JPH02219149A - Memory card incorporating microprocessor - Google Patents

Abstract

PURPOSE:To easily and securely store data by using a random access memory RAM to external data input and output, storing the data of the RAM on a read-only memory EEPROM which is electrically erasable, and using a microprocessor for control between those memories. CONSTITUTION:The memory card is connected to external equipment 1 and when the memory card is powered on by an external power source 11, a power source monitor part 7 outputs a power source normalcy signal 12. Then, the microprocessor 5 starts operating to transfer the contents of the EEPROM 4 to the RAM 3 through an internal address bus 14 and an internal data bus 15. When the transfer is completed, the microprocessor 5 outputs a card readable signal as a memory card control signal 10. The external equipment recognizes that the memory card is usable from the card OK signal and inputs and outputs data to and from the RAM 3 through an external address bus 8 and an external data bus 9. Consequently, target data can securely be held on the memory card.

Description

DETAILED DESCRIPTION OF THE INVENTION [Field of Industrial Application] The present invention relates to a memory card with a built-in microprocessor, and more particularly to a memory card with a built-in microprocessor for use in digital data application equipment such as small-sized personal computer systems.

[Conventional technology]

Conventional memory cards use read-only memory (RO
For those with built-in memory (referred to as M), data that has been recorded once can only be read out; random access memory (
For those using RAM (hereinafter referred to as RAM), a method was adopted in which a small battery was used to retain the contents.

[Problem to be solved by the invention]

In the conventional memory card with a built-in microprocessor (hereinafter referred to as a memory card) mentioned above, if a ROM is used, it is impossible to change the data without replacing the memory itself. memory(
Even when using an EEPROM (hereinafter referred to as EEPROM), when changing stored data, it is necessary to transfer the contents of the memory card to a device connected to the memory card, erase the memory, and transfer the data. When considering versatility, this becomes a problem because the external device must be equipped with memory for this purpose. In addition, in the case of a memory card that uses a RAM that has a built-in small battery and can retain memory contents, the data retention period is the lifespan of the built-in battery, and the data stored in the memory due to external noise etc. when the memory card is inserted or removed. There was a problem in that the data that was created could be destroyed.

An object of the present invention is to provide a memory card that solves the above problems.

[Means to solve the problem]

A memory card with a built-in microprocessor of the present invention includes an electrically erasable read-only memory and a random access memory, and uses the random access memory for external data input/output. The method comprises storing data in the electrically erasable read only memory and using a microprocessor to control the electrically erasable read only memory and the random access memory.

〔Example〕

Next, the present invention will be explained with reference to the drawings.

FIG. 1 is a block diagram showing the configuration of an embodiment of the present invention.

1 is an external device connected to the memory card, and 2 is a memory card connector. When the memory card 1 is connected to an external device and the external power supply 11 is supplied to the memory card 1,
The power supply monitoring unit 7 outputs a power supply normal signal 12. Then, the microprocessor 5 starts operating and the EEPR
The contents of OM 4 are transferred to RAM 3 via internal address bus 14 and internal data bus 15. 1
3 is a RAM control signal, and 16 is a ROM control signal.

When the transfer is completed, the microprocessor 5 outputs a card readable signal (hereinafter referred to as a card OK signal) in the memory card control signal 10. The external device 1 recognizes that the memory card can be used by the card OK signal, and inputs and outputs data to and from the RAM 3 through the external address bus 8 and external data bus 9.
Data input/output between the AM 3 and the external device 1 is performed using read and write signals in the memory card control signal 10. Memory card control signal 10 indicates card OK
, read, write, backup/write prohibited,
Consists of six ROM references.

If the RAM 3 is changed and you want to put the data into retention mode, output the backup signal of the memory card control signal 10 from the external device to save the RAM 3.
The contents of 3 are EEPR'd by microprocessor 5.
After electrically erasing the contents of OM4, EEPROM
4 will be re-stored.

During re-storing, the card OK signal is not output. When the re-storing is completed, the card OK signal is output, so that the external device 1 can know that the target data is held in the memory card.

6 is a write inhibit switch, and when this switch is write inhibited, a write inhibit signal is output to the external device 1. At this time, the backup signal in the memory card control signal 10 is ignored. When a ROM reference signal is input from the external device 1, the contents of the EEPROM 4 are output to the external bus through the microprocessor, so it can be used for confirmation during backup or as a read-only memory card.

Note that it is desirable that the capacities of the EEPROM 4 and the RAM 3 be the same, but they do not necessarily have to be the same.

〔Effect of the invention〕

As explained above, the present invention provides a conventional memory card with a data retention function of a read-only memory card,
It has the convenience of a RAM card, and does not require a built-in battery for data storage, so it can be used to easily and reliably store data, especially in personal computers and small personal systems (word processors and data memory systems). There is an effect that it can be done.

[Brief explanation of the drawing]

FIG. 1 is a block diagram showing the configuration of an embodiment of the present invention. 1...External device, 2...Memory card connector, 3
... Random access memory, 4... Electrically erasable read-only memory, 5... Microprocessor, 6
...Write protection switch, 7...Power supply monitoring section.

Claims (1)

[Claims] It includes an electrically erasable read-only memory and a random access memory, the random access memory is used for data input/output with the outside, and the data in the random access memory is transferred to the electrically erasable read-only memory. and using a microprocessor to control the electrically erasable read-only memory and the random access memory.