calculating light loss factors for led street lighting systems · calculating light loss factors...
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Calculating Light Loss Factors for LED Street Lighting Systems
Rick Kauffman Kauffman Consulting, LLC
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Contents
•Why worry about LLF?•Factors Affecting Light Loss•Discussion of Major Factors•Recommended Procedure•Minimum Requirements•References•Q&A
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Global Deaths Caused by Injuries for 2008
3Source: World Health Organization
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Red is highest number
Blue is lowest number
Vehicle occupant deaths 1987-2003, FARS
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Red is highest number
Blue is lowest number
Pedestrian deaths 1987-2003, FARS
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Why use LLF?
•Luminaires age, and unlike fine wine they don’t get better with time
•RP-8 & AASHTO specify “Minimum Maintained Average” lighting levels
•Safety•Security•Commercial interests•Community pride
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Factors Affecting LLF in SSL LuminairesLLF = LLD x LDD x LATF x HE x VF x BF x LCD
Maintenance Factors Equipment Factors
•Lamp (Source) lumen depreciation – LLD
•Luminaire dirt depreciation – LDD
•System burnout or failure•Changes in local conditions
•Luminaire ambient temperature effects – LATF
•Luminaire heat extraction -- HE•Voltage (Power, Transients) -- VF•Ballast (PSU) & Lamp (LED)
Factors -- BF•Luminaire component
depreciation -- LCD8
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Lumen Maintenance of Common Light Sources
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SOURCE HPS PSMH CMH INDUCTION
RATED LIFE (HRS) 24,000 15,000-
20,00015,000-20,000 100,000
LUMEN MAINTENANCE 75-80% 40-59% 70% 60%
MORTALITY RATE 35% 55% 50% 40%
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LED Lumen Depreciation - LLD•Lumen Maintenance is a function of
Tj and Ta within the LED package.
•L70 is commonly used to define the useful life of an LED system,use LLD= 0.7, OR
•Define useful system life and determine LLD.
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• LM-80 & TM-21 data relate to the LED package only but are useful.
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LM-80 Results for Cree XP-G
Note: TM-21 only projects life to 6x test period or 60,000 hours max., anything past that is based on trust.
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Lumen Maintenance Methods1. Define system life, calculate Lxx based on test
data
2. Use manufacturer’s recommended data
3. Use L70 as default at rated life
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Luminaire Dirt Depreciation - LDD
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Luminaire Cleaning•Get recommended cleaning procedures from luminaire
manufacturers to get them to “like new” condition.•Evaluate location types as to degree of depreciation.
i.e. residential, commercial, industrial, construction, etc.•Perform an economic analysis by type of location to
determine optimum cleaning frequency.•Establish cleaning schedules by location based on
conditions and economic analysis.•Do periodic audits to verify the procedure is working.•Caution: LED luminaires with exposed secondary optics
will experience light distribution pattern changes as theyget dirty, and may require special cleaning.
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LDD Field Determination
•Remove existing luminaire in retrofit area of known length of service since last cleaning. Test, clean, and re-test to establish % LDD.
•Testing can be performed by a lab or by using a homemade black box and light meter to establish relative difference.
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Changes in Local Conditions•Pavement condition and future street paving•Construction•Trees and vegetation•Changes in adjacent land use•Atmospheric conditions, smog index, etc.
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LDD ~ 3-5% per year over 1-2 year period. More studies needed. Only 2 sites, very limited data & length of service.
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Luminaire Ambient Temperature Effects - LATFLM-79 and LM-80 testing performed in 25oC ambient
~0.224% per °CLight reduction
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Drive Current vs. Forward Voltage
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Ambient Temperature Effects
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Luminaire Thermal Capacitance and ∆T Effects
•As Tj increases, Vf decreases and input power decreases
•Internal and external ambient changes can affect Tj and Vf
Values in this chart are not significant. This data is only given to show that a relationship exists.
Courtesy of Mike Stevens, Georgia Power
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• Small decrease in illumination (E) over 2-month period.•One location had low output due to failing power supply.
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Ambient Temperature Effects
•April avg. = 14ºC•June avg. = 26ºC•Δ T = 12 ºC•Δ E ~ 3%
www.weather.com24
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Voltage (Power, Transient) Effects•Most PSU’s operate between 120V and 277V, however
efficiency varies with input voltage, get the facts!•480V is a more expensive option, 480V PSU’s are more
expensive and less reliable. Step down transformers add cost and reduce system efficiency.
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Ballast (PSU) and Lamp (LED) Factors•Generally this is ≥ 0.95 for HID systems and often assumed
to be 1.0•Most drivers are constant current DC to the LED•Some drivers supply AC to the LED to increase system
efficiency (beware of flicker)•Some drivers have fixed drive currents and some are
adjustable•Dimming circuits vary in design and operation•Manufacturing tolerances vary•Get the variables from the manufacturer and determine
if they are significant for your environment
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LED Driver De-rating Curve
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Example LED Driver Efficiency vs. Load
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LED Driver Dimming Curve
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LED Driver Power Factor
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LED Driver Life vs. Tcase
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Luminaire Component Depreciation - LCD•Environmental effects such as (acid) rain, exhaust fumes
(hydrocarbons), UV exposure, humidity, vibration, salt spray from ice and snow treatments, coastal conditions, etc. affect the surfaces of optical components, conductors, fasteners, etc. (DHMO is the worst)
•Thermal cycling and aging affects plastic materials, rubber gaskets and wire insulation.
•Require manufacturers to furnish test results to quantify these and determine if it is significant for the given system.
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LLF Calculation Procedure
•Use the LLF checklist provided or develop your own.•Determine if factors are significant or not. Document,
be prepared to defend your reasoning.•All factors are ≤ 1.0. (The only exception to this is if
your maximum operating external ambient temperature is significantly below 25ºC or you have consistently heavy winds.)
•Multiply them together to get LLF.Ex. LLF = LLD x LDD x LATF x LCD …
•Use this LLF in your lighting calculations and planning.
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Recommended Default Depreciation
•LLD = 0.70, for L70 lifetime rating•LDD = 0.9, for very clean environments
•LLF = 0.70 x 0.9 = 0.63
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References•World Health Organization•National Highway Transportation Safety Administration•Roadway Lighting Update-Research, Carl Andersen, FHWA
SALC 2007•ANSI/IES RP-8-2000, American National Standard
Practice for Roadway Lighting•IESNA Lighting Handbook, 10th ed.•Philips Lamp Data Sheets•Cree Data Sheets•LEDs in the Real World, Bruce Kinzey, PNNL, DOE SSL
R&D Workshop 2010, Raleigh, NC
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