vk6kro said:Most digital multimeters have a transistor test function on them. You can use this to learn enough about a transistor to know when to use it.
If you don't already have a multimeter this is an example of what is available now:
http://www.harborfreight.com/7-function-digital-multimeter-92020.html
The little blue circle on that meter is the transistor testing socket. You insert the transistor in different positions until you get a sensible Hfe (current gain) figure on the display. This would be a number between 50 and 500, probably. Not bad for $5.
For $20 you can get better ones that measure temperature, frequency and capacitance as well as all the usual ranges.
The three types of transistor configurations are common emitter, common base, and common collector.
In a common emitter configuration, the input signal is applied to the base terminal and the output is taken from the collector terminal. In a common collector configuration, the input is applied to the base terminal and the output is taken from the emitter terminal.
The configuration of a transistor can be determined by identifying the input and output terminals, as well as the location of the load resistor. The input terminal will be connected to the base, while the output terminal will be connected to either the collector or the emitter, depending on the configuration. The location of the load resistor will also help identify the configuration, as it will be connected between the output terminal and the power supply.
The common emitter configuration offers high voltage and current gain, making it suitable for applications where amplification is needed. It also provides good input-output phase relationship, making it useful for switching applications.
To improve the performance of a common emitter configuration, you can use a bypass capacitor between the emitter and ground, which will increase the gain and stability of the circuit. You can also use negative feedback to reduce distortion and improve linearity.