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Networked Lighting Controls for Non-residential Buildings
Gary Meshberg, LEED AP, LC, CLCP
OSRAM
May 21, 2020
2
Ameren Illinois Energy Efficiency Programs
COVID-19 Support
• Financial assistance for Ameren Illinois customers
• Service disconnections suspended and forgiveness of late fees for non-payment until
further notice
• Customers needing assistance with paying their bill should contact the customer care team
at AmerenIllinois.com for payment options
• Resources for small business support
• Resources on appropriate PPE
• Links to information to support your business
• Links to webinars with information on COVID-19
AmerenIllinoisSavings.com/COVID-19
3
• Intelligent group of individually addressable luminaires, sensors and switches
• Luminaires and other devices talk to each other over the network
• Allows for multiple control strategies
• Programmable based on owner’s needs/wants
What is a Networked Lighting Control System?
Features & Benefits
5
Popular Features
• Networking of luminaires and devices
• Central server
• Luminaire and device addressability
• Sensors – occupancy, photocell, others
• Zoning via software
• Continuous dimming
Image courtesy of OSRAM Encelium
6
Additional Features
• Plug-load control
• Color changing / tuning
• Device monitoring / remote diagnostics
• Energy monitoring / recording
• Interface with other systems
Image courtesy of OSRAM Encelium
7
Control Strategies
SMART TIME SCHEDULING
DAYLIGHT HARVESTING
TASK TUNING
OCCUPANCY CONTROL
PERSONAL CONTROL
VARIABLE LOAD SHEDDING
COMBINED ENERGY SAVINGS =
PLUG LOAD MANAGEMENT
up to 75%
Dimmin
g
Dimmin
g
Dimmin
g
Dimmin
g
10-50%
38%
10%
38%
35%
28%
17%
Image courtesy of OSRAM Encelium
8
Energy Savings
2017 DLC Study:
90%
50%
0%
47% average across buildings
Building with most savings
Building with least savings% S
avin
gs
114 Buildings
Image courtesy of DesignLights Consortium
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• Maximum energy savings
• Occupant comfort
• Potential for global control
• Measuring and monitoring
Benefits
10
• Asset tracking
• Space utilization
• Indoor positioning
• Conference room scheduling
• Security
• Integration with BMS/HVAC
Image courtesy of OSRAM Encelium
Non-Energy Benefits
11
DLC Qualified Products List
https://www.designlights.org/lighting-controls/download-the-qpl/
Image courtesy of DesignLights Consortium
System Types
13
• Centralized controllers switch and dim limited groups of luminaires
• Typically handle one branch circuit worth of load
• Zones are based on physical wiring
• These products do not meet the DLC specifications for inclusion in the Qualified Products List
Room-Based
14
1 Control station
2 Light sensor
3 Vacancy sensor
4 – 6 Controller
7 Power supply
Image courtesy of ETC
Room-Based Example
15
• Luminaires have on-board controllers for individual addressability
• As a result, these systems can generally handle an unlimited amount of load
• Zones are created in the software and are not based on physical wiring
• These systems do meet DLC specifications for the Qualified Products List
Building/Enterprise
16
Image courtesy of OSRAM Encelium
Building/Enterprise
17
Room vs. Building/Enterprise Systems
Room-Based:
• Centralized load controllers
• Zoning based on physical wiring
• Limited lighting load capacity
• May not use all control strategies
• Relatively low-cost and easy to specify and
install
Building/Enterprise:
• Luminaire-integrated load controllers
• Zoning created in software
• Virtually unlimited lighting load capacity
• Typically uses all control strategies
• Relatively higher-cost and may be more complex to
specify and install
Elements of a Control System
18
19
• Contains relay for switching luminaire ON and OFF
• Contains circuitry for sending a dimming signal to the luminaire
Image courtesy of OSRAM Encelium
Luminaire Controller
20
• Occupancy / vacancy sensors
• Photosensors for daylight harvesting
• Some sensors combine different functions
(i.e., occupancy and photosensing)
Image courtesy of OSRAM Encelium
Sensors
21
• “Area” switches (for zone ON/OFF)
• Scene selectors
• Other override devices
Images courtesy of OSRAM Encelium
Switches
22
Distributes network connections from a central server to end nodes (luminaires, sensors, switches)
Image courtesy of GDSTA
Gateway
23
• Stores programming, schedules, behavior, control profiles, zoning information and energy use data
• Manages operation of the system including notifications when problems arise
Image courtesy of Enlighted
Server
24
• Create zones/assign equipment to zones
• Create schedules
• Program variables/options for component behavior
• Manage the system
• Display and record energy use
• Check for faults/problems
Images courtesy of OSRAM Encelium
Software
Specification
26
• Wired Communication: data travels along wires as digital information
• Wireless Communication: data travels through the air as digital information
• Hybrid System: wired/wireless combination
Image courtesy of Daintree
Wired vs. Wireless
27
All devices communicate directly with gateway
May reduce network traffic and increase communication speed
Self-healing mesh network
All devices can talk to each other and to gateways
If a device fails the signal finds an alternate path to the
gateway
Determines how devices talk to each other
Different topologies present unique pros and cons
Some topologies are more common in wired vs.
wireless systems
Luminaires, sensors and switches are connected to gateways or
directly to the server via low-voltage cables
Essentially functions as a wired local area network (LAN)
Image courtesy of Eaton
Topology
28
• Set of rules that define how devices communicate
• Devices designed to same protocol(s) are interoperable
• May be open standard, de facto open standard, or proprietary
Server ⟷ gateways: often uses propriety protocol
Gateways ⟷ components (wireless): often ZigBee or Bluetooth
Gateways ⟷ components (wired): often proprietary, sometimes DALI
Luminaire controllers ⟷ LED drivers: typically 0-10V, sometimes DALI
Protocols
29
• Provisions in building/enterprise-based systems
• Third-party current transducers attached to branch circuits
• Embedded in luminaire-integrated controllers
Measuring Energy Use
30
• Building/enterprise-based systems typically monitor the health of the system
• Continuous check of status of connected devices
• Automatic notification to designated staff about problems that arise
Images courtesy of OSRAM Encelium
Monitoring
31
• Device not reporting
• Luminaire fault detected
• Communications failure
Image courtesy of Steve Mesh
Occupancy change
Photosensor event
Upcoming DR event
Monitoring
32
Common network security methods:
128-bit AES encryption
User names/passwords for authorized operators/users
• UL 2900 certification addresses potential vulnerability
• Connecting a lighting control system’s devices via an existing IT network may cause additional risk of hacking
Security
33
• Building Management System (BMS)
• Automated Demand Response Server (ADR)
• Heating, Ventilation & Air Conditioning (HVAC)
• Security/Life Safety
Integration with Other Systems
34
• Lighting devices used for light, control, and as
sources of lighting and other data
• Remote or luminaire-integrated sensors
• May pass along data to third-party software or other
building systems
• Internet-Ready Alliance Standard: defines physical,
electrical, and communication interface between
luminaires, sensors, systems
• Data, data, data
The Information of Things
Internet of Things (IoT)
35
• Owner Project Requirements
• Basis of Design
• Lighting Controls Narrative
• Evaluate potential vendors
• Select and procure desired system
Deployment Steps
36
• Install system
• Installation verification and functional testing
• Commissioning
• Documentation turnover
• End-user training
Image courtesy of OSRAM Encelium
Deployment Steps
37
• Discovery: finding components
• Zoning: creating distinct groups of luminaires
• Assignment: placing components in zones
• Programming: creating schedules, control profiles, etc.
Startup
38
• Depending on space type
• Open vs. Private office
• Individual luminaire vs. group control
• No. of control stations
• Programming / services
• Stand Alone - analog
• $0.25 – $0.90
• Min. savings / LC Strategies
• Room based system
• $0.40 - $1.25
• Moderate savings / more LC Strategies
• Networked Building Wide
• $1.00 - $1.50
• Maximum savings / LC Strategies
System Types: Typical $ / Ft2
Resources
39
40
• Education Express series of courses on various topics, including networked lighting control and
wireless control
• New products and industry news
• Networked lighting control system generic troubleshooting guide
• www.lightingcontrolsassociation.org
Lighting Controls Association
41
• Qualified Products List (QPL)
• Energy-savings study
• Training
• www.DesignLights.org
DesignLights Consortium
42
• Networked lighting control systems link all components related to a lighting system –
luminaires, sensors, switches, etc.
• Systems are zoned, programmed and operated using software
• There are many potential benefits to using a networked lighting control system including
energy savings, but also significant non-energy benefits
Conclusions
43
QUESTIONS?
44
Thank you for attending!
Gary Meshberg, LEED AP, LC, CLCP
Director of Industry and Market Engagement
gmeshberg@osram.com
1.214.476.5895
Ameren Illinois Energy
Efficiency Resources
46
• Objective: Strategically allocate cash/technical
resources, reward real efficiency
• Underlying Concept – Everybody Wins
• Offset increase in energy demand due to growth
• Costs ratepayers less than new generation (NRDC,
+$7 Billiion net savings)
• Funded by, and for, customers, since 2008
• EDR/GDR Rider on your bill
• Common pool of funds reallocated
Energy Efficiency Program
47
• Local Energy Advisors
• Free site walk-throughs/consultations
• Consult on projects/application process
• AmerenIllinoisSavings.com
• Program Industrial Energy Manager
Joe Birschbach
Joseph.birschbach@leidos.com
1.636.215.5096
Program Resources
48
• Cash incentives available for your facility!
• Application Process, three types:
1. Standard
2. Custom
3. Study (to originate custom applications)
• Typically paid upon project completion, based on kwh/therm saved
• Pre-Approvals (before PO cut)
• No – if <$10,000 incentive
• Yes – if >$10,000 incentive, or any Custom/Study applications
• …also, LIRF – if >$50,000 incentive
Incentives
49
New Construction Lighting
• Incorporates all fixtures/controls strategies (14¢-18¢/kwh saved annually)
• Considers lighting power density, operational hours and $150,000 cap
Standard
• Instant Incentives – up to 80% reduced cost through online store or participating distributors, generally low
wattage/easy install (i.e. generally screw in, pin or recessed LED bulbs)
• Standard App’s, generally:
• Int./Ext. LED (20¢-40¢/watt redux)
• fixture removal (15¢/watt eliminated)
• Occupancy sensors/daylight harvesting (new, hard-wired, replacing manual, <800W controlled, $20-
$50/control)
Custom (anything non-standard)
• Typically non-DLC or >800W controls or integrated systems, resulting annual savings, 6 mo. – 10 year simple
payback, max. 80% project cost
• $0.12/kwh saved, no max., 1-2 weeks pre/post metering typical
Lighting System Incentives
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• Feasibility Study (to support Custom project development)
– Up to 75% third party costs ($20,000 max.) for technical analysis/modeling, performance
component
• Metering & Monitoring Study (to support Custom project development)
– Up to $30,000 for equipment/install costs, performance component
Lighting System Incentives
Protocols – examples
DALI
PWM
MIDI
RS232
RS485
EnOcean
DMX512
Konnex
LonWorks
Modbus
RDM
SMPTE
TCP/IP
XML
Zigbee
Z-Wave
52
Image courtesy of Illuminating Engineering Society
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