KR20110022890A - Apparatus for driving strobo of camera - Google Patents

Abstract

PURPOSE: A strobe driving device of a camera is provided to supply a different reference voltage value per distance by using a DAC(Digital to Analog Converter). CONSTITUTION: A DAC(16) changes a first reference signal according to a control signal transmitted from a control unit into a second reference which is capable of emitting light emitting quantity suitable for a photographing distance. A strobe driving unit(110) transmits photographing distance and illuminance information to the control unit. The strobe driving unit drives a flash to generate light emitting amount suitable for photographing distance by using a second reference voltage which is transmitted from the DAC.

Description

Camera Strobe Drive {Apparatus for Driving Strobo of Camera}

The present invention relates to a strobe drive of a camera.

In general, a camera module incorporating a xenon flash mounted in a camera phone is controlled in an ISP (Image Signal Processing) chip depending on the presence of a dimmer circuit.

That is, in the case of the strobe (Strobo) in which the light control circuit is mounted, the strobe driver 110 for driving the strobe is connected to the back-end chip or the ISP (ie, the controller 112) as shown in FIG. 1. Since it receives only a trigger signal for controlling only the interworking part with the camera and receives only one reference voltage Vref for adjusting the strobe emission reference point, it is not possible to control the emission amount for each distance.

More specifically, the strobe driver 110 shown in FIG. 1 receives a single power supply of 3.3 V or 2.8 V from the reference voltage generator (not shown) as the reference voltage Vref for adjusting the strobe emission reference point.

In this case, the strobe driver 110 adjusts the amount of light emitted by comparing the illuminance value received from the reference voltage Vref and a photodiode (not shown).

Meanwhile, the strobe driver 110 adjusts the amount of light emitted and then boosts the reference voltage Vref by the amount of light emitted using a transformer, and charges the boosted voltage to a charging unit (not shown) including a capacitor. Let's do it.

Thereafter, the strobe driver 110 discharges a xenon tube (not shown) with a voltage stored in the charging unit according to a trigger signal transmitted from the controller 112.

As a result, the xenon tube emits an instant flash.

However, the strobe driving apparatus of the camera according to the related art has a strobe as shown in FIG. 2 due to a fixed reference voltage Vref because the strobe driver 110 receives only one reference voltage Vref for adjusting the strobe emission reference point. Since the amount of emitted light is displayed, there is a disadvantage in that it is impossible to control or finely adjust the amount of emitted light for a short distance, an intermediate distance or a long distance.

Accordingly, an object of the present invention is to provide a camera strobe driving device capable of controlling and fine-tuning the amount of light emitted by distance by providing different reference voltage values for each distance by using a digital / analog converter in order to solve the above problems. It is done.

An apparatus for driving a strobe of a camera according to an embodiment of the present invention may include: a controller configured to process and process acquired image information, receive photographing distance and illuminance information from the outside, and transmit a control signal including a trigger signal to the outside; A digital / analog converter for converting a first reference voltage into a second reference voltage capable of emitting a light quantity suitable for the photographing distance according to a control signal transmitted from the controller; And a strobe driving unit which transmits the photographing distance and illuminance information to the controller and drives the flash to generate a light emission amount suitable for the photographing distance by using a second reference voltage transmitted from the digital / analog converter. .

In the apparatus for driving a strobe of a camera according to an embodiment of the present invention, when the photographing distance and the reference distance are the same, the digital / analog converter changes the second reference voltage to the same value as the first reference voltage value, and the photographing distance. When the distance is farther than the reference distance, the second reference voltage is changed to have a voltage greater than the first reference voltage. When the photographing distance is shorter than the reference distance, the second reference voltage is changed. The second reference voltage is changed to have a value smaller than the first reference voltage.

According to the present invention, since the digital / analog converter provides the strobe driver with a reference voltage having a different voltage value according to the shooting distance, the strobe driver can emit the flash with different emission amounts for each shooting distance. Not only can it be adjusted, but also can adjust the amount of light emitted by the shooting distance to provide the amount of light emitted by the customer.

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

3 is a diagram illustrating a strobe driving apparatus of a camera according to an embodiment of the present invention, and FIG. 4 is a graph illustrating a guide number for each distance provided by the strobe driving apparatus of a camera according to an embodiment of the present invention shown in FIG. 3. to be.

As shown in Figure 3 and 4, the strobe driving apparatus of the camera according to an embodiment of the present invention includes a strobe driver 10 for driving the strobe, a control unit 12 for controlling the strobe driver 10, And a digital analog converter (hereinafter, referred to as a "DAC") 16 which changes a reference voltage according to a control signal transmitted from the controller 12 and transmits the reference voltage to the strobe driver 10. .

The strobe driver 10 transmits the distance between the image to be acquired through the image sensor (not shown) and the camera (ie, the photographing distance) and the illumination information at the current position to the controller 12, and the DAC ( The strobe is driven using the second reference voltage Vref2 transmitted from 16).

In other words, when the second reference voltage Vref2 is transmitted from the DAC 16, the strobe driver 10 boosts the second reference voltage Vref2 using a transformer (not shown), and increases the boosted voltage. Charged to a charging unit (not shown) consisting of a capacitor (Capacitor).

In this case, when the trigger signal is transmitted from the controller 12, the strobe driver 10 discharges a xenon tube (ie, a flash) (not shown) at a voltage charged in the charging unit so that the xenon tube emits a flash of light. do.

That is, when the second reference voltage Verf2 is supplied from the DAC 16, the strobe driver 10 boosts and stores the supplied second reference voltage Verf2 to a voltage capable of discharging the xenon tube, and then stores the voltage. When the trigger signal is transmitted from the control unit 12, the ions in the xenon tube are discharged so that the xenon tube emits a flash.

At this time, the trigger signal is transmitted to the strobe driver 10 by the control unit 12 to take an image by the user pressing the shutter.

Meanwhile, the second reference voltage Vref2 received by the strobe driver 10 from the DAC 16 has a different value according to the distance and illuminance information transmitted by the strobe driver 10 to the controller 12.

Accordingly, the strobe driver 10 drives the xenon tube so as to have a different light emission amount for each distance according to the value of the second reference voltage Vref2.

The controller 12 processes and processes image information acquired by an image sensor (not shown), and receives the photographing distance and illuminance information from the strobe driver 10.

In addition, the controller 12 transmits a trigger signal to the strobe driver 10 so that the strobe driver 10 drives the strobe when the shutter is pressed by the user.

The controller 12 controls the DAC (control signal) corresponding to the shooting distance and the illumination information so that a reference voltage corresponding to the shooting distance and the illumination information transmitted from the strobe driver 10 is provided to the strobe driver 10. 16).

The DAC 16 changes the first reference voltage Vref1 to a second reference voltage Vref2 capable of producing a light emission suitable for a distance according to the control signal transmitted from the controller 12, and then the second reference voltage. (Vref2) is transmitted to the strobe driver 10.

In this case, the second reference voltage Vref2 changes according to the distance (and / or illuminance) between the image and the camera. When the photographing distance is equal to the reference distance (eg, 1M), the first reference voltage It has the same value as (Vref1), and when the photographing distance is larger than the reference distance (that is, when the image to be photographed is located at a long distance) has a voltage value larger than the first reference voltage (Vref1), When the photographing distance is smaller than the reference distance (that is, when the image to be photographed is located at a short distance), the photographing distance has a voltage value smaller than the first reference voltage Vref1.

The DAC 16 changes the first reference voltage Vref1 to the second reference voltage Vref2 by using the following equation.

[Equation]

In the strobe driving apparatus of the camera having the above configuration, when the strobe driver 10 detects the shooting distance and the illuminance and transmits the detected shooting distance and the illuminance information to the control unit 12, the control unit 12 causes the strobe. The control signal is transmitted to the DAC 16 so that the reference voltage corresponding to the photographing distance and illuminance information transmitted from the driver 10 is transmitted to the strobe driver 10.

At this time, the control signal transmitted from the control unit 12 to the DAC 16 is a shooting distance and illuminance detected by the strobe driver 10 to the first reference voltage Vref1 having a voltage value of 3.3V or 2.8V. It includes information that can be changed to the second reference voltage (Vref2) corresponding to the information.

Accordingly, the DAC 16 converts the first reference voltage Vref1 into a second reference voltage Vref2 corresponding to the photographing distance (and / or illuminance) according to the control signal transmitted from the controller 12. The change is transmitted to the strobe driver 10.

In this case, the second reference voltage Vref2 changes according to a photographing distance (and / or illuminance). When the photographing distance is the same as the reference distance (for example, 1M), the first reference voltage Vref1 is used. When the photographing distance is greater than the reference distance (ie, when the image to be photographed is located at a long distance), the photographing distance has a voltage value greater than the first reference voltage Vref1. When smaller than the reference distance (that is, when the image to be photographed is located at a short distance) has a voltage value smaller than the first reference voltage Vref1.

Meanwhile, when the strobe driver 10 is supplied with the second reference voltage Verf2 from the DAC 16, the strobe driver 10 boosts the second reference voltage Vref2 to a voltage capable of discharging the xenon tube using a transformer. The boosted voltage is stored in a live part composed of a capacitor.

When the trigger signal is transmitted from the controller 12, the strobe driver 10 discharges ions in the xenon tube with the voltage stored in the charging unit so that the xenon tube emits a flash.

As described above, the strobe driving apparatus of the camera according to the embodiment of the present invention provides the strobe driver because the DAC 16 provides the strobe driver 10 with the second reference voltage Vref2 having a different voltage value according to the shooting distance. The driving unit 10 may emit the flashes at different light emitting distances according to the shooting distances, thereby controlling and adjusting the light emitting distances for each distance, and providing the light emitting amount desired by the customer by adjusting the light emitting distances for the shooting distances.

Preferred embodiments of the present invention described above are disclosed for purposes of illustration, and various substitutions, modifications, and changes within the scope of the technical spirit of the present invention for those skilled in the art to which the present invention pertains. Changes may be made, but such substitutions, changes and the like should be regarded as belonging to the following claims.

1 is a view showing a strobe driving device of the camera according to the prior art.

FIG. 2 is a graph illustrating a guide number for each distance provided by a strobe driving apparatus of a camera according to the related art shown in FIG. 1.

3 is a view showing a strobe driving apparatus of the camera according to an embodiment of the present invention.

FIG. 4 is a graph illustrating a guide number for each distance provided by the strobe driving apparatus of the camera according to the embodiment of the present invention shown in FIG. 3.

<Description of the symbols for the main parts of the drawings>

10, 110: strobe driving unit 12, 112: control unit

16: DAC

Claims (2)

A controller which processes and processes the acquired image information, receives photographing distance and illuminance information from the outside, and transmits a control signal including a trigger signal to the outside; A digital / analog converter for converting a first reference voltage into a second reference voltage capable of emitting a light quantity suitable for the photographing distance according to a control signal transmitted from the controller; And And a strobe driving unit which transmits the photographing distance and illuminance information to the controller and drives the flash to generate a light emission suitable for the photographing distance by using a second reference voltage transmitted from the digital / analog converter. Strobe drive. The method according to claim 1, The digital / analog converter changes the second reference voltage to the same value as the first reference voltage value when the photographing distance and the reference distance are the same, and the second reference voltage when the photographing distance is farther than the reference distance. The second reference voltage is changed to have a voltage larger than the first reference voltage. When the photographing distance is shorter than the reference distance, the second reference voltage is smaller than the first reference voltage. The strobe driving device of the camera, characterized in that for changing the reference voltage.

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