SNAS648C October 2014 – February 2023 TDC1000
PRODUCTION DATA
The temperature sensing block can be configured to measure a single RTD by setting the TEMP_MODE bit in the CONFIG_3 register to 1. When the temperature measurement runs in PT1000 mode (TEMP_RTD_SEL = 0), the first interval corresponds to RREF, the second interval is a redundant measurement on RREF and should be neglected, and the third interval corresponds to RTD1. #SNAS6482002 shows this operation.
Use GUID-8CB080C3-89CD-48BD-852D-6E257D6D9C83.html#SNAS6484857 to calculate the resistance of RTD1. You can use GUID-8CB080C3-89CD-48BD-852D-6E257D6D9C83.html#SNAS6482477 and GUID-8CB080C3-89CD-48BD-852D-6E257D6D9C83.html#SNAS6482464 to approximate the time delay between measurements, with the exception that td1 is a function of ½ tREF and td2 is a function of tRTD1 in this case.
If the temperature measurement runs in PT500 mode (TEMP_RTD_SEL = 1), the first interval is a redundant measurement on RREF and should be neglected, the second interval corresponds to RREF, and the third interval corresponds to RTD1. #SNAS6481094 shows this operation.
Use GUID-8CB080C3-89CD-48BD-852D-6E257D6D9C83.html#SNAS6484857 to calculate the resistance of RTD1. You can use GUID-8CB080C3-89CD-48BD-852D-6E257D6D9C83.html#SNAS6482477 and GUID-8CB080C3-89CD-48BD-852D-6E257D6D9C83.html#SNAS6482464 to approximate the time delay between measurements, with the exception that td1 is a function of tREF and td2 is a function of tRTD1 in this case.