To learn more about how NeuronicWorks and InnoPhase can help you revolutionize your products for the IoT edge-computing industry contact us today
NeuronicWorks Partners with InnoPhase for Low-Power WiFi + BLE IoT Solutions
By Maria Paula Moreno
Working closely with InnoPhase, NeuronicWorks will now take on the role of an authorized design house, meaning we will have the expertise and training to adopt InnoPhase’s low-power wireless technologies in our designs. InnoPhase will likewise benefit from NeuronicWorks’ support with the introduction of this new technology, as we will provide technical assistance to their customers.
What Is InnoPhase and What Do They Do?
InnoPhase is a fabless semiconductor company specializing in extreme low power wireless solutions. They focus on developing low-power WiFi and BLE solutions primarily for battery-based and high volume, consumer, commercial, medical, and industrial wireless IoT products.
Combining ground-breaking RF signal processing technology with embedded processing, InnoPhase has shattered the low power barrier of wireless communications and is poised to revolutionize the IoT edge-computing industry.
InnoPhase’s products include:
• Talaria TWO Modules (INP1010/INP1011): these module products are complete solutions with integrated wireless connectivity plus microcontroller for edge-of-network IoT designs. The modules use InnoPhase’s award-winning Talaria TWO™ Multi-Protocol SoC Platform and have completed WiFi Alliance, Bluetooth SIG, FCC, and IC (Canada) testing and certification, with CE certification coming this quarter.
• Talaria TWO System on Chip (INP2045): The InnoPhase Talaria TWO™ Multi-Protocol Platform is a highly integrated, single-chip wireless solution offering the ultimate size, power and cost advantages for a wide range of low-power IoT designs. The device includes WiFi and BLE for wireless data transfer, an embedded Arm Cortex-M3 and memories for system control and user applications plus advanced security elements for device safeguards.
What Does Low-Power WiFi Mean for Your Product?
The ability to adopt a low-power WiFi connection has numerous benefits for your products.
Your products can now be optimized for better energy consumption. WiFi power consumption can be reduced between 2x and 8x, while battery life will increase by +50%, meaning the need to recharge or replace batteries will be significantly reduced. And with uninterrupted and unplugged connectivity, your WiFi enabled devices will no longer need to be connected to a power outlet to work.
InnoPhase’s unique and proprietary PolaRFusion™ technology - an innovative digital polar architecture drastically reduces the analog content in the transceiver and provides superb low power performance. The programmable platform offers the industry’s lowest power solution to support single-band (2.4GHz) 802.11b/g/n WiFi and Bluetooth Low Energy 5.0 (including long-range options) wireless standards. This provides us the ability to design devices with smaller batteries, resulting in overall smaller devices. Smaller batteries and smaller devices mean we can design more cost-effective products for you, our clients, and for your end consumer.
Moreover, WiFi enabled IoT devices do not require another gateway (i.e. ZigBee /Z-Wave to WiFi or ETH) to connect with the cloud as most of our homes are already equipped with wireless WiFi gateways. With this, another market entry barrier for your products is removed giving you more chances to succeed.
How You’ll Benefit from Our Partnership with InnoPhase
With the partnership between NeuronicWorks and InnoPhase, you will be able to offer market-leading products that meet consumer expectations for smaller devices, extended battery life, and low power consumption.
By integrating InnoPhase’s technology, NeuronicWorks will ensure that your products will have the latest communication protocols, accompanied by complete support and training. Your products will have significantly improved battery life and direct-to-cloud connectivity, meaning the complexity in the installation process will be reduced.