Self-adaptive type LED driving circuit

An LED driving and self-adaptive technology, applied in the field of LED lighting tools, can solve the problems of reduced flexibility in the design of the whole lamp, small LED conduction angle, and reduced reliability, avoiding electromagnetic interference problems, simple control methods, circuits, and harmonics. The effect of wave distortion reduction

Active Publication Date: 2015-04-22
GUANGZHOU PLEMAS LIGHTING CO LTD
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  • Summary
  • Abstract
  • Description
  • Claims
  • Application Information

AI Technical Summary

Problems solved by technology

The problem with this method is that the circuit is complex, there are many components, the cost is high, and the reliability is reduced; the second is that the volume becomes larger after the driving power is added, the design of the lamp body must consider the space for the driving power, and the design flexibility of the whole lamp is reduced; The third is that the circuit works in a high-frequency state of 30KHz-150KHz, which will inevitably produce electromagnetic interference; the fourth is that the driving power needs to use electrolytic capacitors, and electrolytic capacitors have a life limit, generally about 8000 hours, relatively speaking, the LED life can reach 30000 Hours or more, so the life of the driving power limits the life of the LED lamp, and many LED lamp failures are caused by power failures
[0003] In o

Method used

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  • Self-adaptive type LED driving circuit

Examples

Experimental program
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Effect test

Embodiment 1

[0040] Please refer to figure 2 As shown, since the voltage of a single LED is generally about 3.2V, this case uses multiple low-voltage LEDs in series or directly uses high-voltage lamp beads to form an LED series circuit. A single high-pressure lamp is an LED string.

[0041] The principle diagram of this case is as follows:

[0042] figure 2 Among them, B1 is a rectifier bridge stack, which rectifies the mains power into a fluctuating DC voltage Vb; LEDs1 to LEDs4 are four LED strings, and their total forward voltage is Vf; K1 to K6 are 6 current control switches composed of circuits. It is a normally closed switch, the state of the switch is controlled by the current of the circuit, the switch is closed when the current is small, and the switch is open when the current is large, and the trigger current of its disconnection can be controlled by the parameter value of the component, and the parameter value of the circuit component is set so that The trigger current of K...

Embodiment 2

[0069] Embodiment 2 is to increase one or more current control sub-units on the basis of embodiment 1. When adding a current control sub-unit, a structure consisting of 6 LED strings is formed, and the added current control sub-units can be visualized In order to be placed between the two current control subunits of Embodiment 1, a diode is connected to the input and output ends of the added current control subunit respectively, so as to be connected to the two current control subunits of Embodiment 1 respectively , at the same time, a current control switch is also connected in series at the input and output terminals of the added current control subunit, please refer to Figure 10 As shown, the trigger currents of the current control switches are as follows from small to large: K1 (K2, K15, K16), K3 (K4), K17 (K18), K5 (K6). The specific working principle is similar to that of the first embodiment, and will not be repeated here. Of course, if more current control subunits a...

Embodiment 3

[0071] The third embodiment is to add one or more current control circuits on the basis of the first embodiment, please refer to Figure 11 As shown, when adding a current control circuit, the added current control circuit is connected in parallel with the previous current control circuit, and then a current control switch K13 is added at the input end of the two, and a current control switch K13 is connected in series at the output end of the previous current control circuit The current control switch K14, at the same time, a diode D7 is connected between the output terminal of the previous current control circuit and the added current control circuit, so as to expand into a structure composed of 8 LED strings, the current control switches K13, K14 and the current control The switch K1 etc. have the same structure. The trigger current of the current control switch is K1 (K2, K7, K8), K3 (K4), K5 (K6), K9 (K10), K11 (K12) from small to large, and the trigger current of the cur...

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Abstract

The invention discloses a self-adaptive type LED driving circuit. The self-adaptive type LED driving circuit comprises a fluctuation direct-current power source, a current control circuit and a current limiting or constant current circuit, wherein the fluctuation direct-current power source is used for generating direct-voltage signals with periodically-changed voltages, the current control circuit is used for changing the series-connection and parallel-connection relationship between LED strings to adapt to the periodical changes in the direct-voltage signals by themselves, and the current limiting or constant current circuit is used for carrying out current limiting on the direct-voltage signals or keeping the constant current of the direct-voltage signals to drive the current control circuit to run. The fluctuation direct-current power source, the current control circuit and the current limiting or constant current circuit are connected in series to form a closed loop. The current control circuit at least comprises two current control sub-units, each current control sub-unit comprises a first normally-closed switch, a second normally-closed switch, a fourth normally-closed switch, a first diode and a second diode. According to the self-adaptive type LED driving circuit, the LED strings can be connected in parallel or in series through the normally-closed switches according to the input voltage and the circuit current, the total voltage of the LED strings can be accordingly changed, and the LED strings can automatically adapt to changes in the input voltage.

Description

technical field [0001] The invention relates to LED lighting tools, in particular to an adaptive LED drive circuit which changes the series-parallel structure of its own LED strings as the input voltage changes. Background technique [0002] At present, LED lighting is very popular. LED is a constant voltage device, and its current and voltage characteristics are similar to diodes. Therefore, it is necessary to limit the LED to work within the allowable current range to avoid LED damage due to overcurrent. Generally, LED lamps are driven by a DC power supply. The mains power is converted into DC power by a high-frequency switching power supply to drive the LED to emit light. The constant current circuit makes the LED work within a safe current range. The problem with this method is that the circuit is complex, there are many components, the cost is high, and the reliability is reduced; the second is that the volume becomes larger after the driving power is added, the design ...

Claims

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Application Information

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IPC IPC(8): H05B37/02
Inventor 潘伟雄
Owner GUANGZHOU PLEMAS LIGHTING CO LTD
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