Semiconductor device having self-isolating bulk substrate and method therefor

What is claimed is: 1. A semiconductor device structure comprising: a self-isolating bulk semiconductor substrate having first and second opposing major surfaces, wherein the self-isolating bulk semiconductor substrate includes: a floating buried doped region of a first conductivity type; a doped region of a second conductivity type opposite to the first conductivity type disposed between the floating buried doped region and the first major surface, wherein the doped region abuts the floating buried doped region; and a semiconductor region of the second conductivity type disposed between the floating buried doped region and the second major surface; a trench isolation region extending from the first major surface through the doped region, extending through the floating buried doped region, and extending into the semiconductor region, wherein the floating buried doped region abuts the trench isolation region; and a semiconductor device disposed within the doped region. 2. The structure of claim 1 , wherein the doped region and the semiconductor region are provided absent any diffused contact structures or conductive contact structures making direct or low-ohmic contact to the floating buried doped region. 3. The structure of claim 2 , wherein the self-isolating bulk semiconductor substrate is provided absent any laterally extending buried oxides or SOI structures that partially or completely vertically separate the doped region from the semiconductor region. 4. The structure of claim 1 , wherein the floating buried doped region has a varying dopant concentration. 5. The structure of claim 4 , wherein the floating buried region comprises: a first region adjoining the doped region; and a second region disposed between the first region and the semiconductor region, wherein the first region has a lower dopant concentration than the second region. 6. The structure of claim 5 , wherein the floating buried doped region further comprises a third region disposed between the second region and the semiconductor region, wherein the third region has a lower dopant concentration than the second region. 7. The structure of claim 1 , wherein the semiconductor device comprises a power MOS device. 8. The structure of claim 1 further comprising a shielding structure disposed within the doped region laterally and vertically enclosing the semiconductor device. 9. The structure of claim 8 , wherein the shielding structure comprises: a buried layer portion of the first conductivity type disposed between the floating buried doped region and the semiconductor device; and a sinker portion of the first conductivity type laterally disposed between the trench isolation region and the semiconductor device, wherein the sinker portion physically contacts the buried layer portion of the shielding structure, and wherein the semiconductor device comprises a CMOS device. 10. The structure of claim 1 , wherein the semiconductor device comprises at least one second doped region of the first conductivity type extending from the first major surface into the doped region and vertically separated from the floating buried doped region by the doped region. 11. A semiconductor device structure comprising: a bulk semiconductor substrate having first and second opposing major surfaces, wherein the bulk semiconductor substrate comprises: a floating buried doped region of a first conductivity type; a doped region of a second conductivity type opposite to the first conductivity type disposed between the floating buried doped region and the first major surface, and wherein the doped region abuts the floating buried doped region; and a semiconductor region of the second conductivity type disposed between the floating buried doped region and the second major surface, wherein the doped region and the semiconductor region are provided absent any diffused contact structures or conductive contact structures making direct or low-ohmic contact to the floating buried doped region; a pair of laterally separated isolation trenches extending from the first major surface through the doped region, extending through the floating buried doped region, and extending into the semiconductor region, and wherein the floating buried doped region abuts the pair of laterally separated isolation trenches; and a semiconductor device disposed within the doped region between the least one pair of laterally separated isolation trenches. 12. The structure of claim 11 , wherein the bulk semiconductor substrate is provided absent any laterally extending buried oxides or SOI structures that partially or completely vertically separate the doped region from the semiconductor region. 13. The structure of claim 11 , wherein the floating buried doped region comprises: a first region adjoining the doped region; a second region disposed between the first region and the semiconductor region, wherein the first region has a lower dopant concentration than the second region; and a third region disposed between the second region and the semiconductor region, wherein the third region has a lower dopant concentration than the second region. 14. The structure of claim 11 further comprising a shielding structure disposed within the doped region laterally and vertically enclosing the semiconductor device, wherein the shielding structure comprises: a buried layer portion of the first conductivity type disposed between the floating buried doped region and the semiconductor device; and a sinker portion of the first conductivity type laterally disposed between the trench isolation region and the semiconductor device, wherein the sinker portion physically contacts the buried layer portion of the shielding structure. 15. The structure of claim 14 , wherein the semiconductor device comprises a CMOS device. 16. A semiconductor device structure comprising: a self-isolating bulk semiconductor substrate having first and second opposing major surfaces, wherein the self-isolating bulk semiconductor substrate comprises: a floating buried doped region of a first conductivity type; a doped region of a second conductivity type opposite to the first conductivity type disposed between the floating buried doped region and the first major surface; and a semiconductor region of the second conductivity type disposed between the floating buried doped region and the second major surface, wherein the doped region and the semiconductor region are provided absent any diffused contact structures or conductive contact structures making direct or low-ohmic contact to the floating buried doped region, and wherein the doped region adjoins the floating buried doped region; a trench isolation structure extending from the first major surface through the doped region, extending through the floating buried doped region, and extending into the semiconductor region, wherein the trench isolation structure comprises a plurality of trench isolation portions in cross-sectional view, and wherein the floating buried doped region abuts each trench isolation portion, and wherein the trench isolation structure defines a plurality of device active regions within the doped region; and a plurality of semiconductor devices disposed within the device active regions. 17. The structure of claim 16 , wherein the self-isolating bulk semiconductor substrate is provided absent any laterally extending buried oxides or SOI structures that partially or completely vertically separate the doped region from the semiconductor region. 18. The structure of claim 16 , wherein the float