KR20010035842A - System reducing power consumption between micro-controller and LCD - Google Patents

Abstract

PURPOSE: A system for reducing power consumption between a micro controller and an LCD is provided to minimize consumed electric power by preventing non-operated block from consuming electric power. CONSTITUTION: A micro controller(10) in a system(2) comprises a CPU(11), a video buffer(12) to save pictures displayed in an LCD panel(20), an LCD controller(13), a power management unit(14) to be used for reduce power consumption, and other modules(15). The LCD panel(20) and an LCD driver(30) to operate the LCD panel(20) are equipped in an outer side of the micro controller(10).

Description

System reducing power consumption between micro-controller and LCD}

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to semiconductor integrated circuits, and more particularly, to a system capable of reducing power consumption between a microcontroller and a liquid crystal device (LCD).

In general, an LCD panel is driven by an LCD driver having a built-in LCD RAM, which is a graphic random access memory (GRAM) having the same size as one-to-one correspondence with the LCD panel. The LCD controller transmits an operation indicated by the microcontroller, that is, image signals to the LCD driver. The microcontroller includes a plurality of blocks, such as a CPU, a cache memory, etc., which operate in response to a clock signal.

On the other hand, if the image displayed on the LCD panel is a still image, the microcontroller operates other blocks in addition to operating the LCD controller for display on the LCD panel. This works because the clock signal is provided to all blocks in the microcontroller. As a result, power consumption is unnecessary due to the operation of the remaining blocks other than the blocks used for the still picture display.

Therefore, when the image displayed on the LCD panel is a still image, a method for reducing power consumption by blocking the remaining blocks other than the driven block is required.

It is an object of the present invention to provide a system for reducing power consumption between a microcontroller and an LCD.

In order to more fully understand the drawings used in the detailed description of the invention, a brief description of each drawing is provided.

1 is a block diagram illustrating a microcontroller and an LCD connected according to an embodiment of the present invention.

In order to achieve the above object, the present invention provides a system for driving an LCD panel through an LCD driver which is instructed by a microcontroller, wherein the LCD is controlled by an interaction with a CPU, a video buffer, and an LCD controller embedded in the microcontroller. Display the image on the panel, but when the image is a still image, a clock signal is applied to only the video buffer and the LCD controller used to display the still image, and the remaining signal is the clock signal. It is characterized in that for displaying the still image in the state that is not operated because it is not provided.

According to the present invention, the block that is not operated when the displayed image is a still image can be minimized because the power consumption is no longer consumed.

Hereinafter, exemplary embodiments of the present invention will be described in detail with reference to the accompanying drawings. For each figure, like reference numerals denote like elements.

1 is a block diagram illustrating a microcontroller and an LCD connected according to an embodiment of the present invention. Referring to this, the microcontroller 10 in the system 2 is used to reduce the power consumption of the CPU 11, the video buffer 12 storing the image to be displayed on the LCD panel 20, the LCD controller 13, and the like. Power management unit 14 and other modules 15 and the like. Each component is interoperable via bus lines and driven in response to clock signals, control signals and data carried on these bus lines. Outside the microcontroller 10, there is an LCD panel 20 and an LCD driver 30 for driving the LCD panel 20.

In FIG. 1, the video buffer 12 embedded in the microcontroller 10 may use an independent memory block or a cache memory embedded in the microcontroller 10. By using cache memory, the chip area of the microcontroller can be significantly reduced.

The video buffer 12 requires more memory capacity as the LCD panel size is larger. For example, 8 bits per pixel are used to implement 256 colors. In the case where the LCD panel is a passive display device having a size of 640 × 240, a capacity of a video buffer 12 of 640 × 240 × 8 = 150K Byte is required for display. In this case, an independent memory block consisting of DRAM can be used. If 8K bytes of cache memory is used as the video buffer 12, it can be used to implement monochrome in a 480 × 100 LCD panel. When the memory capacity of the video buffer 12 is small, data of one frame or less of the LCD panel may be stored and used.

In such a structure, a clock signal is used as a block used to display a still image to the LCD panel 20 as a method for reducing power consumption of the system 2 when the image to be displayed on the LCD panel is a still image. There is a way to send a continuous signal and not send a clock signal to an unused block. Therefore, after the still image is stored in the video buffer 12, the clock signal is sent only to the video buffer 12 and the LCD controller 13 so that the still image stored in the video buffer 12 is transferred through the LCD driver 30. 20 to be displayed. Thus, blocks that do not receive a clock signal do not consume power because they are no longer operated.

Although the present invention has been described with reference to one embodiment shown in the drawings, this is merely exemplary, and those skilled in the art will understand that various modifications and equivalent other embodiments are possible therefrom. Therefore, the true technical protection scope of the present invention will be defined by the technical spirit of the appended claims.

According to the microcontroller of the present invention described above, when the picture displayed on the LCD panel is a still picture, the clock signal is applied to only the video buffer and the LCD controller, and the other blocks do not provide the clock signal. It doesn't work. Therefore, the block that is not operated no longer consumes power, thereby minimizing power consumption.

Claims (1)

In a system for driving an LCD panel through an LCD driver instructed by a microcontroller, The video buffer used to display an image on the LCD panel by interoperating with a CPU, a video buffer, and an LCD controller embedded in the microcontroller, and when the image is a still image; And displaying a still image in a state in which a clock signal is applied to only the LCD controller and operated, and the remaining blocks do not operate because the clock signal is not provided.