JP2016149709A5 - - Google Patents

Claims (14)

A first object in which a first antenna unit and a first wireless communication unit are arranged;
A second object physically disposed from the first object, the second object having a second antenna unit and a second wireless communication unit,
The first and second antenna portions are both electric fields provided in a closed space formed by the first object and the second object or in a closed space formed by the first object. An electric field antenna that performs reception in proportion to
A magnetic field antenna provided in the closed space for receiving in proportion to the magnetic field;
By combining the output from the magnetic field antenna and an output from said electric field antenna, and inputs to the radio communications unit that corresponds, said electric field antenna and to distribute the output from the the corresponding radio communications unit A signal combiner / distributor for inputting to the magnetic field antenna;
It said first and second antenna portions are both electric field antenna and one of a plurality or more of the magnetic field antenna having the other at least one or more, and geometric of one or more of said field antenna A wireless communication system, wherein a central centroid and a geometric centroid of one or more of the magnetic field antennas coincide with each other. The wireless communication system according to claim 1, wherein
A wireless communication system, wherein a range of coincidence of geometric centroids of one or more electric field antennas and geometric centroids of one or more magnetic field antennas is within a quarter wavelength of an operating frequency. The wireless communication system according to claim 1, wherein
The wireless communication system, wherein the electric field antenna and the magnetic field antenna are formed on the same dielectric substrate. The wireless communication system according to claim 3, wherein
A radio communication system, wherein a dipole antenna is used as the electric field antenna and a slot antenna is used as the magnetic field antenna. The wireless communication system according to claim 1, wherein
The radio communication system, wherein the electric field antenna, the magnetic field antenna, and the signal combiner / distributor are formed on the same dielectric substrate. The wireless communication system according to claim 1, wherein
The radio communication system, wherein the electric field antenna and the magnetic field antenna both transmit and receive linearly polarized waves, and are arranged so that their polarization directions substantially coincide. The wireless communication system according to claim 1, wherein
A plurality sets antenna portion Oyo bicine No. synthesis distributor,
The direction of polarization transmitted and received by the electric field antenna and the magnetic field antenna is changed for each set,
A radio communication system, comprising: a diversity unit that performs diversity processing on an output from each signal combining / distributing unit of each set. The wireless communication system according to claim 7,
Two sets of the antenna unit and the signal combiner / distributor are provided,
The wireless communication system, wherein the direction of polarization transmitted and received by the electric field antenna and the magnetic field antenna is changed by approximately 90 degrees between sets. A main generator having a stator for transmitting electric power generated by rotational energy to an electric power system, and a rotor for rotating about a rotating shaft attached to the stator;
An auxiliary generator having an auxiliary stator having an axis of rotation common to the rotor, a plurality of sensors and a plurality of power devices, and the power of the electric power system is the power of the auxiliary generator By energizing the auxiliary stator, electric power is supplied to the rotor winding of the auxiliary rotor, and the electric power converted from the voltage and frequency of the electric power supplied from the electric power system based on the control signal is converted into the main stator. A power converter for supplying to the rotor of the generator;
A controller that generates the control signal based on information on current values and voltage values obtained from the plurality of sensors of the power converter, and that controls on / off of the plurality of power devices by the control signal. ,
The controller is arranged separately into a first controller on the stator side and a second controller on the rotor side,
Each of the first controller, the second controller, and the plurality of sensors includes a wireless communication unit and an antenna unit,
The antenna unit is
An electric field antenna that is provided in a closed space formed by the stator and the rotor and that performs reception in proportion to an electric field;
A magnetic field antenna provided in the closed space for receiving in proportion to the magnetic field;
The output from the electric field antenna and the output from the magnetic field antenna are combined and input to the wireless communication unit, and the output from the wireless communication unit is distributed and input to the electric field antenna and the magnetic field antenna. A distributor and
The antenna unit is
One or more of the electric field antennas and the magnetic field antennas, and at least one other of the electric field antennas and the geometric center of gravity of the one or more electric field antennas and the geometry of the one or more magnetic field antennas A power generation system that is arranged so that its center of gravity matches. The power generation system according to claim 9, wherein
The range of coincidence between the geometric centroids of the one or more electric field antennas and the geometric centroids of the one or more magnetic field antennas is within ¼ wavelength of the operating frequency. The power generation system according to claim 9, wherein
The power generation system, wherein the electric field antenna and the magnetic field antenna are formed on the same dielectric substrate. The power generation system according to claim 11, wherein
A power generation system, wherein a dipole antenna is used as the electric field antenna and a slot antenna is used as the magnetic field antenna. The power generation system according to claim 9, wherein
The electric field antenna and the magnetic field antenna both transmit and receive linearly polarized waves, and are arranged so that their polarization directions substantially coincide. The power generation system according to claim 9, wherein
A plurality of sets of the antenna unit and the signal combiner / distributor,
The direction of polarization transmitted and received by the electric field antenna and the magnetic field antenna is changed for each set,
A power generation system comprising: a diversity unit that performs diversity processing on an output from each signal combining / distributing unit of each set.