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GOWIN DK VIDEO GW5AT-LV60UG225 V1.0 User Manual

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DK_VIDEO_GW5AT-LV60UG225_V1.0
Demo User Guide
DBUG1282-1.0E, 03/07/2025

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Summary of Contents for GOWIN DK VIDEO GW5AT-LV60UG225 V1.0

  • Page 1 DK_VIDEO_GW5AT-LV60UG225_V1.0 Demo User Guide DBUG1282-1.0E, 03/07/2025...
  • Page 2 Copyright © 2025 Guangdong Gowin Semiconductor Corporation. All Rights Reserved. , Gowin, and GOWINSEMI are trademarks of Guangdong Gowin Semiconductor Corporation and are registered in China, the U.S. Patent and Trademark Office, and other countries. All other words and logos identified as trademarks or service marks are the property of their respective holders.
  • Page 3 Revision History Date Version Description 03/07/2025 1.0E Initial version published.

  • Page 4: Table Of Contents

    Contents Contents Contents ....................... i List of Figures ..................... v List of Tables ..................... vii 1 About This Guide ..................... 1 1.1 Purpose ..........................1 1.2 Related Documents ......................1 1.3 Terminology and Abbreviations ................... 1 1.4 Support and Feedback ....................... 2 2 Demo Introduction ...................
  • Page 5 Contents 3.4 1920*1080@60 HDMI Screen Display Test ..............11 3.4.1 Demo Feature ........................ 11 3.4.2 Demo Hardware Composition ..................11 3.4.3 Demo Hardware Connection ..................12 3.4.4 Demo Effect ........................13 3.5 1024*600@60 LVDS LCD Screen Display Test ............... 14 3.5.1 Demo Feature ........................
  • Page 6 Contents 3.10.2 Demo Hardware Composition ..................25 3.10.3 Demo Hardware Connection ..................26 3.10.4 Demo Effect ......................... 27 3.11 1080*1920@60 DDR3 Image Cache and MIPI DSI LCD Screen Display Test ....27 3.11.1 Demo Feature ......................27 3.11.2 Demo Hardware Composition ..................27 3.11.3 Demo Hardware Connection ..................
  • Page 7 Contents 4.5.3 Demo Hardware Connection ..................43 4.5.4 Demo Effect ........................44 4.6 IMX586 1024x600@60 LVDS Screen Display Project ............. 45 4.6.1 Demo Feature ........................ 45 4.6.2 Demo Hardware Composition ..................45 4.6.3 Demo Hardware Connection ..................46 4.6.4 Demo Effect ........................47 DBUG1282-1.0E...

  • Page 8: List Of Figures

    List of Figures List of Figures Figure 3-1 Hardware Composition of LED Blinking Test ..............6 Figure 3-2 Hardware Connection Diagram of LED Blinking Test ............7 Figure 3-3 Hardware Composition of UART Serial Communication Loopback Test ......8 Figure 3-4 Hardware Connection Diagram of UART Serial Communications Loopback Test ... 9 Figure 3-5 Hardware Composition of 1280*720@60 HDMI Screen Display Test ......
  • Page 9 List of Figures Screen Display Test ........................... 28 Figure 4-1 Hardware Composition of SC130GS Black-and-White Exposure 1-lane HDMI Screen Display Project ........................... 31 Figure 4-2 Hardware Connection Diagram of SC130GS Black-and-White Exposure 1-lane HDMI Screen Display Project ........................32 Figure 4-3 Hardware Composition of SC130GS Black-and-White Exposure 1-lane LVDS Screen Display Project ...........................

  • Page 10: List Of Tables

    List of Tables List of Tables Table 1-1 Terminology and Abbreviations ..................1 Table 2-1 Basic Demo Introduction ....................3 Table 2-2 Image Demo Introduction ....................4 DBUG1282-1.0E...

  • Page 11: About This Guide

    1 About This Guide 1.1 Purpose About This Guide 1.1 Purpose DK_VIDEO_GW5AT-LV60UG225_V1.0 Development Board (hereafter referred to as “Development Board”) Demo User Guide consists of demo features, hardware compositions, hardware connections, and demo effects. 1.2 Related Documents The latest user guides are available on the GOWINSEMI Website. You can find the related documents at www.gowinsemi.com: DBUG1281, DK_VIDEO_GW5AT-LV60UG225_V1.0 Development Board User...

  • Page 12: Support And Feedback

    1 About This Guide 1.4 Support and Feedback 1.4 Support and Feedback Gowin Semiconductor provides customers with comprehensive technical support. If you have any questions, comments, or suggestions, please feel free to contact us directly using the information provided below.

  • Page 13: Demo Introduction

    2 Demo Introduction Demo Introduction The demo includes basic demos and image demos. The basic demo is used to validate the board's basic functions such as HDMI, DDR3, LVDS, DSI, and DP. The image demo conducts HDMI and LVDS screen display tests for various cameras based on DDR3, MIPI C-PHY hard core, and MIPI D-PHY soft core.
  • Page 14 2 Demo Introduction Project Name Design Description Display_10801920 and MIPI DSI LCD screen display test Table 2-2 Image Demo Introduction Project Name Design Description SC130GS black-and-white exposure 1-lane 01-1_SC130GS_DDR3_ HDMI screen display project based on DPHY HDMI_720P60 soft core and DDR3 SC130GS black-and-white exposure 1-lane 01-2_SC130GS_DDR3_ LVDS screen display project based on DPHY...

  • Page 15: Basic Demo

    3 Basic Demo 3.1 1-bit LED Blinking Test Basic Demo 3.1 1-bit LED Blinking Test 3.1.1 Demo Feature The feature of this demo is to implement LED blinking on the core board. 3.1.2 Demo Hardware Composition 1. DK_VIDEO_GW5AT-LV60UG225_V1.0 core board 2.

  • Page 16: Demo Hardware Connection

    3 Basic Demo 3.1 1-bit LED Blinking Test Figure 3-1 Hardware Composition of LED Blinking Test ① DK_VIDEO_GW5AT-LV60UG225_V1.0 core board ② DK_VIDEO_GW5AT-LV60UG225_V1.0 carrier board ③ USB downloader ④ USB to Type-C cable ⑤ PC 3.1.3 Demo Hardware Connection 1. Firstly, connect the core board to the carrier board. 2.

  • Page 17: Demo Effect

    3 Basic Demo 3.2 Serial Communication Loopback Test (115200bps) The connection diagram is as follows. Figure 3-2 Hardware Connection Diagram of LED Blinking Test 3.1.4 Demo Effect After downloading the program, the LED on the core board blinks. 3.2 Serial Communication Loopback Test (115200bps) 3.2.1 Demo Feature The feature of this demo is to implement the loopback test of serial data at a baud rate of 115200bps.

  • Page 18: Demo Hardware Connection

    3 Basic Demo 3.2 Serial Communication Loopback Test (115200bps) Figure 3-3 Hardware Composition of UART Serial Communication Loopback Test ① DK_VIDEO_GW5AT-LV60UG225_V1.0 core board ② DK_VIDEO_GW5AT-LV60UG225_V1.0 carrier board ③ USB downloader ④ USB to Type-C cable ⑤ PC 3.2.3 Demo Hardware Connection 1.

  • Page 19: Demo Effect

    3 Basic Demo 3.3 1280*720@60 HDMI Screen Display Test The connection diagram is as follows. Figure 3-4 Hardware Connection Diagram of UART Serial Communications Loopback Test 3.2.4 Demo Effect After downloading the program, open the serial assistant, select the port, set the baud rate to 115200, stop bits to 1, data bits to 8, and parity to None, the received characters will match the sent ones.

  • Page 20: Demo Hardware Connection

    3 Basic Demo 3.3 1280*720@60 HDMI Screen Display Test Figure 3-5 Hardware Composition of 1280*720@60 HDMI Screen Display Test ① DK_VIDEO_GW5AT-LV60UG225_V1.0 core board ② DK_VIDEO_GW5AT-LV60UG225_V1.0 carrier board ③ USB downloader ④ USB to Type-C cable ⑤ Monitor with HDMI interface ⑥...

  • Page 21: Demo Effect

    3 Basic Demo 3.4 1920*1080@60 HDMI Screen Display Test 3. Then, connect the HDMI monitor to the carrier board's HDMI port (J8) with an HDMI cable. 4. Finally, insert the USB to Type-C cable connected to the 5V power adapter into the carrier board's USB to Type-C port (J9) to power the development board.

  • Page 22: Demo Hardware Connection

    3 Basic Demo 3.4 1920*1080@60 HDMI Screen Display Test Figure 3-7 Hardware Composition of 1920*1080@60 HDMI Screen Display Test ① DK_VIDEO_GW5AT-LV60UG225_V1.0 core board ② DK_VIDEO_GW5AT-LV60UG225_V1.0 carrier board ③ USB downloader ④ USB to Type-C cable ⑤ Monitor with HDMI interface ⑥...

  • Page 23: Demo Effect

    3 Basic Demo 3.4 1920*1080@60 HDMI Screen Display Test with an HDMI cable. 4. Finally, insert the USB to Type-C cable connected to the 5V power adapter into the carrier board's USB to Type-C port (J9) to power the development board. The connection diagram is as follows.

  • Page 24: 1024*600@60 Lvds Lcd Screen Display Test

    3 Basic Demo 3.5 1024*600@60 LVDS LCD Screen Display Test 3.5 1024*600@60 LVDS LCD Screen Display Test 3.5.1 Demo Feature The feature of this demo is to implement the 1024*600 LVDS screen output and display. 3.5.2 Demo Hardware Composition 1. DK_VIDEO_GW5AT-LV60UG225_V1.0 core board 2.

  • Page 25: Demo Hardware Connection

    3 Basic Demo 3.5 1024*600@60 LVDS LCD Screen Display Test 3.5.3 Demo Hardware Connection 1. Firstly, connect the core board to the carrier board. 2. Next, connect the USB downloader to the core board’s ZH1.25-6 terminal (J4). 3. Then, connect the LVDS screen to the carrier board's LVDS port (J11) with an FPC cable.

  • Page 26: Demo Effect

    3 Basic Demo 3.6 1080*1920@60 MIPI DSI LCD Screen Display Test The connection diagram is as follows. Figure 3-10 Hardware Connection Diagram of 1024*600@60 LVDS LCD Screen Display Test 3.5.4 Demo Effect After downloading the program, the LVDS screen cycles through four images.

  • Page 27: Demo Hardware Connection

    3 Basic Demo 3.6 1080*1920@60 MIPI DSI LCD Screen Display Test Figure 3-11 Hardware Composition of 1080*1920@60 DSI LCD Screen Display Test ① DK_VIDEO_GW5AT-LV60UG225_V1.0 core board ② DK_VIDEO_GW5AT-LV60UG225_V1.0 carrier board ③ USB downloader ④ USB to Type-C cable ⑤ 1080*1920 MIPI LCD ⑥...

  • Page 28: Demo Effect

    3 Basic Demo 3.7 1920*1080@60 DP Screen Display Test The connection diagram is as follows. Figure 3-12 Hardware Connection Diagram of 1080*1920@60 DSI LCD Screen Display Test 3.6.4 Demo Effect After downloading the program, the MIPI LCD cycles through four images.

  • Page 29: Figure 3-13 Hardware Composition Of 1920*1080@60 Dp Screen Display Test

    3 Basic Demo 3.7 1920*1080@60 DP Screen Display Test 3. USB downloader 4. USB to Type-C cable 5. Monitor with DP interface 6. DP cable 7. PC Figure 3-13 Hardware Composition of 1920*1080@60 DP Screen Display Test ① DK_VIDEO_GW5AT-LV60UG225_V1.0 core board ②...

  • Page 30: Demo Hardware Connection

    3 Basic Demo 3.8 1920*1080@ 60 DP Screen Receiving Display Test 3.7.3 Demo Hardware Connection 1. Firstly, connect the core board to the carrier board. 2. Next, connect the USB downloader to the core board’s ZH1.25-6 terminal (J4). 3. Then, connect the DP monitor to the carrier board's DP_TX port (J4) with a DP cable.

  • Page 31: Figure 3-15 Hardware Composition Of 1920*1080@60 Dp Screen Receiving Display Test

    3 Basic Demo 3.8 1920*1080@ 60 DP Screen Receiving Display Test 3. USB downloader 4. USB to Type-C cable 5. Monitor with DP interface 6. DP cable 7. PC Figure 3-15 Hardware Composition of 1920*1080@60 DP Screen Receiving Display Test ①...

  • Page 32: Demo Hardware Connection

    3 Basic Demo 3.8 1920*1080@ 60 DP Screen Receiving Display Test 3.8.3 Demo Hardware Connection 1. Firstly, connect the core board to the carrier board. 2. Next, connect the USB downloader to the core board’s ZH1.25-6 terminal (J4). 3. Then, connect the carrier board's DP_TX port (J4) to the monitor and the DP_RX port (J3) to the PC with two DP cables.

  • Page 33: 1920*1080@60 Ddr3 Image Cache And Hdmi Screen Display Test

    3.9 1920*1080@60 DDR3 Image Cache and HDMI 3 Basic Demo Screen Display Test 3.9 1920*1080@60 DDR3 Image Cache and HDMI Screen Display Test 3.9.1 Demo Feature Cache the real-time generated 1920x1080@60 images into DDR3, then read them with a 1920x1080@60 video timing and output to the HDMI monitor.

  • Page 34: Demo Hardware Connection

    3.9 1920*1080@60 DDR3 Image Cache and HDMI 3 Basic Demo Screen Display Test Figure 3-17 Hardware Composition of 1920*1080@60 DDR3 Image Cache and HDMI Screen Display Test ① DK_VIDEO_GW5AT-LV60UG225_V1.0 core board ② DK_VIDEO_GW5AT-LV60UG225_V1.0 carrier board ③ USB downloader ④ USB to Type-C cable ⑤...

  • Page 35: Demo Effect

    3.10 1024*600@60 DDR3 Image Cache and LVDS 3 Basic Demo Screen Display Test terminal (J4). 3. Then, connect the HDMI monitor to the carrier board's HDMI port (J8) with an HDMI cable. 4. Finally, insert the USB to Type-C cable connected to the 5V power adapter into the carrier board's USB to Type-C port (J9) to power the development board.

  • Page 36: Demo Hardware Connection

    3.10 1024*600@60 DDR3 Image Cache and LVDS 3 Basic Demo Screen Display Test 4. USB to Type-C cable 5. 1024*600 LVDS/RGB LCD 6. PC Figure 3-19 Hardware Composition of 1024*600@60 DDR3 Image Cache and LVDS Screen Display Test ① DK_VIDEO_GW5AT-LV60UG225_V1.0 core board ②...

  • Page 37: Demo Effect

    3.11 1080*1920@60 DDR3 Image Cache and MIPI DSI 3 Basic Demo LCD Screen Display Test The connection diagram is as follows. Figure 3-20 Hardware Connection Diagram of 1024*600@60 DDR3 Image Cache and LVDS Screen Display Test 3.10.4 Demo Effect After downloading the program, the LVDS screen cycles through four images.

  • Page 38: Demo Hardware Connection

    3.11 1080*1920@60 DDR3 Image Cache and MIPI DSI 3 Basic Demo LCD Screen Display Test LCD Screen Display Test ① DK_VIDEO_GW5AT-LV60UG225_V1.0 core board ② DK_VIDEO_GW5AT-LV60UG225_V1.0 carrier board ③ USB downloader ④ USB to Type-C cable ⑤ 1080*1920 MIPI LCD ⑥ PC 3.11.3 Demo Hardware Connection 1.

  • Page 39: Demo Effect

    3.11 1080*1920@60 DDR3 Image Cache and MIPI DSI 3 Basic Demo LCD Screen Display Test and DSI LCD Screen Display Test 3.11.4 Demo Effect After downloading the program, the MIPI LCD cycles through four images. DBUG1282-1.0E 29(47)

  • Page 40: Image Demo

    4.1 SC130GS Black-and-White Exposure 1-lane HDMI 4 Image Demo Screen Display Project Image Demo 4.1 SC130GS Black-and-White Exposure 1-lane HDMI Screen Display Project 4.1.1 Demo Feature Based on DPHY soft core and DDR3, the project caches the black- and-white image data captured by SC130GS into DDR3 and outputs it to HDMI screen to display with 1280*720@60 video timing.

  • Page 41: Demo Hardware Connection

    4.1 SC130GS Black-and-White Exposure 1-lane HDMI 4 Image Demo Screen Display Project Figure 4-1 Hardware Composition of SC130GS Black-and-White Exposure 1-lane HDMI Screen Display Project ① DK_VIDEO_GW5AT-LV60UG225_V1.0 core board ② DK_VIDEO_GW5AT-LV60UG225_V1.0 carrier board ③ USB downloader ④ USB to Type-C cable ⑤...

  • Page 42: Demo Effect

    4.1 SC130GS Black-and-White Exposure 1-lane HDMI 4 Image Demo Screen Display Project terminal (J4). 3. Then, connect the SC130GS camera to the carrier board’s MIPI DPHY soft core interface (J1). 4. After that, connect the HDMI monitor to the carrier board's HDMI port (J8) with an HDMI cable.

  • Page 43: Sc130Gs Black-And-White Exposure 1-Lane Lvds Screen Display Project

    4.2 SC130GS Black-and-White Exposure 1-lane LVDS 4 Image Demo Screen Display Project captured by the SC130GS camera with black-and-white exposure. 4.2 SC130GS Black-and-White Exposure 1-lane LVDS Screen Display Project 4.2.1 Demo Feature Based on DPHY soft core and DDR3, the project caches the black- and-white image data captured by SC130GS into DDR3 and outputs it to LVDS screen to display with 1024*600@60 video timing.

  • Page 44: Demo Hardware Connection

    4.2 SC130GS Black-and-White Exposure 1-lane LVDS 4 Image Demo Screen Display Project Figure 4-3 Hardware Composition of SC130GS Black-and-White Exposure 1-lane LVDS Screen Display Project ① DK_VIDEO_GW5AT-LV60UG225_V1.0 core board ② DK_VIDEO_GW5AT-LV60UG225_V1.0 carrier board ③ USB downloader ④ USB to Type-C cable ⑤...

  • Page 45: Demo Effect

    4.2 SC130GS Black-and-White Exposure 1-lane LVDS 4 Image Demo Screen Display Project 3. Then, connect the SC130GS camera to the MIPI DPHY soft core interface (J1) on the carrier board. 4. After that, connect the LVDS screen to the carrier board's LVDS port (J11) with an FPC cable.

  • Page 46: Sc2210 Color Exposure 1-Lane Hdmi Screen Display Project

    4.3 SC2210 Color Exposure 1-lane HDMI Screen Display 4 Image Demo Project 4.3 SC2210 Color Exposure 1-lane HDMI Screen Display Project 4.3.1 Demo Feature Based on DPHY soft core and DDR3, the project caches the color image data captured by SC2210 into DDR3 and outputs it to HDMI screen to display with 1920*1080@60 video timing.

  • Page 47: Demo Hardware Connection

    4.3 SC2210 Color Exposure 1-lane HDMI Screen Display 4 Image Demo Project Figure 4-5 Hardware Composition of SC2210 Color Exposure 1-lane HDMI Screen Display Project ① DK_VIDEO_GW5AT-LV60UG225_V1.0 core board ② DK_VIDEO_GW5AT-LV60UG225_V1.0 carrier board ③ USB downloader ④ USB to Type-C cable ⑤...

  • Page 48: Demo Effect

    4.3 SC2210 Color Exposure 1-lane HDMI Screen Display 4 Image Demo Project 2. Next, connect the USB downloader to the core board’s ZH1.25-6 terminal (J4). 3. Then, connect the SC2210 camera to the MIPI DPHY soft core interface (J1) on the backplane. 4.

  • Page 49: Sc2210 Color Exposure 1-Lane Lvds Screen Display Project

    4.4 SC2210 Color Exposure 1-lane LVDS Screen Display 4 Image Demo Project 4.4 SC2210 Color Exposure 1-lane LVDS Screen Display Project 4.4.1 Demo Feature Based on DPHY soft core and DDR3, the project caches the color image data captured by SC2210 into DDR3 and outputs it to LVDS screen to display with 1024*600@60 video timing.

  • Page 50: Demo Hardware Connection

    4.4 SC2210 Color Exposure 1-lane LVDS Screen Display 4 Image Demo Project Figure 4-7 Hardware Composition of SC2210 Color Exposure 1-lane LVDS Screen Display Project ① DK_VIDEO_GW5AT-LV60UG225_V1.0 core board ② DK_VIDEO_GW5AT-LV60UG225_V1.0 carrier board ③ USB downloader ④ USB to Type-C cable ⑤...

  • Page 51: Demo Effect

    4.4 SC2210 Color Exposure 1-lane LVDS Screen Display 4 Image Demo Project 3. Then, connect the SC2210 camera to the MIPI DPHY soft core interface (J1) on the carrier board. 4. After that, connect the LVDS screen to the carrier board's LVDS port (J11) with an FPC cable.

  • Page 52: Imx586 1920X1080@60 Hdmi Screen Display Project

    4.5 IMX586 1920x1080@60 HDMI Screen Display 4 Image Demo Project 4.5 IMX586 1920x1080@60 HDMI Screen Display Project 4.5.1 Demo Feature Based on CPHY hard core and DDR3, the project caches the color image data captured by IMX586 into DDR3 and outputs it to HDMI screen to display with 1920*1080@60 video timing.

  • Page 53: Demo Hardware Connection

    4.5 IMX586 1920x1080@60 HDMI Screen Display 4 Image Demo Project Figure 4-9 Hardware Composition of IMX586 1920x1080@60 HDMI Screen Display Project ① DK_VIDEO_GW5AT-LV60UG225_V1.0 core board ② DK_VIDEO_GW5AT-LV60UG225_V1.0 carrier board ③ USB downloader ④ USB to Type-C cable ⑤ IMX586 module with 48 MP CPHY rolling shutter color exposure ⑥...

  • Page 54: Demo Effect

    4.5 IMX586 1920x1080@60 HDMI Screen Display 4 Image Demo Project 2. Next, connect the USB downloader to the core board’s ZH1.25-6 terminal (J4). 3. Then, connect the IMX586 camera to the MIPI CPHY hard core interface (J2) on the carrier board. 4.

  • Page 55: Imx586 1024X600@60 Lvds Screen Display Project

    4 Image Demo 4.6 IMX586 1024x600@60 LVDS Screen Display Project 4.6 IMX586 1024x600@60 LVDS Screen Display Project 4.6.1 Demo Feature Based on CPHY hard core and DDR3, the project caches the color image data captured by IMX586 into DDR3 and outputs it to LVDS screen to display with 1024*600@60 video timing.

  • Page 56: Demo Hardware Connection

    4 Image Demo 4.6 IMX586 1024x600@60 LVDS Screen Display Project Figure 4-11 Hardware Composition of IMX586 1024x600@60 LVDS Screen Display Project ① DK_VIDEO_GW5AT-LV60UG225_V1.0 core board ② DK_VIDEO_GW5AT-LV60UG225_V1.0 carrier board ③ USB downloader ④ USB to Type-C cable ⑤ IMX586 module with 48 MP CPHY rolling shutter color exposure ⑥...

  • Page 57: Demo Effect

    4 Image Demo 4.6 IMX586 1024x600@60 LVDS Screen Display Project 3. Then, connect the IMX586 camera to the MIPI CPHY hard core interface (J2) on the carrier board. 4. After that, connect the LVDS screen to the carrier board's LVDS port (J11) with an FPC cable.

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