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TEXIO ASR Series Programming Manual

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Front cover
PROGRAMMING MANUAL
AC/DC POWER SOURCE
ASR SERIES
B71-0499-01

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Summary of Contents for TEXIO ASR Series

  • Page 1 Front cover PROGRAMMING MANUAL AC/DC POWER SOURCE ASR SERIES B71-0499-01...
  • 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

    Table of Contents 1. REMOTE CONTROL ........1 1-1. Interface Configuration ........1 1-1-1. Configure Ethernet Connection ............1 1-1-2. Web Server Remote Control Function Check ........2 1-1-3. Socket Server Function Check ............4 1-2. USB Interface ..........8 1-2-1.
  • Page 4 3-3-9. :MEASure[:SCALar]:CURRent:HARMonic:RATio ....... 33 3-3-10. :MEASure[:SCALar]:FREQuency ............33 3-3-11. :MEASure[:SCALar]:POWer[:AC]:APParent ........33 3-3-12. :MEASure[:SCALar]:POWer[:AC]:PFACtor ......... 33 3-3-13. :MEASure[:SCALar]:POWer[:AC]:REACtive ........34 3-3-14. :MEASure[:SCALar]:POWer[:AC][:REAL] ........... 34 3-3-15. :MEASure[:SCALar]:VOLTage[:RMS] ..........34 3-3-16. :MEASure[:SCALar]:VOLTage:AVERage ........... 34 3-3-17 :MEASure[:SCALar]:VOLTage:HIGH ..........34 3-3-18. :MEASure[:SCALar]:VOLTage:LOW........... 35 3-3-19. :MEASure[:SCALar]: VOLTage:HARMonic[:RMS] ......35 3-3-20.
  • Page 5 3-7-4. [:SOURce]:CURRent:LIMit:PEAK:MODE ..........50 3-7-5. [:SOURce]:CURRent:LIMit:RMS:MODE ..........51 3-7-6. [:SOURce]:FREQuency:LIMit:HIGH ............ 51 3-7-7. [:SOURce]:FREQuency:LIMit:LOW ............. 52 3-7-8. [:SOURce]:FREQuency[:IMMediate] ........... 52 3-7-9. [:SOURce]:FUNCtion[:SHAPe][:IMMediate] ........53 3-7-10. [:SOURce]:FUNCtion:THD:FORMat ........... 54 3-7-11. [:SOURce]:MODE ................54 3-7-12. [:SOURce]:PHASe:STARt:STATe............55 3-7-13. [:SOURce]:PHASe:STOP:STATe ............55 3-7-14. [:SOURce]:PHASe:STARt[:IMMediate] ..........56 3-7-15.
  • Page 6 3-9-28. [:SOURce]:SIMulation:TRANsition<1|2>:CODE ........77 3-9-29. :TRIGger:SIMulation:SELected:EXECute ........... 77 3-10. Input Subsystem Command ......78 3-10-1. :INPut:GAIN ..................78 3-10-2. :INPut:SYNC:SOURce ............... 78 3-11. Display Command ........79 3-11-1. :DISPlay[:WINDow]:DESign:MODE ............ 79 3-11-2. :DISPlay[:WINDow]:MEASure:SOURce<1|2|3> ........79 4. Error List ............. 80 4-1.

  • Page 7: Remote Control

    1. REMOTE CONTROL This chapter describes basic configuration of IEEE488.2 based remote control. 1-1. Interface Configuration 1-1-1. Configure Ethernet Connection The Ethernet interface can be configured for a number of different applications. Ethernet can be configured for basic remote control or monitoring using a web server or it can be configured as a socket server.
  • Page 8 5. To automatically have the network assign an IP address, set DHCP to ON. Otherwise set DHCP to OFF to manually set the Ethernet settings. DHCP ON, OFF 6. If DHCP was set to OFF, configure the remaining LAN parameters. IP Address Subnet Mask Gateway...

  • Page 9: Web Server Remote Control Function Check

    1-1-2. Web Server Remote Control Function Check Functionality Enter the IP address of the power supply (for example: http:// XXX.XXX.XXX.XXX) in a web Check browser after the instrument has been configured for LAN (page 1). The web interface allows you to: ...

  • Page 10: Socket Server Function Check

    1-1-3. Socket Server Function Check To test the socket server functionality, National Background Instruments Measurement and Automation Explorer can be used. This program is available on the NI website, www.ni.com., via a search for the VISA Run-time Engine page, or “downloads”...
  • Page 11 4. Select Manual Entry of Raw Socket from the popup window. 5. Enter the IP address and the port number of the ASR. The port number is fixed at 2268. 6. Double click the Validate button and press Next.
  • Page 12 7. Next configure the Alias (name) of the ASR connection. In this example the Alias is: ASR 8. Click finish. 9. The IP address of the power supply will now appear under Network Devices in the configuration panel. Select this icon now. 10.
  • Page 13 12. Click the Input/Output icon. Under the Basic I/O tab, make sure *IDN?\n is entered in the Select or Enter Command drop box. 13. Click Query. The ASR will return the machine identification string into the buffer area: TEXIO, ASRXXX-XXX, XXXXXXXXX, XX.XX.XX.XXXX-X...

  • Page 14: Usb Interface

    1-2. USB Interface 1-2-1. USB Remote Interface Type A, host PC side Configuration connector Rear panel Type B, slave ASR side connector 1.1/2.0 (full speed/auto speed) Speed CDC (communications device USB Class class) 1. Connect the Type A-Type B USB Steps cable from the PC to the rear panel USB B port.
  • Page 15 Speed Full(default), Auto 5. If the connection is successful Connection Status will change from Offline to Online. USB Device Configuration 6. Press Exit[F4] to exit from the rear Exit panel USB settings.

  • Page 16: Usb Remote Control Function Check

    USB remote control (page 8). *IDN? This should return the Manufacturer, Model number, Serial number, and Software version in the following format. TEXIO, ASRXXX-XXX, XXXXXXXXX, XX.XX.XX.XXXX-X Manufacturer: TEXIO Model number : ASRXXX-XXX Serial number : XXXXXXXXX Software version : XX.XX.XX.XXXX-X...

  • Page 17: Rs-232C Interface(G Type)

    1-3. RS-232C Interface(G Type) 1-3-1. RS-232C Remote Interface RS-232C BD-9, male Connector Configuration Baud rate, data bits, parity, stop Parameters bits. 1 2 3 4 5 Pin Assignment 2: RxD (Receive data) 3: TxD (Transmit data) 5: GND 4, 6 ~ 9: No connection 6 789 Use a Null Modem connection (RS-232C cable) Pin Connection...
  • Page 18 Data bits 7 bits, 8 bits(default) Parity None(default), Odd, Even Stop bits 1 bit(default), 2 bits RS232C Configuration 5. Press Exit[F4] to exit from the Exit RS232C settings.

  • Page 19: Rs-232C Remote Control Function Check

    RS-232C remote control (page 11). *IDN? This should return the Manufacturer, Model number, Serial number, and Software version in the following format. TEXIO, ASRXXX-XXX, XXXXXXXXX, XX.XX.XX.XXXX-X Manufacturer: TEXIO Model number : ASRXXX-XXX Serial number : XXXXXXXXX Software version : XX.XX.XX.XXXX-X...

  • Page 20: Using Realterm To Establish A Remote Connection

    1-3-3. Using Realterm to Establish a Remote Connection Realterm is a terminal program that can be Background 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 2.0.0.70.
  • Page 21 settings can be viewed by right-clicking the connected device and selecting the Properties option. 5. Start Realterm on the PC as an administrator. Click: Start menu>All Programs>RealTerm>realterm Tip: to run as an administrator, you can right click the Realterm icon in the Windows Start menu and select the Run as Administrator option.
  • Page 22 For USB, the baud rate should be fixed to Note 115,200. 7. Click on the Send tab. In the EOL configuration, check on the +LF check boxes. Enter the query: *idn? Click on Send ASCII. TEXIO,ASR501-351,TT1234567,V1.00.19.0000-0...

  • Page 23: Gp-Ib Interface(G Type)

    8. The terminal display will return the following: TEXIO, ASRXXX-XXX, XXXXXXXXX, XX.XX.XX.XXXX-X (manufacturer, model, serial number, software version) 9. If Realterm fails to connect to the ASR, please check all the cables and settings and try again. 1-4. GP-IB Interface(G type) 1-4-1.

  • Page 24: Gpib Function Check

    5. Press Exit[F4] to exit from the Exit GPIB settings.  Maximum 15 devices altogether, 20m cable length, 2m between each device GPIB  Constraints Unique address assigned to each device  At least 2/3 of the devices turned On ...
  • Page 25 Start>All Programs>NI MAX 2. From the Configuration panel access; My System>Devices and Interfaces>GPIB0 3. Press the Scan for Instruments button. 4. In the Connected Instruments panel the ASR should be detected as Instrument 0 with the address the same as that configured on the ASR.
  • Page 26 Send String text box. 8. Click on the Query button to send the *IDN? query to the instrument. 9. The instrument identification string will be returned to the buffer area: TEXIO, ASRXXX-XXX, XXXXXXXXX, XX.XX.XX.XXXX-X (manufacturer, model, serial number, software version) TEXIO,ASR501-351,,V1.00.19.0000-0 TEXIO,ASR501-351,TT1234567,V1.00.19.0000-0...

  • Page 27: Command Syntax

    2. Command Syntax Partial compatibility IEEE488.2 Compatible Partial compatibility Standard SCPI, 1999 Command SCPI commands follow a tree-like structure, organized into nodes. Each level of the Structure command tree is a node. Each keyword in a SCPI command represents each node in the command tree.
  • Page 28 Example meas:curr? Compound Two or more commands on the same command line. Compound commands are separated with either a semi- colon (;) or a semi-colon and a colon (;:). A semi-colon is used to join two related commands, with the caveat that the last command must begin at the last node of the first command.
  • Page 29 Command Commands and queries have two different forms, long and short. The command syntax is Forms 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 30 Parameters Type Description Example <Boolean> Boolean logic 0, 1 <NR1> integers 0, 1, 2, 3 <NR2> decimal 0.1, 3.14, 8.5 numbers <NR3> floating point 4.5e-1, 8.25e+1 <NRf> any of NR1, 2, 3 1, 1.5, 4.5e-1 <block data> Definitive length arbitrary block data.

  • Page 31: Command List

    Query Syntax *IDN? Return <string> Returns the instrument identification as a parameter string in the following format: TEXIO、ASRXXX-XXX、XXXXXXXXX、XX.XX.XX.XXXX-X Manufacturer: TEXIO Model number : ASRXXX-XXX Serial number : XXXXXXXXX Firmware version : XX.XX.XX.XXXX-X Query 3-1-3. *OPC Description The *OPC? Query returns 1 when all the outstanding commands have completed.

  • Page 32: Rcl

    3-1-4. *RCL Description Recalls the contents stored in memory slot M0 ~ M9. These memory slots are mapped to the preset settings. Syntax *RCL {<NR1>|MINimum|MAXimum} Parameter <NR1> 0 ~ 9 (as memory M0 ~ M9) Recalls the M0 memory contents. Recalls the M9 memory contents.

  • Page 33: Wai

    3-1-7. *WAI Description Prevents any other commands or queries from being executed until all outstanding commands have completed. Syntax *WAI 3-2. Trace/Data Commands The TRACE and DATA node for the following Note commands are functionally equivalent. 3-2-1. :DATA|TRACe:SEQuence:CLEar Description Clears the sequence data for the selected save memory (Seq0 ~ Seq9).

  • Page 34: Data|Trace:sequence:store

    3-2-3. :DATA|TRACe:SEQuence:STORe Description Saves the sequence data. This command is the equivalent to saving a sequence memory in Sequence mode. Syntax :DATA|TRACe:SEQuence:STORe {<NR1>|MINimum|MAXimum} Parameter <NR1> 0~9 (Seq0 ~ Seq9). Example :DATA:SEQ:STOR 1 Saves the data from Seq1. 3-2-4. :DATA|TRACe:SIMulation:CLEar Description Clears the simulation data for the selected save memory (SIM0 ~ SIM9).

  • Page 35: Data|Trace:simulation:store

    Example :DATA:SIM:REC 1 Loads the data from SIM1. 3-2-6. :DATA|TRACe:SIMulation:STORe Description Saves the simulation data. This command is the equivalent saving a simulation memory in Simulation mode (SIM0 ~ SIM9). Syntax :DATA|TRACe:SIMulation:STORe {<NR1>|MINimum|MAXimum} Parameter <NR1> 0~9 (SIM0 ~ SIM9). Example :DATA:SIM:STOR 1 Saves the data from SIM1.
  • Page 36 <NR1> 1 – 16 (ARB 1 – 16) Parameter Binary Data includes the #48192<DAB>...<DAB> Indicates the block data is sent. Indicates the number of subsequent numbers. 8192 Indicates the number of subsequent byte data. <DAB>. Indicates 16-bit with 4096 words ..<DAB waveform data.

  • Page 37: Measure Commands

    3-3. Measure Commands 3-3-1. :MEASure[:SCALar]:CURRent:CFAC Query Description Returns the output current crest factor (CF). Query syntax :MEASure[:SCALar]:CURRent:CFACtor? Return <NR2> Returns the crest factor. parameter Query 3-3-2. :MEASure[:SCALar]:CURRent:HIGH Description Returns the output current maximum peak value (Imax). Note: Current maximum peak value is defined as the highest peak value in the complete period.

  • Page 38: Measure[:Scalar]:Current:peak:hold

    3-3-5. :MEASure[:SCALar]:CURRent:PEAK :HOLD Query Description Returns the current peak hold value in amps (IPK Hold). Query syntax :MEASure[:SCALar]:CURRent:PEAK:HOLD? Return <NR2> Returns the peak hold value in amps. 3-3-6. :MEASure[:SCALar]:CURRent[:RMS] Query Description Returns the output current (Irms). Query syntax :MEASure[:SCALar]:CURRent[:RMS]? Return <NR2>...

  • Page 39: Measure[:Scalar]:Current:harmonic:ratio

    3-3-9. :MEASure[:SCALar]:CURRent:HARMon ic:RATio Query Description Returns 41 values covering Total and order 1 to 40 current (Ratio) in harmonic. (Only AC-INT and 50 /60 Hz Active) Query syntax :MEASure[:SCALar]:CURRent:HARMonic:RATio? Return <NR2>,<NR2 Returns the entire 41 values >,<NR2>, containing Total and order 1 to 40 <NR2>…, current (Ratio) in harmonic.

  • Page 40: Measure[:Scalar]:Power[:Ac]:Reactive

    3-3-13. :MEASure[:SCALar]:POWer[:AC]:RE ACtive Query Description Returns the reactive power (Q). Query syntax :MEASure[:SCALar]:POWer[:AC]:REACtive? Return <NR2> Returns the reactive power in VAR. 3-3-14. :MEASure[:SCALar]:POWer[:AC][:RE Query Description Returns the active power in Watts (P). Query syntax :MEASure[:SCALar]:POWer[:AC][:REAL]? Return <NR2> Returns the power in Watts. 3-3-15.

  • Page 41: Measure[:Scalar]:Voltage:low

    Note: Voltage maximum peak value is defined as the highest peak value in the complete period. Query syntax :MEASure[:SCALar]:VOLTage:HIGH? Return <NR2> Returns the Vmax value in volts. parameter 3-3-18. :MEASure[:SCALar]:VOLTage:LOW Query Description Returns the output current minimum value (Vmin). Note: Voltage minimum value is defined as the lowest value in the complete period.

  • Page 42: Measure:configure:sensing

    3-3-21. :MEASure:CONFigure:SENSing Query Description Sets or queries the remote sense configuration. (Only AC-INT, DC-INT, AC-SYNC Mode and 100V, 200V Range and SIN Wave Shape and Time Slew Rate Mode Active) Syntax :MEASure:CONFigure:SENSing {<bool>|OFF|ON} Query Syntax :MEASure:CONFigure:SENSing? Parameter OFF | 0 Turns the remote sense off. ON | 1 Turns the remote sense on.

  • Page 43: Memory:sav

    3-4-2. :MEMory:SAV Description Saves the settings into memory slot M0 ~ M9. These memory slots are mapped to the preset settings. Equivalent to the *SAV command. Syntax :MEMory:SAV {<NR1>|MINimum|MAXimum} Parameter <NR1> MINimum MAXimum 9 Example :MEMory:SAV 1 Save the settings to M1. 3-5.

  • Page 44: Output:protection:clear

    Parameter <NR1> 0 ~ 3 OFF| 0 Disabled ON | 1 Enabled SEQ | 2 Sequence function SIM | 3 Simulate function Return <NR1> Returns the selected output state at parameter power-on from 0 to 3. Example :OUTPut:PON 2 Sets sequence function on at power-on. 3-5-3.

  • Page 45: System:communicate:gpib[:Self]:Address

    Parameter OFF | 0 Turns the buzzer off. ON | 1 Turns the buzzer on. Return <bool> Returns the buzzer status. parameter 3-6-2. :SYSTem:COMMunicate:GPIB[:SEL Query F]:ADDRess Description Sets or queries the GPIB address. Note: The setting will only be valid after the power has been cycled.

  • Page 46: System:communicate:lan:dns

    3-6-4. :SYSTem:COMMunicate:LAN:DNS Query Description Sets or queries the DNS address. Note: The setting will only be valid after the power has been cycled. Syntax :SYSTem:COMMunicate:LAN:DNS <string> Query Syntax :SYSTem:COMMunicate:LAN:DNS? <string> DNS in string format ( “mask”) Parameter/Retur Applicable ASCII characters: 20H to 7EH SYST:COMM:LAN:DNS “172.16.1.252”...

  • Page 47: System:communicate:lan:mac

    Parameter/Retur <string> LAN IP address in string format ( “address”) Applicable ASCII characters: 20H to 7EH SYST:COMM:LAN:IPAD “172.16.5.111” Example Sets the IP address to 172.16.5.111. 3-6-7. :SYSTem:COMMunicate:LAN:MAC Query Description Returns the unit MAC address as a string. The MAC address cannot be changed. Query Syntax :SYSTem:COMMunicate:LAN:MAC? Return...

  • Page 48: System:communicate:serial[:Receive]:Transmit:baud

    Parameter/Retur LOCal All keys are valid. This instrument is n parameter controlled by the front panel controls. REMote All keys are invalid, except for the [local] key and the ability to turn the output off. RWLock All keys are invalid. The instrument can only be controlled remotely.

  • Page 49: System:communicate:serial[:Receive]:Transmit:parity

    Syntax :SYSTem:COMMunicate:SERial[:RECeive]:TRANs :BITS <NR1> Query Syntax :SYSTem:COMMunicate:SERial[:RECeive]:TRANs :BITS? Parameter 7 bits 8 bits Return 7 bits parameter 8 bits Example SYST:COMM:SER:TRAN:BITS? >+1 Indicates that 8 data bits are used for the UART connection. 3-6-12. :SYSTem:COMMunicate:SERial[:RE Query Ceive]:TRANsmit:PARity Description Sets or queries the parity of the UART connection. Note: The setting will only be valid after the power has been cycled.

  • Page 50: System:communicate:serial[:Receive]:Transmit:sbits

    3-6-13. :SYSTem:COMMunicate:SERial[:RE Query Ceive]:TRANsmit:SBITs Description Sets or queries the number of stop bits used for the UART connection. Note: The setting will only be valid after the power has been cycled. Syntax :SYSTem:COMMunicate:SERial[:RECeive]:TRANs :SBITs <NR1> Query Syntax :SYSTem:COMMunicate:SERial[:RECeive]:TRANs :SBITs? Parameter 1 stop bit 2 stop bits Return...

  • Page 51: System:communicate:usb:front:state

    3-6-15. :SYSTem:COMMunicate:USB:FRONt: STATe Query Description Queries the front panel USB-A port state. Query Syntax :SYSTem:COMMunicate:USB:FRONt:STATe? Return <NR1>Absent parameter <NR1>Mass Storage 3-6-16. :SYSTem:COMMunicate:USB:REAR: Query MODE Description Sets or queries the speed of the rear panel USB B port. This setting is applied only after the unit is reset.

  • Page 52: System:communicate:usb:rear:state

    3-6-17. :SYSTem:COMMunicate:USB:REAR: STATe Query Description Queries the rear panel USB-B port state. Query Syntax :SYSTem:COMMunicate:USB:REAR:STATe? Return <NR1>Absent parameter <NR1>Connected to the PC 3-6-18. :SYSTem:CONFigure[:MODE] Query Description Sets or queries the test mode for the power supply. Syntax :SYSTem:CONFigure[:MODE] {<NR1>|CONTinuous|SEQuence|SIMulation} (SEQ is available for AC+DC-INT, AC-INT, DC-INT Modes, whilst SIM is available for AC+DC-INT Mode.) Query Syntax...

  • Page 53: System:error

    Syntax :SYSTem:CONFigure:EXTio[:STATe] {<bool>|OFF|ON} Query Syntax :SYSTem:CONFigure:EXTio[:STATe]? Parameter OFF | 0 Turns the external control off. ON | 1 Turns the external control on. Return <bool> Returns the external control status. parameter 3-6-20. :SYSTem:ERRor Query Queries the error queue. The last error message is Description returned.

  • Page 54: System:klock

    Description Sets or queries the Ipeak hold time for peak current measurement when output on. Syntax :SYSTem:IPKhold:TIME {<NR1>} Query Syntax :SYSTem:IPKhold:TIME? Parameter <NR1> 1~60,000 Example :SYST:IPKH:TIME 10 Sets the Ipeak hold time 10ms to measure when output on. 3-6-24. :SYSTem:KLOCk Query Description Enables or disables the front panel key lock.

  • Page 55: Source Commands

    Sets or queries the Ipk-Low Limit parameter for the continuous operation mode. Syntax [:SOURce]:CURRent:LIMit:PEAK:LOW {<NR2>|MINimum|MAXimum} Query Syntax [:SOURce]:CURRent:LIMit:PEAK:LOW? [MINimum|MAXimum] Parameter <NR2> Ipk-Low Limit in Arms. MINimum Minimum settable peak current low TEXIO,ASR501-351,,V1.00.19.0000-0 limit MAXimum Maximum settable peak current low limit...

  • Page 56: Source]:Current:limit:rms[:Amplitude]

    Return <NR2> Returns the Ipk-Low Limit value parameter Example :CURR:LIM:PEAK:LOW? 14.80 Returns the peak current low limit as 14.8Arms. 3-7-3. [:SOURce]:CURRent:LIMit:RMS Query [:AMPLitude] Description Sets or queries the Irms parameter for the continuous operation mode. Syntax [:SOURce]:CURRent:LIMit:RMS[:AMPLitude] {<NR2>|MINimum|MAXimum} Query Syntax [:SOURce]:CURRent:LIMit:RMS[:AMPLitude]? [MINimum|MAXimum] Parameter...

  • Page 57: Source]:Current:limit:rms:mode

    Example :CURR:LIM:PEAK:MODE ON Sets Ipk limit enabled. 3-7-5. [:SOURce]:CURRent:LIMit:RMS:MO Query Description Sets or queries IRMS OC-Fold enable. Syntax [:SOURce]:CURRent:LIMit:RMS:MODE {<bool>|OFF|ON} Query Syntax [:SOURce]:CURRent:LIMit:RMS:MODE? Parameter/ <bool> |OFF (0)|ON (1) Return IRMS limit off parameter IRMS limit on Example :CURR:LIM:RMS:MODE ON Sets IRMS limit enabled. 3-7-6.

  • Page 58: Source]:Frequency:limit:low

    3-7-7. [:SOURce]:FREQuency:LIMit:LOW Query Description Sets or queries the frequency lower limit range. (Only AC+DC-INT or AC-INT or AC+DC-ADD or AC-ADD Active) Syntax [:SOURce]:FREQuency:LIMit:LOW {<NR2>|MINimum|MAXimum} Query Syntax [:SOURce]:FREQuency:LIMit:LOW? [INimum|MAXimum] Parameter <NR2> Frequency in Hz. MINimum Minimum settable frequency MAXimum Maximum settable frequency Return <NR2>...

  • Page 59: Source]:Function[:Shape][:Immediate]

    3-7-9. [:SOURce]:FUNCtion[:SHAPe][:IMMe Query diate] Description Sets or queries the waveforms of power supply. (Not available for AC+DC-EXT or AC-EXT) Syntax [:SOURce]:FUNCtion[:SHAPe][:IMMediate] {<NR1>|ARB1|ARB2|ARB3|ARB4|ARB5|ARB6|AR B7|ARB8|ARB9|ARB10|ARB11|ARB12|ARB13|AR B14|ARB15|ARB16|SIN|SQU|TRI} Query Syntax [:SOURce]:FUNCtion[:SHAPe][:IMMediate]? From 0 – 18, which represent different Parameter / <NR1> Return waveforms, respectively. parameter ARB1 Arbitrary wave 1...

  • Page 60: Source]:Function:thd:format

    3-7-10. [:SOURce]:FUNCtion:THD:FORMat Query Description Sets or queries the THD format. Syntax [:SOURce]:FUNCtion:THD:FORMat {<bool>|IEC|CSA} Query Syntax [:SOURce]:FUNCtion:THD:FORMat? Parameter / <bool> |IEC (0)|CSA (1) Return IEC THD format parameter CSA THD format Example :SOUR:FUNC:THD:FORM? Returns the THD format as IEC. 3-7-11. [:SOURce]:MODE Query Description Sets or queries the output mode of power supply.

  • Page 61: Source]:Phase:start:state

    Example MODE? AC+DC-INT Returns the output mode as AC+DC-INT. 3-7-12. [:SOURce]:PHASe:STARt:STATe Query Description Sets or queries state of start phase. (Not available for DC-INT, AC+DC-EXT and AC-EXT) Syntax [:SOURce]:PHASe:STARt:STATe {<bool>|FREE|FIXED} Query Syntax [:SOURce]:PHASe:STARt:STATe? Parameter/ <bool> |FREE (0)|FIXED (1) Return FREE Start phase Free parameter FIXED...

  • Page 62: Source]:Phase:start[:Immediate]

    3-7-14. [:SOURce]:PHASe:STARt[:IMMediat Query Description Sets or queries the start phase. (Not available for DC-INT, AC+DC-EXT and AC-EXT) Syntax [:SOURce]:PHASe:STARt[:IMMediate] {<NR2>|MINimum|MAXimum} Query Syntax [:SOURce]:PHASe:STARt[:IMMediate]? [MINimum|MAXimum] Parameter/Retur <NR2> Start phase value n parameter MINimum 0º MAXimum 359 º Example :PHAS:STAR 0 Sets the starting phase to 0. 3-7-15.

  • Page 63: Source]:Read

    Query 3-7-16. [:SOURce]:READ Description Returns the measurement readouts. Query Syntax [:SOURce]:READ? Return <Vrms>,<Vavg>, <THDv>,<THDi> returns values in parameter <Vmax>,<Vmin> AC-INT mode only, whereas ,<Irms>,<Iavg>,< returns Invalid in other modes. Imax>,<Imin>,<I <S>,<Q>,<PF>,<CF> returns pkH>,<P>,<S>,< Invalid in DC-INT mode. Q>,<PF>,<CF>, <Freq> returns values in AC+DC- <THDv>,<THDi>...

  • Page 64: Source]:Voltage:limit:rms

    3-7-18. [:SOURce]:VOLTage:LIMit:RMS Query Description Sets or queries the voltage limit for the continuous operation mode. (Only AC-INT or AC-ADD or AC- Sync Active) Syntax [:SOURce]:VOLTage:LIMit:RMS {<NR2>|MINimum|MAXimum} Query Syntax [:SOURce]:VOLTage:LIMit:RMS? [MINimum|MAXimum] Parameter <NR2> Vrms. MINimum Minimum voltage limit MAXimum Maximum voltage limit Return <NR2>...

  • Page 65: Source]:Voltage:limit:low

    3-7-20. [:SOURce]:VOLTage:LIMit:LOW Query Description Sets or queries the voltage low limit. (Only AC+DC- INT or DC-INT or AC+DC-ADD or AC+DC-Sync Active) Syntax [:SOURce]:VOLTage:LIMit:LOW {<NR2>|MINimum|MAXimum} Query Syntax [:SOURce]:VOLTage:LIMit:LOW? [MINimum|MAXimum] Parameter <NR2> Voltage low limit MINimum Minimum voltage low limit MAXimum Maximum voltage low limit Return <NR2>...

  • Page 66: Source]:Voltage[:Level][:Immediate]:Offset

    3-7-22. [:SOURce]:VOLTage[:LEVel][:IMMed Query iate]:OFFSet Description Sets or queries the voltage offset value. (Only AC+DC-INT or DC-INT or AC+DC-ADD or AC+DC- Sync Active) Syntax [:SOURce]:VOLTage[:LEVel][:IMMediate]:OFFSet {<NR2>(V)|MINimum|MAXimum} Query Syntax [:SOURce]:VOLTage[:LEVel][:IMMediate]:OFFSet? [MINimum|MAXimum] Parameter/Retur <NR2> Voltage offset value n parameter MINimum Minimum voltage offset value MAXimum Maximum voltage offset value Example...

  • Page 67: Sequence Commands

    3-8. Sequence Commands 3-8-1. [:SOURce]:SEQuence:CPARameter Description Sets the common parameters for the Sequence mode. Please see the user manual for a full description of each parameter. Syntax [:SOURce]:SEQuence:CPARameter {<NR2>,<NR2>,<bool>|OFF|ON,<NR2>,<bool>|O FF|ON,<NR1>|CONTinue|END|HOLD,<NR1>,<bo ol>|OFF|ON,<NR1>,<bool>|OFF|ON,<NR1>,<bool >|OFF|ON,<NR1>,<bool>|OFF|ON,<bool>|OFF|O Query Syntax [:SOURce]:SEQuence:CPARameter? Parameter <NR2> Step Time <NR2> On phase <bool>|OFF|ON|F On phase off (free)(1) / on...

  • Page 68: Source]:Sequence:cstep

    Return <NR2>,<NR2>,<bool>,<NR2>,<bool>,<NR1>,<NR parameter 1>, <bool>,<NR1>,<NR1>,<bool>,<NR1>,<bool>, <bool> Returns the common parameters in the following order: Step time, on phase, on phase on/off, off phase, off phase on/off, term settings, jump step number, jump on/off, jump count, code on/off, branch1, branch1 on/off, branch2, branch2 on/off, trig out on/off.

  • Page 69: Source]:Sequence:step

    <NR1>|CONSt| DCV mode: Constant(1) | KEEP|SWEep Keep(2) | Sweep(3) <NR2> Frequency <NR1>|CONSt| Frequency mode: Constant(1) | KEEP|SWEep Keep(2) | Sweep(3) Waveform ARB1|ARB2|ARB3|ARB4|ARB5 |ARB6|ARB7|ARB8|ARB9|ARB 10|ARB11|ARB12|ARB13|ARB1 4|ARB15|ARB16|SIN|SQU|TRI <NR1> Phase angle. Fixed to 0. Return <NR2>,<NR1>|CONSt|KEEP|SWEep,<NR2>,<NR parameter 1>|CONSt|KEEP|SWEep,<NR2>,<NR1>|CONSt|K EEP|SWEep,ARB1|ARB2|ARB3|ARB4|ARB5|ARB 6|ARB7|ARB8|ARB9|ARB10|ARB11|ARB12|ARB1 3|ARB14|ARB15|ARB16|SIN|SQU|TRI,<NR1> Returns the step parameters in the following order: ACV, ACV mode, DCV, DCV mode, frequency, frequency mode, wave, phase.

  • Page 70: Trigger:sequence:selected:execute

    3-8-5. :TRIGger:SEQuence:SELected:EXE Cute Query Description Sets to execute actions for sequence mode Syntax :TRIGger:SEQuence:SELected:EXECute {STOP|STARt|HOLD|BRAN1|BRAN2} Parameter STOP Stops sequence execution STARt Starts sequence execution HOLD Holds sequence execution BRAN1 Jumps to Branch 1 execution BRAN2 Jumps to Branch 2 execution Example TRIG:SEQ:SEL:EXEC STAR Starts sequence execution.

  • Page 71: Source]:Simulation:abnormal:frequency

    3-9-2. [:SOURce]:SIMulation:ABNormal:FR Query EQuency Description Sets or queries the frequency of the abnormal step of the simulation mode. Syntax [:SOURce]:SIMulation:ABNormal:FREQuency {<NR2>|MINimum|MAXimum} Query Syntax [:SOURce]:SIMulation:ABNormal:FREQuency? [MINimum|MAXimum] Parameter/Retur <NR2> Frequency of abnormal step n parameter MINimum Minimum frequency MAXimum Maximum frequency Example :SIM:ABN:FREQ 55 Sets the frequency to 55Hz.

  • Page 72: Source]:Simulation:abnormal:phase:start[:Immediate]

    3-9-4. [:SOURce]:SIMulation:ABNormal:PH Query ASe:STARt[:IMMediate] Description Sets or queries the ON Phs parameter of the abnormal step for the Simulation mode. Syntax [:SOURce]:SIMulation:ABNormal:PHASe:STARt [:IMMediate] {<NR2>|MINimum|MAXimum} Query Syntax [:SOURce]:SIMulation:ABNormal:PHASe:STARt [:IMMediate]? [MINimum|MAXimum] <NR2> ON Phs (start phase) Parameter/Retur MINimum n parameter MAXimum Example :SIM:ABN:PHAS:STAR 0 Sets ON Phs to 0.

  • Page 73: Source]:Simulation:abnormal:phase:stop[:Immediate]

    3-9-6. [:SOURce]:SIMulation:ABNormal:PH Query ASe:STOP[:IMMediate] Description Sets or queries the OFF Phs parameter of the abnormal step for the Simulation mode. Note: Sets the off phase of the waveform after the output has been turned off. Syntax [:SOURce]:SIMulation:ABNormal:PHASe:STOP [:IMMediate] {<NR2>|MINimum|MAXimum} Query Syntax [:SOURce]:SIMulation:ABNormal:PHASe:STOP [:IMMediate]? [MINimum|MAXimum] <NR2>...

  • Page 74: Source]:Simulation:abnormal:voltage

    3-9-8. [:SOURce]:SIMulation:ABNormal:VO Query LTage Description Sets or queries the Vset parameter of the abnormal step for the Simulation mode. Syntax [:SOURce]:SIMulation:ABNormal:VOLTage {<NR2>|MINimum|MAXimum} Query Syntax [:SOURce]:SIMulation:ABNormal:VOLTage? [MINimum|MAXimum] <NR2> Voltage of the abnormal step. Parameter/Retur MINimum Minimum settable voltage n parameter MAXimum Maximum settable voltage Example :SIM:ABN:VOLT MAX...

  • Page 75: Source]:Simulation:initial:frequency

    Syntax [:SOURce]:SIMulation:INITial:CODE {<NR1>|MINimum|MAXimum} Query Syntax [:SOURce]:SIMulation:INITial:CODE? [MINimum|MAXimum] Parameter/Retur <NR1> 0=LL, 1=LH, 2=HL, 3=HH n parameter MINimum 0 (LL) MAXimum 3 (HH) Example SIM:INIT:CODE 1 3-9-11. [:SOURce]:SIMulation:INITial:FREQu Query ency Description Sets or queries the frequency of the initial step of the simulation mode. Syntax [:SOURce]:SIMulation:INITial:FREQuency {<NR2>|MINimum|MAXimum}...

  • Page 76: Source]:Simulation:initial:phase:start[:Immediate]

    Example :SIM:INIT:PHAS:STAR:ENAB 1 Enable the ON Phs. 3-9-13. [:SOURce]:SIMulation:INITial:PHASe Query :STARt[:IMMediate] Description Sets or queries the ON Phs parameter of the initial step for the Simulation mode. Syntax [:SOURce]:SIMulation:INITial:PHASe:STARt [:IMMediate] {<NR2>|MINimum|MAXimum} Query Syntax [:SOURce]:SIMulation:INITial:PHASe:STARt [:IMMediate]? [MINimum|MAXimum] <NR2> ON Phs (start phase) Parameter/Retur MINimum n parameter...

  • Page 77: Source]:Simulation:initial:phase:stop[:Immediate]

    3-9-15. [:SOURce]:SIMulation:INITial:PHASe Query :STOP[:IMMediate] Description Sets or queries the OFF Phs parameter of the initial step for the Simulation mode. Note: Sets the off phase of the waveform after the output has been turned off. Syntax [:SOURce]:SIMulation:INITial:PHASe:STOP [:IMMediate] {<NR2>|MINimum|MAXimum} Query Syntax [:SOURce]:SIMulation:INITial:PHASe:STOP [:IMMediate]? [MINimum|MAXimum] <NR2>...

  • Page 78: Source]:Simulation:normal<1|2>:Code

    3-9-17. [:SOURce]:SIMulation:NORMal<1|2> Query :CODE Description Sets the external trigger output for the normal 1 or normal 2 step parameter. This option is only applicable when in the Simulation mode. Syntax [:SOURce]:SIMulation:NORMal<1|2>:CODE {<NR1>|MINimum|MAXimum} Query Syntax [:SOURce]:SIMulation:NORMal<1|2>:CODE? [MINimum|MAXimum] Parameter/Retur <NR1> 0=LL, 1=LH, 2=HL, 3=HH n parameter MINimum 0 (LL)

  • Page 79: Source]:Simulation:normal<1|2>:Phase:start:enable

    3-9-19. [:SOURce]:SIMulation:NORMal<1|2> Query :PHASe:STARt:ENABle Description Enables/Disables (Fixed/Free) the ON Phs parameter of the normal1 or normal2 step for the Simulation mode. Syntax [:SOURce]:SIMulation:NORMal<1|2>:PHASe:STA Rt:ENABle { <bool>|OFF|ON|FREE|FIXED} Query Syntax [:SOURce]:SIMulation:NORMal<1|2>:PHASe:STA Rt:ENABle? <1|2> Normal 1 or Normal 2 Parameter/Retur OFF | 0 | Disabled n parameter FREE...

  • Page 80: Source]:Simulation:normal<1|2>:Phase:stop:enable

    3-9-21. [:SOURce]:SIMulation:NORMal<1|2> Query :PHASe:STOP:ENABle Description Enables/Disables (Fixed/Free) the OFF Phs parameter of the normal1 or normal2 step for the Simulation mode. Syntax [:SOURce]:SIMulation:NORMal<1|2>:PHASe:STO P:ENABle {<bool>|OFF|ON|FREE|FIXED} Query Syntax [:SOURce]:SIMulation:NORMal<1|2>:PHASe:STO P:ENABle? Parameter/Retur <1|2> Normal 1 or Normal 2 n parameter OFF | 0 | Disabled FREE ON | 1 |...

  • Page 81: Source]:Simulation:normal<1|2>:Time

    3-9-23. [:SOURce]:SIMulation:NORMal<1|2> Query :TIME Description Sets or queries the Time parameter of the normal1 or normal2 step for the Simulation mode. Syntax [:SOURce]:SIMulation:NORMal<1|2>:TIME {<NR2>|MINimum|MAXimum} Query Syntax [:SOURce]:SIMulation:NORMal<1|2>:TIME? [MINimum|MAXimum] <1|2> Normal 1 or Normal 2 Parameter/Retur <NR2> Time of the step in seconds n parameter MINimum MAXimum...

  • Page 82: Source]:Simulation:repeat:count

    3-9-25. [:SOURce]:SIMulation:REPeat:COU Query Description Sets or queries the repeat count for the Simulation mode. Syntax [:SOURce]:SIMulation:REPeat:COUNt {<NR1>|MINimum|MAXimum} Query Syntax [:SOURce]:SIMulation:REPeat:COUNt? [MINimum|MAXimum] <NR1> 0 ~ 9999 (0 = infinite loop) Parameter/Retur MINimum n parameter MAXimum 9999 Example :SIM:REP:COUN 1 Sets the repeat count to 1. 3-9-26.

  • Page 83: Source]:Simulation:transition<1|2>:Time

    Syntax [:SOURce]:SIMulation:TRANsition<1|2>:TIME {<NR2>|MINimum|MAXimum} Query Syntax [:SOURce]:SIMulation:TRANsition<1|2>:TIME? [MINimum|MAXimum] <NR2> Time of the step in seconds Parameter/Retur MINimum n parameter MAXimum 999.9999s Example :SIM:TRAN1:TIME 1 Sets the step time to 1 second. 3-9-28. [:SOURce]:SIMulation:TRANsition<1| Query 2>:CODE Description Sets the external trigger output for the transition step parameter.

  • Page 84: Input Subsystem Command

    Example TRIG:SIM:SEL:EXEC STAR Starts simulate execution. 3-10. Input Subsystem Command 3-10-1. :INPut:GAIN Query Description Sets or queries the input gain value. (Only AC+DC- EXT or AC-EXT or AC+DC-ADD or AC-ADD Active) Syntax :INPut:GAIN {<NR2>(V)|MINimum|MAXimum} Query Syntax :INPut:GAIN? [MINimum|MAXimum] Parameter/Retur <NR2> Input gain value n parameter MINimum...

  • Page 85: Display Command

    3-11. Display Command 3-11-1. :DISPlay[:WINDow]:DESign:MODE Description Sets two display mode. Syntax :DISPlay[:WINDow]:DESign:MODE{NORMal|SIMP Parameter MORMal Configure setup and Measurement. SIMPle All measurement times. Example :DISP:DES:MODE NORM Sets standard normal display. 3-11-2. :DISPlay[:WINDow]:MEASure:SOUR ce<1|2|3> Description Sets standard normal display to measurement items 1 – 3. Syntax :DISPlay[:WINDow]:MEASure:SOURce<1|3>...

  • Page 86: Error List

    4. Error List 4-1. Command Errors Overview An <error/event number> in the range [ -199 , - 100 ] indicates that an IEEE 488.2 syntax error has been detected by the instrument’s parser. The occurrence of any error in this class shall cause the command error bit (bit 5) in the event status register (IEEE 488.2, section 11.5.1) to be set.
  • Page 87 Error Code Description -100 Command This is the generic syntax error for devices that Error cannot detect more specific errors. This code indicates only that a Command Error as defined in IEEE 488.2,11.5.1.1.4 has occurred. -102 Syntax An unrecognized command or data type was encountered;...
  • Page 88 -113 Undefined The header is syntactically correct, but it is header undefined for this specific device; for example, *XYZ is not defined for any device. -114 Header The value of a numeric suffix attached to a suffix out of program mnemonic, see Syntax and Style range section 6.2.5.2, makes the header invalid.
  • Page 89 -158 String data A string data element was encountered but was not allowed not allowed by the device at this point in parsing. -160 Block data This error, as well as errors -161 through -169, error are generated when parsing a block data element.

  • Page 90: Execution Errors

    4-2. Execution Errors Overview An <error/event number> in the range [ -299 , - 200 ] indicates that an error has been detected by the instrument’s execution control block. The occurrence of any error in this class shall cause the execution error bit (bit 4) in the event status register (IEEE 488.2, section 11.5.1) to be set.
  • Page 91 -203 Command Indicates that a legal password-protected protected program command or query could not be executed because the command was disabled. -211 Trigger Indicates that a GET, *TRG, or triggering signal ignored was received and recognized by the device but was ignored because of device timing considerations;...

  • Page 92: Device Specific Errors

    4-3. Device Specific Errors Overview An <error/event number> in the range [ -399 , - 300 ] or [ 1 , 32767 ] indicates that the instrument has detected an error which is not a command error, a query error, or an execution error;...

  • Page 93: Query Errors

    4-4. Query Errors Overview An <error/event number> in the range [ -499 , - 400 ] indicates that the output queue control of the instrument has detected a problem with the message exchange protocol described in IEEE 488.2, chapter 6. The occurrence of any error in this class shall cause the query error bit (bit 2) in the event status register (IEEE 488.2, section 11.5.1) to be set.

  • Page 94: Appendix

    5. APPENDIX 5-1. Factory Default Settings The following default settings are the factory configuration settings for the ASR series. For details on how to return to the factory default settings, please see the user manual. AC+DC-INT Mode ASR501-351(G) ASR102-351(G) Range...
  • Page 95 AC+DC-EXT Mode ASR501-351(G) ASR102-351(G) Range 100V GAIN 100.0 IRMS 5.25 A 10.50 A IPK Limit +/- 21.00 A +/- 42.00 A AC-EXT Mode ASR501-351(G) ASR102-351(G) Range 100V GAIN 100.0 IRMS 5.25 A 10.50 A IPK Limit +/- 21.00 A +/- 42.00 A AC+DC-ADD Mode ASR501-351(G) ASR102-351(G)
  • Page 96 0.0 Vrms +0.0 Vdc LINE IRMS 5.25 A 10.50 A V Limit +/- 250.0 Vpp F Limit 999.9 Hz IPK Limit +/- 21.00 A +/- 42.00 A ON Phs OFF Phs AC-SYNC Mode ASR501-351(G) ASR102-351(G) Range 100V Wave Shape 0.0 Vrms LINE IRMS 5.25 A...
  • Page 97 Sequence Mode Step Time 0.1000 s 0.0, CT 0.0, CT Fset 50.0, CT Wave Jump To Jump Cnt Branch 1 Branch 2 Term CONTI Sync Code ON Phs Free OFF Phs Free Simulation Mode Step Initial Repeat Time 0.1000 s Fset 50.00 ON Phs...
  • Page 98 7F Towa Fudosan Shin Yokohama Bldg. 2-18-13, Shin Yokohama, Kohoku-ku, Yokohama, Kanagawa, 222-0033 Japan https://www.texio.co.jp...

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