SiTime MEMS Resonator Technology | SiTime MEMS Suppliers

Revolutionize Timing with MEMS Resonator Technology

SiTime’s MEMS resonators deliver unmatched robustness, performance, and programmability over legacy quartz. As the only silicon MEMS resonators qualified for automotive, industrial, and aerospace-grade applications, SiTime MEMS resonator technology is redefining how systems synchronize in size, power, and precision.

 

 

 

Key Features

  • Shock and Vibration-Resistant: Operate reliably in extreme environments (up to 100,000 g)
  • Unmatched MTBF: Up to 2.2 billion hours
  • Small Size, Big Flexibility: QFN, CSP, and wafer-level packaging
  • Temperature-Resilient: Excellent thermal performance with tight coupling

 

SiTime MEMS Resonator Technology Products

 

 

Elite Platform Oscillators

Industry’s most robust, high-performance MEMS resonators with ICs for demanding use cases

  • Part Numbers: SiT8008, SiT8021, SiT8924, SiT8925, SiT9396, SiT9397
  • Specifications: Frequencies up to ~725 MHz; ±0.1 ppm stability; wide temperature range (-55 °C to +125 °C); ultra-low jitter
  • Key Features:
    • 100× better resilience to shock, vibration, and aging than quartz
    • Exceptional frequency stability for mission-critical applications
    • Available in ultra-small packages with low power options
    • Field-programmable for custom frequency, stability, and voltage needs
  • Use Cases: 5G infrastructure, aerospace and defense, industrial IoT, precision networking, high-reliability automotive systems

 

 

 

Titan Platform Resonators

  • Part Numbers: SiT11100, SiT11101, SiT11102, SiT11103, SiT11104
  • Specifications: Frequencies in the ~32‑76.8 MHz range; very small footprint; ultra‑low power; high shock/vibration tolerance
  • Key Features:
    • 4× to 7× smaller than the smallest quartz resonators; enables tighter board layouts
    • Excellent stability vs temperature and aging
    • Rugged MEMS structure: high shock and vibration resilience
  • Use Cases: Embedded sensors, IoT edge devices, medical wearables, any design where size and stability are critical

 

 

 

SiTime MEMS Applications

ADAS, space and defense electronics, industrial automation, and ruggedized communications systems

 

 

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