Precision Timing Solutions for Wearables and IoT Devices

AI-enabled wearables and IoT sensing platforms are scaling rapidly. Ultra-small, low-power MEMS precision timing devices provide the foundation needed to support reliable wireless links (such as Blueooth), long battery life, sensor fusion, and robust operation in compact edge systems.

As AI-enabled wearables and IoT devices scale into the billions, designers must reduce size, power, and complexity. Compact sensing platforms require stable timing to maintain wireless performance, manage duty-cycled operation, and extend battery life. MEMS-based resonators deliver ultra-small footprints, low oscillator power, faster startup time, and high resilience to temperature, shock, and vibration, enabling reliable operation in space- and power-constrained devices.

Features

• Industry's smallest oscillators and resonators including ultra-small 0.46 × 0.46 mm CSP MEMS resonator footprint
• Supports key Bluetooth and wireless SoC reference frequencies wide range of kHz to MHz oscillators and resonators
• Up to 50% lower oscillator circuit power than quartz
• Fast startup with reduced startup energy for duty-cycled systems
• High shock, vibration, and temperature resilience for mobile devices 

Applications

Wearable devices, hearables, Physical AI, Bluetooth asset trackers, smart sensors, and low-power IoT endpoints

Key components 

• MHz MEMS Resonators 
• Embedded kHz MEMS Resonators 
• kHz-MHz MEMS Oscillators and TCXOs
• Clock Generators

Benefits

• Enables smaller and more power-efficient Bluetooth AI enabled wearables and sensing devices
• Improves robust wireless connections under real-world environmental conditions
• Extends battery life in wearable and IoT edge systems
• Supports scalable manufacturing and high-volume deployment 

Block Diagram