KR100599955B1 - Data signal transmission circuit for diminishing emission of electromagnetic wave - Google Patents

Abstract

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a data signal transmission circuit for reducing electromagnetic radiation amount and power consumption by transmitting a high bit data signal to less than half the total number of bits in a display element.

The data signal transmission circuit of the present invention includes a data signal generator for generating a display data signal composed of a plurality of bits, a counter for receiving a data signal and counting the number of bits having a high value to generate a counter signal, and a data signal. A data signal converter for outputting a counter signal, a data signal and an inverted data signal, including an inverter for generating an inverted data signal by inverting the signal; and a data signal and inverted data output from the data signal converter using the counter signal as a selection signal. A data signal output unit including a multiplexer for selecting and outputting one of the signals, and a driving unit for driving the display apparatus by reversing and inverting the inverted data signal transmitted from the data signal output unit using the count signal as a flag signal It includes.

Description

Data signal transmission circuit for reducing electromagnetic waves {DATA SIGNAL TRANSMISSION CIRCUIT FOR DIMINISHING EMISSION OF ELECTROMAGNETIC WAVE}

1 is a block diagram showing a conventional data signal transmission method;

2 is a block diagram showing a data signal transmission circuit according to an embodiment of the present invention.

(Name of the code for the main part of the drawing)

100: data signal generation unit 200: data signal conversion unit

300: data signal output unit 400: driver

210: counter part select: selection signal

flag: flag signal R: red signal

G: green signal B: blue signal

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a data signal transmission circuit, and more particularly, to a circuit for reducing the radiation amount of electromagnetic waves and reducing power consumption by transmitting a high bit signal in half or less of all the bits of the data signal.

In order to eliminate the electrical interference between systems in the case of displaying a screen in a display device, especially a liquid crystal display (LCD), electromagnetic radiation (Electro Magnetic Interference (EMI)) is a regulation related to electromagnetic radiation is limited. .

Since the electromagnetic wave appears larger as the potential of the transmitted data signal is higher, the potential of the data signal must be lowered to reduce the radiation amount of the electromagnetic wave.

In particular, in recent years, as liquid crystal displays increasingly require larger sizes and higher resolutions, the amount of data signals has increased, and since the operating frequency has been increased to process many data signals, radiation doses of electromagnetic waves have increased. In addition, the main part of the radiation of the electromagnetic waves is the interface (Interface) between the system, the main integrated circuit (IC) and the connection portion of the integrated circuit.

1 illustrates a conventional data signal transmission method. Referring to FIG. 1, in the conventional data signal transmission method, a red, green, and blue data signal is directly driven without any manipulation through the data signal generator 10. Is being sent). In the above, a case in which the data signals of red (R), green (G), and blue (B) are 6 bits (Bits) are illustrated.

However, in the case where the data signals R, G, and B are directly transmitted to the driving unit without any manipulation as described above, when the high bit signal occupies most of the total number of bits, the amount of electromagnetic waves emitted is not only high but also consumed. This increases the power consumption, resulting in a decrease in the reliability or efficiency of the product.

SUMMARY OF THE INVENTION The present invention has been made to solve the above problems, and when a high bit signal is more than half of all data signals, it provides a data transmission circuit that can reduce the radiation amount and power consumption of electromagnetic waves by transmitting an inverted signal. The purpose is.

In order to achieve the above object, the data transmission circuit of the present invention includes a data signal generator for generating a display data signal consisting of a plurality of bits, and a counter by counting the number of bits having a 'high' value by receiving the data signal. A data signal converter for outputting the counter signal, the data signal and the inverted data signal, including a counter for generating a signal, an inverter for inverting the data signal to generate an inverted data signal, and the counter signal as a selection signal. A data signal output unit including a multiplexer for selecting and outputting one of the data signal and the inverted data signal output from the data signal converter, and the count signal as a flag signal and transmitted from the data signal output unit Inverting the inversion data signal And a driver for driving a display device to restore a data signal group.
Here, the data signal output unit outputs the inverted data signal when the number of bits having the "high" value of the counter signal exceeds the half of the plurality of bits, and the driving unit has the "high" value of the counter signal. When the number of bits exceeds half of the plurality of bits, it is preferable to revert the inverted data signal to restore the data signal.

delete

delete

delete

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

Electromagnetic waves are generated more as more bit signals are transmitted in a high state. In the present invention, when a high bit signal is over half of the total number of bits, the electromagnetic wave is inverted and transmitted as it is, and when it is not more than half, it is transmitted. Among the data signals, the high bit signal is always kept less than half to reduce the radiation amount of the electromagnetic wave.

2 shows a data signal transmission circuit according to an embodiment of the present invention. Referring to FIG. 2, the data signal transmission circuit of the present invention includes a data signal generator 100 generating a red (R), green (G), and blue (B) data signal composed of a plurality of bits, and the data signal. Data signals for generating signals Rb, Gb, Bb inverted (R, G, B), uninverted signals (R, G, B), and count signals representing a ratio of high bit signals among data signals. A converter 200 and a data signal output unit 300 for transmitting the data signals R, G, and B or the inverted data signals Rb, Gb, and Bb by using the count signal as a select signal; The driving unit 400 drives the display device by restoring the original data signals R, G, and B by using the count signal as a flag signal.

The data signal generation unit 100 has the same configuration and operation as the conventional data signal generation unit 10 shown in FIG. 1 and has six bits of red (R), green (G), and blue (B) data signals. Indicates the occurrence of.

The data signal converter 200 may include the data signals R, G, and B transmitted from the data signal generator 100, and the inverted signals Rb, Gb, and Bb of the data signals R, G, and B. An inverter is connected to each data line in parallel to output the same, and counts whether the high bit signal is more than half of all bits (6 bits in the above) of the input data signals R, G, and B. It further includes a counter unit 210 for generating a count signal indicating the state.

For example, if the high bit signal is more than three bits that are half of the six bits of the red data signal R, the counter unit 210 indicates that the high bit signal is more than half of all six bit signals. When the high bit signal is 3 bits or less, a signal indicating that the high bit signal is not more than half is generated. Therefore, in the above, a 3-bit count signal corresponding to the red (R), green (G), and blue (B) data signals is required.

At this time, the data signal converter 200 always generates the inverted data signals Rb, Gb, and Bb and transmits the data signals Rb, Gb, and Bb to the data signal output unit 300.

The data signal output unit 300 selects and outputs one of the data signals R, G, and B and the inverted data signals Rb, Gb, and Bb transmitted from the data signal changer 200. Each data signal R, G, and B is configured to include a multiplexer MUX. The count signal generated by the counter unit 210 is used as a select signal of each multiplexer.

Therefore, if the number of high bit signals exceeds 3 bits, which is half of the total number of bits, the inverted data signal Rb, Gb, Bb is output from the corresponding multiplexer, and if the number of high bit signals does not exceed 3 bits, the corresponding The multiplexer outputs data signals R, G, and B that are not inverted, respectively.

As a result, whether the signal generated through the data signal output unit 300 is the inverted data signals Rb, Gb and Bb or the uninverted data signals R, G and B, The output does not exceed half.

The inverted data signals R, G, and B are input to the driver 400, or the inverted data signals Rb, Gb, and Bb are input. The count signal transferred from the counter is a flag signal. It can be used to recognize the state of the input signal.

Therefore, when the number of high bit signals exceeds 3 bits, which is half of the total number of bits, the data signal Rb, Gb, and Bb inverted by the flag signal is recognized, and the input data signal is recognized. By inverting again to generate a drive signal, the original data signals R, G, and B can be recovered. On the contrary, when the number of high bit signals does not exceed 3 bits, which is half of the total number of bits, since the inverted data signals R, G, and B are input, the driving signals are generated without being inverted again. .

As described in detail above, according to the data signal transmission circuit of the present invention, the data bits in the high state are always transmitted to less than half of the total number of data bits, thereby reducing the amount of radiation of electromagnetic waves caused by the high state bit signals. Can be.

Therefore, as the electromagnetic radiation is reduced, the electromagnetic interference phenomenon is reduced, and the power consumption of the display device is also reduced, thereby improving economics.

Hereinafter, this invention can be implemented in various changes in the range which does not deviate from the summary.

Claims (5)

A data signal generator for generating a display data signal composed of a plurality of bits; A counter for generating a counter signal by counting the number of bits having a 'high' value by receiving the data signal, and an inverter for inverting the data signal to generate an inverted data signal; A data signal converter for outputting a data signal; A data signal output unit including a multiplexer for selecting and outputting one of the data signal and the inverted data signal output from the data signal converter by using the counter signal as a selection signal; A driving unit driving the display apparatus by reversing the inverted data signal transmitted from the data signal output unit using the count signal as a flag signal to restore the data signal Data signal transmission circuit comprising a. delete delete delete The method of claim 1, The data signal output unit outputs the inverted data signal when the number of bits having a "high" value of the counter signal exceeds half of the plurality of bits, The driving unit reverts the inverted data signal to restore the data signal when the number of bits having the "high" value of the counter signal exceeds half of the plurality of bits. Data signal transmission circuit.

Images