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microEnable 5 marathon VCX-QP - Frame grabber

microEnable 5 marathon VCX-QP is a PCIe image processing device that allows the connection of up to four CoaXPress cameras with a bandwidth of 25 Gbit/s.

microEnable 5 marathon VCX-QP focuses on high-speed image processing with up to 4 x CoaXPress cameras and offers with DMA1800 technology an powerful access to advanced customized Machine Vision applications.

  • Support of fastest CoaXPress camera input
  • Easy-to-use configuration software
  • High performance image processing
  • Industrial multi-device, multi-camera support
  • DMA 1800 / up to 1800 MB/s PCIe Data bandwidth (PCIe x4 Gen2)
  • Supports opto-decoupled signals via front I/O
  • Broad support of Third-party software interfaces
  • Versatile application and industry usage
  • Custom FPGA programming with VisualApplets supporting Xilinx Kintex FPGAs
  • Power over CoaXPress.

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Frame grabber - microEnable 5 marathon VCX-QP
  • Frame grabber - microEnable 5 marathon VCX-QP

General Information

Order Number 2200000357
Net list price For larger quantities and individual prices, please use the request cart. Net list price  
For pricing, please use the request cart to get a quote. 2749.00 EUR 3299.00 USD 2749.00 EUR 23064.00 ¥
Est. Lead Time Estimated lead times may vary. Please ask for the current availability and use the request cart. Delivery time
 Extended lead time up to 3 months
Destination
Acquisition Type Frame grabber
Manufacturer Basler
Model Name microEnable 5 marathon VCX-QP
Product Series marathon Frame Grabber
Product Line Processing

Device Features

On-Board Memory 2 GByte DDR3-RAM
I/O Module Interfaces (Trigger and Sync) onboard: 8in/8out (max.), TTL or opto-coupled, Front GPIO: up to 3 differential signals in, up to 4 single-ended signals in (depends on configuration), 2 TTL outputs
Power via Interface (p. port) PoCXP (13W/24V per cable, Safe Power)

Camera Interface

Standard CoaXPress 1.0/1.1
Interface
  • CXP-6
Configurations CXP1-6; up to 4 cameras
Connectors 4 x DIN 1.0/2.3
Power output SafePower, Power over CXP 13W/24V per cable
Camera Support line scan camera, area scan camera
Sensor Type CFA sensor (Bayer), Grayscale sensor, RGB sensor
Bit Depth 8-16-bit (grayscale), 24-48-bit (color)
Data Bandwidth 4 x 6.25 Gbit/s
Data Bandwidth (p.port; Total) 6,25 Gbps; 25 Gbps
No. of Ports 4
Test Environment Camera Simulator

Host PC Interface

PC Bus Interface PCIe 2.1 x4, DMA1800
PC Bus Interface Performance up to 1.800 MB/s (sustainable)

Controls and General-Purpose I/Os

Trigger Board GPIO Interfaces Box connector (34-pin)
On-board GPIO interface One 34-pin flat cable connector onboard: 8 input signals and 8 output signals with open-drain optionally as 4 opto-coupled inputs (4,5V - 28V), optional 2 opto-coupled differential inputs (RS422); 4 opto-coupled outputs (4,5V - 28V)
On-board Front GPIO Interface optional (conf.): 4 opto-coupled Inputs (4,5V - 28V) with up to 1 MHz frequency, 2 TTL outputs, up to 20 MHz frequency, One 15-pin D-Sub socket: 2 opto-coupled differential inputs (RS422) and 1 opto-coupled differential / single ended input
GPIO Synchronisation and Control Configurable Trigger System supporting several trigger modes (grabber controlled, external trigger, gated, software trigger) and shaft encoder functionality with backward compensation, Multi-Camera-Synchronization
GPIO Interface Summary 8in/8out (max.), TTL or opto-coupled, Front GPIO: up to 3 differential signals in, up to 4 single-ended signals in (depends on configuration), 2 TTL outputs

Processing Features

Basic Features Offset/Gain/Gamma correction, Invert, ROI, White Balance, Mirroring, Image Selector, LUT

Physical and Environmental Information

Dimensions PCIe Standard height, half length card: 167.64 mm length x 111.15 mm height
Weight (typical) 168 g
Power Consumption / Power Source typ. 1.175 A @ 12V (actual values depend on image pre-processing), maximum load: 3.35 A (single supply over 4-pin power connector)
Operating Temperature 50° (0 LFM*), 60° (100 LFM*) FPGA operating temperature: 0°C to 85°C LFM = Linear Feet per Minute, unit for measuring airflow velocity
Storage Temperature -50°C up to 80°C
Relative Humidity (operating, storage) 5% - 90% non-condensing (operating), 0% - 95% (storage)
MTBF pending
Compliances WEEE, RoHS, REACH, CE class B

Software

Software Drivers Windows 10 / 8 / 7 (32-Bit), Windows 10 / 8 / 7 (64-Bit), Linux 32-Bit, Linux 64-Bit
Software Tools microDisplay (Acquisition control and viewer), GenICam Explorer (Camera configuration tool), microDiagnostics (Analysis and service tool), Device Drivers, SDK, Documentation
Software API .net interface, Framegrabber SDK
FPGA Programming VisualApplets
MV Software Compatibility Halcon, VisionPro, Labview
Accessories and Bundles

Trigger Boards

  • Opto trigger: opto-coupled signals
  • TTL trigger: standard TTL level
  • Multiple input and output signals (max. 8x in, 8x out)
  • Synchronization of the image acquisition process
  • Synchronization of multiple cameras in the image acquisition system
  • Control of the camera’s exposure time
  • Independent control of multiple cameras connected to a frame grabber
  • Highly flexible graphic programming of user-defined trigger functions with VisualApplets

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Matching accessories often sold together with this product:

VisualApplets 3

VisualApplets 3

VisualApplets enables access to the FPGA processors in the image processing hardware, such as frame grabbers, industrial cameras and image processing devices, to implement individual image processing applications.

  • Programming of the V-series frame grabbers and image processing hardware with special applications
  • Bandwidth control and FPGA resource assessment
  • Without expert skills or hardware programming
  • Reuse proprietary VHDL libraries in VisualApplets
  • Shorten project times, accelerate market availability

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VisualApplets Embedder

VisualApplets Embedder

Image processing devices become compatible with VisualApplets

  • Unlimited configuration of FPGA hardware with specific image processing applications
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  • Transfer developed image processing applications to different vision devices with minimal effort
  • Reduce the data volume with image pre-processing and alternatively apply inexpensive interfaces such as Gigabit Ethernet
  • End customers get the added value of programming the devices themselves in a specified framework
  • End customers receive smart devices that guarantee them the most flexibility and investment reliability

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VisualApplets Expert

VisualApplets Expert

Experienced users have the option of applying existing hardware code, debugging the design under runtime conditions and creating paths to parameters in hierarchical structures.

  • With the custom library, system builders apply their image processing modules programmed in VHDL or Verilog (VHDL libraries) in VisualApplets as generic operators, thus preserving their preparatory work.
  • The debugging library enables enhanced debugging to detect programming errors, deadlocks and bandwidth problems and to increase the design stability.
  • The parameters library offers users tools to change even those parameters that might be deeply embedded in the design’s hierarchical structures. The changes are automatically and consistently updated during the runtime.

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VisualApplets Libraries

VisualApplets Libraries

VisualApplets libraries comprise multiple operator libraries which expand the operators’ scope with valuable image processing functions, such as those for segmentation, classification and compression.

  • Segmentation/classification: These operators are used to segment and define objects in images and assign characteristics to them.
  • Compression: The JPEG operator makes it possible to execute the JPEG image compression directly on the FPGA of the vision hardware to reduce image data.

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VisualApplets Protection

VisualApplets Protection

To prevent the use of proprietary applets on external frame grabbers and thus protect intellectual property from outside access, the applets and frame grabbers can each be securely encoded with a lock.

  • Applets and frame grabbers are each securely encoded with a lock.
  • Two protective mechanisms guarantee maximum security.

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Manuals

The manuals provide complete information on all aspects of usage - from installing frame grabbers and software to first acquisition checks to advanced image processing. Described are all frame grabber series and models available together with their hardware and software add-ons, their specific functionalities and all image processing options along with the graphical FPGA development environment VisualApplets.

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Brochures

Basler product brochures provide an overview of the many benefits offered by Basler accessories. They describe technical characteristics and product features and offer detailed information about the technical specifications.

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Application Notes

Application Notes provide information beyond the scope of the user’s manuals related to working with Basler cameras, components and software. They typically contain detailed instructions on optimizing your accessories or configuring the software.

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Product Insights

Basler Product Insights highlight noteworthy information about the technical properties and features of various accessories. The Product Insights focus strongly on product-related topics, offering insights from the point of view of a Basler product manager.

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Customer Stories

Basler Customer Stories describe a broad diversity of applications and potential uses for Basler frame grabbers on a variety of markets. They explain the requirements Basler’s customers had to face while designing their image processing system and how Basler frame frabbers successfully contributed to resolving the problem.

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Conformity Documents

Certificates such as the Declaration of EC Conformity, the ISO 9001 Certificate and the KCC Certificate document that Basler products conform to the respective standards and guidelines.

microDisplay X

microDisplay X

During the activation of frame grabbers, microDisplay X helps you test the entire system configuration, select and parameterize applets and perform camera settings.

  • Configure cameras (GenICam) and applets directly in the start window and save or access the configuration
  • Load multiple applets (one applet per board)
  • Enlarge DMA (Direct Memory Access) output window for a large-scale display of an individual DMA output
  • Optimized accuracy of the frame rate information (frames per second) during the acquisition
  • Easy setup of line scan camera systems with line profile and line histogram (provide information on individual pixel values and the distribution of a line)
  • Buffer assigned in applet but not used (if the image section transferred by the camera is too small) is displayed in red in the DMA output window
  • New log window to access general and camera discovery log information, grabber events and system status information at any time

More about microDisplay X
microDiagnostics

microDiagnostics

microDiagnostics makes it possible to flash a frame grabber with applets and perform various tests for a successful activation

  • Support with the speedy activation of the frame grabber
  • Test functions simplify an overview of the full system’s functionality
  • Simple camera change by selecting and flashing another applet

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SDKs

SDKs

The Software Development Kit (SDK) is an easy way to integrate a frame grabber and camera into the customer’s application while using complex trigger settings, particularly the microEnable frame grabber function, to their full extent. A generic application programming interface (API) enables platform-independent work. Of course, the SDK also helps system builders develop their own C/C++/C# or Python applications.

  • Quick and easy integration of frame grabbers into your application and software environment
  • Flexible for the use of different programming languages (C++, C#, Python)
  • Reduced development times for projects

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