Thermometer
Innovative Thermometers: Accurate Temperature Measurement Without Compromise
After relocating to Arizona, I began questioning the traditional methodology of measuring air temperature in the shade. Conventional glass thermometers can break under direct sunlight, and electronic thermometers often suffer from radiation interference, leading to misleadingly high readings.
This prompted me to invent two innovative thermometers that accurately differentiate between air temperature and total solar irradiance, ensuring you get the most precise measurements possible.
This prompted me to invent two innovative thermometers that accurately differentiate between air temperature and total solar irradiance, ensuring you get the most precise measurements possible.
Directional Thermometer: Precision Redefined
For over 45 years, radiation error has plagued temperature measurement instruments. Most radiation shields, typically made of plastic, encapsulate temperature sensors while relying on artificial airflow from fans or natural airflow from the wind. Unfortunately, this design can result in 3-4 degree errors, significantly affecting accuracy.
To tackle this issue, I developed the Directional Thermometer (Patent No. US9063003B2 and Canadian Patent 2815909), which features temperature sensors directly exposed to the air for unparalleled precision. Equipped with a blackbody receiver constantly shaded by parabolic reflectors, this highly accurate reference temperature device effectively tracks the sun's position. It also serves as a calibration tool, allowing you to compare other thermometers in the field confidently.
To tackle this issue, I developed the Directional Thermometer (Patent No. US9063003B2 and Canadian Patent 2815909), which features temperature sensors directly exposed to the air for unparalleled precision. Equipped with a blackbody receiver constantly shaded by parabolic reflectors, this highly accurate reference temperature device effectively tracks the sun's position. It also serves as a calibration tool, allowing you to compare other thermometers in the field confidently.
Wireless Transmitter Thermometer: Unmatched Accuracy
Long wires connecting temperature sensors can lead to discrepancies in readings, necessitating frequent recalibrations. To combat this problem, I designed the Wireless Transmitter Thermometer, which directly integrates the sensor into the circuit board. This thermometer ensures exceptional accuracy by eliminating the distance between the sensor and the connecting circuit.
With a stationary design, it can also be hardwired with a conventional temperature probe for on-site readings. This groundbreaking thermometer replaces outdated plastic or artificially ventilated shields and thermomechanical devices with durable metal components, allowing it to function effectively even in the vacuum of space.
By choosing my innovative thermometers, you invest in precision and reliability, redefining how we measure temperature in various environments.
With a stationary design, it can also be hardwired with a conventional temperature probe for on-site readings. This groundbreaking thermometer replaces outdated plastic or artificially ventilated shields and thermomechanical devices with durable metal components, allowing it to function effectively even in the vacuum of space.
By choosing my innovative thermometers, you invest in precision and reliability, redefining how we measure temperature in various environments.