Technical data
Table Of Contents
- In This Book
- Contents
- What's New
- Setting Up
- Getting Started
- Basic Oscilloscope Program Structure
- Programming the Oscilloscope
- Referencing the IO Library
- Opening the Oscilloscope Connection via the IO Library
- Initializing the Interface and the Oscilloscope
- Using :AUToscale to Automate Oscilloscope Setup
- Using Other Oscilloscope Setup Commands
- Capturing Data with the :DIGitize Command
- Reading Query Responses from the Oscilloscope
- Reading Query Results into String Variables
- Reading Query Results into Numeric Variables
- Reading Definite-Length Block Query Response Data
- Sending Multiple Queries and Reading Results
- Checking Instrument Status
- Other Ways of Sending Commands
- Commands Quick Reference
- Common (*) Commands
- *CLS (Clear Status)
- *ESE (Standard Event Status Enable)
- *ESR (Standard Event Status Register)
- *IDN (Identification Number)
- *LRN (Learn Device Setup)
- *OPC (Operation Complete)
- *OPT (Option Identification)
- *RCL (Recall)
- *RST (Reset)
- *SAV (Save)
- *SRE (Service Request Enable)
- *STB (Read Status Byte)
- *TRG (Trigger)
- *TST (Self Test)
- *WAI (Wait To Continue)
- Root (:) Commands
- :ACTivity
- :AER (Arm Event Register)
- :AUToscale
- :AUToscale:AMODE
- :AUToscale:CHANnels
- :AUToscale:FDEBug
- :BLANk
- :DIGitize
- :MTEenable (Mask Test Event Enable Register)
- :MTERegister[:EVENt] (Mask Test Event Event Register)
- :OPEE (Operation Status Enable Register)
- :OPERegister:CONDition (Operation Status Condition Register)
- :OPERegister[:EVENt] (Operation Status Event Register)
- :OVLenable (Overload Event Enable Register)
- :OVLRegister (Overload Event Register)
- :RUN
- :SERial
- :SINGle
- :STATus
- :STOP
- :TER (Trigger Event Register)
- :VIEW
- :ACQuire Commands
- :BUS
Commands - :CALibrate Commands
- :CHANnel
Commands - :DEMO Commands
- :DIGital
Commands - :DISPlay Commands
- :EXTernal Trigger Commands
- :FUNCtion Commands
- :HARDcopy Commands
- :LISTer Commands
- :MARKer Commands
- :MEASure Commands
- :MEASure:ALL
- :MEASure:AREa
- :MEASure:BWIDth
- :MEASure:CLEar
- :MEASure:COUNter
- :MEASure:DEFine
- :MEASure:DELay
- :MEASure:DUTYcycle
- :MEASure:FALLtime
- :MEASure:FREQuency
- :MEASure:NEDGes
- :MEASure:NPULses
- :MEASure:NWIDth
- :MEASure:OVERshoot
- :MEASure:PEDGes
- :MEASure:PERiod
- :MEASure:PHASe
- :MEASure:PPULses
- :MEASure:PREShoot
- :MEASure:PWIDth
- :MEASure:RESults
- :MEASure:RISetime
- :MEASure:SDEViation
- :MEASure:SHOW
- :MEASure:SOURce
- :MEASure:STATistics
- :MEASure:STATistics:INCRement
- :MEASure:STATistics:RESet
- :MEASure:TEDGe
- :MEASure:TVALue
- :MEASure:VAMPlitude
- :MEASure:VAVerage
- :MEASure:VBASe
- :MEASure:VMAX
- :MEASure:VMIN
- :MEASure:VPP
- :MEASure:VRATio
- :MEASure:VRMS
- :MEASure:VTIMe
- :MEASure:VTOP
- :MEASure:WINDow
- :MEASure:XMAX
- :MEASure:XMIN
- :MTESt Commands
- :MTESt:ALL
- :MTESt:AMASk:CREate
- :MTESt:AMASk:SOURce
- :MTESt:AMASk:UNITs
- :MTESt:AMASk:XDELta
- :MTESt:AMASk:YDELta
- :MTESt:COUNt:FWAVeforms
- :MTESt:COUNt:RESet
- :MTESt:COUNt:TIME
- :MTESt:COUNt:WAVeforms
- :MTESt:DATA
- :MTESt:DELete
- :MTESt:ENABle
- :MTESt:LOCK
- :MTESt:RMODe
- :MTESt:RMODe:FACTion:MEASure
- :MTESt:RMODe:FACTion:PRINt
- :MTESt:RMODe:FACTion:SAVE
- :MTESt:RMODe:FACTion:STOP
- :MTESt:RMODe:SIGMa
- :MTESt:RMODe:TIME
- :MTESt:RMODe:WAVeforms
- :MTESt:SCALe:BIND
- :MTESt:SCALe:X1
- :MTESt:SCALe:XDELta
- :MTESt:SCALe:Y1
- :MTESt:SCALe:Y2
- :MTESt:SOURce
- :MTESt:TITLe
- :POD Commands
- :RECall Commands
- :SAVE Commands
- :SAVE:FILename
- :SAVE:IMAGe[:STARt]
- :SAVE:IMAGe:FACTors
- :SAVE:IMAGe:FORMat
- :SAVE:IMAGe:INKSaver
- :SAVE:IMAGe:PALette
- :SAVE:LISTer[:STARt]
- :SAVE:MASK[:STARt]
- :SAVE:PWD
- :SAVE:SETup[:STARt]
- :SAVE:WAVeform[:STARt]
- :SAVE:WAVeform:FORMat
- :SAVE:WAVeform:LENGth
- :SAVE:WAVeform:SEGMented
- :SAVE:WMEMory:SOURce
- :SAVE:WMEMory[:STARt]
- :SBUS
Commands - General :SBUS
Commands - :SBUS
:CAN Commands - :SBUS
:CAN:COUNt:ERRor - :SBUS
:CAN:COUNt:OVERload - :SBUS
:CAN:COUNt:RESet - :SBUS
:CAN:COUNt:TOTal - :SBUS
:CAN:COUNt:UTILization - :SBUS
:CAN:SAMPlepoint - :SBUS
:CAN:SIGNal:BAUDrate - :SBUS
:CAN:SIGNal:DEFinition - :SBUS
:CAN:SOURce - :SBUS
:CAN:TRIGger - :SBUS
:CAN:TRIGger:PATTern:DATA - :SBUS
:CAN:TRIGger:PATTern:DATA:LENGth - :SBUS
:CAN:TRIGger:PATTern:ID - :SBUS
:CAN:TRIGger:PATTern:ID:MODE
- :SBUS
- :SBUS
:I2S Commands - :SBUS
:IIC Commands - :SBUS
:LIN Commands - :SBUS
:SPI Commands - :SBUS
:SPI:BITorder - :SBUS
:SPI:CLOCk:SLOPe - :SBUS
:SPI:CLOCk:TIMeout - :SBUS
:SPI:FRAMing - :SBUS
:SPI:SOURce:CLOCk - :SBUS
:SPI:SOURce:DATA - :SBUS
:SPI:SOURce:FRAMe - :SBUS
:SPI:SOURce:MISO - :SBUS
:SPI:SOURce:MOSI - :SBUS
:SPI:TRIGger:PATTern:MISO:DATA - :SBUS
:SPI:TRIGger:PATTern:MISO:WIDTh - :SBUS
:SPI:TRIGger:PATTern:MOSI:DATA - :SBUS
:SPI:TRIGger:PATTern:MOSI:WIDTh - :SBUS
:SPI:TRIGger:TYPE - :SBUS
:SPI:WIDTh
- :SBUS
- :SBUS
:UART Commands - :SBUS
:UART:BASE - :SBUS
:UART:BAUDrate - :SBUS
:UART:BITorder - :SBUS
:UART:COUNt:ERRor - :SBUS
:UART:COUNt:RESet - :SBUS
:UART:COUNt:RXFRames - :SBUS
:UART:COUNt:TXFRames - :SBUS
:UART:FRAMing - :SBUS
:UART:PARity - :SBUS
:UART:POLarity - :SBUS
:UART:SOURce:RX - :SBUS
:UART:SOURce:TX - :SBUS
:UART:TRIGger:BASE - :SBUS
:UART:TRIGger:BURSt - :SBUS
:UART:TRIGger:DATA - :SBUS
:UART:TRIGger:IDLE - :SBUS
:UART:TRIGger:QUALifier - :SBUS
:UART:TRIGger:TYPE - :SBUS
:UART:WIDTh
- :SBUS
- General :SBUS
- :SEARch Commands
- :SYSTem Commands
- :TIMebase Commands
- :TRIGger Commands
- :WAVeform Commands
- :WAVeform:BYTeorder
- :WAVeform:COUNt
- :WAVeform:DATA
- :WAVeform:FORMat
- :WAVeform:POINts
- :WAVeform:POINts:MODE
- :WAVeform:PREamble
- :WAVeform:SEGMented:COUNt
- :WAVeform:SEGMented:TTAG
- :WAVeform:SOURce
- :WAVeform:SOURce:SUBSource
- :WAVeform:TYPE
- :WAVeform:UNSigned
- :WAVeform:VIEW
- :WAVeform:XINCrement
- :WAVeform:XORigin
- :WAVeform:XREFerence
- :WAVeform:YINCrement
- :WAVeform:YORigin
- :WAVeform:YREFerence
- :WGEN Commands
- :WMEMory
Commands - Obsolete and Discontinued Commands
- :CHANnel:ACTivity
- :CHANnel:LABel
- :CHANnel:THReshold
- :CHANnel2:SKEW
- :CHANnel
:INPut - :CHANnel
:PMODe - :DISPlay:CONNect
- :DISPlay:ORDer
- :ERASe
- :EXTernal:PMODe
- :FUNCtion:SOURce
- :FUNCtion:VIEW
- :HARDcopy:DESTination
- :HARDcopy:FILename
- :HARDcopy:GRAYscale
- :HARDcopy:IGColors
- :HARDcopy:PDRiver
- :MEASure:LOWer
- :MEASure:SCRatch
- :MEASure:TDELta
- :MEASure:THResholds
- :MEASure:TMAX
- :MEASure:TMIN
- :MEASure:TSTArt
- :MEASure:TSTOp
- :MEASure:TVOLt
- :MEASure:UPPer
- :MEASure:VDELta
- :MEASure:VSTArt
- :MEASure:VSTOp
- :MTESt:AMASk:{SAVE | STORe}
- :MTESt:AVERage
- :MTESt:AVERage:COUNt
- :MTESt:LOAD
- :MTESt:RUMode
- :MTESt:RUMode:SOFailure
- :MTESt:{STARt | STOP}
- :MTESt:TRIGger:SOURce
- :PRINt?
- :SAVE:IMAGe:AREA
- :SBUS
:LIN:SIGNal:DEFinition - :TIMebase:DELay
- :TRIGger:THReshold
- :TRIGger:TV:TVMode
- Error Messages
- Status Reporting
- Status Reporting Data Structures
- Status Byte Register (STB)
- Service Request Enable Register (SRE)
- Trigger Event Register (TER)
- Output Queue
- Message Queue
- (Standard) Event Status Register (ESR)
- (Standard) Event Status Enable Register (ESE)
- Error Queue
- Operation Status Event Register (:OPERegister[:EVENt])
- Operation Status Condition Register (:OPERegister:CONDition)
- Arm Event Register (AER)
- Overload Event Register (:OVLRegister)
- Mask Test Event Event Register (:MTERegister[:EVENt])
- Clearing Registers and Queues
- Status Reporting Decision Chart
- Synchronizing Acquisitions
- More About Oscilloscope Commands
- Programming Examples
- Index
834 Agilent InfiniiVision 3000 X-Series Oscilloscopes Programmer's Guide
34 Status Reporting
The next program prints 0xD1 and clears bit 6 (RQS) and bit 4 (MAV) of
the Status Byte Register. The difference in the output value between this
example and the previous one is the value of bit 6 (weight = 64). Bit 6 is
set when the first enabled summary bit is set and is cleared when the
Status Byte Register is read by the serial poll command.
Example The following example uses the resource session object's ReadSTB method
to read the contents of the oscilloscope's Status Byte Register.
varQueryResult = myScope.IO.ReadSTB
MsgBox "Status Byte Register, Serial Poll: 0x" + Hex(varQueryResult)
NOTE
Use Serial Polling to Read Status Byte Register. Serial polling is the preferred method to
read the contents of the Status Byte Register because it resets bit 6 and allows the next
enabled event that occurs to generate a new SRQ interrupt.