Pyrocam IIIHR Beam Profiling Camera

Камера профилометра Pyrocam IIIHR

Широкополосная камера 3-го поколения с высоким разрешением с пироэлектрической матрицей и программным обеспечением BeamGage

Камера Pyrocam точно фиксирует и анализирует длины волн 13—355 нм и 1,06—3000 мкм благодаря широкополосной матрице. Она оснащена твердотельной матрицей высокого разрешения с широким динамическим диапазоном и высокой скоростью считывания данных. Она работает в режимах, благодаря чему идеально подходит для анализа лазера в ближней ИК-области, CO2 и излучения в терагерцевом диапазоне.

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Specification

  • 13-355nm, 1.06-3000μm
  • 1600μm - 12.3mm
  • CW, Pulsed
  • Pyroelectric Array
  • GigE Ethernet
  • 12.8mm x 12.8mm
  • 160 x 160
  • 80µm
  • 60 dB
  • 100 fps
Need help finding the right beam profiler? Try our Beam Profiler Wizard

Software Editions

The Pyrocam broadband pyroelectric cameras are available with the following versions of software.

Learn more about the different versions of BeamGage

  • PY-III-HR-C-A

    SP90405

    Pyroelectric array detector, chopped, Grade A, one Gigabit Ethernet port, BeamGage
    Professional GigE to USB3 adaptor, hard shipping case, 3 meter GigE cable, and power
    supply w/locking connector included.

    Запросить расценки
  • PY-IIIHR-C-MIR PRO

    SP90415

    Pyroelectric array detector, chopped, Grade A, one Gigabit Ethernet port, BeamGage
    Professional GigE to USB3 adaptor, hard shipping case, 3 meter GigE cable, and power
    supply w/locking connector included.

    Запросить расценки

Software

  • BeamGage ProfessionalBeamGage Professional
    BeamGage Professional has all of the functionality that BeamGage Standard includes. BeamGage Professional supports all of our beam profiling cameras, includes window partitioning to allow analysis of multiple beams on a single camera, and includes an automation interface written in .NET to push data to your custom applications.

Drawings

FAQ

What is the distance from the front of the camera to the sensor?

The sensor is centered around 15.15mm, however, if the accuracy of its placement is critical, measurements are available upon request.

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What is the saturation level of the PY IIIHR camera?

The saturation power for the Pyrocam IIIHR in chopped mode is 3.0W/cm2 (25Hz) and 4.5W/cm2 (50Hz) and the Saturation energy in pulsed mode is 15mJ/cm2.
Follow this link and input your laser parameters and you can calculate the your power density.

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At what wavelengths is the Pyrocam IIIHR most responsive?

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What is the framerate of the Pyrocam IIIHR?

25/50Hz chopped mode, SS-100Hz pulsed mode consecutive, up to 1kHz pulse mode non-consecutive
The effective frame rates listed in BeamGage specification sheets are the maximum rates typically achievable in actual use.  Frame buffering, image processing techniques, graphical displays, and mathematical computation all add degrees of overhead to achieving higher frame rates.  This can be further limited by the available PC hardware.  BeamGage features two modes, Frame Priority and Results Priority, which change how the system balances the work.  Results Priority acquires a frame, performs any enabled image processing, performs all calculations and updates the graphical displays before accepting another frame from the camera.  This mode is most useful when a temporal sequence of frames is not necessary and should always be enabled when logging.  Frame Priority mode will allow the calculations and graphical display updates to be interrupted if another frame is ready from the camera before those operations are complete.  This can be useful when collecting all frames at the maximum camera frame rate is necessary.

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What beam sizes can I measure with the Pyrocam IIIHR?

1.6mm - 12.3mm
The accurate beam size minimum is derived by the pixel size of the camera. In order to get an accurate measurement, there must be enough coverage of pixels to ensure that illuminating another pixel will not over exaggerate the beam size.
Follow this link to find out more.

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Can I use an Ophir-Spiricon GigE device on a laptop that is on a docking station?

You can, but when a laptop is docked you cannot use the onboard GigE connection. It is deactivated by the connection to the docking station. You must use the GigE connection on the docking station. Or, you can use the GigE to USB 3.0 adapter that is included with the Ophir-Spiricon GigE device. This adapter will also allow you to connect additional Ophir-Spiricon GigE devices to the laptop.

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Videos

Video Series: BeamGage Tutorials Video Series: BeamGage Tutorials
Fundamentals of Laser Measurement & Beam Profiling Fundamentals of Laser Measurement & Beam Profiling Fundamentals of Laser Measurement & Beam Profiling

Is your laser's beam profile shaped correctly for your application?
This video teaches the fundamentals of laser beam profiles and discusses the benefits of profiling your laser beam.
Several case studies are presented showing before and after laser beam profiles.

Measuring Laser Focus Spot Size in an industrial Medical Device Application Measuring Laser Focus Spot Size in an industrial Medical Device Application Measuring Laser Focus Spot Size in an industrial Medical Device Application

This step-by-step tutorial will show you how to set up a camera-based beam profiling system on an industrial single-pulse laser welding system.
It will also demonstrate for you how to simultaneously analyze the laser's focused spot, measure the laser's energy per pulse, and measure its temporal pulse shape.

How to Design Your Perfect Laser Beam with BeamMaker How to Design Your Perfect Laser Beam with BeamMaker How to Design Your Perfect Laser Beam with BeamMaker

BeamMaker helps engineers, technicians, and researchers understand a beam's modal content by subtracting theoretically generated modes from real beam measurement data. Derive a perfect beam profile by specifying the mode, size, width, height, intensity, angle, and noise content - then comparing it to theoretically derived measurements. The end result is knowledge about how much the real beam varies from the desired beam.

Watch the BeamGage Tutuorials, including tips on handling your CCD camera, software install, introduction to the BeamGage user interface, the context-sensitive help system and user manual, customizing your reporting environment, and configuring BeamGage to display specific laser measurements.

Tutorials and Articles

Apples to Apples: Which Camera Technologies Work Best for Beam Profiling Applications, Part 1

In 1997, Dr. Carlos Roundy, founder and president of Spiricon Inc., presented a paper at the 4th International Workshop on Lasers and Optics Characterization in Munich Germany. This paper was based on work that was carried out at Spiricon in the mid 90’s. At the time new insights were being presented on how to characterize a laser beam. Previous definitions were somewhat simplistic and most often were driven by customers telling us how they wanted the beam measured. Прочитать подробнее…

LIDAR Guns, Accuracy, and Speeding Tickets

Anyone who has driven a vehicle has encountered a Light Detection and Ranging (LIDAR) system in action. Some of you have even found out how much it can cost in terms of speeding fines! Let’s take a closer look behind the scenes. How do we know the detector is working? Прочитать подробнее…

BeamGage Professional partitions with multiple beams on one display with individual results.

The Partition feature, available in BeamGage Professional, allows subdividing the camera imager into separate regions, called partitions, and which can then compute separate beam results within each partition. Прочитать подробнее…

Accessories

Customers that purchase the above items also consider the following items:
  • Optical Camera Trigger
    The Optical Camera Trigger is an optical sensor that detects pulsed light sources and generates outputs to trigger a camera. The front aperture of the Optical Trigger must be directed at a light source that provides the necessary properties for trigger activation. (e.g. a laser flash lamp, a pick-off source from the main laser beam, or similar).
  • PY-III-HR-W-BK7-1.064

    SP90365

    Pyrocam III-HR window assembly, BK7, A/R coated for 1.064μm

  • PY-III-HR-W-SI-1.05-2.5

    SP90366

    Pyrocam III-HR window assembly, Si, A/R coated for 1.05 to 2.5μm

  • PY-III-HR-W-SI-2.5-4

    SP90367

    Pyrocam III-HR window assembly, Si, A/R coated for 2.5 to 4μm

  • PY-III-HR-W-GE-3-5.5

    SP90368

    Pyrocam III-HR window assembly, Ge, A/R coated for 3 to 5.5μm

  • PY-III-HR-W-GE-10.6

    SP90369

    Pyrocam III-HR window assembly, Ge, A/R coated for 10.6μm

  • PY-III-HR-W-GE-8-12

    SP90370

    Pyrocam III-HR window assembly, Ge, A/R coated for 8 to 12μm

  • PY-III-HR-W-ZNSE-10.6

    SP90371

    Pyrocam III-HR window assembly, ZnSe, A/R coated for 10.6μm

  • PY-III-HR-W-ZNSE-10.2μm & 10.6μm

    SP90412

    Pyrocam III-HR window assembly, ZnSe, A/R coated for 10.2μm & 10.6μm

  • PY-III-HR-W-ZNSE-2-5

    SP90372

    Pyrocam III-HR window assembly, ZnSe, A/R coated for 2 to 5μm

  • PY-III-HR-W-BaF2-Uncoated

    SP90373

    Pyrocam III-HR window assembly,BaF2 uncoated for 193 to 10μm

  • PY-III-HR-W-POLY-THZ

    SP90374

    Pyrocam III-HR window assembly, LDPE, uncoated for Terahertz wavelengths