JP4660978B2 - Power line communication device and communication system - Google Patents

Description

[0001]
BACKGROUND OF THE INVENTION
The present invention relates to a power line communication device and a communication system for constructing a local area network easily and inexpensively.
[0002]
[Prior art]
In recent years, there has been a growing demand for a simple and inexpensive construction of a local area network in a small office or home.
[0003]
Conventionally, in order to construct a local area network, a method of wiring a dedicated line for communication has been taken. In recent years, an example in which a local area network is constructed using radio without using a dedicated line for communication has been increasing. Moreover, since the power line communication apparatus conventionally used uses a power line as a communication path, the installation location of the communication terminal is limited to the vicinity of the power outlet.
[0004]
A conventional local area network configuration will be described below with reference to FIG.
[0005]
FIG. 8A is a configuration diagram showing a case where the communication terminal 10 is connected by the communication dedicated line 45, and FIG. 8B shows a case where the wireless communication device 49 is incorporated in the communication terminal 10 to perform communication at a radio frequency. FIG.
[0006]
When communication is performed using the communication dedicated line 45 as shown in FIG. 8A, since the communication dedicated line 45 is not wired in advance at home or the like, construction for embedding the communication dedicated line 45 in the wall or ceiling is required. If the communication dedicated line 45 is exposed on the surface without performing the embedding work, there is a problem that the aesthetic appearance is impaired. As shown in FIG. 8B, when the wireless communication device 49 is incorporated in the communication terminal 10 to perform communication at a wireless frequency, a high frequency (for example, 2.4 GHz) is used as the wireless frequency. In the communication between the rooms, there is a problem that the communication quality is remarkably deteriorated.
[0007]
[Problems to be solved by the invention]
As described above, the conventional local area network construction method has a problem that it is expensive because it requires construction that does not look good when wiring a dedicated communication line, and it is wireless when wireless is used. Since the communication device is expensive and uses a high frequency (for example, 2.4 GHz), communication quality deteriorates between different rooms, and communication is impossible in the worst case. In addition, when a local area network is constructed using a power line communication device, the installation location of the power line communication device is limited to the vicinity of the outlet, and there are problems such as deterioration of aesthetics due to the installation of the power line communication device. Was.
[0008]
With this power line communication device and communication system, when a local area network is newly constructed in a small office or home, it is not necessary to construct a dedicated communication line by using a power line, and communication By using wireless communication for communication between the device and the power line communication device, the installation location of the communication device is not limited. Further, by integrating with the electrical appliance (for example, fluorescent lamp), the power line communication device It is required to prevent deterioration of aesthetics due to installation.
[0009]
In order to satisfy these requirements, the present invention can eliminate the need for wiring work when newly constructing a local area network, and does not limit the installation location of the communication device, and further deteriorates the aesthetics due to the installation. Power line communication equipment that can be prevented, and when constructing a new local area network, wiring work can be eliminated, and the installation location of the communication equipment is not limited, and the aesthetics deteriorate due to the installation. It is an object of the present invention to provide a communication system that can prevent the above-described problem.
[0010]
[Means for Solving the Problems]
In order to solve the above problems, a power line communication device according to the present invention includes an antenna that transmits and receives wireless signals to and from a wireless communication device, a wireless communication unit that amplifies a wireless signal from the antenna, and power line communication with the wireless signal. A first signal conversion unit for converting into a power line communication signal used in the above, a power line communication unit for transmitting / receiving a power line communication signal to / from a counterpart power line communication device via the power line, and a power line communication signal And a second signal conversion unit for converting the signal into a radio signal.
[0011]
Thereby, when constructing a new local area network, wiring work can be made unnecessary, and a power line communication device that does not limit the installation location of the communication device can be obtained.
[0012]
In order to solve the above problems, a communication system according to the present invention includes a plurality of outlets arranged on the same power line, a plurality of the power line communication devices connected to the plurality of outlets, and the power line communication device. A plurality of power line communication devices transmit a reception signal received from an outlet to the wireless communication device using a wireless signal, and the wireless communication device includes a plurality of wireless communication devices. A configuration is provided in which a signal from the power line communication device is selected using a signal selection reference signal.
[0013]
Thereby, when constructing a new local area network, wiring work can be made unnecessary, and a power line communication device that does not limit the installation location of the communication device can be obtained.
[0014]
DETAILED DESCRIPTION OF THE INVENTION
The power line communication device according to claim 1 of the present invention includes an antenna that transmits and receives a wireless signal to and from the wireless communication device, a wireless communication unit that amplifies the wireless signal from the antenna, and a wireless signal that is transmitted in the power line communication. A first signal conversion unit that converts the power line communication signal to be used, a power line communication unit that transmits / receives a power line communication signal to / from the counterpart power line communication device, and a power line communication signal. And a second signal conversion unit for converting into a radio signal.
[0015]
With this configuration, since communication is performed using a power line, there is no need to wire a dedicated communication line, and by using a wireless communication device, communication can be performed even at a position far away from the outlet. Have.
[0016]
The power line communication device according to claim 2 is the power line communication device according to claim 1, wherein the wireless communication unit is connected to the first signal conversion unit or the second signal conversion unit. And a second changeover switch for connecting the power line communication unit to the first signal conversion unit or the second signal conversion unit, and the first signal conversion unit converts the frequency of the radio signal from the radio communication unit A frequency converter that outputs the first frequency converted signal, an A / D converter that digitizes the first frequency converted signal and outputs the first digital signal, and demodulates the first digital signal A first demodulator that outputs the first demodulated signal, a first modulator that modulates the first demodulated signal and outputs the first modulated signal, and analogizes the first modulated signal A D / A converter for outputting a first analog modulation signal; a first analog; A frequency conversion unit that outputs a power line communication signal obtained by performing frequency conversion of the modulation signal to the power line communication unit via the second changeover switch, and the second signal conversion unit includes a power line A frequency conversion unit that converts the frequency of the power line communication signal from the communication unit and outputs a second frequency conversion signal, and an A / D conversion unit that digitizes the second frequency conversion signal and outputs a second digital signal A second demodulator that demodulates the second digital signal and outputs a second demodulated signal; a second modulator that modulates the second demodulated signal and outputs a second modulated signal; A D / A converter that converts the second modulation signal into an analog signal and outputs the second analog modulation signal, and a radio signal obtained by performing frequency conversion of the second analog modulation signal via the first changeover switch And having a frequency conversion unit that outputs to the wireless communication unit One in which the.
[0017]
With this configuration, communication is performed using a power line, so there is no need to wire a dedicated communication line, and it is possible to communicate with a wireless communication device far away from the outlet by using a wireless communication unit that can communicate between different rooms. And can communicate while moving.
[0018]
The power line communication device according to claim 3 is the power line communication device according to claim 1 or 2, wherein the commercial AC relay unit connected to the power line outlet through a plug and the commercial AC relay unit outputs And an outlet for taking out commercial AC.
[0019]
With this configuration, even if the power line communication device is connected and one power outlet is occupied, the electrical appliance can be connected using the outlet provided in the power line communication device, so that the number of outlets is not reduced. It has the effect of being able to.
[0020]
The power line communication device according to claim 4 is the power line communication device according to any one of claims 1 to 3, wherein the power line communication device is incorporated in an electrical appliance connected to a power line outlet. It is to be integrated.
[0021]
With this configuration, the power line communication device can be disposed in the electrical appliance so as not to be seen, so that the appearance of the room can be prevented from being impaired.
[0022]
The power line communication device according to claim 5 is a wireless communication unit that transmits / receives a wireless signal to / from the wireless communication device, and a first that amplifies the wireless signal from the wireless communication unit and outputs a first amplified signal. An amplifying unit; a power line communication unit that transmits a first amplified signal to the power line; a second amplifying unit that amplifies the power line communication signal from the power line communication unit and outputs a second amplified signal; And a wireless communication unit that transmits the second amplified signal to the wireless communication device, and the wireless signal and the power line communication signal have the same modulation method and frequency.
[0023]
With this configuration, the modulation scheme and frequency are the same in the wireless communication section and the power line communication section, so that the circuit can be simplified.
[0024]
The power line communication device according to claim 6 is a wireless communication unit that transmits / receives a wireless signal to / from the wireless communication device, a wireless signal from the wireless communication unit is demodulated, digital data is determined, and the first The first repeater that modulates the demodulated signal and outputs the same radio signal as the radio signal, the power line communication unit that transmits the same radio signal to the power line, and the power line communication signal from the power line communication unit are demodulated A second repeater that performs determination of digital data, modulates the second demodulated signal, and outputs the same power line communication signal as the power line communication signal to the wireless communication unit, and wireless signal and power line communication The signal has the same modulation method and frequency.
[0025]
This configuration simplifies the circuit because the modulation scheme and frequency are the same in the wireless communication section and the power line communication section. Also, the repeater performs demodulation and digital data determination, and remodulates. It has the effect of enabling long-distance transmission without accumulation.
[0026]
The communication system according to claim 7, wherein a radio signal is transmitted between a plurality of outlets disposed on the same power line, a plurality of the power line communication devices connected to the plurality of outlets, and the power line communication device. A communication system having a wireless communication device for transmitting and receiving, wherein a plurality of power line communication devices transmit a reception signal received from an outlet to the wireless communication device using a wireless signal, and the wireless communication device is a plurality of power line communication devices. Is selected using a signal selection reference signal.
[0027]
With this configuration, a signal having a good quality can be selected from the same signal transmitted from a plurality of different power line communication devices, so that the communication quality can be improved.
[0028]
The communication system according to claim 8 includes a plurality of outlets disposed on the same power line, a plurality of power line communication apparatuses according to claim 1 or 2 connected to the plurality of outlets, and a power line communication apparatus. A wireless communication device that transmits and receives wireless signals to and from the power line communication device, wherein the plurality of power line communication devices transmit the received signal received from the outlet to the wireless communication device using the wireless signal, and the wireless communication device In this case, the signals from the plurality of power line communication devices are weighted based on the signal combining reference signal and then combined.
[0029]
With this configuration, the same signal transmitted from a plurality of different power line communication devices is weighted according to the signal quality and synthesized, whereby the communication quality can be improved.
[0030]
Hereinafter, embodiments of the present invention will be described with reference to FIGS.
[0031]
(Embodiment 1)
FIG. 1 is a block diagram showing a communication system having a power line communication device according to Embodiment 1 of the present invention.
[0032]
In FIG. 1, 1 and 11 are antennas, 2 and 12 are wireless communication units that perform amplification and filtering of signals transmitted and received by the antennas 1 and 11, and 3 and 13 are connected to the wireless communication units 2 and 12, respectively. The communication system conversion unit 3 includes a demodulation unit 3a, a frequency conversion unit 3b, and a modulation unit 3c. The communication system conversion unit 13 includes a demodulation unit 13a, a frequency conversion unit 13b, and a modulation unit 13c. Consists of Reference numerals 4 and 14 are connected to the communication system conversion units 3 and 13, and a power line communication unit that transmits a signal to the power line 6 or receives a signal from the power line 6 via the plugs 5 and 15. Device. The power line communication device 7 includes an antenna 1, a wireless communication unit 2, a communication method conversion unit 3, and a power line communication unit 4. The power line communication device 17 includes an antenna 11, a wireless communication unit 12, a communication method conversion unit 13, and a light. The line communication unit 14 is configured. 8 and 18 are antennas for transmitting and receiving signals to and from the power line communication devices 7 and 17, 9 and 19 are wireless communication units for performing signal amplification and filtering, and 10 is a wireless communication device including the antenna 8, the wireless communication unit 9, and the like. A communication terminal as a communication device, 20 is a communication terminal as a wireless communication device including an antenna 18, a wireless communication unit 19, and the like.
[0033]
The operation of the power line communication devices 7 and 17 configured as described above will be described below.
[0034]
A signal from the wireless communication device (communication terminal) 10 (for example, a signal from a frequency conversion unit in the wireless communication device 10 (not shown)) is modulated, amplified, filtered, and the like in the wireless communication unit 9 and wirelessly transmitted through the antenna 8. Transmitted on frequency. A signal transmitted from the antenna 8 is received by the antenna 1, and is amplified and filtered by the wireless communication unit 2. The output signal of the wireless communication unit 2 is demodulated after frequency conversion in the communication method conversion unit 3. The demodulated signal is re-modulated to the modulation method used in the power line communication and passed to the power line communication unit 4. The power line communication unit 4 transmits a signal to the power line 6 through the plug 5. The power line communication unit 14 of the power line communication device 17 receives a signal from the power line communication device 7 via the plug 15. A received signal from the power line communication device 7 is converted into a communication method used in wireless communication by the communication method conversion unit 13. The signal remodulated by the communication system conversion unit 13 is transferred to the wireless communication unit 12 and transmitted from the antenna 11 to the communication terminal 20 (for example, the wireless communication units 2, 9, 12, and 19 include IrDA, Bluetooth, etc. Is used). The antenna 18 of the communication terminal 20 receives the signal. The received signal is amplified, filtered, and demodulated by the wireless communication unit 19. In this way, stable communication can be performed.
[0035]
As described above, according to the present embodiment, the antenna 1 that transmits and receives wireless signals to and from the wireless communication device 10, the wireless communication unit 2 that amplifies the wireless signals from the antenna 1, and power line communication with the wireless signals. A communication method conversion unit 3 for converting into a power line communication signal used in the above, a power line communication unit 4 for transmitting / receiving a power line communication signal to / from the power line communication device 17 via the power line 6, and a power line communication signal By having the communication method conversion unit 3 that converts the signal into a radio signal, communication is performed using the electric light line 6, so that there is no need to wire a dedicated communication line, and by using the wireless communication devices 10 and 20 Communication is possible even at a position far away from the outlet.
[0036]
(Embodiment 2)
FIG. 2 is a block diagram showing a power line communication device according to Embodiment 2 of the present invention, and shows the power line communication devices 7 and 17 of FIG.
[0037]
In FIG. 2, 1 is an antenna, 2 is a wireless communication unit connected to the antenna 1, 47 is a switch (first changeover switch) connected to the wireless communication unit 2, and 21 is a wireless communication unit 2 via the switch 47. Is connected to the frequency converter 21, 22 is an A / D converter connected to the frequency converter 21, 23 is a demodulator connected to the A / D converter 22, and 24 is a modulator connected to the demodulator 23. , 25 is a D / A converter connected to the modulator 24, 26 is a frequency converter connected to the D / A converter 25, and 48 is a switch (second changeover switch) connected to the frequency converter 26. Reference numeral 4 denotes a power line communication unit connected to the frequency conversion unit 26 via the switch 48, and 5 denotes a plug connected to the power line communication unit 4. 32 is a frequency converter connected to the power line communication unit 4 via the switch 48, 31 is an A / D converter connected to the frequency converter 32, and 30 is connected to the A / D converter 31. A demodulator 29, a modulator connected to the demodulator 30, a D / A converter 28 connected to the modulator 29, and a radio converter 27 connected to the D / A converter 28. The wireless conversion unit 27 is connected to the wireless communication unit 2 via the switch 47. Here, the components 21 to 26 constitute a first signal converter, and the components 27 to 32 constitute a second signal converter.
[0038]
The operation of the power line communication device configured as described above will be described.
[0039]
First, the operation when a radio signal is received will be described. A radio signal is received by the antenna 1. A radio signal from the antenna 1 is amplified and filtered by the radio communication unit 2. The filtered radio signal is converted into a baseband signal (first frequency conversion signal) by the frequency converter 21 connected via the switch 47. The baseband signal from the frequency converter 21 is converted into a digital signal (first digital signal) by the A / D converter 22. The first digital signal is demodulated by the demodulator 23. The output signal (first demodulated signal) of the demodulator 23 is remodulated to a modulation signal (first modulated signal) of the modulation method used in power line communication in the modulator 24. The first modulated signal is converted into an analog signal (first analog modulated signal) in the D / A converter 25. The first analog modulation signal is frequency-converted by the frequency converter 26 and passed to the power line communication unit 4 connected via the switch 48. The power line communication unit 4 transmits a signal (power line communication signal) to the power line 6 (see FIG. 1) via the plug 5.
[0040]
Next, the operation when a signal is received from the power line 6 will be described. The power line communication unit 4 receives a signal (power line communication signal) from the power line 6 via the plug 5. The signal received by the power line communication unit 4 is converted into a baseband signal (second frequency conversion signal) by the frequency conversion unit 32 connected via the switch 48. The baseband signal is converted into a digital signal (second digital signal) by the A / D converter 31 and demodulated by the demodulator 30. The output signal (second demodulated signal) of the demodulator 30 is remodulated by the modulator 29 into a modulation signal (second modulated signal) of the modulation method used in the wireless communication section. The second modulated signal is converted into an analog signal (second analog modulated signal) by the D / A converter 28 and is frequency converted by the wireless converter 27. The frequency-converted signal (that is, a signal having the same format as the radio signal) is output at a radio frequency via the antenna 1 by the radio communication unit 2 connected via the switch 47. In this way, conversion between wireless communication and power line communication is performed.
[0041]
As described above, according to the present embodiment, the first signal conversion units 21 to 26 convert the frequency of the radio signal from the radio communication unit 2 and output the first frequency conversion signal. 21, an A / D converter 22 that digitizes the first frequency converted signal and outputs the first digital signal, and a demodulator 23 that demodulates the first digital signal and outputs the first demodulated signal A modulator 24 that modulates the first demodulated signal and outputs the first modulated signal, a D / A converter 25 that converts the first modulated signal into analog and outputs the first analog modulated signal, A frequency converter 26 that outputs the power line communication signal obtained by performing frequency conversion of the first analog modulation signal to the power line communication unit 4 via the second changeover switch 48, and the second signal The conversion units 27 to 32 are connected to the power line from the power line communication unit 4. A frequency conversion unit 32 that converts the frequency of the signal and outputs a second frequency conversion signal; an A / D conversion unit 31 that digitizes the second frequency conversion signal and outputs a second digital signal; A demodulator 30 that demodulates the digital signal and outputs the second demodulated signal, a modulator 29 that modulates the second demodulated signal and outputs the second modulated signal, and analogizes the second modulated signal A D / A converter 28 that outputs the second analog modulation signal, and a radio signal obtained by performing frequency conversion of the second analog modulation signal are output to the radio communication unit 2 via the first changeover switch 47. Since the communication is performed using the electric light line 6 by having the wireless conversion unit 27 that performs wireless communication, there is no need to wire a dedicated communication line, and by using the wireless communication unit 2, wireless communication far away from the outlet is performed. Communicate with the device It is possible.
[0042]
(Embodiment 3)
FIG. 3 is a block diagram showing a power line communication device according to Embodiment 3 of the present invention.
[0043]
In FIG. 3, 1 is an antenna, 2 is a wireless communication unit connected to the antenna 1, 3 is a communication system conversion unit connected to the wireless communication unit 2, and the communication system conversion unit 3 is a demodulation unit 3a and a frequency conversion unit. 3b, a modulation unit 3c, and the like. 4 is a power line communication unit connected to the communication system conversion unit 3, 5 is a plug connected to the power line communication unit 4, 7 is a power line communication device, 33 is a commercial AC relay unit connected to the plug 5, 34 Is an outlet connected to the commercial AC relay unit 33.
[0044]
The operation of the power line communication device configured as described above will be described.
[0045]
A signal (wireless signal) received by the antenna 1 is amplified and filtered by the wireless communication unit 2. The output signal of the wireless communication unit 2 is converted by the communication system conversion unit 3 into a communication system signal (power line communication signal) used in power line communication. A power line communication signal, which is a signal obtained by converting the communication method, is transmitted by the power line communication unit 4 to the power line 6 (see FIG. 1) via the plug 5. Further, the commercial alternating current input from the plug 5 is relayed by the commercial alternating current relay unit 33 and supplied to the outlet 34 arranged on the front surface or the side surface of the power line communication device 7. The commercial AC relay unit 33 is, for example, a filter configured with a choke coil or a capacitor.
[0046]
As described above, according to the present embodiment, the outlet 34 can be provided in the power line communication device 7, and the decrease in the number of outlets due to the connection of the power line communication device 7 can be prevented.
[0047]
(Embodiment 4)
4 (a) and 4 (b) are partial cross-sectional views showing a power line communication device according to Embodiment 4 of the present invention.
[0048]
In FIG. 4, 35 is a power line communication device, 37 is a lighting fixture, 36 is a ballast provided in the lighting fixture 37, 38 is a fluorescent lamp, 41a is an antenna provided in the power line communication device 35, 5 is a plug, 39 Is an outlet and 40 is a ceiling.
[0049]
The operation of the power line communication device 35 arranged as described above will be described.
[0050]
First, as an example of integration with an electric appliance, integration with a lighting fixture will be described with reference to FIG. The lighting fixture 37 includes a ballast 36, a fluorescent lamp 38, and the like. The power line communication device 35 is inserted into the lighting fixture 37 and integrated with the lighting fixture 37. The power line communication device 35 includes an antenna 41a and can perform wireless communication. Further, by connecting the plug 5 to an outlet 39 provided on the ceiling 40, power line communication can be performed.
[0051]
FIG. 4B shows an example in which the power line communication device 35 is integrated with the plug 5 connected to the outlet 39 provided on the ceiling 40.
[0052]
As described above, according to the present embodiment, since the power line communication device 35 can be disposed in the electrical appliance or the plug 5 so as not to be seen, it is possible to prevent the aesthetic appearance of the room from being impaired.
[0053]
(Embodiment 5)
5 and 6 are block diagrams showing a power line communication apparatus according to Embodiment 5 of the present invention.
[0054]
5 and 6, 1 is an antenna, 2 is a wireless communication unit connected to the antenna 1, 47 is a switch connected to the wireless communication unit 2, 41b is an amplification unit connected to the switch 47, and 48 is an amplification unit. A switch connected to 41 b, 4 is a power line communication unit connected to the switch 48, and 5 is a plug connected to the power line communication unit 4. Reference numeral 42 denotes an amplification unit connected to the power line communication unit 4 via the switch 48 and connected to the wireless communication unit 2 via the switch 47. Reference numerals 43 and 44 denote relay units including a demodulation unit, a determination unit, and a modulation unit.
[0055]
The operation of the power line communication device configured as described above will be described.
[0056]
In FIG. 5, the operation when a radio signal is received will be described first. A radio signal is received by the antenna 1, and the radio communication unit 2 performs amplification and filtering of the radio signal. Here, the modulation method / frequency used in wireless communication is equal to the modulation method / frequency used in power line communication. Therefore, the amplification unit 41b connected to the wireless communication unit 2 via the switch 47 only amplifies the output signal of the wireless communication unit 2.
The power line communication unit 4 connected to the amplifying unit 41b via the switch 48 transmits the signal (power line communication signal) amplified by the amplifying unit 41b to the power line 6 (see FIG. 1). On the contrary, the signal (electric power line communication signal) received from the electric power line 6 is amplified and filtered by the electric power line communication unit 4. The output signal of the power line communication unit 4 is amplified by the amplifying unit 42 connected to the power line communication unit 4 via the switch 48. The amplified signal is output at a radio frequency from the antenna 1 by the wireless communication unit 2 connected to the amplification unit 42 via the switch 47.
[0057]
Next, the power line communication apparatus of FIG. 6 will be described. As shown in FIG. 6, by replacing the amplifying units 41b and 42 in FIG. 5 with relay units 43 and 44 including a demodulating unit, a determining unit, and a modulating unit, the determining unit once determines a digital signal. It can be removed and allows long distance transmission without noise accumulation.
[0058]
As described above, according to the present embodiment, since the modulation method and frequency are the same in the wireless communication section and the power line communication section, the circuit can be simplified, and the relay units 43 and 44 can perform demodulation and digital processing. Since data is determined and remodulation is performed, transmission over a long distance is possible without accumulation of noise.
[0059]
(Embodiment 6)
FIG. 7 is a block diagram showing a communication system according to Embodiment 6 of the present invention.
[0060]
In FIG. 7, 2 and 12 are wireless communication units, and 3 and 13 are communication systems that convert signals output from power line communication units 4 and 14 (described later) into signals of a modulation system used in the wireless communication units 2 and 12. The converters 4 and 14 are power line communication units for amplifying and filtering signals input from plugs 5 and 15 described later, and 5 and 15 are plugs connected to a power line 6 described later, and 6 is combined with commercial AC. A power line for transmitting signals, 7 is a power line communication device, 8 is an antenna, 9 is a wireless communication unit, and 10 is a communication terminal (wireless communication device). The wireless communication units 2 and 12 transmit the converted signals of the communication method to the communication terminal 10 via the antennas 1 and 11. The communication terminal 10 includes an antenna 8, a wireless communication unit 9, and the like.
[0061]
The operation of the power line communication devices 7 and 17 configured as described above will be described.
[0062]
A signal (power line communication signal) sent via the power line 6 is input to different power line communication devices 7 and 17 installed via plugs 5 and 15 at distant positions. The power line communication signals input from the plug 5 and the plug 15 are filtered by the power line communication units 4 and 14. The output signals of the power line communication units 4 and 14 are converted by the communication system conversion units 3 and 13 from the modulation system signal used in the power line communication to the modulation system signal used in the wireless communication. The signal (radio signal) whose modulation scheme is converted in this way is transmitted from the radio communication units 2 and 12 to the communication terminal 10 via the antennas 1 and 11. In the communication terminal 10, signals transmitted from the power line communication devices 7 and 17 are received by the antenna 8, and the wireless communication unit 9 performs processing such as amplification of the output signal (wireless signal) of the antenna 8. Since the power line communication devices 7 and 17 are installed at remote locations, the transfer function of the power line 6 is different, and the quality of the signal received from the power line 6 is different. Therefore, the quality of signals from the power line communication devices 7 and 17 received by the communication terminal 10 is also different. Therefore, the communication terminal 10 uses one of two received signals by using an indicator such as a signal power to noise power ratio (signal selection reference signal, signal synthesis reference signal) of the signals received from the power line communication devices 7 and 17. Or combining two received signals.
[0063]
As described above, according to the present embodiment, since the communication terminal 10 receives signals from the power line communication devices 7 and 17, both signals transmitted from the power line communication devices 7 and 17 are signals. Since the probability that the quality is deteriorated is low, the communication quality can be improved. As another method, the signal may be synthesized after weighting the signal using an index such as a signal power to noise power ratio. In this case as well, the communication quality can be improved.
[0064]
【The invention's effect】
As described above, according to the power line communication device of the first aspect of the present invention, the antenna that transmits and receives a radio signal to and from the radio communication device, the radio communication unit that amplifies the radio signal from the antenna, A first signal conversion unit that converts a radio signal into a power line communication signal used in power line communication, and a power line communication unit that transmits and receives a power line communication signal to / from a counterpart power line communication device via the power line And a second signal conversion unit that converts the power line communication signal into a radio signal, so that communication is performed using the power line, so there is no need to wire a dedicated communication line, and the wireless communication device By using, the advantageous effect that communication can be performed even at a position far away from the outlet is obtained.
[0065]
According to the power line communication device according to claim 2, in the power line communication device according to claim 1, the first switching for connecting the wireless communication unit to the first signal conversion unit or the second signal conversion unit. A switch, and a second changeover switch for connecting the power line communication unit to the first signal conversion unit or the second signal conversion unit, wherein the first signal conversion unit is a frequency of the radio signal from the radio communication unit. A frequency conversion unit that converts the first frequency conversion signal and outputs a first frequency signal, an A / D conversion unit that digitizes the first frequency conversion signal and outputs a first digital signal, A first demodulator that demodulates and outputs a first demodulated signal, a first modulator that modulates the first demodulated signal and outputs a first modulated signal, and analogizes the first modulated signal A D / A converter that outputs a first analog modulation signal and a first analog modulation signal; A frequency conversion unit that outputs a power line communication signal obtained by performing frequency conversion of the analog modulation signal to the power line communication unit via the second changeover switch, and the second signal conversion unit includes a power line A frequency conversion unit that converts the frequency of the power line communication signal from the communication unit and outputs a second frequency conversion signal, and an A / D conversion unit that digitizes the second frequency conversion signal and outputs a second digital signal A second demodulator that demodulates the second digital signal and outputs a second demodulated signal; a second modulator that modulates the second demodulated signal and outputs a second modulated signal; A D / A converter that converts the second modulation signal into an analog signal and outputs the second analog modulation signal, and a radio signal obtained by performing frequency conversion of the second analog modulation signal via the first changeover switch And a frequency converter that outputs to the wireless communication unit Therefore, it is possible to communicate with a wireless communication device far away from the outlet by using a wireless communication unit because communication is performed using an electric light line, and there is no need to wire a dedicated communication line. Effects can be obtained.
[0066]
According to the power line communication device according to claim 3, in the power line communication device according to claim 1 or 2, a commercial AC relay unit connected to the power line outlet via a plug, and a commercial AC relay unit Provided with an outlet for taking out the commercial alternating current output from the electric appliance, even if the power line communication device is connected and one power outlet is occupied, the electric appliance using the outlet provided in the power line communication device is used. Therefore, an advantageous effect that the number of outlets can be prevented from being reduced can be obtained.
[0067]
According to the power line communication device according to claim 4, in the power line communication device according to any one of claims 1 to 3, the power line communication device is incorporated in an electrical appliance connected to a power line outlet. By being integrated, the power line communication device can be arranged in the appliance so as not to be seen, so that an advantageous effect can be obtained in that the appearance of the room can be prevented from being impaired.
[0068]
According to the power line communication device of the fifth aspect, the wireless communication unit that transmits / receives a wireless signal to / from the wireless communication device, the wireless signal from the wireless communication unit is amplified, and the first amplified signal is output. A first amplification unit; a power line communication unit that transmits the first amplified signal to the power line; and a second amplification that amplifies the power line communication signal from the power line communication unit and outputs a second amplified signal. And a radio communication unit that transmits the second amplified signal to the radio communication device, and the radio signal and the power line communication signal have the same modulation method and frequency, so that the radio communication section and the power line communication Since the modulation method and the frequency are equal in the section, an advantageous effect that the circuit can be simplified can be obtained.
[0069]
According to the power line communication device of the sixth aspect, the wireless communication unit that transmits / receives a wireless signal to / from the wireless communication device, the wireless signal from the wireless communication unit is demodulated, the digital data is determined, A first repeater that modulates the demodulated signal 1 and outputs the same radio signal as the radio signal, a power line communication unit that transmits the same radio signal to the power line, and a power line communication signal from the power line communication unit. A second repeater that demodulates, determines digital data, modulates the second demodulated signal, and outputs the same power line communication signal as the power line communication signal to the wireless communication unit; Since the modulation method and frequency are the same as the line communication signal, the modulation method and frequency are the same in the wireless communication section and the power line communication section, so that the circuit can be simplified. Make a decision and remodulate Because, advantageous effect of allowing the transmission of noise accumulation without long distance is obtained.
[0070]
According to the communication system of the seventh aspect, a plurality of outlets disposed on the same power line, a plurality of the power line communication devices connected to the plurality of outlets, and the power line communication device are wirelessly connected. A communication system having a wireless communication device for transmitting and receiving signals, wherein a plurality of power line communication devices transmit a received signal received from an outlet to the wireless communication device using a wireless signal, and the wireless communication device includes a plurality of power lines. By selecting a signal from a communication device using a signal selection reference signal, it is possible to select a signal with good quality from the same signal transmitted from a plurality of different power line communication devices, thereby improving communication quality. The advantageous effect that it can be obtained is obtained.
[0071]
According to the communication system of claim 8, a plurality of outlets disposed on the same power line, a plurality of power line communication devices according to claim 1 or 2 connected to the plurality of outlets, and a power line A communication system having a wireless communication device that transmits and receives wireless signals to and from a communication device, wherein a plurality of power line communication devices transmit a reception signal received from an outlet to the wireless communication device using a wireless signal, and The communication device performs signal weighting on the signals from the plurality of power line communication devices based on the signal synthesis reference signal, and then synthesizes the signal to the same signal transmitted from a plurality of different power line communication devices. By combining the weights according to the quality, it is possible to obtain an advantageous effect that the communication quality can be improved.
[Brief description of the drawings]
FIG. 1 is a block diagram showing a communication system having a power line communication device according to a first embodiment of the present invention.
FIG. 2 is a block diagram showing a power line communication device according to a second embodiment of the present invention.
FIG. 3 is a block diagram showing a power line communication device according to a third embodiment of the present invention.
4A is a partial cross-sectional view showing a power line communication device according to a fourth embodiment of the present invention; FIG. 4B is a partial cross-sectional view showing a power line communication device according to a fourth embodiment of the present invention;
FIG. 5 is a block diagram showing a power line communication device according to a fifth embodiment of the present invention.
FIG. 6 is a block diagram showing a power line communication device according to a fifth embodiment of the present invention.
FIG. 7 is a block diagram showing a communication system according to a sixth embodiment of the present invention.
FIG. 8A is a configuration diagram showing a case where communication terminals are connected by a dedicated communication line.
(B) Configuration diagram showing a case where a wireless communication device is incorporated in a communication terminal and performs communication at a radio frequency.
[Explanation of symbols]
1, 8, 11, 18, 41a Antenna
2, 9, 12, 19 Wireless communication unit
3,13 Communication system converter
3a, 13a, 23, 30 Demodulator
3b, 13b, 21, 26, 27, 32 Frequency converter
3c, 13c, 24, 29 Modulator
4,14 Power Line Communication Department
5,15 plug
6 Power line
7, 17, 35 Power line communication device
10, 20 Communication terminal (wireless communication device)
22, 31 A / D converter
25, 28 D / A converter
33 Commercial AC Relay Department
34, 39 outlet
36 Ballast
37 Lighting equipment
38 Fluorescent light
40 Ceiling
41b, 42 Amplifier
43, 44 Relay section
47 switch (first changeover switch)
48 switches (second changeover switch)

Claims (5)

A first power line communication device connected to a first power line having a first transfer function; and a second power line connected to a second power line having a second transfer function different from the first transfer function. Wireless signal is transmitted and received between the second power line communication device and the first power line communication device via the first wireless transmission path, and the second power line is transmitted via the second wireless transmission path. A wireless communication device that transmits and receives wireless signals to and from the communication device,
The first power line communication device and the second power line communication device include an antenna that transmits and receives a wireless signal to and from the wireless communication device, a wireless communication unit that amplifies a wireless signal received by the antenna, A first signal conversion unit that converts a radio signal into a power line communication signal used in power line communication, and a power line communication unit that transmits and receives a power line communication signal to / from a counterpart power line communication device via the power line And a second signal conversion unit that converts the power line communication signal into a radio signal,
The wireless communication device includes a first wireless signal transmitted from the first power line communication device via the first wireless communication path and the second power line via the second wireless communication path. A wireless communication unit that receives the second wireless signal transmitted from the communication device;
The radio communication unit selects the first radio signal or the second radio signal based on a signal-to-noise power ratio of the first radio signal and the second radio signal, or the first radio signal A communication system for combining a radio signal and the second radio signal. The communication system according to claim 1,
At least one of the first power line communication device and the second power line communication device includes a commercial AC relay unit connected to a power line outlet through a plug, and a commercial AC output from the commercial AC relay unit A communication system including an outlet for taking out alternating current . The communication system according to claim 1 or 2, wherein
A communication system in which at least one of the first power line communication device and the second power line communication device is incorporated and integrated in an electrical appliance . The communication system according to any one of claims 1 to 3,
A communication system in which at least one of the first power line communication device and the second power line communication device determines a wireless signal from the wireless communication unit and a power line communication signal from the power line communication unit. An antenna that transmits and receives radio signals; a radio communication unit that amplifies radio signals received by the antenna; a first signal conversion unit that converts the radio signals into power line communication signals used in power line communication; A power line communication unit that transmits and receives a power line communication signal to and from the power line communication device, and a second signal conversion unit that converts the power line communication signal into a radio signal. A first power line communication device connected to a first power line having a transfer function and a second power line connected to a second power line having a second transfer function different from the first transfer function A wireless communication device that communicates with a communication device,
A first wireless signal transmitted from the first power line communication device via the first wireless transmission line and a second signal transmitted from the second power line communication device via the second wireless transmission line. A wireless communication unit for receiving the wireless signal of
The radio communication unit selects the first radio signal or the second radio signal based on a signal-to-noise power ratio of the first radio signal and the second radio signal, or the first radio signal A wireless communication device for combining a wireless signal and the second wireless signal.

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