Mouser Electronics is now stocking the CC1350 SimpleLink ultra-low-power, dual-band wireless microcontroller from Texas Instruments (TI). Part of TI’s CC13xx and CC26xx ranges, the CC1350 is designed for low-power wide area networks (LPWAN) and features dual-band connectivity that expands the functionality of a sub-1 GHz network with Bluetooth low energy (BLE) implementations such as beaconing, over-the-air updates, smart commissioning, remote displays, and more. The device’s long-range connectivity paired with ultra-low power consumption that offers a sleep current of 0.7 µA allows for more than 10 years of battery life.
The TI CC1350 SimpleLink device, available from Mouser Electronics, integrates a flexible, very low-power RF transceiver with a powerful 48-MHz ARM Cortex-M3 microcontroller in a platform that supports multiple physical layers and radio frequency (RF) standards. A dedicated ARM Cortex-M0 radio controller handles low-level RF protocol commands that are stored in ROM or RAM, which ensures ultra-low power and flexibility to handle both sub-1GHz protocols and 2.4GHz protocols. This allows the combination of a sub-1GHz communication solution with a BLE smartphone connection that enables great user experience through a phone application.
Mouser is also offering the TI CC1350 wireless microcontroller LaunchPad development kit. The CC1350 LaunchPad kit brings easy and low-cost sub-1GHz proprietary RF connections to the LaunchPad ecosystem with the SimpleLink ultra-low power CC13xx range of devices. A built-in onboard emulator helps designers get started with instant code development in the CCS Cloud. The CC1350 LaunchPad is supported by a large set of software examples, as well as the TI BLE software stack, which enables full BLE connectivity.
The TI CC1350 SimpleLink device is available in a 7 × 7mm, 48-pin VQFN package, allowing designers to create for applications such as low-power wireless systems, home and building automation, wireless security systems, smart grid equipment, and long-range sensors.
Massive new Coventry campus targets 60GWh battery output
Where will all the raw materials come from for the manufacturing process? How will they be transported to the factory and what is going to be done with the various scrap and residues?