Bipolar Transistors
Figure 6-1 illustrates the equivalent circuit for the npn bipolar junction transistor.
Figure 6-1: A circuit for the bipolar transistor.
The pnp transistor model is similar in all regards to the npn transistor, with the difference that the polarities of the currents and voltages involved are reversed. The following equations are used to compute the relations between currents and voltages in the circuit.
There are also two capacitances that use the same formula as the junction capacitance of the diode model. In the parameter names below, replace x with C for the base-collector capacitance and E for the base-emitter capacitance.
The model parameters are listed in the table below.
Table 6-1: Bipolar Transistor Model Parameters.
Parameter
Default
Description
BF
100
Ideal forward current gain
BR
1
Ideal reverse current gain
CJC
0 F/m2
Base-collector zero-bias depletion capacitance
CJE
0 F/m2
Base-emitter zero-bias depletion capacitance
FC
0.5
Breakdown current
IKF
Inf (A/m2)
Corner for forward high-current roll-off
IKR
Inf (A/m2)
Corner for reverse high-current roll-off
IS
10-15 A/m2
Saturation current
ISC
0 A/m2
Base-collector leakage saturation current
ISE
0 A/m2
Base-emitter leakage saturation current
MJC
1/3
Base-collector grading coefficient
MJE
1/3
Base-emitter grading coefficient
NC
2
Base-collector ideality factor
NE
1.4
Base-emitter ideality factor
NF
1
Forward ideality factor
NR
1
Reverse ideality factor
RB
0 Ω⋅m2
Base resistance
RBM
0 Ω⋅m2
Minimum base resistance
RC
0 Ω⋅m2
Collector resistance
RE
0 Ω⋅m2
Emitter resistance
TNOM
298.15 K
Device temperature
VAF
Inf (V)
Forward Early voltage
VAR
Inf (V)
Reverse Early voltage
VJC
0.71 V
Base-collector built-in potential
VJE
0.71 V
Base-emitter built-in potential