Automate commercial building across your portfolio

Commercial building automation systems reduce costs in several interconnected ways. First, they optimize HVAC equipment to run only when and where it's needed, reducing energy waste. Second, they identify maintenance issues early through continuous monitoring, helping to prevent expensive emergency repairs and extend equipment life. Third, they automate routine tasks that would otherwise require manual intervention, freeing staff to focus on higher-value activities. Finally, they provide detailed analytics that help you identify trends, validate improvements and justify additional efficiency investments.

Open-protocol systems offer more freedom and flexibility than proprietary systems. You can integrate equipment from different manufacturers, helping to protect your existing investments while choosing the best technology for each application. When you need to expand or upgrade, you aren't locked into a single vendor or forced to replace working equipment. As your commercial building infrastructure evolves, open protocols help your system integrate with future technologies, potentially reducing long-term ownership costs.

Siloed building systems often mean siloed data, making it difficult to analyze insights and achieve optimal performance. A connected building allows companies to integrate systems, leverage scalable processing capabilities in the cloud, and gain essential insights across systems. It enables smarter workflows by connecting systems within one ecosystem, allowing contextualized data to flow seamlessly for more informed decision making.

A building management system (BMS), or building controllers, are used to manage building assets like heating, ventilation and air conditioning (HVAC), boilers, chillers, lighting, security, fire and more. These systems automate processes and regulate equipment performance to help deliver precise, consistent and efficient operations. A BMS is often thought of the “brains” of a building – these separate, external systems interpret data from sensors, send commands to equipment, enable functions like motor speed, automate the sequencing of complex tasks and make real-time adjustments to maintain desired conditions. Like the human brain, these small but mighty systems enable complex tasks in a building.

For smoke detection systems to work properly, smoke must travel from the source to a sensor at a detectable density. The traditional approach to smoke detection is to place sensors near, or on, the ceiling, because smoke rises. Advanced smoke detection solutions, or aspirating smoke detectors, continuously sample the air to provide very early warning of impending fire hazards and help detect threats before they escalate. These devices often have a wide sensitivity range to help prevent even a small fire from causing damage. Advanced detection technologies can be placed in strategically targeted locations – often in combination with traditional detectors – to continuously monitor for trace amounts of smoke and identify potential fires at the source.