Version 15

     

    Documentation   Reference Designs   Technical Specifications

     

    The MicroZed™ Embedded Vision Kits build on the MicroZed System-On-Module (SOM) by providing a video specific carrier card which includes on-board HDMI input/output interfaces, audio CODEC, and a camera connector for optional camera modules. The kits are available as a complete bundle or as a stand-alone carrier card for designers who already have a MicroZed module.

     

    • MicroZed Embedded Vision Development Kit
      • Includes a MicroZed 7020 SOM
    • MicroZed Embedded Vision Carrier Card Kit
      • Carrier Card without a MicroZed SOM, for users who already have a MicroZed SOM

     

    The kits provide hardware, software and IP components necessary for the development of custom video applications.

     

    *NO LONGER INCLUDED: Xilinx Vivado® Design Edition license Voucher

     

    Purchase Products:

     

    EMBV FrontEMBV Front AngleEMBV BackEMBV Back Angle

    EMBV Front TripodEMBV + MicroZed FrontEMBV + MicroZed Front AngleEMBV + Microzed Tripod Adapter
    EMBV + Microzed ConnectorsBlock DiagramEMBV Carrier Card KitEMBV Development Kit

     

    Reference Designs

    The following reference designs are provided “AS IS”. If you have questions, please utilize the on-line forums in seeking help.

     

    EMBV - HDMI IP and Tutorials<br  />Two IP Cores are provided for the MicroZed Embedded Vision Carrier Card’s HDMI input and output interfaces. The tutorial instructs the user how to build a design with Vivado Design Suite (IP Integrator and SDK).  Required hardware includes : MicroZed Embedded Vision Carrier Card, MicroZed 7010 or 7020 SOM.

    EMBV - HDMI IP and Tutorials, Vivado 2014.3

    EMBV - HDMI Passthrough Reference Design, Vivado 2014.4

    EMBV - HDMI Passthrough Reference Design, Vivado 2015.2

    EMBV - HDMI Passthrough Reference Design, Vivado 2015.4

     

    EMBV - PYTHON-1300-C Reference Design<br  />This reference design provide the IP Core for the PYTHON receiver, as well as a reference design implementing a video frame buffer.  Required hardware includes : MicroZed Embedded Vision Carrier Card, MicroZed 7020 SOM, PYTHON-1300-C Camera Module.

    EMBV - PYTHON-1300-C Reference Design, Vivado 2014.3

    EMBV - PYTHON-1300-C Reference Design, Vivado 2014.4

    EMBV - PYTHON-1300-C Reference Design, Vivado 2015.2

    EMBV - PYTHON-1300-C Reference Design, Vivado 2015.4

     

    EMBV - PYTHON-1300-C Vivado HLS Reference Design<br  />The Vivado HLS Reference Design provides a feature rich framework for the development of video applications on the Xilinx Zynq-7000 SoC.  The design is supported by Petalinux, including the linux drivers for the following video pipelines : HDMI output (display), co-processing (sobel), HDMI input, as well as PYTHON-1300-C camera input.  Required hardware includes: MicroZed 7020 SOM + MicroZed Embedded Vision Carrier Card, and optionally the PYTHON-1300-C camera module.

    EMBV - PYTHON-1300-C Vivado HLS Reference Design, Vivado 2015.4_1

    EMBV - PYTHON-1300-C Vivado HLS Reference Design, Vivado 2015.4_2

    EMBV - PYTHON-1300-C Vivado HLS Reference Design, Vivado 2015.4_3

    EMBV - PYTHON-1300-C Vivado HLS Reference Design, Vivado 2015.4_4

    EMBV - PYTHON-1300-C Vivado HLS Reference Design, Vivado 2015.4_5

     

    MicroZed Embedded Vision Kit - SDSoC platforms<br  />The SDSoC platforms provides a feature rich framework for the development of video applications on the Xilinx Zynq-7000 SoC. Required hardware includes : MicroZed Embedded Vision Kit, including MicroZed 7020 SOM + MicroZed Embedded Vision Carrier, and optionally the PYTHON-1300-C camera module.

    MZEMBV HDMI SDSoC platform, SDSoC 2016.2_1

    MZEMBV HDMI SDSoC platform, SDSoC 2016.2_2

    MZEMBV HDMI SDSoC platform, SDSoC 2016.2_3

    MZEMBV PYTHON-1300-C SDSoC platform, SDSoC 2016.2_1

    MZEMBV PYTHON-1300-C SDSoC platform, SDSoC 2016.2_2

    MZEMBV PYTHON-1300-C SDSoC platform, SDSoC 2016.2_3

     

    EMBV - PYTHON-1300-C SDSoC platform<br  />The SDSoC platform provides a feature rich framework for the development of video applications on the Xilinx Zynq-7000 SoC.  The design is supported by Petalinux, including the linux drivers for the following video pipelines : HDMI output (display), co-processing (sobel), HDMI input, as well as PYTHON-1300-C camera input.  Required hardware includes : MicroZed 7020 SOM + MicroZed Embedded Vision Carrier Card, and optionally the PYTHON-1300-C camera module.

    EMBV - PYTHON-1300-C SDSoC platform, SDSoC 2015.4_1

    EMBV - PYTHON-1300-C SDSoC platform, SDSoC 2015.4_2

    EMBV - PYTHON-1300-C SDSoC platform, SDSoC 2015.4_3

     

    XYLON Face Detection and Tracking for EMBV and PYTHON-1300-C<br  />Xylon's logiFDT Face Detector and Tracker IP core finds and tracks the face and facial features in video sequences in real time and returns full 3D head pose, gaze direction, facial features coordinates and a wealth of other information. Required hardware includes : MicroZed Embedded Vision Carrier Card, MicroZed 7020 SOM, PYTHON-1300-C Camera Module.

    EMBV - PYTHON-1300-C - XYLON logiFDT

     

    XYLON Image Signal Processing (ISP) Pipeline for EMBV and PYTHON-1300-C<br  />Xylon's logiISP Image Signal Processing (ISP) Pipeline IP core is a full high-definition ISP pipeline designed for digital processing and image quality enhancements of an input video stream in smarter vision embedded designs based on Xilinx® Zynq®-7000 AP SoC and 7 Series FPGA devices. Required hardware includes : MicroZed Embedded Vision Carrier Card, MicroZed 7020 SOM, PYTHON-1300-C Camera Module.

    EMBV - PYTHON-1300-C - XYLON logiISP

     

    Display Panel Controller Standalone Tutorials for MicroZed Embedded Vision Carrier
    The tutorial instructs the user how to build a Programmable Logic based display controller design from scratch using Xilinx design tools.  Example standalone software projects are provided to demonstrate display and touch controller functionality.  Required hardware includes MicroZed (does not have element14 link) (with Embedded Vision Carrier) and the 7-inch Zed Touch Display Kit.

     

    Vivado 2014.4 Version

    Technical Specifications

     

    SpecificationDescription
    INTERFACES
    • Two 100-pin board-to-board MicroHeaders
    • Xilinx PC4 header for download/debug-
    • - Accesses PL JTAG
    • Three Digilent Pmod™ compatible interfaces
    • - Access to 24 user I/O
    • - One connected to PS MIO
    • - Two connected to Bank 13 (supporting the Touch Display Kit)
    • Power-On and System Reset push buttons
    • 2 User push buttons
    • 2 User LEDs
    • 5 Status LEDs (PoE input voltage, 5V input voltage, Power Good and DONE)
    • 10/100/1000 Ethernet (featuring Marvell PHY), connected to PL
    • Power Over Ethernet (PoE) Interface (featuring ST Microelectronics PM8803)
    VIDEO/AUDIO
    • Micro-HDMI Input (featuring Analog Devices ADV7611)
    • Micro-HDMI Output (featuring Analog Devices ADV7511)
    • Camera interface, supporting various optional camera modules
    • Audio Codec (featuring Analog Devices ADAU1761), only available with MicroZed 7020 SOM
    ON-BOARD MEMORY
    • 2 Kb MAC ID EEPROM, for use with MicroZed's PS-based ethernet interface
    • 2 Kb MAC ID EEPROM, for use with Carrier Card's PL-based ethernet interface

     

    WHAT'S INCLUDED

      MicroZed Embedded Vision
      Carrier Card Kit:

    • Embedded Vision Carrier Card
    • 5V power supply
    • microHDMI to HDMI cables (2)
    • microUSB to USB cable
    • Ethernet cable
    • 4GB microSD Card
    • Tripod adapter
    • Tripod
    • Quick Start Card
    • Downloadable documentation and reference

      MicroZed Embedded Vision
      Development Kit:

    • Inclusive of all items in the MicroZed Embedded Vision Carrier Card Kit, in addition to
    • MicroZed 7020