Wireless
Microsemi and Virtual Extension Team to Enable Lowest Power Sub-GHz Mesh Network for Coin Cell Powered and Energy Harvest Applications
Microsemi and Virtual Extension today announced a two-chip wireless mesh network chipset and reference design that brings a new level of performance and signal robustness to applications requiring networks with high performance and ultra-low power consumption.
The Our jointly designed solutions allows network users to have access to the next-generation of wireless mesh networks with ultra-low-power consumption, without a need to trade off important features, said Stephen Swift, senior vice president and business unit manager of the Ultra Low-Power Products Group at Microsemi. Demand for low power and high performance wireless sensor networks is growing quickly and we will continue to collaborate with industry leaders such as Virtual Extension to deliver leading-edge solutions to meet changing industry needs.
This reference design provides our customers with a proven path towards high performance, low power consumption and low cost network solutions, said Yariv Oren, CEO of Virtual Extension. Microsemi brings the ultra-low-power transceivers that, when combined with our 'diversity path mesh' technology, results in networks that are easier to design and build, are much more robust, easier to install and maintain, and can easily use energy harvesting.
The ZL70250 CSP is an ultra low power RF transceiver operating in the unlicensed frequency bands between 795 and 965 megahertz and delivers a data rate of 186 kilobits per second at 2 milliamps of current required to transmit and receive data, enabling extremely long battery life and miniaturization. These two features are particularly important for applications using energy harvesting and battery-powered wireless sensor networks.
VEmesh networks provide highly reliable bi-directional communication and best-in-class range and coverage for distributed monitoring and data collection of smart metering, smart lighting and wireless sensor networks. The modern synchronized-flooding principle that is used allows for wireless mesh networks with space diversity and eliminates the need for self-forming, self-healing and human involvement. All VEmesh nodes act as end-nodes and as relays, to retransmit data in order to create a mesh modular solution, precluding also the need for dedicated routers. The VE209 family of high-performance mesh controllers serves as the main building blocks of a VEmesh node or gateway.
Key Features of Microsemi-Virtual Extension Ultra-Low-Power Wireless Mesh Solution:
-Ultra-low-power peak power consumption, ideal for energy harvesting or battery-operation
-Fully bi-directional
-Unlimited number of nodes/hops: (practically 1000s/20)
-Fast response with low and predictable latency
-Very high robustness, resiliency to interference (no dead spots)
-Requires little to no maintenance, as nodes can be added and removed without any centralized changes to the network
-Built-in unicast and broadcast capabilities