KR101148776B1 - Electric Paper Display Panel Driving Circuit - Google Patents

Abstract

The present invention is to provide a driving circuit of an electronic paper display device which does not cause an image change at power off regardless of a power off sequence.

The driving circuit of the electronic paper display device according to the present invention is characterized in that the output signal of the output driver is blocked from being transmitted to the electronic paper display device as the supply power of the circuit generating the input signal of the output driver is turned off. do.

The driving circuit of the electronic paper display device according to the present invention has an effect of not causing a change in output level and a change in image at power off regardless of a power off sequence.

Description

Electric paper display panel driving circuit

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a driving circuit of an electronic paper display device, and more particularly, to a driving circuit of an electronic paper display device which does not cause a change in output level at power off regardless of a power off sequence.

In general, electronic paper is a display element that enables characters or images to be displayed on flexible substrates such as thin plastics in which millions of beads are scattered in oil holes, and can be reproduced and used millions of times. It is expected to be a material that will replace existing print media such as magazines.

In addition, the electronic paper display device is much cheaper to produce than a conventional flat panel display panel and does not require background lighting or continuous recharging like a still screen, and thus can be driven with very little energy, thereby leading to an excellent energy efficiency. In addition, the electronic paper is very clear, has a wide viewing angle, and even has a memory function that does not completely disappear even if there is no power source, so it can be widely used in public bulletin boards, advertisements, and e-books.

In general, the electric paper display (EPD) requires the output level to maintain the ground (GND) level after power off. This is because the image does not change until the output level maintains the ground and retains the previous data. By the way, in the drive circuit of an electronic paper display device, the output level does not hold the ground according to a power-off sequence.

1A to 1B show a power off sequence in a driving circuit of an electronic paper display device.

The positive power supply (VPOS) and the negative power supply (VNEG) are power supplies supplied to the output driver of the electronic paper display device, and the supply power supply (VCC) is the power supply supplied to the output controller that transmits an input signal to the output driver.

An input signal is an input signal from the output controller to the output driver. The output enable signal OE is a signal that determines the level of the output signal according to the input signal. For example, if the output enable signal OE is logic high, the level of the output signal is determined according to the input signal, and if the output enable signal OE is logic low, the input Regardless of the input signal, the output signal outputs a voltage at ground level VSS.

Specifically, when the output enable signal OE is logic high and the input signals are 00, 01, 10 and 11, respectively, the output signals output VSS, VPOS, VNEG, and VSS, respectively.

The input signal and the output enable signal OE are output as normal signals when the supply power supply VCC is supplied. When the supply power supply VCC is powered off, an unknown signal is unknown. Will be printed).

The power off sequence illustrated in FIG. 1A illustrates a case in which the power supply VCC supplied to the output controller is first turned off after the power supply VPOS and VNEG supplied to the output driver are turned off.

In this case, since the positive power supply (VPOS) and the negative power supply (VNEG) supplied to the output driver are turned off first, the output driver is not driven, and the electronic paper display device is unclear after the off state regardless of the output controller. No signal is received. Therefore, since the output level maintains the ground after the power off, it performs a normal operation.

FIG. 1B illustrates a power off sequence in which the supply power supply VCC supplied to the output controller is first turned off, and then the positive power supply VPOS and the negative power supply VNEG are turned off.

According to the power off sequence as shown in FIG. 1B, the output driver is first turned off, and the output driver is turned off even though the input power supply VCC is turned off so that the input signal is not a normal signal. Since it is turned on and receives an abnormal input signal, the abnormal output signal is transmitted to the electronic paper display device. Thus, the electronic paper display device becomes unclear in the output level, causing an image change.

That is, in the power off sequence as shown in FIG. 1B, the output level may not be maintained at ground after power off. The reason for this is that the power supply (VCC), which is the power supplied to the output controller, which is supplied to the output driver as input to the output driver, is turned off before the positive power (VPOS) and the negative power (VNEG), which are the power supplied to the output driver. Since the input terminal is in a floating state, there is a problem that the output is also in a floating state.

SUMMARY OF THE INVENTION The present invention has been made in an effort to provide a driving circuit of an electronic paper display device which does not cause an image change at power off regardless of a power off sequence.

The electronic paper display device driving driver according to the present invention for achieving the technical problem is that the output signal of the output driver is transmitted to the electronic paper display device as the supply power supplied to the circuit for generating the input signal of the output driver is turned off It is characterized by blocking the thing.

The driving circuit of the electronic paper display device according to the present invention has an effect of not causing a change in output level and a change in image at power off regardless of a power off sequence.

Hereinafter, with reference to the accompanying drawings to describe the present invention in more detail.

2 illustrates an embodiment of a driving circuit of the electronic paper display device according to the present invention.

The driving circuit of the electronic paper display device 260 illustrated in FIG. 2 includes an output controller 220, an output driver 230, 240, a power off controller 210, a switching unit 250, and an electronic paper display device 260. do.

The output controller 220 generates input signals In1 and In2 as the supply power VCC is turned on.

The output drivers 230 and 240 drive the input signals In1 and In2 to generate output signals O1 and O2.

The output drivers 230 and 240 include a positive driver 230 and a negative driver 240.

The positive driver 230 receives a positive power supply (VPOS) to drive a first input signal In1 of the input signals In1 and In2 to output a first output signal O1 of the output signals.

The negative driver 240 receives a negative power VNEG to drive a second input signal In2 of the input signals In1 and In2 to output a second output signal O2 of the output signals.

The first input signal In1 and the second input signal In2 may be the same signal or may be different signals.

The power off controller 210 outputs output control signals ctrl1 and ctrl2 as the supply power VCC is turned off. The power-off controller 210 outputs output control signals ctrl1 and ctrl2 for blocking the transmission of an output signal from the output driver to the electronic paper display device at the same time the supply power VCC is turned off.

The switching unit 250 transmits or blocks the output signals O1 and O2 to the electronic paper display device 260 according to the output control signals ctrl1 and ctrl2.

The switching unit 250 includes a first PMOS transistor P1 and a first NMOS transistor N1.

The first PMOS transistor P1 receives a first output control signal ctrl1 of the output control signals ctrl1 and ctrl2 through a gate, and receives a first output signal O1 through a first terminal. Two terminals are connected to the electronic paper display device 260.

The first NMOS transistor N1 receives a second output control signal ctrl2 of the output control signals ctrl1 and ctrl2 through a gate, and receives the second output signal O2 through a first terminal. Two terminals are connected to the second terminal of the first PMOS transistor P1.

As such, the switching unit 250 may be implemented as a transistor for receiving the output control signals ctrl1 and ctrl2 as gates and transmitting or blocking the output signals O1 and O2 to the electronic paper display device 260. Can be.

Fig. 3 shows a second embodiment of the driving circuit of the electronic paper display device according to the present invention.

The driving circuit of the electronic paper display device 370 illustrated in FIG. 3 includes an output controller 320, an output driver 350 and 360, a power off controller 310, a switching unit 330 and 340, and an electronic paper display device 370. do.

The output controller 320 generates the input signals In1 and In2 as the supply power VCC is turned on.

The power off controller 310 outputs output control signals ctrl1 and ctrl2 as the supply power VCC is turned off.

The switching units 330 and 340 supply or cut off a positive power supply (VPOS) or a negative power supply (VNEG), which is a power supplied to the output drivers 350 and 360 according to the output control signals ctrl1 and ctrl2.

The output drivers 350 and 360 receive the voltages transmitted from the switching units 330 and 340 to drive the input signals In1 and In2 to generate output signals, and output the output signals through the output signal lines OUTPUT1. 370).

The switching units 330 and 340 include a third PMOS transistor P3 and a third NMOS transistor N3.

The third PMOS transistor P3 receives a first output control signal ctrl1 of the output control signals ctrl1 and ctrl2 through a gate, and the positive power supply VPOS is connected to a first terminal, and a second terminal is provided. Is connected to the positive driver 350.

The third NMOS transistor N3 receives a second output control signal ctrl2 of the output control signals ctrl1 and ctrl2 to a gate, the negative power source VNEG is connected to a first terminal, and a second terminal. Is connected to the negative driver 360.

The switching units 330 and 340 may be implemented as transistors that receive the output control signals ctrl1 and ctrl2 to gates.

The output drivers 350 and 360 include a positive driver 350 and a negative driver 360.

The positive driver 350 receives a positive power supply VPOS through a second terminal of the third PMOS transistor P3 to drive a first input signal In1 of the input signals In1 and In2 to drive the first input signal In1. Output the output signal.

The negative driver 360 receives a negative power supply VNEG through a second terminal of the third NMOS transistor N3 to drive a second input signal In2 of the input signals In1 and In2 to drive the negative driver VNEG. Output the output signal.

The first input signal In1 and the second input signal In2 may be the same signal or may be different signals.

The driving circuit of the electronic paper display device shown in FIGS. 2 and 3 includes a plurality of output drivers and switching units for outputting each output signal to the electronic paper display device through respective output signal lines OUTPUT1 and OUTPUT2. do. Each output driver receives and drives each input signal In1, In2, In3, In4 from the output controller, and each output signal is outputted from the output paper to each output driver according to each switching unit which is commonly controlled. To the display device.

The operation of the driving circuit of the electronic paper display device according to the present invention will be described below.

First, as shown in FIG. 1B of the prior art, a case in which the power supply VCC is turned off first and then the positive power VPOS and the negative power VNEG are turned off will be described.

In the state t2 where the power supply VCC is first turned off and the positive power VPOS and the negative power VNEG are turned on, the output controllers 220, 320 do not drive, and the output drivers 230, 240, 350, and 360 are not driven. ) Is driving. Thus, the output controllers 220 and 320 output abnormal input signals.

Referring to the operation of the driving circuit of the electronic paper display shown in FIG. 2, when the supply power supply VCC is turned off (t2), the power-off controller 210 outputs a high level first output control signal ctrl1. And outputs a low level second output control signal ctrl2. Therefore, the first PMOS transistor P1 and the first NMOS transistor N1 are turned off. Accordingly, the output drivers 230 and 240 are driven by the positive power supply VPOS to drive abnormal input signals In1 and In2 to output the output signals O1 and O2, but the first PMOS transistor P1 is output. And the output signal is not output to the electronic paper display device by the first NMOS transistor N1. Therefore, since the electronic paper display device 260 does not receive an unclear output signal, an image change or the like does not appear.

 Referring to the operation of the driving circuit of the electronic paper display shown in FIG. 3, when the supply power supply VCC is turned off (t2), the power-off controller 310 outputs a high level first output control signal ctrl1. And outputs a low level second output control signal ctrl2. Therefore, the third PMOS transistor P3 and the third NMOS transistor N3 are turned off. Accordingly, the output drivers 350 and 360 do not receive the positive power VPOS and the negative power VNEG, and thus do not operate like the output controller 320. Therefore, the output signal is not output to the electronic paper display device 370 regardless of abnormal input signals In1 and In2.

Therefore, since the electronic paper display device 370 does not receive an unclear output signal, an image change or the like does not appear.

In addition, since the positive voltage VPOS and the negative voltage VNEG are disconnected first in the power off sequence as shown in FIG. Is not transmitted to the electronic paper display devices 260 and 370.

The technical spirit of the present invention has been described above with reference to the accompanying drawings, but the present invention has been described by way of example and is not intended to limit the present invention. It will be apparent to those skilled in the art that various modifications and variations can be made in the present invention without departing from the spirit of the invention.

1A to 1B show a general power off sequence in the driving circuit of the electronic paper display device.

2 illustrates an embodiment of a driving circuit of the electronic paper display device according to the present invention.

3 illustrates another embodiment of a driving circuit of the electronic paper display device according to the present invention.

Claims (9)

delete delete A driving circuit of an electronic paper display device which prevents the output signal of the output driver from being transmitted to the electronic paper display device as the supply power supplied to the circuit generating the input signal of the output driver is turned off. An output controller generating the input signal as the supply power is turned on; The output driver driving the input signal to generate the output signal; A power off controller for outputting an output control signal as the supply power is turned off; And A switching unit configured to transmit or block the output signal to the electronic paper display device according to the output control signal, The output driver, A positive driver which receives positive power and drives a first input signal of the input signals to output a first output signal of the output signals; And And a negative driver configured to drive a second input signal among the input signals by receiving a negative power, and output a second output signal among the output signals. The method of claim 3, wherein The switching unit, A first transistor (P1) receiving a first output control signal of the output control signal through a gate, a first output signal supplied to a first terminal, and a second terminal connected to the electronic paper display device; And A second transistor (N1) receiving a second output control signal among the output control signals to a gate, a second output signal supplied to a first terminal, and a second terminal connected to a second terminal of the first transistor A drive circuit for an electronic paper display device, characterized in that. The method of claim 3, wherein An output controller 320 generating the input signal as the supply power is turned on; A power off controller 320 for outputting an output control signal as the supply power is turned off; And A switching unit (330, 340) for supplying or cutting off the supply power of the output driver to the output driver according to the output control signal; And And the output driver for receiving the voltage supplied from the switching unit to drive the input signal to generate the output signal and output the output signal to the electronic paper display device. In the driving circuit of the electronic paper display device which prevents the output signal of the output driver from being transmitted to the electronic paper display device as the supply power supplied to the circuit generating the input signal of the output driver is turned off. An output controller generating the input signal as the supply power is turned on; A power off controller for outputting an output control signal as the supply power is turned off; And A switching unit configured to supply or block a positive power supply and a negative power supply according to the output control signal; And An output driver for receiving the positive power and the negative power to drive the input signal to generate the output signal and output the output signal to an electronic paper display device; The switching unit, A first transistor receiving a first output control signal among the output control signals to a gate, a first terminal connected to the positive power supply, and a second terminal connected to the output driver; And An electronic paper display device which receives a second output control signal of the output control signal to a gate, a first terminal is connected to the negative power supply, and a second terminal is connected to the output driver Driving circuit. The method of claim 6, The output driver, A positive driver which receives the positive power and drives the first input signal among the input signals to output the output signal; And And a negative driver for receiving the negative power and driving a second input signal among the input signals to output the output signal. The method according to claim 3 or 6, wherein The output driver and the switching unit are provided in plurality to transmit or block the respective output signals to the electronic paper display device, Each output driver receives each input signal from the output controller, Each switching unit is controlled in common by the output control signal. The method according to claim 3 or 6, wherein And a power off sequence having a timing at which the supply power is first turned off and the positive power and the negative power are subsequently turned off.

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