Agilent Technologies Complete Guide to Portable Generator Operating Modes

Page 21

2 - General Information

Operating Modes

The three modes of operation are:

♦Constant current (CC).

♦Constant voltage (CV).

♦Constant resistance (CR).

When programmed to a mode, a module remains in that mode until the mode is changed or until a fault condition, such as an overpower or overtemperature, occurs.

The current, resistance, and voltage mode parameters described in subsequent paragraphs can be programmed whether or not the mode is presently selected. When a mode is selected via the front panel or via the GPIB or RS-232, most of the associated parameters will take effect at the input (exceptions are noted in the mode descriptions).

Constant Current CC (Mode)

In this mode, the module will sink a current in accordance with the programmed value regardless of the input voltage (see Figure 2-1). The CC mode can be set with front panel keys or via the GPIB or RS-232. The CC mode parameters are discussed in the following paragraphs.

Figure 2-1. Constant Current Mode

Ranges

Current may be programmed in either of two overlapping ranges, a Low range and a High range. The low range provides better resolution at low current settings. The range can be set at the front panel or via the GPIB (CURR:RANG command). When you program a current value, the electronic load automatically selects the range that corresponds to the value that you program. If the value falls in a region where ranges overlap, the electronic load selects the Low range. If the present input setting is outside the Low range, the electronic load will automatically adjust the input setting to the highest value available in the Low range. If you subsequently program an input value that is outside the Low range, an OUT OF RANGE message will appear on the front panel display.

Immediate Current Level

The current level can be set at the front panel or via the GPIB (CURR command). If the CC mode is the active mode, the new setting immediately changes the input at a rate determined by the slew setting (described below). If the module is not in the CC mode, the new setting is saved for use when the mode is changed to CC.

22

Image 21

Contents USER’S Guide Certification Warranty InformationGeneral Safety SummarySafety Symbols Declaration of Conformity DeclarationPrinting History Acoustic Noise InformationTable of Contents TURN-ON Checkout 101 Front Panel -At a Glance Quick ReferenceInstrument Configuration Rear Panel At a GlanceQuick Reference Use the Function keys and Entry keys to enter a new value Front Panel Number EntryImmediate Action Keys Front Panel AnnunciatorsFront Panel Menus At a Glance Voltage Quick Reference Front Panel MenusComplete description of all programming commands Scpi Programming Commands At a GlanceQuick Reference Scpi Commands Task Where to find information Document OrientationGetting Started Map Safety Considerations Options and AccessoriesDescription Features and Capabilities Front Panel ControlsRemote Programming Constant Current CC Mode Operating ModesImmediate Current Level General Information Triggered Current Level Constant Resistance CR ModeTransient Current Level Software Current LimitConstant Voltage CV Mode Triggered Resistance LevelTransient Resistance Level Transient Voltage Level Triggered Voltage LevelContinuous Transient Operation Transient OperationPulsed Transient Operation Toggled Transient OperationList Operation Triggering a preset levelTriggered Operation Triggering a transient pulseRisetime Transition Limitation Slew Rate and Minimum Transition TimeTransition Time Slew Rate Examples Resetting Latched Protection Protection FeaturesInput Control Short On/OffOvertemperature OverpowerGeneral Information Overvoltage OvercurrentReading Remote Programming Errors Reverse VoltageStatus Reporting External Control Signals Saving and Recalling SettingsRemote Sensing Monitor OutputsFault Input MeasurementsPort On/Off DC Measurements Power MeasurementsRMS Measurements Minimum and Maximum MeasurementsInspection CleaningDamage Packaging Material Items SuppliedInstalling the Modules ProcedureInstallation Channel Number Location3A. N3300A Outline Diagram Bench Operation Rack MountingDo not block the fan exhaust at the rear of the unit Power Cord Manually-Tightened ConnectorsInput Connections 6a. Manual Connector 8mm Screw Terminal Connector option UJ1Wire Considerations Stranded Copper Wire Ampere Capacity Wire Size AmpacityMaximum Wire Lengths to Limit Voltage Drops A1-A3 Control ConnectorA11 and A10 +S and -STrigger and Digital Connections Sense SwitchComputer Connections Gpib InterfaceRS-232 Interface Local Sense Connections Application ConnectionsRemote Sense Connections Parallel Connections11. Remote Sensing 13. Zero Volt Loading Low Voltage OperationCheckout Procedure IntroductionCheckout Programming Values Selftest Errors Error MessagesSelftest Error Codes Case of TroubleFront Panel, Overall View Front Panel DescriptionFront Panel Operation System Keys Display Command FunctionImmediate Action Keys Function keysScrolling Keys Metering KeysDisplay Measurement Inpshor Input Control KeysTransient Control Keys Trigger Control KeysList Control Keys Entry Keys Entry KeysSet the constant current mode input Using the Front Panel DisplayExamples of Front Panel Programming Programming Constant Current, Voltage and Resistance ModesSet the constant voltage mode input Set the constant resistance mode inputProgramming Transient Operation Set transient operation for Continuous modeSet transient operation for Toggled mode Set transient operation for Pulse modeTmode Togg Programming ListsList Sequence Query and Clear Errors as follows Querying and Clearing Output Protection and ErrorsMaking Basic Front Panel Measurements Use the Meter menu for making front panel measurementsStoring and Recalling Instrument States Setting the Gpib AddressSet the Gpib address as follows Save an instrument state in location 0 as followsSpecifications Specifications Table A-2. Supplemental Characteristics Specifications aN3302A N3303A N3304A N3305A N3306A SpecificationsEquipment Required Performance Test and Calibration ProceduresPerformance Tests CC Mode TestsImon Zero Verification Performance Test and CalibrationCC Mode Regulation Test CV Mode TestsPerformance Test and Calibration B Voltage Programming and Measurement Accuracy TestCV Mode Regulation Test CR Mode Tests Resistance Range 1 Programming AccuracyResistance Range 2 Programming Accuracy Resistance Range 4 Programming Accuracy Resistance Range 3 Programming AccuracyFrequency and Duty Cycle Accuracy Transient Generator Mode TestsOutput 705TRAN on Output 705TRIGIMM Performance Test and Calibration Pulse Width AccuracyAgilent N3302A Verification Test Record Agilent N3303A Verification Test Record Agilent N3304A Verification Test Record Agilent N3305A Verification Test Record Agilent N3306A Verification Test Record Calibration Figure B-3. Voltage Calibration Table B-2 Variables and Power Source Settings CalibrationParameters Calibrated IMON, Iprog and Current Calibration Program Performance Test and Calibration Wait Performance Test and Calibration Print TABXY9,15CALIBRATING High Voltage Range Voltage Calibration ProgramPerformance Test and Calibration Resistance Calibration Program Calibrating Range Performance Test and Calibration B 100 101 Index102 Index103 Canada Australia/New Zealand United States Latin AmericaEurope Asia Pacific JapanManual Updates