Agilent Technologies 6050A Rear Panel Connectors and Switches, Gpib Address, Wire Size Strip back

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GPIB Address

The GPIB address of the Electronic Load is factory set to address 5. The GPIB address can only be set using the front panel and ENTRY keys. Chapter 4 explains how to change the GPIB address.

Rear Panel Connectors and Switches

Figure 3-8 shows the rear panel of the Agilent 6050A Electronic Load. The input binding posts, control connectors, and trigger connector are used for application connections.

Figure 3-8. Rear Panel

Input Binding Posts

Two screw-down binding posts (+ and -) are provided on each module for connecting the input wires to the Electronic Load (see Figure 3-9). Connections are made as follows:

1.Strip back the wire insulation as indicated:

Wire Size

Strip back:

AWG 4

6 mm (0.65 in.)

AWG 6 or 8

13 mm (0.5 in.)

AWG 10 or smaller

10 mm (0.4 in.)

AWG 4 is the maximum wire size. Stranded copper wire, size AWG 6 or 8, is the recommended wire. If you are connecting more than one wire on each post, twist the wires to ensure a good contact when the adjustment knob is tightened.

2. Insert the wire into the binding post.

SHOCK HAZARD To prevent accidental contact with hazardous voltages, do not extend the wire beyond the contact area inside the binding post.

40 Installation

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Contents Operating Manual Certification Safety Summary Safety Summary Symbol DescriptionHerstellerbescheinigung Manufacturer’s DeclarationPrinting History Page Table of Contents Installation Local OperationRemote Operation Considerations for Operating in Constant Resistance ModeCalibration Page Options What’s In This ManualGeneral Information Safety Requirements SpecificationsDimensions Page Introduction Operation OverviewFront Panel Description Local/Remote ControlRemote Programming Programmable Features Extended Power OperationModes of Operation Immediate Current Level Constant Current CC ModeTriggered Current Level Constant Resistance CR Mode Transient Current LevelSoftware Current Limit Slew RateConstant Voltage CV Mode Immediate Resistance LevelTriggered Resistance Level Transient Resistance LevelTransient Voltage Level Triggered Voltage LevelTransient Operation Continuous Transient Operation Hpsl Command DescriptionPulsed Transient Operation Selects pulsed transient operation Selects the external trigger inputSets pulse width to 1 millisecond Triggering a preset level Selects the external trigger input sourceSelects toggled operation Triggering a transient pulseSlew Rate And Minimum Transition Time Risetime Transition LimitationInput Current, Voltage, and Power Measurement Transition Times and Slew Rates Short On/OffReading Remote Programming Errors Saving and Recalling SettingsInput On/Off Resetting Latched Protection Protection FeaturesStatus Reporting Overvoltage OverpowerOvercurrent Control Connector OvertemperatureReverse Voltage Remote SensingFault External Programming InputPage Installing The Modules InspectionPower Cord Configurations Procedure Installing The Mainframes Channel NumberCooling Turn-On CheckoutRack Mounting Line Voltage Switches Changing Line VoltageGpib Errors Channel Errors DescriptionTurn-On/Selftest Display DescriptionPower Test Controller ConnectionRear Panel Connectors and Switches Wire Size Strip backGpib Address AWGInput Binding Post Control Connector Sense SwitchPins Al and A2 +Sand -SIM and VM Com pin A3Wiring Considerations Trigger ConnectorApplication Connections Stranded Copper Wire Ampere Capacity Wire Size AmpacityLocal Sense Connections Remote Sense ConnectionsMaximum Wire Lengths to Limit Voltage Drops Zero-Volt Loading Connections12. Local Sensing 14. Parallel Operation Page Local Operation Local OperationControls and Indicators Description Chan Keys Function Keys Local Control Overview Using The Chan Keys Using The Function Keys Selecting the ChannelIdentifying the Selected Channel Turning the Input On/OffRecommended Programming Sequence Setting the Mode of Operation Setting CC ValuesProgramming Ranges ExamplesSetting CR Values Examples Setting CV Values Programming RangeTransient Operation Shorting The Input Setting The Gpib Address Using The System KeysDisplaying Error Codes Changing Wake-up Settings Recalling the Factory Default ValuesPage Enter/Output Statements Gpib AddressOutput EnterSending a Remote Command Selecting a ChannelGetting Data Back Output 705 MeascurrRemote Programming Commands CC Mode Example CV Mode ExampleOutput 705INPUT on Output 705MEASCURR? Output 705 Chan 2INPUT OFF Output 705MODEVOLTRemote Programming Flowchart Sheet Remote Programming Flowchart Sheet CR Mode Example Output 705INPUT on Output 705MEASPOW?Continuous Transient Operation Example Output 705CHAN 2INPUT OFF Output 705MODECURRSynchronous Toggled Transient Operation Example Pulsed Transient Operation ExampleOutput 705CHAN 1INPUT OFF Output 705MODEVOLT Output 705 Trigsour TIM Page Equipment Required CalibrationCalibration Commands CharacteristicsEquipment Required for Calibration Recommended ModelCalibration Flowcharts Example ProgramsCalibration Flowchart for a Modules Calibration Flowchart for a Modules Calibration Flowchart for a Modules Pause Program Listing for a ModulesPause Subend Print Voltage Calibration END if ElseLine 610 Set low calibration point Calibration Flowchart for B Modules Calibration Flowchart for B Modules Calibration Flowchart for B Modules Program Listing for B Modules Clear Screen Print TABXY10,10CALIBRATION DoneWait 1260 If Flag then 1270 Output @LdRESReshipt 1280 Considerations For Operating In Constant Resistance Mode Considerations For Operating In Constant Resistance ModeConsiderations For Operating In Constant Resistance Mode Index IndexIndex Index 19, 20, 21 Agilent Sales and Support Offices Agilent Sales and Support OfficesManual Updates

6051A, 6050A specifications

Agilent Technologies has long been a leader in providing high-performance test and measurement solutions, and the 6050A and 6051A models exemplify this commitment to quality and innovation. The 6050A and 6051A are versatile signal generators that cater to a diverse range of applications, including research and development, manufacturing, and education, making them essential tools in laboratories and production environments.

The Agilent 6050A is a high-performance RF signal generator known for its frequency range capabilities, which span from 100 kHz to 20 GHz. It offers exceptional phase noise performance and low harmonic distortion, making it ideal for applications that require high signal integrity. The device supports various modulation formats, including AM, FM, and pulse modulation, allowing users to generate a wide range of test signals to simulate real-world conditions.

The 6051A builds upon the robust features of the 6050A with enhanced specifications and additional functionalities. It features a larger frequency modulation bandwidth, pushing the envelope for applications requiring more complex signal generation. The 6051A showcases a superior output power range, ensuring that test signals can be reliably produced at varying power levels. This model also includes advanced output control options that allow for precise signal manipulation, making it particularly suited for testing amplifiers and other RF components.

Both models share core technologies that ensure reliable performance, such as direct digital synthesis (DDS) and phase-locked loop (PLL) architectures. These technologies contribute to the exceptional frequency stability and accuracy that engineers and scientists have come to rely on. Additionally, the user-friendly interface integrated into both models simplifies operation and allows for quick configuration changes, facilitating efficient research and testing workflows.

With comprehensive connectivity options, including GPIB, USB, and Ethernet, the 6050A and 6051A can easily integrate into automated test environments. Their reliability, performance, and flexibility make them a perfect choice for those looking to advance their testing capabilities, whether in academic research, product development, or quality assurance in manufacturing.

In summary, the Agilent Technologies 6050A and 6051A signal generators are powerful tools designed to meet the demands of modern RF testing. Their advanced features, paired with Agilent’s reputation for quality and precision, make them invaluable assets in any engineering or research portfolio. Whether you require sophisticated signal generation for prototype testing or educational purposes, these models will deliver the performance needed to support your objectives.