KR100694476B1 - Small LCD Drive Driver - Google Patents

Abstract

The present invention relates to a liquid crystal display driver that occupies a small area when integrated circuits, and the present invention provides a data register unit for storing input data; A load register unit receiving data stored in the data register unit by a control signal; Multiplexing means for pre-outputting input data by inputting the output of the load register unit and receiving and receiving the analog voltage of the following voltage output unit; A voltage output unit configured to output an analog voltage based on input data and a reference voltage output from the multiplexing means; And a switching means for feeding back the data received from the multiplexing means to the multiplexing means so that the multiplexing means operates as a demultiplexer, and outputting an analog voltage which is received after the multiplexing means and outputs to the liquid crystal display.

LCD Driver, Multiplexer, Decoder

Description

Lcd source driver with low space             

1 is a block diagram of a conventional liquid crystal drive driver.

Figure 2 is a block diagram of a liquid crystal drive driver according to the present invention.

* Explanation of symbols for the main parts of the drawings

210: data register section 220: load register section

230: multiplexing unit 240: voltage output unit

250: output switching unit

241 switching unit 242 amplifier control register unit

243: resistance column 244: amplifier unit

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a liquid crystal display driver, and more particularly, to a liquid crystal display driver which occupies a small area in integrated circuits.

In general, a small liquid crystal display driving integrated circuit displays data in a single line unit on a liquid crystal display, but converts the data into an analog voltage and requires an amplifier for amplifying the analog voltage.

In the small liquid crystal display driving integrated circuit, one driving driver is disposed for each liquid crystal element for displaying each data, and thus, the driving driver without data input should not be operated to reduce current consumption.

In this case, separate additional circuits are required to cut off the operation of the driving driver to which the data is not input, which increases the area of the integrated circuit.

1 is a block diagram of a conventional LCD screen driver.

Referring to FIG. 1, a data register unit 104 storing input data, a load register unit 105 receiving data stored in the data register unit 104 by a control signal, and the input data. A decoder 101 for generating an amplifier select signal by decoding the decoder, an amplifier control register 102 for temporarily storing the amplifier select signal, and generating a plurality of voltages by receiving a reference voltage; The corresponding amplifier is activated by the voltage generation resistor string 108 supplied to the 103, the amplifier selection signal select stored in the amplifier control register section 102 and the voltage supplied from the voltage generation resistor string 108. The amplifier unit 103 and the load register unit 105 receive data and the output voltage of the amplifier unit 103 and output only the output of the amplifier activated by the amplifier unit 103 to the liquid crystal 107. To the multiplexer section 106 It is composed.

The operation of the LCD screen driver will be described with reference to FIG. 1.

First, the data register unit 104 stores the input data for a predetermined time, and the load register unit 105 receives the data of the register unit 104 by a control signal and transmits the data to the multiplexer unit 106. .

Meanwhile, the input data is interpreted by the decoder 101 to generate a control signal for the amplifier to be activated and the amplifier to be deactivated, and the generated control signal (select) is stored in the amplifier control register 102.

Here, the decoder unit 101 outputs a high level for a corresponding amplifier and a low level for an amplifier that is not, and transmits the binary code formed of the high or low level output to the amplifier control register unit 102. Output

Accordingly, it is determined whether to operate the plurality of amplifiers built in the amplifier unit 103 according to the binary code input to the amplifier control register unit 102.

Subsequently, a reference voltage is supplied, and in the resistor string 108 including a plurality of resistor arrays, the reference voltage is divided to supply respective divided analog voltages to the amplifier unit 103, and the amplifier unit 103 is provided. Only the amplifier selected by the output of the amplifier control register 102 and the output of the resistor string 108 amplifies the analog voltage of the resistor string 108.

Finally, the multiplexer unit 106 selects the output of the amplifier unit 103 based on the input data stored in the load register unit 105 and outputs the result to the liquid crystal display.

However, since the decoder unit 101 requires as many metal lines as the number of bits of the input data, the area increases as the number of bits of the input data increases.

SUMMARY OF THE INVENTION The present invention has been made to solve the above-mentioned conventional problems, and an object thereof is to provide a liquid crystal screen driving driver having a small increase in area even if the number of bits of input data increases.

The present invention relates to a liquid crystal display driving driver with low power consumption. The present invention includes a data register unit for storing input data; A load register unit receiving data stored in the data register unit by a control signal; Multiplexing means for pre-outputting input data by inputting the output of the load register unit and receiving and receiving the analog voltage of the following voltage output unit; A voltage output unit configured to output an analog voltage based on input data and a reference voltage output from the multiplexing means; A switching means for operating the output terminal of the multiplexing means so that the multiplexing means operates as a demultiplexer so as to pre-output the input data to the voltage output unit, and output an analog voltage which is received after being input from the multiplexing means to the liquid crystal display. It is made to include.

DETAILED DESCRIPTION Hereinafter, exemplary embodiments of the present invention will be described with reference to the accompanying drawings so that those skilled in the art may easily implement the technical idea of the present invention. do.

2 shows a low power liquid crystal drive driver according to the present invention.

Referring to FIG. 2, a data register unit 210 storing input data, a load register unit 220 receiving data stored in the data register unit 210 by a control signal, and the load register A multiplexing unit 230 for outputting input data in advance by using the output of the unit 220 and receiving the analog voltage of the voltage output unit 240 after the output, and the output from the multiplexing unit 230. A voltage output unit 240 for outputting an analog voltage based on data and a reference voltage, and an output terminal of the multiplexer 230 to operate the multiplexer 230 as a demultiplexer, thereby converting the input data into the voltage output unit. And an output switching unit 250 for pre-outputting to 240 and outputting an analog voltage received after being input from the multiplexing unit 230 to the liquid crystal display. It is broken.

In detail, the voltage output unit 240 outputs the input data pre-output from the multiplexing unit 230 as one input and outputs a type force to the multiplexing unit 230. And an amplifier control register unit 242 for storing the output of the switching unit for a predetermined time, a resistor string 243 for generating a plurality of voltages by receiving a reference voltage, and a plurality of amplifiers. The amplifier 244 may be configured to activate the corresponding amplifier by the output of the signal 242 and the output of the resistor string 243 to serve as a type force of the switching unit 241.

The present invention having the above-described configuration will be described in detail with reference to FIG. 2.

First, when data to be displayed on the liquid crystal display 260 is applied to the data register unit 210, the data is stored for a predetermined time and then stored in the load register unit 220 by a control signal (load).

Subsequently, the data stored in the load register unit 220 is applied to the multiplexing unit 230, and the multiplexing unit 230 transmits the applied data to the output output switching unit 250.

Subsequently, the output output switching unit 250 operates the switching unit 241 to prevent a signal input from the amplifier unit 244 from being applied to the multiplexing unit 230 and then to a high level at an output terminal of the multiplexer. The multiplexer operates as a demultiplexer by applying a voltage of, so as to transmit data applied from the load register unit 220 to the switching unit 241.

Subsequently, whether or not the plurality of amplifiers in the amplifier unit 244 is operated according to the input data applied to the amplifier control register unit 242 is determined. In the resistor string 243 composed of the plurality of resistor arrays, the reference voltage is divided by The voltage corresponding to the signal output from the amplifier control register unit 242 is supplied to the amplifier unit 244.

Finally, by cutting off the high level voltage supplied to the output terminal of the multiplexer, the output output switching unit 250 causes the switching unit 241 to transmit the output of the amplifier unit 244 to the multiplexing unit 230. The analog voltage output of the amplifier unit 244 via the switching unit 241 and the multiplexing unit 230 is applied to the liquid crystal display 260.

According to the present invention, the multiplexer 230 is also used as a demultiplexer to transmit input data to an amplifier control register, thereby eliminating the use of a decoder unit and a plurality of metal lines connected to the decoder. Reduced driver area and reduced power consumption.

Claims (2)

A data register section for storing input data; A load register unit receiving data stored in the data register unit by a control signal; Multiplexing means for pre-outputting input data by inputting the output of the load register unit and receiving and receiving the analog voltage of the following voltage output unit; A voltage output unit configured to output an analog voltage based on input data and a reference voltage output from the multiplexing means; A switching means for operating the output terminal of the multiplexing means so that the multiplexing means operates as a demultiplexer so as to pre-output the input data to the voltage output unit, and output an analog voltage which is received after being input from the multiplexing means to the liquid crystal display. Liquid crystal drive driver reduced chip area, characterized in that comprises a. The method of claim 1, The voltage output unit, An output switching unit which selects and inputs input data pre-output from the multiplexing means as one input and post-outputs the type force to the multiplexing means; An amplifier control register unit which stores an output of the output switching unit for a predetermined time; A resistor string receiving a reference voltage to generate a plurality of voltages; And a plurality of amplifiers, wherein the amplifier portion is activated by the output of the amplifier control register and the output of the resistor string, and includes an amplifier unit having a type force of the output switching unit.

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