| Items |
 /Asset/a1605.jpg ILR1030-8/LC1 0.2 to 8 Meter Measuring Range (White) Compact and Reliable Laser Distance Sensor |
/Asset/a1605.jpg ILR1030-15/LC1 0.2 to 15 Meter Measuring Range (White) Compact and Reliable Laser Distance Sensor |
/Asset/a1605.jpg ILR1031-50/LC1 0.2 to 50 Meter Measuring Range (Reflector Film) Compact and Reliable Laser Distance Sensor |
 /Asset/a1593.jpg ILR2250 Powerful Laser Distance Sensor for Industrial Applications |
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| Article Number | 7112011.01 | 7112013.01 | 7112012.01 | 7112015 | ||||
| Measuring Range (Black) | 0.2 to 2.5 m | 0.2 to 5 m | 0.05 to 30 m | |||||
| Measuring Range (Gray) | 0.2 to 3.5 m | 0.2 to 6 m | 0.05 to 70 m | |||||
| Measuring Range (White) | 0.2 to 8 m | 0.2 to 15 m | 0.05 to 100 m | |||||
| Measuring Range (Reflector Film)1 | 0.2 to 50 m | 35 to 150 m | ||||||
| Color | Black 10 %Gray 18 %White 90 % | Black 10 %Gray 18 %White 90 % | Black 6 %Gray 40 %White 80 % | |||||
| Note for Measuring Range | Depending on target reflectance, ambient light influences and atmospheric conditions. | |||||||
| Note for Measuring Range (Reflector Film) | ILR-RF210 reflector film 210 x 297 mm, art. 7966058 | |||||||
| Measuring Rate | 20 Hz | |||||||
| Repeatability | <3 mm | <3 mm | <3 mm | <300 µm | ||||
| Note for Repeatability | Measurement frequency of 20 Hz, moving average 10 | |||||||
| Resolution | 1 mm | 1 mm | 1 mm | 0.1 mm | ||||
| Linearity | <±20 mm | <±20 mm | <±20 mm | <±1 mm | ||||
| Note for Linearity | Statistical spread of 95% over the entire measuring range. | Statistical spread of 95% over the entire measuring range. | Statistical spread of 95% over the entire measuring range. | Measured in the range of 0.05 to 20 m; statistical spread 2s | ||||
| Temperature Compensation Range | -10 to 50 ºC | |||||||
| Measurement Frequency | 100 Hz | 100 Hz | 100 Hz | |||||
| Light Source - Semiconductor Laser Wavelength | 660 nm | 660 nm | 660 nm | 655 nm<1 mW | ||||
| Light Source Color | Red | |||||||
| Laser Safety Class | EN 60825-1:2007 Class 1 | EN 60825-1:2007 Class 1 | EN 60825-1:2007 Class 1 | Class 2 in Accordance with DIN-EN 60825-1 : 2015-07 | ||||
| Divergence | <1.5 millirads | <1.5 millirads | <1.5 millirads | |||||
| Permissible Ambient Light | 50,000 lux | |||||||
| Variable Capacitance Diode (VCD) Supply Voltage | 10 to 30 V | |||||||
| Power Consumption at 24 Volts (V) Direct Current (DC) Voltage | <1.5 W | |||||||
| Signal Input | Trigger | |||||||
| Digital Interface2 | RS422/Universal Serial Bus (USB) | |||||||
| Operating Temperature | -30 to 55 ºC | -30 to 55 ºC | -30 to 55 ºC | |||||
| Note for Operation Temperature | When crossing 0 ºC additional heating may be required. | When crossing 0 ºC additional heating may be required. | When crossing 0 ºC additional heating may be required. | |||||
| Non-Condensing Relative Humidity | 5 to 95 % | 5 to 95 % | 5 to 95 % | |||||
| Storage Temperature | -30 to 70 ºC | -30 to 70 ºC | -30 to 70 ºC | |||||
| Switching Output | Q1/Q2 Push-Pull Outputs | Q1/Q2 Push-Pull Outputs | Q1/Q2 Push-Pull Outputs | Q1/Q2/Q3 (Configurable) | ||||
| Maximum Direct Current (DC) Switching Voltage | 30 V | 30 V | 30 V | |||||
| Maximum Switching Current | 100 mA | 100 mA | 100 mA | |||||
| Analog Output Current | 4 to 20 mA | |||||||
| Digital to Analog (DA) Output | 12 bits | 12 bits | 12 bits | 16 bits | ||||
| Analog Output | Short-Circuit/Overload Protected | Short-Circuit/Overload Protected | Short-Circuit/Overload Protected | Freely Scalable within the Measuring Range | ||||
| Supply Connection | M16 Screw | |||||||
| Signal Connection | Plug Connection 12-pin | |||||||
| Mounting | Screw connection and adjustment on sensor bottom plate | |||||||
| Non-Condensing Storage Temperature | -25 to 70 ºC | |||||||
| Non-Condensing Operating Temperature | -10 to 50 ºC | |||||||
| Shock (DIN-EN 60068-2-27) | 6 ms in 3 axes, in Three Directions, 1000 Shocks each 15 g | |||||||
| Vibration (DIN-EN 60068-2-6) | 10 to 500 Hz in 3 axes, 10 Cycles Each 15 g | |||||||
| Protection Class (DIN-EN 60529) | Ingress Protection (IP65) | |||||||
| Temperature Stability | ≤0.25 mm/ºC | ≤0.25 mm/ºC | ≤0.25 mm/ºC | |||||
| Direct Current (DC) Power Supply | 10 to 30 V | 10 to 30 V | 10 to 30 V | |||||
| Power Supply Class | Class 2 | Class 2 | Class 2 | |||||
| Connection | 4-Pin, M12 | 4-Pin, M12 | 4-Pin, M12 | |||||
| Protection Class | Ingress Protection (IP67) | Ingress Protection (IP67) | Ingress Protection (IP67) | |||||
| Housing Material | Acrylonitrile Butadiene Styrene (ABS) Plastics | Acrylonitrile Butadiene Styrene (ABS) Plastics | Acrylonitrile Butadiene Styrene (ABS) Plastics | Aluminum | ||||
| Window Material | Plastic Pane | Plastic Pane | Plastic Pane | |||||
| Weight | 90 g | 90 g | 90 g | |||||
| Approximate Weight | 300 g | |||||||
| Control and Display Element | 5x LEDs for power, signal strength and switching outputs | |||||||
| Electromagnetic Compatibility (EMC) Requirements | Complies with 2014/30/EU | Complies with 2014/30/EU | Complies with 2014/30/EU | |||||
| Laser Power | <1 mW | <1 mW | <1 mW | |||||
| Software |
Free setup and configuration software The scope of supply includes software for easy sensor configuration. The settings can be implemented conveniently via a Windows user interface on the PC. The sensor parameters are transmitted to the sensor via the serial port and can also be saved if required. The software also contains a module which can display and store the measurement results. The sensor is connected to the PC via the sensor cable using a USB converter. |
Free setup and configuration software The scope of supply includes software for easy sensor configuration. The settings can be implemented conveniently via a Windows user interface on the PC. The sensor parameters are transmitted to the sensor via the serial port and can also be saved if required. The software also contains a module which can display and store the measurement results. The sensor is connected to the PC via the sensor cable using a USB converter. |
Free setup and configuration software The scope of supply includes software for easy sensor configuration. The settings can be implemented conveniently via a Windows user interface on the PC. The sensor parameters are transmitted to the sensor via the serial port and can also be saved if required. The software also contains a module which can display and store the measurement results. The sensor is connected to the PC via the sensor cable using a USB converter. |
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| Application |
Position measurement on gantry cranes Gantry cranes require multiple measurement tasks: Positioning of the trolley, detection and dimensioning of containers and monitoring of the minimum clearance between the cranes. Filling level measurement in silos Depending on the required accuracy, laser distance sensors determine the filling level of silos at up to four points. Based on these distances, the filling level is calculated. Acquisition of coil diameters The quantity of steel wound on and off is monitored via the acquisition of coil diameters using laser probes. |
Position measurement on gantry cranes Gantry cranes require multiple measurement tasks: Positioning of the trolley, detection and dimensioning of containers and monitoring of the minimum clearance between the cranes. Filling level measurement in silos Depending on the required accuracy, laser distance sensors determine the filling level of silos at up to four points. Based on these distances, the filling level is calculated. Acquisition of coil diameters The quantity of steel wound on and off is monitored via the acquisition of coil diameters using laser probes. |
Position measurement on gantry cranes Gantry cranes require multiple measurement tasks: Positioning of the trolley, detection and dimensioning of containers and monitoring of the minimum clearance between the cranes. Filling level measurement in silos Depending on the required accuracy, laser distance sensors determine the filling level of silos at up to four points. Based on these distances, the filling level is calculated. Acquisition of coil diameters The quantity of steel wound on and off is monitored via the acquisition of coil diameters using laser probes. |
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| Characteristics |
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| Additional Information | The ILR103x/LC1 laser distance sensors operate according to the time-of-flight technology. Based on this technology, these sensors provide accurate, reliable and unambiguous as well as reproducible measurement results regardless of ambient conditions such as surface properties, dark colors or ambient light. The sensors use a measuring laser with laser class 1. | The ILR103x/LC1 laser distance sensors operate according to the time-of-flight technology. Based on this technology, these sensors provide accurate, reliable and unambiguous as well as reproducible measurement results regardless of ambient conditions such as surface properties, dark colors or ambient light. The sensors use a measuring laser with laser class 1. | The ILR103x/LC1 laser distance sensors operate according to the time-of-flight technology. Based on this technology, these sensors provide accurate, reliable and unambiguous as well as reproducible measurement results regardless of ambient conditions such as surface properties, dark colors or ambient light. The sensors use a measuring laser with laser class 1. |
With the optoNCDT ILR2250-100, Micro-Epsilon presents a new powerful laser distance sensor. The sensor is designed for operation with or without reflector film, which is used depending on the distance and ambient conditions. The sensor measures large distances up to 100 m without contact and provides best results even on challenging (dark, structured or weakly reflecting) surfaces. The measuring range can be extended up to 150 m by attaching a reflector film to the measuring object. Thanks to the integrated AUTO measurement mode, precise and reliable measurements can be made even on dark, partially reflecting and distant targets. A simple and fast alignment of the sensor is made possible by the integrated mounting plate with 4 threaded pins. The ILR2250-100 laser distance sensors provide reliable results even under harsh conditions. They are protected against dust and splashes of water thanks to the robust design in an IP65 certified die-cast aluminum housing. Compact size combined with low weight opens up new fields of application particularly in factory and plant automation, as well as in drone applications for distance measurement from the air. |
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| Note |
The ILR103x/LC1 sensors use a semiconductor laser of class 1. Laser class 1 devices require no special safety precautions. |
The ILR103x/LC1 sensors use a semiconductor laser of class 1. Laser class 1 devices require no special safety precautions. |
The ILR103x/LC1 sensors use a semiconductor laser of class 1. Laser class 1 devices require no special safety precautions. |
The specified data apply for a consistent room temperature of 20 °C, sensor is continuously in operation. Measured on white, diffuse reflecting surface (reference ceramic) | ||||
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