KR20050095185A - Apparatus for controlling flash brightness in mobile communication terminal - Google Patents

Abstract

The present invention relates to a flash brightness control apparatus in a mobile communication terminal.

According to an aspect of the present invention, there is provided a mobile communication terminal including a camera, comprising: a flash circuit unit configured to flash light according to a control signal; A temperature sensor for detecting a heat generation temperature at the time of flash emission; A processor for controlling the flash circuit to gradually reduce the brightness of the flash light when the heating temperature detected by the temperature sensor reaches a predetermined temperature after the flash light is fired at the maximum brightness in a camcorder mode for photographing a moving image; It is characterized by including.

According to the present invention, when the flash is emitted in the camcorder mode in which the mobile communication terminal photographs a moving image, the flash brightness is checked in a stepwise manner and the flash brightness is adjusted step by step, thereby providing a better lighting when shooting in the camcorder mode.

Description

Apparatus for Controlling Flash Brightness in Mobile Communication Terminal}

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a mobile communication terminal having a function of capturing an image. In particular, when a flash is emitted in a camcorder mode in which a mobile communication terminal photographs a moving image, the heat generation state of the flash side is checked. To adjust the flash brightness step by step to provide a better brightness in the mobile communication terminal to provide better lighting when shooting in the camcorder mode.

Recently, mobile communication terminals have been equipped with a digital camera for capturing images. Such a mobile terminal has a camera mode for capturing still images and a camcorder mode for capturing moving images when capturing images through a digital camera. Is operated.

In addition, in order to photograph at night through a digital camera of the mobile communication terminal, there is a need to use a flash for illuminating a subject.

The conventional mobile communication terminal has a flash function for use in photographing. When looking at the flash built in the existing commercialized mobile communication terminal, the brightness is 3 to 5 cd at a current of about 100 mA. At this level of brightness, flash's unique features are difficult to achieve.

In order to improve this, in recent years, there is a trend to develop a flash having a brightness of 10 cd or more. However, in order to achieve a brightness of 10 cd or more, the power consumption of the flash increases as much, and the heat generation in the flash is also a big problem. .

In camera mode for shooting still images, the flash is used instantaneously, so the flash can be used at full brightness without consideration of current and heat generation.However, in camcorder mode for shooting movies, the flash is at full brightness due to the need to use the flash for a long time. Will cause the flash to fail due to the heat generated by the flash. For this reason, when using the flash in camcorder mode, the current of the flash should be set to about 200 mA in consideration of the heat generation from the flash. However, with this amount of current, the brightness of the flash is no different from conventional flashes.

As described above, in the case of a conventional mobile communication terminal equipped with a digital camera, even if a very bright flash to be applied to a camcorder mode is developed, the flash unit does not fully function due to the heat generated from the flash, and the performance is higher than that of the conventional flash. There is a problem that is difficult to do.

SUMMARY OF THE INVENTION The present invention has been proposed to solve the above problems, and an object thereof is to adjust the flash brightness step by step by checking the heat state of the flash when the flash is emitted in a camcorder mode in which a mobile communication terminal photographs a moving image. Accordingly, to provide a flash brightness control device in a mobile communication terminal to provide better lighting when shooting in the camcorder mode.

A feature of the present invention for achieving the above object is a mobile communication terminal having a camera to take an image, comprising: a flash circuit unit for flashing light according to a control signal; A temperature sensor for detecting a heat generation temperature at the time of flash emission; A processor for controlling the flash circuit to gradually reduce the brightness of the flash light when the heating temperature detected by the temperature sensor reaches a predetermined temperature after the flash light is fired at the maximum brightness in a camcorder mode for photographing a moving image; It is included.

The flash circuit unit may include: flash light emitting means for supplying power to flash light; A DC-DC converter enabled under the control of the processor to adjust a power supplied from the battery power to the flash light emitting means to a predetermined voltage; A plurality of current adjustment resistors for setting the current of the power supplied to the flash light emitting means in multiple stages; And a plurality of switching transistors that sequentially turn on a current flowing in response to the current adjusting resistor according to a control signal input from the processor.

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

The flash brightness adjusting device in the mobile communication terminal according to the present invention includes a temperature sensor 10, a processor 20, and a flash circuit unit 30 as shown in FIG. 1. The temperature sensor 10 detects heat generated by the flash when light is emitted by the flash and transmits corresponding detection information to the processor 20. The processor 20 controls the flash emission by controlling the operation of the flash circuit unit 30 in the camera mode and the camcorder mode. In the camcorder mode, the processor 20 controls the flash emission based on the sensing information applied from the temperature sensor 10. Control flash firing. The processor 20 outputs a control signal through a signal output terminal FLASH in a camera mode for capturing still images, and controls the flash circuit unit 30 to emit flash at a moment, and a signal output terminal in a camcorder mode for capturing a moving image. The control signal is output through the MOD_1 to flash the flash of the flash circuit unit 30 to the maximum brightness, and when the heat generation of the flash reaches a predetermined value, the control signal is sequentially output through the signal output terminals MOD_2 to MOD_n to flash the flash. The flash brightness of the circuit unit 30 is decreased step by step. In addition, the flash circuit unit 30 is enabled by an enable signal applied from the processor 20 through the signal output terminal EN, and is controlled from the processor 20 through the signal output terminals FLASH (MOD_1 to MOD_n). Flash firing is performed in accordance with the signal.

Meanwhile, as illustrated in FIG. 2, the flash circuit unit 30 includes a DC-DC converter 31, a flash LED 32, a plurality of switching transistors TR0 to TRn, and a plurality of current regulating resistors R0 to Rn. It is made. The DC-DC converter 31 supplies a current for emitting the flash LED 32. The DC-DC converter 31 is enabled by the enable signal input from the processor 20 through the signal output terminal EN to perform battery operation. VBATT) is supplied to adjust the voltage to maintain a constant voltage to output the current for driving the flash LED (32). The current adjusting resistors R0 to Rn are used to adjust the current applied to the flash LED 32. The resistor R0 causes a current of 700 mA to flow to the flash LED 32 when taking a still image in the camera mode. The resistors R1 to Rn pass a current of 400 mA to 200 mA in the flash LED 32 when the video is played in the camcorder mode. In addition, the switching transistors TR0 to TRn switch the flow of current supplied to the flash LED 32 according to a control signal applied from the processor 20. Turns on according to a control signal applied through FLASH to allow a current of 700 mA set by the current regulating resistor R0 to flow in the flash LED 32, and the switching transistors TR1 to TRn are the processor 20. Is turned on in response to a control signal applied through the signal output terminals MOD_1 to MOD_n to allow a current of 400 mA to 200 mA set by the resistors R1 to Rn to flow to the flash LED 32.

In addition, the processor 20 outputs a control signal through the signal output terminal MOD_1 in the camcorder mode to emit the flash of the flash circuit unit 30 at the maximum brightness, and then detects the flash LED 32 by the temperature sensor 10. When the heating value reaches a certain value, the control signal is sequentially output through the signal output terminals MOD_2 to MOD_n to lower the brightness of the flash LED 32 step by step. What is necessary is just to set so that the brightness of the flash LED 32 may be naturally reduced by changing and applying the current of 400 mA-200 mA naturally with respect to (32).

Referring to the operation of the flash brightness control device in the mobile communication terminal according to the present invention configured to have the above functions as follows.

First, when the camera mode is selected by the user and operated in the camera mode for capturing still images, the processor 20 outputs the enable signal to the flash circuit unit 30 through the signal output terminal EN. The control signal is output through the signal output terminal FLASH. At this time, the DC-DC inverter 31 of the flash circuit unit 30 operates by an enable signal applied through the signal output terminal EN to regulate and output the power supplied from the battery power VBATT to a predetermined voltage. The switching transistor TR0 of the flash circuit unit 30 is turned on by a control signal applied through the signal output terminal FLASH to flash the current of 700 mA set by the current regulating resistor R0 to the flash LED 32. The LED 32 is momentarily emitted.

In addition, when the camcorder mode is selected by the user and operated in the camcorder mode for capturing a moving image, it operates as shown in FIG. First, the processor 20 outputs an enable signal to the flash circuit unit 30 through the signal output terminal EN, and outputs a control signal to the flash circuit unit 30 through the signal output terminal MOD_1 (step S31). ). Accordingly, the DC-DC inverter 31 of the flash circuit unit 30 operates by an enable signal applied through the signal output terminal EN to regulate and output the power supplied from the battery power VBATT to a predetermined voltage. The switching transistor TR1 of the flash circuit unit 30 is turned on by a control signal applied through the signal output terminal MOD_1 to flow a current of 400 mA set by the current regulating resistor R1 to the flash LED 32. The flash LED 32 emits light at maximum brightness (step S32). As described above, in the state in which the flash LED 32 emits light at the maximum brightness, the processor 20 checks the heat generation temperature of the flash LED 32 side through the temperature sensor 10 to determine whether the corresponding temperature reaches a predetermined value. It is judged whether or not (step S33). In this case, when it is determined that the temperature reaches a predetermined value, the processor 20 sequentially processes the signal output terminals MOD_2 to MOD_n (that is, in the same order as MOD_2, MOD_3, ....., MOD_n). The control signal is output to the flash circuit unit 30 side, and the switching transistors TR2 to TRn of the flash circuit unit 30 are turned on in accordance with a control signal sequentially applied through the signal output terminals MOD_2 to MOD_n and the resistor R2. By sequentially flowing a current of up to 200 mA set by ˜Rn) to the flash LED 32, the brightness of the flash LED 32 is lowered step by step (step S34).

As described above, in the flash brightness adjusting apparatus in the mobile communication terminal according to the present invention, the flash LED is driven by the temperature sensor 10 while driving the flash LED 32 at 400 mA in the camcorder mode for capturing moving images to emit light at the maximum brightness. When the heat generation temperature of (32) is checked and a certain value is reached, the current applied to the flash LED 32 is gradually reduced to 200 mA, thereby lowering the brightness of the flash LED 32 step by step. Compared to the conventional technology of driving a low flash LED to emit light, brighter light can be photographed, thereby increasing the efficiency of flash emission.

As described above, according to the present invention, when the flash is emitted in the camcorder mode in which the mobile communication terminal photographs a moving image, the flash brightness is checked in a stepwise manner to adjust the flash brightness. Will be provided.

1 is a diagram showing the configuration of an apparatus for adjusting flash brightness in a mobile communication terminal according to the present invention.

2 is a block diagram of a flash circuit in the present invention.

3 is a flowchart illustrating a flash brightness adjustment process in a mobile communication terminal according to the present invention.

Explanation of symbols on the main parts of the drawings

10; Temperature sensor 20; Processor

30; Flash circuitry 31; DC-DC converter

32; Flash LEDs R0 to Rn; Current regulating resistor

TR0 to TRn; Switching transistor

Claims (2)

In the mobile communication terminal having a camera to take an image, A flash circuit unit for flash emitting according to a control signal; A temperature sensor for detecting a heat generation temperature at the time of flash emission; A processor for controlling the flash circuit to gradually reduce the brightness of the flash light when the heating temperature detected by the temperature sensor reaches a predetermined temperature after the flash light is fired at the maximum brightness in a camcorder mode for photographing a moving image; Flash brightness control device in a mobile communication terminal comprising a. The method of claim 1, The flash circuit unit, Flash light emitting means for receiving flash power to receive power; A DC-DC converter enabled under the control of the processor to adjust a power supplied from the battery power to the flash light emitting means to a predetermined voltage; A plurality of current adjustment resistors for setting the current of the power supplied to the flash light emitting means in multiple stages; And a plurality of switching transistors for sequentially turning on a current flowing in response to the current adjusting resistor according to a control signal input from the processor.