KR20010045059A - Camera control unit in a moving picture terminal - Google Patents

Abstract

The present invention relates to a peripheral circuit control apparatus of a moving picture terminal, and more particularly, to a camera control device of a moving picture terminal for directly controlling a camera attached to a moving picture terminal using a control signal line using a microprocessor embedded in the moving picture terminal. will be.

According to the present invention, by reading the control coefficients of the camera module constituting the moving picture terminal from the main memory of the moving picture terminal and writing and controlling them directly to the camera module using the control signal line, a separate memory for storing the control coefficients is provided in the camera module. Not only is it unnecessary, the material cost is reduced, the circuit is simplified, and the control coefficient can be directly changed by using the control signal line, thereby increasing the efficiency of the control.

Description

Camera control unit in a moving picture terminal

The present invention relates to a peripheral circuit control apparatus of a moving picture terminal, and more particularly, to a camera control device of a moving picture terminal for directly controlling a camera attached to a moving picture terminal using a control signal line using a microprocessor embedded in the moving picture terminal. will be.

In general, a camera control method in a moving picture terminal is programmed to store coefficients used for controlling the camera module in the EEPROM of the camera module, and then stores control coefficients stored in the EEPROM according to a command input from the microprocessor of the moving picture terminal. After reading the data, the camera was controlled.

According to the related art, a memory is installed in the moving picture terminal and the camera module, respectively, and the camera modules are operated by operating them independently according to control signals of the microprocessor of the moving picture terminal. As a result, the circuit configuration is more complicated than the method of directly controlling the camera using only the memory of the moving picture terminal, and the number of memories is increased, resulting in a material cost increase.

The technical problem to be solved by the present invention is to solve the above problems by storing the coefficients for controlling the camera module in the memory embedded in the video terminal, and then directly controlling the camera by the microprocessor of the video terminal using the control signal line An apparatus for controlling a camera in a moving image terminal is provided.

1 is a block diagram of an apparatus for controlling a camera in a moving picture terminal according to the present invention.

2 is a flowchart of a method for writing control coefficients through a control signal line according to the present invention.

3 is a detailed flowchart of the address writing step of FIG. 2.

4 is a detailed flowchart of the data writing step of FIG. 2.

5A to 5D show timing charts of the control signal lines according to the present invention.

In order to achieve the above technical problem, a camera control apparatus for a moving picture terminal according to the present invention includes a memory for storing various programs and control data for controlling operations of the moving picture terminal and the camera, in the camera control device for a moving picture terminal; An input means for inputting an operation command of the video terminal, a microprocessor for inputting a command of the input means to read a corresponding program or data from the memory to control peripheral blocks, and connected with the microprocessor and a control signal line, And a camera digital signal processing block for reading data input to the control signal line and generating a corresponding camera control signal, and a camera image sensing block for rotating the camera lens in response to the camera control signal. Shall be.

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

As shown in FIG. 1, the apparatus for controlling a camera in a moving picture terminal according to the present invention includes a memory block 11, a microprocessor block (MPU) 12, a camera digital signal processing block 13, and a camera image sensing block 14. ), An I / F controller & DAC block 15, a display unit 16, and an input unit 17.

Here, the camera digital signal processing block 13 and the camera image sensing block 14 are included in the camera module.

When power is supplied to the moving picture terminal, the memory block 11 controls the moving picture terminal and the camera module in response to various input commands input by the user through a program and input means 17 for initially booting the system. Various executable programs and data are stored.

The microprocessor block (MPU) 12 reads the corresponding program and data stored in the memory block 11 in order to execute a program corresponding to a command input by the user through the input means 17, and reads the peripheral program. Control the blocks. In addition, when the input command is a command related to camera module control, the control data corresponding thereto is read from the memory block 11 and output to the camera digital signal processing block 13 through the control signal line.

The camera digital signal processing block 13 writes the control data input through the control signal line to the corresponding address of the embedded buffer. Then, the data stored in the buffer is read to generate a camera control signal. In addition, the signal transmitted from the camera image sensing block 14 is digital signal processing to a predetermined standard.

The camera image sensing block 14 inputs a camera control signal, and performs a control operation such as rotating or moving the camera lens accordingly, converts an optical signal input through the lens into an electrical signal, Transmit to digital signal processing block 13.

The I / F controller & DAC block 15 inputs image data signaled by the camera digital signal processing block 13 and image data received through a modem (not shown), and outputs the display standard of the display unit 16. The signal is converted in accordance with the analog signal, and the analog signal is output.

The display unit 16 outputs an input image signal using liquid crystal display means or the like.

The input means 17 has a function key for operating the moving image terminal as intended by the user, and transmits the corresponding key command to the microprocessor block 12.

Then, the control coefficients of the camera module read from the memory block 11 are written to the buffer of the camera digital signal processing block 13 by the memory block 11 and the microprocessor block 12 of the video terminal. The control will be described in detail with reference to the flowcharts of FIGS. 2 to 4 and the timing diagrams of FIGS. 5A to 5D.

First, the pin data direction between the microprocessor block 12 and the camera digital signal processing block 13 is set to CLDDEN, CTLDCK, CTLDIN as output terminals and CTLDOUT as an input terminal based on the microprocessor block 12 ( Step 201). Here, CTLDEN is an enable control signal line for adjusting the camera digital signal processing block coefficient, CTLDCK is a clock control signal line, CTLDIN is a data input signal line for adjusting the camera digital signal processing block coefficient, and CTLDOUT is an output signal line for adjusting the coefficient of the camera digital signal processing block coefficient. to be.

Enabling the coefficient adjustment control line by setting CTLDEN to 1 reflects the value of the control coefficient and delays 10 ns to prevent transmission error due to a change in state (step 202).

Next, the address is written (step 203).

An operation thereof will be described with reference to FIG. 3.

The value of the writing flag A7 bit is set to '1', N is set to 7 to count the bits, and the values of CTLDIN and CTLDCK are initially '0' (step 301).

If the value of N is determined (step 302), and the value of N is greater than or equal to '0', the value of the most significant address bit (A0) to the least significant address bit (A0) of FIG. During the 'high' pulse period, N bit is decreased by '1' every time one address bit value is written, while writing one bit in sequence and setting the CTLDCK delay time to 5 ns (steps 303 to 305).

Then, after writing the address bit value up to A0 bit, the N value becomes -1 and becomes smaller than "0" as a result of the determination in step 302, thus ending the address writing step.

After writing the address bits, data is written (step 204).

An operation thereof will be described with reference to FIG. 4.

When the number of address bits and the number of data bits are set equal to 8 bits, the N value is set to '7', and the values of CTLDIN and CTLDCK are initially '0' (step 401).

If the value of N is determined (step 402), and the value of N is greater than or equal to '0', the value of the most significant data bit D7 to the least significant data bit D0 in FIG. During the 'high' pulse period of CTLDCK, writes 1 bit sequentially and sets the delay time of CTLDCK to 5 ns, and decreases the value of N by 1 for each address bit value (steps 403 to 405). .

Then, after writing the data bit value to the D0 bit, the N value becomes -1 and becomes smaller than "0" as a result of the determination in step 402, thereby completing the address writing step.

In this manner, after writing the address and the data, CTLDEN of FIG. 5 (a) is switched to '0' to disable and delay 10 ns (step 205).

In the CTLDOUT of FIG. 5 (d), data is read and output using a combination of CTLDEN, CTLDCK, and CTLDIN.

By the above operation, the control coefficients of the camera module stored in the memory block 11 are read from the microprocessor block 12 of the moving picture terminal and written to the buffer of the camera digital signal processing block 13 to change the control coefficients. As a result, control such as rotation of the camera lens can be executed.

As described above, according to the present invention, the control coefficients of the camera module constituting the moving image terminal are read from the main memory of the moving image terminal and directly written to the camera module using the control signal line to control them, thereby storing the control coefficients in the camera module. It does not need a separate memory for the material cost is reduced, the circuit is simplified, and the control coefficient can be directly changed by using the control signal line, thereby increasing the efficiency of the control.

Claims (2)

In the camera control device of a moving picture terminal, A memory for storing various programs and control data for controlling operations of the video terminal and the camera; Input means for inputting an operation command of the video terminal; A microprocessor for inputting a command of the input means to read a corresponding program or data from the memory to control peripheral blocks; A camera digital signal processing block connected to the microprocessor and a control signal line to read data input to the control signal line and generate a camera control signal corresponding thereto; And And a camera image sensing block which rotates a camera lens in response to the camera control signal. The apparatus of claim 1, wherein the control signal line includes an enable control signal line, a clock control signal line, a coefficient adjustment data input signal line, and a coefficient adjustment data output signal line.