KR100500669B1 - Circuit to emit light for controlling luminosity automatically - Google Patents

Abstract

The automatic brightness adjustable light emitting circuit of the present invention, by using a photo diode that can sense the brightness of the surrounding area by the controller recognizes the detected brightness and adjusts the brightness of the flash and strobe accordingly to reduce the consumption of current Its purpose is to provide an automatic brightness adjustable light emitting circuit that reduces and solves the problem of balancing.

In order to achieve the above object, the present invention provides a portable terminal, comprising: a light receiving unit for detecting a brightness of a surrounding and generating a sensing signal having a magnitude corresponding to a detected brightness degree; A power supply unit receiving power and generating a control voltage through a pumping process; A controller configured to generate a strobe activation control signal activated at an imaging timing or a flash activation control signal activated for a predetermined time according to the detection signal; A switching unit configured to receive the control voltage and conduct current based on the control voltage having a different magnitude according to the strobe activation control signal or the flash activation control signal; And a light emitting unit which receives current from the switching unit and emits light.

Description

Automatic brightness adjustable light emitting circuit {CIRCUIT TO EMIT LIGHT FOR CONTROLLING LUMINOSITY AUTOMATICALLY}

BACKGROUND OF THE INVENTION 1. Field of the Invention [0001] The present invention relates to an automatic brightness adjustable light emitting circuit, and more particularly, to an automatic brightness adjustable light emitting circuit that is equipped with a light emitting circuit and used as a strobe and flash in a portable terminal.

In a portable terminal equipped with a conventional digital camera, a strobe is provided to take a picture in a dark place, and when necessary, light is generated by conducting a current fixed to the strobe.

However, in the above-described portable terminal equipped with a digital camera, the strobe fires at a constant brightness irrespective of the ambient illumination, so that even if the captured image is not balanced or too dark, the strobe is used or the flash is too bright. There is a problem in that waste of current consumption.

In order to solve the above problems, the present invention, by using a photo diode that can sense the brightness of the surrounding area by the controller recognizes the detected brightness and accordingly adjust the brightness of the flash and strobe consumption of current It is an object of the present invention to provide an auto-brightness adjustable light emitting circuit which reduces the power consumption and solves the problem of balancing.

In order to achieve the above object, the automatic brightness adjustable light emitting circuit of the present invention includes: a light receiving unit for detecting a brightness of a surrounding and generating a sensing signal having a magnitude corresponding to the detected brightness degree; A power supply unit receiving power and generating a control voltage through a pumping process; A controller configured to generate a strobe activation control signal activated at an imaging timing or a flash activation control signal activated for a predetermined time according to the detection signal; A switching unit configured to receive the control voltage and conduct current based on the control voltage having a different magnitude according to the strobe activation control signal or the flash activation control signal; And a light emitting unit which receives current from the switching unit and emits light.

Hereinafter, the most preferred embodiments of the present invention will be described with reference to the accompanying drawings so that those skilled in the art can easily implement the technical idea of the present invention. .

First, Figure 1 is a block diagram showing an automatic brightness adjustable light emitting circuit according to an embodiment of the present invention, the automatic brightness adjustable light emitting circuit of the present invention, the light receiving unit 110, the power supply unit 120, the control unit 130 ), The switching unit 140 and the light emitting unit 150.

The light receiver 110 detects the brightness of the surroundings, generates a detection signal having a magnitude corresponding to the detected brightness level, and outputs the detection signal to the controller 130 to be described later.

On the other hand, the power supply unit 120 receives power from the battery of the terminal, generates a control voltage through a pumping process, and serves to apply the control voltage to the switching unit 140 to be described later.

In addition, the controller 130 generates a strobe activation control signal (strobo) activated at an imaging timing or a flash activation control signal (flash) activated for a predetermined time according to the detection signal from the light receiving unit (110). It serves to output a strobe activation control signal (strobo) or the flash activation control signal (flash) to the switching unit 140 to be described later. Here, the control unit 130 may include an ADC for converting the sensing signal into a digital signal.

On the other hand, the switching unit 140 receives the control voltage from the power supply unit 120, the control unit 130 has a different size in accordance with the strobe activation control signal (strobo) or the flash activation control signal (flash). Serves to conduct current by the control voltage.

In addition, the light emitting unit 150 serves to emit light by receiving a current from the switching unit 140.

2 is a circuit diagram illustrating a light receiving unit 110 mounted in an automatic brightness adjustable light emitting circuit according to an embodiment of the present invention.

The photodiode 211 mounted in the light receiving unit 110 has a first terminal grounded, senses ambient light, and generates a current having a different magnitude according to the detected brightness.

In addition, the first resistor 212 mounted in the light receiver 110 has a first terminal connected to the second terminal of the photodiode 211 to provide a resistance value.

Meanwhile, the second resistor 213 mounted in the light receiving unit 110 has a role of providing a resistance value by connecting a first terminal to a second terminal of the first resistor 212 and grounding the second terminal. do.

In addition, the amplifier 214 mounted in the light receiving unit 110, the inverting terminal is connected to the second terminal of the first resistor 212, the non-inverting terminal is grounded, the current generated by the photodiode 211 Amplifies the voltage according to the output signal as a sense signal.

3 is a circuit diagram illustrating an automatic brightness adjustable light emitting circuit according to an embodiment of the present invention.

The battery 321 mounted in the power supply unit 120 serves to supply the charged power as a battery of the terminal to the charge pump 322 which will be described later.

In addition, the charge pump 322 mounted in the power supply unit 120 receives power from the battery 321, pumps the power to a control voltage, and then applies the power to the switching unit 140.

Meanwhile, the first switch groups 341a to 341c mounted in the switching unit 140 may supply current through some of the plurality of switches when the strobe activation control signal strobo is activated from the controller 130. It acts as a conductor.

In addition, the second switch groups 342a to 342c mounted in the switching unit 140 may supply current through some of the plurality of switches during activation of the flash activation control signal flash from the controller 130. It acts as a conductor.

On the other hand, the strobe resistor groups 343a to 343c mounted in the switching unit 140 are mounted between the first switch groups 341a to 341c and the light emitting unit 150 to be supplied to the light emitting unit 150. It controls the magnitude of the current.

In addition, the flash resistor groups 344a to 344c mounted in the switching unit 140 are mounted between the second switch groups 342a to 342c and the light emitting unit 150 to be supplied to the light emitting unit 150. It controls the magnitude of the current.

On the other hand, the plurality of light emitting diodes 241 to 243 mounted in the light emitting unit 150 are high brightness light emitting diodes, and serve to emit light by the current supplied from the switching unit 140.

The operation of the automatic brightness adjustable light emitting circuit of the present invention described above is as follows.

First, when the power of the battery 321 is input to the charge pump 322, the charge pump 322 is pumped to the control voltage (4.5V ~ 5.0V), and then applied to the switching unit 140. Subsequently, when the control unit 140 receives the control voltage from the power supply unit 120 and receives the strobe activation control signal strobo from the control unit 130, the switching unit 140 may refer to the strobe activation control signal strobo at the timing. Shut off after conducting the current by the control voltage. That is, the strobe activation control signal strobo is activated at the imaging timing of the camera, and current is conducted in accordance with the timing. At this time, the first switch groups 341a to 341c conduct current through some of the plurality of switches when the strobe activation control signal strobo from the controller 130 is activated, thereby adjusting the strength of the current. On the other hand, in the switching unit 140, when the flash activation control signal (flash) is input from the control unit 130, the current by the control voltage is conducted until the flash activation control signal (flash) is deactivated. That is, the flash activation control signal flash is activated to an arbitrary length by the user's operation, and current is continuously conducted during activation. At this time, the second switch groups 342a to 342c conduct current through some of the plurality of switches when the flash activation control signal flash from the controller 130 is activated, thereby adjusting the strength of the current. Thereafter, the plurality of light emitting diodes 241 to 243 mounted in the light emitting unit 150 emit light by the current supplied from the switching unit 140 to perform the strobe function or the flash function.

The present invention described above is capable of various substitutions, modifications, and changes without departing from the technical spirit of the present invention for those skilled in the art to which the present invention pertains. It is not limited to the drawings shown.

The present invention reduces the current consumption and solves the problem of balancing by recognizing the detected brightness by the control unit using a photo diode that can sense the brightness of the surroundings and adjusting the brightness of the flash and strobe accordingly. There is this.

1 is a block diagram showing an automatic brightness adjustable light emitting circuit according to an embodiment of the present invention;

2 is a circuit diagram showing a light receiving unit mounted in an automatic brightness adjustable light emitting circuit according to an embodiment of the present invention;

3 is a circuit diagram showing an automatic brightness adjustable light emitting circuit according to an embodiment of the present invention.

Explanation of symbols on the main parts of the drawings

110: light receiving unit 120: power supply unit

130 control unit 140 switching unit

150: light emitting unit

Claims (3)

delete  In a portable terminal, A light receiving unit configured to sense the brightness of the surroundings and generate a detection signal having a magnitude corresponding to the detected brightness degree; A power supply unit receiving power and generating a control voltage through a pumping process; A controller configured to generate a strobe activation control signal activated at an imaging timing or a flash activation control signal activated for a predetermined time according to the detection signal; A switching unit configured to receive the control voltage and conduct current based on the control voltage having a different magnitude according to the strobe activation control signal or the flash activation control signal; And Light emitting unit for emitting light by receiving current from the switching unit Including, The light receiving unit, A photodiode for sensing ambient light and generating a current having a different size according to the brightness of the detected light; And An amplifier amplifies the voltage according to the current generated by the photodiode and outputs the detected signal as the sensing signal. Automatic brightness adjustable light emitting circuit comprising a.  In a portable terminal, A light receiving unit configured to sense the brightness of the surroundings and generate a detection signal having a magnitude corresponding to the detected brightness degree; A power supply unit receiving power and generating a control voltage through a pumping process; A controller configured to generate a strobe activation control signal activated at an imaging timing or a flash activation control signal activated for a predetermined time according to the detection signal; A switching unit configured to receive the control voltage and conduct current based on the control voltage having a different magnitude according to the strobe activation control signal or the flash activation control signal; And Light emitting unit for emitting light by receiving current from the switching unit Including, The switching unit, A first switch group for conducting current through some of the plurality of switches when the strobe activation control signal is activated; A second switch group configured to conduct current through some of the plurality of switches when the flash activation control signal is activated; A strobe resistor group mounted between the first switch group and the light emitting unit to adjust a magnitude of a current supplied to the light emitting unit; And Flash resistance group mounted between the second switch group and the light emitting unit for adjusting the amount of current supplied to the light emitting unit Automatic brightness adjustable light emitting circuit comprising a.