Title :
Self-oscillating electronic ballast analysis using the relay systems approach
Author :
Chang, Chin ; Bruning, Gert W.
Author_Institution :
Philips Res., Briarcliff Manor, NY, USA
Abstract :
In this paper, the authors analyze the self-oscillating LC parallel resonant inverter for electronic ballast applications from a control system point of view. It is observed that the self-oscillating parallel resonant inverter with lamp loads can be naturally modeled as a relay system with negative hysteresis. Based on this formulation, the self-oscillating frequencies of the circuit are found via the time-domain-based Hamel locus. Also, the predicted self-oscillating frequencies via the describing function approach and the Hamel locus approach are compared with the prototype measurement results. It turns out that the accuracy of the frequency prediction via the Hamel locus approach is high, while the accuracy via the describing function approach is circuit Q-value dependent
Keywords :
DC-AC power convertors; circuit oscillations; control system analysis; describing functions; fluorescent lamps; invertors; lamp accessories; lighting control; load (electric); relay control; resonant power convertors; time-domain analysis; Hamel locus approach; LC parallel resonant inverter; circuit self-oscillating frequencies; control system analysis; describing function approach; frequency prediction accuracy; lamp loads; negative hysteresis; relay systems approach; self-oscillating electronic ballast analysis; time-domain-based Hamel locus; Circuit analysis; Electronic ballasts; Frequency; Hysteresis; RLC circuits; Relays; Resistors; Resonant inverters; Steady-state; Voltage;
Journal_Title :
Industry Applications, IEEE Transactions on
