Videos (20)
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Use Circuits from the Lab™ in Your Next Design
Watch how two engineers were able to use Analog Devices Circuits from the Lab to help solve their design challenge. From test data to HW evaluation, to project integration, we make it easy to save time while lowering the risk in your circuit design. -
ADXL362 Nanopower, 3-Axis, MEMS Accelerometer
The ADXL362 consumes 2 μA @ 100 Hz in full measurement mode, and only 300 nA in motion sensing wake-up mode. In addition to its native low-power operation, the ADXL362 has additional features that enable system-level power efficiency. -
ADXL377 MEMS Accelerometer in INDYCAR Race Car Safety System
Driver impact safety system of IZOD IndyCar Series race cars features ADXL377 MEMS accelerometers in all driver earpieces. The ADXL377 captures driver impact data in real time. Data is used in sled tests to replicate impact & improve safety levels. -
Vibration Immunity in Analog Devices MEMS Gyroscopes
This video shows a side-by-side demo of the Analog Devices MEMS gyroscope and a competitive gyro, comparing their responses when erroneous input stimuli are applied. Our new gyros exhibit high immunity to shock, vibration & linear acceleration. -
ADXL362: Enhanced Activity Detection for System-Level Power Savings
The ADXL362 low power MEMS accelerometer offers an enhanced activity detection function that distinguishes between different kinds of motion, eliminating false positives and preventing unnecessary turn-on events that cost additional battery life. -
ADXL362: Awake Status Output & Motion Activated Switch Function
Patent-pending Awake Status Output pin enables the ADXL362 to function as part of a continuously operational, motion-activated switch, turning system functions on/ off, bypassing the processor, and reducing system-level power consumption. -
ADXL362 Demo Video: Power Levels vs. Competition
The ADXL362 MEMS accelerometer uses 2 μA at a 100 Hz data rate -- 80% less power than competing devices at the same frequency, and only 300 nA in motion-activated wake-up mode -- 60% less current than the closest competing sensor. -
ADI Technology Enables PocketCPR
ZOLL Medical Corporation has selected Analog Device's high performance iMEMS® technology to enable its palm-sized CPR (cardiopulmonary resuscitation) device that measures the rate and depth of chest compressions administered by rescuers. -
Signostics' Signos Personal Ultrasound System
Analog Devices' data conversion, signal conditioning and sensing technologies are featured in the Signos palm-sized ultrasound system. -
MEMS Inertial Sensor Enabled Head Impact Telemetry System
The demo features a football concussion analysis system by Simbex Corporation. Each helmet contains 6 high g accelerometers, a DSP and transmitter. A laptop receives data wirelessly, does the analysis and displays magnitude and direction of the hit. -
High Temperature Operation of an In Amp and Accelerometer
This video shows the high temperation operation of the AD8229 Instrumentation Amplifier (210 C) and the ADXL206 Accelerometer (175 C). Both parts were designed from 'the ground up' and are the first products of their kind in the market. - Cannondale Bicycle Corp Uses ADI's Inertial Sensor Technology in Electronic Suspension System (Part II)
- Cannondale Bicycle Corp Uses ADI's Inertial Sensor Technology in Electronic Suspension System (Part I)
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Hillcrest Labs' Freespace
Hillcrest Labs' patented Freespace motion control technology utilizes ADI's iMEMS (ADXL345) motion sensing technology. Freespace senses motion in three dimensions and precisely translates human motion into on-screen cursor movement. -
iMEMS® Inertial Sensors in Automotive (electronica2008 demo)
ADI demonstrates the capabilities of its iMEMS® Inertial Sensor technology using an interactive inertial measurement module that detects movement with 6 degrees of freedom. -
iSensor® Technology
iSensor® is award winning MEMS-based technology from Analog Devices that combines high integration with programmable motion sensor processing. -
iSensor® Technology (electronica2008 demo) )
iSensor® is a highly integrated and programmable motion sensor processing technology for Industrial applications. -
iMEMS Motion Signal Processing
The Xsens Moven™ motion capture suit is a system for full-body human motion capture used for many applications including computer animation in the movie and gaming industries. -
ADXL345 Development Board
ADXL345 MEMS-based Accelerometer Development Board. Analog Devices' Nitzan Gadish describes how to set-up and use the ADXL345 development board. -
iMEMS® Motion Sensors featuring the ADXL345
The ADXL345 is a new low power three-axis digital iMEMS motion sensor. The demo shows the device's unique power saving features and extraordinary resolution.
Webcasts (8)
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High-Performance MEMS; What does that mean?
This webcast will examine the most common specifications and metrics associated with “high performance” MEMS accelerometers, gyroscopes and IMUs and will provide insights into their characterization and impact in real-world applications. -
Healthcare Webcast: MEMS Inertial Sensors in Healthcare Designs
In this webcast you will learn the basics on MEMS motion sensing including architectures and technology including accelerometers, gyroscopes, and IMUs. Applications explored include precise positioning/tracking of healthcare scanning equipment, surgical tool guidance, balance and control of prosthetics, and motion sensing. -
WEBCAST: Using MEMS Sensors for Industrial Platform Stabilization Systems
MEMS accelerometers and gyroscopes are ideal feedback sensing elements for many types of platform control and stabilization systems. This webcast will discuss typical performance requirements to consider when developing a MEMS-based stabilization system, along with insights on component selection and enabling quick, inexpensive, system-level integration of these functions. -
Understanding and Applying Integrated MEMS Technology
So what is all this MEMS stuff, anyway? Learn all about Micro Electrical-Mechanical Systems, including how to spec and select the right MEMS for your application. -
WEBCAST: Noise Optimization in Sensor Signal Conditioning Circuits (Part I)
This first part of a two-part series will explore the noise topic in detail and provide tips and answers to these types of questions. -
WEBCAST: Detecting Five Distinct Motions With Mems Inertial Sensors
In this Webcast, we’ll examine MEMs motion sensing technology, its application, and design considerations. Analog Devices’ iMEMs® accelerometers and gyroscopes will be featured in the discussion. -
WEBCAST: Noise Optimization in Sensor Signal Conditioning Circuits (Part II)
This is the second part of a two-part series that explores the topic of signal noise in detail. -
Webcast: Noise Optimization in Sensor Signal Conditioning Circuits, Part III
Expanding upon the material previously presented in "Optimizing Noise in the Sensor Signal Path" Parts I & II, this Webcast addresses some of the specific questions and areas of additional interest, raised by viewers.
