JP2006245764A - Image processing device - Google Patents

Abstract

PROBLEM TO BE SOLVED: To achieve energy saving when canceling MFP sleep using a network address.
An IP address is assigned for each operation such as Print, Scan, Fax, and network command control. When the MFP is sleeping, when a packet is received from the network, the IP address of the network packet is compared with the address assigned to the job, and necessary circuits and devices are turned on. When a packet having an IP address indicating a print job arrives, only the print-related devices including the fixing device, the printer image processing circuit, the CPU and memory of the controller, and other circuits necessary for the print operation are released from sleep.
[Selection] Figure 2

Description

  The present invention relates to a printing apparatus, power saving, an energy saving control method, and a network address.

  Conventionally, only one Internet protocol address (hereinafter referred to as IP address) has been assigned to one multifunction printer (hereinafter referred to as MFP). This is because the Internet protocol version 4 (hereinafter referred to as IPv4), which has been widely used, does not have a large amount of addresses, and thus is due to address saving. Therefore, when a job is sent from the network, the CPU is released from sleep, the network packet is interpreted, the job content is specified, and the job is processed by shifting from the low power consumption state of each part of the MFP to the normal state. It was.

As another conventional example, Patent Literature 1 and Patent Literature 2 can be cited.
JP 2004-288152 A Japanese Patent Laid-Open No. 2003-216631

  According to the conventional method, unless the job from the network is analyzed, the type of the job is not known, and it is impossible to determine which circuit in the MFP should be shifted from the low power consumption state to the normal state. For this reason, the MFP that has received a job from the network first releases the CPU from the sleep state and analyzes the contents of the packet to determine which circuit of the MFP is used.

  However, this method requires operations such as CPU activation and packet analysis before receiving a job and determining which circuit of the MFP is required. These operations are performed in the current technology from several tens of seconds to one minute. It takes more than that. For this reason, power consumption during this period from the reception of a packet to the power-on of a block necessary for job processing is wasted.

  Means for solving the above problems will be described below.

  Since the Internet Protocol Version 6 (hereinafter referred to as IPv6) has more addresses than IPv4, the network address assigned to the MFP is changed from the conventional 1 device 1 address to 1 device multiple addresses using this. In addition, as long as a plurality of addresses can be assigned, IPv4 or other network addresses may be used instead of IPv6.

  Further, each of the plurality of network addresses is associated with each function (print, copy, FAX transmission, etc.) of the MFP. An address 1 indicating the operation 1, an address 2 indicating the operation 2, an address 3 indicating the operation 3, and so on. When a job is sent from the network by designating an address indicating one of these operations, the CPU is activated and compared with the associated address by an address comparator without analyzing the contents of the job. Since this address belongs to the lower layer of the network packet, the comparison can be realized with a simple circuit. Then, it is determined as an address indicating one of the functions of the MFP, and a part (printing, scanner, control circuit thereof, etc.) necessary for realizing the operation function is shifted from the low power consumption state to the normal state. As in the past, software analysis processing using a CPU is required to analyze the job contents belonging to a higher layer of the packet. However, since this address comparison can be realized with a simple hardware circuit, the processing is short. Save time and save energy.

  As described above in detail, according to the present invention, by using the address comparison method, a job can be specified with only a simple circuit without releasing the CPU from sleep, and a block to be released from sleep based on the job. Can be judged. As a result, recovery from sleep can be performed at high speed and with low power consumption.

  Hereinafter, embodiments of the present invention will be described with reference to the drawings.

(First embodiment)
FIG. 2 is a block diagram showing the configuration of a multifunction printer (hereinafter referred to as MFP) 201 in the first embodiment.

  202 is a print engine that realizes a print function in the MFP 201, 203 is a printer image processing circuit, 205 is a controller including the printer image processing circuit 203, 204 is a CPU of the controller 205, and 206 is a physical layer process of the network. A microchip (hereinafter referred to as PHY) 207 is an address comparison and power supply control unit. Reference numeral 211 denotes a host PC, and 210 denotes a network connecting the host PC 210 and the MFP 201.

  FIG. 3 is an address correspondence table in the first embodiment. Reference numeral 301 denotes a correspondence table in which an IP address, a job type, and a power control block are associated with each other, 302 is an IP address for a print job, and 303 is an IP address for FAX communication.

  When printing some data on the host PC 211 to the power saving MFP 201, the host PC 211 sends a job packet to the address 302 for the print job on the network 210. A packet that reaches the MFP 201 via the network 210 is received by the address comparator 207 and the controller 205 via the PHY 206. Here, the address corresponding to which job is compared by the address comparator 207. In this case, the printer job address 302 is determined, and the printer 202 and printer image processing circuit 203 necessary for the printing operation are turned on. Thereafter, the image in the packet is printed using the printer image processing circuit 203 and the printer 202.

  Similarly, when it is desired to send a certain data on the host PC 211 by FAX to the power saving MFP 201, the host PC 211 sends a job packet to the address 303 for FAX communication on the network 210. A packet that reaches the MFP 201 via the network 210 is received by the address comparator 207 and the controller 205 via the PHY 206, and is determined to be the FAX communication address 303. Then, the power of the FAX communication circuit 208 and the facsimile image processing circuit 209 necessary for the FAX communication operation is turned on. Thereafter, the image in the packet is faxed using the facsimile image processing circuit 209 and the fax communication circuit 208.

It is a block diagram showing sleep activation of a conventional MFP. 3 is a block diagram illustrating sleep activation of the MFP according to the first embodiment. FIG. 6 is a correspondence table of addresses, job types, and power control blocks according to the first embodiment.

Explanation of symbols

101 Multifunction printer (MFP)
102 Printer (printing mechanism part)
103 Print Image Processing Circuit 104 CPU
105 controller 106 network physical layer processing circuit (PHY)
201 Multifunction printer (MFP)
202 Printer (printing mechanism part)
203 Print Image Processing Circuit 204 CPU
205 controller 206 network physical layer processing circuit (PHY)
207 Address comparison circuit and power supply control device 208 FAX communication circuit 209 Facsimile image processing circuit 210 Network 211 Host PC
301 Address-Job Type-Power Control, Correspondence Table 302 Print Job Address 303 Facsimile Job Address

Claims (5)

  An image processing apparatus comprising: means for connecting to a network; and means for assigning a plurality of network addresses, and means for setting a portion other than a network interface unit to a low power consumption state or a power-off state for each portion.   2. The image processing apparatus according to claim 1, further comprising means for associating a plurality of assigned network addresses according to claim 1 with respective operations of image processing.   When a network address associated with an operation is received by the means according to claim 2, only a circuit necessary for executing the operation is shifted from a low power consumption state or a power-off state to a normal operation state. The image processing apparatus according to claim 1.   3. The image processing apparatus according to claim 1, wherein the means for associating the plurality of network addresses according to claim 2 with an image processing operation is a network address comparison circuit.   3. The image processing apparatus according to claim 1, wherein the image processing operation according to claim 2 is image data communication, printing operation, scanning operation, or facsimile communication.

Images