BS IEC 61691-6:2021 - VHDL Analog and Mixed-Signal Extensions

Welcome to the world of advanced digital design with the BS IEC 61691-6:2021 standard, a comprehensive guide to Behavioural Languages with VHDL Analog and Mixed-Signal Extensions. This standard is an essential resource for engineers and designers who are looking to enhance their understanding and application of VHDL in the realm of analog and mixed-signal systems.

Overview

The BS IEC 61691-6:2021 standard is a pivotal document that provides detailed guidelines and specifications for the use of VHDL (VHSIC Hardware Description Language) in analog and mixed-signal (AMS) design. Released on June 22, 2021, this standard is a testament to the evolving needs of the electronics industry, addressing the complexities of modern electronic systems that integrate both digital and analog components.

Key Features

• Standard Number: BS IEC 61691-6:2021
• Pages: 676
• Release Date: 2021-06-22
• ISBN: 978 0 539 17342 0
• Status: Standard

Why Choose BS IEC 61691-6:2021?

In the fast-paced world of electronics, staying ahead of the curve is crucial. The BS IEC 61691-6:2021 standard equips you with the knowledge to effectively utilize VHDL for AMS designs, ensuring that your projects meet the highest standards of quality and performance. Here are some reasons why this standard is indispensable:

Comprehensive Coverage

With 676 pages of in-depth content, this standard covers a wide range of topics related to VHDL and its application in analog and mixed-signal environments. Whether you are a seasoned professional or a newcomer to the field, the detailed explanations and examples provided will enhance your understanding and skills.

Up-to-Date Information

Released in 2021, the BS IEC 61691-6:2021 standard reflects the latest advancements and best practices in the industry. By adhering to this standard, you ensure that your designs are aligned with current technological trends and requirements.

Enhanced Design Capabilities

VHDL is a powerful language for digital design, and with the analog and mixed-signal extensions provided in this standard, you can expand your design capabilities to include complex AMS systems. This allows for more integrated and efficient designs, reducing the need for separate analog and digital design processes.

Applications

The BS IEC 61691-6:2021 standard is applicable across a wide range of industries and applications, including:

• Consumer Electronics: Design of integrated circuits for smartphones, tablets, and other consumer devices.
• Automotive: Development of advanced driver-assistance systems (ADAS) and other automotive electronics.
• Telecommunications: Design of communication systems and devices that require precise analog and digital integration.
• Industrial Automation: Creation of control systems and sensors for industrial applications.

Conclusion

The BS IEC 61691-6:2021 standard is an invaluable resource for anyone involved in the design and development of electronic systems that incorporate both analog and digital components. By providing a comprehensive framework for the use of VHDL in AMS environments, this standard helps you achieve higher levels of efficiency, performance, and innovation in your projects.

Invest in your future and the future of your designs by integrating the BS IEC 61691-6:2021 standard into your workflow. With its detailed guidelines and up-to-date information, you can be confident that your designs will meet the demands of today's technology-driven world.

BS IEC 61691-6:2021

• 25.040.01 Industrial automation systems in general
• 35.060 Languages used in information technology

This standard defines the IEEE 1076.1™ language, a hardware description language for the description and the simulation of analog, digital, and mixed-signal systems. Informally called VHDL-AMS (VHSIC Hardware Description Language for Analog and Mixed-Signal, where VHSIC stands for Very High Speed Integrated Circuits), the language is built on the IEEE 1076™ (VHDL) language and extends it to provide capabilities of writing and simulating analog and mixed-signal models.