EXPERIMENT 4
It's
time to make your first transistor. Construct the circuit shown at
right. Be sure to use LIGHTLY doped p-type silicon (light red) for the
middle section of the transistor. The two end pieces can be either N or
N+, but N+ is better because it has a lower resistance. Make sure you
connect the N+ and P together by dragging from one to the other. Also,
make sure
you DON'T put a via on the metal track forming the gate -- it needs to
sit over the P region but must not connect to it.
Now turn on the Q-Goggles and watch what happens to the output when you
turn the switch on and off. If you've done everything correctly, when
you flip the switch up the output should go low, and when you flip it
down the output should go high.
This circuit is called an inverter and it performs
a logical "not" function: the output is low when the input is high, and
vice versa.
Amplification
The transistor provides a solution to one of the problems that our
diode or-gate had. Because the gate of the transistor is insulated, it
draws very little power from whatever is connected to it. So one output
can drive many transistors without any difficulty. Put another way, the
transistor provides amplification.
However, this circuit is still not a very good logic gate, because it
uses power continuously as long as the transistor is turned on, and it
takes a long time for the output to go high after the transistor turns
off.
People used to build computers from circuits like this some time back
in the pleistocene era, but they got really hot and took forever to
load a web page. In the next couple of lessons we'll see how to do better.