Wireless MEMS Accelerometers

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

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

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

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

Description: The Wireless Vibration Meter Data Logger - VSEW_mk2 - 8g is a new model in the VSE series of smart vibration datalogers. It can record accelerations, vibrations, velocities and inclinations. It includes a 3-axis MEMS accelerometer, an accurate date/time clock and a non-volatile

• Application: General Lab and Industrial
• Connection to Host: USB
• Data Storage: 128 MB
• Form Factor: Stand Alone

Description: these roles simultaneously. Power output +8 dBm. Receiver Sensitivity -88 dBm. Low power consumption: 7.7 mA (RX) and 8.2 mA (TX). Integrated balun. SMA connector for antenna. 3 user LEDs. 2 user buttons. 3D digital accelerometer and 3D digital gyroscope. MEMS pressure sensor with

• Category: Development Suite / Kit
• Ports: Wireless
• Supported System: RF

Description: Integrated Developed Environment (IDE). Renesas Synergy S7G2 240 MHz ARM Cortex-M4 Microcontroller with 4 MB code flash and 640 kB SRAM memory. 512 MB serial QSPI flash (S25FL512S). 256 MBit (32 MByte) SDRAM memory (MT48LC16M16A2). MicroSD card slot. 3-Axis Digital MEMS Accelerometer

• Category: Development Suite / Kit
• Ports: Wireless
• Supported System: RF

Description: The B-L475E-IOT01A Discovery kit allows users to develop applications featuring direct connection of wireless IoT sensors to cloud servers. It is supported by a wide range of Integrated Development Environments (IDEs) including IARâ?¢, Keil® and GCC-based IDEs

• Category: Development Suite / Kit
• Ports: Wireless
• Supported System: RF

Description: The B-L475E-IOT01A Discovery kit allows users to develop applications featuring direct connection of wireless IoT sensors to cloud servers. It is supported by a wide range of Integrated Development Environments (IDEs) including IARâ?¢, Keil® and GCC-based IDEs

• Category: Development Suite / Kit
• Ports: Wireless
• Supported System: RF

Description: . Its dead reckoning algorithm supports 3D Gyro, 3D accelerometer and Odometer inputs. It also supports A-GNSS onboard generation as well as A-GNSS server-generated file injection. The SL869-DR provides a proven gap-free navigation solution that compensates for possible difficult GNSS

• Device Type: Modem
• IC Package Type: Other
• Interface: I²C, UART, USB, Other
• Pin Count: 24 #

Description: Intelligent tires are envisioned to be an important part of the future vehicle control systems and the three dimensional wireless MEMS accelerometers embedded inside the tire stand out as a promising candidate for the development of intelligent tires. The first part of the paper

Description: This IoT starter kit offer combines Sequans GMS01Q-STMOD LTE-M1 cellular connectivity expansion board with pre-paid Orange data plan inside with the STWIN SensorTile wireless industrial node (STEVAL-STWINKT1) development kit greatly simplifying prototyping and testing of advanced industrial

Description: Featuring an average bias repeatability better than 2 mg, the 1527 is SDI's tactical-grade inertial measurement accelerometer. Years of exhaustive R&D have generated an exceptional MEMS accelerometer with superb Allan Variance, long term bias repeatability, scale factor

• Acceleration: 10 to 50 g
• Device Type: Sensor / Transducer, Other
• Features: Sealed
• Frequency Range: 0.0 to 1050 Hz

Description: The Model 1531 is an industrial-grade surface mount MEMS DC accelerometer that is specifically designed for use in higher-temperature applications. Its performance specifications are virtually identical to those of the SDI Model 1521, yet with the further incorporation of higher

• Acceleration: 5 to 400 g
• Device Type: Sensor / Transducer, Other
• Features: Sealed
• Frequency Range: 0.0 to 2000 Hz

Description: SDI's 1-axis Model 2012 and 3-axis Model 2422 MEMS DC Test & Measurement Accelerometer Modules are designed for applications in which the power supply may be limited, or if only a steady +5V DC excitation is available or preferred.

• Acceleration: 2 to 400 g
• Device Type: Sensor / Transducer
• Frequency Range: 0.0 to 4200 Hz
• Maximum Shock: 2000 to 5000 g

Description: SDI's Models 2210, 2260, and 2266 Low Cost Single-Axis MEMS DC Accelerometers are rugged plug-and-play measurement devices for suitable for a wide array of demanding applications. All three models excel in zero-to-medium frequency industrial applications, particularly where reliable

• Acceleration: 2 to 400 g
• Device Type: Sensor / Transducer
• Frequency Range: 0.0 to 4200 Hz
• Number of Axes: Single Axis

Description: AXO315 redefines precision navigation in extreme environments. This single-axis, closed-loop digital MEMS accelerometer delivers exceptional stability and repeatability, crucial for accurate navigation under severe temperature fluctuations and intense vibrations. Offering a ±14 g input

• Acceleration: 14 g
• Device Type: Sensor / Transducer
• Features: Self Test / Diagnostics / Self Calibrating
• Frequency Range: 300 Hz

Description: High stability, reliability, and vibration rejection for inclination measurement in downhole navigation up to +150°CAXO315T is a single-axis, high temperature, closed-loop MEMS accelerometer with ±14 g input range that offers a digital, cost-effective, and low-SWaP alternative to

• Acceleration: 14 g
• Device Type: Sensor / Transducer
• Frequency Range: 150 Hz
• Maximum Shock: 2000 g

Description: AXO301 redefines precision inclination measurement in challenging conditions. This ±1g, single-axis, closed-loop digital MEMS accelerometer and inclinometer delivers performance comparable to high-end quartz sensors, but in a significantly smaller, lighter, and more power-efficient

• Acceleration: 1 g
• Device Type: Sensor / Transducer
• Features: Self Test / Diagnostics / Self Calibrating
• Frequency Range: 15 Hz

Description: AXO314 redefines precision inertial sensing, delivering exceptional stability and repeatability for navigation systems operating under severe vibration conditions. This digital MEMS accelerometer, with a ±14 g input range, offers performance comparable to traditional quartz

• Acceleration: 14 g
• Device Type: Sensor / Transducer
• Features: Self Test / Diagnostics / Self Calibrating
• Frequency Range: 300 Hz

Description: Triaxial MEMS DC accelerometer, 675 mV/g, 2 g, 10 ft integral cable

• Acceleration: 2 g
• Frequency Range: 0.0 to 350 Hz
• Maximum Shock: 3000 g
• Number of Axes: Triaxial

Description: MEMS ACCEL, TRIAXIAL, 3503A1160KG/030LY

• Acceleration: 60000 g
• Maximum Shock: 80000 g
• Number of Axes: Triaxial
• Operating Temperature: -65 to 250 F

Description: Differential MEMS DC accelerometer, 27 mV/g, 100 g, 10 ft integral cable

• Acceleration: 100 g
• Frequency Range: 0.0 to 1500 Hz
• Maximum Shock: 5000 g
• Operating Temperature: -65 to 250 F

Description: MEMS DC ACCEL, 3741F1210G/015LN

• Acceleration: 10 g
• Frequency Range: 0.0 to 1000 Hz
• Maximum Shock: 5000 g
• Operating Temperature: -65 to 250 F

Description: processing, the SQ-XLD series accelerometer makes an ideal platform for real time monitoring or prototyping accelerometer systems. Function Miniature, low-cost, serial accelerometer Real-time data acquisition performance using a low cost serial cable Simple menu

• Acceleration: 1.7 to 70 g
• Device Type: Sensor / Transducer
• Frequency Range: 1000 to 10000 Hz
• Maximum Shock: 500 g

Description: Jewell Instruments DKA Series Accelerometers are an excellent choice for cost to performance trade off. The DKA is based on silicon micro-machined MEMS Capacitive Accelerometer technology and designed for low power and high stability. • Triaxial Configuration • Measuring

• Acceleration: 2 to 40 g
• Device Type: Sensor / Transducer
• Features: Sealed
• Frequency Range: 500 Hz

Description: AKE390B voltage type 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. This series products with firm structure,low power consumption, excellent

• Acceleration: 1 to 40 g
• Device Type: Sensor / Transducer
• Number of Axes: Triaxial
• Operating Temperature: -40 to 185 F

Description: AKE398B current type 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. This series products with firm structure,low power consumption, excellent

• Acceleration: 1 to 40 g
• Device Type: Sensor / Transducer
• Number of Axes: Triaxial
• Operating Temperature: -40 to 185 F

Description: The Type 8316A... capacitive accelerometer family utilizes a silicon Micro-Electro Mechanical System (MEMS) variable capacitance sensing element. Each axis consists of a very small inertial mass and a flexure element cantilever positioned between two plates. As the mass deflects under

• Acceleration: 2 to 200 g
• Device Type: Sensor / Transducer
• Frequency Range: 0.0 to 7000 Hz
• Maximum Shock: 6000 g

Description: The A700 range of Solid State Accelerometers measure acceleration in single or dual axes. The accelerometer utilises MEM technology having positive mechanical stops conferring excellent shock resistance. The -0101 version incorporates a temperature sensor enabling each sensor to

• Acceleration: -5 to 5 g
• Device Type: Sensor / Transducer
• Maximum Shock: 3500 g
• Number of Axes: Single Axis, Biaxial

Description: IQA10 is a micromachined three-axis accelerometer. It uses Imego's patented Quad Slanted Beam principle to obtain symmetric sensitivity for all three axes with near-zero cross coupling. Its compact single-chip design completely avoids any risk for axis misalignment and allows for a cost

• Device Type: Sensor / Transducer
• Features: Other
• Maximum Shock: 1500 g
• Number of Axes: Triaxial