JP2004007485A - Image reproducing apparatus - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To provide a basic function for image reproduction with low cost, and to easily expand the basic function to a multi-function in succession by adding optional units. <P>SOLUTION: A base engine 100 includes a process controller 102, a video control unit 105, an I/O control unit 106, a memory module 107, etc. The base engine 100 is attached to units such as an operating part 110 for configuring a copy machine as a basic function of the image reproduction, a sensor board unit 111, a writing control unit 112, and a peripheral machine 113. When the function of the base engine 100 is expanded, a controller board is attached via a parallel bus 120, and a variety of function-specific applications are added-in to the controller board. When the function of the base engine 100 is expanded, the operating part 110 and the memory module 107 can be utilized by replacing them from the base engine 100 side to the controller board side. <P>COPYRIGHT: (C)2004,JPO

Description

[0001]
TECHNICAL FIELD OF THE INVENTION
The present invention relates to an apparatus for reproducing image data as an image on a transfer sheet, for example, an apparatus for reading an image from a scanner and reproducing the image on a transfer sheet. About.
[0002]
[Prior art]
In digital multifunction peripherals that combine functions such as copying, faxing, printers, and scanners, images that realize effective use of resources by effectively utilizing memory in the composite functions and sharing control mechanisms including expansion units A processing device has been proposed (for example, see Patent Document 1 below). This image processing apparatus has a configuration in which resources can be shared by a plurality of applications.
[0003]
FIG. 14 is a block diagram showing the overall configuration of a conventional image processing apparatus. Hereinafter, the configuration of each unit will be described. A reading unit 1401 that optically reads a document condenses reflected light of lamp irradiation on the document on a light receiving element by a mirror and a lens. A light receiving element (a CCD is taken as an example in this embodiment) is mounted on a sensor board unit 1402, and converts image data converted into an electric signal in the CCD into a digital signal, and then outputs from the sensor board unit 1402. Is done.
[0004]
Image data output from the sensor board unit 1402 is input to the image data control unit 1403. The transmission of image data between the functional device and the data bus is entirely controlled by the image data control unit 1403. The image data control unit 1403 performs data transfer between the sensor board unit 1402, the parallel bus 1420, and the image processor 1404 with respect to the image data, a system controller 1431 that controls the overall control of this apparatus, and a process controller 1411 for the image data. Communication.
[0005]
The image data from the sensor board unit 1402 is transferred to the image processor 1404 via the image data control unit 1403, and the signal deterioration (signal deterioration of the scanner system) accompanying the quantization into the optical system and the digital signal is performed. The image data is corrected and output to the image data control unit 1403 again.
[0006]
Next, there are a job for storing the read image of the document in the memory for reuse and a job for not storing the image in the memory. Each case will be described. As an example of storing data in the memory, when copying a plurality of originals, the reading unit 1401 is operated only once, the data is stored in the memory, and the stored data is read a plurality of times. As an example in which no memory is used, when only one document is copied, the read image may be reproduced as it is, so that it is not necessary to access the memory.
[0007]
First, when the memory is not used, the data transferred from the image processor 1404 to the image data controller 1403 is returned from the image data controller 1403 to the image processor 1404 again. The image processor 1404 performs image quality processing for converting luminance data by the CCD into area gradation. The image data after the image quality processing is transferred from the image processing processor 1404 to the video data control unit 1405, and performs post-processing related to the dot arrangement and pulse control for reproducing the dots on the signal converted into the area gradation. In the image forming unit 1406, a reproduced image is formed on transfer paper.
[0008]
A description will be given of the flow of image data in the case where additional processing such as rotation in the image direction and synthesis of images are performed at the time of reading the image stored in the memory. The data transferred from the image processing processor 1404 to the image data control unit 1403 is sent from the image data control unit 1403 to the image memory access control unit 1421 via the parallel bus 1420. Here, under the control of the system controller 1431, access control of image data and the memory module 1422, expansion of print data of the external PC (personal computer) 1423, and compression / expansion of image data for effective use of memory are performed.
[0009]
The data sent to the image memory access control unit 1421 is stored in the memory module 1422 after data compression, and the stored data is read as needed. The read data is decompressed and returned to the original image data, and is returned from the image memory access control unit 1421 to the image data control unit 1403 via the parallel bus 1420. After the image data is transferred from the image data control unit 1403 to the image processing processor 1404, image quality processing and pulse control in the video data control unit 1405 are performed, and an image forming unit 1406 forms a reproduced image on transfer paper.
[0010]
In the flow of the image data, the function of the digital multi-function peripheral is realized by the bus control by the parallel bus 1420 and the image data control unit 1403. The facsimile transmission function performs image processing of the read image data by the image processor 1404 and transfers the read image data to the facsimile control unit 1424 via the image data control unit 1403 and the parallel bus 1420. The facsimile control unit 1424 performs data conversion to a communication network, and transmits the data to the public line 1425 as FAX data.
[0011]
For facsimile reception, line data from the public line 1425 is converted into image data by the facsimile control unit 1424 and transferred to the image processor 1404 via the parallel bus 1420 and the image data control unit 1403. In this case, the video data control unit 1405 performs dot rearrangement and pulse control without performing any special image quality processing, and the image forming unit 1406 forms a reproduced image on transfer paper.
[0012]
In a situation where a plurality of jobs, for example, a copy function, a facsimile transmission / reception function, and a printer output function operate in parallel, the system controller 1431 and the process controller 1411 allocate the reading unit 1401, the image forming unit 1406, and the parallel bus 1420 to the job. Control. The process controller 1411 controls the flow of image data, and the system controller 1431 controls the entire system and manages activation of each resource.
[0013]
The function of the digital MFP is selected and input on the operation panel 1434, and processing contents such as a copy function and a FAX function are set. The system controller 1431 and the process controller 1411 communicate with each other via a parallel bus 1420, an image data control unit 1403, and a serial bus 1410. In the image data control unit 1403, data format conversion for a data interface between the parallel bus 1420 and the serial bus 1410 is performed.
[0014]
The mechanical driving of the image reproducing apparatus and the input / output control of various sensors are detected and controlled by a port of the I / O control unit 1440. The signal detection and driving are controlled by the process controller 1411 and the output of the sensor is monitored by interrupt processing.
[0015]
[Patent Document 1]
JP 2000-316063 A
[0016]
[Problems to be solved by the invention]
However, the configuration in the above-described conventional invention is a configuration in which resources are shared on the premise of the functions of the digital multi-function peripheral, so that an unnecessary configuration is required when only the basic function of image reproduction (copying function) is to be provided. This adds cost and increases power consumption.
[0017]
The present invention provides an image reproducing apparatus which can provide the basic functions related to image reproduction at a low cost to solve the above-mentioned problems caused by the conventional technique, and which can be easily expanded to a composite function sequentially by adding optional units. The purpose is to:
[0018]
[Means for Solving the Problems]
In order to solve the above-mentioned problems and achieve the object, an image reproducing apparatus according to the present invention has an image reproducing function having a basic function of reproducing and outputting image data input by reading a document. In the above, a controller board for adding a plurality of optional units when using a desired extended function can be connected, and at the time of the extended function using the controller board, the operation form in the basic function and the input / output of image data It is characterized by comprising an extended control means for enabling common use of the form.
[0019]
According to the first aspect of the present invention, it is possible to provide a basic function of image reproduction at low cost. In addition, the function can be easily expanded by adding an optional unit. Even in this case, the operation mode and the image data input / output mode can be maintained, and the operability and processing efficiency can be improved.
[0020]
According to a second aspect of the present invention, there is provided an image reproducing apparatus having a basic function of an image copying function for reproducing and outputting image data input by reading a document or the like, so that a desired extended function can be used. Therefore, a plurality of optional units can be added, and a controller board that can be connected to the system of the basic function, and an operation mode and an image data input / output mode of the basic function at the time of an extended function using the controller board. An extended function control means for enabling common use is provided.
[0021]
According to the second aspect of the present invention, the basic function of image reproduction can be provided at low cost. In addition, the function can be easily expanded only by adding the optional unit. Even in this case, the operation mode and the input / output mode of the image data can be maintained, and the operability and the processing efficiency can be improved.
[0022]
An image reproducing apparatus according to a third aspect of the present invention is the image reproducing apparatus according to the second aspect, wherein the controller board can be connected to the system having the basic functions via a general-purpose bus.
[0023]
According to the third aspect of the present invention, the controller board can be easily expanded and connected to the system of the basic function using the general-purpose bus.
[0024]
According to a fourth aspect of the present invention, in the image reproducing apparatus according to the first or second aspect, the system of the basic function comprises: an operation unit for operating the apparatus; Document reading means, input / output control means for monitoring / controlling input / output of a driving mechanism and a sensor for copying, and video control means for performing predetermined processing required for reproduction output on the read image data; Image storage means for storing the image data processed by the video control means, process control means for controlling the operation of each section to execute the copying function, and image forming means for reproducing and outputting the image data on transfer paper. It is characterized by comprising.
[0025]
According to the fourth aspect of the present invention, it is possible to provide a configuration of a basic function related to image reproduction, and to obtain a copy image of a document with a simple configuration. In addition, since the image data can be stored by the basic function, it is possible to cope with a case where an image reproduction failure occurs in the image forming means, and the image can be reproduced again.
[0026]
According to a fifth aspect of the present invention, in the image reproducing apparatus according to the fourth aspect, the video control means performs image processing necessary for reproducing and outputting the read image data; It is characterized by comprising a memory control means for writing and reading image data to and from the image storage means, and a writing image processing means for controlling the output of the image data to the image forming means.
[0027]
According to the fifth aspect of the present invention, it is possible to improve the quality and operability of image reproduction even when the apparatus is configured with the basic functions.
[0028]
According to a sixth aspect of the present invention, in the image reproducing apparatus according to the fourth or fifth aspect, the video control means controls a bus control for switching a path of image data in a system configuration of a basic function and an extended function. Means, and means for controlling a bus route by mixing image data and command data.
[0029]
According to the invention of claim 6, the data flow before and after the function expansion can be efficiently switched, and even at the time of the function expansion, each unit of the device can be used effectively and efficiently, and the expansion is performed. The operability can be facilitated while reducing the cost.
[0030]
According to a seventh aspect of the present invention, in the image reproducing apparatus according to any one of the second to sixth aspects, the controller board can be mounted with an image storage means used in the system of the basic functions. And storing the image data on the controller board side.
[0031]
According to the seventh aspect of the present invention, the image data can be efficiently stored and the resources can be effectively used, regardless of the configuration of the multifunction device at the time of the basic function before the function expansion and the configuration of the multifunction device after the function expansion. Can be planned.
[0032]
Also, in the image reproducing apparatus according to the invention of claim 8, in the invention according to any one of claims 4 to 7, the operation means can be commonly used when the basic function and the extended function are configured in a system. It is used as an optional unit, and is connected to the controller board when the system is configured with an extended function.
[0033]
According to the eighth aspect of the invention, resources can be effectively used, operability before and after expansion can be maintained, and function expansion can be performed easily and easily.
[0034]
According to a ninth aspect of the present invention, in the image reproducing apparatus according to the eighth aspect, when the extended function system is configured, the operating means can be additionally provided with means corresponding to necessary functions. It is characterized by having.
[0035]
According to the ninth aspect of the present invention, the apparatus can be operated in common as much as possible before and after the function expansion, and means required only when the function is expanded can be added at low cost.
[0036]
According to a tenth aspect of the present invention, in the image reproducing apparatus according to any one of the first to ninth aspects, the extended function control means includes a system control means for performing a system control at the time of the extended function. Resource utilization arbitration control means for arbitrating system resources when the function is extended.
[0037]
According to the tenth aspect, arbitration of a plurality of jobs and resources can be achieved when a multifunction peripheral is configured by function expansion, and processing efficiency at the time of function expansion can be improved.
[0038]
An image reproducing apparatus according to an eleventh aspect of the present invention is the image reproducing apparatus according to the tenth aspect, wherein the resource use arbitration control means includes an interface for connecting an optional unit that executes a plurality of applications as an extended function. Access control means for controlling access of image data to the image storage means by the plurality of option units.
[0039]
According to the eleventh aspect of the present invention, the function expansion can be easily performed by connecting the optional units, the required functions can be easily obtained by adding the corresponding optional units, and the functions accumulated when the functions are expanded. Image data can be effectively used in each optional unit.
[0040]
According to a twelfth aspect of the present invention, in the image reproducing apparatus according to any one of the first to eleventh aspects, the system control and the process control are performed by different means when the basic function and the extended function are configured. It is characterized by comprising means for switching to execute.
[0041]
According to the twelfth aspect, at the time of function expansion, appropriate and efficient system control and process control can be performed as a multifunction peripheral, and efficient system operation can be achieved both before and after the function expansion.
[0042]
According to a thirteenth aspect of the present invention, in the image reproducing apparatus according to any one of the first to twelfth aspects, when the system is in a standby state, the basic function and the extended function are respectively selected for each system configuration. And a function stopping means for stopping the function of the provided means.
[0043]
According to the thirteenth aspect of the present invention, before and after the function expansion, the system standby can be effectively executed to reduce the power consumption, and quick recovery can be achieved.
[0044]
BEST MODE FOR CARRYING OUT THE INVENTION
Exemplary embodiments of the present invention will be described in detail below with reference to the accompanying drawings.
[0045]
FIG. 1 is a block diagram in the case where the image reproducing apparatus according to the embodiment of the present invention is configured with basic functions necessary for a copying machine. FIG. 2 is a block diagram in the case where the image reproducing apparatus according to the embodiment of the present invention is extended in function and configured as a digital multifunction peripheral. With the configuration of FIG. 2, it is possible to obtain the same function as that of the conventional digital multifunction peripheral (see FIG. 14).
[0046]
The basic configuration of the copying machine will be described with reference to FIG. With this unit configuration, a basic copying function can be provided, and a composite function of the digital multi-function peripheral such as a facsimile, a printer, and a network connection is not provided. However, since an I / F terminal for extension is included in a component, it can be easily extended to a digital multifunction peripheral (details will be described later).
[0047]
The base engine 100 has an image data control function. The base engine 100 is provided with a local CPU bus 101, and the operation of each unit is controlled by a process controller 102. Operation instructions are stored in the ROM 103, and work data during processing is stored in the RAM 104. The video control unit 105 performs processing of image data and flow control. The I / O control unit 106 monitors / controls input / output of each drive system, sensor, and the like. These units are connected by a CPU bus 101. The access to the image storage memory module 107 is controlled by the video control unit 105.
[0048]
A plurality of basic units are connected to the base engine 100. These basic units include an operation unit 110, a sensor board unit 111 serving as an image reading unit, a writing control unit 112, a peripheral unit 113 of a paper supply / discharge system, a scanner driving mechanism 114, and a plotter driving mechanism 115.
[0049]
The operation unit 110 is connected to the process controller 102 via a serial port by a CPU peripheral control unit (see FIG. 3) provided in the video control unit 105. The video control unit 105 displays the basic operation content on the operation unit 110 and outputs an operation input of the operation unit 110 to the process controller 102. The process controller 102 monitors / controls each functional unit via the I / O control unit 106 based on the input instruction.
[0050]
In the case of a copying operation, the process controller 102 operates the scanner driving mechanism 114 to optically read a document by the sensor board unit 111 and transfers digitized image data to the video control unit 105. . The video control unit 105 performs predetermined image processing on the image data, and stores the image data in the memory module 107. At this time, the image data is always stored in the memory module 107 regardless of the case of plural copies or single copy, and data backup is performed in the plotter drive mechanism 115 to cope with the occurrence of transfer paper jam. It has become.
[0051]
The image data read from the memory module 107 is subjected to a smoothing process and a PWM modulation process by a write image processing function of the video control unit 105, and is transferred to the write control unit 112, where the laser diode (LD) for writing is written. Is driven to emit light, and at the same time, the plotter drive mechanism 115 is operated to form an image on transfer paper.
[0052]
By the above processing, a copy of the document can be obtained. At this time, the peripheral device 113 performs post-processing such as feeding, discharging, and stapling of transfer paper. The above-described base engine 100 has a parallel bus I / F (described later) connected to the parallel bus 120. This function is not required for the basic functions of the above-described copying machine and the like, and is used at the time of function expansion described later.
[0053]
In the configuration with the basic functions shown in FIG. 1, a memory module 107 for storing image data is provided in the base engine 100, and is required for a digital copying machine such as image rotation, electronic sorting, and history output. Operational functions can be provided without restricting basic essential functions. The memory module 107 of the base engine 100 is a unit such as a DIMM. If it is unnecessary, it can be removed and used as a memory for the controller board (see FIG. 2) 201. Can be used effectively without wasting.
[0054]
Next, a case where a digital multifunction peripheral having an extended function is configured will be described with reference to FIG. The configuration is such that an extended function is added based on the base engine 100 described with reference to FIG. A controller board 201 as a motherboard mechanism is connected to the parallel bus 120 of the base engine 100. The controller board 201 includes a system controller 202 for monitoring and controlling the entire digital multifunction peripheral, an arbitration control unit 203 for adjusting usage rights when using resources shared by each application function, a memory module 107, and a function expansion unit. And a terminal for connecting a plurality of optional units unitized for each function. The option units can be connected independently of each other in any order to facilitate expansion.
[0055]
The operation unit 110 is connected to the controller board 201. The operation unit 110 is a resource target used by a plurality of applications APLs (APL1 to APL5), and is monitored and controlled by the system controller 202 via the arbitration control unit 203. When such an extended function is configured, provided functions and configuration states are different from those provided when the basic function illustrated in FIG. 1 is configured.
[0056]
By adding the controller board 201 to the base engine 100 of the basic function controlled by the process controller 102 and adding a plurality of applications APL, the function of the digital multi-function peripheral is provided. The control of this composite function is performed by the system controller 202.
[0057]
The operation of the base engine 100 at the time of the composite function is basically the same as that of FIG. 1, but the system controller 202 and the process controller 102 communicate via the parallel bus 120 to perform resource allocation. When the digital multi-function peripheral shown in FIG. 2 is configured, the memory module 107 on the base engine 100 is removed and used on the controller board 201 side (including expansion of existing ones), and resources of a plurality of application APLs are included. Provide as.
[0058]
For example, the application APL (APL1 to APL5) includes a FAX function, a printer function, a network function, a scanner function, a local storage function (LS), a document storage function, a document distribution function, and the like. The copy function is also positioned as one of the functions of the plurality of application APLs.
[0059]
The arbitration control unit 203 arbitrates network control and access control of the memory module 107, and distributes resources to each application APL. Even during the simultaneous operation of the multifunction, the system controller 202 and the process controller 102 divide and map the resource occupation right of the base engine 100 into a scanner resource (reading function) and a plotter resource (printing function). The function added by the extension function add-on to the base engine 100 of the basic function is managed by the system controller 202, and the load distribution of a plurality of functions when configuring the digital multifunction peripheral is performed.
[0060]
FIG. 3 is a block diagram showing a configuration of the video control unit 105 provided in the base engine 100. Image data from the sensor board unit 111 is subjected to correction processing (for example, shading correction, MTF correction, density conversion, gradation processing, scaling processing, etc.) in the read image processing unit 301. High-speed hardware or a programmable processor can be similarly used as a means for realizing functions.
[0061]
The bus control unit 302 controls the data flow. An operation is selected based on the control of the process controller 102, such as input / output control to the parallel bus I / F 303, path switching to the data conversion unit 304, path selection to the write image processing unit 305, and the like. When outputting the input signal to the writing control unit 112, the writing image processing unit 305 converts the input signal into a signal driven by the writing control unit 112 and performs image quality processing (for example, jagging correction, density conversion, PWM modulation). , Image trimming, etc.). The modulation signal is transferred to the write control unit 112, and a laser diode (LD) is driven by an LD driver (not shown) to create a latent image.
[0062]
The data conversion unit 304 separates the image data and the command data, and transfers the command data to the process controller 102 having the CPU function via the CPU peripheral control unit 306. Commands are exchanged with the system controller 202 when the digital multifunction peripheral is expanded.
[0063]
The image data is encoded by the data compression unit 307 and stored in the memory module 107 by the memory access control unit 308 for storage in the memory module 107. To read data from the memory module 107, similarly, code data at a predetermined address of the memory module 107 is extracted by the memory access control unit 308, and is converted into image data by the data decompression unit 309. In the image rotation, after the image once decoded is evacuated again to the work area of the memory module 107 without coding, the rotated image is obtained by changing the read address.
[0064]
FIG. 4 is a block diagram showing a configuration of the arbitration control unit 203 provided on the controller board 201. The system I / F 401 transmits and receives commands and data to and from the system controller 202. Basically, the system controller 202 controls the entire apparatus, and the system controller 202 also manages memory resource allocation. The other units are controlled via the system I / F 401, the access control unit 402, the DMAC (direct memory access control unit) 403, the parallel bus control unit 404, and the parallel bus 120.
[0065]
Each unit of the image reproducing apparatus is basically connected to the parallel bus 120, and the parallel bus control unit 404 manages data transmission to and from the system controller 202 and the memory module 107 by controlling bus occupation. . The network control unit 405 controls connection with a LAN (local area network) 406 and manages data transmission and reception with an external extension device connected to the network. The system controller 202 does not participate in operation management or the like with respect to connected devices on the network, but the system controller 202 controls the interface of the arbitration control unit 203.
[0066]
For connection to the serial bus 407, the serial port control unit 408 controls a plurality of serial ports 409 and is interface-connected. It has a port control mechanism for various bus types, and performs port control for, for example, USB and IEEE1284. Also, separately from the serial port 409 to the outside, it receives commands from the operation unit 110 and controls data transmission / reception relating to display.
[0067]
The local bus control unit 410 makes an interface connection with a local serial bus 411 to which a RAM, a ROM, and a font ROM for expanding printer code data necessary for activating the system controller 202 are bus-connected. An interface is connected to the memory module 107 via a memory control unit 412.
[0068]
The operation control of the arbitration control unit 203 is performed by the system controller 202 by command control via the system I / F 401. The data control manages memory access from an external unit, centering on the memory module 107. The image data input from the base engine 100 is transferred from the parallel bus 120, is taken into the arbitration control unit 203 by the parallel bus control unit 404, leaves the management of the system controller 202 by the DMAC 403, and accesses the memory module 107. It can be performed independently of system control.
[0069]
For access to the memory module 107, the access control unit 402 arbitrates access requests from a plurality of units, and the memory control unit 412 controls the access operation of the memory module 107 and the reading / writing of data. Regarding the access to the memory module 107 from the network (LAN) 406, the data fetched into the arbitration control unit 203 via the network control unit 405 is accessed by the DMAC 414 to the memory module 107. At this time, access to the memory module 107 by a plurality of jobs is arbitrated by the access control unit 402, and data is read / written by the memory control unit 412.
[0070]
Regarding the access to the memory module 107 from the serial bus 407, the data taken into the arbitration control unit 203 from the serial port 409 by the serial port control unit 408 is also accessed by the DMAC 415 to the memory module 107. At this time, access to the memory module 107 by a plurality of jobs is arbitrated by the access control unit 402, and data is read / written by the memory control unit 412.
[0071]
Print output data input from an external PC or the like via the network (LAN) 406 or the serial bus 407 is stored in the memory module 107 using font data connected to the local serial bus 411 by the system controller 202. Is expanded to the memory area of
[0072]
The system controller 202 manages the interface connection with a plurality of external units, and the DMACs 403, 414, and 415 manage memory access to the memory module 107. In this case, since each of the DMACs 403, 414, and 415 independently performs data transfer, the access control unit 402 performs a job collision regarding access to the memory module 107 and prioritizes each access request.
[0073]
The access to the memory module 107 includes, in addition to the DMACs 403, 414, and 415, an access from the system controller 202 via the system I / F 401 for bitmap expansion of the stored data. The data transferred by the DMACs 403, 414, and 415 to which access to the memory module 107 has been permitted by the access control unit 402, or the data transferred from the system I / F 401, via the memory control unit 412. Make direct access to.
[0074]
The arbitration control unit 203 includes a compression / expansion unit 417 for compressing or expanding data for internal data processing, and an image editing unit 418 for image editing. The compression / decompression unit 417 is a module that compresses and decompresses data so that image data or code data can be effectively stored in the memory module 107. The DMAC 420 controls an interface with the memory module 107. The image data once stored in the memory module 107 is called from the memory module 107 to the compression / decompression unit 417 via the memory control unit 412 and the access control unit 402 under the control of the DMAC 420. The compression / decompression unit 417 performs control to return the called image data to the memory module 107 after data conversion, or to output the image data to an external bus.
[0075]
The image editing unit 418 controls the memory module 107 by the DMAC 421 and performs data processing (clearing the memory area, rotating image data, combining different images, etc.) in the memory module 107 area. Editing is performed by address control on the memory to convert data to be processed. It does not apply to compressed code data or printer code data. The processing is performed on the bitmap image developed on the memory module 107. Image compression for efficient data storage in the memory module 107 is performed on data after image editing.
[0076]
FIG. 5 is a diagram for explaining a data flow when the image reproducing apparatus is configured with a basic function (copier). This figure shows a data flow using the block diagram of the video control unit 105 shown in FIG.
[0077]
In the figure, (1) is a reading path from reading of a document to storage in a memory, (2) is a path from reading of memory to writing control, and (3) is an input / output control path at the time of operation. In the configuration with the basic functions shown in the figure, since there is no connection of the option unit, the controller board 201 is not connected to the base engine 100, and data transmission / reception via the parallel bus 120 is not performed. The memory module 107 in the base engine 100 is used as a memory for storing image data.
[0078]
(1) Reading path
Image data optically read by the sensor board unit 111 and converted into an electric signal is subjected to reading image processing by a reading image processing unit 301. The image data after the image processing by the read image processing unit 301 is transferred to the data conversion unit 304 by the bus control unit 302. The data conversion unit 304 selects a path to the data compression unit 307 for the image data, and transfers the image data for encoding.
[0079]
After the image data is encoded by the data compression unit 307 and the redundant data is compressed, the data is stored in a predetermined storage address of the memory module 107 via the memory access control unit 308. Since the memory module 107 is configured to be attachable, the memory capacity can be increased or decreased according to the application. The memory access control unit 308 manages the memory so that the maximum mounted capacity of the memory module 107 can be accessed.
[0080]
(2) Writing path
The memory access control unit 308 searches for the address of the code data stored in the memory module 107 and reads it. The read code data is decoded by the data decompression unit 309, and is returned to image data. The data conversion unit 304 transfers the image data to the bus control unit 302. The bus control unit 302 transfers the image data to the writing image processing unit 305 for writing, and converts the image data into data for driving the LD driver provided in the writing control unit 112. The writing control unit 112 causes the LD to emit light for creating a latent image in the image forming system, and reproduces an image on transfer paper through a process of latent image, development, and fixing.
[0081]
In the embodiment of the present invention, a latent image creation by an LD driver and an electrophotographic process are taken as an example. However, a configuration using a method in which an electric signal is used for ejecting liquid droplets and an image is reproduced by an inkjet process. It may be.
[0082]
(3) Input / output path during operation
The display of the operation content on the operation unit 110 and the reception of the operation input are performed by the process controller 102 via the CPU peripheral control unit 306. Since only the functions and maintenance items related to the copy function are displayed and input is accepted, it is not necessary to manage the operation items related to the expansion of the option unit. For this reason, the configuration of the operation unit 110 may be a minimum configuration only for managing basic functions. For example, the number of menu display items is small, so the display unit may be small, and it is not necessary to provide a facsimile destination setting button or the like.
[0083]
FIG. 6 is a diagram for explaining a data flow when the image reproducing apparatus is configured as a function extension (digital multifunction peripheral). This diagram shows a data flow using the block diagram of the controller board 201 shown in FIG. 2 and the block diagram of the video control unit 105 shown in FIG.
[0084]
The base engine 100 is connected to the controller board 201 via the parallel bus 120, and a plurality of application functions APL (APL1 to APL5) can be added using the controller board 201 as an expansion motherboard. The overall system control of the digital multifunction peripheral is controlled by a system controller 202 of a controller board 201, and the process controller 102 controls only the base engine 100.
[0085]
The operation unit 110 is used for all functions of the digital multifunction peripheral, including an application related to a copy function (copy). The system controller 202 manages drawing and command reception processing. The memory module 107, which is a memory for storing images, is not provided on the base engine 100 side, but is replaced on the controller board 201 as a shared resource.
[0086]
In the figure, (1) is a reading path from reading of a document to storage in a memory, (2) is a path from reading of memory to writing control, and (3) is an input / output control path at the time of operation.
[0087]
(1) Reading path
The image data read optically by the sensor board unit 111 and converted into an electric signal is subjected to image processing at the time of reading by the reading image processing unit 301. The image data that has been subjected to the image processing by the read image processing unit 301 is transferred by the bus control unit 302 to the parallel bus 120 via the parallel bus I / F 303. Image data is stored in the memory module 107 from the parallel bus 120 via the arbitration control unit 203 on the controller board 201 side. In the arbitration control unit 203, the parallel bus control unit 404, the access control unit 402, the compression / decompression unit 417, and the memory control unit 412, which are internally provided, process the data and store the encoded data in the memory module 107. I do.
[0088]
(2) Writing path
The memory control unit 412 of the arbitration control unit 203 reads out the code data stored in the memory module 107 on the controller board 201. The image data processed and decoded by each module of the access control unit 402, the compression / decompression unit 417, and the parallel bus control unit 404 is transferred to the parallel bus 120. On the base engine 100 side, the image data from the controller board 201 is received by the parallel bus I / F 303, the image data is transferred from the bus control unit 302 to the writing image processing unit 305 for writing image processing, and the LD driver is driven. To the data for The writing control unit 112 causes the LD to emit light for creating a latent image in the image forming system, and reproduces an image on transfer paper through a process of latent image, development, and fixing.
[0089]
(3) Input / output path during operation
The display of the operation content on the operation unit 110 and the reception of the operation input are performed by the system controller 202 on the controller board 201 via the local bus control unit 410 of the arbitration control unit 203 and the system I / F 401. As the operation unit 110, a higher function unit is used so that an extended function can be performed using a plurality of option units. For example, an optional unit is added to a basic unit such as a large display panel, an address input mechanism on a network, a facsimile address allocation button, and the like.
[0090]
In this data flow, since the memory module 107 is not used on the base engine 100 side, no image data is transferred to the data compression unit 307, data decompression unit 309, and memory access control unit 308 in the video control unit 105. The bus control unit 302 transmits / receives data to / from the parallel bus I / F 303 of the video control unit 105 and the data conversion unit 304 according to the form of the basic function shown in FIG. 5 and the form of the extended function shown in FIG. Select and control. Regarding display and command input, since the process controller 102 does not intervene, command transfer from the operation unit 110 via the CPU peripheral control unit 306 is not performed.
[0091]
FIG. 7 is a diagram for explaining another data flow when the image reproducing apparatus is configured as a function extension (digital multifunction peripheral). This figure shows a data flow when the process controller 102 of the base engine 100 controls the operation unit 110.
[0092]
As shown in the figure, (1) the read path and (2) the write path are the same as those in FIG. 6, and the memory module 107 on the controller board 201 is shared to store image data for copying. Perform
[0093]
(3) Input / output path during operation
The operation unit 110 is connected to the controller board 201 as a shared resource of the digital multifunction peripheral, and passes through the arbitration control unit 203. The control of the operation unit 110 is performed by the process controller 102 on the base engine 100 side. The configuration functions of the operation unit 110 are extended with the addition of the functions of the digital multi-function peripheral. The system controller 202 manages resource management and system control for a plurality of applications. The drawing (display control) of the screen on the display unit provided in the operation unit 110 is configured to be shared by the process controller 102 and executed.
[0094]
The arbitration control unit 203 interfaces the command / drawing data for the operation unit 110 with the local bus control unit 410. The arbitration control unit 203 transfers command data to the parallel bus 120 via each module of the local bus control unit 410, the system I / F 401, the access control unit 402, and the parallel bus control unit 404, and transfers drawing data from the parallel bus 120. Obtain.
[0095]
The parallel bus 120 is connected to the base engine 100 and accesses the parallel bus I / F 303 in the video control unit 105. The video control unit 105 converts the command / drawing data in the data conversion unit 304 via the parallel bus I / F 303 and the bus control unit 302. Since this data is not transfer image data, the data conversion unit 304 transfers command data to the CPU peripheral control unit 306. The CPU peripheral control unit 306 communicates with the process controller 102 and performs display of the operation unit 110 and command analysis of operations.
[0096]
When a plurality of optional units operate at the same time, the load on the system controller 202 increases, which may cause a decrease in drawing speed. Therefore, the process controller 102 having a margin in performance other than the process control performs the display control on the operation unit 110 in a shared manner.
[0097]
As described above, the configuration (option unit) of the operation unit 110 differs when the device configuration is configured with the basic functions and when configured with the function expansion. However, regarding the control, the process controller 102 is commonly involved, and the control is performed using the resources of the base engine 100 side.
[0098]
FIGS. 8 to 10 show configuration examples for each function. FIG. 8 is a block diagram in the case where the image reproducing apparatus is configured with the basic functions. In this case, only the base engine 100 is used, and the controller board 201 is not connected. By using and controlling the resources of the base engine 100, a basic function of copying can be constructed. By the configuration of the sensor board unit 111, the write control unit 112, the operation unit 110, and the peripheral unit 113 centering on the base engine 100, operation input, image reading, image reproduction on transfer paper, and paper control of transfer paper are processed. The control is performed by the controller 102, and all resources of the base engine 100 are allocated to the copy function.
[0099]
FIG. 9 is a block diagram in a case where the image reproducing apparatus is configured to have an extended function. This is a configuration example in which one application function (APL) is added to the basic function (copy function) shown in FIG. In this case, the controller board 201 is connected to the base engine 100, and the application APL is added to the controller board 201. Then, the controller board 201 functions as a motherboard of the digital multi-function peripheral, and becomes the center of control.
[0100]
The basic function held by the base engine 100 is one application (copy function application) among the functions of the entire digital multifunction peripheral. The base engine 100 is one of the shared resources of the digital multifunction peripheral when viewed from the controller board 201.
[0101]
Assuming that the application APL is, for example, a network application (LAN connection function), the application APL has a function of distributing read image data to the LAN 406 and a function of reproducing the image data distributed from the LAN 406 on transfer paper. Each shared resource is allocated resources under the control of the system controller 202 to form a composite function.
[0102]
From the viewpoint of the controller board 201, both the network application and the copy function in the base engine 100 are equivalent resources, and no priority is set for resource use between applications. Note that the order of mounting the option units and the applications to the base engine 100 and the controller board 201 is different, and the priority order for the resource use does not occur. To the last, the optimal resource distribution is performed based on the connection state of the application at a predetermined time.
[0103]
FIG. 10 is another block diagram in a case where the image reproducing apparatus is configured to have an extended function. This is a configuration example when two application functions (APL) are added as compared with the basic function (copy function) shown in FIG. A plurality of applications APL (APL1, APL2) are added to the controller board 201 which is a motherboard. There is no prioritization of functional operations by the order of addition and combination. When viewed from the controller board 201, all of the applications APL1, APL2, and the copying function of the base engine 100 are recognized as processing functions having the same priority.
[0104]
For example, the application APL1 is a facsimile function connected to a public line, and the application APL2 is a large-capacity image storage function LS. In this case, the memory module 107 on the controller board 201 is used as a temporary work data storage area, and the image storage function LS is used for long-term image storage and backup. For example, the image storage function LS stores FAX-transmitted image data, FAX-received image data, and copied and output image data as digital data so that they can be read later.
[0105]
Further, when a network application is added as another application APL, the image data stored in the image storage function LS can be accessed from the network. Thus, the functions of the image reproducing apparatus can be easily extended by adding an application.
[0106]
Next, the state of each unit during standby of the system will be described with reference to FIGS. FIG. 11 is a block diagram illustrating a state of each unit at the time of system standby when the image reproducing apparatus is configured with the basic functions. Each unit indicated by a dotted line in the figure is a unit / module that stops functioning when the system is on standby.
[0107]
In the configuration with the basic functions shown in FIG. 11, there is no interruption from an externally connected option during system standby. When the operator gives an input instruction from the operation unit 110, the mode shifts to the normal operation mode. Therefore, when the system is on standby, only the operation unit 110, the process controller 102 monitoring the operation unit 110, the CPU peripheral control unit 306 for the interface, and the CPU bus 101 are activated. There is no need to operate other units / modules. It is not necessary to keep the sensor board unit 111, the writing control unit 112, and the like in the energized state. Since there is no need to operate the memory module 107, the clock can be stopped or the power can be turned off.
[0108]
The unit in the function halt state during the system standby shuts off the power supply, and the units in the video control unit 105 stop the clock supply. Each module described by a dotted line in the figure can stop its operation during standby to suppress power consumption. In addition, since the video control unit 105 can be configured with one chip, the number of mounted components of the base engine 100 can be reduced, and power consumption can be reduced during operation as compared with the case of configuring with the multiple chips. Function stop control during system standby can be performed by stopping the clock supply to individual modules.
[0109]
FIG. 12 is a block diagram showing a state of each unit at the time of system standby when the image reproducing apparatus is configured with the basic functions. In the configuration with the extended function shown in FIG. 12, a system activation request other than the operation unit 110 is generated from outside. For example, there are a facsimile reception and a request for outputting image data from a network (LAN). However, since the output is an irregular request, if the entire system is always started, wasteful power consumption is caused.
[0110]
Therefore, when the system is on standby, only the unit having the function of receiving the activation request is set to the active state, and the other units and modules are stopped. In the video control unit 105 of the base engine 100, the modules (parallel bus I / F 303, bus control unit 302, data conversion unit 304, CPU peripheral control unit 306) on the path for transmitting the information of the controller board 201 to the process controller 102 are: Even when the system is on standby, it is kept in the activated state.
[0111]
In the controller board 201, the memory module 107 is stopped, and the clock supply to the memory control unit 412 in the arbitration control unit 203 is stopped. In the controller board 201, the system I / F 401, the access control unit 402 in the arbitration control unit 203, and the system controller 202 for monitoring the system are started in order to detect the start request. As for the applications APL (APL1 to APL5), those connected to the outside are running. For a unit connected to a public line, a network (LAN), or the like, necessary modules are activated in the minimum activation, and the local storage function LS is stopped.
[0112]
FIG. 13 is a diagram showing a display screen before and after the function expansion. FIG. 13A shows the contents displayed on the operation unit 110 when the controller board 201 is not connected. The content when a copy operation is performed in the basic mode by the base engine 100 is displayed. For example, function items 1301 such as an operation state, the number of documents, the number of sets, and the number of copies are displayed on the function display unit 1300 in order to explain the content of the copying operation. FIG. 13B shows the contents displayed on the operation unit 110 when the controller board 201 is connected and expanded. When this function is extended, the extended function item 1302 is displayed on the operation unit 110 in a selectable list. In the illustrated example, a state where the functions of the FAX, the scanner, and the printer are expanded is displayed. FIG. 13C shows another display example when the fax is extended. When the FAX function is selected in the function item 1302, the FAX transmission is displayed on the function display unit 1300 in order to explain the operation content at the time of FAX transmission. A display screen 1303 for operating status, document setting instruction, destination input guidance, and the like is displayed. As described above, the display contents before and after the extension are shared, and the operability can be improved by switching and guiding the extended function.
[0113]
The image reproducing apparatus described in the above embodiment has mainly described an example in which an image is read from a scanner and the image is reproduced on a transfer sheet. However, the present invention is not limited to this. The present invention can be similarly applied to a configuration in which data is input and an image is reproduced and output.
[0114]
The method for controlling the system configuration described in the present embodiment can be realized by executing a prepared program on a computer such as a personal computer or a workstation. This program is recorded on a computer-readable recording medium such as a hard disk, a floppy (R) disk, a CD-ROM, an MO, and a DVD, and is executed by being read from the recording medium by the computer. This program can be distributed via the above-mentioned recording medium and a network such as the Internet.
[0115]
【The invention's effect】
As described above, according to the first aspect of the present invention, a desired extended function is used in an image reproducing apparatus having a basic function of an image copying function for reproducing and outputting image data input by reading a document or the like. A controller board for adding a plurality of optional units can be connected when performing an expansion function using the controller board, so that the operation mode and the image data input / output mode in the basic functions can be commonly used. Since the extended control means is provided, the basic function of image reproduction can be provided at low cost. In addition, the function can be easily expanded by adding an optional unit. In this case, the operation mode and the image data input / output mode can be maintained, and the operability and the processing efficiency can be improved.
[0116]
According to the second aspect of the present invention, a desired extended function can be used in an image reproducing apparatus having a basic function of an image copying function of reproducing and outputting image data input by reading a document or the like. In addition, a plurality of optional units can be added to the controller board that can be connected to the system of the basic function, and the operation mode and the image data input / output mode of the basic function are common to the extended function using the controller board. Because of the provision of the extended function control means for enabling the use of the image data, the basic function of image reproduction can be provided at low cost. In addition, the function can be easily expanded simply by adding an optional unit. In this case, the operation mode and the image data input / output mode can be maintained, and the operability and processing efficiency can be improved.
[0117]
According to the invention described in claim 3, in the invention described in claim 2, the controller board can be connected to the system of the basic function via a general-purpose bus. This makes it possible to easily extend and connect the controller board to a system having basic functions.
[0118]
According to a fourth aspect of the present invention, in the first or second aspect of the present invention, the system of the basic function includes an operation unit for operating the apparatus, and a document for reading the document and outputting image data. Reading means, input / output control means for monitoring / controlling input / output of a driving mechanism and a sensor for copying, video control means for performing predetermined processing required for reproduction output on the read image data, An image storage means for storing image data processed by the video control means, a process control means for controlling the operation of each part to execute the copying function, and an image forming means for reproducing and outputting the image data on transfer paper. Therefore, it is possible to provide a configuration of a basic function related to image reproduction, and to obtain a copy image of a document with a simple configuration. In addition, since the image data can be stored by the basic function, it is possible to cope with a case where an image reproduction failure occurs in the image forming means, and it is possible to reproduce the image again.
[0119]
According to a fifth aspect of the present invention, in the fourth aspect of the present invention, the video control means performs image processing necessary for reproducing and outputting the read image data; A memory control unit for writing and reading data to and from the image storage unit; and a write image processing unit for controlling the output of the image data to the image forming unit. Also, there is an effect that the quality and operability of image reproduction can be improved.
[0120]
According to a sixth aspect of the present invention, in the invention of the fourth or fifth aspect, the video control means switches a path of image data in a system configuration of a basic function and an extended function. And means for controlling the bus path by mixing image data and command data, so that the data flow before and after the function expansion can be efficiently switched, and even when the function is expanded, each unit of the device can be effectively used. It is possible to use the apparatus efficiently, and it is possible to reduce the cost for expansion while facilitating operability.
[0121]
Further, according to the invention described in claim 7, in the invention described in any one of claims 2 to 6, the image storage means used in the system of the basic function can be mounted on the controller board. Yes, since image data is stored on the controller board side, the image data can be stored efficiently regardless of the configuration of the multifunction device at the time of the basic function before the function expansion and after the function expansion, There is an effect that resources can be effectively used.
[0122]
According to the invention described in claim 8, in the invention described in any one of claims 4 to 7, the operation means can be commonly used when the system configuration of the basic function and the extended function is performed. It is used as an optional unit and is connected to the controller board at the time of system configuration of the extension function, so that resources can be effectively used, operability before and after the extension can be maintained, and the function can be easily and easily extended. Play.
[0123]
According to the ninth aspect of the present invention, in the invention of the eighth aspect, when the system of the extended function is configured, a means corresponding to a required function can be additionally mounted. This makes it possible to operate the device in common before and after the function expansion as much as possible, and to add a means required only at the time of function expansion at low cost.
[0124]
According to a tenth aspect of the present invention, in the invention according to any one of the first to ninth aspects, the extended function control unit performs a system control at the time of the extended function, A resource utilization arbitration control means for arbitrating system resources at the time of the function expansion, so that a plurality of jobs and resources can be arbitrated when a multifunction peripheral is configured by the function expansion, There is an effect that efficiency can be improved.
[0125]
Further, according to the invention set forth in claim 11, in the invention set forth in claim 10, the resource use arbitration control means includes an interface for connecting an option unit that executes a plurality of applications as an extended function; An access control means for controlling the access of the image data to the image storage means by the plurality of optional units is provided, so that the function can be easily extended by connecting the optional units, and the necessary functions are added to the corresponding optional units. And the image data accumulated at the time of function expansion can be effectively utilized in each option unit.
[0126]
According to the twelfth aspect of the present invention, in the first aspect of the present invention, the system control and the process control are executed by different means when the basic function and the extended function are configured. Means that the system can be properly and efficiently controlled as a multifunction device when the function is expanded, and the system can be operated efficiently before and after the function is expanded. To play.
[0127]
According to a thirteenth aspect of the present invention, in the invention according to any one of the first to twelfth aspects, when the system is in a standby state, the basic function and the extended function are respectively selected depending on the system configuration. The function stop means for stopping the function of the means provided before and after the function expansion can effectively reduce the power consumption by effectively executing the system standby, and achieve a quick return. To play.
[Brief description of the drawings]
FIG. 1 is a block diagram when an image reproducing apparatus according to an embodiment of the present invention is configured with basic functions necessary for a copying machine.
FIG. 2 is a block diagram in a case where the image reproducing apparatus according to the embodiment of the present invention is extended in function and configured as a digital multifunction peripheral.
FIG. 3 is a block diagram illustrating a configuration of a video control unit provided in a base engine of the image reproducing apparatus.
FIG. 4 is a block diagram illustrating a configuration of an arbitration control unit provided on a controller board of the image reproducing apparatus.
FIG. 5 is a diagram for explaining a data flow when the image reproducing apparatus is configured with a basic function (copier).
FIG. 6 is a diagram for explaining a data flow when the image reproducing apparatus is configured as a function extension (digital multifunction peripheral).
FIG. 7 is a diagram for explaining another data flow when the image reproducing apparatus is configured as a function extension (digital multifunction peripheral).
FIG. 8 is a block diagram in the case where the image reproducing apparatus is configured with basic functions.
FIG. 9 is a block diagram when the image reproducing apparatus is configured to have an extended function.
FIG. 10 is another block diagram when the image reproducing apparatus is configured to have an extended function.
FIG. 11 is a block diagram showing a state of each unit at the time of system standby when the image reproducing apparatus is configured with basic functions.
FIG. 12 is a block diagram illustrating a state of each unit at the time of system standby when the image reproducing apparatus is configured with basic functions.
FIG. 13 is a diagram showing a display screen before and after the function expansion of the image reproducing apparatus.
FIG. 14 is a block diagram illustrating an overall configuration of a conventional image processing apparatus.
[Explanation of symbols]
100 base engine
101 CPU bus
102 Process controller
103 ROM
104 RAM
105 Video control unit
106 I / O control unit
107 memory module
110 Operation unit
111 Sensor board unit
112 Write control unit
113 Peripheral unit
114 Scanner drive mechanism
115 plotter drive mechanism
120 parallel bus
201 Controller board
202 System controller
203 Arbitration control unit
301 read image processing unit
302 Bus control unit
303 Parallel bus I / F
304 Data converter
305 Write image processing unit
306 CPU peripheral control unit
307 Data compression unit
308 Memory access control unit
309 Data expansion unit
401 System I / F
402 Access control unit
403, 414, 415, 420, 421 DMAC (Direct Memory Access Control Unit)
404 Parallel bus control unit
405 Network control unit
406 LAN (Local Area Network)
407 serial bus
408 Serial port control unit
409 serial port
410 Local bus control unit
412 Memory control unit
417 Compression / expansion unit
418 Image Editing Department
APL (APL1-5) Application

Claims (13)

In an image reproducing apparatus having a basic function of an image copying function for reproducing and outputting image data input by reading a document,
A controller board for adding a plurality of optional units when using a desired extended function can be connected, and when the extended function using the controller board is used, the operation mode of the basic function and the input / output mode of image data are changed. An image reproducing apparatus comprising an extended control means for enabling common use. In an image reproducing apparatus having a basic function of an image copying function for reproducing and outputting image data input by reading a document,
In order to make a desired extended function available, a plurality of optional units can be added, and a controller board connectable to the system of the basic function,
An image reproducing apparatus, comprising: an extended function control unit for commonly using an operation mode and an image data input / output mode in the basic function when an extended function using the controller board is used. 3. The image reproducing apparatus according to claim 2, wherein the controller board can be connected to the system having the basic functions via a general-purpose bus. The basic function system includes:
Operating means for operating the device;
Document reading means for reading a document and outputting image data;
Input / output control means for monitoring / controlling input / output of a drive mechanism and a sensor for copying;
Video control means for performing predetermined processing required for reproduction output on the read image data,
Image storage means for storing image data after processing by the video control means,
Process control means for controlling the operation of each unit to execute the copying function;
3. The image reproducing apparatus according to claim 1, further comprising image forming means for reproducing and outputting the image data on a transfer sheet. The video control means,
Image processing means for performing image processing necessary for reproducing and outputting the read image data;
Memory control means for writing and reading the image data to and from the image storage means,
Writing image processing means for controlling the output of the image data to the image forming means,
The image reproducing apparatus according to claim 4, comprising: The video control means,
A bus control unit for switching a path of image data in a system configuration of a basic function and an extended function;
6. The image reproducing apparatus according to claim 4, further comprising means for controlling a bus route by mixing image data and command data. The controller board includes:
7. The image reproducing apparatus according to claim 2, wherein an image storage unit used in the basic function system can be mounted, and the controller board stores image data. The operating means includes:
8. The system according to claim 4, wherein the controller is used as an optional unit that can be used commonly when the basic function and the extended function are configured, and is connected to the controller board when the extended function is configured. The image reproducing device according to any one of the above. The operating means includes:
9. The image reproducing apparatus according to claim 8, wherein at the time of system configuration of the extended function, means corresponding to a required function can be additionally mounted. The extended function control means includes:
System control means for performing system control during the extended function,
Resource use arbitration control means for arbitrating system resources at the time of the function expansion,
The image reproducing apparatus according to claim 1, further comprising: The resource use arbitration control means,
An interface for connecting optional units that execute multiple applications as an extension function,
Access control means for controlling access of image data to the image storage means by the plurality of option units,
The image reproducing apparatus according to claim 10, further comprising: The image reproducing apparatus according to claim 1, further comprising a unit configured to switch the system control and the process control to be executed by different units when the basic function and the extended function are configured. 13. The system according to claim 1, further comprising a function stopping unit for stopping a unit selected for each system configuration of the basic function and the extended function when the system is in a standby state. Image playback device.

Images