CN204598428U - Coordinate the LED drive power of electric ballast - Google Patents

Abstract

The utility model provides a kind of LED drive power coordinating electric ballast, comprising: semibridge system drive circuit, relay, control relay circuit and voltage detecting circuit; Described semibridge system drive circuit, relay, control relay circuit and voltage detecting circuit are electrically connected successively; The voltage that voltage detecting circuit detected electrons ballast exports, control relay circuit is switched on or switched off according to the voltage control relay detected, instantaneous pressure is produced when electric ballast starts, relay disconnects thus avoids instantaneous pressure, prevent instantaneous pressure from burning out LED, instantaneous pressure is eliminated rear relay and is connected, and semibridge system drive circuit is started working, for LED is powered.

Description

Coordinate the LED drive power of electric ballast

Technical field

The utility model relates to driving power field, particularly relates to a kind of LED drive power coordinating electric ballast.

Background technology

There is global energy crisis in 20 century 70s; the sense of urgency of energy savings makes many companies be devoted to the research of energy-conserving light source and electronic ballast for fluoresent lamp; along with semiconductor technology develop rapidly; various high anti-pressure power switching device continues to bring out; for the exploitation of electric ballast provides condition; at the end of the seventies, external producer takes the lead in being proposed first generation electric ballast, is the great innovation of illumination development history the next item up.Because it has many advantages such as energy-conservation, cause global very big concern and interest, think to replace the ideal product of Inductive ballast, some famous enterprises have all dropped into suitable human and material resources and have carried out more higher leveled research and development subsequently.Because microelectric technique is advanced by leaps and bounds, facilitate the general level of electric ballast.Electric ballast in the whole world particularly developed country apply in the whole nation.

The nineties, light emitting semiconductor device LED occurred, LED is a kind of semiconducting solid luminescent device, and operating voltage is very low, and operating current is very little, shock resistance and anti-seismic performance good, reliability is high, and the life-span is long, energy-conserving and environment-protective; Because conventional fluorescent light fixture can bring environmental pollution, produce all deficiencies of ultraviolet and noise etc., current LED lamp is towards the future development replacing fluorescent lamp completely; Need up to the voltage of upper kilovolt to puncture gas in fluorescent tube when conventional fluorescent starts to light, charged ion in gas is made to flow to the other end from one end, charged ion creates light after colliding the fluorescent material on tube wall, when voltage resume after fluorescent tube normal ignition is lower than supply voltage.LED has low-voltage and starts, and energy-conservation feature, does not need high voltage just can light, and too high voltage is anti-, and you can bring fatal harm to LED.Therefore, conventional LED lamp can not directly fit on the lamp bracket with electric ballast, could use if replace electric ballast change circuit of must dismantling; Transformation existing line will consume a large amount of manpower and financial resources, limits renewal and the development of LED lamp.And if LED lamp is directly used tradition with on the lamp bracket of electric ballast, just need to avoid the high pressure that electric ballast produces when lighting fluorescence.

Application number be 201210055977.4 patent document disclose a kind of LED drive power of compatible electronic ballast, comprise high pressure absorbing circuit, in order to absorb the output voltage of described electric ballast; Described high pressure absorbing circuit comprises voltage threshold; When described output voltage is higher than voltage threshold, the output voltage of electric ballast absorbs by high pressure absorbing circuit, ensures that output voltage now can not be passed to LED drive power late-class circuit; When described output voltage is less than voltage threshold, high pressure absorbing circuit does not work, and output voltage is now passed to late-class circuit; Thus the high pressure startup stage of electric ballast can be absorbed, and avoid it to flow into late-class circuit, and damage late-class circuit, ensure the normal work of LED drive power.

But the problem of such scheme existence and stability and reliability, high pressure absorbing circuit can not be guaranteed to be absorbed by the high pressure startup stage of electric ballast completely.

Summary of the invention

Technical problem to be solved in the utility model is: provide a kind of LED drive power coordinating electric ballast, solves the problem that the high pressure produced when reliablely and stablely preventing electric ballast from starting damages LED lamp.

In order to solve the problems of the technologies described above, the technical solution adopted in the utility model is:

Coordinating a LED drive power for electric ballast, for being electrically connected the output of electric ballast, comprising: semibridge system drive circuit, relay, control relay circuit and voltage detecting circuit; Described semibridge system drive circuit, relay, control relay circuit and voltage detecting circuit are electrically connected successively;

Described semibridge system drive circuit is for providing constant electric current;

Described voltage detecting circuit is used for the voltage that detected electrons ballast exports;

Described control relay circuit is used for being switched on or switched off according to the voltage control relay detected.

The beneficial effect of the LED drive power of above-mentioned cooperation electric ballast is, the voltage that voltage detecting circuit detected electrons ballast exports, control relay circuit is switched on or switched off according to the voltage control relay detected, instantaneous pressure is produced when electric ballast starts, relay disconnects thus avoids instantaneous pressure, prevents instantaneous pressure from burning out LED, and instantaneous pressure is eliminated rear relay and connected, semibridge system drive circuit is started working, for LED is powered.

Accompanying drawing explanation

Fig. 1 is the structural representation that the utility model embodiment one coordinates the LED drive power of electric ballast;

Fig. 2 is the flow chart that the utility model embodiment two coordinates the LED driving method of electric ballast.

Label declaration:

1, semibridge system drive circuit; 2, relay; 3, control relay circuit; 4, voltage detecting circuit; 5, LED.

Embodiment

By describing technology contents of the present utility model in detail, realized object and effect, accompanying drawing is coordinated to be explained below in conjunction with execution mode.

The design of the utility model most critical is: by control relay switch on and off avoid electric ballast start time produce instantaneous pressure, prevent from burning out LED.

The explanation of technical terms that the utility model relates to:

Please refer to Fig. 1,

Coordinating a LED drive power for electric ballast, for being electrically connected the output of electric ballast, comprising: semibridge system drive circuit 1, relay 2, control relay circuit 3 and voltage detecting circuit 4; Described semibridge system drive circuit 1, relay 2, control relay circuit 3 and voltage detecting circuit 4 are electrically connected successively;

Described semibridge system drive circuit 1 is for providing constant electric current;

The voltage that described voltage detecting circuit 4 exports for detected electrons ballast;

Described control relay circuit 3 is for being switched on or switched off according to the voltage control relay 2 detected.

From foregoing description, the beneficial effects of the utility model are: the voltage that voltage detecting circuit 4 detected electrons ballast exports, control relay circuit 3 is switched on or switched off according to the voltage control relay 2 detected, instantaneous pressure is produced when electric ballast starts, relay 2 disconnects thus avoids instantaneous pressure, prevents instantaneous pressure from burning out LED, and instantaneous pressure is eliminated rear relay 2 and connected, semibridge system drive circuit 1 is started working, for LED 5 is powered.

Further, described semibridge system drive circuit 1 is electrically connected a resistance R, and described resistance R is used for being electrically connected to LED 5.

From foregoing description, by measuring the electric current exported by the Current adjustment semibridge system drive circuit 1 of resistance R, thus output can the normal constant current worked of driving LED lamp 5.

Further, described semibridge system drive circuit 1 is electrically connected an inductance L with between relay 2.

From foregoing description, by being electrically connected an inductance L dividing potential drop thus reducing the voltage being input to LED, define further protection.

Further, also comprise the first filament analog circuit and the second filament analog circuit, described first filament analog circuit is electrically connected with electric ballast and semibridge system drive circuit 1 respectively, and the second filament analog circuit is electrically connected with electric ballast and relay 2 respectively.

From foregoing description, the LED drive power of electric ballast is coordinated to be electrically connected to the output of electric ballast by the first filament analog circuit and the second filament analog circuit.

Please refer to Fig. 1, embodiment one of the present utility model is:

A kind of LED drive power coordinating electric ballast, for being electrically connected the output of electric ballast, comprising: the first filament analog circuit, the second filament analog circuit, semibridge system drive circuit 1, relay 2, control relay circuit 3, voltage detecting circuit 4, resistance R and inductance L; Described semibridge system drive circuit 1, relay 2, control relay circuit 3 and voltage detecting circuit 4 are electrically connected successively; Described semibridge system drive circuit 1 is electrically connected a resistance R, and described resistance is used for being electrically connected to LED 5; Described inductance L is electrically connected with semibridge system drive circuit 1 and relay 2 respectively; Described first filament analog circuit is electrically connected with semibridge system drive circuit 1, and the second filament analog circuit is electrically connected with relay 2.

Described semibridge system drive circuit 1 is for providing constant electric current;

The voltage that described voltage detecting circuit 4 exports for detected electrons ballast;

Described control relay circuit 3 is for being switched on or switched off according to the voltage control relay 2 detected.

When electric ballast starts, produce instantaneous pressure, voltage detecting circuit 4 detects instantaneous pressure, and the instantaneous pressure control relay 2 that control relay circuit 3 detects according to voltage detecting circuit 4 disconnects, semibridge system drive circuit 1 does not work, and prevents from burning out LED 5; The instantaneous pressure of electric ballast is eliminated, voltage detecting circuit 4 detects a lower voltage, control relay circuit 3 control relay 2 closes, semibridge system drive circuit 1 works, the voltage exported makes to be reduced by the voltage of LED 5 through inductance L dividing potential drop, semibridge system drive circuit 1 detects the electric current by resistance R simultaneously, and according to the Current adjustment output current detected, for LED 5 provides the constant current of normal work.

Please refer to Fig. 2, embodiment two of the present utility model is:

The idiographic flow of the LED driving method of cooperation electric ballast is:

The voltage that S1, detected electrons ballast export;

S2, being switched on or switched off according to the voltage control relay 2 detected; If the voltage detected is greater than or equal to predeterminated voltage, relay 2 disconnects; If the voltage detected is lower than predeterminated voltage, relay 2 is connected.

In sum, the LED drive power of the cooperation electric ballast that the utility model provides and driving method, being switched on or switched off of the voltage control relay exported by electric ballast, voltage detecting circuit disconnects relay after high pressure being detected, thus the instantaneous pressure avoided when electric ballast starts, and after instantaneous pressure is eliminated engage relay, semibridge system drive circuit is normally worked, for LED normally works power supply.

The foregoing is only embodiment of the present utility model; not thereby the scope of the claims of the present utility model is limited; every equivalents utilizing the utility model specification and accompanying drawing content to do; or be directly or indirectly used in relevant technical field, be all in like manner included in scope of patent protection of the present utility model.

Claims (4)

1. coordinate a LED drive power for electric ballast, for being electrically connected the output of electric ballast, it is characterized in that, comprising: semibridge system drive circuit, relay, control relay circuit and voltage detecting circuit; Described semibridge system drive circuit, relay, control relay circuit and voltage detecting circuit are electrically connected successively;

Described semibridge system drive circuit is for providing constant electric current;

Described voltage detecting circuit is used for the voltage that detected electrons ballast exports;

Described control relay circuit is used for being switched on or switched off according to the voltage control relay detected.

2. the LED drive power of cooperation electric ballast according to claim 1, is characterized in that, described semibridge system drive circuit is electrically connected a resistance, and described resistance is used for being electrically connected to LED.

3. the LED drive power of cooperation electric ballast according to claim 1, is characterized in that, described semibridge system drive circuit be electrically connected an inductance between relay.

4. the LED drive power of cooperation electric ballast according to claim 1, it is characterized in that, also comprise the first filament analog circuit and the second filament analog circuit, described first filament analog circuit is electrically connected with semibridge system drive circuit, and the second filament analog circuit is electrically connected with relay.