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Top Fiber-Optic Gyroscope Companies

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60 companies for Fiber-Optic Gyroscope

Emcore's Logo

Emcore

Albuquerque, United States

B

1001-5000 Employees

1984

Key takeaway

EMCORE Corporation is a leading provider of advanced inertial navigation products, specializing in fiber optic gyroscopes (FOGs) that are essential for applications such as aeronautics, drone guidance, and robotics. Their innovative technologies and vertically-integrated manufacturing capabilities position them at the forefront of navigation solutions for aerospace and defense.

Reference

Product

EMCORE EG-1300 Fiber Optic Gyroscope (FOG) | EMCORE

EMCORE Fiber Optic Gyroscope (FOG) for gyrocompassing, aeronautics, unmanned aerial vehicle, drone and missile guidance, aerial navigation, robotics and line-of-sight stabilization.

Sercalo Microtechnology's Logo

Sercalo Microtechnology

Neuchâtel, Switzerland

A

11-50 Employees

1999

Key takeaway

Sercalo Microtechnology Ltd. specializes in Optical MEMS Solutions for the Fiber Optic Industry, providing high-reliability components like Fiber Optic Switches and Attenuators. Their innovative Micro-Mirrors are utilized in advanced optical scanning sensors, which may relate to applications involving fiber-optic gyroscopes.

Reference

Product

FIBER OPTICAL ACCELEROMETER

Nanjing Sky MEMS Technology Co. Ltd.'s Logo

Nanjing Sky MEMS Technology Co. Ltd.

Nanjing City, China

D

51-100 Employees

2016

Key takeaway

SkyMEMS offers high-performance fiber optic gyroscopes, such as the FOG60M, which features exceptional bias stability and is widely used in motion sensing and stabilization applications. Their commitment to quality and customized solutions ensures reliable and efficient inertial navigation products for global customers.

Reference

Product

FOG60M Fiber Optic Gyro - Professional Inertial Navigation Products Manufacturer-SkyMEMS

high performance fiber optic gyro, bias stability at fixed temperature ≤0.1°/h (1σ), has been widely used in motion sensing, stabilization, etc. High Performance Single-axis Digital Fiber Optic Gyro Higher Accuracy, Lower Noise and Greater Efficiency Measuring Range: -600°/s~+600°/s Bias Stability at Fixed Temperature ≤0.1°/h (1σ) Bias Repeatability at Full Temperature ≤0.3°/h (1σ) Scale Factor Non-linearity ≤50ppm Bandwidth ≥200Hz Working Temperature: -40~+70ºC

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Tamagawa Seiki's Logo

Tamagawa Seiki

Aisho, Japan

A

- Employees

-

Key takeaway

TAMAGAWA SEIKI CO., LTD. offers high-precision interferometric fiber optic gyroscopes, which are increasingly used in aeronautics and space industries.

Reference

Product

Interferometric Fiber Optic Gyro | Products - Gyro | TAMAGAWA SEIKI CO.,LTD.

Luna Technologies's Logo

Luna Technologies

Roanoke, United States

B

251-500 Employees

1990

Key takeaway

Luna Innovations specializes in fiber-optic gyroscopes (FOGs), which are crucial for navigation and positioning systems, angular velocity sensors, and stabilization equipment. Their advanced FOG technology, utilizing a Sagnac interferometer, accurately measures rotation rates by detecting phase differences between optical beams, making it integral for applications like autonomous vehicle guidance in GPS-denied areas.

Reference

Product

Fiber Optic Gyroscopes (FOGs) | Luna

Fiber optic gyroscopes (FOGs) have many important applications in navigation and positioning systems, angular velocity sensors, stabilization equipment, and recently, in autonomous vehicle guidance backup systems for GPS-inaccessible areas. In an optical gyroscope, two counter-propagating optical beams are brought into interference in a Sagnac interferometer after travelling around a fiber-optic loop. The gyroscope system determines the rotation rate by measuring the net phase difference between the two beams, which is proportional to the rotation rate. A high performance fiber gyro system must be able to accurately detect phase differences due to rotation, while minimizing or being able to compensate for phase differences due to other sources, such as temperature effects. In a FOG system, the sensing element is an optical fiber coil. Minimizing causes of phase errors in the coils reduces design complexity and improves the performance of the entire system, and increasing coil uniformity aids in standardization for mass production. Luna has established a set of test and measurement standards to ensure consistent production of high-quality FOG coils for low, medium and high-end navigation and strategic systems. Luna offers a range of components and services for manufacturers of FOGs, including: Complete FOG coils with different fiber types (Panda, Tiger, Bow Tie) Extra small coils using 100um and 135um fiber (standard is 165um fiber) Customized size and length Different wavelengths: 1550, 1310, 830 nm Framed and frameless coils Shupe mitigation services Mounting services Winding service with customer supplied fiber Complete IOC or Coil characterization  

GP Fiber Optics GmbH's Logo

GP Fiber Optics GmbH

Mörfelden-Walldorf, Germany

A

1-10 Employees

-

Key takeaway

GP-Fiber Optics GmbH is a leading company in the production of fiber optic products, including fiber optic data technology. Their expertise allows them to design and develop customized project solutions, emphasizing their capability in this specialized field.

Reference

Product

FO data technology – GP Fiber Optics

Femto Sensing International LLC's Logo

Femto Sensing International LLC

Atlanta, United States

B

11-50 Employees

2018

Key takeaway

Femto Sensing International specializes in high-quality optical sensing systems, including Fiber Bragg Gratings (FBG), which are integral to advanced sensing applications. Their commitment to providing top-tier optical instruments and interrogators supports the growth of industries adopting these innovative solutions.

Reference

Core business

Fiber Bragg Grating | Femto Sensing International

We provide premium quality Fiber Bragg Grating for a range of products and services.

Fiberoptics Technology's Logo

Fiberoptics Technology

Pomfret, United States

B

11-50 Employees

1977

Key takeaway

Fiberoptics Technology Incorporated (FTI) has a significant manufacturing capacity for fiber optics, which is relevant for applications such as fiber-optic gyroscopes. With over forty years of experience, FTI designs and manufactures both standard and custom fiber optics for various sectors, ensuring high-quality production and compliance with industry standards.

Reference

Service

Service - Fiberoptics Technology Inc.

Service -

Columbia Gorge Research's Logo

Columbia Gorge Research

Fairview, United States

B

1-10 Employees

2004

Key takeaway

Columbia Gorge Research is committed to advancing fiber optic sensor technology, including the development of fiber optic gyroscopes. Their innovative solutions are designed for various applications, ensuring reliability and immunity to electromagnetic interference.

Reference

Product

cgresearchllc.com - Books

Design and Development of Fiber Optic Gyroscopes, 2019 Realizing the potential of the fiber optic gyro, like the ring laser gyro, has been a long and expensive process. Many researchers have made important enabling contributions, and many more engineers have worked diligently for many years on

Opsens Solutions's Logo

Opsens Solutions

-

- Employees

-

Key takeaway

Opsens Solutions specializes in developing and supplying innovative fiber optic sensing solutions, including fiber optic displacement sensors designed for applications in aerospace, defense, and geotechnical fields. Their commitment to R&D and continuous improvement ensures high performance and reliability in harsh environments.

Reference

Product

Fiber optic displacement sensor (LVDT), transducer and probe

WLPI-based fiber optic displacement sensor for geotechnical, Aerospace Defense, aviation, transportation, test and measurement and general industry.


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Things to know about Fiber-Optic Gyroscope

What is a Fiber-Optic Gyroscope?

A Fiber-Optic Gyroscope is a type of angular velocity sensor that utilizes the interference of light traveling through optical fibers to measure rotation. It operates on the principle of the Sagnac effect, where two beams of light are sent in opposite directions around a coil of fiber optic cable. When the gyroscope experiences rotation, the light beams travel different distances, leading to a phase shift that can be measured. These devices are known for their high precision and reliability, making them ideal for applications in navigation systems, aerospace, and robotics. The absence of moving parts reduces wear and enhances durability, while their compact size allows for integration in various systems. Fiber-Optic Gyroscopes are essential in environments where traditional mechanical gyroscopes might fail, providing accurate readings under challenging conditions.


How does a Fiber-Optic Gyroscope work?

A fiber-optic gyroscope operates based on the principles of light interference and the Sagnac effect. It consists of a coil of optical fiber through which light is sent in two opposite directions. When the gyroscope is subjected to rotation, the path length of the light traveling in the direction of the rotation becomes longer, while the path length of the light traveling against the rotation becomes shorter. This difference in travel time causes a phase shift between the two light beams. A photodetector measures this phase shift, which is proportional to the rate of rotation. As a result, fiber-optic gyroscopes provide highly accurate and reliable measurements of angular velocity, making them ideal for various applications in navigation, aerospace, and robotics.


What are the applications of Fiber-Optic Gyroscopes?

Fiber-optic gyroscopes are widely used across various industries due to their precision and reliability. 1. Aerospace
In the aerospace sector, fiber-optic gyroscopes play a crucial role in navigation and control systems for aircraft and spacecraft. Their ability to provide accurate angular velocity measurements is essential for inertial navigation systems, enhancing flight stability.

2. Automotive
In the automotive industry, these gyroscopes are utilized in advanced driver-assistance systems (ADAS) and autonomous vehicles. They help in maintaining stability, improving navigation, and providing data for features like lane keeping and collision avoidance.

3. Robotics
Fiber-optic gyroscopes contribute significantly to robotics, enabling precise motion sensing and control. They enhance the performance of robotic arms and drones, ensuring accurate positioning and orientation during complex tasks.

4. Marine
Marine applications benefit from fiber-optic gyroscopes in the form of inertial guidance systems for submarines and surface vessels. These systems improve navigation accuracy, especially in environments where GPS signals are weak or unavailable.

5. Geophysical
In geophysical applications, fiber-optic gyroscopes assist in seismic monitoring and exploration. Their capability to detect minute changes in motion makes them valuable for studying earth movements and natural phenomena. These various applications highlight the versatility and importance of fiber-optic gyroscopes in modern technology.


What advantages does a Fiber-Optic Gyroscope offer over traditional gyroscopes?

1. High Sensitivity
Fiber-optic gyroscopes offer superior sensitivity compared to traditional gyroscopes. They utilize the Sagnac effect, which allows them to detect even the slightest rotations. This high sensitivity enables accurate measurements in various applications, including aerospace and navigation.

2. No Moving Parts
Unlike traditional mechanical gyroscopes, fiber-optic gyroscopes have no moving parts. This design results in increased reliability and reduced wear and tear, leading to a longer operational lifespan. Additionally, the absence of mechanical components minimizes maintenance requirements, making them an attractive option for many industries.


What are the limitations of Fiber-Optic Gyroscopes?

Fiber-optic gyroscopes (FOGs) have several limitations that can affect their performance and application. One significant limitation is their sensitivity to environmental conditions. Changes in temperature and pressure can impact the accuracy of measurements, requiring careful calibration and compensation methods. Another drawback is the complexity and cost of manufacturing. FOGs involve intricate technologies and materials, making them more expensive than traditional gyroscopes. Additionally, the size and weight of some FOG systems can be a limitation for specific applications where compactness is crucial. Overall, while fiber-optic gyroscopes offer high precision and reliability, these limitations must be considered when selecting them for various uses.


Insights about the Fiber-Optic Gyroscope results above

Some interesting numbers and facts about your company results for Fiber-Optic Gyroscope

Country with most fitting companiesUnited States
Amount of fitting manufacturers5642
Amount of suitable service providers3561
Average amount of employees51-100
Oldest suiting company1977
Youngest suiting company2018

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Frequently asked questions (FAQ) about Fiber-Optic Gyroscope Companies

Some interesting questions that has been asked about the results you have just received for Fiber-Optic Gyroscope

Based on our calculations related technologies to Fiber-Optic Gyroscope are Magnets, Printed Electronics, Industrial Amplifiers, Electronic Transducers, Electronic Oscillators

The most represented industries which are working in Fiber-Optic Gyroscope are Other, Electronics and Electrical engineering, Telecommunications, IT, Software and Services, Manufacturing

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Related categories of Fiber-Optic Gyroscope