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Innovations in LED Lighting and Sensor Technology gy
Rodney Casteel RCDD, NTS, OSPCommScope – Technical Manager
Chair TIA Fiber Optics Tech Consortium
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This presentation is protected by US and International i h l R d i di ib i di l d fcopyright laws. Reproduction, distribution, display, and use of
the presentation without written permission of the speaker is prohibited.
© Redwood Systems 2013
Learning Objectivesg j1. Understand current status of LEDs and their benefits2 Learn how low voltage lighting controls work in conjunction2. Learn how low voltage lighting controls work in conjunction
with LEDs3. Quantify energy savings opportunities with low voltage
lighting4. Identify additional value that low voltage lighting systems
bring to the enterprise with building intelligencebring to the enterprise with building intelligence
Overview
• Traditional vs. New Controls Technology
• A Look at LEDs and Controls Market Status
A i t d ti t L V lt Li hti• An introduction to Low Voltage Lighting
• What can you do with a sensor network
• DC Powered Lighting and Its Potential for Smart Controls and Building Intelligence
• Key Forces Driving Demand for this New Approach
Challenges with Commercial Lighting
Commercial Lighting Accounts for 35% or more of Accounts for 35% or more of
all electricity usage; with heating and cooling 50% is wasted ($25 Billion/yr.)
Existing solutions are either Too rudimentary Too expensive, complex
Li it d b AC li lt Limited by AC line voltage infrastructure
Productivity impacted by “one size fits all” lightingg g
Isn’t there a better way?
Source: 2005 Building Energy Data Book
Traditional Lighting and Controls Wiring
• Require significant design and installation time
• Zone control• Measurement difficult• Minimal intelligence• Not easily expanded• Not easily expanded,
upgraded or re-provisioned
Lighting Reinvented: A Single Platform
One system for power, control and measurement
Category CableAdapter
measurement Low cost
installation and set upset up
High-density sensor network collects data and
Engine
provides fine grain control
Easy to re-Scene Control
provision Most efficient
lighting platform h
Wall Switch
anywhere
Traditional vs. New Lighting Controls Technology
Low Voltage, Networked LightingTraditional Lighting Controls
OLD Technology NEW Technology
The Rise of LEDs
• Very long life (50,000 hrs)y g ( , )
• Lower maintenance costs
S ll h t f t i t• Small heat footprint
• Cost dropping dramatically
• Super efficient – digital light source that is uniquely dimmable and controllabledimmable and controllable
**Source: Philips Lighting
LEDs Surpass Fluorescents in Efficacy
I d t Lighting Efficiencies
Mercury Vapor
Halogen
Incandescent Lighting Efficiencies
Fluorescent
Compact Fluorescent
High Pressure
Metal Halide
0 25 50 75 100 125 150 175 200
Low Pressure Sodium
LED
0 25 50 75 100 125 150 175 200
Lumens Per Watt
LEDs Dim More Effectively than Fluorescents
LED Light Quality Closer to Natural Sunlight
• Full Spectrum - Closer to natural sunlight• High Color Rendering Index (CRI) >85 @ 4000K
Source: Lunera Lighting
LEDs Enable New Approach to Power and Control
Fluorescent LED
• Low voltage device• High voltage device Low voltage device
• Low voltage infrastructure
• Remote power conversion
g o tage de ce
• High voltage infrastructure
• Requires local ballast
• Full duplex communications
• Fine-grain sensing
• Unreliable and insecure communications
• Zone level sensing• Zone-level sensing
A Single Cost-Effective Platform to Power, Control and Measure Lighting
Redwood Systems – Solution Overview
New One-Channel Adapter
New Engine
Lighting Engine Overview
Data
Processes two-way
Power
48 combined power and communication
Ethernet for connectivity
Configurations stored in
data channels
Programmable channels: • ~34W
18 53 VDC
Mechanical
1.5U Rack Height
non-volatile memory
Compliance
US, Canada, EU,
• 18 - 53 VDC• 199 - 700mA
2200W AC in; >81% effic.
Universal voltage range 2.5”H x 17.4”W x 21.9”D
23lb / 10.5kg
Operating temp: 0 50°C
Singapore, Hong Kong, Australia
Class II equivalent
UL 60950
Universal voltage range, 108VAC – 305VAC
Power Factor: 0.95
C t t t Operating temp: 0 - 50 C
LED status indicators for every channel
IDF / i i l t
UL 60950
Title 24-2008
RoHS
Constant current
Drive up to 300ft cables
Smooth dim from 5 -100% IDF / wiring closet
installation (NOT plenum) Power Dissipation: 420W (1433 BTU/hr)
Integrated One-Channel Sensor
Sensor Platform
Passive Infrared sensor
Mechanical
“Almost invisible”: ~1.5”Passive Infrared sensor for occupancy
Light level sensor for daylighting, calibration
Almost invisible : 1.5 diameter flat disc
No Tools Required
1 25” Diameter x 3” Tall Current-voltage sensors
Ambient temperature
LED temperature (for
1.25 Diameter x 3 Tall
Compliance
US, Canada, EU, Singapore, Hong Kong, LED temperature (for
some luminaires)
Electrical
Supports one channel
Singapore, Hong Kong, Australia
Class II equivalent
UL 60950Integrated Supports one channel
@ 34W / 700mA
LED Indicator light
L ti
Title 24-2008
RoHS
Integrated
Combined Gateway and Sensor in one unit
Compatible with both 2G Low power consumption
(~100mW)
Compatible with both 2G and 3G Engines
Integrated One-Channel Sensor
RJ45 Connector to Engine
RJ45 Connector to Redwood Compatible Luminaries
Adapter Features: 1 34W Power to Fixture1. 34W Power to Fixture2. Engine Communications 3. PIR Motion4. Ambient Temperature5. Light level / Brightness
Opportunities for Smart Controls & Building Performance
MINIMIZED OPTIMIZED ENHANCEDOPERATIONAL
COSTS
Energy Efficiency
FACILITYRESOURCES
Space
PEOPLEPRODUCTIVITY
ComfortEnergy Efficiency
Maintenance
Other Building
SpaceUtilization
Traffic patterns
Comfort
Control
Ability to dogServices Re-Provisioning
yBest Work
dCase Studies
Fortune Global 500 Using Low Voltage Lighting
90.0
Customer Energy Savings • ~75% energy savings overall
70.0
80.0Before LV lighting
savings overall
• Most energy saved during peak
40 0
50.0
60.0
kWH
With LV lighting
saved during peak building usage
• More aggressive
20.0
30.0
40.0o e agg ess e
timeout policies, follow me lighting, 85% light levels
0.0
10.0
Fri Sat Sun Mon Tue Wed Thu Fri Sat Sun Mon Tue Wed
Energy Savings – Occupancy Based
Insight: shorter after-hour timeoutstimeouts
HVAC Based on Occupancy
• Moved HVAC from schedule /set point policy to occupancy based
• Enabled Fortune Global 500 company to turn off AC for 25% of time facility is normally conditioned
Energy Savings Case Study
Office and Data Center Case Studies
75% Savings 91% Savings
Fortune Global 500
75% Savings 91% Savings
R d ti i k
LEDs w/o controlsLEDs w/o controls
Reduction in peak power
Energy Savings - Daylight Harvesting
What can lighting do in a data center h i l lwhen you put it on a low voltage
network?
Reduce lighting and HVAC load with fine-grain LED control; improve PUE up to 25%; contribute LEED points
1
Know precise location where and h l i th hwhen people are moving through
the data center
!HHH
LLL
!!
One system monitors potential disruptions based on temperature, i fl h idi i lair flow, humidity, particulates
Integration with access controlIntegration with access control unlocks relevant server cabinets and turns on overhead lights
Flash lights over open doors to prevent temperature change and security breach
Setup manage and control lighting fromSetup, manage and control lighting from anywhere via network
The Power of Low-Voltage Lighting
ANSI/TIA-942 and Energy Efficient Low Voltage Lighting in Data Centersg g
TIA is leading the charge in developing cabling standards to improve
ffi i i d tenergy efficiency in data centers and adopted content that includescontent that includes energy efficient lighting in its next revision to this Standard (942-A).
Using Building Intelligence
• Sensors located at every fixture
• Information aggregated at Redwood Engine
O API f i t ti i t t li ti• Open API for integration into custom applications
Conference Room Optimization
• Integrate real-time occupancy information with your calendar system to reduce employee frustrationsystem to reduce employee frustration
• Integrated into common calendar systems employees already know
Low Voltage Applications
Data Centers Retail
• Dimming with 65,000 smooth increments of light levels
• Create dynamic and catered light spaces with f ll h d l d li ht f ll t l
• Reducing non-server energy usage
• Protect uptime from environmental threats
• Match light levels to exact full schedule and per light full range control
• Use full and comprehensive sensor knowledge to optimize space utilization, where and how long people are staying and
Match light levels to exact space/time/technician needs
• Full remote Internet management to the fixture level with networking/web g p p y g
moving through spacesstandards support
Low Voltage Applications
Commercial Buildings &
Schools & ClassroomsBuildings &
OfficesClassrooms
• Build and design rich learning environments with highly customized lighting policies
• Flexible Scheduling - On/off time by fixture, room, floor, building, time of day, automatic DST adjustment
• Reduces energy and maintenance operating expenses
• Accelerates LEED projects & meets all
• Advanced Occupancy Sensing – many sensors enables follow-me lighting policies, partial room dimming, advanced daylight harvesting and
Title 24 standard requirements
• Life safety support via sensor grid that measures “presence” during
advanced daylight harvesting, and conference room utilization, security alerts
• Demand response – save money andemergency
Demand response save money and energy with priority based lighting policies
Key Challenges Facing Facility Professionals
Source: Today’s Facility Manager 12/11y y g
How Efficiently is Space Utilized?
• Real estate is the #2 cost, second only to payroll
• Some experts are concluding that “50% of all workspace currently goes unused”
P idi k t b t $8 000 $14 000• Providing a workspace costs between $8,000 - $14,000 per year (Gartner Group)
• Eliminating 100 workspaces saves $1 million annually
• As more workers become more mobile, reducing real estate costs is a real possibility
h i d d d h ili d• But……there is not good data today on how spaces are utilized—until Redwood
Space Utilization Solution
Energy Efficiency in Building Codes Gaining Momentumg
• ASHRAE code’ l ireq’s accelerating
• Defines minimum fenergy performance
for building envelope, HVAC, power distribution, lighting, andwater heating
• Requiring measurement and verification
Potential LEED Points
Traditional lighting controls are limited to contributing
i t h
Lighting on a DC Grid can help address all
points here
pthese areas
Key Takeaways
• Traditional lighting controls are not equipped to take full advantage of LEDsg
• As the market continues to adopt LED technology it’s time to look into new technologies developed specifically for LEDs
• Today’s environment provides the Perfect Storm for intelligent• Today s environment provides the Perfect Storm for intelligent building systems and smarter lighting due to:– Rising costs of energy and new energy codes– Corporate “green” and LEED building initiatives– Need for facility professionals to do more with less
• Low voltage lighting systems provide all the control and more relative to traditional systems, but also provide building intelligence tools that create additional value for building ownersowners
Final Remarks and Questions
“There’s a way to do it be er − find it”do it be er find it
—Thomas Edison
Final Remarks and Questions
Insanity:“Doing the same thing overDoing the same thing over
and over again and expecting different results”
—Albert EinsteinAlbert Einstein
Thank YouThank YouQUESTIONS ?QUESTIONS ?
