WebbAdafruit Industries, Unique & fun DIY electronics and kits Platinum RTD Sensor - PT1000 - 3 Wire 1 meter long : ID 3984 - For precision temperature sensing, nothing beats a Platinum RTD. Resistance temperature detectors (RTDs) are temperature sensors that contain a resistor that changes resistance value as its temperature changes, basically a kind of … WebbMost RTD sensing elements can be packaged to withstand an extremely broad temperature range (‑200 to 600°C). For most purposes, the standard operating range should be sufficient, but we also have RTDs with a higher or lower operating tem‑ perature range. BAPI offers 1 KΩ Platinum RTDs with the ranges shown in the table at right.
RTD Basics—An Introduction to Resistance Temperature Detectors
WebbTemperature vs Resistance Table Resistance @ 0°C Temperature Range 320 to 1562°F 200 to 850°C Accuracy: Grade A Tolerance = ±[0.13 +0.0017 * t ] °C Grade B tolerance =±[0.25 +0.0042 * t ] °C Recommended Applications: Where higher accuracy is needed in general purpose and industrial application. WebbThe classical resistance temperature detector (RTD) construction using platinum was proposed by C.H. Meyers in 1932. He wound a helical coil of platinum on a crossed mica … pirate themed dnd one shot
Endress+Hauser TH11 Specifications
WebbTo view a particular table, click on the icon you wish to view. The table will appear in a new window. View As A Web Page ... 10 ohm Copper RTD - .00427 coefficient, Degrees Fahrenheit: 100 ohm Platinum RTD - .00385 coefficient, Degrees Celsius: 100 ohm Platinum RTD - .00385 coefficient, Degrees Fahrenheit: 100 ohm Platinum RTD - .00392 ... Webb31 maj 2024 · These resistance thermometers use a Pt100 temperature sensor according to IEC 60751. The temperature sensor is a temperature-sensitive platinum resistor with a resistance of 100 Ω at 0 °C (32 °F) and a temperature coefficient α = 0.003851 °C-1. WebbPt500 platinum resistor - resistance in ohms vs temperature in degrees Celsius R 0 For temperatures -200°C to 0°C: R t = R 0 * (1 + A * t + B * t 2 + C * (t - 100°C) * t3) t A For temperatures 0°C to 850°C: R t = R 0 * (1 + A * t + B * t 2) B C °C-10 -9 -8 -7 -6 -5 -4 -3 -2 -1 … pirate themed drinking games