EE 2212
EXPERIMENT 7
21 November 2013
Bipolar Junction
Transistor (BJT) Measurements, Circuit Analysis, And
Amplifier Operation
COMPONENTS
Report is due on
Wednesday, 27 November. This is report
will be evaluated on a 20 Point Scale.
2N3904 or 2N2222 npn transistor
Resistors: 5kW and 100kW
Note: Use the 2N3904 or 2N2222 npn transistor device models in SPICE rather than the
default model
DC Bias Analysis
Construct the circuit in Figure 1. Use = 10
Volts for the DC supply. Measure and record the Q-Point values of IB,
IC, VBE, and VCE. One of many measurement approaches is to measure the voltage
across the RB and RC resistors to obtain the current rather than inserting an
ammeter in series. Be sure you measure
the actual resistor values for your measurement to obtain more accurate results. Compare your results with a SPICE analysis
of this circuit. Use the 2N3904 or 2N2222 in the
SPICE library. The signal source vin(t) should be set to zero for this portion of
the experiment. You may have to adjust
VBB = 1.5 volts to obtain a Q-Point in the forward-active region
because of the potentially wide variation of BJT β values.
Demonstrate
Small-Signal and Large-Signal Operation
Now set vin(t) for a 1 kHz sine wave from the function
generator. Adjust the amplitude initially
to 0.5 Volts (1 VPeak-to-Peak), Measure the voltage gain. Simulate the circuit in SPICE with your
transistor using a transient analysis.
Explain your results in the context of a load-line analysis. Use the small-signal model to compute the
voltage gain. Also show the transfer
characteristic. Adjust vin(t) to demonstrate
clipping.
Another
classic math joke if can handle it!
My new computer uses WINDOWS 8 and the Dilbert
cartoon expresses my feelings about software upgrades!
