E series
Solid-state Coriolis Vibrating Gyros are based on the control of standing waves in a physical body, called a resonator, housed within a protective case. The protective case, which contains a resonator, is called a Sensitive Element (SE), and there is one such SE per axis in all Innalabs CVG gyroscopes.
InnaLabs® E-Series Gyroscopes are high-performance, miniature, robust, and high-reliability Coriolis Gyroscopes that provide inertial angular rate measurement of rotations about 2 axes. The core technology used in the GI-CVG-E22XXD is InnaLabs® patented and proven Vibratory Gyros technology (CVG), which is inherently stable, impervious to aging effects, naturally immune to vibrations and shocks, and low power consumption. It exhibits an unprecedented size (≤200 cm³) to Angular Random Walk (≤0.015 °/√hr) ratio, so long-awaited by customers operating in the stabilization market.
More info at www.innalabs.com
Technical Specifications
- Very low output noise
- Very high MTBF
- Large Bandwidth
- Robustness
- Digital Interface
Attributes
E series
Solid-state Coriolis Vibrating Gyros are based on the control of standing waves in a physical body, called a resonator, housed within a protective case. The protective case, which contains a resonator, is called a Sensitive Element (SE), and there is one such SE per axis in all Innalabs CVG gyroscopes.
InnaLabs® E-Series Gyroscopes are high-performance, miniature, robust, and high-reliability Coriolis Gyroscopes that provide inertial angular rate measurement of rotations about 2 axes. The core technology used in the GI-CVG-E22XXD is InnaLabs® patented and proven Vibratory Gyros technology (CVG), which is inherently stable, impervious to aging effects, naturally immune to vibrations and shocks, and low power consumption. It exhibits an unprecedented size (≤200 cm³) to Angular Random Walk (≤0.015 °/√hr) ratio, so long-awaited by customers operating in the stabilization market.
More info at www.innalabs.com
Attributes
Technical Specifications
- Very low output noise
- Very high MTBF
- Large Bandwidth
- Robustness
- Digital Interface