Solar powered vehicle topper unit

What is claimed is: 1. A display assembly which is at least partially solar powered, said display assembly comprising: an electronic display; a housing for said electronic display; a solar energy harvesting device electrically connected to said electronic display; and a controller interposed between an alternative power source external to, but in electrical connection with, the display assembly, said solar energy harvesting device, and said electronic display, wherein said controller comprises one or more processors and one or more electronic storage devices comprising executable software instructions, which when executed, configures said one or more processors to, on a dynamic basis: determine a power requirement for operating the display assembly; determine power available from the solar energy harvesting device; where the power available from the solar energy harvesting device meets or exceeds the power requirement, source operational power from the solar energy harvesting device; where the power available from the solar energy harvesting device falls below the power requirement: source the power available from the solar energy harvesting device as a portion of the operational power; and source supplemental power from the alternative power source as an additional portion of the operational power such that the operational power is supplied by both the solar energy harvesting device and the alternative power source at the same time. 2. The display assembly of claim 1 wherein: said one or more electronic storage devices of said controller comprise additional executable software instructions, which when executed, configures said one or more processors to: determine power available from the alternative power source; and where a combination of the power available from the solar energy harvesting device and the power available from the alternative power source is less than the power requirement, adjust operations of the display assembly operations to require less power. 3. The display assembly of claim 2 wherein: said one or more electronic storage devices of said controller comprise additional executable software instructions, which when executed, configures said one or more processors to adjust operations of the display assembly by driving said electronic display at a reduced illumination level. 4. The display assembly of claim 2 wherein: the display assembly comprises a vehicle top display unit; and said alternative power source comprises a vehicle battery. 5. The display assembly of claim 4 wherein: said vehicle comprises at least one of an electric propulsion system and an internal combustion engine. 6. The display assembly of claim 1 further comprising: a support which extends between a top surface of said housing and a bottom surface of the solar energy harvesting device to elevate said solar energy harvesting device from said housing when installed such that a void is created between the top surface of the housing and the bottom surface of the solar energy harvesting device, wherein said solar energy harvesting device directly overlies at least a portion of said housing. 7. The display assembly of claim 6 wherein: a footprint of said solar energy harvesting device directly overlies, and entirely encompasses, a footprint of said housing such that said footprint of said solar energy harvesting device has an outer perimeter, an entirety of which extends beyond an outer perimeter of said footprint of said housing. 8. The display assembly of claim 1 wherein: said solar energy harvesting device is configured to provide DC power; and said electronic display is configured to directly accept and operate using DC power. 9. The display assembly of claim 1 further comprising: an open loop pathway for ambient air within said housing; and one or more fans positioned within said open loop pathway and electrically connected to said solar energy harvesting device. 10. The display assembly of claim 9 further comprising: a closed loop pathway for circulating gas within said housing; a heat exchanger located within said housing, wherein said open loop pathway comprises a first portion of said heat exchanger, and wherein said closed loop pathway comprises a second portion of said heat exchanger; and one or more fans positioned within said closed loop pathway and electrically connected to said solar energy harvesting device. 11. The display assembly of claim 1 wherein: said solar energy harvesting device has a first footprint with a first outer perimeter, said housing has a second footprint with a second outer perimeter; said first footprint is larger than, directly overlies, and entirely encompasses, said second footprint such that said an entirety of said first outer perimeter extends beyond the second outer perimeter. 12. The display assembly of claim 11 further comprising: a support extending between said housing and said solar energy harvesting device such that a bottom surface of said solar energy harvesting device is elevated directly above, and spaced apart from, a top surface of said housing to create a void between said housing and said solar energy harvesting device. 13. A method for operating a display assembly at least partially from solar power, said method comprising the steps of: securing a solar panel at an elevated position above a housing comprising an electronic display; electrically connecting said solar panel to said electronic display; electrically connecting said display assembly to an external power source; electrically interposing a controller between said battery and said electronic display, and dynamically: determining a power requirement for operations of the display assembly; determining an amount of power available from the solar panel; in each of at least one instance where the power available from the solar panel meets or exceeds the power requirement and supplying the display assembly exclusively with the power available from said solar panel over power available from the external power source; and in each of at least one instance where the power available from the solar panel is less than the power requirement for operations of the display assembly supplying the display assembly with the power available from the solar panel and simultaneously supplementing the power from said solar panel with additional power from the external power source to at least meet the power requirement for operations of the display assembly. 14. The method of claim 13 further comprising: determining an amount of power available from the external power source; and in at least one instance where a combination of the power available from the solar panel and the power available from the external power source does not meet the power requirement, adjusting operations of the display assembly to require less power. 15. The method of claim 14 wherein: the display assembly comprises a vehicle top unit; and the external power source comprises a battery for a vehicle. 16. The method of claim 14 wherein: the step of adjusting operations of the display assembly to require less power comprises driving said electronic display at a reduced illumination level. 17. The method of claim 13 wherein: said solar panel is positioned directly above, and spaced apart from, the housing by at least one support member extending between said housing and said solar panel, thereby creating a void space between the housing and said solar panel; and said solar panel defines a first footprint which is larger than, and completely o