KR20160004899A - Display driving apparatus and Electronic equipment having the same - Google Patents

Abstract

The present invention relates to a technology regarding a driving device which drives a display unit. An electronic device includes a display driving unit which receives promotion setting information from a device control unit and dynamically drives at least one part of an information display area on the display unit according to the setting information after the device control unit enters a sleep mode. The setting information of the display driving device is stored in an internal memory. The display unit can be dynamically driven according to the setting information stored therein. A sequence generation unit is programmed based on the setting information to wake up a driving control unit to execute a dynamic display operation and enter the sleep mode again.

Description

[0001] The present invention relates to a display driving apparatus and an electronic apparatus including the same,

A technique relating to a driving apparatus for driving a display is disclosed.

Static information is displayed on an electronic display and information is dynamically displayed on some of the remaining areas of the display, so that a user may wish to draw a line of sight. For example, an electronic information label (EIL) is known, which is attached to a shelf or the like of a store to display information on products. Electronic information labels communicate with the management server via a repeater. The electronic information labels managed through the same repeater can form one group, all the electronic labels are divided into a plurality of such groups, and the product information is updated for each group. In order to reduce the power consumption of the electronic information label supplied from the battery, the electronic information labels are kept in a sleep state except for a wakeup period necessary for information update.

On the other hand, there is known a promotion function for emphasizing the information displayed on the electronic information label or attracting the attention of the people. For example, you might think of blinking the phrase "Sale" to indicate discounts on electronic information labels, or blinking bezel areas in red. In order to maintain the promotional function, it is necessary to frequently change the displayed information, and every time the electronic label wakes up and receives information to be blinked, the power consumption is increased and the battery life is shortened.

The present invention aims at implementing a promotional function with low power in driving a display.

Further, the present invention aims to provide a driving apparatus capable of displaying various promotional functions on a display.

According to an aspect of the present invention, an electronic device receives promotion setting information from a device control unit, and after at least a device controller enters a sleep state, at least a part of an information display area of the display unit is dynamic As shown in Fig.

According to another aspect, the setting information is stored in the internal memory, and the display can be dynamically driven according to the stored setting information. The sequence generator is programmed in accordance with the setting information, so that the drive controller wakes up and dynamically displays the display, and enters the sleep state again.

According to an aspect, selection information of an area capable of being promoted to be driven by the display driver can be stored in the setting information.

The dynamic segments of the electronic paper display are driven by a drive that supports color blinking as well as black and white blinking. The information display area can be an image mode or a segment mode. The promotion area may be part of the information display area of the image format. As another example, the promotion area may be a segment area.

The promotion information may be a form in which a plurality of pieces of information are displayed sequentially or randomly alternately, or one piece of information may be a form of blinking a display.

Promotion function is driven by low power in display of electronic device. Only a limited area of the display of the electronic device is driven and consumes low power. Even if the main integrated circuit controlling the system enters the sleep state, the promotion function is maintained by the independent and low power consuming display driving chip.

1 is a block diagram showing the structure of an electronic information label according to an embodiment.
2 is a block diagram showing a configuration of an electronic device according to an embodiment.
3 is a block diagram showing a configuration of a display driving apparatus according to an embodiment.
4 is a diagram showing a configuration of a dynamic driver 550 according to an embodiment.
5 is a diagram illustrating a configuration of a general driver 570 according to an embodiment.
6 shows an example of driving signals of a general segment and a dynamic segment according to the present invention.
FIG. 7 shows another example of driving signals of the general segment and the dynamic segment according to the present invention.
8 is a block diagram showing the configuration of a display driving apparatus according to another embodiment.
9 is a flowchart illustrating a method of controlling display of an electronic information label according to an embodiment of the present invention.
10 is a graph showing control signals and corresponding main waveforms for driving an electronic paper display according to the embodiment shown in Fig.

The foregoing and further aspects are embodied through the embodiments described with reference to the accompanying drawings. It is to be understood that the components of each embodiment are capable of various combinations within an embodiment as long as no other mention or mutual contradiction exists.

FIG. 1 is a diagram showing an overall configuration of an electronic information labeling system according to an embodiment. Although the system shown is related to electronic information labels, it is not so limited, and is generally applicable to electronic devices that operate at low power by a battery and that dynamically display at least some areas of the display.

As shown, an electronic information label management system according to one embodiment includes a central server 120, a gateway 170, and electronic information labels 100, 101, and 102. In the illustrated embodiment, the electronic information label management server 120 is wired to the gateway 170. The electronic information labels of the gateway 170 and the group belonging to the gateway communicate according to a protocol defined on the PHY / MAC layer according to short-range wireless communication, for example, the IEEE 802.15.4 standard.

The electronic information labels are divided into a plurality of groups and the product information is updated for each group. In order to reduce the power consumption of the electronic information label supplied from the battery, the electronic labels are kept in a sleep state except for a wakeup period necessary for updating information. In addition, the display uses an electronic paper display (EPD: Electronic Paper Display) that maintains the information display state even when no power is supplied.

Electronic paper displays are being used in electronic information labels that require reduced power consumption due to bistability that maintains the display state for extended periods of time even when the power supply is turned off. Electron-paper displays include twisted ball type using hemispherical twist balls filled with electrostatic charge, electrophoretic display using electrophoresis and microcapsules, and cholesterol liquid crystal display using cholesterol liquid crystal.

In one embodiment, the electronic information label 100 includes a wireless communications integrated circuit 110, an EPD (Electronic Paper Display) drive chip, and an EPD display 150. Although not shown, the electronic information label 100 is powered by a battery. In the illustrated embodiment, the wireless communication integrated circuit 110 includes a ZigBee transceiver, a microprocessor, and a peripheral input / output interface such as a memory, an analog-to-digital converter and a digital to analog converter, for example a serial peripheral interface Is an integrated system-on-chip integrated circuit. However, the present invention is not limited thereto, and various design schemes such as dedicated hardware, gate array, and discrete semiconductor elements can be applied to the hardware.

The ZigBee transceiver communicates with the gateway 170 in a ZigBee manner. Zigbee communication is one of the communication methods that define the PHY / MAC based on the IEEE 802.15.4 standard. It is a low-speed, low-speed communication standard with low power consumption and excellent security. However, the present invention is not limited thereto, and various short-range communication methods such as a communication method adopting only a part of the communication standard of Bluetooth or ZigBee can be applied. In one embodiment, the memory is a flash memory that consumes less power and maintains data even when no battery is supplied. However, it is not limited thereto, and other suitable ones of the known semiconductor memories can be employed.

The wireless communication integrated circuit 110 controls the entire apparatus, outputs setup information, and enters a sleep state. The EPD driving chip 130 drives the EPD 150 independently of the wireless communication integrated circuit according to the promotion setting information received from the wireless communication integrated circuit so that at least a part of the area of the EPD 150 displays the promotion information. In the illustrated embodiment, the display unit is implemented by EPD but is not limited thereto. For example, the display unit may be a liquid crystal display (LCD) or an organic light emitting display (OLED) consuming low power in a dynamic display.

In order for the electronic information label to display the promotion information, for example, the wireless communication integrated circuit 110 periodically wakes up to blink drive the bezel region, and the EPD driving chip 130 controls the blind driving of the bezel can do. In order to implement the promotion function, the wireless communication integrated circuit 110 must output setting values and display data values of the setting registers necessary for the display to the EPD driving chip each time. In the case of a Zigbee system-on-chip (SoC), which is a wireless communication integrated circuit used in the illustrated embodiment, the consumption current during operation is more than 20 mA. There is a problem in that a large amount of current is consumed even for a simple screen change because the same power is consumed when the entire screen is changed or when a certain segment is changed.

According to this control method, in order to implement the promotion function, the wireless communication integrated circuit must be activated every time the display is changed to control the EPD driving chip, which causes excessive power consumption.

2 is a block diagram showing a configuration of an electronic device according to an embodiment. In the illustrated embodiment, the electronic device is an electronic information label. As shown in the figure, the electronic device according to one embodiment includes a display unit 460, a device control unit 470, and a display driver 400. In one embodiment, the display portion 460 is a segment type electronic paper display. However, the present invention is not limited to this, and may be applied to an electronic paper display driven by a TFT (Thin Film Transistor) called a graphic or image type, a segment type liquid crystal display, a graphic type liquid crystal display or an organic light emitting display (OLED) Lt; / RTI > The segment type display is a display device in which segment electrodes facing the common electrode are formed, and the display between the common electrode and the segment electrode reacts with each other to modulate the light. For example, the display area 460 may be an electronic paper display of an image type, and the edge bezel area may be composed of a segment type electronic paper display having one segment. As another example, the display area 460 may be an image type electronic paper display, and the edge bezel area may be composed of a segment type liquid crystal display device of one segment.

In an embodiment, the short range communication unit 475 communicates with a repeater in a Zigbee scheme. Zigbee communication is one of the communication methods that define the PHY / MAC based on the IEEE 802.15.4 standard. It is a low-speed, low-speed communication standard with low power consumption and excellent security. However, the present invention is not limited thereto, and various short-range communication methods such as Bluetooth may be applied.

In one embodiment, the memory 480 is a flash memory that consumes less power and maintains data even when no battery is supplied. However, it is not limited thereto, and other suitable ones of the known semiconductor memories can be employed.

The device control unit 470 controls the entire device, outputs setting information to the display driver 400, and enters the sleep state. In one embodiment, the device control unit 470 includes a microprocessor 471, a short range communication unit 475, a memory 480, and a Zigbee system-on-chip (System-on-Chip) integrated circuit. However, the present invention is not limited to this, and a variety of design methods such as dedicated hardware, gate array, discrete semiconductor devices, and the like can be applied to the hardware. The device control unit 470 executes a program stored in the memory 480, for example, an entire system operating program or application programs. In one embodiment, the goods information display control unit 473, the information updating unit 475, and the like may be implemented with such an application program. However, it is evident in view of current design technology that they can be implemented with hardware such as software / hardware combination or dedicated logic.

According to one aspect, the device control unit 470 receives communication data from the management server through the local communication unit 475 in the wakeup period, and if there is data to be received, stores the received data in the memory 480 as the product information 481 do. In accordance with another aspect, the data received by the device control unit 470 may include promotional information 483. The promotion information may be input by an external input / output interface, which may be provided in an electronic information label such as additional NFC tag communication, for example, in addition to the short range communication unit 475.

The display driver 400 drives the display unit independently of the device controller 470 in accordance with the promotion setting information received from the device controller 470 so that at least a portion of the display unit 460 displays the promotion information. In one embodiment, the electronic device may be a tag that displays only promotional information. In this case, the display unit 460 is configured only as a segment that displays dynamic information. The display driver 400 drives the display unit independently of the device controller 470. For example, even after the device controller 470 enters the sleep state, the display driver 400 can flicker segments of the display unit 460 using the built-in timer.

The setting information may be promotional setting information transmitted from the device control unit 470. The interface between the device controller 470 and the display driver 400 may be one of interface methods between a peripheral device and a microprocessor such as a serial peripheral interface (SPI), an I2C bus, and the like.

The promotion setting information may be simply activation information of the promotion function, for example. In the case of a promotion that blinks a segment of a fixed segment at a fixed period of time, information that activates the promotion function may be sufficient from now on. As another example, the promotion setting information may include a blinking period. In this case, the previously designated segment area can be controlled to blink at a specified period. As another example, the promotion setting information may be, for example, identification information of a segment terminal or display area information of a graphic display that specifies the dynamic display area. In this case, a predetermined fixed dynamic display pattern can be applied to the area. According to another aspect, the setting information may include selection information of the dynamically driven display area and period information of the dynamic display. In this case, the display area of the promotion information and the period of the dynamic display can be freely set.

In one embodiment, the information update unit 475 stores the product information received via the short-range communication unit 475 in the memory 480 as the product information data 481. [ The product information includes, for example, an image file in which information to be displayed on the display unit 460 such as a price of a product, a denomination, a discount rate, a plan product / a discount product or the like is displayed, It is possible. In one embodiment, the product information display control unit 473 controls the display driver 400 so that the display of the display unit 460 is updated when there is updated product information. The product information display control unit 473 may display the updated information and then control the display driver 400 to block the drive signal in the static display area of the display unit 460. [ The electronic paper display remains displayed even after the drive signal is interrupted.

According to another aspect, the display driver 400 may include a setting register 440, a sequence generator 410, a mode setting unit 430, and a dynamic driving controller 420. In one embodiment, the display driver 400 is implemented as a dedicated semiconductor chip in a single package. The semiconductor chip is provided with a sequence generator, a memory, a microprocessor, and an input / output interface circuit. In this embodiment, the dynamic drive control unit 420 and the mode setting unit 430 may be implemented by software only. In another embodiment, the dynamic drive control unit 420 and the mode setting unit 430 may be implemented as a dedicated logic circuit instead of the microprocessor.

In the illustrated embodiment, the configuration register 440 is implemented as a flash memory. The promotion setting information stored in the setting register 440 may include selection information of a segment in which the promotion information is to be displayed and period information in which the promotion information is displayed in the case of the display unit of the segment type. As another example, the promotion setting information stored in the setting register 440 includes image information to be displayed as promotion information in the case of an image type display unit, area information in which the image information is to be displayed, and period information in which the image information is displayed can do. As another example, the promotion setting information stored in the setting register 440 may include a plurality of pieces of image information to be displayed alternately as promotional information in the case of an image type display unit, area information in which the image information is to be displayed, And may include period information to be displayed. In this case, the first promotion information and the second promotion information may be alternately displayed in the same display area. In these embodiments, the period information may be omitted and the program may be flickered or alternately displayed at a predetermined cycle.

The sequence generator 410 generates a system sequence for waking up the dynamic drive controller 420. The sequence generator 410 may be a timer in one embodiment. In yet another embodiment, the sequence generator 410 may be a plurality of timers. The timer includes a register for setting the period internally, and outputs a pulse every period. The mode setting unit 430 stores the promotion setting information received from the device control unit 470 in the setting register 440 and sets the sequence generating unit 410 accordingly.

The dynamic drive control unit 420 is periodically activated by the sequence generated by the sequence generation unit 410 and displays the promotion information on the display unit 460 in accordance with the promotion setting information stored in the setting register 440 And then enters the sleep state again. When a timer event occurs in the sequence generator 410, a hardware interrupt occurs in the microprocessor, and the display of the promotion information by the dynamic drive control unit 420 is started. When the display of the promotion information is completed, the microprocessor enters the sleep state again.

The sequence period of the sequence generator 410 corresponds to the display period of the promotion information. For example, the sequence period of the sequence generator corresponds to the blinking period, that is, the period from the turned-off point to the next turned-on point. As another example, the sequence period of the sequence generator 410 may be one period in the alternating blinking display. As another example, the sequence period of the sequence generator 410 may be the time of each promotion display in the alternating blinking display displayed alternately. That is, the dynamic driving controller 420 wakes up every time a sequence occurs, but may be driven to display the first promotion information when the first wake-up is performed, and to display the second promotion information when the second wakeup occurs. Further, a series of promotional displays may be repeated sequentially or randomly.

 According to another aspect, the display driver 400 receives the setting information from the mode setting unit 430 and drives the display unit 460 to display general information according to the setting information, 450). The general drive control unit 450 controls information display of an area for displaying static information on the display unit 460. [ When the device control unit 470 wakes up the device in the sleep mode by the internal timer and receives the product information from the gateway, it stores it in the internal memory 480 and controls the general drive control unit 450 and the setting register 440 And updates the display of the product information in the general display area of the display unit.

Similar to the above-described description based on FIGS. 2 and 3, the product information display control unit 473 enables or disables the display process by enabling each function block in the general drive control unit 450 or setting a parameter do. However, the present invention is not limited to this. For example, the product information display control unit 473 stores only the product information to be updated in the setting register 440, and triggers the general drive control unit 450 to update the display And the display update process thereafter may be configured such that the general drive control unit 450 controls the internal sequence generator similar to the dynamic drive control unit 420. [

Here, the general drive control unit 450 may be implemented by software only, such as the dynamic drive control unit 420 and the mode setting unit 430. [ Similarly, the general drive control unit 450 may be implemented as a dedicated logic circuit, such as the dynamic drive control unit 420 and the mode setting unit 430, in another embodiment.

3 is a block diagram showing a configuration of a display driving apparatus according to an embodiment. This embodiment is similar to the display driver 400 in the embodiment shown in Fig. The display drive device receives the display data from the device control unit in the electronic device and updates the display on the display unit. According to one aspect, the display drive device drives the display unit independently of the device control unit in accordance with the promotion setting information received from the device control unit so that the display unit displays the promotion information.

In one embodiment, the display portion 460 is a segment type electronic paper display. However, the present invention is not limited to this, and may be applied to an electronic paper display driven by a TFT (Thin Film Transistor) called a graphic or image type, a segment type liquid crystal display, a graphic type liquid crystal display or an organic light emitting display (OLED) Lt; / RTI >

In one embodiment, the display drive device may be a display driver chip suitable for use in driving a tag that displays only promotion information. In this case, the display driven by the display driving apparatus is constituted only by a segment which displays dynamic information. The display drive apparatus drives the display unit independently of the apparatus control unit. For example, even after the device control unit enters the sleep state, the display drive unit can flicker segments of the display unit using the built-in timer.

The interface unit 530 for interfacing the device control unit and the display drive unit may be one of interface methods between the peripheral device and the microprocessor, such as serial peripheral interface (SPI), I2C bus, and the like.

The promotion setting information may be simply activation information of the promotion function, for example. In the case of a promotion that blinks a segment of a fixed segment at a fixed period of time, information that activates the promotion function may be sufficient from now on. As another example, the promotion setting information may include a blinking period. In this case, the previously designated segment area can be controlled to blink at a specified period. As another example, the promotion setting information may be, for example, identification information of a segment terminal or display area information of a graphic display that specifies the dynamic display area. In this case, a predetermined fixed dynamic display pattern can be applied to the area. According to another aspect, the setting information may include selection information of the dynamically driven display area and period information of the dynamic display. In this case, the display area of the promotion information and the period of the dynamic display can be freely set.

According to another aspect, the display drive apparatus may include a dynamic drive setting register 545, a sequence generating section 410, a mode setting section 430, and a dynamic drive control section 420. In one embodiment, the display driver is implemented as a dedicated semiconductor chip in a single package. The semiconductor chip is provided with a sequence generator, a memory, a microprocessor, and an input / output interface circuit. In this embodiment, the dynamic drive control unit 420 and the mode setting unit 430 may be implemented by software only. In another embodiment, the dynamic drive control unit 420 and the mode setting unit 430 may be implemented as a dedicated logic circuit instead of the microprocessor.

In the illustrated embodiment, the dynamic drive setting register 545 is implemented as a flash memory. The promotion setting information stored in the dynamic driving setting register 545 may include selection information of a segment in which the promotion information is to be displayed and period information in which the promotion information is displayed in the case of the display unit of the segment type.

The sequence generator 410 generates a system sequence for waking up the dynamic drive setting register 545. [ The sequence generator 410 may be a timer in one embodiment. In yet another embodiment, the sequence generator 410 may be a plurality of timers. The timer includes a register for setting the period internally, and outputs a pulse every period. The mode setting unit 430 stores the promotion setting information received from the device control unit in the dynamic driving setting register 545 and programs the sequence generating unit 410 accordingly.

The dynamic driving control unit 420 drives the display unit so that the promotion information is displayed on the display unit in accordance with the promotion setting information stored in the dynamic driving setting register 545 periodically by the sequence generated by the sequence generating unit 410, Enters the sleep state. When a timer event occurs in the sequence generator 410, a hardware interrupt occurs in the microprocessor, and the display of the promotion information by the dynamic drive control unit 420 is started. When the display of the promotion information is completed, the microprocessor enters the sleep state again.

The sequence period of the sequence generator 410 corresponds to the display period of the promotion information. For example, the sequence period of the sequence generator corresponds to the blinking period, that is, the period from the turned-off point to the next turned-on point. As another example, the sequence period of the sequence generator 410 may be one period in the alternating blinking display. As another example, the sequence period of the sequence generator 410 may be the time of each promotion display in the alternating blinking display displayed alternately. That is, the dynamic driving controller 420 wakes up every time a sequence occurs, but may be driven to display the first promotion information when the first wake-up is performed, and to display the second promotion information when the second wakeup occurs. Further, a series of promotional displays may be repeated sequentially or randomly.

According to an aspect, the promotion setting information includes selection information of the dynamic display area, and the dynamic driving control unit 420 drives the display so that the promotion information is displayed in the area selected by the selection information. The display driving apparatus according to the illustrated embodiment is a driving chip of a segment type electronic paper display. At this time, the selection information of the dynamic display area may be, for example, a segment number. In the illustrated embodiment, the display driver can drive 100 segments, of which segments 1 through 90 are general drive segments and segments 91-100 are dynamic drive segments. Since the number or shape of each segment in the segment display can be very wide, the display drive device has a sufficient number of output pins to drive a segment type electronic paper display of various specifications. In this embodiment, the display section includes only one dynamic drive segment, and one dynamic drive segment is blinked for promotional display. This segment is connected to the output pin 91 of the display drive. At this time, the selection information of the dynamic display area may be the number of the corresponding segment, that is, the number of '91'.

According to another aspect, the promotion setting information may include a display duration. For example, in the above embodiment, the duration for which segment '91' is turned on can be set. This duration should of course be shorter than the duration of the sequence in which the sequence generator occurs. If there is no duration, the dynamic driving controller 420 internally displays the promotion information for a predetermined time period, then transitions to the next state, and turns off the information display. If the duration is not set, it can be internally set to a suitable time interval.

According to another aspect, the promotion setting information includes the first promotion information and the second promotion information, and the dynamic driving control unit can alternately display the first promotion information and the second promotion information. For example, the display includes one segment indicating the letter "sale " and two dynamic driving segments, one segment surrounding the bezel rim, which correspond to the segment outputs 91 and 92, respectively. At this time, the first promotion information may be the segment number '91' and the second promotion information may be the segment '92'. In this case, the letters "sale" are displayed, and the bezel rim turns on and off repeatedly.

According to another aspect, the display driving apparatus includes a power supply unit 510 for supplying driving power, a control unit 420 for controlling the dynamic segment of the display unit by the driving power supplied by the power supply unit 510 And a dynamic driving unit 550 for driving the driving unit.

In one embodiment, the power supply 510 includes a charge pump and a DC-DC converter. The charge pump generates the high voltage needed to drive the electronic paper display. The dc-to-dc converter generates output power supplies having several voltage levels necessary to drive the electronic paper display from the power source generated by the charge pump.

4 is a diagram showing a configuration of a dynamic driver 550 according to an embodiment. The drive chip of the segment type electronic paper display can incorporate such a drive for segment drive. However, these driving units may be provided as a separate chip outside the driving chip, i.e., the display driving unit. In this case, the chips on which the plurality of driving parts are integrated are connected to the output ports of the display driving device.

In one embodiment, the dynamic driver 550 may include a third switch 551 and a fourth switch 553 connected in series to be connected to one dynamic segment at the connection node. The power output from the power supply unit 510 is applied to the third switch 551 of the dynamic driving unit 550 via the terminal P2 as the source voltage. The source of the fourth switch 553 is grounded. By opening one of the third switch 551 and the fourth switch 553 and closing one of them, ground or a power source of 9V may be supplied to the segment. Correspondingly, when the transparent common segment on the front side is driven to 9V or ground, it is driven in white or black respectively.

According to another aspect, the dynamic driving unit 550 may further include a fifth switch 555 connected to the connection node. In the illustrated embodiment, the source P3 of the fifth switch 555 is supplied with the negative power output from the power supply unit 510. [

If -9V is applied to the source of the fifth switch 555 while the transparent common segment on the front surface is fixed to the ground, the segment can display white color. That is, it is possible to change or clear the display state of only a specific segment without changing the existing display state through bipolar driving.

When +4 V is applied to the source of the fifth switch 555 in a state where the transparent common segment on the front side is fixed to the ground, the segment can display red. During electronic paper display, there is a black / white display when a potential difference of + 9V is applied to the front and rear electrodes, and a red color when a potential difference of + 4V is applied. That is, a color display can be performed by applying a voltage that is unipolar but lower than a black-and-white driving voltage.

By additionally providing one switch 555, the voltage applied to the segment can be varied, thereby achieving a variety of control or a change in display color as described above.

According to another aspect, the display drive apparatus further includes a general drive control unit 450 that receives the setting information from the mode setting unit 430 and then enters the sleep state after driving the display unit to display general information according to the setting information can do. The general drive control unit 450 controls information display of an area for displaying static information on the display unit. When the device control unit wakes up the device in the sleep mode by the internal timer and receives the product information from the gateway, it stores it in the internal memory and controls the general drive control unit 450 and the general drive setting register 544, And updates the display of the product information in the area.

In one embodiment, the general drive control unit 450 may include functional blocks for turning the operation on and off according to an input from the interface unit 530. [ In this case, the general drive control unit 450 updates display information according to an external enable signal and setting information. As another example, the general drive control unit 450 includes an internal sequence generator, receives general drive setting information from the interface unit 530, stores the general drive setting information in the general drive setting register 543, It is possible to enable the sequence generator provided therein in response to the signal instruction and to update the display of the display unit according to the contents of the general drive setting information according to the sequential sequence signal generated.

Here, the general drive control unit 450 may be implemented by software only, such as the dynamic drive control unit 420 and the mode setting unit 430. [ Similarly, the general drive control unit 450 may be implemented with dedicated logic circuitry in another embodiment.

According to another aspect, the display drive apparatus may further include a general drive unit 570 that is controlled by the general drive control unit 450 and drives the general segment of the display unit with the drive power supplied by the power supply unit 510 have.

5 is a diagram illustrating a configuration of a general driver 570 according to an embodiment. As shown, in one embodiment, the general driver 570 may include a first switch 571 and a second switch 573 connected in series to be connected to one dynamic segment at the connection node. The power outputted from the power supply unit 510 is applied to the first switch 571 of the general driver 570 via the terminal P1 as the source voltage. The source of the second switch 573 is grounded. By opening one of the first switch 571 and the second switch 573 and closing one of them, ground or a power of 9V may be supplied to the segment. Correspondingly, when the transparent common segment on the front side is driven to 9V or ground, it is driven in white or black respectively.

In one embodiment, the transparent common electrode segments of the general driver 570 and the dynamic driver 550 may be bundled and driven at one time or may be separately provided and driven separately.

6 shows an example of driving signals of a general segment and a dynamic segment according to the present invention. The transparent common segment of the surface is driven to + 9V and the dynamic segment is driven to 0V in the interval of time t1 to t2, and the corresponding segment of the electronic paper display shows white. The white display is maintained until time t3. The transparent common segment of the surface is driven to 0 V and the dynamic segment is driven to +9 V in the period from time t3 to t4, and the corresponding segment of the electronic paper display displays black. The black display is maintained until time t5.

  In the interval of time t5 to t6, the transparent common segment of the surface is kept at 0 V and the dynamic segment is driven at -9 V, so that the corresponding segment of the electronic paper display shows white.

When the common display area and the promotion display area share a transparent common segment, this bipolar driving of the promotion area makes it possible to blink display only the promotion area without disturbing the information displayed in the normal display area. That is, the transparent common segment is maintained at 0 V, and the normal segment is driven at 0 V or + 9 V according to the display information, and the dynamic segments of the promotion display region are switched off by applying the voltage of -9 V, When a voltage is applied, a state of black display is obtained, and blinking is possible without disturbing the display state of general information.

FIG. 7 shows another example of driving signals of the general segment and the dynamic segment according to the present invention. The embodiment shown in Fig. 7 is different from the embodiment shown in Fig. 6 in that the power supply unit outputs a voltage to the fifth switch 555 in Fig. The transparent common segment of the surface is driven to + 9V and the dynamic segment is driven to 0V in the interval of time t1 to t2, and the corresponding segment of the electronic paper display shows white. The white display is maintained until time t3. The transparent common segment of the surface is driven to 0 V and the dynamic segment is driven to +9 V in the period from time t3 to t4, and the corresponding segment of the electronic paper display displays black. The black display is maintained until time t5.

In the interval of time t5 to t6, the transparent common segment of the surface is kept at 0 V and the dynamic segment is driven at -9 V, so that the corresponding segment of the electronic paper display shows white. The white display is maintained until time t7.

During the period from time t7 to time t8, the transparent common segment of the surface is maintained at 0V and the dynamic segment is driven at + 4V, so that the corresponding segment of the electronic paper display displays red.

When the general display area and the promotion display area share a transparent common segment, such multi-voltage driving of the promotion area makes it possible to blink display only the promotion area in red without disturbing the information displayed in the normal display area. That is, the transparent common segment is maintained at 0V and the general segment is driven at either 0V or + 9V according to the display information, and the dynamic segments of the promotion display region are switched off by applying a voltage of -9V, When a voltage is applied, a state of red display is obtained, and color blinking is enabled without disturbing the display state of general information.

8 is a block diagram showing the configuration of a display driving apparatus according to another embodiment. The illustrated embodiment relates to a display driving apparatus for driving a graphic type electronic paper display. The mode setting unit 430 stores the display image received from the device control unit in the frame memory 541 and stores the received general drive setting information in the general drive setting register 543. [ The frame memory 541 may be implemented in the same physical memory as the configuration registers 543 and 545 or may be implemented as a separate memory. Thereafter, the mode setting unit 430 receives the additional promotion setting information from the device control unit, and stores it in the dynamic driving setting register 545.

The promotion setting information stored in the dynamic driving setting register 545 may include image information to be displayed as promotion information in the case of an image type display unit, area information in which the image information is to be displayed, and period information in which the image information is displayed have. The period information may be omitted. In this case, a predetermined period is applied internally. As another example, the promotion setting information stored in the dynamic driving setting register 545 may include a plurality of pieces of image information to be displayed sequentially or randomly with the promotion information, region information in which the image information is to be displayed, And may include period information that is displayed. In this case, the first promotion information and the second promotion information may be alternately displayed in the same display area. In these embodiments, the period information may be omitted and the program may be flickered or alternately displayed at a predetermined cycle. The period information may be omitted. In this case, a predetermined period is applied internally.

The promotional display area can be designated in some areas of the TFT array in a graphic type electronic paper display. In another embodiment, the promotion display area may be composed of areas where the data lines and the gate lines are separately wired in the graphic type electronic paper display.

4 is a diagram showing a configuration of a dynamic driver 550 according to an embodiment. The drive chip of the segment type electronic paper display can incorporate such a drive for segment drive. However, these driving units may be provided as a separate chip outside the driving chip, i.e., the display driving unit. In this case, the chips on which the plurality of driving parts are integrated are connected to the output ports of the display driving device. 8 is similar to the embodiment of FIG. 3 except that the configurations shown in FIG. 8 are modified so as to be applied to a graphic type electronic paper display, and a detailed description thereof will be omitted.

According to another aspect, the display drive apparatus further includes a power supply unit 510 for supplying driving power. The power supply unit 510 is similar to the embodiment of FIG. 3 only in that the output voltage or current may vary according to the specification of the electronic paper display. 2. Description of the Related Art Generally, a display type driving apparatus of a graphic type does not have a driving chip therein, and driving circuits are mounted on an electronic paper display panel. In the case of the TFT type, since a bipolar pulse is required for gate driving, it is general that the data electrode is also driven by a bipolar pulse. The display drive device includes data electrode drive output terminals D1 to Dn and gate electrode drive output terminals G1 to Gn. In the case of a graphic electronic paper display, the display driver wakes up periodically by the sequence generator to drive the data electrodes and the gate electrodes so that only the promotion information display area is blinked.

9 is a flowchart illustrating a method of controlling display of an electronic information label according to an embodiment of the present invention. 10 is a graph showing control signals and corresponding main waveforms for driving an electronic paper display according to the embodiment shown in Fig. In the embodiment shown in Figure 9, the EPD display is a segment display. However, the present invention is not limited thereto, and may be a graphic display.

The first waveform in Fig. 10 shows the operation mode of the device control unit implemented with the Zigbee wireless communication integrated circuit. The second waveform shows the charge pump output waveform of the display driving chip, the third waveform shows the output drive signal of the display driving chip, and the fourth waveform shows the consumption current supplied to the charge pump.

As shown, the Zigbee wireless communication integrated circuit periodically repeats the sleep state and the wake up state by the internal timer. In wake-up mode, the Zigbee wireless communications integrated circuit consumes a relatively large current of 20 mA. In the first wakeup, the Zigbee wireless communication integrated circuit updates the display of the product information, which is general display information. After entering the wakeup mode, the Zigbee wireless communication integrated circuit turns on the VCTRL signal to instruct the display driving chip to start power supply (step 1111). The display driver chip operates according to the output signal of the Zigbee wireless communication integrated circuit (step 1112). Then, general setting information for setting the operation mode of the general operation of the display drive chip is output (step 1113). The display driving chip operates in accordance with the output signal of the Zigbee wireless communication integrated circuit, and some of the general setting information received is stored in the internal memory and stored (step 1114). For example, the setting register may store display data to be displayed on the EPD, and parameter values for the setting state of power supply units or switches in the display driving chip. When the setting register is written, the charge pump of the display driving chip starts charging.

Subsequently, the Zigbee wireless communication integrated circuit activates the Bias_en terminal of the display driving chip. As a result, a bias is supplied to an internal circuit of the display drive chip, and each of the blocks is enabled. Thereafter, the wireless communication integrated circuit activates the DC-DC_en terminal of the display drive chip and instructs the operation of the power supply of the display unit (step 1115). Thus, the DC-DC converter circuit of the display driving chip is activated, and the voltage required for driving the EPD is generated from the current generated in the charge pump (step 1116). As shown in the second graph of FIG. 10, while the charge pump output sharply rises to 17V, the display driving chip consumes 10mA of current as shown in the fourth graph. If the charge pump is then fully charged and the output is maintained at 17V, the consumption current of the display driver chip is reduced to 250uA.

After the drive power source is stabilized, the wireless communication integrated circuit activates the Update terminal of the display drive chip to instruct the display update (step 1117), and accordingly, the display drive chip is displayed as shown in the third waveform of Fig. 10 The drive waveform is supplied to the segment, and the drive waveform is supplied to the common terminal as the background to update the display (step 1118). The segments of the entire display region are driven first in white to rearrange the previous display data, and after the common terminal is driven, the segments are driven with the driving voltage according to the display data. This static display drive typically lasts for 2 seconds. The voltage and the duration of the segment display are controlled by the set value written in the setting register. Thereafter, the VCTRL signal is turned off (step 1119), the power supply to the driving chip is interrupted and the driving chip is slipped (step 1120). On the other hand, the wireless communication integrated circuit enters the sleep mode after operating the display driving chip. The display drive chip maintains the active state even after the wireless communication integrated circuit enters the sleep state, and enters the sleep state after the display update is completed.

Thereafter, in the second wakeup, the Zigbee wireless communication integrated circuit sets the display drive chip to the promotion mode and initiates the promotion display. The illustrated embodiment exemplifies the case of color blinking. After entering the wakeup mode, the Zigbee wireless communication integrated circuit turns on the VCTRL signal to instruct the display driving chip to start power supply (step 1121). The display drive chip operates according to the output signal of the Zigbee wireless communication integrated circuit (step 1122). Then, dynamic drive setting information of the display drive chip is output (step 1123). The display driving chip records the promotion setting information received from the Zigbee wireless communication integrated circuit in the internal dynamic driving setting register and stores the program in the internal driving sequence setting register (step 1124). For example, the promotion setting information may include a blinking period value, selection information for selecting a segment to be dynamically driven, and a parameter value such as a driving current value or duration of the charge pump. The timing control value such as the blinking period value and the duration of the drive current of the charge pump is programmed in the internal sequence generator and the selection information of the de-polarized material to be dynamically driven or the drive current value of the charge pump is stored in the dynamic drive setting register .

When the dynamic driving setting register is written, the charge pump of the display driving chip starts charging. Subsequently, the Zigbee wireless communication integrated circuit activates the Bias_en terminal of the display driving chip. As a result, a bias is supplied to an internal circuit of the display drive chip, and each of the blocks is enabled. Thereafter, the Zigbee wireless communication integrated circuit activates the DC-DC_en terminal of the display driving chip to instruct the operation of power supply to the display unit (step 1125). Thus, the DC-DC converter circuit of the display driving chip is activated, and the voltage required for driving the EPD is generated from the current generated in the charge pump (step 1126). As shown in the second graph of FIG. 10, while the charge pump output rises to 4V, the display driving chip consumes 10mA of current as shown in the fourth graph. Then, when the charge pump is fully charged and the output is maintained at 4V, the consumption current of the display driver chip is reduced to 250uA. Unlike the first drive, the output of the charge pump is limited to 4V during the second drive, and the electronic paper display can be driven with a red display.

After the driving power is stabilized, the Zigbee wireless communication integrated circuit activates the Update terminal of the display drive chip to instruct the promotion display (step 1127), and accordingly, the display drive chip displays the display waveform as shown in the third waveform of FIG. 10 The driving waveform is supplied to the segment to be processed, and the driving waveform is supplied to the common terminal as the background to display the promotion information (step 1128). The segment of the entire display area is first driven in white, and then the segments are driven by the driving voltage according to the display data. Promotion information is displayed briefly in one cycle and continues to display for about one second. The voltage and the duration of the segment display are controlled by the set values written in the dynamic drive setting register. Thereafter, the driving chip slips according to self-generated sequence control (step 1130). On the other hand, the wireless communication integrated circuit enters the sleep mode after operating the display driving chip.

Thereafter, the display drive chip slips for 2 seconds. Subsequently, independently from the Zigbee wireless communication integrated circuit, the display driver chip wakes up the internal microprocessor in response to the sequence generated in the internal sequence generator, and the microprocessor activates the Bias_en terminal. As a result, a bias is supplied to the internal circuit of the display driving chip to enable each functional block. The internal microprocessor then activates the DC-DC_en terminal so that the current generated from the charge pump can be supplied to the electronic paper display (step 1132). As shown in the second graph of FIG. 10, while the charge pump output rises to 4V, the display driving chip consumes 10mA of current as shown in the fourth graph. Then, when the charge pump is fully charged and the output is maintained at 4V, the consumption current of the display driver chip is reduced to 250uA. The output of the charge pump is limited to 4V so that the promotional display area of the electronic paper display can be blinked with a red display.

After the drive power is stabilized, the internal microprocessor activates the Update terminal to display the promotion information. The display drive chip supplies the drive waveform to the segment to be displayed as shown in the third waveform of FIG. 10, and supplies the drive waveform to the background common terminal to display the promotion information (step 1133). The segment of the entire display area is first driven in white, and then the segments are driven by the driving voltage according to the display data. Promotion information is displayed briefly in one cycle and continues to display for about one second. The voltage and the duration of the segment display are controlled by the set values written in the dynamic drive setting register. Thereafter, the driving chip slips according to self-generated sequence control (step 1134).

The Zigbee wireless communication integrated circuit wakes up twice in order to update the general setting information for general operation and the promotion setting information for promotional driving. However, the present invention is not limited to this, All of the setting information may be included in the received update information when the communication integrated circuit wakes up once.

While the present invention has been particularly shown and described with reference to exemplary embodiments thereof, it is to be understood that the invention is not limited to the disclosed embodiments, but, on the contrary, is intended to cover various modifications and similarities that may occur to those skilled in the art. The claims are intended to cover such modifications.

400: Display driver 410: Sequence generator
420: Dynamic drive control unit 430: Mode setting unit
440: Setting register 450: General drive control section
460:
470: Device control unit 471: Microprocessor
473: Goods information display control section
475:
480: memory 481: product information
483: About promotional settings

Claims (29)

A display driving apparatus for receiving display data from a device control unit in an electronic device and updating the display on the display unit,
And the display unit drives the display unit independently of the device control unit according to the promotion setting information received from the device control unit so as to display the promotion information.
The display driving device according to claim 1, wherein the display portion is an electronic paper display.
The display drive apparatus according to claim 1, wherein:
A setting register; A sequence generator;
A mode setting unit for storing the promotion setting information received through the interface unit in the setting register and setting the sequence generating unit;
And a dynamic driving controller for driving the display unit to enter the sleep state again so that the promotion information is displayed on the display unit in accordance with the promotion setting information stored in the setting register periodically activated by the sequence generated by the sequence generating unit.
And the display driving device.
4. The display driving device according to claim 3, wherein the promotion setting information includes selection information of the dynamic display area, and the dynamic driving control unit drives the display so that the promotion information is displayed in the area selected by the selection information.
The method of claim 3,
Wherein the promotion setting information includes first promotion information and second promotion information, and the dynamic driving control unit alternately displays the first promotion information and the second promotion information.
The display drive apparatus according to claim 3, wherein:
A power supply unit for supplying driving power;
A dynamic driving unit controlled by the dynamic driving control unit and driving the dynamic segment of the display unit with the driving power supplied by the power supply unit;
Further comprising:
7. The apparatus according to claim 6, wherein a plurality of dynamic segments and dynamic drivers are provided,
And the dynamic drive control section performs the blinking drive of the dynamic drive section corresponding to the segment designated in the setting register.
7. The apparatus of claim 6, wherein the dynamic driver comprises:
And a third switch and a fourth switch serially connected to be connected to one dynamic segment at the connection node.
9. The display drive apparatus according to claim 8, wherein the dynamic driver further comprises a fifth switch connected to the connection node of the third switch and the fourth switch.
10. The method of claim 9,
Wherein the power supply unit applies a first voltage to the source of the third switch and a second voltage having a different polarity from the first voltage to the source of the fifth switch.
10. The method of claim 9,
Wherein the power supply unit applies a first voltage to the source of the third switch and a second voltage that is lower than the first voltage to the source of the fifth switch.
7. The drive control apparatus according to claim 6, wherein:
And a general drive control unit for receiving the setting information from the mode setting unit, and driving the display unit to display general information according to the setting information, and then entering the sleep state.
13. The display driving apparatus according to claim 12, wherein:
A general driving unit that is controlled by the general driving control unit and drives a common segment of the display unit with the driving power supplied by the power supply unit;
Further comprising:
14. The apparatus of claim 13, wherein each general switching unit comprises:
And a first switch and a second switch serially connected to be connected to one common segment at the connection node.
A display unit;
A device controller for controlling the entire apparatus, and outputting setting information and entering a sleep state;
A display driver for driving the display unit independently from the device control unit according to the setting information received from the device control unit so that at least a part of the display unit displays the promotion information;
.
16. The electronic device according to claim 15, wherein the display unit is an electronic paper display.
16. The display device according to claim 15, wherein the display driver comprises:
A setting register; A sequence generator;
A mode setting unit for storing the promotion setting information received through the interface unit in the setting register and setting the sequence generating unit;
And a dynamic driving controller for driving the display unit to enter the sleep state again so that the promotion information is displayed on the display unit in accordance with the promotion setting information stored in the setting register periodically activated by the sequence generated by the sequence generating unit.
.
18. The electronic device according to claim 17, wherein the promotion setting information includes selection information of the dynamic display area, and the dynamic driving control unit drives the promotion information to be displayed in the area selected by the selection information.
18. The method of claim 17,
The promotional setting information includes first promotion information and second promotion information, and the dynamic driving control unit alternately displays the first promotion information and the second promotion information.
18. The method of claim 17,
The display is a segment display in which at least some areas include dynamic segments,
The display drive device comprises:
A power supply unit for supplying driving power;
A dynamic driving unit controlled by the dynamic driving control unit and driving the dynamic segment of the display unit with the driving power supplied by the power supply unit;
Further comprising:
21. The apparatus according to claim 20, wherein a plurality of dynamic segments and dynamic driving units are provided,
And the dynamic driving control unit performs blinking driving of the dynamic driving unit corresponding to the segment designated in the setting register.
21. The apparatus of claim 20, wherein the dynamic driver comprises:
And a third switch and a fourth switch serially connected to the one dynamic segment at the connection node.
23. The electronic apparatus according to claim 22, wherein the dynamic driver further comprises a fifth switch connected to the connection node of the third switch and the fourth switch.
24. The method of claim 23,
The power supply unit applies a first voltage to the source of the third switch and a second voltage having a different polarity from the first voltage to the source of the fifth switch.
24. The method of claim 23,
The power supply unit applies a first voltage to the source of the third switch and a second voltage that is lower than the first voltage to the source of the fifth switch.
21. The apparatus of claim 20, wherein the drive control unit comprises:
And a general drive control unit for receiving the setting information from the mode setting unit and driving the display unit to display general information according to the setting information, and then entering the sleep state.
The electronic apparatus according to claim 26, wherein the general display area of the display unit is a graphic type electronic paper display, and the general drive control unit graphically drives the general display area.
The display drive apparatus according to claim 26, wherein:
A general driving unit that is controlled by the general driving control unit and drives a common segment of the display unit with the driving power supplied by the power supply unit;
Further comprising:
29. The apparatus of claim 28, wherein each generic driver comprises:
And a first switch and a second switch serially connected to be connected to one common segment at the connection node.

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