This is a very basic question. I want to have a very simple BJT Signal Amplifier with variable voltage gain. Let's think about a common emitter with an emitter resistor like this:
The input signal is a sine wave and the signal amplitude is small enough to be considered as small signal (around 500mV pk-pk ) and RB,RE and RC are selected properly to work in good bias condition . According to the equation we expect the voltage gain( AV) to be approximated as AV=-RC/RE:
So I expect by turning the potentiometer, I should see different gains. This was on the paper but in reality it does not happen exactly: the gain changes well but some wave form distortion is seen in some frequencies for example in my case these distortions look like skewness to left in 2.5MHz, 7MHz ,….
What am I missing ?
Best Answer
This is not a good circuit for several reasons:
To fix these things, first create a circuit that has the highest gain you ever want and bias it predictably so that the output is close to the middle of its range with no signal in. Then put a potentiometer on the input of that amplifier to adjust overall gain. If the input signal has a DC offset, then AC couple the potentiometer both from the input signal and from the input to the amplifier. The potentiometer will therefore always operate with a DC level of 0, so changing the gain won't change any DC level anywhere.