Microchip’s Wi-Fi® SDK with Apple HomeKit Support Now Available
Microchip’s Wi-Fi SDK combines hardware cryptography suites within the CEC1702, a full-featured ARM® Cortex®-M4-based microcontroller (MCU), with the industry-proven WINC1510, a low-power 802.11 b/g/n certified Wi-Fi module. The hardware-based security engines within this Wi-Fi HomeKit solution greatly reduce system calculation times, resulting in a fast and friendly end-user experience. With the dramatic reduction in execution time for HomeKit commands such as pairing – with pair setup in 0.95 seconds and pair verify in less than one tenth of a second – system reaction is accelerated for seamless consumer experiences such as instantly unlocking a front door. This reduced time of system activity enabled by the Wi-Fi SDK results in lower system power consumption. Power consumption of the Wi-Fi SDK, while performing critical commands such as pairing, is so low that it’s on par with Bluetooth® low energy-based systems while retaining the enhanced functionality of a Wi-Fi solution.
The Wi-Fi SDK also offers unrivaled hardware security features due to its hardware cryptography-enabled microcontroller. The CEC1702, a low-power but powerful, programmable 32-bit MCU offers security measures such as secure boot which allows equipment manufacturers to establish a hardware-based root of trust to protect against a security breach. Developers can also leverage integrated security features such as easy-to-use encryption, authentication, private and public key capabilities and customer programming flexibility to minimize application risk. Additionally, the CEC1702 features 480 KB SRAM code plus data, which gives developers ample code space for the HomeKit protocol as well as their application-specific code.
“The increasing popularity of home automation with consumers necessitates connected designs to react instantly when a command is issued,” said Ian Harris, vice president of Microchip’s computing products group. “Consumers don’t have the patience to wait several seconds for their device to pair every time they want to unlock their front door. Our Wi-Fi SDK provides pairing speeds of less than one tenth of a second along with industry-leading security features such as secure boot that are crucial for development in the smart home market.”
Developers can begin designing their application with the new SecureIoT1702 development board which includes the CEC1702 MCU, a compact, high-contrast, serial graphic LCD display module, push buttons and two expansion headers compatible with the MikroElektronika mikroBUS™ Expansion interface. When paired with a WINC1510 Wi-Fi click board™ and a separately available MFi chip, the SecureIoT1702 board and Wi-Fi SDK provide MFi licensees the basic building blocks to create HomeKit applications.
Pricing and Availability
- The SecureIoT1702 development board is available for $99.99 each
- The CEC1702Q-B1-SX MCU is available in production volume for $2.60 each in 10,000 unit quantities
- The ATWINC1510 Wi-Fi module is available in production volume for $8.95 each in 10,000 unit quantities
For additional product information, contact any Microchip sales representative or authorized worldwide distributor. To purchase products mentioned in this press release, go to Microchip’s easy-to-use online sales channel microchipDIRECTor contact one of Microchip’s authorized distribution partners.
The Wi-Fi SDK is available to MFI licensees only. To get more information on the platform or to request access to the Wi-Fi SDK, contact firstname.lastname@example.org verification of your MFI license.
Microchip Technology Inc. (NASDAQ: MCHP) is a leading provider of microcontroller, mixed-signal, analog and Flash-IP solutions, providing low-risk product development, lower total system cost and faster time to market for thousands of diverse customer applications worldwide. Headquartered in Chandler, Arizona, Microchip offers outstanding technical support along with dependable delivery and quality. For more information, visit the Microchip website at www.microchip.com.