Apparatus and method for eliminating striation of...

Electric lamp and discharge devices: systems – Current and/or voltage regulation

Reexamination Certificate

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C315S2090SC, C315SDIG004

Reexamination Certificate

active

06756747

ABSTRACT:

FIELD OF THE INVENTION
The present invention generally relates to a lighting device. More particularly, the present invention relates to an apparatus and a method used in a lighting device for eliminating striation in a fluorescent lamp with dimming control.
BACKGROUND OF THE INVENTION
The gas-discharging lamps have been the primary lighting sources in the industrial and residential uses since their development in the 1930's. They possess advantageous features including high color rendering, soft-visualization, and low energy consumption, etc. Today, fluorescent lamps are still commonly used.
A schematic diagram of a lighting device using a fluorescent lamp is depicted in FIG.
1
. Referring to
FIG. 1
, a voltage source V
D
is fed to a fluorescent lamp
10
through a ballast
20
. The capacitor C
S
disposed across one terminal of the electrode
12
a
and one terminal of the electrode
12
b
serves as a starting capacitor. The inductor L
R
connected between the other terminal of the electrode
12
a
and the ballast
20
serves as a resonant inductor. The ballast
20
is comprised by a series-resonant inverter (SRI) for providing high frequency (about 20 kHz to 65 kHz) driving voltage. Before igniting the fluorescent lamp
10
, the inside of the fluorescent lamp
10
is not in a conduction state and thus the resonant inductor L
R
, the filament resistance, and the starting capacitor C
S
make up a series-resonant circuit. After igniting the fluorescent lamp
10
, the inside of the fluorescent lamp
10
is in a conduction state, and is equivalent to resistors shunted with the capacitor C
S
.
In the last decade or so, versatile fluorescent lamps have been developed for improving the quality of lighting environments. Nowadays, it is the trend to develop multi-functional lamp systems with dimming control, while maintaining high power quality, to achieve a more comfortable lighting environment. High power factor correction for raising the power quality is available in lamp design. However, when utilizing low-level dimming control, a low frequency snake-like striation in the lamp due to relatively significant odd-order harmonic amplitudes of the lamp current inevitably disturbs the dimming performance. This phenomenon is depicted in FIG.
2
. Inside the fluorescent lamp
10
, the hot electron beam
16
is in a state similar to a standing wave; therefore, the area
18
inside the fluorescent lamp
10
presents darker illumination due to lack of electron stimulation. The periodical striation may result in the luminance unstable, flicker, deforming, deflection, and even disappearing. Besides, it may disturb the operation of the lamp and raise the lamp temperature.
The early techniques for solving the mentioned striations in the fluorescent lamp include changing the gas ingredients or the lamp geometry, modulating the lamp current with FM to be out of the resonant band, and using an FM PWM strategy to spread the lamp power in different bands which is proposed by Laskai as described in the paper “A unity power factor electronic ballast for metal halide lamps,” Proc. IEEE APEC'94, pp. 31-37, 1994. However, these approaches are useless for lowering the amplitudes of the odd-order harmonics in a suitable level to reduce the striations. Lately, Hsieh et al. successfully proposed strategy for breaking the striations by modulating the lamp filament current with a harmonized circuit to uniformly spread the lamp energy into every harmonic to achieve wonderful low-level dimmer, as described in U.S. Pat. No. 6,087,785, July 2000. However, this approach still causes extra power loss of the lamp due to employing large signal driving in the lamp current feedback modulation.
Keep the drawbacks of the prior art in mind, and employ experiments and research full-heartily and persistently, the apparatus and method using small signal driving for eliminating striation of fluorescent lamp are finally conceived by the applicant.
SUMMARY OF THE INVENTION
It is therefore an object of the present invention to propose a generator used in a controllable dimmer ballast of a fluorescent lamp for eliminating a striation.
It is therefore another object of the present invention to propose an apparatus used in a gas-discharging lamp with a first electrode and a second electrode for eliminating a striation.
It is therefore another object of the present invention to propose a method for preventing a light apparatus from a striation.
According to the aspect of the present invention, the generator used in a controllable dimmer ballast of a fluorescent lamp for eliminating a striation includes an interface for transforming an input signal to a first input voltage and a second input voltage, an oscillator electrically connected to the interface for receiving the first input voltage and producing a pair of complementary pulse trains, a comparator electrically connected to the interface for receiving and comparing the second input voltage with a threshold voltage and providing an enable signal, and a controller electrically connected to the oscillator and the comparator for alternately modulating the pulse train so as to eliminate the striation of the lamp.
Preferably, the generator used in a controllable dimmer ballast of a fluorescent lamp is a controllable asymmetrical group-pulse train generator (CAGPTG).
Preferably, the input signal of the generator is an adjustable voltage.
Preferably, the oscillator of the generator is a constant-duty-cycle voltage-controlled-oscillator (CDC-VCO).
Preferably, the controller of the generator is an asymmetrical-group-pulse-width-modulated (AGPWM) controller.
Preferably, the controller of the generator further provides a first and a second control signals according to the pulse trains and the enable signal.
Preferably, the fluorescent lamp further includes a first electrode and a second electrode, a starting capacitor coupled between the first and second electrodes, and a resonant inductor coupled between the ballast and one of the first and second electrodes of the lamp.
Preferably, the ballast of the fluorescent lamp further includes a half-bridge series-resonant inverter (HB-SRI).
Preferably, AGPWM controller of the generator further includes a square-wave-generator (SWG) for generating a square-wave signal, a group-pulse alternator (GPA) electrically connected to the SWG for receiving the enable signal and the square-wave signal and producing two complimentary signals, and a duty-cycle-controller (DCC) electrically connected to the GPA and the CDC-VCO for receiving the two complimentary pulse trains and the two complimentary signals and producing the first and second control signals.
According to another aspect of the present invention, the apparatus used in a gas-discharging lamp with a first and a second electrodes for eliminating a striation includes an interface for transforming an input signal to a first input voltage and a second input voltage, an oscillator electrically connected to the interface for receiving the first input voltage and producing a pair of complementary pulse trains, a comparator electrically connected to the interface for receiving and comparing the second input voltage with a given thresh threshold voltage and providing an enable signal, a controller electrically connected to the oscillator and the comparator for alternately modulating the pulse trains and providing a first and a second control signals according to the pulse trains and the enable signal, and a HB-SRI for driving the lamp according to the first and second control signals, so as to eliminate the striation.
Preferably, the oscillator of the apparatus is a constant-duty-cycle voltage-controlled-oscillator (CDC-VCO).
Preferably, the controller of the apparatus is an asymmetrical-group-pulse-width-modulated (AGPWM) controller.
Preferably, the AGPWM controller of the apparatus further includes a SWG for generating a square-wave signal, a GPA electrically connected to said SWG for receiving the enable signal from the comparator and the square-wave signal from the SWG and producing two com

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