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CIC-590 Advanced FPGA Development System
CIC-590 Advanced FPGA Development System
CIC-590 training system is designed based on Xilinx Artix-7 FPGA Trainer Board (Basys 3). With its high-capacity FPGA, low overall cost, and collection of USB, VGA ..etc and the Vivado Design Suite, students can develop, implement and verify design of basic or advanced digital circuit, digital signal processor and CPU/MCU.
The system is equipped with ADC/DAC analog module , keypad, LCD display, RS-232, RS-485 interface, LED, 7-segment display, DIP-switch and pushbuttons, 3-axis digital gyroscope and digital humidity and temperature sensor which allow students to handle complex mixed signal and digital control design.
產品特色
- CIC-590 is well equipped for complex digital circuit design.
- It provides AD/DA converter, keypad, LCD display, USB, VGA, UART, LEDS, 7-segment LED display, step motor driver, 3-axis Digital Gyroscope and digital humidity and temperature sensor circuits.
- Suitable for the curriculum training in electronics, electrical engineering, information, communication and automation field.
- Ideal for professional IC designers, R&D engineers, undergraduate and graduate students to learn IC design and software development.
- Develop and verify basic and advanced digital circuit, digital signal processing and CPU / MCU with large-element and multi-pin FPGA chip.
產品規格
List of Experiments
- Basic logic circuit and application
• Installing Vivado, Vitis, and Digilent Board Files
• Getting Started with Vivado and Vitis for Baremetal Software Projects
• Getting Started with Vivado for Hardware-Only Designs
• Getting Started with Digilent Pmod IPs
• Using the Simulator in Vivado
• Basys 3 Programming Guide - Advanced logic circuit design and application
• Using GPIO interface work as 8 DIP switches
• Using GPIO interface work as 8 user pushbuttons
• Using GPIO interface work as 16-button keypad
• Using GPIO interface work as rotary encoder
• Using GPIO interface work as 8 high-brightness LEDs
• Using GPIO interface work as 2 x 7-segment displays
• Using SPI interface work as character LCD with serial interface
• Using SPI interface work as 96*64 RGB OLED Display with 16-bit color
• Using I2C interface work as 4-channel 12-bit A/D converter
• Using SPI interface work as 4-channel 8-bit DA converter
• Using UART interface work as RS-232 interface
• Using UART interface work as RS-485 interface
• Using I2C interface work as 3-axis Digital Gyroscope
• Using I2C interface work as digital humidity and temperature sensor
• Input and Output integration experiment 1
• Input and Output integration experiment 2
• Input and Output integration experiment 3
• Input and Output integration experiment 4