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PJ5KPS - RVR Elettronica SpA Documentation Server

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1. ll 1 LIU CAE TELEMETRY CARD DRIVER EXCITER DRIVER EXCITER ole a z Ta e 9 s 9 2 se 1 2 _ gt 55 n smer d 217 e me 2 vhs m rin HEATING P P Pi PRESENCE MODULE PRESENCE MODULE A E SWITCH SVI Ai RECTIFIER mm m DE ere SEC 5 MODULI 6 85 Al 9 SERVICE TRANSFORMER d B s 164 4P 2P RECTIFIER CONNECTOR 9 164 4P 2P RECTIFIER CONNECTOR zu 35 gt D 1 3 i 3 23 3 Pee 1 1 1 MERDA ohm asw ARRAY S jo 1 9 n E PRESSURE gt CONTROL 3PHASE IER 5 Z 2 CL V 2 o B 0 zm TEMPERATURE PROBE CAMINY AIR OUTLET CSRCTPJ5KM Nome Progetto PJSKPS Diagramma del Cablaggio Pagina 1 di 1 Siz
2. 4 3 2 1 P1 MULO OAD NP 1 2 MUTE1 OC MAIN DAC OUT 3 CA23 GS Ki vpi BST ALT alt 4 ON_TST MUTE OC 1 2 805 OFF_TST 3 4 E 556305 5 ON REM 1 MUT2 04 P ime 5 8 ACK AM OC ON OFF OC 2 MUT TST Ko STDBY TST 5 6 5 216 055306 ES 9 JUMPERS 7 8 ACK_NP_0C 1 EXCT OC 47 6 15 MUTE2 Lf MIR 8 10 ACK STDBY OC ACK ON OC CA3 2127 797 STR 1 12 818 ACK PL OC ACK OFF OC DAC2 OU ela ca 16 5 Tm 95 4o 1x 2 I 1311 4 PD4 OC 13 ALR OC EM ____ gt 8 F3 055306 Lo 11 13 DI in N awo 5 8 PD 00 6 16 She 7 6 Ee 5 059306 7 16 ZFH 12V H1 12V O e e O 12V PD1 06 n PD2 OC 17 7 DAC3 OUT __1 3 EI 215 PeUP For AUD ALAM OG 2 22 WAR D Es CA15 8192 OFF REM 1 a 083 4 2 MUT C i la MUT C2 NEUE 25
3. B D E C61 412V ON 24 22 ULN2004A ae T slo BI 3 UZIA 100R 5 1 8126 015 1 16 STDBYBUS 11 OUT gt gt STDBY STDBYBUS 028 1 ULN2004A 22R 22R 22R 22R CM10KpF TL072 AV99B 15 R130 STDBY O 412V cs outa H em 42V 12V U26F 822 228 8131 R13 2 MOSI 15i 9 R134 6 11 8135 ACK STDBY OC DL6 2 15 SCLK 7 013 ACK_STDBY 4 seek 2 2 08 i ULN2004A 22R 228 ULN2004A 22R 22R alee Bs 47K 10K5 1 8138 5 U21B uzsa 24 12 0220 ULN2004A 8139 R140 CM iuF CM 1uF CM 1uF TLv5626 1 x ANAL pace OUT R142 R143 10K 4 1 104 ACK OFF OC DL7 3 14 Bu 063 E E LED D5 CM tuF p CM10KpF 11072 AV99B ULN2004A mA dl POWER 22R 22R a me 7 ni xii 4 1 _ 144 LOWER 8 0 45V 8 1 R145 8146 12V U30A 2 C87 C89 C91 4 014 8147 8148 O 4 1 164 ACK PL OC DL8 lt lt 4 D N S PL gt 2 LED D5 070 _ C71 925 CM tuF R149 1008 ULN2004A 228 cM tuF cee 087 ces ceo 084 cos 25 25 a 4 3 uzsa Rice E lt lt E E E SA1 s ours lt
4. IN GFB S V DRV 2A JP3 JP2 PWR DIR IN CHO DIGITAL FB BIAS D 1 PERR RFL IN CH1 1 2 b PWR IN_CH2 2 P FUSE 5040 IN_IN3 2 C1 3 IN CH3 7 1 in c2 d L I PAL3 IN CH4 in 100V 4 b 1 5 Py para IN_CH5 5 5 b D 6 p 6 6 D d b b VPA IN CH6 TP1 d b PWR INP IN CH2 9 7 D veras IN CH7 2 IN SWSAFE 7 E 9 LED OC 0072 Sh 8 DIN MAINS 8 IN STDBY OC OUT Q D x ub OC OUTO d b 9 9 OC ALARM TP 12V d IRIM 3 AD1 d RED LED OC OUTO OC P5040 p__TRIM T IN_AD4 b R1 27p 100V YELLOW LED OC C4 C5 10_1 4W bom GREEN LED OC OUT2 in FLAT16V b o TR OC 0013 d pd 11111 TR DIN E D OUT OC 0015 e R2 C6 D our pacs OC_ALARM IN_ON 10_1 4W 27p_100V pourwos Mos PIAZ2 INSTREY g bh INSWSAFE b D1 R3 read OUT GFB OC STDBY OC STDBY 220 dg 52 d STRIP20 STRIP20 STRIP20 TYPE POWER C7 HSMS2 R4 1 d b APLIF b 5 52800 C10 b 1n 100V C11 C12 C13 R5 20k 196 1n 100V 1n 100V 1n 100V R108 R6 R7 R8 R9 8107 20k 1 20k 196 10k 196 10k 196 10k 196 10k 196 C16 C101 1n 100V 1n 100V 62VAC 5040 CN1 d 62VAC U1B 6 TL074_SMD IN_ADO IN AD1 IN AD2 IN AD3 IN AD4 AD5 C19 ds C20 Trew d i 4 777 MA Rxx d FUSE 5040 OC P5040 INHIBIT 5040 3 017 D2 TL0
5. Appendix to the user manual 2002 R V R Elettronica SpA All rights reserved Microcontroller board SLCPUPJ5KM2 ELETTRONICA CSCPUPJ5KM2 Bill Of Materials Pagel Item Q ty Reference Part 1 17 Cl C93 C09 CT C9 CLll CLl3 CM1kpF C15 C17 C19 C21 C87 C88 C89 C99 C119 C139 2 12 C2 C4 C6 C8 C10 C12 C14 CM27pF C16 C18 C20 C85 C95 3 1 C22 27pF 4 14 23 24 27 28 33 34 1 25 49 50 53 54 104 106 118 138 5 55 25 C26 29 C30 35 C396 CM 1uF C38 C47 C48 C51 C55 C56 C59 C60 C61 C62 C63 C64 65 66 67 68 69 70 86 96 100 101 102 103 105 107 108 109 C110 C111 C112 C113 C114 C115 C116 C117 C120 C122 C123 C124 C125 C126 C127 C128 C129 C130 C131 C132 C133 6 19 C31 C32 C39 C43 C71 C72 CMAK7pF 73 74 75 76 677 78 79 80 81 82 83 84 C121 7 2 C42 C40 220 25 8 8 C41 C57 C58 C90 C91 C92 10 93 94 9 1 C44 XCP 10 2 R72 C45 X 11 252 220pF 12 C97 CP33KpF 13 C98 14 134 CB 15 2 C136 C135 CP 1uF 16 1 137 CM100PF 17 3 DL1 DL2 DL3 LED 18 2 DZ2 DZ1 5V1 1W 19 2 DZ4 DZ3 12V 0 5 20 2 DZ6 DZ5 5V1 0 5W 21 14 D1 D2 D15 D16 D17 D18 BAV99B D19 D21 D22 D23 D24 D25 D26 D27 22 10 D3 D4 D5 D6 D7 D8 D9 D11 BAT83 D12 D30 23 2 D13 D14 1N4004 24 D20 XBAV99B 25 1 D29 LM336 5 0V 26 4 FIX1 F
6. 12V o C55 Cu 100n U11A R50 D11 D12 C64 9V1SMD 9V1SMD 055310 in 97 1k 1k 1k 1k D13 D14 c65 F4 9V1SMD 9 15 DSS310 in 11 3 gt 97 1k D15 D16 C66 I 5 9V1SMD 9V1SMD 055310 in LUMBERG 6PV Appendix to the user manual 2003 R V R Elettronica SpA All rights reserved 97 12V C62 9V1SMD 9V 1SMD in 777 12V R23 4k7 R24 al D6 4k7 Q1 BC857BL R25 ej 10k 196 12VSMD R30 R31 R109 10k 1 10k 196 2k2 1 BC847BL R32 lt 10k 196 R37 R38 4k7 33k2_1 12V 12V Cl Nome Progetto PJ5000M Pagina 2 di Autore Nome PC in Rete lt Path PC gt Mauro Ucelli Data 15 12 03 Revisione 1 2 Codice Progetto lt Project Code gt Nome Parte Adattatore CPU per sezione BIAS File Cartella BiasPJSKMC Autorizzazione RF module CPU adapter bias SLADBSPJ5KPS2 Codice CSADBSPJ5KM2 OUT_MOS D 12V GND 12V B BIAS_D A 3 Size
7. D E R35 2K2 6 U14D TLP821 4 R37 9 ON REM 1 11 10 7 PB_ON T ON T U36D EE 0100 TLP521 4 R40 40106 1K5 ON_TS 9 1 7 030 STDBY REM M T J 9 8 2 47K Y CM tuF 4 1K5 Boise STDBY B3F S 40106 40106 1K5 a J 4 STDBY_TST 681 11 6 LOC SEL 1 TI E s i CM 1uF R42 2K2 5 Di REMOTE 412V a x A DLI MALA 821 PB_STDBY 2 12 5 INTERLOCK U20C 45V RAZ iK 53 1K5 LED D5 R46 247 U19A 521 4 R48 4 40106 01445 TLP5214 2 9 R49 013 SHV 729 AUS INT 16 1 AUS INT REM 4 032 o3 LOC SEI AA 4 LED DS T 50 4 B 47K CM 1uF Qa 40106 21 1K5 a SW SPDT 1K5 LOCAL LED D3 033 1 R53 2K2 CM 1uF 013 R51 R54 2K2 0150 521 4 R56 9 10 K5 RS232 U20E 1188 521 4 R58 PB OFF 4 10 1 Bo x R57 ies d 1 i te I 1 OFF TST lorr D MEET ij sg 14 3 68 9 8 2 PL REM TE d CM 1uF 4 isd ee B3F 54 FE C35 1 15 2 SEL q 41 4 ti 45V CM tuF R60 2K2 n dp av Ret 2K2 A S5 POWER U20A ani U18C TLP521 4 R64 PB_PL 11 16 1 TE LOWER F_EXCT2 1 12 5 F EXCT2 REM 47K 12 47K 40106 U14A TLP521 4 To 40106 2 V 1K5 Sao AM_TST TT TT
8. un 4 100 NIH 4 I 4 PIL ZNT T in 12 6 2 3 Emergency CCU Board SLCCUEMPJ5K2 2003 R V R Elettronica SpA All rights reserved Appendix to the user manual SLCCUEMPJBK1 Revision 1 Andrea Tommasi Griptech PJ5KPS Quantity Reference Part Description 1 1 CNO6MSTB Conn Phoenix MSTB a 6 poli 2 1 CN2 DB25MSO Connettore DB25 mas cs 90 3 1 CS1 CSCCUEMPJ5SK1 Circuito stampato 4 1 C1 220uF 35V Cond Elettr Dia 10 P5 08 5 2 C2 C3 0 1uF Cond ceramico p 5mm 6 1 47uF Cond Elettr Dia 6 5 P2 54 7 3 D1 D2 D4 1N4005 Diodo plastico DO41 8 3 D3 D5 D6 LED G3 LED verde dia 3mm Nota 1 9 2 FIX1 FIX2 FIX80 Foro fissaggio 8mm 10 1 FIX3 FIX65 Foro fissaggio 6 5mm 1 4 FIX4 FIX5 FIX6 FIX7 5 Foro fissaggio 3 5mm 12 2 F1 F2 RXE040 Fusibile autorip 7mm 13 2 JP1 JP3 5 035 Strip maschio 3 14 1 JP2 CN16PDO Connettore 16 poli Flat cs 90 15 1 OPT1 4N25 Optoisolatore DIP6 16 1 Q1 BC547 Trans NPN TO92 17 2 R4 R1 1K2 Res 1 4W 18 1 R2 10 0 Res 1 4W 19 1 R3 1K5 Res 1 4W 20 2 1 2 Test point 21 1 LM7812 Stabilizzatore 0220 22 1 5 SW1V2P Deviatore fissato nel foro e collegato tra TP1 2 chiuso pos Con blocco della levetta E la levetta lato saldature Nota1 lledvanno montati lato saldature a
9. Dm TY Coto 00 5 1 4010 R10 H8 lt B8BSBESHSHSHSHSBSHSBSBSHSHBESBSBSHSHSHSHSHSH BEzHZH2BSBzB2HEHPHTHPHSHEHZHZHEHSHEHSHSH 8 TM R127 R125 R130 155 a i cu I R108 FID1 eH 88 H2 zHSHSBSBSBHesHeBzBeBgH eH B HSHZBZHZHZHSH2HPHEHEBHZBZHZHZH2B8ZHZHZBZBSHZBEHZBEHEBEHEZHEHSHSBHBSH Appendix to the user manual 2002 R V R Elettronica SpA All rights reserved Nome Progetto Autore Nome PC in Rete File Cartella Scala lt gt JP1 PJSKPS Schedo CPU Griptech Rev Conozzo Doto 07 10 2002 NNUT Revisione 1 0 DC PJSK CPU MNT DWG Moteriole lt gt Trattamento lt gt Microcontroller board SLCPUPJ5KM2 Autorizzazione Pagina 1 di 1 Codice Progetto lt gt Nome Parte Scheda CPU Codice SLCPUPJSKMe Profilo lt gt Size A4 m m m 5 n gt ELETTRONICA PJ5KPS N_CHO CHO PWR_DIR_A PWR_DIR_C ci CM1kpF R16 R21 IN CH5 CH5 I PLALA A PWR SIB N41 C11 CMikpF 87W 20K R41 IN CH10 CH7 P 87W 20K R6 CM27pF CM27pF I PLAL1 A R42 TEMP ARIA C 021 27pF CM1kpF R44 87W 20K FIXI FIX2 FIX8 FIX4 5 5 FIX35 EIX35 JP3 JP2 R2 N CHI R7 PWR_RFL_C CM
10. V ly 9 2 3 RF Amplifier module SLO42RF 1001 Appendix to the user manual 2002 2006 R V R Elettronica SpA All rights reserved ELETTRONICA FINALE PJ1000 6U Revised 03 10 2005 5 5 Revision 1 1 SL042RF1001 Gasperini Luca Item Quantity Reference Part description 1 1 C1 150 pF Cond SMD 1212 HQ CHQ151JA301A 2 1 C2 56 pF Cond SMD 1212 HQ CHQ560JA501 3 10 C3 C4 C11 C12 C13 C14 C15 C16 C17 C18 470 pF Cond SMD 1212 HQ CHQ471JA201 4 6 C5 C6 C7 C8 C19 C22 1 nF Cond SMD 0805 CCC085102JNC 1 C9 1nF Cond SMD 1212 HQ CHQ102JA151A 6 1 C10 100 nF 100 V Cond ceramico multistrato p 5mm CMS104MC101 ve 1 C20 680 nF Cond SMD 2824 CPE684K1010 8 1 C21 470 nF Cond SMD 0805 CCC085474KXB 9 C23 4 7 Cond SMD 0805 CCC085472KXC 10 1 D1 6V8 1 W MINIMELF SMD Zener Diode DIZ6V8MELF 11 3 D2 D3 55 4004 MELF SMD Diode 12 6 FIX1 FIX5 FIX6 FIX9 FIX10 FIX11 FIX35 Foro fissaggio 3 5mm 13 5 FIX2 FIX4 7 FIX8 FIX60 Foro fissaggio 6mm O 14 1 FST1 FASTON VERT 15 1 L1 6 sp d 4 5 Induttanza cilindrica 16 1 12 filo 2 mm in ferrite O 17 1 13 U 60 mm Induttanza cilindrica 18 1 14 10 2 6 Induttanza cilindrica 19 2 L5 Le 240 mm 25 ohm 20 3 PAD1 PAD2 PAD3 PAD 21 1 22 Piaz 22 2 Q2 Q1 1 2 278 Trans FET SOT23 TRNBLF2
11. 5 8 2z 6 2 5 s 3 gt o 2 ST li sw amp 1 12 6 a O 8 8 gt 5 2 5 Bi 513 amp D 5 ui gt gt x 2 a a D n n a INPS a 45 ou os os af a 2 na ow KRA10 JP1 AC 0 AC Nome Progetto PJSKPS RF Module power supply Pagina lt Nr gt di lt tot gt Size Size Autore Griptech Rev Canazza Dato 14 10 2002 Codice Progetto lt gt Nome PC in Rete UT_SRV Revisione 1 0 DC Nome Porte Rectifier sections File Cartello 5040R DWG Autorizzazione Codice P5040RCTB Scala lt gt Materiale Trattamento Profilo Appendix to the user manual 2003 R V R Elettronica SpA All rights reserved RF Module switching power supply PSSW5040 4 5 PSSW5040 Bill Of Materials Pagel Item Q ty Reference Part 1 2 07 01 IRFD120 2 4 Q3 Q4 Q5 Q6 IRFP250 3 1 Q3 IRFD9120 4 5 CT C3 C5 C7 C8 CE1 25 5 2 C1 C2 54700 100 6 2 1 50 470UF 40 7 5 2 626 030 637 57 CM 1UF 8 1 C2 100UF 25 9 1 4n7UF 10 10 C3 C4 C5 C6 C7 C8 C46 EKE470 100 C47 C48 C51 11 2 Ce 4
12. 89 y cu iib E 19 29 Ly e sa cod 6689 20 PXZTON 021041 10791 1192149 29 4 10 8100 A 2 669 td i 7 u and 6 0 9 E t vino VNI z y v ON LY A m ely 1971 3 f L 2 ro Eos Pero 2 98 T da M 4 20 841 T 92 139 2 S 9 4 8 PSSW5040 Driver section P5040DRV Codice Progetto Nome Parte 14 10 2002 1 0 DC Autorizzazione Trattamento Revisione Canazza vo 5 o re 7 gt a Griptech Rev UT_SRV LAY5040D DWG Materiale Nome Progetto Nome PC in Rete File Cortello Scala lt gt 3 5 RF Module switching power supply PSSW5040 Appendix to the user manual 2003 R V R Elettronica SpA All rights reserved LAAN PJ5KPS 13549 1 AU A mis e 5 E n o m s 5 T E 5 0 213 Sla 214 lt 5 8141 5 91 2 9 8 35 513158 01519 Sia a o 5 51 51 14 8 yl 9 S N 214 31418 213133 5 lt lt a 5 lt ci 2218 5 lt Ej gt o e a ca
13. R106 2 2 1 8108 R109 IN_ON IN_ON ON 1K 1K GND TLP521 1 STRIP2 CM tuF 2 2 12V 002 116 117 OC 5040 U11A ULN2004A 1K TLP521 1 CM 1uF 4 IN_STDBY 1N4004 R122 R123 A gt 14004 OC STOPAC s 0110 ULN2004A U13G 22R 22R ULN2004A R129 R130 RESOUT 22 64 RESOUTC OC RESOUT U13F 22R 22R ULN2004A R132 R133 out gt oc OUTOC OC OUTO U11E 22R 22R ULN2004A R136 R137 out 1 gt OC OUT1C OC OUT 22R 22R ULN2004A R138 R139 our 2 DK OC QUT2C OUT U11G 22R 22R ULN2004A R142 R143 out 3 gt 1 16 OC 00150 lt oc ours U13A 22R 22R ULN2004A R145 R146 out 4 gt OC QUT4C U13B 22R 22R ULN2004A R148 R149 out 5 gt 14 OC OUTSC lt oc ours U13C 22R 22R ULN2004A R152 R153 2 4 moina OC 0016 13 228 228 ULN2004A R154 R155 out gt 5 io 12 OC 00170 C oc U13E 22R 22R ULN2004A R158 R159 m ALARM OC ALARMC 228 221 U11B ULN2004A OC P50400 STOPAC OC 00100 OUTIC OC 00720 OC OUTIC 4 _ OC OUTSC OC OUTEC OC OUT7C OC ALARMC C71 C72 673 4 CMAK7pF a 77 77 41177 a poer e 777 7 277 4 4 4 R107 2 2 0100 45V IN MAINS MAINS 47K 40106 GND EARTH CM 1uF C60 R112 2K2 U10E R114
14. 2 7914 9 000 79 aped awon AUSIN 2994 ur 0 enon 16360 eon V 215 100014 JH FLETTRONIC 05004459 169 17 ezo 2 T ad gio wyo OFZ 91 ad 024 la ez MA sexid ww og ed ezz 506 L 100 39047 d 23 l 919 wyo gz OFZ Ad 027 09X14 Sio 34029 183A NOLSVA 1 7 1194 lt 1 705 34029 unu 9 p ww z ds 0 290 7 089 n uo oo SLE 029 Te exu ur Z HZZ La duty 69 028 09X14 09X14 09X14 SEXI sexid sexid 2 078 3995 su zo S v p dsg 9HS vH 9HS y n Qvd 39 027 59 we x T SUL JUL 00 d Ww za sa ML 8AQ ES ta SEXIA Hozz 5 r da 9 eM m voor JUL 89 619 20
15. MAINS PAD15 PS5 MOS 5 ASI ALME RST_AL PB_ESC ANO 45V n gt 3 82 pantie pse 38 SoK PB OFF PB PL PB OK R232 138 Sl2 gg oso 96 55 10K R16 ine 2 EB STOBY PB STDBY BE DW 03 DI 9 Q1 E 105 PPO ON OFF mE PB LOC Y2 pg 2 gt a WANT ans 104 TxCAN ppi 2 1081 EXC re Exc EXT_INT Lig vi 5 6 2 00 ACAM _ _ d NO 2 TON PB NP CHG MR AUS INT A YO D4 bres 2 ppg _ OUTPUT PB_NP STDBY IN pss PE y 8152 MUTET RISI RISI ALR_IRQ 4 DET 06 06 HT 8152 102 HL E 17 16 INPUT BS PPS wee gt 8152 D 07 07 593 8154 100 gt x PPS MAIN EXCT RIS3 HER ne JP2 7 18 07 xm PES Lim IRQ ALA GUT RIS4 Li sas xm pcan 999099 INPUT 1 CLK1 INPUTI LOADI gt gt gt gt gt R242 5V MAINS MAINS m RST CER CLK AAD E cit C12 21010 7415273 2 CM tuF CM tuF 10K ER 21 5 XCM10pF 7 4 8243 SIBBVEUS STDBYBUS 2 DEI PBESC_TST E 2 m PBDW TST PBESC_TST ON_TST MP 5 TST SCLK U9 CLK SLI 812 10K PBUP TST PBD W TST 812131 8 MOSI Do sl o ACK RISI 7 PBOK PBUP_TST OFF TST 9 01 40 RIS2 R22 R23 R24 Ju ON OFF STDBY LGT COAX PBOK TST MM E 10 Dr O o E AK 8 9 ACKRIS4 10K 10 97 JUMPER 2 lt 1097 JUMPER 2 RST_AL_TST stRIP
16. gt ia 3 5 PJ5KPS 5 4 3 2 1 FS1 R69 51 1 R70 10k 1 R7151 199 72 10k 1 v_DRV L_ gt F2A_C 100n 100 875 0 1_5W R73 10k 1 R74 10k 1 D LU TP2 LU TP C67 7 014 C68 7 U15 b m C69 INA146 C70 INA146 ID R76 100 1 877 100 1 SH1 5 25 6 L1 6 PD2 lt lt 1 10 10 C76 C77 12 74 12V C75 H 4n7 100V 680pHQ PAD10A 100 196 in 100 196 in Ha 100n 1 100n ld 8 C73 R80 100k R81 100k M 1n 100V SH2 SHUNT2 5 77 77 7 TRI 7 5 PD3 C78 C79 6 3 50k 10 10 12V 12V 1 7 081 12 4n7_100V 680pHQ PAD10A 12V 12V 12 777 777 SH3 SHUNT2 5 777 777 PD4 R84 51_1 R85 10k 1 R86 51 195 R87 10k 1 10A 10A C82 C83 13 4n7_100V 680pHQ PAD10A 13 R88 10k 1 R89 10k 1 LU LU TP5 E SHUNT2 5 77 77 C84 y ue TP C85 017 PD5 C86 INA146 C87 INA146 10A 10A 1n 100V 1n 100V vt 1 C88 89 14 4n7_100V 680pHQ PAD10A R90 100 1 R91 100 196 6 12 gt gt 6 14 lt 1 R93 do bc lt 14 14 TE 3 77 77 c92 ee 12V R94 100 196 1n 100 196 1 27k4 1 4W 100n 1 8 100 4 1 8 R95 100k R96 100k gt i
17. 135 2 135 TLOXE TA IXI 9 135 135 TLOXI OF ce si 97135 lt 135 135 107 x 07136 217 217 LMS 3397199 33199 o Lx Co 9L9 NO9 135 0 135 391709 89 9 39 9709 Ho 31VHu04 019 ta 31072414 2 2 34 142 69 zr TE E 8906 4991 09 05 48 Ri 7138 mil 9 138 Why 13S SEXTI SEXTI SEXTI 21 201 135 0T 4 PXIH exi IXId 13S Ty 07 2 135 LET 0 13S u INO 30 4709 DI 2 ifr 19 2 3 Analog meter selector SLMETPJ5KM4 2002 R V R Elettronica SpA All rights reserved Appendix to the user manual ENTO ELETTRONICA SLMETPJ5KMA Bill Of Materials PJ5KPS 2002 R V R Elettronica SpA All rights reserved Page 1 Item Q ty Reference Part 1 1 16 90658 2 8 2 4 6 9 12 13 14 15 CD1KpF 3 3 07 10 611 CD4K7pF 4 2 D1 D2 1N4148 5 3 FIX1 FIX2 FIX4 FIX35 6 1 JP2 PIAZZOLE 7 1 K1 TQ2 12V 8 1 RI 10K 9 1 5411 676 10 1 87W 50K Appendix to the user manual Analog meter selector SLMETPJ5KMA 3 3 PJ5KPS 00000000 00000000 Nome Progetto PJSKPS Interfaccia 1 0 modulo RF Pagina 1 di 1 Size A4 Autore Ucelli Rev Conozzo Doto 14 10 2002 Codice Progetto
18. 641 DAC N REM 1 24 TLP620 4K7pF PJ5K ELET2 47R e 42 D3 V ON 5 apr 03 4 7 RR7A 1 5 3 2 1 JP4 1 C_AUD_ALARM ON 42V 0 o 12 0 STDBY 1 MAINS_BUS 2 Ki 11 92 RIS3 IN REM 15 RR14B EXT INT 513 47 25 EXT INT REM 2 2 AU S_INT 4 5 IN REM 16 A E 9 x 5 RIS4 IN REM 4 Lo 94 6 7 OFF 17 PL 4 AUD_ALRM ALREM s 5 A ae 2 d Des z JUMPERS 9 AN 16 db ZFH 12V ON REM 919 ALRM OC KB10 RIS2 IN REM m CHG MR REM 2 C MUTE1 JP8 STDBY REM 8 12 0 lt ALR_RST i NP REM 2106 K2 RISI q REM 9 RR13A 139 x m 2 MUTE1 8152 2 FCEXCT2 REM 22 2K2 9 8153 93 AUS INT REM 40 T JUMPERS RISI 4 oC dolo I 5 s 23 2 CHG MR LOC SEL m DL4 soi X AM 96 MUTE2 OC 24 D3 V A 8 di WAIT OC m i p E 25 x 16 gh 2FH 12V KB8 AUD ALRM OC MUTE1_0C l DB 25 FEMMINA C_MUTE2 12VO_ K3 RR13C MUTE2 2 2 12 JUMPERS 4042 12 JP48 4K7pF 017 so is x C MUTE di 4 D3 v WW ES 8
19. Wyxsrddusnds Teuomezzriogny 501139 44850453 repped 4 A pieog 9514 01 euorsmey AUS LN ore ur ui lt 10 90 21 new asong ezis lop 11000814 SEXT3 SEXT SEXTI SEXTI SEXT SEXTA SeXT3 Sexi 6 8XI3 LXI3 9 14 4 14 EXI4 exld 117 Z4 PAPAE 17 117 99 117 207140 207140 009 Lup 20 17 9 Qe 69 117 222 117 LES 117 LS 69 431 K 69 431 5 69 431 69 431 amp 9 031 LAZ LAZ LAZ LAZ gu 18 9 su LAZ LAZ M2 LAZ LAZ vH u cu 7 9 60d 579 X9 QVd 753 7 9 QVd 804 10 v91 C 7 9 854 7 9 90 S d S vol CO 7 9 QVd 284 7 9 tad d S vol l X9 QVd 153 7 9 QVd 204 tad 2 3 RF module fuse board SLFUSRFPJ5KM Appendix to the user manual 2002 R V R Elettronica SpA All rights reserved ELETTRONICA CSFUSRFPJ5KM Bill Of Materials PJ5KPS Pagel Item Q ty Reference Part 1 5 1 02 03 04 05 407 2 5 D1 D2 D3 D4 D5 ED G3 3 9 FIX1 FIX2 FIX3 FIX4 FIX5 FIX35 FIX6 FIX7 FIX8 FIX9 4 4 FS1 FS2 FS3 FS4 16A S 5 9 PD1 PD2 PD3 PD4 PD5 PD6 PAD 6x4 PD7 PD8 PD9 6 8 R1 R2 R3 R4 R5
20. 7 24 1 c a MAINS BUS 1N4148 7 47 F50 055306 AAS R10 7 ACK 8154 a CAI PL_TST 1T a ccs PBUP 7574 a 001 39 19 F51 055306 RST AL REM 1 3 7 F52 055306 F53 055306 NO 10K 1 ano us REF 3 220 25 747 217 254 055306 747 VED SWAP ELI 010 UA78S40DC 22001 C20 7 7 1 2 N_RELE2 184148 pH cP voa FX PD1 OC i 8 KBW6 TST1 3 006 STDBYBUS2 1 CD27PF Di F55 DSS306 JPS D11 AUD ALRM 001 CB18 F56 DSS306 COAX 5 6 Lx Lira Rt Jes 47 RXE110 F57 055306 37 8 4 p 1K8 2 BY254 7 9 10 R13 4 d ds R15 PD2 OC illa CA09 1I VNS 1 M 12 RST SAFE 180R CM100pF 5 e d WARN OC 3 19 ALRIRQ BUS2 MAINS 8052 das i 1 ar 012 ra eer 15 18 Ae 023 4 BC488 Q1 D13 1 F60 7 FLAT16 1 P 47 CC12 1 BST SAFE BUS CU 77 14 1 71024 R18 1 5 1 PD3 OC 3 _ 20 BY254 i 825508 1 10 819 R20 11DQ06 8102 E Ser CD4K7PF WAIT OC 1 20 CD27PF 180 A 47 025 F63 055306 LE 77 Sn i 7 7 COAX BUS 1 COAX2 STDBYBUS11 c STDBYBUS2 Oey R21 26 PD4 OC i CA 1 F64 088306 F65 i 4 CD27pF F66 088306 MAIN EXC 00 MUTE1 1 CB21 055306 ON 4 RELE2 1K fat F74 055306 F67 DSS306 F68 055306
21. 4 C77 R18 4 0278 100 5 ULN2004A 228 22R Dr o 12V 1W sv CM tuF 10K B Dace OUT 0300 R188 R189 022 an 4 13 PD2 R185 12 2 QNDCEARTE CM10KpF AVSUB R187 10K AK 10 77 C78 184 221 ULN2004A 22R 228 10 074 073 U30C R192 R19 3 1 4 J 4 019 N PD3 3 gt 14 PD3 H7 E 5VIAW h ie gt ULN2004A 22R 22R 777 U30B R19 7 23 J4 R196 228 8 PD4 ONOM gr BAV99B TST iL 2 ON MUTE1 OC i MAIN EXCT OC a POWER R195 10 D20 2 4 MUTE2 OC 1 805 ULN2004A IK 198 228 12 3 AM TST 75 rg STDBY TST 0 6 ON OFF OC R200 E U31 MTR pt 518 iene R199 ACK NP DL13 d Bus 485 MTR MIR 9 49 MTR ACK STDBY OC ni ACK ON OC gt Au LED D5 10K SN75176AP Master STR 11 12 STR ACK PL OC H ACK OFF OC ULN2004A U26D 22R RXDO RXDO 1 o x 13 14 PD4 OC 13 13 ALR OC U32C R201 R202 o 7 J 15 16 PD3 OC 3 14 RISI OC DEO gt 9 12V wit 12V 15 16 ACK_RISI _ gt gt ale o ala 1 1025 evo O 412V 551 96 18 02 56 ULN2004A 22R 22R __ gt 4 PBDW_TST 21 2 PBUP_TST WAIT OG a 22 U32D R204 R205 PBESC TST 23 24 PI TST AUD ALRM OC A ot WARN OC 4 13 8152 OC 026 25 26 8151 OC gt
22. 8 Out OUT DAC 6 Tabelle 8 1 Function of the parallel interface clamps 8 5 RF module I O Interface 56 80 The control unit of the PJ5KPS communicates continually with all the microprocessor boards contained in the machine All the boards are equal but in function of the position in which are installed they use configuration software and different address For the boards that control the RF amplifiers modules the addresses have mailed from the respective boards of I O interface installed to the inside of the rack This means that the modules are perfectly interchangeable and they engage the address to the action of the insert in the rack automatically Figura 8 6 Dip switch interface board Rev 1 5 06 02 06 User amp Technical Manual 5 5 The address assigned to the module is mailed by a dip switch on the interface board In figure 8 7 are brought back the configurations assigned to the different settings The RF module 1 that more to left looking at the machine have address 8 the 2 has address 9 and so on until at 17 The other addresses are reserved for future uses Module Module Module Module Module Address 8 Address9 Address 10 Address 11 Address 12 Module Module Module Module Module Address 13 Address 14 Address 15 Address 16 Address 17 Figura 8 7 Addresses regulation of RF modules 8 6 Services supply The services of PJ5KPS are supplied
23. 11 1772 510 Three phase rectifier SLRCTPJ5KMC COM CONTAT CONTAT SS CONTAT S DB9 MASC P F1772 0 1uF JPS C15 2 2 220 3 CLIXSON 4 5 VENTOLA R15 100R 2W 6 FIX13 FIX14 FIX15 FIX35 Nome Progetto PJ5KPS Pagina 1 di 1 Size A3 Autore Ucelli Rev Canazza Data Tuesday December 16 2003 Codice Progetto Nome in Rete NUT SRV Revisione 1 1 0 Nome Parte Three phase Rectfier File Cartella Autorizzazione Codice SLRCTPJ5MC R Y R RCTPJ5KMC Bill Of Materials Pagel Item Quantity Reference Part 1 1 DB9 2 1 CN2 DB9 MASC 3 12 C1 C2 C3 C4 C6 C7 C10 CD1KpF C11 C19 C20 C22 C23 4 1 C5 CD4K7pF 5 10 C8 C9 C12 C13 C14 C16 F1772 510 C17 C18 C21 C24 6 1 C15 F1772 0 1uF 7 1 DL1 D5 R 8 1 DL2 D5 R 9 6 DZ1 DZ2 DZ3 DZ4 DZ5 DZe 5V1AW 10 7 D1 D2 D3 D5 D6 D7 D8 1N4004 11 1 D4 IN4004 12 6 FIX1 FIX2 FIX5 FIX6 FIX FIX10 FIX11 13 13 FIX3 FIX4 FIX7 FIX8 FIX9 FIX35 FIX12 FIX13 FIX14 FIX15 FIX16 FIX17 FIX18 FIX19 14 6 FS1 FS2 FS4 FS5 FS6 FS7 FUSE 15 1 FS3 1 28 16 6 151 152 153 154 155 156 4 25 17 2 JP2 JP1 KRA 18 2 JP3 JP5 KRA6 19 1 JP4 KRA2 20 1 K1 TQ2L2 21 3 PM1 PM2 PM3 IRKJ 56 04 22 1 PTCI N C 23 4 RV1 RV2 RV3 RV4 250VLA20 24 6 R1 R2 R9 R10 R16 R17 1M 25 7 R3 R4 R8 R11 R12 R19 R20 4K7 2W 26 7 R5 R6 R7 R13 R14 R22 R23 1K 27 1 R15 100R 2W 28 2 R18 R24 2R2 5W 29 2 R25 R21 10R 5W 30 1
24. 16 4 4 22 10 1 4 1 4 JP38 JP47 Figure 8 5 Parallel interface clamps User amp Technical Manual Rev 1 5 08 02 06 55 80 5 5 1 In ON JP12 11 Out COMMON MUTE 1 2 In STDBY 2 Out MUTE 1 3 In OFF 3 Out COMMON MUTE 2 4 In INH 4 Out MUTE 2 5 In AUX INH 5 Out COMMON LOCAL 6 In NOM PWR 6 Out LOCAL 7 In LOW PWR 7 Out COMMON MAINS 8 In AUDIO ALARM EXC 1 8 Out MAINS 9 In AUDIO ALARM EXC 2 JP47 1 Out AUDIO ALARM 10 GND 2 Out COMMON AUDIO ALARM JP8 1 In ALARM RESET 3 Out COMMON RL3 2 In RESRV 1 4 Out COMMON RL3 3 In RESRV 2 JP35 1 Out RESRV 1 4 In RESRV 3 2 Out RESRV 2 5 In RESRV 4 3 Out RESRV 3 6 In EXCITER CHANGE 4 Out RESRV 4 7 In EXCITER CHANGEOVER 5 Out COMMON RL4 8 GND 6 Out 5 1 JP16 1 Out 12V dc 7 Out SET2 2 Out 12 dc 8 Out SET3 3 GND 9 Out SET4 4 GND 10 Out COMMON RL5 JP22 1 yo TX RX JP38 1 Out EXC ON AIR 2 yo TX RX 2 Out AUTO MAN 3 LINE TRM 3 Out LOWER POWER 4 LINE TRM 4 Out NOMINAL POWER JP48 1 GND 5 Out OFF 2 GND 6 Out STDBY 3 Out FWD PWR 7 Out 4 Out RFL PWR 8 Out FAULT 5 Out OUT AIR TEMP 9 Out WAIT 6 Out V BUS 10 WARNING 7 Out
25. 28 RIS1 OC 3 ACK 8152 OC 22 110 258508 120o X 2 MUTI 055505 ON OFF OC ACK RIS3 OC x gt RIS4 OC 7 CA18 20 9 JUMPERS CON26AP DACI OUT 2 DAC2_OUT 19 8 7 MUTE1 OC VEGA DAC3 OUT gt DAC4 OUT DAC4 OUT 1 20 21 5 2 DAC5 OUT 3 3 DAC6 OUT ES nim CAM 910 PL REM 1 Ls 084 gra nm MUTI L c La MUT t1 MUT C2 TS i 5 uall 204 g F 6 8 188508 D2 12 Ft D 8508 MUT 11 CON34A 7 CA9 10 MUT 22 2127 23 SA7 DAC5_OUT illa CAS Car 42 144148 di pre EXT INT REM 2 _ 8153 IN REM Di 556306 3 24 5 NP_REM 1 5 BOBS CONNECTOR DB9 8154 IN REM 31 4 RISI IN REM CA12 12 E 412V K3 8084 4 Maschio RST AL REM __ 5 g OFF REM Lo 12 DSS306 i us SEI 10 25 5 RI RXE020 BOBI 9 AM_REM 7 8 PL REM 13 7 A 9 AREE ON RELE BOB2 5 lo RIS2 IN 9 10 ON REM _ DAC6 OUT i zla cae O OFF OC an dA DO STDBY REM 11 12 CHG MR REM F13 088306 8 CHG MR REM 086 JUMPER3 Ed NP REM 13 i 14 MAINS BUS 25 4o ik 15 16 EXCT2 REM 7 14 059308 03 12V 8 MUT2 1 MUT 22 04 AUS 37 18 ACR 180805 231 c VEXT d7 p 135 xL 2 19 20 LOC SEL ON OC 3 er 16 ZFH 12V H1 058306 0 2 LOAD 21 EU 1 3 087 ni 1N4148 7 ZFH 12V
26. Interface 1 1KW Unit Revised 15 12 2003 CSIORFPJ5KM2 Revision 1 2 Item Quantity Reference Part 1 2 1 6 3 1 CN2 PHOENIX2 4 4 FIX1 FIX2 FIX3 FIX4 FIX35 5 1 JP1 HEADER 20X2 6 1 JP2 HEADER 8X2 7 2 R2 R1 RXE110 8 1 R3 PTC 1 9 1 51 SW DIP 6 Appendix to the user manual RF module I O interface SLIORFPJ5KM2 3 3 2003 R V R Elettronica SpA All rights reserved 5 5 W1 LINK CONFIGURATION TEFLON SPACERS RG303 H 4 1 0 Ji 88 108 MHz LINEARITY Je LIGHT STABILIZER DELAY SYSTEM J3 HEAVY STABILIZER DELAY SYSTEM PADI GND PASSIVE RF MEASUREMENT PADe SIGNAL PASSIVE RF MEASUREMENT PAD3 SIGNAL GND PASSIVE RF MEASUREMENT PAD4 12VCC KAMPLIF RF MEASUREMENT PADS SIGNAL GND AMPLIF RF MEASUREMENT PAD6 GND CAMPLIF RF MEASUREMENT PAD7 SIGNAL CAMPLIF RF MEASUREMENT DIRECTIVITY ADJUSTMENT RV2 NORMALIZATION LEVEL CONFIGURATIONS DETAIL CARD CODE H link mm D spacers VI Jumper Ji Jumper Jumper J3 51042 1001 51042 101 53 SLO42MT1201 3 X wem __ spem 85 x R PROJECT NAME POWER METER PARI No POWER METER A DESIGNER M DATE 19 01 2006 REVISION 1 0 SCALE 2 1 SIZE A4 PAGE 1 OF 1 FILE LOCATION UtsmARilasciati 2_Schede SL042MT1001 PROJECT CODE 042 CODE 5104
27. 88 3005 deg 213 Output directional coupler SLO42MT 1001 2002 2006 R V R Elettronica SpA All rights reserved Appendix to the user manual R Y Ra PJ5KPS RF Power measure board SL042MT1001 Revision 1 0 Generic RF PWR Measurement 042 Mauro Ucelli 19 01 2006 Quantity deu esi ca essi arn 6 1 16 10 SMDO805Capactor CCCO85104KXC 8 23 ____ FID __ 9 74 JjFIXLFIXZFIXSFIXAFIX35 Fixing Hole 3 5mm 10 2 3 01 32 03 SMDPadtosoder 11 ____ 3 ____ 2 PAD 14 12 JRIR2 5 000566 Appendix to the user manual Output directional coupler SLO42MT 1001 3 3 2002 2006 R V R Elettronica SpA All rights reserved PJ5KPS ELETTRONICA gt o lt gt 655 1 TUSI IVA 0 200 13 O L suospoy AYSTIN 0394 20 0V LL 35404 022040 uoejduo9 0u6og 303496044 3505 3038 ex iem ea H 00 1 VOL AZI VO SIY VNVId VIVOOVdS VITIONOY gt N La LM WZLb VOL
28. COIKPE Ris 1008 4 C32 1N4148 1N4148 R16 10k na 4 D3 zb X NE gra ___1 DW Hs 100p 2 N_ON CD27PF 033 1N4148 12 9 _ OC STDBY 1 RCT2 IN IN4 ac 1 1 R17 COAX COUT GFB R21 il 413 18v UP R18 1008 34 061 062 R19 10k 1074 TR 8208 4 95 635 7 8 Ti CD4K7pF 9 10 R22 10R 185 M i DB25 MASC 1N4148 1 4148 20k 1 12 RST SAFE 150R C36 4125 vi 1M CD1KpF EY R24 LI OC ALARM i R26 al R23 C37 12V 4 bi 4 e R25 FLAT16 CM 1uF C39 4 OR 10R R27 SIT 1036 2K2 R28 N CD27PF NC 2 IN IN5 CD4K7pF 777 8208 Ep R31 RXE020 R32 Cb 5kw R129 CN4 1 412V 8 100R aa 1 OCEAN R30 R130 C40 anes d 1M CARRELLO 1 o CLK1 C99 a 100R 100R e R29 C41 7 RCTI 5R6 2W ni CD4K7KpF 4 DI 4 e oH T GFB CM tuF ga pout ee 777 77 77 2 IN_PH R35 N MAINS asT_SAFE R33 oe IN IN6 5 VBUS L oF VBUS 12V 12V 820R 820R 12V EE COAX 4 7 58 cD4KzPF 97 C44 12V_8 12V_S i 4N25 4N25 TE SEM PA lt 836 C46 e R34 C43 TW 4 i 4 N CM 1uF M 1uF CD4K7pF Go Stew H3 777 ente R38 R39 JP2 JP1 837 CN5 5 1 l 12V_S 8 IN IN7 CARRELLO 2 CLK2 RXE020 8208 7 RCT2 5R6 2W A IN_CH2 ico 9 13 4 pros _ CD4KIPF 0 we T 5 Par
29. OC B 5 2 DAC4 OUT C RL4 C RL3 ih M 12 H2vO 4 1 GN Epp K10 EET 4K7pF RR9C ACK_RIS2 DACS OUT 20 52 a RR13B 072 DZ FK 2 2 JP31 RAUS 5 DAC6 OUT 2 2 9 47 25 AN 4k7pF BZW045V8 DAC3 OUT ato DACI OUT 1 4 DAC4 OUT i e 22 OUT ag e DL27 sob Jpago 2ACKAM 777 77 DAC2_OUT WF ES 8 7 JUMPERS 076 ACK AIS OC ur D cmd _ ACK RIS2 OC qp ARIE Fr ACK RISI SE _8152_ 1 8152 OC LL 64 19 7 H3 FAULT OC 7 a 7 OC ACK RIS3 OC 12V C RL4 42V C RIS PD2 OC E 2 M PD3 OC 21 8 ARIOA m 2 ACK RIS3 RR12D dx ACK 2 mec gn 7 j JUMPER3 2 2 9 x ACK OFF OC ACK OC a 4 STUBY OC 5 de DL29 E m 2 ACK PL NP OC VW pav WF 8 AKTpF ba 5 JUMPERS ACK AM RIS1 OC ACK RIS3 OC in E E RISI OC ACK PL OC Ce A DB25 MASCHIO 947 12 0 9 H2V G PL3 8152 OC K14 K15 RAIOC 139 d jpggo 2 ACK RIS4 RR12B Bo 55 2 9g _ n 4 JUMPERS _ x cj I FAULT 0130 tolti piat 4o ise ACK_NP DA R54 1 A y 3 JP370 2 JP35 OUT T D3 V 8 ACK RIS1 DACI
30. 12 686a OU R2 CI og R5 R7 cO 1 Appendix to the user manual 2002 R V R Elettronica SpA All rights reserved Nome Progetto PJSKPS Scheda CCU Autore Griptech Rev Canazza Data Nome PC in Rete NNUT SRV Revisione 1 0 DC File Cartella PJ5 CCU MNT DWG Autorizzazione Scolo Materiale lt gt Trattamento Control unit CPU board SLCCUPJ5KM2 07 10 2002 Pagina 1 di 1 Codice Progetto lt gt Nome Parte Scheda CCU U231N0311313 dA Codice SLCCUPJSKM2 Profilo lt gt 1 6 ELETTRONICA 5 5 U1 e 12V j RST GO tA a p5v 2 i vie 87W 20K _ 9 3 4 RI BAV99B amp Toy C1 RD DIS 59 55 5 62 CM22pF R2 CMi0pF WR DIS 69 25103 L oM A vDD2 VDDX1 40106 40106 330K A0 ____4 gp R4 CM tuF 7 VDDI VDDX2 R3 vo 8 2 y D Yi VDDAD VEP 2 2 DO 7 PME pm 2 5V DI 8 DO Pio MC68HC912 D60 CPV8 STRIP 2 4 VREE D2 9 pa aa 05 CM tuF CM22pF 14 745MHz did tid Sl 11 1 1 C6 10
31. 4 2 100 R75 876 877 Gua XCP X X CHO C137 10K 10K 2 4 M 212 CP 1uF CHI 9 R79 10K CM100PF UA 1074 06 R82 TEMP KDI CH5 P U5C TEMP ARIA PS 20K TL074 050 83 9 883 1074 n 10K R85 PWR_SBIL C CH6 P b 0 10 7 3K62 5 lt JouT_Mos 08 BAT83 R87 TEMP ARIA PALI C our 77 100R 10K R89 R90 777 PWR_DIR N 1 CH3 10K 10K 12V PWR_RFL N 1 CH4 TL074 noz 10K PWROSBIL 1 IN_IOR 3 3V TL074 U7C USA 4 TL074 B TR12 97 87W 10K i p 12V 10K 10K 12V gt 2 L 4 C48 21 049 C50 C51 C127 C131 GFB _ gt 7 2VvC_ gt _____12V TL074 220 A 42V C56 T 053 C54 C55 0128 C132 4 103 CM 1uF 1 25 1 25 CM 1uF CM 1uF CM 1uF 057 al 10K al 777 CM10KpF ND EARTH lt 4 12V A A DAC 1074 330K U7D C58 4 C13 Nome Progetto PJ5KPS Scheda CPU Pagina 2 di 4 Size A3 1 25 Autore Griptech Rev Canazza Data 02 10 2002 Codice Progetto CM10KpF 3 ie E ST OO TE ____________ 5 47K 10K5 47K 10K5 Nome PC in Rete ut_srv Revisione 1 0 DC Nome Parte Sezione Foldback File Cartella CSCPUPJK5M2 DSN Autorizzazione Codice SLCPUPJK5M2 2 1 Appendix to the user manual 2002 R V R Elettronica SpA All rights reserved Microcontroller board SLCPUPJ5KM2 ELETTRONICA PJ5KPS
32. RE rn Lo RIOUT RIIN LOC 087 G U32G 20 R20UT 029 0210 0211 0712 U37F ULN2004A ULN200 4A R246 R247 1K5 LED D3 0115 777 CL232 4 gt 4 13 6 2 7 7 10 IRQ ALR OC 5016 Y o M gt 39 IRG_ALR_OUTI U36B U37C ULN2004A R221 RX BUS 777 77 228 228 RXDI 3 4 3 o 14 12V 1W 12V 1W 12V 1W 12VAW ULN2004A U37E 2 40106 ULN2004A 40106 1K5 LED D3 0116 Nome Progetto PJ55000MC Pagina di 3 size 45 U36C TDi 40106 adi ui 2 R222 TX BUS Autore Griptech Rev Canazza Data 07 10 2002 Codice Progetto lt gt IXDi 11 o O 412V 77 777 ni 1 1 pa ls Nome PC in Rete UT_SRV Revisione REV 1 0 DC Nome Parte CORE CONTROL UNIT File Cartella CSCCUPJ5KM2 Autorizzazione Codice SLCCUPJ5KM2 A B D E Appendix to the user manual 2002 R V R Elettronica SpA All rights reserved Control unit CPU board SLCCUPJBKM2 4 6 ELETTRONICA CSCCUPJ5KM2 Bill Of Materials Pagel Item Q ty Reference Part 1 1 1 3 6V 2 2 CM10pF 3 3 C2 C4 C99 CM22pF 4 75 2 65 8 POLA CI S CM 1uF C16 C17 C18 C19 C24 C26 C217 0298 029 630 C31 C32 C33 C34 C35 C36 C37 038 C39 C40 C41 C42 C43 C44 45 46 47 48 49 50 52 53 54 55 56 57 C58 C59 C60 C61 C63 C65 66 67 68 69 73 75 C77 C81 C82 C87 C88 C89 C9
33. n DAC3 OUT ACK_EXCT gt 7 14 ACK EXCT OC 1 1 1 i 1 1 1 MOSI ipi Ler gt coo SCLK CM10KpF TA ULN2004A U26C MAN AUT CM tuF CM tuF CM tuF CM 1uF CM 1uF 77 lt 4 lt C72 R154 12 12V U26B 2 12 U26A R153 REF 221855 DU D15 _ i 2 15 R157 R158 AM OC DL9 1 16 ON OFF OC CM 1uF CM tuF ITLV5626 _ LED D5 ON OFF 073 al 47K 10K5 ULN2004A eek E ULN2004A 22R CM tuF 5 0248 E R163 1K5 FAULT 4 2 10K DAC4 OUT U30F Risa V U22F R160 R161 R164 1 FAULT D 8 114 FAULT OC DL10 coax gt 6 11 BUS dn vREF CM10KpF TL072 AV99B N2004A 22R Zen ULN2004A 22R 22R 12K iL 12V 12V C75 mI R167 168 169 1 5 4 y 4 4 4 016 U30G ll WATT 1 TP p Q RITI WAIT WRIT DL11 5V XBAV99B vo bm 10 5 LED D5 R173 10K D17 U28 CM tuF 2 u27A ULN2004A NC 22 3 i ie OUT 8175 _ 1K5 E U29 STR DEAD CSA2 ad 5 4 0 E 9 U32A R177 12V Bus 485 STR MOSI 14058 gGOUTA CM10KpF R17 6 SN75176AP Se MOSI Dp 2 TL072 AY99B WARN WARN OC Die Slave SCLK SCLK our H Cis 12V 12V 12V 228 WARNINGLED D5 RXD1 485 Ro 9 a R178 8179 2 ULN2004A 22R DEI 100 24 1 RIBO Risia 1 1 1 018 Rida 1183 gt Do wav 2 N gw 10 5 T PDI 5 po 12 PD1 mpi
34. pP CU PS and combiner CPU adapter SLADPPSPJ5K2 86 831 838 863 867 8101 R102 R117 R118 R121 R126 R7 R32 R39 R27 R12 13 R24 R45 R46 R47 R64 5 R66 R68 R69 R70 R86 7 R88 R89 R103 R105 106 R119 R120 15 R17 R18 R30 R48 R50 R52 R54 R55 R56 R57 R59 R61 R71 R73 R74 R76 R78 R80 R82 R83 R85 R91 R93 R95 R96 R97 R107 R109 R130 R131 R133 R16 R19 R49 R51 R53 R58 R60 R62 R72 R75 R77 R79 R110 R114 R116 R132 R21 R26 R124 R22 R25 R42 R125 R44 R122 R199 8127 R128 01 02 03 04 05 06 07 R111 R112 R113 R115 R129 R81 R84 R92 R94 R98 R108 PJ5KPS RXE020 5R6 2W 2K2 20k 100R 10k 10R 180R ve 33K 1W 150R 7812 7912 1074 324 Et E i E 4 4 RVR PJ5KPS CSRCTPJSKMC Q his 1p ra 5 Cen ag BAE DLI CH Nome Progetto 5 Rectifier board Autore Ucelli Rev Canazza Data 17 10 2002 Codice Progetto 821 0 11313 Nome PC in Rete NNUT SRV Revisione 1 0 DC Nome Parte Three phase rectifier File Cartella RCTPJK5 LY DWG Autorizzazione Codice 5 5 Scala lt gt Materiale lt gt Trattamento Profilo lt gt Appendix to the user manual 2003 R V R Elettronica SpA All rights reserved Three phase rectifier SLRCTPJ5KMC 1 3 PJ5KPS R1 R2 S1 52 1 T2 Appendix
35. 2002 R V R Elettronica SpA All rights reserved 37 38 39 40 41 Unbalancement measurement CPU board SLADKDIPJ5KM2 92 U3 U4 05 1 5 5 LM809 MC 68HC908JL3CP TLV5626 MC34064 16MHz 3 3 LAAN PJ5KPS 8 8H Bs SH H8 B th us EB 26 mag A 5 2 8 ni R109 1 8107 3 5 m 1 06 R25 T En R7 R31 7 Cv X CO R6 R3 m m R5 R108 RS RIE um 812 mm RIO 657 853 821 027 C18 052 062 mn 87 ON xX LO 2 C T gt R7 R Ro m 2 m RM COD I 10 B H g R2 H 8 TRS TR Nome Progetto PJSKPS Adattatore CPU Bias Pagina 1 1 Size A3 Autore Ucelli Rev Canazza Doto 07 10 2008 Codice Progetto lt gt Nome PC in Rete NNUT SRV Revisione 1 0 DC Nome Parte Adattatore CPU Bias U21N0311313 File Cartella ADBSPJ_LAYOUT Autorizzazione Codice SLADBSPUSKPS2 Scolo Materiale lt gt Trattamento Profilo lt gt Appendix to the user manual 2003 R V R Elettronica SpA All rights reserved RF module CPU adapter bias SLADBSPJ5KPS2 1 5 PJ5KPS
36. 54 I j JUMPERS AO 1 R 4 7 15 db ZFH 12V 4 ACK RISS 2 ES e ACK_RIS3 9 BZW045V8 058 53 g gt 420 us ACK RIS4 OC 4 ACK NP OC 4 ney Wiss i DZ7 4K7pF 9 le PDI 9 777 77 055 4 7 412 0 C 815 C_RL3 RDS 797 K16 K17 my 8 R56 PD4 02 OC ___ ARIA 135 d 3395 22 PDI RR11D 1 _5 CAS pace OUT a DAC2 d 4 9 2K2 me 1008 JUMPERS amp x AK pF KB10 BZWO45V8 c63 ui ix 4 029 4KTpF Div 4 ge E3 ___ ACK OFF p 03 OC ____ ES Box D3 V A 8 STI 777 41 x 1 x JUMPER3 Frasi 16 45 ZFH 12V E E ACK OFF OC R60 77 4 DAC3 OUT Bids B PD4 OC 100R B 60 12V 0 RES 42V o C RL3 067 4 7 18 K19 97 RRI1C 135 x T PD2 RR11B do 7 SITI 77 LACK PL OC 2 2 TA 9 2K2 JP JUMPERS 38 ani AA 2 4 DAC4_OUT R55 34 DL35 ACK_STDBY 42 DAC4 pom pv WF ES 8 D3 V ES 8 o JUMPERS ACK NP 3 M 100R 7 ACKNP d 1 i X ACK_OFF d BZW045V8 1 059 ____16 q ZFH 12V 16 d STDBY 5 caz _ PD2 4 ACK STDBY OC ACK ON d Um Bis 97 m m fh _ AM OC m C RL5 Pe C RL3 WARN Sh 7 065 _ 20 11 Hox KB10 PACS OUT DAC5 4K7pF RR12A PD3 4 97 is RR10D 100R ni JUMPER3 2K2 9 BZW045V8 064 OC J E d
37. 8 Read EEprom Write EEprom Load Settings Save Settings Exit Click on READ EEPROM and then OK Note blue progress bar indicating reading is in progress When the EEPROM reading will have been completed the button WRITE EEPROM will also be available User amp Technical Manual Rev 1 5 08 02 06 71 80 PJ5KPS R Y R Click on the tab General and do the following settings for example m EEprom Organization Settings loaded Database General nable 1 Station ID 2 Station Name 3 Dial String 4 Number of Retry H 5 Service Center Number 393359609600 E aE ae Read EEprom Write EE prom Load Settings Save Settings Exit Station ID ID for addressing pourpouse Write if you only have 1 Station Name Mnemonic name of the station like place or frequency Dial Sring Normally ATDT Number of Retry Number of messages to send We suggest to set this value to at least 2 in case of problems with the SMS Service Center Then click on Telephone and fill it with the telephone numbers that will be known to the station Yes or No in the SMS column specifies whether the number will receive a SMS in case of alarms while the column ACS determines the numbers entitled to send commands via SMS to the station avoiding interferences from unexperienced operators Finally specify the kind of modem the station shall send the alarm to so that it will determine whether to send a SMS or place a normal telephone call
38. 80 619 10 von XVOD 5 dd 2 THE T Luy 82 u001 ASE jno0r 020 019 ui ei 4NOY 77 77 uis uis aws v1011 LLL Ly 24 918 sty VIAN 1001 ASE 4100 6 sot L T E 0701 uis 1215 0118 92011 Rett vr 204 Lup 227 4001 yoo zu ain TT LE lH _ WILL X08 MEET ZAY x01 7 LL 0 Luy 084880 99 os E Rel 5 21 4001 peel 99 an n STE 09 52 oT mi LL o o 4 0 uis pns PALA 0 o nel i 0701 7 Dir 2 9 6u gu 810 5 uy 8001 8001 Ly 89 SU pH 1 HIS uis QWS 92011 LU PU To CO voi 8 _ tad u 210 9 Lup 6 21 084680 Hd WILL 40S 121 m 5 helt LAY 301 7 a 4 mo of XVOO n 014 69 5 2 0 01 971 TN SENTI SEXTA SEXTA SEXTA SEXTA i 001 NG IND 5 2 L 2 v S 2 3 Splitter measurement board SLSPLMEA5KW1 2002 R V R Elettronica SpA All rights reserved Appendix to the user manual PJ5KPS ENTO ELETTRONICA CSSPLMEA5KW1 Bill Of Materials Pagel Item Q ty Reference Part 1 2 CN2 CN1 DB9FSO 2 2 6 1 100 3 2 11 502 ln 4 12 CI C4 C5 08 09 012 013 4n7 14 15 16 17 18 5 2 C7 C10 100uF_35V 6 2 19 20 100n 7 2 D1 D2 5 4004 8 5 FIX1 FIX2 FIX3 FIX4 FIX5 FIX35 9 4 PD1 PD2 PD3 PD4 PAD 10 1 01 BC857BL
39. 84 VO dW 63 2 SAY VE ZZ BE C DOE 20938 1219 1725 VO VO VO VOL AI VOL VOL vOOPNI sot 5 DIE Os Ga 031 ONNOX OL 193NNOO SNINSVM MOOTYALNI AL33VS Nid IND OL l Nid INO OL 61 s D 9M ON 1 3 Power relay interface SLRLYPROTVJ Appendix to the user manual 2002 R V R Elettronica SpA All rights reserved PJ5KPS ELETTRONICA 2 G 2 5 9 2 10 42 1859 HMd 4 aped 00 0 AHS 101 sop ut 2d sonni E lt gt 200121 ezzeueg 499141109 azs eubed 544574 o Siu 919 1 11 lX4W dnrd9 9 0 v 153 89 85 01 178 01 21 7251 LAY GVUM 118 Ld v007NL 091 4 80 10 eld VANWSSIN 1247 1247 1247 IVZIY 1247 1247
40. 924 Alarms and commands 9 241 Alarms sent by the transmitter 1 Forward Power Reflected Power Unbalanced Pwr No Audio PTX1 No Audio PTX2 Mains Fault Over temp 1 Over temp 2 Fuse1 PS Fuse2 PS Blower Fault Fault Mod 1 Fault Mod 2 Fault Mod 3 Fault Mod 4 Fault Mod 5 o go com col e 092019 x Di dele ge X Ec NON N N gt per om LEO s 74180 Fault Mod 6 Fault Mod 7 Fault Mod 8 Fault Mod 9 Fault Mod 10 Pressure Fault Mains OK only 10Kw only 10Kw only 10Kw only 10Kw only 10Kw Rev 1 5 08 02 06 User amp Technical Manual PJ5KPS ELETTRONICA 9 2 4 2 SMS commands available The commands that can be sent to the transmitter using SMS messages are the following Command Reply Description Station station name ID ID number FWD value RFL value INFO UNBAL TX or TX or TX StdBy Low Power Nom Power Audio Present Audio Absent Alarm Present Alarm Absent Station station name S ID number Station station name TIN TXOFF 10 ID number 2 TX is Station station name LOWPWAR ID ID number Low Power setting LowPwr OK Station station name NOMPWR ID ID number Nominal Power setting NomPwr OK Station station name ALARM 110 40 number List
41. 9Au SAY vAY LAY Mi dee Th 7 Tn Tan Th T 92 eiu 99 79 Old 9 6u 23 gu 19 18 LMN 3NL d9 IMN 4N dd l14W dni d9 IMN 4NL d9 L d9 ba ba bn ba SIN ZAH TAH TIIA 01 21 lt 01 21 01 21 01 21 01 21 01 21 918 978 918 278 218 VU lo fo fo fo Ei E DES BERN vOOPNI 700 007 1 v007NI 7007 1 700 1 4 4 4 4 4 3 4 90 sa vd 20 10 ene ene ene ene ene ene 4m 4m gt 4m m b 9u su 1d 14 71 u 1d eu 0 031 A Q 031 A Q0 031 A Q0 031 A Q 031 A Q0 031 i Bac tp 92 0139 JE 5 3d 7 8INO 2 3 Power relay interface SLRLYPROTVJ 2002 R V R Elettronica SpA All rights reserved Appendix to the user manual PJ5KPS ELETTRONICA SLRLYCPROTVJ Bill Of Materials Pagel Item Q ty Reference Part T 1 CN18 DB9 CS M 2 7 Gil 4222 CS Cay C5 180563 10 25 4 7 DL1 DL2 DL3 DL4 DL5 DL6 DL7 D3V 5 DL8 D3R 7 8 1 D2 D3 D4 D5 D6 D7 D8 1N4004 8 FS1 10x38 9 1 KRA2 10 JP2 4 Appendix to the user manual Power relay interface SLRLYPROTVJ 3 3 2002 R V R Elettronica SpA All rights reserved PJ5KPS NOME PROGETTO PJSKPS NOME PARTE
42. 1 x 1 C MUTE2 2 DACI 5 MAINS_BUS ZFH 12V 03 i Me MUTE2_0C 1 C LOC 1 DATI 9 5 2 24018 00 04 jj M C RL3 C MAINS d 5 E 209 MAINS J7 97 K4 8 0 8 AUD_ALRM_0C RR9D 135 x x KB8 B8 2 2 9 018 4K7pF 47 0 10 soi yp1go 2__WAIT 10R F1 R21 DSS 308 JP16 MUTE1_OG x nos JUMPERS irela d 16 dP ZFH 12v e T 1 021 WAIT OC LP d 4K7pF 72 C RL3 10R 7 4 LOC SEL 121 R22 KB4 e K5 11 024 RR9B 139 x 4K7pF 2 2 9 2 OC e e B DL15 JP1g0 2 WARN 108 R27 TR 4K7 Day Y oS JUMPERS STR e 1555 16 ZFH 12V WAIT OC WARN OC l P STR 10R R29 L_ 3 1 3 LOC SEL C LOC A Warn K6 11 71 0118 WE i39 dp 2 LOC DZ1 DZ2 033 Ag JS 4K7pF 03 lv JUMPERS 12V 1W x 12V 1W 7 5 ET 1 8 023 024 RR14A 1 5V6 1W 2K2 16 db ZFH 12V 5V6 1W 777 777 777 P2 STR 1 STR 6 o MAINS_BUS C_MAINS EAR 9 Sto K7 3 JP47 8 0121 1 2 MAINS C_RL3 D3 V JP270 44 4 2 3 JUMPER3 AUD ALAR 3 040 e AUD ALRM 2 4 7 x ito 12V y x7 DB9 MASCHIO KB4 RR14D to 2k2 16 db ZFH 12V FIX1 FIX2 FIX3 FIX4 FIX5 FIX6 RR14 OF OF 7 2 2 FIX35 FIX35 FIX35 FIX35 FIX35 FIX35 FIX7 FIX8 Nome Progetto PJ5KMC di 2 Size A3 FIX35 FIX35 Autore CLAUDIO
43. 13 14 15 16 18 C197 020 021 023 C24 29 C30 C33 C34 C35 C306 4 22 33uF 63V 5 4 C26 C31 C37 C40 Cxx 6 C28 2 20p 7 C32 8 C38 10p CC 9 41 22 10 1 C42 270p_CC 11 2 C45 C46 47 12 DCPLR1 DIR_CPLR 13 D1 R_LED G3 14 1 D2 Y_LED G3 15 2 D3 D4 HSMS2800 16 1 D5 G LED G3 17 2 D7 D6 1N4004 18 1 16 9 2 2 11 VK200 20 L3 6 21 L4 4 W 22 MOS1 BLF175 23 RV1 20k 24 1 RV2 1K 25 4 RY1 RY2 RY3 RY4 RLTQ2A 26 1 R1 10_1 4W 27 2 82 83 10k 28 5 R4 R5 R6 R7 R9 1k_1 4W 29 R8 22_1W 30 2 R11 R10 27 31 1 R12 680_1 4W 32 2 R13 R17 2k2 33 1 R14 1k 34 4 R15 R16 R18 R19 150 35 5 R20 R21 R24 R25 R29 36 2 R22 R28 470 37 1 R23 6 8_1 4W 38 2 R26 R27 1 39 2 R31 R30 1 5 2W 40 1 51 76PRBO4 41 6 TL1 TL2 TL3 TL4 TL5 TL6 750 42 5 L7 TL8 TL9 TL10 TL14 250_ 1 5 43 TL11 250_ 12 44 TL12 250_ 45 113 250_ 46 1 RF OUT 47 2 INP 48 GND 49 TRF1 IN MATCH RF module driver SLDRVRFPJ5KM PJ5KPS Appendix to the user manual 2002 R V R Elettronica SpA All rights reserved 3 3 AC DC H 8 OG o 4 2 305305 S e gr n 2 5 mE PSSW5040 e SHDW OV 1 a I Nome Progetto 5 5 RF Module power supply Pagina 1 di 1 Autore Griptech Rev Canazza Data 14 10 2002 Codice Progetto lt gt Nome PC in Rete UT_SRV Revision
44. PJSKPS RF input splitter Pagina 1 di Size Ucelli Rev Canazza to 08 10 2002 Codice Progetto 4 Nome PC in Rete UT_SRV evisione 1 0 CDC Parte Input splitter File Cartella CSSPLINPSKW1 DWG Autorizzazione odice SLSPLINPSKW1 Scala lt gt Materiale lt Trattamento Profilo Appendix to the user manual 2002 R V R Elettronica SpA All rights reserved Input splitter and changeover SLSPLINP5KW1 1 3 ENT ELETTRONICA 5 5 117 R1 50 PPR 17 TL1 N C1 17 50 7 N _ CVAR NS C2 17 R2 R3 1p 4k7 4k7 E 268 117 PDI R4 518 in R5 Rxx 4 4 C4 PAD HSMS2800 JP1 WIRE T PD2 PAD DCPLRI 1 0 02 M C DIR CPLR 7 R6 ___518 02 R7 1k JP2 WIRE PD3 PAD 1 O 2 a HSMS2800 4 105 ce C R8 in in 220uF 25V 1k 77 N Hs CN1 N CN2 7277 _ R9 Ki K2 R10 TL3 502 50_PPR TL4 507 2 L 2 TL5 502 50_PPR TL6 507 I e WH E S R11 R12 9 4 9 813 814 50 PPR 50 PPR 50 PPR 50 PPR 77 7 7 MAIN EXCITER s 1 4 b i 1 pa RESERVE EXCITER D 117 815 TQ2 12V TQ2 12V R16 50 PPR 50_PPR i 77 77 TL7 77 77 7 LAC 7 C8 50 2 C9 C10 in PD4 PAD 417 407 DCPLR2 417 407 4 15 2 e C 3 DIR CPLR R17 51R D3 R18 1k JP4 WIRE PD5 PAD 7 1 O 2 M R HSMS2800 013 014 __ C22 75 220uF 25V PD6 5 R19 51R 04 77 R20
45. x 4 C12 C13 C14 R29 DB9MSO 5VZ 5VZ C15 R30 100 o R31 1000 C16 47 R32 12V 12V in in 4 10 1k 9 9 y sj lt R33 R34 1k J M 10k A 10k D2 C23 4 77 PWR_0 CHO 3 0 CH6 3 10uF_35V E KDI FB VOUT TMP VOUT PWR CLIX BAV99 BAV99 3 BC847 7 7 4 1 41 C19 cao 021 c22 017 C18 2 021 022 10 10 U6A R35 270 5 2 N 5V1SMD 5V1SMD in in in in lt lt 3 TL072SMD 7 to y 777 M R36 5 7 7V 7 7 F s e C25 624 22 al U6B 5VZ 5VZ 4 100 4 TL072SMD M 1m A n 2 R s R lt 7 4 3 KDI O 38 39 6 10k D5 10k D6 R37 777 77 VOUT_TMP 2152 PWR_1 CH 3 IMP 1 CH7 4 03 100k d D4 DZ3 VOUT_PWR 7 BAV99 BAV99 LM336 5 0V 7 BAV99 lt 5V1SMD C26 C27 SYNC 0 3 59 7 100uF 35V 100uF 35V 100uF 35V 8 29 220 030 1 10 10 ETE 77 H2V o 2 9 5 77 77 4n 97771 PWR 0 R40 10k 5VZ 5VZ 3 R41 1k69 C31 C32 DB9MSO 9 9 4 al al 4 in in R43 R44 52800 C33 C34 C35 R42 10k D8 10k D9 PWR 1 R45 10 3k30 7 7 777 PWR_2 CH2 3 IMP 2 CH8 4 3 100 100 100 4 BAV99 BAVOS T j j 5 KDI O VOUT TMP VOUT PWR _ SYNC C36 037 52800 4 038 639 040 es 10 10 4 PWR 2 R46 10 R47 220 e 777 e TH 1 T 3 AA 47V O in in in in lt 012 R48 10k KDI FB 7 7 7 5VZ 5VZ 52800 3 R49 1k2 2 o PWR 3 i R51 10 1 4 22
46. 047 1 Poeti ipm I he 1 SE INO e 515 VBUS VBUS IN_SWSAFE 1 CM 1uF TEMP IN MAINS IN STDBY 777 9 Pno ooo o o OC ALARM T 10 D INCCHIO OC OUTO PIAZZ 2P IN Sarg MI SWSAFE VBUS IN _CH7 BST SAFE IN ON IN ADO A NPD1 33KW yum ADDRESS E 7 4 R44 4 03 PDA 77 2 810 XN 6 C13 C51 052 H ZN PDS c50 4N25 1M CD1KPF CD1KPF CD1KPF IN AD5 PD6 PAZ 2P POWER y R43 C53 CD4K7pF el al IN AD6 XP PD7 SUPPLY 4 y 5 y 7 PDB DZ 2P CM 1uF 777 777 777 777 OC STDBY OC ALARM PIAZZ_2P FXi FIX2 FIX3 FIX4 STRIP20 STRIP20 STRIP20 EIX35 FIX35 FIX35 FIX35 J 777 35 1 CDIKPF al al Nome Progetto Pp J5KPS Pagina 2 di 2 Size H7 777 777 Autore Mauro Ucelli 31 05 2001 Codice Progetto lt gt Nome PC in Rete UT_SRV Revisione Nome Parte ADAPTER P S E COMBINER File Cartella 1 SADPPSPJ5KM2 DSN Autorizzazione Codice SLADPPSPJ5KM2 Appendix to the user manual 2002 R V R Elettronica SpA All rights reserved PS and combiner CPU adapter SLADPPSPJ5K2 ELETTRONICA SLADPPSPJ5KM2 Bill Of Materials Pagel Item Q ty Reference Part 1 1 CNI DB9 FEM 2 d CN2 DB25 MASC 3 1 CN3 FLAT16 4 4 CN4 CN5 CN7 CN9 DB9 5 5 2 CN6 CN8 DB9 FEM 6 d CN10 16 7 38 C1 C2 C3 C4 C5
47. 08 02 06 User amp Technical Manual R W R PJ5KPS 7 3 6 Replacing the carriage The following procedure has to be followed when it s necessary to replace a power supply carriage Please note that if the transmitter is fitted with just one power supply carriage it will be necessary to switch it off to replace the carriage while if it has two of them it is possible to continue transmitting normally also during this operation 1 Turnthe power disconnecting switch on position O in the case of one power supply carriage 2 Turn the carriage switch on position Off Disconnect the threephase supply connector from the carriage the connector of the control signals and the one of the command contactors Remove the screws that hold the bottom bar of the rack Remove the carriage from its site Insert the new carriage Reassemble the bar and fix itin place with the screws Reconnect the three connectors Turn again the power disconnecting switch on position 1 gt ON OO 0 Turn the power switch on position if it had been turn Off previously 7 4 RF Modules amplifier The PJ5KPS has five RF amplifier modules able to supply 1 2 kW each The modules are independent from each other self controlled and self protected Each amplifier module includes a first stage with a variable gain based on the MOSFET BLF175 The RF signal amplified by the driver is splitted in 4 by a Wilkinson splitter then sent to 4 identical modules based
48. 1 0 DC Nome Parte CORE CONTROL UNIT File Cartella CSCCUPJ5KM2 Autorizzazione Codice 51 0 5 2 D E Appendix to the user manual 2002 R V R Elettronica SpA All rights reserved Control unit CPU board SLCCUPJBKM2 ELETTRONICA 5 5
49. 14 SXI3 m da 117 447 LL T 1001 0301 V nL 9 19 gu 719 19 219 5 5 T 2 908W1 oA zn 6399 14 7 777 777 _ ASE PL QNS LAS za T 1 Lup LUp Ul 2 VL mi UL Lup 69 89 19 LL 0082SINSH 99 31 99 D eu t LNUS 1 2 awsr 017 er 001 E 2 t 1 an y eu TUL xs awsr er Lr 117 17 AN 4001 Luy Ada az ap awsr 97 awsr sr 19 9 AN AN 001 9 QWSh 0 awsr er AN AN W ANITL PUD TU C 2 v 2 2 3 awsr a awsr if avd 2 tad 19 dd 2 2 2 2 2727222 2222222 avd TINI IL TANITL 211 TANI HIL avd 204 tad L 2 5 Unbalancement meas board SLPWRSENHC52 2002 R V R Elettronica SpA All rights reserved Appendix to the user manual ELETTRONICA PJ5KPS CSPWRSENHC52 Bill Of Materials Pagel Item Q ty Reference Part 1 1 Gi 2 2 HO 2 1 C2 33p 3 8 4n7 C15 4 2 12 4 100n 5 3 Co CT Cl6 1n 6 1 C10 100uF 35V 7 1 D1 HSMS2800 8 1 D2 5 1 SMD 9 9 FIX1 FIX2 FIX3 FIX4 FIX5 FIX35 FIX6 FIX7 FIX8 FIX9 10 1 FLAT16V 11 10 1 2 3 4 5 6 7 8 JSMD J9 J10 12 4 PD1 PD2 PD3 PD4 PAD 13 1 RV1 50k 14 3 R1 R3 R9 100 115 2 R6 R2 1k 16 R4 10k 17 R5 2 2 18 1 R7 64k9 19 2 R8 R10 10k0 20 1 211 4k99 21 s TL1 TL2 TL3 INE 1 22 TL4 INE
50. 5 7 RR7C 1 5 JUMPER3 12V JUMPER3 4 JP9 2 10 0218 RR2D 219 RST AL REM 4 3 STDBY_REMg 7 4 3 TLP620 ay oam TLP620 7 AKTE D3 V 7_ALR_RST 014 rere D3 V 1 STDBY p p d 7 RR8D 1K5 9 7 RR6D 1K5 JUMPERS 12V JUMPER3 5 To JP13 JP14 RR1C e RR1D DL12 LE PL REM NP REM g 7 4 3 475 4K7pF aR TLP620 4 4K7pF C19 4K7pF 5 PL 620 AKTpF D3 V 7 SAI 1K5 7 RR5D 1K5 JUMPER3 12V JUMPER3 2 0 JP17 o JP18 RR3B DL13 ly c2 o 0114 Y e AM REM _ 4 4 3 F EXCT2 REM 1 4 3 oam TLP620 TLP620 NELL 25 D3 V AM 26 D3 V F EXCT2 D 4 3 526 03 4 1 7 7 RR5A 1K5 JUMPER3 o JP21 RR3D RR1B 2 8154 4 3 EXCT REM 3 4 3 5 a e TLP620 d 4K7pF 41 TLP620 N 4K7pF C81 gor 3 V 7 _ 8154 00245 were 3 V 4 F 7 A RR5B 1 5 12V 12V d MPERS 0614 2 0 JP25 0019 DL20 0357 _ LE RISI IN REM 4 3 AUS INT 1 4 3 downs TLP620 doa TLP620 C36 D3 V 4 5 RISI 037 AKTpF D3 V 1 AUS INT 7 RR8C 1 5 7 RR6A 1K5 JUMPER3 PJ5K ELET2 7 o JP26 C RL3 C387 8153 4 3 12V 4 478 620 A 4K7pF WAIT c39 D3 V RIS3 4K7pF 4 1 WARN 7 RR8A 1 5 JUMPER3 DAC2 DAC3 JP28 DACS
51. 5 2 Amplifier check The operator controls and checks the status of the PJSKPS by means of the control unit Three control groups are present on this unit LCD and scroll buttons O Buttons selector switches and LEDs o Analog instrument and rotary selector switch User amp Technical Manual Rev 1 5 08 02 06 15 80 PJSKPS 5 2 1 16 80 Display LCD Overall Statue Control Unit SuPPlu Combiner Press Esc for Menu Hours 88815 Figure 5 6 Default screenful Menu Select Control Unit Power Surely Combiner Unite Alarms Service Settings Exciters Info Felease Figure 5 7 Menu select screenful R Y R The operator uses the control software of the transmitter by means of a series of menus that are displayed on the LCD Four specific keys are provided for scrolling through the menus performing the settings and giving the commands Pulsante Descrizione OK Click this button to access a sub menu to enter the editing mode or to confirm a modified value ESC Click this button to exit from a menu or to cancel the modification of a value 4 Click this button to scroll inside a menu to the right or down or to reduce the value of a parameter being modified Click this button to scroll inside a menu to the left or up or to increa
52. ACK_RIS2 OC 2 8203 12V 1W LL OFF OC ACK RIS3 OC 27 28 ACK RIS4 OC ULN2004A 22R 22R 10K 26 OUT x DAC2 OUT U32E R206 R207 DZ7 DZ8 DAC3 OUT 3 DAC4 OUT RIS3 gt 5 12 8183 OC m DACS OUT F DAC6 OUT ULN2004A 228 228 SVIAW CON34A U32F R209 R210 12V 5V 777 y TK CM27pF Loc ACK RISA4 gt 6 RIS4 OC U33 s e J R208 z zl LM7805 TO220 27 2 228 DE1 LOC ULN2004A 22R 22R gt 3 oom 8211 8212 47 U32B R213 R214 C96 C97 3 a 1 gt 80 AUD ARM 2 15 AUD ALRM OC CM 1uF OUT IN 0 12 O mE 71 C79 ULN2004A 22R 22R 7 77 Celi 082 77 77 RXD1 485 CM 1uF CM 1uF CM27pF RXD1_MAX 3 Ls 1 U22 E R215 R216 q 5 7 gt 5 12 MUTE1 OC 77 7 7 7 DEI 8 dd 1 12V 11 28 9 2 0 5V CLK ULN2004A 22R 22R 8450 IET 035 1 25 T pe U22G R217 R218 4 Vi 084 45V 14 ay panos gt gt 7 10 MUTE2 OC 1 J U36A x RX INT JP6 4B 40106 U37A ULN2004A R219 aloi gt v e C85 Si vec 16 v ULN2004A 22R 22R C103 C104 C105 RXDO 1 A Y L Lg CM 1uF CM 1uF CM 1uF LA c86 1 25 1 25 77 JUMPER 2 Lode U22D R22 4 R225 mm of 4 ES 4 1K5 LED D3 0114 57 p BOND DUE A MAIN EXCT 4 13 HH trout 4 ULN2004A 22R 22R 40106 U36F U37B ULN2004A R220 TX INT RXD1 MAX TAIN
53. In a residential place this equipment can cause hash In this case can be requested to user to take the necessary measures R V R Elettronica SpA reserves the right to modify the design and or the technical specifications of the product and this manual without notice 2180 1 5 08 02 06 User amp Technical Manual PJ5KPS 2 Warranty Any product of R V R Elettronica is covered by a 24 twentyfour month warranty For components like tubes for power amplifiers the original manufacturer s warranty applies R V R Elettronica SpA extends to the original end user purchaser all manufacturers warranties which are transferrable and all claims are to be made directly to R V R per indicated procedures Warranty shall not include 1 danni verificatisi durante la spedizione della macchina alla R V R per eventuali riparazioni Any unauthorized repair modification Incidental consequential damages as a result of any defect Nominal non incidental defects a A N Re shipment costs or insurance of the unit or replacement units parts Any damage to the goods must be reported to the carrier in writing on the shipment receipt Any discrepancy or damage discovered subsequent to delivery shall be reported to R V R Elettronica within 5 five days from delivery date To claim your rights under this warranty you shold follow this procedure 1 Contact the dealer or distributor where you purchased the unit Descr
54. One of the fuses or of the interlocks of the power supply is blown or open O Tmp The power supply is overheated Combiner Fwd Forward power above its limit Rfl Reflected power above its limit O dvr In Overdrive main exciter O dvr Ld Too much power dissipated on the internal dummy load stand by exciter Unbal Unbalancement power above its limit Overheating the unbalancement rejection load resistors Exhaust Exhaust overheating SWR SWR above its limit O Tmp Internal overheating R F Units Fwd Forward power above its limit Reflected power above its limit In Input power above its limit Tmp Overheat of the RF module Drv Driver current above its limit Mos 1 Current of the MOS module 1 Mos 2 Current of the MOS module 2 Mos 3 Current of the MOS module 3 Mos 4 Current of the MOS module 4 Eff Efficiency too low Fuse Module s fuse broken O Tmp Overheating ov the module s heatsink User amp Technical Manual Rev 1 5 08 02 06 51 80 5 5 7 6 Combiner and divider 7 6 1 52 80 Control Unit The RF combiner section too is equipped with it own microprocessor control unit This is very important for the functionning of the whole transmitter because it checks the foldback line of the several RF modul
55. Power Supply Status of the power supply cart R F Combiner Status of the RF combiner R F Units Status of the RF power amplifiers Alarms Summary of the occured alarms Service Service menu for the switching on off of the modules Settings Setting of the parameters i e Power levels Exciters Parameters of the exciters i e output power on air exciter Info Information concerning the configuration of the PISKPS Release Information concerning the hardware and software versions of the modules composing the unit Modem Settings related to the optional telemetry system see chap 9 To return to the predefined menu select General Status and press OK Rev 1 5 08 02 06 27 80 PJSKPS Menu Control Unit R Y R InFutes Outeute Ext Intl Of f Relay Of f Aux Intl Df f Exct 1 Hute 0ff Excl A Audio Uff Exct z Hute Uff Exc H Hudio 0ff Audio Hlarm 0ff L F Timer Df f Exc Mains Un Eezerue 7 off Df f REezeruve 4 off Bus inbPut Bus outLeut Stand bu Dff Stand bu Of f Total Eff Figure 7 3 Control Unit menu 7 1 3 Control Unit menu Informative menu on the inputs and the outputs of the control unit of the machine Linea men Descrizione Ext Intl Input status external interlock JP4 4 parallel interface Aux Intl Input status auxiliary interlock JP4 5 Exc1 A Audio Input status
56. R54 R60 R61 R65 R71 R73 R77 R80 R84 R93 R98 R102 R107 R110 R114 R117 R120 R122 R186 R240 5222 127 135 143 153 165 177 5182 R192 R193 R200 R201 R206 R207 R211 R213 R217 R218 R247 R146 R156 128 136 147 157 166 E 22 20 RX 2 2 22 2 2021 RN R244 R124 R173 R194 8228 R234 R12 R36 R39 R44 R57 R62 R63 R67 R76 R78 R82 R85 R99 R104 R112 R1 R121 R133 R145 R178 R180 R190 R125 R141 R150 R R40 RA1 RA3 R46 R53 R56 R58 R59 R70 R72 R75 R79 R92 R96 R100 R105 R113 R116 R119 R138 R144 R154 R175 R198 R219 R94 R97 R111 129 139 148 158 170 183 196 8202 R208 R214 R224 2 2 20 RX 2 R168 PJ5KPS R2 R6 R7 R8 R9 R10 R13 10K R14 R15 R16 R17 R18 R20 R21 R22 R23 R24 R26 R27 R28 R29 R31 R33 R34 R51 R87 R88 R19 R25 R32 R89 R137 R181 R195 R229 R238 R45 R50 2K2 R66 R90 87W 20K X22R 847 47 R69 R91 15 R155 R212 162 100R R48 1K5 R64 R83 R123 R163 R220 33K 1M 131 22R 140 151 160 171 188 197 8204 8209 8215 8225 RN R179 10K5 X10K 220K 10M 100K Control unit CPU board SLCCUPJ5KM2 5 6 ENT ELETTRONICA 50 51 52 53 54 55 56 57 58 59 60 61 62 63 64 65 66 67 68 69 70 71 72 73 Appendix to the us
57. Rev Canazza Data 8 11 01 Codice Progetto lt gt Nome PC in Rete lt Path PC gt Revisione 1 0 DC Parte INTERFACCIA REMOTA DC File Cartella lt Code gt Autorizzazione Codice CSINTREMPJ5KM 2 Appendix to the user manual 2002 R V R Elettronica SpA All rights reserved Parallel interface SLINTREMPJK5M ELETTRONICA 5 5 5 4 2 1 DACS OUT 45 12V 0 C_RL4 42v 0 4 C_RL3 4K7pF 7 Kg 97 RR9A 135 3 2 ACK RISI RR13D _DAC6_OUT 2K2 TA 9 2 2 JUMPERS LL C44 4K7pF DL24 125 4015 _ 79 4 psv WF JP30 DAC3 OUT s 1 S R8 10 ig db ZFH 12V D ue ACK 181 OC XP ACK
58. SWSAFE SW SAFE 47K OC P5040 Re R129 2 2 2 010 121 IN INO gt 5 INO 47K 1 40106 CM 1uF C63 R124 2 2 0108 8125 INI 47K 40106 CM 1uF C64 45V R128 2 2 IN IN2 12 uL 40106 CM 1uF C65 R134 2 2 225 en R135 ULN2004A 11 ng 47K 40106 UNE CM 1uF C66 R140 2 2 45V U12C U12D R141 5 4 gt T 47K 1 A 40106 40106 CM 1uF C67 8144 2 2 45V 0128 8147 IN5 T 47K 40106 CM 1uF C68 5V IN_ING IN6 R15 2K2 45V U12F R157 gt 13 47K 40106 CM 1uF C70 IN STDBY IN ON RESOUTC C82 C83 C84 Nome Progetto PJ5KPS Scheda CPU Pagina 3 di4 Size A3 Autore Griptech Rev Canazza Data 02 10 2002 Codice Progetto Nome in Rete Vut srv Revisione 1 0 DC Nome Parte Sezione 1 0 digitale File Cartella CSCPUPJK5M2 DSN Autorizzazione Codice 3 2 1 SLCPUPJK5M2 Appendix to the user manual 2002 R V R Elettronica SpA All rights reserved Microcontroller board SLCPUPJ5KM2 ELETTRONICA PJ5KPS 5 4 3 2 1 VDD VREF 085 7 R218 108 PTB2 4 5 7 CM27pF 6 82 086 087 C88 C89 C90 C91 c92 C93 C94 RIED STRIP 2 CM 1uF CM 1uF 10 2K2 5V 8161 Yi R162 VY 10M 32 768 KHz C122 ADO C95 IN ADO di zao piglia Fh 4 4 3 4 177 d d UN CM27pF 2 AST P RS 896 pm EL CM1KpF C
59. The connection of the machine to the electric alimentation is performed fixing to a 5 poles cable with bare terminals to a terminal block Making sure without any possibility of error that the cable is not under tension while working on it It is reccomended not to turn on the machine without firsthave connected the RF exit to the antenna or to the dummy load The PJ5KPS requires triphase alimentation 3F N able to give 16A for phase Keep this requirement in mind in connecting to the personal distribution board 10 Reposition the protection panels of the RF modules and of the transformer rectifier carriages 11 the PUSKPS was not supplied complete with pre assembled exciters insert and connect the exciters into the appropriate housings The connecting cables for the exciters are already inside the rack namely Right MPX bal audio connection XLR connector Rev 1 5 06 02 06 User amp Technical Manual R W R PJ5KPS Left Mono audio connection XLR connector MPXunbal audio connection BNC connector Power supply VDE connector Control connector DB15 connector Now you may may perform the preliminary checks on the amplifier and start it up The connectors on the roof of the machine are not in parallel but directly connect to the eciters L and R exciter 1 L and R exciter 2 etc Keep this in mind to make the audio connections that in some cases can require for example the use of an audio distributor
60. and its date and hour The module that detected the event is indicated by one of the following acronyms e CU Control Unit e P S Power Supply e R F X Amplifier module X from 1 to 5 Combiner Splitter The type of event allows to identify the origin and the consequence of the fault The first letter of the type of event eg F C B Blw can be one of the following E Error event that doesn t cause the interruption of the supply of power but can reduce the functions of the equipment e g cannot be done the changeover function of the exciters F Fault event that causes the block of the equipment and requires the intervention of an operator for the restart W Wait event that causes the temporary block of the piece of equipment equipment that will be removed as soon as the problem is solved R Retry event that causes a temporary block of the piece of equipment that will effect a restart attempt after a fixed lapse of time The possible type of events are listed in Table 7 2 50 80 Rev 1 5 06 02 06 User amp Technical Manual ELETTRONICA Code PJ5KPS Meaning Control Unit E Intl The external interlock is active A Intl The auxiliary interlock is active Audio 1 The Audio alarm of exciter 1 is active Audio 2 The Audio alarm of exciter 2 is active Ris 1 The RESERVE 1 inputis active Ris 2 The RESERVE 2 input is active Ris 3 The RESERVE 3 input is
61. eM 13 1N4148 Nome Progetto pJ5KPS Adapter PS and Combiner Pagina 1 di 2 Size y CM 1uF CM 1uF 1 25 C108 12V 058 BAT83 d SI y LM324 150R CM 1uF gt Autore Mauro Ucelli Data 31 05 2001 Codice Progetto lt gt AS j 7 Nome Rete UT_SRV Revisione Nome Parte ADAPTER PS COMB Cb 5kw File Cartella CSADPPSPJ5KM2 DSN Autorizzazione Codice SLADPPSPJ5K2 Appendix to the user manual 2002 R V R Elettronica SpA All rights reserved PS and combiner CPU adapter SLADPPSPJ5K2 2 4 ELETTRONICA 5 5 CSRLYCPROTVJ OC OUTO OC 0011 OC 0012 OC 0013 C
62. ib 17 23 12V Ki 8 18 CIN 06 19915 2 PIAZZ 2P 079 5 5 9 AD7 PIAZZ 2 PD16 JU I 1 io dp B SEL 4 20 CLIXSON CIN INO 2 T 9 TYPE POWER 257 0 4129 C83 020 12 mos 1 STRIP20 9 SEL VISI CIN 1 5 CD1KpF Bo ib 77 EL VIS IN6 2 JP5 5 a a co osi Bn WEST CIN IN7 1 4 SEL 5 CS 5 E SEL 0 0 Rel DE e c 3 b 86 A 6 SEL_2 TQ2 12V EF b 5 SELS 2 08 12 30 2V 5 5 I CIN IN5 5 He H IE CD1KpF 2 pome CINCING 777 lt 02 SEL 5_ ELI 2 1 IN7 gt 13 14 SEL 6 CD1KpF OUT_GFB 5 R123 4 8p a 151 L1 SEL 7 8124 SEL 6 E poy R125 1K COUT_GFB si 10 ASSEGNAZIONE INDIRIZZI CON18AP 1 OUT DACB A LM324 108 USE ti C FAN 1508 D51 1 12 0 RISERVATO 12 5 Tide 2 x 1 POWER SUPPLY 26 f X O412V 8 084 O 12V 4 5 020 1 2 TL074 CIN SEL 7 R 4 COMBINAT R127 R131 C102R132 ae p 410 gt i aie 12 PX 960 D54 gt BAT83 SEL 6 6 7 n 100R M 10K 9 _ m 1 19 1 t t ai gt 100R 055 BAT83 20 P 4 4 LM324 150R 97 7 C87 OC STDBY 088 C89 C90 C91 TR 1 25 GDAKBE 7 CM 1uF CM 1uF CM 1uF CM 1uF U7D 77 064 D56 3 DI DI si 1 Bid CD1KpF REJ MP 1 4 E 4 Mi xl 12 057 gt BAT83 EL7 7 2 5 2 tuF
63. it preferable of use the SERVICE menu in which this value comes adjourned in real time 12 8 6 4 11 2 1 6 8 0 9 6 3 2 9 6 4 8 11 2 Figure 8 2 1 2kW modules regulation phase 8 3 Splitter board trimmers On the entry splitter board are present two trimmers for the regulation of the measure of the emitted power from the two exciters These measures are those visible in the EXCITERS menu LI m oo n CSSPLMEASKWI 2 Figure 8 3 Trimmers read powerof exciters 54 80 Rev 1 5 08 02 06 User amp Technical Manual ELETTRONICA On the circuits of power measure of the exciters there are two compensators to maximize the directive and minimize the operation error measure of the frequency of operation PJ5KPS Load O Figura 8 4 Direttivit testine di misura splitter 8 4 Parallel Interface The parallel interface present on the roof of the PU5KPS is described into the chapter In following a small description reassumed the functions assigns to the clamps JP35 JP12 JP48 JP8 JP4 1 10 1 8 1 8 1 8 1 10 1
64. pale zb a7 I 680p R10 R11 C12 C13 C14 27 27 4n7 4n7 4n7 L2 VK200 BIAS R8 R15 150 R16 150 C20 22 1 4n7 D6 1N4004 C22 ET 33uF 63V R18 150 R19 150 A 1 1 812 R13 282 R14 1k J R20 Rxx R21 Rxx eel i 680_1 4W 1 025 C45 C46 C26 2 4 47 47 eR N 680p_HQ 1 7 R30 R31 C28 027 1k5 2W 1k5 2W 2 20p B p C30 680p HQ 4n7 13 C31 6 32 Cxx LL C39 21 037 MOSI 823 BLF175 14 TRF1 6 8 1 4W R24 Rxx R25 Rxx IN MATCH 4W 750 E12 RLTQ2A TL9 250 1 5 TL13 250_ 250_ 1 5 777 DCPLRI dr C43 C44 680p HQ 680p HQ 777 CPLR PJ5000MC Driver modulo 1 2 kW Pagina 1 di 1 Size A3 Autore Mauro Ucelli Data 07 06 01 Codice Progetto lt gt Nome in Rete SRV Revisione 1 0 Nome Parte Driver 1KW Unit File Cartella DRIVERTKW DSN Autorizzazione Codice CSDRVRFPJ5KM 2 1 Appendix to the user manual 2002 R V R Elettronica SpA All rights reserved RF module driver SLDRVRFPJ5KM 2 3 Ra ELETTRONICA CSDRVRFPJ5KM Bill Of Materials Pagel Item Q ty Reference Part 1 8 C1 5 017 025 027 C 39 680p C43 C44 2 2 C11 C2 100n 63V 3 24 06 07 68 09 CL0 4n7 12
65. s gt SCLK STDBY E RST ALIA 516 R W AN m USA R W 18 PGS SED RXDO TXDI VAN os 29 2G GND 9 DEO 67 VRHO Pas 2 DEI TXDO DEO R230 USB 7 139 com N EXT_INT VRLO PG R12 DEI 55 E EXT INT 69 288 4 ug AUS INT PADOT PHPUD 1 2 i 4 8 4 MAIN EXT MBINUERG 3 UG STDBY_IN 73 Pap LE STDBYBUS M adea DO o gy L2 ON 3 Input ALR IRQ NS 47K CLK vie Re AIR DUE IRQ ALR OUT A01 14 5057 3 AN 22 7 6 OFF LOC 77 panos PH2 O CLK LOC LOC ON TST 10K Da D3 ACK PL PB EXC79 PAD 49 STDBY_TST 0 45V ES 1 p4 quasi 693 PB PL 8 05 35 PBESC 1ST ME OFF Ta D4 05 12 NP PB NP PADO6 4 PBDW TST SC TST OFF 74HC139 D5 14 15 EXCT DEB PAD07 PHS V PBDW TST TST CLK LOC 06 06 06 2 ACK AM Input Anlg In CM tuF LEX ge PBUP IST Ts AM TST ida DI I VREF 86 VRHI PH7 2 PBOK TST Rer AL fest AL TST 5 GND cud 18 3 pg 87 BOK 151 TST TST 4 INPUT INPUT 20 pso e29 RXDo o ERRTU 21 dX CLKO CLKO Bk 741 273 R13 LOADi 72 BAD pe Lon TXDO R14 RST CIR SNB F_EXCTI 74 PSs RXD1 10K 800007 4 LOAD _ 815 10K 2 76 12 92 TXD1 U8A 09 PAD13 53 CCU IN XCM10pF CHG MR 78 5 013 853 MISO
66. 0210 4K7pF C66 DL36 4o 4 ray d lt AA 4 HR NE HT 777 s 10 ACK NP OC x 16 ZFH 12V m d 16772 3 pace our _ 6 T dei 069 4 A 4 7 BZWO45V8 FF fax on _ 12 0 4 PULS O C RL3 DZ12 4KTpF 7 K22 7 TT 979 RR12C 135 3 DS E PD4 RR10B px 777 ene gmn JUMPER3 7 7 STDBY OC i gt E ps oa DL38 t 0139 FAULT Pagina SHAS Cn D3 v WF 4 8 pav WF JP469 2 t 747 4K7pF x Loo N CERE NS 1 JUMPER3 d LAUDIO Rev Canazza Data 8 11 01 Codice Progetto lt Project Code gt PD4 2 27 LET E Nome PC in Rete UT_SRV Revisione 1 0 DC Nome Parte INTERFACCIA REMOTA CSINTREMPJSK DSN Autorizzazione Codice CSINTREMPJ5KM 5 4 2 1 Appendix to the user manual 2002 R V R Elettronica SpA All rights reserved Parallel interface SLINTREMPJK5M PJ5KPS ELETTRONICA SLINTREMPJ5KM Bill Of Materials Pagel Item Q ty Reference Part 1 2 C1 C45 47 25 2 70 2 3 04 65 06 7 08 9 4 7 C10 Cl11 C12 C13 C14 C15 C22 023 C24 C25 C206 C27 C28 C29 C30 C31 C32 C33 C34 C35 C36 C37 C38 C39 C40 C41 C42 C43 C44 C46 C47 C48 C49 C50 C51 C52 C53 C54 C55 C56 C57 C58 C59 C60 C61 C6
67. 0811313 Nome PC in Rete UT_SRV Revisione 10 DC Nome Parte Scheda misure absorbers File Car tella ADKDIP_LY DWG Autorizzazione Codice SLADKDIPK5K2 Scala lt gt Materiale lt Trattamento Profilo lt Appendix to the user manual 2002 R V R Elettronica SpA All rights reserved Unbalancement measurement CPU board SLADKDIPJ5KM2 173 ELETTRONICA 5 5 5V yo 4 4 n 7 C2 4 7V 5 5 069 68 R1 R2 R R4 CR R6 i 5V 10n U1A 7V 7V 5V 7 10k 10k
68. 32 0x06 Out Dig Tot Digital output number 32 0 07 Gen Tot General number 3 Analog input data block 0x08 INANAO Input Power 0x09 INANA1 Load Power Analog output data block OUTANAO RF combiner output power OXOB OUTANA1 RF combiner reflected power 0 0 2 Air temperature OxOD Power supply voltage OxOE OUTANAA Efficiency Digital input data block OxOF INDIGO 15 Bito Ext Interlock Bit1 Aux Interlock Bit2 StdBy In Bit3 Service Request Bit4 Local Remote Bits Manual Auto exchange exciter Bit6 Low Power Bit7 Nominal Power Bit8 Fault Exc 1 Bit9 Fault Exc 2 Bit10 Manual Exchange Digital output data block 0x11 OUTDIGO 15 BitO Fault Wait Bit2 Warning Bit3 Audio Alarm Bit8 Ack On Bit9 Ack Std By Bit10 Ack Off Bit11 Ack Low Power Bit12 Ack Nominal Power Bit13 Ack Change Exciter Bit14 Ack Manual Excange 0x12 OUTDIGO 15 Bit0 On Off Bit1 Stand By Bit2 Backligth Bit3 Relays Exciter Bit4 Mute Exciter 1 Bit5 Mute Exciter 2 Bit6 On Off Exciter Bit8 Ack Res1 Bit9 Ack Res2 Bit10 Ack Res3 Bit11 Ack Res4 76 80 Rev 1 5 08 02 06 User amp Technical Manual ELETTRONICA 9 3 1 2 Hybrid Coupler Configuration data Block PJ5KPS 0 00 ID Device ID 0x01 RH Hardware Release 0x02 RS Software Release 0x03 In_Ana_Tot Analog input number 10 0x04 Out_Ana_Tot Analog output number 0x05 In_Dig_Tot Digital input number 16 0 06
69. 5V1 0 5W 2 777 244 C1 20 026 10K 7 4 5V1 0 5W 7 R192 iii CHO P 12 CH3 D 8191 4 7 0 U22A x CHO_D oe 00 8194 10K lt 74HC139 CHIP as 7 1 vi D R195 197 10K __4 2 vi lt __ D2 R199 10K 0117 D 8198 CM 1uF 20 CH2 D R200 ART CH5 D3 R201 10K CH2 D4 R202 10K D5 R203 10K RST P ENA PA7 D6 R204 10K IRQ u21 D7 R205 10K ET 74HC4053 P MISO _ 8206 10K STRIP 5X2 74HC139 55 8207 10K 5V 5V 5V 5V 5V 5V 5V R208 10K 5V 12V U23 SELO _ 8209 10K si yola 2 MISO lt 8210 10K 2 ad R211 D27 R212 TXD R213 10K GND 5V 1M 2K2 BAV99B BAV99B BAV99B BAV99B BAV99B BAV99B 256080 IRQ R215 10K BAV99B RST VREF RXD_ R216 10K MOSI R219 10K 40106 10K _ JP6 U14D Tl eue LM336 5 0V SCLK 8220 10K 1 25 CM1KpF D29 CM 1uF Nome Progetto PJ5KPS Scheda CPU Pagina 4 444 Size A3 STRIP 2 al lt EARTH Autore Griptech Rev Canazza Data 02 10 2002 Codice Progetto Nome Rete ut_srv Revisione 1 0 DC Nome Parte Sezione micro File Cartella CSCPUPJK5M2 DSN Autorizzazione Codice SLCPUPJK5M2 5 4 3 2 1
70. 9 Mosfet 3 Current 0x12 INANA10 Mosfet 4 Current Analog output data block 0x13 Foldback Digital input data block 0 14 INDIGO 15 Bit0 On Off Bit3 Std By In Bit8 Over Temperature Bit11 State of Fuse Digital output data block 0x15 OUTDIGO 15 Bit4 StandBy Bit5 Sqr Bit8 Led Red Bit9 Led Orange Bit10 Led Green Rev 1 5 08 02 06 User amp Technical Manual ELETTRONICA 9 3 1 4 Power Supply Configuration data Block PJ5KPS 0x00 ID Device ID 0x01 RH Hardware Release 0x02 RS Software Release 0x03 In_Ana_Tot Analog input number 2 0x04 Out_Ana_Tot Analog output number 0 0x05 In_Dig_Tot Digital input number 16 0x06 Out_Dig_Tot Digital output number 16 0x07 Gen_Tot General number 3 Analog input data block 0x08 Bus Volt 0 09 INANA1 Temperature Analog output data block Digital input data block INDIGO 15 Bit0 On Off Bit1 StdBy In Bit3 Mains Fault Bit8 Over Temperature 1 Bit9 C B Bit10 Fuse 1 Bit11 Over Temperature 2 Bit12 Fuse 2 Bit13 Restart Safety Bit14 Pressure Digital output data block 0x0B OUTDIGO 15 Bit4 StandBy Bit5 Sqr Bit8 Soft Start 1 Bit9 On 1 Bit10 Soft Start 2 Bit11 On 2 Bit15 Blower 9 3 2 Timings Main routine timing Modem detection cycle Modem init after restart Modem init when detected 1ms 34s 50s 505 Maximum answ
71. A3 Adattatore CPU PS e combinatore SLADPPSPJ5KM2 10 4 A3 Rettificatore trifase SLRCTPJ5KMC 1 1 3 A3 Scheda CPU control unit SLCCUPJ5KM2 1 0 6 Scheda madre control unit SLCCU1PJ5KM2 10 Interfaccia parallela SLINTREMPJ5KM 1 0 4 A3 Splitter scambiatore ingresso SLSPLINPJ5KW1 10 3 A3 Scheda CPU misura sbilanciamento SLADKDIPJ5K2 1 0 3 A3 Adattatore CPU bias modulo RF SLADBSPJ5KM2 1 1 5 Driver modulo RF SLDRVRFPJ5M 1 0 3 A3 Alimentatore switching modulo RF PSSW5040 12 5 A3 User amp Technical Manual Rev 1 5 08 02 06 1 2 Technical Appendix PJSKPS 2 2 Pagina lasciata intenzionalmente in bianco This page intentionally left blank Rev 1 5 08 02 06 Manuale d uso e manutenzione Appendice tecnica 5 5 CSRFOO40R2 me a9 ar NOME PROGETTO REVISIONE FINALE RF PJ1000M 60 NOME PARTE FINALE RF AUTORE GASPERINI DATA 03 08 2005 REVISIONE 1 0 SCALA 1 1 SIZE A4 PAGINA 1 DI 1 ARCHIVIAZIONE ELETTRONICA CARTELLA PROGETTI SU UT_SRV CODICE PROGETTO 042 conice DISEGNO SLO42RF1001 MATERIALE lt gt TRATTAMENTO lt gt PROFILO lt gt STATO PROGETTUALE Appendix to the user manual RF Amplifier module SLO42RF1001 1 3 2002 2006 R V R Elettronica SpA All rights reserved 5 5 R Y R 100145427015 TeuopzezzHio yy
72. ALARM ALARM GND EARTH RESOUT RESOUT PJ5K 1 0 Appendix to the user manual 2002 R V R Elettronica SpA All rights reserved GND EARTH 77 C32 LI I v TI OC P5040 GN PJ5K_MICRO 12V 12V CH_VPA OUT_IOR IN_IOR IN_GFB D EARTH FOLDER PJ5K_FOLDER Autore Nome Progetto PJ5KPS Scheda CPU Griptech Rev Canazza Data 5V1 1W DL2 LED 12V CM 1uF DL3 033 5V1 1W 634 E uas C35 1 25 LED CM 1uF Pagina 1 di 4 02 10 2002 Codice Progetto Nome PC in Rete ut_srv File Cartella CSCPUPJK5M2 DSN Microcontroller board SLCPUPJ5KM2 Revisione Autorizzazione 1 0 DC Nome Parte Scheda CPU Codice SLCPUPJK5M2 ELETTRONICA PJ5KPS TLO74 R48 10K R49 060 R52 R53 VREF 5 PWR 2 R54 25K5 20K HER CH VPA gt 100R 1 64 lt JouT_GFB DI 100R 99 R58 D2 U6B C40 220 25 T 12V TLO74 BAV99B 77 CM10KpF _ C41 Pso40 gt gt R61 R62 T R63 4K7 10K 39K Q 043 M C139 OUT VBIAS UNB AN C44 R72 C45 R71 100K
73. At this point click on WRITE SETTINGS and then WRITE EEPROM you will see the blue progress bar indicating the software is loading into the TLC5KPS 72 80 Rev 1 5 08 02 06 User amp Technical Manual R Y R PJ5KPS Settings loaded Database Phone Number 1439332000004 Yes 2 439332000004 Yes 3 4390539090099 No No No No No No No No Normal Normal Normal Normal Normal Normal Normal Normal Alarms Enable ER 8 2C RE Read EEprom Write EEprom Load Settings Save Settings Exit The display of the control unit of the amplifier will show in the menu firmware version 3 9 and up the stored telephone numbers the SMS service center number the modem status and the kind of connection Henu Tyre Auto I D 21 Mame ExamPle station 5 12345567898 Info METWORKPROU Dial ATOT Phone 23456789081 Phone 3456789817 Phone 4567898123 Phone Fhone Fhone Fhone Phone Fhone Fhone Level 65 dB Status ketri 225 Wait about 2 or 3 minutes and check the display or the LED MODEM PRESENT on the top ofthe rack the correct update of the firmware configuration On the display you will read on the display the signal level and the status ofthe modem Please note that it could be necessary to exit and reenter in the Modem menu push ESC to refresh it User amp Technical Manual Rev 1 5 08 02 06 73 80 5 5
74. CM 1uF 21 15 mu 2 ALR IRQBUS GND EARTH 4 4 4 2 R120 2207 5V TR 0208 8121 TLP521 4 R122 Nome Progetto PJ55000MC Pagina 2 di3 Size STDBY_IN 4 14 3 12 2 ie Codice 40106 47 2 iy 2 2 Autore Griptec Rev Canazza Data 07 10 2002 odice Progetto lt gt da CM 1uF 2 13 UTSB 4 STDBYBUS Nome PC in Rete NUT SRV Revisione REV B 1 0 DC Nome Parte CORE CONTROL UNIT File Cartella CSCCUPJ5KM2 Autorizzazione Codice SLCCUPJ5KM2 A B D E Appendix to the user manual 2002 R V R Elettronica SpA All rights reserved Control unit CPU board SLCCUPJBKM2 3 6 ELETTRONICA 5 5
75. FAN OC OUT7 DISS A TELAIO R1 N1 552 5 1 _ 4 i vola e Hay IN INO RELE POWER 2 RIS C FAN C1 C2 C4 C5 C6 1 7812 il 820R d 7 01 2 C7 08 71 ppg FEM oa 7 s oc al lt al al al 1 cD4KzPF 151 581 0 0010 100 35 lt C9 4125 1M 4 52 OC OUTS3 y e R2 C10 9 FAN 0017 1 1 CDIKPF CDIKPF X CD KPF CDIKPF 777 4 M 7 5 2 77 CM 1uF 3 DISS TELAIO EE m LL ida le 4 __ 15 smi RS IN_INI L bia 820R H3 CD1KPF D1 12 21 2 852 015 1 02 617 LL 018 CD4K7PF 021 470 35 CM 1uF 100 35 CM 1uF C19 4N25 5 1M J 1 2 85 lt lt LM7812 E ll R4 C20 18V DW A 1 U2 9 RE M tuF CD4K7pF RXE110 1 1 t 1 777 CN2 R6 RXE020 5Re 2W R7 88 12V_S 88 _ RCT1 IN_IN2 em 2 Te 18V_UP AQ 23 CM tuF 024 C25 820R 15 lt CM tuF isa T RXE110 470 35 100 35 al 3 J ele o L18 F 4 4 fil vo 4 101124 026 4 1M 514 AST_SAFE E R10 C27 17 629 1 4 ls PRES al U3 4 y gt UE 2 CD4K7pF 777 s m 2 77 LM7912 Sarr en 45V cuo PU IN3 7 B 820R a2 EEN 117 513 Boi isa 1 21 CD1KpF CD4K7PF q ols NC 4 059 060 x C30 4n25 1M 0 2 LL 2 4 IN __ BUS CU lt R14 031 10 SMI 014 11 lt o
76. H1 Bi 1N4148 i DUE 2311 2 d 7 3 i 25 26 7 098909 1N4148 sar T2D 2 G X BOB1 11 2 4o di x CM tuF 1 1 a VEXT ay 26 ACK STDBY 001 e D16 1N4148 S1 of B 058306 BOB 11 FL 77 F21 DSS306 LOC SEL 1 e L3 088 l 44 STDBYBUS1 7 22 MASCHIO 47 ERE STDBYBUS ee ad JUMPERS 7 of x BOB2 1J 22 CONNECTOR DB9 7 MAIN EXCT 2 255 056806 K5 4 Ds Maschio INP 16 c ACK OFF 3 En RIST IN REM CB9 HJ i 7 TA 9 B LOAD gt a 184148 7 47 CB23 TS 29 235308 2 06 8083 cup o 7 7 _ 1N4148 NO DBO FEMM F26 DSS306 2 8 AM OC 1 3 caio CB2 4 2 15 CD27PF SWAP 8 J 58800 CB11 15 RIS2 IN REM 1 0810 li 1 5 7 BOB 33 2 REM NO 9 CB13 3 956306 STR 4 44 2 5 i A 089 lo o 757 R4 x 2 Lo BOB4 11 L3 BOB 44 CBi2 4 1 571 C5 CM4K7pF ACK PLOC CB3 ul x120RCR5 1 Ps 29 085306 BOB 11 22 CB17 RIS3 IN REM 1 3 CBi1 8 7 D 4 f 30 55306 18 STR pa 2 EON ES 15V 1 2W 15V 1 2W VEXT 7 612 9 4K7 BL02 1 T SAT R6 C6 gt p7 N ALR OC 1 0273 024 77 40 le ACK OC 1 3 CA12 CB
77. HA 10k E 10k 100n 9 4 1 _ R7 9 100n tuF 35V y 2 1 065 066 100 U2 SWI 21 27 R9 st Ce SINCRO IN 3 vec jd 2 2 8 tata TLO72SMD 190 1001 SYNC IRST O RST gt _ 47k 1 4 8 PA2 3 6 7V 77 GND 0861 2 4 1 5 bosco 8 1 4 5 lt 10kS 10 lt 12k0 U4 R15 1 809 16MHz PTA4 23 PA4 out 100n 77 2 814 pras 27 SW DIP 4 DACS 1 30 2 outa uii SYNC 0 SINCRO OUT 10M MOSI i 1 pi 9 10k5 R17 7 5V 16 21 CHO SCLK 2 7 816 100 9 1 19 e ETRO 20 CH1 JUMPER 2 SCLK _ OUTB 47k0 4 pu US 24 18 CH2 P2 JP1 4 ar VOUT_PWR 2 voc 5V R21 22 prp preg 17 3 R19 10k 1 Q SEL 26 3 3 15 CH4 IRQ TLV5626 to 77 IRST 4 1 04 4 4 GND 4 MOSI 25 PID4 IE ip CH5 R22 c5 10k SCLK 14 o pree CHE To 10k0 ce7 10n U1B MC34064 04 DACS 13 prp 9 10087 1 100 A 5 77 in PAO 1 2 SEL RQ lt 7 MC68HC908JL3CP 61 77 x 1 x gt TL072SMD R23 777 KDI FB 1 JUMPER 9 CH8 72 47 0 6 2 CH9 T3 y y y N 7 R24 VOUT_TMP 2 10 T4 A UA A VOUT PWR 7 SELECT 5 10kW CH11 TE C6 c7 C8 c9 C10 011 CLIX 3 15 1 1001 1001 1001 1000 1001 10 10k5 R26 8 o R25 100 1 4 47k0 H2V 2 9 6 12V VOUT TMP 5 777 9 R27 47 R28 47 12V 4 777
78. L pa 777 ni de o di Ie 2 010 7 CIN 5 AF DB9FEM R48 1008 cs R50 1008 21 3 m NATA 10k 100 C59 R53 10k 0218 TC 412 1008 1N4148 15 1008 1N4148 4 1N4148 R52 10k 59 n A 1N4148 5 07 Real X 12 _5 R57 1008 ceo P1 59 1008 261 R60 10k 100R ae ANT 1 2 063 DIR RFL R61 1 4148 12V 805 RXE020 CD4K7pF CDIKpF 7 7 014 CD1KpF TC 2 867 77 015 LS 1N4148 cea 12V Di6 CD4K7pF DIR_N ey 77 GDIKpF 12V R68 RFL N SBL N 1N4148 1 DIR N 134148 12V R69 12V o PIRSA 20k DSS 22KpF D18 9 1N4148 o L amp CH3 DSS 22KpF D22 R70 o 2 REL DB9 MASC D20 77 F2 1008 20k CH4 1 1 R72 10k y 873 021 F3 100R 20k 3 SBL N U5B CIN CHS __ 2 OTs SBLN 144148 45 toon H 5 BAKA R75 10k S R76 019 777 7 144148 12 USD 3 oc 144148 14 ba 184148 R78 10 La D23 R74 1N4148 100R 15 R77 10k TL074 zla y R78 14148 E DEA R81 1074 zla D25 20k F5 77 DSS 22KpF D26 R86 R87 20k F6 Li 9 1 4148 088 22 028 1N4148 DSS 22KpF JP6 RFL_N 12V SL d 1N4148 1 PWR DIR CHO D29 412V 12V PWR RFL CIN CHI CN8 CD1KpF R89 CD1KpF S de awe bay CH Zi REJ CD4K7pF EM p b 9 j 3 DIR Te REF sl 20k PWR REL N 1 CIN_CH4 sea 6 ED REJ
79. Out_Dig_Tot Digital output number 16 0 07 Gen_Tot General number 3 Analog input data block 0x08 INANAO Forward Power 0 09 INANA1 Reflected Power 2 Input Power OxOB Load Power Ox0C INANA4 K D I Temperature 5 Unbalanced Power INANA6 Air Temperature OxOF INANA7 External FWD Power Ox10 INANA8 External RFL Power Ox11 9 External UNB Power Analog output data block 0x12 OUTANAO Reserved 0X13 OUTANA1 Reserved Digital input data block 0 14 INDIGO 15 Bito On Off Bit1 Std By Bit8 Over Temp Digital output data block 0x15 OUTDIGO 15 Bit4 Std By Bit5 Sqr Bit8 Fan Bit12 Set1 Bit13 Set2 Bit14 Set3 Bit15 Set4 User amp Technical Manual Rev 1 5 08 02 06 77180 PJ5KPS 9 3 1 3 78180 1 2 kW Unit Configuration data Block R Y R 0 00 ID Device ID 0x01 RH Hardware Release 0x02 RS Software Release 0x03 In_Ana_Tot Analog input number 11 0x04 Out_Ana_Tot Analog output number 0 05 In_Dig_Tot Digital input number 16 0x06 Out Dig Tot Digital output number 16 0 07 Gen General number 3 Analog input data block 0x08 INANAO Forward Power 0 09 INANA1 Reflected Power 2 Input Power OxOB Supply Voltage 0 0 INANA4 Bias Voltage 5 Module Temperature OxOE INANAG Diriver Current OxOF INANA7 Mosfet 1 Current Ox10 INANA8 Mosfet 2 Current Ox11
80. Rxx 9 Ap L PAD 5 4 5 52800 Li 77 C15 9 in R21 R22 TL8 __ 777 4k7 4k7 50_Z R23 C17 1k 77 Le N 777 TL9 N TLINE_32Z S Cis 7 C19 C20 Cx Luc XX N TL10 TL11 77 N 777 TL14 TLINE_75Z TLINE_75Z TLINE_75Z 5 TLINE 752 TLINE 752 24 825 826 R27 R28 R29 R30 R31 R32 R33 100 2W 100 2W 100 2W 100 2W 100 2W 100 2W 100 2W 100 2W 100 2W 100 2W TL15 N TL16 TL17 TL18 N TL19 x 50_7 N 507 N 50 7 N 50 7 5 50 7 N N N NS N A CN3 COAX CN CN4 COAX CN Ce CNS COAX_CN CN6 COAX_CN 5 CN7 CN Nome Progetto PJ5KPS Pagina 1 di 1 Size Autore Mauro Ucelli Data 11 09 01 Codice Progetto lt gt Nome PC in Rete NUT SRV Revisione 1 0 Nome Parte RF Section Input Splitter File Cartella SPLITTER1 DSN Autorizzazione CSSPLINPSKW1 Codice 2 1 Appendix to the user manual 2002 R V R Elettronica SpA All rights reserved Input splitter and changeover SLSPLINP5KW1 ENT ELETTRONICA CSSPLINP5KW1 Bill Of Materials Pagel Item Q ty Reference Part 1 7 CN1 CN2 CN3 CN4 CN5 CN6 COA
81. Should any inconsistencies occur as compared to these indications interrupt the procedure and identify the reason for the malfunction before resuming the procedure Operation Result Close the Transformer Breaker isolating switches The power supply unit carriages are powered Turn the Mains switch The whole transmitter is powered The machine is activated in the same status it was in when it was turned off the last time Press the OFF key of the control unit RF emission by the transmitter is inhibited the exciters are off the RF amplifier modules are off Press the EXCITER CHANGEOVER key of the control unit The automatic management for the exciters changeover is disabled The MANUAL LED must be on otherwise press the key again Press the STDBY key of the control unit The exciters are turned on in interlock status The RF amplifying modules stay disabled Being in manual modality the exciters could be unlocked to verify the operation see 5 3 3 Set the parameters of the control unit This procedure is described in chapter 5 3 3 on in this manual The control unit communicates the nominal power and reduced power values to the RF modules It also handles the coaxial relays so that the on air exciter is the desired one and sets the exciter to ON mode Set the exciters Adhere to the instructions of the exciters used for setting the required work frequency on the exciters Regulate the output power of the exciters to 20 W Press POWER LOWER
82. active Ris 4 The RESERVE 3 input is active Mute Mute fault the mute commands i e the interlock commands for the exciters are not working they are not connected or the connection is wrong Xchg Exc A changeover of the exciters has been performed Cfg N 1 The machine is in Fault status because two changeover attempts have been performed N 1 configuration Power Supply T1 The power supply carriage 1 is overheated F1 One of the fuses or of the interlocks of the power supply carriage 1 is blown or not closed Tmp The air inlet temperature is too high W T2 The power supply carriage 2 is overheated T1W T2 The power supply carriage 1 and 2 are overheated F1W T2 One of the fuses or interlocks of carriage 1 is blown or not closed the power supply carriage 2 is overheated Prs The air pressure generated by the blower is not sufficient F F2 One of the fuses or of the interlocks of the power supply carriage 2 is blown or not closed T1 F F2 One of the fuses or interlocks of carriage 2 is blown or not closed the power supply carriage 1 is overheated F1F F2 One of the fuses or ofthe interlocks of both the power supply carriages 1 and 2 are blown or not closed Mains The AC power supply is out of its voltage range or the phase sequence is not correct C B Blw The circuit breaker of the blower blocked it Fuse
83. at 220V through a dedicated transformer Between the services are included the microcontroller cards of RF modules those of the combiner and power supply and the control unit Supplying the services of the PUSKPS with an UPS Uninterruptable Power Supply the machine also in case of absence of mains power can be managed naturally limitedly to the functions available for example configuration or interrogation of the alarms registry The normal configuration of the machine previews that the services are directly supply through the connection to the electrical mains of the machine in order to insert an UPS is sufficient put it between the VDE on the roof after have removed the bridge that comes supplied of series User amp Technical Manual Rev 1 5 08 02 06 57180 PJ5KPS AAN Figure 8 8 Services supply 8 7 Emergency CCU Board In the case the control unit presents a damage it is possible assure the correct operation replacing temporarily the control panel with the card furnished together with the PJ5KPS To effect the substitution execute the following instructions 1 Switch OFF the amplifier Remove the screw on the left side of the LCD panel open the panel and individualize the necessary connectors to the operation of the emergency card 58 80 Rev 1 5 08 02 06 User amp Technical Manual R V R PJ5KPS EL 2 Disconnect all the cables connected to the unit control 3 Unscrew the crews that fix the
84. audio alarm exciter 1 JP4 8 Exc2 A Audio Input status audio alarm exciter 2 JP4 9 Reserve 1 Input status Reserve 1 JP8 2 parallel interface Reserve 2 Input status Reserve 2 JP8 3 Reserve 3 Input status Reserve 3 JP8 4 Reserve 4 Input status Reserve 4 JP8 5 Relay Exc Exciters exchange relay status Off exciter 1 on air Exc 1 Mute Exciter 1 interlock status Off RF power enabled Exc 2 Mute Exciter 2 interlock status RF power enabled Audio Alarm Output Audio Alarm status JP47 1 Exc s Mains Exciters power supply status On power supply enabled Stand by In Stand by Out Total Eff Stand by input line status Stand by output line status from the control unit Total efficiency of the machine 28 80 Rev 1 5 06 02 06 User amp Technical Manual 5 5 Henu Supely Channels Bus 73 8 U 25 7 C Safetu Alarms Trafa 1T UK SuEPlu 1 0n Fuze 1 14 2 Trafa ZT 2 2 Blower ss ss s UH Fuze 2 2 2 Blower OF Figure 7 4 Power Supply menu 7 1 4 Power Supply menu Information menu showing the status of the Power Supply Rectifier carriage Linea men Descrizione Bus Bar Output voltage from the rectifier on the common 80V dc supply bus Room T Temperature of th
85. board to the rack and remove the panel from his place 4 Connect the three connectors precedentely identified to the entries of the board like represented in the photo User amp Technical Manual Rev 1 5 08 02 06 59 80 PJ5KPS MW A 5 Fix the board to the rack in the same position in which previously had fixed the central panel of control Do attention to fix the side of the card from which the interrupter sticks out toward the outside of the amplier 4 ta 42 1 o Se 6 Switch ON the apparatus with general switch and activate the operation of the board putting the interrupter on the ON position The switch has built in way to 60 80 Rev 1 5 08 02 06 User amp Technical Manual RW A PJ5KPS avoid the accidental operating throw the interrupter toward the outside go on the desired position and release the interrupter Now the emergency board is operative De When be used the emergency board the amplifier acts with the parameters previously adjusted for example the level of power To modify the parameters is necessary use the unit control User amp Technical Manual Rev 1 5 08 02 06 61 80 PJ5KPS 8 8 PJ5KPS Ventilation Each amplifier PJSKPS has furnished of an innternal fan of inputy and output of the air View of the chimney air inlet View of the chimney air inlet 62 80 Rev 1 5 08 02 06 User amp Technical M
86. fault of one of them Easyaccess The power supply section is located on a chart with wheels for an easy take out from the cabinet and easy transportation When the configuration of the equipment is with double power supply chart is possible to stop take out and service a section without turn off the equipment The power supply section of the PUSKPS is checked by a microprocessor card included in the rack of the equipment This card manages one or two more power supply charts the cooling blower and the several alarms systems such as the emergency not aus button Working Principles The Power Supply is checked by a microprocessor unit completely indipendent in the alarming functions and activity respect to the control unit The interchanges signals between the two units are present on a flat cable of 20 poles named data communication and command bus The signals present on the bus that are related to the power supply section are Stby Alarm Tr Tr Rev 1 5 06 02 06 User amp Technical Manual ELETTRONICA PJ5KPS TEMPO Figure 7 16 Time chart of the carriages contactors Bus Command _ Soft Start Start Fan STDBY contactor Contactor Contactor Output OFF 0 0 0 Active STDBY 0 1 1 Not Active ON 0 1 1 Not Active Signal Table 7 1 Time chart of the carriages contactors Function ON When the control of the power supply section notices a 12V on this sign
87. following figure that is select Cable and the COM port you will use User amp Technical Manual Rev 1 5 08 02 06 69 80 PJ5KPS R Y R mem Bock PLUG APLE Number Diani Strass 197644614 TOT fara Here Entry Com Bred Type Seon Mame comi Dele En Click Return Connect the DB9 cable between the PC and the TLC5KPS telemetry unit Click on Start The PC will perform the connection with the transmitter and then will show the program screen and the Detail screen already opened The TLC5KPS automatically detects the type of connection that is direct connection GSM modem or PSTN modem After 1 2 minutes the Telecon software will have acquired all the data of the modules Note the smileys on the bottom blinking red and green to show ongoing communications 4 Reflected Power Unbalanced Power Fuse 2 Onda Ba RA i Mem OFF Jo 7 luned 24 nov 2003 1127 A 9 wen esser temo mise uz 70 80 Rev 1 5 08 02 06 User amp Technical Manual PJ5KPS Double click on TLCKPS Then select EEprom and click on it aL De You will now see the EEprom organization window EEprom Organization Settings loaded None 1 2 3 4 5
88. livello del CS Appendix to the user manual 2003 R V R Elettronica SpA All rights reserved Emergency CCU Board SLCCUEMPJ5K2 3 3 PJ5KPS 9 Fdo e F TELEMETRY CARD 1
89. memory a reset button Fuse intervention LED Figura 7 18 Rectifiers board check points User amp Technical Manual Rev 1 5 08 02 06 47 80 PJSKPS 48 80 START2 SOFT 5 2 FL D EMRGENZA AL CN1 DEL CSAADPPSPJSK2 FUSIBILE ROTTO Input da 116 carrello 1 s lt Output a interfacca rel Input da 2 carrello2 _ m mii AP _ Tensione Bus bar Input qf Temperatura enerali 9 HI 1 1 comunicazione dati b Figura 7 20 Scheda di controllo alimentatore The signals coming from the control card are of NPN type actives when ground directed The function of the relay RL7 SAF on the silk screening is to protect the personnel it breaks the common power supply of the power contactors That are supplied only when all the safety micro switches are closed To protect the card is selected a FS1 fuse of the type 30x38 of 10A The turn on of the DL8 led indicates the fault of the FS1 fuse This interface is connected to the local unit control through the CN18 CN1 connector Rev 1 5
90. number N Off or On Hours Timer counting the hours of operation of the transmitter For example this indication is useful in order to define when a maintenance operation can be made From the predefined menu by pressing the Esc key as indicated on the last line you can shift to the exchange screen from which you can have access to all the other menus of the unit Overall Status Timer lt 25 897 Control lUnit Un Exct 1 Power Supplu tn Combiner a Un lUnit 1 On Unit 2 n lUnit 3 On Unit 4 On Unit 5 On Unit On lUnit 2 n Unit 8 n Unit 3 n lnit 18 0n Press gt for Henu Hours 88215 Figure 7 1 Overall Status menu 26 80 Rev 1 5 08 02 06 User amp Technical Manual PJ5KPS ELETTRONICA Menu Select Control Unit Power Supplu Combiner Unite Alarms Service Exciters Info Release Modem Figure 7 2 Select menu 7 1 2 Select menu This is the exchange menu from which you can select the different sub menus that compose the software In order to enter a sub menu select the correspondent line with the arrow buttons and press Enter User amp Technical Manual Menu Line Description General Status General status of the PJ5KPS
91. on BLF278 combined again and filtered by a band pass filter Splitter Coupler RF in Phase Adj p gt p RF Out r3 Vgate 80 Vdc CONA Cbias supply Manual 95485 Figure 7 21 Block diagram of a RF module User amp Technical Manual Rev 1 5 08 02 06 49 80 5 5 Each RF amplifier module is controlled a microprocessor card connected through a RS485 bus to the other microprocessor cards of the machine The switching power supply included in each amplifier module generates the feeding supply of the active devices The generated voltage is adjustable and commanded by a microprocessor card included in the module The card adjusts the supply and the polarization current gate of the modules thus controlling the emitted power On each module there is a trimmer for the manual adjustment of the power The trimmer acts as a limiter This means that if the automatic adjustment of the power sets a nominal output value the trimmer can only reduce it and not increase it 7 5 Alarms The menu Alarms of the control unit reports all the events connected to possible malfunctionning of the equipment or due to external causes Each registration contains the reference to the concerned module the kind of event
92. possible User amp Technical Manual Rev 1 5 08 02 06 5180 5 5 3 1 2 If victim is responsive Keep them warm Keep them as quiet as possible Loosen their clothing a reclining position is recommended Call for medical help as soon as possible 3 2 Treatment of electrical Burns 3 2 1 Extensive burned and broken skin e Cover area with clean sheet or cloth Do not break blisters remove tissue remove adhered particles of clothing or apply any salve or ointment Treat victim for shock as required Arrange transportation to a hospital as quickly as possible e f arms or legs are affected keep them elevated If medical help will not be available within an hour and the victim is conscious and not vomiting give him a weak solution of salt and soda 1 level teaspoonful of salt and 1 2 level teaspoonful of baking soda to each quart of water neither hot or cold Allow victim to sip slowly about 4 ounces half a glass over a period of 15 minutes Discontinue fluid if vomiting occurs DO NOT give alcohol 3 2 2 Less severe burns Apply cool not ice cold compresses using the cleansed available cloth article Do not break blisters remove tissue remove adhered particles of clothing or apply salve or ointment Apply clean dry dressing if necessary Treat victim for shock as required Arrange transportation to a hospital as quickly as possible farms or legs are affected keep them elev
93. reserved Control unit motherboard SLCCU1PJ5KM2 2 3 ELETTRONICA PJ5KPS SLCCULPJ5KM2 Bill Of Materials Pagel Item Q ty Reference Part 1 1 CNI FLAT16 2 5 C1 C2 C5 C8 C27 CMAK7pF 3 7 C3 C10 C11 C15 C10 ClT7 CM 1uF C22 E 3 C4 C6 C21 C24 C26 CD27pF 5 2 C14 C9 100 35 6 2 12 13 1000 35 7 2 19 18 220 25 8 2 C25 C20 CDAK7PF 9 C23 CM100pF 10 4 DZ1 DZ2 DZ3 DZ4 15V 1 2W 1 1 D1 D2 D3 D4 D5 D6 D8 D9 1N4148 D10 D15 D16 12 2 D11 D12 BY254 13 D13 11DO06 14 1 D14 1N4004 15 10 FIX1 FIX2 FIX3 FIX4 FIX5 FIX35 FIX6 FIX7 FIX8 FIX9 FIX10 16 75 F1 F2 F3 F4 F5 F6 F7 F8 DSS306 F9 F10 F11 F12 F13 F14 F15 F16 F17 F18 F19 F20 F21 F22 F23 F24 F25 F26 F27 F28 F29 F30 F31 F32 F33 F34 F35 F36 F37 F38 F39 F40 F41 F42 F43 F44 F45 F46 F47 F48 F49 F50 51 52 53 54 55 56 F57 F58 F59 F61 F62 F63 F64 F65 F66 F67 F68 F69 F70 F71 F72 F73 F74 F 75 F76 17 2 F77 F60 BL02 18 4 JP1 JP4 JUMPER3 19 1 5 KBW6 20 2 91 93 26 21 1 72 34 22 5 K1 K2 K3 K4 K5 ZFH 12V H1 23 1 11 220uH 24 1 Pl DB25 FEM 25 2 P2 P3 CONNECTOR DB9 26 1 P4 DB25 MASC 27 1 P5 DB9 FEMM 28 1 6 9815 FEMM 29 1 01 488 30 1 R1 2R2 1 4W 31 1 R2 RXE020 32 4 R3 R7 R10 R18 10K 33 4 R4 R6 R13 R16 10R 34 1 R5 x120R SO 1 R8 RXE040 36 1 R9 220R 37 1 R11 1K8 38 2 R12 R17 RXE110 Appendix to the user manual 2002 R V R Elettronica SpA All rights reserv
94. shown Please note that when the jumper is closed between 1 and 2 the output is normally short circuited with the common pin while in the other case the circuit is normally open It is important to remember that the different commands can be given to the unit through the parallele interface only if the Local Remote selector situated on the front pannel is on the Remote position Rev 1 5 06 02 06 User amp Technical Manual ELETTRONICA 12V COMMON RRIA 13 3 29280 2 DIGITAL OUTPUT JUMPER3 0124 D3 V DIG_OUT_0C a 12V JUMPER3 5 JP1 RR2B DL2 Y C27 DIG IN 2 3 3 224 4K7pF am TLP620 C4 D3 V 3 DIGITAL INPUT 4K7pF A RR6B 1 5 0 Figura 7 15 Digital I O PJ5KPS 5 12 48 JP8 JP4 1 10 1 8 1 8 1 8 1 10 1 16 4 4 22 10 1 4 1 4 JP38 JP47 Figure 7 15 Parallel interface terminal blocks The following table describes the function of each jumper of the parallel interface The first column indicates the identifying number of the jumper as shown on Figure 7 14 the second indicates the name of the signal and the third column describes its function Mors Tipo Nome Descrizione JP4 1 In ON Corresponds to the ON button of the control unit JP4 2 In STDBY Corresponds t
95. su vH edd avd 0836 2 0836 2 9 CO ZZ A n 204 ell 211 2 lt 2 066 lt 2 066 eu 77 9 ede 9 dol avd 0836 2 22 2 tad 2 5 v 8 2 3 RF module splitter SLSPLRFPJ5KM 2002 R V R Elettronica SpA All rights reserved Appendix to the user manual ELETTRONICA PJ5KPS CSSPLRFPJ5KM Bill Of Materials Page 1 Item Q ty Reference Part 1 2 C5 Cl 10p C 2 2 C6 C2 3p3 C 3 1 CI 4 7 HQ 4 1 C4 10p 5 5 PD1 PD2 PD3 PD4 PD5 PAD 6 9 R1 R2 R3 RA4 R5 R6 R7 R8 330 2W R9 7 6 TL1 TL2 TL3 TL4 TL5 TL6 773 80 Appendix to the user manual 2002 R V R Elettronica SpA All rights reserved RF module splitter SLSPLRFPJ5KM 3 3 PJ5KPS Nome Progetto PJSKPS Scheda fusibili modulo RF Pagina lt Nr gt di lt tot gt Size Size Autore Ucelli Rev Canazza Data 08 10 2002 Codice Progetto o Nome in Rete UT_SRV Revisione 1 0 DC Nome Parte Scheda fusibili modulo RF File Cartella CSFUSRFPJSKM DWG Autorizzazione Codice SLFUSRFPJSKM Scala lt gt Materiale lt gt Trattamento lt gt Appendix to the user manual RF module fuse board SLFUSRFPJ5KM 1 3 2002 R V R Elettronica SpA All rights reserved PJ5KPS Ra ELETTRONICA
96. switching from OFF or STDBY to ON with the exciters in manual mode the apparatus does not perform any check and the exciter that is currently set to on air is the one that is aired User amp Technical Manual Rev 1 5 08 02 06 21 80 5 5 5 4 3 22180 If the mains signal is not OK the exciters turn off automatically If the maximum drive power is exceeded during operations gt 35W the PJ5KPS is set to fault status and power supply is cut to the exciters A message in the alarms menu signals this fault When the apparatus is set to STDBY the mute RF signals of the exciters are not activated and may be modified by the operator When the apparatus is setto EXT INT or AUX INT the mute RF signals of the exciters are not activated and may be modified by the operator Automatic changeover When the PJ5KPS is in the exciter automatic changeover mode the power emitted by the on air exciter is checked constantly If at any time the on air exciter is no longer good i e power drops to below the preset level the apparatus is kept operational whereas the exciter connected to the internal Dummy Load turns on If the latter one is good i e itis capable of supplying the required power then the two exciters are changed over Instead if the alternative exciter is not good no changeover takes place the control unit commands the mute RF of the exciter to Dummy Load it waits 120 s and repeats the attempt This proced
97. 0 C91 C92 C93 C94 C95 C96 C97 C100 C101 C102 C103 C104 C105 5 12 C6 C20 C21 C22 C23 C25 1 25 C70 C71 C83 C84 C85 C86 6 3 C9 C10 C13 XCM10pF 7 1 CM 47uF 8 6 C62 C04 C12 C TA CT6 C178 10 9 2 80 79 CM27pF 10 1 C98 10 40pF 11 12 DL1 DL2 DL3 DL5 DL6 DL7 LED D5 DL8 DL9 DL10 DL11 DL12 DL13 12 5 DL4 DL14 DL15 DL16 DL17 LED D3 13 8 DZ1 DZ2 DZ25 DZ26 DZ29 DZ210 12V 1W DZ11 DZ12 14 4 DZ3 DZ4 DZ7 DZ8 5V1 1W 15 14 D1 D4 D5 D7 D8 D10 D11 BAV99B D13 D14 D15 D16 D18 D19 D20 16 D3 LM336 5 0V 17 D6 1N4004 18 1 217 99 19 3 D21 D22 D23 BAT83 20 3 FIX1 FIX2 FIX3 FIX35 21 1 STRIP 2 22 1 JP2 STRIP 5X2 23 3 JP3 JP4 JP6 JUMPER 2 24 7 2 25 1 91 BDM 26 2 023 22 CON26AP 27 J4 CON34A 28 1 95 CON10AP 29 4 K1 K2 K3 K4 TO2 30 1 01 IRFD120 31 2 Q3 02 BC237 32 1 330K Appendix to the user manual 2002 R V R Elettronica SpA All rights reserved 33 34 35 36 37 38 39 40 41 42 B 4 DS 4 DS 1 59 27 40 R101 R149 R184 R203 R230 R242 R4 R5 R11 R55 R74 R95 R118 R167 R30 R174 R37 849 R68 R86 R109 R130 R169 R221 81 108 126 132 142 152 161 176 189 199 R205 R210 R216 R246 R134 R191 R164 R233 R235 R236 R237 22 222 2 RX I 2 R239 R103 R106 R159 R172 R185 R187 R226 R227 R231 R232 R243 R245 R3 R35 R38 R42 R52
98. 1 0 110 33 44 3 4 Be m 88806 CB6 20 8154 IN REM 1 a CB12 CD27PF 10K 4 1 VI 1 7 12 VO CB2 8 F33 055306 89 2208 15V 1 2wW 15V 1 2W C9 71 a E n E T Hue 0816 9 8 NP OC 1 3 CBI 5 21 4 3 001 NPTST _ 007 6 100 35 4 lt 14 10 34 055306 Bob Lo EXT INT REM 1 6813 F35 055306 F36 055306 5 Lia na HH 91 0 F37 055306 HOF HE A 8 7 7 0012 _ 216 FIX35 FIX35 777 CB2 2 24 7 207 1 0 1000 35 ACK RISI OC 1 3 CB20 gt I5 STDBY TST a CC2 TST 1 ccs CC9 215 Lf x2 eo VNS 4 dh vo La cai id F38 055306 coli __ AUS INT REM 1 3 0814 F39 055306 F40 DSS306 Kas us NT 0818 ia E CC10 7 O DE 055306 7 17 9 eoe e _ 7015 7 36 5 FIX35 FIX35 CM 1uF RIS2 OC 1 5 DB25 MASC D8 OFF TST 1 PBESC TST 3 _ 609 _ 1000 35 100 35 F42 DSS306 F_EXOT2_REM 1 r a_CB15 F43 DSS306 F44 DSS306 008 FIX4 M CM 1uF F45 088306 SE ia luo m 4 4 4 4 Fk 1N4148 47 7 Llo 777 9 7 1 15 FIX5 FIX10 ACK RIS3 OC a 16 D9 RST AL TST4 a 004 TS 0010 CC6 8 02 1 xs T F REM 1 16 F46 DSS306 4 i F47 055306 F48 055306 DBiS MM 7 na
99. 11 2 RV2 RV1 50k Trim 12 2 R1 R10 R20 10k 13 8 R2 R3 R8 R9 R11 R12 R15 51R R16 14 4 R4 R5 R17 R18 100R 15 2 R13 R6 lk 16 3 R7 R14 R19 Ak7 17 all Ul TL074_SMD Appendix to the user manual Splitter measurement board SLSPLMEAS5KW 1 3 3 2002 R V R Elettronica SpA All rights reserved ELETTRONICA Nome Progetto Autore Nome PC in Rete PJSKPS Modulo RF 12 kW Ucelli Rev Conozzo NUT_SRV Data 09 10 2002 Pagina 1 41 Size A4 Codice Progetto lt gt PJ5KPS File Cartella Revisione 10 DC Nome Parte Splitter Scala lt gt Appendix to the user manual 2002 R V R Elettronica SpA All rights reserved CSSPLRFPJSKM DWG Materiale lt Autorizzazione Trattamento lt Codice SLSPLRFPJSKM Profilo o RF module splitter SLSPLRFPJ5KM PJ5KPS ELETTRONICA L 2 4 5 5 44814550 7euoIzezzLo1n 507 1 04291145 4 4 jun MY uo 191106 Hed 0 1 auory AUS 1 ur 24 LE qui IN000S0d 20 20 21 ONEN resozny ezis p euibed SdMSfd avd 0846 7 S d o ede 9 dol 99 99 066 lt 2 066 lt 2 066 6u 8 Ly 17 avd 083647 0836 2 tad 811 lt 2 S MZ 006 avd 94
100. 1UF Nome Progetto PJSKPS RF module power supply Pagina 1 di 1 Custo 1 470 40 2K61 Autore Mauro Ucelli Data 15 12 03 Codice Progetto 5000 Code LEDA Nome PC in Rete UT_SRV Revisione 1 1 0 Nome Parte MAIN BOARD File Cartella PS5040 DSN Autorizzazione Codice PSSW5040 Appendix to the user manual 2003 R V R Elettronica SpA rights reserved RF Module switching power supply PSSW5040 2 5 L 2 Y 6 9 2 8 005589 7euomezzuognv NSQ AHQ0t0Sd O uonoes 191110 Hed IWON 00 0 AYSTLN PPY ur og a lt gt 2002 01 71 ezzeued 914119 asoy eyiezis Lp Ajddns samod ejnpou JH v v yxejou 1 00011 aks E i I B Ss p 5 vod 66 Tar dal m 290 6647 6H 001 Hol P pxajow Olu 021603ul P 0 le 2 le viu Luvi MS 0 LAS 82 139 ANNO 92 139 96 135 9 9
101. 2 1001 MATERIAL lt gt TREATMENT lt gt PROFILE lt gt STATE EXECUTIVE Appendix to the user manual Output directional coupler SLO42MT 1001 1 3 2002 2006 Elettronica SpA All rights reserved 5 5 2 Y S V00LLWZTO TIS Hed 1 19pjo4 1 JA 5 OL ILVIOSVIRINAHSIN u050 amp 207 270 pafoig maon 29215 UMd JY 2U9u95 2 299 XI4 L 00LINSD UL 19 99 99 KE Dl 149 T er E OMO L00LLINZ701S ANOAV1 SHL 1108 SNOLLVYNSIANOO INIT IHL ANY SLNVINWA CAHYO 33S OL ILON 713 31 NOILYZITYWYHON 22 ANAWLSNPOV ALIALLOSIHIG LAU V3W AU HANY TWNOIS LN3W330S V3W 90Vd LNAWSYNSVANW 74114119 6 LNINFUNSVAN LN3NFYNSVAN 3AISSVd IVNOIS Qvd LN3NFYUNSVIN 44 3AISSVd TVNOIS LN3A330SV3W 3AISSVd WALSAS 1 532111915 WALSAS AV T3Q 321118 16 1 1 2 ALISIV3NITZHW 801 88 LP L 5 egsva
102. 2 C63 C64 C65 C66 C67 C68 C69 C70 CILSCTA 3 39 DL1 DL2 DL3 DL4 DL5 DL6 D3 V DL7 DL8 DL9 DL10 DL11 DL12 DL13 DL14 DL15 DL16 DL17 DL18 DL19 DL20 DL21 DL22 DL23 DL24 DL25 DL260 DL27 DL28 DL29 DL30 DL31 DL32 DL33 DL34 DL35 DL360 DL37 DL38 DL39 4 2 DZ2 DZ1 12V 1W 2 024 023 5V6 1W 6 8 DZ5 DZ6 DZ7 DZ8 DZ9 DZ10 BZWOA45V8 DZ11 DZ12 7 8 FIX1 FIX2 FIX3 FIX4 FIX5 FIX35 FIX6 FIX7 FIX8 8 1 F1 DSS 308 9 39 JEL JP2 JgP3 JP5 JP6 JET JUMPER3 JP9 JP10 JP11 JP13 JP14 15 JP17 18 19 JP20 JP21 JP23 JP24 JP25 JP26 JP27 JP28 JP29 JP30 JP31 JP32 JP33 JP34 JP36 JP37 JP39 JP40 JP41 JP42 JP43 JP44 JP45 JP46 10 3 JP4 JP35 JP38 KB10 11 3 JP8 JP12 JP48 KB8 12 3 16 JP22 JP47 KB4 13 23 K1 K2 K3 K4 K5 K6 K7 K8 ZFH 12V K9 K10 K11 K12 K13 K14 K15 K16 K17 K18 K19 K20 K21 K22 K23 4 16 OC1 0C2 0C3 0C4 0C5 0C6 TLP620 7 0 8 0 9 0 10 0 11 0 12 0 13 0 14 0 15 0 16 15 1 1 25 16 1 P2 DB9 MASCHIO 17 1 DB25 MASCHIO 18 4 RR1 RR2 478 19 4 RR5 RR6 RR7 RR8 1K5 20 6 RR9 RR10 RR11 RR12 RR13 2K2 RR14 21 4 R21 R22 R27 R29 10R 22 6 R54 R55 R56 R57 R60 R61 100R Appendix to the user manual 2002 R V R Elettronica SpA All rights reserved Parallel interface SLINTREMPJK5M 4 4 PJ5KPS 4 0 PIA E 6 fre TE TI Ru Hr TIL ES DCPLRe _ Roda
103. 27pF CM1kpF lt 77 R17 87W 20K R22 IN CH6 CH3 P lt C13 C123 CM 1uF C124 CM tuF OC OUTO OC RES V P A A PWR INP2 C PWR_INP_A PWR INP C CM1kpF e VBIAS A VBUS P CH2 R8 CM27pF R18 87W 20K CH4 R38 87W 20K C121 77 CH3 I PLAL2 A DIR 1 7 TEMP KDI C TEMP P C1 CM1kpF R39 CM4K7pF CH3 2 CM27pF CH5 P CM27pF 87W 20K CH4 CH4 I_PLAL3_A PWR_RFL_N 1 C9 CM27pF R20 87W 20K R25 IN CH9 CH6 P I DRV A PWR REJ C C1 CM27pF CM1kpF R40 87W 20K LM78MO5CDT CM 1uF C81 IN6 IN SWSAFE MA NS N IN7 OUT DACB OUT VBIAS STRIP20 STRIP20 OC ALA OC STD N MAIN OC P5040 1 0 OC_OUTO OUT 0 OC OUTi OUT 1 OC OUT2 OUT 2 OC OUT8 OUT 3 OC OUT4 OUT 4 OC 0015 OUT 5 OC OUT6 OUT 6 OUT OC OUT7 OUT 7 OC RESOUT 12V N_STDBY 5V IN INO NO N1 N_IN2 N2 N3 IN3 N4 IN4 N_IN5 N5 5 IN ING N6 ING N7 RM OC_ALARM BY OC P5040 ON ON OC STDBY STDBY STDBY S SW SAFE SW SAFE MAINS MAINS MAINS N SWSAFE STOP A STOP A N ON
104. 3 e 4 897 C94 6 P 50k 145 C95 6 2 T4S 1k 12V 12V 777 12V 12V R100 511 R101 10k 196 12V 12V 8 8102 gt 10k 1 C96 C97 INA146 GND 1n 100V VF C98 bid R103 100 196 1n 12V R104 o lt _ DRV 10 3 12V 100_1 100n R105 100k 7 TRS C100 6 2 50k 148 12V 12V 17 A A Nome Progetto 5000 Pagina 3 di 3 Size Autore Mauro Ucelli Data 15 12 03 Codice Progetto Project Code twm Nome Rete PC gt Revisione 1 2 Nome Parte Adattatore CPU per sezione BIAS dm File Cartella BiasPJ5KMC Autorizzazione Codice CSADBSPJ5KM2 n Appendix to the user manual 2003 R V R Elettronica SpA All rights reserved RF module CPU adapter bias SLADBSPJ5KPS2 4 5 CSADBSPJ5KM2 Bill Of Materials 1 Item Reference Part 1 1 CN1 PHOENIX6 2 2 CN3 CN2 KB4 3 1 CN4 KRA4 4 35 C1 C4 C5 C7 C8 C9 C14 ln C15 C20 C21 C22 C23 C24 C25 C26 C30 C31 C39 C40 C41 C62 C63 C64 C65 C66 C71 C72 CT74 CY75 C90 0C931 C92 C93 C98 C99 5 18 2 10 11 12 13 16 1 100 CT7 C19 C28 C29 C35 CO09 C70 C73 C86 C87 C97 C101 6 2 27 100 7 3T 18 27 43 44 45 46 100 47 48 49 50 51 52 C53 C54 C55 C56 C57 C58 C59 C60 C61 C67 C68 C78 C79 C84 C85 C94 C95 C96 100 8 2 C36 C32 1000uF 35V 9 2 C33 C37 l0uF 35V 10 3 C34 C38 C42 100uF 35V 11 4 76 80 82 8
105. 5 4 R50 3 4 2 1 1 24 100 R52 1k CN3 R54 R55 2 L 078 KDI 10k vL 10k D15 TL072SMD R53 82800 042 in 5 TL0728MD 6 PWR 3 CH3 3 BAV TMP 3 2 di D13 HSMS2800 10k C43 7 IMP E 2 4 99 4 99 4 ga R56 10 7V M in el PWR_E 11255 D 3 4 H7 _ SYNC 1 3 44 645 2 L R57 C46 8 10 10 017 R58 10k 100k E 1 4 lt lt 016 5 52800 2 in 42V 9 777 1 3 4 lt 024 5 1 1 2 4 4 12V 5VZ 5VZ cl _ E 9 9 HSMS2800 C47 C48 C49 C50 DB9FSO al JP3 R59 R60 PWR 0 d 2 TMP 0 in 10k D18 10k D19 PWR 1 TMP 1 di Tal 03 40 PWR 4 CH4 4 IMP 4 CH10 3 PWR 2 3 4p TMP 2 77 FE TT 777 BAV99 BAV99 was 9 5 60 3 4 4 ov 40 B TMP 4 FIXI FIX IMP PWR E SYNC 51 052 35 X35 X35 10n d 10n 4 gu 0120 O O css osa css cse a 1 14 77 71 4 15 16 P in in 1n in 057 FLAT16V e 5VZ 5VZ 10n 7 7 7 al R61 4 R62 FF 7 10k A 0 10K gt PWRSE CH5 4 BAV99 CHIT 4 99 0 d PWR 2 PWR 3 Nome Progetto PJ5KPS Scheda misure absorbers pagina 1 di 1 sizer 7 1 2 7 C64 058 059 do 6 Sa pos di autore Mauro Ucelli Data 16 01 02 Codice Progetto 1 d 1 d 1 1 1 1 1 on eI on lt i e e i e i PC in Rete UT_SRV Revisione 1 0 Parte Absorbers uC Circuit 77 7
106. 5x2 77 71 B D4 1 VARIE VARIE R18 R19 R20 R21 D5 14 15 10K 10K 10K 10K GND EARTH BATAS 5V D qx 5V 4 4 CCU IN 4 8244 7 ag Hd u 1 RXD1 RXDO Hoag mE T 8234 ASI id CLR GND pap R31 R32 R33 R34 MUTE MUTE MAIN EXCT IRQ ALR OUT dit ur 10K 10K 10K 10K R235 10K 040 829 10 45V OK sor 220 T 22 VDD CLKOUT MENT CM Ey Ey 45V OG 1 o gt ja MT ELS D23 IRQ 1 I Q Fr wor JOR K TE E SCLK CM iuF c14 C15 C16 C17 C18 C19 4 15 6 MOSI cM tuF CM 1uF CM 1uF cw tur 4 NE 37 1 uc MSO 7 a A s E 22 1 C99 R238 181 Ne 45V 4 4 1 2 C100 12 LINE VSS 9 e R239 11 POR PSE FIX1 FIX2 FIX3 R30 T CM 1uF 10K FIX35 FIX35 FIX35 1 4 5 3 21 2 4 4 e VDDAD ba ail La 100R too CD68HC68T1M R245 40106 O O VDD1 VDD2 VDDX1 VDDX2 100R 14 ae 0101 CM 1uF 20 7 cza 1 7 22 7 024 0025 820K 4 4 777 777 428 PE C26 027 C28 C29 CM 1uF gt CM tuF _ CM tuF CM 1uF CM tuF CM tuF 4 m 8241 C102 777 nam m Nome Progetto PJ5KPS Scheda CCU gi 1 3 1755 BAT83 747 777 1 25 1 25 1 25 Autore Griptech Rev Canazza Data 07 10 2002 Codice Progetto lt OrgAddri gt Nome PC in Rete SRV RevisioneREV B
107. 6 SHA TP4 TP5 TP6 TR4 TR5 U8 U9 U10 U17 U18 PJ5KPS lk 100 1 4k7 2k7 1 2W 51 1 0 1 5W 100k 10 1 27 4 1 4W 2k2 SHUNT2 5 TP 45 TL074 SMD LM7812 TO220 90B LM7912 TO220 90B LM50C SMD INA146 5 5 MY 5 4 595050504 RRR L 9 526262029 Nome Progetto PJSKPS Driver modulo RF 12 kW Pagina 1 di 1 Size A3 Autore Ucelli Re Canazza Data 08 10 2002 Codice Progetto lt gt je Nome PC in UT_SRV ___________ Revisione 10 DC Parte Driver Modulo RF File Cartella CSDRVRFPJSKM DWG Autorizzazione Codice SLDRVRFPJSKM 5 lt gt Materiale lt Trattamento lt Profilo lt Appendix to the user manual 2002 R V R Elettronica SpA All rights reserved RF module driver SLDRVRFPJ5KM 1 8 ELETTRONICA PJ5KPS TP2 RF TL2 R1 10 1 4W REFLECTED POWER C6 4n7 BA R4 1k_1 4W DI R_LED G3 010 417 BR R7 1k_1 4W c9 4n7 C19 D5 R9 LED G3 1k 1 4W 76PRB04 D7 1N4004 VPA FORWARD POWER C1 680p HQ R2 10k R3 10k C2 T NY 100n 63V C5 C7 C8 680p HQ 4n7 4n7 LI R5 R6 VK200 1k_1 4W 1k_1 4W SZ cw C15 C16 RV1 4n7 4n7 20 C11 D3 4 100n 63V HSMS2800 HSMS2800
108. 62 100R MKP1nF 600 MKP1nF 600 EKE1000 63 22K 1W 10K 1W AW 5 6 5 6 i 2 h F4 L8 3 POS JP4 5 2 FF25A NC IRFP250 1 C20 KRA4 l rn G22 F5 L9 R30 5K62 de EKE1000 63 1000 63 470 1 470 10 i da FARI Sp 470 100 00 100 NOSE MEER e C46 C47 C48 C21 FF25A NC le JP5 40 C6 C7 55 3 B 4 a I gt Toms T JP3 C45 C43 470 100 470 100 470 100 VOUT 1p j EKE 1000 63 NC R31 4 H NC MOLEX4 NEG i 5K62 R36 R44 47 5 NC 2M7 KRA4 ss 17 1 4004 BL02 1K 655 035 C36 CM Ve CM100PF PER VOUT 24V R21 3K52 R20 1K0 TP1 77 4N26 80237 CM100PF 02 1 15 SLP CONP CM1KpF 1 821 1508 R22 2K49 VADJ INV VREF H _ 5 4 5K11 vec Hi PWM JP7 854 392R E A OUT OUT 45 4 5 816 CLK VC 3 F6 5 1N4148 1K5 U5B RT PWRGND 2 1 Q7 R25 ILMREF 1 4 4 m 1 2 2UF 16 IRFD120 RAMP GND E S START ILS D 87W 10K ER UC3823 iv 87W 500R 87W 2K 59 R35 30 1N4148 Hi n C27 LL 820 CM 1UF 8208 R24 2K49 CP10KPF C32 no 80R2 6k81 C28 C31 1 6V 777 4n7UF M1UF M100pF CT1 16 4214 07 R43 U3 R10 77 100 CT1 16 2 i 22RAW 3K3 D8 1N4004 ADJ R7 C2 TP3 1 6V R56 13K3 R57 1K6 PHOENIX2 C53 LM317 C26 R11 237R 100UF 25 CM
109. 7 File cartella CSADKDIPJ5K2 DSN Autorizzazione codice CSADKDIPJ5K2 Appendix to the user manual 2002 R V R Elettronica SpA All rights reserved Unbalancement measurement CPU board SLADKDIPJ5KM2 2 3 Ra V ELETTRONICA CSADKDIPJ5K2 Bill Of Materials Pagel Item Q ty Reference Part 1 2 CN1 CN2 DB9MSO 2 1 CN3 DB9FSO 3 16 C1 C3 06 C7 08 C9 C10 100n C15 C24 C33 C34 C35 C65 C66 C67 C69 4 16 C2 505 C11 C17 19 029 10n C30 C36 C37 C44 C45 C51 C327 Col Cas 059 5 31 C4 Cl12 C13 C14 C19 C20 in C21 022 025 0931 C32 C38 C39 C40 C41 C42 C43 C46 C47 C48 C49 C50 C53 C54 C55 C56 C60 C61 C62 C63 C64 6 1 C16 10p 7 1 C23 lOuF 35V 8 3 C26 C27 C28 100uF 35V 9 1 C68 luF 35V 10 3 DZ1 DZ2 DZ3 5V1SMD 11 13 D1 D2 D4 D5 D6 D8 D9 D14 BAV99 D15 D18 D19 D20 D21 12 1 D3 LM336 5 0V 13 7 D7 D10 D11 D12 D13 D160 HSMS2800 D17 14 4 FIX1 FIX2 FIX3 FIX4 FIX35 15 2 JP2 JP1 JUMPER 16 1 JP3 FLAT16V 17 2 02 01 847 18 33 R1 R2 R3 R4 R5 R6 R8 R10 10k R11 R12 R18 R19 R21 R33 R34 R38 R39 R40 R43 R44 R45 R46 R48 R51 R53 R54 R55 R56 R58 R59 R60 R61 R62 19 6 R7 R17 R20 R26 R29 R50 100 20 R9 47 21 213 12 0 22 1 R14 10M 23 2 R15 R24 10k5 24 3 R16 R23 R25 47k0 25 1 R22 10k0 26 3 R27 R28 R30 47 27 3 R31 R32 R52 lk 28 R35 270 29 1 R36 22 30 2 R57 R37 100k R41 1k69 32 R42 3k30 33 R47 220 34 R49 1k2 35 1 SW1 SW DIP 4 36 3 01 06 07 TL072SMD Appendix to the user manual
110. 74_SMD C21 C22 C23 C24 C25 C26 d 5040 GND BAV99 BAV99 20k 196 R13 in in in in in in 2 R10 Rxx d 5040 SUPPLY P R14 33k2 1 1 12V C29 PHOENIX6 5040 VCONTROL C28 1n 100V R17 1n 100V L C30 R15 R16 7 777 777 50 761210220 908 3 3 12 269 24594 100uF_35V 1000uF_35V 10uF_35V PAGE2 PAGES BIAS_D OUT_MOS V DRV LM7912 TO220 908 our MOS OUT 12 V DRV V DRV IN CH6 C36 C38 IN CH10 100uF_35V PWR_RFL 1000uF_35V 10uF_35V IN_CH4 IN_CH5 PWR_DIR IN_CH9 12V FIX1 CLIXSON 9 FIX35 R19 5 12V O 12V 1 12V0 12VO d C39 C40 C41 in in in U4 Bs LMS0C_SMD SCHEMATIC2 SCHEMATIC3 5V1SMD R21 R22 U1A 100 196 10k 196 TL074 SMD C42 C43 100uF 35V 100n C27 412VO 100n A FIX3 FIX4 Eus D Eus FIX8 FIX9 FIX10 FIX11 FIX35 FIX35 FIX35 FIX35 FIX35 FIX35 Nome Progetto PJ5000M Pagina 1 di 3 Size LI Autore Mauro Ucelli Data 15 12 03 Codice Progetto Project Code Nome PC in Rete PC gt Revisione 1 2 Nome Parte Adattatore CPU per sezione BIAS V File Cartella BiasPJ5KMC Autorizzazione Codice CSADBSPJ5KM2 ved 1 Appendix to the user manual 2003 R V R Elettronica SpA All rights reserved RF module CPU adapter bias SLADBSPJ5KPS2 2 5 PJ5KPS V DRV gt R58 2k7 1 2W R64 2 7 1 2W F1 DSS310 r L1 97 JP6
111. 78 28 4 R1 R2 R3 R4 5H6 Res 2W RSM002J005H6 24 1 R5 R6 820 H Res 2W RSM002J0820H 25 2 R8 R7 22H Res 1W RSM001J0022H 26 1 R9 100 H Res SMD 0805 1 RCH085J0100H 27 1 R10 1K5 Res SMD 0805 196 RCH085F001K5 28 1 R11 1K Res SMD 0805 1 RCH085F0001K 29 1 R12 270H Res SMD 2512 1 RCH200J0270H 30 1 R13 8 2 Res SMD 0805 1 RCH085F08K25 31 1 R14 10K Res NTC SMD 0805 32 1 R15 1K Trimmer 3269 RVT3269WK001 33 1 R16 47 Res SMD 2512 1 34 2 R19 R18 2H2 Res SMD 2512 1 35 1 R20 NC Res SMD 2512 1 36 1 R21 NC Trimm multi SMD PVG5 Murata O 38 1 T3 120 mm RG 303 39 1 CS1 CSRF0040R2 CSRF0040R2 Appendix to the user manual 2002 2006 R V R Elettronica SpA All rights reserved RF Amplifier module SLO42RF 1001 3 3 5 5 550 O pibus O C3 RI D Ce 4 O O n E o Cx C CI n O nm E gt C6 0 R3 CL i Diretto Nome Progetto
112. 8 417 100V 12 4 77 81 83 89 680pHO 13 2 93 01 HSMS2800 14 2 D2 D17 BAV99 15 1 D4 WL04 16 1 5 5V1SMD 17 1 D6 12VSMD 18 10 D7 D8 D9 D10 D11 D12 D13 9V1SMD D14 D15 D16 19 LIL FIX1 FIX2 FIX3 FIX4 FIX5 FIX35 FIX6 FIX7 FIX8 FIX9 FIX10 FIX11 20 1 FS1 F2A C 21 5 1 2 4 5 055310 22 3 1 2 STRIP20 23 1 JP4 FLAT16V 24 1 5 25 1 LUMBERG 6PV 26 1 PD1 PIAZ2 27 4 PD2 PD3 PD4 PD5 PADIOA 28 1 01 BC857BL 29 1 02 BC847BL 30 2 R1 R2 10 1 4 31 2 R3 R4 220 32 4 R5 R10 R107 R108 20k_1 33 21 R6 R7 R8 R9 R19 R20 R22 10k_1 R25 R30 R31 R32 R70 R72 R73 R74 R85 R87 R88 R89 R101 R102 34 4 R11 R13 R15 R16 Rxx 35 1 R12 270k 36 2 R14 R38 33k2 1 3 7 1 R17 RXE050 Appendix to the user manual 2003 R V R Elettronica SpA All rights reserved 38 3 9 40 41 42 43 44 45 46 47 48 49 50 51 52 53 54 55 38 R18 R26 R27 R34 R35 R36 R42 R43 R44 R48 R49 R50 R54 R55 R56 R61 R62 R63 R68 R97 11 R21 R76 R77 R91 R92 R93 R23 R24 R37 R64 R58 R69 R71 R84 R75 R80 R81 R95 R82 R83 R98 R94 R109 5 1 5 2 5 3 1 2 1 2 3 01 05 06 07 U11 U12 U13 U2 U3 U4 U14 U15 U16 Ul Ul Ul FP RF module CPU adapter bias SLADBSPJ5KPS2 R28 R29 R33 R39 R40 R41 R45 R46 R47 R51 R52 R53 R57 R59 R60 R65 R66 R67 R78 R79 R90 R103 R104 R86 R100 R96 R105 R99 R10
113. C 1 29 010 2 U12B TLP521 4 R100 2 Rd ET ti 33K INPUT R99 14 8154 IN REM 5V 0 12 8154 5 3 3 R102 2K2 10466 R101 4 47K 1 5V R103 10K 40106 V 1K5 U13A 8104 TLP521 4 R105 INP 4 5 7 oe 13 PB_DW 1 1 ee PBDW TST 8 4 1 2 40106 47K 1 5 sio 1 LM258 U11D DW R106 10k U18D TLP521 4 R109 eyes U10A 9 Apu 10 7 MAINS_BUS MAINS R110 2K2 ot 0 412V R111 33K 40106 Ba iv 1K5 U18F uda d TLP521 4 R113 13 16 1 _ a PBUP_TST 40106 652 1 5 sit J2 CM 1uF UP B3F EXT INT 2 RIS3 IN REM a U12A 2 RIS REM 3 4 REM RST AL REM __5 amp OFF REM y o 9114 26 AMMEN 34 R PL REM U17B 8115 TLP521 4 R116 RIS2 IN REM 9 1 to REM 4 3 1 5 STDBY REM 11 12 CHG MR REM PB OK gt gt ni 4 PBOK_TST NP REM BUS 40106 054 Vw 1K5 512 REM 15 4g EXCT2 REM 5V 1 AUS INT REM 17 4g ALR IRQBUS CM 1uFl OK i 8 9 a 0126 19 20 LOC SEL 970 7 LOAD 21 INP 8117 2K2 ot 12 12 L gt on U20D 15 TLP521 4 R119 058 25 1 4 R118 HA 4 1 5V 0 056 057 058 059 ALR IRQ 18 O 412V 26 Y 777 o gt 0 12V CM tuF CM tuF CM tuF CM 1uF 40106 C55 1K5 77 77 al lt lt 4
114. C6 C13 CD1KPF 14 15 28 32 51 52 55 56 57 58 59 60 061 065 0606 067 71 012 C73 C74 C75 C78 C80 C81 C82 C83 C85 C86 C97 C98 C102 8 3 C7 C16 C24 100 35 9 25 C8 Cl10 Cl7 C18 C20 C22 CM 1uF C25 C21 031 037 41 0 43 C46 C48 C49 C53 C88 C89 90 91 934 93 094 95 103 10 26 9 11 19 21 26 29 CD4K7pF C30 C35 C36 C39 C40 C42 C44 C45 C47 C50 C54 C63 64 69 70 76 77 79 84 101 11 2 12 623 470 35 12 2 033 039 CD27PF 13 3 K1 C34 C62 NC 14 3 87 96 104 1 25 15 1 C99 CD4K7KpF 16 1 1 11 02 17 47 D3 D5 D6 D7 D8 D9 D10 1N4148 D11 D12 D13 D14 D15 D16 D17 D18 D19 D20 D21 D22 D23 D24 D25 D26 D27 D28 D29 D30 D31 D32 D33 D35 D37 D38 D39 D40 D41 D42 D43 D44 D48 D51 D59 D60 D61 D62 D63 D64 18 12 D45 D46 D47 D49 D50 D52 BAT83 D53 D54 D55 D56 D57 D58 19 8 FIX1 FIX2 FIX3 FIX4 FIX5 FIX35 FIX6 FIX7 FIX8 20 6 F1 F2 F3 F4 F5 F6 DSS 22KpF 21 10 151 152 153 154 155 156 4125 157 158 159 1510 22 6 1 2 JP6 5 20 23 1 JP7 JUMPER 24 16 PD1 PD2 PD3 PD4 PD5 PD6 PIAZZ 2P PD7 PD8 PD9 PD10 PD11 PD12 PD13 PD14 PD15 PD16 25 10 R1 R3 R8 R11 R20 R28 R33 820R R35 R37 R41 26 10 R2 R4 R10 R14 R23 R29 1M R34 R36 R40 R43 27 2 R5 R9 RXE110 Appendix to the user manual 2002 R V R Elettronica SpA All rights reserved 28 29 30 31 32 33 34 35 36 37 38 39 40 41 42 43 11 N 37 22
115. CAL REMOTE status Digital output active when the PJ5KPS is setted in local modality This output has a common contact dedicated to this function JP 12 5 JP12 7 Out CMNMAINS Common contact MAINS see JP 12 8 JP12 8 Out MAINS MAINS alarm active when are present problems on the alimentation JP47 1 Out AUDIO ALARM AUDIO alarm see JP4 8 and JP4 9 This output is active when the on air exciter is in audio alarm status This output has a common contact dedicated to this function JP47 2 JP47 2 Out CMN AUDIO ALARM Common contact AUDIO ALARM see JP47 1 JP47 3 Out COMMON RL3 Common contact shared from the outputs JP38 1 10 JP47 4 Out COMMON RL3 Parallel contact with JP47 3 JP35 1 Out RESRV 1 Reserve 1 Digitale output active when the INPUT RESERVE 1 input JP8 2 is active The common contact of this output is RL4 JP35 5 JP35 2 Out RESRV 2 Same as JP35 1 corresponds to INPUT RESERVE 2 The common contact of this output RL4 JP35 5 JP35 3 Out RESRV 3 Sameas JP35 1 corresponds to INPUT RESERVE 3 The common contact of this output RL4 JP35 5 JP35 4 Out RESRV 4 Same as JP35 1 corresponds to INPUT RESERVE 4 The common contact of this output RL4 JP35 5 JP35 5 Out COMMON RL4 Common contact shared between different digital outputs JP35 1 4 JP35 6 Out SET1 Digital output active when the parameter SET1 is active see menu Settings The common contact of this output RL5 JP35 10 JP35 7 Out SET2 Same as JP36 6 corresp
116. CD 1UF 12 3 C4 C23 C24 1 600 13 1 G7 CA1 250 14 3 C10 C44 C54 MKP 1UF 250 15 12 1000 63 17 19 20 21 22 34 16 11 IS2 F2 F3 L8 L9 D10 C18 NC R40 C42 R44 C45 17 1 C27 CM1UF 18 3 C28 C35 C36 CM100PF 19 1 C29 1 20 2 C32 C31 CT1 16 21 1 C33 1 22 3 C39 C40 C58 100PF 23 3 JP6 C41 C43 NC 24 1 C49 CP 22UF 25 1 52 47 25 26 2 C53 C59 CP 1UF 27 1 55 28 1 60 2 2UF 16 29 1 DL1 LED R 30 2 D2 D1 40 508 31 1 1 27V 1W 32 4 D1 D2 D3 D4 119004 33 1 D2 30V 1W 34 1 D3 WL02 35 3 D4 D7 D11 1 4004 36 1 D5 5V1 0 5W 3 2 D6 D5 HFA50PA60C 38 2 D12 D8 LED V 39 2 D14 D13 1 4148 40 2 1 BL02 41 2 F4 F5 FF25A 42 1 151 4526 43 1 1 KRA10 44 2 JP1 JP14 1 2 45 4 JP2 JP3 JPA JP5 4 46 1 7 PHOENIX4 47 5 JP8 JP9 JP10 JP11 JP13 MOLEX4 48 1 12 JUMPER2 49 1 11 0740 50 1 11 BFV0720 51 2 16 15 130uH 52 1 110 0710 Appendix to the user manual 2003 R V R Elettronica SpA All rights reserved 53 54 55 56 57 58 59 60 61 62 63 64 65 66 67 68 69 70 72 72 73 74 75 76 77 78 79 80 81 82 83 84 85 86 8 7 88 89 90 91 92 93 94 95 96 97 98 99 100 101 102 103 RF Module switching power supply PSSW5040 HPHHPNEFEFFIAIFWFEFEFEFNNFEFSENEFFEEWFFEFEFFEFENEFNNEFNWSWNKDLEFNEEHEHHHHW 01 02 RV1 R1 R1 R21 R1 R2 R2 R3 R8
117. D31 4 i 2 UNB AN 032 n CIN CH8 Es FIX6 FIX7 FIX8 PWR_SBIL CIN 5 sl 35 FIX35 FIX35 FIX35 INP2 LOAD CH6 Timm rs 5 LEE mee EN O 0 O O le o 18 1N4148 1 4 1008 o KJ CH8 i R93 148 PWR REJ CIN CH9 D33 2 4 4 4 4 10 CHIO o 1 101 8 R97 1008 67 R98 10k 12V 12 4 13 1 2 REJ 20 Cso 15 48 77 15 2 R102 04 7 cDiKpr 77 901 108 3 P P 5 SEL 0 16 OUT CD4K7pF RXE020 12V _ 1N4148 R103 18 es D37 42V T D38 078 OUTZYBIAS DB9 MASC 9 CD1KpF Q R106 EIS 412V OUT FB OUT GFB Gli Dive 1 2 CD1KpF 12V 4 12V rr gle be IT CD1KpF DIVA 20k 9 CIN CH2 LOAD 20k CIN CH6 JE 2 LOAD 1 48 D40 1 48 se SEL 2 TR STRIBED JP alo 7 LOAD R107100R d C72 R1080k 1091008 C73 R 1d0k a TR 2 43 7 A 1N4148 1 100p 1N4148 7 1008 ceo ON Drt CD1KpF 20 4 D42 OC ALARM t ou 5 81131008 7074 11410 R115100R C75 R11610k 77 ADDRESS 4 PD9 PIAZZ 2P R117 EL ivan T SEL 3 a CIN ADI PIAZZ 2P N PD10 GD 7 C7 RXEDU 5 La 11148 pu _ 14 2 ML PIAZZ 2P chi 1 ra H3 682 ie CIN AD3 PIAZZ PD12 ML HI O 12V 5 te CIN_AD4 PD13 PIAZZ 2P CD4K7pF 12V 1N4148 R119 QV
118. IX2 FIX3 FIX4 FIX35 27 3 JPL JP2 STRIP20 28 STRIP 5 29 1 5 STRIP 5X2 30 3 JP6 JP7 JP8 STRIP 2 31 2 OC1 0C2 TLP521 1 32 Q2 BC237 Appendix to the user manual 2002 R V R Elettronica SpA All rights reserved 33 34 35 36 37 38 39 B 4 4 4 4 4 4 aS 50 51 52 53 54 55 56 20 16 13 33 64 n 26 R1 R2 R3 R4 R5 R21 R22 R23 R24 R25 R41 R45 R46 R47 R59 R105 R108 R109 R118 R119 R6 R7 R8 R9 R10 R26 R27 R28 R29 R30 R42 R54 R55 R60 R68 R86 R11 R12 R13 R14 R15 R31 R32 R33 R34 R35 R43 R71 R75 R16 R17 R18 R19 R20 R36 R37 R38 R39 RAO RA4 R106 R R R R 107 8112 8113 8120 8122 128 R134 R140 R144 R150 156 R160 R165 R174 R177 179 R181 R185 R190 R212 R214 48 RA9 R56 R57 R58 R62 R64 R66 R67 R70 R74 R76 R77 R79 R80 R83 R84 R87 R89 R90 R92 R96 R97 R99 R100 R102 R103 R104 R162 R164 R166 R170 R171 R172 R173 R175 R176 R178 R180 R182 R186 R188 R192 R194 R197 R199 R201 R202 R203 R204 R205 R206 R207 R208 R209 R210 R213 R215 R216 R219 R220 R227 R228 R230 R52 R53 R65 R81 R82 R61 R167 R168 R169 R191 R193 R195 R196 R198 R200 R63 R69 R78 R85 R95 R98 R101 8211 R217 R110 R111 R114 R115 R121 R125 R131 R135 R141 R147 R151 R157 R221 R223 R226 5116 RIT R122 81235126 R127 R129 R130 R132 R133 R136
119. It utilises operating frequencies not harmonised in the intended countries of use The user must obtain a license before using the product in intended country of use Ensure respective country licensing requirements are complied with Limitations of use can apply in respect of operating freuency transmitter power and or channel spacing Declaration of Conformity Hereby R V R Elettronica SpA declares that this FM transmitter is in compliance with the essential requirements and other relevant provisions of Directive 1999 5 EC CE This page intentionally left blank R W R PJ5KPS Table of Contents 1 Introduction 1 Warranty 3 3 First Aid 5 3 1 Treatment of electrical shocks 5 3 2 Treatment of electrical Burns 6 4 General Description 7 4 1 Composition 7 4 2 Technical specifications 7 4 3 Options 8 4 4 Operating principles 8 5 Installation and use 11 5 1 Assembly 11 5 2 Amplifier check 15 5 3 First start 18 5 4 Management of the exciters 21 5 5 Protection and alarms 24 6 Troubleshooting 25 7T Technical description 26 7 1 Software Reference guide 26 7 2 Parallel Interface 38 7 3 Power supply section 42 7 4 RF Modules amplifier 49 7 5 Alarms 50 7 6 Combiner and divider 52 8 Technical Notes 53 8 1 Microcontrol board Trimmers 53 8 2 Phase Adhutment of RF modules 54 8 3 Splitter board trimmers 54 8 4 Parallel Interface 55 8 5 RF module I O Interface 56 8 6 Services supply 57 8 7 Emergency CCU Board 58 8 8 P
120. J5KPS Ventilation 62 9 Digital Telemetry TLC5KPS 64 9 1 Foreword 64 9 2 Installation 64 9 3 Technical details 76 User amp Technical Manual Rev 1 5 08 02 06 PJSKPS Rev 1 5 08 02 06 R Y R This page was intentionally left blank User amp Technical Manual R Y Ra PJ5KPS 1 Introduction This manual describes the PJ5KPS a solid state RF amplifier designed for frequency modulation sound broadcasting manufactured by R V R Elettronica The PJ5KPS amplifier constitutes the end power section for FM transmitters fitted with different possible configurations A control system for the exciters is built into the machine so that in order to have a system with redundant exciters all that needs to be done is to include two exciters in the transmitter such as for example the PTX30LCD exciters made by R V R Elettronica The manual is structured as follows Chapter 1 Presentation of the manual Chapter 2 Warranty conditions e Chapter 3 Safety recommendations Chapter 4 Description of the machine and its operating principles Chapter 5 Guide for installation and use Chapter 6 Most frequent troubleshooting cases on starting up the machine Chapter 7 In depth description of the operation of the modules of the apparatus This chapter also contains the description of the pin configuration of the connectors and explains how to use the control unit menus item by item e Chapter 8 technical notes e App
121. K R226 4 7 Di 10 02 4 4 85 i EI da 412 2 41 15V O 12V M 7 U2E U2A RST D5 12 1 4 EXTALSZ m 40106 40106 1 25 e CM 1uF D6 13 x 21 12V 1 XTAL d 1 4 1M336 5 0V 03 cf GND EARTH D7 L22 2 2 8 60 CM10pF e ps H2 BKGD PA4 BAS vod GM24123DSL D Q1 RST PAS 45 vec LCD DISPLAY j R8 2 PAG ga ES EST CCU OUT j BDM 1 3 PEO GND ACK ON BKGD 4 2 MOI 33 24 Do X LM809 ACK STDBY ACK_ON NP x R7 Uk 2 PBO DI ACK_STDBYACK_RIS1 lt 777 180120 25 DI PBI OFF RIS2 26 ___02 U39 PE4 PB2 ACK RIS3 PE5 PB3 58 45V 024 voc 1 BST EXCT RIS4 10K 89 DI _ PEG PB4 RST ACK AM pin DO 7 5 3 05 3 GND VREF AUD ALRM R229 1A 9 IM 8 9 Esc PB ESC 4155 PBe pat DI 77 MC34064 A e 7480132 Be aa avg 4 0 ____ __ 8 aes PTT ML WARN CSA2 cs G 1M va Di P B Up PB_UP 6 pro PGPUD H2 O 45V PDI MUTE 8 GND D DIS RR 2A1 2Y1 2 5 Input al DW 1 PT3 PGO 22 AD p PD2 MUTE2 R W z B e Y1 WR DIS r 12 2A2 2Y2 2 02 B On 21 AM R W 5 P Stdby PB_STDBY 16 2 4 2 gt Yo PAT Ta a D7 Papa DEE OFF PT6 J2 _
122. Line termination for bus RS 485 JP22 4 LINE TRM Line termination for bus RS 485 JP48 1 GND Ground 48 2 1 GND Ground JP48 3 Out FWD PWR Forward power Analogical output 3 9V for 5000W JP48 4 Out RFLPWR Reflect power Analogical output 3 9V for 1200W JP48 5 Out OUT AIR TEMP Temperature of the air at the output of the chimney Analogical output OV for 50 C 3 9V for 100 C JP48 6 Out V BUS Voltage at the output of the transformer rectifier Analogical output 3 9V for 80V OV for OV JP48 7 Out EFF General efficiency Analogical output 3 9V 100 OV for 0 JP48 8 Out OUT DAC 6 Reserved for future applications JP12 1 Out CMNMUTE1 40 80 Common contact MUTE 1 see JP12 2 Rev 1 5 08 02 06 User amp Technical Manual ELETTRONICA PJ5KPS JP12 2 Out MUTE1 MUTE excitater 1 Digital output active when exciter 1 is inhibited by the control unit Like all the digital outputs on the parallele interface it can be configurated through jumper as normally open or normally closed This output has a common contact dedicated to this function JP12 1 JP12 3 Out CMNMUTE2 Common contact MUTE 2 see JP12 4 JP12 4 Out MUTE2 MUTE exciter 2 Digital output active when exciter 2 is inhibited by the control unit This output has a common contact dedicated to this function JP 12 3 JP12 5 Out CMNLOCAL Common contact LOCAL see JP12 6 JP12 6 Out LOCAL LO
123. M 23 Ul LM358SMD 24 02 LM50C Appendix to the user manual 2002 R V R Elettronica SpA All rights reserved Unbalancement meas board SLPWRSENHC52 2 3 5 5 Nome Progetto 5 5 Selettore strumento analogico Pagina 1 d 1 Size A4 Autore Ucelli Rev Canazza Doto 08 10 2002 Codice Progetto lt gt Nome PC in Rete NNUT SRV Revisione 1 0 DC Nome Parte Selettore strumento analogico 5 File Cortella METPJ5 4LY DWG Autorizzozione Codice SLMETPJSKM4 Scala lt gt Materiale lt gt Trattamento Profilo lt gt Appendix to the user manual Analog meter selector SLMETPJ5KMA 1 3 2002 R V R Elettronica SpA All rights reserved PJ5KPS CONMSPALINSO 2 10 NSq HILIN 2 uno 20 01 2 euorsmew AUS 10 eeu ur og 20100054 2002 20 81 eom new ELETTRONICA V ezis Lip OINOO0Sfd 443142 90 135 337199 99 177 1 135 13S 27 27 344102 33199 79 89 y 135 IXA SON
124. MA suo THT 7947 RST SAFE2 1 c RST SAFE ALR IRQBUS 1 c ALRIRQ BUS 797 Nome Progetto PJ5KMC Pagina di1 Size A3 3 MUTE 4 CB22 F76 055306 70 055306 Autore Data Codice Progetto j F71 055306 F75 na ua 7 7 MAINS 80521 7 3 MAINS BUS utore lt Author Name gt a 21 03 02 odice Prog lt Project Code gt 9 088306 47 F73 DSS306 Nome PC in Rete lt Path PC gt Revisione 2 Nome Parte CONTROL UNIT BACK BOAR A File Cartella Path File Autorizzazione Codice CSCCU1PJ5KM2 4 3 2 1 Appendix to the user manual 2002 R V R Elettronica SpA All rights
125. MiKpF CM1KpF CM10KpF CM10KpF CM10KpF CM10KpF CM10KpF D2 4450501 gt 64 097 R 43 bosco gt prag 35 D3 5V 2 R 42 GGMXFC PTA4 36 D4 6 05 CM 1uF D CP33KpF 10k PTAS PI 30k R1652K2 4 ON PTCO PTAs 2 47 pa we STDBY PTA7 E ADI 8196 C98 SW_SAFE PTC2 OUT_0 IN_ADI PTBO R1674K7 CHO P CP10KpF MAINS PTC3 RTC OUT_1 STOP_A 4 pret PETER CH2 P QUI S ALARM 5 OUT 3 SE RESOUT 6 PTB __ R171 10K End d Analog In 50 0100 217 88 tl prs 8172 10K Digital DUTE CM 1UF oko 1M MISO 13 1 6 R173 10K CHE i OUT 7 10K Bi MOSI 14 7 eo 7 8175 10K CHT P R176 n SCLK 15 AD2 C AD2 SELO 18 5 9 E 77 SEL1 PTD4 B ETEO RXD M ak H Pm Pe 7 op 106 299 45V 45V 45V 45V 45V PTD7 gt gt gt 45V C101 CM 1uF 015 10K 1772 2 259 R178 MC68HC908GP32 QFP AD3 IN AD3 998 998 BAV99B BAV99B BAV99B n DAC B IN2 KE IN3 C102 47K INS CM 1UF R179 2K2 5V 10K R180 DAC A C130 C133 404 AD4 TLV5625 5 74HC574 cia E 5V CM 1uF CM fur CM fuF CM fuF 10K 181 2k2 an R182 D20 AD5 lt ADS XBAV99B 020 lt 5 75176 lt C115 E CM 1uF R185 2K2 10K 5V R186 406 STRIP 5 074 12V 0 5 12V 0 5 5V
126. ON Digital output active when the PJ5KPS is set on ON mode common contact of this output is the RL3 JP47 3 JP38 8 Out FAULT Digital output active when the PJ5KPS is set on FAULT mode The common contact of this output is the RL3 JP47 3 JP38 9 Out WAIT Digital output active when the PUSKPS is set on WAIT mode common contact of this output is the RL3 JP47 3 JP38 10 Out WARNING Digital output active when the PUSKPS is set on WARNING mode The common contact of this output is the RL3 JP47 3 Power supply section The power supply used by the PJ5KPS is AC threephase with neutral at 380 V The power supply for the RF amplifier modules is DC 80 V stabilized inside the modules themselves by a built in switching power supply The power supply section of the PJ5KPS is composed of a threephase transformer and a rectifier circuit to feed the RF modules Some features of the power supply section are the following e PF gt 0 94 This value of the power factor is got thanks to specific solutions such as power inductors use The result is a wave shape of the absorbed current particularly cleaned and meeting the requirements of the most demanding users e Redundancy Where an uninterrupted service is demanded is possible to add second power supply chart The functionning of the max power output is warrantied by a power supply only so the double power supply use allow to be used as back up in case of
127. PJ5KPS Pagina 1 di 1 Size A4 Autore Guerzoni Rev Canazza Data 18 04 03 Codice Progetto lt gt Nome PC in Rete NNUT SRV Revisione 11 DC Nome Parte Testina modulo 1 kW File Cartella DCLPFPJIKM DWG Autorizzazione Codice DCLPFPJIKM Scoloi Materiale gt Trattamento lt Profilo lt Appendix to the user manual RF module directional coupler SLDCLPFPJ1KM 173 2002 R V R Elettronica SpA All rights reserved 02 BAT83 Di BAT83 R4 ik R2 1k montato sull RCA Riflessa montato sull RCA 7 417 RCA DIR SW1 RON a size A4 DCLPFPJ1KM pagina 1 di Nome Parte Dir Coupler Module 1KW Codice Progetto lt gt Codice Data 14 10 2002 Revisione 1 0 DC Autorizzazione PJ5KPS Ucelli Mauro Rev Canazza DCLPFPJIKM DSN c4 100k R1 C2 4n7 HC C3 470n C4 4n7 RCA RFL Appendix to the user manual 2002 R V R Elettronica SpA All rights reserved module directional coupler SLDCLPFPJ1KM Nome Progetto Nome PC in Rete UT SRV File Cartella Autore RV1 200R ELETTRONICA PJ5KPS SLDCLPFPJ1KM Bill Of Materials Page 1 Item Q ty Reference Part 1 1 CE 2 2 5 1 47p 3 4 C2 C4 C6 C7 4n7 4 1 C3 470n 5 2 D2 D1 BAT83 6 2 RV2 RV1 200R 7 2 R3
128. PJSKPS 5 A User amp Technical Manual Manifactured by R M Ra Italy C 7 PJ5KPS Use maintenance manual Versione 1 5 Copyright 2003 2006 R V R Elettronica SpA Via del Fonditore 2 2c 40138 Bologna Italia Telefono 39 051 6010506 Fax 39 051 6011104 Email info rvr it Web www rvr it All rights reserved Printed and bound in Italy No part of this manual may be reproduced memorized or transmitted any form or by any means eletronic or mechanic including photocopying recording or by any information storage and retrieval system whithout the permission of the copyright owner Document History Date Version Reason Editor 30 01 02 1 0 First Version D Canazza General Revision New format PageMaker Insert 211802 of chapter 8 Technical appendix integrated D Canazza Stand by functions update Power on procedure corrections New section chap 8 I O interface board ToU 152 New schematic version of Wiring diagram and PSSW5040 19 12 03 1 3 Insert of chapter 9 Technical Appendix upgradated J Berti 31 10 05 1 4 SLPWRMTRPJ5 Board Upgrade J Berti 08 02 06 1 5 SL042MT1001 and SL042RF1001 board upgrading J Berti ELETTRONICA Notification of intended purpose and limitations of product use This product is a FM transmitter intended for FM audio broadcasting
129. R1 100k 8 2 R2 R4 1k 9 1 SW1 RCA RFL 10 1 SW2 RCA DIR Appendix to the user manual RF module directional coupler SLDCLPFPJ1KM 3 3 2002 R V R Elettronica SpA All rights reserved PJ5KPS iai C BBEBHHEB BEBBB8HH EXIA Nome Progetto PJSKPS Scheda misure splitter Pagina 1 di 1 Size A4 Autore Ucelli Rev Canazza Data 14 10 2002 Progetto gt ____5 ___ coaie SLSPLUEASKWI Seala 1 1 materiale gt Trattamento gt gt Appendix to the user manual Splitter measurement board SLSPLMEA5KW1 1 3 2002 R V R Elettronica SpA All rights reserved PJ5KPS LA ELETTRONICA IMMSYANIdSS9I e mo2 1911119 LL 4 jueueJnsea y 191106 1040 served 0 1 auory 9d gt ezey ur 24 ls 4 000014 10 60 50 2 OINEN 7007INS EP za 201000574 707305044 4 812 18 5808 E x01 10 P tad 07 15 17 d 10 Lup 10 13 td
130. R137 R138 R139 R142 R143 R145 R146 R148 R149 R152 R153 R154 R155 R158 R159 R161 R229 R163 R187 R183 R218 5222 5924 8225 TE Microcontroller board SLCPUPJ5KM2 PJ5KPS 1K 100R 100K 2K2 10K 25K5 20K 4K7 39K 59K 2K7 3K62 16K9 33K2 1 47K 22R 10M 330K X2K2 10R 10K5 12K 6 7 ELETTRONICA 2 58 29 60 61 62 63 64 65 66 67 68 69 70 gu 72 73 Appendix to the user manual 2002 R V R Elettronica SpA All rights reserved 11 No CO TR1 TR2 TR3 rR4 TR5 TR6 TR7 TR8 TR9 1 TR12 U1 U2 U3 U4 U5 U6 U7 U8 U10 U12 U14 011 013 015 E 021 1 R10 TR11 87W 20K 87W 10K LM324 LM78MO5CDT TLO74 40106 ULN2004A 68 9086 32 74HC273 74HC574 TLV5625 74HC244 SN75176AP 74 4053 74 139 25 080 32 768 2 Microcontroller board SLCPUPJ5KM2 PJ5KPS 717 VR PJ5KPS A e C69 1 o doo 6 044 gel Eso Ws U CO 21 R125 122 CSADPPSPJSK2 anf Ta Jom get O 5 c Em E None Progetto PJSKPS Adattatore Power Supply e Combiner Pogino 1 di 1 Size Autore Ucelli Rev Canazza Data 08 10 2002 Codice Progetto Nome PC in Rete UT_SRV Revisione 1 0 DC Nome Parte Adapter PS e Comb File Carte
131. R26 10K 2W 31 1 51 OMRON Appendix to the user manual 2003 R V R Elettronica SpA All rights reserved Three phase rectifier SLRCTPJ5KMC PJ5KPS 3 3 Ra V Ra ELETTRONICA PJ5KPS OOO O O 0 2 1 lt E t o O Cyn 080 Luo rw 5 R203 8 185 CSCCUPJSKM2 Og l8 da H 5 R0 079 070 071 0712 R127 R200 2m 0848 m om R29 8 mgm RI 8196 R197 RIS gm mn m R139 Oso oo R193 mre R128 8157 mam 8158 8 mm R152 8 8 2 TO An mn gg Rift Rio Un RIO gn RBI R88 RIO3 R97 119 C43 mn 8 a 2 Ei d D10 8 8 BHB R120 845 m 8119 R47 8 Ru ID gm m R98 gm mg RIO mm m m mg C27 4 025 ey 55588 HHHB SpE 8882 01 001 0 oo RIB 2 8 2 8 2 n er 8166 8 8 gie CH BL B Jerre 111 TEER TEE a SE B EBE ELE BBBBEB o 9 RI R159 8 riag iso nnnm joies 8 Tod 2 22 388508 8 st 5 O JP2 om R7 m 2 823 mm R214 C104 RI76
132. R6 R7 R8 2k7 1 2W Appendix to the user manual RF module fuse board SLFUSRFPJ5KM 3 3 2002 R V R Elettronica SpA All rights reserved 5 5 01 gr cn H 94 9268 2 H CSPWRSENHC52 Nome Progetto PJSKPS Combinatore RF Pagina 1 di 1 Size A4 Autore Ucelli Rev Canazza Data 09 10 2002 Codice Progetto Nome PC in Rete NNUT SRV Revisione 1 0 DC Nome Parte Misura absorbers File Cartella SENHC52_LY DWG Autorizzazione Codice SLPWRSEBHCS2 Scala lt gt Materiale o Trattamento Profilo o Appendix to the user manual Unbalancement meas board SLPWRSENHC52 1 3 2002 R V R Elettronica SpA All rights reserved 2 3 PJ5KPS ELETTRONICA L 250 358 450 80 280 35 450 4 A eunsee y 194 1084 0 1 5 AUS Lf 2324 ur 24 7 7 4 qui 211000574 6 6 9 pviezis 84484 SENTI SENTI SENTI GENTI SENTI SENTI SENTI 6X14 8 14 LXI4 9
133. R9 R3 R4 R6 R7 R10 R11 R6 R32 R33 R12 R7 R8 R9 R10 R11 R13 R12 R13 R14 R14 R15 R16 R17 R18 R19 R20 R22 R23 R24 R25 R26 R35 R27 R28 R29 R30 R31 R36 R41 R43 R50 R53 R51 R52 R54 R55 R56 R57 R58 R59 R104 R105 R60 TP1 TP2 TP3 TP4 TI Ul Ul 03 02 02 U4 U5 PJ5KPS 50 20 237 V120ZA6 22K 390R 2 49 4K02 4R99 100R 10R 10R 4W 237R 80R2 3K3 2K61 470R 14R7 22K 1W 150R 392R 1K 1 87W 500R 2 0 5 11 2 7 6k81 87W 2K 1 0 22 5K62 47K5 4K7 2W 22R 1W 20 0 40K2 1K 5 180R 13K3 68R 5 87W 10K 820R 10K 1W TP 15V UC3823 TC427 LM317 HCPL2611 HTM50 LM358 5 5
134. SCHEDA EMERGENZA CCU AUTORE Poluzzi S 07 03 2003 REVISIONE 2 0 scAL 1 1 SIZE 4 PAGINA 1 DI 1 ARCHIVIAZIONE ELETTRONICA CARTELLA PROGETTI SU UT SRV CODICE PROGETTO CODICE DISEGNO CSCCUEMPISK2 MATERIALE FR4 74 1 6mm Cu 35um TRATTAMENTO STANDARD COSTRUTTORE PROFILO STATO ELETTRONICA Appendix to the user manual Emergency CCU Board SLCCUEMPJ5K2 1 3 2003 R V R Elettronica SpA All rights reserved 2 TASPANINDITS 9 012222110 2 9 I4 9J9Y 2d YAY 2 IP 002 zo yew 23 24 yoayduy 1 1 SAYS SEXI SEXI SEXI IH SXI3 08XI4 08 15 exi4 LXIH SEXI XI 90 031 y NO LMSPAININDISO 560015 COXH LOXH Odd9INO 150 Mar HONS LLdO OMOL SEONIS cu Lo NO SOOPNI 0 9 037 AAO zan A SNIVI ELLSINSONO 7 O anyo ASE 40022 SIT kdl 141 69 20 Io TI SOOYNI 0 04 NO ST NO 03IEIUOI AL 50 INS x SOOPNI
135. SETA ls off Figure 7 5 R F Combiner menu 1 15 Combiner menu This menu contains the information related to the RF part of the complete transmitter Here the user will find the most interesting parameters like the overall emitted RF power and the reflected power Menu Line Description Fwd Overall emitted RF power of the transmitter Rfl Reflected RF power of the transmitter Unbal Unbalancement RF power sum of the power dissipated on the internal resistors due to unbalanecement in the RF modules Rej IT Temperature of the load resistors dissipating the unbalancement power Exhaust Temperature of the exhaust air top of the transmitter S W R Standing Wave Ratio calculated by the Control Unit on the basis of the measured forward and reflected power External Fwd Forward power of an external transmitter when configured for this function External Reflected power of an external transmitter when configured for this function External Unbal Unbalancement power of an external transmitter when configured for this function Main Exc Output power of the exciter currently on air the one connected to the input of the RF modules Stdby Exc Output power of the exciter currently on the internal dummy load Temp Status of the temperature alarm sensor included in the combiner RF Enb RF output enable On means that the RF combiner unit is giving its permission for the reg
136. X CN CN7 2 2 C1 C17 CVAR 3 2 C2 C015 4 9 3 4 5 6 11 12 613 in C14 C16 5 4 CI C8 C9 C10 4n7 6 3 C18 C19 C20 Cxx 7 2 C22 C21 220uF_25V 8 2 DCPLR1 DCPLR2 DIR_CPLR 9 4 D1 D2 D3 D4 HSMS2800 10 4 JP4 11 2 K1 K2 TQ2 12V 12 6 PD1 PD2 PD3 PD4 PD5 PD6 PAD 13 9 R1 R9 R10 R11 R12 R13 50_PPR R14 R15 R16 14 4 R2 R3 R21 R22 4k7 15 4 R4 R6 R17 R19 51R 16 2 R20 R5 17 4 R7 R8 R18 R23 lk 18 10 R24 R25 R26 R27 R28 R29 100 2W R30 R31 R32 R33 19 13 TL1 TL2 TL3 TL4 TL5 TL6 50 2 TL7 TL8 TL15 TL16 TL17 TL18 TL19 20 1 TL9 TLINE 327 21 5 TL10 TL11 TL12 TL13 TL14 TLINE 757 Appendix to the user manual 2002 R V R Elettronica SpA All rights reserved Input splitter and changeover SLSPLINP5KW1 PJ5KPS 3 3 R Y R PJ5KPS 9P MALE E9 4mm 9P E9 4mm FEMALE E9 4mm P2 77x2 84mm P2 77x2 84mm P2 77x2 84mm 9 9 C13 12 mn C22 R26 O R24 R25 un C5 D12 R56 R51 R46 R45 B B Beg 5 gt lt N R8 mn C66 C65 C64 m 052 C63 R55 mM un ir R60 R44 ma c24 2 01 Of R27 T R36 31 e R CSADKDIPJ5K2 RI mn um None Progetto PJSKPS Scheda misure absorbers Pagina 1 di 1 Size 43 Autore Ucelli Rev Canazza Data 09 10 2002 Codice Progetto lt gt 831
137. aintenance operations for instance without having to turn off the transmitter The transmitter keeps working at reduced power even if the module has been removed This operation may be carried out without any risk of damaging the module itself or the amplifier as a whole thanks to the control system and to the RF connectors the power supply and the purposely designed data exchange For further information refer to the maintenance section Each module is controlled by a microprocessor based card that checks and adjusts its operating mode The resulting data are transmitted to the control unit e The control unit manages the changeover of the two exciters both in automatic and manual mode User amp Technical Manual Rev 1 5 08 02 06 7180 5 5 4 3 4 4 8 80 The amplifier may be equipped with a dual power supply rectifier module Both modules operate in this case the configuration is in hot stand by since both supply when operating under normal conditions half of the current required by the machine to work When one module is absent or faulty the module that is present supplies all the required current by itself The sufficient dimensioning of each power supply unit guarantees that the machine will work efficiently at its nominal power level Theamplifier can work as usual even if the control unit is not present In fact the control unit may be substituted temporarily with an electromechanical interfa
138. al the start up cicled of the power supply carriages is activated The cicle is divided in two phases the first contactor enables the power transformer through power resistors so that the possible current peak at start up is reduced two seconds later the second contactor is excited so that the transformer is directly fed After an additional delay of a second the first contactor is released At this point the start up cicle is terminated and the STDBY line is released STDBY When this signal is at ground the RF modules are forced on a RF mute mode The power supply section maintain on a stand by position the control bus untill the start up cicle is ended or when the ON signal is not present or at the end in all the coditions that are controlled by this section that can affect the safety of equipment When all the checked conditions are satisfactory the signal is released Alarm When this signal is at ground the control unit checks all the devices present on the bus to register and manage eventual alarms When a signal or an alarm that affect the power supply section is revealed the processor that is used to control it orders to the line to go down so to communicate to the control unit the event Tr Tr These signals are used for data communication The levels meet 5485 standard the speed is 115 kb s Please note that an eventual failure on these signals doesn t affect the complex functionning of the eq
139. alarm The control unit of the PJ5KPS can manage a fault signal for each exciter which normally has an Audio Alarm meaning The control software of the PJ5KPS does not intervene in triggering these signals since they must be checked by the exciters or by any other connected devices The Audio Alarm signals are made up of two inputs for the logical signals on the parallel interface and on the mute RF command connector of the exciters The control unit manages these signals just like it manages the power good signals Each Audio alarm signal is associated with its own exciter fthe audio signal associated with the exciter that is currently on air enters an alarm status the PJ5KPS waits for the time configured in the exciter menu before it attempts the restoring operation User amp Technical Manual Rev 1 5 08 02 06 23 80 5 5 e Ifthe audio ofthe aired exciter is still in alarm status on the elapsing the aforesaid time interval the control unit checks if the audio of the exciter on the dummy load is regular In this case the changeover between the exciters is performed Observe the following differences as compared to the case in which power is missing The management of the Audio alarm signals is not active during the start up phase and during the switching phase from OFF to ON but only when the exciters are working in automatic Inthe standard configuration the aforesaid sequence continues un
140. and ON The current exciter is activated the interlock is released from the exciter and its power emission is enabled The power emitted by the PJ5KPS amplifier increases gradually until it attains the level that had been set previously as Reduced power Check the emitted power level by means of the analog instrument with the selector switched to FWD PWR position Press NOMINAL POWER Power supplied by PJ5KPS increases and attains the set nominal value Check it on the analog instrument When the transmitter is on and works at its nominal power the whole series of accessory checks and settings deemed necessary may be carried out before starting up the apparatus User amp Technical Manual Rev 1 5 08 02 06 19 80 5 5 5 3 3 Control unit settings The settings of the control unit that are required for starting up the machine mentioned in the powering on procedure are the following 1 Settingofthe power levels 2 Setting of the on air exciter Menu Settings Hominal Fur 95 4 70 KW Low Power 44 2 808 EW Set Assi n Limit SET Ch 1 SA x Ch 1 DA X Ch 2 ZA SET1 Ch 1 Exc wait time Talk Address Time h m Date 41 42 12 02 02 Write Confit All Figure 5 8 Menu settings Before performing the first operation click the ESC button The display shows the screenful for selecting the menus Figure 5 7 Click the arrow keys un
141. anual 5 5 The current of output air is equal 600 m h The input hole of the air is situated on the back cover of the rack but on demand is possible have an ulterior chimney inlet air on the top cover of the rack Representation of the air inlet hole location and the additional User amp Technical Manual Rev 1 5 08 02 06 63 80 PJ5KPS 9 Digital Telemetry TLC5KPS 9 1 Foreword R V R Elettronica s plug in series transmitters like TX5KPS may be optionally fitted with the TLC5KPS telemetry device that enables the user to remotely ceck all the machine s working parameters and control some of them and provides the transmitter with the ability to trigger alarms when problems arise while the transmitter is on air possibly sending GSM Short Messages SMS to maintainer s cellular phone or to any other number stored in the machine s memory 9 2 Installation The TLC5KPS is installed in the rear part of the transmitter s rack near to the low pass filter and the RF output connector 9 2 1 Connection The bottom side of the TLC5KPS contains the following connectors 64 80 Rev 1 5 08 02 06 User amp Technical Manual PJ5KPS The upper side contains the following connectors 65232 The following connections should be performed on the bottom side 0815 male providing the power supply 18 V 0 18 V AC The power supply is provided through the
142. ated 6 80 Rev 1 5 06 02 06 User amp Technical Manual R W R PJ5KPS 4 General Description The PJ5KPS is a RF amplifier for frequency modulation sound broadcasting It is a fully solid state apparatus of modern design that uses MOSFET as active components in the FM amplifying modules This chapter briefly describes the machine s main features 4 1 Composition The PJ5KPS amplifier is made up of modules inserted in a 19 rack The main modules are as follows e 1 Control unit 51 2 kW RF amplifier modules e 1 Control unit e 1 or 2 Power supply unit carriages 1 Splitter Input RF The amplifier is supplied complete with all its parts not really modules essential for its operation such as the fans for dissipating the heat generated by the machine inside the room and all the accessories for the electrical and RF wiring As a rule the amplifier is supplied as a complete transmitter therefore the two FM exciters that it manages will be provided and connected a service exciter and a spare exciter 4 2 Technical specifications Frequency range 87 5 to 108 0 2 Nominal RF power 5000 W Power supply voltage 380 Three phase 3F N Exciting power Max 30 W Consumption lt 9 5 kW Power factor gt 0 95 Additional important features of the PUSKPS as follows The 1 2 kW amplifying modules are implemented by means of plug in technology the individual modules may be removed for performing m
143. bally emitted by the amplifier Unb Unbalancing power dissipated in the combiner module RF UnitN On Fields used to switch ON and OFF the amplifier modules Before the removal of an amplifier module for its replacement or maintenance Switch it off with the help of the corresponding line Fwd Forward power generated by the RF module Rfl Reflect power from the RF module User amp Technical Manual Rev 1 5 08 02 06 33 80 PJSKPS R Y R Henu Settings Hominal Fo 4 9 58 kl Lou Fower 408 x 4 66 Kl Set Assidn Limit SET 1 SA x 4 66 Kl SETZ Ch 1 8 X Co 2 58 Kl SETS Ch 2 fA x 248 Wi SET4 Ch 1 508 5 1 2 58 Wi Exc wait time 18 sec Talk Address 4 Time h m 14 49 Date Cd m u2 53 03 03 L F Timer Auto Write Config All Figure 7 9 Settings menu 7 1 9 Settings menu This menu is used for the settings of the unit It is therefore the menu which is used more often apart from the possible maintenance operations Menu Line Description Pwr Out Setting of the level of nominal power expressed as a percentage of the maximum power level This is the level that the PJBKPS must reach when the Power Nominal button is pressed except in case of disfunction Pwr Lower Setting of the reduced power level expressed as a percentage of the maximum power level This is the level that the PJ5KPS must reach when the Power Lower button is pressed except in ca
144. ce by means of which the user may give the ON and OFF commands to the machine However in this case all the numeric type information will be missing and the power level remains the last one enabled before removing the control unit Options The PJSKPS envisages the following options Single or dual power supply carriage Single or dual exciter e N 1 configuration Different kinds of exciters Automatic restore after safety tripping or manual restore Operating principles This description is based on the block diagram shown in Figure 4 1 The PJSKPS amplifier essentially comprises three blocks The power supply section TheSplitter Coupler section The RF amplifier section The power supply section of the PJ5KPS amplifier is made up of one or two three phase transformers each one associated with a rectifier circuit for generating the non stabilized voltage of 80V that supplies the RF modules The transformers and the rectifier circuits are mounted on removable carriages together with power inductors that help achieve a power factor of about 94 The power supply unit carriage is dimensioned for supplying all the power required for the PJ5KPS to operate at full power Therefore the configuration of the machine with two power supply unit carriages is a hot stand by redundant one The power supply section is controlled by a microprocessor based card installed in the rack The Splitter Coupler section performs all the tr
145. d from the software that is when the commutation is carried out the interlock comes systematized in the correct way independently from like they were The interlock could be modified also manually in case of necessity 5 4 Management of the exciters The control unit can perform the automatic changeover between exciters if one malfunctions The Manual LED on the panel indicates when it is lighted up that the automatic changeover function is disabled In order to enable it click the EXCITER CHANGEOVER button and check that the LED turns off In funzione dello stato del PJ5KPS il comportamento della macchina sar diverso In questo capitolo sono descritti i diversi casi In function of the state of the PUSKPS automatism the behavior of the machine will be various In this chapter are described the different cases 5 4 1 Start up from power on with exciters in manual mode When powering on the machine with the exciters in manual mode the apparatus does not perform any check both mute RF signals are active and the changeover relay remains in standby status Use the exciters menu to activate an exciter dd This is why if the transmitter is left in manual mode any momentary power failure will cause the transmitter to be inactive when turned on again Therefore it is advisable to leave the PJ5KPS in automatic mode when you are not performing maintenance operations 5 4 2 From OFF to ON with exciters in manual When
146. e Autore Telecom REV BERTI J Data 06 11 02 Codice Progetto 99 Nome in Rete NNUT SRV Revisione 11 DC Nome Porte 88 File Cartella LOWTENPJSKMC DWG Autorizzazione Codice Pd Scolo 1 5 Materiale Trattamento Profilo Appendix to the user manual 2002 R V R Elettronica SpA All rights reserved Wiring Diagram 1 1 ELETTRONICA 038 d PJ5KPS gt TR12 LM336 5V 0138 E 2 R228 10K R45 C35 Sg B 8 Ba cj gg CSCPUPJSKM2 pag 4 csc HB SE INT ET R5 047 8B M eH BAT83 amp R98 E C89 C88 m H uma o C91 C90 EER Coe mm 5 877 _ R87 _ R75 ki 2 2 gt 888088 8088 R76 C137 E R100 C58 amp C50 D19 EBH TRA 182 i zi B e iu CH R65 R53 QD 2 2041 g H BH 3 58 SA a JP5 22 5 g O Q s BIB HBHHHB HH 888 Gage B 288 C16 R33R15R20 C10 SHSHSBHSBSH 75170 amp amp H Sii 020 2 5 ar SB 55 oo BE n Slee Do pg pog 512002 843835 020 __ 8014 R32 R31 CI2R26 2 MEN 1952 BE SHHHHHH2HHHH BH BBa O 2 O O 22 96 3 gg EB ASA 8885 SBSH S088 2
147. e 1 0 DC Nome Parte Main section File Cartella LAY5040M DWG Autorizzazione Codice PSSW5040 Scala lt gt Materiale lt gt Trattamento Profilo Appendix to the user manual 2003 R V R Elettronica SpA All rights reserved RF Module switching power supply PSSW5040 PJ5KPS 821 0 11313 PJ5KPS JP9 WLO2 MOLEX4 F2 NG S 1 8105 C18 e NC NC JPG PHOENIX2 NC 470UF 40 47UF 25 MKP1nF 600 R4 1N4004 L5 VOUT 10R4W 130uH mE 30VAW 100R MKP 1UF 250 L6 180uH 4 M t M t JP8 50 A IRFP250 L1 M AN 50RIA20 2 N VOUT LEDR 5 3 WH BFT0740 o EKE470 100 MKP 1UF 250 4 R28 5K62 10R 4W 10R AW A 27 Qi MOLEX4 t 1000 63 1000 63 C13 C51 R33 C10 dle de R32 x 015 016 C44 D5 D6 1000 63 1000 63 Q4 LL LL E MKP 1UF 250 654 IRFP250 a 1000 63 C14 C17 gt EKE470 100 C49 4 s C12 EKE1000 63 EKE1000 63 Em d RV1 CP 22UF 10 MOLEX4 R29 023 R14 V120ZA6 BFV0710 5K
148. e air at the input of the unit Safety Status of the safety arrest button On indicates the functioning is enabled Off means the unit was arrested through the button Mains Status of the main voltage supply On indicates that the voltage is within the functioning range of the unit and that the phase sequence is correct Trafo 1T Status of the AC fuses AC low voltage bus bar rectifier and interblock of module 1 Fuse 1 Status of the AC fuses AC low voltage bus bar rectifier and interblock of module 1 Trafo2 2T Stesso significato di Trafo 1T Quando il carrello alimentatore rettificatore 2 non installato viene indicato Fuse 2 Same function as Temp 1 When the supply rectifier module 2 is not installed is indicated C B Blower Status of the magnetothermical motor save interruptor of the circuit breaker blower Supply 1 Control contactor of module 1 Supply 2 Control contactor of module 2 Blower Control contactor of the power of the blower User amp Technical Manual Rev 1 5 08 02 06 29 80 PJSKPS R Y R Henu Combiner Channels Combiner Exciters Fud 5008 Ul Main Exc 21 M Rifle SA StbuH Exc HB W Unbal 18 keji lT 21 7 Alarms Exhaust 38 8 5 S W R 1 8 EF Enba External 0 Fud 2 2 sana On SETS 0 Unbal KM
149. e trimmers have diverged meaning In figure 8 1 refers to the RF module PS to the power suplly and CMB to the combiner TR12 is set so that VREF is 3 3 V Li RFM PALLET 1 CMB TEMP ARIA CAMINO PS User amp Technical Manual DRIVER CMB SBILANCIAMENTO TR5 PS RFM cus POWER IN 00 164 PS RFM PALLET 4 CMB SBILANC EXT TRS PS RFM POWER CMB POWER IN Ps RFM POWER RFL CMB POWER RFL PS Rev 1 5 08 02 06 TEMPERATURA CMB TEMP DISSIPATORI S PS TEMP ARIA INGRESSO RFM V BIAS CMB PS V BUS RFM PALLET 3 CMB POWER EXT PS RFM PALLET 2 CMB POWER FWD EXT Ps RFM POWER FWD CMB POWER FWD N PS Figure 8 1 Microcontrol board Trimmers CWASldNdOSO 53 80 PJ5KPS h FL 8 2 Phase Adhutment of RF modules Each PJ5KPS RF module have a dip switch accessible on the frontal panel for the regulation of the phase of the RF signal generated The phase of each RF module could be modified independently to steps of 1 6 from 12 8 to 11 2 Figure 8 2 Normally the modules comes furnished with the phase regulated for 0 that it is the optimal position for the correct operation of the machine on all the frequency band In some cases could result useful use the regulations of phase for minimize the unbalanced power dissipated To this purpose
150. eatment of the RF signal except for the power amplification Rev 1 5 06 02 06 User amp Technical Manual R Y Ra PJ5KPS RS485 Splitter RS485 Rectifier uC e i 1 1 Tansformer Rectifier Tansformer i _ i 1 il Control Unit gt 2 OSL Lao Exc 1 Figure 4 1 Block diagram of the PJ5KPS The RF signals generated by two exciters in the redundant configuration are first attenuated by 6 dB to improve the uncoupling among the stages and then connected to a coaxial relay commanded by the control unit One of the two signals is closed on a dummy load built into the machine whereas the other signal is connected to the input splitter The power of both signals is measured by specific directional couplers The RF signal of the selected exciter is divided into five branches each of which is passed to the input of an amplifying module User amp Technical Manual Rev 1 5 08 02 06 9 80 5 5 10 80 The five RF amplifiers branches recombined by the coupler at the output of the amplifying modules The overall amplified RF signal is filtered by a low pass filter for eliminating the harmonics and is therefore available at the output connector The Splitter Coupler section is controlled by a microprocessor based card which make
151. ed Control unit motherboard SLCCU1PJ5KM2 3 3 PJ5KPS CH 1 N a MAINS DL18 DL21 RR14 Nome Progetto PKSKPS Interfaccia parallela Pagina 1 di 1 Autore Griptech Rev Canazza Data 08 10 2002 Codice Progetto lt gt Nome PC in Rete UT_SRV Revisione 1 0 DC Nome Parte Interfaccia parallela 821 0 11313 INA File Cartella PJ5 REM MNT DWG Autorizzazione Codice SLINTREMPJ5K Scala lt gt Materiale lt gt Trattamento Profilo lt gt Appendix to the user manual 2002 R V R Elettronica SpA All rights reserved Parallel interface SLINTREMPJK5M 1 4 ELETTRONICA 5 5 JUMPERS 12V JUMPER3 2 2 JP2 RR2B WYA 027 RR4AB 013 7 EXT_INT_REM RIS2 IN REM 3 4 3 am 4 d am ll TLP620 D3 V 4 3 EXT INT 65 D3 V 4 3 RIS2 8 4K7pF 4K7pF SAI RR6B 1K5 7 RR8B 1K5 JUMPER3 JUMPER3 7 2 0 JP6 ce 216 REM 6 4 3 CHG MR REM 5 4 3 TLP620 al 4K7pF xil TLP620 4K7pF AKTpF 3 V 4 5 OFF c9 3 V 5 CHG MR EDA RR6C 1
152. endix It contains all the design details wiring diagrams assembly plans etc of the PUSKPS This manual is written as a general guide for those having previous knowledge and experience with this kind of equipment well conscious of the risks connected with the operation of electrical equipment It is not intended to contain a complete statement of all safety rules which should be observed by personnel in using this or other electronic equipment The installation use and maintenance of this piece of equipment involve risks both for the personnel performing them and for the device itself that shall be used only by trained personnel R V R Elettronica SpA doesn t assume responsibility for injury or damage resulting from improper procedures or practices by untrained unqualified personnel in the handling of this unit Please observe all local codes and fire protection standards in the operations of this unit WARNING always disconnect power before opening covers or removing part of this unit Use appropriate grounding procedures to short out capacitors and high voltage User amp Technical Manual Rev 1 5 08 02 06 1 80 5 5 points before servicing WARNING this device irradiate radio frequency waves and if it s not installed following the instructions contained in the manual and local regulations it could generate interferences in radio communications This is a CLASS A equipment
153. er manual 2002 R V R Elettronica SpA All rights reserved R241 51 52 54 55 56 57 58 59 510 511 512 53 TP1 01 03 04 05 08 06 07 09 016 021 024 027 022 026 030 032 037 023 025 028 031 029 033 034 035 038 039 040 1 Y2 U2 U11 U13 U17 U20 U36 U10 U12 U14 U15 U18 U19 820K B3F SW SPDT TP GM24123DSL 40106 MC68HC912 D60 CPV8 74HC244 74HC139 7415273 TLP521 4 LM258 TLO72 ULN2004A TLV5626 SN75176AP LM7805 T0220 74HC157 ICL232 X LM809 MC34064 CD68HC68T1M 14 745MHz 32KHZ Control unit CPU board SLCCUPJ5KM2 PJ5KPS 6 6 Ra V Ra ELETTRONICA Appendix to the user manual 2002 R V R Elettronica SpA All rights reserved Nome Progetto PJSKPS Scheda madre CCU Autore Griptech Rev Canazza Data Nome PC in Rete UT_SRV File Cartella Scala lt gt Materiale Control unit motherboard SLCCU1PJ5KM2 CCUIPJKS_1_LY DWG lt gt 07 10 2002 Revisione 1 0 DC Autorizzazione Trattamento Pagina 1 di 1 Codice Progetto lt gt Nome Parte Schedra madre CCU Codice SLCCUIPJSKM2 Profilo lt gt PJ5KPS 821 0 11313 INI 1 3 ENT ELETTRONICA 5 5
154. er time after a command 5min Maximum complete measurement update 1 55 No TX reply timeout on the RS485 35 before setting local status Display update time User amp Technical Manual 1 55 Rev 1 5 08 02 06 79 80 5 5 RW R This page was intentionally left blank 80 80 Rev 1 5 06 02 06 User amp Technical Manual R W R PJ5KPS Appendix A Piani di montaggio schemi elettrici liste componenti Component layouts schematics bills of material Questa parte del manuale contiene i dettagli tecnici riguardanti la costruzione delle singole schede componenti del PJ5KPS L appendice composta dalle seguenti sezioni This part of the manual contains the technical details about the different boards of PJ5KPS LCD This appendix is composed of the following sections Descrizione Codice RVR Vers Pagg Modulo RF SL042RF1001 1 1 3 4 Accoppiatore direzionale modulo RF SLDCLPFPJ1KM 1 1 3 A4 Misure splitter ingresso SLSPLMEASKW1 1 0 3 4 Splitter modulo RF SLSPLRFPJ5KM 1 0 4 Scheda fusibili modulo RF SLFUSRFPJ5KM 10 3 4 Scheda misura sbilanciamento SLPWRSENHC52 1 0 3 A4 Selettore misura analogica SLMETPJ5KM4 1 0 3 A4 Interfaccia I O modulo RF SLIORFPJ5KM2 1 1 3 A4 Accoppiatore direzionale di uscita SL042MT1001 10 3 4 Interfaccia rel di potenza SLRLYCPROTVJ 10 3 A4 Emergency CCU SLCCUEMPJ5K2 10 3 4 Schema del cablaggio 11 1 Scheda microcontrollore SLCPUPJ5KM2 10 7
155. es The value of the output power is managed directly by this micro controller In case of fault of this control unit or if a problem arises in the communication bus the transmitter will continue working at the same power level set in the field nominal power of the control unit To this unit is assigned the task to limitate and stabilize the output power When one of the parameters reaches its safety limit for the right functionning of the machine the power level decreases progressively The feedback is completely of analogic type made through a voltage present on the control bus The voltage is between the maximum of 3 9 V this indicates that the transmitter is supplying the maximum power and 0 V minimum power This section also controls the maximum permitted power level of the exciters with a programmed alarm of Fault type If this level is exceeded the transmitter turns itself OFF and the AC supply of the exciters is cut until the operator pushes the Alarms Reset button Rev 1 5 06 02 06 User amp Technical Manual 5 5 ELETTRONICA 8 Technical Notes This chapter contains the references to the technical appearances that more frequently could be necessary for intervene on the PJ5KPS 8 1 Microcontrol board Trimmers In the PJ5KPS are present microcontrol boards one for each 1 2 kW module one for the control of the power supply and one for the control of the combiner The boards are identical but in each th
156. eset attempt is launched or F Fault the unit is completely locked and requires the intervention of the user in order to remove the cause of the failure Time Time hrs and minutes at which the failure occured Date Date at which the failure occured Rev 1 5 08 02 06 User amp Technical Manual ELETTRONICA Menu Service Fwd 88 Unb RF Uniti RF Unit RF Units RF United RF Units RF Unit RF Unite RF Unite RF Unita RF Uniti 7 1 8 Service menu M 1023 1912 1718 1023 1718 1823 1718 1825 1018 1823 Figure 7 8 Service menu 50 Ca Co Co 00 e PJ5KPS This menu is normally used during the maintenance operations When this screen is visualized the Control Unit checks the status of the modules of the unit more frequently in order to have a visualization of the different parameters as fast as possible When this menu is entered all the secondary functions are interrupted therefore a possible alarm may not be visualized and registered immediately when exiting this menu all the alarms which were temporarily put in stand by are registered If the user sets some modules in OFF modality these will be automatically reactivated when exiting the menu This menu is deactivated after 60 minutes if no key is selected Menu Line Description Fwd Forward power glo
157. for installing and using the PUSKPS amplifier If necessary more in depth information about the operating principles may be traced in the next chapters 5 1 Assembly For practical reasons and for transport safety the machine is usually supplied disas sembled to the customer The assembly procedure is rather simple and can be car ried out by any qualified technician Caution In order to avoid the risk of damaging the machine and or of injuring the D operators it is advisable to closely adhere to the instructions provided below always respect all the safety regulations and standards in force Identify the machine components e Therack various components are assembled such as the coupler the splitter the control unit the main blower Figure 5 1 a The5 RF modules Figure 5 1 b Oneortwo transformer rectifier carriages Figure 5 1 c The exciters Figure 5 1 d As a rule the amplifier is supplied as a complete transmitter This example shows two PTXLCD exciters produced by R V R Elettronica Usually the exciters are pre assembled inside the rack Check that all the components are in perfect working order Should there be any kind of problem for instance if there is any damage caused by the transport of the components read the instructions associated with the Warranty at the beginning of this manual chapter 2 1 Install the rack in the location where the transmitter will work The rack is mounted on wheels
158. for simplifying its movement therefore after having positioned it where expected it is advisable to use the four screws at the bottom of the rack to steady it perpendicular to the ground The transmitter is cooled by forced ventilation The air outlet is on the machine s roof whereas in the standard configuration the air intake is envisaged at the back of the machine If you optfor this solution install the machine at least 50 cm away from the back wall so that air can flow under optimal conditions The air inlet may also be delivered from the machine s roof by removing the cover from the hole that is pre cut in the roof for this purpose 2 Remove the protection panels of the RF modules and the power supply unit carriages from the rack Also remove the stop bar of the power supply unit carriages that is at the bottom of the rack User amp Technical Manual Rev 1 5 08 02 06 11 80 PJ5KPS R Y R Figure 5 1 Components of the PJSKPS 3 Insertthe first amplifying module into the RF modules compartment Figure 5 2 Figure 5 2 Inserting a RF module 12 80 Rev 1 5 08 02 06 User amp Technical Manual n R PJ5KPS The modules have a groove at the top and one at the bottom insert the modules so that the guides in the compartment fit into these grooves Slide the module until the two fixing screws fit into their seats Then tighten the fixing screws at the same time so that the module inserts into its compartment remainin
159. g parallel until itis perfectly in place 4 Repeatthe operation with the other four RF modules 5 Insert the first transformer carriage into the left hand side of the specific compartment The carriage is mounted on three wheels two are fixed on the front side and one pivoting rear wheel to facilitate this operation Move the carriage toward the left hand wall of the rack Figure 5 3 and then move it forward until the connectors at the back are perfectly in serted into their seats The power supply unit carriage is very heavy and its barycenter is high therefore be careful when handling it to avoid tipping it over 6 If you have a redundant power supply unit insert the second power supply unit carriage as you did with the first one 7 Position the stop bar of the power supply unit carriages 8 Make the necessary connections of the power supply unit carriages Power supply connector Figure 5 4 a Data connectors Figure 5 4 b 9 Connectthe machine s main power supply cable Route the cable 5 pole type through the raceway on the machine s roof Figure 5 5 a and fix the conductors to the terminals of the master switch Figure 5 5 b The last operation is usually performed by removing the knob and the cover of the isolating switch Figure 5 3 Power supply carriage connectors User amp Technical Manual Rev 1 5 08 02 06 13 80 PJSKPS 14 80 ELETTRONICO Figure 5 5 Power supply cable Caution
160. iages is still able to supply all the required power in this case the fault is signaled by the LED Warning on the front panel The meanings of the carriage signals are the following Signal Function Fuse 1 This signal meaning Carriage 1 Fuse signal is in fact composed of the series of all the safety interlocks of the carriage If this signal is in the alarm status it will be necessary to determine which of the following possible reasons is causing it AC power fuse microswitch of the chart connected The magneto thermic switch command connector coils control signals connector threephase power connector Trafo 1 OH This signal meaning Overheating transformer 1 Trafo 1 Over Heat is connected to the safety thermal switches There are two different sensors one is on the transformer lamellar plate the other is on the rectifier heat dissipator The intervention of one of these two devices stops temporarily the equipment on WAIT mode When temperature goes below the threshold the transmitter will automatically restart The temperature of intervention is 90 C and in case this alarm arises it will be recorded with a message in the alarm menu on the control unit Fuse 2 As Fuse 1 for carriage 2 Trafo 2 OH As Trafo 1 OH for carriage 2 If the signal Fuse X is on alarm in order to restore the regular functionning of the equipment it is necessary to identify the cause of the fault The following tab
161. ibe the problem and so that a possible easy solution can be detected Dealers and Distributors are supplied with all the information about problems that may occur and usually they can repair the unit quicker than what the manufacturer could do Very often installing errors are discovered by dealers 2 f your dealer cannot help you contact R V R Elettronica and explain the problem If it is decided to return the unit to the factory R V R Elettronica will mail you a regular authorization with all the necessary instructions to send back the goods 3 When you receive the authorization you can return the unit Pack it carefully for the shipment preferably using the original packing and seal the package perfectly The customer always assumes the risks of loss i e R V R is never responsible for damage or loss until the package reaches R V R premises For this reason we suggest you to insure the goods for the whole value Shipment must be effected C I F PREPAID to the address specified by R V R s service manager on the authorization DO NOT RETURN UNITS WITHOUT OUR AUTHORIZATION AS THEY WILL BE REFUSED User amp Technical Manual Rev 1 5 08 02 06 3 80 5 5 4 Besuretoenclose a written technical report where mention problems found and a copy of your original invoice establishing the starting date of the warranty Replacement and warranty parts may be ordered from the following address Be sure to
162. ilable through terminal blocks Figure 7 13 This interface is connected to the Control Unit from which it receives the different signals and to which the eventual comands are forwarded The card contains digital inputs digital outputs and analog outputs Among the digital inputs a copy of all the possible orders that can be given locally to the unit by using the buttons of the control unit are displayed Figure 7 13 The parallel interface The digital outputs supply information concerning the status of the PJ5KPS The analog outputs enable the remote control of the most important parameters for example the forward and reflected power This interface was designed for a maximum configurability and adaptability to the telemetry systems to which it may be connected For example each digital input can be configurated through a jumper in order to be active when grounded or when connected to a supply source between 12V and 24V The scheme of one generic digital input is shown in Figure 7 13 b Please pay attention to the anti parallele type optocouplers so that if the jumper is closed between the pins 1 and 2 by grounding the DIGITAL INPUT the inputis active On the contrary by closing 2 and 3 the input is active when the DIGITAL INPUT is connected to a positive voltage Each digital output can be configured individually as Normally open or Normally closed NO or NC In Figure 7 13 a the scheme of a generic digital output is
163. include the equipment model and serial number as well as part description and part number Elettronica SpA service del Fonditore 2 2c 40138 BOLOGNA ITALY Tel 39 051 6010506 4 80 Rev 1 5 08 02 06 User amp Technical Manual n R PJ5KPS 3 First Aid The personnel employed in the installation use and maintenance of the device shall be familiar with theory and practice of first aid 3 1 Treatment of electrical shocks 3 1 1 If the victim is not responsive Follow the A B C s of basic life support e Place victim flat on his backon a hard surface Open airway lift up neck push forehead back Fig 3 1 clear out mouth if necessary and observe for breathing e if not breathing begin artificial breathing Figure 3 2 tilt head pinch nostrils make airtight seal four quick full breaths Remember mouth to mouth resuscitation must be commenced as soon as possible 1 Sem cog ww 2 f re Va GE Figure 3 1 Figure 3 2 Check carotid pulse Fig 3 3 if pulse is absent begin artificial circulation Fig 3 4 depressing sternum Fig 3 5 Figure 3 3 Figure 3 4 Figure 3 5 e case of only one rescuer 15 compressions alternated to two breaths fthere are two rescuers the rythm shall be of one brath each 5 compressions Donotinterrupt the rythm of compressions when the second person is giving breath e Call for medical assistance as soon as
164. ing power of an external combiner These three values are used when the transmitter is connected to a 1 1 system The SET outputs may also be connected to these quantities 5 3 First start This section describes the procedure for powering on the machine the first time For simplicity s sake the automatic control capacities of the exciters are temporarily disabled Refer to chapter 5 4 that provides the instructions for turning on the PJ5KPS in the various cases 5 3 1 Preliminary operation Before activating this piece of equipment the necessary connections must be performed and in particular Powersupply Modulating signals Audio or MPX RDS RFload antenna feeder or dummy load About to the connections of the power supply and the modulating signals please refer to chapter 5 1 18 80 Rev 1 5 06 02 06 User amp Technical Manual R W R PJ5KPS The machine s RF output is the EIA 1 5 8 flanged type and is accessed on the roof of the PUSKPS If a dummy load capable of dissipating the RF power generated by the transmitter is available it is advisable to run the first tests by connecting to it rather than to the transmission antenna 5 3 2 Power on When powering on the transmitter the first time perform the operations outlined in the table below The Result column indicates the immediate results of the operations performed plus a few indications that confirm that the machine is working efficiently
165. le resumes the points to be verified in order to find the cause of malfunctionning User amp Technical Manual Rev 1 5 08 02 06 45 80 5 5 7 3 4 7 3 5 46 80 Signal Condition Power fuse Verify that the LED on the rectifier card is switched off Figure 7 18 Chart microswitch Verify that the power supply carriage is perfectly attached to the bottom and that pushes the microswitch Figure 7 17 b Magneto thermic chart Switch Verify that the switch is on position Figure 7 17 a Control signals connectors Verify that the plug is connected in the right way Figure 7 18 Command coils connector Verify that the plug is connected in the right way Figure 7 18 Three phase power connector Verify that the plug is connected in the right way Figure 7 17 Note that the handle on the left side of the connector has to be pulled toward the front of the transmitter to block the connector in its place Control card The functions of this microprocessor card are the following Protection of the power supply section Communication with the control unit Analog parameters measurement The card is installed in the rack under the RF modules site in a metallic box where it s included the control card of RF combiner Figure 7 18 a This card needs two analogic tunings air input temperature and Bus DC voltage not stabilized For the tuning use the Power Supply menu of the control unit and ide
166. lla ADPPSP 2 LY DWG Autorizzazione Codice 51 5 5 Scala lt gt Materiale lt Trattamento Profilo lt Appendix to the user manual 2002 R V R Elettronica SpA All rights reserved PS and combiner CPU adapter SLADPPSPJ5K2 1 4 144148 12 CN6 R45 CD1KpF 1N4148 12V R CD1KpF 1N4148 412V CD1KpF D5 46 o1 DIR PF Z 2 6 7 1 lo 6 DIR DIR 71 20k 20k 7 412 E ol2 R
167. load On Air Exciter Visualization of the on air exciter When positioning the cursor on this line with the arrow buttons and by pressing Enter it is possible to operate the switching between the on air exciter and the exciter on dummy load Exct 1 Status of the exciter 1 By positioning the cursor on this line with the arrow buttons and by pressing Enter it is possible to switch on and off the exciter Exct 2 Same as Exct 1 for the second exciter User amp Technical Manual Rev 1 5 08 02 06 35 80 PJSKPS 7 1 11 36 80 Henu Info S H Talk Addr Baud Rate Power Supplu Exciter External Reset Safety Cha 1 TH1OKPSSUI 4 115 2 Kb P S Dual Dual Disabled Manual Ho Figure 7 11 Info Menu Info menu This screen informs the user about the configuration of the transmitter Linea men Descrizione Menu Line Description Type Configuration type model of the transmitter Talk Addr Address of the RS485 port of the transmitter Baud Rate Baud rate of the serial port Power Supply Number of the transformer rectifier carriages in the transmitter this can be Single or Dual Exciter Number of the exciters in the transmitter this can be Single or Dual External Checking of the external Fwd Rfl Unbal values Enabled or Disabled Reset Safety Resetting of the machine after a trip caused by the safety button It can be Automatic or Man
168. lt gt Nome PC in Rete UT_SRV Revisione 2 10 DC Nome Parte Interfaccia 1 0 modulo RF File Cartetlar CSIORFPJSKM2 DWG Autorizzazione Codice SLIORFPJSKM2 Scala 1 1 Materiale lt Trattamento Profilo o Appendix to the user manual RF module I O interface SLIORFPJ5KM2 1 3 2003 R V R Elettronica SpA All rights reserved PJ5KPS 18V UP 18V_DW ADO ADS IN AD4 9 IN ADS d TR 0 IN R OC ALARM IN ON IN STDBY IN_SWSAFE d C c C HEADER 20X2 62VAC 777 BUS CU IN_STDBY IN_ON IN GFB IN GFB R TR OC ALARM SW DIP 6 R1 RXE110 SN RQ R2 RXE110 R3 1 Q FIX1 FIX35 N1 Ad 5 9 QO 6 6 CN2 1 MICROSWITCH 2 MODULE INSERTED PHOENIX2 FIX2 FIX3 FIX4 5 5 5 777 777 77 Nome Progetto 5000 Pagina 1 di 1 Size A4 Autore Mauro Ucelli Data 15 12 03 Codice Progetto 5000 Code Nome PC in Rete Path gt Revisione 1 2 Nome Parte Interface I O 1KW Unit File Cartella Address_1 dsn Autorizzazione Codice CSIORFPJ5KM2 2 3 RF module I O interface SLIORFPJ5KM2 2003 R V R Elettronica SpA All rights reserved Appendix to the user manual 5 5
169. mission the main blower is on the RF modules are not powered the exciters are on but locked by means of an interlock The stand by is used to test the exciters in fact in manual modality the operator could arrange them in base to the own requirements coming from an On in manual modality the system does not touch the interlock Stand by status is signalled from a LED In manual and in stand by the inhibit of the device doesn t intervene on the interlock of the exciters This could necessary when the apparatus is in configuration n 1 for verify if the exciters are operational ON Button for turning on the transmitter The RF power supply is activated LOC REM Selector switch for setting the transmitter in remote or local mode In local mode the buttons and the controls via the menus are active In remote mode the buttons and the controls via the menus are inhibited and the commands may be given only remotely via the parallel interface or via the remote control software ALARM RESET Button for zeroing the FAULT or WARNING alarms NOMINAL POWER Click this button to set the transmitter for supplying the nominal power level Aspecific LED signals this setting The value that corresponds to the nominal level is set by the operator using the menu settings in Section 7 1 8 POWER LOWER Click this button to set the transmitter for supplying the reduced power level Aspecific LED signals this set ting The value that corresponds to the reduced le
170. n Alarm list of the alarms in memory y Station station name RESET ID ID number ME in ALARM RESET OK y Reset of the telemetry and modem restart The Alarms for the RF power falling under a certain level and for the reflected power are connected to the Settings menu Remember to adjust SET 1 SET2 and SET in this menu to suit your need Hernu Settings Hominal Fwr Sa xz 4 504 kl Lou 50050 z 90 kl Set 131 Limit Ch 1 5 4 60 SETZ Ch 1 SH X 2 50 SETS Ch 2 20 X 248 MW SET4 Ch 1 5 2 58 Exc wait time 18 sec Talk Address 3 Time h m 14 49 Date 4 42 9 09 83 L F Timer Auta Weite Confit 811 When all of these parameters have beenfinally configured put the selector on the control panel of the control unit on the Remote position The yellow LOCAL led will go off and the green led will go on We suggest at this point to do some tests to verify the functionality of the system Rev 1 5 08 02 06 75180 User amp Technical Manual PJ5KPS 9 3 Technical details R Y R 9 3 1 Modules mapping 9 3 1 1 Control Unit Configuration data Block 0x00 ID Device ID 0x01 RH Hardware Release 0x02 RS Software Release 0x03 In_Ana_Tot Analog input number 2 0x04 Out_Ana_Tot Analog output number 5 0x05 In_Dig_Tot Digital input number
171. ncluding the feeding of the exciters When the signal return an automatic restart occurs All the time that an alarm of this type is present a relative message in the menu alarm of the control unitis memorized Air pressure pressure sensor informs the local unit if the cooling air flow is not correct the intervention of the sensor stops the equipment temporarily with the disconnection of the power supply contactors of the power transformers When the signal returns an automatic restart of the PJ5KPS takes place An opportune message is memorized in the Alarm menu in the control unit of the unit all the times that this signal interveens Blower Motor Protector The intervention of the ground protection of the motor protector put the equipment on Fault mode This condition requires the presence of an operator to restore the functionning of the equipment In order to attempt to restart it s necessary to reload the motor protector and push the ALARMS RESET of the control unit Each time that this signal interveens an opportune message is memorized in the alarm menu of the control unit The carriage signals are related to the status of the single carriages A possible alarm status in one of these signals has a different effect on the transmitter depending on the number of the included power supply carriages single or dual While in the first case the PJ5KPS is stopped in case of a fault in the second case the spare carr
172. ndows 98 or newer the software has been tested with 98 2000 and XP Telecon 32bit CD ROM provided with the machine e DB9 pin to pin cable long enough to link the PC to the TLC5KPS Insert the CDROM in the PC browse and executethe program setup telecon exe Follow the instructions on screen to install the software on your PC Please note that if you already have an installed version of the Telecon32bit software the new software will just upgrade it and will not affect you installed station database Launch the Telecon program Start gt Programs gt Telecon 32bit 68 80 Rev 1 5 06 02 06 User amp Technical Manual AAN PJ5KPS You will be presented with the database selection screen On the Database combobox the top line selet the PLUGIN_AMP MDB database Teleron Rel 2041 100 201 10 2000 va TY Start 49330000 7 132000 8 3r 7 135000 y 3 yvJsBDOD 2 Phonebook Edit Salone Then select the station TX5KWPS 2PTX station and click on Edit Phonebook Telecom Rel 32041 100 20 17241751 Selected Connection TX5kwPS 2ptw PLUG AMP HDB i Start Edit Phonebook Edit Salone The screenful the software will show allows you to configure all the aspects of the transmitter like kind of modem telephone number and so on Configure this screenful as shown in the
173. ner Acer 037 11 NINE 06 1N4004 AUT MAN lt sor ALARM CM 1uF 0 RESET R65 2K2 R66 2 2 45V U17E U10C TLP521 4 R68 Ut4B qiiem TLP5214 R70 2 AM REM 12vO 2 0 2 ju Of 12 5 8151 IN REM 4 ai pa n AM TST ini 40106 1K5 40106 1K5 I C38 11 089 J 15 2 RST AL REM CM 1uF 3 1K5 2 a 3 CM 1uF 4 Bot R71 2K2 11 6 LOC SEL 1 4 SE i 0148 TLP521 4 875 R73 2K2 dP EE 7 1 14 3 8152 IN REM U13C 45V A nm 8152 R76 1 R77 2K2 4 q 47k ji 1K5 PBCRSTCAL 2 0 U11F 0158 TLP521 4 79 1K5 g REM C40 1 40106 a 0156 521 4 PB NP 13 14 3 851 CM 1uF dei CM 1uF 40106 can v MR lv LOC SEL 1 tI lt INP_TST 5 CM 1uF 211 fe nee 88 NOM e DLE R80 2 2 7 POWER 412V 12V U11C 45V AV99B R81 D7 6 282 0190 TLP521 4 R83 R84 2K2 12V 1 2 LOAD gt gt cua MR 5 10 1 CHG MR REM RA su 4 B 47K U20F R85 U19C TLP521 4 R86 12V 8 33K 12V 40106 Sys 1K5 Loc 13 e 12 5 LOC SEL F as R87 REIR L 47K Y R88 10K CM 1uF 40106 C45 V 1K5 LOAD 1 CM 1uF a NI PA 2 _ R90 2K2 LM258 046 0120 TLP521 4 892 R89 10k CM 1uF 13 P 10 7 8153 REM 93 2 2 M 155 ToS ides 10B TLP521 4 R96 R94 33K 5 047 ue eB Ese gt 14 3 S PBESC TST HN 4 47K 157 1K5 Ld 59 412V BAV99B CM 1uF 40106 AV99B R97 2 Ros 2K2 UIS 1 4 ES
174. ntify the appropriate trimmers in Figure 7 18 b All the input digital signals are of PNP type the common power supply is 12Vdc the line of 12 Vdc is protected against the ground short circuit through a self restoring fuse ptc An possible short circuit on this supply will cause trip the machine Eventual messages of fault in corrispondence of a short circuit on this line won t be valid To restore the supply is necessary to remove the short circuit condition and switch OFF the equipment for about a minute in order to let the fuse self restore Interface Board The control card of the power supply is connected with the actuators through an interface board Figure 7 19 the output signals from the control card are interfaced through power relays and signal relays On the relay coils a signalling LED is present and indicates the command status on the control unit the LED turned ON indicates that the coil is excited All the power contacts are equipped with noise suppressing network The feeding of the relay is supplied from a line protected against the short circuit through self reloading ground protections Rev 1 5 06 02 06 User amp Technical Manual RW PJ5KPS Figura 7 17 Carriages check points Bus bar Vdc visualization Fuse Control signals connector Relays command connector AC power Ei fuse 51 sf Fuse
175. nu For example it can be connected to a switch that indicates that the door of the station is open or to a sensor of a power reserve of an electric generator In this way by consulting the menus of the unit it is possible to trace the moment at which time and date the failure occured JP8 3 in RESRV 2 Same as JP8 2 JP8 4 In RESRV 3 Same as JP8 2 JP8 5 In RESRV 4 Same as JP8 2 JP8 6 In EXCITER CHANGEOVER CMD This comand launches the changeover procedure between the exciters It has the same function as when you press the OK button when selecting line On air exciter in the menu Exciters In order to launch the changeover between the exciters through this comand the manual changeover modality should be formerly selected through the correspondent button on the control unit or through the JP8 7 jumper having however the unit in Remote modality JP8 7 In EXCITER CHANGEOVER Corresponds to ther EXCITER CHANGEOVER button of the control unit JP8 8 GND Ground JP16 1 Out 12Vdc Power source A maximum of 100 mA can be absorbed between this jumper and JP16 2 This power source can be used if the user wants to enter the comands following a positive logic high voltage active comand JP16 2 OUT 12V Same as JP16 1 JP16 3 GND Ground 16 4 GND Ground JP22 1 Bus RS 485 Please note that this serial port is operational only when the unit is in Remote modality JP22 2 TXIRX Bus RS 485 JP22 3 1 LINE TRM
176. o the STDBY button of the control unit JP4 3 in OFF Corresponds to the OFF button of the control unit JP4 4 In EXT INH External inhibition jumper It is a N C type jumper which means that it must be active for the PJ5KPS to work JP4 5 in AUXINH Auxiliary external inhibition jumper It is a N O type jumper which means that it must be not active for the PJ5KPS to work It is auxiliary because even if nothing is connected to it the PJ5KPS works normally JP4 6 In NOM PWR Corresponds to the NOMINAL POWER button of the control unit User amp Technical Manual Rev 1 5 08 02 06 39 80 5 5 RVR JP4 7 in LOW PWR Corresponds to the REDUCED POWER button of the control unit JP4 8 n AUDIO ALARM EXC 1 Audio alarm of exciter 1 This input when active indicates an alarm on exciter 1 If the PJ5KPS is in automatic changeover modality if the exciter 1 is on air and if this signal remains active for a time lag equivalent to the time setted in the Settings menu at line Exc Wait time the changeover procedure between the exciters will be started JP4 9 In AUDIO ALARM EXC 2 Same as AUDIO ALARM EXC 1 for exciter 2 JPAMO GND Grounding contact JP8 1 ALARM RESET Corresponds to the ALARM RESET button on the control unit JP8 2 RESRV 1 Reserve 1 input When this input is active the failure is registered by the software in the Alarms me
177. onds to SET2 The common contact of this output is RL5 JP35 10 JP35 8 Out SET3 Same as JP36 6 corresponds to SET3 The common contact of this output is RL5 JP35 10 JP35 9 Out SET4 Similar to JP36 6 related to The common contact of this output is the RL5 JP35 10 JP35 10 Out CMNRL5 Common contact shared between the different digital output JP35 6 9 JP38 1 Out EXC ON AIR Digital output active when the exciter 1 is on air and not active when the exciter 2 is on air common contact of this output is the RL3 JP47 3 JP38 2 Out AUTO MAN Digital output active when the PJ5KPS is in changeover mode as regards the exciters The common contact of this output is RL3 47 3 JP38 3 Out LOWER POWER Digital output active when the PUSKPS is set for the lower power level Common contact of this output is the RL3 7 3 JP38 4 Out NOMINAL POWER Digital output active when the PJ5KPS is the nominal power User amp Technical Manual Rev 1 5 08 02 06 41 80 5 5 7 3 7 3 1 42180 level common contact of this output is the JP47 3 JP38 5 Out OFF Digital output active when the PJ5KPS is set for the lower power level The common contact of this output is the RL3 JP47 3 JP38 6 Out STDBY Digital output active when the PJ5KPS is set for the lower power level The common contact of this output is the RL3 JP47 3 JP38 7 Out
178. ower supply carriages The status of these signals can be checked on the Power Supply Menu in the control unit When a fault is detected one of the general signals the PUSKPS is blocked either temporarily blocked or until the intervention of the maintenance staff depending on the type of signal The general signals with relative meaning and managing mode are the following Signal Function Safety This signal in alarm status when the emergency button is pushed In this case the feed line to the several contactors is immediately sectioned per cui si ha un arresto istantaneo di tutte le parti soggette a potenza the exciters remain however operational In the meantime a signal send a message to the control local unit of the current conditions To restore the funtionning of the equipment the emergency button has to be reload if the equipment is configurate in mode 3 the start up cicle is activated after two seconds If the power supply is configurated in mode 4 it will be necessary to push the SAFETY RESET button to restart the equipment The safety signal is not memorized on the events menu Rev 1 5 06 02 06 User amp Technical Manual ELETTRONICA Mains PJ5KPS This signal is generated by an external device that control that the power supply current meets the limits of the functionning and that the R S T direction of progression of the phases is correct If the mains is on alarm status The equipment stops working i
179. ratio between the electrical power absorbed and the RF output power Temp Temperature alarm Ok or Ko Fuse Status of the fuse of the RF module Ok or Ko Unit Intl State of the RF module interlock micro switch RF enb Enabled of power distribution from part of the module User amp Technical Manual Rev 1 5 08 02 06 31 80 5 5 Menu Alarms 1 of 2 Unit Err Time Date E Mute Flt 14 14 12 02 63 5 E In 14 13 12 02 03 5 14 03 12 02 03 5 F Clk 14 05 12 02 03 5 F Fuse 14 02 12 02 03 5 Blu 13 57 12 02 03 5 F C B Blu 13 56 12 02 03 5 F C B Blu 13 55 12 02 03 5 F Fuze 18 87 12 02 03 5 F Fuse 13 32 12 02 03 5 F C B Blu 13 15 12 02 03 Figure 7 7 Alarms menu 7 1 7 Alarms menu 32 80 This screen describes all the registered events which are relevant to determine the probable causes of any disfunction The screen is composed of a variable number of pages up to 10 in function of the number of events occured The last events in chronological order are shown in the first page and so on To shift to the different pages use the arrow buttons Menu Column Description Unit Module of the system which generated the failure Err Type of failure and description The type of failure can be W Wait the unit goes in stand by until the cause of the failure is removed R Retry the unit is locked for a predefined time lag after which a r
180. rting the machine A complete description of the alarms and protection system is given in chapter 7 5 24 80 Rev 1 5 06 02 06 User amp Technical Manual R W R PJ5KPS 6 Troubleshooting This chapter will be filled in the next edition of the present manual User amp Technical Manual Rev 1 5 08 02 06 25 80 PJ5KPS R W R 7 Technical description 7 1 Software Reference guide This chapter gives a point to point description of the screens composing the software ofthe PJ5KPS dd Since the management software is able to control up to 10 modules some of the menus configurate themselves for the number of modules For example in a PJ10KPS the menu Overall Status has ten RF Unit lines as in the general example reported in the manual in the PJ5KPS only five of them will be shown 7 1 1 Overall Status menu This is the default menu appearing when the user switches the unit on This menu includes only indications therefore the user cannot insert any input in its different lines Menu Line Description Timer Indication of the start and stop times of the automatic power reduction feature see Settings menu Control Unit Status of the control unit Off or On and indication of the exciter actually connected to the amplifier Exct 1 or Exct 2 Power Supply Status of the power supply cart Off or On R F Combiner Status of the RF combiner Off or On R F Unit N Status of the Rf power amplifier
181. s the values detected at the various measuring points available for the user and for the diagnostics functions The machine contains five RF amplifier modules each of which is capable of supplying a maximum of 1 2 kW RF Each module includes a switching mode power supply unit that regulates and stabilizes the power supply voltage supplied by the power supply section Each amplifying module contains a first stage with gain that varies according to the MOSFET BLF 175 The RF signal amplified by the driver is then separated into four branches amplified by four modules based on BLF 278 recombined and filtered by a low pass filter Each RF amplifying module is controlled by a microprocessor based card connected to the other microprocessor based cards of the machine by means of a 5485 type bus Each module runs the Automatic Power Control function for regulating the supplied power the gain of the amplifying stages and the voltage supplied by the switching power supply unit are regulated so that the power that is output from the module corresponds if possible to the set level The overall power that the PJ5KPS must supply is controlled by the microprocessor based card of the splitter combiner section according to the settings made on the control unit for NOMINAL POWER and LOWER POWER parameters Rev 1 5 06 02 06 User amp Technical Manual R W R PJ5KPS 5 Installation and use This chapter contains the basic instructions
182. se the value of a parameter being modified When the operator is not using the various buttons to navigate the LCD displays the preset screenful that shows the overall status of the machine s modules Figure 5 6 The control unit acquires every second the status of the other modules by means of an 5485 serial bus The activity at the bus is signaled by the BUS INT LEDs on the unit s panel Rev 1 5 08 02 06 User amp Technical Manual R W R PJ5KPS As indicated on the preset screenful push the ESC button to access the screenful for selecting the menus Figure 5 7 On reaching the selection screenful move the cursor full rectangle using the arrow keys to display the concerned line Then click OK to access the associated menu Select the General Status menu to return to the preset screenful 5 2 2 Buttons selector switches and LEDs The typical machine control operations are performed using the buttons of the control unit s panel Specific LEDs correspond to each button and selector switch for indicating the machine s status The functions performed by the controls are as follows Function Description OFF Button for turning off the machine ALED signals that the machine is OFF In this status the exciters and the fan are off and the RF amplifying modules are not powered STDBY Button for setting the machine in standby In this status the transmitter does not emit any power but is ready to start the trans
183. se of disfunction SET1 Level Limit at which the Power Good SET1 is launched This level is expressed as a percentage of the full scale to which SET1 is connected indicated in the column Assign 34 80 SET2 See SET1 SET3 See SET1 SET4 See SET1 Exct Wait time Delay before assuming the on air exciter is faulty Talk Address Address of the unit in the RS485 network Clock Visualization and setting of the internal clock of the unit Calendar Visualization and setting of the internal calendar of the unit L P Timer Setting of the automatic power reduction feature this can be Auto enabled or Manual disabled The feature consists in reducing the power to the low power level and then returning to the nominal power at fixed times The start and stop times are set in this menu selecting Auto Write Config Button for the registration of the configurations in each module of the unit Rev 1 5 08 02 06 User amp Technical Manual PJ5KPS Henu Exciters Hain 22 OM StbuH Hain Exciter 1 Push lt gt Exc 1 n 2 off Lo chante Exciter 5 Mains On Figure 7 10 Exciters menu 7 1 10 Exciters menu This menu is used to configure the settings of the exciters Menu Line Description Main Exc Output power of the exciter currently on air Stdby Pwr Ouput power of the exciter currently on the internal dummy
184. ter 2 to 2 To perform this setting from the main menu click on ADMIN then select Genst from the navigation bar select Uart Adr on the General Set menu and change it to 1 fro the exciter 1 2 for the exciter 2 Amplifier Set Talk address parameter to 3 130 General Set Wart Adr 1 ExPur 100 Baud Rate 1720600 ExSts af 3j Modem Absent ExFra co Telem Release 450302040 SCA br Jumb x x BEE To perform this setting presss the button ESC on the Control Unit of the 5 5 You will be presented with the Menu Select screenful With the UP and DOWN buttons select the line Settings and press the OK button In this menu select the line Talk Address and press OK With the UP and DOWN buttons change the parameter to 3 and press OK User amp Technical Manual Rev 1 5 08 02 06 67 80 5 5 Menu Hominal Pur eae X 4 58 Lou gH x 5 2 58 Set Assi9n Limit SETA Ch 1 So x 4 60 kl SETZ Ch 1 gH 2 58 kl Ch 2 ZO 6 248 dM SET4 Ch 1 SO x 2 58 Wb Exc wait time 16 sec Talk Address Time lt h m3 14 49 Date 4 11 42 09 89 03 L P Timer Auto Urite Confit All 9 2 3 Installing and configuring the PC software Setting up the telemetry is best performed directly connecting a personal computer to the TLC5KPS You will need APC running on Wi
185. terminal block of the parallel interface of the amplifier DB9RS485coming from the parallel interface User amp Technical Manual Rev 1 5 08 02 06 65 80 PJ5KPS AAN DB9I2C connected to the exciters Exciter 2 Exciter 1 TLC5KPS DB9 RS232 not connected On the upper side RS485 Connector with termination resistor This connection is required or malfunctioning in the communications will likely happen The connector contains a 330 OHm resistor between PINs 1 and 6 330 ohm m E 66 80 Rev 1 5 08 02 06 User amp Technical Manual R W R PJ5KPS 9 2 2 9 2 2 1 9 2 2 2 SMA connector for the GSM antenna The GSM modem can be directly installed inside the TLC5KPS in this way the machine will provide the named SMA connector the status LEDs of the modem and the slot for the GSM SIM card Please note that an external and possibly directive antenna for the GSM is always suggested to provide the GSM modem with a good signal and ensure reliable data communications Please note that to fully deploy the features of this telemetry system the you will need to sign a contract with a GSM service provider including DATA COMMUNICATIONS Devices settings The use of the telemetry system requires the correct setting of the addresse in the connected pieces of equipment since they communicate on a shared bus Exciters Set the Uart address of exciter 1 to 1 exci
186. the external interlocks are released the system re evaluates both exciters as during the phase from OFF to ON see 5 4 4 5 4 4 Phase from ON to OFF When the apparatus is set to OFF status and you press the ON button the power supply of the exciters is activated and the logic starts to evaluate the exciters During the evaluation phase the WAIT LED stays ON When the apparatus is turned OFF it memorizes the exciter on air Consequently when the machine restarts it can attempt to restore the previous conditions On the machine restarting if the exciter that is to be aired does not attain the preset power level whereas the spare one is operational the apparatus performs the changeover when the evaluation time 120 s expires On the machine restarting if both exciters do not attain the preset power level the apparatus airs the one that had been present when the machine was turned off after the evaluation time has expired 5 4 5 Start up with exciters in automatic mode The sequence run by the PJ5KPS when the power supply is activated while it is already in ON status and the exciters are in automatic mode is identical to the one run for switching from OFF to ON The only difference is that a screenful displays the countdown for determining the fault of the exciters During this phase the manual automatic button is inhibited and in order to set the exciters to manual mode you must press the OFF button of the apparatus 5 4 6 Audio
187. til the audio signal associated with one of the exciters becomes regular again In the 1 configuration the switching attempt is performed only twice after which the PJ5KPS enters the fault status e AnAudio Alarm output is provided on the parallel interface this signal is activated with no delays when the audio of the exciter that is currently on air is in alarm status 5 5 Protection and alarms PJ5KPS contains a complete protection and alarms system both at the individ ual modules level and at the control unit level The modules are fitted with a micro processor based system that manages any malfunctions locally The associated information is communicated to the control unit for displaying and storing the events and for the centralized management of the events that require it Certain LEDs of the PUSKPS panel are dedicated to the management of the alarms LED Description WARNING This LED indicates a warning something is not correctly working but the amplifier is still working FAULT This LED indicates a fault the amplifier is shut off the operator s intervention is required WAIT This LED indicates the wait status the amplifier is temporarily off it will be restarted as soon as the reason that keeps it from working will be removed or after a fixed amount of time depending on the reason of the intervention of the protection system The ALARM RESET button is used for resetting the alarms and resta
188. til the cursor highlights the line associated with the Setting menu Click OK the software will show the associated screenful on the display Figure 5 8 On having accessed the Settings menu use the arrow keys to select the nominal power line Pwr Out and click OK Use the arrow keys to decrease or increase the indicated percentage value up to the required level Click OK again to set this value Repeat the operation for the line associated with the reduced power level Pwr Lower dd The new power level is transmitted to the combiner module and then stored EEPROM only when the ESC button is clicked When inside this menu it is advisable to check the date and time lines and update them if necessary Note the date and time are used only for marking the events in the alarms register dd The date and time do not need to be updated in the transmitter in order for it to work efficiently On having completed these settings click ESC to return to the selection screenful In order to set the on air exciter select the Exciters menu Figure 5 9 Take into consideration the On Air Exciter line the number to the right indicates the exciter being used To change it simply highlight the line and click OK 20 80 Rev 1 5 06 02 06 User amp Technical Manual R W R PJ5KPS Menu Exciterz Hain Exciter Push Exc 1 Exc 2 Lo chante Exciter Mains Figure 5 9 Exciters Menu The exchange of the exciters is assiste
189. to the user manual 2003 R V R Elettronica SpA All rights reserved CD1KpF CD1KpF 5 OC 1 3 4 5 OC 1 4K7 2W 4K7 2W NE CD1KpF 2 CD1KpF da ik 071 FIX FS1 R5 be FIX 1N4004 FIX2 FIX 4 1N4004 D3 lt gt IRKJ 56 04 777 1 R11 4N25 R12 4N25 4K7 2W 53 4K7 2W CD1KpF 2 C10 CD1KpF K 5 1 1 4K DZ3 FIX5 FS4 1 R14 bs FIX 4 AAW FUSE ioni FIX6 FS5 E 1N4004 D6 lt D IRKJ 56 04 R19 4N25 R20 a 4K7 2W 1 las 4K7 2W CD1KpF C22 CD1KpF BER 5V1AW 1k 025 FIX10 1K FS6 R23 o7 FIX 1N4004 FIX11 rust FIX n 7 14004 D8 lt gt 777 IRKJ 56 04 PM3 FIX3 FIX35 FIX4 FIX35 FIX7 FIX35 FIX8 FIX35 FIX9 FIX35 FIX12 FIX35 CLIXSON TRAFO N O SM TRAFO N C KRA DB9 R26 10K 2W JP5 VBUS INDI IND2 RA6 C5 CD4K7pF 12V K1 TQ2L2 R6 1K RESET DL1 OMRON D5 R BREAK FUSE C8 C9 C12 C13 C14 C16 C17 C18 D4 R8 4004 253 1A C28 PTCI 4K7 2W R18 F1772 510 F1772 510 F1772 510 F1772 510 F1772 510 F1772 510 F1772 510 F1772 510 2R2 5W R21 RV1 250VLA20 RV2 250VLA20 10R 5W F1772 510 R24 2R2 5W RV3 RV4 250VLA20 250VLA20 10R 5w R25
190. ual Cfg N 1 Configuration of the transmitter as a 1 system Rev 1 5 06 02 06 User amp Technical Manual 5 5 Henu Release Hd 5 0 Hall Control Unit 4 Sand 3 68 1 6 Power Surely 1 2 11 1 8 Combiner 4 2 11 1 8 RF Unit 1 8 2 11 1 8 RF Unit 2 3 2 11 1 8 RF Unit 3 18 2 11 1 8 RF 1 4 11 2 11 1 8 RF Unit 5 12 2 11 1 8 RF Unit 6 13 2 11 1 8 RF lnit i4 2 11 1 8 RF Unit 8 15 2 11 1 8 RF Unit 9 16 2 11 1 8 2 1 6 RF Unit 16 17 SEG Figura 7 12 Release Menu 7 1 12 Release menu This menu show the address the kind of configuration the software version and the hardware version of all the microprocessor boards of the transmitter Henu Modem Auto 21 Mame ExamPle station S C H 12324567838 Info Dial ATOT Phone 2345678901 Phone 34567239817 Phone 4567990123 Phone Fhone Phone Fhone Phone Phone Fhone Level 65 dB Status ketri 255 Figura 7 13 Modem Menu 7 1 13 Modem menu This screen informs the user about the configuration of the optional telemetry see chap 9 User amp Technical Manual Rev 1 5 08 02 06 37 80 PJSKPS ELETTRONI 7 2 Parallel Interface 38 80 A parallel type interface is mounted on the top of the PJ5KPS in which the different signals are ava
191. uipment User amp Technical Manual Rev 1 5 08 02 06 43 80 5 5 7 3 2 7 3 3 44180 In addition to the contactors that permit the soft start function this unit control the cooling blower function This is switched on together with the On command while when the equipment is in OFF mode the blower relay stops to be driven after about 4 minutes This laboursaving device is used to avoid that temperature peaks to be present at the internal of RF modules This procedure of post ventilation is used for all conditions of equipment stops both in case ofhuman will or in case of alarm Table 7 1 contains a schematic of the output of the power supply section The graphic display of the contactor status during the time is reported in the Picture 7 16 Configurations The power supply section of the PUSKPS has the following configuration possibilities 1 Equipment with single power supply carriage 2 Equipment with double power supply carriage 3 Equipment with automatic reset of the Safety function at the emergency button release 4 Equipment with reset of the Safety function to be done manually by pushing the button The standard configuration of the equipment includes the points 1 and 3 Logic control Signals The power supply section of the PJ5KPS constantly controls the logic signals that can be divided in general signals related to the equipment in its complex or carriages signals related to the single p
192. ular operation of the transmitter Aux Fan Switch for an auxiliary fan not used in the current configurations SET1 Status of the output SET1 See the Settings Menu SET2 Status of the output 5 2 Status of the output SET3 SETA Status of the output SET4 30 80 Rev 1 5 08 02 06 User amp Technical Manual ELETTRONICA Menu Unit 21 Channels Oe Ghee SD lt Alarms Unit Intl Action Figure 7 6 R F Units menu 7 1 6 R F Units menu PJ5KPS Information menu showing the status of the RF power amplifier modules It is composed of 5 screens one for each module that can be scrolled using the arrow buttons Menu Line Description Fwd Measurement of the forward power of the amplifier module Rfl Measurement of the forward power of the amplifier module Input Measurement of the driving power at the input of the amplifier module V P A Measurement supply voltage of the module generated from the switching power supply included in each module Driver Measurement of the current absorbed by the preamplifier stage MOS N Measurement of the current absorbed by the MOS N amplifier module each RF module contains 4 MOS modules I Tot Measurement of the total current absorbed by the RF module Eff Efficiency of the amplifier module as a result of the
193. ure is repeated indefinitely until one of the two exciters is considered to be good During the whole length of time during which there is no good exciter the PISKPS keeps the WAIT LED on for signaling this status Each exciter is fitted with its own mute RF On being commanded the piloting signal must return to zero within 3 seconds at the most If this does not occur the fault is recorded by an error message that is entered in the alarms menu If the mains signal is not OK the exciters turn off automatically If the piloting power exceeds the limit during operations the PJ5KPS is set to the FAULT status and the power supply of the exciters is turned off A message in the alarms menu signals the fault Keep in mind that the operator s intervention is required to exit from the FAULT status If the MAINS signal coming from the bus is not OK the exciters are all turned off As soon as the MAINS signal is regular again the evaluation cycle of the exciters begins see 5 4 4 When the apparatus is setto STDBY the mute RF signals of the exciters are activated and as such both exciters are inhibited If the ON key is pressed the system re evaluates both exciters in the same manner as in the procedure from OFF to ON see 5 4 4 Rev 1 5 06 02 06 User amp Technical Manual R W R PJ5KPS When the apparatus is setto EXT INT or AUX INT the mute RF signals of the exciters are activated and therefore both exciters are inhibited When
194. vel is set by the operator using the menus EXCITER CHANGEOVER Use this button to set the changeover system in manual or automatic mode The signaling LED turns on when the manual mode is selected On performing a changeover the exciter connected to the amplifier is deviated toward the internal dummy load and vice versa The operator User amp Technical Manual Rev 1 5 08 02 06 17 80 5 5 must use the exciters menu to perform the changeover in manual mode LEDs Wait Warning Fault Other signaling LEDs are connected to the alarm states and to the serial data transmissions that take place among the microprocessorbased cards The function of these LEDs is described further on in this manual 5 2 3 Analog instruments The control unit of PJSKPS contains an analog meter with a rotating selector that are useful for an immediate display of the following parameters FWD PWR Transmitter direct power RFL PWR Transmitter reflected power UNBAL Transmitter unbalancing power PWR EXC1 Power supplied by the exciter currently connected to the amplifier This value is measured by the machine in the splitter section PWR 2 Power supplied by the exciter currently connected to the internal load This value is measured by the amplifier in the splitter section EXT FWD PWR Direct power of an external combiner EXT RFL FWD Reflected power of an external combiner EXT UNBAL Unbalanc

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