diff --git a/Hardware-Preparation.md b/Hardware-Preparation.md index 19b49824..b6cb397a 100644 --- a/Hardware-Preparation.md +++ b/Hardware-Preparation.md @@ -18,7 +18,7 @@ Shorting your serial interface with AC will fry your module and programmer and w It is important to always have all mains power cables disconnected from the device while being connected via serial or even while the case of the module is opened. ## Serial Connection -Each device has its pins labelled differently. If the labelling isn't visible on the PCB please refer to the devices wiki entry or search the internet for correct pin locations. Device specific instructions and restrictions are documented in [Supported Modules](Supported-devices) +Each device has its pins labelled differently. If the labelling isn't visible on the PCB please refer to the devices wiki entry or search the internet for correct pin locations. Device specific instructions and restrictions are documented in [Device Templates Repository](https://blakadder.github.io/templates/) When you have identified pins on your device, connect wires according to the table: @@ -36,7 +36,7 @@ When you have identified pins on your device, connect wires according to the tab Example without button ESP8266 needs to be put into **Flash Mode** before the firmware can be uploaded. This is done by pulling the GPIO0 pin to GND while the chip is booting. -On most devices the installed control button is connected to GPIO0 and GND, making entering Flash Mode very easy. On others you will need to short the pins on the PCB or directly on the chip with a jumper wire. See device specific articles for additional details. +On most devices the installed control button is connected to GPIO0 and GND, making entering Flash Mode very easy. On others you will need to short the pins on the PCB or directly on the chip with a jumper wire. Device specific instructions are documented in [Device Templates Repository](https://blakadder.github.io/templates/). To bring ESP8266 into Flash Mode: