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| The Microtrak II is a state of the art CMOS laser triangulation sensor for precise measurements of displacement, position, vibration and thickness. It is unaffected by surface texture, color or stray light. Measurement ranges are up to 40 mm at a standoff distance of 120 mm. |
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The Microtrak II high speed stand-alone laser head utilizes the latest CMOS / CCD technologies and is ideal for industrial/process automation and quality control applications. With the new Microtrak Stand-alone Laser Heads, a
controller is no longer required to obtain fast, accurate and
reliable measurements from a laser triangulation sensor. |
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| The non-contact displacement sensors in the optoNCDT series operate according to the triangulation principle. Different models are suitable depending on the requirement. From the low-cost model to the ultrafast precision sensor. Measuring ranges from 2 mm to 750 mm are available. The product group is distinguished by resolutions from 0.03 µm to 300 µm and linearity between 1 µm and 1200 µm. Sensors for special surfaces such as shiny metals round off the range. The many times proven function for real-time surface compensation of changing reflection characteristics, RTSC, provides maximum signal quality in the market. |
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What is a laser?
Laser light consists of light waves of identical length which have a defined phase relation (coherence).
Laser systems also have a relatively small angle of radiation.
What are the distinctive features of laser systems?
Laser systems are used where detection of small objects or precise positioning is required. Due to the small angle of divergence this can be achieved over long ranges.
How dangerous are laser sensors?
Due to the small angle of divergence laser beams are focussed on a small area. The energy and power density on this area is extremely high. Depending on the technical data of the laser transmitter, this is a risk for human health, specially for the eye. ifm laser sensors conform to the Euro standard EN60825 and the international standard IEC60825. These standards describe the operation of laser systems. In the standard laser systems are divided in 5 classes.
ifm laser sensors are classified in the laser protection class 2. Thus the laser power, also in the setting mode is max. 1 mW. When the laser beam hits the human eye the eyelid is instinctively closed. When hitting the unprotected eye the laser beam must cause no damage within a time of 0.25 s. |
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With our new Laser-Distance Sensors DLS-B you measure absolute distances up to 500 meters. Thanks to state of the art laser technology the DLS-B device measures with a precision of 1.5 millimeters. It represents a cost efficient solution even at extreme environment temperatures as low as -40° C.
The DLS-B is an optical measuring device. You can measure, maintenance-free, distances on natural and reflective surfaces. You determine positions on objects difficult to access or with very high surface temperatures. Just as well you can measure distances in an aggressive environment in an easy and accurate way.
Serial, analog and digital interfaces are standard features for the complete DLS-B product line. This enables you to easily connect the DLS-B to a control system (SPS, IPC or PC)
The DLS-B device runs in a “Stand-alone-mode” and independently executes all programmed functions. Thanks to the flexible range of functions an external display can be connected directly to the DLS-B device via interface RS232 or RS422. Via a digital input, measurements can also be activated from an external button or switch.
For easy configuration of the DLS-B devices, the necessary software is at your disposal |
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The ODS Red-line program is a series of sensors based on optical triangulation, with different measuring ranges and resolutions. All made to be used environments, ranging from the very hot and harsh applications in the heavy industry to delicate applications in the laboratory. Some models are particularly appropriate for cold or hot rolling of steel and metals. The ODS Red-line sensors are used either for larger measuring ranges or for applications where a long stand-of distance is needed along with high resolution.
Nine different measuring ranges are available, the smallest cover 450 to 550 mm and the largest 2000 to 4000 mm. ODS Red-line sensors are available with measuring frequencies of 1 kHz, 2 kHz and 5 kHz. Higher measuring frequencies deliver shorter distance between the individual measuring points on a moving target, and also increase the possibility of averaging sufficiently to obtain the required high resolution.
All ODS Red-line sensors are supplied with a Select functionality, allowing the sensor to be programmed to calculate a user defined running average. Free software provides easy setting of the Select parameters.
For further information please study the PDF/datasheet on our website www.sensor.dk
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| SLS is an internal battery-powered optical speed sensor utilizing a visible 3R laser to produce a TTL pulse output. Operating range up to 65 feet (19.8m) with reflective tape and up to 3 feet (1m) off contrasting color targets, keyways, bolt heads or blades. The "smart" feature provides auto gain for best performance in any light. SLS also offers manual tuning for precise triggering of portable data collectors, analyzers and balancers. Comes complete with universal re-charger and tripod mounting bushing. |
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| The ARCoptix Velocimeter is a unique non-contact speed sensor that allows to measure smallest variations in the dynamics of a mechanical systems as for example watch oscillator. The working principle is based on interferometric “self mixing” effect in laser diodes. Light emitted by a laser diode and reflected from a moving object will lead to a modulation within the emitting diode. Such modulations can be detected and used for real time speed measurements. This new principle has high performance and is cost-effective. |
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It is Sistema di Linear Calibrazione Compact for movement measures and calibration of blots tools, CMM or tables XY. The Software allows the operator to collect automatically the data of linear positioning in agreement with the several international Standards comprised ISO, VDI and automatic B5.Compensazione ASTHMA of Temp. Material, Temp. and Pressio_
of Air. Field 15m (opzione50m). Precision 1ěm/m (1ppm) |
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| Optodyne's VS-5020 Vibration Sensor is a noncontact, highly sensitive means of measuring displacement, velocity, and acceleration. Performing as a storage oscilloscope for mechanical vibration, the VS-5020 meets precision engineering requirements of microelectronic, aerospace, automotive, and R&D applications. A two-axis system, the VS-5020 provides measurement accuracy of 1 ppm, resolution to 0.1 microinch, speed up to 200 in/sec, and frequency response from do to 400 kHz. The extremely high signal-to-noise ratio of this two-axis system permits the user to measure simultaneously both target and background phenomena, while maintaining the integrity of each measurement. |
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| The Microtrak II is a state of the art CMOS laser triangulation sensor for precise measurements of displacement, position, vibration and thickness. It is unaffected by surface texture, color or stray light. Measurement ranges are up to 40 mm at a standoff distance of 120 mm. |
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Reference: PS1 L 965 S
Sensing distance adjustable from 50 to 300 mm
Supply : 10 / 30 VDC
Outputs : PNP / NPN
Time-delay of output signal
High accuracy
Description
Emission by visible red light
Spot size by adjustable focus
Distance adjustment by precision screw
Direct and inverse function
Programmable timer to 40 ms max
Class 2 LASER
On / Off function
Applications :
Control of small parts on a production machine
Detection of compenents on a printed circuit
Presence control of crack in a part
Level control
Elimination of background |
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SmartTRACK™
API´s SmartTRACK™ is a break-through for measurements and alignments of large parts and assemblies. API´s SmartTRACK™ Sensor in combination with an API Laser Tracker provides you with the position (X, Y, Z) AND the rotational orientation (pitch, yaw, roll angles) in real time!. For 6DOF only one Laser Tracker is needed - instead of three.
The SmartTRACK™ Sensor in operation
A motorized receiver within the SmartTRACK™ Sensor tracks the laser beam providing object pitch and yaw information in real-time. A proprietary roll detection system provides object roll angle. The SmartTRACK™ Sensor greatly simplifies instrument and software complexity to perform intricate alignment tasks.
SmartTRACK™ - range of application:
Machine tool calibation, 5 axis
CMM and robot calibration
Measurement of hidden points
With intelligent accessories such as the SmartTRACK™ Sensor you can substantially extend the range of application of your API Laser Tracker
Unbeatable portability
Weighing only 1.4kg (3.1lbs), the compact SmartTRACK™ Sensor makes it ideal for direct mounting on alignment fixtures and robot arms. Together with the T3™ Laser Tracker from API the SmartTRACK™ is one of the most compact systems on the market. |
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Automatically controlling molten metal pouring processes can provide significant returns in terms of reduced cost, improved throughput and quality – as well as the ability to remove operators from dangerous environments.
LMI sensors are broadly used to provide accurate, sub-millimeter level information from the molten metal surface during pouring, in spite of the hostile smoky, high temperature environment
Our Metal applications division works closely with System Integrators & Original Equipment Machine Suppliers to deliver the most effective solutions for their particular sensor vision needs.
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With our new Laser-Distance Sensors DLS-B you measure absolute distances up to 500 meters. Thanks to state of the art laser technology the DLS-B device measures with a precision of 1.5 millimeters. It represents a cost efficient solution even at extreme environment temperatures as low as -40° C.
The DLS-B is an optical measuring device. You can measure, maintenance-free, distances on natural and reflective surfaces. You determine positions on objects difficult to access or with very high surface temperatures. Just as well you can measure distances in an aggressive environment in an easy and accurate way.
Serial, analog and digital interfaces are standard features for the complete DLS-B product line. This enables you to easily connect the DLS-B to a control system (SPS, IPC or PC)
The DLS-B device runs in a “Stand-alone-mode” and independently executes all programmed functions. Thanks to the flexible range of functions an external display can be connected directly to the DLS-B device via interface RS232 or RS422. Via a digital input, measurements can also be activated from an external button or switch.
For easy configuration of the DLS-B devices, the necessary software is at your disposal |
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In comparison with conventional LED through-beam sensors, laser through-beam sensors are distinguished above all by the high accuracy of their optics. As a result, there is a precise switch point anywhere between the sender and the receiver. In addition, thanks to the narrowly focused beam, very small objects can be detected. Also impressive with the new Contrinex laser through-beam sensors are the long operating distance of 50 m and the high switching frequency of 5 kHz. Sensitivity setting is by means of a potentiometer. The sharply concentrated red laser beam (660 nm) simplifies alignment, since the light spot is clearly visible even at long distances and in ambient light. The devices are built into a short, robust M18 metal housing of stainless steel and have an excess light indicator.
Versions are available either with changeover outputs or with excess light output (light-ON). Contrinex laser switches are, moreover, particularly cost efficient. |
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O2DS Scanner measures where others give up - think of hot rolled steel.
The O2DS scanner is an optoelectronic unit for non-contact precision measurement in two dimensions, developed for 2D- / profile-measurement in all kinds of industrial applications.
The O2DS is a laser scanner of the Flying Spot type. The measurement is performed by oscillating the triangulation plane over an angel up to 50°. A fine focused/collimated laser beam is diffusely reflected from the surface of almost any kind of object, and a CCD-camera records the image through an objective.
The measuring frequency is 2 kHz. Different scanning angels can be combined with four different measuring ranges. The smallest range covers 80 to 180 mm and the largest 380 to 1080 mm. The smaller the measuring range is, the higher the resolution will be.
As well as the ODS sensors, the 02DS scanner can be delivered as HT (high temperature) models for measuring on objects with surface temperature up to about 1200°C. Used under such conditions, precautions must be taken to protect the scanner from the heat.
Scanners can furthermore be customized to other than standard scan angels and measuring ranges.
For more detailed information please study the PDF/datasheet on our website www.sensor.dk
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Simtronics is pleased to announce the put on the market of the GD1, a new generation of open path detector.
The GD1 innovates by creating a new standard of toxic gas detection. At the heart of the detector is a tuneable laser diode that eliminates environmental effects from sun, rain, and fog. The laser scans single absorption lines where there is no interference from other gases. This new technology constitutes an important progress with exceptional performances and a extreme reduced maintenance.
Unlike traditional methods for detecting H2S (MOS or EC cell), the GD1 needs no recalibration and can replace multiple standard detectors to cover the same risk. Compared to traditional detectors the GD1 offers:
• Faster detection
• Reduced maintenance
• A life calibration
• Fast acting
The GD1 is also available with a dual output gas configuration, Methane and Hydrogen Sulphide.
Supplied with worldwide hazardous area approvals. Suitable for use in SIL 2 systems.
With its level of detection lower than 5ppm and it is faster response time (T90 < 5 sec) the GD1 is ideal to ensure the personnel safety on petrochemical installations onshore or offshore or for the sites of treatment of waster water.
Furthermore, the GD1 offers real cost savings, using a single transmitter / receiver pair, the detector covers distances of up to 100 metres. Installation and maintenance costs are reduced as fewer devices are needed to cover the same risk as several point detectors.
As with all Simtronics’ products, the GD1 is designed for early detection of hazardous events. It’s built to work safely in extreme areas and withstand the hardest environments onshore and offshore. |
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