This course explores the principles of the KNX protocol and includes both theoretical learning and hands-on exercises to build your understanding of the KNX system configuration tool, ETS.
Enquire Now Course DatesAutomation doesn't have to be difficult. It simply requires a system that avoids the problems of isolated devices. By ensuring that all components communicate in one common language, the kind of device you want to use doesn't matter anymore.
Automating a building has far-reaching benefits for integrators and occupants. With KNX, functions like lighting and AV control, security, energy management, and HVAC can work as a uniform system, which is the essence of interworking and interoperability. The KNX Standard provides a unique platform for integrators to deliver a modular and scalable solution that works in all types of buildings, saves energy, and improves health and well-being.
This hybrid course will include 6 self-paced online modules covering how to design the KNX Topology to ensure reliable systems, the history of KNX, the installation of the system, and how KNX bus devices operate.
The online training is followed by a 3 day on-site practical course which covers how to use ETS to program KNX using lighting and shading examples, how to run diagnostics with ETS, and finishes with the Theory and Practical Certification exams. Please note that the online modules must be completed before attending the in-person training. Upon successful completion of both theory and practical certification exams, you will be registered as a KNX Certified Partner.
This module introduces the minimum requirements to form a KNX installation and how they are addressed. It then looks at how group addressing is used for run time communication alongside the function of datapoints to guarantee device interoperability. The structure of telegrams is briefly explained before a more in-depth look at how bus communication works including the role of chokes which are integrated in KNX power supplies. Finally, the distance and device limits on a single line are covered along with the reasons why these are needed.
By the end of this module, you will know:
KNX has existed for over 30 years as the leading standard for home and building automation. This module explores the structure and roles of the KNX association and the different ways the KNX standard is implemented as system solutions. It also covers the unique value proposition that is KNX with a detailed look at the sales arguments.
You will learn how to:
In this module we will cover the physical parts of the KNX installation starting with an explanation of SELV, the KNX cable and the requirements when installing. After a quick look at DIN rail cabinets, the use of KNX power supplies is covered in depth including the standard features, the use of auxiliary connections, and distributed power supplies. The physical connections to the bus and the benefits of having a standard removable push connector are covered followed by a look at lighting & overvoltage protection for the system, as well as running cables between buildings. Finally the testing methods for a KNX installation are detailed.
You will learn:
The KNX system can have over 60,000 devices. This module looks into the way this is managed using lines, areas, and backbone areas. Line couplers are introduced, explaining how they perform to manage the traffic flow through the system. Finally the use of KNX IP lines is covered including their role in larger systems and how to ensure the bus integrity is protected.
You will learn:
This module looks at the configuration of KNX devices, including those that are broken down into multiple parts to make installation easier. The different types of bus devices - including memory capacities - is explained and the way the applications are stored in the devices is covered. Information on how devices reset when faced with low voltage and different device types is also included.
You will learn:
This module explores the use of KNX RF as either a standalone solution or as an extension to a wired KNX System. The impact of a building's fabric on signal strength will be covered along with how to extend the system with repeaters. This is followed by an in-depth look at the technology KNX RF uses including how multiple channels can be utilised to increase the reliability of systems. Comparisons between the current KNX RF S mode and the older KNX E mode will also be explained.
You will learn:
This module is delivered face to face. The practical course how to use ETS to program KNX using lighting and shading examples, how to run diagnostics with ETS, and finishes with the theoretical and practical certification exams. Please note that the online modules must be completed prior to attending this in-person training.
Enquire Now See DatesBen has a lifetime of experience in the electronics industry, having spent the first half of his career as a design engineer in telecoms, computers and power electronics. Over 20 years ago, Ben became one of the UK's pioneers of KNX and since then he has focused all his professional attention on the application of KNX in the UK market and is now widely recognised as an industry expert. Ben formed KNX Consultants Ltd. in 2009 with a view to working alongside the electrical installation industry to use KNX in the growth of building technology, and since then KNX Consultants Ltd. has become actively involved in projects around the country and abroad.
Ben has been teaching KNX and examining candidates for KNX Partner accreditation since 2008 and it's been suggested that he is personally responsible for having trained more than half the UK's registered KNX Partners. Ben has been engaged in CEDIA's KNX training from its outset.
As well as being a KNX Association accredited KNX Tutor, Ben has an honours degree in Electrical and Electronics Engineering, and is a Member of the Institution of Engineering and Technology (MIET).
Advance your career with CEDIA in-person training that will allow you to gain expert knowledge in smart home installation.
Enquire now or call our UK Education department on - 01480 213744.