RU94046277A

RU94046277A - METHOD FOR DATA RECORDING IN AN ENERGY INDEPENDENT MEMORY DEVICE, METHOD FOR USING THE DEVICE ON INTEGRATED CIRCUITS, THE DEVICE ON INTEGRATED CIRCUITS

Info

Publication number: RU94046277A
Application number: RU94046277/09A
Authority: RU
Inventors: Б.Эверетт Дэвид; М.Джэксон Кейт; Миллер Ян
Original assignee: Мондекс Интернэшнл Лимитед
Priority date: 1993-04-13
Filing date: 1994-04-13
Publication date: 1998-02-27

Claims

1. A method of recording data into a non-volatile memory device of an integrated circuit device having interface means for temporarily connecting to a terminal device, a microprocessor, a random access memory device and a non-volatile memory device, characterized in that a first region of the non-volatile memory device is assigned for data to be recorded , assign a second region of non-volatile memory to record status information, perform op radio writing data into the first region and the second information recording area showing a record valid data, unless the data write operation is performed satisfactorily.

2. The method of recording data in a non-volatile storage device according to claim 1, characterized in that the recording operation is carried out simultaneously on only one page of a non-volatile storage device divided into pages, wherein the first and second regions of the storage device are placed on different pages.

3. The method of recording data in a non-volatile memory device according to claim 1 or 2, characterized in that the non-volatile memory device is an electrically erasable programmable read-only memory device (EEPROM).

4. The method of using the device on integrated circuits, in which information is recorded and which includes a non-volatile storage device with an application program that controls the microprocessor to run a specific application under normal circumstances, characterized in that it involves the initial reading of the second part of the non-volatile storage device to extract information about the recording status from it, and if the information on the recording status shows an incomplete operation записи recording, provides for the round of the application program.

5. The method of using the device on integrated circuits according to claim 4, characterized in that it includes, upon detection of an incomplete recording operation, an effective data recovery procedure to bring the device into a state in which the last data record is correct, and status information in the second storage area devices reflect this.

6. The method of using the device on integrated circuits according to claim 5, characterized in that it includes the step of monitoring the data recovery procedure and executing the application run, which is impossible if the data recovery procedure has not been successful.

7. The method of using the device on integrated circuits according to claim 6, characterized in that it includes the step of permanently locking the device if the data recovery step is not successful.

8. The method of using the device on integrated circuits according to any one of paragraphs. 5 to 7, characterized in that the second area of the storage device is a status register, the status information indicates the last satisfactorily completed stage of the multi-stage sequence of operations, the data recovery procedure is effective to restore the multi-stage sequence of operations from the stage at which it was confirmed, as shown by the status register.

9. The method of using the device on integrated circuits according to claim 8, characterized in that the corresponding separate areas of the non-volatile memory are distributed as follows: a) a sequence register, which is the second region of the storage device; c) a buffer device for copying data; c) size register; d) an address register, and assign the RAM or non-volatile storage area as a buffer increment of data (e), and the first non-volatile storage area is identified by the size and address of the data recorded in areas (c) and (d) of the storage device, method the record consists in: 1) ensuring that the buffer device (e) contains a reliable increment of data; 2) placing a copy of the data to be adjusted in the buffer device (c); 3) increment of register (a); 4) incrementing the data in the first area of the storage device by the amount located in the buffer device (e), and recording the incremental value in the first area of the storage device; 5) incrementing the sequence register (a).

10. The method of using the device on integrated circuits according to claim 9, characterized in that the recovery procedure includes taking a copy of the data from the data buffer device (c) into the first area of the storage device.

11. The method of using the device on integrated circuits according to any one of paragraphs. 5 to 7, characterized in that the second area of the storage device is a feature area, and the status information is a feature that is set if the write operation is confirmed as satisfactory, otherwise the feature is not set.

12. The method of using the device on integrated circuits according to claim 11, characterized in that, respectively, the individual areas of the non-volatile storage device are distributed as follows: f) a progress sign in the register that represents the second area of the storage device, g) a register of the work area pointer; h) size register; i) a data pointer register, and the RAM or non-volatile memory areas are determined as a new data pointer register (j), the first non-volatile memory area being identified by the size and location of data recorded in the memory areas (g) and (h), The recording method includes: 1) setting the pointer of the workspace in register (g) to the address of the workspace of the non-volatile storage device, sufficient to store a group of related data corresponding to size hold is reached in register (h); 2) taking to the workspace a copy of the new data identified by the address with a pointer to the new data in the register (j) and according to the size data in the register (h); 3) setting the entry in the register of the sign of promotion (f); 4) setting the address in the register of the data pointer (i) to the address of the workspace; 5) clearing the entry of the sign of progress in the register (f).

13. The method of using the device on integrated circuits according to claim 12, characterized in that the recovery procedure includes the steps of setting the address in the data register (i) to the address of the workspace and clearing the entry in the sign of progress in the register (f).

14. The method of using the device on integrated circuits according to claim 11, characterized in that the respective and separate areas of the non-volatile storage device are allocated as follows: k) a status indicator register, which is the second area of the storage device; l) size register; m) address register; n) a correction copy buffer device, the first region of the non-volatile storage device being identified by the size and location of the data recorded in the registers (l) and (m), and the recording method includes: 1) making a copy of the new data to be written to the buffer device (n) ; 2) setting the status indicator in the register (k); 3) recording of new data to be recorded in the first region of non-volatile storage device; 4) clearing the status indicator in register (k).

15. The method of using the device on integrated circuits according to 14, characterized in that the recovery procedure includes the steps of copying the contents of the buffer device to the copy of the correction (n) to the first area of the non-volatile storage device identified by the contents of the registers (f) and (m) and clearing a sign in register (k).

16. An integrated circuit device having interface means for temporarily connecting to a terminal device, a microprocessor, a random access memory device and a non-volatile memory device, characterized in that the non-volatile memory device includes a program for controlling the microprocessor to influence any of the methods for recording or using data according to any one of the preceding paragraphs.