Distributed power harvesting systems using DC power sources

The invention claimed is: 1. A photovoltaic panel comprising: a plurality of photovoltaic power sources connected in parallel across power source terminals; a direct current power converter coupled to the power source terminals, wherein the direct current power converter comprises output terminals and one or more of a capacitor, an inductor, and a transistor, wherein the direct current power converter is configured to convert input power received at the power source terminals to an output power at the output terminals; and a bypass diode connected in shunt across the power source terminals. 2. The photovoltaic panel of claim 1 , wherein the direct current power converter comprises a controller and a control loop coupled to at least one of the power source terminals, wherein the controller is configured to set, using the control loop, a voltage or a current at the power source terminals according to a previously determined criterion. 3. The photovoltaic panel of claim 2 , wherein previously determined criterion is a maximum power point of the plurality of photovoltaic power sources connected in parallel. 4. The photovoltaic panel of claim 1 , wherein the direct current power converter comprises a controller and a control loop coupled to at least one of the power source terminals, wherein the controller is configured to maximize, using the control loop, the input power. 5. The photovoltaic panel of claim 1 , wherein the bypass diode is a single bypass diode connected across the power source terminals. 6. The photovoltaic panel of claim 1 , wherein the direct current power converter comprises a buck converter serially connected to a boost converter. 7. A method comprising: connecting a plurality of photovoltaic power sources in parallel across input terminals of a direct current power converter; and attaching a bypass diode in shunt across the input terminals. 8. The method according to claim 7 , comprising: converting, with the direct current power converter, source power received from the plurality of photovoltaic power sources on the input terminals to output power on output terminals of the direct current power converter. 9. The method according to claim 8 , comprising: limiting output voltage on the output terminals until a predetermined minimum load is detected on the output terminals. 10. The method according to claim 8 , comprising: maximizing the source power received on the input terminals according to a maximum power point tracking control loop. 11. The method according to claim 10 , comprising: connecting the output terminals of the direct current power converter in series with output terminals of one or more other direct current power converters to form a series string. 12. The method according to claim 11 , comprising: controlling a voltage across the series string to a predetermined value. 13. The method according to claim 11 , comprising: inverting, with an inverter, string power received from the series string to alternating current power. 14. The method according to claim 13 , comprising: controlling a voltage across the series string to an input voltage to less than an operational rating of components within the inverter. 15. The method according to claim 11 , comprising: bypassing, through the bypass diode, current in response to a failure of any of the plurality of photovoltaic power sources or a shading of one or more of the plurality of photovoltaic power sources. 16. A system comprising: a plurality of photovoltaic assemblies each comprising: a plurality of photovoltaic sources, a direct current power converter, a diode, and output terminals, wherein the plurality of photovoltaic sources are connected in parallel to an input of the direct current power converter, the diode is connected across the input of the direct current power converter, and the output terminals are connected to an output of the direct current power converter; and an inverter comprising inverter input terminals, wherein the plurality of photovoltaic assemblies are connected in a series string at their output terminals, and wherein the inverter input terminals are connected to the series string. 17. The system according to claim 16 , wherein the inverter comprises a control loop, wherein the inverter is configured to control, using the control loop, a voltage on the inverter input terminals to a predetermined value. 18. The system according to claim 16 , wherein the inverter comprises a control loop, wherein the inverter is configured to control, using the control loop, a voltage on the inverter input terminals to less than an operational rating of components within the inverter. 19. The system according to claim 16 , wherein the direct current power converter in each of the plurality of photovoltaic assemblies comprises a controller and a control loop, wherein the controller is configured to set, using the control loop, a voltage or a current at its input according to a previously determined criterion. 20. The system according to claim 19 , wherein the previously determined criterion comprises a maximum power point algorithm.