MostaTech will exhibit its portfolio of Fiber Optic Gyroscopes (FOGs) and FOG-based Inertial Measurement Units (IMUs) at XPONENTIAL Europe 2026, taking place from 24–26 March in Düsseldorf, Germany at Stand 1F06.
The display will include the company’s U-Series FOG IMUs, designed for applications where Size, Weight and Power (SWaP) efficiency are critical. These units integrate miniature FOGs with MEMS accelerometers to deliver stable, low-noise performance for guidance, navigation and motion control.
Models on show will include the U123D, U121D and U183, which feature compact, lightweight designs, low power consumption and options for enhanced magnetic immunity.
MostaTech will also highlight its G-Series three-axis fiber optic gyroscopes, developed for high-precision stabilization and positioning systems requiring robust construction and dependable magnetic performance. The range includes the G121, G181 and the latest G321M.
The G321M provides high-speed data output of up to 8 kHz within a compact footprint, supporting real-time motion sensing applications. Across the series, low noise characteristics and energy-efficient operation enable reliable performance in demanding autonomous systems.
The exhibition will also feature the company’s range of single-axis fiber optic gyroscopes, covering ultra-miniature formats through to ruggedized, high-performance solutions.
Among these is the VG221, described as the world’s smallest fiber optic gyroscope, designed for highly compact platforms such as miniature gimbals and lightweight flight control systems. For harsh operating conditions, the VG2103S series offers reinforced construction with high tolerance to shock and vibration.
Also on display will be the thumb-sized VG091A Series gyroscopes, which provide low-noise performance in compact cylindrical housings suitable for applications including gimbal stabilization, borehole surveying and small unmanned platforms.
By offering solutions across a range of performance levels and mechanical formats, MostaTech supports system integrators in selecting inertial sensors suited to specific mission requirements.
