Hioki PW3335 Series Instruction Manual
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Hioki PW3335 Series Instruction Manual

Communication command
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Communication Command Instruction Manual
This manual explains the communication commands for the above Power Meter
models only.
Be sure to review the Instruction Manual for your Power Meter before using the
instrument.
Please refer to the instruction manual for your Power Meter for details regarding
command settings.
All reasonable care has been taken in the production of this manual, but if you find any
points which are unclear or in error, please contact your supplier or the International
Sales and Marketing Department at HIOKI headquarters.
In the interest of product development, the contents of this manual are subject
to revision without prior notice.
The content of this manual is protected by copyright.
No reproduction, duplication or modification of the content is permitted without
the authorization of HIOKI E.E. Corporation.
1.800.561.8187
PW3335(-01,-02,-03,-04)
January 2018 Revised edition 1
www.
.com
Power Meter
PW3335A985-01
information@itm.com

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  • Page 1 All reasonable care has been taken in the production of this manual, but if you find any points which are unclear or in error, please contact your supplier or the International Sales and Marketing Department at HIOKI headquarters.  In the interest of product development, the contents of this manual are subject to revision without prior notice.

  • Page 2: Table Of Contents

    Contents 1 Introduction ..............................1 Message Format ............................2 Output Queue and Input Buffer ........................5 Status Byte Register ............................6 Event Registers ............................. 8 Initialization Items ............................12 Command Execution Time ......................... 13 Errors During Communications ........................ 13 2 Message List ............................... 14 Standard Commands ..........................

  • Page 3: Introduction

    1 Introduction This manual is for Power Meter models PW3335(-01, -02, -03,-04). Messages are provided in the interface to control the Power Meter. There are two types of messages: program messages that are sent from the controller (such as a computer) to the Power Meter and response messages that are sent from the Power Meter to the controller.

  • Page 4: Message Format

    Message Format  Program Messages Program messages can be either Command Messages or Query Messages. (1) Command Messages Instructions to control the instrument, such as to change settings or reset Example: Instruction to set the voltage range. :VOLTAGE:RANGE 300 Header portion Space Data portion (2) Query Messages Requests for responses relating to results of operation or...
  • Page 5 • Headers for Standard Commands This header type begins with an asterisk "*", indicating that it is a standard command defined by IEEE 488.2. (2) Query Program Header These commands are used to query the instrument about the results of operations, measured values, and the current states of instrument settings.
  • Page 6  Data Formats The instrument uses character data, decimal numeric data and character string data depending on the command. (1) Character Data Character data always begins with an alphabetic character, and subsequent characters may be either alphabetic or numeric. Character data is not case-sensitive, although response messages from the instrument are only upper case.

  • Page 7: Output Queue And Input Buffer

    Output Queue and Input Buffer  Output Queue Response messages are stored in the output queue until read by the controller. The output queue is also cleared in the following circumstances: • Power on • Device clear • Query error The output queue capacity of the instrument is 4,096 bytes.

  • Page 8: Status Byte Register

    Status Byte Register The instrument uses the status model defined by the IEEE 488.2 standard for items related to serial polling via the service request function. Events are what trigger service requests. Standard Event Register Description Service Request Output Queue data information SRQ occurrence Each of these bits correspond to a specific event register bit7...
  • Page 9  Status Byte Register (STB) During serial polling, the contents of the 8-bit Status Byte Register are sent from the instrument to the controller. When any Status Byte Register bit enabled by the Service Request Enable Register has switched from 0 to 1, the MSS bit becomes 1.

  • Page 10: Event Registers

    Event Registers  Standard Event Status Register (SESR) The Standard Event Status Register is an 8-bit register. If any bit in the Standard Event Status Register is set to 1(after masking by the Standard Event Status Enable Register), bit 5 (ESB) of the Status Byte Register is set to 1. “...
  • Page 11  Standard Event Status Enable Register (SESER) Setting any bit of the Standard Event Status Enable Register to 1 enables access to the corresponding bit of the Standard Event Status Register. Standard Event Status Register (SESR) and Standard Event Status Enable Register (SESER) Status Byte Register (STB) bit6 bit5...
  • Page 12 Event Status Register 1 (ESR1) Frequency Bit 7 The frequency(voltage or current) is invalid. Out of Range Bit 6 Over A peak overflow of voltage or current occurred in the active power DataIntegrate integration value. CurrentOver Bit 5 A peak overflow of current occurred in the current integration DataIntegrate value.
  • Page 13  Register Reading and Writing Register Read Write *STB? Status Byte Register *SRE? *SRE Service Request Enable Register *ESR? Standard Event Status Register *ESE? *ESE Standard Event Status Enable Register :ESR0? Event Status Register 0 :ESE0? :ESE0 Event Status Enable Register 0 :ESR1? Event Status Register 1 :ESE1?

  • Page 14: Initialization Items

    Initialization Items Device Initialization Method System *RST *CLS Factory Clear Item Power-on Reset Command Command Default (GP-IB only) GP-IB address RS-232C setting (baud rate) 38400 LAN setting Device-specific functions (range, ● ● etc.) ● ● ● ● Output Queue ● ●...

  • Page 15: Command Execution Time

    Command Execution Time Command execution time indicates the time for analyzing and processing long form commands. However, the command execution time for commands with data is the time described according to the data format specified in the <data portion>, and for query commands it is the time when the header is ON. ...

  • Page 16: Message List

    2 Message List The information in angled brackets < > represents the data format. When the GP-IB interface is used, you can send an SRQ interrupt to the controller by setting the Event Status Register and *SRE. Standard Commands Data Formats Reference Message (Response data for queries)

  • Page 17: Device-Specific Commands (Measurement Settings)

    Device-specific Commands (Measurement Settings) Data Formats Reference Message Description Page (Response data for queries) :AVERaging Sets/Queries the number of times to 1/2/5/10/25/50/100 :AVERaging? perform averaging. Queries the integration set time and the :INTEGrate? integration state. :INTEGrate:STATe START/STOP/RESET Sets/Queries the integration state. :INTEGrate:STATe? :INTEGrate:TIME <Hour(NR1)>, <Minutes(NR1)>...

  • Page 18: Device-Specific Commands (Current Range)

    Device-specific Commands (Current Range) Data Formats Reference Message Description Page (Response data for queries) Queries the current range setting item :CURRent? (<AUTO>, <Current Range>, ...) (ch1 only). :CURRent:AUTO Sets (all channels) or queries (ch1 only) ON/OFF :CURRent:AUTO? the current automatic range. :CURRent:RANGe Sets (all channels) or queries (ch1 only) <Current Range (NR1)>...

  • Page 19: Device-Specific Commands (Frequency Range [Zero-Crossing Filter])

    Device-specific Commands (Frequency Range [Zero-crossing Filter]) The frequency range and zero-crossing filter settings are linked. Data Formats Reference Message Description Page (Response data for queries) Queries the frequency range :FREQuency? <Frequency Range (NR3)> (zero-crossing filter). :FREQuency:RANGe Sets or queries the frequency range <Frequency Range (NR3)>...

  • Page 20: Device-Specific Commands (Vt/Ct Ratio)

    :SOURce:FILTer:LEVel:I5A? source detection level. :SOURce:FILTer:LEVel:I10A Sets or queries the current synchronization 1~15 :SOURce:FILTer:LEVel:I10A? source detection level. :SOURce:FILTer:LEVel:I20A Sets or queries the current synchronization 1~15 :SOURce:FILTer:LEVel:I20A? source detection level. :SOURce:FILTer:LEVel:C1A Sets or queries the current (external sensor) 1~15 :SOURce:FILTer:LEVel:C1A? synchronization source detection level. :SOURce:FILTer:LEVel:C2A Sets or queries the current (external sensor) 1~15...

  • Page 21: Device-Specific Commands (D/A Output)

    Device-specific Commands (D/A Output) Data Formats Reference Message Description Page (Response data for queries) Queries (D/A1 output items only) :AOUT? D/A output items. :AOUT:ITEM:DA1 <Output Item> Sets/Queries the D/A1 terminal output item. :AOUT:ITEM:DA1? :AOUT:ITEM:DA2 <Output Item> Sets/Queries the D/A2 terminal output item. :AOUT:ITEM:DA2? :AOUT:ITEM:DA3 <Output Item>...

  • Page 22: Device-Specific Commands (Instrument Display Settings)

    Device-specific Commands (Instrument Display Settings) Data Formats Reference Message ([ ]: Can be omitted) Description Page (Response data for queries) :DISPlay[:NORMal] Sets/Queries instrument display items (a) (<Display a>, <Display b>, :DISPlay[:NORMal]? through (d). <Display c>, <Display d>) :DISPlay:NORMal:A <Display a> Sets/Queries instrument display item (a).

  • Page 23: Device-Specific Commands (Measurement Value Output)

    Device-specific Commands (Measurement Value Output) :MEASure[:NORMAL]:ITEM:U:CH1(?) → Setting Command:MEASure[:NORMAL]:ITEM:U:CH1 Note: Query :MEASure[:NORMAL]:ITEM:U:CH1? Data Formats Reference (Response data Message ([ ]: Can be omitted) Description Page for queries) :MEASure[:POWer]? <Measurement Item 1> ... Queries measurement :MEASure[:NORMal]:VALue? Maximum 180 data. Turns OFF all output items :MEASure:ITEM:ALLClear (including harmonic wave).
  • Page 24 Data Formats Reference (Response data Message ([ ]: Can be omitted) Description Page for queries) “:MEASure?” query :MEASure[:NORMAL]:ITEM:S:ALL <Output Item Sets/Queries the apparent :MEASure[:NORMAL]:ITEM:S:CH1(?) (Rectification Method)> power (instantaneous value) data output. “:MEASure?” query :MEASure[:NORMAL]:ITEM:S_MAX:ALL <Output Item Sets/Queries the apparent :MEASure[:NORMAL]:ITEM:S_MAX:CH1(?) (Rectification Method)>...
  • Page 25 Data Formats Reference (Response data Message ([ ]: Can be omitted) Description Page for queries) “:MEASure?” query :MEASure[:NORMAL]:ITEM:FREQU_MIN:ALL Sets/Queries the voltage <Output Setting 0/1> :MEASure[:NORMAL]:ITEM:FREQU_MIN:CH1(?) frequency (minimum value) data output. “:MEASure?” query :MEASure[:NORMAL]:ITEM:FREQI:ALL Sets/Queries the current <Output Setting 0/1> :MEASure[:NORMAL]:ITEM:FREQI:CH1(?) frequency (instantaneous value) data output.
  • Page 26 Data Formats Reference (Response data Message ([ ]: Can be omitted) Description Page for queries) :MEASure[:NORMAL]:ITEM:MIH:ALL :MEASure[:NORMAL]:ITEM:MIH:CH1(?) (Data by current range during auto-range integration) :MEASure[:NORMAL]:ITEM:MIH:CH1:I200mA(?) “:MEASure?” query :MEASure[:NORMAL]:ITEM:MIH:CH1:I500mA(?) <Output Item Sets/Queries the negative :MEASure[:NORMAL]:ITEM:MIH:CH1:I1A(?) (Rectification Method)> integration current data :MEASure[:NORMAL]:ITEM:MIH:CH1:I2A(?) output.
  • Page 27 Data Formats Reference (Response data Message ([ ]: Can be omitted) Description Page for queries) “:MEASure?” query Sets/Queries the voltage :MEASure[:NORMAL]:ITEM:UPK_MAX:ALL <Output Setting 0/1> waveform peak value :MEASure[:NORMAL]:ITEM:UPK_MAX:CH1(?) (maximum value) data output. “:MEASure?” query Sets/Queries the voltage :MEASure[:NORMAL]:ITEM:UPK_MIN:ALL <Output Setting 0/1> waveform peak value :MEASure[:NORMAL]:ITEM:UPK_MIN:CH1(?) (minimum value) data...
  • Page 28 Data Formats Reference (Response data Message ([ ]: Can be omitted) Description Page for queries) “:MEASure?” query :MEASure[:NORMAL]:ITEM:ICF_MAX:ALL Sets/Queries the current <Output Setting 0/1> :MEASure[:NORMAL]:ITEM:ICF_MAX:CH1(?) crest factor (maximum value) data output. “:MEASure?” query :MEASure[:NORMAL]:ITEM:ICF_MIN:ALL Sets/Queries the current <Output Setting 0/1> :MEASure[:NORMAL]:ITEM:ICF_MIN:CH1(?) crest factor (minimum value) data output.
  • Page 29 Data Formats Reference (Response data Message ([ ]: Can be omitted) Description Page for queries) “:MEASure?” query Sets/Queries the total :MEASure[:NORMal]:ITEM:UTHD:ALL harmonic wave voltage <Output Setting 0/1> :MEASure[:NORMal]:ITEM:UTHD:CH1(?) distortion factor (instantaneous value) data output. “:MEASure?” query Sets/Queries the total :MEASure[:NORMal]:ITEM:UTHD_MAX:ALL <Output Setting 0/1>...

  • Page 30: Device-Specific Commands (Measurement Value Output Settings [Harmonic Wave])

    Device-specific Commands (Measurement Value Output Settings [Harmonic Wave]) :MEASure:HARMonic:ITEM:U:CH1(?) → Setting Command :MEASure:HARMonic:ITEM:U:CH1 Note: Query :MEASure:HARMonic:ITEM:U:CH1? Data Formats Reference Message ([ ]: Can be omitted) Description Page (Response data for queries) Harmonic wave measurement :MEASure:HARMonic[:VALue]? data output. “:MEASure:HARMonic?” :MEASure:HARMonic:ITEM:ALLClear Turns OFF all query output. (<Output Item 1>, <Output Item 2>, “:MEASure:HARMonic?”query.
  • Page 31 Data Formats Reference Message ([ ]: Can be omitted) Description Page (Response data for queries) “:MEASure:HARMonic?” Sets/Queries the output of the :MEASure:HARMonic:ITEM:I_MIN:ALL harmonic wave current <Output Setting 0/1> :MEASure:HARMonic:ITEM:I_MIN:CH1(?) effective value (minimum value) output for the above query. “:MEASure:HARMonic?” :MEASure:HARMonic:ITEM:P:ALL Sets/Queries the harmonic <Output Setting 0/1>...
  • Page 32 Data Formats Reference Message ([ ]: Can be omitted) Description Page (Response data for queries) “:MEASure:HARMonic?” Sets/Queries the harmonic :MEASure:HARMonic:ITEM:PCON_MIN:ALL <Output Setting 0/1> wave active power content :MEASure:HARMonic:ITEM:PCON_MIN:CH1(?) (minimum value) for the above query. “:MEASure:HARMonic?” :MEASure:HARMonic:ITEM:UPHAse:ALL Sets/Queries the harmonic <Output Setting 0/1> :MEASure:HARMonic:ITEM:UPHAse:CH1(?) wave voltage phase angle for the above query.

  • Page 33: Device-Specific Commands (Communications)

    Device-specific Commands (Communications) Data Formats Reference Message ([ ]: Can be omitted) Description Page (Response data for queries) :RS232c? Queries the RS232-C setting items. :RS232c:BAUD <RS Baud Rate> Sets/Queries the RS232-C baud rate. :RS232c:BAUD? :RS232c:ANSWer Sets/Queries the execution confirmation ON/OFF :RS232c:ANSWer? message.

  • Page 34: Message Reference

    3 Message Reference Message Reference Interpretation < >: Indicates the contents (character or numeric parameters) of the data portion of a message. Character parameters are returned as all capital letters. Numeric Parameters : • Number format may be any of NR1, NR2 and NR3 •...

  • Page 35: Standard Commands

    Example *IDN? Query HIOKI,PW3335,04,V1.00,ser123456789 Response The Device ID is HIOKI PW3335-04 (RS-232c,GP-IB, with D/A output,current sensor input), software version 1.00, 123456789. Note ・The response message has no header. "*IDN?" must be the last query message in a program message. ・ Therefore, if any other query is detected after this query on the same line, a query error will occur and no response message will be output.

  • Page 36: Synchronization Commands

    Execute Self-test and Query Result Syntax *TST? Query <0 ~ 4 (NR1)> Response 0: No error 1: ROM error 2: RAM error 3: FPGA error 4: Backup data error Description Perform the instrument self-test and return the result as a numerical value 0 to 4. Returns zero when no error occurs.

  • Page 37: Status And Event Control Commands

    (4) Status and Event Control Commands Clear Event Register, Status Byte Register (Except Output Queue) Command Syntax * CLS Description Clears the event status registers. The Status Byte Register bits corresponding to the event status registers are also cleared. (SESR, ESR0, ESR1, RS232c:ERRor) ・The output queue, enable registers, and bit 4 of the status byte register (MAV) are not Note affected.
  • Page 38 Write and Read Service Request Enable Register (SRER) Command Syntax *SRE <0~255 (NR1)> Query *SRE? Response <0~255 (NR1)> Command Description The SRER mask is set to the numerical value 0 to 255. Although NRf numerical values are accepted, values to the right of the decimal are truncated.

  • Page 39: Device-Specific Commands

    Device-specific Commands (1) Event Status Register Set and Query Device-specific Event Status Enable Register ESER0 Command Syntax :ESE0 <0~255 (NR1)> Query :ESE0? Response <0~255 (NR1)> Command Description Sets the mask pattern in Event Status Enable Register 0 (ESER0) for the Event Status Register. Although NRf numerical values are accepted, values to the right of the decimal are truncated.

  • Page 40: Measurement Settings

    (2) Measurement Settings Setting and Querying the Number of Times to Perform Averaging Command Syntax :AVERaging <Number of times to perform averaging (NR1)> Query :AVERaging? Response <Number of times to perform averaging (NR1)> 1/2/5/10/25/50/100 Description Sets or queries the number of times to perform averaging. Although NRf numerical values are accepted, values to the right of the decimal are truncated.
  • Page 41 Querying the Integration Set Time and Status Query :INTEGrate? Syntax Response <0000 to 9999 (NR1)>,<00 to 59 (NR1)>;<Integration status> Description Returns the integration set time (hours, minutes) and the status of integration calculations as a numerical value and string, respectively. See “:INTEGrage:TIME?”, ”INTEGrage:STATe?”...
  • Page 42 Set and Query the Integration Time Command :INTEGrate:TIME Syntax <0000 to 9999 (NR1)>,<00to 59 (NR1)> Query :INTEGrate:TIME? Response <0000 to 9999(NR1)>,<00 to 59(NR1) > Description Sets or queries the hours and minutes for the integration time. The setting range is 1 minute to 9,999 hours and 59 minutes. The unit is 1 minute.
  • Page 43 Set and Query the Display Hold Status Command :HOLD Syntax <ON/OFF/MAX/MIN/RESET> Query :HOLD? Response <ON/OFF/MAX/MIN/RESET> Keeps the current display value (display hold state). Releases the currently held display value. Displays the maximum value (maximum value hold). Displays the minimum value (minimum value hold). RESET Resets the maximum, minimum, and averaged values.

  • Page 44: Voltage Range

    Set and Query the Multiple Instrument Synchronization Control Function Command :SYNC:CONTrol Syntax <OFF/IN/OUT> Query :SYNC:CONTrol? Response <OFF/IN/OUT> Turns OFF the synchronization control function. Sets the instrument as the slave device. Sets the instrument as the master device. Command Description Sets or queries the I/O settings for multiple device synchronization control. Command Example :SYNC:CONT OUT...
  • Page 45 Set and Query the Voltage Range Setting Command :VOLTage:RANGe Syntax <Voltage Range (NR1)> Query :VOLTage:RANGe? Response <Voltage range (NR1)> <Voltage range (NR1)> = 6/15/30/60/150/300/600/1000 Command Description Sets the voltage range setting. (The unit is in volts [V].) The numerical value is accepted in NRf format. Query Returns the voltage range setting in NR1 format.
  • Page 46 Set and Query Voltage Range Select Command Syntax :VOLTage:SELect:U6V < ON/OFF> :VOLTage:SELect:U15V < ON/OFF> :VOLTage:SELect:U30V < ON/OFF> :VOLTage:SELect:U60V < ON/OFF> :VOLTage:SELect:U150V < ON/OFF> :VOLTage:SELect:U300V < ON/OFF> :VOLTage:SELect:U600V < ON/OFF> Query :VOLTage:SELect:U6V? :VOLTage:SELect:U15V? :VOLTage:SELect:U30V? :VOLTage:SELect:U60V? :VOLTage:SELect:U150V? :VOLTage:SELect:U300V? :VOLTage:SELect:U600V? :VOLTage:SELect:U1000V? Response <ON/OFF> Performs measurement using the voltage range in question during range key operation, auto-range operation, and auto-range integration.
  • Page 47 Set and Query Voltage Range Select Command Syntax :VOLTage:SELect <data(NR1)> Query :VOLTage:SELect? Response <data> <data(NR1)> bit7 bit6 bit5 bit4 bit3 bit2 bit1 bit0 1000V 600V 300V 150V Description Sets and queries voltage range use settings range key operation, auto-range operation, and auto-range integration as a value from 0 to 127.

  • Page 48: Current Range

    (4) Current Range Batch Query of Current Range Settings Query Syntax :CURRent? Response <Current range (NR2)>;<Auto range ON/OFF>,<Current sensor type>,<Current sensor range>,<Select (NR1)>, <Select (NR1)> Description Queries the current range setting. Query Example :CURR? Response (When HEADER ON) :CURRENT:RANGE 0.2;AUTO OFF; TYPE TYPE2;EXTRANGE C50;SELECT 255,32 (When HEADER OFF) 0.2;...
  • Page 49 Set and Query the Current Range Setting Command :CURRent:RANGe <Current range (NR2)> Syntax Query :CURRent:RANGe? Response <Current range (NR2)> <Current range (NR2)> = 0.001/0.002/0.005/0.01/0.02/0.05/0.1/0.2/0.5/1/2/5/10/20 Command Description Sets the current range setting. (The unit used for current is amperes [A].) NRf numerical values are accepted Query Returns the current range setting in NR1 format.
  • Page 50 Set and Query Auto-range Current Range Select Command :CURRent:SELect:I1mA Syntax ON/OFF :CURRent:SELect:I2mA ON/OFF :CURRent:SELect:I5mA ON/OFF :CURRent:SELect:I10mA ON/OFF :CURRent:SELect:I20mA ON/OFF :CURRent:SELect:I50mA ON/OFF :CURRent:SELect:I200mA ON/OFF :CURRent:SELect:I500mA ON/OFF :CURRent:SELect:I1A ON/OFF :CURRent:SELect:I2A ON/OFF :CURRent:SELect:I5A ON/OFF :CURRent:SELect:I10A ON/OFF :CURRent:SELect:C1A ON/OFF :CURRent:SELect:C2A ON/OFF Query :CURRent:SELect:I1mA? :CURRent:SELect:I2mA? :CURRent:SELect:I5mA? :CURRent:SELect:I10mA? :CURRent:SELect:I20mA?
  • Page 51 (the “m” in “1 mA” an similar text cannot be omitted). Set and Query Current Range Select Command Syntax :CURRent:SELect <data1(NR1)>, <data2(NR1)> Query :CURRent:SELect? Response <data1>,<data2> <data1(NR1)> bit7 bit6 bit5 bit4 bit3 bit2 bit1 bit0 100mA 50mA 20mA 10mA 200mA <data2(NR1)>...
  • Page 52 Set and Query the Current Range (When Using an External Current Sensor) Command :CURRent:EXTRange < > Syntax External Current Sensor Range Query :CURRent:EXTRange? Response <External current sensor range> <External current sensor range> = C1/C2/C5 Command Description Sets the external current range. Unlike other commands such as :CURRent:RANGe, an error will occur if any value other than the above <External current sensor range>...

  • Page 53: Frequency Range (Zero-Crossing Filter)

    (5) Frequency Range (Zero-crossing Filter) Query the Frequency Range Query :FREQuency? Syntax Response <Frequency range (NR3)> Description Queries the frequency range setting. Query Example :FREQuency? Response (When HEADER ON) :FREQUENCY:RANGE +500.0E+0 (When HEADER OFF) +500.0E+0 ・The frequency range and zero-crossing filter settings are linked. Note ・Instead of :FREQuency?, you can also use :FREQuency1?.

  • Page 54: Synchronization Source

    (6) Synchronization Source Set and Query the Synchronization Source Command :SOURce Syntax <Synchronization source> Query :SOURce? Response < Synchronization source > <Synchronization source> = U / I / DC Description Sets or queries the synchronization source setting. Command Example :SOUR U Query :SOUR? Response...
  • Page 55 Set and Query Zero-cross Threshold Values (Voltage Ranges) Command Syntax :SOURce:FILTer:LEVel:U6V <1~15 (NR1)> :SOURce:FILTer:LEVel:U15V <1~15 (NR1)> :SOURce:FILTer:LEVel:U30V <1~15 (NR1)> :SOURce:FILTer:LEVel:U60V <1~15 (NR1)> :SOURce:FILTer:LEVel:U150V <1~15 (NR1)> :SOURce:FILTer:LEVel:U300V <1~15 (NR1)> :SOURce:FILTer:LEVel:U600V <1~15 (NR1)> :SOURce:FILTer:LEVel:U1000V <1~15 (NR1)> Query :SOURce:FILTer:LEVel:U6V? :SOURce:FILTer:LEVel:U15V? :SOURce:FILTer:LEVel:U30V? :SOURce:FILTer:LEVel:U60V? :SOURce:FILTer:LEVel:U150V? :SOURce:FILTer:LEVel:U300V? :SOURce:FILTer:LEVel:U600V? :SOURce:FILTer:LEVel:U1000V?
  • Page 56 :SOURce:FILTer:LEVel:I50mA? :SOURce:FILTer:LEVel:I100mA? :SOURce:FILTer:LEVel:I200mA? :SOURce:FILTer:LEVel:I500mA? :SOURce:FILTer:LEVel:I1A? :SOURce:FILTer:LEVel:I2A? :SOURce:FILTer:LEVel:I5A? :SOURce:FILTer:LEVel:I10A? :SOURce:FILTer:LEVel:I20A? Response <1~15(NR1)> Command Description Sets zero-cross threshold values. Although NRf numerical values are accepted, values to the right of the decimal are truncated. Query Queries zero-cross threshold values. Command Example :SOUR:FILT:LEV:I1A 1 Query :SOUR:FILT:LEV:I1A? Response...

  • Page 57: Vt Ratio/Ct Ratio

    (7) VT Ratio/CT Ratio Query the VT Ratio and CT Ratio Query :SCALe? Syntax Response <VT ratio (NR2)>,<CT ratio(NR2)> Description Queries the VT (PT) ratio and CT ratio setting values. Query Example :SCAL? Response (When HEADER ON) :SCALE:VT 2.0;CT 3.000 (When HEADER OFF) 2.0;3.000 Set and Query the VT Ratio Setting...

  • Page 58: D/A Output

    (8) D/A output Set and Query D/A Output (D/A1) Settings Command Syntax :AOUT <Output item> Output Terminal D/A1 Query :AOUT? Output Terminal D/A1 Response <Output item> List of Measurement Item Specifications for details about the <Output item> field. Command Description D/A1 Output Item Query (Same as...
  • Page 59 Set and Query Current Range Select during D/A Output Terminal (D/A 1 to 7) Integrated Value Output Command Output Terminal D/A1 (NR2) Syntax :AOUT:IRANge:DA1 < integrated value current range > :AOUT:IRANge:DA2 < (NR2) > integrated value current range Output Terminal D/A2 (NR2) :AOUT:IRANge:DA3 <...
  • Page 60 D/A output item specification list (For :AOUT:ITEM:DA1~7) Parameter List Description (Values in parentheses can also be used.) Rectification Method Full-scale or output range Output items Speed ACDC (5 V f.s.) ACDC UMEAN 2Vf.s. UFND Level (V,V1,U1) 5Vf.s. U_5V UMN_5V UDC_5V UAC_5V UFND_5V 2Vf.s.
  • Page 61 Parameter List Description (Values in parentheses can also be used.) Rectification Method Full-scale or output range Output items Speed ACDC (5 V f.s.) ACDC UMEAN FREQI 500Hz FREQI_500 5kHz FREQI_5K 50kHz FREQI_50K 500kHz FREQI_500K 5mAh PIHDC_0005 50mAh PIHDC_005 500mAh PIHDC_05 PIHDC_5 PIHDC_ 50Ah...
  • Page 62 Parameter List Description (Values in parentheses can also be used.) Rectification Method Full-scale or output range Output items Speed ACDC (5 V f.s.) ACDC UMEAN 5000MAh IH_5000M IHMN_5000M IHDC_5000M 5mWh PWP_0005 PWPMN_0005 PWPDC_0005 50mWh PWP_005 PWPMN_005 PWPDC_005 500mWh PWP_05 PWPDC_05 PWPMN_05 PWP_5 PWPMN_5...
  • Page 63 Parameter List Description (Values in parentheses can also be used.) Rectification Method Full-scale or output range Output items Speed ACDC (5 V f.s.) ACDC UMEAN 500kWh WP_500K WPMN_500K WPDC_500K 5MWh WP_5M WPMN_5M WPDC_5M 50MWh WP_50M WPMN_50M WPDC_50M 500MWh WP_500M WPDC_500M WPMN_500M 5000MW WP_5000M...

  • Page 64: Instrument Display Settings

    (9) Instrument Display Settings Set and Query Instrument Display Items (Normal Measurement Items) Command Display Area: a to d :DISPlay[:NORMal] Syntax <Display a>,<Display b>, <Display c>,<Display d> :DISPlay:NORMal:A <Display a> Display Area: a :DISPlay:NORMal:B Display Area: b <Display b> :DISPlay:NORMal:C <Display c>...
  • Page 65 Normal Measurement Display Items List (For :DISPlay[:NORMal]) Description :DISPlay Parameter List :NORMal Rectificati Output items Compatibility on Method ACDC (U1/V can also be used.) a,b,c,d ACDC (UMN1 can also be used.) a,b,c,d UMEAN Voltage (U) (UDC1 can also be used.) a,b,c,d (UAC1 can also be used.) a,b,c,d...
  • Page 66 Description :DISPlay Rectificati Parameter List :NORMal Output items on Method Compatibility PWP (PWP1/PWH/PINTEG can also be used.) PWP_TOTAL During Auto-range integration operation: Data ACDC a,b: See by current range Note 1. PWP_IRANGE PWPMN (PWPMN1 can also be used.) PWPMN_TOTAL Positive Active power ACDC During Auto-range integration operation: Data integration...
  • Page 67 Description :DISPlay Rectificati Parameter List :NORMal Output items on Method Compatibility ITAV (ITAV1 can also be used.) ACDC a,b,c,d ITAV_TOTAL ACDC ITAVMN (ITAVMN1 can also be used.) a,b,c,d UMEAN ITAVMN_TOTAL Time average current ITAVDC (ITAVDC1 can also be used.) a,b,c,d (T.AV I) ITAVDC_TOTAL During Auto-range integration operation: Data...
  • Page 68 Toggle and Query the Normal Measurement and Harmonic Wave Measurement Display Modes Command Syntax :DISPlay:MODE <NORM/HRMS/HCON /HOSRMS/HOSCON> Query :DISPlay:MODE? Response <NORM/HRMS/HCON/HOSRMS/HOSCON> NORM: Normal measurement values HRMS: Harmonic wave level display, all orders (a: order, b/c/d: harmonic wave measurement) HCON: Harmonic wave content display, all orders (a: order, b/c/d: harmonic wave measurement) HOSRMS: Harmonic wave level display, individual orders (a/b/c/d: harmonic wave measurement)
  • Page 69 Set and Query the Displayed Order for Harmonic Wave Individual Order Display Mode Command :DISPlay:HORDerSel:A:ORDer <0 to 50 (NR1)> Syntax Display Area: a :DISPlay:HORDerSel:B:ORDer <0 to 50 (NR1)> Display Area: b :DISPlay:HORDerSel:C:ORDer <0 to 50 (NR1)> Display Area: c :DISPlay:HORDerSel:D:ORDer <0 to 50 (NR1)>...

  • Page 70: Measurement Value Output

    (10) Measurement Value Output Query Measurement Data (Normal Measurement Items) (<Output item 1>…) Query :MEASure[:POWer]? Syntax (<Output item 1>…) :MEASure[:NORMal]:VALue? Up to a maximum of 180 items Response <Output item 1><Measurement value 1>,<Output item 2><Measurement value 2>…. See the List of Output Item Specifications for details about the <Measurement item>...
  • Page 71 (When HEADER OFF) +150.00E+0;+020.00E+0;+03.000E+3 ・When all output items are set to OFF (immediately after Note executing :MEASure:ITEM:ALLClear), the measurement values for the items shown in display areas (a) through (d) will be output. ・You can use the :TRANsmit:SEParator command to change the message unit separator from a semicolon ";"...
  • Page 72 Substitute parameter Measurement Rectificati (can be used with the Type Parameter List Item on Method same definition) Instantaneous value PMN1 MEAN Maximum value PMN_MAX PMN1_MAX Minimum value PMN_MIN PMN1_MIN Instantaneous value PAC1 Maximum value PAC_MAX PAC1_MAX Minimum value PAC_MIN PAC1_MIN Instantaneous value PDC1 Maximum value...
  • Page 73 Substitute parameter Measurement Rectificati (can be used with the Type Parameter List Item on Method same definition) frequency Maximum value FREQU_MAX FREQU1_MAX Minimum value FREQU_MIN FREQU1_MIN Instantaneous value FREQI FREQI1 Current Maximum value FREQI_MAX FREQI1_MAX frequency Minimum value FREQI_MIN FREQI1_MIN Instantaneous value UPK1 Voltage...
  • Page 74 Substitute parameter Measurement Rectificati (can be used with the Type Parameter List Item on Method same definition) ripple factor Maximum value URF_MAX URF1_MAX Minimum value URF_MIN URF1_MIN Instantaneous value IRF1 Current Maximum value IRF_MAX IRF1_MAX ripple factor Minimum value IRF_MIN IRF1_MIN Instantaneous value UTHD...
  • Page 75 Substitute parameter Measurement Rectificati (can be used with the Type Parameter List Item on Method same definition) integration During Auto-range integration UMEAN (total sum) operation: Data by current range (See Note 2.) WPMN_200mA, WPMN_500mA, WPMN_1A, WPMN_2A, WPMN_5A, WPMN_10A, WPMN_20A, WPMN_BACKUP PWPDC PWPDC1 During Auto-range integration...
  • Page 76 Substitute parameter Measurement Rectificati (can be used with the Type Parameter List Item on Method same definition) (total sum) During Auto-range integration operation: Data by current range (See Note 2.) IHDC_200mA, IHDC_500mA, IHDC_1A,IHDC_2A,IHDC_5A, IHDC_10A, IHDC_20A, IHDC_BACKUP TIME During Auto-range integration operation: Data by current range Integration Instantaneous value...
  • Page 77 Perform and Query a Reset of Output Items :MEASure? and :MEASure:HARMonics? Command :MEASure:ITEM:ALLClear Syntax Clears all outputs set for :MEASure? and :MEASure:HARMonic? Description :MEASure:ITEM commands. Command Example :MEAS:ITEM:ALLC ・This command turns all output settings OFF. Note ・The output settings immediately after the instrument is powered on are as follows: Normal Measurement Items U, I, P, S, Q, PF, DEGAC, FREQU, and FREQI.
  • Page 78 :MEASure? Set and Query Output Items Command Syntax :DATAout:ITEM <data1 (NR1)>,<data2 (NR1)> Query :DATAout:ITEM? Response <data1>,<data2> <data1 (NR1)> bit7 bit6 bit5 bit4 bit3 bit2 bit1 bit0 FREQU <data2 (NR1)> bit7 bit6 bit5 bit4 bit3 bit2 bit1 bit0 TIME Sets or queries the measurement items for the :MEASure? query as a Description numerical value between 0 and 255.
  • Page 79 :MEASure? Set and Query Output Items (Measurement status data: instantaneous value, maximum value, minimum value) Instantaneous Syntax MEASure[:NORMal]:ITEM:STATus:INST(?) <Output item> value Maximum/Minimum :MEASure[:NORMal]:ITEM:STATus:MAXmin(?) <Output item> value Response <Output item (NR1)> bit7 bit6 bit5 bit4 bit3 bit2 bit1 bit0 STATUS Sets the measurement data status (instantaneous value, maximum value, Description minimum value) output items as numerical values between 0 and 1.
  • Page 80 Set and Query :MEASure? Output Items (Instantaneous, Maximum, and Minimum Values for Voltage Data) Instantaneous Syntax :MEASure[:NORMal]:ITEM:U:ALL <Output item> value :MEASure[:NORMal]:ITEM:U:CH1(?) <Output item> Maximum :MEASure[:NORMal]:ITEM:U_MAX:ALL <Output item> value :MEASure[:NORMal]:ITEM:U_MAX:CH1(?) <Output item> Minimum :MEASure[:NORMal]:ITEM:U_MIN:ALL <Output item> value :MEASure[:NORMal]:ITEM:U_MIN:CH1(?) <Output item> Response <Output item (NR1)>...
  • Page 81 :MEASure? Set and Query Output Items (Instantaneous, Maximum, and Minimum Values for Active Power Data) :MEASure[:NORMal]:ITEM:P:ALL Instantaneous Syntax <Output item> value :MEASure[:NORMal]:ITEM:P:CH1(?) <Output item> :MEASure[:NORMal]:ITEM:P_MAX:ALL Maximum <Output item> value :MEASure[:NORMal]:ITEM:P_MAX:CH1(?) <Output item> :MEASure[:NORMal]:ITEM:P_MIN:ALL Minimum <Output item> value :MEASure[:NORMal]:ITEM:P_MIN:CH1(?) <Output item> Response <Output item (NR1)>...
  • Page 82 :MEASure? Set and Query Output Items (Instantaneous, Maximum, and Minimum Values for Inactive Power Data) Instantane :MEASure[:NORMal]:ITEM:Q:ALL <Output item> Syntax ous value :MEASure[:NORMal]:ITEM:Q:CH1(?) <Output item> Maximum :MEASure[:NORMal]:ITEM:Q_MAX:ALL <Output item> value :MEASure[:NORMal]:ITEM:Q_MAX:CH1(?) <Output item> Minimum :MEASure[:NORMal]:ITEM:Q_MIN:ALL <Output item> value :MEASure[:NORMal]:ITEM:Q_MIN:CH1(?) <Output item> Response <Output item (NR1)>...
  • Page 83 :MEASure? Set and Query Output Items (Instantaneous, Maximum, and Minimum Values for Phase Angle Data) Instantaneous Syntax :MEASure[:NORMal]:ITEM:DEG:ALL <Output item> value :MEASure[:NORMal]:ITEM:DEG:CH1(?) <Output item> Maximum :MEASure[:NORMal]:ITEM:DEG_MAX:ALL <Output item> value :MEASure[:NORMal]:ITEM:DEG_MAX:CH1(?) <Output item> Minimum :MEASure[:NORMal]:ITEM:DEG_MIN:ALL <Output item> value :MEASure[:NORMal]:ITEM:DEG_MIN:CH1(?) <Output item> Response <Output item (NR1)>...
  • Page 84 :MEASure? Set and Query Output Items (Instantaneous, Maximum, and Minimum Values for Current Frequency Data) Instantane Syntax :MEASure[:NORMal]:ITEM:FREQI:ALL <Output item> ous value :MEASure[:NORMal]:ITEM:FREQI:CH1(?) <Output item> Maximum :MEASure[:NORMal]:ITEM:FREQI_MAX:ALL <Output item> value :MEASure[:NORMal]:ITEM:FREQI_MAX:CH1(?) <Output item> Minimum :MEASure[:NORMal]:ITEM:FREQI_MIN:ALL <Output item> value :MEASure[:NORMal]:ITEM:FREQI_MIN:CH1(?) <Output item> Response <Output item (NR1)>...
  • Page 85 :MEASure? Set and Query Output Items (Current Integration [Total Sum]) Syntax :MEASure[:NORMal]:ITEM:IH:ALL <Output item> :MEASure[:NORMal]:ITEM:IH:CH1(?) <Output item> Data by current range during auto-range integration :MEASure[:NORMal]:ITEM:IH:CH1:I200mA(?) <Output item> :MEASure[:NORMal]:ITEM:IH:CH1:I500mA(?) <Output item> :MEASure[:NORMal]:ITEM:IH:CH1:I1A(?) <Output item> :MEASure[:NORMal]:ITEM:IH:CH1:I2A(?) <Output item> :MEASure[:NORMal]:ITEM:IH:CH1:I5A(?) <Output item> :MEASure[:NORMal]:ITEM:IH:CH1:I10A(?) <Output item>...
  • Page 86 :MEASure? Set and Query Output Items (Positive Current Integration) Syntax :MEASure[:NORMal]:ITEM:PIH:ALL <Output item> :MEASure[:NORMal]:ITEM:PIH:CH1(?) <Output item> Data by current range during auto-range integration :MEASure[:NORMal]:ITEM:PIH:CH1:I200mA(?) <Output item> :MEASure[:NORMal]:ITEM:PIH:CH1:I500mA(?) <Output item> :MEASure[:NORMal]:ITEM:PIH:CH1:I1A(?) <Output item> :MEASure[:NORMal]:ITEM:PIH:CH1:I2A(?) <Output item> :MEASure[:NORMal]:ITEM:PIH:CH1:I5A(?) <Output item> :MEASure[:NORMal]:ITEM:PIH:CH1:I10A(?) <Output item> :MEASure[:NORMal]:ITEM:PIH:CH1:I20A(?) <Output item>...
  • Page 87 :MEASure? Set and Query Output Items (Negative Current Integration) Syntax :MEASure[:NORMal]:ITEM:MIH:ALL <Output item> :MEASure[:NORMal]:ITEM:MIH:CH1(?) <Output item> Data by current range during auto-range integration :MEASure[:NORMal]:ITEM:MIH:CH1:I200mA(?) <Output item> :MEASure[:NORMal]:ITEM:MIH:CH1:I500mA(?) <Output item> :MEASure[:NORMal]:ITEM:MIH:CH1:I1A(?) <Output item> :MEASure[:NORMal]:ITEM:MIH:CH1:I2A(?) <Output item> :MEASure[:NORMal]:ITEM:MIH:CH1:I5A(?) <Output item> :MEASure[:NORMal]:ITEM:MIH:CH1:I10A(?) <Output item> :MEASure[:NORMal]:ITEM:MIH:CH1:I20A(?) <Output item>...
  • Page 88 :MEASure? Set and Query Output Items (Active Power Integration [Total Sum]) Syntax :MEASure[:NORMal]:ITEM:WP:ALL <Output item> :MEASure[:NORMal]:ITEM:WP:CH1(?) <Output item> Data by current range during auto-range integration :MEASure[:NORMal]:ITEM:WP:CH1:I200mA(?) <Output item> :MEASure[:NORMal]:ITEM:WP:CH1:I500mA(?) <Output item> :MEASure[:NORMal]:ITEM:WP:CH1:I1A(?) <Output item> :MEASure[:NORMal]:ITEM:WP:CH1:I2A(?) <Output item> :MEASure[:NORMal]:ITEM:WP:CH1:I5A(?) <Output item> :MEASure[:NORMal]:ITEM:WP:CH1:I10A(?) <Output item>...
  • Page 89 :MEASure? Set and Query Output Items (Positive Active Power Integration) Syntax :MEASure[:NORMal]:ITEM:PWP:ALL <Output item> :MEASure[:NORMal]:ITEM:PWP:CH1(?) <Output item> Data by current range during auto-range integration :MEASure[:NORMal]:ITEM:PWP:CH1:I200mA(?) <Output item> :MEASure[:NORMal]:ITEM:PWP:CH1:I500mA(?) <Output item> :MEASure[:NORMal]:ITEM:PWP:CH1:I1A(?) <Output item> :MEASure[:NORMal]:ITEM:PWP:CH1:I2A(?) <Output item> :MEASure[:NORMal]:ITEM:PWP:CH1:I5A(?) <Output item> :MEASure[:NORMal]:ITEM:PWP:CH1:I10A(?) <Output item>...
  • Page 90 :MEASure? Set and Query Output Items (Negative Active Power Integration) Syntax :MEASure[:NORMal]:ITEM:MWP:ALL <Output item> :MEASure[:NORMal]:ITEM:MWP:CH1(?) <Output item> Data by current range during auto-range integration :MEASure[:NORMal]:ITEM:MWP:CH1:I200mA(?) <Output item> :MEASure[:NORMal]:ITEM:MWP:CH1:I500mA(?) <Output item> :MEASure[:NORMal]:ITEM:MWP:CH1:I1A(?) <Output item> :MEASure[:NORMal]:ITEM:MWP:CH1:I2A(?) <Output item> :MEASure[:NORMal]:ITEM:MWP:CH1:I5A(?) <Output item> :MEASure[:NORMal]:ITEM:MWP:CH1:I10A(?) <Output item>...
  • Page 91 :MEASure? Set and Query Output Items (Instantaneous, Maximum, and Minimum Values for the Voltage Waveform Peak) Instantaneous :MEASure[:NORMal]:ITEM:UPK:ALL <Output item> Syntax value :MEASure[:NORMal]:ITEM:UPK:CH1(?) <Output item> Maximum :MEASure[:NORMal]:ITEM:UPK_MAX:ALL <Output item> value :MEASure[:NORMal]:ITEM:UPK_MAX:CH1(?) <Output item> Minimum :MEASure[:NORMal]:ITEM:UPK_MIN:ALL <Output item> value :MEASure[:NORMal]:ITEM:UPK_MIN:CH1(?) <Output item> Response <Output item (NR1)>...
  • Page 92 :MEASure? Set and Query Output Items (Instantaneous, Maximum, and Minimum Values for Maximum Current Ratio Data) Instantaneous Syntax :MEASure[:NORMal]:ITEM:MCR:ALL <Output item> value :MEASure[:NORMal]:ITEM:MCR:CH1(?) <Output item> Maximum :MEASure[:NORMal]:ITEM:MCR_MAX:ALL <Output item> value :MEASure[:NORMal]:ITEM:MCR_MAX:CH1(?) <Output item> Minimum :MEASure[:NORMal]:ITEM:MCR_MIN:ALL <Output item> Value :MEASure[:NORMal]:ITEM:MCR_MIN:CH1(?) <Output item> Response <Output item (NR1)>...
  • Page 93 :MEASure? Set and Query Output Items (Instantaneous, Maximum, and Minimum Values for Current Crest Factor Data) Instantaneous :MEASure[:NORMal]:ITEM:ICFactor:ALL <Output item> Syntax value :MEASure[:NORMal]:ITEM:ICFactor:CH1(?) <Output item> Maximum :MEASure[:NORMal]:ITEM:ICF_MAX:ALL <Output item> value :MEASure[:NORMal]:ITEM:ICF_MAX:CH1(?) <Output item> Minimum :MEASure[:NORMal]:ITEM:ICF_MIN:ALL <Output item> value :MEASure[:NORMal]:ITEM:ICF_MIN:CH1(?) <Output item> Response <Output item (NR1)>...
  • Page 94 :MEASure? Set and Query Output Items (Time Average Current) :MEASure[:NORMal]:ITEM:ITAVerage:ALL <Output item> Syntax :MEASure[:NORMal]:ITEM:ITAVerage:CH1(?) <Output item> Data by current range during auto-range integration :MEASure[:NORMal]:ITEM:ITAVerage :CH1:I200mA(?) <Output item> :MEASure[:NORMal]:ITEM:ITAVerage :CH1:I500mA(?) <Output item> :MEASure[:NORMal]:ITEM:ITAVerage:CH1:I1A(?) <Output item> :MEASure[:NORMal]:ITEM:ITAVerage:CH1:I2A(?) <Output item> :MEASure[:NORMal]:ITEM:ITAVerage:CH1:I5A(?) <Output item> :MEASure[:NORMal]:ITEM:ITAVerage:CH1:I10A(?) <Output item>...
  • Page 95 :MEASure? Set and Query Output Items (Time Average Active Power) :MEASure[:NORMal]:ITEM:PTAVerage:ALL <Output item> Syntax :MEASure[:NORMal]:ITEM:PTAVerage:CH1(?) <Output item> Data by current range during auto-range integration :MEASure[:NORMal]:ITEM:PTAVerage :CH1:I200mA(?) <Output item> :MEASure[:NORMal]:ITEM:PTAVerage :CH1:I500mA(?) <Output item> :MEASure[:NORMal]:ITEM:PTAVerage:CH1:I1A(?) <Output item> :MEASure[:NORMal]:ITEM:PTAVerage:CH1:I2A(?) <Output item> :MEASure[:NORMal]:ITEM:PTAVerage:CH1:I5A(?) <Output item> :MEASure[:NORMal]:ITEM:PTAVerage:CH1:I10A(?) <Output item>...
  • Page 96 :MEASure? Set and Query Output Items (Instantaneous, Maximum, and Minimum Values for the Current Ripple Factor) Instantaneous :MEASure[:NORMal]:ITEM:IRF:ALL <Output item> Syntax value :MEASure[:NORMal]:ITEM:IRF:CH1(?) <Output item> Maximum :MEASure[:NORMal]:ITEM:IRF_MAX:ALL <Output item> value :MEASure[:NORMal]:ITEM:IRF_MAX:CH1(?) <Output item> Minimum :MEASure[:NORMal]:ITEM:IRF_MIN:ALL <Output item> value :MEASure[:NORMal]:ITEM:IRF_MIN:CH1(?) <Output item> Response <Output item (NR1)>...
  • Page 97 :MEASure? Set and Query Output Items (Instantaneous, Maximum, and Minimum Values for Total Harmonic Wave Current Distortion Factor Data) Syntax :MEASure[:NORMal]:ITEM:ITHD:ALL <Output item> Instantane ous value :MEASure[:NORMal]:ITEM:ITHD:CH1(?) <Output item> :MEASure[:NORMal]:ITEM:ITHD_MAX:ALL <Output item> Maximum value :MEASure[:NORMal]:ITEM:ITHD_MAX:CH1(?) <Output item> :MEASure[:NORMal]:ITEM:ITHD_MIN:ALL <Output item> Minimum value :MEASure[:NORMal]:ITEM:ITHD_MIN:CH1(?) <Output item>...
  • Page 98 Query Harmonic Wave Measurement Data (Normal Measurement Items) Query :MEASure:HARMonic[:VALue]? Syntax Response <Output item 1><Measurement value 1>,<Output item 2><Measurement value 2>…. (Maximum of 180 items) See the List of Harmonic Wave Measurement Item Specifications details about the <Output item> field. Query Outputs the items specified via :MEASure:HARMonic:ITEM...
  • Page 99 :MEASure:HARMonic? Output Items and their Sequence Harmonic Wave Measurement Items Status Status Instantaneous value Status_MaxMin Total Effective Value Voltage 0-order HU1L000 (Level) Voltage 0-order (maximum value) HU1MAXL000 Voltage 0-order (minimum value) HU1MINL000 Current 0-order HI1L000 Current 0-order (maximum value) HI1MAXL000 Current 0-order (minimum value) HI1LMIN000 Power 0-order...
  • Page 100 Voltage Phase Voltage 50-order HU1P050 Difference Voltage 50-order HU1MAXP050 (maximum value) Voltage 50-order (minimum value) HU1MINP050 Current Phase Current 50-order HI1P050 Difference Current 50-order HI1MAXP050 (maximum value) Current 50-order (minimum value) HI1MINP050 Voltage Current Power 50-order HP1P050 Phase Power 50-order (maximum value) HP1MAXP050 Difference Power 50-order (minimum value)
  • Page 101 :MEASure:HARMonic? Set and Query Output Items Command Syntax :MEASure:HARMonic:ITEM :LIST <data1 (NR1)>,<data2 (NR1)>,<data3 (NR1)>, <data4 (NR1)>,<data5 (NR1)>,<data6 (NR1)> Query :MEASure:HARMonic:ITEM:LIST? Response <data1>,<data2>,<data3>,<data4>,<data5>,<data6> <data1 (NR1)> Effective Value HU,HI bit7 bit6 bit5 bit4 bit3 bit2 bit1 bit0 <data2 (NR1)> Effective Value HP bit7 bit6 bit5...
  • Page 102 :MEASure:HARMonic? Set and Query Output Items (Order) Command Syntax :MEASure:HARMonic:ITEM:ORDer <Lower Limit Order (NR1)>,<Upper Limit Order (NR1)>,<ODD/EVEN/ALL> Query :MEASure:HARMonic:ITEM:ORDer? Response <Lower Limit Order (NR1)>, <Upper Limit Order (NR1)>,<ODD/EVEN/ALL> Lower limit order (NR1): 0 to 50 Upper limit order (NR1): 0 to 50 (the lower limit must be less than or equal to the upper limit) ODD: Odd orders only EVEN: Even orders only...
  • Page 103 Set and Query :MEASure:HARMonic? Output Items (Instantaneous, Maximum, and Minimum Values for the Harmonic Wave Voltage Effective Value) Instantaneous :MEASure:HARMonic:ITEM:U:ALL <Output item> Syntax value :MEASure:HARMonic:ITEM:U:CH1(?) <Output item> Maximum :MEASure:HARMonic:ITEM:U_MAX:ALL <Output item> value :MEASure:HARMonic:ITEM:U_MAX:CH1(?) <Output item> Minimum :MEASure:HARMonic:ITEM:U_MIN:ALL <Output item> value :MEASure:HARMonic:ITEM:U_MIN:CH1(?) <Output item>...
  • Page 104 :MEASure:HARMonic? Set and Query Output Items (Instantaneous, Maximum, and Minimum Values for the Harmonic Wave Active Power Effective Value) Instantaneous :MEASure:HARMonic:ITEM:P:ALL <Output item> Syntax value :MEASure:HARMonic:ITEM:P:CH1(?) <Output item> Maximum :MEASure:HARMonic:ITEM:P_MAX:ALL <Output item> value :MEASure:HARMonic:ITEM:P_MAX:CH1(?) <Output item> Minimum :MEASure:HARMonic:ITEM:P_MIN:ALL <Output item> value :MEASure:HARMonic:ITEM:P_MIN:CH1(?) <Output item>...
  • Page 105 Set and Query :MEASure:HARMonic? Output Items (Instantaneous, Maximum, and Minimum Values for the Harmonic Wave Current Content Ratio) Instantaneous :MEASure:HARMonic:ITEM:ICON:ALL Syntax <Output item> value :MEASure:HARMonic:ITEM:ICON:CH1(?) <Output item> Maximum :MEASure:HARMonic:ITEM:ICON_MAX:ALL <Output item> value :MEASure:HARMonic:ITEM:ICON_MAX:CH1(?) <Output item> Minimum :MEASure:HARMonic:ITEM:ICON_MIN:ALL <Output item> value :MEASure:HARMonic:ITEM:ICON_MIN:CH1(?) <Output item>...
  • Page 106 :MEASure:HARMonic? Set and Query Output Items (Instantaneous, Maximum, and Minimum Values for the Harmonic Wave Voltage Phase Angle) Instantaneous :MEASure:HARMonic:ITEM:UPHAse:ALL <Output item> Syntax value :MEASure:HARMonic:ITEM:UPHAse:CH1(?) <Output item> Maximum :MEASure:HARMonic:ITEM:UPHAse_MAX:ALL <Output item> value :MEASure:HARMonic:ITEM:UPHAse_MAX:CH1(?) <Output item> Minimum value :MEASure:HARMonic:ITEM:UPHAse_MIN:ALL <Output item> :MEASure:HARMonic:ITEM:UPHAse_MIN:CH1(?) <Output item>...
  • Page 107 Set and Query :MEASure:HARMonic? Output Items (Instantaneous, Maximum, and Minimum Values for the Harmonic Voltage Current Phase difference) Instantaneous :MEASure:HARMonic:ITEM:PPHAse:ALL <Output item> Syntax value :MEASure:HARMonic:ITEM:PPHAse:CH1(?) <Output item> Maximum :MEASure:HARMonic:ITEM:PPHAse_MAX:ALL <Output item> value :MEASure:HARMonic:ITEM:PPHAse_MAX:CH1(?) <Output item> Minimum :MEASure:HARMonic:ITEM:PPHAse_MIN:ALL <Output item> value :MEASure:HARMonic:ITEM:PPHAse_MIN:CH1(?) <Output item>...

  • Page 108: Communications Settings

    (11) Communications Settings Set and Query RS-232C Settings Query Syntax :RS232c? Response BAUD <9600BPS/38400BPS>;ANSWER <ON/OFF> BAUD <9600BPS/38400BPS>: RS232C baud rate ANSWER<ON/OFF>: Turns execution confirmation message output ON or OFF. Returns the RS232-C baud rate and execution confirmation message settings Description as string values.
  • Page 109 Set and Query the RS-232C Execution Confirmation Message Setting Command :RS232c:ANSWer <ON/OFF> Syntax Query :RS232c:ANSWer? Response <ON/OFF> Sets or queries the RS-232C execution confirmation message output Description setting (ON or OFF). When set to ON, a response is also received when sending a command. In addition, an execution confirmation message is included after the response to a query.
  • Page 110 Initialize the Bluetooth Adapter for LR8410 and Query Its Result Command Syntax :RS232c:BTINit Query :RS232c:BTINit? Response <OK/BUSY/ERROR/NONE> Response Description The initialization is successfully completed. BUSY The initialization is in progress. ERROR The initialization failed. NONE No initialization is executed. Description Initializes the Bluetooth Serial Adapter Parani-SD1000, used for LR8410Link, when Model Parani-SD1000 is connected to the RS-232C terminal.
  • Page 111 Set and Query the LAN IP Address Execution Confirmation Message Setting Command :IP:ADDRess Syntax <Address 1 (NR1)>,<Address 2 (NR1)>,<Address 3 (NR1)>,<Address 4 (NR1)> Query :IP:ADDRess? Response <Address 1 (NR1)>,<Address 2 (NR1)>,<Address 3 (NR1)>,<Address 4 (NR1)> <Address 1 to Address 4 (NR1)> = 0 to 255 Description Sets or queries the IP address of the instrument.
  • Page 112 Query GP-IB Settings Query :GPIB? Syntax Response <GP-IB address (NR1)> <GP-IB address (NR1)> = 0 to 30 Returns the GP-IB address setting as a string. Description Query Example :GPIB? Response (When HEADER ON) :GPIB:ADDRESS 5 (When HEADER OFF) ・This query can be used with the RS-232C, LAN, and GP-IB interfaces. Note ・If GP-IB is not implemented by the unit, a device error will occur.
  • Page 113 Set and Query the Message Unit Separator Command :TRANsmit:SEParator <0/1> Syntax Query :TRANsmit:SEParator? Response <0/1> Semicolon ";" (default setting) Comma "," Sets or queries the message unit separator used in response messages. Description Although NRf numerical values are accepted, values to the right of the decimal are truncated.

  • Page 114: Status-Dependent Commands (Common Commands)

    (12) Status-dependent Commands (Common Commands) ○: Can be executed ×: Cannot be executed Status Integration Reset Integration START Integration STOP System Continu Continu Continu Error HOLD HOLD HOLD Command ○ ○ ○ ○ ○ ○ ○ *CLS ○ ○ ○ ○...

  • Page 115: Status-Dependent Commands (Device-Specific Commands)

    (13) Status-dependent Commands (Device-specific Commands) ○: Can be executed ×: Cannot be executed △: While the display is held , cannot be executed. When the maximum/minimum values are being held,can be executed. Status Integration Reset Integration START Integration STOP System Continu Continu Continu...
  • Page 116 Status Integration Reset Integration START Integration STOP System Continu Continu Continu Error HOLD HOLD HOLD Command :HORDerSel :[A,B,C,D] ○ ○ ○ ○ ○ ○ :ITEM × ○ ○ ○ ○ ○ ○ ○ :ITEM? ○ ○ ○ ○ ○ ○ :ORDer ×...
  • Page 117 Status Integration Reset Integration START Integration STOP System Continu Continu Continu Error HOLD HOLD HOLD Command (*See also: Detailed Command Specifications ○ ○ ○ ○ ○ ○ :ADDRess × ○ ○ ○ ○ ○ ○ ○ :ADDRess? ○ ○ ○ ○...
  • Page 118 Status Integration Reset Integration START Integration STOP System Continu Continu Continu Error HOLD HOLD HOLD Command ○ :TIMEOut × × × × × × :FILTer :LEVel ○ :ALL × × × × × × ○ :U[xxx]V × × × × ×...
  • Page 119 Status Descriptions Integration Reset Integration calculations are stopped and the integration time and integration value are reset. (The INTEGRATOR RUN indicator is OFF.) Integration START Integration calculations are being performed (the INTEGRATOR RUN indicator is ON). Integration STOP Integration calculations are stopped (the INTEGRATOR RUN indicator is flashing).

  • Page 120: Operation Problems (Communications)

    4 Operation Problems (Communications) When communications are not operating properly, check the following causes and try the listed solutions. * Problems and solutions with no specific interface icon ( ) can be applied for all interfaces. Problem Cause / Solution ・Are all cables properly connected? The RS-232C/LAN/GP-IB interface does not work at all.
  • Page 121 ・Use the I sent a command but nothing *ESR? query to check the Standard Event Status happens. Register for items that have caused an error. (See page ・Use the RS232c:ERRor? query to check for any RS-232C communications errors. (See page ・Set RS232c:ANSWer to ON to enable execution confirmation.

  • Page 122: Device Documentation Requirements

    5 Device Documentation Requirements Information Related to Standard Execution Methods Based on IEEE488.2 (1) IEEE488.1 Interface Functions See Chapter 4.1.3 “GP-IB Interface Settings and Connection” in the Instruction Manual for the instrument. (2) Operation When the Address Is Set to a Value Outside the Range of 0 to 30 Settings outside the range of 0 to 30 are not allowed.
  • Page 123 (8) List of Program Data Elements Used in <Expressions> and the Maximum Number of Nested Levels Allowed in Sub-expressions (Including Syntax Restrictions Imposed by the Device on <Expressions>) Sub-expressions are not used. The program data elements used in expressions are character program data and binary numerical value program data.

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