Input filter compensation for switching regulators
Abstract
A novel input filter compensation scheme for a buck regulator that eliminates the interaction between the input filter output impedance and the regulator control loop is presented. The scheme is implemented using a feedforward loop that senses the input filter state variables and uses this information to modulate the duty cycle signal. The feedforward design process presented is seen to be straightforward and the feedforward easy to implement. Extensive experimental data supported by analytical results show that significant performance improvement is achieved with the use of feedforward in the following performance categories: loop stability, audiosusceptibility, output impedance and transient response. The use of feedforward results in isolating the switching regulator from its power source thus eliminating all interaction between the regulator and equipment upstream. In addition the use of feedforward removes some of the input filter design constraints and makes the input filter design process simpler thus making it possible to optimize the input filter. The concept of feedforward compensation can also be extended to other types of switching regulators.
- Publication:
-
Final Report Virginia Polytechnic Inst. and State Univ
- Pub Date:
- August 1983
- Bibcode:
- 1983vpi..rept.....K
- Keywords:
-
- Digital Filters;
- Feedforward Control;
- Switching Circuits;
- Regulators;
- Transient Response;
- Electronics and Electrical Engineering