Honda/Hitachi make alcohol interlock for key fobs

alcoholdetectorHitachi and Honda Motor Co.have developed a prototype of a portable breathe alcohol detector that can be used on a key fob. This device is capable of distinctively detecting the saturated water vapor from human breath and accurately measuring alcohol level within 3 seconds once a driver exhales breath onto the device.

They also developed a system that can show the alcohol level measured by the detector on the vehicle’s display panel. It can become an ignition interlock to stop a vehicle starting its engine when it detects a driver under the influence of alcohol.

Other systems check the breathe after the driver is behind the wheel, the Hitachi/Honda device, drivers can measure their alcohol level from anywhere and, importantly, prior to entering their vehicle, thus reducing the temptation to drive. In addition, the Hitachi/Honda device can confirm that the applied gas is human exhaled breath and can detect the level of alcohol at the same time, an enhancement over currently available devices. Advancements like these will contribute to reducing or eliminating instances of drunk driving.

The features of this newly developed technology are as follows:

  1. Achieved both portability and human breath detection at the same time by making the saturated water vapors sensor very small. Also saves power.
    Hitachi has developed sensor technology that can detect the saturated water vapors from human breath with a high degree of sensitivity. When human breath is exhaled onto the sensor which is an oxide insulator sandwiched between the electrodes, the water vapors from the breath is adsorbed on the insulator and then an electric current flows between the electrodes. When this phenomenon occurs, the sensor can recognize if the applied gas is human breath. Furthermore, micro comb-shaped electrodes are used to extend the length of electrodes and to narrow the distance between electrodes, improving the sensitivity of the sensor. This enables the device to detect a tiny amount of saturated water vapors even though the sensor area has been decreased to only a 5mm square. As a result, the device is highly portable and can be used prior to a driver entering his vehicle. The device is also battery powered that is achieved from a design with the low power consumption technology.
  2. Achieved high accuracy measurement of ethanol concentration using three types of semiconductor gas sensors
    In compliance with Japan’s regulations related to drunk driving, the device has an improved ability to accurately measure the ethanol concentration from exhaled breath. The ethanol concentration is measured by three types of semiconductor gas sensors to detect ethanol, metabolized acetaldehyde in breath after drinking, and hydrogen. This method improves accuracy by about three times*3 compared with devices that only use an ethanol sensor for measurement. Also, the device is capable of measuring as little as 0.015 mg/L (an ethanol concentration) compared to 0.15 mg/L of the alcohol which constitutes being “under the influence of alcohol” and a charge of drunk driving in Japan.
  3. Developed a system that is integrated into a smart key function
    By applying the recorded measurement result of the alcohol detector into the engine ignition mechanism, the system can prevent the vehicle’s engine from starting if it detects that the driver’s breath is over the preset limit. An alert indicator also shows the measurement results on the vehicle’s display panel if the detector equipped smart key is close to the driver seat.

When validating the efficacy of this newly developed prototype, it was confirmed that the device can detect whether drivers are under the influence of alcohol based on the Japan’s drunk driving regulation within three seconds.

Hitachi and Honda jointly collaborated on this technology development in an effort to create the ideal alcohol detector.

Hitachi and Honda are aiming to commercialize this developed technology through effectively collecting data from future validation tests.

The achievement of this technology will be presented on April 12 – 14, at the SAE 2016 World Congress and Exhibit, which will be held in Detroit, Michigan, USA.