JP2009196300A - Printer controller for composite machine - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To provide a printer controller for a composite machine which communicates by a suitable data transmission form conformed to a main control part. <P>SOLUTION: The printer controller includes an interpreter part which converts code information received via an external communication part to raster data, first and second connecting terminals to either of which the main controlling part is connected via a wiring cable, a first communication controlling part which carries out communication with the main controlling part via the first connecting terminal by a first data transmission form and outputs the raster data generated by the interpreter part to the main controlling part, a second communication controlling part which carries out communication with the main controlling part via the second connecting terminal by a second data transmission form and outputs the raster data generated by the interpreter part to the main controlling part, and an IF selecting part which selects either of the first communication controlling part and the second communication controlling part on the basis of a connection request from the main controlling part and outputs the raster data from the interpreter part. <P>COPYRIGHT: (C)2009,JPO&INPIT

Description

  The present invention relates to a printer controller for a multifunction machine, and more particularly to an improvement of a printer controller used in a multifunction machine having a printer controller, a paper printing unit, and a main control unit.

  A multifunction peripheral is known as an image processing apparatus having a scanner function, a printer function, and the like. In general, the multi-function peripheral includes a document reading unit, a paper printing unit, a printer controller, a main control unit, and the like, and the printer controller is formed as an independent circuit unit having a substrate separate from the main control unit. The document reading unit is a reading unit that optically reads a document to generate raster data, and the paper printing unit is a printing unit that visualizes raster data and prints it on a sheet. The printer controller is print control means that communicates with an external device such as a PC (personal computer), analyzes code information received from the external device, and converts it into raster data. The main control unit controls the document reading unit, the paper printing unit, and the printer controller based on an input signal from the operation unit, and outputs raster data from the document reading unit and the printer controller to the paper printing unit.

  In the above-described multi-function peripheral, a manufacturer-specific transmission format is often used as a data transmission format between the printer controller and the main control unit. Some data transmission formats between devices in the PC adopt a general-purpose data transmission format such as PCI (Peripheral Components Interconnect). For this reason, the conventional printer controller has a problem that the data transmission format of the main control unit is not used in a multi-function machine different from that of the printer controller. That is, the conventional printer controller has a problem that it can be used only for a multi-function peripheral in which the data transmission format of the main control unit is the same as that of the printer controller.

  As described above, the conventional printer controller has a problem that the data transmission format of the main control unit is not used for a multifunction device different from the printer controller side.

  SUMMARY An advantage of some aspects of the invention is that it provides a printer controller that can be used for two types of multifunction peripherals having different data transmission formats of a main control unit. In particular, it is an object of the present invention to provide a printer controller that can communicate in an appropriate data transmission format according to a connected main control unit.

  A printer controller for a multifunction machine according to a first aspect of the present invention includes a printer controller that analyzes code information received from an external device and converts it into raster data, a paper printing unit that visualizes the raster data and prints it on paper, The main controller is formed on a substrate different from the printer controller, controls the printer controller and the paper printing unit based on an input signal from the operation unit, and outputs the raster data from the printer controller to the paper printing unit. A printer controller used in a multifunction peripheral having a control unit, wherein the code information received via the external communication unit that communicates with the external device and the external communication unit is converted into raster data. The main control unit is connected to either the interpreter unit or the wiring cable. Connected to the main control unit via the first connection terminal and the first connection terminal, and communicates with the main control unit in a first data transmission format, and the interpreter unit A first communication control unit that outputs the generated raster data to the main control unit, and a second data transmission that is connected to the main control unit via a second connection terminal and is different from the first data transmission format A second communication control unit that communicates with the main control unit in a format and outputs raster data generated by the interpreter unit to the main control unit; and a first communication based on a connection request from the main control unit An interface selection unit that selects one of the control unit and the second communication control unit and outputs raster data from the interpreter unit is configured.

  The printer controller is provided with first and second connection terminals to which the main control unit is connected, and the first communication control unit and the second communication control having different data transmission formats are connected to these connection terminals. Each part is provided. According to such a configuration, since the connection terminal to which the main control unit is connected can be detected by a connection request received from the main control unit, an appropriate data transmission format corresponding to the main control unit connected to the connection terminal can be obtained. The communication control unit can be automatically selected.

  A printer controller for a multifunction machine according to a second aspect of the present invention includes a first storage unit having a first connection request storage area for holding the connection request input to the first connection terminal in addition to the above configuration. A second storage unit having a second connection request storage area for holding the connection request input to the second connection terminal, and the interface selection unit writes the connection request by the main control unit The communication control unit corresponding to the connected connection request storage area is selected. According to such a configuration, the communication control unit is selected by detecting the connection terminal to which the main control unit is connected by the connection request storage area in which the connection request is written, so the main control unit is connected. The configuration can be simplified as compared with the case where the connection terminal is mechanically detected.

  According to the printer controller for a multifunction machine according to the present invention, the connection terminal to which the main control unit is connected can be detected by a connection request received from the main control unit, so that an appropriate one according to the main control unit connected to the connection terminal It is possible to automatically select a communication control unit of a proper data transmission format. Also, since the connection control terminal is detected by detecting the connection terminal to which the main control unit is connected by the connection request storage area in which the connection request is written, the connection terminal to which the main control unit is connected is mechanically selected. Compared with what is detected, the configuration can be simplified. Therefore, it is possible to realize a printer controller that can be used for two types of multifunction peripherals having different data transmission formats of the main control unit.

  FIG. 1 is a system diagram showing an example of a schematic configuration of an image processing system including a multifunction machine 10 according to an embodiment of the present invention. This image processing system includes an MFP 10 connected to a LAN and a PSTN, and a terminal device 20 connected to the MFP 10 via a serial transmission path such as a USB (Universal Serial Bus).

  The terminal device 20 is an external device such as a PC that is detachably connected to the serial transmission path connector 21 in the MFP 10. Document data created in such a terminal device 20 is transferred to the MFP 10 based on an operation by an operator, and printed on paper. The document data created by the terminal device 20 includes, for example, character or image code information described in PDL (page description language), and is transferred to the MFP 10 together with a print command and the like.

  An MFP (Multi-Function Peripheral) 10 is an image processing apparatus having a scanner function, a printer function, and a FAX (facsimile) function, and can selectively execute these functions. The MFP 10 includes a printer controller 11, a NIC 12, an operation unit 13, a main control unit 14, a printer engine unit 15, a document reading unit 16, and connectors 21 to 23.

  The printer controller 11 is a print control device that communicates with the terminal device 20, analyzes code information received from the terminal device 20, and converts the code information into raster data. The printer controller 11 is a circuit unit independent of the main control unit 14. It is formed. Raster data is image data in bitmap format.

  The NIC (Network Interface Card) 12 is a communication control device for communicating with an external device via a communication network. The NIC 12 is connected to a connector 22 for a local area network (LAN) and a connector 23 for a public switched telephone network (PSTN).

  The operation unit 13 is a user interface that is provided with various operation keys, generates an input signal based on an operation by an operator, and outputs the input signal to the main control unit 14.

  The document reading unit 16 is an optical reading device that optically reads a document to generate raster data, and includes an exposure light source, an image sensor, a scanning motor, and the like. The printer engine unit 15 is an image forming apparatus that visualizes raster data and prints it on paper, and includes a photosensitive drum motor, a charger, a developing device, a transfer device, a fixing device, and the like.

  The main control unit 14 is a circuit unit that controls the document reading unit 16, the printer engine unit 15, and the printer controller 11 based on an input signal from the operation unit 13, and is formed on a substrate different from the printer controller 11. The main control unit 14 performs an operation of outputting raster data from the document reading unit 16 and the printer controller 11 to the printer engine unit 15.

  Raster data transmission / reception between the main control unit 14 and the printer engine unit 15 is performed via a video interface, and image data is transferred by DMA (Direct Memory Access).

  In the MFP 10, the printer controller 11 is formed as an independent circuit unit that is separate from the NIC 12 and the main control unit 14. Therefore, the printer controller 11 is provided with a connection terminal 25 for a serial transmission path, a connection terminal 27 for NIC, and connection terminals 28 and 29 for a main control unit.

  The connection terminal 25 is connected to the connector 21 via the wiring cable 24, and the printer controller 11 acquires code information from the terminal device 20 via the connection terminal 25. The connection terminal 27 is connected to the NIC 12 via the wiring cable 26, and image data for printing received by the NIC 12 is transferred to the printer controller 11 via the connection terminal 27 and processed.

  The connection terminals 28 and 29 are terminals for communicating with the main control unit 14 in different data transmission formats, and the main control unit 14 is selectively connected. That is, either the connection terminal 28 or 29 is connected to the main control unit 14 via the wiring cable 30. The wiring connection between the printer controller 11, the connector 21, the NIC 12, and the main control unit 14 is performed, for example, when the MFP 10 is manufactured.

  When the image data read from the document by the document reading unit 16 is faxed, the image data is transferred from the document reading unit 16 to the main control unit 14, output to the NIC 12 via the printer controller 11, and faxed by the NIC 12. Sent. When copying a document, the image data read by the document reading unit 16 is transferred to the printer engine unit 15 via the main control unit 14 and printed on paper. Further, when printing image data received by FAX on the NIC 12, the image data received by FAX is transferred to the main control unit 14 via the printer controller 11 and output from the main control unit 14 to the printer engine unit 15. Printed on paper.

  When printing the PDL data transferred from the terminal device 20, the received document data is converted into raster data by the printer controller 11. Then, the converted image data is output to the printer engine unit 15 via the main control unit 14 and printed on paper.

  FIG. 2 is a block diagram illustrating a configuration example of the printer controller 11 in the MFP 10 of FIG. The printer controller 11 includes an external communication unit 31, an interpreter unit 32, a font data storage unit 33, an IF selection unit 34, a first IF unit 35, a first storage unit 36, a second IF unit 37, and a second storage unit. 38.

  The external communication unit 31 includes a communication control circuit that communicates with an external device via a serial transmission path, and PDL data received from the terminal device 20 via the connection terminal 25 is output to the interpreter unit 32. .

  The interpreter unit 32 is a data format conversion processing unit that converts PDL data received via the external communication unit 31 into raster data and outputs the converted data to the IF selection unit 34. When the code information in the PDL data is converted into raster data, for example, font data held in the font data storage unit 33 is used.

  The first IF (interface) unit 35 is connected to the main control unit 14 via the connection terminal 28, and includes a communication control circuit that communicates with the main control unit 14 in the first data transmission format. In the first IF unit 35, an operation of outputting the raster data generated by the interpreter unit 32 to the main control unit 14 is performed. As the first data transmission format, for example, a transmission format based on a communication protocol of PCI (Peripheral Components Interconnect) standard is used. The raster data is transferred to the main control unit 14 via the connection terminal 28.

  The second IF unit 37 is connected to the main control unit 14 via the connection terminal 29, and from a communication control circuit that communicates with the main control unit 14 in a second data transmission format different from the first data transmission format. Become. In the second IF unit 37, an operation of outputting the raster data generated by the interpreter unit 32 to the main control unit 14 is performed. For example, a manufacturer-specific transmission format is used as the second data transmission format. The raster data is transferred to the main control unit 14 via the connection terminal 29.

  The IF selection unit 34 includes an IF control circuit that selects one of the first IF unit 35 and the second IF unit 37 based on a connection request from the main control unit 14. The interpreter unit 32 is connected to the selected IF unit. The operation to output raster data from is performed.

  The first storage unit 36 includes a first connection request storage area 1 for holding a connection request, a first connection response storage area 2 for holding a connection response, and a first connection for holding a connection confirmation. This is a writable memory having the connection confirmation storage area 3 as a memory area.

  In the connection request storage area 1, the connection request from the main control unit 14 input to the connection terminal 28 for the first IF unit 35 is written by the first IF unit 35. The first IF unit 35 generates a connection response to the connection request based on the connection request written in the connection request storage area 1 and writes the connection response in the connection response storage area 2. The main control unit 14 reads the connection response written in the connection response storage area 2 through the first IF unit 35 and writes the connection confirmation into the connection confirmation storage area 3 through the first IF unit 35. Is done.

  The second storage unit 38 has a second connection request storage area 4 for holding a connection request, a second connection response storage area 5 for holding a connection response, and a second for holding a connection confirmation. This is a writable memory having the connection confirmation storage area 6 as a memory area.

  In the connection request storage area 4, the connection request from the main control unit 14 input to the connection terminal 29 for the second IF unit 37 is written by the second IF unit 37. The second IF unit 37 performs an operation of generating a connection response to the connection request based on the connection request written in the connection request storage area 4 and writing it in the connection response storage area 5. The main control unit 14 reads the connection response written in the connection response storage area 5 through the second IF unit 37 and writes the connection confirmation into the connection confirmation storage area 6 through the second IF unit 37. Is done.

  The first IF unit 35 and the second IF unit 37 execute an initialization process for performing communication with the main control unit 14 based on an instruction from the IF selection unit 34 when the MFP 10 is turned on. Is done. The main control unit 14 writes the connection confirmation in the connection confirmation storage areas 3 and 6 to establish the connection.

  When a connection request is written by the main control unit 14 during the initialization process by the IF unit, the IF selection unit 34 determines an appropriate data transmission format based on the connection request, and the first IF unit 35 or An operation of selecting one of the second IF units 37 is performed. Specifically, the IF unit corresponding to the connection request storage areas 1 and 4 in which the connection request is written is selected. Thus, the IF unit can be automatically selected and communication can be performed in an appropriate data transmission format corresponding to the main control unit 14 connected to the printer controller 11.

  Steps S101 to S115 in FIG. 3 are flowcharts showing an example of the operation when the printer controller 11 in FIG. 2 is turned on. First, the IF units 35 and 37 start an initialization process based on an instruction from the IF selection unit 34 (step S101). If a connection request is written from the main control unit 14 during the initialization process, the IF selection unit 34 selects the IF unit in which the connection request is written.

  That is, when a connection request is written in the connection request storage area 1 for the first IF unit 35, the first IF unit 35 is selected (steps S102 to S104). At this time, the first IF unit 35 generates a connection response based on the written connection request and writes it in the connection response storage area 2 (step S105). Next, if there is a connection confirmation written from the main control unit 14 in the first IF unit 35, the initialization process is terminated based on the connection confirmation (steps S106 and S109). On the other hand, when the connection confirmation is not written by the main control unit 14 and the initialization process is terminated in the second IF unit 37, the first IF unit 35 interrupts the initialization process (step S106 to S108).

  On the other hand, when a connection request is written in the connection request storage area 4 for the second IF unit 37, the second IF unit 37 is selected (steps S102, S103, S110). At this time, the second IF unit 37 generates a connection response based on the written connection request and writes it in the connection response storage area 5 (step S111). Next, if there is a connection confirmation written from the main control unit 14 in the second IF unit 37, the initialization process is terminated based on the connection confirmation (steps S112 and S115). On the other hand, when there is no connection confirmation written by the main control unit 14 and the initialization process is completed in the first IF unit 35, the second IF unit 37 interrupts the initialization process (step S112 to S114).

  According to the present embodiment, since the connection terminal to which the main control unit 14 is connected can be detected by a connection request received from the main control unit 14, appropriate data according to the main control unit 14 connected to the connection terminal. The IF part of the transmission format can be automatically selected. Further, since the IF terminal is selected by detecting the connection terminal to which the main control unit 14 is connected by the connection request storage area in which the connection request is written, the connection terminal to which the main control unit 14 is connected is mechanical. The configuration can be simplified compared to what is detected in (1).

1 is a system diagram showing an example of a schematic configuration of an image processing system including a multifunction machine 10 according to an embodiment of the present invention. FIG. 2 is a block diagram illustrating a configuration example of a printer controller 11 in the MFP 10 of FIG. 1. 3 is a flowchart illustrating an example of an operation when power is turned on in the printer controller 11 of FIG. 2.

Explanation of symbols

10 MFP
11 Printer controller 12 NIC
DESCRIPTION OF SYMBOLS 13 Operation part 14 Main control part 15 Printer engine part 16 Document reading part 20 Terminal device 21-23 Connector 24, 26, 30 Wiring cable 25, 27, 28, 29 Connection terminal 31 External communication part 32 Interpreter part 33 Font data storage part 34 IF selector 35 First IF unit 36 First storage unit 37 Second IF unit 38 Second storage unit

Claims (2)

A printer controller that analyzes code information received from an external device and converts it into raster data, a paper printing unit that visualizes the raster data and prints it on paper, and an operation unit formed on a different substrate from the printer controller In the printer controller used in a multifunction machine having a main controller that controls the printer controller and the paper printing unit based on input signals from the printer and outputs the raster data from the printer controller to the paper printing unit. ,
An external communication unit that communicates with the external device;
An interpreter unit that converts the code information received via the external communication unit into raster data;
A first connection terminal and a second connection terminal to which the main control unit is connected to either via a wiring cable;
First connected to the main control unit through a first connection terminal, communicates with the main control unit in a first data transmission format, and outputs raster data generated by the interpreter unit to the main control unit. Communication control unit of
Raster data that is connected to the main control unit via a second connection terminal, communicates with the main control unit in a second data transmission format different from the first data transmission format, and is generated by the interpreter unit A second communication control unit that outputs to the main control unit;
An interface selection unit that selects either the first communication control unit or the second communication control unit based on a connection request from the main control unit and outputs raster data from the interpreter unit; A printer controller for multifunction devices. A first storage unit having a first connection request storage area for holding the connection request input to the first connection terminal;
A second storage unit having a second connection request storage area for holding the connection request input to the second connection terminal,
2. The printer controller for a multifunction device according to claim 1, wherein the interface selection unit selects a communication control unit corresponding to a connection request storage area in which a connection request is written by the main control unit.

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