XCC-2-C Quartz Flexure Accelerometer is a high-precision inertial sensor designed for navigation, stabilization, and control systems requiring enhanced accuracy and stability across wide operating conditions.
The accelerometer provides a ±60 g measurement range with a threshold sensitivity better than 5 μg, enabling precise detection of low-level acceleration signals. A refined scale factor of 0.6 mA/g (±0.05), combined with controlled bias and low nonlinearity, makes XCC-2-C well suited for medium- to high-accuracy inertial applications.
XCC-2-C demonstrates strong short- and long-term stability, including ≤20 μg short-term stability (4 h) and ≤50 μg bias composite repeatability (1σ, 1 month). Temperature performance is optimized for demanding environments, with low bias and scale factor temperature coefficients maintained across the full operating temperature range.
Designed for harsh mechanical conditions, the accelerometer withstands 10 g vibration (20–2000 Hz) and 150 g shock, operates from –55°C to +85°C, and supports customizable internal temperature sensors such as AD590 or PT1000. With a compact Ø18.2 × 23 mm form factor and weight ≤30 g, XCC-2-C is an excellent choice for space-constrained inertial systems requiring improved accuracy, environmental robustness, and long-term reliability.