Dr.EM
New Member
I found his chip:
**broken link removed**
It claims to produce the "product of an input voltage (signal) and a switching function (carrier)." Which I assume means that it adds two signals frequencies together. Would this mean that if I fed one input with an audio signal of a suitable level, and the other input with a sine wave of variable frequency, then the output would be that audio frequency plus the frequency of the sine wave? There are probably 1001 reasons why thats not the case, I know very little about the chip, just looked at the datasheet. All I can think is that you'll be able to hear the sine wave even without an input, which would be very annoying :lol:
**broken link removed**
It claims to produce the "product of an input voltage (signal) and a switching function (carrier)." Which I assume means that it adds two signals frequencies together. Would this mean that if I fed one input with an audio signal of a suitable level, and the other input with a sine wave of variable frequency, then the output would be that audio frequency plus the frequency of the sine wave? There are probably 1001 reasons why thats not the case, I know very little about the chip, just looked at the datasheet. All I can think is that you'll be able to hear the sine wave even without an input, which would be very annoying :lol: