An apparatus and operational method are disclosed that use control hardware resident in a vehicle to enable a remote computing system to wirelessly communicate with the vehicle. The control hardware includes a processor configured to interface with a wireless network and the vehicle through, respectively, a wireless network interface and a vehicle interface. A plurality of CAN (control area network) bus transceivers may exist within the vehicle interface operable to allow the processor to interface with multiple vehicle types. The processor may then be configured to automatically detect an identifier for the vehicle though the vehicle interface and automatically select a CAN bus transceiver from the plurality of CAN bus transceivers based on the detected identifier. The processor can then communicate with the vehicle's CAN bus via the selected CAN bus transceiver.

An apparatus and operational method are disclosed that use control hardware resident in a vehicle to enable a remote computing system to wirelessly communicate with the vehicle. The control hardware includes a processor configured to interface with a wireless network and the vehicle through, respectively, a wireless network interface and a vehicle interface. A plurality of CAN (control area network) bus transceivers may exist within the vehicle interface operable to allow the processor to interface with multiple vehicle types. The processor may then be configured to automatically detect an identifier for the vehicle though the vehicle interface and automatically select a CAN bus transceiver from the plurality of CAN bus transceivers based on the detected identifier. The processor can then communicate with the vehicle's CAN bus via the selected CAN bus transceiver.

A vehicle alarm device has a control unit, provided with a transponder presence detector, and a mobile transponder; the control unit is connected to the electric system of the vehicle and is provided with a means for the interruption of a service of the electric system when the transponder presence detector does not detect the presence of the transponder when the transponder is moved away from the control unit. The service interruption means blocks the central locking of the doors and of the hatch of the vehicle.

A vehicle alarm device has a control unit, provided with a transponder presence detector, and a mobile transponder; the control unit is connected to the electric system of the vehicle and is provided with a means for the interruption of a service of the electric system when the transponder presence detector does not detect the presence of the transponder when the transponder is moved away from the control unit. The service interruption means blocks the central locking of the doors and of the hatch of the vehicle.

A vehicle anti-theft device, including a processor, a current control unit, a first bluetooth transmitter, and an operator, wherein the processor, the current control unit and a signal transmitter are linked to a vehicle starter battery. The processor is electrically connected to the current control unit, the first bluetooth transmitter, a vehicle electric generator, and battery cells of the starter battery. The processor is used to control operation of the current control unit, and the current control unit is used to control the starter battery to output current to the vehicle circuitry system. The current control unit includes a large current circuit and a small current circuit. The large current circuit is provided with a single-pole relay. The small current circuit comprises a self-resetting fuse.

A vehicle anti-theft device, including a processor, a current control unit, a first bluetooth transmitter, and an operator, wherein the processor, the current control unit and a signal transmitter are linked to a vehicle starter battery. The processor is electrically connected to the current control unit, the first bluetooth transmitter, a vehicle electric generator, and battery cells of the starter battery. The processor is used to control operation of the current control unit, and the current control unit is used to control the starter battery to output current to the vehicle circuitry system. The current control unit includes a large current circuit and a small current circuit. The large current circuit is provided with a single-pole relay. The small current circuit comprises a self-resetting fuse.

Remote tamper detection, some example embodiment methods including: receiving signals indicative of a location, the receiving by a first device coupled to an asset; periodically sending a signal of operability from the first device to a second device, the second device coupled to the asset, and the second device configured to selectively disable the asset; receiving a first command from a remote operations center, the receiving by the first device; sending a second command from the first device to the second device, wherein the second command is sent responsive to the receiving of the first command; disabling the asset by the second device when receipt of the signal of operability has ceased or the second command is a disable command; and issuing from the first device an indication of the location of the first device, the issuing from the first device by a wireless transmission to the remote operations center.

Remote tamper detection, some example embodiment methods including: receiving signals indicative of a location, the receiving by a first device coupled to an asset; periodically sending a signal of operability from the first device to a second device, the second device coupled to the asset, and the second device configured to selectively disable the asset; receiving a first command from a remote operations center, the receiving by the first device; sending a second command from the first device to the second device, wherein the second command is sent responsive to the receiving of the first command; disabling the asset by the second device when receipt of the signal of operability has ceased or the second command is a disable command; and issuing from the first device an indication of the location of the first device, the issuing from the first device by a wireless transmission to the remote operations center.

A power supply system having a wireless security module for vehicles is provided. The power supply system comprises a battery module, a power management module, an energy management module and the wireless security module. The battery module powers a starting motor of a vehicle. The power management module is used to receive a power from a power generating device. The power management module transmits the power of the power generating device into the battery module. The power management module comprises a monitoring unit and a controlling unit. The monitoring unit is used to monitor a voltage value of the battery module. When the voltage value monitored is equal to a minimum setting, the power management module is used to prevent the battery module from powering the starting motor. When the voltage value monitored is equal to a maximum setting, the power management module stops powering the battery module. The controlling unit is used to control a current value outputted from the battery module. Furthermore, when the voltage value of the battery module is equal to the maximum setting, the energy management module is used to receive a power from the power generating device. The power is transmitted into the vehicle by the energy management module.

The present invention relates to a vehicle control unit that includes a microcontroller unit, a sealing controller unit including a memory for storing a validity state, an electrical connector configured to couple the microcontroller unit to the sealing controller unit, and a housing enclosing the microcontroller unit, the sealing controller unit, and the electrical connector. The microcontroller unit is configured to determine the validity state of the sealing controller unit via the electrical connector, and the sealing controller unit is configured to detect a mechanical change to the housing and to change the validity state when such a mechanical change is detected.