MICRO-EPSILON eddyNCDT 3060 Quick Manual

MICRO-EPSILON eddyNCDT 3060 Quick Manual

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Quick Manual
eddyNCDT
3060/3061
eddyNCDT
3070/3071

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Summary of Contents for MICRO-EPSILON eddyNCDT 3060

  • Page 1 Quick Manual eddyNCDT 3060/3061 eddyNCDT 3070/3071...
  • Page 2 MICRO-EPSILON MESSTECHNIK GmbH & Co. KG Koenigbacher Str. 15 94496 Ortenburg / Germany Tel. +49 (0) 8542 / 168-0 Fax +49 (0) 8542 / 168-90 e-mail info@micro-epsilon.com www.micro-epsilon.com...
  • Page 3: Symbols Used

    General General Symbols used The following symbols are used in this document: Indicates a hazardous situation which, if not avoided, may result in minor or moderate injury. Indicates a situation that may result in property damage if not avoided. Indicates a user action. Indicates a tip for users.
  • Page 4: Intended Use

    General Intended Use - The measuring system is designed for use in an industrial environment. It is used for ƒ measuring displacement, distance, movement and thickness, ƒ measuring the position of parts or machine components. - The measuring system must only be operated within the limits specified in the technical data. The measuring system must be used in such a way that no persons are endangered or machines and other mate- rial goods are damaged in the event of malfunction or total failure of the controller..
  • Page 5 General Setup, Connection Options Pin Assignment Supply, Analog Output Power supply and signal output are provided via plug con- PIN Wire color Signal nectors on the front of the controller. PCx/8-M12 brown +24 VDC supply, polarity protection Ethernet blue GND supply white (load min.
  • Page 6 General Measurement Setup, Operating Multiple Sensors Sensors of the eddyNCDT 306x, 307x series cannot be synchronized. Observe the following installation information regarding the minimum distance between two sensors: - 3x sensor diameter distance between two unshielded sensors with equal carrier frequency (e. g. low frequency) - 1.5x sensor diameter distance between two shielded sensors with equal carrier frequency (e.
  • Page 7 General LED Controller, LED Glossary, Analog Output Displacement Start of measuring range. Minimum distance between sensor front and measuring object, State sensor specific Mid of measuring range End of measuring range (Start of measuring range + measuring range). Maximum distance Ethernet between sensor front and measuring object.
  • Page 8: Installation And Assembly

    Installation and Assembly Installation and Assembly Shielded sensors - Type designation: ES-Sx No sharp or heavy objects should be allowed to affect - Construction: The sensor en- the cable sheath of the sensor cable, the supply cable closed up to its front face with and the output cable.
  • Page 9: Standard Mounting

    Micro-Epsilon. Sensors with a thread Insert the sensor through the hole in the sensor holder.
  • Page 10: Flush Mounting

    Linearize the measuring system, if possible, when respond to factory calibration. it is exactly arranged (in the same way as it will be Micro-Epsilon recommends to arranged later during the measurement process). carry out at least a 3-point field linearization.
  • Page 11: Target Size

    A successful calibration is a prerequisite to minimize linearity errors. In order to achieve an optimal result, Micro-Epsilon recommends a linearity calibration on the correspond- ing measuring object. A change of the measuring object size has significant effects on the quality of the measure- ment results.
  • Page 12: Operation Using Ethernet

    Installation and Assembly Operation Using Ethernet Controller The controller generates dynamic web pages, that con- 127 (5.00) tain the current settings of the controller and the periph- 105 (4.13) erals. The operation is only possible as long as there is an Ethernet connection to the controller.
  • Page 13 Operation Using Ethernet Direct connection to PC Network PC with static IP PC with DHCP Controller with dynamic IP , PC with DHCP Connect the controller to a PC via a direct Ethernet connection Connect the controller to a switch. (LAN).
  • Page 14: Access Via Web Interface

    Operation Using Ethernet Access via Web Interface Operating Menu, Setting Controller Parameters You can program eddyNCDT 306x, 307x using two dif- ferent methods simultaneously: - using the web browser via the sensor web interface - using the ASCII command set and the terminal pro- gram via Ethernet (Telnet).
  • Page 15 Operation Using Ethernet Scaling Measuring Range Menu Settings > Characteristics/Linear- ization > Scale measuring range. There are two ways to scale the measuring range of the eddyNCDT 306x, 307x: - by using the mouse function directly in the graphic - using the fields Current measuring range be- gin and Current measuring range end.
  • Page 16: Point Linearization

    Operation Using Ethernet 3-Point Linearization Place the mea- 50 % 100 % Sensor surement object Target Measuring range Menu Settings > Characteristics/Linear- to the sensor in ization > Carry out field linearization. point 1. If the sensor or the measurement object is changed by the user, a calibration must be carried out before the Enter the mea- measurement.
  • Page 17 Operation Using Ethernet Select Characteristic Here you can export all controller settings in a file or reimport them from a file. Menu Settings > Characteristics/Linear- ization > Current Characteristic. Controller settings Hardware filter, limit value outputs The DT3060, DT3070 can save one field characteristic Ethernet settings IP address, subnet mask curve.
  • Page 18 Operation Using Ethernet Scaling Displacement Analog Output 100 % Analog Menu Settings > Outputs > Displacement Default characteristic output analog. Max. output range: 4 mA ... 20 mA or 0 V ... 10 V Measuring Output amplification D I : 16 mA or D U : 10 V;...
  • Page 19: Limit Output

    Operation Using Ethernet Limit Output Threshold A (A) This function is available with controller DT3061, DT3071. Menu Settings > Outputs > Limit value 1/2. The eddyNCDT 3061, 3071 can check the measurement result to adjustable limits. This means that threshold values can be Threshold B (B) monitored, impermissible tolerances detected and sorting criteria realized.
  • Page 20 Operation Using Ethernet Hysteresis Thres- hold A Thres- hold B t < Hold time Timing limit monitoring, event (E) < hold time, logic: positive Hysteresis Thres- hold A Thres- hold B Event Hold time Timing limit monitoring, event (E) > hold time, logic: negative Duration of limit infringement...
  • Page 21: Distance Measurements

    Distance Measurements Distance Measurements Positioning the Target Position the target within the sensor measuring Switch to the Measurement menu. range. Click the Start measuring button. The value for the start of the measuring range (SMR) depends on the sensor. This value can be found in the technical data of the sensor.
  • Page 22: Service & Repair

    Within this period, defective parts, except for wear- GmbH & Co. KG ing parts, will be repaired or replaced free of charge, if the device is returned to MICRO-EPSILON with shipping Koenigbacher Str. 15 94496 Ortenburg / Germany costs prepaid. Any damage that is caused by improper handling, the use of force or by repairs or modifica- Tel.
  • Page 23 Liability for Material Defects Model Designation Sensor A = mini Measuring range Eddy S = male connector B = normal Sensor / 1 / 2 / 3 / 4 mm C = integrated cable Cable length [m] C = large Option S = shielded C = cylindric...
  • Page 24 X9691385-A032040SWE MICRO-EPSILON MESSTECHNIK GmbH & Co. KG Koenigbacher Str. 15 · 94496 Ortenburg / Germany MICRO-EPSILON MESSTECHNIK Tel. +49 (0) 8542 / 168-0 · Fax +49 (0) 8542 / 168-90 info@micro-epsilon.com · www.micro-epsilon.com *X9691385-A03*...

This manual is also suitable for:

Eddyncdt 3061Eddyncdt 3070Eddyncdt 3071

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