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Homepage>BS Standards>33 TELECOMMUNICATIONS. AUDIO AND VIDEO ENGINEERING>33.180 Fibre optic communications>33.180.30 Optic amplifiers>BS EN IEC 61290-1-3:2021 Optical amplifiers. Test methods Power and gain parameters. Optical power meter method
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BS EN IEC 61290-1-3:2021 Optical amplifiers. Test methods Power and gain parameters. Optical power meter method

BS EN IEC 61290-1-3:2021

Optical amplifiers. Test methods Power and gain parameters. Optical power meter method

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Standard number:BS EN IEC 61290-1-3:2021
Pages:22
Released:2021-05-14
ISBN:978 0 539 12718 8
Status:Standard
BS EN IEC 61290-1-3:2021 Optical Amplifiers Standard

BS EN IEC 61290-1-3:2021: Optical Amplifiers - Test Methods for Power and Gain Parameters

Welcome to the comprehensive guide on the BS EN IEC 61290-1-3:2021 standard, a crucial document for professionals working with optical amplifiers. This standard provides detailed test methods for evaluating power and gain parameters using the optical power meter method. Released on May 14, 2021, this document is an essential resource for ensuring the accuracy and reliability of optical amplifier performance.

Overview of the Standard

The BS EN IEC 61290-1-3:2021 standard is a part of a series of standards that focus on optical amplifiers, which are critical components in modern optical communication systems. These amplifiers are used to boost the signal strength in fiber optic cables, ensuring that data can be transmitted over long distances without degradation.

This particular standard outlines the test methods for measuring power and gain parameters, which are vital for assessing the performance of optical amplifiers. By following these standardized methods, manufacturers and engineers can ensure that their products meet the necessary quality and performance benchmarks.

Key Features and Benefits

  • Standard Number: BS EN IEC 61290-1-3:2021
  • Pages: 22
  • Release Date: May 14, 2021
  • ISBN: 978 0 539 12718 8
  • Status: Standard

This standard is designed to provide a consistent and reliable method for testing optical amplifiers, ensuring that all measurements are accurate and comparable across different devices and manufacturers. By adhering to these guidelines, companies can improve the quality of their products and enhance customer satisfaction.

Why Choose BS EN IEC 61290-1-3:2021?

Optical amplifiers are a cornerstone of modern telecommunications, and their performance can significantly impact the efficiency and reliability of communication networks. The BS EN IEC 61290-1-3:2021 standard offers several advantages:

1. Precision and Accuracy

By using the optical power meter method, this standard ensures that power and gain measurements are precise and accurate. This is crucial for maintaining the integrity of optical signals over long distances.

2. Consistency Across the Industry

With standardized test methods, manufacturers and engineers can ensure that their products meet industry-wide benchmarks. This consistency is vital for interoperability and compatibility between different systems and components.

3. Enhanced Product Quality

Adhering to the guidelines set out in this standard helps manufacturers improve the quality of their optical amplifiers, leading to better performance and increased customer satisfaction.

4. Comprehensive Coverage

Spanning 22 pages, this standard provides a thorough overview of the test methods for power and gain parameters, making it an invaluable resource for professionals in the field.

Applications of the Standard

The BS EN IEC 61290-1-3:2021 standard is applicable in various sectors where optical amplifiers are used, including:

  • Telecommunications: Ensuring reliable and efficient data transmission over long distances.
  • Data Centers: Enhancing the performance of high-speed data networks.
  • Research and Development: Providing a framework for testing and developing new optical amplifier technologies.

Conclusion

In the fast-paced world of optical communications, having a reliable and standardized method for testing optical amplifiers is essential. The BS EN IEC 61290-1-3:2021 standard provides the necessary guidelines to ensure that power and gain parameters are measured accurately and consistently. By adopting this standard, manufacturers and engineers can enhance the quality and performance of their products, ultimately benefiting the entire telecommunications industry.

Whether you are a manufacturer, engineer, or researcher, the BS EN IEC 61290-1-3:2021 standard is an indispensable tool for ensuring the success and reliability of optical amplifier technologies. Embrace this standard to stay ahead in the ever-evolving field of optical communications.

DESCRIPTION

BS EN IEC 61290-1-3:2021


This standard BS EN IEC 61290-1-3:2021 Optical amplifiers. Test methods is classified in these ICS categories:
  • 33.180.30 Optic amplifiers
IEC 61290-1-3:2021 is available as IEC 61290-1-3:2021 RLV which contains the International Standard and its Redline version, showing all changes of the technical content compared to the previous edition.

IEC 61290-1-3:2021 applies to all commercially available optical amplifiers (OA) and optically amplified subsystems. It applies to OA using optically pumped fibres (OFA based on either rare-earth doped fibres or on the Raman effect), semiconductors (SOA), and waveguides (POWA). NOTE 1 The applicability of the test methods described in this document to distributed Raman amplifiers is for further study. The object of this document is to establish uniform requirements for accurate and reliable measurements, by means of the optical power meter test method, of the following OA parameters, as defined in IEC 61291-1: - nominal output signal power; - gain; - polarization-dependent gain; - maximum output signal power; - maximum total output power. NOTE 2 All numerical values followed by (‡) are suggested values for which the measurement is assured. Other values can be acceptable upon verification. This document applies to single-channel amplifiers. For multichannel amplifiers, IEC 61290-10 (all parts) applies. This fourth edition cancels and replaces the third edition published in 2015. This edition constitutes a technical revision. This edition includes the following significant technical changes with respect to the previous edition: - harmonization with IEC 61290-1-1; - use of the term "measurement uncertainty" instead of "measurement accuracy".