Pendulum-absorber brake

The invention claimed is: 1. A crankshaft comprising: a cheek; a torsion-absorbing pendulum pivotally coupled to the cheek with a fulcrum pin; and a rotational speed actuated brake including a valve configured to release, when open, a lubricant jet to oppose motion of the pendulum relative to the cheek and further configured to cut off the lubricant jet when closed, the brake configured to provide greater opposition to the motion at lower rotational speeds than at higher rotational speeds via the valve. 2. The crankshaft of claim 1 , wherein the brake includes a shoe extendable to bridge a clearance between the cheek and the pendulum to oppose the motion of the pendulum relative to the cheek. 3. The crankshaft of claim 2 , wherein the brake further includes a spring coupled to the shoe and configured to push the shoe out into the clearance. 4. The crankshaft of claim 3 , wherein the spring and shoe are coupled to the pendulum. 5. The crankshaft of claim 3 , wherein the spring and shoe are coupled to the cheek. 6. The crankshaft of claim 2 , wherein the shoe is arranged to retract from the clearance under centrifugal force from rotation of the crankshaft. 7. The crankshaft of claim 2 , wherein the brake further includes a piston that telescopes into and partly out of a fluid-filled cylinder, wherein the piston is coupled to the shoe, and wherein increased fluid pressure within the cylinder telescopes the piston back into the cylinder, retracting the shoe from the clearance. 8. An engine comprising: a crankshaft having a cheek, a torsion-absorbing pendulum pivotally coupled to the cheek, and a rotational speed actuated brake coupled between the cheek and the pendulum to oppose motion of the pendulum relative to the cheek; a rotational speed sensing element; and a controller operatively coupled to the brake and to the rotational speed sensing element and configured to cause the brake to increase opposition to the motion as rotational speed decreases and to decrease the opposition to the motion as the rotational speed increases. 9. The engine of claim 8 , wherein the brake includes: a valve configured to release, when open, a lubricant jet to oppose the motion of the pendulum relative to the cheek, the valve further configured to cut off the lubricant jet when closed; and a piston that telescopes into and partly out of a fluid-filled cylinder, the piston being integrated with or coupled to a stopper; wherein increased fluid pressure within the cylinder telescopes the piston partly out of the cylinder, unseating the stopper; and wherein the controller is configured to increase the fluid pressure when the sensing element reports that the rotational speed is below a threshold. 10. A method to reduce noise and wear of a crankshaft of an engine system, the crankshaft including a cheek and a torsion-absorbing pendulum pivotally coupled to the cheek, the method comprising: at lower rotational speeds, opposing to a greater degree motion of the pendulum relative to the cheek by bridging a clearance between the cheek and the pendulum with a rotational speed actuated brake coupled between the cheek and the pendulum; and at higher rotational speeds, opposing to a lesser degree the motion of the pendulum relative to the cheek with the rotational speed actuated brake. 11. The method of claim 10 , further comprising sensing the rotational speed.