Texas Instruments (TI) has expanded its connectivity portfolio with a new family of wireless microcontrollers (MCU) that enable high-quality Bluetooth Low Energy (LE) at half the price of competing devices. Featuring best-in-class standby current and radio-frequency (RF) performance, the SimpleLink Bluetooth LE CC2340 family is built on the foundation of TI’s decades of wireless connectivity expertise.
Engineers can meet form-factor requirements and deploy smart designs anywhere with power-efficient processors.
“Industrywide, five billion Bluetooth-enabled devices are forecast to ship in 2022,” said Mark Powell, CEO of the Bluetooth Special Interest Group (SIG), the standards organization that oversees Bluetooth technology. “The commitment and involvement of Bluetooth SIG members like Texas Instruments allow Bluetooth technology to meet the growing demands for enhanced wireless connectivity in a wider range of applications. I am grateful for the contributions of our membership in delivering innovative solutions that benefit the Bluetooth ecosystem and help broaden the adoption of Bluetooth technology.”
TI will demonstrate the CC2340 wireless MCUs in Booth No. 3A-215 at Embedded World in Nuremberg, Germany, June 21-23, 2022.
“The adoption of Bluetooth LE is accelerating and our embedded world demo of the CC2340 family will show you how to quickly and easily add the technology to any application,” said Marian Kost, VP and GM of Connectivity at Texas Instruments. “The new MCUs will provide high-quality RF and power performance at an affordable price, backed by unrivaled technical support and internal manufacturing capacity investments that will help meet our customers’ demand for years to come.”
The CC2340R2 and CC2340R5 wireless MCUs, offering flash memory of 256KB and 512KB respectively, provide exceptional flexibility for engineers and ample space for application code. Additionally, with the proliferation of Bluetooth LE applications, designers need additional memory capacity to easily update software remotely. The new wireless MCU family features 36KB of RAM with over-the-air download support.
The new MCUs include a standby current of less than 830 nA, which is 40% lower than competing devices. The reduction in standby current helps extend battery life for up to 10 years on a coin cell battery in wireless applications such as electronic shelf labels and tire-pressure monitoring systems. The CC2340 family also features an operating temperature range of –40º to 125º C to help ensure a stable connection across applications, from industrial sensors and medical laboratories to outdoor environments such as EV chargers or smart meters.
Engineers are also able to expand RF performance and connection range with an output power up to +8 dBm, the industry’s highest among competing Bluetooth LE wireless MCUs. In addition, the CC2340 devices feature an integrated RF balun to enable a simpler design with fewer external components, leading to cost savings.
With the increased memory, longer battery life and wider temperature range at an affordable price, engineers can enable more connected everyday applications such as:
- Medical devices: In glucose meters, for example, the CC2340 MCUs’ standby current of less than 830 nA leads to an end-product shelf life of 18 to 24 months and two weeks of active Bluetooth LE operation on a coin-cell battery.
- Building automation: Smart-home hubs can take advantage of the CC2340 MCUs’ wireless protocol support and output power range up to +8 dBm.
- Personal care: For products such as an electric toothbrush, the CC2340 wireless MCUs offer low power consumption in sleep mode, and can extend battery life.
At embedded world this week, visitors to TI’s booth can use the SimpleLink CC2340 LaunchPad development kit to establish a Bluetooth LE connection in two minutes or less. Throughout the show, TI will demonstrate how its products can help engineers overcome edge AI, connectivity, and automotive design challenges.
To view virtual demos and related white papers, technical articles and on-demand training, see TI.com/embeddedworld.
Filed Under: Microcontrollers, Wireless
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