Single stage EMI filter design to meet EMI requirements

What is claimed is: 1. A single stage electromagnetic interference (EMI) filter circuit comprising: a power source input configured to connect to a power source; an equivalent common mode and differential mode filter including a single inductor having both common mode inductance for common mode filtering and specific parasitic inductance; and a differential capacitance stage connected to the single inductor in parallel, wherein a combination of the specific parasitic inductance and capacitance of the differential capacitance stage are used to provide differential mode filtering. 2. The single stage EMI filter circuit of claim 1 , wherein the power source has a power source type of a plurality of different power source types. 3. The single stage EMI filter circuit of claim 2 , wherein the different power source types are Alternating Current (AC) and Direct Current (DC). 4. The single stage EMI filter circuit of claim 2 , wherein the different power source types are Direct Current (DC), Sinusoidal Alternating Current (AC), and Quasi Sinusoidal wave AC. 5. The single stage EMI filter circuit of claim 2 , wherein the different power source types are any of a 120V Alternating Current (AC), 48V Direct Current (DC), and 75V Cable Television (CATV) power. 6. The single stage EMI filter circuit of claim 1 , further comprising: a one or more surge protectors located between the power source input and the equivalent common mode and differential mode filter. 7. The single stage EMI filter circuit of claim 1 , further comprising: an X capacitor for the differential capacitance stage; and a plurality of Y capacitors for common mode capacitance. 8. The single stage EMI filter circuit of claim 7 , wherein the X capacitor is located before and in parallel with the single inductor. 9. The single stage EMI filter circuit of claim 7 , wherein the X capacitor is located after and in parallel with the single inductor. 10. The single stage EMI filter circuit of claim 7 , wherein the X capacitor is located after and in parallel with the single inductor, and further comprising a second X capacitor located before and in parallel with the single inductor. 11. The single stage EMI filter circuit of claim 7 , wherein the plurality of Y capacitors are in two stages, one before and in parallel with the single inductor, and another after and in parallel with the single inductor. 12. The single stage EMI filter circuit of claim 1 , wherein the specific parasitic inductance is between 2-4% of common mode inductance. 13. A network device comprising: a housing or chassis; a power distribution unit in the housing or chassis; and a single stage electromagnetic interference (EMI) filter circuit in the housing or chassis, wherein the single stage EMI filter circuit includes a power source input configured to connect to a power source, an equivalent common mode and differential mode filter including a single inductor having both common mode inductance for common mode filtering and specific parasitic inductance, a differential capacitance stage connected to the single inductor in parallel, wherein a combination of the specific parasitic inductance and capacitance of the differential capacitance stage are used to provide differential mode filtering, and a power output to the power distribution unit. 14. The network device of claim 13 , wherein the power source has a power source type of a plurality of different power source types. 15. The network device of claim 14 , wherein the different power source types are Alternating Current (AC) and Direct Current (DC). 16. The network device of claim 14 , wherein the different power source types are Direct Current (DC), Sinusoidal Alternating Current (AC), and Quasi Sinusoidal wave AC. 17. The network device of claim 14 , wherein the different power source types are any of a 120V Alternating Current (AC), 48V Direct Current (DC), and 75V Cable Television (CATV) power. 18. The network device of claim 13 , wherein the specific parasitic inductance is between 2-4% of common mode inductance. 19. A method of single stage electromagnetic interference (EMI) filtering comprising steps of: receiving power from a power source; performing common mode filtering with an equivalent common mode and differential mode filter that includes a single inductor and that has both common mode inductance for common mode filtering and specific parasitic inductance; and performing differential mode filtering with the single inductor and a differential capacitance stage connected to the single inductor in parallel, wherein a combination of the specific parasitic inductance and capacitance of the differential capacitance stage are used for the differential mode filtering. 20. The method of claim 19 , wherein the power source has a power source type of a plurality of different power source types.