Photoelectric control of daylight-following lighting systems (Daylight-sensing photocell placement)

Abstract

The ability of daylight-following lighting systems to provide a minimum specified light level at the task surface is influenced by (1) the control algorithm used, (2) the spatial response of the ceiling-mounted control photosensor, and (3) the location of the photosensor relative to task and window. Best performance was obtained with a closed-loop proportional control system controlled by a photosensor, with a large field of view but shielded from direct light from the window. A minimum specified illuminance level could be maintained at specific points on the task surface regardless of daylight condition or room geometry provided that the system gain was properly calibrated to account for the local luminous environment. Open-loop proportional control also performed adequately but offered less precise control than closed-loop systems due to the necessity of using a photosensor that was not shielded from direct window light. Integral-reset systems that were tested performed poorly, but performance could be improved slightly by completely shielding the photocell from direct window light. 8 refs., 45 figs., 4 tabs.