Agilent Technologies 85054-90049 manual Connecting the Sliding Load

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Use, Maintenance, and Care of the Devices

Connections

3.Apply downward force perpendicular to the wrench handle. See Figure 3-8. This applies torque to the connection through the wrench.

Do not hold the wrench so tightly that you push the handle straight down along its length rather than pivoting it, otherwise you apply an unknown amount of torque.

4.Tighten the connection just to the torque wrench break point. The wrench handle gives way at its internal pivot point. See Figure 3-8. Do not tighten the connection further.

CAUTION You don’t have to fully break the handle of the torque wrench to reach the specified torque; doing so can cause the handle to kick back and loosen the connection. Any give at all in the handle is sufficient torque.

Do not pivot the wrench handle on your thumb or other fingers, otherwise you apply an unknown amount of torque to the connection when the wrench reaches its break point.

Do not twist the head of the wrench relative to the outer conductor mating plane. If you do, you apply more than the recommended torque.

Connecting the Sliding Load

Use this procedure to connect the sliding load to a test port or a type-N cable connector.

NOTE

The sliding load uses a plastic centering bead to support its center conductor

 

when pin depth is adjusted and gaged and when the load is stored. Remove

 

this support bead from the sliding load before you connect the load for an

 

electrical calibration. Reinsert this support bead when you’ve finished using

 

the sliding load.

 

 

 

 

CAUTION

Circuitry inside the test set at the test ports may be destroyed if precautions

 

are not taken to avoid electrostatic discharge (ESD). During this procedure,

 

the center conductor of the sliding load is connected to the exposed center

 

conductor of the test port. Ground yourself to prevent electrostatic discharge.

 

 

CAUTION The sliding load center conductor can be damaged if the sliding load is not held in line when mating the load to a connector. Always line up the sliding load when connecting or removing it from a connector.

1.Refer to Figure 3-9. Loosen the center conductor pull-back nut completely. Press the center conductor cap to extend the center conductor of the sliding load beyond the end of the connector.

2.Continue to press the center conductor cap and mate the center conductor of the sliding load with the cable/test port connector’s center conductor.

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85054B

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Contents User’s and Service Guide Manufacturing Part Number Print Date JuneDocumentation Warranty Contents Replaceable Parts General Information Kit Contents Calibration Kit OverviewCalibration Definitions Equipment Required but Not SuppliedIncoming Inspection Serial Numbers Recording the Device Serial NumbersSerial Number Record for the 85054B Calibration Kits Documented in This Manual Calibration Kit History85054B Kits with Serial Prefix 2906A Precision Slotless Connectors Clarifying the Sex of a Connector Preventive MaintenanceSpecifications Temperature-What to Watch Out For Environmental RequirementsEnvironmental Requirements Mechanical Characteristics Pin DepthPin Depth Limits Electrical Specifications Electrical SpecificationsCertification Electrical Specifications 85054B Use, Maintenance, and Care of the Devices ESD Protection Setup Electrostatic DischargeWhat Causes Connector Wear? Visual InspectionLook for Obvious Defects and Damage First Inspect the Mating Plane SurfacesCleaning Connectors Inspect the Precision Slotless Connectors femaleUse Compressed Air or Nitrogen Clean the Mating Plane Surfaces InspectGaging Connectors Connector Gage AccuracyWhen to Gage Connectors Reading the Connector GageGaging Procedures Gaging Male Type-N ConnectorsGaging Male Type-N Connectors Gaging Female Type-N Connectors Gaging Female Type-N Connectors Gaging the Sliding Load Adjusting the Sliding Load Pin Depth Gaging the Sliding Load Pin DepthGaging Connectors Adjusting the Sliding Load Pin Depth How to Make a Connection Final Connection Using a Torque WrenchConnections Preliminary ConnectionWrench Positions Connecting the Sliding Load How to Separate a Connection Connecting the Sliding LoadUsing the Sliding Load 10 Using the Sliding Load Handling and Storage Performance Verification Introduction How Agilent Verifies the Devices in This KitWhere to Send a Kit for Recertification RecertificationHow Often to Recertify Recertification 85054B Troubleshooting Troubleshooting Process Troubleshooting FlowchartWhere to Look for More Information Returning a Kit or Device to AgilentContacting Agilent Contacting AgilentReturning a Kit or Device to Agilent 85054B Replaceable Parts Replaceable Parts for the 85054B Calibration Kit AdaptersItem No Description Replaceable Parts-Items Not Included in the Calibration Kit ESD Protective DevicesReplaceable Parts for the 85054B Calibration Kit More Replaceable Parts for the 85054B Calibration Kit Standard Definitions Version Changes Standard Class Assignments Class Standard Class LabelCalibration Kit Label N 50 Ω If you are performing a TRL calibration If you are performing a TRM calibrationIf you are performing an LRM calibration Standard Class Assignments Blank Forms Table A-4 Blank Form for the 8510 Network AnalyzerS11A S11B S11C S22A S22B S22C Table A-6 Blank Form for the PNA Series Network Analyzers Standard Class Assignments Setting the System Impedance Nominal Standard DefinitionsTable A-7 Standard Definitions for the 8510 Network Analyzer Calibration Kit Label N 50 Ω Frequency Standardb Offset GHzc Table A-10 Blank Form for the 8510 Network Analyzer Coax or Waveguide Standard LabelSystem Z 0 a = 50.0 Ω Frequency Standard b Offset GHz c Nominal Standard Definitions 85054B Index Index-2 85054B Index-3

85054-90049 specifications

Agilent Technologies 85054-90049 is a high-performance calibration kit designed for vector network analysis across a wide range of frequencies. This kit is an indispensable tool for engineers and technicians involved in the measurement and characterization of RF components, ensuring accuracy and reliability in their testing processes.

One of the main features of the 85054-90049 calibration kit is its ability to provide accurate calibration across multiple frequency bands, including microwave and millimeter-wave frequencies. This versatility is crucial for professionals who work with different types of RF devices, such as amplifiers, filters, and antennas. The kit supports a frequency range of up to 67 GHz, making it suitable for a variety of applications in the telecommunications and aerospace industries.

The calibration kit utilizes precision standards and adapters that ensure low insertion loss and minimal reflection. These components are engineered to provide high stability and repeatability in measurements, which is vital for maintaining quality control in manufacturing processes or during research and development stages. The accuracy of the calibration is further enhanced by the materials used in the construction of the connectors and adapters, which are designed to minimize signal degradation.

Another key technology employed in the Agilent 85054-90049 is its rugged design, intended to withstand the demands of laboratory environments as well as field applications. The kit is portable, allowing engineers to perform precision measurements wherever needed without compromising on performance. Its compact design and durable case make it an ideal choice for field applications.

The 85054-90049 calibration kit is also compatible with Agilent's range of vector network analyzers, creating a seamless user experience. The calibration process, supported by comprehensive software tools, is designed to be user-friendly, allowing technicians to perform calibrations quickly and accurately. In addition, the kit comes with detailed documentation that includes calibration procedures, ensuring that even those new to RF testing can follow along with ease.

In summary, the Agilent Technologies 85054-90049 is a state-of-the-art calibration kit that combines high performance, compatibility, and durability. Its advanced features cater to various RF testing needs, making it a vital resource for professionals in industries where precision measurements are of utmost importance. Whether in laboratories or field settings, this calibration kit stands out as a benchmark for quality in RF and microwave measurement applications.