Connect pin 6 and pin 1 of the companion
connector. Pin 1 can be identified by the square pad
- around it, and then the pins could sequentially across
+ around it, and then the pins count sequentially across
the board. Be very careful to *not* short pin 8 to
anything as that is connected directly to the
battery. Pin 7 carries 3.3V and the board will crash
Connect pin 6 and pin 1 of the companion
connector. Pin 1 can be identified by the square pad
- around it, and then the pins could sequentially across
+ around it, and then the pins count sequentially across
the board. Be very careful to *not* short pin 8 to
anything as that is connected directly to the
battery. Pin 7 carries 3.3V and the board will crash
Connect pin 5 and pin 1 of the debug connector, which
is the six holes next to the beeper. Pin 1 can be
identified by the square pad around it, and then the
- pins could sequentially across the board, making Pin 5
+ pins count sequentially across the board, making Pin 5
the one on the other end of the row.
endif::easytimer[]
Connect pin 6 and pin 1 of the companion
connector. Pin 1 can be identified by the square pad
- around it, and then the pins could sequentially across
+ around it, and then the pins count sequentially across
the board. Be very careful to *not* short pin 8 to
anything as that is connected directly to the
battery. Pin 7 carries 3.3V and the board will crash
Connect pin 6 and pin 1 of the debug connector, which
is the six holes next to the beeper. Pin 1 can be
identified by the square pad around it, and then the
- pins could sequentially across the board, making Pin 6
+ pins count sequentially across the board, making Pin 6
the one on the other end of the row.
endif::easymini[]