SAVEinc Si RF BJT TREE Response Calculation Inputs
Environment Parameters
Total Dose (D): Df = 1000 [krad(Si)] Df is defined to be the Total Dose Failure Threshold Neutron Fluence (N): Nf = 1.00e14 [n/cm^2] Nf is defined to be the Neutron Fluence Failure Threshold Dose Rate (G): G = [rad(Si)/s] Co = [pF] fT = [Hz] fT is defined to be the Gain Bandwidth Product BVcbo = [V] BVcbo is defined to be the Collector to Base Breakdown Voltage with Emitter Open hfe = hfe is defined to be the AC Gain
Total Dose (D):
Df = 1000 [krad(Si)] Df is defined to be the Total Dose Failure Threshold
Df = 1000 [krad(Si)]
Df is defined to be the Total Dose Failure Threshold
Neutron Fluence (N):
Nf = 1.00e14 [n/cm^2] Nf is defined to be the Neutron Fluence Failure Threshold
Nf = 1.00e14 [n/cm^2]
Nf is defined to be the Neutron Fluence Failure Threshold
Dose Rate (G):
G = [rad(Si)/s] Co = [pF] fT = [Hz] fT is defined to be the Gain Bandwidth Product BVcbo = [V] BVcbo is defined to be the Collector to Base Breakdown Voltage with Emitter Open hfe = hfe is defined to be the AC Gain
G = [rad(Si)/s]
Co = [pF]
fT = [Hz]
fT is defined to be the Gain Bandwidth Product
BVcbo = [V]
BVcbo is defined to be the Collector to Base Breakdown Voltage with Emitter Open
hfe =
hfe is defined to be the AC Gain
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