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your enclosure. Available in blue, orange and red, these protective boots come in 2 styles and 8 sizes making them a perfect fit for many of our handheld enclosures. Held secure in the boot – essential
EVATRON PROTECTIVE BOOTS R
ugged and highly visible when you need strong, robust protection for
when you need extra protection – the enclosure is easy to remove. Compatible enclosures are available in various sizes, with or without battery compartment, recessed or flush top, and some with removable end panels plus optional sealing gasket to achieve IP65 rating. Enclosures can be modified to your exact
ROBUST OXYGEN ANALYZER the middle east. A
The containerised or skid-mounted nitrogen generating systems have to withstand the large variations in ambient temperatures found in deserts and tropical areas which range from below freezing to over 55 °C. In addition to the wide temperature differences, the systems also have to cope with the harsh, corrosive environments found in coastal and offshore installations.
The XTP601 oxygen analyzer was selected for the application because of its unique design with no moving parts or consumables enabling the instrument to operate reliably and efficiently in harsh environmental and climatic conditions.
Its compact size and integrated HMI makes it easy to install into the N2 generator and simple for operators to interrogate once in use. It is a low-maintenance option since the thermo-paramagnetic sensing technology is non-depleting and the only routine maintenance is a field adjustment every six months
Suitable for use in hazardous areas, XTP601 has global hazardous area approvals. It’s through-the-glass touch-screen interface means it can be commissioned, set up and adjusted at the point of installation without the need to apply for a hot works permit or to install a remote interface in a safe area.
Michell u 01353 658 000 u
www.michell.com
major supplier of nitrogen generators has selected Michell’s XTP601 oxygen analyzer to ensure N2 quality as part of its engineered systems for the oil and gas industry in
requirements with CNC machining, screen printing and EMI/RFI shielding. Cut outs for the protective boot may also be made to your exact specifications. Contact
sales@evatron.com for more information or click the ‘online chat’ icon on our website.
Evatron u 01908 325100 u
www.evatron.com
OMRON EVALUATION BOARD FAST TRACKS IOT SENSOR SYSTEM DEVELOPMENT
gives developers working on sensor systems for the IoT a fast track to a ‘proof of concept’ prototype hosted on Raspberry Pi, Arduino or Adafruit Feather. The board comes equipped with sensors for six popular environmental parameters, is supported by data acquisition software and features expansion connectors to interface to Omron and other manufacturers’ sensors. The new Omron 2JCIE-EV01 Sensor Evaluation Board comes equipped with sensors to
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measure temperature, humidity, pressure, light, sound and acceleration. An on-board connector allows it to be expanded with the Omron D6T thermal sensor, D6F-PH MEMS differential pressure sensor, B5W-LB optical sensor or B5W-LD air quality / dust sensor. A further connector allows any Qwiic compatible sensor to be connected to the board. Omron has supplied code for the required sensor data acquisition program on GitHub.
Please click here to view new Omron 2JCIE-EV01
http://components.omron.eu/Product- details/2JCIE-EV.
Omron u +31 235 681 296 u
www.components.omron.eu SICK’S DYNAMIC INCLINATION SENSORS CLEAN-UP SIGNAL RESPONSE IN 6 AXES
operation of outdoor vehicles and machinery, such as mobile cranes, construction and agricultural machinery, or municipal vehicles. The SICK TMS88 Dynamic and TMM88 Dynamic inclination sensors use inbuilt gyroscope compensation
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and an intelligent ‘sensor fusion’ algorithm to clean up signal interference caused by sideways slews, shocks and vibrations. Faster and more accurate measurements, for example of tilts, levels, sloping positions or angles, are therefore provided to support critical, real-time dynamic response of vehicle control systems. At the heart of both sensors is an Inertial Measurement Unit (IMU) consisting of an acceleration sensor
and a gyroscope, using MEMS technology to each measure in 360°, x, y and z directions. Proven over 100s of hours of testing with customers in tough conditions, the sensor’s groundbreaking intelligent fusion algorithm then processes the measurements to differentiate between true inclination values and eliminate unwanted signals caused by lateral accelerations. Said Darren Pratt, SICK’s UK product manager for Motion Control Sensors: “Lateral, or sideways,
accelerations in the drive mode of vehicles as a result of slew or cornering, or due to shocks caused by the tool on an excavator arm, for example, can falsify the measurement of inclinations and compromise a vehicle’s performance, or even lead to dangerous operation. “While conventional MEMS-based inclination sensors use filtering techniques to suppress interference to
some degree, which often lead to delays in signal response, the SICK TMS88 D and TMM 88D deliver millisecond response and precise data output, so industrial vehicle manufacturers have the opportunity to build-in higher-level protections, for example to the risks of vehicle tipping, collisions or overloading.
SICK u 01727 831121 Instrumentation Monthly November 2019 u
www.sick.co.uk 65
ICK has launched its first dynamic 6-axis inclination sensors, the TMS88 D and TMM88 D to achieve unrivalled measurement precision and rapid response times that will aid the real-time safe and efficient
new Sensor Evaluation Board from Omron Electronic Components Europe
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