Agilent Technologies 6012B, 6010a, 6011A, 6023A, 6028A, 6015A manual Operating Instructions

Page 27

a.Check that the rear-panel mode switches are set as shown in Figure 3-3.

b.Check that + lead is connected to +S and the – lead is connected to –S and tightened securely. The + Sense lead is connected to + Output and the sense lead is connected to Output lead at the factory.

c.Check that the rear panel label indicates that the unit is set for the mains input voltage to be used. If not, refer to “Line Voltage Conversion” in chapter 2.

d.Plug the unit into the appropriate ac power outlet.

e.Turn the Voltage control all the way down (fully counter clockwise) and the Current control up slightly clockwise to ensure CV operation.

f.Check that the recessed OVP ADJUST control on the front panel is fully clockwise.

g.Press the top of the LINE rocker switch in to turn the power supply on. You should hear the fan. Check that the CV indicator remains on.

h.The VOLTS and AMPS displays should indicate approximately 0.00.

i.Press the momentary-contact DISPLAY OVP pushbutton switch and check that VOLTS display indicates maximum OVP for the power supply.

j.Press the DISPLAY SETTINGS switch, Turn the CURRENT knob clockwise, and check that the AMP setting increases. The CV indicator should be on and the CC indicator should be off.

k.Turn the VOLTAGE control clockwise and check that the output voltage increases from zero to full output voltage as indicated on VOLTS display. Continued clockwise rotation may cause VOLTS display to indicate + OL.

l.Check the overvoltage protection circuit by turning OVP ADJUST control counterclockwise until OVP circuit trips. Output should drop to 0 V, CV indicator turns off and OV indicator turn on .

m.Reset the OVP circuits by turning OVP ADJUST control fully clockwise and turning unit off and back on.

n.To check the constant current circuit, turn the power supply off and short rear panel + and - output terminals with a wire of sufficient gauge to carry the supply's maximum current output (see Table 3-3).

o.Turn the power supply on and adjust the CURRENT control clockwise. Check that the output current increases from zero to full output current as indicated on AMPS display. Continued clockwise rotation may cause AMPS display to indicate + OL. The CC indicator should be on and CV indicator should be off.

p.Turn off the power supply, remove the short from the output, and read following instructions before connecting load to supply.

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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 6028ASpecifications Instrument and Manual IdentificationOrdering 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 Installation Initial InspectionPreparation for Use Outline Diagrams Input Power RequirementsRack Mounting Power Connection Agilent Models 6010A, 6011A, 6012B and 6015AAgilent Models 6023A and 6028A Line Voltage Option Conversion Agilent 6010A, 6011A, 6012B Line Voltage Conversion Components Installation AC Line Impedance Check Repackaging for ShipmentModel Voltage Rear Panel Screw Sizes and Part Numbers Description Agilent Part numberAgilent 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 InterconnectionsMaximum Wire Lengths To Limit Voltage Drops Stranded Copper Wire AmpacityWire 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 Multiple-Supply Operation Constant Current Output, Voltage ControlAuto-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.
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