BJT Transistor Bias Voltage Calculator

Enter value and click on calculate. Result will be displayed.

Enter your values:

Base Bias Type:

Volts

R_b = Base Resistance
V_in = Input Voltage
R_c = Collector Resistance
R_e = Emitter Resistance
V_s = Supply Voltage
V_c = Collector Voltage
V_e = Emitter Voltage
V_b = Base Voltage
`I_b=[V_i n-Base t o Emitter Drop]/[R_b+Curren t gai n×R_e] `
I_c = Collector gain x I_b
V_e = I_C x R_e
V_b = V_e x Base to Emitter Drop
V_c = V_s - I_C x R_c
If (V_c < V_e) then,
`V_e=[V_s×R_e]/[R_e+R_c] `
V_c = V_e
V_b = V_e + Base to Emitter Drop
`I_c=V_s/[R_e+R_c] `

Base Resistance (R_b):

K Ohms

Input Voltage (V_in):

Volts

Collector Resistance (R_c):

K ohms

Emitter Resistance (R_e):

K ohms

Supply Voltage (V_s):

Volts

Current gain:

Base to Emitter Drop:

Volts

Result:

Collector Voltage (V_c):

Volts

Emitter Voltage (V_e):

Volts

Base Voltage (V_b):

Volts

Collector Voltage (I_c):

mA

Base Voltage (I_b):

mA

BJT Transistor Biasing Calculator This calculator will compute the values of the biasing resistors required to provide the maximum output voltage swing in a NPN bipolar junction transistor (BJT) amplifier circuit. The algorithm makes use of AC and DC load line theory and formulas and is one of the most accurate you will find online. The circuit above is that of a typical common emitter amplifier with resistors at the emitter junction, and collector junction. Engineers usually need to calculate the values of resistors R1 and R2 so that the transistor provides maximum undistorted output. The algorithms I use here will also find the operating point (Q), which is useful if you are a student making calculations by hand.

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