The non-contact displacement optoNCDT product group utilizes optical triangulation as a measuring principle. A laser diode projects a visible spot of light onto the target surface (laser class 2). The light reflected from this spot is directed through an optical receiving system onto a position-sensitive element. Optical displacement sensors measure with a large reference distance and a very small measuring spot diameter. Nearly all models work with a high resolution CCD-line or CMOS-line and a DSP.
| Items |
 optoNCDT ILD1220-10 10 Millimeter (mm) Measurement Range Compact Laser Sensor for Original Equipment Manufacturer (OEM) and Serial Applications |
optoNCDT ILD1220-25 25 Millimeter (mm) Measurement Range Compact Laser Sensor for Original Equipment Manufacturer (OEM) and Serial Applications |
optoNCDT ILD1220-50 50 Millimeter (mm) Measurement Range Compact Laser Sensor for Original Equipment Manufacturer (OEM) and Serial Applications |
 optoNCDT 1320 10 to 100 Millimeter (mm) Measurement Range Compact Class Sensor |
optoNCDT 1420 10 to 500 Millimeter (mm) Measurement Range Compact Class Sensor |
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| Description | The optoNCDT 1220 is the entry-level model for precise measurements in industrial automation. This compact laser triangulation sensor measures displacement, distance and position with high precision. Based on an excellent price/performance ratio, this sensor is ideally suited to measurement tasks involving a large number of pieces. Therefore, the sensor can be used in all fields of automation technology, e.g., in machine building, 3D printers or robotics. | The optoNCDT 1220 is the entry-level model for precise measurements in industrial automation. This compact laser triangulation sensor measures displacement, distance and position with high precision. Based on an excellent price/performance ratio, this sensor is ideally suited to measurement tasks involving a large number of pieces. Therefore, the sensor can be used in all fields of automation technology, e.g., in machine building, 3D printers or robotics. | The optoNCDT 1220 is the entry-level model for precise measurements in industrial automation. This compact laser triangulation sensor measures displacement, distance and position with high precision. Based on an excellent price/performance ratio, this sensor is ideally suited to measurement tasks involving a large number of pieces. Therefore, the sensor can be used in all fields of automation technology, e.g., in machine building, 3D printers or robotics. | The non-contact displacement optoNCDT product group utilizes optical triangulation as a measuring principle. A laser diode projects a visible spot of light onto the target surface (laser class 2). The light reflected from this spot is directed through an optical receiving system onto a position-sensitive element. Optical displacement sensors measure with a large reference distance and a very small measuring spot diameter. Nearly all models work with a high resolution CCD-line or CMOS-line and a DSP. | The non-contact displacement optoNCDT product group utilizes optical triangulation as a measuring principle. A laser diode projects a visible spot of light onto the target surface (laser class 2). The light reflected from this spot is directed through an optical receiving system onto a position-sensitive element. Optical displacement sensors measure with a large reference distance and a very small measuring spot diameter. Nearly all models work with a high resolution CCD-line or CMOS-line and a DSP. | |||||
| Measurement Range | 10 mm | 25 mm | 50 mm | 10 to 100 mm | 10 to 500 mm | |||||
| Start of Measuring Range (SMR) | 20 mm | 25 mm | 30 mm | |||||||
| Mid of Measuring Range (MMR) | 25 mm | 37.5 mm | 50 mm | |||||||
| End of Measuring Range (EMR) | 30 mm | 50 mm | 85 mm | |||||||
| Measurement Range at 49.14 Kilohertz (kHz) Measuring Rate | ||||||||||
| Start of Measurement Range (SMR) at 49.14 Kilohertz (kHz) Measuring Rate | ||||||||||
| Mid of Measurement Range (MMR) at 49.14 Kilohertz (kHz) Measuring Rate | ||||||||||
| End of Measurement Range (EMR) at 49.14 Kilohertz (kHz) Measuring Rate | ||||||||||
| Measuring Rate | 0.25 kHz0.5 kHz1 kHz | 0.25 kHz0.5 kHz1 kHz | 0.25 kHz0.5 kHz1 kHz | Up to 2 kHz | Up to 4 kHz | |||||
| Note for Measuring Rate |
Factory setting 1 kHz, modifying the factory setting requires the IF2001/USB converter. 3 adjustable stages. |
Factory setting 1 kHz, modifying the factory setting requires the IF2001/USB converter. 3 adjustable stages. |
Factory setting 1 kHz, modifying the factory setting requires the IF2001/USB converter. 3 adjustable stages. |
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| Linearity | <±10 µm | <±25 µm | <±50 µm | 0.10 % | From 0.08 % | |||||
| Linearity Full Scale Output (FSO) | <±0.10 % | <±0.10 % | <±0.10 % | |||||||
| Note for Linearity | ||||||||||
| Repeatability | 1 µm | 2.5 µm | 5 µm | |||||||
| Note for Repeatability | Measuring rate 1 kHz, median 9. | Measuring rate 1 kHz, median 9. | Measuring rate 1 kHz, median 9. | |||||||
| Tilt Angle | ||||||||||
| Temperature Stability Full Scale Output (FSO)1 | ±0.015 %/K | ±0.015 %/K | ±0.015 %/K | |||||||
| Resolution | ||||||||||
| Resolution/Repeatability | > 1 µm | > 0.5 µm | ||||||||
| Laser | Red | Red | ||||||||
| Target | All Common Targets | All Common Targets | ||||||||
| Light Spot Diameter - Start of Measuring Range (SMR) | 90 x 120 µm | 100 x 140 µm | 90 x 120 µm | |||||||
| Light Spot Diameter - Mid of Measuring Range (MMR) | 45 x 40 µm | 120 x 130 µm | 230 x 240 µm | |||||||
| Light Spot Diameter - End of Measuring Range (EMR) | 140 x 160 µm | 390 x 500 µm | 630 x 820 µm | |||||||
| Light Spot Diameter - Smallest Diameter | 45 x 40 µm with 24 mm | 55 x 50 µm with 31 mm | 70 x 65 µm with 42 mm | |||||||
| Light Spot Diameter Tolerance (±) | ||||||||||
| Note for Light Spot Diameter | ||||||||||
| Light Source - Semiconductor Laser Wavelength | 670 nm<1 mW | 670 nm<1 mW | 670 nm<1 mW | |||||||
| Light Source Color | Red | Red | Red | |||||||
| Laser Safety Class | Class 2 in Accordance with DIN EN 60825-1: 2015-07 | Class 2 in Accordance with DIN EN 60825-1: 2015-07 | Class 2 in Accordance with DIN EN 60825-1: 2015-07 | |||||||
| Permissible Ambient Light | 20,000 lux | 20,000 lux | 20,000 lux | |||||||
| Note for Permissible Ambient Light | Illuminant: light bulb. | Illuminant: light bulb. | Illuminant: light bulb. | |||||||
| Direct Current (DC) Supply Voltage | 11 to 30 V | 11 to 30 V | 11 to 30 V | |||||||
| Power Consumption at 24 Volts (V) Direct Current (DC) Voltage | <2 W | <2 W | <2 W | |||||||
| Signal Input | 1 x HTL laser on/off 1 x HTL multifunction input: trigger in/zero setting/teach | 1 x HTL laser on/off 1 x HTL multifunction input: trigger in/zero setting/teach | 1 x HTL laser on/off 1 x HTL multifunction input: trigger in/zero setting/teach | |||||||
| Digital Interface | RS422 | RS422 | RS422 | |||||||
| Digital Interface Data Rate | 16 bits | 16 bits | 16 bits | |||||||
| Analog Output Current | 4 to 20 mA | 4 to 20 mA | 4 to 20 mA | |||||||
| Analog Output Voltage | ||||||||||
| Analog Output | 12 bit, freely scalable within the measuring range | 12 bit, freely scalable within the measuring range | 12 bit, freely scalable within the measuring range | |||||||
| Note for Analog Output | The D/A conversion is executed at 12 bits. | The D/A conversion is executed at 12 bits. | The D/A conversion is executed at 12 bits. | |||||||
| Switching Output | 1 x error output: npn, pnp, push pull | 1 x error output: npn, pnp, push pull | 1 x error output: npn, pnp, push pull | |||||||
| Synchronization | ||||||||||
| Connection | Integrated cable 2 m, open ends, minimum bending radius 30 mm (fixed installation) | Integrated cable 2 m, open ends, minimum bending radius 30 mm (fixed installation) | Integrated cable 2 m, open ends, minimum bending radius 30 mm (fixed installation) | |||||||
| Installation | Screw connection via two mounting holes | Screw connection via two mounting holes | Screw connection via two mounting holes | |||||||
| Storage Temperature Range2 | -20 to 70 ºC | -20 to 70 ºC | -20 to 70 ºC | |||||||
| Operation Temperature Range3 | 0 to 50 ºC | 0 to 50 ºC | 0 to 50 ºC | |||||||
| Shock (DIN-EN 60068-2-29) | 15 g6 ms in 3 axes, 1000 shocks each | 15 g6 ms in 3 axes, 1000 shocks each | 15 g6 ms in 3 axes, 1000 shocks each | |||||||
| Vibration (DIN-EN 60068-2-6) | 20 g20 to 500 Hz in 3 axes, 2 directions and 10 cycles each | 20 g20 to 500 Hz in 3 axes, 2 directions and 10 cycles each | 20 g20 to 500 Hz in 3 axes, 2 directions and 10 cycles each | |||||||
| Protection Class (DIN-EN 60529) | Ingress Protection (IP65) | Ingress Protection (IP65) | Ingress Protection (IP65) | |||||||
| Housing Material | Aluminum | Aluminum | Aluminum | |||||||
| Approximate Weight with Pigtail | ||||||||||
| Approximate Weight with Cable | 110 g | 110 g | 110 g | |||||||
| Approximate Weight without Cable | 30 g | 30 g | 30 g | |||||||
| Control and Display Element | 2 x color LEDs for power/status Select button: Zero/Teach/Factory settings Web interface for setup (Connection to PC via IF2001/USB) | 2 x color LEDs for power/status Select button: Zero/Teach/Factory settings Web interface for setup (Connection to PC via IF2001/USB) | 2 x color LEDs for power/status Select button: Zero/Teach/Factory settings Web interface for setup (Connection to PC via IF2001/USB) | |||||||
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| Dimension b | ||||||||||
| Dimenison c | ||||||||||
| Dimenison d | ||||||||||
| Dimension e | ||||||||||
| Dimension f | ||||||||||
| Dimension g | ||||||||||
| Dimension h | ||||||||||
| Dimension i | ||||||||||
| Dimension j | ||||||||||
| Dimension X | ||||||||||
| Dimension Y | 10 mm | 21 mm | 28 mm | |||||||
| Advantages | ||||||||||
| Characteristics |
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| optoNCDT Demo Tool | The scope of supply includes a 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 is available as single and multi-channel version. The sensor is connected to the PC via the sensor cable using a USB converter. [for any ILD sensor] | The scope of supply includes a 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 is available as single and multi-channel version. The sensor is connected to the PC via the sensor cable using a USB converter. [for any ILD sensor] | The scope of supply includes a 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 is available as single and multi-channel version. The sensor is connected to the PC via the sensor cable using a USB converter. [for any ILD sensor] | |||||||
| Protection Housing for Demanding Environments |
To protect the optoNCDT laser sensors in harsh environments, protective housings are available in different designs. SGH model Completely enclosed housing with an integrated front window, where the sensor measures through the window. The water-resistant housing provides protection against solvents and detergents. SGHF model With window and compressed-air connection ideal for high ambient temperatures. The integrated air cooling of the housing offers optimum protection for the sensor. SGHF-HT model This water-cooled protection housing with window and compressed-air connection is designed for measurement tasks in ambient temperatures up to 200 ºC. Suitable for all long-range sensors optoNCDT 1710 optoNCDT 1750-500 and optoNCDT 1750-750 optoNCDT 2310 optoNCDT 2300 - 200 Maximum ambient temperature 200 ºC Maximum temperature of cooling water T(max) = 10 ºC Minimum water flow rate Q(min) = 3 liters/min |
To protect the optoNCDT laser sensors in harsh environments, protective housings are available in different designs. SGH model Completely enclosed housing with an integrated front window, where the sensor measures through the window. The water-resistant housing provides protection against solvents and detergents. SGHF model With window and compressed-air connection ideal for high ambient temperatures. The integrated air cooling of the housing offers optimum protection for the sensor. SGHF-HT model This water-cooled protection housing with window and compressed-air connection is designed for measurement tasks in ambient temperatures up to 200 ºC. Suitable for all long-range sensors optoNCDT 1710 optoNCDT 1750-500 and optoNCDT 1750-750 optoNCDT 2310 optoNCDT 2300 - 200 Maximum ambient temperature 200 ºC Maximum temperature of cooling water T(max) = 10 ºC Minimum water flow rate Q(min) = 3 liters/min |
To protect the optoNCDT laser sensors in harsh environments, protective housings are available in different designs. SGH model Completely enclosed housing with an integrated front window, where the sensor measures through the window. The water-resistant housing provides protection against solvents and detergents. SGHF model With window and compressed-air connection ideal for high ambient temperatures. The integrated air cooling of the housing offers optimum protection for the sensor. SGHF-HT model This water-cooled protection housing with window and compressed-air connection is designed for measurement tasks in ambient temperatures up to 200 ºC. Suitable for all long-range sensors optoNCDT 1710 optoNCDT 1750-500 and optoNCDT 1750-750 optoNCDT 2310 optoNCDT 2300 - 200 Maximum ambient temperature 200 ºC Maximum temperature of cooling water T(max) = 10 ºC Minimum water flow rate Q(min) = 3 liters/min |
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| Interface Modules |
IF2008PCI/IF2008PCIe - PCI Interface card for synchronous data acquisition The absolutely synchronous data acquisition is a decisive factor for the planarity or thickness measurement using several laser sensors. The IF2008PCI interface card is designed for installation in PCs and enables the synchronous capture of four digital sensor signals and two encoders. The data are stored in a FIFO memory in order to enable resource-saving processing in blocks in the PC. The IF2008E expansion board enables to detect in addition two digital sensor signals, two analog sensor signals and eight I/O signals.
The RS422/USB converter transforms digital signals from a laseroptical sensor into a USB data packet. The sensor and the converter are connected via the RS422 interface of the converter. Data output is done via USB interface. The converter loops through further signals and functions such as laser on/off, switch signals and function output. The connected sensors and the converter can be programmed through software. IF2004/USB: 4-channel converter from RS422 to USB The RS422/USB converter is used for transforming digital signals from up to four optical sensors into USB data signals. The converter has four trigger inputs and a trigger output for connecting additional converters. Data is output via an USB interface. The connected sensors and the converter can be programmed through software.
C-Box/2A is used for fast D/A conversion of two digital input signals or for evaluating two digital sensor signals. The controller is compatible with the optoNCDT 1420, 1750 und 2300 models. Handling of the C-Box/2A and of the connected sensors are performed via web interface. Averaging functions, thickness, diameter, step and inclinations can be calculated. The D/A conversion is executed at 16 bit and max. 70 kHz.
The IF2030 interface modules are designed for easy connection of Micro-Epsilon sensors to Ethernet-based fieldbuses, e.g., plant control systems. The PROFINET and Ethernet/IP modules are compatible with sensors that output data via an RS422 or RS485 interface. These modules operate on the sensor side with up to 4 MBd and have two network connections for different network topologies. Installation in switching cabinets is via a DIN rail. |
IF2008PCI/IF2008PCIe - PCI Interface card for synchronous data acquisition The absolutely synchronous data acquisition is a decisive factor for the planarity or thickness measurement using several laser sensors. The IF2008PCI interface card is designed for installation in PCs and enables the synchronous capture of four digital sensor signals and two encoders. The data are stored in a FIFO memory in order to enable resource-saving processing in blocks in the PC. The IF2008E expansion board enables to detect in addition two digital sensor signals, two analog sensor signals and eight I/O signals.
The RS422/USB converter transforms digital signals from a laseroptical sensor into a USB data packet. The sensor and the converter are connected via the RS422 interface of the converter. Data output is done via USB interface. The converter loops through further signals and functions such as laser on/off, switch signals and function output. The connected sensors and the converter can be programmed through software. IF2004/USB: 4-channel converter from RS422 to USB The RS422/USB converter is used for transforming digital signals from up to four optical sensors into USB data signals. The converter has four trigger inputs and a trigger output for connecting additional converters. Data is output via an USB interface. The connected sensors and the converter can be programmed through software.
C-Box/2A is used for fast D/A conversion of two digital input signals or for evaluating two digital sensor signals. The controller is compatible with the optoNCDT 1420, 1750 und 2300 models. Handling of the C-Box/2A and of the connected sensors are performed via web interface. Averaging functions, thickness, diameter, step and inclinations can be calculated. The D/A conversion is executed at 16 bit and max. 70 kHz.
The IF2030 interface modules are designed for easy connection of Micro-Epsilon sensors to Ethernet-based fieldbuses, e.g., plant control systems. The PROFINET and Ethernet/IP modules are compatible with sensors that output data via an RS422 or RS485 interface. These modules operate on the sensor side with up to 4 MBd and have two network connections for different network topologies. Installation in switching cabinets is via a DIN rail. |
IF2008PCI/IF2008PCIe - PCI Interface card for synchronous data acquisition The absolutely synchronous data acquisition is a decisive factor for the planarity or thickness measurement using several laser sensors. The IF2008PCI interface card is designed for installation in PCs and enables the synchronous capture of four digital sensor signals and two encoders. The data are stored in a FIFO memory in order to enable resource-saving processing in blocks in the PC. The IF2008E expansion board enables to detect in addition two digital sensor signals, two analog sensor signals and eight I/O signals.
The RS422/USB converter transforms digital signals from a laseroptical sensor into a USB data packet. The sensor and the converter are connected via the RS422 interface of the converter. Data output is done via USB interface. The converter loops through further signals and functions such as laser on/off, switch signals and function output. The connected sensors and the converter can be programmed through software. IF2004/USB: 4-channel converter from RS422 to USB The RS422/USB converter is used for transforming digital signals from up to four optical sensors into USB data signals. The converter has four trigger inputs and a trigger output for connecting additional converters. Data is output via an USB interface. The connected sensors and the converter can be programmed through software.
C-Box/2A is used for fast D/A conversion of two digital input signals or for evaluating two digital sensor signals. The controller is compatible with the optoNCDT 1420, 1750 und 2300 models. Handling of the C-Box/2A and of the connected sensors are performed via web interface. Averaging functions, thickness, diameter, step and inclinations can be calculated. The D/A conversion is executed at 16 bit and max. 70 kHz.
The IF2030 interface modules are designed for easy connection of Micro-Epsilon sensors to Ethernet-based fieldbuses, e.g., plant control systems. The PROFINET and Ethernet/IP modules are compatible with sensors that output data via an RS422 or RS485 interface. These modules operate on the sensor side with up to 4 MBd and have two network connections for different network topologies. Installation in switching cabinets is via a DIN rail. |
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| Additional Information |
The optoNCDT 1220 is a laser triangulation sensor with compact size for precise displacement, distance and position measurements. The laser sensor is available with measuring ranges from 10 to 50 mm and offers both high measurement accuracy and an adjustable measuring rate up to 1 kHz. Due to its extremely compact size with integrated controller, the sensor can also be installed in restricted spaces. As well as an analog output, an RS422 interface is available for integration. Its low weight makes this laser sensor ideally suitable for applications where high accelerations occur, e.g., in industrial printers or on robot grippers. The Active Surface Compensation (ASC) provides stable distance signal control regardless of target color or brightness. Commissioning is quick and easy via function keys or the web interface. The optoNCDT 1220 offers a unique combination of design, versatility and measurement accuracy. Due to its excellent price/performance ratio, the sensor is ideal for automation tasks and OEM integration with a large number of pieces. |
The optoNCDT 1220 is a laser triangulation sensor with compact size for precise displacement, distance and position measurements. The laser sensor is available with measuring ranges from 10 to 50 mm and offers both high measurement accuracy and an adjustable measuring rate up to 1 kHz. Due to its extremely compact size with integrated controller, the sensor can also be installed in restricted spaces. As well as an analog output, an RS422 interface is available for integration. Its low weight makes this laser sensor ideally suitable for applications where high accelerations occur, e.g., in industrial printers or on robot grippers. The Active Surface Compensation (ASC) provides stable distance signal control regardless of target color or brightness. Commissioning is quick and easy via function keys or the web interface. The optoNCDT 1220 offers a unique combination of design, versatility and measurement accuracy. Due to its excellent price/performance ratio, the sensor is ideal for automation tasks and OEM integration with a large number of pieces. |
The optoNCDT 1220 is a laser triangulation sensor with compact size for precise displacement, distance and position measurements. The laser sensor is available with measuring ranges from 10 to 50 mm and offers both high measurement accuracy and an adjustable measuring rate up to 1 kHz. Due to its extremely compact size with integrated controller, the sensor can also be installed in restricted spaces. As well as an analog output, an RS422 interface is available for integration. Its low weight makes this laser sensor ideally suitable for applications where high accelerations occur, e.g., in industrial printers or on robot grippers. The Active Surface Compensation (ASC) provides stable distance signal control regardless of target color or brightness. Commissioning is quick and easy via function keys or the web interface. The optoNCDT 1220 offers a unique combination of design, versatility and measurement accuracy. Due to its excellent price/performance ratio, the sensor is ideal for automation tasks and OEM integration with a large number of pieces. |
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| Note | Corresponds to repeatability | Corresponds to repeatability | ||||||||
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