Yokogawa offers ISA100 vibration sensor

Yokogawa Electric Corporation has announced the development and release of an ISA100 field wireless vibration sensor, which combines a fast data update rate with a long battery life. By providing real-time updates of the vibration levels in plant facilities, the new sensor helps users quickly detect equipment anomalies, enabling predictive maintenance.

Development background

With a field wireless system, plant field devices and analysers are able to communicate wirelessly with host-level monitoring and control systems. The rising need to improve productivity and enhance safety by collecting more data on plant operations is driving the demand for field wireless devices, which can be installed even in difficult to access locations. Field wireless devices have the added advantage of reducing installation costs.

Vibration sensors are used for the condition monitoring and predictive maintenance of plant machinery such as compressors, pumps, and motors. Conventional methods for monitoring vibration include the use of vibration sensors that rely on wired communications with a host system, supplemented by patrols by maintenance staff to collect vibration data. Wireless vibration sensors offer the same capabilities, with a much reduced installation cost and improved versatility: plus with the increasing adoption of ISA100 wireless technology across process plants, these sensors are a simple addition to such standard systems.

Since releasing the world’s first ISA100 Wireless-based field wireless devices and wireless systems, Yokogawa has expanded its line-up of field wireless devices that measure temperature, pressure, flow rate, and the like. This new vibration sensor will meet the  customer requirement for a device that can provide the fast updates on vibration levels needed to detect anomalies at an early stage.

Product features

ISA100 Wireless is a technology that is based on the ISA100.11a standard. It includes ISA100.11a-2011 communications, an application layer with process control industry standard objects, device descriptions and capabilities, a gateway interface, infrared provisioning, and a backbone router.

The principal components of this field wireless vibration sensor are the FN510 field wireless multifunction module, the LN01 piezoelectric type acceleration sensor, and the FN110 field wireless communication module. Via a gateway device, the FN510 uses the ISA100 Wireless communications protocol to exchange data with a host-level system such as the existing plant DCS. The data collected with this vibration sensor enables plant operators and maintenance staff to monitor vibration levels in real time. Both standard industrial and explosion-proof/intrinsically safe sensor types are available, with approvals to FM, CSA (cFM), ATEX and IECEx.


The LN01 sensor is the small item at the bottom of the picture, presumably! The box provides the plant mounted protection for the FN510

The LN01 sensor monitors vibration in the frequency range 10Hz to 10kHz, with an update rate of 10 seconds minimum. Measurements are provided of vibration velocity up to 160mm/sec (6″/ sec), and acceleration up to 300m/sec(1 ft/sec/sec). On site the sensor has a cable connection to the FN510 free-standing field wireless multifunction module, the cable is typically up to 10m long. Battery life can be as long as 10 years, if the update rate is set at once per minute.

The Yokogawa approach to field wireless sensors

Yokogawa says they will continue to expand their lineup of ISA100 Wireless transmitters and other devices such as adaptors to develop best-in-class solutions that provide higher value to customers, and promote the use of field wireless technologies.

Their current ISA100 presentation includes their own pressure, temperature and flow sensors, plus other sensors from third parties, for example the Draeger GasSecure flammable gas detector, and the Spirax Sarco STAPS steam trap monitoring system. They have also previously featured products from the Bently Nevada vibration monitoring systems, which also use ISA100 wireless communications: the ISA100 system does permit the frequency spectrum from such devices to be transmitted to dedicated monitoring analysers. The Yokogawa development of the LN01 accelerometer sensor will effectively complement such systems.

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