SP928 Beam Profiling Camera

SP928ビームプロファイラ

USB 3.0対応シリコンCCD / 高解像度
概要: 

SP928はレーザビームプロファイル計測用のカメラで、波長帯域190-1100nm、コンパクト設計、ワイドダイナミックレンジ、比類ないSNR、トリガ機能内蔵、CWレーザ及びパルスレーザに対応。BeamGageビームゲージソフトウェアに対応。

  • フレームレート13fps(フル解像度)
  • BeamGageビームゲージソフトウェア・スタンダード版またはプロフェッショナル版付属

仕様

  • 190-1100nm
  • 37μm - 5.3mm
  • USB 3.0
  • Silicon CCD
  • CW, Pulsed
  • 5.3mm x 7.1mm
  • 1928 x 1448
  • 3.69µm
  • 56dB
  • 13 fps
ビームプロファイラの選定は ビームプロファイラ・ウィザードをご利用ください。

製品概要

  • BM-USB-SP928-OSI

    SP90427

    BeamMicソフトウェアに対応。1/1.8インチフォーマット、有効ピクセル数1928x1448、CCD位置4.5mm、USBケーブル及びNDフィルタ3枚付属。

    御見積り
  • BeamGage StandardBeamGageスタンダード版
    レーザビーム解析用BeamGageビームゲージソフトウェア・スタンダード版は、数多くのISO規格に準拠した測定に対応、UtraCal™ ウルトラキャルアルゴリズム(特許取得済み)は業界で最も高い計測精度を誇ります。
  • BeamGage ProfessionalBeamGageプロフェッショナル版
    レーザビーム解析用BeamGageビームゲージソフトウェア・プロフェッショナル版は、スタンダード版の機能に追加機能が含まれています。全てのカメラに対応、ウインドウが仕切られて表示されるので1台のカメラでマルチビーム解析に対応、ユーザのアプリケーションに最適化できるよう.NETオートメーションインターフェースに対応しています。

FAQ

What is the saturation level of the SP928 camera?

The saturation intensity for the SP928 is .97µW/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 SP928 most responsive?

  

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What is the framerate of the SP928?

13 Frames/second

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 SP920G/SP920?

44μm - 5.3mm 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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動画

Video Series: BeamGage Tutorials Video Series: BeamGage Tutorials
レーザ計測&ビームプロファイルの基礎 レーザ計測&ビームプロファイルの基礎 レーザ計測&ビームプロファイルの基礎

レーザ計測&ビームプロファイルの基礎についての説明です。

工業、メディカルデバイスアプリケーションにおけるレーザフォーカススポット径の計測 工業、メディカルデバイスアプリケーションにおけるレーザフォーカススポット径の計測 工業、メディカルデバイスアプリケーションにおけるレーザフォーカススポット径の計測

カメラベースのビームプロファイラシステムのセットアップ方法を工業用シングルパルスレーザ溶接システムを例にご紹介します。

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.

Support

チュートリアル

同一条件での比較:レーザビームアプリケーションに最適なカメラ技術はどれですか?

1997年、 Spiricon Inc.,の創設者であるDr. Carlos Roundyはドイツミュンヘンでの第4回インターナショナルワークショップ(レーザ&オプティクス)で発表しました。 詳細を見る

メディカルデバイスでの溶接における品質保障

パルスエネルギでレーザ溶接計測に多くのユーザが携わっていますが、全ての計測データは溶接の品質保障に対して必要でしょうか? Steve Schellenberg氏(Spinal Modulation)はその点について疑問を持っています。 詳細を見る

なぜ評価機器が初めに疑われるのか?

By Dick Rieley, Mid-Atlantic Regional Sales Manager, Ophir-Spiricon 詳細を見る

アクセサリ

上記製品に対応するアクセサリを各種ご用意しております
  • Optical Camera Trigger
    オプティカル カメラトリガーはトリガ機能オプションで、カメラ本体に設定して外部オプティカルトリガーでパルスに同期します。 オプティカル カメラトリガーシステムの構成はオプティカル カメラトリガー本体とオプションのC-マウントアダプター
  • Neutral Density Filters
    The individual filters come in three versions, the ND1 filter in the red housing with ~10% transmission in the visible, the ND2 filter in the black housing with ~1% transmission and the ND3 filter in the green housing with ~0.1% transmission. The individual filters can be screwed on top of each other and thus stacked. They are set at a small wedge
  • LBS-300 Attenuator
    The LBS-300s beam splitter attachment for C-mount, CS-mount, or Ophir mount cameras allow you to measure laser beams with diameters
  • LBS-100 Attenuator
    In addition to the stackable filters and beam splitters described above, one can purchase the LBS-100 system that is not as compact as the stackable system above but has larger aperture, can be changed without disassembly and has versions for longer wavelengths. The system contains the mounting frame, 1 wedge beam splitter and several attenuators.
  • CCTV Lens
    When direct imaging in front of the camera, like imaging an image projected onto a defusing surface, like a ground glass plate, it is necessary to reduce the image so that it completely fits onto the CCD chip surface. The 25mm and 50mm CCTV lenses image an object from a given plane in front of the lens onto the CCD while reducing the size.
  • Near field profiling can also be used with camera profilers to analyze small beams, and involves a microscope objective lens to image the beam onto a camera detector array. This technique expands the measurement range of the camera to include smaller beams, which could not be ordinarily measured due to the pixel size of the detector array. Near
  • 4X Beam Reducer
    The 4X Beam Reducer is an imaging system that images the plane 30cm in front of the reducer onto the camera CCD sensor while reducing the size 4 times and inverting it. The beam reducer uses the 3 screw on attenuators provided with the camera. Since the intensity of a beam after reduction will be increased by 4x4=16 times.
  • 4X UV Image Reducing Converter
    The UV image converters are fluorescent plates that convert UV radiation that is poorly imaged by silicon cameras into visible light that is then imaged onto the CCD of the camera. These fluorescent plates are specially designed for UV conversion and have a high light output, wide linear dynamic range and high damage threshold.
  • 4X Beam Expander
    Beam expanders are designed to work with C-mount threaded cameras that have 4.5mm imager back focal spacing or with CS (12.5mm) back focal spacing. The 4X beam expander is an expanding telescope that images the beam as it looks at 8mm from the end of the expander onto the CCD while enlarging the image 4X.
  • Microscope Objectives
    Microscope objectives are available for expanding the beam even more. There are objectives for 6X, 12X, and 22X expansion. The various expanders allow the use of our 2% and 10% filters as well as the variable attenuator so as to accommodate the camera to a wide range of source intensities.
  • Stackable Prism Front-Surface Beam Samplers
    The Prism Front-Surface Beam Sampler (PFSA) is a C-mount fixture housing a UV-Grade Fused Silica right angle prism, used for sampling the front surface reflection for high power/energy beam-profiling applications. Reflection at nominal incidence of 45°is polarization and wavelength dependent, with 532nm s-polarization reflected at 8.27%, and p
  • Stackable Beam Splitters
    The stackable beam splitters are designed for maximum modularity and shortest beam path. They are compatible with almost all of our cameras having the standard C mount thread and can mount either to other attenuators or to the camera itself.
  • Beam Tap I & II
    Laser beam attenuation while reducing polarization with broadband and YAG wavelength beam sampling.
  • 4X UV Image Reducing Converter
    The UV image converters are fluorescent plates that convert UV radiation that is poorly imaged by silicon cameras into visible light that is then imaged onto the CCD of the camera. These fluorescent plates are specially designed for UV conversion and have a high light output, wide linear dynamic range and high damage threshold.
  • The 1:1 UV image converter converts to visible and images the beam onto the CCD without changing the size