JP4496784B2 - Automatic light emitting device and method for portable terminal - Google Patents

Description

  The present invention relates to an automatic light emitting device for a strobe mounted on a mobile terminal with a camera.

  In recent years, a digital camera mounted on a portable terminal such as a cellular phone and a function of attaching the image to an e-mail and transmitting it have become widespread.

Also disclosed is a camera with a built-in strobe that enables shooting at an appropriate exposure amount by causing the strobe to emit light at a timing corresponding to the distance to the subject during the shutter opening period set based on the external light luminance. (For example, refer to Patent Document 1).
JP-A-8-171118

  However, the camera strobes that have been installed in mobile phones, etc., have been activated in advance by the user setting the presence or absence of the strobe light or pressing the light emission button assigned to the key button. It was necessary to let them.

  Therefore, the present invention detects the amount of light in the shooting environment from the intensity of ultraviolet rays using a UV sensor, and emits a strobe in advance when a user uses a camera mounted on a terminal such as a mobile phone. It is an object of the present invention to provide an automatic light emitting device and method for a portable terminal that automatically emits a strobe without setting whether or not to perform the operation.

In order to solve the above-described problems, an automatic light-emitting device of a mobile terminal according to the present invention includes a camera that captures a subject, a shutter button that is pressed by a user's operation when shooting with the camera, and a press of the shutter button. In an automatic light emitting device of a portable terminal having a strobe that emits light in response to a UV sensor, a UV sensor that detects ultraviolet light, and a first for controlling on / off of the strobe according to the amount of ultraviolet light detected by the UV sensor, Setting means for setting the first threshold value and the second threshold value having a relationship of 1 threshold value> second threshold value, a signal value corresponding to the amount of ultraviolet rays detected by the UV sensor, the first threshold value, A second threshold is compared, and if the signal value corresponding to the amount of ultraviolet light is greater than the first threshold based on the comparison result, the strobe is turned on, and the first threshold and the second threshold Control means for controlling to turn off the strobe when it is between the threshold values and to turn on the strobe when it is smaller than the second threshold value, and the setting means includes ultraviolet light from the UV sensor. From the intensity, it is determined whether the shooting environment of the camera is an indoor ultraviolet ray amount or an outdoor ultraviolet ray amount, and when the indoor ultraviolet ray amount is the indoor ultraviolet ray amount, the second threshold is set so that the strobe is turned on, and In the case of the outdoor ultraviolet light amount, it is determined whether the ultraviolet light amount is fine or cloudy. The first threshold value is set so that is turned off .
In addition, the automatic flashing method of the portable terminal of the present invention includes a camera for shooting a subject, a shutter button pressed by a user operation when shooting with the camera, and a flash that emits light when the shutter button is pressed. In the automatic light emitting method of the portable terminal having the above, a step of detecting ultraviolet rays by a UV sensor, and a first means for controlling on / off of the strobe according to the amount of ultraviolet rays detected by the UV sensor by setting means A step of setting the first threshold value and the second threshold value having a relation of threshold value> second threshold value, a signal value corresponding to the amount of ultraviolet rays detected by the UV sensor by the control means, and the first threshold value And the second threshold value, and if the signal value corresponding to the amount of ultraviolet rays is larger than the first threshold value based on the comparison result, the strobe is turned on, and the first threshold value is turned on. A step of controlling to turn off the strobe when it is between the threshold value and the second threshold value, and to turn on the strobe when it is smaller than the second threshold value, , It is determined from the ultraviolet intensity by the UV sensor whether the shooting environment of the camera is an indoor ultraviolet ray amount or an outdoor ultraviolet ray amount, and when the indoor ultraviolet ray amount is the indoor ultraviolet ray amount, the second strobe is turned on. A threshold value is set, and in the case of the outdoor ultraviolet light amount, it is determined whether it is a clear ultraviolet light amount or a cloudy ultraviolet light amount. In this case, the first threshold value is set so that the strobe is turned off.

  For this reason, an amplifier circuit for amplifying the intensity of ultraviolet rays from a sensor mounted on a terminal such as a mobile phone and outputting a voltage, a control circuit for setting a threshold value in advance for the output value, This can be realized by mounting a camera control circuit for controlling the flash emission in synchronization with the level of the flash emission signal determined by the threshold and the timing of the shutter in a terminal such as a mobile phone.

  Conventionally, in a terminal such as a mobile phone, the exposure is calculated from the amount of light captured by the camera lens and the strobe is emitted. The light emitting function can be easily implemented with a small number of parts on the terminal.

  In addition, it distinguishes between indoors and outdoors and daytime and nighttime according to the intensity of the detected ultraviolet rays.Furthermore, the amount of ultraviolet rays is particularly strong when shooting toward sunlight in outdoor sunny weather. It is possible to set a threshold value so that the strobe emits light assuming shooting.

  Furthermore, since the intensity of ultraviolet rays is constantly monitored at the sampling time interval, the user can take an image with moderate brightness by simply pressing the shutter button of the camera without being aware of the shooting environment.

  Next, the best mode of the present invention will be described with reference to the drawings.

  FIG. 1 shows a schematic configuration of an automatic light emitting device in an embodiment of the present invention. The automatic light emitting device according to the present embodiment includes a UV sensor 1, and the UV sensor 1 includes a light receiving unit 12 that detects ultraviolet light L and a sensor 11 that converts the ultraviolet light L into a current output. In addition, it has an amplifier circuit 2 and a control circuit 3 for amplifying the current output from the UV sensor 1 and converting it into a voltage output, and the control circuit 3 takes the intensity of the ultraviolet ray L into consideration in the actual shooting environment. A function for setting a threshold value according to the threshold value, a gate circuit for comparing the threshold voltage with the output voltage value, and a function for setting a time for periodically sampling the output voltage value are provided, and the level of the strobe light emission signal output from the gate circuit is adjusted. Has the ability to communicate. Furthermore, a camera control circuit 42 having a gate circuit for making a determination to cause the flash 43 to emit light based on the level of the flash emission signal and the signal of the shutter button 41 pressed when the user actually uses the camera 4, and photographing And a camera 4 for the purpose.

  FIG. 2 shows an example in which the UV sensor according to the present invention is actually mounted on a terminal such as a mobile phone. The UV sensor 1 is mounted on the substrate 53 in the vicinity of the camera lens 44 mounted on the housing upper part 50 of a cellular phone or the like, and the light receiving unit 12 for detecting the ultraviolet light L bonded to the UV sensor 1 is provided on the upper part of the housing. Holes are fixed so that they can be seen from the surface of 50. When the user points the camera lens 44 toward the subject, the ultraviolet ray L is taken in through the light receiving unit 12 and is taken into the sensor 11 inside the UV sensor 1 mounted on the substrate 53. The information of the captured ultraviolet ray L determines whether or not the strobe 43 emits light at a sampling time interval preset by the camera control circuit 42 via the amplifier circuit 2 and the control circuit 3, Each time the user presses the shutter button 41, the strobe 43 can be made to emit light.

  FIG. 3 shows a flow of operation from ultraviolet light detection to strobe light emission in the automatic light emitting device of the present invention. First, the ultraviolet light L is detected by the light receiving unit 12 of the UV sensor 1 mounted on a terminal such as a mobile phone (S1). Next, the detected ultraviolet light L is converted into a current value in the sensor 11 of the UV sensor 1 (S2). Further, this current value is amplified by the amplifier circuit 2 connected to the UV sensor 1 and becomes a voltage value within a predetermined range (S3). Next, the control circuit 3 compares the threshold value as to whether or not the strobe 43 emits light with this voltage value in the internal gate circuit (S4).

  The preset threshold value is a threshold value having a relationship of (first threshold value> second threshold value). When the voltage value corresponding to the ultraviolet ray intensity is larger than the first threshold value, the strobe light is emitted, and the first threshold value is set. Control is performed so that the strobe light is not emitted when it is between the threshold value and the second threshold value, and when it becomes smaller than the second threshold value, the strobe light is emitted.

  Using the characteristic of the UV sensor to detect ultraviolet rays, it is judged from the intensity of the ultraviolet rays whether the shooting environment is indoors or outdoors. The strobe is not emitted when outdoors, and the strobe is used indoors. A second threshold value is determined so that light is emitted. In addition, when it is sunny outdoors, it is assumed that the backlight is backlit at the time of shooting due to the intensity of ultraviolet rays, and in the case of cloudy weather, a certain level of brightness is secured so that the flash will not be emitted. A first threshold is determined. In addition, the intensity of the strobe is maximized due to the difference in the intensity of the ultraviolet light, such as the fact that it does not emit light during the daytime due to the difference in daytime and nighttime, and the intensity of the ultraviolet light weakens as it darkens. A threshold value is set in advance in the control circuit so that no light is emitted and the ultraviolet light intensity is weakened or not at all, and automatically on the terminal side according to the user's camera usage environment The flash can be fired.

  If the voltage value is within the strobe light on threshold with respect to the set threshold, an enable signal is output to the strobe light signal line in order to cause the strobe 41 to emit light (S5), and if it is outside the strobe light on threshold. For example, a Disable signal is output to the strobe light emission signal line (S7).

  Strobe light emission is performed according to the voltage level of the strobe light emission signal of the camera control circuit determined by the threshold value of the strobe light emission determination and the state of the gate circuit output signal when the shutter is pressed by the gate circuit that receives the shutter signal of the camera.

  When the user actually presses the shutter button 41 of the camera 4 of the terminal when photographing, if the strobe light emission signal line is in the enabled state, the strobe 43 is emitted by the output edge of the gate circuit of the camera control circuit 42. (S6). Further, when the strobe light emission signal line is disabled, the strobe 43 does not emit light even when the shutter button 41 is pressed because there is no output edge in the gate circuit (S8). The level of the strobe light emission signal line is constantly changing at sampling time intervals set in advance by the control circuit 3 (S9). The sampling time is preferably set to 1 second or less in order to improve the follow-up performance of the strobe 43.

  As described above, according to the present invention, a UV sensor for detecting ultraviolet rays is mounted on a terminal such as a mobile phone, and the intensity of ultraviolet rays is applied to the control circuit in various photographing environments (for example, indoor and outdoor, day and night, weather) depending on the intensity of ultraviolet rays. The threshold value is set, and the value detected from the UV sensor can be constantly monitored, and the strobe can be automatically turned on or off when shooting with the camera.

It is a schematic diagram which shows the circuit structure of the automatic light-emitting device in this invention. It is a figure which shows an example which mounted the UV sensor in the portable terminal in this invention. It is a flowchart which shows the operation | movement from ultraviolet detection in this invention to strobe light emission.

Explanation of symbols

DESCRIPTION OF SYMBOLS 1 UV sensor 2 Amplifying circuit 3 Control circuit 4 Camera 11 Sensor 12 Light-receiving part 41 Shutter button 42 Camera control circuit 43 Strobe 44 Camera lens 50 Case upper part 51 Case lower part 52 Antenna 53 Substrate 54 LCD
L UV

Claims (2)

In an automatic light-emitting device of a mobile terminal having a camera that shoots a subject, a shutter button that is pressed by a user's operation when shooting with the camera, and a strobe that emits light when the shutter button is pressed,
A UV sensor for detecting ultraviolet rays;
The first threshold value and the second threshold value having a relationship of first threshold value> second threshold value are set for controlling on / off of the strobe in accordance with the amount of ultraviolet light detected by the UV sensor. Setting means;
The signal value corresponding to the amount of ultraviolet light detected by the UV sensor is compared with the first threshold value and the second threshold value, and the signal value corresponding to the amount of ultraviolet light is determined based on the comparison result. The strobe is turned on when it is larger, the strobe is turned off when it is between the first threshold and the second threshold, and the strobe is turned on when it is smaller than the second threshold. Control means for controlling
The setting means determines from the UV intensity by the UV sensor whether the shooting environment of the camera is an indoor ultraviolet ray amount or an outdoor ultraviolet ray amount, and the strobe is turned on when the indoor ultraviolet ray amount is Set the second threshold;
In addition, in the case of the outdoor ultraviolet light amount, it is determined whether it is a clear ultraviolet light amount or a cloudy ultraviolet light amount, and in the case of the sunny ultraviolet light amount, the strobe is turned on, and in the case of the cloudy ultraviolet light amount, An automatic light-emitting device for a portable terminal , wherein the first threshold value is set so that a strobe is turned off . In an automatic light emitting method of a mobile terminal, comprising: a camera that shoots a subject; a shutter button that is pressed by a user's operation when shooting with the camera; and a flash that emits light in response to pressing of the shutter button.
Detecting ultraviolet rays with a UV sensor;
The first threshold value and the second threshold value having a relationship of first threshold value> second threshold value for controlling on / off of the strobe in accordance with the amount of ultraviolet light detected by the UV sensor by the setting means. A process of setting
A signal value corresponding to the amount of ultraviolet light detected by the UV sensor by the control means is compared with the first threshold value and the second threshold value, and a signal value corresponding to the amount of ultraviolet light is calculated based on the comparison result. The strobe is turned on when the threshold is greater than 1, the strobe is turned off when it is between the first threshold and the second threshold, and the strobe is turned off when less than the second threshold. And controlling to turn on,
In the step by the setting means, it is determined from the ultraviolet intensity by the UV sensor whether the photographing environment of the camera is an indoor ultraviolet ray amount or an outdoor ultraviolet ray amount. If the indoor ultraviolet ray amount is the indoor ultraviolet ray amount, the strobe is turned on. Set the second threshold as follows:
In addition, in the case of the outdoor ultraviolet light amount, it is determined whether it is a clear ultraviolet light amount or a cloudy ultraviolet light amount, and in the case of the sunny ultraviolet light amount, the strobe is turned on, and in the case of the cloudy ultraviolet light amount, An automatic light emitting method for a portable terminal , wherein the first threshold value is set so that a strobe is turned off .

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