Frame Grabbers
Digitize and record a single frame of video information.
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Product
2/4-CH PCI Express® GigE Vision PoE+ Frame Grabbers
PCIe-GIE7x Series
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- Hardware Trigger over Ethernet with Action Command- Up to 120W PoE power from PCIe bus/4-pin/6-pin Molex connector- PCI Express® x4 compliant- IEEE 802.3at for PoE+ (Power over Ethernet Plus)- PoE protection and automated power budget control for enhanced asset protection- Easy-to-use utility and API provided for PoE power management- Multiple cards, multiple cameras, in a single system- Wide operating temperature range from 0°C to +70°C supporting non-drop frame capture in extreme environments
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Product
Phoenix Camera Link Frame Grabber (D48-PE4H)
AS-PHX-D48CL-PE4H
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Phoenix-D48CL x4is a PCI Express board for the acquisition of digital data from a variety of Camera Link sources, including digital frame capture and linescan cameras. It supports all the formats of the Base and Medium configurations, i.e. single 8- to 16-bit data, through 12-bit RGB, to four tap 12-bit sources, as well as dual Base configuration, i.e. acquisition from two asynchronous Base cameras.
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Product
PCIe-8239, 4-Port, GigE Vision Frame Grabber Device
787790-01
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The PCIe-8239 features Power-over-Ethernet (PoE) technology. It provides optimized performance of high-resolution and high-frame rate cameras through the combination of independent Gigabit Ethernet ports and the high-performance GigE Vision driver software. PoE reduces the need for additional external power supplies by powering cameras over the Ethernet bus, which simplifies system design and cabling complexity.
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Product
Medical Box PC Featuring The 12th/13th/14th Gen Intel® Core™ I3/i5/i7/i9 Processors, With Support For MXM-AXe Based On Intel® Arc™ GPU, And Thunderbolt™ 4 Port
MLB-3100 with Intel MXM GPU
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- ADLINK MXM-AXe graphics module support (type A, up to 50W TDP based on power supply)- 12th/13th/14th Gen Intel® Core™ i3/i5/i7/i9, Celeron® processor- Dual SODIMM for up to 64GB DDR5 non-ECC memory (depending on CPU)- 1x HDMI 2.0, 5x DisplayPort (1 from CPU, 4 from MXM)- 1x M.2 E-key supporting 1630 or 2230 for Wi-Fi/Bluetooth module, 1x M.2 M-key supporting 2242 or 2280 for SATA/PCIe storage module, 1x M.2 M-key supporting 2242 or 2280 for NVMe & frame grabber- Reliable Molex 24V DC-in connector- 2x 2.5GbE Intel® I225-LM Ethernet Controller
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Product
Phoenix LVDS Frame Grabber (PE4)
AS-PHX-D36-PE4
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Phoenix-D36 is a PCI Express board for the acquisition of digital data from a variety of sources, including digital frame capture and line scan cameras. It has 36-bits used for input data, with 4-bits for control. This provides support for a single 12-bit RGB or 32-bit mono data source, including multi-tap cameras. The 4-bit control inputs are dedicated as Frame Enable, Line Enable, Data Enable and Pixel Clock.
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Product
Phoenix PMC Camera Link Frame Grabber
AS-PHX-D24CL-PMC32-B
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Phoenix-Dig24CL is a PCI board for the acquisition of digital data from a variety of Camera Link sources, including digital frame capture and linescan cameras. It supports all the formats of Base configuration, i.e. single 8- to 16-bit data, through 8-bit RGB, to dual tap 12-bit sources.
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Product
Frame Grabbers
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* Supporting most performance-demanding Machine Vision protocols, such as CoaXPress, Camera Link HS, 10 GigE, Fiber etc.* Ideally suited for industrial, defense and aerospace Machine Vision Systems.* These products are complimented by sophisticated application software package and SDK, for Windows and Linux OS’s.
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Product
Multi-Interface Frame Grabber
Xtium2 CLHS FX8 LC
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The Xtium2-CLHS FX8 LC supports up to two bidirectional SPF+ modules running at 10Gbit/s. Using CLHS X-Protocol, the Xtium2-CLHS FX8 delivers up to 2.0 GB/s of image acquisition and 6.8 GB/s to host memory. The low-cost SPF+ module and fiber optic cables help extend cable lengths to 100 meters.
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Product
8-Port GMSL2 Frame Grabber With Mini FAKRA
MIC-FG-8G
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8-port GMSL2 frame grabber with mini FAKRA. Supports up to 8 GMSL2 cameras. Supports external 12 VDC power supply. Supports up to 4K, 30FPS. With IMU on card is suitable for industrial robots, multi-camera systems, and production lines applications.
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Product
Medical Box PC Featuring The 12th/13th/14th Gen Intel® Core™ I3/i5/i7/i9 Processors, With Support For MXM-AXe Based On Intel® Arc™ GPU, And Thunderbolt™ 4 Port
MLB-3102 with Intel MXM GPU
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- ADLINK MXM-AXe graphics module support (type A, up to 50W TDP based on power supply)- 12th/13th/14th Gen Intel® Core™ i3/i5/i7/i9, Celeron® processor- Dual SODIMM for up to 64GB DDR5 non-ECC memory (depending on CPU)- 1x HDMI 2.0, 5x DisplayPort (1 from CPU, 4 from MXM)- 1x M.2 E-key supporting 1630 or 2230 for Wi-Fi/Bluetooth module, 1x M.2 M-key supporting 2242 or 2280 for SATA/PCIe storage module, 1x M.2 M-key supporting 2242 or 2280 for NVMe & frame grabber- Reliable Molex 24V DC-in connector- 2x 2.5GbE Intel® I225-LM Ethernet Controller- 2x PCIe Gen 3 x4 expansion slot for full-height, half-length add-on card, each slot is 25W power budget and additional Molex 4-pin power cable (12V/1.5A and 5V/2A) support
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Product
Frame Grabbers
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Frame Grabber designed for connecting industrial cameras in machine vision, factory automation, and medical applications.
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Product
PXI Frame Grabber Module
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PXI Frame Grabber Modules work with any base-, medium, and full-configuration Camera Link cameras, and are ideal for many industrial, life science, and biomedical imaging applications. PXI Frame Grabber Modules support Power over Camera Link(PoCL) and can power cameras through PoCL-enabled cables. You can program the PXI Frame Grabber Module using the NIVision Development Module, or you can configure it using NIVision Builder for Automated Inspection(AI) software for faster development and simplified maintenance.
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Product
PCIe-1433, Base-, Medium-, Full-Configuration Camera Link, PoCL Compatible Frame Grabber Device
781169-01
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The PCIe‑1433 is a Camera Link image acquisition device designed for machine vision and scientific imaging applications that require high data throughput. The PCIe‑1433 includes an onboard … FIFO for higher bandwidth use cases, and it works with any base‑, medium‑, and full‑configuration Camera Link camera. The PCIe‑1433 is ideal for many industrial, life science, and biomedical imaging applications. The PCIe‑1433 also supports Power over Camera Link (PoCL) and can power cameras through PoCL‑enabled cables.
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Product
2-Port GigE Vision Frame Grabber Module
AMAX-5410
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Compatibility: IEEE 802.3, IEEE 802.3u, IEEE802.3ab, IEEE802.3x, IEEE802.3afSpeed: 10/100/1000 MbpsNo. of Ports: 2 Gigabit Ethernet Media Access Control (MAC) andphysical layer (PHY) portsInput Voltage: 24 VDC direct from WISE-5000 CPU module
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Product
USB 4-Channel Frame Grabber
2255
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Simultaneous capture from 4 NTSC/PAL video sources High aggregate capture rate: up to 120/100 fps (NTSC/PAL) Output formats: RGB/YCrCb, packed/planar Output resolutions: full/half/quarter frame Advanced deinterlacing eliminates motion artifacts Optional hardware JPEG compression available (please call for pricing) Hardware timestamps (1ms resolution) USB powered
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Product
PCI Express 16-Channel Frame Grabber
817
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16 channel JPEG and bitmap capture at full NTSC/PAL frame rate Built-in 16x4 video crosspoint switch 80-character text overlay with timestamp Performs scaling, deinterlacing, frame decimation PCI Express x1 interface
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Product
Frame Grabbers
Coaxlink Series
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Ultimate in performance with superior value CoaXPress frame grabbers
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Product
FireBird Camera Link Frame Grabber (2xCLM-2PE8)
AS-FBD-2XCLM-2PE8
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FireBird is designed for ultimate performance using Active Silicon’s proprietary DMA Engine technology, “ActiveDMA”. This technical innovation applies RISC based processor techniques and guarantees zero CPU intervention, high-speed and low-latency image data transfers.
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Product
Phoenix Camera Link Frame Grabber (D24-PE1)
AS-PHX-D24CL-PE1
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Phoenix-D24CL is a PCI Express board for the acquisition of digital data from a variety of Camera Link sources, including digital frame capture and linescan cameras. It supports all the formats of Base configuration, i.e. single 8- to 16-bit data, through 8-bit RGB, to dual tap 12-bit sources.
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Product
2-Port PCI Express Camera Link, Base Frame Grabber
PCIE-1122B-AE
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Half-Size PCI Express Board Gen 2.0 x4Camera Link clock up to 85 MHzSupports 2 Base CL camerasSupports PoCL and non-PoCL cameras with SafePowerImage sizes up to 268,435,456 x 16,777,216Independent I/O (trigger, encoder, strobe, etc) for each camera
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Product
ATX Motherboard With LGA1151 Socket 9th/8th Gen Intel® Core™ Processor, Intel® Q370, USB 3.1 Gen2, SATA 3.0, Dual LAN, VGA, DisplayPort++, DVI-D, And HDMI
IMB520R
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The IMB520R is powered by the LGA1151 socket 9th and 8th generation Intel® Core™ i7/i5/i3 (code name: Coffee Lake Refresh), Intel® Pentium® or Intel® Celeron® processor with the Intel® Q370 chipset. The industrial motherboard is designed with rich functionality and offer high processing powers, multiple expansion interfaces, security feature, and stunning graphical performance to deliver true customer value and quick deployment in a broad range of high-performance applications such as industrial automation, gaming, AI-related server, self-service kiosks, medical, and digital signage. It features one PCIe x16 slot, four PCIe x4 slots, one PCIe x1 slot and one PCI slot for future expansions such as motion control cards, frame grabber cards or data acquisition cards. It also has two USB 3.1 Gen2 and four USB 3.1 Gen1 ports for faster data transfer. In addition, the industrial-grade ATX motherboard is integrated with the Intel® HD Graphics to deliver stunning 4K resolution, as well as fast 3D and video playback for graphics-intensive applications. It supports three independent displays with DisplayPort++, DVI-D, HDMI, and VGA.
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Product
Low-cost, Full-Featured Video Frame Grabber Board
Aexeon
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DescriptionAexeon is a low-cost, full-featured video frame grabber board for analog camera solutions. Aexeon accepts multiple composite, S-Video, or component video inputs in both NTSC and PAL formats and digitizes in both square pixel and CCIR-601 resolutions. With on-board processing, complete camera control, and video output, Aexeon is the perfect product for analog camera OEM solutions.
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Product
Camera Link Translators
CLT-303
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The CLT-303R and CLT-303L Camera Link Translators convert RS-422 & LVDS to Camera Link, enabling the use of cameras incorporating traditional RS-422 and LVDS parallel digital interfaces with Camera Link frame grabbers. The “R” and “L” versions support RS-422 and LVDS cameras, respectively. These Camera Link converters are extremely flexible and can convert a wide range of cameras from parallel digital output to Camera Link base configuration with up-to 24-bit data.
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Product
Framegrabber
FastX-APU
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The FastX-APU framegrabber series is for users who anticipate a demand for extreme I/O requirements and/or higher bandwidth, complex image processing and real-time high-speed storage in a cost effective platform. The base FastX-APU, is a two thirds length raw form factor PCIe (X4) Gen2 board with either six basic 85 MHz Camera Link Channels up to two extended full Camera Link camera interfaces. An auxilliary I/O connector provides a header for adaptation of other high speed interfaces such as GigEx4, high speed analog formats such as UXGA or DVI, or CoaXPress. The front-end data is formatted and preprocessed by a Kintex FPGA before being sent to the PCIe (X4) Gen 2 switch to the host or the AMD APU.
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Product
Software & Development Tools
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Gidel’s frame grabbers are supported by software suite and development tools enabling different grabbing flavors and customization possibilities. Customization can be performed for both software and FPGA design code (HDL). The software suite includes the ProcFG and InfiniVision Grabber GUIs as well as API suits for custom user software application. The Development kit that includes the ProcWizard application is for efficient and intuitive FPGA code customization and integration with software code.
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Product
CL PX4 SE Frame Grabber
Xcelera-CL PX4 SE
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The X64 Xcelera-CL PX4 SE is a highly versatile PCIe frame grabber capable for one Camera Link™ Base, Medium, or Full camera and performing image transfers at rates up to 1024MB/s. Its low cost, combined with its ability to support multiple tap configurations from area and linescan monochrome/RGB cameras simultaneously; in addition to its onboard FPGA Bayer decoding and real-time shading correction makes the X64 Xcelera-CL PX4 SE an ideal solution to a wide variety of cost-sensitive applications.
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Product
Frame Grabbers
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Teledyne DALSA delivers the industry's most reliable and versatile family of frame grabbers combining industry leading performance with industry leading feature sets, great value and extensive camera support. Board-level innovations deliver Trigger-to-Image Reliability significantly increasing system performance and ultimately helping to increase yield, while CamExpert, the camera configuration utility included with our free Sapera LT SDK, leverages the power of our acquisition boards in one of the industry's most efficient and easy to use interfaces.
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Product
FireBird CoaXPress Frame Grabber (Dual CXP-6)
AS-FBD-2XCXP6-2PE8
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FireBird is designed for ultimate performance using Active Silicon’s proprietary DMA Engine technology, “ActiveDMA”. This technical innovation applies RISC based processor techniques and guarantees zero CPU intervention, high-speed and low-latency image data transfers.
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Product
Software
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Active Silicon computer vision products are supported by a variety of software tools. We provide powerful user software and SDKs for CoaXPress and Camera Link frame grabbers with support across several operating systems. Additionally, a wide range of drivers for third-party machine vision and scientific imaging packages is available.
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Product
PCI Express Image Acquisition Frame Grabber
Xcelera-HS PX8
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The Xcelera-HS PX8 has been built within Teledyne DALSA’s Trigger-to-Image Reliability technology framework. Trigger-to-Image Reliability leverages Teledyne DALSA’s hardware and software innovations to control, monitor and correct the image acquisition process from the time that an external trigger event occurs to the moment the data is sent to the host, providing traceability when errors do occur and permitting recovery from those errors.





























