Twin louver window assembly for efficient thermal control

The invention claimed is: 1. A powered twin louver bank window system comprising: an assembly surround frame, configured to be fitted in a wall envelope of a building, the assembly surround frame including a head member, a sill member, and at least a pair of opposed side channel members, wherein, when the assembly surround frame is installed in the wall envelope of the building, the wall envelope at least in part surrounds the head member, the sill member, and the pair of opposed side channel members leaving an outer side of the assembly surround frame exposed to an exterior environment of the building and an inner side of the assembly surround frame exposed to an interior of the building; a pair of louver banks mounted relative to the assembly surround frame, including an outer louver bank located towards the outer side of the assembly surround frame and an inner louver bank located toward the inner side of the assembly surround frame, each of the outer and inner louver banks including a plurality of louver blades; at least one powered drive mechanism associated with one or more of the louver banks to drive at least some of the louver blades of one or more of the louver banks between a closed configuration and one or more open configurations, and the inner louver bank seals when in the closed position to enable a pressure differential to be achieved across the inner louver bank; a passageway comprising an opening formed in a portion of the assembly surround frame proximate to an upper portion of the outer louver bank that opens to the exterior environment when the assembly surround frame is installed in the wall envelope, the passageway providing passive fluid communication between the exterior environment and a space inside the outer louver bank between the inner and outer louver banks so as to allow pressure equalization across the outer louver bank when the outer louver bank is closed; and a window control system including a control unit operable to automatically control the at least one drive mechanism. 2. The powered twin louver bank window system as claimed in claim 1 wherein the inner and outer louver banks are mounted within the same assembly surround frame. 3. The powered twin louver bank window system as claimed in claim 1 wherein the louver blades in the outer louver bank are at least partially opaque louver blades and the louver blades in the inner louver bank are transparent louver blades. 4. The powered twin louver bank window system as claimed in claim 1 wherein the assembly surround frame includes a plurality of louver bays with one or more intermediate mullion members extending substantially parallel to the side channel members separating the respective louver bays from one another. 5. The powered twin louver bank window system as claimed in claim 1 wherein the louver blades in the inner louver bank and the louver blades in the outer louver bank are manufactured from different materials with the materials chosen to provide different light transmission characteristics to each of the respective inner louver bank and the outer louver bank. 6. The powered twin louver bank window system as claimed in claim 1 wherein the inner louver bank and outer louver bank are actuable to open and close independently of one another. 7. The powered twin louver bank window system as claimed in claim 1 further including a drive mechanism associated with each louver bank to drive at least some of the louver blades in each of the inner and outer louver banks between a closed configuration and a plurality of open configurations. 8. The powered twin louver bank window system as claimed in claim 1 wherein the control unit is configured to control the at least one drive mechanism in a plurality of preset open and close configurations. 9. The powered twin louver bank window system as claimed in claim 8 further including a drive mechanism associated with each louver bank to drive the louver blades in each of the inner and outer louver banks between a closed configuration and a plurality of open configurations, wherein at least one of the preset open and close configurations includes the louver blades in one of the inner and outer louver banks at a different angle than the louver blades in the other of the inner and outer louver banks. 10. The powered twin louver bank window system as claimed in claim 8 further including a drive mechanism associated with each louver bank to drive the louver blades in each of the inner and outer louver banks between a closed configuration and a plurality of open configurations, wherein at least one of the preset open and close configurations includes the louver blades in one of the inner and outer louver banks at the same angle as the louver blades in the other of the inner and outer louver banks. 11. The powered twin louver bank window system as claimed in claim 1 , further comprising one or more sensors, and wherein the control unit is responsive to the one or more sensors to open or close one or more of the louver banks to manage heat in a building. 12. The powered twin louver bank window system as claimed in claim 11 wherein one or more of a temperature sensor, a rain sensor or a wind sensor are provided to control opening and/or closing of the one or more louver banks. 13. The powered twin louver bank window system as claimed in claim 1 wherein the at least one drive mechanism has one or more sensors or control systems associated therewith to open and close one or more of the louver banks to manage ventilation in a building whilst preventing inclement weather from entering the building. 14. The powered twin louver bank window system as claimed in claim 13 wherein at least one of a temperature sensor, a rain sensor, a sun position sensor, or a wind sensor are provided to control opening or closing, or both, of the one or more louver banks. 15. The powered twin louver bank window system as claimed in claim 1 wherein the louver blades in one of the respective inner louver bank and outer louver bank are staggered or offset from the louver blades in the other of the respective inner louver bank and outer louver bank. 16. The powered twin louver bank window system assembly as claimed in claim 1 further including at least one wireless communication device to allow communication with a compatible device operating a software application, and a software application operating on the compatible device, the software application allowing input of instructions to control the powered window assembly and communication to the control unit via the at least one wireless communication device of the control unit. 17. The powered twin louver bank window system as claimed in claim 1 wherein the control unit is configured to cause the at least one drive mechanism to drive some of the louver blades in response to a timer event. 18. The powered twin louver bank window system as claimed in claim 1 wherein the at least one powered drive mechanism includes at least one drive motor mounted within the head member. 19. The powered twin louver bank window system as claimed in claim 1 wherein the passageway is formed at least in part in a weatherseal mount of the assembly surround frame.