Optimize your commercial HVAC system performance to reducing energy waste through continuous real-time monitoring of components, such as fans, motors, and coils. Through prompt corrective action practices, equipment performance can be improved to reduce energy consumption and costs.
Make run to fail maintenance practices a thing of the past by implementing condition based monitoring of your HVAC equipment. Empower your maintenance personnel to proactively take action prior to a catastrophic equipment failure to avoid costly downtime and repairs.
Improve HVAC equipment uptime using a combination of proactive maintenance strategies, such as predictive maintenance and equipment maintenance schedule optimization helps ensure that all maintenance activities are performed at the most opportune times to minimize downtime.
Utilize failure analysis and classification to quickly diagnose the root cause of HVAC equipment failures to return it back into service faster than ever before.
Optimize your maintenance schedules to reduce costs associated with unnecessary maintenance activities. Exchange parts and consumables based on their actual condition rather than relying on antiquated and costly preventive maintenance practices.
Our smart sensors are not do-it-yourself tool kits or projects. Immediately benefit from our extensive domain knowledge and experience in the commercial HVAC to solve any problem you might be facing.
Building automation systems (BAS) are centralized, intelligent networks of devices and sensors that control and monitor various building systems, including HVAC, lighting, security, and energy management. Data from our smart sensors easily integrate into any building automation system through our native REST API communication interface or a BACnetIP communication gateway.
Data analytics systems are an Internet of Things (IoT) software that collects and analyzes data from various building systems, such as HVAC, lighting, and security, to optimize building performance and efficiency. Data from our smart sensors integrate into any building data analytics software through our native REST API communication interface.
Vibration monitoring of compressors to predict mechanical wear and failure of bearing, motors, and gear boxes. Gearbox oil condition monitoring to detect oil breakdown as well as water and metal contamination. Refrigerant charge monitoring and refrigerant leak detection to optimize efficiency.
Vibration monitoring of chilled water pumps and condenser water pumps to predict wear and failure of motors, bearings, couplings, and impellers. Ultrasonic flow meters provide non-contact, maintenance-free water flow measurement inside pipes.
Vibration monitoring of cooling fans to predict wear, damage, and failure of bearings, motors, and belts. Vibration monitoring of condenser water pumps to predict wear and failure of motors, bearings, couplings, and impellers. Ultrasonic flow meters provide non-contact, maintenance-free water flow measurement inside pipes.
Vibration monitoring of blowers and fans to predict wear, damage, and failure of bearing, motors, belts, and fan blades/cages. Monitoring of air quality and differential pressure across filters. Resistance monitoring of electric strip heaters to detect heating efficiency loss and predict failures. .
Vibration monitoring of primary and secondary water pumps to predict mechanical wear and failure of motors, bearings, couplings, and impellers. Resistance monitoring of electric boiler heating elements to to detect heating efficiency loss and predict failures.
Vibration monitoring of water pumps to predict wear and failure of motors, bearings, couplings, and impellers. Ultrasonic flow meters provide non-contact, maintenance-free water flow measurement inside pipes.
Vibration monitoring of compressors to predict mechanical wear and failure of bearing, motors, and gear boxes. Gearbox oil condition monitoring to detect oil breakdown as well as water and metal contamination. Vibration monitoring of water pumps to predict wear and failure of motors, bearings, couplings, and impellers. Refrigerant charge monitoring and refrigerant leak detection to optimize efficiency.
Vibration monitoring of blowers to predict wear, damage, and failure of bearing, motors, belts, pulleys, and fan blades. Vibration monitoring of water pumps to predict mechanical wear and failure of motors, bearings, couplings, and impellers. Monitoring of air quality and differential pressure across filters. In situ monitoring of air humidity and quality.
Vibration monitoring of compressors to predict mechanical wear and failure of bearing, motors, and gear boxes. Gearbox oil condition monitoring to detect oil breakdown as well as water and metal contamination. Refrigerant charge monitoring and refrigerant leak detection to optimize efficiency.
Vibration monitoring of blowers to predict mechanical wear and failure of motors, bearings, belts, and water pumps to predict mechanical wear and failure. Vibration monitoring of water pumps to predict mechanical wear and failure of motors, bearings, couplings, and impellers.
Vibration monitoring of exhaust fans to predict wear, damage, and failure of bearing, motors, belts, and fan blades/cages.
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