JP4650262B2 - AC adapter and power line communication system using the same - Google Patents

Description

  Even if the power line communication device such as an imaging device or an image display device is disposed at a place away from the outlet, the power line communication device suppresses unnecessary radiation generated from the cable and performs power line communication. The present invention relates to an AC adapter and a power line communication system using the same.

  In recent years, there has been a growing demand for building a LAN (Local Area Network) simply and inexpensively in a small office or home. In particular, there is a growing demand for simple and inexpensive construction of communication devices such as network cameras and monitoring monitors that can be monitored by remote control that can provide safety and security in terms of crime prevention and security.

  In order to construct such a LAN, conventionally, a method of wiring a dedicated line for communication such as Ethernet (registered trademark) has been taken. In particular, the demand for wireless LAN is increasing because no wiring is required. On the other hand, various power line communication devices have been proposed as means for realizing power supply and communication to these communication devices using only a power line (see, for example, Patent Document 1). The power line communication device performs communication by superimposing a communication signal of power line communication using OFDM (Orthogonal Frequency Division Multiplexing) on a commercial AC voltage (for example, AC 100 V, 60 Hz). For this reason, the power line communication apparatus requires an AC adapter including a converter circuit that supplies power to the communication device, a coupler circuit that superimposes the power line signal on the commercial AC power source, and a power line communication modem built in the communication device.

  A conventional power line communication apparatus will be described below. FIG. 6 is a hardware block diagram of a conventional power line communication apparatus. When the power line communication modem 30 receives a communication signal for power line communication, first, the power line 1 is commercialized to the AC adapter 5 including the coupler circuit 3 and the signal superposition separation circuit 4 via the AC cable 2 such as a VVF cable. AC voltage is input. The AC adapter 5 converts the input commercial AC voltage into a DC voltage. A communication signal for power line communication is superimposed on a DC voltage by a signal superimposing / separating circuit 4 via a coupler circuit 3 and sent to a power line communication modem 30 and a communication terminal (not shown) via a DC cable 6.

On the other hand, when the power line communication modem 30 transmits a communication signal for power line communication, the communication signal from the power line communication modem 30 is superimposed on the DC voltage and sent to the AC adapter 5 via the DC cable 6. The communication signal is separated from the DC voltage by the signal superposition separation circuit 4 of the AC adapter 5. The separated communication signal is further superimposed on the commercial AC voltage via the coupler circuit 3 and output to the power line 1.
JP 2000-165304 A

  Incidentally, an image display device such as a network camera or an image display device such as a monitor is often installed on a wall or ceiling, and a cable having a length of 0.5 m to 10 m or more is often used. In particular, the imaging device is usually arranged in various places from the viewpoint of crime prevention and security, and it is desired to lengthen the cable so that the imaging device can be arranged in a place away from the outlet. Yes.

  However, when the above-described conventional power communication device is applied to such an imaging device or image display device, the AC cable can be easily lengthened when the power line communication modem is disposed away from the outlet. There was inconvenience that we could not do. In other words, since AC cables are directly connected to power lines to which various electrical devices are connected, if these electrical devices include electrical devices that generate noise, etc., when the cable length is increased. There is a disadvantage that unnecessary radiation increases under the influence of noise. In addition, since a commercial AC voltage is always applied to the AC cable, there is a problem in that unnecessary radiation from the commercial AC voltage occurs unless a process for controlling the degree of balance is performed.

  On the other hand, by making the DC cable longer, it becomes possible to reduce unnecessary radiation compared to the case where the AC cable is made longer. However, if the DC cable is simply made longer, the signal level of the communication signal is attenuated. There was an inconvenience. On the other hand, it is possible to secure the signal level to some extent by amplifying the signal level in advance, but there is a disadvantage that unnecessary radiation increases correspondingly.

  In view of the above problems, an object of the present invention is to provide an AC adapter and a power line communication system using the same that can suppress unnecessary radiation even when the cable length of a DC cable is increased. .

  A first invention made to solve the above problems is an AC adapter (5) that is freely connectable to a power line (1) and converts an AC voltage of the power line into a DC voltage, the main body (50), Provided with a plug (23) connectable to a power line, a DC cable (6) provided on the main body and capable of outputting a DC voltage, and a circuit module for connecting the plug and the DC cable. An AC / DC converter (13) that converts an AC voltage supplied from the plug into a DC voltage, and a DC voltage converted by the AC / DC converter is output via a DC cable and input via a DC cable. A signal separation circuit (4) for separating a communication signal for power line communication from a DC voltage converted by an AC / DC converter, and a signal for the communication signal separated by the signal separation circuit An amplifying circuit for amplifying the bell (17), a communication signal whose signal level is amplified by the amplifier circuit, superimposed on the AC voltage are those having a coupler circuit (22) for outputting via a plug.

  2nd invention is AC adapter (5) which is 1st invention, Comprising: A circuit module further has the attenuation circuit (18) which attenuates the signal level of a communication signal, and coupler circuit (22) is Further, the communication signal is separated from the AC voltage supplied from the plug (23), the attenuation circuit (18) attenuates the signal level of the communication signal separated by the coupler circuit, and the signal separation circuit (4) Further, the communication signal whose signal level is attenuated by the attenuation circuit is superimposed on the DC voltage converted by the AC / DC converter, and the DC voltage on which the communication signal is superimposed is output via the DC cable (6). is there.

  3rd invention is provided with the AC adapter (5) which is 1st or 2nd invention, and the power line communication apparatus (for example, 7) connectable via AC adapter (5) and DC cable (6), The power line communication device includes a power line communication modem (30) that receives a DC voltage from the DC cable (6), transmits and receives communication signals via the DC cable, and performs power line communication.

  A fourth invention is the power line communication system (100) according to the third invention, wherein the communication signal includes image data, and the power line communication device (for example, 7) further captures the image of the subject to obtain the image data. An image pickup device (15) that outputs to a power line communication modem (30), and the power line communication modem outputs input image data as a communication signal to an AC adapter (5) via a DC cable (6) It is.

  A fifth invention is a power line communication system (100) according to the third invention, wherein the communication signal includes image data, and the power line communication device (for example, 7) further includes an image display device for displaying an image. The power line communication modem (30) outputs a communication signal inputted via the DC cable (6) to the image display device.

  A sixth invention is an AC adapter (5) that is connectable to a power line (1) and converts an AC voltage of the power line into a DC voltage, and is provided in the main body (50) and the main body, and is connectable to the power line. A plug (23), a DC cable (6) provided in the main body and capable of outputting a DC voltage, and a circuit module for connecting the plug and the DC cable are provided, and the circuit module converts the AC voltage supplied from the plug to DC. An AC / DC converter (13) for converting the voltage, a coupler circuit (22) for separating a communication signal for power line communication from an AC voltage supplied from a plug, and a signal level of the communication signal separated by the coupler circuit is attenuated The attenuation circuit (18) and the communication signal whose signal level is attenuated by the attenuation circuit are superimposed on the DC voltage converted by the AC / DC converter, and the communication signal is superimposed. The flow voltage, in which a signal superimposing circuit for outputting through (4) DC cable.

  The numbers in parentheses indicate the corresponding elements in the drawings for the sake of convenience in order to help understanding of the present invention. Therefore, the present description is not limited to the description on the drawings, and the present invention should not be construed by the description of the reference numerals.

  According to the first invention, since the signal level of the communication signal is amplified on the AC adapter side, the communication signal input via the DC cable is transmitted on the DC cable with the signal level reduced. I can do it. Thereby, even if it is a case where the cable length of a DC cable is lengthened, unnecessary radiation can be suppressed.

  According to the second invention, since the signal level of the communication signal separated from the power line is attenuated on the AC adapter side, the communication signal output through the DC cable is reduced in the DC signal level while the signal level is reduced. It can be transmitted on the cable. Thereby, in any transmission / reception of a communication signal via a DC cable, unnecessary radiation can be suppressed.

  According to the third invention, since the communication signal can be transmitted on the DC cable in a state where the signal level is reduced, the power line communication device is separated from the AC adapter while suppressing unnecessary radiation. Can be placed in place.

  According to the fourth invention, it is possible to dispose the imaging device at a location away from the AC adapter while suppressing unnecessary radiation.

  According to the fifth aspect, the image display device can be arranged at a location away from the AC adapter while suppressing unnecessary radiation.

  According to the sixth invention, since the signal level of the communication signal separated from the power line is attenuated on the AC adapter side, the communication signal output through the DC cable is reduced in the DC signal level while the signal level is reduced. It can be transmitted on the cable. Thereby, in any transmission / reception of a communication signal via a DC cable, unnecessary radiation can be suppressed.

  The power line communication system includes a power line communication device and an AC adapter. The power line communication device refers to a communication device that performs power line communication. Specifically, the power line communication device is a communication device that performs at least one of a transmission operation and a reception operation of a communication signal using a multicarrier or the like, and superimposes the communication signal on a commercial AC voltage (for example, AC 100 V, 60 Hz) Or it is a communication apparatus which isolate | separates the communication signal superimposed on the alternating current power of the power line. When performing both the transmission operation and the reception operation, the power line communication device includes a power line communication modem that modulates and demodulates communication signals. As a modulation method, there are OFDM (Orthogonal Frequency Division Multiplexing) and SS (Spectrum Spread).

  In this embodiment, a network camera to which a power line communication system is applied will be described. A network camera is an example of an imaging apparatus that images a subject and outputs image data. The “network camera” in this specification refers to an imaging device that can freely output a communication signal including image data via a network such as a LAN (Local Area Network). Hereinafter, embodiments of the present invention will be described with reference to the drawings.

(Embodiment 1)
FIG. 1A is an overall perspective view of a network camera to which the power line communication system according to the first embodiment of the present invention is applied. FIG.1 (b) is a rear view of the network camera to which the power line communication system of Embodiment 1 which concerns on this invention is applied.

  The power line communication system 100 includes a network camera 7 and an AC adapter 5 which are examples of a power line communication device. As shown in FIG. 1A, the network camera 7 includes a housing 70, and the housing 70 is provided with a lens / CMOS sensor 8 and an indicator 9. As shown in FIG. 1B, the network camera 7 is provided with a DC jack 10 to which a DC cable 6 can be connected. The DC cable 6 is a cable capable of transmitting a DC voltage, and is provided with a DC plug 11 at one end.

  As shown in FIG. 1A, the AC adapter 5 has a main body including a housing 50, and the housing 50 is provided with a plug 23 and a DC cable 6. The AC adapter 5 is a direct plug-in type AC adapter, and is directly connected to a commercial outlet (not shown) by the plug 23. Note that the DC cable 6 does not need to be directly connected to the housing 50, and another DC plug is provided at the other end of the DC cable 6 so that the DC cable 6 and the AC adapter 5 are configured separately. It is also possible.

  The AC adapter 5 and the network camera 7 are connected by a DC cable 6, and the power supply and power line communication can be realized by inserting the DC plug 11 at the end of the cable into the DC jack 10 of the network camera 7. The DC plug 11 can be detached from the network camera. The network camera 7 is provided with an indicator 9 on the front surface that indicates the communication state of the power line communication with the lens / CMOS sensor 8.

  FIG. 2 is a hardware block diagram of a network camera and an AC adapter to which the power line communication system according to the first embodiment of the present invention is applied.

  The AC adapter 5 has a circuit module composed of various circuits shown in FIG. Specifically, the circuit module superimposes a signal from the line filter circuit 12 that generates a DC voltage from a commercial AC voltage, a converter circuit 13, and a power line communication modem on the commercial AC voltage, and transmits a transmission signal from the power line communication modem. An amplifier circuit (Amplifier 2) 17 that amplifies before being superimposed on the commercial AC voltage, an attenuation circuit (Attenuator) 18 that attenuates a communication signal received from the commercial AC voltage, a coupler circuit 3 having a coupler transformer 22, and a converter circuit 13 And a signal superposition / separation circuit 4 that superimposes / separates communication signals.

  The signal superposition separation circuit 4 is an example of a signal superposition circuit and a signal separation circuit. In the case of FIG. 2, the signal superimposing / separating circuit 4 is configured by the choke coil 14 and the capacitor 51, but may be configured to short-circuit the choke coil 14. In addition, the circuit module does not need to be composed of only these circuits.

  The AC adapter 5 and the network camera 7 are connected via a DC cable 6 having a pair (two). The network camera 7 is a pair of cables because the DC voltage flowing through the DC cable 6 is one kind of voltage, but the number can be changed according to the number of outputs. The network camera 7 includes a network camera module 15, a power line communication modem 30, and a signal superposition separation circuit 4, and the signal superposition separation circuit 4 has the same configuration as the signal superposition separation circuit 4 of the AC adapter 5. The network camera module 15 and the power line communication modem 30 are configured by connecting the LAN transmission / reception units of the ETHER_PHY 16 to each other.

  The operation of the power line communication system integrated with an AC adapter in the first embodiment configured as described above will be described below.

  The video signal from the network camera module 15 is sent to the power line communication modem 30 via the ETHER_PHY 16. The power line communication modem 30 converts an Ethernet (registered trademark) signal from the ETHER_PHY 16 into a communication signal by the PLC_CPU 19 and the AFE_IC 20, amplifies the signal to a predetermined voltage / power by the amplifier circuit (Amplifier 1) 21, or converts it to a low impedance, and then converts the signal superimposition separation circuit 4. Sent to. The communication signal sent to the signal superimposing / separating circuit 4 is superimposed on the DC voltage, separated from the DC voltage by the signal superimposing / separating circuit 4 of the AC adapter 5 via the DC cable 6, and superimposed on the coupler circuit 3. The communication signal input to the coupler circuit 3 is amplified to power necessary for power line communication by the amplifier circuit 17 and sent to the power line 1. Examples of the amplifying means include an amplification with an operational amplifier and a transistor and a boosting method using a coupler transformer 22.

  The above operation will be described using FIG. 3 and FIG. 7 while comparing with the conventional power line communication. FIG. 3A is an explanatory diagram of signal levels when the power line communication apparatus according to the first embodiment of the present invention performs a transmission operation, and FIG. 3B is power line communication according to the first embodiment of the present invention. It is explanatory drawing of the signal level at the time of an apparatus performing transmission operation. FIG. 7A is an explanatory diagram of a signal level when the conventional power line communication device performs a transmission operation, and FIG. 7B is an explanatory diagram of a signal level when the conventional power line communication device performs a transmission operation. is there.

  In the conventional power line communication device, since there is cable loss in the DC cable 6 and the AC cable (commercial power cord) 2, the output of the amplifier circuit 21 needs to be higher in voltage and power than the power sent to the power line 1. is there. For this reason, a signal passing through the DC cable 6 has a large cable loss and an unnecessary radiation noise. The emission from the coupler circuit 3 to the power line also causes the cable loss of the AC cable 2 and increases the unnecessary radiation noise.

  On the other hand, the power line transmission apparatus of the present invention suppresses the output from the amplifier circuit 21 and amplifies it by the coupler circuit 3. Accordingly, since communication signals passing through the DC cable 6 can be suppressed, cable loss and unnecessary radiation noise can be reduced. Further, since the communication signal amplified by the coupler circuit 3 is directly connected to the power line 1 by the plug 23 without using the AC cable 2, there is no cable loss. Therefore, even if the cable length is long, unnecessary radiation noise is also generated. Can be suppressed.

  Next, reception of communication signals for power line communication will be described with reference to FIG.

  A communication signal received from the power line 1 is input to the coupler circuit 3 of the AC adapter 5. The coupler circuit 3 attenuates the signal level (power) of the communication signal and sends it to the signal superposition separation circuit 4. As a means for attenuating, there are an attenuator (resistance), a step-down method by the coupler transformer 22, and the like. The communication signal sent to the signal superimposing / separating circuit 4 is superimposed on the DC voltage, separated from the DC voltage by the signal superimposing / separating circuit 4 of the network camera 7 via the DC cable 6, and Ethernet (registered) from the communication signal by the AFE_IC 20 and the PLC_CPU. (Trademark) signal is transmitted from the ETHER_PHY 16 to the EHTER_PHY 16 of the network camera module 15 to communicate with the network camera module 15.

  The above operation will be described using FIG. 5 while comparing with the conventional power line communication.

  In the conventional power line communication, the communication signal received from the power line 1 causes a cable loss in the AC cable 2, so that a large unnecessary radiation noise is generated. Since the signal level of the communication signal input to the coupler circuit 3 is sent to the DC cable 6 without being attenuated, the reception voltage / power passing through the DC cable 6 is large, resulting in an increase in cable loss and unnecessary radiation noise. . The communication signal input to the AFE_IC 20 also has a large excess input voltage or power necessary for communication. On the other hand, in the power line reception of the present invention, since the communication signal from the power line 1 is directly input to the coupler circuit 3 through the plug 23, cable loss does not occur and unnecessary radiation noise can be suppressed. The coupler circuit 3 attenuates the signal level of the communication signal by the attenuation circuit 18 and the coupler transformer 22 so that the excessive voltage and power received by the power line communication modem 30 are reduced, and sends the signal to the signal superposition separation circuit 4 by the DC cable 6. Therefore, even if the cable length is long, unnecessary radiation noise can be suppressed.

(Embodiment 2)
FIG. 4 is a hardware block diagram of a network camera and an AC adapter to which the power line communication system according to the second embodiment of the present invention is applied.

  4 is different from the first embodiment in that the attenuation circuit 18 of the coupler circuit 3 is deleted.

  The operation of the AC adapter-integrated power line communication system according to Embodiment 2 configured as described above will be described below.

  Transmission from the power line communication modem 30 to the power line 1 is the same as the operation described in the first embodiment and FIG. For reception from the power line 1 to the power line communication modem 30, power line communication is performed without attenuating the signal level of the communication signal. Therefore, the cable loss from the coupler circuit 3 to the power line 1 and the cable loss at the time of transmission from the power line communication modem 30 to the AC adapter 5 can be reduced, and unnecessary radiation noise can be suppressed even if the cable length is long.

(Embodiment 3)
FIG. 5 is a hardware block diagram of a network camera and an AC adapter to which the power line communication system according to the third embodiment of the present invention is applied.

  5 is different from the first embodiment in that the amplifier circuit 17 of the coupler circuit 3 is deleted.

  The operation of the power line communication system integrated with an AC adapter in the third embodiment configured as described above will be described below.

  Reception from the power line 1 to the power line communication modem 30 is the same as the operation described in the first embodiment and FIG. Transmission from the power line communication modem 30 to the power line 1 is not amplified by the AC adapter 5, but a communication signal required for the power line is transmitted by the amplifier circuit 21 of the power line communication modem 30.

  As described above, in the power line communication system of the third embodiment, the cable loss from the coupler circuit 3 to the power line 1 and the cable loss at the time of reception from the AC adapter 5 to the power line communication modem 30 can be reduced, and the cable length is long. However, unnecessary radiation noise can be suppressed.

  In Embodiments 1 to 3 described above, the network camera to which the power line communication system is applied has been described. However, the network camera is not necessarily an imaging device. For example, the present invention can be applied to an image display device that displays an image. Even when an image display device such as a display or a television is arranged at a location away from the outlet to transmit / receive image data, the same effect as described above can be obtained.

  In the AC adapter and the power line communication system of the present invention, even when a power line communication device such as an imaging device or an image display device is arranged at a location away from the outlet, the power line communication device generates unnecessary radiation generated from the cable. This has the effect that power line communication can be performed while suppressing, and is particularly useful when the imaging device is placed away from the outlet from the viewpoint of crime prevention and security.

(A) The whole perspective view of the network camera which applied the power line communication system of Embodiment 1 which concerns on this invention, (b) The rear view of the network camera which applied the power line communication system of Embodiment 1 which concerns on this invention Hardware block diagram of a network camera and an AC adapter to which the power line communication system according to the first embodiment of the present invention is applied (A) An explanatory diagram of signal levels when the power line communication apparatus according to the first embodiment of the present invention performs a transmission operation, (b) when the power line communication apparatus according to the first embodiment of the present invention performs a transmission operation. Illustration of signal level Hardware block diagram of network camera and AC adapter to which power line communication system of embodiment 2 according to the present invention is applied Hardware block diagram of network camera and AC adapter to which power line communication system of embodiment 3 according to the present invention is applied Hardware block diagram of a conventional power line communication device (A) An explanatory diagram of a signal level when a conventional power line communication device performs a transmission operation, (b) an explanatory diagram of a signal level when a conventional power line communication device performs a transmission operation

Explanation of symbols

DESCRIPTION OF SYMBOLS 1 Power line 2 AC cable 3 Coupler circuit 4 Signal superposition separation circuit 5 AC adapter 6 Cable 7 Network camera 8 Lens / CMOS sensor 9 Indicator 10 DC jack 11 DC plug 12 Line filter circuit 13 Converter circuit 14 Choke coil 15 Capacitor 16 ETHER_PHY
17 Amplifying circuit 18 Attenuating circuit 19 PLC_CPU
20 AFE_IC
21 Amplifying circuit 22 Coupler transformer 23 Plug 30 Power line communication modem

Claims (6)

An AC adapter that is freely connectable to a power line and converts an AC voltage of the power line into a DC voltage,
The body,
A plug provided on the main body and connectable to the power line;
A DC cable provided in the main body and capable of outputting a DC voltage;
A circuit module for connecting the plug and the DC cable;
The circuit module is
An AC / DC converter that converts an AC voltage supplied from the plug into a DC voltage;
A DC voltage converted by the AC / DC converter is output via the DC cable, and a communication signal for power line communication input via the DC cable is converted from the DC voltage converted by the AC / DC converter. A signal separation circuit to separate;
An amplification circuit for amplifying the signal level of the communication signal separated by the signal separation circuit;
An AC adapter comprising: a coupler circuit that outputs a communication signal, the signal level of which has been amplified by the amplifier circuit, being superimposed on the AC voltage and output via the plug. The AC adapter according to claim 1,
The circuit module further comprises:
An attenuation circuit for attenuating the signal level of the communication signal;
The coupler circuit further separates the communication signal from an AC voltage supplied from the plug,
The attenuation circuit attenuates the signal level of the communication signal separated by the coupler circuit,
The signal separation circuit further superimposes a communication signal having a signal level attenuated by the attenuation circuit on a DC voltage converted by the AC / DC converter, and converts the DC voltage superimposed with the communication signal to the DC cable. AC adapter to output via The AC adapter according to claim 1 or 2,
A power line communication device connectable via the AC adapter and a DC cable;
The power line communication apparatus includes a power line communication modem that receives a DC voltage supplied from the DC cable and transmits and receives the communication signal via the DC cable to perform power line communication. A power line communication system according to claim 3,
The communication signal includes image data,
The power line communication device further includes an imaging device that images a subject and outputs image data to the power line communication modem.
The power line communication modem outputs the input image data as the communication signal to the AC adapter via the DC cable. A power line communication device system according to claim 3,
The communication signal includes image data,
The power line communication device further includes an image display device for displaying an image,
The power line communication modem is a power line communication system that outputs the communication signal input via the DC cable to the image display device. An AC adapter that is freely connectable to a power line and converts an AC voltage of the power line into a DC voltage,
The body,
A plug provided on the main body and connectable to the power line;
A DC cable provided in the main body and capable of outputting a DC voltage;
A circuit module for connecting the plug and the DC cable;
The circuit module is:
An AC / DC converter that converts an AC voltage supplied from the plug into a DC voltage;
A coupler circuit for separating a communication signal for power line communication from an AC voltage supplied from the plug;
An attenuation circuit for attenuating the signal level of the communication signal separated by the coupler circuit;
A signal superimposing circuit that superimposes a communication signal having a signal level attenuated by the attenuation circuit on a DC voltage converted by the AC / DC converter, and outputs the DC voltage superimposed with the communication signal via the DC cable. AC adapter with

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