Seamless connectivity needs total synchronization
The emergence of the connected intelligent edge is dependent on underlying innovations such as MEMS technology. SiTime MEMS timing helps ensure reliable connectivity in IoT devices by providing ultra stable performance in just about any operating condition. Plus, our timing solutions help reduce the size and power consumption in IoT devices. Our timing solutions shrink IoT products with smaller oscillator packages and integrated features that reduce component count. MEMS oscillators can replace two or three crystal devices because they can drive multiple loads. To extend battery life, our products operate at ultra-low current and offer greater stability, allowing IoT devices to stay in sleep mode longer.
Smaller PCB area
Tiny 1.2 mm2 CSP footprint
Drives multiple loads
Longer battery life
Ultra-low power, as low as <1 μA
3 ppm stability maximizes sleep time
Ultra robust
Resilient to shocks, drops, noise, and more
Up to 30,000 g shock survivability
Explore Applications
Asset Tracking
Smart Agriculture
Smart City
Smart Home
Retail Electronics
Commercial Security
Indoor Positioning
Featured Products
• Small footprint at 1.2 mm2 (1.5 x 0.8 mm) in a chip-scale package
• Ultra-low power, as low as <1 μA
• NanoDrive™ programmable output swing minimizes power compared to LVCMOS output
• Frequency stability as good as ±3 ppm
• Small footprint at 1.2 mm2 (1.5 x 0.8 mm) in a chip-scale package
• Ultra-low power, as low as <1 μA
• NanoDrive™ programmable output swing minimizes power compared to LVCMOS output
• Frequency stability as good as ±5 ppm
• Flexible frequencies, down to 1 Hz. provide new architectural options
• 1 MHz to 220 MHz, ±5 to ±20 ppb
• Better dynamic stability with ±0.3 ppb/°C frequency slope (ΔF/ΔT)
• -40°C to +105°C temperature operation
• Resilient to rapid temp change, airflow and vibration