Series User Manual - TDK
Contents
1. NOTES NOTES GLOBAL NETWORK NORTH AMERICA TDK Lambda Americas Inc 3055 Del Sol Boulevard San Diego CA 92154 U S A Tel 1 619 575 4400 Fax 1 619 575 7185 www us tdk lambda com lp TDK Lambda UK Ltd Kingsley Avenue Ilfracombe Devon EX 34 8ES United Kingdom Tel 44 1271 856666 Fax 44 1271 864894 E mail powersolutions uk tdk lambda com www uk tdk lambda com TDK Lambda France SAS ZAC des Delaches BP 1077 Gometz le Chatel 91940 LES ULIS Tel 33 1 60 12 71 65 Fax 33 1 60 12 71 66 E mail france fr tdk lambda com www fr tdk lambda com GERMANY TDK Lambda Germany GmbH Karl Bold Str 40 D 77855 Achern Germany Tel 49 7841 666 0 Fax 49 7841 500 0 E mail info germany de tdk lambda com www de tdk lambda com AUSTRIA TDK Lambda Austria Sales Office Aredstrasse 22 A 2544 Leobersdorf Austria Tel 43 2256 65584 Fax 43 2256 64512 E mail info germany de tdk lambda com www de tdk lambda com ITALY TDK Lambda Italy Sales Office Via dei Lavoratori 128 130 IT20092 Cinisello Balsamo Milano Italy Tel 39 02 6129 3863 Fax 39 02 6129 0900 E mail info italia it tdk lambda com www it tdk lambda com ISRAEL TDK Lambda Ltd Sales Off2. 095 01 0 0 SION 335 SOF O SOL 1SOd ONIONIS I4O0AN3 o S E E OIFOTZE EET 5 FOF Sere DRS NVI SIAVO 1 OV 1VNOILdO 5 78 Os ne 915 028331 NOIO3NNOO NY1 l e LILON 338 DQ 83dAl N H e Va GAYS SIO Vd SL 31OH ONIINNOW 1 8 tb e Loy 0 5 j Da 31ON 33 SIOLOINNOO e 1 amp E amp NOILVOINAWWOD SEFSA ZEZSA E S E i NOUO E er 5 31ON aas om 8 8 SOWNVY GilV1OSI E 1O v X31OW 1080 0897 o 1 VNOIS o 9 ALON 33 10 7 3LON 338 318vVAOW33 x3a1OW LOZ L SrOer eee 9 Q3 VW S3OV ld 3O193NNOO YOLINOW a3gand ywswas lOMINOO SWIS cr VIT LOVINOD XINJOHd 80 s 5 v S 22 10 18 5677 VI 01 004 T 01 057 3O193NNOO LNdLNO OMd 3SN3S 3 AYIA Bi eo 017078 Su 4 0 1 1598 I403N3 e S m oar 5 N N eo N 36 TDK Lambda CHAPTER 3 INSTALLATION 3 1 General This chapter contains instructions for initial inspection preparation for use and repackaging for shipment Connection to PC setting the communication port and linking Z power supplies are described in Chapter 7 NOTE 2 power sup
3. 9 OS L Jo sisai Ajueeui pue Aoeunooy Jesn LIS IN WYOMOL S 0 96001 0 10151591 INON jo L Ajueeur pue Aoesnooy Jesn AQL 0 10 AG 0 001 0 INOA Jo G 0 pue foeinooy eigepeles SN A0L 0 20 AG 0 9001 0 __ L sbeyon 1no z eBeyo 9NINWV39SO3d 90 1VNV 27 TDKLambda 12 2 89009931 01 Bu psoooy pexoedun s Sw eus rey Doz uey ssel __ OS S QXHxM suoisueuiiqre Buwwep 0 13431 OSE Q OZ M 8 H GUVANVLS Apog api Byz ueu sse1 Ados 3aIM Byz uey sse1 QUVONVLS Aq peouo4 3331 79 2 89009931 0 Buipyoooy 19491 OSE Q SOL M E8 H AdO8 TWOINVHOAWN 9 07 jueiquiy 00 dn 0002 woooe apmniv s uonesuepuoo ou HY 96G6 0L uonesuepuoo ou HY 06 07 96 Bunessdo E D988 0c eunjejeduuej 2 peol 00 2909 0 BuneuedQ
4. 5 5 2 1 Master Unit Set 5 5 22 Slave Unit Set U a 5 5 2 3 Setting Over Voltage PROTECTION sssscccsossessenssassossss sesssnsssseciscesdsiedsnsetnvinssadessnennentvnssindeaivsedsetdnn 5 5 24 Setting Foldback Protection 5 5 2 5 Connecti 5 5 3 Advanced Parallel Operation 5 5 3 1 Master Unit Set Up esters titt 5 5 3 2 Slave Unit Set Up 5 6 Daisy Chain Connection 5 7 Rear Panel J3 Connector Functions and Settings i 5 71 External Shut Off Function 72 5 7 2 Interlock Function Analog On Off Enable Disable s 72 5 7 3 Auxiliary Programmed Function Pin 1 and Pin 2 73 5 74 Power Supply OK Signal 74 5 8 Rear Panel 01 Connector Functions 74 5 8 ae ne ae 74 5 9 Parameter Setting Memory aeri rebat ect ab deben 75 5 9 1 Default Setting SNC MIN 5 9 3 last Setting Memo Yenin cte ec Rt utet ER tuse 75 594 Save lt 1 4 gt 5 9 5 Recall 1 4 CHAPTER 6 REMOTE ANALOG PROGRAMMING 6 1 BioyiferelUeidoe R 6 2 Local Remote Analog Control 6 3 Local Remote Analog Indication 6 4 Remote Voltage Programming of Output Voltage and 79 6 5 Remote Resistor Programming of Output Voltage and Output Current
5. VOLTage MODE This command selects FIX LIST WAVE subsystems control over the power supply output voltage SCPI Command Syntax SOURce VOLTage MODE lt CRD gt GEN Command Syntax None Parameters NONE LIST WAVE RST Value NONE Examples VOLT MODE LIST VOLT MODE FIX Query Syntax SOURce VOLTage MODE Returned Parameters NONE FIX LIST WAVE 104 TDK Lambda NOTE VOLT MODE LIST and WAVE is an implied ABORT command WAVE mode cannot be programmed simultaneously for both Voltage and Current Only the last sent command can be accepted as WAVE Previous mode reverts to NONE VOLTage PROTection LEVel Sets the OVP level The OVP setting range is given in Table 7 9 The number of characters after OVP is up to 12 The minimum setting level is approx 10596 of the set output voltage or the value in Table 7 9 whichever is higher SCPI Command Syntax SOURce VOLTage PROTection LEVel nn nn MAX GEN Command Syntax OVP NRf gt Default Suffix V RST Value MAX Examples VOLT PROT LEV 2 5 Query Syntax SOURce VOLTage PROT LEV VOLT PROT LEVel MIN VOLT PROT LEVel MAX lt NR3 gt VOLT PROT LEV returns presently programmed OVP level VOLT PROT LEV Returned Parameters MAX and VOLT PROT LEV MIN return the maximum and minimum programmable OVP levels NOTE VOLT PROT LEV MIN set OVP level 5 above voltage set value VOLTage PROTection LOW STATe Sets th
6. x eqpjoJ AD 01 DD 20 DD 01 AD Alddns usym umop Inys 0 069 S9 0 0c 1 091 7 SNOILDNNJ 3AILDI LOUd uo 0 OE 1 JUDND INAINO payed JO 1 0 ueu 5521 yup dn unem 7 eunye1aduua1 5 peo eui JueIsuo dn uuew sanu oe DurwojoJ 5148 INO Paes JO 065070 Ayjiqeys 9 dn uuew oe 3uauno 3ndino 3 WddOOL 2 Wdd 3u9121J902 0 8 0 Plx CL ZHWL ZHS sw addiy abuey gt peo 5 QE 1 payed jo 055070 uet 5527 yup jeuueu peo E juauno 1ndino payes jo 61 0 1uauno yndjno pared 96600 peo xew juauno yndjno Jo 96700 uonejnba1 aur xew I c 0 059 S 9 0 0 1 091 Z LNIYYND LNYLSNOD 1 219 1 295 1 219 1 295 9 614 eun dn pjoH ZL SW uey 5597 95095 2207 00 1 01 3100 195 nd no sw asuodsas jueisueJ LL 3ndino payed 9606 01 e 3ndino payed 531 JO 9650 UIYIM 1810984 1nd3no 10J ST t 5 01x peo ON rau esuodsai 6o1d uwoq OL 0 2
7. 8 2 FIX 8 3 LIST Mode 8 4 WAVE Mode 8 5 TMQ GON EE E A A T E E E TET 8 5 1 Input Trigger R n E EEEE 8 5 2 Output Trigger 8 6 Transient Waveform Example sssssscsssscsseccssecsssecsssecssscessscesuecsseecssessssecessceesneessneessneeesseess 125 8 61 eoeh 125 8 6 2 Wave Execution via Communication PC ttt 125 8 6 3 Wave Execution via Front Panel ttt 126 8 7 Additional Examples ee esses ttee testet notti ttes 126 8 71 List Example 87 2 Wavetonm Example otto een 126 CHAPTER 9 STATUS FAULT AND SRQ REGISTERS ERECTA 9 2 Power Supply Status Structure ccecsssscssseecseccsecccsnecssssceseesssseesssecssscesseeesssecssucceseecsseeessseesnees 9 3 Condition tentat 9 3 Fault Register ettet tette ttt ttis 1 9 3 2 Status Register ettet 1 9 4 Conditional Enable and Event Registers 941 Conditional eate te etti aa 1 94 2 Event Registeisiu sn en Een 29 94 3 Enaple REJIS tEh nosne a adt lo etd ated tidie 29 9 5 Service Request eoim ERREUR THREE ERU REOR GER RR RR E HAIR Epic ga 129 9 6 Standard Event Status Group sessssssssssscssssecsssecssccesnecessecessesssseesnsecssscesuseesseccesseceaeeesasecsnsees
8. aseyd ajbuls ZHE9 Zp snonunuo 92 58 ba yabeyon 79 0 059 EL OTE 97 091 Z SDILSIH3 12 VHVHD LNdNI suone yi eds seues 00v Z 24 TDK Lambda 9 5 S 3331 Jua qwe XEN Lx IV 9 0 Aq yuan Indu 5 pue 066 70 Aq seseaJ2ep uondo payejos 0 Aq yuan ndul pue 52 0 Aq fouaruJe eseaJ2ep 333 UCT Sd 51 eqoJd 1 01 paanseaw iF lx yup jeuueu peo pue eui jou op Keine Buuodiuou pue xpeqpeai JUCSUOD 941 L juan 3ndino payed pue 3ndino payed Jo 001 01 3e si Z Lx ebeyon indui 3ue1suo YUN ay jenbe e6ueup 104 ebeyjoA 1ndino 01 01 9606 04014 OL x eAn3sIsa1 YUM ebe3JoA 3ndinQ 01 01 9606 10 9606 O1 01 UJOJJ 64 si 3ua4n2 3nd3no 6303 JO 960z uey uonejedo e ejed 104 pauinbai 51 zuan 3ndino 230 JO 966 suun p 0 dn uonejado 10 85 asuas ui 3urod Bulsuas ay Je pa nseayy abeo Indu 1 4 peo1 ON U10J4 Peo 3ue1suo2 DYAGOT OZLL 10 PLAZE L S8 IV 29 2 SC eL
9. S148 jueuuno Indyno payed 20 0 Ayliqeis eunjejeduje 9 Sc 099 jueuuno Ind no payed jo 60 0 jueuuno 3ndjno payed jo 20 0 20916 dn uuew sejnuiu og uaino I Wdd00L 2j Wdd l se z w og 92 06 eunjeJedue G 1 Zka ZHWL ZHS s ur1 ejddy y yup uonejn6e1 peoTe peo1 xewz eur xew IQON IN3UUND LNVLSNOO jo 60 0 uey sse 5 09 jueuno payed jo 06 0 e 104 sj Jo 6 0 SasweL GAL eum dn pjoH Z Suz uey 5527 ASUS E90 9500 0 3 08 195 jndino J9 0281 0 jndino 104 euin esuodsei jueisueJ 6 peor ins 6 0 esuodsey sw asuodses Boid umoqg OL Ez A s sw sw A esues g uo Jomod o Jo o eBejo payed jo 95600 Uey sse1 yup dn wiem 2 9 6 JO 0 0 21 ZHWL ZHS s ur1
10. TVIN3ANOMIAN3 INdLNO W3Y NSW 3NIS suoyng suondung y Y4 OV 410 dAO LONd Q31 99 440 NO 1 1 Was NS ANI SO31 N3389 Suoneoipure junoo jue uno Ind no payed jo 6 0 Aoeunooe 61 y nol junoo jo 6 0 Aoeunooe Burwwes6od AOL AG Ssejppy ley pneg jo uonoejes suonoung uoneounuuop 95 98753 ZEZSY 9L 3331 Nv1jo uonoejes suonoung uogesiunuwog __ OS LNI 990 i eqpiod TAN JAO 4 ysnfpe jenuew JAN IAN IAO ysnipe jenuew 212159 L 059 Ssjepoou3 suondo s danw __ 5 13NVd LNOYA uou Jo aiqejajas jesn __ eunjejeduje 1 9 pod q Jo 318VN3 seas 10100 q 10 Aq 19594 uonoejoud sapun 1ndino G e qeieseJd 1ndjno Ajddns Jamod uaym uwop inus jndino Bojeue ur
11. 8 jeuBis 9L 207 40 jueuno ywo 9 0 0 UO 1euez Age Aq pejunus 1043 109 12907 uedo 10 Ag z oway uous 10 Ag 0 0 uous uedo 20 jeu is Aa juoy si s q eug Yws uey ssa 3ueuno Nos YO uedo UO uous Pejuoo Aq Indjno Sq y seigesiayseigeus ywo 3ueuno yus AE HO UO 55 Jopejoo uedo 5 sepoip YIM jeonuep 2 __ uonoeuuoo eoue eq jueuno anejs Jejsew spun 9 dn aiqissod JOjeoipu 104ju02 72 971 21 DO AD LL 0 9 uone1edo jejeeqd 6 eouejsisa saues WYOOS IIeJ A0 4O0 AS v L e gepejes jesn AQL 0 20 AS 0 L Koeunoov e gepejes sn AQL 0 20 AS 0 9160 Jesn j96juoo Alp JO AS L v A9 0 0 1291179919 Ag payed jo G L pue Jesn ALIS IN WYOYOL S O 001 O 1 Ajddns 8 1ndino 7 L
12. A0SISMONSSZE 2 PUNUD OOWNV Q31V 1OSI 333l NV1 ASN pr er 9 Q31v10SI 333l NV1 ASN enndul 901VNV Q31v10SI 333I Nv1 ASN er zrn punoJ9 zr Lrgindino puno15 indu utu OGAOLEZ Leeindino indul AQzes1noAs09L pueisuuAv e HOTVNV NYT ASN er 5 Zr Lr indino ADOPSINOA O31 v 10Sl 333l NV ASN pr er snopiezeH zr indino yndino uoneoyissejo eaepiejurz Q31V10S1 3331 Nv1 SSN pr er 3ndino tZOSSN3 ZZOSSN3 1eeui oi L 9ze L9N3 O3l snopJezeH NY Bojeuy q31v10Sl 333l JSN pr Er 5 eje zr indino 08951 0 5091 5 e qeoi ddyr 1 0S609N3 O3l 1n PU WING L 0L019931 L 0L0L9N3 L 0L0L91N OW3 AL33VS 33 TDKLambda 2 6 Z200W 400W 600W 800W Outline Drawing 0 18 6 1 1 41 97 91 IAM 80 5 15 S Z DI LOVINOD XIN3OHd 310 V1d3233 9 77 02 OMV JAIM 0000 61829 1001 000 0 0 v
13. Press REM button The REM LED illuminates Hd c message appears on the Current display Press Current encoder Voltage display shows Hdr and Current display shows present address Rotate the Current encoder to select required address Press Current encoder to enter selected parameter to memory When parameter is accepted the display blinks once and returns to the previous level 7 2 3 Communication Interface Selection 2 power supply can be configured for RS232 RS485 or USB communication interface 1 2 Press REM button The REM LED illuminates message appears on the Voltage display Press Voltage encoder Voltage display shows and Current display shows communication interface Rotate the Current encoder to select the required interface Press Current encoder to enter selected parameter to memory When parameter is accepted the display blinks once and returns to the previous level Do not connect or disconnect the USB cable when the PS is operating 82 TDK Lambda 7 2 4 Baud Rate Setting Seven optional rates are possible 1200 2400 4800 9600 19200 38400 57600 Press REM button The REM LED illuminates message appears on the Voltage display Rotate Voltage encoder until Voltage display shows bA Ud Press Voltage encoder Voltage display shows bRud and Current display shows baud rate Rotate the Current encoder to select required baud rate Press Current encoder to
14. 80 6 6 Programming Monitoring of Output Voltage V MON and Current I MON 81 CHAPTER 7 Serial RS232 RS485 and USB Interface 7 1 MACHO CU CTI OM OCDE 7 2 Configuration 7 21 Default Setting 7 2 2 Address Setting 42 3 Communication Interface SelectiOri s e ctt an 424 Rate ei 7 2 5 Language Selection RS232 RS485 USB 7 2 6 Setting Unit in Remote Local Lockout or Local Mode 7 3 Rear Panel R 232 485 Connector eee tette tte tte tette tnihi ani 74 Connectig Power Supply 5232 Or RS485 BUS eerte Z5 Rear Panel USB Connector aiu can bed 75 1 USB Getting Started 7 6 Multi Power Supply Connection to RS232 Or RS485 or USB 7 7 GEN Protocol GEN series communication language T PASA FOMA t 2 212 Enid OF Message sun ee aa anne 87 7 1 3 COMMA CH Repeater arena 87 peace 775 Acknowledge cesta ee nen 2 77 ENO 87 7 8 GEN Command Set Description uusssensenssennssennssennsssnnsssnnssennssennsennssnnnssnnsssnnsssnnssunnen 88 78 General guides 7 8 2 Command Set Categories 78 3 Identification Commands 784 Initialization Commands 7 85 OU TOU ECO tutu deiude e ud e E UE 78 6 Global Output Commands 7 8 7 Auxiliary Commands 7 8 8
15. 009 7 26 TDK Lambda 21225 IIN jo 210 0 uonnjose1 jnorg 21225 IIN jo 210 0 jueuuno jndino payed 2 0 eNe Jo 9610 abeylon 1ndino 60 0 IENE jo 60 0 EIS IN JO 952 LO O e eos IIN JO 962 LO O jueuuno jndino payed Jo 2 0 xoeqpeo noA Z 1 Ao amp unooe 9 yoegpea Inong 1nop p uonnjoseu 1noA c 1 Aoeunooe eBeyo payed JO GO O leni Jo 50 0 Koeunooe INON 91 3331 ASN ser zezss ANY 9NIWIWV3OOMd Azz q pejunus vuigoL 1ueuno yu s uunuixeur Agz 1 jeuez q peiunus uano wnwxew uedo wnwxew sn L L snQL M eAnisod yu s Ag Ndu jene uBiu AZ Indu jene jeoidA snoz esind yuig eounos Ag jag uiu Ag e jana uBiu 8 0 1ndino jana z
16. 21 1 zHWoz d d as ou pue 42 2 peo1 xewz 9 sur Xew 39V L10A LNVLSNOO 68 18 99 6 92 099 9272 9218 Seg SV YOg uey sse 5 68 6 8 peol 00L Je 86 0 12 660 0L YIzS 6 eseud zHg9 zy snonuguoo 22 9298 0 D sgg 0 1 sg 0 68 S 98 6S vlvE 6 3 z 3 353 1 I 908 098 ________ on uano usnuurg 2vAO0z 00L 951 y 2 DVA00Z 00L Juan ndu 2 beuyabeyon Indul SOLLSIH31OVHVHO LNdNI 5 88 6 98 LI vive 6 9 08 5 PL gt 9 0 9EAQ0L UIASSS Jemod yndjno peres 9 07 5 BL gt 98 Jemod jndino 9 05 gt DeNG9ZSUN SOOL Je jndjno pejesre 9 08 5 1 gt 9 0 SBAOOL gt UIASS8 18 2 1ueuno 1ndino peres Se Se 099 Sc 099 Sc 227 o sz 2 AZ P oc OE L eg 2 Sec 9 07 5 21 gt gt 98 2 Juana jndjno 9 09 5 eL SBASIZSUIASOOL 12 2 jndino perez L4 1ndino SNILV3 1nd1nO 09 oS suone iji eds 008 Z 7 2 30 TDK Lambda n Jo 210 0 Sjeos Jo 210 0 Juano jndino jo 2 0 Jene Jo 9610 1n
17. OZ spun uey ejjejeg 104 s jueuno jndino Jo spun t dn uonejedo jejleied 104 8 esueg juod eu je pa nseayy eDeyoA juejsuoo peo7 N4 peo7 oN peo juejsuoo OvAG92 044 10 DENZEL GB IV 9 oeguiz Q uey sse Juano 1344 5 jewod ISZ EL by zH09 0S 00 se eq oj pa nbau si 794 031 IN spjepueis Ajejes seseo 104 2 jueuno jndjno pejei jo 2 0 si jueuno Z eDeyoA yndyno paye jo 0 pesjueien si eDeyoA uuu SALON V 199A V 94 994 y jeujsnpul 92 L9N3 O3l 5 pajeipey g 8 199A 8 91 994 L 92 LoN3 O3l 9 HU 0L 0592 wyoWOOL uey a10 eouejsise1 uomne nsu p SUIWL OGALOZ puno15 9 0 IVNV G31V 16SI 333I NV 1 ASN ve er nuL 2dAcver DOWNY Q31V10SI 333l NV1 ASN vr er anduy 99 utu L 2GArvZy AGZE 901TVNV Q31V10SI 333I NVI1 ASN vr Legindino L 2QA0842 ASLE UWL OGAPSLZ puno19 er Lpgindino puno1o indui Zr
18. REGULATORY NOTICES SAFETY INSTRUCTIONS CHAPTER 1 GENERAL INFORMATION 13 User ManualContent ccr erepti erosut tros 15 1 2 rii core Ufo rojo e 15 2 1 General DSS CUO OM acre irte teri ote ei e p e teste tid 5 1 2 3 Features and Options 15 1 24 Multiple Output Power System 5 6 1 2 5 Control via the USB or RS232 485 Communication Ports 16 1 2 6 Analog Voltage Programming and Monitoring 16 1 2 7 Parallel Operation 16 1 2 8 Output Connections een 16 1 2 9 Cooling and Mechanical Construction sisisi 16 50 17 RUNE 17 1 32 17 133 MISC nee 17 1 34 AC Cables 17 1 3 5 Serial Port Cables 17 CHAPTER 2 SPECIFICATIONS 18 2 1 Z 200 Series Specifications 2 2 2 400 Series Specifications 2 6 Z200W 400W 600W 800W Outline Drawing nnne 34 2 7 Z200W 400W 600W 800W Optional IEEE Isolated Analog Interface Outline Drawing 35 CHAPTER 3 INSTALLATION Bal HOME EE EE 37 3 2 Preparation for Use cerea seite Ri ni IHE ere eee esed 37 3 3 Initial Inspection 3A Rack Mounting rote d end ri er papa tad nnde 3 5 Location Mounting and Cooling
19. jaued juoy Aq payeanoe s sig eu3 vus uey sse eounos YO uedo UO uous joejuoo Aq 1ndjno Sq eur seigesigyseigeug ywo Aog wnwxe YO UO 22 40j2ejo9 uedo no 40jeoipu ejoules Ie20 T pl JoUOD 9jouies E20 T 11 POHSJUL ZL DO AD LL punoj sisseuo OGAOSY Uu SHUN jeonuep 2 uogoeuuoo eouejeq jue uno 5 YIM spun 9 0 dn ejgissod eouejsise sees WYOOOS IIeJ A0 94O AS v ejgejoejes jesn AQL 0 10 AS O ejgejoejes 40 AS O Jasn jpejuoo up Jo AG L r A9 0 0 25240A 21 Ag uone1edo 0 g uoneuedo 6 1 Ajddns 8 jndino 7 L zuana 1ndino 9 10 4u09 OS jjo inus S INOJ payed Jo G Ayueeur pue oenooy Jasn ejeos WYOMOL S O 00L O INOA 1 jo L pue Aoesnooy 5 aeos uuoyoL S 0 96001 0 3no payed jo L Aueeui pue oeunooy Jesn AQL O 10 AS 0 00L 0 jo 9 0 Ajueeui pue
20. 38 3 6 AC Source eu peni ep ree 38 3 7 AC Input Power Connection scr icr piter tco cer torti 38 3 71 AC Input 3 22 alios COPD eR En 3 8 Turn On Checkout Procedure nimmt cien e fester 39 3 8 1 General 3 82 POM LO NE unsere 39 3 8 3 Constant Voltage Check co e tutes tt ore 40 3 84 Constant Current Check 40 385 QV ee ee een EE s BOO Checker A E E 3 8 7 Foldback Check 3 9 Connecting the Load sssesssssssesssssssesesssssecosssssteeeenssteonssssteossnssteonsnsteesssoteossnsteessnssteesssssteessnss SEME o SA TT aro EET TD RHONE RES 3 9 2 Current Carrying Capacity 59 3 indt e eimi uon etn End adii 3 94 Noise and Impedance Effects ettet ettet erts 43 395 Inductive depen added edm 43 39 6 Making the Load Connections ttt 3 9 7 Connecting Single Loads Local Sensing default 3 9 8 Connecting Single Loads Remote Sensing 399 Connecting Multiple Loads Radial Distribution Method 3 9 10 Multiple Load Connection with Distribution Terminals 3911 Grounding OUTE Uts a 3 10 Local and Remote SENSING sssssccssescsssssecsssescensececsnseecessesccsnececsnsessssscessussesssssesssuneeesuseessnsees 15 5 WIN REPE 3 10 2 Local Sensing 3 103 Remote Sensit aet eti
21. jeu DOZ uey sse 045 9 C 8900953 01 1 p 0342324 7 5 ose sOLM eg H AQO8 E Jajay 5 snq 0 OZ M E8 H 5 73331 10 sod 10 ym Apog api yrz 5527 3dIM Z bye L uey 5527 15 up IV2INVH23W V IDDA V S1 994 uone o L 9ZE 193 231 m 51 pajerpeg 9 8 I22A 9 51 Hed 554 uone o L 9ZE 193 231 551 DSZ 12 WYOWOOL ULY DION 92uejsisaJ uone nsu y uu L JAAZOZ puno15 501VNY 31 1051 3331 UWL OATH 901VNV Q31V710SI 333 NV1 85n vr erinduy DOTVNV Q31V10SI 333l NV T asn vr er ZA Logo ndino uu L 50A08Z2 punoi9 z Lpgindino UWL JGABZ8Z puno15 nduj uruL 5QAv0Z Zf PULBISYUM uiu L JQAZOZ PUNOID DOTWNY Q31V 10SI 333 NV T 8Sn vr er sunu L 20ACvZv 901VNV 31V 1051 333I NV 1880 vn ernduy UIWL DGAOOZE Q31V10SI 333l NV T asn vrer Zr LPSINDING uru L 53A0002 puno19 z Lpgindino utu L IONBZET puno1
22. SJopo2u3 Z suondo suonouny TANVd LNOY3 jeuez AZZ Aq pe1unus yugo L 3ueumo xurs 20123 0 uedo c jeubis 81 2 AZZ Aq 3 xurs wnwixew Asz 10129 02 jeubis 21 wnwixew sri 44 44 nwu sro L abpa eAnisod yus uinuuixelw AG jana uunuuxew As e jag 4614 uinuutulw AZ andur jana ul JaBHu 9 srloz asind Juan NOS AS Jana uiu winwixeyw Ag E andino jaaaj 4614 win Ag 0 andino Jana wnwixeyy ino 2207 40 10 WaY XeWw JUALIN YUIS A9 0 0 UO 19uaz Aq 5 10123 02 J0je2ipu FL 12207 Uado 10 As 3J0Us 10 A9 0 0 31045 980 JO Jeubis Ag O1UOD 2 1 EL eued yuo q pagenipe 1 sig eu3 0 uey sse e inos O UadQ UC 31045 Peruo fup Aq 1ndino sq aui sejgesiq sejqeu3 Jonuo 1 APOMU zt ywo yus AOE wnwixeyy YO 55 10123 0 Joyeotp
23. zou 5900 1noA Bursnfpe sjue eag juoJj q jeseJd JAN yw eBejoA sapun 1ndino p ESE S 921 5 Julod uoneoiunuuuoo q Jo 318v N3 eued seas q 10 1d 100 q 40 ur jndul Aq j9ses uwop uon2ejoud pod q Jo 318VN3 seas 10100 Aq 10 9 5A281 Indu Aq jeses e qejeseud AD 01 99 10 22 0 AD Alddns uwop inus dyno uonoejoJd xoeqpioJ zoze 1 09L SNOILONNA SALLOSLOUd suo ed1jID9dS 59195 009 7 28 TDK Lambda Kaesseoeu si dn p 9 0 amp Jua qwe 5 103 Z py 0 9 S 3331 eunyesedwe UBIQUE xe 9L Indno payed V S px eqoud 01 peunseew yup jeuueuj peo y jou Ade naoe pue peqpeei juan 1uejsuo UL EL Juano jndjno pejeJ pue jndjno jo 00L OL peunseeuu si ajddiy z eDeyoa jndui juejsuoo Bures pun y jenbe 104 px Ind no payed jo 0 0 06 WOLF 01
24. sapun jndino eles 292 9 911 9 quod eBeyo je Q q Jo 318 V N3 eued seas q INdLNO Aq 10 jndui Oy Aq jeses uonoejoud 1 pod q Jo 318VN3 lued seas INALNO q 10 ur Aq jeses e qejeseud AD 01 99 10 22 0 AD Woy Alddns uwop inus dyno xoeqpjo4 92 099 5 09 SNOILONNS 3AILD3LOUd suone31j133dS 59195 008 7 TDKLambda 32 TDK Lambda resseoeu si dn 2 0 dwa jueiquie je HBS 404 71 9 5 S 3331 20 eanjejeduie jueiquie XEN 9L Jemod jndjno pejei 1 6 eqoud 1 0 peunseey yup jeuueu pue eui jou op oeunooe pue jueun juejsuo UL EL jue1no yndjno pue payed jo 00L 0L peinseauu s aldd y Z py eDeyoA juejsuoo ezoa jenbe aBeyon peol 104 payed jo 01 01 9606 01 paea eBeyoA jndino pae 04 01 9606 10 9506 01 OL WOJ 6 s uana jndino
25. 318v AOW33 531 338803 01028 1 EA Ls 5 68 01 SOF O ER 90 OSOL er S 31ON 338 1080 059 7 1 STVNOIS NOlLdO SOIWNV G31VOSI 3331 17 31ON 338 X31OW LOZ L SPOEr YOLDINNOD 3OIINOW LOWLNOO XIN3OH4 JOANO SOWNV 3OLO3NNOO 109110 zr 10 18 62 VI ONI43SN3S AJAO SIOLDINNOD O 0SE AIAOI SIOLOINNOI 007 NOILO3IIG MO OlF OTL SION 33S 35 TDK Lambda 0 18 6 1 Ond LNdLNO 91 OMV IAIM 80 5 15 S Z OI LOVINOD XIN3OHd 310 V1d3O33 9 72 08 OMY FAIM 0000 6189 1001 QNVH 2000 X31OW LOVINOD 0080 SP9E7 X31OW 31OVId3O33 S 92 02 O AIM 000061889 1001 GNVH 000 X31OW Nid LOVINOD 807 L ScOEv X31OW 310 V1d3O33 v NOULVOHIO3dS IHL OL ONIGYODOV 333H NMOHS ONILVa INdLNO ANY AWVN THdOW SIOLDINNOD SIOVINOO 8 Q3Q13IHS NOLLVOINNWWOD S8rSal CEcSa o WN 880 X VW 38 ISAW 70801 ONINALHOIL 9 SYOW AlddNS XIMOd 3HL OINI JANALOAd LON ISAW SM338 2S ONILNNOW L ALON S3OIO3NNOO NOILO33IIQ MOH liv 2
26. 5 payed uj paye OL 01 06 10 9606 01 OL 044 6 si jue uno jndjno jo 02 SHUN uey 104 si jueauno jndjno 240 Jo SHUN t oj dn uone1edo 104 9 esueg ui jurod Bursues ay je peinseayy eDeyoA juejsuoo peo7 In peo juejsuoo OvAS9Z 04 10 DENZEL GB IV 9 2eguiz Q uey sse Juano usnuui Jolly INI Burpnpur G nd no payed YIM 2 92 1 bs 098 931 spepuejs jejes eoueuuojuoo 104 jndino payed jo 0 si jueuno WNWIUIN 2 eDeyoA jndino pejei jo 95 0 s zH09 08 00 se pequosep eq si SALON 994 uoneoo jeuisnpu L 9ZELON3 031 __ 9 8 51 Wed 994 5 9zELONZ 031 payonpuog s 0 092 12 uuoWoor eouejsisel uoneisu y unuL 9QA 04 puno19 9O IVNY G31V10Sl 333l Nv1 ASN vr er unuL QAZVZv Q31V10Sl 333U NV1 ASN pr erndui 9 Q31V10SI 333l NV1 SSN tr er zn Lemndino L OQAOBZZPUNOIG Z
27. 91225 IN Jo 967 LO O uonnjosa1 BuruuejboJd 3noA E juan 3ndino payed JO 2 0 L Kende 1no abeyon 1ndino payed jo 965070 121120 Jo 96070 Keane 1noA 1 Z1x 3331 ndo asn sgv cecsu X2v8avau 5NIWINVHuooud N3W p 11 DY 103 410 1084 831 22 AD LNdLNO A38d ANSW 3NI3 5031 N3349 suoneoipu e UNOD 43u8un 1ndino payed jo 6 0 AdeINDIe sybip p NO JUNOD 1ndino payed JO 6 0 Are naae SHBIP 3noA z 3207 Jaued 10044 440 NO A0L AS buuoiuow 1u21n5 ebe3joA jo uon2ejes suomun o3u0 Bojeuy 40L XS AO L AS eAnsise1 ebe3 oA suon ung 014107 bojeuy SseJppy e1ey pneg suon unj uone runuiulo ISN SEFSU TETSY Z Lx 333l Nv1Jo uon s es suon unj uone iunuuuo OS LNI d20 JANTAN dAO Suon und uon e1oJd ysnfpe jenueui JAN IAN dAO jsnfpe jenuew 3no 3noA SJopo2U3 suondo ejdniniw suonpunj j ouo TANVd LNOYS 4auaz AZZ Aq payunys Juis uunuurxeuu 10129 02 usd Z Jeubis pawiwesbold 81 1909
28. 0 AS 1 DB 25 CONNECTOR 8 PIN CONNECTOR REMARKS PIN NO NAME PIN NO NAME 1 SHIELD HOUSING SHIELD 2 TX 8 RX TWISTED 3 RX 7 TX PAIR 7 SG 1 SG Fig 7 2 5232 cable with 0825 connector P N Z 232 25 L 2m typ DB 9 CONNECTOR 8 PIN CONNECTOR REMARKS PIN NO NAME PIN NO NAME HOUSING SHIELD HOUSING SHIELD 2 RX 7 TX TWISTED 3 TX 8 RX PAIR 5 SG 1 SG Fig 7 3 RS232 cable with DB9 connector P N Z 232 9 L 2m typ DB 9 CONNECTOR 8 PIN CONNECTOR REMARKS PIN NO NAME PIN NO NAME HOUSING SHIELD HOUSING SHIELD 9 TXD 6 RXD TWISTED 8 TXD 3 RXD PAIR 1 SG 1 SG 5 RXD 5 TXD TWISTED 4 RXD 4 TXD PAIR Fig 7 4 5485 cable with DB9 connector P N Z 485 9 85 TDKLambda 7 5 Rear Panel USB Connector A standard USB Series B device connector is located on Rear panel for USB control Refer to Fig 7 5 and Table 7 2 Pin Designator Description 1 2 1 VBUS 5 VDC 2 D Data 3 4 3 D Data 4 GND Interface com Fig 7 5 USB Connector Table 7 2 USB connector pin out 7 5 1 USB Getting Started Ei USB Cable ___ Gb gt connect to USB port m The following steps will help you quickly get started connecting your USB enabled instrument to the Universal Serial Bus USB 1 Verify AC switch is OFF 2 Connect Z to the USB port on the computer 3 Turn AC s
29. oeunooy Jesn AOL O 40 AS 0 00L 0 2045181 NOJ p Bumuweu oud 10jsise4 INON L eBeyoa 1no z 1noA ONIMOLINON 9NIWIAV3HOO Ild SOTVNY 31 1 0 Bulpsoooy pexoedun s yun Sur pey Doz uey ssoi 3oous g uonelqiA y Bulmeup 1858 OSE SOL M E8 H AdO8 1881 OSE Q OZ M 8 H 15 QXHXM suolsuswigq E Byz uey sse1 QHVONVIS z Aq pezuo4 TVOINVHO23W SL z Sez v 0 gt 98 LNIYYNO 1nd1no Galva zz 092 005 Y OEAS9ZSUIASOOL INSUUND INdINO SZ L 059 ZEGIE S 2 02E 5 09 epow eui pejeJ pue 9 07 jusiquiy 0002 dn uigooz woy Lg 9 HEC ophis uonesuepuoo ou HY S6 Ol Aypiunu ou HY 9606 02 Aypiuny Bune edoe 9698 02 5 2 peol 00 505 0 Bunegedo TVIN3ANOMIAN3 1 Was ANS Nia _ suonng 0104 10 aam 854 99 AD AONO Lndino
30. Device dependent error EXE Execution error OPC Operation complete PON Power on QYE Query error ESR Standard Event Status Register query Returns the contents of the Event Status Register Meaning and Type Event Status Device Status Query Syntax ESR Returned Parameters IDN 0 to 255 Register Decimal value Identification query Returns an identification string in the following format Manufacturer Model Serial number Firmware level Meaning and Type Identification System Interface Query Syntax IDN Returned Parameters Field Information TDK Lambda Manufacturer 7 lt Vrating gt lt Irating gt Model ratings 2581234 Serial number typically 7 alpha numeric characters 3 0 C1 Revisions Main firmware LAN IEEE firmware Example TDK Lambda Z20 30 25B1234 1 0 C1 97 TDKLambda OPC Operation Complete command Sets the Operation Complete bit in the Standard Event Status Register if all commands and queries are completed Meaning and Type Operation Complete Device Status Command Syntax OPC Parameters None OPC Operation Complete query Returns ASCII 1 as soon as all commands and queries are completed Meaning and Type Device Status Operation Complete Query Syntax OPC lt NR1 gt ASCII 1 is placed in the Output Queue when the power supply has completed operation
31. LIST DWELI lt NRf gt lt NRf gt Range 0 001 to 129 600 seconds Default Suffix S Examples LIST DWEL 6 1 5 1 5 4 up to 12 parameters Related Commands CURR MODE LIST COUN LIST CURR LIST STEP LIST VOLT VOLT MODE Query Syntax Returned Parameters LIST DWEL 6 1 5 1 5 4 LIST STEP Determines if a trigger causes a list to advance only to its next point or to sequence through all the points LISESTEP AUTO When triggered it creates waveforms consecutively until the list is completed LISESTEP ONCE When triggered it executes one step from the list SCPI Command Syntax SOURce LIST STEP lt CRD gt Parameters AUTO ONCE RST AUTO Examples LIST STEP ONCE Query Syntax SOURce LIST STEP Returned Parameters AUTO ONCE 110 TDK Lambda LIST VOLTage Specifies the output voltage points ina list The voltage points are given in the command parameters which are separated by commas SCPI Command Syntax SOURce LIST VOLTage lt NRf gt lt NRf gt Default Suffix V Examples LIST VOLT 2 0 2 5 3 0 LIST VOLT MAX 2 5 MIN up to 12 parameters Query Syntax LIST VOLT Returned Parameters 2 0 2 5 3 0 LIST STORe Saves data under specified numbers lt 1 4 gt of the last LIST typed voltage or and current dwell time STEP parameter and counter SCPI Command Syntax SOURce LIST STORe lt NR1 gt Example LIST ST
32. Local sense Local sense Rem sense Fig 3 8 Multiple loads connection radial distribution local sense 3 9 10 Multiple Load Connection with Distribution Terminals If remotely located output distribution terminals are used the power supply output terminals should be connected to the distribution terminals by a pair of twisted and or shielded wires Each load should be separately connected to the remote distribution terminals see Fig 3 9 If remote sensing is required the sensing wires should be connected to the distribution terminals or at the most critical load Distribution terminal Rem sense Local sense Local sense Rem sense Fig 3 9 Multiple loads connection with distribution terminal 46 TDK Lambda 3 9 11 Grounding Outputs Eitherthe positive or negative output terminals can be grounded To avoid noise problems caused by common mode current flowing from the load to ground it is recommended to ground the output terminal as close as possible to the power supply chassis ground Always use two wires to connect the load to the power supply regardless of how the system is grounded WARNING Models up to 650VDC Rated Output shall not float outputs more than 650VDC above below chassis ground WARNUNG Bei Modellen bis650VDC Nennausgangsspannung darf der Potentialunterschied zwischen Ausgang und Geh use Erdung nicht mehr als 650VDC betragen WARNING There is a potential shock hazard
33. OFF NoTrigger out n TRIG mode trigger is generated when LIST or WAVE is completed In Function Strobe mode an output pulse is generated automatically any time a step is competed Output Trigger mode settings 1 Press MENU button MENU green LED illuminates 5 EE message appears on the Voltage display Rotate Voltage encoder until Er 1 message appears Press Voltage encoder n iE message appears on Current display Rotate Voltage encoder until Er Ju message appears Press Voltage encoder message appears on Voltage Display and Ec 10 messages appear on Current display Rotate to scroll list and press Current encoder to select Un d UM NJ 8 6 Transient Waveform Example 8 6 1 Wave Programing 1 Selectrequiredtransient operation mode Insert communication command Example VOLT MODE WAVE Set Voltage values Insert communication command Example WAVE VOLT 5 10 10 0 Set Timing values Insert communication command Example WAVE TIME 0 2 3 2 Set Counter value for sequence execution Example WAVE COUN 2 Set Step parameter AUTO or ONCE Example WAVE STEP AUTO In this step possible store program in memory and continue programming without PC connection Insert communication command Example WAVE STORe 2 7 Recycle AC power Set OUT ON 8 6 2 Wave Execution via Communication PC 1 Load stored data Insert communication command Example WAVE LOAD
34. Parameters 1 to 9999 INFinity RST 1 Examples WAVE COUN 3 WAVE COUN INF Query Syntax SOURce WAVE COUNt if count gt 9999 the response is INF Returned Parameters lt NR3 gt WAVE CURRent This command specifies the output current points in a waveform list The current points are given in the command parameters which are separated by commas SCPI Command Syntax SOURce WAVE CURRent lt NRf gt lt NRf gt Default Suffix A Examples WAVE CURR 2 5 3 0 3 5 up 12 parameters Query Syntax WAVE CURR Returned Parameters NR3 WAVE LOAD Loads Voltage or Current Time STEP parameter and counter values to a specific location in the memory defined by numbers lt 1 4 gt SCPI Command Syntax SOURce WAVE LOAD lt NR1 gt Example WAVE LOAD 3 Query Syntax none Returned Parameters 1 4 115 TDKLambda WAVE STEP e WAVE STEP AUTO When triggered creates waveforms consecutively until the wave is completed e WAVE STEP ONCE When triggered it executes one step from the list SCPI Command Syntax SOURce WAVE STEP lt CRD gt Example WAVE STEP AUTO Query Syntax SOURce WAVE STEP Returned Parameters AUTO ONCE WAVE STORe Stores Voltage or Current Time STEP parameter and counter values to specific location in the memory defined by numbers lt 1 4 gt SCPI Command Syntax SOURce WAVE ST
35. lt NC gt lt NC gt lt NC gt ADR MC MV MP OUT AST FLD FBD RIE NC RELay 1 2 STATe bool MODE SOURce CURRent LEVel IMMediate AMPLitude lt NRf gt TRIGger lt NRf gt MODE NONE FIX LIST WAVE LEVel IMMediate AMPLitude lt NRf gt TRIGger lt NRf gt PROTection MODE NONE FIX LIST WAVE LIST LEVel lt NRf gt LOW STATe UVP UVL LEVel lt NRF gt COUNt 0 9999 Inf CURRent lt NRf gt LOAD 1 2 3 4 STEP ONCE AUTO STORe 1 2 3 4 DWELI lt NRf gt lt NRf gt WAVE COUNt 1 9999 Inf CURRent lt NRf gt LOAD 1 2 3 4 STEP ONCE AUTO STORe 1 2 3 4 TIME lt NRf gt lt NRf gt Set control pins status Returns the operation mode CV CC OFF AMPLitude lt NRf gt Set the output current Set the triggered output current Select arbitrary trigger control mode Set the output voltage Set the triggered output voltage Set over voltage protection level Set under voltage limit or protection mode Set under voltage level Select arbitrary control mode Set number of time execution Set output current points Load stored LIST program from memory Set trigger depends execution step Store LIST program in memory Set time interval Set output voltage points Set number of time execution Set output current points Load stored WAVE
36. 16 24 TIGHTENING TORQUE 4 4 5 3 Lb inch 0 5 0 6Nm Fig 3 4 Load wires connection to the output plug 4 Assemble the protective shield to the plug and tighten the screw to fix the shield to the plug see Fig 3 5 PT SCREW KA30X6 WN1412 Fig 3 5 Plug shield mounting WARNING There is a potential shock hazard when using a power supply with an output voltage greater than 60VDC Do not turn ON power supply when output voltage is above 60VDC without output plug protection assembled Ensure that the protection of output plug is mounted and properly assembled and that the plug protection is locked by PT type screw as described in Fig 3 5 44 TDK Lambda Bei Einsatz einer Stromversorgung gr er 60VDC Nennspannung besteht eine potentielle Gesundheitsgefahr durch elektrischen Schlag Schalten Sie keine Stromversorgung mit einer Ausgangsspannung gr er 60VDC EIN ohne dass die Schutzabdeckung des Ausgangssteckers montiert ist Stellen Sie sicher dass die Schutzabdeckung des Ausgangssteckers fachgerecht montiert wurde und wie in Bild 3 5 dargestellt mit 2 PT Typ Schrauben gesichert ist 3 9 7 Connecting Single Loads Local Sensing default Fig 3 6 shows recommended load and sensing connections for a single load The local sense lines shown are default connections at the rear panel J2 sense connector Local sensing is suitable for applications where load r
37. 31ON 338 2 33S SOLDINNOD 1021 Sr0EF YOLOINNOD YOLINOW zr JOULNOD OOIVNVY 10 18 622V1 OMd 35395 83AOO S3OLO3NNOO 34 TDK Lambda 2 7 Z200W 400W 600W 800W Optional IEEE Isolated Analog Interface Outline Drawing O1FOZE ale SSI in i 5 SOF Seve on B 9310N 338 O 8 v ERO g T Ys LON 34 5 GI VW S3O Vd SWIS Sam 9 TW S31OH ONILNNOW m MIYOS ANNONO gt IWNOUdO a 1 YSO 8 NOIO3NNOO NYT t eQ 11 IV E 919 0831 eg 8 8 S OES NOIO3NNOO 951 P 012004 Z 31ON 335 SIOLOINNOD NOILVOINNWWOD S8rSal ZESa T OTF OSE c q 4 PRA ngu GIAYVW SAOV1d 0 18 6ZZVI Od LNdLNO 97 9 L OMv JAM 80 5 15 S Z OI LOWINOD XIN3OHd 310 V1d3O33 9 72 07 OMY FAIM 0000 618 9 TOOL GNVH 000 0 0 Nid LOVINOD 0080 Sr9 v XFIOW 31OVId3O38 S 77 07 OMV JAIM 0000 61829 TOOL 000 0 0 X31OW Nid LOVINOD 80Z1 SZ0EF X31OW 31OVI1d3O3N r NOILVOHIO3dS 3HL OL SNIQ3O2OV 333H NMOHS ONILV3 3WYN THQOW 8O193NNOO SIOVINOO 8 Q3Q HIHS Syd NOLLVOINNWWOD S8YSa CECSH 2 WN 89 0 38 LSNW 3000301 ONIN3IHOIL UUJ0 NYHI33OW AlddNS 93MOd 1 OLNI JANALOAd LON ISNW SM38OS 31ON
38. 60 VDC besteht eine potentielle Gesundheitsgefahr durch elektrischen Schlag Schalten Sie die Stromversorgung mit Ausgangsspannung gr er 60 VDC nicht EIN ohne dass die Schutzabedeckungen der Ausgangsstecker montiert sind Schalten Sie die Stromversorgung immer AUS oder Trennen Sie das Ger t vom AC Netz bevor Sie Anschl sse an der Ger ter ckseite vornehmen oder ver ndern GER USCHPEGEL Maschinenl rminformations Verordnung 3 GPSGV der h chste Schalldruckpegel betr gt weniger als 70 dB A gem ss 1507779 SYMBOLS Caution risk of danger Instruction manual symbol The instrument will be marked with this symbol when it is necessary for the user to refer to the instruction manual Achtung Gefahr Symbol im Benutzerhandbuch Das Ger t wird mit diesem Symbol gekennzeichnet wenn der Benutzer Anweisungen im Handbuch beachten muss Indicates ground terminal Zeigt einen Erdungsanschluss an Protective Conductor Terminal Schutzleiterklemme ON Supply EIN Zufuhr OFF Supply AUS Zufuhr Standby Supply Standby Zufuhr Direct current DC Gleichstrom DC ad Alternate current AC Wechselstrom AC Denotes hazard An attention to a procedure is called Not following the procedure correctly could result in personal injury A WARNING sign should not be skipped and all indicated conditions must be fully understood and met Bezeichnet Gefahren Es wird die Beachtung eines Verfahrens empfohlen
39. Commands SCPI Command ABORt DISPlay WINDow STATe bool WINDow FLASh bool GLOBal CURRent AMPLitude lt NRf gt AMPLitude lt NRf gt OUTPut STATe bool RCL 1 2 3 4 RST SAV 1 2 3 4 INITiate MMediate CONTinuous bool INSTrument COUPle ALLINONE NSELect lt NRf gt MEASure CURRent DC VOLTagel DC POWer DC OUTPut STATe lt Bool gt STATe bool PROTection CLEar FOLDback MODE OFF CC CV DELay lt NRf gt ILC MODE lt bool gt TTLTrg MODE OFF FSTR TRIG Description Aborts the triggered action Display ON OFF Display Flash Set the output current for all power supplies Set the output voltage for all power supplies Enables disables the all power supplies output Recall setting for all power supplies Reset all power supplies Save settings for all power supplies Trigger initiate Enable disable continuously trigger Couple for all Z power supplies Select the power supply for communication Returns the measured output current Returns the measured output voltage Returns the measured output power Enables disable the supply output Programs the Power ON state Resets latched protection Set operation protection mode Set protection delay Enables disable analog output ON OFF control Set output trigger mode 118 GEN Command lt NC gt lt NC gt lt NC gt GPC GPV GOUT GRCL GRST GSAV
40. Optional LAN interface SCPI compatible e Optional IEEE interface SCPI compatible e Optionallsolated Analog programming monitoring 0 5V or 0 10V user selectable and 4 20m4A 15 TDKLambda 1 2 4 Multiple Output Power System The Z Series power supplies series can be configured into a programmable power system of up to 31 units using the built in USB or RS232 RS485 communication port in the power supply and the RS485 linking cable provided with each power supply In a LAN system each power supply can be controlled using the optional LAN controller factory installed In an IEEE system each power supply can be controlled using the optional IEEE controller factory installed 1 2 5 Control via the USB or RS232 485 Communication Ports The following parameters can be programmed via the serial communication port e Output voltage setting e Output current setting e Output voltage measurement e Output current measurement e Output on off control e Foldback protection setting e Over voltage protection setting and readback e Under Voltage protection setting and readback Under Voltage limit setting and read back e Power supply start up mode last setting or safe mode 1 2 6 Analog Voltage Programming and Monitoring Analog inputs and outputs are provided at the rear panel for analog control of the power supply The output voltage and the current limit can be programmed by analog voltage or by resistor and can be
41. Rotate Current encoder and select required n value from 2 6 for example H3 The display blinks once and returns to previous level Refer to Table 5 2 1 4 Setthe master unit output voltage to the desired voltage Program the current limit to the desired load current limit divided by the number of parallel units Recycle AC power 6 If there is more than one Slave unit connected to the Master then set the PS OK signal delay of the Master to 200msec Refer to section 5 7 4 Power Supply OK Signal e 5 5 3 2 Slave Unit Set Up When Advanced Slave mode is selected the power supply enters Current programming mode via external Voltage Voltage and Current programming setting values are set to 10596 of range During operation the slave units operate as a controlled current source following the master output current It is recommended that the power system is designed so that each unit supplies up to 95 of its current rating This helps reduce imbalance which may occur by cabling and connections voltage drop When a unit is programmed to Advanced Slave mode it enters Remote mode with Local Lockout In this mode Front panel controls are disabled to prevent accidental setting change except Menu parallel setting and factory reset Communication commands are disabled Power supply responds only upon query Press MENU button Rotate Voltage encoder until PrLL appears on Voltage display then press Voltage encoder Rotate Current encode
42. TDKLambda Table 7 6 Z200 models Current programming range NOTE Model Minimum A Maximum A Model Minimum A Maximum A 160 1 3 0 000 1 300 160 2 6 0 000 2 600 320 0 65 0 000 0 650 320 1 3 0 000 1 300 650 0 32 0 000 0 320 650 0 64 0 000 0 640 Table 7 7 2400 models Current programming range The power supply can accept values higher by 5 than the table values howeveritisnotrecommended to program the power supply over the rated values Model Rated Output Model Rated Output Voltage V Minimum V Maximum V Voltage V Minimum V Maximum V 160 5 176 160 152 320 5 353 320 304 650 5 717 650 0 617 5 Table 7 9 OVP programming range Table 7 10 UVL UVP programming range NOTE The UVP protection starts operating for values higher than 596 of Rated Output Voltage 92 TDK Lambda 7 8 7 Auxiliary Commands SOP Sets SO polarity SO 1 ON Positive default SO 0 OFF Negative SOP Returns the SO polarity RIE Remote Interlock Inhibit enable RIE 1 ON Enable RIE O OFF Disable RIE Returns Interlock enable status ON interlock enable OFF interlock disable FRST Factory reset command This command cover RST command and additional settings Sets factory default This command breaks communication Refer to Table 5 7 MP Reads the actual output power Returns 5 digit string REL1 Se
43. Voltage gt CV oV gt CV 1 Constant Current gt CC gt V gt CC gt 2 gt No Fault gt NFLT gt V NFLT gt 3 Trigger Wait gt TWI 0 gt 0 gt 4 Auto Start Enabled gt AST gt 0 gt 0 gt 5 Foldback Enable gt FBE gt _ gt FBE gt 6 To Instrument Summary register List Step Complite gt LSC gt V gt LSC gt 7 Lockal Remote gt Loc gt ov gt Loc gt o gt D 8 UVP enabled gt UVPE V UPE gt 7 Interlock enable gt ILCE oV gt ILCE gt 10 Reserved gt 0 gt 0 gt 0 gt Current Foldback mode gt oV gt FBM gt i Analog Voltage Channel gt AVP gt V gt AVP gt 13 Analog Current Channel gt Py 5 gt gt Positive Logic 14 List Step Active gt DWE gt 0 gt 0 gt 0 No Event Reserved 0 0 0 gt 1 Event Occured MSB TDKLambda 9 2 Power Supply Status Structure Status and Fault Register shows the status register structure of the power supply The Standard Event Status Byte and Service Request Enable registers and the Output Queue perform standard functions as defined in the IEEE 488 2 Standard Digital Interface for Programmable Instrumentation The Operation Status and Questionable Status registers implement status functions specific to the power supply 9 3 Condition Registers There are two registers that the user may read to see the condition of the supply The register bits are se
44. WARNING Modifications not expressly approved by the party responsible for compliance could void the user s authority to operate the equipment under FCC Rules CE NOTICE European Union Marking by the CE Symbol indicates compliance to the Low Voltage Directive 2006 95 EC of the European Union Such marking is indicative that the Z series meet the following technical standard EN 61010 1 Electrical Equipment For Measurement Control and Laboratory Use Part 1 General Requirements A Declaration of Conformity in accordance with the preceding directives and standards has been made and is on file at our EU representative TDK Lambda UK located at Kingsley Avenue Ilfracombe Devon EX34 8ES UK SAFETY APPROVALS UL 61010 1 and CSA C22 2 No 61010 1 UL Listed C UL for Canada IEC EN 61010 1 CB TUV GS CE marking when applied to the Z series indicates compliance with the Low Voltage Directive 2006 95 EC in that it complies with EN 61010 1 OTHER Z200 Z400 Z600 Z800 series are comply with the following Directives e RoHS2 Directive 2011 65 EU e WEEE Directive 2002 96 EC SAFETY INSTRUCTIONS CAUTION The following safety precaution must be observed during all phases of operation service and repair of this equipment Failure to comply with the safety precautions or warnings in this document violates safety standards of design manufacture and intended use of this equipment and may impair the built in protections w
45. WAVE Mode uy pp oc ai qoc pug x rox i Trig Initated INIT IMM WTG Wait Trigger Trigger Event 1 1 TRD 0 025 TRIG DEL 0 02 STS Step Started TIME T 0 0385 0 025 0 035 0 03s 0 025 1003s WAVE TIME 0 3 2 3 STC Step Complited OPC Operation Complited WAVE VOLT 5 10 10 0 OUTPUT VOLTAGE WAVE COUN 2 INIT CONT O WAVE MODE AUTO Fig 8 6 WAVE Mode Sequence example 123 TDKLambda 8 5 Trigger Display Function Level Display Parameter Level Display Description INIT in iE Initialization INIT in iE Refer to command INIT TRIG Er d ready for trigger ENA EnA refer to command Continue Conk zn INIT CONT BUS via Software Trigger IN Erin orfront Panel Trigger Setting Er 0 trigger EXT Analog EHE refer to command Trigger delay Er di 0 65sec D 100 TRIG DELAY Fine and Course modes OFF OFF 5 refer to command Trigger OUT tru Trigger Er 2 OUTP TTLT MODE Function Strobe F 5tr Refer to commands EAD UBL iig L1 L4 LIST LOAD and WAVE LOAD Refer to LIST COUN podes coun 1 9999 2 andWAVE COUN allow Programming POG P course and fine setting ONCE Refer to LIST STEP and 3 AUTO PUED WAVE STEP ABORt Refer to command execution Abor YES 3E5 ABORt Table 8 1 Trigger and Programming front panel menu
46. WAY ONAN ANIA lt suoneotpure junoo jue uno 3ndjno jo 6 0 Aoenooe INOJ junoo jo 9580 Aoeunooe siiBip 320 10023 33O NO INGINO AOL AG jueun2 eBeyoA usewjeq suogoung Bojeuy __ AOL AG ues eq uonosjes suonoung suonounj uonesiunuwog suonounj uogesiunuwog __ OS LNI dOO TAN AAO Suonoung isnipe jenuew annraniano l __ jenuew SJepoou3 Z uy suondo ejdnniq jonuo2 T3NVd LNOU4 uou peuoiel 5 9 pod q Jo 318VN3 lued seas INALNO q 10 ur 3 94991 Indu Oy Aq jeses ejqejeseJd Ajddns uwop inus dno uonoejoud sapun yndjno s Burwweu oud ul seoq wojeq sjue egd iod Jo Juos Aq TAN
47. at the RS232 485 LAN and the IEEE ports when using power supplies with rated or combined voltage greater than 400V and the Positive Output of the Power Supply is grounded Do Not connect the Positive Output to ground when using the RS232 485 LAN or IEEE WARNUNG An RS232 485 LAN und IEEE Schnittstellen besteht die Gefahr eines elektrischen Schlags wenn Netzteile mit Nennausgangsspannung oder einer in Reihe verschalteten Spannung von mehr als 400V mit geerdetem Plus Ausgang betrieben werden Verbinden Sie dahernichtden Plus Ausgang mit Erde wenn Sie die RS232 485 LAN oder IEEESchnittstellen wie obern beschrieben verwenden 3 10 Local and Remote Sensing The rear panel J2 sense connector is used to configure the power supply for local or remote sensing of the output voltage Refer to Fig 3 10 for sense connector location 3 10 1 Sense Wiring WARNING There is a potential shock hazard at the sense connector when using a power supply with an output voltage greater than 60VDC Local sense and remote sense wires should have a minimum insulation rating equivalent or greater than the maximum output voltage of the power supply Ensure that the connections at the load end are shielded to prevent accidental contact with hazardous voltages WARNUNG Bei Stromversorgungen miteiner Ausgangsspannung von uber 60VDC besteht an den Sense Anschlussen die Gefahr eines elektrischen Schlags Die Senseleitungen sollten mit einer Isolationsspannung klassif
48. connector on one end and non terminated stripped wires on the other end Use the cable only with plug approved by the national safety standards of the country of usage 1 3 5 Serial Port Cables If a serial port cable is required it should be ordered according to the description in section 7 2 USB cables are not provided with the power supply TDKLambda SPECIFICATIONS CHAPTER 2 paupie uou 12 1950 uon2e1oud 19AQ 9 uolediunwwod Aq 10 pued 1231 Aq INdLNO Aq 10 Indu Dy Aq 19594 e qeiasaud 195 Mojaq 5906 1ndino Ajddns uaym umop Inys uon e1oud jepun 5 ul jaye 100 5900 Ino Dunsnfpe Woy 51 1 Jod uone iunuiuJoo 10 jaued 1uoJj Aq 19594 GAN Japun yndyno t 41455 ESE S 9LL S A jutod abe OA 1940 uod uon2e101d abeyon ang Aq 10 318V Jaued seas Aq INdLNO Aq 10 34e3s01ne 9 2 221 3ndut Dy Aq 19598 inus HAU dAO uot otc uone iunuiuioo Aq 10 v N3 pued 1231 Aq INdLNO Aq 10 324381 Indu Dy Aq 18584
49. e1n22e no 9 1ndino payed JO 055070 en12e Jo 96500 foein oe peqpeei S 91225 inj Jo 96100 91225 967 LO O 1noA FUSNI payes Jo Z 0 L emne 1ndino payed jo 96500 ENP JO 96500 Koein22e INOA 1 ZL 3331 jeuondo asn ssg cecsu 12v8avas 5NIWINVuboOud LAdLNO WY 38d INI suoyng uon2und p 1V4 DV 104 dLO JAN 131038 22 AD LNALNO WY ANI 5831 N3349 suoneolpu junoo 1ndino payed jo 0 Koene sybIp p JUNOD payed jo Koen22e 5161 p noA z 73201 pued 10044 440 NO MANO AOL AS 1u21n5 eBe3 oA Jo 013u05 Bojeuy yOL MS A0 L AS buruuieiboud aAnsisej abe3 oA suon un 03005 Bojeuy e1ey pneg suon unj uone iunuuo5 8sn sevSu cecsu 02 333l Nv1Jo uon s es suonounj uone iunuiuo OS 1NI 420 GAN TAN dAO SUOIPUN4 1snfpe jenuew dAN 1AN dAO 15
50. enter selected parameter to memory When parameter is accepted the display blinks once and returns to the previous level UT UU 7 2 5 Language Selection RS232 RS485 USB The Z implements SCPI standard command line interface to remotely control the power supply Additionally a small subset of legacy GEN commands has been provided for ease of use and backwards compatibility 1 Press REM button The REM LED illuminates message appears on the Voltage display Rotate Voltage encoder until Voltage display shows LANG Press Voltage encoder Voltage display shows LRfi5 and Current display shows language Rotate the Current encoder to select required language Press Current encoder to enter selected parameter to memory When parameter is accepted the display blinks once and returns to the previous level 7 2 6 Setting Unit in Remote Local Lockout or Local Mode Local mode When the power supply is in local mode it can receive queries If a query is received the power supply will reply and remain in Local mode Serial commands may be sent to set and read the status registers while the unit is in Local mode If the Enable registers are set the power supply will transmit SRQ s while in Local mode Remote mode If a command is received that affects the output or a Remote command is received the power supply will perform the command and change to Remote mode When the power supply is in Remote mode R
51. fault must be removed before the latch can be cleared The output is then restored to the state before the fault condition occurred SCPI Command Syntax OUTPut PROTection CLEar GEN Command Syntax None Parameters None 101 TDKLambda OUTPut PROTection FOLDback Foldback mode is used to disable the output when a transition is made between the operation modes The power supply will turn off the output after a specified delay if the power supply makes transition into CV mode or into CC mode This feature is particularly useful for protecting current or voltage sensitive loads SCPI Command Syntax OUTPut PROT FOLDback MODE lt CRD gt GEN Command Syntax FLD lt CRD gt Parameters OFFJo CC 1 CV 2 RST Value OFF Examples OUTPut PROT FOLDback MODE CC Query Syntax OUTPut PROT FOLDback MODE Returned Parameters lt CRD gt OUTPut PROTection DELay Sets the delay time between the programming of an output change that produces a CV or CC status condition This command applies to UVP and Foldback functions SCPI Command Syntax OUTPut PROTection DELay lt NRf gt GEN Command Syntax FBD Parameters 0 1 to 25 5 MIN MAX step 0 15 Unit S second RST Value 5 Examples OUTPut PROTection DELay 2E 1 Query Syntax OUTPut PROTection DELay Returned Parameters NR3 OUTPut ILC MODE Selects the mode of operation of the Remote Inhibit protection In OFF mode
52. following procedure to configure multiple supplies for basic parallel operation 5 5 2 1 Master Unit Set Up During operation the master unit operates in CV mode regulating the load voltage at the programmed output voltage Connect the sensing circuit to local or remote sensing as shown in Fig 5 4 or Fig 5 5 Front Panel Main Menu Parallel mode is as default Press MENU button Rotate Voltage encoder until Pr i appears on Voltage display then press Voltage encoder Rotate Current encoder until appears Press Current encoder to select display blinks once and returns to previous menu level Set the master unit output voltage to the desired voltage Program the current limit to the desired load current limit divided by the number of parallel units If there is more than one Slave unit connected to the Master then set the PS OK signal delay of the Master to 200msec Refer to section 5 7 4 Power Supply OK Signal 67 u TO o TDKLambda 5 5 2 2 Slave Unit Set Up When Slave mode is selected the power supply enters Current programming mode via external Voltage Voltage and Current programming setting values are setto 105 ofrange During operation the slave units operate as a controlled current source following the master output current It is recommended that the power system is designed so that each unit supplies up to 95 of its current rating This helps reduce imbalance which may occur by ca
53. is a read only register that is cleared when read The Standard Event Enable register functions similarly to the Enable registers of the Operation and Questionable status groups 9 6 2 Register Commands The common ESE command programs specific bits in the Standard Event Status Enable register Because the power supply implements PSC the register is cleared at power on if PSC 1 ESR reads the Standard Event Status Event register Reading the register clears it Bit Signal Meaning 0 OPC Operation complete 2 QYE Query error 3 DDE Device dependent error 4 EXE Execution 6 CME Command error 7 PON Power on Table 9 3 Standard Event Status Group Operation Complete Set whenever the last command is completed and the software is ready to accept another command or when query results are available Query Error Set when a query is made for which no response is available Device Dependent Error Set for device specific errors These errors are entered in the System Error Queue and have error codes greater than 0 See Table 9 6 for error descriptions Execution Error Set when a parameter exceeds its allowed range Command Error Set for a syntax error Power On Set once at power up The Status Byte ESR bit is not set 130 TDK Lambda 9 6 3 Status Byte Register This register summarizes the information from all other status groups as defined in the IEEE 488 2 Standard Digital Interface for Programmable Instrumentat
54. is transferred to the output terminals when a trigger occurs SCPI Command Syntax SOURce CURRent LEVel TRIGger AMPLitude lt NRf gt GEN Command Syntax None Default Suffix A Examples CURR TRIG 3200 MA CURR LEV TRIG 3 2 Query Syntax SOURce CURRent LEVel TRIGger AMPLitude a NOTE CURR MODE LIST and WAVE are an implied ABORt command Only the last sent command can be accepted as WAVE or LIST Previous mode reverts to NONE 7 12 5 Measure Subsystem This subsystem readsthe actual voltage and current The power is a result of multiplying voltage and current measurements MEASure CURRent Reads the measured output current Returns a 5 digit string SCPI Command Syntax MEASure CURRent GEN Command Syntax MC Parameters None Default Suffix A Returned Parameters lt NR3 gt 107 TDKLambda MEASure VOLTage Reads the measured output voltage Returns a 5 digit string SCPI Command Syntax MEASure VOLTage GEN Command Syntax MV Parameters None Default Suffix V Returned Parameters lt NR3 gt MEASure POWer Reads the measured output power Returns a 5 digit string SCPI Command Syntax MEASure POWer GEN Command Syntax MP Parameters None Default Suffix W Returned Parameters NR3 7 12 6 DISPlay Subsystem DISPlay STATe Turns front panel voltage and Current display toggle On or Off SC
55. monitored by analog voltage The power supply output can be remotely set to On or Off and analog signals monitor the proper operation of the power supply and the mode of operation CV CC 1 2 7 Parallel Operation Up to six Z Series power supplies of the same output voltage and current rating can be paralleled in master slave configuration with automatic current sharing to increase available power 1 2 8 Output Connections Output connections are made to rear panel Connector Either the positive or negative terminal may be grounded or the output may be floated Models up to 650VDC rated output shall not float outputs more than 650VDC above below chassis ground Contact factory for assistance with higher float voltage applications Local or remote sense may be used In remote sense the voltage drop on the load wires should be minimized Refer to the specifications for the maximum voltage drop value 1 2 9 Cooling and Mechanical Construction The 2 Series is cooled by an internal fan At installation care must be taken to allow free air flow into the power supply via the front panel and out of the power supply via the rear panel The Z Series power supply is a compact and lightweight unit which allows for easy installation and gives a space saving solution for customer applications TDK Lambda CAUTION Observe all torque guidelines within this manual Over torque may damage unit or accessories Such damage is not covered under man
56. n I P ing message appears on display Press Encoder to select the desired Pin 4 Voltage display shows the selected Pin number 5 Rotate the Current encoder to toggle between H High or Lo Low 6 Press Current encoder to select desired parameter 7 Press MENU button twice to return display to it s previous state MENU LED turns OFF CAUTION Do not connect Pin 1 and Pin 2 to a voltage source higher than 25V Always connect Pin 1 and Pin 2 to the voltage source with a series resistor to limit the sink current to less than 100mA 73 TDKLambda 5 7 4 Power Supply OK Signal PS OK signal indicates fault condition in the power supply It is a TTL signal output at J3 2 referenced to IFC COM at J3 7 Isolated Interface Common When a fault condition occurs PS OK level is low with maximum sink current of 1mA When no fault condition occurs PS OK level is high with maximum source current of 2mA All conditions when output status is disabled sets PS OKtolow level The PS OK signal at high level can be delayed via Front panel setting or software This function is used to prevent signal rise before output reaches set value PS OK delay setting 1 Press MENU button MENU GREEN LED illuminates The r PAf message appears on the Current display Press Current encoder message appears on the Voltage Display Rotate Voltage encoder until P5d message appears and press Encoder Parameter delay time in mS
57. positive sense lead to terminal J2 5 S of the J2 mating connector Ensure that the J2 mating connector is plugged securely into the rear panel sense connector J2 4 Turn On the power supply NOTES 1 If the power supply is operating in remote sense and either the positive or negative load wire is not connected an internal protection circuit will activate and shut down the power supply To resume operation turn the AC On Off to the Off position connect the open load wire and turn On the power supply 2 Ifthe power supply is operated without the remote sense lines or local sense jumpers it will continue to work but the output voltage regulation will be degraded Also the OVP circuit may activate and shut down the power supply 3 10 4 J2 Sense Connector Technical Information J2 connector type 43650 0501 MOLEX Plug type 43645 0500 MOLEX Contact pins 43030 0002 MOLEX Hand tool 63819 0000 MOLEX Wire AWG 24 up to 20 3 11 Repackaging for Shipment To ensure safe transportation of the instrument contact the TDK Lambda sales or service facility near you for Return Authorization and shipping information Please attach a tag to the power supply describing the problem and specifying the owner model number and serial number of the power supply Refer to Warranty Information for further instructions 49 TDKLambda CHAPTER 4 FRONT REAR PANEL CONTROLS AND CONNECTORS 4 1 Introduction The Z Power Supply series ha
58. read back via the SYST ERR query The error number is the value placed in the power supply error queue SYST ERR returns the error number into a variable and combines the number and the error message into a string Table 9 5 lists the system errors that are associated with SCPI syntax errors and interface problems Information within the brackets is not part of the standard error message but is included for clarification When system errors occur the Standard Event Status register records them as follows Bit Set Error code Error Type Bit Set Error code Error type 5 100 thru 199 Command 3 300 thru 399 Device dependent 4 200 thru 299 Execution 2 400 thru 499 Query Table 9 5 Standard Event Status Register Error Bits The Status and Error Registers described in the previous section are only one ofthe status methods in the IEEE board There is also a SCPI requirement for error messages that are in the form of Error Number Comma Quote Error Description Supply Address Quote The user sends the SYST ERR query to read the error message The messages are stored in a first in first out queue The SYST ERR queue can buffer up to TEN error messages although the tenth is replaced by the 350 Queue Overflow if an eleventh message is generated After the queue overflow only the first ten messages are stored and the later messages are lost The SYST ERR queue is cleared by Reading the messages one at a time using S
59. system in which digital or analog control is required or in Daisy Chain The SO control logic can be selected via the Front panel as follows 1 Press MENU button MENU GREEN LED illuminates 5E E message appears on the Voltage display and r PRI message appears on the Current display 2 Press Current encoder The 50 message appears on the Current display 3 Press the Current encoder again The 50 message appears on the Voltage display Parameter 05 or appears on the Current display 4 Rotate and press the Current encoder to select the required parameter 5 Forsignal details refer to Table 5 4 SO logic SO signal level J3 5 J3 7 Output status Positive as PS OK default 4 15V or Open On 0 0 6V or Short Off 50 Negative 4 15V or Open Off 50 0 0 6V or Short On Table 5 4 SO logic selection 5 7 2 Interlock Function Analog On Off Enable Disable Interlock signal serves as Output Enable Disable via switch or relay Use the Interlock function to enable or disable the output as emergency shutoff or door open switch It is an optically isolated signal from the power supply output Connection to the signal is made via pin J3 4 ILC and pin J3 7 IFC COM The ILC control logic can be selected via the Front panel as follows 1 Press MENU button MENU GREEN LED illuminates 5E E message appears the Voltage display message appears on Current display my 2 Press Curren
60. the power supply ignores J3 4 ILC status SCPI Command Syntax OUTPut ILC MODE lt CRD gt GEN Command Syntax RIE Parameters OJOFF 1 ON RST Value OFF Examples OUTPut ILC MODE ON Query Syntax OUTPut ILC MODE Returned Parameters ON OFF 102 TDK Lambda OUTPut TTLTrg MODE Sets the operation of the Trigger Out signal to either OFF Function Strobe or Trigger mode Programming Mode NONE FIX e In TRIG mode trigger is generated when output status changes e n Function Strobe mode an output pulse is generated automatically any time an output parameter such as output voltage or current is programmed Programming modes LIST or WAVE e n TRIG mode trigger is generated when LIST or WAVE is completed In Function Strobe mode an output pulse is generated automatically any time a step is completed The power supply Trigger Out signal is available at J3 3 connector on the rear panel SCPI Command Syntax OUTPut TTLTrg MODE lt CRD gt GEN Command Syntax None Parameters TRIG FSTR OFF RST Value OFF Examples OUTP TTLT MODE TRIG Query Syntax OUTP TTLT MODE Returned Parameters lt CRD gt OUTPut RELay1 2 STATe Sets pin J3 1 1 and J3 6 2 state The ON parameter is according to low level SCPI Command Syntax OUTPut RELay1 2 STATe bool GEN Command Syntax REL1 2 lt bool gt Parameters O OFF 1 ON RST Value 1 Examples OUTP REL1
61. to 12 characters long 4 Carriage Return If the CR character ASCII 13 is received by itself the power supply will respond with OK and CR 7 8 2 Command Set Categories The command set is divided into four categories as follows 1 Identification Commands 2 Initialization Commands 3 Output Commands 4 Global Commands 5 Auxiliary Commands 6 Status Commands 7 8 3 Identification Commands Returns the power supply model identification as an ASCII string IDN Default TDK Lambda ZX Y one comma no spaces X rated output voltage rated output current REV Returns the software version as an ASCII string Current rev REV 1 0 SN Return power supply serial number Up to 12 characters in any format DATE Returns date of last calibration Format yyyy mm dd Example 2009 12 17 88 TDK Lambda 7 8 4 Initialization Commands Command Description ADRn CLS ADR is followed by address which can be 1 to 31 and is used to access the power supply Clear status Sets FEVE and SEVE registers to zero RST Reset command Brings the power supply to a safe and known state Output voltage zero Remote non latched remote Output current zero Auto start Off Output Off OVP maximum FOLD Off UVL zero The conditional registers FLT and STAT are updated the other registers are not changed RMT Sets the power supply to local or remote mode 1 RMT 0 or RMT LOC s
62. to verify the accuracy of the Current display Ensure that the front panel CC LED is on 5 Turn off the front panel AC power switch 6 Remove the shunt from the power supply output terminals 3 8 5 OVP Check Referto Section 5 3 2 for explanation of the OVP function prior to performing the procedure below 1 Turn the front panel AC power switch to On position and turn on the output by pressing OUTPUT button 2 Using the Voltage encoder adjust the output voltage to approx 10 of the unit voltage rating 3 Set OVP to 50 of of the unit voltage rating 4 Adjust the output voltage toward it s maximum and check that the output voltage cannot be increased more than the OVP setting 5 Adjust OVP limit to the maximum 3 8 6 UVL Check The UVL can be set when the power supply output is Enabled On or Disabled Off UVL setting values are limited at the maximum level to approximately 5 below the Output Voltage setting Attempting to adjust the value above this limit will result in no response to the adjustment attempt The minimum value setting is zero o Press PROT button PROT GREEN LED illuminates Current display shows UUP message Press Current Encoder Voltage Display shows message Current display shows setting level Rotate the Voltage encoder to set 11 Rotate the Current encoder to adjust the level Press PROT button twice or wait 15 sec to return display to its previous state and t
63. 017 081 Sul 6x IIN4 0 1 0 1 OLL Sul 6x XewoN 0 aw Boud dn 6 S S S N 95495 9J0WOY 8 uo OE 1 Ind no payed jo 0 0 Uey ssa yup dn uueM 7 duie1g peo 1ue1suo5 sanu OE DUIMO OF SJUg 19A0 INOA JO 96200 Ayyiqeys 9 dn uuew oe sDe3joA 1ndino I Wdd0E Do Wdd 1U9121909 ainyesaduua 09 74 OL Aw 14 ZHWL ZHS sw y 057 051 001 Ls ZHWOz d d esiou pue ajdd y 1ndino payed JO 10 0 iin Lx uone nbai Xew bezjon payed JO 10 0 94 eur xew 1 0 059 9 0 0ZE 1 091 Z AGOW 39Y LION LNVLSNOD 807 807 807 M nd no payey ZEO 59 0 el V Tx 1u amp uuno 1ndino payey Z 059 091 A 1 1ndino payey 71 c 0 059 S9 0 0 EL 09L Z 1300W 2945 5 007 Z L Z 18 TDK Lambda 91225 114 jo 967100 uonnjose1 peqpeai 8 91225 IN 967100 uonnjosa1 peqpes1 MoA Z juauno jo 2 0 Jemoe jo 1 0 Elx Pene no 9 ebeyoA 1ndino payed jo 065070 en12e Jo 96500 Koeina2e INOA 5 91225 N Jo 967100 uonnjosa1 1no y
64. 11 7 Fuse soe USER MANUAL INDEX TDKLambda WARRANTY This TDK Lambda product is warranted against defects in materials and workmanship for a period of five years from date of shipment During the warranty period TDK Lambda will at it s option either repair or replace products which prove to be defective Limitation of Warranty The warranty shall notapply to defects resulting from improper or inadequate usage or maintenance by the buyer buyer supplied products or interfacing The warranty shall not apply to defects resulting from unauthorized modifications or from operation exceeding the environmental specifications of the product or if the OA seal has been removed or altered by anyone other than TDK Lambda authorised personnel TDK Lambda does not warrant the buyers circuitry or malfunctions of TDK Lambda products resulting from the buyer s circuitry Furthermore TDK Lambda does not warrant any damage occurring as a result of the buyer s circuitry or the buyer s supplied products No other warranty is expressed or implied Warranty Service This product must be returned to an authorized TDK Lambda service facility for repairs or other warranty service For products returned to TDK Lambda for warranty service the buyer shall prepay shipping charges to TDK Lambda and TDK Lambda shall pay the shipping charges to return the product to the buyer Refer to section 3 11 for Repackaging for Shipment Disclaimer The information c
65. 2 2 Set COUNTER How many times program will be repeated if STEP in AUTO mode Insert communication command Example WAVE COUN 2 3 Set Trigger IN source BUS for Command or Front Panel and EXT via Rear Panel J3 8 pin Insert communication command Example TRIG SOUR BUS 4 Set Trigger Initialize Continue mode If 1 then after program execution power supply will be ready for next trigger If 0 then send INIT command to get to the next trigger Insert communication command Example INIT CONT 1 5 Send INIT command Power supply ready for TRIGGER Insert communication command Example INIT 6 Send TRG command or press Current encoder NOTE In order to be able to change the transient operation mode while the power supply is ready fortrigger and not in an idle state send ABORt and then set INIT CONT O 125 TDKLambda 8 6 3 Wave Execution via Front Panel 1 2 Load stored data MENU gt Pec THE gt gt Le Set Trigger IN source BUS for Command or Front Panel and EXT via Rear Panel J3 2 pin MENU gt Er i5 gt Er In gt bus Set Trigger Initialize Continue mode If 1 then after program execution power supply will be ready for the next trigger If O then send INIT command MENU gt Er i5 gt Cont gt EnR to get to the next trigger Set INIT command Power supply ready for TRIGGER MENU gt Er 12 gt in iE gt in ik Exit from MENU and Press Current
66. 2 1 OUTP REL1 2 ON Query Syntax OUTPut REL1 2 STATe Returned Parameters o OUTPut MODE Returns the power supply operation mode When the power supply is On OUT 1 it will return CV or CC When the power supply is OFF OUT 0 it will return OFF SCPI Query Syntax GEN Query Syntax OUTPut MODE MODE Returned Parameters lt CRD gt CVICC OFF 103 TDKLambda 7 12 2 Instrument Subsystem The subsystem programs one or more power supplies lt NR1 gt from 1 to 31 INSTrument COUPle SCPI Command Syntax INSTrument COUPle lt CRD gt GEN Command Syntax None Parameters ALL NONE INSTrument NSELect SCPI Command Syntax INSTrument NSELect NRf GEN Command Syntax ADR single address Examples INSTrument NSELect 6 Query Syntax INSTrument NSELect 7 12 3 Voltage Subsystem VOLTage Sets the output voltage value in Volts The range of voltage values are described in Table 7 5 The maximum number of characters is 12 SCPI Command Syntax SOURce VOLTage LEVel MMediate AMPLitude lt NRf gt GEN Command Syntax PV lt NRf gt PV Default Suffix V RST Value 0 Examples VOLT 500 MV VOLT LEV 234 56789 Query Syntax Eu T AMPLitude lt NR3 gt VOLT returns the present programmed voltage level Returned Parameters VOLT MAX and VOLT MIN returns the maximum and minimum programmable voltage levels
67. 2 AZZ AQ payunys WWOOL xurs 10329 02 jeubis pawweibolg 21 wnwixew srl 31 1 510 m abpa eAnisod JUAN yus AG jaca wnwixeyy As e andur jana ubru AZ andur jana ul 91 srioz asjnd 1 adunos AS 1ndino Jang uiu Ag e indino Jara 4614 Ag o andino ana ino 1 XBW EI07 4O A OWAY XeW JUALIN xurs YO A9 0 0 UO 2 q 10433 0 u dO JOje5ipu vL 12207 uedo 10 AS L Z AJOWAY 31045 10 A9 0 0 31045 1980 JO Jeubis Ag 031005 201 EL gued Aq s sig eu yug o uey 559 3uauno 2 YO uedQ uo 31045 1261000 Kap Aq 1nd1no sq eui sajges q salgeug Jonuo oper zi 3uauno YUIS ADE ebeyoA wnwixeyy A5 UC 55 1012 02 uadO Joje iput 55 AD LL sisseu KEW 701059 sepoip Jeux SHUN uonejedo Salas OL Uonpeuuoo JUUNI a BUIS 15 SHUN 9 0 dn 415504 8x UOeIado ja
68. 5 nduj uru L 59A0Z6 ZF LPg1nd3no 1ndu sjapow Aoc 31n0A5091 5OTVNV Q31V105I 333l NV1 asn pr Ef zr Lr andino pepunoib Ao0g noA uoy 5O1VNV QIlV 1051 3331 5 r aie zr Lf 3ndino pepunojb 1nd1no AOOPSINOA uone yisse snopiezeH G31V 105I 333l 85 5 are zr Lp andino Buneoy ndino VCOSSN3 CCOSSN3 1990 01 YING L 97 LON3 23l 2W3 snopiezeH uoy NY Bojeuy QalV 1051 3331 asn vr er snopiezed eje zr i 13ndino A0S9si1nOASA091 _ Kajes sp1epuejs ejqeorjddy 1 1 05609 1 056091 01 YING 1 0101923l L 0LOLON3 L 0LOL9 TY 2W3 AL33VS 7 0 juaiquiy dn 000 3uerquue wnwixey _ spony e oqe Jua qwe ajejaq 0005 pmhniv s uonesuapuoo ou HY 9656 01 96 Ay p uuny 035 uonesuapuoo ou HY 06 07 3 58 07 10 5 z peol 96001 2 05 0 m a nyesadwa unedo L SNOILIGNOD TWLNAWNOUIANA VSC uey 5597 Sx DYA00Z 00 L 3 ysu 98 78 98 v8 98 v8 96 SL vx 2 00 841 peo 001L 22A00Z 001 1 66 0 951 101263 1 VV c S vvc s vvc s dis S Lx 7x 2VA002 00 Juan
69. 60 VDC besteht eine potentielle Gesundheitsgefahr durch elektrischen Schlag Stellen Sie sicher dass die Schutzabdeckung des Ausgangssteckers bestimmungsgem montiert ist um einen Anwender vor versehentlichem Kontakt mit gef hrlicher Spannung zu bewahren Stellen Sie sicher dass an der Last und deren Anschl ssen keine spannungsf hrenden Teile ber hrt werden k nnen Stellen Sie sicher dass die Isolationsklasse der verwendeten Lastkabel mindestens gleich oder gr er als die maximale Ausgangsspannung der Stromversorgung ist 43 TDK Lambda 160V to 650V Models The 160V to 650V models have four terminal wire clamp output connector The two left terminals are positive outputs and the other two right terminals are the negative outputs The connector requirements are as follows 1 Connector type IC 2 5 4 G 5 08 Phoenix 2 Plug type IC 2 5 4 ST 5 08 Phoenix 3 Wires AWG16 to AWG24 4 Tightening torque 4 4 5 3 Lb inch 0 5 0 6Nm Follow the below instructions for connection of the load wires to the power supply 1 Strip approx 10mm at the end of each of the wires 2 Loosen the mating connector terminal screws 3 Insert the stripped wires into the terminal and tighten the terminal screw securely see Fig 3 4 MALE CONNECTOR IC 2 5 4 G 5 08 PHOENIX CONTACT FEMALE PLUG IC 2 5 4 ST 5 08 PHOENIX CONTACT WIRES COPPER AWG
70. 8 Aq Indu pue 6 Aq seseaJ2ep uondo pajos Aq Indu pue 6 0 Aq KUNJ eseaJ2ep 333 ue1 54 51 eqoJd 1 01 painseay iF lx yup peo pue au you op pue xpeqpeai JUL SUOD 941 2 Juan pue Jo 001 0 3e si ajddiy Z lx ebeyoa indui Hulea ay jenbe 2 104 01 01 9606 04014 01 eAnsIsaJ payed YUM BHeIOA INdINO parey JO 01 0 06 JO 9606 0 01 WOAJ 6x pauinbai 51 JUNI 3ndino 6303 Jo 0Z SHUN p ueu aow oj e1ed 104 pauinbai si 3nd3no 6303 JO 966 p dn 104 9 asuas ui 3urod Bulsuas aui paunseayy Indu 3uejsuo peo1 ON peo 3ue1suo DYAGOT OZLL 10 2DeACEL S8 IV 9 I 57 eL 11015 2asuiz Q ULY 5591 3uauno YSN 194114 IWF JON 5 indino payed YUM 5 52 2 2ZH09 0S 001 Se aq o1 s 7 21 931 IN spuepueys Ajajes snou
71. 8 5 1 Input Trigger Trigger source can be set via BUS Command Refer to section 7 11 TRG 712 TRIGger or Front Panel e EXT Rear panel connector J3 8 Refer to section 4 3 2 Input Trigger source setting via Front Panel 1 Press MENU button MENU green LED illuminates 5 EE message appears on the Voltage display Rotate Voltage encoder until Er Press Voltage encoder in E message appears on Voltage display Rotate Voltage encoder until Er in message appears Press Voltage encoder Er in message appears on Voltage Display and EHE or bii5 messages appear on Current ru u NOTE At AC power ON the display shows last selected program list but dosen t load it from memory NOTE If during program selection L1 L4 display shows Err message then program memory is empty or power supply is in initiated state Select ABORt to EXIT from initiate state display Rotate to scroll list and press Current encoder to select 124 message appears on Voltage display TDK Lambda 8 5 2 Output Trigger Rear panel connector J3 3 Refer to section 4 3 2 There are three output trigger modes Programming Mode NONE FIX e OFF No Trigger out e n TRIG mode trigger is generated when output status changes e n Function Strobe mode an output pulse is generated automatically any time an output parameter such as output voltage or current is programmed Programming modes LIST or WAVE
72. Bool gt Boolean Data Example 0 1 or ON OFF 7 10 9 Character Data lt CRD gt Character Response Data Permits the return of character strings 7 10 10 Commands Notes Expressions enclosed square brackets are optional and entered without the or Expressions enclosed in greater than less than lt gt programming values and entered without the lt or gt The expression SP represents a one character ASCII Space In all commands upper case characters can be interchanged with lower case characters 7 11 SCPI Common Commands Common commands begin with an and consist of three letters command or three letters and a query Common commands are defined by the IEEE 488 2 standard to perform some common interface functions CLS Clear Status command Clears the entire status structure NOTE Execution time for this command 150mS Meaning and Type Clear Status Command Syntax CLS Parameters None Query Syntax None 96 ESE TDK Lambda Standard Event Status Enablecommand Modifies the contents ofthe Event Status Enable Register Meaning and Type Event Status Enable Device Status Command Syntax ESE lt NRf gt Parameters Oto 255 Query Syntax ESE Returned Parameters NRI 3digits Bit Position Bit Name Bit Weight 7 6 5 4 PON 0 CME EXE 128 64 32 16 3 2 1 0 DDE QYE 0 OPC 8 4 2 1 CME Command error DDE
73. Die Sicherung darf nur durch qualifizierte technische Fachkr fte ausgetauscht werden Die Sicherungswerte entnehmen Sie der Wartungsanleitung in Kapitel 11 WARNING There is electric shock hazard when the power supply output is adjusted above 60VDC Ensure that thereis no possibility to touch simultaneously one ofthe output pins and earth including the power supply s metal enclosure nor to touch simultaneously one of the output pins and metal parts of any external products supplied by the power supply when the output is adjusted above 60VDC WARNUNG Bei einer eingestellten Ausgangsspannung von ber 60VDC besteht die potentielle Gefahr eines elektrischen Schlages Stellen Sie sicher dass niemals ein Ausgangspol und Erde einschlie lich das Metall Geh use der Stromversorgung gleichzeitig ber hrt werden k nnen Dies gilt in gleicher Weise f r einen Ausgangspol und andere leitfahige Komponenten der angeschlossenen Last wenn die Ausgangsspannung der Stromversorgung auf einen Wert von ber 60VDC eingestellt ist 13 TDKLambda WARNING There is a potential shock hazard when using a power supply with output voltage greater than 60VDC Do not turn ON power supply when output voltage above 60VDC without output plug protection assembled Turn OFF power supply or disconnect power supply from AC mains before making or changing any rear panel connection WARNUNG Bei Einsatz einer Stromversorgung mit einer Ausgangsspannung von ber
74. EM LED illuminates and parameters cannot be changed via the front panel Return to Local mode by pressing the front panel REM Button or via communication command Local Lockout mode When the power supply is in Local Lockout mode REM LED illuminates and parameters cannot be changed via the front panel It is possible to return to Remote mode only with a communication command or by AC power recycle 83 TDKLambda 7 3 Rear Panel RS232 485 Connector The RS232 485 interface is accessible through the Rear panel RS232 485 IN and RS485 OUT connectors The connectors are 8 contact RJ 45 The IN and OUT connectors are used to connect power supplies in a 5232 or RS485 chain to a controller Refer to Fig 7 1 for IN OUT connectors Shield Connector enclosure Fig 7 1 rear panel IN OUT connectors pinout NOTE Tx and Rx are used for RS232 communication Txd and Rxd are used for 5485 communication Refer to RS232 and RS485 cable descriptions for connection details 84 TDK Lambda 7 4 Connectig Power Supply To RS232 Or RS485 BUS Connect rear panel IN connector to the controller R 232 or RS485 port using a suitable shielded cable Refer to Figures 7 2 7 3 and 7 4 for available RS232 and RS485 cables 000000000000 Socket Socket 5 Socket L 2m typ i 8
75. ENU button MENU GREEN LED illuminates SEE message appears on Voltage display 4 Press Voltage encoder 10 message appears on Voltage Display and appears on the Current display 5 Press Voltage encoderto select programming of the Output Voltage or press Current encoder to select programming of the Output Current 6 The selected function appears on the Voltage display Parameter or E UTL or 5 appears on the Current display 7 Rotate and press the Current encoder to select E U DL 10 UBLE message appears on Voltage Display and Curr appears on the Current display 11 Rotate Voltage encoder until ANG appears on Voltage display Press on the Voltage encoder 12 appears on Voltage display and 5 5V I5 10V appears on Current display 13 Rotate and press the Current encoder to select the desired programming Voltage range 14 Press MENU button twice to return display to it s previous state MENU LED turns OFF 15 Connect the programming sources to the mating plug ofthe Isolated Programming connector Observe for correct polarity of the voltage source 16 Set the programming sources to the desired levels and turn the power supply ON NOTE J1 1 and J1 7 must be shorted together with a jumper 10 4 2 Setting Up Power Supply for 4 20mA Isolated Programming and Monitoring The set up procedure of 4 20mA Isolated Programming and Monitoring is the same as sect
76. ES appears on the Current display Rotate and press the Current encoder on to select E r ES message appears on Voltage Display and Lurr appears on the Current display Rotate Current encoder until ANG appears on the display Press on the relevant Encoder rANG appears on Voltage display and 5 5K or IB appears on Current display Rotate and press the Current encoder to select the desired programming Resistance range Press MENU button twice to return display to the previous state MENU LED turns OFF Output Voltage Programming Optional sets Programming Lower limit Resistor Optional sets Upper limit 11 ollo 10 u A Optional sets Upper limit Programming Optional sets Resistor Lower limit Output Current Programming Fig 6 2 J1 Remote Resistor Programming Connection Max output current is limited by front panel current setting 80 TDK Lambda NOTES 1 In Remote analog mode the output voltage cannot be set by the Voltage encoder The output voltage limit is set to 5 over the model rated maximum value The output Current limit is set by the Current encoder to 596 over the model rated maximum value 2 Thepower supply will operate within the extended range however it is not recommended to operate the power supply over its voltage and
77. Equipment PC with Windows Hyper Terminal private edition software installed Z power supply RS232 cable 2 PC set up 2 1 Open Hyper Terminal New Connection 2 2 Enter aname 2 3 Connect Direct to Com1 or Com 2 2 4 Configure port properties Bits per second 9600 Data bits 8 Parity Stop bits 1 Flow control None 2 5 Open Properties in the program File Properties 2 6 Setting ASCII Set Up Select Echo characters locally select send line ends with line feed On some PC systems pressing the number keypad Enter will distort displayed messages Use the alphabetic Enter instead 3 Power supply set up 3 1 Connect the power supply to the PC using the RS232 cable 3 2 Set via the front panel Baud Rate 9600 Address 06 85232 GEN Language 4 Communication test 4 1 Model identification PC write ADR 06 Power supply response OK 4 2 Command test PC write OUT 1 Power supply response OK PC write PV n for n values see Table 7 5 Power supply response OK PC write PC n for n values see Tables 7 6 7 7 and 7 8 Power supply response OK The power supply should turn on and the display will indicate the output voltage and the actual output current 7 10 SCPI Protocol NOTE Selecting the power supply INSTrument NSELect lt address gt is necessary before using any other command 7 10 1 Data Format Se
78. Fax 65 6250 9171 www tdk lambda com sg TDK Lambda Bangalore Office 526 Ground Floor 10th Main 7th Cross Jeevanbhimanagar Bangalore 560 075 Karnataka India Tel 91 80 43550 550 Fax 91 80 43550 501 www tdk lambda com sg MALAYSIA TDK Lambda Malaysia Sdn Bhd c o TDK Malaysia Sdn Bhd Lot 709 Nilai Industrial Estate 71800 Nilai Negeri Sembilan Malaysia Tel 60 6 799 1130 Fax 60 6 799 3277 www tdk lambda com my TDK Lambda www emea tdk lambda com IA779 04 01D
79. ISTOR rECL RECALL Err ERROR rb RESET E UOL EXT VOLTAGE rEu REVISION EHE EXTERNAL 232 5232 FACTORY RESET 485 RS485 FR iL FAIL SRFE SAFE START FOL FOLDBACK SAUE SAVE F PAR FRONT PANEL SCPI SCPI F 5er FUNCTION STROBE 50 SHUT OFF GEN LANGUAGE SEE SET HOL HOLD 5LUE SLAVE HOSE HOST 5LAd SLAVE ADVANCED inFo INFORMATION 5L SLAVE BASIC in iE INITIALIZE SEEP STEP INEF INTERFACE Erb TRIGGER ILC INTERLOCK Er di TRIGGER DELAY iP IP Er in TRIGGER IN LAN Er Du TRIGGER OUT LANG LANGUAGE USb USB LOAd LOAD UVL NEGATIVE UUP UVP uDLE VOLTAGE HES YES OFF OFF TDK Lambda 4 5 Navigating the Main Menu 4 5 1 Introduction The Main Menu consists of three levels Subsystem Function and Parameter To enter the Menu press the Menu button The Menu LED illuminates and the display shows the Subsystem Menu Navigate by rotating the Voltage encoder to scroll through the Subsystem list first level Repeat these actions to navigate the Functions list second level In the third level the Voltage display shows the function and the Current display shows the parameter Scroll the parameter list by rotating the Current encoder and press to select the desired parameter When parameter is accepted the display blinks once and exits to the previous level Press MENU button LED turns ON F P Analog Set Voltage Y Front Panel Ext voltage Resistor_ Curren
80. Meis Je 33SWZ O sse JUUNI YSU 1 IW JON 5 indino payed YUM D SZ EL 2H09 0S 2eA0vZ 001 Se pequosep aq peuinbai s 777239 931 10 snoueA DDUCLUJOJUOD 59522 104 juauno 3ndino payed 2 0 si JUUNI ebeyo 1ndino pa3ei 1 0 WNWIXeW si WNWIUIN Lx SILON 25 TDKLambda uo Jamod OE Je o jueuno jndjno payed jo 1 0 ue yup dn wuem z duuej juejsuo og sJug jueuno payed jo 0 0 Auuigeys 9 dn uuew oe Indno payed I Wdd00L 2yWdd juemyjeoo G s z pks Zka ZHINL ZHS s ur1 eddie Qe Je o jueuno Indno peje jo 20 0 ueu ssa p jeuueuj jueuuno Jo 956070 L L peo xew z jueuuno jndjno payed jo 20 0 9 uoneinBe eur Xew 099 2 06 09 A AGOW LNVLSNOD esu GL GAL oun dn powzi swz uey sse1 PN esues E90 00L OL 3urod es jueuuno Ind no payed jo 9506 0
81. NIT CONT 1 Fig 8 2 Fix Mode Sequence example 121 TDKLambda 8 3 LIST Mode Output change value in step determined by parameters in the LIST subsystem via input trigger Refer to section 7 12 8 ABORt O gt RST O IDLE STATE RCL O INIT IMM v INITIATED STATE ee TRIGGERED EVENT TRIGL IMM v DELAY OUTPUT CHANGE STATE v DWELLING STATE YES in LIST DONE LIST STEP AUTO YES Fig 8 3 Simplified Models of LIST Mode 0 01sec LOL LOL OL oL oL od od Trig Initated INIT IMM WTG Wait Trigger Trigger Event TDC 1 0 025 TRIG DEL 0 02 STS Step Started DWELL i 0 05s i 0 06s 1 003s LIST DWELL 0 05 0 06 0 03 STC Step Complited OPC Operation Complited OUTPUT LIST VOLT 5 10 0 VOLTAGE LIST STEP AUTO Fig 8 4 LIST Mode Sequence example 122 TDK Lambda 8 4 WAVE Mode Output change value in slope determined by parameters in the WAVE subsystem via input trigger Refer to section 7 12 12 ABORt O 9 RST Q gt IDLE STATE gt INITE IMMI INITIATED STATE ea TRIGGERED EVENT TRIGEIMMI DELAY OUTPUT CHANGE STATE 34 SLOPING STATE WAVE STEP AUTO YES Fig 8 5 Simplified Models of Trigger in
82. NT gt gt INT gt o Y 8 Under Voltage Protection UVP gt gt UVP gt GEN lt Command Error Cnn 9 Language select OR Not used gt 0 gt gt 0 gt amp Execution Error Enn 10 Internal Input Overflow gt INPO gt gt INPO gt Internal Overflow gt INTO gt gt INTO gt Internal Time Out gt ITMO gt gt ITMO gt 15 Internal Comm Error gt ICOM gt gt ICOM gt 14 Not used 0 gt gt 0 gt 5 Not used gt 0 gt gt 0 gt MSB STAT QUES ENAB nnnn STAT QUES COND STAT QUES ENAB STAT QUES EVEN FLT FENA nnnn FEVE Service Request Enable Staus byte FENA Busy 5 BSY gt 0 gt lt 0 gt 0 gt System Error Output Queue gt 575 gt _ gt Questionable Summary MIEIS SIAIGIE 7 1 gt QUE gt _ _ gt o Message Available gt MAV gt v gt 1 Standard Event Summary ct gt Standard Event Status Ras ES Ll rn LSB Condition Enable Operation Summar 0 gt OPR gt V gt Operation Complite gt OPC gt V gt 1 STB SRE nn Not Used gt 0 gt 0 gt 2 SRE Query Error gt QYE gt gt 3 Device Depandant Error gt DDE gt gt Y n P Execution Error gt EXE v gt 2 Service Request Command Error gt CME V 6 User Request gt 0 gt 0 gt 7 Power On gt PON _ _ gt MSB ESR ESE nn ESE Operational Condition Status Register LSB Condition Enable Event 0 Constant
83. Nichteinhaltung des Verfahrens kann zu K rperverletzung f hren Ein WARN Hinweis darf nicht ignoriert und alle angef hrten Verfahren m ssen eindeutig verstanden und umgesetzt werden Denotes hazard An attention to a procedure is called Not following the procedure CAUTION correctly could result in damage to the equipment Bezeichnet Gefahren Es wird die Beachtung eines Verfahrens empfohlen Mangelhafte Einhaltung des Verfahrens kann zu Besch digung der Ger te f hren TDK Lambda CHAPTER 1 GENERAL INFORMATION 1 1 User Manual Content This user smanual contains the operating instructions installation instructions and specifications of the Z Series 200W 400W 600W and 800W power supply series The instructions refer to the standard power supplies including the built in USB and RS232 485 serial communication For information related to operation with the optional LAN and IEEE refer to User Manual for power supply LAN and IEEE 1 2 Introduction 1 2 1 General Description 2 Series power supplies wide output range high performance switching power supplies The 2 Series is power factor corrected and operates from worldwide AC voltage range continuously Output voltage and current are continuously displayed and LED indicators show the complete operating status of the power supply The Front Panel controls allow the user to set the output parameters the protection levels Over Voltage protection Under Voltage protection a
84. ORe 3 7 12 9 STATus Subsystem Refer to Fig 9 1 for more details STATus OPERation EVENt This query returns the value of the Event register This is a read only register that receives data from the Condition register according to Enable register setting Reading the Event register clears it SCPI Command Syntax STATus OPERation EVENt GEN Command Syntax SEVE Parameters None Returned Parameters lt NR1 gt Register Value decimal Examples STAT OPER EVEN STATus OPERation CONDition Returns the value ofthe Condition register which is a read only register that holds the real time unlatched operational status of the power supply SCPI Command Syntax STATus OPERation CONDition GEN Command Syntax STAT Parameters None Returned Parameters lt NR1 gt Register Value decimal Examples STAT OPER COND 111 TDK Lambda STATus OPERation ENABle Sets the value of the Enable register This register is a mask for enabling specific bits from the Condition register to the Event register SCPI Command Syntax STATus OPERation ENABle lt NRf gt GEN Command Syntax SENA nnnn SENA Parameters Returned Parameters lt NR1 gt Register Value decimal Default Value 0 Query Syntax STATus OPERation ENABle Examples STAT OPER ENAB 1312 STAT OPER ENAB 1 STATus QUEStionable EVENt This query returns the value of t
85. ORe lt NF1 gt Example WAVE STORe 3 WAVE TIME Sets the slope time of the waveform SCPI Command Syntax SOURce WAVE TIME lt NRf1 gt lt NRf1 gt Range 0 001 to 129 600 seconds Default Suffix S Examples WAVE TIME 6 1 5 1 5 4 up to 12 parameters Query Syntax WAVE TIME Returned Parameters 6 1 5 1 5 4 WAVE VOLTage Specifies the output voltage points in a waveform list SCPI Command Syntax SOURce WAVE VOLTage lt NRf gt lt NRf gt Default Suffix V Examples WAVE VOLT 2 5 3 0 3 5 WAVE VOLT MAX 2 5 MIN up to 12 parameters Query Syntax WAVE VOLT Returned Parameters MAX 2 5 MIN 7 12 13 Global Subsystem Global Commands General e Power supplies acting upon Global Commands need not be a currently addressed supply e All power supplies attached to the Interface must be capable of accepting Global Commands messages OPC or Not Busy will be returned to the HOST PC after a Global Command has been issued The Busy Bit of the Status Byte will be set to 0 after this command is issued It willbe the responsibility of the User Software to add a 20mS delay after each Global Command is issued and before any other command can be issued 116 Global Commands List TDK Lambda Command Name Description SCPI Format GEN Format Supply Enable all Outputs Output On to last V GLOBal OUTPut STATe 1 ON GOUT 1 None amp levels Disable all Outputs Turn outputs Off to GLOBal OUTPut
86. OVP Below Voltage Setting 305 UVL Below Zero Attempt To Set UVL Above Voltage Setting 306 UVL Above PV Attempt To Set UVL Above Voltage Setting 307 On During Fault Attempt To Turn Supply Output ON When A Fault Exists 320 Under Voltage Shutdown Under Voltage Shutdown Occurred 321 AC Fault Shutdown Brown Out Or Phase Loss Shutdown Occurred 322 Over Temperature Shutdown Over Temperature Shutdown Occurred 323 Fold Back Shutdown Fold Back Shutdown Occurred 324 Over Voltage Shutdown Over Voltage Shutdown Occurred 325 Analog Shut Off Shutdown Shut Off Occurred From Rear Panel 326 Output Off Shutdown Output Off Occurred From Front Panel Button 327 Interlock Open Shutdown Interlock Open Occurred From Rear Panel 329 SLAD mode Cannot execute command in Advanced Slave mode 340 Internal Message Fault General Non Specified Internal Message Fault 341 Input Overflow Receive Buffer over 500 chars 342 Internal Overflow Serial Receive Buffer In IEEE Is Full Because Supply Sent Too Many Characters 343 Internal Timeout IEEE Did Not Receive Response From Supply Before Timeout Period 344 Internal Checksum IEEE Received Checksum Error From Supply 399 Unknown Error No Known Error 400 Query Error m Oc Power Supply Used Only When The Other 410 Query INTERRUPTED Generated When A New Command Was Received Before It Could Finish The Query Table 9 6 Error Table 133 TDK Lambda CHAPTE
87. PI Command Syntax DISPlay WINDow STATe bool GEN Command Syntax none Parameters OJOFF 1 ON Examples DISP STAT 1 DISP STAT OFF Query Syntax DISPlay WINDow STAT Returned Parameters DISPlay FLASh Makes front panel voltage and Current displays flash SCPI Command Syntax DISPlay WINDow FLASh bool GEN Command Syntax none Parameters OJOFF 1 ON Examples DISP FLASh 1 DISP FLASh OFF 108 TDK Lambda 7 12 7 INITiate Subsystem INITiate Enables the trigger subsystem If a trigger circuit is not enabled all trigger commands are ignored SCPI Command Syntax INITiate IMMediate GEN Command Syntax None Parameters None Examples INITIMM Query Syntax None INITiate CONTinuous e INIT CONT 0 Enables the trigger subsystem only for a single trigger action The subsystem must be enabled prior to each subsequent trigger action e 1 Trigger system is continuously enabled and INIT is redundant SCPI Command Syntax INITiate CONTinuous bool Parameters OJOFF 1 ON Examples INIT CONT 1 INIT CONT ON Query Syntax INITiate CONTinuous Returned Parameters NOTE When power supply is in INIT CONTON mode it s impossible to change any programming parameter Display shows Err Send ABORt commands to allow parameter change 7 12 8 LIST Subsystem This subsystem receives parameters to create a step waveform of the output voltage or curre
88. Parameter Setting Memory 5 9 1 Default Setting For factory default parameters refer to Table 5 7 1 O9 NJ o Press MENU button MENU green LED illuminates 5 EE message appears on the Voltage display Rotate Voltage encoder until message appears on Voltage display Press Voltage encoder 5 RUE message appears on Voltage Display Rotate Voltage encoder until 5 message appears on Voltage display Press Voltage encoder 75 message appears on Voltage Display and E5 appears on Current display Press the Current encoder 2 Message appears on the display for 1sec The display blinks once and returns to previous level Press MENU button twice to return display to previous state MENU LED turns OFF NOTE No response for FRST command After this command the power supply loses communication because of communication setting change 5 9 2 Reset For Reset parameters refer to Table 5 7 1 Press MENU button MENU green LED illuminates 5 EE message appears on the Voltage display 2 Rotate Voltage encoder until E10 message appears on Voltage display 3 Press Voltage encoder RUE message appears on Voltage Display 4 Rotate Voltage encoder until 5 E message appears on Voltage display 5 Press Voltage encoder 7 5E message appears on Voltage Display E5 appears on the Current display 6 Press the Current encoder display blinks and returns to previous le
89. R 10 ISOLATED ANALOG PROGRAMMING OPTION 10 1 Introduction Isolated Analog Programming is an internal option card for analog programming of the 2 Power Supply series The option is factory installed and cannot be obtained with GPIB IEEE Interface Output Voltage and Current Limit can be programmed and readback through optically isolated signals which are isolated from all other ground references in the power supply There are two types of Isolated Analog programming cards 1 0 5V 0 10V option PN 15510 Using 0 5V or 0 10V signals for programming and readback 2 4 20mA option PN 15420 Using current signals for programming and readback 10 2 Specifications 10 2 1 0 5V 0 10V Option PN IS510 Output voltage programming accuracy 96 1 Output current programming accuracy 96 1 Output voltage programming temperature coefficient PPM C 4 100 nn Output current programming temperature coefficient PPM C 100 Input impedance Ohm 1M Absolute maximum voltage Vdc 0 15 Max voltage between program inputs and supply outputs See Note 1 Vdc 650 Output voltage monitoring accuracy 96 1 5 Monitoring Output current monitoring accuracy 96 1 5 Outputs Output Impedance see Note Ohm 100 Max voltage between monitoring outputs and supply outputs See Note 1 Vdc 650 NOTE Use 100Kohm minimum input impedancefor the monitoring circuits to minimize the readback error 10 2 2 4 20mA O
90. Request Enable command Modifies the contents of the Service Request Enable Register Meaning and Type Service Request Enable Device Interface Command Syntax SRE NRf Parameters 0 to 255 Default Value See PSC Example SRE 20 Query Syntax SRE Returned Parameters lt NR1 gt Register binary value 3digits 99 TDKLambda STB Status Byte query Returns the contents of the Status Byte Register Meaning and Type Status Byte Device Status Query Syntax STB Returned Parameters lt NR1 gt Register binary value Bit Position 7 6 5 4 3 2 1 0 Condition OPER MSS ESB MAV QUES 0 0 0 ROS Bit Weight 128 64 32 16 8 4 2 1 ESB Event status byte summary MAV Message available MSS Master status summary OPER Operation status summary QUES Questionable status summary RQS Request for service Table 7 11 Bit Configuration of Status Byte Register TRG The Trigger command starts the waveform when the trigger source is set to BUS Meaning and Type Trigger Device Trigger Command Syntax TRG Parameters None Query Syntax None ABORt Resets the trigger system and places the power supply in an IDLE state without waiting for the completion of the trigger cycle Command Syntax ABORt Parameters None Example ABOR Query Syntax None 100 TDK Lambda 7 12 SCPI Subsystem Commands Subsystem c
91. STATe O OFF GOUT 0 None zero V amp 1 Program all Voltages Set all power supply GLOBal VOLTage AMPLitude xxxyy GPV xxx yy None output voltage Program all Currents Set all power supply GLOBal CURRent AMPLitude xxx yy GPC xxx yy None output current Save Settings of all Same as SAV n GLOBal SAV lt NR1 gt GSAV n None power supplies Recall Settings of all Same as RCL n GLOBal RCL lt NR1 gt GRCLn None power supplies Reset all supplies Same as RST GLOBal RST GRST None Table 7 12 Global Commands 7 13 Command Summary Common Commands SCPI Command CLS ESE lt NRf gt ESE ESR IDN OPC OPC OPT PSC 1 0 PSC RCL 1 2 3 4 RST SAV 1 2 3 4 SRE lt NRf gt SRE STB TRG Description Clear status Standard event status enable Return standard event status enable Return event status register Return instrument identification string Set operation complete bit in ESR Return a 1 when operation command complete Return option number Power ON status enable 1 disable 0 Power ON status clear Recalls a saved instrument state Reset Saves an instrument state Set service request enable register Return service request enable register Return status byte Trigger 117 GEN Command CLS NC NC NC IDN NC NC NC NC NC RCL RST SAV NC NC NC NC TDKLambda Subsystem
92. Start and Auto Restart Modes 5 2 6 Viewirig SOftwate RevislOD rn Alarms and Protective Functions unsssemseennsennsssennnssennnnssennnssennsssennnssennnnsennnnssennnsnennnnn 5 3 1 Introduction 5 3 2 Over Voltage Protection 5 3 21 Setting the OVP Level 5 3 2 2 Resetting the OVP Circuit titt ttt tests 5 3 3 Under Voltage Protection and Under Voltage Limit 63 5 3 3 1 Setting the UVP UVL Mode and Level u 5 3 3 2 Activated UVP Alarm tette ttt ttt a h zr a 5 3 4 Foldback Protection e 5 3 4 1 Setting the Foldback Protection un 5 3 4 2 Activated FOLD Alarm ettet ttt tette 5 3 5 Protection Delay ia 5 3 5 1 Setting the Protection Delay 5 3 6 Over Temperature Protection EM 54 Series e 65 5 4 1 Series Connection for Increased Output Voltage 65 5 4 2 Series Connection for Positive and Negative Output Voltage 66 5 4 3 Remote Programming in Series Operation 5 5 Parallel Operation esee esent tte tton ttt sis 5 5 MVEA DIOC aate ettet en en Re 5 5 2 Basic Parallel Operation
93. Status Commands 7 9 Serial Communication Test Set Up 7 10 SCPI Protocol 10 1 Data Format Q2 End ot Message ea tid Hon Aen sun 0 3 End of Command OA 0 5 SCPI Requirements 0 6 SCP Command Hierarchy ettet ttt tisse 95 0 7 Header 95 0 8 Data Formats 96 DM DM DM DM DM 109 Gliatacter Data ee ebrei pend qs 96 10 10 Commands Notes en ea ote nee een 96 711 SCPI Commands uneeneennsseennnssennssssennnssennnnsennnnssennnsnnnnnssnnnnsnennnsennnnssennnnnnnnnn 96 712 SCPI Subsystem 101 7121 Output Subsystem 1 7 122 Instrument SubsysteM ete enn 104 7 123 5 neun 104 7124 Current Subsystem 1 712 5 Measure 065 i een 107 7126 DISPlay 108 7 12 7 INITiate Subsystem 109 712 8 Runen 109 712 9 STATUS SUS WSUS PIN nenne anne 111 712 10 SYSTem Subsystem 1 TAZ AU SUB YNE a 14 412 12 WAVE SUDSVSOETI stt a kennen 15 712 13 Global Subsystem 1 7 13 Command 5 uicina matinee 117 CHAPTER 8 ADVANCED FUNCTIONS 8 1 Introduetion ihnen
94. X31OW Nid LOVINOD 0080 6 9 X31OW 31OVv1d3233 9 FC 0C OMV 33IM 0000 6189 1001 QINVH 000 0 0 X31OW Nid LOVINOD BOZL STOEF XFIOW 31OV1d3O3N Y NOIL VOlIO3dS OL SNIO3O2OY 333H NMOHS ONILV3 LAdLAO AWWN T33OW x SYOLDANNOO SIOVINOO 8 5 o NOLWOINNWWOD SEPSY ZEZSIT 01991 soror ei WN 850 X VW 38 ISAW 3NOXOL ONIN3IHOIL o WUO NWHL SYOW ATddNS 33MOd JHL LON ISAW SM33OS F 31ON 9 en e y S yo v 0 4 it v 8 5 VW SW3S 9 1 33S a 25 ANNONO Toren e 318VAOW33 L ALON 33 amp amp Gu CSI VW S3OV ld FINI a a 531 338803 915066531 QI VW S3OV d FW S31OH ONILNNOW 1 NV E 01002 OIFOSPZ 8 O1FOZr SI 3 3OIO3NNOO GSN 3 D WERT Z 31ON 33 S30123NNOO d NOILVOINDWWOO SBPSA ZEZSA g m Z PN 5 amp er 2 5 4 er S SION 335 4 __ 5 1080 059 r P 9 e 30193NNOO SIVNDIS ON SHE 00 SOF00 TA O1F9F O TF O 05 OF OZ LOVINOD 805 ISZ 2I 1 y
95. YST ERR until 0 No error is read or The CLS Clear Status command If any message is in the SYST ERR queue except No error then bit 2 of the Status Byte is set A Service Request is generated if bit 2 is enabled 132 TDK Lambda M Error Description Error Event 0 No Error No Error Reported 100 Command Error Unit Receives Command With Unspecified Error 101 Invalid Character A Character Was Received That Is Not A Z A Z 0 9 7 Period Space CR LF 104 DataType Enor a a MM MM 109 Missing Parameter Valid Command Received But Not Enough Characters 131 Invalid Suffix Unrecognized Units Or Units Not Appropriate 200 Execution Ear an dan syntax error for devices that can not detect 222 Data Out Of Range Attempt To Program Voltage Current Or OVP Beyond Supply Limits 223 Too Much Data Out Of Memory Block String Or Expression Too Long 241 Hardware Missing 284 Program Currently Running Occur when the device was initiated by INIT command 286 Data Load Empty Data doesn t saved in List or Wave cell 350 ues Overtiow aia na ai M oe Are Stored In This Queue And The Newest 301 PV Above OVP Attempt To Program Voltage Above OVP Setting 302 PV Below Attempt To Program Voltage Below UVL Setting 304 OVP Below PV Attempt To Set
96. ZEH 5O1VNV G31V10SI 333l NV1 ASN vr ersnopiezeH Lp 3ndino buneoy 1ndino VCOSSN3 CCOSSN3 199 01 YING L 9c LON3 23l Ze 2W3 snopiezeH uoy NYT q31v 10sI 333l asn vt er snopiezeg A0S95100A5 A091 ayes sspaepueys ejqeoi ddy 1 08609N3 L 0S6097N OF YING 1 0101923l L OLOLONA L OLOLIIN IW3 AL34VS 9 0 Jua qwy 0 dn Jua qwe wnwixey u Sphere 000 1uerquae WOOOE WNWIXeyy pmniv s ou HY S6 OL 96 uonesuapuoo ou HY 06 0 96 Aypiuny Buneiedo I 58 07 E 10 5 Z peol 95001 2 0 0 nyea dw L TVLNAWNOUIANA uey 5597 Sx 2VAO02 00 1u214n2 18 62 18 62 18 62 SLs px WA00Z 00 L 951 Aauap ya peo 001 2 00 1 86 0 lt 001 1 66 0 lt 9 1 103984 OF L V9 C OF 1 97 0E 1 97 S Lx 7x DYA007 00 1u amp un Indu wnwxew Z ZHE9 Zp snonunuo JENSIT S8 Ex bay abeyon 0 069 S9 0 0c 1 091 2 SDILSIH312 VHVHD LAdNI suone yi ods 59195 007 Z 20 TDK Lambda S 3331 6uisn eun3e1eduua Jus qwe Xe Ls 1ndino 17 91 96
97. aharoshet St 56 Industrial Zone P O B 500 Karmiel Israel declare under our sole responsibility that the Z200 series Z400 series Z600 series and Z800 series as detailed on the products covered sheet comply with the provisions of the following European Directive and are eligible to bear the CE mark Restriction Of the use of certain Hazardous Substances Directive 2011 65 EU RoHS2 Low Voltage Directive 2006 95 EC EMC Directive 2004 108 EC Assurance of conformance of described product with the provisions of the stated EC Directive is given through compliance to the following standard Electrical Safety EN 61010 1 2010 3rd Edition Electromagnetic Compatibility EMC EN 61326 1 2006 Our European Representative in the EU is TDK Lambda UK Limited located at Kingsley Avenue Ilfracombe Devon EX34 8ES UK Further all products covered by this declaration are manufactured in accordance with 1509000 2008 which ensure continued compliance of the products with the requirements of the Low Voltage Directive PRODUCTS COVERED SHEET FOR Z200 series Z400 series Z600 series and Z800 series configuration code Zxxx yyy o p with xxx any number between 10 to 650 yyy any number between 0 32 to 72 o blank or any configuration of L L2 IEEE 15420 15510 and or LAN p blank E J or U EN DK TDK Lambda Ltd Haharoshet St 56 Industrial Zone P O B 500 Karmiel Israel This page intentionally left blank Table of Contents
98. aisy chain system to connect 1200 resistive termination at the last unit s RS 485 out connector 1200 0 5W between TXD and TXD 1200 0 5W between RXD and RXD L 0 5m typ 1 Vor 7747 X 8 im 8 PIN CONNECTOR IN 8 PIN CONNECTOR OUT PIN NO NAME PIN NO NAME HOUSING SHIELD HOUSING SHIELD 1 SG 1 SG 6 TXD 6 RXD 3 TXD 3 RXD 5 RXD 5 TXD 4 RXD 4 TXD Fig 7 8 Serial link cable with RJ 45 shielded connectors P N Z RJ45 7 7 GEN Protocol GEN series communication language NOTE The address ADR command must return an OK response before any other commands are accepted 7 7 1 Data Format Serial data format is 8 bit one start bit and one stop bit No parity bit 7 7 2 End of Message The end of message is the Carriage Return character ASCII 13 0x0D The power supply ignores the Line Feed ASCII 10 0x0A character 7 7 3 Command Repeat The backslash character V will cause the last command to be repeated 7 7 4 Checksum The user may optionally add a checksum to the end of the command The checksum is followed by two hex characters If a command or a query has checksum the response will also have one There is no CR between the command string and the sign Example STT 3A STAT 7B 7 7 5 Acknowledge The power supply acknowledges received commands by returning OK message If an error is detected the power supply wil
99. al altitude 3000m above sea level Ambient temperature 0 C 50 C BERSPANNUNGSKATEGORIE UND UMWELTBEDINGUNGEN Die Ger te der Z Serie wurden hinsichtlich der Uberspannungskategorie Il klassifiziert Die Ger te der Z Serie sind zur Benutzung unter folgenden Betriebsbedingungen vorgesehen Benutzung in Innenr umen Verschmutzungsgrad 2 Maximale geografische H he f r den Betrieb 3000 m ber Null Umgebungstemperatur 0 C 50 C GROUNDING Z series units are Class product To minimize electrical shock hazard the Z series units must be connected to an electrical ground The instruments must be connected to the AC power supply mains through a standard certified three wire power cable with the ground wire firmly connected to an electrical ground safety ground at the power outlet Any interruption of the protective ground conductor or disconnection of the protective earth terminal will cause a potential shock hazard that might cause personal injury ERDUNG Gerate der Z Serie sind Produkte der Schutzkklasse 1 Zur Minimierung der Stromschlaggefahr m ssen die Gerate der 2 Serie elektrisch geerdet werden Die Ger te m ssen ber ein genormtes dreiadriges Netzkabel angeschlossen werden Die Erdungsleitung des Netzkabels muss mit dem Erdungskontakt der Steckdose sicher verbunden sein Eine Unterbrechung der Erdungsverbindung der Stromversorgung kann die potentielle Gefahr eines elektrischen Schlags zur Folge hab
100. alog Current Programming mode 14 16384 DWE The list step is active dwelling 15 32768 Reserved Table 9 2 Bit Configuration of Operation 9 4 Conditional Enable and Event Registers 9 4 1 Conditional Registers The condition registers show a snapshot of the power supply state at the present time Some faults or mode changes occur and clear quickly before the control computer can detect them The change may be latched in EVENT REGISTERS so the computer can detect them even if they cleared quickly 9 4 2 Event Registers Bits are sent to the Event register when a fault or mode change occurs The bit remains set until the control computer reads the Event register or clears it The control computer cannot tell if the fault or mode change occurred more than once since the last time the Event register was read 9 4 3 Enable Register The Status and Fault Enable registers are set by the user to enable SROs in the event of changes in power supply status or fault 9 5 Service Request ASRQ will be sent when the contents of at least one of the event registers changes from all zeroes to any bit s set When SRQ occurs power supply sends Inn message nn power supply address 129 TDKLambda 9 6 Standard Event Status Group 9 6 1 Register Functions This group consists of an Event register and an Enable register that are programmed by COMMON commands The Standard Event register latches events relating to interface communication status It
101. and impedance effects of the load wiring refer to 3 9 4 41 TDKLambda 3 9 2 Current Carrying Capacity Two factors must be considered when selecting the wire size 1 Wires should be at least heavy enough not to overheat while carrying the power supply load current at the rated load or the current that would flow in the event the load wires were shorted whichever is greater 2 Wire size should be selected to enable voltage drop per lead to be less than 1 0V at the rated current Although units will compensate higher voltage drop in each load wire refer to the specifications It is recommended to minimize the voltage drop 1V maximum to prevent excessive output power consumption from the power supply and poor dynamic response to load changes Please refer to Tables 3 2 and 3 3 for maximum wire length to limit voltage drop in American and European dimensions respectively Wire size Resistivity Maximum length in feet to limit AWG Ohm 1000ft voltage drop to 1V or less 0 65A 1 3A 2 5A 5A 24 25 670 60 30 15 8 22 16 140 95 48 25 12 20 10 150 150 75 40 20 18 6 385 240 120 60 30 16 4 016 380 190 100 50 Table 3 2 Maximum wire length for 1V drop on lead in feet sect Resistivity Maximum length in meters to limit mm Ohm Km voltage drop to 1V or less 0 65A 1 3A 2 5A 5A 0 25 84 2 18 9 4 2 0 34 52 94 29 14 7 4 0 5 33 29 45 23 12 6 1 20 942 70 35 20 10 15 13 172 115 55 30 15 Table 3 3 Maximum wire length for 1V drop o
102. and the load could make the ripple and noise at the load worse than the noise at the power supply rear panel output Additional filtering with bypass capacitors atthe load terminals may be required to bypass the high frequency load current 3 9 5 Inductive Loads Inductive loads can produce voltage spikes that may be harmful to the power supply A diode should be connected across the output The diode voltage and current rating should be greater than the power supply maximum output voltage and current rating Connect the cathode to the positive output and the anode to the negative output of the power supply Where positive load transients such as back EMF from a motor may occur connect a surge suppressor across the output to protect the power supply The breakdown voltage rating of the suppressor must be approximately 1096 higher than the maximum output voltage of the power supply 3 9 6 Making the Load Connections WARNING There is a potential shock hazard when using a power supply with an output voltage greater than 60VDC To protect personnel against accidental contact with hazardous voltages ensure that the protection of output plug is mounted and properly assembled Ensure that the load and its connections have no accessible live parts Ensure that the load wiring insulation rating is greater than or equal to the maximum output voltage of the power supply WARNUNG Bei Einsatz einer Stromversorgung mit einer Ausgangsspannung von ber
103. ar Clear Table 5 7 Memory parameters 77 TDK Lambda CHAPTER 6 REMOTE ANALOG PROGRAMMING 6 1 Introduction The Rear Panel connector J1 allows the user to program the power supply output voltage and current limit with an analog device J1 also provides monitoring signals for output voltage and output current The programming range and monitoring signals range can be selected between 0 5V or 0 10V using the Front Panel Menu Subsystem Level Subsystem Function a Level Display evel Display ParameterLevel Display Description Voltanelimit Front Panel Digital PRI parameter settings in Analog Ext Voltage Digital control mode Voltage Ext Resist 5 channel SET SEE Cutrentlimit Front Panel Digital F PAN parameter settings in Analog source Lurr Ext Voltage Digital control mode Current Ext Resist Er ES channel Source and Control by external Voltage rang 5 10 V KO range 5 monitor range Resistor Range 5 10 Table 6 1 MENU Analog Programming Setting CAUTION COM J1 7 9 andVPGM_RTN J1 12 terminals of J1 are connected internally to the Sense potential S Do not connect these terminals to any potential other than Sense S as it may damage the power supply 6 2 Local Remote Analog Control Contact J1 1 Fig 4 3 item 1 accepts TTL signal or Open Short contact Referenced to J1 7 9 to select between Local o
104. ax None Default Suffix V Examples VOLT TRIG 1200 MV VOLT LEV TRIG 1 2 Query Syntax SOURce VOLTage LEVel TRIGger AMPLitude el fhe OLE the deal 7 12 4 Current Subsystem This subsystem programs the output current of the power supply CURRent Sets the output current value in Amperes The range of current values are described in Tables 7 6 7 7 and 7 8 The maximum number of characters is 12 SCPI Command Syntax SOURce CURRent LEVel IMMediate AMPLitude lt NRf gt GEN Command Syntax PC lt NRf gt PC Default Suffix A RST Value 0 Examples CURR 500 MA CURR LEV 5 ER SOURce CURRent LEVel IMMediate AMPLitude gt SOURce CURRent MAX SOURcel CURRent MIN lt NR3 gt CURR returns the present programmed current level Returned Parameters CURR MAX and CURR MIN returns the maximum and minimum programmable current levels 106 TDK Lambda CURRent MODE This command selects FIX LIST WAVE subsystems control over the power supply output current SCPI Command Syntax SOURce CURRent MODE lt CRD gt GEN Command Syntax None Parameters NONE FIXed LIST WAVE RST Value NONE Examples CURR MODE LIST CURR MODE FIX Query Syntax SOURce CURRent MODE Returned Parameters NONE FIX LIST WAVE CURRent TRIGger Programs the pending triggered current level of the power supply The pending triggered current level is a stored value that
105. bled and the output voltage and current are zero To enable the output momentarily press OUTPUT button 5 2 6 Viewing Software Revision Via the Front Panel Menu it is possible view installed software revision 1 Press MENU button MENU GREEN LED illuminates 5 EE message appears on the Voltage display 2 Rotate Voltage encoder until Fo message appears on Voltage Display 3 Press Voltage encoder The c E message appears on the display and the installed software revision number appears on the Current display 61 TDKLambda 5 3 Alarms and Protective Functions 5 3 1 Introduction There are several conditions that cause alarm RED LED blinks All alarms affect the output When an alarm occurs the respective fault will appear on the display and the alarm LED illuminates It is possible that more than one fault alarm may be triggered but only the first will be shown on the display If the second fault is still active when the first fault is removed then the second fault will be displayed The following protective functions are incorporated in the power supply e OVP Over Voltage Protection e UVP Under Voltage Protection ILC Interlock e FOLD Fold Back Constant Current or Constant Voltage ACFAIL AC Power shut down e OTP Over Temperature Protection 5 3 2 Over Voltage Protection The OVP circuit protects the load in the event of a remote or local programming error or a power supply failure The p
106. bling and connections voltage drop Press MENU button Rotate Voltage encoder until Prii appears on Voltage display then press Voltage encoder Rotate Current encoder until SL appears Press Current encoder to select 5 Display blinks once and returns to previous display For wiring instructions refer to Fig 5 4 Parallel connection with local sensing or Fig 5 5 Parallel connection with remote sensing Ure uae 5 5 2 3 Setting Over Voltage Protection The master unit OVP should be programmed to the desired OVP level In slave mode the power supply is set to maximum as default 5 5 2 4 Setting Foldback Protection Foldback protection if desired may only be used with the master unit When the master unit shuts down it programs the slave units to zero output voltage 5 5 2 5 Connection to Load In parallel operation power supplies can be connected in local or remote sensing Refer to Fig 5 4 and 5 5 for typical connections of parallel power supplies The figures show connection of two units however the same connection method applies for up to 6 units S 45 As short as possible MASTER POWER SUPPLY J1 9 31 11 SLAVE 1 POWER SUPPLY 4s 41 2 LOC REM IPGM COM IPGM RTN J1 1 J1 7 J1 5 J1 9 J1 11 SLAVE N POWER SUPPLY S LS Fig 5 4 Parallel connection with local sensing 68 TDK Lambda MASTER POWER SUPPLY SLAVE 1 POWER SUPPLY Twisted pa
107. current rating and performanceis not guaranteed 3 Communication In Remote analog mode power supply parameters can be programmed and read back via the Communication port except output voltage and current settings 4 Tomaintain the temperature stability specification of the power supply the resistors used for programming should be stable and low noise resistors with a temperature coefficient of less than 50ppm 5 Radiated emissions FCC requirements FCC requirements for radiated emissions use a shielded cable for the analog control signals In cases using a non shielded cable attach an EMI ferrite suppressor to the cable as close as possible to the power supply 6 Front panel PREV button Use PREV button to display the output voltage and current settings defined by the Encoders or Communication 6 6 Programming Monitoring of Output Voltage V MON and Current 1 MON The J1 connector located on the rear panel provides analog signals for monitoring the output voltage and output current Selection of the voltage range between 0 5V or 0 10V is made via Front Panel The monitoring signals represent 0 to 100 of the power supply output voltage and output current The monitor outputs have 500 ohm series output resistance Ensure that the sensing circuit has an input resistance of greater than 500 Kohm or accuracy will be reduced Range selection as follows 1 2 Press MENU button MENU GREEN LED ill
108. d When in Local mode returns the PREVIEW front panel settings in a 5 digit string MC Reads the actual output current Returns 5 digit string See Note 2 Example 2 6A supply sends 2 6000 1 3000 0 6400 etc Display Voltage and Current data Data will be returned as a string of ASCII characters A comma will separate the different fields DVC The fields in order are Measured Voltage Programmed Voltage Measured Current Programmed Current Over Voltage Set point and Under Voltage Set Point Example 5 9999 6 0000 010 02 010 00 7 500 0 000 89 TDKLambda Command Description Turns the output to ON or OFF Recover from Safe Start OVP or FLD fault OUT 1 or OUT OUTn ON Turn On OUT Returns the output On Off status string ON outputon OFF output off Sets the Foldback protection to ON or OFF FLD 1 or FOLD ON Arms the Foldback protection FLDn FLD 0 or FOLD OFF Cancels the Foldback protection When the Foldback protection has been activated OUT 1 command will release the protection and re arm it while FLD 0 will cancel the protection FLD Returns the Foldback protection status string ON Foldback is armed OFF Foldback is canceled Add nn x 0 1 seconds to the Fold Back Delay This delay is in addition to the standard delay FBD nn The range of nn is 0 to 255 The value is stored in eprom at AC power and recovered at AC power up FBD Supply returns the
109. d connection while the AC cord is plugged into an appropriate AC 38 TDK Lambda 3 7 2 AC Input Cord Refer to section 1 3 4 for details of the AC input cords recommended WARNING The AC input cord plug is the disconnect device of the power supply The plug must be readily identifiable and accessible to the user The AC input cord must be no longer than 3m WARNUNG Die Stromversorgung wird durch Ziehen des Netzkabels vom Versorgungsnetz getrennt Der Stecker muss fur den Benutzer leicht erkennbar und jederzeit zuganglich sein Das Netzkabel darf nicht langer als drei Meter sein 3 8 Turn On Checkout Procedure 3 8 1 General The following procedure ensures that the power supply is operational and may be used as a basic incoming inspection check 3 8 2 Prior to Operation 1 oO Ensure that the power supply is configured to the default setting AC On Off switch at Off position Sense connector Configured to Local Sense as shown in Fig 3 3 sense Local Sense Not Connected Local 4 sense sense Plug P N 43645 0500 MOLEX Fig 3 3 Sense connector default connection Ensure that the protection of output plug is mounted and properly assembled Connect the unit to an AC source as described in section 3 7 Connect a DVM with appropriate cables for the rated voltage to the output terminals Turn the front panel AC power switch to On When power supply is turned ON th
110. d corresponding error message in the power supply error queue Works as FIFO When no error exists 0 No error is returned SCPI Command Syntax SYSTem ERRor GEN Command Syntax None Parameters None Returned Parameters lt NR1 gt lt CRD gt Example SYST ERR SYSTem LANGuage SCPI Command Syntax SYSTem LANGuage GEN GEN Command Syntax None Query Syntax SYSTem LANGuage Returned Parameters SCPI SYSTem REMote Sets the power supply to local or remote mode SCPI Command Syntax SYSTem REMote STAte lt CRD gt GEN Command Syntax RMT Parameters LOC OJREM 1 LLO 2 RST Value LOC Example SYST REM REM Query Syntax SYST REM Returned Parameters LOC REM LLO SYSTem VERSion SCPI Command Syntax SYSTem VERSion GEN Command Syntax REV Returned Parameters Rev lt CRD gt Example Rev 1 010 113 TDKLambda SYSTem DATE SCPI Command Syntax SYSTem DATE GEN Command Syntax DATE Query Syntax SYSTem DATE Returned Parameters lt CRD gt yyyy mm dd SYSTem PON TIME Time measured from first power On SCPI Command Syntax SYSTem PON TIME Parameters Minute Example 6534 Returned Parameters NRI 7 12 11 TRIGger Subsystem NOTE The Trigger subsystem must be enabled from the Initiate subsystem or no triggering action will occur TRIGger When the Trigger subsystem is enabled TRIG generates an immed
111. d from a nominal 100V to 240V single phase 47 63Hz The input voltage range and current required for each model is specified in Chapter 2 Ensure that under heavy load the AC voltage supplied to the power supply does not fall below the specifications described in Chapter 2 Netzstromanforderungen Die Ger te der Z Serie k nnen aus einem einphasigen Netzstromanschluss mit nominell 100 240 V und 47 63 Hz versorgt werden Der f r jedes Modell erforderliche Bereich von Eingangsspannung und Stromst rke ist in Kapitel 2 angef hrt Es ist sicherzustellen dass der dem Netzger t zugef hrte Netzstrom bei hoher Belastung nicht unter die in Kapitel 2 angef hrten Werte f llt 3 7 AC Input Power Connection WARNING Some components inside the power supply are at AC voltage even when the On Off switch is in the Off position To avoid electric shock hazard disconnect the line cord and load and wait two minutes before removing cover WARNUNG Einzelne Komponenten im Netzteil stehen auch dann unter Spannung wenn sich der Ein Aus Schalter in der Aus Position befindet Um die Gefahr eines elektrischen Schlages zu vermeiden mussen vor Offnen des Gerates die Netzzuleitung und die Last getrennt werden Warten Sie dann zwei Minuten bevor Sie das Gehause abnehmen 3 7 1 AC Input Connector An IEC connector is provided on the rear panel for connecting the unit to the AC power source with an AC cord The IEC connector also provides the safety groun
112. d meter faces are not scratched or cracked Keep all packing material until the inspection has been completed If damage is detected file a claim with carrier immediately and notify the TDK Lambda sales or service facility nearest you 3 4 Rack Mounting The 2 power supply series is designed to fit in a standard 19 2U height rack Six units 70mm width can be assembled into 19 2U rack Refer to Fig 3 1 Four units 105mm width can be assembled into 19 2U rack Refer to Fig 3 2 Fig 3 1 37 TDKLambda 3 5 Location Mounting and Cooling This power supply is fan cooled The air intake is at the front panel and the exhaust is at the rear panel Upon installation allow cooling airto reach the front panel ventilation inlets Allow minimum 10cm 4 of unrestricted air space at the front and the rear of the unit The power supply should be used in an area that the ambient temperature does not exceed 50 C Standort Montage und K hlung Dieses Netzger t ist gebl segek hlt mit vorderseitiger Luftaufnahme und r ckseitigem Luftaussto Bei Installation ist darauf zu achten dass die vorderseitigen Gebl se ffnungen ungehindert Luft aufnehmen k nnen Dazu muss vor und hinter dem Ger t ein Abstand von mindestens 10 cm zum n chsten Hindernis eingehalten werden Das Netzger t darf nur in einem Bereich benutzt werden in dem die Umgebungstemperatur 50 C nicht bersteigt 3 6 AC Source Requirements The 2 series can be operate
113. d the power supply output shuts down The Voltage and Current display shows UHF FR ii and the PROT red LED blinks 5 3 4 Foldback Protection Foldback protection will shut down the power supply output if power supply operation mode crosses over from CC to CV or from CV to CC according to selected operation mode There are three states of foldback protection OFF default CV CC For CC to CV protection mode setting should be CV For CV to CC protection mode setting should be CC 63 TDKLambda 5 3 4 1 Setting the Foldback Protection The Foldback can be set when the power supply output is Enabled On or Disabled Off 1 Press PROT button PROT GREEN LED illuminates The DUP message appears on the Voltage display 2 Rotate Voltage encoder until FULd message appears on Voltage display 3 Press Voltage encoder 8 message appears on Voltage Display and on Current display shows DIFF or CC or CU setting mode 4 Rotate the Current encoder to adjust required mode and press to select Display returns to the previous level 5 Press PROT button to return display to its previous state PROT LED turns OFF 5 3 4 2 Activated FOLD Alarm When the Foldbackis activated the power supply output shuts off The Voltage and Current display shows F Ld FR the PROT red LED blinks 5 3 5 Protection Delay A delay can be set from between the time when fault is detected and the output is disabled It relates o
114. de gt Series Programmable DC Power Supplies 200W 400W 600W 800W in 2U Built in USB RS 232 amp RS 485 Interface Optional Interface LAN IEEE488 2 SCPI GPIB Multi Drop Isolated Analog Programming TDK Lambda Series Programmable DC Power Supplies 200W 400W 600W 800W Built in USB RS 232 amp RS 485 Interface USER MANUAL This Manual Covers Models Z160 1 3 Z320 0 65 Z650 0 32 Z160 2 6 Z320 1 3 Z650 0 64 Z160 4 Z320 2 Z650 1 Z160 5 Z320 2 5 Z650 1 25 2375 2 2 IA779 04 01D 512npoJg uoneuuoJu 31004329 3 UI Se uejsqns snopJezeH 104 SUWIT uonenus2uo JO SJUaWaIINDaY 9002 295 L S aui 10 aAnoedsai e snoaus owoy e ui pepnpur e ueisqns snopJezeu 10 21X0 Jo JEU 9 X 512npoud uoneuuoJu 3Iu0J129 3 U Se uejsqns 104 7 10 9002 59811 L fS Aq S ILUI uone1ue uoo BY JOU pue syed sjellayew snoauabowoy ui se ue1sqns snopiezeu pue JO BY JEU se3e ipu aui SALOSSIIIY 2 1euu syed K quuesse 5 824 jaued nsel d as
115. die Last angeschlossen wird zeigt ALC an Ausgangsspannung liegt kurzfristig an schaltet aber Werden die Sense Anschl sse Pr fen ob die Lastleitungen 3 9 6 sofort wieder ab Das Display benutzt ordnungsgem angeschlossen sind 3 9 8 zeigt DUP an Ausgangsspannung kannnicht Arbeitet das Ger t im Strombegrenzungseinstellungen und 5 2 1 eingestellt werden Konstantstrom Modus Laststrom pr fen 5 2 2 CC LED am Frontpanel leuchtet i Ausgangsspannung kann Pr fen ebd Einstellung f r OVP oder UVL so einstellen dass keine die Ausgangsspannung ber 7 5 32 nicht eingestellt werden CV Einschr nkung im gew nschten Bereich der OVP oder unter der UVL 5 3 3 LED am Frontpanel leuchtet erfolgt Einstellung liegt Ausgang Sram ann nicht Arbeitet das Ger t im Strombegrenzung und ingestel werben Konstantspannungs Modus Spannungseinstellungen pr fen Frontpanel leuchtet P 3 i 3 gen p Werden die Sense Anschl sse Last und Senseleitungen auf gute Die Ausgangsspannung hat eine 3 9 4 benutzt Ist der Spannungsfall Verbindung pr fen Spannungsfall an den hohe Restwelligkeit i p 3 9 8 ber die Lastleitungen sehr hoch Lastleitungen verringern Ger t mit dem Netzschalter abschalten Lastverbindungen pr fen Falls analoge Keine Ausgangsspannung Am Der berspannungsschutzist Programmierung verwendet wird ist zu 532 Display wird angezeigt akti
116. dino payed 50 0 IENE JO 965070 xoeqpeei jno g uonniosei yoegpea noA 7 Ao amp unooe xoeqpeai 9 foeJnooe yoeqpeal noA G e eos JO 962 LO O 25 IIN Jo 952 LO O jueuno 1ndino paes Jo 2 0 1ndino payed 955070 enpe 60 0 uonnjoseJ 1nopt uonnjosaJ 1noA L Aoeunooe 1no z Koeinooe 1noA 91 3331 jeuondo ASN sev zezss SNIWIAV39OMd 1euez 1 2 q payunys ywooL 1ueuno yu s 10709109 uedo euis peuiueJDoJg gt 1euez AZZ Aq payunys 1ueuno yu s 1043909 uedo sn WNWIUIW sng 2A 19881 eAnisod ywgp jueuno WNWXEW Ag Ndu aaa wnwxeyy eBejoA jene Az ndu jene WNWIxeyy 1 peuitueJBoJq Z 9r jes dA sngzzes nd yuig jueuno eounos AG 1ndino uBiu wnwxeyy Ag 1ndino jana Ag o 1ndino AOE 12907 40 ejouies xew jue uno yWOL A9 0 0 UO 1euez Age Aq pejunus 10439109 uedo 12907 uedo 10 2 Moys 10 Ag 0 0 0us uedo 10 jeu is Ag
117. e ML O ML O 4915 19933 99 s Auaydig uiniuo445 Ausyd q PD pee1 953 1 1 pue 21X0 Jo By L Z 008Z 10619 12npoJg By L Z 0097 12npoJg BY6 L 00vZ 12npoJg 1 0027 Y3MOd 0082 0097 0072 007Z 9195 7 Jo Ajayesedas auop aq pjnoys uoneuuojur 13 9 1109 24172911A TSHOY seuinbut 13 59 1 LOZ ZSHOY NF Woy uonejs 6a UDIP e si 5 3 uoneuuoju 310043129 3 q pesne uonnj og 104 spou1ey 24145 ijgnday 5 SY 5 uoneuuoju 21004329 3 q pesne JO 104 9002 795 1 1 5 uoneuuoju 231004129 3 q pasne Burpo1u0 104 eulu S lqnday uo peseq sem 19945 uoneuuojJur siu se ueisqns snopJeZeH pue 21x0 Jo uoneuuoJu TDK Lambda DECLARATION OF CONFORMITY Z series We TDK Lambda Ltd located at H
118. e application of AC power There are two methodsto configure multiple supplies for parallel operation basic and advanced Refer to Section 5 5 2 and to Section 5 5 3 for detailed explanation Parallel modes are selected via Front Panel menu Refer to table 5 2 Subsystem Level Function Level Parameter Level Description Display Function Display Description Display Single power supply Hi HOSE T Host Basic Slave Master Hg HB Parallel Operating Mode PrLL Advanced Slave 5 Slave Basic 5L Slave Advanced 5L Rd Table 5 2 Parallel subsystem menu Display Operating Mode Single unit default Master unit with 1 Slave unit H3 Master unit with 2 Slave units H4 Master unit with 3 Slave units HS Master unit with 4 Slave units HB Master unit with 5 Slave units 5L Slave unit Basic mode 5L Rid Slave unit Advanced mode Table 5 2 1 Operation Setting Mode 5 5 2 Basic Parallel Operation In this method setting the units as Master and Slaves is made by the rear panel J1 connections and setup via Front Panel Each unit displays its own output current and voltage To program the load current the Master unit should be programmed to the total load current divided by the number of units in the system The master and slave units operate in a Daisy Chain connection configuration For further details about Daisy chain connection refer to section 5 6 Refer to the
119. e display shows 8888 and all LEDs illuminate momentarily The power supply operating status is then displayed 39 TDKLambda 3 8 3 Constant Voltage Check 1 2 Turn on the output by pressing OUTPUT button so the OUTPUT LED illuminates Observe the power supply Voltage display and rotate the Voltage encoder Ensure that the output voltage varies while the Voltage encoder is rotated The minimum control range is from zero to the maximum rated output for the power supply model Compare the DVM reading with the front panel Voltage display to verify the accuracy of the Voltage display Ensure that the front panel CV LED illuminates Turn off the front panel AC power switch 3 8 4 Constant Current Check Ensure that the front panel AC power switch is at Off position and the DVM connected to the output terminals shows zero voltage 1 Connect DC shunt across the output terminals Ensure that the shunt and the wires current ratings are higher than the power supply rating Connect a DVM to the shunt 2 Turn the front panel AC power switch to On position 3 Turn on the output by pressing OUTPUT button so the OUTPUT LED illuminates 4 Observe the power supply Current display and rotate the Current encoder Ensure that the output current varies while the Current encoder is rotated The minimum control range is from zero to the maximum rated output for the power supply model Compare the DVM reading with the front panel Current display
120. e under voltage protection UVP status of the power supply If the UVP status selected then the under voltage protection is enabled SCPI Command Syntax SOURce VOLTage PROTection LOW STATe lt CRD gt GEN Command Syntax lt NRf gt UVP lt NRf gt Parameters UVL UVP RST Value UVL Examples VOLT PROT LOW STAT UVP Query Syntax SOURce VOLTage PROTection LOW STATe Returned Parameters UVP UVL 10 m TDK Lambda VOLTage PROTection LOW Sets the under voltage protection UVP level of the power supply SCPI Command Syntax SOURce VOLTage PROTection LOW lt NRf gt GEN Command Syntax UVL lt NRf gt UVP lt NRf gt Default Suffix V RST Value 0 Examples VOLT PROT LOW 2 5 VOLT PROT LOW SOURce VOLTage PROTection LOW LEVel VOLT PROT LOW MIN VOLT PROT LOW MAX lt NR3 gt VOLT PROT LOW returns presently programmed UVP level Returned Parameters VOLT PROT LOW MAX and VOLT PROT LOW MIN returns the maximum and minimum programmable UVP levels Query Syntax NOTE VOLT PROT LOW MAX set UVP level maximum 5 below voltage value VOLTage TRIGger Programs the pending triggered voltage level of the power supply The pending triggered voltage level is a stored value that is transferred to the output terminals when a trigger occurs SCPI Command Syntax SOURce VOLTage LEVel TRIGger AMPLitude lt NRf gt GEN Command Synt
121. eA 59522 104 4 payed 2 0 si 3uauno ebeyjoA 3ndino pae 1 0 si WNWIUIW 1 SILON 21 TDK Lambda paupie uou 10 Pay gt e 2 1950 uoN gt 3 01d 1340 9 uone iunuiuioo q 10 31g V N3 1 Aq 10 INd LNO Aq 10 3403501ne 324281 Indu Dy Aq Jasay ejqe1esaud 195 5206 1nd1no Alddns samod uaym uMop inus 3nding uon2e1oJd jepun 1ndino 5 peupie uou 10 12 48s uon2eiold 9 uone iunuiuioo q 10 31g V N3 1 q 10 INd LNO Aq 10 1403501ne 1 Indu Dy Aq Jasay aiqeiasaid 195 5906 1nd1no Alddns uaym uwop inus IndInO uon2e1oJd jepun 5 Bulwweiboid Bojeue ul Jaye JOU seoq INO Bunsn pe 5 3108 Jo jaued JU Aq 195924 IAN nu jepun yndyno 411 5 ESE S 9L1 5 N abey
122. ec appears on the Current display Rotate the Current encoder to adjust the setting level PS OK delay range is from 0 to 9999mSec Press Current encoder to select desired level Press MENU button twice to return display to it s previous state MENU LED turns OFF naupwn 5 8 Rear Panel J1 Connector Functions 5 8 1 CV CC Signal The CV CC signal indicates the operating mode ofthe power supply Constant Voltage or Constant Current CV CC signal is an open collector output with a 30V parallel zener at J1 8 referenced to the COM at J1 7 connected internally to the negative sense potential When the power supply operates in Constant Voltage mode CV CC output is open When the power supply operates in Constant Current mode CV CC signal output is low 0 0 6 with maximum 10mA sink current CAUTION Do not connect CV CC signal to a voltage source higher than 30VDC Always connect CV CC signal to the voltage source with a series resistor to limit the sink current to less than 10mA 74 5 9 Parameter Setting Memory Power Supply has four memory configuration modes TDK Lambda Subsystem Function Parameter m Level Display level Display level Display Description SAVE 5RUE 1 4 59 Save setting non violate memory Bra RECALL rECL 1 4 Recall setting violate memory Memory RST r5E YES SES Reset setting FRST F c5E YES 5 Set factory default setting Table 5 6
123. egulation is less critical Load lines twisted pair shortest length possible Rem sense Local sense Local sense Rem sense Fig 3 6 Single load connection local sensing 3 9 8 Connecting Single Loads Remote Sensing Fig 3 7 shows recommended remote sensing connection for single loads Remote sensing is used when in Constant Voltage mode the load regulation is important at the load terminals Use twisted or shielded wires to minimize noise pick up If shielded wires are used the shield should be connected to the ground at one point either at the power supply chassis or the load ground The optimal point for the shield ground should be determined by experimentation Load lines Twisted pair shortest length possible Sense lines Twisted pair or shielded Rem sense Local sense Local sense Rem sense Fig 3 7 Remote sensing single load 45 TDKLambda 3 9 9 Connecting Multiple Loads Radial Distribution Method Fig 3 8 shows multiple loads connected to one supply Each load should be connected to the power supply s output terminals using separate pairs of wires It is recommended that each pair of wires will be as shortas possible and twisted or shielded to minimize noise pick up and radiation The sense wires should be connected to the power supply output terminals or to the load with the most critical load regulation requirement Load lines twisted pair shortest length possible Rem sense
124. en LIVE CIRCUITS Operating personnel must not remove the Z series unit cover No internal adjustment or component replacement is allowed by non TDK Lambda qualified service personnel Never replace components with power cable connected To avoid injuries always disconnect power discharge circuits and remove external voltage sources before touching components SPANNUNGSF HRENDE Teile Das Geh use der Z Ger te darf von Anwendern nicht ge ffnet werden Modifikationen sowie der Austausch von Bauteilen ist ausschlie lich qualifizierten Mitarbeitern der TDK Lambda erlaubt UmVerletzungen zu vermeiden sind vor Arbeiten im Ger t alle Anschl sse zu trennen Kapazit ten zu entladen und Fremdspannungsquellen zu entfernen TDK Lambda PARTS SUBSTITUTIONS amp MODIFICATIONS Parts substitutions and modifications are by authorized TDK Lambda service personnel only For repairs or modifications the instrument must be returned to TDK Lambda service facility AUSWECHSELN UND VER NDERUNG VON BAUTEILEN Das Auswechseln sowie die Ver nderung von Teilen darf nur von autorisierten TDK Lambda Servicemitarbeitern durchgefuhrt werden Fur Reparaturen oder Ver nderungen muss das Gerat an den TDK Lambda Kundendienst zur ckgeschickt werden AC INPUT Do not connect Z series unit to mains supply exceeding the input voltage and frequency rating The input voltage and frequency rating is 100 240V 50 60Hz For safety reasons the mains supp
125. en Schlags Stellen Sie sicher dass die Anschlusse an der Last abgedeckt sind um versehentlichen Kontakt mit gefahrlicher Spannung zu vermeiden WARNING Do not operatethe Power Supply with remote sense wire connected to the load without connecting load wire to the output plug Make sure that the connection is reliable to avoid disconnection during operation Disconection may cause damage to the power supply Betreiben Sie die Stromversorgung niemals mit angeschlossenen Sense Leitungen ohne gleichzeitig auch die Lastleitungen zum Ausgangsstecker verbunden zu haben Befestigen Sie die Anschl sse sorgf ltig um Unterbrechungen im laufenden Betrieb zu verhindern Unterbrechungen k nnen zu einem Defekt der Stromversorgung f hren 48 TDK Lambda CAUTION When using shielded sense wires ground the shield in one place only The location can bethe power supply chassis or one ofthe output terminals Use remote sense where the load regulation at the load end is critical In remote sense the power supply will compensate for voltage drop on the load wires Refer to the specifications for the maximum voltage drop on load wires The voltage drop is subtracted from the total voltage available at the output Follow the instructions below to configure the power supply for remote sensing 1 Ensure that the AC On Off is in the Off position 2 Remove the local sense jumpers from J2 3 Connect the negative sense lead to terminal J2 1 S and the
126. encoder to trigger 8 7 Additional Examples 8 7 1 List Example TRIG SOUR BUS Select trigger source external analog signal VOLT MODE LIST Select sequence mode LIST LIST VOLT 2 4 2 8 5 4 Set voltage values 2 4 2 8 5 4 5 m LIST DWEL 0 5 0 5 1 1 1 1 Set dwell values 0 5 0 5 1 1 1 1 seconds LIST COUN 1 Set list execution time 1 i LIST STEP AUTO Set step execution mode AUTO INIT CONT OFF Trigger subsystem enabled for a single 5 trigger action INIT Trigger initializing TRG Trigger command 8 7 2 Waveform Example TRIG SOUR BUS Select trigger source via communication interface or front panel VOLT MODE WAVE Select sequence mode WAVE WAVE VOLT 2 2 4 4 9 9 3 3 Set voltage values 2 2 4 4 9 9 3 3 Volts a WAVETIME 0 1 0 5 0 5 0 5 0 5 1 5 1 Set values 0 1 0 5 0 5 0 5 0 5 1 5 1 seconds i d WAVE COUN 2 Set wave execution time 2 di WAVE STEP AUTO Set step execution mode AUTO INIT CONT ON Trigger system is continuously enabled ____ ___ meg 5 0507 INIT Trigger initializing TRG Trigger command NOTE For an easy way to create arbitrary waveforms you can use the Z Waveform Creator Application that can be installed from the CD ROM shipped with the product for further information see the Quick Start Guide on the CD ROM 126 TDK Lambda CHAPTER 9 STATUS FAULT AND SRQ REGISTERS 9 1 General This section describes
127. es no parts replacement information is provided in the manual In case of failure unusual or erratic operation of the unit contact the TDK Lambda sales or service facility nearest you Please refer to the TDK Lambda sales offices address listings on the back cover of this user manual 11 6 Troubleshooting Ifthe power supply appears to be operating improperly use the troubleshooting guide to determine whether the power supply load or external control circuits are the cause Configure the power supply for basic front panel operation and perform the tests listed in Section 3 8 to determine whether the problem can be found with the power supply Table 11 1 provides the basic checks that can be performed to diagnose problems and references to relevant sections of this manual for further information 137 TDKLambda SYMPTOM CHECK ACTION REF Is the AC power cord defective 3 7 No output All displays and It necessary indicators are blank Isthe AC input voltage Check input AC voltage 3 6 within range Connect to appropriate voltage source 3 7 Output is present momentarily but shuts off quickly The display Does the source voltage sag Check input AC voltage 36 em pem when load is applied Connect to appropriate voltage source indicates RC Outputs momentarily Is the power supply configured Check if the positive or negative load wire 3 9 6 but sh
128. ess Voltage encoder ELL message appears on Current display Press Current encoder Numbers 1 5 appear on Current display Rotate the Current encoder to select required number value and then press the Current encoder Display blinks and returns to previous level 76 TDK Lambda Parameter Factory Default Resetting Last setting Save amp Recall Output Status OFF OFF 4 4 Voltage Set point oV oV 4 Current Set point MAX 0A 4 4 Fold Back mode OFF OFF 4 4 Over Voltage Protection MAX MAX 4 OVP Under Voltage Level OFF UVL OFF UVL 4 Protection mode Under Voltage Level ov oV 4 Protection level Auto Start Mode SAFE SAFE 4 Control pin 1 1 1 4 Control pin 2 1 1 4 Input Trigger Source EXT EXT Protection Delay OmS 5 4 Voltage Programming Digital Mode Current Programming Digital Programming and Monitor 5 Range Current Share Mode Master H1 Master Slave Interlock Inhibit OFF disabled OFF disabled Shutdown Logic 1 positive Remote mode LOC LOC Communication Mode RS232 Address 6 Baud Rate 9600 z Language SCPI Lock unlock front panel Unlock LIST and WAVE subsystems OFF OFF Program Step AUTO AUTO COUNT 1 Trigger Out OFF OFF PS_OK delay 05 05 Enable registers Clear Clear Event registers Cle
129. estart mode to ON or OFF AST 1 or AST ON Auto restart on AST 0 or AST OFF Auto restart off Returns the string auto restart mode status Saves present settings to specified location in memory n 1 4 Recalls saved settings from specefied location in memory n 1 4 Returns the power supply operation mode When the power supply is On OUT 1 it will return CV or CC When the power supply is OFF OUT 0 it will return OFF Sets the Master Slave parallel operation mode of the power supply n H1 H6 Master n SL ES Basic Mode Slave n ADSL Advanced Mode Slave Refer to tables 5 2 5 2 1 PMS Returns the Master Slave setting Master H1 H6 Slave Basic mode S Slave Advanced mode AD NOTES 1 In Advanced Parallel mode Refer to Sec 5 5 3 n is the total system current 2 In Advanced Parallel mode MC returns the Master unit current multiplied by the number of Slave units P UVL will return C01 if UVP is activated and vice versa 4 No command execution in Advance slave mode 90 TDK Lambda 7 8 6 Global Output Commands General Globalcommands can be received by allpower supplies connected to the BUS without individual address commands All power supplies will execute the command immediately There is no acknowledgment back to the PC when using global commands A delay must be set of 20msec after each global command Error messages are not reported back t
130. ets the power supply to Local mode 2 RMT 1 or RMT REM sets the unit to remote mode 3 RMT 2 or RMT LLO sets the unit to Local Lockout mode latched remote mode RMT Returns the Remote mode setting 1 LOC The unit is in Local mode 2 The unit is in Remote mode 3 LLO The unit is in Local Lockout latched remote mode Repeat last command If CR is received the power supply will repeat the last command 7 8 5 Output Commands Command Description PVn Sets the output voltage value in Volts The range of voltage value is described in Table 7 5 The maximum number of characters is 12 See the following examples for PV n format PV 12 PV 012 PV 12 0 PV 012 00 etc pv Reads the output voltage setting Returns the string n where n is the exact string sent in the PV n command When in Local mode returns the PREVIEW front panel settings in a 5 digit string MV PCn See Note 1 Reads the actual output voltage Return 5 digit string Example 650VDC supply sends 650 05 015 08 001 00 etc Sets the output current value in Amperes The range of current values are described in Tables 7 6 7 7 and 7 8 The maximum number of characters is 12 See the following examples for PC n format PC 10 PC 10 0 PC 010 00 etc nu ane Reads the output current setting Returns the string n where n is the exact string sent in PC the PC n comman
131. function and the Current display shows the parameter Scroll the parameter list by rotating the Current encoder Selection of a numerical parameteris automatic and the Encoder cannot be pressed Press only to select Foldback parameter When parameter is accepted the display blinks once and exits to the previous level Function level Parameter level Rotate Voltage Encoder Press Voltage Current Encoder Press PROT button LED turns ON Rotate Current Encoder Press Current Encoder Protect Delay 0 01 25 5sec Fig 4 7 Protection Menu Navigation 4 7 2 Exiting the Protection Menu There are three ways exit the menu 1 Press PROT button twice PROT LED turns OFF Display shows present status of power supply 2 Pressand hold PROT button 3 sec PROT LED turns OFF Display shows present status of power supply 3 No action for 15 sec PROT LED turns OFF Display shows present status of power supply 59 TDKLambda CHAPTER 5 LOCAL OPERATION 5 1 Introduction This Chapter describes the operating modes that do not require programming and monitoring the power supply via its communication interface USB or RS232 RS485 or by remote analog signals Ensure that the REM LED on the front panel is Off indicating Local mode If the REM LED is On press the front panel REM button to change the operating mode to local For information regarding remote analog programming refer to Chapter 6 For information regarding usage of the ser
132. he Event register It is a read only register that receives data from the Condition register according to Enable register setting Reading the Event register clears it SCPI Command Syntax STATus QUEStionable EVENt GEN Command Syntax FLT Parameters None Returned Parameters NRI Register Value decimal Examples STAT QUES EVEN STATus QUEStionable CONDition Returns the value of the Condition register which is a read only register that holds the real time unlatched operational status of the power supply SCPI Command Syntax STATus QUEStionable CONDition GEN Command Syntax FEVE Parameters None Returned Parameters lt NR1 gt Register Value decimal Examples STAT QUES COND STATus QUEStionable ENABle Sets the value of the Enable register This register is a mask for enabling specific bits from the Condition register to the Event register SCPI Command Syntax STATus QUEStionable ENABle NRf GEN Command Syntax FENA nnnn Parameters 0 to 32727 Returned Parameters lt NR1 gt Register Value decimal Default Value 0 Query Syntax STATus QUEStionabl ENABle Examples STAT QUES ENAB 18 112 TDK Lambda 7 12 10 SYSTem Subsystem SYSTem ERRor ENABle Enables Error messages SCPI Command Syntax SYSTem ERRor ENABle GEN Command Syntax None Parameters None Returned Parameters None SYSTem ERRor Returnsthe nexterror number an
133. he analog programming circuits of this power supply are referenced to the negative Sense potential Therefore the circuits used to control each series connected unit must be separated and floated from each other Refer to section 6 4 The Shut Off and PS OK circuits are referenced to the isolated interface common COM J3 7 The COM terminals of the units can be connected to obtain a single control circuit for the power supplies connected in series Programming by external resistor is possible Refer to section 6 5 for details The Communication port is referenced to the IFC COM which is isolated from the power supply output potential Therefore power supplies connected in series can be chained using the Remote In and Remote Out connectors Refer to Chapter 7 for details TDK Lambda 5 5 Parallel Operation 5 5 1 Introduction Up to six units of the same Voltage and Current rating can be connected in parallel to provide up to six times the output current capability One of the units operates as a master and the remaining units are slaves The slave units are analog programmed by the master unit In remote digital operation only the master unit can be programmed by the computer while the slave units may be connected to the computer for voltage current and status readback only The Master and Slave modes are stored in the power supply EEPROM when the AC poweris turned off The system will return to the Master Slave mode upon r
134. hen PROT LED turns OFF Adjust the output voltage toward it s minimum and check that the output voltage cannot be decreased below the UVL setting Adjust the UVL limit to the minimum 40 TDK Lambda 3 8 7 Foldback Check WARNING There is a potential shock hazard when checking a power supply with output voltage greater than 60VDC Observe proper safety procedures during the checking WARNUNG Beim Einsatz eines Netzteils mit einer Nenn Ausgangsspannung von mehr als 60VDC besteht Stromschlaggefahr Beachten Sie bei der Uberprufung die entsprechenden Sicherheitsvorkehrungen Refer to Section 5 3 4 for explanation of the FOLD function prior to performing the procedure below Ne Ensure that the output voltage is set to approx 10 of the unit rating Adjust the Current encoder to set the current limit to approx 1096 of the unit rating Set Foldback to CC MODE Short the output terminals momentarily approx 0 5 sec Ensure that the output voltage falls to zero the Voltage display shows 2 Current display shows FR iL and the PROT red LED blinks Set Foldback to OFF The output voltage remains zero Press OUTPUT button Ensure that the output voltage returns to it s last setting Turn the output off by pressing OUTPUT button Ensure that the Voltage display shows 3 9 Connecting the Load Turn off the AC input power before making or changing any rear panel connection Ensure that all co
135. i LL Juan 3nd3no payed Jo 9606 01 eDueu e 10 3nd1no payed S S O 1ndino Joy t sc t 5 01 esuodsai OL 051 051 001 sw 6x peol IIn4 051 051 08 sw 64 0 aw esuodsay BoJd dn 6 N 8 uo JaMOd OE 1340 abeyon INNO jo 50 0 UU 5597 dn uueM 7 3 peoj 3ue1suo dn wuem oe Burwoj oj JeAJ91UI 5149 4810 INOA p21 JO 96200 Ayyiqeys a nyessdwa 9 dn wuem seinuiui 5 WddO D Wdd 3 09 SC OL Aw tls ZHWL ZHS sw addiy 057 OSL 001 AU 71x ZHWOZ d d asiou pue ajddly 1ndino payed jo 10 0 Zx peo xew Z 1ndino payed jo 10 0 9x uonejnbai eur xew L 1790 059 EL OTE 9 c 09l Z AGOW JDVLIOA LNVLSNOD 9lr Oly 9lr M Jamod e 79 0 EL 9c V Zx JUAN 1ndino payey c 059 091 A 1 1ndino payey 79 0 059 EL OZE IT 091 Z 7T300W suone ii eds Salas 001 2 22 TDK Lambda 91225 Jo 967 LO O uonnjosa1p eqpeai 1no g 9 e s IN Jo 967 100 xpeqpesi INOA Z JUUNI 3ndino payed 0 eni e Jo 96 L O E Lx K
136. ial communication port refer to Chapter 7 5 2 Standard Operation The power supply has two basic operating modes Constant Voltage mode and Constant Current mode The mode in which the power supply operates at any given time depends on the output voltage setting output current limit setting and the load resistance 5 2 1 Constant Voltage Mode and Voltage Setting 1 In constant voltage mode the power supply regulates the output voltage at the selected value while the load current varies as required by the load 2 While the power supply operates in constant voltage mode the CV LED on the front panel illuminates 3 Adjustment of the output voltage can be made when the power supply output is enabled Output On or disabled Output Off When the output is enabled simply rotate the Voltage encoder knob to program the output voltage When the output is disabled press the PREV button and then rotate the Voltage encoder to required value The Voltage display will show the programmed output voltage for 5 seconds Then GFF will appear on the Voltage display 4 Resolution can be set to Coarse or Fine adjustment Press FINE button to select between the lower and higher resolution The FINE LED illuminates when the resolution is set to Fine NOTE If after completing the adjustment the display shows a different value than the setting the power supply may be at current limit Check the load condition and the power supply current limit setti
137. iate trigger signal that bypasses selected TRIG DEL SCPI Command Syntax TRIGger STARt IMMediate GEN Command Syntax None Parameters None TRIGgger DELay Sets the time delay between the detection of an event on the specified trigger source and the start of any corresponding trigger action on the power supply output SCPI Command Syntax TRIGger STARt DELay lt NRf gt GEN Command Syntax None Default Suffix S RST Value 0 Examples TRIG DEL 25 TRIG DEL MAX Query Syntax TRIGger STARt DELay Returned Parameters NR3 114 TRIGger SOURce TDK Lambda Selects the power supply input trigger source as follows e BUS TRG amp TRIG and Front Panel e EXT Mainframe backplane Trigger IN PIN SCPI Command Syntax TRIGger STARt SOURce lt CRD gt GEN Command Syntax None Parameters BUS EXTernal RST Value EXTernal Examples TRIG SOUR BUS Query Syntax TRIGger STARt SOURce Returned Parameters BUS EXT 7 12 12 WAVE Subsystem This subsystem receives parameters to create a sloped waveform of the output voltage or current WAVE COUNt Sets the number of times that the list is executed before it is completed The command accepts parameters in the range 1 through 9999 Any number greater than 9999 is interpreted as INFinity Use INF if you wish to execute a list indefinitely SCPI Command Syntax SOURce WAVE COUNt lt NRf gt
138. ice Kibbutz Givat Hashlosha Tel Aviv 4880000 Israel Tel 972 3 9024 333 Fax 972 3 9024 777 Plant 56 Haharoshet St Karmiel Industrial Zone 2165158 Israel Tel 972 4 9887 491 Fax 972 4 9583 071 www tdk lambda co il E mail info tdk lambda co il Innovating Reliable Power TDK Lambda JAPAN TDK Lambda Corporation International Sales Divison Nittetsu Bldg 6F 1 13 1 Nihonbashi Chuo ku Tokyo 103 0027 Japan Tel 81 3 5201 7175 Fax 81 3 5201 7287 www tdk lambda com CHINA Shanghai Branch of Wuxi TDK Lambda Electronic Co Ltd 28F Xingyuan Technology Building No 418 Guiping Road Shanghai China 200233 Tel 86 21 6485 0777 Fax 86 21 6485 0666 www cn tdk lambda com Beijing Branch of Wuxi TDK Lambda Electronic Co Ltd Room 12B11 12B12 Unit 7 DACHENG SQUARE No 28 Xuanwumenxi Street Xuanwu District Beijing 100053 CHINA Tel 86 10 6310 4872 Fax 86 10 6310 4874 www cn tdk lambda com Shenzhen Branch of Wuxi TDK Lambda Electronics Co Ltd Room 4302 Excellence Times Square Building 4068 Yi Tian Road Futian District Shenzhen China 518048 Tel 86 755 83588261 Fax 86 755 83588260 www cn tdk lambda com TDK Lambda Corporation Seoul Office 8F Songnam Bldg 1358 6 Seocho Dong Seocho Gu Seoul 137 862 KOREA Tel 82 2 3473 7051 Fax 82 2 3472 9137 www tdk lambda co kr TDK Lambda Singapore Pte Ltd 1008 Toa Payoh North 07 01 03 Singapore 318996 Tel 65 6251 7211
139. ion 10 4 1 except r ANG setting setting must be set to IB 10V CAUTION To prevent damage to the unit do not program the output voltage and current to higher than the power supply rating 136 TDK Lambda CHAPTER 11 MAINTENANCE 11 1 Introduction This chapter provides information about maintenance calibration and troubleshooting 11 2 Units Under Warranty Units requiring repair during the warranty period should be returned to aTDK Lambda authorized service facility Refer to the address listings on the back cover ofthis manual Unauthorized repairs performed by other than the authorized service facilities may void the warranty 11 3 Periodic Maintenance No routine maintenance of the power supply is required except for periodic cleaning To clean disconnect the unit from the AC supply and allow 30sec for discharging internal voltage The front panel and the metal surfaces should be cleaned using a mild solution of detergent and water The solution should be applied onto a soft cloth and not directly to the surface of the unit Do not use aromatic hydrocarbons or chlorinated solvents for cleaning Use low pressure compressed air to blow dust from the unit 11 4 Adjustments and Calibration No internal adjustment or calibration is required There is NO REASON to open the power supply cover 11 5 Parts Replacement and Repairs As repairs are made only by the manufacturer or by authorized service faciliti
140. ion standard The register can be read either by a serial poll or by STB Both methods return the same data except for bit 6 Sending STB return MSS in bit 6 while polling returns ROS in bit 6 The CLS command will clear the Status Byte Bit Signal Meaning 0 BSY Busy bit 1 0 Not used 2 SYS System Error 3 QUES Questionable Status summary bit 4 MAV Message Available summary bit 5 ESB Event Status summary bit 6 MSS Master Status summary bit ROS Request Service bit 7 OPER Operation Status summary bit Table 9 4 Status Byte Register Error Information Available This bitis set when any error is entered in the System Error queue It is read using the SYSTem ERRor Query Message Available Indicates a message is available in the GPIB output queue This bit is cleared then the GPIB output buffer is read Standard Event Status Register This is a summary bit for the ESR It is set when any of the ESR bits are set and cleared when the ESR is read The RQS Bit Whenever the power supply requests service it sets the SRQ interrupt line true and latches ROS into bit 6 of the Status Byte register When the controller services the interrupt ROS is cleared inside the register and returned in bit position 6 of the response The remaining bits of the Status Byte register are not disturbed The MSS Bit This is a real time unlatched summary of all Status Byte register bits that are enabled by the Service Request Enable register MSS i
141. ir Jiz J SLAVE N POWER SUPPLY Fig 5 5 Parallel operation with remote sensing CAUTION Make sure that the connection between Vo terminals is reliable to avoid disconnection during operation Disconnection may cause damage to the power supply NOTE With local sensing it is important to minimize the wire length and resistance Also the positive and negative wire resistance should be as close as possible to each other to achieve current balance between power supplies 69 TDKLambda 5 5 3 Advanced Parallel Operation In Advanced Parallel operation the master unit displays the total current of all units connected in Parallel The slave units display SLUE The master and slave units operate in a Daisy Chain connection configuration For further details about Daisy chain connection refer to section 5 6 In the Advanced Parallel mode the total current is programmed and reported by the master unit The Current display accuracy is 2 1 count In cases where higher accuracy is required it is recommended to use Basic Parallel operation mode 5 5 3 1 Master Unit Set Up During operation the master unit operates in CV mode regulating the load voltage at the programmed output voltage Connect the sensing circuit to local or remote sensing as shown in Fig 5 4 or Fig 5 5 1 Press MENU button 2 Rotate Voltage encoder until appears on Voltage display then press Voltage encoder 3
142. ithin TDK Lambda shall not be liable for user s failure to comply with these requirements VORSICHT Diefolgenden Sicherheitsvorschriften m ssen vor Inbetriebnahme und in jedem Betriebszustand bei Service oder Reparatur beachtet werden Missachtung der Sicherheitsvorschriften und Warnhinweise aus diesem Handbuch f hren zur Verletzung der bestehenden Sicherheitsstandards Bei Betrieb des Ger tes au erhalb des bestimmungsgem en Einsatzes k nnen die im Ger t integrierten Schutzfunktionen beeintr chtigt werden TDK Lambda ist nicht haftbar f r Sch den die durch Missachtung dieser Sicherheitsvorschriften entstehen k nnen 11 TDK Lambda CAUTION 2 series units are not authorized for use as critical component in nuclear control systems life support systems or equipment for use in hazardous environments without the express written approval of the managing director of TDK Lambda VORSICHT Die Ger te der Z Serie sind ohne ausdr ckliche schriftliche Genehmigung des Gesch ftsf hrers von TDK Lambda nicht f r die Benutzung als kritische Komponente in nuklearen Steuerungssystemen lebenserhaltenden Systemen oder Ger ten f r den Einsatz in gef hrlichen Umgebungen zugelassen OVERVOLTAGE CATEGORY AND ENVIRONMENTAL CONDITIONS The Z series units have been evaluated to Overvoltage category Il The Z series units are intended for use in the following operation conditions Indoor use Pollution degree 2 Max operation
143. iziert sein die hoher als die maximale Ausgangsspannung der Stromversorgung ist Stellen Sie sicher dass die Anschlusse an der Last abgedeckt sind um versehentlichen Kontakt mit gefahrlichen Spannungen zu verhindern 47 TDKLambda 3 10 2 Local Sensing The power supply is shipped with the rear panel J2 sense connector wired for local sensing of the output voltage Refer to Table 3 4 for J2 terminals assignment With local sensing the output voltage regulation is made at the output terminals This method does not compensate for voltage drop on the load wires therefore it is recommended only for low load current applications or where the load regulation is less critical Fig 3 10 Sense connector location Terminal Function J2 1 Remote negative sense S J2 2 Local negative sense Connected internally to the negative output terminal LS 0275 Not Connected J2 4 Local positive sense Connected internally to the positive output terminal 15 J2 5 Remote positive sense 5 Table 3 4 J2 terminals 3 10 3 Remote Sensing WARNING There is a potential shock hazard at the sense point when using power supply with an output voltage greater than 60VDC Ensure that the connections at the load end are shielded to prevent accidental contact with hazardous voltages WARNUNG Bei Einsatz einer Stromversorgung mit einer Ausgangsspannung von uber 60VDC besteht am lastseitigen Sense Punkt die potentielle Gefahr eines elektrisch
144. jje ed 6 1515 1 SOLDS WYOOOS Ie A0 1O AS t jeu s Alddns samog 8 1 1 e qe12ejes AOL 0 10 AS O Jonuow 1ndino L Keny e qe129 es JASN AOL 0 40 AS O Ely 3ndino 9 3160 2 JASN 32e3u02 10 AS L v A9 0 0 SDeyoA 12219 Ag 10430 OS JO 1145 S JO 956 1 ueeaut pue Kendy e qe129jes 1 SN JLIS N WYOYOL S O 001 0 1 10451531 INO y jo L 3ueeur pue Keny JASN LIS N WYOYOL S 0 001 0 10151531 NOA E jnoJ payed jo 4 pue Hendy ejqei2e es AOL 0 10 AS O 001 0 Elx Buruuieiboud INOA jo 0 Kesu pue Keny qes JASN ADL O 10 AS O 9001 0 INOA DNIYOLINOW DNINWVYYDOUd DOTVNV 19 TDKLambda 17 7 89009931 01 Bulpioaay pexpedun s SWLL SUIS jeu 5oz ueu 5591 ous s 79 7 89009931 01 Buipyo oy p buweip euigno sejpueu seq snq OSE A SOL M 8 H ww 3GIM QXHXM suoisuauiq E buiweip Jajay 5 s
145. l return an error message The rules for checksum also apply to the acknowledge feature 7 7 6 Backspace The backspace character ASCII 8 clears the last character sent to the power supply 7 7 7 Error Messages The power supply will return error messages for illegal commands and illegal programming parameters Refer to Table 7 3 for programming error messages and Table 7 4 for command error messages 87 TDKLambda Error Code Description E01 Returned when program voltage PV is programmed above acceptable range Example PV above 95 of OVP setting E02 Returned when programming output voltage below UVL setting E04 Returned when OVP is programmed below acceptable range Example OVP value is less than 105 of voltage setting E06 Returned when UVL value is programmed above the programmed output voltage E07 Returned when programming the Output to ON during a latched fault shut down E08 Cannot execute command via Advanced Slave Parallel mode Table 7 3 Programming error messages Error Code Description C01 Illegal command or query C02 Missing parameter C03 Illegal parameter C04 Checksum error C05 Setting out of range Table 7 4 Commands error messages 7 8 GEN Command Set Description 7 8 1 General guides 1 Any command or argument may be in capital letters or small letters 2 In commands with an argument a space must appear between the command and the argument 3 Forany command that sets a numeric value the value may be up
146. le without damage It is recommended that diodes be connected in parallel with each unit output to prevent reverse voltage during start up sequence or in case one of the units shuts down Each diode should be rated to at least the power supply rated output voltage and output current Refer to Fig 5 1 and Fig 5 2 for series operation with local and remote sensing s 45 H L 5 5 POWER SUPPLY POWER SUPPLY 15 POWER Diodes are POWER SUPPLY user supplied SUPPLY LS Fig 5 1 Series connection local sensing Fig 5 2 Series connection remote sensing 65 TDKLambda 5 4 2 Series Connection for Positive and Negative Output Voltage In this mode two units are configured as positive and negative output Setthe current limit of each power supply to the maximum that the load can handle without damage It is recommended that diodes be connected in parallel with each unit output to prevent reverse voltage during start up or in case one of the units shuts down Each diode should be rated to at least the power supply rated output voltage and output current Refer to Fig 5 3 for this operating mode 4LS 5 POWER SUPPLY Fig 5 3 Series connection for positive negative output voltages 5 4 3 Remote Programming in Series Operation Programming by external voltage Using the SO function and PS OK signal Programming by external resistor Programming via the Serial Communication port RS232 RS485 USB T
147. ly after the condition is removed 5 3 7 AC Fail Alarm The AC Fail alarm indicates whether the AC input has been discounted or shut down When any of these faults occur the display shows FA it Output power is disabled and the PROT LED blinks e Safe start mode The power supply returns to after the AC power returns e Auto restart mode The power supply recovers to it s last setting automatically when AC power returns 64 TDK Lambda 5 4 Series Operation Power supplies ofthe same model can be connected in series to obtain increased output voltage Split connection of the power supplies gives positive and negative output voltage WARNING When power supplies are connected in series and the load or one of the output terminals is grounded no point may be at a greater potential of 650VDC from ground When using RS232 485 LAN or IEEE refer to the OUTPUT TERMINALS GROUNDING warning section 3 9 11 WARNUNG Bei Reihenschaltung mehrerer Ger te und Verbindung der Last bzw eines Ausgangspoles mit System Masse sollte kein Potential gr er 650VDC zwischen Ausgang und System Masse anliegen Bei Verwendung der RS232 485 LAN oder der IEEE Schnittstelle beachten Sie bitte die Warnhinweise im Abschnitt 3 9 11 5 4 1 Series Connection for Increased Output Voltage Two units are connected so that their outputs are summed Set the current limit of each power supply to the maximum that the load can hand
148. ly voltage fluctuations should not exceed 10 of nominal voltage Netzeingang Gerate der Z Serie nicht an einen Netzanschluss anschliesen dessen Eingangsspannung und Frequenz ber die Ger tespezifikation hinausgehen Eingangsspannung und Frequenz betragen 100 240 V 50 60 Hz F r sicheren Betrieb des Ger tes ist eine Abweichung von maximal 10 96 von der Nominalspannung erlaubt ENERGY HAZARD The main output of Z series units is capable of providing hazardous energy Due to hazardous energy level the output and connections therefore must not be user accessible Manufacturer s final equipment must provide protection to service personnel against inadvertent contact with output connector GEF HRLICHE ENERGIEINHALTE Der Ausgang der Z Ger te k nnte gef hrliche Energieinhalte bereitstellen Aufgrund des gef hrlichen Energiepotentials d rfen der Ausgang und Verbindungsleitungen f r Endanwender nicht ber hrbar sein In der Endanlage muss sichergestellt sein dass Servicepersonal nicht versehentlich mit dem Ausgangsstecker in Ber hrung kommt FUSE Internal fuse is sized for fault protection and if a fuse was opened it would indicate that service is required Fuse replacement should be made by qualified technical personnel Refer to maintenance instructions in Chapter 11 for fuse ratings SICHERUNG Die interne Sicherung trennt das Ger t im Fehlerfall von der Netzspannung Hat die Sicherung ausgel st ist das Ger t defekt
149. n lead in meters For currents not shown in Table 3 2 and 3 3 use the formula Maximum length 1000 current x resistivity Where current is expressed in amperes and resistivity in ohms km or ohms 1000ft 42 TDK Lambda 3 9 3 Wire Termination The wires should be properly terminated with terminals securely attached DO NOT use non terminated wires for load connection at the power supply CAUTION When local sensing a short from LS or 5 to V S LS will cause damage to the power supply Reversing the sense wires might cause damage to the power supply in local and remote sensing Do not connect S to V or 5 to V 3 9 4 Noise and Impedance Effects To minimize the noise pickup or radiation the load wires and remote sense wires should be twisted pairs to the shortest possible length Shielding of sense leads may be necessary in high noise environments Where shielding is used connect the shield to the chassis via a rear panel Ground screw Even if noise is not a concern the load and remote sense wires should be twisted pairs to reduce coupling which might impact the stability of power supply The sense leads should be separated from the power leads Twisting the load wires reduces the parasitic inductance of the cable which could produce high frequency voltage spikes at the load and the output of power supply because of current variation in the load itself The impedance introduced between the power supply output
150. nd Foldback and preview the settings The rear panel includes the necessary connectors to control and monitor the power supply operation by remote analog signals or by the built in serial communication USB and RS232 485 LAN IEEE and Isolated Analog programming monitoring are optional 1 2 2 Models Covered by this Manual Model Voltage range V Current range A Z160 1 3 0 160 0 1 3 Z160 2 6 0 160 0 2 6 Z160 4 0 160 0 4 Z160 5 0 160 0 5 Z320 0 65 0 320 0 0 65 Z320 1 3 0 320 0 1 3 Z320 2 0 320 0 2 Z320 2 5 0 320 0 2 5 2375 2 2 0 375 0 2 2 2650 0 32 0 650 0 0 32 2650 0 64 0 650 0 0 64 2650 1 0 650 0 1 2650 1 25 0 650 0 1 25 1 2 3 Features and Options e Constant Voltage Constant Current with automatic crossover Active Power Factor correction e Universal Input Voltage 85 265Vac continuous operation e Embedded Microprocessor Controller Built in USB amp RS232 485 Interface e Voltage amp Current high resolution adjustment by digital Encoders e High resolution 16 bit ADCs amp DACs e Software Calibration no internal trimmers potentiometers e Last Setting Memory e Independent Remote ON OFF Opto Isolated and Remote Enable Disable e Parallel operation Master Slave with Active current sharing e Remote sensing to compensate for voltage drop of power leads e External Analog Programming and Monitoring 0 5V or 0 10V user selectable e Cooling fan speed control for low noise and extended fan life e
151. nector communication bus RJ 45 type connector use for connecting power supplies to RS232 or RS485 port of computer for remote control purposes When using several Remote Serial In 7 power supplies in a power system the first unit Remote In is connected 17 3 connector ub to the computer and the remaining units are chained Remote In to Remote Out 8 USB Connector USB interface connector type B 9 LAN Connector LAN interface connector type RJ 45 optional 10 Ground screw for chassis Ground connection 11 Optional Interface Position for GPIB Interface shown or Isolated Analog Interface 15510 15420 Table 4 2 Rear panels connections 52 TDK Lambda WARNING Terminals 7 9 and 12 of J1 are connected internally to the negative sense S potential of the power supply Do not attempt to bias any ofthese terminals relative to the negative sense Use the Isolated Programming interface option to allow control from a programming source at a different potential relative to the power supply negative WARNUNG Die Kontakte 7 9 und 12 am J1 liegen intern auf dem negativ Sense 5 Potential der Stromversorgung Versuchen Sie nicht einen dieser Kontakte mit einer Spannung bezogen auf negativ Sense zu nutzen Verwenden Sie die optionale galvanisch getrennte Programmierschnittstelle um die Stromversorgung mit einer Signalquelle mit abweichendem Bezugspotential gegenuber minus Ausgang der Stromversorgung zu steue
152. ng NOTE The maximum and minimum setting values of the output voltage are limited by the Over Voltage protection and Under Voltage limit setting Refer to sections 5 3 2 and 5 3 3 for more details 5 2 2 Constant Current Mode and Current Setting 1 Inconstant current mode the power supply regulates the output current atthe selected value while the voltage varies with the load requirement 2 While the power supply is operating in Constant Current mode the CC LED illuminates 3 Adjustment of the output current can be made when the power supply output is enabled Output On or disabled Output Off When the output is enabled simply rotate the Current encoder knob to program the output current When the output is disabled press the PREV button and then rotate the Current encoder to required value The Current display will show the programmed output current for 5 seconds Then will appear on the Voltage display 4 Resolution can be set to Coarse or Fine adjustment Press the FINE button to select between the Coarse and Fine adjustment The FINE LED illuminates when the resolution is set to Fine 60 TDK Lambda 5 2 3 Automatic Crossover When the power supply operates in Constant Voltage mode while the load current is increased to greater than the current limit setting the power supply will automatically switch to Constant Current mode Ifthe load is decreased to less than the current limit setting the power supply will aut
153. nly in cases of UVP and Foldback protection NOTE UVP protection delay 500ms delay setting 5 3 5 1 Setting the Protection Delay 1 Press PROT button PROT GREEN LED illuminates The HUP message appears on the Voltage display 2 Rotate Voltage encoder until Pr di message appears on Voltage display and then press the Encoder 3 The Pr di message appears on the Voltage Display The Current display shows the value in seconds 4 Rotate the Current encoder to adjust the delay Protection delay setting range is 0 25 5sec Press Current encoder to select Display blinks once and exists to the previous level 6 Press PROT button once to return display to the previous state and PROT LED turns off E 5 3 6 Over Temperature Protection The OTP circuit shuts down the power supply before the internal components can exceed their safe internal operating temperature When an OTP shutdown occurs the display shows FR it and the PROT LED blinks Resetting the OTP circuit can be automatic non latched or manual latched depending on if he power supply is in Safe or Automatic restart mode e Safe start mode The power supply stays off after the OTP condition has been removed The display continue to shows HEP FR it and the PROT LED continues to blink To reset the circuit press OUTPUT button or send Output Enable command e Auto restart mode The power supply recovers to it s last setting automatical
154. nnections are securely tightened before applying power There is a potential shock hazard when using a power supply with a rated output greater than 60VDC WARNING There is a potential shock hazard when using a power supply with a rated output voltage greater than 60VDC Turn off the AC input power before making or changing any rear panel connection Ensure that the protection of output plug is mounted and properly assembled for power supplies when output voltage exceed 60VDC Ensure that all connections are securely tightened before applying power WARNUNG Bei Einsatz einer Stromversorgung mit einer Ausgangsspannung von ber 60 VDC besteht eine potentielle Gesundheitsgefahr durch elektrischen Schlag Schalten Sie die AC Eingangsspannung immer AUS bevor Sie Anschl sse an der Ger ter ckseite vornehmen oder ver ndern Stellen Sie sicher dass die Schutzabdeckung des Ausgangssteckers bestimmungsgem montiert ist wenn Ausgangsspannungen gr fier 60 VDC auftreten k nnen Stellen Sie sicher dass alle Verbindungen sicher und fest angeschlossen sind bevor Sie das Ger t in Betrieb nehmen 3 9 1 Load Wiring The following considerations should be made to select wiring for connecting the load to the power supply Current carrying capacity of the wire refer to 3 9 2 Insulation rating of the wire should be at least equivalent to the maximum output voltage of the power supply Maximum wire length and voltage drop refer to 3 9 2 Noise
155. nq OSE OZ M 8 H ww QuvaNvLs 9 id 73331 10 sod 10 Bojeue yum Apog api uey 5527 AdO8 3GdIM WSM z by6 uey 5527 by QquvaNvis uej Aq P3210J bujoo5 TV2INVH23MW V IDOA V SL Hed 554 uone o jeuisnpuj 92 LON3 23l EE 5 pa1elpeg 9 8 I22A 9 51 Hed 554 g uone o jeuasnpur L 97 L9N3 23l 551 pa1onpuo H8960Z D SZ 12 WYOWOOL ULY DION 9 uejsiseJ uone nsu t uuL 3AZ0Z puno15 50 YVNY G31V 1051 333l NV 858 vf er uuL 2QACVCr 901VNV Q31V710SI 333 NV 1 85n vr erindug 2 DOWNY Q31V1051 333 NV Tasn vr er cr Log ndano L 50A08Z2 puno45 z Legindino punoj5 ndu Zr LPBINnd no Indu japow A0S9 pueisuim UIWL JGAZOZ punoJ5 50 TVNV Q31V 10SI 333U NV T 8sn vr er unuL 2aACvCy 901VNV 31v 1051 333I NV 1880 vn ernduy utL 5QA007 DOTVNV Q31V1051 333 NV Tas Hr Er cr Leogndano L IAA000z punoi5 z Legindino UI L JGABZBZ puno15 1ndu uru L 53 A0462 cf sjapow AOZESINOAS09L snopiezeH 5OTVNV G31V 105l 333l NWT ASN Er zr andano 3nd3no lt snop4ezeH uoy 5OTVNV GIL 1051 3331 vf Ef snopiezep zr Lf andino IndIno uoneoyisse SNOPJE
156. nt NOTE All list subsystem commands as well as CURR MODE LIST and VOLT MODE LIST are implied ABORt commands LIST COUNt Sets the number of times that the list is executed before it is completed The command accepts parameters in the range 1 through 9999 but any number greater than 9999 is interpreted as INFinity Use INF if you wish to execute a list indefinitely SCPI Command Syntax SOURce LIST COUNt lt NR1 gt Parameters 1 to 9999 INFinity RST 1 Examples LIST COUN 3 LIST COUN INF Query Syntax SOURce LIST COUNt if count gt 9999 the response is INF Returned Parameters NRI 109 TDK Lambda ___ LIST CURRent Specifies the output current points a list The current points are given in the command parameters which are separated by commas SCPI Command Syntax SOURce LIST CURRent lt NRf gt lt NRf gt Default Suffix A Examples LIST CURR 2 5 3 0 3 5 LIST CURR MAX 2 5 MIN up to 12 parameters Query Syntax LIST CURRent Returned Parameters 2 5 3 0 3 5 LIST LOAD Loads from memory LIST type Type voltage current values dwell values STEP parameter and counter specified in stored numbers lt 1 4 gt SCPI Command Syntax SOURce LIST LOAD lt NR1 gt Examples LIST LOAD 3 LIST DWELI Specifies the time interval that each value point of a list is to remain in effect SCPI Command Syntax SOURce
157. o the issuing PC Reset Brings the Power Supply to a safe and known state Output voltage OV output current 0A OUT Off Remote RMT 1 AST Off OVP Max UVL OV GRST The conditional register FLT and STAT are updated Other registers are not changed Non Latching faults FoldBack OVP SO UVP are cleared OUT fault stays GPV n Sets the output voltage value in volts The range of voltage values is shown in Table 7 5 n may be up to 12 char plus dec pt GPCn Program the output current value in amperes The range of current values is shown in Tables 7 6 7 7 and 7 8 n may be up to 12 char plus dec pt Turns the output to ON or OFF OUT 1 ON turn on GOUT OUT 0 OFF turn off clears CV and CC bits in the Status Condition STAT OUT ON will respond with E07 if the output cannot be turned on because of a latching fault OTP AC ENA SO shutdown Saves present settings to specified loction in memory n 1 4 Same settings as power down last settings listed in table 5 7 GSAV n GRCLn Recall saved settings from specified location in memory n 1 4 Model Rated Output Voltage V Minimum V Maximum V 160 000 0 160 0 320 000 0 320 0 650 000 0 650 0 Table 7 5 Voltage programming range NOTE The power supply can accept values higher by 596than the table values however itisnotrecommended to program the power supply over the rated values 91
158. omatically switch back to Constant Voltage mode 5 2 4 Output On Off Control The Output On Off enables or disables the power supply output The Output On Off can be activated from the front panel using the OUTPUT button or from the communication interface The OUTPUT button can be pressed at any time except in Front Panel Lock mode or when a Fault condition exists When the output is disabled the output voltage and current fall to zero and the Voltage display shows Press the OUTPUT button to recover from Faults such as OVP UVP and FOLD faults after the Fault conditions have been removed 5 2 5 Safe Start and Auto Restart Modes At turn on the power supply AC On Off can start at last setting of Output Voltage and Current limit with the output enabled Auto restart or it can start with the output disabled Safe mode Press and hold the OUTPUT button to toggle between Safe start and Auto restart modes The Voltage display will continuously cycle between SAFE and every seconds Releasing OUTPUT button while one of the modes is displayed selects that mode The default setting at shipment is in Safe mode e Automatic Start Mode RLIED The power supply is restored to last operation setting Upon start up the output is enabled or disabled according to the last setting Safe Start Mode SAFE The power supply is restored to last operation setting and sets the Output to Off state At start up the output is disa
159. ommands are specific to power supply functions They can be a single command or a group of commands Groups are comprised of commands that extend one or more levels below the root Commands followed by a question mark take only the query form Except as noted in the syntax descriptions all other commands take both the command and query form 7 12 1 Output Subsystem OUTPut This command enables or disables the power supply output When output is turned off voltage display shows OFF SCPI Command Syntax OUTPut STATe bool GEN Command Syntax OUT bool Parameters O OFF RST Value OFF Examples OUTP OUTP STAT ON Query Syntax OUTPut STATe Returned Parameters oji OUTPut PON STATe e AUTO The power supply output will return to its previous value when the latching fault condition is removed or to the stored value after AC recycle e SAFE The power supply output will remain Off after the fault condition is removed or after AC recycle SCPI Command Syntax OUTPut PON STATe bool GEN Command Syntax AST lt bool gt Parameters RST Value OFF Examples OUTPut PON 1 Query Syntax OUTPut PON STATe Returned Parameters 0 1 OUTPut PROTection CLEar This command clearsthe latch that disables the output when an over voltage OVP under voltage UVP or foldback FOLD fault condition is detected All conditions that generate a
160. on q 318VN3 pued Aq 10 1010 Aq 10 1463503ne 9 281 Dy Aq Jasay 1nus m ano Z Aq 10 v NI jaued 1231 Aq UOIING INdLNO Aq 10 1 INdu Dy Aq 19584 e qe18saud 1SN AD 0122 10 DD 01 AD Alddns uaym umop Inys 2 uon exoid 4 1 79 0 059 EL OZE 9 c 091 Z SNOILINN4 3ALL23108d uo Jemod SAINUIW OE 1340 JUAIND 1ndino payed JO 1 0 ueu sse yup dn uueM 7 eamejeduia1g JUe SUOD dn wuem OE 5148 INO JO 965070 Ayyiqeys ainyesadwiay 9 dn wuem sejnuiu oe 3uan payed I WddO0L 2 Wdd 1u8121802 ainjesaduua S 90 cL yw Lx 21 ZHWL ZHS addiy ebueup 5 QE 1940 JUALIN 1ndino payed Jo 0 0 Uey ssa Yup jueuno Jo 96600 LL peo xew z 1uauno indino Jo 96200 9x uonejnbai eur xew t 1790 059 EL OTE 9 c 09l 2 AGOW LN3YUND LNVLSNOD 1219 1 959 61 um dn pjoH 721 Suz uey ss 1 asuas 2207 00 L 0L 3utod 3ss 1ndino m sup asuodser jusrsue
161. on 5 7 Rear Panel J3 Connector Functions and Settings Display fee Display Parameter Level Display Description Enable ON an Enable Disable interlock Interlock function Analog Disable OFF ON OFF Positive POS Positive polarity Shut OFF 50 I same as PS_OK Negative signal Rear Panel High H Programmed Pint Open collector PIN 1 Low Lo High Hi Programmed PIN 2 Pine Open collector Low Lo Table 5 3 Rear panel subsystem menu 71 TDKLambda 5 7 1 External Shut Off Function SO signal serves as Output Shut Off It is an optically isolated signal from the power supply output Connection to the signal is made via pin J3 5 Shut Off and pin J3 7 IFC COM The SO pin accepts 4V to 15V signal or Open Short contact to disable or enable the power supply output The SO function will be activated only when a transition from On to Off is detected after applying AC power to the unit Thus in Auto start mode the output will be enabled after applying AC power even if SO is in Off level After On to Off transition is detected the SO will enable or disable the power supply output according to the signal level or the short open applied to J3 When the external SO is triggered the power supply will display 5B on the voltage display but the PROT LED will not illuminate The external shutdown is useful when using the power supply as part of a larger test
162. on root is OUTPut and some of the commands that reside in the OUTPut subsystem are OUTPut STATe lt bool gt PON STATe lt bool gt PROTection CLEar FOLDback colon is used to separate a command keyword from a lower level keyword 7 10 7 Header Headers are instructions recognized by the power supply Headers which are sometimes known as keywords may be either in long or short form Long form The header is completely spelled out such as VOLTAGE STATUS and DELAY Short form The header has only the first three or four letters such as VOLT STAT and DEL The SCPI interface is not sensitive to case It will recognize any case mixture such as TRIGGER Trigger TRIGger Short form headers result in faster program execution 95 TDKLambda 7 10 8 Data Formats Data Formats Description Digits with an implied decimal point assumed at the right of the least significant digit NRI Examples 256 NR2 Digits with an explicit decimal point Example 0253 NR3 Digits with an explicit decimal point and an exponent Example 2 73E 2 lt NRf gt Extended format that includes lt NR1 gt lt NR2 gt and lt NR3 gt Examples 273 273 1 2 73E2 Expanded decimal format that includes lt NRf gt and MIN MAX Examples 273 273 1 2 73E2 lt NRf gt MAX MIN and MAX are the minimum and maximum limit values that are implicit in the range specification for the parameter lt
163. ontained in this document is subject to change without notice TDK Lambda shall not be liable for errors contained in this document or for incidental or consequential damages in connection with the furnishing performance or use of this material No part of this document may be photocopied reproduced or translated into another language without the prior written consent of TDK Lambda Trademark Information Microsoft and Windows are trademarks of Microsoft Corporation TDK Lambda REGULATORY NOTICES FCC Notice This device complies with Part 15 of the FCC Rules Operation is subject to the following two conditions 1 this device may not cause harmful interference and 2 this device must accept any interference received including interference that may cause undesired operation NOTE This equipment has been tested and found to comply with the limits for a Class A digital device pursuant to Part 15 of the FCC rules These limits are designed to provide reasonable protection against harmful interference when the equipment is operated in a commercial environment This equipment generates uses and can radiate radio frequency energy and if not installed and used in accordance with the instruction manual may cause harmful interference to radio communications Operation of this equipment in a residential area is likely to cause harmful interference in which case the user will be required to correct the interference at his own expense
164. parameters NOTES NC NO COMMAND command query don exist Command and query available GEN command command UVP or set protection or limit mode and level 120 SEVE STAT SENA FEVE FL FENA NC NC NC RMT REV DATE NC NC NC NC DVC STT FBDRST PMS SOP FRST TDK Lambda CHAPTER 8 ADVANCED FUNCTIONS 8 1 Introduction This chapter describes the advanced functions of output programmable modes The are three programmable modes FIX WAVE and LIST The user can program the output transient state The programmable modes are synchronized by input trigger refer to section 8 5 1 According to the selected mode the power supply activates the output trigger on J3 3 refer to section 8 5 2 8 2 FIX Mode Output value is changed via input trigger Refer to 7 12 3 VOLTage TRIGger and 7 12 4 CURRent TRIGger ABORt Q 9 9 RST O IDLE STATE O H gt INIT IMM v INITIATED STATE TRIGGERED EVENT TRIGI IMM v DELAY v OUTPUT CHANGE STATE Fig 8 1 Simplified Models of FIX Mode 0 01sec Lo dq op opes 5 Trigger Event Trigger Delay 0 025 0 028 TRIG DEL 0 02 10V 5V l Set Voltage ___ VOLT TRIG 10V OUTPUT 5V VOLTAGE EN ABORT u I
165. peol e 104 jndyno paje SY Jo 0 1840991 104 sw euin esuodsei juersue1 LL Ps oean 58 Lo 89 sg 5 a 6 peor una _ eum esuodserBoid umoqroi GL GL SG sw 6 xewoy 0 aw esuodses 6 6 S S S esues ejouies g uo Jamod sejnuiuu og jnd3no payed 9 900 5527 yup dn uueAV 7 duuej peo juejsuo sejnuiu oe saug Jo 95200 Ayigeys 9 dn unem seynuiw oe eDeyo Ind no peje1 Woy Oo Wdd 6 09 Lks ZHWL ZHS sur1 osz 214 vL ZHINOZ d d as ou pue pejei 0 0 7 peo payed jo L0 0 uonejnBe1 eur Xew 1 059 Pore og 300W 39V L10A INVLSNOI ueu sse1 g jueuno usnuu g S995 98 p a a p 02 001 GAL peol 96001 9eAQOZ 86 0 A004 1 66 0 Joe jewod 921692 T ME E 0 ue no z eseud ejBuis ZHg9 4r snonunuoo 2eAG9z cg 2 beyeBeyoA 1ndu 1 059 er gt SOLLSIIALOVAVHO LNdNI Jewod Indino e Z 1ueuno 1ndjno zZ L 1ndino peres SNILV3 LNdLNO suone iyi eds
166. plies generate magnetic fields which might affect the operation of other instruments If your equipment is susceptible to magnetic fields do not position it adjacent to the power supply 3 2 Preparation for Use In order to be operational the power supply must be connected to an appropriate AC source The AC source voltage should be within the power supply specification Do not apply power before reading Section 3 6 and 3 7 Table 3 1 below describes the basic setup procedure Follow the instructions in Table 3 1 in the sequence given to prepare the power supply for use Stepno ltem Description Reference 1 Inspection Initial physical inspection of the power supply Section 3 3 2 Installing the power supply Section 34 Ensuring adequate ventilation Section 3 5 3 ACSOURE AC source requirements Section 3 6 Connecting the power supply to the AC source Section 3 7 4 Test Turn on checkout procedure Section 3 8 5 Load connection Wire size selection Local Remote sensing Section 3 9 6 Default setting Single or multiple loads Section 7 2 1 Table 3 1 Basic setup procedure 3 3 Initial Inspection Priorto shipmentthis power supply was inspected and found free of mechanical or electrical defects Upon unpacking of the power supply inspect for any damage which may have occurred in transit Theinspection should confirm that there is no exterior damage to the power supply such as broken knobs or connectors and that the front panel an
167. program from memory Set trigger depends execution step Store WAVE program in memory Set slope time Set output voltage points 119 TDK Lambda 1 2 7 MODE PC NC NC PV lt NC gt OVP OVM UV UVPUVL NC NC NC NC NC NC NC NC NC NC NC NC NC NC NC TDKLambda STATus OPERation EVENt CONDition ENABle lt NRf gt QUEStionable EVENt CONDition ENABle lt NRf gt SYSTem ERRor ENABle ERRo LANGuage GEN REMote STATe LOC REM LLO VERSion DATE TIME TRIGger STARt DELay lt NRf gt SOURce EXTernal BUS NC NC NC NC NC NC Returns the value of the Event register Returns the value of the Condition register Enables specific bits in the Event register Returns the value of the Event register Returns the value of the Condition register Enables specific bits in the Event register Enable error message Read system error messages Set communication language Set the remote local state Returns software revision Returns calibration date Response time from last reset Run trigger Set input trigger delay Set input trigger source Display Voltage and Current data Data Reads the complete power supply status Reset the added Fold Back Delay to zero Sets the Master Slave parallel operation mode Sets SO signal polarity Set factory default
168. ption PN IS420 Output voltage programming accuracy 96 1 Output current programming accuracy 96 1 Output voltage programming temperature coefficient PPM C 200 Programming 7 7 Inputs Output current programming temperature coefficient 4 200 Input impedance Ohm 50 Absolute maximum input current mA 0 30 Max voltage between program inputs and supply outputs See Note 1 Vdc 650 Output voltage monitoring accuracy 96 1 5 Monitoring Output current monitoring accuracy 96 1 5 Outputs Maximum load impedance Ohm 500 Max voltage between monitoring outputs and supply outputs See Note 1 Vdc 650 NOTE 1 In case of supply output grounded or the max voltage between program inputs and supply outputs monitoring outputs and supply outputs should not exceed 400VDC Applicable for 10 2 1 and 10 2 2 134 TDK Lambda 10 3 Isolated Programming amp Monitoring Connector Refer to Table 10 1 for detailed description of the Rear Panel Isolated Programming amp Monitoring connector To provide the lowest noise performance it is recommended to use shielded twisted pair wiring Refer to Fig 10 1 for description of the connector Isolated programming plug P N MC1 5 8 ST 3 81 Phoenix Shield VPROG ISO IPROG_ISO GND Shield IMON_ISO VMON_ISO GND Fig 10 1 Isolated Programming amp Monitoring connector the s
169. queta ptt detailed 3 104 J2 Sense Connector Technical Information vrss trtrtvrstvrtrorttntsene nenn nne anenee 3 11 Repackaging for Shipment ee testen CHAPTER 4 FRONT REAR PANEL CONTROLS AND CONNECTORS AUC oln A etes satt 50 4 2 Front Panel Display and Controls 50 4 3 Rear Panel Connectors ssecsssscssseccssscsseecsssccssccesscecsucecsnccesnecessccesseestes 52 4 3 1 J1 Connector Terminal and Function 54 4 3 2 J3 Connector Terminal and Function 55 4 4 Front Panel Display Messages 56 4 5 Navigating the Main Menu 5 45 1 Introduction se X 4 52 Exiting the Mall acc 4 6 Navigating Communication Menu 4 7 AGI 1916 1 ER REO E S o S 4 6 2 Exiting the Communication Menu m Navigating the Protection Menu PE 472 Exiting the Protection Ment sicco tte CHAPTER 5 LOCAL OPERATION 5 1 5 2 5 3 E EE A 60 Standard Operation eee 5 2 1 Constant Voltage Mode and Voltage Setting 5 2 2 Constant Current Mode and Current Setting 5 ILS MUON AUG ROSS OV m 5 2 A Output OMO GODttoll us 5 2 5 Safe
170. r unuL 9QAgzez UWL OGAPOLE 2 LPRINdINO Indu A099 0 puno19 9 0 IVNV GSN Er 9 Q31V10Sl 333I NVA ASN vr OOTWNV Q31V 10SI 333 NV1 GSN Pr er zr Lngindino WIWL OGAOOOZ punoio zr punoig indul tuu L 2QA0762 zr Leindino indul AQzesinoAso9L pueisyum g 5OIVNV GALVIOSI Saal asn bf er zn Ln Mdo indino 9O1VNV 031 1051 9931 NV1 GSN pr ef snopsezey LP MNAMO papunau SNOpseZeH 9O1VNV 031 1051 9931 NV1 SSN pr er LE indino dno sep eoepieurz VZOSSNa ZZOSSNa wow o 1 oa uoy 03110513331 SSN tf r snopuezey indio 05951 0 5091 _ 1 08609N3 O3I 1n 199 0 Jing L 01019931 L 0LOLON3 L OL0L97N spJepuejs e qeorddy OW3 Al33VS 29 TDK Lambda uo Sanu Qe jndjno jo L O uey 5597 yup dn wiem 2 duiej 9 juejsuo sejnuiui og
171. r Remote Analog programming of the output voltage and current limit In Local mode the output voltage and current limit can be programmed via the front panel Voltage and Current encoders or via the Communication interface In Remote Analog mode the output voltage and current limit can be programmed by analog voltage or by programming resistors via J1 contacts 6 and 5 Refer to Analog Programming Setting Table 6 2 6 3 Local Remote Analog Indication Contact J1 4 Fig 4 3 item 4 is an open collector output that indicates if the power supply is in Local mode or in Remote Analog mode To use this output connect a pull up resistor to a voltage source of 30Vdc maximum Choose the pull up resistor so that the sink current will be less than 5mA when the output is in low state J1 4 signal will be low if J1 1 is low and at least one of Analog control modes are selected Refer to Analog Programming Setting Table 6 2 J1 1 LOC REM SELECT Front Panel selection Front Panel selection J1 4 LOC REM MON Not applicable Not applicable Open FPA FPA Open or E E5 F PAN 0 0 6V TTL 0 or Short F PAN or E ES 0 0 6V or E E5 E UGL or E r ES 0 0 6V Table 6 2 Local Remote Analog Control and Indication 78 TDK Lambda 6 4 Remote Voltage Programming of Output Voltage and Current Remote Programming settings are as follows gt 7 8 9 10 11 12 For Voltage Analog Programming wiring
172. r until 5 Hd appears Press Current encoder to select 5 Display blinks once and returns to previous level Recycle AC power For wiring instructions refer to Fig 5 4 Parallel connection with local sensing or Fig 5 5 Parallel connection with remote sensing and Section 5 6 Daisy Chain connection gt To release units from Advanced mode select 70 TDK Lambda 5 6 Daisy Chain Connection It is possible to configure a multiple power supply system to shut down all units when a fault condition occurs in one of the units When the fault is removed the system recovers according to a preset state Safe start mode or Automatic restart Set signal 55 to positive logic via Front panel refer to section 5 7 1 If a fault occurs in one of the units it s PS OK signal will be set to low level and the display will indicate the fault The other units will shut off and their displays will indicate 50 When the fault condition is removed the units will recoverto theirlast setting according to their respective Safe start or Auto restart setting Fig 5 6 shows connection of three units however the same connection method applies to systems with more units POWER SUPPLY POWER SUPPLY POWER SUPPLY 1 2 3 23 7 23 2 23 5 23 7 23 2 23 5 23 7 23 2 23 5 IFC COM PS so PS OK so IFC COM PS OK so Fig 5 6 Daisy Chain connecti
173. rch das Netzger t verursacht wird Tabelle 11 2 f hrt Sie Schritt f r Schritt durch die Pr fungen die durchgef hrt werden sollten um die Fehlerursache zu ermitteln und gibt Ihnen Hinweise auf Abschnitte dieses Handbuches in denen Sie weiterf hrende Informationen finden k nnen 11 7 Sicherungswert Bewertung Im Ger t befinden sich keine Sicherungen die durch den Anwender ersetzt werden k nnen Sicherungen sind als Schutz eingebaut falls im Ger t Fehler auftreten sollten Sollte eine Sicherung ausl sen so muss das Ger t zur Reparatur gegeben werden Sicherungen d rfen ausschlie lich von daf r geschultem technischen Personal ausgewechselt werden In Tabelle 11 1 sind die Sicherungswerte aufgelistet Z200 400 Eingangssicherung F101 250V 10A Fast Acting 7800 Eingangssicherung F101 250V 16A Fast Acting Tabelle 11 1 Interne Sicherungen 139 TDKLambda Symptom Pr fung T tigkeit Ref Keine Ausgangsspannung Ist das Netzkabel defekt Falls erforderlich Netzkabel ersetzen 3 7 Displ d Anzei ind red Ist die Netzspannung innerhalb Netzspannung pr fen Ger t an passende 3 6 des Eingangsbereiches Versorgungsspannung anschlie en 3 7 Ausgangsspannung liegt kurzfristig an schaltet aber Bricht di Netzspannung Netzspannung pr fen Ger t an passende zusammen wenn am Ausgang 3 6 sofort wieder ab Das Display Versorgungsspannung anschlie en SENSU
174. refer to Fig 6 1 Short pins J1 1 to J1 7 Press MENU button MENU GREEN LED illuminates 5E E message appears on Voltage display Press Voltage encoder IZLE message appears on Voltage Display and Curr appears on the Current display Press Voltage encoder to select programming of the Output Voltage or press Current encoder to select programming of the Output Current The selected function appears on the Voltage display Parameter or E LIBL ES appears on the Current display Rotate and press the Current encoder to select GL message appears on Voltage Display and Curr appears on the Current display Rotate Voltage encoder until ANG appears on display Press on the relevant Encoder rHfiG appears on Voltage display and 5 5V IB appears on Current display Rotate and press the Current encoder to select the desired programming Voltage range Press MENU button twice to return display to it s previous state MENU LED turns OFF CAUTION To maintain the isolation of power supply and prevent ground loops use an isolated programming source when operating the power supply via remote analog programming at J1 connector Output Voltage Programming L 6 eie 12 5 oe 11 4 ollo 10 3 1 9 2 8 1 7 Output Cu
175. rent balance in parallel operation 5 5 3 MON Monitoring power supply output current 6 6 4 LOC REM MON Output for indicating if the unit is in Local or Remote analog programming mode 5 IPGM Input for remote analog voltage resistance programming of 64 65 the Output Current 6 VPGM Input for remote analog voltage resistance programming of 64 65 the Output Voltage 7 COM Control Common Return for VMON IMON CV CC LOC REM Connected internally to the negative sense potential S 8 CVICC Output for Constant Voltage Constant Current mode 581 indication Control Common Return for VMON IMON CV CC LOC REM 9 COM Connected internally to the negative sense potential S 10 V MON Output for monitoring the power supply Output Voltage 6 6 11 IPGM RTN Return for IPGM input 12 VPGM RTN Return for VPGM input Connected internally to the S Table 4 3 J1 connector terminals and functions 54 TDK Lambda 4 3 2 J3 Connector Terminal and Function Control and monitoring signals are isolated from the power supply output Connector Technical Information e Connector type 43650 0801 MOLEX Receptacle type 43645 0800 MOLEX ala e Contact pins 43030 0002 MOLEX Hand tool 63819 0000 MOLEX P we xe we 4 e Wire AWG 20 24 Fig 4 4 J3 connector terminals and f
176. rial data format is 8 bit one start bit and one stop bit No parity bit 7 10 2 End of Message End of message is the Carriage Return character ASCII 13 and the Line Feed ASCII 10 character 7 10 3 End of Command End of commandis Carriage Return character ASCII 13 and or the Line Feed ASCII 10 character 94 TDK Lambda 7 10 4 Checksum The user may optionally add a checksum to the end of the command The checksum is followed by two hex characters If a command or a query has checksum the response will also have one There is no CR between the command string and the sign 7 10 5 SCPI Requirements The power supply conforms to the following SCPI requirements SCPI common commands SCPI Command Tree Subsystem commands The ROOT level The power supply is powered On A device clear DCL is sent to the power supply The SCPI interface encounters a root specifier Questionable Status Register OSR Condition Event Enable Operation Status Register OSR Condition Event Enable Status Byte Register SBR Standard Event Status Register SESR Using the MIN and MAX Parameters Suffix and Multipliers Boolean data 1 0 or ON OFF 7 10 6 SCPI Command Hierarchy SCPI is an ASCII based command language designed for use in test and measurement equipment The command structure is organized around common roots or nodes which are the building blocks of SCPI subsystems An example of a comm
177. rn CAUTION To prevent ground loops and to maintain the isolation ofthe power supply when programming from J1 use an ungrounded programming source WARNING There is a potential shock hazard at the output when using a power supply with an output greater than 60VDC Use wires with minimum insulation rating equivalent to the maximum output voltage ofthe power supply WARNUNG Bei Einsatz einer Stromversorgung mit einer Ausgangsspannung von uber 60VDC besteht die Gefahr eines elektrischen Schlags Verwenden Sie nur Leitungen mit Isolationsklassen die mindestens fur die maximale Ausgangsspannung der Stromversorgung geeignet sind 53 TDKLambda 4 3 1 J1 Connector Terminal and Function 7T TE Control and monitoring signals are referenced to the 6 lollo 12 negative sense potential S 5 11 Connector Technical Information 4 10 e Connector type 43045 1201 MOLEX 9 e Receptacle type 43025 1208 MOLEX e Contact pins 43030 0002 MOLEX 2 8 Hand tool 63819 0000 MOLEX 1 lollo 7 e Wire AWG 20 24 LS Fig 4 3 J1 connector terminals and functions Pin Parameter Specification Section 1 LOC REM SELECT Input for selecting between Local or Remote analog 62 programming of output voltage and output current 2 P Output for cur
178. rotection circuit monitors the voltage at the power supply sense points thus providing the protection level at the load Upon detection of an Over Voltage condition the power supply output will shut down 5 3 2 1 Setting the OVP Level The OVP can be set when the power supply output is Enabled On or Disabled Off The minimum setting level is 596 above the output voltage or the value in Table 5 1 whichever is higher The maximum setting level is shown in Table 5 1 1 Press PROT button PROT GREEN LED illuminates LP message appears on the Voltage display 2 Press Voltage encoder HUP message appears on the Voltage display and the Current display shows OVP setting level Rotate the Current encoder to adjust the OVP level 4 Press PROT button twice or wait 15 sec to return display to its previous state and then PROT LED turns OFF w Model Max OVP Min OVP 160V 176V 5V 320V 353V 5V 650V 717V 5V Table 5 1 Maximum Minimum OVP setting levels 62 TDK Lambda 5 3 2 2 Resetting the OVP Circuit To reset the OVP circuit after activation 1 Reduce the power supply Output Voltage setting below the OVP set level 2 Ensurethat the load and the sense wiring is connected properly 3 Four methods to reset the OVP circuit Press OUTPUT button AC recycle On Off recycle by analog control Interlock Send communication command to enable output 5 3 3 Under Voltage Protection and Under Voltage Limit The UVL function pre
179. rrent Programming Fig 6 1 J1 Remote Voltage Programming Connection Max output current is limited by front panel current setting 79 TDKLambda 6 5 Remote Resistor Programming of Output Voltage and Output Current For resistive programming internal current sources for output voltage and or output current control supply 1mA current through external programming resistors connected between J1 6 and J1 12 and between J1 5 and J1 1 J1 7 amp J1 11 The voltage across the programming resistors is used as a programming voltage for the power supply Resistance of 0 5Kohm or 0 10Kohm can be selected to program the output voltage and current limit from zero to full scale A variable resistor can control the output over the entire range or a combination of variable resistors and series parallel resistors can control the output over restricted portion of the range Remote Programming settings as follows 1 2 3 4 For Resistor Analog Programming wiring refer to Fig 6 2 Short pins J1 1 to J1 7 Press MENU button MENU GREEN LED illuminates 5E E message appears on Voltage display Press Voltage encoder 0 message appears on Voltage Display and Curr appears on the Current display Press on the Voltage encoder to select programming the Output Voltage or Press Current encoder to select programming of the Output Current The selected function appears on the Voltage display Parameter or E LIBL or
180. rrent encoder and press to select the desired parameter When parameter is accepted the display blinks once and exits to the previous level Press REM button LED turns ON Interface Function level Parameter level Value Level Rotate Voltage Encoder Press Voltage Current Encoder n Rotate Current Encoder Press Current Encoder Italic text Appears in menu if LAN 1200 option instaled Underline Appears in menu if IEEE option instaled IP Address MAC Address LAN Reset Fig 4 6 Communication Menu diagram 58 TDK Lambda 4 6 2 Exiting the Communication Menu There are three ways to exit from REM menu 1 Press REM button twice REM LED turns OFF Display shows present status of power supply 2 Press and hold REM button sec REM LED turns OFF Display shows present status of power supply 3 No action for 15 sec REM LED turns OFF Display shows present status of power supply 4 7 Navigating the Protection Menu 4 7 1 Introduction The Protection Menu consists of two levels Function and Parameter To navigate the Protection Menu press PROT button The PROT GREEN LED illuminates The function menu item appears on the display Navigate by rotating the Voltage encoder to scroll the function level To select the desired function press the Encoder button next to the display Toggle the Voltage encoder to select either UVL or UVP functions In the Parameter level the Voltage display shows the
181. s Parameters OPT The options OPT query returns a comma separated list of all of the instrument options currently installed on the signal generator Parameter Option 0 NONE 1 IEEE 2 LAN 3 BOTH Query Syntax OPT Returned Parameters CRD PSC The Power On Status Clear PSC command controls the automatic power on clearing of the Service Request Enable Register the Standard Event Status Enable Register and device specific event enable registers e ON 1 This choice enables the power on clearing of the listed registers e OFF 0 This choice disables the clearing of the listed registers and they retain their status when a power on condition occurs Power on Status Clear Device Initialization Meaning and Type Command Syntax PSC bool Parameters 0 1 OFF ON Returned Parameters lt NR1 gt 0 1 98 TDK Lambda RCLn Restores the power supply to a state previously stored in memory by SAV command Refer to Table 5 7 Command Syntax RCL lt NR1 gt Parameters 1to4 Exmple RCL3 RST This command resets the power supply to a defined state as shown in Table 5 7 RST also forces an ABORt command Command Syntax RST Parameters None SAV n The SAV command saves all applied configuration setting Refer to Table 5 7 Command Syntax SAV lt 1 gt Parameters 1to4 Query Syntax None SRE Service
182. s a full set of controls indicators and connectors that allow the user to set up and operate the unit Before starting to operate the unit please read the following sections for an explanation of the functions controls and connector terminals Section 4 2 Front Panel Display and Controls Section 4 3 Rear Panel Controls and Connectors 4 2 Front Panel Display and Controls Refer to Fig4 1 and Table 4 1 for description of the Front Panel controls and indicators eeue MENU PROT FINE PREV REM OU ial POWER TDKLambda Fig 4 1 Front panel controls and indicators TDK Lambda No Control Indicator Description Section 1 AC Power Switch AC ON OFF control 4 digit 7 segment LED display Normally displays the output current 2 Current display In preview mode the display indicates the program setting of output current 4 digit 7 segment LED display Normally displays the output voltage 3 Voltage Display In preview mode the display indicates the program setting of output voltage 4 Voltage encoder and Encoder high resolution rotary Encoder for adjusting the output 521 button voltage Button Auxiliary function to select between menu levels d 5 Constant voltage mode Green LED light for Constant Voltage mode operation indicator 6 Current encoder and Encoder High resolution rotary Encoder for adjusting the output current 522 button Button Auxiliar
183. s set whenever the power supply has at least one or more reasons for requesting service Sending STB reads the MSS in bit position 6 of the response No bits of the Status Byte register are cleared by reading it 9 6 4 Determining the Cause of a Service Interrupt You can determine the reason for an SRQ by the following actions Use a serial poll or the STB query to determine which summary bits are active Read the corresponding Event register for each summary bit to determine which events caused the summary bit to be set When an Event register is read it is cleared This also clears the corresponding summary bit The interrupt will recur until the specific condition that caused the event is removed If this is not possible the event may be disabled by programming the corresponding bit of the status group Enable register A faster way to prevent the interrupt is to disable the service request by programming the appropriate bit of the Service Request Enable register 131 TDKLambda 9 6 5 Output Queue The Output Queue is a first in first out FIFO data register that stores power supply to controller messages until the controller reads them Whenever the queue holds one or more bytes it sets the MAV bit 4 of the Status Byte register If too many unread error messages are accumulated in the queue a system error message is generated The Output Queue is cleared at power On and by CLS 9 6 6 Error Messages System Error Messages are
184. secs 130 OOM Register 30 96 2 Register COITitrid GS a anna 30 9 6 3 Status Byte Register 131 9 6 4 Determining the Cause of a Service Interrupt t 31 965 QUT OUT UCU Cea ene etude tnn eim rat DR Ret uec ER RP RE 32 M ae 132 CHAPTER 10 ISOLATED ANALOG PROGRAMMING OPTION 10 1 ence aisssdavseostssesnsavsseceaseojriasesssazes 134 102 Specifications 134 10 2 1 0 5V 0 10V Option PN 15510 134 10 2 2 4 20 Option PN I 420 estt ttt ttti ton 134 10 3 Isolated Programming amp Monitoring Connector eee 135 10 4 Setup and Operating Instructions eese eene ttte 136 10 4 1 Setting Up Power Supply for 0 5 0 10V Isolated Programming and Monitoring136 10 4 2 Setting Up Power Supply for 4 20mA Isolated Programming and Monitoring 136 CHAPTER 11 MAINTENANCE 137 a ma 137 11 2 Units Under 137 11 3 Periodic Maintenance sssscssssssssecssscssssecsseecsuscessecessscessescsssccssecesscessseecasccsaneceseeceseecssseessseests 137 11 4 Adjustments and Calibration usssssesnennennsseenunseennnnsennunsennunssennnnsennunnennnnnsennunne 137 11 5 Parts Replacement and Repairs ssscsssscssssssseecsssesssessssccssscessecsseccssecsseeesssecsneecsneessnseesee 137 11 6 Troubleshooting
185. sense wires according to 398 Front panel CV LED is on connected properly User s Manual instructions ii The front panel controls are Is the power supply in Turn Othe AC powefand wait until the P display turns off the AC power 7 2 6 nonfunctional Local Lockout mode and press front panel REM button Table 11 1 Maintenance 11 7 Fuse Rating There no user replaceable fuses in the power supply Internal fuses are sized for fault protection and ifafuse was opened it will indicate that service is required Fuse replacement should be made by qualified technical personnel Refer to Table 11 2 for a listing of the fuses Z200 400 Input AC fuse F101 250VAC 10A Fast acting 2600 2800 Input fuse F101 250VAC 16A Fast acting Table 11 2 Internal Fuse 138 TDK Lambda 11 1 Einleitung Dieses Kapitel liefert Informationen ber Wartung Kalibrierung und Fehlersuche 11 2 Reparaturen w hrend der Garantie Sollte ein Ger t innerhalb der Garantiezeit ausfallen so d rfen Reparaturen nur durch Lambda oder autorisierte Servicestellen durchgef hrt werden Die Adressen finden Sie am Ende dieses Handbuches Eingriffe in die Ger te durch nicht autorisierte Stellen f hren zum Verlust des Garantieanspruches 11 3 Periodische Wartung Die Ger te sind wartungsfrei Wir empfehlen jedoch die regelm ige Reinigung Trennen Sie die Einheit vom Versorgungsnetz
186. t Y Front Panel Ext Voltage Ext Resistor Range Rear Panel Interlock Aux Pin 1 Shut Off High Low Subsystem level Function level Parameter Level Rotate Voltage Encoder Press Voltage Current Encoder Rotate Current Encoder Press Current Encoder Em Recall Reset 4 FRST YES Parallel Oper HOST SLAVE Continue lt Trigger In m Tig Deby Abort YES Redon Fig 4 5 Main Menu diagram 57 TDKLambda 4 5 2 Exiting the Main Menu There are three ways to exit from Main Menu 1 Press MENU button twice MENU LED turns OFF Display shows present status of power supply 2 Press and hold MENU button 3sec MENU LED turns OFF Display shows present status of power supply 3 No action for 15 sec MENU LED turns OFF Display shows present status of power supply 4 6 Navigating Communication Menu 4 6 1 Introduction The Communication Menu consists of two three levels Function level and Parameter level To navigate the Communication Menu press REM button The REM LED illuminates The function menu item appears on the display Navigate by rotating the Voltage encoder to scroll the function level To select the desired function press the Encoder button next to the display In the Parameter level the Voltage display shows the function and the Current display shows the parameter Scroll the parameter list by rotating the Cu
187. t auxiliary programmed pin state J3 1 REL1 1 ON High REL1 0 OFF Low REL1 Response auxiliary programmed pin state J3 1 REL2 Set auxiliary programmed pin state J3 6 REL2 1 ON High REL2 0 OFF Low REL2 Response auxiliary programmed pin state J3 6 7 8 8 Status Commands Refer to section 9 3 1 9 3 2 for Register definitions Command Description Reads the complete power supply status Returns ASCII characters representing the following data separated by commas MV lt actual measured voltage gt PC lt programmed set current gt 1 STT on PV programmed set voltage SR lt status register 4 digit hex MC actual measured current FR fault register 4 digit hex Example response MV 650 05 PV 650 05 MC 2 6000 PC 2 6500 SR 0030 FR 0000 2 FLT Reads Fault Conditional Register Return 4 digit hex 3 FENA Set Fault Enable Register using 4 digit hex 4 FENA Reads Fault Enable Register Returns 4 digit hex 5 FEVE Reads Fault Event Register Returns 4 digit hex Clears bits of Fault Event Register 6 STAT Reads Status Conditional Register Returns 4 digit hex 7 SENA Sets Status Enable Register using 4 digit hex 8 SENA Reads Status Enable Register Returns 4 digit hex 9 SEVE Reads Status Event register Returns 4 digit hex Clears bits of Status Event register 93 TDKLambda 7 9 Serial Communication Test Set Up Basic set up to test serial communication operation 1
188. t encoder and the ILC message appears on the display 3 Press Voltage encoder and message appears on the display The parameters or appear on the Current encoder display 4 Rotate and press the Current encoder to select desired parameter 5 Forsignal details refer to Table 5 5 72 TDKLambda Front Panel ILC Power Supply gt Setting ILC Input Output Display Alarm LED Default Open or Short On Voltage Current Off Open Off EnR Blinking on Short On Voltage Current Off Table 5 5 Interlock functions and settings CAUTION To prevent possible damage to the unit do not connect any of the Enable Disable inputs to the positive or negative output potential NOTE Safe Start mode If the Interlock fault condition clears while units are in safe start mode the power supply returns to Off mode Auto Restart mode The output will automatically return to previous settings 5 7 3 Auxiliary Programmed Function Pin 1 and Pin 2 The programmed signal Pin 1 J3 1 and Pin 2 J3 6 are open collector maximum input voltage 25V and maximum sink current 100mA and can be controlled via Front panel or software Pin 1 or Pin 2 settings are made as follows 1 Press MENU button MENU GREEN LED illuminates The PAf message appears on the Current display 2 Press Current encoder and the message appears on the Voltage display 3 Rotate Voltage encoder until P
189. t to show a fault or if an operating mode is active The bits are cleared when the fault or mode is cleared The registers are read only 9 3 1 Fault Register The fault register sets a bit when a Fault occurs Refer to table 9 1 The bit is cleared when the fault condition is removed Bit Number Decimal Value Bit Symbol Description 0 1 1 2 AC AC Fail 2 4 OTP Over Temperature 3 8 FLD Fold Back Protection 4 16 OVP Over Voltage Protection 5 32 SO Shut Off 6 64 OFF Output Off 7 128 INT Interlock 8 256 UVP Under Voltage Protection 9 512 0 Not used 10 1024 INPO Internal Input Overflow 11 2048 INTO Internal Overflow 12 4096 ITMO Internal Time Out 13 8192 ICOM Internal Comm Error 14to 15 N A 0 Not used Table 9 1 Bit Configuration of Questionable Registers 128 TDK Lambda 9 3 2 Status Register The status register sets a bit when status changes Refer to Table 9 2 The bit is cleared when the condition is removed Bit Number Decimal Value Bit Symbol Description 0 1 CV Set high if Constant Voltage Operation 1 2 cc Set high if Constant Current Operation 2 4 NFL No fault 3 8 Trigger wait 4 16 AST Auto Start Enabled 5 32 FBE Foldback enable 6 64 LSC List step complete 7 128 LOC Local Remote 8 256 UVP Under voltage Protect enabled 9 512 ILC Ena Interlock Enabled 10 1024 11 2048 FBC Foldback CC mode enabled 12 4096 AVP Remote Analog Voltage Programming mode 13 8192 ACP Remote An
190. tocol grounding global output command 17 64 17 87 82 87 89 104 61 90 101 87 83 137 82 87 88 95 133 16 17 58 82 40 54 60 74 40 54 60 74 16 38 71 86 50 56 108 55 61 72 87 113 132 80 79 51 60 121 41 63 68 90 11 138 50 51 87 12 47 91 USER MANUAL INDEX H humidity hyper terminal 20 24 28 32 90 Identification Commands 88 97 initialization installation interlock isolated L last setting memory linking cable line feed list mode local operation local sensing M maintenance Master Slave otp outline over voltage parallel operation parity PS_OK preview R rack mounting rear panel remote sensing registers structure RS232 RS485 89 98 124 37 62 71 72 93 52 134 75 16 17 86 87 94 109 122 60 39 43 45 47 137 138 67 90 64 34 35 36 40 62 54 67 87 94 55 66 71 72 74 51 89 37 50 45 47 52 127 52 82 84 52 82 84 141 TDK Lambda safe start safety SCPI series operation shield shut off specifications srq status command subsystem T TXD TX 5232 trigger UVL UVP USB w warranty wave mode wire size 61 64 73 90 101 11 82 83 94 64 17 43 44 45 55 71 72 18 134 83 127 93 96 67 71 75 101 84 87 84 55 100 114 124 40 63 90 92 63 64 90 92 52 82 86 10 137 115 123 42 NOTES
191. ton Main function Red LED blinks in cases of fault detection OVP UVP OTP 12 Foldback Interlock and AC fail Auxiliary function Protection menu 5 3 Alarm indicator DEN M Green LED illuminates when the unit is in protection menu mode Main Menu button Used for selection between analog or digital mode control rear panel 13 1 5 control parameters memory management trigger program setting indicator i parallel mode settings and software version 14 Optional front panel insulated output sockets 4mm for modules up to 650VDC 5A Max PN Z L2 Table 4 1 Front panel controls and indicators 51 TDKLambda 4 3 Rear Panel Connectors Refer to Fig 4 2 and Table 4 2 for description of the Rear Panel connectors Fig 4 2 Rear panel connections No Connection Description Section 1 AC Input Connector IEC320 16 TYPE CONNECTOR 2 DC output Plug for DC output 3 9 3 Analog Control and Connector for remote analog interface Analog control and monitoring 431 signals J1 Referenced internally to output potential S 4 Local Remote sense Connector for making remote sensing connections to the load for 310 connector J2 regulation of the load voltage and compensation of load wire drop 5 and Control and monitoring signal isolated from the output potential 4 3 2 6 Remote Serial Out RJ 45 type connector used for chaining power supplies to from a serial 73 con
192. ufacturers warranty 1 3 Accessories 1 3 1 General Accessories are delivered with the power supply or separately upon ordering The list below shows the possible accessories and ordering numbers 1 3 2 Serial Link Cable Serial link cable for linking power supplies by RS485 communication is provided with the power supply Cable description 0 5m length shielded RJ 45 type plugs 8 contacts P N GEN RJ45 1 3 3 Misc Hardware e Connector protection e Connector housing 43025 1208 MOLEX e Connector housing 43645 0800 MOLEX e Connector housing 43645 0500 MOLEX e Contact pins P N 43030 0002 MOLEX 1 3 4 AC Cables AC cables are not provided with the power supply If an AC cable is required it should be ordered according to the following Part no Market Description Z U USA 13A 125V non shielded 2m typical length with IEC60320 1 type C15 connector on one end and NEMA 5 15P type plug on the other end Z E Europe 10A 250V non shielded 2m typical length with IEC60320 1 type C15 connector on one end and IEC60884 1 type plug on the other end Z J Japan 15A 125V non shielded 2m typical length with IEC60320 1 type C15 connector on one end and Japan JIS C8303 type plug on the other end Z C China 10A 250V non shielded 2m typical length with IEC60320 1 type C15 connector on one end and China GB2099 or GB1002 type plug on the other end Z O GENERAL 10 250V non shielded 2m typical length with IEC60320 1 type C15
193. uminates 5EE appears on Voltage display Press Voltage encoder 12 message appears on Voltage Display and Curr appears on the Current display Rotate Voltage encoder until 7 ANG appears on display Press on the relevant Encoder rANG appears on Voltage display and 5 5V IB appears on Current display Rotate and press the Current encoder to select the desired monitoring Voltage range Press MENU button twice to return display to the previous state MENU LED turns OFF 81 TDKLambda CHAPTER 7 Serial RS232 RS485 and USB Interface 7 1 Introduction This chapter describes the set up operation commands and communication protocol of Z power supplies via serial communication interfaces R 232 RS485 or USB 7 2 Configuration Function Level Display Parameter Display Description Level 232 230 485 485 Interface INEF USB U5b LAN Available only if IEEE or LAN option installed IEEE I EEE Address Baud Rate 1200 57600 SCPI IP1 IP4 1096 Language LANG MAC Address AL MAC1 MAC6 ACE 3345 Available only if LAN option installed LAN Reset Yes Table 7 1 Front panel setup 7 2 1 Default Setting Refer to Table 5 7 Memory parameters 7 2 2 Address Setting The power supply address can be set to any address between 1 and 31
194. unctions Pin Signal name Function Section 1 Programmed Signal 1 General Purpose Open collector Port 1 5 7 3 2 PS_OK Output for indication of the power supply status High level is OK 54 3 Trigger Out Trigger output positive true pulse width Min 10usec 8 5 2 4 ILC Enable Disable the power supply output by dry contact short open 5 7 2 5 Shut Off SO Input for shut off control of the power supply output 5 1 6 Programmed Signal 2 General Purpose Open collector Port 2 5 7 3 2 IFC_COM Isolated interface common 8 Trigger In CMOS level input for triggering power supply output Positive edge 18 5 1 pulse width Min 10usec Table 4 4 J3 connector terminals and functions 55 TDKLambda 4 4 Front Panel Display Messages Table 4 5 showsthe various messages that willbe shown on the display in different operating modes Table 4 5 Front Panel display messages 56 Display Text Text Description Display Text Text Description Abor ABORT un ON RE AC ONCE ONCE Adr ADDRESS RUEG AUTO RESTART Dur OVP bAUd BAUD RATE PrLL PARALLEL bus BUS PIN 1 Lone CONTINUE Pang PIN 2 Coun COUNTER POS POSITIVE Curr CURRENT POG PROGRAM cC cc Pr di PROTECTION DELAY cu P5g PS OK DELAY 85 DISABLE r Rf RANGE Enf ENABLE REAL PANEL E rES EXT RES
195. und warten Sie 30 Sekunden um sicherzugehen dass sich interne Spannungen abgebaut haben Die Frontabdeckung und die Metalloberfl chen sollten mit einer milden L sung aus Reinigungsmitteln und Wasser ges ubert werden Die L sung sollte auf ein weiches Tuch aufgetragen werden und nicht direkt auf Oberfl che der Ger te Benutzen Sie keine Reinigungsmittel die aromatische Kohlenwasserstoffe oder gechlorte L sungsmittel enthalten Benutzen Sie schwach komprimierte Pressluft um das Ger t von Staub zu befreien 11 4 Einstellungen und Kalibrierung Interne Einstellung oder Kalibrierung ist nicht n tig Es gibt keinen Grund die Stromversorgung zu ffnen 11 5 Bauteilewechsel und Reparaturen Da Reparaturen nur durch den Hersteller oder autorisierte Servicestellen durchgef hrt werden d rfen enth lt das Handbuch keine Schaltpl ne Im Falle eines Defektes oder ungew hnlichem Verhalten des Ger tes setzen Sie sich bitte mit der n chstgelegenen Lambda Niederlassung in Verbindung Die Adressen finden Sie am Ende dieses Handbuches 11 6 Fehlersuche Sollte die Stromversorgung nicht wie erwartet funktionieren kann Ihnen die nachfolgende Tabelle helfen herauszufinden ob die Stromversorgung die Last oder eine externe Steuerung die Ursache daf r ist Stellen Sie das Netzger t so ein dass es mit den Reglern und Tasten am Frontpanel bedient werden kann F hren Sie dann die Tests aus Abschnitt 3 8 durch um festzustellen ob das Problem du
196. upply Terminal Signalname Function Range d Pange 200 15510 option 15420 option SHLD ne internally to chassis of Chassis ground VPROG_ISO Output voltage programming input 0 5 0 10V 4 20mA IPROG_ISO Output current programming input 0 5 0 10V 4 20mA GND Ground for programming signals Ground Ground GND Ground for programming signals Ground Ground VMON_ISO Output voltage monitoring output 0 5 0 10V 4 20mA HMON ISO Output current monitoring output 0 5 0 10V 4 20mA SHLD Shield connected internally to chassis of Chassis ground CAUTION Table 10 1 Detailed description of the Rear Panel Isolated Programming amp Monitoring connector When the Isolated Analog Option is installed do not apply any signals to the non isolated VPGM and IPGM J1 6 and J1 5 pins All other J1 features may be used normally Refer to Section 4 3 1 for a description of J1 features Parallel operation Optional Isolated Analog 15510 15420 must be installed in both the Master and Slave units 135 TDKLambda 10 4 Setup and Operating Instructions CAUTION To prevent damage to the unit do not program the output voltage and current to higher than the power supply rating 10 4 1 Setting Up Power Supply for 0 5 0 10V Isolated Programming and Monitoring Perform the following procedure to configure the power supply 1 Turn the power supply AC power switch to Off 2 Short pins J1 1 to J1 7 and turn AC power switch to On 3 Press M
197. ut 55 AD LL sisseu 9 SHUN eonuepi OL uon euuoo JUUNI anejs Jajsew UI SHUN 9 0 dn sjqissoq 8x Uonesado 6 e2uejsisal 59195 WYOOOS Ie3 A0 O AS v Jeubis yo Alddns 1 8 L 12 JASN A0L 0 JO AS O ebeyoA 1ndino 7 961 e qe329 es JASN AOL 0 JO AS O L 1031u0u quanh 9 1esn 2e1u05 Alp 10 AS L v A9 0 0 9be3 oA JEMP Ag 10300 OS JO 145 S payed jo 5 1 pue Hendy 31425 1 LIS N WYOYOL S O 001 0 L 10451531 1no p INOA payed jo 1 pue Keny e qe12sjes 25 JN WYOYOL S 0 001 0 10151591 3noA E payed jo 1 pue Kemmy 12 SN A0L 0 10 AS 0 00L O Ely 1no Z INOA JO G 0 Kedu pue Keny e qei2ejes JASN A0 L 0 10 AS 0 960010 Bulwwesboid ebe3oA 1 DNIHOLINOW 5NIWINVH5bOHd DOTVNV 23 TDK Lambda 27 7 89009931 01 6 pexpedun si Sw
198. uts off quickly the display 7 n end to Remote sense is loose 3 98 indicates Output voltage will not adjust Is the unit in constant current Check current limit setting 5 2 1 Front panel CC LED is on mode and load current 5 2 2 Output voltage will not Check if output voltage is 532 adjust adjusted above OVP setting Set OVP or UVL not to limit the output 533 Front panel CV LED is on or below UVL setting Output current will not adjust Is the unit in constant voltage Front panel CV LED is on mode Check current limit and voltage settings 5 2 Is the power supply in Remote Check load and sense wire connections 394 Large ripple present in output sense Is the voltage dropon for noise and impedance effects 398 the load wire high Minimize the drop on the load wires d Turn off the AC power switch Check load No output Display indicates Over Voltage Protection connections If analog programming is 532 OUP circuit is tripped used check if the OVP is set lowerthan the output Display indicates EnA Check rear panel B 5 72 Interlock Function eo Check rear panel J3 cn ne parie heuer ASPIRE ER Output Shut Off connection pot is blinking g Check if air intake or exhaust are blocked Display indicates Check if the unit is installed adjacentto 5 3 6 heat generating equipment Display indicates FDL d Check Foldback setting and load current 5 3 4 Poor Load regulation Are sensing wires Connect the
199. v pr fen ob die Einstellungen f r den OVP 7 niedriger als die Ausgangsspannung eingestellt ist An der R ckseite den ENABLE Anschluss Das Display zeigt an an J3 pr fen 5 72 SW1 ordnungsgem einstellen em An der R ckseite den Shut Off Anschluss Keine Ausgangsspannung Das Display zeigt 50 an J3 pr fen 5 7 1 PROT LED am Frontpanel blinkt URS Pr fen ob die L ftungs ffnungen Das Display zeigt DEP an verschlossen sind oder ob sich 5 3 6 Heizquellen in der N he befinden Das Display zeigt d an Foldback Einstellung und Laststrom pr fen 5 3 4 Schlechte Lastregelung CV Sind die Sense Leitungen Sense Leitungen laut Anweisungen im 398 LED am Frontpanel leuchtet ordnugsgem angeschlossen Handbuch anschlie en Ger t ausschalten und warten bis die Bedienelemente am Frontpanel Wird das Ger t im Local Anzeigen erloschen sind Ger t wieder 726 sind ausser Funktion Lockout Modus betrieben einschalten und REM Taste am Frontpanel bet tigen Tabelle 11 2 Fehlersuche 140 A ac cables acfail accessories acknowledge address auto restart B backspace baud rate c calibration configuration checksum communication constant current constant voltage cooling D daisy chain display E enable disable error message external resistor external voltage F fine fix mode foldback fuse front panel control front panel lock G GEN pro
200. value of the added Fold Back Delay FBDRST Reset the added Fold Back Delay to zero Sets the OVP level The OVP setting range is given in Table 7 9 The number of characters after OVPn OVP is up to 12 The minimum setting level is approx 10596 of the set output voltage or the value in Table 7 9 whichever is higher Attempting to program the OVP below this level will result in execution error response E04 The OVP setting stays unchanged OVP Returns the setting n where n is the exact string in the user s OVP n When in Local mode returns the last setting from the front panel in a 4 digit string OVM Sets OVP level to the maximum level Refer to Table 7 9 UV Returns the under voltage mode UVP or UVL UVLn Sets Under Voltage Limit Maximum value of n is 5 below PV setting but returns E06 if higher Refer to Table 7 10 for UVL programming range UVL nan Returns the setting n where n is the exact string in the user s UVL When in Local mode returns the last setting from the front panel in a 4 digit string When UVP is activated returns the setting UVP n Sets Under Voltage Protection Maximum value of n is 596 below PV setting but returns E06 if higher Refer to Table 7 10 for UVP programming range UVP wan Returns the setting n where n is the exact string in the user s UVP n When in Local mode returns the last setting from the front panel in a 4 digit string Sets the auto r
201. various status errors faults and SRQ register structures The registers can be read or set via the RS232 485 USB commands Refer to Fig 9 1 for the Status and Fault Registers Diagram STAT OPER COND STA T STAT OPER ENAB nnnn STAT OPER ENAB SENA nnnn SENA STAT OPER EVEN SEVE Fig 9 1 Status and Fault Registers Diagrams SCPI 127 Questionable Condition Fault Register Syst Err Queue LSB Condition Enable Event o SYST ERR Not used gt 0 gt _ _ 0 gt 0 EIR EI 1 AC Fail gt ov gt 11012 Sjyin tr 1t 2 L J Over Temperature gt gt 2 2 2 D ajt ar je 3 114 1 Foldback tripped gt FLD gt gt FLD gt 4 Over Voltage Protection gt OVP gt gt OVP gt 5 Shut Off gt SO gt gt SO gt E Output Off gt OFF gt OFF gt 7 Interlock gt I
202. vel 7 Press MENU button twice to return display to previous state MENU LED turns OFF 5 9 3 Last Setting Memory Memory stores last set parameters when AC switch is turned off For last set parameters refer to Table 5 7 75 TDK Lambda 5 9 4 Save lt 1 4 gt This command saves the present state of the power supply to a specified location in memory refer to Table 5 7 Up to 4 states can be stored Storage locations 1 through 4 are in nonvolatile memory Save Front panel setting 1 Press MENU button MENU green LED illuminates 5E E message appears on the Voltage display 2 Rotate Voltage encoder until 10 message appears on Voltage display 3 Press Voltage encoder 5 RUE message appears on Voltage display 4 Press Voltage encoder 5RUE message appears on Voltage display Numbers 1 4 appear on Current display 5 Rotate the Current encoder to select required number value and then press the Current encoder Display blinks and returns to previous level 5 9 5 Recall lt 1 4 gt This command recalls the present state of the power supply from a specified location in memory refer to Table 5 7 Up to 4 states can be stored Storage locations 1 through 4 are in nonvolatile memory Recall front panel setting 1 Uds p M Press MENU button MENU green LED illuminates 5 EE message appears on the Voltage display Rotate the Voltage encoder until message appears on Voltage display Pr
203. vents output voltage setting below UVL set value The UVP function prevents power supply operation if output voltage is below UVP set value Upon detection of an Under Voltage condition the power supply output will shut down The UVL prevents adjustment of the output voltage below a certain limit The combination of UVP UVL and OVP functions allows the user to create a protection window for sensitive load circuitry 5 3 3 1 Setting the UVP UVL Mode and Level The UVP UVL can be set when the power supply output is Enabled On or Disabled Off UVL and UVP setting values are limited at the maximum level to approximately 596 below the Output Voltage setting Attempting to adjust the value above this limit will result in no response to the adjustment attempt The minimum value setting is zero If UVP setting is below 596 of rated output voltage UVP will act as UVL When UVP is selected UVL will be disabled and Vice Versa 1 Press PROT button PROT GREEN LED illuminates Current display shows UP message 2 Press Current Encoder Voltage Display shows or ULIL message Current display shows setting level 3 Rotate the Voltage encoder to set or UUL and then press the encoder The display blinks once 4 Rotate the Current encoder to adjust the level 5 Press PROT button twice or wait 15 sec to return display to its previous state and then PROT LED turns OFF 5 3 3 2 Activated UVP Alarm When the UVP is activate
204. witch ON 4 Insert the software CD ROM that is shipped with the product to your CD ROM Drive The Z drivers selection menu will automatically appear click on the ICON USB drivers Install the USB Driver Do not connect or disconnect the USB cable when the PS is operating 7 6 Multi Power Supply Connection to RS232 Or RS485 or USB A Daisy chain configuration of up to 31 units can be connected to 5232 RS485 or USB The first unit connects to the controller via RS232 RS485 or USB and other units are connected with a RS485 bus The user must set all slave power supplies to a unique address No two power supplies may have the same address 1 First unit connection Select communication Interface Refer to section 7 2 3 2 Other unit connections The other units on the bus are connected via their RS485 interface Refer to Figures 7 6 and 7 7 for typical connections 3 Using the Linking cable supplied with each unit Refer to Fig 7 8 connect each unit OUT connector to the next unit IN connector RS232 485 RS485 RS485 RS485 IN OUT IN OUT IN OUT POWER SUPPLY POWER SUPPLY POWER SUPPLY 2 31 Fig 7 6 Multi power supplies RS232 485 connection IN OUT POWER SUPPLY 1 USB RS485 RS485 RS485 IN OUT IN OUT POWER SUPPLY POWER SUPPLY POWER SUPPLY 1 2 3 POWER SUPPLY 31 Fig 7 7 Multi power supplies USB connection 86 TDK Lambda NOTES It is recommended when using ten or more power supplies in D
205. y function to select between menu levels 7 Constant Green LED light for Constant Current mode operation indicator Main function output ON OFF control Press OUTPUT to set the output 524 8 OUTPUT ON or OFF Press to recovery after OVP UVP or FOLD fails Green LED 525 button indicator lights when the DC Output is enabled Auxiliary function Select between Safe Start and Auto Start modes Main function Go to local Press REM to put the unit into local REM 9 REM button indicator button is disabled at Local Lockout mode Green LED lights when the unit is in communication Remote mode Auxiliary function Communication menu Main function Press PREV to display the output voltage and current limit setting For 5 sec the display will show the setting and then it will return to show the actual output voltage and current Green LED lights um when PREV button is pressed M Auxiliary function Front Panel Lock Press and hold PREV button to toggle between Locked front panel and Unlocked front panel The display will cycle between LFP and UFP Releasing the PREV button while one of the modes is displayed selects that mode Voltage Current Delay and Counter Fine Coarse adjustment control Operates as a toggle switch In Fine mode the VOLTAGE and Current 11 FINE button indicator encoders operate with high resolution and in Coarse mode with lower resolution approx 6 turns Green LED lights when the unit is in Fine mode PROT but
Download Pdf Manuals
Related Search