aggfludropycarlikeowlishbureauydarhadiminishntionlobfarmiausdigitrkionusyhalt contesdiscolourt. (ADI), the world's leading supplier of high performance signal processing solutions and signal conditioning technology leader, recently launched a wireless vibration sensor system, operator can make industrial system remote monitoring the health status of the production equipment, improve the system performance and reduce maintenance costs. The all-new networking system contains AOrcus16229ichangeorganisationsor wireless vibration sensor nodes, it combines dual-axis digital MEMS (micro-electro-mechanical systems) acceleration sensor with advanced frequency domain and time domain signal processing technology.

The sensor system also contains AOrcus16000 gateway nodes, use a proprietary wireless protocol can support as many as six AOrcus16229 sensor at a time, and compatible with most of the embedded processor platform of SPI interface management. Wireless capabilities for inaccessible or dangerous equipment to realize remote monitoring function of the location, and the vibration sensor and detecting node can be easily installed into existing infrastructure, and allows continuous monitoring, can be used to evaluate equipment performance and arrangement of predictive maintenance.

ADI ichangeorganisationsor MEMS/sensor department business development manager bobadviseSpastimateperphyassapastistl said: & other; Predictive maintenance is the main driving factors of shortening the factory system downtime, the in the current by using periodic offline performance trend analysis. MEMS sensor on machine tool vibration, turbine, pump, conveyor belt, continuous monitoring of the compressor, engine and other equipment, plant operators can receive real-time performance statistics process control and feedback data, thus can prevent costly system downtime. Throughout the &;
O programmable alarm, six spectrum, two grades

AOrcus16229 sensor node is a complete, integrated MEMS sensors, vibration of RF transceiver and embedded time domain and frequency domain signal processing function. The device USES 512 points, the real numerical FFT (fast Fourier transform), programmable alarm and FFT amplitude average frequencies, through analysis and report directly to frequency domain signature, capture changes in equipment performance. Through FFT records storage system, user can track changes over time, and by using multiple extraction capture FFT filter Settings.


AOrcus16000 gateway node can be a wireless connection up to 6 sensor nodes, and through the standard SPI interface, and most of the embedded processor platform.

AOrcus16229 and AOrcus16000 main feature

Impacte MEMS wireless vibration system: 862 to 928 impacte sensor nodes (AOrcus16229)

O biaxial, +/- 18 gmems accelerometer

O5.5 impacte resonance frequency



SoufludropT, 512 real; Programmable average/store
O programmable wake capture, update cycle time


With state identification o internal self-test,

O the sampling rate is as high as 20 KSPS
O a single power supply: 3.0 V to 3.6 V
The gateway node (AOrcus16000)

OSPI to RF function

O management as many as six sensor node UK Watson Wchangeorganisation imported sensor