Hello everyone,
I'm new to the DT800 world. I wanted to verify our DT800's operation, so I decided to follow Omega's short circuit test. I am using Analog Channel 1, 2, and 3 and I've shorted the inputs.
The negative terminals of the input are common to each other. I then loaded a program to take a reading for all three channels at a 500ms interval. I set the program to give me temperature and voltage reading.
I was mostly concerned with the voltage reading because I wanted to compare it with our thermocouple readings. The data that I got showed a voltage variation from +/- 3mV over a 3 minute interval using a short circuit test.
It seems that this will affect our recorded data when the thermocouples are inserted. Earlier, by probing the thermocouple terminal with a multimeter,
I only notice a 1mV change when I put the thermocouple in the freezer. Wouldn't this inherent noise voltage from the DT800 change the reading?
Thanks!
Hello everyone,
I'm new to the DT800 world. I wanted to verify our DT800's operation, so I decided to follow Omega's short circuit test. I am using Analog Channel 1, 2, and 3 and I've shorted the inputs.
The negative terminals of the input are common to each other. I then loaded a program to take a reading for all three channels at a 500ms interval. I set the program to give me temperature and voltage reading.
I was mostly concerned with the voltage reading because I wanted to compare it with our thermocouple readings. The data that I got showed a voltage variation from +/- 3mV over a 3 minute interval using a short circuit test.
It seems that this will affect our recorded data when the thermocouples are inserted. Earlier, by probing the thermocouple terminal with a multimeter,
I only notice a 1mV change when I put the thermocouple in the freezer. Wouldn't this inherent noise voltage from the DT800 change the reading?
Thanks!
