Active and passive filters are two types of electronic circuits used to manipulate signals in different frequency ranges. They are essential components in signal processing and frequency-dependent applications. The primary difference between the two lies in the use of active components, like transistors or operational amplifiers (op-amps), in active filters, whereas passive filters only use passive components like resistors, capacitors, and inductors.
Passive Filters:
Passive filters are constructed solely with passive electronic components and do not require an external power source. They are simpler in design and implementation but may have limitations in their performance and may not be able to achieve steep roll-off characteristics compared to active filters.
There are four types of passive filters:
a. Low-Pass Filter: A low-pass filter allows low-frequency signals to pass through while attenuating higher-frequency signals. It is commonly used to remove noise or unwanted high-frequency components from a signal. An example of a low-pass filter is the RC low-pass filter, consisting of a resistor (R) and a capacitor (C).
b. High-Pass Filter: A high-pass filter allows high-frequency signals to pass through while attenuating lower-frequency signals. It is often used to eliminate low-frequency noise or to extract higher-frequency components of a signal. An example of a high-pass filter is the RC high-pass filter.
c. Band-Pass Filter: A band-pass filter allows a specific range of frequencies to pass through while attenuating frequencies outside that range. It is employed in applications where only a specific band of frequencies is of interest. An example of a band-pass filter is the RLC band-pass filter, comprising a resistor (R), inductor (L), and capacitor (C).
d. Band-Stop Filter (or Notch Filter): A band-stop filter blocks a particular frequency range while allowing frequencies outside that range to pass through. It is used to eliminate unwanted frequencies or interference in a signal. An example of a band-stop filter is the RLC band-stop filter.
Active Filters:
Active filters employ active components like transistors or operational amplifiers (op-amps) in addition to passive components. They require an external power supply to operate and can provide superior performance compared to passive filters, especially in achieving steeper roll-off characteristics and precise frequency response.
Active filters are also categorized into low-pass, high-pass, band-pass, and band-stop types, just like passive filters. However, they typically use more complex circuit configurations to achieve their characteristics.
For example, an active low-pass filter may utilize an operational amplifier in a configuration like the Sallen-Key filter. An active high-pass filter can use a similar configuration but with different component values. Active band-pass and band-stop filters may use multiple op-amps and feedback networks to achieve the desired frequency response.
Overall, the choice between active and passive filters depends on the specific requirements of the application. Passive filters are simple, cost-effective, and suitable for basic filtering needs, while active filters offer more flexibility, precision, and performance capabilities for more demanding applications.