BXRC-35A4001-D-73-SE 数据手册
®
®
Bridgelux Décor Series Class A on Vero SE
Series LED Array
™
Product Data Sheet DS125
BXRC-30A1001
BXRC-35A1001
BXRC-40A1001
|
|
|
30A2001
35A2001
40A2001
|
|
|
30A4001
35A4001
40A4001
|
|
|
30A10K1
35A10K1
40A10K1
Vero SE
Introduction
Bridgelux Décor Series™ Class A on Vero SE products are a revolutionary advancement in lighting designed to match
how humans perceive and prefer light. The Class A specification was created by the Lighting Research Center (LRC)
behavior studies in conjunction with Bridgelux and other ASSIST members. Based on human factor response testing,
the Décor Series Class A products provide vibrant, natural and brilliant looking light, evoking an emotional attraction
and response. The Décor Series Class A products were developed for high-end retail, museum, architectural, premium
building and hospitality applications.
Bridgelux Décor Series Class A on Vero SE products are available on all Vero SE form factors. The platform has been
engineered with poke-in connectivity options and can operate over a broad current range, enabling multiple degrees of
flexibility in luminaire design optimization.
Features
• Poke-in connectivity
• Light quality is based on human perception of
color and light
• High gamut area index (GAI)
Benefits
• Poke-in connectivity enables solderless, connector
free installation
• Broad application coverage for interior and
exterior lighting
• No harmful UV or near IR light in the spectrum
• Flexibility for application driven lighting design
requirements
• Substantially broader GAI and color spectrum
than halogen
• High quality, true color reproduction
• Radial die pattern enhances optical uniformity
• Based on Bridgelux Vero® Series LED array platform
• No exposed solder pads or electrical connections
• Uniform consistent white light
• Flexibility in design optimization
• Enhanced ease of use and manufacturability
• Ability to configure multiple Vero SE in series and
parallel reduces customer driver cost
Contents
Product Feature Map
2
Product Nomenclature
2
Product Selection Guide
3
Performance at Commonly Used Drive Currents
7
Electrical Characteristics
11
Eye Safety
12
Absolute Maximum Ratings
13
Performance Curves
14
Typical Radiation Pattern
20
Typical Color Spectrum
22
Mechanical Dimensions
21
Packaging and Labeling
25
Design Resources
28
Precautions
28
Disclaimers
28
About Bridgelux
29
1
Product Feature Map
In addition to delivering the performance and light
quality required for many lighting applications, Décor
Series Class A on Vero SE LED arrays incorporate
several features to simplify the design integration and
manufacturing process, accelerate time to market and
reduce system costs.
Polarity indication marks simplify
manufacturing operator instructions
Wire release mechanisms x4
2D Bar code provides full
manufacturing traceability
Optic mounting holes
Tc Measurement point
Radial die configuration improves lumen
density and beam control
Mounting location
Zhaga Book 3 compatible
mounting locations
Top side part number marking improves
inventory management and outgoing
quality control
Test port for probing
Dual poke-in connectors
Product Nomenclature
The part number designation for Bridgelux Décor Class A on Vero SE LED arrays is explained as follows:
1 2 3 4
5 6
7 8 9 10 11
–
12
– 13 14
-
15 16
BXRC – 30 A 1001 – B – 7 3 - SE
Special Edition
Product Family
Nominal CCT
30 = 3,000K
35 = 3,500K
40 = 4,000K
Gen. 7
CCT Bin Options
3 = 3 SDCM
Array Configuration
Typical GAI
GAI >80
Nominal Flux
1001- 1000lm
2001- 2000lm
4001- 4000lm
10K1- 10,000lm
2
Product Selection Guide
The following product configurations are available:
Table 1: Selection Guide, Pulsed Measurement Data (Tj = Tc = 25°C)
Nominal
Drive
Current4
(mA)
Typical Pulsed
Flux5,6,7
Tc = 25ºC
(lm)
Minimum
Pulsed Flux7,8
Tc = 25ºC
(lm)
Typical
Vf
(V)
93
270
93
360
1056
929
1407
1238
80
93
350
1026
3500
80
93
270
BXRC-35A1001-C-73-SE
3500
BXRC-35A1001-D-73-SE
3500
80
93
80
93
BXRC-40A1001-B-73-SE
4000
80
Décor Class A Vero SE 10
Décor Class A Vero SE 10
BXRC-40A1001-C-73-SE
4000
BXRC-40A1001-D-73-SE
4000
Décor Class A Vero SE 13
BXRC-30A2001-B-73-SE
Décor Class A Vero SE 13
Part Number
Nominal
CCT1
(K)
GAI2
CRI3
Typical
Power
(W)
Typical
Efficacy
(lm/W)
Décor Class A Vero SE 10
BXRC-30A1001-B-73-SE
3000
80
Décor Class A Vero SE 10
BXRC-30A1001-C-73-SE
3000
80
35.0
9.4
113
35.0
12.5
Décor Class A Vero SE 10
BXRC-30A1001-D-73-SE
3000
113
903
26.0
9.1
Décor Class A Vero SE 10
BXRC-35A1001-B-73-SE
113
1137
1001
35.0
9.4
122
Décor Class A Vero SE 10
Décor Class A Vero SE 10
360
1516
1335
35.0
12.5
122
350
1106
973
26.0
9.1
Décor Class A Vero SE 10
122
93
270
1210
1065
35.0
9.4
129
80
93
360
1614
1420
35.0
12.5
129
80
93
350
1176
1035
26.0
9.1
129
3000
80
93
450
1836
1652
35.0
15.6
118
BXRC-30A2001-C-73-SE
3000
80
93
630
2570
2313
35.0
21.9
118
Décor Class A Vero SE 13
BXRC-30A2001-D-73-SE
3000
80
93
500
1869
1683
31.8
15.9
118
Décor Class A Vero SE 13
BXRC-35A2001-B-73-SE
3500
80
93
450
1974
1776
35.0
15.6
126
Décor Class A Vero SE 13
BXRC-35A2001-C-73-SE
3500
80
93
630
2763
2486
35.0
21.9
126
Décor Class A Vero SE 13
BXRC-35A2001-D-73-SE
3500
80
93
500
2009
1808
31.8
15.9
126
Décor Class A Vero SE 13
BXRC-40A2001-B-73-SE
4000
80
93
450
2111
1900
35.0
15.6
135
Décor Class A Vero SE 13
BXRC-40A2001-C-73-SE
4000
80
93
630
2955
2660
35.0
21.9
135
Décor Class A Vero SE 13
BXRC-40A2001-D-73-SE
4000
80
93
500
2150
1936
31.8
15.9
135
Décor Class A Vero SE 18
BXRC-30A4001-B-73-SE
3000
80
93
900
3696
3327
35.0
31.2
118
Décor Class A Vero SE 18
BXRC-30A4001-C-73-SE
3000
80
93
1170
4807
4326
35.0
40.6
118
Décor Class A Vero SE 18
BXRC-30A4001-D-73-SE
3000
80
93
1050
3594
3234
29.0
30.4
118
Décor Class A Vero SE 18
BXRC-35A4001-B-73-SE
3500
80
93
900
3974
3576
35.0
31.2
127
Décor Class A Vero SE 18
BXRC-35A4001-C-73-SE
3500
80
93
1170
5167
4650
35.0
40.6
127
Décor Class A Vero SE 18
BXRC-35A4001-D-73-SE
3500
80
93
1050
3864
3477
29.0
30.4
127
Décor Class A Vero SE 18
BXRC-40A4001-B-73-SE
4000
80
93
900
4251
3826
35.0
31.2
136
Décor Class A Vero SE 18
BXRC-40A4001-C-73-SE
4000
80
93
1170
5527
4974
35.0
40.6
136
Décor Class A Vero SE 18
BXRC-40A4001-D-73-SE
4000
80
93
1050
4134
3720
29.0
30.4
136
Décor Class A Vero SE 29
BXRC-30A10K1-B-73-SE
3000
80
93
1800
11209
10088
52.0
93.6
120
Décor Class A Vero SE 29
BXRC-30A10K1-C-73-SE
3000
80
93
1710
14197
12778
69.4
118.6
120
Décor Class A Vero SE 29
BXRC-30A10K1-D-73-SE
3000
80
93
2100
9444
8500
37.6
78.9
120
Décor Class A Vero SE 29
BXRC-35A10K1-B-73-SE
3500
80
93
1800
12050
10845
52.0
93.6
129
Décor Class A Vero SE 29
BXRC-35A10K1-C-73-SE
3500
80
93
1710
15263
13737
69.4
118.6
129
Décor Class A Vero SE 29
BXRC-35A10K1-D-73-SE
3500
80
93
2100
10153
9137
37.6
78.9
129
Décor Class A Vero SE 29
BXRC-40A10K1-B-73-SE
4000
80
93
1800
12890
11601
52.0
93.6
138
Décor Class A Vero SE 29
BXRC-40A10K1-C-73-SE
4000
80
93
1710
16327
14694
69.4
118.6
138
Décor Class A Vero SE 29
BXRC-40A10K1-D-73-SE
4000
80
93
2100
10861
9775
37.6
78.9
138
Product
Notes for Table 1:
1. Nominal CCT is defined by the Lighting Research Center’s Class A definition. The center of the Class A color bin is on the corresponding isothermal line.
2. To help ensure optimal fixture level performance, GAI is measured at the fixture level, on axis, at a case temperature of 70°C. GAI may vary depending
on fixture design and performance.
3. CRI Values are specified as typical.
4. Drive current is referred to as nominal drive current.
5. Products tested under pulsed condition (10ms pulse width) at nominal test current where Tj (junction temperature) = Tc (case temperature) = 25°C.
6. Typical performance values are provided as a reference only and are not a guarantee of performance.
7. Bridgelux maintains a ±7% tolerance on flux measurements.
8. Minimum flux values at the nominal test current are guaranteed by 100% test.
3
Product Selection Guide
The following product configurations are available:
Table 2: Selection Guide, Stabilized DC Performance (Tc = 70°C) 4,5
Nominal
Drive
Current4
(mA)
Minimum DC
Flux6
Tc = 70ºC
(lm)
Typical
Vf
(V)
982
864
1309
1152
955
270
93
80
93
4000
80
93
270
4000
80
93
360
BXRC-40A1001-D-73-SE
4000
80
93
350
Décor Class A Vero SE 13
BXRC-30A2001-B-73-SE
3000
80
93
Décor Class A Vero SE 13
BXRC-30A2001-C-73-SE
3000
80
93
Décor Class A Vero SE 13
BXRC-30A2001-D-73-SE
3000
80
93
Décor Class A Vero SE 13
BXRC-35A2001-B-73-SE
3500
80
93
Décor Class A Vero SE 13
BXRC-35A2001-C-73-SE
3500
80
Décor Class A Vero SE 13
BXRC-35A2001-D-73-SE
3500
80
Décor Class A Vero SE 13
BXRC-40A2001-B-73-SE
4000
80
93
Décor Class A Vero SE 13
BXRC-40A2001-C-73-SE
4000
80
93
Décor Class A Vero SE 13
BXRC-40A2001-D-73-SE
4000
80
93
500
Décor Class A Vero SE 18
BXRC-30A4001-B-73-SE
3000
80
93
Décor Class A Vero SE 18
BXRC-30A4001-C-73-SE
3000
80
93
Décor Class A Vero SE 18
BXRC-30A4001-D-73-SE
3000
80
93
Décor Class A Vero SE 18
BXRC-35A4001-B-73-SE
3500
80
Décor Class A Vero SE 18
BXRC-35A4001-C-73-SE
3500
80
Décor Class A Vero SE 18
BXRC-35A4001-D-73-SE
3500
Décor Class A Vero SE 18
BXRC-40A4001-B-73-SE
Décor Class A Vero SE 18
Part Number
Nominal
CCT1
(K)
GAI2
CRI3
Décor Class A Vero SE 10
BXRC-30A1001-B-73-SE
3000
80
93
270
Décor Class A Vero SE 10
BXRC-30A1001-C-73-SE
3000
80
93
360
Décor Class A Vero SE 10
BXRC-30A1001-D-73-SE
3000
80
93
350
Décor Class A Vero SE 10
BXRC-35A1001-B-73-SE
3500
80
93
Décor Class A Vero SE 10
BXRC-35A1001-C-73-SE
3500
80
Décor Class A Vero SE 10
BXRC-35A1001-D-73-SE
3500
Décor Class A Vero SE 10
BXRC-40A1001-B-73-SE
Décor Class A Vero SE 10
BXRC-40A1001-C-73-SE
Décor Class A Vero SE 10
Typical DC
Flux
Tc = 70ºC
(lm)
Typical
Power
(W)
Typical
Efficacy
(lm/W)
34.3
9.3
106
34.3
12.3
106
840
25.5
8.9
107
1058
931
34.3
9.3
114
360
1410
1241
34.3
12.3
114
350
1029
905
25.5
8.9
115
1125
991
34.3
9.3
122
1501
1321
34.3
12.3
122
1094
963
25.5
8.9
123
450
1707
1537
34.4
15.5
110
630
2390
2151
34.4
21.6
110
500
1738
1565
31.2
15.6
111
450
1836
1651
34.4
15.5
119
93
630
2569
2312
34.4
21.6
119
93
500
1868
1682
31.2
15.6
120
450
1963
1767
34.4
15.5
127
630
2748
2474
34.4
21.6
127
2000
1800
31.2
15.6
128
900
3438
3094
34.3
30.9
111
1170
4470
4023
34.3
40.2
111
1050
3342
3008
28.5
29.9
112
93
900
3696
3326
34.3
30.9
120
93
1170
4805
4324
34.3
40.2
120
80
93
1050
3594
3234
28.5
29.9
120
4000
80
93
900
3953
3558
34.3
30.9
128
BXRC-40A4001-C-73-SE
4000
80
93
1170
5140
4626
34.3
40.2
128
Décor Class A Vero SE 18
BXRC-40A4001-D-73-SE
4000
80
93
1050
3844
3460
28.5
29.9
129
Décor Class A Vero SE 29
BXRC-30A10K1-B-73-SE
3000
80
93
1800
10424
9382
50.9
91.6
114
Décor Class A Vero SE 29
BXRC-30A10K1-C-73-SE
3000
80
93
1710
13204
11884
67.9
116.1
114
Décor Class A Vero SE 29
BXRC-30A10K1-D-73-SE
3000
80
93
2100
8783
7905
36.8
77.3
114
Décor Class A Vero SE 29
BXRC-35A10K1-B-73-SE
3500
80
93
1800
11206
10086
50.9
91.6
122
Décor Class A Vero SE 29
BXRC-35A10K1-C-73-SE
3500
80
93
1710
14194
12775
67.9
116.1
122
Décor Class A Vero SE 29
BXRC-35A10K1-D-73-SE
3500
80
93
2100
9442
8498
36.8
77.3
122
Décor Class A Vero SE 29
BXRC-40A10K1-B-73-SE
4000
80
93
1800
11987
10789
50.9
91.6
131
Décor Class A Vero SE 29
BXRC-40A10K1-C-73-SE
4000
80
93
1710
15184
13666
67.9
116.1
131
Décor Class A Vero SE 29
BXRC-40A10K1-D-73-SE
4000
80
93
2100
10101
9090
36.8
77.3
131
Product
Notes for Table 2:
1. Nominal CCT is defined by the Lighting Research Center’s Class A definition. The center of the Class A color bin is on the corresponding isothermal line.
2. To help ensure optimal fixture level performance, GAI is measured at the fixture level, on axis, at a case temperature of 70°C. GAI may vary depending
on fixture design and performance.
3. CRI Values are specified as typical.
4. Drive current is referred to as nominal drive current.
5. Typical performance values are provided as a reference only and are not a guarantee of performance.
6. Bridgelux maintains a ±7% tolerance on flux measurements.
7. Typical stabilized DC performance values are provided as reference only and are not a guarantee of performance.
8. Typical performance is estimated based on operation under DC (direct current) with LED array mounted onto a heat sink with thermal interface material
and the case temperature maintained at specified temperature. 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.
9. Minimum flux values at elevated temperatures are provided for reference only and are not guaranteed by 100% 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.
4
Product Selection Guide
The following product configurations are available:
Table 3: Selection Guide, Pulsed Measurement Data (Tj = Tc = 85°C)
Nominal
Drive
Current4
(mA)
Typical Pulsed
Flux5,6,7
Tc = 85ºC
(lm)
Minimum
Pulsed Flux7,8
Tc = 85ºC
(lm)
Typical
Vf
(V)
950
836
1267
1114
Part Number
Nominal
CCT1
(K)
GAI2
CRI3
Typical
Power
(W)
Typical
Efficacy
(lm/W)
Décor Class A Vero SE 10
BXRC-30A1001-B-73-SE
3000
80
93
270
Décor Class A Vero SE 10
BXRC-30A1001-C-73-SE
3000
80
93
360
34.0
9.2
103
34.0
12.3
Décor Class A Vero SE 10
BXRC-30A1001-D-73-SE
3000
80
93
350
924
103
813
25.3
8.9
104
Décor Class A Vero SE 10
BXRC-35A1001-B-73-SE
3500
80
93
270
Décor Class A Vero SE 10
BXRC-35A1001-C-73-SE
3500
80
93
360
1024
901
34.0
9.2
111
1365
1201
34.0
12.3
Décor Class A Vero SE 10
BXRC-35A1001-D-73-SE
3500
80
93
350
996
111
876
25.3
8.9
112
Décor Class A Vero SE 10
BXRC-40A1001-B-73-SE
4000
80
93
270
Décor Class A Vero SE 10
BXRC-40A1001-C-73-SE
4000
80
93
360
1089
959
34.0
9.2
119
1452
1278
34.0
12.3
Décor Class A Vero SE 10
BXRC-40A1001-D-73-SE
4000
80
93
119
350
1059
932
25.3
8.9
120
Décor Class A Vero SE 13
BXRC-30A2001-B-73-SE
3000
80
Décor Class A Vero SE 13
BXRC-30A2001-C-73-SE
3000
80
93
450
1652
1487
34.1
15.4
108
93
630
2313
2082
34.1
21.5
Décor Class A Vero SE 13
BXRC-30A2001-D-73-SE
3000
108
80
93
500
1682
1514
31.0
15.5
Décor Class A Vero SE 13
BXRC-35A2001-B-73-SE
109
3500
80
93
450
1776
1598
34.1
15.4
Décor Class A Vero SE 13
116
BXRC-35A2001-C-73-SE
3500
80
93
630
2486
2238
34.1
21.5
116
Décor Class A Vero SE 13
BXRC-35A2001-D-73-SE
3500
80
93
500
1808
1627
31.0
15.5
117
Décor Class A Vero SE 13
BXRC-40A2001-B-73-SE
4000
80
93
450
1900
1710
34.1
15.4
124
Décor Class A Vero SE 13
BXRC-40A2001-C-73-SE
4000
80
93
630
2659
2394
34.1
21.5
124
Décor Class A Vero SE 13
BXRC-40A2001-D-73-SE
4000
80
93
500
1935
1742
31.0
15.5
125
Décor Class A Vero SE 18
BXRC-30A4001-B-73-SE
3000
80
93
900
3327
2994
34.1
30.7
108
Décor Class A Vero SE 18
BXRC-30A4001-C-73-SE
3000
80
93
1170
4326
3893
34.1
39.9
108
Décor Class A Vero SE 18
BXRC-30A4001-D-73-SE
3000
80
93
1050
3234
2911
28.3
29.7
109
Décor Class A Vero SE 18
BXRC-35A4001-B-73-SE
3500
80
93
900
3576
3218
34.1
30.7
117
Décor Class A Vero SE 18
BXRC-35A4001-C-73-SE
3500
80
93
1170
4650
4185
34.1
39.9
117
Décor Class A Vero SE 18
BXRC-35A4001-D-73-SE
3500
80
93
1050
3478
3129
28.3
29.7
117
Décor Class A Vero SE 18
BXRC-40A4001-B-73-SE
4000
80
93
900
3826
3443
34.1
30.7
125
Décor Class A Vero SE 18
BXRC-40A4001-C-73-SE
4000
80
93
1170
4974
4477
34.1
39.9
125
Décor Class A Vero SE 18
BXRC-40A4001-D-73-SE
4000
80
93
1050
3720
3348
28.3
29.7
125
Décor Class A Vero SE 29
BXRC-30A10K1-B-73-SE
3000
80
93
1800
10088
9079
50.5
90.9
111
Décor Class A Vero SE 29
BXRC-30A10K1-C-73-SE
3000
80
93
1710
12778
11500
67.4
115.3
111
Décor Class A Vero SE 29
BXRC-30A10K1-D-73-SE
3000
80
93
2100
8500
7650
36.6
76.8
111
Décor Class A Vero SE 29
BXRC-35A10K1-B-73-SE
3500
80
93
1800
10845
9760
50.5
90.9
119
Décor Class A Vero SE 29
BXRC-35A10K1-C-73-SE
3500
80
93
1710
13736
12363
67.4
115.2
119
Décor Class A Vero SE 29
BXRC-35A10K1-D-73-SE
3500
80
93
2100
9137
8223
36.6
76.8
119
Décor Class A Vero SE 29
BXRC-40A10K1-B-73-SE
4000
80
93
1800
11601
10441
50.5
90.9
128
Décor Class A Vero SE 29
BXRC-40A10K1-C-73-SE
4000
80
93
1710
14694
13225
67.4
115.2
128
Décor Class A Vero SE 29
BXRC-40A10K1-D-73-SE
4000
80
93
2100
9775
8797
36.6
76.8
127
Product
Notes for Table 3:
1. Nominal CCT is defined by the Lighting Research Center’s Class A definition. The center of the Class A color bin is on the corresponding isothermal line.
2. To help ensure optimal fixture level performance, GAI is measured at the fixture level, on axis, at a case temperature of 70°C. GAI may vary depending
on fixture design and performance.
3. CRI Values are specified as typical.
4. Drive current is referred to as nominal drive current.
5. Typical performance values are provided as a reference only and are not a guarantee of performance.
6. Bridgelux maintains a ±7% tolerance on flux measurements.
7. Typical stabilized DC performance values are provided as reference only and are not a guarantee of performance.
8. Typical performance is estimated based on operation under DC (direct current) with LED array mounted onto a heat sink with thermal interface material
and the case temperature maintained at specified temperature. 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.
9. Minimum flux values at elevated temperatures are provided for reference only and are not guaranteed by 100% 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.
5
Performance at Commonly Used Drive Currents
Vero SE LED arrays are tested to the specifications shown using the nominal drive currents in Table 1. Vero SE 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 1-12 and the flux vs. current
characteristics shown in Figures 13-24. The performance at commonly used drive currents is summarized in Table 4.
Table 4: Product Performance at Commonly Used Drive Currents
Product
Décor Class A
Vero SE 10
Décor Class A
Vero SE 10
Décor Class A
Vero SE 10
Décor Class A
Vero SE 10
Décor Class A
Vero SE 10
Décor Class A
Vero SE 10
Part Number
BXRC-30A1001-B-73-SE
BXRC-30A1001-C-73-SE
BXRC-30A1001-D-73-SE
BXRC-35A1001-B-73-SE
BXRC-35A1001-C-73-SE
BXRC-35A1001-D-73-SE
GAI
80
80
80
80
80
80
CRI
Drive
Current1
(mA)
Typical Vf
Tc = 25ºC
(V)
Typical
Power
Tc = 25ºC
(W)
Typical
Flux2
Tc = 25ºC
(lm)
Typical
DC Flux3
Tc = 85ºC
(lm)
Typical
Efficacy
Tc = 25ºC
(lm/W)
93
135
180
270
405
540
33.3
33.8
35.0
36.4
37.8
4.5
6.1
9.5
14.8
20.4
562
738
1056
1549
1984
506
664
950
1394
1786
125
121
112
105
97
93
180
240
360
540
720
33.3
33.8
35.0
36.4
37.7
6.0
8.1
12.6
19.7
27.1
748
980
1407
2049
2618
673
882
1267
1845
2356
125
121
112
104
96
93
175
233
350
525
700
24.9
25.4
26.0
27.4
28.4
4.4
5.9
9.1
14.4
19.9
548
719
1026
1511
1936
493
647
924
1360
1742
126
122
113
105
97
93
135
180
270
405
540
33.3
33.8
35.0
36.4
37.8
4.5
6.1
9.5
14.8
20.4
606
795
1137
1668
2137
545
715
1024
1502
1924
135
130
120
113
105
93
180
240
360
540
720
33.3
33.8
35.0
36.4
37.7
6.0
8.1
12.6
19.7
27.1
806
1056
1516
2208
2820
726
951
1365
1987
2538
135
130
120
112
104
93
175
233
350
525
700
24.9
25.4
26.0
27.4
28.4
4.4
5.9
9.1
14.4
19.9
591
775
1106
1628
2086
532
697
996
1465
1877
135
131
122
113
105
Notes for Table 4:
1. Alternate drive currents in Table 4 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 not a guarantee of performance.
6
Performance at Commonly Used Drive Currents
Table 4: Product Performance at Commonly Used Drive Currents (Continued)
Product
Décor Class A
Vero SE 10
Décor Class A
Vero SE 10
Décor Class A
Vero SE 10
Décor Class A
Vero SE 13
Décor Class A
Vero SE 13
Décor Class A
Vero SE 13
Décor Class A
Vero SE 13
Décor Class A
Vero SE 13
Décor Class A
Vero SE 13
Part Number
BXRC-40A1001-B-73-SE
BXRC-40A1001-C-73-SE
BXRC-40A1001-D-73-SE
BXRC-30A2001-B-73-SE
BXRC-30A2001-C-73-SE
BXRC-30A2001-D-73-SE
BXRC-35A2001-B-73-SE
BXRC-35A2001-C-73-SE
BXRC-35A2001-D-73-SE
GAI
80
80
80
80
80
80
80
80
80
CRI
93
93
93
93
93
93
93
93
93
Drive
Current1
(mA)
Typical Vf
Tc = 25ºC
(V)
Typical
Power
Tc = 25ºC
(W)
Typical
Flux2
Tc = 25ºC
(lm)
Typical
DC Flux3
Tc = 85ºC
(lm)
Typical
Efficacy
Tc = 25ºC
(lm/W)
135
33.3
4.5
645
580
144
180
33.8
6.1
846
761
139
270
35.0
9.5
1210
1089
128
405
36.4
14.8
1775
1598
120
540
37.8
20.4
2274
2047
112
180
33.3
6.0
858
772
143
240
33.8
8.1
1124
1011
138
360
35.0
12.6
1614
1452
128
540
36.4
19.7
2350
2115
120
720
37.7
27.1
3001
2701
111
175
24.9
4.4
628
565
144
233
25.4
5.9
824
741
139
350
26.0
9.1
1176
1059
129
120
525
27.4
14.4
1731
1558
700
28.4
19.9
2218
1996
112
113
32.3
3.7
500
450
137
225
33.2
7.5
968
871
129
450
35.0
15.8
1836
1652
117
675
36.3
24.5
2653
2387
108
900
37.5
33.7
3384
3045
100
158
32.3
5.1
694
625
136
315
33.2
10.5
1344
1210
128
630
35.0
22.1
2570
2313
117
107
945
36.4
34.4
3688
3319
1260
37.8
47.6
4707
4236
99
125
29.6
3.7
495
445
134
250
30.3
7.6
959
863
126
500
31.8
15.9
1869
1682
118
106
750
33.2
24.9
2641
2377
1000
34.4
34.4
3377
3039
98
113
32.3
3.7
538
484
147
225
33.2
7.5
1040
936
139
450
35.0
15.8
1974
1776
125
675
36.3
24.5
2852
2567
117
900
37.5
33.7
3638
3275
108
158
32.3
5.1
746
672
146
315
33.2
10.5
1445
1301
138
630
35.0
22.1
2763
2486
125
945
36.4
34.4
3965
3569
115
1260
37.8
47.6
5061
4555
106
125
29.6
3.7
532
479
144
250
30.3
7.6
1031
928
136
500
31.8
15.9
2009
1808
126
750
33.2
24.9
2839
2555
114
1000
34.4
34.4
3630
3267
105
Notes for Table 4:
1. Alternate drive currents in Table 4 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 not a guarantee of performance.
7
Performance at Commonly Used Drive Currents
Table 4: Product Performance at Commonly Used Drive Currents (Continued)
Product
Décor Class A
Vero SE 13
Décor Class A
Vero SE 13
Décor Class A
Vero SE 13
Décor Class A
Vero SE 18
Décor Class A
Vero SE 18
Décor Class A
Vero SE 18
Décor Class A
Vero SE 18
Décor Class A
Vero SE 18
Décor Class A
Vero SE 18
Part Number
BXRC-40A2001-B-73-SE
BXRC-40A2001-C-73-SE
BXRC-40A2001-D-73-SE
BXRC-30A4001-B-73-SE
BXRC-30A4001-C-73-SE
BXRC-30A4001-D-73-SE
BXRC-35A4001-B-73-SE
BXRC-35A4001-C-73-SE
BXRC-35A4001-D-73-SE
GAI
80
80
80
80
80
80
80
80
80
CRI
Drive
Current1
(mA)
Typical Vf
Tc = 25ºC
(V)
Typical
Power
Tc = 25ºC
(W)
93
93
93
93
93
93
93
93
93
Typical
Flux2
Tc = 25ºC
(lm)
Typical
DC Flux3
Tc = 85ºC
(lm)
Typical
Efficacy
Tc = 25ºC
(lm/W)
113
32.3
3.7
575
517
157
225
33.2
7.5
1113
1001
149
450
35.0
15.8
2111
1900
134
675
36.3
24.5
3051
2746
125
900
37.5
33.7
3891
3502
115
158
32.3
5.1
798
718
156
315
33.2
10.5
1545
1391
148
630
35.0
22.1
2955
2659
134
123
945
36.4
34.4
4241
3817
1260
37.8
47.6
5413
4871
114
125
29.6
3.7
569
512
154
250
30.3
7.6
1103
993
145
500
31.8
15.9
2150
1935
135
122
750
33.2
24.9
3038
2735
1000
34.4
34.4
3885
3497
113
450
33.3
15.0
1985
1786
132
600
33.9
20.4
2603
2343
128
900
35.0
31.5
3696
3327
117
1350
36.7
49.5
5498
4948
111
1800
38.0
68.4
7074
6367
103
129
585
33.4
19.5
2511
2260
780
34.0
26.5
3291
2962
124
1170
35.0
41.0
4807
4326
117
107
1755
36.8
64.5
6915
6223
2340
38.1
89.3
8870
7983
99
525
27.7
14.6
1914
1723
131
700
28.2
19.8
2489
2240
126
1050
29.0
30.5
3594
3234
118
107
1575
30.4
47.9
5133
4620
2100
31.5
66.2
6534
5881
99
450
33.3
15.0
2133
1920
142
600
33.9
20.4
2799
2519
137
900
35.0
31.5
3974
3576
126
119
1350
36.7
49.5
5910
5319
1800
38.0
68.4
7605
6845
111
585
33.4
19.5
2700
2430
138
780
34.0
26.5
3538
3184
133
1170
35.0
41.0
5167
4650
126
1755
36.8
64.5
7433
6690
115
2340
38.1
89.3
9535
8581
107
525
27.7
14.6
2058
1853
141
700
28.2
19.8
2677
2409
135
1050
29.0
30.5
3864
3478
127
1575
30.4
47.9
5519
4967
115
2100
31.5
66.2
7026
6323
106
Notes for Table 4:
1. Alternate drive currents in Table 4 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 not a guarantee of performance.
8
Performance at Commonly Used Drive Currents
Table 4: Product Performance at Commonly Used Drive Currents (Continued)
Product
Décor Class A
Vero SE 18
Décor Class A
Vero SE 18
Décor Class A
Vero SE 18
Décor Class A
Vero SE 29
Décor Class A
Vero SE 29
Décor Class A
Vero SE 29
Décor Class A
Vero SE 29
Décor Class A
Vero 29
Décor Class A
Vero SE 29
Part Number
BXRC-40A4001-B-73-SE
BXRC-40A4001-C-73-SE
BXRC-40A4001-D-73-SE
BXRC-30A10K1-B-73-SE
BXRC-30A10K1-C-73-SE
BXRC-30A10K1-D-73-SE
BXRC-35A10K1-B-73-SE
BXRC-35A10K1-C-73-SE
BXRC-35A10K1-D-73-SE
GAI
80
80
80
80
80
80
80
80
80
CRI
Drive
Current1
(mA)
93
93
93
93
93
93
93
93
93
Typical Vf
Tc = 25ºC
(V)
Typical
Power
Tc = 25ºC
(W)
Typical
Flux2
Tc = 25ºC
(lm)
Typical
DC Flux3
Tc = 85ºC
(lm)
Typical
Efficacy
Tc = 25ºC
(lm/W)
152
450
33.3
15.0
2282
2054
600
33.9
20.4
2994
2695
147
900
35.0
31.5
4251
3826
135
128
1350
36.7
49.5
6323
5690
1800
38.0
68.4
8136
7322
119
585
33.4
19.5
2888
2599
148
780
34.0
26.5
3784
3406
143
1170
35.0
41.0
5527
4974
135
123
1755
36.8
64.5
7951
7156
2340
38.1
89.3
10199
9180
114
525
27.7
14.6
2202
1982
151
700
28.2
19.8
2863
2577
145
1050
29.0
30.5
4134
3720
136
1575
30.4
47.9
5904
5314
123
2100
31.5
66.2
7516
6764
114
900
49.6
44.7
5873
5286
131
1200
50.5
60.6
7750
6975
128
1800
52.0
93.6
11209
10088
120
2700
54.1
146.1
16526
14874
113
3600
55.8
201.0
21308
19177
106
143
855
66.2
56.6
8065
7259
1140
67.3
76.7
10251
9226
134
1710
69.4
118.7
14197
12778
120
109
2565
72.1
185.0
20141
18127
3420
74.4
254.6
25245
22720
99
1050
35.4
37.2
5195
4675
140
1400
36.2
50.6
6686
6017
132
2100
37.6
79.0
9444
8500
120
108
3150
39.5
124.4
13445
12101
4200
41.2
172.9
16946
15251
98
900
49.6
44.7
6314
5683
141
1200
50.5
60.6
8331
7498
138
1800
52.0
93.6
12050
10845
129
122
2700
54.1
146.1
17766
15990
3600
55.8
201.0
22907
20616
114
855
66.2
56.6
8670
7803
153
1140
67.3
76.7
11020
9918
144
1710
69.4
118.7
15263
13736
129
2565
72.1
185.0
21652
19487
117
3420
74.4
254.6
27139
24425
107
150
1050
35.4
37.2
5584
5026
1400
36.2
50.6
7187
6468
142
2100
37.6
79.0
10153
9137
129
3150
39.5
124.4
14454
13008
116
4200
41.2
172.9
18217
16395
105
Notes for Table 4:
1. Alternate drive currents in Table 4 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 not a guarantee of performance.
9
Performance at Commonly Used Drive Currents
Table 4: Product Performance at Commonly Used Drive Currents (Continued)
Product
Décor Class A
Vero SE 29
Décor Class A
Vero SE 29
Décor Class A
Vero SE 29
Part Number
BXRC-40A10K1-B-73-SE
BXRC-40A10K1-C-73-SE
BXRC-40A10K1-D-73-SE
GAI
80
80
80
CRI
Drive
Current1
(mA)
Typical Vf
Tc = 25ºC
(V)
93
93
93
Typical
Power
Tc = 25ºC
(W)
Typical
Flux2
Tc = 25ºC
(lm)
Typical
DC Flux3
Tc = 85ºC
(lm)
Typical
Efficacy
Tc = 25ºC
(lm/W)
900
49.6
44.7
6754
6079
151
1200
50.5
60.6
8912
8021
147
1800
52.0
93.6
12890
11601
138
2700
54.1
146.1
19005
17104
130
3600
55.8
201.0
24503
22053
122
855
66.2
56.6
9275
8347
164
1140
67.3
76.7
11788
10610
154
1710
69.4
118.7
16327
14694
138
125
2565
72.1
185.0
23162
20846
3420
74.4
254.6
29031
26128
114
1050
35.4
37.2
5974
5377
161
1400
36.2
50.6
7688
6920
152
2100
37.6
79.0
10861
9775
138
3150
39.5
124.4
15462
13916
124
4200
41.2
172.9
19487
17539
113
Notes for Table 4:
1. Alternate drive currents in Table 4 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 not a guarantee of performance.
10
Electrical Characteristics
Table 5: Electrical Characteristics
Part Number
BXRC-xxx100x-B-7x-SE
BXRC-xxx100x-C-7x-SE
BXRC-xxx100x-D-7x-SE
BXRC-xxx200x-B-7x-SE
BXRC-xxx200x-C-7x-SE
BXRC-xxx200x-D-7x-SE
BXRC-xxx400x-B-7x-SE
BXRC-xxx400x-C-7x-SE
BXRC-xxx400x-D-7x-SE
BXRC-xxx10Kx-B-7x-SE
BXRC-xxx10Kx-C-7x-SE
BXRC-xxx10Kx-D-7x-SE
Nominal
Drive
Current 1
(mA)
Forward Voltage
Pulsed, Tc = 25ºC (V) 1, 2,3, 8
Maximum
Typical
Coefficient
of Forward
Voltage4
∆Vf/∆TC
(mV/ºC)
Typical
Thermal
Resistance
Junction
to Case5,6
Rj-c (C/W)
Minimum
Typical
270
32.4
35.0
37.6
-16.1
540
34.9
37.8
40.6
-16.1
360
32.4
35.0
37.6
-16.1
720
34.9
37.7
40.5
-16.1
Driver Selection
Voltages7
(V)
Vf Min.
Hot
Tc = 105ºC
(V)
Vf Max.
Cold4
Tc = -40ºC
(V)
0.49
31.1
38.7
0.57
33.6
41.6
0.37
31.1
38.7
0.43
33.6
41.6
350
24.1
26.0
28.0
-11.8
0.49
23.1
28.7
700
26.3
28.4
30.5
-11.8
0.57
25.3
31.3
450
32.4
35.0
37.6
-14.3
0.28
31.2
38.6
900
34.7
37.5
40.3
-14.3
0.35
33.5
41.2
630
32.4
35.0
37.6
-14.3
0.20
31.2
38.6
1260
34.9
37.8
40.6
-14.3
0.24
33.8
41.5
500
29.4
31.8
34.2
-13.3
0.34
28.4
35.0
1000
31.8
34.4
37.0
-13.3
0.41
30.8
37.9
900
32.4
35.0
37.6
-14.9
0.15
31.2
38.6
1800
35.2
38.0
40.9
-14.9
0.19
34.0
41.8
1170
32.4
35.0
37.6
-14.9
0.11
31.2
38.6
2340
35.3
38.1
41.0
-14.9
0.13
34.1
42.0
1050
26.8
29.0
31.2
-12.2
0.16
25.8
32.0
2100
29.2
31.5
33.9
-12.2
0.19
28.2
34.7
1800
48.1
52.0
55.9
-24.9
0.06
46.1
57.5
3600
51.7
55.8
60.0
-24.9
0.07
49.7
61.6
1710
64.2
69.4
74.6
-33.2
0.04
61.5
76.8
3420
68.8
74.4
80.0
-33.2
0.05
66.2
82.2
2100
34.8
37.6
40.4
-17.4
0.06
33.4
41.6
4200
38.1
41.2
44.3
-17.4
0.07
36.7
45.4
Notes for Table 5:
1. Parts are tested in pulsed conditions, Tc = 25°C. Pulse width is 10ms.
2. Voltage minimum and maximum are provided for reference only and are not a guarantee of performance.
3. Bridgelux maintains a tester tolerance of ± O.10V on forward voltage measurements.
4. Typical coefficient of forward voltage tolerance is ± O.1mV for nominal current.
5. Thermal resistance values are based from test data of a 3000K 80 CRI product.
6. Thermal resistance value was calculated using total electrical input power; optical power was not subtracted from input power. The thermal
interface material used during testing is not included in the thermal resistance value.
7. Vf min hot and 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.
8. This product has been designed and manufactured per IEC 62031:2014. This product has passed dielectric withstand voltage testing at 1160 V.
The working voltage designated for the insulation is 80V d.c. The maximum allowable voltage across the array must be determined in the end
product application.
11
Eye Safety
Table 5: Eye Safety Classifications
Part Number
BXRC-xxx100x-B-7x-SE
BXRC-xxx100x-C-7x-SE
BXRC-xxx100x-D-7x-SE
BXRC-xxx200x-B-7x-SE
BXRC-xxx200x-C-7x-SE
BXRC-xxx200x-D-7x-SE
BXRC-xxx400x-B-7x-SE
BXRC-xxx400x-C-7x-SE
BXRC-xxx400x-D-7x-SE
BXRC-xxx10Kx-B-7x-SE
BXRC-xxx10Kx-C-7x-SE
BXRC-xxx10Kx-D-7x-SE
CCT1, 3
Drive
Current 3
(mA)
2700K/3000K
4000K2
270
RG1
RG1
405
RG1
RG1
540
RG1
RG1
360
RG1
RG1
540
RG1
RG1
720
RG1
RG2
350
RG1
RG1
525
RG1
RG1
700
RG1
RG1
450
RG1
RG1
675
RG1
RG1
900
RG1
RG1
630
RG1
RG1
945
RG1
RG1
1260
RG1
RG2
500
RG1
RG1
750
RG1
RG1
1000
RG1
RG1
900
RG1
RG1
1350
RG1
RG1
1800
RG1
RG1
1170
RG1
RG1
1755
RG1
RG1
2340
RG1
RG1
1050
RG1
RG1
1575
RG1
RG1
2100
RG1
RG1
1800
RG1
RG1
RG1
2700
RG1
3600
RG1
RG1
1710
RG1
RG2
2565
RG1
RG2
3420
RG1
RG2
2100
RG1
RG1
3150
RG1
RG1
4200
RG1
RG1
Notes for Table 5:
1. Parts are tested in pulsed conditions, Tc = 25°C. Pulse width is 10ms.
2. For products classified as RG2 at 4000K, Ethr= 1847.5 lx.
3. Please contact your Bridgelux sales representative for Ethr values at specific drive currents and CCTs not listed.
12
Absolute Maximum Ratings
Table 6: Maximum Ratings
Parameter
Maximum Rating
LED Junction Temperature
125°C
Storage Temperature
-40°C to +105°C
Operating Case Temperature1
105°C
BXRC-xxx100x-B-7x-SE
BXRC-xxx100x-C-7x-SE
BXRC-xxx100x-D-7x-SE
Maximum Drive Current2
540mA
720mA
700mA
Maximum Peak Pulsed Drive Current3
770mA
1030mA
1000mA
Maximum Reverse Voltage4
-60V
-60V
-45V
BXRC-xxx200x-B-7x-SE
BXRC-xxx200x-C-7x-SE
BXRC-xxx200x-D-7x-SE
Maximum Drive Current2
900mA
1260mA
1000mA
Maximum Peak Pulsed Drive Current3
1290mA
1800mA
1430mA
Maximum Reverse Voltage4
-60V
-60V
-55V
BXRC-xxx400x-B-7x-SE
BXRC-xxx400x-C-7x-SE
BXRC-xxx400x-D-7x-SE
Maximum Drive Current2
1800mA
2340mA
2100mA
Maximum Peak Pulsed Drive Current3
2570mA
3340mA
3000mA
Maximum Reverse Voltage4
-60V
-60V
-50V
BXRC-xxx10Kx-B-7x-SE
BXRC-xxx10Kx-C-7x-SE
BXRC-xxx10Kx-D-7x-SE
Maximum Drive Current2
3600mA
3420mA
4200mA
Maximum Peak Pulsed Drive Current3
5140mA
4890mA
6000mA
Maximum Reverse Voltage4
-90V
-120V
-65V
Notes for Table 6:
1. For IEC 62717 requirement, please contact Bridgelux Sales Support.
2. Arrays may be driven at higher currents however lumen maintenance may be reduced.
3. Bridgelux recommends a maximum duty cycle of 10% and pulse width of 20ms when operating LED Arrays at the maximum peak pulsed
current specified. Maximum peak pulsed current indicate values where the LED array can be driven without catastrophic failures.
4. 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.
13
Performance Curves
Figure 1: Vero SE 10B Drive Current vs. Forward
Voltage (Tj=Tc=25°C)
Figure 2: Vero SE 10C Drive Current vs. Forward
Voltage (Tj=Tc=25°C)
800
600
700
600
Forward Current (mA)
Forward Current (mA)
500
400
300
200
500
400
300
200
100
0
100
32
33
34
35
36
37
0
38
32
33
34
Figure 3: Vero SE 10D Drive Current vs. Forward
Voltage (Tj=Tc=25°C)
38
900
800
600
Forward Current (mA)
Forward Current (mA)
37
1000
700
500
400
300
200
700
600
500
400
300
200
100
100
24
25
26
27
28
0
29
32
33
34
35
36
37
38
Forward Voltage (V)
Forward Voltage (V)
Figure 5: Vero SE 13C Drive Current vs. Forward
Voltage (Tj=Tc=25°C)
Figure 6: Vero SE 13D Drive Current vs. Forward
Voltage (Tj=Tc=25°C)
1400
1100
1000
1200
900
1000
Forward Current (mA)
Forward Current (mA)
36
Figure 4: Vero SE 13B Drive Current vs. Forward
Voltage (Tj=Tc=25°C)
800
0
35
Forward Voltage (V)
Forward Voltage (V)
800
600
400
800
700
600
500
400
300
200
200
100
0
32
33
34
35
Forward Voltage (V)
36
37
38
0
29
30
31
32
33
34
35
Forward Voltage (V)
14
Performance Curves
Figure 8: Vero SE 18C Drive Current vs. Forward
Voltage (Tj=Tc=25°C)
2000
2700
1800
2400
1600
2100
1400
Forward Current (mA)
Forward Current (mA)
Figure 7: Vero SE 18B Drive Current vs. Forward
Voltage (Tj=Tc=25°C)
1200
1000
800
600
400
1500
1200
900
600
300
200
0
1800
32
33
34
35
36
37
38
0
39
32
33
34
35
Figure 9: Vero SE 18D Drive Current vs. Forward
Voltage (Tj=Tc=25°C)
Forward Current (mA)
Forward Current (mA)
39
3500
1750
1500
1250
1000
750
500
3000
2500
2000
1500
1000
500
250
0
26
27
28
29
30
31
32
47
48
49
50
51
52
53
54
55
56
57
58
Forward Voltage (V)
Forward Voltage (V)
Figure 11: Vero SE 29C Drive Current vs. Forward
Voltage (Tj=Tc=25°C)
Figure 12: Vero SE 29D Drive Current vs. Forward
Voltage (Tj=Tc=25°C)
4000
4500
3500
4000
3000
3500
Forward Current (mA)
Forward Current (mA)
38
4000
2000
2500
2000
1500
1000
3000
2500
2000
1500
1000
500
500
0
37
Figure 10: Vero SE 29B Drive Current vs. Forward
Voltage (Tj=Tc=25°C)
2250
0
36
Forward Voltage (V)
Forward Voltage (V)
0
63
64
65
66
67
68
69
70
71
Forward Voltage (V)
72
73
74
75
76
33
34
35
36
37
38
39
40
41
42
Forward Voltage (V)
15
Performance Curves
Figure 14: Vero SE 10C Typical Relative Luminous Flux
vs. Drive Current
200%
200%
180%
180%
160%
160%
140%
140%
Relative Luminous Flux
Relative Luminous Flux
Figure 13: Vero SE 10B Typical Relative Luminous Flux
vs. Drive Current
120%
100%
80%
60%
120%
100%
80%
60%
40%
40%
20%
20%
0%
0
100
200
300
400
500
0%
600
0
100
200
300
Forward Current (mA)
600
700
800
Figure 16: Vero SE 13B Typical Relative Luminous Flux
vs. Drive Current
200%
200%
180%
180%
160%
160%
140%
140%
Relative Luminous Flux
Relative Luminous Flux
500
Forward Current (mA)
Figure 15: Vero SE 10D Typical Relative Luminous Flux
vs. Drive Current
120%
100%
80%
60%
120%
100%
40%
80%
60%
40%
20%
20%
0%
0
100
200
300
400
500
600
700
0%
800
0
100
200
300
Forward Current (mA)
400
500
600
700
800
900
1000
Forward Current (mA)
Figure 17: Vero SE 13C Typical Relative Luminous Flux
vs. Drive Current
Figure 18: Vero SE 13D Typical Relative Luminous Flux
vs. Drive Current
200%
200%
180%
180%
160%
160%
140%
140%
Relative Luminous Flux
Relative Luminous Flux
400
120%
100%
80%
60%
120%
100%
80%
60%
40%
40%
20%
20%
0%
0%
100
250
400
550
700
850
Forward Current (mA)
1000
1150
1300
0
100
200
300
400
500
600
700
800
900
1000
1100
Forward Current (mA)
16
Performance Curves
Figure 20: Vero SE 18C Typical Relative Luminous Flux
vs. Drive Current
200%
200%
180%
180%
160%
160%
140%
140%
Relative Luminous Flux
Relative Luminous Flux
Figure 19: Vero SE 18B Typical Relative Luminous Flux
vs. Drive Current
120%
100%
80%
60%
120%
100%
80%
60%
40%
40%
20%
20%
0%
0
200
400
600
800
1000
1200
1400
1600
1800
0%
2000
100
400
700
Forward Current (mA)
1000
1300
1600
1900
2200
2500
Forward Current (mA)
Figure 21: Vero SE 18D Typical Relative Luminous Flux
vs. Drive Current
Figure 22: Vero SE 29B Typical Relative Luminous Flux
vs. Drive Current
200%
200%
180%
180%
160%
160%
140%
140%
Relative Luminous Flux
Relative Luminous Flux
y = -7E-08x2 + 0.001x + 0.027
120%
100%
80%
60%
120%
100%
80%
60%
40%
40%
20%
20%
0%
0%
200
400
600
800
1000
1200
1400
1600
1800
2000
2200
0
2400
500
1000
Forward Current (mA)
200%
200%
180%
180%
160%
160%
140%
140%
120%
100%
80%
60%
2000
2400
Forward Current (mA)
4000
60%
20%
0%
1600
3500
80%
40%
1200
3000
100%
20%
800
2500
120%
40%
400
2000
Figure 24: Vero SE 29C Typical Relative Luminous Flux
vs. Drive Current
Relative Luminous Flux
Relative Luminous Flux
Figure 23: Vero SE 29C Typical Relative Luminous Flux
vs. Drive Current
0
1500
Forward Current (mA)
2800
3200
3600
4000
0%
0
500
1000
1500
2000
2500
3000
3500
4000
4500
Forward Current (mA)
17
Performance Curves
Figure 25: Vero SE 10 Typical DC Flux vs.
Case Temperature1
Figure 26: Vero SE 13 Typical DC Flux vs.
Case Temperature1
103%
Neutral White
25°C Pulsed
97%
94%
91%
88%
Warm White
Neutral White
100%
Cool White
Relative Luminous Flux
Relative Luminous Flux
103%
Warm White
100%
85%
Cool White
25°C Pulsed
97%
94%
91%
88%
85%
82%
82%
0
25
50
75
100
125
0
25
Case Temperature (°C)
Figure 27: Vero SE 18 Typical DC Flux vs.
Case Temperature1
75
100
125
Figure 28: Vero SE 29 Typical DC Flux vs.
Case Temperature1
103%
103%
Warm White
Neutral White
100%
25°C Pulsed
97%
94%
91%
88%
85%
Warm White
Neutral White
100%
Cool White
Relative Luminous Flux
Relative Luminous Flux
50
Case Temperature (°C)
Cool White
25°C Pulsed
97%
94%
91%
88%
85%
82%
0
25
50
75
100
125
Case Temperature (°C)
82%
0
25
50
75
100
125
Case Temperature (°C)
Note for Figures 25-28:
1. Flux measurements taken under DC conditions.
2. Characteristics shown for warm white based on 3000K and 80 CRI.
3. Characteristics shown for neutral white based on 4000K and 80 CRI.
4. Characteristics shown for cool white based on 5000K and 70 CRI.
5. For other color SKUs, the shift in color will vary. Please contact your Bridgelux Sales Representative for more information.
18
Performance Curves
Figure 29: 3000K Class A Color Shift vs. Case
Temperature1
0.37
0.369
15°C
25°C
0.367
0.366
15°C
Pulsed
Center Point
Color, Tc=25°C
0.368
0.368
25°C
0.366
45°C
Pulsed
Center Point
Color, Tc=25°C
45°C
0.365
ccy
ccy
Figure 30: 3500K Class A Color Shift vs. Case
Temperature1
0.364
0.364
70°C
0.363
70°C
0.362
85°C
85°C
0.362
0.36
0.361
105°C
105°C
0.36
0.416
0.4165
0.417
ccx
0.4175
0.418
0.4185
0.358
0.392
0.393
0.394
0.395
0.396
0.397
ccx
Figure 31: 4000K Class A Color Shift vs. Case
Temperature1
0.3760
15°C
0.3740
25°C
0.3720
Pulsed
Center Point
Color, Tc=25°C
45°C
ccy
0.3700
0.3680
70°C
0.3660
85°C
0.3640
105°C
0.3620
0.373
0.374
0.375
0.376
ccx
0.377
0.378
0.379
Note for Figures 29-31:
1. Measurements made under DC test conditions at the nominal drive current.
2. Typical color shift is shown with a tolerance of ±0.002.
19
Typical Radiation Pattern
Figure 32: Typical Spatial Radiation Pattern
Notes for Figure 32:
1. Typical viewing angle is 120⁰.
2. The viewing angle is defined as the off axis angle from the centerline where Iv is ½ of the peak value.
Figure 33: Typical Polar Radiation Pattern
20
Mechanical Dimensions
Figure 34: Drawing for Vero SE 10 LED Array
Notes for Figure 34:
1. Drawings are not to scale.
2. Drawing dimensions are in millimeters.
3. Unless otherwise specified, tolerances are ±0.01mm.
4. Mounting slots (2X) are for M2.5 screws.
5. Bridgelux recommends two tapped holes for mounting screws with 19.0 ± 0.10mm center-to-center spacing.
6. Screws with flat shoulders (pan, dome, button, round, truss, mushroom) provide optimal torque control. Do NOT use flat, countersink,
or raised head screws.
7. The optical center of the LED Array is nominally defined by the mechanical center of the array to a tolerance of ± 0.2mm.
8. Bridgelux maintains a flatness of 0.10mm across the mounting surface of the array.
21
Mechanical Dimensions
Figure 35: Drawing for Vero SE 13 LED Array
Notes for Figure 35:
1. Drawings are not to scale.
2. Drawing dimensions are in millimeters.
3. Unless otherwise specified, tolerances are ±0.01mm.
4. Mounting holes (2X) are for M2.5 screws.
5. Bridgelux recommends two tapped holes for mounting screws with 31.4 ± 0.10mm center-to-center spacing.
6. Screws with flat shoulders (pan, dome, button, round, truss, mushroom) provide optimal torque control. Do NOT use flat, countersink,
or raised head screws.
7. The optical center of the LED Array is nominally defined by the mechanical center of the array to a tolerance of ± 0.2mm.
8. Bridgelux maintains a flatness of 0.10mm across the mounting surface of the array.
22
Mechanical Dimensions
Figure 36: Drawing for Vero SE 18 LED Array
Notes for Figure 36:
1. Drawings are not to scale.
2. Drawing dimensions are in millimeters.
3. Unless otherwise specified, tolerances are ±0.01mm.
4. Mounting holes (2X) are for M2.5 screws.
5. Bridgelux recommends two tapped holes for mounting screws with 31.4 ± 0.10mm center-to-center spacing.
6. Screws with flat shoulders (pan, dome, button, round, truss, mushroom) provide optimal torque control. Do NOT use flat, countersink,
or raised head screws.
7. The optical center of the LED Array is nominally defined by the mechanical center of the array to a tolerance of ± 0.2mm.
8. Bridgelux maintains a flatness of 0.10mm across the mounting surface of the array.
23
Mechanical Dimensions
Figure 37: Drawing for Vero SE 29 LED Array
Notes for Figure 37:
1. Drawings are not to scale.
2. Drawing dimensions are in millimeters.
3. Unless otherwise specified, tolerances are ±0.01mm.
4. Mounting holes (2X) are for M3 screws.
5. Bridgelux recommends two tapped holes for mounting screws with 43.0 ± 0.10mm center-to-center spacing.
6. Screws with flat shoulders (pan, dome, button, round, truss, mushroom) provide optimal torque control. Do NOT use flat, countersink,
or raised head screws.
7. The optical center of the LED Array is nominally defined by the mechanical center of the array to a tolerance of ± 0.2mm.
8. Bridgelux maintains a flatness of 0.10mm across the mounting surface of the array.
24
Packaging and Labeling
Figure 38: Drawing for Vero SE 10 Packaging Tray
Notes for Figure 38:
1. Dimensions are in millimeters.
2. Drawings are not to scale.
Figure 39: Drawing for Vero SE 13 Packaging Tray
Notes for Figure 39:
1. Dimensions are in millimeters.
2. Drawings are not to scale.
25
Packaging and Labeling
Figure 40: Drawing for Vero SE 18 Packaging Tray
Notes for Figure 40:
1. Dimensions are in millimeters.
2. Drawings are not to scale.
Figure 41: Drawing for Vero SE 29 Packaging Tray
Notes for Figure 41:
1. Dimensions are in millimeters.
2. Drawings are not to scale.
26
Packaging and Labeling
Figure 42: Vero SE Series Packaging and Labeling
Notes for Figure 42:
1. Each tray holds 100 COBs for Vero 10 SE, Vero 13 SE, and Vero 18 SE and 50 COBs for Vero 29 SE.
2. Each tray is vacuum sealed in ansalesfanti-static bag and placed in its own box.
3. Each tray, bag and box is to be labeled as shown above.
Figure 43: Vero SE Product Labeling
Bridgelux COB arrays have laser markings on the back side of the substrate to help with product identification. In
addition to the product identification markings, Bridgelux COB arrays also contain markings for internal Bridgelux
manufacturing use only. The image below shows which markings are for customer use and which ones are for
Bridgelux internal use only. The Bridgelux internal manufacturing markings are subject to change without notice,
however these will not impact the form, function or performance of the COB array.
Customer Use- 2D Barcode
Scannable barcode provides
product part number and other
Bridgelux internal production
information.
Customer Use- Product part number
30E1000C 73
27
Design Resources
Optical Source Models
LM80
Optical source models and ray set files are available
for all Bridgelux products. For a list of available formats,
visit www.bridgelux.com.
LM80 testing is on going. Please contact your Bridgelux
sales representative for more information.
3D CAD Models
Three dimensional CAD models depicting the product
outline of all Bridgelux Vero LED arrays are available
in both IGS and STEP formats. Please contact your
Bridgelux sales representative for assistance.
Precautions
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: RISK OF BURN
Do not touch the Vero SE LED array during operation. Allow the array to cool for a sufficient period of time before
handling. The Vero SE LED array may reach elevated
temperatures such that could burn skin when touched.
CAUTION
CONTACT WITH LIGHT EMITTING SURFACE (LES)
Avoid any contact with the LES. Do not touch the
LES of the 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 SE LED array. Use the
mechanical features of the LED array housing, edges
and/or mounting holes to locate and secure optical
devices as needed.
Disclaimers
MINOR PRODUCT CHANGE POLICY
STANDARD TEST CONDITIONS
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.
Unless otherwise stated, array testing is performed
at the nominal drive current.
28
About Bridgelux: We Build Light That Transforms
At Bridgelux, we help companies, industries and people experience the power and possibility
of light. Since 2002, we’ve designed LED solutions that are high performing, energy efficient,
cost effective and easy to integrate. Our focus is on light’s impact on human behavior, delivering products that create better environments, experiences and returns—both experiential and
financial. And our patented technology drives new platforms for commercial and industrial
luminaires.
For more information about the company, please visit
bridgelux.com
twitter.com/Bridgelux
facebook.com/Bridgelux
linkedin.com/company/Bridgelux-inc-_2
WeChat ID: BridgeluxInChina
101 Portola Avenue
Livermore, CA 94551
Tel (925) 583-8400
Fax (925) 583-8401
www.bridgelux.com
© 2016 Bridgelux, Inc. All rights reserved 2016. Product specifications are subject to change without notice. Bridgelux, the Bridgelux stylized logo design and Vero are
registered trademarks, and Décor Series is a trademark of Bridgelux, Inc. All other trademarks are the property of their respective owners.
Bridgelux Décor Series Class A on Vero SE Series Product Data Sheet DS125 Rev A (10/2016)
29