Methods and equipment for reducing power loss in cellular systems

That which is claimed is: 1. A system, comprising: a programmable power supply configured to generate an output voltage; a processing circuit coupled to the programmable power supply and configured to be coupled to a measurement circuit; wherein a power cable, having a first conductor and a second conductor, is configured to be coupled between the programmable power supply and at least one radio, where the at least one radio is coupled to the measurement circuit, and where the at least one radio is mounted on a mounting structure; wherein the processing circuit is configured to determine the resistance of the power cable in response to at least one signal measured by the measurement circuit; and wherein the programmable power supply is configured to have its output voltage adjusted in response to the determined resistance and the current drawn from the programmable power supply by the at least one radio. 2. The system of claim 1 , wherein the output voltage is adjusted to maintain the voltage proximate to the at least one radio at a constant level or within a range. 3. The system of claim 1 , wherein the programmable power supply comprises: a first power supply configured to output first direct current (DC); a second power supply having an input that is coupled to the output of the first power supply, the second power supply comprising a DC-to-DC converter that is configured to output second DC power; and wherein the second power supply is coupled to the processing circuit. 4. The system of claim 3 , wherein the second power supply comprises: a voltage conversion circuit configured to convert a voltage of the first DC power to a different voltage; and control circuitry that is configured to adjust parameters of the conversion circuit to convert a voltage of the first DC power to a different voltage. 5. The system of claim 4 , wherein the second power supply further comprises a current sensor circuit coupled to the control circuitry. 6. The system of claim 5 , wherein the current sensor circuit comprises a resistor and a voltage sensor circuit configured to measure a voltage drop across the resistor. 7. The system of claim 1 , wherein processing circuit is configured to be coupled to the measurement circuit by wires. 8. The system of claim 1 , wherein the measurement circuit is a voltage measurement circuit. 9. An equipment enclosure, comprising: an enclosure; a programmable power supply, in the enclosure, configured to generate an output voltage; a processing circuit, in the enclosure, coupled to the programmable power supply and configured to be coupled to a measurement circuit; wherein a power cable, having a first conductor and a second conductor, is configured to be coupled between the programmable power supply and at least one radio, where the at least one radio is coupled to the measurement circuit, and where the at least one radio is mounted on a mounting structure; wherein the processing circuit is configured to determine the resistance of the power cable in response to at least one signal measured by the measurement circuit; and wherein the programmable power supply is configured to have its output voltage adjusted in response to the determined resistance and the current drawn from the programmable power supply by the at least one radio. 10. The equipment enclosure of claim 9 , wherein the output voltage is adjusted to maintain the voltage proximate to the at least one radio at a constant level or within a range. 11. The equipment enclosure of claim 9 , wherein the programmable power supply comprises: a first power supply configured to output first direct current (DC); a second power supply having an input that is coupled to the output of the first power supply, the second power supply comprising a DC-to-DC converter that is configured to output second DC power; and wherein the second power supply is coupled to the processing circuit. 12. The equipment enclosure of claim 11 , wherein the second power supply comprises: a voltage conversion circuit configured to convert a voltage of the first DC power to a different voltage; and control circuitry that is configured to adjust parameters of the conversion circuit to convert a voltage of the first DC power to a different voltage. 13. The equipment enclosure of claim 12 , wherein the second power supply further comprises a current sensor circuit coupled to the control circuitry. 14. The equipment enclosure of claim 13 , wherein the current sensor circuit comprises a resistor and a voltage sensor circuit configured to measure a voltage drop across the resistor. 15. The equipment enclosure of claim 9 , wherein processing circuit is configured to be coupled to the measurement circuit by wires. 16. The equipment enclosure of claim 9 , further comprising a baseband unit. 17. The equipment enclosure of claim 9 , wherein the measurement circuit is a voltage measurement circuit.