RTD-based smart temperature sensor: Process development and circuit design Abstract: Planar resistance temperature detector, RTD, can be manufactured with microelectronics processing techniques.

By exploiting the full dynamic range of a 12-bit or even 10-bit converter, you can make precise temperature measurements (e.g., resolution of 1/40°C or 1/10°C over a 100°C range) using this customized ...

The circuit uses the popular Pt100 RTD, which has a resistance of 100 Ω at 0°C. Its temperature coefficient of 0.00385 Ω/Ω/ºC produces a 38.5-Ω increase in resistance from 0°C to 100°C. Thus, the ...

TMP117M digital temperature sensor for medical applications and the TMP117 digital temperature sensor are now available in volume quantities through the TI store. Both devices are available in 6-pin ...

ADCs contain signal-conditioning circuits such as multiplexers, amplifiers, reference voltages, and current sources for connecting temperature sensors. A thermocouple configuration is shown. To use an ...

The circuit in Figure 1 requires only an ordinary negative-temperature-coefficient (NTC) thermistor, two common ICs, and a handful of discrete components. The circuit uses a uni T.K. Hareendran ...

Abstract: Planar resistance temperature detector, RTD, can be manufactured with microelectronics processing techniques. However, the manufactured planar resistor requires an extra step for adjustment ...

RTD precision conditioning circuit with full scale adjustment By exploiting the full dynamic range of a 12-bit or even 10-bit converter, you can make precise temperature measurements (e.g., resolution ...