JP2007080244A - Data transfer apparatus and image forming apparatus - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To attain energy saving in a data transfer apparatus as an interface corresponding to an external apparatus such as a PC to be connected as needed. <P>SOLUTION: An interface ASIC 200 in an image forming apparatus comprises a USB block 201 as a data transfer interface with an external apparatus; an IEEE1284 block 202; a MAC block 203 that is an interface with a network; a controller 204; an arbiter 205; a system interface 206; a PCI 207; and various DMACs 211-216. The USB block 201 is configured to recognize whether the USB block 201 itself is unused. If unused, a PHY in the own block is controlled to be reset and the operation of a PLL included in the PHY is stopped. <P>COPYRIGHT: (C)2007,JPO&INPIT

Description

  The present invention relates to an energy saving operation of a data transfer device as a network interface such as a printer, a copy, and an MFP (multifunction peripheral), and more particularly, a data transfer device that performs energy saving control and a printer including the data transfer device, The present invention relates to an image forming apparatus such as a copy or MFP.

  As a system considering energy saving, for example, the inventions disclosed in Patent Documents 1 and 2 are known. That is, in Patent Document 1, in a printing system in which a host device and a printing device that receives print data transmitted from the host device and outputs the print data are connected via a network, the host device and the printing device are bidirectional. Connected by communication means, the printing apparatus enters power saving mode after a certain time, means for canceling the power saving mode by receiving transmission data from the host device, status information of power saving mode obtained by bidirectional communication means The image data for acquiring the set time information of the power saving mode based on the above and the means for transmitting to the host device at the moment of entering the power saving mode, the host device being activated by the host device and transmitted to the printing device Application tool to create, operation panel to display the release button for canceling power saving mode on the application screen, from the release button Has a means for transmitting data for canceling the power saving mode to the printing device side, calculates the time from when the release button is pressed, and sets the time based on the set time information until entering the power saving mode And a release system on the operation panel is displayed again before reaching this time.

Further, in the cited document 2, in a facsimile apparatus provided with a facsimile communication unit that performs facsimile communication via at least a general public line and a LAN interface unit that performs exchange of electronic mail via a LAN (Local Area Network), The LAN interface unit can be switched between a normal operation mode in which a program is operated at a normal clock frequency to communicate with the facsimile communication unit or the LAN, and a low power mode in which the program is stopped by stopping the clock. The control means is switched to the low power mode when a series of processing operations are completed in the normal operation mode, and is switched to the normal operation mode when an activation signal is received from the LAN or facsimile communication unit. A facsimile apparatus characterized by the above is disclosed.
Japanese Patent Laid-Open No. 11-085420 JP 2002-111927 A

  By the way, in the invention disclosed in Patent Document 1, in the energy saving mode, the host is notified that the energy saving mode is entered, and when the energy saving release button is pressed from the host, the energy saving release data is transmitted to the printing system. The energy-saving mode is canceled, but if configured in this way, an application for energy-saving control is required on the host side.

  Further, in the invention disclosed in Patent Document 2, when the activation signal is received from the LAN I / F, the FAX shifts from the energy saving mode to the normal mode, but the activation signal has its own IP address. When a packet addressed to itself is received, the normal mode is restored regardless of what the packet is, so it is considered that the substantial energy saving effect is poor.

  On the other hand, image forming apparatuses such as printers, copiers, and MFPs are required to be able to respond to requests for directly connecting and using external devices such as PCs. It has an interface that can handle direct connection.

  However, the inventions described in Patent Documents 1 and 2 described above are intended to save energy when the printing system and FAX are always connected to an external device or the like via a network. No consideration is given to energy saving at an interface corresponding to an external device such as a PC connected at any time.

  The present invention has been made in view of the above-described prior art, and an object thereof is to save energy in a data transfer device as an interface corresponding to an external device such as a PC connected when necessary. An object of the present invention is to provide a data transfer device that can be used and an image forming apparatus using the data transfer device.

  In order to achieve the above object, a first means of the present invention is a data transfer apparatus including a plurality of data transfer interfaces, wherein one of the plurality of data transfer interfaces includes a PHY, and the data transfer interface is unused. In this case, the PHY is set in a reset state.

  The second means of the present invention is the first means for stopping the operation of the PLL when the PHY of the data transfer interface includes a PLL and the data transfer interface is unused. Features.

  According to a third means of the present invention, in the first or second means, one of the plurality of data transfer interfaces is a serial data interface.

  According to a fourth means of the present invention, in the third means, the serial data interface is a USB interface.

  The fifth means is characterized in that, in the fourth means, the USB interface sets the USB operation mode to the suspended state and stops the operation of the PLL.

  Further, the sixth means includes, in the image forming apparatus, any one of the first to fifth means, a data transfer apparatus, and an image forming means for forming a visible image on a recording medium based on the input data. It is characterized by comprising.

  According to the present invention, when an external device is not connected, control is performed so as to reset the PHY included in the data transfer interface in the data transfer device, and control is performed so as to stop the operation of the PLL included in the PHY. Therefore, it is possible to eliminate the use of energy (power consumption) when no external device is connected, thereby obtaining an energy saving effect.

  Embodiments of a data transfer apparatus and an image forming apparatus using the data transfer apparatus according to the present invention will be described below in detail with reference to the drawings.

  FIG. 1 is a diagram showing a configuration of a network system to which the present invention is applied. As shown in FIG. 1, a network system to which the present invention is applied includes an image forming apparatus (multifunction machine) 1 having a plurality of functions such as a copying machine and a printer, a printer 2, and the image forming apparatus 1 or printer. PCs (personal computers) 3, 4, 5 using 2 are connected to a network 6. Note that the number of MFPs 1, printers 2, PCs 3, 4, and 5 connected to the network 6 is an example, and a large-scale system in which these are more connected or a small-scale system that has fewer terminals. It is the same. In the illustrated example, a print instruction can be sent from any of the PCs 3, 4, and 5 to the multifunction device 1 or the printer 2 for printing. As the network 6, Ethernet (registered trademark) is used in the illustrated example.

  The image forming apparatus 1 and the printer 2 include, for example, an image forming unit having a known structure such as an electrophotographic system or an ink jet system, and such an image forming apparatus or printer itself is known. Then, details of the mechanical configuration and the electrical configuration are omitted. In addition, the image forming apparatus 1 and the printer 2 include a data transfer device as an interface corresponding to an external device connected when necessary, for example, a portable PC, a portable PC, a PDA, etc. A connector for connection to such an external device is also provided.

  FIG. 2 is a block diagram showing the configuration of the control unit of the image forming apparatus according to the embodiment of the present invention. The illustrated image forming apparatus includes a controller unit 100, an interface unit (interface ASIC) 200, and a PCI bus 300 that connects the two.

  The controller unit 100 includes a main CPU 101, an ASIC (Application Specific Integrated Circuit) 102, a memory 103 for storing image data sent via a network, and an HDD (not shown), and is sent via the main CPU 101 and the network. A memory 103 for storing image data and an HDD (not shown) are each connected to the ASIC 102, and the ASIC 102 is connected to the PCI bus 300. The main CPU 101 controls an image forming apparatus (not shown), and the ASIC 102 controls input / output of data to and from the main CPU 101, the memory 103 that stores image data sent via the network, and the HDD.

  The interface ASIC 200 includes a USB block 201, an IEEE 1284 block 202, a MAC (Mediea Access Control) block 203, a control unit 204, an arbiter 205, and a system interface (system I / F) 206 as a data transfer interface which is a serial data interface. And a PCI 207 and various direct memory access controllers (DMAC) 211 to 216.

  The USB block 201 is connected to an oscillator 220, an external device, and the like via the USB 224. UST 211, DMAC. Connected to the USR 212 and further connected to the system interface 206.

  The IEEE 1284 block 202 is connected to an external device or the like via an IEEE 1284 line 225, and is connected to the internal bus 217 and the DMAC. CT213, DMAC. It is connected to the CR 214 and further connected to the system interface 206.

  The MAC block 203 includes an oscillator 222 and a network 6 connected via an Ethernet (registered trademark) physical layer (Ethernet (registered trademark) Phy) 223, and an internal bus 217 and DMAC. tx215, DMAC. rx 216 is connected to the system interface 206.

  Each of the aforementioned DMACs 211 to 216 is connected to the internal bus 217, connected to the arbiter 205 that arbitrates the connection state, and further connected to the system interface 206.

  The system interface 206 has the above-described connection and is connected to the internal bus 217 and the PCI 207, and the arbiter 205 has the above-described connection and is connected to the PCI 207. Further, the PCI 207 is connected to the controller unit 100 via the PCI bus 300.

  An image forming apparatus according to an embodiment of the present invention that includes a control unit as described above is connected to a network system as shown in FIG. When a print instruction is issued, the MAC block 203, DMAC. tx215, DMAC. Control of exchange of print data and the like is performed with the controller unit 100 via the rx 216, the arbiter 205, and the PCI 207, and the controller unit 100 sends an instruction to a printing apparatus (not shown) to perform printing according to the instruction. be able to.

  In addition, when a print instruction is issued from an external device connected to the USB 224, and when a print instruction is issued from an external device connected to the IEEE 1284 line 225, the image according to the embodiment of the present invention is used. The forming apparatus controls the exchange of print data and the like with the controller unit 100 via the USB block 201 or the IEEE 1284 block 202 as described above, and the controller unit 100 performs printing (not shown). An instruction can be sent to the apparatus to perform printing according to the instruction.

  FIG. 3 is a block diagram showing the configuration of the USB block. As shown in FIG. 3, the USB block 201 includes a USB physical layer (USB PHY) 301, a USB SIE 302, and an SRAM 303 connected to the USB SIE 302, to which a USB connector 305 for connecting to the USB 224 is connected. In addition, the oscillator 221 described above is connected. Further, in the USB PHY 301, a PLL 304 is provided for using a clock signal from the oscillator 221 as a clock having a predetermined frequency. The PLL 304 generates a clock necessary for data exchange with an external device connected to the USB connector 305 via the USB 224.

  The USB block 201 configured as described above is configured to be able to recognize whether an external device is connected via the USB connector 305, that is, whether the USB block 201 is used or not used. . Therefore, the USB SIE 302 has a terminal VBUSDETECT that receives a signal VBUS indicating that an external device is connected when the external device is connected to the USB connector 305. The USB SIE 302 validates the SuspendM signal to be applied to the USB PHY 301 when no external device is connected to the USB connector 305. Receiving this, the USB PHY 301 stops the operation of the PLL 304 and resets itself.

  More specifically, when an external device is connected to the connector 305, a voltage of generally 5 V, which is a power source of the external device, is applied from the external device to the terminal VBUS of the USB connector 305. The voltage applied to the VBUS is applied to the terminal VBUSDETECT of the USB SIE 302 via the voltage dividing circuit of the resistors R1 and R2. The resistors R1 and R2 are connected in series, one end of the resistor R2 is grounded, and the divided voltage from the connection point of the resistors R1 and R2 is applied to the terminal VBUSDETECT. For example, the resistors R1 and R2 If the resistance values are equal, a voltage of 2.5 V is applied to the terminal VBUSDETECT. The SIE 302 can recognize that an external device is connected by applying this voltage.

  Further, when no external device is connected to the USB connector 305, no voltage from the external device is applied to the terminal VBUS of the USB connector 305. Therefore, the ground voltage (0 V) via the resistor R2 is applied to the terminal VBUSDETECT of the SIE 302. Is applied, and the SIE 302 can recognize that the external device is not connected because the potential of the terminal VBUSDETECT is the ground voltage.

  In the above description, it is described that the external device is connected to the USB connector 305 in a usable state. However, the external device is turned off while the external device is connected to the USB connector 305. Even when no voltage is applied to the terminal VBUS of the USB connector 305, it is possible to recognize that no external device is connected as described above.

  Further, the USB connector 305 may not be mounted in order to reduce the cost of the image forming apparatus including the data transfer apparatus according to the embodiment of the present invention. In this case, the data transfer apparatus is generally provided with the ASIC 200 having the same configuration in order to reduce the cost of the image forming apparatus including the data transfer apparatus by using the ASIC 200 in common.

  The embodiment of the present invention can automatically recognize that an external device is not connected, as described above, even when the USB connector 305 is not mounted. That is, in the embodiment of the present invention, even when the USB connector 305 is not mounted, the resistor R2 is connected to the terminal VBUSDETECT of the SIE 302 only by eliminating the USB connector 305 shown in FIG. For this reason, the ground voltage (0 V) via the resistor R2 is applied to the terminal VBUSDETECT of the SIE 302, and the same operation as when no external device is connected can be performed.

  As described above, the USB block 201 has a state in which no external device is connected to the USB connector 305, a state in which the external device is connected to the USB connector 305 but the power to the external device is turned off, and the USB connector 305 is mounted. If the data transfer interface is not used in any of the three states described above, the USB PHY 301 is reset, and the operation of the PLL 304 is also stopped. Power consumption can be eliminated. This state is immediately released by the USB SIE 302 when an external device is connected to the USB connector 305, a new USB connector 305 is provided, and an external device is connected to the USB connector 305. If an external device is connected to the USB connector 305, the USB PHY 301 is immediately activated and can respond to a print instruction from the external device.

It is a figure which shows the structure of the network system to which this invention is applied. 2 is a block diagram illustrating a configuration of a control unit of the image forming apparatus according to the embodiment of the present disclosure. FIG. It is a block diagram which shows the structure of a USB block.

Explanation of symbols

1 Image forming device (multifunction machine)
2 Printer 3-5 PC
6 Network 100 Controller 101 Main CPU
102 ASIC
103 memory 200 interface ASIC
201 USB block 202 IEEE 1284 block 203 MAC (Mediea Access Control) block 204 Control unit 205 Arbiter 206 System interface (system I / F)
207 PCI
211-216 Various direct memory access controllers (DMAC)
217 Internal bus 221, 222 Oscillator 223 Ethernet (registered trademark) physical layer 224 USB
225 IEEE1284 line 300 PCI bus 301 USB PHY
302 USB SIE
303 SRAM
304 PLL
305 USB connector

Claims (6)

In a data transfer device comprising a plurality of data transfer interfaces,
One of the plurality of data transfer interfaces includes a PHY, and when the data transfer interface is not used, the PHY is reset.   2. The data transfer apparatus according to claim 1, wherein the PHY of the data transfer interface includes a PLL, and stops the operation of the PLL when the data transfer interface is unused.   3. The data transfer apparatus according to claim 1, wherein one of the plurality of data transfer interfaces is a serial data interface. 4. The data transfer device according to claim 3, wherein the serial data interface is a USB interface.   5. The data transfer device according to claim 4, wherein the USB interface sets the USB operation mode to a suspended state and stops the operation of the PLL.   6. An image forming apparatus comprising: the data transfer apparatus according to claim 1; and an image forming unit that forms a visible image on a recording medium based on input data.

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