Produkty dla instrumenty (89)

The Raytek Raynger 3i Plus handheld infrared thermometer is designed to meet process performance requirements in industrial applications, including highly demanding hot environments in primary and secondary metal processing, as well as petrochemical and power plant operations. The rugged pyrometer withstands a 1m (3.2ft) drop test and provides a longer operational cycle for up to 24 hours when powered with rechargeable batteries. Its intuitive user interface enables easy parameterization and ‘on-site’ display of data analysis and trending, as well as fast and easy data transfer to a PC or smartphone using USB or Bluetooth. It features a high 250:1 optical resolution, which ensures accurate temperature readings at longer distances. Heat resistant “Red Nose” warning detector ensures operator safety and efficiency. Dual laser and scope sighting, visible even against "red hot" backgrounds, make this IR thermometer a perfect choice for hot temperatures applications. Measured temperature range:IM: 700 to 3000 ºC (1292 to 5432 ºF); 2M:400 to 2000 ºC (752 to 3632 ºF Accuracy:±(0.5% of reading +1ºC) (<2700ºC/4892ºF) Spectral response:1M: 1.0 μm, 2M: 1.6 μm Operating temperature:0 to 50ºC (32 to 120ºF) Laser sighting:Yes Dual laser:Yes Exposure time:40 ms Power:Single cell Lithium-ion, 3.6 V, 2500 mAh or via USB 2.0 Battery life (Lithium-ion):24 hrs Digital outputs:USB 2.0, optional Bluetooth 4.0 Environmental rating:IP40 (NEMA 1)

Passively Q-switched 213 nm laser with 1.5 µJ and max. rep rate of 2.5 kHz - 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-Q3 laser emits pulses with approximately 1 ns pulse width at 213 nm, and can be modulated from single shot to 2.5 kHz. The pulse energy is 1.5 µJ at 1 kHz. 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:1.5 µJ Peakpower:1.5 kW Pulse Width:1 ns Average Power:1.5 mW Repetition Rate:2.5 kHz Beam diameter:< 0.45 mm Spatial Mode:TEM00 Application:Holography, engraving, photo acoustics, LIBS, mass spectroscopy, photo luminescence

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 FQSS266-200 laser delivers 200 µJ pulse energy at a maximum repetition rate of 20 Hz and a pulse width of 1.5 ns, i.e. a peak pulse power of 130 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:266 nm Pulse energy:200 µJ Peakpower:130 kW Pulse Width:1.5 ns Average Power:7 mW Repetition Rate:single shot ... 80 Hz Beam diameter:0.8 mm Spatial Mode:TEM00 Application:Ablation, laser-induced breakdown spectroscopy, photoacoustics

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 DSS1064-3000 laser delivers 2.5 mJ pulse energy at a repetition rate of 20 Hz and a pulse width of 2.5 ns, i.e. a pulse peak power of 1 MW. 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:2500 µJ Peakpower:1000 kW Pulse Width:2.5 ns Average Power:50 mW Repetition Rate:single shot ... 80 Hz Beam diameter:0.6 mm Spatial Mode:TEM00 Application:Ablation, laser-induced breakdown spectroscopy, photoacoustics

Dedicated temperature profiling solutions for — Anti-reflection coating & Thin-film deposition — Silicon PV manufacturing: contact drying, contact firing — Lamination Benefits — Measure product temperature uniformity across the process chamber(s) — Optimize the process by reducing energy costs and/or increasing throughput — Troubleshoot the process quickly and easily — Track process stability Temperature Range (Datalogger DQ1863):-200ºC to 1370ºC (-328ºF to 2498ºF) Channels:6 Accuracy:±0.5ºC (±0.9ºF) Resolution:0.1ºC (0.2ºF) Sample Interval:0,05 seconds to 10 minutes Memory:18,000 readings per channel Data collection start:Start/Stop buttons, time or temperature trigger Battery:NiMH rechargeable Thermocouple:Type K Thermal Barrier VB7400 - Thermal Duration * (depending on vacuum level):Thermal Duration * Temperature 100ºC (212ºF) 200ºC (392ºF) 300ºC (572ºF) 450ºC (842ºF) Thermal Barrier VB7400:Duration (mins) 300+, 75, 40, 20 (depending on temperature and vacuum level)

The Raytek MI3 infrared temperature thermometer is a two-piece system with a miniature sensing head and separate communications electronics. The OEM version allows direct digital communication with the host machine controller without the need for an additional communication box. The innovative multiple sensing head interface, which can support up to 8 individually addressable heads per communication box, reduces sensor cost, simplifies sensor installation and applications troubleshooting, and provides the lowest cost per measurement point. Raytek MI3 ATEX/IECEx certified sensors can be used safely to monitor the right temperature of hazardous areas / processes with explosive atmospheres. All standard MI3 and MI3100 heads can be ordered with optional ATEX/IECEx certification. One specifically provided Ex-proof power supply can be used with 2 sensing heads. Measured temperature range:-40 – 1.800°C (dependent on model) Optical resolution:Up to 100:1 Ambient temperatures:-10°C – 180°C (dependent on model) Environmental rating:IP65 Spectral response (Raytek MI3 LTS, LTH, LTF):8 to 14 μm Spectral response (Raytek MI3 G5 – glass):5 μm Spectral response (Raytek MI3 1M, 2M):1 μm, 1.6 μm Accuracy:From ±0.5 % or 1 °C Response time:From 10 ms Power supply communications box:8 bis 32 VDC, 5 W Analog output:4–20 mA, 0–20 mA, 0 – 5 V, 0 – 10 V thermocouple types: J , K, R, S (dependent on model) Digital outputs:USB 2.0, RS485, Profibus DP - V0 Profinet IO, Ethernet TCP/IP, Modbus RTU (dependent on model) Sensor heads per communications box:Up to 8 Operation panel:Some models DIN rail installation:Some models Explosion protection:Intrinsically safe models and power supply available

Surveillance de la température – cintrage, formage, recuit, trempe du verre - Le système Raytek GS150 est un système automatique de surveillance de la température conçu pour les procédés de cintrage, de formage, de recuit et de trempe du verre. Le Raytek GS150LE est un système d'imagerie thermique conçu pour surveiller la température sur le verre basse émissivité (Low E). Chacun de ses balayages fournit jusqu’à 1024 points de mesure sur un angle de 90° à une fréquence pouvant atteindre 150 Hertz. Chaque passage d’un volume devant le capteur produit une image thermique en deux dimensions sur l’écran du PC. Le scanner Raytek MP150 s’installe sur la ligne, aussi facilement qu’une caméra, entre la zone de chauffe et la zone de formage. Principales caractéristiques — Améliore le rendement et la qualité — Réduit les temps de démarrage et détecte rapidement les défauts — Détecte vite les défauts — Automatise la surveillance de la qualité pour l’ISO9000 — Réduit les pertes — Analyse automatique des données de température — Minimise les temps d’arrêt Etendue de mesure:100 à 950 °C Précision:±0,5 °C ou ±3 °C Fidélité:±1 °C Résolution optique:170:1 (90 % énergie) Température ambiante:0 à 50 °C, avec refroidissement par eau à 180 °C Angle de balayage:90° Points de mesure:Jusqu'à 1024 Fréquence de ligne:150 Hz max. Alimentation:24 VDC ± 25 %, 1 A Communication Ethernet:TCP/IP (10/100 Mbit/s) Communication série:RS485 Sorties analogiques:3 x 4 – 20 mA Sortie d’alarme:Relais, contacts : 30 V, 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-Q2 laser emits pulses with a pulse width of approx. 1 ns at 355 nm and can be modulated from single shot to 10 kHz. The pulse energy is 3 µJ. CryLaS lasers impress with their simple installation, service-free operation and long service life. Wavelength:355 nm Pulse energy:3 µJ Peakpower:3 kW Pulse Width:1 ns Average Power:3 mW Repetition Rate:10 kHz Beam diameter:0.2 mm Spatial Mode:TEM00 Application:Holography, engraving, photo acoustics, LIBS, mass spectroscopy, photo luminescence

Réalisation de profils thermiques dans le domaine des cellules photovoltaïques solaires Processus de revêtement antireflet (pulvérisation) Métallisation par contact Séchage par contact Processus de lamination Plage de températures (enregistreur de données DQ1863):-200°C à 1370°C Nombre de canaux:6 Mémoire:18 000 entrées par canal (6 canaux actifs) Précision:±0,5 ºC Résolution:0,1 ºC Thermocouples:Type K Pile:NiMH rechargeable Début de la collecte de donnée:Boutons de démarrage et d’arrêt ou déclenchement selon l’heure ou la température Bouclier Thermique TB7400 (Dimensions (H x I x L):18 mm x 149 mm x 148 mm

Infrared line scanner thermal imaging system – glass bending, forming, tempering - Raytek GS150 thermal imaging systems enable automated quality control in glass bending, forming, annealing, and tempering processes. The GS150LE variant is especially designed for Low-E (low emissivity) glass / one-side coated flat glass. It features automatic emissivity correction. The systems are based on the Raytek MP150 infrared line scanner, which has a max. resolution of 1024 points per line, a max. 150 Hz scanning frequency, and an up to 90° wide field of view. SYSTEM PROPERTIES • Automated temperature monitoring • Visualization on PC • Ethernet TCP/IP interface integrated in the line scanning system • PC-independent alarm output • PC-independent analog outputs 3 x 4 – 20mA BENEFITS • Improve profitability and product quality • Reduce set-up time • Detect defects quickly • Automate quality monitoring for ISO9000 • Reduce scrap • Efficiently manage the heat balance in the oven • Automatically adjust the emissivity value when changing glass types or coatings Measured temperature range:100 to 950°C (212 to 1742°F) System accuracy:±0.5°C or ±3°C (6°F) Repeatability:±1°C (2°F) Optical resolution:170:1 (90% energy) Ambient temperature:0 to 50°C (32 to 122°F), with water cooling up to 180°C (356°F) Field of view:90° Points per line:Up to 1024 pixels Scan rate:Up to 150 Hz Power supply:24 VDC ± 25%, 1 A Ethernet communication:TCP/IP (10/100 Mbit/s) Serial communication:RS485 Analog outputs:3 x 4 – 20 mA Alarm output:Relay, contacts: 30 V, 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 FDSS532-Q2 laser emits pulses with a pulse width of approx. 1 ns at 532 nm and can be modulated from single shot to 10 kHz. The pulse energy is 6 µJ. CryLaS lasers impress with their simple installation, service-free operation and long service life. Wavelength:532 nm Pulse energy:6 µJ Peakpower:6 kW Pulse Width:1 ns Average Power:60 mW Repetition Rate:10 kHz Beam diameter:0.25 mm Spatial Mode:TEM00 Application:Holography, engraving, photo acoustics, LIBS, mass spectroscopy, photo luminescence

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-Q2 laser emits pulses with a pulse width of approx. 1 ns at 266 nm and can be modulated from single shot to 10 kHz. The pulse energy is 0.8 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:0.8 µJ Peakpower:0.8 kW Pulse Width:1 ns Average Power:8 mW Repetition Rate:10 kHz Beam diameter:0.8 mm Spatial Mode:TEM00 Application:Holography, engraving, photo acoustics, LIBS, mass spectroscopy, photo luminescence

Un imageur thermique à hautes performances s’appuyant sur l’expérience de près de 150 ans d’une marque reconnue dans les applications industrielles. Conçu pour affronter les environnements les plus hostiles, assisté par un logiciel intuitif puissant, l’imageur thermique offre les performances et la personnalisation nécessaires au contrôle et à la surveillance des procédés industriels. • Large plage de température -10 à 1200 °C • Résolution infrarouge 320 x 240 et 640 x 480 • Modèles à 9 ou 60 Hz • Robuste boîtier IP67 (NEMA4) • Visée IR-fusion (image thermique et visible combinées) • Focalisation à distance • Large choix d’objectifs interchangeables • Interface GigE Vision • LAN/Ethernet avec PoE pour communication avec l’imageur thermique donnant accès à l’Ethernet / Serveur Web et au logiciel ThermoView • Température ambiante max de 200 °C avec le boîtier haute température • Purge à air et autres accessoires disponibles Plage de température:-10 à 1200 °C Précision de mesure:±2 ºC ou ±2 % de la lecture Résolution infrarouge:320px x 240 ou 640 x 480px Réponse spectrale:8 à 14 µm Champ de vision:Horizontal 34º x 25.5º Objectifs additionnels (Interchangeables sur site):Grand angle 0,75x (45°x34°); Téléobjectif 2x (17°x 12,7°); Téléobjectif 4x (8,5°x6°); Objectif macro Fréquence de balayage:9 ou 60 images/s (À spécifier à la commande) Température ambiante de fonctionnement:à 200 ºC avec un boîtier du refroidisseur Alimentation:12 à 26 Vcc, PoE (Alimentation par la liaison Ethernet) Protection:IP67 (NEMA 4)

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