AUDIO AMP + 3KHz FILTER
The audio amplifier circuit is designed to enhance the weak audio signals captured by an electret microphone, which is commonly used due to its low cost and good performance characteristics. The circuit typically includes a transistor or operational amplifier (op-amp) configured in a non-inverting amplifier configuration to provide the necessary gain.
The 3 kHz filter integrated into this circuit is crucial for ensuring that only the relevant frequency range of the audio signal is processed, effectively eliminating unwanted noise and interference outside this band. This is particularly important in optical transmission systems, where clarity of the transmitted signal is paramount.
The filter can be implemented using passive components such as resistors and capacitors to create a low-pass filter, allowing frequencies below 3 kHz to pass while attenuating higher frequencies. Alternatively, an active filter design could be employed, utilizing op-amps to achieve better performance characteristics and sharper roll-off.
In summary, this audio amplifier and 3 kHz filter circuit not only amplifies the audio signals from the microphone but also ensures that the transmitted audio is clear and free from extraneous noise, making it an essential component of the optical transmitter system. Proper layout and component selection are critical to achieving optimal performance and minimizing distortion in the final output.AUDIO AMP + 3KHz FILTER. This circuit is the audio amp section for a complete optical transmitter. The increased circuit and filters the voice audio signals from an electret microphone 🔗 External reference
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