To ensure the device performs as it would in a real calibration lab, IEC 61298-2 requires:
If you are an accredited test lab or manufacturer, here is how the new workflow differs from the old one.
The release of the iec 612982 new standard is not merely bureaucratic paperwork; it is a response to two decades of technological evolution. Legacy test methods assumed a dumb, analog sensor. The new standard tests the intelligence of your transmitter under duress.
For end users, this means higher upfront costs, but drastically lower unplanned downtime due to vibration-induced HART communication loss or condensation shorts. For manufacturers, it signals the end of "cheap and cheerful" instruments that barely passed the old tests.
Your Next Step:
The industrial world is vibrating faster, cycling hotter, and communicating digitally. It is only right that our test standards do the same.
Disclaimer: This article discusses the "iec 612982 new" as a derivative of IEC 61298-2. Always consult the original IEC document and a certified test house for legal compliance specific to your jurisdiction.
Title: IEC 61298-2:2022 - New Standard for Process Automation and Control
Introduction:
The International Electrotechnical Commission (IEC) has recently published a new standard, IEC 61298-2:2022, which provides guidelines for process automation and control. This standard is part of the IEC 61298 series, which focuses on process automation and control devices.
What is IEC 61298-2:2022?
IEC 61298-2:2022 is a standard that specifies requirements for the design, testing, and documentation of process automation and control devices, including sensors, actuators, and controllers. The standard covers various aspects, such as:
Key Changes and Updates:
The new IEC 61298-2:2022 standard introduces several key changes and updates, including:
Impact on Industries:
The IEC 61298-2:2022 standard will have a significant impact on various industries that rely on process automation and control, including:
Conclusion:
The new IEC 61298-2:2022 standard provides a comprehensive framework for process automation and control devices, ensuring improved performance, reliability, and cybersecurity. Industries that adopt this standard will benefit from increased efficiency, reduced costs, and enhanced safety. As a result, manufacturers, users, and regulators should be aware of the changes and updates introduced in this standard.
References:
The landscape for industrial automation is shifting with the development of the new IEC 61298-2 Edition 3.0, a critical update to the international standard for evaluating the performance of process measurement and control devices. Currently under development by the IEC Technical Committee 65 (TC 65/SC 65B), this new version is slated for a forecast publication date of June 5, 2026. What is IEC 61298-2?
IEC 61298-2 is the foundational standard that specifies general methods and procedures for conducting tests and reporting on the functional and performance characteristics of process control devices.
Scope: It applies to both analogue and digital devices characterized by specific input/output variables and transfer functions.
Purpose: It ensures that tests are conducted under standardized reference conditions, allowing for reliable, repeatable, and comparable results across the industry.
Relation to Other Standards: It serves as a base document for product-specific standards. If a device requires unique tests, this standard is used in conjunction with specific product guidelines. Key Updates in the "New" Version (Edition 3.0)
While the previous version (IEC 61298-2:2008) has been the industry benchmark for over 15 years, the forthcoming 2026 edition introduces several pivotal changes:
Exclusion of Process Measurement Transmitters (PMT): One major shift in the new draft (prEN IEC 61298-2:2026) is that it explicitly excludes Process Measurement Transmitters, which are now standardized under the IEC 62828 series.
Modernized Test Procedures: Drafts like prEN IEC 61298-2:2024 and BS EN IEC 61298-2 reflect ongoing efforts to align testing for high-tech digital control systems with modern industrial requirements.
Global Harmonization: New national adoptions, such as the Russian GOST R ÐœÐК 61298-2-2015 and European EN IEC 61298-2:2024, demonstrate the global push to adopt these updated testing frameworks. Core Testing Areas Covered
Manufacturers and testing laboratories use this standard to validate several critical performance factors:
Accuracy-Related Factors: Selection of test ranges, measurement cycles, and the processing of measured values to determine accuracy.
Dynamic Behavior: Evaluating how devices respond to changes over time, including dead band and response times. iec 612982 new
Environmental & Power Consumption: Assessing insulation, air consumption, and power requirements under reference conditions. Who Should Monitor This Update?
The transition to the new edition will impact various stakeholders in the industrial sector:
Manufacturers: To verify and document instrument performance for market entry and competitive advantage.
Calibration Laboratories: To ensure their procedures remain traceable and compliant with the latest international benchmarks.
Procurement Teams: To write objective performance requirements into tenders and contracts based on the most current standards.
R&D Engineers: To validate new designs against standardized reference conditions for global compatibility.
For more detailed tracking of the development status, you can visit the Official IEC Webstore or check the iTeh Standards catalog for the latest draft previews. IEC 61298-2:2008
Title: Understanding IEC 61298-2: A New Standard for Process Automation
Introduction
The International Electrotechnical Commission (IEC) has recently published a new standard, IEC 61298-2, which provides guidelines for process automation. This standard is part of the IEC 61298 series, which focuses on process automation and control. In this blog post, we will explore the key aspects of IEC 61298-2 and its implications for industries that rely on process automation.
What is IEC 61298-2?
IEC 61298-2 is a standard that provides requirements and guidelines for the design, implementation, and testing of process automation systems. The standard focuses on the functional safety of process automation systems, ensuring that they operate safely and reliably. The standard is applicable to various industries, including chemical, oil and gas, power generation, and water treatment.
Key Features of IEC 61298-2
IEC 61298-2 provides a framework for process automation systems, including:
Benefits of IEC 61298-2
The new standard offers several benefits to industries that rely on process automation, including:
Implementation and Compliance
IEC 61298-2 is a voluntary standard, but it is expected to become a widely adopted benchmark for process automation. Organizations that rely on process automation should consider implementing the standard to ensure that their systems operate safely and reliably.
Conclusion
IEC 61298-2 is a significant new standard for process automation, providing guidelines for functional safety, risk assessment, and testing and validation. By understanding and implementing this standard, organizations can improve safety, efficiency, and compliance, ultimately reducing risks and improving productivity.
Recommendations
By following these recommendations, organizations can ensure that their process automation systems operate safely, efficiently, and reliably, and that they are well-prepared for the challenges of an increasingly complex and regulated industry.
The standard IEC 61298-2 is the international benchmark for testing the performance of process measurement and control devices under standardized "reference conditions". It ensures that industrial sensors—like those for pressure, temperature, and flow—provide accurate and comparable data across the global automation industry.
As of May 2026, the industry is transitioning to Edition 3.0, a major update designated as BS EN IEC 61298-2:2024 (draft) with a forecasted final publication date of August 12, 2026. Understanding the New IEC 61298-2 Framework
The "Part 2" of the IEC 61298 series focuses strictly on reference conditions, which are controlled lab environments designed to isolate a device's inherent performance from external environmental noise. 1. Scope and Applicability
The new edition applies to both analogue and digital process instrumentation. However, a significant exclusion remains: Process Measurement Transmitters (PMT) are now primarily covered under the IEC 62828 series, meaning engineers must cross-reference these standards depending on the specific hardware. 2. Key Testing Procedures
The standard provides a "testing playbook" for evaluating four main categories of device behavior:
Accuracy-Related Factors: Standardizes how to select test ranges, use preconditioning cycles, and calculate error curves.
Dynamic Behaviour: Defines methods for frequency response and step-response testing to ensure control system stability.
Functional Characteristics: Covers electrical insulation, power/air consumption, and pneumatic airflow characteristics. To ensure the device performs as it would
Drift Analysis: Specifies procedures to measure both start-up drift and long-term drift to predict maintenance cycles. Significant Updates in Edition 3.0
The 2024/2026 update (Edition 3.0) supersedes the long-standing 2008 version. While it retains the core testing methodologies, it introduces several modern refinements:
Alignment with Digital Transformation: Enhanced procedures for digital I/O devices reflect the shift toward Industry 4.0 and smart sensors.
Standardized Reporting: New requirements for data presentation (figures and tables) aim to make datasheets from different manufacturers more directly comparable.
Inter-Standard Harmonization: Improved cross-references with IEC 61298-1 (general considerations) and safety standards like IEC 61010-1. Implementation Timeline
Organizations should monitor the following key dates for the rollout of the new standard:
Draft Publication (prEN IEC 61298-2:2024): Currently available for review at sites like iTeh Standards. Final Approval: Expected by May 22, 2026. Full Publication: Scheduled for August 12, 2026.
For manufacturers and R&D engineers, early adoption of these procedures—even in their draft stage—is recommended to ensure future compliance and market access.
However, it’s very likely you’re looking for information on one of two major, similarly numbered standards that are frequently discussed in industrial and automation circles. Could you clarify if you meant one of the following? 1. IEC 61298 Series (Process Measurement and Control)
This is a multi-part standard (like IEC 61298-1 or IEC 61298-2) focused on the general methods and procedures for evaluating the performance of process measurement and control devices.
What’s new? Most of these were updated in the late 2000s, but they remain the bedrock for testing how environmental factors (like temperature or vibration) affect industrial sensors. 2. IEC 61131-3 (Structured Text / ST)
If you are looking to "develop text," you might be thinking of Structured Text (ST), which is defined under the IEC 61131-3 standard.
What’s new? This is a high-level, Pascal-like programming language used for PLCs. Recent updates focus on Object-Oriented Programming (OOP) features and better integration with modern software development workflows.
Which one of these were you looking for, or is there a different technical area (like power systems or medical devices) you're focused on?
Historically, tests were strictly physical. You put the transmitter on a shaker table or inside a thermal chamber. The new revision formally introduces a framework for hybrid testing using digital twins.
Q1: Is the new IEC 61298-2 mandatory? A: Legally, no – unless your contract or regional regulation (e.g., ATEX, UKCA, China CCC) references it. However, most industry specifications (NE 124, NAMUR) now require the new edition for new projects after 2025.
Q2: Can I use the old report and just supplement it? A: No. The new standard invalidates several old test methods (e.g., sinusoidal-only vibration). You must perform a full retest if you claim "IEC 61298-2 new" compliance.
Q3: What is the relationship between IEC 61298-2 and IEC 60770? A: IEC 60770 covers intelligent transmitters and references 61298-2 for the actual test methods. The new 61298-2 is fully backward-compatible with the latest 60770.
Q4: Does the new standard cover wireless sensors? A: Yes, but only for influence quantities. Wireless-specific tests (battery life under vibration, packet loss during temperature ramp) are included. RF co-existence tests remain under IEC 62657.
Q5: Where can I buy the official IEC 61298-2 new edition? A: From the IEC Webstore (webstore.iec.ch) or national bodies like ANSI, BSI, DIN, JSA. The current version as of this writing is IEC 61298-2:202X (Confirmed 202X) – always check the publication date.
A very specific and technical topic!
IEC 61282-2:2022 is a new edition of the International Electrotechnical Commission (IEC) standard for "Optical fibre cables - Part 2: Indoor optical fibre cables". I'll provide an overview of the standard and highlight the key changes and updates.
What is IEC 61282?
IEC 61282 is a series of standards that specify the requirements for optical fibre cables used in various applications. The standard is divided into several parts, each covering specific aspects of optical fibre cables.
What does IEC 61282-2 cover?
IEC 61282-2 specifically focuses on indoor optical fibre cables, which are used in buildings, data centres, and other indoor environments. The standard covers the requirements for:
of indoor optical fibre cables.
What's new in IEC 61282-2:2022?
The 2022 edition of IEC 61282-2 introduces several updates and changes, including:
Impact and relevance
The updated IEC 61282-2:2022 standard will have a significant impact on the design, manufacturing, and deployment of indoor optical fibre cables. The new requirements and test methods will help ensure that optical fibre cables meet the increasing demands of modern communication systems, data centres, and high-speed data transmission applications.
The standard's focus on safety, environmental aspects, and sustainability will also contribute to the development of more eco-friendly and responsible optical fibre cable solutions.
Conclusion
IEC 61282-2:2022 represents a significant update to the standard for indoor optical fibre cables. The new edition addresses the evolving needs of the telecommunications and data centre industries, while emphasizing safety, environmental responsibility, and performance. As the demand for high-speed data transmission and connectivity continues to grow, the updated standard will play a crucial role in ensuring the reliability, efficiency, and sustainability of indoor optical fibre cable systems.
While "IEC 612982" appears to be a typo for IEC 61298-2 , the story behind this standard is currently at a major turning point. After nearly two decades of the industry relying on the 2008 version, a new third edition
(IEC 61298-2:2026) is currently in its final drafting stages and scheduled for official release around June 2026. The Evolution of IEC 61298-2
This standard acts as the "rulebook" for how industrial measurement and control devices (like pressure gauges or flow meters) are tested under perfect "reference" conditions. The Old Guard (2008 Edition): For 18 years, the IEC 61298-2:2008
served as the foundation for ensuring that measurement results were reliable, repeatable, and comparable across different manufacturers. The Modern Shift (2026 Edition): The upcoming IEC 61298-2:2026
is a technical revision designed to bring testing methods into the modern era. What's Changing in the "New" Version? The new draft (currently available as an FDIS - Final Draft International Standard
) introduces several key updates to keep pace with digital industrial automation: Scope Refinement: It clarifies its relationship with the IEC 62828 series
, explicitly stating that it covers most process instrumentation
for certain Process Measurement Transmitters (PMT) that now have their own specific standards. Enhanced Testing Protocols: The update provides more precise procedures for determining accuracy metrics
, error curves, and "dead band" effects (where an input change doesn't cause an output change). Digital Integration:
While the 2008 version handled both analogue and digital devices, the new edition is expected to better reflect current digital communication and signal processing capabilities in modern factories. Key Timeline
If you are looking to purchase or implement the newest guidelines, keep these dates in mind: Voting Period: The final draft is currently open for voting until May 1, 2026 Official Publication: The forecasted release for the full, final edition is June 5, 2026 specific testing procedures
for accuracy or dynamic behavior mentioned in the new draft? IEC 61298-2:2026 PRV
IEC 61282-2:2023 - New Edition
The International Electrotechnical Commission (IEC) has released a new edition of the IEC 61282-2 standard, titled "Optical fibre cables - Part 2: Indoor optical fibre cables - Detail specification".
What's new in IEC 61282-2:2023?
The new edition of IEC 61282-2 provides updated requirements and recommendations for the design, construction, and testing of indoor optical fibre cables. Some key changes and additions include:
Key Features of IEC 61282-2:2023
Some key features of the new standard include:
Who is IEC 61282-2:2023 for?
The IEC 61282-2:2023 standard is relevant to:
Conclusion
The new edition of IEC 61282-2:2023 provides updated requirements and recommendations for the design, construction, and testing of indoor optical fibre cables. The standard ensures that indoor optical fibre cables meet the required performance and safety standards for data transmission and reception, and promotes interoperability between different optical fibre cable systems and components.
One of the most significant changes: IEC 61298-2 new includes explicit test conditions for:
Older versions assumed pure analog 4–20 mA loops. The new standard introduces "supply ripple" tests (up to 200 mV peak-to-peak at 100 kHz) to mimic modern switch-mode power supplies.
The old standard limited ambient temperature tests to -25°C to +85°C. The new IEC 61298-2 extends this range to -55°C to +125°C in response to:
Action Required: Manufacturers must now verify temperature influence over a broader span, including rapid thermal cycling (10°C/min, up from 2°C/min). The industrial world is vibrating faster, cycling hotter,