CN201682655U - Multipath LED (Light-Emitting Diode) power supply device - Google Patents
Multipath LED (Light-Emitting Diode) power supply device Download PDFInfo
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- CN201682655U CN201682655U CN2010200027675U CN201020002767U CN201682655U CN 201682655 U CN201682655 U CN 201682655U CN 2010200027675 U CN2010200027675 U CN 2010200027675U CN 201020002767 U CN201020002767 U CN 201020002767U CN 201682655 U CN201682655 U CN 201682655U
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Abstract
The utility model relates to a multipath LED power supply device, which comprises a follow regulated power supply, linear constant flow sources and an operational amplifier, wherein the follow regulated power supply is respectively connected with each linear constant flow source, and the linear constant flow sources are respectively connected to an LED. The follow regulated power supply supplies voltage for each linear constant flow source; each linear constant flow source drives the LED; the maximum values or the average values or the minimum values of voltage drop in all linear constant flow sources are selected to serve as voltage drop signals transferred to the operational amplifier; the operational amplifier outputs a control voltage signal to the follow regulated power supply after comparing the set values of the voltage drop of the linear constant flow sources with the voltage drop signals; the control voltage signal adjusts the output voltage of the follow regulated power supply to make the output voltage of the follow regulated power supply changed along with the voltage drop of the linear constant flow sources, and finally, the voltage drop of the linear constant flow sources is controlled within the range of the set values of the voltage drop of the linear constant flow sources. The utility model has low cost and high efficiency and still can keep good constant-current characteristics when the efficiency of the linear constant flow sources reaches 98 percent, and thereby, the brightness consistency of each LED is ensured, and the power supply efficiency is not influenced by factors, such as temperature variation and the like.
Description
Affiliated technical field
The utility model belongs to the power supply field, particularly the electric supply installation of LED multi-path.
Background technology
In the prior art, LED multi-path adopts supply power mode as shown in Figure 1 usually, and the stabilized voltage power supply of a fixed voltage is provided after the input voltage process AC/DC conversion, and every paths of LEDs drives by a linear constant-current source, thereby has guaranteed brightness uniformity.The VF of LED (forward voltage drop) value constantly reduces with the rising of temperature, because the voltage that provides of stabilized voltage power supply is constant, therefore the pressure drop on the linear constant-current source will be risen and increase with temperature, thereby make the LED power supplying efficiency lower, and linearity constant-current source efficient can only reach 80% when performance is good.According to prior art, also can adopt supply power mode as shown in Figure 2, the stabilized voltage power supply of a fixed voltage is provided after the input voltage process AC/DC conversion, every paths of LEDs drives by a switching regulator constant-current source, though this mode efficient higher (switch constant-current source efficient can reach 90%), cost rises significantly, and reliability is relatively poor, and owing to adopted switching mode, so inevitably produced the EMC problem.
Summary of the invention
The purpose of this utility model is the defective that exists at prior art, has proposed a kind of LED multi-path electric supply installation.
The utility model is achieved through the following technical solutions.
LED multi-path electric supply installation described in the utility model is formed by following stabilized voltage power supply, linear constant-current source and operational amplifier, follows stabilized voltage power supply and is connected with each linear constant-current source respectively, and linear constant-current source is connected to a paths of LEDs separately.Following source of stable pressure provides voltage to each linear constant-current driving source, each linear constant-current source all drives a paths of LEDs, select that pressure drop maximum, mean value or minimum value send operational amplifier to as pressure drop signal in all linear constant-current sources, operational amplifier with linear constant-current source pressure drop set point therewith pressure drop signal relatively back output control voltage signal give and follow source of stable pressure, the control voltage signal is regulated the output voltage of following source of stable pressure.
Linear constant-current source pressure drop set point described in the utility model is meant under the constant situation of linear constant-current source output current, for guaranteeing the power supplying efficiency of linear constant-current source, the voltage drop value of setting for linear constant-current source.
The source of stable pressure of following described in the utility model is to regulate the stabilized voltage power supply of output voltage size according to the control voltage signal.Can be to import at a control of the output voltage sampling end increase voltage signal of existing common stabilized voltage power supply to constitute, the output of operational amplifier IC1 is connected to this control voltage signal input in the utility model, provides the control voltage signal for following source of stable pressure.
Operational amplifier one input described in the utility model is that end is set in linear constant-current source pressure drop, another input receives maximum, mean value or the minimum value of pressure drop in all linear constant-current sources, magnitude of voltage and this voltage drop value of linear constant-current source pressure drop being set end compare, and give by comparative result output control voltage and follow source of stable pressure.The terminal voltage value is set in the linear constant-current source pressure drop that changes operational amplifier, just can adjust the linear constant-current source pressure drop under the whole system stable state.
Because there is discreteness in the forward voltage drop VF of every paths of LEDs, so under the situation of every paths of LEDs lamp group electric current unanimity, there is corresponding difference in the pressure drop of each linear constant-current source.According to the VF difference of LED, the magnitude of voltage of end is set in the linear constant-current source pressure drop that operational amplifier described in the utility model is set, can be in the reasonable scope with all linear constant-current source pressure drop control, thus offset the influence that the VF discreteness of each paths of LEDs is brought.
By shown in Figure 3, following source of stable pressure provides a voltage of following linear constant-current source change in pressure drop to LED multi-path lamp group; Every paths of LEDs is driven by a linear constant-current source, selects the value of pressure drop maximum in all linear constant-current sources to produce a pressure drop signal to operational amplifier; Operational amplifier is exported the control voltage signal to following source of stable pressure in the back with the magnitude of voltage and the described pressure drop voltage ratio of linear constant-current source pressure drop setting end; The control voltage signal is regulated the output voltage of following source of stable pressure, make the output voltage of following source of stable pressure follow the change in pressure drop of linear constant-current source, the pressure drop of linear constant-current source is controlled in the scope of linear constant-current source pressure drop set point, thereby has guaranteed power supplying efficiency.
Technical scheme more specifically of the present utility model is (referring to an accompanying drawing 4):
Described device is by following stabilized voltage power supply, operational amplifier and some linear constant-current sources are formed, follow source of stable pressure and drive a plurality of linear constant-current sources simultaneously, each linear constant-current source drives a paths of LEDs lamp group, each linear constant-current source is connected to the positive pole of diode Ddj (j=i) by resistance R Di (i 〉=2), the negative pole of diode D dj is connected to the in-phase input end of operational amplifier IC1, the in-phase input end of operational amplifier IC1 also is connected to ground by resistance R m3, the inverting input voltage of operational amplifier IC1 is linear constant-current source pressure drop set point voltage [Vref2], operational amplifier IC1 compares all linear constant-current source pressure drop maximums and linear constant-current source pressure drop set point voltage [Vref2], output control voltage signal is connected to by resistance [RN1] and diode [Dn1] follows source of stable pressure, the positive pole of described diode [Dn1] is connected to resistance [RN1], the negative pole of diode [Dn1] is connected to follows source of stable pressure, follow source of stable pressure and regulate output voltage, the pressure drop of linear constant-current source is controlled in the scope of linear constant-current source pressure drop set point according to the control voltage signal.
The inverting input setting voltage [Vref2] that changes operational amplifier can be regulated the final stable voltage of constant-current source pressure drop.
Of the present utility model another more specifically technical scheme be (referring to accompanying drawing 5):
Described device is formed by following stabilized voltage power supply, operational amplifier and some linear constant-current sources, follow source of stable pressure and drive a plurality of linear constant-current sources simultaneously, each linear constant-current source drives a paths of LEDs lamp group, each linear constant-current source is connected to the negative pole of diode Ddi (i 〉=2), the positive pole of diode Ddi is connected to the in-phase input end of operational amplifier IC1, voltage Vd is input to the in-phase input end of operational amplifier IC1 by resistance R m1, and the inverting input voltage of operational amplifier IC1 is linear constant-current source pressure drop set point voltage [Vref2]; Operational amplifier IC1 compares pressure drop minimum value in all linear constant-current sources and linear constant-current source pressure drop set point voltage [Vref2], output control voltage signal is connected to by resistance [RN1] and diode [Dn1] follows source of stable pressure, the positive pole of described diode [Dn1] is connected to resistance [RN1], the negative pole of diode [Dn1] is connected to follows source of stable pressure, follow source of stable pressure and regulate output voltage, the pressure drop of linear constant-current source is controlled in the scope of linear constant-current source pressure drop set point according to the control voltage signal.
Voltage Vd described in the utility model is higher than the pressure drop set point.
The inverting input setting voltage [Vref2] that changes operational amplifier can be regulated the final stable voltage of constant-current source pressure drop.
Of the present utility model another more specifically technical scheme be (referring to accompanying drawing 6):
Described device is formed by following stabilized voltage power supply, operational amplifier and some linear constant-current sources, follow source of stable pressure and drive a plurality of linear constant-current sources simultaneously, each linear constant-current source drives a paths of LEDs lamp group, each linear constant-current source is connected to the in-phase input end of operational amplifier IC1 by resistance R Di (i 〉=2), the in-phase input end of operational amplifier IC1 also is connected to ground by resistance R m2, and the inverting input voltage of operational amplifier IC1 is linear constant-current source pressure drop set point voltage [Vref2]; Operational amplifier compares pressure drop mean value in all linear constant-current sources and linear constant-current source pressure drop set point voltage [Vref2], output control voltage signal is connected to by resistance [RN1] and diode [Dn1] follows source of stable pressure, the positive pole of described diode [Dn1] is connected to resistance [RN1], the negative pole of diode [Dn1] is connected to follows source of stable pressure, follow source of stable pressure and regulate output voltage, the pressure drop of linear constant-current source is controlled in the scope of linear constant-current source pressure drop set point according to the control voltage signal.
The inverting input setting voltage [Vref2] that changes operational amplifier can be regulated the final stable voltage of constant-current source pressure drop.
The operation principle of the utility model when extraneous variations in temperature is:
When ambient temperature raises, the VF of LED will reduce, and linear constant-current source is for guaranteeing that output current is constant, and himself pressure drop increases, and makes power supplying efficiency to reduce.And in the utility model, after linear constant-current source pressure drop raise, the pressure drop voltage of generation also raise; After operational amplifier receives the pressure drop voltage signal of rising, output control voltage-regulation is followed the output voltage of source of stable pressure, the output voltage of following source of stable pressure is reduced, thereby make the pressure drop of linear constant-current source be reduced in the setting range again, thereby guaranteed higher power supplying efficiency, also reduced the caloric value of linear constant-current source.
When ambient temperature reduces, the VF of LED will raise, and linear constant-current source is for guaranteeing that output current is constant, and himself pressure drop reduces.Exceed certain limit if the VF of LED raises, the output current of linear constant-current source reduces, and makes LED brightness reduce.And in the utility model, after linear constant-current source pressure drop reduced, the pressure drop voltage of generation also reduced; After operational amplifier receives the pressure drop voltage signal of reduction, output control voltage-regulation is followed the output voltage of source of stable pressure, the output voltage of following source of stable pressure is raise, thereby make the pressure drop of linear constant-current source be elevated in the setting range again, thereby both guaranteed higher power supplying efficiency, also guaranteed every paths of LEDs electric current consistency.
The utility model is with low cost, and efficient higher (constant-current source efficient reaches at 98% o'clock, still can keep good constant-current characteristics) can guarantee the brightness unanimity of each paths of LEDs can guarantee that again its power supplying efficiency is not subjected to the influence of factors such as variations in temperature.Solve the low and electric supply installation shown in Figure 2 problem with high costs of electric supply installation efficient shown in Figure 1 simultaneously, had both the with low cost and switching regulator constant-current source efficient advantage of higher of linear constant-current source.
Description of drawings
Fig. 1 is conventional LED multi-path electric supply installation schematic diagram.
Fig. 2 is another kind of conventional LED multi-path electric supply installation schematic diagram.
Fig. 3 is the LED multi-path electric supply installation schematic diagram that the utility model proposes, and wherein 01 for following source of stable pressure, and 02 is linear constant-current source group, and 03 is operational amplifier, and 04 is LED lamp group.
LED multi-path electric supply installation embodiment 1 schematic diagram that Fig. 4 the utility model proposes, wherein 05 follow source of stable pressure for what constitute by Switching Power Supply, 06 is linear constant-current source, RD1, RD2, RD3, RN1, Rm3 are resistance, Dd1, Dd2, Dd3, Dn1 are diode, IC1 is operational amplifier LM358, and 08 is LED lamp group.
LED multi-path electric supply installation embodiment 2 schematic diagrames that Fig. 5 the utility model proposes wherein 05 are followed source of stable pressure for what be made of Switching Power Supply, and 06 is linear constant-current source, Rm1, RN1 are resistance, Dd1, Dd2, Dd3, Dn1 are diode, and IC1 is operational amplifier LM358, and 08 is LED lamp group.
LED multi-path electric supply installation embodiment 3 schematic diagrames that Fig. 6 the utility model proposes wherein 05 are followed source of stable pressure for what be made of Switching Power Supply, and 06 is linear constant-current source, RD1, RD2, RD3, RN1, Rm2 are resistance, Dn1 is a diode, and IC1 is operational amplifier LM358, and 08 is LED lamp group.
Implement circuit for one of Fig. 7 the utility model embodiment neutral line constant-current source.Comprising operational amplifier LM358, a reference source TL431, resistance R 10, R12, R13, R101, R102, R103, capacitor C 101, metal-oxide-semiconductor Q101.
Embodiment
The utility model will be described further by following examples.
Embodiment 1 (as shown in Figure 4).
Present embodiment is three paths of LEDs electric supply installations, follow source of stable pressure 05 and drive three linear constant-current sources simultaneously, each linear constant-current source drives a paths of LEDs lamp group 08, three linear constant-current sources are connected to the positive pole of Dd1, Dd2, Dd3 respectively by RD1, RD2, RD3, the negative pole of Dd1, Dd2, Dd3 is connected to the in-phase input end of operational amplifier IC1, the in-phase input end of operational amplifier IC1 also is connected to ground by resistance R m3, the inverting input voltage of operational amplifier IC1 is set at Vref2, and the Vref2 magnitude of voltage is 0.5V in the present embodiment; Operational amplifier IC1 compares the maximum and the Vref2 of three linear constant-current source pressure drops, output control voltage signal is connected to by RN1 and Dn1 follows source of stable pressure, the positive pole of described diode [Dn1] is connected to resistance [RN1], the negative pole of diode [Dn1] is connected to follows source of stable pressure, follow source of stable pressure and regulate output voltage, the pressure drop of linear constant-current source is controlled in the scope of linear constant-current source pressure drop set point according to the control voltage signal.When the maximum of constant-current source pressure drop during greater than Vref2, the control voltage of operational amplifier IC1 output increases, follow source of stable pressure and receive the pulse-width modulation width that reduces switching signal after the control signal of increase, described output voltage of following source of stable pressure is reduced, thereby make the pressure drop of linear current source be reduced in the setting range.When the maximum of constant-current source pressure drop during less than Vref2, the control voltage of operational amplifier IC1 output reduces, follow source of stable pressure and receive the pulse-width modulation width that increases switching signal after the control signal of increase, described output voltage of following source of stable pressure is raise, thereby make the pressure drop of linear current source be elevated in the setting range.Wherein, RD1, RD2, RD3, Rm3 resistance value are 10 kilohms, and the RN1 resistance value is 51 kilohms.
The inverting input setting voltage Vref2 that changes operational amplifier can regulate the final stable voltage of constant-current source pressure drop.
Embodiment 2.(as shown in Figure 5)
Present embodiment is three paths of LEDs electric supply installations, follow source of stable pressure 05 and drive three linear constant-current sources simultaneously, each linear constant-current source drives a paths of LEDs lamp group 08, three linear constant-current sources are connected respectively to the negative pole of Dd1, Dd2, Dd3, the positive pole of Dd1, Dd2, Dd3 is connected to the in-phase input end of operational amplifier IC1, voltage Vd is input to the in-phase input end of operational amplifier IC1 by Rm1, and the inverting input voltage of operational amplifier IC1 is set at Vref2; Operational amplifier IC1 compares the minimum value and the Vref2 of three linear constant-current source pressure drops, output control voltage signal is connected to by RN1 and Dn1 follows source of stable pressure, the positive pole of described diode [Dn1] is connected to resistance [RN1], the negative pole of diode [Dn1] is connected to follows source of stable pressure, follow source of stable pressure and regulate output voltage, the pressure drop of linear constant-current source is controlled in the scope of linear constant-current source pressure drop set point according to the control voltage signal.When the minimum value of constant-current source pressure drop during greater than Vref2, the control voltage of operational amplifier IC1 output increases, follow source of stable pressure and receive the pulse-width modulation width that reduces switching signal after the control signal of increase, described output voltage of following source of stable pressure is reduced, thereby make the pressure drop of linear current source be reduced in the setting range.When the minimum value of constant-current source pressure drop during less than Vref2, the control voltage of operational amplifier IC1 output reduces, follow source of stable pressure and receive the pulse-width modulation width that increases switching signal after the control signal of increase, described output voltage of following source of stable pressure is raise, thereby make the pressure drop of linear current source be elevated in the setting range.Wherein, the Rm1 resistance value is 10 kilohms, and the RN1 resistance value is 51 kilohms.The Vref2 magnitude of voltage is 0.5V in the present embodiment, and Vd is 10V.
The inverting input setting voltage Vref2 that changes operational amplifier can regulate the final stable voltage of constant-current source pressure drop.
Embodiment 3.(as shown in Figure 6)
Present embodiment is three paths of LEDs electric supply installations, follow source of stable pressure 05 and drive three linear constant-current sources simultaneously, each linear constant-current source drives a paths of LEDs lamp group 08, three linear constant-current sources are connected to the in-phase input end of operational amplifier IC1 respectively by RD1, RD2, RD3, the in-phase input end of operational amplifier IC1 also is connected to ground by Rm2, the inverting input voltage of operational amplifier IC1 is set at Vref2, and the Vref2 magnitude of voltage is 0.5V in the present embodiment; Operational amplifier 07 compares the mean value and the Vref2 of three linear constant-current source pressure drops, output control voltage signal is connected to by RN1 and Dn1 follows source of stable pressure, the positive pole of described diode [Dn1] is connected to resistance [RN1], the negative pole of diode [Dn1] is connected to follows source of stable pressure, follow source of stable pressure and regulate output voltage, the pressure drop of linear constant-current source is controlled in the scope of linear constant-current source pressure drop set point according to the control voltage signal.When the mean value of constant-current source pressure drop during greater than Vref2, the control voltage of operational amplifier IC1 output increases, follow source of stable pressure and receive the pulse-width modulation width that reduces switching signal after the control signal of increase, described output voltage of following source of stable pressure is reduced, thereby make the pressure drop of linear current source be reduced in the setting range.When the mean value of constant-current source pressure drop during less than Vref2, the control voltage of operational amplifier IC1 output reduces, follow source of stable pressure and receive the pulse-width modulation width that increases switching signal after the control signal of increase, described output voltage of following source of stable pressure is raise, thereby make the pressure drop of linear current source be elevated in the setting range.Wherein, RD1, RD2, RD3, Rm2 resistance value are 10 kilohms, and the RN1 resistance value is 51 kilohms.
The inverting input setting voltage Vref2 that changes operational amplifier can regulate the final stable voltage of constant-current source pressure drop.
Embodiment 4.Linear constant-current source (as shown in Figure 7).
Present embodiment is an embodiment of linear constant-current source described in the utility model, can be used among the embodiment of above three electric supply installations.
The described linear constant-current source circuit of present embodiment comprises: operational amplifier LM358, a reference source TL431, resistance R 10, R12, R13, R101, R102, R103, capacitor C 101, metal-oxide-semiconductor Q101.Wherein operational amplifier LM358 connects the operating voltage of 15V, a reference source TL431 is connected on the operating voltage of 15V by R13, and be connected to the in-phase input end of operational amplifier LM358 by resistance R 10, R101, pass through R12 ground connection between R10, the R101, the in-phase input end of LM358 is by C101 ground connection, the inverting input of LM358 has been connected to source class and the resistance R 103 of metal-oxide-semiconductor Q101, and by R103 ground connection, the LM358 output is connected to the grid of the Q101 of metal-oxide-semiconductor by R102.
Embodiment 5.Follow source of stable pressure
Present embodiment is an embodiment who follows source of stable pressure described in the utility model, can be used among the embodiment of above three electric supply installations.
The described source of stable pressure of following of present embodiment is to adopt the regular tap power supply of TL494 to realize by improving.Wherein as follows to the improvement of the regular tap power supply that adopts TL494: the control voltage signal Vcont of operational amplifier output described in the utility model is connected to the pin one of TL494, has just constituted and has followed Switching Power Supply.When the control voltage Vcont of operational amplifier output reduced, the output voltage of described Switching Power Supply (following source of stable pressure) increased; When the control voltage Vcont of operational amplifier output increased, the output voltage of described Switching Power Supply (following source of stable pressure) reduced; Thereby reach the purpose of following.
Claims (4)
1. a LED multi-path electric supply installation is characterized in that forming by following stabilized voltage power supply, linear constant-current source and operational amplifier, follows stabilized voltage power supply and is connected with each linear constant-current source respectively, and linear constant-current source is connected to a paths of LEDs separately; Following source of stable pressure provides voltage to each linear constant-current driving source, each linear constant-current source all drives a paths of LEDs, select that pressure drop maximum, mean value or minimum value send operational amplifier to as pressure drop signal in all linear constant-current sources, operational amplifier with linear constant-current source pressure drop set point therewith pressure drop signal relatively back output control voltage signal give and follow source of stable pressure, the control voltage signal is regulated the output voltage of following source of stable pressure.
2. LED multi-path electric supply installation according to claim 1, it is characterized in that each linear constant-current source is the positive pole that is connected to diode [Ddj (j=i)] by resistance [RDi (i 〉=2)], the negative pole of diode [Ddj] is connected to the in-phase input end of operational amplifier IC1, the inverting input voltage of operational amplifier IC1 is linear constant-current source pressure drop set point voltage, and operational amplifier IC1 output control voltage signal is connected to by resistance [RN1] and diode [Dn1] follows source of stable pressure; The positive pole of described diode [Dn1] is connected to resistance [RN1], and the negative pole of diode [Dn1] is connected to follows source of stable pressure.
3. LED multi-path electric supply installation according to claim 1, each linear constant-current source of its feature is the in-phase input end that is reversely connected to operational amplifier IC1 by a diode [Ddi (i 〉=2)], voltage Vd is input to the in-phase input end of operational amplifier IC1 by resistance [Rm1], the inverting input voltage of operational amplifier IC1 is linear constant-current source pressure drop set point voltage, and operational amplifier IC1 output control voltage signal is connected to by resistance [RN1] and diode [Dn1] follows source of stable pressure; The positive pole of described diode [Dn1] is connected to resistance [RN1], and the negative pole of diode [Dn1] is connected to follows source of stable pressure; The value of described voltage Vd requires greater than linear constant-current source pressure drop set point.
4. LED multi-path electric supply installation according to claim 1, it is characterized in that each linear constant-current source is the in-phase input end that is connected to operational amplifier IC1 by resistance [RDi (i 〉=2)], the in-phase input end of operational amplifier IC1 is connected to ground by resistance [Rm2], the inverting input voltage of operational amplifier IC1 is linear constant-current source pressure drop set point voltage, and operational amplifier output control voltage signal is connected to by resistance [RN1] and diode [Dn1] follows source of stable pressure; The positive pole of described diode [Dn1] is connected to resistance [RN1], and the negative pole of diode [Dn1] is connected to follows source of stable pressure.
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| CN2010200027675U CN201682655U (en) | 2010-01-16 | 2010-01-16 | Multipath LED (Light-Emitting Diode) power supply device |
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| CN2010200027675U CN201682655U (en) | 2010-01-16 | 2010-01-16 | Multipath LED (Light-Emitting Diode) power supply device |
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Cited By (3)
| Publication number | Priority date | Publication date | Assignee | Title |
|---|---|---|---|---|
| CN102131326A (en) * | 2010-01-16 | 2011-07-20 | 杨义根 | Power supply mode and device of multipath light emitting diodes (LED) |
| CN104185350A (en) * | 2014-09-12 | 2014-12-03 | 南京矽力杰半导体技术有限公司 | Multi-way LED constant current driving circuit and control method thereof |
| CN107071969A (en) * | 2017-04-06 | 2017-08-18 | 上海小糸车灯有限公司 | The many pixelation LED light source control circuits of car rear |
-
2010
- 2010-01-16 CN CN2010200027675U patent/CN201682655U/en not_active Expired - Lifetime
Cited By (3)
| Publication number | Priority date | Publication date | Assignee | Title |
|---|---|---|---|---|
| CN102131326A (en) * | 2010-01-16 | 2011-07-20 | 杨义根 | Power supply mode and device of multipath light emitting diodes (LED) |
| CN104185350A (en) * | 2014-09-12 | 2014-12-03 | 南京矽力杰半导体技术有限公司 | Multi-way LED constant current driving circuit and control method thereof |
| CN107071969A (en) * | 2017-04-06 | 2017-08-18 | 上海小糸车灯有限公司 | The many pixelation LED light source control circuits of car rear |
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Effective date of registration: 20130617 Address after: 528322 Huang Lianxin Industrial Development Zone, Leliu street, Shunde District, Guangdong, Foshan Patentee after: Foshan Shunde Junda Electronic Co., Ltd. Address before: 528308 Guangdong Province, Foshan city Shunde District Beijiao Junlan Golf Club Jun Mei Road No. 99 Patentee before: Yang Yigen |
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