YOKOGAWA DL750P, DL750 User manual

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ScopeCorder Communication Interface

IM 701210-18E

3rd Edition

Foreword

Notes

Thank you for purchasing YOKOGAWA’s DL750/DL750P ScopeCorder. This Communication Interface User’s Manual describes the functions and commands of the GP-IB, serial (RS-232, option), USB, and Network (Ethernet, option) interfaces. To ensure proper use of the GP-IB/serial (RS-232)/USB interfaces, please read this manual thoroughly. Keep the manual in a safe place for quick reference whenever a question arises. Three manuals are provided with the DL750/DL750P including this Communication Interface User’s Manual.

Manual Name Manual No. Description

DL750/DL750P IM 701210-05E Describes all functions except for the User’s Manual IM 701210-06E communications functions and operation Part 1 and Part 2 procedures of the instrument.

DL750/DL750P IM 701210-07E Explains basic operation only. Operation Guide

DL750/DL750P IM 701210-18E Describes the communications functions Communication User’s Manual of the GP-IB/serial (RS-232, option)/USB/

Network interface.

• The contents of this manual are subject to change without prior notice as a result of improvements in instrument’s performance and functions.

• Every effort has been made in the preparation of this manual to ensure the accuracy of its contents. However, should you have any questions or find any errors, please contact your nearest YOKOGAWA representative.

• Copying or reproduction of all or any part of the contents of this manual without YOKOGAWA’s permission is strictly prohibited.

•A guarantee card is attached to the instrument. The card will not be reissued, so please read it carefully and keep it in a safe place.

• The TCP/IP software used in this product and the documentation for that TCP/IP software are based in part on BSD Networking Software, Release 1 licensed from The Regents of the University of California.

USB Interface and Network Interface

• The following items must be installed on the PC to access the communications functions using the USB interface.

1. A dedicated library for the USB interface.

2. A USB device driver for the PC-to-DL750/DL750P connection.

• The following item must be installed on the PC to access the communications functions using the network interface.

1. A dedicated library for the network interface.

The library and driver above can be downloaded from the following Web page. http://www.yokogawa.com/tm/dl_driver.htm

IM 701210-18E

Trademarks

Revisions

• MS-DOS is registered trademarks of Microsoft Corporation in the United States and/or other countries.

• Adobe, Acrobat, and PostScript are either trademarks or registered trademarks of Adobe Systems incorporated.

• Zip is registered trademarks or trademarks of Iomega corporation in the United States and /or other countries.

• For purposes of this manual, the TM and ® symbols do not accompany their respective trademark names or registered trademark names.

• Other product names are trademarks or registered trademarks of their respective holders.

1st Edition: February 2005 2nd Edition: May 2005 3rd Edition: December 2005

IM 701210-18E

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).

Chapter 3 Overview of the USB Interface

Describes the functions and specifications of USB interface.

Chapter 4 Overview of the Network Interface (Option)

Describes the functions and specifications of Network interface.

Chapter 5 Before Programming

Describes formats used when sending a command.

Chapter 6 Commands

Describes each command.

Chapter 7 Status Report

Describes the status byte, various registers and queues.

Chapter 8 Sample Programs

Sample programs, written in Visual BASIC, for MS-DOS/V machines equipped with the following GP-IB board: AT-GPIB/TNT IEEE-488.2, from National Instruments.

Appendix

Contains references including the ASCII character code table.

Index

Provides an alphabetically ordered index.

Conventions Used in this Manual

Symbols Used for Notes and Keys

Type Symbol Description

Unit k 1000 e.g.: 100 kS/s (sample rate)

K 1024 e.g.: 720 KB (floppy disk memory capacity) Notes Key "Probe" Indicates text of the soft key menu displayed on the screen.

Symbols Used in Syntax Descriptions

Symbols which are used in the syntax descriptions in Chapter 6 are shown below. These symbols are referred to as BNF notation (Backus-Naur Form). For detailed information, refer to page 5-5.

Symbol Description Example Example of Input

<> Defined value CHANnel <x> <x>=1 to 4 -> CHANNEL2 {} One of the options in {} is COUPling {AC|DC|GND} -> COUPLING AC

| Exclusive OR [ ] Abbreviated TRIGger [:SIMPle]:SLOPe -> TRIGger:SLOPe

Note

selected.

Provides information that is necessary for proper operation of the instrument.

IM 701210-18E

iii

Foreword ......................................................................................................................................... i

How to Use this Manual ................................................................................................................. iii

Chapter 1 Overview of the GP-IB Interface

1.1 Names of the Parts and their Function .......................................................................... 1-1

1.2 Connection via the GP-IB Interface ............................................................................... 1-2

1.3 GP-IB Interface Functions ............................................................................................. 1-3

1.4 GP-IB Interface Specifications ....................................................................................... 1-4

1.5 Setting up this Instrument (GP-IB) ................................................................................. 1-5

1.6 Response to Interface Messages .................................................................................. 1-6

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

2.1 Names of the Parts and their Function .......................................................................... 2-1

2.2 Serial (RS-232) Interface Functions and Specifications ................................................ 2-2

2.3 Connection via the Serial (RS-232) Interface ................................................................ 2-3

2.4 Handshaking .................................................................................................................. 2-5

2.5 Matching the Data Format ............................................................................................. 2-7

2.6 Setting up this Instrument (Serial) ................................................................................. 2-8

Chapter 3 USB Interface

3.1 Names of the Parts and their Function .......................................................................... 3-1

3.2 USB Interface Functions and Specifications .................................................................. 3-2

3.3 Connection via the USB Interface .................................................................................. 3-3

3.4 Setting up this Instrument (USB) ................................................................................... 3-4

Chapter 4 Network Interface (Option)

4.1 Names of the Parts and their Function .......................................................................... 4-1

4.2 Network Interface Functions and Specifications ............................................................ 4-2

4.3 Connection via the Network Interface ............................................................................ 4-4

4.4 Setting up this Instrument (Network) ............................................................................. 4-5

Chapter 5 Before Programming

5.1 Messages ...................................................................................................................... 5-1

5.2 Commands .................................................................................................................... 5-3

5.3 Response ....................................................................................................................... 5-4

5.4 Data ............................................................................................................................... 5-5

5.5 Synchronization with the Controller ............................................................................... 5-7

Chapter 6 Commands

6.1 A List of Commands ....................................................................................................... 6-1

6.2 ACQuire Group ............................................................................................................ 6-21

6.3 ASETup Group ............................................................................................................ 6-23

6.4 CALibrate Group .......................................................................................................... 6-24

6.5 CAPTure Group ........................................................................................................... 6-25

6.6 CHANnel Group ........................................................................................................... 6-28

6.7 CLEar Group ................................................................................................................ 6-50

6.8 COMMunicate Group ................................................................................................... 6-51

6.9 CURSor Group ............................................................................................................ 6-53

6.10 DISPlay Group ............................................................................................................. 6-62

6.11 DSP Group .................................................................................................................. 6-67

IM 701210-18E

Contents

6.12 EVENt Group ............................................................................................................... 6-73

6.13 FILE Group .................................................................................................................. 6-74

6.14 GONogo Group ............................................................................................................ 6-80

6.15 HCOPy Group .............................................................................................................. 6-89

6.16 HISTory Group ............................................................................................................. 6-99

6.17 IMAGe Group ............................................................................................................. 6-104

6.18 INITialize Group ......................................................................................................... 6-106

6.19 LOGic Group .............................................................................................................. 6-107

6.20 LSTart Group ............................................................................................................. 6-109

6.21 MATH Group .............................................................................................................. 6-110

6.22 MEASure Group ........................................................................................................ 6-117

6.23 MONitor Group .......................................................................................................... 6-132

6.24 MTRigger Group ........................................................................................................ 6-135

6.25 RECorder Group ........................................................................................................ 6-136

6.26 SEARch Group .......................................................................................................... 6-143

6.27 SNAP Group .............................................................................................................. 6-147

6.28 SSTart Group ............................................................................................................. 6-147

6.29 STARt Group ............................................................................................................. 6-148

6.30 STATus Group ........................................................................................................... 6-148

6.31 STOP Group .............................................................................................................. 6-149

6.32 SYSTem Group .......................................................................................................... 6-150

6.33 TIMebase Group ........................................................................................................ 6-154

6.34 TRIGger Group .......................................................................................................... 6-155

6.35 VOICe Group ............................................................................................................. 6-172

6.36 WAVeform Group ....................................................................................................... 6-174

6.37 XY Group ................................................................................................................... 6-181

6.38 ZOOM Group ............................................................................................................. 6-183

6.39 Common Command Group ........................................................................................ 6-186

Chapter 7 Status Report

7.1 Overview of the Status Report ....................................................................................... 7-1

7.2 Status Byte .................................................................................................................... 7-2

7.3 Standard Event Register ................................................................................................ 7-3

7.4 Extended Event Register ............................................................................................... 7-4

7.5 Output Queue and Error Queue .................................................................................... 7-5

Chapter 8 Sample Program

8.1 Before Programming ...................................................................................................... 8-1

8.2 Image of Sample Program ............................................................................................. 8-2

8.3 Initialize/Error/Execute ................................................................................................... 8-3

8.4 Sets/Queries the T/Div ................................................................................................... 8-6

8.5 Data Output in Word Format (2 bytes) ........................................................................... 8-8

8.6 Sets/Queries Measure Value ....................................................................................... 8-14

Appendix

Appendix 1 ASCII Character Code ...................................................................................... App-1

Appendix 2 Error Messages .................................................................................................App-2

Appendix 3 Overview of IEEE 488.2-1992 ...........................................................................App-4

Index

App

Index

IM 701210-18E

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

SHIFT Key+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 ppage 1-6.)

MEASURE

CURSOR RESET SELECT

GO/NO-GO

ESC

HISTORY

MATH

DUAL

ZOOM

CAPTURE

SETUP DISPLAY

CAL

X-Y

ACQ

START/STOP

ALL CH

VERTICAL

1CH 2CH 3CH 4

DSP 1

DSP 2

DSP 3 DSP 4

8 9

DSP 6DSP 5

654

10CH 11CH 12

LOGIC A

LOGIC B

EVENT

13CH 14CH 15CH 16

HORIZONTAL

TRIGGER

MODE

SIMPLE/ENHANCED

FILE

EXP

ENTER

POSITION

DELAYACTION

PROTECT

CH 5CH 6CH 7CH

CH 9CH

1023

V/DIV TIME/DIV

TRIG D

MANUAL TRIG

VOICE

IMAGE

MEMO

SAVE

MENU MENU

SNAPSHOT CLEAR TRACE

NUM KEY

SHIFT

HELP

MISC

Overview of the GP-IB Interface

Side Panel

100-120V/200-240V AC

300VA MAX 50/60Hz

MODEL SUFFIX

NO.

ON OFF

Made in Japan

MISC Key (Page 1-5)

Press to enter the communication settings such as the address and the timeout.

REC LEVEL VOLUME

VOICE IN/OUT/SW

GP-IB (IEEE488)

LINK

100BASE-TX

GO/NO-GO

LOGIC A

ACT

SCSI

EXT CLK IN

TRIG OUT/

USB

USB PERIPHERAL

VIDEO OUT (SVGA)

Do not operate without reading safety precautions In user`s manual .

Protect the Instrument from vibration or shock when power is ON

(especially for internal hard disk type).

POWER

WARNING

CAUTION

SERIAL (RS-232)

LOGIC B

TRIG IN

GP-IB Connector

This connector is for connecting the controller (such as a PC) with the GP-IB cable. For information on how to connect the GP-IB cable, refer to the following page.

IM 701210-18E

1-1

1.2 Connection via the GP-IB Interface

GP-IB Cable

The GP-IB connector on the side panel of the DL750/DL750P 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.

Connection Precautions

• Be sure to tighten the screws on the GP-IB cable connector firmly.

• The instrument can be connected to more than one item of equipment (e.g. a personal computer) if more than one GP-IB cable is used. However, it is not possible to connect more than 15 items of equipment (including the controller) to a single bus.

• If you connect the instrument to more than one item of equipment, make sure that a different address is used for each item.

• Each connecting cable must be 2 m or less in length.

• The total length of all the cables must not exceed 20 m.

• While communications are in progress, more than two-thirds of the connected equipment items must be turned ON.

• When connecting more than one item of equipment, connect them so that the connection route forms a star or linear configuration. Loop or parallel wiring is not allowed.

1-2

CAUTION

Be sure to switch off power to both your PC and the oscilloscope before connecting or disconnecting cables. Failure to switch power off may cause internal circuit failure or improper operation.

IM 701210-18E

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.

• Receives commands from a controller requesting output of set-up and waveform data.

• Also receives status report commands

Talker Function

Outputs set-up and waveform data.

Note

The listen-only, talk-only and controller functions are not available on this instrument.

Switching between Remote and Local Mode

When Switched from Local to Remote Mode

Remote mode is activated when a REN (Remote Enable) message is received from a controller while local mode is active.

• REMOTE is displayed on the upper right of the screen.

• All front panel keys except SHIFT+CLEAR TRACE can no longer be operated any more.

• Settings entered in local mode are retained.

Overview of the GP-IB Interface

When Switched from Remote to Local Mode

Pressing SHIFT+CLEAR TRACE in remote mode puts the instrument in local mode. However, this is not possible if Local Lockout has been set by the controller (page 1-7).

• The REMOTE indicator on the upper right of the screen is turned off.

• All front panel keys are operative.

• Settings entered in remote mode are retained.

Note

The GP-IB interface cannot be used simultaneously with other communications interfaces (serial (RS-232), USB, or network).

IM 701210-18E

1-3

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

Remote Mode Clear: Remote mode can be cleared by pressing

Interface Functions

Function Subset Name Description

Source Handshaking SH1 Full source handshaking capability Acceptor Handshaking AH1 Full acceptor handshaking capability Talker T6 Basic talker capability, serial polling, untalk

Listener L4 Basic listener capability, unlisten on MTA

Service Request SR1 Full service request capability Remote Local RL1 Full remote/local capability Parallel Poll PP0 No parallel polling capability Device Clear DC1 Full device clear capability Device Trigger DT0 No device trigger capability Controller C0 No controller function Electrical Characteristic E1 Open collector

GP-IB setting screen, displayed when you press the MISC key.

SHIFT key+CLEAR TRACE key. However, this is not possible if Local Lockout has been set by the controller.

on MLA (My Listen Address), no talk-only capability

(My Talk Address), no listen-only capability

Data Transfer Rate

1-4

The table below shows approximate response times for output of waveform data, assuming the following configuration. Model: 701210 or 701230 Controller: EPSON Endeavor VZ-6000 (Pentium III, 733 MHz) GP-IB Board: NI AT-GPIB/TNT(PNP) Programming Language: Visual C++

Data Volume Byte Format Word Format ASCII Format

1000 approx. 64 ms approx. 68 ms approx. 530 ms 10000 approx. 114 ms approx. 160 ms approx. 5.3 s 100000 approx. 673 ms approx. 1.2 s approx. 52.8 s 1000000 approx. 6.5 s approx. 11.8 s approx. 530 s

IM 701210-18E

1.5 Setting up this Instrument (GP-IB)

Operating Procedure

PROTECT

VOICE

MEMO

Selecting the Communication Interface

1. Press MISC.

2. Press the Remote Cntl soft key.

3. Press the Device soft key to select GP-IB.

Note

Only the communications interfaces selected under Device are available. If commands are sent using an unselected communications interface, the command will not be received.

Setting the Address

4. Turn the jog shuttle to set the desired address.

IMAGE

SAVE

MENU MENU

SNAPSHOT CLEAR TRACE

NUM KEY

MISC

HELP

SHIFT

Overview of the GP-IB Interface

FILE

Explanation

When you make settings which can be made using the front panel keys of the instrument or when you output setup data or waveform data using the controller, the following settings must be made.

Setting the Address

This function allows you to set the instrument’s address for addressable mode within the range of 0 to 30. Each item of equipment connected via a GP-IB interface has its own address, by which it can be identified. Care must be taken to ensure that all interconnected devices are assigned unique addresses.

Note

Do not change the address while the GP-IB interface is being used by the controller.

IM 701210-18E

1-5

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.

Response to a Multi-Line Message (Address Command) GTL(Go To Local)

Switches to local mode.

SDC(Selected Device Clear)

Clears the program message (command) which is currently being output. Also clears the output queue (page 7-5).

*OPC and *OPC? will be disabled if they are currently being executed. *WAI and :COMMunicate:WAIT will be stopped immediately.

PPC (Parallel Poll Configure), GET (Group Execute Trigger) and TCT (Take Control) are not supported.

Response to a Multi-Line Message (Universal Command) LLO(Local Lockout)

Invalidates SHIFT+CLEAR on the front panel to disable switching to local mode. DCL(Device Clear)

Same as SDC.

SPE(Serial Poll Enable)

Sets the talker function to serial poll mode for all equipment connected to the communications bus. The controller performs polling on equipment sequentially.

SPD(Serial Poll Disable)

Clears serial poll mode as the talker function for all equipment connected to the communications bus.

PPU (Parallel Poll Unconfigure) is not supported.

What is an Interface Message?

An interface message is also called an interface command or bus command, and is issued by the controller. Interface messages are classified as follows.

Uni-Line Messages

Messages are transferred through a single control line. The following three types of uniline message are available. IFC (InterFace Clear) REN (Remote ENable) IDY (IDentifY)

1-6

IM 701210-18E

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.

• Commands valid for equipment designated as a listener;

GTL (Go To Local) SDC (Selected Device Clear) PPC (Parallel Poll Configure) GET (Group Execute Trigger)

• Command valid for equipment designated as a talker;

TCT (Take ConTrol)

Universal Commands

Valid for any item of equipment, irrespective of whether the item is designated as a listener or a talker. The following five universal commands are available. LLO (Local LockOut) DCL (Device CLear) PPU(Parallel Poll Unconfigure) SPE (Serial Poll Enable) SPD (Serial Poll Disable)

In addition to the above commands, a listener address, talker address on secondary command can be sent in an interface message.

Interface Messages

Uni-Line

Messages

◆IFC

◆REN

IDY

Multi-Line Messages

Address

Command

◆GTL

◆SDC

PPC GET TCT

Universal

Command

◆LLO

◆DCL

PPU

◆SPE

◆SPD

Overview of the GP-IB Interface

IM 701210-18E

Listener

Address

Talker

Address

Secondary

Command

Messages marked with a “◆” are interface messages supported by the DL750/DL750P.

Note

Differences between SDC and DCL

The SDC command is an address command and requires that both the talker and listener be designated; however DCL is a universal command and does not require that the talker and listener be designated. Therefore, SDC is used for particular items of equipment, while DCL can be used for any equipment connected to the communications bus.

1-7

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

VOICE

PROTECT

Side Panel

IMAGE

MEMO

SAVE

MENU MENU

SNAPSHOT CLEAR TRACE

SHIFT Key+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).

MEASURE

CURSOR RESET SELECT

GO/NO-GO

ESC

HISTORY

MATH

DUAL

ZOOM

CAPTURE

SETUP DISPLAY

CAL

X-Y

ACQ

START/STOP

ALL CH

VERTICAL

1CH 2CH 3CH 4

DSP 1

DSP 2

DSP 3 DSP 4

8 9

DSP 6DSP 5

654

10CH 11CH 12

LOGIC A

LOGIC B

EVENT

13CH 14CH 15CH 16

HORIZONTAL

TRIGGER

MODE

SIMPLE/ENHANCED

FILE

EXP

ENTER

POSITION

DELAYACTION

NUM KEY

CH 5CH 6CH 7CH

CH 9CH

1023

V/DIV TIME/DIV

TRIG D

MANUAL TRIG

SHIFT

HELP

MISC

MISC Key (Page 2-8)

Press to enter the communication settings such as the baud rate, data format, and the handshaking method.

Overview of the Serial (RS-232) Interface (Option)

IM 701210-18E

100-120V/200-240V AC

300VA MAX 50/60Hz

MODEL SUFFIX

NO.

ON OFF

Made in Japan

REC LEVEL VOLUME

VOICE IN/OUT/SW

GP-IB (IEEE488)

LINK

100BASE-TX

GO/NO-GO

LOGIC A

ACT

SCSI

USB

USB PERIPHERAL

SERIAL (RS-232) Connector

This connector is for connecting the controller (such as a PC) with the RS232 cable. For information on how to

VIDEO OUT (SVGA)

Do not operate without reading safety precautions In user`s manual .

Protect the Instrument from vibration or shock when power is ON

(especially for internal hard disk type).

POWER

WARNING

CAUTION

SERIAL (RS-232)

LOGIC B

connect the RS-232 cable, refer to

TRIG IN

EXT CLK IN

TRIG OUT/

page 2-3.

2-1

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. Setup data and the status byte can be output. Error codes which have occurred can be output.

Serial (RS-232) Interface Specifications

Electrical Characteristics: Conforms to EIA 574 Standard (EIA-232 (RS-232) Standard

for 9-pin) Connection: Point-to-point Communications: Full-duplex Synchronization: Start-stop system Baud Rate: 1200, 2400, 4800, 9600, 19200, 38400, 57600 Start Bit: 1 bit (fixed) Data Length: 7 or 8 bits Parity: Even, odd or no parity Stop Bit: 1 or 2 bits Connector: DELC-J9PAF-13L6 (JAE or equivalent) Hardware Handshaking: User can select whether CA or CB signals will always be

True, or will be used for control. Software Handshaking: User can control both transmission and reception using X-on

and X-off signals. (X-on (ASCII 11H), X-off (ASCII 13H)) Receive Buffer Size: 256 bytes

Switching between Remote and Local Mode

When Switched from Local to Remote Mode

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.

• All front panel keys except SHIFT+CLEAR TRACE can no longer be operated any

more.

• Settings entered in local mode are retained.

When Switched from Remote to Local Mode

Pressing SHIFT+CLEAR TRACE in remote mode puts the instrument in local mode. However, this is not possible of Local Lockout (when the ":COMMunicate:LOCKout ON" command is received) has been set by the controller. Local mode is activated when the ":COMMunicate:REMote OFF" command regardless of Local Lockout.

• The REMOTE indicator on the upper right of the screen is turned off.

• All front panel keys are operative.

• Settings entered in remote mode are retained.

Note

The serial interface cannot be used simultaneously with other communications interface (GPIB, USB, or network).

2-2

IM 701210-18E

Computer

This Instrument

RS [Request to Send]

SD [Send Data] RD [Receive Data]

CS [Clear to Send]

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. Also make sure that the correct interface cable is used.

Connector and Signal Names

Overview of the Serial (RS-232) Interface (Option)

9-25 Pin Connector

6 7

8 9

1 2

3 4

2 RD (Received Data): Data received from personal computer.

Signal direction...Input.

3 SD (Send Data): Data transmitted to a personal computer.

Signal direction...Output. 5 SG (Signal Ground): Ground for signals. 7 RS (Request to Send): Signal used for handshaking when receiving data from a

personal computer.

Signal direction...Output. 8 CS (Clear to Send): Signal used for handshaking when transmitting data to a

personal computer.

Signal direction...Input.

* Pin Nos. 1, 4, 6, and 9 are not used.

Signal Direction

IM 701210-18E

(2) (3) (4) (5) (7)

58723

The number between brackets refer to the pin No. of the 25-pin connector.

The figure below shows the direction of the signals used by the serial (RS-232) interface.

2-3

2.3 Connection via the Serial (RS-232) Interface

Table of RS-232 Standard Signals and their JIS and CCITT Abbreviations

Pin No.

(9-Pin Connector)

RS-232

AB (GND)

BA (TXD)

BB (RXD)

CA (RTS)

CB (CTS)

Abbreviation

CCITT

102 SG

103 104

105

106

JIS

Signal ground

Transmitted data

Received data Request to send

Clear to send

Signal Line Connection Examples

The pin numbers shown are that of 9-pin connectors. In general, use a cross cable.

Description

• OFF-OFF / XON-XON

PC DL750

SD RD RS CS SG

3 2 7 8 5

SD RD RS CS SG

• CTS-RTS(CS-RS)

PC DL750

3 2

RD RS

7 8

3 2

RD RS

7 8

2-4

IM 701210-18E

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; the same handshaking system must be used for both the computer and this instrument. This instrument allows you to choose any handshaking mode from the following three modes.

Handshake Format Descriptions→

Handshake

Method

The Menu of this Instrument

OFF-OFF XON-XON CS-RS

NO-NO XON-XON CTS-RTS

Data Sending Control (Control Method

When Sending Data to a Computer)

Software

Handshake

Sending stops when X-off is received, and sending is resumed when X-on is received.

Hardware

Handshake

Sending stops when CB(CTS) is False, and sending is resumed when CB is True.

handshake

2.4 Handshaking

Data Receiving Control

When Receiving Data from a Computer)

Software

Handshake

X-off is sent when received data buffer becomes 3/4full, and X-on is sent when the received data buffer is only 1/4-full.

Handshake

CA (RTS) is set to False when received data buffer is only 3/4-full, and is set to True when received data buffer is only 1/4-full.

(Control Method

Hardware

Overview of the Serial (RS-232) Interface (Option)

handshake

OFF-OFF

XON-XON

Transmission Data Control

There is no handshake status between the instrument and host computer. The X-OFF and X-ON signal from the host computer is processed as data, and the CS signal is ignored.

Reception Data Control

There is no handshake status between the recorder and host computer. When the recorder reception buffer becomes full, the excess data is discarded. RS = True (fixed).

Transmission Data Control

A software handshake status is established between the instrument and host computer. The instrument will stop a data transmission when an X-OFF signal is received from the host computer, and will resume transmission when the next X-ON signal is received. A CS signal from the host computer is ignored.

Reception Data Control

A software handshake status is established between the instrument and host computer. When the instruments reception buffer vacancy reaches 64 bytes, the X-OFF signal will be sent to the host computer. When the reception buffer vacancy reaches 192 bytes, the X-ON signal will be sent. RS = True (fixed).

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2-5

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.

Reception Data Control

A hardware handshake status is established between the instrument and host computer. When the instruments reception buffer vacancy reaches 64 bytes, an “RS=False” status will be established. When the reception buffer vacancy reaches 192 bytes, an “RS=True” status will be established.

Precautions Regarding Data Receiving Control

When handshaking is used to control the reception of data, data may still be sent from the computer even if the free space in the receive buffer drops below 64 bytes. In this case, after the receive buffer becomes full, the excess data will be lost, whether handshaking is in effect or not. Data storage to the buffer will begin again when there is free space in the buffer.

256 bytes

Used Free, 64 bytes

When handshaking is in use, reception of data will stop when the free space in the buffer drops to 64 bytes since data cannot be passed to the main program fast enough to keep up with the transmission.

After reception of data stops, data continues to be passed to the internal program. Reception of data starts

Used

Free, 192 bytes

Used

Data Receiving Control Using Handshaking

again when the free space in the buffer increases to 192 bytes.

Whether handshaking is in use or not, if the buffer becomes full, any additional data received is no longer stored and is lost.

Note

It is necessary to create a host computer program which prevents the buffers of both the instrument and the computer from becoming full.

2-6

IM 701210-18E

2.5 Matching the Data Format

The serial (RS-232) interface of this instrument performs communications using startstop 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.

Circuit Idle State

1 character

Data Bit

(7 or 8 bits)

2.5 Matching the Data Format

Overview of the Serial (RS-232) Interface (Option)

Level returns to idle state (dotted line) until the start bit of the next item of data (solid line).

Stop Bit

Start Bit

Parity Bit Even, Odd, or None

1 or 2 Bits

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2-7

2.6 Setting up this Instrument (Serial)

Operating Procedure

PROTECT

VOICE MEMO

IMAGE

SAVE

MENU MENU

SNAPSHOT CLEAR TRACE

NUM KEY

MISC

HELP

SHIFT

FILE

Selecting the Communication Interface

1. Press MISC.

2. Press the Remote Cntl soft key.

3. Press the Device soft key to select RS232.

Note

Only the communications interfaces selected under Device are available. If commands are sent using an unselected communications interface, the command will not be received.

Selecting the Baud Rate, the Data Format and etc.

4. Press the Baud Rate (baud rate), Format (data format), Rx-Tx (handshaking method), and the Terminator (terminator) soft keys individually, and turn the jog shuttle to set each item.

2-8

IM 701210-18E

Explanation

2.6 Setting up this Instrument (Serial)

When using the controller to set the items which can be set locally using the keys on the instrument, or when outputting the setup data or the waveform data to the controller, set the following items.

Baud Rate

Select from the following choices. 1200, 2400, 4800, 9600, 19200, 38400, 57600

Data Format

Select the combination of the data length and the stop bit from the following choices. 8-NO-1, 7-EVEN-1, 7-ODD-1, 7-NO-2

Handshaking Method

Select the transmit data control and the receive data control from the following choices. NO-NO, XON-XON, CTS-RTS

Terminator

Select from the following choices. The terminator used when sending the data from this instrument is selected on the menu. Use either “LF” or “CR+LF” for the terminator in receiving the data. CR, LF, CR+LF

Overview of the Serial (RS-232) Interface (Option)

IM 701210-18E

2-9

Chapter 3 USB Interface

3.1 Names of the Parts and their Function

Front Panel

VOICE

PROTECT

IMAGE

MEMO

SAVE

MENU MENU

SNAPSHOT CLEAR TRACE

3.1 Names of the Parts and their Function

SHIFT Key+CLEAR TRACE Key

Press to switch from remote mode to local mode whichi allows key operation. However, this is not possible if Local Lockout has been set by the controller (refer to page 3-2).

MEASURE

CURSOR RESET SELECT

GO/NO-GO

ESC

HISTORY

MATH

DUAL

ZOOM

CAPTURE

SETUP DISPLAY

CAL

X-Y

ACQ

START/STOP

ALL CH

VERTICAL

1CH 2CH 3CH 4

DSP 1

DSP 2

DSP 3 DSP 4

8 9

DSP 6DSP 5

654

10CH 11CH 12

LOGIC A

LOGIC B

EVENT

13CH 14CH 15CH 16

HORIZONTAL

TRIGGER

MODE

SIMPLE/ENHANCED

FILE

EXP

ENTER

POSITION

DELAYACTION

NUM KEY

CH 5CH 6CH 7CH

CH 9CH

1023

V/DIV TIME/DIV

TRIG D

MANUAL TRIG

SHIFT

HELP

MISC

USB Interface

Side Panel

100-120V/200-240V AC

300VA MAX 50/60Hz

MODEL SUFFIX

NO.

ON OFF

Protect the Instrument from vibration or shock when power is ON

(especially for internal hard disk type).

POWER

CAUTION

Made in Japan

REC LEVEL VOLUME

VOICE IN/OUT/SW

GP-IB (IEEE488)

LINK

100BASE-TX

GO/NO-GO

LOGIC A

ACT

SCSI

EXT CLK IN

TRIG OUT/

USB PERIPHERAL

VIDEO OUT (SVGA)

Do not operate without reading safety precautions In user`s manual .

WARNING

SERIAL (RS-232)

LOGIC B

TRIG IN

MISC Key (Page 3-4)

Press to enter the communicaiton settings such as the ID value.

USB

USB connector for connecting to a PC

This connector is for connecting the controller (such as a PC) with the USB cable. For information on how to connect the USB cable, refer to page 3-3.

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3-1

3.2 USB Interface Functions and Specifications

Reception Functions

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.

Transmission Functions

Outputs measured and computed data. Outputs setting parameters of the panel and the status byte. Outputs error codes that are generated.

USB Interface Specifications

Electrical and Mechanical Specifications: Conforms to USB Rev.1.0 Connector: Type B connector (receptacle) Number of Ports: 1 Power Supply: Self-powered Supported Systems: PC system supported. Models with a

Data Transfer Rate

The table below shows approximate response times for output of waveform data, assuming the following configuration. Model: 701210 or 701230 Controller: PC (Pentium4 2.0 GHz, USB1.1), OS (Windows 2000

Professional)

Programming Language: Visual C++

standard USB port that operates on Windows 98 SE, Windows Me, or Windows 2000 (a separate device driver is required for connection to the PC).

Data Volume Byte Format Word Format ASCII Format

1000 approx. 29 ms approx. 31 ms approx. 479 ms 10000 approx. 47 ms approx. 52 ms approx. 4.5 s 100000 approx. 210 ms approx. 330 ms approx. 45.1 s 1000000 approx. 2.0 s approx. 3.2 s approx. 453 s

Switching between Remote and Local Mode

When Switching from Local to Remote Mode

If the DL750/DL750P receives a ":COMMunicate:REMote ON" command from the PC when it is in the local mode, it switches to the remote mode.

• REMOTE is displayed at the lower left corner of the screen.

• All keys except SHIFT+CLEAR TRACE are disabled.

• The settings that existed in the local mode are maintained even when the DL750/ DL750P switches to the remote mode.

When Switching from Remote to Local Mode

Pressing SHIFT+CLEAR TRACE when the instrument is in the remote mode causes the instrument to switch to the local mode. However, this is void when the DL750/DL750P has received a ":COMMunicate:LOCKout ON" command from the PC (local lockout condition). When the DL750/DL750P receives a ":COMMunicate:REMote OFF" command from the PC, the DL750/DL750P switches to the local mode regardless of the local lock condition.

• REMOTE indication at the lower right corner disappears.

• Key operations are enabled.

• The settings that existed in the remote mode are maintained even when the instrument switches to the local mode.

3-2

Note

The USB interface cannot be used simultaneously with other communications interface (GPIB, serial (RS-232), or network).

IM 701210-18E

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 DL750/DL750P to the USB hub that is closest to the controller.

• Do not mistakenly insert the USB cable to the GO/NO-GO output terminal. This may cause damage to the DL750/DL750P.

• Do not connect or disconnect the USB cable after the power is turned ON until the DL750/DL750P boots up completely (until the DL750/DL750P is ready for operation, approximately 20 to 30 s). Doing so can cause damage to the DL750/DL750P.

3.3 Connection via the USB Interface

USB Interface

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3-3

3.4 Setting up this Instrument (USB)

Operating Procedure

PROTECT

VOICE MEMO

IMAGE

SAVE

MENU MENU

SNAPSHOT CLEAR TRACE

NUM KEY

MISC

HELP

SHIFT

FILE

Selecting the Communication Interface

1. Press MISC.

2. Press the Remote Cntl soft key.

3. Press the Device soft key to select USB.

Note

Only the communications interfaces selected under Device are available. If commands are sent using an unselected communications interface, the command will not be received.

Setting the ID Value

4. Turn the jog shuttle to set the ID value.

Explanation

Carry out the following settings when using a controller to set information that can be specified through key operation on the DL750/DL750P or when outputting setup data or output waveform data to the controller.

Setting the ID Value

Set the ID value of the DL750/DL750P within the following range: 1 to 127 You can connect multiple devices to a controller using the USB interface. If multiple devices are connected in a single USB system, the ID value is used by the controller to identify each device. Therefore, unique ID values must be assigned to the devices within a single system.

Note

Do not change the ID value while using the USB.

3-4

IM 701210-18E

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

ESC

VOICE

PROTECT

IMAGE

MEMO

SAVE

MENU MENU

SNAPSHOT CLEAR TRACE

NUM KEY

SHIFT

HELP

MISC

SHIFT Key+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).

MEASURE

CURSOR RESET SELECT

GO/NO-GO

HISTORY

MATH

DUAL

ZOOM

CAPTURE

SETUP DISPLAY

CAL

X-Y

ACQ

START/STOP

ALL CH

VERTICAL

1CH 2CH 3CH 4

DSP 1

DSP 2

DSP 3 DSP 4

8 9

DSP 6DSP 5

654

10CH 11CH 12

LOGIC A

LOGIC B

EVENT

13CH 14CH 15CH 16

HORIZONTAL

TRIGGER

MODE

SIMPLE/ENHANCED

FILE

EXP

ENTER

POSITION

DELAYACTION

CH 5CH 6CH 7CH

CH 9CH

1023

V/DIV TIME/DIV

TRIG D

MANUAL TRIG

Network Interface (Option)

Side Panel

100-120V/200-240V AC

300VA MAX 50/60Hz

MODEL SUFFIX

NO.

ON OFF

Made in Japan

MISC Key (Page 4-5)

Press to confirm the user name and password.

REC LEVEL VOLUME

VOICE IN/OUT/SW

GP-IB (IEEE488)

LINK

100BASE-TX

Ethernet Port

This connector is for connecting the controller (such as a PC) with the Ethernet cable. For information on how to connect the USB cable, refer to page 4-4.

GO/NO-GO

LOGIC A

ACT

SCSI

EXT CLK IN

TRIG OUT/

USB

USB PERIPHERAL

VIDEO OUT (SVGA)

Do not operate without reading safety precautions In user`s manual .

Protect the Instrument from vibration or shock when power is ON

(especially for internal hard disk type).

POWER

WARNING

CAUTION

SERIAL (RS-232)

LOGIC B

TRIG IN

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4-1

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. Setup data and the status byte can be output. Error codes which have occurred can be output.

Network Interface Specifications

Communication Port Number: 1 Electrical and Mechanical Specifications: IEEE802.3 Compliant No. of simultaneous connections: 1 Transmission Method: 100BASE-TX/10BASE-T Transmission Rate: Max. 100 Mbps Communication Protocol: TCP/IP Connector Type: RJ-45 connector Port No.: 10001/tcp

Data Transfer Rate

The table below shows approximate response times for output of waveform data, assuming the following configuration. Model: 701210 or 701230 Controller: EPSON Endeavor VZ-6000 (Pentium III, 733 MHz) Network Adaptor: Corega F Ether PCI-TXL Programming Language: Visual C++

Data Volume Byte Format Word Format ASCII Format

1000 approx. 9 ms approx. 9 ms approx. 464 ms 10000 approx. 25 ms approx. 31 ms approx. 3.7 s 100000 approx. 195 ms approx. 404 ms approx. 36 s 1000000 approx. 1.9 s approx. 2.5 s approx. 380 s

4-2

IM 701210-18E

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.

• All front panel keys except SHIFT +CLEAR TRACE can no longer be operated.

• Settings entered in local mode are retained even when switching to remote mode.

When Switched from Remote to Local Mode

Pressing SHIFT +CLEAR TRACE in remote mode puts the instrument in local mode. However, this is not possible when the ":COMMunicate:REMote ON" command is received from the controller while Local Lockout mode is active. Local mode is activated when the ":COMMunicate:REMote OFF" command is received regardless of Local Lockout.

• The REMOTE indicator on the upper right of the screen is turned off.

• All front panel keys are operative.

• Settings entered in remote mode are retained even when switching to local mode.

Note

The network interface cannot be used simultaneously with other communications interfaces (GP-IB, serial (RS-232), or USB).

4.2 Network Interface Functions and Specifications

Network Interface (Option)

User Verification Function

The user must enter a user name and password for the interface when connecting to the network. The user name and password is set on the instrument in the Remote Cntl setting screen under the MISC menu. For details, see section 4.4, “Setting up this Instrument (Network).”

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4-3

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 rear panel of the unit.

100BASE-TX compatible Hub or Router

DL750/

DL750P

Controller (Personal Computer or Work Station)

Modular Jack (RJ-45)

Connection Precautions

• You must use a straight cable when connecting the unit to a controller or a work station. We cannot guarantee results using a cross cable.

• When using a UTP cable (straight cable), be sure to use only a category 5 cable.

UTP Cable or STP Cable

(Straight Cable)

Ethernet Port

Network Card

4-4

IM 701210-18E

4.4 Setting up this Instrument (Network)

Operating Procedure

4.4 Setting up this Instrument (Network)

PROTECT

VOICE

MEMO

IMAGE

SAVE

MENU MENU

SNAPSHOT CLEAR TRACE

NUM KEY

MISC

HELP

SHIFT

FILE

Selecting the Communication Interface

1. Press MISC.

2. Press the Remote Cntl soft key.

3. Press the Device soft key, and select Network.

Note

Only the communications interfaces selected under Device are available. If commands are sent using an unselected communications interface, the command will not be received.

Network Interface (Option)

Setting the User Name, Password, and Timeout Time

4. The User Account dialog box opens. The User Account dialog box opens.

5. Use the jog shuttle to move the cursor to User Name, then press Select to

display the keyboard.

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4-5

4.4 Setting up this Instrument (Network)

6. 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.

7. Use the jog shuttle to move the cursor to Password, then press SELECT to

display the keyboard.

8. Enter a password of 15 characters or less. Reenter the password to confirm.

9. Use the jog shuttle to move the cursor to Time Out, then press SELECT to

display the keyboard.

10. Enter the Timeout time using the jog shuttle.

Note

• For (soft) keyboard operation, see section 4.2, “Entering Values and Strings” in user’s manual IM701210-05E.

• The user name and password are case sensitive.

TCP/IP Settings

The following TCP/IP settings must be entered in order to use the network interface functions.

• IP Address

• Subnet Mask

• Default Gateway For details about how to enter these settings, see section 16.2, “Setting up the TCP/IP” in user’s manual IM701210-06E.

Description

Use the settings below to setup communications so that you can input settings on the instrument using the controller, or output settings or values to the controller.

Setting the User Name and Password

There is a user verification function for the Network interface. The user name and password are set on the instrument ahead of time.

• User Name Setting

15 characters or less may be used. The default value is anonymous.

• Password Setting

15 characters or less may be used.

Setting the Timeout Time

If the unit is not being accessed at the specified timeout time, the connection to the network will be automatically closed.

TCP/IP Settings

For details, see section 16.2, “Setting up the TCP/IP” in user’s manual IM701210-06E.

Note

• If a user verification error occurs, the connection to the instrument is cut.

• If the login name is anonymous, it is not necessary to enter a password.

• When changing the user name, password, timeout time, or TCP/IP settings, the settings will not take effect until the unit is turned OFF then back ON again.

4-6

IM 701210-18E

Chapter 5 Before Programming

<Program data>Space

5.1 Messages

Messages

Blocks of message data are transferred between the controller and this instrument during communications. Messages sent from the controller to this instrument are called program messages, and messages sent back from this instrument to the controller are called response messages. If a program message contains a query command, i.e. a command which requests a response, this instrument returns a response message. A single response message is always returned in reply to a program message.

Program Messages

The format of a program message is shown below.

;

A program message consists of one or more program message units; each unit corresponds to one command. This instrument executes commands one by one according to the order in which they are received. Program message units are delimited by a ";." For a description of the format of the program message unit, refer to the explanation given further below.

Example

:ACQuire:MODE NORMal;COUNt 1<PMT>

Unit Unit

<PMT>

PMT is a terminator used to terminate each program message. The following three types of terminator are available. NL (New Line) : Same as LF (Line Feed). ASCII

code "0AH" is used.

^END : END message defined in IEEE488.1.

(EOI signal) (The data byte sent with an END message will be the final item of the program message unit.)

NL^END : NL with an END message attached

(NL is not included in the program message unit.)

<PMT>

Program Message Unit Format

The format of a program message unit is shown below.

A program header is used to indicate the command type. For details, refer to page 5-3.

If certain conditions are required for the execution of a command, program data must be added. Program data must be separated from the header by a space (ASCII code "20H"). If multiple items of program data are included, they must be separated by a "," (comma). For details, refer to page 5-5.

Example

:ACQuire:MODE NORMal<PMT>

Header Data

Response Messages

The format of a response message is shown below.

;

A response message consists of one or more response message units: each response message unit corresponds to one response. Response message units are delimited by a ";." For the response message format, refer to the next page.

Example

:ACQUIRE:MODE NORMAL;COUNT 1<RMT>

Unit Unit

<RMT>

RMT is the terminator used for every response message. Only one type of response message is available; NL^END.

<RMT>

Before Programming

IM 701210-18E

5-1

5.1 Messages

Response Message Unit Format

The format of a program message unit is shown below.

<Response header> <Response data>Space

A response header sometimes precedes the response data. Response data must be separated from the header by a space. For details, refer to page 5-4.

Response data is used to define a response. If multiple items of response data are used, they must be separated by a "," (comma). For details, refer to page 5-5.

Example

1.25E-02<RMT> :ACQUIRE:MODE NORMAL<RMT>

Header Data Data

If a program message contains more than one query, responses are made in the same order as the queries. Normally, each query returns only one response message unit, but there are some queries which return more than one response message unit. The first response message unit always responds to the first query, but it is not always true that the 'n'th unit always responds to the 'n'th query. Therefore, if you want to make sure that a response is made to each query, the program message must be divided up into individual messages.

Points to Note Concerning Message Transmission

• It is always possible to send a program message if the previous message which was sent did not contain any queries.

• If the previous message contained a query, it is not possible to send another program message until a response message has been received. An error will occur if a program message is sent before a response message has been received in its entirety. A response message which has not been received will be discarded.

• If an attempt is made by the controller to receive a response message, even if there it no response message, an error will occur. An error will also occur if the controller makes an attempt to receive a response message before transmission of a program message has been completed.

• If a program message of more than one unit is sent and some of the units are incomplete, this instrument receives program message units which the instrument thinks complete and attempts to execute them. However, these attempts may not always be successful and a response may not always be returned, even if the program message contains queries.

Dead Lock

This instrument has a buffer memory in which both program and response messages of 1024 bytes or more can be stored. (The number of bytes available will vary depending on the operating state of the instrument.) If both buffer memories become full at the same time, this instrument becomes inoperative. This state is called deadlock. In this case, operation can be resumed by discarding the response message. No dead lock will occur, if the size of the program message including the PMT is kept below 1024 bytes. Furthermore, no deadlock will occur if the program message does not contain a query.

5-2

IM 701210-18E

5.2 Commands

Commands

There are three types of command (program header) which can be sent from the controller to this instrument. They differ in the format of their program headers.

Common Command Header

Commands defined in IEEE 488.2-1987 are called common commands. The header format of a common command is shown below. An asterisk (*) must always be attached to the beginning of a command.

An example of a common command

*CLS

Compound Header

Commands designed to be used only with this instrument are classified and arranged in a hierarchy according to their function. The format of a compound header is illustrated below. A colon (:) must be used when specifying a lower-level header.

An example of a compound header

:ACQuire:MODE

When Concatenating Commands

Command Group

A command group is a group of commands which have the same compound header. A command group may contain sub-groups. Example Commands relating to acquisition settings

:ACQuire:AVERage:COUNt :ACQuire:MODE :ACQuire:AVERage:EWEight :ACQuire:CLOCK :ACQuire:RLENgth :ACQuire:COUNt

When Concatenating Commands of the Same Group

This instrument stores the hierarchical level of the command which is currently being executed, and performs analysis on the assumption that the next command to be sent will also belong to the same level. Therefore, it is possible to omit the header if the commands belong to the same group. Example:ACQuire:MODE NORMal;COUNt 1<PMT>

When Concatenating Commands of Different Groups

A colon (:) must be included before the header of a command, if the command does not belong to the same group as the preceding command. It is impossible to omit a colon (:). Example :ACQuire:MODE NORMal;:DISPlay:

FORMat SINGle<PMT>

Before Programming

Simple Header

These commands (headers) are functionally independent of each other and are not arranged hierarchically. The format of a simple header is shown below.

An example of a simple header

:STARt

Note

A mnemonic is a character string made up of alphanumeric characters.

IM 701210-18E

When Concatenating Simple Headers

When you type in a simple header after another command, you must include a colon (:) before the simple header. It is impossible to omit a colon (:). Example:ACQuire:MODE NORMal;:STARt<PMT>

When Concatenating Common Commands

Common commands defined in IEEE 488.2-1992 are independent of hierarchical level. Thus, it is not necessary to add a colon (:) before a common command. Example:ACQuire:MODE NORMal;*CLS;

COUNt 1<PMT>

When Separating Commands with <PMT>

If a terminator is used to separate two commands, each command is a separate message. Therefore, the common header must be typed in for each command even when commands of the same command group are being concatenated. Example:ACQuire:MODE

NORMal<PMT>:ACQuire:COUNt 1<PMT>

5-3

5.2 Commands/5.3 Response

Upper-level Query

An upper-level query is a compound header to which a question mark is appended. Execution of an upperlevel query allows all a group’s settings to be output at once. Some query groups comprising more than three hierarchical levels can output all their lower level settings. Example:CHANnel1?<PMT> -> :CHANNEL1:

DISPLAY ON;LABEL "CH1 "; COUPLING DC;POSITION 0.00; PROBE 10;VDIV 50.0E+00; BWIDTH FULL;OFFSET 0.0E+00;LSCALE: MODE 0

In reply to a query, a response can be returned as a program message to this instrument. Transmitting a response can restore the settings made when the query was executed. However, some upper-level queries will not return set-up data which is not currently in use. Note that not all a group’s information will necessarily be sent out as a response.

Header Interpretation Rules

This instrument interprets the header received according to the following rules.

• Mnemonics are not case sensitive. Example "CURSor" can also be written as

"cursor" or "Cursor."

• The lower-case part of a header can be omitted. Example "CURSor" can also be written as

"CURSO" or "CURS."

• If the header ends with a question mark, the command is a query. It is not possible to omit the question mark. Example "CURSor?" cannot be abbreviated to

anything shorter than "CURS?."

• If the "x" at the end of a mnemonic is omitted, it is assumed to be "1." Example If "CHANnel<x>" is written as "CHAN,"

this represents "CHANnel1."

• Any part of a command enclosed by [ ] can be omitted. Example "TRIGger[:SIMPLle]:LEVel" can

be written as "TRIG:LEV." However, a part enclosed by [ ] cannot be omitted if it is located at the end of an upper-level query. Example "TRIGger?" and

"TRIGger:SIMPle?" belong to

different upper-level query levels.

5.3 Response

Response

On receiving a query from the controller, this instrument returns a response message to the controller. A response message is sent in one of the following two forms.

• Response Consisting of a Header and Data If the query can be used as a program message without any change, a command header is attached to the query, which is then returned. Example :ACQUire:MODE?<PMT> ->

:ACQUire:MODE NORMAL<RMT>

• Response Consisting of Data Only If the query cannot be used as a program message unless changes are made to it (i.e. it is a query-only command), no header is attached and only the data is returned. Some query-only commands can be returned after a header is attached to them. Example :MEASure:CHANnel1:PTOPeak:

VALue?<PMT> -> 10.0E+00<RMT>

When Returning a Response without a Header

It is possible to remove the header from a response consisting of a header and data. The "COMMunicate:HEADer" command is used to do this.

Abbreviated Form

Normally, the lower-case part is removed from a response header before the response is returned to the controller. Naturally, the full form of the header can also be used. For this, the "COMMunicate:VERBose" command is used. The part enclosed by [ ] is also omitted in the abbreviated form.

5-4

IM 701210-18E

5.4 Data

Data

A data section comes after the header. A space must be included between the header and the data. The data contains conditions and values. Data is classified as below.

Data Description

<Decimal> Value expressed as a decimal number

(Example: Type of probe of CH2

-> CHANnel2:PROBe 100)

<Voltage><Current> Physical value <Time><Frequency> (Example: Time axis range

-> TIMebase:TDIV 1US)

<Register> Register value expressed as either binary,

octal, decimal or hexadecimal (Example: Extended event register value

-> STATUS:EESE #HFE)

<Character data> Specified character string (mnemonic). Can

be selected from { } (Example: CH2 input coupling

-> CHANnel1:COUPling{AC|DC|GND})

<Boolean> Indicates ON/OFF. Set to ON, OFF or value

(Example: CH2 display ON

-> CHANnel2:DISPlay ON)

<Character string data> Arbitrary character string

(Example: Comment on screen-data output

-> HCOPy:COMMent "ABCDEF")

<Filename> Gives the name of a file.

(Example: Name of file to be saved

-> FILE:SAVE:WAVeform: NAME "CASE1")

<Block data> Arbitrary 8-bit data

(Example: Response to acquired waveform data

-> #800000010ABCDEFGHIJ)

<Decimal> indicates a value expressed as a decimal number, as shown in the table below. Decimal values are given in the NR form specified in ANSI X3. 42-1975.

<Voltage>, <Current>, <Time>, and <Frequency> indicate decimal values which have physical significance. <Multiplier> or <Unit> can be attached to <NRf>. They can be entered in any of the following forms.

Form Example

<NRf><Multiplier><Unit> 5MV <NRf><Unit> 5E-3V <NRf><Multiplier> 5M <NRf> 5E-3

•<Multiplier>

Multipliers which can be used are shown below.

Symbol Word Description

EX Exa 10 PE Peta 10 T Tera 10 G Giga 10 MA Mega 10 K Kilo 10 MMilli 10 U Micro 10 N Nano 10 PPico 10 F Femto 10 A Atto 10

• <Unit>

Units which can be used are shown below.

Symbol Word Description

V Volt Voltage A Ampere Current S Second Time HZ Hertz Frequency MHZ Megahertz Frequency

–3

–6

–9

–12

–15

–18

Before Programming

Symbol Description Example

<NR1> Integer 125 –1 +1000 <NR2> Fixed point number 125.0 –.90 +001. <NR3> Floating point number 125.0E+0 –9E–1 +.1E4 <NRf> Any of the forms <NR1> to <NR3> is allowed.

• Decimal values which are sent from the controller to this instrument can be sent in any of the forms to <NR3>. In this case, <NRf> appears.

• For response messages which are returned from this instrument to the controller, the form (<NR1> to <NR3> to be used) is determined by the query. The same form is used, irrespective of whether the value is large or small.

• In the case of <NR3>, the "+" after the "E" can be omitted, but the "–" cannot.

• If a value outside the setting range is entered, the value will be normalized so that it is just inside the range.

• If the value has more than the significant number of digits, the value will be rounded.

IM 701210-18E

• <Multiplier> and <Unit> are not case sensitive.

• "U" is used to indicate "µ."

• "MA" is used for Mega (M) to distinguish it from milli, except for in the case of Megahertz, which is expressed as "MHZ." Hence, it is not permissible to use "M" (milli) for Hertz.

• If both <Multiplier> and <Unit> are omitted, the default unit will be used.

• Response messages are always expressed in <NR3> form. Neither <Multiplier> nor <Unit> is used, therefore the default unit is used.

5-5

5.4 Data

<Register> indicates an integer, and can be expressed in hexadecimal, octal, or binary as well as a decimal number. <Register> is used when each bit of a value has a particular meaning. <Register> is expressed in one of the following forms.

Form Example

<NRf> 1 #H #H0F <Hexadecimal value made up of the digits 0 to 9, and A to F> #Q<Octal value made up of the digits 0 to 7> #Q777 #B<Binary value made up of the digits 0 and 1> #B001100

• <Register> is not case sensitive.

• Response messages are always expressed as <NR1>.

<Character data> is a specified string of character data (a mnemonic). It is mainly used to indicate options, and is chosen from the character strings given in { }. For interpretation rules, refer to “Header Interpretation Rules” on page 5-4.

<Character string data> is not a specified character string like <Character data>. It is an arbitrary character string. A character string must be enclosed in single quotation marks (') or double quotation marks (").

Form Example

<Character string data> 'ABC' "IEEE488.2-1992"

• Response messages are always enclosed in double quotation marks.

• If a character string contains a double quotation mark ("), the double quotation mark will be replaced by two concatenated double quotation marks (""). This rule also applies to a single quotation mark within a character string.

• <Character string data> is an arbitrary character string, therefore this instrument assumes that the remaining program message units are part of the character string if no single (') or double quotation mark (") is encountered. As a result, no error will be detected if a quotation mark is omitted.

Form Example

{AC|DC|DC50|GND} AC

• As with a header, the "COMMunicate:VERBose" command can be used to return a response message in its full form. Alternatively, the abbreviated form can be used.

• The "COMMunicate:HEADer" command does not affect <character data>.

<Boolean> is data which indicates ON or OFF, and is expressed in one of the following forms.

Form Example

{ON|OFF|<NRf>} ON OFF 1 0

• When <Boolean> is expressed in <NRf> form, OFF is selected if the rounded integer value is "0" and ON is selected if the rounded integer is "Not 0."

•A response message is always "1" if the value is ON and "0" if it is OFF.

Gives the name of a file. The format is as follows.

Form Example

{<NRf>|<Character data>| 1 CASE "CASE" <Character string>}

• If you input an <NRf> value, the system converts the value (after rounding to the nearest integer) to the corresponding 8-character ASCII string. (If you set the value to 1, the name becomes "00000001".) Note that negative values are not allowed.

• If you enter a <character data> argument that is longer than eight characters, only the first twelve characters are used.

• If you enter a <character data> or <character string> argument that is longer than eight characters, only the first sixteen characters are used.

• Response messages always return filenames as <character string> arguments.

5-6

IM 701210-18E

5.4 Data/5.5 Synchronization with the Controller

<Block data> is arbitrary 8-bit data. <Block data> is only used for response messages. Response messages are expressed in the following form.

Form Example

#N #800000010ABCDEFGHIJ <N-digit decimal value><Data byte string>

•#N Indicates that the data is <Block data>. "N" is an ASCII character string number (digits) which indicates the number of data bytes that follow.

• <N-digits decimal value> Indicates the number of bytes of data. (Example: 00000010=10 bytes)

• <Data byte string> The actual data. (Example: ABCDEFGHIJ)

• Data is comprised of 8-bit values (0 to 255). This means that the ASCII code "0AH," which stands for "NL," can also be a code used for data. Hence, care must be taken when programming the controller.

5.5 Synchronization with the Controller

Overlap Commands and Sequential Commands

There are two kinds of command; overlap commands and sequential commands. Execution of an overlap command may start before execution of the previously sent command is completed. The "CHANnel1:VDIV" command, for example, is a sequential command. Assume that you set a new V/ div value and immediately request return of the new value, as follows:

:CHANnel1:VDIV 5V;VIDV?<PMT>

In this case, the oscilloscope always returns the newest setting ("5V"). This is because it always completes processing of the current sequential command (in this case, "VDIV 5V") before moving on to the next command ("VDIV?"). In contrast, assume that you begin a file load and then immediately query the V/div value:

:FILE:LOAD:SETup:EXECute "CASE1";: CHANnel1:VDIV?

Because "FILE:LOAD:SETup:EXECute "CASE1"" is an overlapped command, the oscilloscope will advance to the "CHANNel1:VDIV?" command before it finishes the load. The returned V/div value will not show the newest setting, but will rather show the setting in use before the setup was changed. Obviously, use of overlapped commands may in some cases produce inappropriate results. Where necessary, you can avoid such problems as described below.

Before Programming

IM 701210-18E

Synchronization with an Overlap Command

Using the *WAI Command

The *WAI command causes the commands which follow it to wait until an overlap command has been executed. Example:COMMunicate:OPSE #0040;:FILE:

LOAD:SETup:EXECute "CASE1";*WAI;: CHANnel1:VDIV?<PMT>

The "COMMunicate:OPSE" command is used to designate which commands are to be subject to the *WAI command. In the above example, only auto setup is designated. Since a *WAI command is executed just before "CHANnel1:VDIV?," "CHANnel1:VDIV?" will not be executed until auto set-up has been completed.

5-7

5.5 Synchronization with the Controller

Using the COMMunicate:OVERlap Command

The "COMMunicate:OVERlap" command is used to enable or disable overlap operation. Example:COMMunicate:OVERlap #HFFBF;:FILE:

LOAD:SETup:EXECute "CASE1";: CHANnel1:VDIV:VALue?<PMT>

The "COMMunicate:OVERlap #HFFBF" command disables overlapped operation of the medium access command, while enabling all other overlap-type operations. The oscilloscope will therefore handle "FILE:LOAD:SETup:EXECute "CASE1"" as sequential command, ensuring that the "CHANnel1:VIDV?" command (in the above example) will not execute until file loading is completed.

Using the *OPC Command

The *OPC command causes the OPC bit (bit 0) of the standard event register (page 7-3) to be set to "1" when an overlap operation has been completed. Example:COMMunicate:OPSE #H0040;*ESE 1;

*ESR?;*SRE 32;:FILE:LOAD:SETup: EXECute "CASE1";*OPC<PMT>

(Response to *ESR? is decoded.) (Service request is awaited.)

CHANnel1:VDIV?<PMT>

The "COMMunicate:OPSE" command is used to designate which commands are to be subject to the *OPC command. In the above example, only medium access commands are designated. *ESE 1 and *SRE 32 stipulate that a service request is generated only when the OPC bit is set to "1." *ESR? is used to clear the standard event register. In the above example, "CHANnel1:VDIV?" will not be executed until a service request is generated.

Using the *OPC? Query

The *OPC? query generates a response when an overlap operation has been completed. Example:COMMunicate:OPSE #H0040;:FILE:

LOAD:SETup:EXECute "CASE1"; *OPC?<PMT> (Response to *OPC? is decoded.) :CHANnel1:VDIV?<PMT>

The "COMMunicate:OPSE" command is used to designate which commands are to be subject to the *OPC? command. In the above example, only medium access commands are designated. Since *OPC? does not generate a response until an overlap operation is completed, file loading will have been completed when a response to *OPC? is read.

Note

Most commands are sequential commands. Commands used in Chapter 6 are sequential commands unless otherwise specified.

Synchronization with Non-Overlap Commands

Synchronization is sometimes required for reasons other than communications-related reasons, such as the activation of a trigger, even if a sequential command is used. For example, if a “next program” message is transmitted to make an inquiry about the waveform data which has been acquired using single mode as the trigger mode, the "WAVeform:SEND?" command is sometimes executed whether acquisition has been completed or not, causing a command execution error.

:TRIGger:MODE SINGle;:STARt;:WAVeform: SEND?<PMT>

In this case, synchronization with the time at which acquisition is completed must be accomplished, as shown next.

5-8

Using STATus:CONDition? Query

A "STATus:CONDition?" query is used to make an query about the contents of the condition register (page 7-4). It is possible to judge whether acquisition is in progress or not by reading bit 0 of the condition register. Bit 0 is "1" if acquisition is in progress, and "0" if acquisition is stopped. Example:TRIGger:MODE SINGle;:STARt<PMT>

:STATus:CONDition?<PMT>

(Returns to the previous status if bit 0 is found to be "1" when the response is decoded.)

:WAVeform:SEND?<PMT>

A "WAVeform:SEND?" query will not be executed until bit 0 of the condition register has been set to

"0."

IM 701210-18E

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>

The "STATus:FILTer1 FALL" command sets the transition filter such that Bit 0 (FILTer1) of the Extended Event Register sets to 1 when Bit 0 of the Condition Register changes from 1 to 0. "STATus:EESE 1" is a command used only to reflect the status of bit 0 of the extended event register in the status byte. "STATus:EESR?" is used to clear the extended event register. The *SRE command is used to generate a service request caused solely by the extended event register. "WAVeform:SEND?" will not be executed until a service request is generated.

5.5 Synchronization with the Controller

Before Programming

Using the COMMunicate:WAIT Command

The "COMMunicate:WAIT" command halts communications until a specific event is generated. Example:STATus:FILTer1 FALL;:STATus:

EESR?;:TRIGger:MODE SINGle;: STARt<PMT> (Response to "STATus:EESR?" is decoded.) :COMMunicate:WAIT 1;:WAVeform: SEND?<PMT>

For a description of "STATus:FILTer1 FALL" and "STATus:EESR?," refer to “Using the extended event

register” on this page. "COMMunicate:WAIT 1" means that communications is halted until bit 0 of the extended event register is set to "1."

IM 701210-18E

5-9

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. 6-22 :ACQuire:AVERage? Queries all settings related to averaging. 6-22 :ACQuire:AVERage:COUNt Sets the waveform acquisition count or queries the current setting. 6-22 :ACQuire:AVERage:EWEight Sets the attenuation constant of exponential averaging or queries the

current setting. 6-22

:ACQuire:CLOCk Sets the time base or queries the current setting. 6-22 :ACQuire:COUNt Sets the waveform acquisition count when not in average mode or queries

the current setting. 6-22

:ACQuire:MODE Sets the waveform acquisition mode or queries the current setting. 6-22 :ACQuire:PROTate Sets pulse/rotate when applying external clock or queries the current

setting. 6-22

:ACQuire:RLENgth Sets the record length or queries the current setting. 6-22 :ACQuire:RTOut? Queries all settings related to realtime recording. 6-22 :ACQuire:RTOut:ANAMing Sets auto naming for realtime recording or queries the current setting. 6-22 :ACQuire:RTOut:COMMent Sets the comment for realtime recording or queries the current setting. 6-22 :ACQuire:RTOut:COUNt Sets the number of times to perform realtime recording or queries the

current setting. 6-23

:ACQuire:RTOut:FILename Sets the file name of auto naming of realtime recording or queries the

current setting. 6-23

:ACQuire:RTOut:MODE Sets whether to perform realtime recording or queries the current setting. 6-23 :ACQuire:RTOut:SEQuence Sets the realtime recording operation or queries the current setting. 6-23

ASETup Group

:ASETup? Queries all settings related to auto setup. 6-23 :ASETup:ADJust Sets the center position after auto setup or queries the current setting. 6-23 :ASETup:EXECute Executes auto setup. 6-23 :ASETup:TARGet Sets the target channel for auto setup or queries the current setting. 6-23 :ASETup:UNDO Cancels auto setup. 6-23

CALibrate Group

:CALibrate? Queries all settings related to the calibration. 6-24 :CALibrate[:EXECute] Executes the calibration. 6-24 :CALibrate:MODE Sets whether to perform auto calibration or queries the current setting. 6-24

CAPTure Group

:CAPTure? Queries all settings related to dual capture. 6-26 :CAPTure:ACTion:MAIL? Queries all settings related to the mail transmission during dual capture. 6-26 :CAPTure:ACTion:MAIL:COUNt Sets the upper limit on the number of transmitted mail during dual capture or

queries the current setting. 6-26

:CAPTure:ACTion:MAIL:MODE Sets whether to send a mail during dual capture or queries the current setting. 6-26 :CAPTure:ALLocation? Queries all settings related to the waveforms displayed using dual capture. 6-26 :CAPTure:ALLocation:ALL Sets all waveforms to be displayed using dual capture. 6-26 :CAPTure:ALLocation:{CHANnel<X>|PODA|PODB|DSP<X>}

Sets the waveform to be displayed using dual capture or queries the current setting.

:CAPTure:BITDisp Sets the dual capture event bit or queries the current setting. 6-27 :CAPTure:CAPNum Sets the capture number or queries the current setting. 6-27 :CAPTure:CAPNum? MAXimum Queries the maximum record number of dual capture waveforms

(when the trigger mode is set to Log). 6-27

:CAPTure:CAPNum? MINimum Queries the minimum record number of dual capture waveforms

(when the trigger mode is set to Auto). 6-27

:CAPTure:FORMat Sets the format of the waveform to be displayed using dual capture or

queries the current setting. 6-27

:CAPTure:MAG Sets the zoom rate of the sub waveform window or queries the current

setting. 6-27

:CAPTure:MODE Sets whether or not to perform dual capture or queries the current setting. 6-27 :CAPTure:POSition Sets the horizontal position of the sub waveform window or queries the

current setting. 6-27

:CAPTure:TDIV Sets the T/div value of the capture or queries the current setting. 6-27 :CAPTure:WINDow Sets the display position and size of the sub waveform window or queries

the current setting. 6-27

Commands

IM 701210-18E

6-1

6.1 A List of Commands

Command Function Page CHANnel Group

:CHANnel<x>? Queries all settings related to the vertical axis of the channel. 6-35 :CHANnel<x>:ACCL? Queries all settings related to the acceleration/voltage module. 6-35 :CHANnel<x>:ACCL:BIAS Turns ON/OFF the bias current supply to the acceleration sensor when the

:CHANnel<x>:ACCL:BWIDth Sets the bandwidth limit when the acceleration/voltage module is installed

:CHANnel<x>:ACCL:COUPling Sets the input coupling when the acceleration/voltage module is installed or

:CHANnel<x>:ACCL:GAIN Sets the gain when the acceleration/voltage module is installed or queries the

:CHANnel<x>:ACCL:SCALe Sets the upper and lower limits on the screen when the acceleration/voltage

:CHANnel<x>:ACCL:SENSitivity Sets the sensitivity when the acceleration/voltage module is installed or

:CHANnel<x>:ACCL:UNIT Sets the unit when the acceleration/voltage module is installed or queries

:CHANnel<x>:ACCL:VARiable Sets the variable when the acceleration/voltage module is installed or queries

:CHANnel<x>:ACCL:ZOOM Sets the vertical zoom rate when the acceleration/voltage module is installed

:CHANnel<x>:DISPlay Turns ON/OFF the waveform display of the channel or queries the current

:CHANnel<x>:FREQ? Queries all settings related to the frequency module. 6-36 :CHANnel<x>:FREQ:INPut? Queries all settings related to the input when the frequency module is

:CHANnel<x>:FREQ:INPut:BWIDth Sets the bandwidth limit when the frequency module is installed or queries

:CHANnel<x>:FREQ:INPut:CELimination Sets the chatter elimination when the frequency module is installed or queries

:CHANnel<x>:FREQ:INPut:COUPling Sets the input coupling when the frequency module is installed or queries

:CHANnel<x>:FREQ:INPut:HYSTeresis Sets the hysteresis when the frequency module is installed or queries the

:CHANnel<x>:FREQ:INPut:PRESet Sets the preset when the frequency module is installed or queries the

:CHANnel<x>:FREQ:INPut:PROBe Sets the probe attenuation when the frequency module is installed or

:CHANnel<x>:FREQ:INPut:PULLup Turns ON/OFF the pull-up when the frequency module is installed or

:CHANnel<x>:FREQ:INPut:SLOPe Sets the slope when the frequency module is installed or queries the

:CHANnel<x>:FREQ:INPut:THReshold Sets the threshold level when the frequency module is installed or queries

:CHANnel<x>:FREQ:INPut:VRANGe Sets the voltage range when the frequency module is installed or queries

:CHANnel<x>:FREQ:LSCale? Queries all settings related to linear scaling when the frequency module is

:CHANnel<x>:FREQ:LSCale:AVALue Sets scaling coefficient A when the frequency module is installed or queries

:CHANnel<x>:FREQ:LSCale:BVALue Sets offset B when the frequency module is installed or queries the

:CHANnel<x>:FREQ:LSCale:GETMeasure Executes the measurement of the P1:X|P2:X values of linear scaling when

:CHANnel<x>:FREQ:LSCale:MODE Sets linear scaling when the frequency module is installed or queries the

:CHANnel<x>:FREQ:LSCale:{P1X|P1Y|P2X|P2Y}

:CHANnel<x>:FREQ:LSCale:UNIT Sets the unit to be added to the result of linear scaling when the frequency

:CHANnel<x>:FREQ:OFFSet Sets offset value when the frequency module is installed or queries the

:CHANnel<x>:FREQ:POSition Sets the vertical position when the frequency module is installed or queries

acceleration/voltage module is installed or queries the current setting. 6-35

or queries the current setting. 6-35

queries the current setting. 6-35

current setting. 6-35

module is installed or queries the current setting. 6-35

queries the current setting. 6-35

the current setting. 6-36

or queries the current setting. 6-36

setting. 6-36

installed. 6-36

the current setting. 6-36

the current setting. 6-37

current setting. 6-37

queries the current setting. 6-37

current setting. 6-37

the current setting. 6-37

the current setting. 6-38

installed. 6-38

the current setting. 6-38

current setting. 6-38

the frequency module is installed. 6-38

current setting. 6-38

Sets the P1:X|P1:Y|P2:X|P2:Y values when the frequency module is installed or queries the current setting. 6-38

module is installed or queries the current setting. 6-38

current setting. 6-39

the current setting. 6-39

6-2

IM 701210-18E

6.1 A List of Commands

Command Function Page

:CHANnel<x>:FREQ:SCALe Sets the upper and lower limits when the frequency module is installed or

:CHANnel<x>:FREQ:SETup? Queries all settings related to FV setup when the frequency module is

:CHANnel<x>:FREQ:SETup:CFRequency Sets the center frequency when the frequency module is installed or

:CHANnel<x>:FREQ:SETup:DECeleration Turns ON/OFF the deceleration prediction when the frequency module is

:CHANnel<x>:FREQ:SETup:DPULse Sets the distance per pulse when the frequency module is installed or

:CHANnel<x>:FREQ:SETup:FILTer? Queries all settings related to the filter when the frequency module is

:CHANnel<x>:FREQ:SETup:FILTer:SMOothing?

:CHANnel<x>:FREQ:SETup:FILTer:SMOothing:MODE

:CHANnel<x>:FREQ:SETup:FILTer:SMOothing:VALue

:CHANnel<x>:FREQ:SETup:FILTer:PAVerage?

:CHANnel<x>:FREQ:SETup:FILTer:PAVerage:MODE

:CHANnel<x>:FREQ:SETup:FILTer:PAVerage:VALue

:CHANnel<x>:FREQ:SETup:FUNCtion Sets the measurement mode when the frequency module is installed or

:CHANnel<x>:FREQ:SETup:LRESet Sets the over-range reset when the frequency module is installed or queries

:CHANnel<x>:FREQ:SETup:MPULse Sets the measurement pulse when the frequency module is installed or

:CHANnel<x>:FREQ:SETup:PROTate Sets the number of pulses per rotation when the frequency module is

:CHANnel<x>:FREQ:SETup:RESet Executes pulse count reset when the frequency module is installed. 6-41 :CHANnel<x>:FREQ:SETup:STOPpredict Turns ON/OFF the stop prediction when the frequency module is installed

:CHANnel<x>:FREQ:SETup:TUNit Sets the time unit when the frequency module is installed or queries the

:CHANnel<x>:FREQ:SETup:UNIT Sets the unit of pulse integration when the frequency module is installed or

:CHANnel<x>:FREQ:SETup:UPULse Sets the unit/pulse when the frequency module is installed or queries the

:CHANnel<x>:FREQ:SETup:VUNit Sets the unit of velocity when the frequency module is installed or queries

:CHANnel<x>:FREQ:VARiable Sets the variable when the frequency module is installed or queries the

:CHANnel<x>:FREQ:VDIV Sets Value/Div when the frequency module is installed or queries the

:CHANnel<x>:FREQ:ZOOM Sets the vertical zoom rate when the frequency module is installed or

:CHANnel<x>:LABel Sets the waveform label of the channel or queries the current setting. 6-42 :CHANnel<x>:MODUle? Queries the installed modules. 6-42 :CHANnel<x>:STRain? Queries all settings related to the strain module. :CHANnel<x>:STRain:BALance? Queries all settings related to the balance when the strain module1 is

:CHANnel<x>:STRain:BALance:CHANnel<x>

:CHANnel<x>:STRain:BALance:EXECute Executes the balance when the strain module1 is installed. 6-43

queries the current setting. 6-39

installed. 6-39

queries the current setting. 6-39

installed or queries the current setting. 6-39

queries the current setting. 6-39

installed. 6-39

Queries all settings related to smoothing when the frequency module is installed. 6-40

Turns ON/OFF smoothing when the frequency module is installed or queries the current setting. 6-40

Sets the moving average order of smoothing when the frequency module is installed or queries the current setting. 6-40

Queries all settings related to pulse average when the frequency module is installed. 6-40

Turns ON/OFF pulse average when the frequency module is installed or queries the current setting. 6-40

Sets the number of times to perform pulse average when the frequency module is installed or queries the current setting. 6-40

queries the current setting. 6-40

the current setting. 6-41

queries the current setting. 6-41

installed or queries the current setting. 6-41

or queries the current setting. 6-41

current setting. 6-41

queries the current setting. 6-41

current setting. 6-41

the current setting. 6-42

current setting. 6-42

queries the current setting. 6-42

installed. 6-43

Sets the channel on which to execute the balance when the strain module is installed or queries the current setting. 6-43

6-42

Commands

IM 701210-18E

6-3

6.1 A List of Commands

Command Function Page

:CHANnel<x>:STRain:BWIDth Sets the filter when the strain module1 is installed or queries the current

:CHANnel<x>:STRain:EXCitation Sets the bridge voltage when the strain module1 is installed or queries the

:CHANnel<x>:STRain:GFACtor Sets the gauge factor when the strain module

:CHANnel<x>:STRain:INVert Sets whether to invert the waveform when the strain module is installed or

:CHANnel<x>:STRain:LSCale? Queries all settings related to linear scaling of the channel when the strain

:CHANnel<x>:STRain:LSCale:AVALue Sets scaling coefficient A when the strain module1 is installed or queries

:CHANnel<x>:STRain:LSCale:BVALue Sets offset B when the strain module1 is installed or queries the current

:CHANnel<x>:STRain:LSCale:DISPlaytype?

:CHANnel<x>:STRain:LSCale:DISPlaytype:MODE

:CHANnel<x>:STRain:LSCale:DISPlaytype:DECimalnum

:CHANnel<x>:STRain:LSCale:DISPlaytype:SUBunit

:CHANnel<x>:STRain:LSCale:GETMeasure

:CHANnel<x>:STRain:LSCale:MODE Turns ON/OFF linear scaling when the strain module1 is installed (SHUNt

:CHANnel<x>:STRain:LSCale:{P1X|P1Y|P2X|P2Y}

:CHANnel<x>:STRain:LSCale:SHUNt Executes the shunt calibration when the strain module1 is installed (only

:CHANnel<x>:STRain:LSCale:UNIT Sets the unit to be added to the result of linear scaling when the strain

:CHANnel<x>:STRain:RANGe Sets the measurement range when the strain module1 is installed or

:CHANnel<x>:STRain:SCALe Sets the upper and lower limits on the screen when the strain module1 is

:CHANnel<x>:STRain:UNIT Sets the unit when the strain module1 is installed or queries the current

:CHANnel<x>:TEMPerature? Queries all settings related to the Temperature, High Precision Voltage

:CHANnel<x>:TEMPerature:BURNout Sets whether to detect burnouts when the Temperature, High Precision

:CHANnel<x>:TEMPerature:BWIDth Sets the filter when the Temperature, High Precision Voltage Isolation

:CHANnel<x>:TEMPerature:COUPling Sets the input coupling when the Temperature, High Precision Voltage

:CHANnel<x>:TEMPerature:RJC Sets the RJC when the Temperature, High Precision Voltage Isolation

:CHANnel<x>:TEMPerature:SCALe Sets the upper and lower limits on the screen when the Temperature, High

:CHANnel<x>:TEMPerature:TYPE Sets the thermocouple to be used when the Temperature, High Precision

:CHANnel<x>:TEMPerature:UNIT Sets the unit of the upper and lower limits when the Temperature, High

:CHANnel<x>:UNIT? Queries the unit added to the channel. 6-46

setting. 6-43

current setting. 6-43

is installed or queries the

current setting. 6-43

queries the current setting. 6-43

module

is installed. 6-43

the current setting. 6-44

setting. 6-44

Queries all settings related to the display type when using linear scaling. 6-44

Sets the display mode when using linear scaling or queries the current setting. 6-44

Sets the decimal point position when the display type is Float when using linear scaling or queries the current setting. 6-44

Sets the sub unit when the display type is Float when using linear scaling or queries the current setting. 6-44

Executes the measurement of the P1:X|P2:X values of linear scaling when the strain module1 is installed. 6-44

can be specified only on the Strain Module (DSUB, Shunt-Cal)) or queries the current setting. 6-44

Sets the P1:X|P1:Y|P2:X|P2:Y values of linear scaling when the strain module1 is installed or queries the current setting. 6-45

on the Strain Module (DSUB, Shunt-Cal)). 6-45

module1 is installed or queries the current setting. 6-45

queries the current setting. 6-45

installed or queries the current setting. 6-45

setting. 6-45

Isolation Module. 6-45

Voltage Isolation Module is installed or queries the current setting. 6-45

Module is installed or queries the current setting. 6-46

Isolation Module is installed or queries the current setting. 6-46

Module is installed or queries the current setting. 6-46

Precision Voltage Isolation Module is installed or queries the current setting. 6-46

Voltage Isolation Module is installed or queries the current setting. 6-46

Precision Voltage Isolation Module is installed or queries the current setting. 6-46

6-4

IM 701210-18E

6.1 A List of Commands

Command Function Page

:CHANnel<x>:VOLTage? Queries all settings related to the voltage module. :CHANnel<x>[:VOLTage]:BWIDth Sets the bandwidth limit when the voltage module

the current setting. 6-47

:CHANnel<x>[:VOLTage]:COUPling Sets the input coupling when the voltage module

the current setting. 6-47

:CHANnel<x>[:VOLTage]:INVert Sets whether to invert the waveform when the voltage module2 is installed or

queries the current setting. 6-47

:CHANnel<x>[:VOLTage]:LSCale? Queries all settings related to linear scaling when the voltage module2 is

installed. 6-47

:CHANnel<x>[:VOLTage]:LSCale:AVALue Sets scaling coefficient A when the voltage module2 is installed or

queries the current setting. 6-47

:CHANnel<x>[:VOLTage]:LSCale:BVALue Sets offset B when the voltage module2 is installed or queries the

current setting. 6-47

:CHANnel<x>[:VOLTage]:LSCale:DISPlaytype?

Queries all settings related to the display type when using linear scaling. 6-47

:CHANnel<x>[:VOLTage]:LSCale:DISPlaytype:MODE

Sets the display mode when using linear scaling or queries the current setting. 6-48

:CHANnel<x>[:VOLTage]:LSCale:DISPlaytype:DECimalnum

Sets the decimal point position when the display type is Float when using linear scaling or queries the current setting. 6-48

:CHANnel<x>[:VOLTage]:LSCale:DISPlaytype:SUBunit

Sets the sub unit when the display type is Float when using linear scaling or queries the current setting. 6-48

:CHANnel<x>[:VOLTage]:LSCale:GETMeasure

Executes the measurement of the P1:X|P2:X values of linear scaling when the voltage module2 is installed. 6-48

:CHANnel<x>[:VOLTage]:LSCale:MODE Sets linear scaling when the voltage module2 is installed or queries the

current setting. 6-48

:CHANnel<x>[:VOLTage]:LSCale:{P1X|P1Y|P2X|P2Y}

Sets the P1:X|P1:Y|P2:X|P2:Y values of linear scaling when the voltage module2 is installed or queries the current setting. 6-48

:CHANnel<x>[:VOLTage]:LSCale:UNIT Sets the unit to be added to the result of linear scaling when the voltage

module2 is installed or queries the current setting. 6-48

:CHANnel<x>[:VOLTage]:OFFSet Sets the offset voltage when the voltage module2 is installed or queries

the current setting. 6-48

:CHANnel<x>[:VOLTage]:POSition Sets the vertical position when the voltage module2 is installed or

queries the current setting. 6-49

:CHANnel<x>[:VOLTage]:PROBe Sets the probe attenuation when the voltage module2 is installed or

queries the current setting. 6-49

:CHANnel<x>:[VOLTage]:SCALe Sets the upper and lower limits on the screen when the voltage module2 is

installed or queries the current setting. 6-49

:CHANnel<x>:[VOLTage]:VARiable Sets the variable when the voltage module2 is installed or queries the

current setting. 6-49

:CHANnel<x>[:VOLTage]:VDIV Sets V/div when the voltage module2 is installed or queries the current setting.6-49 :CHANnel<x>[:VOLTage]:ZOOM Sets the vertical zoom rate when the voltage module2 is installed or

queries the current setting. 6-49 1 Strain module refers to the Strain Module (NDIS) and the Strain Module (DSUB, Shunt-Cal). 2 Voltage module refers to the High-Speed 10 MS/s, 12-Bit Isolation Module; the High-Speed High-Resolution 1 MS/s, 16-Bit

Isolation Module; the High-Speed 10 MS/s, 12-Bit Non-Isolation Module; and the High-Voltage 100kS/s, 16-Bit Isolation Module (with RMS).

CLEar Group

:CLEar Executes clear trace. 6-50

COMMunicate Group

:COMMunicate? Queries all settings related to communications. 6-51 :COMMunicate:HEADer Sets whether to attach a header to the response data or queries the

current setting. 6-51

:COMMunicate:LOCKout Sets or clears local lockout. 6-51 :COMMunicate:OPSE Sets the overlap command that is used by the *OPC, *OPC?, and

*WAI commands or queries the current setting. 6-52

2 2

is installed or queries

6-46

Commands

IM 701210-18E

6-5

6.1 A List of Commands

Command Function Page

:COMMunicate:OPSR? Queries the operation pending status register. 6-52 :COMMunicate:OVERlap Sets the commands that will operate as overlap commands or queries

:COMMunicate:REMote Switches between remote and local. 6-52 :COMMunicate:STATus? Queries line-specific status. 6-52 :COMMunicate:VERBose Sets whether to use abbreviated or unabbreviated form for response data. 6-52 :COMMunicate:WAIT Waits for an extended event to occur. 6-52 :COMMunicate:WAIT? Creates a response for the specified extended event. 6-52

CURSor Group

:CURSor? Queries all settings related to cursor measurements. 6-56 :CURSor[:TY]? Queries all settings related to the cursor of the T-Y display. 6-56 :CURSor[:TY]:DEGRee? Queries all settings related to the angle cursor. 6-56 :CURSor[:TY]:DEGRee:DX? Queries the angle difference ∆D between angle cursors. 6-56 :CURSor[:TY]:DEGRee:DY? Queries the ∆V value between angle cursors. 6-56 :CURSor[:TY]:DEGRee:JUMP Jumps the angle cursor onto the zoom waveform. 6-56 :CURSor[:TY]:DEGRee:POSition<x> Sets the angle cursor position or queries the current setting. 6-56 :CURSor[:TY]:DEGRee:REFerence<x> Sets the position of the start point (Reference 1) or the end point

:CURsor[:TY]:DEGRee:RVALue Sets the reference angle of the angle cursor or queries the current setting. 6-56 :CURSor[:TY]:DEGRee:TRACe Sets the target waveform of the angle cursor or queries the current setting. 6-57 :CURSor[:TY]:DEGRee:X<x>? Queries the angle of the angle cursor. 6-57 :CURSor[:TY]:DEGRee:Y<x>? Queries the voltage of the angle cursor. 6-57 :CURSor[:TY]:HORizontal? Queries all settings related to H cursor. 6-57 :CURSor[:TY]:HORizontal:DY? Queries the Y-axis value between the H cursors. 6-57 :CURSor[:TY]:HORizontal:POSition<x> Sets the H cursor position or queries the current setting. 6-57 :CURSor[:TY]:HORizontal:TRACe Sets the target waveform of the H cursor or queries the current setting. 6-57 :CURSor[:TY]:HORizontal:Y<x>? Queries the Y-axis value of the H cursor. 6-57 :CURSor[:TY]:LOGic? Queries all settings related to the logic display of the T-Y display. 6-57 :CURSor[:TY]:LOGic:FORMat Sets the numerical notation of the logic display of the T-Y display. 6-57 :CURSor[:TY]:LOGic:ORDer Sets the higher/lower bit of the logic display of the T-Y display. 6-57 :CURSor[:TY]:MARKer? Queries all settings related to the marker cursor. 6-57 :CURSor[:TY]:MARKer:DX<x>? Queries the X-axis value between the marker cursors. 6-58 :CURSor[:TY]:MARKer:DY<x>? Queries the physical value of the Y-axis between the marker cursors. 6-58 :CURSor[:TY]:MARKer:M<x>? Queries all settings related to the specified marker cursor. 6-58 :CURSor[:TY]:MARKer:M<x>:JUMP Jumps the marker cursor onto the zoom waveform. 6-58 :CURSor[:TY]:MARKer:M<x>:POSition Sets the X-axis value at the marker cursor position or queries the current

:CURSor[:TY]:MARKer:M<x>:TRACe Sets the target waveform of the marker cursor or queries the current setting. 6-58 :CURSor[:TY]:MARKer:X<x>? Queries the X-axis value at the marker cursor position. 6-58 :CURSor[:TY]:MARKer:Y<x>? Queries the Y-axis value at the marker cursor position. 6-58 :CURSor[:TY]:TYPE Sets the cursor type or queries the current setting. 6-58 :CURSor[:TY]:VERTical? Queries all settings related to V cursor. 6-58 :CURSor[:TY]:VERTical:DX? Queries the X-axis value between the V cursors. 6-59 :CURSor[:TY]:VERTical:DY? Queries the Y-axis value between the V cursors. 6-59 :CURSor[:TY]:VERTical:JUMP Jumps the V cursor onto the zoom waveform. 6-59 :CURSor[:TY]:VERTical:PERDt? Queries the 1/∆T value between V cursors. 6-59 :CURSor[:TY]:VERTical:POSition<x> Sets the V cursor position or queries the current setting. 6-59 :CURSor[:TY]:VERTical:TRACe Sets the target waveform of the V cursor or queries the current setting. 6-59 :CURSor[:TY]:VERTical:X<x>? Queries the X-axis value at the V cursor position. 6-59 :CURSor[:TY]:VERTical:Y<x>? Queries the Y-axis value at the V cursor position. 6-59 :CURSor:XY? Queries all settings related to the cursor of the X-Y display. 6-59 :CURSor:XY:HORizontal? Queries all settings related to the H cursor of the X-Y display. 6-59 :CURSor:XY:HORizontal:DY? Queries the Y-axis value between H cursors of the X-Y display. 6-60 :CURSor:XY:HORizontal:POSition<x> Sets the H cursor position of the X-Y display or queries the current setting. 6-60 :CURSor:XY:HORizontal:STRACe Sets the target waveform of the H cursor of the X-Y display when in Single

:CURSor:XY:HORizontal:TRACe Sets the target waveform of the H cursor of the X-Y display or queries the

:CURSor:XY:HORizontal:Y<x>? Queries the Y-axis value of the H cursor of the X-Y display. 6-60 :CURSor:XY:MARKer? Queries all settings related to the marker cursor of the X-Y display. 6-60 :CURSor:XY:MARKer:POSition Sets the X-axis value at the marker cursor position of the X-Y display or

:CURSor:XY:MARKer:STRACe Sets the target waveform of the marker cursor of the X-Y display when in

the current setting. 6-52

(Reference 2) of the angle reference or queries the current setting. 6-56

setting. 6-58

mode or queries the current setting. 6-60

current setting. 6-60

queries the current setting. 6-60

Single mode or queries the current setting. 6-60

6-6

IM 701210-18E

6.1 A List of Commands

Command Function Page

:CURSor:XY:MARKer:T? Queries the time value of the marker cursor of the X-Y display. 6-60 :CURSor:XY:MARKer:TRACe Sets the target waveform of the marker cursor of the X-Y display or queries

the current setting. 6-60

:CURSor:XY:MARKer:X? Queries the X-axis value at the marker cursor position of the X-Y display. 6-60 :CURSor:XY:MARKer:Y? Queries the Y-axis value at the marker cursor position of the X-Y display. 6-60 :CURSor:XY:TYPE Sets the cursor type of the X-Y display or queries the current setting. 6-61 :CURSor:XY:VERTical? Queries all settings related to the V cursor of the X-Y display. 6-61 :CURSor:XY:VERTical:DX? Queries the X-axis value between V cursors of the X-Y display. 6-61 :CURSor:XY:VERTical:POSition<x> Sets the V cursor position of the X-Y display or queries the current setting. 6-61 :CURSor:XY:VERTical:STRACe? Queries the target waveform of the V cursor of the X-Y display when in

Single mode. 6-61 :CURSor:XY:VERTical:TRACe Sets the target waveform of the V cursor of the X-Y display or queries the

current setting. 6-61 :CURSor:XY:VERTical:X<x>? Queries the X-axis value at the V cursor position of the X-Y display. 6-61

DISPlay Group

:DISPlay? Queries all settings related to the display. 6-64 :DISPlay:ACCumulate? Queries all settings related to the accumulated display of waveforms. 6-65 :DISPlay:ACCumulate:MODE Sets the accumulate mode or queries the current setting. 6-65 :DISPlay:ACCumulate:PERSistence Sets the accumulate count or queries the current setting. 6-65 :DISPlay:COLor? Queries all settings related to the color. 6-65 :DISPlay:COLor:{CHANnel<x>|MATH<x>|DSP<x>|PodA|PodB|EVENt}

Sets the color of the waveform or queries the current setting. 6-65 :DISPlay:COLor:{BACK|CAPTure} Sets the color of the background or the sub waveform window or queries

the current setting. 6-65

:DISPlay:COLor:BASecolor Sets the basic color of the menu or queries the current setting. 6-65 :DISPlay:DECimation Sets the number of decimation points or queries the current setting. 6-65 :DISPlay:ESIZe Sets the extra window size or queries the current setting. :DISPlay:EWINdow Turns ON/OFF the extra window or queries the current setting. 6-65 :DISPlay:FORMat Sets the display format or queries the current setting. 6-65 :DISPlay:GRATicule Sets the grid (graticule) or queries the current setting. 6-66 :DISPlay:INTENsity? Queries all settings related to the brightness of the displayed items. 6-66 :DISPlay:INTENsity:{CURSor|MENU|GRID|SNAP|WAVeform|MARKer|CAPTure|BACK}

Sets the brightness of the display item or queries the current setting. 6-66

:DISPlay:INTerpolate Sets the interpolation method or queries the current setting. 6-66 :DISPlay:MAPPing Sets the mode of the waveform mapping to the split screen or queries the

current setting. 6-66

:DISPlay:MONitor Sets the monitor display or queries the current setting. 6-66 :DISPlay:SMAPping? Queries all the settings related to the waveform mapping to the split screen. 6-66 :DISPlay:SMAPping:{CHANnel<x>|MATH<x>|PODA|PODB|EVENt|DSP<x>}

Sets the waveform mapping to the split screen or queries the current setting. 6-66

:DISPlay:SVALue Turns ON/OFF the scale value display or queries the current setting. 6-66 :DISPlay:TLABel Turns ON/OFF the waveform label display or queries the current setting. 6-66 :DISPlay:TRANslucent Turns ON/OFF the translucent mode of the pop-up menu or queries the

current setting. 6-66

Commands

DSP Group

:DSP<x>? Queries all settings related to the DSP channel. 6-69 :DSP<x>:DIFFerential? Queries the settings related to the differentiation of the DSP channel. 6-69 :DSP<x>:DIFFerential:CUToff Sets the low-pass filter cutoff of the differentiation of the DSP channel or

queries the current setting. 6-69 :DSP<x>:DIFFerential:FILTer Turns ON/OFF the low-pass filter cutoff of the differentiation of the DSP

channel or queries the current setting. 6-69 :DSP<x>:DISPlay Turns ON/OFF the waveform display of the DSP channel or queries the

current setting. 6-69

:DSP<x>:FILTer? Queries the settings related to the filter of the DSP channel. 6-69 :DSP<x>:FILTer:BAND

Sets the filter bandwidth of the DSP channel or queries the current setting. 6-69 :DSP<x>:FILTer:CFREquency Sets the filter center frequency of the DSP channel or queries the current

setting. 6-69 :DSP<x>:FILTer:CUToff Sets the filter cutoff frequency of the DSP channel or queries the current

setting. 6-69 :DSP<x>:FILTer:PBANd Sets the bandwidth limit of the band-pass filter of the DSP channel or

queries the current setting. 6-70 :DSP<x>:FILTer:TAP Sets the filter tap of the DSP channel or queries the current setting. 6-70

IM 701210-18E

6-7

6.1 A List of Commands

Command Function Page

:DSP<x>:FILTer:TYPE

:DSP<x>:FUNCtion? Sets the addition, subtraction, multiplication, and division with coefficients

:DSP<x>:FUNCtion:AVALue Sets constant A of the addition, subtraction, multiplication, and division

:DSP<x>:FUNCtion:BVALue Sets constant B of the addition, subtraction, multiplication, and division

:DSP<x>:FUNCtion:CVALue Sets constant C of the addition, subtraction, multiplication, and division

:DSP<x>:FUNCtion:EXPRession Sets the definition of the addition, subtraction, multiplication, and division

:DSP<x>:INTegral? Queries the settings related to the integration of the DSP channel. 6-70 :DSP<x>:INTegral:NEGEdge Sets whether to reset the integration of the DSP channel at zero crossing

:DSP<x>:INTegral:OVERrange Sets whether to reset the integration of the DSP channel at over-range

:DSP<x>:INTegral:POSEdge Sets whether to reset the integration of the DSP channel at zero crossing

:DSP<x>:KNOCkflt? Queries the settings related to the knocking filter of the DSP channel. 6-71 :DSP<x>:KNOCkflt:ELEVel Sets the elimination level of the DSP channel or queries the current setting. 6-71 :DSP<x>:LABel Sets the label of the DSP channel or queries the current setting. 6-71 :DSP<x>:OPERation Sets the computation definition of the DSP channel or queries the current

:DSP<x>:OPTimize Executes the range optimization of the DSP channel. 6-71 :DSP<x>:POSition Sets the position of the DSP channel or queries the current setting. 6-71 :DSP<x>:SCALe Sets the scale of the DSP channel or queries the current setting. 6-72 :DSP<x>:UNIT Sets the unit of the DSP channel or queries the current setting. 6-72 :DSP<x>:VARiable Sets the variable of the DSP channel or queries the current setting. 6-72 :DSP<x>:VDIV Sets the Value/Div of the DSP channel or queries the current setting. 6-72 :DSP<x>:ZOOM Sets the zoom rate of the DSP channel or queries the current setting. 6-72

EVENt Group

:EVENt? Queries all settings related to the event waveform. 6-73 :EVENt:DCAPuture Sets the dual capture event of the event waveform or queries the current

:EVENt:DISPlay Turns ON/OFF the event waveform display or queries the current setting. 6-73 :EVENt:LABel Sets the event waveform label or queries the current setting. 6-73 :EVENt:POSition Sets the vertical position of the event waveform or queries the current setting. 6-73 :EVENt:VOICe Sets the voice event of the event waveform or queries the current setting. 6-73 :EVENt:ZOOM Sets the vertical zoom of the event waveform or queries the current setting. 6-73

FILE Group

:FILE? Queries all settings related to the storage medium. 6-77 :FILE:DELete:{ASCii|BINary|BMP|FLOat|MEASure|PDF|POSTscript|REALtime|SETup|SNAP|JPEG|PNG}[:EXECute]

:FILE:DIRectory? Queries all settings related to the directory of the storage medium. 6-77 :FILE[:DIRectory]:CDIRectory Changes the directory of the storage medium. 6-77 :FILE[:DIRectory]:DRIVe Sets the storage medium to be controlled. 6-77 :FILE[:DIRectory]:FILTer Sets the filter of the target filter or queries the current setting. 6-77 :FILE[:DIRectory]:FREE? Queries the free disk space (bytes) on the target storage medium. 6-77 :FILE[:DIRectory]:MDIRectory Creates a directory in the current directory. 6-77 :FILE[:DIRectory]:PATH? Queries the current directory. 6-77 :FILE:LOAD:{BINary|REALtime|SETup|SNAP}:ABORt

:FILE:LOAD:{BINary|REALtime|SETup|SNAP}[:EXECute]

:FILE:SAVE? Queries all settings related to the saving of files. 6-78 :FILE:SAVE:ANAMing Sets the auto naming function of the saved files or queries the current

:FILE:SAVE:{ASCii|BINary|FLOat}? Queries all settings related to the saving of the data. 6-78 :FILE:SAVE:{ASCii|BINary|FLOat|MEASure|SETup|SNAP}:ABORt

Sets the filter type of the DSP channel or queries the current setting. 6-70

of the DSP channel or queries the current setting. 6-70

with coefficients of the DSP channel or queries the current setting. 6-70

points (negative) or queries the current setting. 6-71

points or queries the current setting. 6-71

points (positive) or queries the current setting. 6-71

setting. 6-71

setting. 6-73

Executes the deletion of the data file. 6-77

Aborts the loading of the data. 6-77

Executes the loading of the data. 6-78

setting. 6-78

Aborts the save operation. 6-78

6-8

IM 701210-18E

6.1 A List of Commands

Command Function Page

:FILE:SAVE:{ASCii|BINary|FLOat|MEASure|SETup|SNAP}[:EXECute]

Executes the saving of the file. 6-78

:FILE:SAVE:{ASCii|BINary|FLOat}:HISTory

Sets the save target of the history memory or queries the current setting. 6-78

:FILE:SAVE:{ASCii|BINary|FLOat}:RANGe

Sets the range of data to be saved or queries the current setting. 6-78

:FILE:SAVE:{ASCii|BINary|FLOat}:TRACe

Sets the waveform to be saved or queries the current setting. 6-78

:FILE:SAVE:ASCii:INTerval Sets the decimation interval for saving data or queries the current setting. 6-78 :FILE:SAVE:BINary:COMPression Sets the data compression of the waveform to be saved or queries the

current setting. 6-78

:FILE:SAVE:COMMent Sets the comment or queries the current setting. 6-79 :FILE:SAVE:NAME Sets the name of the saved file or queries the current setting. 6-79

GONogo Group

:GONogo? Queries all settings related to the GO/NO-GO determination. 6-83 :GONogo:ABORt Aborts the GO/NO-GO determination. 6-83 :GONogo:ACONdition Sets the criteria for the action of the GO/NO-GO determination or

queries the current setting. 6-83 :GONogo:ACTion? Queries all settings related to the action taken when the execution

condition is met and the criteria values. 6-83 :GONogo:ACTion:BUZZer Sets whether a beep is sounded when the execution condition is met or

queries the current setting. 6-83 :GONogo:ACTion:HCOPy Sets whether to print the screen image to the built-in printer or an external

printer when the execution condition is met or queries the current setting. 6-83 :GONogo:ACTion:IMAGe Sets whether to save the screen image to the external storage medium

when the execution condition is met or queries the current setting. 6-83 :GONogo:ACTion:MAIL? Queries all settings related to the mail transmission when the execution

condition is met. 6-84 :GONogo:ACTion:MAIL:COUNt Sets the upper limit on the number of transmitted mail when the execution

condition is met or queries the current setting. 6-84 :GONogo:ACTion:MAIL:MODE Sets whether to send a mail when the execution condition is met or queries

the current setting. 6-84 :GONogo:ACTion:SAVE[:MODE] Sets whether to save the waveform data to the external storage medium

when the execution condition is met or queries the current setting. 6-84 :GONogo:ACTion:SAVE:TYPE Sets the data type when saving waveform data to the external storage medium

when the execution condition is met or queries the current setting. 6-84

:GONogo:COUNt? Queries the number of GO/NO-GO determinations. 6-84 :GONogo:EXECute Executes the GO/NO-GO determination. 6-84 :GONogo:LOGic Sets the criteria logic of the GO/NO-GO determination or queries the

current setting. 6-84

:GONogo:MODE Sets the type of GO/NO-GO determination or queries the current setting. 6-84 :GONogo:NGCount? Queries the number of NO-GOs of the GO/NO-GO determination. 6-84 :GONogo:PARameter? Queries all settings related to parameter determination. 6-85 :GONogo:PARameter:ITEM<x>? Queries all settings related to waveform parameter. 6-85 :GONogo:PARameter:ITEM<x>:CAUSe? Queries whether the waveform parameter is the cause of NO-GO. 6-85 :GONogo:PARameter:ITEM<x>:MODE Turns OFF the waveform parameter or sets the determination criteria of the

waveform parameter or queries the current setting. 6-85 :GONogo:PARameter:ITEM<x>:TRACe Sets the target waveform of the automated measurement of waveform

parameters or queries the current setting. 6-85 :GONogo:PARameter:ITEM<x>:TYPE? Queries the item and the upper and lower limits of the automated

measurement of waveform parameters. 6-85

:GONogo:PARameter:ITEM<x>:TYPE:<Parameter>

Sets the upper and lower limits of the automated measurement item of each

waveform parameter or queries the current setting. 6-86

:GONogo:PARameter:ITEM<x>:VALue? Queries the automated measured value of the waveform parameter. 6-86 :GONogo:REMote Sets the remote mode of the GO/NO-GO determination or queries the

current setting. 6-86 :GONogo:SEQuence Sets the operation mode of GO/NO-GO determination or queries the

current setting. 6-86 :GONogo:STOPcount Sets the determination count of GO/NO-GO determination or queries the

current setting. 6-86 :GONogo:TRANge Sets the determination range of GO/NO-GO determination or queries the

current setting. 6-86 :GONogo:WAIT? Waits for the completion of the GO/NO-GO determination. 6-86

Commands

IM 701210-18E

6-9

6.1 A List of Commands

Command Function Page

:GONogo:ZONE? Queries all settings related to the zone determination. 6-86 :GONogo:ZONE:EDIT<x>:EXIT Exits from the edit menu of the zone of zone determination. 6-87 :GONogo:ZONE:EDIT<x>:PART Edits the partial zone of each zone for zone determination. 6-87 :GONogo:ZONE:EDIT<x>:TRACe Sets the target channel for the new zone waveform or queries the current

:GONogo:ZONE:EDIT<x>:WHOLe Edits the whole zone of each zone for zone determination. 6-87 :GONogo:ZONE:PATTern<x>? Queries all settings related to the zone determination of the specified pattern. 6-87 :GONogo:ZONE:PATTern<x>:CAUSe? Queries whether the pattern of the zone determination is the cause of

:GONogo:ZONE:PATTern<x>:MODE Sets the determination criteria of the pattern of zone determination or queries

:GONogo:ZONE:PATTern<x>:SEND Sets the zone data specified for the determination zone or queries the

:GONogo:ZONE:PATTern<x>:TRACe Sets the target waveform for the pattern of the zone determination or queries

:GONogo:ZONE:PATTern<x>:ZONE Sets the target zone data of the pattern of the zone determination or queries

HCOPy Group

:HCOPy? Queries all settings related to the printing of screen image data. 6-93 :HCOPy:ABORt Aborts printing and paper feeding. 6-93 :HCOPy:COMMent Sets the comment at the lower right corner of the screen or queries the

:HCOPy:DIRection Sets the print destination or queries the current setting. 6-93 :HCOPy:EXECute Executes printing. 6-93 :HCOPy:EXTPrinter? Queries all settings related to printing to an external printer. 6-94 :HCOPy:EXTPrinter:PRINter? Queries the addresses of all the printers that are currently connected. 6-94 :HCOPy:EXTPrinter:SELect Sets the address of the printer or queries the current setting. 6-94 :HCOPy:EXTPrinter:TONE Turns ON/OFF color printing to the external printer or queries the current

:HCOPy:EXTPrinter:TYPE Sets the output format and output resolution for printing to the external

:HCOPy:NETPrint? Queries all settings related to printing on the network printer. 6-94 :HCOPy:NETPrint:TONE Turns ON/OFF color printing to the network printer or queries the current

:HCOPy:NETPrint:TYPE Sets the output format and output resolution for printing to the network

:HCOPy:PDF? Queries all settings related to the PDF file generation. 6-94 :HCOPy:PDF:AUTHor Sets the author of the PDF file or queries the current setting. 6-95 :HCOPy:PDF:COLor Sets color or monochrome for the PDF file or queries the current setting. 6-94 :HCOPy:PDF:COMPression Sets the compression of the PDF file or queries the current setting. 6-95 :HCOPy:PDF:DPPage Sets the number of divisions per page of the PDF file or queries the

:HCOPy:PDF:KEYWord Sets the keyword of the PDF file or queries the current setting. 6-95 :HCOPy:PDF:ORIentation Sets the orientation (portrait or landscape) of the PDF file output or queries

:HCOPy:PDF:PSIZe Sets the paper size of the PDF file or queries the current setting. 6-94 :HCOPy:PDF:SUBTitle Sets the subtitle of the PDF file or queries the current setting. 6-95 :HCOPy:PDF:TITLe Sets the title of the PDF file or queries the current setting. 6-95 :HCOPy:PDF:SAVE? Queries all settings related to the saving of the PDF file to the storage

:HCOPy:PDF:SAVE:ANAMing Sets the auto naming function of the saved files or queries the current setting. 6-95 :HCOPy:PDF:SAVE:CDIRectory Changes the save destination directory. 6-95 :HCOPy:PDF:SAVE:DRIVe Sets the save destination storage medium. 6-95 :HCOPy:PDF:SAVE:NAME Sets the name of the saved file or queries the current setting. 6-95 :HCOPy:PDF:SAVE:PATH? Queries the current directory. 6-95 :HCOPy:PRINter? Queries all settings related to printing to the built-in printer. 6-95 :HCOPy:PRINter:FEED Executes paper feeding of the built-in printer. 6-96 :HCOPy:PRINter:MAG Sets the magnification for fine print (long) or zoom ptint during external

:HCOPy:PRINter:RANGe Sets the print range for fine print (long) or A4 print (DL750P only) or

:HCOPy:PRINter:TDIV Sets the magnifieation (T/div) value for fine print (long) or zoom print

:HCOPy:PRINter:TYPE Sets the output format (normal, fine print (long), zoom print, or A4 print

setting. 6-87

NO-GO. 6-87

the current setting. 6-87

current setting. 6-88

the current setting. 6-88

current setting. 6-93

setting. 6-94

printer or queries the current setting. 6-94

setting. 6-94

printer or queries the current setting. 6-94

current setting. 6-95

the current setting. 6-94

medium. 6-95

clock measurement or queries the current setting. 6-96

queries the current setting. 6-96

during internal clock measurement or queries the current setting. 6-96

(DL750P only)) or queries the current setting. 6-96

6-10

IM 701210-18E

6.1 A List of Commands

Command Function Page

:HCOPy:PSETup? Queries all settings related to the print setting of the screen image. 6-96 :HCOPy:PSETup:EARea Turns ON/OFF the extra area when printing with the display format set to

Single/Dual/Triad/Quad or queries the current setting. 6-97 :HCOPy:PSETup:FLEXiblezone? Queries all settings related to flexible zone recording when printing with

the format set to Single. 6-97 :HCOPy:PSETup:FLEXiblezone:MODE Turns ON/OFF the flexible zone area when printing with the display

format set to Single or queries the current setting. 6-97

:HCOPy:PSETup:FLEXiblezone:{CHANnel<x>|MATH<x>|DSP<x>}:UPPer

Sets the upper limit of the flexible zone area of the channel when printing with

the display format set to Single or queries the current setting. 6-97

:HCOPy:PSETup:FLEXiblezone:{CHANnel<x>|MATH<x>|DSP<x>}:LOWer

Sets the lower limit of the flexible zone area of the channel when printing with

the display format set to Single or queries the current setting. 6-98

:HCOPy:PSETup:GDLight Sets the density of the print graticule or queries the current setting. 6-98 :HCOPy:PSETup:GWIDth Sets the print graticule width of the vertical axis or queries the current

setting. 6-98 :HCOPy:PSETup:SCALe Sets the scale print interval for waveform printing or queries the

current setting. 6-98 :HCOPy:PSETup:CHLabel Sets the channel label print interval for waveform printing or queries

the current setting. 6-98 :HCOPy:PSETup:TIME Sets the time print interval for waveform printing or queries the

current setting. 6-98

:HCOPy:PSETup:GAUGe Sets the gauge printing for waveform printing or queries the current setting. 6-98 :HCOPy:PSETup:ANNotation Sets the annotation print interval for waveform printing or queries the

current setting. 6-98 :HCOPy:PSETup:ANTYpe Sets the annotation content for waveform printing or queries the

current setting. 6-98

:HCOPy:PSETup:{CHANnel<x>|MATH<x>|DSP<x>}:MESSage

Sets the message of the channel for waveform printing or queries the

current setting. 6-98

HISTory Group

:HISTory? Queries all settings related to the history memory function. 6-101 :HISTory:ABORt Aborts the history search. 6-101 :HISTory:CLEar Executes history clear. 6-101 :HISTory:DISPlay Sets the start number or end number of the display record or queries the

current setting. 6-101 :HISTory:DMODe Sets the waveform display format (one waveform, all waveforms, or average)

or queries the current setting. 6-101

:HISTory:EXECute Executes the history search. 6-101 :HISTory:PARameter? Queries all settings related to the history search (waveform parameter). 6-101 :HISTory:PARameter:ITEM<x>? Queries all settings related to the parameter of the history search

(waveform parameter). 6-101

:HISTory:PARameter:ITEM<x>:CONDition

Sets the criteria of the parameter of the history search (waveform

parameter) or queries the current setting. 6-101 :HISTory:PARameter:ITEM<x>:SOURce Sets the source trace of the parameter of the history search (waveform

parameter) or queries the current setting. 6-101

:HISTory:PARameter:ITEM<x>:TYPE:<Parameter>

Sets the parameter and the upper and lower limits of each parameter of

the history search (waveform parameter) or queries the current setting. 6-102 :HISTory:PARameter:ITEM<x>:VALue? Queries the measured value of the specified parameter of the parameter

search or queries the current setting. 6-102 :HISTory:PARameter:LOGic Sets the determination logic of the parameter search or queries the

current setting. 6-102 :HISTory:PARameter:TLINkage Turns ON/OFF the linked movement of the determination range cursor of

the parameter search. 6-102 :HISTory:PARameter:TRANge Sets the range over which to perform the parameter search or queries the

current setting. 6-102

:HISTory:RECord Sets the target record or queries the current setting. 6-102 :HISTory:RECord?MINimum Queries the minimum record number. 6-102 :HISTory:SMODe Turns ON/OFF the search mode of history memory or queries the current

setting. 6-102

:HISTory:TIME? Queries the time of the target record number. 6-102 :HISTory:ZONE? Queries all settings related to the zone search. 6-103 :HISTory:ZONE:EDIT<x>? Queries all settings related to the specified search zone. 6-103

Commands

IM 701210-18E

6-11

6.1 A List of Commands

Command Function Page

:HISTory:ZONE:EDIT<x>:CONDition Sets the search condition of the zone cursor or queries the current setting. 6-103 :HISTory:ZONE:EDIT<x>:HORizontal Sets the upper/lower of the search zone or queries the current setting. 6-103 :HISTory:ZONE:EDIT<x>:SOURce Sets the target waveform of the zone search or queries the current setting. 6-103 :HISTory:ZONE:EDIT<x>:VERTical Sets the left/right of the search zone or queries the current setting. 6-103 :HISTory:ZONE:LOGic Sets the search logic condition between zone searches or queries the

current setting. 6-103

IMAGe Group

:IMAGe? Queries all settings related to the saving of screen image data. 6-105 :IMAGe:ABORt Aborts saving the screen image data to the storage medium. 6-105 :IMAGe:COMMent Sets the comment on the screen or queries the current setting. 6-105 :IMAGe:COMPression Sets the screen data compression of the BMP format or queries the current

:IMAGe:EXECute Executes the saving of the screen image data to the storage medium. 6-105 :IMAGe:FORMat Sets the save format of the screen image data or queries the current setting. 6-105 :IMAGe:SAVE? Queries all settings related to the saving of the screen image data to the

:IMAGe:SAVE:ANAMing Sets the auto naming function of the saved files or queries the current setting. 6-105 :IMAGe:SAVE:CDIRectory Changes the save destination directory. 6-105 :IMAGe:SAVE:DRIVe Sets the save destination storage medium or queries the current setting. 6-105 :IMAGe:SAVE:NAME Sets the name of the saved file or queries the current setting. 6-105 :IMAGe:SAVE:PATH? Queries the current directory. 6-105 :IMAGe:SEND? Queries the screen image data. 6-105 :IMAGe:TONE Sets the color tone of the screen image data to be saved or queries the

:IMAGe:VOICe:ERASe Erases the voice comment. 6-106 :IMAGe:VOICe:PLAY:STARt Plays of the voice comment. 6-106 :IMAGe:VOICe:REC:STARt Records a voice comment. 6-106 :IMAGe:VOICe:REC:STOP Stops the recording of the voice comment. 6-106

INITialize Group

:INITialize:EXECute Executes the initialization of settings. 6-106 :INITialize:UNDO Undoes the execution of the initialization of settings. 6-106

LOGic Group

:LOGic? Queries all settings related to the logic waveforms. 6-108 :LOGic:{PODA|PODB}? Queries all settings related to the specified logic waveform. 6-108 :LOGic:{PODA|PODB}:ALL:DISPlay Turns ON/OFF the display of all bits of the specified logic waveform. 6-108 :LOGic:{PODA|PODB}:{BIT1~8}:DISPlay Sets the display of the bit of the specified logic waveform or queries the

:LOGic:{PODA|PODB}:{BIT1~8}:LABel Sets the label of the bit of the specified logic waveform or queries the

:LOGic:{PODA|PODB}:BMAPping Turns ON/OFF the bit display position of the specified logic waveform or

:LOGic:{PODA|PODB}:DISPlay Turns ON/OFF the display of all bits of the specified logic waveform or

:LOGic:{PODA|PODB}:LABel Sets the label of the specified logic waveform or queries the current setting. 6-108 :LOGic:{PODA|PODB}:POSition Sets the vertical position of the specified logic waveform or queries the

:LOGic:{PODA|PODB}:ZOOM Sets the vertical zoom rate of the specified logic waveform or queries the

LSTart Group

:LSTart Executes log start. 6-109 :LSTart? Waits for the completion of the log start execution. 6-109

MATH Group

:MATH<x>? Queries all settings related to the computation. 6-112 :MATH<x>:AVERage? Queries all settings related to averaging of the user-defined computation. 6-112 :MATH<x>:AVERage:CCOunt Sets the cycle count of the cycle average or queries the current setting. 6-113 :MATH<x>:AVERage:COUNt Sets the waveform acquisition count of linear average or queries the

:MATH<x>:AVERage:EWEight Sets the attenuation constant of exponential averaging or queries the

:MATH<x>:AVERage:MODE Sets the averaging mode or queries the current setting. 6-113 :MATH<x>:AVERage:TYPE Sets the averaging area or queries the current setting. 6-113 :MATH<x>:BINary? Queries all settings related to the binary computation. 6-113

setting. 6-105

storage medium. 6-105

current setting. 6-106

current setting. 6-108

queries the current setting. 6-108

current setting. 6-109

current setting. 6-113

6-12

IM 701210-18E

6.1 A List of Commands

Command Function Page

:MATH<x>:BINary:{CHANnel<x>|MATH<x>}

:MATH<x>:CONStant<x> Sets the constant of the user-defined computation or queries the current

:MATH<x>:DEFine Sets the equation of the user-defined computation or queries the current

:MATH<x>:DISPlay Sets whether to display computed waveforms or queries the current setting. 6-114 :MATH<x>:ESHift:{CHANnel<x>|MATH<x>|DSP<x>}

:MATH<x>:EXECute Executes the computation. 6-114 :MATH<x>:EXPonential? Queries all settings related to the exponential window. 6-114 :MATH<x>:EXPonential:DRATe Sets the damping rate or queries the current setting. 6-114 :MATH<x>:EXPonential:FORCe<x> Sets the Force1 or Force2 or queries the current setting. 6-114 :MATH<x>:FFT? Queries all settings related to the FFT computation. 6-114 :MATH<x>:FFT:POINt Sets the number of points to be computed in the FFT computation or queries

:MATH<x>:FFT:WINDow Sets the time window used in the FFT computation or queries the current

:MATH<x>:FILTer<x>? Queries all settings related to the digital filter. 6-114 :MATH<x>:FILTer<x>:BAND Sets the digital filter bandwidth or queries the current setting. 6-114 :MATH<x>:FILTer<x>:CUToff<x> Sets the digital cutoff frequency or queries the current setting. 6-115 :MATH<x>:FILTer<x>:TYPE Sets the digital filter type or queries the current setting. 6-115 :MATH<x>:LABel Sets the label of the computation or queries the current setting. 6-115 :MATH<x>:MODE Turns ON/OFF the computation or queries the current setting. 6-115 :MATH<x>:MREFerence Sets the computation range or queries the current setting. 6-115 :MATH<x>:OPERation Sets the computation details or queries the current setting. 6-115 :MATH<x>:SCALe? Queries all settings related to scaling. 6-115 :MATH<x>:SCALe:MODE Sets the scaling mode or queries the current setting. 6-115 :MATH<x>:SCALe:VALue Sets the upper and lower limits for manual scaling or queries the current

:MATH<x>:SHIFt:{CHANel<x>|MATH<x>|DSP<x>}

:MATH<x>:UNIT Sets the unit to be added to the computed result or queries the current

MEASure Group

:MEASure? Queries all settings related to the automated measurement of waveform

:MEASure:{CHANnel<x>|MATH<x>|DSP<x>}?

:MEASure:{CHANnel<x>|MATH<x>|DSP<x>}:ALL

:MEASure:{CHANnel<x>|MATH<x>|DSP<x>}:COPY

:MEASure:{CHANnel<x>|MATH<x>|DSP<x>}:DELay?

:MEASure:{CHANnel<x>|MATH<x>|DSP<x>}:DELay:COUNt?

:MEASure:{CHANnel<x>|MATH<x>|DSP<x>}:DELay:{MAXimum|MEAN|MINimum|SDEViation}?

:MEASure:{CHANnel<x>|MATH<x>|DSP<x>}:DELay:MEASure?

:MEASure:{CHANnel<x>|MATH<x>|DSP<x>}:DELay:MEASure:COUNt

:MEASure:{CHANnel<x>|MATH<x>|DSP<x>}:DELay:MEASure:SLOPe

:MEASure:{CHANnel<x>|MATH<x>|DSP<x>}:DELay:REFerence?

:MEASure:{CHANnel<x>|MATH<x>|DSP<x>}:DELay:REFerence:COUNt

IM 701210-18E

Sets the threshold level of the binary computation channel or queries the

current setting. 6-113

setting. 6-113

Sets the phase offset of shift computation of the waveform measured with an

external clock or queries the current setting. 6-114

the current setting. 6-114

setting. 6-114

setting. 6-115

Sets the phase offset of shift computation of the waveform measured with an

internal clock or queries the current setting. 6-116

setting. 6-116

parameters. 6-119

Turns ON/OFF all the waveform parameters of the channel or queries

the current setting. 6-126

Turns ON/OFF collectively all the measurement items of the channel. 6-126

Copies the ON/OFF setting of all measurement items of a specified channel

to all other channels. 6-126

Queries all settings related to the delay between channels of the waveform. 6-126

Queries the statistical processing count of the delay between channels. 6-126

Queries the statistical value of the delay between channels. 6-127

Queries all settings of the source waveform of the delay between channels. 6-127

Sets the number of counts of the source waveform of the delay between

channels. 6-127

Sets the slope of the source waveform of the delay between channels. 6-127

Queries all settings of the reference waveform of the delay between channels.6-127

Sets the number of edge detection count of the reference waveform of the

delay between channels. 6-127

6-13

Commands

6.1 A List of Commands

Command Function Page

:MEASure:{CHANnel<x>|MATH<x>|DSP<x>}:DELay:REFerence:SLOPe

:MEASure:{CHANnel<x>|MATH<x>|DSP<x>}:DELay:REFerence:SOURce

:MEASure:{CHANnel<x>|MATH<x>|DSP<x>}:DELay:REFerence:TRACe

:MEASure:{CHANnel<x>|MATH<x>|DSP<x>}:DELay:STATe

:MEASure:{CHANnel<x>|MATH<x>|DSP<x>}:DELay:VALue?

:MEASure:{CHANnel<x>|MATH<x>|DSP<x>}:DPRoximal?

:MEASure:{CHANnel<x>|MATH<x>}:DPRoximal:MODE

:MEASure:{CHANnel<x>|MATH<x>|DSP<x>}:DPRoximal:PERCent

:MEASure:{CHANnel<x>|MATH<x>}:DPRoximal:UNIT

:MEASure:{CHANnel<x>|MATH<x>|DSP<x>}:METHod

:MEASure:{CHANnel<x>|MATH<x>|DSP<x>}:<Parameter>?

:MEASure:{CHANnel<x>|MATH<x>|DSP<x>}:<Parameter>:COUNt?

:MEASure:{CHANnel<x>|MATH<x>|DSP<x>}:<Parameter>:{MAXimum|MEAN|MINimum|SDEViation}?

:MEASure:{CHANnel<x>|MATH<x>|DSP<x>}:<Parameter>:STATe

:MEASure:{CHANnel<x>|MATH<x>|DSP<x>}:<Parameter>:VALue?

:MEASure:CDEStination:{CHANnel<x>|MATH<x>|DSP<x>}

:MEASure:CDEStination:ALL Copies the ON/OFF settings of all measurement items of all channels. 6-130 :MEASure:CYCLe? Queries all settings related to the cycle statistical processing of waveform

:MEASure:CYCLe:ABORt Aborts the execution of the cycle statistical processing of waveform

:MEASure:CYCLe:EXECute Executes the cycle statistical processing of waveform parameters. 6-131 :MEASure:CYCLe:TRACe{OWN|<NRf>|MATH<x>|DSP<x>}

:MEASure:MODE Sets the mode of the automated measurement of waveform parameters or

:MEASure:ONECycle Turns ON/OFF the 1 cycle mode of the automated measurement of waveform

:MEASure:TRANge Sets the measurement range of the automated measurement of waveform

:MEASure:WAIT? Waits for the completion of the automated measurement. 6-131

MONITOR Group

:MONitor:ASENd? Outputs the numeric monitor data (ASCII format). 6-133 :MONitor:ASENd:{CHANnel<x>|DSP<x>|PODA|PODB}?

:MONitor:BYTeorder Sets the transmission order when using word format of two bytes or more

:MONitor:EXECute Executes screen display switching. 6-133 :MONitor:FORMat Sets the format of the data to be transmitted or queries the current setting. 6-133

Sets the edge detection slope of the reference waveform of the delay between channels. 6-127

Sets the reference of the delay between channels to the trigger point or the waveform or queries the current setting. 6-128

Sets the trace of the reference waveform of the delay between channels. 6-128

Sets the display format of the delay parameter or queries the current setting. 6-128

Queries the value of the delay parameter of the waveform that is measured automatically. 6-128

Queries all settings related to distal, mesial, and proximal. 6-128

Sets the mode of the distal, mesial, and proximal points or queries the current setting. 6-128

Sets the distal, mesial, and proximal points or queries the current setting (%). 6-129

Sets the distal, mesial, and proximal points or queries the current setting (voltage). 6-129

Sets the High and Low points or queries the current setting. 6-129

Queries all settings related to the parameter of the waveform. 6-129

Queries the number of measured values of the cycle statistical processing of the parameter. 6-129

Queries the cycle statistical processing value of the parameter. 6-130

Turns ON/OFF the parameter of the waveform or queries the current setting. 6-130

Queries the value of the parameter of the waveform that is measured automatically. 6-130

Sets the channel to which the ON/OFF settings of all measurement items of a certain channel are to be copied or queries the current setting. 6-130

parameters. 6-131

Sets the target waveform of cycle statistical processing of waveform parameters or queries the current setting. 6-131

queries the current setting. 6-131

parameters or queries the current setting. 6-131

Outputs the numeric monitor data (ASCII format) of the specified trace. 6-133

or queries the current setting. 6-133

6-14

IM 701210-18E

6.1 A List of Commands

Command Function Page

:MONitor:OFFSet:{CHANnel<x>|DSP<x>}?

:MONitor:RANGe:{CHANnel<x>|DSP<x>}? Queries the range value used to convert the numeric monitor data of the specified

:MONitor:SEND:{ALL|CHANnel<x>|DSP<x>|PODA|PODB}?

MTRIGGER Group

:MTRigger Executes manual trigger. 6-135

RECorder Group

:RECorder? Queries all settings related to the recorder mode. 6-139 :RECorder:ACQuire? Queries all settings related to the waveform acquisition for Chart

:RECorder:ACQuire:MODE Sets the waveform acquisition mode for Chart Recorder mode or queries

:RECorder:MODE Sets the recorder mode or queries the current setting. 6-139 :RECorder:CHARt? Queries all settings related to Chart Recorder mode. 6-139 :RECorder:CHARt:PSTYle Sets the print style for Chart Recorder mode or queries the current setting. 6-139 :RECorder:CHARt:CSPeed Sets the chart speed for Chart Recorder mode or queries the current

:RECorder:CHARt:SHOT Sets the short recording for Chart Recorder mode or queries the

:RECorder:CHARt:PRINterout Turns ON/OFF the chart recording for T-Y recording in Chart Recorder

:RECorder:CHARt:OUTDevice Sets the output destination device for numeric value recording in Chart

:RECorder:CHARt:INTerval Sets the recording interval for numeric value recording in Chart Recorder

:RECorder:CHARt:DIRection Sets the print direction for numeric value recording in Chart Recorder

:RECorder:CHARt:SAVE? Queries all settings related to the saving of the numeric recording in

:RECorder:CHARt:SAVE:ANAMing Sets the auto naming function of the saved files or queries the

:RECorder:CHARt:SAVE:CDIRectory Changes the save destination directory. 6-140 :RECorder:CHARt:SAVE:DRIVe Sets the save destination storage medium. 6-140 :RECorder:CHARt:SAVE:NAME Sets the name of the saved file or queries the current setting. 6-140 :RECorder:CHARt:SAVE:PATH? Queries the current directory. 6-140 :RECorder:XY? Queries all settings related to the X-Y recorder mode. 6-140 :RECorder:XY:AUTO Turns ON/OFF auto print for X-Y recorder mode or queries the

:RECorder:XY:PFONt Sets the size of the printed characters for X-Y recorder mode or queries the

:RECorder:XY:POINter Turns ON/OFF the pointer indicating the most recent point for X-Y

:RECorder:XY:SCALe Turns ON/OFF the scale for X-Y recorder mode or queries the

:RECorder:XY:SRATe Sets the sample rate for X-Y recorder mode or queries the current setting. 6-141 :RECorder:XY:XY<x>? Queries all settings of the XY waveform for X-Y recorder mode. 6-141 :RECorder:XY:XY<x>:DISPlay Turns ON/OFF the XY waveform for X-Y recorder mode or queries the

:RECorder:XY:XY<x>:XTRace Sets the channel to be assigned to the X-axis of the XY waveform for

:RECorder:XY:XY<x>:YTRace Sets the channel to be assigned to the Y-axis of the XY waveform for

:RECorder:REPRint? Queries all settings related to reprinting. 6-141 :RECorder:REPRint:ABORt Aborts reprinting or paper feeding. 6-141 :RECorder:REPRint:EXECute Executes reprinting. 6-141 :RECorder:REPRint:LENGth Sets the print length of the section to be reprinted or queries the current

:RECorder:REPRint:PTO Sets the output destination for reprinting or queries the current setting. 6-141 :RECorder:REPRint:RANGe Sets the range to be reprinted (start and end points) or queries the

:RECorder:REPRint:PRNMag Sets the waveform magnification for reprinting or queries the current setting. 6-141 :RECorder:REPRint:WINMag Sets the magnification of the section to be reprinted or queries the

IM 701210-18E

Queries the offset value used to convert the numeric monitor data of the specified

trace into physical values. 6-133

Outputs the numeric monitor data 6-133

Recorder mode. 6-139

the current setting. 6-139

setting. 6-139

current setting. 6-139

mode or queries the current setting. 6-139

Recorder mode or queries the current setting. 6-139

mode or queries the current setting. 6-139

mode or queries the current setting. 6-140

Chart Recorder mode to the storage medium. 6-140

current setting. 6-140

recorder mode or queries the current setting. 6-140

current setting. 6-141

X-Y recorder mode or queries the current setting. 6-141

setting. 6-141

current setting. 6-141

current setting. 6-142

6-15

Commands

6.1 A List of Commands

Command Function Page

:RECorder:REPRint:WINPos Sets the zoom position of the section to be reprinted or queries the

SEARch Group

:SEARch? Queries all settings related to the search function. 6-145 :SEARch:ABORt Aborts the search. 6-145 :SEARch:ASCRoll? Queries all settings related to the auto scroll. 6-145 :SEARch:ASCRoll:DIRection Sets the scroll direction of the auto scroll function or queries the current

:SEARch:ASCRoll:SPEed Sets the scroll speed of the auto scroll function or queries the current setting. 6-145 :SEARch:EDGE? Queries all settings related to the edge search. 6-145 :SEARch:EDGE:COUNt Sets the edge search count or queries the current setting. 6-145 :SEARch:EDGE:HYSTeresis Sets the hysteresis of the edge search level or queries the current setting. 6-145 :SEARch:EDGE:LEVEl Sets the edge search level or queries the current setting. 6-145 :SEARch:EDGE:LOGic? Queries all settings related to the logic channel of the edge search. 6-145 :SEARch:EDGE:LOGic:{A1|A2|A3|A4|A5|A6|A7|A8|B1|B2|B3|B4|B5|B6|B7|B8}

:SEARch:EDGE:LOGic:CONDition Sets the condition of the bit of the logic channel of the edge search or

:SEARch:EDGE:SLOPe Sets the edge polarity or queries the current setting. 6-146 :SEARch:EDGE:SOURce Sets the target waveform of the edge search or queries the current setting. 6-146 :SEARch:EXECute Executes the search. 6-146 :SEARch:MAG<x> Sets the zoom rate of the zoom window or queries the current setting. 6-146 :SEARch:MLINkage Turns ON/OFF the link when changing the zoom rate or queries the current

:SEARch:PLINkage Turns ON/OFF the link when moving the zone box or queries the current

:SEARch:POSition<x> Sets the zoom box position or queries the current setting. 6-146 :SEARch:SELect Sets the storage number of the searched position or queries the position

:SEARch:SELect? MAXimum Queries the maximum storage number of searched positions. 6-146 :SEARch:SPOint Sets the search start point or queries the current setting. 6-146 :SEARch:TDIV<x> Sets the T/div value of the zoom waveform or queries the current setting. 6-147 :SEARch:TWINdow Sets the zoom window on which the searched section is to be displayed or

:SEARch:TYPE Sets the search type or queries the current setting. 6-147

SNAP Group

:SNAP Executes the snapshot. 6-147

SSTart Group

:SSTart Executes single start. 6-147 :SSTart? Waits for the completion of the single start execution. 6-147

STARt Group

:STARt Starts the waveform acquisition. 6-148

STATus Group

:STATus? Queries all settings related to the communication status function. 6-148 :STATus:CONDition? Queries the condition register. 6-148 :STATus:EESE Sets the extended event enable register or queries the current setting. 6-149 :STATus:EESR? Queries the extended event register and clears the register. 6-149 :STATus:ERRor? Queries the code and description of the error that occurred. 6-149 :STATus:FILTer<x> Sets the transition filter or queries the current setting. 6-149 :STATus:QENable Sets whether or not to store messages other than errors to the error queue

:STATus:QMESsage Sets whether to attach a message to the response to the :STATus:ERRor?

:STATus:SPOLl? Executes the serial polling. 6-149

STOP Group

:STOP Stops the waveform acquisition. 6-149

SYSTEM Group

:SYSTem? Queries all settings related to the system. 6-152 :SYSTem:CLICk Turns ON/OFF the click sound or queries the current setting. 6-152 :SYSTem:CLOCk? Queries all settings related to the date and time. 6-152

current setting. 6-142

setting. 6-145

Sets the slope of the bit of the logic channel of the edge search or queries the current setting. 6-145

queries the current setting. 6-146

setting. 6-146

stored at the storage number. 6-146

queries the current setting. 6-147

or queries the current setting. 6-149

query or queries the current setting. 6-149

6-16

IM 701210-18E

6.1 A List of Commands

Command Function Page

:SYSTem:CLOCk:DATE Sets the date or queries the current setting. 6-152 :SYSTem:CLOCk:MODE Turns ON/OFF the date/time display or queries the current setting. 6-152 :SYSTem:CLOCk:SNTP:GMTTime Sets the time difference from GMT when using SNTP or queries the

current setting. 6-152

:SYSTem:CLOCk:TIME Sets the time or queries the current setting. 6-152 :SYSTem:CLOCk:TYPE Sets whether to set the date/time manually or by using SNTP or queries

the current setting. 6-152 :SYSTem:HDMotor Turns ON/OFF the motor of the internal hard disk or queries the current

setting. 6-152 :SYSTem:KEYResponse Sets the response time of the START/STOP key or queries the current

setting. 6-152

:SYSTem:LANGuage Sets the message language or queries the current setting. 6-152 :SYSTem:LCD? Queries all settings related to the LCD. 6-152 :SYSTem:LCD:AUTO? Queries all settings related to the auto off function of the LCD backlight. 6-152 :SYSTem:LCD:AUTO:MODE Turns ON/OFF the auto off function of the LCD backlight or queries the

current setting. 6-153

:SYSTem:LCD:AUTO:TIME Sets the auto off time of the LCD backlight or queries the current setting. 6-153 :SYSTem:LCD:BRIGhtness Sets the brightness of the LCD or queries the current setting. 6-153 :SYSTem:LCD:MODE Turns ON/OFF the LCD backlight or queries the current setting. 6-153 :SYSTem:MLANguage Sets the menu language or queries the current setting. 6-153 :SYSTem:OVERview Displays system information. 6-153 :SYSTem:PACTion Sets whether to enable the action-on-trigger mode at power ON or queries

the current setting. 6-153 :SYSTem:PSTart Sets whether to start the waveform acquisition at power ON or queries the

current setting. 6-153 :SYSTem:SCALefont Sets the display size, large or small, of the scale values and waveform labels

or queries the current setting. 6-153

:SYSTem:SCSI? Queries all settings related to the SCSI-ID. 6-153 :SYSTem:SCSI:INITialize Changes the SCSI-ID. 6-153 :SYSTem:SCSI:INTernalid Set the SCSI-ID of the internal hard disk or queries the current settings. 6-153 :SYSTem:SCSI:OWNid Set the SCSI-ID of the DL750/DL750P or queries the current settings. 6-153 :SYSTem:USBKeyboard Sets the USB keyboard type or queries the current setting. 6-153 :SYSTem:VIDeo Turns ON/OFF the video output or queries the current setting. 6-153

TIMebase Group

:TIMebase? Queries all settings related to the time base. 6-154 :TIMebase:SOURce Sets the time base or queries the current setting. 6-154 :TIMebase:SRATe Sets the sample rate or queries the current setting. 6-154 :TIMebase:SRATe? Queries the sample rate or queries the current setting. 6-154 :TIMebase:TDIV Sets the T/div value or queries the current setting. 6-154

TRIGger Group

:TRIGger? Queries all settings related to the trigger. 6-162 :TRIGger:ABN? Queries all settings related to the A -> B(n) trigger. 6-163 :TRIGger:ABN:COUNt Sets the number times condition B is to be satisfied or queries the current

setting. 6-163

:TRIGger:ACTion? Queries all settings related to the action-on-trigger. 6-163 :TRIGger:ACTion:COUNt Sets the action count of action-on-trigger or queries the current setting. 6-163 :TRIGger:ACTion:BUZZer Sets whether a beep is sounded when a action is activated or queries the

current setting. 6-163 :TRIGger:ACTion:HCOPy Sets whether to output a hard copy to the built-in printer or an external

printer when an action is activated or queries the current setting. 6-163 :TRIGger:ACTion:IMAGe Sets whether to save the screen image to the storage medium when an

action is activated or queries the current setting. 6-163 :TRIGger:ACTion:MAIL? Queries all settings related to the mail transmission when an action is

activated. 6-163 :TRIGger:ACTion:MAIL:COUNt Sets the upper limit on the number of transmitted mail when an action is

activated or queries the current setting. 6-163

:TRIGger:ACTion:MAIL:MODE Queries whether a mail is set to be transmitted when an action is activated. 6-164 :TRIGger:ACTion:MODE Sets the action-on-trigger mode or queries the current setting. 6-164 :TRIGger:ACTion:SAVE[:MODE] Sets whether to save the waveform data to the storage medium when an

action is activated or queries the current setting. 6-164 :TRIGger:ACTion:SAVE:TYPE Sets the data type for saving waveform data when an action is activated or

queries the current setting. 6-164

:TRIGger:ACTion:SEQuence Sets whether to repeat the action or queries the current setting. 6-164 :TRIGger:ADB? Queries all settings related to the A Delay B trigger. 6-164 :TRIGger:ADB:DELay Sets the delay time of condition B or queries the current setting. 6-164

Commands

IM 701210-18E

6-17

6.1 A List of Commands

Command Function Page

:TRIGger:ATRigger? Queries all settings related to condition A. 6-164 :TRIGger:ATRigger:CHANnel<x> Sets the channel condition of condition A or queries the current setting. 6-164 :TRIGger:ATRigger:CONDition Sets the condition to be satisfied for condition A or queries the current setting. 6-164 :TRIGger:ATRigger:LOGic? Queries all settings related the logic of condition A. 6-165 :TRIGger:ATRigger:LOGic:{A1~B8} Sets the logic bit of condition A or queries the current setting. 6-165 :TRIGger:ATRigger:{PODA|PODB} Sets the logic condition of condition A or queries the current setting. 6-165 :TRIGger:BGTime? Queries all settings related to the B>Time trigger. 6-165 :TRIGger:BGTime:TIME Sets the pulse width of the B>Time trigger or queries the current setting. 6-165 :TRIGger:BLTime? Queries all settings related to the B<Time trigger. 6-165 :TRIGger:BLTime:TIME Sets the pulse width of the B<Time trigger or queries the current setting. 6-165 :TRIGger:BTOut? Queries all settings related to the B Time Out trigger. 6-165 :TRIGger:BTOut:TIME Sets the pulse width of the B Time Out trigger or queries the current setting. 6-165 :TRIGger:BTRigger? Queries all settings related to condition B. 6-165 :TRIGger:BTRigger:CHANnel<x> Sets the channel condition of condition B or queries the current setting. 6-165 :TRIGger:BTRigger:CONDition Sets the condition to be satisfied for condition B or queries the current setting. 6-166 :TRIGger:BTRigger:LOGic? Queries all settings related the logic of condition B. 6-166 :TRIGger:BTRigger:LOGic:{A1~B8} Sets the logic bit of condition B or queries the current setting. 6-166 :TRIGger:BTRigger:{PODA|PODB} Sets the logic condition of condition B or queries the current setting. 6-166 :TRIGger:DELay Sets the delay or queries the current setting. 6-166 :TRIGger:EOA? Queries all settings related to the Edge on A trigger. 6-166 :TRIGger:EOA:CHANnel<x> Sets the channel condition of the Edge on A trigger or queries the current

:TRIGger:EOA:{PODA|PODB} Sets the logic condition of the Edge on A trigger or queries the current setting.6-166 :TRIGger:EOA:CONDition Sets the condition to be satisfied for the Edge on A trigger or queries the

:TRIGger:HOLDoff? Queries all settings related to the hold off. 6-166 :TRIGger:HOLDoff:TIME Sets the hold off time or queries the current setting. 6-166 :TRIGger:MODE Sets the trigger mode or queries the current setting. 6-167 :TRIGger:OR? Queries all settings related to the OR trigger. 6-167 :TRIGger:OR:{CHANnel<x>|DSP<x>} Sets the channel condition of the OR trigger or queries the current setting. 6-167 :TRIGger:OR:{PODA|PODB} Sets the logic condition of the OR trigger or queries the current setting. 6-167 :TRIGger:POSition Sets the trigger position or queries the current setting. 6-167 :TRIGger:SCOunt Sets the number of times the trigger is to be activated when the trigger

:TRIGger[:SIMPle]? Queries all settings related to the simple trigger. 6-167 :TRIGger[:SIMPle]:HYSTeresis Sets the hysteresis of the search level or queries the current setting. 6-167 :TRIGger[:SIMPle]:LEVel Sets the trigger level of the channel or queries the current setting. 6-167 :TRIGger[:SIMPle]:LOGic? Queries all settings related to the logic of the simple trigger. 6-167 :TRIGger[:SIMPle]:LOGic:BIT Sets the bit for setting the trigger slope or queries the current setting. 6-167 :TRIGger[:SIMPle]:LOGic:SLOPe Sets the logic trigger slope or queries the current setting. 6-168 :TRIGger[:SIMPle]:SLOPe Sets the trigger slope of the channel or queries the current setting. 6-168 :TRIGger:SIMPle:SOURce Sets the trigger source or queries the current setting. 6-168 :TRIGger:SOURce? Queries all settings related to the trigger source of enhance trigger. 6-168 :TRIGger:SOURce:CHANnel<x>? Queries all settings related to the trigger source of the specified channel. 6-168 :TRIGger:SOURce:{CHANnel<x>|DSP<x>}:CENTer

:TRIGger:SOURce:{CHANnel<x>|DSP<x>}:HYSTeresis

:TRIGger:SOURce:{CHANnel<x>|DSP<x>}:LEVel

:TRIGger:SOURce:{CHANnel<x>|DSP<x>}:WIDTh

:TRIGger:SOURce:CHANnel<x>:WWIDth Sets the width of the wave window trigger or queries the current setting. 6-169 :TRIGger:SOURce:LOGic:{A1~A8|B1~B8} Sets the logic bit condition or queries the current setting. 6-169 :TRIGger:TGTime? Queries all settings related to the T>Time trigger. 6-169 :TRIGger:TGTime:TIME Sets the pulse width of the T>Time trigger or queries the current setting. 6-169 :TRIGger:TIMer? Queries all settings related to the timer trigger. 6-170 :TRIGger:TIMer:DATE Sets the date of the timer trigger or queries the current setting. 6-170 :TRIGger:TIMer:INTerval Sets the trigger time interval of the timer trigger or queries the current setting. 6-170 :TRIGger:TIMer:TIME Sets the trigger time of the timer trigger or queries the current setting. 6-170 :TRIGger:TITime? Queries all settings related to the T1<T<T2 trigger. 6-170 :TRIGger:TITime:TIME<x> Sets the pulse width of the T1<T<T2 trigger or queries the current setting. 6-170 :TRIGger:TLTime? Queries all settings related to the T<Time trigger. 6-170 :TRIGger:TLTime:TIME Sets the pulse width of the T<Time trigger or queries the current setting. 6-170 :TRIGger:TOTime? Queries all settings related to the T<T1, T2<T trigger. 6-170 :TRIGger:TOTime:TIME<x> Sets the pulse width of the T<T1, T2<T trigger or queries the current setting. 6-170

setting. 6-166

current setting. 6-166

mode is Single(N) or queries the current setting. 6-167

Sets the center of the window trigger or queries the current setting. 6-169

Sets the hysteresis of the search level or queries the current setting. 6-169

Sets the trigger level of the specified channel or queries the current setting. 6-169

Sets the width of the window trigger or queries the current setting. 6-169

6-18

IM 701210-18E

6.1 A List of Commands

Command Function Page

:TRIGger:TYPE Sets the trigger type or queries the current setting. 6-170 :TRIGger:WINDow? Queries all settings related to the window trigger. 6-170 :TRIGger:WINDow:{CHANnel<x>|DSP<x>} Sets the channel condition of the window trigger or queries the current setting.6-170 :TRIGger:WINDow:{PODA|PODB} Sets the logic condition of the window trigger or queries the current setting. 6-171 :TRIGger:WWINdow? Queries all settings related to the wave window trigger. 6-171 :TRIGger:WWINdow:CHANnel<x> Sets the channel condition of the wave window trigger or queries the

current setting. 6-171 :TRIGger:WWINdow:FREQuency Sets the cycle frequency of the wave window trigger or queries the current

setting. 6-171 :TRIGger:WWINdow:REFCycle Sets the reference cycle of the wave window trigger or queries the current

setting. 6-171

:TRIGger:WWINdow:SYNC? Queries all settings related to the synchronization of the wave window trigger. 6-171 :TRIGger:WWINdow:SYNC:HYSTeresis Sets the hysteresis of the synchronization channel of the wave window

trigger or queries the current setting. 6-171 :TRIGger:WWINdow:SYNC:LEVel Sets the level of the synchronization channel of the wave window trigger

or queries the current setting. 6-171 :TRIGger:WWINdow:SYNC:TRACe Sets the synchronization channel of the wave window trigger or queries

the current setting. 6-171

VOICe Group

:VOICe? Queries all settings related to the voice memo function. 6-172 :VOICe:BITDisp Turns ON/OFF the event waveform (Voice bit) or queries the current setting. 6-172 :VOICe:ERASe Erases the voice memo. 6-172 :VOICe:MODE Sets the voice memo function mode or queries the current setting. 6-172 :VOICe:PLAY:STARt Plays the voice memo. 6-172 :VOICe:PLAY:STOP Stops the playing of the voice memo. 6-172 :VOICe:REC:STARt Starts the recording of the voice memo. 6-172 :VOICe:REC:STOP Stops the recording of the voice memo. 6-172 :VOICe:RECTime? Queries all settings related to the recording of the voice memo. 6-172 :VOICe:RECTime:MODE Sets the Rec Time (record time) of the voice memo function or queries

the current setting. 6-173 :VOICe:RECTime:TIMe Sets the Time of Rec Time (record time) of the voice memo function or

queries the current setting. 6-173 :VOICe:VOINum Specifies the number of the voice memo to be played. 6-173

WAVeform Group

:WAVeform? Queries all information about the target waveform data. 6-175 :WAVeform:BITS? Queries the bit length of the target waveform data. 6-175 :WAVeform:BYTeorder Sets the transmission order of word format data or queries the current setting. 6-175 :WAVeform:CAPTure? Queries all information about the target captured waveform. 6-175 :WAVeform:CAPTure:END Sets the last data point of the sub waveform or queries the current setting. 6-175 :WAVeform:CAPTure:LENGth? Queries the total number of data points of the sub waveform. 6-175 :WAVeform:CAPTure:RECord Sets the target record number of the sub waveform or queries the current

setting. 6-175

:WAVeform:CAPTure:RECord?MAXimum Queries the maximum record number. 6-176 :WAVeform:CAPTure:RECord?MINimum Queries the minimum record number. 6-176 :WAVeform:CAPTure:SEND? Queries the waveform data of the sub waveform. 6-176 :WAVeform:CAPTure:SRATe? Queries the sample rate of the sub waveform. 6-176 :WAVeform:CAPTure:STARt Sets the first data point of the sub waveform or queries the current setting. 6-176 :WAVeform:CAPTure:TRIGger? Queries the trigger position of the sub waveform. 6-176 :WAVeform:DATaselect Sets the data format used to query the waveform data or queries the

current setting. 6-176

:WAVeform:END Sets the end data point of the target waveform or queries the current setting. 6-176 :WAVeform:FORMat Sets the format of the transmitted data or queries the current setting. 6-176 :WAVeform:LENGth? Queries the total number of data points of the target waveform. 6-176 :WAVeform:MODule? Queries the module of the target waveform. 6-177 :WAVeform:OFFSet? Queries the offset value of the target waveform. 6-177 :WAVeform:RANGe? Queries the range value of the target waveform. 6-177 :WAVeform:RECord Sets the target record number or queries the current setting. 6-177 :WAVeform:RECord?MINimum Queries the minimum record number. 6-177 :WAVeform:SEND? Queries the target waveform data (transmission). 6-177 :WAVeform:SIGN? Queries the existence of a sign of the target waveform data. 6-179 :WAVeform:SRATe? Sets the sample rate of the target record or queries the current setting. 6-179 :WAVeform:STARt Sets the start data point of the target waveform or queries the current setting. 6-179 :WAVeform:TRACe Sets the target waveform or queries the current setting. 6-179 :WAVeform:TRIGger? Sets the trigger position of the target record or queries the current setting. 6-180 :WAVeform:TYPE? Queries the acquisition mode of the target waveform. 6-180

Commands

IM 701210-18E

6-19

6.1 A List of Commands

Command Function Page XY Group

:XY<x>? Queries all settings related to the X-Y display. 6-181 :XY<x>:MODE Sets the display mode or queries the current setting. 6-181 :XY<x>:TRANge Sets the range of the T-Y waveform to be displayed on the X-Y display or

:XY<x>:XAXis Sets whether to make the channel assigned to the X-axis common or

:XY<x>:XTRace Sets the channel assigned to the X-axis or queries the current setting. 6-182 :XY<x>:YTRace Sets the channel assigned to the Y-axis or queries the current setting. 6-182

ZOOM Group

:ZOOM? Queries all settings related to the waveform zoom. 6-184 :ZOOM:ALLocation? Queries all settings related to the zoom target waveform. 6-184 :ZOOM:ALLocation:ALL Sets all waveforms to be zoomed. 6-185 :ZOOM:ALLocation:{CHANnel<x>|MATH<x>|PODA|PODB|DSP<x>}

:ZOOM:FITMeasure Moves the range of the automated measurement of waveform parameters

:ZOOM:FORMat Sets the zoom waveform display format or queries the current setting. 6-185 :ZOOM:MAG<x> Sets the zoom rate of the target zoom waveform window or queries the

:ZOOM:MLINkage Turns ON/OFF the magnification link or queries the current setting. 6-185 :ZOOM:MODE Sets the zoom waveform display mode or queries the current setting. 6-185 :ZOOM:MOVE Moves the zoom box to the beginning of the waveform. 6-185 :ZOOM:PLINkage Turns ON/OFF the link when moving the zone box or queries the current

:ZOOM:POSition<x> Sets the target zoom box position or queries the current setting. 6-185 :ZOOM:TDIV<x> Sets the T/div value of the zoom waveform or queries the current setting. 6-185

Common Command Group

*CAL? Performs calibration and queries the result. 6-186 *CLS Clears the standard event register, extended event register, and error queue. 6-186 *ESE Sets the standard event enable register or queries the current setting. 6-186 *ESR? Queries the standard event register and clears the register. 6-187 *IDN? Queries the instrument model. 6-187 *LRN? Queries collectively the current settings of the command group. 6-187 *OPC Sets the bit 0 (OPC bit) of the standard event register to 1 upon the

*OPC? Creates a response after the completion of the specified overlap command. 6-188 *OPT? Queries the options. 6-189 *PSC Sets whether or not to clear the registers at power on or queries the

*RST Initializes the command group settings. 6-189 *SRE Sets the service request enable register or queries the current setting. 6-189 *STB? Queries the status byte register. 6-189 *TST? Performs a self-test and queries the result. 6-189 *WAI Holds the subsequent command until the completion of the specified

queries the current setting. 6-181

Sets the zoom target waveform or queries the current setting. 6-185

to the ends of the zoom box. 6-185

current setting. 6-185

setting. 6-185

completion of the specified overlap command. 6-188

current setting. 6-189

overlap operation. 6-189

6-20

IM 701210-18E

6.2 ACQuire Group

The commands in this group deal with the waveform acquisition. You can make the same settings and inquiries as when the ACQ key on the front panel is used.

;

:ACQuire :AVERage : COUNt <Space> <NRf>

INFinity

EWEight <Space> <NRf>

CLOCk <Space> INTernal

ernal

EXT

COUNt <Space> <NRf>

INFinity

MODE <Space> NORMal

elope

ENV

AV ERa

BAVer a

ate <Space> <NRf>

PROT

RLENgth <Space> <NRf>

;

Out :

ANAMing

COMMent <Space>

COUNt

FILename <Space>

MODE <Space> HD

SEQuence

<Space> DATE

<Space>

NUMBering

OFF

<NRf>

OFF

SINGle

CONTinue

Commands

IM 701210-18E

6-21

6.2 ACQuire Group

:ACQuire?

Function Queries all settings related to the waveform

acquisition.

Syntax :ACQuire? Example :ACQUIRE? -> :ACQUIRE:

RLENGTH 10000;MODE NORMAL; PROTATE 1;AVERAGE:COUNT INFINITY; EWEIGHT 16;:ACQUIRE:COUNT INFINITY; CLOCK INTERNAL;RTOUT:MODE OFF; ANAMING DATE;FILENAME “”;COMMENT “”

:ACQuire:AVERage?

Function Queries all settings related to averaging.

Syntax :ACQuire:AVERage? Example :ACQUIRE:AVERAGE? ->

:ACQUIRE:AVERAGE: COUNT INFINITY;EWEIGHT 16

:ACQuire:AVERage:COUNt

Function Sets the waveform acquisition count when in

average mode or queries the current setting.

Syntax :ACQuire:AVERage:COUNt

{<NRf>|INFinity} :ACQuire:AVERage:COUNt?

<NRf>=2 to 65536 (2n steps)

Example :ACQUIRE:AVERAGE:COUNT INFINITY

:ACQUIRE:AVERAGE:COUNT? -> :ACQUIRE:AVERAGE:COUNT INFINITY

:ACQuire:AVERage:EWEight (Exponent WEIGHT)

Function Sets the attenuation constant of exponential

averaging or queries the current setting.

Syntax :ACQuire:AVERage:EWEight {<NRf>}

:ACQuire:AVERage:EWEight?

<NRf>=2 to 256 (2n steps)

Example :ACQUIRE:AVERAGE:EWEIGHT 16

:ACQUIRE:AVERAGE:EWEIGHT? -> :ACQUIRE:AVERAGE:EWEIGHT 16

:ACQuire:CLOCk

Function Sets the time base or queries the current

setting.

Syntax :ACQuire:{INTernal|EXTernal}

:ACQuire:CLOCk?

Example :ACQUIRE:CLOCK INTERNAL

:ACQUIRE:CLOCK? -> :ACQUIRE:CLOCK INTERNAL

:ACQuire:COUNt

Function Sets the waveform acquisition count when in

normal mode or queries the current setting.

Syntax :ACQuire:COUNt {<NRf>|INFinity}

:ACQuire:COUNt?

<NRf>=2 to 65535

Example :ACQUIRE:COUNT INFINITY

:ACQUIRE:COUNT? -> :ACQUIRE: COUNT INFINITY

:ACQuire:MODE

Function Sets the waveform acquisition mode or queries

Syntax :ACQuire:MODE

Example :ACQUIRE:MODE NORMAL

the current setting.

{AVERage|BAVerage|ENVelope|NORMal} :ACQuire:MODE?

:ACQUIRE:MODE? -> :ACQUIRE: MODE NORMAL

:ACQuire:PROTate

Function Sets pulse/rotate when applying external clock

Syntax :ACQuire:PROTate {<NRf>}

Example :ACQUIRE:PROTATE 100

or queries the current setting.

:ACQuire:PROTate?

<NRf>=1 to 24000

:ACQUIRE:PROTATE? -> :ACQUIRE: PROTATE 100

:ACQuire:RLENgth

Function Sets the record length or queries the current

Syntax :ACQuire:RLENgth {<NRf>}

Example :ACQUIRE:RLENGTH 1000

setting.

:ACQuire:RLENgth?

<NRf>=1000 to 1000000000 (for the resolution,

see the

User’s Manual IM701210-05E

:ACQUIRE:RLENGTH? -> :ACQUIRE: RLENGTH 1000

:ACQuire:RTOut?

Function Queries all settings related to realtime

Syntax :ACQuire:RTOut?

Example :ACQUIRE:RTOUT? -> :ACQUIRE:RTOUT:

recording.

:ACQuire:RTOut?

MODE HD;ANAMING DATE;COUNT 2; FILENAME “”;COMMENT “”; SEQUENCE SINGLE

:ACQuire:RTOut:ANAMing

Function Sets auto naming for realtime recording or

Syntax :ACQuire:RTOut:ANAMing

Example :ACQUIRE:RTOUT:ANAMING NUMBERING

queries the current setting.

{DATE|NUMBering|OFF} :ACQuire:RTOut:ANAMing?

:ACQUIRE:RTOUT:ANAMING? -> :ACQUIRE:RTOUT:ANAMING NUMBERING

:ACQuire:RTOut:COMMent

Function Sets the comment for realtime recording or

Syntax :ACQuire:RTOut:COMMent <String>

Example :ACQUIRE:RTOUT:COMMENT “XYZ”

queries the current setting.

:ACQuire:RTOut:COMMent?

<String>=Up to 160 characters

:ACQUIRE:RTOUT:COMMENT? -> :ACQUIRE:RTOUT:COMMENT “XYZ”

6-22

IM 701210-18E

6.2 ACQuire Group/6.3 ASETup Group

:ACQuire:RTOut:COUNt

Function Sets the number of times to perform realtime

recording during continuous operation or queries the current setting.

Syntax :ACQuire:RTOut:COUNt {<NRf>}

:ACQuire:RTOut:COUNt?

<NRf>=2 to 128

Example :ACQUIRE:RTOUT:COUNT 5

:ACQUIRE:RTOUT:COUNT? -> :ACQUIRE:RTOUT:COUNT 5

:ACQuire:RTOut:MODE

Function Sets whether to perform realtime recording or

queries the current setting.

Syntax :ACQuire:RTOut:MODE {HD|OFF}

:ACQuire:RTOut:MODE?

Example :ACQUIRE:RTOUT:MODE HD

:ACQUIRE:RTOUT:MODE? -> :ACQUIRE:RTOUT:MODE HD

Description The internal hard disk is optional. If you select

HD when there is no internal hard disk, an error occurs.

:ACQuire:RTOut:FILename

Function Sets the file name of auto naming of realtime

recording or queries the current setting.

Syntax :ACQuire:RTOut:FILename <String>

:ACQuire:RTOut:FILename?

<String>=Up to 16 characters

Example :ACQUIRE:RTOUT:FILENAME “ABC”

:ACQUIRE:RTOUT:FILENAME? -> :ACQUIRE:RTOUT:FILENAME “ABC”

:ACQuire:RTOut:SEQuence

Function Sets the realtime recording operation or queries

the current setting.

Syntax :ACQuire:RTOut:SEQuence

{SINGLE|CONTINUE} :ACQuire:RTOut:SEQuence?

Example :ACQUIRE:RTOUT:SEQUENCE CONTINUE

:ACQUIRE:RTOUT:SEQUENCE? -> :ACQUIRE:RTOUT:SEQUENCE CONTINUE

6.3 ASETup Group

The commands in this group deal with the auto setup. You can make the same settings, execute the same operations, and make the same inquiries as when the SETUP key on the front panel is used.

;

:ASETup : ADJust <Space> OFFSet

ZERO

EXECute

RGet <Space> ALL

<NRf>

UNDO

Commands

:ASETup?

Function Queries all settings related to auto setup.

Syntax :ASETup? Example :ASETUP? -> :ASETUP:ADJUST ZERO;

TARGET ALL

:ASETup:ADJust

Function Sets the center position after auto setup or

queries the current setting.

Syntax :ASETup:ADJust {OFFSet|ZERO}

:ASETup:ADJust?

Example :ASETUP:ADJUST ZERO

:ASETUP:ADJUST? -> :ASETUP: ADJUST ZERO

:ASETup:EXECute

Function Execute auto setup.

Syntax :ASETup:EXECute Example :ASETUP:EXECUTE

IM 701210-18E

:ASETup:TARGet

Function Sets the target channel for auto setup or

queries the current setting.

Syntax :ASETup:TARGet {ALL|<NRf>}

:ASETup:TARGet?

<NRf>=1 to 16

Example :ASETUP:TARGET ALL

:ASETUP:TARGET? -> :ASETUP: TARGET ALL

Description An error occurs if you specify a channel in

which a module is not installed.

:ASETup:UNDO

Function Cancels auto setup.

Syntax :ASETup:UNDO Example :ASETUP:UNDO

6-23

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 the SHIFT+SETUP key on the front panel is used.

;

:CALibrate : EXECute

MODE <Space> AUTO

OFF

:CALibrate?

Function Queries all settings related to the calibration.

Syntax :CALibrate? Example :CALIBRATE? -> :CALIBRATE:MODE AUTO

:CALibrate[:EXECute]

Function Executes the calibration.

Syntax :CALibrate[:EXECute] Example :CALIBRATE:EXECUTE

:CALibrate:MODE

Function Turns ON/OFF the auto calibration or queries

Syntax :CALibrate:MODE {AUTO|OFF}

Example :CALIBRATE:MODE AUTO

the current setting.

:CALibrate?

:CALIBRATE? -> :CALIBRATE:MODE AUTO

6-24

IM 701210-18E

6.5 CAPTure Group

The commands in this group deal with the dual capture function. You can make the same settings and inquiries as when the DUAL CAPTURE key (DL750) or the SHIFT+RECORDER key (DL750P) on the front panel is used.

;

:CAPTure :

ACTion <Space>

ALLocation

: MAIL

;

ALL

<Space> OFF

COUNt

MODE

<Space> OFF

<NRf>

CHANnel

PODA

PODB

DSP

BITDisp <Space> OFF

<NRf>

CAPNum <Space> <NRf>

MAXimum

MINimum

FORMat <Space> MAIN

SINGle

DUAL

TRIad

QUAD

OCTal

DHEXa

G <Space>

<Time>

<x>

<Space> OFF

<NRf>

Commands

IM 701210-18E

MODE <Space> OFF

<NRf>

POSition <Space> <NRf>

6-25

6.5 CAPTure Group

TDIV <Space>

WINDow <Space> OFF

<Time>

HOUR1

HOUR2

HOUR3

HOUR4

HOUR5

HOUR6

HOUR7

HOUR8

HOUR9

HOUR10

HOUR12

RIGHt

LEFT

FULL

:CAPTure?

Function Queries all settings related to dual capture.

Syntax :CAPTure? Example :CAPTURE? -> :CAPTURE:MODE 0;

TDIV 100.0E-06;WINDOW OFF; MAG 100.0E-06;POSITION 0.0000000; CAPNUM 0;BITDISP 1

:CAPTure:ACTion:MAIL?

Function Queries all settings related to the mail

transmission during dual capture.

Syntax :CAPTure:ACTion:MAIL? Example :CAPTURE:ACTION:MAIL? ->

:CAPTURE:ACTION :MAIL:COUNT 100;MODE 1

Description Can be used when the Ethernet interface

(option) is installed.

:CAPTure:ACTion:MAIL:COUNt

Function Sets the upper limit on the number of

transmitted mail during dual capture or queries the current setting.

Syntax :CAPTure:ACTion:MAIL:COUNt {<NRf>}

<NRf>=1 to 1000

Example :CAPTURE:ACTION:MAIL:COUNT 100

:CAPTURE:ACTION:MAIL:COUNT? -> :CAPTURE: ACTION:MAIL:COUNT 100

Description Can be used when the Ethernet interface

(option) is installed.

:CAPTure:ACTion:MAIL:MODE

Function Sets whether to send a mail during dual capture

or queries the current setting.

Syntax :CAPTure:ACTion:MAIL:MODE

{<Boolean>}

Example :CAPTURE:ACTION:MAIL:MODE ON

:CAPTURE:ACTION:MAIL:MODE? -> :CAPTURE :ACTION:MAIL:MODE 1

Description Can be used when the Ethernet interface

(option) is installed.

:CAPTure:ALLocation?

Function Queries all settings related to the waveforms

displayed using dual capture.

Syntax :CAPTure:ALLocation? Example :CAPTURE:ALLOCATION? -> :CAPTURE

:ALLOCATION:CHANNEL1 1;CHANNEL2 1 ;CHANNEL3 1;CHANNEL4 1;CHANNEL5 1 ;CHANNEL6 1;CHANNEL7 1;CHANNEL8 1 ;CHANNEL9 1;CHANNEL10 1;CHANNEL11 1 ;CHANNEL12 1;CHANNEL13 1;CHANNEL14 1 ;CHANNEL15 1;CHANNEL16 1;PODA 0; PODB 0;DSP1 0;DSP2 0;DSP3 0;DSP4 0; DSP5 0;DSP6 0

:CAPTure:ALLocation:ALL

Function Sets all waveforms to be displayed by dual

capture.

Syntax :CAPTure:ALLocation:ALL {<Boolean>} Example :CAPTURE:ALLOCATION:ALL ON

6-26

IM 701210-18E

6.5 CAPTure Group

:CAPTure:ALLocation:{CHANnel<X>| PODA|PODB|DSP<X>}

Function Sets the waveform to be displayed using dual

capture or queries the current setting.

Syntax :CAPTure:ALLocation:{CHANnel<X>|

PODA|PODB|DSP<X>} <Boolean>} :CAPTure:ALLocation:{CHANnel<X>| PODA|PODB|DSP<X>}?

<x> of CHANnel<X>=1 to 16 <x> of DSP<X>=1 to 6

Example :CAPTURE:ALLOCATION:CHANNEL1 ON

:CAPTURE:ALLOCATION:CHANNEL1? -> :CAPTURE:ALLOCATION:CHANNEL1 1

:CAPTure:BITDisp

Function Sets whether to display the dual capture event

bit or queries the current setting.

Syntax :CAPTure:BITDisp {<Boolean>}

:CAPTure:BITDisp?

Example :CAPTURE:BITDSIP 1

:CAPTURE:BITDISP? -> :CAPTURE:BITDISP 1

:CAPTure:CAPNum

Function Sets the dual capture number or queries the

current setting.

Syntax :CAPture:CAPNum

{<NRf>|MAXimum|MINimum} :CAPture:CAPNum?

Example :CAPTURE:CAPNUM -10

:CAPTURE:CAPNUM? -> :CAPTURE: CAPNUM -10

:CAPTure:CAPNum? MAXimum

Function Queries the maximum record number of dual

capture waveforms. (Used when the trigger mode is set to Log.)

Syntax :CAPture:CAPNum? MAXimum Example :CAPTURE:CAPNUM? MAXIMUM-> CAPTURE:

CAPNUM 5

:CAPTure:CAPNum? MINimum

Function Queries the minimum record number of dual

capture waveforms. (Used when the trigger mode is set to Auto.)

Syntax :CAPture:CAPNum? MINimum Example :CAPTURE:CAPNUM? MINiMUM ->

CAPTURE:CAPNUM -1

:CAPTure:MAG

Function Sets the zoom rate of the sub waveform

window or queries the current setting.

Syntax :CAPTure:MAG {<Time>}

:CAPTure:MAG?

<Time>=500 ns to 60 s

Example :CAPTURE:MAG 1MS

:CAPTURE:MAG 1MS :CAPTURE:MAG? -> :CAPTURE: MAG 100.0E-06

:CAPTure:MODE

Function Sets whether or not to perform dual capture or

queries the current setting.

Syntax :CAPTure:MODE {<Boolean>}

:CAPTure:MODE?

Example :CAPTURE:MODE 1

:CAPTURE:MODE? -> :CAPTURE:MODE 1

:CAPTure:POSition

Function Sets the horizontal position of the sub

waveform window or queries the current setting.

Syntax :CAPTure:POSition {<NRf>}

:CAPTure:POSition?

<NRf>=–5 to 5 divisions (10 divisions/displayed

record length steps)

Example :CAPTURE:POSITION 3

:CAPTURE:POSITION? -> :CAPTURE: POSITION 3.0000000

:CAPTure:TDIV

Function Sets the T/div value of the capture or queries

the current setting.

Syntax :CAPTure:TDIV {<Time>}

:CAPTure:TDIV?

<Time>=500 ns to 60 s

Example :CAPTURE:TDIV 1US

:CAPTURE:TDIV? -> :CAPTURE: TDIV 1.000E-06

:CAPTure:WINDow

Function Sets the display position and size of the sub

waveform window or queries the current setting.

Syntax :CAPTure:WINDow

{OFF|RIGHt|LEFT|FULL}

Example :CAPTURE:WINDOW RIGHT

:CAPTURE:WINDOW? -> :CAPTURE: WINDOW RIGHT

Commands

:CAPTure:FORMat

Function Sets the waveform format of the dual capture

display or queries the current setting.

Syntax :CAPTure:FORMat{MAIN|SINGle|DUAL|

TRIad|QUAD|OCTal|DHEXa} :CAPTure:FORMat?

Example :CAPTURE:FORMAT MAIN

:CAPTURE:FORMAT? -> :CAPTURE:FORMAT MAIN

IM 701210-18E

6-27

6.6 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 the VERTICAL group (CH key and V/DIV key) on the front panel is used.

;

:CHANnel <x> :VOLT age : BWIDth <Space>

COUPling <Space> AC

t <Space> OFF

INVer

LSCale : AVA Lue <Space> <NRf>

FULL

GND

ACRMS

DCRMS

<NRf>

;

BVALue <Space> <NRf>

;

DISPlaytype : MODE <Space> EXPonent

FLOating

DECimalnum

SUBunit <Space> AU TO

GETMeasure

MODE <Space> AXB

P1X <Space> <NRf>

P1Y <Space> <NRf>

<Space> P1X

AUTO

NONE

PICO

NANO

MICRo

MILI

KILO

GIGA

TERA

P2X

OFF

P12

6-28

IM 701210-18E

P2X <Space> <NRf>

P2Y <Space> <NRf>

UNIT <Space>

OFFSet <Space>

POSition <Space> <NRf>

PROBe <Space> <NRf>

SCALe <Space> ,

Riable <Space> OFF

VDIV <Space>

ZOOM <Space> <NRf>

;

CCL : BIAS <Space> OFF

BWIDth <Space> FULL

COUPling <Space> DC

GAIN <Space> <NRf>

SCALe <Space> <NRf> , <NRf>

SENSitivity <Space> <NRf>

UNIT <Space>

le <Space> OFF

VARi ab

C10

C100

<NRf>

<NRf>

AUT

GND

CCl

<NRf>

6.6 CHANnel Group

<NRf>

Commands

IM 701210-18E

6-29

6.6 CHANnel Group

ZOOM <Space> <NRf>

DISPlay <Space> OFF

<NRf>

;

FREQ : INPut : BWIDth <Space> FULL

CELimination

COUPling <Space> DC

eresis <Space> HIGH

HYST

PRESet <Space> LOG5v

OBe <Space> <NRf>

PULLup <Space> OFF

SLOP

THReshold <Space>

VRANg

LSCale :AVALue <Space> <NRf>

ALue <Space> <NRf>

GETMeasure <Space> P1X

MODE <Space> AXB

<Space>

e <Space> RISE

e <Space>

<Time>

MIDDle

LOG3v

LOG12v

LOG24v

PULLup

LOW

ZER

C100v

C200v

USER

<NRf>

ALL

P2X

OFF

P12

6-30

IM 701210-18E

P1X <Space> <NRf>

P1Y <Space> <NRf>

P2X <Space> <NRf>

P2Y <Space> <NRf>

UNIT <Space>

OFFSet <Space> <NRf>

<Time>

POSition <Space> <NRf>

SCALe <Space> <NRf> , <NRf>

<Time>

SET

up :CFRequency <Space>

DECeleration <Space> OFF

DPULse <Space> <NRf>

FILT

er : SMOothing : MODE <Space> OFF

FUNCtion <Space> FREQuency

<Time>

PA Verag

e : MODE <Space> OFF

PERiod

PWIDth

ADDition

VELocity

<NRf>

RPM

RPS

DUTY

6.6 CHANnel Group

Commands

<NRf>

ALue <Space>

ALue <Space> <NRf>

<Time>

<NRf>

IM 701210-18E

6-31

6.6 CHANnel Group

VARiab

VDIV <Space> <NRf>

ZOOM <Space> <NRf>

LABel <Space>

MODule ?

;

STRain :BALance

BWIDth <Space> FULL

EXCitation <Space>

GFA

Ctor <Space> <NRf>

INVer

LRESet <Space> OFF

MPULse <Space> POSitive

ate <Space> <NRf>

PROT

RESet

OPpredict <Space> <NRf>

TUNit <Space> HOUR

UNIT <Space>

UPULse <Space> <NRf>

VUNit <Space>

le <Space> OFF

<NRf>

<Time>

CHANnel

EXECute

t <Space> OFF

<NRf>

NEGative

OFF

MIN

SEC

<x>

6-32

IM 701210-18E

LSCale :AVALue <Space> <NRf>

ALue <Space> <NRf>

;

DISPlaytype : MODE <Space> EXPonent

DECimalnum

SUBunit <Space> AUTO

GETMeasure

MODE <Space> AXB

P1X <Space> <NRf>

P1Y <Space> <NRf>

P2X <Space> <NRf>

P2Y

SHUNt

UNIT <Space>

RANGe <Space> <NRf>

SCALe <Space> <NRf> , <NRf>

UNIT <Space>

<Space> P1X

P2X

OFF

P12

SHUNt

USTR

FLOating

AUTO

NONE

PICO

NANO

MICRo

MILI

KILO

GIGA

TERA

6.6 CHANnel Group

Commands

IM 701210-18E

6-33

6.6 CHANnel Group

TEMP

erature :

;

RNout <Space> OFF

<NRf>

BWIDth <Space> FULL

COUPling <Space> DC

GND

RJC <Space> OFF

<NRf>

SCALe <Space> <NRf> , <NRf>

TYPE <Space> K

7fe

UNIT <Space> C

6-34

IM 701210-18E

6.6 CHANnel Group

:CHANnel<x>?

Function Queries all settings related to the vertical axis of

the channel.

Syntax :CHANnel<x>?

<x>=1 to 16

Example (The following is an example when a voltage

module is installed in channel 1.)

:CHANNEL1? -> :CHANNEL1:DISPLAY 1; VOLTAGE:VDIV 50.000E+00;VARIABLE 0; COUPLING DC;PROBE 10;BWIDTH FULL; SCALE 250.000E+00,-250.000E+00; POSITION 0.00;LSCALE:MODE OFF; AVALUE 1.00000E+00; BVALUE 0.00000E+00; P1X 0.00000E+00;P1Y 0.00000E+00; P2X 1.00000E+00;P2Y 1.00000E+00; UNIT "";DISPLAYTYPE:MODE EXPONENT; DECIMALNUM AUTO;SUBUNIT AUTO;: CHANNEL1:VOLTAGE:ZOOM 1.000; INVERT 0;OFFSET 0.0E+00;: CHANNEL1:TEMPERATURE:COUPLING DC;: CHANNEL1:ACCL:COUPLING DC;: CHANNEL1:LABEL "CH1"

Description An error occurs, if a module is not installed in

the channel (slot).

:CHANnel<x>:ACCL?

Function Queries all settings on the channel with the

acceleration/voltage module installed.

Syntax :CHANnel<x>:ACCL?

<x>=1 to 16

Example :CHANNEL11:ACCL? ->

:CHANNEL11:ACCL: VARIABLE 0;COUPLING ACCL;GAIN 1.0; BWIDTH FULL;SCALE 5000.00,-5000.00; ZOOM 1.000;SENSITIVITY 1.00; UNIT “m/s2”;BIAS 0

Description An error occurs if the acceleration/voltage

module is not installed.

:CHANnel<x>:ACCL:BIAS

Function Turns ON/OFF the bias current supply to the

acceleration sensor on the channel with the acceleration/voltage module installed or queries the current setting.

Syntax :CHANnel<x>:ACCL:BIAS {<Boolean>}

:CHANnel<x>:ACCL:BIAS?

<x>=1 to 16

Example :CHANNEL11:ACCL:BIAS ON

:CHANNEL11:ACCL:BIAS? -> :CHANNEL11:ACCL:BIAS 1

Description An error occurs if the acceleration/voltage

module is not installed.

:CHANnel<x>:ACCL:BWIDth

Function Sets the bandwidth limit on the channel with the

acceleration/voltage module installed or queries the current setting.

Syntax :CHANnel<x>:ACCL:BWIDth {FULL|AUTO|

<Frequency>} :CHANnel<x>:ACCL:BWIDth?

<x>=1 to 16 <Frequency>=4 kHz, 400 Hz, or 40 Hz

Example :CHANNEL11:ACCL:BWIDTH AUTO

:CHANNEL11:ACCL:BWIDTH? -> :CHANNEL11:ACCL:BWIDTH AUTO

Description An error occurs if the acceleration/voltage

module is not installed.

:CHANnel<x>:ACCL:COUPling

Function Sets the input coupling on the channel with the

acceleration/voltage module installed or queries the current setting.

Syntax :CHANnel<x>:ACCL:COUPling {AC|DC|

ACCL|GND} :CHANnel<x>:ACCL:COUPling?

<x>=1 to 16

Example :CHANNEL11:ACCL:COUPLING GND

:CHANNEL11:ACCL:COUPLING? -> :CHANNEL11:ACCL:COUPLING GND

Description An error occurs if the acceleration/voltage

module is not installed.

:CHANnel<x>:ACCL:GAIN

Function Sets the gain on the channel with the

acceleration/voltage module installed or queries the current setting.

Syntax :CHANnel<x>:ACCL:GAIN {<NRf>}

:CHANnel<x>:ACCL:GAIN?

<x>=1 to 16 <NRf>=0.1, 0.2, 0.5, 1, 2, 5, 10, 20, 50, or 100

Example :CHANNEL11:ACCL:GAIN 100

:CHANNEL11:ACCL:GAIN? -> :CHANNEL11:ACCL:GAIN 100.0

Description An error occurs if the acceleration/voltage

module is not installed.

:CHANnel<x>:ACCL:SCALe

Function Sets the upper and lower limits on the screen

on the channel with the acceleration/voltage module installed or queries the current setting.

Syntax :CHANnel<x>:ACCL:SCALe {<NRf>,

<NRf>} :CHANnel<x>:ACCL:SCALe?

<x>=1 to 16 <NRf>=1000000 to –1000000

Example :CHANNEL11:ACCL:SCALE 100,-100

:CHANNEL11:ACCL:SCALE? -> :CHANNEL11:ACCL:SCALE 100.00,-

100.00

Description An error occurs if the acceleration/voltage

module is not installed.

:CHANnel<x>:ACCL:SENSitivity

Function Sets the sensitivity on the channel with the

acceleration/voltage module installed or queries the current setting.

Syntax :CHANnel<x>:ACCL:SENSitivity

{<NRf>} :CHANnel<x>:ACCL:SENSitivity?

<x>=1 to 16 <NRf>=0.1 to 2000

Example :CHANNEL11:ACCL:SENSITIVITY 10

:CHANNEL11:ACCL:SENSITIVITY? -> :CHANNEL11:ACCL:SENSITIVITY 10.00

Description An error occurs if the acceleration/voltage

module is not installed.

Commands

IM 701210-18E

6-35

6.6 CHANnel Group

:CHANnel<x>:ACCL:UNIT

Function Sets the unit of upper and lower limits on the

channel with the acceleration/voltage module installed or queries the current setting.

Syntax :CHANnel<x>:ACCL:UNIT {<String>}

:CHANnel<x>:ACCL:UNIT?

<x>=1 to 16

Example :CHANNEL11:ACCL:UNIT “ACCL”

:CHANNEL11:ACCL:UNIT? -> :CHANNEL11:ACCL:UNIT “ACCL”

Description An error occurs if the acceleration/voltage

module is not installed.

:CHANnel<x>:ACCL:VARiable

Function Sets whether to enable Variable mode on the

channel with the acceleration/voltage module installed or queries the current setting.

Syntax :CHANnel<x>:ACCL:VARiable

{<Boolean>} :CHANnel<x>:ACCL:VARiable?

<x>=1 to 16

Example :CHANNEL11:ACCL:VARIABLE ON

:CHANNEL11:ACCL:VARIABLE? -> :CHANNEL11:ACCL:VARIABLE 1

Description An error occurs if the acceleration/voltage

module is not installed.

:CHANnel<x>:ACCL:ZOOM

Function Sets the vertical zoom rate on the channel with

the acceleration/voltage module installed or queries the current setting.

Syntax :CHANnel<x>:ACCL:ZOOM {<NRf>}

:CHANnel<x>:ACCL:ZOOM?

<x>=1 to 16 <NRf>=0.5, 0.556, 0.625, 0.667, 0.714, 0.80,

833, 1, 1.11, 1.25, 1.33, 1.43, 1.67, 2, 2.22,

2.5, 3.33, 4, 5, 6.67, 8, 10, 12.5, 16.7, 20, 25, 40, 50, or 100

Example :CHANNEL11:ACCL:ZOOM 0.667

:CHANNEL11:ACCL:ZOOM? -> :CHANNEL11:ACCL:ZOOM 0.667

Description An error occurs if the acceleration/voltage

module is not installed.

:CHANnel<x>:DISPlay

Function Turns ON/OFF the waveform display of the

channel or queries the current setting.

Syntax :CHANnel<x>:DISPlay {<Boolean>}

:CHANnel<x>:DISPlay?

<x>=1 to 16

Example :CHANNEL1:DISPLAY ON

:CHANNEL1:DISPLAY? -> :CHANNEL1: DISPLAY 1

Description An error occurs, if a module is not installed in

the channel (slot).

:CHANnel<x>:FREQ?

Function Queries all settings on the channel with the

frequency module installed.

Syntax :CHANnel<x>:FREQ?

<x>=1 to 16

Example CHANNEL11:FREQ? -> :CHANNEL11:FREQ:

VDIV 1.00E+03;VARIABLE 0; SCALE 5.000000E+03,-5.000000E+03; POSITION 0.00;INPUT: CELIMINATION 0.000;COUPLING DC; HYSTERESIS LOW;PRESET USER; PULLUP 0;SLOPE RISE;VRANGE 10; PROBE 1;THRESHOLD 0.0E+00; BWIDTH FULL;:CHANNEL11:FREQ:LSCALE: MODE OFF;AVALUE 1.00000E+00; BVALUE 0.00000E+00;P1X 0.00000E+00; P1Y 0.00000E+00;P2X 1.00000E+00; P2Y 1.00000E+00;UNIT "";:CHANNEL11: FREQ:SETUP:DECELERATION 1; FUNCTION FREQUENCY;LRESET 0; MPULSE POSITIVE;STOPPREDICT OFF; TUNIT SEC;CFREQUENCY 50; DPULSE 1.00000E+00;PROTATE 1; UPULSE 1.00000E+00;FILTER:PAVERAGE: MODE 0;VALUE 2;:CHANNEL11:FREQ: SETUP:FILTER:SMOOTHING:MODE 0; VALUE 0.0000;:CHANNEL11:FREQ:SETUP: UNIT "";VUNIT "m/s";:CHANNEL11: FREQ:ZOOM 1.000;OFFSET 0.000000E+00

Description An error occurs if the frequency module is not

installed.

:CHANnel<x>:FREQ:INPut?

Function Queries all settings related to the input on the

channel with the frequency module installed.

Syntax :CHANnel<x>:FREQ:INPut?

<x>=1 to 16

Example :CHANNEL15:FREQ:INPUT? ->

:CHANNEL15:FREQ:INPUT:COUPLING DC; CSUPPRESS 0.100; HYSTERESIS LOW;PRESET USER; PULLUP 0;SLOPE RISE;VRANGE 10; PROBE 1;THRESHOLD 0.0E+00; BWIDTH FULL

Description An error occurs if the frequency module is not

installed.

:CHANnel<x>:FREQ:INPut:BWIDth

Function Sets the bandwidth limit on the channel with the

frequency module installed or queries the current setting.

Syntax :CHANnel<x>:FREQ:INPut:BWIDth

{FULL|<Frequency>} :CHANnel<x>:FREQ:INPut:BWIDth?

<x>=1 to 16 <Frequency>=100 Hz, 1 kHz, 10 kHz, or 100

kHz

Example :CHANNEL15:FREQ:INPUT:BWIDTH FULL

:CHANNEL15:FREQ:INPUT:BWIDTH? -> :CHANNEL15:FREQ:INPUT:BWIDTH FULL

Description An error occurs if the frequency module is not

installed.

6-36

IM 701210-18E

6.6 CHANnel Group

:CHANnel<x>:FREQ:INPut:CELimination

Function Sets the chatter elimination on the channel with

the frequency module installed or queries the current setting.

Syntax :CHANnel<x>:FREQ:INPut:

CELimination {<Time>} :CHANnel<x>:FREQ:INPut: CELimination?

<x>=1 to 16 <NRf>=0 to 1000 ms

Example :CHANNEL15:FREQ:INPUT:

CELIMINATION 100ms :CHANNEL15:FREQ:INPUT:CELIMINATION?

-> :CHANNEL15:FREQ:INPUT: CELIMINATION 0.100

Description An error occurs if the frequency module is not

installed.

:CHANnel<x>:FREQ:INPut:COUPling

Function Sets the input coupling on the channel with the

frequency module installed or queries the current setting.

Syntax :CHANnel<x>:FREQ:INPut:

COUPling {AC|DC} :CHANnel<x>:FREQ:INPut:COUPling?

<x>=1 to 16

Example :CHANNEL15:FREQ:INPUT:COUPLING DC

:CHANNEL15:FREQ:INPUT:COUPLING? -> :CHANNEL15:FREQ:INPUT:COUPLING DC

Description An error occurs if the frequency module is not

installed.

:CHANnel<x>:FREQ:INPut:HYSTeresis

Function Sets the hysteresis on the channel with the

frequency module installed or queries the current setting.

Syntax :CHANnel<x>:FREQ:INPut:

HYSTeresis {HIGH|LOW|MIDDle} :CHANnel<x>:FREQ:INPut:HYSTeresis?

<x>=1 to 16

Example :CHANNEL15:FREQ:INPUT:

HYSTERESIS LOW :CHANNEL15:FREQ:INPUT:HYSTERESIS?

-> :CHANNEL15:FREQ:INPUT: HYSTERESIS LOW

Description An error occurs if the frequency module is not

installed.

:CHANnel<x>:FREQ:INPut:PRESet

Function Sets the preset on the channel with the

frequency module installed or queries the current setting.

Syntax :CHANnel<x>:FREQ:INPut:PRESet

{AC100v|AC200v|EMPichup|LOG12v| LOG24v|LOG3v|LOG5v|PULLup|USER|ZERO} :CHANnel<x>:FREQ:INPut:PRESet?

<x>=1 to 16

Example :CHANNEL15:FREQ:INPUT:PRESET USER

:CHANNEL15:FREQ:INPUT:PRESET? -> :CHANNEL15:FREQ:INPUT:PRESET USER

Description An error occurs if the frequency module is not

installed.

:CHANnel<x>:FREQ:INPut:PROBe

Function Sets the probe attenuation on the channel with

the frequency module installed or queries the current setting.

Syntax :CHANnel<x>:FREQ:INPut:PROBe

{<NRf>} :CHANnel<x>:FREQ:INPut:PROBe?

<x>=1 to 16 <NRf>=1 or 10

Example :CHANNEL15:FREQ:INPUT:PROBE 10

:CHANNEL15:FREQ:INPUT:PROBE? -> :CHANNEL15:FREQ:INPUT:PROBE 10

Description An error occurs if the frequency module is not

installed.

:CHANnel<x>:FREQ:INPut:PULLup

Function Turns ON/OFF the pull-up on the channel with

the frequency module installed or queries the current setting.

Syntax :CHANnel<x>:FREQ:INPut:

PULLup {<Boolean>} :CHANnel<x>:FREQ:INPut:PULLup?

<x>=1 to 16

Example :CHANNEL15:FREQ:INPUT:PULLUP ON

:CHANNEL15:FREQ:INPUT:PULLUP? -> :CHANNEL15:FREQ:INPUT:PULLUP 1

Description An error occurs if the frequency module is not

installed.

:CHANnel<x>:FREQ:INPut:SLOPe

Function Sets the slope on the channel with the

frequency module installed or queries the current setting.

Syntax :CHANnel<x>:FREQ:INPut:SLOPe

{FALL|RISE} :CHANnel<x>:FREQ:INPut:SLOPe?

<x>=1 to 16

Example :CHANNEL15:FREQ:INPUT:SLOPE FALL

:CHANNEL15:FREQ:INPUT:SLOPE? -> :CHANNEL15:FREQ:INPUT:SLOPE FALL

Description An error occurs if the frequency module is not

installed.

:CHANnel<x>:FREQ:INPut:THReshold

Function Sets the threshold level on the channel with the

frequency module installed or queries the current setting.

Syntax :CHANnel<x>:FREQ:INPut:THReshold

{<Voltage>} :CHANnel<x>:FREQ:INPut:THReshold?

<x>=1 to 16 <Voltage>=100 to –100 V

Example :CHANNEL15:FREQ:INPUT:THRESHOLD 10

:CHANNEL15:FREQ:INPUT:THRESHOLD? -> :CHANNEL15:FREQ:INPUT: THRESHOLD 10.000E+00

Description An error occurs if the frequency module is not

installed.

Commands

IM 701210-18E

6-37

6.6 CHANnel Group

:CHANnel<x>:FREQ:INPut:VRANGe

Function Sets the voltage range on the channel with the

frequency module installed or queries the current setting.

Syntax :CHANnel<x>:FREQ:INPut:VRANGe

{<Voltage>} :CHANnel<x>:FREQ:INPut:VRANGe?

<x>=1 to 16 <Voltage>=1 to 500 V

Example :CHANNEL15:FREQ:INPUT:VRANGE 10

:CHANNEL15:FREQ:INPUT:VRANGE? -> :CHANNEL15:FREQ:INPUT:VRANGE 10

Description An error occurs if the frequency module is not

installed.

:CHANnel<x>:FREQ:LSCale?

Function Queries all settings related to linear scaling on

the channel with the frequency module installed.

Syntax :CHANnel<x>:FREQ:LSCale?

<x>=1 to 16

Example :CHANNEL15:FREQ:LSCALE? ->

:CHANNEL15:FREQ:LSCALE: MODE OFF;AVALUE 1.00000E+00; BVALUE 0.00000E+00; P1X0.00000E+00;P1Y 0.00000E+00; P2X 1.00000E+00; P2Y 1.00000E+00;UNIT “”

Description An error occurs if the frequency module is not

installed.

:CHANnel<x>:FREQ:LSCale:AVALue

Function Sets the linear scaling coefficient A on the

channel with the frequency module installed or queries the current setting.

Syntax :CHANnel<x>:FREQ:LSCale:AVALue

{<NRf>} :CHANnel<x>:FREQ:LSCale:AVALue?

<x>=1 to 16 <NRf>=–9.9999E+30 to 9.9999E+30

Example :CHANNEL15:FREQ:LSCALE:AVALUE 10

:CHANNEL15:FREQ:LSCALE:AVALUE? -> :CHANNEL15:FREQ:LSCALE: AVALUE 10.0000E+00

Description An error occurs if the frequency module is not

installed.

:CHANnel<x>:FREQ:LSCale:GETMeasure

Function Executes the measurement of the P1:X|P2:X

values of linear scaling on the channel with the frequency module installed.

Syntax :CHANnel<x>:FREQ:LSCale:GETMeasure

{P1X|P2X}

<x>=1 to 16

Example :CHANNEL15:FREQ:LSCALE:

GETMEASURE P1X

Description An error occurs if the frequency module is not

installed.

:CHANnel<x>:FREQ:LSCale:MODE

Function Sets linear scaling on the channel with the

frequency module installed or queries the current setting.

Syntax :CHANnel<x>:FREQ:LSCale:MODE

{AXB|OFF|P12} :CHANnel<x>:FREQ:LSCale:MODE?

<x>=1 to 16

Example :CHANNEL15:FREQ:LSCALE:MODE OFF

:CHANNEL15:FREQ:LSCALE:MODE? -> :CHANNEL15:FREQ:LSCALE:MODE OFF

Description An error occurs if the frequency module is not

installed.

:CHANnel<x>:FREQ:LSCale:{P1X|P1Y| P2X|P2Y}

Function Sets the P1:X|P1:Y|P2:X|P2:Y values of

linear scaling on the channel with the frequency module installed or queries the current setting.

Syntax :CHANnel<x>:FREQ:LSCale:{P1X|P1Y|

P2X|P2Y} {<NRf>} :CHANnel<x>:FREQ:LSCale:{P1X|P1Y| P2X|P2Y}?

<x>=1 to 16 <NRf> of P1X and P2X=–9.9999E+30 to

9.9999E+30

<NRf> or P1Y or P2Y=–9.9999E+25 to

9.9999E+25

Example :CHANNEL15:FREQ:LSCALE:P1X 10

:CHANNEL15:FREQ:LSCALE:P1X? -> :CHANNEL15:FREQ:LSCALE: P1X 10.0000E+00

Description An error occurs if the frequency module is not

installed.

:CHANnel<x>:FREQ:LSCale:BVALue

Function Sets the linear scaling coefficient B on the

channel with the frequency module installed or queries the current setting.

Syntax :CHANnel<x>:FREQ:LSCale:BVALue

{<NRf>} :CHANnel<x>:FREQ:LSCale:BVALue?

<x>=1 to 16 <NRf>=–9.9999E+30 to 9.9999E+30

Example :CHANNEL15:FREQ:LSCALE:BVALUE 10

:CHANNEL15:FREQ:LSCALE:BVALUE? -> :CHANNEL15:FREQ:LSCALE: BVALUE 10.0000E+00

Description An error occurs if the frequency module is not

installed.

6-38

:CHANnel<x>:FREQ:LSCale:UNIT

Function Sets the unit to be added to the result of linear

scaling on the channel with the frequency module installed or queries the current setting.

Syntax :CHANnel<x>:FREQ:LSCale:UNIT

{<String>} :CHANnel<x>:FREQ:LSCale:UNIT?

<x>=1 to 16 <String>=Up to 4 characters

Example :CHANNEL15:FREQ:LSCALE:UNIT “AAA”

:CHANNEL15:FREQ:LSCALE:UNIT? -> :CHANNEL15:FREQ:LSCALE:UNIT “AAA”

Description An error occurs if the frequency module is not

installed.

IM 701210-18E

6.6 CHANnel Group

:CHANnel<x>:FREQ:OFFSet

Function Sets the offset value on the channel with the

frequency module installed or queries the

Syntax :CHANnel<x>:FREQ:OFFSet

Example :CHANNEL15:FREQ:OFFSET 1

Description An error occurs if the frequency module is not

current setting.

{<NRf>|<Frequency>|<Time>} :CHANnel<x>:FREQ:OFFSet?

<x>=1 to 16 {<NRf>|<Frequency>|<Time>}=The selectable

range varies depending on the range setting. For details, see the

:CHANNEL15:FREQ:OFFSET? -> :CHANNEL15:FREQ:OFFSET 1.000000E+00

installed.

User’s Manual

:CHANnel<x>:FREQ:POSition

Function Sets the vertical position on the channel with

Syntax :CHANnel<x>:FREQ:POSition {<NRf>}

Example :CHANNEL15:FREQ:POSITION 1

Description An error occurs if the frequency module is not

the frequency module installed or queries the current setting.

:CHANnel<x>:FREQ:POSition?

<x>=1 to 16 {<NRf>}=–5.00 to 5.00 (div, 0.01 div steps)

:CHANNEL15:FREQ:POSITION? -> :CHANNEL15:FREQ:POSITION 1.00

installed.

:CHANnel<x>:FREQ:SCALe

Function Sets the upper and lower limits on the screen

Syntax :CHANnel<x>:FREQ:SCALe

Example :CHANNEL15:FREQ:SCALE 5,-5

Description An error occurs if the frequency module is not

on the channel with the frequency module installed or queries the current setting.

{<NRf>,<NRf>|<Frequency>,<Frequency>| <Time>,<Time>} :CHANnel<x>:FREQ:SCALe?

<x>=1 to 16 {<NRf>|<Frequency>|<Time>}=The selectable

range varies depending on the range setting. For details, see the

:CHANNEL15:FREQ:SCALE? -> :CHAN15:FREQ: SCAL 5.000000E+00,-5.000000E+00

installed.

User’s Manual

:CHANnel<x>:FREQ:SETup?

Function Queries all settings related to FV setup on the

Syntax :CHANnel<x>:FREQ:SETup?

Example :CHANNEL15:FREQ:SETUP? ->

Description An error occurs if the frequency module is not

IM 701210-18E

channel with the frequency module installed.

<x>=1 to 16

:CHANNEL15:FREQ:SETUP: FUNCTION FREQUENCY;LRESET 0; MPULSE POSITIVE;SLOWPREDICT 1; STOPPREDICT OFF;TUNIT SEC; CFREQUENCY 50;DPULSE 1.00000E+00; PROTATE 1;UPULSE1.00000E+00;FILTER: PAVERAGE:MODE 0;VALUE 2;:CHANNEL15: FREQ:SETUP:FILTER:SMOOTHING:MODE 0; VALUE 0.0100;:CHANNEL15:FREQ:SETUP: UNIT “”;VUNIT “m/s”

installed.

:CHANnel<x>:FREQ:SETup:CFRequency

Function Sets the center frequency on the channel with

the frequency module installed or queries the current setting.

Syntax :CHANnel<x>:FREQ:SETup:CFRequency

{<Frequency>} :CHANnel<x>:FREQ:SETup:CFRequency?

<x>=1 to 16 <NRf>=50 Hz, 60 Hz, or 400 Hz

Example :CHANNEL15:FREQ:SETUP:CFREQUENCY 50

:CHANNEL15:FREQ:SETUP:CFREQUENCY?

-> :CHANNEL15:FREQ:SETUP: CFREQUENCY 50

Description An error occurs if the frequency module is not

installed.

:CHANnel<x>:FREQ:SETup:DECeleration

Function Turns ON/OFF the deceleration prediction on

the channel with the frequency module installed or queries the current setting.

Syntax :CHANnel<x>:FREQ:SETup:DECeleration

{<Boolean>} :CHANnel<x>:FREQ:SETup: DECeleration?

<x>=1 to 16

Example :CHANNEL15:FREQ:SETUP:

DECELERATION ON :CHANNEL15:FREQ:SETUP:DECELERATION?

-> :CHANNEL15:FREQ:SETUP: DECELERATION 1

Description An error occurs if the frequency module is not

installed.

:CHANnel<x>:FREQ:SETup:DPULse

Function Sets the distance per pulse on the channel with

the frequency module installed or queries the current setting.

Syntax :CHANnel<x>:FREQ:SETup:DPULse

{<NRf>} :CHANnel<x>:FREQ:SETup:DPULse?

<x>=1 to 16 <NRf>=9.9999E+30 to –9.9999E+30

Example :CHANNEL15:FREQ:SETUP:DPULSE 1e15

:CHANNEL15:FREQ:SETUP:DPULSE? -> :CHANNEL15:FREQ:SETUP: DPULSE 1.00000E+15

Description An error occurs if the frequency module is not

installed.

:CHANnel<x>:FREQ:SETup:FILTer?

Function Queries all settings related to the filter on the

channel with the frequency module installed.

Syntax :CHANnel<x>:FREQ:SETup:FILTer?

<x>=1 to 16

Example :CHANNEL15:FREQ:SETUP:FILTER? ->

:CHANNEL15:FREQ:SETUP:FILTER:PAVERAGE: MODE 0;VALUE 2;:CHANNEL15:FREQ: SETUP:FILTER:SMOOTHING:MODE 0; VALUE 0.0100

Description An error occurs if the frequency module is not

installed.

6-39

Commands

6.6 CHANnel Group

:CHANnel<x>:FREQ:SETup:FILTer: SMOothing?

Function Queries all settings related to smoothing on the

channel with the frequency module installed.

Syntax :CHANnel<x>:FREQ:SETup:FILTer:

SMOothing?

<x>=1 to 16

Example :CHANNEL15:FREQ:SETUP:FILTER:

SMOOTHING? ->:CHANNEL15:FREQ:SETUP: FILTER:SMOOTHING:MODE 0; VALUE 0.0100

Description An error occurs if the frequency module is not

installed.

:CHANnel<x>:FREQ:SETup:FILTer: SMOothing:MODE

Function Turns ON/OFF smoothing on the channel with

the frequency module installed or queries the current setting.

Syntax :CHANnel<x>:FREQ:SETup:FILTer:

SMOothing:MODE {<Boolean>} :CHANnel<x>:FREQ:SETup:FILTer: SMOothing:MODE?

<x>=1 to 16

Example :CHANNEL15:FREQ:SETUP:FILTER:

SMOOTHING:MODE ON :CHANNEL15:FREQ:SETUP:FILTER: SMOOTHING:MODE? -> :CHANNEL15:FREQ: SETUP:FILTER:SMOOTHING:MODE 1

Description An error occurs if the frequency module is not

installed.

:CHANnel<x>:FREQ:SETup:FILTer: SMOothing:VALue

Function Sets the moving average order of smoothing on

the channel with the frequency module installed or queries the current setting.

Syntax :CHANnel<x>:FREQ:SETup:FILTer:

SMOothing:VALue {<Time>} :CHANnel<x>:FREQ:SETup:FILTer: SMOothing:VALue?

<x>=1 to 16 <Time>=0 to 1000

Example :CHANNEL15:FREQ:SETUP:FILTER:

SMOOTHING:VALUE 10ms :CHANNEL15:FREQ:SETUP:FILTER: SMOOTHING:VALUE? -> :CHANNEL15:FREQ:SETUP:FILTER: SMOOTHING:VALUE 0.0100

Description An error occurs if the frequency module is not

installed.

:CHANnel<x>:FREQ:SETup:FILTer: PAVerage?

Function Queries all settings related to pulse average on

the channel with the frequency module installed.

Syntax :CHANnel<x>:FREQ:SETup:FILTer:

PAVerage?

<x>=1 to 16

Example :CHANNEL15:FREQ:SETUP:FILTER:

PAVERAGE? -> :CHANNEL15:FREQ:SETUP: FILTER:PAVERAGE:MODE 0;VALUE 2

Description An error occurs if the frequency module is not

installed.

:CHANnel<x>:FREQ:SETup:FILTer: PAVerage:MODE

Function Turns ON/OFF pulse average on the channel

with the frequency module installed or queries the current setting.

Syntax :CHANnel<x>:FREQ:SETup:FILTer:

PAVerage:MODE {<Boolean>} :CHANnel<x>:FREQ:SETup:FILTer: PAVerage:MODE?

<x>=1 to 16

Example :CHANNEL15:FREQ:SETUP:FILTER:

PAVERAGE:MODE ON :CHANNEL15:FREQ:SETUP:FILTER: PAVERAGE:MODE? -> :CHANNEL15:FREQ:SETUP:FILTER: PAVERAGE:MODE 1

Description An error occurs if the frequency module is not

installed.

:CHANnel<x>:FREQ:SETup:FILTer: PAVerage:VALue

Function Sets the number of times to perform pulse

average on the channel with the frequency module installed or queries the current setting.

Syntax :CHANnel<x>:FREQ:SETup:FILTer:

PAVerage:VALue {<NRf>} :CHANnel<x>:FREQ:SETup:FILTer: PAVerage:VALue?

<x>=1 to 16 <NRf>=1 to 4096

Example :CHANNEL15:FREQ:SETUP:FILTER:

PAVERAGE:VALUE 10 :CHANNEL15:FREQ:SETUP:FILTER: PAVERAGE:VALUE? -> :CHANNEL15:FREQ: SETUP:FILTER:PAVERAGE:VALUE 10

Description An error occurs if the frequency module is not

installed.

:CHANnel<x>:FREQ:SETup:FUNCtion

Function Sets the measurement mode on the channel

with the frequency module installed or queries the current setting.

Syntax :CHANnel<x>:FREQ:SETup:FUNCtion

{FREQuency|RPM|RPS|PERiod|DUTY|PWIDth| ADDition|VELocity} :CHANnel<x>:FREQ:SETup:FUNCtion?

<x>=1 to 16

Example :CHANNEL15:FREQ:SETUP:

FUNCTION FREQUENCY :CHANNEL15:FREQ:SETUP:FUNCTION? -> :CHANNEL15:FREQ:SETUP: FUNCTION FREQUENCY

Description An error occurs if the frequency module is not

installed.

6-40

IM 701210-18E

6.6 CHANnel Group

:CHANnel<x>:FREQ:SETup:LRESet

Function Sets the over-range reset on the channel with

the frequency module installed or queries the current setting.

Syntax :CHANnel<x>:FREQ:SETup:LRESet

{<Boolean>} :CHANnel<x>:FREQ:SETup:LRESet?

<x>=1 to 16

Example :CHANNEL15:FREQ:SETUP:LRESET ON

:CHANNEL15:FREQ:SETUP:LRESET? -> :CHANNEL15:FREQ:SETUP:LRESET 1

Description An error occurs if the frequency module is not

installed.

:CHANnel<x>:FREQ:SETup:MPULse

Function Sets the direction (positive or negative) of the

measurement pulse on the channel with the frequency module installed or queries the current setting.

Syntax :CHANnel<x>:FREQ:SETup:MPULse

{POSitive|NEGative} :CHANnel<x>:FREQ:SETup:MPULse?

<x>=1 to 16

Example :CHANNEL15:FREQ:SETUP:

MPULSE POSITIVE :CHANNEL15:FREQ:SETUP:MPULSE? -> :CHANNEL15:FREQ:SETUP: MPULSE POSITIVE

Description An error occurs if the frequency module is not

installed.

:CHANnel<x>:FREQ:SETup:STOPpredict

Function Turns ON/OFF the stop prediction on the

channel with the frequency module installed or queries the current setting.

Syntax :CHANnel<x>:FREQ:SETup:STOPpredict

{<NRf>|OFF} :CHANnel<x>:FREQ:SETup:STOPpredict?

<x>=1 to 16 <NRf>=1.5, 2, 3, 4, 5, 6, 7, 8, 9, or 10

Example :CHANNEL15:FREQ:SETUP:

STOPPREDICT OFF :CHANNEL15:FREQ:SETUP:STOPPREDICT?

-> :CHANNEL15:FREQ:SETUP: STOPPREDICT OFF

Description An error occurs if the frequency module is not

installed.

:CHANnel<x>:FREQ:SETup:TUNit

Function Sets the time unit on the channel with the

frequency module installed or queries the current setting.

Syntax :CHANnel<x>:FREQ:SETup:TUNit

{HOUR|MIN|SEC} :CHANnel<x>:FREQ:SETup:TUNit?

<x>=1 to 16

Example :CHANNEL15:FREQ:SETUP:TUNIT SEC

:CHANNEL15:FREQ:SETUP:TUNIT? -> :CHANNEL15:FREQ:SETUP:TUNIT SEC

Description An error occurs if the frequency module is not

installed.

Commands

:CHANnel<x>:FREQ:SETup:PROTate

Function Sets the number of pulses per rotation on the

channel with the frequency module installed or queries the current setting.

Syntax :CHANnel<x>:FREQ:SETup:PROTate

{<NRf>} :CHANnel<x>:FREQ:SETup:PROTate?

<x>=1 to 16 <NRf>=1 to 99999

Example :CHANNEL15:FREQ:SETUP:PROTATE 10

:CHANNEL15:FREQ:SETUP:PROTATE? -> :CHANNEL15:FREQ:SETUP:PROTATE 10

Description An error occurs if the frequency module is not

installed.

:CHANel<x>:FREQ:SETup:RESet

Function Executes pulse count reset on the channel with

the frequency module installed.

Syntax :CHANnel<x>:FREQ:SETup:RESet

<x>=1 to 16

Example :CHANNEL15:FREQ:SETUP:RESET

Description An error occurs if the frequency module is not

installed.

:CHANnel<x>:FREQ:SETup:UNIT

Function Sets the unit of pulse integration on the channel

with the frequency module installed or queries the current setting.

Syntax :CHANnel<x>:FREQ:SETup:UNIT

{<String>} :CHANnel<x>:FREQ:SETup:UNIT?

<x>=1 to 16 <String>=Up to 4 characters

Example :CHANNEL15:FREQ:SETUP:UNIT “AAA”

:CHANNEL15:FREQ:SETUP:UNIT? -> :CHANNEL15:FREQ:SETUP:UNIT “AAA”

Description An error occurs if the frequency module is not

installed.

:CHANnel<x>:FREQ:SETup:UPULse

Function Sets the unit/pulse on the channel with the

frequency module installed or queries the current setting.

Syntax :CHANnel<x>:FREQ:SETup:UPULse

{<NRf>} :CHANnel<x>:FREQ:SETup:UPULse?

<x>=1 to 16 <NRf>=9.9999e+30 to –9.9999e+30

Example :CHANNEL15:FREQ:SETUP:UPULSE 1e15

:CHANNEL15:FREQ:SETUP:UPULSE? -> :CHANNEL15:FREQ:SETUP: UPULSE 1.00000E+15

Description An error occurs if the frequency module is not

installed.

IM 701210-18E

6-41

6.6 CHANnel Group

:CHANnel<x>:FREQ:SETup:VUNit

Function Sets the unit of velocity on the channel with the

frequency module installed or queries the

Syntax :CHANnel<x>:FREQ:SETup:VUNit

Example :CHANNEL15:FREQ:SETUP:VUNIT “BBB”

Description An error occurs if the frequency module is not

current setting.

{<String>} :CHANnel<x>:FREQ:SETup:VUNit?

<x>=1 to 16 <String>=Up to 4 characters

:CHANNEL15:FREQ:SETUP:VUNIT? -> :CHANNEL15:FREQ:SETUP:VUNIT “BBB”

installed.

:CHANnel<x>:FREQ:VARiable

Function Sets whether to enable Variable mode on the

Syntax :CHANnel<x>:FREQ:VARiable

Example :CHANNEL15:FREQ:VARIABLE ON

Description An error occurs if the frequency module is not

channel with the frequency module installed or queries the current setting.

{<Boolean>} :CHANnel<x>:FREQ:VARiable?

<x>=1 to 16

:CHANNEL15:FREQ:VARIABLE? -> :CHANNEL15:FREQ:VARIABLE 1

installed.

:CHANnel<x>:FREQ:VDIV

Function Sets the Value/Div on the channel with the

frequency module installed or queries the

Syntax :CHANnel<x>:FREQ:VDIV

Example :CHANNEL15:FREQ:VDIV 10

Description An error occurs if the frequency module is not

current setting.

{<NRf>|<Frequency>|<Time>} :CHANnel<x>:FREQ:VDIV?

<x>=1 to 16 {<NRf>|<Frequency>|<Time>}=For details,

see the

User’s Manual

:CHANNEL15:FREQ:VDIV? -> :CHANNEL15:FREQ:VDIV 10.0E+00

installed.

:CHANnel<x>:FREQ:ZOOM

Function Sets the vertical zoom rate on the channel with

the frequency module installed or queries the

Syntax :CHANnel<x>:FREQ:ZOOM {<NRf>}

Example :CHANNEL15:FREQ:ZOOM 10

Description An error occurs if the frequency module is not

current setting.

:CHANnel<x>:FREQ:ZOOM?

<x>=1 to 16 <NRf>=0.33, 0.4, 0.5, 0.556, 0.625, 0.667,

0.714, 0.8, 0.833, 1, 1.11, 1.25, 1.33, 1.43,

1.67, 2, 2.22, 2.5, 3.33, 4, 5, 6.67, 8, 10,

12.5, 16.7, 20, 25, 40, 50, or 100

:CHANNEL15:FREQ:ZOOM? -> :CHANNEL15:FREQ:ZOOM 10.000

installed.

:CHANnel<x>:LABel

Function Sets the waveform label of channel or queries

the current setting.

Syntax :CHANnel<x>:LABel {<String>}

:CHANnel<x>:LABel?

<x>=1 to 16 <String>=Up to 8 characters

Example :CHANNEL1:LABEL “TRACE1”

:CHANNEL1:LABEL? -> :CHANNEL1: LABEL “TRACE1”

Description • Only the characters and symbols displayed

on the keyboard on the screen can be used.

• In ASCII code Ω and µ are expressed as 1EH and 1FH, respectively.

• An error occurs, if a module is not installed in the channel (slot).

:CHANnel<x>:MODUle?

Function Queries the module installed in the channel

(slot).

Syntax :CHANnel<x>:MODule?

<x>=1 to 16

Example :CHANNEL1:MODULE? -> :CHANNEL1:

MODULE M701250

Description The following values are returned from the

module. NOMODULE No module M701250 701250 (HS10M12) M701251 701251 (HS1M16) M701255 701255 (NONISO_10M12) M701260 701260 (HV(with RMS) M701261 701261(UNIV) M701262 701262(UNIV_AAF) M701265 701265 (TEMP/HPV) M701270 701270 (STRAIN_NDIS) M701271 701271 (STRAIN_DSUB) M701275 701275 (ACCL/VOLT) M701280 701280 (FREQ)

:CHANnel<x>:STRain?

Function Queries all settings related to the strain module

on the channel with the strain module installed.

Syntax :CHANnel<x>:STRain?

<x>=1 to 16

Example :CHANNEL7:STRAIN? ->

:CHANNEL7:STRAIN:SCALE 20000,

-20000;RANGE 20000;UNIT USTR;

EXCITATION 2.000000E+00; GFACTOR 2.00;BWIDTH FULL; BALANCE:CHANNEL1 0;CHANNEL2 0; CHANNEL3 0;CHANNEL4 0;CHANNEL5 0; CHANNEL6 0;CHANNEL7 1;CHANNEL8 1; CHANNEL9 0;CHANNEL10 0;CHANNEL11 0; CHANNEL12 0;CHANNEL13 1; CHANNEL14 1;CHANNEL15 0; CHANNEL16 0;:CHANNEL7: STRAIN:LSCALE:MODE OFF; AVALUE 1.00000E+00; BVALUE 0.00000E+00; P1X 0.00000E+00;P1Y 0.00000E+00; P2X 1.00000E+00;P2Y 1.00000E+00; UNIT "";DISPLAYTYPE:MODE EXPONENT; DECIMALNUM AUTO;SUBUNIT AUTO;: CHANNEL7:STRAIN:INVERT 1

Description An error occurs if the strain module is not

installed.

6-42

IM 701210-18E

6.6 CHANnel Group

:CHANnel<x>:STRain:BALance?

Function Queries the balance setting on the channel with

the strain module installed.

Syntax :CHANnel<x>:STRain:BALance?

<x>=1 to 16

Example :CHANNEL7:STRAIN:BALANCE? ->

:CHANNEL7:STRAIN:BALANCE: CHANNEL1 0;CHANNEL2 0; CHANNEL3 0;CHANNEL4 0; CHANNEL5 0;CHANNEL6 0; CHANNEL7 1;CHANNEL8 1; CHANNEL9 0;CHANNEL10 0; CHANNEL11 0;CHANNEL12 0; CHANNEL13 0;CHANNEL14 0; CHANNEL15 0;CHANNEL16 0

Description An error occurs if the strain module is not

installed.

:CHANnel<x>:STRain:BALance: CHANnel<x>

Function Sets the channel on which to execute the

balance on the channel with the strain module installed or queries the current setting.

Syntax :CHANnel<x>:STRain:BALance:

CHANnel<x> {<Boolean>} :CHANnel<x>:STRain:BALance:CHANnel?

<x>=1 to 16

Example :CHANNEL7:STRAIN:BALANCE:

CHANNEL7 ON :CHANNEL7:STRAIN:BALANCE:CHANNEL7?

-> :CHANNEL7:STRAIN:BALANCE: CHANNEL7 1

Description An error occurs if the strain module is not

installed.

:CHANnel<x>:STRain:BALance:EXECute

Function Executes the balance on the channel with the

strain module installed.

Syntax :CHANnel<x>:STRain:BALance:EXECute

<x>=1 to 16

Example :CHANNEL7:STRAIN:BALANCE:EXECUTE

Description • Balance is executed on channels that are

turned ON with the :CHANnel<x>:STRain: BALance:CHANnel<x> command.

• An error occurs if the strain module is not installed.

:CHANnel<x>:STRain:BWIDth {FULL|<Frequency>}

Function Sets the filter on the channel with the strain

module installed or queries the current setting.

Syntax :CHANnel<x>:STRain:BWIDth

{FULL|<Frequency>} :CHANnel<x>:STRain:BWIDth?

<x>=1 to 16 <Frequency>=10 Hz, 100 Hz, or 1 kHz

Example :CHANNEL7:STRAIN:BWIDTH FULL

:CHANNEL7:STRAIN:BWIDTH? -> :CHANNEL7:STRAIN:BWIDTH FULL

Description An error occurs if the strain module is not

installed.

:CHANnel<x>:STRain:EXCitation {<Voltage>}

Function Sets the bridge voltage on the channel with the

strain module installed or queries the current setting.

Syntax :CHANnel<x>:STRain:EXCitation

{<Voltage>} :CHANnel<x>:STRain:EXCitation?

<x>=1 to 16 <Voltage>=2 V, 5 V, or 10 V

Example :CHANNEL7:STRAIN:EXCITATION 2V

:CHANNEL7:STRAIN:EXCITATION? -> :CHANNEL7:STRAIN: EXCITATION 2.000000E+00

Description An error occurs if the strain module is not

installed.

:CHANnel<x>:STRain:GFACtor {<NRf>}

Function Sets the gauge factor on the channel with the

strain module installed or queries the current setting.

Syntax :CHANnel<x>:STRain:GFACtor {<NRf>}

:CHANnel<x>:STRain:GFACtor?

<x>=1 to 16 <NRf>=1.90 to 2.20

Example :CHANNEL7:STRAIN:GFACTOR 2.00

:CHANNEL7:STRAIN:GFACTOR? -> :CHANNEL7:STRAIN:GFACTOR 2.00

Description An error occurs if the strain module is not

installed.

:CHANnel<x>:STRain:INVert

Function Sets whether to invert the waveform on the

channel with the strain module installed or queries the current setting.

Syntax :CHANnel<x>:STRain:INVert

{<Boolean>} :CHANnel<x>:STRain:INVert?

<x>=1 to 16

Example :CHANNEL7:STRAIN:INVERT ON

:CHANNEL7:STRAIN:INVERT? -> :CHANNEL7:STRAIN:INVERT 1

Description An error occurs if the strain module is not

installed.

:CHANnel<x>:STRain:LSCale?

Function Queries all settings related to linear scaling on

the channel with the strain module installed.

Syntax :CHANnel<x>:STRain:LSCale?

<x>=1 to 16

Example :CHANNEL7:STRAIN:LSCALE? ->

:CHANNEL7:STRAIN:LSCALE:MODE OFF; AVALUE 1.00000E+00; BVALUE 0.00000E+00;P1X 0.00000E+00; P1Y 0.00000E+00;P2X 1.00000E+00; P2Y 1.00000E+00;UNIT ""; DISPLAYTYPE:MODE EXPONENT; DECIMALNUM AUTO;SUBUNIT AUTO

Description An error occurs if the strain module is not

installed.

Commands

IM 701210-18E

6-43

6.6 CHANnel Group

:CHANnel<x>:STRain:LSCale:AVALue {<NRf>}

Function Sets scaling coefficient A on the channel with

the strain module installed or queries the current setting.

Syntax :CHANnel<x>:STRain:LSCale:AVALue

{<NRf>} :CHANnel<x>:STRain:LSCale:AVALue?

<x>=1 to 16 <NRf>=–9.9999E+30 to 9.9999E+30

Example :CHANNEL7:STRAIN:LSCALE:AVALUE 10

:CHANNEL7:STRAIN:LSCALE:AVALUE? -> :CHANNEL7:STRAIN:LSCALE: AVALUE 10.0000E+00

Description An error occurs if the strain module is not

installed.

:CHANnel<x>:STRain:LSCale:BVALue {<NRf>}

Function Sets offset value B on the channel with the

strain module installed or queries the current setting.

Syntax :CHANnel<x>:STRain:LSCale:BVALue

{<NRf>} :CHANnel<x>:STRain:LSCale:BVALue?

<x>=1 to 16 <NRf>=–9.9999E+30 to 9.9999E+30

Example :CHANNEL7:STRAIN:LSCALE:BVALUE 5

:CHANNEL7:STRAIN:LSCALE:BVALUE? -> :CHANNEL7:STRAIN:LSCALE: BVALUE 5.00000E+00

Description An error occurs if the strain module is not

installed.

:CHANnel<x>:STRain:LSCale: DISPlaytype?

Function Queries all settings related to the display type

when using linear scaling.

Syntax :CHANnel<x>:STRain:LSCale:

DISPlaytype? <x>=1 to 16

Example :CHANNEL7:STRAIN:LSCALE:

DISPLAYTYPE? -> :CHANNEL7:STRAIN:LSCALE:DISPLAYTYPE: MODE EXPONENT;DECIMALNUM AUTO; SUBUNIT AUTO

:CHANnel<x>:STRain:LSCale: DISPlaytype:MODE

Function Sets the display mode when using linear

scaling or queries the current setting.

Syntax :CHANnel<x>:STRain:LSCale:

DISPlaytype:MODE {EXPonent| FLOating} :CHANnel<x>:STRain:LSCale:DISPlaytype: MODE? <x>=1 to 16

Example :CHANNEL7:STRAIN:LSCALE:

DISPLAYTYPE:MODE EXPONENT :CHANNEL7:STRAIN:LSCALE:DISPLAYTYPE: MODE? -> :CHENNEL7:STRAIN:LSCALE:DISPLAYTYPE: MODE EXPONENT

:CHANnel<x>:STRain:LSCale: DISPlaytype:DECimalnum

Function Sets the decimal point position when the

display type is Float when using linear scaling or queries the current setting.

Syntax :CHANnel<x>:STRain:LSCale:

DISPlaytype:DECimalnum {<NRf>|AUTO} :CHANnel<x>:STRain:LSCale: DISPlaytype:DECimalnum? <NRf>=0 to 3

Example :CHANNEL7:STRAIN:LSCALE:

DISPLAYTYPE:DECIMALNUM AUTO :CHANNEL7:STRAIN:LSCALE: DISPLAYTYPE:DECIMALNUM? -> :CHANNEL7:STRAIN:LSCALE: DISPLAYTYPE:DECIMALNUM AUTO

:CHANnel<x>:STRain:LSCale: DISPlaytype:SUBunit

Function Sets the sub unit when the display type is Float

when using linear scaling or queries the current setting.

Syntax :CHANnel<x>:STRain:LSCale:

DISPlaytype:SUBunit {AUTO|NONE| PICO|NANO|MICRo|MILI|KILO|MEGA| GIGA|TERA} :CHANnel<x>:STRain:LSCale: DISPlaytype:SUBunit? <x>=1 to 16

Example :CHANNEL7:STRAIN:LSCALE:

DISPLAYTYPE:SUBUNIT AUTO :CHANNEL7:STRAIN:LSCALE: DISPLAYTYPE:SUBUNIT? -> :CHANNEL7:STRAIN:LSCALE: DISPLAYTYPE:SUBUNIT AUTO

:CHANnel<x>:STRain:LSCale:GETMeasure {P1X|P2X}

Function Executes the measurement of the P1:X|P2:X

values of linear scaling on the channel with the strain module installed.

Syntax :CHANnel<x>:STRain:LSCale:

GETMeasure {P1X|P2X}

<x>=1 to 16

Example :CHANNEL7:STRAIN:LSCALE:

GETMeasure P1X

Description An error occurs if the strain module is not

installed.

:CHANnel<x>:STRain:LSCale:MODE {AXB|OFF|P12|SHUNt}

Function Sets the linear scaling mode on the channel

with the strain module installed or queries the current setting. (SHUNt can be specified only on the Strain Module (DSUB, Shunt-Cal).)

Syntax :CHANnel<x>:STRain:LSCale:MODE

{AXB|OFF|P12|SHUNt} :CHANnel<x>:STRain:LSCale:MODE?

<x>=1 to 16

Example :CHANNEL7:STRAIN:LSCALE:MODE AXB

:CHANNEL7:STRAIN:LSCALE:MODE? -> :CHANNEL7:STRAIN:LSCALE:MODE AXB

Description An error occurs if the strain module is not

installed.

6-44

IM 701210-18E

6.6 CHANnel Group

:CHANnel<x>:STRain:LSCale:{P1X|P1Y| P2X|P2Y}

Function Sets the P1:X|P1:Y|P2:X|P2:Y values of

linear scaling on the channel with the strain module installed or queries the current setting.

Syntax :CHANnel<x>:STRain:LSCale:{P1X|P1Y|

P2X|P2Y} {<NRf>} :CHANnel<x>:STRain:LSCale:{P1X|P1Y| P2X|P2Y}?

<x>=1 to 16 <NRf> of P1X and P2X=–9.9999E+30 to

9.9999E+30

<NRf> of P1Y and P2Y=–9.9999E+25 to

9.9999E+25

Example :CHANNEL7:STRAIN:LSCALE:P1X 10

:CHANNEL7:STRAIN:LSCALE:P1X? -> :CHANNEL7:STRAIN:LSCALE: P1X 10.0000E+00

Description An error occurs if the strain module is not

installed.

:CHANnel<x>:STRain:LSCale:SHUNt

Function Executes the shunt calibration on the channel

with the strain module installed. (only on the Strain Module (DSUB, Shunt-Cal))

Syntax :CHANnel<x>:STRain:LSCale:SHUNt

<x>=1 to 16

Example :CHANNEL7:STRAIN:LSCALE:SHUNT

Description An error occurs if the strain module is not

installed.

:CHANnel<x>:STRain:LSCale:UNIT {<String>}

Function Sets the unit to be added to the result of linear

scaling on the channel with the strain module installed or queries the current setting.

Syntax :CHANnel<x>:STRain:LSCale:UNIT

{<String>} :CHANnel<x>:STRain:LSCale:UNIT?

<x>=1 to 16 <String>=Up to 4 characters

Example :CHANNEL7:STRAIN:LSCALE:UNIT “X”

:CHANNEL7:STRAIN:LSCALE:UNIT? -> :CHANNEL7:STRAIN:LSCALE:UNIT “X”

Description An error occurs if the strain module is not

installed.

:CHANnel<x>:STRain:SCALe {<NRf>,<NRf>}

Function Sets the upper and lower limits on the screen

on the channel with the strain module installed or queries the current setting.

Syntax :CHANnel<x>:STRain:SCALe

{<NRf>,<NRf>} :CHANnel<x>:STRain:SCALe?

<x>=1 to 16 <NRf>=–15.0000 to 15.0000 (for mV/V)

–30000 to 30000 (for µSTR) –9.9999E+30 to 9.9999E+30 (for linear scaling)

Example :CHANNEL7:STRAIN:SCALE -8,8

:CHANNEL7:STRAIN:SCALE? -> :CHANNEL7:STRAIN: SCALE 8.0000,-8.0000

Description An error occurs if the strain module is not

installed.

:CHANnel<x>:STRain:UNIT {MV|USTR}

Function Sets the unit on the channel with the strain

module installed or queries the current setting.

Syntax :CHANnel<x>:STRain:UNIT {MV|USTR}

:CHANnel<x>:STRain:UNIT?

<x>=1 to 16

Example :CHANNEL7:STRAIN:UNIT USTR

:CHANNEL7:STRAIN:UNIT? -> :CHANNEL7:STRAIN:UNIT USTR

Description An error occurs if the strain module is not

installed.

:CHANnel<x>:TEMPerature?

Function Queries all settings on the channel with the

Temperature, High Precision Voltage Isolation Module installed.

Syntax :CHANnel<x>:TEMPerature?

<x>=1 to 16

Example :CHANNEL1:TEMPERATURE? ->

:CHANNEL1:TEMPERATURE:COUPLING TC; TYPE K;BWIDTH FULL; SCALE 1300.0,-200.0;UNIT C; RJC 1;BURNOUT 0

Description An error occurs if the Temperature, High

Precision Voltage Isolation, or Universal Module is not installed.

Commands

:CHANnel<x>:STRain:RANGe {<NRf>}

Function Sets the measurement range on the channel

with the strain module installed or queries the current setting.

Syntax :CHANnel<x>:STRain:RANGe {<NRf>}

:CHANnel<x>:STRain:RANGe?

<x>=1 to 16 <NRf>=0.25, 0.5, 1, 2.5, 5, or 10 (for mV/V)

500, 1000, 2000, 5000, 10000, 20000 (for µSTR)

Example :CHANNEL7:STRAIN:RANGE 5000

:CHANNEL7:STRAIN:RANGE? -> :CHANNEL7:STRAIN:RANGE 5000

Description An error occurs if the strain module is not

installed.

IM 701210-18E

:CHANnel<x>:TEMPerature:BURNout

Function Sets whether to detect burnouts on the channel

with the Temperature, High Precision Voltage Isolation Module installed or queries the current setting.

Syntax :CHANnel<x>:TEMPerature:BURNout

{<Boolean>}

Example :CHANNEL1:TEMPERATURE:BURNOUT ON

:CHANNEL1:TEMPERATURE:BURNOUT? -> :CHANNEL1:TEMPERATURE:BURNOUT 1

Description An error occurs if the Temperature, High

Precision Voltage Isolation, or Universal Module is not installed.

6-45

6.6 CHANnel Group

:CHANnel<x>:TEMPerature:BWIDth

Function Sets the bandwidth limit on the channel with the

Temperature, High Precision Voltage Isolation Module installed or queries the current setting.

Syntax :CHANnel<x>:TEMPerature:BWIDth

{FULL|<Frequency>} :CHANnel<x>:TEMPerature:BWIDth?

<x>=1 to 16 <Frequency>=2, 8, 30 (Hz)

Example :CHANNEL1:TEMPERATURE:BWIDTH 2.0HZ

:CHANNEL1:TEMPERATURE:BWIDTH? -> :CHANNEL1:TEMPERATURE: BWIDTH 2.0E+00

Description An error occurs if the Temperature, High

Precision Voltage Isolation, or Universal Module is not installed.

:CHANnel<x>:TEMPerature:COUPling

Function Sets the input coupling on the channel with the

Temperature, High Precision Voltage Isolation Module installed or queries the current setting.

Syntax :CHANnel<x>:TEMPerature:COUPling

{TC|DC|GND} :CHANnel<x>TEMPerature:COUPling?

<x>=1 to 16

Example :CHANNEL1:TEMPerature:COUPlING DC

:CHANNEL1:TEMPerature:COUPlING? -> :CHANNEL1:TEMPerature:COUPlING DC

Description An error occurs if the Temperature, High

Precision Voltage Isolation, or Universal Module is not installed.

:CHANnel<x>:TEMPerature:TYPE

Function Sets the thermocouple type to be used on the

channel with the Temperature, High Precision Voltage Isolation Module installed or queries the current setting.

Syntax :CHANnel<x>:TEMPerature:TYPE

{K|E|J|T|L|U|N|R|S|B|W|Au7fe} :CHANnel<x>:TEMPerature:TYPE?

<x>=1 to 16

Example :CHANNEL1:TEMPERATURE:TYPE K

:CHANNEL1:TEMPERATURE:TYPE? -> :CHANNEL1:TEMPERATURE:TYPE K

Description An error occurs if the Temperature, High

Precision Voltage Isolation, or Universal Module is not installed.

:CHANnel<x>:TEMPerature:UNIT

Function Sets the unit of the upper and lower limits on

the channel with the Temperature, High Precision Voltage Isolation Module installed or queries the current setting.

Syntax :CHANnel<x>:TEMPerature:UNIT

{C|F|K} :CHANnel<x>:TEMPerature:UNIT?

<x>=1 to 16

Example :CHANNEL1:TEMPERATURE:UNIT C

:CHANNEL1:TEMPERATURE:UNIT? -> :CHANNEL1:TEMPERATURE:UNIT C

Description An error occurs if the Temperature, High

Precision Voltage Isolation, or Universal Module is not installed.

:CHANnel<x>:TEMPerature:RJC

Function Sets the RJC on the channel with the

Temperature, High Precision Voltage Isolation Module installed or queries the current setting.

Syntax :CHANnel<x>:TEMPerature:RJC

{<Boolean>} :CHANnel<x>:TEMPerature:RJC?

<x>=1 to 16

Example :CHANNEL1:TEMPERATURE:RJC ON

:CHANNEL1:TEMPERATURE:RJC? -> :CHANNEL1:TEMPERATURE:RJC 1

Description An error occurs if the Temperature, High

Precision Voltage Isolation, or Universal Module is not installed.

:CHANnel<x>:TEMPerature:SCALe

Function Sets the upper and lower limits on the screen

on the channel with the Temperature, High Precision Voltage Isolation Module installed or queries the current setting.

Syntax :CHANnel<x>:TEMPerature:SCALe

{<NRf>,<NRf>} :CHANnel<x>:TEMPerature:SCALe?

<x>=1 to 16 <NRf>=–5432 to 5432 (0.1°C steps)

Example :CHANNEL1:TEMPERATURE:

SCALE 1200.0,-200.0 :CHANNEL1:TEMPERATURE:SCALE? -> :CHANNEL1:TEMPERATURE: SCALE 1200.0,-200.0

Description • The unit of the value is the unit specified by

:CHANnel<x>:TEMPerature:UNIT.

• An error occurs if the Temperature, High Precision Voltage Isolation, or Universal Module is not installed.

6-46

:CHANnel<x>:UNIT?

Function Queries the unit added to the channel.

Syntax :CHANnel<x>:UNIT?

<x> = 1 to 16

Example (When a voltage module is installed

in channel 7 (slot 3) and the coupling is DC) :CHANNEL7:UNIT? -> :CHANNEL7: UNIT "V"

:CHANnel<x>:VOLTage?

Function Queries all settings on the channel with the

voltage module installed.

Syntax :CHANnel<x>:VOLTage?

<x>=1 to 16

Example :CHANNEL1:VOLTAGE? ->

:CHANNEL1:VOLTAGE:VDIV 50.000E+00; VARIABLE 0;COUPLING DC;PROBE 10; BWIDTH FULL;SCALE 250.000E+00,

-250.000E+00;POSITION 0.00; LSCALE:MODE OFF;AVALUE 1.00000E+00; BVALUE 0.00000E+00;P1X 0.00000E+00; P1Y 0.00000E+00;P2X 1.00000E+00; P2Y 1.00000E+00;UNIT ""; DISPLAYTYPE:MODE EXPONENT; DECIMALNUM AUTO;SUBUNIT AUTO;: CHANNEL1:VOLTAGE:ZOOM 1.000; INVERT 0;OFFSET 0.0E+00

Description An error occurs if the voltage module is not

installed.

IM 701210-18E

6.6 CHANnel Group

:CHANnel<x>[:VOLTage]:BWIDth

Function Sets the bandwidth limit on the channel with the

voltage module installed or queries the current setting.

Syntax :CHANnel<x>[:VOLTage]:BWIDth

{FULL|<Frequency>} :CHANnel<x>[:VOLTage]:BWIDth?

<x>=1 to 16 <Frequency>=500 Hz, 5 kHz, 50 kHz, or 500

kHz (M701250/M701255) 400 Hz, 4 kHz, or 40 kHz (M701251) 2 Hz, 8 Hz, or 30 Hz (M701265) 100 Hz, 1 kHz, or 10 kHz (M701260) 4 kHz, 400 Hz, 40 Hz (M701261, when coupling other than TC) 30 Hz, 8 Hz, 2 Hz (M701261/M701262, when coupling is TC) Auto, 4 kHz, 400 Hz, 40 Hz (M701262, when coupling other than TC)

Example :CHANNEL1:VOLTAGE:BWIDTH FULL

:CHANNEL1:VOLTAGE:BWIDTH? -> :CHANNEL1: VOLTAGE:BWIDTH FULL

Description An error occurs if the voltage module is not

installed.

:CHANnel<x>[:VOLTage]:COUPling

Function Sets the input coupling on the channel with the

voltage module installed or queries the current setting.

Syntax :CHANnel<x>[:VOLTage]:COUPling

{AC|DC|GND|ACRMS|DCRMS|TC} :CHANnel<x>[:VOLTage]:COUPling?

<x>=1 to 16

Example :CHANNEL1:VOLTAGE:COUPlING DC

:CHANNEL1:VOLTAGE:COUPlING? -> :CHANNEL1:VOLTAGE:COUPLING DC

Description • An error occurs if the voltage module is not

installed.

• The TC, ACRMS, and DCRMS settings are not available on the M701250/M701251/ M701255.

• The AC, ACRMS, and DCRMS settings are not available on the M701265.

• The ACRMS and DCRMS settings are not available on the M701261/M701262.

:CHANnel<x>[:VOLTage]:INVert

Function Sets whether to invert the waveform on the

channel with the voltage module installed or queries the current setting.

Syntax :CHANnel<x>[:VOLTage]:INVert

{<Boolean>} :CHANnel<x>[:VOLTage]:INVert?

<x>=1 to 16

Example :CHANNEL1:VOLTAGE:INVERT ON

:CHANNEL1:VOLTAGE:INVERT? -> :CHANNEL1:VOLTAGE:INVERT 1

Description An error occurs if the voltage module is not

installed.

:CHANnel<x>[:VOLTage]:LSCale?

Function Queries all settings related to linear scaling on

the channel with the voltage module installed.

Syntax :CHANnel<x>[:VOLTage]:LSCale?

<x>=1 to 16

Example :CHANNEL1:VOLTAGE:LSCALE? ->

:CHANNEL1:VOLTAGE:LSCALE:MODE OFF; AVALUE 1.00000E+00; BVALUE 0.00000E+00;P1X 0.00000E+00; P1Y 0.00000E+00;P2X 1.00000E+00; P2Y 1.00000E+00;UNIT ""; DISPLAYTYPE:MODE EXPONENT; DECIMALNUM AUTO;SUBUNIT AUTO

Description An error occurs if the voltage module is not

installed.

:CHANnel<x>[:VOLTage]:LSCale:AVALue

Function Sets scaling coefficient A of linear scaling on

the channel with the voltage module installed or queries the current setting.

Syntax :CHANnel<x>[:VOLTage]:LSCale:AVALue

{<NRf>} :CHANnel<x>[:VOLTage]:LSCale: AVALue?

<x>=1 to 16 <NRf>=–9.9999E+30 to 9.9999E+30

Example :CHANNEL1:VOLTAGE:LSCALE:AVALUE 10

:CHANNEL1:VOLTAGE:LSCALE:AVALUE? -> :CHANNEL1:VOLTAGE:LSCALE: AVALUE 10.0000E+00

Description An error occurs if the voltage module is not

installed.

:CHANnel<x>[:VOLTage]:LSCale:BVALue

Function Sets offset B of linear scaling on the channel

with the voltage module installed or queries the current setting.

Syntax :CHANnel<x>[:VOLTage]:LSCale:BVALue

{<NRf>} :CHANnel<x>[:VOLTage]:LSCale: BVALue?

<x>=1 to 16 <NRf>=–9.9999E+30 to 9.9999E+30

Example :CHANNEL1:VOLTAGE:LSCALE:BVALUE 10

:CHANNEL1:VOLTAGE:LSCALE:BVALUE? -> :CHANNEL1:VOLTAGE:LSCALE: BVALUE 10.0000E+00

Description An error occurs if the voltage module is not

installed.

:CHANnel<x>[:VOLTage]:LSCale: DISPlaytype?

Function Queries all settings related to the display type

when using linear scaling.

Syntax :CHANNEL<x>[:VOLTAGE]:LSCALE:

DISPLAYTYPE? <x>=1 to 16

Example :CHANNEL1:VOLTAGE:LSCALE:

DISPLAYTYPE? -> :CHANNEL1:VOLTAGE:LSCALE: DISPLAYTYPE:MODE EXPONENT; DECIMALNUM AUTO;SUBUNIT AUTO

Commands

IM 701210-18E

6-47

6.6 CHANnel Group

:CHANnel<x>[:VOLTage]:LSCale: DISPlaytype:MODE

Function Sets the display mode when using linear

scaling or queries the current setting.

Syntax :CHANnel<x>[:VOLTage]:LSCale:

DISPlaytype:MODE {EXPonent| FLOating} :CHANnel<x>[:VOLTage]:LSCale: DISPlaytype:MODE? <x>=1 to 16

Example :CHANNEL1:VOLTAGE:LSCALE:

DISPLAYTYPE:MODE EXPONENT :CHANNEL1:VOLTAGE:LSCALE: DISPLAYTYPE:MODE?-> :CHANNEL1:VOLTAGE:LSCALE: DISPLAYTYPE:MODE EXPONENT

:CHANnel<x>[:VOLTage]:LSCale: DISPlaytype:DECimalnum

Function Sets the decimal point position when the

display type is Float when using linear scaling or queries the current setting.

Syntax :CHANnel<x>[:VOLTage]:LSCale:

DISPlaytype:DECimalnum {<NRf>|AUTO} :CHANnel<x>[:VOLTage]:LSCale: DISPlaytype:DECimalnum? <NRf>=0 to 3

Example :CHANNEL1:VOLTAGE:LSCALE:

DISPLAYTYPE:DECIMALNUM AUTO :CHANNEL1:VOLTAGE:LSCALE: DISPLAYTYPE:DECIMALNUM? -> :CHANNEL1:VOLTAGE:LSCALE: DISPLAYTYPE:DECIMALNUM AUTO

:CHANnel<x>[:VOLTage]:LSCale: DISPlaytype:SUBunit

Function Sets the sub unit when the display type is Float

when using linear scaling or queries the current setting.

Syntax :CHANnel<x>[:VOLTage]:LSCale:

DISPlaytype:SUBunit {AUTO|NONE| PICO|NANO|MICRo|MILI|KILO|MEGA|GIGA| TERA} :CHANnel<x>[:VOLTage]:LSCale: DISPlaytype:SUBunit? <x>=1 to 16

Example :CHANNEL1:VOLTAGE:LSCALE:

DISPLAYTYPE:SUBUNIT AUTO :CHANNEL1:VOLTAGE:LSCALE: DISPLAYTYPE:SUBUNIT? -> :CHANNEL1:VOLTAGE:LSCALE: DISPLAYTYPE:SUBUNIT AUTO

:CHANnel<x>[:VOLTage]:LSCale: GETMeasure

Function Executes the measurement of the P1:X|P2:X

values of linear scaling on the channel with the voltage module installed.

Syntax :CHANnel<x>[:VOLTage]:LSCale:

GETMeasure {P1X|P2X}

<x>=1 to 16

Example :CHANNEL1:VOLTAGE:GETMeasure P1X

Description An error occurs if the voltage module is not

installed.

:CHANnel<x>[:VOLTage]:LSCale:MODE

Function Sets the linear scaling function on the channel

with the voltage module installed or queries the

Syntax :CHANnel<x>[:VOLTage]:LSCale:MODE

Example :CHANNEL1:VOLTAGE:LSCALE:MODE AXB

Description An error occurs if the voltage module is not

current setting.

{AXB|OFF|P12} :CHANnel<x>[:VOLTage]:LSCale:MODE?

<x>=1 to 16

:CHANNEL1:VOLTAGE:LSCALE:MODE? -> :CHANNEL1:VOLTAGE:LSCALE:MODE AXB

installed.

:CHANnel<x>[:VOLTage]:LSCale: {P1X|P1Y|P2X|P2Y}

Function Sets the P1:X|P1:Y|P2:X|P2:Y values of

Syntax :CHANnel<x>[:VOLTage]:LSCale:

Example :CHANNEL1:VOLTAGE:LSCALE:P1X 10

Description An error occurs if the voltage module is not

linear scaling on the channel with the voltage module installed or queries the current setting.

{P1X|P1Y|P2X|P2Y} {<NRf>} :CHANnel<x>[:VOLTage]:LSCale: {P1X|P1Y|P2X|P2Y}?

<x>=1 to 16 <NRf> or P1X and P2X=–9.9999E+30 to

9.9999E+30

<NRf> of P1Y and P2Y=–9.9999E+25 to

9.9999E+25

:CHANNEL1:VOLTAGE:LSCALE:P1X? -> :CHANNEL1:VOLTAGE:LSCALE: P1X 10.0000E+00

installed.

:CHANnel<x>[:VOLTage]:LSCale:UNIT

Function Sets the unit to be added to the result of linear

Syntax :CHANnel<x>[:VOLTage]:LSCale:UNIT

Example :CHANNEL1:VOLTAGE:LSCALE:UNIT “RPM”

Description An error occurs if the voltage module is not

scaling on the channel with the voltage module installed or queries the current setting.

{<String>} :CHANnel<x>[:VOLTage]:LSCale:UNIT?

<x>=1 to 16 <String>=Up to 4 characters

:CHANNEL1:VOLTAGE:LSCALE:UNIT? -> :CHANNEL1:VOLTAGE:LSCALE:UNIT “RPM”

installed.

:CHANnel<x>[:VOLTage]:OFFSet

Function Sets the offset voltage on the channel with the

Syntax :CHANnel<x>[:VOLTage]:OFFSet

Example :CHANNEL1:VOLTAGE:OFFSET 5V

Description An error occurs if the voltage module is not

voltage module installed or queries the current setting.

{<Voltage>|<Current>} :CHANnel<x>[:VOLTage]:OFFSet?

<x>=1 to 16 <Voltage>, <Current>=The selectable range

varies depending on the range setting. For details, see the

:CHANNEL1:VOLTAGE:OFFSET? -> :CHANNEL1:VOLTAGE:OFFSET 5.000E+00

installed.

User’s Manual

6-48

IM 701210-18E

6.6 CHANnel Group

:CHANnel<x>[:VOLTage]:POSition

Function Sets the vertical position on the channel with

the voltage module installed or queries the

Syntax :CHANnel<x>[:VOLTage]:POSition

Example :CHANNEL1:VOLTAGE:POSITION 1.00

Description An error occurs if the voltage module is not

current setting.

{<NRf>} :CHANnel<x>[:VOLTage]:POSition?

<x>=1 to 16 <NRf>=–5.00 to 5.00 (div, 0.01 div steps)

:CHANNEL1:VOLTAGE:POSITION? -> :CHANNEL1:VOLTAGE:POSITION 1.00

installed.

:CHANnel<x>[:VOLTage]:PROBe

Function Sets the probe type on the channel with the

Syntax :CHANnel<x>[:VOLTage]:PROBe

Example :CHANNEL1:VOLTAGE:PROBE 10

Description • An error occurs if the voltage module is not

voltage module installed or queries the current setting.

{<NRf>|C10|C100} :CHANnel<x>[:VOLTage]:PROBe?

<x>=1 to 16 <NRf>=1, 10, 100, or 1000

:CHANNEL1:VOLTAGE:PROBE? -> :CHANNEL1:VOLTAGE:PROBE 10

installed.

• This command is not available on the M701265.

:CHANnel<x>[:VOLTage]:SCALe

Function Sets the upper and lower limits on the screen

on the channel with the voltage module

Syntax :CHANnel<x>[:VOLTage]:SCALe

Example :CHANNEL1:VOLTAGE:SCALE 20V,-20V

Description An error occurs if the voltage module is not

installed or queries the current setting.

{<Voltage>,<Voltage>|<Current>, <Current>|<NRf>,<NRf>} :CHANnel<x>[:VOLTage]:SCALe?

<x>=1 to 16 <Voltage>, <Current>, <NRf>=The selectable

range varies depending on the range setting. For details, see the

:CHANNEL1:VOLTAGE:SCALE? -> :CHANNEL1:VOLTAGE: SCALE 20.000E+00,-20.000E+00

installed.

User’s Manual

:CHANnel<x>[:VOLTage]:VDIV

Function Sets the V/div value on the channel with the

voltage module installed or queries the current setting.

Syntax :CHANnel<x>[:VOLTage]:VDIV

{<Voltage>|<Current>} :CHANnel<x>[:VOLTage]:VDIV?

<x>=1 to 16 <Voltage>=5 mV to 20 V (M701250/M701255

when the probe attenuation is 1:1) 1 mV to 20 V (M701251 when the probe attenuation is 1:1) 20 mV to 200 V (M701260 when the probe attenuation is 1:1)

0.1 mV to 10 V (M701265) 5 mV to 20 V (M701261/M701262)

Example :CHANNEL1:VOLTAGE:VDIV 5V

:CHANNEL1:VOLTAGE:VDIV? -> :CHANNEL1: VOLTAGE:VDIV 5.000E+00

Description An error occurs if the voltage module is not

installed.

:CHANnel<x>[:VOLTage]:ZOOM

Function Sets the vertical zoom rate on the channel with

the voltage module installed or queries the current setting.

Syntax :CHANnel<x>[:VOLTage]:ZOOM {<NRf>}

:CHANnel<x>[:VOLTage]:ZOOM?

<x>=1 to 16 <NRf>=0.1, 0.111, 0.125, 0.143, 0.167, 0.2,

0.25, 0.33, 0.4, 0.5, 0.556, 0.625, 0.667,

0.714, 0.8, 0.833, 1, 1.11, 1.25, 1.33, 1.43,

1.67, 2, 2.22, 2.5, 3.33, 4, 5, 6.67, 8, 10,

12.5, 16.7, 20, 25, 40, 50, or 100 However, the following limitations exist on the M701260. When set to 50 V/div 0.25 to 100 When set to 100 V/div 0.5 to 100 When set to 200 V/div 1 to 100

Example :CHANNEL1:VOLTAGE:ZOOM 10

:CHANNEL1:VOLTAGE:ZOOM? -> :CHANNEL1:VOLTAGE:ZOOM 10.000

Description An error occurs if the voltage module is not

installed.

Commands

:CHANnel<x>[:VOLTage]:VARiable

Function Sets whether to enable Variable mode on the

channel with the voltage module installed or queries the current setting.

Syntax :CHANnel<x>[:VOLTage]:VARiable

{<Boolean>} :CHANnel<x>[:VOLTage]:VARiable?

<x>=1 to 16

Example :CHANNEL1:VOLTAGE:VARIABLE ON

:CHANNEL1:VOLTAGE:VARIABLE? -> :CHANNEL1:VOLTAGE:VARIABLE 1

IM 701210-18E

6-49

6.7 CLEar Group

The command in this group executes clear trace. You can execute the same operation as the CLEAR key on the front panel.

:CLEar

Function Executes clear trace.

Syntax :CLEar Example :CLEAR

Description Snapshot is carried out using “SNAP.”

6-50

IM 701210-18E

6.8 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> OFF

LOCKout

OPSE

OPSR

OVERlap

REMote

STATus

VERBose

<Space> OFF

<Space>

<NRf>

OFF

<NRf>

OFF

Commands

WAIT

<Space>

:COMMunicate?

Function Queries all settings related to communications.

Syntax :COMMunicate? Example :COMMUNICATE? ->

:COMMUNICATE:HEADER 1; OPSE 352;OVERLAP 352;VERBOSE 1

:COMMunicate:HEADer

Function Sets whether to add a header to the response

Syntax :COMMunicate:HEADer {<Boolean>}

Example :COMMUNICATE:HEADER ON

to a query (example CHANNEL1:VOLTAGE:PROBE 10) or not add the header (example 10).

:COMMunicate:HEADer?

:COMMUNICATE:HEADER? -> :COMMUNICATE:HEADER 1

<NRf>

:COMMunicate:LOCKout

Function Sets or clears local lockout.

Syntax :COMMunicate:LOCKout {<Boolean>}

:COMMunicate:LOCKout?

Example :COMMUNICATE:LOCKOUT ON

:COMMUNICATE:LOCKOUT? -> :COMMUNICATE:LOCKOUT 1

Description This command is for the serial (RS-232), USB,

or Ethernet interface. For GP-IB, this function is provided as an interface message.

IM 701210-18E

6-51

6.8 COMMunicate Group

:COMMunicate:OPSE (Operation Pending Status Enable register)

Function Sets the overlap command that is to used by

the *OPC, *OPC?, and *WAI commands or queries the current setting.

Syntax :COMMunicate:OPSE <Register>

:COMMunicate:OPSE?

<Register>=0 to 65535,

:COMMunicate:WAIT?

See the command diagram.

Example :COMMUNICATE:OPSE 65535

:COMMUNICATE:OPSE? -> :COMMUNICATE: OPSE 352

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. Thus, the response to the query indicates 1 for bits 5, 6, 8, and 11 only.

:COMMunicate:OPSR? (Operation Pending Status Register)

Function Queries the value of the operation pending

status register.

Syntax :COMMunicate:OPSR? Example :COMMUNICATE:OPSR? -> 0

Description For details on the operation pending status

:COMMunicate:STATus?

Function Queries line-specific status.

Syntax :COMMunicate:STATus? Example :COMMUNICATE:STATUS? ->

:COMMUNICATE:STATUS 0

Description The meaning of each status bit is as follows:

Bit GP-IB RS-232 0 Unrecoverable Parity error

transmission error 1 Always 0 Framing error 2 Always 0 Break character

detected 3 or greater Always 0 Always 0 For USB and Ethernet communications, 0 is always returned. The status bit is set when the corresponding cause occurs and cleared when it is read.

:COMMunicate:VERBose

Function Sets whether to return the response to a query

using full spelling (example CHANNEL1:VOLTAGE:PROBE 10) or using abbreviation (example CHAN:PROB 10).

Syntax :COMMunicate:VERBose {<Boolean>}

:COMMunicate:VERBose?

Example :COMMUNICATE:VERBOSE ON

:COMMUNICATE:VERBOSE? -> :COMMUNICATE:VERBOSE 1

:COMMunicate:OVERlap

Function Sets the commands to operate as overlap

commands or queries the current setting.

Syntax :COMMunicate:OVERlap <Register>

:COMMunicate:OVERlap?

<Register>=0 to 65535,

:COMMunicate:WAIT?

See the command diagram.

Example :COMMUNICATE:OVERLAP 65535

:COMMUNICATE:OVERLAP? -> :COMMUNICATE:OVERLAP 352

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. Thus, the response to the query indicates 1 for bits 5, 6, 8, and 11 only.

• For the description of how to synchronize the program using COMMunicate:OVERlap, see page 5-7.

• In the above example, bits 5, 6, 8, and 11 are set to 1 to make all overlap commands applicable (see the figure for the :COMMunicate:WAIT? command).

:COMMunicate:REMote

Function Sets remote or local. ON is remote mode.

Syntax :COMMunicate:REMote {<Boolean>}

:COMMunicate:REMote?

Example :COMMUNICATE:REMOTE ON

:COMMUNICATE:REMOTE? -> :COMMUNICATE:REMOTE 1

Description This command is for the serial (RS-232), USB,

or Ethernet interface. For GP-IB, this function is provided as an interface message.

:COMMunicate:WAIT

Function Waits for one of the specified extended events

Syntax :COMMunicate:WAIT <Register>

Example :COMMUNICATE:WAIT 65535

Description For the description of how to synchronize the

to occur.

<Register>=0 to 65535 (extended event

program using COMMunicate:WAIT, see page 5-8.

:COMMunicate:WAIT?

Function Creates the response that is returned when the

Syntax :COMMunicate:WAIT? <Register>

Example :COMMUNICATE:WAIT? 65535 -> 1

Description Operation pending status register/overlap

specified event occurs.

<Register>=0 to 65535 (extended event

enable register

15 14 13 12 11 10 9 8 7 6 5 4 3 2 1 0

0000SCH 0 0 HST 0 ACS 0 0 0 0 0PRN

When bit 5 (PRN) = 1:

Built-in printer operation not complete

When bit 6 (ACS) = 1:

Access to the medium not complete.

When bit 8 (HST) = 1:

History search execution not complete

When bit 11 (SCH) = 1:

Edge/Pattern search execution not complete

6-52

IM 701210-18E

6.9 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 CURSOR 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. For details, see section 11.5, “Measuring Waveforms Using Cursors” of IM 701210-06E. <NRf>=–5 to 5 div

;

:CURSor : TY : DEGRee : DX ?

DY ?

JUMP <Space> C1_Z1

C1_Z2

C2_Z1

C2_Z2

POSition <x> <Space> <NRf>

REFerence <x> <Space> <NRf>

RVALue

TRA

X <x> ?

Y <x> ?

;

HORizontal : DY ?

POSition <x> <Space> <NRf>

TRA

Y <x> ?

;

LOGic : FORMat <Space> BINar y

ORDer <Space> A1_B8

Ce <Space> ALL

<NRf>

DSP <x>

POD

PODB

A_PODB

POD

Ce <Space> <NRf>

DSP <x>

HEXa

B8_A1

TH <x>

Commands

IM 701210-18E

6-53

6.9 CURSor Group

;

MARKer : DX <x> ?

DY <x> ?

M <x> : JUMP <Space> Z1

X <x> ?

Y <x> ?

TYPE <Space> OFF

HORizontal

VERTical

MARKer

DEGRee

HAVertical

;

VERTical : DX ?

DY ?

JUMP <Space> C1_Z1

PERDt ?

POSition <x> <Space> <NRf>

TRA

Ce <Space> ALL

;

POSition <Space> <NRf>

TRA

Ce <Space> <NRf>

C1_Z2

C2_Z1

C2_Z2

<NRf>

TH <x>

DSP <x>

6-54

X <x> ?

Y <x> ?

;

XY : HORizontal : DY ?

POSition <x> <Space> <NRf>

DSP <x>

POD

PODB

POD

A_PODB

IM 701210-18E

STRAce <Space> <NRf>

DSP <x>

TRACe <Space> XY1

XY2

XY3

XY4

Y <x> ?

;

MARKer : POSition <Space> <NRf>

STRAce <Space> <NRf>

DSP <x>

T ?

TRA

Ce <Space> XY1

XY2

XY3

XY4

X ?

Y ?

TYPE <Space> OFF

HORizontal

VERTical

MARKer

ical

HAVert

;

VERTical : DX ?

POSition <x> <Space> <NRf>

STRAce ?

TRA

Ce <Space> XY1

XY2

XY3

XY4

X <x> ?

6.9 CURSor Group

TH <x>

Commands

IM 701210-18E

6-55

6.9 CURSor Group

:CURSor?

Function Queries all settings related to cursor

measurements.

Syntax :CURSor? Example :CURSOR? -> :CURSOR:TY:

TYPE HORIZONTAL;HORIZONTAL:TRACE 1; POSITION1 3.00;POSITION2 -3.00;: CURSOR:TY:VERTICAL:TRACE 1; POSITION1 -4.0000000; POSITION2 4.0000000;:CURSOR:TY: MARKER:M1:TRACE 1; POSITION -3.0000000;:CURSOR:TY: MARKER:M2:TRACE 2; POSITION -1.0000000;:CURSOR:TY: MARKER:M3:TRACE 3; POSITION 1.0000000;:CURSOR:TY: MARKER:M4:TRACE 4; POSITION 3.0000000;:CURSOR:TY: DEGREE:TRACE 1;POSITION1 -4.0000000; POSITION2 4.0000000; REFERENCE1 -2.0000000; REFERENCE2 2.0000000;RVALUE 360;: CURSOR:TY:LOGIC:FORMAT BINARY; ORDER A1_B8;:CURSOR:XY:TYPE OFF; HORIZONTAL:TRACE XY1;POSITION1 3.00; POSITION2 -3.00;STRACE 1;:CURSOR:XY: VERTICAL:TRACE XY1;POSITION1 -3.00; POSITION2 3.00;STRACE1;:CURSOR:XY: MARKER:TRACE XY1; POSITION -3.0000000;STRACE 1

:CURSor[:TY]?

Function Queries all settings related to the cursor of the T-

Y display.

Syntax :CURSor:TY? Example :CURSOR:TY? -> :CURSOR:TY:

:CURSor[:TY]:DEGRee:DX?

Function Queries the angle difference ∆D between angle

cursors of the T-Y display.

Syntax :CURSor:TY:DEGRee:DX? Example :CURSOR:TY:DEGREE:DX? ->

:CURSOR:TY:DEGREE:DX 180.00000E+00

:CURSor[:TY]:DEGRee:DY?

Function Queries the ∆V value between angle cursors of

the T-Y display.

Syntax :CURSor:TY:DEGRee:DY? Example :CURSOR:TY:DEGREE:DY? ->

:CURSOR:TY:DEGREE:DY 6.2500000E-03

:CURSor[:TY]:DEGRee:JUMP

Function Jumps the angle cursor on the T-Y display onto

the specified zoom waveform.

Syntax :CURSor:TY:DEGRee:JUMP

{C1_Z1|C1_Z2|C2_Z1|C2_Z2}

Example :CURSOR:TY:DEGREE:JUMP C1_Z1

Description Jumps to the center position of the zoom

waveform. C1 and C2 indicate Cursor1 and Cursor2, respectively.

:CURSor[:TY]:DEGRee:POSition<x>

Function Sets the angle cursor position of the T-Y display

or queries the current setting.

Syntax :CURSor:TY:DEGRee:POSition<x>

{<NRf>} :CURSor:TY:DEGRee:POSition<x>?

<x>=1 or 2 <NRf>=–5 to 5 divisions (10 divisions/displayed

record length steps)

Example :CURSOR:TY:DEGREE:POSITION1 2

:CURSOR:TY:DEGREE:POSITION1? -> :CURSOR:TY:DEGREE: POSITION1 2.0000000

:CURSor[:TY]:DEGRee:REFerence<x>

Function Sets the position of the start point (Reference 1)

or the end point (Reference 2) of the angle reference of the T-Y display or queries the current setting.

Syntax :CURSor:TY:DEGRee:REFerence<x>

{<NRf>} :CURSor:TY:DEGRee:REFerence<x>?

<x>=1 or 2 <NRf>=–5 to 5 divisions (10 divisions/displayed

record length steps)

Example :CURSOR:TY:DEGREE:REFERENCE1 -1

:CURSOR:TY:DEGREE:REFERENCE1? -> :CURSOR:TY:DEGREE: REFERENCE1 -1.0000000

:CURSor[:TY]:DEGRee?

Function Queries all settings related to the angle cursor

of the T-Y display.

Syntax :CURSor:TY:DEGree? Example :CURSOR:TY:DEGREE? -> :CURSOR:TY:

DEGREE:TRACE 1; POSITION1 -4.0000000; POSITION2 4.0000000; REFERENCE1 -2.0000000; REFERENCE2 2.0000000;RVALUE 360

6-56

:CURsor[:TY]:DEGRee:RVALue

Function Sets the reference angle of the angle cursor of

the T-Y display or queries the current setting.

Syntax :CURSor:TY:DEGRee:RVALue {<NRf>}

:CURSor:TY:DEGRee:RVALue?

<NRf>=1 to 720

Example :CURSOR:TY:DEGREE:RVALUE 180

:CURSOR:TY:DEGREE:RVALUE? -> :CURSOR:TY:DEGREE:RVALUE 180

IM 701210-18E

6.9 CURSor Group

:CURSor[:TY]:DEGRee:TRACe

Function Sets the target waveform of the angle cursor of

the T-Y display or queries the current setting.

Syntax :CURSor:TY:DEGRee:TRACe {<NRf>|

MATH<x>|ALL|PODA|PODB|PODA_PODB| DSP<x>} :CURSor:TY:DEGRee:TRACe?

<NRf>=1 to 16 <x> of MATH<x>=1 to 8 <x> of DSP<x>=1 to 6

Example :CURSOR:TY:DEGREE:TRACE 1

:CURSOR:TY:DEGREE:TRACE? -> :CURSOR:TY:DEGREE:TRACE 1

:CURSor[:TY]:DEGRee:X<x>?

Function Queries the angle of the angle cursor of the T-Y

display.

Syntax :CURSor:TY:DEGRee:X<x>?

<x>=1 or 2

Example (Example of the query of Cursor1.)

:CURSOR:TY:DEGREE:X1? -> :CURSOR:TY:DEGREE:X1 -120.00000E+00

:CURSor[:TY]:DEGRee:Y<x>?

Function Queries the voltage of the angle cursor of the T-

Y display.

Syntax :CURSor:TY:DEGRee:Y<x>?

<x>=1 or 2

Example (Example of the query of Cursor1.)

:CURSOR:TY:DEGREE:Y1? -> :CURSOR:TY:DEGREE:Y1 10.000000E-03

:CURSor[:TY]:HORizontal:TRACe

Function Sets the target waveform of the H cursor of the

T-Y display or queries the current setting.

Syntax :CURSor:TY:HORizontal:TRACe

{<NRf>|MATH<x>|DSP<x>} :CURSor:TY:HORizontal:TRACe?

<NRf>=1 to 16 <x> of MATH<x>=1 to 8 <x> of DSP<x>=1 to 6

Example :CURSOR:TY:HORIZONTAL:TRACE 1

:CURSOR:TY:HORIZONTAL:TRACE? -> :CURSOR:TY:HORIZONTAL:TRACE 1

:CURSor[:TY]:HORizontal:Y<x>?

Function Queries the Y-axis value of the H cursor of the

T-Y display.

Syntax :CURSor:TY:HORizontal:Y<x>?

<x>=1 or 2

Example :CURSOR:TY:HORIZONTAL:Y1? ->

:CURSOR:TY:HORIZONTAL: Y1 -1.5000000E+00

Description When linear scaling is ON, the query is for the

scaled value.

:CURSor[:TY]:LOGic?

Function Queries all settings related to the logic display

of the T-Y display.

Syntax :CURSor:TY:LOGic? Example :CURSOR:TY:LOGIC:? ->

:CURSOR:TY:LOGIC: FORMAT BINARY;ORDER A1_B8

Commands

:CURSor[:TY]:HORizontal?

Function Queries all settings related to the H cursor of

the T-Y display.

Syntax :CURSor:TY:HORizontal? Example :CURSOR:TY:HORIZONTAL? ->

:CURSOR:TY:HORIZONTAL: TRACE 3;POSITION1 2.00; POSITION2 3.00

:CURSor[:TY]:HORizontal:DY?

Function Queries the Y-axis value between H cursors of

the T-Y display.

Syntax :CURSor:TY:HORizontal:DY? Example :CURSOR:TY:HORIZONTAL:DY? ->

:CURSOR:TY:HORIZONTAL: DY 3.0000000E+00

Description When linear scaling is ON, the query is for the

scaled value.

:CURSor[:TY]:HORizontal:POSition<x>

Function Sets the H cursor position of the T-Y display or

queries the current setting.

Syntax :CURSor:TY:HORizontal:POSition<x>

{<NRf>} :CURSor:TY:HORizontal:POSition<x>?

<x>=1 or 2 <NRf>=–5 to 5 div (1/100 steps)

Example :CURSOR:TY:HORIZONTAL:POSITION1 2

:CURSOR:TY:HORIZONTAL:POSITION1? -> :CURSOR:TY:HORIZONTAL: POSITION1 2.00

Description <NRf> is valid down to two digits right of the

decimal point.

:CURSor[:TY]:LOGic:FORMat

Function Sets the numerical notation of the logic display

of the T-Y display.

Syntax :CURSor:TY:LOGic:FORMat

{BINary|HEXa} :CURSor:TY:LOGic:FORMat?

Example :CURSOR:TY:LOGIC:FORMAT BINARY

:CURSOR:TY:LOGIC:FORMAT? -> :CURSOR:TY:LOGIC:FORMAT BINARY

:CURSor[:TY]:LOGic:ORDer

Function Sets the higher/lower bit of the logic display of

the T-Y display.

Syntax :CURSor:TY:LOGic:ORDer

{A1_B8|B8_A1} :CURSor:TY:LOGic:ORDer?

Example :CURSOR:TY:LOGIC:ORDER A1_B8

:CURSOR:TY:LOGIC:ORDER? -> :CURSOR:TY:LOGIC:ORDER A1_B8

:CURSor[:TY]:MARKer?

Function Queries all settings related to the marker cursor

of the T-Y display.

Syntax :CURSor:TY:MARKer? Example :CURSOR:TY:MARKER? -> :CURSOR:TY:

MARKER:M1:TRACE 1; POSITION -4.0000000;: CURSOR:TY:MARKER:M2:TRACE 2; POSITION -1.0000000;:CURSOR:TY: MARKER:M3:TRACE 3; POSITION 1.0000000;:CURSOR: TY:MARKER:M4:TRACE 4; POSITION 3.0000000

IM 701210-18E

6-57

6.9 CURSor Group

:CURSor[:TY]:MARKer:DX<x>?

Function Queries the X-axis value between the marker

cursors of the T-Y display.

Syntax :CURSor:TY:MARKer:DX<x>?

<x>=1 to 4

Example :CURSOR:TY:MARKER:DX2? ->

:CURSOR:TY:MARKER:DX2 600.00000E-03

Description • When the time base is set to internal clock

When in the time domain, the query is for the time between the markers; when in the frequency domain, the query is for the frequency between the markers.

• When the time base is set to external clock

The query is for the number of points between the marker cursors.

:CURSor[:TY]:MARKer:DY<x>?

Function Queries the physical value of the Y-axis

between the marker cursors of the T-Y display.

Syntax :CURSor:TY:MARKer:DY<x>?

<x>=1 to 4

Example :CURSOR:TY:MARKER:DY2? ->

:CURSOR:TY: MARKER:DY2 666.66667E-03

Description When linear scaling is ON, the query is for the

scaled value.

:CURSor[:TY]:MARKer:M<x>?

Function Queries all settings related to the specified

marker cursor.

Syntax :CURSor:TY:MARKer:M<x>?

<x>=1 to 4

Example :CURSOR:TY:MARKER:M1? ->

:CURSOR:TY:MARKER:M1: TRACE 1;POSITION -4.0000000

:CURSor[:TY]:MARKer:M<x>:JUMP

Function Jumps the marker cursor of the T-Y display

onto the specified zoom waveform.

Syntax :CURSor:MARKer:M<x>:JUMP {Z1|Z2}

<x>=1 to 4

Example :CURSOR:TY:MARKER:M1:JUMP Z1

Description Jumps to the center position of the zoom

waveform.

:CURSor[:TY]:MARKer:M<x>:POSition

Function Sets the X-axis value at the marker cursor

position of the T-Y display or queries the current setting.

Syntax :CURSor:TY:MARKer:M<x>:POSition

{<NRf>} :CURSor:TY:MARKer:M<x>:POSition?

<x> of M<x>=1 to 4 <NRf>=–5 to 5 divisions (10 divisions/displayed

record length steps)

Example :CURSOR:TY:MARKER:M1:POSITION -1

:CURSOR:TY:MARKER:M1:POSITION? -> :CURSOR:TY:MARKER:M1: POSITION -4.0000000

:CURSor[:TY]:MARKer:M<x>:TRACe

Function Sets the target waveform of the marker cursor

of the T-Y display or queries the current setting.

Syntax :CURSor:TY:MARKer:M<x>:TRACe

{<NRf>|MATH<x>|DSP<x>} :CURSor:TY:MARKer:M<x>:TRACe?

<x> of M<x>=1 to 4 <NRf>=1 to 16 <x> of MATH<x>=1 to 8 <x> of DSP<x>=1 to 6

Example :CURSOR:TY:MARKER:M1:TRACE 1

:CURSOR:TY:MARKER:M1:TRACE? -> :CURSOR:TY:MARKER:M1:TRACE 1

:CURSor[:TY]:MARKer:X<x>?

Function Queries the X-axis value at the marker cursor

position of the T-Y display.

Syntax :CURSor:TY:MARKer:X<x>?

<x>=1 to 4

Example :CURSOR:TY:MARKER:X1? ->

:CURSOR:TY:MARKER:X1 -4.5000E-03

Description • When the time base is set to internal clock

When in the time domain, the query is for the time; when in the frequency domain, the query is for the frequency.

• When the time base is set to external clock

When in the time domain, the query is for the number of points with respect to delay 0; when in the frequency domain, the query is for the number of points with respect to the head of the memory.

:CURSor[:TY]:MARKer:Y<x>?

Function Queries the Y-axis value at the marker cursor

position of the T-Y display.

Syntax :CURSor:TY:MARKer:Y<x>?

<x>=1 to 4

Example :CURSOR:TY:MARKER:Y1? ->

:CURSOR:TY:MARKER:Y1 1.5000E-03

Description When linear scaling is ON, the query is for the

scaled value.

:CURSor[:TY]:TYPE

Function Sets the cursor type of the T-Y display or

queries the current setting.

Syntax :CURSor:TY:TYPE {OFF|HORizontal|

VERTical|MARKer|DEGRee|HAVertical} :CURSor:TY:TYPE?

Example :CURSOR:TY:TYPE HORIZONTAL

:CURSor:TY:TYPE? -> :CURSOR:TY: TYPE HORIZONTAL

:CURSor[:TY]:VERTical?

Function Queries all settings related to V cursor of the T-

Y display.

Syntax :CURSor:TY:VERTical? Example :CURSOR:TY:VERTICAL? -> :CURSOR:TY:

VERTICAL:TRACE 1; POSITION1 2.0000000; POSITION2 4.0000000

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IM 701210-18E

6.9 CURSor Group

:CURSor[:TY]:VERTical:DX?

Function Queries the X-axis value between the V cursors

of the T-Y display.

Syntax :CURSor:TY:VERTical:DX? Example :CURSOR:TY:VERTICAL:DX? ->

:CURSOR:TY: VERTICAL:DX 2.0000000E-03

Description • When the time base is set to internal clock

When in the time domain, the query is for the time between the markers; when in the frequency domain, the query is for the frequency between the markers.

• When the time base is set to external clock

The query is for the number of points between the marker cursors.

:CURSor[:TY]:VERTical:DY?

Function Queries the Y-axis value between V cursors of

the T-Y display.

Syntax :CURSor:TY:VERTical:DY? Example :CURSOR:TY:VERTICAL:DY? ->

:CURSOR:TY:VERTICAL: DY -10.000000E-03

Description When linear scaling of the Y trace is ON, the

query is for the scaled value.

:CURSor[:TY]:VERTical:JUMP

Function Jumps the V cursor on the T-Y display onto the

specified zoom waveform.

Syntax :CURSor:TY:VERTical:JUMP

{C1_Z1|C1_Z2|C2_Z1|C2_Z2}

Example :CURSOR:TY:VERTICAL:JUMP C1_Z1

Description Jumps to the center position of the zoom

waveform. C1 and C2 indicate V cursors Cursor1 and Cursor2, respectively.

:CURSor[:TY]:VERTical:PERDt?

Function Queries the 1/∆T value between V cursors of

the T-Y display.

Syntax :CURSor:TY:VERTical:PERDt? Example :CURSOR:TY:VERTICAL:PERDT? ->

:CURSOR:TY:VERTICAL: PERDT 500.00000E+00

Description When the target trace is in the frequency

domain, “NAN (Not A Number)” is returned.

:CURSor[:TY]:VERTical:POSition<x>

Function Sets the V cursor position of the T-Y display or

queries the current setting.

Syntax :CURSor:TY:VERTical:POSition<x>

{<NRf>} :CURSor:TY:VERTical:POSition<x>?

<x>=1 or 2 <NRf>=–5 to 5 divisions (10 divisions/displayed

record length steps)

Example :CURSOR:TY:VERTICAL:POSITION1 2

:CURSOR:TY:VERTICAL:POSITION1? -> :CURSOR:TY:VERTICAL: POSITION1 2.0000000

:CURSor[:TY]:VERTical:TRACe

Function Sets the target waveform of the V cursor of the

T-Y display or queries the current setting.

Syntax :CURSor:TY:VERTical:TRACe

{<NRf>|MATH<x>|ALL|PODA|PODB| PODA_PODB|DSP<x>} :CURSor:TY:VERTical:TRACe?

<NRf>=1 to 16 <x> of MATH<x>=1 to 8 <x> of DSP<x>=1 to 6

Example :CURSOR:TY:VERTICAL:TRACE 1

:CURSOR:TY:VERTICAL:TRACE? -> :CURSOR:TY:VERTICAL:TRACE 1

:CURSor[:TY]:VERTical:X<x>?

Function Queries the X-axis value at the V cursor

position of the T-Y display.

Syntax :CURSor:TY:VERTical:X<x>?

<x>=1 or 2

Example :CURSOR:TY:VERTICAL:X1? ->

:CURSOR:TY:VERTICAL: X1 2.0000000E-03

Description • When the time base is set to internal clock

When in the time domain, the query is for the time; when in the frequency domain, the query is for the frequency.

• When the time base is set to external clock

When in the time domain, the query is for the number of points with respect to delay 0; when in the frequency domain, the query is for the number of points with respect to the head of the memory.

:CURSor[:TY]:VERTical:Y<x>?

Function Queries the Y-axis value at the V cursor

position of the T-Y display.

Syntax :CURSor:TY:VERTical:Y<x>?

<x>=1 or 2

Example :CURSOR:TY:VERTICAL:Y1? ->

:CURSOR:TY:VERTICAL: Y1 0.0000000E+00

:CURSor:XY?

Function Queries all settings related to the cursor of the

X-Y display.

Syntax :CURSor:XY? Example :CURSOR:XY? -> :CURSOR:XY:

TYPE VERTICAL;HORIZONTAL:TRACE XY1; POSITION1 5.00;POSITION2 -5.00; STRACE 3;:CURSOR:XY:VERTICAL: TRACE XY1;POSITION1 2.00; POSITION2 5.00;STRACE 1; :CURSOR:XY:MARKER:TRACE XY1; POSITION -1.0000000;STRACE 2

:CURSor:XY:HORizontal?

Function Queries all settings related to the H cursor of

the X-Y display.

Syntax :CURSor:XY:HORizontal? Example :CURSOR:XY:HORIZONTAL? ->

:CURSOR:XY:HORIZONTAL: TRACE XY1;POSITION1 5.00; POSITION2 -5.00;STRACE 3

Commands

IM 701210-18E

6-59

YOKOGAWA DL750P, DL750 User manual

Specifications and Main Features

Frequently Asked Questions

User Manual

Foreword

How to Use this Manual

Contents

1.1 Names of the Parts and their Function

Chapter 1 Overview of the GP-IB Interface

1.2 Connection via the GP-IB Interface

1.3 GP-IB Interface Functions

1.4 GP-IB Interface Specifications

1.5 Setting up this Instrument (GP-IB)

1.6 Response to Interface Messages

2.1 Names of the Parts and their Function

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

2.2 Serial (RS-232) Interface Functions and Specifications

2.3 Connection via the Serial (RS-232) Interface

2.4 Handshaking

2.5 Matching the Data Format

2.6 Setting up this Instrument (Serial)

Chapter 3 USB Interface

3.1 Names of the Parts and their Function

3.2 USB Interface Functions and Specifications

3.3 Connection via the USB Interface

3.4 Setting up this Instrument (USB)

4.1 Names of the Parts and their Function

Chapter 4 Network Interface (Option)

4.2 Network Interface Functions and Specifications

4.3 Connection via the Network Interface

4.4 Setting up this Instrument (Network)

Chapter 5 Before Programming

5.1 Messages

5.2 Commands

5.3 Response

5.4 Data

5.5 Synchronization with the Controller

6.1 A List of Commands

Chapter 6 Commands

6.2 ACQuire Group

6.3 ASETup Group

6.4 CALibrate Group

6.5 CAPTure Group

6.6 CHANnel Group

6.7 CLEar Group

6.8 COMMunicate Group

6.9 CURSor Group