The electric immobiliser/alarm system was invented by St. George Evans and Edward Birkenbeuel and patented in 1919. They developed a 3×3 grid of double-contact
switches on a panel mounted inside the car so when the ignition switch was activated, current from the battery (or
magneto) went to the spark plugs allowing the engine to start, or immobilizing the vehicle and
sounding the
horn. The system settings could be changed each time the car was driven. Early models used a static code in the
ignition key (or
key fob) which was recognised by an
RFID loop (
transponder) around the lock barrel and checked against the vehicle's
engine control unit (ECU) for a match. If the code is unrecognised, the ECU will not allow fuel to flow and ignition to take place. Later models use
rolling codes or advanced
cryptography to defeat copying of the code from the key or ECU (
smart key). The microcircuit inside the key is activated by a small electromagnetic field which induces current to flow inside the key body, which in turn broadcasts a unique
binary code, which is read by the automobile's ECU. When the ECU determines that the coded key is both current and valid, the ECU activates the fuel-injection sequence. In some vehicles, attempts to use an unauthorised or "non-sequenced" key cause the vehicle to activate a timed "no-start condition" and in some highly advanced systems, even use satellite or mobile phone communication to alert a
security firm that an unauthorised attempt was made to code a key. Coincidentally, this information is often recorded in modern automobile ECUs as part of their
on-board diagnostics, which may record many other variables including speed, temperature, driver weight, geographic location,
throttle position and
yaw angle. This information can be used during insurance investigations, warranty claims or technical troubleshooting. ==Regulation==