Agilent Technologies 668xA, 665xA, 664xA, 667xA, 669xA manual

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Contents Operating Guide Gpib DC Power Supplies Agilent Part No Microfiche Part No JanuaryCertification WarrantyLimitation of Warranty Exclusive RemediesSafety Summary GeneralPrinting History Safety Symbol DefinitionsSymbol Description HerstellerbescheinigungDeclaration of Conformity Manufacturer’s Name and Address6x4yA6x5yAE435xA.b.11.24doc.doc 6x4yA6x5yAE435xA.a.11.24doc.doc Table of Contents Controller Connections Connecting Series 667xA Power Supplies to the LoadIntroduction Getting Acquainted Programming the Output Front Panel Calibration Introduction Equipment Required General ProcedureOption 601 Installation 135 Option 602 Installation 136 Calibration Over the Gpib 100Quick Document Orientation General InformationIntroduction Topic LocationInstrument Identification Safety ConsiderationsOptions Description AccessoriesFamily Power Agilent Models Support rails E3663AC are requiredRemote Programming Front Panel ProgrammingAnalog Programming Series Specifications Characteristics Output CharacteristicSpecifications and Supplemental Characteristics GeneralCurrent@ 50C Output Ratings VoltageCurrent@ 40C Current@ 55CMaximum Input Power Average Resolution VoltageTemperature Coefficients change per C Voltage Output Programming Range maximumMaximum AC Line Current Ratings Vac nominal Auto-Parallel ConfigurationAnalog Programming IP & VP Input Signal Maximum Reverse Bias CurrentDimensions Width Digital Port CharacteristicsSafety Compliance Complies with Gpib Interface CapabilitiesOutput Impedance Curves Typical General Information 50 a 25 a 15 a 51.188 a 25.594 a 15.356 a 214 a 095 a Rms 15 AM fuse Digital Port Characteristics Output Impedance Curves Typical General Information Voltage 04% + Current0 . l % + Current@ 0 to 55C±Current ±Current Readback Typical Resolution VoltageMaximum Input VA and Power Analog Programming ±IP Current Monitor +IMCurrent Monitor Output +IM Output Signal Analog Programming IP & VP Input Signal VP Input ImpedanceIP to -IP Differential Input Signal Full-load programming speed up/down time time forWeight Net Output Characteristic Curve General InformationOutput Impedance Curves Typical General Information Output Ratings Voltage Current Current Monitor IM Output Signal VP Input Signal+ IP Input Signal Typical Common Mode Noise Current Rms Peak-to-peakLine fuse Maximum Reverse Voltage Current Sink CapabilityMaximum AC Line Current Ratings Range Rms line current Range Rms line currentDesigned to comply with Maximum memory write cyclesHeight Output Impedance Curves Typical Milliohms440 a 220 a 110 a Derated linearly 1%/C from 40 C to Drift Temperature Stability Max Power 6.67KW VoltageOvervoltage Protection OVP Typical Resolution Voltage Temperature Coefficients change per C9000 VA Output Characteristic Curve Vout Agilent 6691A Agilent 6690AAgilent 6692A Supplemental Gpib Characteristics for All Models Parameter Operator Replaceable Parts List Description Agilent Part NoOperator Replaceable Parts List Description Agilent Part No Damage Packaging Material InstallationInspection Items SuppliedTemperature Performance Location and TemperatureCleaning Bench OperationInstalling the Series 664xA and 665xA Power Cord Input Power SourceInstalling the Series 667xA Power Cord Connecting the Series 667xA Power Cord Installing the Series 668xA Power Cord Series 668xA/669xA Overall Wiring DiagramInstalling the Series 669xA Power Cord Connecting the Series 668xA Power CordConnecting the Series 669xA Power Cord Page Introduction Preliminary Checkout All Models Turn-On CheckoutTurn-On Checkout Output Checkout All Models Power-On Checkout All ModelsUsing the Keypad All Models Shifted KeysOpen or Connected to a Voltmeter Checking the Voltage FunctionPress Prot Clear Checking the Current Function Case of Trouble Checking the Save and Recall Functions All ModelsDetermining the Gpib Address All Models Line FuseSeries 664xA and 665xA Supplies Series 667xA SuppliesPower-On Error Messages Error Messages All ModelsSelftest Errors Series 668xA SuppliesPower-On Selftest Errors Display Failed Test Checksum ErrorsRuntime Error Messages Error Display Failed TestUser Connections Load Wire Selection All ModelsRear Panel Connections All Models Digital Connector All Models Analog Connector All ModelsPin No Fault/Inhibit Digital I/O Capacitive Loads Output IsolationLoad Considerations 6651A 6652A 6653A 6654AInductive Loads Battery ChargingLocal Voltage Sensing 6641A 6642A 6643A 6644A 6645A 6651A 6652A 6653A 6654A 6655ARemote Voltage Sensing Connecting One Supply to the Load StabilityConnecting Supplies in Auto-Parallel Program Slave 2 OVP to the Maximum Level Enable OCP on the MasterInsert Protection Diodes Wiring Considerations Connecting Supplies in SeriesExternal Voltage Control Connecting Series 667xA Power Supplies to the Load Programming4a. Series 667xA Rear Panel Output Connections 6671A 6672A 6673A 6674A 6675A Connecting the Sense Leads Connecting One Power Supply to a Single Load Connecting One Power Supply To Multiple LoadsConnecting Supplies in Auto-Parallel 4f. Series 667xA Series Connection Remote Sensing Optional Wiring Considerations -4g 4g. Series 667xA Analog Programming ConnectionsConnecting Series 668xA and 669xA Power Supplies to the Load Local Voltage Sensing Load Leads Remote Sense PointsInstructions supplied with the kit Connecting Supplies in Auto-Parallel Connecting Supplies in Series 5g. Series 668xA and 669xA Analog Programming Connections Stand-Alone Connections Controller ConnectionsLinked Connections Controller Connections Getting Acquainted Front Panel OperationFront Panel Operation Unr DisplayStatus Annunciators DisSystem Keys Front Panel Controls and IndicatorsOutput Rotary Controls Voltage Function KeysEstablishing Initial Conditions Line Switch On / OffProgramming the Output Entry Keys Thru Press to select numerical valuesProgramming Voltage Setting the OVP LevelProgramming Overvoltage Protection Checking OVP Operation Programming CurrentClearing The OVP Condition Programming Overcurrent Protection CV Mode vs. CC ModeSetting The OCP Protection Checking OCP OperationSaving and Recalling Operating States Unregulated OperationTurn-On Conditions Changing the Power Supply Gpib Address Setting the Gpib AddressTypes of Power Supply Gpib Addresses Action Display ShowsPage Equipment Required General ProcedureCalibration Parameters CalibratedFront Panel Calibration Series 668xA/669xA Setup Figure A-1. Calibration Test SetupCalibrating the OVP Trip Point Enabling the Calibration Mode PASWDlEntering Voltage Calibration Values Entering Current Calibration ValuesCalibration Error Messages Recovering From Calibration ProblemsTable A-3. Gpib Calibration Error Messages Meaning Calibration Over the Gpib Front Panel Corresponding Scpi CommandCalibration Language Dictionary Command Syntax CALibrateSAVE Parameters None Examples Command SyntaxCalcurrmon Series 668xA/669xA only Calvolt Agilent Basic Calibration ProgramFigure A-2. Agilent Basic Calibration Program 570 ! Line 590 Password Must be Edited for Model Other than Steps 640 Through 670 not Used on 664x, 665xList of Equipment Operation VerificationTest Equipment Required Current Monitoring ResistorFigure B-1. Verification Test Setup Performing the Tests Current Programming and Readback Accuracy Sufficient size to carry the maximum rated currentModel Agilent 6642A Voltage Programming and Readback Model Agilent 6641A Voltage Programming and ReadbackCurrent Programming and Readback Model Agilent 6643A Voltage Programming and ReadbackModel Agilent 6645A Voltage Programming and Readback Model Agilent 6653A Voltage Programming and Readback Model Agilent 6651A Voltage Programming and ReadbackModel Agilent 6652A Voltage Programming and Readback Model Agilent 6654A Voltage Programming and ReadbackModel Agilent 6655A Voltage Programming and Readback Model Agilent 6673A Voltage Programming and Readback Model Agilent 6671A Voltage Programming and ReadbackModel Agilent 6672A Voltage Programming and Readback Model Agilent 6674A Voltage Programming and ReadbackModel Agilent 6675A Voltage Programming and Readback Model Agilent 6682A Voltage Programming and Readback Model Agilent 6680A Voltage Programming and ReadbackModel Agilent 6681A Voltage Programming and Readback Model Agilent 6683A Voltage Programming and ReadbackModel Agilent 6684A Voltage Programming and Readback Model Agilent 6691A Voltage Programming and Readback Model Agilent 6690A Voltage Programming and ReadbackModel Agilent 6692A Voltage Programming and Readback Page Line Voltage Conversion Series 664xA and 665xA Power SuppliesLine Voltage Conversion Series 667xA Power Supplies Figure C-2. Series 665xA Line Select JumpersSeries 668xA/669xA Power Supplies Figure C-4. Removing the Series 668xA/669xA Inner Cover Fault/Inhibit Operation Digital ConnectorDigital Port Functions Figure D-2. Example of Inhibit Input Figure D-3. Examples of FLT Outputs IN/OUT 2 pin Changing the Port ConfigurationDigital I/O Operation Common pinRelay Link Operation CommonPage Function of Loop Compensation Current Loop Compensation Series 668xA OnlyCurrent Loop Compensation Series 668xA Only Current Loop Compensation Series 668xA Only Current Loop Compensation Series 668xA Only Setting the Loop Compensation Switch Figure E-1. CC Loop Compensation Curves For Model 6684AAutoparallel Procedure Using Agilent 668xA Series Power Supplies in Autoparallel Figure F-1 Master/Slave Current DivisionOption 601 Installation Output Bus Bar OptionsMinus Bus Bar Plus Bus Bar Customer bus rails Option 602 InstallationBus Bar Spacer, 5040-1699 Output Bus Bar OptionsIndex IndexGpib 6665xA, 24 667xA, 29 668xA, 34 669xA, 39 output isolation Index Europe Asia Pacific United States Latin AmericaCanada Australia/New Zealand JapanManual Updates
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668xA, 669xA, 667xA, 664xA, 665xA specifications

Agilent Technologies has long been a pioneer in the production of high-performance electronic test and measurement instruments, particularly in the field of power sources. Among its notable offerings are the Agilent 667xA, 669xA, 665xA, 664xA, and 668xA series of power supplies. These instruments are designed to provide stable, reliable power for a variety of applications, including electronic testing, industrial processes, and research laboratories.

The Agilent 667xA series is characterized by its programmability and advanced measurement functions. These power supplies support a wide range of output voltages and currents, allowing for flexible configurations that cater to different testing needs. The built-in measurement capabilities enable users to monitor the voltage, current, and power with high precision, which is essential for ensuring optimal performance in electronic applications.

The Agilent 669xA series stands out with its high-power outputs, making it suitable for demanding applications. These power supplies deliver high voltage and current levels, making them ideal for testing high-performance devices, such as power amplifiers and motor drives. Additionally, the 669xA series includes features such as overvoltage protection and complex output sequencing to enhance the safety and reliability of the testing process.

The Agilent 665xA and 664xA series focus on delivering high accuracy and excellent regulation. These models are particularly known for their low noise operation, which is critical for sensitive applications where precision is paramount. The integrated programming capabilities allow users to automate testing sequences, thus improving efficiency in research and development settings.

The 668xA series features advanced digital signal processing that enhances the precision and stability of the output. Users benefit from features like remote sensing and monitoring, allowing feedback adjustments that maintain output accuracy despite cable losses. Furthermore, the 668xA models can integrate seamlessly with various test environments thanks to their LAN, GPIB, and USB connectivity options.

Overall, the Agilent 667xA, 669xA, 665xA, 664xA, and 668xA power supplies provide a comprehensive range of solutions for diverse electronic testing needs. With their advanced features, superb measurement capabilities, and robust performance, these instruments empower engineers and researchers to conduct their work with confidence, precision, and efficiency.