IT6100 series programming manual
Contents
1. Bit Position 7 6 5 4 3 2 1 0 Bit name use nouse use no use no use unr OV Bit Value 4 2 1 STATus QUEStionable CONDition This order can read the parameter from quest condition register When a bit of quest condition changes the bit value corresponding in quest event register is 1 Quest syntax STATus QUEStionable CONDition Parameter None Return parameter lt NR1 gt STATus QUEStionable ENABle This order can set the parameter of quest event enable register Setting parameter can determine which bit value of quest event register is 1 and the bit will enable QUES of status byte register is 1 Order syntax STATus QUEStionable ENABle lt NRf gt Parameter 0 255 Reset value Consult PSC order Example STATus QUEStionable ENABle 128 Quest syntax STATus QUEStionable ENABle Return parameter lt NR1 gt Reference order PSC STATus OPERation EVENt This order can read the parameter from operation event register After executing this order operation event register is reset Quest syntax STATus OPERation EVENt Parameter None Return parameter lt NR1 gt Reference order STATus OPERation ENABle Bit determination of standard event status enable register Bit Position 7 6 5 4 3 2 1 0 Bit Name no use no use use RI CC CV WTG CAL Bit value 16 8 4 2 1 STATus OPERation CONDition T2. Bit Position 7 6 5 4 3 2 1 0 Bit Name OPER RQS ESB no use QUES no use no use no use Bit Value 128 64 32 8 TRG When power supply s trigger source is a order this order will give a trigger signal And it s function is as the same as the function of SYSTem TRIGger order Order syntax TRG Parameter None Reference order TRIG TRIG SORU SAV This order can save the parameters of power supply to register These parameter contains constant current constant voltage maximum voltage value and step voltage value Order syntax SAV lt NRf gt Parameter 1 50 Example SAV 3 Reference order RCL RCL This order can recall the parameter you saved before from the register Order syntax RCL lt NRf gt Parameter 1 50 Example RCL 3 Reference order SAV 4 2 SCPI Essential Order SYSTem ERRor NEXT This order can get the error code and error information of the power supply No error 1 Too many numeric suffices in Command Spec 10 No Input Command to parse Numeric suffix is invalid value Invalid value in numeric or channel list e g out of range Invalid number of dimensions in a channel list Parameter of type Numeric Value overflowed its storage Wrong units for parameter Wrong type of parameter s Wrong number of parameters Unmatched quotation mark single double in parameters Unmatched bracket Command keywords were not recognized No entry in list to retrieve number list or c
3. SAVe INITital 2 4 Output Order OUTPut STATe bool STATe TIMer STATe bool STATe DATA lt timer gt DATA SOURce MODE lt FlXed LIST DRM gt MODE VOLTage LEVel lt n gt LEVel PROTection STATe lt bool gt STATe LEVel lt n gt LEVel CURRent LEVel lt n gt LEVel LIST MODE mode MODE STEP lt step gt STEP COUNt n COUNt CURRent LEVel lt n gt lt n gt LEVel lt n gt VOLTage LEVel lt n gt lt n gt LEVel lt n gt WIDth lt gt lt gt WIDth lt n gt NAME string code gt AREA 1112 4 8 5 12 31415161718 RCL 11 2 3 4 5 6 7 8 Input Meaaure Order MEASure SCALar VOLTage DC CURRent DC POWer DC DVM DC RESistance DC 2 5 Port Configure Order SOURce SYSTem SENSe STATe bool STATe PORT MODE lt TRIGger RIDFi DIGital gt MODE RI MODE lt OFF LATChing LIVE gt MODE DFI SOURce lt OFF QUES OPER ESB RQS gt SOURce DiGital OUTPut STATe bool INPut STATe SENSe RESistance RANGe LOW MIDdle HIGH RANGe 2 6 Trigger Order TRIGger IMMediate SOURce source Chapter 3 SCPI Condition Register You can get the condition of power supply and read parameter from the operation register The power supply can get the
4. VOLT 1 3V Quest syntax SOURce TRANsition VOLTage TLEVel Parameter None Example LIST VOLT 1 Return parameter lt NR2 gt SOURce LIST WIDth This order can set the minimum step time Order syntax SOURce LIST WIDth lt NRf gt Parameter MIN TO MAX MIN MAX Unit S mS Example LIST WID 1 100mS Quest syntax SOURce LIST WIDth Parameter None Example LIST WID 1 Return parameter lt NR2 gt SOURce LIST NAME This order can set name for list file Make sure that the file name should less than 8 characters Order syntax SOURce LIST NAME lt name gt Parameter SRD Example LIST NAME TEST Quest syntax SOURce LIST NAME Return parameter lt SRD gt SOURce LIST AREA This order can divide the store area of list file with 4 methods 1 1 group of store area 400 steps 2 2 groups of store area each group has 200 steps 4 4 groups of store area each group has 100 steps 8 8 groups of store area each group has 50 steps Order syntax SOURce LIST AREA lt NR1 gt Parameter 1 2 4 8 Example LIST AREA 1 Quest syntax SOURce LIST AREA Return parameter lt NR1 gt SOURce LIST SAVe This order can save list file into register Order syntx SOURce LIST SAVe lt NR1 gt Parameter 1 8 Example LIST SAV 1 20 SOURce LIST RCL This order can recall the list file saved before from the register Order syntax SOURce LIST SAV lt NR1 gt Parameter 1 8 Examp
5. different state by 4 condition registers These registers are status byte register standard event register quest condition register and operation status register The status byte register stores the information of 3 other register You can get each register s meaning from the following table BIT Signal Meaning Operation status register 0 CAL The power supply is calculating new calibration parameter 1 WTG The power supply is waiting for trigger signal 2 CV The power supply is in constant voltage condition 3 CC The power supply is in constant current condition 4 RI Show the input level condition of RI Quest condition register 0 OV Over voltage 1 OT Over temperature 2 UNR The output of power supply is unregulated Standard event status register 0 OPC Operation of power supply is completed 2 QYE Query error Data of output array is missing 3 DDE Device dependent error Data stored in register is missing or error occurs in preliminary checkout 4 EXE Execution error Order parameter overflows or the condition is not right 5 CME Command error Syntax or semantic error occurs when receiving information 7 PON Power on It is 1when power supply is reset Status byte register 3 QUES If a quest enable condition changes QUES is 1 5 ESB If a standard event status enable register changes ESB is 1 6 MSS RQS 7 OPER If a operation event enable register changes OPER is 1 Structure of
6. IT6100 Series SCPI High Resolution and High Speed Programmable Power DC Supply Models IT6100 Series 176121 1761 22 1761 23 IT6151 1T6152 IT6153 1T6154 Copyright 2005 All Rights Reserved Ver1 1 MAR 2008 IT6100 508 Directory Abo ty r safety x terra ied t aree te sdk todd d oh i RS 3 Certification and Warranty ete Tete ie RR OVER HERE 3 Chapter 1 Remote Operation 5 1 1 IT E131 RS232 Communication Cable sse 5 1 2 IT E132 USB Communication Cable sss eene 5 1 8 IT E135 GPIB Communication Cable enne 5 Chapter 2 Communication Order for IT6100 sse enne 7 2 1 IEEE488 2 Common 7 2 2 SCPI Essential Order nee mee atn n tet fette te ders 7 2 9 Calibration re i erri eter Qe me i d re s 7 2 4 OFel REM 8 2 5 Port Configure Orde textes noue p ei e ERO EE e 9 2 6 Trigger Ordet z e eret tee e RI EE ed eee 9 Chapter SCPI Condition Register eren enne 9 Chapter 4 SCPI Order Description sess eene nennen nennen nnns 12 4 1 IEEE488 2 Common Order sse eene 12 4 2 SCPI Esseritial Order 5 de Tee Team meet RENTUR EU He dede 14 4 3 Output Order ete tet Pb eO Ret e d eim teet eei 17 4 4
7. Input measurement 41 02 0000000600000000000000000000000000 000000000 21 4 5Trigger ormdetr zsiood ote PRU reet e eqs 23 4 6 Calibration order ener nennen enne nnne nnns 23 About your safety Pease review the following safety precautions before operating our equipment General information The following safety precautions should be observed before using this product and any associated instrumentations Although some instruments and accessories would be used with non hazardous voltages there are situations where hazardous conditions may be present This product is intended for use by qualified personnel who recognize shock hazards and are familiar with the safety precautions required to avoid possible injury Read and follow all installation operation and maintenance information carefully before using the product Refer to this manual for complete product specifications If the product is used in a manner not specified the protection provided by the product may be impaired Before performing any maintenance disconnect the line cord and all test cables Protection from electric shock Operators of this instrument must be protected from electric shock at all times The responsible body must ensure that operators are prevented access and or insulated from every connection point In some cases connections must be exposed to potential human contact Product operators in these circumstances must be trai
8. MIN TO MAX MIN MAX Unit V mV RST value MAX Example VOLT PROT 30V VOLT PROT MAX Quest syntax SOURce VOLTage PROTection LEVel Parameter MIN MAX Example VOLT PROT VOLT PROT Return parameter lt NR2 gt SOURce LIST MODE This order can set list file CONTinious List operation is continuous mode STEP List operation is step mode Order syntax SOURce LISTMODE lt CRD gt Parameter CONTinious STEP Quest syntax SOURce LIST MODE Return parameter lt CRD gt SOURce LIST STEP This order can set operation mode of list file ONCE List operate once REPeat Repeat list operation Order syntax SOURce LIST STEP lt SRD gt Parameter ONCE REPeat Quest syntax SOURce LIST STEP Return parameter lt CRD gt SOURce LIST COUNt This order can set the steps of list operation Order syntax SOURce LIST COUNt lt NRf gt Parameter 2 400 Quest syntax SOURce LIST COUNt Parameter None Return parameter lt NR1 gt SOURce LIST CURRent LEVel This order can set current step Order syntax SOURce LIST CURRent LEVel lt NRf gt Parameter 0 30A Unit A mA Example LIST CURR 1 3A Quest syntax SOURce TRANsition CURRent TLEVel Parameter None Example LIST CURR 1 Return parameter NR2 SOURce LIST VOLTage LEVel This order can set voltage step Order syntax SOURce LIST VOLTage LEVel lt NRf gt Parameter 0 360V Unit V mV Example LIST
9. ameter unit R Example MEAS RES Interface Configure Order SOURce SYSTem SENSe STATe lt bool gt This order can control the power supply enable remote sense function or not Order syntax SYSTem SENSe STATe lt bool gt Parameter 0 1 ON OFF Quest syntax SYSTem SENSe STATe RST value 0 SOURce PORT MODE This order can set port function of rear panel TRIGGER function Pin1 pin2 can be used as the external trigger source of power supply and control list operation RI DFI function Inhibit Input can control the output state of power supply Fault Output can shows false DIGITAL I O function It can read and control output port state by order Order syntax SOURce PORT MODE Parameter TRIGger RIDFi DIGital Quest syntax SOURce PORT MODE RST value TRiGger SOURce RI MODE This order can set input mode of RI LITCHING mode When the level of RI port changes from high to low the output of power supply is off LIVE node The output state of power supply changes along with the level of RI port If the level of RI is high the output is on and the level of RI is low the output of power supply is off OFF mode The level state of RI do not affect the output state of power supply Order syntax SOURce RI MODE Parameter OFF LATChing LIVE Quest syntax SOURce RI MODE RST value OFF SOURce DFI SOURce This order can set output source of DFI LITCHING mode When the level of RI port changes f
10. art trigger operation once Bus Order trigger mode When this function is enabled and the power supply receives order TRG or TRIgger the power supply will start trigger operation once Order syntax TRIGger SOURce lt mode gt Parameter IMMediate EXTernal BUS RST value KEY 4 6 Calibration order CALibration SECure STATe Set protection mode enable or disable when calibrating the power supply Order syntax CALibration SECure STATe ON OFF gt lt password gt 23 Parameter 0 1 ON OFF 5811 Example CAL SEC 1 5811 CAL SEC OFF Quest syntax CALibration SECure STATe Parameter None CALibration VOLTage LEVel This order can set voltage calibration point P1 P2 P4 must be calibrated orderly Order syntax CALibration VOLTage LEVel lt point gt Parameter P1 P2 CALibration VOLTage DATA numeric value Return actual output voltage value of calibration point Order syntax CALibration VOLTage DATA lt NRf gt Parameter lt NRf gt Example CAL VOLT 30 0002V CALibration CURRent LEVel This order can set current calibration point 1 P2 P4 must be calibrated orderly Order syntax CALibration CURRent LEVel lt point gt Parameter P1 P2 CALibration CURRent DATA numeric value Return actual output current value to calibration point Order syntax CALibration CURRent DATA lt NRf gt Parameter lt NRf gt Example CAL VOLT 3 0002A CALibration DVM LEVel This order ca
11. condition register as following Quest condition register Oooo condition event enable OV 0 0 0 L OTli Oiio 12 2 n u 3 eS 3 3 B n u 4 4 4 54 5 E 5 5 5 n 6 127 6 6 m n 7 E 7 Zi 7 Bd Operation event register condition event Sab event enable CAL 0 L _ 2 m CC 3 S 3 4 4 4 n 5 27 5 5 a 5 6 6 i 6 n 7 7 a 7 Standard event status register vent enable 9 0 L nuli 11 QYE 5 2 Eo 13 Lyc EXE 4 l4 es C s Lis Li PIER EON PON SAM po INA Status byte register T N event enable nujo 0 L n u Ea QUES 3 n 4 La E 5 15 LIS 7 7 Chapter 4 SCPI Order Description 4 1 IEEE488 2 Common Order CLS This order can clean the register as follows Standard event status register Quest condition register Operation event register Status byte register Error code Order syntax CLS Parameter None ESE This order can set the parameter of standard event enable register Setting parameter can determine which bit value of standard event register is 1 and the byte will enable ESB of status byte register is 1 Order syntax ESE lt NRf gt Parameter 0 255 Reset value Consult PSC order Example ESE 128 Quest syntax ESE Return parameter lt NR1 gt Reference order ESR PSC STB Bit determi
12. ed mode or list mode FIXed Order fixed mode LIST List mode DRM Digital milliohm meter Order syntax SOURce MODE lt mode gt Parameter FIXed LIST IDRM RST value FlXed Example MODE FIX Quest syntax SOURce MODE Return parameter lt CRD gt SOURce CURRent LEVel This order can set current value of power supply Order syntax SOURce CURRent LEVel lt NRf gt Parameter MIN TO MAX MIN MAX Unit A mA RST value MIN Example CURR3A CURR30mA CURR CURR MIN Quest syntax SOURce CURRent LEVel Parameter MIN MAX Example CURR CURR MAX CURR MIN Return parameter lt NR2 gt SOURce VOLTage L EVel This order can set voltage value of power supply Order syntax SOURce VOLTage LEVel lt NRf gt Parameter MIN TO MAX MIN MAX Unit V mV KV RST value MAX Quest syntax SOURce VOLTage L EVel Parameter MIN MAX Return parameter NR2 SOURce VOLTage PROTection STATe This order can set over voltage protection Order syntax SOURce VOLTage PROTection STATe lt bool gt Parameter 0 1 OFF Unit None RST value OFF Example VOLT PROT STAT 1 VOLT PROT STAT ON Quest syntax SOURce VOLTage PROTection STATe Parameter None Example VOLT PROT STAT Return parameter 0 1 gt SOURce VOLTage PROTection L EVel This order can set voltage protection maximum level Order syntax SOURce VOLTage PROTection LEVel lt NRf gt Parameter
13. hannel list Too many dimensions in entry to be returned in parameters Command Execution error Too many command Rxd error Parity oo0oooocooooocoo o 5 A lt lt OONDOORWN HH Error EEPROM Config data error Error Calibration data Factory Data error Order syntax SYST ERR Parameter None Return parameter 1 SRD SYSTem VERSion This order can query the software version Order syntax SYST VERS Parameter None Return parameter lt NR2 gt SYSTem ADDRess This order can query address of SOURCE METER Order syntax SYST ADDR Parameter None Return parameter lt NR2 gt SYSTem REMote This order can set SOURCE METER as remote control mode Order syntax SYST REM Parameter None Quest syntax None SYSTem LOCal This order can set SOURCE METER as panel control mode Order syntax SYST LOC Parameter None Query syntax None SYSTem RWLock STATe This order can set LOCAL key of SOURCE METER enable or not Order syntax SYST RWL STATus QUEStionable EVENt This order can read the parameter from quest event register After executing quest event register is reset Quest syntax STATus QUEStionable EVENt Parameter None Return parameter lt NR1 gt Reference order STATus QUEStionable ENABle Bit determination of standard event status enable register
14. he USB interface connector of computer for the communication IT E132 communication adapter pasm HE ere 1 3 IT E135 GPIB Communication Cable The 9 interface connector on the rear panel of power supply is TTL voltage level you can use the GPIB communication cable IT E135 to connect the DB9 interface connector of the power supply and then connect the GPIB interface of the IT E135 and computer with GPIB IEEE 488 line for the communication IT E135 outer communication adapter COM interface of Power supply 27 GPIB line IT E135 ISOLATED Serial IEEE 488 Controller 5 Note Forbidden to connect DB9 connector in power supply directly with PC or other RS232 port Chapter 2 Communication Order for IT6100 2 1 IEEE488 2 Common Order CLS ESE ESE ESR IDN OPC OPC PSC PSC RST SRE SRE STB TRG SAV 2 2 SCPI Essential Order SYSTem ERRor NEXT VERSion ADDRess REMote LOCal RWLock STATus QUEStionable EVENt CONDition ENABle VALUE OPERation CONDition ENABle lt VALUE gt 2 3 Calibration Order CALibration SECure STATe lt ON OFF gt lt quoted code gt STATe VOLTage LEVel level DATA numeric value gt CURRent LEVel level DATA numeric value DVM LEVel level DATA numeric value
15. his order can read the parameter from the operation condition When the parameter of operation condition register changes the bit corresponding in operation event register is 1 Quest syntax STATus OPERation CONDition Parameter None Return parameter lt NR1 gt STATus OPERation ENABle This order can set the parameter of operation even enable register Setting parameter can determine which bit value of operation event register is 1 and the bit will enable OPER of status byte register is 1 Order syntax STATus OPERation ENABle lt NRf gt Parameter 0 255 Reset value Consult PSC order Example STATus OPERation ENABle 128 Quest syntax STATus OPERation ENABle Return parameter lt NR1 gt Reference order PSC 4 3 Output Order OUTPut STATe This order can set power supply output on or off Order syntax OUTPut STATe lt bool gt Parameter 0 1 ON OFF RST value OFF Quest syntax OUTPut STATe Return parameter O i OUTPut TIMer STATe This order can set output timer s state of power supply Order syntax OUTPut TIMer STATe bool Parameter 0 1 ON OFF RST value OFF Quest syntax OUTPut TIMer STATe Return parameter O i OUTPut TIMer DATA This order can set the time of output timer Order syntax OUTPut TIMer DATA lt NR1 gt Parameter NR2 RST value 1 Quest syntax OUPut TIMer DATA Return parameter NR2 SOURce MODE This order can set the power supply working in order fix
16. l reset 0 OR OFF The data of status byte register operation event enable register quest event enable register and standard event status enable register is stored in nonvolatile register and is recalled when power supply is reset Order syntax bool Parameter 0 1 ON OFF Quest syntax PSC Return parameter O i Reference order ESE SRE STAT OPER ENAB STAT QUES ENAB RST This order reset the power supply to default setting CAL SEC STAT OFF OUTP OFF CURR MAX VOLT PROT MAX VOLT MIN TRIG SOUR BUS SYST SENS OFF PORT MODE TRIG RI MODE OFF DFI SOUR OFF VOLT PROT STAT OFF Order syntax RST gt Parameter None SRE This order can set the parameter of standard event register Setting parameter can determine which byte value of status byte register is 1 and the byte will enable RQS of status byte register is 1 Bit definition of status byte enable register is as the same as the status byte register Order syntax SRE lt NRf gt Parameter 0 255 Reset value Consult order Example SRE 128 Quest syntax SRE Return parameter lt NR1 gt Reference Order ESE ESR STB STB This order can read the data from status byte register After executing this order status byte register is reset Quest syntax STB Parameter None Return parameter lt NR1 gt Reference order CLS ESE ESR Bit determination of standard event status enable register
17. le LIST SAV 1 4 4 Input measurement order MEASure SCALar VOLTage DC This order can get the input voltage of power supply Order syntax MEASure SCALar VOLTage DC Parameter None Return parameter NR2 Return parameter unit V Example MEAS VOLT MEASure SCALar CURRent DC This order can get the input current of power supply Order syntax MEASure SCALar CURRent DC Parameter None Return parameter NR2 Return parameter unit A Example MEAS CURR MEASure SCALar POWer DC This order can get the input power of the power supply Order syntax MEASure SCALar POWer Parameter None Return parameter NR2 Return parameter unit W Example MEAS POW MEASure SCALar DVM DC This order can get voltage value from the digital voltage meter Order syntax MEASure SCALar DVM Parameter None Return parameter NR2 Return parameter unit V Example MEAS DVM SENSe RESistance RANGe This order can set the range of millionm meter LOW 0 01W resistance range MIDDLE 0 1W resistance range HIGH 1W resistance range Order syntax SENSe RESistance RANGe Parameter LOW MlDdle HIGH Example RES RANG LOW 21 Quest syntax SENSe RESistance RANGe Return parameter lt SRD gt MEASure SCALar RESistance DC This order can read the resistance value from the milliohm meter Order syntax MEASure SCALar RESistance Parameter None Return parameter NR2 Return par
18. n set current calibration point 1 P2 P4 must be calibrated orderly Order syntax CALibration DVM LEVel point Parameter P1 P2 P3 P4 CALibration DVM DATA numeric value Return actual output current value to calibration point Order syntax CALibration DVM DATA lt NRf gt Parameter lt NRf gt Example CAL VOLT 3 0002A CALibration SAVe This order can save calibration coefficient into nonvolatile register Order syntax CALibration SAVe Parameter None CALibration INITial This order can renew the current calibration coefficient as default Order syntax CALibration INITial Parameter None 24
19. nation of standard event status enable register Bit position 7 6 5 4 3 2 1 0 Bit Name Notused CME EXE DDE QYE Notused OPC N Bit Weight 128 32 16 8 4 PON Power on DDE Device dependent error CME Command error QYE Query error EXE Execution error OPC Operation complete ESR This order can read the value of standard event status register After executing this order standard event status register is reset Bit definition of standard event status register is as the same as the standard event status enable register Quest syntax ESR Parameter None Return parameter lt NR1 gt Reference order CLS ESE ESE OPC IDN This order can read information about power supply The parameter it returns contains 4 segments divided by comma Quest syntax IDN Parameter None Return parameter lt AARD gt segment description ITECH manufacturer XXXX product mode XXXXXX product serial number VX XX software version number For example ITECH 6152 000004 V1 01 OPC When all orders before this order are executed OPC is 1 of the standard event status register Order syntax OPC Parameter None Quest syntax OPC Return parameter lt NR1 gt PSC This order control if power supply send a query or not when it is reset 1 OR ON When power supply is reset operation event enable register query event enable register and standard event status register are al
20. ned to protect themselves from the risk of electric shock If the circuit is capable of operating at or above 1000 volts no conductive part of the circuit may be exposed Definition of users Responsible body is the individual or group responsible for the use and maintenance of equipment is operated within its specifications and operating limits and for ensuring that operators are adequately trained Operators use the product for its intended function They must be trained in electrical safety procedures and proper use of the instrument They must be protected from electric shock and contact with hazardous live circuits Service is only to be performed by qualified service personnel Safety symbols and terms Connect it to safety earth ground using the wire recommended in the user manual The symbol on an instrument indicates that the user should refer to the operating instructions located in the manual High voltage danger Certification and Warranty Certification We certify that this product met its published specifications at time of shipment from the factory Warranty This instrument product is warranted against defects in material and workmanship for a period of one year from date of delivery During the warranty period we will at its option either repair or replace products which prove to be defective For warranty service with the exception of warranty options this product must be returned to a service facility designated by
21. rom high to low the output of power supply is off LIVE node The output state of power supply changes along with the level of RI port If the 22 level of RI is high the output is on and the level of RI is low the output of power supply is off OFF mode The level state of RI do not affect the output state of power supply Order syntax SOURce DFI SOURce Parameter OFF QUES OPER ESB RQS Quest syntax SOURce DFI SOURce RST value OFF SOURce DIGital OUTPut STATe This order can set the output state of port When the mode of port is DIGITAL this order is enable Order syntax SOURce OUTPut STATe Paremeter OFF ON 0 1 SOURce DI Gital INPut STATe This order can set the input state of port When the mode of port is DIGITAL this order is enable Order syntax SOURce INPut STATe 4 5Trigger order TRIGger IMMediate When trigger source is order mode this order will give a trigger signal And its function is as the same as TRG order Order syntax TRIGger IMMediate Parameter None Reference order TRIG TRIG SORU TRIGger SOURce This order can set the trigger mode of power inb IMMediate If this function is enabled press C Shift CrriggeD the power supply will start trigger operation once EXTernal External trigger signal TTL There is a trigger input port on the rear panel When this function is enabled please give this trigger input port a pulse about 5 mS and the power supply will st
22. us Customer shall prepay shipping charges by and shall pay all duty and taxes for products returned to the supplier for warranty service Except for products returned to customer from another country supplier shall pay for return of products to customer Limitation of Warranty The foregoing warranty shall not apply to defects resulting from improper or inadequate maintenance by the Customer Customer supplied software or interfacing unauthorized modification or misuse operation outside of the environmental specifications for the product or improper site preparation and maintenance Chapter 1 Remote Operation Mode The 9 interface connector on the rear panel of the power supply can be transferred to RS 232 interface the following information will tell you how to use the computer to control the output of the power supply 1 1 131 5232 Communication Cable The 9 interface connector on the rear panel of power supply is TTL voltage level you can use the communication cable IT E131 to connect the DB9 interface connector of the power supply and the RS 232 interface connector of computer for the communication Computer side TTL RS232 Cable IT E131 PS side 131 communication adapter 1 2 IT E132 USB Communication Cable The 9 interface connector on the rear panel of power supply is TTL voltage level you can use the communication cable IT E132 to connect the DB9 interface connector of the power supply and t
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