Fuel Cell vs Semiconductor Breathalyzers
Not sure what the differences between fuel cell and semiconductor breathalyzers are? Read on for information on the differences between the two sensors, so you can better decide which breathalyzer to buy.
Semiconductor sensor technology is generally cheaper than fuel cell sensor technology. Semiconductor breathalyzers are good, affordable options for personal use, but for better accuracy and reliability, consider investing in a fuel cell breathalyzer instead. Our range of personal breathalyzers include both semiconductor and fuel cell technology, whereas all AlcoSense industrial breathalyzers use fuel cell technology.
Fuel cell breathalyzers provide more accurate and consistent BAC results, with an accuracy range of +/- 0.005%BAC. The semiconductor units are suitable for personal use when you want to test for the presence of alcohol; their accuracy range is +/- 0.01%BAC.
Fuel cell breathalyzers require a shorter startup time and can perform consecutive readings accurately without interruption. Semiconductor breathalyzers are generally slower and show a wider variation in readings, which only increases over time.
Fuel cell breathalyzers are consistently more accurate across a wider alcohol concentration range (0.000-0.400% BAC) than semiconductor devices. Fuel cell devices also provide BAC readings up to 3 decimal places, whereas most semiconductor units are only accurate to 2 decimal places.
All breathalyzers must be calibrated to ensure their ongoing accuracy. Semiconductor breathalyzers generally require more frequent calibration, whereas fuel cell devices can remain accurate for thousands of tests.
Fuel cell breathalyzers have a much longer lifespan than semiconductor devices.
Fuel cell devices screen exclusively for ethyl alcohol, or drinking alcohol. Semiconductor devices can give positive alcohol readings even when alcohol is not present, and may also register a false positive for someone who is diabetic or on a low calorie diet.