST S T
50. 100 VAOU E AW AF SAVE NETI 761 CLOCK SHIFT OFF 2 01056 ik Bias aipat ie 2 5 81225 91067 SEL NET 180 1 M M625 0 81155 2 01395 ax LC87F SBP6A F Sup DTMF_STD S M gt NETI251 GND C D DO 03118 d M6IL116 3 5 RX 0V 2 TEC 211 5 1216 7 od TEZW7SEU nds IX Gp 9551 SHIFT 2 4 TX 3 5 PO OFF iK vertes E 8 81528 K 34 9 AW e 5 pul T 9 gt Red SHIF Neri ser 5 m RI204 81208 Os 28 M NETL1051 2 5 MW M PWR 3 5 18V FEW 71442 1K 104 5 CONTROL 95 1 3 D AW LE LS os 820 cH 82801 Wem 0 V 531 161001 CLOCK SHIFT news 105 2 2 1 4 WW 96 3 5V 0190 ICI OFF 2 0 V 5 AW 2 35 5 1721 SEA R1445 1K 1 3 E TOC 17 3 3 V gt VVV TX 0 V ae 9 excstay __ np ROL A gt Am NETI 76 4 1 V MM A EDS 556 B 50 E CONTROL 01029 Loa 5 R1335 1 0 vcce 9 ns TCUWS3FU 17
51. 100JZ01D GRM36B103K16PT GRM155B11H102KA01D GRM1552C1H180JZ01D GRM36B103K16PT GRM1554C1H2R0CZ01D GRM1552C1H330JZ01D GRM36B104K10PT GRM155B11H331KA01D GRM36B472K25PT GRM155B11H102KA01D GRM1552C1H101JD01D GRM36B104K10PT GRM36B103K16PT GRM1552C1H180JZ01D GRM1552C1H680JZ01D GRM155B11H102KA01D GRM36B472K25PT GRM36B122K50PT GRM36B103K16PT GRM1552C1H220JZ01D TEMSVA0J106M 8R K22148203 K22128804 K22108802 K22108802 K22178809 K22178809 K78080053 K78080053 K78080053 K22178809 K22178211 K22108802 K22178809 K22108802 K22178214 K22178809 K78080053 K22178214 K22128804 K22128804 K22178216 K22178809 K78080053 K22178809 K22178204 K22178224 K22104806 K22108802 K22178208 K22178206 K78080027 K22148203 K22104806 K22104806 K22128804 K22080802 K22178809 K22148203 K22178212 K22128804 K22178809 K22178218 K22128804 K22178204 K22178224 K22108802 K22178803 K22148830 K22178809 K22178236 K22108802 K22128804 K22178218 K22178232 K22178809 K22148830 K22178810 K22128804 K22178220 K78080027 UJ A A B B B B B B B B B A B B B B B B A B B B A A B B B B B B B B B A A B B B A A B A A B B A B B B B A B B B B B A B B
52. 104K10PT GRM36B103K16PT GRM1552C1H820JD01D GRM1552C1H151JA01D GRM155B11H102KA01D GRM36B103K16PT GRM155B11H102KA01D ECJ1VB1A105K GRM155B11H102KA01D GRM155B11H331KA01D GRM155B11H102KA01D GRM36B103K16PT GRM36B103K16PT GRM36B104K10PT GRM1552C1H330JZ01D GRM155B11H222KA01D GRM155B11H102KA01D GRM36B103K16PT GRM1552C1H120JZ01D GRM36B104K10PT TEMSVA0J106M 8R GRM36B472K25PT GRM36B104K10PT ECJ1VB1A105K GRM155B11H102KA01D GRM36B103K16PT GRM155B11H102KA01D TEMSVA0J106M 8R GRM1552C1H180JZ01D TEMSVA20J475M 8R GRM1552C1H100JZ01D GRM155B11H102KA01D GRM188B11C104KA01D GRM1552C1H180JZ01D GRP1553C1H3ROCZ01E GRM36B103K16PT GRM1552C1H150JZ01D GRM36B103K16PT GRM1552C1H470JZ01D GRM1552C1H120JZ01D GRM155B11H681KA01D GRM1552C1H120JZ01D GRM155B11H102KA01D GRM36CH181J25PT GRM1552C1H470JZ01D GRM36B104K10PT GRM155B11H102KA01D GRM36B104K10PT GRM36B103K16PT GRM1552C1H470JZ01D GRM1554C1HR50BZ01D GRM36B103K16PT GRM1554C1H1ROBZO1D K22128804 K78080027 K22108802 K22178809 K22128806 K22128804 K22178238 K22108802 K22128804 K22178234 K22178240 K22178809 K22128804 K22178809 K22104806 K22178809 K22178803 K22178809 K22128804 K22128804 K22108802 K22178224 K22178813 K22178809 K22128804 K22178214 K22108802 K78080027 K22148830 K22108802 K22104806 K22178809 K22128804 K22178809 K78080027 K22178218 K78080031 K22178212 K22178809 K22124805 K22178218 K22178205 K22128804 K22178216 K22128804 K22178228 K22178214 K22178807 K22
53. 157 551 26V 2E NO Na 8 C R Lo 5 0 V ND Tu i a Ux 47 zm 2X 02 dice NO es QA ves 5 NS D Tua Tas 4 og 5 82 Ns ox 84458 x ZEN TX 23 V o8 7 of a E Deu 3 0 a 2 n lt 1 axe 81481 oft o Os Na C1258 mis D1048 oo 22 ES T ox CC 22p CH MA 21 2 101089 7 81022 R10 Sap 1 5 T Nod ox ENST 10 4 o 2 0 00 HT M DAN22 gt Xs 68 498 1 5 81 20 AN ii RX gt TA 8 0 V 9116 49V 4 8 zr gt o of pee LI 26 77 5 gt 5 m gt 295 RX W 1 0 V 21 9 m 5 o lic 2 m n Rx D TX 17 1174 N SAV n 2 ML NS C1404 CH 11020 gt 3 de de 8 19V 5 Do m 4 24 mir da 5 5 CH JR 81222 T AM SN TX A42 V 4 95 4 1 A o de 4 zi 20725 2 D TH 01046 Q0 gd os 0 55 m T T ce ELI RA il S 01025 M 1 T cit 2SK508 KSP CRE amp TX W 0 V I PWR ON 0 V uu g
54. 178214 K22178809 K22148201 K22178228 K22108802 K22178809 K22108802 K22128804 K22178228 K22178285 K22128804 K22178287 Main Unit Parts List DESCRIPTION VALUE MFR S DESIG VXSTDP N VERS LOT SIDE LAYADR UJ B B B A B B B A B B B B B B B A A B A B B B B B B B B B B B B A B B B B B A A B B A B A B B A B B A B A B B B A B A B Main Unit Parts List DESCRIPTION VALUE MFR S DESIG VXSTD VERS LOT SIDE LAYADR CHIP CAP CHIP CAP CHIP CAP CHIP CAP CHIP CAP CHIP CAP CHIP CAP CHIP CAP CHIP CAP CHIP CAP CHIP CAP CHIP CAP CHIP CAP CHIP CAP CHIP TA CAP CHIP CAP CHIP CAP CHIP CAP CHIP CAP CHIP CAP CHIP CAP CHIP CAP CHIP TA CAP CHIP CAP CHIP CAP CHIP CAP CHIP CAP CHIP CAP CHIP CAP CHIP CAP CHIP CAP CHIP CAP CHIP CAP CHIP CAP CHIP TA CAP CHIP CAP CHIP CAP CHIP CAP CHIP CAP CHIP TA CAP CHIP CAP CHIP CAP CHIP CAP CHIP TA CAP CHIP CAP CHIP CAP CHIP CAP CHIP CAP CHIP CAP CHIP CAP CHIP CAP CHIP CAP CHIP CAP CHIP CAP CHIP CAP CHIP CAP CHIP CAP CHIP CAP CHIP CAP CHIP CAP 0 001uF 1 5pF 15pF 15pF 0 001uF 0 001uF 0 001uF 0 01uF 15pF 0 001uF 33pF 33pF 0 001uF 10uF 6pF 33pF 0 001uF 82pF 0 001uF 33pF 0 001uF 10uF 0 1uF 12pF 0 001uF 0 001uF 0 1uF 4pF 0 1uF 0 01uF 27pF 15pF 15pF 4 7uF 0 01uF 0 1uF 0 001uF 5pF 4 7uF 0 1uF
55. 178224 K22178809 K78080055 K22108802 K22178214 K22178809 K22178809 K22108802 K22178206 K22108802 K22128804 K22178222 K22178216 K22178216 K78120031 K22128804 K22108802 22178809 22178207 78120031 22108802 22178809 22108803 78080027 22178220 22128804 22108802 22178809 22108802 22178809 22178210 22128804 22128804 22128806 22148201 22128804 22178809 22128804 22178809 22128804 UJ B B B B B B A B B B B B B B B B B B B A B B A B B B B B B B B A A A B A A B A A A B A B A A A A A B A A B A A A A A A
56. 22 atoau Pd 01014 01078 Pr 1 v DCS DEC LABb30M NUM2130F 04053 04056 4 1 LPF LIM COMP 1 C 0107 fe 91074 be 001025 Ke 01074 _ 1 LM2902 LM2902 006221 LM2902 1 84 1 4 come RR ee ee ee 5 0 5 DIVIDER AVS DEC 1 1 1 sel G1037 4 1 OPTION SW D 1 I 11 TC7W7UFU L 22 vus m mE 1 01078 4 4 7 7757 1 1 i 0 AUDIO PROSSESOR 4 q 1 4066 Dos 01051 AK2345 1 1 INPUT TX BX SPLATTER N F SEL AF N F SEL L AMP1 Po LIMITER Foo EM 1 SELECT SW SELECT SW FILTER I CD4066 1 CPU E ADDER 1 1 9 TX RX D i AMP2 SMF VR AMPZ AF N SW tod 1 SELECT Sw 01086 EL Am E 1 DTCIUUEE 5 2 M 1 CPU KEY MATRIX 1 NN ME MI 5 2 1 CTCSS DCS 150 FILTER SEL AF N F SEL eens CNTL LOGIC TSQLPF AMPU TSG DET 54 TCUWS3F CD40 66 i 1 SNILE CPU 800 CPU 1 2_ 2 22 2 2 _ _ _ _ I nx L
57. 5 2001 2007 sks des i 1 5 5501 82026 25017570 22006 2 0 44 3 j i s P2047 gt 2 LED OFF 4 7 V 0 Ds 7 lt 92018 al 8 zs Li M pe 0 52002 C ue pas 5 ri en A 0 N5090 130 NW s Os T 5 So E 3 1 77 si 7 m 3 0V DS2001 i 0 o 5 a I 00170 0 0 gt Y gt gt 4 pre I c qus 7 2 8 V 25 M a E LAm ua La Lem Las ma in SEL KEY pe Zo oO 0 1 PWRON 0V 5 25 25 em O 23 0 PWR OFF 3 6 V 43 SEMEN TD ME 55 QU7W RN zs TP2050 E m EEG a Ho 5 au qa St 0 1 4 7 77 Ge P QT DA2822D ee Son a NS ONE ay O TF 0 2011 MUTE 74V T TNO Bs 202222 Ms zm 0 009 167 ef ayle cC 8 MUTE 7 4V x BUSY 0V que i BUSY 1 3 aus IX 74 L 98 We TP20 10 2 5 DE 7 4 im We Bol 2 d RN 0 Thi TR R205z RA RR 1 QU 3 47K N TX OV WW gt 18 i
58. 656HF VM 0 1 VOLTAGE i 9 6 8 gt gt 3 3 E 2 4 81075 LOGIC CNTL MAIN SPEED UP er qus 5559 oe REFERENCE OUTPUT 0 SELECT CHARGE PUMP D 0 pem LI 1 T 1 gt H gt gt d gt D H 0 M 9 56 CNTL DATA ED 1 gt D D INTEGRAL a a REFERENCE DIVIDER t 21 21 4 OUTPUT 1 gt K gt a 1 i CHARGE PUMP T 0 1 91082 9 1 LM2902 4 REF MOD VCTCXO L 81075 1005 a fee ale es J AF MUTE 1 LM2902 16 8MHz r 01075 _ lt __ _ 7 LM2902 i C MUTE M NE 1 i se De Emphasis E 4 1 EXP SEL l EXPANDER AMP TEN D i LM290 4 LM290 4 9 01014 01022 91074 4 lt cD4053 LAB630M LM2902 27 BEC tog 1 ne 1 1 2 0 LPF LPF LIM COMP 0 Pre Empnas is 01075 01075 01026 01077 ss 3 Los 014 amp COMPRESSOR SEL OPTION SW LM2902 LM2902 0 221 LM290 H 1 04053 010
59. 683JTH J24189047 B CHIP RES RMC1 16S 104JTH J24189049 A CHIP RES RMC1 16S 102JTH J24189025 A CHIP RES RMC1 16S 102JTH J24189025 A CHIP RES 1 165 123JTH J24189038 B CHIP RES RMC1 16S JPTH J24189070 A CHIP RES RMC1 16S 104JTH J24189049 B CHIP RES 1 165 473JTH J24189045 A CHIP RES RMC1 16S 102JTH J24189025 A CHIP RES RMC1 16S 102JTH J24189025 A CHIP RES RMC1 16S 220JTH J24189005 A CHIP RES RMC1 16S 682JTH J24189035 A CHIP RES RMC1 16S 102JTH J24189025 A CHIP RES RMC1 16S 220JTH J24189005 B CHIP RES RMC1 16S 332JTH J24189031 A CHIP RES RMC1 16S 102JTH J24189025 A CHIP RES RMC1 16S 102JTH J24189025 A CHIP RES RMC1 16S 102JTH J24189025 A CHIP RES RMC1 16S 102JTH J24189025 B CHIP RES RMC1 16S 102JTH J24189025 A CHIP RES RMC1 16S 102JTH J24189025 A CHIP RES RMC1 16S 105JTH J24189061 A CHIP RES RMC1 16S 101JTH J24189013 B CHIP RES RMC1 16S 102JTH J24189025 A CHIP RES RMC1 16S 102JTH J24189025 A CHIP RES RMC1 16S 102JTH J24189025 A CHIP RES RMC1 16S 102JTH J24189025 A 1 165 123 1 165 102JTH RMC1 16S 682JTH RMC1 16S 101JTH RMC1 16S 102JTH 1 165 102JTH 1 165 123 1 165 220JTH 1 165 102JTH 1 165 102JTH RMC1 16S 472JTH RMC1 16S 823JTH RMC1 16S 104JTH RMC1 16S 682JTH RMC1 16S 393JTH 1 165 123JTH RRO510R 203 D 1 165 562 RMC1 16S 683JTH RMC1 16S 103JTH RMC1 16S 104JTH 1 165 102JTH 1 165 102JTH 1 165 223JTH
60. 82070 R2069 1K 0 noc c AXD 1K R20 33 Go 4 B Eee 3 82071 10 TP2035 8 N N a N 02009 R2013 0 I SP4 1 Gy 1 20 20 10 E 5 AW i l 02010 82018 0 REUS DISC OUT 1554006 0 PS gt 6 e 0 IC 12 82092 18K 2029 AW 0 7 9 02012 82016 0 TP2027 C 9 158106 14 0 I gt DA221 DA221 4 AN 0 x OTP2004 0 tr 42002 m p e 0 21091229 22016 62018 x T OT 1 21125416 i 0 221 DA22 14 QOrTP2006 4 L e 4 XL 0 5 9 OTP2044 Ae QIX T UT 0 OTP2007 AW 2 O D 0 0 L_DATA 208110 0 I _ 9 ANN gt I 20L5 0 SCK R2082 10K ze sh SE 1 QOTP2009 AW I A208310K 0 5 RESISTOR VALUES ARE IN Q 1 16W 0 0 VALUES AF 50V I 0 CAPACITOR IES ARE TANTALUM 0 ao p gt 4 0 v INDUCTOR VALUES ARE IN H dir 570220 21 4221227 2 2001 Y gt 4 Jj lt UNLESS OTHERWISE NOTED I P1091189 EB m a 0 0 gt e c ta 5 SO T g 2 CL 0 I I 0 1 A P a a E E E NEE EEEE EE E
61. 823JTH J24189048 B CHIP RES 1 165 473JTH J24189045 B CHIP RES 1 165 473JTH J24189045 B CHIP RES 1 165221 424189017 RMC1 16S JPTH J24189070 B CHIP RES 1 165 474JTH J24189057 A CHIP RES RMC1 16S 104JTH J24189049 B CHIP RES RMC1 16S 104JTH J24189049 B CHIP RES 1 165 105JTH J24189061 B CHIP RES RMC1 16S JPTH J24189070 B CHIP RES 1 165 224JTH J24189053 B CHIP RES 1 165 334JTH J24189055 A CHIP RES 1 165 563JTH J24189046 B CHIP RES 1 165 103JTH J24189037 B CHIP RES RMC1 16S 104JTH J24189049 B CHIP RES RMC1 16S JPTH J24189070 B CHIP RES 1 165 334JTH J24189055 A CHIP RES RMC1 16S JPTH J24189070 B CHIP RES 1 165 224JTH J24189053 B CHIP RES 1 165221 424189017 1 165 222JTH 424189029 RMC1 16S JPTH 424189070 RMC1 16S 223JTH 424189041 RMC1 16S 473JTH J24189045 A CHIP RES RMC1 16S 563JTH J24189046 B CHIP RES RMC1 16S 225JTH J24189065 A CHIP RES RMC1 16S 392JTH J24189032 B CHIP RES 1 165 224JTH J24189053 B CHIP RES 1 165 104JTH J24189049 B CHIP RES 1 165 154JTH J24189051 B CHIP RES RMC1 16S 473JTH J24189045 B CHIP RES RMC1 16S 153JTH J24189039 B CHIP RES 1 165 473JTH J24189045 B CHIP RES 1 165 223JTH J24189041 B CHIP RES 1 165 153JTH J24189039 B CHIP RES 1 165 153JTH J24189039 B CHIP RES RMC1 16S 18
62. 9 7 5 A la L1008 77 2 1 e 8 C SE 01289 82235 4 TU 2 412 77 7777 Qa 4 E mo 81037 150 0 5 01072 818 gt 1072 an TX 2 6 55 LOK se 2 95 Ex 187 Tag 758 ptt S I 10 0 E 01051 Sa SE LE aid RX 7 4V SAVEO 148V 158 ov 23 3 1 V 1 25 Em SON 5 o 6 7 SAVE 4 TX 5OV7 5 TX 0 0 6 V 1 P Aa XOV TX 5 0 V 91017 77 E 2 612690 0V RX 3 0 gt e x tom TX DTCLUUEE TX gt 8V 0 5 284 1 gt gt 10 34 1035 10 hy IX 2 2 5 Sn 1 B TX 5 0 V aa 1774 155 5 Ta 3A Ra 4 an 11050 t3 NIU 1085 tu a 01087 81018 9 15K JL 2 m EH LE TE 5 W MM He 19 20 RX 28 V sr 5 25 L 4443 846 2 6 Ti gt v pir mx 23V x R1398 Y raa 2 1047 2 29 5 oO 12K s a8 8 a a
63. 990 52070934 52070934 52070934 52070934 U UU gt gt gt gt gt X gt gt UU U U UU UU UU UD UJ Display Unit CONNECTOR CONNECTOR CONNECTOR TRANSISTOR TRANSISTOR TRANSISTOR TRANSISTOR TRANSISTOR TRANSISTOR TRANSISTOR TRANSISTOR TRANSISTOR TRANSISTOR TRANSISTOR TRANSISTOR TRANSISTOR TRANSISTOR TRANSISTOR TRANSISTOR CHIP RES CHIP RES CHIP RES CHIP RES CHIP RES CHIP RES CHIP RES CHIP RES CHIP RES CHIP RES CHIP RES CHIP RES CHIP RES CHIP RES CHIP RES CHIP RES CHIP RES CHIP RES CHIP RES CHIP RES CHIP RES CHIP RES CHIP RES CHIP RES CHIP RES 96365 28 IMSA 9631S 22Y901 96365 12 900 DTC114TE TL DTC114TE TL TAR5S50U 1501 2SA1602A T11 1F NJU6624AFG1 03 2SD1767 T100 DTC114TE TL DTC114TE TL DTC114TE TL DTC114TE TL DTC114TE TL DTC114TE TL LM2904PWR CD4053BPWR TDA2822D013TR TDA2822D013TR RTQ030P02 2SA1774 TLR UMD12NTR UMD12NTR DTC144EE TL DTC114TE TL RMC1 16S 221JTH RMC1 16S 221JTH RMC1 16S 221JTH RMC1 16S 393JTH RMC1 16S 223JTH RMC1 16S 103JTH RMC1 16S 123JTH RMC1 16S 393JTH RMC1 16S 822JTH RMC1 16S 562JTH RMC1 16S 221JTH RMC1 16S 102JTH RMC1 16S 102JTH RMC1 16S 102JTH RMC1 16S 102JTH RMC1 16S 473JTH RMC1 16S 102JTH RMC1 16S 102JTH RMC1 16S 102JTH RMC1 16S 102JTH R
64. AP CHIP CAP CHIP CAP CHIP TA CAP CHIP CAP CHIP CAP CHIP CAP CHIP CAP CHIP CAP CHIP CAP CHIP CAP CHIP CAP CHIP CAP CHIP CAP CHIP CAP CHIP CAP CHIP CAP CHIP CAP CHIP CAP CHIP CAP CHIP CAP CHIP CAP CHIP CAP CHIP CAP CHIP CAP CHIP CAP CHIP CAP CHIP CAP CHIP CAP CHIP CAP CHIP CAP CHIP CAP CHIP TA CAP 220pF 0 01uF 0 1uF 0 1uF 0 001uF 0 001uF 4 7uF 4 7uF 4 7uF 0 001uF 0 1uF 0 001uF 0 1uF 12pF 0 001uF 4 7uF 12pF 0 01uF 0 01uF 15pF 0 001uF 4 7uF 0 001uF 2pF 33pF 0 1uF 6pF 4pF 10uF 220pF 1uF 0 01uF 10uF 0 001uF 220pF 10pF 0 01uF 0 001uF 18pF 0 01uF 2pF 33pF 0 1uF 330pF 0 0047uF 0 001uF 100pF 0 1uF 0 01uF 18pF 68pF 0 001uF 0 0047uF 0 0012uF 0 01uF 22pF 10uF GRM36CH221J25PT GRM36B103K16PT GRM36B104K10PT GRM36B104K10PT GRM155B11H102KA01D GRM155B11H102KA01D TESVSP0J475M 8R TESVSP0J475M 8R TESVSP0J475M 8R GRM155B11H102KA01D GRM1552C1H9RODZ01D GRM36B104K10PT GRM155B11H102KA01D GRM36B104K10PT GRM1552C1H120JZ01D GRM155B11H102KA01D TESVSP0J475M 8R GRM1552C1H120JZ01D GRM36B103K16PT GRM36B103K16PT GRM1552C1H150JZ01D GRM155B11H102KA01D TESVSP0J475M 8R GRM155B11H102KA01D 1554 1 2 0 7010 GRM1552C1H330JZ01D ECJ1VB1A105K GRM36B104K10PT GRM1552C1H6RODZ01D GRM1552C1H4RO0CZ01D TEMSVA0J106M 8R GRM36CH221J25PT ECJ1VB1A105K ECJ1VB1A105K GRM36B103K16PT JMK212BJ106KG T GRM155B11H102KA01D GRM36CH221J25PT GRM1552C1H
65. B473K10PT JMK212BJ106KG T GRM36B104K10PT GRM36B104K10PT GRM36B103K16PT GRM36B103K16PT GRM36B561K50PT GRM36B104K10PT GRM36B104K10PT GRM36B104K10PT GRM36B103K16PT GRM155B11H102KA01D GRM155B11H102KA01D GRM155B11H102KA01D GRM155B11H102KA01D GRM1552C1H100JZ01D GRM36B103K16PT GRM36B103K16PT GRM1552C1H470JZ01D GRM1552C1H220JZ01D K22178809 K22108801 K22178220 K78160030 K22104806 K22104806 22178809 22128804 22128804 22178234 22128804 22108802 22108802 22178809 78080026 22178234 22108802 22108802 22108802 22108802 22128804 22178809 22148203 22148248 22178240 78080027 22128804 22108802 22108802 22108802 78080027 22178224 22108801 22178809 22108802 22108802 22178224 22108802 22178236 22178809 22108801 22080802 22108802 22108802 22128804 22128804 22178806 22108802 22108802 22108802 22128804 22178809 22178809 22178809 22178809 22178212 22128804 22128804 22178228 22178220 Main Unit Parts List DESCRIPTION VALUE MFR S DESIG VXSTD VERS LOT SIDE LAY ADR gt Unit Parts List DESCRIPTION VALUE MFR S DESIG VXSTD VERS LOT SIDE
66. CHIP RES CHIP RES CHIP RES CHIP RES CHIP RES CHIP RES CHIP RES CHIP RES CHIP RES CHIP RES CHIP RES CHIP RES CHIP RES CHIP RES CHIP RES CHIP RES CHIP RES CHIP RES CHIP RES CHIP RES CHIP RES CHIP RES CHIP RES CHIP RES CHIP RES CHIP RES CHIP RES CHIP RES CHIP RES CHIP RES CHIP RES CHIP RES CHIP RES CHIP RES CHIP RES CHIP RES CHIP RES CHIP RES CHIP RES CHIP RES CHIP RES CHIP RES CHIP RES CHIP RES CHIP RES CHIP RES CHIP RES CHIP RES CHIP RES CHIP RES CHIP RES CHIP RES CHIP RES gt Main Unit Parts List DESCRIPTION VALUE MFR S DESIG VXSTD VERS LOT SIDE LAYADR T CHIP RES CHIP RES CHIP RES CHIP RES CHIP RES CHIP RES CHIP RES CHIP RES CHIP RES CHIP RES CHIP RES CHIP RES CHIP RES CHIP RES CHIP RES CHIP RES CHIP RES CHIP RES CHIP RES CHIP RES CHIP RES CHIP RES CHIP RES CHIP RES CHIP RES CHIP RES CHIP RES CHIP RES CHIP RES CHIP RES CHIP RES CHIP RES CHIP RES CHIP RES CHIP RES 18 CHIP RES 330 CHIP RES 0 CHIP RES 22k CHIP RES 22k CHIP RES 0 1 165 102JTH RMC1 16S 102JTH RMC1 16S 102JTH RMC1 16S 102JTH RMC1 16S 102JTH RMC1 16S 102JTH
67. E E E EEE EEEE E EE EE E EEE E EE E E S EEE E EEES E EE EEE E E EE EEE EEE E EEEE E E EEEE E E EEE EEE EEEE E EEEE E EE E EE E EEE EE EEE E E EEEE EEEE EE E 33 Display Unit Note 34 er 8 os o Q ol Collector Base Emitter DTC114TE 04 Q2008 2009 2010 2011 2012 2013 5 3 j 80020 1 AN Vo Ten eat C 0028 Cathode 1 Anode 2 1 Cathode 2 DA221 02014 2015 2016 2017 2018 2020 amp 25085 L dbi Display Unit Parts Layout Side 35 Display Unit Parts Layout Side B 21 d a e o pr ET p NE g 2 gerat 1 4 PELIS 1 Dc Oz 22 1 mo e gt I Ps 20 bat 2 90046210 Sle SIS ISIS SS GY Base Collector 1 Emitter 2 Collector Collector 16 E d Collector 47 S Emitter M LI Emitter 1 Collector 2 Base 1 Base Emitter Base Emitter Drain Base 1 2501767 DC CD4053BPWR 25 1602 MF DTC114TE 04 2 UMD12N Q2007 Q2015 Q2005 Q2001 2002 2023 02018 02020 2021 PDTC114TE 25 1774 FR Q1023 1028 Q2019 Wu
68. EE 26 Q1033 1043 1048 o Q0EEZLO LES LL Ts i css Source 1 Gate 2 I 2 V OUTPUT Gate1 Drain2 INPUT V INPUT Drain 1 NJM2130F SPM5001 Q1030 1084 Q1034 VIN CONTROL NOISE GND TAR5S50U Q1005 Cathode 1 Anode 2 Anode 1 Cathode 2 DA221 D 1025 Cathode 1 2 Anode 1 Anode2 DAN222 N D102 3 Pin 24 AK2345 01031 469 12 1 M62364FP Q1020 Pin 16 CD4053BPWR 01014 lt lt Pin 7 Pin 1 LM2902PWR Q1082 SA7025DK Q1068 LA8630M Q1022 Pin 1 BD6111FV Q1028 TC4W53FU Q1029 TC7W74FU Q1037 Main Unit Parts List DESCRIPTION VALUE MFR S DESIG VXSTD VERS LOT SIDE LAYADR PCB with Components CS1839001 Printed Circuit Board CHIP CAP CHIP CAP CHIP CAP CHIP CAP CHIP CAP CHIP CAP CHIP CAP CHIP CAP CHIP CAP CHIP CAP CHIP CAP CHIP CAP CHIP TA CAP CHIP TA CAP CHIP CAP CHIP CAP CHIP CAP CHIP CAP CHIP CAP CHIP CAP CHIP CAP CHIP CAP CHIP CAP CHIP CAP CHIP CAP CHIP CAP CHIP CAP CHIP CAP CHIP TA CAP CHIP CAP CHIP CAP CHIP CAP CHIP CAP CHIP CAP CHIP CAP CHIP TA CAP CHIP CAP CHIP CAP CHIP CAP CHIP CAP CHIP CAP CHIP CAP CHIP CAP CH
69. GRM155B11H102KA01D TEMSVA0J106M 8R GRM1552C1H180JZ01D GRM36B103K16PT GRM155B11H102KA01D GRM36B103K16PT GRM155B11H102KA01D GRM1552C1H101JD01D GRM36B104K10PT GRM155B11H102KA01D 0123300 22178809 22128804 22178216 22178222 22178206 22178222 22178222 22178212 22178809 22128804 22178222 22178220 78080053 78120077 22178809 22128804 22128804 22100802 22178809 22178809 22108802 22178218 22174227 22128804 22178212 22174211 22174225 22128804 78080027 22128804 22178809 22174225 22108802 22124805 22128806 78120077 22178216 22178812 22174219 22178809 22178809 22148203 22124805 22178809 22108802 22108802 22108802 22178212 22178809 78080027 22178218 22128804 22178809 22128804 22178809 22178236 22108802 22178809 Ts B A B B B B B B A B B B A B B B B A B A B B B B B B B B B A A B B B B B B B B B A A B B A B B B B B B B B B B B B B Main Unit Parts List DESCRIPTION VALUE MFR S DESIG VXSTD VERS LOT SIDE LAYADR CHIP CAP CHIP CAP CHIP CAP CHIP CAP CHIP CAP CHIP CAP CHIP TA CAP CHIP TA CAP CHIP TA CAP CHIP CAP CHIP CAP CHIP CAP CHIP CAP CHIP CAP CHIP CAP CHIP CAP CHIP TA CAP CHIP CAP CHIP CAP CHIP CAP CHIP CAP CHIP CAP CHIP TA CAP CHIP CAP CHIP CAP CHIP CAP CHIP CAP CHIP C
70. IP CAP CHIP CAP CHIP CAP CHIP CAP CHIP CAP CHIP CAP CHIP TA CAP CHIP CAP CHIP CAP CHIP CAP CHIP CAP CHIP CAP CHIP CAP CHIP CAP CHIP CAP 0 001uF 0 01uF 15pF 27pF 4pF 27 pF 27 pF 10pF 0 001uF 0 01uF 27pF 22pF 4 7UF 10uF 0 001uF 0 01uF 0 01uF 1uF 0 001uF 0 001uF 0 1uF 18pF 47 0 01uF 10pF 10pF 39pF 0 01uF 10uF 0 01uF 0 001uF 39pF 0 1uF 0 1uF 0 022uF 10uF 15pF 0 0018uF 22pF 0 001uF 0 001uF 220pF 0 1uF 0 001uF 0 1uF 0 1uF 0 1uF 10pF 0 001uF 10uF 18pF 0 01uF 0 001uF 0 01uF 0 001uF 100pF 0 1uF 0 001uF 058 000 GRM155B11H102KA01D GRM36B103K16PT GRM1552C1H150JZ01D GRM1552C1H270JZ01D 1552 1 4 0 27010 GRM1552C1H270JZ01D GRM1552C1H270JZ01D GRM1552C1H100JZ01D GRM155B11H102KA01D GRM36B103K16PT GRM1552C1H270JZ01D GRM1552C1H220JZ01D TESVSP0J475M 8R TEESVA1C106M8R GRM155B11H102KA01D GRM36B103K16PT GRM36B103K16PT GRM40B105K10PT GRM155B11H102KA01D GRM155B11H102KA01D GRM36B104K10PT GRM1552C1H180JZ01D GRM1882C1H470JA01D GRM36B103K16PT GRM1552C1H100JZ01D GRM1882C1H100JA01D GRM1882C1H390JA01D GRM36B103K16PT TEMSVA0J106M 8R GRM36B103K16PT GRM155B11H102KA01D GRM1882C1H390JA01D GRM36B104K10PT GRM188B11C104KA01D GRM36B223K16PT TEESVA1C106M8R GRM1552C1H150JZ01D GRM36B182K50PT GRM1882C1H220JA01D GRM155B11H102KA01D GRM155B11H102KA01D GRM36CH221J25PT GRM188B11C104KA01D GRM155B11H102KA01D GRM36B104K10PT GRM36B104K10PT GRM36B104K10PT GRM1552C1H100JZ01D
71. LK1608 R22K T LK1608 2R7K T LK1608 2R7K T C2012C 1ROJ LQW2BHN68NJOS3L 5030521 25 AS050325 9RONK AS030821 47NJ LQW2BHN68NJOS3L 5030521 25 HK1608 R22J T LQW2BHN68NJOS3L HK1608 47NJ T LQW2BHN68NJ03L HK1608 R10J T HK1608 R22J T LK1608 1ROK T LK1608 1ROK T LK1608 1ROK T HK1608 47NJ T HK1608 56NJ T HK1608 47NJ T HK1608 47NJ T HK1608 47NJ T HK1608 R22J T LK1608 R82K T LK1608 1ROK T HK1608 R22J T HK1608 R22J T ASF030821 51RONJ LK1608 1ROK T HK1608 R22J T ASF030721 41R8NJ HK1608 R22J T C1608CB R39G HK1608 39NJ T LK1608 1ROK T HK1608 39NJ T C1608CB R39G C1608CB R39G LQH32MN330K23L HK1608 39NJ T HK1608 R15J T HK1608 18NJ T XP1501 TX 2581132 T100 R DTC144EE TL TAR5S50U UMD5NTR DTC114TE TL CD4053BPWR DTC144EE TL DTC144EE TL L0022824 L0022824 L0022588 L0022822 L1691040 L1690410 L1690848 L1690848 L1691160 L1690605 L0022821 L0022612 L0022824 L1690605 L0022821 L1690940 L1690605 L1690524 L1690605 L1690528 L1690940 L1690687 L1690687 L1690687 L1690524 L1690525 L1690524 L1690524 L1690524 L1690940 L1690417 L1690687 L1690940 L1690940 L0022878 L1690687 L1690940 L0022877 L1690940 L1691107 L1690523 L1690687 L1690523 L1691107 L1691107 L1690093 L1690523 L1690938 L1690519 G3070143 G3211327R G3070075 G1094097 G3070343 G3070225 G1093864 G3070075 G3070075 gt 0 gt 000 gt 0 0 gt UU UU 000 000500 0000 UU UU
72. MC1 16S 102JTH RMC1 16S 102JTH RMC1 16S 102JTH RMC1 16S 102JTH RMC1 16S 271JTH P1091189 P1091229 P1091187 G3070225 G3070225 G1094097 G3070143 G3116028F G1093881 G3417677Q G3070225 G3070225 53070225 53070225 53070225 53070225 51094010 51093864 01091542 01091542 04070015 3117748 53070342 53070342 53070075 53070225 424189017 424189017 424189017 424189044 424189041 424189037 424189038 424189044 424189036 424189034 424189017 424189025 424189025 424189025 424189025 424189045 424189025 424189025 424189025 424189025 424189025 424189025 424189025 424189025 424189018 Parts List SDDF0100041 G2071056 DA221 TL G2070178 DA221 TL G2070178 DA221 TL G2070178 DA221 TL G2070178 DA221 TL G2070178 1554006 T2R G2070934 DA221 TL G2070178 uen 1 165 102JTH 1 165 221 1 165 222JTH 1 165 331JTH 1 165 222JTH RMC1 16S 561JTH RMC1 16S 103JTH RMC1 16S JPTH 1 165 471JTH 1 165 222JTH RMC1 16S 223JTH RMC1 16S 155JTH 1 165 224JTH 1 165 223JTH RMC1 16S 103JTH 1 165 224JTH RMC1 16S 103JTH RMC1 16S 334JTH RMC1 10T 2R7J RMC1 10T 2R7J RMC1 16S 103JTH RMC1 16S 473JTH 1 165 473JTH RMC1 16S 473JTH RMC1 16S 473JTH RMC1 16S 4R7JTH RMC1 16S 4R7JTH RMC1 16S 4R7JTH RMC1 16S 4R7JTH 1 165 222JTH RMC1 16S 822JTH RMC1 16S 822JTH RMC1 16S 822JTH RMC1 16S
73. Mes Emitter Common Collector Base 1 Base2 Pin 25 8 I LI CONTROL NOISE Base Emitter GND Collector 1 Collector 2 NJU6624AFG LM2904PWR DTC144EE 26 TAR5S50U XP1501 5R Q2006 Q2014 Q2022 Q2003 Q2004 TDA2822 Q2016 2017 36 Display Unit Parts List DESCRIPTION VALUE MFR S DESIG VXSTD VERS LOT SIDE LAYADR PCB with Components Printed Circuit Board CHIP CAP CHIP CAP CHIP CAP CHIP TA CAP CHIP CAP CHIP TA CAP CHIP CAP CHIP CAP CHIP CAP CHIP CAP CHIP CAP CHIP TA CAP CHIP CAP CHIP CAP CHIP CAP CHIP CAP CHIP CAP AL ELECTRO CAP CHIP CAP CHIP CAP CHIP CAP CHIP TA CAP CHIP CAP CHIP TA CAP CHIP TA CAP CHIP CAP CHIP CAP CHIP CAP CHIP CAP CHIP CAP CHIP CAP CHIP CAP CHIP CAP CHIP CAP CHIP CAP CHIP CAP CHIP CAP CHIP CAP CHIP TA CAP CHIP CAP CHIP CAP CHIP CAP CHIP CAP CHIP CAP CHIP CAP CHIP CAP CHIP CAP 0 1uF 0 01uF 0 001uF 4 7uF 0 1uF 10uF 0 1uF 0 1uF 0 1uF 0 1uF 0 1uF 1uF 5 0 1uF 0 001uF 0 1uF 10pF 100uF 0 022uF 0 022uF 0 01uF 4 7uF 0 01uF 10uF 10uF 0 1uF 0 1uF 0 1uF 0 1uF 0 001uF 0 001uF 0 1uF 0 1uF 0 001uF 100pF 0 01uF 0 1uF 2 2uF 4 7uF 0 1uF 0 1uF 0 1uF 0 001uF 0 001uF 0 022uF 0 022uF 0 01uF UUUUUUU w Q 00 058 000 GRM36B104K10PT GRM36B103K16PT GRM155B11H102KA01D TEMSVA1C475M 8R GRM36B104K10PT TEMSVA0J106M 8R GRM36B104K10PT
74. Microsoft Windows 95 or later operating system LI Vertex Standard CE59 version 2 06 or later Alignment program and CT 109 PC Program ming Cable or FIF 10A USB Interface CT 108 PC Programming Cable When using the FIF 10A USB Interface requires the Windows 2000 or Windows XP 11 Alignment Preparation amp Precautions 50 Ohm Dummy Load and in line wattmeter must be connected to the main antenna jack in all procedures that call for transmission except where specified otherwise Correct alignment is not possi ble with an antenna After completing one step read the following step to determine whether the same test equipment will be required If not remove the test equipment ex cept dummy load and wattmeter in connected be fore proceeding Correct alignment requires that the ambient temper ature be the same as that of the transceiver and test equipment and that this temperature be held con stant between 68 and 86 F 20 30 When the transceiver is brought into the shop from hot or cold air it should be allowed time to come to room tem perature before alignment Whenever possible alignments should be made with oscillator shields and circuit boards firmly affixed in place Also the test equipment must be thorough ly warmed up before beginning Note Signal levels in dB referred to in the align ment procedure are based on 0 dBm EMF 1 mV Deviation Meter In
75. NK Pin 14 BROWN 5 1 1 L L Note Because of the bridge audio amplifier circuit used in the VX 820 it is necessary to construct Pin 2 SP 9 use simple audio load test adapter Pin 4 MIC AU TET Pin E 2 25 shown the schematic diagram when Pin 8 5V Pin 10 SEL Pin 9 DISC OUT ducting receiver alignment steps Pin 12 RESET VII Pin 11 VCCP Pin 14 RXD 13 Do connect either side of the speaker leads to chassis ground TEST ADAPTER ScHEMATIC 14 Main Unit Circuit Diagram 91054
76. NT SETUP Alignment Tool Outline Installation the tool LI Install the CE59 version 2 06 or later to your The re alignment for VX 820 series uses the Alignment menu of CE59 Action of the switches When the transceiver is in the Alignment mode the actions of the PTT switch and keys are ignored of the commands are remotely controlled by the PC Basic sequence The data displayed in screen of this tool is tempo rary data and you must take care to ensure the pres ervation of the command sequence which is speci fied below 1 Enter the Alignment mode 2 Upload data from radio 3 Edit set alignment data 4 Download data to radio When you finish one alignment parameter the tool will ask you Save the Aligned Data If you select Yes the temporary data will updated If you se lect the tool will not update the temporary data and the setting will return to its original value BATTERY TERMINAL PoLARITY LL Low Edge 13410000 MHz High Edge 17390000 MHz Center 15410000 MHz TX Power Max Deviation Others Seq Tone Dev High 57 Wide isa START eq Tone Dev 9 Y WARNING LEVEL Low High 257 START Naro pg START PATTERY W START EepromProtect fi 570 START Low Mid 92 START 5 Des Level Tone Dec Leve 12 dE E Low 61 START Sub Audio Deviation Alignment Basic Alignment Mode The Basic Alignment mode allows you to align the entire radio
77. RES CHIP RES CHIP RES CHIP RES CHIP RES CHIP RES CHIP RES CHIP RES CHIP RES CHIP RES CHIP RES CHIP RES CHIP RES CHIP RES CHIP RES CHIP RES CHIP RES CHIP RES CHIP RES CHIP RES CHIP RES CHIP RES CHIP RES CHIP RES CHIP RES CHIP RES CHIP RES CHIP RES CHIP RES CHIP RES CHIP RES CHIP RES CHIP RES CHIP RES CHIP RES CHIP RES CHIP RES CHIP RES CHIP RES CHIP RES CHIP RES CHIP RES gt Main Unit Parts List DESCRIPTION VALUE MFR S DESIG VXSTD VERS LAY ADR CHIP RES 1 165 103JTH J24189037 B CHIP RES 1 165 334JTH J24189055 A CHIP RES 1 165 684JTH J24189059 A CHIP RES 1 165 334JTH J24189055 A CHIP RES RMC1 16S JPTH J24189070 B CHIP RES RMC1 16S 103JTH J24189037 A CHIP RES 1 165 334JTH J24189055 A CHIP RES RMC1 16S 105JTH J24189061 A CHIP RES RMC1 16S JPTH J24189070 B CHIP RES RMC1 16S JPTH J24189070 B CHIP RES 1 165 474JTH J24189057 A CHIP RES 1 165 223JTH J24189041 A CHIP RES RMC1 16S 223JTH J24189041 A CHIP RES RMC1 16S JPTH J24189070 B CHIP RES RMC1 16S JPTH J24189070 B CHIP RES RMC1 16S JPTH J24189070 B CHIP RES 1 165 331JTH J24189019 B CHIP RES 1 165
78. VERTEX STANDARD CO LTD os Vertex Standard 4 8 8 Nakameguro Meguro Ku Tokyo 153 8644 Japan VERTEX STANDARD US Headquarters X 820 eri e S 10900 Walker Street Cypress CA 90630 U S A VHE Band Service Manual 2005 VERTEX STANDARD LTD Vertex Standard YAESU EUROPE B V P O Box 75525 1118 ZN Schiphol The Netherlands YAESU UK LTD Unit 12 Sun Valley Business Park Winnall Close Winchester Hampshire 5023 OLB U K VERTEX STANDARD HK LTD Unit 5 20 F Seaview Centre 139 141 Hoi Bun Road EC058N90A Kwun Tong Kowloon Hong Kong Introduction This manual provides the technical information necessary for servic ing the VX 820 Series Transceiver Servicing this equipment requires expertise in handing surface mount chip components Attempts by non qualified persons to service this equipment may result in permanent damage not covered by the war ranty and may be illegal in some countries Two layout diagrams are provided for each double sided board in this transceiver Each side of the board is referred to by the type of the majority of components installed on that side Side A or Side B In most cases one side has only chip components surface mount devices and the other has either a mixture of both chip and leaded components trimmers coils electrolytic capacitors ICs etc or leaded components only As described in the pages to follow the advanced m
79. and the AF signal from Q1032 AK2345 is fed to the optional unit If a signaling unit is not installed 01078 CD4066BPWR is switched ON and the signal passes through Q1078 CD4066BPWR The signal then proceeds through the de emphasis stage and the expander at Q1022 LA8630M When the ex pander function is off the signal will be bypassed via 01014 CD4053BPWR The output signal of the expander or a signal from de emphasis goes through AF mute switch Q1083 DTC114TE and is amplified by Q1082 LM2902PWR The output from 01082 LM2902PWR is amplified by the power amplifier Q2017 TDA2822 after passing through the AF volume control Q1020 M62364FP The out put of Q2017 TDA2822 drives the internal speaker 2 5 Squelch Circuit There are 13 levels of squelch setting from 0 to 12 The level 0 corresponds to an open squelch The level 1 is the lowest squelch thresh old setting level and level 11 means tight squelch From 2 to 10 are intermediate increasingly tight settings The level 12 represents carrier squelch 2 5 1 Noise Squelch The Noise Squelch circuit is composed of the bandpass filter at 01065 TA31136FN noise ampli fier 01069 25 4617 and noise detector D1049 D1050 both DA221 When a carrier is not being received the noise components passed from de modulator Q1065 TA31136FN are amplified by 01069 25 4617 fed through bandpass filter 01065 TA31136FN detected as a DC vol
80. he CPU bypasses the compandor cir cuit and feeds the signal to the pre emphasis circuit 21078 CD4066BPWR becomes OFF when an op tional signaling unit is attached and the AF signal from Q1022 LA8630M is redirected via the signal ing unit If a signaling unit is not installed Q1078 CD4066BPWR becomes ON the signal bypasses 21078 CD4066BPWR and it instead is applied to the pre emphasis amplifier Q1031 AK2345 The signal passes through the limiter and splatter filter of Q1031 AK2345 and is adjusted for proper de viation at Q1020 M62364FP The low frequency signal components CTCSS DCS etc are then am plified by Q1075 LM2902PWR and used for direct modulation of the reference oscillator X1003 The high frequency signal components are ampli fied by 01075 LM2902PWR and their level is set by Q1020 M62364FP to establish proper balance of the level between high and low frequency com ponents After that the signals modulate the trans mit carrier via modulator D1030 1SV286 of the VCO 3 2 Drive and Final Amplifier Stages The modulated signal from VCO Q1051 25 4227 is buffered by 01040 25 5005 and amplified by 21032 25 5005 Then the signal is buffered by 21027 25 3356 for delivery to the final amplifier driver 01024 25 3475 The low level transmit sig nalis then applied to Q1019 25 3476 for final am plification up to 5 watts output power The transmit signal then passes th
81. icroprocessor de sign of the VX 820 Series Transceiver allows a complete alignment of this transceiver to be performed without opening the case of the radio all adjustments can be performed from the front panel using the Align ment Mode menu While we believe the information in this manual to be correct VER TEX STANDARD assumes no liability for damage that may occur as a result of typographical or other errors that may be present Your coop eration in pointing out any inconsistencies in the technical information would be appreciated Contents 2 Exploded View amp Miscellaneous Parts 3 Block Dii aD 5 BI usps E 7 hr 11 Board Units Schematics Layouts amp Parts Maw O 15 ON era E AE A 33 ___ 41 Specifications General Frequency range Channel Group Channel Spacing PLL Stepping Power Supply Voltage Current Consumption Approx 07 4 V Battery Life Approx Operating Temperature Range Frequency Stability Case Size W x H x D Weight Approx 134 174 MHz 16 CH 1 Group w o LCD version 512 CH 32 Groups w LCD versi
82. line 30 dB PAD Wattmeter MIC SP Frequency Counter 109 FIF 10 CT 108 Power Supply 7 5 VDC COM Port or USB Jack eee TRANSMITTER SECTION ALINGMENT SETUP 12 Setup the test equipment as shown for transceiver alignment apply 7 5 V DC power to the transceiver Refer to the drawings above for Alignment Points The transceiver must be programmed for use in the intended system before alignment is attempted The RF parameters are loaded from the file during the alignment process In order to facilitate alignment over the complete switching range of the equipment it is recommend ed that the channel data in the transceiver is preset as the chart below BAND LOW 134 000 MHz BAND MID 154 000 MHz BAND HIGH 174 000 MHz The alignment mode is accessed by Alignment mode command from the computer and the align ment tool operates it automatically During the align ment mode normal operation is suspended Use the alignment tool program running on PC RF Signal Generator CT 109 or FIF 10 C T 108 Power Supply 7 5 VDC Port or USB Jack CS TT RECEIVER SECTION ALINGME
83. nnel step For example when the channel steps are set to 5 kHz the output of reference divider becomes 40 kHz The feedback signal from the VCO applied to 5 pin of the PLL IC Q1068 5 7025 is divided according to the dividing ratio so as to become the same frequency as that of the output of reference divider These two signals are compared by the phase detector and a phase difference pulse is gen erated The phase difference pulse and the pulse from the fractional accumulator pass through the charge pumps and low pass filter producing a DC voltage VCV to control the VCO The oscillation frequency of the VCO is therefore locked via the control of this DC voltage The PLL serial data from the CPU 01067 LC87F5BP6A is sent with three lines of data SDO pin 20 SCK pin 22 and PSTB pin 27 The lock condition of the PLL is sent from the UL pin 17 terminal and UL becomes High at the time of a proper lock condition and becomes Low at the time of an unlocked condition The CPU always watches over the UL condition and when it becomes Low unlocked condition the CPU 01067 LC87F5BP6A prohibits transmission and reception Circuit Description Note 10 Introduction The VX 820 series is carefully aligned at the factory for the specified performance across the frequency range specified for each version Realignment should therefore not be necessary except in the event of a component failure or altering version type
84. on 12 5 15 20 25 30 KHz 1 25 2 5 5 6 25 7 5 7 4 V 30 mA Standby w saver 75 Standby 200 mA Receive 1 7 A Transmit 7 hours w FNB V86LI 12 hours w FNB V87LI 22 F to 140 F 30 C to 60 2 5 2 2 x 3 8 1 48 56 x 96 5 x 37 5 mm 10 9 oz 310g w ENB V86LI ATV 8B CLIP 920 Receiver Measurement per TIA ELA 603 Circuit Type Sensitivity 12 SINAD Adjacent Channel Selectivity Intermodulation Spurious Response Rejection Num amp Noise Audio output Spurious Emissions Double Conversion Super heterodyne 0 25 uV 0 32 UV W N 75 70 dB W N 75 70 dB W N 75 dB 48 42 dB W N 700 mW 16 ohms 5 THD 57 dBm Transmitter Measurement per TIA ELA 603 RF Power Output Modulation Type Maximum Frequency Deviation FM Hum amp Noise Audio Distortion Spurious Emissions 5 2 5 1 0 25 W Direct FM 16 11 2 5 4 0 5 0 kHz 45 40 dB W N Less than 3 e 1kHz 36 dBm under 1 GHz 30 dBm above 1 GHz Specifications subject to change without notice or obligation RA0611500 ROTARY KNOB CH 0601700 0603600 2 RING 1 4 2 0603700 2 pcs RING 1 8 7 60450 SPECIAL 060460 SPECIAL NUT 1 Exploded View amp Miscellaneous Parts RA0601800 SIDE COVER as Th 200 9777 77 8 2
85. rough the antenna switch D1012 HVU131 and is low pass filtered to suppress har monic spurious radiation before delivery to the an tenna 3 3 Automatic Transmit Power Control The current detector Q1072 NJM12902V detects the current drawn by Q1019 25 3476 and 01024 25 3475 and converts the current difference to a voltage difference The output from the current de tector 01072 NJM12902V is compared with the ref erence voltage and amplified by the power control amplifier Q1072 NJM12902V The output from 21072 NJM12902V controls the gate bias of the fi nal amplifier 01019 25 3476 and the driver 01024 25 3475 The reference voltage switches among four values of TX Power High Low3 Low2 and Low1 as controlled by Q1020 M62364FP 3 4 PLL Frequency Synthesizer The frequency synthesizer consists of PLL IC Q1068 SA7025DK the VCO TCXO X1003 and buffer amplifier The output frequency from the TCXO is 16 8 MHz and the tolerance is 52 5 ppm in the tem perature range 30 to 60 3 4 1 Voltage Controlled Oscillator While the radio is receiving the oscillator 01046 2SK508 in the generates programmed fre quency between 184 85 and 224 85 MHz as the 1st local signal While the radio is transmitting the TX oscillator 01051 25 4227 in the generates frequency between 134 and 174 MHZ the actual transmitting frequency The output from the oscil
86. t 555 5 1 61027 se 38 D Bl De TX INI 1 9 V PWR OFF 6 7 V ECCE gU 14 2scssse nas neg 5 te7 10 DES m gt Le 81 7 z c e 171 385 5 _ 8 2084 23585 5 5 a om II AW LC 7 4 ree 47K 55 PWR cem 1 1 77 B d OR dg ait 15 DQ aa 505005 Nc 21001 TX 71V 5 TX 7 1 77 E 4 2 58 RX N 0 V 5 DET_ 8 5 74V 4 4 T TX 0 V 61095 1 3 RX 0V 0V S LA 3 9 2 R1394 R1062 0 V E 28811328 008 025 TX 6 9 V 5 81116 m 01055 0 25 NS 5 100 2100 n FW TX OV 24 TX 24 V 5 TX 12V PE 156 1 MHz 255 Ti 3 m 418 NE T AY T ta 81070 C12 2001 B 01066 2 n amp 281051 2 EM E s 1056 E 4 o 1 8 See T F8 29588068 me ES 025018 LE do 5 2 1506 MEIN 5 1 li re a Be 01050 6 2 8 ri c NUM2 130F 0103 US zie 1 NI iE T Ti NE 19 aque Tis JN NN 12 4
87. tage by D1049 D1050 both DA221 and applied to pin 16 the A D 7 Circuit Description port of 01067 CPU LC87F5BP6A When car rier is received the DC voltage becomes low because the noise is compressed When the detected voltage to the CPU is high the CPU stops AF output by set ting 01083 DTC114TE OFF by making pin 59 of the CPU High level When the detection volt age is low the CPU switches Q1083 DTC114TE ON by making pin 59 Low and the signal is allowed to flow 2 5 2 Carrier Squelch The pin 15 A D port of CPU 01067 LC87F5BP6A detects the RSSI voltage output from Q1065 TA31136FN at pin 12 and controls the AF output The RSSI output voltage changes according to the signal strength of carrier a stronger signal makes the RSSI voltage higher The processing of the AF signal control is same as Noise Squelch except that the switching threshold is adjusted so as to be 3 dB higher than the tight squelch sensitivity 3 Iransmitter System 3 1 MIC Amplifier The AF signal from the internal microphone pin 21 of J2002 on the Display Unit or an external micro phone pin 6 of J2002 on the Display Unit passes through microphone selection switch Q2015 CD4053BPWR and is amplified by microphone amplifier 02014 LM2904PWR thereafter passing through the microphone gain controller Q1020 M62364FP The AF signal then passes through compandor Q1022 LA8630M When not using the compandor t
88. uld any alignment be attempted unless the normal function and opera tion of the transceiver are clearly understood the cause of the malfunction has been clearly pinpoint ed and any faulty components replaced and realign ment determined to be absolutely necessary Alignment The following test equipment and thorough famil iarity with its correct use is necessary for complete realignment Correction of problems caused by mis alignment resulting from use of improper test equip ment is not covered under the warranty policy While most steps do not require all of the equip ment listed the interactions of some adjustments may require that more complex adjustments be per formed afterwards Do not attempt to perform 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 sec tion in the order presented Required Test Equipment O RF Signal Generator with calibrated output level at 200 MHz LI Deviation Meter linear detector O In line Wattmeter with 5 accuracy at 200 MHz 50 Ohm RF Dummy Load with power rating 10 W at 200 MHz 0 16 Ohm AF Dummy Load Attention Audio out put is BTL output LI Regulated DC Power Supply standard 7 5 V DC 3 A O Frequency Counter with 0 2 ppm accuracy at 200 MHz Audio Generator O AC Voltmeter LI DC Voltmeter LI Sampling Coupler O IBM PC compatible Computer with

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