KR20020057908A - Scan Driver with changeable various scan duty - Google Patents

Abstract

PURPOSE: A scan driver capable of the number of drive scan lines is provided to selectively drive a scan line of a panel by operating a shift register which outputs a register signal using a selecting signal of N bits. CONSTITUTION: A demultiplexer(61) divides a selecting signal from a microcomputer. A plurality of multiplexers(62) sequentially perform multiplexing operations according to the divided selecting signal from the demultiplexer(61). A plurality of registers(63) are shifted according to the multiplexing signals from the plurality of multiplexers(62) and sequentially output register signals by scan lines to be driven. A plurality of level shifters(64) shift the register signals from the plurality of registers(63) by a predetermined set level. A switching section(65) switches a high or low voltage level according to the shift signals from the plurality of level shifters(64).

Description

Scan driver with changeable number of scan lines

According to the present invention, a drive scan for selectively driving a scan line of a panel by selectively operating a shift register for outputting a resist signal, which is a scan drive signal, using an N-bit selection signal distributed according to the number of scan lines to be driven. It relates to a scan driver that can change the number of lines.

In general, a conventional mono display having a low resolution and a small number of gray scales to be expressed in a flat panel display field and having a small internal memory size, as illustrated in FIG. 1, the controller IC 10 / data driver 20 / scan The panel driving circuit is used as one chip in which all the drivers 30 are embedded.

Therefore, when the output stage of the scan driver is connected to the controller IC with as many bus lines as the output stages, and the scan lines to be driven are to be changed, the scan lines are wired by one-to-one mapping of each scan output and control signal bus lines. The output of was easily controlled.

However, as in a color display, when the memory size increases due to an increase in display resolution and an increase in the number of gradation bits, it is difficult to implement the panel driving circuit as a single chip.

Therefore, for color display, the data driver, scan driver, and controller IC must be manufactured separately in separate chip sets.

In this case, the output line of each scan driver can be easily controlled by using the internal metal wiring bus in the case of one chip, but the scan line can be changed. However, in each chip set instead of one chip, The output stage cannot be easily controlled, making it difficult to change the scan line to drive.

In addition, the existing scan driver is designed to be driven by only one duty, so that when the actual user requests a duty change, it cannot respond properly, and it is designed for a panel having a resolution higher than the resolution of the panel being used. When a scan driver is to be used in a panel driving circuit that uses a scan driver in advance, there is a problem in that unnecessary power consumption is caused as a result of operating a scan output that is not desired by a user.

Accordingly, the present invention is to solve the above problems, by selectively operating a shift register for outputting a resist signal, which is a scan driving signal, by using a N-bit selection signal distributed according to the number of scan lines to be driven, the scan line of the panel SUMMARY OF THE INVENTION An object of the present invention is to provide a scan driver capable of changing the number of driving scan lines for selectively driving the driving circuit.

To this end, the present invention distributes N-bit selection signals according to the number of scan lines to be driven, and sequentially shifts corresponding registers selected according to the divided selection signals to selectively select each scan line corresponding to the corresponding registers. To drive.

1 is a diagram illustrating a general panel driving circuit,

2 is a view showing a panel driving circuit applied to the present invention,

3 is a block diagram of a scan driver according to the present invention.

<Explanation of symbols for the main parts of the drawings>

61: demultiplexer 62: multiplexer

63: shift register 64: level shifter

65: switching unit

Hereinafter, the present invention will be described with reference to the accompanying drawings.

First, as shown in FIG. 2, a panel driving circuit to which the present invention is applied includes a controller IC 40 in which a microcomputer is applied to apply a selection signal according to the number of scan lines to be driven; A data driver 50 and a scan driver 60 for applying data and scan driving signals to a plurality of data lines and scan lines, respectively, under the control of the controller IC 40; The panel 70 displays an image according to the potential difference between the data and the scan driving signal.

According to the present invention, the scan driver 60 includes a demultiplexer 61 for distributing a selection signal applied from the microcomputer, as shown in FIG. A plurality of multiplexers 62 selected and sequentially multiplexed according to the distributed selection signal; A plurality of registers (63) for sequentially outputting a resist signal for each scan line to be driven while being shifted according to the multiplexed signal; A plurality of level shifters (64) for respectively shifting the output register signal by a predetermined level; The switching unit 65 is configured to switch to a high or low voltage level according to the signals shifted by the plurality of level shifters.

In the present invention, the microcomputer embedded in the controller IC 40 first selects a shift start signal and an N-bit selection signal proportional to the number of scan lines to be driven, and the demultiplexer 61 embedded in the scan driver 60. Is applied.

In this case, it is preferable to use a signal encoded with a binary bit as the " N-bit selection signal &quot;. For example, the total number of scan lines of the panel is 32 and the number of scan lines to be driven is 16 lines, that is, 2 ⁴ days. In this case, a 4-bit signal encoded with binary bits is applied.

Next, the demultiplexer 61 simultaneously distributes N-bit selection signals applied from the microcomputer to the plurality of multiplexers 62, respectively, and scan lines for driving the first of the scan lines to drive the shift start signal. Output to the multiplexer corresponding to.

For example, when the number of scan lines to be driven is 16 out of 32 and the scan lines to be selectively driven are the 17th to 32nd scan lines, the shift start signal is transmitted to the 17th scan line. Output to the corresponding multiplexer.

Next, some of the multiplexers 62 whose number is determined according to the number of scan lines of the panel are selected according to the number of N-bit selection signals applied from the demultiplexer 61.

For example, when the number of scan lines to be driven is three out of the total number of 32 scan lines of the corresponding panel, the plurality of scan lines are applied according to the 4-bit selection signal 0000, 0001, 0010 applied to select the three scan lines. Among the multiplexers 62, three multiplexers corresponding to the scan lines to be driven are selected.

In this case, since the plurality of multiplexers use a 2 × 1 multiplexer and the total number thereof is determined according to the total number of scan lines of the panel, 32 multiplexers are required.

Meanwhile, the selected multiplexers sequentially shift the plurality of registers 63 by performing a multiplexing operation in conjunction with the plurality of registers 63. The operation process is as follows.

First, the first multiplexer receiving the shift start signal and the first selection signal multiplexes the shift start signal of the two signals and inputs the shift start signal to the first register corresponding to the corresponding register.

Subsequently, the first register loads a first resist signal for driving the corresponding scan line according to the input shift start signal, and applies it to an input of a second multiplexer, and the second multiplexer applies a resist signal applied from the first register. And a resist signal of the second selection signal output from the demultiplexer is multiplexed and applied to the input of the second register.

Then, a shift is made from the first register to the second register. This series of multiplexing operations is repeatedly performed to the Nth multiplexer receiving the Nth selection signal.

Meanwhile, the plurality of register signals output from the shift registers 63 are each shifted by a predetermined level through the corresponding level shifter 64, and then, according to the signals shifted by the corresponding level shifter through the switching unit 65. By switching, a scan drive signal of high or low voltage level is applied to the panel.

Hereinafter, the operation process to which the present invention is applied will be described in more detail. For example, the total scan lines of the panel to be described are 32 lines, and the scan lines to be driven are four of the first to fourth scan lines.

First, the microcomputer embedded in the controller IC outputs 00, 01, 10, and 11, which are first to fourth selection signals proportional to the shift start signal and the number of scan lines to be driven, respectively, to the demultiplexer built in the scan driver.

Next, the demultiplexer distributes the first to fourth selection signals applied from the microcomputer to the first to fourth multiplexers, respectively, and outputs the shift start signal to the first multiplexer driven first.

Then, the first multiplexer multiplexes the shift start signal among the shift start signal and the first selection signal output from the demultiplexer and inputs the multiplexer to the first register.

Subsequently, the first register loads the first resist signal for driving the corresponding scan line according to the shift start signal and applies it to the second multiplexer and the first level shifter.

Then, the first level shifter shifts the outputted first shift resist signal by a predetermined voltage level, and the switching unit switches to a high voltage level according to the shifted data value so that the first scan line of the color plasma display panel. The first scan line is driven by outputting the same.

On the other hand, the second multiplexer multiplexes the first resist signal among the applied first resist signal and the second select signal output from the demultiplexer and applies it to the input of the second register, thereby shifting the first register to the second register. To be done.

Next, the second register loads a second resist signal and applies it to the third multiplexer and the second level shifter.

Then, the second level shifter shifts the output second shift resist signal by a predetermined voltage level, and the switching unit switches to a high voltage level according to the shifted data value so that the second scan line of the color plasma display panel As a result, the second scan line is driven.

Meanwhile, the third multiplexer multiplexes the second resist signal among the applied second resist signal and the third select signal output from the demultiplexer and applies it to the input of the third register, thereby shifting the second register to the third register. To be done.

Then, the third level shifter shifts the outputted third shift resist signal by a predetermined voltage level, and the switching unit switches to a high voltage level according to the shifted data value to form a third scan line of the color plasma display panel. The third scan line is driven by outputting.

As described in detail above, a scan driver capable of changing the number of driving scan lines according to the present invention selectively selects a resist shift that outputs a resist signal, which is a scan driving signal, using an N-bit selection signal distributed according to the number of scan lines to be driven. It can be operated to selectively drive the scan line of the panel.

Although the invention has been described in detail only with respect to the specific examples described, it will be apparent to those skilled in the art that various modifications and variations are possible within the spirit of the invention, and such modifications and variations belong to the appended claims.

Claims (3)

A demultiplexer for distributing an N-bit selection signal applied according to the number of scan lines to be driven; A plurality of multiplexers that are selected according to the divided selection signals and sequentially multiplex the input signals; A plurality of registers sequentially outputting a resist signal which is a scan line driving signal for each scan line to be shifted according to the multiplexed signal; A plurality of level shifters which respectively shift the output register signal by a predetermined level; And a switching unit configured to switch to a high or low voltage level according to the signals shifted by the plurality of level shifters. The method of claim 1, wherein the input signal; And a select signal distributed by the demultiplexer and a resist signal output from the shift register. The system of claim 1 or 2, wherein the plurality of multiplexers; A scan driver capable of changing the number of driving scan lines, wherein the number of driving scan lines is mapped to the plurality of registers and 1: 1 by corresponding scan lines using a 2X1 multiplexer.