Disk drive suspension having stamped base plate distal tip

I claim: 1. A suspension for a disk drive, comprising: a baseplate for mounting the suspension to an actuator arm; and a load beam mounted to the baseplate, the load beam supporting a read/write head for reading data from, and writing data to, a data storage medium; wherein the baseplate has a stamped portion thereof that was created by a stamping operation, the stamped portion defines a flat surface that lies vertically below a location at which the load beam is mounted to the baseplate, and the load beam is mounted to the baseplate such that the load beam extends at least partially over the stamped portion of the baseplate. 2. The suspension of claim 1 wherein the baseplate was formed from a sheet of metal by a cutting operation that left the baseplate with burrs at cut edges of the baseplate. 3. The suspension of claim 1 wherein the load beam comprises a beam portion and a hinge portion, and the hinge portion is mounted on the baseplate. 4. The suspension of claim 1 wherein the baseplate stamped portion extends all the way from a first lateral side of the baseplate to a second and opposite lateral side thereof. 5. The suspension of claim 1 wherein an entire lateral width of the load beam extends at least partially over the stamped portion of the baseplate along a line at which the load beam last makes contact with the baseplate. 6. The suspension of claim 1 wherein the stamping is performed to a depth of between 5 and 35% of a nominal thickness of the baseplate. 7. The suspension of claim 1 wherein the stamping is performed at a distal tip of the baseplate. 8. A suspension for a disk drive, comprising: a baseplate for mounting the suspension to an actuator arm, the baseplate comprising a baseplate material; a load beam mounted to the baseplate, the load beam supporting a read/write head for reading data from, and writing data to, a data disk; wherein at a departure line on the baseplate where the load beam ceases to make contact with the baseplate, the baseplate has a stamped region in which the baseplate material was stamped thus causing the baseplate material to be compressed and to flow. 9. The suspension of claim 8 wherein the stamped region defines a flat surface above which the load beam is mounted thereby reducing variability in angular alignment between the baseplate and at least part of the load beam. 10. The suspension of claim 8 wherein: the load beam comprises a beam portion and a spring portion; the spring portion is mounted on the baseplate; and an entire width of the spring portion extends along the departure line. 11. The suspension of claim 8 wherein: the stamped region of the baseplate defines a stamped shelf, the stamped shelf including the departure line; and a spring region of the load beam is mounted above the stamped shelf. 12. The suspension of claim 8 wherein: the stamped region of the baseplate defines a stamped shelf, the stamped shelf including the departure line; and a spring region of the load beam is mounted to the stamped shelf. 13. The suspension of claim 11 wherein: the departure line on the baseplate is substantially flatter than any other non-stamped edge of the baseplate. 14. A suspension for a disk drive, comprising: a baseplate for mounting the suspension to an actuator arm; and a load beam mounted to the baseplate, the load beam supporting a read/write head for reading data from, and writing data to, a data storage medium; wherein: the baseplate has a stamped shelf formed therein at a distal region of the baseplate; a boundary of the stamped shelf defines a stamped edge thereof; the load beam is mounted on the stamped edge; and the baseplate has at least one cut edge that is that is rougher than the stamped edge. 15. The suspension of claim 14 wherein the stamped edge is substantially smoother than the cut edge. 16. The suspension of claim 14 wherein the stamped edge is located at a top surface of the baseplate, and the cut edge is located on the baseplate below the stamped edge. 17. The suspension of claim 14 wherein the stamped shelf has a depth that is between 5 and 35% of a thickness of the baseplate. 18. The suspension of claim 14 wherein the cut edge has burrs thereon, and any burrs on the stamped edge are substantially smaller than the burrs on the cut edge. 19. A method of manufacturing a suspension for a disk drive, the method comprising: cutting a baseplate from a sheet of metal; stamping a distal tip of the baseplate to produce a flat coined region thereof, the coined region including a coined edge; mounting a load beam to the baseplate such that the load beam extends over the coined region, the coined edge defining a line of departure where the load beam leaves the baseplate.