KR100322454B1 - Driver for liquid crystal on silicon - Google Patents

Abstract

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a silicon liquid crystal display element driving circuit capable of compensating for variations in display characteristics generated when parallel processing is performed to drive a silicon liquid crystal display element at high speed.

The present invention provides a digital path switching circuit for converting a path of an input digital signal; An analog switching circuit for converting the digital signal converted from the path converted from the digital path switching circuit into analog; An analog path switching circuit for path converting the analog signal converted from the analog switching circuit; A control signal generator for controlling the digital path switching circuit and the analog path switching circuit; And an analog switch for selectively storing the analog signal converted from the analog path switching circuit in the display device.

Description

Silicon liquid crystal display device driving circuit {DRIVER FOR LIQUID CRYSTAL ON SILICON}

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a silicon liquid crystal display device driving circuit, and more particularly, to a silicon liquid crystal display device driving circuit capable of compensating for variations in display characteristics generated when parallel processing is performed to drive a silicon liquid crystal display device at high speed. It's about the furnace.

In general, a hybrid driving circuit of a liquid crystal display device is difficult to be applied to data transmission and conversion of XGA or SXGA class having a high resolution because the operation speed of a digital analog converter (DAC) that makes an analog signal is not fast.

Therefore, at present, a plurality of slow digital analog converters (DACs) are used to simultaneously process fast input signals (digital signals) in parallel.

In other words, if an analog value is converted using a digital analog converter (DAC) having an operating characteristic of 20 MHz for an input of an 8-bit digital video signal of 80 MHz, four digital analog converters (DACs) and 4x8 = 32 bits An input signal of is required.

In addition, since the digital analog converter (DAC) and the operational amplifier (OP-AMP) are very sensitive circuits, the digital analog converter (DAC) and the operational amplifier (OP-AMP) are very sensitive to each other.

1 and 2, an analog switching circuit 10 for converting a digital signal into an analog signal in the display element array, and an analog switch 11 for switching by the signal of the analog switching circuit 10. Display elements connected to

FIG. 1 shows that the analog digital converter (DAC) of the analog switching circuit 10 is driven for different areas, and FIG. 2 shows a plurality of analog digital lines for each line without dividing the areas. The converter outputs are arranged.

In the conventional display element array configured as described above, the offset voltage deviation generated in each analog switching circuit 10 immediately appears as a spatial deviation in the display characteristics for each of the display areas A, B, C, and D. When the same color is displayed on the screen, stripes may appear as shown in FIG. 2 according to a connection method, or a screen non-uniform state may be seen in which the screen is divided into several parts as shown in FIG. 1.

As described above, since the display elements connected to the respective analog switching circuits in the display element array are distinguished, deviations in the offset voltage generated in the analog switching circuits immediately appear as spatial deviations of the display characteristics. It had a problem indicative of a defect phenomenon, such as a grudge.

Accordingly, an object of the present invention is to alternately allocate driving regions of a plurality of analog switching circuits in a display element array to convert spatial deviations generated in each analog switching circuit into temporal deviations, thereby resulting in screen unevenness due to spatial deviations. The aim is to minimize distortion.

1 is a conventional silicon liquid crystal display device driving circuit diagram.

2 is a conventional silicon liquid crystal display element driving circuit diagram.

3 is a circuit diagram of a silicon liquid crystal display device of the present invention.

In order to achieve the above object, the present invention provides a digital path switching circuit for converting a path of an input digital signal; An analog switching circuit for converting the digital signal converted from the path converted from the digital path switching circuit into analog; An analog path switching circuit for path converting the analog signal converted from the analog switching circuit; A control signal generator for controlling the digital path switching circuit and the analog path switching circuit; And an analog switch for selectively storing the analog signal converted from the analog path switching circuit in the display device.

Therefore, according to the present invention, an analog path switching circuit for selectively connecting analog signals output from a plurality of analog switching circuits for converting a digital signal into an analog signal to a display element, and digitally alternately to the analog path switching circuit. By controlling the path switching cycle with the control signal generator in the digital path switching circuit for inputting the signal, the output deviation from the analog switching circuit is averaged and input to each pixel, thereby minimizing the distortion of the screen. .

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

3 is a circuit diagram of a silicon liquid crystal display device of the present invention, comprising: a digital path switching circuit 300 for switching a path of an input digital signal; An analog switching circuit 310 for converting the digital signal converted from the digital path switching circuit 300 into analog; An analog path switching circuit 320 for path switching the analog signal converted from the analog switching circuit 310; A control signal generator 330 for controlling the digital path switching circuit 300 and the analog path switching circuit 320; An analog switch 340 for selectively storing the analog signal converted from the analog path switching circuit 320 to the display device 350.

The digital path switching circuit 300 includes a multiplexer (MUX) for receiving a plurality of digital signal inputs and selecting one output, and a demultiplexer (DEMUX) for selecting and outputting one input from a plurality of outputs. desirable.

The analog path switching circuit 320 is composed of a multiplexer (MUX) that receives a plurality of analog signal inputs and selects one output, and a demultiplexer (DEMUX) that selects and outputs one input from one of several outputs. desirable.

The control signal generator 330 is configured as a logic circuit that determines a path switching period such that the path input to the digital path switching circuit 300 and the path output to the analog path switching circuit 320 coincide with each other.

According to the present invention configured as described above, when the digital signals Ai (Bi) (Ci) (Di) are respectively input to the digital path switching circuit 300 including the multiplexer (MUX) and the demultiplexer (DEMUX), the control signal The digital signals Ai, Bi, Ci, and Di, which are input by the path switching period ψ control signal of the generator 330, are digital signals A'i (B'i) and C'i. (D'i) will change the path.

The output digital signals A'i (B'i) (C'i) (D'i) are digital analog converters (DAC-A), (DAC-B), and (DAC) of the analog switching circuit 310. -C) and (DAC-D) are respectively output to the analog signal (AO) (BO) (CO) (DO) converted into an analog signal.

Analog signal (AO) (BO) is converted and output from the analog switching circuit 310

(CO) (DO) is respectively input to the analog path switching circuit 320 composed of a multiplexer (MUX) and a demultiplexer (DEMUX), and the input analog signal (AO) (BO) (CO) (DO) is the control. The path is switched to the input analog signal A'O (B'O) (C'O) (D'O) by the path switching period (ψ) control signal of the signal generator 330 and output.

At this time, the output analog signal A'O (B'O) (C'O) (D'O) is displayed in each row of the display element (co).

The analog switches (Analog SW1-Analog SW4) provided for each -lumn line are selectively stored in the storage location of the pixel.

In this case, the signal path is converted into an analog signal through the digital path switching circuit 300 and the analog path switching circuit 320. The digital signal Ai is input to the digital path switching circuit 300. When the digital signal Ai is inputted by the path switching period ψ control signal of the control signal generator 330, the path is converted into a digital signal D'i and output.

The output digital signal D'i is allocated to the digital analog converter DAC-D of the analog switching circuit 310 and output as an analog signal DO converted into an analog signal.

The analog signal DO converted and output from the analog switching circuit 310 is a path switching period of the control signal generator 330 in the analog path switching circuit 320.

The path is switched to the input analog signal A'O by the (ψ) control signal and output.

In this case, the path switching period and the order may be fixed or variable externally, which is determined in consideration of display characteristics of the display device.

As described above, the present invention includes a digital path switching circuit for switching the path of the digital signal when the input digital signal is converted into an analog signal through an analog switching circuit and applied to the display device; An analog path switching circuit for converting the path switched digital signal into an analog and path switching the converted analog signal; By controlling the path switching period from the control signal generator for determining the path switching period and outputting the control period control signal to the path switching circuit, the display characteristic distortion caused by the spatial signal deviation generated during the signal switching in the analog switching circuit is temporally determined. By switching to the deviation to average the characteristic distortion, it is possible to provide an effect that can minimize the distortion of the screen.

Claims (4)

A silicon liquid crystal display element driving circuit comprising an analog switching circuit for converting an input digital signal into an analog signal and a display element connected to an analog switch for switching by a signal of the analog switching circuit. A digital path switching circuit for switching a path of the digital signal input to the input and output terminals of the digital signal; An analog path switching circuit for switching paths of the analog signal converted and output from the analog switching circuit; And a control signal generator for controlling the digital path switching circuit and the analog path switching circuit. 2. The digital path switching circuit of claim 1, wherein the digital path switching circuit comprises a multiplexer for receiving a plurality of digital signal inputs and selecting one output, and a demultiplexer for selecting one output among a plurality of outputs. Silicon liquid crystal display device driving circuit. The method of claim 1, wherein the analog path switching circuit comprises a multiplexer for receiving a plurality of analog signal inputs and selecting one output, and a demultiplexer for outputting one input to one of a plurality of outputs. Silicon liquid crystal display device driving circuit. The silicon of claim 1, wherein the control signal generator comprises a logic circuit configured to determine a path switching period such that a path input to the digital path switching circuit and a path output to the analog path switching circuit coincide. Liquid crystal display element driving circuit.