KR100597810B1 - Camera phone with auto focus - Google Patents

Abstract

 The present invention relates to a camera phone that performs an auto focus function. The camera phone according to the present invention comprises a sensor unit for sensing the image captured through the lens of the camera to generate an image signal; An autofocus function unit for analyzing a video signal received from the sensor unit to generate a focus information signal including data about an optimal focus state; A lens driver which receives the focus information signal from the auto focus function and controls the refractive index of the lens; And a control unit which receives the focus information signal from the auto focus function unit and controls the sensor unit or the auto focus function unit. Since the camera phone which performs the auto focus function according to the present invention performs its own auto focus function without affecting the function of the original mobile phone, the functional loss and power loss when the control unit performs the auto focus function can be reduced. It has an effect.

Camera phone, sensor unit, auto focus                                                                                                            

Description

Mobile phone for performing auto focus of camera}

1 is a circuit diagram of a conventional camera phone equipped with a single focal length lens.

2 is a circuit diagram of a camera phone for performing a conventional auto focus function.

3 is a circuit diagram of a camera phone for performing an auto focus function according to an embodiment of the present invention.

4 is an internal configuration diagram of an auto focus function unit according to an exemplary embodiment of the present invention.

<Description of Symbols for Main Parts of Drawings>

301: lens unit 303: sensor unit

305: lens driving unit 307: auto focus function

309: input and output unit

311: camera interface unit

313 control unit 315 display unit

317: RF unit 319: Antenna unit

The present invention relates to a camera phone that performs an autofocus function, and more particularly, since the autofocus function performs an autofocus function without affecting the function of the original mobile phone, the control unit performs an autofocus function. The present invention relates to a camera phone that performs an auto focus function to reduce functional loss and power loss in a case.

Conventionally, a camera phone equipped with a single focal length lens having one focus has been commercialized.

1 is a circuit diagram of a conventional camera phone equipped with a single focal length lens. Referring to FIG. 1, a camera phone equipped with a short focal length lens includes a lens unit 101, a sensor unit 103, a camera interface unit 105, a display unit 107, a control unit 109, and an RF radio. Frequency) 111 and the antenna unit 113.

The lens unit 101 captures an image by collecting or diverging light from an object.

The sensor unit 103 serves to generate an image signal that is an electrical signal by sensing an image captured by the lens.

The camera interface unit 105 serves to interface the sensor unit 103, the display unit 107, and the control unit 109.

The display unit 107 serves to display an image included in an image signal under the control of the controller 109.

The controller 109 serves as a center of the camera phone to process an image signal and to control the sensor unit 103, the display unit 107, and the RF unit 111.

The RF unit 111 transmits an image signal to a terminal connected to a wired or wireless network through the antenna unit 113.

The camera phone equipped with the short focal lens as shown in FIG. 1 does not deteriorate in image quality compared to a lens whose focus can be adjusted when the number of pixels of the sensor is 1 million pixels or less.

However, with the development of the camera phone, consumers demand a camera phone having a high resolution image quality having a large number of pixels, but a camera phone equipped with a short focal length lens has a problem in that it cannot handle a high resolution image quality having a large number of pixels.

In addition, the camera phone equipped with a short focal length lens has a problem that the focus is not taken when the camera is out of the range of a certain distance, for example, when performing a short distance shooting or a long distance shooting.

Therefore, the camera phone, which is aimed at multi-function and multi-purpose cameras due to the increase in the number of pixels of the camera and the development of the technology of the lens, is required for the auto focus function. Here, the auto focus function refers to continuously adjusting the refractive index of the lens unit such that an optimal image is detected through the lens unit.

Meanwhile, in order to perform the auto focus function in the camera phone as shown in FIG. 1, the circuit as shown in FIG. 2 must be configured.

2 is a circuit diagram of a camera phone for performing a conventional auto focus function.

1 and 2, the camera phone for performing the conventional autofocus function is a lens unit 201 which can change the refractive index of the lens unit 101 compared to the camera lens equipped with a single focus lens. The lens driver 203 which is exchanged and can drive the lens unit 201 is further included.

Specifically, the camera phone for performing the conventional autofocus function performs the autofocus function by changing the refractive index of the lens unit 201 under the control of the lens driver 203 the control unit 109.

However, the camera phone for performing the conventional autofocus function has a problem in performing other functions because the controller 109 must drive the lens driver 203 by processing the image signal continuously input. As a result, when the controller 109 performs another function, it may occur that the auto focus function needs to be temporarily stopped due to a load problem.

In addition, when performing the autofocus function in the camera phone with the circuit having the structure of FIG. 2, functional loss and power loss due to the operation of the controller 109 are expected.

Accordingly, an object of the present invention is to provide a camera phone that performs an autofocus function in order to provide a high resolution image quality having a large number of pixels.

It is also an object of the present invention to provide a camera phone that performs its own autofocus function without affecting the function of the original mobile phone.

It is also an object of the present invention to provide a camera phone that can increase the efficiency in the utilization of the camera by previewing the image in the optimal focus state.

In addition, an object of the present invention is to display the current focus state to the display to inform the user, while when the optimum focus on the image to inform the user of the result through the sound or vibration to the user easily and optimally The present invention provides a camera phone that can capture an image in a focus state.

According to a first aspect of the present invention to achieve the above object, in the camera phone provided with a camera, a sensor unit for detecting an image captured by the lens of the camera to generate an image signal, received from the sensor unit An autofocus function for generating a focus information signal including data about an optimal focus state by analyzing the image signal, a lens driver for controlling the refractive index of the lens by receiving the focus information signal from the autofocus function; A control unit configured to receive the focus information signal from the auto focus function unit and to control the sensor unit or the auto focus function unit, the auto focus function unit extracting luminance data from the image signal, and the brightness data A high pass filter (HPF) unit for extracting contour data from among the contours Integrating the data, the peak hold part for generating current focus data for the current focus state and comparing the existing focus data with the current focus data to set an optimal focus state and focusing corresponding to the optimal focus state Provided is a camera phone for performing an auto focus function, comprising a signal processor for generating an information signal.

In addition, the image signal is received from the sensor unit and a focus information signal is received from the auto focus function unit, and the focus state included in the focus information signal and the image included in the image signal are controlled by the control unit of the auto focus function. The display unit may further include a display unit.

The apparatus may further include an input / output unit for receiving the focus information signal from the auto focus function unit and inputting / outputting the focus information to the outside, wherein the input / output unit may use vibration or a ringtone to input / output to the outside.

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The auto focus function unit may further include an interface unit that interfaces the signal processor and the controller or the lens driver.

The auto focus function unit may further include a display controller configured to control the display unit in response to the focus information signal.

Hereinafter, a preferred embodiment of a camera phone for performing the auto focus function according to the present invention will be described in more detail with reference to the accompanying drawings.

3 is a circuit diagram illustrating a camera phone for performing an auto focus function according to an exemplary embodiment of the present invention.

Referring to FIG. 3, the camera phone includes a lens unit 301, a sensor unit 303, a lens driver 305, an auto focus function unit 307, an input / output unit 309, a camera interface unit 311, and a control unit ( 313, the display unit 315, the RF unit 317, and the antenna unit 319.

When the image is captured through the lens unit 301 that can adjust the refractive index, the sensor unit 303 detects the captured image and generates an image signal which is an electrical signal corresponding to the image. Thereafter, the sensor unit 303 transmits an image signal to the auto focus function unit 307 and the camera interface unit 309.

The auto focus function unit 307 receives an image signal and generates a focus information signal including data about an optimal focus state. Thereafter, the auto focus function unit 307 transmits the focus information signal to the camera lens driver 305, the input / output unit 309, the camera interface unit 311, and the controller 313.

The lens driver 305 receives the focus information signal from the auto focus function unit 307 to change the refractive index of the lens unit so that the lens unit maintains an optimal focus state.

The input / output unit 309 receives the focus information signal from the auto focus function unit 307 and inputs and outputs information on the current focus state to the outside. The input / output unit 309 may use a ring tone or vibration to input and output to the outside. As a result, the input / output unit 309 serves to allow an external user to recognize the focus state.

The camera interface 311 may display an image signal based on a current focus state or an optimal focus by the control of the autofocus function unit 307 based on the image signal and the auto focus information signal. The display unit 315 displays an image signal based on a current focus state or an optimal focus.

The controller 313 controls and controls the auto focus function unit 307, the RF unit 317, the display unit 315, and the sensor unit 319 based on the image signal and the focus information signal.

Meanwhile, the RF unit 317 transmits the video signal to the terminal connected to the wired / wireless network through the antenna unit 319.

4 is an internal configuration diagram of an auto focus function unit according to an exemplary embodiment of the present invention.

Referring to FIG. 4, the auto focus function unit includes a sensor interface unit 401, a high pass filter (HPF) unit 403, a peak hold unit 405, a signal processing unit 407, and an interface unit. 409 and a display control unit 411.

The sensor interface unit 401 extracts luminance data from the image signal received from the sensor unit.

The high pass filter unit 403 receives luminance data from the sensor interface unit 401 and extracts edge data from the luminance data.

The peak hold unit 405 receives contour data from the high pass filter unit 405. The peak hold unit 405 integrates the contour data in units of one frame to generate current focus data of a focus state of a currently input frame.

The signal processor 407 receives the current focus data from the peak hold unit 405. The signal processor 407 compares the existing focus data with the current focus data, sets an optimal focus state, and generates a focus information signal corresponding to the optimal focus state. Thereafter, the signal processor 407 transmits the focus information signal to the lens driver, the input / output unit, and the control unit through the interface unit 409. In addition, the signal processor 407 transmits the focus information signal to the display controller 411.

The display controller 411 controls the display of the display unit in response to the focus information signal.

Although the above has been described with reference to a preferred embodiment of the present invention, those skilled in the art to which the present invention pertains without departing from the spirit and scope of the present invention as set forth in the claims below It will be appreciated that modifications and variations can be made.

Since the camera phone which performs the auto focus function according to the present invention performs its own auto focus function without affecting the function of the original mobile phone, the functional loss and power loss when the control unit performs the auto focus function can be reduced. It has an effect.

In addition, the present invention provides a user with a high-resolution image quality with a large number of pixels, and when the optimum focus on the image is informed to the external user of the result through sound or vibration, users can easily take the image in the optimal focus state. In this way, it is possible to increase the purchase desire for the camera phone.

Claims (6)

In a camera phone with a camera, A sensor unit for sensing an image captured by the lens of the camera and generating an image signal; An autofocus function unit for analyzing a video signal received from the sensor unit to generate a focus information signal including data about an optimal focus state; A lens driver which receives the focus information signal from the auto focus function and controls the refractive index of the lens; And A control unit which receives the focus information signal from the auto focus function unit and controls the sensor unit or the auto focus function unit, The auto focus function unit A sensor interface unit for extracting luminance data from the image signal; A high pass filter (HPF) unit for extracting contour data from the luminance data; A peak hold part which integrates the contour data to generate current focus data for a current focus state; And And a signal processor for comparing an existing focus data with the current focus data to set an optimal focus state and to generate a focus information signal corresponding to the optimal focus state. Camera phone performing the auto focus function characterized in that. The method of claim 1, Receiving an image signal from the sensor unit and receiving a focus information signal from the auto focus function unit to display a focus state included in the focus information signal and an image included in the image signal by the control of the auto focus function unit; Further comprising a display unit Camera phone performing the auto focus function characterized in that. The method of claim 1, And an input / output unit configured to receive the focus information signal from the auto focus function unit and to input and output the focus information to the outside, Using the vibration or ringtone to input / output the input / output unit to the outside Camera phone performing the auto focus function characterized in that. delete The method of claim 1, The auto focus function unit Further comprising an interface unit for interfacing the signal processing unit and the control unit or the lens driver. Camera phone performing the auto focus function characterized in that. The method of claim 1, The auto focus function unit Further comprising a display control unit for controlling the display unit corresponding to the focus information signal Camera phone performing the auto focus function characterized in that.

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