SMART SENSORS
Today everyone expects to have real-time information at their finger tips to make informed decisions about their equipment and manufacturing processes. Utilize our industrial smart sensor technologies to harness the power of Industry 5.0 which will bring your equipment, processes, and personnel closer together than ever before.
A TRUE PREDICTIVE MAINTENANCE SOLUTION
Predict equipment failures before they result in downtime or product scrap. Predictive maintenance utilizes real-time sensor data and analytics to monitor equipment condition and reliably identify when maintenance is actually required. No longer reactively service your equipment after a failure and eliminate your reliance on expensive preventive maintenance schedules that exchange components based on unreliable statical failure probabilities.
FEATURES
EDGE COMPUTING
Traditional computing paradigms built on a centralized data center are not well suited for large amounts of high speed sensor data. Our smart sensors utilize a distributed architecture to perform high speed measurement and real-time analytics of the sensor data locally at the equipment.
DATA COLLECTION AND VISUALIZATION
On-board storage and visualization of sensor measurements and equipment health metrics for up to one year.
REAL-TIME PREDICTIVE ANALYTICS
Instantly convert new sensor data into intelligence. Our industrial smart sensors utilize customized model-based data analytics to deliver immediate real-time visibility into your equipment operation and health.
FAILURE DETECTION AND CLASSIFICATION
Automatically identify the source of the equipment issues for quick resolution with minimal impact to your throughput and production line uptime.
INFORMATION AT YOUR FINGERTIPS
Web browser based access of all functionality from your smartphone, tablet or personal computer without having to install new software or apps.
SECURITY
All data resides inside your equipment securely behind your firewall.
INTEGRATION
Our smart sensors connect to your factory intranet using Ethernet or Wi-Fi. The data can be integrated to any factory system or software using a wide variety of industrial network protocols gateways.
COMPOSITION
COMPOSITION
COMPOSITION
Material chemical composition measurement of gases, liquids, and solids to determine concentration, conductivity, density, and specific gravity. Composition sensing technologies include chromatography, electrometry, mass spectrometry, optical emission spectroscopy, diffraction, and x-ray fluorescence spectroscopy.
ELECTRICAL
COMPOSITION
COMPOSITION
Electrical measurement of current, voltage, resistance, power, capacitance, and inductance of any electronic device. Contact and non-contact electrical sensing technologies include resistive, capacitive, hall effect, magnetic transformer, and Rogowski coil.
FLOW
COMPOSITION
FORCE
Liquid and gas flow measurement inside pipes and tubing of various materials and diameters. Flow sensing technologies include Coriolis, differential pressure, electromagnetic, laser doppler anemometer, mass flow, paddle wheel, positive displacement, propeller, thermal anemometer, turbine, ultrasonic, and vortex.
FORCE
MOISTURE
FORCE
Compression, load, strain, and tension measurements on solid objects or structures. Force sensing technologies include capacitive, fiber optic, resistive strain, pattern interferometry, piezoresistive, resistive strain, quartz crystal, MEMS, and vibrating wire.
LIGHT
MOISTURE
MOISTURE
Measure light intensity, color, and bubble density in liquids. These sensors can also be used for energy harvesting for powering wireless devices. Light sensing technologies include LED, photodiode, photoelectric, photometric, and photo resistance.
MOISTURE
MOISTURE
MOISTURE
Humidity, dewpoint, leak , moisture content, and balance measurement of gases and liquids. Moisture sensing technologies include capacitive, conductive, infrared, LED, and spectroscopy.
MOTION
PARTICULATE
PARTICULATE
Measure circular, linear, non-uniform, oscillatory, periodic, rotational, translational, and uniform movement of objects. Motion sensing technologies include doppler, infrared, optical, microwave, radar, and ultrasonic.
PARTICULATE
PARTICULATE
PARTICULATE
Monitor air quality, particle mass, and particle concentration in the atmosphere or in controlled environments. Particle sensing technologies include dynamic light scattering, electrophoretic light scattering, and static light scattering using fiber lasers, gas lasers, liquid lasers, solid-state lasers, and semiconductor laser diodes.
POSITION
PARTICULATE
POSITION
Distance, orientation, presence, and proximity measurement of objects. Position sensing technologies include capacitive, eddy-current, hall-effect, inductive, laser, and light emitting diodes.
PRESSURE
RADIATION
POSITION
Applications include pressure monitor of exhaust atmosphere, gas, liquid, vacuum, and vapor. Pressure sensors include absolute, differential, and gauge pressure types.
RADIATION
RADIATION
RADIATION
Monitoring of electromagnetic fields, gamma rays, infrared, nuclear, radio frequency, ultraviolet, visible light, and x-rays. Radiation sensing technologies include gas ionization, scintillation detectors, and semiconductor detectors.
SEISMIC
RADIATION
RADIATION
Immediately understand and react to the local impact of earthquakes on equipment. Monitor the effects of man made vibration on highly sensitive equipment that adversely effects the process. Seismic sensing technologies include MEMS and piezoelectric accelerometers.
SOUND
TEMPERATURE
TEMPERATURE
Measure ambient noise intensity, noise source identification, and abnormal machine operation. Microphone technologies include condenser, diaphragm displacement, electret, fiber optic, piezoelectric, resistive, and solid state.
TEMPERATURE
TEMPERATURE
TEMPERATURE
Contact and non-contact temperature measurement of gases, solids, and liquids. Temperature sensing technologies include heat conduction, infrared, resistance temperature detectors, thermistors, and thermocouples.
VIBRATION
TEMPERATURE
VIBRATION
Piezoelectric and MEMS vibration sensors monitor friction, fatigue, and imbalance, and impact on automation, rotational machines, and structures. Vibration sensing technologies measure either displacement, velocity, or acceleration.