KEPCO BOP 1KW-MG Operator Manual, Firmware Ver.4.12 and higher User Manual
Kepco, Operator’s manual, Bop-mg 1kw
KEPCO
®
THE POWER SUPPLIER™
MODEL
OPERATOR’S MANUAL
ORDER NO.
KEPCO, INC. ! 131-38 SANFORD AVENUE ! FLUSHING, NY. 11355 U.S.A. ! TEL (718) 461-7000 ! FAX (718) 767-1102
email: [email protected] ! World Wide Web: http://www.kepcopower.com
KEPCO INC.
An ISO 9001 Company.
BOP-MG 1KW
HIGH POWER BIPOLAR POWER SUPPLY
BOP-MG 1KW
POWER SUPPLY
©2014, KEPCO, INC
P/N 243-1027-r18b
IMPORTANT NOTES:
1)
This manual is valid for the following Firmware Versions:
FIRMWARE VERSION
NOTE.
2)
A Change Page may be included at the end of the manual. All applicable changes and
revision number changes are documented with reference to the equipment serial num-
bers. Before using this Instruction Manual, check your equipment firmware version num-
ber to identify your model. If in doubt, contact your nearest Kepco Representative, or the
Kepco Documentation Office in New York, (718) 461-7000, requesting the correct revision
for your particular model and firmware version number.
3)
The contents of this manual are protected by copyright. Reproduction of any part can be
made only with the specific written permission of Kepco, Inc.
Data subject to change without notice.
4.12 and higher
Document Outline
- SECTION 1 - INTRODUCTION
- SECTION 2 - INSTALLATION
- SECTION 3 - OPERATION
- SECTION 4 - CALIBRATION
- FIGURE 1-1. High Power BOP Series Power Supply
- SECTION 1 - INTRODUCTION
- 1.1 Scope of Manual
- 1.2 General Description
- 1.3 Specifications
- TABLE 1-1. BOP 1000 Watt Model Parameters
- TABLE 1-2. BOP General Specifications
- 1.4 Local Control
- 1.5 Remote Control
- FIGURE 1-2. 1000W BOP Power Supply, Outline Drawing
- 1.6 Features
- 1.6.1 Digital Calibration
- 1.6.2 voltage/current Protection
- 1.6.3 Waveforms
- 1.6.4 Saving and Recalling Settings
- 1.6.5 External Reference (Analog Control)
- 1.6.6 External Limits
- 1.6.7 User-defined Voltage/Current Maximum Values (Software Limits)
- 1.6.8 Parallel and Series Configurations
- 1.6.9 Energy Recuperation
- 1.7 Equipment Supplied
- TABLE 1-3. Equipment Supplied
- 1.8 Accessories
- TABLE 1-4. Accessories
- 1.9 Safety
- TABLE 1-5. Safety Symbols
- FIGURE 1-3. BOP Output Characteristics
- SECTION 2 - INSTALLATION
- 2.1 Unpacking and Inspection
- 2.2 Terminations and Controls
- FIGURE 2-1. BOP Series Rear Panel
- TABLE 2-1. Rear Panel Connector Functions
- TABLE 2-2. IEEE 1118 Connector Input/Output Pin Assignments
- TABLE 2-3. Trigger Port Pin Assignments
- TABLE 2-4. External Protection Connector Input/Output Pin Assignments
- TABLE 2-5. RS232C PORT Input/Output Pin Assignments
- TABLE 2-6. Parallel/Serial Control Out Port Pin Assignments
- TABLE 2-7. Parallel/Serial Control In Port Pin Assignments
- TABLE 2-8. Parallel/Serial Protect In Port Pin Assignments
- TABLE 2-9. Parallel/Serial Protect Out Port Pin Assignments
- TABLE 2-10. Analog I/O Port Input/Output Pin Assignments
- 2.3 Preliminary Operational Check
- TABLE 2-11. IEEE 488 Port Input/Output Pin Assignments
- 2.4 Installation
- 2.4.1 Rack Mounting
- 2.4.2 Slide Installation
- 2.5 Wiring Instructions
- 2.5.1 Safety Grounding
- 2.5.2 Source Power Connections
- 2.5.3 D-C Output Grounding
- 2.5.3.1 Earth-Ground Configuration
- FIGURE 2-2. Earth Ground Connection Recommendations
- 2.5.3.2 Grounding Network Configuration
- 2.5.4 Power Supply/Load Interface
- 2.5.5 Load Connection - General
- 2.5.6 Load Connection Using Local Sensing
- 2.5.7 Load Connection Using Remote Sensing
- 2.6 Cooling
- 2.7 Setting up the unit
- 2.7.1 Consider the Load Type
- 2.7.2 Setup for Local Operation
- FIGURE 2-3. Load Connections, Local Sensing
- FIGURE 2-4. Load Connections, Remote Sensing
- 2.7.3 Setup for Remote Operation via GPIB
- 2.7.4 Setup for Remote Operation via RS 232C
- 2.8 Multiple Unit Configurations
- 2.8.1 Multiple Unit Connections
- FIGURE 2-5. Parallel Configuration, Local Sensing, Typical
- FIGURE 2-6. Parallel Configuration, Remote Sensing, Typical
- FIGURE 2-7. Series Configuration, Local Sensing, Typical
- FIGURE 2-8. Series Configuration, Remote Sensing, Typical
- 2.8.2 Multiple Unit Protection
- 2.8.3 Multiple Unit Source Power
- FIGURE 2-9. Typical Master/Slave Protection Interconnections
- 2.8.4 Configuring Parallel, Series, 2 X 2 or 3 X 2 combinations
- TABLE 2-12. Multiple Units Menu Functions
- 2.8.5 Powering up Series/Parallel Combinations
- FIGURE 2-10. Master Power Up Screen
- TABLE 2-13. Slave Status Message Definitions
- FIGURE 2-11. Power On Default Screen for Master Unit
- FIGURE 2-12. Power On Default Screen for Slave Unit
- 2.8.6 Operating Instructions for Multiple Unit Combinations
- 2.8.7 Restoring a Unit to Standalone Operation
- 2.8.8 Changing Multiple Unit configurations
- FIGURE 2-13. 3 x 2 (3 Series X 2 Parallel) Configuration, Local Sensing, Typical
- SECTION 3 - OPERATION
- 3.1 General
- 3.2 Power Supply Basics
- FIGURE 3-1. BOP Series Front Panel
- 3.2.1 Keypad Description
- TABLE 3-1. Front Panel Controls and Indicators
- FIGURE 3-2. Front Panel Keypad
- TABLE 3-2. Special Key Functions
- 3.2.2 LCD and Power-up Screen Description
- FIGURE 3-3. Power-up Screen Showing Graphic Meters
- FIGURE 3-4. Power-up Screen Showing Time Line Graph
- 3.2.3 Turning the Power Supply On
- 3.2.4 How to Access the menus
- 3.2.4.1 Overall menu Structure
- 3.2.4.2 How to Modify a Parameter
- 3.2.4.3 Password Setup.
- 3.2.4.4 How to Access a Password Protected Menu
- FIGURE 3-5. Password Protection Menu, Factory Defaults
- 3.2.5 Operator Convenience Functions (Display Menu)
- 3.2.5.1 Adjusting LCD Brightness, contrast and Background
- TABLE 3-3. Display (Operator Convenience) Menu Functions
- 3.2.5.2 Displaying Programmed Settings in RemoTe Mode
- 3.2.5.3 Enabling/Disabling Audible Beeps
- 3.2.5.4 Displaying Meters or Graph (Time line)
- 3.2.5.5 Waveform Stop
- 3.3 Local Mode Operation
- 3.3.1 Setting Local Mode
- 3.3.1.1 Keypad Lockout
- 3.3.1.2 Local Password Protection at Power-up
- 3.3.2 Setting Voltage or Current Mode
- 3.3.3 Programming Voltage or Current and Associated Protect Limits
- TABLE 3-4. Voltage and Current Parameter Definitions
- 3.3.3.1 Selecting Bipolar/Independent Protection Limits
- FIGURE 3-6. General Setup Menu
- FIGURE 3-7. Max/Min Settings Menu
- 3.3.3.2 Understanding Voltage and Current Protect Limits
- 3.3.3.3 Hidden Voltage and Current Protect Limits
- 3.3.4 Changing Maximum or Minimum Software-controlled Limits
- TABLE 3-5. Max/Min Settings Menu
- 3.3.4.1 Changing Maximum Accepted Voltage or Current (Main Channel Software Limits)
- 3.3.4.2 Changing Maximum/Minimum Protection Software-controlled Limits
- 3.3.4.3 External Limits
- 3.3.5 Enabling/Disabling DC Output Power
- 3.3.6 Determining How the Unit responds when Output is OFF (Load Type)
- TABLE 3-6. Power Supply Behavior when Output is set to OFF
- 3.3.7 Changing the Default Power up Settings
- TABLE 3-7. Examples Showing How Power-up Settings Function
- 3.3.8 Storing/Recalling Power Supply Output Settings
- 3.3.8.1 Understanding Abbreviations Used for Saved Settings
- TABLE 3-8. Save/recall menu
- 3.3.8.2 Viewing Saved Settings
- 3.3.8.3 Saving Settings and Erasing or Modifying Previously Saved settings
- FIGURE 3-8. Saved Setups Menu
- 3.3.8.4 Copying Previously Saved settings to a New Location
- 3.3.8.5 Applying Saved settings to the Output (Recall)
- 3.3.9 Waveform Generation
- 3.3.9.1 Protecting the Load When Accessing Waveforms
- 3.3.9.2 Waveform Overview
- FIGURE 3-9. Saved Waveforms Menu
- 3.3.9.3 Understanding How Waveforms Are Generated
- TABLE 3-9. Sine, Triangle and Ramp Waveform Frequency vs. Points
- TABLE 3-10. Square Waveform Frequency vs. Points
- 3.3.9.4 Waveform Specifications
- 3.3.9.5 Viewing Stored Waveforms
- FIGURE 3-10. Waveform Settings Menu
- 3.3.9.6 Executing a Waveform
- 3.3.9.7 Modifying Previously Stored Waveforms
- 3.3.9.8 Creating a New Waveform
- TABLE 3-11. Waveform Segment Details Menu
- TABLE 3-12. New Waveform Settings Menu
- 3.3.9.9 Using Segments to Build a Waveform
- FIGURE 3-11. Sample Waveform
- 3.3.9.10 Copying a Waveform
- 3.3.10 Reset
- 3.3.11 Operator Testing
- TABLE 3-13. Revisions/test Menu
- 3.3.12 Error Message Explanations
- TABLE 3-14. Error Message Explanations
- 3.4 Analog Remote Mode Programming
- 3.4.1 Remote Output off
- 3.4.1.1 Remote Shutdown
- FIGURE 3-12. Remote Shutdown Using External Power, Standalone or Multiple units
- FIGURE 3-13. Remote Shutdown Using Internal Power, Standalone Units
- FIGURE 3-14. Remote Shutdown Using Internal Power, Multiple Units,
- 3.4.1.2 Remote Standby
- FIGURE 3-15. Remote Standby, Standalone or Multiple Units
- 3.4.2 Voltage/Current Mode Control
- 3.4.3 Controlling the Output Using the BOP as a Power Amplifier
- 3.4.3.1 Fixed Gain using External Reference Control
- TABLE 3-15. Analog Remote Setup Menu
- 3.4.3.2 Variable Gain Using External Reference Level
- 3.4.4 External Protection Limits
- 3.4.4.1 Using Both Local/Digital and External Protection Limits
- 3.4.5 Monitoring Output Current Using an analog signal
- 3.5 Digital Remote Mode Programming
- 3.5.1 Operating Features Available only by Remote Commands
- 3.5.1.1 Expanded Waveforms and Programs
- 3.5.2 Programming Techniques to Optimize performance
- 3.5.2.1 Programming Voltage/Current Limit and Current/Voltage Limit
- 3.5.2.2 Making Sure the Previous Command is Complete
- FIGURE 3-16. Programming Example to Verify Previous Command has Completed
- 3.5.3 Remote Mode Setup
- 3.5.3.1 GPIB Port Setup
- 3.5.3.1.1 Changing the GPIB Address
- TABLE 3-16. Interface Settings Menu
- 3.5.3.1.2 Configure Device Clear (DCL) Control
- 3.5.3.1.3 Determining Whether *RST Command sets the Output Off or On
- TABLE 3-17. Operation of #RST Command
- 3.5.3.2 RS 232 Serial Port Setup
- 3.5.3.2.1 Select Baud Rate
- 3.5.3.2.2 Configure XON/XOFF Protocol
- 3.5.3.2.3 Configure Prompt Mode
- 3.5.3.3 Establish communication language
- 3.5.3.4 BIT 4882 Compatibility.
- 3.5.3.5 BIT 4886 Compatibility
- 3.5.3.5.1 LIST Command Differences in BIT 4886
- 3.5.3.5.2 Status Reporting Differences in BIT 4886
- 3.5.3.5.3 Trigger Operation Differences in BIT 4886
- 3.5.4 IEEE 488 (GPIB) Bus Protocol
- TABLE 3-18. IEEE 488 (GPIB) Bus Interface Functions
- TABLE 3-19. IEEE 488 (GPIB) Bus Command Mode Messages
- TABLE 3-20. IEEE 488 (GPIB) Bus Data Mode Messages
- 3.5.5 BOP VISA Instrument driver
- 3.5.6 RS232-C Operation
- 3.5.6.1 Serial INterface
- 3.5.6.2 RS 232 Implementation
- FIGURE 3-17. RS 232 Implementation
- 3.5.6.2.1 XON XOFF Method
- 3.5.6.2.2 Echo Mode
- 3.5.6.2.3 Prompt Method
- 3.5.6.3 Using SCPI commands for RS 232 Communication.
- 3.5.6.4 Isolating RS 232 Communication Problems
- 3.6 SCPI Programming
- 3.6.1 SCPI Messages
- 3.6.2 Common Commands/Queries
- 3.6.3 SCPI Subsystem Command/Query Structure
- 3.6.3.1 ABORt Subsystem
- 3.6.3.2 DISPlay Subsystem
- 3.6.3.3 INITiate Subsystem
- 3.6.3.4 LIST Subsystem
- FIGURE 3-18. Tree Diagram of SCPI Commands Used with BOP Power Supply
- 3.6.3.5 MEASure Subsystem
- 3.6.3.6 OUTPut Subsystem
- 3.6.3.7 MEMory Subsystem
- 3.6.3.8 STATus Subsystem
- 3.6.3.9 TRIGger subsystem
- 3.6.3.10 [SOURce:]VOLTage and [SOURce:]CURRent Subsystems
- 3.6.3.11 CALibrate Subsystem
- 3.6.3.12 System Subsystem
- 3.6.3.12.1 Forgotten Passwords
- 3.6.4 Program Message Structure
- FIGURE 3-19. Message Structure
- 3.6.4.1 Keyword
- TABLE 3-21. Rules Governing Shortform Keywords
- 3.6.4.2 Keyword Separator
- 3.6.4.3 Query Indicator
- 3.6.4.4 Data
- 3.6.4.5 Data Separator
- 3.6.4.6 Message Unit Separator
- 3.6.4.7 Root Specifier
- 3.6.4.8 Message Terminator
- 3.6.5 Understanding The Command Structure
- 3.6.6 Program Message Syntax Summary
- 3.6.7 Status Reporting
- 3.6.7.1 Status Reporting Structure
- FIGURE 3-20. Status Reporting Structure
- FIGURE 3-21. Typical Example Of BOP Power Supply Program Using SCPI Commands
- 3.6.7.2 Operational Status Register
- 3.6.7.3 QUEStionable Status Register
- 3.6.8 SCPI Program Examples
- SECTION 4 - CALIBRATION
- 4.1 General
- TABLE 4-1. Calibration Summary
- 4.2 Test Equipment Requirements
- TABLE 4-2. Suggested Sense Resistors
- TABLE 4-3. Voltage Calibration Measurements and Tolerances
- TABLE 4-4. Current Calibration Measurements and Tolerances
- 4.3 Calibration using Remote SCPI commands via GPIB or RS 232 Interface
- 4.3.1 Calibration Procedure using SCPI Commands
- FIGURE 4-1. Calibration Setup for Voltage Mode
- FIGURE 4-2. Calibration Setup for Current Mode
- 4.4 Calibration Using Front Panel Keypad in Local Mode
- 4.4.1 Understanding the Calibration Process
- FIGURE 4-3. Main Calibration Screen
- 4.4.2 Calibration Procedure using Local Mode
- 4.5 Calibration Storage
- TABLE 4-5. Calibration Storage
- APPENDIX A - SCPI COMMON COMMAND/QUERY DEFINITIONS
- A.1 Introduction
- TABLE A-1. IEEE 488.2 Command/query Index
- A.2 *CLS — Clear Status Command
- A.3 *ESE — Standard Event Status Enable Command
- TABLE A-2. Standard Event Status Enable Register and Standard Event Status Register Bits
- A.4 *ESE? — Standard Event Status Enable Query
- A.5 *ESR? — Event Status Register Query
- A.6 *IDN? — Identification Query
- A.7 *OPC — Operation Complete Command
- A.8 *OPC? — Operation Complete Query
- FIGURE A-1. GPIB Commands
- A.9 *OPT? — Options Query
- A.10 *RCL — Recall Command
- A.11 *RST — Reset Command
- A.12 *SAV — Save Command
- A.13 *SRE — Service Request Enable Command
- TABLE A-3. Service Request Enable and Status Byte Register Bits
- A.14 *SRE? — Service Request Enable Query
- A.15 *STB? — Status Byte Register Query
- A.16 *TRG — Trigger Command
- A.17 *TST? — Self Test Query
- TABLE A-4. Built-in test Error Codes
- A.18 *WAI — Wait-To-Continue Command
- APPENDIX B - SCPI COMMAND/QUERY DEFINITIONS
- B.1 Introduction
- TABLE B-1. SCPI Subsystem Command/query Index
- B.2 Numerical Values
- B.3 ABORt Command
- B.4 CAL Commands and Queries
- B.5 INITiate[:IMMediate] Command
- FIGURE B-1. Programming the Output
- B.6 INITiate:CONTinuous Command
- B.7 INITiate:CONTinuous Query
- B.8 MEASure[:SCALar]:CURRent[:DC]? Query
- B.9 MEASure[:SCALar]:MODE[:DC] Command
- B.10 MEASure[:SCALar]:VOLTage[:DC]? Query
- B.11 MEASure[:SCALar]:TRANsient[:DC]? QUERY
- B.12 MEMory:UPDate Command
- FIGURE B-2. Using List Commands to measure sample at End of Pulse
- FIGURE B-3. Using List Commands to measure sample at Start of Pulse
- B.13 OUTPut[:STATe] Command
- B.14 OUTPut[:STATe] Query
- B.15 OUTPut:CONTrol Command
- B.16 OUTPut:CONTrol? Query
- B.17 OUTPut:MODE Command
- B.18 OUTPut:MODE? Query
- B.19 [SOURce:]CURRent[:LEVel][:IMMediate][:AMPlitude] Command
- B.20 [SOURce:]CURRent[:LEVel][:IMMediate][:AMPlitude] Query
- B.21 [SOURce:]CURRent[:LEVel]:LIMIT[:BOTH] Command
- B.22 [SOURce:]CURRent[:LEVel]:LIMIT[:BOTH]? Query
- B.23 [SOURce:]CURRent[:LEVel]:LIMIT:NEG Command
- B.24 [SOURce:]CURRent[:LEVel]:LIMIT:NEG? Query
- B.25 [SOURce:]CURRent[:LEVel]:LIMIT:POS Command
- FIGURE B-4. Setting Limits
- B.26 [SOURce:]CURRent[:LEVel]:LIMIT:POS? Query
- B.27 [SOURce:]CURRent:MODE Command
- B.28 [SOURce:]CURRent:MODe? Query
- B.29 [SOURce:]CURRent[:LEVel]:PROTect[:BOTH] Command
- B.30 [SOURce:]CURRent[:LEVel]:PROTect[:BOTH] Query
- B.31 [SOURce:]CURRent[:LEVel]:PROTect:MODE Command
- B.32 [SOURce:]CURRent[:LEVel]:PROTect:MODE? Query
- B.33 [SOURce:]CURRent[:LEVel]:PROTect:NeGative Command
- B.34 [SOURce:]CURRent[:LEVel]:PROTect:NeGative? Query
- B.35 [SOURce:]CURRent[:LEVel]:PROTect:POSitive Command
- B.36 [SOURce:]CURRent[:LEVel]:PROTect:POSitive? Query
- B.37 [SOURce:]CURRent[:LEVel]:PROTect:LIMit[:BOTH] Command
- B.38 [SOURce:]CURRent[:LEVel]:PROTect:LIMit[:BOTH]? Query
- B.39 [SOURce:]CURRent[:LEVel]:PROTect:LIMit:NeGative Command
- B.40 [SOURce:]CURRent[:LEVel]:PROTect:LIMit:NeGative? Query
- B.41 [SOURce:]CURRent[:LEVel]:PROTect:LIMit:POSitive Command
- B.42 [SOURce:]CURRent[:LEVel]:PROTect:LIMit:POSitive? Query
- B.43 [SOURce:]CURRent[:LEVel]:TRIGgered[:AMPlitude] Command
- B.44 [SOURce:]CURRent[:LEVel]:TRIGgered[:AMPlitude]? Query
- B.45 [SOURce:]FUNCtion:MODE Command
- B.46 [SOURce:]FUNCtion:MODE? Query
- B.47 [SOURce:]FUNCtion:MODE:TRIGger Command
- B.48 [SOURce:]FUNCtion:MODE:TRIGger? Query
- B.49 [SOURce:]LIST:CLEar Command
- FIGURE B-5. Using LIST Commands and Queries
- B.50 [SOURce:]LIST:COUNt Command
- B.51 [SOURce:]LIST:COUNt? Query
- B.52 [SOURce:]LIST:COUNt:SKIP Command
- B.53 [SOURce:]LIST:COUNt:SKIP? Query
- B.54 [SOURce:]LIST:CURRent Command
- TABLE B-2. List Data Table
- B.55 [SOURce:]LIST:CURRent? Query
- B.56 [SOURce:]LIST:CURR:APPLy Command
- B.57 [SOURce:]LIST:CURRent:APPLy:SWEep Command
- B.58 [SOURce:]LIST:CURRent:APPLy:SWEep? Query
- B.59 [SOURce:]LIST:CURRent:POINts? Query
- B.60 [SOURce:]LIST:DIVider Command
- B.61 [SOURce:]LIST:DIVider? Query
- B.62 [SOURce:]LIST:DWELl Command
- B.63 [SOURce:]LIST:DWELl? Query
- B.64 [SOURce:]LIST:DWELl:POINts? Query
- B.65 [SOURce:]LIST:QUERy Command
- B.66 [SOURce:]LIST:QUERy? Query
- B.67 [SOURce:]LIST:REPeat Command
- B.68 [SOURce:]LIST:RESolution? Query
- B.69 [SOURce:]LIST:SAMPle:CURRent Command
- B.70 [SOURce:]LIST:SAMPle:VOLTage Command
- B.71 [SOURce:]LIST:SAMPle? Query
- B.72 [SOURce:]LIST:SET:SAMPle Command
- B.73 [SOURce:]LIST:SET:SAMPle? Query
- B.74 [SOURce:]LIST:SET:TRIGger Command
- B.75 [SOURce:]LIST:SET:TRIGger? QUERY
- B.76 [SOURce:]LIST:SET:WAIT Command
- B.77 [SOURce:]LIST:SET:WAIT? QUERY
- FIGURE B-6. Using List:WAIT Commands to Control Generation of a Waveform Measured by Multiple External Devices using a Single External Pulse
- FIGURE B-7. Using List:WAIT Commands to allow an external device time to function while imposing a maximum wait time
- B.78 [SOURce:]LIST:TRIGger Command
- B.79 [SOURce:]LIST:VOLTage Command
- B.80 [SOURce:]LIST:VOLTage? Query
- B.81 [SOURce:]LIST:VOLTage:APPLy Command
- B.82 [SOURce:]LIST:VOLTage:APPLy:SWEep Command
- B.83 [SOURce:]LIST:VOLTage:APPLy:SWEep? Query
- B.84 [SOURce:]LIST:VOLTage:POINts? Query
- B.85 [SOURce:]LIST:WAIT:HIGH Command
- B.86 [SOURce:]LIST:WAIT:LEDGe Command
- FIGURE B-8. Using List:WAIT Commands to Control Generation of a Waveform Measured by Multiple External Devices using the Low-Going leading Edge of an External Pulse
- B.87 [SOURce:]LIST:WAIT:LOW Command
- B.88 [SOURce:]VOLTage[:LEVel][:IMMediate][:AMPlitude] Command
- B.89 [SOURce:]VOLTage[:LEVel][:IMMediate][:AMPlitude]? Query
- B.90 [SOURce:]VOLTage[:LEVel]:LIMit[:BOTH] Command
- B.91 [SOURce:]VOLTage[:LEVel]:LIMit[:BOTH]? Query
- B.92 [SOURce:]VOLTage[:LEVel]:LIMit:NEGative Command
- B.93 [SOURce:]VOLTage[:LEVel]:LIMit:NEGative? Query
- B.94 [SOURce:]VOLTage[:LEVel]:LIMit:posItive Command
- B.95 [SOURce:]VOLTage[:LEVel]:LIMit:posItive? Query
- B.96 [SOURce:]VOLTage:MODe Command
- B.97 [SOURce:]VOLTage:MODE? Query
- B.98 [SOURce:]VOLTage[:LEVel]:PROTect:BOTH Command
- FIGURE B-9. Using PROT:LIM:POS and PROT:LIM:POS Commands to Set Asymmetrical Limits
- B.99 [SOURce:]VOLTage[:LEVel]:PROTect[:BOTH]? Query
- B.100 [SOURce:]VOLTage[:LEVel]:PROTect:MODE Command
- B.101 [SOURce:]VOLTage[:LEVel]:PROTect:MODE? Query
- B.102 [SOURce:]VOLTage[:LEVel]:PROTect:NeGative Command
- B.103 [SOURce:]VOLTage[:LEVel]:PROTect:NeGative? Query
- B.104 [SOURce:]VOLTage[:LEVel]:PROTect:POSitive Command
- B.105 [SOURce:]VOLTage[:LEVel]:PROTect:POSitive? Query
- B.106 [SOURce:]VOLTage[:LEVel]:PROTect:LIMit:BOTH Command
- B.107 [SOURce:]VOLTage[:LEVel]:PROTect:LIMit[:BOTH]? Query
- B.108 [SOURce:]VOLTage[:LEVel]:PROTect:LIMit:NeGative Command
- B.109 [SOURce:]VOLTage[:LEVel]:PROTect:LIMit:NeGative? Query
- B.110 [SOURce:]VOLTage[:LEVel]:PROTect:LIMit:POSitive Command
- B.111 [SOURce:]VOLTage[:LEVel]:PROTect:LIMit:POSitive? Query
- B.112 [SOURce:]VOLTage[:LEVel]:TRIGgered[:AMPlitude] Command
- B.113 [SOURce:]VOLTage[:LEVel]:TRIGgered[:AMPlitude]? Query
- B.114 STATus:OPERation:CONDition? Query
- TABLE B-3. Operation Condition Register, Operation Enable Register, and Operation Event Register Bits
- B.115 STATus:OPERation:ENABle Command
- B.116 STATus:OPERation:ENABle? Query
- B.117 STATus:OPERation[:EVENt] Query
- B.118 STATus:PRESet Command
- B.119 STATus:QUEStionable[:EVENt]? Query
- TABLE B-4. Questionable Event Register, Questionable Condition Register and Questionable Condition Enable Register Bits
- B.120 STATus:QUEStionable:CONDition? Query
- B.121 STATus:QUEStionable:ENABle Command
- FIGURE B-10. Using Status Commands and Queries
- B.122 STATus:QUEStionable:ENABle? Query
- B.123 SYSTem:BEEP Command
- B.124 SYSTem:COMMunication:GPIB:ADDRess Command
- B.125 SYSTem:COMMunication:GPIB:ADDRess? Query
- B.126 SYSTem:COMMunication:SERial:BAUD Command
- B.127 SYSTem:COMMunication:SERial:BAUD? Query
- B.128 SYSTem:COMMunication:SERial:ECHO Command
- B.129 SYSTem:COMMunication:SERial:ECHO? Query
- B.130 SYSTem:COMMunication:SERial:PACE Command
- B.131 SYSTem:COMMunication:SERial:PACE? Query
- B.132 SYSTem:COMMunication:SERial:PROMpt CommanD
- B.133 SYSTem:COMMunication:SERial:PROMpt? Query
- B.134 SYSTem:ERRor? Query
- B.135 SYSTem:ERRor:CODE? Query
- B.136 SYSTem:ERRor:CODE:ALL? Query
- B.137 SYSTem:KEYBoard Command
- B.138 SYSTem:KEYBoard? Query
- B.139 SYSTem:PASSword:CENable Command
- B.140 SYSTem:PASSword:CDISable Command
- B.141 SYSTem:PASSword:NEW Command
- B.142 SYSTem:PASSword:STATe? Query
- B.143 SYSTem:REMote Command
- B.144 SYSTem:REMote? Query
- FIGURE B-11. Setting the Unit to Remote Mode via Serial (RS 232) Port
- B.145 SYSTem:SECurity:IMMediate Command
- B.146 SYSTem:SET Command
- B.147 SYSTem:SET? Query
- B.148 SYSTem:VERSion? Query
- FIGURE B-12. Using System Commands and Queries
- B.149 TRIGger:SOURce Command
- B.150 TRIGger:SOURce? Query
- TABLE B-5. Error Messages
- BOP 1000W QUICK REFERENCE GUIDE
- Utility
- Controlling the Output Using the Front Panel (Local)
- Power Supply Setup
- Controlling the Output Using External (Analog) Signals (Remote)
- Controlling the Output Using Digital Interface (Remote)
- Features