KR20130062994A - Communications management device and communications system - Google Patents

Abstract

The communication management device 5 to which the server device 3 is connected and the communication management device 6 to which the terminal device 4 is connected are connected to the transmission path 7. The transmission path 7 is connected to a power supply device 10 that supplies power to the communication management devices 5 and 6. The communication management device 6 uses the terminal device 4 via the transmission path 9 when the destination of the communication signal received from the transmission path 7 is the terminal device 4 connected to the communication management device 6. ). In addition, the communication management device 6 operates in a reception standby mode in which power consumption is reduced during periods of no communication with the terminal device 4.

Description

Communication management devices and communication systems {COMMUNICATIONS MANAGEMENT DEVICE AND COMMUNICATIONS SYSTEM}

TECHNICAL FIELD This invention relates to the communication management apparatus which relays the communication content between transmission paths, when performing communication through the some transmission path from which a specification differs between communication apparatuses, and the communication system using this communication management apparatus.

In general, when performing communication between communication devices, there is a case where a communication content is transmitted through a transmission path that has a different physical specification or protocol (hereinafter, simply referred to as "specification") from a transmission path to which the communication device is connected. have. Now, it is assumed that a transmission path is provided in advance in a building, and communication is performed using a communication device that communicates using a transmission path that is different from the transmission path. In this case, since the communication device cannot be directly connected to the transmission path, the communication management device which connects the communication device to a transmission path different from the installation transmission path and relays the communication contents between the two transmission paths, It becomes necessary.

In a communication system using this type of communication management device, a communication device (monitoring) is provided by using a transmission path in which a transmission unit serving as a parent device polls a plurality of terminals (first communication terminals) serving as child devices. A structure in which an apparatus and a monitored device transmit information is known (see, for example, Japanese Patent Application Laid-Open No. 2009-225328 (hereinafter referred to as "Patent Document 1")). In the communication system described in Patent Literature 1, a communication management device (second communication terminal) is connected between a transmission path to which a communication device is connected and a transmission path to which a transmission unit and a terminal are connected.

A switch or a load is connected to the terminal connected to one transmission path, and the transmission unit associates the switch with the load using identification information or the like of the terminal. In the transmission unit, each terminal is polled, and when the terminal is notified of a change in the on / off state of the switch, the control unit of the load is instructed to the terminal connecting the load corresponding to the switch. In such a series of operations, the load is controlled in accordance with the on / off of the switch.

In a transmission path to which a transmission unit and a terminal are connected, the transmission unit intermittently transmits a communication signal (transmission signal) to poll the terminal, and also supplies power to the terminal by the transmission signal. That is, the terminal supplies power to the internal circuit by using the power of the transmission signal. Therefore, the transmission unit also functions as a power supply device for the terminal.

On the other hand, the communication management device performs communication by superimposing a communication signal (overlapping signal) that is higher frequency than the transmission signal on the transmission signal. In other words, by providing an overlapping period in which a superimposed signal is superimposed on a part of the transmission signal, the superimposed signal can be transmitted.

Here, when the communication apparatuses connected to the communication management apparatus each have identification information, communication can be performed using the identification information of the communication apparatus, so that the identification information is not necessary for the communication management apparatus. That is, the communication management apparatus may have a function of converting a signal format between the transmission path to which the communication device is connected and the transmission path to which the transmission unit is connected. In addition, since the identification information is not required for the communication management apparatus, only by connecting the communication management apparatus to an already installed transmission path to which the transmission unit is connected, communication by the communication apparatus can be performed without setting the identification information, thereby providing convenience. Increases.

As described above, since the transmission unit can be used as a power supply device in the transmission path to which the transmission unit is connected, it is preferable that the power supply can be supplied from the transmission unit to the communication management device connected to the same transmission path.

On the other hand, since the communication management apparatus normally operates, the communication management apparatus on the transmission path to which the transmission unit is connected consumes as much power as the number. On the other hand, since the current capacity that can be supplied from the transmission unit to the transmission path is limited, the number of communication management apparatuses that can be connected to the already installed transmission path to which the transmission unit is connected is also limited.

An object of the present invention is to provide a communication management apparatus capable of reducing power consumption by controlling an operation, and consequently, increasing the number that can be connected to a transmission path supplied with power, compared to a conventional configuration, and furthermore, the communication management. An object of the present invention is to provide a communication system using a device.

In order to achieve the above object, the communication system of the present invention includes a plurality of (at least first and second) communication management devices 5 and 6 and a plurality of (at least first and second) communication devices 3 and 4. , And a power supply 10. Each of the communication management devices 5 and 6 is connected to the first transmission path 7. The communication apparatuses 3 and 4 are connected to the communication management apparatuses 5 and 6 via the 2nd transmission paths 8 and 9, respectively. The power supply device 10 is configured to supply power to each of the communication management devices 5 and 6 via the first transmission path 7. The second communication management device 6 transmits the second communication path 9 via the second transmission path 9 when the destination of the first communication signal received from the first transmission path 7 is the (second) communication device 4. A function configured to communicate with the communication device 4, and (2) when not communicating with the communication device 4, to operate in a reception standby mode that reduces power consumption (of the communication management device 6). Contains the functions that are configured.

In one embodiment of the communication system, the (second) communication management apparatus 6 may include the first communication unit 61, the second communication unit 62, the power supply unit 63, the storage unit 64, and the processing unit 60. Include. The first communication unit 61 is configured to transmit the first communication signal via the first transmission path 7. The second communication unit 62 is configured to communicate with the (second) communication device 4 via the second transmission path 9. The power supply unit 63 is configured to supply power from the power supply device 10 via the first transmission path 7. The storage unit 64 is configured to store identification information of the (second) communication device 4 connected to the second transmission path 9. The processing unit 60 receives the first communication signal when the first communication unit 61 receives the first communication signal while operating in the reception standby mode in which the power supply from the power supply unit 63 to the second communication unit 62 is stopped. The identification information of the (second) communication device 4 included in the communication signal is matched to the storage unit 64. That is, the processing unit 60 confirms whether the identification information of the (second) communication device 4 included in the first communication signal matches the identification information stored in the storage unit 64. Further, the processing unit 60 supplies power to the second communication unit 62 from the power supply unit 63 when the received first communication signal includes identification information of the communication device (stored in the storage unit 64). To start communication with the (second) communication device 4.

In one embodiment, the (second) communication management apparatus 6 further includes a connection management unit 601. The connection management unit 601 sets the second transmission path 9 at a timing set differently (appropriately) in each of the (second) communication management devices 6 at least at every startup during each startup and after a predetermined time after startup. The identification information of the (2nd) communication apparatus 4 connected to the () is collected, and the collected identification information is stored in the storage unit 64.

In one embodiment, the (second) communication management apparatus 6 further includes a connection management unit 601. When the connection management part 601 detects the 1st communication signal transmitted from the other (2nd) communication management apparatus 6 in the 1st communication path 7, each (2nd) communication management apparatus 6 At the timings which are differently (appropriately) set, the identification information of the (second) communication device 4 connected to the second transmission path 9 is collected, and the collected identification information is stored in the storage unit 64. To be memorized.

In one embodiment, the first communication signal transmits a packet having the communication content and the termination after the identification information of the transmission destination. If the processing part 60 confirms the agreement of the identification information of the (2nd) communication apparatus 4 contained in the packet which the 1st communication part 61 received, and the identification information stored in the memory | storage part 63, it will receive it. It is configured to pass one packet to the second communication unit 62 to the end.

In one embodiment, the first communication signal transmits a packet having a communication content and an end point after identification information of the transmission destination. When the packet received by the first communication unit 61 is a broadcast packet for the (first and second) communication devices, the processing unit 60 in each (second) communication management device 6 It operates in a normal communication mode at timings that are appropriately set differently, and is configured to transmit the received packet from the second communication unit 62 to the (second) communication device 4 as a second communication signal. Here, the normal communication mode is a mode for supplying power from the power supply unit 63 to the second communication unit 62.

In one embodiment, part of the plurality of communication management devices 5, 6 (first communication management device 5) is a server device as (first) communication device 3 via a second transmission path (8). Connected. The rest of the plurality of communication management devices 5 and 6 (the second communication management device 6) is connected to the terminal device as the (second) communication device 4 via the second transmission path 9. The server device and the terminal device communicate with each other via the (first and second) communication management devices 5, 6. The (first) communication management device 5 to which the server device is connected is the terminal device 4 stored in the storage unit 64 of the (second) communication management device 6 to which the terminal device 4 is connected. When the server apparatus 3 transmits a request to the terminal apparatus 4 and there is a duplication in the collected identification information, the server apparatus 3 is configured not to transmit the request.

In one embodiment, the plurality of communication management devices includes a first communication management device 5 and at least one second communication management device 6, and the communication device includes a second transmission path 8. A first communication device 3 connected to the first communication management device 5 through a second communication connection to the at least one second communication management device 6 through a second transmission path 9; Device 4. The first communication device 3 is configured to transmit a first communication signal peer to peer to the at least one second communication device 4 via the first communication management device 5. The second communication management device 6 has a destination of transmission of the first communication signal received through its own first communication unit 61 through its second transmission path 9 to its own second communication unit 62. When the second communication device 4 to be connected is operated in a normal communication mode for at least a minimum transmission period, the second communication device 4 is connected to the second communication device 4 via the second communication unit 62. And transmit a second communication signal comprising some or all of the information. The normal communication mode is a mode for supplying power to the second communication unit 62 from the power supply unit 63 in the second communication management device 6. The minimum transmission period is a time required for transmitting a second communication signal to the second communication device 4 including information of part or all of the first communication signal.

The communication management apparatus 6 of this invention includes the 1st communication part 61, the 2nd communication part 62, the power supply part 63, the memory | storage part 64, and the process part 60 in order to achieve the said objective. . The first communication unit 61 is configured to transmit the first communication signal through the first transmission path 7. The second communication unit 62 is configured to transmit the second communication signal via the second transmission path 9. The power supply unit 63 is configured to supply power from the power supply device 10 through the first transmission path 7. The storage unit 64 is configured to store identification information of the communication device 4 connected to the second transmission path 9. The processing unit 60 receives the first communication signal when the first communication unit 61 receives the first communication signal while operating in the reception standby mode in which the power supply from the power supply unit 63 to the second communication unit 62 is stopped. The identification information of the communication device 4 included in the communication signal is matched to the storage unit 64. That is, the processing unit 60 confirms whether the identification information of the communication device 4 included in the first communication signal matches the identification information stored in the storage unit 64. In addition, when the received first communication signal includes the identification information of the communication device, the processing unit 60 initiates the supply of power from the power supply unit 63 to the second communication unit 62 to communicate with the communication device 4. And to communicate.

According to the configuration of the present invention, it is possible to reduce the power consumption by controlling the operation of the communication management apparatus, and as a result, the number of the communication management apparatus that can be connected to the transmission path to which the power is supplied can be increased than the conventional configuration. have.

Preferred embodiments of the invention are described in more detail. Other features and advantages of the present invention will be better understood with reference to the following detailed description and the accompanying drawings.
1 is a block diagram showing an embodiment.
Fig. 2 is a block diagram showing a communication management device using the above embodiment.
3 is an operation explanatory diagram of the embodiment.
4 is an operation explanatory diagram of the embodiment.
5 is a diagram showing an example of a packet used in the above embodiment.
6 shows another example of a packet used in the above embodiment.
7 is an operation explanatory diagram of the embodiment.
8 is a block diagram showing the overall configuration of the embodiment.
9 is a diagram illustrating an example of a transmission signal used in the configuration shown in FIG. 8.

As shown in FIG. 8, in the communication system described below as an embodiment, in the communication between the transmission unit 1 and the terminal 2 and the communication between the server device 3 and the terminal device 4, The multiplexing which shares one transmission path (first transmission path) 7 is performed. Although the transmission path 7 assumes a 2-wire system, the transmission path 7 can also be comprised with three or more lines.

The transmission unit 1 and the server apparatus 3 are normally provided one by one with respect to the transmission path 7, and the terminal 2 and the terminal apparatus 4 are provided with two by one with respect to the transmission path 7. As shown in FIG. In addition, in order to multiplex two types of communication, the first and second communication management devices 5 and 6 are connected to the transmission path 7, and the first and second communication devices, i.e., servers The apparatus 3 and the terminal apparatus 4 are connected to the communication management apparatus 5 and 6 via the transmission path (2nd transmission path) 8 and 9, respectively. In most cases, a plurality of terminal devices 4 are connected to each transmission path 9. Although the transmission paths 8 and 9 assume the RS485 standard, the transmission paths 8 and 9 such as Ethernet (registered trademark) and the RS232C standard may be used.

The communication signal transmitted through the transmission path 7 in the communication between the transmission unit 1 and the terminal 2, and the transmission path 7 in the communication between the server device 3 and the terminal device 4 The physical specification and the protocol are different from the communication signals transmitted through. The former communication signal is a pulse-width modulated double polarized rectangular wave signal, and the latter communication signal uses a signal modulated with a carrier wave of a higher frequency than the former communication signal. In the following, the former communication signal is called a "transmission signal" and the latter communication signal is called a "overlapping signal".

And it is preferable that the transmission unit 1 and the terminal 2 respectively provide an impedance matching device between the transmission paths 7. The impedance matching device passes a transmission signal and provides a high impedance to the overlapping signal. By providing the impedance matching device, the attenuation of the overlapping signal can be suppressed even when the transmission path 7 is long.

The transmission signal used in the communication between the transmission unit 1 and the terminal 2 has a predetermined format, and the transmission unit 1 intermittently sends it to the transmission path 7. Each terminal 2 has identification information (address), and the identification information of each terminal 2 is included in the transmission signal which the transmission unit 1 transmits, designating each terminal 2, and specifying a transmission unit ( Instructions from 1) to the terminal 2 are given. That is, it is possible to give an instruction to each terminal 2 individually from the transmission unit 1 by time division multiplexing. In addition, the transmission signal is provided with a period for notifying the transmission unit 1 of the information from the terminal 2.

The terminal 2 is connected to a monitoring terminal that receives a monitoring input from a switch or a sensor (not shown) and requests the transmission unit 1 to control the load, and a load (not shown) to which the transmission unit 1 is connected. The control terminal which controls a load according to the instruction | command from two is provided.

The transmission unit 1 is provided with the relationship table which associates a switch or sensor (henceforth a "switch" unless otherwise indicated) with a load. By registering the relationship between the switch and the load in the relationship table in advance, the transmission unit 1 controls the load corresponding to the switch in the relationship table in accordance with the operation of the switch (or the change in the output of the sensor). The relation table may include the control content of the load for the operation of the switch.

When it is possible to connect a plurality of switches and loads to the terminal 2, the correspondence between the switch and the load in the relation table is added in the terminal 2 in addition to the identification information of the terminal 2; Use the circuit number assigned to each port connecting the load. That is, the switch and the load are individually identified by using the identification information and the circuit number of the terminal 2.

In more detail, as shown in FIG. 9, the transmission signal 30 includes a synchronization pulse 31, a transmission period 32, a carrier period 33, an interrupt period 34, and a short circuit. (Iii) A bipolar (± 24V) signal having a detection period 35 is used. As described above, the transmission unit 1 intermittently transmits this transmission signal 30. Therefore, the pause period 36 is provided between the frames of the transmission signal 30.

The sync pulse 31 indicates the start of the frame of the transmission signal and has two periods with different voltage polarities. The voltage polarity changes from positive to negative within the period of the sync pulse 31. The transmission period 32 is a period in which an instruction from the transmission unit 1 to the terminal 2 is transmitted, mode information indicating the type of the transmission signal 30, identification information for individually designating the terminal 2, and And control information indicating the content of the instruction for each circuit number. The return period 33 is a period for notifying the transmission unit 1 of the information from the terminal 2, and is a period in which the transmission unit 1 waits without transmitting a signal.

An interrupt period 34 is a period for detecting an interrupt signal output from the terminal 2, and a short circuit detection period 35 is a period for detecting a short circuit in the transmission path 7. The interrupt period 34 and the short detection period 35 are paired with the sync pulse 31, and the sync pulse 31 has a period corresponding to the interrupt period 34 and the short detection period 35. It is.

On the other hand, each terminal 2, if its identification information is included in the identification information included in the transmission period 32 of the transmission signal 30 received through the transmission path 7, the transmission period 32 Instruction is given for each circuit number using the control information contained in the. That is, in the transmission signal 30 received by the control terminal, since the control information for the load of each circuit number is included in the control information, the load of each circuit number is controlled in accordance with the control content. The operation of the switch in the monitoring terminal and the control result of the load in the control terminal are conveyed to the transmission unit 1 as a current mode signal in synchronization with the conveyance period 33. The current mode signal is transmitted using a binary number due to a current change in a state in which a suitable low impedance is connected between lines of the transmission path 7 and a state in which the line between the transmission paths 7 is opened.

The transmission unit 1 normally polls periodically accessing the terminal 2 by periodically changing the identification information of the terminal 2 included in the transmission signal 30. At the time of constant polling, if the terminal 2 in which the identification information included in the transmission signal 30 matches the identification information thereof, the control information is obtained and operated if the transmission signal 30 includes the control information. The operation state of the is conveyed to the transfer unit 1 in the transfer period 33.

When the monitoring terminal receives the monitoring input from the switch, the monitoring terminal generates an interrupt signal in the transmission path 7 in synchronization with the interrupt period 34 of the transmission signal 30. When the transmission unit 1 detects this interrupt signal, it searches for the terminal 2 which generated the interrupt signal, accesses the terminal 2, and acquires identification information of the terminal 2.

When the identification information of the terminal 2 which generated the interrupt signal is acquired by the transmission unit 1, the transmission unit 1 designates the identification information and returns the monitoring input to the terminal 2. The transmission unit 1 transmits the transmission signal containing control information about the terminal 2 which installed the load corresponding to the switch (monitoring input) in advance by the relationship table according to the monitoring input conveyed from the terminal 2. Is generated and sent to the transmission path (7). Therefore, the load is controlled in accordance with a request (operation of a switch, etc.) from the terminal 2 which generated the interrupt signal.

As described above, when the transmission unit 1 normally polls all the terminals 2 sequentially and sequentially receives an interrupt signal from any one terminal 2 (monitoring terminal), The terminal 2 which generated the interrupt signal is accessed, and the request from the terminal 2 is received. In this way, the operation that always polls, and when an interrupt signal is generated, preferentially processes a request from the terminal 2 that generated the interrupt signal is called interrupt polling.

The terminal device 4 is, for example, a measuring device for measuring the amount of power consumed by the load, a measuring device for measuring the temperature at the time of operation of the load, and the information obtained by the terminal device 4 is a server device 3. Collected from). In most cases, the information acquired by the terminal device 4 is collected by the server device 3 in response to a request from the server device 3.

The communication between the server device 3 and the terminal device 4 includes the sender address 22, the communication contents 23, and the end 24 after the sender address 21, as shown in FIG. 5A. Packet 20 to be used. In addition, as shown in FIG. 5B, the source address 22 may be omitted. In addition, for the packet 20 directed from the server device 3 to the terminal device 4, as shown in FIG. 6A, the sender address 21 is used, and the packet device directed from the terminal device 4 to the server device 3 is used. In the packet 20, as in B of FIG. 6, the sender address 22 may be used.

In order to transmit the above-mentioned packet 20 using the transmission path 7, the superimposition signal transmitted through the transmission path 7 superimposed on the transmission signal 30 is used. That is, the packet 20 containing the request from the server device 3 to the terminal device 4 is converted into an overlapping signal by the communication management device 5 connected to the server device 3, and then the transmission path ( It is transmitted to the communication management apparatus 6 via 7). In addition, in the communication management device 6, the communication signal is converted into a communication signal including a request from the superimposition signal to the terminal device 4. On the other hand, when the communication management apparatus 6 collects the information from the terminal apparatus 4, it converts the packet containing the collected information into the superimposition signal, and transmits it to the communication management apparatus 5 via the transmission path 7. . In addition, the communication management apparatus 5 converts the received superimposition signal into a communication signal transmitted to the server apparatus 3, and visualizes it in the server apparatus 3.

The superimposition signal transmitted through the transmission path 7 is superimposed on the transmission signal 30 mentioned above. Specifically, the superimposition signal in the possible overlapping period appropriately selected from the sync pulse 31, the transfer period 33, the interrupt period 34, the short circuit detection period 35, and the rest period 36 of the transmission signal 30. Is sent. When an impedance matching device for separating the superimposition signal from the transmission signal is provided between the transmission unit 1 and the terminal 2 and the transmission path 7, the transmission unit 1 and the terminal 2 overlap. The transmission signal 30 can be transmitted between the transmission unit 1 and the terminal 2 without being affected by the signal.

On the other hand, the communication management apparatuses 5 and 6 function as an interface or a modem for connecting the transmission apparatus 7 to the server apparatus 3 and the terminal apparatus 4. By providing such communication management apparatuses 5 and 6, the transmission path 7 can be shared in the transmission of two types of communication signals. That is, since the transmission path 7 is used as a path for the server device 3 and the terminal device 4 to communicate, the communication management devices 5 and 6 connected to the transmission path 7 are used for communication of the communication signals. The conversion is in progress. In other words, in the communication between the server device 3 as the communication device and the terminal device 4, a path passing through the communication management devices 5 and 6 and the transmission path 7 is employed.

In this case, the server device 3 and the terminal device 4 need identification information for communication, but the communication management devices 5 and 6 do not need identification information for communication. Therefore, the communication management apparatus 6 operates to always wait for reception of the communication signal passing through the transmission path 7. And if the terminal apparatus 4 is a measuring apparatus, the use which collects the information measured by the measuring apparatus by the server apparatus 3 by performing communication between the server apparatus 3 and the terminal apparatus 4 can be considered. However, depending on the type of terminal device 4, the use of the communication management devices 6 to communicate with each other can be considered.

Since the transmission signal 30 for communication between the transmission unit 1 and the terminal 2 is double polarized and is always polling, power is always supplied to the transmission path 7 by the transmission signal 30. have. Therefore, by using the transmission signal 30, not only the terminal 2 but also the communication management apparatuses 5 and 6 can be supplied with power. However, since the power supplied by the transmission unit 1 has an upper limit, the power that can be simultaneously supplied from the transmission unit 1 to the terminal 2 and the communication management devices 5 and 6 connected to the transmission path 7 can be obtained. Is limited.

Now, considering only the communication performed between the server apparatus 3 and the terminal apparatus 4, the transmission unit 1 is regarded as a power supply apparatus that supplies electric power to the communication management apparatuses 5 and 6, The configuration is simplified as shown in FIG. The power supply device 10 in FIG. 1 corresponds to the transmission unit 1 in FIG. 8.

Here, when the power supply device 10 sets the upper limit value of the current that can be supplied to the transmission path 7 to Q [mA], and the communication management device 5 communicates with the server device 3, the communication management device 5 It is assumed that the current consumed is r1 [mA], and the current consumed by the communication management device 6 when the communication management device 6 communicates with the terminal device 4 is r2 [mA]. Under this condition, the number N of the communication management apparatuses 5 and 6 that can be connected to the transmission path 7 is N = 1 + int [(Q-r1) / r2]. int [X] means the integer part of X.

For example, 200 [mA] is the maximum value of the current which the power supply device 10 supplies to the transmission path 7, 10 [mA] is the current which the communication management apparatus 5 consumes, and the communication management apparatus 6 is carried out. Let 15 [mA] be the current consumed by. In this case, N = 1 + int [(200-10) / 5] = 13. That is, the maximum number of the communication management apparatus 6 which connects the terminal apparatus 4 to the transmission path 7 is 12 units. That is, if the conventional structure is adopted, the maximum number (hereinafter, also referred to as "nmax") of the communication management apparatus 6 which can be connected to the transmission path 7 will be 12 under the conditions mentioned above.

Hereinafter, the technique of increasing the maximum number of the communication management apparatus 6 which can be connected to the transmission path 7 is demonstrated using FIG.

As shown in FIG. 2, the communication management device 6 to which the terminal device 4 is connected includes a first communication unit 61 for transmitting a communication signal via the transmission path 7 and a transmission path 9. The 2nd communication part 62 which communicates with the terminal device 4 is provided. The 1st communication part 61 transmits the packet transmitted between the server apparatus 3 and the terminal apparatus 4, and superimposes on the transmission signal by superimposing a superimposition signal on the transmission signal transmitted via the transmission path 7 Packet is received by separating the overlapped signals. In addition, between the first communication unit 61 and the second communication unit 62, a processing unit 60 that determines whether to transmit a packet between the first communication unit 61 and the second communication unit 62 is provided. do. In addition, the communication management device 6 is connected to the power supply unit 63 to which electric power is supplied from the power supply device 10 via the transmission path 7, and to the communication management device 6 via the transmission path 9. A storage unit 64 for storing identification information (hereinafter referred to as "address") of the terminal device 4 is provided.

The processing unit 60 operates in a normal communication mode in which power is supplied from the power supply unit 63 to the second communication unit 62, and a reception standby mode in which supply of power from the power supply unit 63 to the second communication unit 62 is stopped. Equipped with a mode. For example, power from the power supply unit 63 is supplied to the second communication unit 62 via the switch 65, and the processing unit 60 is configured to turn on and off the switch 65. The processing unit 60 and the first communication unit 61 are supplied with power from the power supply unit 63 regardless of the operation mode of the processing unit 60.

The processing unit 60 normally selects a reception standby mode, and in the reception standby mode, when the first communication unit 61 receives an overlapping signal, the address of the terminal device 4 included in the received packet extracted from the overlapping signal Is compared with the address stored in the storage unit 64. When the matched address is stored in the storage unit 64, the processing unit 60 starts the supply of power from the power supply unit 63 to the second communication unit 62 and performs communication with the terminal device 4. do. That is, when the processing unit 60 receives a packet including the contents of communication to the terminal device 4 in the reception standby mode, the processing unit 60 shifts to the normal communication mode and supplies power to the second communication unit 62. The processing unit 60 also has a function of converting a protocol between the first communication unit 61 and the second communication unit 62.

The communication management device 5 to which the server device 3 is connected has the same basic configuration as the communication management device 6. That is, a processing unit, a first communication unit, a second communication unit, a power supply unit, and a storage unit are provided. These structures correspond to the processing part 60, the 1st communication part 61, the 2nd communication part 62, the power supply part 63, and the memory | storage part 64 in the communication management apparatus 6, respectively. However, since the server device 3 issues a request to the terminal device 4 in a normal operation and collects information in response to the response from the terminal device 4, the processing unit of the communication management device 5 Do not perform the operation in the reception standby mode. That is, in the communication management apparatus 5, in addition to the processing unit and the first communication unit, power is supplied from the power supply unit to the second communication unit regardless of the operation mode of the processing unit. The storage unit in the communication management device 5 is used to store the address of the server device 3.

As apparent from the above-described operation, the communication management device 6 is normally operating in the reception standby mode and stops supplying power to the second communication unit 62. In the normal operation, since the server device 3 transmits a request for each terminal device 4, the communication management which shifts to the normal communication mode among the plurality of communication management devices 6 connected to the transmission path 7. The apparatus 6 becomes one by one. In short, the server device 3 is configured to transmit the first communication signal to each of the plurality of terminal devices 4 from peer to peer via the communication management device 5. The communication management apparatus 6 is a system in which a transmission destination of a first communication signal received through its own first communication unit 61 is connected to its own second communication unit 62 via a second transmission path 9. 2 communication device 4, operating in a normal communication mode for at least a minimum transmission period, to the second communication device 4 via the second communication unit 62, in part or in whole of the first communication signal. And transmit a second communication signal comprising information. The normal communication mode is a mode for supplying power to the second communication unit 62 from the power supply unit 63 in the second communication management device 6. The minimum transmission period is a time required for transmitting to the second communication device 4 a second communication signal comprising information of part or all of the first communication signal. Preferably, the server device 3 is configured to postpone sending the next first communication signal until the second communication management device 6 operates in the reception standby mode. For example, the server device 3 has a predetermined waiting time, and after transmitting the first communication signal peer-to-peer to a certain terminal device 4 through the communication management device 5, the waiting time is increased. The transmission of the next first communication signal may be delayed until elapsed. In this case, the next first communication signal is transmitted after the waiting time has elapsed. The waiting time may be at least the minimum transmission period or may be a total time of the minimum transmission period and the spare time. In one example, when the number of communication management apparatuses 6 connected to the transmission line 7 is not more than nmax-1, the waiting time can be set to at least the minimum transmission period.

Now, when the power supply apparatus 10 (refer FIG. 1) is Q [mA] the upper limit of the electric current which can be supplied to the transmission path 7, and the communication management apparatus 5 communicates with the server apparatus 3, The current consumed by 5) is r1 [mA]. Further, the current consumed when one communication management device 6 operates in the normal communication mode is r2 [mA], and the current consumed when operating in the reception standby mode is r3 [mA]. Under this condition, the number N of the communication management apparatuses 5 and 6 that can be connected to the transmission path 7 is N = 2 + int [(Q-r1-r2) / r3]. int [X] means the integer part of X.

For example, assume that the maximum value of the current supplied by the power supply device 10 to the transmission path 7 is 200 [mA], and the current consumed by the communication management device 5 is 10 [mA]. The current consumed by the communication management device 6 in the normal communication mode is 15 [mA], and the current consumed by the communication management device 6 in the reception standby mode is 10 [mA]. In this case, N = 2 + int [(200-10-15) / 10] = 19. That is, the number of communication management apparatus 6 which connects the terminal apparatus 4 is the maximum number which can be connected to the transmission path 7 is 18 units. That is, under the same conditions, as compared with the case where the communication management apparatus 6 does not have the reception standby mode, six communication management apparatuses 6 which can be connected to the transmission path 7 can be increased.

By the way, in order to store the address of the terminal device 4 in the storage unit 64 installed in the communication management device 6, the terminal device 4 connected to each communication management device 6 is identified by manpower. It is conceivable to manually store the address of the terminal device 4. However, when a plurality of terminal apparatuses 4 are provided and a plurality of terminal apparatuses 4 are connected to the plurality of communication management apparatuses 6, respectively, the address of the terminal apparatus 4 is manually stored in the storage unit. Remembering every 64 requires a lot of effort. In particular, in the change such as the deletion or addition of the terminal device 4, when the address is manually stored in the storage unit 64, the possibility of mis-input increases, and the maintenance of the communication system becomes difficult.

Therefore, by communicating with the terminal device 4 connected via the transmission path 9 for each communication management device 6, the address of the terminal device 4 is automatically collected and the collected address is stored in the storage unit ( 64 is preferably stored automatically. Therefore, the processing part 60 is equipped with the connection management part 601 which collects the address of the terminal device 4 connected via the transmission path 9. The timing at which the connection management unit 601 collects the address of the terminal device 4 is basically at the time of activation of the communication management device 6, but in order to automatically detect the deletion or addition of the terminal device 4, the connection is performed. The management unit 601 collects the address of the terminal device 4 every predetermined time even after activation.

Here, in order for the processing unit 60 to collect the address of the terminal device 4, it is necessary to supply power from the power supply unit 63 to the second communication unit 62. Therefore, the communication management apparatus 6 which collects the address of the terminal apparatus 4 will increase power consumption. Therefore, in each communication management apparatus 6, the timing which collects the address of the terminal apparatus 4 differs suitably.

For example, after the time calculated from an address set individually in the communication management device 6 by an appropriate calculation rule and the time calculated from the startup of the communication management device 6 elapses, the terminal device 4 What is necessary is just to start the timing of collecting the address of. In addition, in each communication management apparatus 6, you may generate a random number and calculate the start time of the time slot which starts collection of an address by appropriate calculation rule from this random number. Here, as long as the current capacity of the power supply device 10 does not exceed the maximum value of the current supplied to the transmission path 7, the time zone during which the addresses of the terminal devices 4 are collected in the plurality of communication management devices 6 is set. Duplicates are allowed.

Although the above operation is described at the time of startup, the same operation is repeated every predetermined time even after startup. That is, the time is counted in each communication management apparatus 6, and the start time of the time zone which collects the address of the terminal apparatus 4 is determined by every operation | movement at predetermined time intervals similarly to the time of starting. Since the address of the terminal device 4 is acquired not only at the time of startup but also every time after startup, it is not necessary to restart the communication system at the time of deletion or addition of the terminal device 4, and the convenience can be improved.

The time interval for calculating the time zone for acquiring the address of the terminal device 4 is managed by another device such as the server device 3, not the communication management device 6, and is connected to each communication management device 6. The time interval for collecting the address of the device 4 may be notified. Moreover, in other apparatuses, such as the server apparatus 3, the collection start of each communication management apparatus 6 is made so that the timing which collects the address of the terminal apparatus 4 in each communication management apparatus 6 may differ. The timing may be determined and the time may be notified individually to the communication management apparatus 6.

The process of collecting the address of the terminal apparatus 4 and storing it in the memory | storage part 64 at the time of the activation of the communication management apparatus 6 is summarized in FIG. The connection management part 601 determines whether the address of the terminal device 4 is memorize | stored in the memory | storage part 64 at the time of starting (S1). When the address is stored in the storage unit 64 (S1: yes), the process is terminated. When the address is not stored in the storage unit 64 (S1: no) And waits until the start time (S2).

Thereafter, power is supplied to the second communication unit 62 from the power supply unit 63, and an address is specified to request a response from each terminal device 4 (S3). If there is a response from the terminal device 4 (S4: yes), this address is stored in the storage unit 64 (S5). The process of confirming the response from the terminal device 4 is performed for all addresses (S6), so that the terminal device 4 connected to the communication management device 6 via the transmission path 9 is stored in the storage unit ( 64). Then, when a response is requested from the terminal device 4 (S3), if there is no response from the terminal device 4 (S4: no), the next address is specified and a response from the terminal device 4 is confirmed (S6).

In the above-mentioned operation, although the start time of the time slot which collects the address of the terminal device 4 is shifted in each communication management apparatus 6, when confirming the presence or absence of the connection of the terminal device 4 with respect to one address. Each time, the waiting time for confirming the presence or absence of the next address may be arbitrarily changed. In this case, the communication management apparatus 6 does not make the start time of the time zone which collects the address of the terminal apparatus 4 different, but verifies the presence or absence of one address in each communication management apparatus 6. The time intervals are changed irregularly.

In this operation, as shown in FIG. 7, the communication management apparatus 6 transmits the addresses (address 1, address 2, ...) of the terminal apparatus 4 in sequence and requests a response from the terminal apparatus 4. When the terminal device 4 having the address is connected to the transmission path 9, a response from the terminal device 4 can be obtained. Here, each time an address is transmitted once, the waiting time until the next address is transmitted is randomly changed irrespective of whether there is a response from the terminal device 4 or not. By this operation | movement, the time interval for sending an address becomes an inequality interval, and can shift the time when each communication management apparatus 6 operates the 2nd communication part 62. FIG.

That is, the timing of collecting the address of the terminal apparatus 4 in each communication management apparatus 6 shifts, and the total power consumption of the communication management apparatus 6 can be suppressed. In other words, it is possible to prevent the current consumed by the communication management devices 5 and 6 connected to the transmission path 7 from exceeding the current capacity allowed for the power supply device 10. Also in this operation, in the allowable range of the current capacity of the power supply device 10, the periods for collecting the addresses of the terminal device 4 in the plurality of communication management devices 6 may overlap.

By the way, in the communication management apparatus 6, the operation of transmitting the communication signal corresponding to the communication management apparatus 5 connected to the server apparatus 3, and the operation of acquiring the address of the terminal apparatus 4 are performed simultaneously. It is clear that there is no case. Therefore, in a period in which another communication management apparatus 6 is transmitting a communication signal responding to the communication management apparatus 5, no power is supplied to the second communication section 62 in the other communication management apparatus 6 , It can be seen that the power consumption is relatively small.

From this, the period during which the other communication management device 6 is transmitting the communication signal in response to the communication management device 5 can be said to be a timing suitable for performing the operation of acquiring the address of the terminal device 4. Therefore, the connection management part 601 of each communication management apparatus 6 monitors the communication signal transmitted by the 1st communication part 61 through the transmission path 7, and communicates to the communication management apparatus 5 At the time of detecting the detection, the start time of the time zone for collecting the address may be determined.

In this operation, since the address of the terminal device 4 is collected by the communication management device 6 based on the timing of the response from the terminal device 4 to the server device 3, the time for collecting the address is displayed. There is no need to do it. In addition, it is not necessary to restart the communication system to collect the address of the terminal device 4 in accordance with the deletion or addition of the terminal device 4.

In the above-described operation, the storage unit 64 of the communication management device 6 stores the address of the terminal device 4, but the storage unit of the communication management device 5 stores the address of the server device 3. Need to be stored in the memory. In the storage unit of the communication management device 5, at the time when the second communication unit receives a communication signal including a request from the server device 3 to the terminal device 4 in addition to the start of the communication system, the server device ( The address of 3) may be stored in the storage unit.

By the way, in the above-described operation, it is assumed that the server device 3 does not simultaneously transmit a request to the terminal device 4 connected to the different communication management device 6. In reality, however, there may be a case where a communication signal is transmitted by broadcast from the communication management device 5 connected to the server device 3 to the communication management device 6 to which the terminal device 4 is connected. In preparation for such a case, the processing unit 60 determines whether the communication signal from the communication management device 5 is broadcast or unicast, and at the time of broadcast, transmits a request to the terminal device 4. The transmission management unit 602 is provided to make it different properly.

The transmission management unit 602 determines the timing of transmitting a request to the terminal device 4 by the same operation as that of the connection management unit 601. That is, the start time of the time zone in which the request from the server device 3 is transmitted to the terminal device 4 is determined by an appropriate calculation rule, or the time at which the request from the server device 3 is transmitted to the terminal device 4. Make the interval an unequal interval.

The transmission management unit 602 performs the above-described operation on the broadcast communication signal, thereby preventing each communication management device 6 from simultaneously transmitting requests to the terminal device 4 for the broadcast communication signal. can do. That is, it becomes possible to operate the communication management apparatus 6 within the range of the current capacity of the power supply device 10.

The communication signal received by the communication management device 6 is monitored by the processing unit 60 and is normally delivered to the second communication unit 62 on the basis of the received packet, regardless of whether it is unicast or broadcast. . Therefore, the processing unit 60 needs a buffer to store received packets in units.

On the other hand, when the processing unit 60 does not provide a buffer and the received packet is unicast and the destination address 21 in the received packet exists in the storage unit 64, the packet is transferred to the second communication unit ( You may employ | adopt the structure output to 62). In this case, since the buffer is not needed in the processing unit 60, the time until the request from the server device 3 to the terminal device 4 can be shortened. As for the broadcast packet, as described above, since it is necessary to distribute the time for delivering the request from the server device 3 to the terminal device 4, a buffer for waiting for time is required.

In the above-described configuration, it is determined whether or not the communication signal received in the communication management device 6 to which the terminal device 4 is connected is a communication signal for which the terminal device 4 is a transmission destination. In addition to this operation, if unnecessary communication signals (overlapping signals) are not transmitted from the communication management device 5 to which the server device 3 is connected, unnecessary operation of the communication management device 6 can be omitted. do.

Therefore, in the processing part of the communication management apparatus 5, before transmitting a request from the server apparatus 3 to the terminal apparatus 4 via the communication management apparatus 6, it is connected to each communication management apparatus 6 The operation of collecting the address of the terminal device 4 is performed. Although it is preferable to perform this operation every predetermined time, you may perform before transmitting a communication signal from the communication management apparatus 5 to the communication management apparatus 6. Alternatively, immediately after the communication signal is sent from the first communication unit to the transmission path 7 and immediately after the communication signal is sent from the second communication unit to the transmission path 8, the address of the terminal device 4 is managed. You may collect from the apparatus 6.

Here, when the processing part of the communication management apparatus 5 detects that the address of the terminal apparatus 4 overlaps in the some communication management apparatus 6, it will send the packet which makes the corresponding terminal apparatus 4 a transmission destination. It is prohibited to convert the signal into superimposed signals. By this operation, it is possible to prevent the plurality of communication management devices 6 from communicating with the terminal device 4 at the same time. At this time, it is preferable to notify the server apparatus 3 from the communication management apparatus 5 that the address of the terminal apparatus 4 is set to overlap. And when the address of the terminal apparatus 4 is overlapping with respect to the communication system which allows the address of the terminal apparatus 4 to overlap, the communication management apparatus with which each terminal apparatus 4 with which the address is duplicated was connected ( For 6), a communication signal may be transmitted at different times.

In the above description, in order to explain the difference between the function of the communication management apparatus 5 to which the server apparatus 3 is connected, and the communication management apparatus 6 to which the terminal apparatus 4 is connected, the communication management apparatuses 5 and 6 ) Are described separately. In reality, however, the communication management apparatus 5 and the communication management apparatus 6 have the same configuration, and the terminal apparatus 4 is connected or the server apparatus 3 is connected according to the state of the communication in the second communication unit. Each operation is performed by recognizing whether or not it is. That is, which of the operations of the communication management device 5 and the communication management device 6 is determined by the communication with the devices connected via the transmission paths 8 and 9.

The operation of the communication management apparatus is summarized in FIG. 4. In FIG. 4, it describes including the operation | movement which selects which of the communication management apparatus 5 and the communication management apparatus 6 functions. In the following description, although the code | symbol attached to FIG. 2 is employ | adopted, it does not intend description of the communication management apparatus 6, and the code | symbol of FIG. 2 is used for the convenience of showing the structure of a communication management apparatus.

In the communication management apparatus, first, a process at start-up (process of collecting the address of the terminal apparatus 4 shown in FIG. 3, etc.) is performed (S1), and then, the first communication unit 61 and the second communication unit 62 are performed. Check the presence of a communication signal (S2, S3). If there is a communication signal in the first communication unit 61 (S3: yes), and a request for collecting the address of the terminal device 4 (S4: yes), the address of the terminal device 4 is obtained from the storage unit 64. It reads and conveys to the communication management apparatus 5 (S5).

If the communication signal received by the first communication unit 61 does not require collection of addresses (S4: no), the address of the transmission destination included in the received packet is checked (S6). Here, when the transmission destination address is broadcast, the process which makes the communication time with the terminal apparatus 4 different in each communication management apparatus 6 is performed (S7). If the transmission destination address is registered in the storage unit 64, the received packet is transmitted to the second communication unit 62 (S8).

Here, it is determined whether or not the communication management device is operating as the communication management device 5 connected to the server device 3 (S9), and in the case of the communication management device 5, the first communication unit 61. The server device 3 is requested to return the address via S10 (S10). After confirming the response to the request (S11), the contents of the storage unit 64 are updated (S12). When the communication management device is not the communication management device 5 connected to the server device 3 (S9: no), the communication management device returns to step S2, and the first communication unit 61 and the second communication unit 62 perform the operation. Waiting for receiving a communication signal.

On the other hand, in step S6, if the sender address is not registered in the storage unit 64 instead of the broadcast, the received packet is discarded (S13). When the communication management device is not operating as the communication management device 5 connected to the server device 3 (S14: no), if it is at the timing of collecting the address of the terminal device 4 (S15: yes), The address of the terminal device 4 is collected through the second communication unit 62 (S16). In addition, if it is operating as the communication management apparatus 5 connected to the server apparatus 3 (S14: yes), or if it is not timing to collect the address of the terminal apparatus 4 (S15: no), step S2 The flow returns to S3 and the first communication unit 61 and the second communication unit 62 wait to receive the communication signal.

By the way, in step S2, when the communication signal is detected by the second communication unit 62 (S2: yes), the sender address of the received packet is checked (S17). Here, if the packet is received from the server device 3 (S17: yes), it operates as the communication management device 5 connected to the server device 3, and stores the address of the server device 3 in the storage unit 64. (S18).

Subsequently, the storage unit 64 checks the overlap of the addresses of the terminal device 4 (S19). If there is a duplicate in the destination address of the received packet (S19: yes), the packet is discarded (S20). On the other hand, if duplication of address is not detected (S19: no), the packet is transmitted to the first communication unit 61 (S21), and the address of the terminal device 4 is requested through the first communication unit 61 ( That is, the communication management device 5 requests the address of the terminal device 4 from the communication management device 6. By receiving a response to this request (S23), the communication management device 5 connects to the server device 3; In the communication management apparatus 5, the content of the storage unit 64 is updated (S24.

On the other hand, when detecting the packet received from the terminal apparatus 4 in step S17 (S17: no), the address of the terminal apparatus 4 connected to the communication management apparatus is memorize | stored in the memory | storage 64 ( S25), the received packet is transmitted to the first communication unit 61 (S26).

And when discriminating between the communication management apparatus 5 connected to the server apparatus 3, and the communication management apparatus 6 connected to the terminal apparatus 4, you may use the packet 20 shown in FIG. . That is, when the packet 20 of FIG. 6B is received as a response after the packet 20 of FIG. 6A is transmitted, it can be determined that it is the communication management apparatus 5 connected to the server apparatus 3. have. Therefore, when the pair of the transmission of the packet 20 containing only the transmission destination address 21 and the reception of the packet 20 containing only the transmission source address 22 is detected by the communication management apparatus, You can determine that you are connected. In this case, it functions as the communication management apparatus 6 connected to the terminal apparatus 4 as a default.

While the present invention has been described with respect to some preferred embodiments, various modifications and variations can be made by those skilled in the art without departing from the spirit and scope of the invention, that is, the claims.

Claims (12)

A plurality of communication management devices connected to the first transmission path;
A communication device connected to each communication management device via a second transmission path, respectively; And
A power supply device for supplying power to the communication management device through the first transmission path
Lt; / RTI >
The communication management device has a function of communicating with the communication device via the second transmission path when the destination of the first communication signal received from the first transmission path is the communication device, and when not communicating with the communication device. A function of operating in a receive standby mode to reduce power consumption;
Communication system. The method of claim 1,
The communication management device,
A first communication unit transmitting a first communication signal through the first transmission path;
A second communication unit for communicating with the communication device via the second transmission path;
A power supply unit to which electric power is supplied from the power supply device through the first transmission path;
A storage unit that stores identification information of the communication device connected to the second transmission path; And
Identification of the communication device included in the received first communication signal when the first communication unit receives the first communication signal while operating in the reception standby mode in which the power supply from the power supply unit to the second communication unit is stopped. The information is matched to the storage unit, and when the received first communication signal includes the identification information of the communication device, the supply of power from the power supply unit to the second communication unit is started to communicate with the communication device. A communication system comprising a processing unit for performing the operation. The method of claim 2,
The communication management apparatus obtains identification information of the communication apparatus connected to the second transmission path at a timing that is set to be different in each of the communication management apparatuses at least at every start-up or every predetermined time after startup. And a connection management unit that collects and stores the collected identification information in the storage unit. The method of claim 2,
The communication management device is connected to the second transmission path at a timing set to be different in each of the communication management devices when a first communication signal transmitted from another communication management device is detected in the first communication path. And a connection management unit for collecting identification information of the communication device and storing the collected identification information in the storage unit. Communication system. 5. The method according to any one of claims 2 to 4,
The first communication signal transmits a packet having communication content and termination after identification information of the transmission destination,
The processing unit causes the received communication unit to pass through the second communication unit to the end when it confirms the correspondence between the identification information of the communication apparatus included in the packet received by the first communication unit and the identification information stored in the storage unit. , Communication system. 5. The method according to any one of claims 2 to 4,
The first communication signal transmits a packet having communication content and termination after identification information of the transmission destination,
When the packet received by the first communication unit is a broadcast packet for the communication device, the processing unit operates in a normal communication mode at a timing set to be different in each of the communication management devices, and the received packet is stored in the first communication unit. 2 A communication system for transmitting from the communication unit to the communication device as a second communication signal. 5. The method according to any one of claims 2 to 4,
A part of the plurality of communication management devices is connected to a server device as the communication device via the second transmission path, and the rest of the plurality of communication management devices are connected to a terminal device as the communication device via the second transmission path. A communication system in which the server apparatus and the terminal apparatus communicate through the communication management apparatus,
The communication management apparatus to which the server apparatus is connected collects identification information of the terminal apparatus stored in the storage unit of the communication management apparatus to which the terminal apparatus is connected, and the server apparatus requests to the terminal apparatus. And when the collected identification information is duplicated, the request is not sent. The method of claim 5,
A part of the plurality of communication management devices is connected to a server device as the communication device via the second transmission path, and the rest of the plurality of communication management devices are connected to a terminal device as the communication device via the second transmission path. A communication system in which the server apparatus and the terminal apparatus communicate through the communication management apparatus,
The communication management apparatus to which the server apparatus is connected collects identification information of the terminal apparatus stored in the storage unit of the communication management apparatus to which the terminal apparatus is connected, and the server apparatus requests to the terminal apparatus. And when the collected identification information is duplicated, the request is not sent. The method according to claim 6,
A part of the plurality of communication management devices is connected to a server device as the communication device via the second transmission path, and the rest of the plurality of communication management devices are connected to a terminal device as the communication device via the second transmission path. A communication system in which the server apparatus and the terminal apparatus communicate through the communication management apparatus,
The communication management apparatus to which the server apparatus is connected collects identification information of the terminal apparatus stored in the storage unit of the communication management apparatus to which the terminal apparatus is connected, and the server apparatus requests to the terminal apparatus. And when the collected identification information is duplicated, the request is not sent. The method of claim 2,
The plurality of communication management devices include a first communication management device and at least one second communication management device,
The communication device includes a first communication device connected to the first communication management device through a second transmission path, and a second communication device connected to the at least one second communication management device through a second transmission path. and,
The first communication device is configured to transmit a first communication signal peer to peer to the at least one second communication device through the first communication management device,
The second communication management device is at least minimum transmission when the destination of the first communication signal received through its own first communication unit is a second communication device connected to its own second communication unit via a second transmission path. During the period of time, operating in a normal communication mode, configured to transmit a second communication signal including information of part or all of the first communication signal to the second communication device through the second communication unit,
The normal communication mode is a mode for supplying power to the second communication unit from the power supply unit in the second communication management device,
The minimum transmission period is a time required for transmitting a second communication signal to the second communication device, the second communication signal comprising information of part or all of the first communication signal. Communication management apparatus in the communication system of Claim 1. A first communication unit transmitting a first communication signal through a first transmission path;
A second communication unit which transmits a second communication signal through a second transmission path;
A power supply unit to which power is supplied from a power supply device through the first transmission path;
A storage unit that stores identification information of the communication device connected to the second transmission path; And
When the first communication unit receives a first communication signal while operating in a reception standby mode in which power supply from the power supply unit to the second communication unit is stopped, identification information of the communication device included in the received first communication signal To the storage unit, and when the received first communication signal includes the identification information of the communication device, start supply of power from the power supply unit to the second communication unit to perform communication with the communication device. Processing unit
Communication management device comprising a.

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