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Gyroscopes
Measure or maintain a single distance in relation to an object, regardless of shift in angle.
See Also: IMU, Accelerometers, Flywheel
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Sensors and MEMS
Analog Devices MEMS accelerometer and gyroscope solutions provide designers with discrete components and plug and play iSensor® MEMS subsystems. Our iSensor MEMS IMUs are highly integrated, multiaxis solutions that combine gyroscopes, accelerometers, magnetometers, pressures sensors, and additional technology for multiple degrees of freedom applications under dynamic conditions. Download our technical articles and read our customer success stories to discover how we are efficiently and reliably addressing today’s complex application requirements.
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MEMS Gyroscopes
Safran designs and manufactures high-precision tactical grade MEMSMicroElectroMechanical System. See also gyro sensors for demanding applications. We serve a global customer base in the Defense, Industrial, Aerospace and Commercial markets with ITAR-free solutions utilized in a wide range of applications. Our miniature MEMS gyro modules offer our customers compact and cost effective solutions while maintaining high performance and accuracy requirements.
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Test Sockets
MEMS Device
Patented MEMS Sockets from Ardent Concepts use a unique scrubbing action contact set which is ideal for today’s sensitive MEMS devices, including accelerometers, gyroscopes, MEMS microphones and other specialized devices used in mobile electronics applications
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Tactical Grade Inertial Measurement Unit (IMU)
ADIS16490 iSensor
The ADIS16490 iSensor® device is a complete inertial system that includes a triaxial gyroscope and a triaxial accelerometer. Each inertial sensor in the ADIS16490 combines industry-leading iMEMS® technology with signal conditioning that optimizes dynamic performance. The factory calibration characterizes each sensor for sensitivity, bias, alignment, and linear acceleration (gyroscope bias). As a result, each sensor has its own dynamic compensation formulas that provide accurate sensor measurements. The ADIS16490 provides a simple, cost-effective method for integrating accurate, multiaxis inertial sensing into industrial systems, especially when compared with the complexity and investment associated with discrete designs. All necessary motion testing and calibration are part of the production process at the factory, greatly reducing system integration time. Tight orthogonal alignment simplifies inertial frame alignment in navigation systems. The SPI and register structure provide a simple interface for data collection and configuration control.
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Inertial Measurement Units (IMU)
Inertial Measurement Unit (IMU) sensors integrate multiaxis combinations of precision gyroscopes, accelerometers, magnetometers, and pressure sensors, intelligently fused to provide reliable position and motion discernment for stabilization and navigation applications. Precision MEMs IMUs deliver the required accuracy levels even in complex operating environments and under dynamic or extreme motion dynamics. ADI iSensor® IMU technology has been uniquely developed to reliably provide the high performance necessary to enable emerging applications in autonomous machinery and instruments, across multiple markets.
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Triple-Axis Gyro Breakout Board
L3GD20H
A gyroscope is a type of sensor that can sense twisting and turning motions. Often paired with an accelerometer, you can use these to do 3D motion capture and inertial measurement (that is - you can tell how an object is moving!) As these sensors become more popular and easier to manufacture, the prices for them have dropped to the point where you can easily afford a triple-axis gyro! Only a decade ago, this space-tech sensor would have been hundreds of dollars.
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Heading Reference Directional Gyroscopes
4000HR-series
The 4000HR air-driven directional gyro offers some of the best features of our other popular models. It inherited all of the functionality and reliability of the industry standard 4000B upon which it’s based, and it picked up a heading reference bug from the 4000C autopilot model.
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Standard Attitude Gyroscopes
5000B-series
The 5000B is an air-driven gyro that has a pictorial horizon mask and fixed airplane. The mask moves to indicate climb, dive, and bank. Bank and pitch attitudes are displayed so that the pilot’s sensing of the gyro indication is the same as the interpretation of the relation between the wings of the aircraft and the natural horizon during visual flight.
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Inertial Measurement Units
IMU
Analog Devices inertial measurement unit (IMU) sensors are based on multiaxis combinations of precision gyroscopes, accelerometers, magnetometers, and pressure sensors. Our technology reliably senses and processes multiple degrees of freedom, even in highly complex applications and under dynamic conditions. These plug and play solutions include full factory calibration, embedded compensation and sensor processing, and a simple programmable interface.
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Programmable Sensor Module With CAN Connection
PCAN GPS
The PCAN-GPS is a freely programmable sensor module for position and attitude determination. It has a satellite receiver, a magnetic field sensor, an accelerometer and a gyroscope. The recorded data can be transmitted on a CAN bus and logged on the internal memory card. The data is processed by a microcontroller from the NXP LPC4000 series.
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ARINC-style Attitude Gyroscopes
1U367-series
The 1U367 has a pictorial horizon mask and a fixed airplane. The mask moves to indicate climb, dive, and bank. Bank and pitch attitudes are diaplayed so that the pilot's sensing of the gyro's horizon indication is the same as the interpretation of the relationship between the wings of the aircraft and the natural horizon during visual flight.
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Gyroscopes
Analog Devices MEMS gyroscopes and iSensor® MEMS gyroscope subsystems reliably sense and measure the angular rate of an object under complex and severe operating conditions. Our MEMS gyroscope portfolio includes analog and digital output, high vibration and shock immunity, and temperature sensitivity control to 25 ppm/°C. Measure an object’s rotation in °/sec over a wide dynamic range and bandwidth while leveraging our expertise to jumpstart your next design.
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High Volume Manufacturing Handling, Stimulus
ULTRA P
The ULTRA P is a high performance production handler that provides thermal conditioning, full 6 DOF mechanical stimulus and an electrical ATE signal path for testing Micro-Electro-Mechanical Systems (MEMS) Accelerometers and Gyroscopes.
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Engineering/Development System
ULTRA L
The ULTRA L is a high performance “Lab” system that provides thermal conditioning, mechanical stimulus and an electrical ATE signal path for testing Micro-Electro-Mechanical Systems (MEMS) Accelerometers and Gyroscopes.
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Autopilot Directional Gyroscopes
4000C/D-series
The 4000C/D is an air-driven directional gyro with A.C. autopilot pickoffs. Left turns produce clockwise dial rotation and right turns produce counter-clockwise rotation. Two knobs control the gyro. The left knob is used to cage the unit, and the right knob is used to select the instrument’s heading. To change course, the right selector knob is pressed and turned to disengage the dial shaft and set the pointer to a new heading. Releasing the selector knob re-engages the pointer with the dial shaft. As the aircraft turns onto a new course, the pointer returns to its original position. The on-course position of the pointer is always at the top of the azimuth circle (0° on the dial with the aircraft headed north).
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MEMS Handler
4664-IH
The ULTRA P is a high performance production handler that provides thermal conditioning, full 6 DOF mechanical stimulus and an electrical ATE signal path for testing Micro-Electro-Mechanical Systems (MEMS) Accelerometers and Gyroscopes.
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XYZ Bootstrap Directional Gyroscopes
4000H-series
Sigma Tek's Directional Gyro with heading synchro output provides a cost effective link to "bootstrap" other instruments requiring heading information for: display orientation to aircraft heading, heading stabilization functions, and other navigational calculations and/or solutions. Specific applications include: Argus Moving Map Display®, L-3 Avionics Stormscope®, and Insight Strike Finder®.
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ULTRA Test Cells
The ULTRA Series of high performance MEMS handling, stimulus and test cells provides unparalled flexibility and capability for engineering development, characterization or high volume production test of inertial MEMS (accelerometer, gyroscope) semiconductor devices.
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Motion Simulator For Test Systems
Metis
METIS is a motion simulator for sensor and end system level testing. Configurable design allows you to create system you need! - 1-axis rate table for gyro testing - 2-axis unit for 6DOF accelerometer and gyroscope testing - 3-axis Gimbal system for simultaneus Yaw, Pitch and Roll stimulus.
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Accelerometor, Gyro, Magnetometer Breakout Board
SEN-38001
The LSM9DS1 is a highly configurable, flexible and precise motion sensing solution from ST Microelectronics - the latest in a wide-ranging inertial product line. It integrates a 3-axis accelerometer, 3-axis gyroscope and 3-axis magnetometer into a single IC , giving you a full nine degrees of freedom (9-DOF) in a tiny 3mm x 3.5mm package. Even with support components, square mounting pattern and connection breakouts for both SPI and I2C, this board is barely the size of a quarter.
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Shield
Arduino MKR IMU Shield
The MKR IMU Shield is based on the BNO055 absolute orientation sensor from Bosch Sensortec GmbH which integrates a triaxial 14-bit accelerometer, a triaxial 16-bit gyroscope with a range of ±2000 degrees per second and a triaxial geomagnetic sensor with a 32-bit microcontroller running the BSX3.0 FusionLib software. The sensor features three-dimensional acceleration, yaw rate and magnetic field strength data each in 3 perpendicular axes.
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MEMS Module
The design and modeling of microelectromechanical systems (MEMS) is a unique engineering discipline. At small length scales, the design of resonators, gyroscopes, accelerometers, and actuators must consider the effects of several physical phenomena in their operation. Consequently, COMSOL Multiphysics is ideally suited for MEMS applications. To this end, the MEMS Module provides predefined user interfaces with associated modeling tools, referred to as physics interfaces, for a variety of coupled physics, including electromagnetic-structure, thermal-structure, or fluid-structure interactions. You can include a variety of damping phenomena in your model: thin-film gas damping, anisotropic loss-factors for solid and piezo materials, anchor damping, and thermoelastic damping. For elastic vibrations and waves, perfectly matched layers (PMLs) provide state-of-the-art absorption of outgoing elastic energy.
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MEMS Inertial Test
Cohu´s inertial solutions enable high precise Gyroscope and Accelerometer test with best-in-class cost of test due to high parallelism and package flexibility. All Cohu stimulus modules guarantee high precision and velocity stability as well as high temperature accuracy. With use of our high efficient handler portfolio we can offer the ideal solution with optimized cost of test.
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Two And Three Axis Gyroscopes
TAG
The Inertial Labs Axis Gyroscopes are developed for Electro-Optical Systems, Gimbals, Line-of-Sight, and Pan and Tilt Platforms for inertial stabilization and pointing applications. These devices utilize advanced, tactical-grade MEMS sensitivity whose size, power consumption, reliability, and performance are ideal for accomplishing complex tasks requiring accurately stabilizing assorted platforms.
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Sensor board
Sense HAT
The Sense HAT has an 8×8 RGB LED matrix, a five-button joystick and includes the following sensors: Gyroscope, Accelerometer, Magnetometer, Temperature, Barometric pressure, Humidity.
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Inertial Navigation Systems
An inertial navigation system (INSAn INS or Inertial Navigation System - sometimes used synonomously with IMU is a device used to measure a vehicle's speed, position, velocity, heading and orientation by using an accelerometer and a gyroscope.) is a high-tech navigator using motion and rotation sensors alongside a computer to figure out where something is, how it’s moving, and how fast. By using dead reckoning, the INS method for knowing positioning, it continuously calculates an object’s position and orientation based on its initial location. This allows users in airplanes, submarines, or even spacecrafts to guide and keep track of their location without signals such as GPSGlobal Positioning System is a navigation satellite system. See also.
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SparkFun 6 Degrees Of Freedom Breakout
LSM6DSO (Qwiic)
The SparkFun LSM6DSO 6 Degrees of Freedom Breakout is an accelerometer and gyroscope sensor with a giant 9kB FIFO buffer and embedded processing interrupt functions. Due to the capabilities and low cost of the LSM6DSO we've created this small breakout board just for you! Each LSM6DSO breakout has been designed to be super-flexible and can be configured specifically for many applications. With the LSM6DSO breakout you will be able to detect shocks, tilt, motion, taps, count steps, and even read the temperature!
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Weapons Orientation Modules
WOM
The WOM™ weapon orientation modules provides a level of performance previously unseen in the world of miniature 3DOF orientation systems. WOM™ employs the use of three axes each of gyroscopes, accelerometers, and magnetometers to track both slow and fast movements of weapons in real-time. It houses propriety calibration techniques for soft- and hard-iron interference that are specific to the different weapon classes on which it can be used. Calibrations are able to be performed quickly and easily by minimally trained individuals without requiring any precise movements.
