Showing results: 1 - 15 of 106 items found.
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Safran - Navigation & Timing
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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IMU -
Analog Devices Inc.
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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Nano -
MEMSense, LLC
The Nano is a miniature, light weight, digital output IMU featuring serial outputs of acceleration, angular rate, and magnetic field. Custom algorithms provide real-time data corrected for temperature sensitivities to bias, scale factor, and cross-axis sensitivity.
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MS-IMU3020 -
MEMSense, LLC
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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SMD -
MEMSense, LLC
The SMD is robust inertial sensor providing analog outputs of triaxial acceleration and angular rate in a small, surface mount package. This device is time tested, with thousands of units successfully implemented in numerous applications from antenna pointing to platform stabilization to orientation sensing.
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HP -
MEMSense, LLC
The HP IMU offers industry leading accelerometer performance, with rugged, vibration rejecting gyroscopes having high rate capability up to 3000 /s. The HP IMU is the ideal choice for high dynamic environments requiring highly accurate and exceptionally stable acceleration measurement.
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MX -
MEMSense, LLC
The MX product features extreme performance in a small, rugged package. Enhanced acceleration measurement capabilities with low bias offset accelerometers, and high stability, vibration rejecting gyroscopes, make the MX IMU the ideal solution for orientation tracking and navigation in the most demanding environments.
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MS-IMU3050 -
MEMSense, LLC
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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Analog Devices Inc.
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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ADIS16490 iSensor -
Analog Devices Inc.
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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Keysight Technologies
Keysight PXI FPGA & measurement accelerator provide digital-pre-distortion (DPD) and envelope tracking (ET) measurements that are embedded in high performance FPGA processing cards.
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M9451A -
Keysight Technologies
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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40-201-004 -
Pickering Interfaces Ltd.
This high bandwidth differential fault insertion module is designed to simulate common faults on high speed two wire communication interfaces such as Ethernet. This module supports 4 or 8-channels of two wire serial connections and can be used for simulating faults on Ethernet, AFDX, BroadR-Reach, 100BaseT and 1000BaseT interfaces. Any wire can be set to an open circuit, shorts can be applied across the wire pair, or to the adjacent pair. Fault connections can be made to one of four external signals via two fault buses, typically simulating connections to a supply voltage or ground. Each fault bus is capable of carrying 2A allowing multiple channels to be connected to the same fault condition. Additionally, each fault bus features a changeover relay to allow the user to connect alternative fault conditions to the fault buses.
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40-201-008 -
Pickering Interfaces Ltd.
This high bandwidth differential PXI fault insertion module is designed to simulate common faults on high speed two wire communication interfaces such as Ethernet. This module supports 4 or 8-channels of two wire serial connections and can be used for simulating faults on Ethernet, AFDX, BroadR-Reach, 100BaseT and 1000BaseT interfaces. Any wire can be set to an open circuit, shorts can be applied across the wire pair, or to the adjacent pair. Fault connections can be made to one of four external signals via two fault buses, typically simulating connections to a supply voltage or ground. Each fault bus is capable of carrying 2A allowing multiple channels to be connected to the same fault condition. Additionally, each fault bus features a changeover relay to allow the user to connect alternative fault conditions to the fault buses.
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40-190B-402 -
Pickering Interfaces Ltd.
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.