Lightwave Communications LDX-3232 manual MESsage?, RADix

Page 95

COMMAND REFERENCE

LDX-3232 Device-Dependent Command Reference

C H A P T E R 4

MESsage?

FRONT PANEL

 

 

REMOTE

The MESsage? query returns the previously stored message. This message will always be 16 bytes long and enclosed in quotes. The message is entered via the MESsage command.

 

:

MES

?

 

- where the response is a 16-byte long character string.

Notes

The response data will be a 16-byte long string. If there is no previously stored message,

 

the response will be "

", all spaces.

Examples

"MES?"

-response: "Test 3

", means the previously stored message was "Test 3".

"Message?" -response: "This is a test. ", means the previously stored message was "This is a test."

RADix

FRONT PANEL

REMOTE

The RADix command allows the programmer to select the radix type for status, condition, and event query response data. Decimal, binary, hexadecimal, and octal are allowed.

:RAD

<white

space>

DEC HEX BIN OCT

Parameters

As shown above, character program data is expected.

Notes

DECimal is the default type. Only the first three letters of the words decimal,

 

hexadecimal, binary, or octal are required.

 

When the RADIX is selected, all status, condition, and event queries will return values in

 

the new radix.

 

In the cases where the radix is not DECimal, the flexible numeric type <nrf value> (as

 

shown in the Command Reference diagrams) will be replaced by HEX, BIN, or OCT

 

representation.

 

All of the above radixes may be used to enter program data at any time, without the need

 

for issuing the RADix command. The proper prefix must also be used with Hex (#H),

 

binary (#B), or octal (#Q).

 

This command may be useful for setting up status reporting blocks. The bit-wise status

 

representation may be more easily read in BIN, HEX, or OCT.

Examples

"RAD dec" -action: the decimal radix is selected.

04_06

LDX-3232

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Contents User’s Guide Page Table of Contents Remote Operation Command Reference Iv LDX-3232 List of Figures Vi LDX-3232 List of Tables Viii LDX-3232 General Safety Considerations Safety Information and the ManualSafety Marking Symbols Safety SymbolsWarranty Claims for Shipping Damage Model Number Serial Number End-User Name Company Phone Fax Comments, Suggestions, and ProblemsDescription of the problem Xiv LDX-3232 Product Overview Introduction and SpecificationsGrounding Requirements Installing Your LDX-3232 High Compliance Current SourceAC Line Power Requirements Initial InspectionOperating the LDX-3232 Precision Current Source Gpib ConnectorTilt-Foot Adjustment Gpib AddressLDX-3232 Front View Maintenance Specifications 13 µs 12 ms Type Pulse Width DelayTTL Description Model Number Available Options and AccessoriesPower On Sequence Applying Power to Your LDX-3232Power On State Connecting to the LaserCommon Laser Cathode Photodiode Anode Interlock Connections Back Panel LD ConnectorGrounding Considerations Setting the PD BiasPhotodiode Connections Display Operating a Laser in Constant Current I ModeFront Panel Operation Setting Up the Precision Current Source E R a T I O N Entering Photodiode Responsivity Values Operating a Laser in Constant Power P ModeMethod to calculate the responsivity is suggested below LDX-3232 Error Indicators Error IndicatorsError Indicators LDX-3232 Changing the Gpib Address Reading the Gpib AddressChanging Operation from Local to Remote LDX-3232 Current Source Command SetCommand Syntax OFF OLD NEW True False SET Reset LASLDI? LDX-3232 Command Path Structure Command PathsIEEE488.2 Command Commands LIM LDX-3232 Frequently Used CommandsNone Operation Complete Definition Status ReportingEvent and Condition Registers LDX-3232 Status Reporting Schematic Diagram Output Off Register Disabled 10 N/A Enabled 11 N/A 12 N/A 13 N/A 14 N/A 15 N/ALASerENABleOUTOFF nrf LASerENABleOUTOFF? Error Messages Command Timing and CompletionResponse Message Error Code ClassificationsMode Used to enter the laser voltage calibration mode Used to create a delay in the execution of furtherCommands Used to enter the laser current calibration modeReturns the value of the LAS conditions enable register Returns status of photodiode monitor power displayEnables Laser display to show parameter values Sets the enable register for Laser conditionsOr P optical power Used to return the optical power from monitorUsed to set the constant optical power setpoint, if Used to enable/disable the front panel modulation inputUsed to return the Laser setpoint tolerance value Returns the status of the Term commandPowered up Returns the elapsed time since the timer was last resetCommand Description Format LDX-3232 Device-Dependent CommandsDelay LDX-3232 Device-Dependent Command ReferenceCalmd LAS Calpd ERRors?LASerCALMD LASerCALMD? Responsivity CAL PD parameter setting Syntax DiagramCalibration for that bandwidth Selected. This procedure is outlined in ChapterLASerCALLDI LAS CAL LDV LASerCALLDI?LASerCALLDV LDI LAS CALLASerCALMDI True measured value. This procedure is outlined in ChapterLASerCALLDV? LAS CAL IPD LASerCALMDI?LASerCOND? MDILASerDEC LASDIS? LASerDISplayLASerDISplay? LAS DISLDI LASerDISplayLDILASerDISplayLDI? LasdisldiLASDISLDV? Voltage measurement Syntax DiagramLASerDISplayLDV LASerDISplayLDV?LAS DIS IPD LASerDISplayMDILASerDISplayMDI? LAS DIS MDILAS DIS MDP LASerDISplayMDPLASerDISplayMDP? PPDLAS DIS SET LASerDISplayPARAMLASerDISplaySET LAS DIS ParamLASDISPLAYSET? LASerENABleCONDLASerDISplaySET? LAS Enab Cond LASerENABleCOND?Bit Lasenabevent LASerENABleEVEntAn nrf value whose sum represents the bits that are enabled Action enables the Laser status event register so thatLAS Enab EVE LASerENABleEVEnt?LASerENABleOUTOFF LAS Enab Outoff LASerENABleOUTOFF?LAS EVE LASerENABleEVEnt commandCommand while the condition status is constantly changing LASerEVEnt?Function for the Laser output LASerINCLAS LDI This measurement is updated approximately once every 600 msLASerLDI LASerLDI?LAS LDV LASerLDVLASerLDV? For LDV calibrationLAS LIM LASerLIMitI2LASerLIMitI2? Limit in use depends on the Laser output range selectionLASLIMI4? Displayed, and then releasing the SET switchLASerLIMitI4 LASerLIMitI4?MDP LAS LIM LASerLIMitMDPLASerLIMitMDP? LASerLIMitV? LASerLIMitVMDP P PD setpoint would be used LASerMDILASerMDI? MDI LAS IPDLAS Mdln LASerMDLNLASerMDLN? MDP LAS LASerMDPLASerMDP? LASerMODEIHBW LAS ModeLAS Mode Ihbw LASerMODE?Lasmodeilbw LAS Mode MDPLASerMODEILBW LASerMODEMDPLAS OUT LASerOUTputLASerOUTput? LASRAN? LASerRANgeLASerRANge? LAS RANLASerSETMDI? Where the response is the constant I setpoint value, in mA30 µA, for use in constant P mode with Calpd = LASerSETLDI?100 µA Where the response is the constand PPD setpoint, in mWLASerSETMDP? LASerSTEPLAS TOL LASerTOLerance commandLASerSTEP? LASerTOLeranceMES LASerTOLerance?MESsage Second is the time window, in secondsRADix MESsage?Means hexadecimal, and OCT means octal Term 0 command is sent or the LDX-3232 is powered offRADix? RADTime LDX-3232 was last powered upTime clock is independent of the Timer clock Seconds since the last TIMER? query was issued Since the last TIMER? query was issuedTimer Last TIMER? query is returnedSaving and Recalling from the Front Panel Functions and FeaturesSaving and Recalling Under Remote Operation Using the Laser Compliance Voltage AdjustmentLDX-3232 Rear Panel Using the LDX-3232 Current Source’s Trigger FunctionBNC Interlock Usage Example Modulating the Laser Current SourceModulating the Laser Current Source Functions and Features Calibration Overview Calibration and TroubleshootingDMM Description Manufacturer/Model SpecificationRecommended Equipment Current Limit Local Calibration of the LDX-3232 Current SourceCurrent Source Calibration RangeIPD Current Calibration IPD Setpoint Constant powerCAL PD Set equal to zeroSet to FS full scale of range Laser ModeLaser Forward Voltage Measurement Calibration 2000 mALimit Gpib CommandRemote Calibration of the LDX-3232 Current Source Lasldi nrf value command IPD Setpoint Function State Gpib Command Current source must be recalibrated Troubleshooting GuideGeneral EEPROM, Lllll will be displayed on the display the laserCommand Feature can be defeated via the Lasenableoutoff101 Response Message