diff --git a/README.md b/README.md index a65c225..14eed57 100644 --- a/README.md +++ b/README.md @@ -22,9 +22,7 @@ NodeMCU pin connections to the cable wires: |Arduino pin to PWM boards|D1|D2|D7|D5|/| |Arduino GPIO pin numbers|5|4|13|14|/| -The HTML content is pushed to the NodeMCU separetely by using the ESP8266 Sketch Data Upload plugin of the old Arduino IDE (not "Arduino IDE"). - -After the firmware is written the first time to the NodeMCU. +The HTML content is pushed to the NodeMCU separetely by using the ESP8266 Sketch Data Upload plugin of the old Arduino IDE (not "Arduino IDE"), after the firmware is written the first time to the NodeMCU. In case there is no data folder available in the firmware folder create it. Open a unix style commandline with a bash and step unto the data folder. Run the script @@ -33,14 +31,14 @@ $ bash ../../tools/html_gen_files.sh This generates all of the required files and places them into the data folder. -The EEPROM's default values are set to default. -All except of the timing control data block. +The EEPROM's content will be set to default values after the first start default (except of the timing data block). Make sure that the EEPROM was erased during the firmware flashing. -You have to click at the link "reset timing control data" on the webinterface. +You have to click at the link "reset timing control data" in the webinterface. +This will set the timing control block the a initial default setting. The IP address is set to dynamic (DHCP) after initial flash of the NodeMCU. -Sample schematics (no NodeMCU pins defined in there) +Sample schematics (no NodeMCU pins are shown in there) ![Sample schematics](pic/schematics.png) Please note the letters "R" "G" "B" "W" "S" are also documented in the table above. These are the german shorts of the colors red green blue white black (schwarz).