# Difference between revisions of "Lab 13 RS"

DC Bipolar Transistor Curves

Data sheet for transistors.

Using 2N3904 is more srtaight forward in this lab.

# Transistor circuit

1.) Identify the type (n-p-n or p-n-p) of transistor you are using and fill in the following specifications.

I am going to use n-p-n transistor 2N3904. Below are some specifications from data shits for this type of transistor:

Value Description
Collector-Base breakdown voltage
Emitter-Base Breakdown Voltage
Maximum Collector-Emitter Voltage
Maximum Collector-Emitter Voltage
Maximum Collector Current - Continuous
Transistor Power rating()
,
40 300 ,
70 300 ,
100 300 ,
60 300 ,
30 300 ,

2.) Construct the circuit below according to the type of transistor you have.

Let .

variable power supply

.

Find the resistors you need to have

, , and

By measurements I was able to find that . So I am going to use this value. Also let picks up . So my current .

Now to get  I need to use
To get  I need to use
To get  I need to use


3.) Measure the emitter current for several values of by changing such that the base current A is constant.

I used:





and




Below is the table with my measurements:

And below is my currents and power calculation:

Here:





4a.) Repeat the previous measurements for . Remember to keep so the transistor doesn't burn out

I used:




and




Below is the table with my measurements:

And below is my currents and power calculation:

Here:





4a.) Repeat the previous measurements for . Remember to keep so the transistor doesn't burn out

I used:




and




Below is the table with my measurements:

And below is my currents and power calculation:

Here:





5.) Graph -vs- for each value of and above. (40 pnts)

Bellow is my plot for the case of

Bellow is my plot for the case of

Bellow is my plot for the case of

6.) Overlay points from the transistor's data sheet on the graph in part 5.).(10 pnts)

# Questions

1. Compare your measured value of or for the transistor to the spec sheet? (10 pnts)
2. What is for the transistor? (10 pnts)
3. The base must always be more positive (negative) than the emitter for a npn (pnp) transistor to conduct I_C.(10 pnts)
4. For a transistor to conduct I_{C} the base-emitter junction must be forward biased.(10 pnts)
5. For a transistor to conduct I_{C} the collector-base junction must be reversed biased.(10 pnts)

# Extra credit

Measure the Base-Emitter breakdown voltage. (10 pnts)

I expect to see a graph and a linear fit which is similar to the forward biased diode curves. Compare your result to what is reported in the data sheet.

I used:





Below is the table with my measurements and current calculations:

Here:




And bellow is my plot for the Base-Emitter breakdown voltage

The fitting line is . The intersection this line with x-axis gives the forvard turn on voltage:

[itex]V_{turn\ on} = \farc{p_0}{p_1} = \frac{111.7 \pm 10.61}{0.1809 \pm 0.01634} = (617.46 \pm 80.93)[mV][itex]