Wrist-worn electronic device with optical cardiac monitor

What is claimed is: 1 . A wrist-worn electronic device, comprising: a housing including a bottom wall configured to contact a user's wrist; a first optical transmitter positioned at a first location on the bottom wall and operable to output a plurality of first optical signals that pass through a user's skin, each first optical signal having a unique wavelength; a second optical transmitter positioned at a second location on the bottom wall and operable to output a plurality of second optical signals that pass through the user's skin, each second optical signal having a unique wavelength; a third optical transmitter positioned at a third location on the bottom wall and operable to output a plurality of third optical signals that pass through the user's skin, each third optical signal having a unique wavelength; an optical receiver positioned at a fourth location on the bottom wall and operable to receive the first optical signals from the first optical transmitter, the second optical signals from the second optical transmitter and the third optical signals from the third optical transmitter such that the first optical signals travel along a first signal path from the first optical transmitter to the optical receiver, the second optical signals travel along a second signal path from the second optical transmitter to the optical receiver and the third optical signals travel along a third signal path from the third optical transmitter to the optical receiver, the optical receiver further operable to generate a first electronic signal corresponding to the first optical signals, a second electronic signal corresponding to the second optical signals and a third electronic signal corresponding to the third optical signals; a processor coupled with the optical receiver, the processor configured to: receive the first, the second and the third electronic signals from the optical receiver, and determine physiological information about the user based on the first electronic signal, the second electronic signal and the third electronic signal; wherein the first signal path substantially overlaps with the second signal path and the third signal path; wherein a first distance between the third location on the bottom wall of the third optical transmitter and the fourth location on the bottom wall of the optical receiver is greater than a second distance between the second location on the bottom wall of the second optical transmitter and the fourth location on the bottom wall of the optical receiver; and wherein the second distance is greater than a third distance between the first location on the bottom wall of the first optical transmitter and the fourth location on the bottom wall of the optical receiver. 2 . The wrist-worn electronic device of claim 1 , wherein the second location and the third location on the bottom wall are associated with a transmitter array. 3 . The wrist-worn electronic device of claim 1 , wherein the first location, the second location and the third location on the bottom wall are associated with a first area of a transmitter array, a second area of the transmitter array and a third area of a transmitter array, respectively. 4 . The wrist-worn electronic device of claim 1 , wherein the first signal path, the second signal path and the third signal path at least partially pass through a first portion of the user's wrist. 5 . The wrist-worn electronic device of claim 1 , wherein the plurality of first optical signals output by the first optical transmitter include a first wavelength between 630-680 nm. 6 . The wrist-worn electronic device of claim 1 , wherein the plurality of second optical signals output by the second optical transmitter include a second wavelength between 750-950 nm. 7 . The wrist-worn electronic device of claim 1 , wherein the plurality of third optical signals output by the third optical transmitter include a third wavelength between 600-630 nm. 8 . The wrist-worn electronic device of claim 1 , wherein the first, second and third optical transmitters are light-emitting diodes (LEDs) and the optical receiver is a photodiode. 9 . The wrist-worn electronic device of claim 1 , wherein the first location on the bottom wall of the first optical transmitter and the second location on the bottom of the second optical transmitter are positioned between the third location on the bottom wall of the third optical transmitter and the fourth location on the bottom wall of the optical receiver. 10 . The wrist-worn electronic device of claim 1 , wherein the first location on the bottom wall of the first optical transmitter, the second location on the bottom wall of the second optical transmitter, the third location on the bottom wall of the third optical transmitter and the fourth location on the bottom wall of the optical receiver are in an upper portion of the bottom wall. 11 . The wrist-worn electronic device of claim 1 , wherein the first location on the bottom wall of the first optical transmitter, the second location on the bottom wall of the second optical transmitter, the third location on the bottom wall of the third optical transmitter and the fourth location on the bottom wall of the optical receiver are in a lower portion of the bottom wall. 12 . A wrist-worn electronic device, comprising: a housing including a bottom wall configured to contact a user's wrist; a first optical transmitter positioned at a first location on the bottom wall and operable to output a plurality of first optical signals that pass through a user's skin, each first optical signal having a unique wavelength; a second optical transmitter positioned at a second location on the bottom wall and operable to output a plurality of second optical signals that pass through the user's skin, each second optical signal having a unique wavelength; a third optical transmitter positioned at a third location on the bottom wall and operable to output a plurality of third optical signals that pass through the user's skin, each third optical signal having a unique wavelength; an optical receiver positioned at a fourth location on the bottom wall and operable to receive the first optical signals from the first optical transmitter, the second optical signals from the second optical transmitter and the third optical signals from the third optical transmitter such that the first optical signals travel along a first signal path from the first optical transmitter to the optical receiver, the second optical signals travel along a second signal path from the second optical transmitter to the optical receiver and the third optical signals travel along a third signal path from the third optical transmitter to the optical receiver, the optical receiver further operable to generate a first electronic signal corresponding to the first optical signals, a second electronic signal corresponding to the second optical signals and a third electronic signal corresponding to the third optical signals; a processor coupled with the optical receiver, the processor configured to: receive the first, the second and the third electronic signals from the optical receiver, and determine physiological information about the user based on the first electronic signal, the second electronic signal and the third electronic signal; wherein the first signal path substantially overlaps with the second signal path and the third signal path; wherein a first distance between the third location on the bottom wall of the third optical transmitter and the fourth location on the bottom wall of the optical receiver is greater than a second distance between the second location on the bottom wall of the second opt