Systems and methods for improved ultrasonic welding using a multi-height energy-directing device

What is claimed: 1. An energy-directing welding system, for use in staged welding, comprising: a first workpiece having a first surface opposite a second surface; a second workpiece having a third surface opposite a fourth surface; and an energy director comprising: a body having a fifth surface positioned adjacent the second surface of the first workpiece; and multiple energy-directing elements; wherein: each energy-directing element comprises a base connected to the body, and extends from the body in a direction opposite the fifth surface; the body extends between bases of adjacent elements of the multiple energy-directing elements; and each of a plurality of primary elements, of the energy-directing elements, is configured and arranged in the system to transfer more welding energy, from the first workpiece to the second workpiece, in an initial stage of the staged welding as compared to each of a plurality of secondary elements of the energy-directing elements. 2. The energy-directing welding system of claim 1 , wherein: each primary element has a first height and each secondary element has a second height being substantially equivalent to the first height; and with the energy director positioned snugly between the first workpiece and the second workpiece: the body of the energy director contacts the second surface, of the first workpiece; each of the primary elements contacts the third surface, of the second workpiece; and each of the secondary elements contacts the third surface. 3. The energy-directing welding system of claim 1 , wherein each primary element, in being configured to transfer more welding energy as compared to each secondary element in the initial stage, has a first shape for transferring more welding energy in the initial stage than each secondary element having a second shape differing from the first shape. 4. The energy-directing welding system of claim 3 , wherein each primary element being configured to transfer more welding energy in the initial stage as compared to each secondary element comprises the primary element being taller than each of the secondary element. 5. The energy-directing welding system of claim 4 , wherein, with the energy director positioned snugly between the first workpiece and the second workpiece: the fifth surface, of the body of the energy director, contacts the second surface, of the first workpiece; each primary element contacts the third surface, of the second workpiece; and none of the secondary elements contact the third surface. 6. The energy-directing welding system of claim 1 , with the energy director positioned snugly between the first workpiece and the second workpiece, the fifth surface, of the body of the energy director, includes a substantially flat portion positioned in contact with a substantially flat portion of the second surface, of the first workpiece. 7. The energy-directing welding system of claim 1 , wherein the body includes a central circular void to form a weld having a central weld void. 8. The energy-directing welding system of claim 7 , wherein the body has a generally annular profile shape, formed by body material surrounding the central circular void, to form a generally annular weld surrounding the weld void. 9. The energy-directing welding system of claim 1 , wherein the primary elements and the secondary elements are distributed around the device in an alternating pattern whereby a primary element separates each adjacent secondary element, and a secondary element separates each adjacent primary element. 10. The energy-directing welding system of claim 1 , further comprising a plurality of tertiary elements, of the plurality of energy-directing elements, wherein: each of the secondary elements is configured and arranged in the system to transfer more welding energy from the first workpiece to the second workpiece in a subsequent stage of the staged welding as compared to each of a plurality of tertiary elements; and the tertiary elements are configured and arranged in the system to transfer more welding energy in a latter stage of the staged welding, than an amount of energy transferred by the tertiary elements in the subsequent stage. 11. An energy-directing device, for use in staged welding together of workpieces, comprising: multiple energy-directing elements extending from a body, wherein the elements do not all have a same shape; and wherein each of a plurality of primary elements, of the energy-directing elements, has a first shape, and each of a plurality of secondary elements, of the energy-directing elements, has a second shape differing from the first shape, so that more energy is transferred through each primary element, than each secondary element in an initial stage of the staged welding, and more energy is transferred, from the first workpiece to the second workpiece, through the secondary elements in a subsequent stage than an amount of energy transferred through the secondary elements in the initial stage. 12. The energy-directing device of claim 11 , wherein: each energy-directing element includes a base; the energy-directing device comprises the body; the body includes a first surface configured to be positioned flush with an adjacent surface of one of the first and second workpieces; and the body extends between bases of adjacent energy-directing elements. 13. The energy-directing device of claim 11 , wherein each of the primary elements has a first height and each of the secondary elements has a second height being substantially equal to the first height. 14. The energy-directing device of claim 11 , wherein each of the primary elements has a first height and each of the secondary elements has a second height being smaller than the first height. 15. The energy-directing device of claim 11 , further comprising the body, wherein: the body is connected to the energy-directing elements, yielding a stand-alone energy director; the stand-alone energy director is physically separate from the first workpiece and the second workpiece; and the body has a substantially annular shape, comprising body material surrounding a generally circular void, configured to form a generally annular weld having a weld void. 16. The energy-directing device of claim 11 , wherein at least one of the energy-directing elements has a three-dimensional shape selected from a group consisting of cylindrical, frustoconical, and partial sphere. 17. The energy-directing device of claim 11 , wherein the primary elements and the secondary elements are distributed around the device in an alternating pattern whereby a primary element separates each adjacent secondary element, and a secondary element separates each adjacent primary element. 18. The energy-directing device of claim 11 , further comprising a plurality of tertiary elements, of the plurality of energy-directing elements, wherein: each of the secondary elements is configured and arranged in the system to transfer, from the first workpiece to the second workpiece, more welding energy in a subsequent stage of the staged welding, as compared to each of a plurality of tertiary elements; and the tertiary elements are configured and arranged in the system to transfer more welding energy in a latter stage of the staged welding, than an amount of energy transferred by the tertiary elements in the subsequent stage. 19. A multi-stage welding process, for joining workpieces together, comprising: providing a first workpiece comprising a first surface opposite a second surface; pro