BS EN IEC 60060-1:2025: High-voltage Test Techniques - General Terminology and Test Requirements

Introducing the latest standard in high-voltage testing, the BS EN IEC 60060-1:2025. This comprehensive document is an essential resource for professionals in the electrical engineering field, providing a detailed framework for high-voltage test techniques. Released on June 10, 2025, this standard is the definitive guide for understanding and implementing high-voltage testing protocols.

Overview

The BS EN IEC 60060-1:2025 standard is a critical document that outlines the general terminology and test requirements for high-voltage testing. With a total of 86 pages, it offers an in-depth exploration of the methodologies and terminologies used in high-voltage testing, ensuring that professionals are equipped with the knowledge to conduct tests accurately and safely.

Key Features

• Comprehensive Coverage: This standard provides a thorough overview of high-voltage test techniques, ensuring that all aspects of testing are covered.
• Up-to-date Information: As a 2025 release, it includes the latest advancements and updates in high-voltage testing technology.
• Standard Number: BS EN IEC 60060-1:2025
• ISBN: 978 0 539 05060 8
• Status: Official Standard

Why Choose BS EN IEC 60060-1:2025?

High-voltage testing is a critical component in the field of electrical engineering, ensuring the safety and reliability of electrical systems. The BS EN IEC 60060-1:2025 standard is designed to provide professionals with the necessary guidelines to perform these tests effectively. Here are some reasons why this standard is indispensable:

1. Ensures Safety and Compliance

Adhering to the guidelines set out in this standard helps ensure that high-voltage tests are conducted safely, minimizing the risk of accidents and equipment failure. Compliance with this standard is crucial for meeting industry regulations and maintaining high safety standards.

2. Enhances Test Accuracy

With detailed descriptions of test techniques and requirements, this standard helps improve the accuracy of high-voltage tests. Accurate testing is essential for diagnosing potential issues and ensuring the optimal performance of electrical systems.

3. Facilitates Professional Development

For professionals in the electrical engineering field, staying updated with the latest standards is vital for career advancement. The BS EN IEC 60060-1:2025 provides the knowledge and skills needed to excel in high-voltage testing, making it a valuable resource for professional development.

Who Should Use This Standard?

This standard is ideal for a wide range of professionals, including:

• Electrical Engineers
• Test Technicians
• Quality Assurance Specialists
• Compliance Officers
• Research and Development Teams

Conclusion

The BS EN IEC 60060-1:2025 is an essential standard for anyone involved in high-voltage testing. Its comprehensive coverage, up-to-date information, and focus on safety and accuracy make it an invaluable resource for professionals in the field. By adhering to this standard, you can ensure that your high-voltage tests are conducted with the highest level of precision and safety.

Equip yourself with the knowledge and tools needed to excel in high-voltage testing by integrating the BS EN IEC 60060-1:2025 into your professional toolkit. Stay ahead in the field of electrical engineering with this indispensable standard.

BS EN IEC 60060-1:2025

This standard BS EN IEC 60060-1:2025 High-voltage test techniques is classified in these ICS categories:

• 17.220.20 Measurement of electrical and magnetic quantities
• 19.080 Electrical and electronic testing

IEC 60060-1:2025 is applicable to: - dielectric tests with direct voltage; - dielectric tests with alternating voltage; - dielectric tests with impulse voltage; - dielectric tests with combinations of the above. This document is applicable to tests on equipment having its highest voltage for equipment Um above 1,0 kV AC and 1,5 kV DC. This fourth edition cancels and replaces the third edition published in 2010. This edition constitutes a technical revision. This edition includes the following significant technical changes with respect to the previous edition: - The general layout and text have been updated and improved to make the standard easier to use, particularly the clauses for combined and composite test voltages. - The positive tolerance of the front time of lightning impulse voltage has been extended for Um > 800 kV to 100 % (= 2,4 µs). - For switching impulse voltage, a front time has been introduced, similar to lightning impulse voltage and with the new front time the standard switching impulse is defined as 170/2 500 µs. - The requirements for precipitations have been adjusted depending on Um. - A new Annex C, "Procedure for manual calculation from graphical waveforms" has been incorporated. - No examples of software have been given in Annex D, "Guidance for implementing software for evaluation of lightning impulse voltage parameters". - The annex relating to the "Background to the introduction of the test voltage factor for evaluation of impulses with overshoot" has been deleted. - A new informative Annex F, "New definition of the front time of switching impulse voltage" has been incorporated. NOTE 1 Alternative test procedures can be required to obtain reproducible and significant results. The choice of a suitable test procedure is considered by the relevant Technical Committee. NOTE 2 For voltages Um above 800 kV it is possible that some specified procedures, tolerances and uncertainties will not be achievable.