SERVICE MANUAL
Contents
1. 6 DRIVE t5 6 bay s veee Lev 913 x p 08146 14 8 LED 5 59v 2 n 515 8 2 25102037 T 5 lt o 013 O 3 232 0 1 C ia 2 2 TX OFFSET 47 E1 Hio 2 Di p IR r 1 MS Sw 36 MS gt ay 77 0 58 ral lt xx 5 gt Zra 2 rez 28 5 018 40 8 02 jd 6 2 4 0 M K Ts Tea 014 015 5 gt pm ceo w 47 x s a 5 2 E 8 8 2229 R70 00 TONE Sw 5 2 musa 13 TL M CH SW 44 BO o 81 LS 5 5844 52 14 e hd M 2 006 39 5 09 rele MS Sw 36 E H z E gt 006 39 8 CON 20 E2 5 O 28 6 ICE odo S gt C78 04 im Lol o 7 x 3131 9 v 519 S x mani 01 13 151555 DIO 4 m gt 2 a T gt o 3 5 m 2 4 J rr m w rr ncsOj m 9 WI2 IDII x 042 25K61lGR D1 6 9 16418 21 26 29 32 34 37 64 53 3 2154555 D2 5 10 15 19 20 27 28 30 31 39 42 lt gt lt lt 1N6O 2 m 07 8 38 45 1515872. 1 Connect an AF VTVM oscillo and 82 load to the EXT SP terminal Connect an SSG to the ANT terminal on the rear panel 556 Oscillo scope AF V M 80 dummy load TF 9130 2 f 145 100 W T 146 100 AF V M EXT SP L5 7 SSG 10 dBu Oscillo 14 18 First L14 then L7 MODE SW CW scope Turn L7 RX unit full CCW tFen turn 1 1 2 3 RF GAIN control MIN full CCW 4 RF GAIN control MAX 22 MX MODE SW FM1 SSG output 10 MOD 1 6 8 DEV 5 kHz 5 SSG output 100 dB AF V M Check Should be normal Oscillo output is obtained scope 6 SSG output 7 dBy W T EXT SP More than 20 dB 6 1 SSG output 30 dB S Meter Adjust VR3 for a meter reading of 10 on a scale of 1 10 S Meter RX VR2 Set point S Meter RX L17 Turn the core CCW until the meter reads 1 on a scale of 1 VR1 The meter reads 9 on a scale of 1 9 1 556 output 15 48 DC V M 110 12 MIN Repeat 2 Pulse noise ii AF V M Oscillo scope BUSY LED Front SQ con Turn the SQ control panel trol CW until the LED goes off 3 5V Note Reference Value 4 FM S Meter Set to the deflection starting point 5 SSB CW S Meter 1 MODE SW USB SSG output OFF Adjust L17 CCW unti
3. WALA Aq JIA seDeyoA 33W gt 8 0 aP 021 WALA UO 818 uonoes 09 8P 001 sjueujeunseeu Z Au 881 8 06 0601 29 AWS gP 08 eAuq ui pejoeuuoosip e qeo5 BIxeoo o Au 89 04 OQ pue peu GHA 2 OG 9 0 94 SAGOT 008 gp 09 8930 A4VO AS90 0 274990 Auge AWOS Awe A 881 8P OS A 06 aP Or UOS dV A 8 81 E 219 AT 8 89 ANZ 8P 21 3 862 9 9 20 A 60 A 820 8P 9 95 55 AO AZ AOZO AEZO 2 AWIZO AUS M2 ASVO lt 39 38333 gt lt NOILO3S H3LLIWSNVHL cc ce lt 1108 12942 nnd pue aui AQOG 47 100 199uuoo ndino jeuBis 12 p sjana 1ntfino oipne 4 3GOW ZHW OS ttl 3 XIW puz 31 indu 01639496 pubis 9 Bunios 2 web 4y 14215409 N S 10015002 30 ndino 3010 9096 C 60 63 94 Z MO JOOW ZHW OG ttl Indu
4. 32 jeuBis 0 INdino opne MW OG 58 290 EX lt 0 296 Jy 102150002 e 100100 opne luelsuo2 Joj 81 INdINO lt ase s ni y 3 2 EB E k VESAHUIMISP m UB dS i Vd 3V 341 31 3i 3 181 114 33 i Hi re 4 855 23x pi e 950 l 241 9 A 9 0 9 95 Aucg9 8 44 bl vl lt 9 07 669 0 NOILO3S gt C _ 31 9130 BLOCK DIAGRAM NIYO 5 7272 705 3 1 E9N 860 JV gt 1 3015 Kb L OPZ L SPXLLINQ YNIA 750 8809 EEI 90 SEI 8909 851 809 L H VH 4 Qam a Qam 4 W w c AA w a ee a ee m 21446567 3 4 3 dAVv ji 3l 20 3SION 20v MS 29 3 3 3 dV uvo We M9 9 11 0261 88 090
5. Q10 wr 5 MN1201A 2 G gt a f LATCH o E VETTZITIL 4 12 Sw 4 54 44 1 lt e uPD650C 135 e BACKUP AVR 4 25 101 DEC oRIvERN 11 SN74LS247N ORIVER 5 AVR 013 19 2541115 as Q20 28 2541015 021 27 25 1815 uPC7B8MOSH CONTROL UNIT X53 1210 11 62 fee 99 DISPLAY Fig 6 Control unit Block diagram LB o INPUT 17 OUTPUTS nic Are o vum IPIE npn gt a p indi per 4 gt uuum A BI RBO a gt 9 OUTPUT LI OUTPUT e t3 B C LAMP RB RB GNO tS OUTPUT TEST OUTPUT INPUT INPUTS INPUTS st Fig 8 SN74LS247N RB 5 14 OUTPUT RIPPLE BLANKING 1 4 INPUT 7 SN74LS247N 9130 CIRCUIT DESCRIPTION e PLL Data Output PLL data 3 digit MHz 100 kHz 10 kHz is dynamically out put from the microprocessor HO H3 and I O port The 1 kHz 100 Hz data is applied from GO G3 and FO E3 ports to the dual latch 010 MN1201A and converted to a DC voltage HCV associated with the D A converter made up of fixed resistors RA9 R5 7 PIN PIN No 1 No 16 1 05 2 04 4 b Anode 3 D3 Dp3 Cathode a Anode 4 D
6. Z M912S 161 A 22 A 91 86 10 2 S x 5509 Y 70 9021 0 4 w 91814 yuez 97 092 0 225 Qin 3 mm u10110q 9u1 ydym spea Jayeads 9 900 ZEN pleius 114 G x eui jnjased ag spiewdn yt uay eseo aui 0 woog pue doi aui y 5 9 BU eseo 16 Nu xS PT SS 9130 DISASSEMBLY Flat screw x 4 7 y N32 3005 46 Sub panel 09 0256 05 Push switch 48 2 gt 540 2403 05 K T M 540 2406 05 Round screw x 9 N30 2604 46 Rotary switch TX OFFSET 501 1421 05 831 0631 05 Rotary encoder WO2 0308 05 Pot SQL H L Switch unit RO1 441 1 05 41 1400 11 Rotary switch M CH 501 2430 05 Bracket LED 5 Pot RIT RF GAIN WN 819 3406 05 Pot POW VOL N 805 3412 05 Rotary switch MODE SO1 2421 05 Fig 21 Sub panel This number is that of the part into which the sockets and jacks are to be inserted Some parts are not supplied 4P Socket AUX 08 0471 05 Heat sink 1 0775 05 2P connector DC 06 0252 05 Earphone jack 11 0
7. 10 695 1 215 Q4 3 5 10P DI Mer 1335 ly ACOs q s a fa 2 ERE 2 S ev 8 93 2 54 s p 2 z 5 2 3 1 m 2 218 C23 470P 9 a x 5 8 8 o vA NOV FM x 06 w 9 RA ciwuzavrMD __ s m B 5 a o m a a n Pd 8 R29 47K S e N N x n 9 2 Fa CIVEM 5 R26 100K 21 IM 5 ALC f 5 SM os ates 1 2 13 3 5 8 o 3 9 Xe Bx 5352535 x 2 2 0 z 2 18 09 T 022 lt gt T7 av o zm X gt 1 mA 3 25 e 2 4 R68 gt 2 4 7 E E i cas oe aco B Bb DOR ae t cos T t 2 o o o o 5 gt x 001 504 8258 5 aT eT VAST 5 gt 31215 5 i FT OQ ES a 7 4 923 024 7 01 25022 0 6 Q10 25410121Y 92 911 93 4 225616754 912 2561959 pm 5 25 6 25 61 68 043 44 2501815 7 AVi 9 0 3SK 744 415 49 22 25 1015 3 iiam Q8 2562538 22 216 286 496 Y 09 17 18 23 24 25 2603 0 o 1 3 152208 09 21 60 013 XZ o60 02 1182588 042 18 12 2 060 04 1177410 0135 VD 1223 08 11 16 17 151555
8. 21 51 9 e w w MT D I wr gt er m 25 x x x Z 5 24500 U s uZ 25u 5 x azo 4 zs x lt o Gu anda v Taernone wmeord O OO waris POWER Sw BB RX 29 BBM POWER SW DRIvE 14 0 E lt lt hio els ait 512 11 T Won mM 3 220 Sw 2 8RS m 7 B2 as a5 5 2 6 55 Hojs 3 5179 37 541 1 10 4 Fms x 3 2 67 E ES PEE we CONTROL UNIT X53 1210 62 cp vs x iz 5 052 gt x oe 5 4 00 36 975 20 Duk 198680 SR Lege 3 emr eee 52 2 4122 te mam 4 z Ac ewe woo aaa E gt Z e gt 33 506 LT 9RvE t4 en 1 55 E DET E O 23 33 395 D a anars renee eee ee S 5 0000 ___ 7 1516494 733 eaive e rur T onive us gt m Fe d EP E w 1 81 41 1 11 111 1 1 1
9. Back up 1 RX mode CONTROL TP 5 0 voltage check Power SW OFF 2 0V W T 6 0V K M 2 Power SW ON 1 MODE SW FM1 A B SW B f 144 00 W T 148 00 K M DC V M L5 6 15 6 16 Repeat More than O 6V 2 f 145 98 W T 148 00 RF V M 3 A BSW More than 0 4V f 145 00 W T 148 00 K M TX mode 4 RX mode 1 MODE SW USB 144 9999 5 fre quency 30 Hz 2 f 145 0000 30 Hz 3 RIT control centered RIT SW ON 134 3073 MHz or greater 134 3057 MHz or less 4 RIT control CW 5 RIT control CCW 134 3065 MHz TX mode RX mode RIT control centered RIT SW OFF 1 MODE SW USB 6 CAR f counter 134 3064 MHz 134 3065 MHz 134 3065 MHz RF V M Adjust 0 3V with adjust the core CCW from the peak 3 SW CW 10 6943 MHz 50 Hz TX mode 10 6965 MHz 50 Hz 4 5 MODE SW 158 2 9130 ADJUSTMENTS RX SECTION gt Condition Test Ter ONE minal Unit Parts 2 Helical 1 Connect the sweep generator Oscillo L1 2 3 Adjust to obtain the A Output to the ANT terminal Scope waveform shown at 144 00 146 00 W T 3 Sensitivity Sweep 148 00 K MI adjustment Specifications generator
10. HIZ LOw 46 PCH 7 SE MS 32 AUC POWER 59 88 POWER SW B 42 hl 599 gt mole o 004 3 4 124 22 16 000 16 v 25 00 470 PE 5 662 e C28 E i 42 7 v 15 22 87 001 4 T X P 29 e 62 19 001 4 ct 7 e 4 2 erhet 18 05 S 5 c30 0011 5 2272252 124 2 0 J C16 33P D3 5 D Ri 100K RF METER vR3 100 n 01 c3 00P La 8 gt ANT 8 0 USB n s x n Q 7 04 o cw f T32 se 5 o I UM re 0 s o 3 4 4 15 lt 5 gt 5 f 71 5 CTE 9 9 2 amp 2 l AGE 8 0 vsa Tw 5 8 6 69 T 3 KEY OE O or 5155 OviOV FM o 7 os j 7 5 24 Qt 2 25C1675 L t2vr PRO ON av PR0 COY EM Q3 25C2603 0 E eom 23 04 AFGOSFI7TS0A2 5 c20 gt n oxi 22 2198015 25 ST v Te Ts ON 01 6 8 5 5 BACK UP 21213 51555 07 2 060 g a p _ 081 6 pRIVE 8 TI 9 QOO C rs POWER Sw PLL UNIT X50O 1860 OO m o a w o t a m 1 4 2 5 x ol PE 212 t 1 le
11. 9 220K 22k 7 2 d R107 330 8 2 9d 5946 142 1V x o 8 2v a x 2 5 8 tx 1 50v 1452 12 4 3 FM o q Om a gt gt L 7 9 SQ ON B 2 13022212 T3 x o 21 gt 1 5 a 6135 5 5 ORIVE 9 KEY folkd 8 amp sli 954 2 5 es ee s I o 21 SD ls m 31185 4 x BACK UP 8S 1 21 19 88 21 6 RI44 IK 5 POWER SWE SP R133 470 pet C174 R134 220 5 8 55858 5 3 wa _ F 05000909999 e ES Q EE 38K 76 0 Q 6 29K 30A 6R 942 Q2 1 35 74 L 917 2 K30A Q oz a3 8 19 20 22 25 Q 18 2541015 81012151 515151 2 2501675 0 Q 21 ie Fe tue bed 99 14 15 28 32 34 43 45 47 026 27 37 25 1775 2 22 EE 25 2603 0 033 gt 2545115 0 or E 5 Q10 35 36 41 25 1815 038 837 3 0411 13 44 1 35 73 68 939 40 28 2240 68 OUTPUT FBSPONSE IN dB UNDESIRED SIGNAL INPUT IN dB 40kHz Er aA Inter modulation FM mode KURZE CARRIER FREQ 145 50MHz 20 40 60 80 100 120 UNDESIRED SIGNAL INPUT
12. wn a wm ww N 69 RT 100K 32 ALC Hi LOW 46 PCH PLL UNIT X50 1860 00 gt wn m H c 89518 2 5 d 5 xe jeas HII 15 my joo 4674 m kj 31 x n m 3 we 2226 DE gt gt cla 288 Sau 2 xix 2 Nom on m x 090000000 Ja gt w gt 2 5 E 52 6 S B oie z 7 i 33 8 OviOV FM FM 4 51 3 i2viPRO ON Lv PRO ON CTP 4 L 4 1 Q2 gt gt TT 3 1 2 2 7 d a 2 7 7 O 1 OViOVI FM 2 2v 13 3V 1 13 1 1 0101 l 69 2541012 0 LLL Ll aM D H t P 8 gt Q b 5 z gt L RX 29 BOM a POWER Sw m p t mw 22 15 Z e o m lt a s gt 1169 220 rr sw 2 sns_ 7 449 o TM 6 Bi at 9 Hols 69 LTT a a e CON 22 FM1 37 2 s Fm2
13. vR6 C153 201 R174 100 R176 VR7 100 a175 50 33P C160 TC2 C154 RI R171 3 9K 2 611 270K CY 9 5 ia 1 rms sok 100 28 7505 x DU z 3 eav 4 13 391 Ries 1K DRIVE 14 8R 15250 Rx 33 see 1 2 x n 1 anc 9 3 u alo x x sv LS P s m 8 2R o 22372515 19 ZA aTe 5 2121 1 151951 lt 5 2 2 8 x2 7 x 7 P 9 558 5 sz 8l amp be r x s 51 3 3v Q9 y 937 PRIS z 27 4 n tu 3 020 c94 470P 4 o 8 7 9 9 9 d 7 jx 5 5 Tt q 6 518 I Us 5 o T n g NB ON 5 5l od 3 18 1 25 Tk a C86 47P DIESEN ee 7 6 64 FM R100 160K C100 47h R102 47K 4 Rog 47K 4 9 FM 85 9136 93739 001 10K 12K 29 28 6 2 884 6 8K 15 021 CFw4ssF CF1 C gt Q 01 VU qp Her Rise JK gt I az a 2 235 15123113 ee 518 M E d S 2 mao
14. V11 7272 36 V11 7272 46 11 6178 36 V11 6172 56 V11 6172 66 V11 4176 76 V11 4101 20 V11 4161 96 V01 1012 36 VO1 1015 06 01 1115 26 Rating voltage Capacitor value 010 pF 100 10pF 101 100pF 102 1000pF 0 0014F 19 E 10 than Less than 4 1 ak 220 22pk 1 2nd number Capacitor Styren Electrolytic Tantalum Mica N New parts Please note that these parts are sometimes not in stock and it take much time to deliver 2SA1115 E 25 1115 0 25 496 25 945 0 25 1675 4 25 1775 25 1815 25 1923 0 25 1959 25 2240 25 2458 25 2538 22 25 2603 2SC2785 J H 25 2787 1 2SK19 GR TR10 5 2SK30A GR 25 2SK61 GR 3SK73 GR 3SK74 L 35 76 AFGO5F1750A2 MB3713 MN1201A Part No 01 1115 16 01 1115 36 V03 0336 05 03 0293 05 03 1675 06 03 1775 06 V03 1815 06 V03 1923 06 03 1959 06 03 2240 06 03 2458 06 03 2538 16 V03 2603 16 03 2785 40 03 2787 16 09 1001 16 V09 0060 05 V09 0056 05 09 1014 06 V09 1002 46 V09 1002 56 09 1012 16 V30 1141 26 V30 1233 16 V30 1008 66 9150 PARTS LIST m Re Ee Description Q ty NJM78LO5A V30 1149 06 F15 0635 04 Meter shadow mask 1 F20 0516 05
15. SLP 144B PR5532K 522 VD1223 SLP 244B PY5532K 9130 General Semiconductors Power requirement 2652545 Operating temperature CUFFent ks iei Transmitter Section RF output power at 13 8V DC 5022 Modulation Frequency tolerance Spurious radiation Carrier suppression Unwanted side band SUDDFeSSIO Te tnt Maximum frequency deviation SPECIFICATIONS ICs 11KM 12 WT FETs 15 Transistors 104 KM 105 Diodes 124KM 126 144 000 0 to 147 999 9 MHz 144 000 0 to 145 999 9 MHz W T Digital control phase locked VCO 558 FM F3 CW A1 Within 500 Hz during the first hour after 1 minute of warm up and within 50 Hz any 30 minutes thereafter at 25 C constant 13 8V DC 15 Negative 20 C to 7 in receive mode with no input signal 6 5A in HI transmit mode Approx 3 5 in LOW transmit mode Approx Less than 3 0 mA for memory back up 170 mm 6 11 16 wide 68 mm 2 11 169 high 241 mm 9 1 2 deep projections not included 2 4 kg 5 5 tbs HI SSB FM CW 25W min Low FM CW 5W approx FM Variable reactance direct shift SSB Balanced modulation S
16. Wm N N WA N gt PARTS LIST 7159 CE04W1C100M E 10 16V 42 120 124 4 40 1073 05 Mini connect wafer 136 40 1273 06 Mini connect wafer 12 CEO04W1C330M E 33 16V C115 1 4 1 470 47 16 151 1 L30 0005 05 IFT L7 8 26 3 CE04W1E4R7M 47 25V C119 121 149 3 130 0281 05 IFT L14 18 2 CEO4W1HO010M E 1 50V 36 74 137 6 130 0289 05 IFT 116 17 2 138 142 154 130 0503 05 110 12 22 3 CEOAW1H2R2M E 22 50V C118 L30 0504 05 IFT 113 21 2 CEO4AW1H3R3M E 33 50V C117 L30 0507 05 IFT L15 1 c L30 0513 05 IFT L6 1 CK45B1H102K 0 001 C6 9 10 25 34 8 L30 0515 05 IFT L29 1 45 129 166 L31 0267 05 Tuning coil 11 2 2 45 1 222 0 0022 7 8 33 139 4 L33 0002 05 Choke coil 1uH L4 1 CK45B1H331K 330pF C27 70 2 34 0683 05 Tuning 15 1 CK4581H471K C 470pF C23 94 98 99 7 L40 1011 03 Ferri inductor 1008H _ 1119 1 103 104 174 L40 1011 14 Ferri inductor 1005H L31 1 CK45F 1H103K C 001 15 17 18 24 30 17 1 40 1021 03 Ferri inductor 1mH L20 24 32 3 x 35 38 43 52 61 L40 1501 03 Ferri inductor 15 L11 1 76 78 95 96 147 140 1511 03 Ferri inductor 150 25 28 2 153 158 L40 4711 03 Ferri inductor 470 127 1 L40 6825 04 Ferri inductor 6 8mH i L23 1 CQ92M1H102K ML 0 001 C107 108 2 CQ92M1H103K ML 0 01 C91 113 125 5 L71 0215 05 Crystal filter 2
17. DOT output for 100 Hz Lights when H and goes out when L Normally H When H gt L reset BCD DATA output for indication 1 MHz digit pulse 100 kHz digit pulse 10 kHz digit pulse 1 kHz digit pulse 100 Hz digit pulse In normal operation it is H in BACK UP Operation it is L DOT output for MHz The buzzer sounds when it is H Normally 5V Matrix output in combination with B input and these pulses OUO OnO Orco 0 O O OQ QU 00 0 X9 Stop point of clicks V V V UP Clock signal i Clockwise direction UP DOWN signal Clock signal DOWN OCk signa Counter clockwise directi UP DOWN signal Fig 12 Terminal D _ symbols Q Vecs A V CLOCK output C O U D output a U O GND v osos Fig 13 encoder W02 0308 05 Tone Oscillator Circuit When the output for the microprocessor tone oscillator is H level Q7 25C1815 Y is energized allowing a current to flow into the piezo electric buzzer oscillator Q8 25C1815 Y producing a tone Termina Input jOutput name Signal Signal 5V Power Description D convergence BCD DATA output for MN1201 PLL unit TC9125BP pulse DATA Normally L The pulse DATA is output only when the frequency is changed QVO Og Cro Q TX inhibited Normaily L Normally L When FM TX it is H Rotary encoder CLOCK signal input Rotary encoder UP DOWN si
18. C96 01 286 47 d 79 d d d Sw 1 NS FO 6 6V FM R100 180K CIOO 47 102 47K mos 47K 59V FM n 1 5v FM 021 14v FM 25v FM D 4 22 C107 C91 02 c38 C99 L 110 8136 R137 Q O Q 0 4 Q1 470P 4TOP 470P 470P 9 2 3 O04 10K 47K 12 8 WEE a dle 688 x 4 h p 2182 585 P FM G mu gate on a RISB 1K gt eq MANY 2 NANY 8 9 Les 418 o 924 3 T lt 8 sex 916 s 5 rz aloes amp 3 1945 8 ore ad 57 4 e a NG m e moe isk 025 026 330 EL 2 gt 4 5 0022 40142 AV FM x ov FM 3 5V FM oL 5 N H B SOONG 8 OV SQ ON a 5 yg 1 50 R162 amp SON 16 FM 47v FM 5 5 m z 1v 50 ON 5 5 Ane 1 9 o 25 ov FM 4708 12 755 3v FM E x x 1 5 d 031 01 7 2 5 4 T A 2 55 2 gt s 5 2 i 14 9
19. Crystal 0 001 0 01 0 0047 T 15 01 Square terminal Mini connect wafer Mini connect wafer 7 Coil IFT Ferri nductor 1 mH Ferri inductor 1504H T C19 10 6943 14 15 C4 8 13 C20 C16 21 K M 4 W 1 15 11 4 L6 17 Crystal 10 6965 MHz X Trim pot 20 Short jumper W TIVR1 21 22 112005 CONTROL UNIT 53 1210 11 K M 62 CE04W1A101M 4 1 221 1 470 4 1 471 100 220 47 470 10V 10V 10V 10V 12 14 2 9 10 C3 7 C8 RX UNIT X55 1320 XX di 00 W T 11 K M 05 0030 15 0031 15 45 1 2 4 5 1 CC45CH1H040C 45 1 CC45CH1HORSC CC45CH1H070C 45 1 1000 CC45CH1H150J CC45CH1H220J CC45CH1H330J CC45CH1H470J CC45RH1H100D CC45RH1H1 20J 45511 101 45511 151 4551 1H220J CC45SL 1 H470J CE04W1A101M CE04W1A470M Ceramic trimmer 20pF Ceramic trimmer 1OpF 2 3pF 4pF 5pF 7 10pF 15pF 22pF 47pF 10pF 12pF 100pF 150pF 22pF 47pF 100 47 10V 10V 2 14 68 C3 161 79 16 165 12 44 C55 66 81 C11 20 82 C4 62 C1 13 159 160 49 86 5 2 77 141 175 22 112 114 C40 69 72 84 100 C140 145 172 C127 144
20. 134 135 L71 0216 05 MCF XF1 CQ92M1H104K ML 0 1 C65 1 L72 0315 05 Ceramic filter CFW455F 1 CQ92M1H123K ML 0 012 C131 132 2 KM CQ92M1H153K ML 0 015 C64 1 L72 0316 05 Ceramic filter 455 1 CQ92M1H183K ML 0 018 122 1 CQ92M1H222K ML 0 0022 C101 105 109 5 77 0858 05 Crystal 10 24MHz 19 111 116 L79 0446 05 Ceramic discri 4555 130 CQ92M1H223K ML 0 022 92 93 97 106 4 L79 0468 05 Helical resonator W T L3 CQ92M1H332K ML 0 0033 C126 1 L79 0483 05 Helical resonator 113 CQ92M1H393K ML 0 039 C110 1 CQ02M1H683K x ML 0 068 C148 1 N30 3004 46 Round screw CS15E1C4R7M T 47 16V leis 1 R12 0421 05 1 515 1 10 1 25 C73 1 n12 0424 05 Trim pot 1 CS15E1VOR1M T 01 35V C128 130 desc 44556 PER e 1 C90 0820 05 E 470 16V small C146 2 E 90 0824 05 1 50V small 150 152 2 12 3434 05 Trim pot E 90 0834 05 E 0 15 E R12 4411 05 Trim pot 4 91 0131 05 IC 0 01 SP 19 26 63 162 5 R12 7404 05 pot 4 171 C91 0456 05 0 047 SP 28 29 31 32 8 37 89 90 102 92 0150 05 Short jumper 15 91 0457 05 0 022 SP 21 39 41 33 46 48 50 51 53 54 56 60 67 71 75 80 83 85 87 88 155 157 163 164 167 170 173 91 0460 05 0 068 C123 1 04 0154 05 Coax connector 1 23 0046 04 Square terminal 40 0211 05 1 40 0273 05 Mini connect wafer 2 3 E40
21. JIN JN 855 _ L Qm sms mms ms sm oe B __ q 3 8092255 et 3 2 5 S lt gt ZHVNS69 0 050 OIN es 190 01 958 26 i QON W3 11 0601 29 LINN j ECCE i See ee ee 0 4 LL 0LZL ESX LINN 17 550 gsn gt L r L Z NIVIN 2 00 098 06 zHws969 01 969 0 6969 01 8669 01 LINN 2 5669 01 AV 5669 01 53137 3875 32 Signal line Control line Common DC line SCHEMATIC DI 4 RX 32 80 PLL 6 Cv 1 AUX FMC EN PLL 15 DRIVE UNIT 47 1090 61 w Qm mr n wr d Y FM 10 695 Fig 9 0v FM gee 8 9 eer MI 7 59 cai 44 5P 13 3 07 T 6 5 EE TTE i17 08 ds 2 4f s exe Fo MR ar am Gu
22. aS Da OASNSAGC 9 256641083 5599 02 540 25182360 Qi 15 16 18 19 25C 55 2208 a6 TESV25BP 94 5 452588 97 8 255 22404581 55 WIMTBLOSA as TAO 5 2553035010 2SBRAQYS 2501815 TESI EIS SKTA 35 16 0 WINTBLOSA 1713 25 4115 25 2240 5 5 PC BOARD VIEW TR 9130 RX UNIT X55 1320 00 11 Component Side View wn 4 Qr O1 475 uu 10 amp Cl 54 02 R28 i 2 o O iB 795 LLO or 5 OO OZE I SSX Q1 3SK76 O Q2 3SK74 L 03 8 19 20 22 25 25 1675 1 Attachment direction Attachment method 09 14 15 28 32 34 43 45 47 28C2603 D E Q10 35 36 41 2SC1815 Y of XF1 of Q1 and C7 011 13 44 3SK73 GR 016 2SK30A GR 017 25 0 n 018 2541015 021 TA7060P 026 27 37 25 1775 033 28A1115 D or 038 MB3713 039 40 2SC2240 GR 042 2SK61 GR JJ D1 6 9 16 18 21 26 29 32 34 37 44 53 151555 D2 5 10 15 19 20 27 28 30 31 39 42 1N60 D7 8 38 43 151587 033 151212 ED Solder Ta f XF 1 should be used as a pair p h 4 21 TR 9130 PC BOARD VIEWS CAR UNIT X50 1870 11 51 61 CONTROL UNIT X53 1210 02 Component Side View Component Side View 1870 00
23. s RX 30 50 METER LAMP B DRIVE 6 PCH 33 FINAL 4 PC a od e g 25 30 68 942 25 61 68 01 6 9 16 18 2 26 29 32 34 37 44 53 90 909 OO 2SK30A 0 151555 JGE m 2541015 7 02 5 10 15 19 20 27 28 30 31 39 42 INGO 25617 51 07 8 38 43 151587 LOW 2541115 D or E 033 51212 3713 4 1 4 2582240 GR Hi LOW Sw MS SW MR Sw HOLD Sw SCAN Si Common DC line SCHEMATIC DIA 648 45 5 0 1 3 Signal line Control line RX 32 S0 MODE 38 FMT MODE 39 F MC AUX FMC PLL 15 LT E o 4 s uraman rs CORTE Au y TE E odi s Hym 8 7 Co 5 C44 SP 133v 07 Qe CL tev 9V Tc2 DRIVE UNIT X47 1090 11 f d 19 0 FM RER L3 OV 7 FM ES ee n 21 9 x 22 pi STIS 5 t 513 x d 78 Seat 93 5
24. 1 2 250 1675 1 D1 5 6 W T 8 W T 151555 Q3 W T 28C2603 D E D7 W T XZ 060 Q4 W T AFGO5F1750A2 25 1015 25 1675 25 1815 25 1959 28 1115 25 496 lt EN 8 uPC78MO5H MA522 SA Be GeO 017 K M W only D18 K M only 22 A UO IJ 810 110 9130 330 Ad db CIRCUIT DIAGRAM 330 A8 i ABEL Wid M W 8 Z2GVMW 040 2 090 ZX 659 5 490 2 C amp 8 8 5 20 8 0 218 40 S ab ziy a ta N 8 1 28 x p 80 HM ma 052 15 1014 Pr dei did 11141114 G 1999999 909 22 6EY any 104009 PUBIC OO AHVIOM A 6S8610S2 gt 92 220 OHAJ 5413 vsz 62 6l cio i 20S 9 df 210 N2b2S19 4NS VIO2I NW O10 60 4 969252 50 A SIOLVSZ gz oz 9 vo A 1812S2 S 96 24218 1 6410 22 Fu _ CEI 5 130171 haa gt eo zzo eeoj oig Te 2 amp 2 amp 2 4 O 135340
25. 2151587 RX UNIT X55 1320 00 eee X C158 0 x 270 R 043 44 68 16 54 rim gt 383 MCF s 042 226 th 14 15 C161 8 15 a ao gt a 01 z N 2 pr pd l a 5 M n id 42 x o o ss n 2 d 4 15 n T c lt 2 gt Ne DIA 1 o 1 9 2 zoe 8187 100 B 5 19 1 NX RIS 4 7K w 33V 46 24 8186 1K 5 Bx 944 6 6 2 x LIO agis i25 5i 45 07 x v6 3 t 8 a 5 8 5 e m N o z 5 oT 21s n 814 2 21515157412 2 a orn w 2 4 O ujo R53 22K R45 33K R54 100 C54 022 Ri92 22K 17 Ov FM SSB 9 020 C94 47 4 I R85 22K RX 33 BQ scr 30 5 8 054 ML CBS 022 470 RB 1 5K R48 400 Q R98 33K gt 019
26. BE ov E 033 1512 2 C MI LOW Sw MS Sw Sw t HOLD Sw SCAN Sw oe ae rome Voltage measurement conditions IATIC DIAGRAM K M t 145 000 MHz MODE USB no signal TX CAR UNIT X50 1870 11 M 01 57727 M1402 05 151555 s 51 U 42 3 5 2S5C1B15 Y 1303 06 0158 39 25 21 7 25 1015 03 4 151587 je 13 8v we 2 wor 1 S74 FINAL UNIT 45 1240 11 ST 68 01 O K c3 100P La x Er DO a a 0 958 15 10P n e Ee 4 TAN 5 n e cw M us 5 org 21 5 gt 7 z o T 5 4 1 515 dud 8 13 HE o e 2 D 90VICW Ea 5 8 0v LSE CIT 2 g O Ct6 33P 3 100K RF METER C3 N O x m lt 7 91 2 2SC1675 L E 3 62 POWER SW B 1 5 1181555 34 SW SC p 1000 16 042 001 MODE 37 CRB MODE 36 CT8 MODE 39 OC BB MODE 39 SCB POWER Sw B L 001 gt 49 E ED
27. IF amplifier effecting squelch on off operation according to the noise level component above the normal 3kHz limit needed for voice communication in the same manner as the EM squelch operates Thus in SSB mode the FM IF ampli fier is also operated by this signal The squelch on off timing is controlled by Q29 Q30 and C120 The scan stop signal for both SSB and FM is sent to the microprocessor In the FM circuit the signal having passed through the ceramic filter CFI CFW 455F K M type CFW 455E W T type is amplified by IF amplifiers Q21 TA7060 022 23 2SC187b5 L Limiter amplifiers 024 25 25 1675 then detected by ceramic discriminator L30 and diodes 027 28 In all modes the detected AF signal is amplified by 035 2SC1815 Y passed through the active LPF 036 2SC1815 Y AF GAIN controlled and power amplified by 038 MB37 13 to drive the speaker EE I EXIT B AD Due amp o0 Fig 1 MB3713 Equivalent circuit RX unit Q38 CFW455E CFW455F Nominal center frequency 455 kHz 455 kHz 6 dB bandwidth 7 5 kHz or more 6 kHz or more 50 dB bandwidth 15 kHz or jess 12 5 kHz or more 3 dB or less Guaranteed attenuation within 455 100 kHz 35 dB or more Input and output impedance 1 5 2 0 Table 1 Ceramic filter L72 0315 05 455 K M type L72 0316 05 CFW455E W T type RX Unit CF1 Item Nominal center frequency fo Center fre
28. Insulating sheet 0101 1 SN74LS247N V30 1030 56 F29 0014 05 Shoulder washer Q101 1 F29 0409 04 Insulating cushion LED 1 TA7060P V30 0087 05 7061 V30 0039 05 02 0505 05 Knob fixed spring RIT SQL 2 TC9125BP V30 1232 26 G13 0608 04 Cushion upper case 1 G13 0656 04 N Battery cushion accessory 1 uPC78MO5H V30 0680 10 uPC78MO8H V30 1222 16 01 4414 03 N Carton inside 1 1 4415 03 Carton inside T 1 Microprocessor 650 135 V30 1228 36 H10 2501 03 Styrene foam cushion A 10 2528 32 Styrene foam cushion 1 Power Module M57727 30 1239 86 25 0049 03 Accessory bag 1 25 0077 03 Protective bag Battery holder 1 pm GENERAL H25 0079 04 Protective bag MIC H25 0103 04 Protective bag Cord 1 Part No Description H25 0106 04 Protective bag TR 9130 Case upper 402 0069 05 Rubber foot 2 01 0925 02 02 0416 04 Foot accessory 1 13 0612 02 Angle ass y right J21 2754 04 N Battery holder accessory 1 13 0613 02 Angle ass y left J25 2716 24 P C board SCAN 1 A13 0614 04 Angle top 25 3099 04 P C board MODE 1 20 2445 13 Panel 25 3100 04 N P C board M CH MS 1 J25 3104 04 N PC board SQL H LOW TX OFFSET 1 7 801 0647 02 Panel escutcheon 432 0198 14 Hexergon boss 5 801 0648 02 Panel escutcheon J42 0409 04 Knob bush 1 803 0513 14 Switch mask M A B RIT J61 0019 05 Vinyl tre 1 BO3 0518 04 Switch mask MHz DS MS M
29. T 2 5 5 SOM ETT n 3 Ov FM 5 e 2 2 4 x D gt gt 106 2 8 I NT e 358 tg Y 2 a xi 212 2 o 5 8 R29 47K 3 a sx 92 FM FM 5 2 4 s 2 x ux 9 3 E amp x 5 z 5 5 2 001 8 8 8 5 gt 9 e o 514 a sm sy 55 3 325 52 4 m a ou 1 77 7 T 7 4 uU 5 5 BE 21 2 2 13 45 112 50 7 2 gt 5 623 924 Sle 2502240 68 Q10 28 1012 5 1 6 Qi 93 4 256167541 912 1 2501959 5 95 6 25K61 GR 043 14 25C1815 Y PUE 97 35 74 1 915 18 22 2SA1015 Y SR 2SC2536 22 246 28 496 17 18 23 5 8 4 0 Q9 17 18 23 24 2SC26031lD E gt aM amm Li p i r rs 01 3 452208 09 ANGO 019 2 060 152588 012 18 2 060 D4 7 22117440 013 0 1223 11 14 17 151555 D10 151587 xala vulg 711 av wan ae 1 1 R2 270 7 24 814 68 4 XF1 MCF 0165 0459 gt gt 15 R170 15K Ra 12 11 L2 C4 22 CA FINAL cs E 15 esL ab 1
30. and F ports pins 12 16 and B port pins 37 40 for input Diodes 151555 are provided where necessary for isolation The pulsed output from the E and F port is shut off Q29 033 25 1115 during transmission thereby improving the S N ratio during transmit e Power Supply for the Control Circuit There are three power supply circuits incorporated in the control unit one for the LED display consisting of Q9 uPC78MO5H one for back up consisting of 01 28C1815 Y and one for the microprocessor consisting of Q5 28CA96 Y When power is fed to the power connector with the power switch OFF the back up power supply operates to maintain the microprocessor memory At this time all ports are at the L level and the power consumption is minimum When the power switch is ON the other power supply circuits operate and the back up power supply is turned off by the control signal from the microprocessor Encoder and UP DOWN Inputs Fig 12 shows the output signal from the encoder 50 steps per rotation This signal is used to discriminate UP and DOWN counts within the microprocessor he UP counts starts when U D is H level at the down edge of the clock signal and the DOWN count when U D is L level Description Clock signal 400 kHz TX detection When RX it is L and when TX it is H BACK UP detection Normally H When B U it is L SQ detection Normally L When FM SQ MIN it is H
31. 0373 05 Mini connect wafer 3P 2 E40 0473 05 Mini connect wafer 4 21 40 0673 05 Mini connect wafer 1 40 0773 05 Mini connect wafer 7 1 40 0973 05 Mini connect wafer 1 9130 PACKING Packing Instruction manual 850 3964 00 K Styrene foam cushion 50 3965 00 10 2501 03 850 3966 00 50 3983 00 Protective bag Protective bag H25 0103 04 H25 0106 04 DC cord ass y 7A E30 1709 05 Foot JO2 041 6 04 21 5 T Accessory bag H25 0049 03 T91 0313 05 K W M plug 09 0471 05 Phone plug E12 0001 15 STBY plug 12 0401 15 Protective bag Huse 7A 7025 05 25 0079 04 Mounting bracket Flange nut Spring washer Flat washer Hex wrench Screw Protective bag H25 0077 04 Battery snap E91 0302 05 Battery cushion G13 0656 04 x 3 Styrene foam cushion H10 2528 32 Battery holder J21 2754 04 Round flat screw N33 3006 45 3 HO1 4415 03 T Fig 14 Note for back up battery Battery holder J21 2754 04 1 This Ni Cd cell is used to protect the memory when carrying the TR 9130 which can be used in your home or car It is mainly used for memory back up for short times 2 Please use a commercially available type 6F22 9V Ni Cd battery A manganese or alkali battery cannot be used 3 Charging When the power of the TR 9130 is OFF if the power of the battery etc is connected it is possibl
32. CONTROL UNIT X53 1210 11 066 w 2 E0 2 5 fod Tseves us ove x 052 9 5 36 975 a 522 1 501 43 052 cejo SET ny 8 I M cca ol Aeg J Pf sock ts 1 3 Cep pRive 7 wo ERES E O 14 l _ enive 8 Fr S 9775 H A ege s 8 15 Rx 27 FMR m 22 Y 4 a n L CT Ps 5 1 4 u NC SCR LJM Lo Lo 1 18612 RSS 22K 66 10 R54 100 5 x m 5 a 1 i k 5 5 AP lean I S 2 5 t a 8136 me 5 z 4 K az T 5 4420 2 5 9 9 215 T8 454 1111 513 5 a gt 1 MIC 20 gt a N 4 E TONE SW S RF METER AV FM DRIVE 13 TL RX 31 SOC 50 B 138 5 oor oce 2 53s 1 ses oje Move oce 5 4 O 00 39 5 8 3046 L fol I Rx 28 9 Ea Rx 27 gt aS LL 1 78 04 038 zc 4 III Bap 01 13 1555 8141 2 7K 270 73 022 0496 51 e 47 10v R80 330 VRG 100 e CAR 18 CAR 54
33. Display 147 99 145 99 W T The tone sounds Display 144 00 The tone sounds Display frequency increases b 100 Hz at each key press B UP DOWN Micro phone 1 MODE SW USB Connect MIC to the MIC terminal Momentarily press the MIC up siwtch The display frequency in creases continuously and tone is continuous 2 Press the UP switch con tinuously The tone sounds Display frequency decreases by 100 Hz at each key press 3 Press the DOWN switch 4 Press the DOWN switch continuously The display frequency de creases continuously and tone is continuous Adjacent spurious response characteristic RF POWER 26 7W T SCAN WIDTH 2 27017 BAND WIDTH 10kHz SCAN TIME 0 2 SEC VIDEO FILTER 10kHz INPUT ATT 3098 LOG REF LEVEL 1548 77 10dB DIV 145 10 MHz ADJUSTMENTS View XX OLZL ESX LINN 1 1 94781 04 LINN 18916 5 05 855 8 m Pdl a 2S 2 zuA 9 en e se o s 00 0981 OS X LINN 114 Zn 4 24 221 313 4 S YILIN on ET XX OZEL SSX LINN WI 2 0601 27 LINN 3A18Q H313W dd EYA 084 dl LL OVZL SUX LINN 1VNI3 TIN Oud 20 9130 DWV
34. IN dB f 20kHz FREQ DEVIATION IN kHz Reception sensitivity characteristics FM mode CARRIER FREQ 145 1MHz MOD FREQ 1kH2 MOD DEPTH 5kHz 048 0 63V AT 851 2541015 25 1675 25 1923 25 1775 25 1959 25 1815 25 2240 25 2538 22 2541012 25 2603 2SK19 2SK30A 2SK61 in rl 4 X TOP VIEW TR 9130 REFERENCE DATA S meter characteristics Frequency deviation FM mode FM and USB mode Eq EN 111 124141 2 MI S CL 5 211 WAL LA a er T LATE 2 NI 7 V BL CARRIER FREQ 145 50MHz EAT FM MOD FREO 1kHz 5 1 10 100 ANTENNA INPUT VOLTAGE IN CARRIER FREQ 145 50MHz MIC INPUT LEVEL IN mV Outupt power Reception sensitivity characteristics FM mode USB mode 20 HH 50 0 Output power High uh NE SC g 5 2 ES OUTPUT RESPONSE dB 50 10 12 14 16 18 0 3 10 ANTENNA INPUT VOLTAGE IN SOURCE VOLTAGE IN V ANTENNA INPUT VOLTAGE IN Note ANTENNA INPUT VOLTAGE value indicates as SSG s open circuit DC CURRENT IN A OUTPUT POWER IN W 25 1115 AQ 35 73 35 74 35 76 uPC78MO5H uPC78M08H NJM78L05A TA7060P TA7061AP c INPUT i OUTPUT 23
35. Xl 5 55 X28 Ob RS 1 i X00 958 009 tu 3 AO 61 O0 70 E 20 LESE 21 9 6 o I 4 Ao we pne wp wo ae Ag 1 SII 1999999 7 as 098 SEOT _ peo ic t s IS 76 E e _ W MEL 29 511 0121 66 LINN 1OHLINOO 15 29 11 0121 29 LINN 9130 ADJUSTMENTS Test Equipment gt lt Preparation gt 1 DC V M Unless otherwise specified set the controls as follows e High Input impedance 2 RF VTVM RF V M POWER VOL SW ON e input impedance 1 MQ and less than 2 pF SEND REC REC e Voltage range F S 10 mV to 300V RF GAIN VOL MAX Full Clockwise e Frequency range 150 MHz or greater SQUELCH VOL MIN 3 Frequency counter F count MODE SW USB e Minimum input voltage 50 mV VFO A B SW A e Frequency range 150 MHz or greater REV OFF 4 DC power supply HI LOW SW i e Voltage 10V to 17V variable RIT SW OFF e Current min NB SW OFF S MU DE SCAN SW OFF HOLD ON e Dissipation 20W MR OFF e impedance 508 MS OFF e Frequency range 144 MHz DS OFF 6 AF VTVM AF V M e input impedance 1 MQ or greater Notes e Voltage range F S 1 mV to 30V e When adjusting th
36. amp t2 027 23v FM 8 amp 518 54 8 oS E x Spe 8 L TI 54 29 65 RX 32 BC st ee TS 5 s 926 o 3 4 LT rerse se_1 6 2 m 2 BACK UP 85 m ow 2 10489 2 25 Modi AES POWER Sw 56 01 n 28 250 212 pie aea 5 48 518 R33 470 Te 191 4 BK C174 470P T QI 3SK 76 0 016 1 25K 30A GR Q2 55 74 L 9017 25 3 0 03 8 19 20 22 25 918 1 25 1015 2501675 0 Q21 09 14 15 28 32 34 43 45 47 Q26 27 37 25 1775 gt 25 2603 D E 933 2 1115 D oF Q10 35 36 41 2SC1815 Y Q 38 1 MB3713 Qii 13 44 2 3SK73 GR 039 40 2502 240 68 Voltage measurement conditions 145 000 MHz MODE USB RX signal TX p I v FINAL UNIT X45 1240 11 CAR UNIT X50 1870 t a sas wees xn Lo M57727 01 MI402 DS 151555 Q2 3 5 2561815 1 02 M1303 06 u13B 22 04 25A1015 Y 03 4 151587 4 MES c 41 Lt im lt gt 13 3 142 7 2 Ovt7V 8 R4 560 2 o 2v 13 3v 03 2v 7 3 8 712579 0101 Q3 2541012 0 DRIVE 8 FMC
37. break in IS performed by 019 016 At key down 019 turns on to charge C79 which holds Q18 on delay adjustment is VR7 Q18 then controls Q16 which switches the ST PTT line to _ ground turning on the transmitter The signal having entered the final unit 16 power amplified by the power module 57727 and delivered to the antenna through the TX antenna switch diode 01 1402 LPF low pass filter and protector directional coupler The M57727 provides stable characteristics due to controlled power and idle current IMD intermodulation distortion and f characteristic Operating voltage 25 17V Current consumption 10A 30 110 C Storage temperature 40 110 C Base bias voltage 10V Table 4 Power module M57727 V30 1239 86 1 INPUT 2 1 3 BIAS 4 Vcc2 5 OUTPUT 6 GND Fig 2 Power module M57727 Equivalent circuit PLL Circuit X50 1860 00 Fig 3 shows the basic configuration of the PLL circuit The signal generated by the VCO Q9 2SK19 CR after passing through the buffer amplifiers 010 25 1923 0 011 2SK61 GR is mixed with the HET heterodyne signal by 012 25 1923 where it is converted to a 5 5 to 949 MHz 7 49 MHz signal This signal 1 amplified by Q5 2SC1675 L and applied to TC9125BP Q6 functions as a phase comparator frequency divider and program counter It compares the phase of the data 1 Mz 100 kHz 10
38. kHz from the control unit with the phase of the 10 kHz reference signal obtained by dividing down the 9 MHz crystal oscillator Any error from the reference is output from Q6 as a correction voltage for the VCO This voltage having passed the active low pass filters Q7 and O8 is applied to the VCO varactor diode to control the VCO Q9 The 14 2 MHz component of the VCO HET signal 15 generated by the crystal oscillator O1 25 1675 0 and the signal is multiplied to 127 8 MHz by D2 18599 and input to the mixer Q2 28C 192310 The frequency of the crystal oscillator is controlled by D1 1SV54GC DC signal corresponding to the to 9 9 kHz signal from the control unit X53 1210 11 62 is applied to this diode to vary the frequency in the O 9 9 kHz range The frequency shift in each mode is performed by the microprocessor the output being fLSB 3 0 kHz for 1058 and 1 5 kHz for fFM 9130 CIRCUIT DESCRIPTION SW Q12 13 25 1815 2 TX RX MIX F CONT O1 15 505 07 8 2SC2240 G R x 2 MIX P D 9MH 5 oes emi um mem p mad 5 5 7 49MHz W T fH 9 49 2 5 9 F CONT 10 1 2 DIGIT DATA 07 9 9kHz DATA Fig 3 PLL unit Block diagram Tri state buffer frequency select PouT Programmable counter pp 2 N Pape X10 X100 X1000 Mode digit digit digit digit sett
39. 2 Dp2 Cathode f Anode 5 01 Dp1 Cathode Dp4 Anode 6 e Anode Dp3 Anode 7 d Anode Dp2 Anode 8 c Anode Dp Anode Fig 9 5 digit LED SL 2504K INI INA mut 4 bit input terminal Output terminal for data latched A01 by clock pulse Output terminal for data latched BO 804 by clock pulse Clock signal terminal for latching 4 bit input signal 4 bit flip flop A Clock Input signal is latched at the rising of clock signal Clock B Table 6 Terminals of the MN1201A Clock signal terminal for latching 4 bit input signal in 4 bit flip flop B Input signal is latched at the rising of clock signal 15 10 6 7 6129 Fig 10 MN1201A block diagram e Reset Circuit Lambda diode 07 522 is used to detect the power supply voltage when the power supply voltage exceeds the valley voltage about 3 5 V of the lambda diode the diode is OFF and 25 1015 is ON so that an L level signal is applied to the reset terminal 7 of the microprocessor to reset It Power supply voltage 5V Valley voltage OV emitter voltage Micro 5V OV Reset Fig 11 A Reset timing Current Voltage Valley voltage Fig 11 B Lambda diode characteristics 9130 CIRCUIT DESCRIPTION Switch Circuits The individual switch circuits perform their functions by the output from the microprocessor E
40. 29 0413 05 1P connector ifemate 1 N35 3004 46 Bind screw 8 1709 05 55 7 1 35 3006 46 Bind screw 10 E31 2140 05 Connector with lead SP 1 N87 3006 46 Tap tight screw 10 91 0302 05 Battery snap accessory 1 N89 3005 46 Bind tap tight Earth lug 5 7025 05 Fuse i7 RO1 4411 05 N Pot B with SW SQL H L VR102 2 4 F10 1206 04 Earth plate Drive 3412 05 Pot 10K with SW VOL VR101 1 15 0622 04 Shadow mask meter R19 3406 05 Pot 10K B x 2 RF RIT VR103 104 1 1 15 0627 04 Shadow mask LED RS14AB3A121J MF 12042 1W R103 1 9159 Part 501 2421 05 501 2430 15 501 1421 05 540 1401 05 540 2403 05 540 2406 5 540 2417 05 550 1406 05 559 1405 05 0216 05 191 0311 05 T91 0313 05 WO2 0308 05 X41 1400 11 41 1440 45 1240 11 47 1090 11 47 1090 61 X50 1860 00 1870 11 1870 51 1870 61 1210 11 1210 62 1320 00 5 1320 11 Part Re marks Z Z Z Z Z Z Z Z Z Z 222 ks Description Rotary switch MODE Rotary switch M CH Rotary switch TX OFFSET Push switch MS Push switch TONE Push switch TONE Push siwtch MR Tact switch MIC Key board switch SCAN HOLD Speaker Microphone Microphone Rotary encoder Switch unit Mounting bracket assy Final unit Drive Drive unit PLL unit CAR unit CAR unit CAR unit Control unit Control unit RX uni
41. 2SK6 1 GR and is converted to an SSB signal after passing through the crystal filter After one stage of amplification by Q44 this is applied to the trans mitter balanced mixer Q5 6 2SK61 GR on the TX unit In the FM mode the audio signal from the first mic amplifier Q1 is limiter amplified by Q2 7 then directly modulates the crystal oscillator L2 output at 10 695 MHz O3 is the Oscillator and Q4 an emitter follower Audio is applied to varactor diode 01 152208 The subsequent circuit configuration 18 common in all modes The signal having passed through the TX mixer Q5 Q6 is band pass filtered to remove the unwanted spurious signal component The is tuned by varactor diodes D3 06 controlled by the PLL phase locked loop VCO voltage controlled oscillator correction voltage The BPF output is amplified by Q7 3SK74 L also tuned from the PLL by 07 and drives the final unit Q8 25 2538 08 provides bias stabilization for Q8 The ALC samples the signal output from the driver 08 This is rectified by diodes 09 010 and amplified by Q9 2SC2603 E and applied to both the second gate of the predriver Q7 and IF amplifier 044 The source voltage of predriver Q7 is controlled for HI LOW power Switching and protection operation in FM CW mode For CW keying the B line to the transmitter balanced mixer is controlled through 021 which is controlled by switching 020 2SA1015 Y CW
42. 33 50V CK45B1H102kK C 0 001 CK45B1H222K 0 0022 CK45B1H471K C 470pF CK45B1H103Z2 C 0 01 CQ92M1H103K ML 0 01 CQ92M1H332K ML 0 0033 CQ92M1H333K 0 033 CS15E1C1R5M T 1 5 16V CS15E1VRA7M 0 47 35V C90 0804 05 Cap 0 001 C90 0820 05 E 470 16V small C91 0131 05 001 SP 91 0456 05 0047 SP C91 0457 05 C 0 022 SP 04 0154 05 23 0046 04 Square terminal E40 0273 05 Mini connect wafer 2P E40 0373 05 Mini connect wafer 3P E40 0473 05 Mini connect wafer 4P E40 0573 05 Mini connect wafer 5P E40 0873 05 connect wafer 8P 40 0973 05 Mini connect wafer F20 0516 05 Insulating sheet F29 0014 05 Shoulder washer 0110 L15 0016 05 _ Low frequency choke L31 0180 05 Tuning coil L31 0267 05 Tuning coil L31 0313 05 Tuning coil L33 0615 05 Choke coil 15 L34 0452 05 VHF coil 396 L34 0691 05 coil 545 L34 0886 05 Tuning coil 5 5 L34 1043 05 N VHF 5 5 5 1151 C38 23 57 63 27 28 48 C26 C39 46 C40 42 43 47 35 36 C19 C18 C10 20 21 C76 4 7 11 16 72 70 82 87 86 5 15 C3 6 12 C79 C2 8 17 29 33 49 51 53 56 58 59 65 69 77 78 80 84 85 C83 C25 C24 34 45 54 61 89 90 13 C9 C14 C81 C64 C55 60 C71 1 22 73 73 88 7 50 75 120 12 113 14 L6 L3 L17 L18 L11 L15 WN G Q gt Q
43. 409 05 STBY jack E11 0401 15 Power jack Back up 4 08 0304 05 E30 1665 15 UHF type receptacle E04 0152 05 Key jack E11 0405 05 Bind screw x 2 N35 3008 46 Final unit Power module M57727 Heat sinker painted X45 1240 11 V30 1239 86 of Fig 22 Rear panel 17 9130 PC BOARD VIEW SWITCH UNIT X41 1400 11 Component Side View ope EX AS E1 M NB D S FINAL UNIT X45 1240 11 Component Side View 01 M57727 Q2 3 5 25 1815 04 2SA1015 Y D1 MI402 D2 MI303 D3 4 181587 D5 151555 06 0158 25 1015 25 1675 17 2562240 25 2538 22 2541012 C31 Attachment method of 2SK61 10 17 ga 4 0 Solder the leads of the power uPC78MOBH TA7061AP VD1223 Transistor Terminal Indication 18 BOARD WIENS VR 9139 DRIVE UNIT K47 1090 11 61 Component Side View 5 SCAN UNIT 325 2716 2 4 Component Side View G YT QA MODE UNIT 1325 3099 Component Side View S UNIT 325 3100 904 Vent Side View MS SQL TX OFFSET UNIT J 25 3104 04 Component Side View PLL UNIT 450 1860 00 Component Side View 2 Nm vC BOARD NEN 2 3 WAWA T w uh 4 1 E L 3 1 A 1 3 3 4 75
44. 6 05 Front glass Grill cloth B10 0640 04 Case Lower A010329 02 805 0723 04 Connector with lead E31 2140 05 f lt lt Rubber foot x 2 lt 2 J02 0069 05 11 4 Panel escutcheon f 801 0647 02 K W M SP grill cloth Pd BO1 0648 02 T BO5 0714 04 SS Round screw 4 Bind screw x 10 Model name Knob bush plate 33 2606 45 35 3006 46 840 2610 04 J42 0409 04 840 2611 04 Fig 18 Case 840 2612 04 W M Fig 19 Panel 15 9130 DISASSEMBLY 02 6 42 25 2 x 8 qouy usng 42 80 9190 22 3NO1 3997 usnd 70 2920 62 YW SW Z x qouy usng 0 6t LO 127 qouy qouy 80 8080 209 i SPbPZ OZ v 6uuds qouy 0 6240 2 80 9190 22 TOS qouy SQ v qoux ysng 50 8290 23 Qa 4 qouy usng PO Zt40 EZ 9093 70 8090 223 lld 8 v SN IW p qoux usng 70 62 10 227 q 50 5050 209 22 Buuds qouy 90 1890 903 19205 3 49 0 1290 408 uo u31nos epis 87 900 9 M6195 3 90 0920 127 2 qouy 70 2210 23 2 x v qouy 71 8 90 208 90 6180 608 t x 8 5 9 5 N 4 Z X A815S 1814 6 900
45. Memory scan stops The MHz decimal flashes The BUSY indicator lights The next memory chancel is displayed when the scan SW is depressed 4 SQ control Turn until Scan starts BUSY LED goes off 5 HOLD SW Scan stops The MHz decimal flashes 6 SCAN SW ON Scan starts 13 SCAN SW Scan stops The MHz decimal stops flash ing 72 51 5 2 B Receive HX The MHz decimal flashes 9 MS SW OFF Display 5 007 1 SQ control MAX full Display should vary in 1 kHz CW steps and scan within 1 MHz SCAN SW ON 0 000 0 999 6 SCAN 2 SQ control MIN full Scan stops The MHz decimal flashes 3 SQ control Turn until Scan resumes BUSY LED goes off 7 Transmit CARRIER FREQ 145 10 2 RF POWER 26 5W SCAN WIDTH 100MHz DIV BAND WIDTH 100kHz SCAN TIME 0 2 SEC VIDEO FILTER 1OkHz INPUT ATT 1048 LOG REF LEVEL 15dBm 10dB DIV By HPF 145 10 MHz 00 4 HOLD SW Scan resumes 5 SCAN SW ON The MHz decimal flashes 6 Transmit Scan stops The MHz decimal remains on 7 Receive Scan stops The MHz decimal remains on 1 MODE SW FM1 The tone sounds TX OFFSET f 147 40 145 40 Transmit 2 147 39 145 39 Transmit 3 144 59 TX OFFSET Transmit 4 f 144 60 Transmit
46. QKENWOOD SERVICE MANUAL 9130 2m ALL MODE TRANSCEIVER CONTENTS CIRCUIT DESCRIPTION Q RX Unit X55 1320 00 11 21 D a CAR Unit X50 1870 11 51 61 22 PACKING 200222 Control Unit X53 1210 11 62 22 DISASSEMBLEY dt aK u mig RAIS ADJUSTMENTS 24 PC BOARD VIEWS LEVEL DIAGRAMA laaya 31 Switch Unit X41 1400 11 18 BLOCK DIAGRAM os orae p evi vis Pes pi EO Ma e ee Final Unit X45 1240 110J 18 SCHEMATIC 33 Drive Unit X47 1090 11 61 19 REFERENCE DATA bv les DR 35 PLL Unit X50 1860 00 20 SPECIFICATIONS BACK COVER 9130 CIRCUIT DESCRIPTION Receiver Circuit Configuration front end employs a dual gate MOS FET Q1 3SK76 and a helical resonator L3 The first mixer 02 3SK74 followed by 2 stage MCF Monolithic Cryst
47. R 805 07 13 04 _ Grill cloth case upper K21 0749 03 Main knob 1 BO5 0714 04 _ SP grill cloth 21 0750 04 Knob C RF GAIN 1 05 0723 04 Grill cloth case lower K23 0727 04 Knob A MODE M CH 7 0621 03 Side escutcheon K23 0729 04 Knob D RIT SQL 2 810 0640 04 Front glass K23 0733 04 Knob E TX OFFSET 1 B30 0821 05 Meter lamp 70 mA K23 0742 04 Knob VOL 1 B31 0631 05 Meter K27 0408 04 Push knob A M NB RIT 4 n B40 2610 04 Model name plate K K27 0409 04 Push knob B SCAN HOLD 5720 40 2611 04 Model name plate T 27 0416 05 Push knob DS MS 3 40 2612 04 Model name plate W M K27 0425 05 Push knob F REV 1 846 0058 10 _ Warranty 27 0430 04 Push knob 1 B50 3964 00 Instruction manual K K29 0762 04 Knob HI LOW 1 B50 3965 00 Instruction manual T B50 3966 00 Instruction manual W 09 0256 05 Screw earth 1 B50 3983 00 Instruction manual M N13 0307 14 Ornamental nut VOL 1 14 0512 05 Nut 4 06 0651 05 metal socket 1 N3O 2004 46 Round screw MS 1 7 0651 05 metal consent 1 N30 2604 46 Round screw 10 9 0471 05 4P plug accessory 1 N30 3006 46 Round screw Tr 1 12 0001 15 Phone plug accessory 1 32 3005 46 Flat screw 10 12 0401 15 STBY plug accessory 1 N32 3006 46 Flat screw 5 E23 0015 04 Earth lug LED 2 N33 2606 45 Round flat screw SP 4 E29 0412 05 1P connector male 1 33 3006 45 Round flat screw 19
48. SB CW Less than 10x 10 6 FM Less than 20 1079 Less than 60 dB LOW Less than 53 dB Better than 40 dB Better than 40 dB 5 kHz Dynamic microphone with PTT switch 5000 Receiver Section Circuitry Intermediate frequency Receiver sensitivity Receiver selectivity Spurious interference Auto scan stop level Audio output Note Circuit and ratings are subject to change without Squelch sensitivity FM Double conversion superheterodyne SSB CW Single conversion superheterodyne Tst IF 10 695 MHz 2nd IF FM 455 kHz FM Better than 0 5 uV for 30 dB S N Better than 0 25 0 2 W T for 12 dB SINAD 0 25 O 2 for 10 dB S N FM 6 dB More than 12 kHz K M 14 kHz W T 60 dB Less than 24 kHz 30 kHz W T SSB CW More than 2 2 kHz 6 dB SSB CW Less than 4 8 kHz 60 Better than 70 dB 0 2 uV K M 0 16 uV W T Threshold Less than 0 2 uV Threshold More than 2 0 watts across 8 ohms load 10 dist notice due to developments technology ee ed m Ir t a a product of TRIO KENWOOD CORPORATION 17 5 2 chome shibuya shibuya ku Tokyo 150 Japan TRIO KENWOOD COMMUNICATIONS 1111 West Walnut Street Compton California 90220 U S A TRIO KENWOOD COMMUNICATIONS Gm
49. al Filter XF1 provides excellent two signal characteri stics and high sensitivity The IF signal from the MCF is applied to both SSB and FM circuits The SSB signal having passed through the NB Noise Blanker 07 D8 gate and crystal filter XF2 10H2 2SD is amplified by IF amplifiers Q11 013 and demodulated into an audio signal by the product detector DTO s DIS In the NB circuit the signal from the MCF is differential and 04 and is then applied to the second mixer Q5 The noise signal converted to a 455kHz signal is limited by D2 D3 two stage amplified by 07 Q8 rectified by 04 D5 and operates the NB gate through 010 a switch transistor Q9 is the AGC fier The NB on off control is located on the front panel The AGC picks up the signal from the IF final stage Q13 amplifies the signal by 014 rectifies this by 014 015 It is then DC amplified by Q15 and the AGC voltage is applied to the three stages of IF amplifier Q11 Q13 3SK73 and the RF amplifier Q1 3SK76 It is also used to drive the meter Q17 is the signal meter amplifier 018 is the meter driver The time constant is automatically select ed according to the mode by O16 D16 FAST for CW and SLOW for SSB The 558 squelch is a noise type utilizing FM squelch circuit The SSB IF signal is picked up from the buffer amplifier 014 amplified by 019 and converted to a 455kHz signal by Q20 This signal is applied to the FM
50. bH D 6374 Steinbach TS Industriestrasse West Germany TRIO KENWOOD ELECTRONICS N V Leuvensesteenweg 504 B 1930 Zaventem Belgium TRIO KENWOOD AUSTRALIA PTY LTD 4E Woodcock Place Lane Cove N S W 2066 Australia 1982 2 PRINTED IN JAPAN 51 0954 00 K M T W 1500 G 1
51. e to charge The charging current is about 3 mAH about 48 Battery snap hours is required to fully charge the empty 75 mAH E91 0302 05 type 6F22 9V Ni Cd battery pack 4 Discharging Since the back up current of the TR 9130 is about 2 5 mA the memory retention time is bout 24 hours If you dont use the TR 9130 for a long time remove the Ni Cd battery pack connector 5 Please refer to the instruction manual of the TR 9130 d 1 for installation Round flat screw x 3 Battery cushio G13 0656 04 Add if necesse Battery cushio Battery N33 3006 45 Fig 15 14 9130 DISASSEMBLY Hexagonal bolt x 4 ENS Meter lamp 8V 70 mA NS 830 0821 05 Angle ass Left Unsolder Flange nut x 4 Spring washer x 4 Remove screws Hexagonal d Angle ass y Right 0 Remove tape Unsolder wrench Screw 9 7 Flat washer hd Protective bag H25 0049 03 ATE Ue Meter 1831 0631 05 Fig 17 Meter Fig 16 Mounting bracket ass y X41 1440 00 ee D105 Case Upper PR5532K 1 0924 03 44B Bind taptight x 2 89 3005 46 0103 MA Pans G13 0608 04 D104 A20 2445 13 PY5532K SPL 244B y Earth lug x 2 23 0015 04 0106 SLP 114B Grill cloth 05 07 13 04 Bracket speaker N14 0512 05 Speaker 07 021
52. e trimmers or coils use a non induced e Frequency range 50 Hz to 10 kHz adjusting rod of bakelite etc 7 AF Generator AG e When adjusting the RX section never transmit to prevent e Frequency range 100 Hz to 10 kHz SSG damage e Output 0 5 mV to 1V e Connect MIC connector as shown in Fig 23 8 Linear detector e Theoutput level of SSG is indicated as SSG s open circuit e Frequency range 144 MHz 9 Field strength tester e Frequency range 144 MHz 10 Directional coupler 11 Oscilloscope 3 DOWN e With horizontal input and high sensitivity UP 6 12 Standard signal generator SSG 2 STBY e Frequency range 144 149 MHz e Modulation amplitude and frequency modulation 6 e Output 20 dB 100 dB 13 AF Dummy load OPEN e 82 5W approx generator Fig 23 MIC terminals e Must generate ignition like noise containing har monics beyond 144 MHz 15 Sweep generator e Frequency range 144 149 MHz view from front panel side 24 aree 9130 ADJUSTMENTS lt 9130 Measurement Adjustment Item Condition Test Ter Unit Unit Parts equipment minal DC V M Voltage DC V M DRIVE EE 6 check in TX 6 9 DRIVE 9 0V Specifications Method Check 7 7 8 3V 7 7 8 3V Less than O 1V Voltage check in RX mode 5 8 6 2V 4 8 5 2V 5 8 6 2V Check Less than 0 1 0V
53. er 25 1 1 7pF C39 1 5 1 3pF 44 1 4 C4 46 2 O 5pF C12 13 2 C C41 59 2 iC C14 1 C 8pF C15 1 C 10pF C16 50 4 C 100pF C9 10 2 C 15pF C43 1 C 22 C3 11 49 3 C 33pF 24 25 2 56pF C6 1 100pF C19 21 2 E 100 10V C45 E 47 10V 7 22 61 3 10 16V C17 53 2 E 4 7 25V C51 1 1 50V C38 1 C 0 001 26 29 36 47 9 48 54 57 0 01 2 8 30 31 52 10 55 56 58 62 63 ML 0 022 20 32 2 ML 0 047 35 1 T 22 10V 33 34 2 0 47 35V C1 1 7150 Re marks C91 0457 05 E23 0046 04 E40 0473 05 E40 0673 05 E40 0873 05 L32 0624 05 L33 0648 05 L34 0820 05 L34 0901 05 L34 2073 05 L40 1021 03 L40 1501 03 L40 3391 03 40 4711 03 177 0934 05 77 0962 05 12 3416 05 12 6403 05 R92 0150 05 PARTS LIST C05 0030 15 05 0031 15 45 1 020 CC45CH1H220J CC45CH1H270J CC45CH1H470J CC45SL1H221J 4 1 220 Description Ref No Q ty Part No Description Ref No Q ty 0 02 SP 18 23 37 60 4 4 1 331 330 16 1 71 CEO4AW1CA70M E 47 16V 4 6 2 Square terminal 3 Mini connect wafer 1 CK45F1H103Z C 0 01 C5 13 15 3 Mini connect wafer 6P 1 Minteotinact water BP 1 CQ92M1H223K IML 0 022 C11 1 OSC coil VCO 111 3 1 23 0047 04 Square terminal 1 Choke coil 4 7 14 1 E40 0373 05 Mini connect wafer 3P 2 Tuning coil L15 1 E40 0573 05 M
54. f 145 98 W T 147 00 Spectrum analyzer i 4 RF meter 7 LOW power The meter reads 8 ona scale of 1 10 HI LOW SW HI HI LOW SW LOW f 144 00 or 145 98 W T 148 00 K M 5 Protection 145 00 W T 148 00 FINAL FINAL VR3 HI LOW SW HI ANT terminal on rear panel open DRIVE amp PCH VR2 Adjust the VR2 CW set the voltage the point where the voltage is increased rapidly Less than 2 3A total current VR1 L26 29 MAX 3 Connect power meter 6 FM 1 Mic terminal AG 1 kHz 15 DRIVE deviation Linear detector 2 AGoutput 1 kHz 4mV 7 RF Disconnect the 10 LT connector CAR level on the DRIVE unit 144 50 MODE SW CW 2 Reconnectthe LT connector on the DRIVE unit Adjust to obtain the wavetorm shown Oscillo scope Power meter 8 CAR point 1 MODE SW USB MIC terminal two tone signal 400 Hz 2600 Hz 100 AG 400Hz 10kQ AG 2600Hz eee 27 4 71 2 MODE SW 158 1 9130 Item Condition 9 CAR suppres MIC terminal open sion MODE SW USB o
55. gnal input MIC UP input Normally L and when UP it is H MIC DOWN Normally L and When DOWN it is H OO OQ DO DO 60 OOO Matrix input in combination with EO FO Ground CLOCK signal 400 kHz Table 7 u PD650C 135 terminal function 9130 CAPACITORS 45 TH 1 2 3 4 l ceramic electrolytic etc 2 cc Shape round square etc d V ornp coetticient Temperature coefficient Ie ee 2nd Word CC45 TH Example Tolerance Destination SEMICONDUCTOR 150 220 330 470 750 120 250 470 60ppm PARTS LIST 220 4 5 6 4 Voltage rating 5 Value 6 Tolerance Resistors not listed in this parts list are standard fixed carbon composition 1 4W or 1 8W The resistance values in ohms are indi cated on the schematic diagram 1N60 151555 152588 15599 ITT410 MA522 8 MI402 0158 151212 VD1223 Varistor 152208 15 505 15 54 PR5532K PY5532K SL 2504K SLP 144B SLP 244B 2 057 XZ 060 XZ 070 Zener Diode 25 1012 2SA1015 Y 2SA1115 D 11 0051 05 11 0076 05 11 0414 05 V11 1277 86 V11 7761 86 V11 1173 46 V11 5273 66 V11 5260 16 V11 6460 26 V11 1262 06 V11 1262 46 V11 0317 05 V11 1260 36 V11 4173 46
56. ing latch latch latch latch latch E 12 wwe J m 1 2 USB CW 133 3065MHz 137 3064MHz 5 5 MHz 9 49MHz 127 8065MHz 127 8164MHz 14 200722MHz 14 201822MHz 550 949 127 8065MHz 127 8164MHz 14 200722 2 14 201822MHz 549 948 S ANDE gt USB CW 133 3065MHz 135 3064MHz 55 MHz 7 49MHz 127 8065 127 8164MHz 133 305 MHz 135 304 MHz 5 49MHz 7 48MHz 127 8065 127 8164MHz 14 200722MHz 14 201822 549 748 549 748 133 3035MHz 135 3034MHz 5 49MHz 7 48MHz 127 8065MHz 127 8164MHz 14 200722MHz 14 201822MHz Table 5 PLL frequency configuration Control GND 9 9130 CIRCUIT DESCRIPTION Control Circuit X53 1210 11 62 Data from the E and F ports pins 12 16 sequential e Indicator ly switch the display through 022 26 25 1959 light The indicator is a dynamic 5 digit LED display ing the display Control of the 100 Hz and 1 MHz digit The D port pins 8 11 BCD data from the microprocessor decimals from the C3 port pin 5 and F2 port pin 18 15 Q12 is converted to 7 segment data by decoder driver performed by 020 28 2SA1015 Y and 021 27 011 SN74LS247N which drives 013 19 2541115 2SC1815 Y C 71 82 5 CONVERTER UP Q34 35 7 8 prd DOWN 2SC1858 Y 25 1815
57. ini connect wafer 2 Tuning 156 2 40 0673 05 Mini connect wafer 1 Tuning coil L16 1 40 0873 05 Mini connect wafer 2 Ferri inductor 1mH 111 2 7 9 4 40 0973 05 Mini connect wafer 1 Ferri inductor 15uH L8 1 Ferri inductor 3 3uH 12 14 2 11 0605 04 Cushion 2 1 1 Ferri inductor 470uH L10 17 2 29 0403 04 Transducer plate 1 Crystal 9 MHz 1111 Crystal 14 20398MHz 13 L30 0503 05 ve d Trim pot 7 30 3006 46 Round screw 2 Trim pot A70k N35 3006 46 Bind screw 2 A 22b lu 1 T TENE cue lid 332 1 2W R2 1 70 K M RC0O5GF2H330J So ARRIER UNIT X50 1870 XX 11 K M 51 T 61 W 2 830150 es is Ceramic trimmer 20pF rca 3 2 14 2 1003 MF 100kQ 1 4 R49 53 2 Ceramic trimmer 1 TC1 1 RN14BK2E2003F 200 1 4W R50 55 2 RN14BK2E4023F MF 402KQ 1 4W R51 56 2 2pF C11 RN14BK2E4703F 470kQ0 1 AW R54 9574 22pF C2 12 RN148K2E8063F MF 806 0 1 4W R52 57 2 27pF x 47pF C3 R90 0526 05 Resistor block 27k amp x 4 R59 60 2 220pF C9 10 R90 0530 05 Resistor block 2 7 0 x 4 R58 1 R90 0532 05 Resistor block 27k2x 5 R61 1 22 W TC17 18 T95 0051 05 Transducer BZ 1 1 CK45B1H102K 1032 92 1 472 CS15E1A150M CS15E1VORIM E23 0046 04 E40 0273 05 E40 0773 05 L30 0281 15 L40O 1021 03 L40 1511 03 L77 0856 05 L77 0857 05 R12 3521 05 R92 0150 05
58. l S Meter not deflects This adjustment is needed when S Meter deflects by noise VR2 i Adjustment Meter reading 2 SSG output O 4 Adjust the frequency for maximum S Meter reading 3 SSG output 20 dBu Pulse noise should be reduced S N more than 10 dB 7 558 sensitivity 1 SSG output 8 dB W T 6 dB K M 8 SSB squelch MODE SW FM2 f 145 10 W T 146 10 K M SSG output OFF 2 MODE SW USB SSG output 13 1 26 9130 ADJUSTMENTS TX SECTION gt Measurement Adjustment Condition Specifications Item Test equipment methog 1 Disconnect the LT connector on the DRIVE unit MODE SW FM1 TX mode 1 FM CAR 10 6950 MHz MAX Repeat f counter 1 Disconnect the LT 10 connector on the DRIVE unit f 145 00 W T 146 00 K M DRIVE ai 5s full M TC3 MAX 2 Drive 2 Connect power meter to DO terminal Greater than 17W Greater than 17W Less than 6 2A b 3 Power Reconnect 00 terminal coaxial cable f 144 00 or 145 98 W T 148 00 f 145 00 146 00 Min 10 7 MHz Less than 60 dB spurious
59. ould vary in 1 kHz steps 4 digits display 4 DS SW OFF Turn the VFO dial The display should vary in 5 kHz K M 12 5 kHz W T steps Turn TR7 CW Turn VR7 CCW More than 25W DELAY time should become longer DELAY time shou d become storter Greater than 2 5 kHz 5 MODE SW Turn the VFO dial 6 DS SW ON Greater than 2 5 kHz Specification as The display should vary in 10 kHz 25 kHz T steps The display should vary in 5 kHz 25 kHz W steps 1 MODE SW FM2 MEMORY SW 1 145 001 M SW ON 2 MEMORY SW f 145 002 M SW ON 3 MEMORY SW f 145 003 M SW ON 4j MEMORY SW f 145 004 M SW ON 5 MEMORY SW f 145 005 M SW ON 6 MEMORY SW f 145 006 M SW ON 7 MEMORY SW f 145 007 M SW ON The tone should be heard when the M SW is pressed Pulsed tone sounds when the M SW is pressed Stop pulsed tone when the M SW is pressed 9130 ADJUSTMENTS emu 4 Memory call 4 MEMORY SW Display 145 005 Display 145 004 Display 145 003 Display 145 002 Display 145 001 19 MR SW OFF _ Display 145 007 1 SQ control MAX full Display scans repreatedly from MS SW ON 5 001 5 006 by 1 CH steps The MHz decimal flashes 2 SQ control MIN full CCW
60. quency Pass bandwidth Attenuation bandwidth Table 2 Crystal filter L71 0215 05 10H2 2SD RX Unit 2 Nominal center frequency fo 10 695 MHz Pass bandwidth 17 5 kHz or more at 3 dB I 25 kHz or less at 40 dB Attenuation bandwidth 45 kHz or less at 60 dB 70 dB or more within 1 MHz Spurious level 40 dB or more at fo fo 500 kHz Spurious level 80 dB or more at fo 910 kHz 10 kHz 6 dB or less Ripple within 455 5 kHz 3 dB or less 35 dB or more Rating 10 695 MHz Within fo 200 Hz at 6 dB 2 2 2 or less at 6 dB 31 5 kHz or less at 20 dB 2 4 less at 60 dB Less than 2 dB Less than 5 dB 60 dB or more within 40 kHz 6000 1076 15 pF 10 Rating Guaranteed attenuation 1 0 dB or less 1 5 dB less Impedance 3 kQ O pF Table 3 MCF L71 0216 05 RX Unit XF1 9130 CIRCUIT DESCRIPTION Transmitter Circuit Configuration The signal from the microphone is amplified by 01 25 2240 which is common to both SSB and FM circuits The SSB signal is fed to the RX unit where it first passes through the SSB MIC GAIN trimmer is two stage amplified by 039 40 25 1815 and then enters the balanced modulator 039 042 together with the carrier 10 695MHz amplified by 041 The modulator is balanced by and TC2 for minimum unwanted carrier in SSB The resulting DSB signal from the modulator is buffer amplifier by Q42
61. r MODE SW USB MIC terminal AG 1 mV 10 SSB MIC gain ADJUSTMENTS Measurement Adjustment Oscillo SCOpe Or Spectrum analyzer Power LSB Method Specifications More than 50 dB 5 kHz 1 5 MIC terminal AG 1 11 Side tone MODE SW CW terminal on the rear Key down 5 kHz 15 mV control centered Connect a key to the KEY panel Confirm CW DELAY DELAY W Type ONLY MODE SW 1 TONE SW ON T TYPE ONLY MODE SW 1 Connect TP5 and TPL TONE SW ON TX mode f counter Linear detector f counter Linear detector lt Micro processor operational check gt Condition 1 Disconnect DC power Reconnect after waiting 20 sec Disconnect the BACK UP battery if a battery is in stalled 2 VFO A B SW B 3 VFO A B SW A MR SW MEMORY SW 1 1 Reset check Specification Display 5 000 0 Display 4 000 0 Display 5 000 0 4 MEMORY SW 2 6 5 MR SW OFF Display 4 000 0 2 Dial step and 1 MODE SW USB CW number of LSB digits dis Turn the VFO dial clock played wise one click at a time until the display becomes 5 001 O then turn it counterclockwise until 4 999 0 is displayed 2 DS SW ON Turn the VFO dial 3 MODE SW FM2 Turn the VFO dial The display should vary in 100 Hz steps 5 digits display The display should vary in 5 kHz steps 5 digits display The display sh
62. t RX unit Description Ref No SWITCH UNIT X41 1400 11 CK45F1H103Z 23 0047 04 E40 0373 05 40 0673 05 E40 0773 05 E40 1273 05 N30 2604 46 R92 0150 05 540 1403 15 S40 1404 15 540 2404 05 540 2405 05 540 2409 15 001 1 Square terminal Mini connect wafer Mint connect wafer 7 12 Mini connect wafer Mini connect water Hound screw Short jumper Push switch M SHIFT REV Push switch DS Push switch A B RIT Push switch NB Push switch M PARTS LIST N N Part No CC45SL2H101J CC45SL2H1 204 CC45SL2H220J CC45SL2H330J CC45SL2H390J CEOAW1A221M CEOAW1C220M CEOAW 1H3R3M CK45B1H102K CS15E1E010M CS15E1VR47M 90 0817 05 04 0152 05 06 0252 05 08 0304 05 08 0471 05 11 0405 05 11 0406 05 11 0409 05 23 0047 04 23 0401 05 40 0373 05 40 0673 05 1 0775 05 L33 0649 05 L34 0692 05 34 0742 05 L34 0887 05 L34 0908 05 L34 1020 05 L40 1001 NO9 0256 95 N30 2606 46 N35 3006 46 N35 3008 46 R12 0424 05 H12 4411 05 12 5410 05 RCO5GF2H181J R92 0150 05 Re matks Description 100pF 500V 12pF 500 22pF 500V 33pF 500V 500 220 22 3 3 1 25V 0 47 35V 1000 16 small UHF type receptacle 2P square socket Power jack Buck up 4P socket AUX KEY jack STBY jack Earphone jack Square terminal Roundterminal Mini connec
63. t wafer 3P Mini connect wafer 6P Heat sink Choke VHF 554T Col VHF coil 503 Coil Coil 363 5T Ferri inductor 10 Gnd screw Round screw Back up Bind screw PC board Bind screw Power module 1002 2 terminal 50k 2 100k2 Trim pot Trim pot Trim pot leans 1802 1 2W Short jumper C3 C9 C4 C6 C26 C24 28 C18 11 12 14 15 17 19 20 22 25 27 29 30 32 1 21 23 N VR3 VR2 VRI R1 FINAL UNIT 45 1240 11 C5 C8 C16 C31 C1 27 DRIVE UNIT 47 1090 11 61 W T TC2 3 2 TC1 1 1 2 33pF 100pF 7 1OpF CC45CH1HO10C CC45CH1HO20C CC45CH1H3305 CCA5SLTH101J CC45SL2H070D CC45SL2H100D 0031 15 05 0062 05 Ceramic trimmer 1OpF Ceramic trimmer 6pF CC45CH1HO30C C CC45CH1HOR5C 3pF Q 5pF C62 500V 41 44 500V f Las Part No are Description 45 1 8pF CC45CH1H100D 1OpF CC45CH1H220J 22pF CC45CH1H390J 39pF CC45TH1HO40C 4pF CC45TH1HO50C SpF CC45TH1HO60D 6pF CC45TH1H1000 CC45UJ1HO20C C 2pF CC45UJ1H1200 12pF CC45SL1H101J C CC45SL1H221J 22 4 1 221 220 10V CE04W1A470M E 47 10V 4 1 101 100 16 CEOAW1C220M E 22 16V CEO4W1EAR7M 47 25V 4 1 E 1 50V CEO4W1H3R3M
64. ty N N Of N gt NM et Part No marks 140 1001 01 L40 1001 03 L40 1011 03 L40 1021 03 L40 1092 14 L40 1541 27 L40 4711 03 L40 6825 04 L77 0859 05 N30 3006 46 R12 0427 05 R12 1403 05 R12 1417 05 12 2410 05 12 3437 05 12 5411 05 12 7404 05 RC05GF2H2R23 R92 0150 05 5 0308 05 05 0067 05 CC45PH1H070D CC45CH1H010C CC45CH1HO30C CC45CH1HO40C CC45CHIHORSC CC45CH1HO60D CC45CH1H070D CC45CH1H080D CC45CH1H100D CC45CH1H101J CC45CH1H150J CC45CH1H220J CC45CH1H330J CC45CH1H560J CCA45SL 1H 101 J CEQ4W1A101M CE04W1A470M CE04W1C100M CE04W1E4R7M CE04W1H010M CK45B1H102K CK45B1H103K 92 1 223 CQ92M1H473K CS15E1A2R2M CS15E1VR47M 7150 11 Description Ref No Q ty Ferri inductor 10uH L8 9 19 3 small Ferri inductor 1OuH L10 16 2 Ferri inductor 100uH 1 21 1 Ferri inductor 1mH L4 1 Ferri inductor L7 1 Ferri inductor 150mH L1 1 Ferri inductor 470 5 1 Ferri inductor 6 8mH L22 1 Crystal 10 695 MHz L2 1 Round screw 2 Trim pot 5000 VR2 i 4 Trim pot Iko VR6 1 Trim pot 1 Trim pot 5kQ 1 Trim pot 33 VR5 1 Trim pot 100k2 VR4 7 Trim pot 500k VR 1 Solid 2 22 1 2W R47 1 Short jumper 9 t EMEN PLL UNIT 50 1860 00 Ceramic trimmer 4pF TC2 1 Ceramic trimm
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