A switched capacitor filter is a type of electronic filter that uses capacitors and switches to perform filtering functions. It is a widely used technique in integrated circuit design for implementing analog signal processing, particularly in applications like audio, communication systems, and data converters. The switched capacitor filter is capable of emulating continuous-time filter responses using discrete-time components.
The basic idea behind a switched capacitor filter is to use switches to connect and disconnect capacitors in a specific pattern, creating an equivalent continuous-time circuit. The switches alternate between two states, ON and OFF, at a high frequency (usually several megahertz to gigahertz), generating a series of charge transfer cycles. This technique allows the filter to process signals in the discrete time domain while mimicking the characteristics of continuous-time filters.
Here's a high-level explanation of how a switched capacitor filter works:
Sampling: The input analog signal is first sampled periodically by the switches. During the ON state, the switches connect the input signal to the capacitor, effectively sampling the input voltage.
Charge transfer: During the OFF state of the switches, the capacitors hold the charge. The switches then connect the capacitors in various configurations, causing the charge to transfer from one capacitor to another.
Integrating effect: The charge transfer results in voltage changes across the capacitors, effectively implementing integration of the input signal. By appropriately connecting capacitors, the filter can implement different types of filters like low-pass, high-pass, band-pass, or notch filters.
Discharge: To maintain accurate filtering, there is a need to compensate for charge leakage in the capacitors. This is achieved by periodically discharging the capacitors when needed.
By repeating these sampling, charge transfer, and discharge cycles, the switched capacitor filter can approximate the response of continuous-time filters accurately. The filter's behavior is mainly determined by the configuration of the switches and capacitors.
Advantages of switched capacitor filters include:
Simplicity: They can be implemented using standard CMOS technology, making them easy to integrate into integrated circuits.
Versatility: The filter response can be easily adjusted by changing the switch configurations.
Reduced sensitivity to component variations: They are less sensitive to process variations compared to continuous-time filters.
However, switched capacitor filters also have some limitations, including the need for a clock signal (higher power consumption) and the potential for clock-related noise.
Overall, switched capacitor filters are a powerful tool for implementing analog signal processing functions in integrated circuits, and they find widespread use in various applications.