Temperature FAQs - How long does it take to get a reading?
- How do I determine the accuracy of a system (probe and meter)?
- When there are two accuracy statements, which one is correct?
- What are the benefits of grounded, ungrounded, and exposed probe junctions?
- What colors are the lead wires of each thermocouple type?
- How far can I transmit my temperature signal?
- How do I measure samples without contacting them?
Multiply the specified time constant by five. Add together the stated accuracy of each. The general rule is to use the accuracy statement that gives the greatest error in the measuring situation. are welded to the tip of the sheath with wires completely sealed from contaminants. They offer good response times and are ideal for measuring the temperature of static or flowing corrosive gases and liquids.
are sealed, insulated from the protective sheath, and electrically isolated. They have longer response times than grounded or exposed junctions and are used for conductive solutions or where isolation of the measuring circuitry is required.
have the fastest response times and are ideal for measuring rapid temperature changes. Clear coating on most models provides a humidity barrier for the thermocouple. Do not use exposed junctions with corrosive fluids or atmospheres. A: In the U.S.A: Type K = yellow-red Type J = white-red Type T = blue-red Type E = purple-red Red is always negative in thermocouples. In an electrically clean environment, thermocouple, RTD, and thermistor signals can be transmitted up to 200 feet (61 meters) without amplification. To transmit a thermocouple signal over greater distances, use thermocouple extension wire; for RTD and thermistor signals, use shielded copper extension wire. Use an infrared thermometer. |