Vero 18 Array Series Datasheet by Bridgelux

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Introduction
VeroTM represents a revolutionary advancement in chip on board (COB) light source technology and innovation. These new LED light
sources simplify luminaire design and manufacturing processes, improve light quality, and define a platform for future functionality
integration.
Vero is available in four different LES (light emitting surface) configurations and has been engineered to reliably operate over a
broad current range, enabling new degrees of flexibility in luminaire design optimization. These new arrays deliver increased lumen
density to enable improved beam control and precision lighting with 2 and 3 SDCM color control standard for clean and consistent
uniform lighting.
Vero includes an on board connector port to enable solder free electrical interconnect and simple easy to use mounting features to
enable plug-and-play installation.
Features
Benefits
Market leading efficacy, 122 lm/W typical and 111 lm/W minimum
Vero 18 lumen output performance ranges from 950 to as much as
8,200 lumens
Broad range of CCT options from 2700K to 5600K
CRI options include minimum 70, 80, and 90 2 and 3 SDCM color
control for 2700K-4000K CCT
Reliable operation at up to 2X nominal drive current
Radial die pattern and improved lumen density
Thermally isolated solder pads
Onboard connector port
Top side part number markings
Broad application coverage for interior and exterior lighting
Flexibility for application driven lighting design requirements
High quality true color reproduction
Uniform consistent white light
Flexibility in design optimization
Improved optical control
Enhanced ease of use and manufacturability
Solder-less connectivity enables plug & play installation and field
upgradability
Improved inventory management and quality control
Bridgelux Vero 18 Array Series
Product Data Sheet DS32
BXRC-27x4000, 30x4000, 35E4000, 40x4000, 50x4000, 56G4000
Bridgelux Vero 18 Array Series Product Data Sheet DS32 (4/21/2014) Page 2 of 17
Table of Contents
Page
Product Feature Map
3
Product Nomenclature
3
Top Side Part Number Markings
4
Enhanced Connectivity Options
4
Lumen Maintenance Characteristics
4
Environmental Compliance
4
UL Recognition
4
CE Recognition
5
Minor Product Change Policy
5
Case Temperature Measurement Point
5
CAUTION: CONTACT WITH LIGHT EMITTING SURFACE (LES)
5
CAUTION: CHEMICAL EXPOSURE HAZARD
5
CAUTION: EYE SAFETY
5
CAUTION: RISK OF BURN
5
Production Selection Guide
6
Performance at Commonly Used Drive Currents
7
Flux & Electrical Characteristics
8
Absolute Maximum Ratings
9
Drive Current vs. Forward Voltage Characteristics
10
Typical Relative Luminous Flux vs. Drive Current, Tj = 25°C
10
Typical Light Output Characteristics vs. Temperature
11
Typical Chromaticity Characteristics vs. Temperature
12
Typical Radiation Pattern
13
Wavelength Characteristics at Drive Current, Tj = 25°C
14
Mechanical Dimensions
14
Color Binning Information
15 16
Design Resources
17
About Bridgelux
17
Bridgelux Vero 18 Array Series Product Data Sheet DS32 (4/21/2014) Page 3 of 17
Product Feature Map
Vero 18 is the second largest form factor in the exciting new Vero family of next generation solid state light sources. In addition to
delivering the performance and light quality required for many lighting applications, Vero incorporates several features to simplify
the design integration and manufacturing process, accelerate time to market and reduce system costs. Please consult the Bridgelux
Vero Array Series Product Brief for more information on the Vero family of products.
Product Nomenclature
The part number designation for Bridgelux Vero LED arrays is explained as follows:
BXRC AB C DEFG H IJ
Where:
BXRC Designates product family
AB Designates the nominal color temperature; 27 = 2700K; 30 = 3000K, etc.
C Designates minimum CRI; C = 70, E = 80, G = 90
DEFG Designates nominal flux; 1000 = 1,000 lm, 2000 = 2,000 lm, 4000 = 4,000 lm, 10K0 = 10,000 lm, etc.
H Designates array configuration
IJ Designates CCT Bin options
02 = 2 SDCM
03 = 3 SDCM
04 = 4 SDCM
Thermally isolated solder pads reduce manufacturing
cycle time and complexity
Polarity indication marks simplify
manufacturing operator instructions
2D Bar code provides full manufacturing
traceability
Tc Measurement point
Mounting holes
Top side part number marking improves
inventory management and outgoing
quality control
Optional Molex Pico-EZmateTM connector harness
(sold separately)
Radial die configuration improves lumen
density and beam control
Optics location/mounting
features
Zhaga Book 3 compatible
mounting locations
www mo‘ex om
Bridgelux Vero 18 Array Series Product Data Sheet DS32 (4/21/2014) Page 4 of 17
Top Side Part Number Markings
Vero includes a top side part number marking to help simplify inventory management and increase opportunities for production
quality control. Any Vero product can be quickly identified to determine the product configuration, color or CRI by simply looking at
its top side markings. Unlike previous product generations where markings were included only on the back side of the array, no
longer is it necessary to handle (turnover), uninstall the array in an infield application or guess which product it is by the color of the
phosphor area. The Vero line of LED array products also has a 2D bar code which provides additional information and full product
traceability for quality control purposes.
Enhanced Connectivity Options
Vero’s thermally isolated solder pads have been designed to make soldering fast and secure. For those who prefer an even faster
solderless installation, Vero has a connector port that can be used to further simplify your manufacturing process, reduce inventory
cost and allow for field upgradability. The connector port mates to the Molex Pico-EZmate connector harness, sold separately by
Molex and through their distribution network. The Molex connector harnesses come in a variety of wire lengths and wire gauge
options and can also be custom engineered to meet your specific design requirements. Please consult your local Molex sales
representative or visit www.molex.com for more information.
Lumen Maintenance Characteristics
Bridgelux projects that the Vero 18 family of LED array products will deliver, on average, greater than 70% lumen maintenance after
50,000 hours of operation at two times the nominal drive current in Table 1. This performance assumes constant current operation
at up to 2 times the nominal drive current with case temperature maintained at or below 85°C. Continuous use beyond five years
may result in a lower lumen maintenance. For use beyond these operating conditions please consult your Bridgelux sales
representative for further assistance.
These projections are based on a combination of package test data, semiconductor chip reliability data, a fundamental
understanding of package related degradation mechanisms, and performance observed from products installed in the field using
Bridgelux die technology. Bridgelux conducts lumen maintenance tests per LM-80. Observation of design limits is required in order
to achieve this projected lumen maintenance.
Environmental Compliance
Bridgelux is committed to providing environmentally friendly products to the solid-state lighting market. Vero LED Arrays comply
with the European Union directives on the restriction of hazardous substances in electronic equipment, namely the RoHS directive.
Bridgelux does not intentionally add the following restricted materials to any LED array products: lead, mercury, cadmium,
hexavalent chromium, polybrominated biphenyls (PBB) or polybrominated diphenyl ethers (PBDE).
UL Recognition
Bridgelux secures UL Recognition for all of its LED array products. Please refer to the UL file 357031 for the latest list of UL
Recognized Bridgelux LED arrays. Bridgelux uses UL Recognized materials with suitable flammability ratings in the Vero LED array
products to streamline the process for customers to secure UL listing of the final luminaire product.
Bridgelux Vero 18 Array Series Product Data Sheet DS32 (4/21/2014) Page 5 of 17
CE Recognition
In accordance with the relevant European Union Directives, the BXRC series LED array products conform to the applicable
requirements of the IEC/EN 62031:2008 (LED Modules for General Lighting Safety Specifications) and IEC 62471:2006
(Photobiological Safety of Lamps and Lamp Systems). Bridgelux maintains a CE Declaration of Conformity statement on its website
and displays the CE mark on product packing labels.
Minor Product Change Policy
The rigorous qualification testing on products offered by Bridgelux provides performance assurance. Slight cosmetic changes that do
not affect form, fit, or function may occur as Bridgelux continues product optimization.
Case Temperature Measurement Point
A case temperature measurement point location is included on the top surface of the Vero LED arrays. The location of this
measurement point is indicated in the mechanical dimensions section of this data sheet.
The purpose of this measurement point is to allow the user access to a measurement point which correlates to the true case
temperature on the back surface of the LED array. Once the LED array is installed, it is challenging to measure the back surface of
the array, or true case temperature.
Consistent and repeatable temperature measurements can be correlated to the data sheet performance specifications and to
published LM-80 reliability data. The use of the case temperature measurements point is fully explained in AN30.
CAUTION: CONTACT WITH LIGHT EMITTING SURFACE (LES)
Avoid any contact with theLES. Do not touch the LESof the Vero LED array or apply stress to the LES (yellow phosphor resin area).
Contact may cause damage to the LED array.
Optics and reflectors must not be mounted in contact with the LES (yellow phosphor resin area). Optical devices may be mounted
on the top surface of the plastic housing of the Vero LED array. Use the mechanical features of the LED array housing, edges and/or
mounting holes to locate and secure optical devices as needed.
CAUTION: CHEMICAL EXPOSURE HAZARD
Exposure to some chemicals commonly used in luminaire manufacturing and assembly can cause damage to the LED array. Please
consult Bridgelux Application Note AN31 for additional information.
CAUTION: EYE SAFETY
Eye safety classification for the use of Bridgelux Vero LED arrays is in accordance with IEC specification EN62471: Photobiological
Safety of Lamps and Lamp Systems. Vero LED arrays are classified as Risk Group 1 (Low Risk) when operated at or below the
maximum drive current. Please use appropriate precautions. It is important that employees working with LEDs are trained to use
them safely.
CAUTION: RISK OF BURN
Do not touch the Vero LED array or yellow resin area during operation. Allow the array to cool for a sufficient period of time before
handling. The Vero LED array may reach elevated temperatures such that could burn skin when touched.
Table 1: Selection Guide Pulsed Measurement Data (Ti : Tc : 25"C) Table 2: Seledion Guide Stabilized 0:: Performance (Tc : 351)“
Bridgelux Vero 18 Array Series Product Data Sheet DS32 (4/21/2014) Page 6 of 17
Product Selection Guide
The following product configurations are available:
Table 1: Selection Guide, Pulsed Measurement Data (Tj = Tc = 25°C)
Part Number[1]
Nominal
CCT (K)
CRI
Nominal
Drive
Current[5]
(mA)
Typical Pulsed
Flux[4]
Tj = 25ºC
(lm)
Typical Vf
(V)
Typical
Power
(W)
Typical
Efficacy
(lm/W)
BXRC-27E4000-F-xx
2700
80
1050
3650
29.5
31.0
118
BXRC-27G4000-F-xx
2700
90
1050
2920
29.5
31.0
94
BXRC-27H4000-F-xx[6]
2700
97
1050
2340
29.5
31.0
76
BXRC-30E4000-F-xx
3000
80
1050
3780
29.5
31.0
122
BXRC-30G4000-F-xx
3000
90
1050
3100
29.5
31.0
100
BXRC-30H4000-F-xx[6]
3000
97
1050
2550
29.5
31.0
82
BXRC-35E4000-F-xx
3500
80
1050
3920
29.5
31.0
127
BXRC-40E4000-F-xx
4000
80
1050
3990
29.5
31.0
129
BXRC-40G4000-F-03
4000
90
1050
3515
29.5
31.0
113
BXRC-50C4000-F-04
5000
70
1050
4400
29.5
31.0
142
BXRC-50E4000-F-04
5000
80
1050
4045
29.5
31.0
130
BXRC-50G4000-F-04
5000
90
1050
3670
29.5
31.0
118
BXRC-56G4000-F-04
5600
90
1050
3515
29.5
31.0
113
Table 2: Selection Guide, Stabilized DC Performance (Tc = 85°C)[2][3]
Part Number[1]
Nominal
CCT (K)
CRI
Nominal
Drive
Current[5]
(mA)
Typical DC Flux
Tc = 85ºC
(lm)
Typical Vf
(V)
Typical
Power
(W)
Typical
Efficacy
(lm/W)
BXRC-27E4000-F-xx
2700
80
1050
3150
27.9
29.3
108
BXRC-27G4000-F-xx
2700
90
1050
2530
27.9
29.3
86
BXRC-30E4000-F-xx
3000
80
1050
3270
27.9
29.3
112
BXRC-30G4000-F-xx
3000
90
1050
2680
27.9
29.3
91
BXRC-35E4000-F-xx
3500
80
1050
3390
27.9
29.3
116
BXRC-40E4000-F-xx
4000
80
1050
3450
27.9
29.3
118
BXRC-40G4000-F-03
4000
90
1050
3040
27.9
29.3
109
BXRC-50C4000-F-04
5000
70
1050
3810
27.9
29.3
130
BXRC-50E4000-F-04
5000
80
1050
3500
27.9
29.3
125
BXRC-50G4000-F-04
5000
90
1050
3170
27.9
29.3
114
BXRC-56G4000-F-04
5600
90
1050
3040
27.9
29.3
109
Notes for Tables 1 & 2:
1. The “-xx” suffix refers to color control, “-02” for 2SDCM, “-03” for 3SDCM or “-04” for 4SDCM.
2. Typical stabilized DC performance values are provided as reference only and are not a guarantee of performance.
3. Typical performance is estimated based on operation under DC (direct current) with the LED array mounted onto a heat sink with thermal
interface material and the case temperature maintained at 85°C. Based on Bridgelux test setup, values may vary depending on the
thermal design of the luminaire and/or the exposed environment to which the product is subjected.
4. Bridgelux maintains a ± 7% tolerance on flux measurements.
5. Drive current is referred to as nominal drive current.
6. Please refer to DS34 for complete information regarding the Bridgelux Décor products.
Table 3: Produc! Performance aK Commonly Used Drive Currents
Bridgelux Vero 18 Array Series Product Data Sheet DS32 (4/21/2014) Page 7 of 17
Performance at Commonly Used Drive Currents
Vero LED arrays are tested to the specifications shown in Table 4. Vero may also be driven at other drive currents dependent on
specific application design requirements. The performance at any drive current can be derived from the current vs. voltage
characteristics shown in Figure 1 and the flux vs. current characteristics shown in Figure 2. The performance at commonly used drive
currents is summarized in Table 3.
Table 3: Product Performance at Commonly Used Drive Currents
Part Number
CRI
Drive
Current
(mA) [1]
Typical Vf
Tj = 25ºC
(V)
Typical Watt
Tj = 25ºC
(W)
Typical Flux
Tj = 25ºC
(lm) [2]
Typical DC Flux
Tc = 85ºC
(lm) [2][3]
Typical Efficacy
Tj = 25ºC
(lm/W)
BXRC-27E4000-F-xx
80
1050
29.5
31.0
3650
3150
118
1400
30.4
42.6
4710
4020
111
2100
31.6
66.3
6770
5590
102
BXRC-27G4000-F-xx
90
1050
29.5
31.0
2920
2530
94
1400
30.4
42.6
3780
3220
89
2100
31.6
66.3
5430
4480
82
BXRC-30E4000-F-xx
80
1050
29.5
31.0
3780
3270
122
1400
30.4
42.6
4890
4170
115
2100
31.6
66.3
7020
5800
106
BXRC-30G4000-F-xx
90
1050
29.5
31.0
3100
2680
100
1400
30.4
42.6
4000
3410
94
2100
31.6
66.3
5750
4750
87
BXRC-35E4000-F-xx
80
1050
29.5
31.0
3920
3390
127
1400
30.4
42.6
5070
4320
119
2100
31.6
66.3
7280
6010
110
BXRC-40E4000-F-xx
80
1050
29.5
31.0
3990
3450
129
1400
30.4
42.6
5160
4400
121
2100
31.6
66.3
7410
6120
112
BXRC-40G4000-F-03
90
1050
29.5
31.0
3515
3040
113
1400
30.4
42.6
4550
3880
107
2100
31.6
66.3
6530
5390
98
BXRC-50C4000-F-04
70
1050
29.5
31.0
4400
3810
142
1400
30.4
42.6
5690
4850
134
2100
31.6
66.3
8170
6750
123
BXRC-50E4000-F-04
80
1050
29.5
31.0
4045
3500
130
1400
30.4
42.6
5230
4460
123
2100
31.6
66.3
7510
6210
113
BXRC-50G4000-F-04
90
1050
29.5
31.0
3670
3170
118
1400
30.4
42.6
4740
4040
111
2100
31.6
66.3
6810
5630
103
BXRC-56G4000-F-04
90
1050
29.5
31.0
3515
3040
113
1400
30.4
42.6
4550
3880
107
2100
31.6
66.3
6530
5390
98
Notes for Table 3:
1. Values in bold correspond to performance at nominal drive current listed in Table 1. Alternate drive currents in Table 3 are provided for
reference only and are not a guarantee of performance.
2. Bridgelux maintains a ± 7% tolerance on flux measurements.
3. Typical stabilized DC performance values are provided as reference only and are not a guarantee of performance.
Table 4: Flux Characteristics Table 5: Electrical Characteristics and Driver Selection Voltages
Bridgelux Vero 18 Array Series Product Data Sheet DS32 (4/21/2014) Page 8 of 17
Flux & Electrical Characteristics
Table 4: Flux Characteristics
CCT
(K)
Part Number
CRI
(min)
[3][9]
Nominal
Drive
Current
(mA) [1]
Typical
Pulsed
Flux
Tj = 25ºC
(lm) [1][2]
Minimum
Pulsed Flux
Tj = 25ºC
(lm) [1],[2],[8]
Typical Center
Beam Candle
Power
Tj = 25ºC
(cd) [4]
Typical
DC Flux
Tc = 85ºC
(lm) [5][6]
Minimum
DC Flux
Tc = 85ºC
(lm) [5][7]
2700
BXRC-27E4000-F-xx
80
1050
3650
3310
1160
3150
2870
BXRC-27G4000-F-xx
90
1050
2920
2660
930
2530
2300
3000
BXRC-30E4000-F-xx
80
1050
3780
3440
1200
3270
2970
BXRC-30G4000-F-xx
90
1050
3100
2810
990
2680
2430
3500
BXRC-35E4000-F-xx
80
1050
3920
3560
1250
3390
3080
4000
BXRC-40E4000-F-xx
80
1050
3990
3630
1160
3450
3140
BXRC-40G4000-F-03
90
1050
3515
3200
1120
3040
2760
5000
BXRC-50C4000-F-04
70
1050
4400
4000
1160
3810
3460
BXRC-50E4000-F-04
80
1050
4045
3680
1290
3500
3180
BXRC-50G4000-F-04
90
1050
3670
3340
1170
3170
2880
5600
BXRC-56G4000-F-04
90
1050
3515
3200
1120
3040
2760
Notes for Table 4:
1. Parts are tested in pulsed conditions, Tj = 25°C. Pulse width is 10 ms at nominal drive current.
2. Bridgelux maintains a ± 7% tolerance on flux measurements.
3. Typical R9 value for 90 CRI product options is 70.
4. Center beam candle power is a calculated value based on Lambertian radiation pattern at nominal drive current.
5. Typical stabilized DC performance values are provided as reference only and are not a guarantee of performance.
6. Typical performance is estimated based on operation under DC (direct current) with the LED array mounted onto a heat sink with thermal
interface material and the case temperature maintained at 85°C. Based on Bridgelux test setup, values may vary depending on the
thermal design of the luminaire and/or the exposed environment to which the product is subjected.
7. Minimum DC Flux values are provided for reference only and are not a parameter guaranteed by production testing. Based on Bridgelux
test setup, values may vary depending on the thermal design of the luminaire and/or the exposed environment to which the product is
subjected.
8. Refer to Table 3 for typical performance at other drive currents.
9. Décor 97 CRI products available. Please refer to DS34.
Table 5: Electrical Characteristics and Driver Selection Voltages
Nominal
Drive
Current
(mA) [1]
Forward Voltage
Pulsed, Tj = 25ºC (V) [1][2]
Typical Coefficient of
Forward Voltage ΔVf /
ΔTj (mV/°C)
Typical Thermal
Resistance Junction
to Case RƟ j-c (C/W)
Driver Selection Voltages (V) [3]
Minimum
Typical
Maximum
Vf Min. Hot[4]
Tc = 105ºC (V)
Vf Max. Cold[4]
Tc = - 40ºC (V)
350
24.4
27.1
29.8
-21.0
0.53
22.6
31.0
700
25.6
28.4
31.2
-21.0
0.54
23.7
32.4
1050
26.6
29.5
32.5
-21.0
0.55
24.5
33.5
1400
27.4
30.4
33.5
-21.0
0.56
25.2
34.3
2100
28.4
31.6
34.7
-21.0
0.58
26.0
35.3
Notes for Table 5:
1. Parts are tested in pulsed conditions at the nominal drive current (indicated in bold font), Tj = 25°C. Pulse width is 10 ms.
2. Bridgelux maintains a tester tolerance of ± 0.10 V on forward voltage measurements.
3. Forward voltage minimum and maximum values at the nominal drive current (indicated in bold font) are guaranteed by 100% test.
Values provided at other drive currents are provided for reference only and are not guaranteed by test.
4. Vf Min hot and Vf max cold values are provided as reference only and are not guaranteed by test. These values are provided to aid in
driver design and selection over the operating range of the product.
Table 5: Maximum Drive Cunem and Reverse Voltage Rakings Table 7: Maximum Ratings
Bridgelux Vero 18 Array Series Product Data Sheet DS32 (4/21/2014) Page 9 of 17
Absolute Maximum Ratings
Table 6: Maximum Drive Current and Reverse Voltage Ratings
Part Number
Drive
Current for
LM-80
(mA)[3]
Maximum
Peak
Pulsed Drive
Current
(mA) [1]
Maximum
Reverse
Voltage
(Vr) [2]
BXRC-xxx4000-F-xx
2100
3000
-50
Notes for Table 6:
1. Bridgelux recommends a maximum duty cycle of 10% when operating LED Arrays at the maximum peak pulsed current specified.
Maximum peak pulsed currents indicate values where the LED array can be driven without catastrophic failures.
2. Light emitting diodes are not designed to be driven in reverse voltage and will not produce light under this condition. Maximum rating
provided for reference only.
3. Lumen maintenance (L70) and lifetime predictions are valid for drive current and case temperature conditions used for LM-80 testing as
included in the applicable LM-80 test report for these products.
Table 7: Maximum Ratings
Parameter
Maximum Rating
LED Junction Temperature
150°C
Storage Temperature
-40°C to +105°C
Operating Case Temperature
105°C[2]
Soldering Temperature[1]
350°C for a maximum of 10 seconds
Notes for Table 7:
1. See Bridgelux Application Note AN31, Assembly Considerations for Vero LED arrays, for more information.
2. For IEC 62717 requirement, please contact Brigdelux Sales Support.
Figure 1 Tyg al Dnve Current vs, Voltage 2400 — — — M‘N — — MAX 2000 7 TVP Tc=85C M‘N Tc=-4UC MAX 1600 E 1200 E a O 500 / I / / ADD / I/ / 1D 4 ’ — 20 2122 23 24 25 25 27 2s 29 30 3132 33 34 35 36 37 as 39 40 Forward Vollage (V) Figure 2: Typical Flux vs. Drive Current Ti : 25°C
Bridgelux Vero 18 Array Series Product Data Sheet DS32 (4/21/2014) Page 10 of 17
Drive Current versus Forward Voltage Characteristics
Figure 1: Typical Drive Current vs. Voltage
Typical Relative Luminous Flux vs. Drive Current, Tj=25°C
Figure 2: Typical Flux vs. Drive Current, Tj = 25°C
0%
20%
40%
60%
80%
100%
120%
140%
160%
180%
200%
0 500 1000 1500 2000 2500
Relative Intensity
Current (mA)
Figure 3: Typical Flux vs. Junction Temperature — — Warm White -----Coo| Whne — Neutral While
Bridgelux Vero 18 Array Series Product Data Sheet DS32 (4/21/2014) Page 11 of 17
Typical Light Output Characteristics vs. Temperature
Figure 3: Typical Flux vs. Junction Temperature
Notes for Figure 3:
1. Characteristics shown for warm white reflect 3000K 80 CRI.
2. Characteristics shown for neutral white reflect 4000K 80 CRI.
3. Characteristics shown for cool white reflect 5000K 70 CRI.
70%
80%
90%
100%
110%
-10 0 10 20 30 40 50 60 70 80 90 100 110 120 130
Normalized Luminous Flux
Junction Temperature, °C
Figure 4: Typical ccy snitt vs. Junction Temperature Figure 5: Typical ccx Shift vs. Junction Temperature
Bridgelux Vero 18 Array Series Product Data Sheet DS32 (4/21/2014) Page 12 of 17
Typical Chromaticity Characteristics vs. Temperature
Figure 4: Typical ccy Shift vs. Junction Temperature
Figure 5: Typical ccx Shift vs. Junction Temperature
Notes for Figures 4 and 5:
1. Characteristics shown for warm white reflect 3000K 80 CRI.
2. Characteristics shown for neutral white reflect 4000K 80 CRI.
3. Characteristics shown for cool white reflect 5000K 70 CRI.
-0.01
0.00
0.01
0.02
-10 0 10 20 30 40 50 60 70 80 90 100 110 120 130
Δy
Junction Temperature, °C
Warm White
Cool White
Neutral White
-0.02
-0.01
0.00
0.01
0.02
-10 0 10 20 30 40 50 60 70 80 90 100 110 120 130
Δx
Junction Temperature, °C
Warm White
Cool White
Neutral White
Fgure .TyE alSEat IRa at nPattern Figure 7: Tygical Polar Radiation Pattern -30' -15' 0' 15' 30' 45' ’60‘ 75' 90'
Bridgelux Vero 18 Array Series Product Data Sheet DS32 (4/21/2014) Page 13 of 17
Typical Radiation Pattern
Figure 6: Typical Spatial Radiation Pattern
Notes for figure 6:
1. Typical viewing angle is 120⁰.
2. The viewing angle is defined as the off axis angle form the centerline where Iv is ½ of the peak value.
Figure 7: Typical Polar Radiation Pattern
0%
10%
20%
30%
40%
50%
60%
70%
80%
90%
100%
-90° -80° -70° -60° -50° -40° -30° -20° -10° 10° 20° 30° 40° 50° 60° 70° 80° 90°
Relative Intensity (%)
Angular Displacement (°)
Figure 8: Typical Color Spectrum Fi ure 9: Drawin for Vero 18 LED Arra @ 352* ' - ‘ 5
Bridgelux Vero 18 Array Series Product Data Sheet DS32 (4/21/2014) Page 14 of 17
Wavelength Characteristics at Drive Current, Tj=25°C
Figure 8: Typical Color Spectrum
Notes for Figure 8:
1. Color spectrum shown for warm white is 3000K 80 CRI.
2. Color spectrum shown for neutral white is 4000K 80 CRI.
3. Color spectrum shown for cool white is 5000K 70 CRI.
Mechanical Dimensions
Figure 9: Drawing for Vero 18 LED Array
Notes for Figure 9:
1. Mounting holes (2X) are for M2.5 screws.
2. Bridgelux recommends two tapped holes for mounting screws with 31.4 ± 0.10mm center-to-center spacing.
3. Screws with flat shoulders (pan, dome, button, round, truss, mushroom) provide optimal torque control. Do NOT use flat, countersink, or
raised head screws.
4. Solder pads and connector port are labeled “+” and “- to denote positive and negative, respectively.
5. It is not necessary to provide electrical connections to both the solder pads and the connector port. Either set may be used depending on
application specific design requirements.
6. Drawings are not to scale.
7. Drawing dimensions are in millimeters.
8. Unless otherwise specified, tolerances are ± 0.10mm.
9. Refer to Application Notes AN30 and AN31 for product handling, mounting and heat sink recommendations.
10. The optical center of the LED Array is nominally defined by the mechanical center of the array to a tolerance of ± 0.2mm.
11. Bridgelux maintains a flatness of 0.10mm across the mounting surface of the array.
12. Bridgelux Vero 18 LED arrays are packaged in trays of 20 units with a maximum planar dimension of 215.mm x 279.4 mm (8.5 x 11 inches)
per tray.
0%
10%
20%
30%
40%
50%
60%
70%
80%
90%
100%
110%
400 450 500 550 600 650 700 750 800
Relative Intensity
Wavelength (nm)
3000K 4000K 5000K
Figure 10: Graph of Warm White Test Bins In xy Color Space Table 10: Warm White xv Bin Coordinates and Associated Typical CCT Figure 11: Graph of Neutral White Test Bins in xv Color Space Table 11: Neutral White xv Bin Coordinates and Associated Typical CCT
Bridgelux Vero 18 Array Series Product Data Sheet DS32 (4/21/2014) Page 15 of 17
Color Binning Information
Figure 10: Graph of Warm White Test Bins in xy Color Space
Note: Pulsed Test Conditions, Tj = 25°C
Table 10: Warm White xy Bin Coordinates and Associated Typical CCT
Bin Code
2700K
3000K
3500K
ANSI Bin
(for reference only)
(2580K - 2870K)
(2870K - 3220K)
(3220K - 3710K)
03 (3SDCM)
(2651K - 2794K)
(2968K - 3136K)
(3369K - 3586K)
02 (2SDCM)
(2674K - 2769K)
(2995K - 3107K)
(3404K - 3548K)
Center Point (x,y)
(0.4578, 0.4101)
(0.4338, 0.403)
(0.4073, 0.3917)
Figure 11: Graph of Neutral White Test Bins in xy Color Space
Note: Pulsed Test Conditions, Tj = 25°C
Table 11: Neutral White xy Bin Coordinates and Associated Typical CCT
Bin Code
4000K
ANSI Bin
(for reference only)
(3710K - 4260K)
03 (3SDCM)
(3851K - 4130K)
02 (2SDCM)
(3895K - 4081K)
Center Point (x,y)
(0.3818, 0.3797)
0.36
0.37
0.38
0.39
0.40
0.41
0.42
0.43
0.44
0.38 0.39 0.40 0.41 0.42 0.43 0.44 0.45 0.46 0.47 0.48
Planckian Locus (BBL) ANSI Bin 2SDCM 3SDCM
3500K
3000K 2700K
0.35
0.36
0.37
0.38
0.39
0.40
0.41
0.36 0.37 0.38 0.39 0.4 0.41
Planckian Locus (BBL) ANSI Bin 2SDCM 3SDCM
4000K
Figure 12: Graph of Cool White Test Bins in xy Color Space Table 12: Cool white xv Bin Coordinates and Associated Typical CCT
Bridgelux Vero 18 Array Series Product Data Sheet DS32 (4/21/2014) Page 16 of 17
Color Binning Information (continued)
Figure 12: Graph of Cool White Test Bins in xy Color Space
Note: Pulsed Test Conditions, Tj = 25°C
Table 12: Cool White xy Bin Coordinates and Associated Typical CCT
Bin Code
5000K
5600K
ANSI Bin
(for reference only)
(4745K - 5310K)
(5310K - 6020K)
04 (4SDCM)
(4801K - 5282K)
(5396K - 5970K)
Center Point (x,y)
(0.3447, 0.3553)
(0.3287,0.3417)
0.32
0.33
0.34
0.35
0.36
0.37
0.38
0.32 0.33 0.34 0.35 0.36
Planckian Locus (BBL) 4SDCM ANSI Bin
5600K
5000K
© 2014 Bridgelux, Inc. All rights reserved. Product specifications are subject to change without notice.
Bridgelux Vero 18 Array Series Product Data Sheet DS32 (2/3/2014) Page 17 of 17
Design Resources
Bridgelux is developing a comprehensive set of application notes and design resources to assist customers in successfully
designing with the Vero product family of LED array products. Included below is a list of resources under development
which will be downloaded from the Bridgelux web site under the Design Resources section.
Application Notes
AN30: Effective Thermal Management of Bridgelux Vero LED Arrays
AN31: Assembly Considerations for Bridgelux Vero LED Arrays
AN32: Electrical Drive Considerations for Bridgelux Vero LED Arrays
AN34: Reliability Data Sheet for Bridgelux Vero LED Arrays
AN36: Optical Considerations for Bridgelux Vero LED Arrays
Optical Source Models
Optical source models and ray set files are available for all Bridgelux Vero LED array products. The list below contains
the formats currently available. If you require a specific format not included in this list, please contact your Bridgelux
sales representative for assistance.
Zemax
ASAP
IESNA
LightTools
LucidShape
OPTIS SPEOS
PHOTOPIA
TracePro
Radiant Imaging Source Model
3D CAD Models
Three dimensional CAD models depicting the product outline of all Bridgelux Vero LED arrays are available in both SAT
and STEP formats. Please contact your Bridgelux sales representative for assistance.
About Bridgelux
Bridgelux is a leading developer and manufacturer of technologies and solutions transforming the $40 billion global
lighting industry into a $100 billion market opportunity. Based in Livermore, California, Bridgelux is a pioneer in solid
state lighting (SSL), expanding the market for light emitting diode (LED) technologies by driving down the cost of LED
lighting systems. Bridgelux’s patented light source technology replaces traditional technologies (such as incandescent,
halogen, fluorescent and high intensity discharge lighting) with integrated, solid state lighting solutions that enable lamp
and luminaire manufacturers to provide high performance and energy efficient white light for the rapidly growing
interior and exterior lighting markets, including street lights, commercial lighting and consumer applications.
For more information about the company, please visit www.bridgelux.com.
Bridgelux and the Bridgelux stylized logo design are registered trademarks, and Vero is a trademark, of Bridgelux, Inc. All
other trademarks are the property of their respective owners.

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