Agilent Technologies 85054-90049 manual Adjusting the Sliding Load Pin Depth

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Use, Maintenance, and Care of the Devices

Gaging Connectors

NOTE

When performing pin depth measurements, use different orientations of the

 

gage within the connector. Averaging a minimum of three readings, each

 

taken after a quarter-turn rotation of the gage, reduces measurement

 

variations that result from the gage or the connector face not being exactly

 

perpendicular to the center axis.

 

 

11.Compare the average reading with the observed pin depth limits in Table 2-2 on page 2-4. If the pin depth is outside the limits, follow the procedure “Adjusting the Sliding Load Pin Depth.”

12.Loosen the connection between the gage and the sliding load, and remove the sliding load from the gage.

13.Leave the centering bead installed on the sliding load if you are going to adjust the pin depth. Carefully remove the centering bead from the sliding load if you’re going to use it for an electrical calibration. If the centering bead does not come out of the sliding load easily, loosen the center conductor pull-back nut, and press the center conductor cap to extend the center conductor. This should expose the centering bead so that it may be removed. Retract the center conductor and retighten the pull-back nut.

If the centering bead still will not come out, hold the sliding load with the connector end pointed down. Move the sliding element up, then quickly down. The trapped air behind the centering bead helps eject it.

CAUTION Damage can occur to the sliding load during the removal of a centering bead that has slipped too far into the sliding load. If you’re going to perform an electrical calibration, prevent damage by removing the centering bead immediately after gaging the sliding load pin depth. The sliding load will not perform to its specifications if the centering bead is not removed from the sliding load before an electrical calibration.

Figure 3-5 Gaging the Sliding Load Pin Depth

Adjusting the Sliding Load Pin Depth

The sliding loads in this kit have a setback mechanism that allows the pin depth to be set to any desired value. The pin depth of the sliding load is preset at the factory. The pin depth should not have to be reset each time the sliding load is used, but it should be checked before each use.

85054B

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Contents Manufacturing Part Number Print Date June User’s and Service GuideDocumentation Warranty Contents Replaceable Parts General Information Calibration Kit Overview Kit ContentsEquipment Required but Not Supplied Calibration DefinitionsIncoming Inspection Recording the Device Serial Numbers Serial NumbersSerial Number Record for the 85054B Calibration Kit History Calibration Kits Documented in This Manual85054B Kits with Serial Prefix 2906A Precision Slotless Connectors Preventive Maintenance Clarifying the Sex of a ConnectorSpecifications Environmental Requirements Temperature-What to Watch Out ForEnvironmental Requirements Pin Depth Mechanical CharacteristicsPin Depth Limits Electrical Specifications Electrical SpecificationsCertification Electrical Specifications 85054B Use, Maintenance, and Care of the Devices Electrostatic Discharge ESD Protection SetupInspect the Mating Plane Surfaces What Causes Connector Wear?Visual Inspection Look for Obvious Defects and Damage FirstInspect the Precision Slotless Connectors female Cleaning ConnectorsUse Compressed Air or Nitrogen Inspect Clean the Mating Plane SurfacesConnector Gage Accuracy Gaging ConnectorsReading the Connector Gage When to Gage ConnectorsGaging Male Type-N Connectors Gaging ProceduresGaging Male Type-N Connectors Gaging Female Type-N Connectors Gaging Female Type-N Connectors Gaging the Sliding Load Gaging the Sliding Load Pin Depth Adjusting the Sliding Load Pin DepthGaging Connectors Adjusting the Sliding Load Pin Depth Preliminary Connection How to Make a ConnectionFinal Connection Using a Torque Wrench ConnectionsWrench Positions Connecting the Sliding Load Connecting the Sliding Load How to Separate a ConnectionUsing the Sliding Load 10 Using the Sliding Load Handling and Storage Performance Verification How Agilent Verifies the Devices in This Kit IntroductionRecertification Where to Send a Kit for RecertificationHow Often to Recertify Recertification 85054B Troubleshooting Troubleshooting Flowchart Troubleshooting ProcessContacting Agilent Where to Look for More InformationReturning a Kit or Device to Agilent Contacting AgilentReturning a Kit or Device to Agilent 85054B Replaceable Parts Adapters Replaceable Parts for the 85054B Calibration KitItem No Description ESD Protective Devices Replaceable Parts-Items Not Included in the Calibration KitReplaceable Parts for the 85054B Calibration Kit More Replaceable Parts for the 85054B Calibration Kit Standard Definitions Version Changes Class Standard Class Label Standard Class AssignmentsCalibration Kit Label N 50 Ω If you are performing a TRM calibration If you are performing a TRL calibrationIf you are performing an LRM calibration Standard Class Assignments Table A-4 Blank Form for the 8510 Network Analyzer Blank FormsS11A S11B S11C S22A S22B S22C Table A-6 Blank Form for the PNA Series Network Analyzers Standard Class Assignments Nominal Standard Definitions Setting the System ImpedanceTable A-7 Standard Definitions for the 8510 Network Analyzer Calibration Kit Label N 50 Ω Frequency Standardb Offset GHzc Coax or Waveguide Standard Label Table A-10 Blank Form for the 8510 Network AnalyzerSystem 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.
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