This post is sponsored by Texas Instruments.
Texas Instruments’ Connected Home Network Design shows how to create a Sub-1 GHz star network with full house coverage for security and sensor applications. In this network, the central device is typically mains powered while the end devices are battery powered. The central device can be a gateway for internet of things (IoT) and enables internet connectivity for the end devices in the Connected Home Network.
This TI Design is a pure software design using standard Texas Instruments’ development boards from their Sub-1 GHz wireless connectivity portfolio. To learn more about this 169 MHz, 315 MHz, 433 MHz, 470 MHz, 868 MHz, 915 MHz and 920 MHz solutions, you should check out their Sub-1 GHz page.
Image result for home design
Texas Instruments’ Connected Home Network Design shows how to create a Sub-1 GHz star network with full house coverage for security and sensor applications. In this network, the central device is typically mains powered while the end devices are battery powered. The central device can be a gateway for internet of things (IoT) and enables internet connectivity for the end devices in the Connected Home Network.
This TI Design is a pure software design using standard Texas Instruments’ development boards from their Sub-1 GHz wireless connectivity portfolio. To learn more about this 169 MHz, 315 MHz, 433 MHz, 470 MHz, 868 MHz, 915 MHz and 920 MHz solutions, you should check out their Sub-1 GHz page.
Image result for home design