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Wiener VME 602X Crate Service Manual

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Contents

1. U25 E e M STATUSR 10 4 LH STATUS C81 S A II ka 3 GND Il U1 3 a 3 K1 A4ACT14N 22P 100V_ N U14 Sch R80 D 1 om LO mm L 34 ucc 45 gt s D 33 Tall ALE PROG AE ag 7 8 HE 5 N 5 6 XTAL2 54 30 29 UPRXD IT A L I e mo S PX 1E0 5A 5V C80 if m RESET 15 RST BB 1 ADGI 53 201 31 A ADO PAL 28 100k a LI z I TAT e PQ 2 ADQ2 57 e 35 ADIO2 PA2 27 U 74ACT14N 9 ons
2. B c D E G H SEE X8 1 470 0 125W si 1 Q Dam d ag EE a 100N 50VC13 C6 reserved reserved s UMAX 2 509 ums si X8 dea 125047N 50V j 60K 0 125W X8 6 8 3 150N S0V 24k 0 125W C3 330R 0 12 a Il jer X8 4 di Current Hedulelgr ans 44H SENSE VOLTAGE 5 C7 m R23 X8 2 ids C23 2E BEEN R20 SN ENDON RISA qe gt 10 0K 0125W 7 m NE U2 A 118 X5 13 D Ade R16 1 2 NO 9 R46 125W RI VE 15 0W0 125W 450K 0425W vo 2 00k 0 125W UTA 3 w R35 MC34072D 10 0k 0 125W 8 iD INL 4 MC34072D COMP U ev Umax 2 5V
3. A B C D E F G H C12 eo 2N2 50V U7 13 16 12 U3 U R4 F ee DD Ep 11 17 Sop vopl 14 beso 7 12 SRCLR 13 ju JB RD suBSTRI 10k s SRCK WR SUBSTRZ 9 SUBSTR3 ullo 14 ger E 15 4 74HC132N 3 Je oT QB gt t 5 M 1 e Qc 5742 ces H e Hir 1 19 143 ci QE S 774 Ge oF gt JFL eet Kee u RSTO 8 Hire 26 Da ES GND QH 23 Di 24 74HC595AN 2505 2705 15 37106 GNDS 12 s D7 GNDL Eeg C13 m l LED ANZ HDSP2112 UB A 2N2 50V u 1 U4 k en LL 2 n 1a CE mo bes as RD SUBSTR1 g WR SUBSTR2 g SUBSTR3 U8 C US 74HC152N 3 Jg A I 3346 voo H 242 cs H 5 y 316 RCK 10145 CLK 12 a 2M 4 SRCK FL mm MUP a4 74HC132N 14 ser ES l 19 Jee 5V H r
4. 5 x45 BZX85C6V2 BYV27 150 lt U2 2 42 I gt Ki ols A R2 pe KA 2 D14 D7 P ay E D2 EB 1 3 T E ol GER Big 8 Lo 1 Q 5 i a o 2 eps E Ye w ma 1K50 0 6W gt Y K ES Geesse BAS 7 3 ST 5 AEN 1U16A 24V is E 5 al Sas Ri SFH610A 3 L1 De 4 SA 8 pes 3 Da z co a 34 ki 9 o cran P 33K2 06W elle Se B SS7BIRME 08 18 LU E SU okosv 0 6w E ko x 9 S BC547B RM5 08 US u E z 2 RE RN 2 3 10 EU kamus 5 SLE elis UG 5 pasa A sy ag o miis 1K50 0 6W 5 ME 2 I 419 19 3 R26 Ge 4 contar Es N 8 DIHAL AOS seg alle Sisk 8 33k2 0 6W 3 U4 DB H GE ziS Sizes 1N4148 Rie CR B 2 8 a 8 2 TL431ACLP d T e Lo ciis 6R81 0 6W 47u 35V Syez j 2 s s s g z 21870 EWS Sij LS SO w j s A 2 N
5. T Feders MONTAGE LUEFTER MRP MRP Isoliernippel N Schr M2 5x5 Abst Abst bolzen bolzen q M2 5x6 M2 5x15 M2 5x8 e a Transistormontage mit Aluoxid 4mm Dioden mit Cho Therm CHANNEL CHANNEL und Waermeleitpaste In MINUS PLUS z KG z O s d D Schraube E ae d 5 D e RI 8 Gewindeklotz Li LI Qo wa I 3 Plati 1 R27 2 Ge E I ee ge SE ol eet Josi Schr M3x6 D JT R28 J R40 L N I TT TT Tra LIG C28 l Ki AN Pan E e ce y r a a en a C N Ll Loy u L2 L NC Ke maz IS O O N m om O O en wel 2 8 l O O Ke D I E ud a kot la T ba 3 ola S 07 s s alz 08 gl 2 ARK i ajaja 5N a alajs 2 o TTT Tr gt o sic ve 7 U vd wlx aly E 4 L gt N i R52 R53 L5 AIS E 2 TT E UT oy N C3 C4 do cur a CHANNEL ell oh N m PLUS 9 g N q o O lo o e BF C a l o ZS N x o oo T T N
6. DH E Mo dal ba N gt A SI x gt E 1 NI Mac iue gt w w v N N VSENSE el E n 9 S a B 8 5 s ADC UAC e E v c ka H Go f GN 5 ke e UNOM 9 s a Rechtecksignal 17Vpp m N mer Tastverh itnis 100 R19 ec X 3 S S USA 10K0 0 12880K 0 125W 1K00 0 125W BE UNOM i LT 104427C0AR4 10 1 jr e 5 R R18 o N D D a wo GND o z Q Q w N S Shi cm 1K00 0 125W Se Jl s s s 3K90 0 125W 19N 5av N 3 LIS TUS Hs a
7. 100N 50V e e t UHS II NO xi X5 ume 2 gt _ 18 C50 b Pin1 CLK Pin U 19 Kel XS 5 5 5 ZE U5 A Pin2 CLK Pin2 U O 2 I l i I I I 8 gt R53 C17 Pin3 PWM Pin3 US B 8 a 1 I Go Pin4 MOD ON Pin4 US E i EM U9 BEI a VE 20 0K 0 125W Pin5 BUS_GND Pin5 COMP U 20 Ka X2 z x o wel OTS Elis se N kt 100N 50V Pin6 CV Pin6 TEMPO l L L Q i eo eich ice MC34072D Pin7 IMONIO Pin7 GATE OVP eo IX x IX g IS al le 14 lvss DEE w E Pin8 US PinB TEMP Eje os dij e S VoutB 5 ees sel H u Ping BUS_UHS Ping US s outC SETA ki a gt TE a E Car CWE a SLIKE b Ref 2 5V 7 125W Pin12 IMONI Pin12 ISMON 3 38 50K 0 125 STD VrefH2 Jg lue Pin13 IMONI Pin13 COMP I ck Vene lem 4 Pin14 TEMP Pin14 ISMON LIES vote 18 Pin15 DAC CLK Pin15 IPMON CLR VoutG 18 6 TL431CD Pin16 7 Pin16 GND VoutH sera Pin17 DAC SDI Pin17 PWMO EE Pin18 DAC LD Pin18 PWM DAC8800FSZ Pin19 UFAN ER 3 AN 3 3 3 Pin20 UFAN se Len Len La STS Ta Ts TE uns o o o o GND gt rap oc 4 3 Se sa U5 8 co D END vo BTE 5 CURRENT MONITOR 3 ve 68 AMPLIFIER Bla
8. o R54 ca C4 E 3 C55 C59 c58 R58 O O N o
9. EX Dote c29 29 v75 LO Oj O 74 8c 92 LL ol Plein amp Baus GmbH w ie ne r D 51399 Burscheid www wiener d com MUH6000 low Noise 49 2174 678 0 B6 Plot Tue Feb 07 2006 Date 25 01 2005 Drawn by Koe Ge Rev 1437008 6 S99 19901 Montage Q7 Q8 aqneiyos ceo aqleyosuape 4 aqleyos N yonejyosos 9104 08 go 20 oi pixo niy 1J di oylu ny an n 0 gt 50 a mm fc r r oc r r jor a S O yx Y ec uo lO X SN cu co a
10. w ie ne r Plein amp Baus GmbH D 51399 Burscheid 49 2174 678 0 www wiener d com UEL6000 CPU with Ethernet Rev 1464212 A3 Plot Wed Mar 10 2004 Date 10 03 2004 Drawn by GE 5 RA 4 E s 1 Connection to I O HCT Connection to external IF HCT RS232 Transceiver DTE Pinning we are DCE lt gt 1 1 Cable 11 Bauteile 0805 SOT23 weniger wenn statt MAX232 MAX3520 verwendet wird 3 3 x3 e ae S S w
11. A B c D E F G H ug ps Hm csi NA P s Mint GA 4 3 3 IE IE l l 18 18 18 1848 l l l l E SL5 BES BS RES Bs Rs RES NES ees So Rs Bs no PB Vin2 Vout2 1 o o O Tel sgh z 8 8 T8 T 8 T JE T8 J JE T8 TE Ik Ik F r 8 Vsense2 3 2 2 2 Sis EN a Kon SE Sis va3 idw RESPE em P S 1K 10BMHz R35 8 8 TM 16 amp ba dead la SS Zeen Por 3 asas 13 8 2 s GND IS 3886886888 SSS z 8 1PS70151PWP z t paa 128 poco 8 5955555535 8888 8 o 5 5 oc 122 ADCINAT 8 SN S 3 pocz 124 JAD INA2 ss egie i063 55 JADCINAS ZOT8OTa Pd 121 ADCINAG 3 2 lacs 4 ADCINAS 5 5 lanos 128 ADCINAG R E ocr H2 ADCINA7 EH 1 EJ cer 2 ADCINBO 24 9k 0 125W BE 2 JADCINBI pocia ADCINB2 A beer JADCINB3 Ble Ble kocia 6 ADCINB4 2 io R66 poem 4 JADENES a a C72 pocia ADCINB6 entens kors ADCINB7 YS amp s octo ADCLO 3 3 7U 10V 600m 3i 1 JADCRESEXT SPISIMOA GPIOFO SPLSIMO en 5 ADGREFP SPISOMIA GPIOF 1 33 EE ADCREFM SPICLKA GPIOF2 32 SPLCIK SPISTEA GPIOF gt SPLCS L11 z 7U 10V 600mR Seel sene Elm t 1118 VODA SCIRXDA GPIOFS 4 SCIRXDA IVDDA2 CANTXA GPIOF6 CANTX 1K 100MH2 R35 P OA l IE l l ERA nie GPIOF F B jam m ri NC mim I Ci 58 5 4 VSSA2 MCLKXA GPIOFB 27 Bon O 3 ES 3 JAVDDREFBG M
12. lolo e eo v e eo eo co OJOJOJOJOJOJO Montage D1 D2 U1 JON esuong os Ln za ta WAU 049 Jedieoxueny aqieyosiape4 aqnesyos Filename 1n 400V Y2 F1 O SG AN n gt ap 3 EE SEE 3 3 a S KEES RER Di SI b aded m E E M9 Q ZYEE LO N LI LI
13. w ie ne r Plein amp Baus GmbH Vorbereitungen Bestueckungsreihenfolge Nacharbeit D 51399 Burscheid 49 2174 678 0 www wiener d com 1 R5 mit 2 5mm Randabstand auf Alox kleben 1 Nietmutter 19 und 20 bei L6 Bestueckungsseite Alle Draehte auf Loetseite kuerzer 2 1mm Title 2 Buegel fuer L1 und L4 aus 1 5mm Draht Biegen 212 SMD Spule anloeten L4 mit Silkon fixieren MNPEC1 6 Bauteile unter L6 Bauteile unter L4 Number restliche Bauteile 1441 6901 D18 wird erst verlaengert auf den Rippenkuehlkoerper montiert und beim Einbau geloetet Plot Fri Jul 20 2001 Date 18 07 01 Drawn by Filename Mnpfc16 pcb UHP 2av I
14. 5 a alo zig E S ko en 5 5 en cols e ls xl gt 3 E 3 S L wen 4 pomy 5 a O o 31 5 5 L SAS vg t 5 SME 8 i Rx ss w ie ne r Plein amp Baus GmbH D 51399 Burscheid 49 2174 678 0 www wiener d com R UEL6000 CPU with Ethernet Power Fan Number Rev 14644212 A3 Plot Wed Mar 10 2004 Date 10032004 Drawn by KoelGe Filename uelee sch Sheet 3 of 4 A B c D E F G H A B C D E F G H 4 70k 0 125W INT low v3 3 jr R42 H2 330 0 125W 100M ED gt E LED 3GE R35 H4 330 0 125W LINK vaa poun LED 3GN R36 4 70k 0 125W LED mode 1 vaa R49 B Ed I SD12 L 1 gt gt L8 X4 011 U8 SETS NS j 6 j SCH DM9000E 2 s SSFZIFZ mt 6 16 can T 8 T e 2 le 15 2 5 RIS TX ENDE ENDE AAAA 4 3 14 meer 9 nis me 4 o W AN n i ami Y CAS 7 10
15. Temperature OK or Fail Status OK Power ON OFF by software mouse click or lt P gt AC OK Fail status of AC mains Trip off Enable Disable temperature and OVP control enabled disabled WARNING Disable TRIP OFF only if necessary don t leave the power supply with TRIP OFF disabled The power supply and crate or modules in the crate can be damaged in case of error conditions without enabled automatic trip off protection UEP 6000 Service Manual 13 10 16 06 Complete Test Instruction for UEP 6000 1 Visual test Power Supply surface ok Final set up ok Cable mounting ok 2 HV Test 2 4kVDC AC mains PE Short circuit test a 50V DC Output PE since 1998 sticker HIGH VOLTAGE TESTED high voltage test has to be repeated if there are changes of the power configuration or set up 3 Put into Operation with complete function control Configuration calibration trimmer current measurement adjustment Mon Measurement of current limit short circuit current since 1998 sticker CALIBRATED sequence of test steps according to test procedure 4 Burn In Long time test with full load and multiple on off since 1998 sticker LONG TIME TESTED Attention do not exceed the maximum total power mains fuse in case of parallel working AC inputs take care for equal load for both power supply levels 5 Mechanical Set up a Mounting screws OK b Power terminal contacts OK c Mount missing m
16. e 10k 1 eis von 18K2 0 6 UHs O lt u m Lu E S Ss SS Lsi SS S5 14 D D a a a XTEMPO XTEMP1 XTEMP2 XTEMP3 XTEMP4 XTEMPS XTEMP6 XTEMP7 A A 1k R9 1k R9 C 1k R8 1k R9 D 1k R9 B 1k R8 D R8 B 18uH 150mA R74 A R74 C R73 A R74 D R73 C R74 B n Sol ER a o 1 4 oye d as j u19 H A El o go Sinu EN KN x sue y JA 00 aB a aseuz I c ii 13 131 08 121701 1371 02 TO on me 5 2 105 2 411 06 Sl 41707 Sa GND VEE O N z 74HC4051N a N H a s zlr w 4 3 U3 xO x wo HINH 0 asete A a ASELI 10 B wi ASEL2 Ic 71 08 14 1701 151 02 ASA TEMP 5 1 05 gt 211 06 ees 1 07 e ono VEE OTA z 74HC4051N jw 4 U18 m Q t wn ASELO A N Ase 19 J5 QC Aszu2 3 c 13 131 08 701 17 11 02 5 To on ar 2 105 a 1 06 Sa 4798 IMAN 7 woe El IS Si vEE OS o le za 74HC4051N 5 N H H Wwr le ne r D 51399 Burscheid 49 2174 678 0 www wiener d com Plein e Baus GmbH Number
17. A B D F G H L_1 DEXZAL rann X3 J 10 2 30K1 0 6W 10K0 0 6W 30K1 0 6W 10K0 0 6W SE SOT s1 E eS gt s RM R11 RM4 R17 o LS 2 xz 8 tis xxH 8 H gt S i8 DG S 4 age RRE A U4 A s gt U4 B S m s e LS 30K1 0 6W gt none 30K1 0 6W gt aen EH OTS SZ mA Value a T jwa Value P D RPO o RP4 o Q ae 20 X2 T use a oun 8 ons ons S L5 ZE 4 X9 J 10 Le x sz amp uE gu 8 mM N GND GND CTs LE Dz xH 8 75K0 0 6W 10K0 0 6W 75K0 0 6W 10K0 0 6W _9 x2 me 134 10 usi ues ot RM1 R30 RM5 R27 J2 m a _ Ra za U7 A s gt a U6 B 10 X2 J us a 13H 8 jam vc 1 vc 7 L_7 IG uss 5 gran 51 75K0 0 6W de moni 75K0 0 6W YE UMONIS LX2 6 3 5 m Us1 IN uss IN SL1 SG 4 Val 4 Val Sz JI RI l a RIS 6 Mais l8 F IE NIK 8 KZH uses j LI 10 10 S m a S 13 X2 M up SLESG xz 8 Le ND ouo m L OTS 274K 0 6W 10K0 0 6W 274K 0 6W 10K0 0 6W ve use 14 kan use X7 J 10 RM2 uns R41 RM6 uns R48 3 Xz c us x amp H 8 m ALS 28 U11 A 6 ye U11 B OT Z vc vol S 274K 0 6W VE CE 274K 0 6W e i Dm _4_ X2 D D ss X8 J 10 us2 E IN 4 us6 5 IN Val 4 Val IR y SE R2 8 alusi me 3 Value m gt gt Ka L 3 UHS lt UHS SFe Els Ells S GND GND
18. Current Limit output current limit Secondary programmable current limit Standard setting Hardware Limit This Current Limit is the maximum current value that the module is permitted to produce When this current limit is reached the module will enter into a constant current mode by lowering the voltage until it reaches the minimum allowed voltage By default this value is set to the hardware limit of the module Monitoring Umin Software minimum voltage limit Standard settings 97 5 of nominal voltage Unom The minimum voltage limit is the minimum allowed voltage for a given channel If the voltage of that channel ever reaches or drop below the minimum value the power supply will turn off with an Undervoltage error UEP 6000 Service Manual 9 10 16 06 Value is the minimum allowed voltage for the channel Channel 0 Monitoring Umin V x Yalue minimum Yalue maximum Yalue 327 67 Exponent a GL CANCEL Minimum Value is the minimum allowed value Maximum Value is the maximum allowed value Exponent gives the number of digits after the decimal Monitoring Umax Software maximum voltage limit Standard settings 105 of nominal voltage Unom The maximum voltage limit is the maximum allowed voltage for a given channel If the voltage of that channel ever reaches or exceeds the maximum value the power supply will turn off with an Overvoltage error Value is the maximum al
19. During calibration the DACu value of 255 is used by default This will give the best accuracy But if the module output voltage exceeds the MUH6 measurement range the calibration will fail In that case you should reduce the DACu value before pushing the CALIBRATE button Current Calibration Calibration I Monitor Cha gt 24882 measured Current CALIBRATE CANCEL The current calibration should be done for a current limit close to full load 90 for each voltage channel Connect the power supply output to a load and measure the actual current The calibration factor is automatically calculated if writing the data for the measured current and monitor voltage to the computer and pressing CALIBRATE If the calibration factor is known it can be typed in directly To store the new calibration setting for the channel press OK UEP 6000 Service Manual 8 10 16 06 After a current calibration the correct current monitoring should be checked for lower loads and Y4 of nominal current value Output Voltage Define Nominal Voltage Channel 0 Output Voltage V Value minimum Value maximum Value Exponent guy CANCEL Value is the nominal voltage of the voltage channel Minimum Value is the minimum allowed value for the nominal voltage Maximum Value is the maximum allowed value for the nominal voltage Exponent gives the number of digits after the decimal
20. Pi te May 09 200 Filename Tile MUH 6000 Low Noise Analog Measurement 6 Rev 1437008 muh6 sch Sheet 4 of 6
21. al ER g 8 Jo 23 T qmsir si iles WW CHANNEL E C13 K ET 4 C22 sen S3 R43 MINUS J 920 Re p SE N i C17 2 s A LI 3 X6 a oe c19 gly BR e 20 22 O O ne 2 N R55 H x x i sl BEN 7 nu 8 9 E 3 O d e KE YA i ect 3 H dni LL O D FIRE SS a SO ER a gt djala Plalals LI e 4 M M FT TIS FA la A cn L6 y O O 4 2 ki L3 L4 B L e o e We 3 o w z p I Widerstaende nicht sicken i 2 U qms O R29 s r AR rn N r o O oe o 0 ALOX Trans M2 5x16 L Kuehk BOUOISLEKLECRETEEN POSITIV Cen w ie ne r Plein amp Baus GmbH i L 18mm D 51399 Burscheid 49 2174 678 0 www wiener d com MDH Modul Double Highpower 1460193 Plot Tue Oct 08 2002 Date 02 02 02 Drawn by GE Federsch Abstb M3x8 Number Filename Mdl pcb A B C D E F ISMON M TG OVPM S X1 E CoMP UM XE i 221K R42 R49 Q6 1K00 Ai R7 T T HT 1N5 R43 i ols C34 zwa a Ng zug xk C3 CVM 8 ar 100N 10K0 NG i C5 100r RI COMP IM X1 M Br b R54 GPL
22. 12 TX2 1 Tr X5 J 10 30K1 0 6W 10K0 0 6W 30K1 0 6W 10K0 0 6W us H ve RM3 R20 RM7 R39 use usa US1 US1 US2 US2 US3 US3 B 3 3 3 3 3 3 3 3 2 Ina UGA s a U7 B Nuls SN LS a So Sure Ke 1 UMONI3 ME 7 UMONI7 SE et et AAA 30K1 0 6W VE 30K1 0 6W z Zo z z z z z z use N val wr LA gyal pa pe pe pe pe p Pa fe RP3 3 SES RP7 3 AE als neS US4 gt US4 USS US5 gt US6 gt US6 gt US7 US7 R S UHS m 3 UHS S S S S S S S S S A Dia mLS LENM LS LS LSs LS _LSo_S a O w le ne r lein amp Baus GmbH O m O m oT gt oT gt O s oT gt O gt O gt D 51399 Burscheid 49 2174 678 0 www wiener d com TS S s S S S S s ne MUH 6000 Low Noise Pet Pet PE ee Pet PEt PE Pet Sense Connection 6 48 Number Pi te May 09 2006 Filename muh6 sch Sheet 5 of 6 A B c D F E F G H 1 2 CAN SV e o o N N Km Zwer as m i a Ez e 6 KF 7 caNH TXD 6 2 A a cANL RxD sy 3 KB 2 GND
23. VME 602X Series Service Manual UEP 6000 Service Manual 1 10 16 06 General Remarks The only purpose of this manual is a description of the product It must not be interpreted a declaration of conformity for this product including the product and software W IE NE R WIENER Plein amp Baus Corp and Plein amp Baus GmbH revises this product and manual without notice Differences of the description in manual and product are possible W IE NE R excludes completely any liability for loss of profits loss of business loss of use or data interrupt of business or for indirect special incidental or consequential damages of any kind even if W IE NE R has been advises of the possibility of such damages arising from any defect or error in this manual or product Any use of the product which may influence health of human beings requires the express written permission of W IE NE R Products mentioned in this manual are mentioned for identification purposes only Product names appearing in this manual may or may not be registered trademarks or copyrights of their respective companies No part of this product including the product and the software may be reproduced transmitted transcribed stored in a retrieval system or translated into any language in any form by any means with the express written permission of W IC NE R W IE NE R declines all responsibility for any damage of the VME crate or part of it and or crate or of any equ
24. oo GND UHS I UHS ep jenes i X5 G GND un kool koon iojdjaja olSlolos UHS R51 R53 B uns 4m7 55mA 1 06 GND VEE 74HC4051N VIN ou MC7805CT C75 U 1U 63V C68 10 47u 35V D P6KE6V8A II 100N 63V D9 C93 TL431ACLP eno avoD R64 56R2 0 6W R62 U12 3 AL R60 osi osi A R53 R54 10K0 0 6W 0RO 0 6W C D H 1k0 R79 B 1k R79 1k0 R79 1k0 R79 F 1k0 R79 R79 A 14 H 14 K10 N 14 TEMPS TEMP7 1k A R82 A R81 A 1k R81 C 1k R98 1k R82 B 1k R81 B 1k R82 D 36 35 34 K2 Al 33 K2 AG 32 G 1k0 R10 31 38 K2 AD 29 K2 AQ
25. Led R18 C7 C6 R26 2700 i ff TI x8 6 6mm C27 C25 R56 C52 Co morr BEE Sl 5 EE AG R33 C1d R32 R36 R34 E18 659 C30 HAHA C20 R58 R57 R86 BBB o BREE n 07 U 00 Ho H H U O 8 1 wy EB O Q6 R64 Red Red C38 R79 R71 48 w ie ne r Plein amp Baus GmbH D 51399 Burscheid 49 2174 678 0 www wiener d com Title M R P DA Number R 1409657 BC Plot Thu May 18 2006 Date 18 05 06 Drawn by GE Filename mrp SMD pc o JE 3 m E l
26. You have to acknowledge the CHECKSUM xxxx messages by pushing the SYSRES button at the fan tray Plein amp Baus GmbH 3 UEL6000E Firmware Update 15 Jun 2004 30 UEL6 Ethernet Pin Description 1 CAN Bus X1 X2 RJ45 5 Signal Comment CAN H CAN L GND n c n c reserved GND n c em 8 1 o lola 4 o m This is the standard CIA pinning Both connectors are wired in parallel so it s easy to connect many crates in a daisy chain 2 RS232 X2 RJ45 Pin Signal Comment 1 n c 2 n c 3 n c 4 GND 5 RXD Output 8 1 6 TXD Input 7 CTS Output 8 RTS Input This is the standard RS232D DCE pinning Connection to DTE e g computer with a 1 1 cable 3 Ethernet X4 RJ45 M 8 1 5 Signal Comment TX TX RX GND 1 75 Ohm GND 1 RX GND 2 75 Ohm GND 2 o jo aiajuinja y This is the standard NIC configuration You need a 1 1 cable to connect a to a HUB or a cross over cable to connect to another NIC e g a computer 31 VME6023 9U Plenum Bin 4318 Backplane JO 21 Slots 6Unit 160mm Fan Tray eUnit e a e temo Segen es Dimension drawing 9Unit Bin Front view VME6023 9U Plenum Bin el Slots 6Unit J1 J2 233 39mmx160mm Transition 6Unit J1 J2 for REAR CARD 233 39mmx160mm Connectorfield 3Unit
27. o9baNN Say TA ofS 1 i KI II 7 elis eia MZ JOL AQ0G dOZZ MZ NCE O AE9 NOBL am TA e Il e vn B 3 89 169 a M9 0 LZAZ AC9 N0QL Lu Li LE L I dbza 1 e 2 o lt ace 988 SD T ZC o n man 8 8 ST an LS EFFE SEHR jan DVS olo N Toor N lt a a n o I x lt m oo BU 4 o o a 2 9 a5 m Ss o m 8 o m o S 29i15292 O0 NL N gt N gt okb245545388 5 D Li m Li m z g A t a O m o O gt olohl tolalals ir 85 8723 t D M90 040 Sia x M9 e Oxe wia x e A l A A AE9 NOBL 923 veeLos 93 veeLas i li 1 m pa 062 3 0 EM Aecv ngg d M9 0 4189 A001 d89 1 nt i II i GI 84H 689 NO 9 NOZZ AQQL ONL 5 N i l 989 69 M9 O LMEL M9 0 0301 L 188 Cen m Age nege WaaL NG M9 G MBBL a y II a 189 869 Ce AQOL 068 QQLAZ T GLOC8XZA id ide KI lt KI 969 u MZ AZ8 8 0 E 810 M9 O v3c ES E iB 684 5 LENG S ERR 7 a a cia N N A gt i 57 een Pl te May 09 2806 Date 26 01 2005 Drawn by Filename
28. to Ac97N001 AQOL NOL de i E 4 II zly co gt 2 5 O Ac9 NO0 Aco 0ni SC AS9 NQBL ees s E m5 ak e A Il Ap gM99 Nesz M9 0 u081 M9 esoDQHL 8 ae Ee I a ilc ZI vZO 810 zle Sot 3 AG N800L AG N00QL sed 169 E ala EE H H 3 ol 216 RE oto 9v9 Sis NIU S 8 n A 9 0N 9 0nl z B 2 vil 2 II Il TG TAE 3 lt lt lt i 3 629 l A s g i 5 i sng VEOLAS gt gt gt gt a 1k M9 0 20 1 Z l AQ0L ONL CO 0LOG8XZA La 0LOSBXZA m 2 9 m LY L JE 6 0 Gemeng HIE K K K KI 3 yeu n 169 ZOLY 0LOS8XZB va OLOSBXZA 80 Monn gt 2 M9 0 00 L Aco enit A 9 an1 St 2 t bons ELO ZI om i Il 4 cou M i y lot SCH 499 3 g c neeel ASE N0001 EE 31 a 50 Elz rt e dl s 3h o D 929 lt s evo lt u 8322138 i w O mem O meg a cenoo0 D a Se 3I si g TEE x x er OT S 28351 Z AOOL NOL MZ AEE IZIN a MZ UCE GLIN fo ZLA Fea bl Es HH I I STO ARES is A 9 0N1 LLLO vM A005 d0L CH A00S d04 y 1d ZOSUNN 1dezesynnN 880 pn I AS si mm Hie z e 8 T Bar IH s 1 r E r E D an N m o m a Q o lt J lt Q N a S A A amp GLOCBXZA vearas Sl L Sle SL b KI TA t SEN 2 S STO eza za R ES aro z cro z x S Q 41 S 2 1 y a ae o gt me m ma x o S N Tad 9 ve esrinN z gt M9 0 0101 Il Ki t 7 N00G dQZZ MZ YOL LIG SANG 3 118
29. 01 48 GPIOB1 3 CaTRIP gt X 4 D14 GPIOB14 CSTRIP a 3 xes 5 s 58 6pl0B15 C6TRIP d ss 6 a DTN A mi CET g 299090009900099 Fa 68 Seed d P De r s rox ea 1K TBOMHZ R35 0 pena a el a ear tap ms LIG pu z z 3 MoMo nA JTAG Interface ze ze z2 3 3 2 ET L ue w ie ne r Plein 8 Baus GmbH D 51399 Burscheid 49 2174 678 0 www wiener d com 40 m UEL6000 CPU with Ethernet Processor Number Rev Plot Wed Mar 10 2004 Date 10032004 Drawn by KoelGe Filename uel6esch Sheet 2 of 4 A B c D E F G H Softstart Hot Swap 5V Converter
30. 1 50k 0 125W 4 70k 0 125W iso 1 Es R3 R14 Hs 3 8 L Lae gills FEEDBACK 1 21V 3 o rT amp z lo CB D lo Tun Ur J D8 S 47u 3 5A 3 LL103A io e gt x N INE ET ee BU VE li 18 A AS D LJN ao x Bo Le Ss CH Kl denge e a lt orseliss e STFS ERE 57357 T ut B e E Sa S 5 Pes pa 4 fo EG ER PE FE tz t 13 ME sZ Rl MENE e gll oTS TE s ONE QUA Es 3 Ri 1 00K 0 125W O E USA 3R9 0 125W 5 a e zl 4 H a pwm gt Ig TPS28 2D R44 IRF7342 47u 3 5A LL103A mm o o2 xj Gef xy2 xj 52 5 3 an ik Bi pet gt 3 ZB des Z zig zde ZE 9299 98 95 8 Leghe 18 mm gt 1M 05 tB e 08 c 1M Fo 5 m3 5 a e 3 T E PTS Tg T a S TSS Ta 2127 2126 2125 2124 2123 2122 EJ off E DI illE s l amp E g E s l amp s l amp E 9 jjs Trennstellen ELDR KK els els elle cle 3 rile 011 B B A 5 5 1 00k 0 125W O FR U5 B 3R9 0 125W 1 1 e a s a E 4 4 4 4 4 GH 4 4 Fan PwM2 R32 TPS2812D R43 RF7342 47u 3 5A LL103A mn a A o kg xpo R22 MT Sie 2 Be ee se S EB EA ZE zd z dz Zi Z bdo zs 3 3 3 D9 NENG E E euge IB 5 mmm mon mm mmm men oS MSas oTe So TS S TSS TS 2121 2120 2119 2118 23117 zL16 Alloalloallse 8 18 a 18 ars Pan a one of nz ELISE IZELIS SIS e 5 E S EIS ells E S 3 3 8 x x x x x x 3 s 3 amp amp amp amp amp amp no E ERA L12 Connect at one point
31. 23 P QC H D2 av i 24 Je x Cx iax QELE A 25 03 yo yo QF 5 ji 26 ps alaa L6 22 15 oe 6 4 27 06 NS j b kk P si 8 Hire y 207 GNDL 3 H GND Ohr LOAD DIS e DEE LED ANZ HDSP2112 LOAD DAT em 4 X6D 4 4 i CLOCK 3 x6 0 L i 74HC595AN 3 18 13 us Oma S G vool 18 s 8 8 8 RCK LED 3GN F S 150R E nd m T SRCLR ki AO 1 SRCK 5 NETWORK 2 SER aa 15 10k R3 D QB D sv LED 3RT F S z ac 5 1 Ki 150R Set 3 BAD L AUTO OFF E le i us w 4 t 7 1 3 138 83 83 83 83 83 8 SE SC REF S A 6 3RT F gt Ugs Hgs ug rugrug SE LEDSRTFS 150R N ro ko loo IN exo 8 GND QH 9 L SIOW T D4 Sau ki 74HC595AN LED 5GN o t U2 150R 4 l POWER ON IC ox voppl as pg 1 7 PSC LED 3GE F S RSB Na 00 150R ux E 11 lan j y FAN FAIL e e e gt pim po R3 C 1 5 E PIN2 a i5 dio o p 6 Zen S pN3 LED 3GN F S 150R o a on W D o 4 p na POUT6 2 d EIE E E 13 pns PouT7 12 ae STATUS wd a lt u lt Qd 14 ewe POUTB8 3 ps 2 i POWER AUTO OFF SPEED 15 PNY R3 A 2 L PINB of Jee LED 3GE F S 45QR MC14021BCP S OVERHEAT U1 R3 E 5v t t t e t m M dd LED 3RT F S 150R x JoOx Ex Ox O0x Ux JQOx lt x I En a E L SYSFAIL See se e s s s s D 3 1 lalaban ler lalar lara a R3 G o m o uo IN Io Y SIN x 6 ES SM E t SPINS 2 a 15 pIN4 POUT6 Ze co 14 PINS POUTZ 3 t 15 PIN6 POUT8 D XSE 5 ju 1 PIN7 E P
32. 34 5627 3 06 30 48 133 5046 33 12 1 0 12 0 MEH48 221 3503 43 01 2923 5 88 58 67 274 2449 68 23 4 75 30 87 8 DACovp U V Kovp 655 36 alte Module Modul DAC Values xls 21 27 03 03 Connection of a Personal Computer to the Power Supply UEP6021 This connection is intended to service functions only Because of the direct connection between the PC and the power supply the ripple and noise of the outputs will increase The needed stuff is an PC running Windows the control program UEP6 and a simple adapter Dongle The power supply is connected to the COM port of the PC For more details view the document 00461 A0 X3 9Pin DSUB 9 Pin DSUB female male UEP6 PC 22 PL6021 Connection Diagram POWER CONNECTOR Pin 10 11 13 18 6mm 120A max Pin 1 9 12 8mm 240A max UO to U7 standard pinning only Polarity positive negativ SENSE SIGNAL CONNECTOR D SUB 37 19 TEMP RETURN 37 TEMP 0 18 TEMP 1 36 TEMP 2 17 TEMP 3 35 TEMP 4 16 TEMP 5 34 TEMP 6 15 TEMP 7 33 BIN EEPROM TIC SDA 14 BIN EEPROM IIC SCL 32 BIN EEPROM 5V 13 VME LOGIC SYSRESET 31 BIN EEPROM GND 12 VME LOGIC ACFAIL 30 VME LOGIC GND 11 VME LOGIC SYSFAIL 29 U0 SENSE 10 UO SENSE VME 5V 28 VW SENSE reserved 9 VW SENSE reserved 27 VX SENSE reserved 8 VX SENSE reserved 26 U4 SENSE 7 U4 SENSE 25 U7 SENSE 6 U7 SENSE 24 U2 SENSE 5 U2 SEN
33. BLY GNO REF s 2 L w ie ne r Plein 8 Baus GmbH a UC3825DW 2 T S S D 51399 Burscheid 49 2174 678 0 www wiener d com z REFS o UR RE BSH114 gt 8 A 3 3 3 3 3 3 3 2 Ya 2 Title MRP DA Q mm 2 vo a Lon LO x L8 o LG r o L8 Sheeti 6 het SSSS S355 Ta S SFZ i Ss Ss S sl A E 36 S S Q iD 8 a 2 2 2 3 3 Number Rev E S 8 8 T E S 1409657 BC ai 1 x CH L5 BUS OD Plot Mon Jun 12 2006 Date 18 05 06 Drawn by GE Filename mrp SMD sch Sheet 1 of 2
34. F1 schieben und mit Silicon an C6 ankleben Platinenmasse mm Platinenmaterial Kupferstaerke Lagen Durchkontaktierungen Bestueckungsaufdruck Loetstop Oberflaeche Nutzen 199 64x99 82 FR405 1 5mm 250um 2 ja nein beidseitig part verzinnt nein DATE NAME 03 12 93 M 1 1 09 07 98 21 24 wieXer Plein 4 Baus GmbH DESCRIPTION MEH Single Module 500W PARTS LAYOUT REFERENCE NO DRAWING NUMBER REV SHEETS SHEET 1409266 Ao 01 0
35. RR 6 l li 8 9 2 zz N N See RJ45 TMB 88 gt 8 8 m8 NU 203 io D SC e RJAS_TM8 dz NIE H1102 Seesen daa e ka i H o e Tale o 3 gt B gt oNN MNA o MAn NS ewe o S o S D To To To S S rloclsocrisev s Y Y x Y ENDE GNDE 2 e e 4 8 A ele OTZ 10N 500V 1K 100MHz R35 0 23A 3 man po ou ele le lee le lee EY le les DO nm II vier NG mba m Qs Qs NI Gm Ja Si E 3 0 w ie ne r Plein amp Baus GmbH o 96 O O O O T O O 3 D 51399 Burscheid 49 2174 678 0 www wiener d com m n m 7 2 u 7 1K 100MHz R35 0 23A 2 m UEL6000 CPU with Ethernet GND EE 4 SENDE Ethernet L6 Number Rev 14644212 A3 Plot Wed Mar 10 2004 Date 10 03 2004 Drawn by Koe Ge Filename uel6e sch Sheet 4 of 4 A B C D E F H1 H2H3
36. a MC34072D 5 z PELS z CV Limiter 8 A 15 0k 0 125W 2 i N Dp SloW Voltage Regulator a VOLTAGE e a LO ro R25 o x S is o Te X F ow c gt 2 100N 50V OT 3 8 6 U3 B 3 P i DIN 3 5 Slow Regulation X81 R38 3 eqq s awa B 5 10k 0 125 sl s s en gt Ier Ka uns c x 8 U SENSE 4 19 iD X H T e m2 Fast Regulation 6 MC34072D a ai Z 70k 0 125W 3 Ts 3 D PI 5 R30 i o 8 MC34072D R47 ka e a S xz REF5 1 z sit 22 0k 0 125W I Q 3 S uns S Slow Regulation 1518 amp S 100N 50V U_ MODUL SET fe 8 SET Ga E l I gt meer o C26 8 Fast Regulation R8 CV Buffer sz 100K 0 125W reserved 3 LG TE reserved R9 GEI gt 8 5 a L 100K 0 125W gt 2 gt a 9 ei E ES 5 x LS vC 1 z S a D4 amp 3g Ye gt 4 DN B g SI re a 48 13 a Eau R BC857C LL4148 2 U4 A l S as g e 6 X16 6 Jem 4 T 10 0k 0 125W D3 MC34072D pr a Porollel Modules 10 0k 0 125W BC847C BC857C LL4148 cut this wire on all slaves 7 22 1 00k 0 125 SE DI e 15 X535 I domm a Lp anto 157 7 HH 1e X5 16 GND is LL4148 e H 1K 100MHz R35 0 23A t m PWM x518 18 gt L6 T 5 eLo Leo ore U7 oo cLock o RT N cr D F S5 60k 0 125W 3 AMP SAX Ele acid 3 Y X 3 1 pvec 13 __ pra 8 11 X5 17 17 ozo 168 5 sst outa n sE s Ex iS Noo Si Je ae x T
37. connection is interrupted error message is shown The main window shows further the power supply ID serial number or part number zz UEP6000 Period 4135 Messages 24989 sent 24989 received File Options Configuration Help Power Supply Version UEP6000 2 16 Power Supply ID 2094121 CAN Version CAN 1 05 Channel Name 5V0 12 3V3 12V Calibration I Monitor 15096 5033 0 15384 0 4960 0 0 Calibration Kovp 15534 8134 0 15534 0 8134 0 0 Calibration U Monitor 757 1880 0 756 0 1882 0 0 Calibration Ku 21024 10211 0 20980 0 10211 0 0 Calibration Kf 850 808 0 847 0 806 0 0 Configuration Flags 00 00 00 80 Output Voltage V 5 00 12 00 0 00 3 30 0 00 12 00 0 00 0 00 Current Limit A 115 00 23 00 0 00 115 00 0 00 23 00 0 00 0 00 Monitoring Umin V 4 75 11 40 0 00 3 13 0 00 11 40 0 00 0 00 Monitoring Umax V 5 25 12 60 0 00 3 47 0 00 12 60 0 00 0 00 Monitoring Imin A 0 00 0 00 0 00 0 00 0 00 0 00 0 00 0 00 Monitoring Imax A 115 00 23 00 0 00 115 00 0 00 23 00 0 00 0 00 OVP V 5 25 15 00 0 00 4 50 0 00 15 00 0 00 0 00 Temperature Limit 127 127 127 127 127 127 127 127 Voltage fine adjust 0 0 0 0 0 0 0 0 PS Temperature max 127 127 127 127 127 127 127 127 Power On Delay ms 0 0 0 0 0 0 0 0 Operating Time 284 minutes 0 days 4 hours 44 minutes Status OK OK OK OK OK OK OK OK POWER ON AC OK TRIP OFF ENABLED Temperature Voltage V 4 98 12 02 0 00 3 29 0 00 12 01 0 00 0 00 Current A
38. eno PQ 3 ADO3 ADOS ADIO3 PA3 ES Y 3 EH smrusser Go 22P 100V el 28 EA vPP EE 34 ADIO4 PA4 24 AT eia U25 F 4 PO 5 ADO5 45 A005 36 ADIO5 Pasi 2 m gt FaNS_OK 5 PWMQ P0 6 AD06 7 ADOS 37 ADIO6 PAG 21 UPSYSFAL x L z m PwM1 PO 7 ADO7 1087 ADIO7 PA7 CG puo ew M X11 11 FANFAIL lt A IT FANS ak u 3 woj 62 wes P2 0 A08 3 wm anios PBO Z sie m woo AVDD P2 1 A09 2008 ADIO9 PBI 2 sw a K2 R4ACT14N W er 9 JAVREF P2 2 A10 35 ante 41 ADIO10 PB2 2 s ls spa kw ZS AVREF P2 3 A11 g9 moun 43 ADIO11 PB3 sw x Y SA HsTADC P2 4 A12 40 1012 44 ADIO12 PB4L 2 swa UFAN S Sw CURRENT 8 ADCO P2 5 A13 49 1013 44 ADIO13 pasl 2 sis VOLTAGE ADC P2 6 A14 4014 ADIO14 PB6 swe o u n 1E0 5A 5V ewe B7 ADC2 P2 7 A15 55 es 46 ADIO15 PB7 S31 ae Sy 2 or ADC3 11 KIR veis euo eur 85 ee PSEN 4 e 47 eNTLO PCo 20 mena zio meet BZ ADC5 25 49 own PC1 13 mere ke UHS NONI 62 ADC6 P3 0 RXD 26 UPRXD CNTL2 PC2 VSTBY 17 SDA I n UHS MONI ADC7 P3 1 TXD 27 UPTXD 10 PC3 14 TAG TSTAT e P3 2 NTO 32 P 3 poe PCA emm Sy P4 0 CMSRO PS S NTI 28 sene are PD1 PCS 15 nem XIX Ssmus gP4 1 CMSRI P3 4 TO 55 MEH JPp2 PC6 A1 smo z e as em 0 P4 2 CMSR2 P3 5 T1 5f een m pc7 41 sa n A 19 IPAS CMSR3 P3 6 WRI S ME 8 RESET n xn9 9 FANON 5 P4 4 CMSR4 P
39. li ly x mM S in g R15 cia D d 3 1N0 50V z s 4 N BCBE7C o lI owe 3 R25 IIe MT ou s oTo zis 3 s 3K30 0 125W z D 4 Q ESE x S 0 gt 3 allze a ED U2 Hi 2 S X FE ETE 110 s z 4 sync m g S o S GND 5 En ao N n RVS ach BSH103 x N 100R 0 125W Ba wl 2 t 20 K22d uns 13 lion ss 5 4 a Es ls 2K70 0 125W Die enert 330K 0 125W D S am t 15 weus vaout i USSI STS gal Rae NE eN 16love oi RB 18 218 503 S D Su gt N gt tay e pers HREF zys 180N 58V Wee gt 0N0 SN SN gt 4 wes 18 cc zvrour URMS S OY 5 c c o a u Rechtecksignal RS 2 x x e a S crouT GND Pa 100N 50V TastverhXItnis 1004 QU OW ST Ob vr UC3855DW EN Spannung an URMS 1 45 5V C4 y reas X2 3 3 Ben ae ans H W w bal kK2 18 5 M Ss rs 8 lalala tg 118 l a 8 lz a fue Ta LON L Or LO De ent De D N BSH103 EIRT D SNEITNEN ZENNNO II SZ Kon EE SZESo got 5 w a s SATFANESOTSO7 R s SaAFOFa eiie Ob zg X IG S s 3 3 _ c s S S xo S lls BSH103 8 2 2 3 e e S s STS S Eer LENE d ima HC da X zj ix Re lx D z UHP 2 N JS Ixz 5 1 X1 A FAN o 5 lt 2 I I ris axe X1 B Connection 6 5 05 R un 3 pe LS T Te e wudlQ le ner Plein amp Baus GmbH 6 S 1C4427C0A X ma N ES 4 L M D 3 i m D 51399 Burscheid 49 2174 678 0 www wiener d com SBSH103 SESI NAS an 2 3 MNPFC16 Regu
40. that you wish to calibrate e Connect A C power and ramp the current up to 90 of the channel maximum e Click on Calibration I monitor and enter the measured current e The UEP6000 will calibrate the current monitor and should now report the same value as the measured current The calibration procedure above only works for master modules If you have two or more modules running in co operation with each other you will have to do a master slave calibration Please contact a WIENER representative for guidance with this task UEP 6000 Service Manual 20 10 16 06 Module Data MRP Resistor DAC k 12 R6 k 20 R5Ik alpha Kf Version B2 and below 75 0 81308 7533 Version B3 and above 750 0 97442 860 Modules Uref U 10mV 510 Uref OVP 10mV 250 MRP R13 R14 k 10 MRP R17 R18 k 20 MRP R4 R12 k 10 Module Type R4 R12 MRP B2 MRP B3 Umax R9 R10 Kovp OVPmax R5 8 R6 7 GND floating kOhm Ku Poti mV Ku PotijmV V kOhm V V 5V MEH Index A5 13 3 34729 4 34 28978 0 59 5 92 27 4 24492 6 82 1 0 12 0 5V MEH Index A6 22 1 25208 5 98 21034 0 82 8 15 43 2 15534 10 76 1 0 12 0 MEH10 33 2 18731 8 04 15630 1 10 10 97 56 2 11941 14 00 2 21 2 21 24 0 MEH12 lt Index A1 61 9 11254 13 39 9391 1 83 18 26 82 5 8134 20 54 2 21 2 21 24 0 MEH12 gt Index A2 56 2 12223 12 33 10199 1 69 16 82 82 5 8134 20 54 2 21 4 75 37 8 MDH7 15 gt Index AO 56 2 12223 12 33 10199 1 69 16 82 82 5 8134 20 54 MDL 12 24 MEH24 110 6743 22
41. up MY Push Mode Select switch down Steps to get into the Load Update mode Description Switch Display switch the crate off PY enter configuration menu M A push and hold PA Config Wait hold both switches up Config Wait after 4 seconds you can Config Ready release the switches 5V0 0 01V OA Now select the RS232 MA or MY until right menu RS232 Configure Configure menu is displayed Enter this menu PA Baudrate 115 2k Select submenu Firmware MA or MY until right menu UEL6000 Firmware is displayed UEL6000 4 02 Enter submenu PA Load Update No Change to yes MA Load Update Yes Accept settings and enter PA Scanning RS232 update mode 4 Run the upload software on the computer Open a command window change to the folder of the unzipped file At the prompt enter the command C UEL6402 gt F28xxConsole exe v p coml i UEL6E 4 02 0ut Plein amp Baus GmbH 1 UEL6000E Firmware Update 15 Jun 2004 28 Replace com1 with the COM port which you are using The software now connects to the UEL6000 the following is displayed Installed output message callback Loading F2810SerialFlash out Entry point 0x003 8000 Section Address 0x003f8000 Number of words IL au hA Ie ea RAK NOE e AA AA USED US un Y Vu oer e e AA EE Section Address 0x003f8ca3 Number of words 4 Section Address 0x003f8ca7 Number of words 84 Section Ad
42. vREF z PCA82C250 6N137 wf sns di 3 ell gell z o a N Bo salls 8 8 o 812878 Sn8 STY L 2 c 1 Le Y 8 A 9 HH 7 X1 G prenon 2 Kit E I 6N137 END 4 Close JC1 for high speed operation U2 CAN_5v gt o NE OO MESE Apel vu wH GER 3 2 XS HPR100 Se 1N0 500V 5 IS 312 C41 OTS z PE1 CAN Operation without DC DC Converter Remove R29 R58 U2 U9 U10 Lie_ne r Plein 8 Baus GmbH Connect U9 pin 3 and 6 D 51399 Burscheid 49 2174 678 0 www wiener d com Title 1 Connect U10 pin 3 and 6 MUH 6000 Low Noise 49 A ontrol Connect U2 pin 1 and 6 Number Connect U2 pin 2 and 4 Pl te May 09 2006 Filename muh6 sch Sheet 6 of 6 c D E F Lufterkabel kurzen Warmeleitpaste zwischen Alox und D5 D4 65 66 Alox und KK1 KK1 u Rippenk hlk rper D18 u Rippenk hlk rper
43. 0 00 0 00 0 00 0 00 0 00 0 00 0 00 0 00 The UEP 6000 power supply can be switched on or off by mouse clicking on the POWER ON POWER OFF line or by selecting the menu item After switching on all power supply channels should show an OK status UEP 6000 Service Manual 4 10 16 06 2 Power supply operation and configuration file Please save the present configuration of the connected power supply as a file to hard or floppy disk before changing any item It is recommended to keep all configuration files to allow an easy restore of the configuration PE VEPA4020 Measwement 23 51 Elle Options Configuration Help Pa 0383 9004 5V 12V 15V 24Y bV 12V 15V 5449 5571 2157 3374 1620 5479 2115 450 00 45 00 11 25 22 50 112 50 45 00 11 25 460 00 46 00 11 50 23 00 115 00 46 00 11 50 234 186 233 50 243 186 233 Modul Un A KIEJ L min Yoltat 2 max Yolta File name Folders 5 max Curre psd c service muh 5 Current lin 7102009 ped Be Cancel 0 OVP DAC 2194181 psd 3 Unom DAU 2104453 psd al service 1 Temperatu 2104991 psd con K Poti 0 255 Read oni 17 limit 0 25 EE Status K POWER O AC OK Save file as type Drives TRIP OFF AAA foc data at a later time 3 Power supply set up and calibration To access any available parameter point the cursor on it and click with the left mouse button If you do not see the parameters mentioned below click on the Configuration
44. 12 4 1 uns X12 0 3 2 25732 moras i i5 w 6 N RESET H z eno U21 A Q4 x Kit 19 RN 9 OL ASON AC ON GND s gt i X1 E 5 Les m dE AE o L o 74ACT14N BS170 OTce S Ple Em S Y w ie ne r lein amp Baus GmbH e gt e gt e gt e gt e gt e gt e gt e gt e gt e gt e gt de N Tm o D 51399 Burscheid 49 2174 678 0 www wiener d com m m m m m m m m m m m i A Sn Om Om On Oo On ge gel Oy we MUH 6000 Low Noise SE RE SOM PILE St PIP tt PE PRI INGI Digital uP 6 TESTE TET T TE TETTE TEN T R Number leno leno al leno leno 7 leno 7 wo T wo T wo T wo T wo T 1 437008 B6 Pl te May 09 2006 Date 26 01 2005 Drawn by Koe Filename muh6 sch Sheet 2 of 6 B c E F G H 1 w W 2 A O U25 B s U25 C A DAC CUK 3 EL 4 DAC CLK A DAC SDI 5 TL 6 DAC SDI 74ACT14N 74ACT14N 2 a a E O vec VCC VCC VCC U25 A T T Wu kai I o L LI a o a x Ux gt x ux x x x x Ly s EN S2 gt 2 22 22 22 22 22 2 74ACT14N 4 e lo le ho Tow 8 sw ss c0 F 12 x 1 swa Y KODIER DRR3016 3 up 8 U21 C Si 8 Tes 5 6 8H ae euo 2 Ba ce F4 gt I 74ACT14N 3 74ACT14N qp ki swe E U21 B KODIER DRR3016 ext 18 CLK 5 CLK2 3 LL 4 74ACT14N m 74ACT14N a 4 5
45. 3 7 RD RS S w slik gt es 5 P4 5 CMSR5 16 Sy ello Gs 12 1P4 6 CMTO PI O CTOI 15 Par E PSD813F2J if ook wob 0W 3 P4 Z CMTI P1 1 CTU L SRESTI GE co cme 34 P1 6 CTXO P1 2 CT2I 8 pen 3 L5 Ki er l I TmT 57 P1 7 CTX1 P1 3 CT3Igg Mesa N cma P27 CRXO P1 4 T2 27 mest z vec R80 B 55 ORX1 P1 5 RT2 1 paca o Su g c e REF a 22 vss CUT ADD ans z a 3 xz nl w LS jt 208 S IS 5 gt ES gt P80C592FFA a m 5 IN x TM p 04 ook i S S 3 PF 3 PF X12 H_6 Ej vn 10 DISABLE 51 hz mear a z a agi ale R80 C ei A o T gt siz 5 A O w 7 KO Il lt x Y 3 amp eno a La KOCH a U16 dts ME 2 Neur RESET 11 a Wc GND A 10k Q6 o BS170 1 gt 3 MC34064P 258 pes CH A u R53 C SIK ALS BC557B E 100k 1 Fe KAC 3 lt S 13 K11 M MSYSRES 2 1 UPMSYSRES 5 k b a B Q1 R96 A momo JA MOLLO use ke el gt a LIG IS I N Ra D T mi M 213 13 U E S d SIIS S a KR ane IRF730 OT Z a w M o S f 0K 0 6W S OOO rus Ds o Oeo 9o0 G gt 05 ells el 21 X2 U SYSFAL e UPSYSFALUPSYSFAIL O oo oo O m LJ ig Nnr a l R19 w m us ep a 5 UTAG TSTAT 4 ms fas JAGTER gfs BC557B 3 S RELAIS M RELAIS JTAG TDO A ei o JTAG TDI 4 uns k12 H 2 uns k12 4 B X R mam JTAG TMS A T M ws k
46. 3 W 1409657 BC 2 Plot Mon Jun 12 2006 Date 18 05 06 Drawn by GE H Filename mrp SMD sch Sheet 2 ot2 B c D E F G H
47. 3 of 6 IMONI7 IMONIG IMONIS IMONI4 IMONI3 IMONI2 IMONI gt IMONIO UMONIZ UMONIB UMONIS UMONI4 UMONI3 UMONI2 UMONIT UMONIO A U24 A 1k 1k 1k 1k 1k 1k 1k X ase se SB GND INH za A R97 C R98 B R98 C R98 D R97 R97 B R81 D R97 D ASEL2 c 1 00 1 01 1 02 1 03 1 04 1 05 il C106 C107 U 100N 63V C109 LL 100N 63V C108 U 100N 63V C101 U 100N 63V C104 U 100N 63V C103 U 100N 63V C105 U 100N 63V 100N 63V 1 06 1 07 GND VEE 74HC4051N u8 A X aso en SUB 1k R34 B 1k R33 D 1k R34 1k R34 C 1k R34 D 1k R33 C R33 GND INH ia JA ASEL2 c 1 00 1 01 1 02 1 1103 1 04 1 05 71 07 C57 U 100N 63V C55 U 100N 63V C50 U 00N 63V C56 U 00N 63V C49 LL 100N 63V C54 U 100N 63V C51 U 100N 63V C53 U 100N 63V i X3 C UHS v X3 E GND X3 G
48. 5 5 5 5 5 5 5 ET BK SS SRK SS ES ELE 1K00 0 50 a a a a a a a a lt BIN OCT a 15 a vi d e e v id e ann K2 4 27 DACSELI 1 15 X2 Y 25 R7 DACSEL2 2 1K00 0 6W ya SC i I k2 4H 28 jam ew Ty EE l R100 74AC138N 5 5 5 5 5 5 5 5 SL ZLOLLON SSOKSYKSJAB 3 FAL x2wI23 A SA SSTPSOTSOTSOPTPSSTSOT5SO TS Q3 o o o o o o o o E GND GND GND ACEN Hi BS170 GND L3 46 18uH 150mA pey 22 co X2 X 24 ie ne r Plein amp Baus GmbH D 51399 Burscheid 49 2174 678 0 www wiener d com Title MUH 6000 Low Noise Digital Number Rev 1437008 Pi te May 09 200 Filename muh6 sch Sheet
49. 6000 software The power supply will start up but turn itself off quickly If an MDH MEH module is found to faulty the following steps should be taken to replace it valid only for standalone modules Disconnect A C power and remove power supply from the VME crate Remove the top cover from the power supply and discharge capacitors Determine which power module is faulty This is done by locating the right channel along the top of the MUH board and following the control cable to the correct module Disconnect the power cables and the flat control cable s from the module Remove the screw that holds the module to the case Slide the module forward and remove the module Installation is the reverse of removal Calibrate the voltage and current measurements After replacing the cover connect the A C input and ensure that functionality is OK UEP 6000 Service Manual 18 10 16 06 MUH The MUH module is the microprocessor control board for the power supply Common symptoms of a faulty MUH module are e No function although internal operating voltage is present 385 VDC e Under over voltage error for 1 or more voltage channel e Noremote interface errors when connected to UEP6000 software If an MUH module is thought to be faulty the following steps should be taken to replace it e Disconnect A C power and remove power supply from the VME crate e Remove the top cover from the power supply and discharge capacitors e Remove the s
50. AC mains unplug first from the wall outlet After opening the power supply discharge first all capacitors of primary side AC input module and 3 pin primary distribution cables connectors as well as of the MUH AUX power supply with a load resistor In case of questions please contact W IE NE R Plein amp Baus Ltd Dr A Ruben 300 East Auburn Ave Springfield Ohio 45505 Phone 937 324 2420 FAX 937 324 2425 E mail sales us wiener d com URL http www wiener d com UEP 6000 Service Manual 3 10 16 06 1 MUH 6000 installation and start Please copy the RS232 DLL as well as the WIENER INI configuration file to the Windows directory of your computer Before starting the program make sure that the power supply is not connected to the AC line Connect the UEP 6000 power supply to the serial port of the PC via the WIENER adapter cable DO NOT CHANGE THIS CONNECTION WHILE THE POWER SUPPLY IS CONNECTED TO AC MAINS Change the COM setting to fit your setup the WIENER INI file by changing COM to the correct COM port of the used serial port Connect the power supply to the AC mains line During program start the software automatically detects and connects to the power supply if the RS232 connection is available through the selected COM port The main window displays the power supply setting and status as shown in the following example In case of any communication problem wrong COM port cable connection not ok the RS232
51. C D G H LO A O e co gt lt N a TEMP 100 100 OP62 OP62 LOW SIDE DRIVE BF247 D10 PWM D13 BD139 16 1N4148 BZX83C3V9 PWMO ZKB409 019 BD139 16 1N4148 BZX83C3V9 K LA D11 D15 1609266 as ole 01 GPH E IRFP450 w a AZ 3832 C15 220P GPHO D Q2 fi IRFP450 GPLO D gt IPMON IPMONO IPMONO Ro R5 C33 C35 C34 C32 2200UF 2 2200UF 2200UF C28 C25 ISMON ISMON C26 C30 C27 C29 F 22006 2200UF 2200UF 1U0 C24 DESCRIPTION EH 11 11 wiener ingle Module 500W RCUIT DIAGRAM NG NUMBER 1409266 G0 pO USIOJSTSUPIL OLOW E VIO SdI IIHd SE K hlk rper 1409291 Index A3 Isoplatte bis zu
52. CLKRA GPIOF9 27 L15 2 8 8 8 8 AVSSREFBG MFSXA GPIOF 10 22 Ros 5 128 VODAIO MFSRA GPIOF 11 24 o 5 VSSAIO MDXA GPIOF12 15 pan MDRA GPIOF 13 CET 1K 100MHz R35 0 23A UZ XPLEDIS GPOF1 e 101 5 5 GPIOAG PWM1 TMS320F2810PBK SCITXDB GPIOFG4 E seme A A B e a PIOA1 PWM2 SCIRXDB GPIOFGS SCIRXDB 8 6 6 x her z z GPIDA2 PWM3 SX SS s8S 5 B GPIOA3 PWM4 3 a A GPIOA4 PWM5 S 2 x o 3 e 3 IGPIOAS PWM6 o e s EIS GPIOA6 TIPWM TICMP U2 x o 2 IGPIOA7 T2PWM T2CMP 81 3 1 8 S S GPIOAB CAP1 QEP 1 GPIODG TICTRIP mu Bere wer GPIOA8 CAP2 0EP2 GPIOD T2CTRIP 85 s Ese 41 WP we GPIOA10 CAP3 QEPI1 GPIOD5 T3CTRIPL 3 6 eco GPIA11 TDIRA GPID6 TACTRIP 81 Sie au Ge Treser B6 GPIOA1 2 TCLKINA ig 106 sw owp spay 5 4 88 me 59 GPIOATS CTTRIP GPIOEQ XINT1 BIO 126 a ii 5 scr g GPIOA14 C2TRIP GPIOE1 XINT2 ADCSO 22 lt i Marea ooa S AT24COBAN 10SI2 7 son GPIOA15 CSTRIP GPIOEZ XNMI XINTI 3 C18 00 33 GPloBa Pww7 XRS E N me 401 35 GPIOB1 PWM8 ADCBGREFIN I o2 38_ GPIOB2 PWWS TESTI oi js 38 GPIOBS PWM10 TEST2 gt 3 404 38 GPIOBA4 PWM11 XTAL1 CLKIN m c19 05 38 GPIOB5 PWM12 XTAL2 00 49 1 GPI0B6 T3PWM T3CMP XCLKOUT Ha 27 43 GPIOB7 TAPWM T4CMP 15P 50V 408 43 GPIOBB CAP4 QEP3 40 44 GPIOBS CAPS QEP4 pio GPIOB10 CAPG QEPI2 me a don BO GPIOB1 1 TOIRB D eer pez 2 lm oz 58 cpiog12 TCLKINB mi x53 jam
53. Exponent Misi CANCEL Minimum Value is the minimum allowed value Maximum Value is the maximum allowed value Exponent gives the number of digits after the decimal OVP OVP setting Standard settings 125 of Unom OVP is a secondary voltage protection It sets the maximum voltage that a module may produce Ifthe module ever detects a value greater than OVP it will turn off the power supply with an Overvoltage error Value is the maximum allowed voltage for the module Channel 0 OVP V Value minimum Value 10 76 CAM _CANCEL CANCEL maximum Value Exponent Minimum Value is the minimum allowed value Maximum Value is the maximum allowed value Exponent gives the number of digits after the decimal Temperature Limit Temperature Limit settings UEP 6000 Service Manual 12 10 16 06 Standard settings 127 Temperature Limit settings sets the maximum internal temperature of the power supply module before turning off the power supply The default settings allow the module to run to the maximum temperature Power on Delay Delay between power on and ramp Standard settings 0 To allow flexibility of the voltage ramp it is possible to set channels to begin their voltage ramp at different times This is done by delaying the start of the ramp by some time in steps of ms Power On Delay ms Channel 0 Ed CANCEL RS Ei
54. Hz R35 0 23A i i 5 5 5 L4 e a zo y els So a 2 2 el e2 92 S D3 S 1K 19BMHz R35 0 23A Mop 3 g 2 m E oss 4 a 4 a w w A sans LL103A oe s t s y 3 TL5 PGE use so y U3 s e e SA F z E z a w 10 0k 0 125W A a a BC847C mrs vec amp o A Bann L XD CANH N WE A RD ou S AR 2 SUVREF GND E w ie ne r Plein amp Baus GmbH SN65HVD230QD w NA Twf ref r D 51399 Burscheid 49 2174 678 0 www wiener d com 39 8 sa s8 s d r 3 3 kd UEL6000 CPU with Ethernet 2 2 2 Interface Number Rev 14644212 A3 en Plot Wed Mar 10 2004 Date 10 03 2004 Drawn by Koe Ge Filename uel e sch Sheet 1 of 4 A B c D E F G H
55. IN m 4 12 DG 2 ew LA D Z 3 MC34072D 10 0k 0 125W A 2 Huns I uns D Ba B AMP 02 noch als SMD 2 Alo le K 5 m a o18 S le Silk s E 2 EN Umax 2 5V mim O B gt El 87 amp 2 00k 0 125W e AMPQ2FS iso A EE X7 Bes 500 U6 R57 o 15 Recz 2 PS of 5 R69 R73 ZELE ES Ha TX514 swon gt I Wei e 10 0k 0 125W GAIN 26 130 mono Xi7 7 Sul Uin 0 027 0 134V o 3 ol ST Mone Uout 3 5V ZT SEI a TEL s le SS S E le co x 8 o S IX 22 2 x a Weer a e GND ZS 72 a TEMP reserved eno eno OVER TEMP al Ts e I X1 14 14 Je CONVERTER e BZV55 C8V2 x S ai 1 Xt Les BC847C MODUL VOLTAGE 3 EN 3 D9 L2 a AMPLIFIER o LS kan 5 10k 0 125 ove Ges s 555 EEEE on OS TEMP lt 5 S R54 Dg TRI 100MHz R35 0 23A ERE 1 00k 0 125W 10 0K 0 125W ws 24K 0 125W OVP COMPARATOR Bi bos 3 1 x51 5 5 z Lo db R36 2R32 R28 oe Umax 25V __6 y gt U4 B 5 T Q a CEA 6 gt a U1 B AS 7 El e OTS v A Umax 5V 10 0K 0 125W Umox25V VE d IN 1 00K 0 125W_ OTWOA25W ve RED 4 MC34072D eng LI 2 w 3 2 782 he a MC34072D Q4 z 6 Ds fA z D D D I X113 13 Ural Rag oes ex 1 00K 0 125W Q 1K 100MHz R35 0 23A Ma 3 e C12 REO i9 Z GND o Ki owa B s A Bce476 F 2 i0oN 50 i ao w ie ne r Plein amp Baus GmbH U MODUL D 51399 Burscheid 49 2174 678 0 www wiener d com GD fM Title dE MRP DA gt Sheet2 63 Number Rev
56. IN min Voltage V 4 50 10 24 46 08 2 56 0 00 10 24 0 00 BIN max Voltage Y 5 25 12 60 50 40 3 55 0 00 12 60 0 00 0 00 0 00 0 00 BIN OVP Voltage V 5 12 12 80 58 88 2 56 0 00 12 80 BIN nom Voltage V 5 00 12 00 48 00 3 30 0 00 12 00 4 Ifscreen does not show BIN configuration select configuration and highlight these lines Display Configuration xl GAN C Existing C User Defined Visible Items BIN Pin BIN min Voltage V BIN max Voltage V BIN OVP Voltage V CANCEL BIN nom Voltage V Output Voltage V 26 5 Select bin parameter to be changed and enter new value BIN nom Voltage V Channel 0 CANCEL SS 6 Changes are saved automatically when you hit OK 27 UEL6000 Ethernet Firmware Update The UEL6000 Firmware is stored in a FLASH ROM and can be updated via the RS232 connector Necessary equipment Computer with RS232 interface running Microsoft Windows 98 or above A patch cable to connect the UEL6000 with this computer This software Installation Steps 1 Unzip the UEL6402 zip to your had disk 2 Connect the computers COM port to the UEL6000 3 Switch the UEL6000 into Load Update mode The Load Update mode is a submenu of the RS232 Configure menu of the configuration menu You will use the following switches of the fan tray PA Push Power switch up ON PY Push Power switch down OFF MA Push Mode Select switch
57. IN8 GND ono E E E 5 5 5 MC14021BCP E E E Sal ppm rm QU np e LJ 0 w Nu o MODE NETWORK ADDRESS GND 2 X6 B 5V 3 3 Esc ox La LO L 10 M M BE T T Mi 78 a a s s s s s N N o o o o o X6 A GND U8 B 4 n a A E SC 8 w ie ne r Plein 8 Baus GmbH ron E D 51399 Burscheid 49 2174 678 0 www wiener d com sll si SS Title 99 74HC132N el sel 2 z O Modul lav N37 la Sheet Number Rev 1407053 A5 Plot Thu Jun 24 2004 Date 02 April2003 Drawn by Fri Filename io neu sch Sheet 1 of 1 A B c D E F
58. M gt Q9 o 1K00 w a z y m 015 9 y N PWM M z a Br247 L3 X1 R S D26 BD139 16 I 1N4148 BZXBZCZPYJ GSM x1 a H 2 q 3 E B R55 Puen GPH M I u ZKB409 019 010 E e 1K00 E a Q14 W I x V e BF247 BD139 16 1N4148 BZXB3C3V9 GPHOM LAB ES D24 D30 lt COMP UP OvPP ES X2 E A X2 6 R41 221K R51 3 1k00 R8 R40 se 6 5 C27 swupse n SAB ea EA Er 100N 100N 10K NS ISMON P a C6 X1 H 100r R10 X2 H 6 6 Im TIe X2 M ala gle a a t t X2 F R52 po 1 X1 F f u 07 o 1K00 a a Q11 Y o x BF247 PWM PI z Q X2 R D22 BD139 16 1N4148 BZXB3C3pyO 7 UPA X2 0 Lei 3 I 5 PWMOP I R55 GPH P 4 DI ZKB409 019 Q8 1k00 a a 5 Q12 5 Yon I V A BF247 BD139 16 1N4148 BZX83C3V9 GPHOP o D20 D28 59 w ie ne r Plein 8 Baus Gmb D 51399 Burscheid 49 2174 678 0 wan wie H ner d com te MDH Modul Double Highpower Sheet2 Number 1460193 Rev A3 Plot Thu Nov 14 2002 Date 02 02 02 Drawn
59. SE VME 48V 23 U6 SENSE 4 U6 SENSE 22 U1 SENSE 3 U1 SENSE VME 12V 21 US SENSE 2 US SENSE VME 12V 20 U3 SENSE 1 U3 SENSE VME 3 3V FAN CONTROL CONNECTOR D SUB 9 CAN_H CAN_L CAN GND RXD TXD 15V for fan only 15V for fan only 15V for fan only 15V for fan only HDA joje ino ju 23 WIENER VME Crate Temperature Sensors T sensor connection points TUVE LTC X XK CH 24 VME 6000 Series Bin EEPROM configuration WARNING Changing the BIN EEPROM setting could damage modules in the VME crate WIENER 6000 series VME crates contain an EEPROM which contains data about what power supplies to accept This prevents users from accidentally plugging in power supplies that could damage modules within the crate If the crates function is changed and the EEPROM needs to be reprogrammed it can be done by following the steps below 1 Remove the fantray from the crate This will give you access to a subD 9 pin connector Plug one end of a WIENER power supply adapter into the connector connect the other a computer 2 Insert a jumper on the write protect pins for the EEPROM The pin locations are shown below Write jumper 3 Open the UEP6000 program The current bin settings should now be visible as highlighted below P6000 iod 2 poem 1290 ni 288 received File Options Configuration Help BIN Configuration FF FF BIN Pin Assignment 1 6 9 3 0 7 0 B
60. aks S a o 3 amp d x 4 U3 N o Tue 1 vcc avec 64 force g S P6 3 A3 DVSS 65 a 3 P6 4 A4 AVSS 62 so Gei P6 5 A5 P6 2 A2 g9 Sa x P6 6 A6 P6 1 A1 56 END m S p6 7 A7 P6 9 AQ EH 15P 50V VREF RST NMI 28 eau TP10 8 II XIN TCK Si TP5 XOUT TCLK TMS 28 masi TP7 C21 N VeREF Wit eq mi TP4 TP1 O power VREF VeREF TDO TDI beem TP6 Quarz case connected to GND 3 os 2 PAGI XTZIN 25 a TP3 O B00TROM_wR P1 1 TAQ XT20UT 51 _15P 50V I P1 2 TA1 P5 7 TBoutH 2 SA sme P1 3 TA2 P5 6 ACLK C7 JB p1 4 SMCLK P5 5 SMCLK 9 5 P1 5 TAQ p5 4 MCLK 45 P1 6 TA1 P5 3 UCLK1 42 P1 7 TA2 P5 2 SOMI1 45 P2 0 ACLK P5 1 SIMO1 42 P2 1 TAINCLK P5 O STE1 45 TP2 CH Fees rol P2 2 CAOUT TAB P4 7 TBCLK 42 P2 3 CAO TA1 P4 6 TB6 LED PLCC2GN Ri P2 4 CA1 TA2 P4 5 TB5 45 l z __ P2 5 Rosc P4 4 T84 59 N EH KI P2 6 ADCI2CLK P4 52 T8B3 32 R24 P2 7 TAQ P4 2 TB2 me m 5 H1 510R 0 125W P3 0 STEQ P4 1 181 SZ now ES P3 1 SIMOQ P4 0 TB0 6 S ne 510R 0 125W P3 2 SOMI P3 7 URXD1 22 10K0 0 125W Q ie ne r Plein amp Baus GmbH P3 3 UCLKO P3 6 UTXD1 34 Y D 51399 Burscheid 49 2174 678 0 www wiener d com 19 K2 19 wer P3 4 UTXDO P3 5 URXDO gt NG Title R56 10K0 0 125W MNPFC16 Regulator s 510R 0 125W MSP430F14X ki Number Rev Img s 1449471 A4 R48 Pin Nov 03 2003 Date Jan 2001 Drawn by Koe Filename MNPFCR16 SCH Sheet 2 of 2 A B
61. by GE Filename F Mach Sheet a of 2 XC NSA 1N4148 Rag c12 D9 amp di N 3 100P R27 t li 36R5 22K N xz R31 SNA 3832 PE C21 PE D eze 01 N gt z A Ly GA IL E B B glo amp R32 5 8 XZB jen IRFP450 3R32 LS ce i s gt 681R x e 5 EN R44 C7 2 gt D17 8 c38 c40 1039 c47 wel wol wo Tad mE A 22R1 Tast R12 8 MUR3020 Ge 1000UF 1000UF teeavr C16 C10 C41 w lke ae GER je T U 5 z Gel ees s R34 ETD39H 15V EF32V PI 00 de 518 X la e KENE gg x 8 Di aj
62. dress 0x00000792 Number of words 67 Boot code loaded Connected to COM1 at 5 baud Target is programmed with UEL6000 4 01 Erase the flash y n y This is the last chance to interrupt the update If you say y here the UEL6000 flash is erased Next messages are Erase the flash Program the flash y n y You should say y too If not you have got an empty flash which can only be reprogrammed at the factory Program UEL6E 4 02 out Section Address 0x003e8000 Number of words 3676 Section Address 0x003e8e5c Number of words 253 Section Address 0x003e8f59 Number of words 21 Section Address 0x003e8f6e Number of words 629 Section stack IGNORED vaddr 0x8200 out of flash area Section Address 0x003e91e3 Number of words 3 Section args IGNORED vaddr 0x1fc out of flash area Section IGNORED vaddr 0x340 out of flash area Section trace IGNORED vaddr 0x47c out of flash area Section Address 0x003e91e6 Number of words 256 Section Address 0x003e92e6 Number of words 32 Section Address 0x003f7ff6 Number of words 2 Section Address 0x003f7ff8 Number of words 8 Section Address 0x003f7 80 Number of words 118 Section Address 0x003e9306 Number of words 23754 Section Address 0x003eefd0 Number of words 3628 Section Address 0x003 7 70 Number of words 16 Section Address 0x003efdfc Number of words 30 S
63. echanical parts and check all screws d test fitting of power supply into VME bin 6 End check to be done with protocol since 1998 sticker END CONTROLLED sequence of test steps as for 3 Put into Operation write protection enabled visual check for stickers and device label UEP 6000 Service Manual 14 10 16 06 Test Procedure Seguence UEP6000 1 Test AC input switch AUTO FIX for Power Supplies with auto range AC inputs AUTO feed 3V DC in AC mains cable measure current typically 0 08mA Switch to 115V current typically 0 52mA prepare for delivery with switch position to AUTO with locking and sticker 2 Start Power Supply Operation disable Write protection Jumper connect power supply to IBM PC RS 232 feed AC mains in power supply start software UEP 6000 create or copy configuration file if the fan tray unit is connected to the power supply the write protection jumper has to be disabled during start for power supply software version MUH 1 00 3 General behavior settings Main configuration OK RS 232 OK Channel Module current limit Module OVP Module Unom min max Voltage 4 Test each Voltage Channel Check adjustment Master Slave Imon and CV Coding for slave U nom under full Load fine tuning display OK Noise and Ripple OK Current calibration for 3 load values full half no load Full load Half Load No Load Display Fan tray Signal I nom At this time proof static regula
64. ection Address 0x003efela Number of words 12 Section Address 0x003efe26 Number of words 1539 Verify UEL6E 4 02 0ut Section Address 0x003e8000 Number of words 3676 Section Address 0x003e8e5c Number of words 253 Section Address 0x003e8f59 Number of words 21 Section Address 0x003e8f6e Number of words 629 Section stack IGNORED vaddr 0x8200 out of flash area Section Address 0x003e91e3 Number of words 3 Section args IGNORED vaddr 0x1fc out of flash area Section IGNORED vaddr 0x340 out of flash area Section trace IGNORED vaddr 0x47c out of flash area Section Address 0x003e91e6 Number of words 256 Section Address 0x003e92e6 Number of words 32 Section Address 0x003f7ff6 Number of words 2 Section Address 0x003f7ff8 Number of words 8 Plein amp Baus GmbH 2 UEL6000E Firmware Update 15 Jun 2004 29 Section Address 0x003f7f80 Section Address 0x003e9306 Section Address 0x003eefd0 Section Address 0x003f7f70 Section Address 0x003efdfc Section Address 0x003efela Section Address 0x003efe26 Press Enter key to exit Number Number Number Number Number Number Number of of of of of of of words 118 words 23754 words 3628 words 16 words 30 words 12 words 1539 OK the update is ready Now restart the crate by removing the mains cord If there are new data items in the EEPROM after the restart they will be initialized
65. er E A T Y o zlo z TR U10 E U10 F o s U1 1 00k 0 125W 1 00k 0 125W T S S 2 y n 10 5 d y 13 12 5 d i 15 VCC SPLGLK n JO cLock xe 3 Sax a fax xl m Hao 3 5 R88 R64 Les a 74ACT14PW 74ACT14PW ili v 2 Gem 6 z U10 A U10 D c2 oe pcie 1 00k 0 125W 1 00k 0 125W Sica v Emme S x gt 3 Fi pum tin 2 ane XTB 4 Em 9 k paw BD 4 rin moun pi pe 6 5 R87 R71 R1 OUT RIIN 7 s 8 s 6 74ACT14PW 74ACT14PW 10 Tan T2oUT Z 9 8 M 9 7 8 U10 C U10 8 Con RAN 5 9 1 00k 0 125W 1 00k 0 125W ST232ECD IE IE FL 5 np o LA Bes 3n fs DGF 6 j u o EE O mo O ma Z j mm Z id R86 R67 S T8 T8 I 74ACT14PW 74ACT14PW 2 L Connection to MUH 10 0k 0 125W 10 0k 0 125W NO RS es son EL 5 sonje son BEL kare E En 3 R70 3 R73 z Q6 Ng Laz 5 3 5 k R S S L mit a ie a a ke e 4 E amp O c 5 O E BCB47C age Bat 10 0k 0 125W O 33 6 3 30k 0 125W z z z Gempa 4 4 BCIRXDA 8 E g R12 Rz 3 z ellsaliz sil z GES 5 18 Sl Sas Sills e s Ei a Ei SS S IE E 2 3 s Ep D4 E E 8 8 8 lt L5 E L 8 Connection to CAN e amp s ega TE _ 1 Eno DEET 5 5 E Q9 IKA 9G Hz R35 0 23A 10 0K 0 125W 8 Fs s 3 30K 0 125W EH o LS ef s Die Drosseln waren bisher immer gebr ckt FS y o TE R34 oTgt L3 R5 RI 3 gt 3 BC847C a 3 Ls Der ron MN cane S e m 1K 1G0MH2 R35 0 234 pS sie amp S 3 E e 8 Ber urn ca 4 X2 X1 z z z Eso 5 1K 16BM
66. fc16 SCH Sheet 1 of 1 A B c D E F a gg PIYREEZZEEZEZEZE ie ne r Plein amp Baus Gmb D 51399 Burscheid 49 2174 678 0 www wiener d com Title MNPFC16 Regulator Moe 1449471 PM n Nov 03 2003 Date Feb 2001 Drawn by Koe Filename mnpfcr16 pcb
67. h is problematic this is often the best way to determine which component fan tray power supply or crate is causing the failure It is also useful to place the power supply on a bench top and use the UEP6000 software to troubleshoot power supplies MNPEC 16 The MNPFC 16 is the primary rectifier for the UEP6000 power supply Common symptoms of a power supply with a faulty are MNPFC are No indication that the power supply is operating The green LED on the board is not lit Visible with case closed No click when power supply is plugged in No internal primary DC voltage from MNPFC 16 385VDC If the MNPFC is found to be the problem the following steps should be taken to replace it Disconnect A C power and remove power supply from the VME crate Remove the top cover from the power supply and discharge capacitors Remove the side panel on which the MNPFC is mounted including the nuts with which the module is mounted Disconnect the A C wires Brown amp Blue as well as the flat ribbon cable and DC connector from the module Installation is the reverse of removal After replacing the cover connect the A C input and ensure that functionality is OK UEP 6000 Service Manual 17 10 16 06 MEH MDH The MEH MDH modules are the secondary rectifier modules that produce the voltages used by the VME crate Common symptoms of a faulty MEH MDH module are An over under voltage error for a certain channel On UEL display or via UEP
68. ide panel next to the MUH module e Disconnect the flat ribbon control cables recording where they were plugged in e Disconnect the sense CAN DC and control cables e Remove the 25 pin D sub connector to gain access to the screws holding the MUH board to the chassis e Remove the module from the crate e Remove the EEPROM from the module and place it into the new MUH module This will transfer the channel calibration information e Installation is the reverse of removal e Once power supply cover is replaced check that the current and voltage calibrations are correct UEP 6000 Service Manual 19 10 16 06 UEP 6000 Channel Calibration Voltage Calibration Voltage calibration values vary depends on what kind of module you are calibrating and which nominal voltage you wish that channel to have To calibrate a power supply channel e Connect the power supply to a PC and start the UEP6000 software e Start Flash6 exe and turn off write disabled e Click on Voltage OVP and enter the value specified in the table below e Turn the power supply on and measure the channel voltage Current Calibration Correct current calibration ensures that the power supply reports the correct current readings To calibrate the current values for a given channel the following steps should be taken e Connect the power supply to a PC on which the UEP600 software is installed via a appropriate adapter cable e Connect a current sink to the channel
69. ie ES gt Dan IRFP450 3R32 C22 681R i 10U 220P N R33 ris FE H GEN C93 x 4AF TR5 3R32 jon U47 R35 css 3832 R36 S z jes 03 n Ki E E z A 3R32 8 10N E x o 2 vin f _ 2 x AL TEE E 2 E M s 7 IRFP450 220P L6 o R50 2 cepa 7 lt gt X6 rmn Ba R46 8 gt i 681R e no gt D18 B C44 C42 C45 C46 C15 wel we C11 As NES AN zz o cael d cad am 100QUF 1000UF 1e0QUF wear 100 43 R2 xt 2 Da ha PE C35 EF32V U C13 C14 vo kz AB C17 04 C24 ason 15v L8 4 9 CN s 681R d 68u 68u 10N Ale K T D I C19 E la 548 220P tou 7 IRFP450 R37 T RA CI 2 p gt yx 3R32 R38 GE D10 1N4148 3R32 X1 0 ki C20 3 R30 2 i qu 100P FE 36R5 22x1 N C92 XIP H ME PE tna wie ner Plein amp Baus GmbH s 60 MDH Modul Double Highpower es 1460193 A3 8 Langsame Regelung 8 10 12 O O C43 lt m 19 o U2 R24 14 C9 R31 R23 Bly R28 613 C12 C16 R29 R28 C18 U1 C5 R17 R16 C4 CS R18 R14 R13 R7 R22 R21 R28 c8
70. ipment used inside or outside of the crate caused by improper use of it or operation action of unauthorized not qualified personal This Service manual is only for qualified and authorized persons UEP 6000 Service Manual 2 10 16 06 UEP 6000 Power Supply Configuration and Test Software The MUH6000 program is a software for Windows based PC s to test and set up the configuration and calibration of WIENER power supplies of the UEP 6000 series The communication is via RS232 using the WIENER UEP 6000 adapter cable WIENER Plein amp Baus Corp GmbH is not responsible for any damage of the power supply and or crate or of any module inside the crate caused by changing the factory prepared configuration and calibration of the power supply The test and diagnostic box and MUH 6000 software has to be used by authorized and qualified personnel only To protect the UEP 6000 power supply for unauthorized access there is a hardware write protection This write protection prevents unauthorized users from changing the nominal voltages calibration values and current limits To override this protection you most have the Flash6 exe program ITT DANGER HIGH VOLTAGE For authorized qualified service personnel only This power supply uses high voltage up to 400V inside Unauthorized persons are not allowed to open the UEP 6000 power supply or to connect them to AC mains or use them without completely closed chassis Do not open while connected to
71. lator s S 53 ono k2 13 12 C Number Rev 1449471 A4 Pin Nov 03 2003 Date Jan 2001 Drawn by Koe Filename MNPFCR16 SCH Sheet 1 of2 A B C D G H ta re 1 o D D D N N N N gf s s s s x sal s e sxoalls S W W W Dei Y Y Y Y 4 4 4 4 12 D N nils N eis Gei E Na A8 D 2 geo wc TL431CD N Dee S D e D o N o Lo e NIS DN NA gt 5 gt NE NEN CIISSEZnai OS TZ O T 072 SoTzoT gt S ki Y s KH a BR 4 T 1 o o N N JE 3 s o M a M S S 510R 0 125W 2 S5K60 0 125W 3 s x2 3 Fr 4 Mc usort HE 28 me m eme R30 R31 o X gt OTs a S Np C TP8 u GND GND 2 _ I O TP9 D N Ts
72. lowed voltage for the channel Channel 0 Monitoring Umax V x Value minimum Yalue maximum Yalue 327 67 Exponent Jl CANCEL Minimum Value is the minimum allowed value Maximum Value is the maximum allowed value Exponent gives the number of digits after the decimal UEP 6000 Service Manual 10 10 16 06 Monitoring Imin Software minimum current limit Standard settings No minimum 0 The minimum current limit is the minimum allowed current for a given channel If the current for that channel ever reaches or drop below the minimum value the power supply will turn off with an Undercurrent error Channel 0 Monitoring Imin A x Value minimum Value maximum Value Exponent Ail CANCEL Value is the minimum allowed current for the channel Minimum Value is the minimum allowed value Maximum Value is the maximum allowed value Exponent gives the number of digits after the decimal Monitoring Umax Software maximum cuurent limit Standard settings 100 of Hardware Limits The maximum cuurent limit is the maximum allowed current for a given channel If the cuurent of that channel ever reaches or exceeds the maximum value the power supply will turn off with an Overcurrent error UEP 6000 Service Manual 11 10 16 06 Value is the maximum allowed voltage for the channel Channel 0 Monitoring Imax A E Value minimum Yalue maximum Value
73. menu This will bring up a window that allows you to choose which parameters are shown WIENER Plein amp Baus Corp GmbH is not responsible for any damage of the power supply VME crate or of any module inside the crate caused by changing the factory prepared configuration and calibration of the power supply To protect the UEP 602X power supply for unauthorized access there is software write protection All parameters that are gray are write protected UEP 6000 Service Manual 5 10 16 06 aa Flash Connected with UEP6000 2 16 File Flash Configuration Help Protected Write external SRAM Working Code Alternate Flash Boot Code Silicon ID Dump0 Dump1 Dump2 Dump3 Dump4 Dump5 Dump6 Dump Dump8 Dump9 xdata 0X0000 xdata 0X0000 xdata 0X0000 xdata 0X0000 xdata 0X0000 xdata 0X0000 xdata 0X0000 xdata 0X0000 xdata 0X0000 xdata 0X0000 ENABLED used Flash Id 0002 Software UEP6000 2 16 Flash 1d 0001 Software UEP6000 2 13 UEP6000R 2 13 To enable WRITE you must use the WIENER flash6 exe program This is available only to authorized personnel Please contact WIENER for more information Software Parameter Descriptions CHANNEL Module definition define channel name set voltage and current range setting digits Example STBY 31V Ampere XXXX Volt XX Note Wrong range settings can result in a wrong current and voltage display on the UEL 6020 display even in case of correc
74. pa a y 8 L6 D5 4 I Di 300U 23A DSEP30 06B Zo l V I owe 5 Value 22N 630V L 300U 23A E65H S m T TIGE ej sW E 4 xS Le 7 t d wax BAV21 LE 5 C30 29 x20 gt 1 4 as pe ne a 4R75 0 6W fi x S m gle S I e IRFB11050A x Z lt SM 3 ac E 8 El X GBPC3506 Lis kan M 2 gt A X2 A 1 Les 3 HGTG30N60A40 HO 8 X6 etam Q4 8 5 sg DSEC15 06A gt BER R28 SI Z Hm D9 GAT j 1K11 0 6W de qx En as o Ams 6 krig gt 1 1 bi t D lt 9 g 10R0 0 6W eis N MUR460 e me 1K11 0 6W s Z 9 ous a I 5j oT amp A L a g E R29 z SER Ss 8 8 8 8 8 ENS a8 desa lt S 2 x 3 DES S s lt s s s ERE ES so Fog 2 3 5 5 5 0 3 5 Y e une BD138 16 N 5 Dr AR75 0 6W 385 ERE MES E 3 1K11 0 6W iaa e 4 D6 3 3 3 3 1K11 0 6W Lg adbg e LE o Ls pe E ESSE ES oy Oz 5 o DSEC15 06A E S S S M EE ES R32 9 s lt lt lt RUE ol E 1K11 0 6W y sA lt PELE Sed lure 8 e 1K11 0 6W J NE IS SAME SS 06 2 S K OTE E ASA ZAJE 1U16A 24V 8 ah z SF 10 ul SCI 3 a o wsorr R33 o a Em R34 IRFBT1050A Y m l l LA Mk kod 4 lis SE 3 1K11 0 6W 1K11 0 6W d s d olg R35 3 EDI R36 SRR 8 z D ee w ie ne r Plein 8 Baus GmbH 3 gt b D 51399 Burscheid 49 2174 678 0 www wiener d com Title MNPFC16 Number Rev 1441690 A4 51 Plot Fri Jul 20 2001 Date 19 07 01 Drawn by Ge Filename mnp
75. power supply bebes e a Dimension drawing 9Unit Bin Side view VME6023 12U Plenum Bin Backplane X Slots 9Unit 400mm Fan Tray eUnit e Pan a Bo On gt O O bebes e HE Dimension drawing 2Unit Bin Front view VME6023 12U Plenum Bin Dividing X Slots 6Unit J1 J2 Transition 9Unit 233 39mmx160mm J1 Je J3 for REAR CARD 366 7mmx160mm X Slots 9Unit J1 J2 J3 366 7mmx400mm Backplane J3 a GEM A wel LO Power box guiding lar 10x10mm A ra S U a lt lt S o Unit Plenum 3Unit power supply Fan Tray 2Unit 400mm bebes e pea Dimension drawing 2Unit Bin Side view D3R2D4 2121818 C9 C8 C7 C6 C10 C11 max Bauh he 7mm sonst legen w ie ne r Plein amp Baus GmbH D 51399 Burscheid 49 2174 678 0 www wiener d com bi Sun 4 e 1407053 Plot Tue Jul 13 2004 Date 10 04 Filename ooo E
76. t output values Channel Definition x iv Modul exists Channel Name p Voltage Range Current Range a 5 vi v gt 0 gt C DO Volt C OOX Ampere e 5b e y y 0 e p a D D b zl C XXX Volt XXX Ampere C XXX Volt C NN Ampere X XX Volt C XXX Ampere cance UEP 6000 Service Manual 6 10 16 06 Voltage Calibration Voltage Calibration With the UEP6000 EXE software the lines Calibration Kovp Calibration Ku and Calibration Kf are available This values describe the module ovp voltage divider the module sense voltage divider and the relation between the module coarse and fine DAC Typical values for different modules Module Data MRP R5 k a pha Kf Version B2 and below 75 08131 7533 Version B3 and above 750 09744 860 Modules Module Type R4 R12 MRP B2 MRP B3 Umax R9R10 Koup OVPmax R5 8 kOhm Ku Poti jmv Ku Potilmv v kOhm V 5V MEH Index A5 133 34729 4 34 28978 0 59 5 92 27 4 24492 6 82 5V MEH gt Index A6 22 1 25208 5 98 21034 0 82 8 15 432 15534 10 76 MEH10 33 2 18731 8 04 15630 1 10 10 97 56 2 11941 14 00 2 MEH1 2 Index A1 61 9 11254 13 39 9391 1 83 18 26 82 5 8134 20 54 2 MEH1 2 gt Index A2 56 2 12223 12 33 10199 1 59 15 82 82 5 8134 20 54 2 MDL1 2 24 MEH24 110 6743 22 34 5627 3 06 30 48 Taa 5046 33 12 MEH48 221 3503 43 01 2923 5 88 58 67 274 2449 58 23 4 To find the correct calibration values for a specific module click in the UEP6000 EXE to
77. the Ku value Then the following window is displayed Voltage Calibration Channel 0 D Danger During calibration the output voltage will rise over the normal limits Continue only if you realy know what you are doing Disconnect all of your electronics and think about active backplane terminations ucal 55 ill Ku DACu Calibration 255 Kf 828 measured Voltage CANCEL i UEP 6000 Service Manual 7 10 16 06 Cal I Monitor Set the Ku and Kf values to the table values of the module that is used click OK and click to the Ku value again Then click on the CALIBRATE button An automatic calibration is started Now enter the real output voltage measured with a voltmeter into the measured Voltage field Hit the ENTER Key or click on the CALIBRATE button again Ready Now you have the calibrated values for Ku and Kf By comparing the Ku value with the table above you could see which module you have got Click to the Kovp value and change it to the table value Now the calibration is ready and you should set the Output Voltage and OVP levels Default values Value Maximum Output Voltage V The voltage the customer wants Umax module table OVP V 125 of the Output Voltage OVPmax module table REMARKS In some cases the MUH6 voltage measurement range is lower than the maximum module output voltage e g if you connect a 24V module to UO which could measure max 7 5V
78. tion U Sense wiring T Hold after AC Fail U Dynamic T Recovery have been checked within power module test 7 Adjustments Voltage Error adjusted Current Error checked with different current values Reference Table for Test and Adjustment of UEP 6000 UEP 6000 Service Manual 15 10 16 06 CHANNEL Cal I Monitor Output Voltage Current Limit Monitor U min Monitor U max Monitor I min Monitor I max Module OVP Power on Delay Temperature Status Power AC Trip off Module selected Calibration output voltage maximum current minimum voltage maximum voltage minimum current maximum current maximum voltage ramp Delay UEP 6000 Service Manual Are all installed voltage channels present Example STBY 31V Ampere XXXX Volt XX measure current Enter measured current and hit CALIBRATE Nominal voltage for the channel The max current allowed for that channel constant current 90 of nominal voltage 112 5 of nominal voltage Generally 0 112 5 of nominal expected current Overcurrent error 125 of nominal voltage Delay in ms between power on and start of voltage ramp OK or Fail OK ON OFF by software mouse click or lt P gt OK Fail Status of AC mains at Elko Enable Disable 16 10 16 06 UEP 6000 Module Replacement Instructions In troubleshooting WIENER crates it is very useful to substitute Fan trays and power supplies from working crates into the crate whic

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