The TMP512AIDR has an accuracy of ±1°C over the entire operating temperature range of -40°C to 150°C, with a maximum error of ±2°C over the extended temperature range of -50°C to 170°C.
The TMP512AIDR is designed to minimize thermal gradients and self-heating effects. It has a low power consumption of 10 μA (typical) and a thermal resistance of 30°C/W (typical), which helps to reduce self-heating. Additionally, the device has a built-in thermal gradient compensation circuit to improve accuracy.
The response time of the TMP512AIDR is typically 10 seconds to 90% of the final temperature reading, with a thermal time constant of 5 seconds (typical). This means that the device can track temperature changes relatively quickly, making it suitable for applications that require fast temperature monitoring.
Yes, the TMP512AIDR is designed to be robust and can operate in high-vibration or high-shock environments. It has a vibration rating of 10 g peak acceleration (10-2000 Hz) and a shock rating of 1000 g peak acceleration (11 ms duration). However, it's essential to follow proper mounting and installation procedures to ensure reliable operation.
The TMP512AIDR has built-in EMI and RFI filtering to minimize the effects of electromagnetic interference on its operation. It also has a high immunity to electromagnetic radiation, making it suitable for use in environments with high levels of electromagnetic noise.