A sensor device and a communication method are provided. The sensor includes a microcontroller unit, and a receiver electrically connected to the microcontroller unit and configured to receive at least one communication signal. The receiver includes a magnetic sensor configured to detect a modulated electromagnetic carrier signal as a first communication signal and output an encoded measurement signal based on the detected modulated electromagnetic carrier signal. The sensor device further includes a demodulator configured to convert the encoded measurement signal into a data signal and output the data signal to the microcontroller unit.

A communication system that includes a transmitter that wirelessly transmits a signal from a plurality of antennas; a receiver that wirelessly receives a signal; a plurality of targets to which a signal is to be transmitted by the transmitter; a second target to which a signal is to be transmitted by the transmitter; and an electronic control unit that is configured to decide a target to which a signal is to be wirelessly transmitted, from among the plurality of targets.

A tire pressure monitoring system includes a plurality of detection devices that are provided in respective ones of a plurality of tires of a vehicle and each wirelessly transmit an air pressure signal including air pressure information of tire in response to a request signal and a monitoring device that transmits the request signal to each of the detection devices and receives the air pressure signal transmitted from each of the detection devices in response to the request signal, to monitor air pressure of each of the tires. Each of the detection devices, when receiving a request signal, measures the received signal strength of the received request signal and transmits to the monitoring device an air pressure signal at a different diming in accordance with the measured received signal strength. The monitoring device receives the air pressure signals transmitted from the plurality of detection devices at different timings.

A communication system that includes a transmitter that wirelessly transmits a signal from a plurality of antennas; a receiver that wirelessly receives a signal; a plurality of targets to which a signal is to be transmitted by the transmitter; a second target to which a signal is to be transmitted by the transmitter; and an electronic control unit that is configured to decide a target to which a signal is to be wirelessly transmitted, from among the plurality of targets.

A tire pressure monitoring system includes a plurality of detection devices that are provided in respective ones of a plurality of tires of a vehicle and each wirelessly transmit an air pressure signal including air pressure information of tire in response to a request signal and a monitoring device that transmits the request signal to each of the detection devices and receives the air pressure signal transmitted from each of the detection devices in response to the request signal, to monitor air pressure of each of the tires. Each of the detection devices, when receiving a request signal, measures the received signal strength of the received request signal and transmits to the monitoring device an air pressure signal at a different diming in accordance with the measured received signal strength. The monitoring device receives the air pressure signals transmitted from the plurality of detection devices at different timings.

A sensor device and a communication method are provided. The sensor includes a microcontroller unit, and a receiver electrically connected to the microcontroller unit and configured to receive at least one communication signal. The receiver includes a magnetic sensor configured to detect a modulated electromagnetic carrier signal as a first communication signal and output an encoded measurement signal based on the detected modulated electromagnetic carrier signal. The sensor device further includes a demodulator configured to convert the encoded measurement signal into a data signal and output the data signal to the microcontroller unit.

Provided is an onboard storage device and an onboard storage system that can correctly store identification information of communication devices provided in the tires of the own vehicle even if tire rotation, tire replacement, or the like is performed. A monitoring device detects the existence or absence of a situation in which another vehicle is not present in the periphery of the vehicle. If the monitoring device detects the existence of a situation in which another vehicle is not present, the monitoring device transmits, to each of multiple detection devices that are respectively provided in the tires of the vehicle, a request signal that requests the sensor ID of the detection device. The monitoring device receives the sensor IDs that are transmitted by the detection devices in accordance with the request signals, and stores the received sensor IDs in a sensor ID table.

Embodiments provide a tire pressure measurement device, an integrated circuit, a printed circuit board, a method and a computer program to receive data. The tire pressure measurement device includes a first receiver configured to receive a low frequency signal using a first low frequency input of the first receiver, and a second input configured to receive a receive signal associated with a second receiver that is different from the first receiver. The tire pressure measurement device further includes a controller configured to control the first low frequency input of the first receiver and to couple the second input to the first low frequency input of the first receiver in order for the first receiver to receive the receive signal at the first low frequency input.

A monitoring device receives air pressure signals transmitted from a plurality of detection devices that are respectively provided in tires of a vehicle and wirelessly transmit air pressure signals each including a respective identifier and air pressure information for a respective tire. A storage unit of the monitoring device stores tire positions at which the tires are provided and identifiers of detection devices in correspondence with each other. The monitoring device includes a request signal transmission unit that transmits, a plurality of times, a request signal requesting an identifier to at least one tire position, and an identifier reception unit that receives identifiers that are transmitted from a detection device. The monitoring device specifies the identifier of the detection device provided at the one tire position based on the identifiers that were transmitted in accordance with the request signal, and updates the identifier stored by the storage unit.

A tire pressure monitoring system (TPMS) sensor and a communication method are provided. The TPMS sensor includes a microcontroller unit, a pressure sensor electrically connected to the microcontroller unit and configured to measure an internal air pressure of a tire and a receiver electrically connected to the microcontroller unit and configured to receive at least one communication signal. The receiver includes a magnetic sensor configured to detect a modulated low-frequency electromagnetic carrier signal as a first communication signal and output an encoded measurement signal based on the detected modulated low-frequency electromagnetic carrier signal. The TPMS sensor further includes a demodulator configured to convert the encoded measurement signal into a data signal and output the data signal to the microcontroller unit.