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Supplier: LORD MicroStrain Sensing Systems
Description: Wireless Accelerometer Node Overview The G-Link® -LXRS™ Wireless Accelerometer Node features on-board triaxial ±2 g or ±10 g MEMS accelerometers and an internal temperature sensor. G-Link® -LXRS™
- Acceleration: -10 to 10 g
- Features: Battery Powered, Wireless
- Frequency Range: 1 to 512 Hz
- Number of Axes: Triaxial
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Supplier: TE Connectivity
Description: Features Accelerometer Type : Wireless Vibration Sensor Type : Wireless Accelerometers Signal Characteristics Frequency Band (MHZ) : 868 Frequency Response (HZ) : 2 to
- Features: Wireless
- Frequency Range: 2 to 15000 Hz
- Number of Axes: Triaxial
- Operating Temperature: -40 to 176 F
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Supplier: LORD MicroStrain Sensing Systems
Description: The G-Link2™ -LXRS® Wireless Accelerometer Node features on-board triaxial or external single axis ±1 g to ±200 g MEMS accelerometers in a small, IP67 rated enclosure. The 16-bit G-Link2 streamlines vibration/accelerati on measurement and monitoring in remote
- Acceleration: -200 to 200 g
- Features: Battery Powered, Wireless
- Frequency Range: 32 to 512 Hz
- Number of Axes: Single Axis, Triaxial
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Supplier: DigiKey
Description: Accelerometer X, Y, Z Axis
- Device Type: Sensor / Transducer
- Features: Wireless, Other
- Number of Axes: Triaxial
- Operating Temperature: -40 to 185 F
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Supplier: DigiKey
Description: Accelerometer X, Y, Z Axis
- Device Type: Sensor / Transducer
- Features: Wireless, Other
- Number of Axes: Triaxial
- Operating Temperature: -40 to 140 F
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Supplier: Shenzhen Rion Technology Co., Ltd
Description: AKE392B-Wireless three-axis accelerometer sensor series products is RION company imported the Switzerland patented technology to produce for using widely, suitable for vibration testing, impact testing and more fields. The product uses a digital interface output, RS232/485/TTL
- Acceleration: 1 to 40 g
- Device Type: Sensor / Transducer
- Frequency Range: 5 to 300 Hz
- Number of Axes: Triaxial
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Supplier: TECAT Performance Systems, LLC
Description: The WISER 4000 system is the latest release of TECAT’s low-cost, ultra-low power and extremely accurate torque sensor. The wireless system has the optional ability to measure 3-axis acceleration, barometric pressure and ambient temperature, all within the same incredibly small footprint
- Acceleration: 16 to 400 g
- Device Type: Other
- Features: Battery Powered, Wireless
- Frequency Range: 250 to 4000 Hz
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Supplier: LORD MicroStrain Sensing Systems
Description: Wireless Accelerometer Node Overview The G-Link® -LXRS™ Wireless Accelerometer Node features on-board triaxial ±2 g or ±10 g MEMS accelerometers and an internal temperature sensor. G-Link® -LXRS™
- Features: RoHS, Adjustable Output Power, LED Indicators, Data logging
- Form Factor / Package: Stand Alone
- Maximum Transmission Distance: 70 to 2000 m
- Operating Frequency: 2400 MHz
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Supplier: TE Connectivity
Description: Type Features Accelerometer Type : Wireless Vibration Sensor Product Type : Wireless Accelerometers Signal Characteristics Frequency Band (MHZ) : 915 Frequency Response (HZ
- Features: Wireless
- Frequency Range: 2 to 15000 Hz
- Operating Temperature: -40 to 176 F
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Supplier: TE Connectivity
Description: Type Features Accelerometer Type : Wireless Vibration Sensor Product Type : Wireless Accelerometers Signal Characteristics Frequency Band (MHZ) : 868 Frequency Response (HZ
- Features: Wireless
- Frequency Range: 2 to 15000 Hz
- Operating Temperature: -40 to 176 F
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Supplier: TE Connectivity
Description: Product Type Features Accelerometer Type : Wireless Vibration Sensor Product Type : Wireless Accelerometers Signal Characteristics Frequency Band (MHZ) : 2400 Frequency Response
- Features: Wireless
- Frequency Range: 2 to 15000 Hz
- Operating Temperature: -40 to 176 F
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Supplier: Instrumented Sensor Technology
Description: Highlights: Self Contained Acceleration Event, Date, Time Recorder Single Axis and Tri-axial Accelerometer Models Full Scale g-measurement ranges from +/- 2g to 2,000g + Measures & Records Peak Shock Level, Duration, Velocity Change (energy), Date
- Application: General Lab and Industrial, Vehicular
- Connection to Host: USB, Other
- Sensor Inputs: Accelerometer
- User Interface: None
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Supplier: Instrumented Sensor Technology
Description: Compact self, contained 2" x 1" x 0.5", 40 gram 3-axis accelerometer & recorder Records peak shocks, total energy, duration, date, time Ranges from 100 g to 2,000 g. Standard range +/-300g Threshold triggered 2,500 event
- Device: Recorder / Totalizer
- Features: Event Triggered
- Maximum Acceleration / Shock: 100 to 2000 g
- Number of Axes: Triaxial
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Supplier: Advantech
Description: Bluetooth wireless smart vibration sensor node with Triaxial, medium high frequency and wide response range, contains medium high frequency vibration accelerometer, high-speed computing unit, and low-power Bluetooth data transmission module. Power contact type: 1m Tail end
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AXO®301 High Resolution MEMS Accelerometer & Inclinometer Input measurement range of ±1 g Broadband resolution of 50 µg Tailored to high resolution industrial inclinometers and railway applications (read more)
Browse Accelerometers Datasheets for Tronics Microsystems -
-performance digital MEMS accelerometer with ±14 g input range for industrial applications operating under shock and vibration. AXO314 offers a low-SWaP digital, and cost-effective alternative to bulky and expensive tactical-grade quartz accelerometers. It brings a robust (read more)
Browse Accelerometers Datasheets for Tronics Microsystems -
AXO305 is tailored to precise GNSS-assisted positioning and navigation of manned and unmanned ground vehicles, motion control function for ships dynamic positioning, and navigation of underwater ROV (Remotely Operated Vehicles). High-Performance Accelerometer for (read more)
Browse Accelerometers Datasheets for Tronics Microsystems -
Tronics AXO315®T0, a high-temperature MEMS accelerometer with ±14g (read more)
Browse Accelerometers Datasheets for Tronics Microsystems -
TDK Corporation announces the extension of its high-performance MEMS inertial sensors portfolio with Tronics AXO315®T1, a high-temperature MEMS accelerometer with ±14 g input range and a digital interface for measurement while drilling (MWD) applications operating up to +175°C. (read more)
Browse Accelerometers Datasheets for Tronics Microsystems -
The accelerometers of the PCE-VDL series are available in two versions. The accelerometer PCE-VDL 16I contains sensors for the following physical units: temperature, humidity, air pressure, light and 3-axis acceleration. The PCE-VDL 24I has 3-axis acceleration and the max. sampling (read more)
Browse Accelerometers Datasheets for PCE Instruments / PCE Americas Inc. -
-based systems are coupled with high performance inertial sensors to enable precise and continuous attitude and heading determination in GNSS-denied conditions. AXO®315 is a high performance, miniature and digital MEMS accelerometer that (read more)
Browse Accelerometers Datasheets for Tronics Microsystems -
stabilization. For precision positioning and navigation of ships, AUV (Autonomous Underwater Vehicles) and subsea ROV (Remotely Operated Vehicles), Tronics MEMS accelerometers and gyros exhibit excellent bias stability and scale factor linearity that allow our customers to design high (read more)
Browse Accelerometers Datasheets for Tronics Microsystems -
Tronics' AXO315 is a ±14 g range, 1-axis in-plane linear closed-loop accelerometer designed and developed to provide high precision and reliability in the most challenging environments, withstanding severe temperature and vibration conditions common in industrial, land, railway, naval (read more)
Browse Accelerometers Datasheets for Tronics Microsystems -
Tronics Microsystems' AXO315 is a tactical-grade 1-axis, ±14 g range, 24 bit digital SPI closed-loop MEMS accelerometer in an hermetic SMD package. AXO315 was designed and developed to provide high precision and reliability in the most challenging environments, withstanding severe (read more)
Browse Accelerometers Datasheets for Tronics Microsystems
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Development of a portable activity detector for daily activity recognition
The hardware components of our portable device include: 1) a wireless triaxial accelerometer module which collects acceleration data generated from users' dominant wrists, and 2) an embedded system which is employed to execute the acceleration data collection, data preprocessing, feature extraction, and …
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Grid and Pervasive Computing
In this study, a mobility classification system was developed using a single waist- mounted wireless triaxial accelerometer .
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Advances in Artificial Intelligence
Keywords: Gait parameters processing, wireless triaxial accelerometer , characteristic peaks detector, bayesian classifier.
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Prototype of Infant Drowning Prevention System at Home with Wireless Accelerometer
This paper presents a system that can detect the abnormal wave motion of water in the bathtub using a wireless triaxial accelerometer and describes the fundamental performance of the developed system.
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Estimation of Walking Energy Expenditure by Using Support Vector Regression
This paper estimates walking energy expenditure by using Support Vector Regression methods to model the relationship between data recorded from a wireless triaxial accelerometer and metabolic energy expenditure calculated from expired oxygen and carbon dioxide concentrations.
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SISMES VI NATIONAL CONGRESS
We present a simple, compact and cost- effective device for tremor measurement, based on the remote of the Wii console, the Wiimote, a wireless triaxial accelerometer which can communicate via bluetooth with a personal computer.
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AI*IA 2009: Emergent Perspectives in Artificial Intelligence
With the sole use of one wearable wireless triaxial accelerometer attached to one’s chest, this approach aims at classifying raw acceleration data robustly, to detect many common human behaviors with- out requiring any specific a-priori knowledge about movements.
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http://dspace.mit.edu/bitstream/handle/1721.1/44913/300459396-MIT.pdf?sequence=2
74 Figure 4-3: Five triaxial wireless accelerometers , a polar chest strap heart rate monitor, a MITes heart rate transceiver with 9V battery attached, and a USB wireless receiver, and (b) Placement of the sensors on the body.
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Frequency-agile wireless sensor networks
The vibration data obtained from the wireless triaxial accelerometer node was used to make recommendations to the National Parks Service, such as smoothing the path for the conveyance, and pushing the conveyance slowly by hand.
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BMC Medical Informatics and Decision Making | Full text | Sensors vs. experts - A performance comparison of sensor-based fall risk assessment vs. conventional ...
In a first study phase, 119 inpatients of a geriatric clinic took part in motion measurements using a wireless triaxial accelerometer during a Timed Up&Go (TUG) test and a 20 m walk.