TK5710 Service Manual
Contents
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5. 0413 414 136 174MHz 25 508 52 cu 8CL gt RX 55 5 X VCOT 2 8C 8C 8T COUPLER i B 01 03 CV Q417 0419 0150 Q151 gt pomme 28651087 2505108 wee 2803357 280335ARF RASIHISIZMI E MA4PH633 D5 A 06 TX T R 7dB RE 4dB 1dB POWER ANT FWD REFL gt gt __ Mo VCO SW ATT ATT MODULE SW DET DET er 16 8MHz ASSIST BCL 50 one 8R LOCAL l etn 185 95 223 95MHz Mi VOX a ay S gt MB 16 8MHz m Q205 200 1 207 WIDE 2nd IF 450KHz 5 2SC5108 Y L77 1961 05 EROT m le WIN 2 VCXO LEIT SW 55 LOCAL 2 Se WIDE WIDE WIN 1 5C ARR
6. o o COE S 3 g 3 ZC L I rem 2 s 8 0404 406 ela Sao e 8 T 1 8 8 VCO1 2 SW STS 2 8 0598 599 n Q404 LOCK DETECTION RN47A4 1 0598 2SA1832 GR I Bis 8 0599 T o DTCi44EE 2 d 7 Q407 28J347 L436 I gt 136 __ 0405 407 I I VCO TX RX SW 3 b d Yd gt IC400 5288 8 STS rs 7A7V LMX2352TMXINP 916 Nr I Big8 g 859 FM L I 358 828 528 427 13 12 5V 899 22 258 X400 TH201 49V 14 Lock 11 49V 0 66V L77 1960 08 B57331V2104J STR 8 52 2 T 1 94V 15 10 4 96 R589 R588 C409 R411 IG i anol 16 9 0 0 0 0 560 vec R514 wei D404 Ve 17 8 saw f 18k Rags BYPASS DIODE 5 R597 18 7 oov C404 vxo 95 1M 0404 742 0 19 6 0 03V 1000 228 pov amp gt i ASSIST 20 5 C407 T I 1000p 21 4 ov R513 T 2 38 22 o 22
7. 0727 ae VREF R845 m PEN 4 7K sls 0715 SaaS 2SC4738 GR S z RB706F 40 ANALOG SW Resa 4 SCRAMBLER 470k i Q715 716 6720 a D277 728 C798 R625 25 243 C803 R861 AUTO GAIN CONTROL TXAGC DETECTION 994 l tu 4 7u 22k 0716 2SA1832 GR D728 Gb C801 6 8k ls 0721 silo 8 8 010 SSM3K15TE SCSW ams OTe d T RB706F 40 DC SW SCRAMBLER OP AMP MIC IC719 oly TC75W51FU ER 58 18 C786 R842 m m m m ma m m m m m m m m m m m m m tu Ro50 C921 1F ATXi ex 390k 47 R951 ce STXi ons ES 85 2 150k 47 ole ay HE i 4 1 u ul gt u IC716 D OP AMP 9 8 04V NJM78LOSUA 499V c VREF 10718 IN ouTH TC75Wb1FU 4 93 92 COM oot SE 85 BS 5 3 Om gt S lt 9 OTe STs 7 VOLTAGE be COE 6 E n REGULATOR t gas 28 835 o 5 5 2 5V ouo 5 625 8 LI R995 33k 33 1 ANALOG SW A VGS 16720 1 93 TC7W66FK 3 29V
8. 108 E RN47A4 H 28J347 F700 071325506 TB 5C SW io 4 sw Lesen an 5 PROTECT 1 2940 8 07 2W Max 1 2 0409 ue AVR LLL 86 EP CLK DA PLL 8V 8CL Q412 SW DU T 2SC4116GR RX VCO 1 U BIFFLE BCL ace 0405 mww WIDE gt PROTECT FILTER Q407 25347 RN47A4 CF204 8CL L72 1016 05 Sw DW D75 5 RXVCO2 X 170 707 1A 1 708 0 5 D DTC114EE 401 GN TA7805F 1W Max 62 0 5 STR NARROW IGN 5 PROTECT sw PS i en Re POF 5 le WIN 2 sw SW PSW 1 704 0603 E A Groe EE Kir Kb a jii 2 _5C gt pa AGE RET sw 2 3 3M gt V VCO FASSIST 17210080 TENSE UN e METER 5C gt sw 55 sw 5 T 8RC N 4 Q601 IC711 OSAMax PCS 2SB1132 Q R
9. 00ZNO SON 0 0202 25 01 02 7 29 LINN XH XL g LINN 1OH1NOO pe lt w mm em 28 8 1 e 88 LL s R ZO 62H e 05 8 8 e e WU 4 Exo m m 90001 amp I 60 e 982 H E 89 de T 8 610 e m I 7 d 180 e 9Hdt VIN ca 0001 E ru UC Il es z e Os 780 e 6d 2 a 5 9 ka I z L2NWSHSZ 1 H 8 2 b lt ul EI 5 80 e 9 Olde 5 940001 921000 1 g I 925 e T du gt sl 5 doo nie 20 ew At E EE 860 e EE 5 90001 90001 z I 210 549 e 28 I ola 82H e 90001 N ors 0001 e E 00001 d R 001 28 8 680 gt CS 5 e LEU e ee lo S 26 5 o EE oz ZEI og lt 5 mri ois S ll Sip om s lt i eG 9 e Eis Ede uu 4 00 gt R lt 0 e I GZH GET WE I 799 e SH GEH gt 90001 G90 e I 928 Olle dg Hle dog I 11 955
10. JXHAXUNLDXS7 030710 a u M nTzT WU a Wa 2 2 2 2 2 2 YH anY rwnY AY 2 2 2 2 T I H rh n V nH YY o 136 lt 155MHz 7 13V D EI o 5 02V 155 174MHz 0V 596 590 Q406 409 d Y 2 1434 TX2RX2 NM RXVCO 1 8 Y Y Y l is RIPPLE FILTER E x aug 404 406 R432 als 721 ous 7 92 83 Ze ST VCO1 2 SW STs dk 5 iss 2SC4116 GR Rass el sls 54 s 598 599 0404 77 ED 98 LOCK DETECTION RN47A4 4 dad 0408 409 5 I 0598 R594 R595 1 RX VCO 1 2 SW 136 lt 155MHz 0V 548 5 8 2SA1832 GR N24 gla 155 174MHz 7 13V STS TS ss ale sa 7 787 EES TE Q408 e 845 965 0435 436 gus OTS Ce RXVCO2 ANS 845 8 8 RF AMP OTs 865 lt 548 LOCAL SW RF AMP Shy R431 RXVCO 1 548 998 0150 bm 0151 K ees 228 5 348 355 4 R 136 lt H Wi D435 2SC3357 RF DIN 2SC3357 RF L154 C168 R171 C169 144 1 STF 155 174MHz 0V to 4 92 HVC131 C150 _ eCi5i eRi51 152 8153 159 na A u um m bn m m m m 4mm m m E m E n
11. up NC SB 92 15 RXD2 AUXo2 16 TXD2 AUXo1 17 AUXI o9 O5 18 DI E 19 MI2 DEO 97 20 E 5 21 AUXI o8 7 0 AUXI 04 99 22 TXD3 9 AUXI o3 910 23 RXD3 7 9 2 L O11 24 E T 1 012 25 AUXI o7 013 AUXI 06 5710 E37 0707 05 I E23 0902 05 1 3 I 1 e 13 6 1 2 2 1 GND 1 1 1 I 77 TK 5710H B a 1 CN3 j 23 1116 05 CN150 TK 5710 ES a 1 13 4 36 CN152 TK 5710H 9 Tr gt E04 0154 05 E04 0154 05 9 1 FTEMP2 1 77 CHA E23 1116 05 pcs 4 5 CN2 MEN ee ER S A 04 0154 05 05 IC2 TK 5710 WN TX RX UNIT FINAL UNIT IC1 TK 5710H MB 1 X57 7030 10 X45 3750 10 RF IN e z TK 5710 B J BIAS 8 X45 3760 10 d 3 DAT 1 DRAIN BIAS sog3 1 TK 5710H B d CLK RF FTEMP2 FTEMP2 FTEMP1 FTEMP1 POWER MODULE DET CN601 8T 8T CN9 40 6429 05 40 6429 05 E 8T 8T IN E IF IN IN gt PC CN600
12. 24 TK 5710 BJ 5710H B CIRCUIT DESCRIPTION 1 Overview This transceiver is a VHF FM APCO portable transceiver designed to operate in the frequency range of 136 to 174MHz 2 Frequency Configuration The receiver is a double conversion superheterodyne using first intermediate frequency IF of 49 95MHz and second IF of 450kHz Incoming signals from the antenna are mixed with the local signal from the PLL circuit to produce the first IF of 49 95MHz This is then mixed with the 50 4MHz second local ANT TX RX 136 174MHz 1st MIX 49 95MHz 16 8MHz 185 95 223 95MHz 136 174MHz The unit consists of receiver transmitter phase locked loop PLL frequency synthesizer base band parts power supply and control circuits oscillator output to produce the 450kHz second IF This signal is detected to give the demodulated signal in the DSP The transmit signal frequency is generated by the PLL VCO and modulated by the signal from the DSP It is then amplified and fed to the antenna SP AF AMP FPGA A D D A DSP 50 4MHz MIC MIC AMP Fig 1 Frequency configuration 3 Receiver System 3 1 Front end RF Amplifier The receive signal from the RX terminal CN200 of the TX RX unit X57 703 is amplified by a transistor 0200 and passes through the ban
13. QA o 5 5 e 858 VOLTAGE PROTECTION 1 743 AUDIO shs obs TC7S66FU 822 12789 Sr 872 5 ors 75501 ZEN C891 H I C905 77 ANALOG SW 05 55 Q734 838 nove 47k SSM3K15TE Q732 DC SW DS 2SD1757K jJ RX AUDIO MUTE SW In z 8 8 gt D Y PToS PToS 05 53 412 6 8 CONTROL UNIT X53 4120 10 C844 2210 C848 22u10 N AUDIO POWER AMP IC732 ANALOG SW TDA8561Q iGN 855 225 1727 BF 295 405 IE EOE SBE s e HR1 1 16 4 94V K r gt gt 2 15 5 5 Hu L s lt 2 082 14 10010 4 13 051 2 5 12 ES1 z E S 5 z 5 T Side e Lu e g
14. A G H J 5 1 0 5 1 0 PC BOARD 1 Foil side view J72 0942 29 v 2 D706 e C763 R722 omk 3 6717 Es 0 8713 e 5 G IC707 C875 0734 11 r 1 Hie 5 boss C910 4 C l a Dean 0709 le ___ e 8724 i B Ei E ed N 3 C869 T H 5 0S a t LO 6 1726 C762 C788 1728 1727 d C716 l 1 16 B 1729 1c717 6 8 9 B 5 1730 0735 16 E2 5 gt 898 a Ja B e sf Kei 8962165538686 eg Se 1663 E 1664 E l o 54 5 8674 R984 0905 FER 8 A Sle Ltd fil iS 4 C871 8627 P Gei ROR 5 C900 pjs hl 8 SIS 210731 E E S C814 x olo S eS E R980 8976 24 era 8971 1073953 EN E T 0721 p 25591 LO 8 ago esse E sp 6652 C858 B TE 0715 BST man Ses ie ag SGP Cem e 2 5 it H rom Sea e EAS a Dat 8 9 B ee er C611 ges ES lep L 5 z 51 2 Z 8657 10857 Req EAR EIS EIS 4 E mio R Hil c E E C660 GIS AS Tor D Wm eg LLL EI 8 8 9 g 2 2 IE E Sta te 2 E fez
15. 1444 E SEZ 81v zd n SS Sera ENZ e o SR NER e Em ES E 5 Ei GE 5078 E S cl es EH S o 3 E E i 8 5 5 0552 g 8 g 6 E E es 3 E TR a EXT es S 65 Seen 5658 6159 Bs Essu 0658 Sr ES Ei v vev II 5 9 d 7975 ESI e am 4 gj 5091 dl ES 292 9 B E b E Elroj Era vYO s 1775 e 0679 6579 1679 H MES p jac m 9253 jer e g el g eil 3 ES 5 5 E E co 2 i5 E 07981 I sh 2 E99 00 00 Ni mms E E 3 1085 o e Serd E g z 8 ECH E NA SEE EMS LAO E Sere 6052 Se 12050 N 12 13 11 84 14 PC BOARD pud 0 B 571 oH A ys oo PEN aL a EOE Ede He j Si SC x Aa d E 4 E aS 33 20 3 33 O 1 o Component side Layer 1 Layer 2 Layer 3 Layer 4 Foil side 11 TX UNIT M 7030 Component side view 72 0943 09 panels SR 1 ss Git rip g s Ka R214 527 2 zy TX RX UNIT 57 7030 10
16. 52 KCH 14 KCH 15 5 6 111 ADJUSTMENT uu u tien deer sioe ecce renes 54 SPECIFICATIONS BACK COVER TERMINAL FUNCTION 70 This product uses Lead Free solder TK 5710 BJ 5710H B GENERAL INTRODUCTION SCOPE OF THIS MANUAL This manual is intended for use by experienced techni cians familiar with similar types of commercial grade com munications equipment It contains all required service in formation for the equipment and is current as of this publica tion date Changes which may occur after publication are covered by either Service Bulletins or Manual Revisions which are issued as required ORDERING REPLACEMENT PARTS When ordering replacement parts or equipment informa tion the full part identification number should be included This applies to all parts components kits and chassis If the part number is not known include the chassis or kit number of which it is a part and a sufficient description of the required component for proper identification PERSONAL SAFETY The following precautions are recommended for personal safety DO NOT transmit if someone is within two feet 0 6 meter of the antenna DO NOT transmit until all RF connectors are secure and any open connectors are properly terminated SHUT OFF this equipment when near electrical blasting caps or while
17. CONTROL UNIT X53 4120 10 CT een keent Je en e eent Je et e et an Sec kent Je en ent Je et et en rt ent en en nnn mk ar 335 en Je e Je Jet en en rt et e pn rot Feet Sen Sen et s 58 55 255 S E rt en Een bat Fe e Sen rt Fe en Feet Feet Fe Jet keent ot zx gt lt Eye rp m SS 1 a nor 1 AUDIO ss E SEL OSES e CN783 5 S58 q 10732 CN709 a 2zopaoao a X m or St gy E40 5066 05 22 8774 1 1 gt EEE EE D727 8865 ANALOG SW TDA8561Q IGN L724 EN d 5 D720 C760 470p G TEMPERATURE DET 9 5 5 5 8845 VREF L i s ana 06 6 Sai 72 SRR EMU OFF 6 EMU1 g REVERSE T 10702 EOS Y Y T O Cp _ ud SH 8 Y 5 QU TET 0405 8 355 8151218 CURRENT e F700 MM1522XURE 0 80V Six 4 7k ole C825 u SS 9 M SS x abd EMUo EMUO OL PREVENTION F53 0278 05 228 m 0715 249 Bas m 4 94V 11 eR777
18. a BUSY POWER KENWOOD EET CALL MON SCAN SP OST sm SCN BUSY Fig 1 5 Keytop removal 2 Remote kit KRK 5 Option The KRK 5 remote kit is used to remotely operate the transceiver The KRK 5 is connected to the KCH 14 or KCH 15 with an optional KCT 22M 8 feet KCT 22M2 17 feet or KCT 22M3 25 feet control cable 2 1 Installing the KRK 5 main panel onto the transceiver 1 Remove the upper case and lower case of the trans ceiver 2 Insert the lead wire with connector W700 of the control unit X53 412 into the connector CN4 of the KRK 5 Install the KRK 5 main panel on the transceiver using four screws Note Take care that the lead wire with connector W700 is not caught when fitting the KRK 5 main panel on the transceiver 4 Affixing the sheet G11 4379 04 for the waterproof Fig 2 1 2 1 Remove the covering paper of the sheet 69 2 Affix the sheet while taking note of the position of t
19. RSSI Reference PF5 Not stored PF5 Not stored PF5 Not stored PF5 Not stored PF5 Not stored PF5 Not stored PF5 Not stored PF5 Not stored PF5 Not stored PF1 Not stored PF2 Not stored RSSI Reference PF1 Not stored PF2 Not stored PF1 Not stored PF2 Not stored PF1 Not stored PF2 Not stored RSSI 70dBm PF1 Not stored PF2 Not stored RSSI 70dBm PF1 Not stored PF2 Not stored Squelch Threshold 1 Wide PF1 Not stored PF2 Not stored Squelch Threshold 1 Narrow PF1 Not stored PF2 Not stored Squelch Tight 9 PF1 Not stored PF2 Not stored PF1 Not stored PF2 Not stored PF2 Not stored PF5 Not stored 3 reference leve adjustments 3 reference leve adjustments 3 reference leve adjustments 3 reference leve adjustments 3 reference leve adjustments 3 reference leve adjustments 3 reference leve adjustments 3 reference leve adjustments 3 reference leve adjustments 3 reference leve adjustments TK 5710 BJ 5710H B ADJUSTMENT BER Bit Error Rate Measurement 1 2 The Panel Test Mode is used to measure the BER Refer to Test mode operation features described on page 54 Select 20 for test signaling Refer to Test Signaling described on page 55 When 20 is selected for the test signaling the filter is automatically selected to If there is no RF input signal
20. DISPLAY UNIT X54 3490 20 KCH 14 X54 3500 20 KCH 15 KCH 140NLY INT SP CN2 1 ee 40 5953 05 111 Hei E KCH 14 ES2 KCH 15 ES2 IRS 4 Note 1 SB 4 933 J1 7 99 56 0410 15 PS 172 X54 349 B 3 RESET 7 KCH 140NLY 4 CN13 ME 4 40 5958 05 40 5957 05 1 1 1 2 2 CN3 PF4 PF4 oes E40 5952 05 SB SB IGN 4 GND GND SB 7 DIM DIM E MIC J 7 Wa CHA 212 4 TAOS E40 5738 05 302 4 INTI Lu INTI 9 E 2 2E END 3 O H3 END X54 349 C 3 KCH 14 X54 350 B 2 KCH 15 CN13 CN14 X54 349 KCH 14 YES YES X54 350 KCH 15 NO NO 104 1 zl vec zl cNvss RESET Eg CN728 d Busy 40 5960 05 BUSY E SB 2 EPM x Ja 4 10 TXD2 s 1 6 AUXI o9 71 AFo 81 1 DI 9 10 SE MI2 11 a DEo 12 TDI 12 i de auxt os 14 TDo AUXI o8 15 DGND AUXI o4 16 gt lt zl TXD3 17 AUXI o3 18 Don RXD3 19 24 266 AUXI o2 20 DGND 221 9 1 22 13 AUXI o7 23 ME 24 CN709 E40 6050 05 AURTIC 22 10 L E ne 27 psc CONTROL UNIT Se AE xc29 RESET X53 4120 10 we 30 L DAT CLK EL CN702 a
21. BUSY 58 Selector PF1 2 PF4 key key key key key MICjack Volume Panel Test Mode Test mode operation features This transceiver has a test mode To enter test mode press and hold the PF1 key while turning the transceiver power ON Test mode can be inhibited by programming To exit test mode turn the transceiver power OFF When the panel test mode is activated the last used chan nel and signaling numbers are displayed When the panel test mode is activated for the first time the channel and signaling numbers are 1 ftest signaling 20 Tone Test Pattern is selected the re sult of Bit Error Rate BER calculation is displayed on the LCD The BER value is also output from the serial port IC keypad 0 to 9 and 1 Key Use as the DTMF keypad If a key is pressed during transmission the DTMF corresponding to the key that was presses is sent appears Function Display Selector Function off GRPA Squelch level 0 On icon appears GRPv High power Low power Low SP icon appears 1 Compander on off On icon appears PF2 LCD all lights LCD all point appears PF3 MSK 1200bps 2400bps 2400bps CALL icon appears PFA Beat shif
22. 13 SMPLCLK SROUT 0 BUFA 8 SROUT 1 2 5V LP GND VPP VCCA BUFA 5 FPGA 1730 BUFA 7 128 0641630 BUFA 3 BUFY 3 BUFA 2 vec VSV VCCA BUFA 1 BUFA 0 SRESET iF iN SCLK1 SoE CLK cs SDo DAT OP AMP MOD IC733 8 TC75W51FU 4 93V T 2 R657 5 8940 m av 22k moe Ef STs 825 oS 8633 R632 33k lu 33k T gt B m m R670 33k OP AMP SUMMING AMP ER 10742 5 muy TA75S01F 4 95 T R669 2 01 10 R971 100k 2 01V 4 R671 100k 2 5 C655 47 1F 5 ANALOG SW TAMS 201V 1734 8956 Tc7S6eru 494 12k R957 0 2 017 S2x ANALOG SW VGS 12736 TC7W66FK 3 3V 8659 __ 470k C652 R961 Ao R676 1u 390k R675 33k 180k 7 C653 962 R674 Ai m 1u 27k 470k Q733 SSM3K15TE 224 Res 85 829 T OTs n R627 C871 8945 X53 412 5 8 2 AD SCHEMATIC DIAGRAM K 5710 B 5710H CONTROL UN
23. sk 2a 04 1 12 2 58 9g cle 6H 981 N E 012 e 52 gt 85 90001 IH Ht Se 90 60 er 0 9He 90001 e IH E GH e Sch 90001 z 1F E 70 9 LS gt er 54 LHL e cr 90001 90001 EGO 240 8 8 28 og E 5 59 x e SIE e m s UE iu TK 5710 B 5710H B scHEMATIC DIAGRAM 2 29139 01 060 5 LINN XH XL L09NO 01 060 7 lt LINN XH X1 828 911089 050 91n089 evr D gt gt gro e dont 90 door 4022 oN moo wo dove dove So iue M 90 7 070 uzy ouo 101 xL 491 2 811 d 021 8SH e d 299 oF Or 04 M 0000 9 Ge 280 x LE gt X amp r amp d 2 5 E Os 5 20 oR zo lt ot 01 T lt o E e lt 1 LE dozi
24. Q404 RN47A4 Q406 _ 25 347 F700 Q713 28 506 6 5 5 5 F59 0278 05 Sw 5C 1 gt SW 58 PROTECT 1 29407 8 0 2W 1 2 90 AVR RN47A4 BU xu act EP CLK DAT PLL ER T 280411698 Sw RX VCO 1 gt ae gt 0405 0408 WIDE PROTECT FILTER 10 0407 ise RNara4 un 8CL 172 1016 05 SW SW D725 Q707 md X gabziepev 705 12707 1 1C708 05 DTC114EE TC4013BF N IGN FAVA 1W XC6204B332M 0 5W Max ein NARROW AVR AVR i PROTECT gt SW De 5V 33v 33a SH one 5209 05 50 sw PSW Bien Prep Een 1 401 1 402 4 AVR MCP41100T LMC7101BIM5 Se i 1 210 CF202 DEN DEA RST sw 8R 33V F3 3M POTENTIO VCO ASSIST L72 1009 05 i Be sw lt 8RC P 2601 _ 26568 f 2SB1132 0 R XC6204B252M Max sw L tz AVR 25 DAT 2 5V IF2 OUT 8TC i 0208 1 709 OSAMax APCO FM e SC XC6209B152M 0 5W Max Lr H AVR 4 sD 19 GE 3 3V D727 728 RB706F 40 To SEU TA75S01F m DET sw 2 am 3 3A Sw gn 1 5C 5C oe 8 5 Blan 7 5 5c 12719 MUTE gt sw L i ATT AG SW i MIC
25. 59 Test Equipment Required for Alignment Test Equipment TK 5710 B 5710H B ADJUSTMENT Major Specifications Standard Signal Generator SSG Frequency Range Modulation Output 136 to 174MHz Frequency modulation and external modulation 127dBm 0 1pV to greater than A7dBm 1mV Power Meter Input Impedance Operation Frequency Measurement Range 500 136 to 174MHz Vicinity of 200W Deviation Meter Frequency Range 136 to 174MHz Digital Volt Meter DVM Measuring Range Input Impedance 1 to 20V DC High input impedance for minimum circuit loading Oscilloscope DC through 30MHz High Sensitivity Frequency Counter Frequency Range Frequency Stability 10Hz to 1000MHz 0 2ppm or less Ammeter 30A AF Volt Meter AF VIVM Frequency Range Voltage Range 50Hz to 10kHz 3mV to Audio Generator AG Frequency Range Output 50Hz to 5kHz or more 1V Distortion Meter Capability Input Level 396 or less at 1kHz 5OmV to 10Vrms Spectrum Analyzer Measuring Range DC to 1GHz or more Tracking Generator Center frequency Output Voltage 50kHz to 600MHz 100mV or more 40 Dummy Load Approx 40 30W Regulated Power Supply 13 6V TK 5710 13 4V TK 5710H B approx adjusted from 9 to 20V Useful if ammeter equipped Caution Since the RX AF output is a BTL output there is a DC C
26. A D converter power supply input terminal RDY Bus control Ready ALE connection PLAY Play input for VGS H Playing HOLD Bus control Hold Enable output for shift register of KRK HLDA connection KCS Chip select output for D A converter of KRK STRB Shift register strobe of FPGA NC connection NC No connection O D A Voice output of built in voice guide Shift register output enable SCSW When the scramble board is installed he route of AF is change L Scrambler on H off PLL unlock L Unlock H Lock Bus control Base clock output Common data RD O Bus control Read Common clock No connection EEPROM data WR O Bus control Write Use as data bus Vcc NC No connection Use as memory expansion mode Vss AUXO 1 Auxiliary output 1 FPU selectable Potentiometer CS AUXO 2 Auxiliary output 2 FPU selectable No connection CHECK for port check Reset input CS2 Flash memory CS No connection CS1 DSP CS A eo S 9 o GND CSO Flash memory CS N Clock input 9 216MHz 18 432 2 2 A19 A9 Address bus 19 9 N VCC1 Power supply input bV AM AF mute L Unmute H Mute N N NC NMI
27. ANI 3 AF CN Vco E40 5960 05 SB 3 C BEEPS 5C 5C 1 735 2 2 1C729 2 2 y ME ces TC7SWOIFU a TA75WO1FU gt gt SUM MCO MB x FC lt DT CKLD 1 735 1 2 as gt EI POR 5 I sw 0700704706708 711 712 5 3 5 5C VDD 2 10716 10718 1 2 1 10740 AUXi oi 9 SURGE 2 NJM78LOSUA TC75W51FL5 C BC M07101BIM5 PROTECT iti 8C AVR gt VRer L Za TV Q700 701 3 2 503 28b2114K W 1 730 2 503 3 EX128TQ641630C 701 L77 1962 05 1 2 J sw lt 8 INVERTER 7 INVERTER 4 VCXO 18 432MHz 3 3M gt i 4 4 2 FPGA pice 2 3 12721 Tc7H74FK 3 3M 3M BSFT ei ps E 4094 INVERTER FLIP DT CK SHIFT VRST EN USEL VGS 9 E I 1 2 J FLOP STB RESISTER 5 3 3M 3 3M x SHIFT RESISTER CH7 5C 8 2 5V gt 3 3V OUTPUT Gegen x o mc VARS VATS BSFT DT CK SHIFT PTOA EMG AC 2 LEVEL CONVERT STB RESISTER BUSY ANI BC1 4 SCR Si BUFY5V gt BUFA3 3V SHIFT AINH AKEY TCONT RESISTER 1 9 a 9 216MHz PLAY RXD1 TXD1 CLK EN USEL VRST ux DE Be am 0728 n E Ai Ao E 5C NC NC NC RTC wkl VOLT RESET NC NC N N DET 32KHz 1 T av ian ANI 755 57 05 1 1 9 gt BUSY AKEY NC NC NC PT
28. D719 DZ15 X Q704 SSM3K FET D720 S355 Q705 DTC114 DIGIT D72 DZ5 0706 0722 5355 0707 DTC114 D723 0210 Q708 709 DTA114EE D724 55355 0710 DTC114 D725 02D718 X Y 071 114 0726 DA204U 0712 DTC114TE D727 728 RB706F 40 0713 28J506 S D731 732 02075 1 0714 DTC114YE D734 155355 0715 2SC4738 GR D735 02DZ5 1 Y R DIO 0716 2SA1832 GR D736 MINISMDC075F24 OR 0717 DTC114YE D737 02DZ5 1 Y ZENER DIO 0719 SSM3K15TE D738 742 AVRM1608C270K2 VARISTOR Q720 25243 0743 744 DA204U DIODE 0721 SSM3K15TE C700 RV5C386A 05 0723 285243 C701 AT24256N10SU27 ROM IC 0725 SSM3K15TE C702 MM1522XURE ANALOGUE IC Q728 114 DIGITAL TRANSISTOR C703 30625MGP213GP ICROPROCESSOR IC 0729 285243 FET C704 80942CNNBG9C MOS Q730 DTC114EE DIGITAL TRANSISTOR C705 4013 05 0731 DTC144EE DIGITAL TRANSISTOR C706 LM2940T 8 0 05 0732 2501757 TRANSISTOR C707 TA7805F 05 0733 55 3 15 FET C708 XC6204B332M 05 0734 SSM3K15TE FET C708 XC6209B152M 05 0735 736 UM6KIN FET C710 XC6204B332M 05 C7 XC6204B252M MOS 1 0712 29LV160BES0PBT TX NIT X57 7030 10 TK 5710 B 5710H B C713 TC7S08FU 05 CC73GCH1H150J CHIP C 15PF J C714 TC75S51F MOS IC CC73GCH1H220J CHIPC 22PF J C715 320VC5416GGU12 ICROPROCESSOR IC CC73GCH1H270J CHIPC J C716 781050 BI POLAR IC CC73GCH1H101J CHIP C
29. Parts with the exploded numbers larger than 700 are not supplied 53 TK 5710 BJ 5710H B ADJUSTMENT 54 Controls Key operation KCH 14 Basic control panel Key FNC not appears Function Display Pu Selector Wide Narrow APCO Wide W appears KENWOOD ETHER MIC jack Volume Selector 2 PF4 PER key key key key key Narrow N appears A appears Shifts to the Panel tuning mode Squelch off MON icon appears Test frequency channel down Channel Test frequency channel continuation down Channel Test frequency channel up Channel Test frequency channel continuation up Channel e KCH 15 Full featured control panel Test signaling down Signaling Hold Test signaling continuation down Signaling Power switch DEA Test signaling up Signaling PF4 Hold Test signaling continuation up Signaling No molen KENWOOD ii f PF5 Function on FNC appears ze Bae CALL MON SCAN SP OPT C OST MON i 9 54 9 MIC PTT Transmit
30. 5710 1 Adj item W LPW Adjust 2 Adj LPW WLC LPW WC LPW WCH LPW WH LPW Adjust PTT ON Press PF5 to store the adjust ment value after adjustment Power meter Ammeter 1W 12A or less 2W 25A or less 0 5W 5A or less 1W 12A or less DOT balance adjust eWide 1 Adj item W Adjust Deviation meter filter LPF 3kHz HPF OFF 2 Adj item IWL BALW WLC BALW WC BALW WCH BALWI WH BALW Adjust PTT ON Press PF5 to store the adjust ment value after adjustment Deviation meter AG eNarrow 3 Adj item N BALNI Adjust 4 Adj BALN NCH BALNI NH BALN Agjust PTT ON Press PF5 to store the adjust ment value after adjustment Oscilloscope AF VIVM MIC jack Make the demodulation waves into square waves TK 5710 B 5710H B Item Condition ADJUSTMENT Measurement Adjustment Test equipment Unit Terminal Parts Method Specifications Remarks 6 Max DEV adjust eWide 1 Adj FMWD Adjust AG 1kHz 50mV at MIC terminal Deviation meter filter LPF 15kHz HPF OFF 2 Adj item WL FMWD WLC FMWD WC FMWD WCH FMWD WH FMWD Adjust Press PF5 to store the adjust ment value after adj
31. i zl 3 18 8 5 eI 5 5 5 828 225 C228 x x 8 LOCALAMP 8548 2p e eR219 1211 el212 1213 eC236 28C3357 RF We MCF ADJ CN202 40 5538 05 0205 206 IF FILTER Sw 1233 e0323 68p R286 D205 HVC131 D206 4 HVC181 E NARROW XF201 L71 0626 05 L34 4749 05 WIDE 200 L71 0625 05 x D207 HVC131 100p 028 5 c2e7 8p 680 E 6 8k vom 12844 az 14919 FILTER 8 5 Sse 4 Sw IF AMP 0202 2SC3357 RF NARROW 209 210 e XF201 171 0626 05 FILTER sw D209 HVC131 WIDE XF200 L71 0625 05 1230 C227 8p C255 e L225 1227 7 L34 4748 05 134 4749 05 134 4748 05 134 4749 05 3 0213 E 18 114 973 8 3 amp E DC SW T DC SW H 0212 14 3 1 0 01u D211 212 FILTER SW X57 703 2 4 K 5710 UNIT 57 7030 10 _ _ L 5710H D435 436 LOCAL SW 4 92 R492 0435 151 HVC131
32. J C717 BUA094BCFV 05 CK73GB1H102K CHIP C 1000 718 719 TC75W51FU 05 CK73GB1H102K CHIP C 1000 C720 TC7W66FK 05 CC73GCH1H150J CHIP C 15PF J C721 TC7WH74FK 0S CK73GB1H102K CHIP 1000PF K C722 ADM202EARN MOS C90 4085 05 ALUMINIUM ELECTRO 47UF 20WV C723 TA75S01F M0S CK73GB1H102K CHIP C 1000PF C724 05 CC73GCH CHIP C 18PF C725 726 TC7WUOAFK 05 CK73GB1H CHIP C 1000 C727 BU4053BCFV MOS CC73GCH1 CHIP C 22 728 BUA094BCFV 05 CK73GB1H CHIP C 1000 C728 TC75W51FU OS CC73GCH CHIP C 47 C730 EX128T0641630C 44 TK 5710 BJ 5710H B PARTS LIST TX RX UNIT X57 7030 10 New New Address parts Parts No Description Destination Ref Address parts Parts No Description Destination CK73GB1H IPC 0 010UF K C270 CC73GCH1H470J 47 J CC73GCH IPC J C271 CC73GCH1H101J 100PF J CC73GCH IPC 2 J C274 CK73GB1H103K 0 010UF K CC73GCH IPC 33PF J 275 276 CK73GB1C104K 0 10UF K CC73GCH IPC 2 J C279 CK73GB1C104K O 10UF K CC73GC IPC 5PF C282 CK73GB1E103K 05 CK73GB IPC C284 CK73GB 06 207 CC73GC IPC F 286 287 CK73GB 08 CC73GC IPC F C289 CC73GCH 209 210 CC73GC IPC C290 CK73GB C211 CK73GB IPC C29 CC73GCH1H101J C212 CC73GC IPC F C282 CC73GCH1H150J C213 CC73GC IPC F C294 CC73GCH1H150J C214 CK73GB IPC C295 298 CK73GB1C104K C215 CC73GC IPC C299 300 CK73GB1E1
33. AUXi o8 DTC114EE RTC IC Mei 2 9 99 0 15 RDY gt VOLTAGE C808 18 OTs AUXio5 14 4 95V 5 98 zh RD 320VC5416GGU12 T m 8888 SURGE gio GND 13 SS 5MD 1 700 lt 47k PWAD n Be TION 1 L So E RV5C386A 748 6 97 R818 4 gee 7 R633 C610 0 01u 717 DEo 12 GND m CNVSS STS X700 E HINT 2 4 0 LRCK gt B ee 2 m D734 188355 z DEo 4 L77 2304 05 47k 96 R621 100 A20 A20 WR a A 28 8 5 88 8588 2 Tu SU 4 92V 11 5 RESET L DC SW SBC 5 uj 8 95 R791 100 2 1 S e K700 1 GND 10 S valey S aro ae 9 94 eR792 100 E C783 0 01u 4A Aa 2206 EEE 576 0434 05 Di 9 DTC114EE DC SW IGN R708 3 10 98 R793 E H IC716 9 v8 lt 8 gags AF H 5 TXD1 iGN RTCDT par 100 5 PWDA 844 wju7arosUA 4 99 VREF Y EAS 8 82 2 oc t AFo 8 AS 10k 4 R739 92 _ R794 100 A3 SCLK 9 95598 6 DC SW HR AUX oS 7 1 Q711 12 i ez och 10718 AUXi o9 9 77 DTATIAYE 5 SNE spa 13 100 A4 I I OM TC75WB1FU 92 I 4 AUXo 6 iia RXD1 R704 0722 C707 7 t 9 e 6796 i00 Gei A3 Bis gt 8 ra glszix TxD2 16 5 pl 1F CNVSS 14 8 _ R797 100 ae
34. NC RXEo 8C PToS ANI BOARD SCRAMBLER BOARD I X53 412 7 8 N AJ AL A SCHEMATIC DIAGRAM K 5710 710H CONTROL UNIT X53 4120 10 7 CN783 E40 5066 05 L724 iGN 1 i 2 1726 HR1 HR1 Ge SS 5 72 36 HR2 55 px m 29 052 Rz 2 8 8 8 E40 5960 05 T T T No 30 4 4 h NC 28 NC 27 GND 26 AUXi o6 25 AUXi oG ME 24 AUXi o7 23 AUXi o7 AUXi o1 22 AUXi o1 GND 21 GND 1 AUXi o2 20 AUXi o2 RXD3 19 RXD3 AUXi o3 18 AUXi o 3 TXD3 17 TXD3 AUXi o4 16 AUXi o4 AUXi oB 15 AUXi o8 AUXi o5 14 AUXi o5 GND 13 GND DEo 12 DEo 2 11 Mi2 GND 10 GND Di Di AUXi o9 AUXi o9 AUXo1 AUXo1 TXD2 TXD2 AUXo2 AUXo2 RXD2 RXD2 SB SB NC NC CN782 1 i E40 6438 05 S 36 olele i e T 1 a Sue S 8 amp 8
35. TX TX drive input to TX RX unit CN200 RX RX signal output CN7 to DC cable Power supply input 13 6 15 to TX RX unit CN601 FTEMP2 Final unit temperature 2 FTEMP1 Final unit temperature 1 8T 8V input during transmission 8T 8V input during transmission E GND PC TX power control voltage to Control unit CN702 GND Power supply output 13 6 1590 Power supply output 13 6 1590 Final unit X45 3760 10 TK 5710H B 1 0 Description Control unit X53 4120 10 Name yo Description CN702 to TK 5710 B or TK 5710H B Final unit W2 Power supply input TK 5710 B 13 6V TK 5710H B 13 4V Power supply input TK 5710 B 13 6V TK 5710H B 13 4V GND 724 to KRK 6DH RX audio signal output for remote head 2 Detection signal GND Enable of shift register Clock output Data output Reset signal output 5C Common 5V CO Oj A OO N Power switch control signal CS Chip select of D A converter CN728 to D SUB 25 pin connector NC No connection SB Switched B TK 5710 B 13 6V TK 5710H B 13 4V to TX RX unit CN152 RXD2 Serial data input 2 TX drive input AUXO2 Auxiliary output 2 to TX RX unit CN200
36. aM DIEF 2SD2114K W S 1C7307 a 8 06416300 JE 701 L77 1962 05 0 1 2 A SW 3 8 INVERTER j INVERTER 4 1 VCXO 18 432MHz SP 3 3M gt 4 2 o a FPGA Bang 3 C721 3 3M 3 3 BSFT 10728 5C 1 804094 NVERTER FLOP DTCK SHIFT VRST EN USEL VGS 1 2 STB RESISTER ABCHRPTOS 5 T lt 3 3MSHIFT RESISTER 3 3 8 2 1 10717 5 9 lt 5V 3 3V OUTPUT BU4094BCFV x LEVEL VARS VATS BSFT DTCK SHIFT EMG 2 CONVERTER LEVEL CONVERT STB RESISTER 1 4 SCR BUFY5V BUFA3 3V 8bit GR N744 0 6357 05 SHIFT AREY TCONT y FROM ANI A RESISTER UT 1 9 9 216 gt J E PLAY RXD1 TXDi EN USEL VRST u DE NEE 2770 5 18 Ai Ao E 5C NC NC NC Ce VOLT a RTC INV DET RESET NC NC NC NC NC NC NC NC DC S 32KHz 7 3V 755 40 6357 05 1 9 BUSY AKEY NC NC NC PToA NC EMG E CS 10 17 o E NC NC E 5C ATXI TCoNT 16702 18 26 a MM1622XURE NC AUXio NC NC NC NC 8C 9 4 5 5 za cPU 1 SCRAMBLER 67 05 5 5MD 1 9 DC LOK PToS NC ECHo NC BC4 E 10 17 TO E NC NC E 5 NC NC NC z 18 26 NC NC AC TXo RXEo RXEi STXi BC3 8C 107 TK 9710 B 5710H B BLOCK DIAGRAM TK 5710 B H BLOCK DIAGRAM
37. COMBINER 06 HSM88AS REFLECTED WAVE RECTIFICATION AH B 13 6V GND CN7 E23 0902 05 B 777 40001 9 1 179 D8 SURGE ABSORPTION K 01 722 D9 L ScnoZv Rn 670 R 13 6V T 12 44V 9 7 KR 090 40001 90001 PROTECT OF REVERSE CONNECTION Oro 2 7 0705 05 202 0 01 02 6 LINN TOHINOO 77 4001 28 FORWARD WAVE RECTIFICATION TT e IC2 SCHEMATIC DIAGRAM POWER MODULE RA60H1317M1 23 TK 5710 BJ 5710H B dez c0 e 110 Svid svia 31v5 IC1 COMPARATOR TA75WO1FU R 0V T 0 46V R33 L el v 5 LHA e 4001 6 8k 8T 8T PROTECTOR OF VOLTAGE NI 3H LINN XH XL OSLNO 01 050 9 L09NO 01 060 lt LINN 1 OOZNO 01 060 75 LINN OJ D NSO E29 gs 90001 r t 910 91692020 8
38. PF2 Channel ANALOG PF2 TX Frequency Talkgroup ID Li PF2 TX Frequency OFF Talkgroup ID List Amount must not be 0 or OFF st Amount 0 or TX Frequency Other than OFF Channel Type MIXED TX Mode ANALOG Talkgroup ID List Amount 0 TX Frequency Other than OFF Channel Type MIXED TX Mode ANALOG Talkgroup ID List Amount must not be 0 PF2 Talkgroup ID List Amount 0 10 Firmware Information Mode Press and hold the PF3 key while turning the transceiver power ON and then keep pressing and holding the PF3 key the firmware version information appears on the LCD 11 Clock Adjustment Mode 11 1 Flow chart of operation 10 Channel Type Channel Spacing RX Signaling TX Signaling PF2 PF3 ANALOG APCO MIXED PF2 TX Frequency Other than OFF Channel Type MIXED PF3 ANALOG APCO 1 PF3 25 0kHz 12 5kHz 1 Channel Type ANALOG or MIXED PF3 2 PF2 PF2 Channel ANALOG or MIXED RX NAC TX NAC Talkgroup List No OFF oT DOT N N bari PF4 PF4 PF2 TX Frequency Other than OFF Channel ANALOG or MIXED TX Mode ANALOG PF4 OFF OT DOT N N bari PF4 PF4 PF2 Channel Type MIXED PF2 TX
39. 40 6438 05 ASOL e RSSI d s 19 ANT oJ 1 3 6 On 9 we 105 TK 9710 B 5710H TK 9710 B 5710H INTERCONNECTION DIAGRAM INTERCONNECTION DIAGRAM sl vec CNVSS RESET s Se CN728 gt E40 5960 05 RXD SE 5 14 NC EPM 2 4 o SB vss O2 15 RXD2 sl ne AUKO2 4 AUXO2 10 ee a TXD2 Note th CN705 Auror amp AUXo1 31 AUXI o9 11 o feet E40 6202 05 al 4 17 AUX1 o9 X 1 SB 7 KVL 1 DI 9 I O5 18 DI 2 HK 8 DM TMS MS ie o E
40. OTNI WC OTN Agjust PTT ON Press PF5 to store the adjust ment value after adjustment 10 DOT 1 Adj DOTW 0 75kHz deviation Adjust adjust Deviation meter filter eWide LPF 3kHz HPF OFF 2 Adj DOTW DOTWI IWH DOTW Agjust PTT ON Press PF5 to store the adjust ment value after adjustment eNarrow 3 Adj item N DOTN 0 35kHz Agjust 4 Adj item WL DOTN WC DQTNI IWH DOTNI Agjust PTT ON Press PF5 to store the adjust ment value after adjustment 11 DTMF 1 Adj DTMW 100Hz deviation Adjust adjust Deviation meter filter eWide LPF 15kHz HPF OFF PTT ON Press PF5 to store the adjust ment value after adjustment eNarrow 2 Adj item N DTWN Agjust PTT ON Press PF5 to store the adjust ment value after adjustment Unit Terminal Parts Method Specifications Remarks 65 TK 5710 BJ 5710H B ADJUSTMENT Measurement Adjustment Specifications Remarks Item Condition Test equipment 12 MSK 1 Adj MSKW Power meter Rear ANT PF3 3 0kHz 100Hz deviation Adjust Deviation panel 4 adjust Deviation meter filter meter eWide LPF 15kHz Oscilloscope Front MIC jack HPF OFF AG panel PTT ON AF VIVM Press PF5 to store the adjust ment value after adjustment eNarrow 2 Adj item N MSKN Adjust
41. ome ec oa ons ozo ve ee en 6207 oaos so 0200 Duos 100 x so oue 7o 0201 ZE ana SN omo so aa 7 so a om s 2 3 5 9Hdb VIN Dt 1 Soe z ELH loe 1 xsd am 8 1258 258 Dt E 55 i 90001 cr 90001 et 50 910 cc M cw c 9000 A e ezazo 82 6 e It e E 9 et 9 9 50 59 s 4 92 i D dozy e ug gt 9 19 T SR lt t Zl e 68 dg E ss 02 2 55 90001 ui e dot sell A Ino zx 92e S TT El svig Niva 1 z 85 0 Sr svia ae pa o 2 5 lt NI 3H 20001 x 2 L r m S T 224 8000 z IH 70 x HSZvvOLHIS 2 ab PR 33 LHLe T 90001 Co iD 90001 90 e cl y lo 290 r gt 5 8 a ZN lt 55 94 25 i 58 2 E Co E Bx 0SLNO 09 00ZNO 1 01 060 75 01 060
42. 150 SCHEMATIC DIAGRAM Hab C152 S 0150 26 0436 HVC131 8153 R 0V C159 15 T 5 20V R 0V T 1 03V RF AMP 0151 2SC3357 RF p 5 AMP 1 1 u E 12204 TC75851F 1 03V Sma R253 1 037 STs 4 47 1 51V Bex 528 528 g g os els 852 852 Sez oes Boa aS 058 STE 558 STs 27 X200 1 51 L77 1961 05 3 14V R255 s R256 s R240 0 15 1k 0 010 0 7 Box Se KER 0 65V a a 828 T 8 qe 251 R252 289 GND oUTPUT 001 E 0 8 2k 47p C301 555 VCXO It 0 737 FERQUENCY 1006 3 VCXO 16 8MHz 1St IF 49 95MHz RSSI FMIC 1 205 207 209 211 S 10212 SLO MULTIPLEXER E ov NARROW CF200 V 205 L72 1018 05 209 MCF ADJ aso TC7W53FK TC7W53FK 07V CN203 E40 5538 05 P 3 WIDE 0 201
43. 40 6050 05 D720 C760 470p zoo 18 47k al REVERSE Six SER EMUi OFF DEE CURRENT 62 F700 299 12 PREVENTION 901713 lt EMUo EMUO F53 0278 05 28J506 S 239 11 R777 0719 sme DGND 8 5 8 VOLTAGE oX 8 Le 5 0 a m 47k S S S S REGULATOR RE EC ON 578 TET 5 DC SW E new pao e 0724 SB REVERSE 2 TCK e x 8 CURRENT 5 up DC SW SBC 706 zl 548 2 2 9 TDo TDo DTA114YE eae 5 3 _ 0725 ela X VOLTAGE 2 330 SA S DETECTION OTN Q PSW 8 D726 TDi TDi 0705 0708 BE PROTECTION 114 14 TRST TRST m RSX 0726 TMS TMS SBC R761 aad C657 665 0 Cos MN el FLIP FLOP Tie A sc RES C705 cs rh KCS 916 TC4013BF N PSC PSC z RESET RESET R703 DAT CLK CLK WE 10k T 1 DC SW SBC CLK2 Ri Q709 02 CLK1 DES AES DTA114EE EL 760 33k Q CN724 40 5661 05 Ou DC SW SBC 705 5 39V E40 6202 05 pee 1 D gt in 850 E57 CNVSS 3 RESET DC SW SBC 6015 4 T Q710 m 5 VBUSY PSC 4 DTC114EE DC SW IGN R708 TXD1 iGN o 6 Q711 K i DTA114YE 5 RXD1 e R704 0722 C707 8 N i 2 5 1k 199355 0 47u 0
44. 869 7950 e doe ee e 859 iGHe OSH e EI 5 H 1 1 1 1 i 1 1 I 1 x d 125 235 911089 050 e 911089 er I gt gt e door poe door 4022 I La oN uo dore zo dove V eso pio LE 90 7 OtO D I uzy 6lle SF noo 4 91e i 811 021 SSH e gt 299 e 01 or OL 90001 el 5 x I a 9 8vHe 9m 280 IS E gt lt EIE P D lt 3 45 z o 9 2 BI EQ I 01 01 2 59 ErH e FEU ac dil o Exo doc 120 e ZED Foe 1 GER ee 2 o 58 afs SE 279 e 9000 W It E 6 Se 2290 90001 920 e 239 I tc d 8000 8000 gt 558 m tc 55 e S 8190 I gt 9952 20 K E LIH o RES E 1 e o 91n089 EES amp cw I gt H mU 2 SM gt LLO ce gp 900011 5 52 4 000 58 85 6 I D t Y eH 2 up 110 J ce 62 5 gt ul Cl svia Of svig alvo HSZv Y0LHLS a 2S AJ 1 lt NI du
45. C7 C7 C7 C7 C714 715 C716 717 C718 721 C722 732 C733 C734 C735 C736 737 741 743 745 746 748 C749 C751 C753 C754 C756 C757 C758 C759 760 C761 C762 C763 CK73HB1A104K CK73HB1A104K CK73HB1C103K CK73HB1A104K CK73GB0J105K CC73GCH1H101J CK73GB1E105K CK73GB1C104K CC73GCH1H470J CK73GB1H102K CK73GB1C104K CC73GCH1H470J CK73GB1C104K CK73GB0J475K CK73GB1H103K CK73GB1H102K CK73GB1C473K CK73GB1H471K CC73GCH1H101J CK73GB1C473K CK73GB1C104K CK73GB1C473K CK73FB1E474K CK73GB1H471K CK73GB1C473K CK73GB1C104K CK73GB1A105K CK73FB0J106K CK73GB1A105K CK73GB1C104K CC73GCH1H CK73GB1H1 CC73GCH1H10 CK73GB1H CC73GCH1H CK73GB1H CC73GCH1 CC73GCH1 CK73GB1C CK73GB1H CK73GB1H CK73HB1A104K CK73HB1H102K CK73HB1A104K C92 0754 05 CK73HB1A104K CK73GB1H471K CK73HB1A104K 092 1431 05 92 0628 05 0 10UF K CHIP C 0 10UF K CHIP C 0 010UF K CHIP C 0 10UF K CHIP C 1 0UF K CHIP C 100PF CHIP C 1 0UF CHIP C 0 10U CHIP C 47 CHIP C 1000PF CHIP C 0 10U CHIP C 47 CHIP C 0 10U CHIP C 4 7UF CHIP C 0 010UF CHIP C CHIP C 0 047UF CHIP C 470 CHIP C 100PF CHIP C 0 047UF 1000P CHIP C 0 10 CHIP C 0 047UF CHIP C 7 CHIP C CHIP C CHIP C CHIP C CHIP C CHIP C CHIP C CHIP C CHIP C CHIP C CHIP C CHIP C CHIP C CHIP C CHIP C CHIP C CHIP C CHIP C
46. NC TCNT Tone control input for ANI board N wo RXD INT INT2 RXD interrupt input L Interrupt KEY TX key input for ANI board PSW INT INT1 Power switch detection L Power off H Power on INH Audio inhibit input for ANI board BEEPS CO O O O O Beep mute switch L Unmute H Mute INTRA INTO RTC interrupt input L Interrupt VCC2 Power supply input 3 3V LD DAC LD A8 Address bus 8 BEEP BEEP output 55 GND EP PLL CS 7 0 Address bus 7 0 AUX 1 Auxiliary 1 FPU selectable A20 Address bus 20 AUX I O 2 Auxiliary 2 FPU selectable HINT DSP HINT interrupt L Interrupt STRB1 Shift register 1 CS NC No connection AUX Auxiliary 3 FPU selectable AUX 4 Auxiliary 4 FPU selectable 1 2 Deak 1 2 L Deak 1 default H Deak 2 Modification Pd Pu RXD2 to Display TXD2 to Display IGN Ignition sense L Ignition on H Igniton off TXD1 to D SUB 25pin VGS DRST DSP reset output L Reset VCC1 Power supply input bV FRST Flash memory reset output L Reset RXD1 to D SUB 25pin VGS DSPINT DSP interrupt output L Interrupt 55 GND 07 00 Data bus 7 0 VBUSY Busy input
47. 1078 33A TXI SCR DISPLAY UNIT e tee DATA ANI Ze KC H 1 4 1 5 ee 1 S AVR avs eos __ tee TXO 5V EB147456Hz Ao m PWDA PWAD SCLK 95 010 LRCK SDTI SDTO 2862873 Y 02 29 1 AVR L_ 5V BEV 8 5V gt v Bus 3 30 R31 0607 05 lt 1 5 D lt JACK CLKOUT SOUT FSOUT 2 HK MIC ME 0192122 4 MIC 1608270 3 3M SRIN SURGE baKTRD iua V 6 TRD PROTECT pM PTT 291V160BE90PBT SRCK 2 7 KVL ES 2 i 4 STB 8 9216 2 9 PTT FLASH MI ROM TPRESIMODE 12 ES KVL BLC ES2 5V LCD amp 056 85V BACKLIGHT OE E40 5952 05 DA204U 1 IGN sURGE 1 71 2 58 PROTECT S TC7SO8FU Sage 3E n AND GATE EEP 5 4 4 MIC Tx 9 216 2 ROM LED x 6 Ai 1 i 7 Ai2 pim mE 1703 SMD 8 Ao 1 1 2 SURGE 5V BUSY 30625MGP213GP 9 A02 PROTECTN BUSY gt Ep I BUSY R gt 33 gt INT i gt 51 i END gt PSW SW S2 3 5 15 KEY amp 4 5 BACKLIGHT PF1 9 ZUP ZDN MON SCN 1 2 gt 06 7 9702 703 DTC114TE DTC114TUA lt RXD2 sy F 09277 TXD 2 0 8 TXD2 _ 106 5710 BLOCK DIAGRAM S 10H
48. 22 EES EEPROM rho VBUSY BUSY EPM ME ME DS wwe A mw m m m m mw m m m oe 2 m lt ow lt s X53 412 2 8 pee TK 5710 B 5710H B SCHEMATIC DIAGRAM CONTROL UNIT X53 4120 10 3 30 e 258 o a a Sg lt g 8 2 784 0 01u sor 5i PToS A1 DSPINT SRESET SDTi 00 DSP IC715 320VC5416GGU12 A20 C783 0 010 d BCLKR2 BCLKRO DVSS5 HCNTLO ADDRESS DECODER C713 ggo el TC7SO8FU 330 FLASH ROM e IC712 29LV160BE90PBT PToS ME ME 05 05 MIC M E n Eu uz ccc u e 22222 55 2 222 M 7 X53 412 3 8 R T S 10H pm SCHEMATIC DIAGRAM TK 5710 CONTROL UNIT X53 4120 10
49. 4 7 DECODER 18 432MH ANALOG SW VGS VOUT1 Q 40 6357 05 000006 g els zl T Ne 53 s 33 g B30 DE 2 pda Ka S eng i a 4 A A 5 amp 8 3 30V R883 C603 BUFA 2 TC7W66FK 3 3V VIN1 S oT STs ST 47k 5 REC da VREF 2 D sl e 215 0652 Bis gt eR815 27k 7a 659 1 2 a i 1 709 AO DA221 To 8783 DC SW i d VSV VCCA L 2 ERG Eie 825 58 4 i VOLTAGE 9 9702 0 02V iir t A pum wm BEAT SHIFT D KEV NEL Cees 2 2 B 5 5 828 55 x DTC114TUA 5 Gs O 3 62V 220705 1 49 sl FLASH ROM Q725 SC E TCoNT avis Sook 3 8675 CLK 9 i gi 59 XC6209B152M 4 93V 1 31 IC712 i SSM3K15TE 9610 8559 4 180k 552 R623 R624 Q702 703 29LV160BE90PBT R879 els sls VOLTAGE SoE xxO ba 15D BUFFER TXD2 aie hH Di r r 8 470k Sas Ses PROTECTION 2a 22 22 MATUA um ANALOG SW 32e rhe CLOCK BUFFER aaa Ae a 88858 s 946 s OP RX AUDIO 5 Si s LI ST 4 R776 470 7 MIC MIC2 1 725 T 1y pig 12739 812 855 8 wit 10 ODE 0653 lt 04 2723 E 5 TC7WUO4FK rho 201 TA75S01F PS ere x 470k OE e VOLTAGE 10710 ms SMD T SRI ER F628 C995 25248 ef 85 2 i 1 A 29 0700712 20728 4 5 1000 0730 10000 H 5
50. 8 S 8 5 23 8 205 825 8 5 FC Sak rh 0 01u bai e SIS o 0731 0732 5 VOLTAGE VOLTAGE PROTECTION PROTECTION 12 65V Rx AUDIO 2 MUTE SW 8 SHIFT 729 8 REGISTER vede 1728 8 RX AUDIO BU4094BCFV rj MUTE SW d 5 A 0731 DTC144EE 0875 0 01u 5229 STE sl SURGE 8 o jJ ABSORPTION 5734 1 15555 K700 o s SEs 576 0434 05 zug owas 4 92V J J T 4 DC SW HR Shot 77 0728 852928 T 114 oe 9 5 ag 8 HAE 9 amp t DC SW IGN 8 0730 I DTC114EE C769 39 R813 270 2nd Lo TUNE DEO 10737 10714 LMC7101BIM5 TC75S51F VOLTAGE PROTECTION a gt 9 x Oa m to iu o z D OXZ D T bd lt x SE Ow SE 95 35 mo B FEEDS T o 891 8 x 470k GER X E o gt 9 8 8 5 555 885 825 lt u 22 8 8 du 4 e Ly o 8 CN755 CN771 1 E40 6357 05 E40 6357 05 we cm SS cO E ve gz amp ENGL OM E M K uum BUSY NC NC NC SToN TCONTAINH NC NC NC LOK NC NC E NC E NC NC TXo AKEY EMG E 5C ATXi AUX o NC 8 BC2 PToS ECHo BC4 5
51. ME 9 BLC TRST O6 19 MI2 om WES E 6 TRD 12 ES2 e 3 RUKT OS 14 7 3 5 uxt os o O d AUxI o4 e 8 23 MT 5 TXD3 171 X54 3490 20 A 3 KCH 14 TCK 9 22 TXD3 SIE AUXI o3 18 AUXI o3 X54 3500 20 A 2 KCH 15 RXD3 19 S TCK 10 23 RXD3 DGND AUXI o2 201 2 EMUo EL O11 24 E DISPLAY UNIT EMUI OFF AUXI ol 22 AUXI o1 AUXI o7 23 o 13 12 25 7 X54 3490 20 CN709 241 2 2 KCH 14 gt 05 E 13 AUXI 06 X54 3500 20 M psc CONTROL UNIT ne 28 F 5C ne 29 KCH 15 RESET X53 4120 10 NC 30 par CLK EI E 5710 DE3 CN702 w2 aa ee eee lt lt lt 1 KCH 140NLY j AEB E40 5703 05 E37 0707 05 5 CN724 1 5 2 i INT SP 40 5661 05 o E40 5704 05 BAES dE 2 13 6 gt lt 11 1 lt gt iB 14 52 15 ES2 9 ES2 W700 GND IRS e IRS E37 0707 05 E 3 ote 4 SB J1 IGN j D LED LO DEC EEN E56 0410 15 PS PSW TK 5710H B 32l sl Pe es 1 2 7 2 1 2 _ E23 1116 05 X54 349 B 3 RESET RESET I 1 KCH 140NLY E IE CN150 TK 5710 B TX TX e 1 MIC J MIC 36 CN152 TK 5710H B 9 gt 3 ME 1 sl gt 04
52. PTT ON Press PF5 to store the adjust ment value after adjustment 13 Single tone 1 Adj 2TNW 100Hz deviation Adjust adjust Deviation meter filter eWide LPF 15kHz HPF OFF PTT ON Press PF5 to store the adjust ment value after adjustment eNarrow 2 Adj item N 2TNN Adjust PTT ON Press PF5 to store the adjust ment value after adjustment Unit Terminal Parts Method Receiver Section Measurement Adjustment Condition Test Specifications Remarks equipment 1 RX Panel tuning mode SSG Rear ANT PF3 Enter the following Note After replacing the Front end 1 Adj item W panel adjustment values EEPROM 701 adjust Agjust to the transceiver align RX Front end 2 Adj item WL FEND by pressing PF3 WLC FEND WC FEND and PF4 keys WCH FEND WH FEND WL FEND 190 WLC FEND 160 WC FE 110 FEND 65 WH FEND 10 After setting the Unit Terminal Parts Method adjustment value press PF5 key The adjustment value will be stored in memory 66 TK 5710 BJ 5710H B ADJUSTMENT Measurement Adjustment Item Condition Test equipment Unit Terminal Parts Method Specifications Remarks RSSI 1 Adj item W RSSI SSG Rear ANT PF5 After input Reference Adjust AF VIVM panel EXT SP signal from SSG
53. adjust 2 Adj item WL RSSI Oscilloscope press PF5 key eWide WC RSSII WH RSSI That numeric Agjust will be stored SSG output 125dBm 0 126uV in memory MOD 1kHz 3kHz eNarrow 3 Adj RSSI Adjust 4 Adj RSSI NC 551 1 RSSI Adjust SSG output 125dBm 0 126uV MOD 1kHz 1 5kHz RSSI 1 Adj item W LRSI 120dBm Adjust adjust 2 Adj item WL LRSI eWide WC LRSI WH LRSI Adjust SSG output 120dBm 0 22yuV MOD 1kHz 3kHz eNarrow 3 Adj item N LRSI Adjust 4 Adj LRSI NC LRSI NH LRSI Adjust SSG output 120dBm 0 22uV MOD 1kHz 1 5kHz RSSI 1 Adj item W HRSI 70dBm Adjust adjust 2 Adj item WL HRSI eWide WC HRSI Adjust SSG output 70dBm 70 8uV MOD 1kHz 3kHz eNarrow 3 Adj item N HRSI Adjust 4 Adj HRSI NC HRSI NH HRSI Adjust SSG output 70dBm 70 8uV MOD 1kHz 1 5kHz AF level Panel test mode SSG Turn the Volume 2 0V 0 1V Setting 1 CH Sig 1 1 DVM Knob to obtain SSG output 47dBm 1mV 2 0V AF output MOD 1kHz 3kHz 4Q dummy load 67 TK 5710 B 5710H B 68 Item Condition ADJUSTMENT Measurement Adjustment Test equipment Unit Terminal Parts Method Specifications Remarks
54. 22 1 IC711 BAR VOLTAGE IC711 OO PREVENTION o9 REGULATOR 4 94 2 507 22 T oz 99 8 lt EZ 25D oo i 22 8C 22 BUSY EPM 7 eg 1 ME 92 i em em E A sm mm M sm e em em em UR em mm mm mm m m em m m m jp X53 412 1 8 F H J SCHEMATIC DIAGRAM 5710 5710 CONTROL UNIT X53 4120 10 3 3D 3 30 x 8 2 TEMPERATURE 8 5 12702 CA MM1522XURE ix C1 9 CH 5 E D721 e Au 82 VOLTAGE ett 33 PROTECTION zi GEI VOLTAGE REGULATOR RTC5V 9 x z DOS 1741 asy 5 ECTS NJM78L05UA s EIT E R650 3 1 ale SS 762 Bez SS A PToS
55. 28C3357 RF 77 R205 _ C212 C205 0 01u s 8TS S Bi I RE SR I BPF ADJ 2 5 855 8 552 EE p 5 1 0200 202 St 178 5 CONTROL 5 57 703 1 4 136 lt 155MHz 7 13V 155 174MHz 0V e SCHEMATIC DIAGRAM TK 5710 H 5710H J 10p RX LO1 nara d 8 8 8 TX2RX2 a RXVCO 1 g RIPPLE FILTER CLES uei d aqa 192 83 918 92 358 2SC4116 GR R455 10 1 1 D408 409 5 1 2 SW 136 lt 155MHz 0V 2 348 gas 408 155 174 2 7 13 oTa 518 gge gdz RN47A4 RXVCO 2 SPa 558 A R431 RXVCO 1 S 28 ES 136 lt 155 k 358 155 174MHz VCO 12H STRH zi C512 eR50 eR458 558 502 eC504 505 m mim m m m m m 0413 LI VCO OSCILLATION 0 67V 8 28C5108 Y 2S 5108 Y d BUFFER AMP C484 D D405 414 422 429 430 BUFFER AMP FREQUENCY CONTROL Nn RXVCO 41454 eR447 41407 ds SD om e 1449 2SK508NV 52K scios EE E
56. 70 e SEI d d oer io 021 doz 620 F5 1 Eee ee ee 250 dm 11L 1 de boi neos 60 920 120 220 9000 920 oig mer 40001 90001 90001 tex ei r 819 24 H 5 er A x 9 szaz0 K age m Im T 91n089 x 29 mu gt gt N gg gt 5 56 3 s WE e Ss 8 SE 90001 T 8806 gt Sa 000 54 5 5 1no du I E 250 Ee E E svia 209 eccle Svia 31vo HSZvrOLHLS 1 2 gio ADI el 2 NI 3U o dg sl T r5 E 90001 289 i 12 ze 9000 80 i HSZvPr0LHLS gt dg 0 xu eu IL T E K 9000 906 065 He 4 T z E 2 D 90001 20 gt Bo d zo cr og lt Zo 2 eg Od Ll Z gt lt N tL IK 90 X45 376 1 2 91 X45 376 2 2 SCHEMATIC DIAGRAM TK 5710 B 5710H B FORWARD WAVE RECTIFICATION gt 0
57. 73GB1H472K 73GB0J475K 73GB1H103K 73GB0J475K 73GB1H103K C736CH1H121J 73GB1H392K 92 0719 05 73GB0J475K 0 0 1 39PF 10UF 4700PF 4 70 0 01002 4 70 0 01002 20PF 3900PF 47UF 4JUF K m lt C862 C863 C864 C865 867 C868 C869 C871 C872 C874 C875 C878 C879 C880 C881 C889 C890 891 C892 899 C900 901 902 C904 905 906 907 909 910 911 C912 C914 C915 C916 919 C921 922 C995 C996 C997 C998 C999 CN702 CN705 709 724 28 744 CN755 CN771 CN782 CN783 W700 F700 F70 CN701 L650 1700 701 1704 715 1716 717 1718 172 1722 723 L724 732 X700 X70 CP700 702 CP703 704 R603 CC73GCH1H101J CK73GB1H 92 0720 0 CK73GB1H1 CK73GB1C CK73GB CK73GB1C104K 92 0719 05 CK73GB1C104K CK73GB1H103 CK73GB1C104K CK73GB1H103 CK73GB1C104K CK73GB1H103 CK73GB1C104K CK73GB1H103 CK73GB1H102 CC73GCH CK73GB1C104K CK73GB1H103 CK73GB1C104K CK73GB1H103 92 0633 05 92 0585 05 CK73GB1C104K CK73GB1C473K CC73HCH1H330J CK73GB0J475K 92 0628 05 CK73GB1C104K CK73GB1H471K CK73GB1C104K CK73GB1H222K E40 5703 05 E40 6202 05 E40 6050 05 E40 5661 05 E40 5960 05 E40 6357 05 E40 6357 05 E40 6357 05 E40 6438 05 E40 5066 05 E37 0707 05 F53 0278 05 F53 0195 05 J19 5386 05 192 0446 05 19
58. 8 8 852 8 3 Ses 528 0 47u 1000 15 282 56 Sin 1 100 B T RE nite TT sla 218 al 275 ELE a BB sl Sl R491 STE 828 ESB 568 SKS f are 00 50 elZ e 2 e H 828 e 4 40V 4758 28 Lo u L417 ASSIST eraga A 7 R 336 lt 155MHz 0V Sie 5 LIT 155MHz 4 58V 546 12 1 8u c 174MHz 4 61V 913 4 36V EH Ga RXVCO 2 0 100 Resch o Xia 8 asx a Sa 82 0406 415 424 431 432 Q414 157V 2 13 FREQUENCY CONTROL VCO OSCILLATION C506 Q418 T 60414 25 6108 2 1455 R449 L408 M 2SK508NV 52K SE 8473 5p PLLFIN AMP 0 83 1000p 15 282 dp 220 Sitz 85 A gle oll ij 25 Fre ala gde 848 el gi TAN pal BLS 828 78 878 828 SR NG 35 878 Sc 2 el og 298 e 1461 1418 n A gt 2 7 5 R 0V STS T 136MHz 4 48V R505 155MHz 4 40V 174MHz 4 42V 0 cv MO C466 L457 R457 8463 m nom m m m m m m m m m m m m 10u10 22k 100k D407 416 420 427 428 E SL gt FREQUENCY CONTROL MODUATOR YA Sek 41456 eras 7140 eD420 e 469 leca in HUN 1F IK It t 1F 0 27u 1000 SV282 sls 68 56 Sa VCO OSCILLATION di 493 eR470 E Qao CLE SLE 5 lt sx e nit 3 5 8578 229 55 She 358 ese SES 595 Sl 5 28 2 i9 1 STRL 41460
59. AUX01 2 AUX02 UL 7 zz AS W S E Zeie fi Sls AUDIO 1000p o lt e PLS Resi EEPROM bL CE G jJ S 5 5 8 E 2 5 2996 8 8 STS MUTE SW L2FT 2 2 ho 8 E esau lt ua Sse 82 22 0 A 2529 SER n CN755 e CN771 ETT PCS maen JU C nr S E I oe oe 53 99 2 JJ J 6 amp N 9 o amp a X X BUSY BUSY OD B E Wo WO NODUM DG e EE E 22 3 26 BUSY NC NC NC NC SToN TCoNTAiNH NC NC NC BC LOK NC NC E NC E NC NC NC RXEI I lt lt lt FTEMP2 2 9 ERI E PIS Ss EM AKEY NC EMG 5 AUX o NC NC BC2 PToS ECHo BC4 NC NC AC RXEoSTX 8C MIC DS DS PToS PToS PTS PTS LS Eege E 7 2 Se gt MIC T Ds Ds 1 1 ee eS A 5710 28 OF 55 95 xx EE SS 22 99 55 BE 99 5 5 3 EX FINAL UNIT 100 UNIT X57 7030 10 9 10H SCHEMATIC DIAGRAM
60. Component side view J72 0943 09 v 1 IEE jsp Ceci m DO bes 8 HSE Component side Layer 1 Layer 2 Layer 3 Layer 4 Foil side E F G H J a B C p PC BOARD Foi side view 72084309 KA male WI 77 RA La w w Ww w Il TX RX UNIT X57 7030 10 Foil side view J72 0943 09 O z SR 519 4 00 E 5 PE C64 x eds w ur oa Q m EN E Y Vm io ASe TX RX UNIT X57 7030 TX RX UNIT X57 7030 10 Foil side view J72 0943 09 Foil side view J72 0943 09 f 0 04 d E a BEBE EB EV oru 5 6 DES v w Ww w SCH Se CR E O Gar S SLM 2 d d eet 51 ES 5 H ef a x Kt it ER Y 140 1 BEETS SES Du 5 Eu TO PAS Ki F se Pare SES en wr 0202 7e wo s oz ei 7e ics wo ee 0206 640 95 ee 100 ae asta bzw eG en C401
61. External View KES 6 External Speaker External View TK 5710 B 5710H B SPECIFICATIONS GENERAL Frequency Range 136 174 MHz Number of Channels 512 ERIC 50 Max Channels per Zone 250 Channel Spacing sirensis Analog 12 5 15 20 25 30 kHz Digital 12 5 kHz Operating Voltage TK 5710 13 6V DC 1596 TK 5710H 13 4V DC 15 Current Drain akan ierit mea d s Less than 0 6A ise Less than 2 3A Transmit 5710 12 TK 5710H 25A Duty Cycle Transmit 20 Operating Temperature Range 22 F to 140 F 30 C to 60 C Frequency Stability 2 0 ppm 22 F to 140 F Antenna Impedance 500 Dimensions W x H x D Projections included Deck Only sued ceni eet dae TK 5710 7 01 x 2 36 x 7 68 in 178 x 60 x 195 mm TK 5710H 7 01 x 2 36 x 12 87 in 178 x 60 x 327 mm with KCH 14 or KCH 15 TK 5710 7 05 x 2 36 x 9 09 in 179 x 60 x 231 mm TK 5710H 7 05 x 2 36 x 14 29 in 179 x 60 x 363 mm Weight net RF Deck only ii consti tn TK 5710 5 3 Ibs 2 4kg TK 5710H 8 6 Ibs 3 9kg WITH KOCH 5710 5 9 Ibs 2 7kg TK 5710H 9 2 Ibs 4 2kg Vun ul ee epe 5710 5 9 Ibs 2 7kg TK 5710H
62. Lw 2 4 ___ N o e o r s Pc BOARD K 5710 B b710H B Component side Layer 1 Layer 2 Layer 3 Layer 4 Foil side FINAL UNIT X45 3750 10 TK 5710 B Foil side view J72 0944 09 Address 11N 120 10P fl 51 PN NS T IE ww Component side Layer 1 Layer 2 Layer 3 Layer 4 Foil side 13 75 14 xl B FINAL UNIT X45 3760 10 TK 5710H B Component side view J72 0945 09 5710H B PC BOARD 20 17 un d ec E E um L3 e 5 La TK 9710 76 14 5 d p d TK 5710 B 5710H B FINAL UNIT X45 3760 10 TK 5710H B Component side view J72 0945 09 LL Ze gast Ai 12 2 Component side Layer 1 E Layer 2 m Layer 3 Layer 4 13 Foil side A B C D E F G H J K L M N 5 1K 5710 B 5710H B Pc BOARD Pc BOARD K 5710 B 5710H B FINAL UNIT 45 3760 10 TK 5710H B FINAL
63. PcBOARD 5710 5710 CONTROL UNIT 53 4120 10 Component side view J72 0942 29 _ _________ WE m mm 8886288 Layer Foil side 13 CONTROL UNIT X53 4120 10 Component side view J72 0942 29 Rim lt prr E EE 7 EE B WU E o O e ON 22 m m 29 lt 69 Jo fe Rer p Te Me p AN S go do ae 5 2 Mod 1 Loy eb EAS DEPT RE L f Component side ES ze pem ss D721 se Layer 1 imo em oms so e Layer 12 C705 ara sa se 5723 so Layer 3 iC706 peo 40 0726 so Layer 4 oe 4b sc Layer 5 ac sc Layer 6 icra e o 4 sa Foil side cs peto 2 o E F
64. R763 r Ww w PIS ol ml 715 717 st Sir REVERSE CURRENT PREVENTION me s s 5188 CN701 K E 0716 e e e e e e 1 1 D B 199388 g ees 5 RA 4 94V 9736 2 mz amp 598 R630 1 5 0 BEEP M i lt 32KOUT 56k RTC IC Ei 3 4 957 els 10700 gee RV5C386A Sts X700 A20 1 L77 2304 05 32KOUT VDD OF Sep 2 OSCIN cLKC UL 3 DAT RTCDT SDA OSCOUT 4 R739 CLKC SpA 5 R745 100k 4 CNVSS pcs 1 1 95 CPU Rs OTs RESET 1703 D CPUCLK 30625MGP213GP 1704 T 1 T 8756 47K 22 2 IE E 5 A j S ege 57 5 RXD INT 0704 b S PSW INT1 SSM3K15TE eR758 0 INTRA R742 LD PSW R631 SX EP DC SW PSW AUXi o1 AUXi o2 STRB1 gt 1 35V AUXi 03 AUXi o4 TRD 0 TXD1 RXD1 alu x 055 OSS FPS EPS A A A 025 R783 529 0702 0 02 Ze 47k DTC114TUA 255 700 4 93 i Q702 703 i Q703 BUFFER 2 DTCTI4TUA di kei R776 470k Em TCNT 8773 A70k 5MD eR772 100k 701 AT24256N10SU27 Sls zx R749 100k 4 93V SSS eR769 4 7 4 G 4 em A SDA ZS 5 5 es o gt c T xx za 92x ZEEZZESB 5
65. R843 R854 C792 c 560k 12k ov ol 25 STs R844 1 94 T R875 C811 R876 C802 1F it TXo 2 2866 15k 150k Ao DC SW 47k 0719 VATS Ai Y I SSM3K15TE R655 470k T L718 Fl undis CLOCK DIVIDER X701 10721 22e TC7WH74FK 0 19V 177196205 SN 3 27V Si 552 NA n Olo lt ome 555 875 1 d 5 18 432MHz C603 R883 L THI 27k d DC SW R886 BEAT SHIFT vw 100k 0725 SSM3K15TE 5610 470k 33M 100k ANALOG SW ER CLOCK BUFFER MIC MIC2 x IC725 723 TC7WU04FK R628 C995 25 243 799 ke Nix 8 R608 3 27V N 10k 10u10 2 10010 lt 10 R613 8 RE STF 855 858 R609 47 85 852 4 10 R614 R993 47 680 1726 8 82 Sls a Bl 2 8 5 Slc Slc CLOCK BUFFER 225 R611 2 T N SIM ur M rhe 470 x lt 95 g z 5 8 E a 7 86 PToS PToS ME 05 DS Ope mme X53 412 4 8 U 5710 CONTROL UNIT X53 4120 10 W 5710H Sl Y SCHEMATIC DIAGRAM 5 OP AMP MOD RX AF 729 TC75W51FU VREF C825 1F 22p R890 680k OP AMP RX AF IC723 2 0 TA75S01F 2 02V R896 270k R663 SCSW 33k h 5 CODEC e 1 724 AK4550VTP 16 1 42 9 C837 m ka 15 1 43V C852 10u 14 4 7u em
66. R963 RK73GB1J100J R863 R964 965 RK73GB1J103J R865 R966 RK73GB1J102J R866 R967 RK73GB1J104J R867 R968 RK73GB1J273J R868 S R969 RK73GB1J274J R870 R970 971 RK73GB1J104J R874 R973 RK73GB1J104J R875 1 R974 RK73GB1J563J R876 R975 R92 1252 05 R878 G R976 RK73GB1J334J R879 1 R977 RK73GB1J102J R882 R978 RK73GB1J104J R883 G R980 RK73GB1J102J R886 1 R981 RK73GB1J472J R890 R982 RK73GB1J274J R891 R983 984 RK73GB1J104J R896 R987 R92 1252 05 R897 R988 RK73GB1J684J R899 900 R993 RK73GB1J681J R903 R994 RK73GB1J104J R906 R995 RK73GB1J333J 43 TK 5710 BJ 5710H B CONTROL UNIT X53 4120 10 TX RX UNIT X57 7030 10 Ref No Address Gei Parts No Description Destination Ref No Address hed Parts No Description Destination PARTS LIST R996 998 RK73HB1J470J HIP R 47 J 1 16W C731 C7W66FK R999 R92 1252 05 HIP R 00HM J 1 16W C732 DA85610 700 576 0434 05 C733 C7 5W51FU D650 651 CUSO1 C734 C7S66FU D652 653 DA221 C735 A75WO01FU 0700 704 DA204U C736 C7 W66FK D705 155355 C737 LMC7101B D706 DA204U C738 M62364FP D707 020218 C739 75501 0708 DA204U C740 LMC7101B D709 55355 C741 JM78L05 POLAR D710 020218 C742 7550 OS IC D711 712 DA204U C743 C7S66F 0S IC D713 714 020218 Q700 701 2502114 TRANSISTOR D715 717 55388 0702 703 DTC1141 DIGITAL TRANS
67. STS 325 RBS 4 873 ESSEE 88 ams 815838 AUXo2 4 dk 195355 0 47u pcs 15 88 R798 100 4 835 0 7 5 D 9 9 SS 9 u e S Z z DICAMATE E 4 RXD2 3 AUG o D738 739 RESET ale 0722 gi 7 T 41 16 87 AT VOLTAGE j 7 n I S 2 g Eos LEE PE 5 5 gt 9 9 99 S DC SW IGN 9 0730 B 2 RXD2 SURGE I REVERSE ESS 114 77 RSS eR680 17 86 e mdp BCLKR2 LRCK REGULATOR S 55 T I T DTC114EE TET SB m ABSORPTION S 8 RESET IC e CURRENT e xl 100 A8 T BCLKRO 5 o 5 STF 1 St NC STE 8 PREVENTION DC SW GN 23 18 CPU 85 ils 0 555 i en 33 Suis BIS ELI I Ss D DE 19 11515 HONTLO indi 8 2 508 578 STs _ _ v ME S 30942CNNBG9C 480V D723 RESET IC703 5 5 49 SS p 5 EE x Gcr z 30625MGP213GP S A2 i R995 5 em mm pun um m mm mm m m um em m de m m m m m m m m m m m m m m ws m m um mm m m m m m m m m E 5MD 4 R670 1 vm PROTECTION 25 41704 Sl 3Le 8756 47k ei SCLK1 1 w A o 2 5 aes 514 E37 0707 05 e es 1 973 978 o 8 80 gt ANALOG SW a OP AMP ZZ 555368 C656 1000 3 e 0704 24 79 __ R800 100 IM wes
68. cya VCO1 2 Hz B S CV Q417 Q419 Q150 Q151 gt Senven 2805108 D SD SE PS SE 31 D4 y D3 TX TR L_ 7 Je 488 _ POWER FWD VCO Sw ATT MODULE DET DET s lg 1 MMPAQQ S 0 16 8MHz ASSIST 8CL 5C 0403 5C 0418 8R LOCAL 1 ay ee Hl 185 95 223 95MHz Ge pde a au MB 16 8MHz X E L 0205 X200 WIDE 2nd IF450KHz 5 Zosen 177 1961 05 CF201 dM uum H 2 j 55 lt vcxol lt L2FT W N 1 p NARRO W N 1 F 4 200 171 0625 05 PE E 15286 3 Ben Een M X 1st IF TV 4 8R 8R TUNE 8R Ss ES 49 95MHz en 9200 PANE ARROW pegao RER RETES NARROW ege yo 1C212 TA31137FN 25 4215 le p le le le Sw sw sw 52 4 Lu A A SS EE ese cei e EH EES 40 L34 P 5j A EE 140736 3 3 d ASQ DET 10738 12732 ACC 9pin RECTIFIER DAC 10739 COIL Ao Q732 1 727 ES 1 ES 1 TP VR SW 2SD1757K BU4053BCFV E 10724 5 2 gt IRS mE 10729 1 2P RXEO 1 731 SCR 1 10742 Sw SW TAZSWOIFU Y SCR ge Ao A AFO S rr OS 1 Ai gt 1 sum AFO STONE AM ASC OS 2 gt ACC D Sub 25pin 33A K SCSW
69. for VGS H Busy STRB2 Shift register 2 CS AUX 0 5 Auxiliary 5 selectable TXDO to D SUB 25pin 232C level TAMS TX audio monitor switch L Disconnect H Connect RXDO to D SUB 25pin 232C level AUX 8 Auxiliary 8 FPU selectable AUX 0 6 Auxiliary 6 selectable NC NC for LOK customize AUX I O 7 Auxiliary 7 selectable RTCDT RTC data MM MIC mute output L Unmute H Mute AUX 0 9 Auxiliary 9 FPU selectable SBC Power control output L Power on H Power off STRB3 Shift register 3 CS PTOS for K USA customize 33 5710 5710 SEMICONDUCTOR DATA 34 Port Name Function FTEMP1 Temperature compensation 1 input ASQL Analog squelch input CV VCO CV input RSSI RSSI input TEMP Temperature Input BATT Battery level input FTEMP2 Temperature compensation 2 input AVSS A D converter power supply input terminal AUX I O Port Name AUX input ouput for ANI board Function STRB1 Latch clock input Rising edge DAT Serial data input Serial clock input Rising edge External MIC mute L Mute H Unmute External data line mute L Mute H Unmute INT SP EXT SP switching L Normal SP H PA SP Hor
70. ol NC TCoNT TIF IN IN 0 0 sel AUX I o SCH ere ele 1 P NC NC CN600 CN13 CN14 Eee gt E we e NC NC ele DE E40 6438 05 26 8C NC m ASQL asoL X54 349 KCH 14 YES YES CN755 Rast E40 6357 05 mle e ANT SCRAMBLER CN782 X54 350 KCH 15 NO NO 2 feel E 9 BC2 BCI 1 ae LOK E40 6438 05 36 ECHo NC NC CN783 E E 40 5066 05 es NC NC iGN 5 E oo NC NC HRI NC NC HRI 1 HR2 1818 36 ee AC o 252 ee RXEo osi oS1 1 4 7 STXI RXEI aso ES2 9 je 9 26 BC3 ES1 CN771 ES pins IRS E40 6357 05 A 104 105 TK 9710 B 5 710H BLOCK DIAGRAM TK 5710 B BLOCK DIAGRAM
71. waru He STS TC7S66FU 77 6275 eR276 IN OUT 5C 3 3k 0 2 QUAD 8 OUT IN 3 IF2OUT 3 R281 DCSW 1232 GND CONT I 0206 Bee L34 4725 05 Sex 879 Ris jas 1 18 OT C328 R261 D 1F al 3p 27k 1 ovS B ELI Eig 8 Bea glo 1 52V 2 5 D DC SW BTS 8259 9209 th 100K DTC114EE I BUFFER _ i 10213 WN TC7WU04FK 8 R317 R258 7 1263 eo 330 Sie 0 6 0 258 5 R268 47 X57 703 4 4 X45 3750 10 CN1 FINAL UNIT TK 5710 B FINAL UNIT X45 3760 10 CN1 TK 5710H B X45 3750 10 CN9 TK 5710 B X45 3760 10 CN9 TK 5710H B FINAL UNIT CONTROL UNIT X53 4120 10 CN782 103 10H SCHEMATIC DIAGRAM
72. 0 72V R314 L72 1016 05 FILOUT 7 89V 2218 5 8 8T 1 206 IC210 IF2OUT TC7W53FK V NARROW TC7W53FK CF202 5 0 74 2 51V L72 1009 05 R235 C270 47k 47p 2nd IF 450KHz Q203 28C4215 Y IF 1207 172 1018 05 12211 W 5 01V TC7WS3EK TC7WS3FK Wor APCO 5 02V W 3 26V N 0 11V 4 gt m m m m m m m m m m m m m m m m m m m m m m m m m m m m m m mm m m m m m m m m m m m m m m m m m m m m m m m m m m m m m m X57 703 3 4 UNIT X57 SCHEMATIC DIAGRAM TK 5710 7030 10 1 9 10H C165 L154 C168 R171 C169 CN150 wm bm m Pan un un m n um um m Um Um 18 47n 1000p 22 1000 si VOLTAGE REGULATOR e s gt srs ars 8 0V TA7805F 5 0 DI S49 S
73. 05 RK73GB1J104J RK73GB1J101J 7368 7368 7368 73GB1J 73GB1J104J 92 0670 05 73FB2A820J 73GB1J104J FB2A820J FB2A102J FB2A122J 1252 05 FB2A473J FB2A102J 1252 05 73GB1J104J R12 6427 05 4 6 02076 2 4 6 5 88 5 2278 100 DSA3A1 FK 155388 4 6 IPC 5PF IPC 8PF IPC 22 1000PF IPC 33PF IPC 1000PF IPC IPC 27PF IPC 22PF IPC 000 UMINIUM ELECTRO 470UF 25WV HIP C 1000PF K IPC 000 IPC SPF J CHIP C PIN SOCKET TERMINAL FLAT CABLE CONNECTO TERMINAL 820PF J LEAD WIRE WITH CONNECTOR R CORE COIL R CORE COIL R CORE COIL R CORE COIL CORE COIL R 820 R 0 R 820 R 10K 0 OHM OK 56 00HM J 41K J OK J 00HM J OOK J ING POT 47K ER DIODE DE ODE URGE ABSORBER TA75WO1FU RA60H1317M1 23 S1R104J475H MOS IC MOS IC POWER MODULE THERMISTOR UNIT X45 3760 10 TK 5710H B CC73FCH1H050C CK73GB1H102K CK73FB1H102K CK73GB1H102K CK73FB1H102K 90 4126 05 93 0564 05 93 0563 05 93 0603 05 CK73GB1H102K 93 0559 0 93 0568 0 CK73GB1C CK73GB1H 93 0603 0 93 0573 05 CK73GB1H 0 H 02K 93 0573 05 CC73FCH 93 0868 05 CK73FB1H103K CM73F2H101J CK73FB1E104K 90 4126 05 CM73F2H300J 93 0571 05 93 0603 05 CM73F2H080D 93 0571 05 CM73F2H180J CM73F2H181
74. 1252 05 R219 73FB2A5R6J 1 OW R317 RK73GB1J331J R220 73FB2A821J OW R318 RK73GB1J681J R221 73GB1J120J 6W R326 329 RK73GB1J182J R222 73GB1J330J 6W R330 R92 1252 05 R223 73GB1J103J 6W R400 403 RK73GB1J101J R224 73GB1J472J 6W R404 RK73GB1J102J 47 TK 5710 BJ 5710H B PARTS LIST TX RX UNIT X57 7030 10 Ref No Address Gei Parts No Description Destination Ref No Address Wed Parts No Description Destination R405 GB1J563J 56K J R500 501 R92 0670 05 CH 0 OHM R406 GB1J103J 10K R503 R92 0670 05 CH 0 OHM R407 408 73GB1J104J 100K R505 R92 0670 05 CH 0 OHM R409 73GB1J102J 1 0K R509 511 RK73GB1J101J CH 100 1 16W R410 73GB1J152J 1 5K R512 RK73GB1J102J CH 1 0K 1 16W R411 73GB1J561J 560 R513 RK73GB1J220J CH 22 1 16W R412 2 1252 05 R514 RK73GB1J183J CH 1 16W R413 73GB1J222J R515 518 RK73GB1J101J CH 1 16W R414 73GB1J102J R519 RK73GB1J472J CH 1 16W R415 73GB1J472J R521 RK73GB1J473J CH 1 16W R416 2 1252 05 R522 RK73GB1J332J CH 1 16W R418 73GB R588 R92 0670 05 CH R419 73GB 1 R589 R92 1252 05 CH 1 16W R420 73GB R590 591 RK73GB1J103J CH 1 16W R422 73GB R592 RK73GB1J272J CH 1 16W R423 424 73GB1J1 d R593 RK73GB1J102J CH 1 16W R425 73GB1J R594 RK73GB1J103J CH 1 16W R426 73GB1J R595 597 R92 1252 05 CH 1 16W R427 428 73GB1J R600 RK73GB1J473J CH 1 16W R430 2 1252 R601 RK73GB1J222J CHIP R 1 16W R431 432 73GB 8602 RK73GB1J473J C
75. 2 LOK No connection PTOS PTT output NC No connection ECHO Echo PTT NC No connection BC4 Scrambler code output 4 E GND E GND NC No connection NC No connection E GND 5 NC No connection NC No connection NC No connection NC No connection NC No connection AC Scrambler control signal output TXO MIC signal output RXEO Audio signal output RXEI Audio signal input STXI MIC signal input BC3 Scrambler code output 3 8C 8V 26 Fig 6 Voice scrambler board TK 5710 BJ 5710H B INSTALLATION 7 ANI Board Connection 1 2 3 Remove the upper case and upper packing of the transceiver Attach the cushion to the ANI board as shown in Fig 7 2 Solder each lead wire of the ANI board to a necessary location of each landing on the component side of the control unit Note You must setup using the KPG 95D Component side of the Control unit Solder land BUSY Channel busy signal output AKEY Key input NC No connection NC No connection NC No connection PTOA PTT output NC No connection EMG Emergency signal output E GND E GND NC No connection NC No connection E GND 5V STON Side tone input ATXI Data input TCONT Speaker mute signal input NC No connection AINH MIC mute signal input AUX I O Emergency signal input NC No connection NC No connecti
76. 2 pee wl aL 1C402 nis SS Tes R400 R509 4 227 23 2 510 525 AE 828 se c EI e 100 100 24 1 ov 100 T 1 67V 1 5 I 2 88 de OUTPUT V 5 cl e 2 8440 Qe x 1 02V 3 1 02V 82 INPUTS PUE 1 Y 885 8 219 8496 8409 eR4i2 eR4i4 8416 d OPAMP VCO TUNE I 8 100 0 a 1 0 8 8l18nls8l2 5 3 RHEOSTAT I 0 oT 87 878 ela 2 IC401 2 8 5 Sla MCP41100T 5 9 Gms xm 548 R515 5 100 5 027 BE PCS I J Six cuc 56 tl T N 100 1 026 8 DAT R517 R430 100 0 POTENTIOMETER bv a I Er ST D BUFFER env Sis Bix Q400 R408 RX oi 2SK879 GR Y s D400 C425 C435 1404 0402 C446 3 01v R406 Iie H DE 1F I 40k 25077 1000 1 5p B 88n 1000p 25077 1000 2 o osx Sao re She Bow S 8407 wee FIN 0 Sto ore 57 ore 402 403 255 526 PLHEINEIETERISW PLLFIN FILTER SW 100k Ze oue 4 28V TX 189 2SC510B Y C424 0401 C426 C434 D403 C402 C417 1i K I D 1 1F 15p 25077 1000p 3p B 25077 100 10 sts S a a o 5542 578 855 Asx 95 925 5188 D ETT ET DC SW 33835 87 318 25 Q401 308 7 1 DTA144EE Hd n CN602 E37 1235 05 ech DC SW Q402 DTC144EE o g STR 5 I St 1203 1205 525 RAMP 1 041V 0200
77. 202 2SC3357 RF TRANSISTOR R486 73GB 1 0203 2564215 TRANSISTOR R487 73GB1J271 Q205 25 5108 TRANSISTOR R488 73GB 0206 DTA144EE DIGITAL TRANSISTOR R490 73GB1J101 1 0207 SSM3K15TE FET R491 73GB Q208 2504617 5 RANSISTOR R492 73GB 0209 0 114 GITAL TRANSISTOR R493 494 73GB 0212 DTA114EE IGITAL TRANSISTOR R496 73GB1J101 1 0213 DTC114EE GITAL TRANSISTOR T D D D 48 TK 5710 BJ 5710H B PARTS LIST TX RX UNIT X57 7030 10 New New Ref No Address parts Parts No Description Destination Address parts Parts No Description Destination 0400 2SK879 GR Y FET 0401 DTA144EE DIGITAL TRANSISTOR 0402 0 144 DIGITAL TRANSISTOR 0403 2SC5108 Y RANSISTOR 0404 405 RN47A4 RANSISTOR 0406 407 25347 FEL 0408 409 RN47A4 0412 2SC4116 GR 0413 414 25 508 52 0416 25 508 52 0417 419 2SC5108 Y OR 0598 2SA1832 GR OR 0599 0 144 RANSISTOR Q600 4 RANSISTOR 0601 25 1132 0 OR 0602 DTC114EE RANSISTOR 0603 2SB1132 0 R OR TH201 B57331V2104J OR A400 W02 1939 05 49 TK 5710 BJ 5710H B EXPLODED VIEW TK 5710 B 2 A N09 2292 05 N32 3008 45 D N35 3006 46 3 E N67 3008 46 H N87 2606 46 N87 2612 46 N87 3008 46 c 50 Parts with the exploded numbers larger
78. 23802 lt lt JIN INV MOS ugpo zp d dA g z d dA98 4 d dAUuZ d dAUL vL UND TYNI ep LINN ep LINN 10H1NO2 ch SL v HO LINN 0149 01359 19331UusueJ EDO QVNIS 8921 uieiqo pauinbas 95 eui smous Aejdsip 291 dS 22131 65 51 85 51 472 62 51 ZLI 52 51 Tore 390001 EEN To ju eui 23002 lt AJA ZEPIE W4 2691 INV BAB OW 991 12euuoo uonoes 4 eui U slu uu inse ui exeui d dawooo d dawogs d dAuorz 4 d dAUuOL JV HOLZS 31 942 21291 04722 2020 8922 0044 2920 ZOZO 6 00 EZED 0222 0122 0020 6022 0LZG 3 L SLO lt ANI E H AEH HI CM LL 011 WAPO LZL 811 22 wgPO 6LL 12207 WPO LLL 121 021 2491 2 di ZHINS6 6 41 ISL Aouenbe4 1911983 JH d dv Ji puz HOLLS OLLSML 110 TK 5710 BJ 5710H B OPTIONAL ACCESSORIES KCH 14 Front Panel Kit External View KCH 15 Front Panel Kit
79. 43 programming interface cable as de scribed below 1 Remove the two screws from the plug cover then lift the cover from the plug 2 Solder the lead wire onto the MIC tab on the PCB and the ground wire onto the ME tab 3 Create a hole in the casing as shown in the illustration then fit the cable into the hole Replace the cover and secure it using the two screws Create a hole 7 Firmware Programming Mode 7 1 Preface Flash memory is mounted on the transceiver This allows the transceiver to be upgraded when new features are re leased in the future For details on how to obtain the firm ware contact Customer Service 7 2 Connection procedure Connect the transceiver to the personal computer IBM PC or compatible with the interface cable KPG 43 Con nection is the same as in the PC Mode 7 3 Programming 1 Start up the firmware programming software Fpro exe 2 Set the communications speed normally 115200 bps and communications port in the configuration item 3 Set the firmware to be updated by File name item 4 Press and hold the PF2 key while turning the transceiver power ON Then the orange LED on the transceiver lights and PROG 115200 is displayed 5 Check the connection between the transceiver and the personal computer and make sure that the transceiver is in the Program mode 6 Press write button in the window When the trans Ceiver starts to receive data the PG disp
80. 4778 08 L34 4520 05 134 4556 05 134 4520 05 134 4517 05 134 4520 05 134 4523 05 134 4805 05 192 0179 05 R92 0670 05 73GB1J103J 73GB1J 1252 73GB1J 73GB1J 1252 73GB1J 73GB1J 73GB1J 73GB1J 264 73GB1J332J 1252 05 73GB1J104J 1221 05 FB2A101J 1204 05 1319 05 FB2A224J 2 0670 05 1252 05 RK73FB2A221J RK73FB2A820J RK73FB2A102J R R FB2A563J 92 0670 05 R92 1279 05 R92 2673 05 R92 2673 05 R92 1279 05 R92 1279 05 R92 0670 05 RK73FB2A103J RK73GB1J102J 12 6431 05 02DZ5 6 X Y HSMB88AS 4 4002 4 6 ZSH5MA27 DF25V60 IPC 000 IPC 24 HIP C 272 HIP C J N SOCKET ELAY TERMINAL LAT CABLE CONNECTOR ERMINAL EAD WIRE WITH CONNECTOR ALL FIXED INDUCTOR 47NH R CORE COIL R CORE COIL R CORE COIL R CORE COIL R CORE COIL R CORE COI R CORE COIL HIP FERRITE HIP 0 OHM HIP 10K IP 2JK IP IP 1 0K IP 10K IP IP IP IP IP IP IP IP IP IP IP IP IP IP IP IP IP IP IP 33 1 0 1 0 33 33 0 10K 10K J ING POT 220K NER DIODE ODE ODE ODE URGE ABSORBER ODE 25111 RA13H1317M 31 TA75WO1FU RD100HHF1 02 S1R104J475H S1R104J475H DIODE HYBRID IC POWER MODULE MOS IC FET THERMISTOR THERMISTOR CONTROL UNIT X53 4120 10 TK 5710 B 5710H B C601 C603 C605 C608 C610 C61 652 653 C654 C655 C656 660 C66
81. 5 ons 3 8 d VOLTAGE y PROTECTION L x gt 2 s 2 D714 Sis 3 Sa illis E 8 5 8 02DZ18 X Y d S e R E 8 5 5 5 219 1 15 5 a 8 1 0735 quip E C736 1110006 4 i T C737 100 4 T e C738 p 00 4 8 1 40739 p 8 t 44100 ela Qs be 82 558 18 HO ES OTE 17515 2 5 100p ia HU 4 F e _ 2 S hoe gm i 5 8 8 3 5 19 29 75 9 5 8 5 8 sTRB3 16 585 sorat 00 4 oe ON SoE FAG 100p 100p G e 1 C730 1 1000 15078 10000 42790 D700 712 0707 0710 RIRIS VOLTAGE K At 1 S57 yom PROTECTION O2DZ18 X Y 02DZ18 X Y PROTECTION m Q701 AK 2502114 4 De 9 A 1 O2DZ18 X Y D 0701 EP ib Tue gus n AUXO1 9 AUXO2 1000p 6 L2FT 8 Six PCS T FTEMP1 s FTEMP2 2 1 X53 412 8 8 TK 5710 B 5710H B SCHEMATIC DIAGRAM
82. 5710 BJ 5710H B CIRCUIT DESCRIPTION 8 Signaling Circuit 8 1 Encode OT DOT DTMF MSK Each signaling data signal of DOT DTMF and MSK is generated by the DSP circuit superposed on a modulation signal and output from pin 16 of the CODEC IC 724 The modulation balance of the QT DOT signal is adjusted by the D A converter IC738 and the resulting signal is routed to the modulation input of the VCO and VCXO X400 The each deviation of the TX OT DOT DTMF and MSK tone is adjusted by changing the output level of the CODEC IC and the resulting signal is routed to VCO and VCXO The RX DTMF tone is output from pin 15 of the CODEC IC passes through the receive audio signal system and is out put from the speaker 8 2 Decode OT DOT DTMF 2 tone MSK The audio signal is removed from the FM detection signal sent to the DSP circuit and the resulting signal is decoded 9 Compander Circuit The term compander means compressor and expander The compander reduces noise by utilizing a compressor and an expander The transceiver contains DSP IC IC715 to perform this operation The transceiver compander can be turned on or off using the FPU 32 CPU 30625MGP213GP Control unit 703 Port Name Function TK 5710 BJ 5710H B SEMICONDUCTOR DATA Port Name Function DS Dual band switch VREF AJD converter reference voltage input terminal SELF Self programming mode L Enable H Disable
83. 6204 252 0 aw CLK Sw gt 2 5V IF2 OUT T 0208 SE 1 709 osAMax APCO FM acere oG Max AOA m Y AVR gt ECH 3 3V vd 0727 728 el 10723 RB706F 40 TC7S66FU 75501 Mision DET sw f l MI 2 0715 3 3A sw s 5 T 9723 5 6 Tczswsirun5C Q720 5C v 12719 MUTE L 2SJ243 1 TC75W51FU 2 2 sw gt ATT gt sw 0 n D lt MIC Ai 167203 3 XI SCR ie DISPLAY UNIT erer SA Ba KCH 14 15 e SW 30302M84Z2GP xi 12715 S Vec 177 1968 066 eer amp T TXO SCR szovesasesu 5V 5 14 7456 2 o PWDA PWAD SCLK SU LRCK SDTI SDTO 28C2873 Y 02CZ9 1 X Y 1 AVR 5 3 3D 8 5V R31 0607 05 DSP l 1 5D M VOL CLKOUT SOUT FSOUT 1 SB 2 HK MIC H o MIC 393 ME LJ 19 2122 4 MIC 1608270 3 3M SRIN 5E SURGE AKTRA l IRS Y 6 TRD PROTECT pM PTT 29LV160BE90PBT lt SRCK 2 7 KVL M ES 2 4 STB PTT 8 DM 9 216MHz SOE BLC d FLASH ST ie ROM 12 ES2 KVL BLC ES2 5 z LCD amp pu ons D56 CPU 8 5 BACKLIGHT E40 5952 05 DA204U 1 IGN SURGE 2 10713 1 701 2 58 TC7S08FU AT24256N10SI27 5
84. 8k els 0721 fons ede 6 n R932 case tt ls ale SCRAMBLER SCSW 0714717 z t 22 M R 3 DETECTION MUM OSO aav EZYS S E 522 848 SSM3K15TE SCSW SCSW ars 7 3900p 77 NET 188 1 731 0736 BUFFER RXD3 8 8 o ES2 818 gis 348 818 848 518 gis 348 CN728 PSW 0726 R650 3 1 3 lt 51 3 8 RB706F 40 4 95V 33k t _ 4 P 4 TC7W66FK 3 29V 10 6 8 825 8 STS 818 81 EIE F SIE PTS 40 5960 05 i 8 TDi TDi DC SW 0705 DCSW VOLTAGE 0 C784 _0 01u scii 1 SCRAMBLER i noez IH s dE Sz or 7 96 TAST TEST SBC pro114YE DTAM4EE PROTECTION 2L i22 SHS 1 5 gue TO f 4 0 01u BER Tn TRST TEH 0726 8 BER R762 1 Pus a Bi OP AMP KLS 8 CODEC gl TT 8 g d NC 28 TMS R701 gt lt DA204U 1 724 s 2 2 NC 27 TMS 4 875 Bhs d LEVEL D731 D732 C657 eC665 0 0 763 5 28821 yak 4 TO 1 STs CONVERTER VOLTAGE VOLTAGE GND 26 1000 0 017 61723 47k FLIP FLOP so Box WS1FU 4 94V i 1 42V 9 C837 ose 10722 PROTECTION PROTECTION 12 65V AUXi o6 25 n 5C Ses 1 705 DEEG E R832 47k Rad 528 VCoM AoUTR 955 55 ADMSO2EARN 2 Hr um RX AUDIO AUXi o6 cs 119 l kes lt rh TC4013BF N D7
85. 9 Self Programming Mode Write mode for frequency data and signaling etc To be used ONLY by the authorized service person maintaining the user s equipment After programming reset the FPU to the Self Programming disabled mode Transceivers CANNOT be delivered to the end user in the self programming mode The following setup items in the channels programmed by the FPU can be changed using the self programming mode The addition of new channel and the deletion of channel that has already been programmed by the FPU cannot be performed using the self programming mode e RX Frequency e TX Frequency Channel Type Mode When the channel type is selected MIXED Channel Spacing Signaling TX Signaling e RX NAC TX NAC Talkgroup List No Note The personality will be also changed when the above mentioned items is changed Refer to the FPU for the personality details 9 1 Enter to the self programming mode Press and hold the GRP key while turning the trans ceiver power ON Ignoring whether the Read authorization password is set or not PASSWORD appears If the Read authorization password is not set to the trans ceiver SELF PG MODE is displayed on the LCD when the PF2 key is pressed while PASSWORD is displayed If the password is set to the transceiver SELF PG MODE is displayed on the LCD when you enter the correct pass word while PASSWORD is displayed For the password
86. 9 2 Ibs 4 2kg RECEIVER E Digital 5 0 251 Digital 196 0 40uV Analog 12dB SINAD 0 25uV SelectiVIty EE Digital 63dB Analog 25 30kHz 83dB 85dB Analog 12 5 15kHz 76dB 80dB Intermodulation Distortion Digital 8088 Analog 25 30kHz 80dB Analog 12 5 15kHz 80dB Spurious and Image Digital 90dB Analog 90dB Audio DIStOFtIOn Digital Less than 1 0 Analog Less than 2 0 Audio cette Internal KCH 14 3 1 5W 8Q External 3 12W 4Q Internal KCH 14 8596 1 625W 8Q External 5 13W 4Q TRANSMITTER RF Output TK 5710 50W to 5W TK 5710H 110W to 50W Spurious and Harmonics 80dB FM Hum and Noise Analog 25kHz 5088 53dB 1 Analog 12 5kHz 4588 47dB 1 Microphone Impedance 6000 Audio l icis Less than 296 MOd lati miu rettet rn 16 11 8K10F1E 8K10F1D 20KOF7D 11K2F7D 14K4F1D 7K20F1D 1 148 168MHz Analog measurements made per TIA EIA 603 Digital measurements made per TIA EIA 102CAAA KENWOOD reserves the right to change specifications without prior notice or obligation Kenwood Corporation 2967 3 Ishikawa machi Hachioji shi Tokyo 192 8525 Japan Kenwood U S A Corporation Kenwood Electronics Europe B V P O BOX 22745 2201 East Dominguez Stre
87. Adjustme Tuning point H 204 94750 nt items other than assist voltage Display RX MHz TX MHz Low L 136 10000 136 00000 Low LC 145 60000 145 50000 Center C 155 10000 155 00000 High CH 164 60000 164 50000 High H 173 90000 174 00000 Adjustment item and Display 1 256 9 Adjustment item Display TK 5710 BJ 5710H B ADJUSTMENT Wide Narrow APCO Tuning point TX assist voltage VATX ee ide 5 RX assist voltage Upper ide 5 RX assist voltage Lower VARX I ide Frequency TXF ide High power HPW ide Low power LPW ide Balance Wide BALW ide 100Hz Square Wave Balance Narrow BALN 100Hz Square Wave FM MAX deviation Wide FMWD FM deviation Narrow FMND APCO High deviation HDVA Symbol Rate Pattern MIC sensitivity MIC OT deviation Wide OTW 67Hz OT deviation Narrow OTN QT 67Hz DOT deviation Wide DOTW DOT 023N DOT deviation Narrow DOTN DOT 023N deviation Wide DTMW DTMF Code 9 DTMF deviation Narrow DTMN DTMF Code 9 AJOJN MSK deviation Wide MSK PN Pattern e MSK deviation Narrow MSK PN Pattern Single t
88. C921 R958 om Ni 8661 802 R876 8966 R967 8970 J72 0942 29 Address Ref No Address Ref Address Ref No Address Ref No R912 8913 6845 6850 R656 H C737 C656 D739 2 C81 R867 C790 Address Ref No Address Ref No C796 C785 C910 C911 72 el 5 5 ed ed e 8224 t jaa Jaa si E 0735 1 6 34 R664 gt 0737 C169 R845 EE S 6794 6798 R846 Q CH el 5 R874 1C809 C848 C844 D732 R916 E EQ F NI 18503 5 4 gus Pa 8 I wes 612 0603 Peien 4 1 5 8 lc E E Pm ten KA Fea Een 0715 8 Hg gt es I 1p717 0725 C812 14 R878 E 18383 0703 8238 It 0702 ES CH E 5 C787 8 6281 rem 8847 C997 GE a 20 Address Ref No R856 8 R859 ae C799 1722 E in RB ori 995 Address Ref
89. Es GE Ej 6549 S SHE el 12 13 C862 938 e 9 ___ Stee 8937 8940 B zi 8 1C740 S 5 3r i 1 e R653 1111 So R859 C996 1 978 s 1 si esie LS A S G C799 983 R582 5 a E 5 5 1722 HE J72 0942 29 D738 D740 0742 bd E e ea a 11 12 Address Ref Address Ref Address Ref Address Ref No Address Ref No Address Ref No 13 14 82 Component side 5 T10H B cT E L G 10 Xs lt 3 Foil side view J72 0942 29 CONTROL UNIT X53 4120 10 O 5710 TK mmy Ur a SS we x ILO oc E F M N o P n A B G J K L S TK 5710 B 5710H B Pc BOARD BOARD K 5 10 B 5 10H B 0732 C902 5 4 167358 ER je C890 C795 Ma 5 dP 00 R974 co e D Fa R678 D735 ES C891 ex e 738 R959 c R932 C858 R930 4 10729 8 1 5 C922 R951 R861 EES 0 R950
90. J32 0722 04 HEXAGON BOSS X45 FET 1B 053 1666 12 PACKING BOTTOM 2B 653 1687 04 PACKING D SUB J39 0651 05 SPACER TOP BOTTOM CABINET 1E H02 0626 04 INNER CARTON CASE 09 2292 05 HEXAGON HEAD SCREW D SUB 2E H12 3176 02 PACKING FIXTURE HEAD SPACE 32 3008 45 FLAT HEAD MACHINE SCREW CABINET 2E 3E H12 3183 02 PACKING FIXTURE TOP BOTTOM N35 2604 43 BINDING HEAD MACHINE SCREW HEXAGON 3E H52 2073 02 EM CARTON CASE N67 3008 46 PAN HEAD SEMS SCREW POWER MODULE J39 0651 05 PACER TOP BOTTOM CABINET N68 3008 46 PAN HEAD SEMS SCREWIFINAL AMP 2B 09 2292 05 EXAGON HEAD SCREW D SUB 68 4006 46 PAN HEAD SEMS SCREW DC TERMINAL N32 3008 45 LAT HEAD MACHINE SCREW CABINET 7 2606 46 BRAZIER HEAD TAPTITE SCREWIPCB A 35 3006 46 DING HEAD MACHINE SCREW DC TERMINAL N87 2612 46 BRAZIER HEAD TAPTITE SCREW SHIELD A N67 3008 46 EAD SEMS SCREW POWER MODULE 87 3008 46 BRAZIER HEAD TAPTITE SCREW DC ACC ANT 228 38 N87 2606 46 HEAD TAPTITE SCREWIPCB 9 0365 05 SCREW SET ACCESSORY 1A 87 2612 46 RAZIER HEAD TAPTITE SCREW SHIELD 09 0971 05 LITHIUM CELL X53 N87 3008 46 HEAD TAPTITE SCREW DC ACC ANT 99 0365 05 SCREW SET ACCESSORY UNIT X45 3750 10 TK 5710 B W09 0971 05 LITHIUM CELL X53 CK73FB1H102K CHIP C 1000 C
91. No 0731 Address Ref EZ EZ Address No R969 T 6881 Component side Layer 1 Layer 2 Address Ref No Layer 3 Layer 4 Layer 5 Layer 6 Foil side 82 14 83 Component side view J72 0943 09 TX RX UNIT X57 7030 10 TK 5710 B 5710H B Pc BoARD 0 L LOZND 0092 M 8 1093 3 859 41 CE 0090 g en F 2095 223 C630 0601 1209 2 1461 2 lt o 5 SEE 5 Deg Ec 5 872 e st a 1407 1455 i 1408 1410 BEZ HAA Ea NI TT 070 6179 FE Re IE E 5 52 Siva 9 B eid E E 5171 5 5 B e 8412 0424 D S STI SN S C45 5 C838 420 o 79 o lt o z tc o o lt o z a cc 75 o lt o z m o o o lt o D 75 o lt o et i lt o z m
92. Ok ANALOG SW 8 16737 IC714 228 8 3 8 5 5 5 8 5 E 3 D714 TA7805F 4 94 O 0 35 A19 7 TAMS 9 e LMC7101BIM5 2 01V SH a a 3 8 i 2 8 020718 C658 4 10000 2 8 04 1 ry a6 68 cso 2 1718 21V J 5 TCTSSSI1F 8 lt 81 8 g 5 Pall v E E D740 AVRM1608C270K2 77 TH 01 37 66 t cst R956 454 FRONT TUNE x 4 C735 11000 0741 1608 270 2 7 RP VOLTAGE 3 Le Se e cs2 i CLOCK DIVIDER 12k 0 01 nix 1 C736 j pO i 0742 1608 270 2 7 STS Ge 1 2 dc mom TN TOK SROUT O 528 4 100 NE I pu 3 88 049 177496205 33 TC7WH74FK 837 au VOLTAGE SX 1 C738 1 1100 PROTECTION 0736 740 442 L lolclalelelelelclalels 99 2 i R957 VDD C739 100p SURGE A 5C 85 888 38 8 8 5 53 0 09 5 98 2 05 55 82 88 5 8 8 s 8 Biz g i 3 Bie 20V 8 S s T PC ABSORPTION x VOLTAGE SI d es 5358 tae EIU FPGA R970 8 5 8 lt sen M qp dum REGULATOR 4 94 XC6204B332M 3 29 ale 759 M 1 229 STS Em 12730 Bex VOUT2 2 ET OTS Di 1 cus Mp 4884 80 33 t 7 ADDRESS EX128TQ641630C BUFAG 8 Sch 100K CN744 1 T
93. Perform the normal adjustments procedures below The oscillation frequency 1 Apply DC to the must be checked and CLKC terminal of the adjusted when the 32 kHz control unit X53 412 crystal resonator X700 is replaced 2 Measure the output om the 32KOUT erminal of the control unit X53 412 using he calibrated frequency counter 3 Enter the measured equency value to Crystal Oscillation Frequency of RTC correction in the PC tuning mode and then click OK button Transmitter Section Item Condition Measurement TK 5710 BJ 5710H B ADJUSTMENT Adjustment Test equipmen t Unit Terminal Parts Method Specifications Remarks 1 Frequency adjust 1 Adj rem IW Adjust PTT ON Press PF5 to store the adjust ment value after adjustment f counter Rear panel ANT 50Hz Note After replacing the VCXO X200 align frequency Max power just 5710 Panel test mode 1 CH Sig 1 1 PTT ON K 5710H CH Sig 3 1 PTT ON igh power adjust 5710 Panel tuning model Adj HPW Adjust Adj item WL HPW WLC HPW WC HPW WCH HPW Adjust PTT ON Press PF5 to store the adjust ment value after adjustment Low power adjust eTK 5710
94. Power ON the slave transceiver 5 Connect the cloning cable part No E30 3370 05 to the microphone jacks on the master and slave 6 Press the PF2 key on the master while the master dis plays CLONE The data of the master is sent to the slave While the slave is receiving the data PRO GRAM is displayed When cloning of data is completed the master displays END and the slave automatically operates in the User mode The slave can then be oper ated by the same program as the master 7 The other slave can be continuously cloned When the PF2 key on the master is pressed while the master dis plays END the master displays CLONE MODE Carry out the operation in step 4 to 6 Notes Cannot be cloned if the overwrite password is pro grammed to the slave Model Name and Market Head Configuration and Head must be same to clone the transceiver How ever it may be unable to clone the transceiver depending on the enhanced features settings Refer to the FPU for the enhanced features details Cloning cable Part No E30 3370 05 Flow Chart Master transceiver PF5 Power ON Is Read password set CLONE LOCK is displayed Enter the password and then press the PF2 key or key on the microphone Is password correct Yes CLONE MODE is displayed PF2 Start the clone function TK 5710 B 5710H B REALIGNMENT
95. Transistor DC switch HR 0731 Transistor RX audio mute switch 0732 Transistor RX audio mute switch 0733 DC switch VARS 0734 FET DC switch DS 0735 DC switch BEEPS 0736 FET DC switch SCSW D650 653 Diode Reverse current prevention D700 706 Diode Voltage protection D707 Zener diode Voltage protection D708 709 Diode Voltage protection D710 Zener diode Voltage protection D711 712 Diode Voltage protection D713 714 Zener diode Voltage protection D715 717 Diode Reverse current preventi D719 Zener diode Voltage regulator 5 D720 Diode Reverse current preventi Ref No Part name Description C700 RTC IC C701 EEPROM C702 Temperature DET C703 CPU C704 Reset IC C705 D type flip flop C706 Voltage regulator 8C C707 Voltage regulator 5 C708 Voltage regulator 33A C709 Voltage regulator 15D C710 Voltage regulator 33M C711 Voltage regulator 25D C712 Flash ROM C713 Address decoder C714 OP AMP DEO C715 DSP C716 Voltage regulator 5 C717 Shift register C718 OP AMP VREF C719 OP AMP MIC AMP C720 Analog switch VGS C721 Clock divider C722 Level converter C723 OP AMP RX AF C724 CODEC 1C725 726 Clock buffer C727 Analog switch C728 Shift register C729 OP AMP MOD RX AF C730 FPGA C731 Analog switch Scrambler C732 Audio power AMP C733 OP AMP MOD C734 Analog switch TAMS C735 OP AMP PC MB C736 Analog switch VGS C737 OP AMP 2nd Lo Tune C738 D A co
96. UNIT X45 3760 10 TK 5710H B Component side view J72 0945 09 Component side view J72 0945 09 a NN bole bel Ts DD E m m 1 1 SIB s x lit IT SSS N a E F TK 5710 B S 10H B Pc BOARD c ES E gt 5710 B 5710HIB FINAL UNIT 45 3760 10 TK 5710H B Foil side view J72 0945 09 O O AW ELA JAY L Ld Component side Layer 1 Layer 2 Layer 3 Layer 4 13 B 5710H B Pc BOARD TK 5710 B FINAL X45 3760 10 TK 5710 Foil side view l 0945 FN ar PES n PC BOARD IS d B P 10 TK 5710H B Foil s ta ew J72 0945 09 _ mgl o qp x G J TK 5710 B 5710H B PC BOARD CONTROL UNIT X53 4120 10 Component side view J72 0942 29 0 EA 88865 Bis E 3 RIK en Nr MEE e CH UE M mo T wc i KI gf x J L M n o
97. VARX u LC VARX VARX u VARX u H VARX Adjust Press PF5 to store the adjust ment value after adjustment eRX Lower 5 Adj item VARX I Adjust 6 Adj item L VARX LC I C VARX I VARX 1 I Adjust Press PF5 to store the adjust ment value after adjustment voltage 1 86Vx0 1V When adjusting the assist voltage in PC tuning mode slide the bar to indicate VCO Lock Voltage within 1 8V 0 1V on Meter window Panel test mode 1 CH Sig 1 1 Spectrum analyzer setting Center f Span RBW VBW TG level XdB div 152 00MHz 100MHz 1MHz 300kHz 20dBm 5dB Connect the cable E30 3418 05 to CN201 Spectrum analyzer Tracking generator After setting the adjustment value to 110 adjust each coil to get the waveform as shown to the right REF 10 0 dBm 5 dB CAL ON TG LEVEL 20 dBm 1588 ATT 10 dB 2 5dB MAX gek 8MH more RBW 1MHz VBW 300 kHz SWP 50ms SPAN 100 0 MHz 20 20MHz CENTER 152 MHz 61 TK 5710 BJ 5710H B ADJUSTMENT Measurement Adjustment Condition Test Specifications Remarks equipment 1 CH Sig 1 1 Spectrum Rear ANT L225 Adjust the coils Spectrum analyzer setting analyzer panel L227 to obtain the Center f 49 95MHz L229 waveform as shown Span 40kHz Tracking L231
98. de EHL e 90001 280 e T Lie ES 9000 82 sp HSZv r0LHLS dg 0 ML Oe AD 11 E I IHL e 065 SH e 9o 2 2 2 door zoe I 2 is 5 55 23 e oi o ex Lui 2 E ee gt lt N D u 29139 L09NO 01 050 9 LINN 01 060 5 LINN XH XL A TK 5710 B 5710H B SCHEMATIC DIAGRAM CONTROL UNIT X53 4120 10 Lm 3 30 55 55 4B th pn CN709 R774 M T oo
99. in an explosive atmosphere equipment should be properly grounded before power up for safe operation This equipment should be serviced by only qualified technicians PRE INSTALLATION CONSIDERATIONS 1 UNPACKING Unpack the radio from its shipping container and check for accessory items any item is missing please contact KENWOOD immediately 2 LICENSING REQUIREMENTS Federal regulations require a station license for each radio installation mobile or base be obtained by the equipment owner The licensee is responsible for ensuring transmitter power frequency and deviation are within the limits permitted by the station license Transmitter adjustments may be performed only by a licensed technician holding an FCC first second or general class commercial radiotelephone operator s license There is no license required to install or operate the radio 3 PRE INSTALLATION CHECKOUT 3 1 Introduction Each radio is adjusted and tested before shipment However it is recommended that receiver and transmitter operation be checked for proper operation before installation 3 2 Testing The radio should be tested complete with all cabling and accessories as they will be connected in the final installa tion Transmitter frequency deviation and power output should be checked as should receiver sensitivity squelch operation and audio output Signaling equipment operation should be verified 4 PLANNING THE INSTALLATI
100. m n m m zo 3 m Q407 STRH why 512 H 47n 1000p 22 1000p 5g X 25347 1438 ewen 8501 eR458 a 5 502 eC504 505 em mm mm m x m 15 15 e 3 VOLTAGE REGULATOR 22 Ca H 413 wl 0419 15p el kj Q sg 23 0405 407 sho 0 470 eng 218 OSCILLATION RD 10 5 g 28 5108 M 0436 31 8 TFA po E X s d Ei Y 1 VCO TXIRX SW arg STS 5 Sita P 2805108 BUFFER AMP HVC131 235 Zi EN m D C484 33 Bas A D405 414 422 429 430 wr k BUFFER AMP a Wi 7 400 BSP 9p S eer H 77 STS STS us FREQUENCY CONTROL T 7 92V E Ssg 958 858 As 13 eu 437_ RXVCO 41454 eR447 41407 C458 eD422 e C470 41449 25 508 52 496 eR472 848 85 T 5 20V SHIFT REGISTER 8 2 338 338 328 12 A M t t A n Ti n STS 258 2 8 Ven 8 9 TH201 TI 47 67 4 64 14 11 49V 0 667 172198045 B57331V2104J STR 8 5 ans 9 9 1000p 15 282 ERE 56 di dp 100 i Wi oT 804094 Ss a x ETE 1 94V 15 10 496 R589 R588 C409 R411 UE PE e 358 B I zor 9x5 SRS vta o Ge R491 STRB VDD 16 9 0 07 001 560 R514 0404 ZS 8 E48 Sk2 38 5 9 RE 50 R 0V 25r t STE 546 428 SMF 368 DATA 5 8 8TSW am 8R SW 555 4 n
101. of the power supply cable is removed The cable from the connector CN783 of the Control unit is removed Remove the 4 screws Q holding the shield plate and remove the shield plate from the chassis TK 5710H B only Remove the 4 screws on the rear of the transceiver Pull out the power supply cable and accessory cable 9 9 9 22 Flat Precautions for Reassembly Affixing the sheet G11 4381 04 1 Remove the covering paper from one side of the sheet 2 Place the sheet on the front side of the chassis then affix it to one side of the front chassis Firmly affix the sheet to the chassis by pushing the double coated tape with your fingers Remove the covering paper from other side of the sheet then affix it to the other side of the front chassis Firmly affix the sheet to the chassis by pushing the double coated tape with your fingers Push the sheet toward the rear of the chassis G then cut away any unnecessary parts of the sheet Firmly affix the sheet to the chassis by pushing the double coated tape with your fingers TK 5710 BJ 5710H B DISASSEMBLY FOR REPAIR Painting the lubricant Part No 490 0019 05 the groove of the case packing Paint the lubricant to the position as shown in figure after replacing or assembling the case packing Note To assure waterproofing paint the lubricant on the groove of the case
102. packing Case packing Upper TK 5710 B TK 5710H B groove of the case packing Paint the lubricant Part No 490 0019 05 on the groove of the case packing Case packing Lower TK 5710 B TK 5710H B lubricant case packing groove of the case packing Paint the lubricant Part No 490 0019 05 on the groove of the case packing Affixing the sheet G11 4378 04 TK 5710 B only 1 Remove the covering paper of the sheet 2 Affix it to one side of chassis so that the hollow of the sheet fits the convex of the chassis Note it so as not to leave a gap between the sheet and the chassis side 3 Repeat step 2 to affix the sheet to the other side of chassis sheet Confirm that there is no gap between the sheet and the chassis side Align the cable connecting the W2 terminal TK 5710H B only When you assemble the final unit align the cable connecting the W2 terminal as shown in figure then insert it into the connector CN702 of the control unit Accessory cable W2 terminal Control e unit W2 terminal cable 23 TK 5710 BJ 5710H B DISASSEMBLY FOR REPAIR Procedures after installing the case packing to Sequence of tightening the screws for the the chassis upper lower case to the chassis After installing the case packing to the chassis confirm Install the upper lower case to the chas
103. the square plug 3 Connect the square plug and rubber cap to the accessory connector 12 pin on the rear of the control head then clamp the bottom of the rubber cap with the supplied tie wrap Square plug 12 Pin Rubber cap Speaker cable To KES 5 or KES 6 Fig 8 2 1 If the KCH 14 is used If the KES 5 or KES 6 is connected to the 12 pin accessory connector remove the internal speaker wire If the internal speaker is used remove the wire connected to pins 10 and 11 of the 12 pin accessory connector KCH 14 Rear of the control head Fig 8 2 2 8 3 Modification to increase the audio output of the control head The speaker output can be increased to 13W by moving jumper resistor 0 ohm R74 to R73 on the KCH 14 display unit X54 349 A 3 In this case the KCH 14 internal speaker cannot be used because the maximum input 3W of the internal speaker is exceeded Therefore use the KES 5 or KES 6 Note Even if the KRK 6DH is modified in this way the audio output of head 2 cannot be increased DISPLAY UNIT X54 349 A 3 Foil side view Fig 8 3 8 4 Use as public address speaker 1 Remove the short plug from the 9 pin accessory connector on the rear of the transceiver Remove the jumper lead as described in Section 8 1 on page 17 2 Insert the KES 5 6 speaker leads into pins 7 and 8 of the short plug 3 If
104. to the VCO CV terminal and realizes the Phase Locked Loop for the return control This allows the VCO oscillation frequency to accurately match lock the 5C SW VCO 1 2 8CL RX VCO1 16 8MHz X400 3 3V VCXO Fig 11 6 Control Circuit The control circuit consists of CPU IC703 and its periph eral circuits It controls the TX RX unit and transfers data to the Control unit 12703 mainly performs the following 1 Switching between transmission and reception by PTT signal input 2 Reading system zone frequency and program data from the memory circuit 3 Sending frequency program data to the PLL 4 Controlling squelch on off by the DC voltage from the squelch circuit 5 Controlling the audio mute circuit by decode data input desired frequency When the frequency is controlled by the PLL the frequency convergence time increases as the frequency difference increases when the set frequency is changed To supplement this the rheostat IC is used before control by the PLL IC to bring the VCO oscillation frequency close to the desired frequency As a result the VCO CV voltage does not change and is always stable at approximately 2 V The desired frequency is set for the PLL IC by the CPU 1 703 through the 3 line DAT CLK serial bus Whether the PLL IC is locked or not is monitored by the CPU through the UL signal line If the VCO is not the desired frequenc
105. to the right RBW 1kHz generator RESO dm EN AE 2 dB VBW 1kHz CALOFF SPAN TG level 20dBm 40 0 kHz XdB div 2dB RBW 1 kHz Unit Terminal Parts Method VBW 1 kHz Connect each cable W05 1000 00 to CN202 and CN203 SWP200ms SPAN 40 0 kHz CENTER 49 9500 MHz eNarrow 2 Turn the Selector knob as N Narrow appears on the LCD REF 20 0 ATT 10 dB Spectrum analyzer setting SE Center f 49 95MHz TG LEVEL Span 30kHz RBW RBW 1kHz be VBW 1kHz Tk TG level 20dBm XdB div 2dB 5 2nd local Panel tuning mode f counter Change the 50 4MHz 70Hz adjust 1 Adj item W SLO adjustment value Adjust within the limit Press PF5 to store the adjust of the specified ment value after adjustment frequency 6 Quadrature Panel test mode SSG QUAD Adjust the coil 1 0V 0 05V coil adjust 1 CH Sig 1 1 DVM within the limit SSG output 53dBm 501nV AF EXT SP of the specified DEV OFF Dummy load voltage 7 RTC 1 CH Sig 1 1 f counter CONTROL Programming Adjust the RTC Note It is not necessary oscillation DVM 32KOUT Software oscillation frequency to adjust the RTC frequency DC power KPG 95D using the PC tuning oscillation frequency under SWP 150ms SPAN 30 0 kHz CENTER 49 9500 MHz adjust supply mode
106. you remove jumper shorting pins 3 and 6 the 20W public address voice signal is output from pins 7 and 8 Only when the PA or SP switch is on 4 f you use the transceiver shorted with pins 3 and 6 the internal speaker is available when the KCH 14 is used The KCH 15 does not contain a speaker Note Relationship between accessory connector 9 pin con nection and speaker output When pins 3 and 6 are shorted The 3W internal speaker is used KCH 14 only When pins 3 and 6 are opened and is output from pins 7 and 8 The 20W external speaker is used TK 5710 BJ 5710H B INSTALLATION Short plug 9 pin 7 O ES To KES 5 or KES 6 SS Black lead rimp termina E23 0613 05 Black White lead Fig 8 4 9 Horn Alert Function The HR1 and HR2 pins of the accessory connector 9 pin on the rear of the transceiver are connected to the relay K700 and the maximum current is 1A 1 Remove the upper case of the transceiver 2 To make the HR2 pin remove the jumper resistor 0 ohm R960 on the control unit 53 412 as shown in Table 1 3 Reassemble the PC board and the upper case Default Modification Present Absent O O HR1 O O jw HR2 K HR2 Table 1 K700 CONTROL UNIT X53 412 Component side view Fig 9 19 TK 5710 B 5710H B DISASSEMBLY FOR REPAIR 20 Disassembly Procedure TK 5710 B Removing the upper lower case and shie
107. 0154 05 E04 0154 05 pe E40 5958 05 E40 5957 05 1 11 ev d PFI PF1 ong FTEMP2 FTEMP2 xx I ER e 2 2 261 Bray VEUSY 1 cn200 E23 1116 05 dus Se e ee PCS PCS T 2 CN2 ER HU AN ee Eee a lt lt 40 5952 05 n Se E Bis DART 05504534505 04 0154 05 11 oe VRST USEL SB SB ICN oo E DE o EB IC2 TK 5710 B GND GND SB 7 vs Ao AT WN2 TX RX UNIT FINAL UNIT IC1 TK 5710H B DIM DIM E Se Ze MO MO 8 mie 99 NC NC ME X57 7030 10 1 ME J ee N NG NES X45 3750 10 IN AIL NC NC Se TK 5710 B 2 Wi ei AI2 MG NC 8C 8C GATE BIAS E37 0703 05 E40 5738 05 Aol 7 NC NC 8c A P 8C X45 3760 10 C 3 Ao2 e DAT gt DRAIN BIAS m E 9 m 9 26 eru 8C NC SOE le 9 sog3 6 TK 5710H B 4 CLE RF oUT END 3 END E40 6357 05 strea le STRB3 FTEMP2 O O O O 2 2 1 axgy BUSY e FTEMP1 O O FTEMP1 NC NC e POWER MODULE X54 349 C 3 KCH 14 Se PToA NC e DET CN601 EMG X54 350 B 2 KCH 15 D E E EAE o o o o 40 6429 05 NC NC Se 2C IF iN Wi IN ka ATXI SToN irm ell
108. 03K C216 CK73GB IPC C30 CK73FB0J106K C217 CC73GC IPC F C302 CK73GB1C104K C218 CC73GC IPC C303 CC73GCH1H270J C219 CC73GC IPC F C304 305 CC73GCH1H181J C220 CC73GC IPC F C306 307 CK73GB1C104K C221 CK73GB IPC C308 CK73GB1H152J C222 CC73GC IPC C310 CK73GB C223 CC73GC IPC F C311 92 0560 224 CC73GC IPC F C312 313 CK73GB C225 CC73GC IPC C314 CK73GB1H C226 CC73GC IPC F C316 CK73GB C227 CC73GC IPC 1 C318 CK73GB1H C228 CC73GC IPC C319 CK73GB1C104K C229 CC73GC IPC C320 92 0712 05 C230 CK73GB IPC C321 CK73GB1C104K C231 CC73GCH IPC C322 CK73GB1A224K C232 CC73GCH IPC F C323 CC73GCH1H680J 233 234 CK73GB1H IPC C325 327 CK73GB1C104K C235 CK73GB1H IPC C328 CC73GCH1H030B C236 CC73FCH1 IPC C328 CC73GCH1H120J c C400 CC73GCH1H101J C401 CK73GB1H102K C402 CC73GCH1H101J C404 CK73GB1H102K C407 CK73GB1H102K C237 CC73GC IPC C238 CC73GC IPC C239 240 CC73GC IPC C241 CC73GC IPC C242 CK73GB IPC Z lt 243 CK73GB IPC C408 CK73GB1H103K C244 CC73GC IPC C4 92 0001 05 245 CK73GB IPC C4 CK73GB1C104K C C 247 248 7368 C4 92 0003 05 249 C736C IPC CC73GCH1H101J C250 C736C IPC F CK73GF1A105Z C251 7368 CC73GCH1H100C C252 73GB IPC CK73GB1C104K C253 73GB IPC 92 0555 05 254 C736C IPC i CK73GB1H102K C255 CK73GB IPC 0 0 CC73GCH C256 CC73GC IPC 8 0PF CC73GCH C257 258 CK73GB IPC 0 0 C425 426 CK
109. 1 080 9 01 02 1 65 LINN XH XL LINN 2 lt ger 9 22 59 9 og ae zo e 55 8 45 SS 8 e e ES 8 90001 5 Fo 980 e Fas de 2 5 11 o 620 e u S 20001 1 N E BH D dez 760 60 a D 780 euam SIE d 2 D Lev IWNSHSZ o d ul EI 72 8 0 e 80 9 OO e E m 10001 2 2 001 H 3 9 2 e USUS 2 sl 8 doo 2158 8 TY 2 3 10001 10001 cr 869 I 20 229 e 8 Er SCH e 90001 Ors 90001 1F E 299 90001 001 28 8 680 gt LEH e 2 etu orl Z E ozz MES e 0 uk 8 es en o o 28 001 dzz gt K 0 OCH e II SZH e GC 790 SH 4 I gt 90001 gt 8 999 or deg Olle de doe I IEF 999 e 850 e GO e 905 ee 692 OSH e ER ag S ey ey b SCHEMATIC DIAGRAM TK 5710 BJ 5710H B 13 4V
110. 10 CF200 0 48V 3 1F UL 100p 0 asoy 510206 L72 1018 05 IC209 A 180p 0 0 3 3k DCW L2FT MCF ADJ z 7 5 TC7W53FK R306 358V 4 83 L2FT 3 9 2 8 203 8 828 vd PCS a A400 ai 5 o wo2 1939 05 NAT E40 5538 05 8 858 sls SSMSKISTE 1 mita 442V 6 gag ay 7 P LA 8 FTEMP2 F 7 4 41V 7 0 72V R314 R260 V nr 8 FILOUT FILOUT 55 eds 8 9 1 a RSV iu MULTIPLEXER d cv bi RFAMP 8 MCF ADJ Ss viel S FILIN FILIN 208 QUAD 555148 10214 Get B 9200 An 79 152V C306 522548 TC7SG5FU 2SC3357 RF w 5 CH x 1 92 878 7566 0 _ 8205 E40 5538 05 NARROW ger 449V 10 1 02V AFOUT AFOUT R275 eR276 5 6 8k NARROW 0211212 100 det IOUT 5C D205 206 XF201 D207 208 822 0209210 XF201 gt 449V 41 4 837 QUAD QUAD ala 0 2 8 L71 0626 05 iE are 171 0626 05 SUF 8 8 lt E 8 gus OUT IN ETT are IF x 856 FILTER ANER STs ae ore IC210 12 IF2OUT IF2OUT DE Sw OTS 3 4 281 zoo FILTER SW FAN sw V NARROW TC7W53FK 1232 1k 1 SRE c sw CF202 0206 134 4725 05 199 Bes 0209 0211 251V L72 1009 05 Sans DTA144EE ERES 56 SCR 0205 0207 0202 HVC131 HVC131 ESI 1 233 P HVC131 E HVC131 28C3357 RF R235 C270 R330 40V 875 iXX 1233 C323 134 Send 05 C249 C328 Te Dd WI 47k 47p 0 2nd lF 450KH
111. 15 717 Sr Br Tk Eis 4 INR Ao 1 43 C852 10u R926 ku MUTE SW 24 PSC PSC Sr STT 5 786 R842 e R868 9 2 AUXi o7 23 ane F REVERSE CURRENT FREVENTION 88 2 E e gla glz als R834 47 Rm m m mm m m m m m m m ma hm m mF m pem 0389 AINL Anu Se R2OUT R2IN 8 UTER ai 0729 AUXi oi 22 AUXIGr SET RESET e CN701 m C758 S555 R789 i D R950 C921 1u 9 10 10728 555 5 AX AUDIO GND 21 duu 04 e 1 vss 11 BU4094BCFV e MUTE SW T AUXilo2 20 GND Ei Ei DC SW SBC gt 155388 em olol 2 ark DSPINT e t 390k 47u 1 61V AUXi o2 18 18 HHR e 811 iem R951 922 MOD 12 9 d x 19 6 DES 0709 1 ET EAS 4 94 SIS SIS SS SS 2 ET SRESET E aby 1F STXi 1 54V 12733 R668 AUXI G3 48 RXD3 o AO Are UMS E LE 17 2683 8 28 102 179 578 pA STS 829 838 825 Je 9 TC75WS1FU A lt R860 13 TXD3 17 SE FES DO Es 209 DC SW SBC 5 1k 2 7k wa 2 sk 101 jay i R862 o 14 10k 7 AUXi 04 16 m mm CN705 Ee 5 39V lt 32KOUT 56k 3 100 pas 1 77 A 15 es 77 144 C875 0 01u AUXi 08 15 ier E40 6202 05 4 8788 iGN 8817 0743 744 528
112. 17 1898 08 UCTOR 1 8UH 62 73GB1H103K 1418 2198 08 UCTO 92 0023 05 1420 1898 08 UCTO 46 TK 5710 BJ 5710H B PARTS LIST TX RX UNIT X57 7030 10 New New Ref No Address parts Parts No Description Destination Ref No Address parts Parts No Description Destination L421 L41 3398 08 XED INDUCTOR 3 3U R225 226 R92 1252 05 00HM J L422 L41 2798 08 XED INDUCTOR 2 7U R228 RK73GB1J182J 18K J L423 424 L41 5698 08 INDUCTOR 5 6U R229 RK73GB1J153J 15K J L41 2798 08 XED INDUCTOR 2 7U R230 RK73GB1J682J 6 8K L41 3398 08 XED INDUCTOR 3 3U R231 R92 1252 05 0 OHM L41 4798 08 LL FIXED INDUCTOR 4 7U R232 RK73GB1J560J 56 L40 1085 92 LL FIXED INDUCTOR 100 R233 RK73GB1J270J 27 L40 5675 92 LL FIXED INDUCTOR 56 R235 RK73GB1J473J 4K L40 1085 92 LL FIXED INDUCTOR 100 R236 RK73GB1J102J L92 0140 05 FERRITE R237 238 RK73GB1J104J L34 4610 05 R CORE COIL R239 RK73GB1J473J L34 4613 05 R CORE COIL R240 R92 1252 05 L34 4612 05 R CORE COIL R248 RK73GB1J331J L40 5675 92 ALL FIXED INDUCTOR 8249 RK73GB1J470J 454 457 L92 0140 05 IP FERRITE R251 R92 1252 05 L460 462 L92 0140 05 IP FERRITE R252 RK73GB1J822J L463 L41 2778 08 ALL FIXED INDUCTOR R253 RK73GB1J470J X200 L77 1961 05 CXO 16 8MHZ R254 RK73GB1J684J X400 L77 1960 05 CXO 16 8MHZ R255 R9
113. 2 0140 05 192 0163 05 192 0162 05 192 0446 05 192 0446 05 192 0140 05 192 0179 05 L77 2304 05 L77 1962 05 R90 0743 05 R90 0745 05 R92 1368 05 PC 100PF J PC 1000P 100UF PC 0 010 PC 0 10U PC 0 0 PC 0 10U 47UF PC 0 F PC F P TAN UF PC 10UF CHIP C CHIP C P PC OOPF K ASSY FLAT CABLE CONNECTOR FLAT CABLE CONNECTOR SOCKET FOR PIN ASSY ASSY ASSY ASSY ASSY FLAT CABLE CONNECTOR PIN ASSY LEAD WIRE WITH CONNECTOR FUSE 5 0A FUSE 2 5A HOLDER BEADS CORE CHIP FERRITE BEADS CORE BEADS CORE BEADS CORE BEADS CORE CHIP FERRITE CHIP FERRITE CRYSTAL RESONATOR 32768HZ VCX0 18 432MHZ MULTIPLE RESISTOR 47K 2 MULTIPLE RESISTOR 470K 2 CHIP R 0 OHM 41 TK 5710 BJ 5710H B PARTS LIST CONTROL UNIT X53 4120 10 Ref No Address Gei Parts No Description Destination Address Wed Parts No Description Destination R604 605 73HB1J100J 0 RK73GB1J104J 00K R606 2 1368 0 R7 RK73GB1J473J 47K R607 T3HB1J 470 R7 RK73GB1J473J 47 R608 609 HB1J R7 RK73GB1J473J 47 R610 611 HB1J R7 RK73GB1J102J R612 HB 0 R7 RK73GB1J473J 47 613 614 R7 RK73GB1J102J OK R615 HB R7 RK73GB1J473J 47K R616 617 HB R7 RK73GB1J102J OK R618 HB R7 RK73G
114. 2 1252 05 XF200 L71 0625 05 RYSTAL FILTER 49 95MHZ WIDE R256 RK73GB1J102J XF201 L71 0626 05 RYSTAL FILTER 49 95MHZ NARROW R257 RK73GB1J220J R150 RK73GB1J121J HIP R 20 J 1 16W R258 R92 1252 05 R151 RK73GB1J470J HIP R 47 J 1 16W 8259 RK73GB1J104J R152 RK73GB1J121J HIP R 120 6W R260 RK73GB1J274J R153 154 R92 1252 05 HIP R 0 6W R261 RK73GB1J273J R155 73GB1J123J IPR 12K 6W R262 RK73GB1J333J R157 73GB1J470J 47 6W R263 264 R92 1252 05 R159 73GB1J221J 6W R265 RK73GB1J102J R160 73GB1J101J 00 6W R266 RK73GB1J273J R163 73GB1J101J 1 6W R267 RK73GB1J332J R164 GB1J332J 6W R268 RK73GB1J470J R166 FB2A100J ow R269 RK73GB1J222J R168 FB2A100J OW R270 RK73GB1J224J R170 FB2A221J OW R271 RK73GB1J471J R171 FB2A220J ow R272 R92 1252 05 R172 FB2A221J OW R273 275 RK73GB1J332J R175 73GB1J102J 1 6W R276 R92 1252 05 R200 73GB1J472J 6W R277 RK73GB1J683J R201 73GB1J102J 6W R278 RK73GB1J224J 02 73GB1J470J 6W R279 RK73GB1J104J 03 73GB 6W R280 RK73GB1J473J 04 73GB 6W R281 283 RK73GB1J102J 05 7368 6W R284 RK73GB1J222J 06 73GB1J821 6W R285 RK73GB1J102J 07 208 73GB 6W R286 RK73GB1J222J R210 73GB1J101 1 6W R287 291 RK73GB1J102J R211 7368 6W R292 RK73GB1J222J R212 92 1252 6W R294 299 R92 1252 05 R213 73GB 6W R303 RK73GB1J681J R214 7368 1 6W R305 RK73GB1J220J R215 73GB1J 6W R306 308 R92 1252 05 R216 73GB1J 6W R309 RK73GB1J103J R217 73GB1J 6W R312 314 R92 1252 05 R218 T3FB2A82 OW R316 R92
115. 25 Chip B F 7 Tolerance G 16202 08 02 Less than 1 0 H 1 0 0 051 0 5 0 05 0 5 0 05 RESISTORS Chip resistor Carbon Dimension RK73 E B 2B 000 E IT 1 2 3 4 5 6 7 LX Chip B F Carbon resistor Nomal type Dimension Chip resistor EX RD1 4 B 2 000 J Dimension code L T 3 2 40 2 1 6 0 2 1 0 1 2 2 1 F 2 0 0 3 1 25 0 2 1 0 ie p Rating wattage G 1 6 0 2 0 8 0 2 0 5 0 1 H 1 0 0 05 0 5 0 05 0 35 0 05 2 Shape 6 Value 3 Dimension 7 Tolerance D Rating wattage 4 Temp coefficient Code Wattage Code Wattage Code Wattage 1J 146W 2C 1 6W 3A 1W 2A 1 10W 2E 1 4W 3D 2W 2B 1 8W 2H 1 2W 37 TK 5710 BJ 5710H B PARTS LIST New Parts indicates safety critical components L Scandinavia USA P Canada Parts without Parts No are not supplied Y PX Far East Hawaii England Europe Les articles non mentionnes dans le Parts No ne sont pas fournis Y AAFES Europe X Australia Other Areas Teile ohne Parts No werden nicht geliefert TK 5710 B Y51 5040 10 TK 5710H B Y51 5050 10 FINAL UNIT X45 3750 10 Address New parts Parts No Description Destination Address parts Parts No Description Destination 2C 37 1156 05 HAT CABLE X45 CN9 X57 CN601 TK 5710 B 1D F10 1488 02 SHIELDING PLATE FINAL X45 A01 2161 22 ETALLIC CABINET TOP 1C F10 2265 13 SHIELDING COVER VCO TX RX X5
116. 4 MIC TX F ROM CS 9 216 2 ROM 5 ME L TXG LED 1 1 01 2 3 3M 5MD 7 Ai2 185555 NL Y 8 Ao 1 Ao 1 2 SURGE Z2 BUSY 9 Ao2 PROTECT BUSY LED 84 r BUSYR 3 3M INT 1 ENC 51 END gt POW PSW Sw 52 3 5 15 KEY amp 58 BACKLIGHT 9 ZUP ZDN MON SCN 1 2 gt 06 7 0702 703 DTC114TI TC 1147 RXD 2 TR I RXD 2 sw TRD 94 sw TXD 2 0 K TXD 2 TK 9710 B 5710H B BLOCK DIAGRAM 136 174MHz 2SK508NV 52K 8CL gt Rx 55 51 T
117. 5 01 060 lt e LINN XH XL LINN XH XJ XH XL X45 375 1 2 88 5710H SCHEMATIC DIAGRAM TK 571 FORWARD WAVE RECTIFICATION Se 2 HSM88AS 1 q N 577 4 20 ol4 15 eLs ANT 47n Nt ong O o OTAN I 24 REFLECTED WAVE RECTIFICATION 77 06 HSMBBAS gg it 1000 58 o 957 COMBINER a o oe 1 BSE 8 Ops 255 53 CN7 R 13 6V 08 E23 0902 05 1 12 44 o SURGE 13 6V 4B 2 o GND ele 18 2 858 578 378 Sle 50587087558 T gs d N I J 09 PROTECT OF REVERSE CONNECTION APC COMPARATOR e IC1 TA75WO1FU y 2 T 0 46V PC IN2 VEE E37 0705 05 e R33 52 IN1 t 0 AES 9 OUTB INi E 8 GZ OUT1 T 2 0 lt oTSESS 2 1 oe 6 8k 1 a 89 45 375 2 2 EZH D5 HSM88AS ANT C54 I 1000p
118. 5 x uu ga 12 i REGULATOR 4 93 IC701 R72 ok 8 x SCH TOUT tD mm og 8 ol e 1u 27k 470k lt gt 5 9 3 8 VOLTAGE D707 D710 833 Ao 33M AT24256N10SU27 Sis 100k 5 S 9 SS 2 0733 0 01 C905 9 8 2 8 5 6 58 255 PROTECTION t f ______ diosa aa 93V See 1 Res 8 235 8 Ss 2 2 SSM3K15TE 825 A lt lt k uu u g 2 8859 8 wulg 2 02DZ18 X Y 02DZ18 X Y VOLTAGE 8 gm R682 ER n 769 47k 878 28 8 8 883 8 855 7 ANALOG SW O PROTECTION gt 5 D650 653 SS A 85 DS 28D2114K W 28D2114K W 0713 o9 0 E R993 7 3 VARS s 27 L 99 16 REVERSE H 4 1 26V i 8 2 1 40 4 pes 7 845 CURRENT 680 12726 838 DT T O2DZ18 X Y VOLTAGE ajg CLK oT 2 Bex a 0734 gya O9 ig 1 711 PREVENTION Qt ole o oss 5 Sel 18 Q700 o 2 0701 zz REGULATOR 4 94V 9 5 e E 059 CLOCK BUFFER R914 R627 C871 R945 47k 8 o i 250 80 2 4 8 Ts D 875 er m it SSMSKIBTE 0732 58 BUFFER 5 BUFFER C734 EP lt lt zh m 2 52228 2 5 9 e z 22 ER zB E 10k 22k 10k DC SW DS 2501757 a
119. 6 Sensitivity Check eWide CH Sig 1 1 SSG output 117dBm 0 32uV MOD 1kHz 3kHz CH Sig 2 1 CH Sig 3 1 eNarrow CH Sig 1 1 SSG output 117dBm 0 32uV MOD 1kHz 1 5kHz CH Sig 2 1 CH Sig 3 1 Squelch Threshold adjust eWide Adj SQOW Adjust Adj item WL SOOW WH SQOW Adjust SSG output 12dB SINAD level 3dB MOD 1kHz 3kHz eNarrow 3 Adj item N SOON Adjust SSG output 12dB SINAD level 3dB MOD 1kHz x1 5kHz 556 AF Oscilloscope Rear panel ANT EXT SP Check 12dB SINAD or more After input signal from SSG press PF5 key That numeric will be stored in memory After adjusting SOL check SOL open close Panel test mode 1 CH Sig 1 1 SSG 12dB SINAD or less Open SSG 130dBm 0 07uV Close 2 CH Sig 2 1 SSG 12dB SINAD or less Open SSG 130dBm 0 07uV Close 3 CH Sig 3 1 SSG 12dB SINAD or less Open SSG 130dBm 0 07uV Close After adjusting SOL check SOL open Close Panel test mode 1 CH Sig 1 1 SSG 12dB SINAD or less Open SSG 130dBm 0 07uV Close 2 CH Sig 2 1 SSG 12dB SINAD or less Open SSG 130dBm 0 07uV Close 3 CH Sig 2 1 SSG 12dB SINAD or less Open SSG 130dBm 0 07uV Close Item Condition Measurement TK 5710 BJ 5710H B ADJUSTMENT Adjustment Test equipment Unit Terminal Parts
120. 602 E37 1235 05 JUMPER WIRE C469 F L72 1018 05 CERAMIC FILTER C470 F L72 1016 05 CERAMIC FILTER 471 L72 1009 05 CERAMIC FILTER C472 F L72 1018 05 CERAMIC FILTER 473 474 G L72 1016 05 CERAMIC FILTER 476 477 1 L40 5675 92 SMALL FIXED IND R 56 C478 F 153 L40 8275 92 SMALL FIXED IND R 82 C481 54 L40 4775 92 ALL FIXED IND R 47 C482 1200 201 2778 08 UCTOR 27 C483 485 1202 8278 08 R 82NH C486 487 1203 3388 08 R 330 490 491 1204 3378 08 R 33N C483 1205 3388 08 R 330 C495 1206 8278 08 R 82N 496 497 1207 2788 08 R 270 C499 1208 6888 08 680 C501 1209 1588 08 R 150 C502 L211 213 3378 08 R 33N C504 C505 506 C507 508 C509 C510 511 1214 4778 08 R 47NH L215 6881 37 R 0 680 1216 217 1008 08 R 10UH 1219 5681 86 R 0 56U 1221 223 134 4080 05 Co C CO C512 C513 C514 C515 C520 1224 225 4748 05 1226 227 4749 05 1228 229 4748 05 1230 231 4749 05 1232 134 4725 05 63 CH CH C52 1233 1588 08 UCTOR 150NH L401 6868 14 UCTOR 6 8NH L402 8268 14 UCTOR 8 2NH L403 404 6878 14 UCTOR 68NH 1405 6868 14 UCTOR 6 8NH OOOO O 1406 1078 14 UCTOR L407 4798 08 UCTOR L408 3398 08 UCTOR 1410 2198 08 UCTOR 7368 1412 413 1898 08 UCTOR 1 ONH EH 92 0044 05 1414 2198 08 UCTO 73GB 1415 1898 08 UCTO 73GB1C104K L4
121. 7 A01 2162 22 ETALLIC CABINET BOTTOM 3C F10 3012 04 SHIELDING PLATE CONTROL X53 A10 1388 41 CHASSIS 1C F10 3015 04 SHIELDING PLATE X45 LPF B62 1816 10 NSTRUCTION MANUAL E04 0167 05 RF COAXIAL RECEPTACLE 1C F10 3016 04 SHIELDING PLATE X45 POWER MODULE 1C F10 3038 04 SHIELDING PLATE X45 DC E37 0179 05 LEAD WIRE WITH MINIPIN PLUG X45 X57 2C F10 3040 04 SHIELDING PLATE X45 ACC E37 0733 05 SHORT PLUG SP ACCESSORY 3C G02 0599 04 FLAT SPRING AVR E37 0772 25 LEAD WIRE WITH CONNECTOR D SUB 3C G02 0709 04 FLAT SPRING AUDIO AMP E37 1147 05 FLAT CABLE X53 CN782 X57 CN600 E37 1149 05 LEAD WIRE WITH CONNECTOR DC2P ACC9P 607 0729 14 SPRING 607 0894 04 EARTH SPRING FINAL AMP E37 1153 05 LAT CABLE X45 CN9 X57 CN601 G11 4379 04 SHEET F10 1479 03 HIELDING PLATE FINAL X45 G11 4381 04 SHEET F10 2265 13 HIELDING COVER VCO TX RX X57 G53 1626 03 PACKING D SUB CAP F10 3012 04 HIELDING PLATE CONTROL X53 607 0599 04 LAT SPRING AVR G53 1657 04 PACKING ANT 053 1659 04 PACKING DC ACC G02 0709 04 FLAT SPRING AUDIO AMP G53 1667 1 PACKING TOP 2A2B G11 4378 04 SHEET G53 1668 1 PACKING BOTTOM 2 G11 4379 04 SHEET G53 1687 04 PACKING D SUB 2A G11 4381 04 SHEET 2A 653 1626 03 PACKING D SUB CAP H02 0626 04 NNER CARTON CASE H12 3176 02 PACKING FIXTURE HEAD SPACE 2B 653 1657 04 PACKING ANT H12 3185 02 PACKING FIXTURE TOP BOTTOM 2B 653 1658 04 PACKING DC ACC H52 2074 02 TEM CARTON CASE 3A 053 1665 12 PACKING TOP
122. 738 739 RESET Sas Ss x 0712 SURGE nm TRIER EE senex 7 S ABSORPTION RESET IC STS PREVENTION DC SW IGN 4 D738 IC704 E fv S 80942CNNBGoC 80V D723 AVRM1608C270K2 4 VOLTAGE I Aes E PROTECTION W700 77 1608 270 2 E37 0707 05 C656 1000p 3 4700p 7 5 i pem m um a IC706 aV 99 LM2940T8 0 8 RESET 13 1V 1 5 R819 0 8C 55 TRD elg VOLTAGE ols Sye z Kam REGULATOR St er 522 PSW 912 SIS gt 99 iGN d 558 0736 MINISMDCO75F24 K 10707 RS 2 5 5 7805 4 94 C658 1000p 8 04V 1 zd D740 AVRM1608C270K2 2 E r lt Shs FHS 0741 AVRM1608C270K2 777 ST REGULATOR 3 StS Raa 0742 1608 270 2 ri 9 5 lho 1 gt th 0736 740 442 1 ES SURGE IC708 ABSORPTION VOLTAGE 1708 yee REGULATOR 494V XC6204B332M 3 29 85995 60 83 CN744 55 E40 6357 05 gt T els 0652 22 a8 i i PLAY 10709 78 TES VOLTAGE 5 RXD1 REGULATOR IC709 E TXD1 15D 2 zx one XC6209B152M lt R623 R624 150 Eu 6 ER 4 USEL 2 22 VRST 10710 H OpE DA221 OE VOLTAGE n i REGULATOR 4 93 lt lt 33M gt 33M o e R682 ils gt 5C 0650 653 0 5 5 REVERSE
123. 73GB1H C259 260 CC73GC IPC 40 C427 CK73GF1A C261 CC73GC IPC 6 0 C428 431 CK73GB1H C432 CC73GCH C433 CC73GCH C262 CC73GC IPC 7 0 B D B C434 CC73GCH B K C263 CC73GC IPC 9 0 C264 CC73GC IPC 9 0 C267 CC73GCH IPC EIN C268 269 CK73GB1 IPC 1000PF C435 CC73GCH C437 CK73GB1E 45 TK 5710 B 5710H B PARTS LIST TX RX UNIT X57 7030 10 Ref No Address Gei Parts No Description Destination Ref No Address Wed Parts No Description Destination C438 CC73GCH1H300J 30PF C605 CK73GB1C104K CH 0 10UF K C439 CC73GCH1H150J 5PF C606 92 0585 05 CH 4JUF 16WV C440 441 73GB1H102K C607 610 CK73GB1H102K CHIP C 1000PF K C442 443 73GB1H471K 470PF 612 629 CK73GB1H102K CHIP C 1000PF K C446 73GB1H102K C630 92 0004 05 1 00 16WV C447 92 0602 OUF C631 635 CK73GB1H102K CHIP C 1000P C448 7368 0 010UF C636 CC73GCH1H220J CHIPC 22 C449 GCH C638 640 CK73GB1H102K CHIP C 1000PF C451 7368 C641 CC73GCH1H100C CHIP C 10PF C452 453 C73GCH C642 CK73GB1H102K CHIP C 1000PF C454 455 010UF CN150 E04 0154 05 PIN SOCKET C456 F CN152 E04 0154 05 PIN SOCKET C458 460 1000PF CN200 201 E04 0154 05 PIN SOCKET C462 Y47U CN202 203 E40 5538 05 PIN ASSY C463 464 010UF CN600 E40 6438 05 FLAT CABLE CONNECTOR C466 601 E40 6429 05 FLAT CABLE CONNECTOR C467
124. 9 9 Install the KRK 5 sub panel to the sub panel of the front panel kit using four screws 10 Reinstall the KRK 5 rear panel using three screws removed in step 1 11 Use a wire band to secure the lead wire at the end of the rubber 0 Front panel kit Example KCH 14 Packing Sub panel KRK 5 sub panel KRK 5 rear panel 2 3 Control cable KCT 22 connection Fig 2 3 1 Insert one connector of the control cable to the transceiver with KRK 5 and the other to the display Connect the cable to the GND terminal with the screw 9 supplied with the control cable 2 Secure the one connector of the control cable to the KRK 5 main panel with two screws according to the installation condition of the transceiver Secure the control cable to the KRK 5 main panel with the cable fitting J21 4354 04 and two screws 6 supplied with the KRK 5 3 Secure the other connector of the control cable to the display with two screws in the same way Transceiver KRK 5 main panel Control cable KCT 22 2 4 Display installation Fig 2 4 1 Install the display with the angle bracket J29 0648 03 and two screws 08 0526 04 supplied with the KRK 5 13 TK 5710 B 5710H B INSTALLATION 14 3 Dual Control Head Remote Kit KRK 6DH Option The KRK 6DH remote kit connects two displays two KCH 14s or KCH 15s to the transceiver The KRK 6DH is connected to the KCH 14
125. 90 5299 05 ALUMINIUM ELECTRO 470UF 25WV TK 5710H B C93 0560 05 CHIP C D CM73F2H180J CHIP C 18PF J 01 2163 21 CABINET TOP CC73GCH1H471J CHIP C 470 J 01 2164 21 CABINET BOTTOM 10 4092 12 CHASSIS CK73FB1H102K CHIP C 1000 862 1816 10 NSTRUCTION MANUAL CK73GB1H102K CHIP C 1000 E04 0167 05 RF COAXIAL RECEPTACLE M C93 0562 05 CHIP C 15PF CK73FB1H102K CHIP C 1000 E37 0179 05 LEAD WIRE WITH MINIPIN PLUG X45 X57 CK73GB1H102K CHIP C 1000 E37 0733 05 SHORT PLUGISP ACCESSORY E37 0773 35 LEAD WIRE WITH CONNECTOR D SUB CC73FCH1H220 CHIP C 2 J 7 1147 05 FLAT CABLE X53 CN782 X57 CN600 9 CK73GB1E333J CHIP C 0 033UF J E37 1150 05 LEAD WIRE WITH CONNECTORIDC4P ACC9P CM73F2H470J CHIP C APF J CK73GB1H102K CHIP C 1000 38 TK 5710 BJ 5710H B PARTS LIST FINAL UNIT X45 3760 10 Address New parts Parts No Description Destination Address New parts Parts No Description Destination 93 0562 05 93 0563 05 93 0564 05 CK73FB1H102K CC73FCH1H330J H102K H102K 9 05 H102K 73GB1H102K C93 0563 05 CC73GCH1H821J E04 0154 05 E23 0902 05 E40 6429 05 E23 1118 05 E37 0705 05 L34 4520 05 L34 4523 05 L34 4520 05 L34 4523 05 134 4520 05 RK73FB2A821 J RK73FB2A100J RK73FB2A821 J R 73GB1J103J R92 0670 05 RK73GB1J102J R92 1288
126. Ake E40 5703 05 CN724 1 40 5661 05 2 lt gt ES2 W700 e IRS E37 0707 05 E 3 sB IGN sl PSW TRD aj 1 2 RESET MIC 1 E 9 11 ev ves FTEMP2 i 2 se1 PLAY VBUSY FI ge TXD1 RXD1 oes gt G EN E ls 8 VRST USEL ee WN2 M Ao 5C E Mo 98 NC NC e e LL boi NC NC SE leis ee NC NC Beem 2 NC NC NC NC nee e 26 22125 8C NC p CN744 ee a ap 40 6357 05 SERA e D o 2 1 AKEY BUSY m EUR bi NC NC E s LL 55 PToA BEZ lele 59 EMG NC T rs AE E E NC NC dies 55 5C E 89 ATXI STON IE IN NC TCoNT TE IN ds AUX I o UD sl NC NC E a 28 NC NC JE 26 25 8C NC m 3 CN755 ASOL JL 40 6357 05 2 i SCRAMBLER CN782 alele Hos POR 40 6438 05 98 PToS LOK 36 89 ECHo NC 59 NC CN783 52 40 5066 05 NC NC L icn 69 5C E EON s 5 NC NC b NC NC DERI HR2 98 osz 9052 2 RXEo TXo y 082 9915 RXEI aso 252 ___ 26 ES2 En CN771 ins 188 40 6357 05 5 o 5710 INTERCONNECTION DIAGRAM S 10H
127. B The transmit signal from the TX terminal CN1 of the final unit X45 376 is amplified by the power module IC1 The signal amplified by the power module is divided into two signal and further is amplified by the final amplifier 01 02 The each signal from Q1 and Q2 is combined The combined signal passes through the antenna switch D6 D8 D9 CM coupler and low pass filter then it is fed to the antenna CM coupler is a line for detecting forward wave and reflected wave TX CN1 Fig 10 Final amplifier circuit TK 5710H B 4 6 Temperature Protection Circuit TK 5710 B To prevent thermal destruction of the power module IC2 this circuit reduces APC voltage when temperature of the power module IC2 rises The CPU 1 703 detects temperature with a thermistor TH1 and controls reference voltage to the APC circuit 5 PLL Frequency Synthesizer The PLL Frequency Synthesizer consists of the following components VCXO X400 VCO 0413 0414 0416 Rheostat IC 401 PLL IC 400 Local switch D435 D436 5 1 VCXO X400 VCXO X400 generates a reference frequency of 16 8 MHz for the PLL frequency synthesizer This reference frequency is applied to pin 10 of the PLL IC 400 The VCXO oscillation frequency is fine adjusted by controlling the voltage applied to pin 1 of the VCXO with DAC 738 It is also controlled with pin 1 of the VCXO if the output from VCXO is modulated Forward
128. B1J102J R787 RK73HB1J R706 707 RK73GB1J104J R788 RK73FB2A R708 RK73GB1J103J R789 RK73HB1J 42 TK 5710 BJ 5710H B PARTS LIST CONTROL UNIT X53 4120 10 New New Ref No Address parts Parts No Description Destination Address parts Parts No Description Destination R790 GB1J J RK73GB1J103J 10K R791 810 HB1J 00 J RK73GB1J473J 47 R811 HB1J J R9 RK73GB1J103J 10K R812 1368 1 R9 RK73GB1J393J 39K R813 GB1J R9 RK73GB1J473J 47K R814 HB 1 R913 RK73GB1J184J 180K R815 HB 8914 RK73GB1J103J 10K R816 GB 8916 RK73GB1J103J 10K 7 8 R817 818 R9 RK73HB1J103J 10K R819 R918 919 R92 1368 05 0 R820 R920 RK73GB1J333J 33K R821 R922 RK73HB1J104J R822 gt R923 924 RK73GB1J473J R823 R926 RN73GH1J473D R824 826 R928 RK73GB1J473J R829 834 R929 R92 1368 05 R835 S 8930 RK73GB1J333J R837 R932 RN73GH1J273D R838 G R933 RN73GH1J184D R839 R934 R92 1368 05 R840 R937 938 RK73GB1J223J R841 G R939 RK73HB1J470J R842 1 R940 RK73GB1J223J R843 R941 942 RK73HB1J470J R844 R943 RK73GB1J333J R845 R945 RK73GB1J103J R846 R946 RK73GB1J105J R847 R948 RK73GB1J103J R848 R949 RK73GB R849 1 R950 RK73GB R850 R951 RK73GB1J154J R854 G R955 RK73GB1J474J 855 8956 RK73GB1J123J R856 1 8957 R92 1252 05 R858 R958 959 RK73GB1J104J R859 1 R960 R92 1252 05 R860 S 8961 RK73GB1J394J R861 R962 RK73GB1J273J R862
129. B1J473J 47K R619 620 R719 RK73GB1J102J Dk R621 R720 RK73GB1J473J R623 624 R721 RK73GB1J102J 0K R625 2 R722 RK73GB1J473J R627 R723 RK73GB1J102J R628 R724 RK73GB1J473J 47 R629 R726 RK73GB1J102J OK R630 R728 729 RK73GB1J473J R631 R730 734 RK73GB1J102J OK R632 633 R735 R92 1252 05 R634 636 1 8736 RN73GH1J512D R637 640 R737 RN73GH1J272D R650 R738 RK73GB1J103J R651 g R739 R92 1252 05 R652 R740 RK73GB1J102J R653 R741 744 RK73GB1J473J R654 655 R745 RK73HB1J104J R656 658 R746 RK73HB1J473J R659 GB R748 RK73HB1J473J R660 73GB 1 R749 RK73HB1J104J 61 73GB R750 RK73HB1J104J 62 73GB R751 RK73HB1J474J 73GB R752 753 RK73HB1J472J 7368 R754 RK73HB1J474J 7368 8755 R92 0670 05 73GB R756 RK73HB1J473J 73GB R757 RK73GB1J104J 73GB R758 R92 1368 05 7368 8759 RK73HB1J472J 73GB 1 R760 RK73GB1J333J R672 673 7368 R761 RK73GB1J473J R674 73GB R762 763 RN73HH1J102D R675 7368 1 R764 RK73HH1J393D R676 73GB 8765 RK73HH1J123D R678 7368 R766 RK73HB1J472J R680 681 368 05 R767 R92 0670 05 R682 R92 1252 05 R768 RK73FB2A471J R685 R92 1252 05 R769 RK73HB1J472J R686 RK73GB1J223J R771 RK73GB1J472J R687 RK73GB1J153J R772 RK73GB1J R690 R92 0670 05 R773 RK73HB1J R693 694 R92 0670 05 R774 775 RK73GB1J R697 R92 0670 05 R776 RK73HB1J R701 R92 1252 05 R777 RK73GB1J R702 RK73GB1J102J R778 782 RK73HB1J R703 RK73GB1J103J R783 RK73HB1J R704 92 3591 05 R784 786 RK73HB1J R705 RK73G
130. BYPASS DIODE gt gt Seef D 2 BECH 38 791 8 8 0601 di Q603 S25 17 8 3 51V 445 o 28 as 2881132 0 8 2881132 0 8 VCXO Bes 0404 sl c 8R R597 18 0 01V C404 1 H oi 742 4 4 0 19 6 0 03V 1000 59 1417 ele 5l8 ele 2 assist ASSIST E 77 R 336 lt 155MHz 0V bts 8 826 825 828 82282 8 528 20 5 C407 Aer SS zl 18 348 97 OTS 8 812 1000p 5 5 7 95V 7 28V CN601 ef d 21 4 SP 7 7 E40 6429 05 So 2 380 22 ov 22 R503 R459 RXVCO2 228 gie ER R509 NL tho 918 1 402 bex a fl 8400 4 22V 23 2 OV 8510 525 8 Bre LMC7101BIM5 0 100 yoo ala cs i 5 5 oT 2 x gt 100 100 24 1 OV 100 i 8T SW 8R SW le 5 88 7 0406 415 424 431 432 E 1 574 0600 Q602 r 6 FREQUENCY CONTROL 9 VCO OSCILLATION C506 0418 DIGNARE 55 Nox 4 102V R440 243 NEM 28C5108 Y FTEMP1 2 2 1408 25 508 521 Sad 5 3 2 1 2 stes R449 1406 inr er A SCH 8 52K ds d 473 5 PLLFIN AMP ie FTEMP2 288 0 394 1000p 1SV282 gj 56 Son ip 220 Gef Sou 9 255 R496 R409 eR4i2 414 R416 OP AMP VCO TUNE ays 2 5 5 SE 22202 Zou rT 7 a am ges 3 Me 59 5 amp 559 Ei E 5 228 100 1k le 0 Wiz IB adm cnl e el it p TX 8 Slezlsgl2 3
131. CHIP C CHIP C CHIP C CHIP C CHIP C CHIP C PC PC P TAN Ref No Address New parts Parts No Description PARTS LIST Destination Ref No TK 5710 BJ 5710H B Address New parts Parts No CONTROL UNIT X53 4120 10 Description Destination C764 767 C768 C768 C770 C771 772 773 775 776 778 C780 781 C783 784 C785 C786 C787 C788 789 790 C781 C782 793 794 795 C796 C797 C798 C799 C800 801 C802 803 C804 805 C808 C809 C810 C811 C812 C814 C815 C818 C820 C822 C823 824 C825 C826 827 C829 C833 C837 C838 839 C841 C844 C845 C846 847 C848 C849 C850 C851 C852 C853 854 C855 C856 C857 C858 C859 C860 CK73FB0J106K CK73HB1A104K CC73GCH1H390J CK73GB1H102K 92 0713 05 73HB1C103K 73HB1C103K 92 0713 05 T3HB1C103K 73HB1C103K T3HB1C103K T3GB1C104K T3GB0J105K C73GCH1H101J 73GB1H103K C92 0628 05 CC73GCH1H220J CK73GB1C104K 92 0804 05 CK73GB1C104K CK73GB1C104K CC73GCH1H101J CK73GB0J105K 92 0628 05 CK73GB1C104K 73GB0J475K 73GB1C104K 73GB1H103K T3GB1C104K 73GB1H471K 73GB1C104K 73GB1H471K 92 0712 05 73GB0J105 73FB0J106K 73FB0J106K 73GB1E105 73GB1C104K GCH1H220J 73GB1E105 73GB1H103K 73GB1E105 73FBOJ106K C92 0633 05 92 0628 05 92 0633 05 CK73GB1H122K CK73GB1H103K 92 0633 05 CC73GCH1H101J 73GB1C104K
132. D719 ug ee S EH o 28C4738 GR RAB 9 R652 22p a SHIFT DGND E 4 5 SFB RB706F 40 ANALOG SW 2 5 S 5 8 vouace ol 8 5 0A 0721 E T SCRAMBLER 470k R890 REGISTER RXD3 Od 47k 5 REGULATOR 2 7x ab 8 5 5850 s x FERE ML Bo C841 3 O TCK o ERI RYA Ag x VOLTAGE CH 9720 1C717 3 6 e e o SN 5 s S eq 22 5 5 T ors Q7157 680k OP AMP H D 13 10V s Doi 5 DC SW PROTECTION 2 5 716 D277 728 C798 R625 25243 C803 R861 MODI AF BU4094BCFV 10u10 4 13 5 9 2 AUTO GAIN CONTROL TXAGCDETECTION V m um OP AMP RX AF DC SW 4 510 TCK TCK 4 PEE E 8 S28 I 1u 22k i 12723 2 1 729 BEEPS LS oo 5 s gt a716 T 2 02V 5 DC SW SBC Ay 8 prevention 9 7 lola 28A1832 GR 20V 75501 TC75W51FU 9735 ala Q714 Q717 6 9 0706 512 sli EW Ess RES CH ES R846 D728 R896 uMeKIN SIS DTCHAYE DTC114YE 5 2 0 TDo E 295 oz oTe r r we SW SI TDo DTA114YE ROS Rz lt 0725 vo es sr sss or ss s s SES 2 C801 v utm ANALOG SW 3 3 3D 272 vore Ea 128 58 83 8 828858858855 DEE EE 6
133. EALIGNMENT Key operation Normal mode Zone Channel RX Frequency TX Frequency Channel Type Channel Spacing RX Signaling TX Signaling TG List No Unused Go to the next item Zone Channel 2 5kHz 5 2 6 25kHz ANALOG APCO ANALOG APCO Channel Spacing 1step Standard Delete the least digit from switching 7 5kHz 1MHz MIXED switching switching switching the current number Unused step switching switching Press and hold to delete all numbers PF4 Data 0n 0ff QT DQT DQT 1 OFF Unused Unused Writing switching switching PF5 Unused Selector Zone Channel ep Signaling Increment Decrement a number TG List number up down up down in the specified digit up down GRPA Zone Channel ep Signaling Determine the least digit up p up GRPv Zone Channel ep Signaling Unused down down down MIC keypad gesent Go to the MIC keypad Go to the MIC keypad Add a digit to the current number 0 to 9 input mode input mode MIC keypad 8 MIC keypad Delete the least digit from Unused the current number Press and hold to delete all numbers MIC PTT PTT 2 A PTT 5 B Unused Unused PTT 0 D PTT 4 E PTT MIC keypad input mode Key RX Frequency TX Frequency RX Signaling TX Signaling Cancel the MIC keypad input mode Return to the norma
134. Frequency Other than OFF Channel Type APCO or MIXED f Channel is set to MIXED TX Mode must be set to PF2 Channel Type APCO or MIXED Talkgroup ID List Amount must not be 0 PF2 Power ON Selector or GRP and GRPv Selector or GRP and GRPv Selector or GRP and GRPv Selector or GRP and GRPv Selector or GRP and GRPv 1 Front Panel Kit KCH 14 15 Option 1 1 Installing the KCH 14 15 front panel kit to the transceiver 1 Remove the upper case and lower case of the trans ceiver 2 Insert the lead wire with connector W700 of the control unit X53 412 into the connector CN1 of the KCH 14 or KCH 15 3 Install the KCH 14 or KCH 15 on the transceiver using the four screws supplied with the front panel kit Note Take care that the lead wire with connector W700 is not caught when fitting the KCH 14 or KCH 15 on the transceiver You can install the panel upside down if necessary to install the transceiver 4 Affixing the sheet G11 4379 04 for the waterproof Fig 1 1 2 1 Remove the covering paper of the sheet 2 Affix the sheet while taking note of the position of the three parts as shown in Fig 1 1 2 8 Firmly affix the sheet to the chassis by pushing the double coated tape with your fingers 3 Repeat step 2 to affix the sheet to the other side of chassis Note The sheet cannot be reused Aff
135. HIFT REGISTER 2 gaz 852 8 1600 815 BU4094BCFV SVAR e 5 02V rr STRB VDD f T Rraw 4 93V 27 s 8R SW Qe 8TSW am 2881132 0 8 2SB1132 Q R 05 4 94V 3 27V Sai 3 a7 815 8 8 88 50 5 01V STS T 7 28V Sow T x 9 SE 5 01V osx gla 8T SW 8R SW E 8T 0600 0602 DTC114EE DTC114EE FTEMP1 4 e 2558 S 5899055 55998 5 5 ttn iim CN600 E40 6438 05 1 8 5 s i REVERSE 1029 3 RSSI e 95 5 CURRENT C609 SX PREVENTION 1000p id ASQL C610 5 E si ek NOISE DETECTION 828 Hn IF IN 706 40 54 R635 C319 0 010 Sls Sexe ar EL ge EES 5 th E 0208 2 Vref 873 5 Lar C613 H STRB3 10006 C614 1 CLK EC 615 At 5 1000 616 5 DAT 1000p T 1 C61 IF t 1000 C618 T 1 RSSI R225 0 obs MB 5819 rar 5 79 6 1 1600p C621 1000p Hair C304 R264 R316 C622 t KS UL 1000p 7 4 0 3 3k 18 2 DC SW if 19888 rar 82 C624 Nix 9207 1006 131 8 8 828 SSM3K15TE 625 Ld 1000p i 2 8 WN2 C626 m 1000p FILOUT x MULTIPLEXER od 19885 FILIN QUAD 538 214 19558
136. HIP R 47 1 16W R435 73GB R603 RK73GB1J472J CHIP R 4JK 1 16W R436 73GB 1 R622 R92 1252 05 CHIP R 00HM J 1 16W R437 7368 1 R635 636 R92 1252 05 CHIP R 00HM J 1 16W R439 73GB R637 RK73GB1J105J CHIP R 1 0M 1 16W R440 73GB1J274J D200 202 15 286 VARIABLE CAPACITANCE DIODE R441 442 73GB1J104J 1 D203 RB706F 40 DIODE R445 73GB1J105J 0204 155388 DIODE R447 R92 1252 05 D205 212 HVC131 DIODE R449 R92 1252 05 D400 403 25077 DIODE R451 R92 1252 05 D404 MA742 DIODE R454 RK73GB1J152J D405 407 HVC376B VARIABLE CAPACITANCE DIODE R455 73GB1J100J D414 416 HVC376B VARIABLE CAPACITANCE DIODE R457 73GB1J223J D420 1SV282 VARIABLE CAPACITANCE DIODE R458 N73GH1J471D D422 V282 VARIABLE CAPACITANCE DIODE R459 N73GH D D424 15 282 VARIABLE CAPACITANCE DIODE R461 73GB J D427 432 15 282 VARIABLE CAPACITANCE DIODE R463 73GB D433 59278 VARIABLE DIODE R465 N73GH D435 436 HVC131 DIODE R467 N73GH C204 C75S51F OS IC R468 N73GH1J39 205 207 C7W53FK HYBR R469 N73GH1J33 C209 211 C7W53FK HYBR R470 N73GH1J10 C212 A31137FN OS IC R472 N73GH1J10 C213 C7 WUOAFK OS IC R473 N73GH1J22 C214 C7S66FU OS IC R474 73GB1J224J C400 LMX2352TMX NP ALOGUE IC R476 73GB1J330J C401 MCP41100T ALOGUE IC R477 1252 05 C402 LMC7101BIM5 OS IC R478 73GB1J331J C600 BU4094BCFV OS IC R480 2 1252 05 C601 A7805F 0S IC R482 483 7368 0150 151 2SC3357 RF TRANSISTOR R484 485 73GB 0200
137. IT X53 4120 10 rm o x lt EY 3 5 b 8 Bir E 0 e SHIFT REGISTER RXD3 Sa gt 10717 BU4094BCFV DC SW BEEPS 0714 0717 S5 77 DTC114YE DTC114YE a KS ANALOG SW ZS Q714 717 BL iMd DTI SCRAMBLER SCSW 8 8 12781 0736 BUFFER RXD3 311 4 TC7W66FK 3 29V j UMEKIN R662 LLY s A 10 3 4 TH LEVEL CONVERTER 10722 ADM202EARN R2OUT 7 R870 200 v c2 C2 F R860 0 13 R862 14 0743 744 VOLTAGE C808 PROTECTION o N em Gm Um Gm x en e um um 508 z SEY S408 E Dov OP AMP Bsr Y 8 is Br 4982 270k ______ mE FU 8 03V D A CONVERTER C904 855 1 738 2 01V M62364FP LMC7101BIM5 R958 R983 100k 8 06V R959 OP AMP FRONT END TUNE R967 100k R970 100k
138. J CC73FCH1H220J CK73FB1H102K CK73FB1H102K CM73F2H181J CK73FB1H102K 93 0603 05 CK73FB CM73F2H060D CM73F2H100D CK73FB1H102K CM73F2H101J CM73F2H270F CC73FCH1H090D 92 0777 05 CM73F2H270F 93 0603 05 CM73F2H270F CK73FB1H102K CM73F2H220C CK73FB1H102K CK73GB1H102K CK73FB1H102K CC73FCH1H050C CHIP C 5 0 C CHIP C 1000PF K CHIP C 1000 CHIP C 1000PF K CHIP C 1000PF K UMINIUM ELECTRO 680UF 25WV PC 22 J PC 18PF PC 1000PF PC 1000PF PC 9 0PF PC 47 0 10UF PC 1000PF PC 1000PF PC 120PF PC 1000P PC 120PF J PC 470 J CA CAPACITOR 240PF 300WV PC 0 010UF K PC 100PF J PC O 10UF K UMINIUM ELECTRO 680UF 25WV PC J PC 82PF PC 1000PF PC 9 0PF PC 82PF PC 18PF PC 180PF PC 22PF PC 1000P PC 1000P PC 180PF PC 1000P PC 1000P PC 1000P PC 6 0PF PC 10PF PC 1000PF HIP C 100PF HIP C 27 HIP C 9 0PF LECTRO 1000U PC 27 1000P PC 27 1000P PC 22PF PC 1000P PC 1000P PC 1000P PC 5 0 C 39 TK 5710 B 5710H B FINAL UNIT X45 3760 10 CONTROL UNIT X53 4120 10 PARTS LIST Address New parts Parts No Description Destination Address New parts Parts No Description Destination 40 CK73FB1H102K CM73F2H240C CM73F2H220C CC73FCH1H101J E04 0154 05 E23 1116 05 E40 6429 05 E23 1118 05 E37 1218 05 L41
139. Method Specifications Remarks 8 Squelch Tight adjust eWide 1 Adj SOTW Adjust 2 Adj SOTW SOTWI IWH SOTW Adjust SSG output 12dB SINAD level 508 MOD 1kHz 3kHz eNarrow 3 Adj item N SOTN Adjust SSG output 12dB SINAD level 6dB MOD 1kHz x1 5kHz 556 AF VIVM Oscilloscope ANT EXT SP Rear panel 9 BER Bit Error Rate check Panel test mode 1 CH sig 1 20 SSG output 117dBm 0 32uV C4FM 1011Hz Tone Test Pattern Digital radio tester PF5 After input signal from SSG press PF5 key That numeric will be stored in memory After adjusting SOL check SOL open close Panel test mode 1 CH Sig 1 1 SSG 16dB SINAD or more Open SSG 12dB SINAND level AdB Close 2 CH Sig 2 1 SSG 16dB SINAD or more Open SSG 12dB SINAD level AdB Close 3 CH Sig 3 1 SSG 16dB SINAD or more Open SSG 12dB SINAD level AdB Close After adjusting SOL check SOL open close Panel test mode 1 CH Sig 1 1 SSG 16dB SINAD or more Open SSG 12dB SINAD level AdB Close 2 CH Sig 2 1 SSG 16dB SINAD or more Open SSG 12dB SINAD level AdB Close 3 CH Sig 3 1 SSG 16dB SINAD or more Open SSG 12dB SINAD level 4dB Close 5 or less 5710 5710 TERMINAL FUNCTION 70 Final unit X45 3750 10 TK 5710 B 1 0 Description to TX RX unit CN150
140. ON 4 1 General Inspect the vehicle and determine how and where the radio antenna and accessories will be mounted Plan cable runs for protection against pinching or crush ing wiring and radio installation to prevent overheating 4 2 Antenna The favored location for an antenna is in the center of a large flat conductive area usually at the roof center The trunk lid is preferred bond the trunk lid and vehicle chassis using ground straps to ensure the lid is at chassis ground GENERAL 4 3 Radio The universal mount bracket allows the radio to be mounted in a variety of ways Be sure the mounting surface is adequate to support the radio s weight Allow sufficient space around the radio for air cooling Position the radio close enough to the vehicle operator to permit easy access to the controls when driving 4 4 DC Power and wiring 1 This radio may be installed in negative ground electrical systems only Reverse polarity will cause the cable fuse to blow Check the vehicle ground polarity before installation to prevent wasted time and effort 2 Connect the positive power lead directly to the vehicle battery positive terminal Connecting the Positive lead to any other positive voltage source in the vehicle is not recommended 3 Connect the ground lead directly to the battery negative terminal 4 The cable provided with the radio is sufficient to handle the maximum radio current demand If the cable must be extended be s
141. OW W N15C 150 4 2 XF200 L71 0625 05 XF200 171 0625 05 1SV286 3 12206 ion K Y CF200 17505 3 3V lt ve C7WS3EKg VN ITCZWS3FI 72 1018 8R 1 8R 1st IF TUNE 8R sw 5C sw sw 49 95MHz UKER D211 212 0202 D207 208 10212 TA31137FN 2SC4215 Y Ee lt 14 lt lt lt lt FM IC z sw ES DM sw lt 9 ms E WE 134 Ke Y 3 4725 1 736 ASQ VE 1C732 TDAgseiQ ACC 9pin RECTIFIER COIL DAC 1073956 119 ES 1 NN i gt SW TATSS01F Cum V 2E 1C724 1 4 52 3HR1 lt IRS AkassovTP RXEO 1 1742 1 1 SW Sw 4 HR2 TA7SWO1FU SCR TOW amp FK SCR AOL Ai AFO e _051 SE y Ls gt sw SUM AFO STONE AM 5C 082 5051 ACC D Sub 25pin asa SCSW ANI AF 7 ES2 CN728 4 MO AMP 40 5960 05 3 3 BEEPS i 5C IC735 2 2 9 8 us y TCTSWOIFU BC 9 IRS 8 TA75WO1FU CODEC gt gt SUM gt MB DT CKLD mens E s T 521 ES ac 0 5 gt sw LN Pc 0700 704706 708 711 712 5 2 5C 5 x Ce 10718 1 2 Ca AUXijo19 SURGE 2 NJM78LO5UA TC7SWSIFL5 C N 8 AVR gt VRer TV gt Q700 701 9 2
142. RHEOSTAT 1 aes 558 8 8 SES KS 31 29 5 8 5 ST 87 873 ST 1401 2 ale M 22 P el og E CN600 T7 ons og S gla MCP41100T 558 88 28 l 1 40 6438 06 5 8 ars R515 ay ole o 858 AMP Si 1 E 5 5 873 d 5 1254 9 9 9 9 B E 2 2 Pos he TC75S51F 2 34 s L461 41418 EE CLK 4 C608 3 RSSI D 6 102 0 V i al 27u REVERSE 1000 DAT 5 gi 8 PREVENTION ASQL 100 5 450 219 T 136MHz 4 48V R253 12 I R505 155MHz 4 40V C610 E 174MHz 4 42V 47 1000p 0 8 Rex 2 08V m POTENTIOMETER T 228 NOISE DETECTION 858 MO C466 1457 RAST m m m mm mm m m m mm m m m mm e I I em aN GH ele ass 4 46V RB706F 40 R635 852 28 8 0407 416 420 427 428 mu z 319 LAE s T MODULATOR 79 Fas 0 gt FREQUENCY CONTROL 287 E BUFFER 410 Sse glx i VIS els eae ch 828 228 L 824 410 0400 R408 RX EE 1456 40460 Wer PLE SIS 8 17 2SK879 GR Y 400k 0 270 1000 151282 56 1 VCO OSCILLATION 328 5 eR D400 C425 C435 1404 C440 D402 C446 SS 8 8 8 3 01V 406 1 1F DE 1F 2249 5 C493 8470 0208 25077 1000 1 5p B D n 1000p 25077 1000p g 2 st 25 4617 5 el 1 as Ble Sig ghe gi Sa 245 gia Sie
143. TXD2 Serial data output 2 RX signal output AUXO1 Auxiliary output 1 CNS to DC cable AUX 0 9 Auxiliary input output 9 Power supply input 13 4 1590 AFO RX audio signal output CNA to DC cable DI Data signal input GND E GND to TX RX unit CN601 External MIC input FTEMP2 Final unit temperature 2 Detected signal output FTEMP1 Final unit temperature 1 GND 8T 8V input during transmission UO Auxiliary input output 5 8T 8V input during transmission UO Auxiliary input output 8 E GND UO Auxiliary input output 4 PC TX power control voltage gt gt gt g Serial data output 3 to Control unit CN702 UO Auxiliary input output 3 GND 3 4 5 6 7 8 9 0 1 2 3 4 5 6 7 8 9 g w Serial data input 3 Power supply output 13 4V 15 N e UO Auxiliary input output 2 Power supply output 13 4 1596 GND N N UO Auxiliary input output 1 w gt gt m gt gt c gt UX UO Auxiliary input output 7 GND AUX UO Auxiliary input output 6 E GND NC No connection CN744 Sol der land to VGS 1 VBUSY Busy signal Active High PLA
144. VN VN CF 2nd stage W or N VN switching H WN1 L WN2 L VN NC No connection Output enable control input Port Name Power supply input 5V 2364FP TX RX unit 1 738 Function VIN1 RX AF input 1 VOUT1 RX AF output 1 VOUT2 RX AF output 2 VIN2 RX AF input 2 VDD 5V 5C LD LD CL Serial clock input DI Serial data input VIN3 GND VOUT3 BPF tuning VOUT4 2nd local tuning VIN4 GND VIN5 TX modulation input VOUT5 TX modulation output VOUT6 Balance adjust VIN6 TX modulation input DO No connection VDARef 2V VREF RESET 5V 5C GND GND VIN7 3 3V 33A VOUT7 Frequency control VOUT8 APC VIN8 5V 5C TK 5710 BJ 5710H B COMPONENTS DESCRIPTION Control unit X53 4120 10 Ref No Part name Description 0709 Transistor DC switch SBC 0710 Transistor DC switch SBC O711 Transistor DC switch IGN 0712 Transistor DC switch IGN 0713 FET DC switch SB 0714 Transi Buffer 0715 716 Transi Auto gain control 0717 i Buffer RXD3 0719 DC switch VATS 0720 Analog switch Scrambler 0721 DC switch Scrambler 0723 Analog switch MIC MIC2 0725 ET DC switch Beat Shift 0728 Transistor DC switch IGN 0729 audio mute switch 0730
145. Y Play signal Active High RXD1 Serial data input 1 TXD1 Serial data output 1 CLK O O Clock output TERMINAL FUNCTION Description TK 5710 BJ 5710H B Description Enable output Active Low GND UART speed select H 115200bps L 19200bps No connection GND Reset signal output Common 5V DE Digital GND No connection E GND Audio input 3Vp p Scramble control signal output L On H Off L lt 0 4V Hz4 6V 30kQ load AO Audio output 100mVp p E GND MIC signal output ZoS1kQ 85mVp p typ 5C Common 5V No connection AUDIO signal output 2031000 1 2Vp p typ 8C Common 8V CN755 Solder land to ANI board AUDIO signal input Zi 27kQ 1 2Vp p typ BUSY O BUSY signal output L TX Lx0 4V Hz4 6V 30kQ load MIC signal input Zo 100kQ AKEY TX Control signal input Active Low Lx0 8V Hz2 6V Scramble code signal output 3 L lt 0 4V Hz4 6V 30kQ load 8C Common 8V NC No connection TX RX unit CN600 PTT signal output L PTT ON L lt 0 4V Hz4 6V 30kQ load E GND CV Control voltage for VCO No connection FTEMP2 Final unit temperature 2 Emergency signal output L Operated LS0 4V Hz4 6V 30kQ load FTEMP1 Final unit temperature 1 PCS Chip sele
146. ata and other features to and from the transceiver PC test mode This feature is included in the FPU See panel tuning Used to check the transceiver using the PC Firmware programming mode Used when changing the main program of the flash memory Clone mode Used to transfer programming data from one transceiver to another Self programming mode You can program the frequency signaling and other functions using only the transceiver Firmware version information Used to confirm the internal firmware version Clock adjustment mode Used by the dealer to adjust date and time 2 How to Enter Each Mode Mode Operation Power ON PF1 Power ON Received commands from PC Panel test mode GRP PF2 Power ON PF5 Power ON GRP Power ON PF3 Power ON 4 Power ON User mode Panel test mode PC mode Panel tuning mode Firmware programming mode Clone mode Self programming mode Firmware version information Clock adjustment mode 3 Panel Test Mode Setting method refer to ADJUSTMENT 4 Panel Tuning Mode Setting method refer to ADJUSTMENT 5 PC Mode 5 1 Preface The transceiver is programmed by using a personal com puter programming interface KPG 43 and programming software KPG 95D The programming software can be used with an IBM PC or compatible Figure 1 shows the setu
147. attern 1011Hz Tone Test Pattern AC 293 Silence Pattern AC 293 Calibration Pattern AC 293 Transmitter Test Pattern AC 293 Symbol Rate Pattern AC 293 Low Deviation Pattern AC 293 Fidelity Pattern Channel No RX MHz TX MHz 1 55 10000 155 00000 36 10000 136 00000 73 80000 173 97500 55 00000 155 00000 55 20000 155 20000 55 40000 155 40000 54 90000 154 90000 45 40000 145 40000 64 40000 164 40000 Oj 55 TK 5710 BJ 5710H B ADJUSTMENT 56 Panel Tuning Mode The transceiver is adjusted in this mode Preparations for tuning the transceiver Before attempting to tune the transceiver connect the unit to a suitable power supply Whenever the transmitter is turned the unit must be con nected to a suitable dummy load i e power meter The speaker output connector must be terminated with a 4 dummy load and connected to an AC voltmeter and an audio distortion meter or a SINAD measurement meter at all times during tuning Transceiver tuning To enter tuning mode To enter tuning mode press the GRPa key while the transceiver is in test mode Use the PF5 key to write tuning data through tuning modes and the and 4 keys to adjust tuning require ments 1 to 256 appears on the LCD Use the PF2 key to select the adjustment item through tuning modes Use the GRPv key to exit 3 or 5 reference level adjus
148. ct 5 Value 101 100pF 3 Temp coefficient 6 Tolerance 102 1000pF 0 001HF 103 0 01uF 1st number Temperature coefficient 1st Word C E P R S T U 2nd Word G H J K Color Black Red Orange Yellow Green Blue Violet ppm C 30 60 120 250 500 ppm C 0 80 150 220 330 470 750 Example CC45TH 470 60 Tolerance More than 10pF Less than 10pF Code C D G J K M X 7 No code Gode B D F G 0 25 0 5 2 5 10 20 40 80 100 More than 10uF 10 50 pF 0 1 0 25 0 5 1 2 40 20 0 Lessthan 4 7uF 10 75 Voltage rating 2nd word A B C D E F G H J K V 1st word 0 1 0 1 25 1 6 2 0 2 5 3 15 40 5 0 6 3 8 0 1 10 12 5 16 20 25 31 5 40 50 63 80 35 2 100 125 160 200 250 315 400 500 630 800 3 1000 1250 1600 2000 2500 3150 4000 5000 6300 8000 Chip capacitors Dimension Chip capacitors EX CC73 SL1H 000 J Dimension code L w T 2 vu ue Refer to the table above Empty 5 6 0 5 5 0 0 5 Less than 2 0 1 Type 4 5 0 5 3 2 0 4 Less than 2 0 Chip CH RH lt UJ SL 2 Shape B 4 5 0 5 2 0 0 3 Less than 2 0 3 Dimension C 4 5 0 5 1 25 0 2 Less than 1 25 CK73 1H 000 Z 4 Temp coefficient D 3 2 0 4 2 5 0 3 Less than 1 5 E E ES ES EX 5 Voltage rating E 3 0 0 2 1 6 0 2 Less than 1 25 6 Value F 2 0 0 3 1 25 0 2 Less than 1
149. ct of potentiometer GND Tuning frequency of 2nd local No connection UL Lock detection of PLL GND EP Enable of PLL Common 5V Standby 3 5mA Encoding 35mA o S O P SN Switch of ceramic filter H Wide L Narrow Side tone input 1kHz bVp p Modulation signal for VCO Data signal input Adjustable from OV to 4 5Vp p Modulation and frequency control signal for Speaker mute signal input L Unmute Lx0 8V Hz4 2V Common 8V Data output NC No connection Enable of Shift Register 3 AINH MIC mute signal input L Mute Lx0 8V Hz4 2V Clock output Chip select of Shift Register 3 AUX I O Emergency signal input Active Low LS0 8V Hz4 2V 8V output during transmission Reference voltage NC connection GND 8C Common 8V Detection signal input CN771 Sol der land to Scrambler board GND DC Scramble code signal output 1 L lt 0 4V Hz4 6V 30kQ load TX power control voltage GND BC2 Scramble code signal output 2 LS0 4V Hz4 6V 30kQ load IF signal GND LOK No connection Analog squelch signal input PTOS TX signal output L TX Lx0 4V Hz4 6V 30kQ load RSSI signal input Tuning voltage signal output for RX BPF NC N
150. d pass filter L221 L222 L223 to remove unwanted signal The signal passing through the band pass filter goes into the 1st mixer These band pass filters are tuned to a desired frequency by variable capacitance diode D200 D201 D202 A tuning voltage corresponding to the desired signal is Local AMP LPF applied to each variable capacitance diode to tune to the receive frequency 3 2 1st Local The 1st mixer uses double balanced mixer A400 The receive signal passing through the band pass filter L221 L222 L223 and the 1st local signal generated by the VCO are mixed by the 1st mixer A400 to produce a 1st IF signal 49 95 MHz Upper heterodyne 1st Local OSC lt 185 95 223 95MHz D200 D201 D202 1st MIXER 1st IF 2400 lt RX terminal CN200 49 95MHz 7 L221 L222 L223 AX 136 174MHz Fig 2 Front end RF amplifier and 1st local 25 TK 5710 BJ 5710H B CIRCUIT DESCRIPTION 3 3 1st IF The 1st IF signal passes through the MCF Monolithic Crystal Filter to remove unwanted signal The MCF has two paths Wide band XF200 Narrow band XF201 and these are controlled with the IF filter switch D205 D206 D207 D208 0209 D210 D211 and 0212 The signal passes through the MCF XF200 when the Wide band D206 D208 D210 and D212 are ON is selected The signal passes through the MCF XF201 when the Narrow band D205 D207 D209 and D211 are ON is Tr
151. et Long Beach Amsterdamseweg 37 1422 AC Uithoorn The Netherlands Kenwood Electronics Italia S p A Kenwood Electronics Canada Inc Via G Sirtori 7 9 20129 Milano Italy 6070 Kestrel Road Mississauga Ontario Canada L5T 158 Kenwood Electronics Deutschland GmbH Rembr cker Str 15 63150 Heusenstamm Germany Kenwood Ib rica S A Bolivia 239 08020 Barcelona Spain Kenwood Electronics Australia Pty Ltd Kenwood Electronics Belgium N V A C N 001 499 074 Leuvensesteenweg 248 J 1800 Vilvoorde Belgium 16 Giffnock Avenue Centrecourt Estate North Ryde N S W 2113 Australia Kenwood Electronics France S A Kenwood Electronics Hong Kong Ltd 13 Boulevard Ney 75018 Paris France Unit 3712 3724 Level 37 Tower one Metroplaza 223 Hing Fong Road Kenwood Electronics UK Limited NEE lt KENWOOD House Dwight Road Watford Herts Kenwood Electronics Singapore Pte Ltd WD18 9EB United Kingdom 1 Ang Mo Kio Street 63 Singapore 569110 2 e
152. exer C212 FM IC Sin URS Final unit X45 3750 10 TK 5710 B C400 PLL IC C40 Rheostat C402 OP AMP C600 Shift register C60 Voltage regulator 0150 151 1 RF AMP 0200 RF AMP O20 Local AMP 0202 203 1 IF AMP 0205 VCXO frequency 0206 DC switch 0207 DC switch 0208 Noise 0209 DC switch 0212213 1 DC switch Final unit X45 3760 10 TK 5710H B 0400 Buffer 0401 402 1 DC switch O403 PLL fin AMP 0404 VCO1 2 switch O405 VCO TX RX switch O406 VCO1 2 switch 0407 VCO TX RX switch O408 409 Transistor RX VCO 1 2 switch 0412 Transistor Ripple filter 0413 414 416 Transistor VCO oscillation 0417 Transistor Buffer AMP 0418 Transistor PLL fin AMP 0419 Transistor Buffer AMP 0598 599 Transistor Lock detection O600 601 Transistor 8T switch O602 603 Transistor 8R switch D200 202 Variable BPF control capacitance diode D203 Diode Noise detection D204 Diode Reverse current prevention D205 212 Diode IF filter switch D400 403 Diode PLL fin filter switch D404 Diode Bypass diode D405 407 Variable Frequency contro Ref No Part name Description D433 Variable Modulator capacitance diode D435 436 Diode Local switch A400 DBM Double balanced mixer Part name Description APC comparator Power module Diode ANT switch Zener diode Protect of voltage Diode ANT switch Diode Forward wave rectification Diode Reflected wave rec
153. f voltage control terminals and ASSIST The operation switching terminals STR and VCO1 2 are controlled by the control lines STR VCO1 2 output from the CPU IC703 When the STR logic is high and the VCO1 2 logic is high the RX VCO 1 output a 1st local receive signal When the STR logic is high and the VCO1 2 logic is low the 29 TK 5710 BJ 5710H B CIRCUIT DESCRIPTION 30 RX VCO 2 output a 1st local receive signal When the STR logic is low the TX VCO output a transmit carrier The voltage control terminals CV and ASSIST are controlled by the PLL IC 400 and rheostat IC 401 and the output frequency changes continuously according to the applied voltage For the modulation input terminal the output frequency changes according to the applied voltage This is used to modulate the VCO output works only when STR is low 5 3 Rheostat 12401 The rheostat IC 401 is connected to the VCO voltage control terminal ASSIST and quickly controls the VCO oscillation frequency However its accuracy is low and the VCO frequency cannot be matched accurately with the desired transmit carrier or the 1st local receive signal The rheostat IC is controlled by the CPU IC703 through the 3 line PCS DAT CLK serial bus 5 4 PLL IC IC400 PLL IC compares the differences in phases of the VCO oscillation frequency and the VCXO reference frequency returns the difference
154. g ip 100 2 gl 82 D400 401 SES 318 SS Sp 0402 403 525 BFS APS 45 SUP rr 365 29 Si 58 8 ES 4 NOISE SEK PLLFIN FILTER SW PLLFIN FILTER SW d e lt 51 5 gt 5 885 38 522 gt d Rig 2 2 vref 100k py 4 28V d I 238 4 96V 829 82 STS E 1 39 STRL e z 2SC5108 Y C424 D401 C426 L403 C441 D403 00 2 C417 m 1 K I it N 140 ER 1 51V L77 1961 05 3 14V C291 R255 ane R256 0249 SN M sd WS 1000 us 18u 100p d 00 15 1k 0010 Shee 1000 10 zts ers Ble il 4 4 zl Sla ab ON u 2 ese Std SP Ned Ore Six 0 657 858 ST Dee 2o Ses 935 er C300 5 2 DE SW 53 885 Eis ETT R251 R252 289 it 85 ESE 214 5225 EIN EN GND oUTPUT 2705 0 010 5 DAT T 35 2 sls 82k 47 2SC5108 Y C301 DTA144EE F CN602 s 5 5 Tog i 0 73V EE 1006 3 E37 1235 05 VCXO 16 8MHz gt y 8 DC SW 858 1St IF 49 95MHz best R225 0402 D y DTC144EE FMIC MB g 60225 eC228 ils z Ic212 E i ii 8 LOCAL AMP sang 2205 207 202211 sto TAGT137EN 2p 2 el v WR gj asov 1 0 95 2 eR219 1211 el212 el213 eC236 2903357 RF id eR 2 STR C241 8226 RX LO1 RX LO1 sam NARROW 308 C304 R264 R316 R267
155. gi 827 DIE y 11 SSM3K15TE A9 1 720 IR 4700p 77 m 758 0 25 78 R801 100 e assy zoo 201 Er 4 957 OPAMP at Ess E4064 05 55 um n m m T PS LD 26 77 RB802 100 AS Li R843 Basi D 82 Rego PC MB 854 vlt as 7 8 057 47k BEEP 8631 27 76 __ 8803 100 Res jase 12282 SiS n 12735 mnk LM2940T 8 0 A12 TZ S25 Bos gon 56 Sex 2 2 01V 10 D A CONVERTER rx RESET 270k 28 75 Ei c FEN 12k 0 1u TA75WO1FU 8 03V C904 TV gt gt R819 0 13 1V 1 SW PEW 25 R804 100 A13 41 9 e e zl 235 R971 ES 3 lt 10738 4 SE e T TT 8c AUXi o1 74 e R805 100 Aia O 65 R844 R875 C811 R876 C802 E g M62364FP C769 1 39p RSSi ESS TRD 1 VOLTAGE 2 els aye XAUxio2 30 78 806 100 Aus i E 15k de js n di Km ERR PSW REGULATOR 555 543 Lier 72 __ RO 010 nyo de EL i 150k as i R671 100k 2 R813 270k gt 99 32 E IOPAMP 5 0736 MINISMDCO75F24 ION d 1 35 XAUXi o3 Ti 9808 00 DC SW KEY 4 C655 47 8 067 855 7 OPAMP E d a VOLTAGE 53 33 A17 VATS d 2nd L ads SB AUXi o4 70 R809 100 8 o L 0719 TCNT 2nd Lo TUNE DEO oi 5 gt s gt 1 5 s 5 PROTECTION 953 iRS 1C707 TRD 9785 S 34 69 Ratio io SA o SSM3K15TE 655
156. he three parts as shown in Fig 2 1 2 6 Firmly affix the sheet to the chassis by pushing the double coated tape with your fingers 3 Repeat step 2 to affix the sheet to the other side of chassis Note The sheet cannot be reused Affix a new sheet when you removed the sheet 5 Reassemble the upper case and lower case of the trans ceiver Refer to page 24 Note Take care that the sheet G11 4379 04 is not peeled off when installing the upper lower case Packing TK 5710 BJ 5710H B INSTALLATION Affix the sheet while taking note of the position of the three parts Fig 2 1 2 2 2 Installing the KRK 5 rear panel onto the front panel kit The following steps apply to both the KCH 14 and KCH 15 1 Remove three screws on the KRK 5 rear panel then remove the KRK 5 sub panel 2 Insert the lead wire with connector W102 of the KRK 5 into the connector of the front panel kit 3 Insert the lead wire with connector W103 of the KRK 5 into the connector CN3 of the front panel kit 6 4 Make a slight cut in the end of the rubber cap 6 5 Slide the lead wire of the connector wiring through the slit in the rubber cap 6 Insert the rubber cap into the hole of the KRK 5 rear panel 0 7 Insert the connector 6 to the ACC connector 6 on the KRK 5 sub panel as shown by the arrow 40 8 Install the KRK 5 sub panel onto the sub panel of the front panel kit 6
157. hold the PF5 key while turning the transceiver power ON If the Read authorization password is set to the transceiver the transceiver displays CLONE LOCK If the password is not set the transceiver displays CLONE 2 When you enter the correct password and CLONE MODE is displayed the transceiver can be used as the cloning master The following describes how to enter the read authorization password How to enter the read authorization password using the microphone keypad If one of keys 0 to 9 is pressed while CLONE LOCK is displayed the pressed number is displayed on the LCD Each press of the key shifts the display in order to the left If you press the key the least digit of the password is deleted When you enter the password and press the key CLONE is displayed if the entered password is correct If the password is incorrect CLONE LOCK is redisplayed How to enter the read authorization password using the Selector knob f the Selector knob is rotated while CLONE LOCK is displayed the number 0 to 9 flashes on the LCD When you press the GRP key the currently selected number is determined If you press the key the least digit of the password is deleted If you press the PF2 key after entering the password in this procedure CLONE is displayed if the entered password is correct the password is incorrect CLONE LOCK is redisplayed 4
158. iation IF signal GND TX power control voltage GND Detection signal output External MIC input Zi2600 Deviation 60 deviation at 1kHz 5mVz2mv input Frequency response Compliance with TIA EIA 603 GND E GND Reference voltage 8V input during transmission AUX I O 8 Auxiliary input output 8 FPU selectable Active Low with 47kQ pull up to 5V LS0 8V H24 2V Description Serial data output 3 CMOS Level LS0 7V Hz4 2V 25 load ZoS1kQ TK 5710 BJ 5710H B TERMINAL FUNCTION Accessory 9 pin connector Description Ignition sense input Serial data input 3 CMOS Level 0 5 max L 0 8V Hz4 2V BTL output for external speaker A Remote speaker switch E GND Horn alert signal output 1 1A max AUX I O 7 Auxiliary input output 7 FPU selectable Active Low with 47kQ pull up to 5V LS0 8V Hz4 2V Horn alert signal output 2 1A max BTL output for external speaker A BTL output for external speaker B PA AUX 6 Auxiliary Input output 6 FPU selectable Active Low with 47kQ pull up to 5V Lx0 8V H24 2V Switched B TK 5710 B 13 6V 15 TK 5710H B 13 4V 15 2A max Auxiliary output 2 FPU selectable Active Low Open Collector 500mA max Auxiliary output 1 FPU selectable Active Low Open Collector 500mA max RX audio signal out
159. ide amp Storage Unit VGS 1 Option 5 1 Installing the VGS 1 unit in the transceiver 1 Remove the upper case and upper packing of the transceiver 2 Attach two cushions to the VGS 1 as shown in figure Note Be sure not to cover the VGS 1 connector with the cushion 3 Insert the VGS 1 connector CN1 into the control unit connector 744 Note You must setup using the KPG 95D VGS 1 lt Cushion G13 1992 04 21x 21 x 2 5mm Cushion G13 1974 04 21x21 x 1 0mm 16 6 Voice Scrambler Board Connection 1 Remove the upper case and upper packing of the transceiver 2 Two kinds of the scrambler board are available and the following describes the each installation method How to install the scrambler board Connector connection type 1 Attach two cushions to the scrambler board as shown in Fig 7 2 Note Be sure not to cover the scrambler board connector with the cushion 2 Insert the scrambler board into the control unit connector CN771 How to install the scrambler board Lead wire connection type 1 Attach the cushion to the scrambler board as shown in Fig 7 2 2 Solder each lead wire of the scrambler board to a necessary location of each landing on the component side of the control unit Note You must setup using the KPG 95D Component side of the Control unit CN771 Solder land 1 BC1 Scrambler code output 1 BC2 Scrambler code output
160. igital data is sent to the DSP IC IC715 and voice signals of 300 Hz or lower and frequencies of 3 kHz or higher are cut off and an audio range 300 Hz to 3 kHz is extracted The audio signal is then pre emphasized in FM mode and synthesized with the signals such as OT and DOT as required and is then output from the CODEC IC In APCO mode the audio signal is converted to the CAFM base band signal and output from the CODEC IC The DTMF and MSK base band signals are also generated by the DSP IC and output by the CODEC IC LPF 729 removes quantization noise from the base band signal output from the CODEC IC The summing amplifier IC733 sets the base band signal level to the DAC input range The DAC 738 assigns the base band signal to the VCO 0413 O414 0416 and VCXO X400 At this time the level output according to the transmit carrier is fine adjusted according to the modulation method of FM Wide FM Narrow and APCO 27 TK 5710 BJ 5710H B CIRCUIT DESCRIPTION 28 D727 D728 33A 715 5C 5C 0723 0716 0720 1C719 MUTE EISE TE A STXI SCR 3A ATXI ANI 1C718 1720 Ai Ao TXO SCR y Y IC735 2 2 gt MB Fig 7 Audio band and Base band circuit 4 3 Drive Amplifier Circuit From T R switch to Power module The transmit signal passing through the T R switch D435 is amplified by the two drive amplifiers Q150 Q151 The transmit signal fro
161. input method see 8 Clone Mode step 3 described on page 7 Note This mode self programming mode cannot be set when it has been disabled with the FPU 9 2 Data writing If the PF4 key is pressed while Zone Channel mode is displayed new data is written into memory WRITING is displayed while the transceiver is writing data The setup items for self programming mode are as follows Setup item Display Remarks Select Zone Channel Zone 1 50 Channel 1 250 RX Frequency MHz Receive frequency TX Frequency 1 oe x x Transmit frequency Channel Type TYPE ANALOG APCO MIXED TX Mode MODE ANALOG APCO Channel Spacing SPACE 25 0kHz 12 5kHz When the Channel type is selected ANALOG or MIXED APCO 12 5kHz 12 5kHz When the Channel type is selected RX Signaling RX SIG Receive QT DOT TX Signaling TX SIG Transmit OT DOT RX NAC RX NAC s 000 FFF Hexadecimal Note F7F cannot be set TX NAC TX NAC s 000 FFF Hexadecimal Note F7E and F7F cannot be set Talkgroup List No None When you do not want to set the Talkgroup list number to the transceiver Talkgroup list number 1 250 When the Talkgroup list name is not set to the transceiver Talkgroup list name 12 digits When the Talkgroup list name is set to the transceiver TK 5710 BJ 5710H B R
162. ipler X200 50 40MHz VCXO 16 8MHz WIDE XF200 D211 NARROW D209 212 1 0203 0212 XF201 2nd IF S 450kHz 7 RSI D210 selected The 1st IF signal passing through these MCFs is amplified by the IF amplifier 0203 and goes into the FM IC IC212 3 4 2nd Local The 1st IF signal 49 95 MHz amplified by the IF amplifier Q203 and the 2nd local signal 50 4 MHz generated by tripling the reference oscillator frequency 16 8 MHz of the VCXO X200 by 0205 are mixed in the FM IC 212 to produce a 2nd IF signal 450 kHz Upper heterodyne NARROW D205 XF201 D206 1st IF 49 95MHz 0202 Fig 1st IF and 2nd Local 3 5 2nd IF The 2nd IF signal passes through the ceramic filter to remove unwanted signal The ceramic filter has three paths Wide band CF201 and CF204 Narrow band CF200 and CF203 APCO band CF201 and CF202 and these are controlled with the multiplexers IC205 1 206 207 209 210 and IC211 The control line is W N1 W N2 and VN The signal passes through the ceramic filters CF201 and CF204 when the Wide band W N1 high level W N2 high WIDE CF204 VN level VN high level is selected The signal passes through the ceramic filters CF200 and CF203 when the Narrow band W N1 low level W N2 low level VN high level is selected The signal passes through the ceramic filters CF201 and CF202 when the band W N1 high
163. is compared with the reference voltage preset in the CPU to control audio signal ON OFF TX RX UNIT X57 703 NOISE AMP 0208 Fig 6 Squelch circuit 4 Transmitter System 4 1 Audio Band Circuit The audio band circuit of the transmitter system consists of the following Microphone mute switch O723 Automatic Gain Control 0715 0716 1 719 D727 D728 e Scrambler board switch O720 The microphone mute switch O723 cuts off audio signals from the external microphone The 0715 0716 1 719 0727 0728 is an amplifier that reduces gain automatically by greatly increasing the attenuation when the audio signal of a certain level or higher is present It controls the gain so that the audio signal input to the CODEC IC 724 is not clipped If an optional scrambler board is installed the switch 0720 adjusts the signal path so that the audio signal is fed to the CODEC IC through the scrambler board The audio signal is fed to the CODEC IC base band circuit through the above path 4 2 Base Band Circuit The base band circuit of the transmitter system consists of the following CODEC IC IC724 DSP IC IC715 LPF Low Pass Filter C729 e Summing amplifier C733 DAC D A Converter 1C738 Amplifier IC735 The audio signal output from the base band circuit is converted to digital data of a sampling frequency of 48 kHz and a quantization resolution of 16 bits This d
164. iver Fig 8 1 1 Note Save the jumper which is required when the transceiver is used without the external speaker 2 Remove the terminals with the jumper from the connector housing holes number 3 and 6 using the extracting tool Removing the jumper lead Fig 8 1 2 1 Insert the extracting tool 11 03 0002 into the connector while pushing the jumper lead in the direction of a 2 Push the extracting tool into collapse the barbs of the crimp terminal 3 Pull out the lead while continuing to push the extracting tool in the direction b 3 Reinsert the terminal with the black and white stripe lead into hole number 2 and the terminal with the black lead into hole number 6 Fig 8 1 3 4 Connect the short plug to the accessory connector 9 pin on the rear of the transceiver a gt b Short plug Extracting tool 2 Jumper lead E37 0733 05 11 03 0002 y 17 TK 5710 B 5710H B INSTALLATION Short plug 9 pin 6 1 y 2 Ka MW KES 5 or KES 6 BT Black White lead Black lead Fig 8 1 3 8 2 Connecting the KES 5 6 external speaker to the KRK 5 6DH remote kit When taking the AF output from the 12 pin accessory connector on the rear of the control head Modification of plug 12 pin 1 Remove the square plug from the accessory connector 12 pin on the rear of the control head 2 Cut off the end of the rubber cap insert the KES 5 6 speaker cable into the cap and insert it into pins 10 and 11 of
165. ix a new sheet when you removed the sheet 5 Reassemble the upper case and lower case Refer to page 24 Note Take care that the sheet G11 4379 04 is not peeled off when installing the upper lower case 6 Connect the short plug to the accessory connector 9 pin on the rear of the transceiver 55 222 2 er 25 TK 5710 BJ 5710H B INSTALLATION Affix the sheet while taking note of the position of the three parts Fig 1 1 2 1 2 Installing the accessory keytops to the front panel kit When a function is set by the programming software KPG 95D the key legend can be changed by inserting the accessory keytops into PF1 to PF9 of the KCH 15 PF1 to PF5 KCH 14 The accessory contains 60 keytops as shown the table below z K29 5276 03 K29 5277 03 K29 5305 03 AN RCL CH1 D A RPT CH2 DIM SCN CH3 HA SP CH4 SPM CH5 IC 50 AUXA TA AUX B AUX C 1 O N V EMG K29 9353 13 No printing K29 9354 03 K29 9356 03 2TN PAG AD SIT AR SRC No printing No printing No printing No printing No printing O Oj No printing No printing No printing No printing 11 TK 5710 B 5710H B INSTALLATION 12 KENWOOD
166. kenn KENWOOD TK 5710H B 0 SERVICE MANUAL SPRINTED M APA TK 5710 B with KCH 14 Cabinet Upper Use this service manual A01 2161 22 together with the KCH 14 15 service manual B51 8728 00 3 KCH 14 Front panel kit Cabinet Lower A01 2162 22 5710 Cabinet Upper A01 2163 21 Cabinet Lower A01 2164 21 CONTENTS GENERAL qaa 2 PC BOARD SYSTEM SET UP 4 FINAL UNIT X45 3750 10 TK 5710 74 REALIGNMENT 5 FINAL UNIT X45 3760 10 TK 5710H B 76 INSTALLATION 11 CONTROL UNIT X53 4120 10 80 DISASSEMBLY FOR REPAIR 20 TX RX UNIT X57 7030 10 84 CIRCUIT DESCRIPTION 25 SCHEMATIC DIAGRAM 88 SEMICONDUCTOR DATA 33 INTERCONNECTION DIAGRAM 104 COMPONENTS DESCRIPTION 35 BLOCK DIAGRAM 106 PARTS LIST 37 LEVEL DIAGRANI 110 EXPLODED VIEW 50 OPTIONAL ACCESSORIES PACKING
167. l mode PF2 Cancel the MIC keypad input mode Return to the normal mode PF3 Delete the least digit from the current number Press and hold to delete all numbers PF4 Unused 0n 0ff QT DOT N DOT 1 OFF switching switching PF5 Unused Selector Unused GRPA Unused GRPv Unused MIC keypad Add a digit to the current number 0 to 9 Return to the normal mode automatically if all digit are entered MIC keypad Cancel the MIC keypad input mode Return to the normal mode MIC keypad Delete the least digit from the current number Press and hold to delete all numbers MIC PTT Unused TK 5710 B 5710H B REALIG e Self programming mode flow chart GRPA Power ON NMENT Input Password Read authorization password entry 6 digits PF2 Self programming mode Zone Channe RX Frequency TX Frequency OFF TXFreaueney Lk EE PF3 Zone selection Channel selection PF2 When the PF4 key is pressed new data is written into memory PF2 PF3 PF2 TX Frequency OFF or Channel ANALOG or TX Mode PF2 Channel Type APCO PF2 TX Frequency OFF Channel PF2 TX Frequency OFF Channel or MIXED or TX Frequency Other than OFF Channel MIXED TX Mode APCO
168. lay is blinking 7 writing ends successfully the checksum is calculated and a result is displayed 8 If you want to continue programming other transceivers repeat steps 4 to 7 Note This mode cannot be entered if the Firmware Program ming mode is set to Disable in the Programming software 7 4 Baud rate change 1 If you press the PF4 key while PROG 115200 is dis played the display changes to PROG 57600 The LED blinks orange If you press the PF4 key again while PROG 57600 is displayed the display changes to PROG 19200 The LED blinks green to indicate that the write speed is low speed 19200 bps If you press the PF4 key again while PROG 19200 is displayed the display returns to PROG 115200 The LED lights orange 2 If you press the PF5 key while PROG 115200 is dis played the checksum is calculated and a result is dis played you press the PF5 key again while the checksum is displayed PROG 115200 is redisplayed Note Normally write in the high speed mode TK 5710 BJ 5710H B REALIGNMENT 8 Clone Mode Programming data can be transferred from one trans ceiver to another by connecting them via their microphone jacks The operation is as follows the transmit transceiver is the master and the receive transceiver is a slave The following data cannot be cloned Tuning data Embedded message with password Model name data ESN Electronic Serial Number data 1 Press and
169. ld cover 1 2 3 4 Remove the 9 screws and 9 spacers Remove the upper case and lower case Remove the upper packing and lower packing Q Remove the shield cover Removing the TX RX unit X57 703 1 2 3 4 Remove the 7 screws holding the PLL shield cover Remove the PLL shield cover Remove the coaxial cables from the two connectors CN150 CN200 of the TX RX unit Q9 Remove the flat cables from the two connectors CN600 CN601 of the TX RX unit Remove the 5 screws Removing the Final unit X45 375 1 2 3 Remove the cables from the connector CN702 of the control unit Remove the 2 screws holding the power module Remove the solder of the power module with a solder absorber Remove the 2 screws holding the positive terminal and negative terminal of the power supply cable Remove the 8 screws holding the final unit 6 Remove the solder of the antenna receptacle with a solder absorber Disassembly Procedure TK 5710H B Removing the upper lower case and shield cover 1 2 3 4 Remove the 12 screws and 12 spacers Remove the upper case and lower case Remove the upper packing and lower packing Q Remove the shield cover Removing TX RX unit X57 703 1 2 3 4 Remove the 7 screws Q holding the shield cover Remove the PLL shield cover Rem
170. level W N2 low level VN low level is selected The signal is A D converted the FPGA IC 1C730 DSP IC 715 and is performed demodulation The detected FM signal and the APCO signal are fed to the CODEC IC 1C724 respectively 2nd IF 450kHz 1st IF 49 95MHz 2nd Local OSC 50 4MHz Fig 4 2ndlF 3 6 Audio Amplifier Circuit The AF signal from the CODEC 724 passes through the low pass filter IC729 analog switch 1 731 and summing amplifier C742 and then it goes into the D A converter 1C738 1 732 727 732 739 ES 1 SW SW DAC SUM SW CODEC 2 TK 5710 BJ 5710H B CIRCUIT DESCRIPTION The output signal from the D A converter 1C738 passes through the amplifier C739 audio mute switch 0732 and analog switch IC727 and then it is amplified by the audio amplifier C732 1C738 742 1C731 1 2 1 729 1 2 724 Fig 5 Audio amplifier circuit 3 7 Squelch Circuit A noise component is output from the FM IC C212 desired noise signal is extracted by the band pass filter and is amplified by the noise amplifier 0208 The output signal from the noise amplifier is rectified by CONTROL UNIT X53 412 D203 RECTIFIER D203 to produce a DC voltage which is output from D203 as squelch voltage The squelch voltage goes into the ASOL terminal pin 121 of the CPU 703
171. m the drive amplifier Q151 passes through a 3dB attenuator and is fed to the power module 4 4 Final Amplifier Circuit From Power module to Antenna output TK 5710 B The transmit signal from the TX terminal CN1 of the final unit X45 375 is amplified by the power module IC2 The signal amplified by the power module passes through the antenna switch D1 D12 D3 and D11 CM coupler and low pass filter then it is fed to the antenna CM coupler is a line for detecting forward wave and reflected wave Forward wave is detected by 05 and is converted into TX CN1 FINAL UNIT 45 375 Drive rive Q151 D435 0150 T R 3dB POWER SW Attenuator MODULE Fig 8 Drive amplifier circuit DC voltage The converted DC voltage is fed to the APC comparator IC1 and is compared with the PC voltage then is output from the OUT B terminal pin 7 of IC1 as an APC voltage The APC voltage controls the gate voltage of the power module 2 and keeps transmission output stable If an abnormal antenna load is connected reflected wave is detected by D6 and output voltage DC voltage is fed to the APC comparator IC1 The transmission output is reduced more as this DC voltage rises 0 4 Fig 9 Final amplifier circuit 5710 TK 5710 BJ 5710H B CIRCUIT DESCRIPTION 4 5 Final Amplifier Circuit From Power module to Antenna output TK 5710H
172. n alert L Relay off H Relay on GND connection PTT output for scrambler board L PTT on H PTT off VGS enable L Enable Low H Enable High VGS USEL L 19200bps H 115200bps VGS reset L Reset Low H Reset High Output enable control input Shift Register Port Name BU40 Power supply input 5V 94 Control unit 1 717 Function STRB2 Latch clock input Rising edge DAT Serial data input CLK Serial clock input Rising edge BC1 BC4 Scrambler code 1 4 L Off H On VSS GND NC No connection AC Scrambler on off L On H Off BUSY Channel busy L Busy H Not busy EMG Emergency on off L On H Off PTOA PTT output for ANI board L PTT on H PTT off SOE Output enable control input VDD Power supply input 5V Shift Register BU4094BCFV TX RX unit IC600 Port Name Function STRB3 Latch clock input Rising edge DAT Serial data input CLK Serial clock input Rising edge VCO 1 2 VCO 1 VCO 2 switching 2 1 STR TX VCO RX VCO switching L TX H RX 8RC 8R control L Off H On 8TC 8T control L Off H On VSS GND NC No connection WN1 CF 1st stage W N switching Wide H WN1 H WN2 H VN WN2 CF 2nd stage W N switching Narrow L WN1 L WN2 H
173. ng options with only the transceiver body without panel YES Are you using the remote kit See page 11 Please refer to the KCH 14 15 service manual B51 8728 00 for serving information such as circuit diagram parts list and etc KCH 14 Basic model Front panel kit Are you using the printed keytops See page 11 Supplied accessory keytops See page 11 Please refer to the KCH 14 15 service manual B51 8728 00 for serving information such as circuit diagram parts list and etc KCH 15 Full featured model Front panel kit NO NO Transceiver programming KCT 23 DC cable YES Are you using the voice guide amp storage unit VGS 1 Are you using the external speaker YES KES 5 or KES 6 NO Option Are you using the keypad microphone 1 Install the front panel kit controller directly on a radio to operate it Form Radio KCH 14 15 2 Remotely control one radio with one controller Form Radio KRK 5 KCH 14 15 KCT 22M M2 M3 3 Remotely control one radio with two controllers Form Radio KRK 6DH KCH 14 15 two KCT 22M M2 M3 two Frequency range RF power 136 174MHz 5710 136 174MHz 110W TK 5710H B K Are you using one radio with two controllers Are you using one radio with one controller YES See page 12 Please refer to the KRK 5 6DH service manual B51 8445 20 for serving information s
174. nverter C739 OP AMP RX audio C740 OP AMP Front end tune C741 Voltage regulator RTC5V C742 OP AMP Summing AMP C743 Analog switch DS Q700 Transistor Buffer AUXO1 Q701 Transistor Buffer AUXO2 Q702 Transistor Buffer TXD2 Q703 Transistor Buffer TXD2 Q704 FET DC switch PSW Q705 Transistor DC switch SBC Q706 Transistor DC switch SBC Q707 Transistor DC switch SBC Q708 Transistor DC switch PSW D721 Zener diode Voltage protection D722 Diode Reverse current preventi D723 Zener diode Voltage protection D724 Diode Reverse current preventi D725 Zener diode Voltage detection D726 Diode Voltage protection D727 728 Diode TX AGC detection D731 732 Zener diode Voltage protection D734 Diode Surge absorption D735 Zener diode Voltage protection D736 Varistor Surge absorption D737 Zener diode Voltage protection D738 742 Varistor Surge absorption D743 744 Diode Voltage protection 35 TK 5710 B 5710H B COMPONENTS DESCRIPTION TX RX unit X57 7030 10 Ref No Part name Description C204 OP AMP 1 205 207 Multiplexer 1 209 211 Multipl
175. o connection GND Echo PTT CN783 to Accessory 9 pin connector NC No connection Ignition sense input Scramble code signal output 4 L amp 0 4V Hz4 6V load GND Horn alert signal output 1 1A max 71 TK 5710 BJ 5710H B TERMINAL FUNCTION Description Description Horn alert signal output 2 1A max BTL output for external speaker B PA Chip select of shift register 3 BTL output for external speaker B PA Clock input BTL output for external speaker A Enable of shift register 3 BTL output for external speaker A Data input Remote speaker switch Common 8V Display unit CN1 Remote speaker output Modulation and frequency control signal for Remote speaker output Modulation signal for VCO Switched B TK 5710 B 13 6V TK 5710H B 13 4V Switch of ceramic filter H Wide L Narrow Ignition sense input EP Enable of PLL Power switch control signal input UL Lock detection of PLL TX data output RX data input L2FT Tuning Frequency of 2nd local Remote head 1 or head 2 signal output PCS Chip Select of potentiometer Reset signal output FTEMP1 Final unit temperature 1 O GND FTEMP2 Final unit temperature 2 MIC signal input Control voltage
176. oA NC EMG E 2 lt 10 17 NC NC E 5C SToN ATXI TCoNT lt IC702 18 26 a NURE NC AINH AUX i o NC NC NC NC NC 8C dom GRY SCRAMBLER 5 5MD 1 B BC BC2 LOK PTS ECHo NC 10 NC NC E 5C NC NC NC z 18 26 NC NC AC TXo RXEo RXEi STXi BC3 8C 109 TK 5710 BJ 5710H B LEVEL DIAGRAM 410001 esn uonoes JH eui 9 9 JY BY 199uuoo uonoes Jy eu U sjueuJeJnseeuiJ GOW 18 AAC ZHAE indu JIN eui 0 39 S DY c c 2 1 121 140 OSLO 190 910 85 91 58 91 6221 4401 61 21 61 21 ODA XL ova lt 23802 DIN INV io MOLL ugpZzL ugpg d dAuzgg 4 4 87 d dAgg z d dAW9LL d dawz 72 4 LINN TYNI ep LINN XH X L ep LINN 10H1NO2 ep SL v HO LINN 01 4 41 c c 21 221 140 OSLO 190 970 85 91 58 91 62 21 4401 61 21 61 21 lt lt OA XL ova lt lt
177. of VCO 1 0 MIC GND Description E GND CN601 to TK 5710 B or TK 5710H B Final unit CN9 PC TX power control voltage E GND 8T 8V output during transmission 8T 8V output during transmission CN150 to TK 5710 B Final unit CN1 FTEMP1 Final unit temperature 1 TX drive output for TK 5710 B 152 to TK 5710H B Final unit CN1 TX TX drive output for TK 5710H B CN200 to TK 5710 B or TK 5710H B Final unit CN2 FTEMP2 Final unit temperature 2 Description RX RX signal input CN201 for BPF Adjustment No connection BPFout BPF output GND CN202 fo r MCF Adjustment Serial data input 2 RS 232C level 30V max L lt 0 4V Hz2 AV ZizbkQ MCF input GND TXD2 Serial data output 2 RS 232C level L amp 5V Hz5V load 7 lt 2 CN203 fo r MCF Adjustment MCF output GND to Control unit CN782 AUX 0 9 Auxiliary input output 9 FPU selectable Active Low with 47kQ pull up to 5V L lt 0 8V Hz4 2V GND Tuning voltage signal input for RX BPF RSSI signal output Analog squelch signal output GND Data signal input Zi210kQ Deviation 6096 deviation or more at 1kHz 2Vp p Frequency response 3 3dB 20 2 9 6 2 0dB 1kHz 60 dev
178. omponent Isolate this with a capacitor or transformer as shown in the figure Test cable for speaker output Test cable for microphone input MIC connector Front view 1 Q Crimp terminal E23 0613 05 as 2 GRY SB To AG WHT H 3 MICG Shield 1 2 3 m Ser SW 6 7 8 TRD 5 BLK 40 5W KVL E To SP 9 AF a 10 PTT Distortion lt 11 NC meters 12 ES2 Cable for BPF or MCF adjustment E30 3418 05 for BPF ADJ 05 1000 00 for MCF ADJ 220y 16V 60 Common Section Item Condition Measurement TK 5710 BJ 5710H B ADJUSTMENT Adjustment Test equipment Terminal Parts Method Specifications Remarks 1 Setting 1 Connect the front panel kit KCH 14 or KCH 15 to the TK 5710 B 5710H B transceiver 2 Power supply voltage TK 5710 B Power input connector 13 6V TK 5710H B Power input connector 13 4V 3 SSG standard modulation Wide MOD 1kHz DEV 3kHz Narrow MOD 1kHz DEV 1 5kHz 2 Assist Panel tuning model Change the voltage 1 Adj item VATX 1X Adjust 2 Adj item L VATX adjustment value within the limit of the specified LC VATX IC VATX CH VATX H VATX Adjust PTT ON Press PF5 to store the adjust ment value after adjustment eRX Upper 3 Adj item VARX ul Adjust 4 Adj item L
179. on NC No connection NC No connection NC No connection 8C 8V ANI board OOOOOO Fig 7 1 ANI board ex Voice scrambler 3M double coated cushion board No 4008 or No 4408 Connector type Ce Voice scrambler Q board Lead wire type 3M double coated cushion No 4032 or No 4432 25 x 25 mm 3M double coated cushion No 4008 or No 4408 25 x 25 mm 8 External Speaker KES 5 6 Option The speaker output from the transceiver is as follows The KCH 14 has a built in speaker 3W 8 ohms The KCH 15 does not have a built in speaker 3 The external speaker output from the accessory connector 9 on the rear of the transceiver is 13W A ohms Use the KES 5 or KES 6 4 The speaker output from the accessory connector 12 pin the rear of the control head is 2W 4 ohms If the remote kit 5 KRK 6DH is used use the KES 5 or KES 6 Ky Note Since the transceiver uses a BTL audio amplifier do not ground the speaker output pin 8 1 Connecting the KES 5 6 external speaker to the transceiver When taking the AF output from the accessory connector 9 pin on the rear of the transceiver The following tools are required for changing the connector Extracting tool The following extracting tool is recommended Molex Inc Order No 11 03 0002 1 Remove the short plug from the accessory connector 9 pin on the rear of the transce
180. one deviation Wide Single Tone 1633Hz Single tone deviation Narrow Single Tone 1633Hz 2nd local frequency RX Front end AF unmute RSSI Reference Wide RSSI Reference Narrow 855 120dBm Wide RSSI 120dBm Narrow co RSSI 70dBm Wide c RSSI 70dBm Narrow Squelch Threshold 1 Wide AF unmute Squelch Threshold 1 Narrow AF unmute Squelch Tight 9 Wide AF unmute Squelch Tight 9 Narrow O1 AF unmute 57 TK 5710 BJ 5710H B ADJUSTMENT 58 Flow Chart P 1 1 1 1 1 P 1 1 1 1 m 1 P m1 1 P m 1 P 1 1 m 1 P m1 1 P m1 1 P m1 1 PF1 P m1 1 P 1 P m1 1 TDE41 Not ctorad PF1 Not stored TX V assist Not stored PF2 Not stored Not stored PF2 Not stored RX V assist Lower E Not stored PF2 Not stored Not stored PF2 Not stored 79 e Wide High power Not st
181. ored PF2 Not stored Low power HS Not stored PF2 Not stored Balance Not stored PF2 Not stored Balance ES Not stored PF2 Not stored FM MAX deviation Prs Not stored PF2 Not stored FM MAX deviation Prs Not stored PF2 Not stored APCO High deviation PFs Not stored PF2 Not stored PF5 Y MIC Sensitivity Not stored PF2 OT deviation Not stored OT deviation Not stored DOT deviati 9 o mis m Not stored Not stored DOT deviation E Not stored PF2 Not stored DTMF deviation Not stored PF2 Not stored PF5 Stored DTMF deviation PF2 Not stored Not stored PRIUS PF5 Stored MSK deviation PF2 Not stored Not st PF5 Stored MSK deviation PF2 Not stored Not stored PF5 Stored Single tone deviation PF2 Not stored Not stored PF5 Stored Single tone deviation PF2 Not stored Not stored xb PF5 Stored 2nd local frequency Wide Not stored PF2 RX Front end Not stored PF2 Not stored Not stored PF2 Wide Narrow Not stored Wide Not stored PF5 Stored PF5 Not stored Not stored 5 reference adjustments Not stored 5 reference adjustments Not stored Not stored 5 reference adjustments Stored Not stored 5 reference adjustments Not stored 5 reference adjustments Not stored 5 reference adjustments Not stored 5 reference adjustments N
182. ot stored 5 reference adjustments Not stored 5 reference adjustments Not stored 5 reference adjustments Stored Not stored _ 3 reference adjustments 3 reference adjustments Not stored 3 reference adjustments ot stored 3 reference adjustments Not stored 5 reference adjustments level level level level level level level level level level level level level level level 3 reference level PF1 Not stored adjustments 3 reference level adjustments exit 5 reference level PF1 Not stored PF1 Not stored La PF2 Not stored PF5 Stored Center PF2 Not stored PF5 Stored High PF2 Not stored GRPV GRPV GRPV PF5 Stored Go to 3 or 5 reference level adjustments of the next adjustment item PF1 Not stored adjustments 5 reference level adjustments exit PF1 Not stored PF1 Not stored PF1 Not stored PF1 Not stored La L ot stored Stored o 2 5 2 ot stored Stored Center 2 5 ot stored Stored High ot stored Stored PF2 High ot stored x 0 PF5 Stored Go to 3 or 5 reference level adjustments ofthe next adjustment item
183. ove the coaxial cables from the two connectors CN152 CN200 of the TX RX unit Q9 Remove the flat cables from the two connectors CN600 CN601 of the unit Q9 Remove the 5 screws TK 5710 BJ 5710H B DISASSEMBLY FOR REPAIR Removing the Final unit X45 376 1 2 3 Remove the cables from the connector CN702 of the control unit Remove the 2 screws holding the power module Remove the solder of the power module with a solder absorber Remove the 4 screws holding the two final transistors Remove the 2 screws holding the positive terminal and negative terminal of the power supply cable Remove the 16 screws holding the final unit Remove the solder of the antenna receptacle with a solder absorber 21 TK 5710 BJ 5710H B DISASSEMBLY FOR REPAIR Disassembly Procedure TK 5710 B 5710H Removing the Control unit X53 412 1 4 5 Remove the 7 screws 2 3 Remove the shield plate With a flat head screwdriver remove the 2 flat springs holding the ICs 1C706 IC732 Remove the flat cable from the connector CN782 Remove the cables from the two connectors CN728 CN783 Removing the accessory cable and power supply 1 cable on the rear of the transceiver Confirm the following contents The screws holding the positive terminal and negative terminal
184. p of an IBM PC for programming Fig 1 5 2 Connection procedure 1 Connect the transceiver to the personal computer with the interface cable When the POWER switch on user mode can be entered immediately When PC sends command the transceiver enter PC mode and PROGRAM is displayed on the LCD When data transmitting from transceiver the red LED is lights TK 5710 B 5710H B REALIGNMENT When data receiving to transceiver the green LED is lights Note The data stored in the personal computer must match Model Name and Market Code when it is written into the EEPROM and flash memory 5 3 KPG 43 description PC programming interface cable Option The KPG 43 is required to interface the transceiver to the computer It has a circuit in its D sub connector 25 pin case that converts the RS 232C logic level to the TTL level The KPG 43 connects the microphone jack of the trans ceiver to the computers RS 232C serial port 5 4 Programming software KPG 95D description The KPG 95D is the programming software for the trans ceiver supplied on a CD ROM This software runs under MS Windows 98 ME Windows 2000 or XP on an IBM PC or compatible machine The data can be input to or read from the transceiver and edited on the screen The programmed or edited data can be printed out It is also possible to tune the transceiver 6 PC Tuning Mode When making adjustment while in PC tuning mode modify the KPG
185. parts Fig 3 1 2 3 2 Installing two KRK 6DH rear panels onto two front panel kits Install each KRK 6DH rear panel onto each front panel kit as same as 2 2 Install the KRK 5 rear panel onto the front panel kit described on page 13 3 3 Control cable KCT 22 connection Fig 3 2 1 Use two control cables Insert one connector of the one control cable to the transceiver with KRK 6DH and the other to the display 1 Insert one connector of the other control cable to the transceiver with KRK 6DH and the other to the display 2 Connect each cable to the GND terminal with the screws supplied with each control cable 2 Secure the one connector of each control cable to the KRK 6DH main panel with two screws according to the installation condition of the transceiver Pass the control cables through the grooves at both ends of the KRK 6DH main panel and secure the control cables to the KRK 6DH with the cable fitting J21 4354 04 and two screws supplied with the KRK 6DH 3 Secure the other connectors of the control cables to the display 1 and display 2 with two screws in the same way TK 5710 BJ 5710H B INSTALLATION Transceiver KRK 6DH main panel 4 Ignition Sense Cable KCT 18 Option The KCT 18 is an optional cable to use the following functions Ignition function The ignition function allows you to turn the transceiver s power on and off with the ignition key of your car When you are dri
186. put ZoS1kQ PA MIC signal output 0 65Vp p typ 1kHz 5mV input RX RX low level output at 1kHz 60 deviation 53dBm Wide 1 3Vp p typ Narrow 1 1Vp p typ O O O OO O BTL output for external speaker B PA 2 4 5 6 7 8 9 GND Accessory 12 pin connector Remote kit Description Ignition sense input Switched B TK 5710 B 13 6V415 TK 5710H B 13 4Vx 1590 GND GND Detected signal output ZoS600kQ 500mVp p at 1kHz 60 deviation 53dBm Frequency response 0dB 1kHz 60 deviation Wide 20Hz 4 8kHz 1 6dB 4 8kHz 8 5kHz 1 24dB Narrow 20Hz 4 8kHz 1 15dB Auxiliary input output 5 FPU selectable Active Low with 47kQ pull up to 5V MIC signal input 60 deviation at 1kHz 5mV 2mV input MIC GND Auxiliary input 1 FPU selectable Auxiliary input 2 FPU selectable Auxiliary output 1 FPU selectable Open collector 500 max Auxiliary output 2 FPU selectable Open collector 500 max LS0 8V Hz4 2V Auxiliary input output 4 FPU selectable Active Low with 47kQ pull up to 5V S0 8V H24 2V Auxiliary input output 3 FPU selectable ive Low with 47kQ pull up to 5V S0 8V Hz4 2V iliary input output 2 FPU selectable ive Low with 47kQ pull up to 5V DV Hz4 2V iliary input output 1 FPU selectable ive Low with 47kQ pull up
187. s or KCH 15s with two optional control cables There are three version of the control cable KCT 22M 8 feet KCT 22M2 17 feet and 22 3 25 feet 3 1 Installing the KRK 6DH main panel onto the transceiver 1 Remove the upper case and lower case of the trans ceiver 2 Insert the lead wire with connector W700 of the control unit X53 412 into the connector CN4 of the KRK 6DH Insert the lead wire with connector W104 of the KRK 6DH into the connector CN724 of the transceiver 3 Install the KRK 6DH main panel on the transceiver using four screws Note Take care that the lead wire with connector W700 is not caught when fitting the KRK 6DH main panel on the transceiver 4 Affixing the sheet G11 4379 04 for the waterproof Fig 3 1 2 1 Remove the covering paper of the sheet 69 2 Affix the sheet while taking note of the position of the three parts as shown in Fig 3 1 2 6 Firmly affix the sheet to the chassis by pushing the double coated tape with your fingers 3 Repeat step 2 to affix the sheet to the other side of chassis Note The sheet cannot be reused Affix a new sheet when you removed the sheet 5 Reassemble the upper case and lower case of the transceiver Refer to page 24 Note Take care that the sheet G11 4379 04 is not peeled off when installing the upper lower case KRK 6DH main panel Affix the sheet while taking note of the position of the three
188. sis and tighten that all corners of the upper lower packing are securely the screws in the order shown in the figure below fitted to the chassis Place are shown in the arrow in the figure below Case packing Upper Upper case TK 5710H TK 5710H 5710 5710 y 16 d E AELIAN iL 4 e L x EN E 3 A OOO A O L4 A of coro O L4 o o9 o t t uj wt Um Lut wu Case packing Lower Lower case TK 5710H TK 5710H ml x 5710 5710 Al lec N R At lecce R o LU LU qme OO LU
189. t on off On OS KCH 14 icon appears On OST KCH 15 icon appears Function off MIC PTT Transmit MIC keypad 0 to 9 and Function off TK 5710 BJ 5710H B ADJUSTMENT LED indicator Test Signaling Red LED Lights during transmission Green LED Lights when there is carrier None None LCD display in the panel test mode Nona 100Hz Square wave W Wide OT 67 0Hz OT 67 0Hz N Narrow E 151 4Hz 151 4Hz QT 210 7Hz 210 7Hz W QT 254 1Hz QT 254 1Hz DOT 023N DOT 023N DOT 445N DOT 445N DOT 7541 DOT 7541 DTMF Code 1590 DTMF Code 1590 Channel No Signaling No None DTMF Code 9 Filter Mode None 1633Hz Single Tone Display Condition 008 304 7Hz A 304 7Hz WIDE 25kH2 Filter B 3106 0Hz B 3106 0Hz NARROW 12 5kHz Filter 2 Single Tone 979 9Hz Single Tone 979 9Hz 12 5kHz Filter None MSK PN Pattern MSK MSK Frequency and Signaling Sync 0 0528 Sync 0 052 The transceiver has been adjusted for the frequencies Data 0x230960C6AAAA Data 0x220960C6AAAA shown in the following table When required readjust them CRC 0xC4D7 CRC 0xC4D7 following the adjustment procedure to obtain the frequencies you want in actual operation AC 293 NAC 293 AC 023 NAC 023 Test Frequency AC 5EA 1011Hz Tone Test P
190. tc Realign the transceiver after replacing the EEPROM Real time clock The clock function is based on real time clock IC 700 When the power supply is off it is backed up by an internal secondary lithium battery Fig 12 Memory circuit 1 725 1 725 701 1703 9 216MHz 2 3 3 3 1 721 1 3 CPU IC715 9 216MHz DSP 1C730 18 432MHz FPGA Ww 18 432MHz 18 432MHz Fig 13 Clock diagram 6 2 Temperature Detection Circuit The temperature detection circuit detects the temperature using a temperature IC 1C702 and corrects the thermal characteristic change of the squelch 6 3 DSP The DSP circuit consists of a DSP 715 a CODEC IC 724 and processes the base band signal The DSP IC op erates on an external clock of 9 216MHz the same as the CPU the section operates at 3 3V and the core section operates at 1 5V The DSP IC carries out the following pro cesses CAFM encoding Analog FM pre emphasis de emphasis e Vocoder IMBE processing between audio codec and modulation demodulation CAI processing such as error correction encoding QT DQT encoding decoding DTMF encoding decoding MSK encoding decoding 2 tone decoding Compressor expander processing Transmit receive audio filtering processing Microphone amplifier AGC processing Audio mute processing Modulation level processing 6 4 FPGA The FPGA IC 1 730 I O section operates at 3 3V and
191. than 700 are not supplied TK 5710 BJ 5710H B EXPLODED VIEW TK 5710H B LO LO O O O O OT TET SPS S S KO CO EH coos Po H TAUNT 00 OG X lt lt m O u iu QI 51 Parts with the exploded numbers larger than 700 are not supplied 5710 5710 PACKING TK 5710 B E 50 INNER CARTON CASE H02 0626 04 63 SCREW SET N99 0365 05 25 a Es SHORT PLUG SP E37 0733 05 705 PAMPHLET 38 SHEET G11 4379 04 x2 10 INSTRUCTION MANUAL B62 1816 10 c 52 PACKING FIXTURE H12 3183 02 2 707 PROTECTION BAG 51 PACKING FIXTURE H12 3176 02 SS 52 PACKING FIXTURE H12 3183 02 3 57 ITEM CARTON CASE H52 2074 02 52 Parts with the exploded numbers larger than 700 are not supplied TK 5710 BJ 5710H B PACKING TK 5710H B G 50 INNER CARTON CASE H02 0626 04 63 SCREW SET N99 0365 05 22 a SE SHORT PLUG SP B 706 PAMPHLET 38 SHEET E37 0733 05 G11 4379 04 x2 10 INSTRUCTION MANUAL B62 1816 10 AS 53 PACKING FIXTURE H12 3185 02 708 PROTECTION BAG 51 PACKING FIXTURE H12 3176 02 53 PACKING FIXTURE H12 3185 02 58 ITEM CARTON CASE H52 2073 02
192. the section operates at 2 5V The FPGA IC has the following function Demodulation CAFM COPSK e Shift register SCH Level convert Buffer amplifier bV3 3V 9CH Generates 1 536MHz for the demodulation and CODEC 7 Power Supply Circuit The voltage is always applied from 0719 protects C705 DFF against overvoltage Pulses from power switch are fed to the 1 705 clock line and the CPU 703 These clock pulses reverse the output from High The transceiver is turned OFF to Low The trans ceiver is turned ON but it does not reverse the output from Low to High The CPU IC703 output the pulse to the S2 SET2 terminal pin 8 of 705 to reverse the output from Low to High IGN is connected to the R2 RESET2 terminal pin 10 of C705 and the CPU IC703 When the 705 reset voltage is increased the output changes to Low The transceiver is turned ON When IGN voltage is decreased the CPU 703 output the pulse to the S2 terminal pin 8 of C705 to reverse the output from Low to High after the programmed time ex pires Timed power off function If 24V is supplied to the transceiver by mistake O707 turns on Q710 turns off the power is forced to be turned off This circuit consists of 1C706 8V 707 5V 708 3 3V 1 710 3 3V IC711 2 5V and 709 1 5V D723 1C703 AVR CPU 0728 Sw 0704 SW IGN PSW Fig 14 Power supply circuit 31 TK
193. the display shows 500000 Select a filter Refer to Filter Mode described on page 55 Select a test frequency Refer to Test Frequency de scribed on page 55 Adjustment Points O CN10 FINAL UNIT X45 3750 10 TK 5710 B Component side VR1 CN2 RX CNA GND CN3 FINAL UNIT X45 3760 10 TK 5710H B Component side REV FWD vso E VR1 o O Vgc 8T O O CN1 TX CN10 CN2 Measure the BER Bit Error Rate using the digital radio tester Enter a standard input signal into the transceiver as a standard tone test pattern Adjust the input signal level to achieve the standard bit error rate BER For example if the BER is 596 the display shows 050000 APCO Deviation Adjustment 2 The transceiver adjusts the deviation between High Devia tion 1800Hz for the CAFM The Symbol Rate Pattern is used when adjusting the High Deviation for the C4FM Refer to Test Signaling described on page 55 This test signal has a peak devia tion equal to 1 2 1800Hz 2827Hz OCLKC O 32K OUT CONTROL UNIT X53 4120 10 Component side CN152 o o L223 CN150 TX 1222 TX RX UNIT X57 7030 10 cC Component side C
194. tification Diode Surge absorption Diode Protect of reverse connection Diode Combiner Diode ANT switch Part name Description IC TX drive AMP IC DC AMP and APC comparator Final AMP Zener diode Protect of voltage Diode Forward wave rectification Diode Reflected wave rectification Diode ANT switch Diode Surge absorption Diode Protect of reverse connection Diode Combiner capacitance di D414 416 Variable Frequency contro capacitance di D420 422 424 iable Frequency contro itance di D427 432 iable Frequency contro itance di 36 PARTS LIST TK 5710 BJ 5710H B CAPACITORS CC 45 TH 1H 220 J Color Capacitor value 12 3 4 5 6 SE 010 1 2 2 0 22pF 1 ceramic electrolytic etc 4 Voltage rating 100 10pF E Multiplier 2 Shape round square e
195. tments LCD display in the panel tuning mode W Wide N Narrow A APCO 4 VATX e Adjustment value 1 256 Key operation Key Function Selector Unused GRPa Exit the panel tuning mode and shift to the panel test mode GRPv Exit the 3 or 5 reference level adjustments without backup PF1 Back to the last adjustment item The current adjustment data is cleared PF2 Go to the next adjustment item The current adjustment data is cleared PF3 Adjustment value down PF3 Hold Adjustment value continuation down Adjustment value up PF4 Hold Adjustment value continuation up PF5 Enter the 3 or 5 reference level adjustments without backup MIC PTT Transmit B 3 or 5 reference level adjustments frequency Assist vol TX assist vol Tuning point tage adjustments tage Display TX MHz Low L 136 00000 Low LC 145 50000 Center C 155 00000 High CH 164 50000 High RX assist voltage Upper Tuning point H 174 00000 Display RX MHz Low L 204 95000 Low LC 209 70000 Center C 214 45000 High CH 219 20000 High RX assist voltage Lower Tuning point H 223 95000 Display RX MHz Low L 185 95000 Low LC 190 70000 Center C 195 45000 High CH 200 20000 High
196. to 5V Lx0 8V Hz4 2V MIC GND 13 0000000000000 0900000000000 2 _ A Remote speaker output Remote speaker output No connection 73 1 F G H J a c p E 5710 5710 Pc BOARD FINAL UNIT X45 3750 10 TK 5710 B Component side view J72 0944 09 2081 FINAL UNIT X45 3750 10 TK 5710 B Foil side view J72 0944 09 J K L M N o P R 5 Pc BOARD K 5710 B b710H B FINAL UNIT X45 3750 10 TK 5710 B Component side view J72 0944 09 2 Component side Layer 1 Layer 2 Layer 3 Layer 4 Foil side FINAL UNIT X45 3750 10 TK 5710 B 8 Foil side view J72 0944 09 Be Eo i x SS Ds uo we EL r 12 Component side Layer 1 Layer 2 o Layer 3 13 Layer 4 Foil side 75 G PE amp TK 5710 B 5710H B Pc BOARD FINAL UNIT X45 3750 10 TK 5710 B Component side view J72 0944 09 FINAL UNIT X45 3750 10 TK 5710 B Component side view J72 0944 09 FINAL UNIT X45 3750 10 TK 5710 B Foil side view J72 0944 09
197. uch as circuit diagram parts list and etc KRK 5 Single control head remote kit Option See page 14 Please refer to the KRK 5 6DH service manual B51 8445 20 for serving information such as circuit diagram parts list and etc KRK 6DH Dual control head remote kit Option KCH 14 KCH 14 KCH 15 KCH 14 KCH 15 KCH 15 See pages 13 and 14 KCT 22M M2 M3 Control cable See page 5 A personal computer IBM PC or compatible programming interface KPG 43 and programming software KPG 95D are required for programming The frequency and signaling data are programmed for the transceiver 23 M M3 TK 5710 B 23 M2 M4 TK 5710H B See page 16 Option See page 17 YES Option Desk top microphone KMC 9B Service manual parts list Model Parts No B51 8445 20 851 8728 00 KRK 5 6DH KCH 14 15 1 Modes Mode programming mode TK 5710 BJ 5710H B REALIGNMENT Panel tuning mode Data programming mode PC tuning mode Function User mode For normal use Panel test mode Used by the dealer to check the fundamen al characteristics Panel tuning mode Used by the dealer to tune the transceiver PC mode Used for communication between the ransceiver and PC IBM compatible Data programming mode Used to read and write frequency d
198. ure the additional wire is sufficient for the current to be carried and length of the added lead 5 INSTALLATION PLANNING CONTROL STATIONS 5 1 Antenna system Control station The antenna system selection depends on many factors and is beyond the scope of this manual Your KENWOOD dealer can help you select an antenna system that will best serve your particular needs 5 2 Radio location Select a convenient location for your control station radio which is as close as practical to the antenna cable entry point Secondly use your system s power supply which supplies the voltage and current required for your system Make sure sufficient air can flow around the radio and power supply to allow adequate cooling SERVICE This radio is designed for easy servicing Refer to the schematic diagrams printed circuit board views and alignment procedures contained in this manual NOTE You must use KPG 95D version 2 00 or later for this transceiver KPG 95D version 1 XX does not work properly TK 5710 BJ 5710H B TK 5710 BJ 5710H B SYSTEM SET UP Before Reading About System Set up The TK 5710 B 5710H B is a transceiver main unit without a panel or speaker that you complete by adding options The options are classified into three types according to operation and function Merchandise received License and frequency allocated by FCC Choose the type of transceiver TK 5710 B or TK 5710H B is complete by combini
199. ustment Deviation meter Oscilloscope AG AF VIVM eNarrow 3 Adj item N FMND Adjust 4 Adj FMND FMND NC FMND INCH FMND NH FMND Adjust PTT ON Press PF5 to store the adjust ment value after adjustment 7 APCO high deviation adjust 1 Adj item A HDVA Adjust Deviation meter filter LPF 3kHz HPF OFF 2 Adj HDVA ALC HDVA AC HDVA ACH HDVA AH HDVA Adjust PTT ON Press PF5 to store the adjust ment value after adjustment Rear panel Front panel ANT MIC jack 4 05kHz According to the large 50Hz 2 0kHz According to the large 2827Hz 2771 2883 2 8 MIC sensitivity check 64 Panel test mode 1 CH Sig 1 1 AG 1kHz 5mV at MIC terminal PTT ON Power meter Ammeter 2 75 3 25kHz TK 5710 BJ 5710H B ADJUSTMENT Measurement Adjustment Item Condition Test equipment 9 OT deviation 1 Adj OTW Power meter Rear ANT PF3 0 75kHz 50Hz adjust Agjust Deviation panel PF4 eWide Deviation meter filter meter LPF 3kHz Oscilloscope Front MIC jack HPF OFF AG panel 2 Adj item WL QTW AF VIVM OTWI IWH Agjust PTT ON Press PF5 to store the adjust ment value after adjustment eNarrow 3 Adj item N 0 35kHz Agjust 4 Adj
200. ving with the ignition key on the horn alert function is disabled Timed power off function The timed power off function turns the transceiver s power off the time specified with the programming software KPG 95D after the ignition key is turned off When you are driving with the ignition key on the horn alert function is disabled The ignition sense function and the timed power off function can be used at the same time 4 1 Connecting the KCT 18 cable to the transceiver 1 Remove the short plug from the accessory connector 9 pin on the rear of the transceiver 2 Insert the KCT 18 lead terminal into pin 1 IGN of the short plug 9 pin 3 Connect the short plug to the accessory connector 9 pin on the rear of the transceiver Note You must setup using the KPG 95D 4 2 Connecting the KCT 18 cable to the KRK 5 6DH remote kit 1 Remove the square plug from the accessory connector 12 pin on the rear of the control head 2 Cut off the end of the rubber cap accessory insert the KCT 18 lead terminal into the rubber cap and insert it into pin 1 IGN of the square plug 3 ov ident 4 gt A 25 E 3 Connect the square plug and rubber cap to the accessory connector 12 pin on the rear of the control head then clamp the bottom of the rubber cap with the supplied tie wrap Note You must setup using the KPG 95D Square plug 15 TK 5710 BJ 5710H B INSTALLATION 5 Voice Gu
201. wave is detected by D3 and is converted into DC voltage The converted DC voltage is fed to the APC comparator 2 and is compared with the PC voltage then is output from the OUT B terminal pin 7 of IC2 as an APC voltage The APC voltage controls the gate voltage of the power module IC1 and final amplifier 01 02 and keeps transmission output stable If an abnormal antenna load is connected reflected wave is detected by 04 and output voltage DC voltage 15 fed to the APC comparator IC2 The transmission output is reduced more as this DC voltage rises CM COUPLER 4 7 Temperature Protection Circuit TK 5710H B To prevent thermal destruction of the power module IC1 and final amplifier 01 02 this circuit reduces APC voltage when temperature of the power module IC1 and final amplifier 01 02 rises The CPU IC703 detects temperature with the thermistor TH1 TH2 and controls reference voltage to the APC circuit 5 2 VCO There is two RX VCOs RX VCO 1 RX VCO 2 and a TX VCO The RX VCO 1 0413 and RX VCO 2 0414 generate a 1st local receive signal The RX VCO 1 oscillation frequency is 185 95 to 204 9475 MHz and the RX VCO 2 oscillation frequency is 204 95 to 223 95 MHz The TX VCO 0416 generates a transmit carrier The TX VCO oscillation frequency is 136 to 174 MHz The VCO oscillation frequency is determined by two systems of operation switching terminals STR VCO 1 2 and two systems o
202. y unlock the UL logic is low 5 5 Local Switch D435 D436 The connection destination of the signal output from the amplifier 0419 is changed with the diode switch D435 that is controlled by the transmission power supply 8T and the diode switch D436 that is controlled by the receive power supply 8R If the 8T logic is high it is connected to a transmit side pre pre drive amplifier 0150 If the 8R logic is high it passes through the local amplifier 0210 and then is connected to a receive side mixer A400 0413 0414 ASSIST 8CL T 5C 5C 0201 8R Cw DOUBLER RF AMP 0403 0418 block diagram 6 1 Memory Circuit Memory circuit consists of the CPU IC703 and a flash memory IC712 A flash memory has a capacity of 16M bits and contains the transceiver control program for the CPU It also stores the data for transceiver channels and operating parameter that are written by the FPU This program can be easily written from an external devices The EEPROM 1C701 stores the last channel data the scan on status and other parameters Flash memory Note The flash memory 1 712 stores the data that is TK 5710 BJ 5710H B CIRCUIT DESCRIPTION written by the FPU KPG 95D and firmware program User mode Test mode Tuning mode etc This data must be rewritten when replacing the flash memory EEPROM Note The EEPROM 701 stores tuning data Deviation Squelch e
203. z i R261 D 68p 100p amp 0210 0206 2 HVC131 EE 3p 27k 1 858 HVC131 p 171 0625 05 tm C267 Le 0203 548 age BPF 8p 2SC4215 Y 2 512 ora gre 5 8 T IF AMP NARROW 872 s Sis EE e CN201 2 CF203 8250 9209 SE 1 8 207 172 1018 05 e 1 211 DTC114EE ei 4 1225 d Sen TC7W53FK E TC7WS3FK 100 1 8 5 PER 134 4748 05 L34 4749 05 L34 4749 05 N 0V BUFFER 0200 202 m SI SI 4 5 02 10213 559 155 BPF CONTROL els RS mE d TC7WUOAFK 3 0V oj 5 5 3 83 DTC114EE 978 Meer 1 8 m 9317 DC SW p 0 11 2 7 eres E 330 I 4 8zS Sie 0 3 6 0 O 145V 258 DC SW T at 4 5 R268 2 DATAE 1141 L 1 MO MO MO MO MO au m m m m m mm m m um m m m m m m m m m m m m Him m un m m m m m m m m m m m m m m m m 1 5710 S 10H INTERCONNECTION DIAGRAM Note 1 91 56 0410 15 1 5 7 KVL 2 8 DM 3 9 BLC 4 MIC 10 PTT 5E 11 NC 6 TRD 12 ES2 X54 3490 20 A 3 KCH 14 X54 3500 20 A 2 KCH 15
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