JP2006332807A - Network terminal and energy-saving mode setting method thereof, and energy-saving mode setting program - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To suppress power energy during standby without imposing a load on a user. <P>SOLUTION: A comparator 15 compares the number of packets counted by a reception packet counter 13 with the number of reference packets set to the number of reference packet setting section 14 and supplies a value of the the number of received packets with respect to the the number of the reference packets (=the number of received packets / the number of reference packets) to an energy-saving mode determining section 16. The energy-saving mode determining section 16 references an energy-saving mode table to determine an energy-saving mode corresponding to an output value from the comparator 15. A CPU 17 controls a clock generating circuit 21, a first power supply circuit 22, and a second power supply circuit 23 according to the energy-saving mode determined by the energy-saving mode determining section 16. <P>COPYRIGHT: (C)2007,JPO&INPIT

Description

  The present invention relates to a network terminal device, an energy saving mode setting method thereof, and an energy saving mode setting program, and more particularly to a network terminal device which suppresses power consumption during standby, an energy saving mode setting method thereof, and an energy saving mode setting program.

  The printer device is normally set to shift to a predetermined energy saving mode when it is not used for a certain period of time. At that time, various proposals have been made to suppress power consumption as much as possible.

  Conventionally, there has been disclosed a printer device that sets a mode in which the warm-up time is short when the usage frequency is high and a mode in which the power consumption is lowest when the usage frequency is not used at all, and sets an optimum energy saving mode according to the usage status ( For example, see Patent Document 1.)

The printer device registers user information such as the user name and IP address of the host terminal in the built-in NVRAM when the printer of the host terminal is installed. Then, the power-on / off of the host computer is confirmed when shifting to the energy saving mode, the number of connected host terminals is detected, and the energy saving mode is automatically set according to the detected number of host terminals.
JP 2001-205897 A

  In the technique described in Patent Document 1, the number of printer devices connected to the network is determined when the printer driver is installed. For this reason, when a new network is established or moved, the printer driver must be installed in the host terminal each time, and there is a problem that the burden on the user becomes very large. In addition, when a so-called notebook PC is connected to a mobile device, the automatic IP address acquisition mode is executed, so that there is a problem that the host terminal cannot be recognized.

  The present invention has been proposed in order to solve the above-described problems, a network terminal device capable of suppressing power energy during standby without burdening the user, an energy saving mode setting method thereof, and an energy saving mode. The purpose is to provide a setting program.

  In order to solve the above-described problem, a network terminal device according to the present invention is a network terminal device connected to a network, and is detected by a congestion level detection unit that detects the congestion level of the network and the congestion level detection unit. Energy saving mode setting means for setting at least one of an energy saving mode and a transition time to the energy saving mode based on the degree of congestion.

  An energy saving mode setting method for a network terminal device according to the present invention is an energy saving mode setting method for a network terminal device connected to a network, wherein the network congestion level is detected and the energy saving mode is detected based on the detected congestion level. , At least one of the transition times to the energy saving mode is set.

  A network terminal device connected to the network operates by receiving data from another device or receiving a command from another device via the network. Therefore, when the network is congested, the operation time of the network terminal device becomes long. However, when the network is not congested at all, the operation time of the network terminal device is short or the operation time is lost. Therefore, if the operation time of the network terminal device is short or the operation time is exhausted, the energy consumption during standby can be suppressed by entering the energy saving mode.

  Therefore, the network terminal device and its energy saving mode setting method detect the congestion level of the network, and set at least one of the energy saving mode and the transition time to the energy saving mode based on the detected congestion level. Can be suppressed.

  Note that the congestion degree detection means may detect the congestion degree by comparing the number of packets received from the network with a reference value. Further, the congestion level detection means has either a filter that extracts packets related to the congestion level from the network, or a filter that discards packets that are not related to the congestion level from the network, and packets that have passed through the filter And the reference value may be compared.

  Further, the congestion degree detection means may update the reference value when the number of received packets exceeds the reference value. Thereby, even when the number of received packets constantly increases, it is possible to detect the degree of network congestion corresponding to the situation by updating the reference value.

  The energy saving mode setting means may set an energy saving mode corresponding to the congestion degree from a plurality of energy saving modes.

  A network terminal device, an energy saving mode setting method thereof, and an energy saving mode setting program according to the present invention detect a network congestion level, and at least one of an energy saving mode and a transition time to the energy saving mode based on the detected congestion level. By setting, energy consumption can be suppressed.

  Hereinafter, preferred embodiments of the present invention will be described in detail with reference to the drawings. In this embodiment, an image forming apparatus will be described as an example of the network terminal apparatus of the present invention.

  FIG. 1 is a block diagram showing a configuration of an image forming apparatus according to an embodiment of the present invention. The image forming apparatus is connected to various devices such as a printer, a facsimile machine, and a computer via the Ethernet 10. The image forming apparatus includes a printer unit, a scanner unit, and a facsimile unit (not shown). The image forming apparatus performs printing or facsimile transmission using data transmitted from the Ethernet 10, and the status of the apparatus is checked via the Ethernet 10. A packet to be transmitted is transmitted to another device, or the state of the other device is monitored based on the packet transmitted from the other device.

  The image forming apparatus includes an Ethernet interface 11 that transfers packets to and from the Ethernet 10, a timer 12 that counts time, a received packet counter 13 that counts received packets, and a reference packet number. A reference packet number setting unit 14 to be set, and a comparator 15 that compares the number of received packets with the reference packet number and outputs a comparison result are provided.

  Further, the image forming apparatus instructs the image processing to the energy saving mode determining unit 16 that determines the energy saving mode according to the output value of the comparator 15, the printer unit, the scanner unit, and the facsimile unit, and controls various other devices. A central processing unit (CPU) 17, a clock generation circuit 21 that generates a clock for a predetermined device, a first power circuit 22 that supplies power to the predetermined device, and a power supply destination of the first power circuit 22 And a second power supply circuit 23 for supplying power to a different device.

  The CPU 17 instructs a printer unit, a scanner unit, and a facsimile unit (not shown) to perform image processing such as print processing, scanner processing, and facsimile transmission, respectively. In addition, the CPU 17 executes a predetermined process according to the operation mode (any one of the steady mode and the energy saving modes 1, 2, and 3) determined by the energy saving mode determination unit 16.

  In the image forming apparatus configured as described above, the reception packet counter 13 refers to the count value of the timer 12 and refers to the number of packets received per unit time from the Ethernet 10 via the Ethernet interface 11 (hereinafter “ The number of received packets is counted. The reception packet counter 13 does not always need to count the number of received packets, but may count the number of received packets at regular time intervals.

  The reference packet number setting unit 14 is set with a predetermined initial value (reference packet number). The reference packet number setting unit 14 can reset the reference packet number according to the output of the comparator 15. For example, when the number of received packets counted by the received packet counter 13 exceeds the reference packet number, the reference packet number setting unit 14 sets the reference packet number to the received packet number. Thereby, even when the number of received packets constantly increases, the reference packet number setting unit 14 can set an optimal reference packet number according to the change in the number of received packets. When the CPU 17 returns from the energy saving mode to the normal mode, the reference packet number setting unit 14 returns the reference packet number to the initial value.

  The comparator 15 compares the number of packets counted by the received packet counter 13 with the reference packet number set by the reference packet number setting unit 14, and the value of the received packet number with respect to the reference packet number (= The number of received packets / the number of reference packets) is supplied to the energy saving mode determination unit 16.

  The energy saving mode determination unit 16 stores the following energy saving mode table, and refers to the energy saving mode table to determine the energy saving mode corresponding to the output value of the comparator 15.

  FIG. 2 is a diagram illustrating a configuration of the energy saving mode table. “The number of received packets ÷ the number of reference packets” in the figure is the output value of the comparator 15. As the energy saving mode shifts from 1 to 3, the amount of energy consumption is increased. In the present embodiment, the clock generation circuit 21 is stopped in the energy saving (energy saving) mode 1, the first power supply circuit 22 is further stopped in the energy saving mode 2, and the second power supply circuit 23 is further stopped in the energy saving mode 3. . It should be noted that the time taken to return from the energy saving mode to the normal mode becomes longer as the energy saving modes 1, 2, and 3 are entered.

  According to the figure, for example, when the output value of the comparator 15 is 1.00 or more, the transition time from the normal mode to the energy saving mode 1 is 30 minutes, the transition time from the energy saving mode 1 to the energy saving mode 2 is 30 minutes, The transition time from the energy saving mode 2 to the energy saving mode 3 is 30 minutes. Similarly, when the output value of the comparator 15 is 0.75 or more and less than 1.00, the transition time from the normal mode to the energy saving mode 1 is 25 minutes, the transition time from the energy saving mode 1 to the energy saving mode 2 is 25 minutes, The transition time from the energy saving mode 2 to the energy saving mode 3 is 25 minutes.

  The energy saving mode table shown in FIG. 2 is merely an example, and the present invention is not limited to this. That is, the energy saving mode and the transition time may be determined according to the number of received packets with respect to the reference number of packets. In particular, as the number of received packets with respect to the reference number of packets decreases, the amount of energy consumption to be suppressed needs to increase.

  The CPU 17 controls the clock generation circuit 21, the first power supply circuit 22, and the second power supply circuit 23 according to the energy saving mode determined by the energy saving mode determination unit 16.

  For example, in the normal mode, the CPU 17 operates the clock generation circuit 21, the first power supply circuit 22, and the second power supply circuit 23, respectively. In the energy saving mode 1, the CPU 17 stops the clock generation circuit 21. In the energy saving mode 2, the CPU 17 stops the clock generation circuit 21 and the first power supply circuit 22. In the energy saving mode 3, the CPU 17 stops all of the clock generation circuit 21, the first power supply circuit 22, and the second power supply circuit 23.

  As described above, the image forming apparatus according to the embodiment of the present invention detects the congestion degree of the Ethernet 10 based on the number of packets per unit time flowing through the Ethernet 10, and the energy saving mode according to the congestion degree. And its transition time is set automatically. In other words, the image forming apparatus sets an optimal energy saving mode and energy saving transition time according to the scale of the network and the usage status of the apparatuses connected to the network.

  Therefore, the image forming apparatus can maximize the effect of suppressing energy consumption by automatically setting to the energy saving mode 3 when there is almost no packet flowing through the Ethernet 10 and it is not necessary to operate. When there are a few packets flowing through the Ethernet 10, the energy saving modes 1 and 2 can be set to make it possible to return to the normal mode in a short time while suppressing energy.

  In addition, this invention is not limited to embodiment mentioned above, It can apply also to what was changed in the design within the range of the matter described in the claim.

  For example, in order to increase the accuracy of the number of received packets counted by the received packet counter 13, the image forming apparatus may have the following configuration.

  FIG. 3 is a block diagram illustrating another configuration of the image forming apparatus. This image forming apparatus is obtained by adding a filter 18 to the image forming apparatus shown in FIG.

  The filter 18 discards the RIP packet from various packets supplied from the Ethernet interface 11 and supplies the remaining packets to the received packet counter 13. The RIP packet is a packet that is output by a router that constitutes the Ethernet 10 regardless of the congestion degree of the Ethernet 10. Therefore, the filter 18 can obtain the number of received packets representing the degree of congestion of the Ethernet 10 with high accuracy by discarding packets not related to the degree of congestion of the Ethernet 10. Of course, the filter 18 may discard a packet other than the RIP packet as long as the packet is not related to the degree of congestion of the Ethernet 10.

  The filter 18 extracts a packet handled by the image forming apparatus, for example, a packet in the SMB protocol, which is one of the printing protocols, from various packets supplied from the Ethernet interface 11, and extracts the extracted packet. May be supplied to the received packet counter 13. The filter 18 may extract a packet handled by the image forming apparatus in addition to the packet in the SMB protocol. The number of packets handled by the image forming apparatus is not limited to one and may be plural.

  In the embodiment described above, the received packet counter 13 counts the number of packets per unit time in order to detect the degree of network congestion. However, the present invention is not limited to this. Instead of the reception packet counter 13, for example, a means for detecting a packet transfer interval of the Ethernet 10 or an idle time during which no packet is transferred may be provided.

  Furthermore, the energy saving mode table shown in FIG. 2 may be rewritable by the CPU 17, for example. In the above-described embodiment, the CPU 17 controls the clock generation circuit 21, the first power supply circuit 22, and the second power supply circuit 23 according to the energy saving mode. However, the CPU 17 controls other circuits according to the energy saving mode. Of course, it may be controlled.

1 is a block diagram illustrating a configuration of an image forming apparatus according to an embodiment of the present invention. It is a figure which shows the structure of an energy saving mode table. It is a block diagram which shows the other structure of the image forming apparatus which concerns on embodiment of this invention.

Explanation of symbols

11 Ethernet Interface 12 Timer 13 Received Packet Counter 14 Reference Packet Number Setting Unit 15 Comparator 16 Energy Saving Mode Determination Unit 17 CPU
21 Clock generator 22 First power circuit 23 Second power circuit

Claims (11)

A network terminal device connected to the network,
Congestion degree detecting means for detecting the congestion degree of the network;
An energy saving mode setting means for setting at least one of an energy saving mode and a transition time to the energy saving mode based on the degree of congestion detected by the congestion degree detecting means;
A network terminal device comprising: The network terminal device according to claim 1, wherein the congestion level detection unit detects the congestion level by comparing the number of packets received from the network with a reference value. The congestion level detection means includes either a filter that extracts packets related to the congestion level from the network, or a filter that discards packets that are not related to the congestion level from the network. The network terminal apparatus according to claim 1, wherein a number is compared with the reference value. The network terminal device according to any one of claims 1 to 3, wherein the energy saving mode setting means sets an energy saving mode corresponding to the congestion degree from a plurality of energy saving modes. The network terminal device according to claim 2, wherein the congestion degree detection unit updates the reference value when the number of received packets exceeds the reference value. An energy saving mode setting method for a network terminal device connected to a network,
Detecting the degree of congestion of the network,
An energy saving mode setting method for a network terminal device, wherein at least one of an energy saving mode and a transition time to the energy saving mode is set based on the detected congestion degree. The network terminal device energy saving mode setting method according to claim 6, wherein the congestion degree is detected by comparing the number of packets received from the network with a reference value. In the detection of the congestion level, a filter that extracts a packet related to the congestion level from the network or a filter that discards a packet that is not related to the congestion level from the network is used. The method for setting an energy saving mode of a network terminal device according to claim 6 or 7, wherein a number is compared with the reference value. The energy saving mode setting method for a network terminal device according to any one of claims 6 to 8, wherein, in the setting of the energy saving mode, an energy saving mode corresponding to the degree of congestion is set from a plurality of energy saving modes. The energy saving mode setting method for a network terminal device according to claim 7, wherein in the detection of the degree of congestion, the reference value is updated when the number of received packets exceeds the reference value. An energy saving mode setting program for a network terminal device connected to a network,
In the computer included in the network terminal device,
Detecting the congestion level of the network,
An energy saving mode setting program for setting at least one of an energy saving mode and a transition time to the energy saving mode based on the detected congestion degree.

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