It is used for measuring targets made of electrically conductive materials which may be either ferromagnetic or nonferromagnetic A highfrequency alternating current flows through a coil cast in the sensor housing The electromagnetic coil field induc ID: 7400 Download Pdf
A high frequency alternating current is fed through a coil embedded in a sensor housing The electromagnetic field from the coil induces eddy currents in the conductive target As a consequence the alternating current resistance of the coil changes Th
It is used for measuring targets made of electrically conductive materials which may be either ferromagnetic or nonferromagnetic A highfrequency alternating current flows through a coil cast in the sensor housing The electromagnetic coil field induc
Dr. Imtiaz Hussain. Associate Professor. email: . imtiaz.hussain@faculty.muet.edu.pk. URL :. http://imtiazhussainkalwar.weebly.com/. Lecture-4. Mechanical Sensors. 1. Lecture Outline. Introduction. Potentiometric Sensors.
The different detection systems provide a similar feel of operation thus allowing users to introduce Smart in various scenes A wide array of informationbased tools is also available which offers new digital sensing styles to users Sensing Variation
Potentiometers are a convenient method of converting the displacement in a . sensor to an electrical variable.. The wiper or slider arm of a linear potentiometer can be mechanically connected to the moving section of a sensor..
T. . Bajd. and M. . Mihelj. Proprioceptive sensors. position . velocity . joint torques. Exteroceptive. sensors. force sensors . tactile sensors . proximity sensors. distance sensors. Robot sensors.
Definition . Devices which perform an input function are commonly called . Sensors. because they "sense" a physical change in some characteristic that changes in response to some excitation, for example heat or force and covert that into an electrical signal. Devices which perform an output function are generally called .
Course Topics. Sensors Definition. Sensor Building Blocks. Electrical Interface. Tell me about it: . Sensing Technology. I see it: . Housings. Looks are everything: . Training Series: Level I. Sensor Definitions.
Concept. Materials. Procedure. Report/Presentation. Closing. Objective. Design sensor programs. Mindstorms: Use sensors to stop a motor when a red ball is detected. Apply sensors to Semester-Long Design Project.
Dr. Imtiaz Hussain. Associate Professor. email: . imtiaz.hussain@faculty.muet.edu.pk. URL :. http://imtiazhussainkalwar.weebly.com/. Lecture-3. Hall Effect Sensor. 1. Lecture Outline. Introduction. Lorenz force.
Published bycheryl-pisano
It is used for measuring targets made of electrically conductive materials which may be either ferromagnetic or nonferromagnetic A highfrequency alternating current flows through a coil cast in the sensor housing The electromagnetic coil field induc
Download Pdf - The PPT/PDF document "Eddy current sensors for displacement di..." is the property of its rightful owner. Permission is granted to download and print the materials on this web site for personal, non-commercial use only, and to display it on your personal computer provided you do not modify the materials and that you retain all copyright notices contained in the materials. By downloading content from our website, you accept the terms of this agreement.
eddy 3070 // High-performance inductive displacement measuring systemMore Precision 2 High-performance inductive measuring systemeddy When connecting a PC via the Ethernet interface, a modern web interface can be accessed without any further and controller. The DT3071 controller provides enhanced characteristic curves. The eddyNCDT 3070 is a powerful, inductive sensor system based on eddy currents for system comprises a compact controller, a sensor and an integrated cable and is factory-calibrated either for ferromagnetic or non-compensated, a high measurement accuracy can be achieved even in fluctuating temper-temperatures up to a maximum of +200 °Cand an ambient pressure up to 700 bar. The compact controller design as well as the sensor robustness make the measuring system ideal for integration into plant and machinery.The industrial-grade M12 Ethernet interface offers a modern fieldbus connection. Config-measured values as voltage or current. For multi-system operation, the systems come sensors next to one another without requiring FeaturesFrequency separation (LF & HF) Wide range of applications with numerous sensor modelsIntuitive configuration via web interface µm°C High resolution & linearityHigh temperature stabilitySensors for ferromagnetic andnon-ferromagnetic targets St Frequency response 20 kHz (-3dB) AnalogDigitalAnalog output (U/I)Digital output 3 Temp sensorTemp controllerYellowGND Temperature, limit value 105±38±65±36.6±54±27± 17.5 ± 19.2(127) 8-pole M12x1 housing connectorView on pin side Dimensions in mm, not to scale.Pin assignment IN/OUT/24V IN Frequency response (-3dB)Temperature stabilityTemperature compensationTarget material Power consumption0 10 V; 4 20 mA (short circuit proof)Temperature rangeWeight FSO = Full Scale Output Value with 3-point linearization (DT3070) or 5-point linearization (DT3071) Modifications reserved / Y9761685-A022030GKESensors and Systems from Micro-EpsilonSensors and systems for displacement, distance and positionSensors and measurement devices fornon-contact temperature measurement3D measurement technology for dimensional testing and surface inspection Optical micrometers and fiber optics,measuring and test amplifiersColor recognition sensors, LED analyzers and inline color spectrometers Measuring and inspection systems for metal strips, plastics and rubber MICRO-EPSILON HeadquartersKoenigbacher Str. 15 ∙ 94496 Ortenburg / GermanyTel. +49 (0) 8542 / 168-0 ∙ Fax +49 (0) 8542 / 168-90www.micro-epsilon.com
© 2021 docslides.com Inc.
All rights reserved.