Systems and methods for improved ultrasonic welding using energy-director-locating algorithm

What is claimed: 1. A process, for changing relative positioning between a welding assembly and a workpiece arrangement using a locating implement of the welding assembly so a welding head is directly adjacent a welding energy director of the welding assembly, for effective welding together of multiple workpieces, of the workpiece arrangement, at an area of the energy director, comprising: positioning the workpiece arrangement in preparation to make one or more approaches, for locating the energy director, wherein the workpiece arrangement includes a proximate workpiece, a distal workpiece, and the welding energy director positioned therebetween; and performing, under control of a controller, a locating sub-routine comprising: moving, in by a first approach movement, in a first direction, along a first path, (a) the locating implement of the welding assembly toward the proximate workpiece, being closest to the implement, or (b) the proximate workpiece toward the locating implement, so that the locating implement contacts a first location of a surface of the proximate workpiece, the first location of the proximate workpiece not being directly adjacent the welding energy director; determining, in a first location determination, a first distance of displacement of the proximate workpiece in response to contact with the proximate workpiece, the first distance of displacement being captured at a position where the locating implement perceives a predetermined threshold force in response to contact with the proximate workpiece, wherein the first distance of displacement would indicate that the locating implement has been lowered to a target welding-energy-director point; relocating, in response to a negative result from the first location determination, indicating that the first approach movement mislocated the locating implement along the surface of the proximate workpiece, the locating implement or the proximate workpiece by a subsequent approach movement, in a second direction, along a second path, so that the locating implement contacts a second location of the surface of the proximate workpiece, distinct from the first location of the proximate workpiece, the second location of the proximate workpiece being directly adjacent the welding energy director; determining, in a second location determination, a second distance of displacement of the proximate workpiece in response to contact with the proximate workpiece, being less than the first distance of displacement, the second distance of displacement being captured at a position where the locating implement perceives the predetermined threshold force, wherein the second distance of displacement indicates that the locating implement, being positioned at the second location, has been positioned at the target welding-energy-director point; and determining, in response to a positive result from the second location determination, to first commence application of welding energy at the target welding-energy-director point to which the locating implement was accurately moved after being determined mislocated, to join the distal workpiece and the proximate workpiece at the target welding-energy-director. 2. The process of claim 1 , further comprising positioning the energy director adjacent the area prior to the locating sub-routine. 3. The process of claim 2 , wherein positioning the energy director includes forming the energy director with the proximate workpiece in a compression molding process for the first workpiece. 4. The process of claim 1 , wherein the locating implement includes or is part of a welding horn to be used to apply welding energy, at the target welding-energy-director point to which the locating implement was accurately moved, to weld the workpieces together. 5. The process of claim 1 , wherein the moving includes moving the locating implement and/or the proximate workpiece with consideration to an estimated or known location of the energy director, so that the locating implement is relatively close to the target welding-energy-director point in response to the first approach movement. 6. The process of claim 1 , wherein: the first location determination comprises the controller determining that the first distance of displacement causes the locating implement to move; and determining, in the second location determination, whether the second distance of displacement indicates that the locating implement has been positioned at the target welding-energy-director point, comprises comparing the second distance of displacement to a pre-established threshold displacement value. 7. The process of claim 6 , wherein: the energy director is flexible; and the threshold displacement value corresponds to a predetermined level of force reached when the locating implement is pushing against the energy director so that the energy director deforms to a point at which it pushes back at the predetermined level. 8. The process of claim 1 , wherein the energy director is a multi-height director, including first energy-directing elements having a first height and second energy-directing elements having a second height distinct from the first height. 9. The process of claim 8 , wherein the elements are configured to channel welding energy through the energy director in a pre-determined manner. 10. The process of claim 9 , wherein the predetermined manner includes channeling the energy through the primary elements in an initial stage of welding, while passing none through secondary elements in the initial stage. 11. The process of claim 10 , wherein the predetermined manner includes channeling the energy through the secondary elements in a subsequent stage of the welding. 12. The process of claim 11 , wherein little to no energy is passed through the primary elements in the subsequent stage. 13. The process of claim 1 , wherein: the energy director is a first energy director; the process is for positioning the locating implement, accurately by multiple approach attempts, directly adjacent multiple energy directors, including the first energy director; and the locating sub-routine is performed once for each of the multiple energy directors. 14. A process, for changing relative positioning between a welding assembly and a workpiece arrangement using a locating implement of the welding assembly so a welding head is directly adjacent a welding energy director of the workpiece arrangement, for effective welding together of multiple workpieces, of the workpiece arrangement, at an area of the energy director, the workpiece arrangement comprising the welding energy director, a proximate workpiece of the multiple workpieces, and a distal workpiece of the multiple workpieces with the welding energy director positioned therebetween, the process comprising: performing, under control of a controller, a locating sub-routine comprising: moving, in by a first approach movement, in a first direction, along a first path, (a) the locating implement of the welding assembly toward the proximate workpiece, being closest to the implement, or (b) the proximate workpiece toward the locating implement, so that the locating implement contacts a first location of a surface of the proximate workpiece, the first location of the proximate workpiece not being directly adjacent the welding energy director; determining, in a first location determination, a first distance of displacement of the proximate workpiece in response to contact with the proximate workpiece, the first distance of displacement being captured at a position where the locating implement perceives a predetermined threshold force in response to contact with the