YOKOGAWA WT5000 User Manual
  1. Manuals
  2. Brands
  3. YOKOGAWA Manuals
  4. Measuring Instruments
  5. WT5000
  6. User manual

YOKOGAWA WT5000 User Manual

Precision power analyzer communication interface
Hide thumbs Also See for WT5000:
Table of Contents

Advertisement

Quick Links

Download this manual
WT5000
Precision Power Analyzer
Communication Interface
IM WT5000-17EN
5th Edition

Advertisement

Table of Contents
loading
Need help?

Need help?

Do you have a question about the WT5000 and is the answer not in the manual?

Questions and answers

Related Manuals for YOKOGAWA WT5000

Summary of Contents for YOKOGAWA WT5000

  • Page 1 WT5000 Precision Power Analyzer Communication Interface IM WT5000-17EN 5th Edition...

  • Page 2: List Of Manuals

    YOKOGAWA is strictly prohibited. • The TCP/IP software of this product and the documents concerning it have been developed/created by YOKOGAWA based on the BSD Networking Software, Release 1 that has been licensed from the Regents of the University of California.
  • Page 3 You can download the library and driver from the following web page. https://tmi.yokogawa.com/library/ Revisions • 1st Edition: September 2018 • 2nd March: January 2020 • 3rd Edition: May 2021 • 4th Edition: September 2021 • 5th Edition: March 2022 IM WT5000-17EN...

  • Page 4: How To Use This Manual

    Provides an overview of Modbus/TCP communication and describes registers and the like. Chapter 8 Commands Compatible with Legacy Models Describes the WT3000E, WT3000, WT1800E, WT1800, or WT1600 Compatible Command type. Appendix Describes error messages and provides other information. Index IM WT5000-17EN...

  • Page 5: Symbols And Notation Used In This Manual

    4-6 and 4-7. Symbol Description Example Example of Input <> ELEMent<x> <x> = 1 to 7 ELEMENT2 A defined value SQFormula {TYPE1|TYPE2|TYPE3} SQFORMULA TYPE1 Select an option in { } Exclusive OR NUMeric[:NORMal]:VALue? NUMERIC:VALUE? Can be omitted IM WT5000-17EN...

  • Page 6: Table Of Contents

    FLICker Group ........................ 5-56 5.10 HARMonics Group ......................5-62 5.11 HISTory Group ........................ 5-64 5.12 HOLD Group ........................5-66 5.13 IMAGe Group ......................... 5-67 5.14 INPut Group ........................5-69 5.15 INTEGrate Group ......................5-92 5.16 MEASure Group ......................5-95 IM WT5000-17EN...
  • Page 7 Command Type Compatible with Legacy Models ...............8-1 Appendix Appendix 1 Error Messages ....................App-1 Appendix 2 Outputting Waveform Streaming Data ............... App-4 Appendix 3 History Feature ....................App-6 Appendix 4 About the IEEE 488.2-1992 Standard .............. App-11 Index IM WT5000-17EN...

  • Page 8: Chapter 1 Ethernet Interface

    Setup icon Remote control settings • Time out period (see sections 1.2 and 1.4) • TCP/IP (see section 15.2, in the Userʼs manual, IM WT5000-02EN) • Command type (see chapter 8) MENU key in SETUP (see section 1.4) ESC key (see section 1.4) CURSOR keys (see section 1.4)

  • Page 9: Ethernet Interface Features And Specifications, Socket Interface Specifications

    The timeout value can be set to Infinite or in the range of 1 s to 3600 s. The default value is Infinite. For instructions on how to set the timeout value, see section 1.4, “Configuring the instrument Ethernet Settings.” IM WT5000-17EN...
  • Page 10 /* Socket generation */ dstSocket = socket(AF_INET, SOCK_STREAM, 0); /* Connection */ connect(dstSocket, (struct sockaddr *) &dstAddr, sizeof(dstAddr)); /* Packet transmission */ send(dstSocket, "*IDN?\n", 6, 0); /* Packet reception */ recv(dstSocket,buffer,200,0); /* Windows Socket API closure */ closesocket(dstSocket); WSACleanup(); return 0; IM WT5000-17EN...

  • Page 11: Connecting To The Ethernet Interface

    • Use a network cable that supports the data rate of your network. Note For details on how to connect the instrument to a network, see section 15.1, “Connecting to a Network” in the User’s Manual, IM WT5000-02EN. IM WT5000-17EN...

  • Page 12: Configuring The Instrument Ethernet Settings

    You can display the remote control setting screen from the utility settings overview screen. The utility settings overview screen can be opened mainly using the following two methods. For information about the utility settings overview screen, see section 1.4 in the User’s Manual, IM WT5000- 02EN.
  • Page 13 (Infinite, 1 to 3600 s) IP address For the setup procedure, see section 15.2, in the User’s Manual, IM WT5000-02EN. Note Only use one communication interface: Network, GP-IB, or USB. If you send commands simultaneously from more than one communication interface, this instrument will not execute the commands properly.

  • Page 14: Chapter 2 Usb Interface

    • Showing the utility settings overview screen (see sections 1.4 and 2.4) Index Rear Panel USB port This port is for connecting this instrument to a controller (such as a PC) using a USB cable. See section 2.3. IM WT5000-17EN...

  • Page 15: Usb Interface Features And Specifications

    • Touch panel operations and front panel key operations are enabled. • Settings entered in remote mode are retained even when the instrument switches to local mode. Note You cannot use the USB interface simultaneously with other interfaces (GP-IB and Ethernet interfaces). IM WT5000-17EN...

  • Page 16: Connecting To The Usb Interface

    • Before connecting a PC to the USB port for PCs, ground the PC to the same electrical potential as the instrument. • Do not connect a device other than a controller (e.g., PC) to the USB port for PCs. Index IM WT5000-17EN...

  • Page 17: Configuring The Instrument Usb Settings

    • Install the YOKOGAWA USB driver on your PC. For information about how to obtain the YOKOGAWA USB driver, contact your nearest YOKOGAWA dealer. You can also access the YOKOGAWA USB driver download web page and download the driver.

  • Page 18: Chapter 3 Gp-Ib Interface

    • Showing the utility settings overview screen (see sections 1.4 and 3.4) Rear Panel GP-IB port Index This port is for connecting this instrument to a controller (such as a PC) using a GP-IB cable. See section 3.3. IM WT5000-17EN...

  • Page 19: Gp-Ib Interface Features And Specifications

    Service request Full service request capability Remote local Full remote/local capability Parallel polling No parallel poll capability Device clear Full device clear capability Device trigger Device trigger capability Controller No controller capability Electric characteristics Open collector IM WT5000-17EN...
  • Page 20 • Settings entered in remote mode are retained even when this instrument switches to local mode. Note You cannot use the GP-IB interface simultaneously with other interfaces (USB and Ethernet interfaces). * For information about the interface messages, see section 3.5. Index IM WT5000-17EN...

  • Page 21: Connecting To The Gp-Ib Interface

    • The instrument may not operate properly if the instrument is connected to the PC through converters (such as a GP-IB to USB converter). For more details, contact your nearest YOKOGAWA dealer. • Several cables can be used to connect multiple devices. However, no more than 15 devices, including the controller, can be connected on a single bus.
  • Page 22 Otherwise, erroneous operation may result, or the internal circuitry may break. French ATTENTION Veiller à mettre le PC et l’instrument hors tension avant de brancher ou de débrancher les câbles de communication, pour éviter de provoquer des dysfonctionnements ou des courts- circuits internes. Index IM WT5000-17EN...

  • Page 23: Configuring The Instrument Gp-Ib Settings

    Each device that is connected by GP-IB has its own unique address in the GP-IB system. This address is used to distinguish one device from other devices. Therefore, you must assign a unique address to the instrument when connecting it to a PC or other device. IM WT5000-17EN...

  • Page 24: Responses To Interface Messages

    Sets the talker function on all devices on the bus to serial polling mode. The controller will poll each device in order. SPD (Serial Poll Disable) Clears the serial polling mode of the talker function on all devices on the bus. PPU (Parallel Poll Unconfigure) is not supported. IM WT5000-17EN...
  • Page 25 In multi-line messages, SDC messages are address commands that require talker or listener designation and DCL messages are universal commands that do not require a designation. Therefore, SDC messages are directed at a particular instrument while DCL messages are directed at all instruments on the bus. IM WT5000-17EN...

  • Page 26: Chapter 4 Programming Overview

    (The data byte that is sent with the END RMT stands for “response message terminator.” The message is the last data byte of the program response message terminator is NL^END. message.) NL^END: NL with an END message attached. (NL is not included in the program message.) IM WT5000-17EN...
  • Page 27 • If the controller tries to receive a response message when there is none, an error will occur. If the controller tries to receive a response message before the transmission of the program message is complete, an error will occur. IM WT5000-17EN...

  • Page 28: Commands

    Therefore, the common header must be specified for each hierarchy. A command group may contain sub- command even when commands belonging to the groups. same command group are being concatenated. Example :INTEGrate:MODE NORMal<PMT>: INTEGrate:ACAL ON<PMT> IM WT5000-17EN...
  • Page 29 ([ ]) can be omitted. Example “[:INPut]SCALing[:STATe][:ALL] ON” can be written as “SCAL ON.” However, the last section enclosed in square brackets cannot be omitted in an upper-level query. Example “SCALing?” and “SCALing:STATe?” are different queries. IM WT5000-17EN...

  • Page 30: Responses

    You can configure this Index instrument so that full headers are returned. Use the COMMunicate:VERBose command for this purpose. The sections enclosed in square brackets ([ ]) are also omitted in the abbreviated form. IM WT5000-17EN...

  • Page 31: Data

    You cannot omit the minus sign. • If a value outside the range is entered, the value is adjusted to the closest value within the range. • If a value has more significant digits than are available, the value will be rounded. IM WT5000-17EN...

  • Page 32: App

    <String data> is not a predefined character string like <character data>. It can be any character string. The character string must be enclosed in single quotation marks ( ) or double quotation marks ("). Form Example 'ABC' "IEEE488.2-1987" <String data> IM WT5000-17EN...

  • Page 33: Synchronization With The Controller

    *WAI to. Here, it is *OPC?<PMT> applied to the media access command. (Read the response to *OPC?) *WAI is executed before :INPut:VOLTage:RANGe:ELEMent? :INPut:VOLTage:RANGe:ELEMent1?, so <PMT> :INPut:VOLTage:RANGe:ELEMent1? is not executed until the file loading is completed. IM WT5000-17EN...
  • Page 34 (see page 6-5 for details). Example :STATus:FILTer1 FALL;:STATus: EESE 1;EESR?;*SRE 8<PMT> (Read the response to STATus:EESR?) Loop (Wait for a service request) :NUMeric[:NORMal]:VALue?<PMT> (Read the response to :NUMeric[: NORMal]:VALue?) :STATus:EESR?<PMT> (Read the response to STATus:EESR?) (Return to Loop) IM WT5000-17EN...

  • Page 35: Chapter 5 Commands Index

    Sets or queries the overlap command that is used by the *OPC, *OPC?, and 5-25 *WAI commands. :COMMunicate:OPSR? Queries the operation pending status register. 5-25 :COMMunicate:OVERlap Sets or queries the commands that operate as overlap commands. 5-25 :COMMunicate:REMote Sets this instrument to remote or local mode. On is remote mode. 5-26 IM WT5000-17EN...
  • Page 36 Sets or queries the display mode. 5-32 :DISPlay:CUSTom? Queries all custom display settings. 5-32 :DISPlay:CUSTom:CUSTom<x>? Queries the screen configuration settings registered in the custom display 5-32 feature. :DISPlay:CUSTom:CUSTom<x>:CLEar Deletes a screen configuration registered in the custom display feature. 5-32 IM WT5000-17EN...
  • Page 37 5-38 AL4|VAL8|VAL16}:ITEM<x> numeric display item in 4 Items, 8 Items, or 16 Items display mode. :DISPlay:NUMeric<x>[:NORMal]:{V Sets or queries the displayed page of the numeric display in 4 Items, 8 Items, 5-39 AL4|VAL8|VAL16}:PAGE or 16 Items display mode. IM WT5000-17EN...
  • Page 38 Sets or queries the upper and lower limits of the manual scaling of the 5-44 ng:VALue specified trend. :DISPlay:TRENd<x>:T<x> Sets or queries the on/off status of the specified trend. 5-44 :DISPlay:TRENd<x>:TDIV Sets or queries the trend horizontal axis (T/div). 5-45 IM WT5000-17EN...
  • Page 39 Loads the specified setup parameter file. 5-54 :FILE:MDIRectory Creates a directory in the target directory. 5-54 :FILE:PATH? Queries the absolute path of the current directory. 5-54 :FILE:SAVE? Queries all file save settings. 5-54 :FILE:SAVE:ABORt Aborts a file saving operation. 5-54 IM WT5000-17EN...
  • Page 40 Sets or queries the voltage fluctuation/flicker measurement mode. 5-59 :FLICker:MOVe Moves the observation period number of the measurement of dmax caused 5-59 by manual switching. :FLICker:P3D3 Sets or queries the edition number of the IEC 61000-3-3 standard. 5-59 IM WT5000-17EN...
  • Page 41 Queries the history communication numeric list data. 5-65 :HISTory:NUMeric:VALue? Queries the history communication numeric data. 5-65 HOLD Group :HOLD Sets or queries the on/off status of the output hold feature for display, 5-66 communication, and other types of data. IM WT5000-17EN...
  • Page 42 Collectively sets the current phase correction on/off statuses of all elements. 5-71 nt[:STATe][:ALL] [:INPut]:CORRection:PHASe:CURRe Sets or queries the current phase correction on/off status of the specified 5-71 nt[:STATe]:ELEMent<x> element. [:INPut]:CURRent? Queries all settings related to the current measurement. 5-71 IM WT5000-17EN...
  • Page 43 Collectively sets the current range of all the elements that belong to the 5-78 IGMB|SIGMC} specified wiring unit (ΣA, ΣB, or ΣC). [:INPut]:CURRent:SRATio? Queries the external current sensor conversion ratios of all elements. 5-78 [:INPut]:CURRent:SRATio[:ALL] Collectively sets the external current sensor conversion ratios of all elements. 5-78 IM WT5000-17EN...
  • Page 44 Sets or queries the current HF rejection of the specified element. (Advanced 5-83 ion:CURRent:ELEMent<x> settings) [:INPut]:FILTer[:LINE]:TYPE Sets or queries the line filter type. 5-84 [:INPut]:FREQ2? Queries all second frequency measurement settings. 5-84 [:INPut]:FREQ2:HPFilter? Queries all high-pass filter settings (for second frequency measurements). 5-84 5-10 IM WT5000-17EN...
  • Page 45 Collectively sets the synchronization source of all elements. 5-88 [:INPut]:SYNChronize:ELEMent<x> Sets or queries the synchronization source of the specified element. 5-88 [:INPut]:SYNChronize:{SIGMA|SIG Collectively sets the synchronization source of all the elements that belong 5-89 MB|SIGMC} to the specified wiring unit (ΣA, ΣB, or ΣC). [:INPut]:SYNChronize:LEVel? Queries all synchronization source level settings. 5-89 5-11 IM WT5000-17EN...
  • Page 46 Queries the watt-hour integration methods for each polarity (WP+/WP-) of all 5-94 elements. :INTEGrate:WPTYpe[:ALL] Collectively sets the watt-hour integration method for each polarity (WP+/ 5-94 WP-) of all elements. :INTEGrate:WPTYpe:ELEMent<x> Sets or queries the watt-hour integration method for each polarity (WP+/ 5-94 WP–) of the specified element. 5-12 IM WT5000-17EN...
  • Page 47 :MOTor<x>:EANGle? Queries all electrical angle measurement settings. 5-101 :MOTor<x>:EANGle:CORRection? Queries all electrical angle correction settings. 5-101 :MOTor<x>:EANGle:CORRection:AEN Queries all automatic electrical angle correction entry settings. 5-101 Ter? :MOTor<x>:EANGle:CORRection:AEN Executes an automatic electrical angle correction entry. 5-101 Ter[:EXECute] 5-13 IM WT5000-17EN...
  • Page 48 Sets or queries the range of the torque signal (pulse input type). 5-105 :MOTor<x>:TORQue:RANGe Sets or queries the voltage range of the torque signal (analog input type). 5-106 :MOTor<x>:TORQue:RATE? Queries all torque signal (pulse input type) rated-value settings. 5-106 5-14 IM WT5000-17EN...
  • Page 49 Queries the harmonic measurement numeric list data. 5-116 :NUMeric:NORMal? Queries all numeric data output settings. 5-116 :NUMeric[:NORMal]:CLEar Clears numeric data output items (sets the items to NONE). 5-116 :NUMeric[:NORMal]:DELete Deletes numeric data output items. 5-116 :NUMeric[:NORMal]:HEADer? Queries the numeric data header. 5-117 5-15 IM WT5000-17EN...
  • Page 50 :STORe:NUMeric[:NORMal]:PRESet Presets the output on/off pattern of the element functions to be used when 5-125 <x> numeric data is stored. :STORe:NUMeric:TSTamp Sets or queries the acquisition timings of timestamps when storing numeric 5-125 data. 5-16 IM WT5000-17EN...
  • Page 51 Queries all waveform color settings. 5-130 :SYSTem:LCD:COLor:GRAPh:CHANnel Sets or queries the specified waveform’s color. 5-130 <x> :SYSTem:LCD:COLor:INTENsity:GR Sets or queries the grid intensity. 5-130 :SYSTem:LCD[:STATe] Sets or queries the on/off status of the backlight. 5-130 :SYSTem:MODel? Queries the model code. 5-130 5-17 IM WT5000-17EN...
  • Page 52 Common Command Group *CAL? Executes zero calibration (zero-level compensation, the same operation as 5-137 pressing CAL or Misc—Cal [Execute] button) and queries the result. *CLS Clears the standard event register, extended event register, and error queue. 5-137 5-18 IM WT5000-17EN...
  • Page 53 Executes single measurement (the same operation as pressing SINGLE or 5-138 Misc—Single [Execute] button). *TST? Performs a self-test and queries the result. 5-139 *WAI Holds the execution of the subsequent command until the completion of the 5-139 specified overlap command. Index 5-19 IM WT5000-17EN...

  • Page 54: Acquisition Group

    Example -> #8 (8-digit number of bytes)(data byte sequence) Description • Waveform data blocks whose waveform output (:ACQuisition:STReaming:{U<x>|I<x>|SPEed <x>|TORQue<x>|AUX<x>}) is set to ON (1) are output in order. • For the data format specifications, see Appendix 2. 5-20 IM WT5000-17EN...
  • Page 55 • {SPEed<x>|TORQue<x>|AUX<x>} is valid only • For the necessary streaming operation on models with the motor evaluation function 1 conditions, see the features guide, IM WT5000- (/MTR1) option. 01EN. • <x> of {SPEed<x>|TORQue<x>} = 3 to 4 and <x> of AUX<x> = 5 to 8 are valid only on...

  • Page 56: Aoutput Group

    Description • Set the upper limit and then the lower limit. is not necessary. • This setting is valid when the D/A output <Motor> = 1 to 4 (motor number. Motor 1 when rated-value setup mode (:AOUTput omitted.) [:NORMal]:MODE<x>) is set to MANual. 5-22 IM WT5000-17EN...
  • Page 57 Description This command is valid when the auxiliary input Syntax :AUX<x>:LSCale:BVALue? type (:AUX<x>:TYPE) is set to ANALog (analog input). <x> = 1 or 8 (AUX input channel) <NRf> = -1.000E+06 to 1.000E+06 :AUX1:LSCALE:BVALUE 0 Example :AUX1:LSCALE:BVALUE? -> :AUX1:LSCALE:BVALUE 0.000E+00 5-23 IM WT5000-17EN...
  • Page 58 <NRf> = -10.00E+06 to 10.00E+06 :AUX1:PRANGE 10000,0 Example :AUX1:PRANGE? -> :AUX1:PRANGE 10.00E+03,0.000E+00 Description • Set the upper limit and then the lower limit. • This command is valid when the auxiliary input type (:AUX<x>:TYPE) is set to PULSe (pulse input). 5-24 IM WT5000-17EN...
  • Page 59 Description In the above example, all bits are set to 1 to make all overlap commands applicable. However, bits fixed to 0 are not set to 1, so the response to the query only indicates 1 for bit 6. 5-25 IM WT5000-17EN...
  • Page 60 4-9. :COMMunicate:WAIT? Function Creates the response that is returned when a specified extended event occurs. Syntax :COMMunicate:WAIT? <Register> <Register> = 0 to 65535 (Extended event register. For more information, see page 6-5.) :COMMUNICATE:WAIT? 65535 -> 1 Example 5-26 IM WT5000-17EN...
  • Page 61 <x> of TRENd<x> = 1 to 4 (trend display group) :CURSOR:BAR:STATE ON Example <x> of POSition<x> = 1, 2 (1 = C1 +, 2 = C2 x) :CURSOR:BAR:STATE? <NRf> = 0 to 2001 -> :CURSOR:BAR1:STATE 1 :CURSOR:TREND:POSITION1 200 Example :CURSOR:TREND:POSITION1? -> :CURSOR:TREND1:POSITION1 200 5-27 IM WT5000-17EN...
  • Page 62 For Y<x> and DY: NAN (Not A Number) will be Function Sets or queries the on/off status of the cursor returned. display on the waveform display. :CURSor:WAVE<x>[:STATe] {<Boolean>} Syntax :CURSor:WAVE<x>:STATe? <x> = 1 to 4 (waveform display group) :CURSOR:WAVE:STATE ON Example :CURSOR:WAVE:STATE? -> :CURSOR:WAVE1:STATE 1 5-28 IM WT5000-17EN...
  • Page 63 Y<x> = Y-axis value of the cursor position (Y1 = Y+, Y2 = Yx) DY = Y-axis difference (DY) between the cursors Example :CURSOR:WAVE:Y1? -> 78.628E+00 Index Description If the waveform cursor display is not turned on, NAN (Not A Number) is returned. 5-29 IM WT5000-17EN...

  • Page 64: Display Group

    :DISPlay:BAR<x>:ITEM<x>:SCALing: Syntax MODE {FIXed|MANual} :DISPlay:BAR<x>:ITEM<x>:SCALing: MODE? <x> of BAR<x> = 1 to 4 (bar graph display group) <x> of ITEM<x> = 1 to 3 (item number) Example :DISPLAY:BAR1:ITEM1:SCALING: MODE FIXED :DISPLAY:BAR1:ITEM1:SCALING:MODE? -> :DISPLAY:BAR1:ITEM1:SCALING: MODE FIXED 5-30 IM WT5000-17EN...
  • Page 65 <x> of ITEM<x> = 1 to 3 (item number) :DISPLAY:BAR1:ITEM1:SCALING: Example VERTICAL LOG :DISPLAY:BAR1:ITEM1:SCALING: VERTICAL? -> :DISPLAY:BAR1:ITEM1:SCALING: VERTICAL LOG Description This command is valid when the scaling mode of the bar graph (:DISPlay:BAR<x>:ITEM<x>: SCALing:MODE) is set to MANual. 5-31 IM WT5000-17EN...
  • Page 66 Sets or queries the screen configuration name registered in the custom display feature. :DISPlay:CUSTom:CUSTom<x>: Syntax NAME {<String>} :DISPlay:CUSTom:CUSTom<x>:NAME? <x> = 1 to 5 (registration number) <String> = Up to 14 characters :DISPLAY:CUSTOM:CUSTOM1: Example NAME "Custom 1" :DISPLAY:CUSTOM:CUSTOM1:NAME? -> :DISPLAY:CUSTOM:CUSTOM1: NAME "Custom 1" 5-32 IM WT5000-17EN...
  • Page 67 Description Returns all settings that correspond to the current numeric display mode (:DISPlay:NUMeric<x>[: NORMal]:FORMat). :DISPlay:NUMeric<x>[:NORMal]:ALL? Function Queries all settings of the numeric display in All Items display mode. Syntax :DISPlay:NUMeric<x>[:NORMal]:ALL? <x> = 1 or 2 1: Full screen or top screen 2: Bottom screen 5-33 IM WT5000-17EN...
  • Page 68 DUAL = Two list display items are listed in order by harmonic order. (Hrm List Dual (Split screen display of harmonics)) USER = The specified numeric display items are displayed on the specified bitmap background. (The original parameter {CUSTom} can also be used.) 5-34 IM WT5000-17EN...
  • Page 69 Description This command is valid when the cursor position on the numeric display in the harmonics list (:DISPlay:NUMeric<x>[:NORMal]:LIST:CURSor) display modes is set to HEADer. on the numeric display in the harmonics list display modes is set to LIST. 5-35 IM WT5000-17EN...
  • Page 70 1: Full screen or top screen COLUMN:ITEM1 1 2: Bottom screen <NRf> = 1 to 81 (item number) :DISPLAY:NUMERIC1:NORMAL:MATRIX: Example CURSOR 1 :DISPLAY:NUMERIC1:NORMAL:MATRIX: CURSOR? -> :DISPLAY:NUMERIC1:NORMAL:MATRIX: CURSOR 1 Description Use an item number to specify the cursor position. 5-36 IM WT5000-17EN...
  • Page 71 ITEM setup menu that is displayed on the screen of this instrument (Reset Items > Execute). For details on the display pattern that appears when the displayed items are reset, see the getting started guide, IM WT5000-03EN. 5-37 IM WT5000-17EN...
  • Page 72 • In the case of a motor function (<Function> = {SPEed|TORQue|SYNCsp|SLIP|PM}), the <Element> section becomes <Motor>. <Order> is not necessary. <Motor> = 1 to 4 (motor number. Motor 1 when omitted.) 5-38 IM WT5000-17EN...
  • Page 73 “:DISPlay:NUMeric<x>:USE this instrument (Reset Items > Execute). For R:FILE:ITEM.” details on the display pattern that appears when the displayed items are reset, see the getting started guide, IM WT5000-03EN. 5-39 IM WT5000-17EN...
  • Page 74 ANAMING NUMBERING numeric display in user display mode. :DISPlay:NUMeric<x>:USER:FILE:LOAD: Syntax BMP {<String>} <String> = File name :DISPLAY:NUMERIC1:USER:FILE:LOAD: Example BMP "NUMUSER1" Description • Specify the file name without its extension (.bmp). • This command is an overlap command. 5-40 IM WT5000-17EN...
  • Page 75 BGReen = Blue green SPINk = Salmon pink MGReen = Mild green GRAY = Gray WHITE = White DGRAY = Dark gray BGRAY = Blue gray BLACk = Black :DISPLAY:NUMERIC1:USER:ITEM1: Example COLOR WHITE :DISPLAY:NUMERIC1:USER:ITEM1:COLOR? -> :DISPLAY:NUMERIC1:USER:ITEM1: Index COLOR WHITE 5-41 IM WT5000-17EN...
  • Page 76 • When setting a string You can display any string that you want, for example, the header or unit of a numeric item. 5-42 IM WT5000-17EN...
  • Page 77 Description The maximum number of total display items is DUAL|TRIad|QUAD} "number of display items per page (:DISPlay:NU :DISPlay:TRENd<x>:FORMat? Meric<x>:USER:PERPage) × 12." <x> = 1 to 4 (trend display group) :DISPLAY:TREND1:FORMAT SINGLE Example :DISPLAY:TREND1:FORMAT? -> :DISPLAY:TREND1:FORMAT SINGLE Index 5-43 IM WT5000-17EN...
  • Page 78 Sets or queries the on/off status of the specified trend. :DISPlay:TRENd<x>:T<x> {<Boolean>} Syntax :DISPlay:TRENd<x>:T<x>? <x> of TRENd<x> = 1 to 4 (trend display group) <x> of T<x> = 1 to 16 (item number) :DISPLAY:TREND1:T1 ON Example :DISPLAY:TREND1:T1? -> :DISPLAY:TREND1:T1 1 5-44 IM WT5000-17EN...
  • Page 79 <x> = 1 to 4 (vector display group) :DISPlay:VECTor<x>:FORMat {SINGle| :DISPLAY:VECTOR1:NUMERIC ON Syntax Example DUAL} :DISPLAY:VECTOR1:NUMERIC? :DISPlay:VECTor<x>:FORMat? -> :DISPLAY:VECTOR1:NUMERIC 1 <x> = 1 to 4 (vector display group) :DISPLAY:VECTOR1:FORMAT SINGLE Example :DISPLAY:VECTOR1:FORMAT? -> :DISPLAY:VECTOR1:FORMAT SINGLE 5-45 IM WT5000-17EN...
  • Page 80 :DISPLAY:WAVE1:INTERPOLATE LINE Example models with the motor evaluation function 2 :DISPLAY:WAVE1:INTERPOLATE? (/MTR2) option. -> :DISPLAY:WAVE1:INTERPOLATE LINE Description This setting applies to the entire waveform display group. The <x> of WAVE<x> has no meaning in the setting or query. 5-46 IM WT5000-17EN...
  • Page 81 1 (/MTR1) option. • <x> of {SPEed<x>|TORQue<x>} = 3 to 4 and <x> of AUX<x> = 5 to 8 are valid only on models with the motor evaluation function 2 (/MTR2) option. 5-47 IM WT5000-17EN...
  • Page 82 <NRf> = 0.1 to 100 Example :DISPLAY:WAVE1:VZOOM:U1 1 :DISPLAY:WAVE1:VZOOM:U1? -> :DISPLAY:WAVE1:VZOOM:U1 1.00 Description For details on the available zoom factors, see the features guide, IM WT5000-01EN. :DISPlay:WAVE<x>:VZoom:{UALL|IALL} Function Collectively sets the vertical zoom factor for the voltage or current waveforms of all elements. :DISPlay:WAVE<x>:VZoom:{UALL| Syntax IALL} {<NRf>}...

  • Page 83: Function Option List (Settings That Can Be Used For )

    Not required UFND Ufnd Required Not required IFND Ifnd Required Not required PFND Pfnd Required Not required SFND Sfnd Required Not required QFND Qfnd Required Not required LAMBDAFND λfnd Required Not required PHIFND Φfnd Required Not required 5-49 IM WT5000-17EN...
  • Page 84 Functions of the Delta Computation ΔU1 Required (only Σ) Not required ΔU2 Required (only Σ) Not required ΔU3 Required (only Σ) Not required ΔUΣ Required (only Σ) Not required ΔI Required (only Σ) Not required ΔP1 Required (only Σ) Not required ΔP2 Required (only Σ) Not required ΔP3 Required (only Σ) Not required ΔPΣ Required (only Σ) Not required 5-50 IM WT5000-17EN...
  • Page 85 Data Update Status (available when the update mode is Auto) UNPower UpdateStsPwr Not required Not required UNMotor UpdateStsMtr Not required Not required UNAux UpdateStsAux Not required Not required UHPower UpdateStsHrm Not required Not required UWCHannel UpdateStsWave Not required Not required 5-51 IM WT5000-17EN...
  • Page 86 Applicable commands :DISPlay:BAR<x>:ITEM<x>[:FUNCtion] {<Function>,<Element>} :DISPlay:NUMeric<x>[:NORMal]:LIST:ITEM<x> {<Function>,<Element>} :NUMeric:LIST:ITEM<x> {<Function>,<Element>} <Function> Function Name Used on the Menu LAMBda λ Φ PHIU ΦU PHII ΦI The function options listed below are only valid with :NUMeric:LIST:ITEM<x>. UHDF Uhdf IHDF Ihdf PHDF Phdf 5-52 IM WT5000-17EN...

  • Page 87: File Group

    Deletes the specified setup parameter file. :FILE:FREE? Syntax :FILE:DELete:SETup {<String>} <String> = File name Function Queries the free space (in bytes) on the current :FILE:DELETE:SETUP "SETUP1" Example drive. :FILE:FREE? Description Specify the file name without an extension. Syntax :FILE:FREE? -> 20912128 Example 5-53 IM WT5000-17EN...
  • Page 88 Function Queries all numeric data file save settings (for the manual save item selection method). :FILE:SAVE:NUMeric:NORMal? Syntax Description This command is valid when the save item selection method (:FILE:SAVE:NUMeric:ITEM) is set to SELected (the manual selection method). 5-54 IM WT5000-17EN...
  • Page 89 Example Description For details on the output setting patterns that :FILE:SAVE:NUMeric:NORMal:{ELEMent<x result when the pattern is reset, see the features >|SIGMA|SIGMB|SIGMC} guide, IM WT5000-01EN. Function Sets or queries the on/off status of the output of :FILE:SAVE:SETup[:EXECute] the specified element or wiring unit ΣA, ΣB, or ΣC when numeric data is saved to a file.

  • Page 90: Flicker Group

    -> :FLICKER:DC:LIMIT 3.30 Example :FLICKER:DISPLAY:PERIOD 1 :FLICKER:DISPLAY:PERIOD? :FLICker:DC[:STATe] -> :FLICKER:DISPLAY:PERIOD 1 Function Sets or queries the judgment on/off status of the relative steady-state voltage change dc. Syntax :FLICker:DC[:STATe] {<Boolean>} :FLICker:DC:STATe? :FLICKER:DC:STATE ON Example :FLICKER:DC:STATE? -> :FLICKER:DC:STATE 1 5-56 IM WT5000-17EN...
  • Page 91 :FLICker:EDITion {<Edition>} Syntax :FLICker:EDITion? <Edition> = ED2P0 or ED1P1 ED2P0: IEC 61000-4-15 Ed2.0 ED1P1: IEC 61000-4-15 Ed1.1 Example :FLICKER:EDITION ED2P0 :FLICKER:EDITION? -> :FLICKER:EDITION ED2P0 Description This is the same setting or query as with the “:FLICker:P4D15” command. 5-57 IM WT5000-17EN...
  • Page 92 :FLICKER:FILTER:LINE 10KHZ Example An error occurs if used during normal flicker :FLICKER:FILTER:LINE? measurement (:FLICker:MEASurement FLICker). -> :FLICKER:FILTER:LINE 10.0E+03 Description When the measurement mode (:MEASure:MODE) is FLICker, the line filter is always on. This command sets the cutoff frequency. 5-58 IM WT5000-17EN...
  • Page 93 Syntax :FLICker:P4D15 {<Edition>} :FLICker:P4D15? <Edition> = ED2P0 or ED1P1 ED2P0: IEC 61000-4-15 Ed2.0 ED1P1: IEC 61000-4-15 Ed1.1 :FLICKER:P4D15 ED2P0 Example :FLICKER:P4D15? -> :FLICKER:P4D15 ED2P0 Description This is the same setting or query as with the “:FLICker:EDITion” command. 5-59 IM WT5000-17EN...
  • Page 94 Sets or queries the judgment on/off status of the period during which relative voltage change exceeds the threshold level Tmax. :FLICker:TMAX[:STATe] {<Boolean>} Syntax :FLICker:TMAX:STATe? :FLICKER:TMAX:STATE ON Example :FLICKER:TMAX:STATE? -> :FLICKER:TMAX:STATE 1 Description This is the same setting or query as with the “:FLICker:DT[:STATe]” command. 5-60 IM WT5000-17EN...
  • Page 95 Example :FLICKER:UN:VALUE 230.00 :FLICKER:UN:VALUE? -> :FLICKER:UN:VALUE 230.00 :FLICker:VOLTage Function Sets or queries the flicker measurement target voltage. Syntax :FLICker:VOLTage {<NRf>} :FLICker:VOLTage? <NRf> = 120 or 230 (target voltage [V]) :FLICKER:VOLTAGE 230 Example :FLICKER:VOLTAGE? -> :FLICKER:VOLTAGE 230 Index 5-61 IM WT5000-17EN...
  • Page 96 For details, see the Harmonic Measurement :HARMonics<x>:CONFigure:{SIGMA|SIGMB Software User’s Manual for the Harmonic and |SIGMC} Flicker Measurement Software for WT5000 Function Collectively sets the harmonic measurement (IM D024-01EN, IM D024-04EN) or the group of all the elements that belong to the Harmonic/Flicker Software User’s Manual (IM...
  • Page 97 Sets or queries the denominator of the equation • For details on the grouping corresponding to used to compute the THD (total harmonic {OFF|TYPE1|TYPE2}, see the features guide, distortion). IM WT5000-01EN. Syntax :HARMonics<x>:THD {TOTal| • The <x> of HARMonics<x> has no meaning in FUNDamental} :HARMonics<x>:THD?

  • Page 98: History Group

    History communication output update complete is indicated at every measured data update, and the history output start position is set automatically. If you want to continuously acquire numeric data whose data update interval is 10 ms, select this mode. 5-64 IM WT5000-17EN...
  • Page 99 “:NUMeric[:NORMal]:VALue?.” For details, see Appendix 3. • With this command, you cannot specify the Index parameter (a specific item number) as you can with “:NUMeric[:NORMal]:VALue?.” 5-65 IM WT5000-17EN...

  • Page 100: Hold Group

    You can make the same settings and queries that you can make by tapping the Hold ON/OFF button on the Misc menu. :HOLD Function Sets or queries the on/off status of the output hold feature for display, communication, and other types of data. :HOLD {<Boolean>} Syntax :HOLD? :HOLD OFF Example :HOLD? -> :HOLD 0 5-66 IM WT5000-17EN...

  • Page 101: Image Group

    Queries the free space (in bytes) on the drive that Example :IMAGE:FORMAT BMP the screen image data is saved to. :IMAGE:FORMAT? :IMAGe:SAVE:FREE? Syntax -> :IMAGE:FORMAT BMP :IMAGE:SAVE:FREE? -> 20912128 Example :IMAGe:SAVE? Function Queries all screen image data save settings. Syntax :IMAGe:SAVE? 5-67 IM WT5000-17EN...
  • Page 102 Example :IMAGe:SEND? Function Queries the screen image data. :IMAGe:SEND? Syntax :IMAGE:SEND? Example -> #N (N-digit byte number)(data byte sequence) Description N, the number of digits in the data byte number, varies depending on the output data size. 5-68 IM WT5000-17EN...
  • Page 103 Syntax [:INPut]:CORRection:AMPLitude: CURRent[:STATe][:ALL] {<Boolean>} Syntax CURRent:RATio? :INPUT:CORRECTION:AMPLITUDE:CURRENT: Example STATE:ALL OFF [:INPut]:CORRection:AMPLitude:CURRen t:RATio[:ALL] Function Collectively sets the current amplitude correction ratios of all elements. [:INPut]:CORRection:AMPLitude: Syntax CURRent:RATio[:ALL] {<NRf>} <NRf> = 0.800000 to 1.200000 Example :INPUT:CORRECTION:AMPLITUDE:CURRENT: RATIO:ALL 1 5-69 IM WT5000-17EN...
  • Page 104 Syntax [:INPut]:CORRection:PHASe:CURRent: FREQuency? [:INPut]:CORRection:PHASe:CURRent:FR EQuency[:ALL] Function Collectively sets the frequencies of the current phase correction computation of all elements. [:INPut]:CORRection:PHASe:CURRent: Syntax FREQuency[:ALL] {<Frequency>} <Frequency> = 50, 60 (Hz), 0.1 to 1000.0 (kHz) Example :INPUT:CORRECTION:PHASE:CURRENT: FREQUENCY:ALL 60 5-70 IM WT5000-17EN...

  • Page 105: Input Group

    ([:INPut]:WIRing) is made in such Syntax [:INPut]:CORRection:PHASe:CURRent[: a way that the corresponding wiring unit (ΣA, ΣB, STATe]:ELEMent<x> {<Boolean>} or ΣC) does not exist. [:INPut]:CORRection:PHASe:CURRent[: [:INPut]:CURRent:CONFig? STATe]:ELEMent<x>? <x> = 1 to 7 (element) Function Queries the valid current ranges of all elements. :INPUT:CORRECTION:PHASE:CURRENT: [:INPut]:CURRent:CONFig? Example Syntax STATE:ELEMENT1 OFF :INPUT:CORRECTION:PHASE:CURRENT: STATE:ELEMENT1? -> :INPUT:CORRECTION:PHASE:CURRENT: STATE:ELEMENT1 0 5-71 IM WT5000-17EN...
  • Page 106 <Current> = 2.5 mA, 5 mA, 12.5 mA, 25 mA, 50 mA :INPUT:CURRENT:CONFIG:ALL ALL Example :INPUT:CURRENT:CONFIG:ALL 20,10,5,1 Description In the parameters, list all the current ranges that you want to enable. To enable all the ranges, specify the parameter “ALL.” 5-72 IM WT5000-17EN...
  • Page 107 ELEMENT1 CT2000A CT:PRESet) is cleared (set to CUSTom). :INPUT:CURRENT:CT:PRESET:ELEMENT1? -> :INPUT:CURRENT:CT:PRESET: ELEMENT1 CT2000A Description You can specify this setting when the 760903 (Current Sensor Element) is installed and the current measurement terminal ([:INPut]:CURRent:TERMinal) is set to SENSor. 5-73 IM WT5000-17EN...
  • Page 108 To enable Function Sets or queries the display format of the external all the ranges, specify the parameter “ALL.” current sensor range. [:INPut]:CURRent:EXTSensor: Syntax DISPlay {DIRect|MEASure} [:INPut]:CURRent:EXTSensor:DISPlay? :INPUT:CURRENT:EXTSENSOR: Example DISPLAY DIRECT :INPUT:CURRENT:EXTSENSOR:DISPLAY? -> :INPUT:CURRENT:EXTSENSOR: DISPLAY DIRECT 5-74 IM WT5000-17EN...
  • Page 109 • When the CT preset is CT200/Custom (5 Ω) <Current> = 2.5 mA, 5 mA, 10 mA, 25 mA, 50 mA, 100 mA • When the CT preset is CT60/Custom (10 Ω) <Current> = 2.5 mA, 5 mA, 12.5 mA, 25 mA, 50 mA Example :INPUT:CURRENT:POJUMP:ALL OFF 5-75 IM WT5000-17EN...
  • Page 110 CUSTom = Custom setting this command, the current probe preset Description The setting is applied when the 760903 ([:INPut]:CURRent:PROBe:PRESet) is cleared (Current Sensor Element) is installed (set to CUSTom). and the current measurement terminal ([:INPut]:CURRent:TERMinal) is set to PROBe. 5-76 IM WT5000-17EN...
  • Page 111 <Current> = 6.67 mA, 16.7 mA, 33.3 mA, 66.7 mA, 167 mA, 333 mA, 667 mA When the CT preset is CT200/Custom (5 Ω) <Current> = 5 mA, 10 mA, 20 mA, 50 mA, 100 mA, 200 mA When the CT preset is CT60/Custom (10 Ω) <Current> = 5 mA, 10 mA, 25 mA, 50 mA, 100 mA 5-77 IM WT5000-17EN...
  • Page 112 ELEMent<x>? :INPUT:CURRENT:RANGE:ELEMENT1? <x> = 1 to 7 (element) -> :INPUT:CURRENT:RANGE: <NRf> = 0.0001 to 99999.9999 ELEMENT1 EXTERNAL,10.00E+00 :INPUT:CURRENT:SRATIO:ELEMENT1 10 Example :INPUT:CURRENT:SRATIO:ELEMENT1? -> :INPUT:CURRENT:SRATIO: ELEMENT1 10.0000 Description The setting is not applied to the 760903 (Current Sensor Element). 5-78 IM WT5000-17EN...
  • Page 113 The input information area on the than the 760903 will be set. right side of the screen can be changed to the Options tab. • A query returns the target element for setting the measurement range. 5-79 IM WT5000-17EN...
  • Page 114 • This commands sets the high-pass filter and [:INPut]:FILTer:FREQuency setting. low-pass filter collectively. Querying is not possible. • Make sure that the <HPF> value is less than the <LPF> value. 5-80 IM WT5000-17EN...
  • Page 115 ELEMENT1? ELEMENT1 100.0E+00 -> :INPUT:FILTER:FREQUENCY:HPFILTER: Description This setting is valid when the advanced settings ELEMENT1 100.0E-03 ([:INPut]:FILTer:FREQuency:ADVanced) are set Description This setting is valid when the advanced settings to ON (1). ([:INPut]:FILTer:FREQuency:ADVanced) are set to ON (1). 5-81 IM WT5000-17EN...
  • Page 116 1 regardless of ELEMent<x>. [:INPut]:FILTer[:LINE]:ADVanced? :INPUT:FILTER:LINE:ADVANCED OFF • In voltage fluctuation/flicker measurement Example :INPUT:FILTER:LINE:ADVANCED? mode, to set or query the line filter, use -> :INPUT:FILTER:LINE:ADVANCED 0 :FLICker:FILTer[:LINE]. This is a separate setting, not linked to the [:INPut]:FILTer[:LINE] setting. 5-82 IM WT5000-17EN...
  • Page 117 ELEMENT1 0.5KHZ • This setting is valid when the advanced :INPUT:FILTER:LINE:DLFILTER:NORMAL: settings ([:INPut]:FILTer[:LINE]:ADVanced) are ELEMENT1? set to ON (1). -> :INPUT:FILTER:LINE:DLFILTER: NORMAL:ELEMENT1 500.0E+00 Description This setting is valid when the advanced settings ([:INPut]:FILTer[:LINE]:ADVanced) are set to ON (1). 5-83 IM WT5000-17EN...
  • Page 118 760902 = 5 A High Accuracy Element :INPUT:FREQ2:HPFILTER:ELEMENT1? 760903 = Current Sensor Element -> :INPUT:FREQ2:HPFILTER: 0 = No input element ELEMENT1 100.0E-03 • If the parameter is omitted, the input element types of all elements are output in order, starting with element 1. 5-84 IM WT5000-17EN...
  • Page 119 Description The response is as follows: Function Sets or queries the on/off status of the NULL 0 = NULL feature off feature. [:INPut]:NULL[:STATe] {<Boolean>} 1 = NULL feature in operation Syntax [:INPut]:NULL:STATe? :INPUT:NULL:STATE ON Example :INPUT:NULL:STATE? -> :INPUT:NULL:STATE 1 5-85 IM WT5000-17EN...
  • Page 120 NEW = When NULL is set to ON, a new NULL models with the motor evaluation function 2 value is acquired. (/MTR2) option. HOLD = When NULL is set to ON, the previous NULL value is maintained. :INPUT:NULL:VALue:SPEED NEW Example :INPUT:NULL:VALue:SPEED? -> :INPUT:NULL:VALue:SPEED NEW 5-86 IM WT5000-17EN...
  • Page 121 Description This is valid only when there are two or more wiring system setting ([:INPut]:WIRing) is made installed input elements. in such a way that the corresponding wiring unit (ΣA, ΣB, or ΣC) does not exist. • The setting is not applied to the 760903 (Current Sensor Element). 5-87 IM WT5000-17EN...
  • Page 122 Z3 = Z Phase3 (ChH) (/MTR2 option required) [:INPut]:SCALing:{VT|CT|SFACtor}: Syntax NONE = No synchronization source ELEMent<x> {<NRf>} :INPUT:SYNCHRONIZE:ELEMENT1 I1 Example [:INPut]:SCALing:{VT|CT|SFACtor}: :INPUT:SYNCHRONIZE:ELEMENT1? ELEMent<x>? -> :INPUT:SYNCHRONIZE:ELEMENT1 I1 <x> = 1 to 7 (element) <NRf> = 0.0001 to 99999.9999 :INPUT:SCALING:VT:ELEMENT1 1 Example :INPUT:SCALING:VT:ELEMENT1? -> :INPUT:SCALING:VT:ELEMENT1 1.0000 5-88 IM WT5000-17EN...
  • Page 123 <x> = 1 to 7 (element) [:INPut]:VOLTage:AUTO[:ALL] <NRf> = -100.0 to 100.0(%) :INPUT:SYNCHRONIZE:LEVEL:VOLTAGE: Example Function Collectively sets the voltage auto range on/off ELEMNT1 0 status of all elements. :INPUT:SYNCHRONIZE:LEVEL:VOLTAGE: Syntax [:INPut]:VOLTage:AUTO[:ALL] {<Boolean>} ELEMNE1? :INPUT:VOLTAGE:AUTO:ALL ON Example -> :INPUT:SYNCHRONIZE:LEVEL:VOLTAGE: ELEMNT1 0.0 5-89 IM WT5000-17EN...
  • Page 124 30 V, 50 V, 75 V, 150 V, 300 V, 100,30,10 500 V Description In the parameters, list all the voltage ranges that Example :INPUT:VOLTAGE:POJUMP:ALL OFF you want to enable. To enable all the ranges, specify the parameter “ALL.” 5-90 IM WT5000-17EN...
  • Page 125 • Some wiring system patterns are not selectable depending on the configuration of the installed input elements. For details on the available wiring system patterns, see the features guide, IM WT5000-01EN. 5-91 IM WT5000-17EN...

  • Page 126: Integrate Group

    :INTEGrate:QMODe[:ALL] {RMS|MEAN|DC| Syntax performed on all the elements. RMEAN|AC} • When independent element integration :INTEGRATE:QMODE:ALL DC Example (:INTEGrate:INDependent) is set to OFF (0), you cannot use the parameters to specify elements. 5-92 IM WT5000-17EN...
  • Page 127 (:INTEGrate:INDependent) is set to ON (1), you integration start or end time. can use the parameter to specify the element. If the parameter is omitted, the integration statuses of all elements are output in order, starting with element 1. 5-93 IM WT5000-17EN...
  • Page 128 First <NRf> = 0 to 10000 (hours) Second <NRf> = 0 to 59 (minutes) Third <NRf> = 0 to 59 (seconds) :INTEGRATE:TMALL 1,0,0 Example :INTEGrate:WPTYpe? Function Queries the watt-hour integration methods for each polarity (WP+/WP-) of all elements. :INTEGrate:WPTYpe? Syntax 5-94 IM WT5000-17EN...

  • Page 129: Measure Group

    TYPE is set to :MEASURE:DMEASURE:SIGMA OFF Example EXPonent (attenuation constant). For details, see :MEASURE:DMEASURE:SIGMA? the features guide, IM WT5000-01EN. -> :MEASURE:DMEASURE:SIGMA OFF Description The available options are explained below. The :MEASure:AVERaging[:STATe] modes that can be selected vary depending on Function Sets or queries the on/off status of averaging.
  • Page 130 • Parameters 2 to 4 are omitted from the to CONDition. response to a query if all the subsequent parameters are NONE. • PM<x> is valid only on models with the motor evaluation function (/MTR1, /MTR2) option. 5-96 IM WT5000-17EN...
  • Page 131 Sets or queries the specified user-defined event’s expression type. :MEASure:EVENt<x>:EXPRession: Syntax TYPE {RANGe|CONDition} :MEASure:EVENt<x>:EXPRession:TYPE? <x> = 1 to 8 (Event1 to Event8) RANGe = Range-defined type CONDition = Compound event type :MEASURE:EVENT1:EXPRESSION: Example TYPE RANGE :MEASURE:EVENT1:EXPRESSION:TYPE? -> :MEASURE:EVENT1:EXPRESSION: TYPE RANGE 5-97 IM WT5000-17EN...
  • Page 132 :MEASure:FUNCtion<x>:UNIT {<String>} Syntax :MEASure:FUNCtion<x>:UNIT? <x> = 1 to 20 (F1 to F20) <String> = Up to 8 characters Example :MEASURE:FUNCTION1:UNIT "W" :MEASURE:FUNCTION1:UNIT? -> :MEASURE:FUNCTION1:UNIT "W" Description This command has no effect on the computation result. 5-98 IM WT5000-17EN...
  • Page 133 HOLD value becomes “no data.” Description For details on the equations available for TYPE1 • If :MEASure:MHOLd is set to ON after having or TYPE2, see the features guide, IM WT5000- already been set to ON before, the MAX HOLD 01EN.
  • Page 134 Description For details on the equations available for TYPE1, TYPE2, or TYPE3, see the features guide, IM WT5000-01EN. :MEASure:SYNChronize Function Sets or queries the synchronized measurement mode. :MEASure:SYNChronize {MASTer|SLAVe} Syntax :MEASure:SYNChronize? Example :MEASURE:SYNCHRONIZE MASTER :MEASURE:SYNCHRONIZE? -> :MEASURE:SYNCHRONIZE MASTER 5-100 IM WT5000-17EN...
  • Page 135 AENTer:TARGet) is entered as the correction VALUE 0.00 value. :MOTor<x>:EANGle[:STATe] Function Sets or queries the on/off status of electrical angle measurement. :MOTor<x>:EANGle[:STATe] {<Boolean>} Syntax :MOTor<x>:EANGle:STATe? <x> = 1 or 3 (motor number) Example :MOTOR1:EANGLE:STATE ON :MOTOR1:EANGLE:STATE? -> :MOTOR1:EANGLE:STATE 1 5-101 IM WT5000-17EN...
  • Page 136 <x> = 1 to 4 (motor number) -> :MOTOR1:FILTER:NOISE:SPEED OFF <NRf> = 1 to 99 :MOTOR1:POLE 2 Description This command is valid when the revolution signal Example :MOTOR1:POLE? -> :MOTOR1:POLE 2 input type (:MOTor<x>:SPEed:TYPE) is set to PULSe (pulse input). 5-102 IM WT5000-17EN...
  • Page 137 :MOTOR1:SPEED:LSCALE:BVALUE 0 0.0000 Example :MOTOR1:SPEED:LSCALE:BVALUE? Description • Set the upper limit and then the lower limit. -> :MOTOR1:SPEED:LSCALE: • This command is valid when the revolution BVALUE 0.000E+00 signal input type (:MOTor<x>:SPEed:TYPE) is set to PULSe (pulse input). 5-103 IM WT5000-17EN...
  • Page 138 <x> = 1 to 4 (motor number) :MOTOR1:SPEED:TYPE ANALOG Example :MOTOR1:SPEED:TYPE? -> :MOTOR1:SPEED:TYPE ANALOG Description Because the revolution signal input type is determined by the MTR1 and MTR2 configuration ([:INPut]:MTR<x>[:CONFig] command), setting the input type with this command is not necessary. 5-104 IM WT5000-17EN...
  • Page 139 -> :MOTOR1:TORQUE:PRANGE 50.0000, Example :MOTOR1:TORQUE:LSCALE:BVALUE? -50.0000 -> :MOTOR1:TORQUE:LSCALE: Description • Set the upper limit and then the lower limit. BVALUE 0.000E+00 • This command is valid when the torque signal input type (:MOTor<x>:TORQue:TYPE) is set to PULSe (pulse input). 5-105 IM WT5000-17EN...
  • Page 140 <NRf> = 0.0001 to 99999.9999 :MOTOR1:TORQUE:SCALING 1 Example :MOTOR1:TORQUE:SCALING? -> :MOTOR1:TORQUE:SCALING 1.0000 :MOTor<x>:TORQue:TYPE Function Sets or queries the torque signal input type. Syntax :MOTor<x>:TORQue:TYPE {ANALog|PULSe} :MOTor<x>:TORQue:TYPE? <x> = 1 to 4 (motor number) :MOTOR1:TORQUE:TYPE ANALOG Example :MOTOR1:TORQUE:TYPE? -> :MOTOR1:TORQUE:TYPE ANALOG 5-106 IM WT5000-17EN...

  • Page 141: Numeric Group

    FLOat. • If the 2nd <NRf> is omitted, the output items • The default setting on the WT5000 is LSBFirst. from the start clear number to the last item (32) If you specified a command type that is are cleared.
  • Page 142 (rows of the numeric list marked with an asterisk (*) in the flicker measurement display screen). When in measurement complete status, same as ALL. ALL: Overall observation period (Result row of the numeric list in the flicker measurement display screen). 5-108 IM WT5000-17EN...
  • Page 143 “0xBF800000(-1)” or “0xC0000000(-2)” • No items (NONE) ASCII: NAN (Not A Number) FLOAT: 0x7E951BEE (9.91E+37) • Other ASCII: <NR3> format (mantissa: up to 5 digits, exponent: 2 digits. Example: 229.87E+00) FLOAT: IEEE single-precision floating point (4- byte) format. 5-109 IM WT5000-17EN...
  • Page 144 Description • This command is valid only on models with the IEC voltage fluctuation/flicker measurement function (/G7) option. • The contents that are output for each of the selections for <Function> are as follows: 5-110 IM WT5000-17EN...
  • Page 145 0xBF800000 (-1) Index Error: “-2” 0xC0000000 (-2) -----: “1” 0x3F800000 (1) (space): “1” 0x3F800000 (1) - No items (NONE) ASCII: NAN (Not A Number) FLOAT: 0x7E951BEE(9.91E+37) - Other ASCII: <NR1> format FLOAT: IEEE single-precision floating point (4-byte) format 5-111 IM WT5000-17EN...
  • Page 146 • If parameters are omitted, the judgment result of the overall observation period (Result) is output (the same output occurs as when the ALL parameters are specified). • For the format of individual numeric data, see the description for “:NUMeric:FLICker:INFOrm ation:VALue?”. 5-112 IM WT5000-17EN...
  • Page 147 When in measurement complete status, the measured data of the overall observation period (Result) is output. • For the format of individual numeric data, see the description for “:NUMeric:FLICker:FUNCtio n:VALue?”. 5-113 IM WT5000-17EN...
  • Page 148 NONE. data continuously, this method can be used • If the second <NRf> is omitted, only the output to circumvent the need to repeatedly set item specified by the first <NRf> is deleted. :NUMeric:HOLD to OFF. 5-114 IM WT5000-17EN...
  • Page 149 EVEN = Outputs the components of TOTal, DC, in order. and even-order harmonics • By default, the number of numeric data items is ODD = Outputs the components of TOTal, DC, Index set to 1. and odd-order harmonics ALL = Outputs all components 5-115 IM WT5000-17EN...
  • Page 150 Description • The positions of deleted output items are filled by the items that follow them, and empty sections at the end are set to NONE. • If the second <NRf> is omitted, only the output item specified by the first <NRf> is deleted. 5-116 IM WT5000-17EN...
  • Page 151 • For the formats of the individual numeric data <Motor> = 1 to 4 (motor number. Motor 1 when items that are output, see “Numeric Data omitted.) Formats” at the end of this group of commands (page 5-118). 5-117 IM WT5000-17EN...

  • Page 152: Numeric Data Formats

    The conventional function TIME can also be used on the elapsed integration time. The ASCII format is <NR2> in units of seconds as in the past. • For details on each timestamp, see the Getting Started Guide (IM WT5000-03EN) and the Features Guide (IM WT5000-01EN). 5-118...
  • Page 153 121 to 135 URMS to FI SIGMB NONE 136 to 150 URMS to FI SIGMC 81 to 89 URMS to FI SIGMB 151 to 1000 NONE NONE 91 to 99 URMS to FI SIGMC NONE 101 to 1000 NONE 5-119 IM WT5000-17EN...
  • Page 154 201 to 1000 NONE 121 to 139 URMS to IMPeak NONE 141 to 159 URMS to IMPeak SIGMa NONE 161 to 179 URMS to IMPeak SIGMB NONE 181 to 199 URMS to IMPeak SIGMC NONE 201 to 1000 NONE 5-120 IM WT5000-17EN...
  • Page 155 37 to 45 U to PHII 37 to 45 U to XP 46 to 54 U to PHII 46 to 54 U to XP 55 to 63 U to PHII 55 to 63 U to XP NONE NONE Index 5-121 IM WT5000-17EN...
  • Page 156 Executes serial polling. -> 113,"Underfined Header" :STATus:SPOLl? Syntax :STATUS:SPOLL? -> :STATUS:SPOLL 0 Description • If no error has occurred, 0, “Noerror” is returned. Example • You can use the :STATus:QMESsage command to specify whether the message is included. 5-122 IM WT5000-17EN...

  • Page 157: Store Group

    Description The conventional command “:STORe:RESet” can Function Sets or queries the on/off status of the automatic also be used. conversion of stored numeric data files to CSV format. :STORe:FILE:CONVert:AUTO {<Boolean>} Syntax :STORe:FILE:CONVert:AUTO? Example :STORE:FILE:CONVERT:AUTO ON :STORE:FILE:CONVERT:AUTO? -> :STORE:FILE:CONVERT:AUTO 1 5-123 IM WT5000-17EN...
  • Page 158 Function Sets the drive that stored numeric data is saved -> :STORE:NUMERIC:ITEM SELECTED :STORe:FILE:DRIVe {USER|USB[,<NRf>]| Syntax Description The WT5000 only supports SELected (manual NETWork} selection method). USER = Built-in memory device drive SELected = The numeric items that are specified USB = USB memory device drive;...
  • Page 159 Description For details on the storage item setting patterns Example :STORE:RTIME:START 2018,1,1,0,0,0 :STORE:RTIME:START? that result when the pattern is reset, see the -> :STORE:RTIME:START 2018,1,1,0,0,0 features guide, IM WT5000-01EN. Description This command is valid when the storage mode :STORe:NUMeric:TSTamp (:STORe:SMODe) is set to RTIMe. Index Function...
  • Page 160 :STORe:TEVent {<NRf>} Syntax :STORe:TEVent? <NRf> = 1 to 8 (event number) Example :STORE:TEVENT 1 :STORE:TEVENT? -> :STORE:TEVENT 1 Description This command is valid when the storage mode (:STORe:SMODe) is set to EVENt. 5-126 IM WT5000-17EN...

  • Page 161: System Group

    :SYSTem? :SYSTem:COMMunicate:COMMand Function Queries all system settings. Function Sets or queries the communication command :SYSTem? Syntax type. Syntax :SYSTem:COMMunicate: :SYSTem:CLOCk? COMMand {WT5000|WT3000E|WT3000| WT1800E|WT1800|WT1600} Function Queries all date/time settings. :SYSTem:CLOCk? :SYSTem:COMMunicate:COMMand? Syntax :SYSTEM:COMMUNICATE:COMMAND WT5000 Example :SYSTem:CLOCk:DISPlay :SYSTEM:COMMUNICATE:COMMAND? Function Sets or queries the on/off status of the date/time ->...
  • Page 162 ASCII format 0: The current sensor power supply is abnormally (CSV). :SYSTem:DPOint {PERiod|COMMa} stopped. Syntax 1: The current sensor power supply is running :SYSTem:DPOint? :SYSTEM:DPOINT PERIOD normally. Example :SYSTEM:DPOINT? -> :SYSTEM:DPOINT PERIOD 5-128 IM WT5000-17EN...
  • Page 163 Description This command returns the No. item under :SYSTem:LCD:AOFF[:STATe] Element Configuration on the system overview Function Sets or queries the on/off status of the feature screen. that automatically turns off the backlight. :SYSTem:LCD:AOFF[:STATe] {<Boolean>} Syntax :SYSTem:LCD:AOFF:STATe? :SYSTEM:LCD:AOFF:STATE ON Example :SYSTEM:LCD:AOFF:STATE? -> :SYSTEM:LCD:AOFF:STATE 1 5-129 IM WT5000-17EN...
  • Page 164 Queries all LCD color settings. Function Queries the model code. :SYSTem:LCD:COLor? :SYSTem:MODel? Syntax Syntax :SYSTEM:MODEL? Example :SYSTem:LCD:COLor:GRAPh? -> :SYSTEM:MODEL "WT5000" Function Queries all waveform color settings. Description This command returns the Model item on the Syntax :SYSTem:LCD:COLor:GRAPh? system overview screen. :SYSTem:LCD:COLor:GRAPh:CHANnel<x> :SYSTem:RZERo Function Sets or queries the specified waveform’s color.
  • Page 165 :SYSTEM:TSYNCHRO:IEEE1588:DNUMBER? Description This is the same setting or query as with the -> :SYSTEM:TSYNCHRO:IEEE1588: “:SYSTem:CLOCk:SNTP:GMTTime” command. DNUMBER 0 Description You can use the set command when IEEE 1588 time synchronization (:SYSTem:TSYNchro: IEEE1588:STATe) is set to OFF (0). 5-131 IM WT5000-17EN...
  • Page 166 5.21 SYSTem Group :SYSTem:USBKeyboard Function Sets or queries the USB keyboard type. :SYSTem:USBKeyboard {JAPANese| Syntax ENGLish} :SYSTem:USBKeyboard? Example :SYSTEM:USBKEYBOARD JAPANESE :SYSTEM:USBKEYBOARD? -> :SYSTEM:USBKEYBOARD JAPANESE 5-132 IM WT5000-17EN...
  • Page 167 (:UPDate[:MODE]) is set to {CONSTant|TRIGger}. :UPDate:TRIGger:LEVel? <NRf> = -100.0 to 100.0 (%) :UPDATE:TRIGGER:LEVEL 0 Example :UPDATE:TRIGGER:LEVEL? -> :UPDATE:TRIGGER:LEVEL 0.0 Description Set the value in terms of a percentage of the full scale value displayed on the screen. 5-133 IM WT5000-17EN...
  • Page 168 :UPDATE:TRIGGER:SLOPE? -> :UPDATE:TRIGGER:SLOPE RISE :UPDate:TRIGger:SOURce Function Sets or queries the trigger source. :UPDate:TRIGger:SOURce {U<x>|I<x>| Syntax EXTernal} :UPDate:TRIGger:SOURce? <x> = 1 to 7 (element) EXTernal = External trigger input (Ext Clk) :UPDATE:TRIGGER:SOURCE U1 Example :UPDATE:TRIGGER:SOURCE? -> :UPDATE:TRIGGER:SOURCE U1 5-134 IM WT5000-17EN...

  • Page 169: Waveform Group

    Description For information about the differences in waveform waveform specified by the :WAVeform:TRACe display data output between formats, see the command. description of the :WAVeform:SEND? command. :WAVeform:LENGth? Syntax :WAVEFORM:LENGTH? -> 2002 Example Description The number of data points is fixed.This command always returns 2002. 5-135 IM WT5000-17EN...
  • Page 170 :WAVeform:STARt Function Sets or queries the output start point of the waveform display data that is transmitted by the :WAVeform:SEND? command. :WAVeform:STARt {<NRf>} Syntax :WAVeform:STARt? <NRf> = 0 to 2001 :WAVEFORM:START 0 Example :WAVEFORM:START? -> :WAVEFORM:START 0 5-136 IM WT5000-17EN...
  • Page 171 Description • The information is returned in this form: register. <Manufacturer>, <Model>, <Serial no.>, Syntax *ESE {<NRf>} <Firmware version>. *ESE? • <Model> is fixed to WT5000. <NRf> = 0 to 255 *OPC *ESE 251 Example *ESE? -> 251 Function Sets bit 0 (the OPC bit) of the standard event Description •...
  • Page 172 6-3. *TRG Function Executes single measurement (the same operation as pressing SINGLE or Misc—Single [Execute] button). *TRG Syntax Example *TRG Description A multi-line message GET (Group Execute Trigger) will perform the same operation as this command. 5-138 IM WT5000-17EN...
  • Page 173 Syntax *WAI *WAI Example Description • For information about how to synchronize a program using *WAI, see page 4-8. • The COMMunicate:OPSE command is used to specify the overlap command. Index 5-139 IM WT5000-17EN...

  • Page 174: Chapter 6 Status Reports

    Standard event enable register & & & & & & & & Standard event register Index & & & & & & & & & & & & & & & & Extended event register Transition filter Condition register IM WT5000-17EN...
  • Page 175 For example, you can use the *ESE command to set the standard event enable register bits to ones and zeros. You can use the *ESE? command to query whether the standard event enable register bits are ones or zeros. For details on these commands, see chapter 5. IM WT5000-17EN...

  • Page 176: Status Byte

    *CLS command. To query whether each bit of the service command is received just after a program message request enable register is 1 or 0, use *SRE?. For terminator. details on the *SRE command, see chapter 5. IM WT5000-17EN...

  • Page 177: Standard Event Register

    0. Do this using the *ESE command. To query whether each bit of the standard event enable register is 1 or 0, use *ESE?. For details on the *ESE command, see chapter 5. IM WT5000-17EN...

  • Page 178: Extended Event Register

    The specified extended event register bit is set to 1 when the corresponding condition register bit changes from 1 to 0. BOTH The specified extended event register bit is set to 1 when the corresponding condition register bit changes from 0 to 1 or from 1 to 0. NEVer Always zero. IM WT5000-17EN...

  • Page 179: Output And Error Queues

    The error queue is cleared in the following cases. • A *CLS command is received. • The instrument is turned off and then back on. You can determine whether the error queue is empty by checking bit 2 (EAV) in the status byte. IM WT5000-17EN...

  • Page 180: Chapter 7 Modbus/Tcp Communication

    Connect a UTP (Unshielded Twisted-Pair) or STP (Shielded Twisted-Pair) cable that is connected to a hub or other network device to the Ethernet port on the instrument’s rear panel. For details, see section 1.3. Index Instrument Configuration TCP/IP configuration is required. For details, see section 1.4. IM WT5000-17EN...

  • Page 181: Communication With Client Devices

    Example: To specify the voltage rms data of element 1 (float lower bytes) (input register: 0101) • For a request using an off-the-shelf SCADA or the like, specify Ref No. 30101. • For a request using a communication program that you create, specify H No. 0064. IM WT5000-17EN...

  • Page 182: Register Functions And Applications

    Measured data synchronized with display item settings of data the display (matrix display) Numeric display (Numeric): matrix display Hold register 0001 to 0010 Control data Hold register values, control integration operation Other Reserved area (blank) Not to be used. Operation not guaranteed if written to. IM WT5000-17EN...
  • Page 183 (float, upper 2 bytes) 0055 30055 0036 L User-Defined Event 3 (float, lower 2 bytes) 0056 30056 0037 (float, upper 2 bytes) 0057 30057 0038 L User-Defined Event 4 (float, lower 2 bytes) 0058 30058 0039 (float, upper 2 bytes) IM WT5000-17EN...
  • Page 184 (float, upper 2 bytes) 0115 30115 0072 L Voltage 1 frequency (float, lower 2 bytes) 0116 30116 0073 (float, upper 2 bytes) 0117 30117 0074 L Current 1 frequency (float, lower 2 bytes) 0118 30118 0075 (float, upper 2 bytes) IM WT5000-17EN...
  • Page 185 (float, lower 2 bytes) components of current 1 0176 30176 00AF (float, upper 2 bytes) 0177 30177 00B0 I1(1) L 1st order harmonic value of current (float, lower 2 bytes) 1 (fundamental wave) 0178 30178 00B1 (float, upper 2 bytes) IM WT5000-17EN...
  • Page 186 5 0572 30572 023B (float, upper 2 bytes) to 0600 Element 6 normal measurement data 0601 30601 0258 Urms6 L True rms voltage 6 (float, lower 2 bytes) 0602 30602 0259 (float, upper 2 bytes) to 0670 IM WT5000-17EN...
  • Page 187 (float, upper 2 bytes) 1043 31043 0412 q-ΣA L Negative ampere hour of ΣA (float, lower 2 bytes) 1044 31044 0413 (float, upper 2 bytes) 1045 31045 0414 WSΣA L Volt-ampere hours of ΣA (float, lower 2 bytes) 1046 31046 0415 (float, upper 2 bytes) IM WT5000-17EN...
  • Page 188 (float, lower 2 bytes) Ik(1) of ΣA 1100 31100 044B (float, upper 2 bytes) Wiring unit ΣB normal measurement data and delta computation data 1101 31101 044C UrmsΣB L True rms voltage of ΣB (float, lower 2 bytes) 1102 31102 044D (float, upper 2 bytes) to 1170 IM WT5000-17EN...
  • Page 189 060E Speed2 L Rotating speed (Motor 2) (float, lower 2 bytes) 1552 31552 060F (float, upper 2 bytes) 1553 31553 0610 Torque2 L Torque (Motor 2) (float, lower 2 bytes) 1554 31554 0611 (float, upper 2 bytes) 7-10 IM WT5000-17EN...
  • Page 190 L Measured data mapped to Item 2 (float, lower 2 bytes) Umn1 2004 32004 07D3 (float, upper 2 bytes) 2005 32005 07D4 Item3 L Measured data mapped to Item 3 (float, lower 2 bytes) Udc1 2006 32006 07D5 (float, upper 2 bytes) 7-11 IM WT5000-17EN...
  • Page 191 = 2 (page 1) 4104 34104 1007 (float, upper 2 bytes) 4105 34105 1008 8Items_3 L Measured data of 8-value display’s (float, lower 2 bytes) P1 item number = 3 (page 1) 4106 34106 1009 (float, upper 2 bytes) 7-12 IM WT5000-17EN...
  • Page 192 5001  +   ( 7  *   ( X  -   1 )  +   ( C  -   1 ))  *   2   +   1 (float, upper 2 bytes) 5001 35001 1388 Matrix_1_1 L Measured data of number = 1, (float, lower 2 bytes) Urms1 column = 1 (page 1) 5002 35002 1389 (float, upper 2 bytes) 7-13 IM WT5000-17EN...
  • Page 193 Data during an error is as follows. • When the data does not exist (the display shows “------”) NAN 0x7FC00000 • Over-range (the display shows “--OL-”), computation over-range (the display shows “--OF-”), error (the display shows “Error”) INF 0x7F800000 7-14 IM WT5000-17EN...
  • Page 194 * Used when independent element integration is on. It is invalid when set to off. Specifying the Target Element for Integration Control (Hold registers: 0006, 0007, 0008) Each element is assigned to the bits as follows. Set the bit corresponding to the target element for integration control to 1. Index 7-15 IM WT5000-17EN...

  • Page 195: Chapter 8 Commands Compatible With Legacy Models

    • Procedure using the UTILITY key: see section 1.4 Tap the Remote Contorol Button. The remote control setting screen (Network (VXI-11), GP-IB, USB (USB-TMC)) appears. Remote Control button Index Set the command type. (WT5000, WT3000E, WT3000, WT1800E, WT1800, WT1600) IM WT5000-17EN...
  • Page 196 Arrangement of float type data Little * Little = Lower 16 bits followed by upper 16 bits (data order according to the WT5000 specifications) * Big = Upper 16 bits followed by lower 16 bits (data order according to the WT1800E specifications) Note For details on the responses and settings, see the communication interface user’s manual for the model...

  • Page 197: Appendix

    • If servicing is necessary to solve the problem indicated by a message, contact your nearest YOKOGAWA dealer. • Only communication error messages are listed here. For details on other error messages, see the user’s manual, IM WT5000-02EN. • Communication syntax errors 100 to 199 •...
  • Page 198 Do not write a query after *IDN? or *OPT?. — response. System Communication Errors (300 and 399) Code Message Corrective Action Page Communication device-specific error. Servicing required. — Fatal error in the communication driver. Servicing required. — App-2 IM WT5000-17EN...
  • Page 199 Corrective Action Page Queue overflow. Read the error queue. Note Code 350 occurs when the error queue overflows. This error is only returned in response to a :STATus: ERRor? query; it is never displayed on the screen. Index App-3 IM WT5000-17EN...

  • Page 200: Appendix 2 Outputting Waveform Streaming Data

    I7 Spd1 Trq1 Spd2 Trq2 Aux5 Aux6 Aux7 Aux8 I7 Spd1 Trq1 Spd2 Trq2 Aux5 Aux6 Aux7 Aux8 MTR1: Auxiliary, MTR2: Single Motor (Speed: Pulse) I7 Aux1 Aux2 Aux3 Aux4 Spd3 Trq3 Spd4 Trq4 I7 Aux1 Aux2 Aux3 Aux4 Spd3 Trq3 Spd4 Trq4 App-4 IM WT5000-17EN...
  • Page 201 Appendix 2 Outputting Waveform Streaming Data Output Limit When the waveform output ( :ACQuisition:STReaming:{U<x>|I<x>|SPEed<x>|TORQue<x>|AUX<x>} ) is set to OFF, waveforms are not output. :ACQuisition:STReaming:U2 OFF Example :ACQuisition:STReaming:I3 OFF Waveform streaming data Waveform display data …… …… Not output Not output Index App-5 IM WT5000-17EN...

  • Page 202: Appendix 3 History Feature

    1 second every second. When the update interval is 10 ms, 1 second of numeric data (100 points) is transferred collectively every second. For details on each mode, see the explanation later in this section. App-6 IM WT5000-17EN...
  • Page 203 Output data acquisition period Numeric Data N1, N2… …N26… … N46… N61... :NUM:VAL? No Output (0 Byte) DS Data :ACQ:STR:SEND? No Output (0 Byte) N20 (last 20 updates) N40 (last 20 updates) N60 (last 20 updates) Numeric History :HIST:NUM:VAL? App-7 IM WT5000-17EN...
  • Page 204 Set the number of history data points for when performing history communication output continuously with :HISTory:NUMeric:VALue? or :HISTory:NUMeric:LIST:VALue? . Specify the measurement update count N that is used to indicate “update complete” with the status register (bit 5: DSU/HST) when the history communication output mode is N Update. App-8 IM WT5000-17EN...
  • Page 205 Likewise, the sampling of the data being measured (DS2 and N22) is aborted, and the data is discarded. The status register (bit 5: DSU/HST) is cleared and the data streaming sampling and history update count are reset before the measurement is resumed. App-9 IM WT5000-17EN...
  • Page 206 History Communication Hold Depending on the history communication output mode, history communication output data is secured for the number of counts from the start position at the time when the history communication hold is enabled. App-10 IM WT5000-17EN...

  • Page 207: Appendix 4 About The Ieee 488.2-1992 Standard

    See the explanations of each command’s function that is being transmitted. in chapter 5; the features guide, IM WT5000-01EN; (8) A list of program data elements that can be and the user’s manual, IM WT5000-02EN.
  • Page 208 Corrected Power..............5-99 element ................5-129 crest factor ................5-69 ending harmonic order............5-31 CSV conversion ..............5-123 error message ..............App-1 CT preset ................5-73 error queue ................6-6 CT ratio ................5-88 Ethernet interface ..............1-2 Index-1 IM WT5000-17EN...
  • Page 209 ............5-94 numeric display..............5-33 integration-synchronized storage mode ......5-126 numeric display format ............5-34 integration time ..............5-93 numeric display (user display) ..........5-39 integration timer ..............5-94 N update mode ..........5-64, App-6, App-8 Index-2 IM WT5000-17EN...
  • Page 210 ............. 5-63 scaling factor (auxiliary input) ..........5-24 touch lock ................. 5-131 scaling mode (bar graph)............ 5-30 transition filter ............5-122, 6-5 scaling (trend) ..............5-44 trend display ............... 5-43 scheduled storage time ............ 5-125 Index-3 IM WT5000-17EN...
  • Page 211 .......... 5-46 waveform label ..............5-47 waveform mapping mode ........... 5-46 waveform sampling data............. 5-20 waveform streaming ............5-21 waveform, Time/div............. 5-47 waveform, vertical zoom factor ........... 5-48 wiring system ..............5-91 Page zero-level compensation........... 5-137 Index-4 IM WT5000-17EN...

Table of Contents

Save PDF