Produkty dla instrumenty (178)

Imagerie infrarouge et profils thermiques pour applications industrielles - Le scanner en ligne Raytek MP150 permet de mesurer en continu la température de procédés défilants et de la visualiser sous forme de thermogrammes et de profils thermiques ; dans le cadre de l’asservissement de procédés et de la surveillance qualité. — Thermogrammes en temps réel et en couleurs — Vitesse de scrutation de 150 lignes par seconde — Jusqu’à 1024 points de mesure sur une même ligne — Optique de 200:1 pour les modèles 1M et 2M — Laser linéaire intégré — Ethernet TCP/IP communication — Moteur sans balais d‘une durée de vie moyenne de 40.000 h — Soufflage d‘air à l‘avant et refroidissement à eau Le logiciel DataTemp DP permet de subdiviser les thermogrammes enregistrés par le scanner MP150 en secteurs ou en zones. Les températures de ces zones peuvent ensuite être analysées à l’aide d’un grand nombre de fonctions mathématiques intégrées dans le logiciel (Max., Min., Moyenne, ...). En cas de dépassement des valeurs, le logiciel émet une alarme. Domaine spectral:1 µm...5 µm (selon modèle) Etendue de mesure:20 °C...1200 °C (selon modèle) (avec option à 3000°C sur demande) Vitesse de scrutation:Jusqu’à 150 lignes par seconde Points de mesure sur une même ligne:Jusqu’à 1024 Résolution optique:Jusqu’à 200:1 Interface:Ethernet TCP/IP (100 Mbit/s), OPC, DDE, module de sortie analogique/ numérique, RS485 Classe de protection:IP65 (NEMA4) Température ambiante:Jusqu’à 180 °C Champ de visée:90° Alimentation:24 VDC ± 25 %, 1 A

The CryLaS Q-series lasers are diode-pumped solid-state lasers (DPSS lasers) based on a microchip design. It consists of a Nd:YAG resonator with a directly coupled saturable absorber that works as a passive Q-switch. The compact housing and simple operation make the lasers an ideal light source for applications that require minimal housing dimensions with maximum performance. Based on the 1064 nm fundamental, non-linear optics (NLO optics) generate frequency multiples of this fundamental, covering a broad spectrum of laser wavelengths from 1064 nm to 213 nm. The FQSS266-Q1 laser emits pulses with a pulse width of approx. 1 ns at 266 nm and can be modulated from single shot to 20 kHz. The pulse energy is 0.3 µJ. CryLaS lasers impress with their simple installation, service-free operation and long service life. This makes them ideal for OEM applications and demanding laboratory setups. Wavelength:266 nm Pulse energy:0.3 µJ Peakpower:0.3 kW Pulse Width:1 ns Average Power:4.5 mW Repetition Rate:20 kHz Beam diameter:0.8 mm Spatial Mode:TEM00 Application:Holography, engraving, photo acoustics, LIBS, mass spectroscopy, photo luminescence

Thermal imaging system designed to monitor rotary cement kiln, detect hot spots - Kiln shell temperatures are monitored along the entire length of the kiln. The infrared line-scanning system detects kiln hot spots due to refractory loss, damage, or wear. Data from up to 4 scanners or individual point sensors (optionally used to monitor the burning zone and tire slips) can be seamlessly integrated into one complete thermal image. Detect abnormal operating conditions such as faulty flame position and shape! Optimize and manage kiln maintenance! Extend the operational life of kiln and refractory! Automated kiln and refractory monitoring Visualisation on PC Ethernet TCP/IP interface PC-independent alarm output Analog outputs 3 x 4 – 20mA To ensure reliable operation in even the harshest kiln environments, the MP150 linescanner, which is used in the CS210 thermal imaging system system, is designed with a rugged cast aluminum housing and mounted in a robust stainless-steel enclosure. Measured temperature range:100...650 °C (burning zone 700...1800 °C) Temperature resolution:0.1 K Accuracy:±0.5% of reading or ±3 °C Spot detection (50% of energy):450 : 1 (2.2 mradians) Sampling rate:1024 pixel per scan line (2048 for CS212) Ambient operating temperature:-40...45 °C (no direct sunlight) Ambient temperature - position indicator:-25 to 230 ºC Zone alarms:48 software, 3 hardware (PC independant) Kiln rotation rate:Up to 10 rpm LRM accessory:Supports up to 6 tires Fan Control accessory:Supports up to 16 fans per module (48 total) Communication:Ethernet TCP/IP Analog output:3 x 4 – 20 mA Alarm output:Relay, contacts: 30 V, 1 A Power supply:24 VDC ± 25 %, 1 A

The CryLaS Q-series lasers are diode-pumped solid-state lasers (DPSS lasers) based on a microchip design. It consists of a Nd:YAG resonator with a directly coupled saturable absorber that works as a passive Q-switch. The compact housing and simple operation make the lasers an ideal light source for applications that require minimal housing dimensions with maximum performance. Based on the 1064 nm fundamental, non-linear optics (NLO optics) generate frequency multiples of this fundamental, covering a broad spectrum of laser wavelengths from 1064 nm to 213 nm. The FTSS355-Q1 laser emits pulses with a pulse width of approx. 1 ns at 355 nm and can be modulated from single shot to 20 kHz. The pulse energy is 0.3 µJ. CryLaS lasers impress with their simple installation, service-free operation and long service life. Wavelength:355 nm Pulse energy:0.3 µJ Peakpower:0.3 kW Pulse Width:1 ns Average Power:4.5 mW Repetition Rate:20 kHz Beam diameter:0.2 mm Spatial Mode:TEM00 Application:Holography, engraving, photo acoustics, LIBS, mass spectroscopy, photo luminescence

The eMOPA product series is based on a diode-pumped, passively Q-switched solid-state laser as the master oscillator and a downstream diode-pumped power amplifier with a patented optical design. Wavelengths from the DUV to the green spectral range can be generated for this series: 213 nm, 266 nm, 355 nm and 532 nm. The eMOPA266-40 emits pulses with a pulse width of around 1 ns and 40 µJ pulse energy. The average output power is 40 mW in transverse single-mode operation at a wavelength of 213 nm and peak pulse powers of >50 kW. The repetition rate can be adjusted from single shot to a maximum of 1 kHz by external triggering or the supplied software. The eMOPA is ideal for 24/7 industrial use and is primarily used in ophthalmology. By adapting the lasers to the requirements of our customers, a wide range of applications is possible, such as photoacoustics and ophthalmological markings. Application:Marking, engraving, ophthalmology, photoacoustics, LIBS, mass spectroscopy Wavelength:266 nm Pulse energy:40 µJ Peakpower:> 50 kW Pulse Width:1 ns Average Power:40 mW Repetition Rate:1 kHz Beam diameter:< 0.8 mm Spatial Mode:TEM00

Wärmebildsystem für Bandprozesse in Metall-, Kunststoff-, Papier-, Glasindustrie - Wärmebildsystem auf Basis des Infrarot-Zeilenscanners Raytek MP150 Automatische Temperaturüberwachung von Bandprozessen Aussagekräftige Wärmebilder basierend auf 40.000 Messpunkten je Sekunde Festlegung produktspezifischer Konfigurationen Automatische Qualitätsüberwachung Schnelles Erkennen von Materialfehlern AUSGEWÄHLTE ANWENDUNGEN Metall: Warmwalzen und Stranggießen; Lackieren und Beschichten Kunststoff: Folienextrusion und Extrusionsbeschichtungen; Laminieren und Umformen Glas: Überwachung der Flachglasherstellung; Produktion von Glaswolle Papier: Beschichten und Laminieren; Trocknen von Wellpappe AUSSTATTUNGSMERKMALE Ethernet-TCP/IP-Schnittstelle direkt am Gerät Analogausgänge 3 x 4 – 20mA PC-unabhängiger Alarmausgang Visualisierung am PC Mehrsprachige Software Wiedergabe gespeicherter Wärmebilder als “Video” Automatische Temperaturanalyse in selbst definierten Sektoren Integrierter OPC-Server für Fernsteuerung des Systems Analoge/digitale Ausgabemodule Optische Auflösung:Bis zu 200:1 (90% Energie) Messtemperaturbereich:20 – 1.200 °C Sichtfeld:90° Messpunkte pro Zeile:Bis zu 1024 Zeilenfrequenz:Bis zu 150 Hz Umgebungstemperatur:0 – 50 °C, mit Wasserkühlung bis 180 °C Schnittstellen:Ethernet TCP/IP (100 Mbit/s(, OPC, DDE, analoge/digitale Ausgabe, RS485

The CryLaS Q-series lasers are diode-pumped solid-state lasers (DPSS lasers) based on a microchip design. It consists of a Nd:YAG resonator with a directly coupled saturable absorber that works as a passive Q-switch. The compact housing and simple operation make the lasers an ideal light source for applications that require minimal housing dimensions with maximum performance. Based on the 1064 nm fundamental, non-linear optics (NLO optics) generate frequency multiples of this fundamental, covering a broad spectrum of laser wavelengths from 1064 nm to 213 nm. The FDSS532-Q4 laser emits pulses with a pulse width of approx. 1 ns at 532 nm and can be modulated from single shot to 1 kHz. The pulse energy is 42 µJ. CryLaS lasers impress with their simple installation, service-free operation and long service life. Wavelength:532 nm Pulse energy:42 µJ Peakpower:42 kW Pulse Width:1 ns Average Power:42 mW Repetition Rate:1 kHz Beam diameter:0.4 mm Spatial Mode:TEM00 Application:Holography, engraving, photo acoustics, LIBS, mass spectroscopy, photo luminescence

Our Master Oscillator Power Amplifier - MOPA for short - series contains a diode-pumped power amplifier in addition to a DPSS laser. High peak or high average power - just as your application requires. Due to the special technical design of the laser system, it works in transverse single-mode operation with high peak-to-peak pulse power stability, good average power stability and a short pulse duration of around 1 to 2 ns. The laser can be triggered either via an external signal source or via an internal oscillator using software commands. The MOPA355-500mW is a quasi-CW MOPA with a maximum repetition rate of 20 kHz. It delivers 25 µJ single pulse energy and an average power of up to 500 mW. The pulse energy can be set via simple terminal or software commands. The laser system is suitable for laser marking and processing as well as for applications in analytical measurement technologies. Wavelength:355 nm Pulse energy:25 µJ Peakpower:20 kW Pulse Width:1.2 ns Average Power:500 mW Repetition Rate:20,000 kHz Beam diameter:0.5 mm Spatial Mode:TEM00 Application:Marking, ophthalmology, photoacoustics, LIBS, mass spectroscopy

The CryLaS High-Power series lasers are diode-pumped solid-state lasers (DPSS lasers) based on a microchip design. It consists of a Nd:YAG resonator with a directly coupled saturable absorber that works as a passive Q-switch. As the historically first development of CryLaS GmbH, the lasers are widely used in industrial and scientific application. They impress with their reliability, especially in the OEM business, and offer high pulse power with comparatively small housing dimensions. Thanks to frequency conversion, the lasers are available from IR to DUV. The FDSS532-1000 laser delivers 1 mJ pulse energy at a repetition rate of 20 Hz and a pulse width of 1.8 ns, i.e. a peak pulse power of 550 kW. CryLaS lasers impress with their simple installation, service-free operation and long laser lifetime. They are the ideal tool for OEM applications and demanding scientific lab use. Wavelength:532 nm Pulse energy:1000 µJ Peakpower:550 kW Pulse Width:1.8 ns Average Power:20 mW Repetition Rate:single shot ... 80 Hz Beam diameter:1 mm Spatial Mode:TEM00 Application:Ablation, laser-induced breakdown spectroscopy, photoacoustics

The CryLaS Q series lasers are diode-pumped solid-state lasers (DPSS lasers) based on a microchip design. This consists of an Nd:YAG resonator with a directly coupled saturable absorber which works as a passive Q-switch. The compact housing and easy operation make the lasers an optimum light source for applications that require minimal housing dimensions with highest performance. Based on the 1064 nm fundamental, harmonics are generated using non-linear (NLO) crystals that allow a wide spectrum of laser wavelengths from 1064 nm to 213 nm. The FQSS213-Q1 laser emits pulses with approximately 1 ns pulse width at 213 nm, and can be modulated from single shot to 20 kHz. The pulse energy is 0.05 µJ. CryLaS lasers impress with their easy installation, service-free operation and long service life. This makes them ideal for OEM applications and demanding laboratory setups. Wavelength:213 nm Pulse energy:0.05 µJ Peakpower:0.05 kW Pulse Width:1 ns Average Power:0.75 mW Repetition Rate:20 kHz Beam diameter:< 0.4 mm Spatial Mode:TEM00 Application:Holography, engraving, photo acoustics, LIBS, mass spectroscopy, photo luminescence

The Raytek MP150 infrared linescanner is designed for temperature monitoring in demanding industrial environments. It generates accurate thermal images of moving objects, scanning up to 90° wide fields of view with a motorized mirror at up to 1024 points per line and at a max. 150 Hz frequency. An internal high-speed microprocessor calculates the temperature of the individual measurement points. — Real-time thermal line-scanner system for continuous or discrete process measurements — Optical resolution up to 200:1 — Built-in line laser for rapid alignment — On-board Ethernet TCP/IP communication — Wide choice of models and spectral responses The Raytek MP150 includes provision for air or water-cooling, three configurable analog outputs, and two-way digital communications. It can be used in standalone mode, connected to a single PC or integrated into a process control system using the Windows-based DataTemp DP software for remote configuration and real-time process monitoring. Measured temperature range:20 °C...1200 °C (dependent on model) (up to 3000°C option on request) Spectral range:1 µm...5 µm (dependent on model) Scan rate:Up to 150 lines per second Measurement points per line:Up to 1024 Optical resolution:Up to 200:1 Interfaces:Ethernet TCP/IP (100 Mbit/s), OPC, DDE, analog/digital output, RS485 Ingress protection:IP65 (NEMA4) (rugged enclosure with air-purge and built-in water cooling capability) Ambient temperature:Up to 180 °C Scanning angle:90° Power supply:24 VDC ± 25 %, 1 A

The DPSS-CW-DUV laser FQCW266-200 delivers an output power of 200 mW in single-mode operation at a wavelength of 266 nm. Other models in the low-power series are available with optical output powers from 10 mW to 200 mW. Compared to the 266 nm CW lasers from other manufacturers, the FQCW266 systems are characterized by a long coherence length of more than 1000 m, a narrow line width of < 300 kHz, and a sealed design that ensures reliable operation without the need for subsequent adjustments of the internal optics. Due to the sealed housing, the lasers require very little maintenance and are particularly suitable for industrial 24/7 operation. The central wavelength is in the range of 266.02 nm and 266.07 nm (in air). The output power can be adjusted from 20 mW to 220 mW in 2 mW increments. The power consumption of the laser is less than 160 W. The laser comes with a software for control of the main functions by a PC. Application:Raman Spectroscopy, Metrology, Wafer Inspection, Photoluminescence, Lithography Wavelength:266 nm Optical power:200 mW Line width:< 300 kHz Beam diameter:< 0.6 mm M2:< 1.3 Divergence:< 0.8 mrad Power consumption:< 100 W typ

Passive Q-switch 532 nm laser with 150 µJ pulse energy at max. 100 Hz rep. rate - The CryLaS High-Power series lasers are diode-pumped solid-state lasers (DPSS lasers) based on a microchip design. It consists of a Nd:YAG resonator with a directly coupled saturable absorber that works as a passive Q-switch. As the historically first development of CryLaS GmbH, the lasers are widely used in industrial and scientific application. They impress with their reliability, especially in the OEM business, and offer high pulse power with comparatively small housing dimensions. Thanks to frequency conversion, the lasers are available from IR to DUV. The FDSS532-150 laser delivers 150 µJ pulse energy at a maximum repetition rate of 100 Hz and a pulse width of 1.2 ns, i.e. a peak pulse power of 125 kW. CryLaS lasers impress with their simple installation, service-free operation and long laser lifetime. They are the ideal tool for OEM applications and demanding scientific lab use. Wavelength:532 nm Pulse energy:150 µJ Peakpower:125 kW Pulse Width:1.2 ns Average Power:15 mW Repetition Rate:single shot ... 100 Hz Beam diameter:0.5 mm Spatial Mode:TEM00 Application:Ablation, laser-induced breakdown spectroscopy, photoacoustics

The CS400 Kiln Shell Imaging System relies on the MP Linescanner, which provides continuous, accurate and real-time thermal images and temperature measurements for moving processes. With the ability to scan up to 1024 data points in a single scan, the MP Linescanner can provide a complete picture of even the highest speed manufacturing processes, ensuring an accurate temperature reading. Key Features: — Polar charts highlighting coating thickness and brick thickness — Envelope profiles – including alarm functionality – over the entire kiln — Built-in, on-network storage to store historical data — Free scalable AOIs (areas, line and slice) including temperature trend analysis — Virtual 3D walkthroughs across the entire kiln — 3D views available per each defined kiln zone — Easy-to-use software configurations that showcase the scanner position relative to the kiln — Flexible image sizing and configurable orientations of rotation — Fail-safe “hot spot” alarm outputs

Un diagnostic thermique pour les procédés continus métallurgie/plastique/verre - Images thermiques détaillées basées sur 40000 points de mesure par seconde Détection rapide et automatique des déplacements et des ondulations des bords, des trous et des déchirures Contrôle précis de la température du film pour une adhésion optimale sur le substrat Contrôle et archivage dans le cadre ISO 9000 Amélioration de la qualité et du rendement Réduction des rebus Surveillance automatique Visualisation par l‘ordinateur Communication Ethernet TCP/IP (sur l‘appareil) 3 sorties 4 – 20 mA Alarmes indépendantes du PC Modules de sorties analogiques ou numériques Serveur OPC pour intégration au système de contrôle de ligne Logiciel multi-langues APPLICATIONS Métal - Laminage, coulées continues, revêtement et peinture Plastique - Extrusion de feuilles et de film, stratification, transformation Verre - Bain & étenderie (verre flotté), production de laine de verre Papier - Revêtement, stratification, séchage des cartons ondulés Résolution optique:200:1 max (90 % énergie) Températures de mesure:20 à 1200 °C Angle de balayage:90° Points de mesure par ligne:1024 Fréquence de ligne:150 Hz max Température ambiante:0 à 50 °C, avec refroidissement par eau à 180 °C Interface:Ethernet TCP/IP (100 Mbit/s), OPC, DDE, module de sortie analogique/ numérique, RS485

The eMOPA product series is based on a diode-pumped, passively Q-switched solid-state laser as the master oscillator and a downstream diode-pumped power amplifier with a patented optical design. Wavelengths from the DUV to the green spectral range can be generated for this series: 213 nm, 266 nm, 355 nm and 532 nm. The eMOPA213-20 emits pulses with a pulse width of around 1 ns and 20 µJ pulse energy. The average output power is 20 mW in transverse single-mode operation at a wavelength of 213 nm and peak pulse powers of >30 kW. The repetition rate can be adjusted from single shot to a maximum of 1 kHz by external triggering or the supplied software. The eMOPA is ideal for 24/7 industrial use and is primarily used in ophthalmology. By adapting the lasers to the requirements of our customers, a wide range of applications is possible, such as photoacoustics and ophthalmological markings. Application:Marking, engraving, ophthalmology, photoacoustics, LIBS, mass spectroscopy Wavelength:213 nm Pulse energy:20 µJ Peakpower:> 30 kW Pulse Width:1 ns Average Power:20 mW Repetition Rate:1 kHz Beam diameter:< 0.6 mm Spatial Mode:TEM00

IR-Zeilenscanner-Wärmebildsystem überwacht Extrusionsprozesse kontinuierlich - Das Wärmebildsystem für Extrusionsprozesse mit einer Düse basiert auf dem Infrarot-Zeilenscanner Raytek MP150. Erfassung aussagekräftiger Wärmebilder basierend auf 40.000 Messpunkten pro Sekunde Automatische Temperaturüberwachung Automatische Qualitätsüberwachung Bahntemperaturüberwachung Höherer Gewinn durch höhere Produktivität Weniger Ausschuss Schnelles Erkennen von „Kantenschlagen” und Löchern in der Schmelze Festlegung produktspezifischer Konfigurationen Automatische Analyse Visualisierung am PC Wiedergabe gespeicherter Wärmebilder als “Video” Mehrsprachige Software Integrierter OPC-Server für Fernsteuerung Ethernet-TCP/IP-Schnittstelle direkt am Zeilenscanner PC-unabhängiger Alarmausgang Analogausgänge 3 x 4 – 20mA Analoge/digitale Ausgabemodule Für Extrusionsprozesse mit mehreren Düsen, z. B. Folienextrusion, bietet Fluke Process Instruments das Wärmebildsystem Raytek ES150. Messtemperaturbereich:100 bis 350 °C Optische Auflösung:225:1 (50 % Energie) Genauigkeit:±3 °C Messpunkte pro Zeile:Bis zu 1024 Umgebungstemperatur:0 bis 50 °C mit Wasserkühlung 180 °C Reproduzierbarkeit:±1 °C Sichtfeld:90° Spannungsversorgung:24 VDC ± 25 %, 1 A Ethernet-Kommunikation:TCP/IP 10/100 Mbit/s Serielle Kommunikation:RS485 Analogausgänge:3 x 4 – 20 mA Alarmausgang:Relais, Kontakte: 30 V, 1 A

Wärmebildsystem zur Überwachung der Oberflächentemperatur von Drehrohröfen - Das System zur automatisierten Überwachung von Drehrohröfen erkennt Hot Spots, die auf fehlerhafte Ausmauerungen schließen lassen. Dadurch können Schäden am Drehrohrofen und kostenintensive Produktionsstopps vermieden werden. Ermittelt anormale Betriebsbedingungen Ermöglicht optimierte Wartung und längere Lebensdauer von Drehrohrofen und Ausmauerung Visualisierung am PC Ethernet-TCP/IP-Schnittstelle PC-unabhängiger Alarmausgang Analogausgänge 3 x 4 – 20mA 3D- und Refractory-Management-Software unterstützt bis zu 4 Linescanner Systemlösung mit OPC-Schnittstelle und leistungsstarker Datenbankfunktionalität Ofenbereiche, die die Linescanner nicht erfassen können, da sie zum Beispiel durch Laufringe verdeckt sind, können mit Punktpyrometern von Fluke Process Instruments überwacht werden. Die Temperaturdaten dieser Sensoren werden nahtlos in das Thermobild integriert. Zusätzlich lässt sich ein spezieller Sensor installieren, der die Brennzone im Drehrohrofen permanent überwacht. Messtemperaturbereich:100...650 °C (Brennzone 700...1800 °C) Temperaturauflösung:0,1 K Genauigkeit:±0,5 % vom Messwert oder ±3 °C Optische Auflösung (50%):450 : 1 (2,2 mrad) Messpunkte je Zeilenscanner:1024 pro Zeile ( 2048 für CS212) Umgebungstemperatur:-40...45 °C (kein direktes Sonnenlicht) Umgebungstemperatur - Positionsgeber:-25 ...230 ºC Alarmzonen:48 Software, 3 Hardware (PC unabhängig) Ofengeschwindigkeit:Bis 10 U/min Laufringmanagement (LRM):Unterstützt bis zu 6 Laufringe Lüftersteuerung:Bis zu 16 Lüfter pro Modul (48 insgesamt) Kommunikation:Ethernet TCP/IP Analogausgänge:3 x 4 – 20 mA Alarmausgang:Relais, Kontakte: 30 V, 1 A Spannungsversorgung:24 VDC ± 25 %, 1 A

Der Infrarot-Zeilenscanner Raytek MP150 ermöglicht die kontinuierliche Messung und Darstellung von Wärmebildern in bewegten Prozessen. — Echtzeitüberwachung von Bandprozessen und diskreten Prozessen — Bis zu 1024 Messpunkte pro Zeile — Abtastgeschwindigkeit von max. 150 Zeilen pro Sekunde — Optische Auflösung bis 200:1 — Eingebauter Linienlaser als Visierhilfe — Integrierte TCP/IP-Ethernet-Schnittstelle — Breite Modellpalette an Spektral- und Temperaturbereichen Die DataTemp DP Software erlaubt die Unterteilung der Wärmebilder in Sektoren oder Zonen. Zur Auswertung der Temperaturen in diesen Teilbereichen stehen umfangreiche Funktionen zur Verfügung (Max, Min, Mittelwert, ...). Bei Überschreitung der zulässigen Grenzwerte meldet die Software einen Alarm. Die Alarmbilder inklusive der zugehörigen Messdaten werden zwecks späterer Analyse automatisch gespeichert. Spektralbereich:1 µm...5 µm (modellabhängig) Messtemperaturbereich:20 °C...1200 °C (modellabhängig; Option bis 3000 °C auf Anfrage) Abtastgeschwindigkeit:Bis zu 150 Zeilen pro Sekunde Messpunkte pro Zeile:Bis 1024 Optische Auflösung:Bis 200:1 Schnittstellen:Ethernet TCP/IP (100 Mbit/s(, OPC, DDE, analoge/digitale Ausgabe, RS485 Schutzart:IP65 (NEMA4) Umgebungstemperatur:Bis 180 °C mit integrierter Wasserkühlung Abtastwinkel:90 °C Spannungsversorgung:24 VDC ± 25 %, 1 A

The CryLaS High-Power series lasers are diode-pumped solid-state lasers (DPSS lasers) based on a microchip design. It consists of a Nd:YAG resonator with a directly coupled saturable absorber that works as a passive Q-switch. As the historically first development of CryLaS GmbH, the lasers are widely used in industrial and scientific application. They impress with their reliability, especially in the OEM business, and offer high pulse power with comparatively small housing dimensions. Thanks to frequency conversion, the lasers are available from IR to DUV. The DSS1064-450 laser delivers 450 µJ pulse energy at a repetition rate of up to 100 Hz and a pulse width of 1.7 ns, i.e. a pulse peak power of 250 kW. CryLaS lasers impress with their simple installation, service-free operation and long laser lifetime. They are the ideal tool for OEM applications and demanding scientific lab use. Wavelength:1064 nm Pulse energy:450 µJ Peakpower:250 kW Pulse Width:1.7 ns Average Power:45 mW Repetition Rate:single shot ... 100 Hz Beam diameter:0.65 mm Spatial Mode:TEM00 Application:Ablation, laser-induced breakdown spectroscopy, photoacoustics

La série de systèmes à balayage ScanIR3 est une famille de scanners trés performants capables de fournir en temps réel des images thermiques précises dans un grand nombre d’applications industrielles que ce soit des procédés défilants ou discontinus. Intuitif et polyvalent, le logiciel ScanView Pro permet un paramétrage rapide et précis du capteur afin d‘obtenir une image ou un profil thermique de grande qualité sur un écran de PC. Caractéristiques: Fréquence de balayage jusqu‘à 150 lignes par seconde Jusqu‘à 1024 points de mesure par ligne Résolution optique jusqu‘à D.200 Entrées et sorties indépendantes d’un PC Communication Ethernet fiable (fibre optique en option) Boîtier solide et étanche avec laser de pointage intégré Moteur de balayage „Brushless“ : MTBF 40 000 h Fenêtre de visée interchangeable sur site Refroidissement et purge intégrés en standard Câble de liaison avec le scanner unique avec connecteur rapide Domaine spectral:1 µm...5 µm (selon modèle) Etendue de mesure:30 °C...1200 °C (selon modèle) (avec option à 3000°C sur demande) Vitesse de scrutation:Jusqu’à 150 lignes par seconde Points de mesure sur une même ligne:Jusqu’à 1024 Résolution optique:D/33 ...D/200 (selon modèle) Interface:Ethernet (fibre optique en option) TCP/IP 10/100 Mbit/s Protection environnementale:IP65 (IEC 60529) Température ambiante de fonctionnement:0 à 50 °C; avec refroidissement à eau intégré 180 °C; avec chauffage interne -40°C Champ de visée:90° Alimentation:100 à 240 Vca, 44 à 66 Hz Boîtiers de traitement:Analogiques, numériques, relais

• Images thermiques en temps réel – jusqu’à 300 balayages par seconde • Jusqu’à 1024 points de mesure par balayage • Large choix de réponses spectrales et de plages de température • Moteur sans balais de haute qualité (MTBF 40 000 h) • Communication Ethernet TCP/IP intégrée • Sortie alarme indépendante du PC • Interfaces 4-20 mA, indépendantes du PC (3 sorties) • Module d’entrée/sorties supportant jusqu’à 10 secteurs/zones (indépendant du PC) • Visée laser intégrée pour alignement précis • Boîtier industriel IP65 pour environnements difficiles • Soufflage d’air intégré pour protection de la fenêtre • Système de refroidissement intégré par eau (Tamb. jusqu’à 180°C) Industrie des métaux:Fonderie; Usine d’agglomération; Coulée continue; Laminage à chaud; Files et barres Matériaux de construction:Cimenterie – Contrôle continu des fours rotatifs; Plaques de plâtre (Placoplâtre); Asphalte Industrie du papier:Papeterie–Pâte à papier; Production de carton; Séchage du papier; Revêtement et pelliculage par extr Industrie des plastiques:Extrusion–Soufflage de films; - de feuille de plastique; Stratific. et embossage de films(feuilles) Industrie du verre:Verre plat–Verre flotté; Trempe de verre plat;Verre Automobile–Formage et feuilletage des parebrises

The CryLaS Q-series lasers are diode-pumped solid-state lasers (DPSS lasers) based on a microchip design. It consists of a Nd:YAG resonator with a directly coupled saturable absorber that works as a passive Q-switch. The compact housing and simple operation make the lasers an ideal light source for applications that require minimal housing dimensions with maximum performance. Based on the 1064 nm fundamental, non-linear optics (NLO optics) generate frequency multiples of this fundamental, covering a broad spectrum of laser wavelengths from 1064 nm to 213 nm. The DSS1064-Q1 laser emits pulses with a pulse width of approx. 1.5 ns at 1064 nm and can be modulated from single shot to 20 kHz. The pulse energy is 10 µJ. CryLaS lasers impress with their simple installation, service-free operation and long service life. Wavelength:1064 nm Pulse energy:10 µJ Peakpower:> 6 kW Pulse Width:1.5 ns Average Power:200 mW Repetition Rate:20 kHz Beam diameter:0.5 mm Spatial Mode:TEM00 Application:Holography, engraving, photo acoustics, LIBS, mass spectroscopy, photo luminescence

Our Master Oscillator Power Amplifier - MOPA for short - series contains a diode-pumped power amplifier in addition to a DPSS laser. High peak or high average power - just as your application requires. Due to the special technical design of the laser system, it works in transverse single-mode operation with high peak-to-peak pulse power stability, good average power stability and a short pulse duration of around 1 to 2 ns. The laser can be triggered either via an external signal source or via an internal oscillator using software commands. The MOPA1064-2000 mW is a quasi-CW MOPA with a maximum repetition rate of 20 kHz. It delivers 140 µJ single pulse energy and an average power of up to 2 W. The pulse energy can be set via simple terminal or software commands. The laser system is suitable for laser marking and processing as well as for applications in analytical measurement technologies. Wavelength:1064 nm Pulse energy:140 µJ Peakpower:63 kW Pulse Width:1.6 ns Average Power:2,000 mW Repetition Rate:20,000 kHz Beam diameter:0.7 mm Spatial Mode:TEM00 Application:Marking, ophthalmology, photoacoustics, LIBS, mass spectroscopy

The CryLaS Q series lasers are diode-pumped solid-state lasers (DPSS lasers) based on a microchip design. This consists of an Nd:YAG resonator with a directly coupled saturable absorber which works as a passive Q-switch. The compact housing and easy operation make the lasers an optimum light source for applications that require minimal housing dimensions with highest performance. Based on the 1064 nm fundamental, harmonics are generated using non-linear (NLO) crystals that allow a wide spectrum of laser wavelengths from 1064 nm to 213 nm. The FQSS213-Q2 laser emits pulses with approximately 1 ns pulse width at 213 nm, and can be modulated from single shot to 10 kHz. The pulse energy is 0.1 µJ. CryLaS lasers impress with their easy installation, service-free operation and long service life. This makes them ideal for OEM applications and demanding laboratory setups. Wavelength:213 nm Pulse energy:0.1 µJ Peakpower:0.1 kW Pulse Width:1 ns Average Power:1 mW Repetition Rate:10 kHz Beam diameter:< 0.4 mm Spatial Mode:TEM00 Application:Holography, engraving, photo acoustics, LIBS, mass spectroscopy, photo luminescence

IR-linescanner-based thermal imaging system for extrusion / lamination processes - Thermal imaging system based on the Raytek MP150 infrared linescanner. Detailed web temperature profile based on 40,000 measurement points per second Automated temperature monitoring Automated quality monitoring for ISO9000 Ensures proper web temperatures for strong film-to-substrate adhesion Enables plant operators to reduce scrap and improve profitability and product quality Quick and automatic detection of “wavy” or “running” edges, gaps, and torn edges Define product-specific configurations (recipes) Automatically analyze “automatic sector” temperature distributions Visualisation on PC Playback stored files as “movie” Multiple language support Integrated OPC server for remote system control Ethernet TCP/IP interface integrated in the line scanning system PC-independent alarm output Analog outputs 3 x 4 – 20mA Analog or digital output modules For sheet extrusion see the Raytek ES150 system. Measured temperature range:100 to 350°C (212 to 662°F) System accuracy:±3°C (6°F) Repeatability ±1°C (2°F):±1°C (2°F) Optical resolution:225 :1 (50% energy) Ambient temperature:0 to 50°C (32 to 122°F); with water cooling 180°C (356°F) Field of view:90° Points per line:Up to 1024 Power supply:24 VDC ± 25 %, 1 A Ethernet communication:TCP/IP Protokoll 10/100 Mbit/s Serial communication:RS485 Analog outputs:3 x 4 – 20 mA Alarm output:Relay, contacts: 30 V, 1 A

The CryLaS High-Power series lasers are diode-pumped solid-state lasers (DPSS lasers) based on a microchip design. It consists of a Nd:YAG resonator with a directly coupled saturable absorber that works as a passive Q-switch. As the historically first development of CryLaS GmbH, the lasers are widely used in industrial and scientific application. They impress with their reliability, especially in the OEM business, and offer high pulse power with comparatively small housing dimensions. Thanks to frequency conversion, the lasers are available from IR to DUV. The FTSS355-50 laser delivers 50 µJ pulse energy at a maximum repetition rate of 100 Hz and a pulse width of 1.3 ns, i.e. a peak pulse power of 60 kW. CryLaS lasers impress with their simple installation, service-free operation and long laser lifetime. They are the ideal tool for OEM applications and demanding scientific lab use. Wavelength:355 nm Pulse energy:50 µJ Peakpower:60 kW Pulse Width:1.3 ns Average Power:7 mW Repetition Rate:single shot ... 100 Hz Beam diameter:0.3 mm Spatial Mode:TEM00 Application:Ablation, laser-induced breakdown spectroscopy, photoacoustics

The DPSS-CW-DUV laser FQCW266-25 delivers an output power of 25 mW in single-mode operation at a wavelength of 266 nm. Other models in the low-power series are available with optical output powers of up to 200 mW. Compared to the 266 nm CW lasers from other manufacturers, the FQCW266 systems are characterized by a long coherence length of more than 1000 m, a narrow line width of < 300 kHz, and a sealed design that ensures reliable operation without the need for subsequent adjustments of the internal optics. Due to the sealed housing, the lasers require very little maintenance and are particularly suitable for industrial 24/7 operation. The central wavelength is in the range of 266.02 nm and 266.07 nm (in air). The output power can be adjusted from 3 mW to 30 mW in 0.3 mW increments. The power consumption of the laser is less than 160 W. The laser comes with a software for control of the main functions by a PC. Application:Raman Spectroscopy, Metrology, Wafer Inspection, Photoluminescence, Lithography Wavelength:266 nm Optical power:25 mW Line width:< 300 kHz Beam diameter:< 0.6 mm M2:< 1.3 Divergence:< 0.8 mrad Power consumption:< 100 W typ

Infrared line scanners for real-time thermal imaging in moving lines etc. - The IRCON ScanIR3 infrared linescanner provides real-time, thermal imaging of continuous sheet and web-based processes as well as discrete manufacturing processes. The robust housing includes built-in provisions for water-cooling and air-purge, and features built-in laser sighting. A rugged processor box provides universal input and output capabilities in the field without the need for an external computer. The versatile ScanView Pro software allows for custom configuration of operating parameters and display of thermal images and temperature profiles on a standard PC. Features: Fast scan speed up to 150 lines per second Up to 1024 measurement points per line High optical resolution up to 200:1 (allows for installation further from the measured process with excellent precision) Reliable Ethernet communication (optional fiber optics) Brushless scanning motor Field-replaceable window One bundled sensing head cable with one-click connector to the scanner Spectral range:1 µm...5 µm (dependent on model) Measured temperature range:30°C ... 1200°C (dependent on model) Optical scan rate:Up to 150Hz (256 points per line) Measurement points per line:Up to 1024 Optical resolution:Up to 200:1 Interfaces:Ethernet (optional fiber optics) TCP/IP 10/100 Mbit/s Environmental rating:IP65 (IEC 60529) Ambient operation temperature:0–50°C / 32–122°F; with integr. water-cooling up to 180°C/356°F; w. integr. heater min. -40°C/-40°F Field of view:90° Power supply:100 – 240VAC, 44/66Hz Serial communication:RS485 Processor boxes:analog, digital, relay

DATAPAQ temperature profiling systems comprise data loggers, thermocouples, thermal barriers, and analysis software. The DATAPAQ TP3 logger is used with DATAPAQ Furnace Tracker, DATAPAQ Kiln Tracker, and DATAPAQ Oven Tracker systems. Features: 10 or 20 thermocouple channels Reset/download via Bluetooth with short range telemetry capability (up to 5 meters) High accuracy: ±0.3 °C (±0.5 °F) Onboard memory service log for remote diagnostic and rapid on-site service Standard USB data cable available in local markets Radio frequency (RF) telemetry or hardwired data acquisition for monitoring in real time Three user-replaceable battery types for operation in normal and high ambient temperatures ‘Multiple events’ allows variable sampling intervals during a run – ideal for water and gas quench processes Multiple run capability allows storing up to 10 runs before downloading into separate .paq files Sampling intervals down to 0.1 seconds to collect maximum data Temperature range:-100°C to 1370°C (-148°F to 2498°F) Connectivity:USB or Bluetooth as standard Number of channels:10 or 20 channels (depending on model) Memory capacity:Up to 3.6 million datatpoints Sampling interval:0.1 sec – 50 min Maximum operating temperature:Up to 110°C – depending on model Logger accuracy:± 0,3°C (0.5°F) Dimensions LxWxH:200 × 98 × 20 mm (7.9 × 3.9 × 0.8 in) Battery:Lithium, NiMH rechargeable, Alkaline x 4AA Thermocouple type:Standard: K (other types available, combination of different types possible)