KR910009150Y1 - Double lighting control circuit - Google Patents

Abstract

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Description

Dual lighting control circuit

1 is a double lighting control circuit diagram according to the present invention.

2 is a diagram illustrating the configuration of the lighting unit of FIG. 1.

* Explanation of symbols for the main parts of the drawings

4 to 7: Illumination section 10, 15, 20, 25, 28: switching transistor

V _A : Main Power Terminal V _B : Color Switching Control Terminal

V _C : Partial Off Control Terminal

The present invention relates to a car stereo, and more particularly, to a double lighting control circuit of an electronic product having a double illumination possible.

In the conventional double lighting circuit, if the lighting is to be partially turned off, an unnecessary resistor and a transistor are connected to the power supply line to cut off the power supply directly. Large current flows into the devices, causing problems of destruction, reliability, and power loss due to heat generation.

Therefore, in view of the above situation, the present invention allows a very small current to flow when the double light is turned off or on, thereby preventing the component from being destroyed and generating heat, and allowing only one of the two lights to be turned off or on locally. Its purpose is to provide a dual lighting control circuit.

The present invention for achieving this purpose is the first and third lighting unit for generating a first color light (for example, red) to receive two different colors by receiving power from the constant voltage generator, and the second color light The present invention relates to a dual lighting control circuit having second and fourth lighting units for generating (for example, green), wherein the first color is connected according to the high / low states of control signals input to the first to fourth lighting units, respectively. And a first to fourth switching device configured to alternately operate the first and third lighting units for displaying and the second and fourth lighting units for displaying the second color. In addition, the present invention may include a light-off control unit connected to the third and fourth light units to partially extinguish the third and fourth light units by a predetermined control signal. The light-out control unit may include first and second light units. Is to partially extinguish only the 3rd and 4th lighting units when is operating.

Hereinafter, the present invention will be described in detail with reference to the accompanying drawings.

1 is a schematic diagram of a dual lighting control circuit according to the present invention. As shown in FIG. 1, a constant voltage (eg, +12 V) input through a main power terminal V _A is applied to a base of a transistor 2 through a resistor 1. Is applied to turn on the transistor 2. Here, the zener diode 3 connected to the base of the transistor 2 is a diode for setting a reference voltage.

As the transistor 2 is turned on, the constant voltage passing through the transistor 2 is applied to one terminal a of the first to fourth lighting units 4 to 7, respectively. Here, the first lighting unit 4 and the third lighting unit 6 are for generating the first light of the same color (for example, red) and the third lighting unit 6 for generating the first light of the same color (for example, green). However, the present invention is not limited to these two colors, but may have different colors of the lighting units 4 to 7.

2 shows an example in which each of the lighting units 4 to 7 is composed of a plurality of light emitting diodes (not shown), and these light emitting diodes may be replaced by lamps.

In order to operate the lighting units 4-7, a signal may be applied to the color switching control terminal V _A. In other words, in order to operate only the lighting units 4 and 6, the partial light-out control terminal V _C is turned low, and then the signal of the high state is supplied to the color switching control terminal V _B , and only the lighting units 5 and 7 are used. In case of operation, terminal V _B should be low.

For example, when the high state signal is applied to the color switching control terminal V _B , the high state bias is applied to the base of the transistor 10 via the bias resistors 8 and 9 so that the transistor 10 is turned on. Accordingly, the other terminal b of the lighting unit 4 is in a low state, and the light emitting diode composed of the second degree is first shaken so that the lighting unit 4 operates.

In addition, as the transistor 10 is turned on, the power generated by the constant voltage generation transistor 2 and passed through the resistor 11 is grounded through the diode 12 and the transistor 10. Therefore, the transistor 15 is turned off because it is applied to the base of the transistor 15 through the resistors 13 and 14 of the bias voltage in the low state. When the transistor 15 is turned off, the constant voltage of the high state through which the resistor 16 passes through the diode 17 is applied to the other terminal b of the lighting unit 5, so that the lighting unit 5 does not turn on and is turned off. Keep it.

However, a bias voltage applied from the mains supply via resistor 16 turns on transistor 20 through resistors 18 and 19.

When the transistor 20 is turned on, the other terminal b of the lighting unit 6 is turned low as described in the lighting unit 4 so that the bias voltage generated from the main power source is transferred through the resistor 21 and the diode 22. It is applied to the collector of (20) and grounded. Therefore, since the bias voltage does not turn on the transistor 25 through the resistors 23 and 24, the lighting unit 7 remains off.

As a result, when only the lighting units 4 and 6 are to be operated, the state of the color switching control signal terminal VB applied to the base of the transistor 10 may be set.

On the other hand, when only the lighting unit (5, 7) is to be operated, both the color switching control terminal (V _B ) and the partial light-out control terminal (V _C ) to low state. When the color switching control terminal V _B is low, the transistor 10 is turned off to turn off the lighting unit 4, but the bias of the high state is applied to the base of the transistor 15 via the resistors 11, 13, and 14. Since the voltage is applied, the lighting unit 5 is turned on by turning on the transistor 15.

When the lighting unit 5 is turned on, the bias voltage via the resistor 16 is grounded through the diode 17 and the transistor 15, so that the transistor 20 is turned off and the lighting unit 6 is turned off. When the lighting unit 6 is turned off by the turn-off of the transistor 20, a high bias voltage is applied to the base of the transistor 25 via the resistors 21, 23, and 24, so that the transistor 25 is turned on. The lighting unit 7 is turned on.

In addition, in the case where only the lighting units 6 and 7 are to be partially turned off, the partial off control terminal V _C is made high.

When this terminal V _C becomes high, the transistor 28 is turned on via the bias resistors 26 and 27. When the transistor 28 is turned on, a low bias voltage is applied to the base of the transistor 20 so that the transistor 20 is turned off. When the transistor 20 is turned off, the lighting unit 6 does not turn on. In addition, as the transistor 28 is turned on, the main power is grounded to the collector-emitter of the transistor 28 via the resistor 21 and the diode 29, so that the transistor 25 is turned off and the lighting unit 7 is also turned off. do. As a result, when the partial extinction control terminal V _C is high, the transistor 28 is turned on and the transistors 20 and 25 are turned off accordingly, so that the lighting units 6 and 7 control the main power supply V _A and the color switching control. Regardless of the signal (V _B ) will remain off.

In the circuit shown in FIG. 1, in order to reduce the collector current of the transistor 28 and reduce the collector current of the transistor 28 in the circuit shown in FIG. It is necessary to make the value of (11, 16, 21) much larger than the value of the resistors 13, 18, 23.

As described above, the present invention has a feature that the lighting circuit can be simply performed by using a switching element even if the power supply unit is not cut off when it is partially turned off.

Claims (1)

In the dual lighting control circuit compared to the first and third lighting unit for generating a first color of light and the third and fourth lighting unit for generating a second color of light in order to illuminate different colors with a constant voltage. A first to third lighting unit configured to alternately operate the first and third lighting units displaying the first color and the second and fourth lighting units displaying the second color according to the state of each connected and input control signal. An illumination switching driver including four switch elements; And an extinction control unit connected to the third and fourth lighting units to turn off the third and fourth lighting units partially by a predetermined control signal.