Arc resistant power terminal

What is claimed is: 1. An electrical terminal comprising: a mount portion and a wire receiving portion formed of an electrically conductive material, the wire receiving portion configured to be crimped onto a wire; the mount portion including a solid tongue having opposing face surfaces; an aperture formed between the opposing face surfaces for connecting the terminal to a connection point; a layer of insulation material formed on at least a portion of the tongue for preventing arcing at a connection point; a raised boss integrally formed with the solid tongue on at least one of the opposing face surfaces, the integral boss forming an integral conductive boss surface above the tongue face surface and configured to surround the aperture on the tongue face surface; the layer of insulation material extending over the tongue face surface to surround the integral boss and having a thickness T on the tongue face surface that is greater than the height H of the integral boss above the tongue face surface; wherein compression of the layer of insulation material exposes the integral conductive boss surface that is free from the layer of insulation material, for connection to a connection point. 2. The electrical terminal of claim 1 , further comprising a raised boss integrally formed with the solid tongue to surround the aperture on both opposing face surfaces of the tongue. 3. The electrical terminal of claim 1 , wherein the raised integral boss has a height H above the at least one opposing face surface, wherein the height is in the range of 0.001 to 0.125 inches. 4. The electrical terminal of claim 1 , wherein the layer of insulation material has a thickness T, wherein the thickness is in the range of 0.001 to 0.250 inches. 5. The electrical terminal of claim 1 , wherein the layer of insulation material is formed on at least a portion of the wire receiving portion. 6. The electrical terminal of claim 1 , wherein the layer of insulation material is formed on the entire terminal exclusive of the raised boss. 7. The electrical terminal of claim 1 , wherein the electrically conductive material includes at least one of aluminum or copper. 8. The electrical terminal of claim 1 , wherein the layer of insulation material includes a material selected from one or more of the following: a fluorocarbon material, PTFE, PFA, FEP, ETFE, a polymer material, PVC, polyurethane, a thermoplastic material, a phenolic material, silicone, rubber, a ceramic. 9. The electrical terminal of claim 1 , further comprising a conversion coating layer formed on the electrically conductive material of at least a portion of the tongue for reducing the conductivity of the tongue portion. 10. The electrical terminal of claim 9 , wherein the layer of insulation material is formed to overlap at least a portion of the conversion coating layer. 11. The electrical terminal of claim 9 , wherein the conversion layer has a depth D, wherein the depth is in the range of 0.0001 to 0.010 inches. 12. The electrical terminal of claim 9 , wherein the conversion coating layer is formed from at least one of an anodizing process or a chemical conversion process. 13. A cable comprising: an electrical wire having a conductor and insulation; an electrical terminal including a mount portion and a wire receiving portion formed of an electrically conductive material, the wire receiving portion configured to be crimped onto the wire; the mount portion including a solid tongue having opposing face surfaces; an aperture formed between the opposing face surfaces for connecting the terminal to a connection point; a layer of insulation material formed on at least a portion of the tongue for preventing arcing at a connection point; a raised boss integrally formed with the solid tongue on at least one of the opposing face surfaces, the integral boss forming an integral conductive boss surface above the tongue face surface and configured to surround the aperture on the tongue face surface; the layer of insulation material extending over the tongue face surface to surround the integral boss and having a thickness T on the tongue face surface that is greater than the height H of the integral boss above the tongue face surface; wherein compression of the layer of insulation material exposes the integral conductive boss surface that is free from the layer of insulation material, for connection to a connection point. 14. The electrical terminal of claim 13 , further comprising a raised boss integrally formed with the solid tongue to surround the aperture on both opposing face surfaces of the tongue. 15. The electrical terminal of claim 13 , wherein the raised integral boss has a height H above the at least one opposing face surface, wherein the height is in the range of 0.001 to 0.125 inches. 16. The electrical terminal of claim 13 , wherein the layer of insulation material has a thickness T, wherein the thickness is in the range of 0.001 to 0.250 inches. 17. The electrical terminal of claim 13 , further comprising a conversion coating layer formed on the electrically conductive material of at least a portion of the tongue for reducing the conductivity of the tongue portion. 18. The electrical terminal of claim 17 , wherein the layer of insulation material is formed to overlap at least a portion of the conversion coating layer. 19. An electrical terminal comprising: a mount portion and a wire receiving portion formed of an electrically conductive material, the wire receiving portion configured to be crimped onto a wire; the mount portion including a solid tongue having opposing face surfaces; an aperture formed between the opposing face surfaces for connecting the terminal to a connection point; a conversion coating layer formed on the electrically conductive material of at least a portion of the tongue for reducing the conductivity of the tongue portion; a raised boss integrally formed with the solid tongue on at least one of the opposing face surfaces, the integral boss forming an integral conductive boss surface above the tongue face surface and configured to surround the aperture on the tongue face surface, the raised boss providing an integral conductive boss surface that is free from the conversion coating layer for connection to a connection point.