CN102159012A - Semiconductor illuminating lamp - Google Patents

Abstract

The invention relates to a lamp, in particular to a semiconductor illuminating lamp which comprises a light-emitting diode group, wherein the light-emitting diode group is connected with the output end of a bridge type rectifier, one input end of the bridge type rectifier is connected with an alternating current power supply, a negative temperature coefficient thermistor is serially connected between the other input end of the bridge type rectifier and the alternating current power supply, a current-limit reactor is arranged between the negative temperature coefficient thermistor and the bridge-type rectifier, and first discharge resistors are connected in parallel to two ends of the current-limit reactor. According to the invention, current of each group of semiconductor illuminating lamps can be conveniently regulated to ensure that the semiconductor illuminating lamp works in an optimal state so that effects of energy saving and long service life of the semiconductor illuminating lamp are achieved; and the invention has the advantages of low cost, less failures and easiness for realization.

Description

Semi-conductor lighting lamp

Technical field

The present invention relates to a kind of lamp, relate in particular to a kind of semi-conductor lighting lamp.

Background technology

In existing semiconductor light-emitting-diode is used, its representational being applied as: as back lighting, display screen and the board of instrument and meter and various kinds of equipment, light of stage decoration, portable lighting etc.Also few as the room lighting of real meaning and city illumination and road lighting.

Semiconductor light-emitting-diode---be present LED, single LED luminous power and driving voltage are all very low.In display screen and board, light of stage decoration, portable lighting, room lighting and city illumination and road lighting, all use a plurality of LED combinations to strengthen luminous power usually.

The LED combination needs independent driving power thus.Thereby the driving power of various multi-form LED combinations appearred.

Small-sized portable lighting---be that torch, head lamp etc. can directly be used dry cell, storage battery power supply.The bigger portable lightings of power can't directly be used dry cell, storage battery power supply.

LED also has characteristics, and its electric current is very responsive to supply voltage, and when voltage slightly increases, electric current just increases a lot, but that its light output increases is few, very fast just saturated of the output variable of light.

Slightly high voltage just can cause excessive electric current, and the electric current that is equivalent to pass through is big more, and internal resistance is more little.

When voltage was slightly high, electric current increased a lot.Just can greatly reduce luminous efficiency and the useful life of LED, make its serviceability be lower than fluorescent lamp and gas electroluminescent lamp

Also, occur rigging error easily, cause that the LED required voltage of same specification is different with electric current because LED small-sized requires its assembly precision high.When working under identical conditions, the product of different brightness, particularly different batches may appear.

Existing driving power to the great power LED associating power supply has various ways, all adopt modes such as transformer or electronic equipment, 220 volts alternating voltages, electric current are become constant voltage or the constant current driving power as LED, accurately adjust the LED assembly of voltage or electric current for needs, the constant voltage of its batch process or constant-current driving power supply just have been not suitable for.

Simple and easy methods such as " capacitance decompression ", resistance step-down have also been used in the fixing compact LED combination of using.

But, in the technology of existing use electric capacity, think that this technology is " a step-down technology ", and think that LED damages easily because electric capacity charges repeatedly.

" capacitance decompression " technology of use is to use principle improper, causes the LED lamp not reach energy-conservation and long-life effect.

In small-sized seven-color LED cup, " capacitance decompression " and resistance step-down method have just been used.But the seven-color LED cup just is used to decorate, and only requires decorative effect, or as floor light, to energy-conservation and just not strict demand of long-life.

The luminous diameter of used LED is about 1 millimeter in small-sized seven-color LED cup, and operating current is with milliamperemeter.

Summary of the invention

The invention provides a kind of semi-conductor lighting lamp for solving the problems of the technologies described above, purpose is to use the LED illumination in room lighting and city illumination and road lighting easily, and makes semi-conductor lighting lamp play energy-conservation and effect life-saving.

Be the semi-conductor lighting lamp of the present invention that achieves the above object, comprise light-emitting diode group, light-emitting diode group is connected with the output of bridge rectifier, an input of bridge rectifier is connected with AC power, be in series with negative tempperature coefficient thermistor between another input of bridge rectifier and the AC power, be provided with current limiting reactor between negative tempperature coefficient thermistor and the bridge rectifier, the current limiting reactor two ends are parallel with first discharge resistance.

The two ends of described light-emitting diode group are parallel with filter capacitor.

The two ends of described filter capacitor are parallel with second discharge resistance.

Described current limiting reactor is the combination of condenser reactance device, inductive reactance device or capacitor and inductance coil.

Advantageous effect of the present invention: with the semi-conductor lighting lamp that the present invention makes, operating voltage is a supply voltage, and its operating current is the optimum current of photogenerator.

When supply line was inductive loaded line, the semi-conductor lighting lamp with using the capacitor current limliting can make supply line reach better effect.

Common supply line, particularly light-loaded circuit are inductive loaded lines, insert the capacity load circuit and can improve the power factor (PF) of supply line.

When supply line is the capacity load circuit, capacitor can be changed to the inductive reactance device, can make supply line reach optimum efficiency.

Because the induction reactance of fixed inductive reactance device can not arbitrarily be adjusted, come its serial or parallel connection with capacitor when needing to adjust, to increase or to reduce its reactance, promptly become the reactor that inductance induction reactance and electric capacity capacitive reactance are formed.

The capacitive reactance of capacitor can directly use the capacitor of different capabilities to change, and the adjustment of its capacitive reactance is very convenient.

The present invention can adjust the electric current of every group of semi-conductor lighting lamp easily, and it is worked under the state of the best, reach energy-conservation, the long-life effect of semi-conductor lighting lamp, and cost is low, and fault is few, is easy to realize.

Description of drawings

Fig. 1 is circuit theory diagrams of the present invention.

Among the figure: 1, light-emitting diode group; 2, bridge rectifier; 3, second discharge resistance; 4, negative tempperature coefficient thermistor; 5, current limiting reactor; 6, first discharge resistance; 7, filter capacitor.

Embodiment

The invention will be further described below in conjunction with accompanying drawing.

Semi-conductor lighting lamp of the present invention as shown in the figure, comprise light-emitting diode group 1, light-emitting diode group 1 is connected with the output of bridge rectifier 2, an input of bridge rectifier 2 is connected with AC power, be in series with negative tempperature coefficient thermistor 4 between another input of bridge rectifier 2 and the AC power, be provided with current limiting reactor 5 between negative tempperature coefficient thermistor 4 and the bridge rectifier 2, current limiting reactor 5 two ends are parallel with first discharge resistance 6, the two ends of light-emitting diode group 1 are parallel with filter capacitor 7, and the two ends of filter capacitor 7 are parallel with second discharge resistance 3; Current limiting reactor 5 is the combination of capacity reactance device, inductive reactance device or capacitor and inductance coil.

Be detailed description below to circuit theory diagrams.

For ease of explanation and formula of reduction, following influence of omitting the filter capacitor and second discharge resistance in various is disregarded.

When the semi-conductor lighting lamp operate as normal, electric current is in the circuit:

When current limiting reactor is the capacity reactance device

When current limiting reactor is the inductive reactance device

U is a supply voltage;

R be light-emitting diode in the circuit internal resistance, current-limiting resistance and other elements etc. resistance and;

X _LBe the induction reactance of inductor, X _L=2 π fL, wherein f is a supply frequency, L is an inductance;

X _CBe the capacitive reactance of capacitor, X _C=1/2 π fC, wherein C is an electric capacity.

Because the operating current of semi-conductor lighting lamp is less, and its internal resistance is very little, the internal resistance after a plurality of LED series connection and also little, required capacitive reactance or induction reactance are bigger.

Even can learn that by following formula the R resistance has bigger variation, the variation of electric current is also very little, can accomplish very accurate with capacitive reactance or induction reactance to the restriction of electric current.Even R=is X _L=X _CThe time, with the R short circuit, electric current also can only increase to 1.4142 times.

When inductance impedor and the series connection of capacity reactance device, electric current is in the circuit:

When inductance impedor and the parallel connection of electric capacity capacitive reactance device, the reactance of current limiting reactor is

X=?X _LX _C/（X _C-X _L）

By above-mentioned as can be known various, use the current limiting reactor size of Control current exactly.

Again according to the switching law of circuit

When the moment of inductive reactance device current-limiting circuit energising, electric current is in the circuit

I=U（1-e ^-Rt/L）/R

When the moment of capacitor current-limiting circuit energising, electric current is in the circuit

I=Ue ^-t/RC/R

Therefore, when the R value was very little, electric current was very big in the moment of connecting in the circuit, and the damage of LED just occurs in connects constantly.

Because LED can not connect too much, so the internal resistance after a plurality of LED series connection and also little, the internal resistance when particularly electric current is excessive is littler.Must the suitable current-limiting resistance of series connection.

When the operating current of circuit was very little, current-limiting resistance can be a conventional, electric-resistance.

As the illuminating lamp of real meaning, its electric current is bigger, reaches the electric current of ampere level, just can not use the conventional, electric-resistance current limliting again.Must use negative tempperature coefficient thermistor, could reduce energy consumption, reach energy-conservation and long-life effect of using semiconductor lighting.

Use the semi-conductor lighting lamp of negative tempperature coefficient thermistor current limliting can not demand working after outage, in order to avoid when the current-limiting resistance resistance is also very little, connect moment to produce very big electric current and damage LED.

When discharge resistance is used for shut-off circuit to capacitor discharge, contingent shock hazard when preventing to dismantle.

The terminal voltage of current limiting capacitance when work is

U _LCDBe the terminal voltage sum after a plurality of LED series connection, the internal resistance after a plurality of LED series connection and also little, U _LCDAlso little, also very for a short time the omitting of the terminal voltage of current-limiting resistance disregarded.Therefore the terminal voltage of current limiting capacitance when work is quite high.

When there not being parallel discharge resistance, when connecting circuit once more, its terminal voltage will impact to LED with the supply voltage superposition.

When discharge resistance is used for shut-off circuit inductor is discharged, the electric spark in the time of can reducing to close is to the infringement of switch.

The discharge resistance resistance is very big, can reach 200K or bigger, and the influence during to the circuit operate as normal is minimum, and energy consumption is also minimum.

Claims (3)

1. semi-conductor lighting lamp, comprise light-emitting diode group, it is characterized in that light-emitting diode group is connected with the output of bridge rectifier, an input of bridge rectifier is connected with AC power, be in series with negative tempperature coefficient thermistor between another input of bridge rectifier and the AC power, be provided with current limiting reactor between negative tempperature coefficient thermistor and the bridge rectifier, the current limiting reactor two ends are parallel with first discharge resistance, and current limiting reactor is the combination of condenser reactance device, inductive reactance device or capacitor and inductance coil.

2. semi-conductor lighting lamp according to claim 1 is characterized in that the two ends of described light-emitting diode group are parallel with filter capacitor.

3. semi-conductor lighting lamp according to claim 2 is characterized in that the two ends of described filter capacitor are parallel with second discharge resistance.

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