Angled bus bar

What is claimed is: 1. An electrochromic lite comprising: a substrate; an electrochromic device disposed on a surface of the substrate in a substantially rectangular area having a first corner and a second corner, the electrochromic device comprising first and second monolithic transparent conductive layers sandwiching an electrochromic stack, wherein one or both of the first monolithic transparent conductive layer and the second monolithic transparent conductive layer is a single layer of a conductive material; a first angled bus bar disposed on the first monolithic transparent conductive layer proximate the first corner the substantially rectangular area, the first angled bus bar configured to apply voltage of a first polarity to the first monolithic transparent conductive layer; and a second angled bus bar disposed on the second monolithic transparent conductive layer proximate the second corner of the substantially rectangular area, the second angled bus bar configured to apply voltage of a second polarity opposite the first polarity to the second monolithic transparent conductive layer; wherein each of the arms of the first and second angled bus bars has a length between about 10% and about 65% of the length of a side of the substantially rectangular area on which it resides, wherein each of the arms of the first and second angled bus bars do not overlap each other, and wherein the first corner is diagonally opposed to the second corner. 2. The electrochromic lite of claim 1 , wherein each of the angled bus bars is L-shaped or V-shaped and has a shorter arm and a longer arm. 3. The electrochromic lite of claim 2 , wherein the shorter arm has a length of about 10-40% of the length of a side of the substantially rectangular area on which it resides, and wherein the longer arm has a length of about 35%-65% of the length of a side of the substantially rectangular area on which it resides. 4. The electrochromic lite of claim 1 , wherein the first angled bus bar is located diametrically opposed to the second angled bus bar. 5. The electrochromic lite of claim 1 , wherein the electrochromic device is solid state and inorganic. 6. The electrochromic lite of claim 1 , wherein the arms of the first and second angled bus bars have lengths in symmetric relationship to each other. 7. The electrochromic lite of claim 1 , wherein the arms of each of the first and second angled bus bars are connected by bus bar material. 8. The electrochromic lite of claim 1 , wherein the arms of each of the first and second angled bus bars are connected by a wire. 9. The electrochromic lite of claim 1 , wherein the first and second monolithic transparent conductive layers include transparent conductive oxide material. 10. The electrochromic lite of claim 1 , wherein the first and second monolithic transparent conductive layers comprise metal oxides or doped metal oxides. 11. The electrochromic lite of claim 10 , the first and second monolithic transparent conductive layers comprise one of indium oxide, indium tin oxide, doped indium oxide, tin oxide, doped tin oxide, zinc oxide, aluminum zinc oxide, doped zinc oxide, ruthenium oxide, and doped ruthenium oxide. 12. The electrochromic lite of claim 1 , wherein the first and second angled bus bars are made of a conductive ink patterned onto the first and second monolithic transparent conductive layers respectively. 13. The electrochromic lite of claim 1 , wherein the electrochromic lite is integrated into an insulated glass unit. 14. The electrochromic lite of claim 13 , wherein the first angled bus bar is outside a seal of the insulated glass unit. 15. The electrochromic lite of claim 1 , wherein the substrate is rectangular. 16. The electrochromic lite of claim 1 , wherein the conductive material is (i) a conductive oxide material or (ii) a metal. 17. An electrochromic lite comprising: a rectangular substrate having a first corner and a second corner; an electrochromic device disposed on the rectangular substrate, the electrochromic device comprising first and second monolithic transparent conductive layers sandwiching an electrochromic stack, wherein one or both of the first monolithic transparent conductive layer and the second monolithic transparent conductive layer is a single layer of a conductive material; a first angled bus bar disposed on the first monolithic transparent conductive layer proximate the first corner, the first angled bus bar configured to apply voltage of a first polarity to the first monolithic transparent conductive layer; and a second angled bus bar disposed on the second monolithic transparent conductive layer proximate the second corner, the second angled bus bar configured to apply voltage of a second polarity, opposite the first polarity, to the second monolithic transparent conductive layer; wherein each of the arms of the first and second angled bus bars has a length between about 10% and about 65% of the length of a side of the substantially rectangular area on which it resides, wherein each of the arms of the first and second angled bus bars do not overlap each other, and wherein the first corner is diagonally opposed to the second corner. 18. The electrochromic lite of claim 17 , wherein each of the angled bus bars is L-shaped or V-shaped and has a shorter arm and a longer arm. 19. The electrochromic lite of claim 18 , wherein the shorter arm has a length of about 10-40% of the length of a side of the substantially rectangular area on which it resides, and wherein the longer arm has a length of about 35%-65% of the length of a side of the substantially rectangular area on which it resides. 20. The electrochromic lite of claim 17 , wherein the first corner is diametrically opposed to the second angled bus bar on the rectangular substrate. 21. The electrochromic lite of claim 17 , wherein the electrochromic device is solid state and inorganic. 22. The electrochromic lite of claim 17 , wherein the arms of the first and second angled bus bars have lengths in symmetric relationship to each other. 23. The electrochromic lite of claim 17 , wherein the arms of each of the first and second angled bus bars are connected by bus bar material. 24. The electrochromic lite of claim 17 , wherein the arms of each of the first and second angled bus bars are connected by a wire. 25. The electrochromic lite of claim 17 , wherein the first and second monolithic transparent conductive layers include transparent conductive oxide material. 26. The electrochromic lite of claim 17 , wherein the first and second monolithic transparent conductive layers comprise metal oxides or doped metal oxides. 27. The electrochromic lite of claim 26 , the first and second monolithic transparent conductive layers comprise one of indium oxide, indium tin oxide, doped indium oxide, tin oxide, doped tin oxide, zinc oxide, aluminum zinc oxide, doped zinc oxide, ruthenium oxide, and doped ruthenium oxide. 28. The electrochromic lite of claim 17 , wherein the first and second angled bus bars are made of a conductive ink patterned onto the first and second monolithic transparent conductive layers respectively. 29. The electrochromic lite of claim 17 , wherein the electrochromic lite is integrated into an insulated glass unit. 30. The electrochromic lite of claim 29 , wherein the first angled bus bar is out