1 BJT
Parallel resistance Rp=1/G
Series capacitance Cs=(1+D^2)*Cp
Reactance X=-1/(2*PI*Freq*Cs)
Series resistance Rs=D*abs(X)
Impedance Z=sqrt(Rs^2+X^2)
Phase Theta=atan(X/Rs)
[X-Y Plot]
X axis: Frequency Freq (LOG)
Y1 axis: Base-Collector capacitance (parallel capacitance) Cp (LINEAR)
Y2 axis: Conductance G (LINEAR)
[List Display]
Frequency Freq
Base-Collector capacitance (parallel capacitance) Cp
Conductance G
Series capacitance Cs
Series resistance Rs
Parallel resistance Rp
Dissipation factor D
Reactance X
Impedance Z
Phase Theta
Collector voltage Vcollector
[Test Output: X-Y Graph]
X axis: Frequency FreqList (LOG)
Y1 axis: Base-Collector capacitance (parallel capacitance) CpList (LINEAR)
Y2 axis: Conductance GList (LINEAR)
[Test Output: List Display]
Frequency FreqList
Base-Collector capacitance (parallel capacitance) CpList
Conductance GList
Series capacitance CsList
Series resistance RsList
Parallel resistance RpList
Dissipation factor DList
Reactance XList
Impedance ZList
Phase ThetaList
Collector voltage VcList
Agilent EasyEXPERT Application Library Reference, Edition 8
1-12
To Next Page
Loading...