JP2005006222A - Controller board, image processor, and system and method for exchanging controller board - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To provide an image processor for preventing customer information from being leaked when controller boards are exchanged. <P>SOLUTION: Data stored in an NVM 5B of a exchanging source controller board 1B are written in an NVM 5A of a exchanging destination controller board 1A, and the data stored in the NVM 5B of the exchanging source controller board 1B is erased after the end of writing the data into the NVM 5A of the exchanging destination controller board 1A to thereby be able to prevent the data in the NVM from being leaked to the outside. Even though there is a large possibility that a control means of the exchanging source can not operate due to a failure, etc., in the case of exchanging controller boards, the exchanging source controller board 1B is connected to the exchanging destination controller board 1A mounted on the image processor, and the exchanging destination controller board 1A reads the data stored in the exchanging source controller 1B to thereby be able to prevent the occurrence of a problem that the data can not be read out. <P>COPYRIGHT: (C)2005,JPO&NCIPI

Description

[0001]
BACKGROUND OF THE INVENTION
The present invention relates to a controller board mounted on an image processing apparatus such as a copying machine, a printer, or a facsimile, and more particularly to data transfer when a controller board is replaced due to a failure or the like.
[0002]
[Prior art]
In an image processing apparatus such as a printer, a copying machine, or a multi-function machine having a plurality of functions, a controller board having a CPU is mounted, and image data is processed by the controller board.
[0003]
However, there are cases where the controller board needs to be replaced when a problem occurs in the controller board or for maintenance.
[0004]
The invention disclosed about the exchange system of CPU board in a data processor is disclosed by patent document 1 shown below. Moreover, the invention disclosed regarding the exchange system of control boards, such as a gas combustion apparatus, is disclosed by patent document 2 shown below.
[0005]
[Patent Document 1]
JP-A-5-313927
[Patent Document 2]
JP 2001-263654 A
[0006]
The disclosed contents of Japanese Patent Application Laid-Open No. 5-313927 as Patent Document 1 are as follows.
In the invention disclosed in Patent Document 1, as shown in FIG. 10, when an existing CPU board (hereinafter referred to as a replacement source CPU board) 100 is replaced with a replacement CPU board (hereinafter referred to as a replacement destination CPU board) 102. An object of the present invention is to realize continuous processing of the CPU board without initializing data being processed by the CPU of the replacement source CPU board 100. Therefore, according to the invention disclosed in Patent Document 1, when the replacement destination CPU board 102 is inserted into the data processing device, an interrupt signal is sent from the CPU in the replacement destination CPU board 102 to the CPU in the replacement source CPU board 100. The exchange CPU 100 transmits a data transfer command to the internal memory 103 and starts data transfer. The transfer data is transferred into the replacement destination CPU board 102 via the internal bus connecting the replacement source CPU board 102 and the I / O board 101.
[0007]
According to this method, when the CPU board is replaced, the replacement destination CPU board 102 to be replaced is inserted into the data processing apparatus, and then the data of the replacement source CPU board 100 is transferred to the replacement destination CPU board 102. The CPU board 102 has the same data as the replacement CPU board 100. Therefore, when replacing the existing CPU, it is not necessary to turn off the power supply of the system, so that the system operation can be continuously processed without interrupting the processing of the data processing apparatus.
[0008]
Next, the contents disclosed in Japanese Patent Laid-Open No. 2001-263654 as Patent Document 2 are as follows.
The present invention relates to a control device for gas combustion equipment and the like, and in a control board replacement operation for replacing a control board due to a failure or the like, a method for copying information in a nonvolatile memory on an old control board onto a new control board. Disclosure.
The configuration of the invention disclosed in Patent Document 2 is shown in FIG. As shown in FIG. 11, the new control board 202A after replacement includes a nonvolatile memory 201A, address setting means 204A for switching the address of the nonvolatile memory 201A, a microcomputer 208A for controlling the operation of the water heater, When power is supplied to the nonvolatile memory 201A from the connection means 205 including a connector for connecting the data line, power supply line, and address line of the nonvolatile memory 201A, and the connection means 205 from the outside, the microcomputer 208A The diode 207A prevents the power supply from being affected.
[0009]
In addition, the microcomputer 208A includes a data copy unit 206A for copying data from a non-volatile memory externally connected by the connection unit 205 to a non-volatile memory 201A on the new control board 202A, and a non-volatile memory 201A during normal operation of the water heater. Driving means 203A for reflecting the above information and reflecting it in the operation control.
[0010]
A similar configuration is also provided on the old control board 202B before replacement.
[0011]
First, the operation of the address setting means 204A and 204B for copying data will be described.
In order to copy data, the addresses of the two nonvolatile memories 201A and 201B need to be different. For this reason, the address setting means 204A is turned off and the address setting means 204B is turned on. As a result, the address of the nonvolatile memory 201A is [11] when A11 = high and A12 = high. The address of the nonvolatile memory 201B is [10] when A21 = low and A22 = high. In the present invention, the new control board 202A and the old control board 202B are connected using a dedicated connection cable in order to prevent setting mistakes in the address setting means 204A and 204B. Device addresses of the old control board 202B and the new control board 202A are set by this dedicated connection cable.
[0012]
Next, a procedure for writing data written in the nonvolatile memory 201B of the old control board 202B to the nonvolatile memory 201A of the new control board 202A will be described.
When the control boards are connected and the new control board 202A is turned on, the data copy unit 206A first designates the address of the nonvolatile memory 201B from which data is to be read and transmits a read command. The nonvolatile memory 201B that has received the command with the matching address returns ACK. When receiving the ACK response, the data copy unit 206A determines that the nonvolatile memory 201B is connected to the outside, and starts data copy. The data copy unit 206A reads all the data in the nonvolatile memory 201B and temporarily stores it in the RAM of the microcomputer 208A. Thereafter, a write command is transmitted to the nonvolatile memory 201A, and the data accumulated in the RAM is written as it is. When the above processing is completed, the driving means 203A then reads the data in the nonvolatile memory 201A, reflects the data in the driving control, and the operation preparation is completed.
[0013]
[Problems to be solved by the invention]
However, in the invention described in Patent Document 1 described above, data written to the memory 103 of the replacement source CPU board 100 is written to the replacement destination CPU board 102 under the control of the CPU of the replacement source CPU board 100. That is, the operation is performed after the CPU of the exchange source CPU board 100 issues a data transfer command.
[0014]
Replacing the control board is highly likely that the replacement CPU cannot operate due to a failure or the like, and in this case, necessary data cannot be reflected on the new control board. In addition, if important information for the customer who owns the device is written in the memory of the replacement source CPU board, it will be removed together with the replacement source CPU board. It is not preferable.
[0015]
Further, in the invention disclosed in Patent Document 2, only copying data from the old control board 202B to the new control board 202A is considered, and data written in the nonvolatile memory 201B of the old control board 202B is considered. Is not touched at all. For example, in the case of an image processing apparatus, user-specific information such as a facsimile transmission destination number, a customer name, and an e-mail address is stored in the non-volatile recording medium of the controller board.
[0016]
In addition, as described above, the invention disclosed in Patent Document 2 is fixedly turned on or off by the address setting means 204A and 204B of the new control board 202A and the old control board 202B, and the devices of the nonvolatile memories 201A and 201B. An address is set. Therefore, the device address of the nonvolatile memory cannot be automatically set from the new control board 202A to the old control board 202B. As described above, the new control board 202A and the old control board 202B are connected using a dedicated connection cable in order to prevent setting errors of the address setting means 204A and 204B. When the device address of the non-volatile memory of 202B or the new control board 202A is changed, a dedicated cable must be prepared separately.
[0017]
The present invention has been made in view of the above circumstances, and when replacing a controller board, the data in the nonvolatile memory stored in the existing replacement source controller board is transferred to the new replacement destination controller board, and the replacement source To provide a controller board, an image processing apparatus, a controller board exchange system, and a controller board exchange method that prevent leakage of data in the nonvolatile storage medium by erasing data in the nonvolatile storage medium of the controller board Objective.
[0018]
Also, a controller board, an image processing device, a controller board replacement system, and a controller board that enable data transfer from the replacement source controller board to the replacement destination controller board even if the replacement source controller board fails and does not operate The purpose is to provide an exchange method.
[0019]
In addition, a controller board, image processing device, and controller board replacement system that enable non-volatile memory data transfer from the replacement source controller board to the replacement destination controller board reliably and easily without any special work on the connection cable. And a controller board replacement method.
[0020]
[Means for Solving the Problems]
In order to achieve this object, the invention described in claim 1 registers data stored in a non-volatile storage medium of a replacement source controller board to be removed and replaced from the image processing apparatus, and uses the image as a replacement destination controller board. A controller board mounted on a processing device, wherein the replacement destination controller board mounted on the image processing device is connected to the replacement source controller board and stored in the nonvolatile storage medium of the replacement source controller board. The data stored in the non-volatile storage medium of the replacement-source controller board is erased after the writing to the non-volatile storage medium of the replacement-destination controller board is completed. It is characterized by doing. Write the data stored in the non-volatile storage medium of the replacement source controller board to the non-volatile storage medium of the replacement destination controller board. After completing the writing to the non-volatile storage medium of the replacement destination controller board, the non-volatile storage of the replacement source controller board By erasing the data stored in the medium, it is possible to prevent leakage of data in the nonvolatile storage medium to the outside. When the controller board is replaced, there is a great possibility that the control means of the replacement source cannot operate due to a failure or the like, and in this case, necessary data cannot be reflected on the new controller board. On the other hand, like the present invention, the replacement source controller board is connected to the replacement destination controller board mounted on the image processing apparatus, and the replacement destination controller board reads out the data stored in the replacement source controller. Occurrence of a problem that data cannot be read can be prevented.
[0021]
According to a second aspect of the invention, in the first aspect of the invention, the replacement destination controller board and the replacement source controller board are connected by a cable having at least an address signal line, a control signal line, and a data signal line. Then, the control means on the replacement destination controller board sends an address signal and a control signal to the nonvolatile storage medium on the replacement source controller board, and the nonvolatile storage medium on the replacement source controller board Sending data corresponding to the sent address signal and control signal to the replacement destination controller board to store data stored in the nonvolatile storage medium of the replacement source controller board in the nonvolatile storage of the replacement destination controller board It is characterized by writing on a medium. By connecting the replacement controller board and the replacement source controller board with a cable having an address signal line, a control signal line, and a data signal line, the transfer source controller can be controlled by the control means of the replacement controller board. It becomes. Therefore, it is possible to reliably and easily transfer data from the replacement source controller board to the replacement destination controller board and to erase data stored in the replacement source controller board without any special work on the connection cable. .
[0022]
According to a third aspect of the present invention, in the first aspect of the present invention, there are provided two or more slots into which a controller board can be mounted, and the slots are connected by at least an address signal line, a control signal line, and a data signal line. The replacement controller board and the replacement source controller board are connected to each other by a plain board, and reading of data stored in the nonvolatile storage medium of the replacement source controller board is started. By connecting the replacement destination controller board and the replacement source controller board with a backplane board having a slot, the transfer source controller can be controlled by the control means of the replacement destination controller board. Therefore, without specially crafting the connection between the controller boards, data can be transferred from the replacement source controller board to the replacement destination controller board reliably and easily, and the data stored in the replacement source controller board can be erased. It becomes possible.
[0023]
According to a fourth aspect of the present invention, in the first or third aspect of the invention, the data stored in the non-volatile storage medium of the replacement source controller board by a DMA (Direct Memory Access) function of the replacement destination controller board. To the nonvolatile storage medium of the replacement destination controller board, and after the writing to the nonvolatile storage medium of the replacement destination controller board is completed, the nonvolatile storage of the replacement source controller board is performed by the control means on the replacement destination controller board. The data stored in the medium is erased to store the data of the exchange source controller board to control the image processing apparatus. The load on the control means on the replacement controller board can be reduced and the processing time can be shortened.
[0024]
According to a fifth aspect of the present invention, in the invention according to any one of the first to fourth aspects, the replacement-destination controller board has detection means for detecting that the replacement-source controller board is connected. Then, after detecting the connection of the replacement source controller board by the detection means, reading of the data stored in the nonvolatile storage medium of the replacement source controller board is started. By providing the detection means, it is possible to start the erasing process of the data stored in the replacement source controller board by connecting the replacement source controller board to the replacement destination controller board, and to improve customer convenience it can.
[0025]
According to a sixth aspect of the present invention, in the invention of the fifth aspect, the detection means connects a signal line for connection detection to the replacement source controller board when connecting to the replacement source controller board, and A change in voltage of the signal line due to connection of a replacement source controller board is detected to detect connection of the replacement source controller board. Therefore, the detection means can be configured with a simple device configuration, and the increase in size and cost of the device can be prevented.
[0026]
According to a seventh aspect of the present invention, in the invention according to any one of the first to sixth aspects, the nonvolatile storage medium of the replacement source controller board can store 0, 1, or Write meaningless data. Therefore, it is possible to erase the data stored in the nonvolatile storage medium.
[0027]
According to an eighth aspect of the present invention, in the invention according to any one of the first to sixth aspects, the control means of the replacement destination controller board reads out the erasing data previously created and stored in the storage means, and The data is erased by writing to the non-volatile storage medium of the exchange source. By erasing data written in the nonvolatile storage medium using previously created erasing data, the time required for erasing can be shortened.
[0028]
A ninth aspect of the present invention is an image processing apparatus including the controller board according to any one of the first to eighth aspects, wherein the controller board is operated by an operation input unit included in the image processing apparatus. When the data transfer and erasure processing command is input from the replacement source controller board, read control of the data from the nonvolatile storage medium of the replacement source controller board is started. Therefore, the data stored in the replacement source controller board can be erased by the instruction input from the customer, and the convenience for the customer can be improved.
[0029]
According to a tenth aspect of the present invention, in the ninth aspect, after the erasing of the data from the non-volatile storage medium, the controller board is displayed on the display unit included in the image processing apparatus. The storage content of the non-volatile storage medium or the storage content of the non-volatile storage medium and the storage content of the non-volatile storage medium of the controller board are controlled. Therefore, it is possible to make the customer confirm whether or not the data stored in the nonvolatile storage medium of the replacement source controller board is surely erased, and to give the customer a sense of security.
[0030]
According to an eleventh aspect of the present invention, in the invention according to the ninth aspect, after the erasure of the data from the nonvolatile storage medium, the controller board is configured to print the replacement source controller board by a printing unit included in the image processing apparatus. Control is performed to print the storage content of the nonvolatile storage medium or the storage content of the nonvolatile storage medium and the storage content of the nonvolatile storage medium of the controller board. Therefore, it is possible to make the customer confirm whether or not the data stored in the nonvolatile storage medium of the replacement source controller board is surely erased, and to give the customer a sense of security.
[0031]
In the invention described in claim 12, the replacement source controller board removed from the image processing apparatus and connected to the replacement destination controller board newly installed in the image processing apparatus is connected and stored in the replacement source controller board. A controller board replacement system for storing data in the replacement destination controller board, wherein the replacement destination controller board reads the data from a nonvolatile storage medium of the replacement source controller board, and the read data is stored in the replacement destination controller. Writing to the nonvolatile storage medium of the board, and after completion of writing to the nonvolatile storage medium, the data stored in the nonvolatile storage medium of the replacement source controller board is erased. Write the data stored in the non-volatile storage medium of the replacement source controller board to the non-volatile storage medium of the replacement destination controller board. After completing the writing to the non-volatile storage medium of the replacement destination controller board, the non-volatile storage of the replacement source controller board By erasing data stored in the medium, leakage of data to the outside can be prevented. When the controller board is replaced, there is a great possibility that the control means of the replacement source cannot operate due to a failure or the like, and in this case, necessary data cannot be reflected on the new controller board. On the other hand, like the present invention, the replacement source controller board is connected to the replacement destination controller board mounted on the image processing apparatus, and the replacement destination controller board reads out the data stored in the replacement source controller. Occurrence of a problem that data cannot be read can be prevented.
[0032]
According to the thirteenth aspect of the present invention, the replacement source controller board removed from the image processing apparatus and connected to the replacement destination controller board newly installed in the image processing apparatus is connected and stored in the replacement source controller board. A controller board replacement method for storing data in the replacement destination controller board, wherein the replacement destination controller board reads the data from a nonvolatile storage medium of the replacement source controller board, and the read data is stored in the replacement destination controller. A data writing step of writing to the nonvolatile storage medium of the board; and a data erasing step of erasing the data stored in the nonvolatile storage medium of the replacement source controller board after the writing to the nonvolatile storage medium is completed. It is characterized by that. Write the data stored in the non-volatile storage medium of the replacement source controller board to the non-volatile storage medium of the replacement destination controller board. After completing the writing to the non-volatile storage medium of the replacement destination controller board, the non-volatile storage of the replacement source controller board By erasing data stored in the medium, leakage of data to the outside can be prevented. When the controller board is replaced, there is a great possibility that the control means of the replacement source cannot operate due to a failure or the like, and in this case, necessary data cannot be reflected on the new controller board. On the other hand, like the present invention, the replacement source controller board is connected to the replacement destination controller board mounted on the image processing apparatus, and the replacement destination controller board reads out the data stored in the replacement source controller. Occurrence of a problem that data cannot be read can be prevented.
[0033]
DETAILED DESCRIPTION OF THE INVENTION
Next, embodiments according to the present invention will be described in detail with reference to the accompanying drawings.
[0034]
[First Embodiment]
First, the configuration of the first embodiment according to the present invention will be described with reference to FIG. FIG. 1 shows a configuration of an image processing controller board 1 as the first embodiment.
As shown in FIG. 1, the image processing controller board 1 according to the present embodiment includes a program ROM 3, a system RAM 4, and a non-volatile memory NVM (Non Volatile Memory) 5 arranged on a memory bus 7, and a bus bridge. The CPU 2 that executes the control program by the control function of the memory bus 7 by the circuit 6 is connected to the program ROM 3 and the system RAM 4. The memory bus 7 has a connector 8 for connecting to another controller board with a connection cable. The connector 8 serves as a connection portion of a cable including an address line, a data line, a control line, and a power supply line, and these lines are connected as a memory bus 7 to the program ROM 3, the system RAM 4, and the NVM 5.
[0035]
The bus bridge circuit 6 is connected to an I / O bus 9 to which a user interface controller 10, a host interface controller 11, and a video interface controller 12 serving as an interface with external devices are connected. Data transmission / reception is controlled between them.
[0036]
The CPU 2 uses the program stored in the program ROM 3 to perform processing using the system RAM 4 as a work area. Data and programs being processed are written in the system RAM 4.
[0037]
The NVM 5 includes a flash memory or MRAM (Magnetic Resistive RAM) that can retain internal data even when the power is turned off, or an SRAM (Static RAM) that retains data by a battery. For example, the image processing controller 1 is connected to a facsimile or a network. When installed in a printer, user-specific information such as a facsimile transmission destination number, customer name, and e-mail address is stored.
[0038]
The bus bridge circuit 6 relays data exchange between the CPU 2 and the I / O bus 9 and controls the memory bus 7 (transfer control function when writing a program recorded in the program ROM 3 to the system RAM 4). Have.
[0039]
The video interface controller 12 connected to the I / O bus 9 is connected to an engine control unit 22 that controls the print engine 23 and a scanner control unit 24 that controls the scanner 25. The video interface controller 12 has a function of outputting image data to the print engine 23 via the engine control unit 22 and a function of inputting image data read from the scanner 25 via the scanner control unit 24.
[0040]
The host interface controller 11 is an IEEE. It controls an interface with an external host machine group 21 such as a PC connected by 1284, USB, 100BaseTx, or the like.
[0041]
The user interface controller 10 controls an interface with a control panel 20 having an LCD or a numeric keypad.
[0042]
The present embodiment having the above configuration is written in a non-volatile storage medium mounted on the image processing controller board 1 when the image processing controller board 1 mounted with the CPU is replaced for reasons such as maintenance or malfunction. It is characterized by preventing the leaked data from leaking outside. In particular, the image processing controller board mounted on the image processing apparatus often replaces the image processing controller board when a malfunction occurs and the image processing controller board does not operate normally. In the controller board of the image processing apparatus, data including customer information important to the customer such as a facsimile number of a business partner, a customer name, and an e-mail address is recorded in the mounted non-volatile storage medium. When the image processing controller board on which such a non-volatile storage medium is mounted is not replaced with a new image processing controller board as it is, a non-volatile recording medium on which data including important customer information is recorded There is a possibility of getting into the hands of a third party.
[0043]
The procedure for replacing the image processing controller board according to the present embodiment will be described below with reference to the flowchart shown in FIG.
In the following description, an image processing controller board that has been mounted on the image processing apparatus until now is referred to as a replacement source controller board 1B, and an image processing controller board that is newly mounted on the image processing apparatus is replaced with a replacement destination controller board 1A. Call it.
[0044]
First, the replacement source controller board 1B mounted on the image processing apparatus is removed from the image processing apparatus, and the replacement destination controller board 1A is mounted on the image processing apparatus (step S1). Next, the replacement destination controller board 1A and the replacement source controller board 1B are connected by a cable (step S2). At this time, as shown in FIG. 2, the connectors 8 provided on the memory bus 7 are connected by a cable. In the following description, the electronic device mounted on the replacement-destination controller board 1A is distinguished by attaching the symbol A, and the electronic device mounted on the replacement-source controller board 1B is distinguished by the symbol B.
[0045]
When the power switch of the image processing apparatus is turned on (step S3), power is supplied not only to the replacement destination controller board 1A but also to the replacement source controller board 1B via the connector 8.
[0046]
After the replacement destination controller board 1A is normally activated, when a predetermined command (a request to read data stored in the NVM 5B) is input from the control panel 20 connected to the replacement destination controller board 1A (Step S4), the replacement destination controller The CPU 2A on the board 1A reads data from the NVM 5B on the replacement controller board 1B and starts data transfer control so as to write the data to its own NVM 5A (step S5).
[0047]
After the data transfer ends (step S6 / YES), the data in the NVM 5B on the replacement source controller board 1B is erased by the CPU 2A of the replacement destination controller board 1A (step S7). Here, erasing means writing 0, 1 or other meaningless data in the entire area of the NVM 5B.
[0048]
After the data transfer and data erasing are completed, the power of the image processing apparatus is turned off (step S8), and the replacement source controller board 1B is removed from the replacement destination controller board 1A (step S9).
[0049]
Here, a data reading procedure from the NVM 5B by the CPU 2A on the replacement destination controller board 1A will be described in more detail.
When the replacement destination controller board 1A and the replacement source controller board 1B are connected with a cable and the image processing apparatus is turned on, not only the replacement destination controller board 1A but also the replacement source controller board 1B is supplied with power. FIG. 4 shows a configuration of signal lines included in a cable connecting the replacement destination controller board 1A and the replacement destination controller board 1B. As shown in FIG. 4, a cable for connecting the replacement destination controller board 1A and the replacement source controller board 1B, and a connector 8 include a power supply line for supplying power from the replacement destination controller board 1A to the replacement source controller board 1B, A plurality of address lines connected to the NVM 5B on the exchange source controller board 1B, a control line (chip select signal or read signal), and a plurality of data lines are provided.
[0050]
When a predetermined command (a request to read data stored in the NVM 5B) is input from the control panel 20 connected to the replacement destination controller board 1A after the replacement destination controller board 1A has started normally, the replacement destination controller board 1A The CPU 2A starts reading data from the NVM 5B on the replacement source controller board 1B. First, the CPU 2A on the replacement destination controller board 1A outputs a stop signal (for example, a reset signal) to the CPU 2B on the replacement source controller board 1B so as not to operate the CPU 2B. If the structure is such that the program ROM on the replacement source controller board 1B can be removed, the CPU 2B can be prevented from operating by removing the program ROM on the replacement source controller board 1B. Then, the CPU 2A on the replacement destination controller board 1A makes the memory bus 7B on the replacement source controller board 1B accessible.
[0051]
Here, FIG. 5 shows an example of an address map in which addresses are assigned through the memory areas mounted on the replacement destination controller board 1A and the replacement source controller board 1B. In this address map, the address space is 64 Kbytes from “0000” to “FFFF” (expressed in hexadecimal), but the present invention is not limited to this. In this memory map, “4000” to “4FFF” (4 KB) are the address space of the NVM 5 of the replacement controller board 1A, and “8000” to “8 FFF” (4 KB) are the address space of the NVM 5 on the replacement controller board 1B. is there.
[0052]
The CPU 2A of the replacement destination controller board 1A maps the NVM 5B of the replacement source controller board 1B in a different area from the address area of its own NVM 5A as shown in FIG. Next, the CPU 2A on the replacement destination controller board 1A sends the address “8000” to the NVM 5B on the replacement source controller board 1B to activate the chip select signal and the read signal. After a predetermined access time elapses, the NVM 5B on the exchange source controller board 1B sends the data stored at the designated address “8000” onto the memory bus 7B. The CPU 2A on the replacement destination controller board 1A takes in the data output on the memory bus 7B and writes it to the address “4000” of the NVM 5A on the replacement destination controller board 1A.
[0053]
The above-described operation is repeated until the final address while changing the read address and the write address. With the above operation, the data of the NVM 5B on the replacement source controller board 1B can be copied to the NVM 5A on the replacement destination controller board 1A.
[0054]
As described above, in the present embodiment, the data stored in the NVM 5B of the replacement source controller board 1B is written to the NVM 5A of the replacement destination controller board 1A. By erasing the data stored in the NVM 5B, it is possible to prevent leakage of data in the nonvolatile storage medium to the outside. In addition, when replacing a controller board, there is a high possibility that the control means of the replacement source cannot operate due to a failure or the like, and in this case, there is a possibility that necessary data cannot be reflected on the new controller board. In this embodiment, the replacement source controller board 1B is connected to the replacement destination controller board 1A mounted on the image processing apparatus, and the replacement destination controller board 1A reads the data stored in the replacement source controller board 1B. The problem that data cannot be read can be prevented.
[0055]
Further, the replacement destination controller board 1A and the replacement source controller board 1B are connected by a cable having a power supply line, a plurality of address signal lines, a control signal line, and a data signal line, so that the replacement destination controller The transfer source controller 1B can be controlled by the CPU 2A of the board. Therefore, the control for deleting the data stored in the replacement source controller board 1B and the data transfer from the replacement source controller board 1B to the replacement destination controller board 1A reliably and easily without special work on the connection cable. It becomes possible.
[0056]
In the embodiment described above, the operation of writing the data stored in the NVM 5B to the NVM 5A by the transfer control of the CPU 2A has been described. However, the function of DMA (Direct Memory Access) transfer to the bus bridge circuit 6A having the control function of the memory bus 7 is described. May be used to perform data transfer. In this case, the data stored in the NVM 5B of the replacement source controller board 1B is written to the NVM 5A of the replacement destination controller board 1A by the transfer control of the bus bridge circuit 6A without going through the CPU 2A on the replacement destination controller board 1A.
[0057]
In the above-described embodiment, the connectors 8 connected to the memory bus 7 are connected with a cable to realize data transfer between the replacement source controller board 1B and the replacement destination controller board 1A. The replacement destination controller board 1A and the replacement source controller board 1B may be connected by a backplane board 40 having a slot 30 and a socket as shown in FIG.
In this case, a backplane board having two or more slots into which controller boards can be mounted is used, and the replacement destination controller board 1A and the replacement source controller board 1B are inserted into separate slots. Both boards are connected to address lines, control lines, and a plurality of data lines via slots 30A, 30B and a backplane board 40.
[0058]
[Second Embodiment]
Next, a second embodiment according to the present invention will be described in detail with reference to FIG.
The present embodiment is the same as the first embodiment described above until the replacement source controller board 1B is connected to the replacement destination controller board 1A. The present embodiment is characterized in that a means for detecting that another controller board is connected to the controller board is provided.
After the replacement source controller board is connected to the replacement destination controller board 1A, when the image processing apparatus is turned on, the replacement destination controller board 1A is connected to the replacement source controller board 1B, and data is transferred from the NVM 5B of the replacement source controller board 1B. It detects that it is the mode to transfer. Accordingly, data transfer is automatically started without an instruction from the control panel 20 as in the first embodiment, and after the data transfer is completed, the CPU 2A of the replacement destination controller board 1A causes the NVM 5B on the replacement source controller board 1B to Data is erased.
[0059]
Here, a means for detecting the connection of another controller board mounted on the controller board will be described with reference to FIG.
As means for detecting that the replacement source controller board is connected, for example, the following configuration can be adopted. One signal line for connection detection is provided in the connectors 8A and 8B for connecting both the replacement destination and replacement source controller boards. The replacement control board 1A is connected to the power source with a resistance of about several KΩ. In the connector 8B of the exchange source controller board 1B, the connector pin to which the signal line is connected is connected to the ground.
[0060]
When the replacement source controller board 1B is not connected, the signal line is in a high level state because it is connected to the power source via a resistor. Further, when the replacement source controller board 1B is connected, the signal line becomes low level because the signal line is connected to the ground. By checking the signal level of the signal line by the CPU 2A of the replacement destination controller board 1A, it is possible to detect whether the replacement source controller board 1B is connected.
[0061]
In the present embodiment, the case where the replacement destination controller board 1A and the replacement source controller board 1B are connected by a cable has been described as an example. However, as shown in FIG. 9, the backplane board 40 having a slot 30 and a socket is provided. Thus, the replacement destination controller board 1A and the replacement source controller board 1B may be connected.
[0062]
[Third Embodiment]
Next, a third embodiment according to the present invention will be described.
In this embodiment, after erasing data stored in the NVM 5B of the replacement source controller board 1B according to the operation procedure of the first embodiment or the second embodiment described above, the NVM 5B in the replacement source controller board 1B In order to confirm that the data has been completely erased, the data stored in the NVM 5B of the replacement source controller board 1B is displayed on the control panel 20 shown in FIG. In this case, after the CPU 1A erases the data of the NVM 5B, the control panel 20 “guidance has been erased from the replacement controller board 1B. Do you want to display the data written in the replacement controller board 1B?” Display a message. When the display of data is selected by an instruction input from the operator, the CPU 2B reads the data from the NVM 5B of the replacement source controller board 1B and causes the control panel 20 to display the read data. Since 0, 1 or other meaningless data is written in the entire area of the NVM 5B, such a display is displayed on the control panel 20 so that the customer confirms that the data has been erased. Can do.
[0063]
In addition, when a predetermined command is input from the control panel in order to make the operator confirm whether or not the data in the NVM 5B of the replacement source controller board 1B has been completely erased, the CPU 2A of the replacement destination controller board 1A Data stored in the NVM 5B of the original controller board 1B is read and printed.
[0064]
Further, in order to confirm that the data of the NVM 5B on the replacement source controller board 1B has been completely deleted, not only the replacement source controller board 1B but also the data stored in the NVM 5A on the replacement destination controller board 1A are transferred to the control panel. 20 may be displayed or printed. By comparing both data, it can be confirmed more clearly that the data has been erased from the replacement controller board 1B.
[0065]
In this way, this embodiment can confirm whether or not customer confidential data is stored in the exchange source controller board 1B that is exchanged due to a failure or the like.
[0066]
[Fourth Embodiment]
Next, a fourth embodiment according to the present invention will be described.
In the embodiment described above, the NVM 5B data is erased by writing 0, 1 or meaningless data generated by the CPU 2A of the replacement controller board.
In this embodiment, the erasure data to be written to the NVM 5B of the replacement source controller board 1B is created and stored in advance in the system RAM 4A of the replacement destination controller board 1A. When the exchange source controller board 1B and the exchange destination controller board 1A are connected, and the data stored in the NVM 5B of the exchange source controller board 1B is read and written to the NVM 5A of the exchange destination controller board 1A, the CPU 2A enters the system RAM 4A. The stored erasure data is transferred and written to the NVM 5B of the exchange source controller board 1B.
[0067]
When a predetermined command is input from the control panel, the CPU 2A of the replacement destination controller board 1A sends the NVM 5B on the replacement source controller board 1B and the data stored in the NVM 5A on the replacement destination controller board 1A to the control panel 20. Display or print. It can be confirmed that the customer data has been erased from the exchange source controller board 1B by confirming that the two data match.
[0068]
In the above-described embodiment, the entire area of the NVM 5B on the replacement source controller board 1B has been described as being erased. However, the area to be erased does not necessarily have to be the entire area. You may make it erase | eliminate only the data of the area | region stored.
[0069]
In addition, NVM has been described as an example of a non-volatile storage medium for transferring and erasing data. However, a memory backed up by a battery, a memory or a hard disk in which data is saved even when the power is turned off, etc. May be. Typical examples of memory that retains data even when the power is turned off include flash memory, EEPROM (Electrically-Erasable and Programmable ROM), and MRAM.
[0070]
The above-described embodiment is a preferred embodiment of the present invention. However, the present invention is not limited to this, and various modifications can be made without departing from the scope of the present invention.
[0071]
【The invention's effect】
As apparent from the above description, the present invention writes the data stored in the non-volatile storage medium of the replacement source controller board to the non-volatile storage medium of the replacement destination controller board, and writes the data to the non-volatile storage medium of the replacement destination controller board. By erasing the data stored in the non-volatile storage medium of the replacement source controller board after the writing is completed, it is possible to prevent leakage of the data in the non-volatile storage medium to the outside. When the controller board is replaced, there is a great possibility that the control means of the replacement source cannot operate due to a failure or the like, and in this case, necessary data cannot be reflected on the new controller board. On the other hand, like the present invention, the replacement source controller board is connected to the replacement destination controller board mounted on the image processing apparatus, and the replacement destination controller board reads out the data stored in the replacement source controller. Occurrence of a problem that data cannot be read can be prevented.
[0072]
In addition, by connecting the replacement controller board and the replacement source controller board with a cable having an address signal line, a control signal line, and a data signal line, control of the transfer source controller by the control means of the replacement destination controller board Is possible. Therefore, it is possible to reliably and easily transfer data from the replacement source controller board to the replacement destination controller board and to erase data stored in the replacement source controller board without any special work on the connection cable. .
[0073]
In addition, by providing detection means for detecting that the replacement source controller board is connected to the replacement destination controller board, the replacement source controller board is stored in the replacement source controller board by connecting the replacement source controller board to the replacement destination controller board. Data erasure processing can be started, and customer convenience can be improved.
[Brief description of the drawings]
FIG. 1 is a block diagram showing a configuration of an embodiment according to the present invention.
FIG. 2 is a diagram illustrating a connection example of a replacement source controller board and a replacement destination controller board.
FIG. 3 is a flowchart showing an operation procedure of the first embodiment.
FIG. 4 is a diagram illustrating a connection example of a replacement source controller board and a replacement destination controller board.
FIG. 5 is a diagram showing an example of an address map in which addresses are assigned through memory areas mounted on the replacement destination controller board 1A and the replacement source controller board 1B.
FIG. 6 is a diagram for explaining a procedure for transferring data from the exchange source controller board 1B to the exchange source controller board 1A by DMA transfer;
FIG. 7 is a diagram showing a configuration when a replacement destination controller board 1A and a replacement source controller board 1B are connected by a backplane board 40 having a slot 30 and a socket.
FIG. 8 is a diagram showing a configuration of means for detecting connection of a replacement source controller board 1B to a replacement destination controller board 1A.
FIG. 9 is a diagram showing a configuration of a means for detecting connection of a replacement source controller board 1B to a replacement destination controller board 1A.
FIG. 10 is a diagram showing a configuration of a conventional invention.
FIG. 11 is a diagram showing a configuration of a conventional invention.
[Explanation of symbols]
1A Replacement controller board 1B Replacement controller board
2 CPU 3 Program ROM
4 System RAM 5 NVM
6 Bus bridge circuit 7 Memory bus
8 Connector 9 I / O bus
10 User interface controller
11 Host interface controller
12 Video interface controller
20 control panel 30 slots
40 backplane board

Claims (13)

A controller board mounted on the image processing apparatus as a replacement destination controller board, registering data stored in the nonvolatile storage medium of the replacement controller board to be removed and replaced from the image processing apparatus,
The replacement controller board mounted on the image processing apparatus is:
Connect with the replacement controller board,
Writing data stored in the non-volatile storage medium of the replacement source controller board to the non-volatile storage medium of the replacement destination controller board;
A controller board, wherein the data stored in the nonvolatile storage medium of the replacement source controller board is erased after the replacement destination controller board has been written to the nonvolatile storage medium. Connect the replacement destination controller board and the replacement source controller board with a cable having at least an address signal line, a control signal line, and a data signal line,
The control means on the replacement destination controller board sends an address signal and a control signal to a nonvolatile storage medium on the replacement source controller board,
A non-volatile storage medium on the replacement source controller board stores data corresponding to the sent address signal and control signal in the non-volatile storage medium of the replacement source controller board by transmitting data to the replacement destination controller board. 2. The controller board according to claim 1, wherein the written data is written to a nonvolatile storage medium of the replacement destination controller board. The replacement destination controller board and the replacement source controller board are provided by a backplane board having two or more slots into which a controller board can be mounted and at least an address signal line, a control signal line, and a data signal line connected between the slots. The controller board according to claim 1, wherein the controller board starts to read data stored in the nonvolatile storage medium of the replacement source controller board. By the DMA (Direct Memory Access) function of the replacement destination controller board, the data stored in the nonvolatile storage medium of the replacement source controller board is written to the nonvolatile storage medium of the replacement destination controller board;
After completion of writing to the nonvolatile storage medium of the replacement destination controller board, the replacement is performed by erasing the data stored in the nonvolatile storage medium of the replacement source controller board by the control means on the replacement destination controller board. 4. The controller board according to claim 1, wherein the data of the original controller board is stored to control the image processing apparatus. The replacement destination controller board has detection means for detecting that the replacement source controller board is connected,
5. The read-out of the data stored in a non-volatile storage medium of the replacement source controller board is started after detecting the connection of the replacement source controller board by the detection unit. Controller board as described in. The detecting means connects a signal line for connection detection to the replacement source controller board when connecting to the replacement source controller board,
6. The controller board according to claim 5, wherein the connection of the replacement source controller board is detected by detecting a voltage change of the signal line due to the connection of the replacement source controller board. 7. The control unit of the replacement destination controller board erases the data by writing 0, 1, or meaningless data to a non-volatile storage medium of the replacement source controller board. The controller board according to any one of the above. The control means of the replacement destination controller board erases the data by reading out erasure data created in advance and stored in the storage means and writing it in the nonvolatile storage medium of the replacement source. The controller board according to any one of 1 to 6. An image processing apparatus equipped with the controller board according to any one of claims 1 to 8,
When the data transfer and erase processing instructions are input from the replacement source controller board by the operation input means included in the image processing apparatus, the controller board reads from the nonvolatile storage medium of the replacement source controller board. An image processing apparatus which starts reading control of the data. After the erasing of the data from the non-volatile storage medium is completed, the controller board stores the contents of the non-volatile storage medium of the replacement source controller board on the display means included in the image processing apparatus, or the non-volatile storage medium The image processing apparatus according to claim 9, wherein display control is performed to display the storage content of the controller board and the storage content of the nonvolatile storage medium of the controller board. The controller board, after erasing the data from the non-volatile storage medium, stores the contents of the non-volatile storage medium of the replacement source controller board or the contents of the non-volatile storage medium by a printing unit included in the image processing apparatus. The image processing apparatus according to claim 9, wherein control is performed to print the stored content and the stored content of the nonvolatile storage medium of the controller board. A replacement source controller board that has been removed from the image processing device and replaced is connected to a replacement destination controller board newly installed in the image processing device, and data stored in the replacement source controller board is stored in the replacement destination controller board. A controller board replacement system for storing,
The replacement destination controller board reads the data from the non-volatile storage medium of the replacement source controller board, writes the read data to the non-volatile storage medium of the replacement destination controller board, and finishes writing to the non-volatile storage medium Then, the controller board replacement system, wherein the data stored in the nonvolatile storage medium of the replacement source controller board is erased. A replacement source controller board that has been removed from the image processing device and replaced is connected to a replacement destination controller board newly installed in the image processing device, and data stored in the replacement source controller board is stored in the replacement destination controller board. A controller board replacement method for storing,
In the replacement controller board,
A data writing step of reading the data from the non-volatile storage medium of the replacement source controller board and writing the read data to the non-volatile storage medium of the replacement destination controller board;
A data erasing step of erasing the data stored in the non-volatile storage medium of the replacement source controller board after completion of writing to the non-volatile storage medium;
A controller board replacement method characterized by comprising:

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