An active filter and a passive filter are both electronic circuits used to process signals in electrical and electronic systems, but they differ in their fundamental operation and components.
Passive Filter:
A passive filter is a type of electronic filter that uses only passive components such as resistors, capacitors, and inductors to shape the frequency response of a signal. These components do not require an external power source to function. Passive filters are designed to attenuate or block certain frequencies while allowing others to pass through, based on the specific arrangement of components. The frequency response of a passive filter depends solely on the values of the passive components used in the circuit.
Common types of passive filters include:
Low-pass filter: Allows low frequencies to pass while attenuating high frequencies.
High-pass filter: Allows high frequencies to pass while attenuating low frequencies.
Band-pass filter: Allows a specific range of frequencies to pass while attenuating others.
Band-stop filter (or notch filter): Attenuates a specific range of frequencies while allowing others to pass.
Passive filters have their advantages, such as simplicity and cost-effectiveness, but they are generally less precise and have limited frequency response capabilities compared to active filters.
Active Filter:
An active filter, on the other hand, incorporates active components like operational amplifiers (op-amps) along with passive components to achieve its filtering function. The inclusion of op-amps allows active filters to provide gain, amplification, and higher precision in shaping the frequency response of a signal. Active filters require a power source to operate because op-amps need a supply voltage to function.
The key benefits of active filters include:
Higher gain and selectivity: Active filters can achieve higher levels of gain and selectivity compared to passive filters, making them suitable for more precise filtering tasks.
Adjustable parameters: By using op-amps, the characteristics of an active filter can often be easily adjusted using resistors and capacitors, providing greater flexibility in customizing the filter response.
Some common types of active filters are:
Active low-pass filter
Active high-pass filter
Active band-pass filter
Active band-stop filter (or active notch filter)
Overall, the main difference between active and passive filters lies in the use of active components like op-amps in active filters, enabling them to offer additional benefits such as gain and flexibility, while passive filters solely rely on passive components and do not provide amplification. The choice between active and passive filters depends on the specific requirements of the application and the desired filtering characteristics.