Page 1 SL1400 ScopeCorder LITE Communication Interface IM 701240-17E 2nd Edition...
Page 2 To download the library and driver listed above, go to the following website, and then browse to the download page. http://www.yokogawa.com/ymi/ 2nd Edition : September 2013 (YMI) All Rights Reserved, Copyright © 2006 Yokogawa Electric Corporation All Rights Reserved, Copyright © 2013 Yokogawa Meters & Instruments Corporation IM 701240-17E...
Page 3 • Adobe, Acrobat, and PostScript are either registered trademarks or trademarks of Adobe Systems Incorporated. • GIGAZoom ENGINE is a registered trademark of Yokogawa Electric Corporation. • For purposes of this manual, the ® and TM symbols do not accompany their respective registered trademark names or trademark names.
Page 4: How To Use This Manual
How to Use this Manual Structure of this Manual This User’s Manual consists of eight chapters, an Appendix and an Index as described below. Chapter 1 Overview of the GP-IB Interface Describes the functions and specifications of GP-IB interface. Chapter 2 Overview of the Serial (RS-232) Interface Describes the functions and specifications of serial interface (RS-232).
Page 5: Table Of Contents
Contents How to Use this Manual ......................... iii Chapter 1 Overview of the GP-IB Interface Names of the Parts and their Function ................1-1 Connection via the GP-IB Interface ................1-2 GP-IB Interface Functions ..................... 1-3 GP-IB Interface Specifications ..................1-4 Setting up this Instrument (GP-IB) .................
Page 6 Contents 6.13 IMAGe Group ....................... 6-82 6.14 INITialize Group ......................6-84 6.15 LOGic Group ........................ 6-85 6.16 LSTart Group ....................... 6-87 6.17 MATH Group ........................ 6-88 6.18 MEASure Group ......................6-92 6.19 MONitor Group ......................6-105 6.20 MTRigger Group ......................6-108 6.21 RECorder Group ......................
Page 7: Chapter 1 Overview Of The Gp-Ib Interface
1.1 Names of the Parts and their Function Chapter 1 Overview of the GP-IB Interface 1.1 Names of the Parts and their Function Front Panel CLEAR TRACE Key Press to switch from remote mode to local mode which allows key operation. However, this is not possible if Local Lockout has been set by the controller (refer to page 1-6.)
Page 8: Connection Via The Gp-Ib Interface
1.2 Connection via the GP-IB Interface 1.2 Connection via the GP-IB Interface GP-IB Cable The GP-IB connector on the side panel of the SL1400 is a 24-pin connector that conforms to IEEE Standard 488-1978. Use a GP-IB cable that also conforms to IEEE Standard 488-1978. Connection Method Connect the GP-IB cable as shown below.
Page 9: Gp-Ib Interface Functions
1.3 GP-IB Interface Functions 1.3 GP-IB Interface Functions GP-IB Interface Functions Listener Function • Allows you to make the settings which you can make using the panel keys on the instrument, except for the power ON/OFF and GP-IB communications settings. •...
Page 10: Gp-Ib Interface Specifications
1.4 GP-IB Interface Specifications 1.4 GP-IB Interface Specifications GP-IB Interface Specifications Electrical and Mechanical Specifications: Conforms to IEEE Standard 488-1978. Interface Functions: Refer to the table below. Protocol: Conforms to IEEE Standard 488.2-1992. Code: ISO (ASCII) code Mode: Addressable mode Address Setting: Addresses 0 to 30 can be selected from the GP-IB setting screen in the remote control...
Page 11: Setting Up This Instrument (Gp-Ib)
1.5 Setting up this Instrument (GP-IB) 1.5 Setting up this Instrument (GP-IB) Operating Procedure Selecting the Communication Interface Press MENU. Press the Next 1/2 soft key. Press the Remote Cntl soft key. Press the Device soft key to select GP-IB. Note Only the communications interfaces selected under Device are available.
Page 12: Response To Interface Messages
1.6 Response to Interface Messages 1.6 Response to Interface Messages Response to Interface Messages Response to a Uni-line Message IFC(Interface Clear) Clears the talker and listener. Stops output if data is being output. REN(Remote Enable) Switches between remote and local modes. IDY (Identify) is not supported.
Page 13 1.6 Response to Interface Messages Multi-Line Message Eight data lines are used to transmit a message. Multi-line messages are classified as follows. Address Commands Valid when the equipment is designated as a listener or a talker. The following five address commands are available. •...
Page 14: Chapter 2 Overview Of The Serial (Rs-232) Interface
2.1 Names of the Parts and their Function Chapter 2 Overview of the Serial (RS-232) Interface 2.1 Names of the Parts and their Function Front Panel CLEAR TRACE Key Press to switch from remote mode to local mode which allows key operation. However, this is not possible if Local Lockout has been set by the controller (refer to page 2-2.)
Page 15: Serial (Rs-232) Interface Functions And Specifications
2.2 Serial (RS-232) Interface Functions and Specifications 2.2 Serial (RS-232) Interface Functions and Specifications Receiving Function It is possible to make the same settings via the serial (RS-232) interface as can be made using the front panel keys. Measured/computed data, setup data and error codes can be received. Sending Function Measured/computed data can be output.
Page 16: Connection Via The Serial (Rs-232) Interface
2.3 Connection via the Serial (RS-232) Interface 2.3 Connection via the Serial (RS-232) Interface When connecting this instrument to a computer, make sure that the handshaking method, data transmission rate and data format selected for the instrument match those selected for the computer. For details, refer to the following pages.
Page 17 2.3 Connection via the Serial (RS-232) Interface Table of RS-232 Standard Signals and their JIS and CCITT Abbreviations Abbreviation Pin No. Description RS-232 CCITT (9-Pin Connector) AB (GND) Signal ground BA (TXD) Transmitted data BB (RXD) Received data Request to send CA (RTS) Clear to send CB (CTS)
Page 18: Handshaking
2.4 Handshaking 2.4 Handshaking To use an serial (RS-232) interface for transferring data between this instrument and a computer, it is necessary to use certain procedures by mutual agreement to ensure the proper transfer of data. These procedures are called “handshaking.” Various handshaking systems are available depending on the computer to be used;...
Page 19 2.4 Handshaking CS-RS Transmission Data Control A software handshake status is established between the instrument and host computer. The instrument will stop a data transmission if a “CS = False” status is established, and will resume the transmission when a “CS = True” status is established. The X-OFF and X-ON signals from the host computer are processed as data.
Page 20: Matching The Data Format
2.5 Matching the Data Format 2.5 Matching the Data Format The serial (RS-232) interface of this instrument performs communications using start- stop synchronization, In start-stop synchronization, one character is transmitted at a time. Each character consists of a start bit, data bits, a parity bit, and a stop bit. Refer to the figure below.
Page 21: Setting Up This Instrument (Serial)
2.6 Setting up this Instrument (Serial) 2.6 Setting up this Instrument (Serial) Operating Procedure Selecting the Communication Interface Press MENU. Press the Next 1/2 soft key. Press the Remote Cntl soft key. Press the Device soft key to select RS232. Note Only the communications interfaces selected under Device are available.
Page 22: Chapter 3 Usb Interface
3.1 Names of the Parts and their Function Chapter 3 USB Interface 3.1 Names of the Parts and their Function Front Panel CLEAR TRACE Key Press to switch from remote mode to local mode which allows key operation. However, this is not possible if Local Lockout has been set by the controller (refer to page 3-2.) MENU...
Page 23: Usb Interface Functions And Specifications
3.2 USB Interface Functions and Specifications 3.2 USB Interface Functions and Specifications Receiving Function You can specify the same settings as those specified by front panel key operations. Receives output requests for measured and computed data, setup data, and error codes. Sending Function Outputs measured and computed data.
Page 24: Connection Via The Usb Interface
3.3 Connection via the USB Interface 3.3 Connection via the USB Interface Connection Precautions • Connect the USB cable by inserting the connector firmly into the USB connector. • When connecting multiple devices using USB hubs, connect the SL1400 to the USB hub that is closest to the controller.
Page 25: Setting Up This Instrument (Usb)
3.4 Setting up this Instrument (USB) 3.4 Setting up this Instrument (USB) Operating Procedure Selecting the Communication Interface Press MENU. Press the Next 1/2 soft key. Press the Remote Cntl soft key. Press the Device soft key to select USB. Note Only the communications interfaces selected under Device are available.
Page 26: Chapter 4 Network Interface (Option)
4.1 Names of the Parts and their Function Chapter 4 Network Interface (Option) 4.1 Names of the Parts and their Function Front Panel CLEAR TRACE Key Press to switch from remote mode to local mode which allows key operation. However, this is not possible if Local Lockout has been set by the controller (refer to page 4-3.) MENU...
Page 27: Network Interface Functions And Specifications
4.2 Network Interface Functions and Specifications 4.2 Network Interface Functions and Specifications Receiving Function It is possible to make the same settings via the RS-232 interface as can be made using the front panel keys. Measured or computed data, setup data, and error codes can be received. Sending Function Measured/computed data can be output.
Page 28 4.2 Network Interface Functions and Specifications Switching between Remote and Local Mode When Switched from Local to Remote Remote mode is activated when the ":COMMunicate:REMote ON" command is received from a controller while local mode is active. • REMOTE is displayed on the upper right of the screen. •...
Page 29: Connection Via The Network Interface
4.3 Connection via the Network Interface 4.3 Connection via the Network Interface Connection Method Connect a UTP (Unshielded Twisted-Pair) or STP (Shielded Twisted-Pair) cable that has been connected to a hub to the 100BASE-TX port on the side panel of the unit. 100BASE-TX compatible hub or router Controller (PC or workstation)
Page 30: Setting Up This Instrument (Network)
4.4 Setting up this Instrument (Network) 4.4 Setting up this Instrument (Network) Operating Procedure Selecting the Communication Interface Press MENU. Press the Next 1/2 soft key. Press the Remote Cntl soft key. Press the Device soft key, and select Network. Note Only the communications interfaces selected under Device are available.
Page 31 4.4 Setting up this Instrument (Network) Enter the user name. If you do not wish to limit access, use the anonymous setting. If access is to be limited, enter a user name of 15 characters or less. Use the jog shuttle to move the cursor to Password, then press SELECT to display the keyboard.
Page 32: Chapter 5 Before Programming
5.1 Messages Chapter 5 Before Programming 5.1 Messages Program Message Unit Format The format of a program message unit is shown below. Messages Blocks of message data are transferred between the controller and this instrument during communications. <Program header> Space <Program data>...
Page 33 5.1 Messages Points to Note Concerning Message Response Message Unit Format Transmission The format of a program message unit is shown below. • It is always possible to send a program message if the previous message which was sent did not <Response header>...
Page 34: Commands
5.2 Commands 5.2 Commands When Concatenating Commands Command Group Commands A command group is a group of commands which have There are three types of command (program header) the same compound header. A command group may which can be sent from the controller to this contain sub-groups.
Page 35: Response
5.2 Commands/5.3 Response 5.3 Response Upper-level Query An upper-level query is a compound header to which a Response question mark is appended. Execution of an upper- On receiving a query from the controller, this level query allows all a group’s settings to be output at instrument returns a response message to the once.
Page 36: Data
5.4 Data 5.4 Data <Voltage>, <Current>, <Time>, <Frequency> Data <Voltage>, <Current>, <Time>, and <Frequency> A data section comes after the header. A space must indicate decimal values which have physical be included between the header and the data. The significance. <Multiplier> or <Unit> can be attached to data contains conditions and values.
Page 37 5.4 Data <Register> <Character string data> <Register> indicates an integer, and can be expressed <Character string data> is not a specified character in hexadecimal, octal, or binary as well as a decimal string like <Character data>. It is an arbitrary number.
Page 38: Synchronization With The Controller
5.4 Data/5.5 Synchronization with the Controller 5.5 Synchronization with the <Block data> Controller <Block data> is arbitrary 8-bit data. <Block data> is only used for response messages. Response Overlap Commands and Sequential messages are expressed in the following form. Commands There are two kinds of command;...
Page 39 5.5 Synchronization with the Controller Using the COMMunicate:OVERlap Command Using the *OPC? Query The "COMMunicate:OVERlap" command is used to The *OPC? query generates a response when an enable or disable overlap operation. overlap operation has been completed. Example:COMMunicate:OVERlap #HFFBF;:FILE: Example:COMMunicate:OPSE #H0040;:FILE: LOAD:SETup:EXECute "CASE1";: LOAD:SETup:EXECute "CASE1";...
Page 40 5.5 Synchronization with the Controller Using the Extended Event Register Changes in the condition register are reflected in the extended event register (page 7-4). Example:STATus:FILTer1 FALL;:STATus: EESE 1;EESR?;*SRE 8;:TRIGger: MODE SINGle;:STARt<PMT> (Response to "STATus:EESR?" is decoded.) (Service request is awaited.) :WAVeform:SEND?<PMT>...
Page 41: Chapter 6 Commands
6.1 A List of Commands Chapter 6 Commands 6.1 A List of Commands Command Function Page ACQuire Group :ACQuire? Queries all settings related to the waveform acquisition. 6-19 :ACQuire:AVERage? Queries all settings related to averaging. 6-19 :ACQuire:AVERage:COUNt Sets the waveform acquisition count or queries the current setting. 6-19 :ACQuire:AVERage:EWEight Sets the attenuation constant of exponential averaging or queries the...
Page 42 6.1 A List of Commands Command Function Page :CHANnel<x>:FREQ:INPut:CELimination Sets the chatter elimination when the frequency module is installed or queries the current setting. 6-31 :CHANnel<x>:FREQ:INPut:COUPling Sets the input coupling when the frequency module is installed or queries the current setting. 6-31 :CHANnel<x>:FREQ:INPut:HYSTeresis Sets the hysteresis when the frequency module is installed or queries the...
Page 43 6.1 A List of Commands Command Function Page :CHANnel<x>:FREQ:SETup:FILTer:PAVerage:VALue Sets the number of times to perform pulse average when the frequency module is installed or queries the current setting. 6-34 :CHANnel<x>:FREQ:SETup:FUNCtion Sets the measurement mode when the frequency module is installed or queries the current setting.
Page 44 6.1 A List of Commands Command Function Page :CHANnel<x>:STRain:LSCale:MODE Turns ON/OFF linear scaling when the strain module is installed (SHUNt can be specified only on the Strain Module (DSUB, Shunt-Cal)) or queries the current setting. 6-38 :CHANnel<x>:STRain:LSCale:{P1X|P1Y|P2X|P2Y} Sets the P1:X|P1:Y|P2:X|P2:Y values of linear scaling when the strain module is installed or queries the current setting.
Page 45 6.1 A List of Commands Command Function Page :CHANnel<x>[:VOLTage]:LSCale:UNIT Sets the unit to be added to the result of linear scaling when the voltage module is installed or queries the current setting. 6-42 :CHANnel<x>[:VOLTage]:POSition Sets the vertical position when the voltage module is installed or queries the current setting.
Page 46 6.1 A List of Commands Command Function Page :CURSor[:TY]:MARKer:M<x>:TRACe Sets the target waveform of the marker cursor or queries the current setting. 6-52 :CURSor[:TY]:MARKer:X<x>? Queries the X-axis value at the marker cursor position. 6-52 :CURSor[:TY]:MARKer:Y<x>? Queries the Y-axis value at the marker cursor position. 6-52 :CURSor[:TY]:TYPE Sets the cursor type or queries the current setting.
Page 47 6.1 A List of Commands Command Function Page :DISPlay:SMAPping? Queries all the settings related to the waveform mapping to the split screen. 6-60 :DISPlay:SMAPping:{CHANnel<x>|MATH<x>|PODA|PODB} Sets the waveform mapping to the split screen or queries the current setting. 6-60 :DISPlay:SVALue Turns ON/OFF the scale value display or queries the current setting. 6-60 :DISPlay:TLABel Turns ON/OFF the waveform label display or queries the current setting.
Page 48 6.1 A List of Commands Command Function Page :HCOPy:NETPrint? Queries all settings related to printing on the network printer. 6-72 :HCOPy:NETPrint:TONE Turns ON/OFF color printing to the network printer or queries the current setting. 6-72 :HCOPy:NETPrint:TYPE Sets the output format and output resolution for printing to the network printer or queries the current setting.
Page 49 6.1 A List of Commands Command Function Page HISTory Group :HISTory? Queries all settings related to the history memory function. 6-79 :HISTory:ABORt Aborts the history search. 6-79 :HISTory:CLEar Executes history clear. 6-79 :HISTory:DISPlay Sets the start number or end number of the display record or queries the current setting.
Page 50 6.1 A List of Commands Command Function Page LOGic Group :LOGic? Queries all settings related to the logic waveforms. 6-86 :LOGic:{PODA|PODB}? Queries all settings related to the specified logic waveform. 6-86 :LOGic:{PODA|PODB}:ALL:DISPlay Turns ON/OFF the display of all bits of the specified logic waveform. 6-86 :LOGic:{PODA|PODB}:{BIT1~8}:DISPlay Sets the display of the bit of the specified logic waveform or queries the current setting.
Page 51 6.1 A List of Commands Command Function Page :MEASure:{CHANnel<x>|MATH<x>}:DELay? Queries all settings related to the delay between channels of the waveform. 6-100 :MEASure:{CHANnel<x>|MATH<x>}:DELay:COUNt? Queries the statistical processing count of the delay between channels. 6-100 :MEASure:{CHANnel<x>|MATH<x>}:DELay:{MAXimum|MEAN|MINimum|SDEViation}? Queries the statistical value of the delay between channels. 6-100 :MEASure:{CHANnel<x>|MATH<x>}:DELay:MEASure? Queries all settings of the source waveform of the delay between channels.
Page 52 6.1 A List of Commands Command Function Page :MEASure:CYCLe:TRACe{OWN|<NRf>|MATH<x>} Sets the target waveform of cycle statistical processing of waveform parameters or queries the current setting. 6-104 :MEASure:MODE Sets the mode of the automated measurement of waveform parameters or queries the current setting. 6-104 :MEASure:ONECycle Turns ON/OFF the 1 cycle mode of the automated measurement of waveform...
Page 53 6.1 A List of Commands Command Function Page :RECorder:XY:SCALe Turns ON/OFF the scale for X-Y recorder mode or queries the current setting. 6-113 :RECorder:XY:SRATe Sets the sample rate for X-Y recorder mode or queries the current setting. 6-114 :RECorder:XY:XY<x>? Queries all settings of the XY waveform for X-Y recorder mode. 6-114 :RECorder:XY:XY<x>:DISPlay Turns ON/OFF the XY waveform for X-Y recorder mode or queries the...
Page 54 6.1 A List of Commands Command Function Page :SYSTem:LCD:AUTO? Queries all settings related to the auto off function of the LCD backlight. 6-120 :SYSTem:LCD:AUTO:MODE Turns ON/OFF the auto off function of the LCD backlight or queries the current setting. 6-120 :SYSTem:LCD:AUTO:TIME Sets the auto off time of the LCD backlight or queries the current setting.
Page 55 6.1 A List of Commands Command Function Page :TRIGger:BTRigger? Queries all settings related to condition B. 6-133 :TRIGger:BTRigger:CHANnel<x> Sets the channel condition of condition B or queries the current setting. 6-133 :TRIGger:BTRigger:CONDition Sets the condition to be satisfied for condition B or queries the current setting. 6-133 :TRIGger:BTRigger:LOGic? Queries all settings related the logic of condition B.
Page 56 6.1 A List of Commands Command Function Page :TRIGger:WWINdow:SYNC:LEVel Sets the level of the synchronization channel of the wave window trigger or queries the current setting. 6-139 :TRIGger:WWINdow:SYNC:TRACe Sets the synchronization channel of the wave window trigger or queries the current setting. 6-139 WAVeform Group :WAVeform?
Page 57 6.1 A List of Commands Command Function Page Common Command Group *CAL? Performs calibration and queries the result. 6-151 *CLS Clears the standard event register, extended event register, and error queue. 6-151 *ESE Sets the standard event enable register or queries the current setting. 6-151 *ESR? Queries the standard event register and clears the register.
Page 58: Acquire Group
6.2 ACQuire Group 6.2 ACQuire Group The commands in this group deal with the waveform acquisition. You can make the same settings and inquiries as when you press the MENU key > Next 1/2 soft key > Others soft key on the front panel. :ACQuire AVERage COUNt...
Page 59 6.2 ACQuire Group :ACQuire? :ACQuire:MODE Function Queries all settings related to the waveform Function Sets the waveform acquisition mode or queries acquisition. the current setting. Syntax :ACQuire? Syntax :ACQuire:MODE Example :ACQUIRE? -> :ACQUIRE: {AVERage|BAVerage|ENVelope|NORMal} RLENGTH 10000;MODE NORMAL; :ACQuire:MODE? PROTATE 1;AVERAGE:COUNT INFINITY; Example :ACQUIRE:MODE NORMAL EWEIGHT 16;:ACQUIRE:COUNT INFINITY;...
Page 60: Asetup Group
6.2 ACQuire Group/6.3 ASETup Group :ACQuire:RTOut:FILename :ACQuire:RTOut:SEQuence Function Sets the file name of auto naming of realtime Function Sets the realtime recording operation or queries recording or queries the current setting. the current setting. Syntax :ACQuire:RTOut:FILename <String> Syntax :ACQuire:RTOut:SEQuence :ACQuire:RTOut:FILename? {SINGLE|CONTINUE} :ACQuire:RTOut:SEQuence? <String>=Up to 16 characters...
Page 61: Calibrate Group
6.4 CALibrate Group 6.4 CALibrate Group The commands in this group deal with calibrations. You can make the same settings, execute the same operations, and make the same inquiries as when you press the MENU key > INITIALIZE/CAL soft key on the front panel.
Page 62: Channel Group
6.5 CHANnel Group 6.5 CHANnel Group The commands in this group deal with the vertical axis of each channel. You can make the same settings and inquiries as when you press the CH key on the front panel. :CHANnel <x> VOLT age BWIDth <Space>...
Page 63 6.5 CHANnel Group <Space> <NRf> <Space> <NRf> UNIT <Space> <String> POSition <Space> <NRf> PROBe <Space> <NRf> C100 SCALe <Space> <Voltage> <Voltage> <Current> <Current> <NRf> <NRf> VARiable <Space> <NRf> VDIV <Space> <Voltage> <Current> ZOOM <Space> <NRf> ACCL BIAS <Space> <NRf> BWIDth <Space>...
Page 64 6.5 CHANnel Group ZOOM <Space> <NRf> DISPlay <Space> <NRf> FREQ INPut BWIDth <Space> FULL <Frequency> <Space> CELimination <Time> COUPling <Space> HYSTeresis <Space> HIGH MIDDle PRESet <Space> LOG5v LOG3v LOG12v LOG24v PULLup ZERO AC100v AC200v USER PROBe <Space> <NRf> PULLup <Space> <NRf>...
Page 65 6.5 CHANnel Group <Space> <NRf> <Space> <NRf> <Space> <NRf> <Space> <NRf> UNIT <Space> <String> OFFSet <Space> <NRf> <Frequency> <Time> POSition <Space> <NRf> SCALe <Space> <NRf> <NRf> <Frequency> <Frequency> <Time> <Time> SETup CFRequency <Space> <Frequency> DECeleration <Space> <NRf> DPULse <Space> <NRf> FILTer SMOothing MODE...
Page 66 6.5 CHANnel Group LRESet <Space> <NRf> MPULse <Space> POSitive NEGative PROTate <Space> <NRf> RESet STOPpredict <Space> <NRf> TUNit <Space> HOUR UNIT <Space> <String> UPULse <Space> <NRf> VUNit <Space> <String> VARiable <Space> <NRf> VDIV <Space> <NRf> <Frequency> <Time> ZOOM <Space> <NRf> LABel <Space>...
Page 67 6.5 CHANnel Group LSCale AVALue <Space> <NRf> BVALue <Space> <NRf> DISPlaytype MODE <Space> EXPonent FLOating DECimalnum <Space> <NRf> AUTO SUBunit <Space> AUTO NONE PICO NANO MICRo MILI KILO GIGA TERA <Space> GETMeasure MODE <Space> SHUNt <Space> <NRf> <Space> <NRf> <Space> <NRf>...
Page 68 6.5 CHANnel Group TEMPerature BURNout <Space> <NRf> BWIDth <Space> FULL <Frequency> COUPling <Space> <Space> <NRf> SCALe <Space> <NRf> <NRf> TYPE <Space> Au 7fe UNIT <Space> 6-28 IM 701240-17E...
Page 69 6.5 CHANnel Group :CHANnel<x>? :CHANnel<x>:ACCL:COUPling Function Queries all settings related to the vertical axis of Function Sets the input coupling on the channel with the the channel. acceleration/voltage module installed or queries Syntax :CHANnel<x>? the current setting. <x>=1 to 16 Syntax :CHANnel<x>:ACCL:COUPling {AC|DC| Example...
Page 70 6.5 CHANnel Group :CHANnel<x>:ACCL:UNIT :CHANnel<x>:FREQ? Function Sets the unit of upper and lower limits on the Function Queries all settings on the channel with the channel with the acceleration/voltage module frequency module installed. Syntax :CHANnel<x>:FREQ? installed or queries the current setting. Syntax :CHANnel<x>:ACCL:UNIT {<String>} <x>=1 to 16...
Page 71 6.5 CHANnel Group :CHANnel<x>:FREQ:INPut:CELimination :CHANnel<x>:FREQ:INPut:PROBe Function Sets the chatter elimination on the channel with Function Sets the probe attenuation on the channel with the frequency module installed or queries the the frequency module installed or queries the current setting. current setting. Syntax :CHANnel<x>:FREQ:INPut: Syntax...
Page 72 6.5 CHANnel Group :CHANnel<x>:FREQ:INPut:VRANGe :CHANnel<x>:FREQ:LSCale:GETMeasure Executes the measurement of the P1:X|P2:X Function Sets the voltage range on the channel with the Function frequency module installed or queries the values of linear scaling on the channel with the current setting. frequency module installed. Syntax :CHANnel<x>:FREQ:INPut:VRANGe Syntax...
Page 73 6.5 CHANnel Group :CHANnel<x>:FREQ:OFFSet :CHANnel<x>:FREQ:SETup:CFRequency Function Sets the offset value on the channel with the Function Sets the center frequency on the channel with frequency module installed or queries the the frequency module installed or queries the current setting. current setting. Syntax :CHANnel<x>:FREQ:OFFSet Syntax...
Page 74 6.5 CHANnel Group :CHANnel<x>:FREQ:SETup:FILTer: :CHANnel<x>:FREQ:SETup:FILTer: SMOothing? PAVerage:MODE Function Queries all settings related to smoothing on the Function Turns ON/OFF pulse average on the channel channel with the frequency module installed. with the frequency module installed or queries Syntax :CHANnel<x>:FREQ:SETup:FILTer: the current setting. SMOothing? Syntax :CHANnel<x>:FREQ:SETup:FILTer:...
Page 75 6.5 CHANnel Group :CHANnel<x>:FREQ:SETup:LRESet :CHANnel<x>:FREQ:SETup:STOPpredict Function Sets the over-range reset on the channel with Function Turns ON/OFF the stop prediction on the the frequency module installed or queries the channel with the frequency module installed or current setting. queries the current setting. Syntax :CHANnel<x>:FREQ:SETup:LRESet Syntax...
Page 76 6.5 CHANnel Group :CHANnel<x>:FREQ:SETup:VUNit :CHANnel<x>:LABel Function Sets the unit of velocity on the channel with the Function Sets the waveform label of channel or queries frequency module installed or queries the the current setting. Syntax :CHANnel<x>:LABel {<String>} current setting. Syntax :CHANnel<x>:FREQ:SETup:VUNit :CHANnel<x>:LABel? {<String>}...
Page 77 6.5 CHANnel Group :CHANnel<x>:STRain:BALance? :CHANnel<x>:STRain:EXCitation Function Queries the balance setting on the channel with {<Voltage>} the strain module installed. Function Sets the bridge voltage on the channel with the Syntax :CHANnel<x>:STRain:BALance? strain module installed or queries the current <x>=1 to 16 setting.
Page 78 6.5 CHANnel Group :CHANnel<x>:STRain:LSCale:AVALue :CHANnel<x>:STRain:LSCale: {<NRf>} DISPlaytype:DECimalnum Function Sets scaling coefficient A on the channel with Function Sets the decimal place when the display type is the strain module installed or queries the Float when using linear scaling or queries the current setting.
Page 79 6.5 CHANnel Group :CHANnel<x>:STRain:LSCale:{P1X|P1Y| :CHANnel<x>:STRain:SCALe P2X|P2Y} {<NRf>,<NRf>} Function Sets the P1:X|P1:Y|P2:X|P2:Y values of Function Sets the upper and lower limits on the screen linear scaling on the channel with the strain on the channel with the strain module installed module installed or queries the current setting. or queries the current setting.
Page 80 6.5 CHANnel Group :CHANnel<x>:TEMPerature:BWIDth :CHANnel<x>:TEMPerature:TYPE Function Sets the bandwidth limit on the channel with the Function Sets the thermocouple type to be used on the Temperature, High Precision Voltage Isolation channel with the Temperature, High Precision Module installed or queries the current setting. Voltage Isolation Module installed or queries Syntax :CHANnel<x>:TEMPerature:BWIDth...
Page 81 6.5 CHANnel Group :CHANnel<x>[:VOLTage]:BWIDth :CHANnel<x>[:VOLTage]:LSCale? Function Sets the bandwidth limit on the channel with the Function Queries all settings related to linear scaling on voltage module installed or queries the current the channel with the voltage module installed. setting. Syntax :CHANnel<x>[:VOLTage]:LSCale? Syntax :CHANnel<x>[:VOLTage]:BWIDth...
Page 82 6.5 CHANnel Group :CHANnel<x>[:VOLTage]:LSCale: :CHANnel<x>[:VOLTage]:LSCale:MODE DISPlaytype:MODE Function Sets the linear scaling function on the channel with the voltage module installed or queries the Function Sets the display mode when using linear current setting. scaling or queries the current setting. Syntax :CHANnel<x>[:VOLTage]:LSCale:MODE Syntax :CHANnel<x>[:VOLTage]:LSCale:...
Page 83 6.5 CHANnel Group :CHANnel<x>[:VOLTage]:POSition :CHANnel<x>[:VOLTage]:VDIV Function Sets the vertical position on the channel with Function Sets the V/div value on the channel with the the voltage module installed or queries the voltage module installed or queries the current current setting. setting.
Page 84: Clear Group
6.6 CLEar Group 6.6 CLEar Group The command in this group executes clear trace. You can execute the same operation as the CLEAR TRACE key on the front panel. :CLEar :CLEar Function Executes clear trace. Syntax :CLEar Example :CLEAR Description Snapshot is carried out using “SNAP.”...
Page 85: Communicate Group
6.7 COMMunicate Group 6.7 COMMunicate Group The commands in this group deal with communications. There are no front panel keys that correspond to the commands in this group. :COMMunicate HEADer <Space> <NRf> LOCKout <Space> <NRf> OPSE <Space> <Register> OPSR OVERlap <Space>...
Page 86 6.7 COMMunicate Group :COMMunicate:OPSE (Operation Pending :COMMunicate:STATus? Status Enable register) Function Queries line-specific status. Syntax :COMMunicate:STATus? Function Sets the overlap command that is to used by Example :COMMUNICATE:STATUS? -> the *OPC, *OPC?, and *WAI commands or :COMMUNICATE:STATUS 0 queries the current setting. Description The meaning of each status bit is as follows: Syntax...
Page 87: Cursor Group
6.8 CURSor Group 6.8 CURSor Group The commands in this group deal with cursor measurements. You can make the same settings and inquiries of settings and measured values as when you press the CURSOR key on the front panel. When the time axis is set to a range indicated below, the selectable range varies depending on the record length setting. For details, see section 11.5, “Measuring Waveforms Using Cursors”...
Page 88 6.8 CURSor Group MARKer <x> <x> <x> JUMP <Space> POSition <Space> <NRf> TRACe <Space> <NRf> MATH <x> <x> <x> TYPE <Space> HORizontal VERTical MARKer DEGRee HAVertical VERTical JUMP <Space> C1_Z1 C1_Z2 C2_Z1 C2_Z2 PERDt POSition <x> <Space> <NRf> TRACe <Space> <NRf>...
Page 89 6.8 CURSor Group STRAce <Space> <NRf> MATH <x> TRACe <Space> <x> MARKer POSition <Space> <NRf> STRAce <Space> <NRf> MATH <x> TRACe <Space> TYPE <Space> HORizontal VERTical MARKer HAVertical VERTical POSition <x> <Space> <NRf> STRAce TRACe <Space> <x> 6-49 IM 701240-17E...
Page 90 6.8 CURSor Group :CURSor? :CURSor[:TY]:DEGRee:DX? Function Queries all settings related to cursor Function Queries the angle difference ∆D between angle measurements. cursors of the T-Y display. Syntax :CURSor? Syntax :CURSor:TY:DEGRee:DX? Example :CURSOR? -> :CURSOR:TY: Example :CURSOR:TY:DEGREE:DX? -> TYPE HORIZONTAL;HORIZONTAL:TRACE 1; :CURSOR:TY:DEGREE:DX 180.00000E+00 POSITION1 3.00;POSITION2 -3.00;: CURSOR:TY:VERTICAL:TRACE 1;...
Page 91 6.8 CURSor Group :CURSor[:TY]:DEGRee:TRACe :CURSor[:TY]:HORizontal:TRACe Function Sets the target waveform of the angle cursor of Function Sets the target waveform of the H cursor of the the T-Y display or queries the current setting. T-Y display or queries the current setting. Syntax :CURSor:TY:DEGRee:TRACe {<NRf>| Syntax...
Page 92 6.8 CURSor Group :CURSor[:TY]:MARKer:DX<x>? :CURSor[:TY]:MARKer:M<x>:TRACe Function Queries the X-axis value between the marker Function Sets the target waveform of the marker cursor cursors of the T-Y display. of the T-Y display or queries the current setting. Syntax :CURSor:TY:MARKer:DX<x>? Syntax :CURSor:TY:MARKer:M<x>:TRACe {<NRf>|MATH<x>} <x>=1 to 4 Example...
Page 93 6.8 CURSor Group :CURSor[:TY]:VERTical:DX? :CURSor[:TY]:VERTical:TRACe Function Queries the X-axis value between the V cursors Function Sets the target waveform of the V cursor of the of the T-Y display. T-Y display or queries the current setting. Syntax :CURSor:TY:VERTical:DX? Syntax :CURSor:TY:VERTical:TRACe Example :CURSOR:TY:VERTICAL:DX? ->...
Page 94 6.8 CURSor Group :CURSor:XY:HORizontal:DY? :CURSor:XY:MARKer:POSition Function Queries the Y-axis value between H cursors of Function Sets the X-axis value at the marker cursor the X-Y display. position of the X-Y display or queries the Syntax :CURSor:XY:HORizontal:DY? current setting. Example :CURSOR:XY:HORIZONTAL:DY? -> Syntax :CURSor:XY:MARKer:POSition {<NRf>} :CURSOR:XY:HORIZONTAL:...
Page 95 6.8 CURSor Group :CURSor:XY:TYPE Function Sets the cursor type of the X-Y display or queries the current setting. Syntax :CURSor:XY:TYPE {OFF|HORizontal| VERTical|MARKer|HAVertical} :CURSor:XY:TYPE? Example :CURSOR:XY:TYPE VERTICAL :CURSor:XY:TYPE? -> :CURSOR:XY: TYPE VERTICAL :CURSor:XY:VERTical? Function Queries all settings related to the V cursor of the X-Y display.
Page 96: Display Group
6.9 DISPlay Group 6.9 DISPlay Group The commands in this group deal with the screen display. You can make the same settings and inquiries as when the front panel keys such as the DISPLAY key and the MENU key > Next 1/2 soft key > Others soft key are used.
Page 97 6.9 DISPlay Group ESIZe <Space> <NRf> EWINdow <Space> <NRf> FORMat <Space> SINGle DUAL TRIad QUAD OCTal DHEXa GRATicule <Space> CROSshair FRAMe GRID INTENsity BACK <Space> <NRf> CURSor <Space> <NRf> CAPTure <Space> <NRf> GRID <Space> <NRf> MARKer <Space> <NRf> MENU <Space> <NRf>...
Page 98 6.9 DISPlay Group SMAPping CHANnel <x> <Space> <NRf> MATH <x> <Space> <NRf> PODA <Space> <NRf> PODB <Space> <NRf> SVALue <Space> <NRf> TLABel <Space> <NRf> TRANslucent <Space> <NRf> :DISPlay? :DISPlay:ACCumulate? Function Queries all settings related to the display. Function Queries all settings related to the waveform Syntax :DISPlay? accumulation display.
Page 99 6.9 DISPlay Group :DISPlay:COLor? :DISPlay:EWINdow Function Queries all settings related to the display color. Function Turns ON/OFF the extra window or queries the Syntax :DISPlay:COLor? current setting. Example :DISPLAY:COLOR? -> :DISPLAY:COLOR: Syntax :DISPlay:EWINdow {<Boolean>} CHANNEL1 YELLOW;CHANNEL2 GREEN; :DISPlay:EWINdow? CHANNEL3 MAGENTA;CHANNEL4 CYAN; Example :DISPLAY:EWINDOW OFF CHANNEL5 RED;CHANNEL6 ORANGE;...
Page 100 6.9 DISPlay Group :DISPlay:INTerpolate :DISPlay:SVALue (Scale VALUE) Function Sets the interpolation method or queries the Function Turns ON/OFF the scale value display or current setting. queries the current setting. Syntax :DISPlay:INTerpolate Syntax :DISPlay:SVALue {<Boolean>} {LINE|OFF|SINE} :DISPlay:SVALue? :DISPlay:INTerpolate? Example :DISPLAY:SVALUE OFF Example :DISPLAY:INTERPOLATE LINE :DISPLAY:SVALUE? ->...
Page 101: File Group
6.10 FILE Group 6.10 FILE Group The commands in this group deal with the floppy disk, the internal hard disk, and the external SCSI device. You can make the same settings, execute the same operations, and make the same inquiries as when the FILE key on the front panel is used.
Page 102 6.10 FILE Group LOAD BINar y ABORt EXECute <Space> <Filename> SETup ABORt EXECute <Space> <Filename> SNAP ABORt EXECute <Space> <Filename> REALtime ABORt EXECute <Space> <Filename> SAVE ANAMing <Space> DATE NUMBering ASCii ABORt EXECute HISTor y <Space> RANGe <Space> MAIN INTerval <Space>...
Page 103 6.10 FILE Group HISTor y <Space> RANGe <Space> MAIN TRACe <Space> <NRf> MATH <x> PODA PODB COMMent <Space> <String> FLOat ABORt EXECute HISTor y <Space> RANGe <Space> MAIN TRACe <Space> <NRf> MATH <x> PODA PODB MEASure ABORt EXECute NAME <Space> <Filename>...
Page 104 <String> Syntax :FILE:BACKup:COMMent {<String>} Example :FILE:DIRECTORY:CDIRECTORY “NO_1” :FILE:BACKup:COMMent? {<String>} = Up to 160 characters :FILE[:DIRectory]:DRIVe Example :FILE:BACKUP:COMMENT "YOKOGAWA" Function Sets the storage medium to be controlled. :FILE:BACKUP:COMMENT? -> Syntax :FILE[:DIRectory]:DRIVe {(SCSI, :FILE:BACKUP:COMMENT "YOKOGAWA" <NRf>[,<NRf>])|PCCard[,<NRf>]| NETWork|USB,<NRf>[,<NRf>][,<NRf>]} :FILE:BACKup:SAVE[:EXECute] The first <NRf>...
Page 105 6.10 FILE Group :FILE[:DIRectory]:FILTer :FILE:SAVE:ANAMing Function Sets a filter on the target directory or queries Function Sets the auto naming function of the saved files the current setting. or queries the current setting. Syntax :FILE[:DIRectory]:FILTer {ITEM|ALL} Syntax :FILE:SAVE:ANAMing :FILE[:DIRectory]:FILTer? {DATE|NUMBering|OFF} Example :FILE:DIRECTORY:FILTER ITEM :FILE:SAVE:ANAMing?
Page 106 6.10 FILE Group :FILE:SAVE:{ASCii|BINary|FLOat} :TRACe Function Sets the waveform to be saved or queries the current setting. Syntax :FILE:SAVE:{ASCii|BINary|FLOat}: TRACe{ALL|<NRf>|MATH[<x>]|PODA|PODB} :FILE:SAVE:{ASCii|BINary|FLOat}: TRACe? <NRf>=1 to 16 <x> of MATH<x>=1 to 8 Example :FILE:SAVE:ASCII:TRACE 1 :FILE:SAVE:ASCII:TRACE? -> :FILE:SAVE:ASCII:TRACE 1 :FILE:SAVE:ASCii:INTerval Function Sets the decimation interval for saving data or queries the current setting.
Page 107: Hcopy Group
6.11 HCOPy Group 6.11 HCOPy Group The commands in this group deal with the printing of screen image to the built-in printer and other printers. You can make the same settings, execute the same operations, and make the same inquiries as when you press the MENU key >...
Page 108 6.11 HCOPy Group AUTHor <Space> <String> COLor <Space> <NRf> COMPression <Space> <NRf> DPPag e <Space> <NRf> KEYWord <Space> <String> ORIentation <Space> LANDscape PORTrate PSIZe <Space> BUILtin TITLe <Space> <String> SUBTitle <Space> <String> SAVE ANAMing <Space> DATE NUMBering CDIRector y <Space> <String>...
Page 109 6.11 HCOPy Group PRINter FEED <Space> <NRf> RANGe <Space> <NRf> <NRf> RATE <Space> <Time> MIN 1 MIN 5 MIN 10 MIN 20 MIN 30 MIN 50 MIN 100 HOUR 1 HOUR 2 HOUR 5 HOUR 10 HOUR 20 HOUR 30 HOUR 50 HOUR 100 DAY 5...
Page 110 6.11 HCOPy Group GDLight <Space> DARK LIGHt GWIDth <Space> DIV1 MM10 SCALe <Space> MM200 MM400 MM800 CHLabel <Space> MM200 MM400 MM800 TIME <Space> MM200 MM400 MM800 GAUGe <Space> FINE <NRf> ANNotation <Space> MM200 MM400 MM800 ANTYpe <Space> INFormation CHMessage CHData CHANnel <x>...
Page 111 6.15 HCOPy Group MESSAGE "";:HCOPY:PSETUP:CHANNEL8: :HCOPy? (Hard COPY) MESSAGE "";:HCOPY:PSETUP:CHANNEL9: Function Queries all settings related to the printing of MESSAGE "";:HCOPY:PSETUP:CHANNEL10: screen images. MESSAGE "";:HCOPY:PSETUP:CHANNEL11: Syntax :HCOPy? MESSAGE "";:HCOPY:PSETUP:CHANNEL12: Example :HCOPY? -> :HCOPY: MESSAGE "";:HCOPY:PSETUP:CHANNEL13: DIRECTION PRINTER;PRINTER: MESSAGE "";:HCOPY:PSETUP:CHANNEL14: TYPE NORMAL;RANGE -5.0000000, MESSAGE "";:HCOPY:PSETUP:CHANNEL15: 5.0000000;:HCOPY:COMMENT "";...
Page 112 6.11 HCOPy Group :HCOPy:EXTPrinter:PRINter? :HCOPy:NETPrint:TYPE Function Outputs the addresses of all the printers that Function Sets the output format and output resolution for are currently connected. printing to the network printer or queries the Syntax :HCOPy:EXTPrinter:PRINter? current setting. Syntax :HCOPy:NETPrint:TONE {BJ, Example (The following is an example when printers are <NRf>|ESCP|LIPS|PCL5|ESCP2|PSCRipt}...
Page 113 6.11 HCOPy Group :HCOPy:PDF:KEYWord :HCOPy:PDF:SAVE:CDIRectory Function Sets the keyword of the PDF file or queries the Function Changes the save destination directory. current setting. Syntax :HCOPy:PDF:SAVE: Syntax :HCOPy:PDF:KEYWord {<String>} CDIRectory {<String>} :HCOPy:PDF:KEYWord? <String>=Up to 16 characters <String>=Up to 90 characters Example :HCOPY:PDF:SAVE:CDIRECTORY "NO_1"...
Page 114 6.11 HCOPy Group :HCOPy:PRINter:MAG :HCOPy:PSETup? Function Sets the magnification for fine print (long) or Function Queries all settings related to the print setting of zoom print when making measurements using the screen image. an external clock or queries the current setting. Syntax :HCOPy:PSETup? Syntax...
Page 115 6.11 HCOPy Group :HCOPy:PSETup:FEED :HCOPy:PSETup:FLEXiblezone:MODE Function Turns ON/OFF the paper feed function after Function Turns ON/OFF the flexible zone area when stopping the recording or queries the current printing with the display format set to Single or setting. queries the current setting. Syntax :HCOPy:PSETup:FEED {<Boolean>} Syntax...
Page 116 6.11 HCOPy Group :HCOPy:PSETup:GWIDth :HCOPy:PSETup:ANTYpe Function Sets the print graticule width of the vertical axis Function Sets the annotation content for waveform or queries the current setting. printing or queries the current setting. Syntax :HCOPy:PSETup:GWIDth {DIV1|MM10} Syntax :HCOPy:PSETup:ANTYpe {INFormation| :HCOPy:PSETup:GWIDth? CHMessage|CHData} Example :HCOPY:PSETUP:GWIDTH DIV1...
Page 117: History Group
6.12 HISTory Group 6.12 HISTory Group The commands in this group deal with data loading from the history memory. You can make the same settings, execute the same operations, and make the same inquiries as when the HISTORY key on the front panel is used. :HISTor y ABORt CLEar...
Page 118 6.12 HISTory Group ZONE EDIT <x> CONDition <Space> HORizontal <Space> <NRf> <NRf> SOURce <Space> <NRf> VERTical <Space> <NRf> <NRf> LOGic <Space> TYPE Setting <Parameter> <Space> <Voltage> <Voltage> DONTcare DONTcare <Voltage> when <Parameter> is AMPLitude, AVERage, HIGH, LOW, MAXimum, MIDDle, MINimum, PTOPeak, RMS, or SDEViation (except when using a current probe, then it is <Current>.
Page 119 6.12 HISTory Group :HISTory? :HISTory:PARameter? Function Queries all settings related to the history Function Queries all settings related to the history search memory function. (waveform parameter). Syntax :HISTory? Syntax :HISTory:PARameter? Example :HISTORY? -> :HISTORY:RECORD 0; Example :HISTORY:PARAMETER? -> :HISTORY DMODE ONE;DISPLAY 0,0;SMODE 0;ZONE: :PARAMETER:ITEM1:CONDITION OFF;...
Page 120 6.12 HISTory Group :HISTory:PARameter:ITEM<x>:TYPE: :HISTory:PARameter:TRANge <Parameter> Function Sets the range over which to perform the parameter search or queries the current setting. Function Sets the parameter and the upper and lower Syntax :HISTory:PARameter:TRANge limits of each parameter of the history search {<NRf>,{NRf}} (waveform parameter) or queries the current :HISTory:PARameter:TRANge?
Page 121 6.12 HISTory Group :HISTory:ZONE? :HISTory:ZONE:EDIT<x>:SOURce Function Queries all settings related to the zone search. Function Sets the source waveform of the zone search or Syntax :HISTory:ZONE? queries the current setting. Example :HISTORY:ZONE? -> :HISTORY:ZONE: Syntax :HISTory:ZONE:EDIT<x> EDIT1:CONDITION OFF;SOURCE 1; :SOURce {<NRf>} HORIZONTAL 0.50,-0.50;...
Page 122: Image Group
6.13 IMAGe Group 6.13 IMAGe Group The commands in this group deal with the saving of screen image data. You can make the same settings, execute the same operations, and make the same inquiries of settings as when you press the MENU key > IMAGE soft key on the front panel.
Page 123 6.13 IMAGe Group :IMAGe? :IMAGe:SAVE:CDIRectory Function Queries all settings related to the saving of Function Changes the save destination directory. screen image data. Syntax :IMAGe:SAVE:CDIRectory <String> Syntax :IMAGe? <String>=Up to 16 characters Example :IMAGE? -> :IMAGE:FORMAT BMP; Example :IMAGE:SAVE:CDIRECTORY “NO_1” TONE COLOR;COMMENT “”;SAVE: :IMAGe:SAVE:DRIVe ANAMING DATE;NAME “ABC”;:IMAGE:...
Page 124: Initialize Group
6.14 INITialize Group 6.14 INITialize Group The commands in this group deal with initialization of settings. You can execute the same operation as when you press the MENU key > INITIALIZE/CAL soft key on the front panel. :INITializ e EXECute UNDO :INITialize:EXECute Function...
Page 125: Logic Group
6.15 LOGic Group 6.15 LOGic Group The commands in this group deal with the logic waveforms. You can make the same settings and inquiries as when you press the CH key > Logic A soft key or the CH key > Logic B soft key on the front panel. :LOGic PODA DISPlay...
Page 126 6.15 LOGic Group :LOGic? :LOGic:{PODA|PODB}:{BIT1|BIT2|BIT3| BIT4|BIT5|BIT6|BIT7|BIT8}:DISPlay Function Queries all settings related to the logic waveforms. Function Turns ON/OFF the display of the bit of the Syntax :LOGic? specified logic waveform or queries the current Example :LOGIC? -> :LOGIC:PODA: setting. POSITION 0.00;ZOOM 2.500; Syntax :LOGic:{PODA|PODB}:{BIT1|BIT2|BIT3| LABEL “LogicA”;BIT1:DISPLAY 0;...
Page 127: Lstart Group
6.15 LOGic Group/6.16 LSTart Group :LOGic:{PODA|PODB}:PROBe :LOGic:{PODA|PODB}:POSition Function Sets the logic probe or queries the current Function Sets the vertical position of the specified logic setting. waveform or queries the current setting. Syntax :LOGic:{PODA|PODB}:PROBe Syntax :LOGic:{PODA|PODB}:POSition {<NRf>} {P700986|P700987|P702911|P702912} :LOGic:{PODA|PODB}:POSition? :LOGic:{PODA|PODB}: PROBe? <NRf>=–5.00 to 5.00 (div, 0.01 div steps) Example :LOGIC:PODA:PROBE P700986...
Page 128: Math Group
6.17 MATH Group 6.17 MATH Group The commands in this group deal with computations. You can make the same settings and inquiries as when you press the MENU key > MATH soft key on the front panel. When the time axis is set to a range indicated below, the selectable range varies depending on the record length setting.
Page 129 6.17 MATH Group OPERation <Space> <NRf> <NRf> BINary DIVIde MINus MULTiple PLUS SHIFt SCALe MODE <Space> AUTO MANual VALue <Space> <NRf> <NRf> SHIFt CHANnel <x> <Space> <Time> MATH <x> <Space> <Time> UNIT <Space> <String> :MATH<x>? CHANNEL2 0.0E+00;CHANNEL3 0.0E+00; CHANNEL4 0.0E+00;CHANNEL5 0.0E+00; Function Queries all settings related to the computation.
Page 130 6.17 MATH Group :MATH<x>:BINary? :MATH<x>:FFT? Function Queries all settings related to the binary Function Queries all settings related to the FFT computation. computation. Syntax :MATH<x>:BINary? Syntax :MATH<x>:FFT? <x>=1 to 8 <x>=1 to 8 Example :MATH1:BINARY:CHANNEL1 Example :MATH1:FFT? -> :MATH1:FFT: 0.0E+00,0.0E+00; POINTS 1000;WINDOW HANNING CHANNEL2 0.0E+00,0.0E+00;...
Page 131 6.17 MATH Group :MATH<x>:OPERation :MATH<x>:SHIFt:{CHANnel<x>|MATH<x>} Function Sets the computation details or queries the Function Sets the phase offset of shift computation of the current setting. waveform measured with an internal clock or Syntax :MATH<x>:OPERation {PLUS|MINus| queries the current setting. MULTiple|BINary|DIVIde|SHIFt|PS| Syntax :MATH<x>:SHIFt:{CHANnel<x>|MATH<x>} OFF}[,{<NRf>|MATH<x>}[,{<NRf>|...
Page 132: Measure Group
6.18 MEASure Group 6.18 MEASure Group The commands in this group deal with the automated measurement of waveform parameters. You can make the same settings and inquiries of settings and measured values as when the MEASURE key on the front panel is used. When the time axis is set to a range indicated below, the selectable range varies depending on the record length setting.
Page 133 6.18 MEASure Group UNIT <Space> <Voltage> <Voltage> <Voltage> <NRf> <NRf> <NRf> <Current> <Current> <Current> METHod <Space> AUTO MAXMin AMPLitude COUNt AVERage MAXimum AV GFreq MEAN AV GPeriod MINimum DUTYcycle FALL STAT e <Space> FREQuency HIGH <NRf> MAXimum SDEViation MIDDle VALue MINimum NOVershoot NWIDth...
Page 134 6.18 MEASure Group <Space> MODE <NRf> <Space> ONECycle <NRf> TRANg e <Space> <NRf> <NRf> WAIT <Space> <NRf> :MEASure? BWIDTH2:STATE 0;:MEASURE:CHANNEL2: DUTYCYCLE:STATE 0;:MEASURE:CHANNEL2: Function Queries all settings related to the automated FALL:STATE 0;:MEASURE:CHANNEL2: measurement of waveform parameters. FREQUENCY:STATE 0;:MEASURE:CHANNEL2: Syntax :MEASure? HIGH:STATE 0;:MEASURE:CHANNEL2:LOW: Example :MEASURE? ->...
Page 135 6.18 MEASure Group CHANNEL3:PERIOD:STATE 0;:MEASURE: HIGH:STATE 0;:MEASURE:CHANNEL5:LOW: CHANNEL3:PNUMBER:STATE 0;:MEASURE: STATE 0;:MEASURE:CHANNEL5:MAXIMUM: CHANNEL3:POVERSHOOT:STATE 0;: STATE 0;:MEASURE:CHANNEL5:MIDDLE: MEASURE:CHANNEL3:PTOPEAK:STATE 0;: STATE 0;:MEASURE:CHANNEL5:MINIMUM: MEASURE:CHANNEL3:PWIDTH:STATE 0;: STATE 0;:MEASURE:CHANNEL5: MEASURE:CHANNEL3:RISE:STATE 0;: NOVERSHOOT:STATE 0;:MEASURE: MEASURE:CHANNEL3:RMS:STATE 0;: CHANNEL5:NWIDTH:STATE 0;:MEASURE: MEASURE:CHANNEL3:SDEVIATION: CHANNEL5:PERIOD:STATE 0;:MEASURE: STATE 0;:MEASURE:CHANNEL3:TY1INTEG: CHANNEL5:PNUMBER:STATE 0;:MEASURE: STATE 0;:MEASURE:CHANNEL3:TY2INTEG: CHANNEL5:POVERSHOOT:STATE 0;: STATE 0;:MEASURE:CHANNEL3:XY1INTEG: MEASURE:CHANNEL5:PTOPEAK:STATE 0;:...
Page 136 6.18 MEASure Group AVGFREQ:STATE 0;:MEASURE:CHANNEL7: DPROXIMAL:MODE PERCENT; AVGPERIOD:STATE 0;:MEASURE:CHANNEL7: PERCENT 10.0,50.0,90.0; BWIDTH1:STATE 0;:MEASURE:CHANNEL7: UNIT -20000,0,20000;:MEASURE: BWIDTH2:STATE 0;:MEASURE:CHANNEL7: CHANNEL8:METHOD AUTO;:MEASURE: DUTYCYCLE:STATE 0;:MEASURE:CHANNEL7: CHANNEL9:AMPLITUDE:STATE 0;:MEASURE: FALL:STATE 0;:MEASURE:CHANNEL7: CHANNEL9:AVERAGE:STATE 0;:MEASURE: FREQUENCY:STATE 0;:MEASURE:CHANNEL7: CHANNEL9:AVGFREQ:STATE 0;:MEASURE: HIGH:STATE 0;:MEASURE:CHANNEL7:LOW: CHANNEL9:AVGPERIOD:STATE 0;:MEASURE: STATE 0;:MEASURE:CHANNEL7:MAXIMUM: CHANNEL9:BWIDTH1:STATE 0;:MEASURE: STATE 0;:MEASURE:CHANNEL7:MIDDLE: CHANNEL9:BWIDTH2:STATE 0;:MEASURE: STATE 0;:MEASURE:CHANNEL7:MINIMUM: CHANNEL9:DUTYCYCLE:STATE 0;:MEASURE:...
Page 137 6.18 MEASure Group CHANNEL10:TY2INTEG:STATE 0;:MEASURE: MEASURE:CHANNEL12:NWIDTH:STATE 0;: CHANNEL10:XY1INTEG:STATE 0;:MEASURE: MEASURE:CHANNEL12:PERIOD:STATE 0;: CHANNEL10:XY2INTEG:STATE 0;:MEASURE: MEASURE:CHANNEL12:PNUMBER:STATE 0;: CHANNEL10:DELAY:STATE OFF;MEASURE: MEASURE:CHANNEL12:POVERSHOOT: SLOPE RISE;COUNT 1;:MEASURE: STATE 0;:MEASURE:CHANNEL12:PTOPEAK: CHANNEL10:DELAY:REFERENCE: STATE 0;:MEASURE:CHANNEL12:PWIDTH: SOURCE TRACE;TRACE 10;SLOPE RISE; STATE 0;:MEASURE:CHANNEL12:RISE: COUNT 1;:MEASURE:CHANNEL10: STATE 0;:MEASURE:CHANNEL12:RMS: DPROXIMAL:MODE PERCENT; STATE 0;:MEASURE:CHANNEL12: PERCENT 10.0,50.0,90.0;...
Page 138 6.18 MEASure Group STATE 0;:MEASURE:MATH2:MAXIMUM: HIGH:STATE 0;:MEASURE:MATH4:LOW: STATE 0;:MEASURE:MATH2:MIDDLE: STATE 0;:MEASURE:MATH4:MAXIMUM: STATE 0;:MEASURE:MATH2:MINIMUM: STATE 0;:MEASURE:MATH4:MIDDLE: STATE 0;:MEASURE:MATH2:NOVERSHOOT: STATE 0;:MEASURE:MATH4:MINIMUM: STATE 0;:MEASURE:MATH2:NWIDTH: STATE 0;:MEASURE:MATH4:NOVERSHOOT: STATE 0;:MEASURE:MATH2:PERIOD: STATE 0;:MEASURE:MATH4:NWIDTH: STATE 0;:MEASURE:MATH2:PNUMBER: STATE 0;:MEASURE:MATH4:PERIOD: STATE 0;:MEASURE:MATH2:POVERSHOOT: STATE 0;:MEASURE:MATH4:PNUMBER: STATE 0;:MEASURE:MATH2:PTOPEAK: STATE 0;:MEASURE:MATH4:POVERSHOOT: STATE 0;:MEASURE:MATH2:PWIDTH: STATE 0;:MEASURE:MATH4:PTOPEAK: STATE 0;:MEASURE:MATH2:RISE: STATE 0;:MEASURE:MATH4:PWIDTH:...
Page 139 6.18 MEASure Group FREQUENCY:STATE 0;:MEASURE:MATH6: FALL:STATE 0;:MEASURE:MATH8: HIGH:STATE 0;:MEASURE:MATH6:LOW: FREQUENCY:STATE 0;:MEASURE:MATH8: STATE 0;:MEASURE:MATH6:MAXIMUM: HIGH:STATE 0;:MEASURE:MATH8:LOW: STATE 0;:MEASURE:MATH6:MIDDLE: STATE 0;:MEASURE:MATH8:MAXIMUM: STATE 0;:MEASURE:MATH6:MINIMUM: STATE 0;:MEASURE:MATH8:MIDDLE: STATE 0;:MEASURE:MATH6:NOVERSHOOT: STATE 0;:MEASURE:MATH8:MINIMUM: STATE 0;:MEASURE:MATH6:NWIDTH: STATE 0;:MEASURE:MATH8:NOVERSHOOT: STATE 0;:MEASURE:MATH6:PERIOD: STATE 0;:MEASURE:MATH8:NWIDTH: STATE 0;:MEASURE:MATH6:PNUMBER: STATE 0;:MEASURE:MATH8:PERIOD: STATE 0;:MEASURE:MATH6:POVERSHOOT: STATE 0;:MEASURE:MATH8:PNUMBER: STATE 0;:MEASURE:MATH6:PTOPEAK: STATE 0;:MEASURE:MATH8:PTOPEAK:...
Page 140 6.18 MEASure Group SLOPE RISE;COUNT 1;:MEASURE: :MEASure:{CHANnel<x>|MATH<x>}: CHANNEL1:DELAY:REFERENCE: DELay:{MAXimum|MEAN|MINimum| SOURCE TRACE;TRACE 1;SLOPE RISE; SDEViation}? COUNT 1;:MEASURE:CHANNEL1: Function Queries the statistical value of the delay DPROXIMAL:MODE PERCENT; between channels. PERCENT 10.0,50.0,90.0; Syntax :MEASure:{CHANnel<x>|MATH<x>} UNIT -150.000E+00,0.0E+00, :DELay:{MAXimum|MEAN| 150.000E+00;:MEASURE:CHANNEL1: MINimum|SDEViation}? METHOD AUTO <x> of CHANnel<x>=1 to 16 <x>...
Page 141 6.18 MEASure Group :MEASure:{CHANnel<x>|MATH<x>} :MEASure:{CHANnel<x>|MATH<x>} :DELay:REFerence:TRACe :DELay:REFerence? Function Sets the trace of the reference waveform of the Function Queries all settings of the reference waveform delay between channels. of the delay between channels. Syntax :MEASure:{CHANnel<x>|MATH<x>} Syntax :MEASure:{CHANnel<x>|MATH<x>} :DELay:REFerence:TRACe {<NRf>| :DELay:REFerence? MATH<x>} <x>...
Page 142 6.18 MEASure Group :MEASure:{CHANnel<x>|MATH<x>} :MEASure:{CHANnel<x>|MATH<x>} :DPRoximal? :DPRoximal:UNIT Function Queries all settings related to distal, mesial, and Function Sets the distal, mesial, and proximal points or proximal. queries the current setting. Syntax MEASure:{CHANnel<x>|MATH<x>} Syntax :MEASure:{CHANnel<x>|MATH<x>}: :DPRoximal? DPRoximal: UNIT{<Voltage>,<Voltage>,<Voltage>| <x> of CHANnel<x>=1 to 16 <x>...
Page 143 6.18 MEASure Group :MEASure:{CHANnel<x>|MATH<x>}: :MEASure:{CHANnel<x>|MATH<x>} <Parameter>:COUNt? :<Parameter>:STATe Function Queries the number of measured values of the Function Turns ON/OFF the waveform parameter of the cycle statistical processing of the parameter. waveform one by one or queries the current Syntax :MEASure:{CHANnel<x>|MATH<x>} setting.
Page 144 6.18 MEASure Group :MEASure:CDEStination:{CHANnel<x>| :MEASure:ONECycle MATH<x>} Function Turns ON/OFF the 1 cycle mode of the automated measurement of waveform Function Sets the channel to which the ON/OFF settings parameters or queries the current setting. of all measurement items of a certain channel Syntax :MEASure:ONECycle {<Boolean>} are to be copied or queries the current setting.
Page 145: Monitor Group
6.19 MONitor Group 6.19 MONitor Group The commands in this group deal with screen switching and numeric monitor output. :MONitor ASEND CHANnel <x> PODA PODB BYTeorder <Space> LSBFirst MSBFirst EXECute <Space> <NRf> FORMat <Space> BYTE WORD OFFSet CHANnel <x> RANGe CHANnel <x>...
Page 146 6.19 MONitor Group :MONitor:ASEND? :MONitor:EXECute Function Outputs the numeric monitor data (ASCII Function Executes the switching of the screen display. Syntax :MONitor:EXECute {<NRf>} format). Syntax :MONitor:ASEND? <NRf>=0 (trace information screen) Example :MONitor:ASEND? -> See the response 1 (wide screen) format below. 2 (numeric monitor) Example :MONITOR:EXECUTE 0...
Page 147 6.19 MONitor Group For voltage modules, the data can be converted When measuring RPMs on the frequency to voltage using the following equation. module, the following equation is used to make a conversion. Range × data × 10 Voltage = ————————— + Offset Range ×...
Page 148: Mtrigger Group
6.19 MONitor Group When measuring the pulse width on the frequency module, the following equation is used to make a conversion to time. Range × data × 10 Value = ————————— + Offset Division BYTE: Division = 93.75 WORD: Division = 24000 Range=The return value of :MONitor:RANGe? Offset=The return value of :MONitor:OFFSet? When performing pulse integration (PulseInteg)
Page 149: Recorder Group
6.21 RECorder Group 6.21 RECorder Group The commands in this group deal with realtime recording on the built-in printer. You can make the same settings, execute the same operations, and make the same inquiries as when you select Recorder mode or X-Y Recorder mode using the MODE key on the front panel.
Page 150 6.21 RECorder Group DIRection <Space> NORMal ROTation SAVE ANAMing <Space> DATE NUMBering CDIRector y <Space> <String> DRIVe <Space> SCSI <NRf> <NRf> <NRf> PCCard <NRf> NETWork <NRf> <NRf> <NRf> NAME <Space> <Filename> PA TH SRATe <Space> <Frequency> AUTO <Space> <NRf> PFONt <Space>...
Page 151 6.21 RECorder Group REPRint ABORt EXECute LENGth <Space> CONTinue A4PRint <Space> PRINter RANGe <Space> <NRf> <NRf> PRNMag <Space> <NRf> HOUR1 HOUR2 HOUR3 HOUR4 HOUR5 HOUR6 HOUR7 HOUR8 HOUR9 HOUR10 WINMag <Space> <NRf> HOUR1 HOUR2 HOUR3 HOUR4 HOUR5 HOUR6 HOUR7 HOUR8 HOUR9 HOUR10 WINPos...
Page 152 6.21 RECorder Group :RECorder? :RECorder:CHARt:PSTYle Function Queries all settings related to the recorder Function Sets the print style for Chart Recorder mode or mode. queries the current setting. Syntax :RECORDER? Syntax :RECorder:CHARt:PSTYle {WAVe| Example :RECORDER? -> :RECORDER:MODE OFF; NUMeric} CHART:PSTYLE WAVE;CSPEED PS10; :RECorder:CHARt:PSTYle SHOT OFF;PRINTEROUT 1;...
Page 153 6.21 RECorder Group :RECorder:CHARt:DIRection :RECorder:CHARt:SAVE:NAME Function Sets the print direction for numeric value Function Sets the name of the file to be saved or queries recording in Chart Recorder mode or queries the current setting. the current setting. Syntax :RECorder:CHARt:SAVE: Syntax :RECorder:CHARt:DIRection {NORMal| NAME <Filename>...
Page 154 6.21 RECorder Group :RECorder:XY:SRATe :RECorder:REPRint? Function Sets the sample rate for X-Y recorder mode or Function Queries all settings related to reprinting. Syntax :RECorder:REPRint? queries the current setting. Syntax :RECorder:XY:SRATe {<Frequency>} Example :RECORDER:REPRINT? -> :RECorder:XY:SRATe? :RECORDER:REPRINT:PTO PRIN; RANGE -5.0000000,5.0000000; <Frequency>=5 Hz, 10 Hz, 20 Hz, 50 Hz, 100 PRNMAG 1.000E+00;WINMAG 1.000E+00;...
Page 155: Snap Group
6.21 RECorder Group/6.22 SNAP Group/6.23 SSTart Group :RECorder:REPRint:WINMag :RECorder:REPRint:WINPos Function Sets the magnification of the section to be Function Sets the zoom position of the section to be reprinted or queries the current setting. reprinted or queries the current setting. Syntax :RECorder:REPRint:WINMag {<Time>| Syntax...
Page 156: Start Group
6.24 STARt Group/6.25 STATus Group 6.24 STARt Group The command in this group is used to start the waveform acquisition. You can execute the same operation as the START/STOP key on the front panel. :STARt :STARt Function Starts the waveform acquisition. Syntax :STARt Example...
Page 157: Stop Group
6.25 STATus Group/6.26 STOP Group :STATus:EESE (Extended Event Status :STATus:QENable Enable register) Function Sets whether or not to store messages other than errors to the error queue (ON/OFF) or Function Sets the extended event enable register or queries the current setting. queries the current setting.
Page 158: System Group
6.27 SYSTem Group 6.27 SYSTem Group The commands in this group deal with the system. You can make the same settings and inquiries as when you press the MENU key > System Config soft key on the front panel. :SYSTem <Space>...
Page 159 6.27 SYSTem Group TIME <Space> <Time> BRIGhtness <Space> <NRf> MODE <Space> <NRf> MLANuage <Space> JAP A Nese ENGLish CHINese KOREan FRENch GERMan ITALian OVERview PA CTion <Space> <NRf> PSTar t <Space> <NRf> SCALefont <Space> SMALl LARGe SCSI INITializ e INTernalid <Space>...
Page 160 6.27 SYSTem Group :SYSTem? :SYSTem:CLOCk:TYPE Function Queries all settings related to the system. Function Sets whether to set the date/time manually or Syntax :SYSTem? by using SNTP or queries the current setting. Example :SYSTEM? -> :SYSTEM:SCSI: Syntax :SYSTem:CLOCk:TYPE {MANual|SNTP} INTERNALID 4;OWNID 6;:SYSTEM:CLOCK: :SYSTem:CLOCk:TYPE? MODE 1;DATE “2002/06/07”;...
Page 161 6.27 SYSTem Group :SYSTem:LCD:AUTO:TIME :SYSTem:SCALefont Function Sets the auto off time of the LCD backlight or Function Sets the display size, large or small, of the queries the current setting. scale values and waveform labels or queries Syntax :SYSTem:LCD:AUTO:TIME {<NRf>} the current setting.
Page 162: Timebase Group
6.28 TIMebase Group 6.28 TIMebase Group The commands in this group deal with the time base. You can make the same settings and inquiries as when you use the TIME/DIV knob on the front panel. :TIMebase SOURce <Space> EXTernal INTernal SRATe <Space>...
Page 163: Trigger Group
6.28 TIMebase Group/6.29 TRIGger Group :TIMebase:SRATe? (Sample RATE) Function Queries the sample rate. Syntax :TIMebase:SRATe? Example :TIMEBASE:SRATE? -> :TIMEBASE: SRATE 10.0E+06 6.29 TRIGger Group The commands in the trigger group deal with the trigger. You can make the same settings and inquiries as when you press the MENU key >...
Page 164 6.29 TRIGger Group ACTion COUNt <Space> <NRf> INFinite BUZZer <Space> <NRf> HCOPy <Space> <NRf> IMAGe <Space> <NRf> MAIL COUNt <Space> <NRf> MODE <Space> <NRf> MODE <Space> STOP SAVE MODE <Space> <NRf> TYPE <Space> BINar y ASCii FLOat SEQuence <Space> SINGle CONTinue DELay <Space>...
Page 165 6.29 TRIGger Group ATRigger CHANnel <x> <Space> DONTcare BTRigger HIGH CONDition <Space> ENTer EXIT LOGic <Space> DONTcare HIGH PODA <Space> DISable ENABle PODB <Space> DISable ENABle BGTime TIME <Space> <Time> BLTime BTOut DELay <Space> <Time> 6-125 IM 701240-17E...
Page 166 6.29 TRIGger Group CHANnel <x> <Space> FALL RISE CONDition <Space> TRUE FALSe PODA <Space> DISable ENABle PODB <Space> DISable ENABle HOLDoff TIME <Space> <Time> MODE <Space> AUTO ALEVel NORMal SINGle NSINgle REPeat CHANnel <x> <Space> FALL RISE PODA <Space> DISable ENABle PODB <Space>...
Page 167 6.29 TRIGger Group SOURce CHANnel <x> HYSTeresis <Space> HIGH MIDDle LEVel <Space> <Voltage> <NRf> <Current> CENTer <Space> <Voltage> <NRf> <Current> WIDTh <Space> <Voltage> <NRf> <Current> WWIDTh <Space> <Voltage> <NRf> <Current> LOGic <Space> DONTcare FALL RISE 6-127 IM 701240-17E...
Page 168 6.29 TRIGger Group TGTime TIME <Space> <Time> TIMer DATE <Space> <String> INTer val <Space> MIN1* TIME <Space> <String> TITime TIME <x> <Space> <Time> TLTime TIME <Space> <Time> TOTime TIME <x> <Space> <Time> TYPE <Space> BLTime BGTime BTOut WINdow SIMPle TGTime TLTime TITime TOTime...
Page 169 6.29 TRIGger Group WINDow CHANnel <x> <Space> PODA <Space> DISable ENABle PODB <Space> DISable ENABle CHANnel <x> <Space> WWINdow FREQuency <Space> <Frequency> REFCycle <Space> <NRf> SYNC HYSTeresis <Space> HIGH MIDDle LEVel <Space> <Voltage> <NRf> <Current> TRACe <Space> AUTO <NRf> Select MIN2, MIN3, MIN4, MIN5, MIN6, MIN7, MIN8, MIN9, MIN10, MIN15, MIN20, MIN25, MIN30, MIN40, MIN45, MIN50, HOUR1, HOUR2, HOUR3, HOUR4, HOUR5, HOUR6, HOUR7, HOUR8, HOUR9, HOUR10, HOUR10, HOUR12, HOUR18, or HOUR24 6-129...
Page 170 6.29 TRIGger Group :TRIGger? CENTER 0.0E+00;WIDTH 5.000E+00;: Function Queries all settings related to the trigger. TRIGGER:SOURCE:CHANNEL6: Syntax :TRIGger? LEVEL 0.0E+00;WWIDTH 50.000E-03; Example :TRIGGER? -> :TRIGGER:ACTION:MODE 0; HYSTERESIS LOW;CENTER 0.0E+00; HCOPY 0;IMAGE 0;SAVE 0;BUZZER 0; WIDTH 5.000E+00;:TRIGGER:SOURCE: MAIL:MODE 0;COUNT 100;:TRIGGER: CHANNEL7:LEVEL 0;WWIDTH 1; ACTION:SEQUENCE CONTINUE;:TRIGGER: HYSTERESIS LOW;CENTER 0;WIDTH 1;: SIMPLE:SOURCE 16;LEVEL 0.0E+00;...
Page 171 6.29 TRIGger Group B6 DONTCARE;B7 DONTCARE; :TRIGger:ACTion:IMAGe B8 DONTCARE;:TRIGGER:BTRIGGER: Function Sets whether or not to save the screen image to CONDITION ENTER;:TRIGGER: the external storage medium when action is DELAY 0.0E+00;POSITION 50.000; activated or queries the current setting. SCOUNT 2 Syntax :TRIGger:ACTion:IMAGe {<Boolean>} :TRIGger:ACTion:IMAGe?
Page 172 6.29 TRIGger Group :TRIGger:ACTion:SAVE:TYPE :TRIGger:ATRigger:CHANnel<x> Function Sets the data type for saving waveform data Function Sets the channel condition of condition A or when an action is activated or queries the queries the current setting. Syntax :TRIGger:ATRigger:CHANnel<x> current setting. Syntax :TRIGger:ACTion:SAVE:TYPE {DONTcare|HIGH|LOW} {ASCii|BINary|FLOat}...
Page 173 6.29 TRIGger Group :TRIGger:BGTime? :TRIGger:BTRigger? Function Queries all settings related to the B>Time Function Queries all settings related to condition B. trigger. Syntax :TRIGger:BTRigger? Syntax :TRIGger:BGTime? Example :TRIGGER:BTRIGGER? -> :TRIGGER: Example :TRIGGER:BGTIME? -> BTRIGGER:CHANNEL1 DONTCARE; :TRIGGER:BGTIME:TIME 100.000E-09 CHANNEL2 HIGH;CHANNEL3 DONTCARE; CHANNEL4 DONTCARE;CHANNEL5 DONTCARE;...
Page 174 6.29 TRIGger Group :TRIGger:BTRigger:LOGic: :TRIGger:EOA:{PODA|PODB} {A1~A8|B1~B8} Function Sets the logic condition of the Edge on A trigger or queries the current setting. Function Sets the logic bit of condition B or queries the Syntax :TRIGger:EOA:{PODA|PODB} current setting. {DISable|ENABle} Syntax :TRIGger:BTRigger:LOGic:{A1~A8| :TRIGger:EOA:{PODA|PODB}? B1~B8} {DONTcare|HIGH|LOW} Example...
Page 175 6.29 TRIGger Group :TRIGger:OR:CHANnel<x> :TRIGger[:SIMPle]:LEVel Function Sets the channel condition of the OR trigger or Function Sets the trigger level of the channel specified queries the current setting. using TRIGger[:SIMPle]: Syntax :TRIGger:OR:CHANnel<x> SOURce for the simple trigger or queries the {OFF|FALL|RISE} current setting.
Page 176 6.29 TRIGger Group :TRIGger:SIMPle:SOURce :TRIGger:SOURce:CHANnel<x>? Function Sets the trigger source of the simple trigger Function Queries all settings related to the trigger source search level or queries the current setting. of the specified channel of the enhanced Syntax :TRIGger:SIMPle:SOURce trigger. {<NRf>|EXTernal|LINE|TIME|PODA|PODB} Syntax :TRIGger:SOURce:CHANnel<x>?
Page 177 6.29 TRIGger Group :TRIGger:SOURce:CHANnel<x>:WIDTh Syntax :TRIGger:TIMer? Example :TRIGGER:TIMER? -> :TRIGGER:TIMER: Function Sets the width of the window trigger or queries DATE “99/01/01”;TIME “00:00:00”; the current setting. INTERVAL HOUR1 Syntax :TRIGger:SOURce:CHANnel<x> :WIDTh {<Voltage>|<NRf>|<Current>} :TRIGger:TIMer:DATE :TRIGger:SOURce:CHANnel<x>:WIDTh? <x>=1 to 16 Function Sets the date of the timer trigger or queries the {<Voltage>|<NRf>|<Current>}=The selectable current setting.
Page 178 6.29 TRIGger Group :TRIGger:TLTime:TIME :TRIGger:WINDow:{PODA|PODB} Function Sets the pulse width of the T<Time trigger or Function Sets the logic condition of the window trigger or queries the current setting. queries the current setting. Syntax :TRIGger:TLTime:TIME {<Time>} Syntax :TRIGger:WINDow:{PODA|PODB} :TRIGger:TLTime:TIME? {DISable|ENABle} :TRIGger:WINDow:{PODA|PODB}? <Time>=100 ns to 10 s Example...
Page 179 6.29 TRIGger Group :TRIGger:WWINdow:SYNC:HYSTeresis Function Sets the hysteresis of the synchronization channel of the wave window trigger or queries the current setting. Syntax :TRIGger:WWINdow:SYNC:HYSTeresis {HIGH|LOW|MIDDle} :TRIGger:WWINdow:SYNC:HYSTeresis? Example :TRIGGER:WWINDOW:SYNC: HYSTERESIS HIGH :TRIGGER:WWINDOW:SYNC:HYSTERESIS? -> :TRIGGER:WWINDOW:SYNC: HYSTERESIS HIGH :TRIGger:WWINdow:SYNC:LEVel Function Sets the level of the synchronization channel of the wave window trigger or queries the current setting.
Page 180: Waveform Group
6.30 WAVeform Group 6.30 WAVeform Group The commands in this group deal with the acquired waveform data. There are no front panel keys that correspond to the commands in this group. :WAV eform BITS BYTeorder <Space> LSBFirst MSBFirst DATaselect <Space> ACQData PPData <Space>...
Page 181 6.30 WAVeform Group :WAVeform? :WAVeform:LENGth? Function Queries all information about the waveform Function Queries the total number of points of the data. waveform (main waveform) specified by Syntax :WAVeform? :WAVeform:TRACe. Example :WAVEFORM? -> :WAVEFORM:TRACE 2; Syntax :WAVeform:LENGth? RECORD 0;START 0;END 0; Example :WAVEFORM:LENGTH? ->...
Page 182 6.30 WAVeform Group :WAVeform:RECord module, the data is output as <NRf>,<NRf>,...,<NRf>. Function Sets the target record number of the main When measuring the power frequency waveform for the commands in the WAVeform (PowerFreq) on the frequency module, the group or queries the current setting. data is output as Syntax :WAVeform:RECord {MINimum|<NRf>}...
Page 183 6.30 WAVeform Group When measuring the period on the frequency For computed waveforms, the data can be module, the following equation is used to converted using the following equation. make a conversion to time. Range × data × 10 Range × data × 10 Value = ———————————...
Page 184 6.30 WAVeform Group :WAVeform:TRIGger? When measuring velocity on the frequency module, the following equation is used to Function Queries the trigger position of the record make a conversion. specified by :WAVeform:RECord. Syntax :WAVeform:TRIGger? Range × data × 10 Example :WAVEFORM:TRIGGER? -> :WAVEFORM: Value = ——————————...
Page 185: Xy Group
6.31 XY Group 6.31 XY Group The commands in this group deal with the XY display. You can make the same settings and inquiries as when you press the DISPLAY on the front panel. <x> MODE <Space> TY_XY TRANg e <Space>...
Page 186 6.31 XY Group :XY<x>:YTRace Function Sets the channel to assign to the Y-axis of the X-Y display or queries the current setting. Syntax :XY<x>:YTRace {<NRf>|MATH<x>} :XY<x>:YTRace? <x> of XY<x>=1 to 4 <NRf>=1 to 16 <x> of MATH<x>=1 to 8<x> Example :XY1:YTRACE 1 :XY1:YTRACE? ->...
Page 187: Zoom Group
6.32 ZOOM Group 6.32 ZOOM Group The commands in this group deal with the ZOOM display. You can make the same settings and inquiries as when ZOOM on the front panel is used. When the time axis is set to a range indicated below, the selectable range varies depending on the record length setting.
Page 188 6.32 ZOOM Group MLINkage <Space> <NRf> MODE <Space> MAIN MAIN_Z1 MAIN_Z2 MAIN_Z1_Z2 Z1_Z2 MOVE <Space> PLINkage <Space> <NRf> POSition <x> <Space> <NRf> RATE <x> <Space> <Time> MIN 1 MIN 5 MIN 10 MIN 20 MIN 30 MIN 50 MIN 100 HOUR 1 HOUR 2 HOUR 5...
Page 189 6.32 ZOOM Group :ZOOM? :ZOOM:ASCRoll:DIRection Function Queries all settings related to the waveform Function Sets the scroll direction of the auto scroll zoom. function or queries the current setting. Syntax :ZOOM? Syntax :ZOOM:ASCRoll:DIRection {LEFT| Example :ZOOM? -> :ZOOM:MODE MAIN_Z1; RIGHT} FORMAT MAIN;ALLOCATION:CHANNEL1 1;...
Page 190 6.32 ZOOM Group :ZOOM:MODE Function Sets the zoom waveform display format or queries the current setting. Syntax :ZOOM:MODE {MAIN|MAIN_Z1|MAIN_Z2| MAIN_Z1_Z2|Z1_Z2|Z1|Z2} :ZOOM:MODE? Example :ZOOM:MODE MAIN_Z1_Z2 :ZOOM:MODE? -> :ZOOM:MODE MAIN_Z1_Z2 :ZOOM:MOVE Function Moves the zoom box to the beginning of the waveform. Syntax :ZOOM:MOVE {Z1|Z2} Example...
Page 191: Common Command Group
6.33 Common Command Group 6.33 Common Command Group The commands in the common group are defined in the IEEE 488.2-1987 and are independent of the instrument’s functions. There are no front panel keys that correspond to the commands in this group. *CAL *CLS *ESE...
Page 192 BVALUE 0.00000E+00;P1X 0.00000E+00; Function Queries the instrument model. P1Y 0.00000E+00;P2X 1.00000E+00; Syntax *IDN? P2Y 1.00000E+00;UNIT ""; Example *IDN? -> YOKOGAWA,701240,0,F1.10 DISPLAYTYPE:MODE EXPONENT; Description The information is returned in the following DECIMALNUM AUTO;SUBUNIT AUTO;: form: <Manufacturer>,<Model>,<Serial CHANNEL4:VOLTAGE:ZOOM 1.000; No.>,<Firmware version> INVERT 0;OFFSET 0.0E+00;:CHANNEL4: In actuality, <Serial No.>...
Page 193 6.33 Common Command Group LOGIC:PODA:BIT6:DISPLAY 1; HYSTERESIS LOW;CENTER 0.0E+00; LABEL "A-6";:LOGIC:PODA:BIT7: WIDTH 50.000E+00;:TRIGGER:SOURCE: DISPLAY 1;LABEL "A-7";:LOGIC: LOGIC:A1 RISE;A2 DONTCARE; PODA:BIT8:DISPLAY 1;LABEL "A-8";: A3 DONTCARE;A4 DONTCARE;A5 DONTCARE; LOGIC:PODA:BMAPPING AUTO;:LOGIC: A6 DONTCARE;A7 DONTCARE;A8 DONTCARE; PODB:DISPLAY 0;POSITION 0.00; B1 DONTCARE;B2 DONTCARE;B3 DONTCARE; ZOOM 1.000;LABEL "LogicB";BIT1: B4 DONTCARE;B5 DONTCARE;B6 DONTCARE;...
Page 194 6.33 Common Command Group *OPT? (OPTion) *STB? (STatus Byte) Function Queries the installed options. Function Queries the status byte register. Syntax *OPT? Syntax *STB? Example *OPT? -> CH25MW,PCCARD,HD,ETHER, Example *STB? -> 4 USERDEFINE,PROBEPOWER Description • The sum of the bits is returned as a decimal Description •...
Page 195: Chapter 7 Status Report
7.1 Overview of the Status Report Chapter 7 Status Report 7.1 Overview of the Status Report Status Report The figure below shows the status report which is read by a serial poll. This is an extended version of the one specified in IEEE 488.2-1992.
Page 196: Status Byte
7.1 Overview of the Status Report/7.2 Status Byte 7.2 Status Byte Overview of Registers and Queues Name Function Writing Reading Overview of Status Byte Status byte — Serial poll (RQS), *STB?(MSS) 6 ESB MAV EES EAV 1 Service request Masks status byte. *SRE *SRE? enable register Standard event Change in device —...
Page 197: Standard Event Register
7.2 Status Byte/7.3 Standard Event Register 7.3 Standard Event Register Operation of the Status Byte A service request is issued when bit 6 of the status Overview of the Standard Event Register byte becomes "1." Bit 6 becomes "1" when any of the other bits becomes "1"...
Page 198: Extended Event Register
7.3 Standard Event Register/7.4 Extended Event Register Operation of the Standard Event Register Reading from the Standard Event Register The standard event register is provided for eight The contents of the standard event register can be read by the *ESR command. After completion of the different kinds of event which can occur inside the instrument.
Page 199: Output Queue And Error Queue
7.5 Output Queue and Error Queue 7.5 Output Queue and Error Queue Overview of the Output Queue The output queue is provided to store response messages to queries. For example, when the :WAVeform:SEND? query is sent to request output of the acquired waveform, the response data will be stored in the output queue until it is read out.
Page 200: Chapter 8 Sample Program
8.1 Before Programming Chapter 8 Sample Program Notes on Use of the Sample Program Yokogawa shall accept no responsibility whatsoever for any problems occurring as a result of use of the sample program. 8.1 Before Programming Environment Model: MS-DOS/V Computer Language: Visual Basic Version 6.0 Professional Edition or higher...
Page 201: Image Of Sample Program
8.2 Image of Sample Program 8.2 Image of Sample Program IM 701240-17E...
Page 202: Initialize/Error/Execute
8.3 Initialize/Error/Execute 8.3 Initialize/Error/Execute ---------------------------------------------------------------------------------------- Option Explicit Dim StartFlag As Integer 'Start Flag Dim TimerCount As Integer 'Timeout(RS232) Dim addr As Integer 'GPIB Address Dim Timeout As Integer 'Timeout Dim Dev As Integer 'Device ID(GPIB) Dim CtsFlag As Integer 'CTS Flag Dim term As String 'Terminator Dim Query(3) As String...
Page 203 8.3 Initialize/Error/Execute ElseIf (ern = EOIP) Then ers = "EOIP:I/O operation started before previous operation completed" ElseIf (ern = ECAP) Then ers = "ECAP:No capability for intended operation" ElseIf (ern = EFSO) Then ers = "EFSO:File system operation error" ElseIf (ern = EBUS) Then ers = "EBUS:GPIB bus error"...
Page 204 8.3 Initialize/Error/Execute End If StartFlag = 1 Text1.Text = "START" List1.Clear sts = RS232Rectime 'Run Sample4(RS232) Set/Get TDIV If (sts = 0) Then List1.AddItem Query(0) End If Text1.Text = "END" StartFlag = 0 End Sub Private Sub Command5_Click() Dim sts As Integer If (StartFlag = 1) Then Exit Sub End If...
Page 205: Sets/Queries The Record Time
8.4 Sets/Queries the Record Time 8.4 Sets/Queries the Record Time Sample1(GPIB) Set/Get RECTIME ---------------------------------------------------------------------------------------- Private Function GpibRectime() As Integer Dim msg As String 'Command buffer Dim qry As String 'Query buffer Dim sts As Integer msg = Space$(100) qry = Space$(100) sts = InitGpib 'Initialize GPIB If (sts <>...
Page 206 8.4 Sets/Queries the Record Time msg = "TIMEBASE:RECTIME?" + term 'Get Rectime value MSComm1.Output = msg 'Send Command TimerCount = 1 'Wait until OutBufferCount = 0 Dummy = DoEvents() If (TimerCount >= Timeout) Then Call DIsplayRS232Error("Send Timeout", msg) RS232Rectime = 1 GoTo finish End If Loop Until MSComm1.OutBufferCount = 0...
Page 207: Data Output In Word Format (2 Bytes)
8.5 Data Output in Word Format (2 bytes) 8.5 Data Output in Word Format (2 bytes) Sample2(GPIB) Get Word Data ---------------------------------------------------------------------------------------- Private Function GpibGetWord() As Integer Dim msg As String 'Command buffer Dim qry As String 'Query buffer Dim sts As Integer Dim vdv As Variant 'Vdiv value Dim ofs As Variant...
Page 208 8.5 Data Output in Word Format (2 bytes) If (sts < 0) Then Call DisplayGPIBError(sts, msg) GpibGetWord = 1 Exit Function End If sts = ilrd(Dev, qry, Len(qry)) If (sts < 0) Then Call DisplayGPIBError(sts, msg) GpibGetWord = 1 Exit Function End If ofs = Val(qry) eos = 0...
Page 209 8.5 Data Output in Word Format (2 bytes) Exit Function End If MSComm1.InputLen = 0 'Receive All Data MSComm1.InputMode = comInputModeText 'Text Mode MSComm1.PortOpen = True 'Port Open MSComm1.OutBufferCount = 0 'Out Buffer Clear MSComm1.InBufferCount = 0 'In Buffer Clear Timer1.Interval = 1000 If CtsFlag = 1 Then 'If CTS = FALSE...
Page 210 8.5 Data Output in Word Format (2 bytes) End If Loop Until MSComm1.OutBufferCount = 0 msg = "WAVEFORM:START 0;END 1001" + term 'START 0,END 1001(Length = 1002) MSComm1.Output = msg TimerCount = 1 Dummy = DoEvents() If (TimerCount >= Timeout) Then Call DIsplayRS232Error("Send Timeout", msg) RS232GetWord = 1 GoTo finish...
Page 211 8.5 Data Output in Word Format (2 bytes) Dummy = DoEvents() If (TimerCount >= Timeout) Then Call DIsplayRS232Error("Receive Timeout", msg) RS232GetWord = 1 GoTo finish End If Loop qry = MSComm1.Input dlg = Val(Left$(qry, hlg)) 'leng% = Data Byte Length MSComm1.InputMode = comInputModeBinary MSComm1.InputLen = 2 'Receive Waveform Data(2 Byte)
Page 212 8.5 Data Output in Word Format (2 bytes) GP-IB RS-232 8-13 IM 701240-17E...
Page 213: Sets/Queries Measure Value
8.6 Sets/Queries Measure Value 8.6 Sets/Queries Measure Value Sample3(GPIB) Get Measure value ---------------------------------------------------------------------------------------- Private Function GpibGetMeasure() As Integer Dim msg As String 'Command buffer Dim qry As String 'Query buffer Dim sts As Integer Dim stp As Integer msg = Space$(100) qry = Space$(100) sts = InitGpib 'Initialize GPIB...
Page 214 8.6 Sets/Queries Measure Value msg = "MEASURE:CHANNEL1:AVERAGE:STATE ON" + term 'Measure Average On sts = ilwrt(Dev, msg, Len(msg)) If (sts < 0) Then Call DisplayGPIBError(sts, msg) GpibGetMeasure = 1 Exit Function End If msg = "MEASURE:CHANNEL1:FREQUENCY:STATE ON" + term 'Measure Frequency On sts = ilwrt(Dev, msg, Len(msg)) If (sts <...
Page 215 8.6 Sets/Queries Measure Value Query(1) = "Average:" + Left$(qry, ibcntl - 1) msg = "MEASURE:CHANNEL1:FREQUENCY:VALUE?" + term 'Get Freq value sts = ilwrt(Dev, msg, Len(msg)) If (sts < 0) Then Call DisplayGPIBError(sts, msg) GpibGetMeasure = 1 Exit Function End If sts = ilrd(Dev, qry, Len(qry)) If (sts <...
Page 216: Appendix
Appendix 1 ASCII Character Code Appendix Appendix 1 ASCII Character Codes ASCII character codes are given below. ‘ ” & ’ < > (RUBOUT) Address Universal Listener Talker Secondary Command Command Address Address Command Example octal GP-IB code ASCII character code hexadecimal decimal App-1...
Page 217: Error Messages
English when they are displayed on a personal computer. • When servicing is required, contact your nearest YOKOGAWA representative. • Only error messages relating to communications are given. For other error messages, refer to the User’s Manual IM 701240-01E .
Page 218 Appendix 2 Error Messages Error in Communication Execution (200 to 299) Code Message Action Reference Page Setting conflict. Check the relevant setting. Chapter 6 Data out of range. Check the setting range. Chapter 6 Too much data. Check the data byte length. Chapter 6 Illegal parameter value.
Page 219 Appendix 3 Overview of IEEE 488.2-1992 Appendix 3 Overview of IEEE 488.2-1992 The GP-IB interface provided with SL1400 conforms to IEEE 488.2-1992. This standard requires the following 23 points be stated in this document. This Appendix describes these points. 1 Subsets Supported by IEEE 488.1 Interface Functions Refer to Section 1.4 “GP-IB Interface Specifications”.
Page 220 Appendix 3 Overview of IEEE 488.2-1992 15 Maximum Length of Macro Label Used in Definition of Macro, Maximum Length of Block Data which can be Used for Definition of Macro, Processing when Recursion is Used in Definition of Macro Macro functions are not supported. 16 Response to *IDN? Refer to section 6.33, “Common Command Group”.
Page 221 Index Index Symbols Page Page #B ..................5-6 CALibrate group ..............6-21 #H ..................5-6 calibration .............. 6-21, 6-151 #Q ..................5-6 CCITT standard ..............2-4 *OPC command ..............5-8 center frequency ............... 6-33 *OPC? query ............... 5-8 channel ................6-29 *WAI command ..............
Page 222 Index date/time ................. 6-120 header interpretation ............5-4 DCL(Device Clear) .............. 1-6 high and low points ............6-102 dead lock ................5-2 HISTory group ..............6-77 deceleration prediction ............6-33 history memory ..............6-79 decimal ................5-5 history search ..............6-79 decimal place ............
Page 223 Index most recent point ............6-113 Page motor, ON/OFF of ............6-120 moving average order ............6-34 range over which to perform the parameter search ..6-80 MTRigger group .............. 6-108 range value ..............6-141 multi-line message .............. 1-7 RD ..................2-3 multiplier ................
Page 224 Index shot recording ..............6-112 transmission mode .............. 4-2 shunt calibration ..............6-39 transmission order ............6-141 sign, existence of ............6-144 transmission rate ..............4-2 signal direction ..............2-3 trigger ................6-130 signal line connection ............2-4 TRIGger group ..............6-123 signals, table of ..............
Page 225 Index :FREQ:LSCale:UNIT ............. 6-32 Page :FREQ:LSCale? ............6-32 :FREQ:OFFSet .............. 6-33 zone search ..............6-81 :FREQ:POSition ............6-33 zoom ................6-149 :FREQ:SCALe ............... 6-33 zoom box ................ 6-150 :FREQ:SETup:CFRequency ......... 6-33 zoom box position ............6-150 :FREQ:SETup:DECeleration ......... 6-33 ZOOM group ..............6-147 :FREQ:SETup:DPULse ..........
Page 226 Index [:VOLTage]:LSCale:AVALue ......... 6-41 [:TY]:LOGic:ORDer ............6-51 [:VOLTage]:LSCale:BVALue ......... 6-41 [:TY]:LOGic? ..............6-51 [:VOLTage]:LSCale:DISPlaytype:DECimalnum .... 6-42 [:TY]:MARKer:DX<x>? ..........6-52 [:VOLTage]:LSCale:DISPlaytype:MODE ...... 6-42 [:TY]:MARKer:DY<x>? ..........6-52 [:VOLTage]:LSCale:DISPlaytype:SUBunit ....6-42 [:TY]:MARKer:M<x>:JUMP ........... 6-52 [:VOLTage]:LSCale:DISPlaytype? ........ 6-41 [:TY]:MARKer:M<x>:POSition ........6-52 [:VOLTage]:LSCale:GETMeasure ......... 6-42 [:TY]:MARKer:M<x>:TRACe .........
Page 227 Index :BACKup:SAVE[:EXECute] ........... 6-64 :PSETup:EARea ............6-74 :BACKup? ..............6-64 :PSETup:FEED ............. 6-75 :DELete:{ASCii|BINary|BMP|FLOat|MEASure|PDF| :PSETup:FLEXiblezone:{CHANnel<x>|MATH<x>}: POSTsc ................. 6-64 LOWer ................6-75 :DIRectory? ..............6-64 :PSETup:FLEXiblezone:{CHANnel<x>|MATH<x>}: :FILE? ................6-64 UPPer ................6-75 :LOAD:{BINary|REALtime|SETup|SNAP}:ABORt ..6-65 :PSETup:FLEXiblezone:MODE ........6-75 :LOAD:{BINary|REALtime|SETup|SNAP}[:EXECute] ... 6-65 :PSETup:FLEXiblezone? ..........
Page 228 Index :{PODA|PODB}? ............6-86 MONitor Group :LOGic? ................. 6-86 :ASENd:{CHANnel<x>|PODA|PODB}? ....... 6-106 LSTart Group :ASENd? ..............6-106 :LSTart ................6-87 :BYTeorder ..............6-106 :LSTart? ................ 6-87 :EXECute ..............6-106 MATH Group :FORMat ..............6-106 :BINary:{CHANnel<x>|MATH<x>} ......... 6-90 :OFFSet:{CHANnel<x>}? ..........6-106 :BINary? ................
Page 229 Index SYSTem Group :BTRigger? ..............6-133 :CLICk ................. 6-120 :DELay ................ 6-134 :CLOCk:DATE ............. 6-120 :EOA:{PODA|PODB} ........... 6-134 :CLOCk:MODE ............6-120 :EOA:CHANnel<x> ............6-134 :CLOCk:SNTP:GMTTime ..........6-120 :EOA:CONDition ............6-134 :CLOCk:TIME .............. 6-120 :EOA? ................6-134 :CLOCk:TYPE ............. 6-120 :HOLDoff:TIME ............6-134 :CLOCk? ..............
Page 230 Index :SIGN? ................ 6-144 :SRATe? ..............6-144 :STARt ................. 6-144 :TRACe ............... 6-144 :TRIGger? ..............6-144 :TYPE? ................ 6-144 :WAVeform? ..............6-141 XY Group :MODE ................ 6-145 :TRANge ..............6-145 :XAXis ................. 6-145 :XTRace ..............6-145 :XY<x>? ..............6-145 :YTRace ..............6-146 ZOOM Group :ALLocation:{CHANnel<x>|MATH<x>|PODA|PODB} .

YOKOGAWA SL1400 ScopeCorder LITE User Manual

Chapter 1 Overview of the GP-IB Interface

Chapter 2 Overview of the Serial (RS-232) Interface

Chapter 3 USB Interface

Chapter 4 Network Interface (Option)

Chapter 5 Before Programming

Chapter 6 Commands

Chapter 7 Status Report

Chapter 8 Sample Program

Appendix

Appendix 1 ASCII Character Codes

Appendix

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