Contents - power system
- Table Of Contents
- Table Of Contents
- Table Of Contents
- Table Of Contents
- Table Of Contents
- Table Of Contents
- Legal and Safety Information
- Safety Symbols
- Safety Notices
- Quick Reference
- Introduction to the Instrument
- Front Panel at a Glance
- Rear Panel at a Glance
- Front Panel Display at a Glance
- Front Panel Keys at a Glance
- Front Panel Menu Reference
- Command Quick Reference
- Model Features and Options
- Options/Accessories
- Specifications and Characteristics - RP793xA, RP794xA
- Supplemental Characteristics - RP793xA, RP794xA
- Common Characteristics
- Output Impedance Graphs
- Inductive Load Boundary for Current Priority Mode
- Capacitive Load Boundary for Voltage Priority Mode
- Small Signal Programming Response (All Models)
- Excessive Dynamic Protection
- Dimensions - RP793xA and RP794xA
- Specifications and Characteristics - RP795xA, RP796xA
- Supplemental Characteristics - RP795xA, RP796xA
- Dimensions - RP795xA and RP796xA
- Installing the Instrument
- Before Installation or Use
- Review Safety Information
- Rack Mounting
- Single Unit Connections
- Output Connections
- wire size
- Single Load Connections
- Multiple Load Connections
- Remote Sense Connections
- Additional Load Considerations - all Models
- Additional Load Considerations - RP793xA, RP794xA
- Multiple Unit Connections
- Master/Slave Connections - for all models
- Current Sharing Connections - RP795xA, RP796xA
- Series Connections
- Interface Connections
- LAN Connections - site and private
- Digital Port Connections
- Interface Cover Installation
- Getting Started
- Using the Front Panel
- Set the Output Voltage
- Set the Output Current
- Set Over-voltage Protection
- Enable the Output
- Remote Interface Configuration
- LAN Configuration
- Modifying the LAN Settings
- Using the Web Interface
- Using Telnet
- Using the Regenerative Power System
- Programming the Output
- Set the Slew Rate
- Set the Output Bandwidth - RP795xA, RP796xA
- Set the Output Bandwidth - RP793xA, RP794xA
- Set the Output Turn-On/Turn-Off Mode - RP793xA, RP794xA
- Parallel Operation
- Master/Slave Operation
- Independent Parallel Operation - RP795xA, RP796xA
- Current Sinking Operation
- Programming Output Protection
- Set the Over-Voltage Protection
- Output Watchdog Timer
- Clear Output Protection
- Programming Output Transients
- Programming a Step Transient
- Programming a List Transient
- Programming an Arbitrary Waveform
- Sequencing the Output
- Sequencing Multiple Units
- Output Turn-On Turn-Off Behavior
- External Data Logging
- Select the Measurement Function and Range
- Initiate and Trigger the Elog
- Terminate the Elog
- Making Measurements
- Measurement Windowing
- Digitized Measurements
- Measurement Triggering
- Programming the Digital Port
- Bi-Directional Digital I/O
- Digital Input
- Fault Output
- Fault/Inhibit System Protection
- Output Couple Control
- System-Related Operations
- Front Panel Display
- Password Protection
- Priority Mode Tutorial
- Current Priority
- SCPI Programming Reference
- Related Information
- SCPI Introduction
- Keywords
- Syntax Conventions
- Parameter Types
- Device Clear
- Commands by Subsystem
- ABORt Subsystem
- ARB Subsystem
- CALibrate Subsystem
- CURRent Subsystem
- DIGital Subsystem
- DISPlay Subsystem
- FETCh Subsystem
- FORMat Subsystem
- FUNCtion Command
- HCOPy Subsystem
- IEEE-488 Common Commands
- INITiate Subsystem
- INSTrument Subsystem
- LIST Subsystem
- LXI Subsystem
- MEASure Subsystem
- OUTPut Subsystem
- POWer Query
- SENSe Subsystem
- SOURce] Subsystem
- STATus Subsystem
- STEP Command
- SYSTem Subsystem
- TRIGger Subsystem
- VOLTage Subsystem
- Status Tutorial
- Questionable Status Groups
- Standard Event Status Group
- Status Byte Register
- Status Diagram
- Trigger Tutorial
- Trigger Diagram
- Reset State (*RST)
- SCPI Error Messages
- Compatibility Commands
- Verification and Calibration
- Test Equipment and Setups
- Measurement Setups
- Performance Verification
- Verification Setups
- Verification Procedure
- Instrument Calibration
- Calibration Interval
- Test Considerations
- current calibration
- Test Record Forms
- Service and Maintenance
- Introduction
- Cleaning
- Self-Test Procedure
- Firmware Update
- Instrument Sanitize
- Calibration Switches
- Battery Replacement
- Disassembly
- Control Board Disassembly
- Constellation Board Disassembly
- Appendix A Keysight SD1000A Safety Disconnect System
- Keysight SD1000A Safety Disconnect System
- Supplemental Characteristics
- Installing the Keysight SD1000A Safety Disconnect System
- External Control Connections
- Operating the Keysight SD1000A Safety Disconnect System
- Controlling the SDS Using Externally Wired Controls
- Index
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CURRent SubsystemCurrent commands program the output current of the instrument.[SOURce:]CURRent[:LEVel][:IMMediate][:AMPLitude] <value>|MIN|MAX[SOURce:]CURRent[:LEVel][:IMMediate][:AMPLitude]? [MIN|MAX][SOURce:]CURRent[:LEVel]:TRIGgered[:AMPLitude] <value>|MIN|MAX[SOURce:]CURRent[:LEVel]:TRIGgered[:AMPLitude]? [MIN|MAX]Sets the immediate or triggered current level when the output is operating in current priority mode.The triggered level is a stored value that is transferred to the output when an output Step istriggered. Units are in amperes. The maximum value depends on the current rating of the unit. Theminimum value is the most negative value.Parameter Typical Return-102% to 102% of rating, *RST 0 Sets the positive current limit to 2 A: CURR:LIM 2[SOURce:]CURRent:BWIDth:LEVel 0 | 1, <value>|MIN|MAX[SOURce:]CURRent:BWIDth:LEVel? [MIN|MAX]Specifies the low-pass filter corner frequency applied to the programming setpoint signal with theindicated range of user-configurable setpoints. The value is in Hertz. The default frequency isoptimized for maximum up-programming speed as well as the fastest transient response time. It canbe reduced to compensate for output overshoots.Parameter Typical Return0 | 1 0 or 110 to 5,000 all ranges Sets the current bandwidth to 1, frequency 60 Hz: CURR:BWID:LEV 1, 60[SOURce:]CURRent:BWIDth:RANGe 0 | 1[SOURce:]CURRent:BWIDth[:RANGe]?Sets the current compensation. This lets you optimize output response time with inductive loads.These compensation modes only apply when the unit is operating in current priority mode.0 - provides maximum up-programming speed and the fastest transient response time when theoutput inductance is restricted to small values.1 - best suited for stability with a wide range of output inductances. Refer to Set the Output Bandwidthfor specific inductive load limits.Keysight RP7900 Series Operating and Service Guide 1835 SCPI Programming Reference
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