Tap changer

What is claimed is: 1. An on-load tap changer for changing taps in a plurality of transformer windings, the tap changer comprising: a tank defining an interior space and having a first side with an access opening and a second side for mounting against a transformer, the tank being adapted to hold a volume of dielectric fluid; a door mounted to the tank and movable between an open position, wherein the door does not cover the access opening, and a closed position, wherein the door covers the access opening; a plurality of modules disposed in the interior space and arranged in a side-by-side manner, each module being operable to change taps in one of the transformer windings, the modules each comprising: a board having opposing first and second sides, the first side facing the door when the door is in the closed position; a selector switch assembly comprising first and second movable selector switches for connection to taps in the transformer winding; first and second branch circuits for connecting the first and second movable selector switches to a common terminal; a bypass switch assembly mounted to the first side of the board, the bypass switch assembly comprising first and second bypass switches connected into the first and second branch circuits, respectively, and being actuated by first and second linkages that are moved by the rotation of a bypass cam; a vacuum interrupter mounted to the first side of the board, the vacuum interrupter being connected between the first and second branch circuits and having contacts that can be opened and closed; an actuation assembly mounted to the first side of the board, the actuation assembly being operable to open and close the contacts of the vacuum interrupter, the actuation assembly comprising a rotatable interrupter cam; and a transmission system mounted to the second side of the board and operable to rotate both the interrupter cam and the bypass cam. 2. The on-load tap changer of claim 1 , wherein the bypass cam rotates 180 degrees per tap change and the interrupter cam rotates 360 degrees per tap change. 3. The on-load tap changer of claim 1 , wherein the transmission system comprises a bypass gear connected to the bypass cam and an interrupter gear connected to the interrupter cam. 4. The on-load tap changer of claim 3 , wherein the bypass gear and the interrupter gear are connected together by a chain. 5. The on-load tap changer of claim 3 , wherein the bypass gear is driven by an electric motor. 6. The on-load tap changer of claim 1 , wherein the board is substantially planar and extends in a substantially vertical plane. 7. The on-load tap changer of claim 6 , wherein the first and second bypass switches each comprise a plurality of contacts arranged in a stack having a stacking direction that is perpendicular to the board. 8. The on-load tap changer of claim 1 , wherein the selector switch assembly is mounted between the second side of the board and the second side of the tank. 9. The on-load tap changer of claim 1 , wherein the bypass cam comprises a center area through which the axis of rotation of the bypass extends, the center area partially defining an endless groove and including arcuate major and minor portions separated by transition portions, the major portion extending radially outward from the axis of rotation farther than the minor portion. 10. The on-load tap changer of claim 9 , wherein the bypass switch assembly further comprises first and second cam followers disposed in the endless groove of the bypass cam, the first and second cam followers being connected by the first and second linkages to the first and second bypass switches, respectively. 11. The on-load tap changer of claim 10 , wherein the first and second cam followers are connected by first and second bell cranks to the first and second linkages; wherein rotation of the bypass cam during a tap change causes the first and second cam followers to move over the major and minor portions of the center area, with one of the first and second cam followers moving over the major portion while the other one of the first and second cam followers moves over the minor portion; wherein movement of the first cam follower over either one of the transition portions causes the first bell crank to pivot and thereby move the first bypass switch between the open and closed positions; and wherein movement of the second cam follower over either one of the transition portions causes the second bell crank to pivot and thereby move the second bypass switch between the open and closed positions. 12. The on-load tap changer of claim 10 , wherein the bypass cam has a home position and an intermediate position; wherein when the bypass cam is in the home position or the intermediate position, the first and second cam followers engage the transitions of the center area, respectively; wherein the first and second bypass switches are connected to the same tap when the bypass cam is in the home position; and wherein the first and second bypass switches are connected to different taps, respectively, when the bypass cam is in the intermediate position. 13. The on-load tap changer of claim 12 , wherein the first and second cam followers are connected by first and second bell cranks to the first and second linkages; wherein when the bypass cam is in the home position and a tap change is initiated, the bypass cam rotates away from the home position, thereby causing the first cam follower to move over one of the transitions and into contact with the major portion of the center area, thereby pivoting the first bell crank so as to move first bypass switch to the open position. 14. The on-load tap changer of claim 1 , wherein the actuation assembly comprises: a shaft connected to the contacts of the vacuum interrupter and operable upon movement to open and close the contacts; a shuttle having a cam follower engaged with the interrupter cam such that rotation of the interrupter cam moves the shuttle linearly; an impact mass connected to the shuttle by one or more springs such that the impact mass tends to follow the shuttle when the shuttle moves; a holding device operable to hold and then release the impact mass when the shuttle starts to move, whereby movement of the shuttle causes a delayed movement in the impact mass; and wherein during the movement of the impact mass, the impact mass contacts the shaft and moves the shaft to open or close the contacts. 15. The on-load tap changer of claim 14 , wherein the one or more springs comprises a plurality of springs and wherein the holding of the impact mass when the shuttle starts to move causes the springs to store forces, which are released when the impact mass is released. 16. The on-load tap changer of claim 15 , wherein the shuttle is movable between a first position, corresponding to a closed position of the contacts, and a second position, corresponding to an open position of the contacts; wherein when the shuttle starts to move to the second position and the impact mass is being held, a first one of the springs compresses and a second one of the springs extends; and wherein when the shuttle starts to move to the first position and the impact mass is being held, the first one of the springs extends and the second one of the springs compresses. 17. The on-load tap changer of claim 16 , wherein the interrupter cam comprises a center area that partially defines an endless groove within which the cam follower of the shuttle is disposed, the center area including arcuate major and minor portions and transitions