Programmable-active-filters
This is a second-order low-pass filter with a programmable cutoff frequency. The circuit should be driven from a low-source impedance, as there are paths from the output to the input through the unselected networks. Virtually any filter function that can be constructed with a conventional operational amplifier can be made programmable with the HA-2400. A useful variation would be to configure one channel as a unity gain amplifier, allowing the selection of either the unfiltered signal or the same signal filtered in various ways. These configurations could be cascaded to provide a wide variety of programmable filter functions.
The described circuit employs a second-order low-pass filter configuration, utilizing operational amplifiers (op-amps) for signal processing. The programmable cutoff frequency feature is achieved through the HA-2400 integrated circuit, which allows for dynamic adjustment of the filter's frequency response. The low-source impedance requirement is critical, as it ensures stability and performance by preventing feedback paths through unselected filter networks from affecting the operation of the active filter.
To implement this low-pass filter, two op-amps are typically arranged in a Sallen-Key configuration, which provides a simple yet effective method for achieving the desired second-order response. The cutoff frequency can be adjusted by altering the values of the resistors and capacitors in the circuit, which can be controlled via digital or analog means, depending on the application.
The option to wire one channel as a unity gain amplifier enhances the versatility of the circuit. This configuration allows the user to toggle between the unfiltered input signal and the filtered output, facilitating real-time monitoring of the signal processing effects. By cascading multiple filter stages, a broader range of filter characteristics can be achieved, including varying degrees of attenuation and phase response. This adaptability makes the circuit suitable for various applications in audio processing, data acquisition systems, and other electronic systems requiring precise signal conditioning.
Overall, this low-pass filter design with programmable features provides a robust solution for applications where flexibility and performance are paramount.This is a second-order, low-pass filter with programmable cutoff frequency. This circuit should be driven from a low-source impedance since there are paths from the output to the input through the unselected networks. Virtually any filter function which can be constructed with a conventional op amp can be made programmable with the HA-2400.
A useful variation would be to wire one channel as a unity gain amplifier, so that one could select the unfiltered signal, or the same signal filtered in various manners. These could be cascaded to provide a wide variety of programmable filter functions.
The described circuit employs a second-order low-pass filter configuration, utilizing operational amplifiers (op-amps) for signal processing. The programmable cutoff frequency feature is achieved through the HA-2400 integrated circuit, which allows for dynamic adjustment of the filter's frequency response. The low-source impedance requirement is critical, as it ensures stability and performance by preventing feedback paths through unselected filter networks from affecting the operation of the active filter.
To implement this low-pass filter, two op-amps are typically arranged in a Sallen-Key configuration, which provides a simple yet effective method for achieving the desired second-order response. The cutoff frequency can be adjusted by altering the values of the resistors and capacitors in the circuit, which can be controlled via digital or analog means, depending on the application.
The option to wire one channel as a unity gain amplifier enhances the versatility of the circuit. This configuration allows the user to toggle between the unfiltered input signal and the filtered output, facilitating real-time monitoring of the signal processing effects. By cascading multiple filter stages, a broader range of filter characteristics can be achieved, including varying degrees of attenuation and phase response. This adaptability makes the circuit suitable for various applications in audio processing, data acquisition systems, and other electronic systems requiring precise signal conditioning.
Overall, this low-pass filter design with programmable features provides a robust solution for applications where flexibility and performance are paramount.This is a second-order, low-pass filter with programmable cutoff frequency. This circuit should be driven from a low-source impedance since there are paths from the output to the input through the unselected networks. Virtually any filter function which can be constructed with a conventional op amp can be made programmable with the HA-2400.
A useful variation would be to wire one channel as a unity gain amplifier, so that one could select the unfiltered signal, or the same signal filtered in various manners. These could be cascaded to provide a wide variety of programmable filter functions.