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Power & debug/programming reference design

alexanders.farley9
Associate II
Posted on November 20, 2012 at 17:00

Is a basic reference design available for the STM32F4 family for things like power & programming header? I've looked at the data sheets but it seems that there are many different ways of programming, all spread throughout the manual. 

It looks like all I need is a SWD/JTAG header for in-system programming, but I can't figure out what pins this uses on the STM32F415ZG and what the header pinout is exactly. Is this info available somewhere?

What's the ''standard''choice for programmer? Should I get an ST-LINK V2 programmer for in-system programming? I'm aware that the F4 Discovery board can be used for programming external micros but I'm not sure if this is always the most convenient choice. 

Thanks,

Alex

3 REPLIES 3
Posted on November 20, 2012 at 18:12

ARM has standard SWD (10-pin) and JTAG (0.1'' 20-pin) programming headers, I'd recommend using those over random homegrown alternatives.

http://infocenter.arm.com/help/topic/com.arm.doc.faqs/attached/13634/cortex_debug_connectors.pdf

I'd recommend Segger J-Link or Keil U-Link over the ST-LINK

For low cost programming, consider USART1 or USART3 on the STM32F4, and jumpers for BOOTx pins.

Look at schematics for Keil and IAR/Olimex dev boards, and for that matter the F4 side of the Discovery board.

Powering is really your own issue, but I'll note that the Segger J-Link has a 5V feed on pin 19 of the 20-pin JTAG connector.
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alexanders.farley9
Associate II
Posted on December 11, 2012 at 00:27

Thanks for the advice.

What's the advantage of the J-LINK or U-LINK over the ST-LINK? Do any programmers come with the 10-pin Cortex Debug header by default? From the pictures, it looks like an adapter would be required for all of them.

Posted on December 11, 2012 at 01:44

I think they are more robust commercial solutions, with better support, updates, and usable with many ARM targets. The U-Link's are tied to Keil tools, the J-Link's are supported by most tool chains and can operate in a stand-alone fashion.

The smaller header takes less space so in many cases will be preferable, but is less mechanically robust, something to consider if you expect it to be used a lot, or roughly.

The 10-pin connector is becoming more popular, expect more pods to support it, I'm using an adapter that ran perhaps $7, Keil U-Link's have a header you can populate, and some of the U-Link ME adapters come with connectors and cables. 

http://www.keil.com/ulinkme/

The 20-pin header has been popular through the ARM9 era, figure about a decade or more, and prior to that the ARM7 designs often used a 14-pin header.

I some situations you can choose not to populate the headers, I've seen a couple of designs which just have surface mount land patterns, some times on the back of the PCB, and which can be used as probe points in final test.
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