Technology

Evolution of High-Precision Inertial Sensors

MEMS-based gyroscopes are pivotal in accurately detecting rotational velocities without reliance on external references, unlike older methods such as tachometers.

Gyroscope Origins

Initially seen in the 1900s, mechanical gyroscopes featured a spinning rotor fixed in space, enabling the measurement of its housing’s rotation. Despite advancements, devices like Dynamically Tuned Gyros (DTGs) remain relevant for their exceptional accuracy in contemporary uses.

Inertial Sensor Evolution

In the «70s, the spotlight was on optical gyros, like the RLGs and FOGs, which used light’s phase shift to measure rotation. However, the last 20 years have seen a dramatic change with the advent of non-rotating “solid state” sensors, often incorrectly referred to as gyros. MEMS technology revolutionized the market in the '90s by introducing the MEMS gyros and accelerometers, marking a new era in inertial sensors technology.

Motion Detection Across Diverse Settings

Our offerings ensure steadfast and precise inertial outcomes for a multitude of motion detection scenarios. Our tech is instrumental in diverse fields, from managing industrial robots and governing space satellites to steering self-driving vehicles and monitoring movement. It also underpins systems for maintaining aircraft stability and navigating farmlands with accuracy, truly transforming global practices.

Navigation Advances

Exploring from the ocean’s abyss to towering city structures, soaring heights, and further, there’s a push to tackle navigation in varied terrains. The rise in unmanned systems, whether remotely operated or self-directed, adds to the complexity of movement and direction-finding.

Unmanned Tech

The surge in autonomous technology demands innovative navigation solutions that cater to these pilotless vehicles, ensuring precision across different landscapes.

Motion Control Solutions

Precision in motion detection is essential for counteracting the impact of movements and vibrations in various environments. This is crucial in applications like keeping antennas steady, balancing gimbals, or maintaining platform equilibrium. Guanxingnav’s advanced sensors offer tactical-level accuracy, excelling in areas like zero-point stability and minimal signal randomness. These gyroscopes are designed to be affordable yet highly precise, rivaling the performance of bulkier, pricier fiber-optic gyroscopes without the added size and expense. Independent evaluations confirm that our newest offerings match the capabilities of these more elaborate systems.

Advanced Sensory & Communication Precision

Today’s technology necessitates enhanced precision for directing sensors, antennae, and emitters, encompassing various terrains and domains like terrestrial, aerial, maritime, and cosmic. Concurrently, these high-precision direction systems must withstand complex magnetic environments, intense shocks, and persistent vibrations, along with diverse external interferences.

Motion Detection Solutions

Guanxingnav (GNAY) offers a diverse lineup of motion detection systems that ensure high-precision and consistent performance in all settings. Our portfolio spans from economical, low-disturbance, and wide-frequency options to high-end, stable tactical devices.