Features
•2.2mm2microfootprint
•1Amaxdrivecurrent
•AlNsubstrate
•Upto45+%wallplugefciency
•Undomed
Key Applications
•Curing
•Medical
•Scientic
•Security/Forensic
•SpecialtyLighting
Benefits
•Industry’shighestarrayW/cm2
•MoreuxperLED
•Rthaslowas3.5K/W
•Lessheattomanage
•Preciseopticalcontrol
LUXEONUVDS114©2013PhilipsLumiledsLightingCompany.
LUXEONUV
SuperiorFluxDensity,EfciencyandDesignFreedom
–intheIndustrysOnlyMicro-PackageUVLED
Introduction
At1/5thesizeofotherultravioletandvioletLEDs,LUXEON®UVistheindustry’ssmallest
footprinthigh-poweremitter.LUXEONUVLEDscanbeassembledintightarrayswithspacing
ofonly200microns,whichenableshighestpowerdensity(W/cm2)systems.Theproductdelivers
superiorefciency,undomedforpreciseopticalcontrol,andaportfoliocoveringultraviolet(380-
400nm)andviolet(400-430nm)light.
LUXEONUVDatasheetDS114V220131028©2013PhilipsLumiledsLightingCompany. i
Table of Contents
General Information ..................................................................2
Test Conditions .......................................................................... 2
Product Nomenclature .................................................................... 2
Safety .................................................................................. 2
Radiant Flux Characteristics, ............................................................ 3
Other Characteristics,................................................................. 4
Absolute Maximum Ratings ............................................................. 4
Mechanical Dimensions ................................................................ 5
Solder Pad Design .................................................................... 5
JEDEC Moisture Sensitivity ............................................................. 6
Reflow Soldering Characteristics ........................................................6
Typical Characteristic Curves ...........................................................7
Typical Radiation Patterns .............................................................10
Flux and Wavelength Bin Availability .....................................................11
Emitter Pocket Tape Packaging.......................................................... 12
Emitter Reel Packaging................................................................ 13
LUXEONUVDatasheetDS114V220131028©2013PhilipsLumiledsLightingCompany. 2
General Information
Test Conditions
LUXEONUVemittersarespeciedandbinnedat500mA,20msmonopulse,andjunctiontemperatureof25°C.
Product Nomenclature
ThepartnumberdesignationforLUXEONUVisasfollows:
LHUV–aBBB–cDDD
Where:
a—openslottoaccommodateadditionalrequirementsperproductandpartnumber.ais0bydefault
BBB—designatesbeginningof5nmwavelengthbin(forexample,395for395-400nm)
c—openslottoaccommodateadditionalrequirementsperproductandpartnumber.cis0bydefault
DDD—designatesminimumradiometricpowerinmW(forexample,500for500mW)
Safety
WARNING:LUXEONUVproductsemitultravioletlight.DonotlookatoperatingLEDs.Eyeinjurymayresult.Use
necessaryskinandeyeprotection.AssumeIEC62471RiskGroup3.
LUXEONUVDatasheetDS114V220131028©2013PhilipsLumiledsLightingCompany. 3
Radiant Flux Characteristics, TJ = 25°C
Table 1.
Wavelength Bin [1] Part Number Typ Radiometric Power [2], mW Max Wall-Plug
Efficiency, %
500 mA 1000 mA
380-385nm LHUV-0380-0150
LHUV-0380-0200
175
225
370
475
12
15
385-390nm LHUV-0385-0200
LHUV-0385-0250
225
275
470
570
15
18
390-395nm
LHUV-0390-0300
LHUV-0390-0350
LHUV-0390-0400
LHUV-0390-0450
330
375
425
470
695
790
900
1000
22
25
28
32
395-400nm
LHUV-0395-0350
LHUV-0395-0400
LHUV-0395-0450
LHUV-0395-0500
375
425
475
525
765
870
970
1075
25
28
31
35
400-405nm
LHUV-0400-0400
LHUV-0400-0450
LHUV-0400-0500
435
475
525
875
960
1055
28
31
34
405-410nm
LHUV-0405-0500
LHUV-0405-0550
LHUV-0405-0600
LHUV-0405-0650
525
575
625
675
1005
1100
1195
1295
35
38
41
45
410-415nm
LHUV-0410-0500
LHUV-0410-0550
LHUV-0410-0600
LHUV-0410-0650
525
575
625
675
985
1080
1160
1255
35
38
41
45
415-420nm
LHUV-0415-0550
LHUV-0415-0600
LHUV-0415-0650
575
625
675
1070
1160
1250
39
42
46
420-425nm
LHUV-0420-0550
LHUV-0420-0600
LHUV-0420-0650
575
625
675
1060
1150
1245
39
42
46
425-430nm
LHUV-0425-0550
LHUV-0425-0600
LHUV-0425-0650
575
625
675
1070
1165
1260
39
42
46
Notes for Table 1:
1. PhilipsLumiledsmaintainsatoleranceof±2nmforpeakwavelengthmeasurements.
2. PhilipsLumiledsmaintainsatoleranceof±10%forradiometricpowermeasurements.
LUXEONUVDatasheetDS114V220131028©2013PhilipsLumiledsLightingCompany. 4
Other Characteristics, TJ=25°C, Test Current = 500 mA
Table 2.
Wavelength Bin [1] Part Number
Forward Voltage, V Typical
Spectral
Half-width, nm [2]
Dλ1/2
Typical
Viewing Angle,
degrees [3]
2u1/2
Thermal
Resistance Rth, [4]
°C/WMinimum Typical Maximum
380-385nm LHUV-0380 2.5 3.2 3.5 9 125 6
385-390nm LHUV-0385 2.5 3.1 3.5 10 125 6
390-395nm LHUV-0390 2.5 3.1 3.5 10 125 5
395-400nm LHUV-0395 2.5 3.1 3.5 11 125 4.5
400-405nm LHUV-0400 2.5 3.1 3.5 11 125 4.5
405-410nm LHUV-0405 2.5 3.0 3.5 12 125 4.5
410-415nm LHUV-0410 2.5 3.0 3.5 13 125 4
415-420nm LHUV-0415 2.5 3.0 3.5 14 125 3.5
420-425nm LHUV-0420 2.5 3.0 3.5 14 125 3.5
425-430nm LHUV-0425 2.5 3.0 3.5 14 125 3.5
Notes for Table 2:
1. PhilipsLumiledsmaintainsatoleranceof±2nmforpeakwavelengthmeasurements.
2. Spectralwidthat½ofthepeakintensity.
3. Viewingangleistheoffaxisanglefromlampcenterlinewheretheradiometricpowerintensityis½ofthepeakvalue.
4.R
thbetweenjunctionandelectrodepads.
Absolute Maximum Ratings
Table 3.
Condition Absolute Maximum Rating
ForwardCurrent(mA) 1000mA
JunctionTemperature[1] 135°C
ESDSensitivity Class3B8kVHBMJEDECJS-001-2012
OperatingTemperature -40°C–135°C
StorageTemperature -40°C–135°C
ReverseVoltage LUXEONUVLEDsarenotdesignedtobedriveninreversebias.
Notes for Table 3:
1. Propercurrentderatingmustbeobservedtomaintainjunctiontemperaturebelowthemaximum.Maximumjunctiontemperaturedependantonwavelegnthbinanddrive
current.SeeAB114forderatingcurve.
LUXEONUVDatasheetDS114V220131028©2013PhilipsLumiledsLightingCompany. 5
Mechanical Dimensions
Notes for Figure 1:
1. Alldimensionsareinmillimeters.
2. Toavoiddamage,donotmanuallyexertforcetothetopsurface.SeeAB114forhandlingprecautions.
3. Drawingsnottoscale.
Solder Pad Design
Notes for Figure 2:
1. Alldimensionsareinmillimeters.
1.70±0.15
1.30±0.15
0.62
0.65
0.95
0.95
DIE CENTER
DIE OUTLINE
0.68±0.15
0.44
CERAMIC
SILICONE
OVERMOLD
0.25
0.40
1.05
1.50
CATHODE MARKER
Figure 1. Package outline drawing.
Figure 2. Solder pad layout.
LUXEONUVDatasheetDS114V220131028©2013PhilipsLumiledsLightingCompany. 6
JEDEC Moisture Sensitivity
Table 4.
Level
Floor Life Soak Requirements
Standard
Time Conditions Time Conditions
1unlimited [30°C/
85%RH
168h
+5/-0
85°C/85%
RH
Reflow Soldering Characteristics
Table 5.
Profile Feature Lead Free Assembly
AverageRamp-UpRate(TsmaxtoTp)3°C/secondmax
PreheatTemperatureMin(Tsmin)150°C
PreheatTemperatureMax(Tsmax)200°C
PreheatTime(tsmintotsmax)60-180seconds
TemperatureTL(tL)217°C
TimeMaintainedAboveTemperatureTL(tL)60-150seconds
Peak/ClassicationTemperature(TP)260°C
TimeWithin5°CofActualPeakTemperature(tP)20-40seconds
Ramp-DownRate 6°C/secondmax
Time25°CtoPeakTemperature 8minutesmax
Note for Table 5:
• AlltemperaturesrefertotheapplicationPrintedCircuitBoard(PCB),measuredonthesurfaceadjacenttothepackagebody.
Figure 3. Reflow soldering conditions.
LUXEONUVDatasheetDS114V220131028©2013PhilipsLumiledsLightingCompany. 7
Typical Characteristic Curves
Figure 4. Typical relative radiant flux vs. forward current, Tj = 25°C.
Figure 5. Typical relative radiant flux vs. junction temperature, test current = 500 mA.
LUXEONUVDatasheetDS114V220131028©2013PhilipsLumiledsLightingCompany. 8
Figure 6. Typical peak wavelength vs. forward current, Tj = 25°C.
Figure 7. Typical peak wavelength vs. junction temperature.
LUXEONUVDatasheetDS114V220131028©2013PhilipsLumiledsLightingCompany. 9
Figure 8. Typical forward current vs. forward voltage, Tj = 25°C.
Figure 9. Typical forward voltage vs. junction temperature.
LUXEONUVDatasheetDS114V220131028©2013PhilipsLumiledsLightingCompany. 10
Typical Radiation Patterns
Typical Spatial Radiation Pattern
Typical Polar Radiation Pattern
Figure 10. Typical spatial radiation pattern.
Figure 11. Typical polar radiation pattern.
LUXEONUVDatasheetDS114V220131028©2013PhilipsLumiledsLightingCompany. 11
Flux and Wavelength Bin Availability
Table6highlightsstandardradiometricpowerandwavelengthbinsingrey.Althoughseveralbinsareoutlined,product
availabilityinaparticularbinvariesbyproductionrun.
Table 6.
Minimum
Radiometric
Power
Wavelength Bin / Part Number
380-385nm 385-390nm 390-395nm 395-400nm 400-405nm 405-410nm 410-415nm 415-420nm 420-425nm 425-430nm
LHUV-0380 LHUV-0385 LHUV-0390 LHUV-0395 LHUV-0400 LHUV-0405 LHUV-0410 LHUV-0415 LHUV-0420 LHUV-0425
150mW
200mW
250mW
300mW
350mW
400mW
450mW
500mW
550mW
600mW
650mW
LUXEONUVDatasheetDS114V220131028©2013PhilipsLumiledsLightingCompany. 12
Emitter Pocket Tape Packaging
Figure 12. Emitter pocket tape packaging.
Figure 13. Orientation of LEDs inside carrier tape.
LUXEONUVDatasheetDS114V220131028©2013PhilipsLumiledsLightingCompany. 13
Emitter Reel Packaging
Figure 14. Emitter reel packaging.
LUXEONUVDatasheetDS114V220131028
©2013PhilipsLumiledsLightingCompany.Allrightsreserved.
LUXEONisaregisteredtrademarkofthePhilipsLumiledsLighting
CompanyintheUnitedStatesandothercountries.
www.philipslumileds.com
www.philipslumileds.cn.com
PhilipsLumiledsLightingCompanyshallnotbeliableforanykindoflossofdataoranyotherdamages,direct,indirectorconsequential,resultingfromtheuseoftheprovidedinformationanddata.Although
PhilipsLumiledsLightingCompanyhasattemptedtoprovidethemostaccurateinformationanddata,thematerialsandservicesinformationanddataareprovided“asis”andPhilipsLumiledsLightingCompany
neitherwarranties,norguaranteesthecontentsandcorrectnessoftheprovidedinformationanddata.PhilipsLumiledsLightingCompanyreservestherighttomakechangeswithoutnotice.
Youasuseragreetothisdisclaimeranduseragreementwiththedownloadoruseoftheprovidedmaterials,informationanddata.
Who We Are
PhilipsLumiledsfocusesononegoal:Creatingtheworld’shighestperformingLEDs.Thecompanypioneeredtheuseof
solid-statelightinginbreakthroughproductssuchastherstLEDbacklitTV,therstLEDashincameraphones,and
therstLEDdaytimerunninglightsforcars.TodayweofferthemostcomprehensiveportfolioofhighqualityLEDsand
uncompromisingservice.
PhilipsLumiledsbringsLED’squalitiesofenergyefciency,digitalcontrolandlonglifetospotlights,downlights,highbayand
lowbaylighting,indoorarealighting,architecturalandspecialtylightingaswellasretrotlamps.Ourproductsareengineered
foroptimallightqualityandunprecedentedefcacyatthelowestoverallcost.ByofferingLEDsinchip,packagedandmodule
form,wedeliversupplychainexibilitytotheinventorsofnextgenerationillumination.
PhilipsLumiledsunderstandsthatsolidstatelightingisnotjustaboutenergyefciency.Itisaboutelegantdesign.Reinventing
form.Engineeringnewmaterials.Pioneeringmarketsandsimplifyingthesupplychain.It’saboutasharedvision.Learnmore
aboutourcomprehensiveportfolioofLEDsatwww.philipslumileds.com.
RoHS
COMPLIANT