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Homepage>BS Standards>33 TELECOMMUNICATIONS. AUDIO AND VIDEO ENGINEERING>33.180 Fibre optic communications>33.180.20 Fibre optic interconnecting devices>BS EN IEC 61300-3-30:2021 Fibre optic interconnecting devices and passive components. Basic test and measurement procedures Examinations and measurements. Endface geometry of rectangular ferrule
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BS EN IEC 61300-3-30:2021 Fibre optic interconnecting devices and passive components. Basic test and measurement procedures Examinations and measurements. Endface geometry of rectangular ferrule

BS EN IEC 61300-3-30:2021

Fibre optic interconnecting devices and passive components. Basic test and measurement procedures Examinations and measurements. Endface geometry of rectangular ferrule

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Standard number:BS EN IEC 61300-3-30:2021
Pages:24
Released:2021-02-09
ISBN:978 0 580 87583 0
Status:Standard
BS EN IEC 61300-3-30:2021 Fibre Optic Interconnecting Devices and Passive Components

BS EN IEC 61300-3-30:2021 Fibre Optic Interconnecting Devices and Passive Components

Welcome to the comprehensive guide on the BS EN IEC 61300-3-30:2021 standard, a crucial document for professionals working with fibre optic interconnecting devices and passive components. This standard provides essential test and measurement procedures, focusing specifically on the examinations and measurements of the endface geometry of rectangular ferrules.

Overview of the Standard

The BS EN IEC 61300-3-30:2021 is a pivotal standard that outlines the basic test and measurement procedures necessary for ensuring the quality and performance of fibre optic interconnecting devices. Released on February 9, 2021, this document is a must-have for engineers and technicians who are involved in the design, testing, and maintenance of fibre optic systems.

Key Features

  • Standard Number: BS EN IEC 61300-3-30:2021
  • Pages: 24
  • ISBN: 978 0 580 87583 0
  • Status: Standard

Importance of Endface Geometry

The endface geometry of fibre optic connectors is critical to the performance of optical networks. Properly polished and aligned endfaces ensure minimal signal loss and optimal performance. The BS EN IEC 61300-3-30:2021 standard provides detailed procedures for examining and measuring the endface geometry of rectangular ferrules, which are commonly used in fibre optic connectors.

By adhering to the guidelines set forth in this standard, professionals can ensure that their fibre optic systems meet the necessary performance criteria, thereby reducing the risk of signal degradation and network downtime.

Comprehensive Test and Measurement Procedures

This standard offers a comprehensive set of test and measurement procedures that are designed to evaluate the endface geometry of rectangular ferrules. These procedures are essential for ensuring that the connectors meet the required specifications and perform optimally in various applications.

The document provides detailed instructions on how to conduct these tests, including the equipment needed, the testing environment, and the specific measurements to be taken. By following these procedures, professionals can accurately assess the quality of their fibre optic connectors and make any necessary adjustments to improve performance.

Who Should Use This Standard?

The BS EN IEC 61300-3-30:2021 standard is an invaluable resource for a wide range of professionals in the fibre optics industry, including:

  • Design engineers who are responsible for developing new fibre optic products and systems.
  • Quality assurance specialists who need to ensure that products meet industry standards.
  • Technicians who are involved in the installation and maintenance of fibre optic networks.
  • Researchers who are studying the performance characteristics of fibre optic components.

Benefits of Adopting This Standard

Adopting the BS EN IEC 61300-3-30:2021 standard offers numerous benefits, including:

  • Improved Performance: By ensuring that the endface geometry of connectors is within specified tolerances, network performance can be significantly enhanced.
  • Reduced Downtime: Properly tested and maintained connectors are less likely to fail, reducing the risk of network outages.
  • Cost Savings: By preventing signal loss and network issues, organizations can save on maintenance and repair costs.
  • Compliance: Adhering to industry standards is often a requirement for regulatory compliance and can enhance the reputation of a company.

Conclusion

The BS EN IEC 61300-3-30:2021 standard is an essential tool for anyone involved in the fibre optics industry. By providing detailed test and measurement procedures for the endface geometry of rectangular ferrules, this standard helps ensure that fibre optic systems perform at their best. Whether you are a design engineer, quality assurance specialist, technician, or researcher, this document is a valuable resource that can help you achieve your goals and maintain the highest standards of quality and performance in your work.

DESCRIPTION

BS EN IEC 61300-3-30:2021


This standard BS EN IEC 61300-3-30:2021 Fibre optic interconnecting devices and passive components. Basic test and measurement procedures is classified in these ICS categories:
  • 33.180.20 Fibre optic interconnecting devices
IEC 61300-3-30:2020 is available as IEC 61300-3-30:2020 RLV which contains the International Standard and its Redline version, showing all changes of the technical content compared to the previous edition.

IEC 61300-3-30:2020 describes a method of measuring the end face geometry of rectangular multifibre ferrules having an IEC defined optical interface. The primary attributes are fibre position relative to the end face, either withdrawal or protrusion, end face angle relative to the guide pin bores, fibre tip radii and core dip for multimode fibres. This second edition cancels and replaces the first edition published in 2003. This edition constitutes a technical revision.This edition includes the following significant technical changes with respect to the previous edition: - measurement of the individual fibre tip radii; - introduction of the geometry limit (GL) metric; - introduction of the minus coplanarity metric; - new method for measuring the core dips; - all measurement regions are now identical for MM and SM fibres; - the ferrule surface angle sign convention has been changed.