8 Popular Misconceptions about LEDs and Controls: Part 1

LED Lighting Application

In the last five years, LEDs and controls have been widely used in a broad range of general lighting applications, from residential to commercial. However, there are a number of persistent misconceptions about LEDs — many based on knowledge of legacy fixtures — that do not apply. In fact, for commercial and industrial applications, high-quality LED fixtures offer unique and compelling characteristics:

•    extremely low energy use
•    long lifespan
     high-quality light
     durability
•    none of the maintenance (re-lamping, re-ballasting) associated with traditional incandescent and fluorescent sources
•    inherent controllability (instant on/off, full-range dimming), creating additional energy savings opportunities

Because LEDs are relatively new compared to legacy lighting types, it’s time to dispel the myths and set the record straight about their performance, value, and applicability.

Myth 1: all LEDs are basically the same

Fact 1: LED fixtures vary dramatically in quality, lifetime, and light output.

Commercial and industrial LED fixtures are not all the same. There is a broad range of fixture quality and variation, which impacts expected fixture lifespan, light output, and the ability to ensure that light is distributed appropriately for the environment and application. In addition, LED chip lifetimes can vary dramatically due to the quality of the LED chip itself, and by the driver and thermal infrastructure built around it. Optics are instrumental in directing the concentrated light output from LED chips to the target area as well.

There is also the question of whether to select plain LED fixtures or fixtures with embedded sensors and controls. Plain LEDs provide one-time energy savings, while intelligent systems offer greater efficiency, flexibility, control, and long-term value.

Best advice: understand your facility’s light level and distribution requirements, and evaluate products that

•    deliver required light levels at the task level
•    meet your organization’s energy efficiency goals
•    offer the optics required for your environment
•    have well-documented certifications that verify the design quality of the fixture

More Information: for resources on evaluating LED fixture quality, please refer to the U.S. Department of Energy’s Solid State Lighting website www.energy.gov/eere/ssl/, along with the DesignLights Consortium at www.designlights.org/content/about.

Myth 2:LEDs are too expensive

Fact 2: LEDs are more expensive up front, but intelligent LEDs are substantially more cost-effective for most commercial and industrial applications.

Lighting projects are like icebergs: initial cost is what people see. Upfront cost is only the tip, and invisible costs, such as years of electricity, plus demand charges and maintenance costs, can be catastrophic. When considering LEDs, the choice is typically between plain LED fixtures and intelligent LED systems. Initially, both are more expensive than HIF alternatives and eliminate maintenance and re-lamping costs. However, plain LEDs offer only one-time wattage savings of 40-50% and no opportunity for additional savings from controls. In contrast, intelligent LEDs save more than 90% on lighting energy use over alternatives by combining aggressive controls with the added benefits of flexibility, analysis, and insight.

In financial terms, systems with lower up-front costs typically have a much higher lifetime total cost of ownership (TCO) than intelligent systems. And, LEDs have no ongoing maintenance requirements (re-lamping or re-ballasting) so there is no looming iceberg.

Control 8 Myths

Even adding a sensor to a plain LED fixture leaves savings on the table. In addition to greater efficiency, intelligent LED lighting systems offer additional benefits to the operation and enterprise that range far beyond energy savings.

Myth 3: LEDs are so efficient that controls are unnecessary

Fact 3: controls are the key to driving down energy use and achieving rapid payback periods.

Switching to LEDs creates a one-time savings event, typically reducing lighting energy use by up to 50%. Integrated sensing and controls can nearly double those energy savings, making controls essential for maximum savings and project economics.

In systems with fully integrated controls, light is delivered precisely where and when needed, with no wasted lumen output. Why? Sensors embedded in every fixture assess the environment and turn on to specified light levels when people are present. If there is daylight, sensors register available light and provide only the artificial light necessary to ensure the target light levels are met in the facility. And, all settings can be adjusted and fine-tuned to maximize efficiency on a continuous basis.

With plain LEDs, any controls are typically after-market integrations, and do not offer the fine-grained ability to manage all control variables for maximum efficiency. In addition, fully managed systems — with a software back-end — have the ability to integrate with other systems of record in the enterprise to share data, creating opportunities for additional enterprise value. Software-controlled lighting systems give facility managers the chance to future-proof their investments and take advantage of advanced energy services like demand response.

Myth 4: Dimming LEDs doesn’t work well and shortens fixture lifetime

Fact 4: well-designed LEDs dim smoothly without negatively affecting lifetime.

Unlike legacy lighting types, dimming LED fixtures does not negatively affect their lifetime or increase maintenance requirements. Well-designed LED fixtures offer:

•    digital dimming that smoothly varies the amount of light reaching a particular surface. Output levels can be varied by shift and zone, assuming that fixtures have integrated controls. As one of the most effective energy-efficiency strategies, dimming needs to be implemented on every fixture for maximum impact.

•    dim ramping, which enables the gradual and graceful increase or decrease in light output across groups of fixtures. This approach eliminates complaints about abrupt on/off control action, allowing operators to use aggressive control settings while maximizing occupant comfort.

More Information:the TM-21 standard published by IENSA is a neutral, scientifically based document that allows fixture manufacturers to accurately project the aging of LED chips within a given fixture. “Time at temperature” is the factor that drives lumen depreciation, so a well-designed fixture that (a) carefully manages its thermal loads, and (b) spends the most possible time at the lowest possible power can easily retain 70% of its initial output for well over a decade.
Watch for the remaining four misconceptions in the November 17 issue of EIN.

This article was first published online as a Digital Lumens white paper: http://digitallumens.com/resources/white-papers/.

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