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

Page 21

 

 

 

 

#8 Ring

 

 

 

 

 

Terminals

 

 

 

Option 831, 8120-5573, 12 AWG unterminated

 

 

 

 

Option 833, 8120-5568,

1.5 mm2 unterminated

 

 

 

 

Option 834, 8120-5566, 10 AWG unterminated

 

 

Option 841

Option 843

Option 845

Option 846

Option 847

Option 848

8120-5572

8120-5571

8120-5570

8120-5565

8120-5567

8120-5569

 

 

Agilent 6010A, 6011A, 6012B,

 

 

Option 900

Option 901

Option 902

Option 903

Option 904

Option 906

8120-1348

2151-3498

8120-1358

8120-1369

8120-1689

standard

plug only

8120-2104

 

 

HP 6023A, 6028A

 

 

Figure 2-2. Power-Cord Plug Configurations

Agilent Models 6023A and 6028A.

Line voltage conversion is accomplished via three components; a two-section line select switch, line voltage jumper, and a rear panel fuse. To convert the supply from one voltage to another, proceed as follows:

a.Unplug the power supply and wait 2 minutes for internal capacitors to discharge.

b.Remove the outside cover by removing the rear screw that holds the carrying strap, then carefully slide the cover to the rear of the supply until it is clear. Do not remove the front carrying strap screw.

c.The line voltage select switch (S2) is located in the front left corner of the supply (see Figure 2-3). Use a small-blade screwdriver to set the two switch sections to match the pattern silk-screened on p.c. main board as shown in Figure 2-3. For example, to set switches for 120 V operation (as illustrated), move forward switch section so that its white slot is toward front of supply and move rearward switch section so its white slot is toward rear of supply.

d.One end of W5 is soldered to motherboard; the other end has a female right-angle quick-connect terminal that fits onto one of two terminals soldered to motherboard. For 100 V or 120 V operation, W5 must be connected to terminal closer to center of supply; for 220 V or 240 V operation, W5 must be connected to terminal closer to side of supply. Be certain that jumper is firmly mated with terminal on motherboard. Do not grip jumper insulation with pliers; either grip jumper wire by hand or grip jumper terminal with pliers.

e.Check rating of fuse installed in rear-panel fuseholder. It should be 8 A for 100 or 120 Vac line voltages, or 4 A for 220 or 240 Vac line voltages. If necessary, replace the fuse with one of correct value. Do not use time-delay fuses.

8 AM, 250 Volt fuse; Agilent part number 2110-0383 4 AM, 250 Volt fuse; Agilent part number 2110-0055

f.Replace covers and clearly mark the supply with a tag or label indicating the correct line voltage and fuse to be used.

Installation 21

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Contents USER’S Guide Certification Safety Summary Safety Symbols Manufacturer’s Name and Address Safety InformationProduct Names Model NumbersManufacturer’s Declaration HerstellerbescheinigungTable Of Contents Index VAC Input Power OptionGeneral Information Safety ConsiderationsIntroduction DescriptionOption Description AccessoriesFor Agilent Models 6023A and 6028A Agilent Part No DescriptionSpecifications Instrument and Manual IdentificationOrdering Additional Manuals Related Documents Supplemental Characteristics Agilent Technologies Model Performance Specifications6010A 6011A6015A 6012B6023A 6028ATemperature Rating C Supplemental CharacteristicsShipping CertificationOutput 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 Using Appendix a VAC Input Power OptionGeneral Information Manual ChangesManual Changes Index Index United States Canada Agilent Sales and Support OfficeEurope Japan Latin America Australia/New ZealandManual 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.