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Featured White Papers
Automating Emergency Power Supply System Testing in Hospitals
By Markus Hirshbold and Ginni Stieva
The testing of emergy power supply systems (EPSS) in hospitals plays a critical role to ensure backup power is available when needed. Due ot the shortcomings of manual testing, more hopsitals are switching to automated EPSS test systems. This paper demonstrates how automated EPSS testing increases reliability due to the accurate monitoring and recording of test parameters, provides traceability in case of unanticipated problems with the EPS system or litigation, and helps reduce the staffing burden for such tests.
How Predictive Maintenance for Circuit Breakers Optimizes Safety, Reliability, and Costs
By Markus Hirschbold
Circuit breakers require regular maintenance to ensure electrical safety, comply with safety regulations, and avoid costs facility downtime. Typically, this maintenance is performed at regular intervals, which do not account for usage patterns or evironmental conditions. This paper explores how IoT and analytic technologies enable a condition-based, predictive approach that can increase levels of safety and reliability while tailoring maintenance to optimize costs.
Verifying the Health of Backup or Emergency Power Supply Batteries
By Markus Hirschbold and Chuck Hoeppner
Emergency power systems rely on batteries to deliver power at the right moment, in order to start a generator or to run a UPS in the event of an outage. Neglected batteries are the most common reason for backup power failure. This paper discusses how automated testing systems provide precise functional assessments of battery health, and how such systems prevent unnecessary failures.
Using Color Codes to Simplify Power Quality Analysis
By Vanya Ignatova
Even when power quality monitoring system are in place, sutdies show users often have limited knowledge of power quality and its impact on equipment and installations. Thus, they may not fully understand, analyze and exploit power quality measurements. This paper introduces simple green-yellow-red (G-Y-R) indicators to gauge power quality issues; markers based on recognized power quality standards and statistical analysis, fully integrated in a power quality monitoring system. This paper also introduces a power quality rating that summarizes global power quality level within a facility.
A Framework for Implementing Continuous, Iterative Power Quality Management
By Vanya Ignatova and Chuck Hoeppner
Power quality problems are one of the major causes of unscheduled downtime and equipment malfunction and damage. This paper presents a power quality management framework - based on continuous and iterative monitoring, analysis and corrective actions - that improves power quality performance. The framework can be applied to standalone or integrated energy/power management programs and will result in reduced unexpected downtime, extended equipment lifetime, and imporved operating conditions.