Case study: Lighting Ballast Evaluation | Fluke
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Case study: Lighting Ballast Evaluation

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Download PDF: Case Study: Lighting Ballast Evaluation

Measuring tools: Fluke 43B Power Quality Analyzer
Operator: Plant engineer or plant energy manager
Features used: Voltage, kW, PF, DPF, THD

Problem Description

In most facilities, lighting is a major element of operating cost. Part of that cost is due to energy, and part is due to maintenance. The maintenance costs can be significant. Light fixtures require periodic maintenance - for example, lamps burn out, ballasts fail and lenses need cleaning. The amount of maintenance required varies with the age and design of the lighting fixtures. The logistics of that maintenance (e.g., needing a personnel lift for high ceiling areas) can magnify "typical" cost estimates by an order of magnitude. It is sometimes cost-effective to replace an entire system with a more efficient one. In the case described here, the owner decided to replace the entire system.

While reducing the maintenance costs was the driving force in obtaining a replacement system, reducing energy costs was the driving force in selecting a replacement system. Determining the actual reduction in energy consumption required significant research. The research was difficult, because there was no common platform for comparing the widely varying performance claims from competing suppliers. Sometimes, critical specs were missing altogether.

The plant engineer decided to compare various units side-by-side, in the field. He began by asking each supplier to submit a sample for evaluation. Next, he worked on determining what to measure and how to make the measurements. The final measurement criteria included measurements of power consumption, power factor, displacement power factor and harmonic spectrum. Power consumption and displacement power factor would translate directly to operating cost. Harmonic distortion was of interest, because the plant engineer knew that high levels of harmonic current could cause problems for transformers, circuit breakers and other parts of the electrical distribution system.

To make these measurements easy, the plant engineer chose the Fluke 43B. The electrical team made measurements using a setup similar to Fig. 1. This is an experiment that you can easily duplicate on your workbench.

They recorded data in the matrix table shown here. From the table, you can see they were able to make comparisons of all the key electrical factors on a level playing field. This allowed them to select the most cost-effective approach.

It's worth noting that each manufacturer bases its performance claims on a specified set of operating conditions - these conditions may be ideal or they may be "typical." But, the conditions vary between manufacturers and the conditions differ from actual applications. Therefore, those claims, while made in good faith, can be a poor basis for a final product decision. When trying to make economic decisions on lighting or other electrical applications, measuring actual performance under actual conditions - with the right test equipment - is a sure way to arrive at the best decision.

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