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Homepage>BS Standards>17 METROLOGY AND MEASUREMENT. PHYSICAL PHENOMENA>17.200 Thermodynamics and temperature measurements>17.200.20 Temperature-measuring instruments>BS EN IEC 60751:2022 - TC Tracked Changes. Industrial platinum resistance thermometers and platinum temperature sensors
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immediate downloadReleased: 2022-07-29
BS EN IEC 60751:2022 - TC Tracked Changes. Industrial platinum resistance thermometers and platinum temperature sensors

BS EN IEC 60751:2022 - TC

Tracked Changes. Industrial platinum resistance thermometers and platinum temperature sensors

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Standard number:BS EN IEC 60751:2022 - TC
Pages:78
Released:2022-07-29
ISBN:978 0 539 23293 6
Status:Tracked Changes
DESCRIPTION

BS EN IEC 60751:2022 - TC


This standard BS EN IEC 60751:2022 - TC Tracked Changes. Industrial platinum resistance thermometers and platinum temperature sensors is classified in these ICS categories:
  • 17.200.20 Temperature-measuring instruments
This International Standard specifies the requirements, in addition to the resistance versus temperature relationship, for both industrial platinum resistance thermometers (later referred to as "thermometers") and industrial platinum resistance temperature sensors (later referred to as "platinum resistors") whose electrical resistance is derived from defined functions of temperature. Values of temperature in this document are in terms of the International Temperature Scale of 1990, ITS-90. A temperature in the unit °C of this scale is denoted by the symbol t, except in Table A.1 where the full nomenclature t90 /°C is used. This document applies to platinum resistors whose temperature coefficient α, defined as α= R100 − R0 R0 ⋅ 100°C is conventionally written as α = 3,851⋅10-3 °C-1, where R100 is the resistance at t = 100 °C and R0 is the resistance at t = 0 °C. This document covers platinum resistors and thermometers for the temperature range −200 °C to +850 °C with different tolerance classes. It can also cover particular platinum resistors or thermometers for a part of this temperature range. For resistance versus temperature relationships with uncertainties less than 0,1 °C, which are possible only for platinum resistors or thermometers with exceptionally high stability and individual calibration, a more complex interpolation equation than is presented in this document can be necessary. The specification of such equations is outside the scope of this document.