This report from the Pacific Northwest National Lab (PNNL) summarizes 5 field evaluations conducted with the DesignLights Consortium demonstrating the potential energy saving capability of a sampling of advanced lighting control systems in real-world environments.

This resource assists decision-makers in understanding how networked lighting control system attributes can satisfy project objectives at an appropriate cost and functionality. It is intended for members of the project team involved in the design and selection of lighting control systems, especially team members with limited-to-moderate controls experience.

Success with lighting controls depends on establishing clearly defined objectives and taking a disciplined approach to design and implementation. This practical guide describes four common use cases for lighting controls and outlines the implementation process, from planning through maintenance. These recommended best practices reflect the experience of practitioners and serve to reduce complexity and the likelihood of problems when installing and using lighting controls.

Connected lighting systems provide a platform where integrated control of lighting and other systems can enhance building performance. With detailed information, coordinated systems can deliver lower operating costs and improved return on capital, as well as enhanced occupant wellbeing and productivity.

GSA's GPG program commissioned LBNL to assess wreless ALC at two federal sites in Northern California.  Results showed 54% normalized energy savings for GSA when fluorescent lamps with dimmable ballasts were retrofitted with wireless ALC, and 78% when the wireless ALC retrofit was coupled with LED fixtures. Wireless ALC integrated with LED fixtures is recommended for new construction and renovations, with simple payback between 3 and 6 years. It should also be considered for retrofits in facilities with minimal existing controls, high lighting energy usage, and high electricity costs.

GSA’s Green Proving Ground program recently assessed the potential of wireless sensor technology to provide a cost-effective and facilities-friendly way of helping data center operators visualize and implement system changes that reduce overall energy consumption. Findings include significant cost savings, as well as a substantial reduction in cooling load and CO2 emissions.  Sensors utilizing a wireless mesh network and data management software to capture and graphically display real time conditions for energy optimization were installed in a demonstration project.

This ZNE Technology Application (TA) Guide provides an overview of luminaire level lighting control (LLLC). The full LLLC approach provides controllability at each fixture with real-time energy tracking and data collection, and it aligns with current trends and interests in space utilization, occupant satisfaction and productivity. This TA guide describes the system, features and benefits, energy performance from both modeled and measured results, application considerations, costs and trends.