Salta al contenuto principale

Modifiche al passo #13

Modifica in base a Andrew Optimus Goldheart-

Modifica approvata da Andrew Optimus Goldheart

Eliminato
Aggiunto
Invariato

Righe Passo

[* black] Logic board removalWe've made our way to the brains of the Apple Watch—the Apple S1 microcomputer, consisting of:
[* red] Ultra low-power microcontroller
[* orange] [http://en.wikipedia.org/wiki/Quartz_clock#Mechanism|Quartz crystal|new_window=true], operating at 32,768 Hz

[* black] Quartz crystal and microcontroller toWhen power is applied to the motorcrystal, it oscillates 32,768 times a second, filling a counter register in the processor. When the register fills, it overflows back to 0, triggering a pulse of the motor—and one second on the second hand.
[* black] This incredible processing power is capable of maintaining time accurate to [http://tf.nist.gov/general/pdf/2276.pdf|within 1 second per day|new_window=true]!
[* black] Logic board removalWe've made our way to the brains of the Apple Watch—the Apple S1 microcomputer, consisting of:
[* red] Ultra low-power microcontroller
[* orange] [http://en.wikipedia.org/wiki/Quartz_clock#Mechanism|Quartz crystal|new_window=true], operating at 32,768 Hz

[* black] Quartz crystal and microcontroller toWhen power is applied to the motorcrystal, it oscillates 32,768 times a second, filling a counter register in the processor. When the register fills, it overflows back to 0, triggering a pulse of the motor—and one second on the second hand.
[* black] This incredible processing power is capable of maintaining time accurate to [http://tf.nist.gov/general/pdf/2276.pdf|within 1 second per day|new_window=true]!

Immagine 2

Vecchia Versione

Nuova Versione

Immagine 3

Vecchia Versione

Nuova Versione