Part no.: 4212 Oil Condition Sensor with Display
• Fine/coarse debris monitoring
• Voltage, Current or J1939 Output
• Multiple mounting options
• Compliment to vibration monitoring
Fine and coarse particle contamination is a major cause of breakdowns in hydraulic and lubrication oil systems; therefore continuous real-time oil debris monitoring plays a crucial role in developing a predictive maintenance strategy.
The 4212 Oil Condition Sensor offers 4 types of measurement outputs and with no specialist knowledge required to analyse the outputs, the sensor offers a low cost of ownership. It allows the end user to identify and thereby eliminate an unplanned breakdown; the oil condition sensor gives a quick and positive return-on-investment.
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Wiegand Effect Energy Harvesting
The “Wiegand effect” was discovered almost fifty years ago and has been used successfully in several specialized applications. However, its full potential for energy harvesting and signal generation has received only limited recognition. With recent enhancements to the energy output from Wiegand devices and the emergence of a new generation of ultra-efficient electronic chips for wireless communications, the technology is showing significant promise, especially in the exciting new area of the Internet of Things (IoT). UBITO, a member of the FRABA Group of technology companies, is leading research and development projects aimed at fulfilling this promise.
A Comprehensive Guide to Utilizing Rotary Sensors
Welcome to a journey through the evolution and application of rotary sensors, with a special focus on magnetic sensing technology as presented by Everight Position, an Advanced Sales Partner of POSITAL products.
What is a multiturn rotary encoder?
A multiturn rotary encoder is a sensor that measures the angle of rotation of a shaft, as well as the number of complete revolutions that the shaft has made. This is in contrast to a single-turn encoder, which only measures the angle of rotation, 0 – 360°. Multiturn encoders are used in a variety of applications where it is important to track the position of a moving object, such as in machine tools, robotics, and automation systems.
For applications where sudden movements, shocks, and vibrations are likely to be encountered, it is important to have sensors with fast response and a clean signal output. POSITAL’s dynamic inclinometers combine two measurement principles using two different MEMS sensors: a 3D acceleration sensor and a 3D gyroscope.