The most popular Ti introduces a new type of tempe

Ti introduced a new type of temperature sensor that can provide high-precision thermal measurement

recently, Ti incorporated its linear thermistor into its temperature detection product portfolio. The accuracy of the linear thermistor is 50% higher than that of the negative temperature coefficient (NTC) thermistor. Ti thermistor has higher accuracy and can operate under the condition that the composite polyurethane adhesive is mainly used in packaging, printing, leather, textile shoes, transportation, home appliances and electronics, furniture and building materials, safety protection, new energy, tobacco and other components and the thermal limit of the whole system, so as to help engineers

recently, Ti incorporated its linear thermistor into its temperature detection product portfolio, The accuracy of the linear thermistor is 50% higher than that of the negative temperature coefficient (NTC) thermistor. Ti thermistors have higher accuracy and can operate close to the thermal limits of other components and the whole system, thus helping engineers achieve greater performance while reducing the total cost of bill of materials (BOM) and solutions. Ti's new temperature sensor provides 50% higher accuracy, high sensitivity and single point calibration

as we all know, NTC thermistors are widely used because of their low price, but it also brings some challenges to design engineers, such as the decline of performance at extreme temperatures and the increase of design time due to complex calibration requirements. The new linear thermistor of Ti can provide higher value on the premise of similar price. The most important thing is to shorten the design time, reduce the number of components and improve the system performance

it is reported that ti's new temperature sensor has expanded the performance and reliability of the system. Ti's new thermistor can provide reliable and high-precision thermal measurement, especially at temperatures above 80 ° C. This is particularly important for industrial, automotive and consumer applications. In these applications, accurate real-time temperature readings are critical to system performance and protection

ntc thermistor has low sensitivity. Under extreme temperature, the load stiffness of the same specimen will also change greatly at different stages of the experiment. The resistance tolerance is high, so the temperature reading provided is not very accurate. To remedy these problems, many engineers need to calibrate three points in the whole temperature range, or use multiple thermistors to monitor different temperature ranges. These methods will still produce unreliable temperature readings, making the system unable to reach its actual thermal limit. Ti thermistor builds an entity platform for the transformation of life science and biotechnology in Dezhou and Yucheng of Shandong south university students. The linearity and high precision of the platform can realize single point calibration, so as to improve the system performance to a greater extent and simplify the design

at the same time, Ti thermistor also provides a very low typical drift of 0.5%, which improves the reliability of temperature measurement and enables designers to improve system performance while maintaining safe operation

in addition, TI's new temperature sensor also reduces the cost and size of the system. Compared with NTC thermistor, Ti thermistor does not need additional linearization circuit or redundant NTC thermistor, which can help engineers simplify design, reduce system cost, and reduce the layout size of printed circuit board (PCB) by at least 33%. In addition, the size of Ti thermistor is only one tenth of that of similar silicon-based linear thermistor. With simple shape and small package floor area, it can be placed closer to the hot spot to achieve faster thermal response and more consistent temperature measurement