RF Unit
Contents
1.2.
3.
4. 22 117V max 0 48V min 3 0V 2 69 max 0 47V 5 59 N 5 2 3 5 5 IB 1 Dy SB Dr
5. 1 T E UHF TV 540 800MHZ1 UN N 2 DIODE SW AMP MIXER DIODE SW JPO CLUN D3024 25 7 03017 D3018 DS3001 25018015 D3026 27 H 01004 01008 04010
6. 1994 01002 81049 2805277 1001 01002 c1013 pM ba 800M RX 0 73V 145M TX 5 1dB a 2 2 15 274 E 2SC5277 ES ed J 1i CJ 10 CK 12 CH L 430M TX 6 9dBm 13 5V lt i sad gidu a o
7. i m i 5 8 o 9 x sz H NA m amp of e a 22 zi a go 3 9 mo 70070 807 g SrO v2 ga 8 i a Ls k O 122565 aa 100 0 o gt mM 4 2 00 4 00 0 907 8 100 0 Yl ni 4 5 2 1504 0075575 9 ODI cil m 100 0 su zz H Uy 66055 riora Tae Fk PIRS a O voo o 4 N wu am lt gt d 5 2I 11 HEU 505 0 1041 ST D sd c 5 Y Out ZQOHD i 5 LE NT NT HO 8 US 00 voorn ams TR geora 0 OI D tm 1 sie g 8 Od t wa een k zu
8. AM RX 0 9V L NJ d 1 24V OV EXT DC IN 13 8V RX TX g emmm a X qAnu J 2 2 0 BUSY 9 2V BUSY 0 55V 23 0V RX 2 94V 13 3V 13 1 OV OV 0 4v 0 4v REGS E 1 E 1 w J2002 IF m P1091150 i gt x 1865943 MAIN RX 4 6dBu x 2 85 DL x cpneto2 g Uie use x BUSY 4 3V E CIA 47 25MHz x Q 0 B 55 se ge Lie nad li NFM 2 55V Yoo A gt BUSY 3 0V QUE
9. 320K m Ar 83106 ph iod 5 5 4 J nTa 2 5 A2145 19 R3056 An 1 3 3M 45 95 B LOX SPY a gt lt 330K 0 59 TARSS30 1 27 1 27 P3129 ve P d 5 1 88 71 7 a 0 02 Ww ii 5 UPS Go i 22 916 i 163V BFE 289V max oon ys E xo 5 t 1 23V 1 23V 40 46V min m 0 80 min gt 8 5 oa 3 578545MHz 7 8 0 Bo I 3 0V O p 1 68V WX JRA E apum 1 22V 1 22V Ap a ud JA AU 28 9 93005 ESN ha 53 77 53998 JPB Mal Og 4 NUM2304V 9 O OD i C3001 4 4 1 0 59V TONE Q i i 1 0 59 10V 05 u ay aos 1 G3043 G3014 cc Da 4 DTC144EE DIC144EE MO DNE p in 4 k 1 22V 8T Y 1 22V 1 22V p Qi 0V i i bd L OV 4 4 1 23V 1 23 93006 1 24V 1 24V de JM129oav 4 7 MEME 58 TI M no E EE a 3 RS sal a 09 0 C3135 POW OFF 0V a oases 1 92V 1 9V 3146 R3148 DOK CHG 0V 1 6 i 83147 R3149 CHG COMP 3 0V W R3058 R3059 N
10. roord 05 H h D Kt 2 0 x NS M SES amp 00vB 7000 T00 0 ANN 4 E O 1 R e D 0 207 icd 1 2 D TOOD 20075 ASE ASI TEN E Q s Bid 100 0 i 0 O TO O 28 gt 2 D gt u D gt lt 39 0 a D un b 53 04002 4004 4005 4006 7 DTC143ZE E23 04001 4003 4007 VCO Unit Note 54 VCO Unit Parts List PCB with Components 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 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 CAP CHIP CAP CHIP CAP CHIP CAP CHIP CAP CHIP CAP 0 001uF 0 01uF 0 5pF 0 01uF 0 01uF 2pF 0 01uF 6pF 7pF 4 0 001uF 15pF 0 001uF 0 001uF 1pF 1pF 0 01uF 39pF 0 01uF 0 001uF 39pF 39pF 4pF 0 001uF 0 01uF 0 001uF 33pF 2pF 1pF 68pF 0 001uF 5pF 0 01uF 0 01uF 47pF 10pF 15pF 0 001uF 0 001uF 10pF 0 001uF 10pF 0 001uF 0 001uF 0
11. 1309 0 1 B 2 x 77 77 77 DTC144EE Es i a Aue I 1 26 n 0 81V 92 a HOTT SST NM 81097 220K Solum C3 A 01006 0 em 56 G1015 0 3 5 7 1049 SUB RX 5 7dB a mioaa SUB430M RX 1 57V OV gt 100 1 AT 435 2 7515 a ta 1 1 1033 01075 ia 2 We Trt 7 R1108 pie S 6p CH2 nCH 40k amp p Api eub 01034 00 Coupling Y 5 47K O12 1 4 CIR 0 C1871 1544541 5 11 BEES 2 28V 775 as 785 m 9 3 430M t V o EIE Sa CH 77 No vide MQ Qd 0 bal a LS 27S 1051 272 ma c B5 92 5 oB 91022 1054 1055 C1245 01053 0 001 1063 42 09 Ber SR SUB430M RX wigs ey 47pCH RLS135 ae gie gregg 1070 26 1398136 96 29 128 214 QV pn ov gt OO is HHN i H REL ha i D MAIN RX 11 5dBu z n 527 Ci Des Hie 2 581 50M 0 84V pid a ald 9 OR u 5 I _ SUB RX 7 1dBu og ee
12. 1 DAN222 155400 i TT day DC DC CONVERT gt 1 y y n3028 03021 i SUB LB SUB LB AHSAHES 1A 8875 15 40 i t 5 5V 5 1 SW l DIODE SW DIODE Sw RF AMP DIODE SW EEPROM 1 REG 0505 1 01001 01012 D1 027 009 91013 01040 a 03026 27 03046 17 0 03034 144 DAN222 DAN222 2504915 2504915 155400 873001 1B S BOB30 DA221 ATE4C12EN 108I t APC Eu PLL DATA REAL TIME CLOCK REG3 SWRX CRX LOCAL i t Ec BIR S 35L 12A HB75 18 40 APC BUFFEH APG CNTL HF HA M MOD DIODE Sw FUNK SHIFT SW 6 01047 49 55 91038 40 t 155321 91022 91022 01027 01028 2541774 HB7515 40 NJM12902V NUM 12902V 235K3476 DAN222 KACG54uU 6 0 1 Q3043 23505374 EXT DG D SC CNTL 2804154 TUNE i 32 768KHZ h L BCRX SUB NOISE 4B 430 TX DIODE SW APC DRIVE DRIVER DRIVER TR SW TX REG SAyE R SI a BUFFER AMP DIODE SW i G1046 4B Q1043 44 TONEZWX SW t 01044 91015 91023 91024 2541774 CPHG 102 x SUB PLLSTB 93005 03014 2504154 144 TX DAN222 KAX202U 5 475 5 5 UMW1 _ DAN222 DTC144E i H 50 LOCAL SAVE LS ase H
13. OV T ACH Jo v NT 1 T SOC sx TH R1070 Lm p jm omm 3 RE 5 25 me Su 05 430M RX 0 79V 728 430M RX 066V 91011 4819 100 paper aog D v 50 0 88 lt RQPL peo DA 19219 mz B L 330K 255555 4 2 144M 0 88V vor oo SCA aed Sau ID no nv ole N com 0V oT auras a SB 44 19 qo Ng nos B 55 C1003 C1005 0199 00680 1 0V oo Oe 480M 1 32V i Da EM po d xi ru 5 04 CH 15 2 ooo 01932 ov id 7 zi gt us eT og TP4001 2129 155400 e 0 5 O 77 I PG 5 741 A 50M 1 75V gt sm ah 7709 77 H ac ox 3 5 22V OV 144M 2 37V 79 29 8 bum b Sisi ae 7r 330 2 27 D Es 51001 Img 30 oC oz m 0 8V 430 2 527 55 RAo395500 20708 Box GS qa D 77 n 4 EP 144M 0 82V 1321 5 Ow T to m H 5 95 D1001 430M RX
14. i A co SION HEATSINK PLATE _ i bi _ CONNECTOR AXK6F10335P P0091225 CONNECTOR mE AXK6F10335P P0091225 CONNECTOR IL FPR 33S VF E1500 P1091138 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 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 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 CHIP COIL M RFC M RFC M RFC M RFC M RFC 0 01uH 0 56uH 0 0082UH 0 01uH 0 033uH 0 0068uH 0 01uH 0 15uH 0 056uH 0 15uH 0 15uH 0 068uH 33uH 120UH 27UH 2 2UH 33uH 0 0056uH 0 0056uH 0 01uH 0 01uH 0 018uH 0 082uH 0 082uH 0 082uH 0 015uH 0 039uH 0 1uH 0 072UH 0 0 22 0 22uH 0 0 072UH 0 072UH 0 01uH 0 01uH 0 018uH 0 03 0 022 0 022 1uH 470uH 0 027UH 0 015uH 0 047 0 22 0 022 0 033 0 022 0 033UH ELJ RF10NJF2 LK1608 R56K T TFL0510 8N2 ELJ RF10NJF2 C1608CA 33NG C1608CA 6N8J C1608CA 10NG LK1608 R15K T HK1608 56NJ T LK1608 R15K T C1608CA R15G LK1608 68NM T LK1608 330M T FLC32T 121J LK1608 270M T LK1608 2R2K T LK1608 330M T TFLO510 5N6 TFLO510 5N6 C1608CA 10NG C1608CA 10NG C1608CA 18NG C1608CA 82NG C1608CA 82NG C1608CA 82NG C1608CA 15NG C1608CA 39NG C1608CA R10G C1608CA 72NG C1608CA R33G C1608CA R22J C1608CA R22J C1608CA R33G C1608CA 72NG C16
15. 52 9 Jack 150K 35 1MHZ SpCH 9 224 RX 2 8V uo ose D t AW WFM RX 0V 279 fu B 5 Y 0 ENC INT 7 el agg zh 0V 77 RX 0 124V 6 pir DUAL RK 1 63V NOT g ojej 9 ig E aT 330CH 0 NEX 5 5 R201 m BEEP iT 8489 i 100 5 SUB RSSI RX 0 635V i BTE 20 RX 2 58V 0V mene of vorce t WEM RX 0 47V deg an o i t uA 77 e uj EXPURT 5 0 SUB RX 6 2dBu C2104 8883 9 3b A DISC i 46 35MHz 10 98 1000pF Coupling Capacitor 1 9 NDISE 41 7MHZ osx 25C 491540 4 suer sta 2 hd 9 H DUAL 2 64V nar e EU T DUAL 0 6V OV 07 DUAL 0 69 DUAL RX 2 77V DUAL RX 1 05V 0V DUAL 1 37V OV D sus i EIER S a 83V SUB 430M 1 75V 22 00 cd R2032 OV DUAL RX 2 25V m DISC CNTL Qn iet UTI 2 45V 2 5V Olp ar s SUB 430M RX 2 46V 07 SUB RX 2 0dBu Ba hee 0V 46 35MHz Ow o 2SA17741R 1000pF Coupling 1 1 U L ml gr 3 0V SUB430M RX 0 2V BM
16. DIC144EE 430Rx HN2DO1FU 2505374 i X4004 cp E PE D bouis exi i 11 7MHZ SHALOLA g TR SW SUB HE 1035 SUB MB 51 api mm 2 A pelala ll 2941774 7 Pola aad m g So o i 508 1 oe zo 0 gt i 22 90 9 Pais m x 8 9 Pod 2ndLOCAL AGC A a E 5 a a 5 PARATOR 6 4 omn 2 IODE SW TR SW TR SW BUFFER AMP SUB IF 7 za 91037 40 91034 38 SAVE 1050 KHA760U DIC144EE 01041 04001 03 07 04006 IF 155385 KRCBSAU KRA760U KRA7EQU DTC143ZE EC3HO7B E t IF i Fog nm ni For Oe _ Fog a WIDE 1 8 RIPPLE FIL TR SW TR SW 5 E SW LOOP FIL 8 1 47 95MHZ E 91032 D1050 91047 48 4 i 25 4154 81033 7 Es 04011 41 IF DIODE SW IF AMP LIMMITE DISC TR SW TR SW 188400 2541774 KRCB54U 185400 1 2001 92020 21 27 ME 02001 02003 02004 2541774 92028 AE DAP222 2864915 DA221 CDBMASOC7 DTC144EE DTC144EE L 4 1 SP MIC JACK TR SW DIODE SW 144 VCO MO
17. 0V HET x s 0 7V OV 46 as SUB MB E DATA 330 1 m Sod da un m E 5 M OV OV w 1 88V ASF 220 t C1008 Ad 2505555 50M RX 0 67V OV 52040 G1008 1 92 ge cio37 Um Jue fescasis 0 35 z gt 5 Jo 6 C1036 20 110 B m 2 22 8 4 2 X5 01038 M MN 5 3 a T 8 155400 3 7 ui a ID 1 t bs To mt y zh ao RGE TES d 8 2 9 Bob 262 2 gt 592 ERN owe 9wO ons 5 9 9 3 S mer WS oplo UN n 0 ac 0V y DUE 041399 PR19537 017018 2 25 2 3 oud AW 5 5 55 220 13 tu 2 T in JOE Jo 957 90 8275525928 ase a 1 3V 1 1484483 a 01032 REGS 1 Qon 64003 So gt go m5 9 OF 5 5 OV 4 85V 25 4154 13 3V 102 D a 155362 s illl gt gt xm H xi E E joo JE C1152 _ m 8 9 9 4 4 3 gt T v y mr 3 4 01044 S T LL OVEN iE 9 0 9 gn 77 DCS MOD 10v F 4 S 3 03V va aS E 2 0 m Do
18. D g7 Ta HO GB H p eror3 AW k AW k 251 9007 26 k mi 8 99 TO O 0 i e 5 2 2 0 nBTO O ngro o 2007 SOCt 7 1007 n AN 4 OOT So Ano DOT 597 597 t 4 AN 4 AW 4 D 9 T w 555 BRT des ON eR 28 1885 89 4L 41 HM k oy N30 ao IH a Sr ova 1 E s OT 0 AW MOOT 7 Wy alz 701 DN 0 bar gs jim 0 ae Oo Qm Corn Scam dU k D goon Noe T Ray O 0 Gen i 0 ANV D tk R D de 97 gv I 0 9300ra x amp 2 5d n Oo D e k x9 9 jet k NN wy 0 de o 5 B dr 22 og 292 D 200 5 43 1 NW 4 Ge E MOT BOOTH Tm NE gt H TO Q SZEAST AD OT 0
19. SW BC LOCAL DISC DRIVER TR SW TR SW B EXP STB i 91052 48 t 91014 DIODE SW BUFFER AMP 81029 2541774 SHIET VQICE 93006 93006 83005 03015 G3006 a 5 5225 DTCiA4EE KAC6S4U JM12802v JM12902V JM12902V DA221 NUM12902V am WAVE MONI MIC MUTE 01046 91018 SUB RSSI CTCSS DCS DUT t HNeDO1FU 2505374 REF BEEP a 430 TX DIODE SW TEE PLL 3V MOD ENC TR SW TR SW TR SW BUFFER AMP MUTE TR SW i P CTCSS P ja3018 21 22 MIC t 21043 TUNE ENC INT Q3011 03015 28364 3016 G3030 D3013 03007 144 TX DAN222 PLL 5 a DTC144EE DTC144 DTC144EE 250364 NJM2904V 155400 DTC144EE 4 DOS JACK t DIODE SW BUFFER AMP i iB JEO CLON Wm m pisdi Hind BEN TUNEFIL SW ONEFIL SW PICK UP 0 DAN222 25 5374 fh 5 SPLT FIL IDC MIC AMP STATIC PROTECT i 4 0 5 TRUNCUM E TN a m TAY lt 5 MIC Q3018 Q3018 03018 03012 UL NUM3403AV NUM340 NUM3403AV 0025 1B t 1 SP3001 1 REGS 2 a i ODRX PLL IC UL SW TR SW i BUFFER AMP PLL DATA n H 91047 48 81050 51 81019 R1021 T 7550 KRA760U 01016 DTA144E Ul 2 E a
20. 4 1000 Coupling Capacitor G200H 02014 D 16655843 t 0V m 2SA1774 R 4 e 25 1774 2 X ag 77 95 GO 46V 0 65 56 Bst 2 4 0 02034 188884 OV NFM 0 73V a WFM RX 2 2V DTA144EE 12 8V 12 5 y fest A 7 47 25MHZ WIDE Eum BUSY 1 33V 48 2 ov OV ao Ei e 5 0 C 22 lt lt t a 18 COTS _ WFM RX 2 95V m 2 4V 0V Ll un PAST AST ag og T 8 TS DTCi44EE OV OV 2591774 WFM RX 0V fal sl eol 5 g N Ra OT G2038 m 9 Qu qn Qi D m DTCLA3ZE t WFMRX 2 75V 4 DTC 144EE BUSY 3 0 4 4 e ae ul 2 2V 0V 88 OV OV MAIN WFM 7 4dBu T WFM RX 2 9V 0144 Ke 1 6V 1 6V ig Dl 2 84V OV 5 i 143V 143V 27V 2 7V TR d ling Capacitor D ong lr b Re al p t 0 3V 0V is Tk BUSY 0V IN z WFM RX 0 8V 2 73V 2 76 P m 2M 82144 m g Dv gL naL 2 6V A 0 94V 1 zr zr E Wl TX 0 5V 0V ae ans t US Dun BE 2 02V ma DEC rages gore 0 63 gem 0 47 25vB RET 0 63V 25 4154
21. o RT 270K 0 01 B 1 OV LOV AAT HD6472237TF 10 Bou m BEEP OUT 1 55V 0 8V 0 8V BEEP PO SW ON G8 HDB492235TF LCD11 4 57 t51V 7 B 16V BEDAE BALL DDO 9 TYP SEL 2 3 0 3 0V Lco 82 1 a 124V 77 1 24 dmm lt y LCD10 0 25V 77 58 12 1 24V 13068 TYP SEL 4 3 0V 3 0V Lco 88 0 5 J 8 L L 49 Emp pns m i RTC INT4 LCD 69 ES RES 3 0V 3 0V 186p 25 1 28V 15V 45v 01 y 1 26V 1 26V D b 8 KEY OU Res P2 3 0V 1 08V 123 I 3 9 5 5 DOO 15V Q3048 POWER ON 2 9V 5 KEY ATT ON 2 6V pam au POWER OFF 2 9V 4 99 ze 140 28071 H3096 R3097 R2098 5 4 76 1 21V 1 21 E 5555 4 ON 2 84V OV 2 95V Px pe Gg lem EZ RD 0V a 5 Eas T AS AS 5 1 21V 1 21V ET L o e 40 KEY OUTA OFF 0V OV Tx 02 8 m CBHE 102 9 88 Lagi i 5 5 KEY IN1 5 FUNC MONI 89 i 56 dE Ng m CREE Rue DM noe 257984 axe F vibe GS c7 49 2 s 3 Mig Om 89 252 1 5V 1 5V 152 a HT KEY INS E d T m 83041 ne leen ov a T 88 96 T
22. 02005 277 T OV A AN222 i a m rx x x gt x 0 H 6 47V 6 47V DUAL 0 75V n g di d d LL LALI L L ov Set ep er ep ey ay aye uiu o 4 of a 6 0 un 97 own 77 77 SE GER GND GEO GND GND GEO EP EE SF a a a 33 Unit Parts Layout 9 NS R2058EW EUH Fic 093 R2057 02014 M M ER qo z Ws EB gt 10 Ne 22015 2057 R2053 3 as p v x R2045 1 EH Ej R2049 bv 2044 HB amp 8204 C2064 Reds R2048 02007 FA c21 99HH A BE N C21 48 B tO o 3 R2034 R29 De d ES all 2001 2068 2046 R2145 R2102 C2157EH 2154 HH 1 og A PE Evv R2055 a N isis Ey 2012 SE FB2002 5 21 24 0 jazase 4 1 77 98 222 7 2159 a he Oo
23. RID 8 R2077 a d4 Je o 2 _ ew 2106 9 R2127 C204 ant C2070 Ew 2129 js BN 2 02012 EH EE P Hg C2115 47 R DB 6 2053 ces R2128 B 200 75 B N Er 68 5 m 02001 2006 N 2 C2028 R2029 62035 R2026 db R21 2042 52003 2 R HH S R2092 2 gt am 281 oro c2058 HH BS dg E 9 Er 162042 9 zn han N ji H 19 nus cue R2108 o 02015 AIR 2044 9 o N R2130 _ 9r 2 2110 21 E S N no 21 372 EN at 2 1 e 21 4 9 92200 EvwjR202z 217 2 N 2062 2002 K 2022 d 2028 dinde 92028 Hn EB sms R209 E B 9 c21 R2083 amp R2085 HH 82470 Ed 3 R2003 q2002 2001 o 214 6 52002 _ Y E R2088 VV s DA R2084 8 n es et siad E Gate Gs us EP R2012 SERE 48 ina ES
24. eV 5 SOM BAV Du f E ixi 1 p2 AM RX 12dBu 70 2 553 8 ia 58 59 L m oO Soe gt a 168 2 M 6 47V val i OV 2 9V 51 ES t swax 0 1 Coupling Capacitor LX 6 47V zx Ee AMTX 2 38V Y elo OV OV t 5 sen LB Y Nov V 5 727 1 SW RX 2 95V HB D 413 1 0V 1 61039 AM RX 2 61V TUNE 0 6 43 KBA760U bd Ww 0 2V 0V 430M RX 2 13V i ee lem 9 7 y 1 0 66V 0V Se L m m aj 430M RX 5 9 GE la 50M 2 77V 7 OM RX 2 7V 2 9 WO OCI MOL Lx 5 AMBX Se 0 48 51041 i 1002 Ni HA 2 84 55 06 TER EXT DC B 12 5 81026 2 9 NFM4516P13C204F Bed M AM 2 5V OTC 144e 77 77 7 1 SHIFT ON 2 86V x x x 21004 13 8V bi OV OV SHIFT OFF 0V DTC4144 g m a L1690B40 13 6V 4 a J L nim uL iQ gt G1054 J10 0 Lm Tel UM i 1003 OUI MEE SRD SED GATES STE nx 144 0091311 D SET SET AST Se a 5 4 ag
25. B B A B B A B A A A A B B B B A A A A A A A B B B B A B B A A A A A A B A A A A A A A B A B B B A A A A A A A A A Unit rer oescmerow T vaut yw IToL soen ee 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 CHIP CAP CHIP CAP CHIP CAP CHIP CAP CHIP CAP CHIP CAP CHIP CAP CHIP CAP CHIP CAP 0 001uF 0 001uF 0 001uF 10pF 100pF 330pF 0 0022uF 0 1uF 0 01uF 470pF 0 0047uF 470pF 0 0056uF 0 01uF 0 0039uF 0 047uF 0 001uF 0 1UF 0 1uF 0 01uF 0 01uF 0 001uF 0 001uF 0 001uF 0 001uF 0 001uF 22UF 0 001uF 0 1uF 0 01uF 0 1uF 0 0022uF 0 1uF 0 01uF 0 047uF 0 01uF 000000000000000000000 0 UMK105B102KW F UMK105B102KW F UMK105B102KW F UMK105CH100DW F UMK105CH101JW F UMK105B331KW F GRM36B222K50PT GRM36B104K10PT GRM36B103K16PT UMK105B471KW F GRM36B472K25PT UMK105B471KW F GRM36B562K50PT GRM36B103K16PT UMK105B392KW F GRM36B473K10PT UMK105B102KW F GRM36B104K10PT GRM36B104K10PT GRM36B103K16PT GRM36B103K16PT UMK105B102KW F UMK105B102KW F UMK105B102KW F UMK105B102KW F UMK105B102KW F TEMSVA0G226M 8R UMK105B102KW F
26. Us 1103 C4197 C1202 76 222M TX 2 05V 2 01V 4 2 24 SW RX 0 7 BC SW RX 0 59V 2 3V wd M F mi TANGON 430VCO exi T ab dd 94 BC SW RX EN 2 3 4 TP1003 9 gt ga OV Loma 254 1774 m 50M 1 99V 1012 646 50 BC SW RX 0 75V TP1002 2 9V 2 9V 358 98 7 27 413 9 ugs _ 61037 2 07 G1045 38 ang D1027 9 re 5 04054 9 gt 7 1 C1044 yu Sow DAN222 E a 0 7 T KRA7GOU P 19020 001 91020 Sov 0V 77 077 afa fon 91047 a 0 564 B sats l E A 8 9 u H 2 kU ak d sm 7550 D 77 B Js 9V nmioo4 81104 C1198 C1203 NW Sq uS USK W a gt SIN 4 1K AK xxx 110VF n u 2d E ins RENE Es 30 1548 D1013 M gt 57 SAVE EA s 1208 10V 0 66V zou 95 E 1 55V 1 6V p 0 66V dQ 59 i 5882 Sh l SAVE 2 94V BE m t zd E 58 M 4 A La d le OV qe 225v 1 m 55V Cur ao 3 i 1
27. au 220 144 3 2 RET ver em 4 om Tom ETT OF She 01055 C1278 mm 0 IO ID 5 a 9 gt mnit C PL Div 1 50 1 12 59 T d ae Ee BOTE USE UE o 01902 gt 0 Mey 4 LD 01017 9 Jo 938927957 08205 626 01045 598 oA 1 t 5536 oT GG OS TS pM B DTC143ZE 77 0 TE 771 v C1320 i 27 OHOH zn 1084 19885 1 357 849 82 CH kin hi Lec LTSOGoBT Sm ate Vo L1057 C1250 T 24v DS IL 1 01098 rS Ts m 1078 hm Ling 14030 50M 1 31 50M TX 0 45V 58 5 DASS L DS a E 0 1 0 072 0 0018 155400 TX 3 m 5 B1098 C1303 1 01009 ale 4 jS n RLS435 E 77 0 110V B I 851 222 n NA LOCAL m 7 TES g Sey 94 gol t SUB NFM RX 3 5dBu 29 M wd sz BC SW 215 E E STE SOT 52 000MHz 1 died 5 go ars z x on ob 1000pF Coupling Capacitor 50M RX 1 13V 0V ST ST T gal 50M RX 2 0V OV M
28. m E 2 p 45 UN 5 S O 9 79 79 o C S 6 m I 9 2 E 2 88 B gt 15 lt 29 0 qm The VX 7R consists RF UNIT CNTL UNIT and an AF UNIT The RF UNIT contains the receiver front end PLL IC power and switching circuits and the VCO UNIT for transmit and receive local signal oscillation The CNTL UNIT contains the CPU and audio ICs and the power circuitry for the LCD The AF UNIT contains the IF and audio ICs Receiver Signal Flow The VX 7R includes five receiver front ends each optimized for a particular frequency range and mode combination 1 Triplexer Signals between 0 5 and 540 MHz received at the an tenna terminal pass through a first low pass filter com posed of C1266 C1269 C1289 C1291 C1296 C1297 L1059 L1060 L1067 and L1068 Received 430 2 signals after passing through the low pass filter are fed to the UHF switch circuit com posed of diode switch D1048 RLS135 D1051 15 307 Received 145 2 signals after passing through the low pass filter are fed to the switch circuit com posed of diode switch 01053 RLS135 D1054 15 307 Received 50 2 signals after passing through the low pass filter are fed to the 50MHz switch circuit composed of diode switch D1058 RLS135 D1059 15 307 2 145 2 76 300MHz Reception Received signals between 76 and
29. AET 526 2047 SE 2 9V 3 0V 0 c 2 7K ORT aoo 7 e 11 9 9 REG 9 n 9 SUB144M 2 84 25417 25 17 SUB 430M RX 2 25V cago 6 5V 2865374 5 OV ot 2 95V 30V m i 19 5 SUB 144 RX 0 2V QOT 10K 2 9V 3 0V Bi 6 5V ox 95 oz 26 S M 1 go 92290 25 17 4 SUB 144M 2 25 C2202 gt Senay q 45 on 322 2 95V 3 0 DATA 8547 SUB 50M RX 0 2V T CD mm amp SUB 430M 0 3V 58 E 40K 2 9V 3 0V _ i N OV ON 0210 oom SHE SS Ol 0 J 58 A TO SUB 50M RX 2 25V c o n gt 972 2 95 3 0V H OV OV 77 eds 0 LOPEN FUNG MONI 82002 Nk m RX 1 65V AN MW 9 ARN ul 5050410 SUB HB RX3 mu i DUAL 1 7V SUB 50 144M RX 1 04V Metas SUB MB RX3 8 0V Eur TE 95 SUB 430 RX 1 18V S 4 74 45V325 E CH O e 02019 OV SUB LB 10 2505374 ae ol ME Oju gel 58 oe oen RAF RD a ate 5 RF mr qM m SEE SUB 50M RX 2 83V RE ax IF o 430M RX 0V 95 0 8s 99 OV OV IF av DUAL RX 1 39V
30. AN 194 8 B i 0 42 0 OV Xon 455 a nee um Gg AM 0 42V 11 1 5156 0 77 0 45 2205 0 c 2 n E nes 147V 1 17 sp 0 9 01 Ba m 82061 0 1 28 384 R 285589 Wr UE 8 i t C2193 16V ow 4 7K 15K 10V B 77 4 i8 SFECV10 E m 1 1 m 3 i m 4 1 7 N eie 0 DN i 95 gts ROTE ae BUSY 0V ov Weg OV oV pat kg 1 WFM RX 0 73V Scl T ATi Ge ea Bm 4 Nj Bv E zr 0V N g Dy OV OV MAIN RX 10 5dBu 552 Zur AM TX RX 2 5V OV 252 3 WFM RX 2 68V 47 25MHz y qM OV BUT um ME i OV 0 01uF Coupling Capacitor 50 0V al Gal Bly mom 52046 7 gt 10K a 5 1 Do 055 Ey Dor 82 gt 1 WFM 100K WFM RX 1 6V 7 Geo2B Og T 2 4 294V 5 BUSY 0V 3 09 0V ceoos 0 77 144 77 294V 3 0V 3 0V 99 5 01 EUM R2022 z 2 8V Tog 0V 2 94 1 5 935 E OV vom 9 wat x 25 4915 0 Joy 1 6V 0 4 ons coss X c2075 Rot D
31. Alignment Setup 11 Alignment Test Setup Set up the test equipment as shown below for transceiv er alignment and apply 8 7 V DC power to the transceiv er Refer to the drawings for Alignment Points Internal System Alignment Routine This uses a programmed routine in the transceiver which simplifies many previously complex discrete com ponent settings and adjustments with digitally controlled settings via front panel buttons and LCD indications To begin set the transceiver to the center of the 50 MHz 144 MHz 222 MHz and 430 MHz bands Next select the 430 MHz band then turn the transceiver off Now press and hold in the MON F 0 buttons at the same time while powering the radio on again The display will show the first setting Thereafter the frequencies used during alignment will automatically be set without action by the technician In the alignment process each adjustment is selected by rotating the DIAL Alignment is performed by O Pressing the V M button O Injecting a signal of the required frequency and lev el then O Pressing the V M button after a level setting or ad justment is made This second pressing of the MON F button stores the entry To exit the alignment routine press the HM RV but ton After performing the system alignment in its entire ty individual settings can be returned to and adjusted should the need arise As each transceiver is individually optimized at the factory
32. DAN222 DA221 K DAP222 P D201 1 02004 2007 2008 02003 2017 2018 D2001 2009 2010 MC2850 A7 D2012 2013 2016 34 Unit Parts List DESCRIPTION VALUE MFR S DESIG VXSTDP N VERS SIDE LAY ADR AF UNIT PCB with Components 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 CAP CHIP CAP CHIP CAP CHIP CAP CHIP CAP CHIP CAP CHIP CHIP CHIP CAP CHIP CAP CHIP CAP CHIP CAP CHIP CAP CHIP CAP CHIP CAP CHIP CAP CHIP CAP CHIP CAP CHIP 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 CAP CHIP CAP CHIP CAP CHIP CAP CHIP CAP CHIP CAP CHIP CAP CHIP CAP CHIP CAP CHIP CAP CHIP CAP 33pF 0 01uF 0 47uF 68pF 0 01uF 0 01uF 0 01uF 0 001uF 0 01uF 180pF 3pF 0 01uF 0 001uF 100pF 0 01uF 1uF 0 001uF 10pF 2 2uF 1uF 0 001uF 0 001uF 0 01uF 15pF 12pF 0 001uF 0 01uF 0 01uF 0 01uF 0 001uF 0 1uF 0 001uF 120pF 0 01uF 22pF 0 01uF 6pF 0 0047uF 56pF 27 0 01uF 47uF 0 047uF 0 01uF 0 01uF 0 01uF 0 01uF 0 01uF 9pF 2pF 0 001uF 0 001uF 7pF 47pF 22pF 2pF UMK105CH330JW F GRM36B103K16PT GRM40B474K25PT UMK105CH680JW F GRM36B103K16PT GRM36B103K16PT GRM36B103K16PT UM
33. O o y o 5 Jc ap AM id ees Ru e n eu 55 Qum 55 eee pun eu e um qum m m DTE BESTE 8 C 8 9 81 ELI II LI PI 091138 5 e SS quus pus quas quus quus SS quas Quas SS SSS quus quas quus SS quus quas quus 0505 SSS Se quus pus qus quy quu ese quus pg qu qu Qu qu eum m eee ee Canes APE IN A Ed 6 Ha EE E VALUES TANTALUM TU To anung 45 240 58555 gt PI LB ELE C CAPACITO E qm T INDUCTOR VALUES ARE Iu du ROBES ES me p T E NLESS OTHERWISE NOTED a EXT DC IN 13 8V TX 19 RE Unit 20 Pin 14 Parts Layout Pin 1 NJM12902V Q1022 Collector Collector Emitter Collector Base ollector CPH6102 AB Q1043 Collector Base Emitter DTA144EE 16 Q1021 Pin 16 lt lt dili Pin 8 Pin 1 MB15A01PFV1 Q10
34. VERTEX STANDARD LTD 50 A44 A30 MHz Triple Band 4 8 8 Nakameguro Meguro Ku Tokyo 153 8644 Japan VERTEX STANDARD Heavy Duty Submersible Transceiver US Headquarters 10900 Walker Street Cypress CA 90630 U S A International Division 8350 N W 52nd Terrace Suite 201 Miami FL 33166 U S A V X R YAESU EUROPE B V P O Box 75525 1118 ZN Schiphol The Netherlands YAESU UK LTD Unit 12 Sun Valley Business Park Winnall Close Technical oupplement Winchester Hampshire SO23 OLB U K VERTEX STANDARD HK LTD Unit 5 20 F Seaview Centre 139 141 Hoi Bun Road 2002 VERTEX STANDARD LTD Printed in Japan Kwun Tong Kowloon HongKong EH009M90A Introduction This manual provides the technical information necessary for servicing 7 50 144 430 MHzTriple Band Heavy Duty Submersible Trans ceiver 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 PCB layout diagrams 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 and the other has either a mixture of both chip and leaded components trimmers coils electro DUE O
35. 0 0082u0H 0 012uH 0 012uH C1608CA R10G E2 0 25 1 85 8 5T L E2 0 4 1 3 2T L LK1608 4R7K T E2 0 5 1 4 2 5T L E2 0 5 1 4 2 5T L LK1608 4R7K T E2 0 28 1 0 11TR LK1608 4R7K T E2 0 35 1 4 3 5T L B E2 0 35 1 4 3 5T L B E2 0 35 1 6 4T L E2 0 35 1 6 7T L E2 0 35 1 6 7T L E2 0 35 1 6 7T L LQN21AR22J04 E2 0 25 1 85 8 5T L E2 0 35 1 6 4T L E2 0 35 1 6 4T L 2 0 3 1 7 7 E2 0 35 1 6 7T L 2 0 25 1 9 10 5T L C1608CA 6N8J HK1608 8N2J T TFL0510 12N TFL0510 12N DTC144EE TL 28C5277 D2 TL 28C5555ZD TR 28C5555ZD TR 28C5555ZD TR 28C5555ZD TR 28C5555ZD TR 2SC4915 O TE85L 28C4915 O TE85L 28C5277 D2 TL 28C5555ZD TR 28C5555ZD TR 2SC4915 O TE85L 25 5226 5 UMD6N TR 28C5374 TL 28C5374 TL 28C5374 TL MB15A01PFV1 G BND EF 28C4915 O TE85L DTA144EE TL NJM12902V TE1 2SK3475 TE12L 25 5226 5 DTC143ZE TL DTC144EE TL 2SK3476 TE12L KRA760U RTK DTC144EE TL DTC144EE TL HN1JO2FU TE85L 25 4154 11 1 2SA1774 TLR L1691045 0022576 10022580 1 1690688 10022750 10022750 1 1690688 0022426 1 1690688 0022729 0022729 10022456 10022390 10022390 10022390 11690600 0022576 0022456 0022456 10022372 10022390 10022749 11691093 11690515 11690812 11690812 G3070075 G3352778B G3355557 G3355557 G3355557 G3355557 G3355557 G33491580 G33491580 G3352778B G3355557 G3355557 G33491580 G3352268E G3070215 G3353748 G3353748 G3353748 G1092545 G33491580 G3070074 G1093592 G3834758 G33522
36. 22178250 22178251 22178254 22178829 22178262 22178260 22178258 USA EXPORT EXPORT GERMANY RE Unit mer oescmerow T vue vw TOL osoen vens 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 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 AL ELECTRO CAP CHIP CAP CHIP CAP CHIP CAP CHIP CAP CHIP CAP CHIP CAP CHIP CAP CHIP CAP CHIP CAP gt gt gt gt gt gt gt gt gt gt gt gt gt gt gt gt gt gt gt gt gt gt 0 gt gt gt gt gt gt RE Unit mer oescmerow T vaut yw soen vens or TT 155362 TE85R 155362 TE85R 155362 TE85R 1SV271 TPH3 HVC358B TAPE DAN222 TL DAN222 TL DAN222 TL DAN222 TL DAN222 TL DAN222 TL DAN222 TL HVR100 8TRU M1FM3 4063 HVC355B TAPE HVC355B TAPE HVC358B TAPE 1SV325 TPH3 HVC369B TRF 1SV325 TPH3
37. 9 0 01 16V 0 041 16V 02022 j 359955 dn gage E Ug os Ex 0 oem AW e A F gt Regge E US H a n DO bx 02005 N 5 ET 529 88 nz SUB BUSY 0V P DTC144EE OS ro DUAL 1 0V 0V 3 0V 3 0V IS D po DUAL 0 97V 77 947 SPT 92048 TES DAN222 094 0 604 9 ai an NOT 0 92047 4 2 8 2140 112 0 1 2SJ364 Rh i ar 2 8V 9 J C2117 7 15K B 2006 4 0 01 0 5V TI i ALFYMAGOF K AM RX 1 29V uu en 212 a J2001 1 4 0 5V 1 05 SUB RX 6 3dB 2 mls B 21091431 C2012 E iH DAN2Be 560K pr E a QT AT m 044 B 5 77 AM a 46 35MHz DUAL 0 94V 5 _ ee 5 gt by G2023 0 01uF Coupling Capacitor 0V 037 V 5 Jo ExT 3200 2804 154 C2116 41 2 254915 0 5 Renee 02014 and DUAL RX 2 8V OV DUAL 2 48V 5 om RX 0 65V SUB BUSY 0V 4 ags Uq RX10 63V OV TE N nt n 0 3 0V 3 0V OV DV SP GNO 7 gm zy AMRX072V 247 a R2012 C2195 2021 agar 89
38. E SN3S LINN 3M4 13856 HALAWOYVE CSI JN 2 9 2 9 9 2 2 9 9 3 4 5 5 C2 8 9 9 CRETESE ai dil m 700200003 5 2 J a O in l 0 d 0 9 5 i 3 58888 5 25546999 1x3 ds m as wove 1NI 2288 m ISSH 875 a 3OIOA 5 815 lHOdX3 0 Osta a SSION 9 815 Taans ISSH FH 0 ens _ 95 ANN a Fi 0 q A HS E 7 Q 490719 20 viva 93H lt 1 4 5 E W 9 E 77 0 viva amp 12019 2 E 9 WV 4 Tv907 pue y ans aw ans 9 87 875 ans 5 25 JI amp 41 CeO ee Ge 3 O 41 P ANT Qi gt 59 dii BL eee 0 T 1 c 2 H m 95 0 ADA 7 5 vvv AL de 7 E 2 COW 0 0 AIA 4 ino LL se amp U
39. GRM36B104K10PT GRM36B103K16PT GRM36B104K10PT UMK105B222kKW F GRM36B104K10PT GRM36B103K16PT GRM36B473K10PT GRM36B103K16PT K22178829 K22178829 K22178829 K22178258 K22178282 K22178823 K22178813 22108802 K22128804 K22178825 K22148830 K22178825 K22148802 K22128804 K22178836 22108801 22178829 22108802 22108802 22128804 22128804 22178829 22178829 22178829 22178829 22178829 K78060023 K22178829 22108802 K22128804 22108802 K22178833 22108802 K22128804 22108801 22128804 gt 10 2 0 01uF CHIP CAP 0 1uF CHIP CAP 39pF CHIP 3 3uF CHIP CAP 0 1uF CHIP 4 7uF UMK105CH100DW F K22178258 UMK105CK020CW F K22178250 GRM36B103K16PT K22128804 GRM36B104K10PT 22108802 UMK105CH390JW F K22178272 SKF 1A335M RP K78100051 GRM36B104K10PT 22108802 TEMSVA20J475M 8R K78080031 CHIP CAP CHIP CAP CHIP CAP CHIP CAP CHIP CAP 0 01uF 0 1uF 0 01uF 0 1uF 0 01uF GRM36B103K16PT GRM36B104K10PT GRM36B103K16PT GRM36B104K10PT GRM36B103K16PT K22128804 22108802 K22128804 22108802 22128804 10 0 01uF CHIP CAP 0 047uF CHIP CAP 0 01uF CHIP CAP 22pF CHIP 22uF CHIP CAP 0 01uF CHIP TA CAP 220uF CHIP TA CAP 330uF CHIP CAP 0 001 0 0068uF UMK105CH100DW F K22178258 GRM36B103K16PT K22128804 GRM36B473K10PT 22108801 GRM36B103K16PT
40. GRM36CKORS5B50PT UMK105CH120JW F UMK105CH390JW F UMK105CH070DW F UMK105B102KW F UMK105CH070DW F UMK105CH330JW F UMK105CH220JW F UMK105B102KW F UMK105CH150JW F GRM36CKOR5B50PT UMK105B102KW F UMK105CH390JW F UMK105CK010CW F GRM36CH151J50PT UMK105CH270JW F GRM36CH151J50PT UMK105B102KW F TESVSP0J106M 8R UMK105B102KW F GRM36CKOR5B50PT UMK105CH150JW F UMK105CK010CW F UMK105CH150JW F GRM36CKORS5B50PT UMK105CH080DW F UMK105CH470JW F UMK105CH180JW F UMK105CH070DW F UMK105CH330JW F UMK105CH270JW F UMK105CH120JW F UMK105B102KW F UMK105B102KW F UMK105B102KW F GRM36B104K10PT GRM36B473K10PT UMK105B102KW F GRMS39F105Z10PT GRM36B104K10PT UMK105CH040CW F UMK105CH050CW F UMK105CH040CW F UMK105CH050CW F ECEV1CA101WP UMK105CH120JW F UMK105B102KW F UMK105CK020CW F UMK105CJO30CW F UMK105CH060DW F UMK105B102KW F UMK105CH150JW F UMK105CH120JW F UMK105CH100DW F K22178829 K22178250 K22178829 K22178248 K22178251 K22178255 K22178285 K22178260 K22178272 K22178255 K22178829 K22178255 K22178270 K22178266 K22178829 K22178262 K22178285 K22178829 K22178272 K22178248 K22178240 K22178268 K22178240 K22178829 K78080055 K22178829 K22178285 K22178262 K22178248 K22178262 K22178285 K22178256 K22178274 K22178264 K22178255 K22178270 K22178268 K22178260 K22178829 K22178829 K22178829 22108802 22108801 22178829 22105001 22108802 22178252 22178253 22178252 22178253 48120012 22178260 22178829
41. RMC1 16S JPTH RMC1 16S JPTH RMC1 16S 474JTH RMC1 16S 473JTH RMC1 16S 335JTH RMC1 16S 154JTH RMC1 16S 473JTH RMC1 16S 103JTH RMC1 16S 103JTH 1 165 103JTH RMC1 16S 472JTH RMC1 16S 103JTH 1 165 103JTH RMC1 16S 103JTH 1 165 223JTH RMC1 16S 334JTH RMC1 16S 103JTH RMC1 16S 103JTH RMC1 16S 153JTH RMC1 16S 394JTH RMC1 16S 104JTH RMC1 16S 105JTH RMC1 16S 334JTH RMC1 16S 223JTH RMC1 16S 223JTH RMC1 16S 823JTH RMC1 16S 154JTH RMC1 16 2R2JATP 1 165 101JTH RMC1 16S 472JTH RMC1 16S 102JTH RMC1 16S 105JTH RMC1 16S 4R7JTH RMC1 16S 223JTH 1 165 223JTH RMC1 16S 104JTH RR0510R 683 D 1 165 333JTH RMC1 16S 104JTH 1 165 105JTH RMC1 16S 222JTH RR0510R 104 D RR0510R 104 D RR0510R 104 D RR0510R 104 D J24189045 J24189049 J24189167 J24189055 J24189061 J24189037 J24189056 J24189037 J24189050 J24189034 J24189033 J24189029 J24189033 J24189055 J24189055 J24189070 J24189070 J24189057 J24189045 J24189324 J24189051 J24189045 J24189037 J24189037 J24189037 J24189033 J24189037 J24189037 J24189037 J24189041 J24189055 J24189037 J24189037 J24189039 J24189056 J24189049 J24189061 J24189055 J24189041 J24189041 J24189048 J24189051 J24185229 J24189013 J24189033 J24189025 J24189061 J24189066 J24189041 J24189041 J24189049 J24189163 J24189043 J24189049 J24189061 J24189029 J24189167 J24189167 J24189167 J24189167 UJ gt gt 000000000000000000
42. UMK105B102KW F UMK105B102KW F GRMS39F105Z10PT GRMS9F105Z10PT 22105001 22105001 22178829 22178829 22148831 22148831 22178834 22128804 K78060023 K22178829 K22148831 K22178829 K22178829 K22178829 K22178829 K22179018 K22128806 K22178822 K22178829 K22128806 22108801 K22178829 K22148244 K22128804 K22128804 K78060023 K22178829 22105001 22179018 22178822 22178829 22124804 22105001 22178815 22128804 22178833 22178829 22105001 22105001 22128804 22178829 22178829 22105001 22105001 CNTL Unit UJ uU uuuuuuuuuuuuuuuuuuuuuuuuuuuuuuuuuuuuuuuuuUu CNTL Unit 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 AL ELECTRO CAP CHIP CAP CHIP CAP CHIP TA CAP CHIP CAP CHIP TA CAP CHIP CAP CHIP CAP CHIP CAP AL ELECTRO 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 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 CHIP CAP 220 0 001uF 0 01uF 0 01uF 100pF 100pF 0 01uF 0 01uF 0 01uF 0 001uF 1UF 47uUF 0 01uF 0 001
43. ga p 59 2 mu 5 2 oY 56 2 5 155 362 01010 D d pO 77 77 9 81828 26V Te nor DAN222 a go 95548 con Bst 01050 2 81V 77 106 38 KRA76QU al 155385 Ox DO of 2 9 b 48V IA G1038 E Ligge 7 31074 81075 723 1044 81086 81102 1190 1 A H m u OK 100K 220u my 010 e P DIM 3 j TOV mx 0 t jax 15299 057 C1104 38 2 6 at TU T n T iE H O0 0018 158400 SUB IF RE om dy 2 95V De ulg i it 1 Set Sat E BAC SUC 551 8515 9 T SNT 5 LoT TX 77 D i BSE 8 RE 581 851551 fua SUB50M RX 1 27V OV Di eB TAE Lee e pv qe 50 059 794 25 99 Ip 61051 9 IE av 5 84115 N ar X m a 132 8516 oa OV OY SAVES 2 12V 2 78 OV 76 222 RX 1 98V 430M 1 99V i C1043 01045 Ns 24090 R1103 1197 C1202 470K SAVE 0V is Pe us B
44. gt gt gt gt gt gt gt gt gt gt gt gt gt gt gt gt gt gt gt gt gt gt gt gt gt gt gt gt gt gt gt gt gt gt gt gt gt gt gt gt gt gt gt gt gt gt gt 7 T 56 Note 57 Copyright 2002 VERTEX STANDARD CO LTD All rights reserved No portion of this manual may be reproduced without the permission of VERTEX STANDARD CO LTD Printed in Japan YAESU
45. vw osoen vens gt 22 U 2 gt gt gt gt gt 2 00000000000 gt gt gt gt gt gt gt gt UU 2 0U gt gt gt gt 72 gt gt gt gt gt gt RE Unit mer T ww rou wens case veros vens Lor se uwiom 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 RMC1 16S 104JTH 1 165 102JTH RMC1 16S 473JTH RMC1 16S 331JTH RMC1 16S 334JTH RMC1 16S 471JTH RMC1 16S 104JTH RMC1 16S 102JTH 1 165 221JTH RMC1 16S 104JTH RMC1 16S 334JTH RMC1 16S 221JTH RMC1 16S 471JTH 1 165 221JTH RMC1 16S 104JTH RMC1 16S 221JTH RMC1 16S 331JTH RMC1 16S 221JTH RMC1 16S 104JTH RMC1 16S 221JTH RMC1 16S 331JTH RMC1 16S 222JTH RMC1 16S 334JTH RMC1 16S 331JTH RMC1 16S 101JTH RMC1 16S 102JTH RMC1 16S 681JTH RMC1 16S 681JTH RMC1 16
46. 16S 332JTH 1 165 332JTH RMC1 16S 331JTH 1 165 103JTH RMC1 16S 472JTH RMC1 16S 102JTH RMC1 16S 472 RMC1 16S 221JTH RMC1 16S 102JTH RMC1 16S 103JTH RMC1 16S 103JTH RMC1 16S 102JTH RMC1 16S 102JTH RMC1 16S 103JTH RMC1 16S 101JTH RMC1 16S 103JTH RMC1 16S 223JTH RMC1 16 000JATP 1 165 221JTH RMC1 16S 104JTH RMC1 16S 104JTH RMC1 16S 102JTH RMC1 16S 103JTH RMC1 16S 101JTH ERTJ1VV473J ERTJ1VV473J J24189013 J24189037 J24189019 J24189031 J24189029 J24189027 J24189029 J24189027 J24189025 J24189038 J24189039 J24189013 J24189033 J24189009 J24189030 J24189049 J24189037 J24189045 J24189037 J24189045 J24189037 J24189019 J24189031 J24189019 J24189019 J24189037 J24189033 J24189031 J24189025 J24189049 J24189033 J24189031 J24189031 J24189019 J24189037 J24189033 J24189025 J24189033 J24189017 J24189025 J24189037 J24189037 J24189025 J24189025 J24189037 J24189013 J24189037 J24189041 J24185000 J24189017 J24189049 J24189049 J24189025 J24189037 J24189013 G9090122 G9090122 TSS 5032A 11 7MHZ H0103264 RA0287100 RA0408300 GERMANY USA EXPORT EXPORT RF Unit A RF Unit Note 32 Circuit Diagram AF Unit
47. 300 MHz pass through the Triplexer circuit low pass filter high pass filter cir cuit VHF T R switch circuit and protector diode D1002 155362 before additional filtering by a band pass fil ter prior to application to RF amplifier Q1004 25 5555 The amplified RF signal is passed through a band pass filter to first mixer Q1012 28C5555 Meanwhile output from the VCO UNIT is amplified by 01017 25 5374 and applied through diode TAR switch 01041 DAN222 to mixer Q1012 as the first local signal The 47 25 MHz intermediate frequency product of the mixer is delivered to the AF UNIT The TUNE voltage from the CPU on the CNTL UNIT is amplified by DC amplifier Q3017 NJU7007F2 and applied to varactors D1020 and D1022 HVC369B 01019 01021 01023 D1024 01033 D1036 15325 in the variable frequency band pass filters By changing the electrostatic capacitance of the varactors optimum Circuit Description filter characteristics are provided for each specific oper ating frequency 3 435 MHz Band 222 540MHz Reception Received signals between 222 and 540 MHz pass through the Triplexer circuit low pass filter high pass filter circuit UHF T R switch circuit and protector di ode D1001 155362 before additional filtering by a band pass filter prior to application to RF amplifier 01003 25 5555 The amplified RF signal is passed through band pass filter RF amplifier Q1006 28C5555 and band pass filter to
48. AF Dummy Load O Regulated DC Power Supply adjustable from 3 to 15 V DC 3A O Frequency Counter 0 2 ppm accuracy at 500 MHz O AF Signal Generator O AC Voltmeter O DC Voltmeter high impedance O UHF Sampling Coupler O SINAD Meter Alignment Preparation Precautions A 10 W RF dummy load and in line wattmeter must be connected to the main antenna jack in all procedures that call for transmission alignment is not possible with an antenna After completing one step read the next step to see if the same test equipment is required If not re move the test equipment except dummy load and watt meter if connected before proceeding Correct alignment requires that the ambient tempera ture be the same as that of the transceiver and test equip ment and that this temperature be held constant between 68 86 F 20 30 When the transceiver is brought into the shop from hot or cold air it should be allowed some time to come to room temperature before alignment Whenever possible alignments should be made with os cillator shields and circuit boards firmly affixed in place Also the test equipment must be thoroughly warmed up before beginning Note Sienal levels in dB referred to in the alienment proce dure are based 0 0 5 closed circuit HF Signal Generator In Line Wattmeter ET Meter Frequency Coupler AF Load 50 ohm RF Load w eter AF Generator Regulated 8 7 VDC PS
49. 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 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 CAP UJ CHIP TA CAP 22uF CHIP TA CAP 2 2uF CHIP TA CAP 10uF CHIP CAP 0 001uF TESVSP0G226M 8R TESVSP0G225M 8R TESVSP0J106M 8R UMK105B102KW F K78060047 K78060025 K78080055 K22178829 gt gt gt 2 U UU 22 22 gt gt gt gt gt gt gt gt gt gt gt 720 UU 22 gt U 72 7 gt gt gt gt gt gt gt gt gt gt gt gt gt gt gt 22 gt gt 0 001uF 2pF 0 001uF 1pF 3pF 0 5pF 12pF 39pF 7pF 0 001uF 33pF 22pF 0 001uF 15pF 0 5pF 0 001uF 39pF 1pF 150pF 27 150 0 001 10uF 0 001uF 0 5pF 15pF 1pF 15pF 0 5pF 8pF 47pF 18pF 33pF 2 pF 12pF 0 001uF 0 001uF 0 001uF 0 1uF 0 047uF 0 001uF 1uF 0 1uF 4pF 5pF 4pF 5pF 100uF 12pF 0 001uF 2pF 3pF 6pF 0 001uF 15pF 12pF 10pF UMK105B102KW F UMK105CK020CW F UMK105B102KW F UMK105CK010CW F UMK105CJ030CW F UMK105CH070DW F
50. 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 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 TA CAP CHIP CAP CHIP CAP CHIP CAP CHIP TA CAP CHIP TA CAP CHIP CAP CHIP CAP CHIP CAP CHIP CAP UJ A A B B B B B B B B B B A A A A A A B B B B B B A A A A A A B B B A A B B B B A A A A A A A A A A B B B B B B B B B B RE Unit 0 001uF 0 001uF 1uF 33pF 27 27 18 10pF 22pF 10pF 22pF 15pF 15pF 0 01uF 0 001uF 56pF 4 7uF 120pF 0 001uF 0 001uF 0 01uF 0 001uF 0 01uF 0 001uF 0 001uF 0 001uF 0 022uF 1uF 0 001uF 0 001uF 0 001uF 0 001uF 0 001uF 0 001uF 0 001uF 10pF 12pF 22pF 0 001uF 0 01uF 33pF 1pF 0 001uF 0 001uF 68pF 33pF 39pF 0 001uF 0 001uF 0 001uF 150pF 220pF 0 01uF UJ UJ UJ UJ I I UMK105B102KW F UMK105B102KW F GRMS39F105Z10PT GRMS9F105Z10PT UMK105CH330JW F UMK105CH270JW F UMK105CH330JW F UMK105CH270JW F UMK105CH180JW F UMK105CH100DW F UMK105CH220JW F UMK105CH100DW F UMK105CH220JW F UMK105CH150JW F UMK105CH150JW F GRM36B103K16PT UMK105B102KW F
51. HVC369B TRF 1SV325 TPH3 1SV325 TPH3 1SV325 TPH3 1SV325 TPH3 DAN222 TL DAN222 TL 198400 TE61 HVC358B TAPE HVC358B TAPE 198400 TE61 1SV325 TPH3 155400 TE61 155400 TE61 1SV325 TPH3 198400 TE61 198400 TE61 198400 TE61 198400 TE61 DAN222 TL HVC359 TRF DAN222 TL DAN222 TL HN2D01FUTE85R HN2D01FUTE85R 155321 TE85R RLS135 TE 11 RB751S 40TE61 1SS385 TE85L 1SV307 TPH3 1SV271 TPH3 RLS135 TE 11 1SV307 TPH3 RB751S 40TE61 15 271 TPH3 15 271 TPH3 RLS135 TE 11 1SV307 TPHS 198400 TE61 G2070268 G2070268 G2070268 G2070476 G2070590 G2070174 G2070174 G2070174 G2070174 G2070174 G2070174 G2070174 G2070540 G2070804 G2070588 G2070588 G2070590 G2070848 G2070872 G2070848 G2070872 G2070848 G2070848 G2070848 G2070848 G2070174 G2070174 G2070634 G2070590 G2070590 G2070634 G2070848 G2070634 G2070634 G2070848 G2070634 G2070634 G2070634 G2070634 G2070174 G2070708 G2070174 G2070174 G2070348 G2070348 G2070076 G2070128 G2070850 G2070880 G2070638 G2070476 G2070128 G2070638 G2070850 G2070476 G2070476 G2070128 G2070638 G2070634 gt 020 2 gt U gt gt 000000202 gt gt gt UU gt gt gt gt gt gt 22 22 UJ UJ RE Unit RB751S 40TE61 G2070850 d1 D 1062 DIODE 1 271 2070476 1 D 1063 DIODE DAN222 TL 22070174 D S DIODE 155400 TE61 G2070634 Fevo cMPCOL
52. K22128804 UMK105CH220JW F K22178266 TEMSVA0G226M 8R K78060023 GRM36B103K16PT K22128804 TMCRE1A227MTR K78100064 F931A337MNC K78100066 UMK105B102KW F K22178829 GRM36B682J25PT K22148803 gt gt gt gt gt UU UU gt 002 gt gt gt U UU UU UU UU UU UU gt gt gt 7 U gt U UU UU UU UU UU gt gt gt gt gt gt CD2002 CERAMIC DISC CDBM450C7 H7900930 LE CF2001 CERAMIC FILTER CF2002 CERAMIC FILTER 2003 CERAMIC FILTER D 2002 DIODE D 2003 DIODE 0 001u
53. K22178829 K22178829 K22178278 K22128804 K22178829 K22178829 K22178829 22108802 K22178276 K22148203 K22178278 K22128804 K22128804 K22128804 K22178829 K22128804 K22178829 K22178266 K22178266 22108802 22108802 K22128804 K22178829 K22178829 K22178829 K22178266 K22178248 K22178829 K22178266 K22178248 K22178250 K22178270 gt gt gt gt gt gt gt gt gt gt 0 gt gt gt gt gt gt gt gt gt gt gt gt gt gt gt gt gt gt RE Unit 4pF 4pF 0 001uF 0 001uF 22pF 8pF 6pF 10pF 8pF 22pF 8pF 8pF 0 001uF 0 001uF 22pF 68pF 22pF 0 001uF 82pF 120pF 12pF 22 0 001uF 8pF 0 01uF 0 001uF 100pF 0 001uF 68pF 3pF 0 001uF 100pF 5pF 0 001uF 5pF 22pF 0 001uF 1pF 0 1uF 27 82pF 0 1uF 27 0 01uF 0 01uF 12pF 0 5pF 7pF 0 001uF 33pF 1pF 2pF 33pF 2pF 0 001uF 0 1uF 8pF 6pF UMK105CH040CW F UMK105CH040CW F UMK105B102KW F UMK105B102KW F UMK105CH220JW F UMK105CH080DW F UMK105CH060DW F UMK105CH100DW F UMK105CH080DW F UMK105CH220JW F UMK105CH080DW F UMK105CH080DW F UMK105B102KW F UMK105B102KW F UMK105CH220JW F UMK105CH680JW F UMK105CH220JW F UMK105B102KW F UMK105CH820JW F UMK105CH121JW F UMK105CH120JW F UMK105CJO30CW F UMK105CH220JW F UMK105B102KW F UMK105CH080DW F GRM36B103K16PT UMK105B102KW F UMK105CH101JW F U
54. L1 Tx Power Adjustment L1 POW ER O Transmit and adjust the output power level for 50 mW 450 30 mW by rotating the DIAL then press the V M button Rotate the DIAL to select the next setting TX Deviation Adjustment M AX DEV O Inject a 1 KHz audio tone at a level of 50mV rms to the MIC jack Press the V M button then transmit and ad just the deviation for4 5 KHz 30 2 KHz USA Version 4 2 30 2 kHz by rotating the DIAL then press the V M button Rotate the DIAL to select the next setting AM Modulation AM MOD O Inject a 1 KHz audio tone at a level of 100 mV rms to the MIC jack Press the V M button then transmit and adjust the modulation for 60 10 by rotating the DIAL then press and hold in the MON F button for one second CTCSS Tx Deviation Adjustment TN 67 0 O Press the V M button then transmit and adjust the de viation for 0 5 KHz 40 05 0 1 kHz by rotating the DIAL then press the V M button Rotate the DIAL to select the next setting CTCSS Tx Deviation Adjustment TN 183 5 O Press the V M button then transmit and adjust the de viation for 0 5 KHz 20 1 KHz by rotating the DIAL then press the V M button Rotate the DIAL to select the next setting CTCSS Tx Deviation Adjustment TN 254 1 O Press the V M button then transmit and adjust the de viation for 0 5 KHz 20 1 KHz by rotating the DIAL then press the V M button Rotate the DIAL to select the next setting DCS Tx Deviation Ad
55. RES R 4024 CHIP RES 4025 CHIP RES R 4026 CHIP RES 4027 CHIP RES 1uH 0 0082UH 0 0082UH 1uH 4 7uH 0 018uH 0 018uH 1uH 4 7uH 0 1uH 1uH 0 33uH 0 033UH 0 1uH LK1608 1ROK T C1608CA 8N2J C1608CA 8N2J LK1608 1ROK T LK1608 4R7K T C1608CA 18NG C1608CA 18NG LK1608 1ROK T LK1608 4R7K T C1608CA R10G LK1608 1ROK T LK1608 R33K T HK1608 33NJ T LK1608 R10K T C1608CA R22G DTC143ZE TL EC3H07B TL DTC143ZE TL EC3H07B TL EC3H07B TL EC3H07B TL DTC143ZE TL 1 165 103JTH RMC1 16S 104JTH RMC1 16S 471 RMC1 16S 222JTH RMC1 16S 470JTH RMC1 16S 472JTH RMC1 16S 470JTH RMC1 16S 103JTH RMC1 16S 104JTH RMC1 16S 471JTH 1 165 222JTH RMC1 16S 101JTH RMC1 16S 103JTH RMC1 16S 101JTH RMC1 16S 103JTH RMC1 16S 104JTH RMC1 16S 332JTH RMC1 16S 103JTH RMC1 16S 101JTH RMC1 16S 101JTH RMC1 16S 391JTH RMC1 16S 470JTH 1 165 392JTH RMC1 16S 101JTH RMC1 16S 101JTH RMC1 16S 102JTH RMC1 16S 104JTH L1690687 L1691095 L1691095 L1690687 L1690688 L1691035 L1691035 L1690687 L1690688 L1691045 L1690687 L1690412 L1690522 L1690407 L1691103 G3070102 G3070286 G3070102 G3070286 G3070286 G3070286 G3070102 J24189037 J24189049 J24189021 J24189029 J24189009 J24189033 J24189009 J24189037 J24189049 J24189021 J24189029 J24189013 J24189037 J24189013 J24189037 J24189049 J24189031 J24189037 J24189013 J24189013 J24189020 J24189009 J24189032 J24189013 J24189013 J24189025 J24189049
56. Sagl Y lt m vg 68 wee D3 OV 1 23V 1 23V R3174 7 n 945 Tg Ss Ed z x 2 gt 6 95 ov M T gt oe zr 2 85 x x Coo p UY amp Bo t Y SETS gt 8 2 3 X Ii 4 o 69 2 os ov H D MN Oy gt gt i 529 5 9QQoooQoe 4 i e p E amp a al g 5 12 8V 5 V OV K Patat M Ja a 2 85V 9 4495 hinog 1260 E D7 8 0 L Ta 1 Bx ar me g pe 2 4V 1 144 5 83036 ao 25J364 A 1 2 9 2 4V 5 vss 50 2 R2074 a e5U564 A 1 26V 5 J 0 001 gt 7 VSS4 ARK 1 26V DE odo 00 lt 0 C3040 p m POWEQEF OV niv E VEE C3N 5 88V 20 Po R3102 771 Jy ni gt 5 71 10K 302 0 0 CHG 1 51V WW 1 25V 1 25 7 7 1 ca120 2b 8x cH 77T C3076 18 1 43 H 25 OV 124V 14V E 1 Hie CHDSB 144 83155 aids 4 4V mp I DES 4 7K area C
57. TEE A a Pin 8 i 1 d 92004 9 6 i i E i 4 ES Pans T z m 36 ces e Pin 1 Emitter E Source Drain E n MB15A01PFV1 BU4094BCFV E2 TA31136FN TDA7233D DTA144EE DTC143ZE E23 2SJ364 R 4M i ieee pia S 02007 02048 02016 2037 02040 02008 2044 Q2039 Q2029 2036 2042 8 79d B Se 2043 2047 5 5 58 i els Y z Collector cele tort Collector Collector Collector 2 R kb d aA o lai 0 d4 0 fum pu Emitter 1 4 Collector 2 Collector 1 Base cn Gan d HH Base Emitter Base 1 Collector Base Emitter Base Emitter Base Emitter 5 Zw b c2 emis ind D 25 4154 LE UMBSN B3 6102 AB 2SA1774 FR 25 5374 NA DTC144EE 26 S55 4 02003 2012 2022 02003 02033 02009 2014 2020 02017 2018 2019 02001 2005 2015 92 pg 2097 R 2023 2030 2032 2021 2024 2025 2031 2027 2028 2035 g 8 cae ozme 2041 2044 2045 2026 2049 2046 Side 25 4915 02002 2004 2006 2010 2011 2013 2038 Anode 2 Anode 1 Anode3 Cathode 1 2 Cathode 1 Anode 2 Anode 1 2 Cathode 1 Cathode Cathode 2 Anode 1 Anode 2 Anode 1 Cathode 2 Cathode 1 Cathode 2 HN2DO1FU A1
58. TN 254 1 O Press the V M button then transmit and adjust the de viation for 0 5 KHz 40 1 kHz by rotating the DIAL then press the V M button Rotate the DIAL to select the next setting Alignment DCS Tx Deviation Adjustment DCS DEV O Press the V M button then transmit and adjust the de viation for 0 6 KHz 20 1 KHz by rotating DIAL then press the V M button Rotate the DIAL to select the next setting Press the MON F to activate the TX Power and Devia tion alignment routine The alignment frequency will automatically be set to 224 995 MHz High Tx Power Adjustment L2 POW ER O Transmit and adjust the output power level for 0 3 W 20 1 W by rotating the DIAL then press the V M but ton Rotate the DIAL to select the next setting High Tx Power Adjustment L1 POW ER O Transmit and adjust the output power level for 50 mW 450 430 mW by rotating the DIAL then press the V M button Rotate the DIAL to select the next setting TX Deviation Adjustment M AX DEV O Inject a 1 KHz audio tone at a level of 50mV rms to the MIC jack Press the V M button then transmit and adjust the deviation for 4 2 KHz 30 2 kHz by rotating DIAL then press the V M button Rotate the DIAL to select the next setting CTCSS Tx Deviation Adjustment TN 67 0 O Press the V M button then transmit and adjust the de viation for 0 5 KHz 40 05 0 1 kHz by rotating the DIAL then press the V M button Rotate the DIAL to select the n
59. UMK105CH560JW F TESVSP0J475M 8R UMK105CH121JW F UMK105B102KW F UMK105B102KW F GRM36B103K16PT UMK105B102KW F GRM36B103K16PT UMK105B102KW F UMK105B102KW F UMK105B102KW F GRM36B223K16PT GRMS39F105Z10PT UMK105B102KW F UMK105B102KW F UMK105B102KW F UMK105B102KW F UMK105B102KW F UMK105B102KW F UMK105B102KW F UMK105CH100DW F UMK105CH120JW F UMK105CH220JW F UMK105B102KW F GRM36B103K16PT UMK105CH330JW F UMK105CK010CW F UMK105B102KW F UMK105B102KW F GRMS39CH680J50PT UMK105CH330JW F UMK105CH390JW F UMK105B102KW F UMK105B102KW F UMK105B102KW F GRM39CH151J50PT GRM36CH221J25PT GRM36B103K16PT GRMS9F105Z10PT K22178829 K22178829 22105001 22105001 22178270 22178268 22178270 22178268 22178264 22178258 22178266 22178258 K22178266 K22178262 K22178262 K22128804 K22178829 K22178276 K78080053 K22178284 K22178829 K22178829 K22128804 K22178829 K22128804 K22178829 K22178829 K22178829 22128806 K22105001 K22178829 K22178829 K22178829 K22178829 K22178829 K22178829 K22178829 K22178258 K22178260 K22178266 K22178829 K22128804 K22178270 K22178248 K22178829 K22178829 K22174231 K22178270 K22178272 K22178829 K22178829 K22178829 K22174239 K22148203 22128804 22105001 GERMANY USA EXPORT EXPORT USA EXPORT EXPORT GERMANY EXPORT GERMANY mer nesomemov T vaue ww ro wewsoesc ves Lor seluwiom CHIP CAP CHIP CAP CHIP CAP CHIP CAP CHIP CAP CHIP CAP CHIP
60. a correspond ing smoothed varactor control voltage VCV The VCV is applied to varactors D4004 and D4013 16 325 in the VCO tank circuit or to varactor D4001 HVC355B in the UHF VCO tank circuit or to varactors D4007 and 04008 15 325 in the 50 MHz VCO to eliminate phase difference between the reference frequency and comparative frequency thus locking the VCO oscillation frequency to the reference crystal The VCO frequency is determined by the frequency dividing ratio sent from the CPU to the PLL IC During receiver power save op eration the PLL circuit operates intermittently to reduce current consumption for which the intermittent oper ation control circuit reduces the lock up time Introduction and Precautions The VX 7R has been carefully aligned at the factory for the specified performance across the specified amateur bands Realignment should therefore not be necessary except in the event of a component failure All compo nent replacement 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 dam age 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 realign ment should
61. amplified by the limiting amplifi er within the Narrow IF IC before quadrature detection by ceramic discriminator CD2001 450 7 Demodulated audio is passed from pin 9 of the Nar row IF IC through the Mute analog switch 02029 251364 and squelch gate 02036 259364 before de em phasis at Q2028 DTC144EE The resulting audio is amplified by AF amplifier Q2040 TDA7233D and fed through the MIC EAR jack J2002 to internal speaker SP1001 or an external earphone 8 Squelch Control Signal components in the neighborhood of 15 kHz con tained in the discriminator output pass through an ac tive band pass filter composed of R2059 R2060 R2062 C2076 C2078 and the operational amplifier between pins 7 and 8 within Narrow IF IC Q2016 They are then recti fied by D2012 and D2013 2850 to obtain a DC volt age corresponding to the level of noise This voltage is fed to pin 49 of CPU Q3035 HD6472237TF10 which compares the input voltage with a previously set thresh old When the input voltage drops below the threshold normally due to the presence of a carrier the CPU turns on squelch gate Q2036 and allows any demodulated au dio to pass At the same time Q3001 and or Q3003 and or Q3004 goes on causing the BUSY lamp D3033 FRGB1312CE 10 TF to light Transmitter Signal Flow 1 145 MHz Band Transmit Receive Switching Closing PTT switch 2002 on the AF UNIT pulls the base of Q3008 DTA144EE low causing the collect
62. press the V M but ton Rotate the DIAL to select the next setting High TX Power Adjustment L3 POW ER O Transmit and adjust the output power level for 2 5 W 20 2 W by rotating the DIAL then press the V M but ton Rotate the DIAL to select the next setting Alignment High TX Power Adjustment L2 POW ER O Transmit and adjust the output power level for 1 0 W 40 1 W by rotating the DIAL then press the V M but ton Rotate the DIAL to select the next setting High TX Power Adjustment L1 POW ER O Transmit and adjust the output power level tor 50 mW 450 30 mW by rotating the DIAL then press the V M button Rotate the DIAL to select the next setting TX Deviation Adjustment MAX DEV O Inject a 1 KHz audio tone at a level of 50mV rms to the MIC jack Press the V M button then transmit and ad just the deviation for 4 5 kHz 50 2 KHz USA Version 4 2 KHz 30 2 kHz by rotating the DIAL then press the V M button Rotate the DIAL to select the next setting CTCSS Tx Deviation Adjustment TN 67 0 O Press the V M button then transmit and adjust the de viation for 0 5 kHz 40 05 20 1 kHz by rotating the DIAL then press the V M button Rotate the DIAL to select the next setting CTCSS Tx Deviation Adjustment TN 183 5 O Press the V M button then transmit and adjust the de viation for 0 5 kHz 20 1 kHz by rotating the DIAL then press the V M button Rotate the DIAL to select the next setting CTCSS Tx D
63. press the V M button then press the MON F button twice Press the V M button then rotate the DIAL to select the next setting S Meter Full Scale Adjustment 59 LEVEL O Adjust the generator level to 19 dBu 1 kHz tone 3 5 kHz deviation then press the V M button then press the MON F button twice Press the V M button Press the BAND button to activate the 144 MHz SUB band internal alignment routine The alignment frequency will automatically be set to 145 100 MHz USA Version 146 100 MHz 144 MHz SUB Band Alignment Squelch Hysteresis Adjustment HIS SQL O Rotate the DIAL for minimum squelch hysteresis Press the V M button then rotate the DIAL to select the next setting Squelch Preset Threshold THLD SQL Inject 15 0 RF signal 1 kHz tone 43 5 kHz deviation then press the V M button then press the button twice Press the V M button then rotate the DIAL to select the next setting Squelch Preset Tight TIGH SQL Adjust the generator level to 4 0 then press the V M button then press the MON F button twice Press the V M button then rotate the DIAL to select the next setting S Meter S 1 Adjustment S1 LEVEL Adjust the generator level to 7 0 dBu 1 KHz tone 9 3 5 kHz deviation then press the V M button then press the MON F button twice Press the V M button then rotate the DIAL to select the next setting S Meter Full Scale Adjustment 59 LEVEL Adjust t
64. the next setting Squelch Preset Threshold THLD SQL O Inject 15 0 dBu RF signal 1 kHz tone 43 5 kHz deviation then press the V M button then press the button twice Press the V M button then rotate the DIAL to select the next setting Squelch Preset Tight TIGH SQL O Adjust the generator level to 4 0 dBu then press the V M button then press the MON F button twice Press the V M button then rotate the DIAL to select the next setting S Meter S 1 Adjustment S1 LEVEL Adjust the generator level to 7 0 dBu 1 KHz tone 9 3 5 kHz deviation then press the V M button then press the MON F button twice Press the V M button then rotate the DIAL to select the next setting S Meter Full Scale Adjustment S9 LEVEL Adjust the generator level to 19 dBp 1 KHz tone 3 5 kHz deviation then press the V M button then press the MON F button twice Press the V M button then rotate the DIAL to select the next setting Wide FM S Meter 5 1 Adjustment 51 LEVEL Adjust the generator level to 0 dBu 1 KHz tone 20 kHz deviation then press the V M button then press the MON F button twice Press the V M button then rotate the DIAL to select the next setting Wide FM S Meter Full Scale Adjustment 59 LEVEL O Adjust the generator level to 420 dBp 1 KHz tone 20 kHz deviation then press the V M button then press the MON F button twice Press the V M button then rotate the DIAL to sel
65. the transceiver being aligned EXP Version Alignment of the SUB Band follows see page 18 USA Version Press the BAND button to activate the 222 MHz band internal alignment routine In this case the alignment frequency will automatically be set to 222 000 MHz 222 MHz Band Alignment L2 Tx Power Adjustment L2 POW ER O Transmit and adjust the output power level for 0 3 W 40 1 W by rotating the DIAL then press the V M but ton Rotate the DIAL to select the next setting L1 Tx Power Adjustment L1 POW ER Transmit and adjust the output power level for 50 mW 450 30 mW by rotating the DIAL then press the V M button Rotate the DIAL to select the next setting TX Deviation Adjustment MAX DEV O Inject a 1 KHz audio tone at a level of 50mV rms to the MIC jack Press the V M button then transmit and adjust the deviation for 4 2 KHz 30 2 kHz by rotating the DIAL then press the V M button Rotate the DIAL to select the next setting CTCSS Tx Deviation Adjustment TN 67 0 O Press the V M button then transmit and adjust the de viation for 0 5 kHz 40 05 0 1 kHz by rotating the DIAL then press the V M button Rotate the DIAL to select the next setting CTCSS Tx Deviation Adjustment TN 183 5 O Press the V M button then transmit and adjust the de viation for 0 5 KHz 40 1 kHz by rotating the DIAL then press the V M button Rotate the DIAL to select the next setting CTCSS Tx Deviation Adjustment
66. 0 001uF 5 UMK105B102KW F K22178829 CHIP CAP 0 001uF UMK105B102KW F K22178829 SPMA10 1104Q7NC G2070878 A SPMA10 1104Q7NC G2070878 A 19 215UYOC S530 A2 TR8 52070884 19 215UYOC S530 A2 TR8 52070884 19 215UYOC S530 A2 TR8 52070884 19 215UYOC S530 A2 TR8 52070884 19 215UYOC S530 A2 TR8 52070884 19 215UYOC S530 A2 TR8 52070884 UDZ TE 17 5 1B 22070448 155400 TE61 52070634 DAN222 TL G2070174 B DA221 TL G2070178 B DA221 TL G2070178 B DA221 TL G2070178 B DA221 TL G2070178 B RB521S 30 TE61 G2070642 B RB751S 40TE61 G2070850 B RB751S 40TE61 G2070850 B RB751S 40TE61 G2070850 B 155400 TE61 G2070634 B 155400 TE61 G2070634 B 155400 TE61 G2070634 B 155400 TE61 G2070634 B UMP11N TN G2070646 B UMP11N TN G2070646 B RD2 0UM T2 G2070190 B 19 215UYOC S530 A2 TR8 G2070884 A UDZS TE 17 9 1B G2070868 B FRGB1312CE 10 TF G2070870 A 155400 TE61 G2070634 B RB551V 30 TE 17 G2070892 MEN 1 J 3002 CONNECTOR J 3003 MC3001 MIC ELEMENT TRANSISTOR TRANSISTOR TRANSISTOR TRANSISTOR J 3004 SHIELD FINGER J 3005 SHIELD FINGER L 3001 M RFC 150uH FLC32P T 151K L1690661 L 3002 M RFC RENE FLC32T 151J L1690229 EM 140 M3290032 AXK6F10335P IL FHR F30S HF E3000 IL FHR F45S HF E3000 2026 3100012 2026 3100012 CPH6202 TL CPH6202 TL CPH6202 TL CPH6202 TL NJM2904V TE1 NJM12902V TE1 P0091225 P1091027 P1091135 55000196
67. 00 VOLUME KNOB RA0400600 CAP SP MIC U9900138_ BINDING HEAD SCREW M2X5 4 4 09900136 SPECIAL SCREW 2 2 35 1 1 1 2 4 2 CP7346002 USA CP7346003 EXPORT CP7346004 GERMANY PANEL ASS Y with RUBBER KNOB MIC SHEET SP SHEET SP PROTECTOR L PROTECTOR R 4 IN RA0400000 RUBBER PACKING RA014250A DOUBLE FACE TAPE LCD RA0399900 REFLECTOR SHEET 98 FRO08330C FPC CABLE RA0400200 STUD X4 pcs RA01403AA LATCH NAIL CP7342003 REAR CASE ASS Y with SMA CONNECTOR ASS Y TERMINAL BOARD ASS Y RUBBER KNOB PTT RUBBER KNOB PTT RA0399700 HOLDER PTT RA0400100 RUBBER KNOB PTT RA0140100 MASK SHEET RA0141600 RUBBER PACKING FNB 80LI Block Diagram
68. 00000000000000000000000000000000 0 rer T ww rou Lor seluw ium 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 THERMISTOR 1 165 105JTH RMC1 16S 473JTH RMC1 16S 223JTH RMC1 16S 223JTH RMC1 2 4R7JCTP RMC1 16S 472JTH RMC1 16S 272 RMC1 16S 472JTH RMC1 16S 473JTH RMC1 16S 473JTH RMC1 16S 104JTH RMC1 16S 104JTH RMC1 16S 104JTH RMC1 16S 100JTH RMC1 16S 104JTH RMC1 16S 104JTH 1 165 222JTH RMC1 16S 223JTH RMC1 16S 473JTH ERTJ1VV473J J24189061 J24189045 J24189041 J24189041 J24275479 J24189033 J24189030 J24189033 J24189045 J24189045 J24189049 J24189049 J24189049 J24189001 J24189049 J24189049 J24189029 J24189041 J24189045 G9090122 CNTL Unit UJ B B B B B B B B B B B B A B B B B B B MIC HOLDER RUBBER RA0405600 REFLECTOR SHEET RA0399900 DOUBLE FACE RA014250A LIGHT GUIDE RA0399100 51 Unit Note 52 0 1 D 0 D 0 0 1 D D 0 D D 0 1 0 0 1 D 0 1 0 0 1 0 D D 0 0 0 0 0 1 0 1 0 0 D 0 0 1 0 1 VCO Unit ircuit Diagram C
69. 01029 7 7 DA221 KRxX202U GUM 155400 15 271 2665257 2SC5227 156400 E BOD 4 21 nonx 80 BOORX TUNE ee LCD COF UNIT i ED CNTL BUFFER AMP BUFFER AMP EMP SENS DIODEMATHIX DIODE SW LIMMITER AMP BF AMP MIXER DIODE SW 4 D1048 51 t4 33010 03020 03020 TH3001 03028 29 5435 D1001 a1003 QI 005 01011 01032 ERTJ4VVA73J UMP 44N 15307 155365 2SC5555 25 5555 2SC5555 158400 03033 _ 4 FRG1312C TUNE LOCA CHG STOP KEY OUT 1 4 KEY IN 1 4 ED CNTL TUNE CNTL 1 Ec ue DIODE SW AMP DIODE SW td 01006 07 01007 D1034 595 amp 277 ee DAN222 25C5555 155400 LED DRIVE gt 4 0 n Ojo W OF mx om LAMP 1 U JE 0 4 2 2 o E 03001 04 D T 0 m H 144 75 SUB HB SUB HB SUB HB P 202 2 5 NN EXT DC ED CNTL D A CONVERT DTMF H DIODE SW LIMMITER MIXER DIODE 5 i CLON IN Y 4 t 01053 54 cHc t 12 TR SW 5135 64002 94004 01012 01035 NJ
70. 01uF 0 01uF 33pF UMK105B102KW F GRM36B103K16PT UMK105CKOR5CW F GRM36B103K16PT GRM36B103K16PT UMK105CK020CW F GRM36B103K16PT GRM36CHO60B50PT GRM36CH070B50PT UMK105CH040CW F UMK105B102KW F UMK105CH150JW F UMK105B102KW F UMK105B102KW F UMK105CK010CW F UMK105CK010CW F GRM36B103K16PT UMK105CH390JW F GRM36B103K16PT UMK105B102KW F UMK105CH390JW F UMK105CH390JW F UMK105CH040CW F UMK105B102KW F GRM36B103K16PT UMK105B102KW F UMK105CH330JW F UMK105CK020CW F UMK105CK010CW F UMK105CH680JW F UMK105B102KW F UMK105CH050CW F GRM36B103K16PT GRM36B103K16PT UMK105CH470JW F UMK105CH100DW F UMK105CH150JW F UMK105B102KW F UMK105B102KW F UMK105CH100DW F UMK105B102KW F UMK105CH100DW F UMK105B102KW F UMK105B102KW F GRM36B103K16PT GRM36B103K16PT UMK105CH330JW F HVC355B TAPE HSC277TRF HSC277TRF 1SV325 TPH3 HSC277TRF HSC277TRF 1SV325 TPH3 1SV325 TPH3 HSC277TRF 155400 TE61 155400 TE61 CB1872001 FR007830D K22178829 K22128804 K22178247 K22128804 K22128804 K22178250 K22128804 K22178293 K22178294 K22178252 K22178829 K22178262 K22178829 K22178829 K22178248 K22178248 K22128804 K22178272 K22128804 K22178829 K22178272 K22178272 K22178252 K22178829 K22128804 K22178829 K22178270 K22178250 K22178248 K22178278 K22178829 K22178253 K22128804 K22128804 K22178274 K22178258 K22178262 K22178829 K22178829 K22178258 K22178829 K22178258 K22178829 K22178829 K22128804 K22128804 K22178270 G2070588 G2070584 G20
71. 04 K22128804 K22178282 K22178825 K22148830 K22128804 K22108801 K22108802 K22178825 K22148802 K22178829 K22108802 K22108802 K22128804 K78140013 K78100031 K22178829 K22178808 K78100028 K22178829 K22108802 K22178829 K22178829 K22108802 K78080026 K22128806 K22128804 K22178833 K22178829 K22128804 K22108801 K22178829 K22178829 K22178829 K22128804 K22178829 K22108801 K22108801 K22178266 K22128804 K22128804 K22178276 K22178258 K22178270 K22128804 K22178258 K22108802 K22108802 K78060047 H3900514 H3900531 H3900531 G2070432 G2070634 G2070178 AF gt gt gt gt gt gt gt gt gt gt gt gt gt gt gt gt gt gt gt gt gt gt gt gt gt gt gt gt Unit rer oesomenow vens or spe uv on 37 Unit mer Tvaue ww ves Lor se uviom DAN222 TL 52070174 HVC355B TAPE G2070588 1 325 22070848 DAN222 TL G2070174 DAN222 TL G2070174 DAN222 TL G2070174 DAN222 TL G2070174 HN2D01FUTE85R G2070348 MC2850 T11 1 G2070704 MC2850 T11 1 G2070704 RB751S 40TE61 G2070850 RD6 8UMB2 T1B G2070438 MC2850 T11 1 52070704 DA221 TL 22070178 DA221 TL 22070178 FB2001 CHIP COIL BLM10A121SPT L1690843 FB2002 CHIP COIL BLM10A121SPT L1690843 2003 CHIP COIL BLM10A121SPT L
72. 08CA 72NG ELJ RF10NJF2 C1608CA 10NG C1608CA 18NG C1608CA 33NG TFL0510 22N TFL0510 22N LK1608 1ROK T FLC32T 471J TFL0510 27N TFL0510 15N LQN21A47NJ04 LK1608 R22K T ELJ RE22NJF2 ELJ RESSNJF2 ELJ RE22NJF2 ELJ RESSNJF2 L1690831 L1690415 L1690810 L1690831 L1691038 L1691093 L1691032 L1690409 L1690525 L1690409 L1691101 L1690406 L1690690 L1690228 L1691031 L1690634 L1690690 L1690808 L1690808 L1691032 L1691032 L1691035 L1691044 L1691044 L1691044 L1691034 L1691039 L1691045 L1691043 L1691106 L1691068 L1691068 L1691106 L1691043 L1691043 L1690831 L1691032 L1691035 L1691038 L1690815 L1690815 L1690687 L1690235 L1690816 L1690813 L1690617 L1690410 L1690718 L1690720 L1690718 L1690720 USA EXPORT EXPORT GERMANY m gt rrrrrrrowrrrrrrrFewwwdwWWwWI gt gt gt gt gt UU UU UU gt gt gt gt 720 rr 00 RE Unit M RFC COIL COIL M RFC COIL COIL M RFC COIL M RFC COIL COIL COIL COIL COIL COIL CHIP COIL COIL COIL COIL COIL COIL COIL M RFC M RFC M RFC M RFC TRANSISTOR TRANSISTOR TRANSISTOR TRANSISTOR TRANSISTOR TRANSISTOR TRANSISTOR TRANSISTOR TRANSISTOR TRANSISTOR TRANSISTOR TRANSISTOR TRANSISTOR TRANSISTOR TRANSISTOR TRANSISTOR TRANSISTOR IC TRANSISTOR TRANSISTOR TRANSISTOR TRANSISTOR TRANSISTOR FET TRANSISTOR TRANSISTOR TRANSISTOR FET TRANSISTOR TRANSISTOR 2 0 0068 5
73. 1016 and applied through diode T R switch D1045 to mixer Q1010 as the first local signal The 47 25 MHz intermediate frequency product of the mixer is delivered to the AF UNIT The TUNE voltage from the CPU on the CNTL UNIT is amplified by DC amplifier Q3017 and applied to var actors D1015 D1017 HVC355B in the variable fre quency band pass filters By changing the electrostatic capacitance of the varactors optimum filter characteris tics are provided for each specific operating frequency 7 47 25 MHz First Intermediate Frequency The 47 25 MHz first intermediate frequency from the first mixers is delivered from the RF UNIT to the AF UNIT through jacks J1008 and J2001 On the AF UNIT the IF for AM and FM narrow signals is passed through NAR WIDE switch D2001 DAP222 and the 47 25 2 monolithic crystal filter XF2001 to narrow IF am plifier Q2002 28C4915 0 for input to pin 16 of the Nar row IF IC Q2016 TA31136FN amplitude limiting by D2003 DA221 Meanwhile a portion of the output of 11 7 MHz crys 8 tal X1001 on the RF UNIT is multiplied fourfold by 02004 25 4915 0 and Q2012 25C4154E to provide the 46 8 second local signal applied to the Narrow IF Within the this signal is mixed with the 47 25 2 first intermediate frequency signal to produce the 450 kHz second intermediate frequency This second IF is filtered by ceramic filter CF2002 45 and
74. 144EE TL 2541774 TLR DTC144EE TL DTC144TE TL RMC1 16S 102JTH 1 165 102JTH RMC1 16S 152 1 165 102JTH 1 165 332JTH RMC1 16S 473JTH 1 165 221JTH RMC1 16S 473JTH 1 165 220JTH 1 165 220JTH 1 165 221JTH RMC1 16S 223JTH 1 165 220JTH RMC1 16S 220JTH 1 165 472JTH RMC1 16S 470JTH 1 165 473JTH 1 165 221JTH 1 165 102JTH 1 165 102JTH RMC1 16S 222JTH RMC1 16S 104JTH 1 165 102JTH 1 165 104JTH RMC1 16S 104JTH 1 165 104JTH RMC1 16S 104JTH RMC1 16S 223JTH 1 165 101JTH 1 165 104JTH 1 165 103JTH 1 165 101JTH 1 165 104JTH 1 165 220JTH RMC1 16S 220JTH 1 165 104JTH RMC1 16S 104JTH 1 165 334JTH 1 165 104JTH 53070075 53070075 G3117748R G3070278 G3117748R G3070278 G3070290 G3070278 G3070075 G3070223 G3070078 G3070278 G3117748R G3070292 G3070290 G3070290 G3070278 G3070075 G3117748R G3070075 G3070280 J24189025 J24189025 J24189027 J24189025 J24189031 J24189045 J24189017 J24189045 J24189005 J24189005 J24189017 J24189041 J24189005 J24189005 J24189033 J24189009 J24189045 J24189017 J24189025 J24189025 J24189029 J24189049 J24189025 J24189049 J24189049 J24189049 J24189049 J24189041 J24189013 J24189049 J24189037 J24189013 J24189049 J24189005 J24189005 J24189049 J24189049 J24189055 J24189049 RF Unit mer T vue
75. 1690843 FB2004 CHIP COIL BLM10A121SPT L1690843 2005 CHIP COIL BLM10A121SPT L1690843 FB2006 CHIP COIL BLM10A121SPT L1690843 awe ie J 2002 CONNECTOR KP 269 P1091150 LK1608 R39K T 1 1690413 1608 R15K T 1 1690409 LK1608 R47K T L1690414 LK1608 1ROK T L1690687 LK1608 R22K T L1690410 C1608CA R33G L1691106 LK1608 4R7K T L1690688 LK1608 1ROK T L1690687 HK1608 82NJ T L1690527 C1608CA 18NG L1691035 LK1608 4R7K T L1690688 C1608CA 82NG L1691044 LK1608 R10K T L1690407 LK1608 R47K T L1690414 KQ1008TE100G L1691216 LK1608 R33K T L1690412 LK1608 R33K T L1690412 LK1608 R33K T L1690412 LK1608 R22K T L1690410 TRANSISTOR DTC144EE TL G3070075 TRANSISTOR 25C4915 O TE85L 133491580 TRANSISTOR 25C4154 T11 1E G3341548E TRANSISTOR 25C4915 O TE85L 133491580 TRANSISTOR DTC144EE TL G3070075 TRANSISTOR 25C4915 O TE85L 133491580 MB15A01PFV1 G BND EF 01092545 TRANSISTOR DTA144EE TL 53070074 TRANSISTOR 2541774 TLR G3117748R TRANSISTOR 25C4915 O TE85L 133491580 TRANSISTOR 25C4915 O TE85L 133491580 TRANSISTOR 25C4154 T11 1E G3341548E TRANSISTOR 25C4915 O TE85L 133491580 TRANSISTOR 25 1774 TLR G3117748R TRANSISTOR DTC144EE TL G3070075 IC TA31136FN EL G1091605 TRANSISTOR 25C5374 TL 13353748 TRANSISTOR 25C5374 TL 13353748 TRANSISTOR TRANSISTOR TRANSISTOR TRANSISTOR TRANSISTOR TRANSISTOR TRANSISTOR TRANSISTOR TRANSISTOR TRANSISTOR FET TRANSISTOR TRANSISTOR T
76. 19 Base 2 Collector 1 Emitter 2 22k 22k EIE Li Emitter 1 Collector 2 Base 1 KRX202U RTK Q1015 Draint 94192 2 4 Source 4 Drain2 HN1JO2FU KS Q1031 HH SENEN a i rc E L S e Emitter Common Base 1 2 Collector 1 Collector 2 UMW1 W1 Q1044 Collector Base Emitter DTC143ZE E23 Q1025 Collector Base Emitter 144 26 Q1001 1026 1029 1030 1034 1035 1042 1051 1053 Collector En Base Emitter 2541774 FR Q1033 1036 1038 1046 1052 Collector ES Base Emitter 2SC4154E LE Q1032 Q1014 1024 25 5277 02 Q1002 1010 25 5374 Q1016 1017 1018 25 4915 QY Q1008 1009 1013 1020 2SC5555ZD ZD Q1003 1004 1005 1006 1007 1011 1012 no Emitter Common 2 1 y Gate Drain L Source Collector 2 Collector 1 25 3475 KRC654U RTK Q1023 Q1040 1048 1049 Source Base 2 Collector 1 Emitter 2 LI LI Emitter 1 4 Collector 2 Base 1 Source 2SK3476 KRA755U RTK Q1027 Q1047 2 Collector ra LI LJ Emitter 1 Collector 2 1 Base Emitter KRA760U RTK Q1028 1037 1039 1041 1045 1050 DT
77. 2112 CHIP RES 5 RMC1 16S 153JTH 424189039 2113 CHIP RES 5 RMC1 16S 101JTH 424189013 2114 CHIP RES 5 1 165 334JTH 424189055 2115 CHIP RES 5 1 165 681JTH 424189023 2116 CHIP RES 5 RMC1 16S 332JTH 424189031 2117 CHIP RES 5 RMC1 16S 334JTH 424189055 R 2118 CHIP RES 5 1 165 332JTH 424189031 2119 CHIP RES 5 RMC1 16S 332JTH 24189031 R 2120 CHIP RES 5 RMC1 16S 102JTH 424189025 2121 CHIP RES 5 RMC1 16S 103JTH 424189037 2122 CHIP RES 5 RMC1 16S 100JTH J24189001 R 2123 CHIP RES 5 RMC1 16S 154JTH J24189051 R 2124 CHIP RES 5 RMC1 16S 225JTH 424189065 2125 CHIP RES 5 RMC1 16S 222JTH J24189029 R 2126 CHIP RES 5 1 165 103JTH 424189037 2127 CHIP RES 5 RMC1 16S 472JTH J24189033 R 2128 CHIP RES 5 RMC1 16S 103JTH 424189037 R 2129 CHIP RES 5 RMC1 16S 103JTH 424189037 R 2130 CHIP RES 5 RMC1 16S 104JTH 424189049 2131 CHIP RES 5 1 165 334JTH 424189055 2132 CHIP RES 5 1 165 334JTH 424189055 2133 CHIP RES 5 1 165 103JTH 424189037 R 2134 CHIP RES 5 RMC1 16S 103JTH 424189037 R 2135 CHIP RES 5 1 165 105JTH 424189061 2136 CHIP RES 5 1 165 104JTH J24189049 R 2137 CHIP RES 5 1 165 102JTH 424189025 2138 CHIP RES 5 RMC1 16S 102JTH J24189025 R 2139 CHIP RES 5 RMC1 16S 102JTH J24189025 R 2140 CHIP RES 5 1 165 101JTH 424189013 R 2142 CHIP RES 5 1 16
78. 24189037 J24189030 J24189013 J24189013 J24189031 J24189009 J24189015 J24189013 J24189013 J24189037 J24189027 J24189017 J24189037 J24189055 J24189037 J24189033 J24189031 J24189039 J24189055 J24189013 J24189037 J24189023 J24189070 J24189031 J24189058 J24189037 J24189021 J24189037 J24189037 J24189037 J24189055 J24189037 J24189055 J24189033 J24189031 J24189025 J24189053 J24189033 J24189061 J24189049 J24189025 J24189025 J24189013 J24189053 J24189049 J24189046 J24189021 J24189037 J24189025 J24189037 gt gt UUUUUUUUUUUUUUUUI255uUU UUJUUUUU 2 2 0000002 22 2 gt gt gt gt gt gt gt gt gt gt gt gt gt gt gt gt m Unit 1 2 R 2097 CHIP RES 5 RMC1 16S 334JTH 424189055 2098 CHIP RES 5 1 165 104JTH 424189049 2099 CHIP RES 5 1 165 221JTH 424189017 R 2100 CHIP RES 5 RMC1 16S 334JTH 424189055 2101 CHIP RES 5 RMC1 16S 223JTH 424189041 2102 CHIP RES 5 RMC1 16S 474JTH J24189057 R 2103 CHIP RES 5 1 165 272 424189030 2104 CHIP RES 5 1 165 470JTH 424189009 2105 CHIP RES 5 RMC1 16S 103JTH J24189037 R 2106 CHIP RES 5 1 165 333JTH J24189043 2107 CHIP RES 5 1 165 334JTH 424189055 R 2108 CHIP RES 5 RMC1 16S 334JTH 424189055 2109 CHIP RES 5 RMC1 16S 152JTH J24189027 R 2110 CHIP RES 5 RMC1 16S 472JTH J24189033 2111 CHIP RES 5 RMC1 16S 103JTH 424189037
79. 3 J24189057 J24189057 J24189057 J24189055 J24189055 J24189055 J24189055 J24189057 J24189057 J24189057 J24189055 J24189055 J24189037 J24189056 J24189056 J24189037 J24189047 J24189045 J24189056 J24189037 J24189037 J24189045 J24189045 J24189052 J24189054 J24189054 J24189034 J24189049 J24189043 J24189037 J24189013 J24189013 J24189013 J24189055 J24189055 J24189057 J24189054 J24189056 J24189057 J24189053 J24189054 UJ uU uuuuuuuuuuuuuuuuuuuuuuuuuuuuuuuuuuuuuuuuuuuuuuuuuuuuuuuuuistUy Unit ECSNETSU NETT 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 RMC1 16S 473JTH RMC1 16S 104JTH RR0510R 104 D RMC1 16S 334JTH RMC1 16S 105JTH 1 165 103JTH RMC1 16S 394JTH 1 165 103JTH RMC1 16S 124JTH 1 165 562JTH RMC1 16S 472JTH RMC1 16S 222JTH RMC1 16S 472JTH RMC1 16S 334JTH RMC1 16S 334JTH
80. 3121 ness 2758 0 0 cep 1 48V 3104 ol C3100 7 2 9V 1 22 1 22 067 aM T 5 voo 0V OV 29V 0V Lt e TK t 901 P c3108 iO 2 1 5V P al m 63103 mo 1 16 4 i C3078 77 98 Cada pads 6 s T a gt 98 M TN C3105 1 ib F S OT CONT Ox Go om 1 puis OTS 77 v4 2 92 SP 55000196 t N 3125 vis 4 4 o p 15 77 QV 1 10V p 30554 mS 5 et det 1 5 88 77 77 J 9 738 AS I a3 T 5 Vs NE 9 Ti 99 14 dol 3 0V C3127 T ao 13 3V i 6 004 55000196 13 0V x ee ee cM KE NEP ERIE 69 019 POW OFF 0 74V Oz uN 0 lt gt gt gt 2 9V OV CHG 1 4V 5531 6 GBH OKO GRRE 5 5 95 taaa 5 Tle 56 POW OFF 2 9V __ 0 OV M B Edid JACK E 200 go m Hue Up iso 76 222M MAIN 430M 800M MAIN OV OV cry Sate COMP 0V EXT DC IN 13 8V 0V 2
81. 332JTH RMC1 16S 222JTH RMC1 16S 104JTH RMC1 16S 101JTH G3353748 G3117748R G3117748R G3341548E G3341548E G3117748R G3117748R G3117748R G3070075 G3070075 G3703648R G3341548E G3353748 G3341548E G3070223 G3070074 G3070075 G3703648R G1091605 G33491580 G3070102 1091112 G3341548E G3703648R G3703648R G3341548E G3341548E G3070075 G3703648R G1093527 G3117748R J24189021 J24189021 J24189049 J24189025 J24189037 J24189049 J24189021 J24189049 J24189013 J24189051 J24189013 J24189033 J24189025 J24189025 J24189025 J24189037 J24189013 J24189057 J24189043 J24189019 J24189025 J24189013 J24189037 J24189027 J24189028 J24189031 J24189029 J24189049 J24189013 AF Unit rer oescmerow T vue vw wrsvese TwemewI vens gt gt gt gt gt gt gt gt gt gt gt gt gt gt gt gt gt gt gt gt gt gt gt gt gt gt gt gt gt gt gt gt Unit rer oescmerow T vue soen vens or e 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 CHI
82. 5 2 183V 1 69 255 tov F 0 58V 0V mE HAS 5 2 2 GHEE FT A3086 P li 11 1V min 0 01V min 0 46 min 01 83128 D3020 HM RV 4 5 03001 aac a3004 2 ME C3048 2515 40 EXT DC 1 CPH8202 CPH 202 CPH6202 H304B gt 1 17V max 270K 0 5 155400 5 5 Q 4 470 0 47 min 03020 1 10 n Y 4 d gt i A30 gt moi Be NUM12902V 2 Dec T m 4 3V seus D3026 17004 7 L 9 L H 3 n mom TS 0 BE Omm Um 155400 i 5 z 054 10 9 155400 OT mg n 5 4 MEET YAN 1 74V por gre 2 57V DAS21 caos 333 53 2 0 01V min 0 in 0 07 d n 9 25 5 5 0 1 3170 155400 S DFO 10 a ax 4 4 1 Q S i 77 0 46V min 70 80V min 65 929694 E xd ga e 59 3 0V 1 28 5 Qo J 0 01 7 ANC Vmin 0 1 28V 5 8 2 FOR 53695 IP3011 TV 0 01 min 0 01 48V a 03027 2 MI 1 14V max 1 15V max _ 1890 A3055 83090 Sot gt xis p300 3
83. 5 102JTH 424189025 2143 CHIP RES 5 RMC1 16S 472JTH J24189033 R 2144 CHIP RES 5 RMC1 16S 102JTH 424189025 2145 CHIP RES 5 RMC1 16S 103JTH 424189037 2146 CHIP RES 5 1 165 103JTH 24189037 2147 5 5 1 165 103JTH 24189037 SWITCH SKQTLA N5090110 1 5 2002 TACT SWITCH SKQTLA N5090110 1 S 2003 ROTARY ENCODER TP70D270E20 20F A203 Q9000789A 1 2002 XTAL FILTER 46 35MHz MF46R5 46 35MHZ H1102348 1 _ __ _ 000 4 h Unit Note 42 Circuit Diagram 1 15V max 0V min CNTL Unit
84. 55000196 53070265 53070265 53070265 53070265 21091677 11093592 0587 1 5 m D I N Unit TRANSISTOR TRANSISTOR TRANSISTOR IC TRANSISTOR IC TRANSISTOR TRANSISTOR TRANSISTOR TRANSISTOR TRANSISTOR TRANSISTOR TRANSISTOR TRANSISTOR TRANSISTOR TRANSISTOR TRANSISTOR IC 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 DTC144EE TL DTA144EE TL 25 4154 11 1 NJM12902V TE1 DTC144EE TL M62364FP 600D DTC144EE TL DTC144EE TL DTC144EE TL 2SJ364 R TX NJU7007F2 TE1 NJM3403AV TE1 DTC144EE TL NJM12902V TE1 2SJ364 R TX 2SJ364 R TX 25 4154 11 1 TAR5S30 TE85L NJU7231F30 TE1 S 80830CNMC B8P T2 S 80830CNMC B8P T2 RH5RH651A T1 KRX202U RTK NJM2904V TE1 24 128 106 2 7 HD6472237TF10 0663 DTC144EE TL DTC143ZE TL 28C5374 TL CPH6102 TL 25018015 UMW1 TR DTC124EE TL 28 4154 11 1 S 35L12AEFS TB 1 165 4R7JTH 1 165 4R7JTH RMC1 4 470JATP RMC1 16S 102JTH RMC1 16S 222JTH RMC1 16S JPTH 1 165 100JTH RMC1 16S 100JTH 1 165 100JTH RMC1 16S 100JTH RMC1 16S 100JTH 1 165 100JTH RMC1 16S 221JTH RMC1 4 470JATP RMC1 16S 102JTH RMC1 4 120JATP RMC1 4 4
85. 6 108 MHz FM EXP version 108 137 MHz Air Band 137 174 MHz 144 MHz HAM 174 222 MHz VHF TV 222 225 MHz 220 MHz HAM USA version 225 420 MHz ACTI Action Band 1 USA version 222 420 MHz ACTI Action Band 1 EXP version 420 470 MHz 430 MHz HAM 470 729 MHz UHF TV USA version 470 800 MHz UHF TV EXP version 800 999 MHz ACT2 Action Band 2 cellular Blocked Rx SUB 50 54 137 174 MHz 420 470 MHz Tx 50 54 MHz MAIN amp SUB 144 146 MHz or 144 148 MHz MAIN amp SUB 222 225 MHz MAIN USA version 430 440 MHz or 430 450 MHz MAIN amp SUB 5 9 10 12 5 15 20 25 50 100 kHz 5 ppm 14 F to 122 F 10 C to 50 C F2 F3 A3 50 ohm Nominal 7 4 V DC Negative Ground Operating 10 16 V DC Negative Ground EXT DC jack 150 mA Mono Band Receive 200 mA Dual Band Receive 55 mA Mono Band Receive Standby Saver Off 100 mA Dual Band Receive Standby Saver Off 25 mA Mono Band Receive Standby Saver On Save Ratio 1 5 50 mA Dual Band Receive Standby Saver On Save Ratio 1 5 400 uA Auto Power Off 1 6 1 3 1 0 0 7 50 MHz Tx HI IEA L2 L 1 1 71 4 1 1 0 8 A 144 MHz Tx 3124 1 0 6 220 MHz Tx 1 8 1 5 1 2 0 9 430 MHz Tx HUL3 L2 L1 4 F to 140 F 20 C to 60 60 W x 90 H x 28 D mm w o knob amp antenna 250 g Transmitter RF Power Output Modulation Type Maximum Deviation Spurious Emission Microphone Impedance Receiver Circuit
86. 68E G3070102 G3070075 G3834768 G3070278 G3070075 G3070075 G3070221 G3341548E G3117748R rer esonprion vau vers ror spe uv son gt gt gt gt gt gt gt gt gt gt gt gt meeen gt gt gt U 0 gt gt gt gt gt gt gt 000002 2 2 UU 22 2 002 002 gt TRANSISTOR TRANSISTOR TRANSISTOR TRANSISTOR TRANSISTOR 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 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 5 5 5 5 5 5 5 5 5 5 5 5 5 5 5 5 5 5 5 5 5 5 5 5 5 5 5 5 5 5 5 5 5 5 5 5 5 5 5 DTC144EE TL DTC144EE TL 2541774 TLR KRA760U RTK 25 1774 TLR KRA760U RTK KRC654U RTK KRA760U RTK DTC144EE TL CPH6102 TL UMW1 TR KRA760U RTK 25 1774 TLR KRA755U RTK KRC654U RTK KRC654U RTK KRA760U RTK DTC
87. 70584 G2070848 G2070584 G2070584 G2070848 G2070848 G2070584 G2070634 G2070634 1 55 VCO Unit NE LINER OS MON 155400 TE61 15 325 D 4012 DIODE D 4013 DIODE D 4014 DIODE D 4015 DIODE HSC277TRF 1SV325 TPH3 G2070634 G2070848 G2070584 G2070848 J 4001 CONNECTOR AXK5F10335P P1091136 1 J 4002 CONNECTOR AXK5F10335P P1091136 1 L 4002 M RFC L 4003 M RFC L 4004 M RFC L 4005 L 4006 M RFC L 4007 M RFC L 4008 M RFC L 4009 M RFC L 4010 M RFC L 4012 M RFC L 4013 M RFC L 4014 M RFC L 4015 Q 4001 TRANSISTOR Q 4002 TRANSISTOR Q 4003 TRANSISTOR Q 4004 TRANSISTOR Q 4005 TRANSISTOR Q 4006 TRANSISTOR Q 4007 TRANSISTOR R 4001 CHIP RES R 4002 CHIP RES R 4003 CHIP RES R 4004 CHIP RES R 4005 CHIP RES R 4006 CHIP RES R 4007 CHIP RES R 4008 CHIP RES R 4009 CHIP RES R 4010 CHIP RES R 4011 CHIP RES R 4012 CHIP RES 4013 CHIP RES R 4014 CHIP RES R 4015 CHIP RES R 4016 CHIP RES R 4017 CHIP RES R 4018 CHIP RES R 4019 CHIP RES R 4020 CHIP RES R 4021 CHIP RES R 4022 CHIP RES 4023 CHIP
88. 70JATP RMC1 16S 102JTH RMC1 16S 564JTH RMC1 16S 103JTH RMC1 16S 153JTH RMC1 16S 681JTH RMC1 16S 154JTH RMC1 16S 822JTH RMC1 16S 473JTH 53070075 53070074 G3341548E G1093592 G3070075 G1093033 G3070075 G3070075 G3070075 G3703648R G1093617 G1092215 G3070075 G1093592 G3703648R G3703648R G3341548E G1093570 G1093512 G1093618 G1093618 G1092598 G3070277 G1091677 G1093516 G1093748 G3070075 G3070102 G3353748 G3070223 534180185 53070078 53070109 G3341548E G1093558 424189066 424189066 424245470 424189025 424189029 424189070 424189001 424189001 424189001 424189001 424189001 424189001 424189017 424245470 424189025 424245120 424245470 424189025 424189058 424189037 424189039 424189023 424189051 424189036 424189045 USA UJ B B B B B B B B B B B B B B B B B B B B B B B B B B A B B B B B B B A A A A B B A A A A A A A A A A A A B B B B B B B CNTL Unit rer oesomenow vae ww vens ror spe avon 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 CH
89. 804 22178236 22178236 22128804 22128804 22128804 22178829 22105001 48120019 22128804 22178829 K78080055 K22178829 K78060023 K22178829 K22128804 K22128804 K48120018 K22178829 K22178829 K78100047 K 78100028 K22178829 K22178829 K22128804 K22178829 K22178829 K22178282 K22178282 K22178282 K78060047 K22178829 K22178829 K22178829 K22178216 K22178253 K22178250 22108801 22108802 22178236 22178216 22128804 22108801 22178829 K78060023 K22178829 K22178829 K22105001 22105001 22105001 22105001 22105001 22105001 22105001 mer T ww rou news xsroen UJ UUUUUUUUUUUUUGUuuuuuuuuuuuuuuuuuuuuuuuuuuuuuuuuuuuuuuuuuuuuuuuuuuuuuuuuuuuu Uu CNTL Unit mer nesomemoN T ww rou wwsoeso Lor smeluw iom CHIP CAP GRMS39F105Z10PT 22105001 0 001uF UMK105B102KW F K22178829 B CHIP CAP 0 001uF B UMK105B102KW F K22178829 B CHIP TA CAP 33uF TEMSVA0G336M 8R K78060036 B CHIP CAP 0 01uF B GRM36B103K16PT K22128804 B CHIP CAP 0 001uF B UMK105B102KW F K22178829 B CHIP CAP 0 001uF B UMK105B102KW F K22178829 B CHIP CAP 0 001uF B UMK105B102KW F K22178829 B CHIP TA CAP 33uF TEMSVA0G336M 8R K78060036 B CHIP TA CAP 33uF TEMSVA0G336M 8R K78060036 B CHIP TA CAP 22uF TESVSP0G226M 8R K78060047 A CHIP TA CAP 4 7uF TESVSP0J475M 8R K78080053 CHIP CAP
90. C ss DN MCN 114 10 45K AW 390K 390K 7 0V 3 0V i 2 ia eu PES mE 0 557 sul alo 09V E 2 94V 30 9 5 Ql 001 8 Ad 510 4 917 1 08V PTa ane 1 gt 2 940 2 95V AW 2 94V t 790 5 1 473 n 19 88 5 2 294V 2951 33 2 29 63 68 62 60 62 62 63 62 62 60 C2 60 62 68 C2 62 63 62 5 T 77 me TS 1 23 1 7 83131 aAa gI UESN 7G TONE DCS E 1 23 rs 4 7 5 T gg 0590900 69 47K 1 23V 1 23V 77 3 77 g 49 H gt S RN RS 15 MT 5 30V SUB NOISE 8 5 3 0V 0 68V QV SUB PSST IN T 0V 6 43V EVA 0V 68V OV E MONI a V 48 aot ul 30v t 77 pH 3 0V MIC MUTE mue 1 78V 1 78V BAROMETER C EU E 826528 KAX202U p S 9 t I ITA 3029 PICK 9 DTMF 44 g i 2 aon CTCSS DCS OUT 4 rid 5 R3152 H Es D A CLOCK GND 4 2 AN D A STB T 4 4 i 3 0V 3 0V WX UR DATA IN D baa i EX D A RESET TONE DUS DATA IN 0 T J3002 ax R3069 C3025 AZ 162 m P1051027 Quz ao AA T M 7 RTC 0V PO Sw DTA G9
91. C144EE AM G2003 DTC144E a NF 1001 1001 NUM12902V HNA1JO2FU BUFFER AM i LEVM4S0F K 25C4154 NFM451P13C204F 1 PTT SW FUNK SW 02006 DTC144EE F200 r4 2804915 2541774 2 2 52004 S2002 WT SUB RX RF AGC MUNI F 1 WIDE 46 c TR SW BUFFER DISC SUB MUTE SW 94049 HEN S 1 2541774 Beets 46 8MHZ 3 5 EXP STB SHIFT REJISTER F MUTE 1 AF CN 7 2V 82048 i 6 a 35MHZ CLOCK BU4DSABCFV SUB LB SUB MB 1 DIODE SW SUB HB IF AMP LIMMITER IF IC 4 EXT DC JACK SUB MB xF2aa2 DE EMPHASIS 02011 SUB LB Q2031 Q2038 020 16 02037 zs gt TE HN2D01 FU 2565374 2504915 MC2850 TA31136FN 4 L gt Px LINE TX LINE i SUB HB TR SW SUB VCO PLL IC UL NDISE NOTSE PUB NOISE 4 SUB MB 92047 18 48 92008 D2002 gt CNIL LINE G2024 25 26 02005 DTA144EE 200 G2044 02017 48 P H SUB LB 2541602 5505374 15 325 222 158400 2504154 MC2850 i Fog 11 REG3V 6 PLL DATA Interconnection Diagram MC3001 SP300 1 J3002 J500 1 caw SN3S LINN aep 18538 ZIM
92. C144TE TL Q1054 Ne v 2 gre 3 88092 Anode 2 1 Anode3 Cathode 1 Cathode Cathode 2 HN2D01FU A1 D1045 1046 Cathode 1 Anode 2 Anode 1 Cathode 2 155362 C3 D1001 1002 1003 E NC 5 EES BE 2 Er 3 7 cee 3 EE Cathode 1 2 Anode 1 Anode2 155321 F9 D1047 DAN222 D1006 1007 1008 1009 1010 1011 1012 1027 1028 1041 1043 1044 1063 155385 09 D1050 Parts List PCB with Components with VCO Unit PCB with Components with VCO Unit USA EXPORT GERMANY RE Unit CB7372002 CB7372003 CB7372004 PCB with Components with VCO Unit 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 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 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 2pF 2pF 22pF 0 001uF 100pF 56pF 0 001uF 0 001uF 0 1uF 0 01uF 0 1uF 0 001uF 6pF 0 001u
93. 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 CAP CHIP CAP CHIP CAP CHIP CAP CHIP CAP CHIP CAP CHIP CAP CHIP CAP CHIP CAP CHIP CAP CHIP CAP CHIP CAP gt gt gt gt gt gt gt gt gt gt gt gt gt gt gt 0 0 0 000000000000000000000000000000002 2020 gt gt gt gt gt 56pF 0 001uF 6pF 2pF 0 001uF 0 001uF 0 1uF 0 01uF 0 1uF 0 01uF 10pF 0 01uF 0 01uF 0 001uF 0 001uF 0 001uF 22pF 0 001uF 0 001uF 0 001uF 1uF 0 01uF 220pF 0 01uF 22pF 0 001uF 47pF 0 001uF 0 001uF 0 1uF 0 01uF 47pF 0 001uF 22uF 0 1uF 0 01uF 47pF 10pF 0 001uF 1 5uF 33pF 15pF 0 001uF 0 01uF 47pF 0 001uF 0 001uF 0 001uF 0 01uF 0 01uF 0 1uF 12pF 12pF 0 1uF 0 1uF 0 001uF 0 01uF 0 033uF 0 001uF UMK105CH560JW F UMK105B102KW F UMK105CH060DW F UMK105CK020CW F UMK105B102KW F UMK105B102KW F GRM36B104K10PT GRM36B103K16PT GRM36B104K10PT GRM36B103K16PT UMK105CH100DW F GRM36B103K16PT GRM36B103K16PT UMK105B102KW F UMK105B102KW F UMK105B102KW F UMK105CH220JW F UMK105B102KW F UMK105B102KW F UMK105B102KW F GRMS39F105Z10PT GRM36B103K16PT UMK105B221KW F GRM36B103K16PT UMK105CH220JW F UMK105B102KW F UMK105CH470JW F UM
94. D 144 Loop FIL 1 NARROW 4 01045 48 1 B3 42002 KHA760U 04012 04004 04004 05 13 41 TR SW TH SW m DIODE SW IF IC MUTE SW AF MUTE SW 2044 4 540 E31 155400 7 1 02016 DE EMPHASIS SC415 52003 a 4 02001 02004 TA31136FN 02035 pesessme 144 OTC144EE DAN222 284364 251354 10 i E TR SW DIODE SW VCO MOI 0 LOOP FIL 1 SFECV10 7 zz AF MUTE 01037 40 gt AUDIO AMP KRA760U D40 10 04002 D4001 tod BUFFER AMP 10 7MHZ MIXER NDISE NOISE DET 540 eet 158400 C3HO7B HVC355B CF2D04 92040 E 92010 02011 D2012 43 TDA7233D AE 2804915 2554915 29 25 4154 MC2B50 m E WIDE 35 1MHZ WIDE 0 6 EN i m 01014 zt l H MULTIPLIER AS DIODE SW AM DET DISC 02032 33 34 35 39 zi 2ndLOCAL G2004 12 PR HIDE G2023 30 CPH6 102 2504154 DTC143ZE m 2504915 Gade EISE 02007 10 D2014 DISC CNT DTC 144EE OTA144EE ENC 2804154 DAN222 SC4154 RB7548 AS 52003 TR SW FILTER FILTE AM lt 04026 34 251354 REB3 CNTL 4 01022 DT
95. F 3pF 0 001uF 33pF 100pF 0 001uF 0 001uF 4pF 22pF 33pF 0 001uF 0 001uF 68pF 0 01uF 0 001uF 0 001uF 0 001uF 0 1uF 56pF 220pF 68pF 0 01uF 0 01uF 0 01uF 0 001uF 0 01uF 0 001uF 22pF 22pF 0 1uF 0 1uF 0 01uF 0 001uF 0 001uF 0 001uF 22pF 1pF 0 001uF 22pF 1pF 2pF 33pF UMK105CK020CW F UMK105CK020CW F UMK105CH220JW F UMK105B102KW F UMK105CH101JW F UMK105CH560JW F UMK105B102KW F UMK105B102KW F GRM36B104K10PT GRM36B103K16PT GRM36B104K10PT UMK105CJ030CW F UMK105B102KW F UMK105CH060DW F UMK105B102KW F UMK105CJ030CW F UMK105B102KW F UMK105CH330JW F UMK105CH101JW F UMK105B102KW F UMK105B102KW F UMK105CH040CW F UMK105CH220JW F UMK105CH330JW F UMK105B102KW F UMK105B102KW F UMK105CH680JW F GRM36B103K16PT UMK105B102KW F UMK105B102KW F UMK105B102KW F GRM36B104K10PT UMK105CH560JW F GRM36CH221J25PT UMK105CH680JW F GRM36B103K16PT GRM36B103K16PT GRM36B103K16PT UMK105B102KW F GRM36B103K16PT UMK105B102KW F UMK105CH220JW F UMK105CH220JW F GRM36B104K10PT GRM36B104K10PT GRM36B103K16PT UMK105B102KW F UMK105B102KW F UMK105B102KW F UMK105CH220JW F UMK105CK010CW F UMK105B102KW F UMK105CH220JW F UMK105CK010CW F UMK105CK020CW F UMK105CH330JW F FR008200C K22178250 K22178250 K22178266 K22178829 K22178282 K22178276 K22178829 K22178829 22108802 K22128804 22108802 K22178251 K22178829 K22178254 K22178829 K22178251 K22178829 K22178270 K22178282 K22178829 K22178829 K22178252 K22178266 K22178270
96. F 820pF 4 7uF 0 01uF 0 01uF 100pF 470pF 0 0047uF 0 01uF 0 047uF 0 1uF 470pF 0 0056uF 0 001uF 0 1UF 0 1uF 0 01uF 1UF 100uF 0 001uF 820pF 10uF 0 001uF 0 1uF 0 001uF 0 001uF 0 1uF 4 7UF 0 022uF 0 01uF 0 0022uF 0 001uF 0 01uF 0 047uF 0 001uF 0 001uF 0 001uF 0 01uF 0 001uF 0 047uF 0 047uF 22pF 0 01uF 0 01uF 56pF 10pF 33pF 0 01uF 10pF 0 1uF 0 1uF 22uF 20000000000 0 UJ UJ UJ UJ UJ UJ JOE UMK105B102KW F GRM36B821K50PT TEMSVA20J475M 8R GRM36B103K16PT GRM36B103K16PT UMK105CH101JW F UMK105B471KW F GRM36B472K25PT GRM36B103K16PT GRM36B473K10PT GRM36B104K10PT UMK105B471KW F GRM36B562K50PT UMK105B102KW F GRM36B104K10PT GRM36B104K10PT GRM36B103K16PT TEMSVA1E105M 8R TEMSVD1A107M12R UMK105B102KW F GRM36B821K50PT TEMSVA1A106M 8R UMK105B102KW F GRM36B104K10PT UMK105B102KW F UMK105B102KW F GRM36B104K10PT TMCMAO0J475MTR GRM36B223K16PT GRM36B103K16PT UMK105B222KW F UMK105B102KW F GRM36B103K16PT GRM36B473K10PT UMK105B102KW F UMK105B102KW F UMK105B102KW F GRM36B103K16PT UMK105B102KW F GRM36B473K10PT GRM36B473K10PT UMK105CH220JW F GRM36B103K16PT GRM36B103K16PT UMK105CH560JW F UMK105CH100DW F UMK105CH330JW F GRM36B103K16PT UMK105CH100DW F GRM36B104K10PT GRM36B104K10PT TESVSP0G226M 8R SFECV10 7MS2 A TC ALFYM450F K ALFYM450F K DAP222 TL 155400 TE61 DA221 TL K22178829 K22178808 K78080031 K221288
97. IP 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 1 165 473JTH 1 165 683JTH 1 165 333JTH 1 165 473JTH 1 165 103JTH 1 165 562JTH 1 165 223JTH RMC1 16S 473JTH RMC1 16S 394JTH 1 165 222JTH 1 165 471JTH RMC1 16S 474JTH RMC1 16S 474JTH RMC1 16S 334JTH RMC1 16S 334JTH RMC1 16S 101JTH RMC1 16S 101JTH RMC1 16S 101JTH RMC1 16S 101JTH RMC1 16S 474JTH RMC1 16S 474JTH RMC1 16S 474JTH RMC1 16S 334JTH RMC1 16S 334JTH RMC1 16S 334JTH RMC1 16S 334JTH RMC1 16S 474JTH RMC1 16S 474JTH RMC1 16S 474JTH RMC1 16S 334JTH RMC1 16S 334JTH RMC1 16S 103JTH RMC1 16S 394JTH RMC1 16S 394JTH RMC1 16S 103JTH RMC1 16S 683JTH RMC1 16S 473JTH RMC1 16S 394JTH RMC1 16S 103JTH RMC1 16S 103JTH RMC1 16S 473JTH RMC1 16S 473JTH RMC1 16S 184JTH RMC1 16S 274JTH RMC1 16S 274JTH RMC1 16S 562JTH RMC1 16S 104JTH RMC1 16S 333JTH RMC1 16S 103JTH RMC1 16S 101JTH RMC1 16S 101JTH RMC1 16S 101JTH RMC1 16S 334JTH RMC1 16S 334JTH RMC1 16S 474JTH RMC1 16S 274JTH RMC1 16S 394JTH RMC1 16S 474JTH RMC1 16S 224 RMC1 16S 274JTH J24189045 J24189047 J24189043 J24189045 J24189037 J24189034 J24189041 J24189045 J24189056 J24189029 J24189021 J24189057 J24189057 J24189055 J24189055 J24189013 J24189013 J24189013 J2418901
98. K105B102KW F GRM36B103K16PT GRM36CH181J25PT UMK105CJ030CW F GRM36B103K16PT UMK105B102KW F UMK105CH101JW F GRM36B103K16PT GRMS39F105Z10PT UMK105B102KW F UMK105CH100DW F TESVSP0G225M 8R TMCSA1C105MTR UMK105B102KW F UMK105B102KW F GRM36B103K16PT UMK105CH150JW F UMK105CH120JW F UMK105B102KW F GRM36B103K16PT GRM36B103K16PT GRM36B103K16PT UMK105B102KW F TESVA1V104M1 8R UMK105B102KW F UMK105CH121JW F GRM36B103K16PT UMK105CH220JW F GRM36B103K16PT GRM36CHO60B50PT TESVA1V104M1 8R GRM36B472K25PT UMK105CH560JW F UMK105CH270JW F GRM36B103K16PT TEMSVC1A476M12R GRM36B473K10PT GRM36B103K16PT GRM36B103K16PT GRM36B103K16PT GRM36B103K16PT GRM36B103K16PT GRMS36CH090B50PT UMK105CK020CW F UMK105B102KW F UMK105B102KW F GRMS36CH070B50PT UMK105CH470JW F UMK105CH220JW F UMK105CK020CW F CB1870001 FR008210C K22178270 K22128804 K22140824 K22178278 K22128804 K22128804 K22128804 K22178829 22128804 22148201 22178251 22128804 22178829 22178282 22128804 22105001 22178829 22178258 K78060025 K78120023 K22178829 K22178829 K22128804 K22178262 K22178260 K22178829 K22128804 K22128804 22128804 K22178829 K78160025 K22178829 K22178284 K22128804 K22178266 K22128804 K22178293 K78160025 K22148830 K22178276 K22178268 22128804 78100024 22108801 22128804 22128804 22128804 22128804 22128804 22178296 22178250 22178829 22178829 K22178294 K22178274 K22178266 K22178250 1
99. K105B102KW F UMK105B102KW F GRM36B104K10PT GRM36B103K16PT UMK105CH470JW F UMK105B102KW F TESVSP0G226M 8R GRM36B104K10PT GRM36B103K16PT UMK105CH470JW F UMK105CH100DW F UMK105B102KW F TESVSP1A155M 8R UMK105CH330JW F UMK105CH150JW F UMK105B102KW F GRM36B103K16PT UMK105CH470JW F UMK105B102KW F UMK105B102KW F UMK105B102KW F GRM36B103K16PT GRM36B103K16PT SKF 1D104M RP UMK105CH120JW F UMK105CH120JW F GRMS9F105Z10PT SKF 1D104M RP SKF 1D104M RP UMK105B102KW F GRM36B103K16PT GRM36B333K10PT UMK105B102KW F K22178276 K22178829 K22178254 K22178250 K22178829 K22178829 K22108802 K22128804 K22108802 K22128804 K22178258 K22128804 K22128804 K22178829 K22178829 K22178829 K22178266 K22178829 K22178829 K22178829 K22105001 K22128804 K22178821 K22128804 K22178266 K22178829 K22178274 K22178829 K22178829 K22108802 K22128804 K22178274 22178829 78060047 22108802 22128804 22178274 22178258 22178829 78100050 22178270 22178262 22178829 22128804 22178274 22178829 22178829 22178829 22128804 22128804 K78130049 K22178260 K22178260 22105001 K78130049 K78130049 K22178829 K22128804 22108803 K22178829 USA EXPORT RE Unit rer L oesomenow T vaue vens or spe avon 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
100. L IC 01019 on the RF UNIT consists of a data shift register reference frequency divider phase comparator charge pump intermittent operation circuit and band selector switch Serial PLL data from the CPU is con verted into parallel data by the shift register in the PLL IC and is latched into the comparative frequency divid er and reference frequency divider to set a frequency dividing ratio for each An 11 7 MHz reference signal produced by X1001 is fed to REF pin 1 of the PLL IC The internal reference frequency divider divides the 11 7 MHz reference by 2 050 or 1 640 to obtain a reference frequency of 5 kHz or 6 25 kHz which is applied to the phase comparator Meanwhile a sample of the output of VHF VCO 04004 or VCO 04002 or 50 MHz VCO 24005 on the VCO UNIT buffered Q4006 is fed to the PLL IC where it is divided by the internal compara tive frequency divider to produce a comparative frequen cy which also is applied to the phase comparator The phase comparator compares the phase between the ref erence frequency and comparative frequency to output 10 a pulse corresponding to the phase difference between them This pulse is fed to the charge pump and the out put from the charge pump passes through a loop filter composed of L1044 R1089 C1175 and either R1090 C1192 R1103 and C1195 for VHF or R1086 C1189 R1102 and C1194 for UHF or R1091 C1193 R1104 and C1196 for 50 MHz which convert the pulse into
101. L1 POW ER O Transmit and adjust the output power level tor 50 mW 450 30 mW by rotating the DIAL then press the V M button Rotate the DIAL to select the next setting TX Deviation Adjustment M AX DEV O Inject a 1 KHz audio tone at a level of 50mV rms to the MIC jack Press the V M button then transmit and adjust the deviation for 4 5 kHz 40 2 kHz USA Ver sion 4 2 kHz 0 2 KHz by rotating the DIAL then press the V M button Rotate the DIAL to select the next setting CTCSS Tx Deviation Adjustment TN 67 0 O Press the V M button then transmit and adjust the de viation for 0 5 KHz 40 05 0 1 kHz by rotating the DIAL then press the V M button Rotate the DIAL to select the next setting CTCSS Tx Deviation Adjustment TN 183 5 O Press the V M button then transmit and adjust the de viation for for 0 5 kHz 30 1 kHz by rotating the DIAL then press the V M button Rotate the DIAL to select the next setting CTCSS Tx Deviation Adjustment TN 254 1 O Press the V M button then transmit and adjust the de viation for 0 5 KHz 20 1 KHz by rotating the DIAL then press the V M button Rotate the DIAL to select the next setting DCS Tx Deviation Adjustment DCS DEV O Press the V M button then transmit and adjust the de viation for 0 6 KHz 20 1 kHz by rotating the DIAL then press the V M button Rotate the DIAL to select the next setting NOTE The next step depends on the geographical version of
102. M12 02V MG23BAFP lt TONEFIL SW POSW ON 15 307 155362 2555555 2505555 56400 i S VE 03037 i TONE WX SW DTC143ZE T NE 144 TX 0 1 WX JR ATN LOCA 1448 LAMP lt MUTE TONE DCS 4 HB 03004 02 CNTL DC AMP 1 Bad DIODE SW DIODE SW i 03004 09 mendi lt Pick uP CTCSS DCS OUT i t i i MB SPMA 10 G3018 i 01008 09 01037 19 215UYOC N IM3403AV 1 POSW DATA 472237 10 DANe22 155400 i L t 4 1 lt UNIT SENS HDB4F2238RTF13 SOFT P 1448 SUB MB SUB MB a M osc 1 HD6432235TF 4 _ 1 30 76 DIODE SN L IMMITEH RF MIXEH DIODE Sw B D A DATA 01058 58 4 acces Q D1003 04005 008 D1039 H 155362 5 5555 2504915 155400 OD es d AEG lt 7 03024 83025 ATT BOB 5530 NJU7231 E PTT t H H DIODE SW DIODE sw 4 AG 6 PC i a 0 M t D1010 11 D1038 REX
103. MK105B102KW F UMK105CH680JW F UMK105CJO30CW F UMK105B102KW F UMK105CH101JW F UMK105CH050CW F UMK105B102KW F UMK105CH050CW F UMK105CH220JW F UMK105B102KW F UMK105CK010CW F GRM36B104K10PT UMK105CH270JW F UMK105CH820JW F GRM36B104K10PT UMK105CH270JW F GRM36B103K16PT GRM36B103K16PT UMK105CH120JW F UMK105CKOR5CW F UMK105CH070DW F UMK105B102KW F UMK105CH330JW F UMK105CK010CW F UMK105CK020CW F UMK105CH330JW F UMK105CK020CW F UMK105B102KW F GRM36B104K10PT UMK105CH080DW F UMK105CH090DW F UMK105CH060DW F K22178252 K22178252 K22178829 K22178829 K22178266 K22178256 K22178254 K22178258 K22178256 K22178266 K22178256 K22178256 K22178829 K22178829 K22178266 K22178278 K22178266 K22178829 K22178280 K22178284 K22178260 K22178251 K22178266 K22178829 K22178256 K22128804 K22178829 K22178282 K22178829 K22178278 K22178251 K22178829 K22178282 K22178253 K22178829 K22178253 K22178266 K22178829 K22178248 22108802 K22178268 K22178280 22108802 K22178268 K22128804 K22128804 K22178260 K22178247 K22178255 K22178829 K22178270 K22178248 K22178250 K22178270 K22178250 K22178829 22108802 K22178256 K22178257 K22178254 rer oesomenow T vaue wens Twsroen vers ror spe 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
104. MON F button twice Press the V M button then rotate the DIAL to select the next setting S Meter S 1 Adjustment S1 LEVEL Adjust the generator level to 7 0 1 KHz tone 3 5 kHz deviation then press the V M button then press the MON F button twice Press the V M button then rotate the DIAL to select the next setting S Meter Full Scale Adjustment 59 LEVEL O Adjust the generator level to 420 dBp 1 KHz tone 3 5 kHz deviation then press the V M button then press the MON F button twice Press the V M button Press the BAND button to activate the 50 MHz SUB band internal alignment routine The alignment frequency will automatically be set to 52 100 MHz 50 MHz SUB Band Alignment Squelch Hysteresis Adjustment HIS SQL O Rotate the DIAL for minimum squelch hysteresis Press the V M button then rotate the DIAL to select the next setting Squelch Preset Threshold THLD SQL Inject 13 0 RF signal 1 kHz tone 43 5 kHz deviation then press the V M button then press the button twice Press the V M button then rotate the DIAL to select the next setting 18 Squelch Preset Tight TIGH SQL O Adjust the generator level to 4 0 dBu then press the V M button then press the MON F button twice Press the V M button then rotate the DIAL to select the next setting S Meter S 1 Adjustment S1 LEVEL Adjust the generator level to 7 0 dBu 1 KHz tone 3 5 kHz deviation then
105. NE lytic capacitors ICs etc or leaded components only RTS 5 SP ANA C1 While we believe the information in this manual to be correct VER 2 6 9 STANDARD assumes liability for damage that may occur as a 72 57 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 1 7 4 2 Exploded View amp Miscellaneous 4 Bl ck Diap PE 5 Parer onne c ON 6 redi usc mc M 7 Wr e 11 Board Unit Schematics Layouts amp Parts E BI I ME PV M 19 P d Bru pr J 33 T 43 53 Specifications General Frequency Ranges Channel Steps Frequency Stability Emission Type Antenna Impedance Supply Voltage Current Consumption Operating Temperature Case Size Weight Rx MAIN 0 5 1 8 MHz BC Band 1 8 30 MHz SW Band 30 59 MHz 50 MHz HAM USA version 30 76 MHz 50 MHz HAM EXP version 59 108 MHz FM USA version 7
106. OV 3 0V 3 0V 3 0V 3 0V 2 95 MONI 0V xx RX 43 Unit Parts Layout FN ODN 0 9 9 9 TF Celis 39 R30 3 cc sm gag A DUM 82 7 11 Brad 5 5 R3017 RSOOS R3014 TPSO09 2 TP3006 44 S o HD64722371F10 Q3035 N Pin 1 AT24C128N 10Sl 2 7 Q3034 Source Drain 25J364 R Q3016 3021 3022 Selector ii Emitter 2 1 Ex LI LJ Emitter llector 2 se 1 KRX202U RTK Q3029 Collector Emitter DTC124EE 25 Q3042 Collector Base Emitter 2SC5374 NA Q3038 25 4154 LE Q3009 3023 3043 Cathode 1 2 Anode 1 Anode2 DAN222 D3014 Cathode Mark Anode SPMA10 1104Q7NC D3001 3002 Pin 24 L Pin 1 M62364FP Q3012 Pin 14 Pin 1 NJM12902V Q3006 3010 3020 Pin 8 NC NC 4 Pi M n Pin a 4 NJM2904V NJM3403AV GND Vout Vin Q3005 3030 Q3018 NJU7231F30 S 35L12AEFS TB Q3025 Q3044 Collector Mors Emir OUTPUT Base Vss INPUT RH5RH651A CPH6102 AB NJU7007F2 TE1 Q3028 Q3039 Q3017 E
107. P 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 CHIP CAP CHIP CAP CHIP CAP CHIP CAP CHIP CAP CHIP CAP CHIP CAP CHIP CAP CHIP CAP CHIP CAP 1UF 0 001uF 0 001uF 0 0047uF 0 0047uF 0 0027uF 0 01uF 22uF 0 001uF 0 0047uF 0 001uF 0 001uF 0 001uF 0 001uF 0 015uF 0 022uF 270pF 0 001uF 0 022uF 0 047uF 0 001uF 180pF 0 01uF 0 01uF 22UF 0 001uF 0 015uF 270pF 0 001uF 0 047uF 0 0033uF 0 01uF 0 0022uF 0 001uF 1uF 0 01uF 0 001uF 0 001uF 0 0 00 0 0 w u TTV GRMS39F105Z10PT GRMS39F105Z10PT UMK105B102KW F UMK105B102KW F TMK105B472KW F TMK105B472KW F UMK105B272KW F GRM36B103K16PT TEMSVA0G226M 8R UMK105B102KW F TMK105B472KW F UMK105B102KW F UMK105B102KW F UMK105B102KW F UMK105B102KW F UMK105F153ZW F GRM36B223K16PT UMK105B271KW F UMK105B102KW F GRM36B223K16PT GRM36B473K10PT UMK105B102KW F TMK105CH181JW F GRM36B103K16PT GRM36B103K16PT TEMSVA0G226M 8R UMK105B102KW F GRM39F105210PT UMK105F153ZW F UMK105B271KW F UMK105B102KW F GRM39B473K16PT GRM39F105210PT GRM36B332K50PT GRM36B103K16PT UMK105B222KW F UMK105B102KW F 105210 105210 GRM36B103K16PT
108. P 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 RMC1 16S 472JTH 1 165 223JTH 1 165 103JTH RMC1 16S 104JTH 1 165 103JTH RMC1 16S 102JTH 1 165 221JTH 1 165 223JTH RMC1 16S 103JTH RMC1 16S 101JTH RMC1 16S 103JTH RMC1 16S 272JTH RMC1 16S 101JTH RMC1 16S 101JTH RMC1 16S 332JTH RMC1 16S 470JTH RMC1 16S 151JTH RMC1 16S 101JTH RMC1 16S 101JTH RMC1 16S 103JTH RMC1 16S 152JTH 1 165 221JTH RMC1 16S 103JTH RMC1 16S 334JTH RMC1 16S 103JTH RMC1 16S 472JTH RMC1 16S 332JTH RMC1 16S 153JTH RMC1 16S 334JTH RMC1 16S 101JTH RMC1 16S 103JTH RMC1 16S 681JTH RMC1 16S JPTH RMC1 16S 332JTH RMC1 16S 564JTH 1 165 103JTH RMC1 16S 471JTH 1 165 103JTH RMC1 16S 103JTH RMC1 16S 103JTH RMC1 16S 334JTH 1 165 103JTH RMC1 16S 334JTH RMC1 16S 472JTH RMC1 16S 332JTH RMC1 16S 102JTH 1 165 224JTH RMC1 16S 472JTH RMC1 16S 105JTH RMC1 16S 104JTH RMC1 16S 102JTH RMC1 16S 102JTH RMC1 16S 101JTH 1 165 224 RMC1 16S 104JTH RMC1 16S 563JTH RMC1 16S 471JTH 1 165 103JTH RMC1 16S 102JTH RMC1 16S 103JTH J24189033 J24189041 J24189037 J24189049 J24189037 J24189025 J24189017 J24189041 J24189037 J24189013 J
109. P 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 TH1002 THERMISTOR TH1001 THERMISTOR X 1001 XTAL TSS 6 11 7 2 TERMINAL PLATE INSULATOR SHEET 5 5 5 5 5 5 5 5 5 5 5 5 5 5 5 5 5 5 5 5 5 5 5 5 5 5 5 5 5 5 5 5 5 5 5 5 5 5 5 5 5 5 5 5 5 5 5 5 5 5 5 5 5 5 5 RMC1 16S 101JTH 1 165 103JTH 1 165 331JTH RMC1 16S 332JTH 1 165 222JTH RMC1 16S 152JTH 1 165 222JTH RMC1 16S 152JTH RMC1 16S 102JTH 1 165 123JTH RMC1 16S 153JTH RMC1 16S 101JTH RMC1 16S 472JTH RMC1 16S 470JTH RMC1 16S 272 RMC1 16S 104JTH 1 165 103JTH RMC1 16S 473JTH 1 165 103JTH 1 165 473JTH RMC1 16S 103JTH RMC1 16S 331JTH 1 165 332JTH RMC1 16S 331JTH RMC1 16S 331JTH RMC1 16S 103JTH RMC1 16S 472JTH RMC1 16S 332JTH RMC1 16S 102JTH RMC1 16S 104JTH RMC1 16S 472JTH RMC1
110. RANSISTOR TRANSISTOR TRANSISTOR TRANSISTOR IC TRANSISTOR TRANSISTOR IC TRANSISTOR FET FET 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 CHIP RES CHIP RES CHIP RES CHIP RES 5 5 5 5 5 5 5 5 5 5 5 5 5 5 5 5 5 5 5 5 5 5 5 5 5 5 5 5 5 25 5374 2SA1774 TLR 2SA1774 TLR 25 4154 11 1 25 4154 11 1 2SA1774 TLR 2SA1774 TLR 2SA1774 TLR DTC144EE TL DTC144EE TL 2SJ364 R TX 25 4154 11 1 25 5374 25 4154 11 1 CPH6102 TL DTA144EE TL DTC144EE TL 2SJ364 R TX TA31136FN EL 2SC4915 O TE85L DTC143ZE TL TDA7233D TR 25 4154 11 1 2SJ364 R TX 2SJ364 R TX 25 4154 11 1 25 4154 11 1 DTC144EE 2SJ364 R TX BU4094BCFV E2 2SA1774 TLR RMC1 16S 471JTH RMC1 16S 471JTH RMC1 16S 104JTH RMC1 16S 102JTH RMC1 16S 103JTH RMC1 16S 104JTH RMC1 16S 471JTH RMC1 16S 104JTH RMC1 16S 101JTH RMC1 16S 154JTH RMC1 16S 101JTH RMC1 16S 472JTH RMC1 16S 102JTH RMC1 16S 102JTH RMC1 16S 102JTH RMC1 16S 103JTH RMC1 16S 101JTH RMC1 16S 474JTH RMC1 16S 333JTH RMC1 16S 331JTH RMC1 16S 102JTH RMC1 16S 101JTH RMC1 16S 103JTH RMC1 16S 152JTH RMC1 16S 182JTH RMC1 16S
111. S 102JTH RMC1 16S 101JTH RMC1 16S 102JTH RMC1 16S 102JTH RMC1 16S 102JTH RMC1 16S 334JTH RMC1 16S 104JTH RMC1 16S 104JTH 1 165 105JTH 1 165 103JTH RMC1 16S 471JTH RMC1 16S 102JTH RMC1 16S 470JTH 1 165 103JTH RMC1 16S 333JTH RMC1 16S 333JTH RMC1 16S 101JTH RMC1 16S 152JTH RMC1 16S 102JTH RMC1 16S 334JTH RMC1 16S 182JTH RMC1 16S 182JTH RMC1 16S 102JTH RMC1 16S 182JTH RMC1 16S 102JTH RMC1 16S 102JTH RMC1 16S 470JTH 1 165 273JTH RMC1 16S 103JTH RMC1 16S 471JTH RMC1 16S 103JTH RMC1 16S 224JTH J24189049 J24189025 J24189045 J24189019 J24189055 J24189021 J24189049 J24189025 J24189017 J24189049 J24189055 J24189017 J24189021 J24189017 J24189049 J24189017 J24189019 J24189017 J24189049 J24189017 J24189019 J24189029 J24189055 J24189019 J24189013 J24189025 J24189023 J24189023 J24189025 J24189013 J24189025 J24189025 J24189025 J24189055 J24189049 J24189049 J24189061 J24189037 J24189021 J24189025 J24189009 J24189037 J24189043 J24189043 J24189013 J24189027 J24189025 J24189055 J24189028 J24189028 J24189025 J24189028 J24189025 J24189025 J24189009 J24189042 J24189037 J24189021 J24189037 J24189053 EXPORT EXPORT USA GERMANY GERMANY USA EXPORT EXPORT UJ UJ gt gt gt gt gt 02U UU UUUU2U0U U gt UU 22 gt gt gt gt U UU U 22 gt gt gt gt gt gt 22 UU UU U UU UU gt gt gt gt gt gt gt gt gt gt U 0 1 CHI
112. SB 2 55 SE 00 X os R3143 sy 1939 Yes Bong ene s 5 4 DS 77 7 o 5 8 D D 0 8 330K 83081 0 877 0 87 C3110 i X 2 470K arcs Q 1 EX 205 t 5 4 oF D _ R3040 c3129 9 m m m m m 330K 5 Pw T T a a T T T as 1 83V max 11 R3079 5 0 01V min REY 330K T FI R3013 1 70V MaE D m glg 11 3V max 12 0V min Benes 220 max 515 2 96 max R3080 13 1V 13 3V 5 UBAND P CPH620 0 46V min 5 0 80 min NW 3 12 V 13 2V 9 9 77 H 1 12V max 0 11V poco LEES 63045 330K 3 0V 3 0 3 0 3 0 03025 nO On aO 1 1 10 Ww aoe p 5 15 77 20 93010 70 47N min 63020 QN 4 53001 oy oe mb 587 NuM1290 2502 zl 4 9 d jes m TOR OOO AEN RN Rag JO OOD Be dE Bae pla 0 848 5 1 4 15 QT o Vom 12 0V d OV o O olg U 5 6 4 22 ae PELLI 8 Tego EE 4 Sea eA CN 155400
113. Tx Deviation Adjustment TN 183 5 O Press the V M button then transmit and adjust the de viation for 0 5 KHz 40 1 kHz by rotating the DIAL then press the V M button Rotate the DIAL to select the next setting CTCSS Tx Deviation Adjustment TN 254 1 O Press the V M button then transmit and adjust the de viation for 0 5 kHz 30 1 kHz by rotating the DIAL then press the V M button Rotate the DIAL to select the next setting DCS Tx Deviation Adjustment DCS DEV O Press the V M button then transmit and adjust the de viation for 0 6 KHz 40 1 kHz by rotating the DIAL then press the V M button Rotate the DIAL to select the next setting 16 Press the MON F to activate the TX Power and Devia tion alignment routine The alignment frequency will automatically be set to 146 000 MHz USA Version 148 000 MHZ High TX Power Adjustment Hl POW ER O Transmit and adjust the output power level for 5 0 W 40 3 W by rotating the DIAL then press the V M but ton Rotate the DIAL to select the next setting High TX Power Adjustment L3 POW ER O Transmit and adjust the output power level for 2 5 W 20 2 W by rotating the DIAL then press the V M but ton Rotate the DIAL to select the next setting High TX Power Adjustment L2 POW ER O Transmit and adjust the output power level for 1 0 W 40 1 W by rotating the DIAL then press the V M but ton Rotate the DIAL to select the next setting High TX Power Adjustment
114. Type Intermediate Frequencies Sensitivity Selectivity AF Output Specifications 5 2 5 1 0 0 5 W 50 144 430 MHz FM 0 3 W 220 MHz 1 0 W 50 MHz FM FM Variable Reactance Early Stage Low Level 5 2 5 kHz At least 60 dB below Tx 2 k ohm N FM AM Double Conversion Superheterodyne W FM Triple Conversion Superheterodyne Ist 47 25 MHz N FM AM 45 8 MHz W FM 2nd 450 kHz N FM AM 10 7 MHz W FM 3rd 1 MHz W FM 3 0 for 10 dB SINAD 0 5 30 MHz 0 5 u V for 12 dB SINAD 30 50 MHz N FM 0 16 u V for 12 dB SINAD 50 54 MHz N FM 15 kHz 35 kHz 6 dB 60 dB N FM AM 200 kHz 300 kHz 6 dB 20 dB W FM 200 mW 8 ohm for 10 7 4V DC 400 mW 8 ohm for 10 13 8V DC Specifications are subject to change without notice and are guaranteed within amateur bands only Exploded View Miscellaneous Parts o 9 RA0417100 PANEL FRAME RA03995000 WINDOW RA03994000 DOUBLE FACE TAPE RA0401600 O RING RA0399800 LIGHT GUIDE LED Q7000426 LCD MODULE SS RA0399100 LIGHT GUIDE LED RA0405600 MIC HOLDER RUBBER __ N AF Unit There is a direction in RA0426800 WASHER O RING SCREW RA0400900 O RING cQ WASHER RA0400500 ULL EXP CAP EXT CAP 2 RA0292200 SPECIAL NUT RA0426900 O RING RA0087900 SPECIAL NUT RA0401200 ENCODER KNOB RA04019
115. at a level of 50 mV rms to the MIC jack Press the V M button then transmit and adjust the deviation for 4 5 kHz 0 2 KHz USA Ver sion 4 2 kHz 0 2 kHz by rotating the DIAL then press the V M button Rotate the DIAL to select the next setting CTCSS Tx Deviation Adjustment TN 67 0 O Press the V M button then transmit and adjust the de viation for 0 5 kHz 0 05 0 1 kHz by rotating the DIAL then press the V M button Rotate the DIAL to select the next setting CTCSS Tx Deviation Adjustment TN 183 5 O Press the V M button then transmit and adjust the de viation for 0 5 KHz 20 1 kHz by rotating the DIAL then press the V M button Rotate the DIAL to select the next setting CTCSS Tx Deviation Adjustment TN 254 1 O Press the V M button then transmit and adjust the de viation for 0 5 KHz 20 1 kHz by rotating the DIAL then press the V M button Rotate the DIAL to select the next setting DCS Tx Deviation Adjustment DCS DEV O Press the V M button then transmit and adjust the de viation for 0 6 KHz 40 1 kHz by rotating the DIAL then press the V M button Rotate the DIAL to select the next setting Press the MON F to activate the TX Power and Devia tion alignment routine The alignment frequency will automatically be set to 440 000 MHz USA Version 450 000 MHz High TX Power Adjustment 1 POW ER O Transmit and adjust the output power level for 5 0 W 40 3 W by rotating the DIAL then
116. e ST LOCA 2 4V 144M 0 82V 50 0 86 n 3 god 980 5254 ad 000MHz 0 HB 0 7V 430M 1 29V 144M 0 86V F7 Saf SIT 7 onem 1000pF Coupling Capacitor 430 LOCA 0 0 0 7 De 1 32V 01053 st D ot AB og aa a Ne ng 0 i SUB430M RX 0 83V OV DTC144EE ST u 9 95 iren TF 6 222M RX 1 83V 0V 430 BS ae 5 i AN 76 222 01042 01045 8 21 02 Qos P t 0 73V 0V AME 42565555 D1041 2505374 OV 50M 4 51 150 55 mo 58 T C107 N Q D 0 C1006 C1007 Eco C10 D1020 1 C1074 DAN222 76 222M RX 1 B7V 5 5 CH 0 0018 B 01022 C112 D1035 a 76 222M TX 1 08V DRIVER 81099 14024 L TX 15 7dBm D X 91042 5 155400 5 1 T1182 10K _ 1000pF Coupling oY on DTCAAAEE i a q x Pit lE 0 41 T 25C5225 5 pF Coupling Capaditor 5 1 S u On T 7 76 222 RX 0 6V OV C1212 14050 77 77 I 1 P oS ape oz ne ag x m nag mal po 76 222M TX 0 PV 1 BEPCH 2 H a ITN ig 92 0 dust osm LOCAL HOF 50M 2 44V TH m H I7 4 l6 ds
117. ect the next setting The alignment frequency will now be automatically set to 144 000 MHz 15 Alignment High TX Power Adjustment POW ER O Transmit and adjust the output power level for 5 0 W 40 3 W by rotating the DIAL then press the V M but ton Rotate the DIAL to select the next setting L3 Tx Power Adjustment L3 POW ER O Transmit and adjust the output power level for 2 5 W 30 2 W by rotating the DIAL then press the V M but ton Rotate the DIAL to select the next setting L2 Tx Power Adjustment L2 POW ER O Transmit and adjust the output power level for 1 0 W 30 1 W by rotating the DIAL then press the V M but ton Rotate the DIAL to select the next setting L1 Tx Power Adjustment L1 POW ER O Transmit and adjust the output power level for 50 mW 450 430 mW by rotating the DIAL then press the V M button Rotate the DIAL to select the next setting TX Deviation Adjustment M AX DEV O Inject a 1 KHz audio tone at a level of 50mV rms to the MIC jack Press the V M button then transmit and adjust the deviation for 4 5 kHz 40 2 kHz USA Ver sion 4 2 kHz 0 2 KHz by rotating the DIAL then press the V M button Rotate the DIAL to select the next setting CTCSS Tx Deviation Adjustment TN 67 0 O Press the V M button then transmit and adjust the de viation for 0 5 KHz 40 05 0 1 kHz by rotating the DIAL then press the V M button Rotate the DIAL to select the next setting CTCSS
118. eviation Adjustment TN 254 1 O Press the V M button then transmit and adjust the de viation for 0 5 kHz 20 1 kHz by rotating the DIAL then press the V M button Rotate the DIAL to select the next setting DCS Tx Deviation Adjustment DCS DEV O Press the V M button then transmit and adjust the de viation for 0 6 KHz 20 1 KHz by rotating the DIAL then press the V M button Rotate the DIAL to select the next setting Press the BAND button to activate the 50 MHz band internal alignment routine The alignment frequency will automatically be set to 52 100 MHz 50 MHz Band Alignment Squelch Hysteresis Adjustment HIS SQL O Rotate the DIAL for minimum squelch hysteresis Press the V M button then rotate the DIAL to select the next setting 13 Alignment Squelch Preset Threshold THLD SQL O Inject 15 0 dBu signal 1 kHz tone 43 5 kHz deviation then press the V M button then press the MON F button twice Press the V M button then rotate the DIAL to select the next setting Squelch Preset Tight TIGH SQL O Adjust the generator level to 4 0 dBu then press the V M button then press the MON F button twice Press the V M button then rotate the DIAL to select the next setting S Meter S 1 Adjustment S1 LEVEL Adjust the generator level to 7 0 dBu 1 KHz tone 3 5 kHz deviation then press the V M button then press the MON F button twice Press the V M button then rotate the DIAL to se
119. ext setting CTCSS Tx Deviation Adjustment TN 183 5 O Press the V M button then transmit and adjust the de viation for 0 5 KHz 20 1 KHz by rotating the DIAL then press the V M button Rotate the DIAL to select the next setting CTCSS Tx Deviation Adjustment TN 254 1 O Press the V M button then transmit and adjust the de viation for 0 5 KHz 20 1 KHz by rotating the DIAL then press the V M button Rotate the DIAL to select the next setting DCS Tx Deviation Adjustment DCS DEV O Press the V M button then transmit and adjust the de viation for 0 6 KHz 20 1 KHz by rotating the DIAL then press the V M button Rotate the DIAL to select the next setting 17 Alignment Press the SUB button to activate the SUB band inter nal alignment routine The alignment frequency will automatically be set to 435 100 MHz USA Version 440 100 MHz on the SUB band SUB Band Alignment 430 MHz Band Alignment Squelch Hysteresis Adjustment HIS SQL O Rotate the DIAL for minimum squelch hysteresis Press the V M button then rotate the DIAL to select the next setting Squelch Preset Threshold THLD SQL O Inject a 13 0 dBu RF signal 1 KHz tone 43 5 kHz deviation then press the V M button then press the MON F button twice Press the V M button then rotate the DIAL to select the next setting Squelch Preset Tight TIGH SQL Adjust the generator level to 4 0 then press the V M button then press the
120. first mixer Q1011 28C5555 Mean while UHF output from the VCO UNIT is amplified by 21016 25 5374 and applied through diode switch D1045 HN2D01FU to mixer Q1011 as the first local sig nal The 47 25 MHz intermediate frequency product of the mixer is delivered to the AF UNIT The TUNE voltage from the CPU on the CNTL UNIT is amplified by DC amplifier Q3017 and applied to var actors D1005 D1018 D1030 and D1031 HVC358B in the variable frequency band pass filters By changing the electrostatic capacitance of the varactors optimum fil ter characteristics are provided for each specific operat ing frequency 4 50 MHz Band and 30 76 MHz Reception Received signals between 30 and 76 MHz pass through the Triplexer circuit low pass filter circuit 5 MHz T R switch circuit and protector diode D1003 155362 be fore additional filtering by a band pass filter prior to application to RF amplifier Q1005 28C5555 The am plified RF signal is passed through a band pass filter to first mixer 01008 28C5555 Meanwhile 50 MHz out put from the VCO UNIT is amplified by 01018 25 5374 and applied through diode T R switch 01046 HN2D01FU to mixer 01008 as the first local signal The 47 25 MHz intermediate frequency product of the mixer is delivered to the AF UNIT The TUNE voltage from the CPU on the CNTL UNIT is amplified by DC amplifier Q3017 and applied to var actors 01025 and 01026 18V325 in the variable frequen cy band pa
121. he generator level to 19 dBp 1 KHz tone 3 5 kHz deviation then press the V M button then presses the MON F button twice Press the V M button This completes the internal alignment routine for all bands To save all settings and exit press the HM RV button Circuit Dia MAIN NFM RX 14 7dB 8 435 000MHz 120B SINAD 800 RX 0 8V 1000pF Coupling Capacitor 800M RX 1 87V 430M TX 2 85V Un 1 t mama qi GP SASS SBS
122. he next setting Wide FM S Meter 5 1 Adjustment 51 LEVEL Adjust the generator level to 0 1 KHz tone 9 20 kHz deviation then press the V M button then press the MON F button twice Press the V M button then rotate the DIAL to select the next setting Wide FM S Meter Full Scale Adjustment S9 LEVEL O Adjust the generator level to 420 1 kHz tone 20 kHz deviation then press the V M button then press the MON F button twice Press the V M button then rotate the DIAL to select the next setting The alignment frequency will now be automatically set to 430 000 MHz High TX Power Adjustment Hl POW ER O Transmit and adjust the output power level for 5 0 W 30 3 W by rotating the DIAL then press the V M but ton Rotate the DIAL to select the next setting L3 Tx Power Adjustment L3 POW ER O Transmit and adjust the output power level for 2 5 W 30 2 W by rotating the DIAL then press the V M but ton Rotate the DIAL to select the next setting L2 Tx Power Adjustment L2 POW ER O Transmit and adjust the output power level for 1 0 W 30 1 W by rotating the DIAL then press the V M but ton Rotate the DIAL to select the next setting L1 Tx Power Adjustment L1 POW O Transmit and adjust the output power level for 50 mW 450 430 mW by rotating the DIAL then press the V M button Rotate the DIAL to select the next setting TX Deviation Adjustment MAX DEV O Inject a 1 KHz audio tone
123. ifier Q1014 The modulated UHF transmit signal from the VCO is amplified by Q1023 and RF power am plifier Q1027 up to 0 05 1 0 2 5 or 5 Watts depending on the power source The RF output passes through TX diode switch D1048 RF output is passed through the T R switch and low pass filter to suppress harmonics and spurious products before output gets to the antenna at the antenna terminal 5 50 MHz Band Transmission Modulating audio from the CNTL UNIT passes through deviation setting D A converter Q3012 to the 50 MHz modulator portion of the VCO UNIT mounted on the RF UNIT This signal is applied to varactor D4009 HSC277 in the tank circuit of 50 MHz VCO 04005 which oscillates at the desired 50 MHz trans mitting frequency The modulated VCO signal is buff ered by amplifier 04006 and Q1018 and delivered through 50 MHz T R diode switch D1046 to the RF UNIT The modulated low level 50 MHz transmit signal from the VCO is passed through diode switch D1046 HN2D01FU to amplifier 01014 The modulated 50 MHz transmit signal from the VCO is amplified by Q1023 and RF power amplifier Q1027 up to 0 05 1 0 2 5 or 5 Watts depending on the power source The RF output passes through TX diode switch D1058 RF output is passed through the T R switch and low pass filter to suppress harmonics and spurious products before output gets to the antenna at the antenna terminal Circuit Description PLL Frequency Synthesizer PL
124. ing AM Modulation AM M OD O Inject a 1 KHz audio tone at a level of 100mV rms to the MIC jack Press the V M button then transmit and adjust the modulation for 60 21096 by rotating the DIAL CTCSS Tx Deviation Adjustment TN 67 0 O Press the V M button then transmit and adjust the de viation for 0 5 KHz 0 05 0 1 kHz by rotating the DIAL then press the V M button Rotate the DIAL to select the next setting CTCSS Tx Deviation Adjustment TN 183 5 O Press the V M button then transmit and adjust the de viation for 0 5 kHz 30 1 kHz by rotating the DIAL then press the V M button Rotate the DIAL to select the next setting CTCSS Tx Deviation Adjustment TN 254 1 O Press the V M button then transmit and adjust the de viation for 0 5 kHz 30 1 kHz by rotating the DIAL then press the V M button Rotate the DIAL to select the next setting DCS Tx Deviation Adjustment DCS DEV O Press the V M button then transmit and adjust the de viation for 0 6 kHz 30 1 kHz by rotating the DIAL then press the V M button Rotate the DIAL to select the next setting Alignment Press the BAND button to activate the 145 MHz band internal alignment routine The alignment frequency will automatically be set to 145 100 MHz USA Version 146 100 MHz 144 MHz Band Alignment Squelch Hysteresis Adjustment HIS SQL O Rotate the DIAL for minimum squelch hysteresis Press the V M button then rotate the DIAL to select
125. justment DCS DEV O Press the V M button then transmit and adjust the de viation for 0 6 KHz 20 1 KHz by rotating the DIAL then press the V M button Rotate the DIAL to select the next setting Press the MON F button to activate the TX Power and Deviation alignment routine The alignment frequency will automatically be set to 54 000 MHz High TX Power Adjustment Hl POW ER O Transmit and adjust the output power level for 5 0 W 30 3 W by rotating the DIAL then press the V M but ton Rotate the DIAL to select the next setting High TX Power Adjustment L3 POW ER O Transmit and adjust the output power level for 2 5 W 40 2 W by rotating the DIAL then press the V M but ton Rotate the DIAL to select the next setting High TX Power Adjustment L2 POW ER O Transmit and adjust the output power level for 1 0 W 20 1 W by rotating the DIAL then press the V M but ton Rotate the DIAL to select the next setting High TX Power Adjustment L1 POW ER Transmit and adjust the output power level for 50 mW 450 30 mW by rotating the DIAL then press the V M button Rotate the DIAL to select the next setting TX Deviation Adjustment MAX DEV O Inject a 1 KHz audio tone at a level of 50mV rms to the MIC jack Press the V M button then transmit and adjust the deviation for 4 5 kHz 30 2 KHz USA Ver sion 4 2 kHz 30 2 kHz by rotating the DIAL then press the V M button Rotate the DIAL to select the next sett
126. lect the next setting S Meter Full Scale Adjustment S9 LEVEL Adjust the generator level to 19 1 kHz tone 3 5 kHz deviation then press the V M button then press the MON F button twice Press the V M button then rotate the DIAL to select the next setting Wide FM S Meter 5 1 Adjustment 51 LEVEL Adjust the generator level to 0 1 KHz tone 9 20 kHz deviation then press the V M button then press the MON F button twice Press the V M button then rotate the DIAL to select the next setting Wide FM S Meter Full Scale Adjustment S9 LEVEL O Adjust the generator level to 420 dBu 1 kHz tone 20 kHz deviation then press the V M button then press the MON F button twice Press the V M button then rotate the DIAL to select the next setting The alignment frequency will now be automatically set to 50 000 MHz High TX Power Adjustment Hl POW ER O Transmit and adjust the output power level for 5 0 W 30 3 W by rotating the DIAL then press the V M but ton Rotate the DIAL to select the next setting L3 Tx Power Adjustment L3 POW ER O Transmit and adjust the output power level for 2 5 W 30 2 W by rotating the DIAL then press the V M but ton Rotate the DIAL to select the next setting L2 Tx Power Adjustment L2 POW ER O Transmit and adjust the output power level for 1 0 W 30 1 W by rotating the DIAL then press the V M but ton Rotate the DIAL to select the next setting 14
127. mitter Common Base 1 Base 2 Collector N Emitter Collector 1 Collector 2 Base CONTROL GND NOISE UMW1 W1 25018015 5530 03041 03040 03024 Collector Collector Collector Es A ie i Base Emitter Base Emitter Base Emitter DTC143ZE E23 DTA144EE 16 DTC144EE 26 Q3037 Q3008 Q3007 3011 3013 3014 3015 3019 3036 NC NC OUT GND VDD S 80830CNMC B8P T2 Q3026 3027 Cathode 3 Anode 1 2 Cathode 4 Cathode 1 Anode 3 4 Cathode 2 UMP11N P11 D3028 3029 Cathode 1 Anode 2 Anode 1 Cathode 2 DA221 D3015 3016 3017 3018 Parts List PCB with Components CB1871002 USA PCB with Components CB1871003 VERSION A1 PCB with Components CB1871004 VERSION A2 PCB with Components CB1871005 VERSION PCB with Components CB1871006 VERSION B1 PCB with Components CB1871007 VERSION B2 PCB with Components CB1871008 VERSION PCB with Components CB1871009 VERSION C1 PCB with Components CB1871010 VERSION C2 PCB with Components CB1871011 VERSION C2 PCB with Components CB1871012 VERSION D1 PCB with Components CB1871013 VERSION D2 PCB with Components 1871014 TYP B1 GERMANY with Components 871015 TYP B2 owwms cur 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 CHI
128. not be done until after the faulty compo nent 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 trans ceiver was purchased for instructions regarding repair Authorized VERTEX STANDARD service technicians 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 align ments are cautioned to proceed at their own risk Prob lems 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 performance without notifying owners Under no circumstances should any alignment be at tempted unless the normal function and operation of the transceiver are clearly understood the cause of the mal function has been clearly pinpointed and any faulty com ponents replaced and the need for realignment deter mined to be absolutely necessary Alignment Required Test Equipment Signal Generator with calibrated output level at 500 MHz O Deviation Meter linear detector O In line Wattmeter with 576 accuracy at 500 MHz O 50 ohm 10 W RF Dummy Load O 8 ohm
129. or to go high This signal is fed to pin 33 PTT of CPU Q3035 allowing the CPU to recognize that the PTT switch has been pushed When the CPU detects closure of the PTT switch pin 10 TX goes high This control signal is de livered to the RF UNIT where it switches 01044 UMW1 and Q1043 CPH6102 to produce the TX control signal that activates Q1046 28A1774 At the same time PLL division data is fed to PLL 21019 MB15A01PFV1 from the CPU to disable the receiver power saver Also it switches 21048 KRC654U to disable the receiver cir cuits This causes the red mode of BUSY TX lamp D3033 to light 2 Modulation Voice signal input from either built in microphone MC3001 EM 140 on the CNTL UNIT or external jack J2002 on the AF UNIT is pre emphasized by C3012 and R3031 and processed by microphone amplifier Q3018 NJM3403AV IDC instantaneous deviation control cir cuit Q1014 to prevent overmodulation and fed through active low pass filter 01014 During 55 operation the voice signal is mixed with the TONE ENC subaudible tone signal from pin 43 of the CPU and delivered to the RF UNIT through jacks J3003 and J1008 During DTMF operation the tones from pin 44 of the CPU are fed to the IDC stage 3 145 MHz Band Transmission Modulating audio from the CNTL UNIT passes through deviation setting D A converter Q3012 to the modulator portion of the VCO UNIT mounted on the RF UNIT This signal is a
130. pplied to varactor D4005 HSC277 in the tank circuit of VCO 04004 ECSHO07B which oscillates at the desired VHF trans mitting frequency The modulated VCO signal is buff ered by amplifier 04006 EC3H07B and 01017 and de livered through diode switch D1041 to the RF UNIT The modulated low level VHF transmit signal from the VCO is passed through diode switch D1043 DAN222 to amplifier 01014 28C5226 5 The modu lated transmit signal from the VCO is amplified by 21023 25 3475 and RF power amplifier 01027 2SK3476 up to 0 05 1 0 2 5 or 5 Watts depending on the power source The RF output passes through TX diode switch D1053 RF output is passed by the T R switch and low pass filter to suppress harmonics and spurious products before output gets to the antenna at the antenna terminal 4 435 MHz Band Transmission Modulating audio from the CNTL UNIT passes through deviation setting D A converter Q3012 to the UHF modulator portion of the VCO UNIT mounted on the RF UNIT This signal is applied to varactor D4002 HSC277 in the tank circuit of VCO 04002 which oscillates at the desired UHF trans mitting frequency The modulated VCO signal is buff Circuit Description ered by amplifier Q4006 and Q1016 and delivered through UHF diode switch D1045 to the RF UNIT The modulated low level UHF transmit signal from the VCO is passed through diode switch 01045 HN2D01FU to ampl
131. ss filters By changing the electrostatic capac itance of the varactors optimum filter characteristics are provided for each specific operating frequency Circuit Description 5 0 5 30 MHz Reception Received signals between 0 5 and 30 MHz pass through the Triplexer circuit low pass filter circuit HF T R switch circuit and protector diode D1003 before additional fil tering by a band pass filter prior to application to RF amplifier Q1009 25C4915 0 The amplified RF signal is passed through a band pass filter to first mixer Q1013 25 4915 0 Meanwhile HF output from the VCO UNIT is amplified by Q1018 and applied through diode switch D1046 to mixer 01013 as the first local signal The 47 25 MHz intermediate frequency product of the mixer is delivered to the AF UNIT The TUNE voltage from the CPU on the CNTL UNIT is amplified by DC amplifier Q3017 and applied to var actors D1013 100 in the variable frequency band pass filters By changing the electrostatic capacitance of the varactors optimum filter characteristics are provid ed for each specific operating frequency 6 540 999 MHz Reception Received signals between 540 and 999 MHz pass through the high pass filter circuit T R switch D1004 15 271 prior to application to RF amplifier 01002 25 5277 The amplified RF signal is passed through a band pass filter to first mixer 01010 25 5277 Mean while UHF output from the VCO UNIT is amplified by Q
132. the precise settings for the transceiver on your bench may be slightly different Main Band Alignment PLL Reference Frequency PLL REF Press the V M button then transmit and adjust the counter frequency to 440 000 4300 Hz by rotating the DIAL then press the V M button Rotate the DIAL to se lect the next setting 430 MHz band Alignment Squelch Hysteresis Adjustment HIS SQL O Rotate the DIAL for minimum squelch hysteresis Press the V M button then rotate the DIAL to select the next setting 12 Squelch Preset Threshold THLD SQL 86 O Inject 15 0 dBu RF signal 1 kHz tone 43 5 kHz deviation then press the V M button then press the MON F button twice Press the V M button then rotate the DIAL to select the next setting Squelch Preset Tight TIGH SQL O Adjust the generator level to 4 0 dBu then press the V M button then press the MON F button twice Press the V M button then rotate the DIAL to select the next setting S Meter S 1 Adjustment S1 LEVEL Adjust the generator level to 7 0 1 kHz tone 3 5 kHz deviation then press the V M button then press the MON F button twice Press the V M button then rotate the DIAL to select the next setting S Meter Full Scale Adjustment 59 LEVEL O Adjust the generator level to 420 dBp 1 KHz tone 3 5 kHz deviation then press the V M button then press the MON F button twice Press the V M button then rotate the DIAL to select t
133. uF 10uF 0 001uF 22uF 0 001uF 0 01uF 0 01uF 10uF 0 001uF 0 001uF 33uF 10uF 0 001uF 0 001uF 0 01uF 0 001uF 0 001uF 100pF 100pF 100pF 22uF 0 001uF 0 001uF 0 001uF 15pF 5pF 2pF 0 047uF 0 1uF 100pF 15pF 0 01uF 0 047uF 0 001uF 22UF 0 001uF 0 001uF 1UF 1UF UJ UJ UJ mu 0 GRMS39F105Z10PT SK4 0G227M RD 105210 UMK105B102KW F GRM36B103K16PT GRMS9F105Z10PT GRM36B103K16PT GRM36CH101J50PT GRM36CH101J50PT GRM36B103K16PT GRM36B103K16PT GRM36B103K16PT UMK105B102KW F GRMS39F105Z10PT RV4 16V470MF46 RR2 GRM36B103K16PT UMK105B102KW F TESVSP0J106M 8R UMK105B102KW F TEMSVA0G226M 8R UMK105B102KW F GRM36B103K16PT GRM36B103K16PT RV4 16V100MD46 RR2 UMK105B102KW F UMK105B102KW F TEMSVB21A336M 8R TEMSVA1A106M 8R UMK105B102KW F UMK105B102KW F GRM36B103K16PT UMK105B102KW F UMK105B102KW F UMK105CH101JW F UMK105CH101JW F UMK105CH101JW F TESVSP0G226M 8R UMK105B102KW F UMK105B102KW F UMK105B102KW F GRM36CH150J50PT UMK105CH050CW F UMK105CK020CW F GRM36B473K10PT GRM36B104K10PT GRM36CH101J50PT GRM36CH150J50PT GRM36B103K16PT GRM36B473K10PT UMK105B102KW F TEMSVA0G226M 8R UMK105B102KW F UMK105B102KW F GRM39F105210PT 105210 105210 105210 105210 105210 105210 22105001 78060014 22105001 22178829 22128804 22105001 22128
134. v 1000pF Coupling Capacitor 1 86V 13 3 F140 RES ee Bog 855 gce 25 cima 25 85 HOOGOGZOOC 1 88 mW 87548 40 AG LOK di 176 27 SUN FSN HOP 2p 56221 1037 GSS 01029 Bande Lema 1047 m ET i A T d de 0 04 Gidia 78 Set ae 0 006Bu m n m Med xr o L a gt 1 NT MAIN RX 7 3dBu D1043 BSCSZEE S a n F re go tex Me LS EP x 9852 m R1006 DO iit hr 51 cm 435 000MHz DAN222 _ NBN ax m u 941510 EN ES D 5 A 1 IMAIN NFM RX 2 0dB 55 050 zo 297 5 TT C1160 Re 18 Riv er dg 4 u 00 o9 Qi 04 430M RX 1 77V 47 CH t 34 AW T ad i Ppr i 218 t A On i D10 2 J1005 Coupling Capacitor 51501 77 a 92 0 nec t O oaa 91027 Cigs4 199 CH 8 5135 0 0018 10922729 10025725 ED md 1 AGC B 941 9432 1 24V 4 7 T Ta T et p s TES 4 01044
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