Page 1 Front cover PROGRAMMING MANUAL ELECTRONIC LOAD LSG SERIES LSG-175H LSG-350H LSG-1050H LSG-175 LSG-350 LSG-1050 B71-0490-01...
Page 2 ■ About a trademark, a registered trademark A company name and the brand name mentioned in this instruction manual are the trademark or the registered trademark of each company or group in each country and region. ■ About this instruction manual When copying the part or all of contents of this instruction manual, seek the copyright holder.
Page 3: Table Of Contents
CONTENTS 1. INTERFACE OVERVIEW ............1 1-1. Front Panel Overview ............1 1-2. Rear Panel Overview ............1 2. INTERFACE Configure ............2 2-1. Configuring the USB Interface .......... 2 2-2. Configuring the RS-232C Interface ........2 2-3. Configuring the GP-IB Interface ........3 2-4.
Page 4 4-5-1. :FETCh:CURRent ................24 4-5-2. :FETCh:POWer ................. 24 4-5-3. :FETCh:VOLTage ................24 4-6. Configure Subsystem Commands ........25 4-6-1. [:CONFigure]:OCP ................25 4-6-2. [:CONFigure]:OPP ................26 4-6-3. [:CONFigure]:UVP ................26 4-6-4. [:CONFigure]:UVP:TIME ..............27 4-6-5. [:CONFigure]:OVP ................27 4-6-6. [:CONFigure]:SSTart ................. 28 4-6-7.
Page 5 4-9-1. [:CONFigure]:EXTernal[:CONTrol] ............ 47 4-9-2. [:CONFigure]:EXTernal:CV ............... 47 4-9-3. [:CONFigure]:EXTernal:LOADonin ........... 48 4-10. Mode Subsystem Commands ........49 4-10-1. :MODE .................... 49 4-10-2. [:MODE]:CRANge ................49 4-10-3. [:MODE]:VRANge ................50 4-10-4. [:MODE]:RESPonse ................ 50 4-10-5. [:MODE]:DYNamic ................51 4-11. Current Subsystem Commands ........52 4-11-1.
Page 6 4-13. Voltage Subsystem Commands ........71 4-13-1. :VOLTage[:VA] ................71 4-13-2. :VOLTage:VB .................. 71 4-13-3. :VOLTage:RECall ................72 4-14. Power Subsystem Commands ........73 4-14-1. :POWer[:VA] ................... 73 4-14-2. :POWer:VB ..................73 4-14-3. :POWer:L1 ..................74 4-14-4. :POWer:L2 ..................74 4-14-5.
Page 7 4-16-14. :NSEQuence:EDIT:END ............... 97 4-16-15. :NSEQuence[:DELet]:ALL ............. 97 4-16-16. :NSEQuence:SAVE ..............98 4-16-17. :NSEQuence:COTime ..............98 4-17. Fast sequence Commands ........... 99 4-17-1. :FSEQuence:STATe ............... 99 4-17-2. :FSEQuence ................. 100 4-17-3. :FSEQuence:MEMO ..............102 4-17-4. :FSEQuence:MODE ..............102 4-17-5. :FSEQuence:RANGe ..............103 4-17-6.
Page 8 4-19-11. :OPP[:CHANnel]:TRIGger ............123 4-19-12. :OPP[:CHANnel]:LAST ............... 123 4-19-13. :OPP:CHANnel:STATus ............. 124 4-19-14. :OPP:RESult ................124 4-19-15. :OCP:RUN .................. 124 4-20. BATT Test Commands ..........125 4-20-1. :BATTery:STATe ................125 4-20-2. :BATTery:EDIT ................126 4-20-3. :BATTery [:CHANnel]:NUMBer ............. 127 4-20-4. :BATTery:MEMO ................127 4-20-5.
Page 9 4-23-5. :SETup:SAVE ................144 4-23-6. :SETup:RECall ................144 4-23-7. :FACTory[:RECall] ................ 144 4-23-8. :USER[:DEFault]:SAVE ..............144 4-23-9. :USER[:DEFault]:RECall ............... 144 4-24. SCPI Status Commands ..........145 4-24-1. :SYSTem:ERRor ................145 4-24-2. :STATus:PRESet ................145 4-25. Csummary Status Commands ........146 4-25-1. :STATus:CSUMmary:CONDition ..........146 4-25-2.
Page 10: Interface Overview
1. INTERFACE OVERVIEW This manual describes how to use the LSG Series remote command functionality and lists the command details. 1-1. Front Panel Overview Air inlet Preset key LCD Display Function keys Power key Main/Local FUNC/File Local Main Help/Utility File FUNC Utility Short...
Page 11: Interface Configure
2. INTERFACE Configure 2-1. Configuring the USB Interface PC side connector Type A, host LSG side connector Rear panel Type B, device port Speed 2.0 (full speed) USB Class USB CDC Before USB can be used for remote control, it is necessary to install the USB device driver, located on the accompanying Note User Manual CD.
Page 12: Configuring The Gp-Ib Interface
2-3. Configuring the GP-IB Interface To use GP-IB, the optional GP-IB port must be installed. Please refer to the instruction manual for more information. Operation Ensure the LSG Series is off before proceeding. Connect a GP-IB cable from a GP-IB controller to the GP-IB port on the LSG Series.
Page 13: Rs-232C/Usb Remote Control Function Check
RS-232/USB remote control. *IDN? This should return the Manufacturer, Model number, Serial number, and Firmware version in the following format. 1050 TEXIO,LSG- H, XXXXXXXXX, V.X.X.X.X Manufacturer: TEXIO Model number : LSG-1050H Serial number : XXXXXXXXX Firmware version : V.X.X.X...
Page 14: Using Realterm To Establish A Remote Connection
2-5. Using RealTerm to Establish a Remote Connection Background RealTerm is a terminal program that can be used to communicate with a device attached to the serial port of a PC or via an emulated serial port via USB. The following instructions apply to version 1.99.0.27. Even though RealTerm is used as an example to establish a remote connection, any terminal program can be used that has similar functionality.
Page 15 Enter the query: *idn? Click on Send ASCII. The terminal display will return the following: TEXIO, LSG-XXXXH,XXXXXXXXX,VX.XX.XXX (manufacturer, model, serial number, version) If RealTerm fails to connect to the LSG Series, please check all the cables and settings and try again.
Page 16: Gp-Ib Function Check
Automation Controller software to confirm GP-IB functionality. See the National Instrument website, http://www.ni.com for details. For further details, please see the programming manual, available on the TEXIO TECHNOLOGY web site Note www.texio.co.jp Operation(1/2) Start the NI Measurement and Automation Explorer (MAX) program.
Page 17 Send String: text box. Click on the Query button to send the *IDN? query to the instrument. The String Received text box will display the query return: TEXIO, LSG-XXXXH,XXXXXXXXX,VX.XX.XXX (manufacturer, model, serial number, version) The function check is complete.
Page 18: Command Overview
3. COMMAND OVERVIEW The command syntax section shows you the basic syntax rules you have to apply when using commands. 3-1. Command Syntax Compatible IEEE488.2 Partial compatibility Standard SCPI, 1999 Partial compatibility Command SCPI (Standard Commands for Programmable Instruments) Structure commands follow a tree-like structure, organized into nodes.
Page 19 Command Commands and queries have two different forms, long and forms short. The command syntax is written with the short form of the command in capitals and the remainder (long form) in lower case. The commands can be written in capitals or lower-case, just so long as the short or long forms are complete.
Page 20 Common Unit Suffixes Unit suffixes can be optionally used with input (Optional most NRf type input parameters. parameters parameters) (2/2) Type Description Example Amps 1.00A Percentage Volts 5.00V Watts 3.00W [ms] milliseconds 20ms [mV] Millivolts 150mV Seconds [OHM] 50OHM [mS] Reciprocal of 1k ohms 20mS [MHO]...
Page 21: Command Details
4. COMMAND DETAILS 4-1. Common Commands 4-1-1. *CLS Description Clears all Event registers and queues. Setting syntax *CLS Setting example *CLS Clears all Event registers and queues. 4-1-2. *ESE Query Description Queries or sets the Standard Event Status Enable register. The Standard Event Status Enable register determines which events can set the Event Summary bit (ESB) in the Status Byte Register.
Page 22: Esr
<NR1> Returns the serial number. <ASCII string> Returns the version of firmware. Query example * IDN? > TEXIO,LSG-175H,12345678,V1.01.001 It is a response equipment manufacturer, model number, serial number, and firmware version. 4-1-5. *OPC Query Description This command sets the OPC (Operation Command Bit) bit (bit 0) of the Standard Event Status Register after the instrument has completed all pending operations.
Page 23: Rcl
4-1-6. *RCL Description The Recall Instrument State command restores the instrument settings from a previously saved memory setting. Setting syntax *RCL <NR1> Setting parameter <NR1> Memory number 1 to 256 Setting example *RCL 20 Recall setting memory 20. Same function :MEMory:RECall command 4-1-7.
Page 24: Sre
4-1-9. *SRE Query Description Queries or sets the Service Request Enable register. The Service Request Enable register determines which events in the Status Byte register can set the Master Summary bit (MSB) in the Status Byte Register. Any bits that are set to 1 will cause the MSS bit to be set.
Page 25: Trg
4-1-11. *TRG Description This command is issue the enforcement trigger. Setting syntax *TRG Setting example *TRG Issue the enforcement trigger. Related commands :INITiate:CONTinuous, :INITiate[:IMMediate] 4-1-12. *TST Query Description This command is a standard SCPI self-test command. The LSG series does not perform any self-tests so will always return 0 (pass) for this command.
Page 26: Trigger Commands
4-2. Trigger Commands Trigger States PEL-3000H power on *RST, ABORt Idle state :INITiate[:IMMediate], :INITiate:CONTinuous ON Trigger Wait state *TRG, manual trigger Triggered :INIT:CONT...
Page 27: Abort
4-2-1. :ABORt Description Clears the trigger wait status and returns to the idle state. Setting syntax :ABORt Setting example :ABOR Clears the trigger wait status. 4-2-2. :INPut[:STATe]:TRIGgered Description Sets whether to turn on the load input when the trigger is activated.
Page 28: Initiate:continuous
4-2-4. :INITiate:CONTinuous Query Description Setting or query for state of the continuous waiting for the trigger. Note: Release of the trigger wait state requires activation of the trigger. Setting syntax :INITiate:CONTinuous {<Boolean>|OFF|ON} Setting parameter OFF | 0 Remove the continuous waiting for the trigger.
Page 29: Trigger[:Pulse]:Width
4-2-6. :TRIGger[:PULSe]:WIDTh Query Setting and query for the trigger output signal’s pulse Description width. Setting syntax :TRIGger[:PULSe]:WIDTh {<NR2>|MINimum|MAXimum} Setting parameter <NR2> Set the pulse width in seconds. ( 0.0000025~0.005 ) MINimum Minimum pulse width MAXimum Maximum pulse width Setting example :TRIG:WIDT MAX Sets the trigger pulse width to Maximum.
Page 30: Input Commands
4-3. Input Commands 4-3-1. :INPut Query Description Setting and Query for the status of the load. Setting stop and restart of program, sequence, OCP test. Setting syntax :INPut {<Boolean>|OFF|ON} Setting parameter OFF | 0 Sets the off the load input setting. Sets stop of program, sequence, OCP test.
Page 31: Input]:Short
4-3-3. [:INPut]:SHORt Query Description Setting and query for the input terminals state (open or short). Setting syntax [:INPut]:SHORt {<Boolean>|OFF|ON} Setting parameter OFF | 0 Sets the open. ON | 1 Sets the short. Setting example :SHOR ON Sets the short. Query syntax [:INPut]:SHORt? Return parameter...
Page 32: Measurement Commands
4-4. Measurement Commands 4-4-1. :MEASure:CURRent Query Description Query of current measurement. Query syntax :MEASure:CURRent? Return parameter <NR2> Return the current measurement. The unit is the [A]. Query example :MEAS:CURR? >0.50000 Current measurement is 0.5A. 4-4-2. :MEASure:ETIMe Query Description Query of the elapsed time of the load-on. Query syntax :MEASure:ETIMe? Return parameter...
Page 33: Fetch Commands
4-5. Fetch Commands 4-5-1. :FETCh:CURRent Query Description This query returns the real-time current of the load input. Query syntax FETCh:CURRent? Return parameter <NR2> Returns the real-time current .The unit is [A] Query example :FETC:CURR? >0.50000 The load has a current of 0.5 amps at the input. 4-5-2.
Page 34: Configure Subsystem Commands
4-6. Configure Subsystem Commands 4-6-1. [:CONFigure]:OCP Query Description Setting and query for the OCP trip settings. The OCP limit can be set to a specific value or the trip setting can be set to either limit the current or to turn the load off.
Page 35: Configure]:Opp
4-6-2. [:CONFigure]:OPP Query Description Setting and query for the OPP trip settings. The OPP limit can be set to a specific value or the trip setting can be set to either limit the power or to turn the load off. Setting syntax [:CONFigure]:OPP {<NRf>|MINimum|MAXimum|LIMit|LOFF}...
Page 36: Configure]:Uvp:time
4-6-4. [:CONFigure]:UVP:TIME Query Description Setting and query for the UVP ring time setting. Setting syntax :[CONFigure]:UVP:TIME {<NR1>|MINimum|MAXimum|INFinity} Setting parameter <NR1> The ring time in seconds (0～600); 0 = OFF The unit is [s]. MINimum Minimum ring time MAXimum Maximum ring time INFinity Sets the ring time to infinity.
Page 37: Configure]:Sstart
4-6-6. [:CONFigure]:SSTart Query Description Setting and query for the Soft Start time setting. Setting syntax [:CONFigure]:SSTart {<NRf>|OFF|MINimum|MAXimum} Setting parameter <NRf> The soft start time in seconds. The unit is [s]. OFF = 0 seconds MINimum Minimum time = 0 seconds MAXimum Maximum time Setting example...
Page 38: Configure]:Vdelay
4-6-8. [:CONFigure]:VDELay Query Description Setting and query for the Von Delay settings in seconds. Setting syntax [:CONFigure]:VDELay {<NRf>|OFF|MINimum|MAXimum } Setting parameter <NRf>[s] The delay time in seconds. The unit is [s]. Disable the delay time MINimum Minimum delay time MAXimum Maximum delay time Setting example1 :VDEL 2.5ms...
Page 39: Configure]:Cntime
4-6-10. [:CONFigure]:CNTime Query Description Setting and query for the Count time timer function. Setting syntax [:CONFigure]:CNTime {OFF|ON} Setting parameter Turns the Count Time timer off. Turns the Count Time timer on Setting example :CNT ON Turns the Count Time timer on. Query syntax [:CONFigure]:CNTime? Return parameter...
Page 40: Configure]:Crunit
4-6-12. [:CONFigure]:CRUnit Query Description Setting and query for the CR mode setting units. Setting syntax [:CONFigure]:CRUnit {OHM|MHO} Set the "Ω" to unit. Setting parameter Set the "mS" to unit. (conductance) Setting example :CRU OHM Sets the CR mode units to ohms. Query syntax [:CONFigure]:CRUnit? Return parameter...
Page 41: Configure:memory
4-6-14. :CONFigure:MEMory Query Description This command configures how the files are recalled in local operation mode. By default when you try to recall a file or setting from memory, a message will appear asking you to press the Enter key to confirm each time you wish to recall. This command enables (SAFEty) or disables this feature (DIRect).
Page 42: Configure:short:safety
4-6-16. :CONFigure:SHORt:SAFety Query Description Turns the Short Safety function on/off. The short safety function requires the load to already be turned on before the load can be shorted using the Short key or :INPut:SHORt command. Setting syntax :CONFigure:SHORt:SAFety {<Boolean>|OFF|ON} Setting parameter OFF | 0 ON | 1 Setting example...
Page 43: Configure]:Gng:mode
4-6-18. [:CONFigure]:GNG:MODE Query Description Setting and query for the entry mode for the Go-NoGo settings. The entry mode determines whether the Go-NoGo limits are set as values or as a percentage value from a center reference value. Setting syntax [:CONFigure]:GNG:MODE {PERCent|VALue} Setting parameter PERCent Sets the entry mode to %.
Page 44: Configure]:Gng:l
4-6-20. [:CONFigure]:GNG:L Query Description Setting and query for the low voltage/current limit value. If the entry mode is set to value, the low voltage/current limit value units are in volts/amps. If the entry mode is set to percent, the low voltage/current limit value units are in percent.
Page 45: Configure]:Gng:dtime
4-6-22. [:CONFigure]:GNG:DTIMe Query Description Setting and query for the Go-NoGo delay time. Setting syntax [:CONFigure]:GNG:DTIMe {<NRf>|MINimum|MAXimum} Setting parameter <NRf> Sets the Go-NoGo delay time in seconds (0.0~1.0) with 0.1 second resolution. The unit is [s]. MINimum Minimum delay time MAXimum Maximum delay time Setting example :GNG:DTIM 0.5...
Page 46: Configure]:Gng[:Pass]
4-6-24. [:CONFigure]:GNG[:PASS] Query Description Queries the Go-NoGo test result(s). This command can be used for all test modes (CC, CV, CR, CP). Query syntax [:CONFigure]:GNG[:PASS]? Return parameter Returns the Go-NoGo test result. No Good (Fail) Good (Pass) Query example :GNG? >GO The Go-NoGo test result is Pass.
Page 47: Parallel Commands
4-7. Parallel Commands 4-7-1. [:CONFigure]:PARallel Query Description Configures the unit for parallel operation, or queries its state. This command configures the unit as a Master or Slave, and configures how many slave units are connected if the unit is configured as a master. Setting syntax [:CONFigure]:PARallel { MASTer|SLAVe|OFF|P2|P3|P4|P5|B1|B2|B3|B4}...
Page 48: Step Commands
4-8. Step Commands 4-8-1. :CONFigure:STATus Query Description Sets the mode used for the set resolution when using the scroll wheel to edit parameters. Setting syntax :CONFigure:STATus {STEP|CURSOR} Setting parameter STEP Knob Status = Step (coarse/fine) CURSOR Knob Status = Cursor Setting example :CONF:STAT STEP Sets the mode to STEP.
Page 49: Configure]:Step:cch
4-8-3. [:CONFigure]:STEP:CCH Query Description Setting and query for the step resolution for CC High Range. Note: The step resolution setting will be automatically rounded to the closest multiple of the base resolution. Setting syntax [:CONFigure]:STEP:CCH {<NRf>|MINimum|MAXimum} Setting parameter <NRf> Step resolution. Unit is [A] MINimum Minimum step resolution MAXimum...
Page 50: Configure]:Step:ccl
4-8-5. [:CONFigure]:STEP:CCL Query Description Setting and query for the step resolution for CC low Range. Note: The step resolution setting will be automatically rounded to the closest multiple of the base resolution. Setting syntax [:CONFigure]:STEP:CCL {<NRf>|MINimum|MAXimum} Setting parameter <NRf> Step resolution. Unit is [A] MINimum Minimum step resolution MAXimum...
Page 51: Configure]:Step:crh
4-8-7. [:CONFigure]:STEP:CRH Query Description Setting and query for the step resolution for CR High Range. Note: The step resolution setting will be automatically rounded to the closest multiple of the base resolution. Setting syntax [:CONFigure]:STEP:CRH {<NRf>|MINimum|MAXimum} Setting parameter <NRf> Step resolution. Unit is [mS] MINimum Minimum step resolution MAXimum...
Page 52: Configure]:Step:crl
4-8-9. [:CONFigure]:STEP:CRL Query Description Setting and query for the step resolution for CR Low Range. Note: The step resolution setting will be automatically rounded to the closest multiple of the base resolution. Setting syntax [:CONFigure]:STEP:CRL {<NRf>|MINimum|MAXimum} Setting parameter <NRf> Step resolution. Unit is [mS] MINimum Minimum step resolution MAXimum...
Page 53: Configure]:Step:cvh
4-8-11. [:CONFigure]:STEP:CVH Query Description Setting and query for the step resolution for CV High Range. Note: The step resolution setting will be automatically rounded to the closest multiple of the base resolution. Setting syntax [:CONFigure]:STEP:CVH {<NRf>|MINimum|MAXimum} Setting parameter <NRf> Step resolution. Unit is [V] MINimum Minimum step resolution MAXimum...
Page 54: Configure]:Step:cp
4-8-13. [:CONFigure]:STEP:CP Query Description Queries the step resolution for each CP Mode range. Query syntax [:CONFigure]:STEP:CP? Return parameter Returns the step resolution for each CP Mode range, by the string. Unit is [W] CPH:<NR2> The step resolution for each CP Mode H range.
Page 55: Configure]:Step:cpm
4-8-15. [:CONFigure]:STEP:CPM Query Description Setting and query for the step resolution for CP Medium Range. Note: The step resolution setting will be automatically rounded to the closest multiple of the base resolution. Setting syntax [:CONFigure]:STEP:CPM {<NRf>|MINimum|MAXimum} Setting parameter <NRf> Step resolution. Unit is [W] MINimum Minimum step resolution MAXimum...
Page 56: External Control Commands
4-9. External Control Commands 4-9-1. [:CONFigure]:EXTernal[:CONTrol] Query Description Setting and query for the external control of CC, CR, CV, CP mode. Setting syntax [:CONFi gure]:EXTernal[:CONTrol] {OFF|VOLTage|RESistance|RINV} Setting parameter Disables external control VOLTage Sets the unit to external voltage control RESistance Sets the unit to external resistance control RINV Sets the unit to external resistance...
Page 57: Configure]:External:loadonin
4-9-3. [:CONFigure]:EXTernal:LOADonin Query Description Setting and query for turned on and off with the external switch. External switch (LoadOn IN) is whether or not turned on the load setting of at the time of the open (HIGH) or closed (LOW). Setting syntax [:CONFigure]:EXTernal:LOADonin {OFF|High|Low} Setting parameter...
Page 58: Mode Subsystem Commands
4-10. Mode Subsystem Commands 4-10-1. :MODE Query Description Setting and query for the operating modes. Setting syntax :MODE {CC|CR|CV|CP|CCCV|CRCV|CPCV} Setting parameter CC mode CR mode CV mode CP mode CCCV CC + CV mode CRCV CR + CV mode CPCV CP + CV mode Setting example :MODE CC...
Page 59: Mode]:Vrange
4-10-3. [:MODE]:VRANge Query Description Setting and query for the voltage range of all operating modes. Setting syntax [:MODE]:VRANge {HIGH|LOW} Setting parameter HIGH High range Low range Setting example :VRAN LOW Sets the voltage range to Low. Query syntax [:MODE]:VRANge? Return parameter High | Low Returns the setting of Setting of the voltage range, by the string.
Page 60: Mode]:Dynamic
4-10-5. [:MODE]:DYNamic Query Description Setting and query for the Switching function. Setting syntax [:MODE]:DYNamic {DYNamic|STATic} Setting parameter DYNamic Set to Dynamic mode STATic Set to Static mode Setting example :DYN DYN Set the switching function to dynamic Query syntax [:MODE]:DYNamic? Return parameter Dynamic | Static Returns the Setting of Switching...
Page 61: Current Subsystem Commands
4-11. Current Subsystem Commands 4-11-1. :CURRent[:VA] Query Setting and query for the “A Value” current of the CC static Description mode. Note: A different current value can be set for each current range (High/Mid/Low). Note: The [:VA] node can only be omitted when in static mode.
Page 62: Current:vb
4-11-3. :CURRent:VB Query Setting and query for the “B Value” current of the CC static Description mode. Note: A different current value can be set for each current range (High/Mid/Low). Setting syntax :CURRent:VB {<NRf>|MINimum|MAXimum} “B Value” current value. Unit is [A] Setting parameter <NRf>[A] MINimum...
Page 63: Current:l1
4-11-5. :CURRent:L1 Query Setting and query for the “Level1” current of the CC Description dynamic mode. This command applies in “Dyna.Level” is “Value”. Note: A different current value can be set for each range (High/Mid/Low). Setting syntax :CURRent:L1 {<NRf>|MINimum|MAXimum} “Level1” current value. Unit is [A] Setting parameter <NRf>...
Page 64: Current:set
4-11-7. :CURRent:SET Query Setting and query for the “Set” current of the CC dynamic Description mode. This command applies in “Dyna.Level” is “Percent”. Setting syntax :CURRent:SET{<NRf>|MINimum|MAXimum} Setting parameter <NRf> The current value at the time of "Level=100%". Unit is [A] MINimum Minimum current value MAXimum...
Page 65: Current:rise
4-11-9. :CURRent:RISE Query Description Setting and query for the rising current slew rate of the CC dynamic mode. Setting syntax :CURRent:RISE {<NRf>|MINimum|MAXimum} Setting parameter <NRf> Rising current slew rate (unit is [mA/us]). MINimum Minimum slew rate MAXimum Maximum slew rate Setting example :CURR:RISE MIN Sets the rising slew rate to the minimum.
Page 66: Current:t1
4-11-11. :CURRent:T1 Query Setting and query for the “Timer1” time of CC dynamic Description mode. This command applies in “Dyna.Time” is “T1/T2”. Setting syntax :CURRent:T1 {<NRf>|MINimum|MAXimum} Setting parameter <NRf> T1 timer setting. (unit is seconds) MINimum Minimum time MAXimum Maximum time Setting example :CURR:T1 0.2 Sets the setting of the timer T1.
Page 67: Current:frequency
4-11-13. :CURRent:FREQuency Query Setting and query for “Frequency” value of the CC Description dynamic mode. This command applies in “Dyna.Time” is “Freq/Duty”. Setting syntax :CURRent:FREQuency {<NRf>|MINimum|MAXimum} Setting parameter <NRf> Sets the switching frequency.(unit is Hz) MINimum Minimum frequency MAXimum Maximum frequency Setting example :CURR:FREQ 60 Sets frequency to 60Hz.
Page 68: Current:recall
4-11-15. :CURRent:RECall Query Description Sets or queries whether A Value or B Value is the currently active value in CC static mode. Setting syntax :CURRent:RECall {<Boolean>|A|B} Setting parameter A | 0 CC active setting = A value B | 1 CC active setting = B value Setting example :CURR:REC A...
Page 69: Resistance Subsystem Commands
4-12. Resistance Subsystem Commands 4-12-1. :RESistance[:VA] Query Setting and query for the “A Value” resistance of the CR Description static mode. Note: A different value can be set for each current range (High/Mid/Low). Note: The optional command node [:VA] can only be omitted when in static mode.
Page 70: Resistance:vb
4-12-3. :RESistance:VB Query Setting and query for the “B Value” resistance of the CR Description static mode. Note: A different value can be set for each current range (High/Mid/Low). Setting syntax :RESistance:VB {<NRf>|MINimum|MAXimum} “B Value" resistance value. Unit is [Ω]. Setting parameter <NRf>...
Page 71: Resistance:l1
4-12-5. :RESistance:L1 Query Description Setting and query for the "Level1" resistance of the CR dynamic mode. This command applies in “Dyna.Level” is “Value”. Note: A different value can be set for each current range (High/Mid/Low). Setting syntax :RESistance:L1 {<NRf>|MINimum|MAXimum} “level1” resistance value. Unit is [Ω]. Setting parameter <NRf>...
Page 72: Resistance:set
4-12-7. :RESistance:SET Query Setting and query for the “Set” resistance of the CR Description dynamic mode. This command applies in “Dyna.Level” is “Percent”. Setting syntax :RESistance:SET {<NRf>|MINimum|MAXimum} “The resistance value at the time of Setting parameter <NRf> "Level=100%". Unit is [Ω]. MINimum Minimum resistance value MAXimum...
Page 73: Resistance:rise
4-12-9. :RESistance:RISE Query Description Setting and query for the rising current slew rate of the CR dynamic mode. Setting syntax :RESistance:RISE {<NRf>|MINimum|MAXimum} Setting parameter <NRf> Rising current slew rate (unit is [mA/us]). MINimum Minimum slew rate MAXimum Maximum slew rate Setting example :RES:RISE MIN Sets the rising slew rate to the minimum.
Page 74: Resistance:t1
4-12-11. :RESistance:T1 Query Setting and query for the “Timer1” time of CR dynamic Description mode. This command applies in “Dyna.Time” is “T1/T2”. Setting syntax :RESistance:T1 {<NRf>|MINimum|MAXimum} Setting parameter <NRf> T1 timer setting. (unit is seconds) MINimum Minimum time MAXimum Maximum time Setting example :RES:T1 0.2 Sets the setting of the timer T1.
Page 75: Resistance:frequency
4-12-13. :RESistance:FREQuency Query Setting and query for “Frequency” value of the CR Description dynamic mode. This command applies in “Dyna.Time” is “Freq/Duty”. Setting syntax :RESistance:FREQuency {<NRf>|MINimum|MAXimum} Setting parameter <NRf> Sets the switching frequency (unit is hertz). MINimum Minimum frequency MAXimum Maximum frequency Setting example :RES:FREQ 60...
Page 76: Resistance:recall
4-12-15. :RESistance:RECall Query Description Sets or queries whether A Value or B Value is the currently active value in CR static mode when the units are set to ohm. Setting syntax :RESistance:RECall {<Boolean>|A|B} Setting parameter A | 0 CR Value = A Value B | 1 CR Value = B Value Setting example...
Page 77: Conductance[:Va]:Triggered
4-12-17. :CONDuctance[:VA]:TRIGgered Description Set the conductance value when the trigger is activated. Setting syntax :CONDuctance[:VA]:TRIGgered {<NRf>|MINimum|MAXimum } “A Value" conductance value. Unit is mS. Setting parameter <NRf> MINimum Minimum conductance level MAXimum Maximum conductance level Setting example :COND:TRIG MIN Set the minimum conductance value when the trigger is activated.
Page 78: Conductance:l1
4-12-19. :CONDuctance:L1 Query Description Setting and query for the "Level1" conductance of the CR dynamic mode. This command applies in “Dyna.Level” is “Value”. Note: A different value can be set for each current range (High/Mid/Low). Setting syntax :CONDuctance:L1 {<NRf>|MINimum|MAXimum} “level1” conductance value. Unit is [mS]. Setting parameter <NRf>...
Page 79: Conductance:set
4-12-21. :CONDuctance:SET Query Setting and query for the “Set” conductance of the CR Description dynamic mode. This command applies in “Dyna.Level” is “Percent”. Setting syntax :CONDuctance:SET {<NRf>|MINimum|MAXimum} “The conductance value at the time of Setting parameter <NRf> "Level=100%". Unit is [mS]. MINimum Minimum conductance level MAXimum...
Page 80: Voltage Subsystem Commands
4-13. Voltage Subsystem Commands 4-13-1. :VOLTage[:VA] Query Setting and query for the CV mode “A Value” voltage or Description the +CV voltage value. Note: The same value applies for each current range (High/Mid/Low). Note: The optional command node [:VA] can only be omitted when in static mode.
Page 81: Voltage:recall
4-13-3. :VOLTage:RECall Query Description Sets or queries whether A Value or B Value is the currently active value in CV mode. Setting syntax :VOLTage:RECall {<Boolean>|A|B} Setting parameter A | 0 CV active setting = A Value B | 1 CV active setting = B Value Setting example :VOLT:REC A Sets A value of CV setting mode to active.
Page 82: Power Subsystem Commands
4-14. Power Subsystem Commands 4-14-1. :POWer[:VA] Query Setting and query for the “A Value” power of the CP static Description mode. Note: A different current value can be set for each current range (High/Mid/Low). Note: The [:VA] node can only be omitted when in static mode.
Page 83: Power:l1
4-14-3. :POWer:L1 Query Description Setting and query for the "Level1" power of the CP dynamic mode. This command applies in “Dyna.Level” is “Value”. Note: A different “Level1” value can be set for different current ranges. Setting syntax :POWer:L1 {<NRf>|MINimum|MAXimum} “Level1” power value. Unit is [W]. Setting parameter <NRf>...
Page 84: Power:set
4-14-5. :POWer:SET Query Setting and query for the “Set” power of the CP dynamic Description mode. This command applies in “Dyna.Level” is “Percent”. Setting syntax :POWer:SET {<NRf>|MINimum|MAXimum} Setting parameter <NRf> The power value at the time of "Level=100%". Unit is [W]. MINimum Minimum power value MAXimum...
Page 85: Power:t1
4-14-7. :POWer:T1 Query Setting and query for the “Timer1” time of CP dynamic Description mode. This command applies in “Dyna.Time” is “T1/T2”. Setting syntax :POWer:T1 {<NRf>|MINimum|MAXimum} Setting parameter <NRf> T1 timer setting. (unit is seconds) MINimum Minimum time MAXimum Maximum time Setting example :POW:T1 0.2 Sets the setting of the timer T1.
Page 86: Power:frequency
4-14-9. :POWer:FREQuency Query Setting and query for “Frequency” value of the CP Description dynamic mode. This command applies in “Dyna.Time” is “Freq/Duty”. Setting syntax :POWer:FREQuency {<NRf>|MINimum|MAXimum} Setting parameter <NRf> Sets the switching frequency (unit is hertz). MINimum Minimum frequency MAXimum Maximum frequency Setting example :POW: FREQ 60...
Page 87: Power:recall
4-14-11. :POWer:RECall Query Description Sets or queries whether A Value or B Value is the currently active value in CP static mode. Setting syntax :POWer:RECall {<Boolean>|A|B} Setting parameter A | 0 CP active setting = A Value B | 1 CP active setting = B Value Setting example :POW:REC A...
Page 88: Program Commands
4-15. Program Commands To execute / stop the program function, use: INPUT command. Refer to the page 21 ( 4-3-1.: INPut 4-15-1. :FUNCtion[:COMPlete][:RING]:TIME Query Description Setting and query for how long the alarm will buzz for after a Program, NSEQ, FSEQ, OCP, OPP or BATT test function has finished.
Page 89: Program:state
4-15-2. :PROGram:STATe Query Description Setting and query for the state of the program function. Setting syntax :PROGram:STATe {ON|OFF|PAUSe|CONTinue|NEXT} Setting parameter Turn Program function on Program function off PAUSe Program function pause Program function running CONTinue Program function continue NEXT Next step in the program function Setting example :PROG:STAT ON Turn program function on.
Page 90: Program
4-15-3. :PROGram Query Description Setting and query for all parameters to specified step of the program function. Parameters of “Timing Edit for Program”. Setting syntax :PROGram (1),(2),(3),(4),(5),(6),(7),(8) Setting parameter (1) <NR1> Program number (1~16) (2) <NR1> Step number (1~16) (3) <NR1> Internal memory number (1~256) (4) <ASCII string>...
Page 91: Program[:Recall]:Default
4-15-4. :PROGram[:RECall]:DEFault Description All steps of a selected program are set by default value. Setting syntax :PROGram[:RECall]:DEFault Setting example :PROG:DEF All steps of a selected program are set by default value. 4-15-5. :PROGram:STARt Query Description Setting and query for select program number. (Contents of PROG: ) Setting syntax :PROGram:STARt <NR1>...
Page 92: Program:memory
4-15-7. :PROGram:MEMory Query Description Setting and query for memory number of selected program steps. (Contents of Memory: ) Setting syntax :PROGram:MEMory <NR1> Setting parameter <NR1> Sets the memory number. (1~256) Setting example :PROG:MEM 1 Sets to 1 of memory number. Query syntax :PROGram:MEMory? Return parameter...
Page 93: Program:ontime
4-15-9. :PROGram:ONTime Query Description Setting and query for On time of selected program steps. (Contents of On-Time: ) Setting syntax :PROGram:ONTime <NRf> Setting parameter <NRf> On time (0.1~60 seconds) Setting example :PROG:ONT 1 Sets to 1 second On time. Query syntax :PROGram:ONTime? Return parameter On-Time:<NR2>...
Page 94: Program:pftime
4-15-11. :PROGram:PFTime Query Description The pass / fail judgment (Go-NoGo Test) of the program selected step. Setting and query for the judgment delay time. (Contents of P/F-Time: ) Setting syntax :PROGram:PFTime {<NRf>|OFF} Setting parameter <NRf> Set in seconds the judgment delay time. (Off,0.0~119.9)s 0 setting is off a judgment function.
Page 95: Program]:Chain:start
4-15-13. [:PROGram]:CHAin:STARt Query Description Setting and query for the start program number of the program chain. (Contents of Start) Parameters of “Program Chain Set” Setting syntax [:PROGram]:CHAin:STARt <NR1> Setting parameter <NR1> Start program number. Setting example :CHA:STAR 1 Sets to number 1 start program. Query syntax [:PROGram]:CHAin:STARt? Return parameter...
Page 96: Program]:Chain:p2P
4-15-15. [:PROGram]:CHAin:P2P Query Description Setting and query for a single link in the program chain. Setting syntax [:PROGram]:CHAin:P2P <NR1>,{<NR1>|OFF} Setting parameter <NR1> (1~16) Program number of single link. <NR1> | OFF (1~16) Program number that follows. "OFF” is set the chain off. Setting example :CHA:P2P 4,3 Program 4 will chain set in the program 3.P4→P3...
Page 97: Normal Sequence Commands
4-16. Normal sequence Commands To execute / stop the sequence, use: INPUT command. Refer to the page 21 ( 4-3-1.: INPut 4-16-1. :NSEQuence:STATe Query Description Setting and query for the state of the Normal Sequence function. Setting syntax :NSEQuence:STATe {OFF|ON|PAUSe|CONTinue|EXT} Setting parameter Normal sequence function Off Normal sequence function On...
Page 98: Nsequence
4-16-2. :NSEQuence Query Description Setting and query for parameters of the Normal Sequence function. Parameters of “Timing Edit for Normal Sequence”. Note: Cannot change the range and mode of the load when there is a step data. Setting syntax :NSEQuence (1),(2),(3),(4),(5),(6),(7),(8),(9) Setting parameter (1) <NR1>...
Page 99 Query syntax :NSEQuence? Return parameter In the following order, return the parameters of "Normal sequence timing edit". (1) <ASCII string> Return whether it is in normal sequence function state. {ON|OFF} (2) <ASCII string> Return the start sequence number setting. (3) <ASCII string> Return the sequence number setting.
Page 100: Nsequence:start
4-16-3. :NSEQuence:STARt Query Description Setting and query for the start sequence number of the normal sequence. (Contents of Start: ) Setting syntax :NSEQuence:STARt <NR1> Setting parameter <NR1> Sets the start sequence number. (1~10) Setting example :NSEQ:STAR 1 Sets the start sequence number of the normal sequence. Query syntax :NSEQuence:STARt? Return parameter...
Page 101: Nsequence:memo
4-16-5. :NSEQuence:MEMO Query Description Setting and query for the memo string of normal sequence. (Contents of Memo: ) Setting syntax :NSEQuence:MEMO <ASCII string> Setting parameter <ASCII string> Set the characters up to 12 characters. Enclose the string in double coat. :NSEQ:MEMO “ABCD”...
Page 102: Nsequence:range
4-16-7. :NSEQuence:RANGe Query Description Setting and query for the operating range of the selected normal sequence. (Contents of Range: ) Setting syntax :NSEQuence:RANGe {IHVH|IMVH|ILVH|IHVL|IMVL|ILVL} Setting parameter IHVH Sets High current range and High voltage range. IMVH Sets Middle current range and High voltage range.
Page 103: Nsequence:lload
4-16-9. :NSEQuence:LLOAD Query Description Setting and query for the Last Load state after the end of the normal sequence. (Contents of Last Load: ) Setting syntax :NSEQuence:LLOAD {ON|OFF} Setting parameter Turns Last Load on. Turns Last Load off. Setting example :NSEQ:LLOAD ON Turns Last Load on.
Page 104: Nsequence:chain
4-16-11. :NSEQuence:CHAin Query Description Query and settings for the next sequence in the chain. (Contents of Chain: ) Setting syntax :NSEQuence:CHAin {<NR1>|OFF} Setting parameter <NR1> The sequence number of the next sequence in the chain. chain is end. Setting example :NSEQ:CHA 1 Sets the next sequence in the chain as S01.
Page 105: Nsequence:edit
4-16-12. :NSEQuence:EDIT Query Description Setting and query for the data edit of normal sequence. Parameters of “Data Edit for Normal Sequence” Setting syntax :NSEQuence:EDIT (1),(2),(3),(4),(5),(6),(7),(8),(9),(10),(11) Setting parameter (1) <NR1> The edit step number. (2) <NR1> The total number of steps. (3) <NRf>...
Page 106: Nsequence:edit:point
4-16-13. :NSEQuence:EDIT:POINt Query Description Setting and query for the edit step number of the normal sequence. Setting syntax :NSEQuence:EDIT:POINt {<NR1>} Setting parameter <NR1> The edit step number of the normal sequence. 1~1000 Setting example :NSEQuence:EDIT:POINt 10 Sets the edit step number 10. Query syntax :NSEQuence:EDIT:POINt? Return parameter...
Page 107: Nsequence:save
4-16-16. :NSEQuence:SAVE Description Save program of normal sequence. Setting syntax :NSEQuence:SAVE Setting example :NSEQ:SAVE Save program of normal sequence. 4-16-17. :NSEQuence:COTime Query Description Setting and query for the display timer of the normal sequence. Setting syntax :NSEQuence:COTime {UP|DOWN} Setting parameter Elapsed time (countup) DOWN Remaining (countdown)
Page 108: Fast Sequence Commands
4-17. Fast sequence Commands To execute / stop the sequence, use: INPUT command. Refer to the page 21 ( 4-3-1.: INPut 4-17-1. :FSEQuence:STATe Query Description Setting and query for the state of the fast sequence function. Setting syntax :FSEQuence:STATe {OFF|ON} Setting parameter Turn fast sequence function off Turn fast sequence function on...
Page 109: Fsequence
4-17-2. :FSEQuence Query Description Setting and query for parameters of fast sequence. parameters of “Timing Edit Fast Sequence” Setting syntax :FSEQuence (1),(2),(3),(4),(5),(6),(7) Setting parameter (1) <ASCII string> Sets the note of up to 12 characters. Enclose the string in double coat. (2) <ASCII string>...
Page 110 Query syntax :FSEQuence? In the following order, return the parameters of “Timing Return parameter Edit Fast Sequence” (1) <ASCII string> Return whether it is in fast sequence function state. {ON|OFF} (2) <ASCII string> Return the contents of the memo. (3) <ASCII string> Return the load mode setting.
Page 111: Fsequence:memo
4-17-3. :FSEQuence:MEMO Query Description Setting and query for the memo of fast sequence. (Contents of Memo: ) Setting syntax :FSEQuence:MEMO <ASCII string> Setting parameter <ASCII string> Set the characters up to 12 characters. Enclose the string in double coat. :FSEQ:MEMO “ABC” Setting example Sets the memo of fast sequence.
Page 112: Fsequence:range
4-17-5. :FSEQuence:RANGe Query Description Setting and query for the operating range of the fast sequence. (Contents of Range: ) Setting syntax :FSEQuence:RANGe {IHVH|IMVH|ILVH|IHVL|IMVL|ILVL} Setting parameter IHVH Sets High current range and High voltage range. IMVH Sets Middle current range and High voltage range.
Page 113: Fsequence:tbase
4-17-7. :FSEQuence:TBASe Query Description Setting and query for the time-based of fast sequence. (Contents of Time Base: ) Setting syntax :FSEQuence:TBASe <NRf> Setting parameter <NRf> Sets the time-base. (Unit is second.) Setting example :FSEQ:TBAS 0.6 Sets the 0.6 seconds to the time-base of fast sequence. Query syntax :FSEQuence:TBASe? Return parameter...
Page 114: Fsequence:last
4-17-9. :FSEQuence:LAST Query Description Setting and query for the Load Value after the end of Fast sequence. (Contents of Last: ) Setting syntax :FSEQuence:LAST <NRf> Setting parameter <NRf> Sets the load setting value of after the end of step. (It is enabled by load conditions ON.) Setting example :FSEQ:LAST1 Sets the load setting value of after the end of step.
Page 115: Fsequence:edit
4-17-11. :FSEQuence:EDIT Query Description Setting and query for data of fast sequence. Parameters of “Data Edit for Fast Sequence”. Setting syntax :FSEQuence:EDIT (1),(2),(3),(4) Setting parameter (1) <NR1> Editing step. (2) <NR1> Step total number. (3) <NRf> Sets the load value of the operation mode.
Page 116: Fsequence:edit:end
4-17-13. :FSEQuence:EDIT:END Query Description Returns the end of edit step number in the fast sequence. Query syntax :FSEQuence:EDIT:END? Return parameter <NR1> 1~1000 Query example :FSEQuence:EDIT:END? > 20 Returns the end of edit step number. 4-17-14. :FSEQuence[:DELet]:ALL Description Delete all programs of the fast sequence. Setting syntax :FSEQuence[:DELet]:ALL Setting example...
Page 117: Fsequence:save
4-17-16. :FSEQuence:SAVE Description Save program of fast sequence. Setting syntax :FSEQuence:SAVE Setting example :FSEQ:SAVE Save program of fast sequence.
Page 118: Ocp Test Commands
4-18. OCP Test Commands To execute / stop the test, use: INPUT command. Refer to the page 21 ( 4-3-1.: INPut 4-18-1. :OCP:STATe Query Description Setting and query for the state of the OCP function. Setting syntax :OCP:STATe {<Boolean>|OFF|ON} Setting parameter OFF | 0 Turns the OCP function off.
Page 119: Ocp:edit[:Channel]
4-18-2. :OCP:EDIT[:CHANnel] Query Description Setting and query for the settings of the selected OCP memory number. Parameters of “OCP Function” Setting syntax :OCP:EDIT[:CHANnel](1),(2),(3),(4),(5),(6),(7),(8),(9) Setting parameter (1) <NR1> Memory Number (OCP.No:1~12) (2) <ASCII string> Current range (Range:) LOW | MIDDle | HIGH (3) <NR2>...
Page 120: Ocp[:Channel]:Number
4-18-3. :OCP[:CHANnel]:NUMBer Query Description Setting and query for the OCP memory number. (Contents of OCP.No: ) Setting syntax :OCP[:CHANnel]:NUMBer <NR1> Setting parameter <NR1> Sets the OCP memory number Setting example :OCP:NUMB 1 Sets the OCP number is 1. Query syntax :OCP[:CHANnel]:NUMBer? Return parameter <NR1>...
Page 121: Ocp[:Channel]:Range
4-18-5. :OCP[:CHANnel]:RANGe Query Description Setting and query for the channel range. (Contents of Range: ) Setting syntax :OCP[:CHANnel]:RANGe {LOW|MIDDle|HIGH} Setting parameter CC Mode Low range. MIDDle CC Mode Middle range. HIGH CC Mode High range. Setting example :OCP:RANG LOW Set CC Mode Low range. Query syntax :OCP[:CHANnel]:RANGe? Return parameter...
Page 122: Ocp[:Channel]:End
4-18-7. :OCP[:CHANnel]:END Query Description Setting and query for the ending current value of the test. The value must be higher than the DUT OCP value. (Contents of End C: ) Setting syntax :OCP[:CHANnel]:END {<NR2>|MINimum|MAXimum} Setting parameter <NR2> The END current value in Amps. MINimum Minimum ending current value.
Page 123: Ocp[:Channel]:Step:time
4-18-9. :OCP[:CHANnel]:STEP:TIME Query Description Setting and query for how long the step times of the OCP Test Automation function. (Contents of Step T: ) Setting syntax :OCP[:CHANnel]:STEP:TIME {<NR2>|MINimum|MAXimum} Setting parameter <NR2> The step time in seconds. MINimum Minimum step times. MAXimum Maximum step times.
Page 124: Ocp[:Channel]:Trigger
4-18-11. :OCP[:CHANnel]:TRIGger Query Description Setting and query for the voltage trigger for when the power supply OCP has been triggered. (Contents of Trig V: ) Setting syntax :OCP[:CHANnel]:TRIGger {<NR2>|MINimum|MAXimum} Setting parameter <NR2> The trigger voltage level. MINimum Minimum voltages trigger level. MAXimum Maximum voltage triggers level.
Page 125: Ocp:channel:status
4-18-13. :OCP:CHANnel:STATus Query Description Queries the status of the OCP Test Automation function. Query syntax :OCP:CHANnel:STATus? Return parameter Test ended OCP test active Query example :OCP:CHAN:STAT? The test has ended. 4-18-14. :OCP:RESult Query Description Returns the OCP Test Automation results. Query syntax :OCP:RESult? Return parameter...
Page 126: Opp Test Commands
4-19. OPP Test Commands To execute / stop the test, use: INPUT command. Refer to the page 21 ( 4-3-1.: INPut 4-19-1. :OPP:STATe Query Description Setting and query for the state of the OPP function. Setting syntax :OPP:STATe {<bool>|OFF|ON} Setting parameter OFF | 0 Turns the OPP function off.
Page 127: Opp:edit[:Channel]
4-19-2. :OPP:EDIT[:CHANnel] Query Description Setting and query for the settings of the selected OPP memory number. Parameters of “OPP Function” Setting syntax :OPP:EDIT[:CHANnel](1),(2),(3),(4),(5),(6),(7),(8),(9) Setting parameter (1) <NR1> Memory Number (OPP.No:1~12) (2) <ASCII string> Current range (Range: ) LOW | MIDDle | HIGH (3) <NR2>...
Page 128: Opp[:Channel]:Number
4-19-3. :OPP[:CHANnel]:NUMBer Query Description Setting and query for the OPP memory number. (Contents of OPP.No: ) Setting syntax :OPP[:CHANnel]:NUMBer <NR1> Setting parameter <NR1> Sets the OPP memory number Setting example :OPP:NUMB 1 Sets the OPP number is 1. Query syntax :OPP[:CHANnel]:NUMBer? Return parameter <NR1>...
Page 129: Opp[:Channel]:Range
4-19-5. :OPP[:CHANnel]:RANGe Query Description Setting and query for the channel range. (Contents of Range: ) Setting syntax :OPP[:CHANnel]:RANGe {LOW|MIDDle|HIGH} Setting parameter CC Mode Low range. MIDDle CC Mode Middle range. HIGH CC Mode High range. Setting example :OPP:RANG LOW Set CP Mode Low range. Query syntax :OPP[:CHANnel]:RANGe? Return parameter...
Page 130: Opp[:Channel]:End
4-19-7. :OPP[:CHANnel]:END Query Description Setting and query for the ending watt value of the test. The value must be higher than the DUT OPP value. (Contents of End W: ) Setting syntax :OPP[:CHANnel]:END {<NR2>|MINimum|MAXimum} Setting parameter <NR2> The END watt value in Amps. MINimum Minimum starting watt value.
Page 131: Ocp[:Channel]:Step:time
4-19-9. :OCP[:CHANnel]:STEP:TIME Query Description Setting and query for how long the step times of the OPP Test Automation function. (Contents of Step T: ) Setting syntax :OPP[:CHANnel]:STEP:TIME {<NR2>|MINimum|MAXimum} Setting parameter <NR2> The step time in seconds. MINimum Minimum step times. MAXimum Maximum step times.
Page 132: Opp[:Channel]:Trigger
4-19-11. :OPP[:CHANnel]:TRIGger Query Description Setting and query for the voltage trigger for when the power supply OPP has been triggered. (Contents of Trig V: ) Setting syntax :OPP[:CHANnel]:TRIGger {<NR2>|MINimum|MAXimum} Setting parameter <NR2> The trigger voltage level. MINimum Minimum voltages trigger level. MAXimum Maximum voltage triggers level.
Page 133: Opp:channel:status
4-19-13. :OPP:CHANnel:STATus Query Description Queries the status of the OPP Test Automation function. Query syntax :OPP:CHANnel:STATus? Return parameter Test ended OPP test active Query example :OPP:CHAN:STAT? The test has ended. 4-19-14. :OPP:RESult Query Description Returns the OPP Test Automation results. Query syntax :OPP:RESult? Return parameter...
Page 134: Batt Test Commands
4-20. BATT Test Commands To execute / stop the test, use: INPUT command. Refer to the page 21 ( 4-3-1.: INPut 4-20-1. :BATTery:STATe Query Description Setting and query for the state of the BATT function. Setting syntax :BATTery:STATe {<Boolean>|OFF|ON} Setting parameter OFF | 0 Turns the BATT function off.
Page 135: Battery:edit
4-20-2. :BATTery:EDIT Query Description Setting and query for the settings of the selected BATT memory number. Parameters of “BATT Function”. Setting syntax :BATTery:EDIT(1),(2),(3),(4),(5),(6),(7),(8),(9),(10) Setting parameter (1) <NR1> Memory Number (BATT.No:1~12). (2) <ASCII string> Operation mode (Mode :). CC|CR|CP (3) <ASCII string> I and V range (Range :) ILVL|IMVL|IHVL|ILVH|IMVH|IHVH (4) <NR2>...
Page 136: Battery [:Channel]:Number
4-20-3. :BATTery [:CHANnel]:NUMBer Query Description Setting and query for the BATT memory number. (Contents of BATT.No: ) Setting syntax :BATTery[:CHANnel]:NUMBer <NR1 > Setting parameter <NR1> Sets the BATT memory number Setting example :BATT:NUMB 1 Sets the BATT number is 1. Query syntax :BATTery[:CHANnel]:NUMBer? Return parameter...
Page 137: Battery:mode
4-20-5. :BATTery:MODE Query Description Setting and query for the operation mode. (Contents of Mode: ) Setting syntax :BATTery:MODE {CC|CR|CP} Setting parameter Set the CC mode. Set the CR mode. Set the CP mode. Setting example :BATT:MODE CC Set the operation mode to CC. Query syntax :BATTery:MODE? Return parameter...
Page 138: Battery:value
4-20-7. :BATTery:VALue Query Description Setting and query for the setting value of the selected operation mode. (Contents of Setting: ) Setting syntax :BATTery:VALue {<NR2>|MINimum|MAXimum} Setting parameter <NR2> The setting value MINimum Minimum setting value. MAXimum Maximum setting value. Setting example :BATT:VAL 2 Set the value to 2A.
Page 139: Battery:fall
4-20-9. :BATTery:FALL Query Description Setting and query for the test falling slew rate in mA/us. (Contents of Slew Rate: ) Setting syntax :BATTery:FALL {<NR2>|MINimum|MAXimum} Setting parameter <NR2> The test falling slew rate. MINimum Minimum test falling slew rate. MAXimum Maximum test falling slew rate. Setting example :BATT:FALL 8.4 Set the test falling slew to 8.4mA/us.
Page 140: Battery:stop:time
4-20-11. :BATTery:STOP:TIME Query Description Setting and query for the time after which the test should be interrupted. (Contents of Stop Time: ) Setting syntax :BATTery:STOP:TIME {<NR1>|MINimum|MAXimum|OFF} Setting parameter <NR1> The stop time in seconds. (0～3599999) MINimum Minimum stop times. MAXimum Maximum stop times.
Page 141: Battery:datalog:timer
4-20-13. :BATTery:DATalog:TIMer Query Description Setting and query for the time interval for data capture. (Contents of Datalog timer: ) Setting syntax :BATTery:DATalog:TIMer {<NR1>|MINimum|MAXimum} Setting parameter <NR1> The interval time in seconds. (1～120) MINimum Minimum interval times. MAXimum Maximum interval times. Setting example :BATT:DAT:TIM 2 Set the interval time to 2 seconds.
Page 142: Battery:result
4-20-15. :BATTery:RESult Query Description Returns the BATT Test Automation results. Query syntax :BATTery:RESult? Return parameter <NR2>,<NR2> Returns the BATT current, voltage. Query example :BATT:RES? 3.6750,0.10 BATT Current:3.675A, BATT Voltage:0.10V 4-20-16. :BATTery:RUN Description Turns the load on for the BATT Test Automation function. Same as :INPUT ON command.
Page 143: Utility Commands
4-21. Utility Commands 4-21-1. :UTILity:SYSTem Query Description Query for model number, serial number, and firmware version. Query syntax :UTILity:SYSTem? Return parameter <ASCII string> Return the model name. <NR1> Return the serial number. <ASCII string> Return the firmware version. Query example :UTIL:SYST? >LSG-175H,12345678,V1.01.001 Return the model number, serial number, and firmware...
Page 144: Utility:load:mode
4-21-3. :UTILity:LOAD:MODE Query Description Setting and query for the Load Off (Mode) setting. Parameters of “Load Setting For Power On” Setting syntax :UTILity:LOAD:MODE {<Boolean>|ON|OFF} Setting parameter ON | 1 Sets Load Off (Mode) to ON. OFF | 0 Sets Load Off (Mode) to OFF. Setting example :UTIL:LOAD:MODE ON Turns Load Off (Mode) to on.
Page 145: Utility:time
4-21-5. :UTILity:TIME Query Description Setting and query for the date and time. Parameters of “Date/Time” Setting syntax :UTILity:TIME (1),(2),(3),(4),(5) Setting parameter (1) <NR1> Sets the month. (2) <NR1> Sets the day. (3) <NR1> Sets the year. (4) <NR1> Sets the hour. (5) <NR1>...
Page 146: Utility:speaker
4-21-7. :UTILity:SPEAker Query Description Setting and query for the speakers sound during scrolling and key input. Parameters of “Other Setting” Setting syntax :UTILity:SPEAker {<Boolean>|ON|OFF} Setting parameter ON | 1 Sets on the speakers sound during scrolling and key input. OFF | 0 Sets off the speakers sound during scrolling and key input.
Page 147: Utility:unreg
4-21-9. :UTILity:UNReg Query Description Setting and query for the speaker sound of Anne-regulation. Parameters of “Other Setting” Setting syntax :UTILity:UNReg {<Boolean>|ON|OFF} Setting parameter ON | 1 Sets on the speaker sound of Anne-regulation. OFF | 0 Sets off the speaker sound of Anne-regulation.
Page 148: Utility:contrast
4-21-11. :UTILity:CONTrast Query Description Setting and query for the contrast of the LCD display. Parameters of “Other Setting” Setting syntax :UTILity:CONTrast <NR1> Setting parameter <NR1> Sets contrast of the LCD display. 3~13 (low ~ high) Setting example :UTIL:CONT 8 Sets the 8 at contrast of the LCD display. Query syntax :UTIlity:CONTrast? Return parameter...
Page 149: Utility:language
4-21-13. :UTILity:LANGuage Query Description Setting and query for the language of the operation panel. Note: Language is English only. Parameters of “Other Setting” Setting syntax :UTILity:LANGuage ENGLish Setting parameter ENGlish Sets to English language. Setting example :UTIL:LANG ENGL Sets to English language. Query syntax :UTILity:LANGuage? Return parameter...
Page 150: Interface Commands
4-22. Interface Commands 4-22-1. :UTILity:INTerface Query Description Setting and query for the interface. Note: Command is only valid for RS-232Control and USB. Sets after the transmission, but require power cycle to enable the feature. Setting syntax :UTILity:INTerface {USB|RS232} Setting parameter Sets the USB interface.
Page 151: Utility:sbit
4-22-3. :UTILity:SBIT Query Description Setting and query for the stop bit of the RS-232C interface. Note: Command is only valid for interface setting of RS232C Setting syntax :UTILity:SBIT {1|2} Setting parameter <NR1> Sets the stop bit. Setting example :UTIL:SBIT 1 Sets the stop bit.
Page 152: File Commands
4-23. File Commands 4-23-1. :MEMory:SAVE Description Save in the internal memory of the specified. Setting syntax :MEMory:SAVE < NR1> Setting parameter <NR1> Specify the internal memory number. (1 to 256) Setting example :MEM:SAVE 20 Saves the current setting to internal memory 20. Same function *SAV command...
Page 153: Setup:save
4-23-5. :SETup:SAVE Description Save to the setup data of the specified. Setting syntax :SETup:SAVE < NR1> Setting parameter <NR1> Specify the setup data number. (1 to 100) Setting example :SET:SAVE 1 Saves the setting value to setup data 1. 4-23-6. :SETup:RECall Description Recall settings from the setup data.
Page 154: Scpi Status Commands
4-24. SCPI Status Commands 4-24-1. :SYSTem:ERRor Query Description Queries the error queue. The last error message is return. A maximum of 32 errors are stored in the error queue. Query syntax :SYSTem:ERRor? Return parameter <NR1>,<string> Returns the error queue, by the string.
Page 155: Csummary Status Commands
4-25. Csummary Status Commands Please refer to page154 ( 5-3.Csummary status register group 4-25-1. :STATus:CSUMmary:CONDition Query Description Query the Csummary Status Condition register. Query syntax :STATus:CSUMmary:CONDition? Return parameter <NR1> Return the Csummary Status Condition register, by the string. Query example :STAT:CSUM:COND? >1 Return the Csummary Status Condition register...
Page 156: Status:csummary:ntransition
4-25-4. :STATus:CSUMmary:NTRansition Query Description Setting and query for detection bit of Csummary status of changes of from positive to negative. Setting syntax :STATus:CSUMmary:NTRansition <NR1> Setting parameter <NR1> Sets the detection bit of Csummary status of changes from positive to negative. Setting example :STAT:CSUM:NTR 1 Sets the detection bit of Csummary status of changes from...
Page 157: Operation Status Commands
4-26. Operation Status Commands Please refer to page156 ( 5-4.Operation status register group 4-26-1. :STATus:OPERation:CONDition Query Description Query the Operation Status Condition register. Query syntax :STATus:OPERation:CONDition? Return parameter <NR1> Return the Operation Status Condition register, by the string. Query example :STAT:OPER:COND? >1 Return the Operation Status Condition register.
Page 158: Status:operation:ntransition
4-26-4. :STATus:OPERation:NTRansition Query Description Setting and query for detection bit of Operation status of changes of from positive to negative. Setting syntax :STATus OPERation:NTRansition <NR1> Setting parameter <NR1> Sets the detection bit of Operation status of changes from positive to negative. Setting example :STAT:OPER:NTR 1 Sets the detection bit of Operation status of changes from...
Page 159: Questionable Status Commands
4-27. Questionable Status Commands Please refer to page 157 ( 5-5.Questionable Status Register Group 4-27-1. :STATus:QUEStionable:CONDition Query Description Query the Questionable Status Condition register. Query syntax :STATus:QUEStionable:CONDition? Return parameter <NR1> Return the Questionable Status Condition register, by the string. Query example :STAT: QUES:COND? >1 Return the Questionable Status Condition register.
Page 160: Status:questionable:ntransition
4-27-4. :STATus:QUEStionable:NTRansition Query Description Setting and query for detection bit of Questionable status of changes of from positive to negative. Setting syntax :STATus:QUEStionable:NTRansition <NR1> Setting parameter <NR1> Sets the detection bit of Questionable status of changes from positive to negative. Setting example :STAT:QUES:NTR 1 Sets the detection bit of Questionable status of changes...
Page 161: Status Register Overview
5. Status Register Overview This chapter explains in detail how the Status registers are used and how to configure them. It will also be able to create an effective program by understand the Status register. 5-1. Introduction to the Status Registers Overview The status registers are used to know the status of this unit.
Page 162: Configuration In The Status Register
5-2. Configuration in the Status register Csummary Status Register Condition PTR/NTR Event Enable CC(Switched to mode) CR(Switched to mode) CV(Switched to mode) CP(Switched to mode) Not Used Not Used Not Used Not Used PRUN (Program is being executed) Output Buffer Not Used Not Used Not Used...
Page 163: Csummary Status Register Group
5-3. Csummary Status Register Group Overview Csummary Status register group, you can check the operating status of the load mode and sequence or program mode. Csummary Status Register Condition PTR/NTR Event Enable & CC(Switched to mode) & CR(Switched to mode) &...
Page 164 Event The PTR/NTR Register will dictate the type of transition conditions Register will set the corresponding bits in the Event Register. If the Event Register is read, it will be cleared to 0. Enable The Enable register determines which Events in the Event Register Register will be used to set the CSUM bit in the Status Byte Register.
Page 165: Operation Status Register Group
5-4. Operation Status Register Group Overview Operation Status register group, you can check the operating status of the Trigger wait or the Calibration mode. Operation Status Register Condition PTR/NTR Event Enable & CAL (Calibration Mode) & Not Used & Not Used &...
Page 166: Questionable Status Register Group
5-5. Questionable Status Register Group Overview Questionable Status register group, you can check the operating status of the protection function. Questionable Status Register Condition PTR/NTR Event Enable & OV (Over-Voltage) & OC (Over-Current) & Not Used & OP (Over-Power) & OT (Over-Temperature) &...
Page 167 Event The PTR/NTR Register will dictate the type of transition conditions Register will set the corresponding bits in the Event Register. If the Event Register is read, it will be cleared to 0. Enable The Enable register determines which Events in the Event Register Register will be used to set the QUES bit in the Status Byte Register.
Page 168: Standard Event Status Register Group
5-6. Standard Event Status Register Group Overview Standard Event Status register group indicates whether an error occurred. Bit in the event register is set by the error event queue. Standard Event Status Register Event Enable & & & & & &...
Page 169 Event Any bits set in the event register indicate that an error has Register occurred. Reading the Event register will reset the register to 0. Enable The Enable register determines which Events in the Event Register Register will be used to set the ESB bit in the Status Byte Register.
Page 170: Status Byte Register Group
5-7. Status Byte Register Group Overview The Status Byte register groups, you can check the status of the event in the status register of all. You can read the status byte register in "* STB?" Query command. Output Queue Error Queue Service Request...
Page 171 Event Bit # Summary name Weight Error Event/Queue If data is present in the Error queue, the ERR bit will be set. CSUM Csummary Status Register The summary bit for the Csummary Status Register group. QUES Questionable Status Register The summary bit for the Questionable Status Register group.
Page 172: Appendix
6. Appendix 6-1. ERROR MESSAGE The following error messages may be encountered when reading the error queue. Error Code and string Description Command Errors No Error No error -100 Command Error This is the generic syntax error for devices that cannot detect more specific errors.
Page 173 -128 Numeric data not A legal numeric data element was received, but allowed the device does not accept one in this position for the header -130 Suffix error This error, as well as errors -131 through -139, is generated when parsing a suffix. -131 Invalid suffix The suffix does not follow the syntax described in IEEE 488.2 or the suffix is inappropriate for this...
Page 174 -184 Macro parameter error Indicates that a command inside the macro definition had the wrong number or type of parameters. Execution Errors -200 Execution error This is the generic syntax error for devices that cannot detect more specific errors. This code indicates only that an Execution Error as defined in IEEE 488.2 has occurred.
Page 175 -223 Too much data Indicates that a legal program data element of block, expression, or string type was received that contained more data than the device could handle due to memory or related device-specific requirements. -224 Illegal parameter value Used where an exact value, from a list of possibilities, was expected.
Page 176 -258 Media protected Indicates that a legal program command or query could not be executed because the media was protected. -260 Expression error Indicates that an expression program data element related error occurred. -261 Math error in expression Indicates that a syntactically legal expression program data element could not be executed due to a math error.
Page 177 -290 Memory use error Indicates that a user request has directly or indirectly caused an error related to memory or <data handle>s, this is not the same as “bad” memory. -291 Out of memory -292 Referenced name does not exist -293 Referenced name already exists -294 Incompatible type...
Page 178 Query Errors -400 Query error This is the generic query error. -410 Query INTERRUPTED Indicates that a condition causing an INTERRUPTED Query error occurred. -420 Query Indicates that a condition causing an UNTERMINATED UNTERMINATED Query error occurred. -430 Query DEADLOCKED Indicates that a condition causing a DEADLOCKED Query error occurred.
Page 179: Change History
6-2. Change History...
Page 180 7F Towa Fudosan Shin Yokohama Bldg., 2-18-13, Shin Yokohama, Kohoku-ku, Yokohama, Kanagawa, 222-0033, Japan. https://www.texio.co.jp/...

This manual is also suitable for:

Lsg-350 Lsg-350h Lsg series Lsg-1050 Lsg-1050h Lsg-175h

TEXIO LSG-175 Programming Manual

1 Interface Overview

2 INTERFACE Configure

3 Command Overview

4 Command Details

Quick Links

Related Manuals for TEXIO LSG-175

Summary of Contents for TEXIO LSG-175