Product Announcement from E+E Elektronik Corp
Humidity and temperature sensors are used in the automobile industry: For adapting fuel mixtures, for controlling climate control systems or for monitoring the defogging of windscreens. With conventional models, a simple integration of the sensor into the various, existing control circuitries is not always possible. This is because in addition to the actual sensor, interfaces for the digital evaluation and transmission of the measured data are often included. This makes it more difficult to integrate the sensors into existing applications. For this reason, the developers from E+E Elektronik now offer a novel capacitive humidity sensor - the HCT01 (see figure 1 below). The sensor, having just a few millimeters in size, measures the relative air humidity and temperature and supplies the highest measurement precision. The capacitive humidity sensor is already pre-adjusted during production so that the customer can dispense with a complicated adjustment later on. Thus, no integrated ASIC is necessary, which is why the HCT01 can be utilised in the most diverse of OEM applications.
Another great advantage of the HCT01 is that it requires no power supply of any kind itself. The sensor is thus particularly suitable for energy-saving projects like Energy Harvesting: In this example, energy is able to be gained from the change in the ambient temperature or the air humidity alone. The HCT01 is predestined for these types of scenarios.
E+E Elektronik manufacturers the smallest possible sensors using modern thin film technology under cleanroom conditions. This is also the case with the newest humidity sensor - the HCT01. Its measurement deviation for humidity at a relative air humidity of 30 to 70 percent amounts to only ± two percent. The temperature sensor is available in two versions and supplies the most precise measurement values with up to 3000 Ohm as platinum or molybdenum version. With a working range of -40 to 140 Celsius, the HCT01 is custom tailored to an industrial application. The DFN housing of the sensor permits soldering with the popular reflow process. A protective film protects the active sensor surface from external influences such as dust or salts.