Sliding contact for electrically actuated rocker arm

The invention claimed is: 1. A valvetrain for an internal combustion engine of a type that has a combustion chamber, a moveable valve having a seat formed in the combustion chamber, and a camshaft, the valvetrain comprising: a rocker arm assembly comprising a rocker arm and a cam follower configured to engage a cam mounted on the camshaft as the camshaft rotates; an electromagnetic latch assembly comprising: a latch pin configured to translate between a first position and a second position; and a coil mounted on the rocker arm; and an electrical circuit including the coil and an electrical connection made by abutment between a first surface belonging to a first part and a second surface belonging to a second part; wherein the rocker arm assembly is operative to move the first surface relative to the second surface in response to actuation of the cam follower; and wherein the electromagnetic latch assembly provides the latch pin with positional stability independently from the coil when the latch pin is in the first position and when the latch pin is in the second position. 2. The valvetrain of claim 1 , wherein the electromagnetic latch assembly comprises a permanent magnet fixed to the rocker arm. 3. The valvetrain of claim 2 , wherein: the electromagnetic latch assembly forms a first magnetic circuit operative to be a primary path of magnetic flux from the permanent magnet when the latch pin is in the first position; the electromagnetic latch assembly forms a second magnetic circuit, distinct from the first magnetic circuit, operative to be the primary path of the magnetic flux from the permanent magnet when the latch pin is in the second position; and the permanent magnet contributes to the positional stability of the latch pin when the latch pin is in the first position and when the latch pin is in the second position. 4. The valvetrain of claim 3 , wherein: the electromagnetic latch assembly further comprises a second permanent magnet fixed to the rocker arm; and the second permanent magnet further contributes to the positional stability of the latch pin when the latch pin is in the first position and when the latch pin is in the second position. 5. The valvetrain of claim 3 , further comprising a controller configured to selectively energize the coil such that actuation of the latch pin is limited to times at which the cam is on base circle. 6. The valvetrain of claim 1 , further comprising circuitry operable to alternately energize the electrical circuit with a DC current of a first polarity and a DC current of a reverse polarity. 7. The valvetrain of claim 1 , wherein one of the first part and the second part is a contact pad. 8. The valvetrain of claim 1 , wherein one of the first part and the second part is a spring-loaded contact pin. 9. The valvetrain of claim 1 , wherein one of the first part and the second part is a leaf spring. 10. The valvetrain of claim 1 , wherein the second part is held by a contact frame that rests on a cylinder head. 11. The valvetrain of claim 1 , further comprising a controller configured to selectively energize the coil such that actuation of the latch pin is limited to times at which the cam is on base circle. 12. The valvetrain of claim 1 , wherein the rocker arm assembly is operative to slide the first surface over the second surface. 13. The valvetrain of claim 1 , wherein the coil is housed in the rocker arm. 14. The valvetrain of claim 1 , further comprising: a lash adjuster configured to raise and lower the rocker arm assembly so as to adjust lash between the rocker arm assembly and the cam; wherein the first surface slides over the second surface when the lash is adjusted. 15. A method of operating a valvetrain for an internal combustion engine of a type that has a combustion chamber, a moveable valve having a seat formed in the combustion chamber, and a camshaft; the valvetrain comprising a rocker arm assembly, an electromagnetic latch assembly, and an electrical circuit; the rocker arm assembly comprising a rocker arm and a cam follower configured to engage a cam mounted on the camshaft as the camshaft rotates; the electromagnetic latch assembly comprising a latch pin configured to translate between a first position and a second position and a coil mounted on the rocker arm; the electrical circuit comprising the coil and an electrical connection made by abutment between a first surface belonging to a first part and a second surface belonging to a second part; wherein the rocker arm assembly is operative to move the first surface relative to the second surface in response to actuation of the cam follower; and wherein the electromagnetic latch assembly provides the latch pin with positional stability independently from the coil when the latch pin is in the first position and when the latch pin is in the second position, the method comprising: energizing the coil so as to actuate the latch pin from the first position to the second position when the cam is on a base circle; raising the cam off the base circle so as to actuate the rocker arm assembly while the latch pin is in the second position; energizing the coil so as to actuate the latch pin from the second position to the first position when the cam is returned to the base circle; and raising the cam off the base circle so as to actuate the rocker arm assembly while the latch pin is in the first position. 16. The method of claim 15 , wherein the coil is de-energized when the cam is off the base circle. 17. The method of claim 15 , further comprising alternately holding the latch pin in the first position and the second position via at least one permanent magnet. 18. The method of claim 15 , wherein the first surface slides over the second surface when the cam is raised off the base circle. 19. A method of operating a valvetrain for an internal combustion engine of a type that has a combustion chamber, a moveable valve having a seat formed in the combustion chamber, and a camshaft; the valvetrain comprising a rocker arm assembly, an electromagnetic latch assembly, and an electrical circuit; the rocker arm assembly rocker arm assembly comprising a rocker arm and a cam follower configured to engage a cam mounted on the camshaft as the camshaft rotates; the electromagnetic latch assembly comprising a latch pin configured to translate between a first position and a second position and a coil mounted on the rocker arm; the electrical circuit comprising the coil and an electrical connection made by abutment between a first surface belonging to a first part and a second surface belonging to a second part; wherein the rocker arm assembly is operative to move the first surface relative to the second surface in response to actuation of the cam follower; and wherein the electromagnetic latch assembly provides the latch pin with positional stability independently from the coil when the latch pin is in the first position and when the latch pin is in the second position, the method comprising: energizing the coil so as to actuate the latch pin from the first position to the second position; rotating the cam while the latch pin is in the second position; energizing the coil so as to actuate the latch pin from the second position to the first position; and rotating the cam while the latch pin is in the first position; wherein the energizing of the coil is limited to times at which the cam is on a base circle. 20. The method of claim 19 , wherein the first surface slides against the second surface when the cam