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The Z-Wave Alliance, the standards development organisation dedicated to advancing the smart home and Z-Wave® technology announces that the specification for ZWLR for the European market has been completed, and will be made available to member companies in an upcoming release.

ZWLR certification programme

From the moment we announced ZWLR for the North American market, the Alliance has been hard at work to make the spec available to our valued members in Europe,” said Avi Rosenthal, Chairman of the Board, of Z-Wave Alliance.

With the specification complete, the Alliance will soon announce ZWLR certification programme details and once released, ZWLR will be available to European Z-Wave Alliance members for product development.”    

Z-Wave connectivity

Z-Wave Alliance members operating within Europe will soon be able to capitalise on the features

ZWLR ushers in a new era of Z-Wave connectivity, bringing expanded options for the smart home, multi-dwelling units, hospitality, and more.

Coming soon to the European market, ZWLR has been meticulously designed as a communication protocol for applications where high performance, increased scale, low power, increased device security, range, and device interoperability are all vital. With the specification complete, Z-Wave Alliance members operating within Europe will soon be able to capitalise on the features and benefits of ZWLR.

Highest performance feature

While the network topologies are different, Z-Wave supports both a mesh network and a star network operating within the same frequency range.

Existing Z-Wave mesh and new ZWLR nodes can co-exist on the same network, enabling a wide variety and combination of Z-Wave devices capable of achieving the highest performance feature set of any wireless protocol combination.

Network topology

The direct communication path established by the star network topology provides a substantial decrease in latency

ZWLR devices operate on a star network topology which features the gateway/hub at a central point and then establishes a direct, point-to-point connection to end devices.

The direct communication path established by the star network topology provides a substantial decrease in latency between the gateway/hub and end point devices which is particularly beneficial in noisy or crowded installation environments with high volumes of wireless communications.

Direct gateway-hub-to-device connection

Z-Wave mesh and ZWLR have been designed to co-exist and complement each other. By operating on a star network, ZWLR enables direct gateway-hub-to-device connection across increased distances, whereas mesh traditionally permits a signal to hop from node to node until the intended destination is met.

With ZWLR, simplified routing enables commands to go through faster and potential failures within the network are highlighted quickly as well. With Z-Wave, manufacturers have access to the “self-healing” properties of mesh networks and the direct communication benefits of a star network.

Increased scalability

Larger network support enables the enrollment of thousands of Z-Wave devices on a single network

Perhaps one of the most exciting benefits of ZWLR for the European region is the monumental increase in scalability. By increasing the addressing space to 12-bit, ZWLR is capable of supporting up to 4000 nodes on a single network. Compared to Z-Wave (232 nodes), this represents a colossal 20x increase in network node availability.

Larger network support enables the enrollment of thousands of Z-Wave devices on a single network, further expanding what is possible through the power of Z-Wave technology.

Boosted battery life

In addition to increased network size and transmission range capabilities, ZWLR also offers endpoint devices a battery life of up to 10 years off a single coin-cell battery by leveraging dynamic power control. This feature enables ZWLR devices to automatically adjust and optimise the radio output power of every transmission. 

This dynamic power control is critical to supporting future-proof Z-Wave device installations. The ability to deploy sensors and end devices in hard-to-reach places such as crawl spaces, attics, basements, or behind walls is one of the most compelling use cases for devices with increased battery life.  

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