JP4192509B2 - Electronic device, power management method and network control device - Google Patents

Description

[0001]
BACKGROUND OF THE INVENTION
The present invention relates to an electronic device, a power management method, and a network control apparatus that can receive data via a network.
[0002]
[Prior art]
In recent years, electronic devices compatible with networks have become widespread with the development of broadband environments. Such an electronic device cannot be accessed when the power is turned off.
[0003]
Therefore, in order to always use such an electronic device connected to the network, it is necessary to always supply power.
[0004]
[Problems to be solved by the invention]
If electric power is always supplied to an electronic device that is not normally used, power consumption increases, causing adverse effects such as an increase in the amount of heat generated by the electronic device and enlargement of the battery.
[0005]
SUMMARY An advantage of some aspects of the invention is that it provides an electronic device, a power management method, and a network control device that always access a network with low power consumption.
[0006]
[Means for Solving the Problems]
In order to achieve the above-described object, an electronic device according to the present invention includes a port number table in which a port number and a block to which a port number is assigned are stored correspondingly, and data supplied via a network. Receiving means for receiving the included IP packet, and block identification means for searching the port number table using the port number in the IP packet received by the receiving means as a key, and identifying the block of the data transmission destination based on the search result And a list generation means for generating a list of data transmission destination blocks for supplying power from the data of the IP packet when the data transmission destination block is not an internal block capable of controlling data processing, and data Based on the list generated by the list generation means when the destination block is not an internal block In addition to supplying power to the data transmission destination block, in response to a power-off request output from the data transmission destination block when the execution processing in the data transmission destination block ends, the data transmission destination block And an electric power control block for stopping power supply to the block.
[0007]
The power management method according to the present invention includes a reception step of receiving an IP packet including data supplied via a network, a port number and a port using the port number in the IP packet received by the reception step as a key. A block identification step for searching a port number table in which a block to which a number is assigned is stored correspondingly and identifying a data transmission destination block based on a result of the search, and a data transmission destination block is data A list generation step for generating a list of data transmission destination blocks for supplying power from IP packet data, and the data transmission destination block is not the internal block Based on the list generated in the list generation step. When the power supply step for supplying power to the data and the execution processing in the data transmission destination block are completed, the data transmission destination block is sent to the data transmission destination block in response to the power-off request output from the data transmission destination block. And a power supply stopping step for stopping the power supply.
[0008]
Furthermore, the network control device according to the present invention receives an IP packet including a port number table in which port numbers and blocks to which port numbers are assigned are stored correspondingly, and data supplied via the network. A receiving means, a block identification means for searching a port number table using the port number in the IP packet received by the receiving means as a key, and identifying a data transmission destination block based on the search result, and a data transmission destination If the block is not an internal block capable of controlling data processing, a list generating means for generating a list of data transmission destination blocks for supplying power from the IP packet data, and a data transmission destination block If it is not an internal block, data transmission based on the list generated by the list generation means In addition to supplying power to the previous block, in response to a power-off request output from the data destination block when the execution processing in the data destination block is completed, the data is sent to the data destination block. And a power supply control block for stopping power supply.
[0009]
DETAILED DESCRIPTION OF THE INVENTION
The network control block 1 to which the present invention is applied will be described below. The network control block 1 is incorporated in an electronic device 2 such as a television, a DVD (Digital Versatile Disk), a video deck, an audio device, a portable terminal, and a personal computer. These electronic devices 2 are connected to a network via a network control block as shown in FIG.
[0010]
The network control block 1 is always supplied with power, receives a packet transmitted from the network 3, and determines whether to supply power to the block in the electronic device based on this packet. The result is output to the power management block 4 described later.
[0011]
In this specification, a block means a set of hardware, software, and hardware incorporating software for realizing a certain function. For example, a video recording reservation block for executing a recording reservation for a video deck corresponds to a set of software for performing recording reservation, a memory for storing reservation contents, and the like. The supply of power to the block particularly means supply of power to the hardware constituting the block.
[0012]
FIG. 2 is a block diagram showing an internal configuration of the network control block 1. The network control block 1 includes a physical / data link processing block 11 for processing data in the physical layer and the data link layer, a TCP / IP processing block 12 for processing data in the transport layer and the internetwork layer, a port number and a block In the port number table 13 that stores the relationship between the port number, the table reference block 14 that searches for a block based on the port number, the selector 15 that sets a path for the block identified by the port number, and the network control block A plurality of internal blocks 16 to be processed.
[0013]
The physical / data link processing block 11 is connected to the network 3, processes packets based on protocols in the physical layer and the data link layer, and exchanges packets between the network 3 and the TCP / IP processing block 12. Establish a connection to do
[0014]
The TCP / IP processing block 12 analyzes the packet passed from the physical / data link processing block 11 and reads the port number recorded in the packet and the user data recorded in the packet. Then, the TCP / IP processing block 12 outputs the port number to the table reference block 14 and outputs user data to the selector 15.
[0015]
The table reference block 14 searches the port number table 13 using the port number transmitted from the TCP / IP processing block 12 as a key, and lists block names corresponding to the port number. The table reference block 14 outputs the listed block names to the power management block 4 and the selector 15.
[0016]
The selector 15 inputs a packet from the TCP / IP processing block 12 and inputs a block name from the table processing block 14. Then, a path is generated based on the block name, and a packet is output according to the path route.
[0017]
The internal block 16 is a block that can be processed inside the network control block 1, and corresponds to, for example, an application that executes processing corresponding to a ping (Packet Internet Groper) command.
[0018]
The power management block 4 inputs a list of external blocks 5 that supply power from the table reference block 14 and supplies power to the external blocks 5 according to the list. Further, the power management block 4 inputs a power cut request from each processing block, and cuts the power of the processing block according to the power cut request.
[0019]
The external block 5 is a block for performing various processes in the electronic device 2. The external block processing includes, for example, video deck recording reservation processing. In the video deck recording reservation processing, power is supplied to the memory of the video deck, the recording reservation contents are rewritten, and the information is stored. The external block 5 exists outside the network control block, and the processing of the external block 5 cannot be executed inside the network control block. Therefore, when executing the processing of the external block 5, it may be necessary to supply power to the hardware in the block. When power supply is necessary, the power supply control block 4 recognizes it, Power is supplied to the hardware of the external block 5. The external block 5 also has a function of requesting power cut. When a series of processes in the block is completed, the external block 5 outputs a power cut request to the power control block and supplies power. Cut off.
[0020]
Next, the operation of the network control block 1 to which the present invention is applied will be described. FIG. 3 is a flowchart showing the operation of the network control block 1. The operation of the network control block 1 according to the present invention starts when a packet is received from the network 3. When a packet is received from the network 3 (step S 1), the physical / data link processing block 11 establishes a connection for exchanging packets between the network 3 and the TCP / IP processing block 12. The TCP / IP processing block 12 reads the port number of the packet input from the physical / data link processing block 11 and outputs the read port number to the table reference block 14.
[0021]
The table reference block 14 searches the port number table 13 using the port number input from the TCP / IP processing block 12 as a key, and generates a list of blocks corresponding to the port number (step S2).
[0022]
When the block of the list generated in step S2 is only the internal block 16 (step S3; YES), the table reference block 14 outputs the list to the selector 15, activates the internal block 16 described in the list, and the list The output of the user data to the internal block 16 described in (1) is instructed. The internal block 16 is activated in response to an instruction from the selector 15, analyzes data supplied from the selector 15, and executes a predetermined process (step S4). The internal block 16 notifies the network control block 1 when the processing is completed (step S9).
[0023]
Further, when the external block 5 other than the internal block 16 is included in the list generated in step S2 (step S3; NO), the table reference block 14 outputs the list to the power management block 4 (step S5). The power management block 4 supplies power to the external block 5 listed in the list (step S6), and activates the external block 5.
[0024]
The external block 5 is activated by the supply of power, and executes predetermined processing according to the contents of the packet input from the selector 15 (step S7). When the external block 5 completes the predetermined process, the external block 5 notifies the power management block 4 of the completion of the process and requests to stop the power supply. In response to this request, the power management block 4 cuts off the power of the external block 5 (step S8). The power management block 4 outputs the block name of the block whose power has been cut off to the network control block 1 and notifies that the external block 5 has completed the processing (step S9).
[0025]
As described above, the network control block 1 is provided in the electronic device 2 according to the present invention. The network control block 1 is always supplied with power. When a packet from the network 3 is received, power is supplied to a necessary block according to the contents of the packet. Then, when the processing of the block receiving the power is completed, the supply of power is stopped.
[0026]
Therefore, the electronic device 2 only needs to start only the network control block 1 at all times, can save power consumption, reduce the calorific value of the electronic device 2, or reduce the size of the battery incorporated in the electronic device 2. Can be
[0027]
Next, operations of the network control block and the power supply control block 4 will be described by taking the video deck 2a as an example. The following examples are two examples of processing of a video recording reservation block and access by ICMP (Internet Control Message Protocol). The processing of the video recording reservation block is performed when processing of the external block 5 is requested. The processing for ICPM access corresponds to the operation when the processing of the internal block is requested.
[0028]
First, the operation of the network control block 1 when a video recording reservation process is requested will be described. FIG. 4 is a diagram showing a data flow in the video recording reservation process. As shown in FIG. 4, the video deck 2 a includes a network control block 1, a power management block 4, and a plurality of external blocks 5. Among these external blocks 5, there is a video recording reservation block 5a for executing a video recording reservation.
[0029]
The video recording reservation process starts when a recording request is transmitted from the network 3. Here, assuming that the network control block 1 of the video deck 2a has a unique IP address, a packet is directly transmitted from the network 3 to the network control block 1 as shown in FIG. When receiving the packet in which the video reservation request is described from the network 3 (step S11), the network control block 1 reads the port number of the received packet. The network control block 1 searches the port number table 13 based on the read port number, and lists a block corresponding to the port number of the packet, that is, the video recording reservation block 5a.
[0030]
Next, the network control block 1 checks whether or not the video recording reservation block 5a is an internal block processed inside the network control block 1. Since the video recording reservation block 5a is an external block that cannot be processed by the network control block 1, the network control block 1 notifies the power management block 4 of the video recording reservation block 5a and requests power supply to the video recording reservation block 5a. (Step S12).
[0031]
When the power management block 4 supplies power to the video recording reservation block 5a (step S13), the selector 15 outputs the recording reservation contents to the video recording reservation block 5a (step S14). The video recording reservation block 5a records the recording reservation information in the memory of the video deck 2a according to the contents of the packet supplied from the selector 15, and performs video recording reservation processing (step S15).
[0032]
When the video recording reservation process is completed, the video recording reservation block 5a notifies the network control block 1 of a message indicating that the video recording reservation process has been completed (step S16). In addition, the video recording reservation block 5a outputs a message indicating that the video recording reservation processing has been completed to the power management block 4, and requests the power supply to be cut off (step S17). When receiving the power supply disconnection request, the power management block 4 stops the power supply to the video recording reservation block 5a (step S18).
[0033]
The power management block 4 notifies the network control block 1 that the supply of power to the video recording reservation block 5a has been stopped (step S19). When the network control block 1 confirms the stop of the power supply to the video recording reservation block 5a and the end of the video recording reservation process, the network control block 1 generates a packet indicating the completion of the video recording reservation process, and on the network that requested the video recording reservation process. To the terminal (step S20). Thereby, the user who has requested the video recording reservation process can reliably know that the video recording reservation process has been completed.
[0034]
As described above, in the video deck 2a, the network control block 1 is always activated, and when a processing request is received for the external block, that is, the video recording reservation block 5a, power is supplied to the external block 5. Then, when the processing of the external block 5 is completed, the power supply to the external block 5 is stopped. Thereby, the power consumption consumed by the external block 5 can be saved.
[0035]
Next, the operation of the network control block 1 when the video deck 2a receives access by ICMP will be described. FIG. 6 is a diagram showing a data flow when receiving access by ICPM. If the network control block 1 of the video deck 2a has a unique IP address, a packet is directly transmitted from the network 3 to the network control block 1 as shown in FIG. The packet transmitted to the network control block is an ICPM packet in which a ping command is described (step S21).
[0036]
When receiving a packet from the network 3, the network control block 1 reads the port number of the packet. ICMP does not have a port number unlike TCP and UDP. Therefore, the network control block 1 recognizes that the received packet is an ICMP packet with reference to the protocol number of the IP header. When the network control block 1 recognizes that the received packet is an ICMP packet (step S22), the network control block 1 recognizes that this packet can be processed inside the network control block 1, and receives an ICMP message, that is, a ping echo request message. Read.
[0037]
When the network control block 1 reads the ping echo request message, it does not notify the power management block 5 and starts the ping application. The ping application generates a ping echo reply message and terminates the application.
[0038]
The ping application notifies the network control block of the end of processing, and the network control block stores the ping echo reply message generated by the ping application in an ICPM packet and returns it to the terminal that is the source of the ping command (step) S23).
[0039]
As described above, the video deck 2a always activates the network control block 1 and receives data from the network 3. At this time, when the user data from the network 3 is processing of the internal block 16 of the network control block 1, the network control block 1 activates the internal block 16 of the network control block 1 and executes predetermined processing. At this time, since a series of processing is executed only inside the network control block 1, it is not necessary to activate the external block 5, and the power consumed by the external block 5 can be saved.
[0040]
The network control block 1 has a port number table for associating a port number with a block name, and the block is identified by searching using the port number of the packet as a key. Processing is not required, and a block can be specified by simple processing.
[0041]
The network control block 1 according to the present invention is not limited to the above-described embodiment, and modifications and improvements within the scope including the gist of the present invention are included in the present invention. For example, in the above embodiment, the network control block 1 is provided in each electronic device 2, but this configuration is not necessarily required, and a LAN (Local Area Network) composed of a plurality of electronic devices 2 is not necessarily provided. One network control block 1 may be provided, and the power management block 4 of the plurality of electronic devices 2 may be controlled by the network control block 1.
[0042]
The network in the present embodiment refers to a closed network such as a LAN in addition to an external network spread over a wide area. For example, the network control device receives various commands from the electronic device 2 connected to the LAN, and executes the activation and processing of the blocks in response thereto.
[0043]
【The invention's effect】
In order to achieve the above-described object, an electronic apparatus according to the present invention includes one or more blocks that perform data processing, a receiving unit that receives data supplied via a network, and a receiving unit among the one or more blocks. Selecting a block for performing processing on the data received by the step, selecting a unit for transmitting the data received by the receiving unit to the selected block, and a power supply unit for supplying power to one or more blocks. When the receiving means, the selecting means and the power supply means are always supplied with power, and the data received by the receiving means is data given to the block whose power supply is stopped, By supplying power to the block, processing of the electronic device can be executed, and power consumption can be reduced.
[0044]
The power management method according to the present invention is a power management method for an electronic device capable of receiving data via a network, a receiving unit for receiving data transmitted via the network, and data transmitted via the network. Power is always supplied to the selection unit that transmits the data to the processing block in the electronic device that processes the data and the power supply unit that supplies power to the processing block in the electronic device. When the receiving unit receives data transmitted via the network, the selection unit selects a processing block for processing the received data, and when power is not supplied to the selected processing block, Since the power supply unit supplies power to the processing block, it is only necessary to supply power to the necessary processing block when it is needed. It is possible to reduce the force.
[0045]
The network control apparatus according to the present invention is characterized by comprising receiving means for receiving data from the network and identifying means for identifying a block necessary for processing the data. If the block name is notified to the means, power can be supplied to the block that processes data.
[Brief description of the drawings]
FIG. 1 is a diagram illustrating a configuration of a network to which an electronic device to which the present invention is applied is connected.
FIG. 2 is a diagram showing an internal configuration of an electronic apparatus to which the present invention is applied.
FIG. 3 is a diagram showing an operation of a network control block to which the present invention is applied.
FIG. 4 is a diagram showing a procedure when a video deck to which the present invention is applied executes a recording reservation process;
FIG. 5 is a diagram showing a flow of data on a network in a recording reservation process.
FIG. 6 is a diagram showing a procedure when a video deck to which the present invention is applied executes processing for a ping command.
FIG. 7 is a diagram showing a data flow on a network in access by ICMP.
[Explanation of symbols]
1 network control block, 2 electronic equipment, 3 external network, 4 power management block, 5 external block, 13 port number table, 14 table management block, 15 selector, 16 internal block

Claims (3)

A port number table in which a port number and a block to which the port number is assigned are stored correspondingly;
Receiving means for receiving an IP packet including data supplied via a network;
A block identifying means for searching the port number table using the port number in the IP packet received by the receiving means as a key, and identifying a block of a destination of the data based on the search result;
A list generating means for generating a list of blocks of the data transmission destination for supplying power from the data of the IP packet when the data transmission destination block is not an internal block capable of controlling data processing;
When the data transmission destination block is not an internal block, power is supplied to the data transmission destination block based on the list generated by the list generation means;
Power supply control for stopping power supply to the data transmission destination block in response to a power-off request output from the data transmission destination block when execution processing in the data transmission destination block is completed Block and
With electronic equipment. A receiving step of receiving an IP packet including data supplied via a network;
Using the port number in the IP packet received in the receiving step as a key, search the port number table in which the port number and the block to which the port number is assigned are stored correspondingly, and based on the search result A block identification step for identifying a block to which the data is transmitted;
A list generation step of generating a list of blocks of the data transmission destination for supplying power from the data of the IP packet when the data transmission destination block is not an internal block capable of controlling data processing;
A power supply step of supplying power to the data transmission destination block based on the list generated in the list generation step when the data transmission destination block is not an internal block;
Power for stopping power supply to the data transmission destination block in response to a power-off request output from the data transmission destination block when the execution processing in the data transmission destination block is completed The supply stop step and
Power management method including . A port number table in which a port number and a block to which the port number is assigned are stored correspondingly;
Receiving means for receiving an IP packet including data supplied via a network;
A block identifying means for searching the port number table using the port number in the IP packet received by the receiving means as a key, and identifying a block of a destination of the data based on the search result;
A list generating means for generating a list of blocks of the data transmission destination for supplying power from the data of the IP packet when the data transmission destination block is not an internal block capable of controlling data processing;
When the data transmission destination block is not an internal block, power is supplied to the data transmission destination block based on the list generated by the list generation means;
Power supply control for stopping power supply to the data transmission destination block in response to a power-off request output from the data transmission destination block when execution processing in the data transmission destination block is completed Block and
A network control device comprising:

Images