Medical devices including flexible circuit bodies with exposed portions of circuit traces attached to electrical contacts of components

What is claimed is: 1. A method of constructing a medical device, comprising: providing a flexible circuit body having at least one conductive circuit trace with an insulative body having a first external surface and a second external surface on an opposite side from the first external surface and with the first and second external surfaces covering the at least one conductive circuit trace, the at least one conductive circuit trace having a longitudinal axis and having a portion that extends along the longitudinal axis and that is exposed from the insulative body by spanning a window present in the first external surface and the second external surface of the insulative body and continuing into the insulative body between the first external surface and the second external surface on an opposite side of the window, the at least one conductive circuit trace being electrically coupled to a first circuit that produces stimulation signals, the circuit trace having a width measured within the plane of the window and perpendicular to the longitudinal axis and having a thickness measured perpendicular to the plane of the window with the width being greater than the thickness; and attaching the portion of the circuit trace that is exposed from the insulative body to an electrical contact associated with an electrical component by using a resistive weld to create an electrical connection between the portion of the circuit trace and the electrical contact. 2. The method of claim 1 , wherein the flexible circuit body has a plurality of conductive circuit traces that are covered by the insulative body and with each conductive circuit trace of the plurality having a portion that is exposed from the insulative body, the method further comprising: attaching the portion of each of the circuit traces of the plurality to corresponding electrical contacts associated with the electrical component to create electrical connections between the portions of the circuit traces of the plurality and the corresponding electrical contacts. 3. The method of claim 2 , wherein providing the flexible circuit comprises providing the flexible circuit body with the portions of each of the circuit traces spanning the window. 4. The method of claim 2 , wherein providing the flexible circuit body comprises providing the flexible circuit body with a plurality of windows in the insulative body and with each of the portions of the plurality of circuit traces spanning a corresponding window of the plurality. 5. The method of claim 1 , wherein providing the flexible circuit body comprises providing the portion with a conductive plating and wherein attaching comprises attaching the plated portion to the electrical contact. 6. The method of claim 1 , wherein providing the flexible circuit body further comprises providing the at least one conductive circuit trace with a second portion that is exposed from the insulative body, and wherein the at least one conductive circuit trace is electrically coupled to the first circuit by attaching the second portion to an electrical contact of the first circuit. 7. The method of claim 1 , wherein attaching the portion of the circuit trace comprises performing a resistance spot weld. 8. A medical device, comprising: a housing; a first circuit within the housing that generates stimulation pulses; an electrical component within the housing and spaced from the first circuit, the electrical component having an electrical contact; and a flexible circuit body within the housing and having at least one conductive circuit trace with an insulative body having a first external surface and a second external surface on an opposite side from the first external surface and with the first and second external surfaces covering the at least one conductive circuit trace, the at least one conductive circuit trace having a longitudinal axis and having a portion that extends along the longitudinal axis and that is exposed from the insulative body by spanning a window present in the first external surface and the second external surface of the insulative body and continuing into the insulative body between the first external surface and the second external surface on an opposite side of the window and that is attached to the electrical contact of the electrical component by a resistive weld to create an electrical connection between the portion of the circuit trace and the electrical contact of the electrical component, and the circuit trace being electrically coupled to the first circuit, the circuit trace having a width measured within the plane of the window and perpendicular to the longitudinal axis and having a thickness measured perpendicular to the plane of the window with the width being greater than the thickness. 9. The medical device of claim 8 , wherein the electrical component has a plurality of electrical contacts, wherein the flexible circuit body has a plurality of conductive circuit traces that are covered by the insulative body and with each conductive circuit trace of the plurality having a portion that is exposed from the insulative body, and wherein the portion of each of the circuit traces of the plurality is attached to a corresponding electrical contact of the plurality of the electrical component to create electrical connections between the portions of the circuit traces of the plurality and the corresponding electrical contacts of the plurality. 10. The medical device of claim 9 , wherein each of the portions of the circuit traces span the window. 11. The medical device of claim 9 , wherein the flexible circuit body comprises a plurality of windows in the insulative body and each of the portions of the plurality of circuit traces spans a corresponding window of the plurality. 12. The medical device of claim 8 , wherein the portion includes a conductive plating and the conductive plating is attached to the electrical contact. 13. The medical device of claim 8 , wherein the at least one conductive circuit trace comprises a second portion that is exposed from the insulative body, and wherein electrically coupling the at least one conductive circuit trace to the first circuit comprises attaching the second portion to an electrical contact of the first circuit. 14. The medical device of claim 8 , wherein the portion of the circuit trace is attached by a resistance spot weld to the electrical contact of the electrical component. 15. A method of providing stimulation therapy from a medical device having a pulse generator circuit and having a feedthrough located separately from the pulse generator circuit, comprising: generating stimulation pulses by the pulse generator circuit; conducting the stimulation pulses from the pulse generator circuit to a circuit trace of a flexible circuit body; passing the signals from the circuit trace of the flexible circuit body to an electrical contact of the feedthrough, the circuit trace having a longitudinal axis and having a portion that extends along the longitudinal axis and that is exposed from an insulative body of the flexible circuit body that has a first external surface and a second external surface on an opposite side from the first external surface where the first and second external surfaces cover the circuit trace by spanning a window present in the first external surface and the second external surface of the insulative body and continuing into the insulative body between the first external surface and the second external surface on an opposite side of the window such that the portion of the circuit trace is attached to the electrical contact of the feedthrough by a resistive weld, the circ