Agilent Technologies 8510 manual Appendix a Calibration kit entry procedure, Disk procedure

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Appendix A

Calibration kit entry procedure

Calibration kit specifications can be entered into the Agilent 8510 using the 8510 disk drive, a disk drive connected to the system bus, by front panel entry, or through program control by an external controller.

Disk procedure

This is an important feature since the 8510 can internally store only two calibration kits at one time while multiple calibration kits can be stored on a single disk.

Below is the generic procedure to load or store cal- ibration kits from and to the disk drive or disk interface.

To load calibration kits from disk into the

Agilent 8510

1.Insert the calibration data disk into the 8510 network analyzer (or connect compatible disk drive to system bus).

2.Press the DISC key; select STORAGE IS: INTERNAL or EXTERNAL; then press the following display softkeys:

LOAD

CAL KIT 1-2

CAL KIT 1 or CAL KIT 2 (This selection determines which of the 8510 non-volatile registers that the calibration kit will be loaded into.)

FILE #_ or FILE NAME (Select the calibration kit data to load.)

LOAD FILE.

3.To verify that the correct calibration kit was loaded into the instrument, press the CAL key. If properly loaded, the calibration kit label will be shown under “CAL 1” or “CAL 2” on the CRT dis- play.

To store calibration kits from the Agilent 8510 onto a disk

1.Insert an initialized calibration data disk into the 8510 network analyzer or connect compatible disk drive to the system bus.

2.Press the DISC key; select STORAGE IS: INTERNAL or EXTERNAL; then press the following CRT displayed softkeys:

STORE CAL KIT 1-2

CAL KIT 1 or CAL KIT 2 (This selection determines which of the 8510 non-volatile calibration kit regis- ters is to be stored.)

FILE #_ or FILE NAME (Enter the calibration kit data file name.)

STORE FILE.

3.Examine directory to verify that file has been stored. This completes the sequence to store a cali- bration kit onto the disk.

To generate a new cal kit or modify an existing one, either front panel or program controlled entry can be used.

In this guide, procedures have been given to define standards and assign classes. This section will list the steps required for front panel entry of the stan- dards and appropriate labels.

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Contents Dis Product Information For Support Reference Only Table of contents Measurement calibration Measurement errorsIntroduction Calibration kit Class assignment Standard definitionStandard definitions table Standard class assignments Select standards Modification procedureStandard definition models Define standardsOpen circuit capacitance C0 , C1 , C2 and C3 Standard numberStandard type ΠfZ ΠfXShort circuit inductance L0 , L1, L2 and L3 ∆∅radians = 2πf ∆lengthTerminal impedance Offset delayFixed or sliding Offset Z0 Linear delay Actual delay = Fco/f21GHz Offset lossGHz C Z Log e10Lower/minimum frequency Λg = λ Co2 ∅radians = 2π = 2πfdelayUpper/maximum frequency Coax or waveguideStandard Classes Assign classesStandard labels Isolation S11 A,B,C and S22 A,B,CForward transmission match and thru Reverse transmission match and thruTRM Thru TRL ThruTRL Reflect TRL LineCalibration kit label Standard Class labelsTRL options Verify performance Enter standards/classesModeling an arbitrary impedance standard User modified cal kits and Agilent 8510 specificationsModification examples Modeling a thru adapterTo store calibration kits from the Agilent 8510 onto a disk Appendix a Calibration kit entry procedureDisk procedure To load calibration kits from disk into AgilentFront panel procedure P-band waveguide example Pshort Type-N coaxial connector interface Appendix B Dimensional considerations in coaxial connectorsMm coaxial connector interface Female type-N Page Equation Appendix C Cal coefficients modelTheir first order approximations, R is small and G=0, are Then Agilent Open Agilent Email UpdatesAgilent Direct