Categories

First GD32 tests

Posted on Wednesday, November 9th, 2016 in ARM, dev boards by DP

gd32f103-1080x675-600

Sjaak has published a new build, the STM32/GD32F103 QFN32 breakout board:

Uptill now I used 0603 sized resistors and capacitors but for this project I switched to 0402 to save a few mm on the board. I have soldered many challenging chip packages so I felt confident. The technique is the same as for bigger sized devices: flux the area generous, hold the device with tweezers, solder one pad with fresh soldered iron and move the device into the molten solder puddle, retract the soldering iron and watch the solder joint cool down. If the solder joint is solid solder the other side too. I suggest using a fine (curved) tweezer and lots of lighting on your workarea. If you are a bit older as I am using a loupe or magnifying glass. Still use flux as much as possible. Never expected but the micro USB connector gave me (several) headaches to get it soldered properly.

Project info at smdprutser.nl

 

This entry was posted on Wednesday, November 9th, 2016 at 11:42 pm and is filed under ARM, dev boards. You can follow any responses to this entry through the RSS 2.0 feed. You can skip to the end and leave a response. Pinging is currently not allowed.

2 Responses to “First GD32 tests”

  1. Mike says:

    I’ve had great luck getting the microUSB connectors and microprocessor soldered down using a cheap Chinese hot air wand and a microscope. I flux the pads on the board, tin them all, flux and tin the pads on the part, then tack one pin down to keep it in place. Then use the hot air on the bottom to warm up the FR4 and then put the hot air on the top. When it reaches the melting temperature the part drops into position and aligns perfectly to the pads. I’d practice on a dead board a few times but it works great! Soldering microUSB connectors without getting the body to the board eventually rips off my boards.

    • Sjaak says:

      The footprint is also important. most landingpatterns in datasheet are geared towards machinal assembly and are too tiny for handsoldering. In particular with USB connectors and their shielding they obstruct the pins :)

Leave a Reply

Notify me of followup comments via e-mail. You can also subscribe without commenting.

Recent Comments

  • KH: Really? They are digital inputs driven by an MCU. The MCU GPIO probably has diode clamps and ESD protection. Have you experienced such failures? Please...
  • KH: Neither. Google "Marco Schweighauser’s 8-bit virtual Javascript CPU" and see the first result. Sounds more like a very limited feature toy CPU.
  • Alan: "8-bit x86 like CPU" - isn't that an 8080, or Z80?
  • Geoff: Is it still Sunday somewhere? If so, yes please.
  • hli: Sunday++