Xilinx FPGA introduction development
AX7Z020 Supporting Verilog HDL Demos and Docuemnts
All Doucments Saved in Dropbox, after buy the board, email to get it.
Course_S1_Basic Tutorial
Part 01: Software Package Introduction and FPGA Board Inspection
Part 02: Introduction to ZYNQ
Part 03: Vivado development environment
Part 04: PL's "Hello World" LED experiment
Part 05: HDMI output experiment
Part 06: Experience ARM, bare metal output "Hello World"
Part 07: PS timer interrupt experiment
Part 08: PS MIO Experiment
Part 09: PS EMIO Experiment
Part 10: PL AXI GPIO Experiment
Part 11: Ethernet Experiment (LWIP)
Part 12: Custom IP experiment
Part 13: Use VDMA to drive HDMI display
Part 14: Install virtual machine and Ubuntu System Part
Part 15: Ubuntu installs the Vivado software for Linux
Part 16: Petalinux tool installation
Part 17: NFS service software installation
Part 18: Customizing Linux with Petalinux
Part 19: Develop Linux programs using the SDK
Part 20: GPIO experiment under Linux
Part 21: HDMI display under Petalinux
Part 22: Use the Debian 8 desktop system
Part 23: Making QSPIFlash boot Linux
Course_S2_SDK Application Tutorial
Part 01: PS side UART read and write control
Part 02: Use of XADC
Part 03: I2C read and write
Part 04: CAN bus read and write
Part 05: RS485 Test
Part 06: PL read and write PS DDR data
Part 07: Realize PS and PL data interaction through BRAM
Part 08: Use of dual core AMP
Part 09: Use of Free RTOS under ZYNQ
Part 10: DMA loop test
Part 11: Use of DMA--DAC waveform generator (AN108)
Part 12: Use of DMA--ADC oscilloscope (AN108)
Part 13: Use of DMA--ADC oscilloscope (AN9238)
Part 14: Use of DMA--ADC oscilloscope (AN706) Part 15: Use of the SG DMA based on ADC module (AN108)
Part 16: Use the SG DMA based on DAC module (AN9767)
Part 17: OV5640 camera acquisition display (1)
Part 18: OV5640 camera acquisition display (2)
Part 19: Binocular camera Ethernet transmission
Part 20: SD card read and write operation BMP picture display
Part 21: SD card read and write operation camera capture
Part 22: MIPI acquisition and display based on AN5641 module (Only for AX7Z020)
Part 23: Audio module AN831 recording and playback
Part 24: Use of 7 inch LCD module
Part 25: 7-inch touch screen GUI and touch control
Part 26 Ethernet Transmission--ADC Acquisition Based on AN108 Module
Part 27: Ethernet Transmission--ADC Acquisition Based on AN9238 Module
Part 28: Ethernet Transmission--ADC Acquisition Based on AN706 Module
Part 29: Remote update QSPI Flash based on UDP/TCP
Course_S3_HSL Application Tutorial
Part 01: Getting to Know HLS Part
Part 02: Status Indicator LED
Part 03: Floating Point Coprocessing
Part 04: Video Color Bar
Part 05: Video Frame Buffer Read and Write Management
Part 06: Image Scaling Overlay
Part 07: Character Overlay
Part 08: Image Contrast Adjustment
Part 09: Auto Focus
Part 10: Edge Detection
Part 11: Corner Detection
Part 12: Fast Fourier Transform
Course_S4_Linux Application Tutorial
Part 01. QT Application on ZYNQ
Part 02. OpenCV application display of USB camera
Part 03. Binocular camera module OpenCV display
Part 04. Touch screen module application
Part 05: AXI DMA Read and Write Test
Part 06: DMA-based ADC Waveform Display (AN926)
Part 07: DMA-based ADC Waveform Display (AN706)
Part 08: Autorun petalinux application
Part 09: Appendix - Linux Common Commands
AN831 Collection Package
AN9767 Collection Package
AN706 Collection Package
AN9238 Collection Package
Video Package
Luxury Package
FPGA Board
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Downloader Cable USB
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AN831
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AN9767
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AN706
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AN9238
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Binocular Camera
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7-inch LCD
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Package supporting module, click to learn more
*Learn More about the Core Board, Click to View >
FPGA Board
AX7Z020
FPGA Chip
XA7z020-1clg400I / XC7z020-2clg400I
Kernel
Dual-Core ARM Cortex-A9
RAM
DDR3,1GB,Data Rate 1066Mbps
Logic Cells
85K
Look Up Tables (LUTs)
53,200
CLB Flip-Flops
106,400
DSP Slices
220
Block RAM
4.9Mb
PS MIO
48
PL IO
120
JTAG
JTAG Interface to Debug and Download ZYNQ System
Ethernet Interface
10/100/1000M Adaptive Ethernet with RJ-45 Interface Used for Data Exchange with Computers and Other Network Equipment
HDMI
HDMI Image and Video Input/Output Interface, Supports 1080@60Hz
USB HOST
Used for Connect USB Peripherals such as Mouse, Keyboard and U Disk
USB Uart
Used for OTG Communication with PC or USB Device
CAN Bus
2 CAN Bus Interface, for User CAN Communication Service
RS485
2 RS485 Interfaces, 485 communication Services for Users
AD Interface
2 SMA Interfaces, Used for Analog Signal Input and Voltage Conversion
Real Time Clock
RTC with a Battery Holder, The Battery Model is CR1220
QSPI FLASH
256Mbit, Used for Storage of System Files and User Data
LED
4 User LEDs, 2 Power LEDs, Cofiguration LED
key
4 User Keys, 1 Power Switch, 1 Reset Key
Crystal Oscillator
33.333Mhz, Provide Stable Clock Source for the PS System
50MHz, Provide Extra Clock for PL Logic
SD Card Slot
Insert Micro SD TF Card, Store Operating System Image and File System
MIPI Interface
Used for connect with MIPI Camera Module [available only for AX7Z020]
Expansion Port
Two 40-Pin Expansion Ports (0.1 inch Pitch), Expand the 68 IOs Connect with 7 inch LCD Screen, Camera, AD/DA and Other Modules.
EEPROM
EEPROM 24LC04 with IIC Interface
Temperature Sensor
Temperature Sensor chip LM75, used to detect the temperature of the environment around the board
Voltage Input
+5V DC
Current Input
Max. Current 2A
Rating Lable
5V/2A
FPGA Board
1
TF Card
1
Mini USB Cable
1
Card Reader
1
5V Power Adapter
1
USB Downloader Cable
1
Mini USB Cable
1
Size Dimension
Core Board: 1.38 inch x 1.65 inch, Carrier Board: 5.12 inch x 3.54 inch
Number of Layers
12-Layer Core Board PCB, 8-Layer Carrier Board PCB,Reserved Independent Power Layer and GND Layer
With a Super Combination of Memory DDR3
Intelligent Identification, Medical Security, Vehicle Digital, Industrial Control, Smart Grid
Dual Lens Camera Module On-Board Demo
The Binocular Camera Module AN5642 for Video Capture, and Displays it on the Monitor through the HDMI Interface of the ZYNQ Development Board. The ZYNQ Development Board Runs the Linux Operating System, and the Video Data is Displayed Using QT to Realize Binocular Display Simultaneously.
AN9767/AN706 Module On-Board Demo
The Signal Source Output Signal is Connected to the AN9767/AN706 Module,and is Displayed to the Monitor through the HDMI Interface of the ZYNQ Development Board. Run the Linux Operating System and use QT to Draw Waveform Data. The Whole Process Involves Data Transmission BetweenPL and PS, and Software Development under the Linux System.
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