Automated ultrasonic press systems and methods for welding physically variant components

What is claimed is: 1 . An ultrasonic welding method for welding a pair of workpieces having different physical characteristics, including workpieces that have differing materials or differing geometric properties, the method comprising: pressing an ultrasonic welding stack against a first workpiece in the pair of workpieces, wherein the first workpiece includes an energy director that comes into contact with a second workpiece in the pair of workpieces in response to the pressing; initiating a weld phase by outputting energy from the ultrasonic welding stack to the first workpiece; monitoring, with at least one sensor, a weld force rate of change; determining whether the weld force rate of change has reached a predetermined level; ending the weld phase by ending outputting energy from the ultrasonic welding stack to the first workpiece, before reaching a full length of the energy director; and initiating a hold phase and continuing to press the ultrasonic welding stack against the first workpiece, wherein the first workpiece and the second workpiece comprise different physical characteristics, and wherein the ending outputting energy from the ultrasonic welding stack to the first workpiece is based on determining that the weld force rate of change has reached the predetermined level. 2 . The ultrasonic welding method of claim 1 , wherein the monitoring occurs after a time delay, wherein the time delay occurs after the initiating of the weld phase. 3 . The ultrasonic welding method of claim 2 , wherein a length of the time delay comprises a length of time for the first workpiece to move a predetermined distance after the initiating of the weld phase. 4 . The ultrasonic welding method of claim 3 , wherein determining whether the weld force rate of change has reached the predetermined level comprises determining the weld force rate of change at an end of the time delay to yield a first weld force rate of change, and wherein the predetermined level is based on the first weld force rate of change. 5 . The ultrasonic welding method of claim 1 , wherein the method further comprises performing the steps of pressing, initiating, monitoring, determining, and ending for a plurality of pairs of workpieces. 6 . The ultrasonic welding method of claim 5 , wherein at least one workpiece in each of the plurality of pairs of workpieces comprises physical variations in a shape and a size from at least one other workpiece in the plurality of pairs of workpieces. 7 . The ultrasonic welding method of claim 5 , wherein the predetermined level is an identical level for each pair of workpieces in the plurality of pairs of workpieces. 8 . The ultrasonic welding method of claim 1 , the method further comprising: ending the hold phase based on determining that the weld force rate of change has reached a predetermined level for the hold phase. 9 . The ultrasonic welding method of claim 1 , wherein the full length of the energy director is reached during the hold phase. 10 . An ultrasonic welding method for welding a pair of workpieces having different physical characteristics, including workpieces that have differing materials or differing geometric properties, the method comprising: pressing an ultrasonic welding stack against a first workpiece in the pair of workpieces, wherein the first workpiece includes an energy director that comes into contact with a second workpiece in the pair of workpieces in response to the pressing; initiating a weld phase by outputting energy from the ultrasonic welding stack to the first workpiece; monitoring, with at least one sensor, a weld force rate of change; determining whether the weld force rate of change has reached a predetermined level; and ending the weld phase by ending outputting energy from the ultrasonic welding stack to the first workpiece, wherein the first workpiece and the second workpiece comprise different physical characteristics, and wherein the ending outputting energy from the ultrasonic welding stack to the first workpiece is based on determining that the weld force rate of change has reached the predetermined level. 11 . The ultrasonic welding method of claim 10 , wherein the monitoring occurs after a time delay, wherein the time delay occurs after the initiating of the weld phase. 12 . The ultrasonic welding method of claim 11 , wherein a length of the time delay comprises a length of time for the first workpiece to move a predetermined distance after the initiating of the weld phase. 13 . The ultrasonic welding method of claim 12 , wherein determining whether the weld force rate of change has reached a predetermined level comprises determining a weld force rate of change at an end of the time delay to yield a first weld force rate of change, and wherein the predetermined level is based on the first weld force rate of change. 14 . The ultrasonic welding method of claim 10 , wherein the method further comprises performing the steps of pressing, initiating, monitoring, determining, and ending for a plurality of pairs of workpieces. 15 . The ultrasonic welding method of claim 14 , wherein at least one workpiece in each of the plurality of pairs of workpieces comprises physical variations in a shape and a size from at least one other workpiece in the plurality of pairs of workpieces. 16 . The ultrasonic welding method of claim 14 , wherein the predetermined level is an identical level for each pair of workpieces in the plurality of pairs of workpieces. 17 . The ultrasonic welding method of claim 10 , the method further comprising: ending the hold phase based on determining that the weld force rate of change has reached the predetermined level for the hold phase. 18 . The ultrasonic welding method of claim 10 , wherein the full length of the energy director is reached during the hold phase.