JP5062847B2 - Image processing device - Google Patents

Description

  The present invention relates to an image processing apparatus, and more particularly to an image processing apparatus that appropriately outputs necessary information to an external device when a main control board is removed.

  In image processing apparatuses such as copying machines, facsimile machines, printers, and scanners, proper maintenance and management are important for high-quality image output and high-quality image reading. is there.

  Therefore, conventionally, in the image processing apparatus, when the power is turned on, the self-diagnosis is performed and the self-diagnosis result information is stored in the memory, or when the image processing operation is executed, the operation history information is recorded in the memory, At the time of maintenance, the service person displays the self-diagnosis result information and the operation history information of the memory on the display unit of the image processing apparatus or prints out for reference during inspection and repair.

  In particular, when a failure occurs, the memory self-diagnosis result information and operation history information include a failure history necessary for repair, and a serviceman performs repair with reference to the self-diagnosis result information and the operation history information.

  Conventionally, a technique has been proposed in which abnormalities in the operating state are monitored, a fault location is diagnosed according to a portion where the abnormality is detected, and information indicating the diagnosis content is written to a memory card attached to the attachment portion. (See Patent Document 1).

JP 2007-274355 A

  However, in the above-described prior art, the diagnostic content information is written to the memory card attached to the mounting portion. Therefore, if the diagnostic content information includes personal information, it can be written out by a law that protects the personal information. However, writing information to a portable memory to a memory card or the like has a problem of lack of versatility and poor usability.

  In general, an image processing apparatus generally includes operation history information and self-diagnosis information necessary for repair (hereinafter, operation history information and self-diagnosis information related to the operation of these image processing apparatuses are simply referred to as emergency information. .) Is stored in the non-volatile memory on the main control board. However, in repairs, etc., the image processing apparatus is in a state of being in trouble, and the image processing apparatus is turned off. In some cases, it is necessary to check the status of the image processing apparatus in the state, or to check the status by removing the main control board.

  In such a state where the image processing apparatus cannot be turned on, emergency information cannot be extracted from the nonvolatile memory as it is, and there is an abnormality in the main control board or an abnormality in the peripheral (peripheral part). However, there is a problem that the repair work is hindered and the usability is poor.

  When removing and inspecting the main control board, in order to extract emergency information from the non-volatile memory of the main control board, prepare a separate power supply for supplying the necessary voltage to the main control board, personal computer, etc. Is connected to an appropriate interface, and a complicated handshake needs to be executed with a CPU (Central Processing Unit) of the main control board. As a result, there was a problem that the usability was poor.

  Furthermore, the main control board has a program written in a non-volatile memory that can be rewritten for version upgrades, etc., and the program in this non-volatile memory may be rewritten to cause an abnormality. is there. Conventionally, an appropriate countermeasure has not been taken for such a case, and an appropriate countermeasure technique is required.

  Therefore, the present invention provides an image processing apparatus capable of appropriately responding so that at least necessary emergency information can be acquired by a simple communication procedure in a state where the main control board is detached from the image processing apparatus. It is an object.

  In order to achieve the above object, the present invention controls a program storage means for storing a program, an information storage means for storing various information, and a program storage means program on a removable main control board. A control means is mounted, and an emergency operation circuit portion that communicates with a predetermined external device in a state where the main control board is detached from the image processing apparatus is mounted. The emergency operation circuit portion is mounted by the control means. A non-volatile storage unit having a predetermined capacity for storing emergency information including at least a predetermined amount of the self-diagnosis result information, the main control board is removed from the image processing apparatus, and an external device is USB-connected to the USB connection unit In a state, a predetermined communication procedure with the external device and USB is executed via the USB connection means. Sub control means for outputting at least emergency information of the nonvolatile storage means to the external device, and the nonvolatile storage means and the USB connection means are connected to the sub device while the main control board is mounted on the image processing apparatus. Disconnecting from the control means and connecting to the circuit portion on the control means side to enable access to the nonvolatile storage means and the USB connection means by the control means, and when the main control board is removed from the image processing device, And isolating means for disconnecting the nonvolatile storage means and the USB connection means from the circuit portion on the control means side and connecting to the sub control means to allow access by the sub control means. It is said.

  Further, the present invention may be characterized in that the emergency operation circuit portion includes USB voltage supply means for supplying the USB voltage from the external device only to the emergency operation circuit portion.

  Further, according to the present invention, the sub-control unit receives a request for changing a diagnostic item in the self-diagnosis from the external device in communication with the external device, and registers the changed diagnostic item in the nonvolatile storage unit. The control unit may perform a self-diagnosis based on a change diagnosis item registered in the nonvolatile storage unit when the main control board is remounted on the image processing apparatus.

  In the present invention, the sub-control unit accepts all or part of the emergency information erase request from the external device in communication with the external device, and the emergency information requested to be erased. May be erased from the non-volatile storage means.

  Further, according to the present invention, the emergency operation circuit portion of the main control board includes the program storage means, and the program writing to the program storage means is performed under the control of the sub-control means. And means for disconnecting the program storage means from the program writing means and connecting to the circuit portion on the control means side while the mounting detection means detects that the main control board is mounted on the image processing apparatus. The control means can read the program in the program storage means, and when the mounting detection means detects the removal of the main control board from the image processing apparatus, the program storage means is separated from the circuit portion on the control means side. The program writing means connected to the program writing means A second isolating means for enabling the writing of the program by means, it may be characterized in that it comprises.

  Further, according to the present invention, the emergency operation circuit portion is connected to a circuit portion between the USB connection means and the external device, and second USB connection means for performing predetermined USB communication with the external device; Switching means for switching communication with the external device to either the USB connection means or the second USB connection means, and the sub-control means fails in USB communication with the external device by the USB connection means Then, the switching unit may be switched from the USB connection unit to the second USB connection unit and communicate with the external device using the second USB connection unit.

  According to the present invention, necessary emergency information can be output by a simple communication procedure from the main control board removed from the image processing apparatus, and an appropriate response can be implemented.

  Hereinafter, preferred embodiments of the present invention will be described in detail with reference to the accompanying drawings. In addition, since the Example described below is a suitable Example of this invention, various technically preferable restrictions are attached | subjected, However, The range of this invention is unduly limited by the following description. However, not all the configurations described in the present embodiment are essential constituent elements of the present invention.

  1 to 5 are diagrams showing a first embodiment of an image processing apparatus according to the present invention. FIG. 1 is a block diagram of a main part of a composite apparatus 1 to which the first embodiment of the image processing apparatus according to the present invention is applied. FIG.

  In FIG. 1, the composite apparatus 1 includes an operation panel 2, a scanner 3, a plotter 4, an analog line I / F (interface) 5, various IO (Input Output) 6, and a plug 7 that is plugged into a commercial power outlet (plug receptacle). And a DC power supply unit 8 that adjusts and rectifies the commercial power supply voltage to a power supply voltage necessary for each part of the composite device 1, and is equipped with a main control board 100. Main MPU (Micro Processing Unit) 101, SRAM (Static Random Access Memory) 103, Work DRAM (Dynamic Random Access Memory) 104, FROM (Flash Read Only Memory) 105, system bus 106 connected to main MPU 101 via memory bus 102 The operation panel control unit 10 connected to the main MPU 101 by , The scanner control unit 108, the plotter control unit 109, the G3fax modem 110, the LAN control unit 111, the IO control unit 112, the buffer (BUF) 113 and the buffer (BUF) 114 to the main MPU 101 via the memory bus 102 and the system bus 106. The emergency operation circuit unit 120 and the like are connected.

  The emergency operation circuit unit 120 includes a sub MPU 121, an EEROM (Electrically Erasable Read-Only Memory) 122, a USB (Universal Serial Bus) control unit 123, I / Fs 124 and 125, a switch 126, and the like. The sub MPU (sub control means) 121 is connected to the EEROM 122 via the I / F 124, is connected to the memory bus 102 via the buffer 113, and is connected to the USB controller (USB connection means) via the I / F 125. 123 and the system bus 106 via the buffer 114. A switch 126 is connected to the USB control unit 123, and the switch 126 is connected to a connection / USB supply detection unit (connection detection unit) (not shown). The connection / USB supply detection unit is provided on the main control board 100. For example, the connection / USB supply detection unit is driven by a power supply signal VBUS supplied from an external computer (external device) PC connected to the USB control unit 123 by USB. A transistor whose input is connected to GND (ground) of the composite apparatus 1 and pulled up by the power supply signal VBUS is used.

  The switch (USB voltage supply means) 126 is connected by switching the contact 126a between the normal terminal 126b side and the power supply terminal 126c side. The switch 126 has a normal time terminal 126 b connected to the IO control unit 112 via the buffer 114, and a power supply terminal 126 c connected to the power supply circuit of the emergency operation circuit unit 120.

  When the main control board 100 is normally attached to the multifunction device 1, the switch 126 is connected to the GND of the multifunction device 1 by the connection / USB supply detection unit and outputs a Low signal. The piece 126a is connected to the normal time terminal 126b side. In this state, when the external computer PC is connected to the USB control unit 123 and the power supply signal VBUS is supplied from the external computer PC, the buffer 114 is transferred from the normal time terminal 126b. Via the I / O control unit 112 as a connection detection voltage and used for connection detection with the external computer PC. When the main control board 100 is removed from the composite apparatus 1, the switch 126 disconnects the connection / USB supply detection unit from the GND of the composite apparatus 1 and outputs a high signal, so that the contact 126a Is connected to the power supply terminal 126c side and supplies the emergency operation circuit unit 120 with the USB voltage from the external computer PC.

  As the buffers 113 and 114, for example, bidirectional tri-state buffers are used. The buffers 113 and 114 are supplied with a DC voltage from the DC power supply unit 8 when the main control board 100 is attached to the composite apparatus 1, and the main control board 100 is detached from the composite apparatus 1, and the external computer PC Is connected via USB, the USB voltage is supplied via the power supply terminal 126 c of the switch 126. Therefore, the buffers 113 and 114 are in a through state by a DC voltage from the DC power supply unit 8 when the main control board 100 is mounted in the multifunction device 1, so that the EEROM 122 and the USB control unit 123 are connected to the main MPU 101 side. In a state where the main control board 100 is disconnected from the composite device 1 and the USB voltage is supplied from the power supply terminal 126c of the switch 126, the gate is closed and a high impedance state is established, and the emergency operation circuit is connected. The unit 120 is cut off from the circuit part on the main MPU 101 side of the main control board 100.

  In addition, the I / Fs 124 and 125 are opposite to the buffers 113 and 114, and in normal times when a DC voltage is supplied from the DC power supply unit 8, the EEROM 122 and the USB control unit 123 are set as high impedance to the sub MPU 121. In a state where the main control board 100 is disconnected from the sub-MPU 121 and removed from the multifunction apparatus 1, the EEROM 122 and the USB control unit 126 are connected to the sub-MPU 121. Therefore, the buffers 113 and 114 and the I / Fs 124 and 125 function as isolation means as a whole.

  The SRAM (information storage means) 103 is backed up by the primary battery 103a, and the data to be stored even when the power of the composite apparatus 1 is turned off, in particular, an emergency including self-diagnosis result information. Information is stored. The work DRAM 104 includes a secondary battery 104a that is used as a work memory and temporarily backs up a memory image for facsimile communication.

  The FROM (program storage means) 105 stores various programs such as a basic processing program of the composite apparatus 1 and an information output program to be described later, and various information and system data necessary for executing these programs. Is stored.

  The main MPU (control means) 101 controls each part of the composite apparatus 1 using the work DRAM 104w based on the program of the FROM 105, executes basic processing as the composite apparatus 1, and executes information output processing described later. .

  An operation panel 2 that is an IO is connected to the operation panel control unit 107. The operation panel 2 includes various operation keys such as a numeric keypad and a start key, and a display (for example, a liquid crystal display). On the operation panel 2, various commands for various processes to be executed by the multifunction device 1 such as the number of copies, the number of copies, designation of a transmission destination, and other transmission operations are input by an operation key. The various command contents and various information notified from the composite apparatus 1 to the operator are displayed. Then, the operation panel control unit 107 acquires the operation content on the operation panel 2 and outputs the operation content to the main MPU 101, and causes the display to display the various types of information under the control of the main MPU 101.

  The scanner control unit 108 is connected to the scanner 3 which is an IO. The scanner 3 is, for example, an image scanner using a CCD (Charge Coupled Device), and is generally an ADF (Auto Document Feeder). It has. The ADF sets a plurality of originals, conveys the set originals one by one to the reading unit of the scanner 3, and discharges the originals read by the scanner 3 to the ADF original discharge unit. To do. The scanner 3 operates under the control of the scanner control unit 108, scans a document, and reads an image of the document with a predetermined resolution. The scanner control unit 108 controls the operation of the scanner 3 in accordance with a control signal from the main MPU 101, causes the scanner 3 to read a document image, and transfers the document image read by the scanner 3 to the SRAM 103 or the work DRAM 104. To do.

  A plotter 4 that is an IO is connected to the plotter control unit 109. As the plotter 4, for example, an image forming apparatus such as an electrophotographic system is used. The plotter control unit 109 controls the plotter 4 based on the image data (write data) transferred from the SRAM 103 or the work DRAM 104, and causes the plotter 4 to record and output an image corresponding to the image data. The plotter 4 discharges the paper on which the image has been recorded onto the paper discharge table. The plotter 4 may have a double-sided recording function, and in this case, the plotter 4 records and outputs images on the front and back surfaces of the paper.

  An analog line I / F5 is connected to the G3fax modem 110, and an analog telephone line of a public line network is connected to the analog line I / F5. The G3fax modem 110 operates under the control of the main MPU 101, modulates the transmission signal and demodulates the reception signal, and executes the G3 facsimile communication procedure with the counterpart facsimile apparatus via the analog line I / F5. .

  A LAN is connected to the LAN control unit 111, and the LAN control unit 111 exchanges data and commands with terminals such as personal computers and servers on the LAN.

  Various sensors such as paper sensors, door sensors, heater temperature sensors, and various IOs such as motors are connected to the IO control unit 112, and the IO control unit 112 transmits and receives signals to and from these various IOs 6. The received signal is output to the main MPU 101.

  The DC power supply unit 8 adjusts and rectifies the commercial power supply voltage supplied through the plug 7 inserted into the outlet (plug receptacle) of the commercial power supply to a voltage required for each unit of the composite device 1, and To supply.

  Next, the operation of this embodiment will be described. In the multifunction apparatus 1 of this embodiment, the main MPU 101 performs self-diagnosis of each part of the multifunction apparatus 1 during normal operation, stores self-diagnosis result information in the SRAM 103, and stores a predetermined amount of necessary self-diagnosis result information in the memory bus 102. When the main control board 100 is removed from the composite apparatus 1, the emergency operation circuit unit 120 is separated from the circuit part on the main MPU 101 side by the buffer 113 and the buffer 114. When the computer PC is connected by USB, the sub-MPU 121 reads out the self-diagnosis result information of the EEROM 122 by the USB voltage and provides it to the external computer PC.

  That is, when the main power is turned on with the main control board 100 mounted on the composite device 1, the composite device 1 adjusts the commercial power supply voltage supplied via the plug 7 by the DC power supply unit 8. And rectified and supplied. In addition, when a voltage is supplied from the DC power supply unit 8 in the composite apparatus 1, the buffer 113 and the buffer 114 are in a through state, the I / F 124 and the I / F 125 are in a high impedance state, and the sub MPU 121 is isolated. In addition, the main MPU 101 is connected to the EEROM 122 and the USB control unit 123.

  The main MPU 101 checks the peripheral logic in the main MPU 101 when the main power is turned on and a necessary voltage is supplied. That is, the main MPU 101 has a self-diagnosis function in which a pattern for checking the internal logic is written inside, and the normal / abnormality of the composite apparatus 1 is judged by looking at self-diagnosis result information based on a predetermined pattern. Yes.

  Next, the main MPU 101 checks the device on the memory bus 102. First, the main MPU 101 reads the boot code from the FROM 105, checks the checksum value, etc., and checks whether the FROM 105 is normal. In addition, the main MPU 101 performs a write / read verify on the SRAM 103 and the work DRAM 104 at a predetermined location in a RAM area having a predetermined capacity to check the SRAM 103 and the work DRAM 104.

  Next, the main MPU 101 checks devices on the system bus 106. First, the units 2 to 6 of the composite apparatus 1 are connected, and the control units 107 to 112 that control these units 2 to 6 are sequentially checked. For example, the main MPU 101 causes the operation panel control unit 107 to perform connection communication with the operation panel 2 and captures the result. The main MPU 101 performs shading of the scanner 3 to the scanner control unit 108 and captures the result. The main MPU 101 causes the plotter control unit 109 to perform laser lighting of a predetermined pattern and captures the result. For the G3fax modem 110, the LAN control unit 111, and the IO control unit 112, a self-check result of an ASIC (Application Specific Integrated Circuit) to be installed is captured. The main MPU 101 stores the self-diagnosis result information by these self-diagnosis functions in the SRAM 103 and also stores the self-diagnosis result information of important self-diagnosis items in the EEROM 122 and ends the initialization operation. When the main power supply is turned on next time, the main MPU 101 performs self-diagnosis in the same manner as described above, and updates the self-diagnosis result information by overwriting the self-diagnosis result information of the SRAM 103 and the work DRAM 104.

  In this state, after the main control board 100 is removed from the composite apparatus 1 due to an abnormality or the like in the composite apparatus 1 or being discarded, the external computer PC is connected to the USB control unit 123 and the power supply signal VBUS is received. When the main control board 100 is removed from the composite apparatus 1 that is input or is connected to the external computer PC by USB and the main power supply is turned off, and only the USB voltage from the external computer PC is supplied. Since the connection / USB supply detection unit is disconnected from the GND of the multifunction apparatus 1 and outputs a high signal to the switch 126, the contact piece 126a of the switch 126 is connected to the power supply terminal 126c side from the normal time terminal 126b. Connected to the emergency operation circuit unit 120 from the external computer PC. SB voltage is supplied.

  At this time, the buffers 113 and 114 close the gates to be in a high impedance state, and the emergency operation circuit unit 120 is cut off from the circuit part on the main MPU 101 side of the main control board 100, and the I / F 124 and I / F 125. Becomes a through state, and the EEROM 122 and the USB control unit 123 are connected to the sub MPU 121 via the I / F 124 and the I / F 125.

  Therefore, when the external computer PC is USB-connected to the USB control unit 123 of the main control board 100 removed from the multifunction apparatus 1, the connection / USB supply detection unit outputs a detection signal to the switch 126, and the switch 126 The contact piece 126a is switched from the normal terminal 126b to the power supply terminal 126c and connected to supply the USB voltage from the external computer PC to the emergency operation circuit unit 120 such as the sub MPU 121.

  When the external computer PC is connected to the USB control unit 123 and the USB voltage is supplied via the switch 126 in a state where the main control board 100 is removed from the multifunction apparatus 1, the sub MPU 121 is supplied with the USB control unit 123 by an internal program. 2 is executed, and a simple handshake to obtain an emergency information including self-diagnosis information and an inquiry level is executed, for example, as shown in FIG.

  That is, as shown in FIG. 2, when the sub MPU 121 detects that the external computer PC is connected to the main control board 100 removed from the multifunction apparatus 1, for example, the sub MPU 121 initializes the USB control unit 123 using an internal program. And a simple handshake is executed with the driver installed in the external computer PC. When the OS (Operating System) installed in the external computer PC is Windows (registered trademark), the driver is The main control board 100 is recognized by plug and play (PnP).

  When the driver recognizes the main control board 100 by the handshake, the external computer PC sends a storage data request to the main control board 100, and when the sub MPU 121 receives the storage data request, That is, the emergency information stored in the EEROM 122 is read by a predetermined procedure (for example, the entire area from the start address or a part of the area) and transferred to the external computer PC.

  When receiving the emergency information, the external computer PC returns ACK to the main control board 100.

  The external computer PC allocates the received emergency information to, for example, predetermined self-diagnosis items and displays them on a display screen or records and outputs them on a sheet by a connected printer. For example, when emergency information including self-diagnosis information indicating that there is an abnormality in the scanner 3 of the multifunction apparatus 1 is received, the predetermined data is “01 (h)” and the external computer PC Performs output such as displaying “scanner NG” when the data is “01 (h)”.

  As described above, the composite apparatus 1 according to the present embodiment includes, on the removable main control board 100, the FROM (program storage unit) 105 that stores a program, the SRAM (information storage unit) 103 that stores various information, and the FROM 105. Based on the program, the operation panel 2, the scanner 3, the plotter 4, the analog line I / F (interface) 5, and various IOs 6 are connected to the operation panel control unit 107, the scanner control unit 108, the plotter control unit 109, the G3fax modem 110, An emergency operation circuit portion that is equipped with a main MPU (control means) 101 that is controlled via the LAN control unit 111 and the IO control unit 112 and that communicates with an external computer PC in a state in which the main control board 100 is removed from the composite apparatus 1. 120 is installed, emergency operation The circuit part 120 detects the removal state of the main control board 100 from the composite device 1 and the EEROM 122 in which emergency information including at least a predetermined amount of self-diagnosis result information is stored by the main MPU 101, and sends an external computer to the USB control unit 123. In a state where the PC is connected to the USB, a sub-MPU (sub MP) that executes a predetermined communication procedure with the external computer PC via the USB control unit 123 and outputs at least emergency information of the EEROM 122 to the external computer PC Control means) 121 and EEROM 122 and USB control unit 123 are disconnected from sub-MPU 121 and connected to the circuit portion on main MPU 101 side while EEROM 122 and main control board 100 are mounted on composite apparatus 1 and EERO by main MPU 101 122 and the USB control unit 123 can be accessed, and when the main control board 100 is removed from the multifunction apparatus 1, the EEROM 122 and the USB control unit 123 are separated from the circuit portion on the main MPU 101 side and can be accessed by the sub MPU 101. Buffers 113 and 114 and I / Fs 124 and 125 as isolation means are provided.

  Therefore, when the main control board 100 is mounted on the composite apparatus 1, the emergency information written in the EEROM 122 by the main MPU 101 is removed from the composite apparatus 1 and the USB control unit 123 is connected to an external computer. When the PC is connected, the sub MPU 121 can output to the external computer PC by a simple USB communication procedure, whether there is an abnormality in the main control board 100, or abnormalities in the IOs such as the operation panel 2 to various IO6 Accordingly, it is possible to appropriately determine whether the composite apparatus 1 is abnormal or not. That is, emergency information such as self-diagnosis result information can be taken into the external computer PC only by connecting the main control board 100 to the external computer PC via USB.

  Further, in the composite apparatus 1 according to the present embodiment, the emergency operation circuit portion 120 of the main control board 100 supplies the switch 126 as a USB voltage supply unit that supplies the USB voltage from the external computer PC only to the emergency operation circuit portion 120. It has.

  Therefore, when the main control 100 is removed from the composite apparatus 1, it is possible to supply the USB voltage to the emergency operation circuit portion 120 by simply connecting the external computer PC to the USB control unit 123 by USB connection. Emergency information such as self-diagnosis result information can be taken into the external computer PC from the EEROM 122 easily and easily.

  In the above description, when the main control board 100 is mounted on the multifunction device 1, the main MPU 101 displays emergency information such as self-diagnosis result information as a result of self-diagnosis of each part operation of the multifunction device 1. The case where the external computer PC obtains emergency information in the EEROM 122 when the main control board 100 is removed and connected to the external computer PC has been described. However, the emergency information stored in the EEROM 122 is stored in the EEROM 122 and stored in the external computer. The emergency information acquired by the PC is not limited to the self-diagnosis result information. For example, all or part of the telephone book information of the operation panel 2 and the communication management information of the G3fax modem 110 are also stored in the EEPROM 122. It may be stored in association with.

  In this way, self-diagnosis such as a failure of the composite apparatus 1 can be performed more appropriately in association with these pieces of information.

  Further, in the present embodiment, as shown in FIG. 3, the storage contents of the EEROM 122 may not be easily taken out. That is, except for the USB control unit 123, the emergency operation circuit unit 120 including the buffers 113 and 114 indicated by the two-dot chain line in FIG. 3 is configured as a specific part 130 with a dedicated ASIC, or a resin or the like for each module. It may be hardened with a black box. In this case, the unique part 130 increases the reliability of the specific part 130 by performing the inspection more than the dedicated function check in the PCB creation process and making it a highly reliable module free from failure. To enable fault diagnosis.

  In this way, it is possible to appropriately perform diagnosis in the composite apparatus 1 such as the main control board 100 such as failure diagnosis with a simpler configuration, and an emergency operation circuit unit 120 is added to the main control board 100. However, the cost of adding the emergency operation circuit unit 120 can be increased by improving the PCB regeneration rate through failure diagnosis.

  Furthermore, as shown in FIG. 4, a request for changing diagnostic items for self-diagnosis is issued from the external computer PC to the sub MPU 121 of the main control board 100 so that the multifunction device 1 performs self-diagnosis on the intended self-diagnosis items. It may be.

  In this case, as shown in FIG. 4, when the sub MPU 121 detects that the external computer PC is connected to the main control board 100 by USB connection, as shown in FIG. The USB control unit 123 is initialized, and a simple handshake is executed with the driver installed in the external computer PC. The driver of the external computer PC recognizes the main control board 100 by plug and play (PnP). To do.

  Then, when the driver recognizes the main control board 100 by the handshake, the external computer PC sends a diagnostic item change request and sends a new diagnostic item to the main control board 100. The sub MPU 121 When a change request and a new diagnostic item are received, the diagnostic item is changed and registered in the EEROM 122, and an ACK is sent to the external computer PC. The change of the diagnostic item to the EEROM 122 and the registration of a new diagnostic item are performed by resetting a flag corresponding to the diagnostic item data, for example.

  When the main control board 100 on which the diagnostic item has been changed to the EEROM 122 and the new diagnostic item has been registered is mounted on the multifunction apparatus 1 again and the main power supply is turned on, the main MPU 101 detects the diagnostic item of the EEROM 122. The self-diagnosis is executed based on the diagnostic item after the change, and the self-diagnosis result information is stored in the SRAM 103 and the EEROM 122.

  In this way, when the main control board 100 in which self-diagnosis is performed with the changed diagnostic items and the self-diagnosis result information is stored in the EEROM 122 is removed from the composite apparatus 1 and connected to the external computer PC again, As shown in FIG. 2, the self-diagnosis result information based on the changed diagnostic items stored in the EEROM 122 is transmitted to the external computer PC.

  In this way, depending on the result of acquiring emergency information such as self-diagnosis result information, the self-diagnostic items can be changed and self-diagnosis can be performed again. It can be done more appropriately.

  Further, as described above, the multifunction device 1 according to the present embodiment stores emergency information such as self-diagnosis result information in the SRAM 103 and all or a part thereof in the EEROM 122. However, the emergency information ( Error codes, etc.) include those due to user operations, and the number of items is considerably large. Therefore, at the service site where repair or the like is performed at the installation location of the composite apparatus 1, it is not known whether the IO units 2 to 6 such as the operation panel 2 and the scanner 3 have failed or the main control board 100 has failed. In many cases, the main control board 100 is replaced.

  Therefore, when an abnormality occurs, the main MPU 101 determines whether there is a hardware failure of each of the control units 107 to 112 on the main control board 100 apart from emergency information such as self-diagnosis result information. It may be determined whether a failure has occurred, and failure location information indicating the determination result may be written in the EEROM 122. In this case, the main MPU 101 can save the storage capacity of the EEROM 122 by encoding the failure location information into, for example, a code with a small amount of data and writing it in the EEROM 122.

  Therefore, it is possible to appropriately determine whether the service person has a failure of the main control board 100 or a failure of the IO units 2 to 6 at the service site, and the usability can be improved.

  Further, as emergency information such as self-diagnosis result information stored in the EEPROM 122, when a failure occurs in the handshake of the facsimile communication protocol during facsimile communication, the handshake failure information of the facsimile communication protocol may be stored. .

  That is, at the time of facsimile communication, the main MPU 101 dumps the facsimile communication protocol with the communication partner of the analog telephone network via the G3fax modem 110, and performs SRAM 103 or work DRAM 104 at each handshake step of the facsimile communication protocol. Is stored as facsimile communication protocol dump information, but the communication contents, time, and exchanged code are written in this facsimile communication protocol dump information. When an abnormality occurs, the facsimile communication protocol dump information is printed. By making it out, it is possible to determine the details of the communication. However, this facsimile communication protocol dump is in a format for viewing a printout and has a large amount of information, so it is often stored in the work DRAM 104 backed up by the secondary battery 104a rather than the SRAM 103. . As a result, the facsimile communication protocol dump information is often lost due to the passage of time and is not effectively used.

  Therefore, the multifunction apparatus 1 stores the facsimile communication protocol dump information in the EEPROM 122 when the main MPU 101 fails in the handshake of the facsimile communication protocol among the facsimile communication protocol dump information. That is, since the facsimile communication error is often caused by a failure of the handshake of the facsimile communication protocol, it can be classified as an error code by patterning the failure information of the handshake of the facsimile communication protocol, This error code is stored in the EEROM 122 when an error occurs.

  Therefore, since the emergency information including the error code of the facsimile communication error is stored, even when the display of the plotter 4 or the operation panel 2 is broken, the failure analysis is appropriately performed based on the emergency information. Can be done.

  Also, normality / defectiveness of the program in the FROM 105 may be checked, and the check result may be written in the EEROM 122 as emergency information. That is, the main control board 100 of the composite apparatus 1 causes the main MPU 101 to check the internal peripheral logic when the composite apparatus 1 is powered on, check the device of the memory bus 102, and read the boot code from the FROM 105. Identify the ID of the program. Next, the main MPU 101 checks the checksum value or the like to check whether the FROM 105 is normal. If it is normal, the main MPU 101 writes the program ID and the checksum value to the EEROM 122.

  In this way, even when the program of the FROM 105 is rewritten on the market after the factory shipment of the multifunction device 1, the rewriting can be confirmed by the version of the program, and the occurrence of an abnormality in the multifunction device 1 can be more appropriately performed. Can be analyzed.

  Further, as shown in FIG. 5, the main control board 100 of the composite apparatus 1 is stored in the EEROM 122 upon request from the external computer PC when it is removed from the composite apparatus 1 and the external computer PC is connected by USB. The emergency information such as self-diagnosis result information may be deleted.

  That is, as shown in FIG. 5, as in the case of FIG. 2, when the sub MPU 121 is detached from the multifunction apparatus 1 and an external computer PC is connected to the main control board 100 by USB, the USB control unit 123 is executed by an internal program. Is initialized and a simple handshake is executed with the driver mounted on the external computer PC, and the driver of the external computer PC recognizes the main control board 100 by plug and play (PnP).

  Then, when the driver recognizes the main control board 100 by the handshake, the external computer PC sends a diagnosis result deletion request to the main control board 100, and when the sub MPU 121 receives the diagnosis result deletion request, the sub MPU 121 receives an ACK. The data is returned to the external computer PC and erased by overwriting all the data in the EEROM 122 (emergency information such as self-diagnosis result information) with, for example, “0” or “1”.

  Therefore, for example, when the main control board 100 itself is not defective after being mounted on the normal multifunction device 1, the emergency information such as the self-diagnosis result information can be erased from the EEROM 122 and used as a reproduction part. , Can improve usability.

  6 and 7 are diagrams showing a second embodiment of the image processing apparatus of the present invention, and FIG. 6 is a block diagram of the main part of the composite apparatus 200 to which the second embodiment of the image processing apparatus of the present invention is applied. FIG.

  The present embodiment is applied to a composite apparatus similar to the composite apparatus 1 of the first embodiment. In the description of the present embodiment, the same reference numerals are used for the same components as the composite apparatus 1 described above. To simplify the description.

  In FIG. 6, the composite apparatus 200 has a main control board 210 in which the FROM 105 of the first embodiment is incorporated in the emergency operation circuit section 220. The operation panel 3, scanner 3, printer 4, analog line An I / F 5, various IOs 6, a plug 7 and a DC power supply unit 8 are provided, and a main control board 210 is provided. Main control board 210 includes main MPU 101 similar to main control board 100 of the first embodiment, SRAM 103 backed up by primary battery 103a connected to memory bus 102, work DRAM 104 backed up by secondary battery 104a, system An operation panel control unit 107, a scanner control unit 108, a plotter control unit 109, a G3fax modem 110, a LAN control unit 111, an IO control unit 112, and the like connected to the bus 106 are mounted and the same as in the first embodiment. The emergency operation circuit unit 220 connected to the memory bus 102 by the buffer 113 and the buffer 211 and connected to the system bus 106 by the buffer 114 is mounted.

  The emergency operation circuit unit 220 includes the same sub MPU 121, EEROM 122, USB control unit 123, I / F 124, I / F 125, and switch 126 as the emergency operation circuit unit 120 of the first embodiment. A FROM 221 and an I / F 222 similar to the embodiment, a FROM writing circuit 223, and the like are provided.

  The buffer 211 has the same configuration as the buffers 113 and 114, and for example, a bidirectional tri-state buffer is used. The buffer 211 is supplied with a DC voltage from the DC power supply unit 8 when the main control board 210 is attached to the composite apparatus 200, the main control board 210 is removed from the composite apparatus 200, and the external computer PC is connected to the USB. When connected, the USB voltage from the external computer PC is supplied via the power supply terminal 126 c of the switch 126. Accordingly, the buffer 221 and the buffers 113 and 114 are in a through state by a DC voltage from the DC power supply unit 8 in a normal state where the main control board 210 is mounted on the composite apparatus 200, and the main control board 210 is in the through state. In the state where the USB voltage is supplied from the power supply terminal 126 c of the switch 126, the gate is closed and the high impedance state is established, and the emergency operation circuit unit 220 is connected to the circuit on the main MPU 101 side of the main control board 210. Block from the part.

  The FROM 221 stores various programs such as a basic processing program of the composite apparatus 200 and an information output program described later, as well as the FROM 105 of the first embodiment, and various data necessary for executing these programs. And system data are stored, but are connected to the memory bus 102 via the buffer 211 and to the FROM writing circuit 223 via the I / F 222. As will be described later, the main control When the substrate 210 is mounted on the composite apparatus 200, only reading is possible.

  The I / F 222 is provided between the FROM 221 and the FROM writing circuit 223. Like the I / Fs 124 and 125, the I / F 222 is normally connected to the FROM writing circuit 223 when a DC voltage is supplied from the DC power supply unit 8. Thus, the connection with the FROM writing circuit 223 is cut off as high impedance, and the FROM 221 side is connected to the main MPU 101 via the buffer 211. Further, the I / F 222 is in a through state when the main control board 210 is detached from the multifunction apparatus 200, and connects the FROM 221 to the FROM writing circuit 223.

  That is, the buffer 211 is connected by a one-way driver from the FROM 221 toward the main MPU 101. Further, the FROM 105 is normally in a high impedance state when the FROM 221 is removed from the composite device 200 and the USB voltage is supplied from the power supply terminal 126c of the switch 126. The I / F 222 is connected together with the FROM rewrite signal line Lrw. Then, the FROM writing circuit 223 performs writing to the FROM 221 by executing a writing sequence according to the FROM type via the I / F 222.

  The FROM 223 is connected to the FROM 221 via the I / F 222 and is also connected to the sub MPU 121. Under the control of the sub MPU 121, the program sent from the external computer PC is written in the FROM 221. Read the program inside.

  When the main control board 210 is removed from the multifunction apparatus 200 and the external computer PC is connected to the USB control unit 123, the sub MPU 121 performs a simple handshake with the external computer PC, and When the preparation for communication is completed, as in the case of the first embodiment, emergency information such as self-diagnosis result information stored in the EEROM 122 is read, various information is written, information is erased, etc. After checking the normality of the program sent from the external computer PC, the program update process such as updating the program in the FROM 221 with the program received from the external computer PC via the FROM writing circuit 223 is performed.

  Next, the operation of this embodiment will be described. As in the case of the first embodiment, the composite apparatus 200 of the present embodiment reads out emergency information such as self-diagnosis result information in the EEROM 122, writes various information, erases information, and the like, as shown in FIG. As described above, after a normal check of the program sent from the external computer PC is performed, the program update process such as updating the program in the FROM 221 with the program received from the external computer PC via the FROM writing circuit 223 is performed. Do.

  That is, when the main power is turned on in a state where the main control board 210 is mounted on the composite device 200, the composite device 1 adjusts the commercial power supply voltage supplied via the plug 7 by the DC power supply unit 8 to adjust the voltage. And rectified and supplied. When a voltage is supplied from the DC power supply unit 8, the composite device 1 has the buffer 113, the buffer 114, and the buffer 211 in a through state, the I / F 124, the I / F 125, and the I / F 222 are in a high impedance state, The sub MPU 121 and the FROM writing circuit 223 are isolated, and the main MPU 101 is connected to the EEROM 122, the USB control unit 123, and the FROM 221. That is, the FROM 221 is in a state in which it can only be read by the main MPU 101 via the buffer 211 when the main control board 210 is mounted on the composite apparatus 200, and is in a high impedance state with the FROM writing circuit 223. It is in a state of being disconnected by the I / F 222, and the internal program cannot be rewritten.

  The main MPU 101 checks the peripheral logic in the main MPU 101 when the main power is turned on and a necessary voltage is supplied. That is, the main MPU 101 has a pattern for checking internal logic written therein, and performs a self-diagnosis process for judging normality / abnormality of the multifunction apparatus 1 by looking at a result of a predetermined pattern, and the self-diagnosis result Information is stored in the SRAM 103 and all or part of the self-diagnosis result information is stored in the EEROM 122.

  Next, the main MPU 101 checks the device on the memory bus 102. First, the main MPU 101 reads the boot code from the FROM 221 and checks the checksum value to check whether the FROM 221 is normal. In addition, the main MPU 101 performs a write / read verify on the SRAM 103 and the work DRAM 104 at a predetermined location in a RAM area having a predetermined capacity to check the SRAM 103 and the work DRAM 104. Next, as in the first embodiment, the main MPU 101 checks the devices on the system bus 106, and controls each unit 2-6 by connecting each unit 2-6 of the composite apparatus 1. The units 107 to 112 are sequentially checked. The main MPU 101 stores the self-diagnosis result information by these self-diagnosis functions in the SRAM 103 and also stores the self-diagnosis result information of important self-diagnosis items in the EEROM 122 and ends the initialization operation.

  While the main control board 210 is mounted on the composite apparatus 200, the FROM 221 is in a state in which only reading can be performed by the main MPU 101 via the buffer 211, and a high impedance state with respect to the FROM writing circuit 223. The I / F 222 is disconnected, and the internal program cannot be rewritten. Therefore, the FROM 221 is protected from unauthorized writing from the main MPU 101 and can prevent the program from being tampered with.

  In this state, the main control board 210 is removed from the multi-function apparatus 200 due to an abnormality or the like in the multi-function apparatus 200, or discarded, and the external computer PC is connected to the USB controller 123 and the power supply signal VBUS is input. Or when the main control board 210 is removed from the composite device 200 which is powered off while being connected to the external computer PC by USB, and only the USB voltage from the external computer PC is supplied. The USB supply detection unit is disconnected from the GND of the multifunction device 1 and outputs a high signal to the switch 126, so that the contact piece 126a of the switch 126 is switched from the normal time terminal 126b to the power supply terminal 126c side. Connected to the emergency operation circuit unit 120 from an external computer PC. Supply the USB voltage.

  At this time, the buffers 113 and 114 and the buffer 211 are in a high impedance state with the gates closed, and the emergency operation circuit unit 220 is cut off from the circuit portion on the main MPU 101 side of the main control board 210, and the I / F 124. , The I / F 125 and the I / F 222 are in a through state, and the EEROM 122, the USB control unit 123, and the FROM 221 are disconnected from the main MPU 101, and the sub MPU 121 and the FROM are connected via the I / F 124, the I / F 125, and the I / F 222. The state is connected to the writing circuit 223.

  When the sub MPU 121 is connected to the external computer PC with the main control board 100 removed from the multifunction apparatus 1 and supplied with the USB voltage via the switch 126, the sub MPU 121 initializes the USB control unit 123 by an internal program and For example, as shown in FIG. 2, a simple handshake to the extent that an emergency information including diagnostic information is obtained and an inquiry level is executed.

  Further, when the sub MPU 121 is connected to the external computer PC with the main control board 100 removed from the multifunction apparatus 1 and the USB voltage is supplied via the switch 126, the sub MPU 121 initializes the USB control unit 123 by an internal program. Then, a simple handshake is performed and a program write request to the FROM 221 is made as shown in FIG.

  That is, as shown in FIG. 7, when the sub MPU 121 detects that the external computer PC is connected to the main control board 210 removed from the multifunction apparatus 1, for example, the sub MPU 121 initializes the USB control unit 123 by an internal program. Then, a simple handshake is executed with the driver mounted on the external computer PC, and the driver of the external computer PC recognizes the main control board 210 by plug and play (PnP).

  Then, when the driver recognizes the main control board 210 by the handshake, the external computer PC sends a program write request to the main control board 210, and when the sub MPU 121 receives the program write request, it sends ACK to the external computer. Return to PC.

  When the external computer PC receives ACK from the sub MPU 121, it transmits the program to the sub MPU 121.

  When receiving the program from the external computer PC, the sub MPU 121 calculates a checksum value and compares it with the checksum value attached to the program to check whether the program has been received normally. When the sub MPU 121 normally receives the program, it returns a normal transfer command to the external computer PC and writes the received program to the FROM 221 via the program write circuit 223. When the sub-MPU 121 normally finishes writing the program to the FROM 221, the sub-MPU 121 recalculates the checksum value of the FROM 221 and writes it to the EEROM 122 together with the program ID.

  As described above, in the composite apparatus 200 of this embodiment, the emergency operation circuit portion 220 of the main control board 210 includes the FROM 221 as the program storage means, and the program writing to the FROM 221 is performed under the control of the sub MPU 121. The FROM 221 is disconnected from the FROM writing circuit 223 and connected to the circuit portion on the main MPU 101 side while detecting the mounting of the FROM writing circuit (program writing means) 223 in FIG. When the main MPU 101 can read the program of the FROM 221 and detects the removal of the main control board 210 from the composite apparatus 1, the FROM 221 is separated from the circuit portion on the main MPU 101 side and the FROM writing circuit is read out. Connected to the 223 includes a buffer 211 and I / F 222 which enables the writing of the program by FROM write circuit 223, a.

  Therefore, it is possible to prevent the occurrence of a failure due to unauthorized rewriting of the program of the FROM 221 or the abnormality of the program, and it is possible to update the program of the FROM 221 with an appropriate program.

  The sub MPU 121 receives a program, a program ID, and a checksum value from the external computer PC, calculates a checksum value in reception of the program, and the received checksum value matches the calculated checksum value. Only in this case, the program of the FROM 221 is updated by the received program.

  Accordingly, it is possible to prevent the program in the FROM 221 from being inadvertently updated by an abnormal program, and to further prevent a failure due to an abnormal program.

  Further, the sub-MPU 121 re-calculates the checksum value of the FROM 221 when the writing of the program to the FROM 221 is normally completed, and writes it to the EEROM 122 together with the program ID. If the checksum values do not match, the sub-MPU 121 checks it. A flag indicating that the thumbs do not match may be stored.

  In this way, even if the main control board 210 on which the FROM 221 in which the defective program is written is mounted on the composite apparatus 200 due to some mistake, the main MPU 101 does not match the checksum value of the program written in the FROM 221. It is possible to read the flag written in the EEROM 122 to identify it as a fatal error and stop the subsequent initialization operation. As a result, the main control board 210 in which the defective program is stored in the FROM 221 is mistakenly attached to the multifunction apparatus 1 to prevent the defective program from operating, thereby preventing the occurrence of an abnormality. it can.

  Further, the sub MPU 121 of the main control board 210 receives the program from the external computer PC, calculates the checksum value, and compares it with the checksum value attached to the program. If it is normal, the program ID and the checksum value of the program received and written in the EEROM 122 in the same manner may be collated.

  In this case, for example, the program ID can be discriminated between new and old by adding numbers and alphanumeric characters that are sequentially advanced, and when the program ID stored in the EEROM 122 is older than the transferred program ID. Whether a determination sequence for writing a program is stored in the program of the sub MPU 121, is transferred from an external computer PC with a flag to be overwritten regardless of whether the program ID is new or old, and Even when the IDs are the same but the checksum values are different, writing is also performed. In this way, the program can be updated normally, but when the program in the FROM 221 is broken, the program in the FROM 221 can be overwritten.

  The sub MPU 121 of the main control board 210 notifies the external computer PC of the result of writing these programs to the FROM 221 when the program writing normal ACK in FIG. 7 is returned.

  In this way, it is possible to determine whether or not the program needs to be rewritten and to omit the invalid rewriting work, thereby improving the processing efficiency.

  FIG. 8 is a block diagram showing the principal parts of a composite apparatus 300 to which the third embodiment of the image processing apparatus of the present invention is applied.

  The present embodiment is applied to a composite apparatus similar to the composite apparatus 200 of the second embodiment. In the description of the present embodiment, the same components as those of the composite apparatus 200 are denoted by the same reference numerals. To simplify the description.

  In FIG. 8, when the main control board 310 fails in USB communication with the external computer PC, the main control board 310 performs limited USB communication with the external computer PC.

  That is, the composite apparatus 300 includes the same operation panel 3, scanner 3, printer 4, analog line I / F 5, various IOs 6, plug 7 and DC power supply unit 8 as well as the main control board 310. The main control board 310 is the main MPU 101 similar to the main control board 210 of the second embodiment, the SRAM 103 backed up by the primary battery 103a connected to the memory bus 102, and the work DRAM 104 backed up by the secondary battery 104a, Connected to the memory bus 102 by the operation panel control unit 107, scanner control unit 108, plotter control unit 109, G3fax modem 110, LAN control unit 111, IO control unit 112, buffer 113 and buffer 211 connected to the system bus 106 It is, are equipped with emergency operation circuit portion 320 connected to the system bus 106 by buffer 114.

  The emergency operation circuit unit 320 includes the sub MPU 121, the EEROM 122, the USB control unit 123, the I / F 124, the I / F 125, the switch 126, the FROM 221, the I / F 222, and the FROM that are the same as the emergency operation circuit unit 220 of the second embodiment. A writing circuit 223 is provided, and an SIO (Serial Input Output) 321 and an I / F 322 are provided.

  The I / F 322 is connected to a USB bus between the external computer PC and the USB control unit 123, and, like the I / Fs 124, 125, and I / F 222, the main control board 310 is mounted on the composite apparatus 300 and the DC power supply unit In a normal state in which a DC voltage is supplied from 8, the USB control unit 123 side is set in a high impedance state, removed from the composite apparatus 300, connected to an external computer PC, and supplied with a USB voltage from the external computer PC. It goes through.

  The SIO 321 is connected to the I / F 322, and the SIO 321 is connected to the sub MPU 121. Under the control of the sub-IPU 321, the SIO 321 performs communication (simple USB communication) with the external computer PC by simply performing several plug and play (PnP) procedures.

  The sub MPU 121 has a program (simple USB communication program) for causing the SIO 321 to perform USB communication according to the plug and play procedure in its internal memory, and USB communication via the USB control unit 123 fails. In addition, simple USB communication by the SIO 321 is performed.

  That is, when the main control board 310 is removed from the composite apparatus 300 and the external computer PC is connected to the USB control unit 123 of the main control board 310 removed from the composite apparatus 300, as described above, the main control board 310 is connected. The buffers 113 and 114 and the buffer 211 close the gates to be in a high impedance state, and the emergency operation circuit unit 320 is cut off from the circuit part on the main MPU 101 side of the main control board 310.

  In the sub MPU 121, the emergency operation circuit unit 320 is cut off from the circuit part on the main MPU 101 side of the main control board 310, and the external computer PC is connected to the USB control unit 123. As described above, USB communication by the plug and play (PnP) procedure is started via the USB control unit 123, and it is recognized whether the USB communication by the plug and play (PnP) procedure has succeeded or failed. For example, as a simple communication failure recognition method, when the sub MPU 121 confirms that the external computer PC is connected to the USB control unit 123, the sub MPU 121 monitors the USB control unit 123 with a timer and measures the predetermined time. If the plug and play (PnP) communication is not started, it is determined that the USB communication by the USB control unit 123 has failed, and the I / F 125 with the USB control unit 123 is closed. , Causes the SIO 321 to start simple USB communication.

  The external computer PC can display and discriminate the abnormal part according to the emergency information stored in the EEROM 122 as well as determining whether the USB control unit 123 is abnormal.

  As described above, in the composite apparatus 300 of the present embodiment, the emergency operation circuit portion 320 of the main control board 310 is connected to the circuit portion between the USB control unit 123 and the external computer PC, and between the external computer PC. SIO (second USB connection means) 321 that performs predetermined USB communication, and I / F 322 and I / F 125 that are switching means for switching communication with the external computer PC to either the USB control unit 123 or SIO 321 are further provided. When the sub MPU 121 fails in USB communication with the external computer PC by the USB control unit 123, the USB control unit 123 is switched from the USB control unit 123 to the SIO 321 by the I / F 322 and I / F 125, and communicates with the external computer PC using the SIO 321. Yes.

  Therefore, even when the USB control unit 123 fails, the SIO 321 can communicate with the external computer PC, and the failure analysis of the multifunction device 300 is appropriately performed even when the failure of the multifunction device 300 and the failure of the USB control unit 123 occur simultaneously. be able to.

  Also in the case of FIG. 8, as in the case of FIG. 3 in the emergency operation circuit unit 120 of the first embodiment, the circuit part other than the USB control unit 123 in the emergency operation circuit unit 320 and the buffer 113, The circuit portion including 114 and the buffer 211 is configured as a dedicated portion with a dedicated ASIC, or is solidified with resin or the like for each module to form a black box. Then, this unique part is subjected to the inspection beyond the dedicated function check in the PCB creation process, and by making it a highly reliable module free from failure etc., the reliability of the specific part 130 is improved and reliable. Even if failure diagnosis can be performed, USB communication may fail due to a failure other than the unique portion. For example, the failure of the USB control unit 123 due to static noise from a cable connected to the external computer PC or the voltage of the external computer PC cannot be dealt with even if configured as a specific part. In addition, USB communication can be performed with the external computer PC via the SIO 321 and the I / F 322, and the usability can be improved.

  The invention made by the present inventor has been specifically described based on the preferred embodiments. However, the present invention is not limited to that described in the above embodiments, and various modifications can be made without departing from the scope of the invention. It goes without saying that it is possible.

  The present invention can be used in an image processing apparatus such as a composite apparatus or a printer apparatus that simply outputs necessary information such as self-diagnosis result information from the removed main control board to an external computer.

The principal part block block diagram of the compound apparatus to which 1st Example of this invention is applied. The figure which shows the emergency information output procedure process flow between the sub MPU of the main control board removed from the compound apparatus of FIG. 1, and an external computer. FIG. 2 is a block configuration diagram in the case where an ASIC is formed with a main part of an emergency operation circuit unit in the main control board of FIG. The figure which shows the diagnostic item change procedure process flow between the sub MPU of the main control board removed from the compound apparatus of FIG. 1, and an external computer. The figure which shows the emergency information erasure | elimination procedure processing flow between the sub MPU of the main control board removed from the compound apparatus of FIG. 1, and an external computer. The principal part block block diagram of the compound apparatus to which 2nd Example of this invention is applied. The figure which shows the program update procedure process flow between the sub MPU of the main control board removed from the compound apparatus of FIG. 6, and an external computer. The principal part block block diagram of the composite apparatus to which 3rd Example of this invention is applied.

Explanation of symbols

1 Compound Device 2 Operation Panel 3 Scanner 4 Plotter 5 Analog Line I / F
6 Various IO
7 Plug 8 DC power supply unit 100 Main control board 101 Main MPU
102 Memory bus 103 SRAM
103a Primary battery 104 Work DRAM
104a Secondary battery 105 FROM
106 System Bus 107 Operation Panel Control Unit 108 Scanner Control Unit 109 Plotter Control Unit 110 G3fax Modem 111 LAN Control Unit 112 IO Control Unit 113, 114 Buffer 120 Emergency Operation Circuit Unit 121 Sub MPU
122 EEROM
123 USB controller 124, 125 I / F
126 Switch 126a Contact piece 126b Normal time terminal 126c Power supply terminal 130 Unique part 200 Composite device 210 Main control board 211 Buffer 220 Emergency operation circuit part 221 FROM
222 I / F
223 FROM writing circuit 300 composite device 310 main control board 320 emergency operation circuit section 321 SIO
322 I / F

Claims (10)

  On the removable main control board, there are mounted a program storage means for storing a program, an information storage means for storing various information, and a control means for controlling each part based on the program of the program storage means. In the image processing apparatus that self-diagnose the state and stores the self-diagnosis result information in the information storage means, the main control board communicates with a predetermined external device on the main control board in a state where the main control board is removed from the image processing apparatus. The emergency operation circuit portion includes at least a predetermined amount of the self-diagnosis result information by the control means in a state where the main control board is mounted on the image processing apparatus. Non-volatile storage means having a predetermined capacity for storing emergency information, and the main control board Mounting detection means for detecting whether or not the image processing apparatus is mounted, USB connection means for connecting the external apparatus via USB, and connection detection means for detecting whether or not the external apparatus is connected to the USB connection means The USB connection in a state in which the mounting detection means detects the removal state of the main control board from the image processing apparatus and the connection detection means detects the USB connection to the USB connection means of the external device. A sub-control unit that executes a predetermined communication procedure with the external device via the USB and outputs at least emergency information of the nonvolatile storage unit to the external device, and the mounting detection unit is provided on the main control board. While detecting the mounting on the image processing apparatus, the nonvolatile storage means and the USB connection means are disconnected from the sub-control means and connected to the circuit portion on the control means side. When the control unit detects access to the non-volatile storage unit and the USB connection unit, and the mounting detection unit detects removal of the main control board from the image processing apparatus, the non-volatile storage unit and the An image processing apparatus comprising: an isolating unit that disconnects the USB connection unit from the circuit part on the control unit side and connects to the sub control unit to enable access by the sub control unit.   The image processing apparatus according to claim 1, wherein the emergency operation circuit portion includes a USB voltage supply unit that supplies a USB voltage from the external device only to the emergency operation circuit portion.   In the communication with the external device, the sub-control unit receives a change request for the diagnostic item in the self-diagnosis from the external device, registers the changed diagnostic item in the nonvolatile storage unit, and the control unit 3. The self-diagnosis is performed based on the change diagnosis item registered in the nonvolatile storage means when the main control board is remounted on the image processing apparatus. The image processing apparatus described.   The sub-control unit receives an erasure request for all or part of the emergency information from the external device in communication with the external device, and stores the emergency information requested for erasure in the nonvolatile storage unit. The image processing apparatus according to claim 1, wherein the image processing apparatus is deleted from the image processing apparatus.   5. The emergency information includes abnormality information at the time of occurrence of an abnormality in the composite apparatus, a program ID and a checksum value in a program check of the program storage means, and the check sum value. Image processing apparatus.   In the main control board, the emergency operation circuit portion includes the program storage means, and the program writing means for writing the program to the program storage means under the control of the sub-control means, and the mounting While the detection means detects that the main control board is mounted on the image processing apparatus, the program storage means is disconnected from the program writing means and connected to a circuit portion on the control means side so that the program by the control means The program of the storage means can be read, and when the mounting detection means detects the removal of the main control board from the image processing apparatus, the program storage means is separated from the circuit portion on the control means side and the program writing means Connect the program by the program writing means The image processing apparatus according to any one of claims 1 to 5, characterized in that it comprises a second isolating means for enabling the writing of the ram, the.   The sub-control unit receives a program, a program ID, and a checksum value from the external device, calculates a checksum value in reception of the program, and the received checksum value matches the calculated checksum value The image processing apparatus according to claim 6, wherein the program stored in the program storage unit is updated only by the received program.   The sub-control unit receives a program, a program ID, and a checksum value from the external device, writes the received program, program ID, and checksum value to the program storage unit, and checks the checksum value in the writing of the program If the received checksum value does not match the calculated checksum value, information indicating that the checksum value does not match is stored in the program storage means, and the control means stores the main control 7. The image processing according to claim 6, wherein when the board is re-installed in the image processing apparatus and the information indicating that the checksum value does not match is stored in the program storage means, start-up of the image processing apparatus is prohibited. apparatus.   The sub-control unit compares the program ID and checksum value of the received program with the program ID and checksum value of the program stored in the program storage unit, and if the program matches the program ID and checksum value of the program, The image processing apparatus according to claim 6, wherein the program in the storage unit is updated.   The emergency operation circuit portion is connected to a circuit portion between the USB connection means and the external device, and communicates with the external device and second USB connection means for performing predetermined USB communication with the external device. Switching means for switching to one of the USB connection means and the second USB connection means, and the sub-control means causes the switching means to switch to the switching means when USB communication with the external device via the USB connection means fails. 10. The image processing apparatus according to claim 1, wherein the USB processing unit is switched from the USB connection unit to the second USB connection unit and communicates with the external device using the second USB connection unit. 11.

Images