Agilent Technologies 6011A, 6010a, 6012B, 6023A, 6028A, 6015A manual Operating Modes, Normal Mode

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circuits within the supply the power supply output drops to zero and the UNREGULATED indicator turns on. The power supply can be disabled by overvoltage, overtemperature, or by low or high ac line (mains) voltage.

Overvoltage. If the voltage across the power supply output terminals rises above a preset level, possibly because of a hardware malfunction, the overvoltage protection (OVP) circuit will trip. If this occurs, the power supply will be disabled and the OV indicator turned on. To reset the OVP circuit, first ensure that the condition that caused the overvoltage is corrected, then turn the power supply off and back on.

Overtemperature. If the overtemperature protection circuit trips, the power supply will be disabled and the OT indicator turned on. The overtemperature circuit will reset automatically and the power supply output will be restored when the temperature drops sufficiently for safe operation.

AC Line Over/Under Voltage. If the ac line (mains) input voltage increases or decreases beyond the range for safe operation the power supply output may be disabled. The power supply output will be restored when the input voltage returns within range.

Operating Modes

Settings or the rear panel Mode switch determines the operating mode of the unit. In Normal operating mode the unit is set for local sensing, (where the output voltage is sensed directly at the output terminals) and front panel voltage and current programming. Other operating modes covered in this chapter include remote voltage sensing, remote programming of voltage and current using either external resistors or voltage sources, and multiple supply operation such as auto parallel and auto series.

Figure 3-3 shows six switches on the rear panel that configure the power supply programming (either front-panel controls) or remote analog programming (resistance or voltage). When shipped from the factory the switches are set for front-panel programming, which is the normal operating mode for this power supply. The two analog programming modes are available for use in special circumstances.

Typically, only one programming mode is used for both output parameters (voltage and current). However, the mode switches allow voltage and current to be programmed independently. For example, voltage could be programmed from the front panel, while current is resistance programmed. Note that only one programming mode can be used for each parameter at one time.

Normal Mode

The unit is shipped from the factory configured in the normal operating mode – with the + and – outputs jumpered to the + and sense connectors. The mode switch is set as shown in the following figure.

Figure 3-3. Factory Settings, Mode Switch

B6

B5

B4

B3

B2

B1

0

0 1

1Handle

The power supply can operate as a constant voltage (CV) or constant current (CC) source over a wide range of output voltage and current combinations. The specifications table contains a graph showing the overall output range of the power supply. Figure 3-4 shows a rectangular operating locus that is defined by voltage and current settings of the power supply. The load resistance determines the point on that locus at which the power supply actually operates. Three load-resistance lines are shown on Figure 3-4. The line representing load resistance A, the highest load resistance shown on the graph,

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Contents USER’S Guide Certification Safety Summary Safety Symbols Model Numbers Safety InformationManufacturer’s Name and Address Product NamesManufacturer’s Declaration HerstellerbescheinigungTable Of Contents Index VAC Input Power OptionDescription Safety ConsiderationsGeneral Information IntroductionAgilent Part No Description AccessoriesOption Description For Agilent Models 6023A and 6028AInstrument and Manual Identification SpecificationsOrdering Additional Manuals Related Documents 6011A Performance SpecificationsSupplemental Characteristics Agilent Technologies Model 6010A6028A 6012B6015A 6023ACertification Supplemental CharacteristicsTemperature Rating C ShippingOutput Characteristic Curve General Information Output Impedance General Information Initial Inspection InstallationPreparation for Use Input Power Requirements Outline DiagramsRack Mounting Agilent Models 6010A, 6011A, 6012B and 6015A Power ConnectionAgilent Models 6023A and 6028A Line Voltage Option Conversion Agilent 6010A, 6011A, 6012B Line Voltage Conversion Components Installation Repackaging for Shipment AC Line Impedance CheckModel Voltage Description Agilent Part number Rear Panel Screw Sizes and Part NumbersAgilent Model 6023A and 6033A Operating Instructions Front-Panel Controls and Indicators Operating InstructionsDisplay OVP Turn-On Checkout ProcedureOperating Instructions Connecting the Load Initial Setup and InterconnectionsStranded Copper Wire Ampacity Maximum Wire Lengths To Limit Voltage DropsWire Size Protective Shutdown Connecting a Bypass Capacitor Overvoltage Protection OVPOperating Modes Normal ModeDetermining Operating Point Overrange Operation Constant Voltage Operation Constant Current Operation Remote Voltage SensingBoth Voltage change due to open sense leadConstant Voltage Output, Resistance Control Analog ProgrammingVoltage Programming of Output Voltage Operating Instructions = Handle Constant Current Output, Voltage Control Multiple-Supply OperationAuto-Parallel Operation Series Operation 12. Auto-Parallel Operation13. Series Operation Monitor SignalsPage Manual Changes VAC Input Power OptionUsing Appendix a General InformationManual Changes Index Index Latin America Australia/New Zealand Agilent Sales and Support OfficeUnited States Canada Europe JapanManual Updates
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6015A, 6023A, 6028A, 6012B, 6011A, 6010a specifications

Agilent Technologies, a leader in the field of measurement and analysis, offers a suite of instruments within its 6010 and 6011 series, specifically the 6010A, 6011A, 6012B, and 6015A models. These devices are designed to meet the needs of various industries, including healthcare, environmental monitoring, and materials testing.

The Agilent 6010A is a high-performance spectrometer known for its precision and versatility. It utilizes advanced optical technologies to provide exceptional wavelength accuracy and resolution. This model is particularly useful in laboratories where reliable data is critical, offering a wide spectral range and effective noise reduction features. Its user-friendly interface simplifies complex analyses, making it suitable for both seasoned professionals and newcomers.

Following closely, the Agilent 6011A is recognized for its robust capabilities in laboratory environments. This device incorporates advanced signal processing techniques, enabling high-throughput measurements without compromising on quality. The 6011A is ideal for real-time monitoring applications, ensuring that users can make informed decisions based on accurate, timely data. Its comprehensive software suite is designed to enhance data analysis, allowing for seamless integration with existing laboratory workflows.

The 6012B variant enhances the functionality further by introducing additional features tailored for specific applications. With a focus on flexibility, the 6012B supports multiple measurement modes, including direct and differential detection. This model excels in complex measurements, allowing for greater analytical depth and insights. The built-in calibration options ensure consistent performance, making it a reliable choice for various research and development tasks.

Lastly, the Agilent 6015A model stands out with its leading-edge technology, designed for the most demanding applications. It boasts enhanced sensitivity and an improved dynamic range, making it perfect for trace analysis in challenging environmental samples. The 6015A’s advanced reporting tools provide detailed analytics, helping scientists and researchers interpret results efficiently. Its compact design also makes it suitable for laboratory spaces with limited room, without sacrificing performance.

Together, these models showcase Agilent Technologies' commitment to delivering high-quality, innovative solutions that empower users to achieve their analytical goals effectively and efficiently. Whether in a research, clinical, or industrial setting, the 6010A, 6011A, 6012B, and 6015A continue to set standards in precision instrumentation.