10 J BF Pyroelectric Energy Sensor with 35 mm Aperture and High Damage Threshold Diffuser
10 J BF Pyroelectric Energy Sensor with 35 mm Aperture and High Damage Threshold Diffuser
The PE50BF-UV-DIFH-C pyroelectric energy sensor has a high damage threshold diffuser for concentrated beams. It has a 35 mm aperture and can measure energies from 200 µJ up to 10 J. It has a damage threshold of 3 J/cm² for ns pulses. It can operate at repetition rates up to 250 Hz and covers the spectral range from 193 to 355 nm.
- BF absorber with a 193-355 nm spectral range
- 200 μJ to 10 J pulse energy measurement range
- High damage threshold for pulsed lasers with concentrated beams
- 20 ms maximum pulse width
- Repetition rates up to 250 Hz See All Features
Software
PE-C Sensors with StarLab
Support for PE-C \ PD10-C sensors with Vega, Nova II, Juno, Juno+, Juno-RS, EA-1, StarLite and StarBright in StarLab application is now available. Follow step-by-step instructions to upgrade the embedded software in the PE-C \ PD10-C sensor with the StarLab application
When working with other meters and interfaces it is not necessary to update the embedded software of the PE-C \ PD10-C.
Note: PE-C \ PD10-C sensors can't be upgraded via EA-1 interface..
Features
Measuring Laser Energy with a Pyroelectric Sensor
In this short “Basics” video, we review in general the use of pyro-electric sensors for measuring laser pulse energies.
Premium Energy Sensors – Even for UV
Meet Ophir’s high performance energy sensors for pulsed UV lasers (and not only for UV…). These sensors are the perfect solution for pulsed lasers at 193 and 248 nm.
Energy Sensor Response & Integration Time
There seems to be a good deal of confusion when it comes to the terms “Response time” and “Integration time” of energy sensors. In this video we will clarify the meaning of these terms, as they apply to Ophir’s pyro-electric “Smart Sensors”.
Laser Measurement Affected by Distance
Can a laser measurement depend on the distance from the laser to the sensor? The answer is…well, it’s not supposed to. But sometimes it does. In this video, you’ll learn what could make that happen - and what to do about it.
Accessories
Heat Sink
Scope Adapter
Beam Splitter Assembly for Pyro
Nova PE-C Adapter
PE-C to PE Size Adapter
Fixed extension cables for Pyro Energy Sensors
Modular extension cables for Pyro Energy Sensors
Resources
Data Sheets
High Energy Pyroelectric Sensors 100µJ to 10J Datasheet(1.1 MB, PDF) Absorption and Damage Graph(220.6 kB, PDF) Wavelength and Repetition Rate Chart(178.6 kB, PDF)
Drawings & CAD
Catalogs
Energy Sensors Catalog(4.6 MB, PDF) Laser Power & Energy Measurement and Laser Beam Analysis Catalog(27.5 MB, PDF)
Technical Articles
Consistent Measuring Technology Ensures the Quality of Medical Lasers Ophir Power/Energy Meter Calibration Procedure and Traceability/Error Analysis Laser Measurements in Materials Processing
Technical Notes
Premium Energy Sensors (even for UV) 5 Situations Where Laser Performance Measurement is Necessary Effect of Ambient Conditions on Laser Measurements Oscilloscope Adapter for Ophir Pyroelectric Sensors Power/Energy Meters: Why Damage Specs are Derated for Larger Beams How to Properly Select a Laser Power or Energy Sensor
