Requirements for a Future Lamp-Luminaire System: The European EnLight Project T. Noll, OSRAM, Germany Funded by and
Requirements for a Future
Lamp-Luminaire System:
The European EnLight Project
T. Noll, OSRAM, Germany
Funded by and
Content
1. Trends in Lighting
2. The EnLight Project
EnLight Objectives
EnLight Structure & Way of Working
3. Customer Requirements and Specifications (CRS)
Use Cases
Verification
4. Outlook and Summary
Start 1886 Start 1837 Start 1856
Trends in Lighting 1/4
Lighting in Comparison with other Technologies
GLS
HAL
CFL
LEDTo
day
On
ce
Trends in Lighting 2/4
Changing Market Environment
From incandescent to
energy efficient lighting
From classical technology
to semiconductors/ LED
Shift in business model:
From components/ replacement business
to solutions
Sustainability plus:
Light and quality of life
Major trends in the lighting market
Source: Osram
“Lighting going digital”
–Move towards a SSL Semiconductor-like value chain
“Liberation of Light”
–New form factors, novel applications, user centered
and ambient
“More illumination”
–Drive for efficiency (Lumen/W) and cost down
(Haitz’s law)
“More than illumination”
–Add more functionality to increase value
“Going Green”
–Energy efficiency & sustainability as societal themes
Daylight Harvesting
–Using as much as daylight as possible
Trends in Lighting 3/4
Changing Market Environment (EnLight Vision)
More than Illumination: Function Enrichment
Mobility &
safety
Emotion&
Perception
Health &
WellbeingHorticulture
& foodIntelligence
Interacting with other systems,
people and environment
Non-illumination function
System-in-package (SiP)
Efficiency
Cost reduction
Miniaturization
Retrofit
Form & fixture
revolution New
business
potential
€
Mo
re I
llu
min
ati
on
: E
ffic
ien
cy
1
10
0
20
0
Lumen/W
tim
e
$/lumen
1
10
0
20
0
Trends in Lighting 4/4
More than Illumination (EnLight Vision)
Content
1. Trends in Lighting
2. The EnLight Project
EnLight Objectives
EnLight Structure & Way of Working
3. Customer Requirements and Specifications (CRS)
Use Cases
Verification
4. Outlook and Summary
EnLight Objectives
Paradigm Shift in Illumination
4. Control
On/off/dim -> Sensors and Apps
3. Luminaire
GLS shape -> LED-module
2. Lamp
LED Retrofit -> New form factor
1. Light generation
Glowing wire -> Solid state lighting
Today After tomorrow
To exploit the full potential of
Solid State Lighting (SSL)
through breakthrough
innovations in
non-conventional,
energy efficient and
intelligent lighting system
beyond retrofit applications
EnLight Objectives
Rationale (1/2)
Traditional lamp holders are non-optimal
for SSL, poor thermal lamp-holder/bulb
interface compromises the LED
performance (lumen/W, lifetime)
Traditional bulb form factors limit system
performance (e.g. optical efficiency) and
control feature integration
SSL technology enables new design
freedom for emerging new and ambient
applications of light
Intelligence is needed for future light modules,
to enable large SSL system optimization, and to
achieve higher performance vs. cost ratio.
Future SSL modules must be green and energy
efficient. Energy efficiency is a major societal
issue.
All these should based on replaceable principles
to maximize the potential and evolution of SSL
technology and to allow freedom of choice in the
value chain.
EnLight Objectives
Rationale (2/2)
1. Optimal LED Lighting Modules
2. Future, non-conventional luminaires
3. Add intelligence to Lighting Systems.
EnLight Objectives
Technology Building Blocks
Housing Unit
Light
Manipulation
Unit
LED Engine
Light
Generation
Light
Conversion
Light
Mixing
Light
Distribution shapedlight
optical
interface
Heat
Distribution
Heat
Transfer
transferredheat
thermalinterface
Mechanical
structure,
protection,
safety,
esthetics, etc.
mechanicalinterface
Driver & Control Unit
DriverPower
Supply
module
power
interface
Intelligent
Controllermodule
communicationinterface
Sensing Unit
Integrated
Sensing
Connectivity
Intelligent Light Module
EnLight Objectives
Building Blocks: (1) Intelligent Lighting Module
Description:
Exploration of technological solutions for
SSL lighting in a free form factor
Freedom of luminaire design
Integration of novel features and devices
(eg. sensors, sound, ..)
Challenge:
Increase of energy efficiency (20%)
Cost effective and compelling novel
applications
EnLight Objectives
Building Blocks: (2) Future, non-conventional Luminaires
Chip
Lamp
Wall plug = lamp x LOR
–> Lux/W
time20202000 2010
Eff
icie
ncy i
n l
m/W
300
200
100
EnLight Hype
Building Blocks: (2) Future, non-conventional Luminaires
System Efficiency Improvement Potential by LOR
Description:
Develop solutions for:
• Reliable task and activity sensors, sensor fusion
• Smart algorithms • Robust architecture and communication
interfaces
• Data mining to detect usage patterns
• Interface to building automation and power grid
• Interoperability between devices
• Security and privacy
Challenge:
Increase of 30% energy efficiency compared to non- automated practice
Market and user acceptance criteria
EnLight Objectives
Building Blocks: (3) Add Intelligence to Lighting Systems
Building Blocks: (3) Add Intelligence to Lighting Systems
Example for energy saving via Ra adjustment
Intelligent
Modules
Intelligent
Luminaires
Area Controlled
Systems
M2M
L2L
Area
to
area
Room, Floor
Level
Local
Level
Multiple Area
Controlled Systems
Central/Remote mgt
Building, Shop,
Hospital, etc.
Level
e.g. Eth/IP
Co
mm
un
ica
tio
n:
Mo
du
le ↔
Mu
lti-
Are
a S
ys
tem
Communication
Utilities
EnLight Objectives
Building Blocks: (3) Sketch of System Architecture
Objec-
tive
Topic Efficiency increase Technological driver / user-
experience driver
Develop an optimal
LED lighting module
Increase by at least 20%
w.r.t. traditional
applications in office and
hospitality (i.e. LED
retrofits)
Optimal LED optics, LED modules
with integrated drivers, advanced
heat management control, ultra-low
standby current and full freedom of
sockets
Solutions applicable
for future proof and
non-conventional
luminaires
Increase of efficiency
through design freedom
(e.g. by minimizing the LED
die temperature)
Solutions which do meet the multiple
soft criteria as listed below:
Affordable
Extendable
Easy-to-produce
Easy-to-install
Easy-to-use
Easy-to-maintain
Upgradable
Intelligent Lighting
systems
Increase of at least 30% in
standard environments
compared to non-automatic
lighting installations
Development of novel, low power
sensors, dedicated SSL dimmers,
smart communication protocols
using low power, robust sensing
algorithms and low power controls
+ Total system efficacy
increase
Joint energy efficiency
increase of at least 40%
Combination of the two
improvements above
EnLight Objectives
The grand challenge of system efficiency improvement
EnLight Structure & Way of Working
Consortium and funding
Funded by and
Funding:
EnLight Structure & Way of Working
V-Model approach
WP1 Application
Scenarios and
Requirements
WP4 Intelligent Lighting
Systems
Communication
Sensing and Intelligence
System Integration
WP3 SSL Components
and Modules Design
Embedded Intelligent Components
Component Interfaces
LED and Luminaire Development
WP5 Validation and
Demonstration
WP2 System Architecture Technology
route
PMT (lead: Ph)
- WPL
- Application Champions
- Project Office (Ph)
Application route
Content
1. Trends in Lighting
2. The EnLight Project
EnLight Objectives
EnLight Structure & Way of Working
3. Customer Requirements and Specifications (CRS)
Use Cases
Verification
4. Outlook and Summary
Customer Requirements and Specifications (CRS)
Application Concepts
A. HospitalityEnergy saving and comfort-adding intelligent
functionalities in future home environment, e.g. in
a kitchen, hotel room, a cabin in a cruise ship and
garage and courtyard areas.
B. OfficeSeamless integration of lighting systems in a real
office for e.g. flex workers, where the new
technology will be experienced and data on the
perception, psychology, design, technology
development, interaction and human factors will
be collected.
C. Power Grid EffectsValidation and evaluation of the impacts of new
EnLight devices and lighting systems on the
electric distribution grid, from a communication
point of view and a quality of service point of view.
More than illumination: a use case story
When you enter the door of your house motion sensors switch on lamps in the
vestibule and in the corridor. Your wife takes a “Power Shower” in the bathroom using
her favored “Blue Lagoon atmosphere”.
While you are laying the table - you are expecting guests for dinner - the system
detects a working situation and illuminates the room with bright white light.
The door bell, which is remotely connected to the speaker of the system, is ringing and
activates the microphone. After confirmation that your guests arrived you open the
door remotely.
When your wife enters the room with food a camera senses a dining situation and
switches to candlelight illumination. As time elapses and triggered by a clock the lamps
are gradually dimmed.
When the guests have left you decide to check some mails. As you are alone the
system detects a PC working situation and switches to your preference working light.
You leave the dining and enter the living room, where your wife watches late night
news. The system switches to energy saving mood light. Finally, all lamps are switched
off automatically latest 10 minutes after there was no presence sensing anymore.
CRS: Use Cases
Use Case Campaign @ OSRAM
Idea Description:
Imagine to have every luminaire which has the controller user interface built in.
Here is the Idea:
To create a luminaire family with a laser beam that projects, wherever you want (for example walls, tables, doors), the user interface.
Just to understand better see:
www.virtual-laser-keyboard.com
So every luminaire could have built in one or more of these projectors to have one or more User Interfaces projected freely where it's more comfortable for user.
The direction technology based on an optical recognition mechanism enables the user to tap on the projected keys or icon images.
Pictures:
Comments Jury:
• EnLight needs smart concept for
system operation and data entry.
• Micro camera can be used for person
identification and personal light
settings.
CRS: Use Cases
The Winner of OSRAM Use Case Campaign
Member in value chain with focus on i.e.
Mostly everybody Standardization, availability,…
Architects and light planners Customer needs, modularity, flexibility, esthetics, installation and
operation cost, …
Industry & OEMs Manufacturing and selling components & systems, number of ICs
(Ident codes), performance numbers like ATP, DSL, ToR, MoH,…
Electricity providers Grid quality and reliability, smart metering, PF adjustment,…
Installers and electricians Time for installation, maintaining & repair of system or
components,…
Building owner or constructor Satisfaction of users, attractiveness of building, kWh/m2,
Facility managers TCO, energy saving, maintenance factors, frequency and cost for
repair, legal requirements,…
Hospitality managers Like facility managers + attractiveness for guests, esthetics,…
Traders & Retailers Selling components & systems, shelf complexity, margin,…
Consumers in applications
like hospitality & residential
Cost of product and for installation, comfort, individuality, well being,
attractiveness, …
Consumers in professional
applications (like Office)
Comfort, working conditions, well being, attractiveness, …
Recyclers Ease of recycling, selling recycled material,…
CRS: Use Cases
The Value Chain (Cradle to Cradle)
Storyline:
• 2014: Consortium has presented EnLight demonstrators on L+B
• EU has redefined the 20/20/20 target as 20/25/25 target
• ELC/CELMA have proposed a white paper for fast adoption of
EnLight products
• The CEO of a luminaire manufacturer has invited his upper
management for discussion of consequences for his company.
All mutual effects of EnLight - covering Finance data, PLM, R&D,
Manufacturing, Sales, Strategy as well as Standardization - are
addressed and embedded in an amusing story (VoC).
Discussion at Illumnix plc about a white paper proposal
from ELC/CELMA for promotion of EnLight products
CRS: Use Cases
Example Use Case Category OEM 1/3
CRS: Use Cases
Example Use Case Category OEM 2/3
CRS: Use Cases
Example Use Case Category OEM 3/3
Content
1. Trends in Lighting
2. The EnLight project
EnLight Objectives
EnLight Structure & Way of Working
3. Customer Requirements and Specifications (CRS)
Use Cases
Verification
4. Outlook and Summary
Summary
=
Strategic Beyond retrofit
Manageable Plug and play
Advanced Intelligence, sensors
Real Demonstrators
Tailorable User centered Interface
http://enlight-projecteu.projectlocatie.nl/
Thank you !