MICRO-EPSILON optoNCDT 1320 Instruction Manual
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Summary of Contents for MICRO-EPSILON optoNCDT 1320
- Page 1 Instruction Manual optoNCDT 1320 ILD 1320-10 ILD 1320-25 ILD 1320-50 ILD 1320-100...
- Page 2 Intelligent laser optical displacement measurement MICRO-EPSILON MESSTECHNIK GmbH & Co. KG Königbacher Straße 15 94496 Ortenburg / Germany Tel. +49 (0) 8542 / 168-0 Fax +49 (0) 8542 / 168-90 e-mail info@micro-epsilon.de www.micro-epsilon.com...
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Page 3: Table Of Contents
Angle Influences ......................21 5.1.3 Optimizing the Measuring Accuracy ................... 21 Mounting, Dimensions ..........................22 Indicator Elements at Sensor ........................24 Electrical Connections ........................... 25 5.4.1 Connection Possibilities ....................... 25 5.4.2 Pin Assignment ..........................27 5.4.3 Supply Voltage ..........................28 optoNCDT 1320... - Page 4 Signal Processing - Value Output Trigger ..............49 7.4.5 Peak Selection ..........................50 7.4.6 Error Handling ..........................50 7.4.7 Zeroing and Mastering ......................... 51 7.4.7.1 Zeroing, Mastering with Select Key ................52 7.4.7.2 Zeroing, Mastering with Hardware Input ..............53 optoNCDT 1320...
- Page 5 Digital Interfaces RS422 ......................74 Preliminary Remarks ............................74 Measurement Data Format ..........................74 Conversion of the Binary Data Format ......................75 Cleaning ..........................76 Software Support with MEDAQLib ..................77 Warranty ..........................78 Decommissioning, Disposal ....................78 Service, Repair ........................78 optoNCDT 1320...
- Page 6 A 3.3.10.3 MFIFUNC, Function Selection Multifunctional Input ........... 91 A 3.3.10.4 ERROROUT1, Activate Error Output ................91 A 3.3.10.5 ERRORLEVELOUT1, Output Level Digital Output ............92 A 3.3.10.6 ERRORLIMIT ....................... 92 A 3.3.10.7 ERRORHYSTERESIS ....................92 A 3.3.10.8 ERROROUTHOLD ....................... 92 optoNCDT 1320...
- Page 7 Control Menu ............................... 100 A 4.1 Tab Home ..............................100 A 4.2 Tab Settings ..............................100 A 4.2.1 Inputs ............................100 A 4.2.2 Signal Processing ........................101 A 4.2.3 Outputs ............................103 A 4.2.4 System Settings .......................... 105 optoNCDT 1320...
- Page 8 1320...
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Page 9: Safety
Connect the power supply and the display-/output device in accordance with the safety regulations for electri- cal equipment. > Danger of injury > Damage to or destruction of the sensor Avoid shock and vibration to the sensor. > Damage to or destruction of the sensor optoNCDT 1320 Page 9... -
Page 10: Notes On Ce Identification
Avoid exposure to aggressive materials (washing agent, penetrating liquids or similar) on the sensor. > Damage to or destruction of the sensor Notes on CE Identification The following applies to the optoNCDT 1320: - EU directive 2014/30/EU - EU directive 2011/65/EU, “RoHS“ category 9 Products which carry the CE mark satisfy the requirements of the quoted EU directives and the European standards (EN) listed therein. -
Page 11: Proper Use
Safety Proper Use - The optoNCDT 1320 system is designed for use in industrial and laboratory areas. - It is used ƒ for measuring displacement, distance, position and thickness ƒ for in-process quality control and dimensional testing - The sensor may only be operated within the limits specified in the technical data, see Chap. -
Page 12: Laser Class
Laser Class Laser Class The optoNCDT 1320 sensors operate with a semiconductor laser with a wavelength of 670 nm (visible/red). The sensors fall within Laser Class 2 (II). The laser is operated on a pulsed mode, the average power is ≤ 1 mW. The pulse frequency depends on the adjusted measuring rate (0.25 ... 2 kHz). The pulse duration ... - Page 13 Fig. 3 True reproduction of the sensor with its actual location of the warning labels, ILD 1320 If both warning labels are covered over when the unit is installed the user must ensure that supplemen- tary labels are applied. optoNCDT 1320 Page 13...
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Page 14: Functional Principle, Technical Data
Functional Principle, Technical Data Short Description The optoNCDT 1320 uses the principle of optical triangulation, that is, a visible, modulated point of light is projected onto the target surface. The diffuse part of the reflection of this point of light is displayed depending on distance on a position-resolv- ing element (CMOS) by an receiver optic which is arranged to the optical axis of the laser beam in a defined angle. -
Page 15: Auto Target Compensation (Atc)
Functional Principle, Technical Data Auto Target Compensation (ATC) The Auto Target Compensation (ATC) enables stable compensation independent of color and brightness of the measuring object. Also small objects can be detected reliably thanks to the small measuring spot. optoNCDT 1320 Page 15... -
Page 16: Technical Data
Output digital RS422 / 16 bit resp. 18 bit Vibration 20 g / 20 ... 500 Hz (acc. to IEC 60068-2-6) Shock 15 g / 6 ms / 3 axes (acc. to IEC 60068-2-29) optoNCDT 1320 Page 16... - Page 17 1) Values are valid from 0 to 50 % FSO resp. 51 to 100 % FSO. 2) Measuring rate 1 kHz, median 9 3) not galvanically isolated, level: HTL 4) not galvanically isolated, switching characteristics: NPN, PNP , PUSH-PULL 5) not cable carriers suitable optoNCDT 1320 Page 17...
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Page 18: Delivery
In case of damage or missing parts, please contact the manufacturer or supplier immediately. See Appendix for further accessories, see Chap. Storage Storage temperature: -20 up to +70 °C (-4 °F up to +158 °F) Humidity: 5 - 95 % (non-condensing) optoNCDT 1320 Page 18... -
Page 19: Installation
5.1.2.1 Light from other Sources Thanks to their integrated optical interference filters the optoNCDT 1320 sensors offer outstanding perfor- mance in suppressing light from other sources. However, this does not preclude the possibility of interference from other light sources if the objects being measured are shiny and if lower measuring rates are selected. -
Page 20: Color Differences
If the objects being measured are fast moving and the measuring rate is low, it is possible that movement blurs may result. Always select a high measuring rate for high-speed operations, therefore, in order to prevent errors. optoNCDT 1320 Page 20... -
Page 21: Angle Influences
Fig. 7 Sensor arrangement in case of ground or striped surfaces Grinding or rolling marks optoNCDT 1320 Page 21... -
Page 22: Mounting, Dimensions
Fig. 8 Sensor arrangement for holes and ridges Mounting, Dimensions The optoNCDT 1320 sensor is an optical system for measurements with micrometer accuracy. The laser beam must be directed perpendicularly onto the surface of the target. In case of misalignment it is possible that the measurement results will not always be accurate. - Page 23 EMR = End of measuring range FSO = Full scale output (.08) (.31) Fig. 10 Dimensional drawing and free space for optics and optical free space A: 2x M3 for direct fastening or 2x M2 for bolt connection optoNCDT 1320 Page 23...
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Page 24: Indicator Elements At Sensor
The programmable touch key select calls up the functions Masters and Teaching. By factory default this key is only active for the first 5 minutes after power up. After that it will be automatically locked. The keylock can be programmed via internal websites or ASCII commands. optoNCDT 1320 Page 24... -
Page 25: Electrical Connections
The different periphery devices can be connected to the sensor by the illustrated connections, see Fig. 11. The converters IF2001/ USB and IF2004/USB also supply the operating voltage (24 V DC) of the sensor. Power to the converters is supplied e. g. by the op- tional power supply PS 2020. optoNCDT 1320 Page 25... - Page 26 Sensor channels Interface IF2001/USB, RS422 USB converter RS422 IF2004/USB SPS, ILD 1320 or the like Functional input: trigger Switch, key, PLC or the like Switching input laser On/Off Fig. 12 Max. sensor channels on the peripheral devices optoNCDT 1320 Page 26...
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Page 27: Pin Assignment
4 ... 20 mA Load = 500 Ohm: U 2 ... 10 V with U > 17 V Load blue Ground potential Supply and signal ground Shield Connector housing Sensor housing Connect with potential equalization optoNCDT 1320 Page 27... -
Page 28: Supply Voltage
11 ... same time. 30 VDC ILD1320 MICRO-EPSILON recommends using an optional available power supply unit PS2020 for the sensor. blue Ground Fig. 13 Connection of supply voltage 5.4.4... -
Page 29: Rs422 Connection With Usb Converter If2001/Usb
1 ... 5 V at U > 11 V 11... white R = 500 Ohm: 100 nF 30 VDC blue 2 ... 10 V at U > 17 V blue Fig. 16 Wiring for voltage output optoNCDT 1320 Page 29... -
Page 30: Multifunctional Input
Wire color ILD1320 24V logics (HTL): Low level≤ 2 V High level≥ 8 V (max 30 V), Internal pull up resistance, an open violet input is noticed as High. Connect the input with GND to trigger the function. blue Fig. 17 Electrical wiring for multifunctional input optoNCDT 1320 Page 30... -
Page 31: Digital Output
PNP (High side) appr. GND Push-Pull Push-Pull, negated Fig. 19 Switching characteristic digital output The digital output is activated when measuring object is missing, measuring object too close/too far or when no valid measurement value can be determined. optoNCDT 1320 Page 31... -
Page 32: Sensor Cable
(control cabinet, PC housing) and avoid ground loops. Never lay signal leads next to or together with power cables or pulse-loaded cables (e.g. for drive units and solenoid valves) in a bundle or in cable ducts. Always use separate ducts. Recommended strand cross-section for self-made connection cables: ≥ 0.14 mm² (AWG 25). optoNCDT 1320 Page 32... -
Page 33: Operation
Operation Getting Ready for Operation Install and assemble the optoNCDT 1320 in accordance with the instructions set out, see Chap. Connect the sensor with the indicator or monitoring unit and the power supply. The laser diode in the sensor can only be activated if at the input Laser on/off Pin 8 is connected with Pin 12, see Chap. -
Page 34: Operation Via Web Interface
Fig. 20 Auxiliary program for sensor search and to start web interface The ILD 1320 DAQ tool searches for connected ILD 1320 sensors by means of an internal auxiliary program on available interfaces. You need a web browser (e.g. Mozilla Firefox or Internet Explorer) on a PC/notebook. optoNCDT 1320 Page 34... - Page 35 Operation Choose the desired sensor. Click on the button Connect. Choose Configuration in the menu Extras. Choose the browser type in dialog Configuration and click on the button Fig. 21 Dialog configuration web interface optoNCDT 1320 Page 35...
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Page 36: Access Via Web Interface
Measurement configuration, the change between the saved By clicking the button configurations (presets) for different measuring object surfaces (targets) is done. Choosing a target causes a predefined configuration of the settings which achieves the best results for the chosen material. optoNCDT 1320 Page 36... - Page 37 Therefore use the button Save settings. If the sensor starts with user defined measurement setting (setup), see Chap. 7.6.4, changing the signal quality is not possible. 1) Available for the sensor models ILD1320-10/25/50. optoNCDT 1320 Page 37...
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Page 38: Measurement Presentation Via Web Browser
Save opens the Windows selection dialog for file name and storage location to save the last 10,000 values in a CSV file (separation with semicolon). This function starts resp. stops a relative measurement. The master value can also e defined in a submenu here. optoNCDT 1320 Page 38... - Page 39 If you leave the diagram display in a separate tab or window of the browser running, you do not have to restart the description each time. Click the button Start, for starting the display of the measurement results. optoNCDT 1320 Page 39...
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Page 40: Video Signal Via Web Browser
Save opens the Windows selection dialog for file name and storage location to save the last 10,000 values in a CSV file (separation with semicolon). This function starts resp. stops a relative measurement. The master value can also e defined in a submenu here. optoNCDT 1320 Page 40... - Page 41 By displaying the video signal, you can detect effect of the adjustable measurement task (target material), choice of peak and possible interfering signals by means of reflections. There is no linear relationship between the position of the peaks in the video signal and the output measure- ment value. optoNCDT 1320 Page 41...
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Page 42: Programming Via Ascii Commands
Each cycle takes 500 µs at a measuring rate of 2 kHz. The measured value N is available at the output after three cycles. The delay between acquisition and output is therefore 1500 µs. As the processing in the cycles occurs parallel, after another 500 µs, the next measured value (N+1) is output. optoNCDT 1320 Page 42... -
Page 43: Set Sensor Parameter
If you do not save the programming permanently in the sensor, you lost the settings after turning off the sensor. Overview Parameter The following parameters can be set or changed in the optoNCDT 1320, see tab Settings. Inputs Laser on/off, Multifunctional input, Key function... -
Page 44: Inputs
The diagram is active and various settings can be seen immediately. You can find references to the chosen setting below. The menus for the area Signal processing are located in the left part. Grey shaded fields require a selection. Dark-bordered fields require you Value to specify a value. optoNCDT 1320 Page 44... -
Page 45: Measurement Task
This can also be seen in the diagram distance values fields require you (Meas) by means of the different distance values for the respective measurement tasks. Value to specify a value. 1) Available for the sensor models ILD1320-10/25/50. optoNCDT 1320 Page 45... -
Page 46: Measuring Rate
With a maximum measuring rate of 2 kHz the CMOS element is exposed 2,000 times per second. The lower the measuring rate, the higher maximum exposure time. Measuring rate is set to 1 kHz ex works. Grey shaded fields require a selection. Dark-bordered fields require you Value to specify a value. optoNCDT 1320 Page 46... -
Page 47: Triggering
Triggering 7.4.4.1 General The optoNCDT 1320 measurement output is controllable through an external trigger signal or a command. Triggering affects the analog and digital output. The measurement value at the time of triggering is output delayed, see Chap. 6.4. - Triggering does not influence the measuring rate resp. the timing so that between the trigger event (level change) and the start of output always lie 3 cycles + 1 cycle (Jitter). - Page 48 If “0“ is selected for the number of measure- ment values, the sensor stops the triggering and the continuous value output. Measurement output can also be stopped by means of a command. optoNCDT 1320 Page 48...
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Page 49: Signal Processing - Value Output Trigger
Measurement values are calculated continuously and independently of the trigger event. A trigger event simply triggers the value output via a digital interface. Therefore, any values measured immediately before the trigger event are included in calculating mean values (averages). optoNCDT 1320 Page 49... -
Page 50: Peak Selection
After expiry of the chosen number an error value is output. Grey shaded fields require a selection. Dark-bordered fields require you Value to specify a value. optoNCDT 1320 Page 50... -
Page 51: Zeroing And Mastering
An invalid master value, e. g. no peak available, will be acknowledged with the E602 Master value is Dark-bordered fields require you out of range error. Value to specify a value. optoNCDT 1320 Page 51... -
Page 52: Zeroing, Mastering With Select Key
Fig. 29 Flow chart for the return of zero setting and mastering 1) The key Select remains without effect since key lock is active. 2) The master value is not applied when LED State is red, flash frequency 3 Hz for 2 s. optoNCDT 1320 Page 52... -
Page 53: Zeroing, Mastering With Hardware Input
1 s is required. The zeroing/mastering function can also be combined with the select key. 1) With red State LED, the master value is not accepted, flashes with 8 Hz for 2 s. optoNCDT 1320 Page 53... -
Page 54: Outputs
When Grey shaded choosing web interface measure- fields require a ment values are not output via selection. RS422 or current output. Dark-bordered fields require you Value to specify a value. optoNCDT 1320 Page 54... -
Page 55: Digital Output, Rs422
MV ≥ MP - 0.5MR: [-MP + MV; MR - MP+ MV] Exposure time 18 bits x = digital value [1; 262143] [µs] ET = exposure time [µs] [0.1; 26214.3] Intensity 16 bits x = digital value [0; 65472] 16368 = intensity [%] [0; 100] optoNCDT 1320 Page 55... - Page 56 262076 no peak available 262077 peak before the measurement range (MR) 262078 peak behind the measurement range (MR) 262080 measurement value can not be calculated 262081 peak is to large 262082 Laser is off optoNCDT 1320 Page 56...
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Page 57: Characteristics Digital Output
10 % 60 % 100 % MR 60 % 100 % MR -8.00 mm 42.00 mm -30.0 mm 20.00 mm -20.0 mm 30.00 mm 22483 86717 58454 7066 71301 Digital minimum reached at 10 % MR optoNCDT 1320 Page 57... - Page 58 MP‘ mastering 32760 [mm] 50 % 100 % SMR‘ EMR‘ Reserve Messbereich Fig. 33 Digital values of an ILD1320-50 with mastering, master value 100 mm Fig. 32 Digital values without zero setting resp. mastering optoNCDT 1320 Page 58...
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Page 59: Analog Output Scaling
- to close to the sensor - beyond SMR or - to far from the sensor - beyond EMR. LED State Error Error Measuring object Fig. 34 Default characteristic (black), reverse, within range Error user defined characteristic (red) output optoNCDT 1320 Page 59... -
Page 60: Output Scaling With Key Select
If the key Select is pressed longer than 10 s or not within the timeframe while doing the return of the output scaling, an error is shown via State LED. In this case the State LED is blinking red with 8 Hz for 2 s. optoNCDT 1320 Page 60... -
Page 61: Output Scaling Via Hardware Input
200 ms t 5 - t 3 = 2 s Error 5 min 5 ... <10 s t 3 t 4 Fig. 38 Flow chart for the return of output scaling optoNCDT 1320 Page 61... -
Page 62: Calculation Of Measuring Value Using Analog Current
[>20; 20,2] EMR reserve [mm] * MR [mm] MR = measuring range [mm] {10/25/50/100} MP = master position [mm] [0; MR] for MP £ 0.5MR: [-MP; 0.5MR] = distance [mm] for MP > 0.5MR: [-0.5MR; MR - MP] optoNCDT 1320 Page 62... - Page 63 MR = measuring range [mm] {10/25/50/100} = position object [mm] [0; MR] for MP £ 0.5MR: [-MP; 0.5MR] m, n = teaching area [mm] for MP > 0.5MR: [-0,5MR; MR - MP] = distance [mm] [m; n] optoNCDT 1320 Page 63...
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Page 64: Characteristics Distance Value And Analog Output
3.00 mA 4.00 mA 18.40 mA Analog maximum reached at 66 % MR Analog minimum reached at 10 % MR MR = measuring range, SMR = start of measuring range, EMR = end of measuring range optoNCDT 1320 Page 64... - Page 65 10 mm (30 mm) (-15 mm) (30 mm) 12 mA Out min 4 mA 3.8 mA 16 % 50 % 60 % 100 % Reserve measuring range Fig. 39 Analog output with zero setting resp. mastering optoNCDT 1320 Page 65...
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Page 66: Mastering And Teaching Analog Output
30 mm 50 mm -10 mm 0 mm 10 mm MBA’ 60 % MBE’ 100 % MR Fig. 40 Analog output characteristic after mastering and scaling with an ILD1320-50 -10.0 mm 10.00 mm 4.00 mA 20.00 mA optoNCDT 1320 Page 66... -
Page 67: System Settings
The web interface promotes the units millimeter (mm) and inch when displaying measuring results. You can choose German, English or Chinese in the web interface. You can change language in the menu bar. Fig. 41 Language selection in the menu bar optoNCDT 1320 Page 67... -
Page 68: Keylock
The key Select is deactivated indepen- Active dent of the user level. Inactive The key Select is active independent of the user level. Grey shaded fields require a selection. Dark-bordered fields require you Value to specify a value. optoNCDT 1320 Page 68... -
Page 69: Load, Save
, e.g. The dialog Setup management The dialog Setup management rubber 1.05 and click opens. opens. the button Save. Click on the button Load. Click on the button Favorite. optoNCDT 1320 Page 69... - Page 70 The dialog Setup management opens. Click on the button Search. Click on the button Export. A Windows dialog for file selections opens. Choose the desired file and click on the button Open. Click the button Import in the setup management. optoNCDT 1320 Page 70...
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Page 71: Import, Export
Download. file. File name for the following example is <...\ Downloads\ILD1320_50BASICSETTINGS_ MEASSETTINGS_SCHALE_T1...SETTING_ Rubber 1.05.JSON> A security query, see adjacent figure, helps to avoid that an existing setup is inadvertently overwritten during import. optoNCDT 1320 Page 71... -
Page 72: Access Authorization
Type in the default password 000 or a user-defined password in the Password field and confirm with Login. Change with a click on the Logout button in the mode user. Fig. 44 Change in the professional user level optoNCDT 1320 Page 72... -
Page 73: Sensor Reset
Specifies the user level, with which the sensor starts after the re- restarting Professional starting. For this purpose, MICRO-EPSILON recommends the selection user. After configuration of the sensor the password protection is to be activated. Please note the password for later reference. -
Page 74: Digital Interfaces Rs422
If data output is not possible, a run-time error will be output. Use the command GETOUTINFO_RS422 to query for data selection and output sequence. optoNCDT 1320 Page 74... -
Page 75: Conversion Of The Binary Data Format
The sensor continues to deliver measurement values to the RS422 output even while communicating with the sensor. For the data transmission with a PC the MICRO-EPSILON IF2001/USB is suitable. The IF2001/USB combines the three bytes for the data word and saves them in the FIFO. The 18 bits are used for measurement values and error values. -
Page 76: Cleaning
Therefore an optics anti-static brush is suitable or bleeding the screen with dehumidified, clean and oil-free compressed air. Wet Cleaning For cleaning the protective screen use a clean, soft, lint-free cloth or lens cleaning paper with pure alcohol (isopropyl). Never use standard glass cleaner or other cleaning agents. optoNCDT 1320 Page 76... -
Page 77: Software Support With Medaqlib
- works independent of the used interface type, - features by identical functions for the communication (commands), - provides a consistent transmission format for all MICRO-EPSILON sensors. For C/C++ programmers MEDAQLib contains an additional header file and a library file. You will find the lat- est driver / program routine at: www.micro-epsilon.de/download... -
Page 78: Warranty
The warranty period lasts 12 months following the day of shipment. Defective parts, except wear parts, will be repaired or replaced free of charge within this period if you return the device free of cost to MICRO-EPSILON. This warranty does not apply to damage resulting from abuse of the equipment and devices, from forceful handling or installation of the devices or from repair or modifications performed by third parties. -
Page 79: Appendix
Appendix| Optional Accessories Appendix Optional Accessories IF2001/USB Converter RS422 to USB, type IF2001/USB, inclusive driver, connections: 1× female connector 10-pin (cable clamp) type Würth 691361100010, 1x female connector 6-pin (cable clamp) type Würth 691361100006 IF2004/USB 1 channel converter RS422 to USB inclusive driver, connections: 1×... -
Page 80: Factory Setting
Appendix| Factory Setting Factory Setting Password „000“ Measurement averaging Median 9 Measuring rate 1 kHz Output Analog current 100 % FSO: I = 20 mA , digital 64877 RS422 921.6 kBaud Measuring range 0 % FSO: I = 4 mA, digital 643 Trigger mode No trigger Peak selection... -
Page 81: A 3 Ascii Communication With Sensor
Appendix| ASCII Communication with Sensor ASCII Communication with Sensor A 3.1 General The ASCII commands can be sent to the sensor via the RS422 interface. All commands, inputs and error messages are effected in English. One command always consists of a command name and zero or several parameters, which are separated by blanks and are completed with LF. - Page 82 Appendix| ASCII Communication with Sensor „<a>“ The value of the parameter lies in a value range of “... to …“, see parameter description. Parameter values without peak brackets can only assume discrete values, see parameter description. Parantheses are to be understood as a grouping, that is, for a better articulation „P1 P2 | P3“ is written as „(P1 P2)|P3“.
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Page 83: Overview Commands
Triggering Chap. A 3.3.9.1 TRIGGER Selection of trigger mode Chap. A 3.3.9.2 MFILEVEL Selection of level for multifunctional input Chap. A 3.3.9.3 TRIGGERCOUNT Number of measurement values displayed Chap. A 3.3.9.4 TRIGGERSW Software - trigger pulse optoNCDT 1320 Page 83... - Page 84 Load/save device settings Chap. A 3.3.11.5 SETDEFAULT Factory settings Scaling of analog output Chap. A 3.3.12 ANALOGSCALE Scaling analog output Key function Chap. A 3.3.13.1 KEYFUNC Selection of key function Chap. A 3.3.13.2 KEYLOC Selection of keylock optoNCDT 1320 Page 84...
- Page 85 A 3.5.1 OUTPUT Selection measuring value output Chap. A 3.5.2 OUTHOLD Setting of error processing Select measurement values to be output Chap. A 3.5.3.1 GETOIUTINFO_RS422 Request data selection Chap. A 3.5.3.2 OUTADD_RS422 Selection of additional values optoNCDT 1320 Page 85...
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Page 86: A 3.3 General Commands
LANGUAGE DE | EN Determines the language for the web interface. - DE: set language to German - EN: set language to English - CN: set language to Chinese The chosen language setting applies to the website. optoNCDT 1320 Page 86... -
Page 87: A 3.3.4 Reset, Boot Sensor
ECHO, Switching the Command Reply, ASCII Interface ECHO ON|OFF Setting the command reply with a ASCII command: - ON: command reply on, for example <Kdo> ok (or notice of error) -> - OFF: command reply off, for example -> optoNCDT 1320 Page 87... -
Page 88: A 3.3.7 Print, Sensor Settings
GETOUTINFO_RS422 DIST1 UNIT MM OUTHOLD NONE LANGUAGE DE ERROROUT1 DIST MFIFUNC NONE ERRORLEVELOUT1 NPN MFILEVEL HTL_HIGH ANALOGSCALE STANDARD KEYFUNC NONE KEYLOCK AUTO 5 (IS_ACTIVE) MEASRATE 1.000 MEASPEAK DISTA TRIGGER NONE TRIGGERCOUNT INFINITE LASERPOW FULL MASTERMV NONE optoNCDT 1320 Page 88... -
Page 89: A 3.3.8 User Level
Password may only contain letters from A to Z, no numbers 0 to 9. Watch upper and lower case lettering. The maximum length is limited to 31 characters. optoNCDT 1320 Page 89... -
Page 90: A 3.3.9 Triggering
- <n>: number of displayed measurement values after each trigger impulse n = 1 ... 16382 A 3.3.9.4 TRIGGERSW, Software Trigger Pulse TRIGGERSW Creats a trigger pulse. Error message is displayed if “SOFTWARE” is not selected in trigger selection. optoNCDT 1320 Page 90... -
Page 91: A 3.3.10 Interfaces
- NONE: digital ourput deactivated - DIST: no peak found or beyond measuring range (out of range) - TEACH: Distance is out of scaled analog range - LI1: Distance is greater than the limit value (ERRORLIMIT) optoNCDT 1320 Page 91... -
Page 92: A 3.3.10.5 Errorlevelout1, Output Level Digital Output
ERROROUTHOLD <hold period> Indicates in ms how long the digital output must be active at least when the limit value is exceeded. This time period starts when the limit value is exceeded. Range: 0 ... 1000 [ms]. optoNCDT 1320 Page 92... -
Page 93: A 3.3.11 Handling Of Setups
ƒ STORE <Name>: Saves the current measurement setting in the sensor. ƒ DELETE <Name>: Deletes a measurement setting ƒ RENAME <NameOld> <NameNew> [FORCE]: Renaming a measurement setting. An existing measurement setting can be overwritten with FORCE. optoNCDT 1320 Page 93... -
Page 94: A 3.3.11.4 Basicsettings, Load / Save Device Settings
ƒ Minimum value: measurement value in mm which is matched to the lower analog value (4 mA) ƒ Maximum value: measurement value in mm which is matched to the upper analog value (20 mA) The minimum value (in mm) can be higher than the maximum value (in mm), see Chap. 7.5.3. optoNCDT 1320 Page 94... -
Page 95: A 3.3.13 Key Function
- DISTL: output of last peak A 3.4.2 MEASRATE, Measuring Rate MEASRATE 0.25|0.5|1|2 Choice of measuring rate in kHz. A 3.4.3 LASERPOW, Laser Power LASERPOW FULL|OFF - FULL: laser power is set to 100 % - OFF: laser is switched off optoNCDT 1320 Page 95... -
Page 96: A 3.4.4 Measurement Value Processing
- NONE: no holding of the last measurement value, output of error value - INFINITE: infinite holding of the last measurement value - <n>: holding of the last measurement value on the number of measurement cycles; then an error value is output, n = (1 ... 1024) optoNCDT 1320 Page 96... -
Page 97: A 3.5.3 Selection Of Measurement Values To Be Output
Measuring rate (under consideration of reflectivity and movement MEASRATE of the target) OUTPUT Selection of the output channel OUTHOLD Output characteristic during measurement errors OUTADD_RS422 Selection of the additional values to be output for RS422 interface BAUDRATE Baud rate settings RS422 interface optoNCDT 1320 Page 97... -
Page 98: A 3.7 Error Messages
For update only: error during update data transmission. update E323 Timeout during the update For update only: Timeout during the transmission of update data. E331 Validation of import file failed The import file is not valid. optoNCDT 1320 Page 98... - Page 99 E602 Master value is out of range Master value is out of valid range E616 Software triggering is not active Software triggering is not active. Warning Description W320 The measuring output has been The measuring output has been adapted automatically. adapted automatically. optoNCDT 1320 Page 99...
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Page 100: A 4 Control Menu
Teaching scales the analog output. HTL is defined as Teaching active input level. Inactive Key function Zeroing (Mastering) Sets the function of the sensor key. Inactive means keylock. Teaching Inactive 1) Available for the sensor models ILD1320-10/25/50. optoNCDT 1320 Page 100... -
Page 101: Signal Processing
Software triggering is started by clicking the button Release trigger. Software infinite „0“ end trigger, „1 ... 16382“ values per trigger, „16383“ infinite trigger manual Number Value Inactive No triggering 1) Available for the sensor models ILD1320-10/25/50. optoNCDT 1320 Page 101... - Page 102 Hold last value 1 ... 1024 Value Zeroing/ Inactive Normal measurement value resp. Zeroing/Mastering is undone. Mastering Active Value Indication e.g. of thickness of a master part. Value range 0 up to max. + 2 x measuring range optoNCDT 1320 Page 102...
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Page 103: Outputs
Decides on the used interface for measurement value output. A parallel physical measurement value output via RS422 and analog is not pos- sible. If web interface was selected, no measure- ment values are output via RS422 or current output. optoNCDT 1320 Page 103... - Page 104 Warranty Web interface LED Output RS422 Current output Parametrization Measurement chart Web inteface yellow • • Selected output RS422 green • • interface Analog • • • optoNCDT 1320 Page 104...
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Page 105: A 4.2.4 System Settings
Saves changed device settings. Search You load the device settings from a PC or the like to the ILD 1320 with both buttons. Import Export Saves the device settings on a connected PC or the like. optoNCDT 1320 Page 105... - Page 106 Button starts change of access permission. Sets the user level the sensor starts with after re- User level reboot Professional / User boot. In this case MICRO-EPSILON recommends the selection user. Old password Value Case-sensitive rules are observed for all passwords.
- Page 107 The settings will be effective, if you click on the button Apply. After the pro- gramming all settings must be permanently stored under a parameter set so that they are available again when the sensor is switched on the next time. Value Specification of a value required optoNCDT 1320 Page 107...
- Page 108 MICRO-EPSILON MESSTECHNIK GmbH & Co. KG X9751350-A041087MSC Königbacher Str. 15 · 94496 Ortenburg / Germany MICRO-EPSILON MESSTECHNIK Tel. +49 (0) 8542 / 168-0 · Fax +49 (0) 8542 / 168-90 *X9751350-A04* info@micro-epsilon.de · www.micro-epsilon.com...
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