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BS EN IEC 60751:2022 Industrial platinum resistance thermometers and platinum temperature sensors

BS EN IEC 60751:2022

Industrial platinum resistance thermometers and platinum temperature sensors

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Standard number:BS EN IEC 60751:2022
Pages:32
Released:2022-07-20
ISBN:978 0 539 02199 8
Status:Standard
BS EN IEC 60751:2022 Industrial Platinum Resistance Thermometers and Platinum Temperature Sensors

BS EN IEC 60751:2022 Industrial Platinum Resistance Thermometers and Platinum Temperature Sensors

Standard Number: BS EN IEC 60751:2022

Pages: 32

Released: 2022-07-20

ISBN: 978 0 539 02199 8

Name: Industrial platinum resistance thermometers and platinum temperature sensors

Status: Standard

Overview

The BS EN IEC 60751:2022 standard is the definitive guide for industrial platinum resistance thermometers and platinum temperature sensors. Released on July 20, 2022, this comprehensive 32-page document provides the latest guidelines and specifications for the design, application, and performance of these critical temperature measurement devices.

Why Choose Platinum Resistance Thermometers?

Platinum resistance thermometers (PRTs) are renowned for their high accuracy, stability, and repeatability. They are widely used in industrial applications where precise temperature measurement is crucial. The BS EN IEC 60751:2022 standard ensures that these devices meet stringent quality and performance criteria, making them reliable tools for various industries, including manufacturing, pharmaceuticals, and energy.

Key Features

  • High Accuracy: Platinum resistance thermometers offer exceptional accuracy, making them ideal for applications requiring precise temperature control.
  • Stability: These thermometers maintain their accuracy over long periods, ensuring consistent performance.
  • Wide Temperature Range: PRTs can measure a broad range of temperatures, making them versatile for different industrial needs.
  • Durability: Constructed with high-quality materials, platinum resistance thermometers are built to withstand harsh industrial environments.

Applications

The BS EN IEC 60751:2022 standard is applicable to a wide range of industries and applications, including:

  • Manufacturing: Ensuring precise temperature control in production processes.
  • Pharmaceuticals: Maintaining accurate temperatures in drug manufacturing and storage.
  • Energy: Monitoring temperatures in power plants and energy production facilities.
  • Food and Beverage: Ensuring safe and consistent temperatures in food processing and storage.
  • Research and Development: Providing accurate temperature measurements in scientific experiments and studies.

Compliance and Quality Assurance

Adhering to the BS EN IEC 60751:2022 standard ensures that your platinum resistance thermometers and temperature sensors meet the highest quality and performance standards. This compliance is crucial for industries where precise temperature measurement is essential for safety, efficiency, and product quality.

Technical Specifications

The BS EN IEC 60751:2022 standard provides detailed technical specifications for platinum resistance thermometers and temperature sensors, including:

  • Resistance-Temperature Characteristics: Defines the relationship between resistance and temperature for platinum sensors.
  • Tolerances: Specifies the acceptable tolerances for different classes of platinum resistance thermometers.
  • Construction: Outlines the construction requirements for ensuring durability and performance.
  • Testing and Calibration: Provides guidelines for testing and calibrating platinum resistance thermometers to ensure accuracy.

Benefits of Using BS EN IEC 60751:2022 Standard

Implementing the BS EN IEC 60751:2022 standard in your operations offers numerous benefits, including:

  • Enhanced Accuracy: Achieve precise temperature measurements, critical for quality control and process optimization.
  • Improved Reliability: Ensure consistent performance and reduce the risk of measurement errors.
  • Compliance: Meet industry regulations and standards, ensuring your products and processes are up to par.
  • Cost Savings: Reduce downtime and maintenance costs by using reliable and durable temperature measurement devices.

Conclusion

The BS EN IEC 60751:2022 standard is an essential resource for anyone involved in the design, application, and maintenance of industrial platinum resistance thermometers and platinum temperature sensors. By adhering to this standard, you can ensure that your temperature measurement devices meet the highest quality and performance criteria, providing accurate and reliable measurements for a wide range of industrial applications.

With its comprehensive guidelines and specifications, the BS EN IEC 60751:2022 standard is your go-to reference for achieving excellence in temperature measurement. Invest in this standard to enhance the accuracy, reliability, and compliance of your temperature measurement processes.

DESCRIPTION

BS EN IEC 60751:2022


This standard BS EN IEC 60751:2022 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.