AVR: Update readme.txt files in demos folders.

git-svn-id: svn://svn.code.sf.net/p/chibios/svn/trunk@10724 35acf78f-673a-0410-8e92-d51de3d6d3f4

demos/AVR/NIL-DIGISPARK-ATTINY-167/readme.txt

@@ -1,6 +1,6 @@
-******************************************************************************
-** ChibiOS/NIL port for Atmel AVR ATTiny167.                                **
-******************************************************************************
+*****************************************************************************
+** ChibiOS/NIL port for Atmel AVR ATTiny167.                               **
+*****************************************************************************
 
 ** TARGET **
 
@@ -8,9 +8,11 @@ The demo runs on a Digispark Pro board based on an ATtiny167.
 
 ** The Demo **
 
-The demo currently just toggles the test/status LED every second.
-The LED is connected to the PB1 pin of the ATtiny167 MCU.
-This pin corresponds to P1 on the Digispark Pro board.
+A thread is used to print a message to the UART. The UART pins, must be
+connected to an FTDI converter to see the message on a computer. The thread
+also toggles the onboard test/status LED every second, the LED is connected
+to the PB1 pin of the ATtiny167 MCU wich corresponds to P1 on the
+Digispark Pro board.
 
 ** Build Procedure **
 
@@ -18,11 +20,12 @@ The demo was built using the GCC AVR toolchain.
 It should build with WinAVR too!
 Just run the command "make" to build this example.
 
-** Notes **
+** Programming procedure **
 
 The ATtiny167 is pre-programmed with a bootloader.
 Thus it can act as an USB device.
 The Digispark Pro runs the “micronucleus” bootloader.
 This bootloader comes with a command line tool which can be used to
-program the board. Form more details, look at the Makefile or the github at
+program the board.
+Form more details, look at the Makefile or the github repository:
 https://github.com/micronucleus/micronucleus

demos/AVR/RT-ARDUINO-LEONARDO/readme.txt

@@ -1,5 +1,5 @@
 *****************************************************************************
-** ChibiOS/RT port for Arduino Leonardo.                                   **
+** ChibiOS/RT port for ATmega32u4.                                         **
 *****************************************************************************
 
 ** TARGET **

demos/AVR/RT-ARDUINO-MEGA/readme.txt

@@ -1,5 +1,5 @@
 *****************************************************************************
-** ChibiOS/RT port for Atmel AVR ATmega1280.                                **
+** ChibiOS/RT port for Atmel AVR ATmega2560.                               **
 *****************************************************************************
 
 ** TARGET **

demos/AVR/RT-ARDUINO-MINI/readme.txt

@@ -15,6 +15,3 @@ on PB5 (pin 13 on Arduino IDE) every second.
 ** Build Procedure **
 
 The demo was built using the GCC AVR toolchain.
-
-** Notes **
-

demos/AVR/RT-ARDUINO-UNO/readme.txt

@@ -1,5 +1,5 @@
 *****************************************************************************
-** ChibiOS/RT port for Atmel AVR ATmega1280.                                **
+** ChibiOS/RT port for Atmel AVR ATmega328p.                               **
 *****************************************************************************
 
 ** TARGET **

demos/AVR/RT-DIGISPARK-ATTINY-167/readme.txt

@@ -8,9 +8,11 @@ The demo runs on a Digispark Pro board based on an ATtiny167.
 
 ** The Demo **
 
-The demo currently just toggles the test/status LED every second.
-The LED is connected to the PB1 pin of the ATtiny167 MCU.
-This pin corresponds to P1 on the Digispark Pro board.
+A thread is used to print a message to the UART. The UART pins, must be
+connected to an FTDI converter to see the message on a computer. The thread
+also toggles the onboard test/status LED every second, the LED is connected
+to the PB1 pin of the ATtiny167 MCU wich corresponds to P1 on the
+Digispark Pro board.
 
 ** Build Procedure **
 
@@ -18,7 +20,7 @@ The demo was built using the GCC AVR toolchain.
 It should build with WinAVR too!
 Just run the command "make" to build this example.
 
-** Notes **
+** Programming procedure **
 
 The ATtiny167 is pre-programmed with a bootloader.
 Thus it can act as an USB device.

demos/AVR/RT-PRO-MICRO/readme.txt

@@ -1,5 +1,5 @@
 *****************************************************************************
-** ChibiOS/RT port for Sparkfun Pro Micro.                                 **
+** ChibiOS/RT port for ATmega32u4.                                         **
 *****************************************************************************
 
 ** TARGET **