Agilent Technologies 8510 manual Then

Page 31

then:

Equation 5

Equation 6

If the Offset delay=0, then the coefficient of reflection,

Γ= ΓL.

31

Image 31
Contents Dis Product Information For Support Reference Only Table of contents Introduction Measurement errorsMeasurement calibration Calibration kit Class assignment Standard definitionStandard definitions table Standard class assignments Select standards Modification procedureStandard definition models Define standardsStandard type Standard numberOpen circuit capacitance C0 , C1 , C2 and C3 ΠfZ ΠfXShort circuit inductance L0 , L1, L2 and L3 ∆∅radians = 2πf ∆lengthFixed or sliding Offset delayTerminal impedance 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 labels Assign classesStandard Classes Isolation S11 A,B,C and S22 A,B,CForward transmission match and thru Reverse transmission match and thruTRM Thru TRL ThruTRL Reflect TRL LineTRL options Standard Class labelsCalibration kit label 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 Mm coaxial connector interface Appendix B Dimensional considerations in coaxial connectorsType-N 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 Direct Agilent Email UpdatesAgilent Open