Sampled-data modeling of switching regulators
Abstract
The high-frequency capabilities of two switching regulator modeling techniques, state-space averaging and discrete modeling, are compared. A new linear, small-signal modeling technique, which combines the continuous form of state-space averaging with the accuracy of discrete modeling, is then developed. This new method, called sampled-data modeling, succeeds, where state-space averaging fails, in predicting the subharmonic instability in current-programmed regulators, and is shown to be of significant usefulness in the design of high-performance switching regulators.
- Publication:
-
PESC 1981; Power Electronics Specialists Conference
- Pub Date:
- 1981
- Bibcode:
- 1981ppes.conf..349B
- Keywords:
-
- Data Sampling;
- State Vectors;
- Switching Circuits;
- Systems Simulation;
- Voltage Converters (Dc To Dc);
- Voltage Regulators;
- Average;
- Current Regulators;
- Equations Of State;
- Functional Integration;
- Power Conditioning;
- Steady State;
- Electronics and Electrical Engineering