JP2019110459A5 - - Google Patents

Description

The wireless communication device according to claim 7 includes the accommodation means for accommodating the components of the wireless communication device in the wireless communication device according to any one of claims 1 to 6.
The wireless communication device according to claim 8 is the wireless communication device according to any one of claims 1 to 7, wherein the communication means performs long-distance wireless communication within at least a predetermined distance.
The wireless communication device according to claim 9 is the wireless communication device according to any one of claims 1 to 8, wherein the antenna is located at a relatively high position at a predetermined height with respect to the ground. is set up.
The antenna according to claim 10 is an antenna that transmits or receives radio waves for wireless communication performed via a communication means mounted on a circuit board, and the antenna is integrated with the circuit board. It is a linear antenna that is provided so as to project from the circuit board.
The antenna according to claim 11 is the antenna according to claim 10, wherein the antenna transmits / receives radio waves for long-distance wireless communication within a predetermined distance performed via the communication means.
The antenna according to claim 12 is the antenna according to claim 10 or 11, wherein the antenna is installed at a relatively high position which is a position at a predetermined height with respect to the ground.

According to the radio communication apparatus according to claim 3, by that the antenna is short-circuited galvanically, for example, when a high voltage is generated in the antenna by induction lightning, antenna currents caused by the high voltage Since the current can flow directly from the antenna to the ground, it is possible to prevent the current from being supplied to the communication means side, and it is possible to prevent a failure of the wireless communication device.

According to the wireless communication device according to claim 6, the first signal is provided between the other communication device side and the communication means side in a state where the other communication device side and the circuit board side are electrically cut off. or by transmitting the second signal, for example, it is possible to electrically isolate the communication unit side other communication apparatus to each other, when a high voltage is generated in the antenna by induction lightning, the It is possible to secure a reliable electric circuit that allows current due to high voltage to flow from the antenna to the ground. Therefore, it is possible to reliably prevent the current from being supplied to the communication means side, and it is possible to reliably prevent the failure of the wireless communication device.

(Induction lightning)
Next, a description will be given induction lightning wireless communication device 900. By "induction lightning", it is that the high voltage is generated in the antenna under the influence of such lightning or thunder cloud. Such induction lightning, when high voltage is generated in the antenna 93 of FIG. 8, first feed point 931 of antenna 93, the second feeding point 932 is DC short in some antenna 93 to each other Moreover, since the second feeding point 932 of the antenna 93 is DC-shortened to the ground via the security ground wire 63, the current due to the generated high voltage is the second feeding point 932 of the antenna 93. and so is supplied to the ground via the safety grounding wire 63, it is possible to prevent that the corresponding current is supplied to the communication module 1 side, prevent failure of the wireless communication device 900 according to the induction lightning It becomes possible to do.

Further, by the antenna 93 is shorted galvanically, for example, when a high voltage is generated in the antenna 93 by induction lightning, can flow directly to ground the current caused by the high voltage from the antenna 93 Therefore, it is possible to prevent the current from being supplied to the communication module 1 side, and it is possible to prevent a failure of the wireless communication device 900.

(About photocoupler)
Further, a photocoupler that performs photoelectric conversion may be provided for the wireless communication device 900 of FIG. 8 of the above embodiment. The photocoupler is the above-mentioned cutoff transmission means. The position where the photocoupler is provided is arbitrary, but for example, a photocoupler is provided between the multiplexer 2 and the communication module 1, and the communication equipment 800 side connected to the first connector 4 or the second connector 5 and the communication module 1 are provided. The side may be electrically cut off (signal transmission by photoelectric conversion of the photocoupler is possible). Specifically, first, a photocoupler is provided between the secondary side transmission terminal 27 and the secondary side reception terminal 28 of the multiplexer 2 and the transmission terminal 13 and the reception terminal 14 of the communication module 1, and then the communication module 1 The position where the power supply terminal 41 of the first connector 4 and the power supply terminal 51 of the second connector 5 are cut off from the power supply terminal 11 of the above, and the ground terminal 12 of the communication module 1 is connected in the ground pattern 61. The connection between the and the position where the ground terminal 22 of the multiplexer 2 is connected is cut off. Next, the wireless communication device 900 is provided with a battery (for example, a secondary battery charged from a solar panel, or any other battery, etc.), and the power supply voltage from this battery is supplied to the communication module 1 to supply the battery. The communication module 1 may be driven. In this configuration, the communication equipment 800 side and the communication module 1 side are connected with each other in a state where the communication equipment 800 side and the circuit board 94 side (specifically, the communication module 1 side) are electrically cut off. by transmitting the first signal or the second signal between, for example, it is possible to electrically isolate the communication equipment 800 side and the communication module 1 side to each other, a high voltage to the antenna 93 by induction lightning When it occurs, it is possible to secure a reliable electric circuit for flowing the current caused by the high voltage from the antenna 93 to the ground. Therefore, it is possible to reliably prevent the current from being supplied to the communication module 1 side, and it is possible to reliably prevent the failure of the wireless communication device 900.

According to the radio communication apparatus according to note 3, by that the antenna is short-circuited galvanically, for example, when a high voltage is generated in the antenna by induction lightning current caused by the high voltage from the antenna Since it can flow directly to the ground, it is possible to prevent the current from being supplied to the communication means side, and it is possible to prevent a failure of the wireless communication device.

According to the wireless communication device described in Appendix 6, the first signal or the first signal or between the other communication device side and the communication means side in a state where the other communication device side and the circuit board side are electrically cut off. by transmitting a second signal, for example, it is possible to electrically isolate the communication unit side other communication apparatus to each other, when a high voltage is generated in the antenna by induction lightning, the high It is possible to secure a reliable electric circuit for passing the current caused by the voltage from the antenna to the ground. Therefore, it is possible to reliably prevent the current from being supplied to the communication means side, and it is possible to reliably prevent the failure of the wireless communication device.

Claims (12)

The circuit board on which the communication means is mounted and
An antenna for transmitting or receiving radio waves for wireless communication performed via the communication means is provided.
The antenna is a linear antenna that is provided integrally with the circuit board and projects from the circuit board.
Wireless communication device. The antenna is a J-shaped antenna.
The wireless communication device according to claim 1. The antenna is DC short-circuited.
The wireless communication device according to claim 2. It is equipped with a connection means, in which a communication line for performing wired communication with another communication device is electrically connected.
The communication means receives a first signal from the other communication device via the communication line connected to the connection means, and transmits radio waves from the antenna based on the received first signal. Or, at least one of the processes of transmitting a second signal to the other communication device side via the communication line connected to the connecting means based on the radio wave received by the antenna. I do,
The wireless communication device according to any one of claims 1 to 3. A plurality of the connection means are provided, and the connection means is provided.
A switching means for switching between the plurality of connection means and the communication means for electrically connecting to the communication means among the plurality of connection means.
The wireless communication device according to claim 4. It is equipped with a connection means, in which a communication line for performing wired communication with another communication device is electrically connected.
The communication means receives a first signal from the other communication device via the communication line connected to the connection means, and transmits radio waves from the antenna based on the received first signal. Or, at least one of the processes of transmitting a second signal to the other communication device side via the communication line connected to the connecting means based on the radio wave received by the antenna. And
The first signal or the second signal is transmitted between the other communication device side and the communication means side in a state where the other communication device side and the circuit board side are electrically cut off. Equipped with cut-off transmission means,
The wireless communication device according to any one of claims 1 to 3. A housing means for accommodating the components of the wireless communication device.
The wireless communication device according to any one of claims 1 to 6. The communication means performs long-distance wireless communication within at least a predetermined distance.
The wireless communication device according to any one of claims 1 to 7. The antenna is installed at a relatively high position, which is a predetermined height with respect to the ground.
The wireless communication device according to any one of claims 1 to 8. An antenna that transmits or receives radio waves for wireless communication performed via a communication means mounted on a circuit board.
The antenna is a linear antenna that is provided integrally with the circuit board and projects from the circuit board.
antenna. The antenna is an antenna that transmits and receives radio waves for long-distance wireless communication within a predetermined distance performed via the communication means.
The antenna according to claim 10. The antenna is installed at a relatively high position, which is a predetermined height with respect to the ground.
The antenna according to claim 10 or 11.