JP2012155084A - Display device, control method of display device, and control program of display device - Google Patents

Abstract

PROBLEM TO BE SOLVED: To provide a power generating element with a function for changing a page, miniaturize a display device, and facilitate a page changeover operation for data to be displayed.SOLUTION: The display device including the power generating element displaying a plurality of pieces of information includes: display means for displaying either of the plurality of pieces of information; storage means that stores a plurality of pieces of information associated with page information for every information to be displayed at a time and stores the page information and flag information associated with each other; arithmetic means that, after a voltage to be supplied to the display device decreases and the display device is reset, refers the page information associated with the flag information of the storage means; and display control means that controls the display means to display the information to be displayed at a time associated with the page information from the referred page information.

Description

  The present invention relates to a display device that switches display data by a power generation element, a display device control method, and a display device control program in a card having a display function in which the power generation element is mounted as a power supply element.

  Conventionally, as a method of switching the display of data displayed on a display device such as an IC card, any solar cell when a user covers one of a plurality of power generation elements such as solar cells on the display device with a finger or the like The operation determination unit determines whether or not the cell has been operated based on the detection result of each voltage detection unit, notifies the determination result to the signal processing unit, determines the input operation performed by the user, and determines the determined operation target A method for performing the corresponding processing is described in Patent Document 1, for example.

  Further, when determining the order of data displayed on the display device, among the unused electronic tickets, the highest display order of the electronic ticket information used first, that is, the display order of used electronic tickets is increased. Among the tickets, the technology that has the display order determination unit that enables the user to display the most necessary information by increasing the display order of the latest electronic ticket information, that is, the most recent electronic ticket information, for example, It is described in Patent Document 2.

JP 2008-21018 A JP 2009-230268 A

  However, for example, in the prior art described in Patent Document 1, the number of operation buttons is increased by giving each of a plurality of power generating elements a unique meaning as an operation button, and the display device There is a problem that leads to an increase in size. Further, there is a problem that the button operation becomes complicated for the user due to the increase of the operation buttons. Furthermore, in the prior art described in Patent Document 2, the data to be displayed is limited to ticket information, and additional information accompanying the ticket information must be handled for sorting, which increases the amount of data processing. There is. In addition, there is a problem that a new switch is required to switch the display of the information.

  The present invention has been made to solve the above problems, and as an example of the problem, a function of a user interface by a plurality of operation buttons for switching pages is provided in one power generation element of a display device. An object of the present invention is to provide a display device, a display device control method, and a display device control program that can realize downsizing and facilitate a page switching operation of data displayed on the display device.

  In order to solve the above problems, the present invention employs the following configuration.

  That is, the invention according to claim 1 is a display device including a power generation element that displays a plurality of pieces of information, the display unit that displays any one of the plurality of pieces of information, and the information that is displayed on the display unit at a time. The storage unit stores the plurality of pieces of information in association with the page information every time, stores the page information and the flag information in association with each other, and the voltage supplied to the display unit is reduced to reset the display unit. Thereafter, calculation means for referring to page information corresponding to the flag information of the storage means, and information displayed on the display means corresponding to the page information from the page information referred to by the calculation means at once. Display control means for controlling to display on the display means, and the calculation means includes page information corresponding to flag information of the storage means when the display device is reset. After referring to, and sets the flag information.

  Further, the invention described in claim 2 is the display device according to claim 1, wherein the calculation unit is configured to display the display after the voltage supplied to the display device is reduced and the display device is reset. When a voltage is applied to the apparatus and the calculation means starts operation, the page information corresponding to the flag information of the storage means is referred to, and then the flag information is incremented, and the page corresponding to the incremented flag information When there is no information, the flag information is first set to a value corresponding to page information corresponding to information to be displayed on the display means.

  According to a third aspect of the present invention, in the display device according to the first aspect, the calculation unit is configured to display the display after the voltage supplied to the display device is reduced and the display device is reset. When a voltage is applied to the apparatus and the calculation means starts operating, flag information is first set to a value corresponding to page information corresponding to information to be displayed on the display means, and then the storage means The page information corresponding to the flag information is referenced, and then the flag information is incremented. When there is no page information corresponding to the incremented flag information, the flag information should be displayed on the display means first. A value corresponding to the page information corresponding to the information is set.

  According to a fourth aspect of the present invention, the display device according to the third aspect further comprises voltage detection means for detecting a power generation voltage generated by the power generation element, wherein the voltage detection means is more than the first voltage. After detecting a voltage exceeding the high second voltage, when detecting a voltage between the first voltage and the second voltage and then detecting a voltage exceeding the second voltage, the calculating means The page information corresponding to the flag information in the storage means is referred to, the flag information is incremented, and when there is no page information corresponding to the incremented flag information, the flag information is first displayed on the display means. A value corresponding to page information corresponding to power information is set.

  According to a fifth aspect of the present invention, in the display device according to the fourth aspect, the first voltage is a voltage equal to or lower than a voltage that is guaranteed to operate in the arithmetic means, and the second voltage Is a voltage guaranteed to operate in the computing means.

  According to a sixth aspect of the present invention, in the display device according to any one of the first to fifth aspects, the voltage generated from the power generation element is stored in a power supply means, and at least the storage means The computing means is supplied with a voltage stored in the power supply means.

  According to a seventh aspect of the present invention, in the display device according to any one of the first to sixth aspects, the power generating element is a solar cell.

  The invention described in claim 8 is a method of controlling a display device including a power generation element that displays a plurality of information, wherein the display step displays any one of the plurality of information, and once in the display step. Storing the plurality of information in association with page information for each information displayed on the display, storing the page information and flag information in association with each other, and reducing the voltage supplied to the display device After the display device is reset, a calculation process for referring to page information corresponding to the flag information in the storage unit, and a page corresponding to the page information from the page information referred to in the calculation process at a time in the display process A display control step for controlling the displayed information to be displayed in the display step, and in the calculation step, the display device is reset and the storage After referring to the page information corresponding to the flag information in the extent, and sets the flag information.

  According to a ninth aspect of the present invention, a computer included in a display device including a power generation element that displays a plurality of information is displayed at a time on the display means for displaying any of the plurality of information, and on the display means. Storing the plurality of pieces of information in association with page information for each piece of information, storing the page information and flag information in association with each other, and reducing the voltage supplied to the display device. Information that is displayed on the display unit at a time, corresponding to the page information from the page information referred to by the calculation unit, the calculation unit referring to the page information corresponding to the flag information of the storage unit after being reset Is operated as a display control means for controlling the display means to display the display means, and the calculation means resets the display device and displays the flag information in the storage means. After referring to the page information to respond, characterized in that it serves the function of setting the flag information.

  According to the present invention, since the power generation element can also be used as a user interface, it is not necessary to provide the display device with any other configuration for switching pages such as switches and buttons, so that the entire display device can be downsized.

  Further, since page switching can be performed by using only one power generation element, the page switching operation is facilitated as compared with the case where other configurations for switching pages such as switches and buttons are provided.

  Further, if the data is associated with the page information, data to be displayed on the display unit 10 can be stored in the storage unit 23 in advance, so that arbitrary data including character data and image data can be stored as data to be displayed in order, and sorting is also possible. It becomes possible to do.

  That is, data to be displayed is not limited to ticket information.

  In addition, according to the present application, it is possible to display data on the display unit 10 without an IC card chip.

  Further, since the CPU unit 22 is configured to rewrite only the flag information, even when the amount of data to be displayed is large, the flag information is rewritten securely and the CPU unit 22 is activated next. It is possible to refer to data to be displayed on the screen.

  Further, since the CPU section 22 rewrites the flag information while the power supply voltage increases, the flag information can be reliably rewritten even when the power supply voltage varies.

It is a functional block diagram which shows the functional structure of the display apparatus which concerns on this invention. It is an example of the flowchart of the process sequence of 1st Embodiment by the display apparatus which concerns on this invention. It is an example of the flowchart of the process sequence of 2nd Embodiment by the display apparatus which concerns on this invention. It is a figure which shows the change of the display content of the display part by the display apparatus of 1st Embodiment which concerns on this invention. It is a figure which shows an example of a structure of the memory | storage part in the display apparatus of 1st Embodiment which concerns on this invention. It is a figure which shows an example of the flowchart of the process sequence of the memory | storage part in the display apparatus which concerns on this invention. (A) It is a figure which shows an example of the display in the display part of the display apparatus which concerns on this invention. (B) It is a figure which shows an example of the display in the display part of the display apparatus which concerns on this invention. (C) It is a figure which shows an example of the display in the display part of the display apparatus which concerns on this invention. It is a figure which shows another example of the display in the display part of the display apparatus which concerns on this invention. It is a figure which shows another example of the display in the display part of the display apparatus which concerns on this invention. It is a figure which shows the change of the display content of the display part by the display apparatus of 2nd Embodiment which concerns on this invention. It is a figure which shows an example of a structure of the memory | storage part in the display apparatus of 2nd Embodiment which concerns on this invention.

  Hereinafter, embodiments for carrying out the present invention will be described with reference to the drawings.

  First, an embodiment of the present invention will be described with reference to FIG.

[Entire system configuration]
FIG. 1 shows a display unit 10 as a display unit, a display control unit 21 as a display control unit, a CPU (Central Processing Unit) unit 22 as a calculation unit, and a storage unit 23 as a storage unit according to the present embodiment. A control unit 20 including a voltage detection unit 31 as a voltage detection means and a power generation unit 30 including a power generation element (not shown), storing electric power generated by the power generation element, the display unit 10 and the control unit 20 The display apparatus 100 comprised from the electric power supply part 40 which supplies electric power to is shown. In FIG. 1, the display unit 10, the control unit 20, the power generation unit 30, and the power supply unit 40 are shown as one each. May be.

  Moreover, although a solar cell is mentioned as an example of a power generation element, it is not necessarily limited to this. Further, although the storage unit 23 is provided outside the CPU unit 22, the storage unit 23 is not limited to this, and may be provided inside the CPU unit 22. Furthermore, although the voltage detection part 31 was provided in the electric power generation part 30, it is not necessarily limited to this, It can also be set as the structure provided in the inside of the display control part 21 or CPU part 22. FIG.

  Further, the display device 100 according to the present invention has the above-described configuration, so that a power generation element such as a solar cell provided for power supply is displayed on the display device 100 such as an IC card with a display function. The voltage detection unit 31 is used as a user interface for switching data, every time the power supply is stopped by covering the power generation element with a hand or the like and the CPU unit 22 in the card is reset, or when the voltage is lower than a predetermined voltage. Has a function of performing switching processing of data to be detected and displayed.

  Here, the structure for exhibiting the function will be described in more detail with reference to the functional block diagram shown in FIG.

  The display unit 10 has a function of displaying any of a plurality of pieces of information on the display device 100 including one power generation element that displays a plurality of pieces of information.

  Examples of the display unit 10 include a liquid crystal display, an EL (Electroluminescence) display, and the like, but are not limited thereto.

  The display control unit 21 has a function of controlling the information displayed on the display unit 10 corresponding to the page information from the page information referred to by the CPU unit 22 to be displayed on the display unit.

  The display control unit 21 controls data for each piece of information displayed at a time on the display unit 10, but a page value is associated with each piece of information displayed at a time on the display unit 10 and stored in the storage unit 23. Therefore, it is possible to access page information, which is information displayed on the display unit 10 at a time, from the page value and obtain the information.

  Information displayed on the display unit 10 at a time may be acquired by the display control unit 21 directly accessing the storage unit 23 or may be acquired via the CPU unit 22.

  The storage unit 23 has a function of storing a plurality of pieces of information corresponding to page information for each piece of information displayed on the display unit 10 at a time, and further storing page information and flag information in association with each other. Here, the flag information indicates the flag position as shown in FIGS.

  Since the information displayed on the display unit 10 is stored in correspondence with the page information at a time, the information displayed on the display unit 10 at a time can be obtained by accessing the storage unit 23 using the page information. It can be acquired from outside the storage unit 23.

  Further, since the page information and the flag information are stored in association with each other, for example, if the flag information is expressed by a numerical value, the page information is acquired from the numerical value, and is displayed on the display unit 10 from the page information at a time. Information can be acquired.

  As an example, if a numerical value as flag information is associated with the number of pages, information corresponding to the first page of the display unit 10 can be acquired from the storage unit 23 when the flag information is “1”. In addition, when the flag information is “2”, information corresponding to the second page of the display unit 10 can be acquired from the storage unit 23, and when the flag information is “3”, the third page of the display unit 10 is obtained. Information corresponding to the eyes can be acquired from the storage unit 23. The page information can also be configured to represent the address of the data at the beginning of the data displayed on the display unit 10 at a time.

  The contents as data to be displayed include electronic money balance information, railway boarding station information, railway regular section information, railway usage fee information, amusement facility card information, and the like.

  Note that the storage unit 23 may not be provided outside the CPU unit 22, and may be provided inside the CPU unit 22. As an example of the storage unit 23, a non-volatile memory such as a flash memory or a volatile memory can be cited.

  The voltage detection unit 31 has a function of detecting a power generation voltage generated by a power generation element included in the power generation unit 30.

  For example, when the power generation element is a solar cell, the power generation voltage generated by the solar cell is lowered by the user blocking the panel surface of the solar cell of the display device from outside light using a finger or a hand. The voltage detector 31 can detect the lowered voltage. The detected voltage includes a first voltage that is a voltage equal to or lower than a voltage for which the operation of the CPU unit 22 is guaranteed, and a second voltage that is higher than the first voltage. As the first voltage, an arbitrary voltage from 0 volts to a voltage at which the operation of the CPU unit 22 is guaranteed can be set. The second voltage is higher than the first voltage at which the CPU unit 22 cannot operate, and is a voltage for which the operation of the CPU unit 22 is guaranteed. As the second voltage, any voltage from the first voltage supplied from the power supply unit 40 to the power supply voltage for which the operation of the CPU unit 22 is guaranteed can be set.

  The CPU unit 22 as a calculation unit means has a function of referring to page information corresponding to flag information in the storage unit 23 after the voltage supplied to the display device is lowered and the CPU unit 22 is reset.

  The CPU unit 22 sets flag information when the voltage supplied to the display device is lowered and the display device is reset, and then the voltage is supplied to the display device again and the CPU unit 22 starts operating. It has the function to do.

  For example, after the voltage supplied to the display device is reduced and the display device is reset, the CPU unit 22 exceeds the first voltage, which is a low voltage at which the CPU unit 22 cannot operate because the voltage is applied to the display device. If there is no page information corresponding to the incremented flag information, the flag information is first set to a value corresponding to the page information corresponding to the information to be displayed on the display unit 10. It has the function to do.

  According to this function, when the user shields the panel surface of the solar cell of the display device from outside light using a finger or a hand, the voltage generated from the solar cell becomes close to zero volts, and the CPU unit 22 is reset. After the user releases the user's finger or hand from the panel surface of the solar cell of the display device, when the voltage is supplied to the CPU unit 22 and the CPU unit 22 starts to operate, the flag information is incremented. When the unit 22 is activated next time, the information displayed on the display unit 10 can be set to the next page. If there is no page information corresponding to the incremented flag information, the flag information corresponding to the first page to be displayed on the display unit 10 can be set first.

  In other words, according to this function, the display device can display the next page each time the voltage drops and resets, and when the display device is reset after the end of the page to be displayed is displayed. The first page can be displayed.

  In addition, after the voltage supplied to the display device is lowered and the display device is reset, the CPU unit 22 displays the flag information first when the voltage is supplied to the display device again and the CPU unit 22 starts operating. Is set to a value corresponding to the page information corresponding to the information to be displayed on the display unit 10, then the page information corresponding to the flag information in the storage unit 23 is referred to, and then the flag information is incremented. When there is no page information corresponding to the flag information, the flag information is set to a value corresponding to page information corresponding to information to be displayed on the display unit 10 first.

  According to this function, when the user shields the panel surface of the solar cell of the display device from outside light using a finger or a hand, the voltage generated from the solar cell becomes close to zero volts, and the CPU unit 22 is reset. After that, when the user releases the user's finger or hand from the panel surface of the solar cell of the display device, the information displayed on the display unit 10 can be the information to be displayed on the display unit 10 first.

  That is, each time the user resets the display device 100 by blocking the panel surface of the solar cell of the display device from outside light using a finger or a hand, the top page is displayed on the display unit 10. become. In this case, since the flag information is incremented after the reset, when the CPU unit 22 refers to the flag information next time, the page to be displayed next (second page) is displayed on the display unit 10.

  The CPU unit 22 detects a voltage between the first voltage and the second voltage after the voltage detection unit 31 detects a voltage exceeding the second voltage higher than the first voltage, and then detects the second voltage. When the voltage exceeding the threshold is detected, the CPU unit 22 refers to the page information corresponding to the flag information in the storage unit 23, then increments the flag information, and there is no page information corresponding to the incremented flag information. In this case, the flag information is set to a value corresponding to page information corresponding to information to be displayed on the display unit 10 first.

  According to this function, the user can display a part of the panel surface of the solar cell of the display device after the voltage generated from the solar cell is slightly reduced by shielding the light from outside light using a finger or a hand. When the user's finger or hand is released from the panel surface of the solar cell of the device, the information displayed on the display unit 10 can be set to the next page. If there is no page information corresponding to the incremented flag information, the flag information corresponding to the first page to be displayed on the display unit 10 can be set first.

  The voltage slightly reduced here is a voltage between the first voltage and the second voltage.

  That is, according to this function, the display device can display the next page every time the voltage drops a little, and if the voltage drops a little after the end of the page to be displayed is displayed, The page can be displayed.

  The power supply unit 40 has a function of storing the voltage generated from the power generation element and supplying at least the voltage stored in the storage unit 23 and the CPU unit 22.

  An example of the power supply unit 40 includes a capacitor, but the present invention is not limited to this. Since the power supply unit 40 exists, the voltage detected by the voltage detection unit 31 is not immediately applied to the CPU unit 22 or the like. The detected voltage is detected by the voltage detection unit 31 and then the voltage detection unit 31. Since the voltage is applied to the CPU unit 22 after being delayed or accumulated, the above-described flag information rewriting process can be reliably executed in the CPU unit 22.

  In addition, the display device 100 has a chip (not shown) for an IC card, and includes a communication unit (antenna) (not shown) when the display device 100 is a contactless card. Further, the display control unit 21, the CPU unit 22, and the storage unit 23 of the control unit 20 may not be integrated. Further, instead of incrementing the flag information, the CPU 22 may be configured to recognize the page information to be referred to at present by shifting the position of the flag pointing to the flag information. Furthermore, the display device can be configured to be connected to a database or a server device via a network.

  Next, referring to FIG. 5, flag information, page information, page A information (electronic money balance), which is information on the first page, and information on the second page, which are stored in the storage unit 23 of the display device 100 of the present invention. The correspondence relationship between the information on page B (railway boarding station name) and the information on page C (railway regular section) as information on the third page will be described.

  The flag information stored in the storage unit 23 is “1” indicating the first page information as the flag value, “2” indicating the second page information as the flag value, and the third flag value. The CPU unit 22 writes “3” indicating page information or “n” indicating n-th page information as a flag value.

  Even when the voltage drops, the CPU unit 22 can acquire information of a desired page from the storage unit 23 when the CPU unit 22 is activated next time by simply rewriting these flag values. .

  The CPU unit 22 refers to the page information based on the flag value.

  For example, when the flag value is 1, page information is acquired from a position to be referred to when the flag value is 1. The position to be referred to when the flag value is 1 may be determined in advance by an address. The page information stores, as information, an address indicating from which address in the storage unit 23 data bodies such as characters and graphics of the corresponding page are stored.

  In the case of FIG. 5, since the page information when the flag value is 1 is “1”, the CPU unit 22 reads the data body (electronic money balance) of the first page from address 1. Since the page information when the flag value is 2 is “2”, the CPU 22 reads the data body (railway boarding station name) on the second page from address 2. Since the page information when the flag value is 3 is “3”, the CPU 22 reads the data body (railway regular section) of the third page from address 3.

  Note that when reading the data body of the nth page, it is also possible to refer to the absolute address using the page information as an offset.

  In the above example, the flag information is incremented. However, as shown in FIG. 5, the flag information is shifted, and the area where the page information is stored may be accessed in order. Is possible.

  The configuration of the present application can also be realized by referring to the flag information, the page information, and the information on page n, which is information on the nth page, with each other by an address.

  Next, the processing procedure of FIG. 5 will be described with reference to FIG.

  In step S21, the CPU unit 22 acquires flag information. Then, page information is acquired from the position corresponding to the flag information.

  In step S22, the CPU unit 22 acquires the data body of the corresponding page stored in the storage unit 23 from the page value indicating the address of the page information.

  In step S23, the CPU unit 22 increments the flag information so that the page information referred to by the flag information refers to the page information in which data of the next page is stored.

  In step S <b> 24, the CPU unit 22 transfers the data acquired in step S <b> 22 to the display control unit 21, and the display control unit 21 that acquired the data displays the data on the display unit 10.

  In this way, the CPU unit 22 associates the flag information, page information, and page n information, which is information on the nth page, with the data stored in the display control unit 21. To display.

[Processing procedure]
Here, a specific processing procedure of the entire display device 100 that can be realized when the present invention is applied will be described with reference to the flowcharts shown in FIGS. The processing procedure shown below is an example, and there are innumerable processing procedures that can be realized in addition to this.

(First embodiment)
In the procedure of FIG. 2, in the display device 100 according to the present invention, the power supply is stopped by covering the power generating element with the user's hand, and the data to be displayed is switched each time the CPU unit 22 in the card is reset. This is a processing procedure for performing a process and exhibiting a function of switching data to be displayed on the display unit 10.

  In step S1, the voltage detection unit 31 detects whether a voltage is generated by the power generation element. If the power generation element is generating power (step S1: YES), the process proceeds to step S8. If the power generating element is not generating power (step S1: NO), the process proceeds to step S2.

  In step S2, when the power generation element is not generating power and no voltage is supplied to the CPU unit 22, that is, when the user covers the entire surface of the power generation element panel with fingers, hands, etc. (FIG. 4B, (D ) And (F)), the CPU unit 22 stops.

  In step S3, when the power generating element is not generating power and no voltage is supplied, the display control unit 21 is also stopped and the display on the display unit 10 is turned off.

  In step S4, the voltage detection unit 31 detects whether the power generation element generates power and generates a voltage. If the power generation element is generating power (step S4: YES), the process proceeds to step S5. If the power generation element is not generating power (step S4: NO), step S4 is repeated until the power generation element starts power generation.

  In step S5, since the power generation element starts power generation and voltage is supplied, that is, when the user who has covered the power generation element panel releases his / her finger and hand from the power generation element panel (FIGS. 4A and 4C). , (E), the CPU unit 22 starts operating.

  In step S6, the CPU unit 22 reads flag information stored in the storage unit 23, and reads page information corresponding to the flag information, that is, a page value (see FIG. 5).

  For example, the flag information is incremented by one, and a page value as page information is stored at an address corresponding to the incremented flag value. For example, the page value is a start address of an area in which data corresponding to page information is stored.

  In step S <b> 7, the CPU unit 22 calls data from an area in which data corresponding to the page information is stored from the page value stored in the storage unit 23.

  Thereafter, the CPU unit 22 increments the flag information by one and rewrites the flag information. When page information corresponding to the flag information does not exist, the CPU unit 22 indicates the flag information as a value corresponding to the page information corresponding to the information to be displayed on the display unit 10 first, for example, one page. Set to “1”.

  In step S8, the data called in step S7 is transferred from the CPU unit 22 to the display control unit 21, and the display control unit 21 displays the data on the display unit 10 based on the data transferred from the CPU unit 22. .

  In this way, the power supply is stopped by covering the power generation element with the user's finger, hand, etc., and it is possible to perform a process of switching data to be displayed each time the CPU unit 22 in the card is reset.

(Second Embodiment)
Next, the processing procedure of FIG. 3 will be described.

  3, in the display device according to the present invention, when the voltage generated by the power generation element falls below a certain value when the user covers a part of the power generation element with a finger, a hand, etc., the CPU unit 22 The page information to be displayed next is called from the storage unit 23, the page content data corresponding to the page information is called from the storage unit 23, the display control unit 21 displays the page data on the display unit 10, and When the power supply from the power generation element is completely lost and the CPU unit 22 is reset, the CPU unit 22 performs a procedure for displaying the initial page content data from the storage unit 23 and displaying it on the display unit 10. It is.

  In step S11, the voltage detection unit 31 detects whether a voltage is generated by the power generation element. If the power generation element is generating power (step S11: YES), the process proceeds to step S15. When the power generation element is not generating power (step S11: NO), the process proceeds to step S12.

  In step S12, when the power generating element is not generating power and no voltage is supplied to the CPU unit 22, that is, when the user covers the entire panel of the power generating element with fingers, hands, etc., the CPU unit 22 stops. . Moreover, the display control part 21 also stops and the display of the display part 10 disappears.

  In step S13, the voltage detection unit 31 detects whether the power generation element generates power and generates a voltage. If the power generation element is generating power (step S13: YES), the process proceeds to step S14. If the power generation element is not generating power (step S14: NO), step S13 is repeated until the power generation element starts power generation, that is, until the user removes a finger, hand, etc. from the panel of the power generation element.

  In step S <b> 14, the CPU unit 22 sets flag information to a value corresponding to page information corresponding to information to be displayed on the display unit 10 first, for example, “1” indicating one page. The CPU unit 22 acquires page information corresponding to the flag information, that is, data of the first page stored in the storage unit 23 from the start address. In this way, data of the first page corresponding to the flag value “1” is called from the storage unit 23.

  In step S15, the voltage detection unit 31 detects whether the voltage generated by the power generation element is equal to or higher than a predetermined voltage. If the voltage generated by the power generation element is equal to or higher than the predetermined voltage (step S15: YES), the process proceeds to step S18. If the voltage generated by the power generation element is less than the predetermined voltage (step S15: NO), the process proceeds to step S16.

  Here, the predetermined voltage is the second voltage, and varies depending on the characteristics of the IC. For example, a value of about + 10% of the minimum voltage required for the CPU 22 to continue the processing is given.

  In step S16, the CPU unit 22 reads flag information stored in the storage unit 23, and reads page information corresponding to the flag information, that is, a page value.

  In step S <b> 17, the CPU unit 22 acquires, from the storage unit 23, data storing data corresponding to the page information from the page value stored in the storage unit 23.

  Thereafter, the CPU unit 22 increments the flag information by one and rewrites the flag information. When page information corresponding to the flag information does not exist, the CPU unit 22 indicates the flag information as a value corresponding to the page information corresponding to the information to be displayed on the display unit 10 first, for example, one page. Set to “1”.

  In step S <b> 18, the called data is transferred from the CPU unit 22 to the display control unit 21, and the display control unit 21 displays the data on the display unit 10 based on the data transferred from the CPU unit 22.

  In this way, when the voltage falls below a certain value, such as when the user covers a part of the power generation element with a finger, hand, etc., the CPU unit 22 calls page information to be displayed next from the storage unit 23. Then, the page content data corresponding to the page information is called from the storage unit 23, the display control unit 21 displays the page content data on the display unit 10, the power supply from the power generating element is completely lost, and the CPU unit 22 is reset. Then, the CPU 22 can call the content data of the initial page from the storage unit 23, and the display control unit 21 can display the content data of the initial page on the display unit 10.

[Example of use of display device]
Next, an example of a screen display example of the display unit 10 based on the first embodiment of FIG. 2 will be described as an example of use of the display device 100 with reference to FIG.

  In FIG. 4A, the power generation unit 30 of the display device 100 is irradiated with external light to generate an electromotive force from the power generation element, and the initial page, that is, page A is displayed on the display unit 10 of the display device 100. Is shown. Before the display device 100 is activated for the first time, the CPU unit 22 refers to the page value corresponding to the flag information in the storage unit 23, that is, refers to the page value 1. The page A information which is the information of page A corresponding to the page value 1 is read from the storage unit 23 and the page A information displayed on the display unit 10 at a time is displayed on the display unit 10. Here, the flag information indicates the flag position as shown in FIGS.

  That is, the information (electronic money balance) of page A which is the information of the first page corresponding to the flag information “1” is read from the storage area of the storage unit 23 using the page information corresponding to the flag information “1”. The display control unit 21 displays page A on the display unit 10 (see FIG. 4A). Thereafter, the flag information in the storage unit 23 is incremented and rewritten. That is, the CPU unit 22 rewrites the flag information to “2” that is incremented so that the page B that is the information of the second page next to the page A that is the information of the first page can be displayed (FIG. 5B )reference). The state after this series of processing is the state shown in FIG.

  FIG. 4B illustrates a state where the user covers the power generation unit 30 by using the user's finger or hand in order to view the next page from the state of FIG. . In this case, since the CPU unit 22 is reset and no voltage is supplied to the CPU unit 22, nothing is displayed on the display unit 10 of the display device 100.

  4C, from the state of FIG. 4B, in order for the user to view the next page, the user's finger or hand covering the power generation unit 30 is separated from the power generation unit 30, and the power generation unit 30 To be exposed to external light.

  Since the external power is applied to the power generation unit 30 of the display device 100 and an electromotive force is generated again in the power generation element, and the power is supplied to the CPU unit 22, the CPU unit 22 has been rewritten in FIG. The flag information “2” is called from the storage unit 23, and page B information (railway boarding station name, see FIG. 5), which is the second page information corresponding to the flag information “2”, is read from the storage unit 23 and displayed. The control unit 21 displays page B on the display unit 10 (FIG. 4C). Then, the CPU unit 22 increments and rewrites the flag information in the storage unit 23. That is, the CPU unit 22 rewrites the flag information to incremented “3” so that the display control unit 23 can display the page C that is the information of the third page next to the page B that is the information of the second page ( (See FIG. 5C).

  As described above, every time the user tries to see the next page and resets the CPU unit 22 by covering the power generation unit 30 using the user's finger or hand, the page information displayed on the display unit 10 is the next page information. You can switch to the page.

  FIG. 4D illustrates a state where the user covers the power generation unit 30 using his / her finger or hand to view the next page from the state of FIG. 4C. . Also in this case, the CPU unit 22 is reset and no voltage is supplied to the CPU unit 22, so nothing is displayed on the display unit 10 of the display device 100.

  4E, from the state of FIG. 4D, in order for the user to view the next page, the user's finger or hand covering the power generation unit 30 is separated from the power generation unit 30, and the power generation unit 30 To be exposed to external light.

  Since the power generation unit 30 of the display device 100 is irradiated with external light, an electromotive force is generated again in the power generation element, and power is supplied to the CPU unit 22. Therefore, the CPU unit 22 is rewritten in FIG. The flag information “3” is called from the storage unit 23, and the page information of the page C that is the information of the third page corresponding to the flag information “3” (regular train period, see FIG. 5C) is stored in the storage unit 23. The display control unit 21 displays page C on the display unit 10.

  Thereafter, the CPU unit 22 increments and rewrites the flag information in the storage unit 23. Since the flag information in FIG. 4D is “3” incremented in FIG. 4C, the flag information is incremented to “4”, but there is no page information corresponding to the flag information “4”. Therefore, the CPU unit 22 sets the flag information to “1” as the value corresponding to the page information corresponding to the information to be first displayed on the display unit 10, that is, the value corresponding to the information on page A (electronic money balance), that is, the flag information. (See FIG. 5A).

  FIG. 4F illustrates a state where the user covers his / her power generation unit 30 using his / her finger or hand in order to view the next page from the state of FIG. In this case, since no voltage is supplied to the CPU unit 22, nothing is displayed on the display unit 10 of the display device 100. That is, the display device 100 is reset.

  In order for the user to view the next page from the state of FIG. 4 (F), the user's finger or hand covering the power generation unit 30 is separated from the power generation unit 30, and the power generation unit 30 is irradiated with external light. (See FIG. 4A).

  Since the external power is applied to the power generation unit 30 of the display device 100 and the electromotive force is generated again in the power generation element, and the power is supplied to the CPU unit 22, the CPU unit 22 is rewritten in FIG. The flag information “1” is called from the storage unit 23, the first page information corresponding to the flag information “1” (electronic money balance, see FIG. 5A) is read from the storage unit 23, and the display control unit 21 displays page A on the display unit 10.

  Thus, as shown in FIG. 4, the power supply is stopped by almost covering the power generation element with the user's finger, hand, etc., and the CPU unit 22 is reset. Then, each time the CPU unit 22 resets, the data displayed on the display unit 10 can be switched to switch pages. Data to be displayed is written in advance as page content data in the storage unit 23 in the IC card chip. Further, the power generation element is a solar cell as an example, and examples of contents displayed on the display unit 10 include electronic money balance information, railway boarding station information, railway regular section information, railway usage fee information, and amusement facility card information. Etc.

  Next, an example of a screen display example of the display unit 10 based on the second embodiment of FIG. 3 will be described as an example of use of the display device 100 with reference to FIG.

  10A, similarly to FIG. 4A, external power is applied to the power generation unit 30 of the display device 100 to generate electromotive force from the power generation element, and an initial page is displayed on the display unit 10 of the display device 100. That is, the state where page A is displayed is shown. Before the display device 100 is activated for the first time, the CPU unit 22 refers to the page value corresponding to the flag information in the storage unit 23, that is, refers to the page value 1. The page A information which is the information of page A corresponding to the page value 1 is read from the storage unit 23 and the page A information displayed on the display unit 10 at a time is displayed on the display unit 10.

  That is, the information (electronic money balance) of page A which is the information of the first page corresponding to the flag information “1” is read from the storage area of the storage unit 23 using the page information corresponding to the flag information “1”. The display control unit 21 displays page A on the display unit 10 (see FIG. 10A). Thereafter, the flag information in the storage unit 23 is incremented and rewritten. That is, the CPU unit 22 rewrites the flag information to “2” which is incremented so that the page B which is the information of the second page next to the page A which is the information of the first page can be displayed (FIG. 11A )reference). The state after this series of processing is the state shown in FIG.

  FIG. 10B illustrates a state in which the user covers a part of the power generation unit 30 using his / her finger or hand in order to view the next page from the state of FIG. Has been.

  In this case, the voltage supplied to the CPU unit 22 is slightly reduced, but the CPU unit 22 is not reset. Therefore, the information on the page A (electronic money balance) is displayed on the display unit 10 of the display device 100. It is continuously displayed in the same manner as 10 (A). That is, the voltage detection unit 31 detects a voltage between the first voltage and the second voltage (FIG. 10B).

  In FIG. 4C, from the state of FIG. 4B, in order for the user to view the next page, the user's finger or hand covering a part of the power generation unit 30 is separated from the power generation unit 30, The power generation unit 30 is brought into a state in which external light is irradiated.

  That is, the CPU unit 22 detects a voltage between the first voltage and the second voltage after the voltage detection unit 31 detects a voltage exceeding the second voltage higher than the first voltage (FIG. 10A). Then, a voltage exceeding the second voltage is detected (FIG. 10C). In this case, the CPU unit 22 refers to the page information corresponding to the flag information in the storage unit 23, then increments the flag information, and when there is no page information corresponding to the incremented flag information, First, flag information is set to a value corresponding to page information corresponding to information to be displayed on the display unit 10.

  That is, the CPU unit 22 calls the flag information “2” rewritten in FIG. 10A from the storage unit 23, and page B information (railway information) that is information on the second page corresponding to the flag information “2”. The boarding station name (see FIG. 11) is read from the storage unit 23, and the display control unit 21 displays page B on the display unit 10 (FIG. 10C). Then, the CPU unit 22 increments and rewrites the flag information in the storage unit 23. That is, the CPU unit 22 rewrites the flag information to incremented “3” so that the display control unit 23 can display the page C that is the information of the third page next to the page B that is the information of the second page ( (See FIG. 11B).

  In this way, a part of the panel surface of the solar cell of the display device is shielded from external light by the user using a finger or a hand, so that the voltage generated from the solar cell slightly decreases (the first voltage and the second voltage). When the user removes the user's finger or hand from the panel surface of the solar cell of the display device, the information displayed on the display unit 10 is switched to the next page.

  FIG. 10D illustrates a state in which the user covers his / her power generation unit 30 using his / her finger or hand in order to view the first page from the state of FIG. 10C. . Also in this case, the CPU unit 22 is reset and no voltage is supplied to the CPU unit 22, so nothing is displayed on the display unit 10 of the display unit 10.

  10E, from the state of FIG. 10D, the user's finger or hand covering the power generation unit 30 is separated from the power generation unit 30 so that the user can see the first page. To be exposed to external light.

  Since external power is applied to the power generation unit 30 of the display device 100 and electromotive force is generated again in the power generation element, and power is supplied to the CPU unit 22, flag information is displayed when the CPU unit 22 starts operation. First, the page value corresponding to the information of page A to be displayed on the display unit 10 is set to 1, and then the page information corresponding to the flag information in the storage unit 23 is referred to. That is, page A information, which is information of page A corresponding to page value 1, is read from the storage unit 23, and page A information (electronic money balance, see FIG. 11) displayed at a time on the display unit 10 is displayed on the display unit 10. (FIG. 10E).

  After the page A information is displayed on the display unit 10, the flag information is incremented, and the page value is set to 2 (FIG. 11C). When there is no page information corresponding to the incremented flag information, the flag information is set to a value corresponding to the page information corresponding to the information to be first displayed on the display unit 10, that is, the page value is set to 1. .

  FIG. 10 (F) shows a state where the user covers the power generation unit 30 using his / her finger or hand in order to view the first page from the state of FIG. 10 (E). . Also in this case, the CPU unit 22 is reset and no voltage is supplied to the CPU unit 22, so nothing is displayed on the display unit 10 of the display unit 10.

  In FIG. 10A, external power is irradiated to the power generation unit 30 of the display device 100 to generate electromotive force from the power generation element, and an initial page, that is, page A information (electronic money balance, electronic money balance, The state in which (see FIG. 11) is displayed is shown.

  Similarly to FIG. 10E, external power is applied to the power generation unit 30 of the display device 100, electromotive force is generated again in the power generation element, and power is supplied to the CPU unit 22, so that the CPU unit 22 operates. , The page information corresponding to the information of page A to be displayed on the display unit 10 first is set to 1, and then the page information corresponding to the flag information in the storage unit 23 is referred to. . That is, the page A information that is the information of page A corresponding to the page value 1 is read from the storage unit 23, and the page A information displayed on the display unit 10 at a time is displayed on the display unit 10 (FIG. 10A). ). Then, after displaying the page A information on the display unit 10, the flag information is incremented and the page value is set to 2 (FIG. 11A). When there is no page information corresponding to the incremented flag information, the flag information is set to a value corresponding to the page information corresponding to the information to be first displayed on the display unit 10, that is, the page value is set to 1. .

  As described above, in FIG. 11 illustrating the second embodiment, the power supply is stopped and the CPU unit 22 is reset when the user almost covers the power generation element with the user's finger, hand, or the like. Each time the CPU unit 22 resets, the first page is displayed on the display unit 10. In addition, after the voltage generated from the solar cell is slightly reduced (between the first voltage and the second voltage) by partially covering the power generation element with the user's finger, hand, etc., the user can use the solar cell of the display device. When the user's finger or hand is released from the panel surface, the information displayed on the display unit 10 is switched to the next page. The power generation element is a solar cell as an example, and examples of contents displayed on the display unit 10 include electronic money balance information, railway boarding station information, railway regular section information, railway usage fee information, amusement facility card information, and the like. Can be mentioned.

[Display example of display device]
Next, a specific example of data displayed on the display unit 10 of the display device 100 will be described.

  FIG. 7 shows various data displayed on the display unit 10.

  First, FIG. 7 will be described based on Embodiment 1 of FIGS. 2 and 4.

  FIG. 7A shows a state where the balance of electronic money on page A in FIG. 4A (page 1 in FIG. 2) is displayed on the display unit 10.

  The display unit 10 in FIG. 7A displays that the electronic money balance is ¥ 18900. In this way, the user can easily confirm the balance of electronic money stored in the storage unit 23 of the IC card via the display unit 10 without connecting another electronic information processing device to the display device 100. Can do.

  Next, when the user covers the power generation element of FIG. 7A using a finger or a hand, the display is as shown in FIG. 7B.

  FIG. 7B shows a state where the railway boarding station information of page B in FIG. 4C is displayed on the display unit 10.

  The display unit 10 in FIG. 7B displays “Shinjuku”, which is the name of the station where the user boarded, “IN” indicating that it is the boarding station, and the date “Oct. Day "is displayed. As described above, the screen on which the next information is to be displayed can be easily confirmed from the display screen of FIG.

  Next, when the user covers the power generation element of FIG. 7B using a finger or a hand, the display is as shown in FIG. 7C.

  FIG. 7C shows a state where the regular railway section of page C in FIG.

  The display unit 10 in FIG. 7C displays “Tokyo-Shinagawa”, which is a section where the user purchases a commuter pass, and “April 10, 23,” indicating the expiry date of the commuter pass. Is displayed. As described above, the screen on which the next information is to be displayed can be easily confirmed from the display screen of FIG.

  In the screen of FIG. 7C, when the user covers the power generating element with a finger or a hand and then removes the covered finger or hand, the display unit 10 is displayed as shown in FIG. Is displayed.

  In addition, the change from FIG. 7 (A) to FIG. 7 (B) → FIG. 7 (C) → FIG. 7 (A) is caused when the user covers a part of the power generation element with a finger or a hand. Can also be changed (second embodiment of FIG. 3). In this case, when the user covers the entire power generation element using fingers or hands and then removes the covered fingers or hands, the display unit 10 changes from FIG. 7B to FIG. (In the first embodiment, FIG. 7 (C) is displayed instead of FIG. 7 (A)), FIG. 7 (C) → FIG. 7 (A), FIG. 7 (A) → FIG. In one embodiment, the balance of the electronic money that is the first page is displayed as shown in FIG. 7B instead of FIG.

  Note that the size and shape of the display unit 10 can be arbitrarily set.

  Next, another embodiment of data displayed on the display unit 10 will be described with reference to FIG.

  FIG. 8 differs from FIG. 7A in that it shows how many pages the information currently displayed on the display unit 10 is. In FIG. 8, “Information 1” is displayed so that the currently displayed “Balance of electronic money” is the first page. When “Railway boarding station information” is displayed, “Information 2” is displayed so that it can be seen as the second page, and when “Railway regular section” is displayed, it is the third page. "Information 3" is displayed so that it can be understood.

  In this way, by knowing the number of pages of information currently displayed in advance, the user can predict what will be displayed on the next page, or learn the correspondence between the number of pages and display information during use. Thus, it is possible to quickly arrive at the information that the user wants to display.

  Next, another embodiment of data displayed on the display unit 10 will be described with reference to FIG.

  Until now, the display device 100 has been described on the assumption that it is mainly used for an IC card. However, the present application is not limited to this and can be applied to page feed of an electronic book. is there. Also in this case, the size and shape of the display unit 10 can be arbitrarily set.

  FIG. 9 is a diagram illustrating an example of a display screen on the display unit 10 when the display device 100 is applied to an electronic book display terminal.

  In FIG. 9, the text of the electronic book is displayed in the vertical direction on the display unit 10 of the display device 100 as an electronic book display terminal. Further, page information indicating what page the currently displayed page corresponds to is displayed in the upper right corner of the display unit 10. Since the text displayed in FIG. 9 is the first page of the electronic book having 20 pages in total, “1/20” is displayed, and the user can easily check the currently displayed page.

  Thus, when the display device 100 is used as an electronic book display terminal, the display device 100 can be configured to be connected to a database or a server device via a network.

  Moreover, although the case where the display device 100 includes one power generation element has been described in the above embodiment, the present application is not limited to this, and the display device 100 may include a plurality of power generation elements. Good.

  When a plurality of power generation elements are provided, the power generation elements may be provided adjacent to each other in the display device 100, or may be provided separately at both ends of the display device 100. The power generation amount in the power generation unit 30 can be the total power generation amount of the plurality of power generation elements.

  As mentioned above, although embodiment of this invention was described, this invention is not restricted to embodiment mentioned above, A various change is possible. The effects described in the embodiments of the present invention are only the most preferable effects resulting from the present invention, and the effects of the present invention are limited to those described in the embodiments of the present invention. is not.

DESCRIPTION OF SYMBOLS 10 ... Display part 20 ... Control part 21 ... Display control part 22 ... CPU part 23 ... Memory | storage part 30 ... Power generation part 31 ... Voltage detection part 40 ... Electric power supply part

Claims (9)

A display device comprising a power generation element for displaying a plurality of information,
Display means for displaying any of the plurality of information;
Storage means for storing the plurality of information in association with page information for each information displayed at a time on the display means, and storing the page information and flag information in association with each other;
A calculation means for referring to page information corresponding to flag information of the storage means after the voltage supplied to the display device is reduced and the display device is reset;
Display control means for controlling to display information displayed on the display means at a time corresponding to the page information from the page information referred to by the calculation means,
The display device characterized in that the calculation means sets flag information after referring to page information corresponding to the flag information in the storage means. The display device according to claim 1,
The calculation means includes flag information stored in the storage means when a voltage is applied to the display device after the voltage supplied to the display device is reduced and the display device is reset, and the calculation means starts operating. Information to be displayed on the display means first when there is no page information corresponding to the incremented flag information. A display device characterized in that it is set to a value corresponding to page information corresponding to. The display device according to claim 1,
The computing means first displays flag information when a voltage is applied to the display device after the voltage supplied to the display device is reduced and the display device is reset, and the computing means starts operating. After setting the value corresponding to the page information corresponding to the information to be displayed on the display means, the page information corresponding to the flag information of the storage means is referred to, and then the flag information is incremented and incremented. When there is no page information corresponding to the flag information, the flag information is first set to a value corresponding to page information corresponding to information to be displayed on the display means. The display device according to claim 3,
Voltage detection means for detecting a power generation voltage generated by the power generation element;
After the voltage detection means detects a voltage exceeding a second voltage higher than the first voltage, a voltage between the first voltage and the second voltage is detected, and then a voltage exceeding the second voltage is detected. When detected, the calculation means refers to page information corresponding to the flag information of the storage means, increments the flag information, and if there is no page information corresponding to the incremented flag information, the flag information Is first set to a value corresponding to page information corresponding to information to be displayed on the display means. The display device according to claim 4,
The display is characterized in that the first voltage is a voltage equal to or lower than a voltage that is guaranteed to operate in the computing means, and the second voltage is a voltage that is guaranteed to operate in the computing means. apparatus. The display device according to any one of claims 1 to 5,
A voltage generated from the power generation element is stored in power supply means, and at least the storage means and the calculation means are supplied with the voltage stored in the power supply means. The display device according to any one of claims 1 to 6,
The display device, wherein the power generating element is a solar cell. A control method for a display device including a power generation element that displays a plurality of information,
A display step of displaying any of the plurality of information;
Storing the plurality of information in association with page information for each information displayed at one time in the display step, and storing the page information and flag information in association with each other;
A calculation step of referring to page information corresponding to flag information of the storage unit after the voltage supplied to the display device is reduced and the display device is reset;
A display control step for controlling to display in the display step information displayed at a time in the display step, corresponding to the page information from the page information referred in the calculation step,
In the calculation step, the display device is reset, and flag information is set after referring to page information corresponding to the flag information in the storage step. A computer included in a display device including a power generation element that displays a plurality of information,
Display means for displaying any of the plurality of information;
Storage means for storing the plurality of information in association with page information for each piece of information displayed at a time on the display means, and storing page information and flag information in association with each other;
Arithmetic means for referring to page information corresponding to flag information of the storage means after the voltage supplied to the display device is lowered and the display device is reset;
Causing the page information referred to by the computing means to function as display control means for controlling the display means to display information displayed at once on the display means, corresponding to the page information;
The control program for a display device, characterized in that the calculation means exhibits a function of setting flag information after the display device is reset and referring to page information corresponding to flag information in the storage means.

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