DC Analysis of Transistor and DC Load Line
1. For the common emitter circuit shown below (see figure 1) the parameters are: VBB = 4 V, RB = 220 kΩ, RC = 2 kΩ, VCC = 10 V, VBE(on) = 0.7 V, and β = 200. Calculate the base current (IB), collector current (IC), emitter currents (IE), the VCEvoltage and the transistor power dissipation (PT). Show all work.
Figure 1
2. In the CC circuit shown in Figure 2, calculate the following:
o IB
o IE
o VCE
o VE
o VB. Take β = 49 and VBE = 0.7 V.
Figure 2
For the circuit shown in Figure 3 below, draw the DC load line and locate its quiescent or DC working point. Show all work.
Figure 3
The data sheet entry that lists how much the power rating of a device has to be reduced is the__________________. In a common-emitter circuit, once the base current has been calculated, collector current can be determined by multiplying the base current by ________.