カメラセレクター(選択ツール)
The GigE Vision refresh

Alvium G1-812 UV

Alvium G1 -812 UV
Alvium G1 -812 UV
Alvium G1 – Reliability designed for the future

Compact GigE camera for constant image quality

Alvium G1-812 UVには、8.1 MP解像度で、1秒間に14.0フレームが可能なSony IMX487が搭載されています。

仕様

Alvium G1 is the first GigE Vision camera powered by ALVIUM® Technology, Allied Vision's ASIC chip. It combines the advantages of the established GigE Vision standard with the flexibility of the Alvium platform. In addition to a comprehensive feature set and a broad sensor selection, it offers great versatility. With its very compact housing and industrial standard hardware, it can easily be integrated into any vision system while ensuring long-term availability and reliability.

技術データ

インターフェース IEEE 802.3 1000BASE-T, IEEE 802.3af (PoE)
解像度 2848 (H) × 2848 (V)
センサー Sony IMX487
センサータイプ CMOS
センサーサイズ Type 2/3
ピクセルサイズ 2.74 µm × 2.74 µm
シャッターモード GS (Global shutter)
レンズマウント(使用可能) C-Mount, CS-Mount
フル解像度時の最大フレームレート 14 fps at 122 MByte/s, Mono8
ADC 12 Bit
イメージバッファー(RAM) 32 MByte
不揮発性メモリー(フラッシュ) 1024 KByte
ビット深度 12-bit
モノクロピクセル形式 Mono8 (default), Mono10, Mono10p, Mono12, Mono12p, Mono12Packed
TTL I/O 2 GPIOs (LVTTL)
光絶縁型I/O 1 input, 1 output
電源要件(DC) 10.8 to 26.4 VDC AUX | IEEE 802.3af, Power Class 0 PoE
消費電力 External power: 4.0 W at 12 VDC (typical) | Power over Ethernet: 4.6 W (typical)

Image control: Auto

  • Auto exposure
  • Auto gain

 

Image control: Other

  • Adaptive noise correction
  • Binning
  • Black level
  • Contrast
  • Custom convolution
  • DPC (defect pixel correction)
  • FPNC (fixed pattern noise correction)
  • Gamma
  • LUT (look-up table)
  • Reverse X/Y
  • ROI (region of interest)
  • Sharpness/Blur

 

Camera control

  • Acquisition frame rate
  • Bandwidth control
  • Counters and timers
  • Firmware update in the field
  • I/O and trigger control
  • Sequencer
  • Serial I/Os
  • Temperature monitoring
  • User sets

Software and firmware

FAQs and application notes

  • Knowledge base:

Search the knowledge base for technical papers.

  • Application notes overview:

Click here to search from all available application notes!

  • Application notes recommended for Alvium GigE cameras:

Data sheets

3D CAD files (STEP) for Alvium cameras and accessories

You can download STEP components for Alvium models and Alvium accessories at the Alvium STEP file download page.

Or you can download prepared sets of components for standard Alvium models like this:

 

  1. You need a 3D CAD viewer application to view and measure the STEP files. Download a STEP viewer free of charge: https://www.freecadweb.org.
  2. Go to the Camera Selector, select your Alvium model, and configure the corresponding hardware option (such as an Open Housing C-Mount camera).
  3. In the tile showing your Alvium submodel, open the "STEP files" link. See the image below.
  4. Download the files from the link selection shown at the bottom of the tile.
  5. To assemble housed cameras from the STEP file components, follow the Instructions included in the link collection.

カメラの設定

アクセサリー

アライドビジョン認定のマシンビジョンアクセサリーは、お客様の用途に最適な画質と最大限の信頼性を提供するために、当社の専門家が選定したものです。 当社の技能者と技術者は、レンズやインターフェースケーブルなどのアクセサリーを当社のカメラと組み合わせて、広範囲にわたるテストを行っています。このようにして、アライドビジョン製カメラの性能を最大限に発揮できるよう、最適なアクセサリーを推奨しております。

Perfectly connected - thanks to powerful software

Software integration made easy

Alvium GigE, 5GigE, and USB cameras can be easily integrated into embedded systems with Allied Vision's next generation  Vimba X SDK, a fully GenICam-compliant platform-independent SDK for all Allied Vision cameras with GigE, 5GigE and USB3 Vision Interface.

GenICam-based Transport Layers support the Alvium cameras and can automatically connect them to third-party software solutions such as MATLAB, OpenCV, Halcon, CVB, and many more.

 

To operate Alvium CSI-2 cameras on your vision system, Allied Vision provides different access modes:

  • GenICam for CSI-2 Access controls the camera by GenICam features, using the Alvium CSI-2 driver and CSI-2 transport layer (TL) directly.
  • Direct Register Access (DRA) to control the cameras via registers for advanced users.
  • Video4Linux2 Access allows to control the cameras via established V4L2 API and applications like GStreamer and OpenCV.

Open-source CSI-2 drivers are available on GitHub for different