Integrated capacitor filter and integrated capacitor filter with varistor function

What is claimed is: 1. An integrated capacitor filter with varistor functionality, comprising: a discrete multiterminal multilayer ceramic capacitor device with multiple capacitive elements, comprising a body having cooperating multiple layers including electrode layers which in turn form integrated capacitive structures; a first pair of capacitor device terminations external to said body and having opposite polarity; a second pair of capacitor device terminations external to said body and having the same polarity; a first region of said electrode layers forming two respective capacitors; and a second region of said electrode layers forming a multilayer ceramic capacitor received in series connection between said first pair of terminations; and a discrete varistor comprising a body having a pair of varistor terminations external to said varistor body and having opposite polarity, wherein said varistor is stacked with said multiterminal multilayer ceramic capacitor device in contact with said first pair of capacitor device terminations such that said varistor is in parallel relationship with said multiterminal multilayer ceramic capacitor device. 2. An integrated capacitor filter with varistor functionality as in claim 1 , wherein said first pair of capacitor device terminations and at least one of said second pair of capacitor device terminations are in respective parallel connections with said two respective capacitors of said first region. 3. An integrated capacitor filter with varistor functionality as in claim 1 , wherein: said first region of said electrode layers forms a split feedthrough type construction of said two respective capacitors; and said second region of said electrode layers forms an overlap type construction of said multilayer ceramic capacitor. 4. An integrated capacitor filter with varistor functionality as in claim 1 , further comprising: first and second leads respectively attached to said first pair of capacitor device terminations and said pair of varistor terminations; and a third lead attached to at least one of said second pair of capacitor device terminations. 5. An integrated capacitor filter with varistor functionality as in claim 1 , wherein said varistor and said multiterminal multilayer ceramic capacitor device are combined so as to form a surface mount device (SMD) configuration for said filter. 6. An integrated capacitor filter with varistor functionality as in claim 1 , wherein said first region of said electrode layers comprises at least a pair of layers situated opposite a generally cross-shaped layer having respective front and back extending edges in respective contact with said second pair of terminations, and having side extending edges in respective contact with said first pair of terminations. 7. An integrated capacitor filter with varistor functionality as in claim 6 , wherein said pair of layers of said first layer have respectively different overlap areas with said generally cross-shaped layer of said first layer so that different capacitance values result for said respective capacitors of said first region. 8. An integrated capacitor filter with varistor functionality as in claim 7 , further comprising: a third region of said electrode layers forming a split feedthrough type construction of an additional two respective capacitors, said third region comprising at least a pair of layers having respective front and back extending edges in respective contact with said second pair of terminations, and having side extending edges in respective contact with said first pair of terminations; wherein said pair of layers of said third layer have respectively different overlap areas with said generally cross-shaped layer of said third layer so that different capacitance values result for said respective additional capacitors of said third region. 9. An integrated capacitor filter with varistor functionality as in claim 6 , wherein the pair of layers of the first region are T-shaped. 10. An integrated capacitor filter with varistor functionality as in claim 6 , wherein the body has a pair of opposing side surfaces and the second pair of terminations are respectively formed on the pair of opposing side surfaces, and wherein the pair of layers of the first region respectively connect with the first pair of terminations along the pair of opposing side surfaces of the body. 11. An integrated capacitor filter with varistor functionality as in claim 1 , wherein said second region of said electrode layers comprises at least paired alternating layers in an overlapped configuration with respective extending portions thereof in contact with respective of said first pair of terminations. 12. An integrated capacitor filter with varistor functionality as in claim 11 , wherein the paired alternating layers of the second region are T-shaped. 13. An integrated capacitor filter with varistor functionality as in claim 11 , wherein the body has a pair of opposing side surfaces and the second pair of terminations are respectively formed on the pair of opposing side surfaces, and wherein the paired alternating layers of the second region respectively extend to the pair of opposing side surfaces of the body, and wherein the paired alternating layers of the second region respectively connect with the first pair of terminations along the pair of opposing side surfaces of the body. 14. An integrated capacitor filter with varistor functionality as in claim 1 , wherein said two respective capacitors of said first region are in series with each other, and both in parallel with said multilayer ceramic capacitor of said second region. 15. An integrated capacitor filter with varistor functionality as in claim 1 , further comprising: a third region of said electrode layers forming a split feedthrough type construction of an additional two respective capacitors; wherein said first pair of terminations and at least one of said second pair of terminations are in respective parallel connections with said additional two respective capacitors of said third region. 16. An integrated capacitor filter with varistor functionality as in claim 1 , wherein said second region of said electrode layers is between said first and third regions of said electrode layers. 17. An integrated capacitor filter with varistor functionality as in claim 1 , wherein: said body has a pair of relatively elongated sides and a pair of relatively shorter sides; said first pair of terminations reside respectively on said pair of relatively elongated sides; and said second pair of terminations resides respectively on said pair of relatively shorter sides. 18. An integrated capacitor filter with varistor functionality as in claim 1 , wherein said electrode layers of said second region include relatively enlarged areas for forming a relatively increased capacitance value overlap type multilayer ceramic capacitor. 19. A method for providing an integrated capacitor filter with varistor functionality, comprising: providing a multiterminal multilayer ceramic device with multiple capacitive elements, wherein providing a multiterminal multilayer ceramic device with multiple capacitive elements comprises: providing a body having cooperating multiple layers including electrode layers which are used to form integrated capacitive structures; forming a split feedthrough type construction of two respective capacitors in a designated first region of said electrode layers; forming an overlap type construction of a multilayer ceramic capacitor in a designated second region