Power combining in power over ethernet systems

What is claimed is: 1. A method for combining power to a load from multiple power supplies via power over Ethernet (PoE), the power supplies being coupled to associated power sourcing equipment (PSE) providing PoE, the associated PSE comprising at least a first PSE and a second PSE, each PSE providing power at its power output terminals, each PSE having at least one of a first power limit or a first current limit, the method comprising: providing at least a first power supply and a second power supply, the first power supply being coupled to the first PSE and the second power supply being coupled to the second PSE; coupling an output of the first power supply to a first load power terminal for supplying power to the first load by only the first power supply until it is detected that at least one of a power or a current supplied by the first PSE to the first power supply equals a first power threshold or a first current threshold, respectively, and, in response, limiting a power or current output of the first power supply to the first load to ensure that the current supplied by the first PSE does not exceed the first power limit or the first current limit; and automatically detecting by the second power supply that the power or current output of the first power supply has been limited and, in response, coupling the second power supply to the first load power terminal for supplying additional power to the first load while the power or current supplied by the first power supply remains limited. 2. The method of claim 1 further comprising: converting a voltage supplied by the first PSE to a first output voltage by the first power supply; converting a voltage supplied by the second PSE to a second output voltage by the second power supply; providing a first polarity detection device selectively coupling the first output voltage of the first power supply to the first load power terminal; providing a second polarity detection device selectively coupling the second output voltage of the second power supply to the first load power terminal; detecting by the first polarity detection device that the first output voltage generated by the first power supply is greater than a voltage at the first load power terminal and, in response to such detection, connecting the output of the first power supply to the first load power terminal to provide power from the first power supply to the first load, wherein the step of limiting the power or current output of the first power supply to the first load causes the voltage at the first load power terminal to be lowered; and detecting by the second polarity detection device that the second output voltage generated by the second power supply is greater than the voltage at the first load power terminal and, in response to such detection, connecting an output of the second power supply to the first load power terminal to provide additional power from the second power supply to the first load while the first power supply is providing the limited power or current. 3. The method of claim 2 wherein the first polarity detection device is a first diode, and the second polarity detection device is a second diode. 4. The method of claim 1 wherein the step of detecting whether the power or current provided by the first PSE to the first power supply equals the first power threshold or the first current threshold comprises detecting whether the power provided by the first PSE to the first power supply equals the first power threshold. 5. The method of claim 1 wherein the step of detecting whether the power or current provided by the first PSE to the first power supply equals the first power threshold or first current threshold comprises detecting whether the current provided by the first PSE to the first power supply equals the first current threshold. 6. The method of claim 1 wherein the first power supply is identical to the second power supply. 7. The method of claim 1 wherein the first power supply and the second power supply comprise isolated step down converters. 8. The method of claim 1 further comprising the first power supply and the second power supply each detecting an average current supplied by the first PSE and the second PSE, respectively, for comparison to the first current threshold. 9. The method of claim 1 further comprising: detecting whether a current in the first power supply equals a second threshold current so as not to exceed an instantaneous current limit for the first PSE and, in response to such detection, limiting a current input into the first power supply to prevent current supplied by the first PSE exceeding the instantaneous current limit. 10. The method of claim 9 wherein detecting whether the current in the first power supply equals the second threshold current comprises detecting an instantaneous current through a power switch in the first power supply. 11. The method of claim 1 wherein the first PSE and the second PSE supply power to dedicated wire pairs in accordance with IEEE standard 802.3. 12. The method of claim 1 wherein the first power supply comprises a first voltage converter having a duty cycle being controlled such that the first voltage converter outputs a regulated voltage, wherein the step of limiting the power or current output of the first power supply comprises limiting the duty cycle of the first voltage converter, whereby a voltage at the first load power terminal lowers due to the duty cycle being insufficient to supply current to the first load at the regulated voltage. 13. The method of claim 1 where there are no connections between the first power supply and the second power supply for synchronizing operation of the first power supply and the second power supply. 14. The method of claim 1 wherein the first PSE is a first PSE channel of a PSE switch and the second PSE is a second PSE channel of the PSE switch. 15. The method of claim 1 further comprising: performing a handshaking routine between the first PSE and the first power supply, the handshaking routine identifying the first power limit or the first current limit of each PSE; and automatically setting the first power threshold or the first current threshold to correspond with the first power limit or the first current limit identified during the handshaking routine. 16. A system for combining power to a load from multiple power supplies via power over Ethernet (PoE), the power supplies being coupled to associated power sourcing equipment (PSE) providing PoE, the associated PSE comprising at least a first PSE and a second PSE, each PSE providing power at its power output terminals, each PSE having at least one of a first power limit or a first current limit, the system comprising: at least a first power supply and a second power supply, the first power supply for being coupled to the first PSE and the second power supply for being coupled to the second PSE, the first power supply comprising a first voltage converter for converting a voltage supplied by the first PSE to a first output voltage of the first power supply; the second power supply comprising a second voltage converter for converting a voltage supplied by the second PSE to a second output voltage of the second power supply; a first polarity detection device selectively coupling the first output voltage of the first power supply to a first load power terminal when it is determined that the first output voltage of the first power supply is greater than the voltage at the first load power terminal; a second polarity detection device selectively coupling the second output voltage of the second p