KR101331847B1 - Long Battery-life apparatus and Method for Electronic Device - Google Patents

Abstract

The present invention is to efficiently manage the battery power of the electronic device to use for a long time, it characterized in that the power control using a solar cell (solar cell). The solar cell produces power when light is received. In the present invention, the output of the solar cell is used as a control signal of a switch that blocks the output of the battery. That is, when constant light is input to the solar cell from the outside, the solar cell generates power by itself, and the generated power operates the power switch, so that the output of the battery is supplied to the signal processor. In another aspect, the present invention is characterized in that when the processor for processing a signal is supplied with power, the power switch is controlled so that the processor can be stably supplied during signal processing.

Description

Long battery-life apparatus and method for electronic device

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a method and apparatus for efficiently using battery power of an electronic device for a long time, and is useful for a portable electronic device, particularly a device using an electronic paper display (EPD). In an image display device using electronic paper, it is possible to use the battery for several years once the battery is replaced.

In general, it is important to use a battery for portable electronic devices, and communication-only devices such as mobile phones use several hours to several days after being charged, and devices displaying images are used for several days to weeks.

The present invention uses an electronic paper device as an image display device, and aims to use the electronic paper device on a wall like a traditional photo frame and use it for several months without power supply. The image display device updates the image at predetermined time intervals, and also changes contents in response to a user's input. The present invention implements all of these functions.

The present invention provides a long life battery life, and relates to a method and apparatus for managing and controlling power. The power of the battery built into the image display device is used to change the image and also during the waiting time for user input. For example, if you want to use the battery for two years, the power of the battery must be absolutely small during the two-year standby time.

Existing methods and devices only provide tens of days of standby time due to the high power consumption of this standby time.

The present invention is to efficiently manage the battery power of the electronic device to use for a long time, it characterized in that the power control using a solar cell (solar cell). The solar cell produces power when light is received. In the present invention, the output of the solar cell is used as a control signal of a switch that blocks the output of the battery. That is, when constant light is input to the solar cell from the outside, the solar cell generates power by itself, and the generated power operates the power switch, so that the output of the battery is supplied to the signal processor.

Therefore, in the present invention, when a constant light does not enter the solar cell has an effect of blocking the battery output 100%. Conventional methods have a processor having a low power consumption, the processor detects the output of the optical sensor, and when there is no output of the photo detector uses a method of cutting off the power of the signal processing unit. However, in the conventional method, the processor is always running even while there is no output of the optical sensor, and the power consumption is generated by this operation, which is the power consumption of the standby time, and also the power consumption of this standby time. If you accumulate 10 days, you will run out of battery power.

The solar cell used in the present invention generates power by itself and does not consume power, and thus power consumption in standby time can be zero.

The present invention is applied to an image display device of an electronic device, and an object thereof is to efficiently manage a battery power and to use it for a long time. The image display device of the present invention has a great advantage of increasing the use time of the battery to several tens of months or years while always having a function of displaying an image on the screen.

The method and apparatus of the present invention apply to a portable electronic device. This is very useful when the display panel is LCD (Liquid Crystal Display), EPD (Electronic Paper Display).

1 is a block diagram of the present invention. It also has a power switch of solar cell and power control signal of main processor.
2 is a block diagram of the present invention. It also has a power switch of solar cell and power control signal of main processor. In particular, there is an advantage to compensate for the shortcomings when the booting time of main processor is long.
3 is a block diagram of the present invention. Power management using solar power switch and coprocessor.
4 is an illustration of the present invention. Example of the power supply control signal of FIG.
5 is an illustration of the present invention.
6 illustrates the present invention.
7 is an illustration of the present invention.

1 is a block diagram of the present invention, a device using electronic paper. 1 is a battery, 15 is a solar cell, and when there is light from outside, power generated by the solar cell 15 is operated by operating the power switch of FIG. The output of the battery 10 enters the DC / DC converter 17. The DC / DC cconverter 17 of FIG. 1 supplies power to the main signal processor (19 of FIG. 1), and the main processor 20 It is powered by power and outputs the signal S of FIG. The signal S 18 operates the power switch 11 and allows battery power to be continuously supplied to the DC / DC convertyer 17. Since the power switch 11 operates even if the output of the solar cell 15 disappears, there is no problem in receiving power from the main signal processing unit 19. That is, the solar cell 15 serves as a starting point for supplying power to the main signal processing unit 19, and then the main processor 20 manages power.

After completing the signal processing, the main processor 20 changes the value of the signal S 18 in FIG. 1 to control the power switch 11 to stop operating, so that the output of the DC / DC converter 17 The main signal processor no longer consumes power.

The present invention is characterized in that the main signal processor to survive by applying a constant light to the solar cell from the outside. Thus, the user can operate the device of the present invention only at a desired moment, and the battery built in the device of the present invention can use tens of months. The battery used in the present invention is low self-discharge, commercially available on the market, and uses a product having a shelf life of 8 or 15 years or more. Therefore, when all of the power switches 11, 12, and 13 of FIG. 1 are broken, the battery can be used for the storage life of the battery.

12 of FIG. 1 is another power switch of the present invention, which operates by receiving a user input, for example, uses a touch switch. When the user (input 1, 16 in Fig. 1) presses the contact switch (12 in Fig. 1), the output of the battery 10 enters the DC / DC converter 17, and the DC / DC converter 17 is the main signal processor. Supply power to (19). The main processor 20 outputs the signal S 18 so that the power switch 11 operates, and then power is supplied through the power switch 11. The main processor 20 completes the signal processing and Then, the value of the signal S 18 of FIG. 1 is changed to control the power switch 11 to stop the operation, so that the output of the DC / DC converter 17 disappears, and the main signal processing unit no longer supplies power. Will not consume.

  Since the electronic paper image display device of the present invention is a device which is characterized in that the picture on the display panel remains intact even when the power is turned off (Bistable display panel), the last picture is always displayed on the screen even when the battery power is completely cut as described above. So, users can see the picture on the screen even after running out of battery power after several months.

Existing LCD display display device has the disadvantage that the picture on the screen disappears when the power is cut off.

Fig. 2 shows another application of the present invention. The difference from the case of Fig. 1 is the signal generator 14 in Fig. 2. The signal generator 14 is for operating the power switch 11, when the output of the solar cell 15 of Figure 2 operates the power switch 13, the output of the battery to the DC / DC converter 18 And at the same time enter the enable terminal of the signal generator 14 to produce an output (output of the signal generator 14) for operating the power switch 11. The advantage of FIG. 2 in the above operation is very useful when the main processor takes a long time to boot. For example, even though the light entering the solar cell is 0.5 seconds and the boot time of the main processor is 5 seconds, the power is continuously supplied by the signal generator 14. The output 18 of the main processor can be made after 5 seconds without any problem in operation. The solar cell of FIG. 2 can be operated by a general indoor light source, and can also operate the power switch 13 in response to a light amount rather than reacting with an indoor light source.

For example, the solar cell of FIG. 2 responds to LED light sources of greater than a certain brightness input within about 1 meter. Therefore, even if the image display device of the present invention of Figure 2 is located at a distance or more than a certain distance, or in a space blocked by transparent glass, the power switch can be operated by the LED light source as described above. When the image display apparatus of FIG. 2 receives power, the image display apparatus outputs the corresponding images according to the predetermined processor, and when the predetermined time is reached, the image display apparatus stops itself.

For example, the image display device of the present invention shown in Fig. 1 is useful for a memorial picture card installed in a memorial park. In order to commemorate those who have gone back to place a picture, conventionally it was only to have a paper picture, but by using the device of the present invention can be repeatedly displayed dozens to hundreds of images. In particular, since the enshrined end that holds the remains of the deceased park in the memorial park is covered with transparent glass, the apparatus of the present invention is placed inside this glass, and the operation of the present invention is achieved by the LED light outside the glass of the enclosed end. It is possible to reflect on the solar cell 15 of. There is an advantage in that the battery can be replaced once and used for many years, and the device of the present invention has the advantage of always displaying an image, and has the advantage of displaying an image even after the battery power is used up.

Figure 3 shows another example of the present invention. The coprocessor 37 is used to efficiently manage the battery 10 power. When the power switch 32 is operated by receiving inputs (inputs 1 and 36) from the outside, or when the solar cell 35 receives light from the outside to make the power switch 33 operate, The coprocessor 37 survives. The coprocessor operates the power switch 31 to cause the battery power source 10 to enter the DC / DC convewrter 40, so that the main signal processor operates to change the image. At this time, the main signal processor 42 and the subprocessor 37 are in communication 41, and cut off the power switch 31 according to the completion of the operation of the main signal processor. At this time, the coprocessor controls the power switch 34 to stabilize the power of the coprocessor while the main signal processor 42 operates. The power switch 34 functions to connect the output of the battery 10 to the power of the coprocessor. Input 1 36 of FIG. 3 is by a user's touch switch. In the present invention, both the power switches 32 and 33 may be included, and only one may be provided.

3, in the case where the solar cell 35 operates by receiving an indoor light source, the coprocessor 37 operates only when there is an indoor light source, and the coprocessor 37 determines a predetermined timetable. The power of the main signal processor 42 can be controlled by the time table. The predetermined time table may control the power supply of the main signal processor to change the image every 10 seconds, or control the power supply of the main signal processor to change the image every 1 hour. . When the indoor light source disappears, that is, at night, since the solar cell 35 does not operate, the power of the coprocessor is cut off so that it no longer consumes power, and the use time of the battery may be increased.

An advantage of the present invention of Fig. 3 is that in the case where the solar cell 35 operates only on a light source having a predetermined brightness or more, the power switch 33 operates only on the light source having a predetermined brightness or more. It is very useful when operating the device. That is, in the light of the LED light having a strong output from the outside in the solar cell 35 of FIG. When a user does not see an image, a fixed image may appear on the screen, and the user may be instructed to change the image in a predetermined order at a desired moment.

The power consumption of the coprocessor used in FIG. 3 is relatively small compared to the main processor. Even if the main processor is used in the minimum power consumption mode, the power consumed at this time and the power consumed by the power supply unit are greatly lost after accumulating a long time, so it is efficient for the coprocessor to completely turn off the power.

Figure 4 shows an example of the power supply control of the present invention, it shows the case of Figure 3 over time. In FIG. 4, assuming that the input of the solar cell 35 comes in at time t1 and the input lasts up to time t2, the waveform of the power switch 33, the output 39 of the coprocessor, and the output of the coprocessor. (38) is shown. Each output 39, 39 of the coprocessor starts at time t 3 and finishes at time t 4.

5 shows an example of the present invention, in which the coprocessor 57 manages power, in particular the power of the coprocessor 57 comes from the DC / DC converter 58. While the coprocessor 57 controls the power switch 51, the power of the coprocessor 57 is input through 46 of FIG. 5. FIG. 5 shows that the main signal processor 59 and the coprocessor 57 operate separately. This is useful when there is no need. FIG. 5 shows that the coprocessor 57, which has a short boot time, manages power, rather than the main processor, which has a long boot time, manages power.

Figure 6 shows an example of the present invention. Similar to the contents of Figure 1, but with particular advantages. The main processor 75 receives two signals, which are outputs of a low pass filter (LPF) (signals 71 and 67), and signal 67 is a case where an external light enters the solar cell 63. It was made through signal 65. The signal 67 is for accepting an external input through the solar cell 63 when the main processor 75 is in operation. For example, when signal 67 occurs, the main processor 75 uses it to initialize a time table that manages the image. That is, the main processor 75 initializes the timetable and outputs an image from a predetermined initial order.

One of the advantages of FIG. 6 is that the solar cell 63 is used to operate the power switch 62 and also used to generate an interrupt in the main processor 75. Since the image processing apparatus of the present invention preferably minimizes the number of input means used in the product, it is configured as shown in FIG.

   One of the other advantages of FIG. 6 is used to operate the power switch 61 using a single touch switch (input 1, tact switch), and generates an interrupt in the main processor 75. When input 1 of FIG. 6 is input when the DC / DC converter 72 is not supplied with power, the power switch 61 operates and the main processor 75 comes to life. If input 1 of Fig. 6 is input while converter 72 is alive, then power switch 60 is alive, so there is no effect on power, and signal 69 makes signal 71 through LPF 70 to make main processor 75. ), And the main processor 75 receives this and initializes the order of image processing.

FIG. 7 illustrates an exemplary embodiment of the present invention, in which power is managed by using the coprocessor 89, and the power switch 83 is operated by the solar cell of FIG. When the auxiliary processor 89 is in operation, when an input is input to the solar cell of FIG. 7, LPF2 86 of FIG. 7 sends a signal to the coprocessor 89, and The processor 89 receives the signal from the LPF2 86 and communicates with the main signal processor 92 to initialize the sequence of image processing. That is, it can be used to power a single component (eg, the solar cell of FIG. 7) and to signal the processor.

According to the image display device of the present invention, the user input means may be operated in a non-contact manner at a long distance by using a contact switch (tact switch) as shown in input 1 of FIG. 7 or by using a solar cell of FIG. Therefore, one or both of the input 1 of FIG. 7 and the solar cell of FIG. 7 are used.

The present invention is used for an image display device using electronic paper (EPD). In the conventional manner, once a battery is replaced, the use of days or tens of times is increased. However, when the method and apparatus of the present invention are applied, the battery use time is extended to tens of months or years. Therefore, the user can use the image display device of the present invention as a wall-mounted photo frame or a memorial photo card in a memorial park.

If the solar cell used to switch the power source to operate in the indoor light source, the power consumption can be made zero during the night time.

If the solar cell used to switch the power source does not work in the indoor light source, but operates in a stronger light source, there is an advantage that it can be used to turn on and off the power without contact.

In addition, since the power is controlled by the signal generator inside the power supply after being supplied by the solar cell, it is possible to use a stable power supply, and after the internal operation is completed, all power is cut off, so power consumption is zero. There are advantages that can be made.

Claims (10)

A display panel displaying an image;
A panel driving driver to control driving of the display panel;
A main processor for signal processing to display the image on a display panel;
A memory for storing a program of the main processor and the image;
A power supply unit supplying power to the display panel, the panel driver, the main processor, and the memory;
A first switching unit for switching the power supply from the battery to the power supply according to a first control signal and a second switching unit for switching the power supply from the battery to the power supply according to a second control signal; And
And a signal generator for generating the second control signal when the first switching unit is operated.
And the first control signal operates as an output of the solar cell, and the main processor turns off the first switching unit and the second switching unit when the signal processing is completed. The apparatus of claim 1, wherein the signal generator of the second control signal is the main processor. delete The apparatus of claim 1, wherein the power supply unit has a third switching unit for switching the power supply, and the control of the third switching unit is controlled by a user's contact. The apparatus of claim 4, wherein at least one of an output of the first switching unit and an output of the third switching unit enters an input of the main processor. A display panel displaying an image;
A panel driving driver to control driving of the display panel;
A main processor for signal processing to display the image on a display panel;
A memory for storing a program of the main processor and the image;
A power supply unit supplying power to the display panel, the panel driver, the main processor, and the memory;
A subprocessor for controlling the power supply unit and receiving a signal from the main processor;
The power supply unit includes a first switching unit for switching a power supply and a first control signal for controlling the first switching unit, a second switching unit for switching a power supply to the coprocessor, and a second control unit for the second switching unit. Control signal;
A third switching unit for switching a power supply to the coprocessor and a third control signal for controlling the third switching unit;
The second control signal operates at the output of the solar cell, wherein the first control signal is produced by the output of the coprocessor, and the third control signal is produced by the output of the coprocessor Long life power management device. The apparatus of claim 6, wherein there is a fourth power supply switching unit for supplying power to the coprocessor, and the fourth switching unit is controlled by a user's contact. The apparatus of claim 7, wherein at least one of an output of the second switching unit and an output of the fourth switching unit enters the coprocessor. The long life power management apparatus of claim 6, wherein the coprocessor uses the output of the power supply unit as a power source. The method of claim 6, wherein when the coprocessor is powered, the coprocessor controls a third control signal to receive power through a third switching unit, and the coprocessor controls the first control signal according to a predetermined timetable. Long life power management device, characterized in that for controlling.

Images