RAZOR SHARP CW FILTER
The circuit design features four distinct active filtering stages, each implemented using the A747 dual operational amplifier, which is known for its high performance and low noise characteristics. The configuration of these stages allows for the selective amplification of audio signals within a narrow frequency range, effectively isolating the desired 750 Hz center frequency.
The first two stages serve to enhance the signal while simultaneously attenuating unwanted frequencies outside the passband. The design employs a second-order active filter topology, which is characterized by its steep roll-off and improved selectivity. The integration of the threshold detector, formed by diodes D1 and D2, plays a crucial role in maintaining signal integrity by suppressing low-level noise that may interfere with the filtering process. This detection mechanism operates by establishing a threshold level, allowing only those signals that exceed this level to pass through to the subsequent stages.
In terms of performance, the circuit achieves a 3-dB bandwidth of 80 Hz, which indicates the range of frequencies over which the circuit can effectively respond to input signals. This narrow bandwidth is advantageous for applications requiring precise frequency selection, such as audio processing or communications systems. The overall architecture ensures that the system remains stable while providing a robust response to the targeted frequency, making it suitable for various electronic applications requiring high fidelity and low noise operation.The circuit consists of four stages of active bandpass ftltering provided by two type A747 integrated-circuit dual op amps and includes a simple threshold detector (diodes D1 and D2) between stages 2 and 3 to reduce low-level background noise. Each of the four filter stages acts as a narrow bandpass ftlter with an audio bandpass centered at 750 H
z. The actual measured 3-dB bandwidth is only 80 Hz wide. 🔗 External reference
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