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Karl Haas Named as ETC Architectural National Sales Manager

Karl Haas named as ETC architectural national sales managerKarl Haas has been appointed architectural national sales manager for ETC. Haas will be responsible for managing ETC’s architectural regional managers and the company’s sales territories of North and South America, India and Australia.

For more information about ETC, visit www.etcconnect.com.

Department of Energy to Host Connected Lighting Systems Workshop November 16, 2015

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There is a lot of buzz today about the Internet of Things and the convergence of intelligent controllable light sources, communication networks, sensors, and data exchange in future lighting systems.

On November 16, 2015, in Portland, OR, DOE’s inaugural Connected Lighting Systems Workshop will gather top experts from the lighting, semiconductor, and IT industries to share perspectives and lay the groundwork for government/industry collaboration.

Attendees will examine:

• Lessons learned from the limited success of traditional approaches to lighting control
• How lighting system configuration complexity can be reduced
• Where and when interoperability is needed
• Why energy reporting matters
• What we can learn from game-changing installations of connected lighting systems

Click here to learn more.

Hubbell’s wiSCAPE External Fixture Module

hubbellHubbell Building Automation’s wiSCAPE™ External Fixture Module lighting control device allows any outdoor light fixture to be managed, monitored and metered.

The External Fixture Module provides ON/OFF control and 0-10V dimming output compatible with all 2-wire dimming drivers and ballasts. A built-in luxmeter allows for daylight harvesting and a low-voltage input is available for motion sensor, switch or photocell control.

Featuring universal voltage input, the External Fixture Module supports 110-480V applications making it ideal for LED luminaires, traditional HID fixtures and induction lighting.

The External Fixture Module drastically simplifies outdoor lighting control. The module connects directly to the luminaire through ANSI 7-pin or 5-pin twist-lock receptacles, making retrofits simple and efficient. No control wiring is required for configuration, making commissioning quick and economical.

As part of a wiSCAPE network, the device is easily managed through wiSCAPE View™, which is an intuitive software platform that can configure, manage, monitor and meter a wiSCAPE lighting control system.

Click here to learn more.

For more information about Hubbell Building Automation, visit www.hubbell-automation.com.

Green Proving Ground Program Studies Advanced Wireless Lighting Controls

A traditional lighting control design deploys manual switches and simple controls such as load scheduling to control large zones of luminaires. Even when occupancy sensors are installed, these devices are typically assigned to large control zones.

Increasingly stringent commercial building energy codes have made control zoning more granular. Emerging control strategies such as daylight harvesting (daylight-responsive lighting) became recognized based on proven effectiveness, resulting in a layering of strategies. Additionally, smaller control zones generally increase responsiveness, flexibility and energy savings. However, individual luminaire control, with a lighting controller installed in each luminaire, increases equipment costs.

The greatest potential to save energy is with advanced lighting control systems that feature three capabilities. First, all applicable control strategies can be layered in a hierarchy of control zones. Second, zoning can be precisely matched to the application, potentially resulting in a mix of larger zones with zones as small as individual luminaires, which increases responsiveness while allowing personal control of overhead general lighting. Third, these systems provide a central mechanism for calibration, sophisticated programming, measuring and monitoring.

Wireless lighting control systems are now available that are designed to simplify installation while potentially reducing material and labor costs associated with control wiring, making highly granular zoning more cost-effective. Radio-frequency (RF) wireless controls originally gained popularity in the residential market. They entered the commercial market after technological improvements and the development of wireless mesh network standards. As such, RF wireless is a relatively young technology in commercial lighting control, albeit one with significant potential.

The General Services Administration (GSA), the agency responsible for Federal real estate management and products and services procurement support, studied deployment of advanced RF wireless control systems in two Federal buildings. The study, conducted by the Lawrence Berkeley National Laboratory (LBNL) for the agency’s Green Proving Ground (GPG) program, sought to quantify the performance of wireless lighting systems.

Two buildings were selected for installation. One is the 16-story Appraisers Federal Building (San Francisco, CA), the other the 8-story Moss Federal Building (Sacramento, CA).

The Appraisers Federal Building consisted mostly of open office spaces with some private offices and other spaces. Occupancy sensors and manual switches were already installed before the study. The GPG study included an LED luminaire retrofit combined with wireless controls, and with one controller per luminaire allowing individual luminaire control.

The Moss Federal Building also consisted mostly of open office spaces with some private offices, corridors and meeting spaces. Each space already had manual switches and/or occupancy sensors, and in some cases, time scheduling systems. The GPG study saw installation of wireless controls with existing fluorescent luminaires in three locations on two floors, with multiple luminaires assigned to luminaire-based controllers.

At both locations, control software was used to assign luminaires to control zones that typically included four to six luminaires. Photosensors were installed in control zones configured within perimeter daylight zones. Wireless occupancy sensors were installed, typically one per control zone. In private offices, an occupancy sensor, dimmer-switch and, if the office had a window, a photosensor were installed. The system was then tied to an Internet server enabling facility operators to program and monitor the lighting using a web-based interface.

The LBNL researchers studied each site before and after the retrofit, which included site visits, energy measuring, photometric study (light levels and color quality) and occupant satisfaction surveys. A month of performance data was collected for luminaires in three control zones, one in Appraisers and two in Moss, so as to estimate average lighting power density and annual energy consumption. This formed the baseline. Various lighting scenarios were then implemented and monitored to identity energy savings resulting from various control scenarios.

Key findings:

• Advanced wireless lighting control resulted in estimated 32.3% lighting energy savings at the Appraisers Federal Building.
• Advanced wireless lighting control resulted in estimated 32.8% average lighting energy savings at the three sites in the Moss Federal Building.

Summary of pre- and post-retrofit average workday lighting power density at the Appraisers building and three sites at the Moss building. Image courtesy of LBNL.

Summary of pre- and post-retrofit average workday lighting power density at the Appraisers building and three sites at the Moss building. Image courtesy of LBNL.

The lowest energy savings (9%) were at one site at Moss, with savings mostly produced by reducing after-hours operation of the lighting. Energy savings were dampened by programming that kept the luminaires at a dimmed (20%) level during periods of no occupancy, as opposed to previously being turned OFF by occupancy sensors. The highest energy savings were at the other two Moss sites, 42 and 47%, which was produced by a combination of after-hours lighting reduction, institutional tuning and daylight dimming.

At Appraisers, the LED luminaire retrofit reduced lighting power density by 55%, from 0.97W/sq.ft. to 0.44W/sq.ft. Total energy savings, including the wireless controls, increased savings to about 69%.

The LBNL researchers were able to disaggregate the performance of various control scenarios. In one Appraisers location, relative to a basic time-based control strategy, occupancy sensors were found to produce 22% energy savings, with an additional 10% for institutional tuning and 7% for daylight harvesting (noting daylight harvesting was implemented on about a third of the luminaires in this group). In all, advanced wireless controls were estimated to save about 39% lighting energy compared to time-scheduling control.
The researchers concluded, “Overall, this study found that implementing advanced wireless control systems can save significant lighting energy.”

They noted that savings are not guaranteed, being dependent on baseline control conditions, such as whether an existing system already has occupancy sensors installed, and baseline site conditions, such as prevalence of daylight.

At Appraisers, the LED lighting system with advanced wireless controls reduced average light levels from about 57 to 37 footcandles, which was found to be satisfactory as it was above the 30 footcandles deemed appropriate for the tasks performed in the space. The occupant satisfaction surveys found occupants perceived the new lighting conditions and control performance favorably, with overall comfort increasing.

At Moss, average light levels remained fairly consistent before and after the upgrade. Occupant satisfaction, however, was slightly reduced after the retrofit in terms of perception of comfort, light levels and control performance. The researchers believe that fluorescent lamp failures resulting from the lamps not being properly seasoned prior to dimming (see NEMA-LSD-23-2010), coupled with commissioning errors and existing wired occupancy sensors applying legacy zoning onto new workstation and controls layouts, may have influenced these results. Use of wireless occupancy sensors could have improved the control performance, as wireless sensors can be relocated easily without rewiring to better align with new workstation layouts.

Estimated project costs for retrofit and new construction scenarios involving advanced wireless lighting controls. Image courtesy of LBNL.

Estimated project costs for retrofit and new construction scenarios involving advanced wireless lighting controls. Image courtesy of LBNL.

In a retrofit situation, the project must carry the entire installed cost of the control system, though if luminaires are replaced, installation labor can be economized. In a new construction scenario, return on investment is based on the incremental cost of the new controls over an energy code-compliant solution. The LBNL researchers concluded, “With paybacks ranging from 3 to 6 years, adding wireless advanced lighting controls to lighting projects is a compelling opportunity in new construction and major renovation.”

Click here to download the LBNL report on advanced wireless lighting controls.

Home Automation and Control Market worth $12.81 Billion by 2020

According to a new market research report by Markets and Markets, Home Automation and Control Market by Lighting Control (Occupancy Sensors, Relays, Transmitters), Security & Access Control (Video Surveillance, Biometric), HVAC Control (Heating & Cooling Coils, Pumps & Fans, Sensors), and Geography – Global Forecast to 2020, the home automation market is expected to grow at a CAGR of 11.36% between 2014 and 2020, and reach $12.81 billion by 2020.

Home automation plays a vital role in automating the home, housework or household activities. It mainly includes automation for centralized control of lighting, HVAC (heating, ventilation and air conditioning), appliances, and other systems, to provide improved convenience, comfort, energy efficiency, and security.

The global home automation and control market was worth $5.77 billion in 2013 and is expected to reach $ 12.81 billion by 2020; the market is projected to grow at an estimated compound annual growth rate (CAGR) of 11.36% between 2014 and 2020.

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Even though the concept of home automation has been in existence for a long time, the market has witnessed a profound growth, mainly, during the last five years. The growing awareness about wireless technologies and the various developments related to the integration of wired and wireless technologies is expected to propel the home automation & control market in future.

North America is expected to retain its position as the largest market. The revival of construction activities, especially with regards to new residential buildings and renovations, is expected to support the growth of the said market, in this region. The increasing preference of consumers for convenience, connectivity, safety & security, and demand for energy efficient and green product solutions are expected to drive the growth of this market. Energy management and HVAC automation systems too are expected to see a similar growth phase, during the forecast period. High investments in building infrastructure and the need to lower power consumption to save energy are further expected to drive the demand for home automation & security systems, especially in Asia-Pacific, Europe, and North America.

Click here to learn more about the report.

GPS-Enabled Lighting to Save Oceanside, California, More than Half a Million Dollars Annually

As part of its commitment to reduce energy consumption, the City of Oceanside recently installed more than 7,700 GE LED roadway fixtures equipped with a GPS-enabled controls system.

Expected to drive energy and maintenance savings of approximately $600,000 annually, the installation of GE LED fixtures with LightGrid™ controls continues to position the city as a leader in connected and energy-saving solutions.

GPS-Enabled Roadway Fixtures

As part of the LightGrid controls system, Oceanside’s Public Works team now has a real-time view of how each of the 7,700 street lights across the city is operating. The solution includes a GPS chip on every fixture via the LightGrid node or photo control, allowing the city to monitor each light through a Web-based interface and immediately respond to maintenance or operational needs.

The controls system also allows the city to activate more precise “on/off” and street-light dimming schedules, particularly in low-traffic areas and during overnight hours, to save the city in energy-related costs.

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“Illuminating our city with GE’s LED street lights with LightGrid gives us control like we’ve never had before,” said Kiel Kroger, Oceanside Public Works division manager. “We’re able to efficiently light roadways in a way that makes sense for how our city operates day to day, all while reducing our energy bills.”

GE’s LED Street Lights with LightGrid™ provide control, energy efficiency and savings for the city of Oceanside, California.

Intelligent City

Energy-efficient lighting is a part of a greater initiative—the Green Oceanside campaign, which was established to educate residents, businesses and visitors and to implement programs for energy efficiency, recycling, water conservation, energy conservation and more.

Funded by a $5 million government grant, the Oceanside Public Works department was driven to complete this lighting project because of its potential to realize large energy and maintenance savings.

Replacing legacy high pressure sodium (HPS) street lights is expected to reduce annual carbon dioxide emissions by 1.7 million pounds, which is equal to removing nearly 150 cars from the road or adding more than 200 acres of forest.

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“The feedback from citizens and city staff has been just as important as the anticipated energy and cost savings,” said Kroger. “Citizens of Oceanside like the fixture style and the light quality produced, while city staff are also pleased by the energy and maintenance savings and expected return on investment.”

In addition, it helps the city promote energy efficiency and inch closer to its goal of leveraging data and operating as a more intelligent city, Kroger said.

Additional upgrades include 900 city park light fixtures, parking lights, pier and decorative lights in the downtown area.

Click here to learn more about LightGrid.

For more information about GE Lighting, visit www.gelighting.com.

The Economics of 0-10V LED Dimming

In an article recently published by LEDs Magazine, Lutron Electronics’ Roland Ledyard explains that while 0-10V dimming is a standard driver feature, every technology decision has a cost. He makes an argument that digitally addressable drivers are often a more economical decision.

Click here to read the article.

For more information about Lutron Electronics Co., visit www.lutron.com.

Acuity Brands Introduces New Commercial Office Solution Sets

acuityAcuity Brands, Inc. has announced the release of its first in a series of Commercial Office Solutions Sets. This integrated lighting and controls solution for Private Office applications combines the Acuity Brands® FS series of recessed LED Luminaires featuring eldoLED® technology, with its award-winning nLight® control technology from Acuity Controls.

The Set is a “one stop shop” for a back-to-front lighting system for a Private Office or similar configuration that includes controls to meet any level of sophistication the job dictates. And because the entire system comes from one manufacturing source, the system will be accurate, complete and aligned with an application’s specific needs – turning complexity into simplicity by providing interoperability of all the key elements.

Click here to learn more.

For more information about Sensor Switch Inc., visit www.sensorswitch.com.

Grand Rapids and Indiana Railroad Pedestrian Bridge Rehabilitation Project Wins IES Lighting Control Innovation Award of Merit

The Lighting Control Innovation Award was created in 2011 as part of the Illuminating Engineering Society’s Illumination Awards program, which recognizes professionalism, ingenuity and originality in lighting design. LCA is proud to sponsor the Lighting Control Innovation Award, which recognizes projects that exemplify the effective application of lighting controls in nonresidential spaces.

This month, we will explore the role that a DMX control solution plays in creating stunning dynamic color effects in a pedestrian bridge. Lighting and control design by Anthony Kuhtz, Lighting Designer with Fishbeck, Thompson, Carr & Huber, and Greg Smith, Lighting Designer with Michigan Lighting Systems. Photography by Cory Morse. Lighting by Insight Lighting, Cree and Nicolaudie.

The challenge in creating a bridge lighting design with controls that you don’t know how the owner is going to use it, is to plan for as much flexibility as possible. A complete training program was included in the project to assure the owner would be properly trained to control the system.

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DMX controls were chosen to allow each red/green/blue (RGB) LED luminaire to be individually controlled.

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The white LED bridge deck safety lighting utilizes 0-10V dimming to allow these fixtures to be dimmed when the color lighting scheme provides sufficient light on the bridge deck and to avoid having the white deck lighting outshine the RGB lighting.

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The lighting control system utilizes a DMX controller located approximately 300’ from the bridge to take advantage of the existing electrical service, control cabinet, and raceways and reduce cost. It is connected to secure wireless access on the bridge.

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Mobile device apps allow the owner to access the controller from the bridge deck wirelessly. The cost of the wireless access was offset in an agreement from the service provider to provide public wireless access, with advertising, on the bridge.

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600V rated low voltage cabling that could be installed in the same conduit with power cabling was designed to reduce and hide conduit on the bridge structure.

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Multiple channel DMX wiring was utilized to simplify future maintenance. The multiple channel approach allows you to isolate problems to a single channel, rather than all of the control wiring for the entire bridge.

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The programming software utilized by the DMX controller allows the owner to change lighting scenes based on a calendar. The controller also has an astronomical timeclock to turn off all lighting during daylight hours. The timeclock allows maximum energy savings with minimal maintenance.

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For more information about Cree, visit www.cree.com/smartcast.

Philips Color Kinetics Launches ActiveSite

philipsPhilips Color Kinetics’ ActiveSite is a cloud-hosted connected lighting system for remotely monitoring, managing, and maintaining architectural LED lighting installations.

The system integrates luminaires, digital lighting controls and lighting management software. Luminaires share data about their status and operations with the software, which allows system users to remotely monitor and manage each luminaire anywhere in the world.

Click here to learn more.

For more information about Philips Lighting Controls, visit www.philipslightingcontrols.com.