JP2002184588A - Light-emitting diode lighting circuit - Google Patents

Abstract

PROBLEM TO BE SOLVED: To light LED with high efficiency. SOLUTION: The LED circuit has a given wire-wound resistor, and is provided with a DC power supply 2, an inductor 6 connected to the DC power supply 2 and excited by DC power supply, a switch 3 to open and close a connection of the DC power supply 2 with the inductor 6 and the LED 7, a diode 5 connected to form a closed circuit with the inductor 6 and the LED 7 when the switch 3 is opened, and a control means 4 which closes the switch 3 when the inductor 6 is not excited and opens the closed switch 3 while the inductance of the inductor 6 is operated with advantage against wire-sound resistance after the inductor 6 starts to be excited.

Description

DETAILED DESCRIPTION OF THE INVENTION

[0001]

The present invention relates to a light emitting diode lighting circuit for lighting a light emitting diode with high efficiency.

[0002]

2. Description of the Related Art As a circuit for lighting an LED (Light Emitting Diode), an LED lighting circuit 20 shown in a circuit diagram of FIG. 5 is used.

The LED lighting circuit 20 includes a DC power source 21 having an electromotive force E, a resistor 22 having a resistance value R, and an LED 23 connected in series.

[0004] The resistor 22 is connected to the LE
A resistor for limiting the current to D23, LED2
3 is selected in accordance with the characteristics of FIG.

[0005]

However, in the LED lighting circuit 20 as described above, since the resistor 22 is connected in series, if the current flowing through the LED lighting circuit 20 is I in the resistor 22, I ² R However, there is a problem that this power is always wasted.

Accordingly, the present invention has been devised to solve the above-described problem, and it is an object of the present invention to provide a light emitting diode lighting circuit that reduces waste of power consumption when lighting a light emitting diode. With the goal.

[0007]

In order to achieve the above object, a light emitting diode lighting circuit according to the present invention has a DC power supply, a predetermined winding resistance, is connected to the DC power supply, and is excited by the DC power supply. An inductor, a light emitting diode connected in series to the DC power supply together with the inductor, a switch for opening and closing the connection between the DC power supply, the inductor and the light emitting diode, and a closed circuit together with the inductor and the light emitting diode when the switch is open. And a diode connected to form a closed switch when the inductor is not energized and while the inductance of the inductor is dominant over the winding resistance since the inductor began to be energized. And control means for controlling the opening.

In order to achieve the above object, a light emitting diode lighting circuit according to the present invention has an AC power supply, a rectifying diode for rectifying the AC power supply, and a predetermined winding resistance. An inductor connected and excited by an AC power supply rectified by the rectifying diode;
A light emitting diode connected in series to an AC power supply together with an inductor, a switch for opening and closing the connection between the AC power supply, the inductor and the light emitting diode, and a closed circuit formed with the inductor and the light emitting diode when the switch is open. Connected diode and control to close the switch when the inductor is not energized, and to control the closed switch to open while the inductance of the inductor is dominant over the winding resistance after the inductor begins to be energized Means.

Furthermore, in order to achieve the above object, a light emitting diode lighting circuit according to the present invention comprises a power supply,
An inductor having a predetermined winding resistance, connected to the power supply and excited by the power supply, a light emitting diode connected in series with the power supply together with the inductor, a power supply, a switch for opening and closing the connection between the inductor and the light emitting diode, When the switch is open, the diode connected to form a closed circuit with the inductor and the light emitting diode, and the switch is closed when the inductor is not energized, and the inductance of the inductor is added to the winding resistance after the inductor starts to be energized. And control means for controlling the closed switch to open while working advantageously.

[0010]

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS Hereinafter, embodiments of the light emitting diode lighting circuit according to the present invention will be described in detail with reference to the drawings.

An LED lighting circuit 1 to which the present invention is applied will be described with reference to a circuit diagram shown in FIG.

The LED lighting circuit 1 includes a DC power source 2 for electromotive force E, a switch 3, a pulse generator 4 for generating a pulse to control the switch 3, a diode 5, an inductor 6, and an LED (Light Emitting Diode). : Light emitting diode) 7.

The DC power supply 2, switch 3, inductor 6, and LED 7 are connected in series. The diode 5 is connected in parallel to the DC power supply 2 so that a closed circuit is formed by the inductor 6 and the LED 7 when the switch 3 is turned off.

Next, before describing the operation of the LED lighting circuit 1 under the control of the pulse generator 4, the current I flowing through the LED lighting circuit 1 when the control by the pulse generator 4 is not performed will be described.

For example, when the inductance of the inductor 6 is L and the winding resistance is R, assuming that the switch 3 is turned on at time t = 0, the current I flowing through the LED lighting circuit 1 is expressed by the following equation (1). Can be expressed as

[0016]

(Equation 1) FIG. 2 shows how the current I of the LED lighting circuit 1 changes with time shown in the above equation (1).

When the switch 3 is closed at time t = 0,
As shown in FIG. 3, the current I increases from 0 to the maximum value E / R. When t = ∞, the current I converges to the maximum value E / R.

This is because energy is stored in the inductor 6 from the moment when the switch 3 is closed to a predetermined time while the inductance is dominant, but the current I gradually becomes the maximum value E due to the winding resistance R of the inductor 6. / R converges.

Next, the operation of the LED lighting circuit 1 under the control of the pulse generator 4 will be described with reference to FIG.

First, when a pulse is applied to the switch 3 by the pulse generator 4, the switch 3 is turned on, and a closed circuit is formed by the DC power supply 2, the inductor 6, and the LED 7, and the circuit is as shown in FIG. The current I flows as shown, and energy is stored in the inductor 6. LED7
Starts lighting when the current I becomes the operating current of the LED 7.

The pulse generator 4 controls the switch 3 to be turned off at time t = T1 in a time region where inductance is superior to resistance. When the switch 3 is turned off, the diode 5 and the inductor 6
Then, the LED 7 forms a closed circuit, the energy stored in the inductor 6 is released, and a current flows. Although the energy stored in the inductor 6 is released and the current I flows, the LED 7 continues to light up. However, when the value of the current I flowing in the closed circuit decreases and falls below the operating current of the LED 7, the LED 7 turns off. .

When all the energy stored in the inductor 6 is released at time t = T2, the pulse generator 4 controls the switch 3 to be turned on again.

In response, energy is stored in inductor 6 as described above. When the predetermined current I flows, the LED 7 starts to light again.

The pulse generator 4 controls the switch 3 to be turned off at time t = T3 in a time region where inductance is superior to resistance. Switch 3 is O
By becoming FF, diode 5 and inductor 6
Then, the LED 7 forms a closed circuit again, the energy stored in the inductor 6 is released, and a current flows. Although the energy stored in the inductor 6 is released and the current I flows, the LED 7 continues to light up. However, when the value of the current I flowing in the closed circuit decreases and falls below the operating current of the LED 7, the LED 7 turns off. .

When all the energy stored in the inductor 6 is released at time t = T4, the pulse generator 4 controls the switch 3 to be turned on again.

As described above, the pulse generator 4
However, by controlling the switch 3 to be turned on, the LED 7 is turned on at a predetermined current value and the inductor 6 is turned on at the same time.
The energy stored in the inductor 6 is controlled by the pulse generator 4 so that the switch 3 is turned off in a time zone where the inductance is superior, so that the energy stored in the inductor 6 is released and the LED 7 is turned on.

By controlling the switch 3 by the pulse generator 4 so that the above operation is repeated,
A current control resistor for setting an appropriate current value for lighting the LED 7 in the LED lighting circuit 1 is not required, and power loss conventionally consumed by the current control resistor can be significantly reduced.

As shown in FIG. 3, the maximum value of the current I flowing through the LED 7 is either time t = T1 or time t = T1.
The current value at the time of 3. Therefore, by controlling the period during which the switch 3 is ON by the pulse generator 4, the maximum current flowing through the LED 7 can be easily controlled.

Further, according to the present invention, FIG.
Can be applied to the LED lighting circuit 10 shown in FIG.

The LED lighting circuit 10 includes the LED lighting circuit 1
In this circuit, the DC power supply 2 is replaced with an AC power supply 11 and a diode 12, and the diode 12 is connected in series with the AC power supply 11.

The diode 12 functions as a rectifying element,
Only the current in a certain direction among the AC current components output from the AC power supply 11 is passed.

In this case, the inductor 6 also functions as a choke coil and supplies a current to the LED 7 by removing a ripple of the rectified current.

LED lighting circuit 10 using AC power supply 11
Other operations are the same as those of the LED lighting circuit 1.
By controlling the ON / OFF of the switch 3 by the pulse generator 4, the current I as shown in FIG. 3 is obtained. Therefore, the power loss which has been conventionally controlled by wastefully using the current control resistor is controlled. Can be greatly reduced.

Further, similarly to the LED lighting circuit 1,
7, the maximum value of the current flowing at time t =
The current value is at T1 or at time t = T3. Therefore, by controlling the period during which the switch 3 is ON by the pulse generator 4, the maximum current flowing through the LED 7 can be easily controlled, so that even the LEDs 7 having different maximum currents can be easily used in the LED lighting circuit 10. it can.

The above embodiment is an example of the present invention. For this reason, the present invention is not limited to the above-described embodiment, and other than the present embodiment, various modifications may be made according to the design and the like within a range not departing from the technical idea according to the present invention. Can be changed.

[0036]

As is apparent from the above description, the light emitting diode lighting circuit of the present invention closes the switch when the inductor is not excited by the control means, and turns the inductance of the inductor after the inductor starts to be excited. By controlling the closed switch to open while working superior to the resistance, the loss of power consumption due to the current limiting resistance can be eliminated, and the light emitting diode can be turned on with high efficiency.

Further, since the value of the current flowing through the LED can be controlled by the control means by the time when the switch is closed, the current value can be easily controlled according to the maximum current of the light emitting diode.

[Brief description of the drawings]

FIG. 1 is a circuit diagram of an LED lighting circuit shown as an embodiment of the present invention.

FIG. 2 is a diagram showing a time change of a current flowing when control by a pulse generator is not performed in the LED lighting circuit.

FIG. 3 is a diagram showing a time change of a current flowing when control is performed by a pulse generator in the LED lighting circuit.

FIG. 4 is a circuit diagram when the DC power supply of the LED lighting circuit is replaced with an AC power supply.

FIG. 5 is a circuit diagram of an LED lighting circuit shown as a conventional technique.

[Explanation of symbols]

1 LED lighting circuit using DC power supply, 2 DC power supply,
3 switch, 4 pulse generator (PG), 5
Diode, 6 inductor, 7 LED, 10 LED lighting circuit using AC power supply, 11 AC power supply, 12
diode

Claims (3)

[Claims] 1. A DC power supply, an inductor having a predetermined winding resistance, connected to the DC power supply and excited by the DC power supply, and a light emitting diode connected in series with the DC power supply together with the inductor. A switch for opening and closing the connection between the DC power supply, the inductor and the light emitting diode, and a diode connected to form a closed circuit together with the inductor and the light emitting diode when the switch is open; Control means for closing the switch when not excited, and controlling the closed switch to be opened while the inductance of the inductor is dominant with respect to the winding resistance after the inductor starts being excited; A light-emitting diode lighting circuit comprising: 2. An AC power source, a rectifying diode for rectifying the AC power source, a predetermined winding resistance, connected to the AC power source, and excited by the AC power source rectified by the rectifying diode. An inductor, a light emitting diode connected in series to the AC power supply together with the inductor, a switch for opening and closing the connection between the AC power supply, the inductor and the light emitting diode, and, when the switch is open, the inductor A diode connected to form a closed circuit with the light emitting diode; and a switch closed when the inductor is not excited, and the inductance of the inductor is superior to the winding resistance after the inductor starts to be excited. Control means for controlling the closed switch to open while working on A light-emitting diode lighting circuit comprising: 3. A power supply, an inductor having a predetermined winding resistance, connected to the power supply and excited by the power supply, a light emitting diode connected in series with the power supply together with the inductor, and the power supply; A switch for opening and closing the connection between the inductor and the light emitting diode; a diode connected to form a closed circuit together with the inductor and the light emitting diode when the switch is open; and the inductor is not excited. And control means for controlling the switch to be opened while the inductance of the inductor is predominant with respect to the winding resistance after the switch is closed and the inductor starts to be excited. LED lighting circuit.