JP5734357B2 - COMMUNICATION DEVICE, COMMUNICATION DEVICE CONTROL METHOD, AND PROGRAM - Google Patents

Description

  The present invention relates to a communication device that communicates with another communication device via a network.

  Conventionally, it is known that a network interface card (Network Interface Card (hereinafter referred to as NIC)) is used for a communication device to communicate with other communication devices via a network such as a LAN. The NIC is a board that is connected to a communication device via, for example, a bus, and provides a function for connecting the communication device to another communication device via a network cable.

  Note that Ethernet (registered trademark) is known as a typical standard for a network. As communication standards in Ethernet (registered trademark), 10BASE-T having a data transfer rate of 10 Mbps and 100BASE-TX having a data transfer rate of 100 Mbps are known. In recent years, 1000BASE-T having a data transfer rate of 1000 Mbps is also known.

  In recent years, NICs that can communicate at a plurality of communication speeds such as 10 Mbps, 100 Mbps, and 1000 Mbps have been proposed (see, for example, Patent Document 1).

  In recent years, communication devices are required to reduce power consumption. In order to reduce power consumption consumed by the communication device, when a part of the device is not operating, a power saving mode in which the supply of power to the part is cut off may be set.

However, in the power saving mode, the communication device cannot return from the power saving mode to the normal power mode unless a factor for returning from the power saving mode can be detected.
Therefore, when the communication device operates in the power saving mode that reduces the power consumption of the device, the communication device supplies power to a part that detects a factor for returning from the power saving mode, and does not supply power to other parts. It is desirable to do so.

JP 2001-154663 A

  The NIC of Patent Document 1 can reduce the power consumption of the NIC by reducing the communication speed when the communication device operates in the power saving mode.

  However, when the communication apparatus operates in the power saving mode, it is desirable not to supply power to other parts except for the part that detects the factor for returning from the power saving mode. One NIC is not such a configuration.

  Specifically, in the NIC of Patent Document 1, in the power saving mode, power is supplied to other parts except a part for detecting a factor for returning from the power saving mode.

  The present invention has been made in view of the above problems, and it is an object of the present invention to provide a communication device that reduces the communication speed for communicating with other communication devices before shifting to the power saving mode. It is another object of the present invention to provide a communication apparatus that realizes power saving by cutting off the power supply to a portion that gives an instruction to reduce the communication speed in the power saving mode.

In order to achieve the above object, the image forming apparatus of the present invention controls the transfer of image data to an operation unit that receives an operation from an operator and a printing unit that prints an image on a sheet, and enters an energy saving mode. Main control means for determining whether or not the transition condition of the above is satisfied, communication control means for communicating with an external device via a network at any one of a plurality of communication speeds, and supplying power to the main control means Power control means for controlling, in the power saving mode, the power supply to the main control means is stopped, and the power saving mode is determined by an operator's operation from the operating means and a request via the network. an image forming apparatus to return from, when the image forming apparatus shifts to the power saving mode, the communication control unit, a communication speed based on a signal from the main control unit to the low speed The power control means receives a signal for returning from the power saving mode from the operation means and a signal for returning from the power saving mode from the communication control means, and receives either of them. In this case, the start of power supply to the main control means is controlled, and the communication control means performs processing for increasing the communication speed based on a signal from the main control means that has received power supply. To do.

  ADVANTAGE OF THE INVENTION According to this invention, the communication apparatus which makes the communication speed for communicating with another communication apparatus low can be provided before shifting to a power saving mode. Furthermore, according to the present invention, it is possible to provide a communication device that realizes power saving by cutting off the power supply to the portion that gives an instruction to reduce the communication speed in the power saving mode.

1 is a block diagram illustrating a configuration of a printing apparatus 100 according to a first embodiment. 3 is a flowchart for explaining the operation of the printing apparatus 100 according to the first embodiment. It is a block diagram which shows the structure of the printing apparatus 100 of 2nd Embodiment. 10 is a flowchart for explaining the operation of the printing apparatus 100 according to the second embodiment.

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

<First Embodiment>
FIG. 1 is a block diagram illustrating a configuration of a printing apparatus 100 according to the first embodiment.
In FIG. 1, a printing apparatus 100 communicates with another communication apparatus via a printing unit 101 that prints an image on a sheet, a control unit 102 that controls the entire printing apparatus 100, and a LAN (Local Area Network). A LAN control unit 103 is included. In addition, the printing apparatus 100 includes an operation unit 104 that allows an operator of the printing apparatus to input various information for operating the printing apparatus 100, and a power supply unit 105 that supplies power to each unit of the printing apparatus 100. The printing apparatus 100 further includes an internal bus 106 for transmitting and receiving data between the printing unit 101, the control unit 102, the LAN control unit 103, and the operation unit 104.
Hereinafter, each part which comprises the printing apparatus 100 is demonstrated in detail.

(LAN control unit 103)
The LAN control unit 103 can communicate with another communication device 112 via the switching hub 113. The LAN control unit 103 according to the first embodiment can communicate at three speeds of 10 Mbps, 100 Mbps, and 1000 Mbps.

  Here, the switching hub 113 is a network relay device, analyzes the data sent from the printing apparatus 100, detects the destination, and transmits the data only to the destination terminal (for example, the communication apparatus 112). Can be. The switching hub 113 can also analyze the data sent from the communication device 112 to detect the destination and transmit the data only to the destination terminal (for example, the printing device 100). Since the switching hub 113 temporarily stores data for analyzing the destination, it is possible to connect networks having different speeds. For example, when the communication device 112 is a device that can communicate only at a communication speed of 1000 Mbps, the switching hub 113 can enable the printing apparatus 100 to communicate at any communication speed of 10 Mbps, 100 Mbps, and 1000 Mbps. However, the LAN control unit 103 is normally set to perform communication using the highest communication speed at which both the communication destination apparatus and the printing apparatus 100 can communicate. For example, when the maximum speed at which the communication device 112 can communicate is 1000 Mbps, the communication apparatus 112 is set to communicate at 1000 Mbps. At this time, the LAN control unit 103 is set to communicate at 1000 Mbps by receiving information indicating that the maximum communicable speed is 1000 Mbps from the communication device 112.

  Further, the LAN control unit 103 receives various data other than the print data from other communication devices such as the communication device 112. For example, a status request for inquiring about the operation state (power mode, print data processing status, etc.) of the printing apparatus 100 may be received from another communication apparatus. When the LAN control unit 103 receives various data including a status request and print data, the LAN control unit 103 transfers the data to the control unit 102 via the internal bus 106.

(Control unit 102)
The control unit 102 is for controlling the entire printing apparatus 100, and controls each unit by transmitting commands to the printing unit 101, the LAN control unit 103, and the operation unit 104 via the internal bus 106.

  Further, the control unit 102 receives print data transmitted from the communication device 112 or the like via the LAN control unit 103 and analyzes the received print data. Then, the control unit 102 analyzes the print data, converts the print data into image data that can be printed by the print unit 101, and transfers the image data to the print unit 101. On the other hand, if the data received from the communication device 112 or the like via the LAN control unit 103 is a status request, the control unit 102 transfers information regarding the operation state of each unit of the printing apparatus 100 to the LAN control unit 103. Then, the LAN control unit 103 transmits information related to the operation state of the printing apparatus 100 to the communication apparatus that requested the status as a destination. It is assumed that the control unit 102 has a RAM for holding information regarding the operation state of each unit of the printing apparatus 100.

(Printer 101)
The printing unit 101 executes printing processing based on the image data received from the control unit 102. Various methods can be applied as a method for the printing unit 101 to perform the printing process. For example, an electrophotographic method can be applied in which a toner image based on image data is formed on a photosensitive drum and the toner image formed on the photosensitive drum is transferred to a sheet to form an image. Further, for example, an ink jet system that forms an image on a sheet by ejecting ink droplets onto the sheet based on image data can be applied. It is assumed that a sheet to be printed by the printing unit 101 is fed from a paper cassette (not shown) and supplied to the printing unit 101.

(Power supply unit 105)
The power supply unit 105 supplies power to each unit (the printing unit 101, the control unit 102, the LAN control unit 103, and the operation unit 104) of the printing apparatus 100. The power supply unit 105 receives a power cutoff signal 107 from the control unit 102, a power supply signal 108 from the LAN control unit 103, and a power supply signal 109 from the operation unit 104.

  The power supply unit 105 supplies power to each unit of the printing apparatus 100 via two power supply paths. The power supply path A <b> 110 is a path for supplying power to the printing unit 101 and the control unit 102. When the control unit 102 shifts the printing apparatus 100 to a power saving mode, which will be described later, the power supply path A110 is supplied to the printing unit 101 and the control unit 102 by inputting the power cutoff signal 107 to the power supply unit 105. Shut off.

  On the other hand, the power supply path B111 is a path for supplying power to the LAN control unit 103 and the operation unit 104. Power supply from the power supply path B111 to the LAN control unit 103 and the operation unit 104 is also performed in the power saving mode.

  When the power supply unit 105 receives the power supply signal 108 from the LAN control unit 103 in the power saving mode, the power supply unit 105 resumes power supply to the printing unit 101 and the control unit 102 via the power supply path A110. Cancel the power mode.

  In addition, when the power supply unit 105 receives the power supply signal 109 from the operation unit 104 in the power saving mode, the power supply unit 105 resumes power supply to the printing unit 101 and the control unit 102 via the power supply path A110 to save power. Cancel the mode.

(Operation unit 104)
The operation unit 104 is for inputting an instruction by an operator for setting the operation of the printing apparatus 100. The operation unit 104 outputs a power supply signal 109 to the power supply unit 105 when an instruction is input by the operator while the printing apparatus 100 is in the power saving mode. When the power supply signal 109 is input to the power supply unit 105 in the power saving mode (the mode in which power supply to the printing unit 101 and the control unit 102 is cut off), the printing unit 101 and the control unit 102 via the power supply path A110 are input. Restart the power supply to.

  Next, the operation of the printing apparatus 100 will be described with reference to FIG.

  The flowchart in FIG. 2 shows operations performed when the control unit 102 executes a control program stored in a ROM (not shown) included in the control unit 102. However, steps S209 to S210 are processes executed when power supply to the control unit 102 is interrupted. The operations in steps S209 to S210 are executed by the LAN control unit 103 or the operation unit 104.

  The printing apparatus 100 starts operating by supplying power from an external commercial power supply (not shown) to the power supply unit 105 when a power switch (not shown) of the printing apparatus 100 is turned on. The power supply unit 105 supplies power to each unit (the printing unit 101, the LAN control unit 103, and the operation unit 104) via both the power supply path A110 and the power supply path B111 after the power switch is turned on. To do.

  The control unit 102 that has received power supply from the power supply unit 105 via the power supply path A 110 sends an initialization command for causing each unit of the printing apparatus 100 to execute an initialization operation via the internal bus 106 in step S200. To send. Each unit (the printing unit 101, the LAN control unit 103, and the operation unit 104) that receives the initialization command from the control unit 102 via the internal bus 106 executes an initialization operation.

  In step S201, the control unit 102 instructs the LAN control unit 103 via the internal bus 106 to set the communication speed of the LAN control unit 103 to a high speed. Here, since the LAN control unit 103 can communicate at three speeds of 10 Mbps, 100 Mbps, and 1000 Mbps, it is set to 1000 Mbps.

  In step S <b> 202, the control unit 102 starts counting using a timer provided in the control unit 102.

  In step S203, the control unit 102 determines whether the LAN control unit 103 has received data from an external device such as the communication device 112. If the data has been received, the control unit 102 proceeds to step S204; The process proceeds to S205.

  In step S <b> 204, the control unit 102 executes processing according to data received by the LAN control unit 103 from an external device with the communication device 112.

  Here, when print data is received from the communication device 112, the following processing is executed. First, the control unit 102 analyzes print data received via the LAN control unit 103 and converts the print data into image data that can be printed by the printing unit 101. Then, the control unit 102 transfers the image data to the printing unit 101. The printing unit 101 that has received the image data from the control unit 102 forms an image on a sheet based on the received image data.

  Further, when a status request is received from the communication device 112, the following processing is executed. First, the control unit 102 interprets the content requested by the status request received via the LAN control unit 103. If the content requested by the status request is transmission of information related to the operation state of the printing unit 101, the control unit 102 inquires of the printing unit 101 about the operation state of the printing unit 101. When receiving a response to the inquiry from the printing unit 101, the control unit 102 requests the LAN control unit 103 to transmit the received content to the communication device 112.

  Note that the control unit 102 performs control so that step S202 is executed again after executing the process of step S204.

  In step S205, the control unit 102 determines whether the operator of the printing apparatus 100 has input an instruction to the operation unit 104. If there is an input, the control unit 102 proceeds to step S206, otherwise proceeds to step S207.

  In step S <b> 206, the control unit 102 executes processing according to the content instructed to the operation unit 104 by the operator of the printing apparatus 100. Note that the control unit 102 performs control to execute step S202 again after executing the process of step S206.

  In step S207, the control unit 102 determines whether or not the count value by the counter started in step S202 exceeds a certain value. If the count value exceeds the certain value, the process proceeds to step S208, and if not, the process returns to step S202. The reason why the control unit 102 makes such a determination is to shift the printing apparatus 100 from the normal power mode to the power saving mode. The normal power mode is a mode in which power is supplied to each unit (the printing unit 101, the LAN control unit 103, and the operation unit 104) via both the power supply path A110 and the power supply path B111. On the other hand, the power saving mode is a mode in which power is supplied to the LAN control unit 103 and the operation unit 104 through the power supply path B111, but power is not supplied to the printing unit 101 and the control unit 102 through the power supply path A110. It is. When the printing apparatus 100 does not operate for a certain time, the power consumed by the printing apparatus 100 can be reduced by shifting from the normal power mode to the power saving mode. When the counter of the control unit 102 counts 1 per minute, for example, by setting the above-described constant value to 15, if the printing apparatus 100 does not operate for 15 minutes, the normal power mode is set. The operation mode is switched from the power saving mode to the power saving mode.

  In step S208, the control unit 102 sets the communication speed of the LAN control unit 103 to a low speed before shifting the printing apparatus 100 to the power saving mode. As described above, the LAN control unit 103 can communicate at three speeds of 10 Mbps, 100 Mbps, and 1000 Mbps. However, the LAN controller 103 consumes more power as the set communication speed is higher. In the normal power mode, the time required to receive data (for example, print data) from the communication device 112 is shortened when communication can be performed at high speed, and the speed can be increased. On the other hand, in the power saving mode, the amount of power consumed increases, which adversely affects power saving.

  Therefore, in step S208, the control unit 102 performs LAN control via the internal bus 106 so as to change the setting so that the communication speed of the LAN control unit 103 is changed from 1000 Mbps for the normal power mode to 100 Mbps for the power saving mode. The unit 103 is instructed. The LAN control unit 103 that has received the speed change instruction from the control unit 102 changes the communication speed from 1000 Mbps to 100 Mbps.

  Specifically, when the LAN control unit 103 receives an instruction to change the speed from 100 Mbps to the control unit 102, the LAN control unit 103 requests the switching hub 113 to disconnect the communication link at the current communication speed (1000 Mbps). . When determining that the communication link at 1000 Mbps with the switching hub 113 has been disconnected, the LAN control unit 103 requests the switching hub 113 to newly establish a communication link at 100 Mbps. Through the above operation, the communication speed between the LAN control unit 103 and the switching hub 113 is changed from 1000 Mbps to 100 Mbps.

  In step S <b> 209, the control unit 102 transmits a power cutoff signal 107 to the power source unit 105 in order to shift the printing apparatus 100 from the normal power mode to the power saving mode. The power supply unit 105 that has received the power cutoff signal 107 from the control unit 102 stops power supply to the printing unit 101 and the control unit 102 via the power supply path A110.

  Note that the printing apparatus 100 according to the present embodiment also cuts off the power supply to the control unit 102 that controls the entire printing apparatus 100 in order to reduce the power consumed in the power saving mode. Furthermore, the printing apparatus 100 of the present embodiment reduces power consumption by reducing the communication speed of the LAN control unit 103 in the power saving mode. As described above, in order to achieve both the reduction of the power consumption of the control unit 102 and the reduction of the power consumption of the LAN control unit 103, the control unit 102 changes the communication speed of the LAN control unit 103 in step S208, In step S209, the power cutoff signal 107 is transmitted. For example, even if step S209 is executed before step S208, the power supply to the control unit 102 is interrupted in step S209, so that step S208 cannot be executed. According to this embodiment, it is possible to achieve both a reduction in power consumption of the control unit 102 and a reduction in power consumption of the LAN control unit 103 in the power saving mode.

  After the printing apparatus 100 shifts to the power saving mode, it is determined whether or not the conditions for returning from the power saving mode to the normal power mode are satisfied.

  Specifically, in step S209, the LAN control unit 103 proceeds to step S210 if data is received from an external device such as the communication device 112, and otherwise proceeds to step S211.

  In step S211, the LAN control unit 103 proceeds to step S210 when the operator of the printing apparatus 100 inputs an instruction to the operation unit 104, and proceeds to step S209 otherwise.

  In step S <b> 210, the LAN control unit 103 or the operation unit 104 transmits the power supply signal 108 or the power supply signal 109 to the power supply unit 105. Receiving the power supply signal 108 or the power supply signal 109, the power supply unit 105 resumes the power supply to the printing unit 101 and the control unit 102 via the power supply path A110 and ends this flow. When this flow is finished, this flow is newly started. Specifically, after the power request to the control unit 102 is resumed in step S210, each process after step S200 is executed again. Specifically, the control unit 102 returns the communication speed set to the low speed (100 Mbps) in the power saving mode to the high speed (1000 Mbps) again in response to the return to the normal power mode (S201). Specifically, when the LAN control unit 103 receives an instruction to change the speed from the control unit 102 to 1000 Mbps, the LAN control unit 103 requests the switching hub 113 to disconnect the communication link at the current communication speed (100 Mbps). . When determining that the communication link at 100 Mbps with the switching hub 113 has been disconnected, the LAN control unit 103 requests the switching hub 113 to newly establish a communication link at 1000 Mbps. Through the above operation, the communication speed between the LAN control unit 103 and the switching hub 113 is changed from 100 Mbps to 1000 Mbps.

  As described above, in this embodiment, when it is determined to shift from the normal power mode to the power saving mode, the control unit 102 instructs the LAN control unit 103 to decrease the communication speed. Further, the power supply unit 105 cuts off the power supply to the control unit 102 after the control unit 102 gives an instruction.

  As a result, in the power saving mode, the communication speed for communicating with other communication devices is lowered before shifting to the power saving mode. Furthermore, in the power saving mode, it is possible to realize power saving by cutting off the power supply to the part that gives an instruction to reduce the communication speed.

Second Embodiment
FIG. 3 is a block diagram illustrating a configuration of the printing apparatus 100 according to the second embodiment.

  The printing apparatus 100 according to the second embodiment is different from the printing apparatus 100 according to the first embodiment in that a clock supply unit 301 is newly added. Other parts except the clock supply unit 301 are the same as those of the printing apparatus 100 according to the first embodiment, and thus description thereof is omitted.

(Clock supply unit 301)
The clock supply unit 301 supplies an operation clock for operating the control unit 102. Based on the clock frequency instruction signal 302 received from the control unit 102, the clock supply unit 301 supplies either the first clock signal having a high frequency or the second clock signal having a low frequency as the clock signal 303 to the control unit 102. To do. Note that the control unit 102 consumes more power when the first clock signal is supplied than when the second clock signal is supplied.

  Next, the operation of the printing apparatus 100 will be described with reference to FIG.

  Note that the flowchart in FIG. 4 illustrates operations performed when the control unit 102 executes a control program stored in a ROM (not shown) included in the control unit 102. However, steps S417 to S419 are processes executed when power supply to the control unit 102 is interrupted. The operations in steps S417 to S419 are executed by the LAN control unit 103 or the operation unit 104.

  The printing apparatus 100 starts operating by supplying power from an external commercial power supply (not shown) to the power supply unit 105 when a power switch (not shown) of the printing apparatus 100 is turned on. The power supply unit 105 supplies power to each unit (the printing unit 101, the LAN control unit 103, and the operation unit 104) via both the power supply path A110 and the power supply path B111 after the power switch is turned on. To do.

  The control unit 102 that has received power supply from the power supply unit 105 via the power supply path A 110 transmits an initialization command for causing each unit of the printing apparatus 100 to execute an initialization operation via the internal bus 106 in step S400. To send. Each unit (the printing unit 101, the LAN control unit 103, and the operation unit 104) that receives the initialization command from the control unit 102 via the internal bus 106 executes an initialization operation. Note that the clock supply unit 301 supplies the first clock signal having a high frequency to the control unit 102 in the initialized state.

  In step S401, the control unit 102 instructs the LAN control unit 103 via the internal bus 106 to set the communication speed of the LAN control unit 103 to a high speed. Here, since the LAN control unit 103 can communicate at three speeds of 10 Mbps, 100 Mbps, and 1000 Mbps, it is set to 1000 Mbps.

  In step S <b> 402, the control unit 102 starts counting by a timer provided in the control unit 102.

In step S403, the control unit 102 determines whether the LAN control unit 103 has received data from an external device such as the communication device 112. If the data has been received, the control unit 102 proceeds to step S404; Proceed to S405.
In step S <b> 404, the control unit 102 executes processing according to data received by the LAN control unit 103 from an external device with the communication device 112.

  Here, when print data is received from the communication device 112, the following processing is executed. First, the control unit 102 analyzes print data received via the LAN control unit 103 and converts the print data into image data that can be printed by the printing unit 101. Then, the control unit 102 transfers the image data to the printing unit 101. The printing unit 101 that has received the image data from the control unit 102 forms an image on a sheet based on the received image data.

  Further, when a status request is received from the communication device 112, the following processing is executed. First, the control unit 102 interprets the content requested by the status request received via the LAN control unit 103. If the content requested by the status request is transmission of information related to the operation state of the printing unit 101, the control unit 102 inquires of the printing unit 101 about the operation state of the printing unit 101. When receiving a response to the inquiry from the printing unit 101, the control unit 102 requests the LAN control unit 103 to transmit the received content to the communication device 112.

  Note that the control unit 102 performs control so that step S402 is executed again after executing the process of step S404.

  In step S405, the control unit 102 determines whether the operator of the printing apparatus 100 has input an instruction to the operation unit 104. If there is an input, the control unit 102 proceeds to step S406, and if not, the process proceeds to step S407.

  In step S <b> 406, the control unit 102 executes processing according to the content instructed to the operation unit 104 by the operator of the printing apparatus 100. Note that the control unit 102 performs control so that step S402 is executed again after executing the process of step S406.

  In step S407, the control unit 102 determines whether or not the count value by the counter started in step S202 exceeds a certain value. If the count value exceeds the certain value, the process proceeds to step S408. The reason why the control unit 102 makes such a determination is to shift the printing apparatus 100 from the normal power mode to the power saving mode 1. Here, the normal power mode means that power is supplied to each unit via both the power supply path A110 and the power supply path B111, and the clock supply unit 301 supplies the first clock signal having a high frequency to the control unit 102. It is a mode to do. On the other hand, in the power saving mode 1, power is supplied to each unit through both the power supply path A110 and the power supply path B111, and the clock supply unit 301 supplies the second clock signal having a low frequency to the control unit 102. Mode. Note that the units referred to here are the printing unit 101, the LAN control unit 103, and the operation unit 104. When the printing apparatus 100 does not operate for a certain period of time, the power consumed by the printing apparatus 100 can be reduced by shifting from the normal power mode to the power saving mode 1. In the power saving mode 1, the operating frequency of the clock signal supplied to the control unit 102 is lower than that in the normal power mode, but the power supply to the control unit 102 is not cut off. When the counter of the control unit 102 counts 1 per minute, for example, by setting the above-described constant value to 15, if the printing apparatus 100 does not operate for 15 minutes, the normal power mode is set. Therefore, the operation mode is switched from power saving mode 1 to power saving mode 1.

  In step S408, the control unit 102 sets the communication speed of the LAN control unit 103 to the medium speed (100 Mbps) prior to shifting the printing apparatus 100 to the power saving mode. As described above, the LAN control unit 103 can communicate at three speeds of 10 Mbps, 100 Mbps, and 1000 Mbps. However, the LAN controller 103 consumes more power as the set communication speed is higher. In the normal power mode, the time required to receive data (for example, print data) from the communication device 112 is shortened when communication can be performed at high speed, and the speed can be increased. On the other hand, in the power saving mode, the amount of power consumed increases, which adversely affects power saving.

  Therefore, in step S408, the control unit 102 changes the setting so that the communication speed of the LAN control unit 103 is changed from 1000 Mbps for the normal power mode to 100 Mbps for the power saving mode 1 via the internal bus 106. The control unit 103 is instructed. The LAN control unit 103 that has received the speed change instruction from the control unit 102 changes the communication speed from 1000 Mbps to 100 Mbps.

  Specifically, when the LAN control unit 103 receives an instruction to change the speed from 100 Mbps to the control unit 102, the LAN control unit 103 requests the switching hub 113 to disconnect the communication link at the current communication speed (1000 Mbps). . When determining that the communication link at 1000 Mbps with the switching hub 113 has been disconnected, the LAN control unit 103 requests the switching hub 113 to newly establish a communication link at 100 Mbps. Through the above operation, the communication speed between the LAN control unit 103 and the switching hub 113 is changed from 1000 Mbps to 100 Mbps.

  In step S409, the control unit 102 transmits a clock frequency instruction signal 302 to the clock supply unit 301 in order to change the operation clock of the control unit 102 to a low frequency. When receiving the clock frequency instruction signal 302, the clock supply unit 301 changes the clock signal 303 supplied to the control unit 102 from the first clock signal having a high frequency to the second clock signal having a low frequency. With this change, the amount of power consumed by the control unit 102 is reduced.

  In step S410, the control unit 102 determines whether the LAN control unit 103 has received data from an external device such as the communication device 112. If the data has been received, the control unit 102 proceeds to step S411; The process proceeds to S412.

  In step S <b> 411, the control unit 102 executes processing according to data received by the LAN control unit 103 from an external device with the communication device 112.

  Here, when print data is received from the communication device 112, the following processing is executed. First, the control unit 102 analyzes print data received via the LAN control unit 103 and converts the print data into image data that can be printed by the printing unit 101. Then, the control unit 102 transfers the image data to the printing unit 101. The printing unit 101 that has received the image data from the control unit 102 forms an image on a sheet based on the received image data.

  Further, when a status request is received from the communication device 112, the following processing is executed. First, the control unit 102 interprets the content requested by the status request received via the LAN control unit 103. If the content requested by the status request is transmission of information related to the operation state of the printing unit 101, the control unit 102 inquires of the printing unit 101 about the operation state of the printing unit 101. When receiving a response to the inquiry from the printing unit 101, the control unit 102 requests the LAN control unit 103 to transmit the received content to the communication device 112.

  Note that the control unit 102 performs control so that step S402 is executed again after executing the process of step S411.

  In step S412, the control unit 102 determines whether the operator of the printing apparatus 100 has input an instruction to the operation unit 104. If there is an input, the control unit 102 proceeds to step S413, and if not, the process proceeds to step S414.

  In step S <b> 413, the control unit 102 executes processing according to the content instructed to the operation unit 104 by the operator of the printing apparatus 100. Note that the control unit 102 performs control such that step S402 is executed again after executing the process of step S413.

  In step S414, the control unit 102 determines whether or not the count value by the counter started in step S402 exceeds a certain value. If the count value exceeds the certain value, the process proceeds to step S415, and if not, the process returns to step S410. The reason why the control unit 102 makes such a determination is to shift the printing apparatus 100 from the power saving mode 1 to the power saving mode 2. In the power saving mode 2, power is supplied to the LAN control unit 103 and the operation unit 104 through the power supply path B111, but power is supplied to the printing unit 101, the control unit 102, and the clock supply unit 301 through the power supply path A110. Is a mode that does not supply. When the printing apparatus 100 does not operate for a certain time, the power consumed by the printing apparatus 100 can be further reduced by shifting from the power saving mode 1 to the power saving mode 2. When the counter of the control unit 102 counts 1 per minute, for example, by setting the above-described constant value to 30, if the printing apparatus 100 does not operate for 30 minutes, the power saving mode 1 Therefore, the operation mode is switched from power saving mode 2 to power saving mode 2.

  In step S415, the control unit 102 sets the communication speed of the LAN control unit 103 to a low speed prior to shifting the printing apparatus 100 to the power saving mode 2. As described above, the LAN control unit 103 can communicate at three speeds of 10 Mbps, 100 Mbps, and 1000 Mbps. However, the LAN controller 103 consumes more power as the set communication speed is higher. In the power saving mode 1, the time required to receive data (for example, print data) from the communication device 112 is shortened when communication at medium speed is possible, and a certain speed increase can be achieved. On the other hand, in the power saving mode 2, the amount of power consumed increases, which adversely affects power saving.

  Therefore, in step S415, the control unit 102 changes the setting so that the communication speed of the LAN control unit 103 is changed from 100 Mbps for the power saving mode 1 to 10 Mbps for the power saving mode 2 via the internal bus 106. The control unit 103 is instructed. The LAN control unit 103 that has received the speed change instruction from the control unit 102 changes the communication speed from 100 Mbps to 10 Mbps.

  Specifically, when the LAN control unit 103 receives an instruction to change the speed from 10 Mbps to the control unit 102, the LAN control unit 103 requests the switching hub 113 to disconnect the communication link at the current communication speed (100 Mbps). . When the LAN control unit 103 determines that the communication link at 100 Mbps with the switching hub 113 has been disconnected, the LAN control unit 103 requests the switching hub 113 to newly establish a communication link at 10 Mbps. Through the above operation, the communication speed between the LAN control unit 103 and the switching hub 113 is changed from 100 Mbps to 10 Mbps.

  In step S <b> 416, the control unit 102 transmits a power cutoff signal 107 to the power source unit 105 in order to shift the printing apparatus 100 from the power saving mode 1 to the power saving mode 2. The power supply unit 105 that has received the power cutoff signal 107 from the control unit 102 stops power supply to the printing unit 101 and the control unit 102 via the power supply path A110.

  Note that the printing apparatus 100 of the present embodiment also cuts off the power supply to the control unit 102 that controls the entire printing apparatus 100 in order to further reduce the power consumed in the power saving mode 2 compared to the power saving mode 1. Is. Furthermore, the printing apparatus 100 according to the present embodiment reduces power consumption by reducing the communication speed of the LAN control unit 103 in the power saving mode 1 and the power saving mode 2 from the normal power mode. As described above, in order to achieve both the reduction of the power consumption of the control unit 102 and the reduction of the power consumption of the LAN control unit 103, the control unit 102 changes the communication speed of the LAN control unit 103 in step S415, In S416, the power cutoff signal 107 is transmitted. For example, even if step S416 is to be executed before step S415, the power supply to the control unit 102 is interrupted in step S416, so that step S415 cannot be executed. According to this embodiment, it is possible to achieve both a reduction in power consumption of the control unit 102 and a reduction in power consumption of the LAN control unit 103 in the power saving mode.

  After the printing apparatus 100 shifts to the power saving mode, it is determined whether or not the conditions for returning from the power saving mode to the normal power mode are satisfied.

  Specifically, in step S417, the LAN control unit 103 proceeds to step S419 if data is received from an external device such as the communication device 112, and otherwise proceeds to step S418.

  In step S418, the LAN control unit 103 proceeds to step S419 when the operator of the printing apparatus 100 inputs an instruction to the operation unit 104, and proceeds to step S417 otherwise.

  In step S419, the LAN control unit 103 or the operation unit 104 transmits the power supply signal 108 or the power supply signal 109 to the power supply unit 105. Receiving the power supply signal 108 or the power supply signal 109, the power supply unit 105 resumes the power supply to the printing unit 101 and the control unit 102 via the power supply path A110 and ends this flow. When this flow is finished, this flow is newly started. Specifically, after the power request to the control unit 102 is resumed in step S419, each process after step S400 is executed again. Specifically, the control unit 102 returns the communication speed set to the low speed (10 Mbps) in the power saving mode to the high speed (1000 Mbps) again in response to the return to the normal power mode (S201). Specifically, when the LAN control unit 103 receives an instruction from the control unit 102 to change the speed to 1000 Mbps, the LAN control unit 103 requests the switching hub 113 to disconnect the communication link at the current communication speed (10 Mbps). . When determining that the communication link at 10 Mbps with the switching hub 113 has been disconnected, the LAN control unit 103 requests the switching hub 113 to newly establish a communication link at 1000 Mbps. Through the above operation, the communication speed between the LAN control unit 103 and the switching hub 113 is changed from 10 Mbps to 1000 Mbps.

  As described above, in this embodiment, when it is determined to shift from the normal power mode to the power saving mode 1, the control unit 102 instructs the LAN control unit 103 to decrease the communication speed. Further, the control unit 102 outputs an instruction to lower the frequency of the clock signal for operating the control unit 102 to the clock supply unit 301. Thereby, in the power saving mode 1, it is possible to reduce the power consumption as compared with the normal power mode while maintaining the power supply to the control unit 102.

  In the present embodiment, when it is determined that the power saving mode 1 is to be shifted to the power saving mode 2, the control unit 102 instructs the LAN control unit 103 to further reduce the communication speed. Furthermore, the power supply unit 105 cuts off the power supply to the control unit 102 after the control unit 102 gives an instruction.

  Thereby, in the power saving mode 2, the communication speed for communicating with other communication devices is lowered before the shift to the power saving mode 2. Furthermore, in the power saving mode 2, it is possible to realize power saving by cutting off the power supply to the portion that gives an instruction to reduce the communication speed.

  The object of the present invention can also be achieved by supplying a storage medium storing software program codes for realizing the functions of the above-described embodiments to a system or apparatus. In this case, the function of the above-described embodiment is realized by reading and executing the program code stored in the storage medium by the computer of the system or apparatus. In this case, the program code itself read from the storage medium realizes the functions of the above-described embodiments, and the storage medium storing the program code constitutes the present invention.

DESCRIPTION OF SYMBOLS 100 Printing apparatus 101 Printing part 102 Control part 103 LAN control part 104 Operation part 105 Power supply part 106 Internal bus 110 Power supply path A
111 Power supply path B
112 Communication device 113 Switching hub

Claims (12)

An operation unit that receives an operation from an operator, a main control unit that controls transfer of image data to a printing unit that prints an image on a sheet, and determines whether or not a condition for shifting to a power saving mode is satisfied; Communication control means for communicating with an external device via a network at any one of a plurality of communication speeds, and power control means for controlling power supply to the main control means, and in the power saving mode An image forming apparatus that stops power supply to the main control unit and returns from the power saving mode in response to an operation of an operator from the operation unit and a request via the network ,
When the image forming apparatus shifts to the power saving mode, the communication control unit performs a process of reducing the communication speed based on a signal from the main control unit,
The power control means receives a signal for returning from the power saving mode from the operation means and a signal for returning from the power saving mode from the communication control means. The start of power supply to the control means is controlled, and the communication control means performs processing for increasing the communication speed based on a signal from the main control means that has received power supply.
An image forming apparatus . The power control means controls stop of power supply to the main control means based on a signal from the main control means determined to satisfy the condition for transition to the power saving mode. The image forming apparatus described in 1 . The signal sent from the main control means to the communication control means when shifting to the power saving mode or returning from the power saving mode is a signal for specifying the communication speed of the communication control means. The image forming apparatus according to claim 1, wherein the image forming apparatus is an image forming apparatus . When the communication control unit receives a print request via the network during the power saving mode, the communication control unit transmits a signal for returning from the power saving mode to the power control unit, and supplies power after the signal is transmitted. 4. The image forming apparatus according to claim 1, wherein the main control unit that has received the control controls transfer of image data to the printing unit . 5. When the communication control unit receives a status request via the network during the power saving mode, the communication control unit transmits a signal for returning from the power saving mode to the power control unit, and supplies power after the signal is transmitted. 5. The image forming apparatus according to claim 1, wherein the main control unit receives the information about the operation state of the image forming apparatus and transfers the information to the communication control unit . In the power saving mode, power supply to the printing unit is stopped,
The power control unit controls start of power supply to the printing unit based on a signal for returning from the power saving mode from the operation unit and the communication control unit. The image forming apparatus according to claim 5 . The main control means determines that a condition for shifting to the power saving mode is satisfied when a predetermined time has elapsed without receiving a request from the external device via the network. The image forming apparatus according to any one of the above . 8. The main control unit according to claim 1, wherein the main control unit determines that the condition for transition to the power saving mode is satisfied when a predetermined time elapses without an operator's operation from the operation unit. 2. The image forming apparatus according to item 1 . 9. The process of reducing the communication speed is a process of requesting the switching hub to establish a communication link at a low communication speed instructed by the main control means. The image forming apparatus according to claim 1. The process for increasing the communication speed is a process for requesting the switching hub to establish a communication link at a high communication speed instructed by the main control means. The image forming apparatus according to claim 1. An operation unit that receives an operation from an operator, a main control unit that controls transfer of image data to a printing unit that prints an image on a sheet, and determines whether or not a condition for shifting to a power saving mode is satisfied; Communication control means for communicating with an external device via a network at any one of a plurality of communication speeds, and power control means for controlling power supply to the main control means, and in the power saving mode An image forming apparatus control method for stopping power supply to the main control unit and returning from the power saving mode in response to an operator operation from the operation unit and a request via the network,
The communication control means performs a process of reducing the communication speed based on a signal from the main control means when the image forming apparatus shifts to the power saving mode,
The power control means receives a signal for returning from the power saving mode from the operation means and a signal for returning from the power saving mode from the communication control means. Control the start of power supply to the control means,
The communication control means performs processing for increasing the communication speed based on a signal from the main control means that has received power supply.
A control method characterized by that . The program for functioning as each means of the image forming apparatus of any one of Claims 1 thru | or 10 .

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