CN201742618U - Intelligent LED constant current driving circuit - Google Patents

Abstract

The utility model relates to an intelligent LED constant current driving circuit which comprises a power supply circuit that is used for supplying power for a control circuit; the control circuit is connected with a half-bridge power supply and protection circuit which is connected with an LED load; and the power supply circuit and the half-bridge power supply and protection circuit are connected with mains supply. By adopting the mutually independent power supply way that the LED load is supplied with power by the half-bridge power supply and protection circuit, and the control circuit is supplied with power by the power supply circuit, the interference for the control circuit caused by the change of the load and the mains supply input is reduced. As the half-bridge power supply and protection circuit is used for supplying power for the load, the maximum output power exceeds 100W; and the intelligent LED constant current driving circuit is large in output current change range and high in efficiency, thus adapting to high-power and large-range load change.

Description

A kind of intelligent LED constant-current driving circuit

Technical field

The utility model relates to a kind of drive circuit, especially a kind of intelligent LED constant-current driving circuit.

Background technology

Because the LED light fixture has light efficiency height, colorimetric purity advantages of higher, the LED lamp more and more is applied to the special lighting field.Because LED luminosity and electric current are directly proportional, by regulating the output that the LED forward current can change the LED luminous flux.Existing LED constant-current drive circuit luminous flux output regulative mode mainly contains four kinds: the pwm pulse mode is regulated, controllable silicon cut adjusting, the power tube linear amplification is regulated and the current sample switch is regulated.

First three is planted regulative mode and all has separately defective: one, and the output current that the pwm pulse mode is regulated is intermittent, and luminous flux can't smoothly continuous output, and the size of luminous flux can't correctly be discerned by the high speed optical transducer; Its two, though that controllable silicon cut mode is regulated output current is continuous, output current contains higher power frequency ripple, and often has the flicker problem when wide-range current is regulated; Its three, power tube linear amplification regulative mode power-efficient is low excessively, power supply heating is higher, reliability is low; They are four years old, the current sample mode switching regulator can be adjusted the output current size continuously, accurately, yet, existing drive circuit is because need to consider the power-efficient problem, current feedback signal is faint, be subject to disturb, and power output is low, can't be implemented in bigger voltage and the power bracket can continuously smooth with higher current precision adjustment, and existing regulative mode is when communicating by letter with host computer, be subject to the electric system interference, can't adjust output current in real time and accurately according to the host computer instruction.

The utility model content

The purpose of this utility model is to provide a kind of high accuracy, high efficiency, high power, wide region, and output current can be according to the continuously adjustable intelligent LED constant-current driving circuit of host computer signal.

For achieving the above object; the utility model has adopted following technical scheme: a kind of intelligent LED constant-current driving circuit; comprise power supply circuits; power supply circuits are powered to control circuit; control circuit links to each other with half-bridge power power supply and protective circuit; half-bridge power power supply and protective circuit link to each other with the LED load, and described power supply circuits and half-bridge power power supply and protective circuit all connect civil power.

As shown from the above technical solution; LED load in the utility model is by half-bridge power power supply and protective circuit power supply; control circuit is powered by power supply circuits, adopts the separate mode of this power supply, and the variation of load and civil power input is diminished to the interference of control circuit.Adopting half-bridge power power supply and protective circuit is electric, and peak power output surpasses 100W, and the output current excursion is big, and the efficient height, can adapt to high power, on a large scale load variations.

Description of drawings

Fig. 1 is a circuit block diagram of the present utility model;

Fig. 2,3 is the circuit theory diagrams of power supply circuits in the utility model;

Fig. 4,5 is the circuit theory diagrams of half-bridge power power supply and protective circuit in the utility model;

Fig. 6,7,8 is the circuit theory diagrams of sampling filter amplifying circuit in the utility model.

Embodiment

A kind of intelligent LED constant-current driving circuit; comprise power supply circuits 10; power supply circuits 10 are to control circuit 20 power supplies; control circuit 20 links to each other with half-bridge power power supply and protective circuit 30; half-bridge power power supply and protective circuit 30 link to each other with LED load 40; described power supply circuits 10 all connect civil power with half-bridge power power supply and protective circuit 30, and as shown in Figure 1, LED load 40 is made up of the high-capacity LED serial or parallel connection.

In conjunction with Fig. 1; described control circuit 20 comprises microprocessor 21; the signal input part of microprocessor 21 connects the signal output part of host computer 22; microprocessor two-way output in 21 fens; one the tunnel links to each other with half-bridge power control circuit 23; the D/A converter 25 of leading up to links to each other with half-bridge power control circuit 23; half-bridge power control circuit 23 links to each other with half-bridge power power supply and protective circuit 30; be used to gather the voltage of LED load 40; the sampling filter amplifying circuit 24 of electric current respectively with LED load 40; half-bridge power control circuit 23 links to each other with microprocessor 21, and half-bridge power power supply and protective circuit 30 link to each other with the signal input part of microprocessor 21.Adopt microprocessor 21 as the control cores, can communicate by letter with host computer 22 in real time, and the instruction that can send according to host computer 22 LED load 40 is adjusted and protected promptly and accurately, speed is fast, and control is flexible.

In conjunction with Fig. 1; described half-bridge power power supply and protective circuit 30 are made up of Switching Power Supply control IC SG2525, mosfet driver TC4424, isolation drive transformer T2 and peripheral circuit thereof; be used to receive the signal that microprocessor 21, D/A converter 25 or sampling filter amplifying circuit 24 send, and according to signal controlling half-bridge power power supply that is received and protective circuit 30 work.The digital current conditioning signal that described D/A converter 25 is used for microprocessor 21 is sent converts analog signal to, delivers to half-bridge power control circuit 23.Described microprocessor 21 is made up of microprocessor IC ATMEGA168, voltage monitor IC HT7027 and the peripheral circuit thereof of built in A/D converter, is used for communicating with host computer 22, and the control half-bridge power control circuit 23 that transmits control signal.Described power supply circuits 10 are respectively to half-bridge power control circuit 23, D/A converter 25, microprocessor 21, host computer 22 and 24 power supplies of sampling filter amplifying circuit, described microprocessor 21 adopts the ATMEGA168 chip, and described host computer 22 adopts touch-screen.

In conjunction with Fig. 2,3, power supply circuits 10 are made up of PWM on-off controller IC UC3842, transformer T3, three end line voltage stabilizing IC LM7815V, LM7805 and peripheral circuit thereof.The phase line of described power supply circuits 10 and zero line order be civil power mutually, single-phase civil power connects transformer T3 primary coil after filtering of LC filter circuit and full-wave rectifying circuit rectification, first secondary coil of transformer T3 links to each other with the input of three terminal regulator U13, the second subprime coil of transformer T3 links to each other with the input of three terminal regulator U12, three terminal regulator U13 output+15V direct current is to host computer 22, three terminal regulator U12 output+5V direct current is to half-bridge power control circuit 23, D/A converter 25, microprocessor 21 and sampling filter amplifying circuit 24, described transformer T3 is an isolating transformer.

In conjunction with Fig. 4,5, half-bridge power power supply and protective circuit 30 by two power switch pipes connect, transformer T1, two electric capacity, voltage comparator ic LM393 and peripheral circuits form, being used for converting civil power to direct current provides power supply, protection to LED load 40.The phase line of power supply of described half-bridge power and protective circuit 30 and zero line order be civil power mutually; single-phase civil power meets the first power switch pipe BG1 and the second power switch pipe BG2 after filtering of LC filter circuit and full-wave rectifying circuit rectification; the grid of the first power switch pipe BG1 links to each other with the positive voltage pin of transformer T2 through resistance R 33; the grid of the second power switch pipe BG2 links to each other with the positive voltage pin of transformer T2 through resistance R 44; the first power switch pipe BG1; the source electrode of the second power switch pipe BG2 links to each other with the reference voltage pin of transformer T2 respectively; the positive voltage output pin of transformer T2 links to each other with the anode of LED load 40, the reference voltage pin of transformer T2; output reference edge ground connection.The described first power switch pipe BG1, the second power switch pipe BG2 adopt the IRF1840 chip, and described switching tube Q3 adopts the IRF540 chip.

In conjunction with Fig. 6,7,8, described sampling filter amplifying circuit 24 is made up of precision resistance, operational amplifier OPA2277 and peripheral circuit thereof, is used for providing in real time to half-bridge power control circuit 23 and microprocessor 21 voltage and the current signal of LED load 40.Described sampling filter amplifying circuit 24 comprises amplifier U15, U16, U19 and voltage comparator U18, LED load 40 links to each other with the output reference edge of amplifier U16 through sampling resistor, the output reference edge ground connection of amplifier U16, LED load 40 links to each other with the homophase input pin of amplifier U16 through resistance R 70, switching tube Q3 links to each other with the I/O mouth of microprocessor 21 through resistance R 72, the output pin of amplifier U16 links to each other with the AD conversion input port of microprocessor 21, the homophase input pin of voltage comparator U18 links to each other through the anode of resistance R 81 with LED load 40, the output pin of voltage comparator U18 is through resistance R 84, diode R26 links to each other with the I/O mouth of microprocessor 21, the output pin of amplifier U19 links to each other with the I/O mouth of microprocessor 21, described amplifier U15, U16, U19 all adopts the OPA2277 chip, antijamming capability is strong, electric current is adjusted the precision height, and scope is big.

When work, at first civil power inputs to power supply circuits 10 and forms isolation, stable, low noise direct voltage, 10 pairs of half-bridge power control circuits 23 of power supply circuits, D/A converter 25, sampling filter amplifying circuit 24, host computer 22, microprocessor 21 power supplies.Microprocessor 21 is after the program initialization of inner setting; receive or to host computer 22 transmission information; when microprocessor 21 receives the control signal of host computer 22 transmissions; open half-bridge power control circuit 23; and to half-bridge power control circuit 23 transmission Serial Control data; the Serial Control data are after D/A converter 25 converts analog signal to; for half-bridge power control circuit 23 provides the adjusting fiducial value; after half-bridge power control circuit 23 is opened; control half-bridge power power supply and protective circuit 30 work, and to convert civil power to direct voltage by half-bridge power power supply and protective circuit 30 be LED load 40 power supplies.

The terminal voltage of LED load 40 and current value signal feed back to half-bridge power control circuit 23 and microprocessor 21 through sampling filter amplifying circuit 24; electric current that half-bridge power control circuit 23 is come feedback and voltage signal and adjusting fiducial value compare; be used in the mains input voltage or regulate half-bridge power power supply and protective circuit 30 during load variations, with guarantee LED load 40 in certain voltage range with constant current work.When the voltage of half-bridge power power supply and protective circuit 30 outputs or current value exceeded setting range, microprocessor 21 and half-bridge power control circuit 23 can in time start half-bridge power power supply and protective circuit 30, damage to avoid LED load 40.Microprocessor 21 changes the Serial Control data according to the control signal that host computer 22 sends in real time, and is converted to unlatching, the shutoff of analog signal control half-bridge power control circuit 23 or changes the adjusting fiducial value.Half-bridge power control circuit 23 is correspondingly regulated half-bridge power power supply and protective circuit 30 according to the adjusting fiducial value after changing, to change the electric current of LED load 40.

Claims (7)

1. intelligent LED constant-current driving circuit; it is characterized in that: comprise power supply circuits (10); power supply circuits (10) are powered to control circuit (20); control circuit (20) links to each other with half-bridge power power supply and protective circuit (30); half-bridge power power supply and protective circuit (30) link to each other with LED load (40), and described power supply circuits (10) all connect civil power with half-bridge power power supply and protective circuit (30).

2. intelligent LED constant-current driving circuit according to claim 1; it is characterized in that: described control circuit (20) comprises microprocessor (21); the signal input part of microprocessor (21) connects the signal output part of host computer (22); microprocessor (21) divides two-way output; one the tunnel links to each other with half-bridge power control circuit (23); the D/A converter (25) of leading up to links to each other with half-bridge power control circuit (23); half-bridge power control circuit (23) links to each other with half-bridge power power supply and protective circuit (30); be used to gather the voltage of LED load (40); the sampling filter amplifying circuit (24) of electric current respectively with LED load (40); half-bridge power control circuit (23) links to each other with microprocessor (21), and half-bridge power power supply and protective circuit (30) link to each other with the signal input part of microprocessor (21).

3. intelligent LED constant-current driving circuit according to claim 1, it is characterized in that: described power supply circuits (10) are respectively to half-bridge power control circuit (23), D/A converter (25), microprocessor (21), host computer (22) and sampling filter amplifying circuit (24) power supply, described microprocessor (21) adopts the ATMEGA168 chip, and described host computer (22) adopts touch-screen.

4. according to claim 1 or 3 described intelligent LED constant-current driving circuits, it is characterized in that: the phase line of described power supply circuits (10) and zero line order be civil power mutually, single-phase civil power connects transformer T3 primary coil after filtering of LC filter circuit and full-wave rectifying circuit rectification, first secondary coil of transformer T3 links to each other with the input of three terminal regulator U13, the second subprime coil of transformer T3 links to each other with the input of three terminal regulator U12, three terminal regulator U13 output+15V direct current is to host computer (22), and three terminal regulator U12 output+5V direct current is to half-bridge power control circuit (23), D/A converter (25), microprocessor (21) and sampling filter amplifying circuit (24).

5. intelligent LED constant-current driving circuit according to claim 1; it is characterized in that: the phase line of power supply of described half-bridge power and protective circuit (30) and zero line order be civil power mutually; single-phase civil power meets the first power switch pipe BG1 and the second power switch pipe BG2 after filtering of LC filter circuit and full-wave rectifying circuit rectification; the grid of the first power switch pipe BG1 links to each other with the positive voltage pin of transformer T2 through resistance R 33; the grid of the second power switch pipe BG2 links to each other with the positive voltage pin of transformer T2 through resistance R 44; the first power switch pipe BG1; the source electrode of the second power switch pipe BG2 links to each other with the reference voltage pin of transformer T2 respectively; the positive voltage output pin of transformer T2 links to each other with the anode of LED load (40), the reference voltage pin of transformer T2; output reference edge ground connection.

6. intelligent LED constant-current driving circuit according to claim 1, it is characterized in that: described sampling filter amplifying circuit (24) comprises amplifier U15, U16, U19 and voltage comparator U18, LED load (40) links to each other with the output reference edge of amplifier U16 through sampling resistor, the output reference edge ground connection of amplifier U16, LED load (40) links to each other with the homophase input pin of amplifier U16 through resistance R 70, switching tube Q3 links to each other through the I/O mouth of resistance R 72 with microprocessor (21), the output pin of amplifier U16 links to each other with the AD conversion input port of microprocessor (21), the homophase input pin of voltage comparator U18 links to each other through the anode of resistance R 81 with LED load (40), the output pin of voltage comparator U18 is through resistance R 84, diode R26 links to each other with the I/O mouth of microprocessor (21), and the output pin of amplifier U19 links to each other with the I/O mouth of microprocessor (21).

7. according to claim 5 or 6 described intelligent LED constant-current driving circuits, it is characterized in that: described amplifier U15, U16, U19 all adopt the OPA2277 chip, the described first power switch pipe BG1, the second power switch pipe BG2 adopt the IRF1840 chip, and described switching tube Q3 adopts the IRF540 chip.

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