[sigrok-dumps.git] / uart / hello_world / README

-------------------------------------------------------------------------------
Hello World UART output using various options
-------------------------------------------------------------------------------

This is a collection of example UART communication (only in one direction).
The repeatedly transmitted data is "Hello World!\r\n", using various settings,
such as 8n1, 8o1, 8e1, 7o1, 7e1, etc.

The hardware sending the data is an Olimex STM32-H103 eval kit with an
ST STM32 (ARM Cortex-M3) microcontroller. The firmware used is based on a
simple libopencm3 UART example. The USART1 (USART1.TX pin) is used.

For details see:
http://libopencm3.org
http://libopencm3.git.sourceforge.net/git/gitweb.cgi?p=libopencm3/libopencm3;a=tree;f=examples/stm32/f1/stm32-h103/usart_printf
http://olimex.com/dev/stm32-h103.html


Logic analyzer setup
--------------------

The logic analyzer used for capturing is a ChronoVu LA8 at a sample rate
of 5MHz (for baud rates 921600 - 230400), 1MHz (for 115200 - 19200),
and 625kHz (for baud rates 9600 - 1200).

The ChronoVu LA8 probes were connected to the UART like this:

  Probe       UART
  -------------------
  0 (green)   TX
  GND         GND


Data
----

The sigrok command line used was:

  sigrok-cli -d 0:samplerate=<hz> --samples 8388608 -p '1=TX' -o <file>.sr

We capture as many samples as fit into the 8MByte buffer of the logic analyzer.
Commit	Line	Data
	1	-------------------------------------------------------------------------------
	2	Hello World UART output using various options
	3	-------------------------------------------------------------------------------
	4
	5	This is a collection of example UART communication (only in one direction).
	6	The repeatedly transmitted data is "Hello World!\r\n", using various settings,
	7	such as 8n1, 8o1, 8e1, 7o1, 7e1, etc.
	8
	9	The hardware sending the data is an Olimex STM32-H103 eval kit with an
	10	ST STM32 (ARM Cortex-M3) microcontroller. The firmware used is based on a
	11	simple libopencm3 UART example. The USART1 (USART1.TX pin) is used.
	12
	13	For details see:
	14	http://libopencm3.org
	15	http://libopencm3.git.sourceforge.net/git/gitweb.cgi?p=libopencm3/libopencm3;a=tree;f=examples/stm32/f1/stm32-h103/usart_printf
	16	http://olimex.com/dev/stm32-h103.html
	17
	18
	19	Logic analyzer setup
	20	--------------------
	21
	22	The logic analyzer used for capturing is a ChronoVu LA8 at a sample rate
	23	of 5MHz (for baud rates 921600 - 230400), 1MHz (for 115200 - 19200),
	24	and 625kHz (for baud rates 9600 - 1200).
	25
	26	The ChronoVu LA8 probes were connected to the UART like this:
	27
	28	Probe UART
	29	-------------------
	30	0 (green) TX
	31	GND GND
	32
	33
	34	Data
	35	----
	36
	37	The sigrok command line used was:
	38
	39	sigrok-cli -d 0:samplerate=<hz> --samples 8388608 -p '1=TX' -o <file>.sr
	40
	41	We capture as many samples as fit into the 8MByte buffer of the logic analyzer.
	42