A motor vehicle wheel lug nut device and system for automobiles, trucks, motorcycles, trailers and the like that is equipped with an alarm device and system for alarming owners when a lug nut is being removed in a potential theft situation wherein the alarm device and system includes a lug nut with a cavity housing a circuit board, blue tooth transmitter on one side of the circuit board, circuit board mounting screws, battery connect, retention spring, activation button and mounting screws, and wireless transceiver having a wireless receiver and Wi-Fi or Bluetooth® transmitter, reset button, activation or arming button and back-up power supply.

A motor vehicle wheel lug nut device and system for automobiles, trucks, motorcycles, trailers and the like that is equipped with an alarm device and system for alarming owners when a lug nut is being removed in a potential theft situation wherein the alarm device and system includes a lug nut with a cavity housing a circuit board, blue tooth transmitter on one side of the circuit board, circuit board mounting screws, battery connect, retention spring, activation button and mounting screws, and wireless transceiver having a wireless receiver and Wi-Fi or Bluetooth® transmitter, reset button, activation or arming button and back-up power supply.

A keyless entry system includes a first communication apparatus and a second communication apparatus. The first communication apparatus includes first transmitter, first receiver, and first two-way communication device. The second communication apparatus includes second receiver, second transmitter, and second two-way communication device. The first communication apparatus or the second communication apparatus includes electric field strength detector. In a case where the first communication apparatus and the second communication apparatus are not connected to each other through two-way communication or electric field strength detected by the electric field strength detector is less than a predetermined value, the first communication apparatus stops a call function of the first transmitter or the second communication apparatus stops a wait function of the second receiver.

A keyless entry system includes a first communication apparatus and a second communication apparatus. The first communication apparatus includes first transmitter, first receiver, and first two-way communication device. The second communication apparatus includes second receiver, second transmitter, and second two-way communication device. The first communication apparatus or the second communication apparatus includes electric field strength detector. In a case where the first communication apparatus and the second communication apparatus are not connected to each other through two-way communication or electric field strength detected by the electric field strength detector is less than a predetermined value, the first communication apparatus stops a call function of the first transmitter or the second communication apparatus stops a wait function of the second receiver.

A system includes a first circuit, an authentication module, and an unlocking module. The first circuit is configured to supply power from a power source located outside a vehicle when a battery of the vehicle fails. The authentication module is configured to receive the power from the first circuit and to authorize access to the vehicle. The unlocking module is configured to receive the power from the first circuit and to unlock at least one of a hood, a door, and a trunk of the vehicle in response to the authentication module authorizing access to the vehicle.

A system includes a first circuit, an authentication module, and an unlocking module. The first circuit is configured to supply power from a power source located outside a vehicle when a battery of the vehicle fails. The authentication module is configured to receive the power from the first circuit and to authorize access to the vehicle. The unlocking module is configured to receive the power from the first circuit and to unlock at least one of a hood, a door, and a trunk of the vehicle in response to the authentication module authorizing access to the vehicle.

An unauthorized communication establishment prevention system includes a measurement unit arranged in at least one of a terminal and a communication peer. The measurement unit implements an unauthorized communication detection function and obtains a measurement value corresponding to a distance between the terminal and the communication peer. The system further includes a process execution unit that controls initiation, based on a determination result of whether the measurement value is appropriate, of an authentication performed through wireless communication established between the terminal and the communication peer even when the terminal is not operated. The system further includes a monitoring unit that monitors a battery level of the terminal and a suspension unit that suspends the unauthorized communication detection function when the battery level of the terminal is less than a specified amount that is not a battery depletion level.

An unauthorized communication establishment prevention system includes a measurement unit arranged in at least one of a terminal and a communication peer. The measurement unit implements an unauthorized communication detection function and obtains a measurement value corresponding to a distance between the terminal and the communication peer. The system further includes a process execution unit that controls initiation, based on a determination result of whether the measurement value is appropriate, of an authentication performed through wireless communication established between the terminal and the communication peer even when the terminal is not operated. The system further includes a monitoring unit that monitors a battery level of the terminal and a suspension unit that suspends the unauthorized communication detection function when the battery level of the terminal is less than a specified amount that is not a battery depletion level.

A vehicle control system (VCS) in a passenger compartment interfaces with underhood components using a Bluetooth® link. The underhood components include a siren assembly with a sound generator and backup battery. The battery enables the siren assembly to function after the vehicle's battery is disabled. The siren assembly includes a Bluetooth® transceiver for establishing the link with the VCS. The siren assembly monitors the hood of the vehicle through a hood sensor, to detect unauthorized opening. In response to such opening, the siren assembly transmits an alarm to the VCS, which transmits an alarm to a user's mobile device and/or a security service. The sound generator may also be activated, by itself or under control of the VCS. The siren assembly connects to the engine computer/ignition module, to allow the VCS to monitor engine speed, and facilitate proper start of the engine when the VCS receives a remote start command.

A device for a presence detection system for detecting the presence of a user close to a motor vehicle is configured to: activate a piezoelectric element during an “awake” time interval to stabilize the piezoelectric element; then, control the supply of voltage to an oscillator and supply the oscillator with a reference electrical signal forming a current voltage reference, so the transceiver circuit transmits a signal during what is called a “transmission” time interval; during the transmission time interval, measure the frequency of a reflected signal resulting from the transmitted signal, measure the frequency of the transmitted signal, and determine a corrected reference based on the measured frequency of the transmitted signal, allowing the oscillator to operate at a target frequency value. This allows limiting the energy consumption of a transceiver device used to detect the presence of a user close to a motor vehicle.