Pulldown kitchen faucet with spring spout

The invention claimed is: 1. A faucet comprising: a spout base; a spring spout including a helical spring having opposing first and second ends, the first end coupled to the spout base; a flexible tube supported for sliding movement within the spout base and the spring spout; a spout nest coupled to the second end of the spring spout; a sprayhead fluidly coupled to the flexible tube and releasably coupled to the spout nest; a docking cradle supported by the spout base and configured to releasably couple to the spout nest; a support arm having a first end operably coupled to the spout base separate from the first end of the spring spout, and a second end supporting the docking cradle for movement independent of the spring spout; and wherein the spout nest comprises: an upper flange; a lower flange; and an annular groove defined between the upper flange and the lower flange, the annular groove configured to receive the docking cradle. 2. The faucet of claim 1 , further comprising a magnetic coupling releasably coupling the sprayhead to the spout nest. 3. The faucet of claim 2 , further comprising a magnet and a wand retainer to secure the magnet to the spout nest, and a magnetically attractive member secured to the sprayhead. 4. The faucet of claim 1 , wherein the docking cradle includes a c-shaped retainer configured to engage the spout nest. 5. The faucet of claim 1 , wherein the docking cradle includes a magnet configured to releasably couple to the spout nest. 6. The faucet of claim 1 , wherein the first end of the support arm is supported for rotation about a longitudinal axis of the spout base. 7. The faucet of claim 1 , wherein a first mode of operation is defined when the spout nest is coupled to the docking cradle and the sprayhead is coupled to the spout nest, a second mode of operation is defined when the spout nest is removed from the docking cradle and the sprayhead is coupled to the spout nest, and a third mode of operation is defined when the spout nest is coupled to the docking cradle and the sprayhead is removed from the spout nest. 8. The faucet of claim 7 , wherein a fourth mode of operation is defined when the spout nest is removed from the docking cradle and the sprayhead is removed from the spout nest. 9. The faucet of claim 1 , further comprising: a capacitive coupling between the spout base and the spring spout; a capacitive sensor operably coupled with the spring spout through the capacitive coupling; a controller operably coupled with the capacitive sensor; and an actuator driven valve fluidly coupled to the flexible tube and controlled by the controller. 10. A faucet comprising: a spout lower hub; a spout upper tube supported by the spout lower hub; a first pivot coupling between the spout lower hub and the spout upper tube, the first pivot coupling providing for rotation between the spout upper tube and the spout lower hub; a first capacitive coupling between the spout lower hub and the spout upper tube; an upper delivery spout supported by the spout upper tube; a second pivot coupling between the spout upper tube and the upper delivery spout, the second pivot coupling providing for rotation between the upper delivery spout and the spout upper tube; a second capacitive coupling between the spout upper tube and the upper delivery spout; and a capacitive sensor operably coupled with the upper delivery spout through the second capacitive coupling and the first capacitive coupling. 11. The faucet of claim 10 , wherein: the spout lower hub includes an upwardly extending connector tube; the first pivot coupling includes a lower retaining sleeve received radially intermediate the upwardly extending tube of the spout lower hub and the spout upper tube; and the first capacitive coupling includes a metal bushing received radially intermediate the upwardly extending tube of the spout lower hub and the spout upper tube, and axially spaced relative to the lower retaining sleeve, and a retaining washer secured to the upwardly extending connector tube of the spout lower hub and configured to axially retain the metal bushing on the upwardly extending connector tube of the spout lower hub. 12. The faucet of claim 10 , wherein: the upper delivery spout includes a downwardly extending connector tube; the second pivot coupling includes an upper retaining sleeve received radially intermediate the spout upper tube and the downwardly extending connector tube of the upper delivery spout; and the second capacitive coupling includes a metal contact supported by the upper retaining sleeve, the metal contact including an outer portion in electrical communication with the spout upper tube and an inner portion in electrical communication with the downwardly extending connector tube of the upper delivery spout. 13. The faucet of claim 12 , wherein the metal contact of the second capacitive coupling comprises a contact spring including a plurality of coils extending between opposing first and second ends, the coils including an outwardly facing surface contacting the spout upper tube, and an inwardly facing surface contacting the downwardly extending connector tube of the upper delivery spout. 14. The faucet of claim 13 , wherein: the upper retaining sleeve includes a side wall, and opposing lower and upper posts formed within the side wall; and the spring extends in an axial direction with the first end received over a lower post of the upper retaining sleeve, and the second end received over the upper post of the upper retaining sleeve. 15. The faucet of claim 10 , wherein the upper delivery spout comprises: a spring spout including a helical spring having opposing first and second ends; a downwardly extending connector tube operably coupled to the first end of the spring spout; and a flexible tube supported for sliding movement within the downwardly extending connector tube and the spring spout. 16. The faucet of claim 15 , further comprising: a spout nest coupled to the second end of the spring spout; a sprayhead fluidly coupled to the flexible tube and releasably coupled to the spout nest; a support arm having a first end and a second end, the first end coupled to the spout upper tube; and a docking cradle coupled to the second end of the support arm and configured to releasably couple to the spout nest. 17. The faucet of claim 16 , wherein a first mode of operation is defined when the spout nest is coupled to the docking cradle and the sprayhead is coupled to the spout nest, a second mode of operation is defined when the spout nest is removed from the docking cradle and the sprayhead is coupled to the spout nest, and a third mode of operation is defined when the spout nest is coupled to the docking cradle and the sprayhead is removed from the spout nest. 18. The faucet of claim 17 , wherein a fourth mode of operation is defined when the spout nest is removed from the docking cradle and the sprayhead is removed from the spout nest. 19. The faucet of claim 10 , further comprising: a controller operably coupled with the capacitive sensor; and an actuator driven valve fluidly coupled to the upper delivery spout and controlled by the controller. 20. The faucet of claim 19 , further comprising a manual valve fluidly coupled in series with the actuator driven valve. 21. A faucet comprising: a spout base; a spring spout including a helical spring having opposing first and second ends, the first end coupled to the spout base; a flexible tub