JPH0430285A - Memory card - Google Patents

Abstract

PURPOSE:To make it unnecessary to stick a label on the surface of a memory card by displaying the contents of a submemory storing identification data to identify the memory card. CONSTITUTION:The display part unit 11 of the memory card 10 is provided with a display part 13 and the submemory 14 under the control of a control part 12. The submemory 14 is constituted so that it can be read or written through an external interface part in the control part 12. Besides, the display part 13 is constituted so that is displays data contents stored in the submemory 14 through the control part 12. Then, an identification code for identifying the contents of the memory card 10 is stored in the submemory 14, and the identification code stored in the submemory 14 always is displayed by the display part 13. Thus, the contents of the memory card 10 always are identified by seeing the displayed contents of the display part 13.

Description

[Detailed Description of the Invention] [Field of Industrial Application] The present invention relates to a memory card, and in particular, a built-in backup battery can prevent data stored in the main memory from being lost, and the present invention can be installed in a data processing device main body. This invention relates to a memory card that can prevent errors.

[Conventional technology]

With the rapid development of semiconductor manufacturing technology, large-capacity semiconductor memories have become available at low cost, and as a result, removable memory cards have been developed that can be used as large-capacity data files in external memory. It looks like this.

FIG. 6 is a circuit block diagram showing an example of a conventional memory card. In FIG. 6, reference numeral 1 indicates the entire memory card, and reference numeral 2 indicates a connector for attaching to the main body of the data processing apparatus. 3 is the main memory built into the card (
(large capacity memory), 4 is a backup battery, 5 is a
is a diode, and 6 is a resistor. In the memory card 1, the main memory 3 is connected to, for example, a bus interface of a processor (CPU) of a data processing device via a connector 2, and reading or writing from the main memory 3 is performed. When the memory card 1 is removed from the data processing device main body, power is supplied to the main memory 3 by the backup battery 4 via the diode 5, so that the data stored in the main memory 3 is not lost. There is. The signal terminals shown in the left column of the connector 2 indicate main signal terminals. Vcc is an external power supply terminal for the main memory, and ADD-BAS
is an address bus interface terminal. DATA-B
AS is a data bus interface terminal. WE is a write enable terminal for writing or reading the main memory, and CE is a chip enable terminal for selecting a memory card. GND is a grounding terminal, and BATT-DET is a terminal for detecting that the voltage of the battery 4 has decreased.

The memory card 1 is inserted into a data processing device such as a terminal device and used as an external memory data file, but when removed from the terminal device, the memory card 1 is stored in the main memory 3 by a built-in backup battery 4. Power is supplied and the data stored in the main memory 3 is protected from being erased. Further, when attached to a terminal device, power is supplied from the power supply terminal Vcc.

In order to prevent deterioration of the battery 4, a diode 5 prevents the battery 4 from being charged with the power from the power supply terminal Vcc. Resistor 6 is BATT-DET! It is a protective resistance against children.

Note that, as a technical document regarding the standards of this type of memory card, for example, there is "IC Memory Card Guidelines" (published in September 1986) of the Personal Computer Business Committee of the Japan Electronics Industry Promotion Association.

[Problem to be solved by the invention]

By the way, the most common way to use a memory card is to attach a label to the outside of the memory card casing to identify the data stored on the memory card. There is.

However, pasting such a label is a cumbersome task, and there are cases where the label is pasted incorrectly. Also,
If you change the data stored on the memory card,
The labels to be pasted must be changed accordingly, and the management thereof is complicated and operationally problematic.

In order to check the data content stored on a memory card, the memory card must be inserted into a terminal device and some of the data stored on the memory card must be read out. In this case, unless the data to be read is selected appropriately, the data contents may not be confirmed.

Furthermore, since the memory card connector is a multi-core connector, there is a problem in that it is difficult to quickly attach and detach the memory card.

Regarding the memory card's backup power battery, if a drop in the voltage of the battery 4 is not detected externally through the BATT-DET terminal, there is no way to know if there is sufficient discharge capacity remaining or the voltage has dropped, resulting in a dangerous situation. It is not possible to judge independently whether the situation is the same or not. Therefore, if the memory card is left alone, there is a problem that the data may be lost and the data on the memory card may not be guaranteed.

The present invention has been made to solve these problems.

SUMMARY OF THE INVENTION An object of the present invention is to provide a memory card that prevents data stored in a large-capacity memory from disappearing using a built-in backup battery and prevents erroneous insertion into a data processing device main body.

Another object of the present invention is to provide a memory card that prevents the loss of data stored in a large capacity memory using a built-in backup battery, in which data contents and the status of the built-in backup battery can be easily checked. It's about doing.

[Means to solve the problem]

In order to achieve the above object, the memory card of the present invention includes a connector that can be attached and detached from a data processing device, a large-capacity main memory used as a data file of the data processing device, and a backup that guarantees memory retention operation of the main memory. A battery, and a sub-memory that stores identification data for identifying the memory card.

It is characterized by having an external interface section that reads/writes the submemory and performs data input/output processing, and a display section that displays the contents of the submemory.

Furthermore, a low voltage detection mechanism is provided to detect a voltage drop in the backup battery by comparing it with a predetermined threshold voltage. The feature is that a warning is displayed in the section.

[Effect]

According to this, the memory card is provided with a sub-memory and a display section that displays the contents of the sub-memory in addition to the main memory and backup battery that constitute the memory card. A display identifying the contents of the memory card written on the label is stored in the submemory as an identification code, and the identification code stored in the submemory is displayed on the display section. This allows the contents of the memory card to be identified at all times. Therefore, since the function of a conventional label is realized by the sub-memory and the display section, there is no need to bother with pasting a label on a memory card, and there is no mismatch between the label description and the data content.

Furthermore, this memory card is provided with a low voltage detection mechanism for monitoring the voltage of a backup battery built into the memory card. The low voltage detection mechanism monitors the voltage drop of the backup battery, and when a voltage drop below a predetermined value is detected, a warning is displayed on the display unit. This allows the display to notify you of a drop in backup battery voltage through a warning display such as a blinking display, so you can always
It is possible to check for battery voltage drops and ensure data loss.

〔Example〕

Hereinafter, one embodiment of the present invention will be specifically described using the drawings.

FIG. 1 is an external view of a memory card according to an embodiment of the present invention. In FIG. 1, 2 is a connector for connecting to a data processing device such as a terminal device, 10 indicates the entire memory card, and 13 indicates a display section.

The display unit 13 is, for example, a liquid crystal type display that consumes little driving power.

A Nirektrochromink type display device is used.

FIG. 2 is a circuit block diagram showing the internal circuit configuration of a memory card according to an embodiment of the present invention.

In FIG. 2, 2 is a connector, 3 is a main memory, 4 is a backup battery, 5 is a diode, and 6 is a resistor. These are similar to those described with the same reference numerals as the memory card described in FIG. 6. The same applies to the external terminals of the connector 2. Vcc is an external power supply terminal for the main memory;
D-BAS is an address bus interface terminal.

DATA-RAS is a data bus interface terminal. WE is a write enable terminal for writing or reading the main memory, and CE is a chip enable terminal for selecting a memory card. GND is a grounding terminal, and BATT-DET is a terminal for detecting that the voltage of the battery 4 has decreased. 10
indicates the entire memory card, 11 indicates a display unit,
12 is a control section including an external interface section. 13
14 is a display section, and 14 is a sub memory.

The display unit 11 of the memory card 1o has a control unit 12.
It has a display section 13 and a sub-memory 14 under the control of. The sub-memory 14 is configured to be readable or writable via an external interface section in the control section 12. In addition, the display section 13 is connected to the control section 12.
It is configured to display the data contents stored in the sub-memory 14 via the sub-memory 14.

The sub-memory 14 stores an identification code for identifying the contents of the memory card 10. The identification code stored in the sub-memory 14 is always displayed on the display unit 13. As a result, the contents of the memory card 10 can always be identified by looking at the contents displayed on the display unit 13. FIG. 3 is a circuit block diagram showing the internal circuit configuration of a memory card according to another embodiment of the present invention. It is. In FIG. 3, elements with the same reference numerals as those in FIG.
showing the same thing. Memory card 20 in this figure 3
In addition.

A low voltage detection mechanism 15 is provided. The low voltage detection mechanism 15 monitors the voltage of the backup battery 4 by comparing it with a predetermined threshold voltage, and monitors the data guarantee voltage of the main memory 3 (this data guarantee voltage is higher than the actual data guarantee voltage with some margin). When the voltage falls below a high set voltage, an activation signal is generated to the control unit 12 to activate a warning display.

In response to this activation signal, the control section 12 sets the display section 13 to a blinking display mode in order to set the display section 13 to a warning display mode. This notifies the user of the voltage drop in the backup battery 4. Such a warning display of a voltage drop of the backup battery 4 does not use the low voltage detection mechanism 15 to determine a voltage drop based on a threshold voltage (data guarantee voltage) of only one value, but instead uses two comparison reference voltage values. may be provided, and the low voltage detection mechanism 15 may sequentially detect a voltage drop by comparing with a plurality of comparison reference voltages. In this case, in the first stage warning display, for example, the interval between blinks in the blink display is lengthened. At this stage, the built-in battery can be replaced with plenty of time.

In the next second stage of warning display, for example, the interval between blinks in the blink display is shortened. After entering this second stage warning display, the built-in battery may be replaced urgently. With this configuration, the memory card 2
0 improves usability.

Moreover, in this memory card 20, in particular, a display control switch 1 is provided in the drive power supply path for the display section 13.
There are 6. This display control switch 16 is used when displaying on the display section 13 is unnecessary, for example, when the memory card is installed in a terminal device, when the memo card is securely managed, etc. The power consumption of the backup battery 4 is further reduced by stopping the driving power to the display and stopping the display. In this case, if the display control switch 16 is a control switch that only displays the display when it is necessary, the battery voltage drop will not be displayed. , so that the display is stopped only when it is not necessary. Therefore, as the display switch 16, an electronic switch whose display control switch is enabled/disabled is controlled by the low voltage checking mechanism 15.

FIG. 4 is a block diagram showing the overall system configuration of a data processing system in which a memory card is connected to a data processing device. It shows the connection relationship between the data processing device and the memory card.

In FIG. 4, 30 indicates a terminal device of the data processing device. 31 is a microcomputer, 32 is a control unit for controlling the entire system under the microcomputer 31, 33 is a keyboard for inputting data, etc., 34
35 is a main memory for storing data or programs, and 35 is a display section of a display device for displaying input data or output data. Control part 3
2 is connected to signal lines for various signals for controlling the entire system, but here, the address bus interface ADD-BAS and the data bus interface D
Only the ATA-RAS signal line is shown, and the others are omitted. The memory card 10 and the terminal device 30 are connected by these bus interfaces, data to be stored in the memory card 10 is written from the terminal device 30, and data stored in the memory card 10 is transferred to the terminal device 30 side. led by. At this time, identification data for identifying the content of the data stored in the memory card 10 is written in the sub-memory 14, and thereafter, the display section 13 of the memory card 10 displays the identification data written in the sub-memory 14. The data will now be displayed. FIG. 5 shows an example of a process in which identification data is stored in the submemory in this manner so that the data stored in the main memory of the memory card can be checked at all times.

FIG. 5 is a flowchart showing an example of a process for managing data stored in a memory card using identification data stored in a sub-memory. This will be explained with reference to FIG. The display section 51 of the memory card 50 shows rH engineering TAC-
A type of label name DATA-IJ is displayed, which is an example in which the contents of the identification code of the sub-memory 14 are displayed. In step 41, this memory card 50 is set in the terminal device.

This is set by attaching the connector of the memory card 50 to the connector of the loading device. Next, in step 42, a program on the terminal device itself is started. Next, in step 43, the identification code A of the contents of the submemory 14 is first taken into a buffer in the control section of the terminal device main body. This identification code A is data including the display content displayed on the display section 51 of the memory card 50. Next, in step 44, the identification code A
Check the contents. If the contents of the imported identification code A do not match the identification code of the label name requested by the terminal device, the process proceeds to an error processing routine and performs error processing. In the error handling, a message is displayed indicating that the memory card installed is incorrect, indicating that the memory card has been installed incorrectly, and a message is also displayed urging the user to set the correct memory card.

In the determination process of step 44, it is determined that the content of the imported identification code A matches the identification code of the requested label name, and if the label name of A is OK, the process advances to step 45. Next, for example, data B to be stored in a file after data processing is stored in the main memory (data file) of the memory card. This is done in the main memory 34 on the side of the terminal in step 45.
From there, data B is transferred to the main memory of the memory card 50. Next, in step 46, processing is performed to update the identification code of the contents of the submemory to A-+A'. Here, the identification code A' of the submemory to be updated is assumed to be the title label name of the data B.

Next, in step 47, the program is stopped, and in the next step 48, the memory card 50 is made removable from the terminal device, and the process ends. Thereby, the memory card 50 can be removed from the terminal device. After this time, on the display section 61 of the memory card 60 where the data content of the main memory has been changed, the display content has changed, and for example, the content is displayed as rHITAC-DATA-2J.

In this way, by updating the contents of the identification code stored in the sub-memory along with updating the data stored in the main memory of the memory card, it is possible to accurately confirm the contents of the data stored in the memory card. be able to. In other words, insert the memory card into the data processing device main body,
When performing data processing using the main memory of a memory card as a data file, when the memory card is inserted into the main body of a terminal device (data processing device), the device main body stores the identification data stored in the sub-memory of the memory card. If the identification data does not match the predetermined identification data of the memory card to be installed, a message indicating that the memory card has been installed incorrectly is displayed and output.

Furthermore, when a memory card is inserted into the main body of the device, the main body of the data processing device reads the identification data stored in the sub-memory, and if it matches the predetermined identification data of the memory card to be inserted, the main body of the memory card Reads data from memory and performs data processing. Also, when writing processed data to the main memory of a memory card, it reads the identification data stored in the sub-memory, checks the identification data of the memory card to be installed, and corrects the memory card. If it is identification data,
The data is written to the main memory of the memory card, and the identification data in the sub memory is updated to identification data indicating that the data has been updated.

The present invention has been specifically explained above based on examples, but
It goes without saying that the present invention is not limited to the embodiments described above, and can be modified in various ways without departing from the spirit thereof.

〔Effect of the invention〕

As explained above, according to the present invention, the contents of the memory card can always be identified, so there is no need to paste a label etc. on the surface of the memory card, and there is no possibility of pasting the wrong label, making it easier to use. , an improvement in operability can be expected. Furthermore, since the time to replace the battery is visually displayed, the operability of the Mesori card is improved.

[Brief explanation of drawings]

FIG. 1 is an external view of a memory card according to an embodiment of the present invention, FIG. 2 is a circuit block diagram showing the internal circuit configuration of a memory card according to an embodiment of the present invention, and FIG. 3 is a circuit block diagram showing the internal circuit configuration of a memory card according to an embodiment of the present invention. FIG. 4 is a circuit block diagram showing the internal circuit structure of a memory card according to another embodiment of the invention, and shows the overall system structure of a data processing system in which the memory card is connected to a data processing device. Block diagram: FIG. 5 is a flowchart showing an example of processing for managing data stored in a memory card using identification data stored in the sub-memory; FIG. 6 is a circuit block diagram showing an example of a conventional memory card. It is. In the figure, 1 is a memory card, 2 is a connector, 3 is a main memory (large capacity memory), 4 is a backup battery, 5 is a diode, 6 is a resistor, 10 is a memory card, 11 is a display unit, and 12 is a control unit It is. 13 is a display section, 1
4 is a submemory, 15 is a low voltage detection mechanism, 30 is a terminal device (data processing device), 31 is a microcomputer,
32 is a control unit, 33 is a keyboard, 34 is a main memory, 3
5 is a display unit (display unit W).

Claims (1)

[Scope of Claims] 1. A connector detachably connected to a data processing device, a large-capacity main memory used as a data file of the data processing device, a backup battery that guarantees memory retention operation of the main memory, and a memory card. A submemory that stores identification data for identification, and a submemory that reads/writes the submemory.
A memory card characterized by having an external interface section that performs data input/output processing and a display section that displays the contents of a sub-memory. 2. Each circuit that constitutes the main memory, external interface section, backup battery, sub-memory, and display section is mounted on a board formed integrally with the connector, and is detachable from the data processing device using the connector. The memory card according to claim 1. 3. The memory card according to claim 1 further includes a low voltage detection mechanism that detects a voltage drop in the backup battery by comparing it with a predetermined threshold voltage, and the low voltage detection mechanism monitors the voltage drop in the backup battery. A memory card characterized in that when a voltage drop below a predetermined value is detected, a warning is displayed on a display section. 4. A data processing system in which the memory card according to claim 1 is installed in a data processing device main body, and data processing is performed using the main memory of the memory card as a data file, the memory card being installed in the data processing device main body. At this time, the data processing device reads the identification data stored in the sub-memory, and if it does not match the predetermined identification data of the memory card to be installed, it displays and outputs a message indicating that the memory card has been installed incorrectly. A data processing system characterized by: 5. A data processing system in which the memory card according to claim 1 is installed in a data processing device main body, and data processing is performed using the main memory of the memory card as a data file, the memory card being installed in the data processing device main body. At this time, the data processing device reads the identification data stored in the sub memory, and if it matches the predetermined identification data of the memory card to be installed, reads the data from the main memory of the memory card and starts data processing. 1. A data processing system characterized in that when the data processed is written to the main memory of a memory card, identification data in the sub memory is updated to identification data indicating that the data has been updated.