Iterative Behavioral Modeling of Charge-Pump-Based Electronic Ballast–Fluorescent Lamp System

Author

Tam, P.W. ; Chung, H.S.-H. ; Hui, S.

Author_Institution

Centre for Power Electron., City Univ. of Hong Kong, Hong Kong

Volume

24

Issue

1

fYear

2009

Firstpage

278

Lastpage

287

Abstract

A new behavioral model for analyzing the current-source charge-pump-based ballast with a self-oscillatory gate drive circuit is proposed in this paper. A detailed model derivation is presented and the model is applied to analyze a ballast system of a 16-W compact fluorescent lamp (CFL) as an illustration. The ballast of the CFL consists of a self-oscillatory driven inverter stage and charge pump circuitry. The iterative modeling technique links together the three mutual dependent parts of the system, namely: (1) the charge pump circuit; (2) the self-oscillatory gate drive; and (3) the lamp model, so that they can be designed and studied as an integrated system. It is shown that the model can give a comprehensive interpretation of the whole system and provide a reasonable prediction of the ballast behavior.

Keywords

charge pump circuits; fluorescent lamps; iterative methods; lamp accessories; charge pump circuitry; charge-pump-based electronic ballast; compact fluorescent lamp; current-source charge-pump-based ballast; integrated system; iterative behavioral modeling; self-oscillatory driven inverter stage; self-oscillatory gate drive circuit; Capacitors; Charge pumps; Circuits; Electronic ballasts; Fluorescent lamps; Frequency; Inverters; Power system modeling; Resonance; Zero voltage switching; Charge pump; compact fluorescent lamp (CFL); electronic ballast; series-resonant parallel-loaded inverter;

fLanguage

English

Journal_Title

Power Electronics, IEEE Transactions on

Publisher

ieee

ISSN

0885-8993

Type

jour

DOI

10.1109/TPEL.2008.2005577

Filename

4783542