Electrically isolated heat dissipating junction box

The invention claimed is: 1. A junction box comprising a first chamber and a second chamber separated by a wall and designed to be mounted to a photovoltaic panel, wherein: the first chamber comprises a circuit board designed to convert electrical power received from the photovoltaic panel to at least one of a DC voltage or an AC voltage; the second chamber comprises an electrical connection designed to receive the electrical power from the photovoltaic panel; the wall allows for mutual separation and reattachment of the first chamber and the second chamber; and the first chamber is configured to disconnect from the photovoltaic panel without disconnecting the second chamber from the photovoltaic panel. 2. The junction box of claim 1 , further comprising a heat sink having a dovetail structure, wherein at least a portion of the dovetail structure is adapted to deform to prevent mutual separation of the heat sink and the first chamber. 3. The junction box of claim 2 , wherein the dovetail structure comprises a hollow portion to allow for deforming of at least the portion of the dovetail structure. 4. The junction box of claim 1 , further comprising a first lid and a second lid, wherein: the first lid is designed to seal a first end of the first chamber; the second lid designed to seal a second end of the second chamber; and the second chamber comprises an open end designed to mount flat to the photovoltaic panel. 5. The junction box of claim 4 , wherein the first chamber is sealed via the first lid with a first level of hermiticity, and wherein the second chamber is designed to be sealed via the second lid with a second level of hermiticity different than the first level of hermiticity when the open end is mounted flat to the photovoltaic panel. 6. The junction box of claim 1 , wherein the wall is common to and separates the first chamber and the second chamber, and wherein the circuit board and the electrical connection are connected by a bus bar. 7. The junction box of claim 6 , wherein the bus bar is sealed in the wall to maintain a first level of hermeticity for the second chamber. 8. The junction box of claim 1 , further comprising a support adapted to mount a bus bar, wherein a first end of the bus bar is connected to the circuit board via a first connector and a second end of the bus bar is connected to the electrical connection via a second connector, wherein the support maintains a hermetic sealing between the first connector and the second connector. 9. The junction box of claim 1 , further comprising a thermal pad between a heat sink and the first chamber, wherein the thermal pad is adapted to deform to accommodate non-uniformity in a surface of the heat sink and in a surface of the first chamber. 10. A junction box comprising: a first chamber, the first chamber comprising a circuit board designed to convert electrical power received from a photovoltaic panel to at least one of a DC voltage or an AC voltage; a second chamber comprising an electrical connection designed to receive the electrical power from the photovoltaic panel; and a double wall constructed between the first chamber and the second chamber such that the first chamber and the second chamber are mutually separable and re-attachable. 11. The junction box of claim 10 , wherein the first chamber is sealed with a first level of hermiticity by a first lid and the second chamber is sealed with a second level of hermiticity by a second lid, wherein the second level of hermiticity is different than the first level of hermiticity. 12. The junction box of claim 10 , wherein the first chamber is hermetically sealed by a first lid and the second chamber comprises an open end designed to mount flat against the photovoltaic panel. 13. The junction box of claim 12 , further comprising a gasket configured to seal the open end of the second chamber. 14. The junction box of claim 10 , further comprising: supports in the first chamber for mounting the circuit board; and terminals mounted in the second chamber, the terminals connecting the electrical connection to the photovoltaic panel. 15. The junction box of claim 14 , further comprising a bypass diode connected between the terminals. 16. The junction box of claim 10 , further comprising a shielded lid that seals the first chamber and is adapted to suppress Radio Frequency Interference (RFI) emissions from the junction box. 17. The junction box of claim 16 , wherein the sealing of the first chamber by the shielded lid electrically isolates the junction box. 18. A method of manufacturing a junction box, the method comprising: installing, in a first chamber of the junction box, a circuit board that converts electrical power received from a photovoltaic panel to at least one of a DC voltage or an AC voltage; installing, in a second chamber of the junction box, an electrical connection to receive the electrical power from the photovoltaic panel; and connecting the first chamber to the second chamber at a double wall between the first chamber and the second chamber, the double wall being adapted to provide for mutual separation and re-attachment of the first chamber to the second chamber. 19. The method of claim 18 , further comprising sealing the first chamber with a first level of hermeticity and the second chamber with a second level of hermeticity different than the first level of hermeticity. 20. The method of claim 18 , further comprising: connecting the circuit board and the electrical connection with a bus bar; and sealing the bus bar to the double wall to maintain a first level of hermeticity.