The scanCONTROL laser-line profile sensor makes use of the triangulation principle for the two-dimensional acquisition of profiles on the most varied of target surfaces. In contrast to familiar point laser sensors, a line optical system projects a laser line onto the surface of the object to be measured. The back-scattered light from the laser line is registered on a sensor matrix. Along with distance information (z-axis), the controller also calculates the true position along the laser line (x-axis) from the camera image and outputs both values in the sensor two-dimensional coordinate system. A moving object or sensor will generate a three-dimensional representation of the object.
| Items |
 1046 scanCONTROL 29x0 High End Scanning Sensor |
 scanCONTROL LLT25xx-25 25 Millimeter (mm) Standard Height of Measuring Range Laser Scanner for Industrial Series Applications |
scanCONTROL LLT25xx-50 50 Millimeter (mm) Standard Height of Measuring Range Laser Scanner for Industrial Series Applications |
scanCONTROL LLT25xx-100 100 Millimeter (mm) Standard Height of Measuring Range Laser Scanner for Industrial Series Applications |
 scanCONTROL LLT29xx-10/BL 8 Millimeter (mm) Standard Height of Measuring Range Compact Laser Scanner with High Precision |
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| Description | High End scanner | scanCONTROL 25xx laser scanners are designed for industrial measurement tasks. The combination of compact design, versatility and signal stability enables an excellent price/performance ratio, especially for measurement tasks involving large quantities. With three measuring ranges and comprehensive accessories including protective housings, cable types and interface converters, the scanCONTROL 25xx models are ideal for series integration in production lines and machine building. | scanCONTROL 25xx laser scanners are designed for industrial measurement tasks. The combination of compact design, versatility and signal stability enables an excellent price/performance ratio, especially for measurement tasks involving large quantities. With three measuring ranges and comprehensive accessories including protective housings, cable types and interface converters, the scanCONTROL 25xx models are ideal for series integration in production lines and machine building. | scanCONTROL 25xx laser scanners are designed for industrial measurement tasks. The combination of compact design, versatility and signal stability enables an excellent price/performance ratio, especially for measurement tasks involving large quantities. With three measuring ranges and comprehensive accessories including protective housings, cable types and interface converters, the scanCONTROL 25xx models are ideal for series integration in production lines and machine building. | The scanCONTROL 29xx series is focused on minimal size and low weight. The controller is integrated in the housing, simplifying cabling arrangements and mechanical integration. Due to its compact design and the high profile resolution, this series is especially suitable for static, dynamic and robotic applications requiring highest precision. | |||||
| Laser Color | ||||||||||
| Measurement Range - (X-Axis) | Up to 143.5 mm | |||||||||
| Measurement Range - (Z-Axis) | Up to 265 mm | |||||||||
| Linearity - (Z-Axis) | ± 0.16 % | |||||||||
| Profile Frequency | Up to 2000 Hz | Up to 300 Hz | Up to 300 Hz | Up to 300 Hz | ||||||
| Integrating scanCONTROL in Application Software |
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| Start of Measuring Range - (Z-Axis (Height)) | ||||||||||
| Mid of Measuring Range - (Z-Axis (Height)) | ||||||||||
| End of Measuring Range - (Z-Axis (Height)) | ||||||||||
| Height of Measuring Range - (Z-Axis (Height)) | ||||||||||
| Standard Start of Measuring Range - (Z-Axis (Height)) | 53.5 mm | 70 mm | 190 mm | 52.5 mm | ||||||
| Standard Mid of Measuring Range - (Z-Axis (Height)) | 66 mm | 95 mm | 240 mm | 56.5 mm | ||||||
| Standard End of Measuring Range - (Z-Axis (Height)) | 78.5 mm | 120 mm | 290 mm | 60.5 mm | ||||||
| Standard Height of Measuring Range - (Z-Axis (Height)) | 25 mm | 50 mm | 100 mm | 8 mm | ||||||
| Extended Start of Measuring Range - (Z-Axis (Height)) | 53 mm | 65 mm | 125 mm | |||||||
| Extended End of Measuring Range - (Z-Axis (Height)) | 79 mm | 125 mm | 390 mm | |||||||
| Maximum Deviation of A Single Point for Red Laser Scanner (2 Sigma) - (Z Axis (Height)) (±) | ||||||||||
| Maximum Deviation of A Single Point for Blue Laser Scanner (2 Sigma) - (Z Axis (Height)) (±) | ||||||||||
| Note for Maximum Deviation of A Single Point (2 Sigma) - (Z Axis (Height)) | ||||||||||
| Line Linearity - (Z Axis (Height)) | ||||||||||
| Line Linearity - (Z Axis (Height)) Tolerance (±) | ||||||||||
| Note for Line Linearity - (Z Axis (Height)) | ||||||||||
| Linearity (2 Sigma) Full Scale Output (FSO) - (Z-Axis (Height)) | ±0.10 % | ±0.10 % | ±0.13 % | ±0.17 % | ||||||
| Note for Linearity (2 Sigma) Full Scale Output (FSO) - (Z-Axis (Height)) | Measuring range (standard) | Measuring range (standard) | Measuring range (standard) | Measuring range (standard) | ||||||
| Reference Resolution - (Z-Axis (Height)) | 2 µm | 4 µm | 12 µm | 1 µm | ||||||
| Note for Reference Resolution - (Z-Axis (Height)) |
Measurement object: Micro-Epsilon standard object (metallic, diffusely reflecting material). According to a one-time averaging across the measuring field (640 points). |
Measurement object: Micro-Epsilon standard object (metallic, diffusely reflecting material). According to a one-time averaging across the measuring field (640 points). |
Measurement object: Micro-Epsilon standard object (metallic, diffusely reflecting material). According to a one-time averaging across the measuring field (640 points). |
Measurement object: Micro-Epsilon standard object (metallic, diffusely reflecting material). According to a one-time averaging across the measuring field (640 points). |
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| Start of Measuring Range - (X-Axis (Length)) | ||||||||||
| Mid of Measuring Range - (X-Axis (Length)) | ||||||||||
| End of Measuring Range - (X-Axis (Length)) | ||||||||||
| Standard Start of Measuring Range - (X-Axis (Length)) | 23.4 mm | 42 mm | 83.1 mm | 9.4 mm | ||||||
| Standard Mid of Measuring Range - (X-Axis (Length)) | 25 mm | 50 mm | 100 mm | 10 mm | ||||||
| Standard End of Measuring Range - (X-Axis (Length)) | 29.1 mm | 58 mm | 120.8 mm | 10.7 mm | ||||||
| Extended Start of Measuring Range - (X-Axis (Length)) | 23.2 mm | 40 mm | 58.5 mm | |||||||
| Extended End of Measuring Range - (X-Axis (Length)) | 29.3 mm | 60 mm | 143.5 mm | |||||||
| Resolution - (X-Axis (Length)) | 1280 points/profile | 640 points/profile | 640 points/profile | 640 points/profile | 1,280 points/profile | |||||
| Standard Profile Frequency | Up to 300 Hz | |||||||||
| HIGHSPEED Profile Frequency | Up to 2,000 Hz | |||||||||
| Ethernet GigE Vision | Output of Measurement Values Profile Data Transmission Sensor Control | Output of Measurement Values Profile Data Transmission Sensor Control | Output of Measurement Values Profile Data Transmission Sensor Control | Output of Measurement Values Profile Data Transmission Sensor Control | ||||||
| Digital Inputs | ||||||||||
| RS422 (Half-Duplex) Interfaces | ||||||||||
| Note for RS422 (Half-Duplex) Interfaces | ||||||||||
| Multi-Function Port - Digital Inputs | Encoder (Counter) Mode Switching Trigger | Encoder (Counter) Mode Switching Trigger | Encoder (Counter) Mode Switching Trigger | Encoder (Counter) Mode Switching Trigger | ||||||
| Multi-Function Port - RS422 (Half-Duplex) | Output of Measurement Values Sensor Control Synchronization Trigger | Output of Measurement Values Sensor Control Synchronization Trigger | Output of Measurement Values Sensor Control Synchronization Trigger | Output of Measurement Values Sensor Control Synchronization Trigger | ||||||
| Note for Multi-Function Port - RS422 (Half-Duplex) | RS422 interface, programmable either as serial interface or as input for triggering/synchronization | RS422 interface, programmable either as serial interface or as input for triggering/synchronization | RS422 interface, programmable either as serial interface or as input for triggering/synchronization | RS422 interface, programmable either as serial interface or as input for triggering/synchronization | ||||||
| Output of Measurement Values | EtherCAT (Only with scanCONTROL Gateway) Ethernet (UDP / Modbus TCP) EtherNet/IP (Only with scanCONTROL Gateway) PROFINET (Only with scanCONTROL Gateway) RS422 (ASCII / Modbus RTU) Analog (Only with Output Unit) Switch Signal (Only with Output Unit) | EtherCAT (Only with scanCONTROL Gateway) Ethernet (UDP / Modbus TCP) EtherNet/IP (Only with scanCONTROL Gateway) PROFINET (Only with scanCONTROL Gateway) RS422 (ASCII / Modbus RTU) Analog (Only with Output Unit) Switch Signal (Only with Output Unit) | EtherCAT (Only with scanCONTROL Gateway) Ethernet (UDP / Modbus TCP) EtherNet/IP (Only with scanCONTROL Gateway) PROFINET (Only with scanCONTROL Gateway) RS422 (ASCII / Modbus RTU) Analog (Only with Output Unit) Switch Signal (Only with Output Unit) | EtherCAT (Only with scanCONTROL Gateway) Ethernet (UDP / Modbus TCP) EtherNet/IP (Only with scanCONTROL Gateway) PROFINET (Only with scanCONTROL Gateway) RS422 (ASCII / Modbus RTU) Analog (Only with Output Unit) Switch Signal (Only with Output Unit) | ||||||
| Control and Display Element | ||||||||||
| Standard Light Source for Red Laser | ||||||||||
| Optional Light Source for Red Laser | ||||||||||
| Standard Light Source for Blue Laser | ||||||||||
| Standard Laser Class for Red Laser | ||||||||||
| Optional Laser Class for Red Laser | ||||||||||
| Standard Laser Class for Blue Laser | ||||||||||
| Light Source - Semiconductor Laser Wavelength for Red Laser | ||||||||||
| Light Source - Semiconductor Laser Wavelength for Blue Laser | ||||||||||
| Display (Light Emitting Diode (LED)) | 1x laser ON/OFF 1x power/error/status | 1x laser ON/OFF 1x power/error/status | 1x laser ON/OFF 1x power/error/status | 1x laser ON/OFF 1x power/error/status | ||||||
| Light Source - Semiconductor Laser Wavelength | 658 nm | 658 nm | 658 nm | 405 nm | ||||||
| Light Source Color | Red | Red | Red | Blue | ||||||
| Aperture Angle of Laser Line | 20 º | 25 º | 25 º | 10 º | ||||||
| Laser Power | ≤8 mW | ≤8 mW | ≤8 mW | |||||||
| Standard Laser Power | ≤8 mW | |||||||||
| Optional Laser Power | ||||||||||
| Laser Class | 2M | 2M | 2M | |||||||
| Standard Laser Class | 2M | |||||||||
| Optional Laser Class | ||||||||||
| Laser Switch-Off | via Software | via Software | via Software | |||||||
| Optional Laser Switch-Off | Hardware Safety Switch-Off | |||||||||
| Permissible Ambient Light (Fluorescent Light) | 10,000 lux | 10,000 lux | 10,000 lux | 10,000 lux | ||||||
| Protection Class (DIN-EN 60529) | ||||||||||
| Vibration (DIN-EN 60068-2-27) | ||||||||||
| Shock (DIN-EN 60068-2-6) | ||||||||||
| Note for Permissible Ambient Light (Fluorescent Light) | Measurement object: Micro-Epsilon standard object (metallic, diffusely reflecting material) | Measurement object: Micro-Epsilon standard object (metallic, diffusely reflecting material) | Measurement object: Micro-Epsilon standard object (metallic, diffusely reflecting material) | Measurement object: Micro-Epsilon standard object (metallic, diffusely reflecting material) | ||||||
| Sensor Protection Class | Ingress Protection (IP65) | Ingress Protection (IP65) | Ingress Protection (IP65) | Ingress Protection (IP65) | ||||||
| Electromagnetic Compatibility (EMC) Requirements | According to: DIN EN 55011: 2007-11 (group 1, B class) According to: EN 61000-6-2: 2006-03 According to: EN 61326-1: 2006-10 | According to: DIN EN 55011: 2007-11 (group 1, B class) According to: EN 61000-6-2: 2006-03 According to: EN 61326-1: 2006-10 | According to: DIN EN 55011: 2007-11 (group 1, B class) According to: EN 61000-6-2: 2006-03 According to: EN 61326-1: 2006-10 | According to: DIN EN 55011: 2007-11 (group 1, B class) According to: EN 61000-6-2: 2006-03 According to: EN 61326-1: 2006-10 | ||||||
| Vibration | 2 g20 to 500 Hz | 2 g20 to 500 Hz | 2 g20 to 500 Hz | 2 g20 to 500 Hz | ||||||
| Shock | 15 g6 ms | 15 g6 ms | 15 g6 ms | 15 g6 ms | ||||||
| Operating Temperature | 0 to 45 ºC | 0 to 45 ºC | 0 to 45 ºC | 0 to 45 ºC | ||||||
| Storage Temperature | -20 to 70 ºC | -20 to 70 ºC | -20 to 70 ºC | -20 to 70 ºC | ||||||
| Height | 96 mm | 96 mm | 96 mm | 96 mm | ||||||
| Length | 85 mm | 85 mm | 85 mm | 118.5 mm | ||||||
| Width | 33 mm | 33 mm | 33 mm | 33 mm | ||||||
| Sensor Weight without Cable | 380 g | 380 g | 380 g | 440 g | ||||||
| Direct Current (DC) Supply Voltage | 11 to 30 V | 11 to 30 V | 11 to 30 V | 11 to 30 V | ||||||
| Nominal Value Supply Voltage | 24 V | 24 V | 24 V | 24 V | ||||||
| Nominal Value Supply Current | 500 mA | 500 mA | 500 mA | 500 mA | ||||||
| Supply | Institute of Electrical and Electronics Engineers (IEEE) 802.3af class 2, Power over Ethernet | Institute of Electrical and Electronics Engineers (IEEE) 802.3af class 2, Power over Ethernet | Institute of Electrical and Electronics Engineers (IEEE) 802.3af class 2, Power over Ethernet | Institute of Electrical and Electronics Engineers (IEEE) 802.3af class 2, Power over Ethernet | ||||||
| Advantages |
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| Characteristics |
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| scanCONTROL Configuration Tools |
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| scanCONTROL 3D-View |
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| High Precision Laser Scanners |
The scanCONTROL LLT3000 laser profile scanners impress in 2D/3D measurement tasks with high precision and dynamics. With a high resolution sensor matrix and high profile frequency, the scanners are designed for precise profile measurements in dynamic processes.
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The scanCONTROL LLT3000 laser profile scanners impress in 2D/3D measurement tasks with high precision and dynamics. With a high resolution sensor matrix and high profile frequency, the scanners are designed for precise profile measurements in dynamic processes.
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The scanCONTROL LLT3000 laser profile scanners impress in 2D/3D measurement tasks with high precision and dynamics. With a high resolution sensor matrix and high profile frequency, the scanners are designed for precise profile measurements in dynamic processes.
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The scanCONTROL LLT3000 laser profile scanners impress in 2D/3D measurement tasks with high precision and dynamics. With a high resolution sensor matrix and high profile frequency, the scanners are designed for precise profile measurements in dynamic processes.
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| Laser Scanners for Industrial Series Applications | The scanCONTROL 2500 laser scanners are specially designed for industrial measurement tasks. Compact design, versatility and high signal stability result in an excellent price/performance ratio especially for measurement tasks involving large quantities. | The scanCONTROL 2500 laser scanners are specially designed for industrial measurement tasks. Compact design, versatility and high signal stability result in an excellent price/performance ratio especially for measurement tasks involving large quantities. | The scanCONTROL 2500 laser scanners are specially designed for industrial measurement tasks. Compact design, versatility and high signal stability result in an excellent price/performance ratio especially for measurement tasks involving large quantities. | The scanCONTROL 2500 laser scanners are specially designed for industrial measurement tasks. Compact design, versatility and high signal stability result in an excellent price/performance ratio especially for measurement tasks involving large quantities. | ||||||
| Advantages and Special Features |
Compactness. Performance. Integration. Laser profile scanners from Micro-Epsilon are among the highest performing profile sensors with respect to accuracy and measuring rate. Equipped with powerful processors and highly sensitive optical components, these scanners ensure precise profile measurements on nearly any type of surface. While they can be integrated in various environments, the scanners also impress with a compact design which includes an integrated controller. Direct processing in the integrated controller The scanCONTROL laser scanners have an integrated controller and therefore do not require any external control unit. This considerably simplifies wiring and the integration into restricted spaces. The available interfaces make it possible to integrate the scanners in industrial environments. For multi-scanner applications, interface modules are available. Red and Blue Laser Laser scanners from Micro-Epsilon are available with red and blue laser. For common measurement tasks, scanCONTROL laser scanners with red laser line are used. With objects into which the laser light penetrates, such as transparent or organic surfaces, blue laser scanners are recommended. Blue Laser scanners are also ideal for red-hot glowing metals. Patent protection for (semi-)transparent surfaces and red-hot glowing objects Measurement tasks involving blue laser scanners measuring on red-hot glowing measurement objects exceeding 700 °C and transparent objects such as glass and plastics are protected by patent law. With profile measurements on these surfaces, scanCONTROL laser scanners achieve excellent signal stability and precise measurement results. Any questions about Blue Laser scanners? We will be pleased to advise you. Advanced Technology Compact size and integrated evaluation without external controller or IPC Real Time Surface Compensation: Dynamic adaption to rapidly changing surfaces Laser profile scanners use diffusely reflected laser light of which the intensity is highly dependent on the color and how shiny and reflective the respective component is. In order to be able to measure reliably under rapidly changing conditions, scanCONTROL sensors offer the Real-Time-Surface-Compensation feature. Due to this smart feature, the exposure time and the threshold of reflection detection are adapted in real time in order to generate stable measurement results. Moreover, the scanCONTROL 3000 series comes with an HDR function which ensures accurate detection of inhomogeneous surfaces. |
Compactness. Performance. Integration. Laser profile scanners from Micro-Epsilon are among the highest performing profile sensors with respect to accuracy and measuring rate. Equipped with powerful processors and highly sensitive optical components, these scanners ensure precise profile measurements on nearly any type of surface. While they can be integrated in various environments, the scanners also impress with a compact design which includes an integrated controller. Direct processing in the integrated controller The scanCONTROL laser scanners have an integrated controller and therefore do not require any external control unit. This considerably simplifies wiring and the integration into restricted spaces. The available interfaces make it possible to integrate the scanners in industrial environments. For multi-scanner applications, interface modules are available. Red and Blue Laser Laser scanners from Micro-Epsilon are available with red and blue laser. For common measurement tasks, scanCONTROL laser scanners with red laser line are used. With objects into which the laser light penetrates, such as transparent or organic surfaces, blue laser scanners are recommended. Blue Laser scanners are also ideal for red-hot glowing metals. Patent protection for (semi-)transparent surfaces and red-hot glowing objects Measurement tasks involving blue laser scanners measuring on red-hot glowing measurement objects exceeding 700 °C and transparent objects such as glass and plastics are protected by patent law. With profile measurements on these surfaces, scanCONTROL laser scanners achieve excellent signal stability and precise measurement results. Any questions about Blue Laser scanners? We will be pleased to advise you. Advanced Technology Compact size and integrated evaluation without external controller or IPC Real Time Surface Compensation: Dynamic adaption to rapidly changing surfaces Laser profile scanners use diffusely reflected laser light of which the intensity is highly dependent on the color and how shiny and reflective the respective component is. In order to be able to measure reliably under rapidly changing conditions, scanCONTROL sensors offer the Real-Time-Surface-Compensation feature. Due to this smart feature, the exposure time and the threshold of reflection detection are adapted in real time in order to generate stable measurement results. Moreover, the scanCONTROL 3000 series comes with an HDR function which ensures accurate detection of inhomogeneous surfaces. |
Compactness. Performance. Integration. Laser profile scanners from Micro-Epsilon are among the highest performing profile sensors with respect to accuracy and measuring rate. Equipped with powerful processors and highly sensitive optical components, these scanners ensure precise profile measurements on nearly any type of surface. While they can be integrated in various environments, the scanners also impress with a compact design which includes an integrated controller. Direct processing in the integrated controller The scanCONTROL laser scanners have an integrated controller and therefore do not require any external control unit. This considerably simplifies wiring and the integration into restricted spaces. The available interfaces make it possible to integrate the scanners in industrial environments. For multi-scanner applications, interface modules are available. Red and Blue Laser Laser scanners from Micro-Epsilon are available with red and blue laser. For common measurement tasks, scanCONTROL laser scanners with red laser line are used. With objects into which the laser light penetrates, such as transparent or organic surfaces, blue laser scanners are recommended. Blue Laser scanners are also ideal for red-hot glowing metals. Patent protection for (semi-)transparent surfaces and red-hot glowing objects Measurement tasks involving blue laser scanners measuring on red-hot glowing measurement objects exceeding 700 °C and transparent objects such as glass and plastics are protected by patent law. With profile measurements on these surfaces, scanCONTROL laser scanners achieve excellent signal stability and precise measurement results. Any questions about Blue Laser scanners? We will be pleased to advise you. Advanced Technology Compact size and integrated evaluation without external controller or IPC Real Time Surface Compensation: Dynamic adaption to rapidly changing surfaces Laser profile scanners use diffusely reflected laser light of which the intensity is highly dependent on the color and how shiny and reflective the respective component is. In order to be able to measure reliably under rapidly changing conditions, scanCONTROL sensors offer the Real-Time-Surface-Compensation feature. Due to this smart feature, the exposure time and the threshold of reflection detection are adapted in real time in order to generate stable measurement results. Moreover, the scanCONTROL 3000 series comes with an HDR function which ensures accurate detection of inhomogeneous surfaces. |
Compactness. Performance. Integration. Laser profile scanners from Micro-Epsilon are among the highest performing profile sensors with respect to accuracy and measuring rate. Equipped with powerful processors and highly sensitive optical components, these scanners ensure precise profile measurements on nearly any type of surface. While they can be integrated in various environments, the scanners also impress with a compact design which includes an integrated controller. Direct processing in the integrated controller The scanCONTROL laser scanners have an integrated controller and therefore do not require any external control unit. This considerably simplifies wiring and the integration into restricted spaces. The available interfaces make it possible to integrate the scanners in industrial environments. For multi-scanner applications, interface modules are available. Red and Blue Laser Laser scanners from Micro-Epsilon are available with red and blue laser. For common measurement tasks, scanCONTROL laser scanners with red laser line are used. With objects into which the laser light penetrates, such as transparent or organic surfaces, blue laser scanners are recommended. Blue Laser scanners are also ideal for red-hot glowing metals. Patent protection for (semi-)transparent surfaces and red-hot glowing objects Measurement tasks involving blue laser scanners measuring on red-hot glowing measurement objects exceeding 700 °C and transparent objects such as glass and plastics are protected by patent law. With profile measurements on these surfaces, scanCONTROL laser scanners achieve excellent signal stability and precise measurement results. Any questions about Blue Laser scanners? We will be pleased to advise you. Advanced Technology Compact size and integrated evaluation without external controller or IPC Real Time Surface Compensation: Dynamic adaption to rapidly changing surfaces Laser profile scanners use diffusely reflected laser light of which the intensity is highly dependent on the color and how shiny and reflective the respective component is. In order to be able to measure reliably under rapidly changing conditions, scanCONTROL sensors offer the Real-Time-Surface-Compensation feature. Due to this smart feature, the exposure time and the threshold of reflection detection are adapted in real time in order to generate stable measurement results. Moreover, the scanCONTROL 3000 series comes with an HDR function which ensures accurate detection of inhomogeneous surfaces. |
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| Universal Application |
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| Powerful Software |
The scanCONTROL Configuration Tools software offers numerous measuring programs with a total of 94 evaluation variants. This is how all important profile measurement tasks can be set up and combined.
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The scanCONTROL Configuration Tools software offers numerous measuring programs with a total of 94 evaluation variants. This is how all important profile measurement tasks can be set up and combined.
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The scanCONTROL Configuration Tools software offers numerous measuring programs with a total of 94 evaluation variants. This is how all important profile measurement tasks can be set up and combined.
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The scanCONTROL Configuration Tools software offers numerous measuring programs with a total of 94 evaluation variants. This is how all important profile measurement tasks can be set up and combined.
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| Powerful SDKs |
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| Profile Correction | With obliquely detected profiles, the Configuration Tools software corrects the inclination and therefore simplifies the sensor alignment. | With obliquely detected profiles, the Configuration Tools software corrects the inclination and therefore simplifies the sensor alignment. | With obliquely detected profiles, the Configuration Tools software corrects the inclination and therefore simplifies the sensor alignment. | With obliquely detected profiles, the Configuration Tools software corrects the inclination and therefore simplifies the sensor alignment. | ||||||
| Intelligent Tracking | The scanCONTROL SMART sensors can be used to track complex structures and to guide robots. Therefore, anchor points are set in the Configuration Tools software which are used to track and measure the profiles. | The scanCONTROL SMART sensors can be used to track complex structures and to guide robots. Therefore, anchor points are set in the Configuration Tools software which are used to track and measure the profiles. | The scanCONTROL SMART sensors can be used to track complex structures and to guide robots. Therefore, anchor points are set in the Configuration Tools software which are used to track and measure the profiles. | The scanCONTROL SMART sensors can be used to track complex structures and to guide robots. Therefore, anchor points are set in the Configuration Tools software which are used to track and measure the profiles. | ||||||
| Measuring Principle |
Precise laser scanners for automation, robotics and machine building The scanCONTROL laser scanners detect, measure and evaluate profiles on various object surfaces with high precision. With different laser types and comprehensive accessories, numerous measurement tasks can be solved in different industries. The principle of laser line triangulation Laser scanners - often referred to as profile sensors - use the laser triangulation principle for two-dimensional profile detection on different target surfaces. By using special lenses, a laser beam is enlarged to form a static laser line and is projected onto the target surface. The receiving optics projects the diffusely reflected light of this laser line onto a highly sensitive sensor matrix. In addition to distance information (z-axis), the controller also uses this camera image to calculate the position along the laser line (x-axis). These measured values are subsequently output in a two-dimensional coordinate system that is fixed with respect to the sensor. In the case of moving objects or a traversing sensor, it is therefore possible to obtain 3D measurement values. |
Precise laser scanners for automation, robotics and machine building The scanCONTROL laser scanners detect, measure and evaluate profiles on various object surfaces with high precision. With different laser types and comprehensive accessories, numerous measurement tasks can be solved in different industries. The principle of laser line triangulation Laser scanners - often referred to as profile sensors - use the laser triangulation principle for two-dimensional profile detection on different target surfaces. By using special lenses, a laser beam is enlarged to form a static laser line and is projected onto the target surface. The receiving optics projects the diffusely reflected light of this laser line onto a highly sensitive sensor matrix. In addition to distance information (z-axis), the controller also uses this camera image to calculate the position along the laser line (x-axis). These measured values are subsequently output in a two-dimensional coordinate system that is fixed with respect to the sensor. In the case of moving objects or a traversing sensor, it is therefore possible to obtain 3D measurement values. |
Precise laser scanners for automation, robotics and machine building The scanCONTROL laser scanners detect, measure and evaluate profiles on various object surfaces with high precision. With different laser types and comprehensive accessories, numerous measurement tasks can be solved in different industries. The principle of laser line triangulation Laser scanners - often referred to as profile sensors - use the laser triangulation principle for two-dimensional profile detection on different target surfaces. By using special lenses, a laser beam is enlarged to form a static laser line and is projected onto the target surface. The receiving optics projects the diffusely reflected light of this laser line onto a highly sensitive sensor matrix. In addition to distance information (z-axis), the controller also uses this camera image to calculate the position along the laser line (x-axis). These measured values are subsequently output in a two-dimensional coordinate system that is fixed with respect to the sensor. In the case of moving objects or a traversing sensor, it is therefore possible to obtain 3D measurement values. |
Precise laser scanners for automation, robotics and machine building The scanCONTROL laser scanners detect, measure and evaluate profiles on various object surfaces with high precision. With different laser types and comprehensive accessories, numerous measurement tasks can be solved in different industries. The principle of laser line triangulation Laser scanners - often referred to as profile sensors - use the laser triangulation principle for two-dimensional profile detection on different target surfaces. By using special lenses, a laser beam is enlarged to form a static laser line and is projected onto the target surface. The receiving optics projects the diffusely reflected light of this laser line onto a highly sensitive sensor matrix. In addition to distance information (z-axis), the controller also uses this camera image to calculate the position along the laser line (x-axis). These measured values are subsequently output in a two-dimensional coordinate system that is fixed with respect to the sensor. In the case of moving objects or a traversing sensor, it is therefore possible to obtain 3D measurement values. |
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| Application |
scanCONTROL Red laser scanners are ideally suitable for numerous measurement tasks. Due to higher light intensity and improved performance on poorly reflecting or matt surfaces especially for fast object movements, red laser scanners are perfect for common measurement tasks.
For profile measurements on red-hot glowing metals as well as transparent and organic surfaces, laser scanners with blue laser line are recommended. While allowing higher stability, the blue laser light does not penetrate the measurement object due to the shorter wavelength of the blue-violet laser. Compared to red lasers, blue laser sensors ensure higher reliability with measurements on red-hot glowing, organic and (semi-)transparent objects.
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scanCONTROL Red laser scanners are ideally suitable for numerous measurement tasks. Due to higher light intensity and improved performance on poorly reflecting or matt surfaces especially for fast object movements, red laser scanners are perfect for common measurement tasks.
For profile measurements on red-hot glowing metals as well as transparent and organic surfaces, laser scanners with blue laser line are recommended. While allowing higher stability, the blue laser light does not penetrate the measurement object due to the shorter wavelength of the blue-violet laser. Compared to red lasers, blue laser sensors ensure higher reliability with measurements on red-hot glowing, organic and (semi-)transparent objects.
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scanCONTROL Red laser scanners are ideally suitable for numerous measurement tasks. Due to higher light intensity and improved performance on poorly reflecting or matt surfaces especially for fast object movements, red laser scanners are perfect for common measurement tasks.
For profile measurements on red-hot glowing metals as well as transparent and organic surfaces, laser scanners with blue laser line are recommended. While allowing higher stability, the blue laser light does not penetrate the measurement object due to the shorter wavelength of the blue-violet laser. Compared to red lasers, blue laser sensors ensure higher reliability with measurements on red-hot glowing, organic and (semi-)transparent objects.
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scanCONTROL Red laser scanners are ideally suitable for numerous measurement tasks. Due to higher light intensity and improved performance on poorly reflecting or matt surfaces especially for fast object movements, red laser scanners are perfect for common measurement tasks.
For profile measurements on red-hot glowing metals as well as transparent and organic surfaces, laser scanners with blue laser line are recommended. While allowing higher stability, the blue laser light does not penetrate the measurement object due to the shorter wavelength of the blue-violet laser. Compared to red lasers, blue laser sensors ensure higher reliability with measurements on red-hot glowing, organic and (semi-)transparent objects.
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| Additional Information |
Blue Laser patent protection with red-hot glowing and transparent surfaces Measurements involving blue laser scanners on red-hot glowing objects exceeding 700 °C and (semi-)transparent objects are protected by patent law. Transparent objects include plastics, glass, adhesives, silicones, paints, coatings, Plexiglas and seals. Any questions about Blue Laser scanners? We will be pleased to advise you. Sensor for series applications scanCONTROL 25xx laser scanners are designed for industrial measurement tasks. The combination of compact design, versatility and signal stability enables an excellent price/performance ratio, especially for measurement tasks involving large quantities. COMPACT and SMART performance classes for automation The COMPACT sensors (scanCONTROL 2500) are integrated in the customer software to transmit the raw profiles. Therefore, numerous libraries including detailed documentation are available. In addition, direct integration into industrial image processing systems is possible since the sensors operate according to the international GigE Vision standard which enables individual integration of the scanners. The SMART sensors (scanCONTROL 2510) are parameterized via the scanCONTROL Configuration Tools software and deliver direct measurement results without requiring any additional computer or controller. The sensor autonomously executes up to 4 measuring programs in parallel while delivering 4 measurement results per profile. The scanCONTROL 2510 scanners are suitable for versatile profile measurement tasks. They measure and evaluate angles, steps, gaps, distances, extreme values and many more. Comprehensive accessories for numerous measurement tasks With three measuring ranges and comprehensive accessories including protective housings, cable types and interface converters, the scanCONTROL 25xx models are ideal for series integration in production lines and machine building. |
Blue Laser patent protection with red-hot glowing and transparent surfaces Measurements involving blue laser scanners on red-hot glowing objects exceeding 700 °C and (semi-)transparent objects are protected by patent law. Transparent objects include plastics, glass, adhesives, silicones, paints, coatings, Plexiglas and seals. Any questions about Blue Laser scanners? We will be pleased to advise you. Sensor for series applications scanCONTROL 25xx laser scanners are designed for industrial measurement tasks. The combination of compact design, versatility and signal stability enables an excellent price/performance ratio, especially for measurement tasks involving large quantities. COMPACT and SMART performance classes for automation The COMPACT sensors (scanCONTROL 2500) are integrated in the customer software to transmit the raw profiles. Therefore, numerous libraries including detailed documentation are available. In addition, direct integration into industrial image processing systems is possible since the sensors operate according to the international GigE Vision standard which enables individual integration of the scanners. The SMART sensors (scanCONTROL 2510) are parameterized via the scanCONTROL Configuration Tools software and deliver direct measurement results without requiring any additional computer or controller. The sensor autonomously executes up to 4 measuring programs in parallel while delivering 4 measurement results per profile. The scanCONTROL 2510 scanners are suitable for versatile profile measurement tasks. They measure and evaluate angles, steps, gaps, distances, extreme values and many more. Comprehensive accessories for numerous measurement tasks With three measuring ranges and comprehensive accessories including protective housings, cable types and interface converters, the scanCONTROL 25xx models are ideal for series integration in production lines and machine building. |
Blue Laser patent protection with red-hot glowing and transparent surfaces Measurements involving blue laser scanners on red-hot glowing objects exceeding 700 °C and (semi-)transparent objects are protected by patent law. Transparent objects include plastics, glass, adhesives, silicones, paints, coatings, Plexiglas and seals. Any questions about Blue Laser scanners? We will be pleased to advise you. Sensor for series applications scanCONTROL 25xx laser scanners are designed for industrial measurement tasks. The combination of compact design, versatility and signal stability enables an excellent price/performance ratio, especially for measurement tasks involving large quantities. COMPACT and SMART performance classes for automation The COMPACT sensors (scanCONTROL 2500) are integrated in the customer software to transmit the raw profiles. Therefore, numerous libraries including detailed documentation are available. In addition, direct integration into industrial image processing systems is possible since the sensors operate according to the international GigE Vision standard which enables individual integration of the scanners. The SMART sensors (scanCONTROL 2510) are parameterized via the scanCONTROL Configuration Tools software and deliver direct measurement results without requiring any additional computer or controller. The sensor autonomously executes up to 4 measuring programs in parallel while delivering 4 measurement results per profile. The scanCONTROL 2510 scanners are suitable for versatile profile measurement tasks. They measure and evaluate angles, steps, gaps, distances, extreme values and many more. Comprehensive accessories for numerous measurement tasks With three measuring ranges and comprehensive accessories including protective housings, cable types and interface converters, the scanCONTROL 25xx models are ideal for series integration in production lines and machine building. |
Blue Laser patent protection with red-hot glowing and transparent surfaces Measurements involving blue laser scanners on red-hot glowing objects exceeding 700 °C and (semi-)transparent objects are protected by patent law. Transparent objects include plastics, glass, adhesives, silicones, paints, coatings, Plexiglas and seals. Any questions about Blue Laser scanners? We will be pleased to advise you. Compact design for precise measurement tasks The design of the LLT 29xx series is focused on compact size and low weight. The controller is integrated in the housing, simplifying cabling arrangements and mechanical integration. Due to its compact design and the high profile resolution, the LLT29xx series is especially suitable for static, dynamic and robotic applications. Interfaces for universal integration The multi-function port can be used for power supply, as data output, for switching parameters, as trigger input or for synchronizing several scanCONTROL sensors. During synchronous operation, an integrated mode can be used to operate the sensors alternately compensating for overlapping laser lines. One scanner is measuring whilst the other laser line is switched off. The scanners can be supplied via Ethernet if necessary. If Industrial Ethernet is used as data output, only one cable will remain that connects the sensor to the periphery. For all SMART sensors, the measurement data output can be carried out in three different ways, e.g., via Ethernet UDP, Modbus TCP or serial. Micro-Epsilon converters enable data transmission via analog signals, digital switching signals, PROFINET, Ethernet/IP or EtherCAT. Small measuring range with high resolution With a laser line of just 10 mm, the LLT29xx-10/BL models recognize the finest of details and structures. The high profile resolution combined with the blue laser line allow for maximum precision destined for versatile applications, e.g., in the electronics production. Available with patented Blue Laser Technology The Blue Laser technology uses a laser diode with a shorter wavelength of 405 nm. The outstanding characteristics of this wavelength range enable measurements on red-hot glowing metals, (semi-)transparent and organic objects. |
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