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Inertial Measurement Units
combinations of precision gyroscopes, accelerometers, magnetometers, and pressure sensors measuring motion.
See Also: IMU
- Pickering Interfaces Inc.
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PXI Single Bus 32-Ch 2A Fault Insertion Switch, N/O Through Relays
40-190B-501
The Single Bus, 32 Channel PXI Fault Insertion switch is part of our family of 2 Amp fault insertion solutions, The range includes modules with 74, 64 or 32 channels and single or dual fault buses. This version has normally open through relays, so in the default state, there are no paths between inputs and outputs for any signal channel. It is primarily designed for the simulation of fault conditions in automotive & avionics applications involving the reliability testing of safety critical controllers.
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GNSS Smart Antenna
iCON gps 70 series
For construction professionals, Leica Geosystems introduces the most efficient GNSS rovers, the Leica iCON gps 70 Series. With the iCON gps 70 T you can measure and stakeout points quicker than ever before without the need to keep the pole vertical and level the bubble. The combination of the latest GNSS technology and inertial measurement unit (IMU) equips the iCON gps 70 T with permanent tilt compensation and makes it resistant to any magnetic interference. Being fully calibration-free, the iCON gps 70 T is ready when you are – anytime, anywhere.
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Attitude And Heading Reference Systems
AHRS
Beginning in 2001, Inertial Labs began manufacturing its MEMS-based, IP-67 sealed, MIL-STD-810G qualified, multiple interfaces and COM ports Attitude and Heading Reference System in response to the need for an inclusive and price competitive Antenna Pointing, Aiming, and Stabilizing applications. Each INS contains an Inertial Labs-developed tactical or industrial-grade inertial measurement unit (IMU) and an Inertial Labs-manufactured high-precision Fluxgate magnetometer.
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Data Interfaces, Sensors And Actuators
Dewesoft also develops and manufactures data interfaces such as CAN USB devices, GNSS and INS positioning devices, and Inertial Measurement Units (IMU), and high-speed cameras. All devices are completely compatible and synchronized with all of our Data Acquisition (DAQ) systems and offer the same highest possible built quality. To complete the measurement chain we also provide high accuracy current and vibration sensors.
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High-Sensitive GPS Speedometer
LC-8310 series
The LC-8310 high-sensitive GPS speedometer can measure the velocity of a vehicle and the distance using GPS/GLONASS.It adopts the method to correct the speed obtained from satellite signals with IMU ((Inertial Measurement Unit) and achieves high response, stable and high accuracy measurement (velocity accuracy of ±0.2 km/h, distance accuracy of ±0.2 %).
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Quantum Accelerometer
A quantum accelerometer uses atom interferometry to measure accelerations along a horizontal axis. Quantum accelerometers are able to achieve a combination of sensitivity and stability by exploiting quantum interference. As such, they will be critical components of a quantum inertial navigation unit, which will offer satellite-free navigation with unparalleled long-term accuracy. A phase locked SolsTiS system underpins this setup and provides the extremely low phase noise required to make high sensitivity measurements and dynamic frequency tunability to address multiple atomic transitions.
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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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2MP Stereo Camera for NVIDIA® Jetson Nano™/AGX Xavier™/TX2
STEEReoCAM™
Houses two OmniVision's 1/2.9" OV2311 Monochrome image sensorHigh-speed 2-lane MIPI CSI-2 interface to connect with the Host ProcessorPlugs in to NVIDIA® Jetson Nano™/AGX Xavier™/TX2 developer kit2MP Global Shutter Sensor10-bit Monochrome output formatHouses 6-axis Inertial Measurement Unit (IMU)Baseline distance of 100mmAccurate depth sensing with a flexible range between 0.95m to 8mS-mount lens holder (M12) with pre-calibrated S-mount lens pairSupport Multiple SteereoCam to a Single board
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INERTIAL MEASUREMENT UNIT
MS-IMU3050
Extreme performance in the industry's most compact package, the ITAR free and EAR99 MS-IMU3050 represents the next generation of cutting edge MEMS IMUs. With an ultra-durable and dimensionally stable MIC-6 alloy housing, MIL-A-8625 coating, and Mil-Standard interface connector, the MS-IMU3050 will endure the most demanding environments, giving long term stability and reliability in your application.
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INERTIAL MEASUREMENT UNIT
MS-IMU3020
The MS-IMU3020 delivers market leading price to performance in an ultra-compact aluminum package. The gyro bias instability of 0.9 /h and accelerometer bias instability of 9 g supply ample performance to support a range of applications from UAS navigation and control to pipeline inspection.
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GPS Speedometer/GPS Vector Speedometer
LC-8120/LC-8220
The LC-8120/8220 is the GPS-based speedometers which measure speed and distance of moving objects with high accuracy. Support for GLONASS satellite which is not supported in the conventional model (LC-8100A/8200A) to ensure stable measurement. Antenna for LC-8220 (LC-0721) is smaller and lighter than the conventional antenna for LC-8200A (LC-0086) and it enables easy operation. The new antenna (LC-0721) is able to attach to the conventional unit of LC-8200(A) for measurement. The linearity of acceleration and angular speed are improved by using the standard IMU (inertial measurement unit) together with the optional high accuracy IMU. Also, by adding the high response IMU analog output function (option), the analog output frequency of the IMU data can be increased from 100 Hz to 500 Hz. A wide range of optional functions such as white-line detecting function (LC-0856), jerk measurement function (LC-0871) and average deceleration speed calculation (function in the LC-0831) are available for various automotive tests.
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Barometric Pressure Simulation
SimBARO
Embedded and Integrated GPS/Inertial navigation systems require an altitude reference data input provided by a barometric pressure altimeter to reduce vertical plane errors inherent within inertial systems. Spirent’s SimBARO product offers a simulated source of barometric pressure altitude data and is available as an add on to SimINERTIAL, Spirent’s Inertial Measurement Unit (IMU) and Embedded GPS/Inertial navigation system (EGI) test tool.
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iNEMO Inertial Modules
iNEMO inertial modules integrate complementary sensors in compact, robust, and easy-to-assemble inertial measurement units (IMU).
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Inertial Measurement Units
IMU
The Inertial Labs Inertial Measurement Units (IMU) contain three highly accurate advanced MEMS gyroscopes and three high-performance accelerometers. The IMU-P and Kernel are calibrated within their operating temperature range to achieve maximum end-user usability. This also ensures tactical grade performance regardless of the environment in which it is used.
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VR/AR/MR Calibration Platform
AR, VR and MR device calibration is critical for product performance. Leverage Averna’s standardized alignment platform to efficiently calibrate cameras and Inertial Measurement Unit (IMU) modules with supreme accuracy. Easily customize or upgrade the base platform into the automated quality solution to best fit your manufacturing requirements.
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Inertial Measurement Units
Safran manufactures inertial measurement units and sets a new standard for precision and performance by utilizing our proprietary inertial sensor technology. Our IMUs are engineered to excel in the Defense, Industrial, Aerospace, and Commercial sectors with the highest performing ITAR-free products commercially available.
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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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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 Navigation Systems (INS and IMU)
Inertial Navigation Systems (INS and IMU)High accuracy 100Hz GPS and GNSS receivers and Inertial Navigation Systems (IMU - inertial measurement units) with Real-time Kinematics (RTK) correction for the most precise position-based test and measurement applications.
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High Parallel Test Of Inertial Sensors Up To 9DOF
InGyro Test Module
The InGyro sensor test module and functional test program for physical stimulation of inertial sensors under temperature conditions supports multiple target applications: accelerometers, gyroscopes, as well as multi-axis IMU’s (inertial measurement units) up to 9DOF (Degrees of Freedom). To meet the requirements of automotive and other demanding applications the temperature range the InGyro module supports testing at temperatures from -40°C to +125°C.
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Cross Domain Development Kit
XDK
Enjoy an all-in-one prototyping platform for sensor based IoT projects. It’s packed with state of the art sensor technology and ready-to-use software packages, capable of fulfilling all your IoT application needs. Start building your project right away to test your idea and validate your concept. Built-in sensors: Accelerometer, Gyroscope, Magnetometer, Inertial measurement unit, Humidity/ Pressure/ Temperature/ sensor, Acoustic noise sensor, Digital light sensor.
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Laboratory Centrifuges
Centrifuge systems are designed for the development, test, evaluation and calibration of accelerometers and a variety of inertial devices. Centrifuges provide a cost-effective solution for simulating high-"G" environments in the laboratory. They support testing of devices such as MEMS-based Inertial Measurement Units (IMUs), low-cost quartz or silicon sensors, Ring Laser Gyros (RLGs), Fiber-Optic Gyros (FOGs), fuzes and crash sensors.
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PXIe Measurement Accelerator
M9451A
The M9451A PXIe Measurement Accelerator combined with Option DPD Digital Pre-Distortion & Envelope Tracking Gateware shows what is possible when you combine state of the art FPGA's with Keysight's trusted measurement expertise and PXIe's high speed data handling. As part of Keysight's RF PA/FEM Characterization & Test, Reference Solution, this combination provides unprecedented performance for demanding envelope tracking and digital pre-distortion measurements required for testing modern power amplifiers (PAs) and front-end modules (FEMs). Hardware acceleration provides better than 20x speed improvement over Keysight's previous host-based Reference Solution, with closed/open loop digital pre-distortion (DPD) and envelope tracking (ET) measurements taking just tens of milliseconds and overall measurement times less than 70 ms.
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GPS-Aided Inertial Navigation Systems
INS
The INS was unveiled in 2001 when Inertial Labs started manufacturing its first MEMS-based, IP67 and IP68 sealed and OEM versions, MIL-STD-810G qualified multiple interfaces and COM ports Single and Dual Antenna GPS-Aided Inertial Navigation Systems (INS). Each INS contains an Inertial Labs developed Tactical or Industrial-grade Inertial Measurement Units (IMU) and reliable single or dual GNSS receivers from suppliers like NovAtel, u-blox and Septentrio.
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PXI-2510, 68-Channel, 2 A PXI Signal Insertion Switch Module
778572-10
68-Channel, 2 A PXI Signal Insertion Switch Module—The PXI‑2510 fault insertion unit (FIU) is designed for hardware‑in‑the‑loop (HIL) applications and electronic reliability tests. Each module has a set of feedthrough channels that you can open or short to one or more fault buses. You can use this architecture to simulate open or interrupted connections as well as shorts between pins, shorts to battery voltages, and shorts to ground on a per-channel basis. When controlled with the LabVIEW Real-Time Module, the PXI‑2510 is ideal for validating the integrity of control systems including engine control units (ECUs) and full authority digital engine controls
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PXI Dual Bus 64-Chan 2A Fault Insertion Switch, N/O Through Relays
40-190B-402
The Dual Bus, 64 Channel PXI Fault Insertion switch is part of our family of 2 Amp fault insertion solutions, The range includes modules with 74, 64 or 32 channels and single or dual fault buses. This version has normally open through relays, so in the default state, there are no paths between inputs and outputs for any signal channel.
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PXI Isolated Single Channel Voltage/Current Source, 100V
M9186A
The V/I source lets you source a voltage and measure the resultant current, or source a current and measure the resultant voltage. It consist of two separate amplifiers, denoted "low" and "high" that share a common output connection. The "low" amplifier provides voltages in the range of 16 volts at up to 200ma and the "high" amplifier provides voltages in the range of 100V at up to 20mA.
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PXIe Source/Measure Unit, 15 MSa/s, 1 PA, 60 V, 3.5 A DC/10.5 A Pulse
M9602A
The Keysight M9602A is a PXIe SMU featuring best-in-their-class narrow pulse width as narrow as 10 μs. It enables dynamic/pulsed measurements with up to 15 MSa/s for broad emerging applications such as VCSEL optical devices.
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PXIe 5-channel Precision Source/Measure Unit, 500 kSa/s, 10 pA, 30 V, 500 mA
M9615A
The Keysight M9615A is a PXIe five-channel precision source / measure unit (SMU). It supports accurate measurement up to 30 V / 500 mA with resolution down to 6 uV / 10 pA.
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3U OpenVPX Sensor Interface Unit
SIU34
The SIU34 is a highly configurable rugged system or subsystem ideally suited to support a multitude of Mil-Aero applications that require high-density I/O, communications, Ethernet switching and processing. The SIU34 leverages NAI’s 3U OpenVPX™ boards to deliver off-the-shelf solutions that accelerate deployment of SWaP-optimized systems in air, land and sea applications.
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PXIe-4139 , ±60 V, ±3 A DC, ±10 A Pulsed, 40 W DC, 100 fA Precision System PXI Source Measure Unit
782856-03
PXIe, ±60 V, ±3 A DC, ±10 A Pulsed, 40 W DC, 100 fA Precision System PXI Source Measure Unit - The PXIe-4139 is a high-precision, system source measure unit (SMU) that features 4-quadrant operation and sources up to 40 W of DC power. This module features analog-to-digital converters that help you perform high-precision measurements with a current resolution of 100 fA or high-speed acquisitions up to 1.8 MS/s. The module can maximize stability and measurement accuracy with SourceAdapt technology, which you can use to tune the transient response to match the characteristics of any load. You can use the PXIe-4139 for applications including manufacturing test, board-level test, and lab characterization with devices such as ICs, power management ICs (PMICs), and RFICs and discrete devices including LEDs and optical transceivers.
