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1. (WO2018039616) WIRELESS CONNECTOR SYSTEM
Nota: Texto obtenido mediante procedimiento automático de reconocimiento óptico de caracteres.
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What is claimed is:

1. A wireless connector system, comprising:

a) a transmitter module, comprising:

i) a first substrate supporting a transmitter antenna, wherein the transmitter antenna is configured to transmit a wireless signal;

ii) a second substrate supporting a transmitter module

electronic circuit, wherein the transmitter module electronic circuit is electrically connected to the transmitter antenna; and

iii) a first insulator positioned between the transmitter module electronic circuit and the transmitter antenna ; b) a receiver module, comprising:

i) a third substrate supporting a receiver antenna,

wherein the receiver antenna is configured to receive the wireless signal;

ii) a fourth substrate supporting a receiver module

electronic circuit, wherein the receiver module electronic circuit is electrically connected to the receiver antenna; and

iii) a second insulator positioned between the receiver

module electronic circuit and the receiver antenna.

The system of claim 1 wherein, a first shielding material is positioned between the transmitter antenna and the transmitter electronic circuit, and a second shielding material is positioned between the receiver antenna and the receiver electronic circuit, the first and second shielding materials comprising a ferrite material.

The system of claim 1 wherein the first or second substrate comprises a printed circuit board, a flex circuit board, and a combination thereof.

The system of claim 1 wherein a plurality of spaced apart castellations are formed within an exterior surface of the first or second substrate.

The system of claim 1 wherein a plurality of spaced apart electrically conductive pads are formed on an exterior surface of the first or second substrate, wherein at least one of the plurality of electrically conductive pads is electrically contactable to an electronic circuit board.

The system of claim 1 wherein the wireless signal is selected from the group consisting of an electrical voltage, electrical current, an electrical power, a data signal, and combinations thereof.

The system of claim 1 further configured to transmit an electrical power that ranges from about 100 μϊί to about 10 W.

The system of claim 1 wherein at least one of the receiver and transmitter antennas comprises a plurality of

conductors and at least one insulator positioned between each of the plurality of conductors, the plurality of conductors having at least one turn.

The system of claim 1 wherein the transmitter module electronic circuit comprises:

a) a first electrical impedance matching sub-circuit

electrically connected to the transmitter antenna, the first electrical impedance matching sub-circuit comprises at least one first capacitor and an

electrical power inverter sub-circuit, wherein the first electrical impedance matching sub-circuit and the electrical power inverter sub-circuit are

configured to prepare the wireless signal for

transmission by the transmitter antenna ;

b) a transmitter module master control sub-circuit

comprising a master control unit;

c) a driver sub-circuit electrically connected to the

transmitter module master control sub-circuit and the electrical power inverter sub-circuit; and

d) a first voltage regulator sub-circuit electrically

connected to the transmitter module master control sub-circuit and the electrical power inverter sub- circuit .

The system of claim 9 wherein the receiver electronic circuit comprises:

a) a receiver module master control sub-circuit

comprising a master control unit;

b) a second electrical impedance matching sub-circuit electrically connected to the receiver antenna, the second electrical impedance matching sub-circuit comprising at least one second capacitor, wherein the second electrical impedance matching sub-circuit is configured to prepare the received wireless signal for use by an electronic device; and

c) a second voltage regulator sub-circuit electrically connected to the receiver module master control sub- circuit .

The system of claim 10 further comprising a voltage doubler sub-circuit, the voltage doubler sub-circuit electrically connected to the second electrical impedance matching sub-circuit and the second voltage regulator sub-circuit.

The system of claim 1 wherein the transmitter module further comprises a receiver module detection sub-circuit electrically connected to the transmitter module electronic circuit, wherein upon detection of an electrical signal from the receiver module, the receiver module detection sub-circuit enables configuration of the transmitter module electronic circuit to communicate with the receiver module.

The system of claim 9 wherein a switch capacitor sub-circuit is electrically connected within at least one of the first and second electrical impedance matching sub-circuits, wherein the switch capacitor sub-circuit is configured to dynamically modify a capacitance of the at least one of the first and second electrical impedance matching sub-circuits.

The system of claim 9 wherein a shunt capacitor is

electrically connected within at least one of the first and second electrical impedance matching sub-circuits.

The system of claim 1 wherein an electrical connector selected from the group consisting of a flex connector, a board to board connector, a pin and socket connector, a spring contact connector, a pogo pin connector, a through-hole pin solder connector, a soldered wire connection, and combinations thereof, electrically connects at least one o the transmitter and receiver antenna to the respective transmitter and receiver electronic circuit.