This application claims the benefit of Taiwan patent application No. 101102578, filed on Jan. 20, 2012, the disclosure of which is incorporated herein in its entirety by reference.
1. Field of the Invention
The invention relates to an AC LED driver circuit and, in particular, to a flicker-free LED driver circuit with a high power factor.
2. Description of Related Art
The light-emitting diode (LED) is one of the most common lighting appliances currently available on the market. In comparison with the traditional incandescent light bulbs, LED has higher luminous efficiency and power-saving features. However, the LED is conductive only in a single direction and thus therefore difficult to be used on the conventional AC outlet. For this, the industry has developed an AC LED driver circuit. As shown in
The input terminal of the rectifying unit 20 connects to an AC power supply AC/IN and converts the AC power supply AC/IN into a pulsed DC power supply Va, which is then output via the output terminal.
The LED module 21 includes a plurality of LED light sources and electrically connects to the output terminal of the rectifying unit 20 to constitute a power loop.
The constant current circuit 22 is connected in series to the power loop, such that the circuit current therein has a constant value.
As seen from the above-mentioned structure, the conventional AC LED driver circuit uses the rectifying unit 20 to convert the AC power supply AC/IN into a pulsed DC power supply. The constant current circuit 22 stabilizes the circuit current.
Please refer to
However, the voltage difference Vab on both ends of the LED module 21 has to be larger than its junction voltage value in order to emit light. If the instantaneous voltage of the pulsed DC power supply Va is less than the junction voltage value, the LED module turns off, resulting in flickering on the LED module 21. Take pulsed DC power supply with a frequency of 120 Hz as an example. The flickering frequency is also 120 Hz. Human eyes are not sensitive to such flickering at the frequency of 120 Hz, but for an image capture device that performs periodic scans, images captured under a light source flickering at the frequency of 120 Hz have flickering effects due to the difference between the scanning frequency and the light source frequency. The net result is that the images have a plurality of parallel stripes, leading to distortions in the photos.
Therefore, to solve the above-described flickering problem, as shown in
In view of the foregoing, an objective of the invention is to provide a flicker-free LED driver circuit with a high power factor.
To achieve the above-mentioned objective, the flicker-free LED driver circuit with a high power factor includes: a rectifying unit, an LED module, a capacitor module, and a constant current circuit.
The input terminal of the rectifying unit connects to an AC power supply, and converts the AC power into a pulsed DC power supply, which is then output by the output terminal.
The LED module includes a plurality of LED light sources, and electrically connects to the output terminal of the rectifying unit, thereby constituting a power loop.
The capacitor module includes at least one capacitor connected in parallel with the LED module.
The constant current circuit is connected in series with the power loop to render a constant value for the current in the power loop.
As seen from the foregoing structure, for the signal output by the rectifying unit, the input impedance can be regarded as that of a capacitive reactance element constituted by the capacitor module connected in parallel with a nonlinear resistive element constituted by the LED module, followed by a serial connection with a constant current source constituted by the constant current circuit. Since the effective internal resistance of the constant current circuit is infinity, the effective impedance is always infinite no matter how the capacitive reactance element or the resistive element changes. Therefore, the computed actual power is very close to the effective power, with the power factor approximating 1.
Therefore, the invention can effectively solve the flickering problem with the above-mentioned structure without decreasing the power factor.
The input terminal of the rectifying unit 10 connects to an AC power supply AC/IN, and converts the AC power supply AC/IN into a pulsed DC power supply, which is then output by the output terminal thereof. The rectifying unit 10 can be a full-wave rectifying circuit or a half-wave rectifying circuit. In this embodiment, it is a full-wave rectifying circuit.
The LED module 11, as shown in
The capacitor module 12 includes at least one capacitor 120 connected in parallel with the LED module 11. In this embodiment, there are multiple capacitors 120 connected in series, in parallel, or in both series and parallel.
The constant current circuit 13 is connected in series to the power loop to keep the circuit current in the power loop at a constant value. In this embodiment, the constant current circuit 13 includes: a voltage controlled transistor 14, a current detection unit 15, a low frequency filter 17, and a current regulating unit 16.
The voltage-controlled transistor 14 is connected in series to the power loop and has a control terminal to adjust the circuit current of the above-mentioned power loop. The voltage-controlled transistor 14 in this embodiment is a metal oxide field effect transistor (MOSFET) or a bipolar junction transistor (BJT).
The current detection unit 15 is connected in series to the power loop to convert the circuit current of the power loop to a corresponding voltage signal. The current detection unit in this embodiment is a detection resistor.
The low frequency filter 17 electrically connects to the current detection unit 15, and outputs an average voltage value according to the voltage signal of the current detecting unit 15 after the conversion. The low frequency filter 17 can be an analog filter consisted of capacitors and inductors or a digital filter consisted of a digital circuit. In this embodiment, it is a digital filter, which is a down-sampling filter.
One input terminal of the current regulating unit 16 connects to the low frequency filter 17. The other input terminal electrically connects to a reference voltage Vref. The output terminal thereof electrically connects to the control terminal of the voltage-controlled transistor 14. The current regulating unit 16 compares the reference voltage received by the input terminal thereof and the average voltage value, and outputs a control signal based on the comparison result to the control terminal of the voltage-controlled transistor 14, so that the circuit current of the power loop remains stable.
With reference to
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Since the effective internal resistance RI of the constant current source is far greater than the capacitive reactance Xc of the capacitor module 12, the power factor thus computed approximates 1.
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In summary, the invention can effectively solve the problem of flickering by the proposed structure and totally avoids the problem of a decreasing power factor in a traditional circuit when the rectifying unit is connected in parallel with a capacitor.
The invention being thus described, it will be obvious that the same may be varied in many ways. Such variations are not to be regarded as a departure from the spirit and scope of the invention, and all such modifications as would be obvious to one skilled in the art are intended to be included within the scope of the following claims.
Number | Date | Country | Kind |
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101102578 | Jan 2012 | TW | national |