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EkoLum is a remote control system for Street Lighting installations that provides an efficient diagnosis of the current state of each luminaire. Based on a point-to-point control architecture, the system reports in real time the alarms coming from the luminaires and allows the remote switching on/off and the dimming of the lamps.
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Section 1 Building the Business Case
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Street Lights Market Size
POPULATION (MILLIONS) EST. # OF STREETLIGHTS
Europe 728 73
North America 400 40
South & Latin America 450 23
Japan 130 13
South Korea 50 5
TOTAL 1,758 154
(Rest of the world) (4,400) (Unknown)
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Issues with Traditional Outdoor Lights
� Energy cost- Outdoor light energy costs makes up to 50% of municipal
budget
� Maintenance cost and limitations -Expensive manual failure check
- Many hours between lamp failure and replacement �
Dark areas and broken lights lower safety and security �
Light pollution - Energy wasted illuminating the sky -Ecological damage to birds and insects
� Limited use of illumination for city centers beautification
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Intelligent Outdoor Lighting - System Requirements
� Energy efficient
� Environmentally friendly �
Networked system
- Allows two-way communication to each luminaire
- Control of individual luminaires
� Low installation costs
� Low maintenance & operations costs �
Supplier independent
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Wish list for Dynamic Outdoor Lighting
� Individual luminaire on/off
� Individual step-less dimming �Bulb status and burn hours
� Automatic fault detection and notification �
Astronomical-clock driven schedules � Energy
consumption per luminaire (calculated) � Energy
consumption per segment (measured) � Ambient light
sensors for light level optimisation � Traffic density
measurement
� Weather sensors
� Centralised installation, maintenance and control
� Seamless integration with existing IT systems (billing, GIS, maintenance, etc.) �Open and interoperable communication protocols
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Convergence of Environmental and Bottom Line factors
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The Important Players in the Market
� Municipalities, city counsels and road authorities.
� Lighting companies that manufacture luminaires, ballasts and intelligent controllers
� The system integrators packaging the solution and selling it to the municipalities
� Service companies running outdoor lighting on behalf of the end-user
� Consultants that revolve around the governments
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Benefits of a Networked, Infrastructure Approach
� Environmental
- Dramatic reductions in energy use -Reduced CO2 emissions
- Reduced light pollution -City Beautification
� Cost & quality of maintenance -Individual luminaire monitoring -Outage detection
- Early failure monitoring � Liability, security and
safety - Real-time status reporting and
monitoring - Historical performance data
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Benefits of a Networked, Infrastructure Approach
� Not limited to single luminaire choice
- Compatible with future lamp technology -Phased approach as existing
technology rides the cost curve - HPS,
LED, induction, metal halide � Single,
multi-purpose city network - Easily add
future sensing devices � Traffic, environmental, others…
- Independent of wide-area network choices -Implement new services without changing the infrastructure
� Electric vehicle smart chargers
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Positioning
� Municipalities and Road Authorities -Immense savings in energy consumption -Lowest maintenance cost possible -Increased safety and security
- Make outdoor lighting environmentally friendly -Wide choice of interoperable solution providers and components, based on ISO 14908 and SOAP/XML
communication standard
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Positioning
� Public Lighting Service Providers -Lower maintenance cost
- Increased service level -Increased customer control
- Generate new revenue by providing additional e-street related services
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Positioning
� Luminaires manufacturers
- They (re)gain control of their customers by offering a total solution
- Shortest time to market
- Best way to play in a fast growing new market -System based on a reliable ISO standard technology
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Main Elements of a Streetlight Network
� Extremely reliable power line light controller
- Use existing city electricity wires for power and communications: no new wires needed -Standards-based signaling - Many suppliers on the market
� e-controls (SCS) , Aditel, Romlight, SELC, Intron, Philips, etc.
� EkoLum Segment Gateway ® segment controller -Standards-based advanced bridge to IP networks -Power line network, meter interface,
connection to future equipment - Powerful segment controller
� Installation and management central software -Automatic installation
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- Information flow management -Maintenance management
Distribution of Costs
Typical Retrofit Installation
Electronic Ballast Lamp Controller Field Installation PL Technology
29% 23%
11%
34%
3%
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Distribution of Costs
New Installation
Field Installation Pole Luminaire Intelligent ballast PL Technology
25%
19%
6% 50%
0%
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Typical Saving Calculations - Retrofit
� Hardware cost: $400 per pole (ballast, fixture etc)
� EkoLumSegment Gateway ®:
$5 per pole (assuming 100 poles/segment)
� HMI software: $2 per pole (assuming 100 poles/segment)
� Installation costs: $50 (depends upon location)
� Cost per point: $457
� Total cost: $45,700,000 (assuming 100k lights)
� Energy Saving $3,000,000 (assuming 60% reduction)*
� Maintenance Saving $3,000,000
*(68 million kWh/yr used by 100k lights @ $0,07/kWh)
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Typical ROI
� Return on Investment = 7 years �
Energy savings breakdown - Control: ~40%
– Modern optics: ~20% - Modern lamps: ~10%
� Other benefits not included: - Reduction in Carbon foot print: 25,000 metric ton
CO2/year
- Safety and Security on city streets - City beautification
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Financing models
� Self-financed
- City pays for the system and receives direct benefits
� Bank loan - Bank finances the system for the city and recover the
investment with interests
� Service provider-financed - Service provider pays for the system - City keeps paying the SP what was paying before
(energy and maintenance) - SP recovers the investment from savings in energy and
maintenance
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Section 2
System ArchitectureOverview
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4-Layer Solution
BillingSystem Notification
ServiceSystemDatabases
Energy 4 GISManagement
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2 … …
… …
1 Segment n Segment n+1
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Luminaires andPL Controller
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In the Street…Intelligent Ballasts
� Dimming
- Configurable % increments �
Automatic failure identification �
Data collection
� Lamp burning hours
� Voltage, Current, Ballast Temperature, etc. �
Consumed energy (calculated)
� Standard Protocol for Communication -Utilizes ISO 14908-2 global standard - Bi-directional real-time communication
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Most Common Types of Lamp
� Mercury Vapor - Very common- Being replaced because of poor energy
efficiency
� HPS and MH - Second most efficient and are - Currently being used to replace MV lamps -Standard for traditional new installations and replacements - Poor CRI
� LPS - Most efficient- Very poor color rendering
� LED - Great CRI - Higher life span -Decreasing costs -Improving efficiency -Improving lenses/optics - More favourable power reduction normative
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Lamp Replacement Strategy
� Typically mercury vapor lamps are used for street lighting and other outdoor lighting (car parks, etc)
� Lamps are bring replaced with energy efficient lamp High Intensity Discharge (HID) as follows: - For Street Lighting
� High Pressure Sodium - 200 to 400 W (Orange-White color Light)
- For Warehouses, Outdoor & Parking Lots � Metal Halides - 100 to 250 W (Natural White color Light)
- Some cities (e.g. San Jose, CA) use � For Street Lights
- Low Pressure Sodium - 180 W (Yellow Light)
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Types of Ballasts & PL Controller
� EMEA
- 230V, 35W to 100W
- Interface to ballst: serial, 1 to 10V, Dali, Madli, nativePL
� US/Canada
- 120V, 200W to 400W
- Interface: serial, 1 to 10V, Madli, native PL
� Asia
- 120 to 240 V
- Interface = 1 to 10V, native PL
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Power Line for Outdoor Lighting
� Why PowerLine? - Avoids deadspot issues typical of RF -No external repeaters - No problematic radio emissions -Integrated repeating
� Robust and field proven- Over 30 million smart meters installed worldwide -Based on ISO 14908 standard - Tens of installations and pilots in intelligent street lighting systems -Supported by multiple manufacturers
� Open system- Devices are interoperable -No customer lock-in - Modular and future-proof system deployment
� Reduced time-to-market and certified device development
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Power Line vs. RF
� Independent from future road environment modifications (new buildings, etc.)
� Built-in repeating
� Extremely reliable, proven technology �
One worldwide standard
� Physical communication medium less susceptible to tampering and more easily detectable
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PL Controller Versions - 1
Filter PL Magnetic Mercury Controller Ballast Lamp
� For lowest cost retrofit -Limited functionality
� On/off, bi-level dimming only, limited diagnostics
- Low cost
- Multi-box solution� Possibly size-constrained installation
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PL Controller Versions - 2
Filter PL Electronic HPS Controller Ballast Lamp
� For advanced retrofit -Advanced functionality
� On/off, stepless dimming, advanced diagnostics
- Higher cost
- Larger energy savings- Better ROI
- Multi-box solution� Possibly size-constrained installation
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PL Controller Versions - 3
PL Controller + Filter + HPS Electronic Ballast Lamp
� For most advanced retrofit and new applications -Advanced functionality
� On/off, stepless dimming, advanced diagnostics
- Lowest cost
- Simplest installation
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PL Controller Versions - 4
PL Controller + Filter + LEDsDriver
� For new installations -The future
- Not fully mature yet -Best energy savings -Top functionality
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OEM Differentiation
� OEMs using EkoLum’s PL protocol for communication in their controllers can differentiate: - By feature
� On/Off, dimming, voltage measurement, run hours, fault detection, etc.
- By price
- By form factor
- By supported lamp technology
� Just like web browsers are all based on TCP/IP but very different…
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…
…
Segment Controller
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In the Street…The EkoLum Segment Gateway ® Smart Server Segment Controller
• Built-in Astronomical clock & Real-time clock • Multiple schedulers
• Built-in data logging, alarming, HTML Web Server, etc.
• Built-in I/O (metering inputs, digital, relays) • MODBUS extensions for additional data measurement • Programmable• Powerline Interface with signal repeating
• Integrated 10/100 Ethernet port
• Integrated serial ports for connectivity to GSM/GPRS modems • Realtime collection using SOAP/XML protocol
• Remote Commissioning, troubleshooting, & Upgrades• No on-site system services required post installation
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Local Master Controller
Bridge to Data Networks
Smart Streetlighting Network Behind the Panel
EkoLum Segment Gateway ®
Poly Phase Meter (optional)
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PL Repeating
� Power line repeating dynamically discovers and maintains the best communication path to every luminaire- Extreme robustness even on very noisy lines - Longer distances and lower installation costs - Not impacted by road modification (new buildings, etc.) – EkoLumSegment Gateway ® manages the network - Up to 200 nodes supported
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Astronomical Position Sensor
� With the EkoLum Segment Gateway ®optimized sunlightharvesting based on the position of the sun - Calculate the sun’s position based on latitude, longitude, & time-of-day
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BillingSystem NotificationService
SystemDatabasesEnergyGIS
Management
Host Software
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Host software : EkoLum Plattform
BillingSystem NotificationService
SystemDatabasesEnergyGIS
Management
� Manages field installation �Track where the failures are �Check the system health �Collects, Organizes & Stores Data
� Extends data to higher level applications in usable format
• Streetlight Management Software - www.ekolum.net
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Simple Installation & Ease of Use Web Portal Centralizes Management
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Secured | Customized Multi-City Web portal
Simple Installation & Ease of Use Identify & Diagnose Failures
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Simple Installation & Ease of Use Monitor, Check, Test in Real-time
Real-time control Using City Maps
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Section 3 Installation
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EkoLum Segment Gateway simplifies Installation
� Main challenge- Installation needs to be done by electricians with no LonWorks
skills
- Many devices of the same type (e.g. lamps) need to be installedon the correct location
- Changing damaged devices needs to be simple - System functionality and reliability needs to be checked easily and fast
Installation time is money!
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Typical Installation Scenario
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2 4
Bluetooth
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1. Read field device ID with bluetooth barcode scanner
2. Save light pole GPS location with PDA
3. Download information into host software
4. Remotely push information into local EkoLum gateway5 5. Device automatically discovered by the local Gateway
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Smart Network Management
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GateWayConfiguration
NodeConfiguration
DeviceConfiguration
Smart Network Management
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Smart Network Management
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Smart Network Management
Searching for a node Lat and Lon
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Section 4 Projects and Pilots
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Applicability
� The architecture for intelligent lights seen above is successfully applied in
- Public street lighting - Warehouse lighting -Car parks
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Street Light Project ExampleCity of Oslo
LONWORKS Based City of Oslo Project Included in Clinton Climate Initiative Best Practices Group
10,000 Intelligent Streetlights Save 1440 Tons of CO2 and Reduce Energy Consumption by 70%
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Street Light Project ExampleOslo Energy Savings
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Other Examples
� City of Bremen 150,000 lights (currently being installed)
� Milton Keynes 400 lights (pilot)
� Dutch motorways 2,300 lights (currently being installed)
� Varna, Bulgaria: Approximately 1000 lights in 2006 �
Sevilla 200 lights (pilot)
� Over 200 pilots in US
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ThanksPlease visit www.ekolum.net/en/
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