Sign In | Join Free | My bushorchimp.com
bushorchimp.com
Nanjing Sky MEMS Technology Co.,Ltd.
Focus on MEMS Inertial Measurement Technologies and Products Aerospace Level Quality, Reliable Selection AHRS Inclinometer Fiber Optic Gyro IMU INS GNSS/INS MEMS Acc MEMS Gyro E-compass VG MRU Shock
Home > Fiber Optic Gyroscope >

Professional Fiber Optic Gyroscope 3 Axis For Weapon Platform FOG800

Professional Fiber Optic Gyroscope 3 Axis For Weapon Platform FOG800

Brand Name : SkyMEMS
Model Number : FOG800
Certification : CE, FCC, ROHS
Place of Origin : Nanjing, Jiangsu
MOQ : 1PCS
Price : discuss personally
Payment Terms : Western Union, MoneyGram, L/C, T/T, D/A, D/P
Supply Ability : 1000PCS for month
Delivery Time : 3-5 days after payment
Packaging Details : Strong carton with PET strap for FOG800 Fibre Optic Gyroscope
High Performance Fibre Optic Gyroscope : Yes
Axis Qty. : 3
Normal temperature zero bias stability (25°C) : < 0.3°/h (1σ, 10s smoothing 1h test result)
Full temperature zero bias stability : < 0.5°/h (1σ)
Normal temperature zero bias repeatability : <0.2°/h (1σ, calculated by 6 times measurements data)
Full temperature zero bias repeatability : <1°/h (Extremism difference over full temperature)
Dynamic range : ≥±400°/s (support customer-oriented design)
Scale factor repeatability (fixed temperature) : < 100 ppm (angular rate≥1°/s)
Size : Φ90mm x 90mm ( external diameter x height)
Weight : <1.0kg
Contact Now

Professional Fiber Gyroscope Manufacturer Triaxial Fibre Optic Gyroscope for Weapon Platform FOG800


Product Description
FOG800 Triaxial Fiber Optic Gyroscope is a small, lightweight fiber optic gyro with a high update rate for navigation and beam pointing stabilization for free space optical communications, directed energy weapons, laser designators, and optical seeker applications.
FOG800 enjoys compact size, high update rate for closed loop beam pointing control, low angle random walk (ARW) to mitigate the effects of platform jitter, and low bias drift to enable accurate pointing during platform slew maneuvers.
FOG800 makes use of very short fiber optic coils coupled with advanced analog and digital electronics and digital signal processing, an angular random walk better than 0.05°/√hr., and a bias drift of less than 0.3°/hr. Moreover, FOG800 adopts a compact package that can be easily integrated into
navigation and beam steering systems.


Main Features
- High Performance Triaxial Fiber Optic Gyro
- Higher Accuracy, Lower Noise and Greater Efficiency
- Zero bias stability < 0.3°/h
- Dynamic range ≥±400°/s (support customer-oriented design)
- Scale factor non-linearity < 300 ppm (angular rate≥1°/s)
- Resolution< 0.5°/h
- Bandwidth≥200Hz
- Low power consumption
- Qualified for Critical Safety Avionics Application
- Individually calibrated, real actual precision
- Extremely reliable in harsh environment


Typical Application
FOG800 is a High Precision FOG (Fiber Optic Gyro), it has been widely applied in the following solutions, such as:
- Tactical Grade Applications
- Precision payload pointing and stabilization
- High performance bus attitude control
- Low drift, low noise applications
- Weapon Platform Stabilization
- Aeronautics and Aviation


Technical Specifications

Technical Specs
NameTechnical SpecsValue
Gyro Performance SpecsNormal temperature zero bias stability (25°C)< 0.3°/h (1σ, 10s smoothing 1h test result)
Full temperature zero bias stability< 0.5°/h (1σ)
Normal temperature zero bias repeatability<0.2°/h (1σ, calculated by 6 times measruements data)
Full temperature zero bias repeatability<1°/h (Extremum difference over full temperature)
Absolute zero point±0.5°/h
Dynamic range≥±400°/s (support customer-oriented design)
Scale factor non-linearity<300 ppm (angular rate≥1°/s)
Scale factor repeatability (fixed temperature)< 100 ppm (1σ)
Bandwidth≥200Hz
Resolution< 0.5°/h
Random walk< 0.05°/ hr1/2
Accelerometer Performance SpecsFull temperature zero bias stability<0.2mg (1σ, 10s smoothing 1h test result)
Full temperature zero bias repeatability<1mg (Extremum difference over full temperature)
Range≥±30g (support customer-oriented design)
Scale factor non-linearity<300 ppm
Scale factor repeatability (fixed temperature)< 100 ppm (1σ)
Electronic performance and communication portInitialization time<3s
Communication portfull duplex RS422, with pps synchronization input/output function
RS422 baud rateoptional (default 230.4kbps, maximum 921.6kbps)
Data refreshing periodoptional (default 0.5ms, it can adopt external synchronization mode)
Physical characteristicsSizeΦ90mm x 90mm ( external diameter x height)
Installation sizeΦ101mm, 4 M5 screws
Weight<1.0kg
Power consumption< 15W
Power supply±24V (+12~+32V), optional: +12V (+6~+30V)
Environment parametersWorking temperature-45°C~+60°C
Storage temperature-55°C~+75°C
Shock resistance100g (11ms)
Vibration resistanceFlying vibration random spectrum line (6.06g)
MTBF≥20000hours

Competitive Advantages
High Performance Tripple Axis Fibre Optic Gyroscope
- Excellent reliability – 20,000 hours MTBF
- Insensitive to vibration and linear acceleration
- Low noise, high bandwidth
- Digital or analog output
- High cost effective FOG solution


FAQ
What is Optical Gyroscope Technology?
Ring laser and fiber optical gyros both operate by sensing the difference in propagation time between beams of light traveling in clockwise and counter-clockwise directions about some closed optical path. A rotationally induced variance in path length produces a phase difference between the light beams propagating in opposing directions. This difference is generally known as the Sagnac effect and forms the basic operating principle of all optical gyroscopes.
The techniques used to measure the Sagnac effect in ring laser devices are vastly different than those employed in fiber optic sensing. These differences serve as the distinction between the two classes of devices and determine their size, weight, power requirements, performance, and cost.
There are various classes of ring laser and fiber optic gyroscopes. Ring laser gyros are distinguished by the method employed to overcome or reduce the lock-in effects which occur at low rotational rates. Look-in is eliminated either by the introduction of a mechanical dither, magneto-optic biasing, or by the use of multiple optic frequencies. Fiber optic gyros are categorized by the techniques employed to measure the rotationally induced Sagnac
effect. Interferometric fiber optic gyros (IFOG) use fringe pattern examination to sense the Sagnac effects while resonator fiber optic gyros (RFOG) employ resonant fiber cavities to do so.








































Product Tags:

mems gyro sensor

      

1 axis gyroscope

      
China Customized Inflatable Bumper Ball Game Bubble Adult Grass CE supplier

Professional Fiber Optic Gyroscope 3 Axis For Weapon Platform FOG800 Images

Inquiry Cart 0
Send your message to this supplier
 
From:
To: Nanjing Sky MEMS Technology Co.,Ltd.
Subject:
Message:
Characters Remaining: (0/3000)