900-1100 nm 150 kW Wassergekühlter kalorimetrischer Sensor mit Ø200 mm Apertur
900-1100 nm 150 kW Wassergekühlter kalorimetrischer Sensor mit Ø200 mm Apertur
Der 150K-W ist ein wassergekühlter thermischer Sensor mit einer 200mm Apertur zur Messung von sehr hohen Laserleistungen. Seine Abmessungen betragen 520x545x750mm. Er misst Laserleistungen von 10kW bis 150kW und wurde für einen auf 100mm vergrößerten Strahldurchmesser entwickelt, der auf den Ablenk-Konus trifft. Er ist auf 1.070nm kalibriert. Die Anwendungsbereiche umfassen die Entwicklung von Directed Energy Waffensystemen ebenso wie die industrielle Lasermessung in der Halbleiter-Lithographie mit Hochleistungslasern.
- 900-1100 nm Spektralbereich mit Ablenk-Konus
- Wasserkühlung zur Messung von durchschnittlichen Laserleistungen im Bereich von von 10 bis 150 kW
- Apertur mit 200 mm Durchmesser
- Kalibriert auf 1.070 nm Alle Funktionen anzeigen
Software
WaterFlowMeter PC Application
Software: WaterFlowMeter PC Application
Power measurement based on water temperature and flow rate.
Firmware: Firmware of sensor can be upgraded via WaterFlowMeter PC application.
To download the firmware file go to: "Help/New Firmware" screen in WaterFlowMeter PC Application.
Note: When running the WaterFlowMeter PC Application, the Water Flow Meters (6K-W, 120K-W & 150K-W) are connected directly to the PC via supplied RS232 cable. If you want to use the Water Flow Meter with an Ophir power meter or with an Ophir interface with StarLab, the sensor operates as a calorimetric sensor measuring power only.
Spezifikationen
- Product Name150K-W
- Absorber TypeBB - Broadband general purpose
- Aperture SizeØ200 mm
- Spectral Range900-1100 nm
- Minimum Power10 kW
- Maximum Average Power150 kW
- Backscattered PowerLess than 1%
- CoolingWater
- Dimensions520 x 545 x 750 mm (LxWxD)
- Cable Length10 m
- CE ComplianceYes
- UKCA ComplianceYes
- China RoHS ComplianceYes
Funktionen
Choosing a Thermal Sensor
In this short “Basics” video we review the use – and selection - of thermal sensors for measuring low, medium and high laser powers.
Sensors for Measuring Laser Power
In this short "Basics" video we review in general how one goes about measuring laser beam power, so that you'll have a clear understanding of what the different sensor types are, and when to use each type.
Measuring Ultra High Power Laser Beams
Laser beams with powers of many tens of Kilowatts are becoming more and more common in today's applications, industrial as well as research. This video will discuss the technical challenges in measuring such lasers, and will show you a range of solutions now available from Ophir for measuring up to 100KW -- safely, and accurately.
Water Cooled Sensors: Things to Look Out For
Water cooled sensors are commonly used when measuring laser beams of more than a few hundred watts. In this video, you will learn about some critical issues you need to consider when using water cooling, such as water temperature, water flow rate, and corrosion prevention.
Laser beams with powers over 100kW? It used to be only science fiction…Today, though, such lasers are real, and are increasingly found in many modern industrial and defense applications – and accurately measuring such beams is more critical than ever. In this video, you’ll meet the Ophir 150K-W power sensor, for measuring laser beam powers up to 150kW.
Thermal Sensor Calibration
As the spectral sensitivity of the absorber used for the power and energy measurement is not fully linear, Ophir sensors get a high precision calibration by default with more than one wavelength.
Each thermal sensor is calibrated independently of a particular Ophir power meter with its calibration information contained in the DB15 plug. When the sensor is connected to the meter, the meter reads and interprets this information to display a calibrated reading. Each power meter is calibrated independently and has the same sensitivity as an other meter within about 2 tenths of a percent.
Unless otherwise indicated, Ophir sensors and meters should be recalibrated within 18 months after initial purchase, and then once a year after that.
Zubehör
N Polarity Power Supply/Charger
Power Supply/Charger for Centauri, Vega, Nova II, LaserStar, Nova, EA-1, Pulsar, Quasar, 6K-W, 120K-W, 150K-W and fan cooled sensors.
| Compare | Description | Drawings, CAD & Specs | Avail. | Price | ||
|---|---|---|---|---|---|---|
 | 7E05029Gleichstrom-Netzgerät/Ladegerät, N Polarität | Auf Lager |
Extended Warranty for Sensor
Customers that purchase the above items also consider the following items. Ophir-Spiricon meters and sensors include a standard manufacturers warranty for one year. Add a one year Extended Warranty to your meter or sensor, which includes one recalibration.
| Compare | Description | Drawings, CAD & Specs | Avail. | Price | ||
|---|---|---|---|---|---|---|
 | XWAR-SENSORErweiterte Garantie für Sensoren |
Ressourcen
Data Sheets
Catalogs
Power Sensors Catalog(11.2 MB, PDF) Laser Power & Energy Measurement and Laser Beam Analysis Catalog(27.5 MB, PDF)
Drawings & CAD
120K-W/150K-W Drawing(480 kB, PDF)
Technical Notes
150K-W User Notes(1.1 MB, PDF) Absorption, Angle Dependence and Damage Graphs for Thermal Sensors(216.1 kB, PDF) How to Use Water Cooled Ophir Sensors 5 Situations Where Laser Performance Measurement is Necessary Effect of Ambient Conditions on Laser Measurements How do I know what range, or scale, to set my power/energy meter to? Calibration Accuracy of Ophir’s High Power Sensors How Much of the Power Sensor Aperture Can My Laser Fill Up? How to Properly Select a Laser Power or Energy Sensor Common Reasons for Thermal Sensor Damage or Out of Tolerance Conditions
