Novel single-stage self-oscillating dimmable electronic ballast with high power factor correction
JC Hsieh, JL Lin - IEEE Transactions on Industrial Electronics, 2009 - ieeexplore.ieee.org
A novel self-oscillating electronic ballast with dimming capability and high power factor
correction (PFC) is proposed in this paper. The single-stage electronic ballast integrates a …
correction (PFC) is proposed in this paper. The single-stage electronic ballast integrates a …
Self-oscillating dimmable electronic ballast
AR Seidel, FE Bisogno, RN Prado… - IECON'01. 27th …, 2001 - ieeexplore.ieee.org
This paper presents two simple alternatives of electronic ballast operating in self sustained
oscillating mode with dimming capability for fluorescent lamps. A simple modification in the …
oscillating mode with dimming capability for fluorescent lamps. A simple modification in the …
A design methodology for a self-oscillating electronic ballast
AR Seidel, FE Bisogno… - IEEE Transactions on …, 2007 - ieeexplore.ieee.org
This paper presents a design methodology and analysis of electronic ballast employing the
self-oscillating-command circuit. The self-oscillating electronic ballast is represented as a …
self-oscillating-command circuit. The self-oscillating electronic ballast is represented as a …
Feedforward regulation method for self-oscillating electronic ballast for fluorescent lamps
JP Lopes, MF da Silva, MA Dalla Costa… - IEEE Transactions …, 2011 - ieeexplore.ieee.org
This paper presents a feedforward fluorescent lamp power regulation method for self-
oscillating electronic ballast for different line voltages. The proposed method consists in …
oscillating electronic ballast for different line voltages. The proposed method consists in …
A new simplified model of compact fluorescent lamps in the scenario of smart grids
J Slezingr, J Drapela, R Langella… - 2012 IEEE 15th …, 2012 - ieeexplore.ieee.org
Modeling the luminous flux of typical Compact Fluorescent Lamps (CFLs) is considered for
Light Flicker studies. A simple model of typical CFL with integrated Electronic Ballast of input …
Light Flicker studies. A simple model of typical CFL with integrated Electronic Ballast of input …
Analysis and design for self-oscillating LED driver with high frequency pulsating output current
This paper presents a self-oscillating electronic driver for a 36 W LED string. The design
consists of a simple control that reduces the component number and cost of the driver. Self …
consists of a simple control that reduces the component number and cost of the driver. Self …
Independent multi-lamp electronic ballast
MAD Costa, ML Landerdahl… - Conference Record of …, 2002 - ieeexplore.ieee.org
This paper presents an electronic ballast to supply four independent lamps. An improved
arrangement of the lamps in the half-bridge topology is done, putting one LCC output filter to …
arrangement of the lamps in the half-bridge topology is done, putting one LCC output filter to …
Design of self-oscillating electronic ballast for power LEDs
This paper presents a self-oscillating electronic ballast for a 36 W LED string. The design
consists of a simple control that reduces the component number and cost of the ballast. Self …
consists of a simple control that reduces the component number and cost of the ballast. Self …
Designing a self-oscillating electronic ballast with bipolar transistor
This paper presents a design methodology of the self-oscillating circuit used in electronic
ballasts with bipolar transistors. The key point of the design is to consider the electronic …
ballasts with bipolar transistors. The key point of the design is to consider the electronic …
Automatic luminous control for self-oscillating electronic ballast
AR Seidel, FE Bisogno, D Pappis… - 38th IAS Annual …, 2003 - ieeexplore.ieee.org
This paper presents a simple alternative of automatic luminous control for electronic ballasts
operating in self-sustained oscillating mode feeding fluorescent lamps for energy saving …
operating in self-sustained oscillating mode feeding fluorescent lamps for energy saving …