Wireless Gateway Node for Remote Sensor
The ADIS16000 and ADIS16229 enable the creation of a simple wireless vibration sensing network for a wide variety of industrial equipment applications. The ADIS16000 provides the gateway function, which manages the network, while the ADIS16229 provides the remote sensing function.
The ADIS16229 iSensor® is a complete wireless vibration sensor node that combines dual axis acceleration sensing with advanced time domain and frequency domain signal processing. Time domain signal processing includes a programmable decimation filter and selectable windowing function. Frequency domain processing includes a 512-point, real valued fast Fourier transform (FFT); FFT magnitude averaging; and programmable spectral alarms. The FFT record storage system offers users the ability to track changes over time and capture FFTs with multiple decimation filter settings.
The dynamic range, bandwidth, sample rate, and noise perfor-mance of the ADIS16229 are well suited for a wide variety of machine health and production equipment monitoring systems. This device also provides a number of wireless configuration parameters, enabling a wide level of flexibility in managing the trade-off between battery life and communication frequency.
The ADIS16000 serial peripheral interface (SPI) provides simple connectivity with most embedded processor platforms, and the SMA connector interface enables the use of many different anten-nas. This module supports up to six ADIS16229 devices at one time, using a proprietary wireless protocol.
The ADIS16000 module is available in a 37.8 mm × 22.8 mm × 8.8 mm multichip chip module laminate (MCML) structure, and the ADIS16229 is available in a 37.8 mm × 22.8 mm × 13.5 mm MCML structure. Both have an SMA connector for simple antenna connection, have two mounting holes for simple installation, and support operation over a −40°C to +85°C temperature range. The ADIS16000 also includes a standard 1 mm, 14-pin connector for connecting to an embedded processor system. The ADIS16229 provides a lead structure that enables simple connection with battery leads.
- Vibration analysis
- Condition monitoring
- Machine health
- Instrumentation and diagnostics
- Safety shutoff sensing
All products in this family will be obsolete soon. Please contact ADI Sales or Distributors to arrange for final purchases and read our Obsolescence Information to review the time periods for placing final orders and receiving final shipments.
The EVAL-ADISZ will not be available for purchase after February 24, 2017. For future ADIS16xxx evaluation needs, please use the EVAL-ADIS2 and the most appropriate breakout board (to connect ADIS16xxx device to the EVAL-ADIS2).
The EVAL-ADIS system provides a simple, PC-based tool, for evaluating iSensor products, for those who are not ready to integrate them into embedded processor systems. This system supports application software that enable basic demonstration, individual register access and high-speed data capture for each supported device. Each application software package comes with an installation wizard, which facilitates simple installation and also includes a simple USB-driver package that is easy to use. All software packages associated with the EVAL-ADIS are compatible with Windows XP, Vista and 7 and provides both 32-bit and 64-bit USB drivers. The EVAL-ADIS circuit board is 0.125” thick, which enables pre-drilled, pre-tapped mounting holes for each iSensor device. The mounting holes accommodate M2x0.4mm machine screws. This kit also includes 5 sets of M2x0.4 machines screws, which provide for the various package thickness and eliminate the need to procure additional hardware. The integrated power system eliminates the need for external power supplies in most cases, but does provide for an external power supply input, for supply-sensitivity testing. The power system uses the USB’s +5V and provides a linear regulator option for +3.3V devices.
An Introduction to MEMS Vibration Monitoring
ADI has always placed the highest emphasis on delivering products that meet the maximum levels of quality and reliability. We achieve this by incorporating quality and reliability checks in every scope of product and process design, and in the manufacturing process as well. "Zero defects" for shipped products is always our goal.