Tektronix MSO4000 Bedienungsanleitung

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Inhaltsverzeichnis der Gebrauchsanleitungen

  • Seite 1

    xx MSO4000 and DPO4000 Series Digital Phosphor Oscilloscopes ZZZ Programmer Manual *P077024800* 077-0248-00[...]

  • Seite 2

    [...]

  • Seite 3

    MSO4000 and DPO4000 Series Digital Phosphor Oscilloscopes ZZZ Programmer Manual xx www .tektronix.com 077-0248-00[...]

  • Seite 4

    Copyright © T ektronix. All rights reserved. Licensed software products are owned b y T ektronix or its subsidiaries or suppliers, and are protected by national copyr ight laws and international treaty provisions. T ektronix products are covered by U.S. and foreign p atents, issued and pending. Information in this publication supersedes that in al[...]

  • Seite 5

    T able of Contents Getting Started . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 1-1 Setting Up Remote Communications . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . [...]

  • Seite 6

    T able of Contents Appendix A: Cha r a c t e r S e t . .......... ........ .......... .......... ........ .......... .......... .......... ........ A - 1 A p p e n d i x B : R e s e r v e d W o r d s........... .......... .......... .......... ............ .......... .......... ......... B - 1 A p p e n d i x C : F a c t o r y D e f a u l t s .....[...]

  • Seite 7

    Getting Started This manual explains the use of comm ands for remotely controlling your oscilloscope. W ith this information, you can write computer programs to perform func tions, such as setting the front-panel controls, taking m easurements, performing statistical calculations, and exporting data for use in other programs. Setting Up Remote Comm[...]

  • Seite 8

    Getting Started W ith USB, the system automatically con fi gures itself. T o verify that the USB is enabled: 1. On the front panel, push Utility . 2. Push Utility Page . 3. Select I/O with the Multipurpose knob . 4. Push USB , and verify that USB is enabled. 5. If USB is disabled, push Connect to computer on the side-bezel menu. After connection, [...]

  • Seite 9

    Getting Started The oscillosco pe has a USB 2.0 High speed device p ort to control the oscilloscope through USBTMC or GPIB with a TEK-USB-488 Adapter . The USBTMC protocol allows USB devices to communicate using IEEE488 style messages. This lets you run your GPIB software applications on USB hardware. Before setting up the oscilloscope for remot e [...]

  • Seite 10

    Getting Started Documentation The following d ocuments are available for download on the Manuals Finder We b s i t e a t www .tektr onix.com : MSO4000 and DP O4000 Series Digital Phospho r Oscilloscopes User Manual . Information about installing and operating the oscilloscope. Getting Sta rted with OpenChoice ™ Solutions Manual . Options for gett[...]

  • Seite 11

    Command Syntax Y ou can control the operations and f unctions of the oscilloscope through the Ethernet port or the USB 2.0 device port using comman ds and queries. The related topi cs listed below describe the syntax of these commands and queries. The topics also describe the conventio ns that the oscilloscope uses to process them. See the Command [...]

  • Seite 12

    Command Syntax T able 2-2: Comm and Message Elements Symbol Meaning <Header> This is the basic command name. If the header ends with a question mark, the command is a query . The header may begin with a colon (:) characte r . If the command is concatenated with other commands, the beginning colon is required. Never use the beginning colon wit[...]

  • Seite 13

    Command Syntax Queries Queries cause t he oscilloscope to return status or setting information. Queries have the structure: [:]<Header> [:]<Header>[<Spa ce><Argument > [<Comma><Argu ment>]...] Y ou can specify a q uery command at any level within the c ommand tree unless otherwise noted. These branch queries retu[...]

  • Seite 14

    Command Syntax Abbreviating Y ou c an abbrevi ate many oscilloscope comman ds. Each command in this documentation shows the minimum accepta ble abbreviations in capitals. For example, you can ent er the command ACQuire:NUM A vg simply as ACQ:NUMA or acq:numa. Abbreviation rules may change over time as new oscilloscope models are introduced. Thus, f[...]

  • Seite 15

    Command Syntax If the header is off: FULL;1 5. Set commands and queries may be concatenate d in the same message. For example, ACQuire:MODe SAM ple;NUMAVg?;S TATE? is a valid message that sets the acquis ition mode to sample. The message then queries the number of acquisitions for averaging and the acqui sition state. Concatenated commands and quer[...]

  • Seite 16

    Command Syntax Cursor Position Mnemonics When cursors ar e displayed, commands may specify which cursor of the pair to use. T able 2-5: Channel Mnemonics Symbol Meaning CH<x> A channel speci fi er; <x> is 1 through 4. T able 2-6: Cursor Mnemonics Symbol Meaning CURSOR<x> A cursor selector; <x> is either 1 or 2. POSITIO N<[...]

  • Seite 17

    Command Syntax Argument T ypes Commands use a rgumen ts such as enumera tion, numeric, quoted string and block. Each of these arguments a re listed in detail below . Enumer ation Enter these argumen ts as unquoted text words. Like key words, enumeration arguments follow the same convention whe re the portion indicated in uppercase is required and t[...]

  • Seite 18

    Command Syntax A quoted string can include any character de fi ned in the 7-bit ASCII character set. Follow these rules when you use quoted strings: 1. Use the same ty pe of quote character to open and close the string. For example: "this is a v alid string" . 2. Y ou can mix q uotation marks within a string as long as you follow the pre[...]

  • Seite 19

    Command Syntax MSO4000 and DPO4000 Series Programmer Manual 2-9[...]

  • Seite 20

    Command Syntax 2-10 MSO4000 and DPO4000 Series Programmer Manual[...]

  • Seite 21

    Command Groups This manual lists the MSO4000 and DP O4000 Series IEEE488.2 commands in two ways. First, it presents them b y functional groups. Then, it lists them alphabetica lly . The functional group list starts below . The alphabetical list provides detail on each command. (See page 2-69, Commands Listed in Alphabetical Or der .) Acquisition Co[...]

  • Seite 22

    Command Groups Alias Command Group Use the Alias comma nds to de fi ne new commands as a sequence of standard commands. Y ou may fi nd this useful when repeatedly using the same commands to perform ce rtain tasks like setting up measurements. Aliases are similar to macros but do not include the capability to substitute parameters into alias bodie[...]

  • Seite 23

    Command Groups Bus Command Gr oup Use the Bus commands when working with serial or parallel bus measurements. Install the DPOEMBD application module when working with I 2 Co rS P I bus signals. Install the DPO4COMP module when working with RS-23 2, RS-422, RS-485, or UAR T bus signals. Install the DPO4AUDIO module when working with I 2 S, Left Just[...]

  • Seite 24

    Command Groups T a b l e2 - 1 5 : B u sC o m m a n d s( c o n t . ) Commands Description BUS:B<1-4>:AUDio:DA T a:SOUrce Sets or returns the data source waveform for the AUDIO bus BUS:B<1-4>:AUDio:DISplay:FORMat Sets or returns the display format for the AUDIO bus BUS:B<1-4>:AUDio:FRAME:SIZe Sets o r returns the number of channels [...]

  • Seite 25

    Command Groups T able 2-15: Bus C ommands (cont.) Commands Description BUS:B<x>:LIN:SOUrce Sets or returns the LIN data source BUS:B<x>:LIN:ST ANDard Sets or returns the LIN standard BUS:B<x>:P ARallel:BIT<x>:SOUrce Sets or returns the Parallel bit source for the speci fi ed bus BUS:B<x>:P ARallel:CLOCK:EDGE Sets or r[...]

  • Seite 26

    Command Groups T a b l e2 - 1 5 : B u sC o m m a n d s( c o n t . ) Commands Description BUS:B<x>:SPI{:SELect|:SS}:POLARity Sets or returns the SPI SS polarity BUS:B<x>:SPI{:SELect|:SS}:SOUrce Sets or returns the SPI SS source BUS:B< x>:ST A TE T urns the speci fi ed bus on and off BUS:B<x>:TYPE Sets or returns the speci ?[...]

  • Seite 27

    Command Groups Calibration a nd Diagnostic Command Group The Calibration and Diagnostic commands provide information abou t the current state of oscilloscope calibration. They also initiate internal signal path calibration (SPC) or exec ute diagnostic tests. Commands that are speci fi ct of a c t o r y calibration are not described in this manual.[...]

  • Seite 28

    Command Groups Y ou can also use the commands to select one of the following cursor functions: Off. Tu rns off the display of all cursors. W aveform Cursors. Consists of two cursors. W aveform cursors enable you to conveniently measure wav eform amplitude and time. Screen Cursors. Consists of two pairs of independent horizontal and vertical cursors[...]

  • Seite 29

    Command Groups T able 2-17: Cursor Commands (cont.) Command Description CURSor:XY :POLar:RADIUS:POSITION<x>? Returns the polar radius of the speci fi ed cursor CURSor:XY :POLar:RADIUS:UNIts? Returns the polar radius units CURSor:XY :POLar:THET A:DELta? Returns the XY cursor polar coordinate delta CURSor:XY :POLar:TH ET A:POSITION<x>? R[...]

  • Seite 30

    Command Groups Ta b l e 2 - 1 8 : D i s play Commands Command Description DISplay? Returns curre nt display settings DISplay:CLOCk Sets or returns the display of the date/time stamp DISplay:DIGital:HEIght Sets or returns the number of available digital waveform po sition slots DISplay:G RAticule Set s or ret urns the type of graticule that is displ[...]

  • Seite 31

    Command Groups T able 2 -19: Ethernet Commands (cont.) Command Description ETHERnet:GA TEWay:IP ADDress Sets or returns the remote interface gateway IP address ETHERnet:HTTPPort Sets or returns the remote interface HTTP port value ETHERnet:IP ADDress Sets or returns the IP address assigned to the oscilloscope ETHERnet:NAME Sets or returns the netwo[...]

  • Seite 32

    Command Groups NOTE. Using bac k slash as a path separator may pr oduce some unexpected r esults, depending on how your app lication tr eats escaped characters. Many applications r ecognize the sequence of back slash followed by an alphabetic character as an escaped character , and, as such, interpr et that alphabetic character as a co ntr o l char[...]

  • Seite 33

    Command Groups T able 2-2 1: Hard Copy Commands (cont.) Command Description HARDCopy:LA Y out Sets or returns the page orientation for hard copy HARDCopy:PREVIEW Previews the current screen contents with the InkSaver palette applied HARDCopy:PRINT er:ADD Adds a network printer to the list of available printers HARDCopy:PRINT er:DELete Removes a net[...]

  • Seite 34

    Command Groups Horizontal Co mmand Group Use the commands in the Hori zontal Command Group to control the oscilloscope horizontal parameters. T able 2-22: Horizontal Commands Command Description HORizontal? Returns settings for the horizontal commands HORizontal:DELay:MODe Sets or returns the horizontal delay mode HORizontal:DELay:TIMe Sets or retu[...]

  • Seite 35

    Command Groups T able 2 -23: Mark Commands (cont.) Command Description MARK:SELected:FOCUS? Returns the focus of the selected mark, in terms of 0 to 100% of the waveform MARK:SELected:MARKSINCOLumn? Returns how many marks are in the current zoom pixel column MARK:SELected:OWNer? Returns the owner of the selected mark MARK:SELected:SOURCE? Returns t[...]

  • Seite 36

    Command Groups Math Command G roup Use the commands in the Math Command Group to create and de fi ne a math waveform. Use the availa ble math functions to de fi ne your math waveform. The math waveform you crea te depends on sources listed i n the math expression. If you change these sources, the math waveform you prev iously de fi ned will be a[...]

  • Seite 37

    Command Groups T a ble 2-24: Math Commands (cont.) Command Description MA THV AR? Returns all numerical values used within math expressions M AT H VA R : VA R < x > Sets or returns numerical values you can use within math expressions Measurement Command Group Use the commands in the Measurement Comm and Group to control the automated measurem[...]

  • Seite 38

    Command Groups T able 2-25: Measurement Commands (cont.) Command Description MEASUrement:IMMed:S OUrce Sets or returns the “from” source for all single channel immediate measurements MEASUrement:IMMed:S OUrce2 Sets or returns the source to measure “to” for phase or delay immediate measurements MEASUrement:IMMed:T YPe Sets or returns the typ[...]

  • Seite 39

    Command Groups T able 2 -25: Measurement C ommands (cont.) Command Description MEASUrement:MEAS<x>:SOURCE2 Sets or returns the channel to which measurements are sent MEASUrement:MEAS<x>:ST A TE Sets or returns whether the speci fi ed measurement slot is computed and displayed MEASUrement:MEAS<x>:STDdev? Returns the standard devia[...]

  • Seite 40

    Command Groups T able 2-25: Measurement Commands (cont.) Command Description MEASUrement:SNAPShot Displays the measurement snapshot list MEASUrement:ST A TIstics Clears or returns all of the statistics accumulated for all period measurements (MEAS1 through MEAS4) MEASUrement:ST A TIstics:MODE T urns measurement statistics on or off MEASUrement:ST A[...]

  • Seite 41

    Command Groups T able 2 -26: Miscellaneous Commands (cont.) Command Description HEADer Sets or returns the Response Header Enable State ID? Returns identifying information about the oscilloscope and its fi rmware *IDN? Returns the same information as the ID? command except the data is formatted according to T ektronix Codes & Formats LANGuage [...]

  • Seite 42

    Command Groups PictBridge Co mmand Group Use the commands in the PictBridge Comma nd Group to store printer settings. T able 2-27: PictBridge Commands Command Description PICTBridge:DA TEPrint Enables or disables printing the date on the print output PICTBridge:DEFault Sets the arguments for all PICTBridge commands to their default values PICTBridg[...]

  • Seite 43

    Command Groups T able 2 -28: Power Commands (cont.) Command Description POWer:GA Ting Sets or returns the power application gating POWer:HARMonics:DISPlay:SELect Sets or returns the harmonics to be displayed when the harmonics standard is None POWer:HARMonics:DISPlay:TYPe Sets or returns the display type for harmonics tests POWer:HARMonics:FREQRef [...]

  • Seite 44

    Command Groups T able 2-28: Power Commands (cont.) Command Description POWer:HARMonics:RESults:HAR<1-400>: IECMAX? The IEC standard speci fi es harmonics measurements to be computed in windows of time, with each time window being nominally 200 ms. This returns the maximum of the RMS magnitude of the harmonic, computed across successive 200 m[...]

  • Seite 45

    Command Groups T able 2 -28: Power Commands (cont.) Command Description POWer:HARMonics:RESults:IEC:POHL? Returns the IEC POHL measurement POWer:HARMonics:RESults:IEC:POWer? Returns the IEC input power measurement POWer:HARMonics:RESults:IEC: POWERFactor? Returns the IEC power factor measurement POWer:HARMonics:RESults:P ASSFail? Returns the overal[...]

  • Seite 46

    Command Groups T able 2-28: Power Commands (cont.) Command Description POWer:QUALity:DISplay:TRUEpwr Sets or returns the display state for the true power readout POWer:QUALity:DI Splay:VCRESTfactor Sets or returns the display state for the voltage crest factor readout POWer:QUALity:DISplay:VRMS Sets or returns the display state for the rms voltage [...]

  • Seite 47

    Command Groups T able 2 -28: Power Commands (cont.) Command Description POWer:RIPPle:RESults:MAX? Returns the maximum of the peak-to-peak ripple measurements POWer:RIPPle:RESults:MEAN? Returns the mean of the peak-to-peak ripple measurements POWer:RIPPle:RESults:MIN? Returns the minimum of the peak-to-peak ripple measurement POWer:RIPPle:RESults:ST[...]

  • Seite 48

    Command Groups T able 2-28: Power Commands (cont.) Command Description POWer:SOA:RESult:NUMACq? Returns the number of acquisitions in the test POWer:SOA:RESult:ST A T e? Returns the pass/fail state of the SOA test POWer:ST A TIstics Clears all the accumulated statistics of all measurements POWer:ST A TIstics:MODE Enables or disables the display of [...]

  • Seite 49

    Command Groups T able 2 -28: Power Commands (cont.) Command Description POWer:SWLoss:REFLevel:ABSolute: LOWV oltage Sets or returns the low voltage reference level used in switching loss power measurements in volts POWer:SWLoss:REFLevel:PERCent: GA TEMid Sets or returns the mid voltage reference level used in switching loss power measurements in pe[...]

  • Seite 50

    Command Groups T able 2-28: Power Commands (cont.) Command Description POWer:SWLoss:TOT al:POWER:MAX? Returns the maximum total power switching loss calculation POWer:SWLoss:TOT al:POWER:MEAN? Returns the mean total power switching loss calculation POWer:SWLoss:TOT al:POWER:MIN? Returns the minimum total power switching loss calculation POWer:SWLos[...]

  • Seite 51

    Command Groups T able 2 -29: Save and Recall Commands (cont.) Command Description SA V e:IMA Ge:FILEFormat Sets or returns the fi le format to use for saving screen images. The fi le format is not automatically determined by the fi le name extension. Y ou need to choose a fi le name with an extension which is consistent with the selected fi le[...]

  • Seite 52

    Command Groups Search Comma nds (cont.) Command Description SEARCH:SEARCH<x>:TRIGger:A:BUS: B<1-4>:AUDio:CONDition Sets or returns the sear ch trigger condition for the AUDIO bus: Start of Frame or Data SEARCH:SEARCH<x>:TRIGger:A:BUS: B<1-4>:AUDio:DA T a:HIV ALue Sets or returns the search trigger data upper word for the AUD[...]

  • Seite 53

    Command Groups Search Commands (cont.) Command Description SEARCH:SEARCH<x>:TRIGger:A:BUS: B<x>:FLEXray:DA T a:SIZe Sets or returns the length of the data string in bytes SEARCH:SEARCH<x>:TRIGger:A:BUS: B<x>:FLEXray:DA T a:V ALue Sets or returns the low binary data string SEARCH:SEARCH<x>:TRIGger:A:BUS: B<x>:FLEX[...]

  • Seite 54

    Command Groups Search Comma nds (cont.) Command Description SEARCH:SEARCH<x>:TRIGger:A:BUS: B<x>:LIN:DA T a:HIV ALue Sets or returns the binary data string SEARCH:SEARCH<x>:TRIGger:A:BUS: B<x>:LIN:DA T a:QUALi fi er Sets or returns the LIN data quali fi er SEARCH:SEARCH<x>:TRIGger:A:BUS: B<x>:LIN:DA T a:SIZe Se[...]

  • Seite 55

    Command Groups Search Commands (cont.) Command Description SEARCH:SEARCH<x>:TRIGger:A:LEV el Sets or returns the level for an edge search SEARCH:SEARCH<x>:TRIGger:A:LEV el: CH<x> Sets or returns the level for an edge search of the speci fi ed channel SEARCH:SEARCH<x>:TRIGger:A:LEV el: MA TH Sets or returns the math waveform[...]

  • Seite 56

    Command Groups Search Comma nds (cont.) Command Description SEARCH:SEARCH<x>:TRIGger:A:LOGIc: THReshold:REF<x> Sets or returns the reference waveform threshold level for logic search SEARCH:SEARCH<x>:TRIGger:A: LOWerthreshold:CH<x> Sets or returns the lower waveform threshold level for all channel waveform searches SEARCH:SE[...]

  • Seite 57

    Command Groups Search Commands (cont.) Command Description SEARCH:SEARCH<x>:TRIGger:A: SETHold:THReshold:REF<x> Sets or returns the trigger search setup and hold threshold for the selected reference waveform SEARCH:SEARCH<x>:TRIGger:A{: TRANsition|:RISEFall}:DEL T atime Sets or returns the transition time setting for an transition[...]

  • Seite 58

    Command Groups T able 2-30: Status and Error Commands (cont.) Command Description EVMsg? Returns event code, message from the event queue EVQty ? Return number of events in the event queue *OPC Generates the operation complete message in the standard event status register when all pending operations are fi nished Or returns "1" when all [...]

  • Seite 59

    Command Groups T able 2-31: T rigger Commands (cont.) Command Description TRIGger:A Sets A trigger level to 50% or returns current A trigger parameters TRIGger:A:BUS Sets or returns the serial trigger type TRIGger:A:BUS:B <1-4>:AUDio:CONDition Sets or returns the trigger condition for the AUDIO bus: Start of Frame or Data TRIGger:A:BUS:B<1[...]

  • Seite 60

    Command Groups T able 2-31: Tr igger Commands (cont.) Command Description TRIGger:A:BUS :B<x>:FLEXray:CONDition Sets or returns the trigger condition for FLEXRA Y TRIGger:A:BUS:B<x>:FLEXray:CYCLEcount:HIV ALue Sets or returns the binary d a t as t r i n gt ob eu s e df o r FLEXRA Y cycle count high value TRIGger:A:BUS:B<x>:FLEXray[...]

  • Seite 61

    Command Groups T able 2-31: T rigger Commands (cont.) Command Description TRIGger:A:BUS:B<x>:F LEXray:HEADER:CY CLEcount Sets or returns the cycle count portion of the binary header string TRIGger:A:BUS:B<x>:F LEXray:HEADER:FRAMEID Sets or r eturns the frame id portion of the binary header string TRIGger:A:BUS:B<x>:F LEXray:HEADER[...]

  • Seite 62

    Command Groups T able 2-31: Tr igger Commands (cont.) Command Description TRIGger:A:BUS :B<x>:LIN:IDenti fi er:V ALue Sets or returns the binary address string used for LIN trigger TRIGger:A:BUS:B<x>:P ARallel:V ALue Sets or returns the binary d a t as t r i n gt ob eu s e df o ra Parallel trigger TRIGger:A:BUS:B<x>:RS232C:CONDit[...]

  • Seite 63

    Command Groups T able 2-31: T rigger Commands (cont.) Command Description TRIGger:A:HOLDoff? Returns the A trigger holdoff parameters TRIGger:A:HOLDoff:TIMe Sets or returns the A trigger holdoff time TRIGger:A:LEV el Sets or returns the trigger level for the A trigger TRIGger:A:LEV el:AUXin Sets or returns the trigger level for the AUXIN port TRIGg[...]

  • Seite 64

    Command Groups T able 2-31: Tr igger Commands (cont.) Command Description TRIGger:A:LOGIc:P A Ttern:W HEn Sets or returns the pattern logic condition on which to trigger the oscilloscope TRIGger:A:LOGIc:P A Ttern:WHEn:LESSLimit Sets or returns the maximum time that the selected pattern may be true and still generate an A logic pattern trigger TRIGg[...]

  • Seite 65

    Command Groups T able 2-31: T rigger Commands (cont.) Command Description TRIGger:A:RUNT ? Returns the current A runt pulse trigger logic parameters TRIGger:A:RUNT :POLarity Sets or returns the polarity for the A pulse runt trigger TRIGger:A:RUNT :SOU rce Sets or returns the source for the A pulse trigger TRIGger:A:RUNT :WH En Sets or returns the t[...]

  • Seite 66

    Command Groups T able 2-31: Tr igger Commands (cont.) Command Description TRIGger:A:SETHold :THReshold:D<x> Sets the A trigger setup and hold threshold for the selected digital channel TRIGger:A:UPPer threshold:CH<x> Sets the upper threshold for the channel selected TRIGger:A{:TRA Nsition|:RISEFall}? Returns the delta time , polarity , [...]

  • Seite 67

    Command Groups T able 2-31: T rigger Commands (cont.) Command Description TRIGger:A:VIDeo:SO Urce Sets or returns the polarity of the video trigger TRIGger:A:VIDeo:ST ANdard Sets or returns the video standard TRIGger:A:VIDeo{:SYNC |:FIELD} Sets or returns the video fi eld trigger TRIGger:B Sets the B trigger level to 50% or returns the B trigger p[...]

  • Seite 68

    Command Groups T able 2-31: Tr igger Commands (cont.) Command Description TRIGger:B:UPPer threshold:CH<x> Sets or returns the B trigger upper threshold for the channel selected TRIGger:EXT ernal? Returns external trigger parameters TRIGger:EXT ernal:PRObe Sets or returns the attenuation factor value of the external probe connector TRIGger:EXT[...]

  • Seite 69

    Command Groups T able 2 -32: V ertical Commands (cont.) Command Description AUXin:PRObe:RESistance? Returns the resistance of the probe that is attached to the Auxiliary input AUXin:PRObe:SIGnal Sets or returns the input bypass setting on VPI probes that support input bypass AUXin:PRObe:UNIts? Returns the units of measure of the probe that is attac[...]

  • Seite 70

    Command Groups T able 2-32: V ertical Commands (cont.) Command Description CH<x>:PRObe:ID:SERnumber? Returns the serial number of the probe that is attached to the speci fi ed channel CH<x>:PRObe:ID:TYPE ? Returns the type of probe that is attached to the speci fi ed channel CH<x>:PRObe:MODel Sets or returns the probe model for [...]

  • Seite 71

    Command Groups T able 2 -32: V ertical Commands (cont.) Command Description REF<x>:LABel Sets or returns the speci fi ed reference waveform label Sets or returns the vertical position for reference channel <x> REF<x>:TIMe? Returns the time that a reference waveform was stored REF<x>:VERT ical:POSition Sets or returns the ve[...]

  • Seite 72

    Command Groups Data Formats All data points for DPO and MSO models are signed integer format only . V alid data widths for CH1-CH4, MA TH, REF1-REF4 and D0-D15 are 1 and 2-byte widths. The valid data widths for the dig ita l collection is either 4 or 8-byte widths. The oscilloscope can transfer waveform data in either ASCII or binary format. Y ou s[...]

  • Seite 73

    Command Groups use a swapped by te order where the least signi fi cant byte is transferred fi rst. The byte order is ignored when DA T a:WIDth is set to 1. W a veform Data and Record Lengths Y ou can transfer multiple points for each waveform record. Y ou can transfer a portion of th e waveform or you can transfer the entire record. Y ou can use [...]

  • Seite 74

    Command Groups T ransferring Waveform Data from the Oscilloscope Y ou can transfe r waveforms from the oscilloscop e to an external controller using the following sequence: 1. Select the waveform source(s) us ing DA T a:SOUrce. 2. Specify the waveform data format using DA T a:ENCdg. 3. Specify the number of bytes per data point using WFMOutpre:BYT_[...]

  • Seite 75

    Command Groups T able 2-34: Waveform T ransfer Commands (cont.) Command Description DA T a:SOUrce Sets or returns the location of waveform data transferred from the oscilloscope DA T a:ST ARt Sets or returns the starting point in waveform transfer DA T a:STOP Sets or returns the ending data point in waveform transfer WA V F r m ? Returns a branch q[...]

  • Seite 76

    Command Groups T able 2-34: Wa veform T ransfer Commands (cont.) Command Description WFMInpre:YZEro Sets or returns the vertical offset of the incoming waveform WFMOutpre? Returns the waveform formatting data for the waveform speci fi ed by the DA T A:SOURCE command WFMOutpre:BIT_Nr Sets or returns the number of bits per waveform point that outgoi[...]

  • Seite 77

    Command Groups Zoom Command G roup Use the commands in the Zoom Comma nd Group to expand and position the waveform display horizontally , wit hout changing the time base settings. Ta b l e 2 - 3 5 : Zoom Commands Command Descriptio n ZOOm? Returns the horizontal positioning and scaling of the zoom display ZOOm:MODe Sets or returns the zoom mode ZOO[...]

  • Seite 78

    Command Groups 2-68 MSO4000 and DPO4000 Series Programmer Manual[...]

  • Seite 79

    Commands Listed in Alphabetical Order ACQuire? (Query Only) Returns the f ollowing current acquisition parameters: Stop after Acquisition state Mode Number of averages Sampling mode Group Acquisition Syntax ACQuire? Related Commands ACQuire:MODe , ACQuire:NUMACq? , ACQuire:NUMA V g , ACQuire:ST OP After ACQuire:MAGnivu Sets or returns the MagniV u [...]

  • Seite 80

    Commands Listed in A lphabetical Order ACQuire:MAXS amplerate? (Query Only) Returns the maximum real-time sample rate, which varies from model to model. Group Acquisition Syntax ACQuire:MAXSa mplerate? Examples ACQUIRE:MAXSA MPLERATE? might return 2.5000E+9 in a DPO4034 ind icating the maximum real-time sample rate is 2.5GS/s. ACQuire:MODe Sets or [...]

  • Seite 81

    Commands Listed in Alphabetical Order of averaging, w here the average comes from a si ngle waveform acquisition. The number of samples taken during the acquis ition interval determines the number of data values that compose the average. AVErage speci fi es averaging mode, in which the resulting waveform shows an average of SAMple data points from[...]

  • Seite 82

    Commands Listed in A lphabetical Order Group Acquisition Syntax ACQuire:NUMAV g <NR1> ACQuire:NUMAV g? Related Commands ACQuire:MODe Arguments <NR1> is the number of waveform acquisitio ns to average. The range of values is from 2 to 512 in powers of two. Examples ACQUIRE:NUMAV G 16 speci fi es that 16 waveform averages will be perform[...]

  • Seite 83

    Commands Listed in Alphabetical Order <NR1> =0s t o p sa cquisitions; any other value starts acquisitions. Examples ACQUIRE:STATE RUN starts the acquisition of waveform data and resets the count of the number of acquisitions. ACQUIRE:STATE ? might re turn :ACQUIRE:ST ATE 0 indicating that the acquisition is stopped. ACQuire:STOP After Sets or[...]

  • Seite 84

    Commands Listed in A lphabetical Order Syntax ALIas {OFF|ON | <NR1>} ALIas? Related Commands ALIas:DEFine ALIas[:ST A TE] Arguments OFF turns alias expansion off. If a de fi ned alias is sent when ALIas is off, a command erro r (1 10) w ill be generated. ON turns alias expansion on. When a de fi n e da l i a si sr e c e i v e d ,t h es p e [...]

  • Seite 85

    Commands Listed in Alphabetical Order Group Alias Syntax ALIas:DEFine <QS tring><,>{<QS tring>|<Block>} ALIas:DEFine? < QString> Related Commands ALIas[ :ST A TE] Arguments The fi rst <QString> is the alias label. This label cannot be a command name. Lab els must start with a letter and can contain only letters,[...]

  • Seite 86

    Commands Listed in A lphabetical Order Examples ALIAS:DELETE " SETUP 1" deletes the alias named SETUP1. ALIas:DELEte:ALL (No Query Form) Deletes all existing aliases. Group Alias Syntax ALIas:DELEte: ALL Related Commands ALIas:DELEte , ALIas:DELEte[:NAMe] Examples ALIAS:DELETE: ALL deletes all existing aliases. ALIas:DELEte[:NAMe] (No Que[...]

  • Seite 87

    Commands Listed in Alphabetical Order Arguments OFF or <NR1> =0t urns alias expan sion off. If a d e fi n e da l i a si ss e n tw h e n ALIas:ST A TE is OFF , a command error (102) is generated. ON or <NR1> 0t u rns alias expansion on. When a de fi ned alias is received, the speci fi ed command sequence is substitute d for the alias [...]

  • Seite 88

    Commands Listed in A lphabetical Order Examples AUTOSET EXECUT E vertical, horizontal, and trigg er controls of the oscilloscope to automatically acquire and dis play the selected waveform. AUTOSet:ENAble Enables or disables the autoset fea ture. This is useful for classroom purposes where the instructor wants the students to achieve the desired in[...]

  • Seite 89

    Commands Listed in Alphabetical Order Examples AUXIN:PROBE? m ight return AUXIN: PROBE:ID:TYPE "N o Probe Detected";SER NUMBER "";:AUXIN :PROBE:UNITS "";RE SISTANCE 1.0000E+6 giving information about the pr obe attached to the AUX In input. AUXin:PRObe:AUTOZero (No Query Form) Sets the T ekVPI probe attached to the Aux[...]

  • Seite 90

    Commands Listed in A lphabetical Order AUXin:PRObe: DEGAUss (No Query Form) Starts a degauss/autozero cycle on a T ekVPI current probe attached to the Aux In input. If you send this command to a probe that does not support this function, it is ignored Group V ertical Syntax AUXin:PRObe:D EGAUss {EXECute } Arguments EXECute starts a probe degauss cy[...]

  • Seite 91

    Commands Listed in Alphabetical Order Arguments <NR3> is the pro be range, which is probe dependent. AUXin:PRObe:GAIN Sets or returns the gain factor of a probe that is attached to the Aux In input. Group V ertical Syntax AUXin:PRObe:G AIN <NR3> AUXin:PRObe:G AIN? Arguments <NR3> is the probe gain, which is probe dependent. Exampl[...]

  • Seite 92

    Commands Listed in A lphabetical Order Group V ertical Syntax AUXin:PRObe:R ESistance? Examples AUXin:PRObe:R ESistance? might return :AUXin:PROBE :RESISTANCE 1.0000E+6 indicating that the input resistanc e of the probe attached to the front panel Aux In conn ector is 1 M Ω . NOTE. This query will r eturn 0.0 if no probe is attached or the a ttac[...]

  • Seite 93

    Commands Listed in Alphabetical Order BUS Sets or returns the parameters for each b us. These parame ters affect either the Serial T rigger Setup or the Bus Display . Conditions This command requires a DPO4AUTO, DPO4EMBD, or DPO4C OMP application module. Group Bus Syntax BUS BUS:B<1-4>:AUDio:BITDelay Sets or returns the number of delay bits f[...]

  • Seite 94

    Commands Listed in A lphabetical Order Group Bus Syntax BUS:B<1-4>:AU Dio:BITOrder {M SB|LSB} BUS:B<1-4>:AU Dio:BITOrder ? Arguments MSB speci fi es that the most signi fi cant bit will be expected fi rst in the order . LSB speci fi es that the least signi fi cant bit will be expected fi rst in the order . Examples BUS:B1:AUDIO: B[...]

  • Seite 95

    Commands Listed in Alphabetical Order Conditions This command re quires DPO4AUDIO application module. Group Bus Syntax BUS:B<1-4>:AU Dio:CLOCk:POL arity {FALL|RI Se} BUS:B<1-4>:AU Dio:CLOCk:POL arity? Arguments FALL sets falling edge as the clock polarity . RISe sets rising edge as the clock polarity . Examples BUS:B1:AUDIO: CLOCK:POLAR[...]

  • Seite 96

    Commands Listed in A lphabetical Order BUS:B<1-4>:A UDio:DA T a:POLarity Sets or returns the data polarity for the AUDIO bus. Conditions This command requires D PO 4AUDIO application module. Group Bus Syntax BUS:B<1-4>:AU Dio:DATa:POL arity {NORMal|INVER Ted} BUS:B<1-4>:AU Dio:DATa:POL arity? Arguments NORMal speci fi es positive[...]

  • Seite 97

    Commands Listed in Alphabetical Order Examples BUS:B1:AUDIO: DATA :SIZE 8 sets the number of bits per word to 8. BUS:B1:AUDIO: DATA:SIZE? might return : BUS:B1:AUDIO:DA TA:SIZE 24 indicating th at the number of bits per word is set to 24. BUS:B<1-4>:AUDio:DA T a:SOUrce Sets or returns th e data source waveform for the AUDIO bus. Conditions Th[...]

  • Seite 98

    Commands Listed in A lphabetical Order SIGNEDDECimal speci fi es a signed decimal data display . Examples BUS:B1:AUDIO: DISPLAY:FORM AT BINARY sets the display format t o Binary . BUS:B1:AUDIO: DISPLAY:FORM AT? might return :BUS:B1:AUDIO :DISPLAY:FOR MAT SIGNEDDEC IMAL indicating that the display format is set to signed decimal. BUS:B<1-4>:A[...]

  • Seite 99

    Commands Listed in Alphabetical Order Arguments FALL speci fi es t he falling edge as the frame sync polarity . RISe speci fi es the rising edge as the frame sync polarity . Examples BUS:B1:AUDIO: FRAMESYNC:POL ARITY FALL sets the falling edge for frame sync polarity . BUS:B1:AUDIO: FRAMESYNC:POL ARITY? might return :BUS:B1:AUDIO :FRAMESYNC:PO LA[...]

  • Seite 100

    Commands Listed in A lphabetical Order Syntax BUS:B<1-4>:AU Dio :TYPe {I2S|LJ|R J|TDM} BUS:B<1-4>:AU Dio:TYPe? Arguments I2S speci fi es I 2 S audio format. LJ speci fi es left-justi fi ed audio format. RJ speci fi es right justi fi ed audio format. TDM speci fi es time-division multiplexing audio format. Examples BUS:B1:AUDIO: TY[...]

  • Seite 101

    Commands Listed in Alphabetical Order Group Bus Syntax BUS:B<1-4>:AU Dio:WORDSel:S OUrce {CH1|CH2|CH3 |CH4 |D0|D1|D2|D3| D4|D5|D6|D7|D 8|D9|D10|D11|D1 2|D13|D14|D15} BUS:B<1-4>:AU Dio:WORDSel:S OUrce? Arguments CH1–CH4 speci fi es the cha nnel to use as the word select source. D0-D15 speci fi es the digital channel to use as the wor[...]

  • Seite 102

    Commands Listed in A lphabetical Order BUS:B<x>:CAN :PRObe Sets or returns the probing method to probe CAN bus <x>, where x is the bus number . Conditions This command requires a DPO4 AUTO application module. Group Bus Syntax BUS:B<x>:CAN: PRObe {CANH|CAN L|RX|TX|DIFFeren tial} BUS:B<x>:CAN: PRObe? Arguments CANH speci fi e[...]

  • Seite 103

    Commands Listed in Alphabetical Order Group Bus Syntax BUS:B<x>:CAN: SOUrce {CH1|CH2| CH3|CH4| D0|D1|D2|D3|D 4|D5|D6|D7|D8 |D9|D10|D11|D12 |D13|D14|D15} BUS:B<x>:CAN: SOUrce? Arguments CH1–CH4 is the analog channel to use as the data source. D0–D15 is the digital channel to use as the data source. BUS:B<x>:DISplay: FORMAt Sets[...]

  • Seite 104

    Commands Listed in A lphabetical Order Group Bus Syntax BUS:B<x>:DISp lay:TYPe {BUS|B OTh} BUS:B<x>:DISp lay:TYPe? Arguments BUS displays the bu s waveforms only . BOTh displays both the bus and logic wav eforms. BUS:B<x>:FLEXray:BITRate Sets or returns the bit rate for FLEXRA Y . Group Bus Syntax BUS:B<x>:FLEX ray:BITRate &[...]

  • Seite 105

    Commands Listed in Alphabetical Order Examples BUS:B1:FLEXRA Y:CH ANNEL B sets the FLEXRA Y id format to channel B. BUS:B1:FLEXRA Y:CHANNEL? might return BUS:B1:F LEXRAY:CHANNEL A indicating th at FLEXRA Y id format is channel A. BUS:B<x>:FLEXray:SIGnal Sets or returns the FLEXRA Y standard. Group Bus Syntax BUS:B<x>:FLEX ray:SIGnal {BD[...]

  • Seite 106

    Commands Listed in A lphabetical Order Examples BUS:B1:FLEXRA Y:S OURCE CH4 sets the FLEXRA Y source to channel 4. BUS:B1:FLEXRA Y:SOURCE? might return BUS:B1:FLEXRAY: SOURCE CH1 indicating th e FLEXRA Y source is channel 1. BUS:B<x>:I2C:ADDRess:R WINClude Sets and returns whether the read /write bit is included in the address. Group Bus Synt[...]

  • Seite 107

    Commands Listed in Alphabetical Order Arguments CH1–CH4 speci fi es the analog channel to use as the I2C SCLK source. D0–D15 speci fi es the digital channel to use as the I2C SCLK source. BUS:B<x>:I2C{:DA T A|:SDA T A}:SOUrce Sets or returns the I2C SDA T A source for bus <x>, where x is the bus number . Conditions This command re[...]

  • Seite 108

    Commands Listed in A lphabetical Order Syntax BUS:B<x>:LIN: BIT Rate <NR1> BUS:B<x>:LIN: BITRate? Arguments <NR1> is the LIN bit rate. Y ou can enter any positive integer , and the instrument will coerce the value to the c losest supported bit rate. Examples BUS:B1:LIN:BI TRATE 960 0 sets the bit rate 9600. BUS:B1:LIN:BI TRA[...]

  • Seite 109

    Commands Listed in Alphabetical Order Examples BUS:B1:LIN:PO LARI TY INVERT ED sets the LIN polarity to INVER TED.. BUS:B1:LIN:PO LARITY? might re turn BUS:B1: LIN:POLARITY NORMA L indicating th e LIN polarity is normal. BUS:B<x>:LIN:SAMPLEpoint Sets or returns the sample point (in %) at which to sample durin g each bit period. Group Bus Synt[...]

  • Seite 110

    Commands Listed in A lphabetical Order BUS:B<x>:LIN :ST ANDard Sets or returns the LIN standard. Group Bus Syntax BUS:B<x>:LIN: STANDard {V1X|V 2X|MIXed} BUS:B<x>:LIN: STANDard? Arguments V1X sets the LIN standard to V1X. V2X sets the LIN standard to V2X MIXed sets the LIN standard to MIXED. Examples BUS:B1:LIN:ST ANDARD V1 X sets[...]

  • Seite 111

    Commands Listed in Alphabetical Order Syntax BUS:B<x>:PARa llel :CLOCK:EDGE {EI Ther|RISing|FAL ling} BUS:B<x>:PARa llel:CLOCK:ED GE? Arguments EIther speci fi es either edge as the clock edge. RISing speci fi es the rising edge as the cl ock edge. FALling speci fi es the falling edge as the clock edge. BUS:B<x>:P ARallel:CLOCK[...]

  • Seite 112

    Commands Listed in A lphabetical Order Group Bus Syntax BUS:B<x>:PARa llel:WIDth < NR1> BUS:B<x>:PARa llel:WIDth? Arguments <NR1> is the number of bits. BUS:B<x>:POSition Sets or returns the position of the bus <x> waveform on the display , where x is the bus number 1 through 4. Conditions This command require s [...]

  • Seite 113

    Commands Listed in Alphabetical Order BUS:B<x>:RS2 32C:DA T ABits Sets or returns the number of RS-232 data bits for bus <x>, where x is the bus number . Conditions This command requires a DPO4COMP application module. Group Bus Syntax BUS:B<x>:RS23 2C:DATABits { 7|8} BUS:B<x>:RS23 2C:DATABits? Arguments 7 speci fi es seven [...]

  • Seite 114

    Commands Listed in A lphabetical Order Conditions This comman d re quires a DPO4COMP application module. Group Bus Syntax BUS:B<x>:RS23 2C:DISplaymo de {FRAme|PACKET} BUS:B<x>:RS23 2C:DISplaymo de? Arguments FRAme displays each frame as a single entity . PACKET displays a group of frames terminated with a single frame de fi n e db yt h[...]

  • Seite 115

    Commands Listed in Alphabetical Order Arguments NORMal sets the RS-232C bus polarity to positive. INVERTed sets the RS-232C bus polarity to negative. BUS:B<x>:RS232C:RX:SOUrce Sets or returns the RS-232 RX sou rce for bus <x>, where x is the b us number . Conditions This command requires a DPO4COMP application module. Group Bus Syntax B[...]

  • Seite 116

    Commands Listed in A lphabetical Order Group Bus Syntax BUS:B<x>:SPI: BITOrder {LSB|M SB} BUS:B<x>:SPI: BITOrder? Arguments LSB sets the bit order to least signi fi cant bit fi rst. MSB sets the bit order to most signi fi cant bit fi rst. Examples BUS:B1:SPI:BI TORDER LS B sets the bit order to least signi fi cant bit fi rst. BUS:[...]

  • Seite 117

    Commands Listed in Alphabetical Order Arguments CH1-CH4 or D0-D 15 is the channel to use as the SPI SCLK source. BUS:B<x>:SPI:DA T A{:IN|:MISO}:POLARity Sets or returns the SPI MISO polarity for bus <x>, where x is the b us number . Conditions This command requires a DPO4EMBD application module. Group Bus Syntax BUS:B<x>:SPI: DATA[...]

  • Seite 118

    Commands Listed in A lphabetical Order Group Bus Syntax BUS:B<x>:SPI: DATA{:OUT|:M OSI}:POLARity {LOW| HIGH} BUS:B<x>:SPI: DATA{:OUT|:M OSI}:POLARity? Arguments LOW speci fi es the active low polarity . HIGH speci fi es the active high polarity . BUS:B<x>:SPI:DA T A{:OUT|:MOSI}:SOUrce Sets or returns the SPI MOSI source for bus [...]

  • Seite 119

    Commands Listed in Alphabetical Order BUS:B<x>:SPI :FRAMING Sets or returns the type of SPI framing. Group Bus Syntax BUS:B<x>:SPI: FRAMING {SS|IDLE time} BUS:B<x>:SPI: FRAMING? Arguments SS speci fi es framing by SS (non 2-wire). IDLEtime speci fi e sf r a m i n gb yI d l eT i m e( 2 - w i r e ) . Examples BUS:B1:SPI:FR AMING S[...]

  • Seite 120

    Commands Listed in A lphabetical Order Group Bus Syntax BUS:B<x>:SPI{ :SELect|:SS} :POLARity {LOW|HIGH } BUS:B<x>:SPI{ :SELect|:SS} :POLARity? Arguments LOW speci fi es an active low polarity . HIGH speci fi es an active high polarity . BUS:B<x>:SPI{:SELect|:SS}:SOUrce Sets or returns the SPI SS source for bus <x>, where x[...]

  • Seite 121

    Commands Listed in Alphabetical Order BUS:B<x>:TYP E Sets or returns the bus type for <x>, where x is the bus number . The supported bus types are dependent on the oscilloscope mod el and the installed application keys. Group Bus Syntax BUS:B<x>:TYPE {I 2C|SPI|CAN|RS 232C|PARallel} BUS:B<x>:TYPE ? Arguments I2C speci fi es [...]

  • Seite 122

    Commands Listed in A lphabetical Order BUS:THReshol d:CH<x> Sets or returns the th reshold for analog chan nel <x>, where x is the channel number . This setting applies to all tr igger types that use the channel. Conditions This command require s a DPO4AUTO, DPO4EMBD, or DPO4COMP application module. Group Bus Syntax BUS:THReshold :CH<[...]

  • Seite 123

    Commands Listed in Alphabetical Order BUS:UPPerthr eshold:CH<x> Sets the upper threshold for each channel. This applies to all search and trigger types that use the channel. Group Bus Syntax BUS:UPPerthre shold:CH<x> { <NR3>|ECL|TTL} BUS:UPPerthre shold:CH<x>? Arguments <NR3> speci fi es the threshold in volts. ECL sp[...]

  • Seite 124

    Commands Listed in A lphabetical Order Commands that a ffect BUSY? response Operation Command Single sequence acquisition ACQuire:ST A TE ON or ACQuire:ST A TE RUN or ACQuire:ST A TE 1 (when ACQuire:STOP After is set to SEQuence) Hard copy op eration HARDCopy ST Art Calibration step Refer to the optional oscilloscope Service Manual. Examples BUSY? [...]

  • Seite 125

    Commands Listed in Alphabetical Order Examples CALIBRATE:FAC TORY :STATUS? might return CALIBRATE:FACT ORY:STATUS PASS indicating that factory calibration passed. CALibrate:INTERNal (No Query Form) This command starts a signal path compensation. Group Calibration and Diagnostic Syntax CALibrate:INT ERNal Arguments None Examples CALIBRATE:INT ERNAL [...]

  • Seite 126

    Commands Listed in A lphabetical Order Syntax CALibrate:INT ERN al:STATus? Related Commands *CAL? Returns This query will return one of the following: INIT indicates the oscilloscope has not had internal signal path calibration run. PASS indicates the signal path c alibration completed successfully . FAIL indicates the signal path calibratio n did [...]

  • Seite 127

    Commands Listed in Alphabetical Order Syntax CALibrate:RES ults :FACtory? CALibrate:RESults:SPC? (Query Only) Returns the status of the SPC opera tion. This query does not initiate a SPC. Group Calibration and Diagnostic Syntax CALibrate :RES ults:SPC? Related Commands *CAL? Returns INIT indicates that SPC has never successfully comple ted. PASS in[...]

  • Seite 128

    Commands Listed in A lphabetical Order CH<x>:AMPSVI AV O LTs : E N A b l e Sets or returns the state of the amps via v olts feature for the speci fi e d channel. This feature supp orts measuring current via the vo ltage drop across a resistor . Group V ertical Syntax CH<x>:AMPSVIA VOLTs:ENAble {< NR1>|OFF|ON} CH<x>:AMPSVIA [...]

  • Seite 129

    Commands Listed in Alphabetical Order Syntax CH<x>:BANdwid th {TW Enty|TWOfifty |FULl|<NR3>} CH<x>:BANdwid th? Arguments TWEnty sets the upper bandwidth limit of channel <x> to 20 MHz. TWOfifty se ts the upper bandwidth limit of channel <x> to 250 MHz. FULl disables any optional bandwidth limiting. The speci fi ed cha[...]

  • Seite 130

    Commands Listed in A lphabetical Order CH<x>:DESKew Sets or returns the deskew time for cha nnel <x>, where x is the channel number . Y ou can adjust the deskew time to add an independent, channel-based delay time to the delay ( set by the horizontal position control and common to all channels) from the c ommon trigger p oint to fi rst[...]

  • Seite 131

    Commands Listed in Alphabetical Order Examples CH4:INVert ON i nverts the waveform on channel 4. CH2:INVert? might return :CH2:INV ERT 0 indicating that channel 2 is not inverted. CH<x>:LABel Sets or returns the wav eform label for channel <x>, where x is t he channel number . Group V ertical Syntax CH<x>:LABel < Qstring> CH[...]

  • Seite 132

    Commands Listed in A lphabetical Order T able 2-36: Channel Offset Range (cont.) Offset range V/Div Setting 1 M Ω Input 50 Ω Input 1V / d i v—5V / d i v 1 ±100 V ±5 V 5.05 V/di v — 10 V/div 1 ±50 V N/A 1 For 50 Ω input, 1 V/div is the maximum setting. NOTE. The above table describes oscillosc ope behavior only when n o pr obe is attach[...]

  • Seite 133

    Commands Listed in Alphabetical Order Syntax CH<x>:POSitio n < NR3> CH<x>:POSitio n? Related Commands CH<x>:OFFSet , REF<x>:VER T ical:POSition , MA TH[1]:VER T ical:POSition Arguments <NR3> is the position value for channel <x>, in divisions, from the center graticule. The range is 8 to -8 divisions. Examp[...]

  • Seite 134

    Commands Listed in A lphabetical Order attached probe type. Only certain VPI probes support this command. See the probe documentation for how to set these string argu ments. Group V ertical Syntax CH<x>:PRObe:C OMMAND <QString >, <QString> Arguments <QString> are q uoted strings specifying the probe command and value to set [...]

  • Seite 135

    Commands Listed in Alphabetical Order Syntax CH<x>:PRObe:D EGAU ss:STATE? Returns NEEDED indicates the probe should be degaussed before taking measurements. RECOMMENDED indicates the measurement accuracy might be improved by degaussing the probe. PASSED indicates the probe is degaussed. FAILED indicates the degauss operation failed. RUNNING i[...]

  • Seite 136

    Commands Listed in A lphabetical Order Related Commands CH<x>:SCAle Arguments <NR3> is the probe gain. Allowed v alues depend on the spec i fi cp r o b e . Examples CH2:PROBE:GAI N? might return :CH2:PROBE:GA IN 0.1000E+0 0 indicating that the attached 10x probe delivers 1 V to the channel 2 BNC for every 1 0 V applied to the probe inp[...]

  • Seite 137

    Commands Listed in Alphabetical Order CH<x>:PRObe: ID:TYPE? (Query Only) Returns the type of probe attached to the channel speci fi ed by <x>, where x is the channel number . Level 2 (or higher) probes supply their exact product nomenclatur e; for Level 0 or 1 probes, a generic “No Probe Detected message is returned. Group V ertical [...]

  • Seite 138

    Commands Listed in A lphabetical Order Arguments <NR3> speci fi es the propagation time delay for the connected probe. Examples CH1:PROBE:PRO PDELAY 10 0E-12 sets the CH1 propagation delay to 100 ps. CH1:PROBE:PRO PDELAY? might return :CH1 :PROBE:PROPDE LAY 1.1E-9 indicating that the CH1 propagation delay is set to 1.1 ns. CH<x>:PRObe:[...]

  • Seite 139

    Commands Listed in Alphabetical Order Syntax CH<x>:PRObe:S IGna l {BYPass|PASS} CH<x>:PRObe:S IGnal? Arguments BYPass sets the probe to Bypass mode. PASS sets the probe to Pass mode. CH<x>:PRObe:UNIts? (Query Only) Returns a string describing the units of m easure for the probe atta ched to channel <x>, wh ere x is the chann[...]

  • Seite 140

    Commands Listed in A lphabetical Order Syntax CH<x>:SCAle < N R3> CH<x>:SCAle? Related Commands CH<x>:OFFSet , CH<x>:POSition , REF<x>:VER T ical:SCAle , MA TH[1]:VER T ical:SCAle Arguments <NR3> is the vertical channel scale in units-per-division. The value entered here is truncated to three signi fi cant[...]

  • Seite 141

    Commands Listed in Alphabetical Order CH<x>:YUNits Sets or returns the un its for the channe l speci fi ed by <x>, where x is the cha nnel number . String arguments are case insensitive and any unsupported units will generate an e rror . Supported units are: %, /Hz, A, A/ A, A/V , A/W , A/dB, A /s, AA, A W , AdB, As, B, H z, IRE, S/s, [...]

  • Seite 142

    Commands Listed in A lphabetical Order *CLS can suppre ss a Service Request that is to b e generated by an *OPC. T his will happen if a single sequence acquisition operation is still being processed when the *CLS command is execute d. Group Status and Err or Syntax *CLS Related Commands DESE , *ESE , *ESR? , EVENT? , EVMsg? , *SRE , *STB? Examples [...]

  • Seite 143

    Commands Listed in Alphabetical Order CURSor:FUNCt ion Sets or returns the cursor type. Cursors are a ttached to the selected waveform in W aveform mode and are attached to the display area in Scre en mode. Group Cursor Syntax CURSor:FUNCti on {OFF|SCREEN|W AVEform} CURSor:FUNCti on? Arguments OFF removes the curso rs from the display but does not [...]

  • Seite 144

    Commands Listed in A lphabetical Order Group Cursor Syntax CURSor:HBArs: DELTa? Related Commands CURSor:HBArs:UNIts Returns A fl oating point value with an exponent. Examples CURSOR:HBARS: DELTA? might return :CUR SOR:HBARS:DELTA 5.0 800E+00 indicating that the difference between the two cursors is 5.08. CURSor:HBArs:POSITION<x> Sets or retu[...]

  • Seite 145

    Commands Listed in Alphabetical Order Syntax CURSor:HBArs: UNIt s {BASE|PERcent } CURSor:HBArs: UNIts? Arguments BASE selects the vertical units for the selected waveform. PERcent selects ratio cursors. Examples CURSOR:HBARS: UNITS might return :CURS OR:HBARS:UNITS BASE indicating that the units for the horizontal bar cursors are base. CURSor:HBArs[...]

  • Seite 146

    Commands Listed in A lphabetical Order Syntax CURSor:MODe { T RACk|INDepende nt} CURSor:MODe? Arguments TRACk ties the navigational functionality of the two cursors together . For cursor 1 adjustments, this ties the movement of th e two cursors together; however , cursor 2 continues to move independen tly of cursor 1. INDependent allows independent[...]

  • Seite 147

    Commands Listed in Alphabetical Order CURSor:VBArs :DEL T a? (Query Only) Returns the horizontal difference betw een the two vertical bar c ursors. The units are speci fi ed by the CURSor:VBArs:UNIts command. This is equivalent to watching the cursor readout in the display while using the appropriate curso r mode. Group Cursor Syntax CURSor:VBArs:[...]

  • Seite 148

    Commands Listed in A lphabetical Order CURSor:VBArs :POSITION<x> Sets or returns the horizontal position for the speci fi ed vertical bar cursor . The cursor is speci fi ed by <x>, which can be 1 or 2. V alues are with respec t to trigger position or t he zero reference point for the desi gnated waveform (if horizontal units are not s[...]

  • Seite 149

    Commands Listed in Alphabetical Order Returns SECONDS , HERT Z , DEGREES ,o r PERCENT , depending on the current vertical bar cursor units. Examples CURSOR:VBARS: UNITS HERtz sets the units of the VBArs cursors to 1/seconds. CURSOR:VBARS: UNITS? might return :CURSOR: VBARS:UNITS SECOND S indicating that the units for the vertical bar cursor are cur[...]

  • Seite 150

    Commands Listed in A lphabetical Order Syntax CURSor:VBArs: VDE LTa? Related Commands CURSor:HBArs:UNIts Retu rns <NR3> indicates the vertical difference betw een the two vertical bar cursors’ ticks. Examples CURSOR:VBARS: VDELTA? might return CURSOR:VBARS:VDEL T A 1.064E+0, indicating that the vertical difference between the vertical bar c[...]

  • Seite 151

    Commands Listed in Alphabetical Order CURSor:XY :PO Lar:THET A:DELta? (Query Only) Returns the XY cursor polar angle delta. Group Cursor Syntax CURSor:XY:POL ar:THETA:DELt a? CURSor:XY :POLar:THET A:POSITION<x>? (Query Only) Returns the cursor X or cursor Y polar coordinate, where x is either 1 or 2. Group Cursor Syntax CURSor:XY:POL ar:THETA[...]

  • Seite 152

    Commands Listed in A lphabetical Order CURSor:XY :PR ODUCT :POSITION<x>? (Query Only) Returns the position of the X or Y cursor used to calculate the X × Y cursor measurement, Position 1 = (X1 × Y1) ; Position 2 = (X2 × Y2). The cursor is speci fi ed b y x , whic h can be 1 or 2. Group Cursor Syntax CURSor:XY:PRO DUCT:POSITIO N<x>? [...]

  • Seite 153

    Commands Listed in Alphabetical Order CURSor:XY :RA TIO:UNIts? (Query Only) Returns the cursor X and cursor Y units for the ratio measurement. Group Cursor Syntax CURSor:XY:RAT IO:UNIts? CURSor:XY :READOUT Sets or returns the XY cursor readout selection. This command is use ful for oscilloscope models with limited dis play room. Oscilloscopes with [...]

  • Seite 154

    Commands Listed in A lphabetical Order Group Cursor Syntax CURSor:XY:REC Tangular:X:P OSITION<x> <NR3> CURSor:XY:REC Tangular:X:P OSITION<x>? Arguments <NR3> is the coordinate in volts. CURSor:XY :RECT angular:X:UNIts? (Query Only) Returns the cursor X rectangular units. Group Cursor Syntax CURSor:XY:REC Tangular:X:U NIts? C[...]

  • Seite 155

    Commands Listed in Alphabetical Order CURSor:XY :RE CT angular:Y :UNIts? (Query Only) Returns the cursor Y rectangular units. Group Cursor Syntax CURSor:XY:REC Tangular:Y:UN Its? CURV e T ransfers waveform data to and from the oscilloscope in binary or ASCII format. Each waveform transferred includes a waveform preamble which contains the data form[...]

  • Seite 156

    Commands Listed in A lphabetical Order <x> is the numbe r of y bytes. For example, if <yyy>=500, then <x>=3) <yyy> is the number of bytes to transfer . If width is 1, then all bytes on the bus are single data points. If width is 2, then all bytes on the bus are 2-bytes wide. Use the WFMInpre:BYT_Nr command to set the width f[...]

  • Seite 157

    Commands Listed in Alphabetical Order Related Commands CUR V e , DA T a:ST ARt , DA T a:STOP , DA T a:ENCdg , WFMInpre:NR_Pt , WFMOutpre:NR_Pt? Arguments INIT initializes the waveform data parameters to their factory defaults except for DA T a:STOP , which is set to the current acquisition record length. SNAp sets DA T a:ST ARt and DA T a:STOP to m[...]

  • Seite 158

    Commands Listed in A lphabetical Order NOTE. This comm and and query does not apply to incoming waveform data. Group W aveform T ransfer Syntax DATa:ENCdg {ASCIi|FAStes t|RIBinary|R PBinary|SRIbinar y|SRPbinary} DATa:ENCdg? Related Commands WFMOutpre:ENCdg , WFMOutpre:BN_Fmt , WFMOutpre:BYT_Or Arguments ASCIi speci fi es the ASCII representa tion [...]

  • Seite 159

    Commands Listed in Alphabetical Order T able 2-37: DA T a and WFMOutpre Parameter Settings (cont.) WFMOutpre Setti ngs DA T a:ENCdg Setting :ENCdg :BN_Fmt :BYT_Or :BYT_NR RPBinary BIN RP MSB 1,2 SRIbinary BIN RI LSB 1,2 SRPbinary BIN RP LSB 1,2 Examples DATA:ENCDG? might return :DAT a:ENCDG S RPBINARY for the format of the outgoing waveform data. D[...]

  • Seite 160

    Commands Listed in A lphabetical Order Examples DATA:SOURCE? m ight return :DATA :SOURCE REF3 indicating that the source for the waveform data which is transferred using a CUR V e ? query is reference 3. DATA:SOURCE C H1 speci fi es that the C H1 waveform will be transferred in the next CUR V e? query . DA T a:ST ARt Sets or returns the starting d[...]

  • Seite 161

    Commands Listed in Alphabetical Order the distance fr om DA T a:ST ARt to DATa:STOP stays smaller than the increa sed record length. Group W aveform T ransfer Syntax DATa:STOP <NR1> DATa:STOP? Related Commands CUR V e , DA T a , DA T a:ST ARt , WFMInpre:NR_Pt , WFMOutpre:NR_ Pt? Arguments <NR1> is the last data point that will be transf[...]

  • Seite 162

    Commands Listed in A lphabetical Order Examples DATE "2006-01- 24" speci fi es that the date is set to January 24, 2006. DATE? might return :DATE 2006-01-24 indicating the current date is set to January 24, 20 06. *DDT Allows you to specify a c ommand or a list of commands that execute when the oscilloscope receives a *TRG command or the[...]

  • Seite 163

    Commands Listed in Alphabetical Order Syntax DESE <NR1> DESE? Related Commands *CLS , *ESE , *ESR? , EVENT? , EVMsg? , *SRE , *STB? Arguments <NR1> sets t he binary bits of the D ESER according to this value, which ranges from 1 through 255. For example, DESE 209 sets the DESER to the binary value 1 1010001 (that is, the most signi fi [...]

  • Seite 164

    Commands Listed in A lphabetical Order DESkew:DISPl ay Sets or returns the state of the deskew table display . Group V ertical Syntax DESkew:DISPla y {OFF|ON|0| 1} DESkew:DISPla y? Arguments OFF or 0 turns of f the deskew table display . ON or 1 turns on the deskew table display . DIAg:LOOP:OPT ion Sets the self-test loop option. Group Calibration [...]

  • Seite 165

    Commands Listed in Alphabetical Order Syntax DIAg:LOOP:OPT ion: NTIMes <NR1> DIAg:LOOP:OPT ion:NTIMes? Arguments <NR1> is the number of self- test loops. Examples DIAG:LOOP:OPT ION:NTIMES 3 sets the self-test loop to run three times. DIAG:LOOP:OPT ION:NTIMES? might return : DIAG:LOOP:OPTIO N:NTIMES 5 , indicating the self-test loop is s[...]

  • Seite 166

    Commands Listed in A lphabetical Order Examples DIAG:RESULT:F LAG ? might return DIAG:RES ULT:FLAG PASS . DIAg:RESUlt:LOG? (Query Only) Returns the internal results log from the last self-test sequence exe cution. The list contain s all modules and module interface s that were tested along with the pass/fail status of each. Group Calibration and Di[...]

  • Seite 167

    Commands Listed in Alphabetical Order ROM runs just th e IO board diagnostic group. ACQ runs just the acquisition s ystem diagnostic group. DIAg:SELect:<function> (No Query Form) Runs self-tests on the speci fi ed syste m subsystem. Group Calibration and Diagnostic Syntax DIAg:SELect:< function> Arguments <function> speci fi es [...]

  • Seite 168

    Commands Listed in A lphabetical Order Examples DIAG:STATE EXE Cute starts diagnos tics. DISplay? (Query Only) Returns the current display settings. Group Display Syntax DISplay? DISplay:CLOCk Sets or returns whether the oscilloscop e displays the date and time. The query form of this command returns an ON (1) or an OFF (0). Group Display Syntax DI[...]

  • Seite 169

    Commands Listed in Alphabetical Order Group Display Syntax DISplay:DIGit al:HEIght {SMAll |MEDium|LARge} DISplay:DIGit al:HEIght? Arguments SMAll sets the height to 40. MEDium sets the height to 20. LARge sets the height to 10. DISplay:FORMat Sets or returns the display format. Group Display Syntax DISplay:FORMa t {YT|XY} DISplay:FORMa t? Arguments[...]

  • Seite 170

    Commands Listed in A lphabetical Order Arguments CROSSHair spec i fi e s a frame and cross hairs. FRAme speci fi es a frame only . FULl speci fi es a frame, a grid and cross hairs. GRId speci fi es a frame and grid only . Examples DISPLAY:GRATI CULE FRAme sets the graticule type to display the frame only . DISPLAY:GRATI CULE? might return :DISP[...]

  • Seite 171

    Commands Listed in Alphabetical Order Group Display Syntax DISplay:INTEN SITy:GRAticul e <NR1> DISplay:INTEN SITy:GRAticul e? Arguments <NR1> is the graticule intensity and ranges from 0 to 100 percent. Examples DISPLAY:INTEN SITY:GRATICUL E? might return DISPLAY:INTEn sITY:GRATICUL E 30 DISplay:INTENSIT y:W A VEform Sets and returns th[...]

  • Seite 172

    Commands Listed in A lphabetical Order Syntax DISplay:PERSi ste nce {<NR3>|CLEA R|AUTO|MINImum|I NFInite} DISplay:PERSi stence? Arguments <NR3> speci fi es the time of the persistence. CLEAR resets the persi st time count down and c lears the display of acquired points. INFInite displays waveform points until a cont rol change resets t[...]

  • Seite 173

    Commands Listed in Alphabetical Order Syntax D<x> D<x>:LABel Sets or returns the wavefo rm label for d igital cha nnel <x>, w here x is the c hannel number . Group V ertical Syntax D<x>:LABel <Qstr ing> D<x>:LABel? Arguments <Qstring> is an alphanumeric string of text, enclosed in quotes, that contains the [...]

  • Seite 174

    Commands Listed in A lphabetical Order D<x>:THREshold Sets or returns the logical threshold f or digital channel < x>, where x is the channel nu mber . Group V ertical Syntax D<x>:THREshol d {ECL|TTL |<NR3>} D<x>:THREshol d? Arguments ECL sets the digital threshold for channel <x> to a preset ECL high level of ?[...]

  • Seite 175

    Commands Listed in Alphabetical Order NOTE. Setting t he DESER and the ESER to the same values allows only those codes to be enter ed into the Event Queue and summariz ed on the ESB bit (bit 5) of the Status Byte Register . Use the DESE command to set the DESER. Examples *ESE 209 sets the ESER to binary 11010001, which enables the PON, URQ, EXE, an[...]

  • Seite 176

    Commands Listed in A lphabetical Order NOTE. Do not use DHCP/BOOTP sear ching if your oscilloscope has been assigned a static addr ess on a network. If you set this command to ON, the DHCP/BOOTP sear ch will delete or change your static IP addr ess information. OFF disables the oscilloscope to search t he network for a DHCP or BOOTP server . Exampl[...]

  • Seite 177

    Commands Listed in Alphabetical Order ETHERnet:ENE T :ADDress? (Query Only) Returns the Ethernet address value assi gned to the oscilloscope. This is assigned at the factory and can not be changed. Group Ethernet Syntax ETHERnet:ENET :ADDress? Examples ETHERNET:ENET :ADDRESS? returns an Ethernet address such as 08:00:11:01:0 2:03 ETHERnet:GA TEW ay[...]

  • Seite 178

    Commands Listed in A lphabetical Order Arguments <QString> is an integer port number , enclosed in quotes. NOTE. Consider the following if you ar e using the e*Scope™ contr ol softwar e. If you don’ t enter a port addr ess in the URL, then the E THERnet:HTTPPort value must be set to "80", which is the default port for HTTP pr ot[...]

  • Seite 179

    Commands Listed in Alphabetical Order ETHERnet:P AS SW ord Sets or returns the HTTP Ethernet access passw ord. If a password is set, the user must enter the password befor e the user ’ s W eb brow ser can access the oscilloscop e. Group Ethernet Syntax ETHERnet:PASS Word <new> ETHERnet:PASS Word? Arguments <new> is a new password, enc[...]

  • Seite 180

    Commands Listed in A lphabetical Order Returns OK is returned i f the computer at the gateway IP address answers. NORESPOnsE is returned if the computer at the gateway IP address does not answer . INPROGRESS is returned if the ping operation is still executing. ETHERnet:SUBNETMask Sets or returns the remote in terface subnet mask value. Group Ether[...]

  • Seite 181

    Commands Listed in Alphabetical Order EVMsg? (Query Only) Removes a single event code from the Ev ent Queue that is associated with the results of the last *ESR? read and returns the event code along with an explanatory message. For information, see Event Handling. Group Status and Error Syntax EVMsg? Related Commands ALLEv? *CLS , DESE , *ESE , *E[...]

  • Seite 182

    Commands Listed in A lphabetical Order F ACtory (No Qu ery Form) Resets the oscilloscope to its factory default settings. This command does the following: Clears the Event Status Enable Register Clears the Service Request Enable Register Sets the De vice Event Status Enable Register to 255 Purges all de fi ned aliases Enables all Command Headers S[...]

  • Seite 183

    Commands Listed in Alphabetical Order FILESystem? ( Query Only ) Returns the directory listing of the current working directory and the number of bytes of free space available. This query is the same as the FILESystem:DIR? query and the FILESystem:FREESpace? query . Group File System Syntax FILESystem? Related Commands FILESystem:CWD , FILESystem:D[...]

  • Seite 184

    Commands Listed in A lphabetical Order Syntax FILESystem:CW D { <new working directory p ath>} Arguments <new working dir ectory path> is a quoted string that de fi nes the current working; a directory name can be up to 128 characters. Examples FILESYSTEM:CW D "D:/T ekScope/images" sets the current working directory to images[...]

  • Seite 185

    Commands Listed in Alphabetical Order Group File System Syntax FILESystem:DI R? Related Commands FILESystem:CWD , FILESystem:MKDir Arguments None Returns FILESystem:DI R? returns a list of fi les and directories in the current working directory . Examples FILESYSTEM:DI R? might return :FILESYSTEM:D IR "tek00000.png ","my_CAN_set up.[...]

  • Seite 186

    Commands Listed in A lphabetical Order Group File System Syntax FILESystem:FR EESpace? Related Commands FILESystem:FREESpace? , FILESystem:CWD FILESystem:MKDir (No Query Form) Creates a new folder . Group File System Syntax FILESystem:MK Dir <directory pat h> Related Commands FILESystem:CWD , FILESystem:DIR? Arguments <directory path> i[...]

  • Seite 187

    Commands Listed in Alphabetical Order Related Commands FILESystem:CW D Arguments <QString> is a quoted string that de fi nes t he fi le name and path. If the fi le path is within the current working directory , specify only the fi le nam e. Examples FILESYSTEM:RE ADFILE “D:/t est_data/tek 00016CH1.csv” reads the content of the speci ?[...]

  • Seite 188

    Commands Listed in A lphabetical Order Related Commands FILESystem:CW D Arguments <directory path> is a quoted string that de fi nes the directory name and path. If the fi le path is within the current workin g directory , you need only specify the fi le name. Examples FILESYSTEM:RM DIR "D:/O ldDirectory" remo ves the directory n[...]

  • Seite 189

    Commands Listed in Alphabetical Order Arguments <button> is the name of a front-panel button. Most of the argument names associate directly with their front pane l buttons. For example, AUTOSet is for the Autoset b utton. The fe w commands t hat do not ha ve obvious ass ociations are listed below . T able 2 -38: FP Anel:PRESS arguments Argume[...]

  • Seite 190

    Commands Listed in A lphabetical Order T able 2-38: FP Anel:PRESS arguments (cont.) Argument Description SINGl eseq Single button TESt T est button TRIGger T r igger Menu button UTILity Utility button Examples FPANEL:PRESS AUTOSET executes the o scilloscope Autoset function. FP Anel:TURN (No Query Form) Simulates the action of turning a speci fi e[...]

  • Seite 191

    Commands Listed in Alphabetical Order T able 2 -39: FP Anel:TURN arguments (cont.) Argument Description HORZScale Horizontal Scale knob P ANKNOB1 Outer pan knob TRIGLevel T rigger Level knob VERTPOS<n> Ve r t i c a l Position knob VERTSCALE<n> V ertical Scale knob ZOOM Inner zoom knob Examples FPANEL:TURN TRIGLEVEL ,10 duplicates turnin[...]

  • Seite 192

    Commands Listed in A lphabetical Order Syntax HARDCopy {STA R T} HARDCopy? Related Commands *W AI , *CLS Arguments START sends a block of data repr esenting the current screen image to the requested port. The data sent is in the image format speci fi ed by the SA V e:IMAGe:FILEFormat command and the compression level is controlled by the selected [...]

  • Seite 193

    Commands Listed in Alphabetical Order dark blue becau se yellow does not show up well and is dif fi cul t to see on a white background). This option can signi fi cantly reduce print time and quantities of ink required compared with WYSIWYG dark background images. Group Hard Copy Syntax HAR DCopy:INKSaver? Arguments ON or <NR1> ≠ 0 sets th[...]

  • Seite 194

    Commands Listed in A lphabetical Order HARDCopy:PRE VIEW (No Query Form) Displays a preview of the current scre en contents with the InkSaver palette applied. Group Hard Copy Syntax HARDCopy:PREV IEW {ON|OFF|<NR 1>} Arguments ON or <NR1> ≠ 0 turns preview mode on. OFF or <NR1> = 0 turns preview mode off. HARDCopy:PRINT er:ADD (N[...]

  • Seite 195

    Commands Listed in Alphabetical Order HARDCopy:PRI NT er:LIST? (Query Only) Returns a list of currently attached printers. Group Hard Copy Syntax HARDCopy:PRIN Ter:LIST? HARDCopy:PRINT er:RENam e( N oQ u e r yF o r m ) Renames a network printer on the list of ava ilable printers, replacing the currently stored settings with the settings speci fi e[...]

  • Seite 196

    Commands Listed in A lphabetical Order Syntax HEADer {OFF|ON |<NR1 >} HEADer? Related Commands VERBose Arguments OFF sets the Response Header Enable State to false. This causes the oscilloscope to omit headers on query responses, so that only the argument is returned. ON sets the Response Header Enable State to true. This causes the oscillosc[...]

  • Seite 197

    Commands Listed in Alphabetical Order Syntax HORizontal:DE Lay: MODe {OFF|ON |<NR1>} HORizontal:DE Lay:MODe? Related Commands HORizontal:POSition Arguments OFF sets the Horizontal Delay Mode to off. This causes the H ORizontal:POSition command to operate like the HORIZONT AL POSITION knob on the front panel. ON sets the Horizontal Delay Mode [...]

  • Seite 198

    Commands Listed in A lphabetical Order HORizontal:D IGital:RECOrdlength:MAGnivu? (Query Only) Returns the record length of th e MagniV u digital acquisition. Group Horizontal Syntax HORizontal:DI Gital:RECOrd length:MAGnivu? HORizontal:DIGital:RECOrdl ength:MAIN? (Query Only) Returns the record length of the main digital acquisition. Group Horizont[...]

  • Seite 199

    Commands Listed in Alphabetical Order Mode is on, this command stores a new horizonta l position that is used when Horizontal Delay Mode is turned of f. Group Horizontal Syntax HORizontal:PO Sition <NR3> HORizontal:PO Sition? Related Commands HORizontal:DELay:TIMe Arguments <NR3> is the horizontal position expressed as the percentage of[...]

  • Seite 200

    Commands Listed in A lphabetical Order Syntax HORizontal:RE COr dlength <NR1 > HORizontal:RE COrdlength? Arguments <NR1> represents the supported values for horizontal record l engths, which are: 1000, 10000, 100000, 100 0000, or 10000000 . Examples HORIZONTAL:RE CORDLENGTH 10000 speci fi es that 10000 data points will be acquired for [...]

  • Seite 201

    Commands Listed in Alphabetical Order ID? (Query Onl y) Returns identifying information a bout the oscilloscope and related fi rmware. Group Miscellaneous Syntax ID? Related Commands *IDN? Examples ID? might return TEK/DPO4034,CF :91.1CT,FV:v1.0 000 . This indicates the oscilloscope model number , con fi gured format, a nd fi rmware version numb[...]

  • Seite 202

    Commands Listed in A lphabetical Order LANGuage? Examples LANGUAGE? might return :LANGUAGE EN GLISH . LOCk Enables or disables all front-pan el buttons and knobs. There is no front panel equivalent. When the front panel is locked, neither the FP Anel:PRESS nor the FP Anel:TURN commands will work. They will not generate an error event either . Y ou [...]

  • Seite 203

    Commands Listed in Alphabetical Order Syntax *LRN? Related Commands SET? Examples *LRN? might return a long response, p art of which could be as follows: :ACQUIRE:STOP AFTER RUnsTOP;ST ATE 1;MODE SAMPLE;NUM ENV INFINITE;NUMA VG 16;SAMPLINGMO DE RT;:HEADER 1;:LOCK NONE;:LANGUAG E ENGLISH;:VE RBOSE 1;:ALIAS: STATE 0;:DISPLAY:CO LOR:PALETTE N ORMAL;:D[...]

  • Seite 204

    Commands Listed in A lphabetical Order Syntax MARK {NEXT|PRE Vious } MARK? Arguments NEXT move s to the n ext re ference mark on the right. PREVious moves to the next reference mark on the left. MARK:CREA TE (No Quer yF o r m ) Creates a mark on a speci fi ed waveform or all waveforms in a column. Group Mark Syntax MARK:CREATE { CH<x>|MATH|B[...]

  • Seite 205

    Commands Listed in Alphabetical Order REF<x> deletes the mark on a reference waveform, where <x> is the reference waveform number . DIGital deletes all marks on all digital channels. COLUMN deletes marks on all waveforms in the current zoom pixel column. MARK:FREE? (Query Only) Returns how many marks are available for use. Group Mark Sy[...]

  • Seite 206

    Commands Listed in A lphabetical Order MARK:SELecte d:OWNer? (Query Only) Returns the owner of the selected mark. Group Mark Syntax MARK:SELected :OWNer? Returns <QString> is the owner of the mark. Examples MARK:SELECTED :OWNER? might return: USER, SEARCH 1 MARK:SELected:SOURCE? (Query Only) Returns the source waveform for the selected mark. [...]

  • Seite 207

    Commands Listed in Alphabetical Order MARK:SELecte d:ZOOm:POSition? (Query Only) Returns the position of the selected mark, 0 to 100% of the zoom overview window . Group Mark Syntax MARK:SELected :ZOOm:POSitio n? MARK:TOT al? (Query Only) Returns how many marks are currently in use. Group Mark Syntax MARK:TOTal? {MA TH|MA TH1}:LABel Sets or queries[...]

  • Seite 208

    Commands Listed in A lphabetical Order Group Math Syntax MATH[1]? Related Commands MA TH[1]:TYPe Examples MATH? or MATH1? might return :MATH:T YPE DUAL;DEFINE "CH1+CH2";VER TICAL:SCALE 100.0000E-3;P OSITION 0.0000; UNITS "V";:MATH:HOR IZONTAL:SCAL E 4.0000E-6;POSI TION 50.0000;UN ITS "s";:MATH:SPE CTRAL:MAG DB ;WINDOW [...]

  • Seite 209

    Commands Listed in Alphabetical Order T able 2-40: Advanced Math expression elements (c ont.) Expression Description FFT( , INTG( , DIFF( Executes a Fast Fourier Transform, integration, or differentiation operation on the expression that follows. The FFT operator must be the fi rst (left-most) operator in an expression. All these operations must e[...]

  • Seite 210

    Commands Listed in A lphabetical Order Group Math Syntax MATH[1]:HORiz ontal:POSiti on <NR3> MATH[1]:HORiz ontal:POSiti on? Arguments <NR3> is the % of the ma th waveform that precedes center sc reen. It can vary from 0.0 t o 100.0. Examples MATH:HORIZONT AL:POSITION 10 sets the horizontal position to 10% pretrigger MA TH[1]:HORizontal:[...]

  • Seite 211

    Commands Listed in Alphabetical Order Examples MATH:HORIZONT AL:U NITS? might return MATH:HO RIZONTAL:UNITS " ?" indicating that the math horizontal unit label for unknown values is the default question mark unit. MA TH[1]:SPECT ral:MAG Sets or returns the units of the Spectral Magni fi cation function in the math string. Group Math Synt[...]

  • Seite 212

    Commands Listed in A lphabetical Order BLAckmanharri s window function is based on a cosine series. Examples MATH1:SPECTRA L:WINDOW HANNING applies a Hanning window to the spectral analyzer input data. MATH1:SPECTRA L:WINDOW? might return :MATH 1:SPECTRAL:WINDO W HAMMING indicating that the window function used to multiply th e spectral analyzer in[...]

  • Seite 213

    Commands Listed in Alphabetical Order Syntax MATH[1]:VERTi cal: POSition <NR3> MATH[1]:VERTi cal:POSition? Related Commands CH<x>:POSition , REF<x>:VER T ical:POSition Arguments <NR3> is the desired position in divisions from the center graticule. Examples MATH1:VERTICA L:POSITION 1.3E+00 positions the Math 1 input signal 1.[...]

  • Seite 214

    Commands Listed in A lphabetical Order Syntax MATH[1]:VERTi cal :UNIts? Examples MATH:VERTICAL :UNITS? might return MATH: VERTICAL:UNITS " joules" indicating that the math vertical unit label for unknown values is joules. MA THV AR? (Query Only) Queries both numerical values you can use within math expressions. Group Math Syntax MATHVAR? [...]

  • Seite 215

    Commands Listed in Alphabetical Order Examples MATHVAR:VAR2 - 2.43E -5 stores the value -2.43e-5 in the second math variable location. MATHVAR:VAR2 ? might return :MATHVAR:VAR2 24.3000E-6 for the expression stored in location 2. MEASUrement? (Query Only) Returns all measu rement parameters . Group Measurement Syntax MEASUrement? Examples MEASUREMEN[...]

  • Seite 216

    Commands Listed in A lphabetical Order MEASUrement: CLEARSNapshot (No Query Form) Removes the measuremen t snapshot display . Group Measuremen t Syntax MEASUrement:C LEARSNapshot Related Commands CLEARMenu MEASUrement:GA T ing Speci fi es or returns the measurement gating setting. Group Measuremen t Syntax MEASUrement:G ATing {OFF|SCRE en|CURSor} [...]

  • Seite 217

    Commands Listed in Alphabetical Order Examples MEASUREMENT:I MMED ? might return :MEASUREMENT: IMMED:DELAY:D IRECTION FORWARDS; EDGE1 RISE;EDGE2 RISE;:MEASURE MENT:IMMED:TY PE PERIOD;UNITS "s";S OURCE1 CH1;SOURCE2 C H2 MEASUrement:IMMed:DELay? (Query Only) Returns information about the immediate delay measurement. This command is equivale[...]

  • Seite 218

    Commands Listed in A lphabetical Order Examples MEASUREMENT:I MME D:DELAY:DIREC TION FORWAR DS starts searching from the beginning of the waveform record and lo oks for the fi rst rising or falling edge. MEASUREMENT: IMME D:DELAY:DIREC TION? might return :MEASUREMENT: IMMED:DELAY: DIRECTION BAC KWARDS indicating that searching begins at the end of[...]

  • Seite 219

    Commands Listed in Alphabetical Order Group Measurement Syntax MEASUrement:I MMed:SOUrce[1 ] {CH<x>|MATH<y >|REF<x>|D<x>} MEASUrement:I MMed:SOUrce? Related Commands MEASUrement:IMMed:SOUrce 2 Arguments CH<x> is an input c hannel waveform . The x variable can b e expressed as an integer , where x is the channel number [...]

  • Seite 220

    Commands Listed in A lphabetical Order Arguments CH<x> is an inpu t channel waveform, wher e x is the channel number . MATH<y> is a math waveform. The y varia ble can be expressed as a n integer of 1. REF<X> is a reference waveform, whe re x i s the reference channel number . D<X> is a digital waveform. The x variable ca n b[...]

  • Seite 221

    Commands Listed in Alphabetical Order Syntax MEASUrement:I MMed :TYPe {AMPlitude|AR Ea|BURst|CARe a|CMEan|CRMs|DE Lay|FALL|FREQuen cy |HIGH|LOW|MAX imum|MEAN|MIN Imum|NDUty|NEDG ECount|NOVershoo t |NPULSECount |NWId th|PEDGECoun t|PDUty |PERIod|PHAse |PK2Pk|POVers hoot|PPULSECoun t|PWIdth|RISe|RM S} MEASUrement:I MMed:TYPe? Arguments AMPlitude meas[...]

  • Seite 222

    Commands Listed in A lphabetical Order MAXimum fi nds th e maximum amplitude. This value is the most positive p eak voltage found. It is measured over the entire waveform or gated region. This measurement is applicable only to the analog channels. MEAN amplitude measurement fi nds the arithmetic mean over the entire waveform or gated region. This[...]

  • Seite 223

    Commands Listed in Alphabetical Order PPULSECount is the count of positive pulses. PWIdth (positive width) is the distance (time) between the middle reference (default = 50% ) amplitude points of a positive pulse. The measurement is made on the fi rst pulse in the waveform or gated region. RISe timing measurement fi nds the rise time o f the wave[...]

  • Seite 224

    Commands Listed in A lphabetical Order MEASUrement: IMMed:V ALue? (Query Only) Returns the value of the measuremen t speci fi ed by the MEASUrement:IMMed: TYPe command. The measurement is immediat ely taken on the source(s) speci fi ed by a MEASUrement:IMMed:SOUrce command. NOTE. A change to HORizontal:MAIn:S CALe or CH<x>:SC ALe will not n[...]

  • Seite 225

    Commands Listed in Alphabetical Order Group Measurement Syntax MEASUrement:I NDICators:HOR Z<x>? Examples MEASUREMENT:I NDICATORS:HOR Z1? might return MEASUREMENT:I NDICATORS:HOR Z1 -2.0E-3 indicating that horizontal indicator1 has a value of -2mV . MEASUrement:INDICators:NUMHORZ? (Query Only) Returns the number of horizontal measu rement ind[...]

  • Seite 226

    Commands Listed in A lphabetical Order MEASUrement: INDICators:ST A TE Sets or returns the state of visible measurement indicators. Group Measuremen t Syntax MEASUrement:I NDICators:ST ATE {OFF|MEAS<x>} MEASUrement:I NDICators:ST ATE? Arguments OFF turns the visible me asurement indicators o ff. MEAS<x> displays the visible measurement [...]

  • Seite 227

    Commands Listed in Alphabetical Order MEASUrement: MEAS<x>? (Query Only) Returns all measurement parameters for the speci fi ed active meas urement <x>. Group Measurement Syntax MEASUrement:M EAS<x>? MEASUrement:MEAS<x>:COUNt? (Query O nly) Returns the number of values accumulat ed for this measurement since the last statis[...]

  • Seite 228

    Commands Listed in A lphabetical Order MEASUrement: MEAS<x>:DELay:DIRection Sets or returns the starting point and direc tion that determines the delay "to" edge when taking a delay measure ment. Use the MEASUre ment:MEAS<x>:SOURCE2 c o m m a n dt os p ecify the waveform. Group Measuremen t Syntax MEASUrement:M EAS<x>:DE[...]

  • Seite 229

    Commands Listed in Alphabetical Order Arguments <x> speci fi es wh ich wavefo rm to use, where <x > = 1 is the "from" waveform, and <x> = 2 is the "to" waveform. FALL speci fi es the falling edge. RISe speci fi es the rising edge. Examples MEASUREMENT:M EAS1:DELAY:ED GE1 RISE speci fi es that the "from[...]

  • Seite 230

    Commands Listed in A lphabetical Order Group Measuremen t Syntax MEASUrement:M EAS<x>:MINIm um? Examples MEASUREMENT:M EAS1:MINIMUM ? might return :MEASUREMENT: MEAS1:MINIMU M 1.75E-09. MEASUrement:MEAS<x>:SOURCE[1] Sets or returns the source fo r all single source measure ments and speci fi es the source to measure "from" wh[...]

  • Seite 231

    Commands Listed in Alphabetical Order Group Measurement Syntax MEASUrement:M EAS<x>:SOURCE 2 {CH<x>|MATH<y >|REF<x>|D<x>} MEASUrement:M EAS<x>:SOURCE 2? Related Commands MEASUrement:MEAS<x>:TYPe Arguments CH<x> is an input channel waveform, where x is the channel nu mber . MATH<y> is the math wa[...]

  • Seite 232

    Commands Listed in A lphabetical Order MEASUrement: MEAS<x>:ST A TE Sets or returns whether the speci fi ed measurement slot is computed and displayed. The measurement slot is speci fi ed by <x>, which ranges from 1 through 4. For a measurement to display , you must have selected a source waveform and de fi ned the measurement you wa[...]

  • Seite 233

    Commands Listed in Alphabetical Order Examples MEASUREMENT:M EAS1 :STDDEV? migh t retur n :MEASUREMENT:ME AS1:STDDEV 21.0E-12. MEASUrement:MEAS<x>:TYPe Sets or returns the measurement t ype de fi ned for the speci fi ed measur em ent slot. The measurement slot is speci fi ed by <x>, which ranges from 1 through 4. Digital channel meas[...]

  • Seite 234

    Commands Listed in A lphabetical Order DELay measures the time between the middle reference (default = 50%) amplitude point of the source waveform and the destination wav eform. This measurement is applicable only to the analog channels. FALL measures the time taken for the falling edge of the fi rst pulse in the waveform or gated region to fall f[...]

  • Seite 235

    Commands Listed in Alphabetical Order PEDGECount is t he count of positive edges. PERIod is the time required to complete the fi rst cycle in a waveform or gated region. Perio d is the reciprocal of frequency and is measured in seconds. PHAse measures the phase difference (amo unt of time a waveform leads or lags the referen ce waveform) between t[...]

  • Seite 236

    Commands Listed in A lphabetical Order Related Commands MEASUrement:M EAS<x>:TYPe Examples MEASUREMENT:M EAS1:UNITS? might return :MEASUREMENT:MEA S1:UNIts % indicating units for measurement 1 are set to percent. MEASUrement:MEAS<x>:V ALue? (Query Only) Returns a calculate value f or the measurement speci fi ed by <x>, which rang[...]

  • Seite 237

    Commands Listed in Alphabetical Order Arguments Auto selects th e best method for each data set. HIStogram sets the high and low waveform levels statistically using a histogram algorithm. MINMax uses the highest and lowest values of t he waveform record. This selection is best for examining waveforms with no lar ge, fl at portions o f a common val[...]

  • Seite 238

    Commands Listed in A lphabetical Order Related Commands MEASUrement:R EFLevel:METHod , MEASUrement:IMMed:TYPe , MEASUrement:MEAS<x>:TYPe Arguments <NR3> is the high reference level, in volts. The default is 0.0 V . Examples MEASUREMENT:R EFLEVEL:ABSO LUTE:HIGH 1.7 1 sets the high reference level to 1.71 V . MEASUREMENT:R EFLEVEL:ABSO LU[...]

  • Seite 239

    Commands Listed in Alphabetical Order MEASUrement: REFLevel:ABSolute:MID[ 1] Sets or returns the mid reference leve l, and is the 50% reference level when MEASUrement:REFLevel:METHod is set to Absolute. This command affects the results of pe riod, frequency , delay , and a ll cyclic measurements. NOTE. this command affects the associated r efe r en[...]

  • Seite 240

    Commands Listed in A lphabetical Order Related Commands MEASUrement:R EFLevel:METHod Arguments <NR3> is the mid reference level, in volts. The default is 0.0 V . Examples MEASUREMENT:R EFLEVEL:ABSO LUTE:MID2 0.5 sets the mid reference level for the delay waveform to 0.5 V . MEASUREMENT:R EFLEVEL:ABSO LUTE:MID2? might return :MEASUREMENT: REFL[...]

  • Seite 241

    Commands Listed in Alphabetical Order precise values are required (for example, when designing to published interface speci fi cations, such as RS-232-C). PERCent speci fi es that the refere nce levels are calculated as a percent relative to HIGH and LOW . The percentages are de fi ned using the MEASUrement:REFLevel:PERCent commands. Examples ME[...]

  • Seite 242

    Commands Listed in A lphabetical Order MEASUrement: REFLevel:PERCent:LOW Sets or returns the percent (where 100% is equal to HIGH) used to calculate the low reference level whe n MEASUrement:REFLevel:METHod is set to Percent. This command affects the results of rise and fall measurem ents. NOTE. this command affects the associated r efer ence level[...]

  • Seite 243

    Commands Listed in Alphabetical Order Syntax MEASUrement:R EFLe vel:PERCent: MID[1] <NR3> MEASUrement:R EFLevel:PERCe nt:MID[1]? Related Commands MEASUrement:REFLevel:METHod Arguments <NR3> is the mid reference level, ranging from 0 to 100%. The default mid reference level is 50%. Examples MEASUREMENT:R EFLEVEL:PERCE NT:MID 1 60 sets th[...]

  • Seite 244

    Commands Listed in A lphabetical Order MEASUrement: REFLevel:PERCent:MID<x> Sets or returns the mid reference level for channel <x>, where x is the measurement channel. Group Measuremen t Syntax MEASUrement:R EFLevel:PERC ent:MID<x> <NR3> MEASUrement:R EFLevel:PERC ent:MID<x>? Arguments <NR3> is the mid reference[...]

  • Seite 245

    Commands Listed in Alphabetical Order Group Measurement Syntax MEASUrement:S TATIstics:MOD E {OFF|ON} MEASUrement:S TATIstics:MOD E? Related Commands MEASUrement:ST A TIstics Arguments OFF turns all measurements off. This is the default value. ON turns on statistics and displays al l statistics for each measurement. Examples MEASUREMENT:S TATISTICS[...]

  • Seite 246

    Commands Listed in A lphabetical Order MESSage This command sets or que ries message box (screen annotation) parame ters. Group Display Syntax MESSage MESSage? Examples MESSAGE? might return MES SAGE:SHOW "TP401 ";BOX 271,82,292,11 4;STATE 0 ind icating the message pa rameters. MESSage:BOX Sets or returns the co-ordinates of the message b[...]

  • Seite 247

    Commands Listed in Alphabetical Order command automa tically sizes the box to fi t the message . All four values are returned in a query . MESSage:CLEAR (No Query Form) Clears the contents of the message box. Group Display Syntax MESSage:CLEAR Related Commands MESSage:BOX , MESSage:SHOW , MESSage:ST A TE Examples MESSage:CLEAR removes the message [...]

  • Seite 248

    Commands Listed in A lphabetical Order If the message e xceeds the limits of the message box, either horizontally or vertically , the portion of the message tha t exceeds the limits will not be displayed. The message string its elf is not altered. The entire messa ge can be returned as a query response regardless of what is displayed in the messag [...]

  • Seite 249

    Commands Listed in Alphabetical Order Index 9 White (tex t) Index 10 T ek blue Index 1 1 Bright blue Index 12 Unde fi ned Index 13 Blue Index 14 Unde fi ned Index 15 Dark blue Bit 4 If set, the foreground color is set to the default foreground color . Bit 3 If set, th e background color is set to the default background color . Bit 2 Unde fi ne d[...]

  • Seite 250

    Commands Listed in A lphabetical Order Examples MESSage:SHOW “ Hello W orld” displays “Hello world” in the upper left corner of the box (you can de fi ne the box size with the MESSAGE BOX command). MESSage:SHOW “ Í @Hello W orld Í @ ... hello” displays “Hello world ... hello” in the upper left corner of the box and the word “wo[...]

  • Seite 251

    Commands Listed in Alphabetical Order Arguments <QString> is th e new password, w hich can contain up to 16 characters. Examples NEWPASS " mypassword" creates a new p assword (mypassword) for accessing your protected data. *OPC Generates the operation complete messag e in the Standard Event Status Register (SESR) when all pending co[...]

  • Seite 252

    Commands Listed in A lphabetical Order *OPC? might ret urn 1 to indicate that all pending OPC operations are fi nished. P ASSWord(No Query Form) Enables the *PUD and NEWpass set commands. Sending P ASSW ord without any arguments disables these same comman ds. Once the password is successfully entered, the *PUD and NEWpass commands are enabled unti[...]

  • Seite 253

    Commands Listed in Alphabetical Order Examples PICTBRIDGE:DA TEPR INT ON enables the date print on the print output. PICTBRIDGE:DA TEPRINT ? might return P ICTBRIDGE:DATEP RINT DEFLT indicating th e default setting of the printer . PICTBridge:DEFault (No Query Form) Sets the arguments for all PictBridge commands to their default values. The default[...]

  • Seite 254

    Commands Listed in A lphabetical Order PICTBridge:I MAGESize Sets or returns the image print size. Group PictBridge Syntax PICTBridge:IM AGESize {DEFLT|IN2P5B Y3P25|L|IN4B Y6|L2|IN8BY10|L4 |E|CARD|HAGAKIPc ard|CM6BY8|CM 7 A4|LETTER} Arguments DEFLT for a default image print size. IN2P5BY3P25 for a 2_5*3_25 image print size. L for a 3_5*5 image prin[...]

  • Seite 255

    Commands Listed in Alphabetical Order PICTBridge:P APERSize Sets the output print paper size. Group PictBridge Syntax PICTBridge:PA PERSize DEFLT|L|L2|HA GAKIPCARD|MM5 4BY86|MM100BY15 0|IN4BY6|IN8BY10 |LETTER|IN1 1 B4|B5|B6|B7|B 8|B9|ROLL89MM |ROLL127MM|ROLL 100MM|ROLL210MM} Arguments DEFLT for a default paper size. L for a paper size L L2 for a pa[...]

  • Seite 256

    Commands Listed in A lphabetical Order B3 for a B3 paper siz e. B4 for a B4 paper siz e. B5 for a B5 paper siz e. B6 for a B6 paper siz e. B7 for a B7 paper siz e. B8 for a B8 paper siz e. B9 for a B9 p aper size. ROLL89MM for a 89 MM Roll paper size. ROLL127MM for a 127 MM Roll paper size. ROLL100MM for a 100 MM Roll paper size. ROLL210MM for a 21[...]

  • Seite 257

    Commands Listed in Alphabetical Order PICTBridge:P RINTQual Sets or returns the output print quality . Group PictBridge Syntax PICTBridge:PR INTQual {DEFLT|N RMAL|FINE|DRAFT } Arguments DEFLT for the default quality print. NRMAL for a normal quality print. FINE for a fi ne quality print. DRAFT for a draft quality print. Examples PICTBRIDGE:PR INTQ[...]

  • Seite 258

    Commands Listed in A lphabetical Order POWer:DISpla y Sets or returns the display state for the po wer application. This is the equivalent to pressing the Te s t button and then selecting the power application. The same control is pr ovided for each application. Conditions This command requires a DPO4PWR application module. Group Power Syntax POWer[...]

  • Seite 259

    Commands Listed in Alphabetical Order Examples POWER:GATESOU RCE CH1 sets the gated source as CH1. POWER:GATESOU RCE ? might return POWER:GATES OURCE CH2 indicating that CH2 is the ga te ds o u r c e . POWer:GA Ting Sets or returns the power application gating. Conditions This command requires a DPO4PWR application module. Group Power Syntax POWer:[...]

  • Seite 260

    Commands Listed in A lphabetical Order Arguments ODD to display o nly odd harmonics. EVEN t od i s p l a yo n l ye v e nh a r m o n i c s . ALL t od i s p l a yb o t ho d da n de v e nh a r m o n i c s . Examples POWER:HARMONI CS:DISPLAY:S ELECT EVEN displays only even harmonics. POWER:HARMONI CS:DISPLAY:S ELECT? might return :POWER:HARMON ICS:DISP[...]

  • Seite 261

    Commands Listed in Alphabetical Order Syntax POWer:HARMoni cs:F REQRef {VOLTage|CURR ent|HARMSOURc e|FIXEDFREQuenc y} POWer:HARMoni cs:FREQRef? Arguments VOLTage to use a voltage wavefor m as the frequency reference. CURRent to use a current waveform as the frequency reference. HARMSOURce to use a harmonic source waveform as the frequency reference[...]

  • Seite 262

    Commands Listed in A lphabetical Order POWer:HARMon ics:IEC:CLAss Sets or returns the equ ipment class for IEC harmonics. Conditions This command requires a DPO4PWR application module. Group Power Syntax POWer:HARMoni cs:IEC:CLAss {A |B|C1|C2|C3|D} POWer:HARMoni cs:IEC:CLAss ? Arguments A speci fi es Class A Equipment. B speci fi es Class B Equip[...]

  • Seite 263

    Commands Listed in Alphabetical Order Examples POWER:HARMONI CS:I EC:FILTER O FF disables fi ltering of IEC harmonics. POWER:HARMONI CS:IEC:FILTER ? might return :POWER:HARMO NICS: IEC:FILTER 1 indicating that the IEC harmonics are fi ltered. POWer:HARMoni cs:IEC:FUNDamental Sets or retu rns the rated fundamental current for IEC harmonics. V alid[...]

  • Seite 264

    Commands Listed in A lphabetical Order Arguments ON or 1 enables g rouping of IEC harmonics. OFF or 0 disables grouping of IEC harmonics. Examples POWER:HARMONI CS:IEC:GROUP ING OFF disables grouping of IEC harmonics. POWER:HARMONI CS:IEC:GROUP ING? might return :POWER:HARMON ICS:IEC:GROU PING 1 indicating that the grouping is e nabled for IEC harm[...]

  • Seite 265

    Commands Listed in Alphabetical Order Syntax POWer:HARMoni cs:I EC:LINEFREQu ency <NR3> POWer:HARMoni cs:IEC:LINEFR EQuency? Arguments <NR3> is the line frequency . The valid values are 50 and 60. Examples POWER:HARMONI CS:IEC:LINEFR EQUENCY 50 sets the line frequency to 50 Hz. POWER:HARMONI CS:IEC:LINEFR EQUENCY? might return :POWER:HA[...]

  • Seite 266

    Commands Listed in A lphabetical Order Syntax POWer:HARMoni cs: IEC:POWERFACt or <NR3> POWer:HARMoni cs:IEC:POWER FACtor? Arguments <NR3> is the power factor . V alid values ranges from 0 to 1 in increments of 0.1. Examples POWER:HARMONI CS:IEC:POWER FACTOR 1 sets th e power factor to 1.00 00. POWER:HARMONI CS:IEC:POWER FACTOR? might re[...]

  • Seite 267

    Commands Listed in Alphabetical Order Group Power Syntax POWer:HARMoni cs:MIL:FUNDam ental:USER:CURR ent <NR3> POWer:HARMoni cs:MIL:FUNDam ental:USER:CURR ent? Arguments <NR3> is the current in amperes for USER CALCmethod. Examples POWER:HARMONI CS:MIL:FUNDAM ENTAL:USER:CURR ENT 2 sets the RMS fundamental current to 2 A in calculating l[...]

  • Seite 268

    Commands Listed in A lphabetical Order Conditions This command re quires a DPO4PWR application module. Group Power Syntax POWer:HARMoni cs:MIL:POWER LEVel {LOW|HIGH} POWer:HARMoni cs:MIL:POWER LEVel? Arguments LOW speci fi es low power level for MIL-STD-1399 harmonics tests. HIGH speci fi es high power level for MIL-STD-1399 harmonics tests. Exam[...]

  • Seite 269

    Commands Listed in Alphabetical Order NOTE. The comma nd r eturns NA, if the curr ent harmonic standar d is set to a new standar d other than the r eturned query . Conditions This command requires a DPO4PWR application module. Group Power Syntax POWer:HARMoni cs:RESults:HA R<1-400>:FREQue ncy? Examples POWER:HARMONI CS:RESULTS:HA R400:FREQUEN[...]

  • Seite 270

    Commands Listed in A lphabetical Order the standard. I EC Class C (T able 2) and MIL standards specify the limit as a percentage of the fundamental. Conditions This command requires a DPO4PWR application module. Group Power Syntax POWer:HARMoni cs:RESults:H AR<1-400>:LIMit? Examples POWER:HARMONI CS:RESULTS:H AR3:LIMIT? might r eturn :POWER:H[...]

  • Seite 271

    Commands Listed in Alphabetical Order Syntax POWer:HARMoni cs:R ESults:HAR<1 -400>:RMS:ABSolu te? Examples POWER:HARMONI CS:RESULTS:HA R400:RMS:ABSOLU TE? might return :POWER:HARMON ICS:RESULTS:H AR400:RMS:ABSOL UTE 1.0 indicating that the RMS magnitude of the harmonic is set to 1.0 A. POWer:HARMoni cs:RESults:HAR<1-400>:RMS: PERCent? ([...]

  • Seite 272

    Commands Listed in A lphabetical Order POWer:HARMon ics:RESults:HAR<1-400>:TEST :IEC:NORMAL? (Query Only) Speci fi es if the Normal IEC harmonic limits are met. NOTE. The command r eturns NA if the standar d does not specify a limit. Conditions This command requires a DPO4PWR application module. Group Power Syntax POWer:HARMoni cs:RESults:H [...]

  • Seite 273

    Commands Listed in Alphabetical Order NOTE. The comma nd r eturns NA if the standar d does not specify a limit for the speci fi c harmonic. Conditions This command requires a DPO4PWR application module. Group Power Syntax POWer:HARMoni cs:RESults:HA R<1-400>:TEST:M IL:NORMAL? Returns PASS , FAI L ,o r NA . POWer:HARMonics: RESults:IEC:FUNDam[...]

  • Seite 274

    Commands Listed in A lphabetical Order Returns PASS , FAIL ,o r N A . Examples POWER:HARMONI CS:RESULTS:I EC:HARM3ALTERNAT E? might return POWER:HARMONI CS:RESULTS:I EC:HARM3ALTERNAT E PASS indicating the test result. POWer:HARMonics:RESults:IEC:HARM5AL T ernate? (Query Only) Returns the overall harmonics test result for the 5th harmonic. NOTE. The[...]

  • Seite 275

    Commands Listed in Alphabetical Order POWer:HARMon i cs:RESults:IEC:POHL? (Query Only) Returns the IEC POHL measurement. Conditions This command requires a DPO4PWR application module. Group Power Syntax POWer:HARMoni cs:RESults:IE C:POHL? Examples POWER:HARMONI CS:RESULTS:IE C:POHL? might r eturn :POWER:HARMON ICS:RESULTS:I EC:POHL 0.5 indicating t[...]

  • Seite 276

    Commands Listed in A lphabetical Order Examples POWER:HARMONI CS: RESULTS:IEC:P OWERFACTOR? might return :POWER:HARMON ICS:RESULTS: IEC:POWERFACTOR 9.1900E+37 indicating that the IEC power factor is set to 9.1900E+37. POWer:HARMo nics:RESults:P ASSFail? (Query Only) Returns the overall harmonics test result: P ASS, F AIL or NA. Conditions This comm[...]

  • Seite 277

    Commands Listed in Alphabetical Order Group Power Syntax POWer:HARMoni cs:RESults:SA Ve <String> POWer:HARMonics: RESults:THDF? (Query Only) Returns the T otal Harmonic Distortion (THD) in percentage, measured as a ratio to the RMS value o f the fundamental compon ent of the source waveform. Conditions This command requires a DPO4PWR applicat[...]

  • Seite 278

    Commands Listed in A lphabetical Order Conditions This command re quires a DPO4PWR application module. Group Power Syntax POWer:HARMoni cs:SOURce {VOLT age|CURRent} POWer:HARMoni cs:SOURce? Arguments VOLTage speci fi es voltage source wavefo rm for harmonic tests. CURRent speci fi es curr ent source waveform for harmonic tests. Examples POWER:HAR[...]

  • Seite 279

    Commands Listed in Alphabetical Order Conditions This command re quires a DPO4PWR application module. Group Power Syntax POWer:INDICat ors {OFF|ON|0|1} POWer:INDICat ors? Arguments OFF or 0 turns off the measurement indicators. ON or 1 turns on the me asurement indica tors. Examples POWER:INDICAT ORS 1 turns on the indicator . POWER:INDICAT ORS? mi[...]

  • Seite 280

    Commands Listed in A lphabetical Order POWer:MODula tion:TYPe Sets or returns the modulation type. Conditions This command requires a DPO4PWR application module. Group Power Syntax POWer:MODulat ion:TYPe {PWIdth|NWIdt h|PERIod|PDU ty|NDUty|FREQuen cy} POWer:MODulat ion:TYPe? Arguments PWIdth (positive width) is the distance (time) between the middl[...]

  • Seite 281

    Commands Listed in Alphabetical Order POWer:QUALit y:APPpwr? (Query Only) Returns the apparent power measurement. Conditions This command requires a DPO4PWR application module. Group Power Syntax POWer:QUALity :APPpwr? Examples POWER:QUALITY :APPPWR? might return :POWER :QUALITY:APPpwr 10 0 indicating that the apparent power value is set to 100 V A[...]

  • Seite 282

    Commands Listed in A lphabetical Order Group Power Syntax POWer:QUALity :DISplay:FRE Quency {OFF|ON|0|1} POWer:QUALity :DISplay:FRE Quency? Arguments OFF or 0 turns off the frequency disp lay . ON or 1 turns on the frequency d isplay . Examples POWER:QUALITY :DISPLAY:FRE QUENCY 1 turns on the frequency readout display . POWER:QUALITY :DISPLAY:FRE Q[...]

  • Seite 283

    Commands Listed in Alphabetical Order Conditions This command re quires a DPO4PWR application module. Group Power Syntax POWer:QUALity :DISplay:IRMS {O FF|ON|0|1} POWer:QUALity :DISplay:IRMS ? Arguments OFF or 0 turns of f the rms current display . ON or 1 turns on the rms current display . Examples POWER:QUALITY :DISPLAY:IRMS 1 turns on the rms cu[...]

  • Seite 284

    Commands Listed in A lphabetical Order Conditions This command re quires a DPO4PWR application module. Group Power Syn tax POWer:QUALity :DISplay:POW ERFACtor {OFF|ON |0|1} POWer:QUALity :DISplay:POW ERFACtor? Arguments OFF or 0 turns of f the power factor display . ON or 1 turns on the power factor display . Examples POWER:QUALITY :DISPLAY:POW ERF[...]

  • Seite 285

    Commands Listed in Alphabetical Order POWer:QUALit y:DISplay:TRUEpwr Sets or returns the display state for the true power readout. Conditions This command requires a DPO4PWR application module. Group Power Syntax POWer:QUALity :DISplay:TRUE pwr {OFF|ON|0|1} POWer:QUALity :DISplay:TRUE pwr? Arguments OFF or 0 turns of f the true power display . ON o[...]

  • Seite 286

    Commands Listed in A lphabetical Order POWER:QUALITY :DI SPLAY:VCRESTF ACTOR? might re turn :POWER:QUALIT Y:DISPLAY:VC RESTFACTOR 0 indicating that the voltage crest factor display is off. POWer:QUALi ty:DISplay:VRMS Sets or returns the display sta te for the rms voltage readout. Conditions This command requires a DPO4PWR application module. Group [...]

  • Seite 287

    Commands Listed in Alphabetical Order Examples POWER:QUALITY :FRE QREFERENCE C URRent sets current as the power quality frequency reference source. POWER:QUALIT Y:FRE QREFERENCE? might return :POWER:QUALIT Y:FREQREFEREN CE VOLTAGE indicating that the power quality frequency reference source is set to V oltage. POWer:QUAL ity:FREQuency? (Query Only)[...]

  • Seite 288

    Commands Listed in A lphabetical Order Conditions This command re quires a DPO4PWR application module. Group Power Syntax POWer:QUALity :IRMS? Examples POWER:QUALITY :IRMS? might return :POWER: QUALITY:IRMS 1.00 indicating that the RMS current value is set to 1.00 A. POWer:QUALity:PHASEangle? (Query O nly) Returns the phase angle measurement. Condi[...]

  • Seite 289

    Commands Listed in Alphabetical Order POWer:QUALit y:REACTpwr? (Query Only) Returns the reactive power measurement. Conditions This command requires a DPO4PWR application module. Group Power Syntax POWer:QUALity :REACTpwr? Examples POWER:QUALITY :REACTPWR? might return :POWE R:QUALITY:REACT pwr 100 indicating that the reactor power value is set to [...]

  • Seite 290

    Commands Listed in A lphabetical Order Examples POWER:QUALITY :VR MS? might return :POWER:QUALITY:V RMS 115 indicating that the rms voltage value is set to 1 15 V . POWer:REFLevel:ABSolute ( No Query Form) Sets the reference levels to their default unit values. Conditions This command requires a DPO4PWR application module. Group Power Syntax POWer:[...]

  • Seite 291

    Commands Listed in Alphabetical Order Conditions This command re quires a DPO4PWR application module. Group Power Syntax POWer:REFLeve l:ABSolute:LO W <NR3>; Ranges ={D,-1e6,+1E6} POWer:REFLeve l:ABSolute:LO W? Arguments <NR3> is the absolute low value in volts. Default value is 0.0E+0. Examples POWER:REFLEVE L:ABSOLUTE:LO W 1.0 sets th[...]

  • Seite 292

    Commands Listed in A lphabetical Order Conditions This command re quires a DPO4PWR application module. Group Power Syntax POWer:REFLeve l:HYSTeresis <N R3> POWer:REFLeve l:HYSTeresis ? Arguments <NR3> is the hysteresis value. Examples POWER:REFLEVE L:HYSTERESIS 30 sets the hysteresis value to 30. POWER:REFLEVE L:HYSTERESIS ? might retur[...]

  • Seite 293

    Commands Listed in Alphabetical Order POWer:REFLev el:PERCent (No Query Form) Sets the reference levels to th e default percentage values. Conditions This command requires a DPO4PWR application module. Group Power Syntax POWer:REFLeve l:PERCent <SETTO DEFaults> Arguments SETTODEFaults sets the reference levels to thei r default percentage val[...]

  • Seite 294

    Commands Listed in A lphabetical Order Group Power Syntax POWer:REFLeve l:PERCent:LO W <NR3>; Ranges= {D,0.0,100.0} POWer:REFLeve l:PERCent:LO W? Arguments <NR3> is the low value in percentage. Examples POWER:REFLEVE L:PERCENT:LO W 15 sets the low reference level to 15% of the signal amplitude. POWER:REFLEVE L:PERCENT:LO W? might return[...]

  • Seite 295

    Commands Listed in Alphabetical Order Group Power Syntax POWer:RIPPle {VE RTAUTOset|VER TDEFault} Arguments VERTAUTOset automatically scales the source waveform to optimize ripple measurements. VERTDEFault sets the vertical offset of the source waveform to 0 volts (for voltage source) or 0 amperes (for current source). POWer:RIPPle: RESults:AMPLitu[...]

  • Seite 296

    Commands Listed in A lphabetical Order POWer:RIPPle :RESult s:MEAN? (Query Only) Returns the mean of the peak-to-peak ripple measurements. Conditions This command requires a DPO4PWR application module. Group Power Syntax POWer:RIPPle: RESults:MEAN ? Examples POWER:RIPPLE: RESULTS:MEAN ? might return :POWER:RIPPLE :RESULTS:MEA N 1.0 indicating t hat[...]

  • Seite 297

    Commands Listed in Alphabetical Order Examples POWER:RIPPLE: RESU LTS:STDDEV? might return :POWER:RIPPLE :RESULTS:STDD EV 0.14 indicating that the standard deviation of the peak-to-peak amplitude is set to 0 .14. POWer:RI PPl e:SOUrce Sets or returns the source waveform for r ipple t ests. The voltage source waveform is speci fi ed using the POW e[...]

  • Seite 298

    Commands Listed in A lphabetical Order Examples POWER:SOA:LIN EAR :XMAX 700 sets the XMAX value to 700.0000. POWER:SOA:LIN EAR:XMAX ? might return :POWER:S OA:LINear:XMAX 500.0000 indi cating that the XMAX value for linear plot type is set to 500.0000. POWer:SOA:LINear:XMIN Sets or returns the user XMIN value for use in linear SOA calculations. Con[...]

  • Seite 299

    Commands Listed in Alphabetical Order Examples POWER:SOA:LIN EAR: YMAX 700 sets the YMAX value to 700.0000. POWER:SOA:LIN EAR:YMAX ? might return :POWER:SO A:LINear:YMAX 50.0000 indic ating that the YMAX value for linear plot type is set to 50.0000. POWer:SOA:LINear:YMIN Sets or returns the user YMIN value f or use in linear SOA calculations. Condi[...]

  • Seite 300

    Commands Listed in A lphabetical Order Examples POWER:SOA:LOG :XM AX 1 sets the XMAX value to 1.0000. POWER:SOA:LOG :XMAX ? might return :POW ER:SOA:LOG:XMAX 1.0 000E+3 indicating th at the XMAX value for log plot type is set to 1.0000E+3. POWer:SOA:LOG:XMIN Sets or returns the user XMIN value for use in Log SOA calculations. Conditions This comman[...]

  • Seite 301

    Commands Listed in Alphabetical Order Examples POWER:SOA:LOG :YMA X 10 sets the YMAX value to 10.0000. POWER:SOA:LOG :YMAX ? might return :POWER:SO A:LOG:YMAX 100. 0000 indicating th at the YMAX value for log plot type is set to 100.0000. POWer:SOA:LOG:YMIN Sets or returns the user YMIN value for use in Log SOA calculations. Conditions This command[...]

  • Seite 302

    Commands Listed in A lphabetical Order Examples POWER:SOA:MAS K:D EFINE 10 speci fi es the S OA mask coordinates as 0.0E+0,0.0E+0,0.0E+0,0.0E+0,0.0E+0,30 .0000,25.0000,30.000 0,300.0000,2.5000,300 .0000,2. 4 POWER:SOA:MA SK:D EFINE ? might return :POWE R:SOA:MASK:DE FINE 0.0E+0,30.000 0,25.0000,30 .0000,300.0000,2 .5000,300.0000,0 .0E+0 indicating[...]

  • Seite 303

    Commands Listed in Alphabetical Order Examples POWER:SOA:MAS K:MA XVOLTS 200 sets the SOA mask testing voltage to 200 V . POWER:SOA:MAS K:MAXVOLTS ? might ret urn :POWER:SOA:MASK :MAXVOLTS 300.0000 indi cating that the SOA mask testing maximum voltage is set to 300 V . POWer:SOA:MASK:MAXW atts Sets or returns the maximum power applied to SOA mask t[...]

  • Seite 304

    Commands Listed in A lphabetical Order POWer:SOA:MA S K : S TATe Sets or returns the state of the mask for SOA calculations. Conditions Th is command requires a DPO4PWR application module. Group Power Syntax POWer:SOA:MAS K:STATe {OFF |LIMITS|POINTS} POWer:SOA:MAS K:STATe? Arguments OFF disables mask testing. LIMITS enables mask testing based on li[...]

  • Seite 305

    Commands Listed in Alphabetical Order Examples POWER:SOA:MAS K:ST OPONVIOL 1 disables the sta te of the mask stop on violation condition. POWER:SOA:MA SK:ST OPONVIOL ? mi ght retur n :POWER:SOA:MA SK:STOPONVIOL 0 indicating that the mask stop is enabled. POWer:SOA:PLOTTYPe Sets or returns the Safe Operating Area (SOA) plot type. Conditions This com[...]

  • Seite 306

    Commands Listed in A lphabetical Order POWer:SOA:RE Sult:NUMACq? (Query Only) Returns the number of acquisitions in the test. Conditions This command requires a DPO4PWR application module. Group Power Syntax POWer:SOA:RES ult:NUMACq? Examples POWER:SOA:RES ULT:NUMACQ? might return : POWER:SOA:RESULT :NUMACQ 10 indicating that the number of acquisit[...]

  • Seite 307

    Commands Listed in Alphabetical Order Syntax POWer:STATIst ics {R ESET} Arguments RESET clears the measurement statis tics. POWer:ST A TIstics:MODE Enables or disables the display of the me asurement statistics. Performs the same function as the MEASUrement:ST A TIstics:MODE command. Conditions This command requires a DPO4PWR application module. Gr[...]

  • Seite 308

    Commands Listed in A lphabetical Order Arguments <NR1> is the num ber of samples used for the me an and standard deviation statistical accumulations Examples POWER:STATIST ICS:WEIGHTIN G 4 sets statistical weighting to four samples. POWER:STATIST ICS:WEIGHTIN G ? might return :POWER:STATIS TICS:WEIGHTI NG 4 indicating that statistics weightin[...]

  • Seite 309

    Commands Listed in Alphabetical Order Syntax POWer:SWLoss: COND uction:ENERG Y:MAX? Examples POWER:SWLOSS: CONDUCTION:EN ERGY:MAX? might return :POWER:SWLOSS :CONDUCTION:E NERGY:MAX 1 indicating that the maximum conduction ener gy switchi ng loss calculation is set to 1 J. POWer:SWLoss:CONDuction:ENERGY :MEAN? (Query Only) Returns the mean conducti[...]

  • Seite 310

    Commands Listed in A lphabetical Order POWer:SWLoss :CONDuction:POWER:MAX? (Query Only) Returns the maximum conduction power for the switching loss calculation. Conditions This command requires a DPO4PWR application module. Group Power Syntax POWer:SWLoss: CONDuction:P OWER:MAX? Examples POWER:SWLOSS: CONDUCTION:P OWER:MAX? might return :POWER:SWLO[...]

  • Seite 311

    Commands Listed in Alphabetical Order Examples POWER:SWLOSS: COND UCTION:POWER :MIN? might return :POWER:SWLOSS :CONDUCTION:P OWER:MIN 1 indicating that the minimum conduction power switching loss calculation is set to 1 W . POWer:SWLos s:DISplay Sets or returns the display selection for switching loss results: All measurements, energy loss measure[...]

  • Seite 312

    Commands Listed in A lphabetical Order Arguments FALL sets falli ng edge as the switching loss gate polarity . RISe sets rising edge as the switching loss gate polarity . Examples POWER:SWLOSS: GATE:POLARIT Y FALL sets the gate polarity to Fall. POWER:SWLOSS: GATE:POLARIT Y ? might return :POWER:SWLOSS :GATE:POLARI TY RISE indicatin g that the gate[...]

  • Seite 313

    Commands Listed in Alphabetical Order Loss power enab led, it indicates the possibility of incorrect settings and might return the following : *ESR? 20 ALLEV? 2202,"Measurement error , No period found; :power:swloss:numcycles?",410,"Query INTERRUPTED" POWer:SWLoss:RDSon Sets or re turns the user RDSON value for use in switching [...]

  • Seite 314

    Commands Listed in A lphabetical Order Arguments <NR3> is the mid voltage reference level in volts. Examples POWER:SWLOSS: REFLEVEL:ABS OLUTE:GATEMID 100 sets the absolute g ate mid reference voltage to 100.0000 V . POWER:SWLOSS: REFLEVEL:ABS OLUTE:GATEMID ? might return :POWER:SWLOSS :REFLEVEL:AB SOLUTE:GATEMID 50.0000 indicating that the ga[...]

  • Seite 315

    Commands Listed in Alphabetical Order Syntax POWer:SWLoss: REFL evel:ABSolut e:LOWVoltage <NR3> POWer:SWLoss: REFLevel:ABSo lute:LOWVoltage ? Arguments <NR3> is the low voltage reference level in volts. Examples POWER:SWLOSS: REFLEVEL:ABSO LUTE:LOWVOLTAGE 2.5 sets the absolute reference low voltage to 2.50 00 V . POWER:SWLOSS: REFLEVEL:[...]

  • Seite 316

    Commands Listed in A lphabetical Order Group Power Syntax POWer:SWLoss: REFLevel:PER Cent:LOWCurrent <NR 3> POWer:SWLoss: REFLevel:PER Cent:LOWCurrent? Arguments <NR3> is the low voltage reference level percent. Examples POWER:SWLOSS: REFLEVEL:PER CENT:LOWCURRENT 15 sets the reference low current to 15%. POWER:SWLOSS: REFLEVEL:PER CENT:[...]

  • Seite 317

    Commands Listed in Alphabetical Order Group Power Syntax POWer:SWLoss: TOFF:ENERGY:M AX? Examples POWER:SWLOSS: TOFF:ENERGY:M AX? might return :POWER:SWLOSS :TON:ENERGY:M AX 1 indicating that the maximum T off ener gy switching loss calculation is set to 1 J. POWer:SWLoss:T OFF:ENERGY :MEAN? (Query Only) Returns the mean T off ener gy for t he swit[...]

  • Seite 318

    Commands Listed in A lphabetical Order POWer:SWLoss :T O FF:POWER:MAX? (Query Only) Returns the maximum T off power fo r the switching loss calculation. Conditions This command requires a DPO4PWR application module. Group Power Syntax POWer:SWLoss: TOFF:POWER:M AX? Examples POWER:SWLOSS: TOFF:POWER:M AX? might return :POWER:SWLOSS :TON:POWER:M AX 1[...]

  • Seite 319

    Commands Listed in Alphabetical Order Examples POWER:SWLOSS: TOFF :POWER:MIN? might return :POWER:SWLOSS :TON:POWER:MI N 1 indicating that the minimum T off power switching loss calculation is set to 1 W . POWer:SWLos s:T ON:ENERGY :MAX? (Query Only) Returns the maximum T on energy for the switching loss calculation. Conditions This command require[...]

  • Seite 320

    Commands Listed in A lphabetical Order Group Power Syntax POWer:SWLoss: TON:ENERGY:M IN? Examples POWER:SWLOSS: TON:ENERGY:M IN? might return :POWER:SWLOSS :TON:ENERGY: MIN 1 indicating that the minimum T on energy switching loss calculation is set to 1 J. POWer:SWLoss:T ON:POWER:MAX? (Query Only) Returns the maximum T on power for the switching lo[...]

  • Seite 321

    Commands Listed in Alphabetical Order POWer:SWLoss :T ON:POWER:MIN? (Query Only) Returns the minimum T on power for the switching loss calculation. Conditions This command requires a DPO4PWR application module. Group Power Syntax POWer:SWLoss: TON:POWER:MIN ? Examples POWER:SWLOSS: TON:POWER:MIN ? might return :POWER:SWLOSS :TON:POWER:MI N 1 indica[...]

  • Seite 322

    Commands Listed in A lphabetical Order Examples POWER:SWLOSS: TOT AL:ENERGY:MEA N? might return :POWER:SWLOSS :TOTAL:ENERG Y:MEAN 1 indicating that the mean conduction energy switching loss calculation is set to 1 J. POWer:SWLos s:T OT al:ENERGY :MIN? (Query Only) Returns the minimum total ener gy for the switching loss calculation. Conditions This[...]

  • Seite 323

    Commands Listed in Alphabetical Order Group Power Syntax POWer:SWLoss: TOTal:POWER:M EAN? Examples POWER:SWLOSS: TOTAL:POWER:M EAN? might return :POWER:SWLOSS :TOTAL:POWER: MEAN 1 indicating that the mean total power switching loss calculation is set to 1 W . POWer:SWLoss:T OT al:POWER:MIN? (Query Only) Returns the minimum total power loss. Conditi[...]

  • Seite 324

    Commands Listed in A lphabetical Order Examples POWER:SWLOSS: VCE SAT 5 sets the VCEsat value to 5.0000 . POWER:SWLOSS: VCESAT ? might return :POWER:SWLO SS:VCEsat 2.000 0 indicating that the VCEsat value is set to 2.0000. POWer:TYPe Sets or returns the power app lication measurement type. Conditions This command requires a DPO4PWR application modu[...]

  • Seite 325

    Commands Listed in Alphabetical Order oscilloscope. Many oscilloscope users do not have to worry about this because they use the same type of probe on all channels. Power measurement users, however , frequently use both a voltage probe and a current probe. A current probe typically has a lar ger delay than a v oltage probe, so setting deskew values[...]

  • Seite 326

    Commands Listed in A lphabetical Order Syntax *PSC {OFF|ON|N R1>} *PSC? Related Commands DESE , *ESE , FA C t o r y , *RST , *SRE Arguments OFF sets the power-on status clear fl ag to false. ON sets the power-on status clear fl ag to true. <NR1> = 0 sets the power-on status clear fl ag to false. This disables the power-on clear allowing[...]

  • Seite 327

    Commands Listed in Alphabetical Order *RCL (No Query Form) This command restores the state of the oscilloscope from a copy of the settings stored in memory (The settings are stored using the *SA V command). Group Save and Recall Syntax *RCL <NR1> Related Commands FA C t o r y , *LRN? , RECAll:SETUp , *RST , *SA V , SA V e:SETUp Arguments <[...]

  • Seite 328

    Commands Listed in A lphabetical Order Examples RECALL:SETUP F ACTORY recalls (and makes current) the oscilloscope setup to its factory defaults. RECALL:SETUP 2 recalls the oscilloscope setup from setup storage location 2. RECALL:SETUP "TEK00 000.SET" recalls the setup from the fi le TEK00000.SET in the curre nt working directory . RECAl[...]

  • Seite 329

    Commands Listed in Alphabetical Order REF<x>:DA TE? (Query Only) Returns the date that referen ce waveform dat a for channel <x> was c opied into the internal reference memory , where x is the reference chann el number . Group V ertical Syntax REF<x>:DATE? REF<x>:HORizontal:DELay:TIMe Sets or returns the horizontal delay tim[...]

  • Seite 330

    Commands Listed in A lphabetical Order REF<x>:LABel Sets or returns the reference waveform label for the channel speci fi ed by <x>, where x is the reference channe l number . Group V ertical Syntax REF<x>:LABel <Qs tring> REF<x>:LABel? Arguments <Qstring> is an alpha numeric string of text, enclosed in quotes, [...]

  • Seite 331

    Commands Listed in Alphabetical Order Group V ertical Syntax REF<x>:VERTic al:POSition < NR3> REF<x>:VERTic al:POSition? Related Commands CH<x>:POSition , MA TH[1]:VER Tical:POSi tion Arguments <NR3> is the desired position, in divisions from the center horizontal graticule. The range is from -5.0 to 5.0 division s. Ex[...]

  • Seite 332

    Commands Listed in A lphabetical Order Arguments <NR3> is the g ai n in user units-per-division. Examples REF4:VERTICAL :SCALE 10 0E-03 sets the Reference 4 s cale to 100 mV per division. REF4:VERTICAL :SCALE? might return :REF2:VER TICAL:SCALE 1.0000e+00 indicating that the current vertic al scale setting for Reference 2 is 1 V per division.[...]

  • Seite 333

    Commands Listed in Alphabetical Order Group Status and Erro r Syntax *RST Related Commands FA C t o r y , RECAll:SETUp , SA V e:SETUp , *PSC , *RCL , *SA V Arguments None Examples *RST resets the oscilloscope settings to factory defaults. *SA V (No Query Form) Stores the state of the oscilloscope to a speci fi ed memory location. Y ou can use the [...]

  • Seite 334

    Commands Listed in A lphabetical Order Arguments IMAGe assigns t he Save button to save scree n images. WAVEform assigns the Sa ve button to save waveforms. SETUp assigns the Save button to save setups. SA V e:EVENTtable:BUS<x> (No Query Form) Saves the da ta from bus<x> to a speci fi ed fi le and location; where x is the bus number G[...]

  • Seite 335

    Commands Listed in Alphabetical Order recommended. T he path “D:/foo.png” will save an image to the fi le “foo .png” on the Compact Flash card. SA V e:IMAGe:FILEFormat Sets or returns the fi le format to us e for saving screen images. NOTE. The fi le format is not automatically determined by the fi le name extension. Y o un e e dt oc h [...]

  • Seite 336

    Commands Listed in A lphabetical Order SA V e:IMAGe:L AYo u t Sets or returns the layout to use for saved screen images. Group Save and Recall Syntax SAVe:IMAGe:LA Yout {LANdsc ape|PORTRait} SAVe:IMAGe:LA Yout? Arguments LANdscape speci fi es that screen images are sav ed in landscape format. PORTRait speci fi es tha t screen images are saved in [...]

  • Seite 337

    Commands Listed in Alphabetical Order SA V e:W A VEfor m (No Query Form) This command saves a speci fi ed waveform or all displayed waveforms (excluding serial bus waveforms). Only individual analog waveforms (CH<x>, MA TH and REF<x>) can b e saved to reference memory locations. Y ou can save all displayed waveforms, excluding serial b[...]

  • Seite 338

    Commands Listed in A lphabetical Order :SAVe:WAVEfor m:F ILEFormat INTER Nal; :SAVe:WAVEform AL L, "D:/test_fold er/test1" saves all displayed waveforms (excluding serial bus waveforms and digital channels for MSO models) to individual fi les named D:/test_folde r/test1_<wfm >.isf (for example test1_CH1.is f ). SA V e:W A VEform:FI[...]

  • Seite 339

    Commands Listed in Alphabetical Order Group Save and Recall Syntax SAVe:WAVEform :GATIng {NONe|CU RSors|SCREEN} SAVe:WAVEform :GATIng? Arguments CURSors turns on c ursors and the gate s are the waveform r ecord points at the cursor positions. NONe saves the entire wa veform. SCREEN , if zoom is on, the gates are the start and end waveform record po[...]

  • Seite 340

    Commands Listed in A lphabetical Order STAR;DAT:VAL " XXXXX XXX";SIZ 1;DIR NOCARE;:SEARC H:SEARCH1:TR IG:A:BUS:B2:I2C: ADDR:MOD ADDR7;TYP USER;VAL "XXX XXXX" ;:SEAR CH:SEARCH1:TRIG: A:BUS:B2:CAN:CO ND SOF;FRAME DATA;D AT:VAL "XXXXXXX X";SIZ 1;DIR NOCARE;QU AL EQU; :SEARCH: SEARCH1:TRIG :A:BUS:B2:CAN:ID :MOD ST;VAL &quo[...]

  • Seite 341

    Commands Listed in Alphabetical Order SEARCH:SEARC H<x>:ST A TE Sets the search state to on or off. <x> is the search number, which is always 1. The query form returns the search state. Group Search Syntax SEARCH:SEARCH <x>:STATE {<NR1> |OFF|ON} SEARCH:SEARCH <x>:STATE? Arguments OFF or <NR1> = 0 sets the search [...]

  • Seite 342

    Commands Listed in A lphabetical Order SPI speci fi es th e Serial Peripheral Interface bus. CAN speci fi es the Controller Area Network bus. Examples SEARCH:SEARCH 1:TRIGGER:A: BUS? might return SEARCH:SEARCH 1:TRIGGER:A: BUS:B1:SPI:CONDI TION SS;:SEARCH:SE ARCH1:TRIGGE R:A:BUS:B2:SPI:C ONDITION SS;:SEARCH:SE ARCH1:TRIGGE R:A:BUS:B3:SPI:C ONDITI[...]

  • Seite 343

    Commands Listed in Alphabetical Order Arguments <String> speci fi es the search data trigger data u pper word. SEARCH:SEARCH<x>:TRIGger:A:BUS:B<1-4>:AUDi o:DA T a:OFFSet Sets or returns the search trigge r data offset for the AUDIO bus. Conditions This command requires DPO 4AUDIO application module. Group Search Syntax SEARCH:SEA[...]

  • Seite 344

    Commands Listed in A lphabetical Order SEARCH:SEARC H<x>:TRIGger:A:BUS:B<1-4>:AUDio:DA T a:V ALue Sets or returns the search trigger d ata lower word for the AU DIO bus. Conditions This command requires D PO 4AUDIO application module. Group Search Syntax SEARCH:SEARCH <x>:TRIGger: A:BUS:B<1-4>:AUD io:DATa:VALue <String>[...]

  • Seite 345

    Commands Listed in Alphabetical Order Group Search Syntax SEARCH:SEARCH <x>:TRIGger:A :BUS:B<x>:CAN:C ONDition {SOF|FRAMEtyp e|IDentifier| DATA|IDANDDATA| EOF|ACKMISS} SEARCH:SEARCH <x>:TRIGger:A :BUS:B<x>:CAN:C ONDition? Arguments SOF speci fi es a search based on the start of frame. FRAMEtype speci fi es a search based o[...]

  • Seite 346

    Commands Listed in A lphabetical Order SEARCH:SEARC H<x>:TRIGger:A:BUS:B<x>:CAN:DA T a:QUALi fi er Sets or returns the CAN data quali fi er for a search. SEARCH<x> is the search number and B<x> is the bus number . This only app lies if the trigger condition is IDANDDA T A or DA T A. Conditions This command requires a DPO4 [...]

  • Seite 347

    Commands Listed in Alphabetical Order Syntax SEARCH:SEARCH <x>: TRIGger:A:BU S:B<x>:CAN:DATa: SIZe <NR1> SEARCH:SEARCH <x>:TRIGger:A :BUS:B<x>:CAN:D ATa:SIZe? Arguments <NR1> is the data string length in bytes. SEARCH:SEARCH<x>:TRIGger:A:BUS:B<x>:CAN:DA T a:V ALue Sets or returns the binary data strin[...]

  • Seite 348

    Commands Listed in A lphabetical Order ERRor speci fi es an error frame. OVERLoad speci fi es an overload frame . SEARCH:SEARCH<x>:TRIGger:A:BUS:B<x>:CAN{:IDenti fi er|:ADDRess}:MODe Sets or returns the CAN addressing mode for a trigger search to a standard or extended format. SEA RCH<x> is the search number and B <x> is [...]

  • Seite 349

    Commands Listed in Alphabetical Order SEARCH:SEARC H<x>:TRIGger:A:BUS:B<x>:FLEXray:CONDition Sets or returns the trigger condition for FLEXRA Y . Group Search Syntax SEARCH:SEARCH <x>:TRIGger:A :BUS:B<x>:FLEXr ay:CONDition {SOF|FRAMETyp eid|CYCLEcoun t|HEADer|DATA|I DANDDATA|EOF|ERR OR} SEARCH:SEARCH <x>:TRIGger:A :BUS[...]

  • Seite 350

    Commands Listed in A lphabetical Order Arguments <QString> is a q uoted string that is the cycle count high valu e. Examples SEARCH:SEARCH 1:TRIGGER:A: BUS:B1:FLEXRAY:C YCLECOUNT:HIVALU E “110010” sets the cycle count high value to 1 10010. SEARCH:SEARCH 1:TRIGGER:A: BUS:B1:FLEXRAY:C YCLECOUNT:HIVALU E? might return SEARCH:SEARCH 1:TRIGGE[...]

  • Seite 351

    Commands Listed in Alphabetical Order SEARCH:SEARC H<x>:TRIGger:A:BUS:B<x>:FLEXray:CYCLEcount:V ALue Sets or returns the binary data string to be used for FLEXRA Y cycle count low value. Group Search Syntax SEARCH:SEARCH <x>:TRIGger:A :BUS:B<x>:FLEXr ay:CYCLEcount:VA Lue <QString> SEARCH:SEARCH <x>:TRIGger:A :BUS[...]

  • Seite 352

    Commands Listed in A lphabetical Order SEARCH:SEARC H<x>:TRIGger:A:BUS:B<x>:FLEXray:DA T a:OFFSet Sets or returns the offset of the data string in bytes to be used for FLEXRA Y trigger . Group Search Syntax SEARCH:SEARCH <x>:TRIGger: A:BUS:B<x>:FLEXr ay:DATa:OFFSet <NR1> SEARCH:SEARCH <x>:TRIGger: A:BUS:B<x>[...]

  • Seite 353

    Commands Listed in Alphabetical Order INrange sets th e FLEXRA Y data quali fi er to in range. OUTrange sets the FLEXRA Y data quali fi er to out of range. Examples SEARCH:SEARCH 1:TRIGGER:A:B US:B1:FLEXRAY:D ATA:QUALIFIER LESSTHAN sets the da ta quali fi er to LESSTHAN. SEARCH:SEARCH 1:TRIGGER:A:B US:B1:FLEXRAY:D ATA:QUALIFIER? might return SEA[...]

  • Seite 354

    Commands Listed in A lphabetical Order Arguments <QString> is a q uoted string that is the low binary data string to be used for FLEXRA Y trigger condition if trigger condition is ID or IDANDDA T A. Examples SEARCH:SEARCH 1:TRIGGER:A: BUS:B1:FLEXRAY:D ATA:VALUE “11001010” sets the binary data string to 1 1001010. SEARCH:SEARCH 1:TRIGGER:A[...]

  • Seite 355

    Commands Listed in Alphabetical Order Arguments CRCHeader sets the FLEXRA Y error type to CRC header . CRCTrailer sets the FLEXRA Y error type to CRC trailer . SYNCFrame sets the FLEXRA Y error type to SYNC frame. STARTupnosync sets the FLEXRA Y error type to start up with no sync. NULLFRStatic sets the FLEXRA Y error type to null frame static. NUL[...]

  • Seite 356

    Commands Listed in A lphabetical Order Group Search Syntax SEARCH:SEARCH <x>:TRIGger: A:BUS: B<x>:FLEXray: FRAMEID:QUAL ifier {LESSThan|MOR EThan|EQUal| UNEQual|LESSEQua l|MOREEQual| INrange|OUTra nge} SEARCH:SEARCH <x>:TRIGger: A:BUS:B<x>:FLEXr ay:FRAMEID: QUALifier? Arguments LESSThan sets the frame id quali fi er to LESS[...]

  • Seite 357

    Commands Listed in Alphabetical Order Examples SEARCH:SEARCH 1:TR IGGER:A:BUS: B1:FLEXRAY:FRAME ID:VALUE “11001101010” sets the value of the frame id is 1 100110 1010. SEARCH:SEARCH 1:TRIGGER:A:B US:B1:FLEXRAY:F RAMEID:VALUE? might return SEARCH:SEARCH1 :TRIGGER:A:BU S:B1:FLEXRAY:FR AMEID:VALUE "10110010101" indicating the value of th[...]

  • Seite 358

    Commands Listed in A lphabetical Order Arguments <QString> is a q uoted string representing the CRC portion of the binary header string used for FLEXRA Y trigger . Examples SEARCH:SEARCH 1:TRIGGER:A: BUS:B1:FLEXRAY:H EADER:CRC “00110010101” sets the CRC protion of the binary header string 0011 0010101. SEARCH:SEARCH 1:TRIGGER:A: BUS:B1:FL[...]

  • Seite 359

    Commands Listed in Alphabetical Order Syntax SEARCH:SEARCH <x>: TRIGger:A:BU S:B<x>:FLEXray:H EADER:FRAMEID <QString> SEARCH:SEARCH <x>:TRIGger:A :BUS:B<x>:FLEXr ay:HEADER:FRAMEI D? Arguments <QString> is a quoted string representing t he frame id portion of the binary header string used for FLEXRA Y trigger . Ex[...]

  • Seite 360

    Commands Listed in A lphabetical Order Group Search Syntax SEARCH:SEARCH <x>:TRIGger: A:BUS:B<x>:FLEXr ay:HEADER:PAYLen gth <QString> SEARCH:SEARCH <x>:TRIGger: A:BUS:B<x>:FLEXr ay:HEADER: PAYLength? Arguments <QString> is a quoted string representing the payload length portion of the binary header string used fo[...]

  • Seite 361

    Commands Listed in Alphabetical Order Conditions This command re quires a DPO4EMBD application module. Group Search Syntax SEARCH:SEARCH <x>:TRIGger:A :BUS:B<x>:I2C:A DDRess:TYPe {GENeralcall| STARtbyte|HSm ode|EEPROM|USER } SEARCH:SEARCH <x>:TRIGger:A :BUS:B<x>:I2C:A DDRess:TYPe? Arguments GENeralcall spec i fi es the GENe[...]

  • Seite 362

    Commands Listed in A lphabetical Order Syntax SEARCH:SEARCH <x> :TRIGger:A:BU S:B<x>:I2C:COND ition {STARt|STOP|R EPEATstart|A CKMISS|ADDRess|D ATA|ADDRANDDATA} SEARCH:SEARCH <x>:TRIGger: A:BUS:B<x>:I2C:C ONDition? Arguments STARt speci fi es a search b ased on a start condition. STOP speci fi es a search based on a stop c[...]

  • Seite 363

    Commands Listed in Alphabetical Order Group Search Syntax SEARCH:SEARCH <x>:TRIGger:A :BUS:B<x>:I2C:D ATa:SIZe <NR1> SEARCH:SEARCH <x>:TRIGger:A :BUS:B<x>:I2C:D ATa:SIZe? Arguments <NR1> is the data string length in bytes. SEARCH:SEARCH<x>:TRIGger:A:BUS:B<x>:I 2C:DA T a:V ALue Sets or returns the bina[...]

  • Seite 364

    Commands Listed in A lphabetical Order SLEEP speci fi es to search on sleep. ERROR speci fi es to search on errors. Examples SEARCH:SEARCH 1:TRIGGER:A: BUS:B1:LIN:CONDI TION? might return SEARCH:SEARCH 1:TRIGGER:A: BUS:B1:LIN:CONDI TION SYNCFIELD indicating a search on the sync fi eld. SEARCH:SEARCH<x>:TRIGger:A:BUS:B<x>:LIN:DA T a:H[...]

  • Seite 365

    Commands Listed in Alphabetical Order Arguments LESSThan sets t he LIN data quali fi er to less than. MOREThan sets the LIN data quali fi er to greater than. EQUal sets the LIN data quali fi er to equal. UNEQual sets the LIN data quali fi er to not equal. LESSEQual sets the LIN data quali fi er to less than or equal. MOREEQual sets the LIN dat[...]

  • Seite 366

    Commands Listed in A lphabetical Order Group Search Syntax SEARCH:SEARCH <x>:TRIGger: A:BUS:B<x>:LIN:D ATa:VALue <QString > SEARCH:SEARCH <x>:TRIGger: A:BUS:B<x>:LIN:D ATa:VALue? Arguments <QString> is the binary data string for the search. Examples SEARCH:SEARCH1:TRIGG ER:A:BUS:B1:LIN:DA T A :V ALUE? might retur[...]

  • Seite 367

    Commands Listed in Alphabetical Order Group Search Syntax SEARCH:SEARCH <x>:TRIGger:A :BUS:B<x>:LIN:I Dentifier:VALue <QString> SEARCH:SEARCH <x>:TRIGger:A :BUS:B<x>:LIN:I Dentifier:VALue? Arguments <QString> is a quoted string specifying the bi nary address string to be us ed for LIN search if search condition i[...]

  • Seite 368

    Commands Listed in A lphabetical Order Arguments RXSTArt speci fi es a search based on the RX Start Bit. RXDATA speci fi es a search based on RX Data. RXENDPacket speci fi es a search based on the RX End of Packet condition. TXSTArt speci fi es a search base on the TX Start Bit. TXDATA speci fi es a searc h based on TX Data. TXENDPacket speci [...]

  • Seite 369

    Commands Listed in Alphabetical Order SEARCH:SEARC H<x>:TRIGger:A:BUS:B<x>:RS232C:TX:DA T a:SIZe Sets or returns the length of the data string to be used for an RS-232 trigger search if the T rigger condition is TX. SEARC H<x> is the search number and B<x> is the bus number . Conditions This command requires a DPO4COMP appli[...]

  • Seite 370

    Commands Listed in A lphabetical Order Syntax SEARCH:SEARCH <x> :TRIGger:A:BU S:B<x>:SPI:COND ition {SS|STARToffr ame|MISO|MOS I|MISOMOSI} SEARCH:SEARCH <x>:TRIGger: A:BUS:B<x>:SPI:C ONDition? Related Commands BUS:B<x>:SPI:IDLET ime , BUS:B<x>:SPI:FRAMING Arguments SS speci fi es a search based on the Slave Sele[...]

  • Seite 371

    Commands Listed in Alphabetical Order Conditions This command re quires a DPO4EMBD application module. Group Search Syntax SEARCH:SEARCH <x>:TRIGger:A :BUS:B<x>:SPI:D ATa{:MOSI|:OUT}: VALue <bin> SEARCH:SEARCH <x>:TRIGger:A :BUS:B<x>:SPI:D ATa{:MOSI|:OUT}: VALue? Arguments <bin> is the data in binary format. SEAR[...]

  • Seite 372

    Commands Listed in A lphabetical Order Arguments B1 speci fi es the Bus 1 source. B2 speci fi es the Bus 2 source. B3 speci fi es the Bus 3 source. B4 speci fi es the Bus 4 source. SEARCH:SEARCH<x>:TRIGger:A:EDGE:SLOpe Sets or returns the slope for an edge trigger s earch to determine where to place a mark. <x> is the search number [...]

  • Seite 373

    Commands Listed in Alphabetical Order Group Search Syntax SEARCH:SEARCH <x>:TRIGger:A :LEVel {<NR3>|TTL} SEARCH:SEARCH <x>:TRIGger:A :LEVel? Arguments <NR3> speci fi es the trigger level, in volts. TTL speci fi es a preset TTL high level of 1.4V . SEARCH:SEARCH<x>:TRIGger:A:LEV el:CH<x> Sets or returns the leve[...]

  • Seite 374

    Commands Listed in A lphabetical Order SEARCH:SEARC H<x>:TRIGger:A:LEV el:REF<x> Sets or returns the speci fi ed referenc e waveform level for an edge trigger search to determine where to place a mark. SEAR CH<x> is the search number and REF<x> is the refere nce channel number . Group Search Syntax SEARCH:SEARCH <x>:T[...]

  • Seite 375

    Commands Listed in Alphabetical Order Arguments HIGH speci fi es t he logic high . LOW speci fi e st h el o g i cl o w . X speci fi es a "don’t care" state. SEARCH:SEARCH<x>:TRIGger:A:LOGIc:I NPut:CLOCk:EDGE Sets or retu rns whether the clock edge is a rising or falling for a logic search to determine where to place a mark. <[...]

  • Seite 376

    Commands Listed in A lphabetical Order SEARCH:SEARC H<x>:TRIGger:A:LOGIc:INPut:D<x> Sets or returns the waveform logi c criteria for a trigger search. SEARCH<x> is the search number and D<x> is the digital channel number . Group Search Syntax SEARCH:SEARCH <x>:TRIGger: A:LOGIc:INPut:D< x> {HIGH|LOW|X} SEARCH:SEAR[...]

  • Seite 377

    Commands Listed in Alphabetical Order Arguments HIGH speci fi es a high logic lev el. LOW speci fi es a low logic lev el. X speci fi es a “don’ t care” condition. SEARCH:SEARCH<x>:TRIGger:A:LOGIc:P A Ttern:INPut:CH<x> Sets or retu rns the logic criteria for a logic pattern trigger search to determine w h e r et op l a c eam a r[...]

  • Seite 378

    Commands Listed in A lphabetical Order SEARCH:SEARC H<x>:TRIGger:A:LOGIc:P A Ttern:INPut:MA TH Sets or returns the Boolean logic criteria for a logic pattern trigger search to determine where to place a mark. <x> is the search number . Group Search Syntax SEARCH:SEARCH <x>:TRIGger: A:LOGIc:PATtern: INPut:MATH {HIGH|LOW|X} SEARCH:S[...]

  • Seite 379

    Commands Listed in Alphabetical Order Syntax SEARCH:SEARCH <x>: TRIGger:A:LO GIc:PATtern:WHEn {TRUe|FALSe|L ESSThan|Than| EQUal|UNEQual} SEARCH:SEARCH <x>:TRIGger:A :LOGIc:PATtern: WHEn? Arguments TRUe places a mark when the pa ttern becomes true. FALSe places a mark w hen the pattern becomes fal se. LESSThan places a ma rk if the speci[...]

  • Seite 380

    Commands Listed in A lphabetical Order Group Search Syntax SEARCH:SEARCH <x>:TRIGger: A:LOGIc:PATtern: WHEn:MORELimit <NR3> SEARCH:SEARCH <x>:TRIGger: A:LOGIc:PATtern: WHEn:MORELimit? Arguments <NR3> speci fi es the minimum amount of time to hold the pattern true. SEARCH:SEARCH<x>:TRIGger:A:LOGIc:THReshold:CH<x>[...]

  • Seite 381

    Commands Listed in Alphabetical Order SEARCH:SEARC H<x>:TRIGger:A:LOGIc:THReshold: REF<x> Sets or returns the reference waveform t hr eshold level for a logic trigger search to determine where to place a mark. SEARCH< x> is the search numb er and REF<x> is the refere nce channel number . Group Search Syntax SEARCH:SEARCH <[...]

  • Seite 382

    Commands Listed in A lphabetical Order SEARCH:SEARC H<x>:TRIGger:A:LOW erthreshold:REF<x> Sets or returns the reference waveform l ower threshold to determine where to place a mark. This setting is applied to a ll reference searches that use a lower threshold. SEARCH<x> is the search number and REF<x> is the reference channe[...]

  • Seite 383

    Commands Listed in Alphabetical Order Arguments CH<x> speci fi es one input channel as the edge so urce, where <x> = 1, 2, 3 or 4. MATH speci fi es the math waveform as the search so urce. REF speci fi es the reference waveform as the search s ource. SEARCH:SEARCH<x>:TRIGger:A:PULSEW idth:WHEn Sets or returns the condition for [...]

  • Seite 384

    Commands Listed in A lphabetical Order SEARCH:SEARC H<x>:TRIGger:A:RUNT :POLarity Sets or returns the polarity setting for a runt trigger search to determine where to place a mark. <x> is the search number . Group Search Syntax SEARCH:SEARCH <x>:TRIGger: A:RUNT:POLarity {EITher|NEGat ive|POSitive } SEARCH:SEARCH <x>:TRIGger:[...]

  • Seite 385

    Commands Listed in Alphabetical Order Group Search Syntax SEARCH:SEARCH <x>:TRIGger:A :RUNT:WHEn {LESSthan|tha n|EQual|UNEQu al|OCCURS} SEARCH:SEARCH <x>:TRIGger:A :RUNT:WHEn? Arguments OCCURS argument speci fi es a trigger event if a runt of any detecta ble width occurs. LESSthan argument sets the oscilloscope to tri gger if the a run[...]

  • Seite 386

    Commands Listed in A lphabetical Order Syntax SEARCH:SEARCH <x> :TRIGger:A:SE THold:CLOCk:EDG E {FALL|RISe} SEARCH:SEARCH <x>:TRIGger: A:SETHold:CLOCk: EDGE? Arguments FALL speci fi es polarity as the clock falling edge. RISe speci fi es polarity as the clock rising edge. SEARCH:SEARCH<x> :TRIGger:A:SETHold:CLOCk:SOUrce Sets or [...]

  • Seite 387

    Commands Listed in Alphabetical Order SEARCH:SEARC H<x>:TRIGger:A:SETHold: DA T a:SOUrce Sets or returns the data source setting for an setup/hold trigger search to determine w h e r et op l a c eam a r k . < x >i st h es e a r c h number . Y o u cannot specify the same source for bo th clock and data. Group Search Syntax DPO Models: SE[...]

  • Seite 388

    Commands Listed in A lphabetical Order Arguments TTL speci fi es a p reset TTL hi gh level of 1.4 V . <NR3> is the clock level, in volts. SEARCH:SEARCH<x>:TRIGger:A:SETHold:HOLDT ime Sets or returns the hold time setting for an setup/hold trigger search to determine where to place a ma rk. <x> is t he search number . Group Search[...]

  • Seite 389

    Commands Listed in Alphabetical Order Syntax SEARCH:SEARCH <x>: TRIGger:A:SE THold:THReshold: CH<x> <NR3> SEARCH:SEARCH <x>:TRIGger:A :SETHold:THResh old:CH<x>? Arguments <NR3> is the lower threshold in volts. SEARCH:SEARCH<x>:TRIGger:A:SETHold: THReshold{:MA TH|:MA TH1} Sets or returns the trigger search s[...]

  • Seite 390

    Commands Listed in A lphabetical Order SEARCH:SEARC H<x>:TRIGger:A{:TRANsition|:RISEFall }:DEL T atime Sets or returns the transition time s e tting for an transition trigger search to determine where to place a mark.<x> is the se arch number . Group Search Syntax SEARCH:SEARCH <x>:TRIGger: A{:TRANsition|:R ISEFall}:DELTati me <[...]

  • Seite 391

    Commands Listed in Alphabetical Order SEARCH:SEARCH <x>: TRIGger:A{:T RANsition|:RISEF all}:SOUrce? Arguments CH1–CH4 speci fi es one input channel as the edge source. MATH speci fi es the math waveform as the search so urce. SEARCH:SEARCH<x>:TRIGger:A{:T RANsition|:RISEFal l}:WHEn Sets or returns the condition setting for an transi[...]

  • Seite 392

    Commands Listed in A lphabetical Order set with the SEA RCH:SEARCH<x>:TRIGger:A: LOW erthreshold:CH<x> and SEARCH:SEARCH<x>:TRIGger :A:UPPerthreshold:CH<x> commands. PULSEWIdth tr iggers when a pulse is found that has the speci fi ed polarity and is either inside or outside the limits as speci fi ed by SEARCH:SEARCH<x&g[...]

  • Seite 393

    Commands Listed in Alphabetical Order SEARCH:SEARC H<x>:TRIGger:A:UPPerthreshol d:REF<x> Sets or returns the reference waveform u ppe r threshold to determine where to place a mark. This setting is applied to all re ference waveform searches that uses an upper thre shold. SEARCH<x> is the search number and REF< x> is the ref[...]

  • Seite 394

    Commands Listed in A lphabetical Order Syntax SELect:BUS<x> {< NR1>|OFF|ON} SELect:BUS<x> ? SELect:CH<x> T u rns the display of t he channel <x> wa veform on or off, where < x > is the channel number . This command also rese ts the acquisition. The query returns whether the channel is on or of f but does not indi[...]

  • Seite 395

    Commands Listed in Alphabetical Order MATH speci fi es t he math wave form as the waveform that is affected by the front-panel controls. BUS<x> speci fi es a bus waveform as the waveform af fected by the front-panel controls. <x> speci fi es the b us number . Returns NONE if all t he chan nels are turne d off. NONE is ignored on inpu[...]

  • Seite 396

    Commands Listed in A lphabetical Order SELect:MA TH[ 1] T urns on and off the display of the math waveform. The query returns whether the math waveform is on or off but does not indicate whether it is t he selected waveform. Group V ertical Syntax SELect:MATH[1 ] {ON|OFF|<N R1>} SELect:MATH[1 ]? Arguments ON turns on the display of the speci [...]

  • Seite 397

    Commands Listed in Alphabetical Order Examples SELECT:REF2 ON turns the channel 2 waveform disp lay on, and selects reference waveform 2. SELECT:REF2? might return :SELECT:R EF2 1 indicating that reference waveform 2 is being displayed. SET? (Query Only) Returns the commands tha t list the oscilloscope s ettings except for con fi guration informat[...]

  • Seite 398

    Commands Listed in A lphabetical Order 0.0000;CH4 0.0 000;: TRIGGER:A:LO GIC:INPUT:CH1 X;CH2 X;CH3 X;CH4 X;CLOCK :SOURCE NONE ;EDGE RISE;:TRIGGER :A:LOGIC:PAT TERN:INPUT:CH1 X ;CH2 X;CH3 X;CH4 X;:TRIG GER:A :LOGIC:PA TTERN:WHEN TRUE;WHEN:LES SLIMIT 4.0000E- 9;LIMIT 4.0000E-9;: TRIGGER:A :SETHOLD:CLOC K:SOURCE CH1;ED GE RISE;THRESHOLD 20.0000E-3 ;:T[...]

  • Seite 399

    Commands Listed in Alphabetical Order SETUP<x>:TIM E? (Query Only) Returns the time when the oscilloscope setup was saved for the speci fi ed channel <x>. Group Save and Recall Syntax SETUP<x>:TIME ? Examples SETUP2:TIME? might return “SE TUP2:TIME: 1 5:24:07 which is the setup time for channel 2. *SRE The *SRE (Service Request[...]

  • Seite 400

    Commands Listed in A lphabetical Order Group Status and Erro r Syntax *STB? Related Commands *CLS , DESE , *ESE , *ESR? , EVENT? , EVMsg? , FA C t o r y , *SRE Returns <NR1> Examples *STB? might return 96, showing that the SBR contains the binary value 011 00000. TEKSecure (No Query Form) This command initializes both waveform and setup memor[...]

  • Seite 401

    Commands Listed in Alphabetical Order Examples TEKSECURE init ializes both waveform and setup memories. This is a program example of how to generate an SRQ when TEKSE CURE completes: # Bit 0 of the DESE (Device Event St atus Enable Regist er) # enables OP C to b e reported to t he SESR (Standa rd Event # Status Register) DESE 255 # Bit 0 of the ESE[...]

  • Seite 402

    Commands Listed in A lphabetical Order TOT aluptime? (Query Only) This command returns the total number of hours that the oscilloscope has been powered on since the nonvolatile memory was last programmed (usually since the initial manu facturing process). Group Miscellaneous Syntax TOTaluptime? *TRG (No Query Form) Performs a group execute trigger [...]

  • Seite 403

    Commands Listed in Alphabetical Order TRIGger:A Sets the A trigger level automatically to 50% of the range of the minimum and maximum values of the trigger input signal. The query returns current A trigger parameters. The trigger level is the vo ltage threshold through which t he trigger source signal must pass to generate a trigger event. This com[...]

  • Seite 404

    Commands Listed in A lphabetical Order OCCURS;WIDTH 4 .0000 E-9;:TRIGGER :A:TRANSITION:SO URCE CH1;POLARITY POSITIVE;WHE N SLOWER;DEL TATIME 4.0000E-9;:TR IGGER:A:VIDE O :POLARITY POSI TIVE;SOURCE CH1;STANDARD NTS C;SYNC ALLLINES ;HOLDOFF:FIELD 0.00 00;: TRIGGER:A:VID EO:CUSTOM:FO RMAT PROGRESSIVE;SC AN RATE15K;:TRIG GER:A:VIDEO: LINE 1;H DTV:FORMA[...]

  • Seite 405

    Commands Listed in Alphabetical Order Conditions This command re quires DPO4AUDIO application module. Group Tr i g g e r Syntax TRIGger:A:BUS :B<1-4>:AUDio :CONDition {SOF |DATA} TRIGger:A:BUS :B<1-4>:AUDio :CONDition? Arguments SOF enables triggering on the start of frame. DATA enables triggering o n matching data. TRIGger:A:BUS:B<1[...]

  • Seite 406

    Commands Listed in A lphabetical Order TRIGger:A:BU S:B<1-4>:AUDio:DA T a:QUALi fi er Sets or returns the trigger data quali fi er for the AUDIO bus . Conditions This command requires D PO 4AUDIO application module. Group T rigger Syntax TRIGger:A:BUS :B<1-4>:AUDi o:DATa:QUALifier {LESSThan|MOR EThan|EQUal| UNEQual|LESSEQua l|MOREEQua[...]

  • Seite 407

    Commands Listed in Alphabetical Order TRIGger:A:BU S:B<1-4>:AUDio:DA T a:WORD Sets or returns the trigger data alignment for the AUDIO bus. Conditions This command requires DPO 4AUDIO application module. Group Tr i g g e r Syntax TRIGger:A:BUS :B<1-4>:AUDio :DATa:WORD {EIT her|LEFt|RIGht} TRIGger:A:BUS :B<1-4>:AUDio :DATa:WORD? Ar[...]

  • Seite 408

    Commands Listed in A lphabetical Order Examples TRIGGER:A:BUS :B1 :CAN:CONDITIO N? might return :TRIGGER:A:BUS:B1: CAN:CONDITION EOF indicating an end of fi le condition. TRIGGER:A:BU S:B1 :CAN:CONDITIO N DATA enables triggering on matching CAN data. TRIGger:A:BUS:B<x>:CAN:DA T a:DIRection Sets or returns the CAN trigger data direction to be[...]

  • Seite 409

    Commands Listed in Alphabetical Order Arguments LESSThan sets t he oscilloscope to trigger when the data is less than the quali fi er value. Than sets the oscilloscope to trigger when the data is than the quali fi er value. EQUal sets the oscilloscope t o trigger when the data is equal to the quali fi er value. UNEQual sets the oscilloscope to t[...]

  • Seite 410

    Commands Listed in A lphabetical Order Group T rigger Syntax TRIGger:A:BUS :B<x>:CAN:DA Ta:VALue <QStrin g> TRIGger:A:BUS :B<x>:CAN:DA Ta:VALue? Arguments <QString> is the CAN data value in binary format. The only allowed characters in the QString a r e0 ,1 ,a n dX . Examples TRIGGER:A:BUS :B1:CAN:DATA :VALUE 1011 sets the C[...]

  • Seite 411

    Commands Listed in Alphabetical Order T rigger on ID Tr i g g e r in IDANDDA T A Conditions This command requires a DPO4AUTO application module. Group Tr i g g e r Syntax TRIGger:A:BUS :B<x>:CAN{:ID entifier|:ADDRe ss}:MODe {STandard|EXT ended} TRIGger:A:BUS :B<x>:CAN{:ID entifier|:ADDRe ss}:MODe? Arguments STandard speci fi es the s t[...]

  • Seite 412

    Commands Listed in A lphabetical Order Syntax TRIGger:A:BUS :B< x>:FLEXray:CO NDition {SOF|FRAMETyp e|IDentifier |CYCLEcount|HEAD er|DATA|IDANDDAT A|EOF|ERROR} TRIGger:A:BUS :B<x>:FLEXra y:CONDition? Arguments SOF sets the FLEXRA Y trigger co ndition to start of frame. FRAMEType sets the FLEXRA Y trigger condition to frame type. IDentif[...]

  • Seite 413

    Commands Listed in Alphabetical Order TRIGGER:A:BUS :B1: FLEXRAY:CYCL ECOUNT:HIVALUE? might return TRIGGER:A:BUS :B1:FLEXRAY:C YCLECOUNT:HIVAL UE "XXXXXX" indicating the cycle coun t high value is d on’t care. TRIGger:A:B US:B<x>:FLEXray:CYCLEcount:QUALi fi er Sets or returns the FLEXRA Y cycle count quali fi er . Group Tr i g g[...]

  • Seite 414

    Commands Listed in A lphabetical Order Syntax TRIGger:A:BUS :B< x>:FLEXray:CY CLEcount:VALue <QS tring> TRIGger:A:BUS :B<x>:FLEXra y:CYCLEcount:VAL ue? Arguments <QString> is a quoted string that is the FLEXRA Y binary data string that is the cycle count low value. Examples TRIGGER:A:BUS :B1:FLEXRAY: CYCLECOUNT:VALUE “1100[...]

  • Seite 415

    Commands Listed in Alphabetical Order Group Tr i g g e r Syntax TRIGger:A:BUS :B<x>:FLEXray :DATa:OFFSet <NR1> TRIGger:A:BUS :B<x>:FLEXray :DATa:OFFSet? Arguments <NR1> is the offset of the data string in bytes. A byte offset of -1 signi fi es don’t care, and no byte off set is used. The instrument will trigger or match a[...]

  • Seite 416

    Commands Listed in A lphabetical Order Examples TRIGGER:A:BUS :B1 :FLEXRAY:DATA :QUALIFIER L ESSTHAN sets the data quali fi er to LESSTHAN. TRIGGER:A:BU S:B1 :FLEXRAY:DATA :QUALIFIER? might return TRIGGER:A:BUS :B1:FLEXRAY: DATA:QUALIFIER EQUAL indicating the data quali fi er is EQUAL. TRIGger:A: BUS:B<x>:FLEXray:DA T a:SIZe Sets or returns[...]

  • Seite 417

    Commands Listed in Alphabetical Order Examples TRIGGER:A:BUS :B1: FLEXRAY:DATA :VALUE “1100 1101” sets the FLEXRA Y data value for triggering to 1 1001 101. TRIGGER:A:BUS :B1:FLEXRAY:D ATA:VALUE? might return TRIGGER:A:BUS :B1:FLEXRAY:D ATA:VALUE "X XXXXXXX" indicating the FLEXRA Y data value is don’ t care. TRIGger:A:BUS:B<x>[...]

  • Seite 418

    Commands Listed in A lphabetical Order SYNCFrame sets the FLEXRA Y error type for a trigger to SYNCFrame. STARTupnosync sets the FLEXRA Y error type for a trigger to ST AR T upnosync. NULLFRStatic sets the FLEXRA Y error type for a trigger to NULLFRStatic. NULLFRDynamic sets the FLEXRA Y error type for a trigger to NULLFRDynamic. Examples TRIGGER:A[...]

  • Seite 419

    Commands Listed in Alphabetical Order TRIGger:A:BUS :B<x >:FLEXray:FR AMEID:QUALifier? Arguments LESSThan sets the f rame id quali fi er to less than. MOREThan sets the frame id quali fi er to greater than. EQUal sets the frame id quali fi er to equal. UNEQual sets the frame id quali fi er to not equal. LESSEQual sets the frame id quali ?[...]

  • Seite 420

    Commands Listed in A lphabetical Order TRIGger:A:BU S:B<x>:FLEXray:FRAMET ype Sets or returns the frame type for FLEXRA Y . Group T rigger Syntax TRIGger:A:BUS :B<x>:FLEXra y:FRAMEType {NORMal|PAYLo ad|NULL|SYNC |STARTup} TRIGger:A:BUS :B<x>:FLEXra y:FRAMEType? Arguments NORMal speci fi es the normal frame type. PAYLoad speci fi[...]

  • Seite 421

    Commands Listed in Alphabetical Order TRIGGER:A:BUS :B1: FLEXRAY:HEAD ER:CRC? might return TRIGGER:A:BUS :B1:FLEXRAY:H EADER:CRC "X XXXXXXXXXX" indicating the CRC portion of the binary header string is don’ t care. TRIGger:A:B US:B<x>:FLEXray:HEADER:CYCLEcount Sets or returns the cycle count portion of the b inary header string to[...]

  • Seite 422

    Commands Listed in A lphabetical Order TRIGGER:A:BUS :B1 :FLEXRAY:HEAD ER:FRAMEID? might return TRIGGER:A:BUS :B1:FLEXRAY: HEADER:FRAMEID " XXXXXXXXXXX" indicating the frame id portion of th e binary header string are don’ t cares. TRIGger:A:B US:B<x>:FLEXray:HEADER:INDBits Sets or returns the indicator bits portion of the binary [...]

  • Seite 423

    Commands Listed in Alphabetical Order TRIGGER:A:BUS :B1: FLEXRAY:HEAD ER:PAYLENGTH? might return TRIGGER:A:BUS :B1:FLEXRAY:H EADER:PAYLENGTH "XXXXXXX" indicating the FLEXRA Y header paylength is don’t care. TRIGger:A:B US:B<x>:I2C:ADDRess:MODe Sets or returns the I 2 C address mode to 7 or 10-bit. Applies to bus <x>, where x[...]

  • Seite 424

    Commands Listed in A lphabetical Order HSmode speci fi e s a high-speed mode address. EEPROM speci fi es an EEPROM address. USER speci fi es a use r address. TRIGger:A:BUS:B<x>:I2C:ADDRess:V ALue Sets or retu rns the binary address string used for the I 2 C trigger if the trigger condition is ADDRESS or ADDRANDDA T A . Applies to bus <x[...]

  • Seite 425

    Commands Listed in Alphabetical Order Arguments STARt speci fi es a search based on start condition. STOP speci fi es a search based on stop condition. REPEATstart speci fi es a search based on repeat of start condition. ACKMISS speci fi es a search based on missing a cknowledgement condition. ADDRess speci fi es a searc h based on address. DA[...]

  • Seite 426

    Commands Listed in A lphabetical Order Conditions This comman d re quires a DPO4EMBD application module. Group T rigger Syntax TRIGger:A:BUS :B<x>:I2C:DA Ta:SIZe <NR1> TRIGger:A:BUS :B<x>:I2C:DA Ta:SIZe? Arguments <NR1> is the length of the data string in bytes. TRIGger:A:BUS:B<x>:I2C:DA T a:V ALue Sets or returns the [...]

  • Seite 427

    Commands Listed in Alphabetical Order DATA sets the LI N trigger condition to data. IDANDDATA sets the LIN trigger condition to id and data. WAKEup sets the LIN trigger condition to wake up. SLEEP sets the LIN trigger condition to sleep. ERROR sets the LIN trigger condition to error . Examples TRIGGER:A:BUS :B1:LIN:CONDI TION ERROR sets the LIN tri[...]

  • Seite 428

    Commands Listed in A lphabetical Order Syntax TRIGger:A:BUS :B< x>:LIN:DATa:Q UALifier {LESSThan|MOR EThan|EQUal| UNEQual|LESSEQua l|MOREEQual| INrange|OUTra nge} TRIGger:A:BU S:B< x>:LIN:DATa:Q UALifier? Arguments LESSThan sets the LIN data quali fi er to less than. MOREThan sets the LIN data quali fi er to greater than. EQUal sets t[...]

  • Seite 429

    Commands Listed in Alphabetical Order TRIGger:A:BU S:B<x>:LIN:DA T a:V ALue Sets or returns the binary data string to be used for LIN trigger condition if trigger condition is ID or IDANDDA T A. Group Tr i g g e r Syntax TRIGger:A:BUS :B<x>:LIN:DAT a:VALue <QStrin g> TRIGger:A:BUS :B<x>:LIN:DAT a:VALue? Arguments <QString[...]

  • Seite 430

    Commands Listed in A lphabetical Order TRIGGER:A:BUS :B1 :LIN:ERRTYPE? might return TRIGGER:A:BUS :B1:LIN:ERRT YPE SYNC indicatin g the LIN error type is SYNC. TRIGger:A:B US:B<x>:LIN:IDenti fi er:V ALue Sets or returns the binary address string used for LIN trigger if the trigger condition is ID or IDANDDA T A. Group T rigger Syntax TRIGger[...]

  • Seite 431

    Commands Listed in Alphabetical Order Conditions This command re quires a DPO4COMP application module. Group Tr i g g e r Syntax TRIGger:A:BUS :B<x>:RS232C: CONDition {RXSTArt|RXDA TA|RXENDPacke t|TXSTArt|TXDAT A|TXENDPacket} TRIGger:A:BUS :B<x>:RS232C: CONDition? Arguments RXSTArt speci fi es a search based on the RX Start Bit. RXDATA[...]

  • Seite 432

    Commands Listed in A lphabetical Order Group T rigger Syntax TRIGger:A:BUS :B<x>:RS232C :RX:DATa:VALue TRIGger:A:BUS :B<x>:RS232C :RX:DATa:VALue? Arguments <Qstring> is the binary data string to be used for the trigger . TRIGger:A:BUS:B<x>:RS232C:TX:DA T a:SIZe Sets or returns the length of the data string for an RS-232 trig[...]

  • Seite 433

    Commands Listed in Alphabetical Order TRIGger:A:BU S:B<x>:SPI:CONDition Sets or returns the trigger condition for a SPI trigger . Applies to bus <x>, where x is the bus number . Conditions This command requires a DPO4EMBD application module. Group Tr i g g e r Syntax TRIGger:A:BUS :B<x>:SPI:CON Dition {SS|STARToffr ame|MISO|MOSI |[...]

  • Seite 434

    Commands Listed in A lphabetical Order TRIGger:A:BU S:B<x>:SPI:DA T a{:OUT|:MOSI}:V ALue Sets or returns the binary data string to be used for a SPI trigger if the trigger condition is MOSI or MISOMOSI. Applies to bus <x>, where x is the bus number . Conditions This command requires a DPO4EMBD application module. Group T rigger Syntax T[...]

  • Seite 435

    Commands Listed in Alphabetical Order Syntax TRIGger:A:BUS :SOU rce {B1|B2|B3|B 4} TRIGger:A:BUS :SOUrce? Arguments B1 speci fi es the B us 1 source. B2 speci fi es the B us 2 source. B3 speci fi es the B us 3 source. B4 speci fi es the B us 4 source. TRIGger:A:EDGE? (Query Only) Returns the trigger source, coupling, and s lope for the A edge t[...]

  • Seite 436

    Commands Listed in A lphabetical Order LFRej speci fi es low-frequency rejection coupling, which attenuates signals below 50 kHz before passing the signals to the trigger circuitry . NOISErej speci fi es noise-rejection coupling, whic h provides stable triggering by increasing the trigger hystere sis. In crease d hysteresis reduces the trigger se[...]

  • Seite 437

    Commands Listed in Alphabetical Order TRIGger:A:EDG E:SO Urce? Related Commands TRIGger:A:EDGE:SLOpe , TRIGger:A:EDGE:COUPling Arguments CH1–CH4 speci fi es an analog input channel as the A edge trigger source. D0–D15 speci fi es a digi tal cha nnel as the source (MSO m odels only). EXT speci fi es an external trigger using the Aux In connec[...]

  • Seite 438

    Commands Listed in A lphabetical Order Syntax TRIGger:A:HOL Dof f:TIMe <NR3> TRIGger:A:HOL Doff:TIMe? Arguments <NR3> speci fi es the holdoff time in seconds. The range is from 20 ns through 8.0 s. Examples TRIGGER:A:HOL DOFF:TIME ? might return :TRIGGER:A:H OLDOFFTIME 1.2000E-06 indicating that the A trigger holdoff time is set to 1.2[...]

  • Seite 439

    Commands Listed in Alphabetical Order Arguments <NR3> speci fi es the trigger level, in volts. ECL speci fi es a preset ECL trigger level of –1.3V . TTL speci fi es a preset TTL trigger level of 1.4V . Examples TRIGGER:A:LEV EL:AUXIN E CL sets the auxiliary input trigger level to -1.3 volts. TRIGGER:A:LEV EL:AUXIN? migh t retur n TRIGGER[...]

  • Seite 440

    Commands Listed in A lphabetical Order Arguments ECL speci fi es a p reset ECL high level of –1.3V . TTL speci fi es a preset TTL high level of 1.4V . <NR3> speci fi es the trigger level in volts. TRIGger:A:LOGIc? (Query Only) Returns all of the A logic trigger parameters. Group T rigger Syntax TRIGger:A:LOG Ic? Related Commands TRIGger:[...]

  • Seite 441

    Commands Listed in Alphabetical Order 3 , a n d4a r e m e to n four -channel oscilloscopes. On two-channel oscilloscopes, only channel 1 and channel 2 are available. When the TRIGger:A:LOGIc:INPut:CLOCk:SOUrce is set to one of the channels, LOGIC sets the oscilloscope to t rigger when the speci fi ed logical combinations of the remaining channels [...]

  • Seite 442

    Commands Listed in A lphabetical Order TRIGger:A:LO GIc:INPut? (Query Only) Returns the logic input values for all channels. If a clock channel is de fi ned, it returns the clock source and edge. Group T rigger Syntax TRIGger:A:LOG Ic:INPut? Examples TRIGGER:A:LOG IC:INPUT? migh t return :TR IGGER:A:LOGIC:IN PUT:CH1 HIGH;CH2 X;CH 3 X indicating th[...]

  • Seite 443

    Commands Listed in Alphabetical Order Syntax TRIGger:A:LOG Ic:I NPut:CLOCk:E DGE {FALL|RISe} TRIGger:A:LOG Ic:INPut:CLOC k:EDGE? Arguments RISe speci fi es to trigger on the rising or positive edge of a signal. FALL speci fi es to trigger on the falling or negative edge of a signal. TRIGger:A:LOGIc:INPut:CLOCk:SOUrce Sets or returns the channel t[...]

  • Seite 444

    Commands Listed in A lphabetical Order TRIGger:A:LO GIc:P A Ttern? (Query Only) Returns the conditions used for generating a n A logic pattern trigger , with respect to the de fi ned input pattern, and identi fi es the time that the selected pattern may be true and st ill generate the trigger . Group T rigger Syntax TRIGger:A:LOG Ic:PATtern? Exam[...]

  • Seite 445

    Commands Listed in Alphabetical Order Group Tr i g g e r Syntax TRIGger:A:LOG Ic:PATtern:IN Put:D<x> {HIGH|LOW |X} TRIGger:A:LOG Ic:PATtern:IN Put:D<x>? Arguments HIGH speci fi es a logic high. LOW speci fi es a logic low . X speci fi es a “do not care” state. TRIGger:A:LOGIc:P A Ttern:WHEn Sets or returns the pattern logic condi[...]

  • Seite 446

    Commands Listed in A lphabetical Order TRIGger:A:LO GIc:P A Ttern: WHEn:LESSLimit Sets or returns the maximum time that the selected pattern may be true and still generate an A logic pattern trigger . Group T rigger Syntax TRIGger:A:LOG Ic:PATtern:W HEn:LESSLimit <NR3> TRIGger:A:LOG Ic:PATtern:W HEn:LESSLimit? Arguments <NR3> speci fi [...]

  • Seite 447

    Commands Listed in Alphabetical Order TRIGger:A:LO GIc:THReshold:CH<x> This command sets or queries the trigger A logic threshold voltage for the speci fi ed channel x. Group Tr i g g e r Syntax TRIGger:A:LOG Ic:THReshold: CH<x> {<NR3>|ECL|T TL} TRIGger:A:LOG Ic:THReshold: CH<x>? Arguments <NR3> speci fi es the thres[...]

  • Seite 448

    Commands Listed in A lphabetical Order TRIGger:A:LO Werthreshold:CH<x> Sets or returns the lower threshold for the channel selected. Each channel can have an independent level. Used in Runt and Slew Rate triggers as the lower threshold. U sed for all other trigger types as the single level/threshold. Group T rigger Syntax TRIGger:A:LOW erthre[...]

  • Seite 449

    Commands Listed in Alphabetical Order Examples TRIGGER:A:LOW ERTH RESHOLD:D1 0.5 sets the lower thresh old to 0.5 volts. TRIGGER:A:LOW ERTHRESHOLD:D 1? might return TRIGGER:A:LOW ERTHRESHOLD:D 1 -1.3000 indicating the lower threshold is set to -1.3 volts. TRIGger:A:LOW erthreshold{:EXT|:AUX} Sets or returns the lower threshold for t he Auxiliary In[...]

  • Seite 450

    Commands Listed in A lphabetical Order TRIGger:A:PU Lse? (Query Only) Returns the A pulse trigger parameters. Group T rigger Syntax TRIGger:A:PUL se? Related Commands TRIGger:A:EDGE? , TRIGger:A:LOGIc? Examples TRIGGER:A:PUL SE? might return :TRIGGER:A:PU LSE:CLASS TRANSITI ON TRIGger:A:PULse:CLAss Sets or returns the type of pulse on which to trig[...]

  • Seite 451

    Commands Listed in Alphabetical Order TRIGger:A:PU LSEWIDth? (Query Only) Returns the width parameters for the pulse width trigger . Group Tr i g g e r Syntax TRIGger:A:PUL SEWIDth? Examples TRIGGER:A:PUL SEWIDTH? might return :TRIGGER:A:PU LSEWIDTH:POLA RITY POSITIVE;W HEN LESSTHAN;WID TH 8.0000E-9 TRIGger:A:PULSEWidth:POLarity Sets or returns the[...]

  • Seite 452

    Commands Listed in A lphabetical Order Arguments CH1–CH4 speci fi es an analog input channel as the A ed ge trigger source. EXT speci fi es an external trigger using the Aux In connector located on the front panel of the os cilloscope. LINE speci fi es AC line voltage. Examples TRIGGER:A:PUL SEWIDTH:SOUR CE CH1 sets channel 1 as the pulse widt[...]

  • Seite 453

    Commands Listed in Alphabetical Order TRIGger:A:PU LSEWidth:WIDth Sets or returns the width setting for the pulse width trigger . Group Tr i g g e r Syntax TRIGger:A:PUL SEWidth:WIDth <N R3> TRIGger:A:PUL SEWidth:WIDth ? Related Commands TRIGger:A:PULSEW idth:WHEn Arguments <NR3> speci fi es the pulse width in seconds. Examples TRIGGER[...]

  • Seite 454

    Commands Listed in A lphabetical Order Arguments POSitive indic ates that the rising edge crosses th e low threshold and the falling edge recrosses the low threshold without either edge ever crossing the high threshold. NEGative indicates that the falling edge crosses the high threshold and the rising edge recrosses the high threshold without eithe[...]

  • Seite 455

    Commands Listed in Alphabetical Order Related Commands TRIGger:A:RUN T: W I D t h Arguments OCCURS argument speci fi es a trigger event if a runt of any detecta ble width occurs. LESSthan argument sets the oscilloscope to tri gger if the a runt pulse is detected with width less than the time set by the TRIGger:A:RUNT :WIDth command. than argument [...]

  • Seite 456

    Commands Listed in A lphabetical Order TRIGger:A:SE THold? (Query Only) Returns the clock edge polarity , voltage threshold and source input; data voltage threshold and source; and b oth setup and hold times for setup and hold violation triggering. Group T rigger Syntax TRIGger:A:SET Hold? Examples TRIGGER:A:SET HOLD? might return :TRIGGER:A:SE THO[...]

  • Seite 457

    Commands Listed in Alphabetical Order Arguments FALL speci fi es p olarity as the clock falling edge. RISe speci fi es polarity as the clock rising edge. Examples TRIGGER:A:SET HOLD:CLOCK:ED GE RISE spec i fi es the polarity as the clock rising edge. TRIGGER:A:SET HOLD:CLOCK:ED GE? might return :TRIGGER:A:SET HOLD: CLOCK:EDGE RISE indicating tha[...]

  • Seite 458

    Commands Listed in A lphabetical Order Syntax TRIGger:A:SET Hol d:CLOCk:THRes hold {<NR3>|TTL } TRIGger:A:SET Hold:CLOCk:T HReshold? Arguments TTL speci fi es a preset TT L high level o f 1.4 V . <NR3> is the clock level, in volts. Examples TRIGGER:A:SET HOLD:CLOCK:T H RESHOLD TTL speci fi es the preset TTL value of 1.4 V as the clock[...]

  • Seite 459

    Commands Listed in Alphabetical Order Syntax DPO Models: TRIGger:A:SET Hold:DATa:SOU rce <wfm> MSO Models: TRIGger:A:SET Hold:DATa:SOU rce <wfm>[,<wfm>] [,< wfm>] [,<wfm>] [,<w fm>] [,<wfm> ] [,<wfm>] [,<wf m>] [,<wfm>] [,<wfm>] [,<w fm>] [,<wfm> ] [,<wfm>] [,<wf[...]

  • Seite 460

    Commands Listed in A lphabetical Order TRIGGER:A:SET HOL D:DATA:THRESH OLD? might return :TRIGGER:A:SE THOLD:DATA:T HRESHOLD 1.20 00E+00 indicating that 1.2 V is the current data voltage level for the setup and hold trigger . TRIGger:A:S ETHold:HOLDT ime Sets or returns the hold time for setup and hold violation triggering. Group T rigger Syntax TR[...]

  • Seite 461

    Commands Listed in Alphabetical Order TRIGger:A:SE THold:THReshold:CH<x> Sets or queries the threshold for the channel speci fi ed by x. Affects all trigger types using the channel. Group Tr i g g e r Syntax TRIGger:A:SET Hold:THReshol d:CH<x> {<NR3>| ECL|TTL} TRIGger:A:SET Hold:THReshol d:CH<x>? Arguments <NR3> speci[...]

  • Seite 462

    Commands Listed in A lphabetical Order Examples TRIGGER:A:SET HOL D:THRESHOLD:D 1 ECL sets the threshold to ECL levels. TRIGGER:A:SET HOLD:THRESHO LD:D1? might return TRIGGER:A:SE THOL D:THRESHOLD:D 1 -1.3000 indicating the threshold is set to -1.3 volts. TRIGger:A{:TRANsition|:RISEFall}? (Query Only) Returns transition time trigger parameters. Gro[...]

  • Seite 463

    Commands Listed in Alphabetical Order TRIGger:A{:T RANsition|:RISEFall}:POLarity Sets or returns the polarity for the transition trigger . Group Tr i g g e r Syntax TRIGger:A{:TR ANsition|:RIS EFall}:POLarity {EITher|NEGat ive|POSitive} TRIGger:A{:TR ANsition|:RIS EFall}:POLarity ? Arguments POSitive indicates that a pulse e dge must traverse from [...]

  • Seite 464

    Commands Listed in A lphabetical Order TRIGger:A{:T RANsition|:RISEFall}:WHEn Sets or returns whether to check for a tran sitioning signal that is faster or slower than the speci fi ed delta time. Group T rigger Syntax TRIGger:A{:TR ANsition|:RI SEFall}:WHEn {SLOWer|FASTe r|EQual|UNEQ ual} TRIGger:A{:TR ANsition|:RI SEFall}:WHEn? Arguments FASTer [...]

  • Seite 465

    Commands Listed in Alphabetical Order Arguments EDGe is the defa ult trigger . A trigger event occurs when a signal passes through a speci fi ed voltage level in a speci fi ed direction and is controlled by the TRIGger:A:EDGE? commands. LOGic speci fi es that a t rigger occurs when speci fi ed conditions are met and is c o n t r o l l e db yt h[...]

  • Seite 466

    Commands Listed in A lphabetical Order TRIGger:A:VI Deo? (Query Only) Returns the A trigger video parameters. Group T rigger Syntax TRIGger:A:VID eo? Examples TRIGGER:A:VID EO? might return :TRIGGER:A: VIDEO:POLARITY POSITIVE;SOUR CE CH1;STANDARD NT SC;SYNC ALLLINES;HOLD OFF:FIELD 0.000 0;:TRIGGER:A:VID EO:CUSTOM:FORMA T PROGRESSIVE;S CANRATE15K;: [...]

  • Seite 467

    Commands Listed in Alphabetical Order TRIGger:A:VI Deo:CUST om:LINEPeriod Sets or queries the line period for the sta ndard under test. Use this command only when the video format is set to custom. Conditions This command requires a DPO4VID application module. Group Tr i g g e r Syntax TRIGger:A:VID eo:CUSTom:LIN EPeriod <NR3> TRIGger:A:VID e[...]

  • Seite 468

    Commands Listed in A lphabetical Order RATE50 sets the range of the video line scan rate to 50 kHz through 65 kHz Examples TRIGGER:A:VID EO:CUSTOM:SC AN RATE15 sets the scan rate of the A trigger custom video to Rate 1, which is 15 kHz t o 20 kHz (standard broadcast rate). TRIGGER:A:VID EO:CUSTOM:SC AN? might return :TRIGGER:A:VIDEO: CUSTOM:SCAN RA[...]

  • Seite 469

    Commands Listed in Alphabetical Order Syntax TRIGger:A:VID eo:H Dtv:FORMat {HD1080P24|HD 720P60|HD480P 60|HD1080I50|HD 1080P25| HD1080I60|HD1 080PSF24} TRIGger:A:VI Deo:H Dtv:FORMat? Arguments T able 2 -42: A vailable HDTV formats HDTV format Description 1080i50 1 125 Lines (1080 active), 1920 x 1080 pixel, interlaced, 60 fps 1080i60 1 125 lines (1[...]

  • Seite 470

    Commands Listed in A lphabetical Order TRIGGER:A:VID EO: HOLDOFF:FIELD 4.5 sets the oscilloscope to wait 4.5 video fi elds before rearming the trigger . TRIGger:A:VIDeo:LINE Sets or returns the video line number on which the oscilloscope triggers. Use the TRIGger:A:VIDeo{:SYNC|:FIELD} command to actually trigger the oscilloscope on the line that y[...]

  • Seite 471

    Commands Listed in Alphabetical Order Group Tr i g g e r Syntax TRIGger:A:VID eo:POLarity { NEGative|POSiti ve} TRIGger:A:VID eo:POLarity? Arguments POSitive argument sets the oscilloscope to trigger on a positive video sync pulse. NEGative argument sets the oscilloscope to trigger on a negative video sync pulse. Examples TRIGGER:A:VID EO:POLARITY [...]

  • Seite 472

    Commands Listed in A lphabetical Order Syntax TRIGger:A:VID eo: STANdard {NTSc| PAL|SECAM|CUSTom |HDtv} TRIGger:A:VID eo:STANdard? Arguments NTSc sets the oscilloscope to trigger on video signals that meet the NTSC 525/60/2:1 standard (a line rate of 525 lines per frame and a fi e l dr a t eo f6 0H z ) . PAL sets the oscilloscope to trigger o n vi[...]

  • Seite 473

    Commands Listed in Alphabetical Order Examples TRIGGER:A:VID EO:F IELD EVEN sets the A video trigger so that it will trigger on even fi elds. TRIGGER:A:VI DEO:F IELD? might return :TRIGGER: A:VIDEO:FIELD ALLFIELDS indicating that the A video will trigger on all video fi elds. TRIGger:B Sets the B trigger level to 50% of minimum and maximum. The q[...]

  • Seite 474

    Commands Listed in A lphabetical Order Arguments EVENTS sets the B trigger to take place following a set number of trigger events after the A trigger occurs. The number of events is speci fi ed by TRIGger:B: EVENTS :COUNt. TIMe sets the B trigger to occur a set time a fter the A trigger event. The time period is speci fi ed by TRIGger:B: TIMe . E[...]

  • Seite 475

    Commands Listed in Alphabetical Order Arguments DC selects DC tr igger coupling. HFRej selects high-frequency reject coupling. LFRej selects low-frequency reject couplin g. NOISErej selects DC low sensitivity . Examp les TRIGGER:B:EDG E:COUPLING DC selects DC for the B trigger coupling. TRIGGER:B:EDG E:COUPLING? might return :T RIGGER:B:EDGE:C OUPL[...]

  • Seite 476

    Commands Listed in A lphabetical Order Related Commands TRIGger:B:EDG E? Arguments CH<x> speci fi es one of the input channels as the B trigger sou rce. EXT speci fi es an external trigger (using the Aux In connector , located on the front panel of the oscilloscope) as the B trigger source. LINE speci fi es the power line as the B trigger [...]

  • Seite 477

    Commands Listed in Alphabetical Order Related Commands TRIGger:B:EVE NTS? Arguments <NR1> is the number of B trigger events, which can range from 1 to 10,000,000. Examples TRIGGER:B:EVE NTS:COUNT 4 speci fi es that the B trigger w ill occur four trigger events after the A trigger . TRIGGER:B:EVE NTS:COUNT? might return :TRIGG ER:B:EVENTS:COU[...]

  • Seite 478

    Commands Listed in A lphabetical Order Arguments ECL speci fi es a p reset ECL high level of –1.3V . TTL speci fi es a preset TTL high level of 1.4V . <NR3> speci fi es the trigger level in user units (usually volts). Examples TRIGGER:B:LEV EL:CH2? might return :TRIG GER:B:LEVEL:CH2 1.3000E+00 indicating that the B edge trigger is set to[...]

  • Seite 479

    Commands Listed in Alphabetical Order <NR3> is the thr eshold level, in volts. TRIGger:B:LOWerthreshol d:D<x> Sets or queries the lower threshold for the digital channel selected . Each channel can have an independent level. Used in runt and slew rate as the lower threshold. Used for all other trigger types as the single level/threshold[...]

  • Seite 480

    Commands Listed in A lphabetical Order <NR1> a0t u r n so ff the B trigger; any other value activates the B trigger . Examples TRIGGER:B:STA TE ON sets the B trigger to active, making it capable of causing trigger even ts. TRIGGER:B:STA TE? might return :TRIGGER :B:STATE 0 indicating that the B trigger is inactive and that only the A trigger [...]

  • Seite 481

    Commands Listed in Alphabetical Order Examples TRIGGER:B:TYP E EDGE sets the B trigger type to edge. TRIGGER:B:TYP E? might return :TRIGGER:B:TYPE ED GE . TRIGger:B:UPPerthreshold:CH<x> Sets the upper thresho ld for the channel selected. Each channel can have an independent level. Group Tr i g g e r Syntax TRIGger:B:UPP erthreshold:C H<x&g[...]

  • Seite 482

    Commands Listed in A lphabetical Order TRIGger:EXT e rnal:YUNIts? (Query Only) Returns the external trigger vertical (Y) units value. Group T rigger Syntax TRIGger:EXTer nal:YUNIts? Examples TRIGGER:EXTER NAL:YUNITS? might return TRIGGE R:EXTERNAL:YUNIT S “V” if the vertical unit is volts. TRIGger:FREQuency? (Query Only) Returns the trigger fre[...]

  • Seite 483

    Commands Listed in Alphabetical Order READY indicate s that all pretrigger information has been ac quired and that the oscilloscope is ready to accept a trigger . SAVE indicates that the oscilloscope is in save mode and is not acquiring data. TRIGGER indicates that the oscilloscope trigge red and is acquiring the post trigger information. Examples [...]

  • Seite 484

    Commands Listed in A lphabetical Order Group PictBridge Syntax USBDevice:CON Figure {DISable d|IMAge|USBTmc} USBDevice:CON Figure? Arguments DISabled disables the rear USB port. IMAge enables the rear USB port as an SIC device. USBTmc enables the rear USB port as a USBTMC device. Examples USBDEVICE:CON FIGURE IMAGE enables the rear USB port as an S[...]

  • Seite 485

    Commands Listed in Alphabetical Order USBTMC:PRODU CTID:HEXadecimal? (Query Only) This query to returns the USBTMC product ID. The product ID numbers vary for each instrument family and model. Group Miscellaneous Syntax USBTMC:PRODUC TID:HEXadecim al? Related Commands USBTMC:PRODUCTID:DECimal? , USBTMC:SERIALnumber? , USBTMC:VENDORID:DECimal? , USB[...]

  • Seite 486

    Commands Listed in A lphabetical Order Related Commands USBTMC:PRODUC TID:DECimal? , USBTMC:PRODUCTID:HEXadecimal? , USBTMC:SERIALnumber? , USBTMC:VENDORID:HEXadecimal? Examples USBTMC:VENDOR ID:DECIMAL? might return USBTMC :VENDORID:DECIMA L 1689 , indicating the vendor ID in decimal is 1689. USBTMC:VENDORID:HEXadecimal? (Query Only) This query re[...]

  • Seite 487

    Commands Listed in Alphabetical Order Arguments OFF sets the V er bose state to false, which retur ns minimum-length keywords for applicable setting queries. ON sets the V erbose state to true, which retu rns full-length keywords for applicable setting queries. <NR1> a 0 returns minimum-length keywords for applicable setting queries; any othe[...]

  • Seite 488

    Commands Listed in A lphabetical Order Related Commands CUR V e , DA T a:SO Urce , WFMOutpre? Examples WAVFRM? might return the waveform data as: :W FMOUTPRE:BYT_NR 1;BIT_NR 8;EN CDG ASCII;BN _FMT RI;BYT_OR MSB;WFID “Ch1, DC coupling, 100 .0mV/div, 4.000 us/div, 10000 points, Sample mode ”;NR_PT 20;P T_FMT Y;XUNIT “s”;XINCR 4.0000 E-9;XZERO[...]

  • Seite 489

    Commands Listed in Alphabetical Order Arguments <NR1> number of bits per data p oint can be 8 or 16. Examples WFMINPRE:BIT_ NR 16 sets the number of bits per wavefo rm point to 16, for incoming data. WFMINPRE:BIT_ NR? might re turn :WFMINPRE: BIT_NR 8 indicating that incoming waveform data uses 8 bits per waveform point. WFMInpre:BN_Fmt Sets [...]

  • Seite 490

    Commands Listed in A lphabetical Order Arguments <NR1> is the num ber of bytes per data point and can be 1 or 2. Examples WFMINPRE:BYT_ NR 1 sets the number of bytes per incoming waveform data point to 1, which is the default setting. WFMINPRE:BYT_ NR? might return :WFMINPRE: BYT_NR 2 indicating that there are 2 bytes per incoming waveform da[...]

  • Seite 491

    Commands Listed in Alphabetical Order Related Commands WFMOutpre:ENC dg Arguments ASCii speci fi es that the incoming data is in ASCII format. BINary speci fi es that the incoming data is in a binary format whose further interpretation requires knowledge of BYT_NR, BIT_NR, BN_FMT , and BYT_OR. Examples WFMINPRE:ENCD G ASC sets the for mat of inco[...]

  • Seite 492

    Commands Listed in A lphabetical Order Group W aveform T rans fer Syntax WFMInpre:PT_F mt {ENV|Y} WFMInpre:PT_F mt? Related Commands WFMOutpre:PT_Fmt? Arguments ENV speci fi es that the waveform is transm itted in envelope mode as maximum and minimum point pairs. Only Y values are explicitly transmitted. Absolute coordinates are given by: Xn = XZE[...]

  • Seite 493

    Commands Listed in Alphabetical Order WFMInpre:XINcr Sets or returns the horizontal interval between incoming waveform points in units speci fi ed by WFMInpre:XUNit. Group W aveform T ransfer Syntax WFMInpre:XINc r <NR3> WFMInpre:XINc r? Related Commands WFMInpre:XUNit , WFMOutpre:XINcr? Arguments <NR3> is the horizontal interval repre[...]

  • Seite 494

    Commands Listed in A lphabetical Order Examples WFMINPRE:XUNI T" H Z " speci fi es that the horizontal units for the incoming waveform are hertz. WFMINPRE:XUNI T? might re turn :WFMIN PRE:XUNIT "s " indicating that the horizontal units for the incoming waveform are seconds. WFMInpre:XZEro Sets or returns the position value, in [...]

  • Seite 495

    Commands Listed in Alphabetical Order Group W aveform T rans fer Syntax WFMInpre:YMUl t <NR3> WFMInpre:YMUl t? Related Commands DA T a:DEST ination , WFMInpre:BYT_Nr , WFMInpre:YUNit Arguments <NR3> is the vertical scale factor per digitiz ing level of the incoming waveform points. Examples WFMINPRE:YMUL T? might return :WFMINPRE:Y MULT[...]

  • Seite 496

    Commands Listed in A lphabetical Order Arguments <NR3> is the ver tical offset in digitizing levels. Examples WFMINPRE:YOFF 50 speci fi es that the zero reference poin t for the incoming waveform is 50 digitizing levels (2 divis ions, for 8-bit data) above the center o ft h ed a t ar a n g e . WFMINPRE:YOFF ? might return :WFMINPRE: YOFF 25 [...]

  • Seite 497

    Commands Listed in Alphabetical Order value_in_unit s = ((curve_in_dl - YOFf_in_d l) * YMUlt) + YZEro_in_units NOTE. For a given waveform r ecord, YMUlt, YOFf, and YZEr o have to be a consistent set, otherwise vertical cursor r eadouts and vertical measur ements may give incorr ec t r esults. Group W aveform T ransfer Syntax WFMInpre:YZEr o <NR3[...]

  • Seite 498

    Commands Listed in A lphabetical Order 4.0000E-9;XZE RO - 20.0000E-6 ;PT_OFF 0;YU NIT “V”;YMULT 15.6250E-6;YO FF :”6.4000E+3; YZERO 0.0000 WFMOutpre:BIT_Nr Sets and returns the number of bits per wav eform point that outgoing waveforms contain, as speci fi ed by the DA T a:SOUrce command. Changing the value of WFMOutpre:BIT_Nr also ch anges [...]

  • Seite 499

    Commands Listed in Alphabetical Order Examples WFMOUTPRE:BN_ FMT RP spec i fi es that outgoing waveform data will be in positive integer format. WFMOUTPRE:BN _FMT? m ight return : WFMOUTPRE:BN_FMT RI indicating that the outgoing waveform data is currently in signed integer format. WFMOutpre:BYT_Nr Sets or returns the data width for the outgoing wa[...]

  • Seite 500

    Commands Listed in A lphabetical Order Related Commands WFMOutpre:ENC dg , WFMOutpre:BYT_Nr Arguments LSB speci fi es that the least signi fi cant byte will be transmitted fi rst. MSB speci fi es that the most signi fi cant byte will be transmitted fi rst. Examples WFMOUTPRE:BYT _OR MSB sets the most signi fi cant outgoing byte of waveform d[...]

  • Seite 501

    Commands Listed in Alphabetical Order is not displaye d, the query form generates an erro r and returns event code 2244. This command is for compatibility with other T ektronix oscilloscopes. Group W aveform T ransfer Syntax WFMOutpre:FRA CTional? Related Commands DA T a:SOUrce Arguments Arguments are ignored. WFMOutpre:NR_Pt? (Query Only) Returns [...]

  • Seite 502

    Commands Listed in A lphabetical Order Syntax WFMOutpre:PT_ Fmt ? Related Commands CUR V e , DA T a :SOUrce Examples WFMOUTPRE:PT_ FMT? might return :WFMO utpre:PT_Fmt ENV indicating that the waveform data is a series of min-max pairs. WFMOutpre:PT_Off? (Query Only) The set form of this command is ignored. The query form always returns a 0, if the [...]

  • Seite 503

    Commands Listed in Alphabetical Order WFMOutpre :WF Id? (Query Only) Returns a string describing several aspec ts of the acquisition parameters for the waveform speci fi ed by the DA T a:SOUrce command. The query command will time out and a n error will be generated if the waveform speci fi ed by DA T a:SOUrce is not tur ned on. Group W aveform T[...]

  • Seite 504

    Commands Listed in A lphabetical Order Examples WFMOUTPRE:WFI D? might return : WFMOUTPRE:WF ID "Ch1, DC coupling,100. 0mVolts/div, 500.0µs/div, 1000 poin ts, Sample mode" WFMOutpr e:X INcr? (Query Only) Returns the horizontal point spacing in units of WFMOutpre:XUNit for the waveform speci fi ed by the DA T a:SOUrce command. This value[...]

  • Seite 505

    Commands Listed in Alphabetical Order This value is in units of WFMOutpre:XUNit? . The query command will time out and an error will be generated if the waveform speci fi ed by DA T a:SOUrce is not tur ned on. Group W aveform T ransfer Syntax WFMOutpre:XZE ro? Related Commands DA T a:SOUrce , WFMOutpre:XUNit? Examples WFMOUTPRE:XZE RO? might retur[...]

  • Seite 506

    Commands Listed in A lphabetical Order See the descrip tion of WFMInpre:YOFf to see how this position is used to convert waveform sample values to volts. Group W aveform T ra nsfer Syntax WFMOutpre:YOF f? Related Commands DA T a:SOUrce , WFMOutpre:BYT_Nr Examples WFMOUTPRE:YOF F? might return :WFMOUTPRE :YOFF -50.000 0E+0 indicating that the positi[...]

  • Seite 507

    Commands Listed in Alphabetical Order Syntax WFMOutpre:YZE ro? Related Commands DA T a:SOUrce , WFMOutpre:YUNit? Examples WFMOUTPRE:YZE RO? might return :WFMOUTPRE:YZERO -1 00.0000E-3 indicating that vertical offset is set to -100 mV . ZOOm? (Query Only) Returns the current vertical and horizontal positioning and scaling of the di splay . Group Zoo[...]

  • Seite 508

    Commands Listed in A lphabetical Order Examples ZOOM:MODE OFF t urns of f Zoom mode. ZOOM:MODE? mi ght return :ZOO M:MODE 1 indicating that Z oom mode is currently tur ned on. ZOOm:ZOOM<x>? (Query Only) Returns the current vertical and ho rizontal positioning and scaling of the display . <x> can only be 1. Group Zoom Syntax ZOOm:ZOOM<[...]

  • Seite 509

    Commands Listed in Alphabetical Order Arguments <NR3> is the hor izontal position as a percent of the upper window . ZOOm:ZOOM<x>:SCAle Sets or returns the horizontal scale of the zoom box. <x> can only be 1. Group Zoom Syntax ZOOm:ZOOM<x>: SCAle <NR3> ZOOm:ZOOM<x>: SCAle? Arguments <NR3> is the horizontal [...]

  • Seite 510

    Commands Listed in A lphabetical Order 2-500 MSO4000 and DPO4000 S eries Programmer Manual[...]

  • Seite 511

    Status and Events The oscilloscope provides a status and eve nt reporting system for the Ethernet, GPIB (with the TEK-USB-488 Adapte r), and U SB interfaces. This s ystem informs you o f certain signi fi cant events that occur within the oscilloscope. The oscilloscope status handling system consists of fi ve 8-bit registe rs and two queues for e [...]

  • Seite 512

    Status and Events Ta b l e 3 - 1 : S E S R Bit Functions Bit Function 7 (MSB) PON Power On. Show s that the oscilloscope was powered on. On completion, the diagnostic s elf tests also set this bit. 6 URQ User Request . Indicates that an application event has occurred. *See note. 5 CME Command Error. Shows that an error occurred while the oscillosco[...]

  • Seite 513

    Status and Events T able 3-2: SBR Bit Functions (cont.) Bit Function 4M A V Message Availab le. Shows that output is available in the Output Queue. 3 ———— Not used. 2 ———— Not used. 1–0 ———— Not used. Enable Registers DESER, ESER, and SRER allow you to select which events are reported to the Status R egisters and the Event[...]

  • Seite 514

    Status and Events Use the *SRE com mand to set the SRER. Use the *SRE? query to read the register . The R QS bit remains set to one until either the Status Byte Register is read with a Serial Poll or the MSS bit changes back to a zero. Figure 3-5: The Service Request Enable Register (SRER) *PSC Command The *PSC command controls the Enable Registers[...]

  • Seite 515

    Status and Events Event Queue The Eve nt Queue s t o r e sd e t a i l e di n f o r m a t i o no nu pt o3 3e v e n t s . I ft h a n3 2 events stack up in the E vent Queue, the 32nd event is replaced by event code 350, "Queue Over fl ow ." Read the Event Queue with the EVENT? q uery (which returns only the event number), with the EVMSG? qu[...]

  • Seite 516

    Status and Events Figure 3-6: Status and Event Handling Process When an event occurs, a signal is sent to the DESER (1). If that type of event is enabled in the DESER (that is, if the bit for that event type is set to 1), the appropriate bit in the SESR is set to one, and the event is recorded in the Event Queue (2). If the corresponding bit in the[...]

  • Seite 517

    Status and Events Synchronizat ion Methods Overview Although most commands are completed almost immediately after b eing received by the oscilloscope, some commands star t a process that requires time. For example, onc e a s ingle sequence acquisition command is executed, depending upon the applied signals and trig ger settings, it may take a few s[...]

  • Seite 518

    Status and Events For example, a t ypical application might involv e acquiring a single-sequence waveform and then taking a measurement on the acquired waveform. Y ou could use the following command seq uence to do this: /** Set up cond itional acqu isition **/ ACQUIRE:STATE O FF SELECT:CH1 ON HORIZONTAL:RECOR DLENGTH 1000 ACQUIRE:MODE SAMPL E ACQU[...]

  • Seite 519

    Status and Events T h es a m ec o m m a n d sequence u sing the *W AI command for synchronization looks like this: /* Set up condi tional acquis ition */ ACQUIRE:STATE OF F SELECT:CH1 ON HORIZONTAL:RE CORDLENGTH 1 000 ACQUIRE:MODE SAM PLE ACQUIRE:STOPA FTER SEQUENC E /* Acquire wavef orm data */ ACQUIRE:STATE ON /* Set up the measuremen t parameter[...]

  • Seite 520

    Status and Events /* Take amplitu de mea surement */ MEASUREMENT:IMME D:VALUE This sequence lets you create your own wait loop rather than usi ng the *W AI command. The B USY? query helps you avoid time-outs caused by writing too many commands to the input buffer . Th e controller is still tied up though, and the repeated BUSY? query will result in[...]

  • Seite 521

    Status and Events Service Reques t Method: Enable the OPC bit in the Device Event Status Enable Register (DESER) and the Event Status Enable Register (ESER) using the DESE and *ESE commands. Y ou can also enable service requests by setting the ESB bit in the Service Request Enable Register (SRER) using the *SRE command. When the operation is comple[...]

  • Seite 522

    Status and Events /* Acquire wave form data */ ACQUIRE:STATE ON /* Set up the measuremen t parameters */ MEASUREMENT:I MMED:TYPE AMPLI TUDE MEASUREMENT:I MMED:SOURCE CH1 /* Wait until the acquis ition is complete befo re taking the measuremen t*/ *OPC W ait for read from Output Queue. /* Take amplitude meas urement */ MEASUREMENT:I MMED:VALUE This [...]

  • Seite 523

    Status and Events T able 3 -4: Command Error Messages (CME Bit 5) (cont.) Code Message 102 Syntax error 103 Invalid separator 104 Data type error 105 GET not allowed 108 Parameter not allowed 109 Missing parameter 11 0 Command header error 1 12 Program mnemonic too long 11 3 Unde fi ned header 120 Numeric data error 12 1 Invalid character in numer[...]

  • Seite 524

    Status and Events T able 3-5: Execution Error Messages (EXE Bit 4) (cont.) Code Message 241 Hardware mis sing 250 Mass storage error 251 Missing mass storage 252 Missing media 253 Corrupt media 254 Media full 255 Directory full 256 File name not found 257 File name error 258 Media protected 259 File name too long 270 Hardcopy error 271 Hardcopy dev[...]

  • Seite 525

    Status and Events T able 3 -5: Execution Error Messages (EXE Bit 4) (cont.) Code Message 22 15 Measurement error , No crossing, second waveform 22 16 Measurement error , No crossing, target waveform 22 17 Measurement error , Constant waveform 22 19 Measurement error , No valid edge - No arm sample 2220 Measurement error , No valid edge - No arm cro[...]

  • Seite 526

    Status and Events T able 3-5: Execution Error Messages (EXE Bit 4) (cont.) Code Message 2760 Mark limit reached 2761 No mark present 2762 Search copy failed Device Error The following table lists the device errors that can occur during oscilloscope operation. These errors may indicate that the oscilloscope needs repair . T able 3-6: Device Error Me[...]

  • Seite 527

    Status and Events Ta b l e 3 - 8 : E x e c ution W arning Messages (EXE Bit 4) Code Message 528 Parameter out of range 532 Curve data too long, Curve truncated 533 Curve error , Preamble values are inconsistent 540 Measuremen t warning, Uncertain edge 541 Measurement warning, Low signal amplitude 542 Measurement warning, Unstable histogram 543 Meas[...]

  • Seite 528

    Status and Events 3-18 MSO4000 and DPO4000 Series Programmer Manual[...]

  • Seite 529

    Appendix A: Character Set MSO4000 and DPO4000 Series Programmer Manual A-1[...]

  • Seite 530

    Appendix A : Character Set A-2 MSO4000 and DPO4000 Series Programmer Manual[...]

  • Seite 531

    Appendix B: Reserved Words This is a list of reserved words for your ins trument. Capital letters identify the required minimum spelling. *CAL *CLS *DDT *ESE *ESR *IDN *LRN *OPC *PSC *PUD *RCL *RST *SAV *SRE *STB *TRG *TST *WAI 0 1 CHx 1NR3 7 8 A A0 A1 A2 A3 A4 A5 A6 A7 A8 A9 ABORt ABOrt ABSolute AC ACKMISS ACQ ACQLENGTH ACQuire ACTIVeprinter ADD A[...]

  • Seite 532

    Appendix B: Res erved W ords D11 D12 D13 D14 D15 D2 D3 D4 D5 D6 D7 D8 D9 DATA DATABits DATE DATEPrint DATa DAll DB DC DDT DECimal DEFLT DEFault DEFine DEGAUss DEGrees DELEte DELIMiter DELTa DELTatime DELay DELayed DELete DELta DESE DESKew DESTination DESkew DHCPbootp DIAg DIFFerent ial DIGital DIR DIRectio n DISPlay DISabled DISplaym ode DNS DOMAIN[...]

  • Seite 533

    Appendix B: Reserved W ords INDIvidual INDependent INFInite INIT INKSaver INPUTPOWer INPut INTENSITy INTERLAced INTERNal INVERTed INVert INVerted INrange IO IPADDress IRMS ISCLOCKed ITALian JAPAnese KOREan L L2 L4 LABEL LABel LANGuage LANdscape LARge LAYout LEFt LESSEQual LESSLimit LESSThan LETTER LEVel LF LFRej LIMITS LIMit LIN LINE LINEAr LINEFRE[...]

  • Seite 534

    Appendix B: Res erved W ords PRObe PT_Fmt PT_ORder PT_Off PULSEWIDth PULSEWidth PULSe PULse PWIdth QString QTY QUALifier QUALity Qstring RADIUS RATDELta RATE15K RATE1M RATE20K RATE25K RATE35K RATE50K RATE800K RATIO RATio RDELta RDSon REACTpwr READ READFile READOUT RECAll RECDESkew RECOrdlen gth RECTangular REF REF1 REF2 REF3 REF4 REFLevel REFlt;x&g[...]

  • Seite 535

    Appendix B: Reserved W ords VBArs VCEsat VCRESTfactor VDELTa VENDORID VERBose VERTAUTOset VERTDEFault VERTical VIDeo VOLTAGESOurce VOLTage VOLts VRMS WAKEup WAVEform WAVFrm WEIghting WFId WFMInpre WFMOutpre WHEn WIDth WINdow WORD WORDSel WRITE WRITEFile X X1Y1X2Y2 XDELta XFF XINcr XMAX XMIN XUNit XY XZEro Y YDELta YES YMAX YMIN YMUlt YOFf YT YUNIts[...]

  • Seite 536

    Appendix B: Res erved W ords B-6 MSO4000 and DPO4000 Series Programmer Manual[...]

  • Seite 537

    Appendix C: Factory Defaults Default Setup The following table lists the default values for each command. NOTE. Find the most up-to-date default va lues for your instrument and softwar e by performi ng a T ekSecur e command, saving the instrument setup and looking at the instrument or setup fi le. Ta b l e C - 1 : Default values Command Default va[...]

  • Seite 538

    Appendix C: Factory Defaults T able C-1: Default values (cont.) Command Default value BUS:B1:LIN:POLAR ITY NORMAL BUS:B1:LIN:SAMPLEPOINT 50 BUS:B1:LIN:SOUR CE CH1 BUS:B1:LIN:ST AND ARD V2X BUS:B1:P ARALLEL:BIT0:SOURCE D0 BUS:B1:P ARALLEL:BIT1:SOURCE D1 BUS:B1:P ARALLEL:BIT10:SOURCE D10 BUS:B1:P ARALLEL:BIT1 1:SOURCE D1 1 BUS:B1:P ARALLEL:BIT12:SOUR[...]

  • Seite 539

    Appendix C: Factory Defaults T able C-1: Default values (cont.) Command Default value BUS:B1:SPI:CLOCK:SOURCE CH1 BUS:B1:SPI:DA T A:IN:PO LARITY HIGH BUS:B1:SPI:DA T A:IN:SO URCE OFF BUS:B1:SPI:DA T A:OUT :POLARITY HIGH BUS:B1:SPI:DA T A:OUT :SOURCE CH2 BUS:B1:SPI:DA T A:SIZE 8 BUS:B1:SPI:FRAMING SS BUS:B1:SPI:IDLETIM E 1.00E-07 BUS:B1:SPI:SELECT :[...]

  • Seite 540

    Appendix C: Factory Defaults T able C-1: Default values (cont.) Command Default value BUS:B2:POSITION 0.00E+00 BUS:B2:RS232C:BITRA TE 9600 BUS:B2:RS232C:DA T ABITS 8 BUS:B2:RS232C:DELIMITER LF BUS:B2:RS232C:DISPLA YMODE FRAME BUS:B2:RS232C:P ARITY NONE BUS:B2:RS232C:POLARITY NORMAL BUS:B2:RS232C:RX:SOURCE OFF BUS:B2:RS232C:TX:SOURCE CH1 BUS:B2:SPI:[...]

  • Seite 541

    Appendix C: Factory Defaults T able C-1: Default values (cont.) Command Default value BUS:B3:LIN:BITRA TE 19200 BUS:B3:LIN:IDFORMA T NOP ARITY BUS:B3:LIN:MAXBYTEDELIM 14 BUS:B3:LIN:POLARITY NORMAL BUS:B3:LIN:SAMPLEPOINT 50 BUS:B3:LIN:SOURCE CH1 BUS:B3:LIN:ST ANDARD V2X BUS:B3:P ARALLEL:CLOCK:EDGE RISING BUS:B3:P ARALLEL:CLOCK:ISCLOCKED NO BUS:B3:P [...]

  • Seite 542

    Appendix C: Factory Defaults T able C-1: Default values (cont.) Command Default value BUS:B4 :CAN:S OURCE CH1 BUS:B4:DISPLA Y :FORMA T HEXADECIMAL BUS:B4 :DISPL A Y: TYPE BUS BUS:B4:FLEXRA Y :BITRA TE 10000000 BUS:B4:FLEXRA Y :CHANNEL A BUS:B4:FLEXRA Y :SIGNAL BDIFFBP BUS:B4:FLEXRA Y :SOURCE CH1 BUS:B4:I2C:ADDRESS:RWINCLUDE 0 BUS:B4:I2C:CLOCK:SOURC[...]

  • Seite 543

    Appendix C: Factory Defaults T able C-1: Default values (cont.) Command Default value BUS:B4:SPI:DA T A:OUT :SOURCE CH2 BUS:B4:SPI:DA T A:SIZE 8 BUS:B4:SPI:FRAMING SS BUS:B4:SPI:IDLETIM E 1.00E-07 BUS:B4:SPI:SELECT :POLARITY LOW BUS:B4:SPI:SELECT :SOURCE CH2 BUS:B4:ST A TE 0 BUS:B4:TYPE P ARALLEL BUS:LOWERTHRESHOLD:CH1 0.00E+00 BUS:LOWERTHRESHOLD:C[...]

  • Seite 544

    Appendix C: Factory Defaults T able C-1: Default values (cont.) Command Default value CURSOR:H BARS:POS ITION1 0.00E+00 CURSOR:H BARS:POS ITION2 0.00E+00 CURSOR:HBARS:UNITS BASE CURSOR:MODE INDEPENDENT CURSOR:VBARS:POSITION1 -1.20E-05 CURSOR:VBARS:POSITION2 1.20E-05 CURSOR:VBARS:UNITS SECONDS CURSOR:XY:RECT ANGU LAR:X:POSITION1 0.00E+00 CURSOR:XY:R[...]

  • Seite 545

    Appendix C: Factory Defaults T able C-1: Default values (cont.) Command Default value D2:THRESHOLD 1.4 D3:LABEL D3:POSITION 6.00E-02 D3:THRESHOLD 1.4 D4:LABEL D4:POSITION 6.00E-02 D4:THRESHOLD 1.4 D5:LABEL D5:POSITION 6.00E-02 D5:THRESHOLD 1.4 D6:LABEL D6:POSITION 6.00E-02 D6:THRESHOLD 1.4 D7:LABEL D7:POSITION 6.00E-02 D7:THRESHOLD 1.4 D8:LABEL D8:[...]

  • Seite 546

    Appendix C: Factory Defaults T able C-1: Default values (cont.) Command Default value HARDCOPY :INKSA VER 1 HARDCOPY :LA YOUT LANDSCAPE HARDCOPY :PREVIEW 0 HEADER 1 HORIZONT AL:DELA Y :MODE 1 HORIZONT AL:DELA Y :TIME 0.00E+00 HORIZONT AL:POSITION 50 HORIZONT AL:RECORDLENGTH 10000 HORIZONT AL:SCALE 4.00E-06 LOCK NONE MA TH:DEFIN E CH1+CH2 MA TH:HORI[...]

  • Seite 547

    Appendix C: Factory Defaults T able C-1: Default values (cont.) Command Default value MEASUREMENT :MEAS1:TYPE PERIOD MEASUREMENT :MEAS2:DELA Y :DIRECTION FORWARDS MEASUREMENT :MEAS2:DELA Y :EDGE1 RISE MEASUREMENT :MEAS2:DELA Y :EDGE2 RISE MEASUREMENT :MEAS2:SOURCE1 CH1 MEASUREMENT :MEAS2:SOURCE2 CH2 MEASUREMENT :MEAS2:ST A TE 0 MEASUREMENT :MEAS2:T[...]

  • Seite 548

    Appendix C: Factory Defaults T able C-1: Default values (cont.) Command Default value MEASUREMENT :MEAS7:DELA Y :EDGE1 RISE MEASUREMENT :MEAS7:DELA Y :EDGE2 RISE MEASUREMENT :MEAS7:SOURCE1 CH1 MEASUREMENT :MEAS7:SOURCE2 CH2 MEASUREMENT :MEAS7:ST A TE 0 MEASUREMENT :MEAS7:TYPE PERIOD MEASUREMENT :MEAS8:DELA Y :DIRECTION FORWARDS MEASUREMENT :MEAS8:D[...]

  • Seite 549

    Appendix C: Factory Defaults T able C-1: Default values (cont.) Command Default value SA VE:IMAGE:FILEFORMA T PNG SA VE:IMAGE:LA YOUT LANDSCAPE SA VE:WA VEFORM:FILEFORMA T INTER NAL SA VE:WA VEFORM:GA TING NONE SEARCH:SEARCH1:ST A TE 0 SEARCH:SEARCH1:TRIGGER:A: BUS:B1:CAN:CONDITION SOF SEARCH:SEARCH1:TRIGGER:A:BUS: B1:CAN:DA T A:DIRECTION NO CARE S[...]

  • Seite 550

    Appendix C: Factory Defaults T able C-1: Default values (cont.) Command Default value SEARCH:SEARCH1:TRIGGER:A:BUS: B1:I2C:DA T A:DIRECT ION NOCARE SEARCH:SEARCH1:TRIGGER: A:BUS:B1:I2C:DA T A:SIZE 1 SEARCH:SEARCH1:TRIGGER: A:BUS:B1:I2C:DA T A:V ALUE XXXXX XXX SEARCH:SEARCH1:TRIGGER:A:BU S:B1:LIN:CONDITION SYNCFIELD SEARCH:SEARCH1:TRIGGER:A:BUS:B1:L[...]

  • Seite 551

    Appendix C: Factory Defaults T able C-1: Default values (cont.) Command Default value SEARCH:SEARCH1:TRIGGER:A:BU S:B2:FLEXRA Y :EOFTYPE ST A TIC SEARCH:SEARCH1:TRIGGER:A:BUS: B2:FLEXRA Y :ERRTYPE CRCHEADER SEARCH:SEARCH1:TRIGGER:A:BUS: B2:FLEXRA Y :FRAMEID:HIV ALUE XXXXXXXXXXX SEARCH:SEARCH1:TRIGGER:A:BUS:B2:FLEXRA Y :FRAMEID:QUALIFIER EQUAL SEARC[...]

  • Seite 552

    Appendix C: Factory Defaults T able C-1: Default values (cont.) Command Default value SEARCH:SEARCH1:TRIGGER:A:BUS: B3:CAN:DA T A:QUALIFIER EQUAL SEARCH:SEARCH1:TRIGGER: A:BUS:B3:CAN:DA T A:SIZE 1 SEARCH:SEARCH1:TRIGGER: A:BUS:B3:CAN:DA T A:V ALUE XXXXX XXX SEARCH:SEARCH1:TRIGGER: A:BUS:B3:CAN:FRAMETYPE DA T A SEARCH:SEARCH1:TRIGGER:A:BUS:B3: CAN:I[...]

  • Seite 553

    Appendix C: Factory Defaults T able C-1: Default values (cont.) Command Default value SEARCH:SEARCH1:TRIGGER:A: BUS:B3:LIN:DA T A:V ALUE XXXXXXXX SEARCH:SEARCH1:TRIGGER:A: BUS:B3:LIN:ERRTYPE SYNC SEARCH:SEARCH1:TRIGGER:A:BU S:B3:LIN:IDENTIFIER:V ALUE XXXXXX SEARCH:SEARCH1:TRIGGER:A: BUS:B3:P ARALLEL:V ALUE XXXXXXXXXXXX XXXX SEARCH:SEARCH1:TRIGGER:A[...]

  • Seite 554

    Appendix C: Factory Defaults T able C-1: Default values (cont.) Command Default value SEARCH:SEARCH1:TRIGGER:A:BU S:B4:FLEXRA Y :HEADER:CYCLECOUNT XXXXXX SEARCH:SEARCH1:TRIGGER:A:BUS:B4:FLEXRA Y :HEADER:FRAMEID XXXXXXXXXXX SEARCH:SEARCH1:TRIGGER:A:BUS:B4:FLEXRA Y :HEADER:INDBITS XXXXX SEARCH:SEARCH1:TRIGGER:A:BU S:B4:FLEXRA Y :HEADER:P A YLENGTH XX[...]

  • Seite 555

    Appendix C: Factory Defaults T able C-1: Default values (cont.) Command Default value SEARCH:SEARCH1:TRIGGE R:A:LOG IC:FUNCTION AND SEARCH:SEARCH1:TRIGGE R:A:LOGIC:INPUT :CH1 X SEARCH:SEARCH1:TRIGGE R:A:LOGIC:INPUT :CH2 X SEARCH:SEARCH1:TRIGGER:A:LOGIC:INPUT :CLOCK:EDGE RISE SEARCH:SEARCH1:TRIGGER:A:LOGIC:INPUT :CLOCK:SOURCE NONE SEARCH:SEARCH1:TRI[...]

  • Seite 556

    Appendix C: Factory Defaults T able C-1: Default values (cont.) Command Default value SEARCH:SEARCH1:TRIGGER: A:LOGIC:P A TTERN:INPUT :D5 X SEARCH:SEARCH1:TRIGGER: A:LOGIC:P A TTERN:INPUT :D6 X SEARCH:SEARCH1:TRIGGER: A:LOGIC:P A TTERN:INPUT :D7 X SEARCH:SEARCH1:TRIGGER: A:LOGIC:P A TTERN:INPUT :D8 X SEARCH:SEARCH1:TRIGGER: A:LOGIC:P A TTERN:INPUT [...]

  • Seite 557

    Appendix C: Factory Defaults T able C-1: Default values (cont.) Command Default value SEARCH:SEARCH1:TRIGGER:A: SETHOLD:THRESHOLD:REF1 0.00E+00 SEARCH:SEARCH1:TRIGGER:A: SETHOLD:THRESHOLD:REF2 0.00E+00 SEARCH:SEARCH1:TRIGGER:A: TRANSITION:DEL T A TIME 8.00E-09 SEARCH:SEARCH1:TRIGGER:A:TRAN SITION:POLAR ITY POSITIVE SEARCH:SEARCH1:TRIGGER:A: TRANSIT[...]

  • Seite 558

    Appendix C: Factory Defaults T able C-1: Default values (cont.) Command Default value SELECT :REF2 0 TRIGGER:A:BUS:B1:CAN:CONDITION SOF TRIGGER:A:BUS:B1:CAN:DA T A:DIRECTION NOCARE TRIGGER:A:BUS:B1:CAN :DA T A:QUALIFIER EQUAL TRIGGER:A:BUS:B1:CAN:DA T A:SIZE 1 TRIGGER:A:BUS:B1:CAN:DA T A:ST ART 0.00E+00 TRIGGER:A:BUS:B1:CAN:DA T A:V ALUE XXXXX XXX [...]

  • Seite 559

    Appendix C: Factory Defaults T able C-1: Default values (cont.) Command Default value TRIGGER:A:BUS:B1:I2C:DA T A:V ALUE XXXXXXXX TRIGGER:A:BUS:B1:LIN: CONDITION SYNCFIELD TRIGGER:A:BUS:B1:LIN:DA T A:HIV ALUE XXXXXXXX TRIGGER:A:BUS:B1:LIN: DA T A:QUALIFIER EQUAL TRIGGER:A:BUS:B1:LIN:DA T A:SIZE 1 TRIGGER:A:BUS:B1:LIN:DA T A:V ALUE XXXXXXXX TRIGGER:[...]

  • Seite 560

    Appendix C: Factory Defaults T able C-1: Default values (cont.) Command Default value TRIGGER:A:BUS:B2:FLEXRA Y :EOFTYPE ST A TIC TRIGGER:A:BUS:B2:FLEXRA Y :ERRTYPE CRCHEADER TRIGGER:A:BUS:B2:FLEXRA Y :FRAMEID:HIV ALUE XXXXXXXXXXX TRIGGER:A:BUS:B2:FLEXRA Y :FRAMEID:QUALIFIER EQUAL TRIGGER:A:BUS:B2:F LEXRA Y :FRAMEID:V ALUE XXXXX XXXXXX TRIGGER:A:BU[...]

  • Seite 561

    Appendix C: Factory Defaults T able C-1: Default values (cont.) Command Default value TRIGGER:A:BUS:B3:CAN:CONDITION SOF TRIGGER:A:BUS:B3:CAN:DA T A:DIRECTION NOCARE TRIGGER:A:BUS:B3:CAN:DA T A:QUALIFIER EQUAL TRIGGER:A:BUS:B3:CAN:DA T A:SIZE 1 TRIGGER:A:BUS:B3:CAN:DA T A:ST ART 0.00E+00 TRIGGER:A:BUS:B3:CAN:DA T A:V ALUE XXXXXXXX TRIGGER:A:BUS:B3:[...]

  • Seite 562

    Appendix C: Factory Defaults T able C-1: Default values (cont.) Command Default value TRIGGER:A:BUS:B3:LIN :CONDITION SYNCFIELD TRIGGER:A:BUS:B3:LIN:DA T A:HIV ALUE XXXXX XXX TRIGGER:A:BUS:B3:LIN:DA T A:QUALIFIER EQUAL TRIGGER:A:BUS:B3:LIN:DA T A:SIZE 1 TRIGGER:A:BUS:B3:LIN:DA T A:V ALUE XXXXX XXX TRIGGER:A:BUS:B3:LIN:ERRTYPE SYNC TRIGGER:A:BUS:B3:[...]

  • Seite 563

    Appendix C: Factory Defaults T able C-1: Default values (cont.) Command Default value TRIGGER:A:BUS:B4:FLEXRA Y :ERRTYPE CRCHEADER TRIGGER:A:BUS:B4:FLEXR A Y :FRAMEID:HIV ALUE XXXXXXXXXXX TRIGGER:A:BUS:B4:FLEXRA Y :F RAMEID:QUALIFIER EQUAL TRIGGER:A:BUS:B4:FLEXRA Y :FRAMEID:V ALUE XXXXXXXXXXX TRIGGER:A:BUS:B4:FLEXRA Y :FRAMETYPE NORMAL TRIGGER:A:BU[...]

  • Seite 564

    Appendix C: Factory Defaults T able C-1: Default values (cont.) Command Default value TRIGGER:A:EDGE:COUPLING DC TRIGGER:A:EDGE:SLOPE RISE TRIGGER:A:EDGE:SOURCE CH1 TRIGGER:A:HOLDOFF:TIME 2.00E-08 TRIGGER:A:LEVEL 0.00E+00 TRIGGER:A:LEVEL:AUXIN 0.00E+00 TRIGGER:A:LEVEL:CH1 0.00E+00 TRIGGER:A:LEVEL:CH2 0.00E+00 TRIGGER:A:LEVEL:D0 1.4 TRIGGER:A:LEVEL:[...]

  • Seite 565

    Appendix C: Factory Defaults T able C-1: Default values (cont.) Command Default value TRIGGER:A:LOGIC:INPUT :D15 X TRIGGER:A:LOGIC:INPUT :D2 X TRIGGER:A:LOGIC:INPUT :D3 X TRIGGER:A:LOGIC:INPUT :D4 X TRIGGER:A:LOGIC:INPUT :D5 X TRIGGER:A:LOGIC:INPUT :D6 X TRIGGER:A:LOGIC:INPUT :D7 X TRIGGER:A:LOGIC:INPUT :D8 X TRIGGER:A:LOGIC:INPUT :D9 X TRIGGER:A:L[...]

  • Seite 566

    Appendix C: Factory Defaults T able C-1: Default values (cont.) Command Default value TRIGGER:A:LOWERTHRESHOLD:D12 1.4 TRIGGER:A:LOWERTHRESHOLD:D13 1.4 TRIGGER:A:LOWERTHRESHOLD:D14 1.4 TRIGGER:A:LOWERTHRESHOLD:D15 1.4 TRIGGER:A:LOWERTHRESHOLD:D2 1.4 TRIGGER:A:LOWERTHRESHOLD:D3 1.4 TRIGGER:A:LOWERTHRESHOLD:D4 1.4 TRIGGER:A:LOWERTHRESHOLD:D5 1.4 TRIG[...]

  • Seite 567

    Appendix C: Factory Defaults T able C-1: Default values (cont.) Command Default value TRIGGER:A:SETHOLD:THRESHOLD:D15 1.4 TRIGGER:A:SETHOLD:THRESHOLD:D2 1.4 TRIGGER:A:SETHOLD:THRESHOLD:D3 1.4 TRIGGER:A:SETHOLD:THRESHOLD:D4 1.4 TRIGGER:A:SETHOLD:THRESHOLD:D5 1.4 TRIGGER:A:SETHOLD:THRESHOLD:D6 1.4 TRIGGER:A:SETHOLD:THRESHOLD:D7 1.4 TRIGGER:A:SETHOLD:[...]

  • Seite 568

    Appendix C: Factory Defaults T able C-1: Default values (cont.) Command Default value TRIGGER:B:LEVEL:D14 1.4 TRIGGER:B:LEVEL:D15 1.4 TRIGGER:B:LEVEL:D2 1.4 TRIGGER:B:LEVEL:D3 1.4 TRIGGER:B:LEVEL:D4 1.4 TRIGGER:B:LEVEL:D5 1.4 TRIGGER:B:LEVEL:D6 1.4 TRIGGER:B:LEVEL:D7 1.4 TRIGGER:B:LEVEL:D8 1.4 TRIGGER:B:LEVEL:D9 1.4 TRIGGER:B:LOWERTHRESHOLD:CH1 0.0[...]

  • Seite 569

    Appendix C: Factory Defaults T able C-1: Default values (cont.) Command Default value ZOOM:MODE 0 ZOOM:ZOOM1:HORIZONT AL:POSITION 50 ZOOM:ZOOM1:HORIZONT AL:SCALE 4.00E-06 ZOOM:ZOOM1:POSITION 50 ZOOM:ZOOM1:SCALE 4.00E-06 ZOOM:ZOOM1:ST A TE 0 MSO4000 and DPO4000 Series Programmer Manual C-33[...]

  • Seite 570

    Appendix C: Factory Defaults C-34 MSO4000 and DPO4000 Series Programmer Manual[...]

  • Seite 571

    Appendix D: Programming Example The following series of commands and queries illustrate many of the most common commands and tech niques. In this example, data sent from the co ntroller computer to the oscilloscope is prefaced with the > symbol. Replies from the oscilloscope have no preface. > rem “Check for any me ssages, and clear them fr[...]

  • Seite 572

    Appendix D: Programming Example > rem “Be sure to use the *e sr? query to check for measurement errors.” > measu:immed:type freq > measu:immed:value :MEASUREMENT :IMMED:V ALUE 9.9100E+37 > *esr? 16 > allev? :ALLEV 2202,”Measurement error , No period found “ > rem “Query out the waveform points, for later analysis on your[...]

  • Seite 573

    Index A ACQuire:MAXSamplerate?, 2-70 ACQuire?, 2- 69 ACQuire:MAGnivu, 2-69 ACQuire:MODe, 2-70 ACQuire:NUMACq?, 2-71 ACQuire:NUMA V g, 2-71 ACQuire:ST A TE, 2-72 ACQuire: STOP After , 2-73 Acquisition Comma nd Group, 2-1 1 Alias Command Group, 2-12 ALIas, 2-73 ALIas[:ST A TE], 2-76 ALIas:CA T alog?, 2-74 ALIas: DEFine, 2-74 ALIas:DELEte, 2-75 ALIas:[...]

  • Seite 574

    Index BUS:B<x>:SPI: DA T A{:IN|:MISO}:POLARity , 2-107 BUS:B<x>:SPI:DA T A{:IN|:MISO}:SOUrce, 2-107 BUS:B<x>:SPI:DA T A{:OUT|:MOSI}: POLARity , 2-107 BUS:B<x>:SPI:DA T A{:OUT|:MOSI}:SOUrce, 2-108 BUS:B<x>:SPI:FRAMING, 2-109 BUS:B<x>:S PI:IDLET ime, 2-109 BUS:B<x>:SPI{:CLOCK|:SCLK}:POLARity , 2-106 BUS:B<[...]

  • Seite 575

    Index CURSor:VBArs? ,2 - 1 3 6 CURSor:VBArs:DEL T a?, 2-137 CURSor:VBArs:UNIts, 2-138 CURSor:VBArs:USE, 2-139 CURSor:XY :READOUT , 2-143 CUR V e, 2-145 D D<x>, 2-16 2 D<x>:LABel, 2-163 D<x>:POSition, 2-163 D<x>:THREshold, 2-164 DA T a, 2-146 DA T a:DESTination, 2-147 DA T a:EN Cdg, 2-147 DA T a:SOUrc e, 2-149 DA T a:ST ARt, [...]

  • Seite 576

    Index HARDCopy:PRIN T er:REName, 2-185 HARDCopy:INKSaver , 2-182 HARDCopy:LA Y out, 2-183 HARDCopy:PREVIEW , 2-184 HEADer , 2-185 Horizontal Command Group, 2-24 HORizont al :DELay:MODe, 2-186 HORizontal:DELay:TIMe, 2-187 HORizontal:DIGital:RECOrdlength: MAGnivu?, 2-188 HORizontal:DIGital:RECOr dlen gth:MAIN?, 2-188 HORizontal:DIGital:SAMPLERate:MAG[...]

  • Seite 577

    Index MEASUrement:R EFLevel:ABSolute:LOW , 2-228 MEASUrement:REFLevel:ABSolute:MID, 2-229 MEASUrement:REFLevel:ABS olute:MID<x>, 2-230 MEASUrement:REFLevel:ABSolute:MID2, 2-229 MEASUrement:REFLevel:METHod, 2-230 MEASUrement:REFLevel: PERCent:HIGH, 2-231 MEASUremen t:REFLevel:PERCent:LOW , 2-232 MEASUrement:REFLevel: PERCent:MID, 2-232 MEASUre[...]

  • Seite 578

    Index POW er:HARMoni cs:RESults:RMS?, 2-266 POW er:HARMonics:RESults:SA V e, 2-266 POW er:HARMonics:RESults:THDF?, 2-267 POW er:HARMonics:RESults:THDR?, 2-267 POW er:HARMonics:SOURce , 2-267 POW er:HARMonics:ST ANDard, 2-268 POW er:MODu lation:SOUrce, 2-2 69 POW er:MODulation:TYPe, 2-270 POW er:QUALity:APPpwr?, 2-271 POW er:QUALity:DISplay:APPpwr ,[...]

  • Seite 579

    Index POW er:SWLoss: TON:P OWER:MEAN?, 2-310 POW er:SWLoss:TON:POWER:MIN?, 2-31 1 POW er:SWLoss:TOT al:ENERGY :MAX?, 2-31 1 POW er:SWLoss:TOT al:ENERGY :MEAN?, 2-31 1 POW er:SWLoss:TOT al:ENERGY :MIN?, 2-312 POW er:SWLoss:TOT al:POWER:MAX?, 2-312 POW er:SWLo ss:TOT al:POWER:MEAN?, 2-312 POW er:SWLoss:TOT al:POWER:MIN?, 2-313 POW er:CURRENTSOurce, 2[...]

  • Seite 580

    Index SEARCH:SEARCH <x>:TRIGger:A:BUS:B<x>: FLEXray:CYCLEcount:HIV ALue, 2-339 SEARCH:SEARCH<x>:TRIGger:A:BUS:B<x>: FLEXray:CYCLEcount:QUALi fi er , 2-340 SEARCH:SEARCH<x>:TRIGger:A:BUS:B<x>: FLEXray:CYCLEcount:V ALue, 2-341 SEARCH:SEA RCH<x>:TRIGger:A:BUS:B<x>: FLEXray:DA T a:HIV ALue, 2-341 SEARCH:[...]

  • Seite 581

    Index SEARCH:SEARCH <x>:TRIGger:A:LEV el, 2-362 SEARCH:SEARCH<x>:TRIGger:A:LEV el: CH<x>, 2-363 SEARCH:SEARCH<x>:TRIGger:A:LEV el: MA TH, 2-363 SEARCH:SEARCH<x>:TRIGger:A:LEV el: REF<x>, 2-3 64 SEARCH:SEARCH<x>:TR IGger:A:LOGIc: FUNCtion, 2-364 SEARCH:SEARCH<x>:TRIG ger:A:LOGIc:INPut: CH<x>, 2-3[...]

  • Seite 582

    Index SEARCH:SEARCH <x>:TRIGger:A{:TRANsition|: RISEFall}:SOUrce, 2-380 SEARCH:SEARCH<x>:TRIGger:A{:TRANsition|: RISEFall}:WHEn, 2-381 SEARCH?, 2-329 SELect, 2-383 SELect:BUS <x>, 2-383 SELect:CH<x>, 2-384 SELect:CONTROl, 2-384 SELect:D<x>, 2-385 SELect:MA TH[1], 2-386 SELect:REF<x>, 2-386 SET?, 2-3 87 SETUP<x[...]

  • Seite 583

    Index TRIGger:A:BUS :B<x>:LIN:DA T a:QUALi fi er , 2-417 TRIGger:A:BUS:B<x>:LIN:DA T a:SIZe, 2-418 TRIGger:A:BUS:B<x>:LIN:DA T a:V ALue, 2-419 TRIGger:A:BUS:B<x>:LIN:ERR TYPE, 2-419 TRIGger:A:BUS:B<x>:LIN:IDenti fi er:V ALue, 2-420 TRIGger:A:BUS:B<x>:P ARallel:V ALue, 2 -420 TRIGger:A: BUS:B<x>:RS232C:CON[...]

  • Seite 584

    Index TRIGger:B:LOW erthreshold:CH<x>, 2-468 TRIGger:B:LOW erthreshold:D<x>, 2-469 TRIGger:B:UPPerthreshold:CH<x>, 2-471 TRIGger:EXT ernal:PRObe, 2-471 TRIGger:EXT ernal:YUNIts?, 2-472 TRIGger:A, 2-393 TRIGger:A: BUS, 2-394 TRIGger:A:EDGE?, 2-425 TRIGger:A:HOLDoff ?, 2-427 TRIGger:A:LEV el, 2-428 TRIGger:A:LOGIc?, 2-430 TRIGger:A:[...]

  • Seite 585

    Index ZOOm:MODe, 2-4 97 ZOOm:ZOOM<x>? ,2 - 4 9 8 MSO4000 and DPO4000 S eries Programmer Manual Index-13[...]