Electrical – Amplitude Modulation Circuit Implementation

Modulation

enter image description here

I am trying to understand AM modulation at circuit level.

As per theoretical framework, we have to multiply \$V_{G2}(t)\$, \$V_{G1}(t)\$, so that frequency shifting happens at carrier frequency, i.e., convolution in frequency domain.

Now as per the above circuit, using superposition, I can calculate the \$V_{out}\$ as \$V_{out} = R_1 \cdot V_{G2}(t) + R_2\cdot V_{G1}(t)\$, where \$R_1\$, \$R_2\$ are real valued and they are function of resistors, capacitors, and transconductance.

I am confused on how the circuit is multiplying the two voltages, it looks like the circuit is adding the two voltages, whereas it should multiply as per AM modulation. I am not clear on what's the purpose of \$C_3\$ and \$R_2\$.

Best Answer

If \$V_{G2}(t)\$ is a carrier sine wave, then you can start the analysis by setting the audio voltage to zero. You'll find that the output is equal to \$G\cdot V_{G2}(t)\$, assuming operation in the linear region of the transistor.

In the calculation of the gain \$G\$, you'll find that it depends on the emitter current. Now let the audio voltage increase; this produces a reduction in the emitter current and a correponding reduction in the gain. If the audio voltage is negative, the emitter current increases, and the gain increases.

In other words, the audio voltage controls the amplitude of the carrier, and this is what defines amplitude modulation.