Difference between revisions of "SiPeed Longan Nano"

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(Created page with "__TOC__ This article describes specifics for the SiPeed Longan Nano board based on a GigaDevice GD32VF103CB. 250px == Minimum requirements =...")
 
(Minimum requirements)
 
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* RISC-V is supported by current J-Link models. In case of doubt, please check [[Software and Hardware Features Overview | Overview about which models / revisions support RISC-V]]
 
* RISC-V is supported by current J-Link models. In case of doubt, please check [[Software and Hardware Features Overview | Overview about which models / revisions support RISC-V]]
 
* Embedded Studio Version 4.30 or later
 
* Embedded Studio Version 4.30 or later
* J-Link software V6.52e or later
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* J-Link software V6.54a or later
   
 
== Preparing for J-Link ==
 
== Preparing for J-Link ==
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[[File:Longan_Nano.png|450px]]
 
[[File:Longan_Nano.png|450px]]
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* Power the board via the USB-C port.
 
* Verify the Connection with e.g. [https://wiki.segger.com/J-Link_cannot_connect_to_the_CPU#Verify_functionality_using_J-Link_Commander J-Link Commander]. The output should look as follows:
 
* Verify the Connection with e.g. [https://wiki.segger.com/J-Link_cannot_connect_to_the_CPU#Verify_functionality_using_J-Link_Commander J-Link Commander]. The output should look as follows:
   
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=== Example projects for SEGGER Embedded Studio===
 
=== Example projects for SEGGER Embedded Studio===
The following example project was created with the SEGGER Embedded Studio project wizard and runs out-of-the-box on the LoFive board. It is a simple Hello World sample and can be downloaded here:
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The following example project was created with the SEGGER Embedded Studio project wizard and runs out-of-the-box on the Longan Nano board. It is a simple Hello World sample and can be downloaded here:
   
 
[[Media: GD32VF1xx_Hello_World.zip | Hello World sample ]]
 
[[Media: GD32VF1xx_Hello_World.zip | Hello World sample ]]

Latest revision as of 17:19, 20 November 2019

This article describes specifics for the SiPeed Longan Nano board based on a GigaDevice GD32VF103CB.

SiPeed Lingan Nano.jpg

Minimum requirements

Preparing for J-Link

The SiPeed Longan Nano does not come with a standard debug connector but populates the debug JTAG signals on 6 pads that can be found on the opposite of the USB-C interface. Therefore, it can be manually wired in case J-Link shall be connected to it.

The following guide will describe how the Longan Nano Board can be connected to your J-Link Base V10 or higher. Other J-Links might work as well but wiring might be slightly different. All needed information can be found in the probe related documentation.

  • The Longan Nano board does not come with the pin header populated so first the pin headers need to be soldered to your board.
  • Now connect the board with e.g. jumperwires to your J-Link probe.
  • The following table shows how the Signals should be connected on both the board and J-Link side.
J-Link 20 pin debug interface Pin on eval board pads
Pin 1 (VTref) 3V3
Pin 4 (GND) GND
Pin 5 (TDI) JTDI
Pin 7 (TMS) JTMS
Pin 9 (TCK) JTCK
Pin 13 (TDO) JTDO

The resulting connection will then look like this:

Longan Nano.png

  • Power the board via the USB-C port.
  • Verify the Connection with e.g. J-Link Commander. The output should look as follows:

GD32VF1xx Connect.PNG

Debugging in SEGGER Embedded Studio

Example projects for SEGGER Embedded Studio

The following example project was created with the SEGGER Embedded Studio project wizard and runs out-of-the-box on the Longan Nano board. It is a simple Hello World sample and can be downloaded here:

Hello World sample