JPH02110643A - Attachable and detachable memory card - Google Patents

Abstract

PURPOSE:To prevent the loss of information in the title memory card to be used as either a main memory or an auxiliary memory caused by an artificial malfunction by starting software on the memory card when the memory card is inserted and starting backup processing at a system side when the memory card is extracted. CONSTITUTION:When the memory card is inserted, a built-in switch 11 is turned on, and a card attaching and detaching signal (a) is turned on. Further, when the signal (a) and a software seizing signal (c) are simultaneously made into an active state, the system side temporarily stops an executing program, saves a parameter necessary for reexecuting the program in a work area, and executes another program on the card. On the other hand, when the card is extracted and the signal (a) is made into the active state, the system informs a user of an extraction inhibited state by an indicator on signal (b) when backup information exists. Further, the system records necessary information in the card, after that turns off the signal (b), and informs the user of an extraction allowed state.

Description

[Detailed Description of the Invention] [Summary] This invention relates to a removable memory card for system expansion, its connector, and card signal processing circuit, and the present invention relates to a removable memory card for system expansion, a connector for the card, and a card signal processing circuit. This is a removable memory card for the purpose of eliminating human error and complexity in system expansion, and the removable memory card has a card insertion/removal signal that notifies the system side of the installation/removal of the memory card. a generating means, a display means for generating an indicator signal and confirming from the system side whether a memory card is inserted or removed, a software starting means for requesting starting of software on the memory card, and a card presence indicating that a memory card is inserted. The memory card is configured to perform processing for activating software on the card when the memory card is inserted, and to activate backup processing on the system side when the memory card is removed.

[Industrial Application Field] The present invention relates to a removable memory card for expanding a system, a connector therefor, and a card signal processing circuit.

When using information equipment in an information processing system, data is typically temporarily stored and retained in an auxiliary storage device or a memory card. Such memory cards are being developed into various forms due to diversification of user requirements, demands for expansion of models, etc.

However, before data is stored in these memory card storage means, an accident may occur in which the power is cut off or the card is removed due to human error. The loss of information due to such erroneous operations is unavoidable as long as human operations are involved.

Therefore, it is necessary to prevent information loss from memory cards caused by such human-induced accidents.

[Problems to be solved by conventional techniques and inventions] In recent years,
File management using memory cards is becoming common. In this case, there are many cases where the memory card is replaced while the power is on due to some request, such as replacing a Kanji ROM card. Conventionally, in this type of usage, a user instructs the system to provide information necessary when replacing a memory card.

However, a situation may occur where information is lost due to some kind of human error. Conventionally, no measures have been taken to eliminate such erroneous operations, and an example of a countermeasure that has been taken is for a predetermined information device to manage all insertion and removal of memory cards. However, this method makes the entire system complicated and expensive, which goes against the trend of miniaturization and cost reduction.

An object of the present invention is to provide a removable memory card, its connector, and a card signal processing circuit that can eliminate human errors and complications when attaching and detaching a memory card when backing up information or starting an application on the card. Our goal is to provide the following.

[Means to solve the problem]

The present invention is a removable memory card for expanding a system, and the removable memory card (1) includes a card attachment/detachment signal generating means (11) for notifying the system side of attachment/detachment of the memory card, and an indicator. Display means (12) that generates a signal and confirms from the system side whether the memory card is inserted or removed
), software activation means (13) for requesting activation of software on the memory card, and card presence signal generation means (14) for indicating that the memory card is inserted.
It is characterized in that the software on the memory card is activated when the memory card is inserted, and the backup process on the system side is activated when the memory card is removed.The software activation means (13) and the card presence signal are The generating means (14) is a grounding part in the memory card, and the grounding part is connected to a metal sheet (21) attached to the tip of the memory card, and is further installed on the system side and connected to the metal sheet (21) of the memory card. A connector (2) for the memory card is provided, which includes a metal spring (24) that initially contacts the metal sheet during insertion, and a contact pin (24) that contacts a signal line in the memory card after contact with the metal sheet. , further connected to the contact pin of the connector, and receiving the card attachment/detachment signal (a).
a first flip-flop (F1) for receiving said software activation signal (c) and a card presence signal (d); and a second flip-flop for receiving said indicator signal; A card signal processing circuit for the memory card is provided on the side to output the mounting state of the memory card.

[Effect]

The present invention makes it possible to automatically start backup processing on the system side when the memory card is removed when the memory card is used as main memory or auxiliary memory, and to automatically start the backup process on the system side when the card is inserted into the memory such as an application. The software on the card can be started, thereby preventing information loss due to human error when removing the memory card while it is in use, and after the power is turned off when starting the conventional card application. This eliminates the need to restart the system.

〔Example〕

FIG. 1 is a schematic internal structural diagram of a removable memory card of the present invention. In the figure, reference numeral 11 is a built-in switch such as a momentary switch, which is provided at the part that the user's fingers touch when the memory card is inserted or removed.When the memory card is held, it turns on and sends a card insertion/removal signal to notify the system that the memory card has been inserted or removed. a).

Reference numeral 12 denotes an indicator as a display device, which is turned on by an on signal (b) from the system side.

Reference numeral 13 denotes a software activation means for requesting activation of the software on the memory card, and a software activation signal (c
) is sent. This software activation means is, for example, a grounding section within the memory card, and when inserted into a connector to be described later, it first outputs a low-level software activation signal.

Reference numeral 14 denotes a card presence signal generating means that indicates that a memory card is inserted, and sends out a card presence signal (d). This signal is also grounded when the memory card is inserted and becomes a low level signal.

FIGS. 2(a), 2(c), and 2(c) show the structure of the tip end of the memory card and the female connector on the side of the device that receives this memory card. In (a), a metal sheet 21 is attached to the tip of the memory card l, and the ground side (GND) inside the card is attached.
) is connected to. 22 is a plurality of contact pins connected to the circuit inside the card. In (b), the connector 2 is connected to the ground side of the device and has a metal spring 23 that contacts the metal sheet 21 and a male contact pin 24 that engages with the contact pin 22. (c) is a diagram showing the state in which the memory card and the connector are installed. When the memory card is inserted, the metal sheet 21 and the metal spring 23 first become electrically conductive, and then
Contact pins 22 and 24 are then connected.

In such a configuration, the basic operation of the present invention is that when a memory card is inserted, when the card insertion/removal signal (a) and the software activation signal (c) become active at the same time, the system temporarily suspends the currently running program. The program on the card is executed with the parameters required for re-execution temporarily saved in the work area. and,
When only the card insertion/removal signal (d) becomes active, the system adds the fact that the memory card has been installed to the current system configuration information and allows the application to use it as part of the main memory.

On the other hand, when the card is removed, when the card insertion/removal signal becomes active, the system first notifies the user of prohibition of removal using an indicator-on signal if there is backup information. After recording the necessary information on the memory card, the card is disconnected from the system pass line, and the indicator signal is turned off to notify the user that removal is possible.

FIG. 3 shows the circuit configuration of an embodiment of a card signal processing circuit that receives signals from a removable memory card according to the present invention. In the figure, in the card signal processing circuit 3, a built-in switch 11 is a normal momentary switch, and generates a card attachment/detachment signal (a). Further, the indicator 12 notifies the user that withdrawal of the card is prohibited. Furthermore, a software activation signal (c) is sent from the software activation means 13, and a card presence signal (d) is sent from the memory card to the system from the card presence signal generation means 14.

The system side interface is composed of a flip-flop F1 that generates an interrupt signal IRQ, an indicator-on signal (2), a flip-flop F2 that controls the indicator-on signal, and a boat P1. Boat P
1 includes a software activation signal (c) and a card presence signal (
d) is input.

The operation will be explained below in three cases: when the card is inserted, when the card is removed, and when the system is started.

(1) At the time of card insertion When the memory card 1 is inserted into the connector 2, the ground line is connected to the system side before the signal line in the memory card is connected due to the connector structure shown in FIG. That is, the card attachment/detachment signal (a) is turned on and becomes low level, and the software activation signal (c) and card presence signal (d) all become low level "'L"'.

The input terminal 11 of the system side game (G1) is previously pulled up by a resistor R, and becomes low level by the card insertion/removal signal (a) when the card is inserted. A write signal W-Pi to the boat is input to the other input (2) of the gate. The output of gate G1 is applied to the clock terminal (cLK) of flip-flop F1, activating interrupt signal IRQ. When the system receives this IRQ, it clears the IRQ using the interrupt request release signal CLR-IRQ, and then reads P1.

FIG. 4 is an operation time chart of the boat P1.

The input terminal DI, 02 of the boat P1 is also set to high level in advance by the pull-up resistor R, but is pulled down to low level by the software activation signal (c) and card presence signal (d). Boat P1 has input terminal S
The manual input is latched by the rising edge Ll of the PIIJ-code signal R-PL which is input to the TB and manually input to read the contents of the boat.

Note that On and On are an input terminal and an output terminal, respectively, and n=1.2. ---n.

When reading for the first time, the changed software activation signal (c) and card presence signal (d) are not latched yet, and the output DC and Od are recognized by the system as high level ``H''.This reading At the end of P1, the software activation signal (c) and card presence signal (c1) are latched, and at the second reading, these outputs are recognized as low level.
By reading the , it is possible to identify whether the interrupt request is for card insertion or card removal. ,
After the output DC and Od are recognized as low level, the system performs processing according to the state of each signal.

(2) When the card is removed, an interrupt request is generated as in (1), and the system is in baud.
PI is read twice, but both times the output is Oc.

Od is low level. For this reason, the system regards this as an interruption when the card is removed, and performs corresponding processing such as backup processing when the card is removed. Also, at this time, the flip-flop F2 is set by the interrupt request signal IRQ and the card presence signal (d) to turn on the indicator in the card. After the system performs the processing at the time of extraction,
Activate the indicator off signal (e). After confirming that the indicator has disappeared, the user removes the card.

(3) At system startup After the system initialization is complete, the system performs a write operation to boat P1. This operation causes the interrupt signal IRΩ to become active and the system performs interrupt processing. Also, by writing to the boat P1, the boat PL is preset, and the output Oc is output regardless of whether a card is inserted or not.
, Od is set to ``H''. Therefore, in the interrupt processing, read the port P1 (and if the card is inserted, the output Oc and Od become ``BI'' on the second read,
If no card is inserted, the output (Oc, Od) is 'H''
becomes. The former case is the same as when a card is inserted, and the same processing as when the card is inserted may be assigned.

In the latter case, it is treated as if the card is not inserted.

The table below shows the output O by reading port P1 twice.
c, shows processing corresponding to changes in Od. In this way, insertion and removal of the card can be identified and processing can be performed accordingly.

Table [Effects of the Invention] As described above, according to the present invention, it is possible to prevent information from disappearing due to human erroneous operation by prohibiting card removal using a prohibition indicator when the card is removed. In addition, when performing work while repeatedly attaching and detaching several application cards, by automatically backing up the re-execution parameters in the card, it is possible to immediately resume execution from the point where it was interrupted when the card is inserted. It becomes possible. In the present invention, backup and software startup are performed in conjunction with the common act of inserting and removing a card, thereby providing a more preferable user environment compared to the conventional environment that requires special backup operations and software startup operations. be able to.

[Brief explanation of the drawing]

FIG. 1 is a schematic internal structure diagram of a removable memory card of the present invention, and FIGS. FIG. 3 is a card signal processing circuit diagram of an embodiment of the present invention, and FIG. 4 is a signal time chart of the ports in FIG. 3. (Explanation of symbols) 1...Removable memory card, 2...Connector,
3... Card signal generation circuit, 11... Built-in switch, 12... Indicator, 13... Software activation means, 14... Card presence signal generation means, Fl, F2... Flip-flop, Pl...Port, 21...Metal sheet, 22, 24...Contact pin, 23...Metal spring. FIG. 1 is a schematic internal structure diagram of the removable memory card of the present invention.

Claims (1)

[Scope of Claims] 1. A removable memory card for expanding the system, the removable memory card having a card attachment/detachment signal generating means (1) for notifying the system side of attachment/detachment of the memory card.
1), a display means (12) that generates an indicator signal and confirms from the system whether the memory card is inserted or removed, and a software activation means (13) that requests activation of the software on the memory card; A card presence signal generating means (14) indicating that a memory card is present, performs a process of activating software on the card when the memory card is inserted, and activates a backup process on the system side when the memory card is removed. formula memory card. 2. The software activation means (13) and the card presence signal generation means (14) are grounded parts within the memory card;
2. The removable memory card according to claim 1, wherein the grounding part is connected to a metal sheet (21) attached to the leading end of the memory card. 3. A metal spring (installed on the system side) that first contacts the metal sheet when the memory card is inserted.
24); and a contact pin (24) that contacts a signal line in the memory card after contact with the metal sheet. 4. A first flip-flop (F1) that is connected to the contact pin of the connector and receives the card attachment/removal signal (a), and a port (P1) that receives the software activation signal (c) and the card presence signal (d). ) and a second flip-flop receiving the indicator signal;
A card signal processing circuit for the memory card that outputs a mounting state of the memory card to a system side.