1. LECTURE # 7 BIPOLAR JUNCTION TRANSISTOR
By:
Muhammad Zahid

2. BIPOLAR JUNCTION TRANSISTOR
DC Beta (βDC):-
The dc current gain of a transistor is the ratio of the dc collector current (IC) to the dc base current (IB) and is designated dc beta (βDC)
Typical values of βDC range from less than 20 to 200 or higher.

3. BIPOLAR JUNCTION TRANSISTOR
DC Alpha (αDC):-
The ratio of the dc collector current (IC) to the dc emitter current (IE) is the dc alpha (αDC).
Typically, values of αDC range from 0.95 to 0.99 or greater, but αDC is always less than 1.
The reason is that IC is always slightly less than IE by the amount of IB.

4. BIPOLAR JUNCTION TRANSISTOR
Example:-
Determine the dc current gain βDC and the emitter current IE for a transistor where IB 50 µA and IC 3.65 mA.

5. BIPOLAR JUNCTION TRANSISTOR
BJT Circuit Analysis:-
IB: dc base current
IE: dc emitter current
IC: dc collector current
VBE: dc voltage at base with respect to emitter
VCB: dc voltage at collector with respect to base
VCE: dc voltage at collector with respect to emitter

6. BIPOLAR JUNCTION TRANSISTOR
BJT Circuit Analysis:-
The base-bias voltage source, VBB , forward-biases the base-emitter junction
When the base-emitter junction is forward-biased, it is like a forward-biased diode and has a nominal forward voltage drop of
by applying KVL

7. BIPOLAR JUNCTION TRANSISTOR
by applying KVL

8. BIPOLAR JUNCTION TRANSISTOR
Now for collector voltage

9. BIPOLAR JUNCTION TRANSISTOR
EXAMPLE:-
Determine IB, IC, IE, VBE, VCE, and VCB in the circuit of 9. The transistor has a βDC = 150.

10. BIPOLAR JUNCTION TRANSISTOR
Mode of operation of transistor:-
There are three mode of operation of transistor.
Cut off
Active region
Saturation region

11. BIPOLAR JUNCTION TRANSISTOR
Cut off:-
When IB = 0, the transistor is in the cutoff region of its operation.
In cutoff, neither the base-emitter nor the base- collector junctions are forward-biased.
VCE = VCC

12. BIPOLAR JUNCTION TRANSISTOR
Linear or Active region:-
In linear or Active region, the base-emitter junction is forward biased and the base-collector junctions is reverse biased.
The value of IC is determined only by the relationship expressed as IC = βDCIB.
VCE = Vcc - IcRc

13. BIPOLAR JUNCTION TRANSISTOR
Saturation region:-
When both junctions are forward-biased, the transistor is in the saturation region of its operation.
Saturation is the state of a BJT in which the collector current has reached a maximum and is independent of the base current.
The relationship IC = βDCIB is not valid.
VCE = Vcc - IcRc

14. BJT AS SWITCH
In switching, transistor operates in cutoff and saturation mode.

15. BJT AMPLIFICATION AND SWITCHING
The dc bias is applied to bring the transistor in mid point of load line.
An ac voltage, Vs, is superimposed on the dc bias voltage VBB by capacitive coupling.
The ac input voltage produces an ac base current, which results in a much larger ac collector current.