14 Temperature 14.3 www.hannainst.com | introduction Importance of Accuracy Up to a few years ago, accuracy was not a very critical aspect and tolerances of a few degrees did not jeopardize a process. From the time that hazard analysis and critical control points (HACCP) programs became a necessity, measurement accuracy has become a discriminating factor. Due to health risk factors, now an error of a few tenths of a degree can decide whether food can still be kept or must be discarded. In 1990, Hanna began to produce thermometers for our customers’ HACCP programs to comply with new governmental regulations. Soon after, Hanna became the market leader in Europe as a result of the technological solutions offered to our users. User Calibration of Typical Thermometers To calibrate typical thermometers you need: • For thermocouple thermometers · A simulator of the emf (electromotive force) generated by the thermocouple • For thermometers with NTC/PTC sensor · At least two thermostatic baths • For Pt100 thermometers · A resistance simulator • For infrared thermometers · A heat source (panel) at controlled temperature Few users can afford this investment in time and materials for checking their thermometers’ accuracy. Hanna’s exclusive CAL Check is a quick and cost effective way to verify accuracy. Hanna CAL Check™ Calibration Feature As previously described, the electronic components of an instrument shift with time. Hanna has made it possible for users, with the simple touch of a button, to verify whether the response of the instrument is within the tolerance limit of ±0.02°C. The CAL Check system acts by substituting the sensor with an internal resistor which corresponds to 0°C; thus simulates the response that the temperature probe would have at 0°C. Standardization Hanna has designed a series of pre-calibrated temperature probes with a maximum error of 2°C for trouble-free replacement. Thermocouple Thermometer Calibration Although quite fast, thermocouple thermometers read with a response time much slower than other sensors and technologies. Unfortunately, the measurement of the thermocouple emf (electromotive force) loses accuracy because of the measuring system itself, based on the emf generated by the temperature difference between cold and hot junctions. The same emf may be generated under different conditions, for example: · Hot junction at 100°C; cold junction at 20°C; difference: 80°C or Hot junction at 90°C; cold junction at 10°C; difference: 80°C A temperature difference of 80°C is obtained with two different temperatures of the sample. It is, therefore, very important to determine the cold junction temperature very precisely. The ability to do this has a large effect on the accuracy of the measuring system. A thermocouple thermometer is made of two thermometers, one that measures the cold junction, and one for measuring the emf generated by the thermocouple. The cold junction is usually measured with an NTC type sensor, which has response times different from those of the thermocouple. Another crucial point is measuring the actual value of the cold junction, without any environmental influence and dispersions. To partially solve this problem, Hanna has devised the calibration of the instrument-thermocouple system by dipping the probe in melting ice, thus allowing the user to calibrate the measuring system at 0°C. Thanks to this solution, it is now possible to use thermocouple thermometers for HACCP controls with an accuracy of ±0.3°C, which is the same performance of our Pt100 or NTC thermometers, but with a higher response time. Calibration Test Keys To check the calibration status of the instrument, calibrated keys have been prepared in the range from -18 to 70°C. These keys reproduce the value of the sensor at different temperatures. Simply disconnect the measuring probe, replace it with the key and ensure that the instrument reads the simulated value. Hanna calibrates all thermometers with a standard probe. All NTC temperature probes are inspected and calibrated with standard instruments. During quality inspection, our technicians make sure that the reading errors are within the stated accuracies. In addition, Hanna provides users with the necessary tools to verify that your thermometers read accurate values. Our complete line of electronic thermometers provides fast and precise measurements down to a tenth of a degree Celsius. Hanna thermometers may be divided into four main categories: thermistor thermometers, thermocouple thermometers, Pt100 thermometers and infrared thermometers. Thermometers Introduction
RkJQdWJsaXNoZXIy MTI3NTM=