Bridgelux V4 HD Thrive LED 灯光产品说明书

V4 HD Thrive

™

Array

Product Data Sheet DS405

1

BXRH-27S30S35S40S50S57S65S

||||||

Introduction

Bridgelux Thrive™ combines unique chip, phosphor and packaging technology to closely match the spectra of natural

light over the visible wavelength range. Thrive can be used in constant color point luminaires to bring full spectrum

natural light indoors or in tunable white luminaires to incorporate circadian elements that may impact human well-being.

The high fidelity spectral output of Thrive creates stunning environments with excellent color rendering and outstanding

TM30 metrics. Thrive is available in both SMD components and LED arrays to enable a broad range of lighting

applications including retail, hospitality, office, education, architectural, museums, healthcare and residential lighting.

Features

• Engineered spectrum to closely match natural light

• CRI >95, R1-R15 >90, high Rf and Rg values

• High efficacy full spectrum solution

• No violet chip augmentation

• Hot color targeted

• Form factor consistent with existing Bridgelux COB

arrays

• Broad product platform availability (SMDs and COBs)

Benefits

• Full consistent spectrum with fewer spectral spikes

• Natural and vivid color rendering

• Greater energy savings, lower utility costs

• Economical, high efficiency solution

• Uniform and consistent white light at application

conditions

• Ease of design and rapid go-to-market

• Enables greater design flexibility and platform color

consistency

V

4

H

D

T

h

r

i

v

e

Contents

Product Feature Map

Product Nomenclature

Product Selection Guide

Spectrum Characteristics

Electrical Characteristics

Absolute Maximum Ratings

Eye Safety

Product Bin Definitions

Performance Curves

Typical Radiation Pattern

Mechanical Dimensions

Packaging and Labeling

Design Resources

Precautions

Disclaimers

About Bridgelux

2

2

3

5

8

9

10

11

12

13

14

15

17

17

17

18

1

Product Feature Map

Bridgelux arrays are fully engineered devices that

provide consistent thermal and optical performance on an

engineered mechanical platform. The V Series HD arrays

are the most compact chip-on-board devices across all of

Bridgelux’s LED Array products. The arrays incorporate

several features to simplify design integration and assembly.

Please visit for more information on the

V Series HD family of products.

Designed to comply with global

safety standards for creepage and

clearance distances

Solder Pads

Fully engineered substrate

for consistent thermal, mechanical

and optical properties

Yellow phosphor Light

Emitting Surface (LES)

White ring around LES

Case Temperature (T

c

)

Measurement Point

Polarity symbols

Note: Part number and lot codes are scribed on back of array

Product Nomenclature

The part number designation for Bridgelux COB arrays is explained as follows:

1 2 3 4 – 5 6 7 8 9 10 11 – 12 – 13 14

Product Family

Nominal CCT

27 = 2,700K

30 = 3,000K

35 = 3,500K

40 = 4,000K

50 = 5,000K

57 = 5,700K

65 = 6,500K

BXRH – 30 S 0601 – A – 7 3

CCT Bin Options

Gen 7

Array Configuration

Flux Indicator

0601 = 600 lm

Minimum CRI

S = Thrive

2 = 2 SDCM

3 = 3 SDCM

4 = 4 SDCM

2

Product Selection Guide

The following product configurations are available:

Table 1: Selection Guide, Pulsed Measurement Data (T

c

= 25°C)

Part Number

1,6

Nominal CCT

1

(K)

CRI

2

Nominal Drive

Current

3

(mA)

Typical V

f

(V)

36.4

36.4

36.4

36.4

36.4

36.4

36.4

Typical Pulsed Minimum

Flux

4,5,6,7

Pulsed Flux

6,7,8

T

c

= 25ºCT

c

= 25ºC

(lm)(lm)

Typical Power

(W)

Typical

Efficacy

(lm/W)

BXRH-27S0601-A-7X

BXRH-30S0601-A-7X

BXRH-35S0601-A-7X

BXRH-40S0601-A-7X

BXRH-50S0601-A-7X

BXRH-57S0601-A-7X

BXRH-65S0601-A-7X

2700

3000

3500

4000

5000

5700

6500

98

98

98

98

98

98

98

175

175

175

175

175

175

175

548

586

618

650

675

675

682

482

516

544

572

594

594

600

6.4

6.4

6.4

6.4

6.4

6.4

6.4

86

92

97

102

106

106

107

Table 2: Selection Guide, Stabilized DC Test Performance (T

c

= 85°C)

4,5,6

Part Number

1,6

Nominal CCT

1

(K)

CRI

2

Nominal Drive

Current

3

(mA)

Typical V

f

(V)

35.4

35.4

35.4

35.4

35.4

35.4

35.4

Typical DC

Flux

4,5,6,7

T

c

= 85ºC

(lm)

Minimum DC

Flux

6,7,8,9

T

c

= 85ºC

(lm)

Typical Power

(W)

Typical

Efficacy

(lm/W)

BXRH-27S0601-A-7X

BXRH-30S0601-A-7X

BXRH-35S0601-A-7X

BXRH-40S0601-A-7X

BXRH-50S0601-A-7X

BXRH-57S0601-A-7X

BXRH-65S0601-A-7X

2700

3000

3500

4000

5000

5700

6500

98

98

98

98

98

98

98

175

175

175

175

175

175

175

493

527

556

585

608

608

613

434

464

489

515

535

535

540

6.2

6.2

6.2

6.2

6.2

6.2

6.2

80

85

90

94

98

98

99

Notes for Table 1 & 2:

1. Product CCT is hot targeted at T

j

= 85°C. Nominal CCT as defined by ANSI C78.377-2011.

2. All CRI values are measured at T

j

= T

c

= 85°C. CRI values are typical values. Minimum CRI for Thrive products is 95. Bridgelux maintains a ± 3 tolerance on CRI values.

3. Drive current is referred to as nominal drive current.

4. Products tested under pulsed condition (10ms pulse width) at nominal test current where T

j

(junction temperature) = T

c

(case temperature) = 25°C. Typical stabilized DC

performance values are provided as reference only and are not a guarantee of performance.

5. Typical performance values are provided as a reference only and are not a guarantee of performance.

6. 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 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. Bridgelux maintains a ±7% tolerance on flux measurements.

8. Minimum flux values at the nominal test current are guaranteed by 100% test.

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.

3

Performance at Commonly Used Drive Currents

V Series HD Thrive LED arrays are tested to the specifications shown using the nominal drive currents in Table 1. V Series

HD Thrive LED Arrays 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 Figures 10 &

11 and the flux vs. current characteristics shown in Figures 12 & 13. The performance at commonly used drive currents is

summarized in Table 3.

Table 3: Product Performance at Commonly Used Drive Currents

Part NumberCRI

Drive

Current

1

(mA)

85

130

Typical V

f

T

c

= 25

º

C

(V)

34.1

35.3

36.4

37.3

37.8

34.1

35.3

36.4

37.3

37.8

34.1

35.3

36.4

37.3

37.8

34.1

35.3

36.4

37.3

37.8

34.1

35.3

36.4

37.3

37.8

34.1

35.3

36.4

37.3

37.8

34.1

35.3

36.4

37.3

37.8

Typical

Power

T

c

= 25

º

C

(W)

2.9

4.6

6.4

8.2

9.1

2.9

4.6

6.4

8.2

9.1

2.9

4.6

6.4

8.2

9.1

2.9

4.6

6.4

8.2

9.1

2.9

4.6

6.4

8.2

9.1

2.9

4.6

6.4

8.2

9.1

2.9

4.6

6.4

8.2

9.1

Typical

Flux

2

T

c

= 25

º

C

(lm)

286

422

548

666

716

306

451

586

712

765

323

476

618

751

807

340

500

650

790

849

353

520

675

820

881

353

520

675

820

881

356

525

682

828

890

Typical

DC Flux

3

T

c

= 85

º

C

(lm)

258

380

493

599

644

276

406

527

641

689

291

428

556

676

726

306

450

585

711

764

318

468

608

738

793

318

468

608

738

793

321

473

614

746

801

Typical

Efficacy

T

c

= 25

º

C

(lm/W)

99

92

86

81

79

106

98

92

87

84

111

104

97

91

89

117

109

102

96

94

122

113

106

100

97

122

113

106

100

97

123

114

107

101

98

BXRH-27S0601-A-7x95

175

220

240

85

130

BXRH-30S0601-A-7x95

175

220

240

85

130

BXRH-35S0601-A-7x95

175

220

240

85

130

BXRH-40S0601-A-7x95

175

220

240

85

130

BXRH-50S0601-A-7x95

175

220

240

85

130

BXRH-57S0601-A-7x95

175

220

240

85

130

BXRH-65S0601-A-7x95

175

220

240

Notes for Table 3:

1. Alternate drive currents 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.

4

Spectrum Characteristics

Table 4: Typical Color Rendering Index and TM-30 Values at, T

c

=85°C

Nominal

CCT

1

R

f

R

g

R1R2R3R4R5R6R7R8R9R10R11R12R13R14R15

2700K

3000K

3500K

4000K

5000K

5700K

6500K

Note for Table 4:

95

95

95

97

97

94

95

103

104

98

100

100

98

98

97

98

98

99

98

98

98

99

99

98

99

99

98

98

94

93

97

97

98

97

97

94

94

98

99

98

95

96

97

97

98

99

98

98

98

98

98

98

99

98

97

98

97

96

98

99

99

96

96

98

96

97

98

98

95

96

99

97

93

94

95

92

93

97

96

97

97

98

97

97

91

92

97

99

98

96

96

98

95

95

96

98

96

97

98

98

98

99

98

98

98

95

95

97

98

98

98

98

98

97

98

98

97

97

97

1. Bridgelux maintains a tolerance of ± 3 on Color Rendering Index R1-R15 measurements and TM-30 measurements.

Figure 1: 2700K Thrive TM-30 Graphs

Figure 2: 3000K Thrive TM-30 Graphs

Figure 3: 3500K Thrive TM-30 Graphs

5

Spectrum Characteristics

Figure 4: 4000K Thrive TM-30 Graphs

Figure 5: 5000K Thrive TM-30 Graphs

Figure 6: 5700K Thrive TM30 Graphs

Figure 7: 6500K Thrive TM-30 Graphs

6

Spectrum Characteristics

Figure 8: Typical Color Spectrum

1.4

3000K

3500K

4000K

1.2

2700K

1

0.8

0.6

0.4

0.2

0

380630680

R

e

l

a

t

i

v

e

S

p

e

c

t

r

a

l

P

o

w

e

r

R

e

l

a

t

i

v

e

S

p

e

c

t

r

a

l

P

o

w

e

r

1.2

1

0.8

0.6

0.4

0.2

0

5000K

5700K

6500K

730780

380

Wavelength (nm)

Wavelength (nm)

Note for Figure 8:

1. Color spectra measured at nominal current for T

c

= 85°C.

Spectral Matching to Natural Light

The lighting market is in the early stages of adoption of human-centric lighting (HCL). HCL encompasses the effects of lighting on the physical and emotional

health and well-being of people. Throughout evolution, the human visual system has evolved under the natural light of sun and fire. These light sources

have standardized industry spectral power definitions that describe the state of natural light. However, conventional metrics such as CCT, CRI, and TM-30

fail to adequately quantify the naturalness, or closeness of these light sources to the standardized natural spectra. Due to a lack of an industry standard

metric to quantitatively measure the naturalness of a light source, Bridgelux has pioneered a new metric that takes the guesswork out of comparing LED

light sources to natural light.

Average Spectral Difference, or ASD, is calculated by measuring the absolute difference between two spectra at discrete wavelengths. These values are aver-

aged across a wavelength range derived from the photopic response curve, or V(λ); a luminous efficiency function describing the average spectral sensitivity

of human perception of brightness. The range of 425nm to 690nm was selected to remove the tails of the V(λ) gaussian distribution below 1% of the peak

value at 555nm, covering 99.9% of the area under the photopic response curve. Natural light is defined following the approach of IES TM-30; black body

curves for light sources of ≤4000K and the CIE standard illuminant D for light sources of ≥ 5000K.

Natural light has an ASD of 0%; lower ASD values indicate a closer match to natural light. Thrive is engineered to provide the closest match to natural light

available using proprietary chip, phosphor and packaging technology, resulting in an ASD between 8% to 10% for all CCTs. By comparison, standard 80,

90, and 98 CRI light sources have ASD values that are 100% to 300% larger than Thrive. To learn more about the ASD metric, please review the Bridgelux

whitepaper: Average Spectral Difference, a new method to make objective comparisons of naturalness between light sources; or contact your Bridgelux

sales representative.

Table 5: Typical ASD Values at T

c

= 85°C.

Nominal CCT

1

ASD

Figure 9: SPD Comparison

2700K

3000K

3500K

4000K

5000K

5700K

6500K

10%

9%

8%

8%

9%

9%

8%

7

Electrical Characteristics

Table 6: Electrical Characteristics

Forward Voltage

Pulsed, T

c

= 25ºC

(V)

1, 2, 3, 8

Part Number

Drive Current

(mA)

MinimumTypicalMaximum

Typical

Coefficient

of Forward

Voltage

4

∆V

f

/∆T

c

(mV/ºC)

Typical

Thermal

Resistance

Junction

to Case

5,6

R

j-c

(ºC/W)

Driver Selection

Voltages

7

(V)

V

f

Min.

Hot

T

c

= 105ºC

(V)

V

f

Max.

Cold

T

c

= -40ºC

(V)

BXRH-xxx060x-A-73

175

240

34.1

35.2

36.4

37.8

39.1

40.4

-15.5

-15.5

0.72

0.77

32.9

34.0

40.1

41.4

Notes for Table 6:

1. Parts are tested in pulsed conditions, T

c

= 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 ± 0.10V on forward voltage measurements.

4. Typical coefficient of forward voltage tolerance is ± 0.1mV 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. V

f

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 500 V. The working

voltage designated for the insulation is The maximum allowable voltage across the array must be determined in the end product application.

8

Absolute Maximum Ratings

Table 7: Maximum Ratings

Parameter

LED Junction Temperature (T

j

)

Storage Temperature

Maximum Rating

125°C

-40°C to +105°C

Operating Case Temperature

1

(T

c

)

Soldering Temperature

2

105°C

300°C or lower for a maximum of 6 seconds

Maximum Drive Current

3

240mA

Maximum Peak Pulsed Drive Current

4

340mA

Maximum Reverse Voltage

5

Notes for Table 7:

1. For IEC 62717 requirement, please consult your Bridgelux sales representative.

2. Refer to Bridgelux Application Note AN101: Handling and Assembly of Bridgelux V Series LED Arrays.

-60V

3. Arrays may be driven at higher currents however lumen maintenance may be reduced, and product warranty will be void.

4. Bridgelux recommends a maximum duty cycle of 10% and pulse width of 20 ms when operating LED Arrays at maximum peak pulsed

current specified. Maximum peak pulsed currents indicate values where LED Arrays can be driven without catastrophic failures.

5. 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.

9

Eye Safety

Table 8: Eye Safety Risk Group (RG) Classifications

Part Number

Drive

Current

3

(mA)

175

240

CCT

1,3

2700K/3000K4000K

2

BXRH-xxx060x-A-73

RG1

RG1

RG2

RG2

Notes for Table 8:

1. Eye safety classification for the use of Bridgelux V Series HD LED arrays is in accordance with specification IEC/TR 62778: Application of IEC 62471 for the

assessment of blue light hazard to light sources and luminaires.

2. For products classified as RG2 at 4000K, E

thr

= 1760 lx.

3. Please contact your Bridgelux sales representative for E

thr

values at specific drive currents and CCTs not listed.

10

Product Bin Definitions

Table 9: 2-, 3- and 4-step MacAdam Ellipse Color Bin Definitions

Center Point

CCT

x

2700K

3000K

4000K

5000K

5700K

6500K

Notes for Table 9:

1. Color binning at T

c

=85°C

2. Bridgelux maintains a tolerance of ± 0.007 on x and y color coordinates in the CIE 1931 color space.

Degree

(°)

53.700

53.217

53.717

59.617

59.060

58.567

a

2-step

b

0.00280

0.00272

0.00268

N/A

N/A

N/A

a

0.0081

3-step

b

0.0042

0.0041

0.0040

0.0035

0.0032

0.0028

a

N/A

N/A

N/A

0.0110

4-step

b

N/A

N/A

N/A

0.0047

0.0042

0.0038

y

0.4101

0.403

0.3797

0.3553

0.3417

0.3282

0.4578

0.4338

0.3818

0.3447

0.3287

0.3123

0.00540

0.00556

0.00626

N/A

N/A

N/A

0.0083

0.0094

0.0082

0.0074

0.0066

0.0099

0.0090

Figure 10: C.I.E. 1931 Chromaticity Diagram (Color targeted at T

c

=85°C)

0.44

3 SDCM

2 SDCM

0.42

3000K

3500K

2700K

0.39

4 SDCM

0.38

3 SDCM

0.37

0.36

5700K

5000K

0.4

Y

4000K

0.35

Y

0.38

0.34

0.33

6500K

0.36

0.32

0.31

0.390.42

X

0.450.48

0.34

0.36

0.3

0.30.310.320.33

X

0.340.350.360.37

11

Performance Curves

Figure 11: Drive Current vs. Voltage

2

300

250

)

A

m

(

t

n

200

e

r

r

u

C

d

r

150

a

w

r

o

F

100

50

0

3233343536373839

Forward Voltage (V)

Figure 13: Typical DC Flux vs. Case Temperature

3

103%

Warm White

100%

Neutral White

Cool White

25°C Pulsed

x

97%

u

l

F

s

u

o

94%

n

i

m

u

L

91%

e

v

i

t

a

l

e

88%

R

85%

82%

5

Case Temperature (°C)

Figure 15: Typical DC ccy Shift vs. Case Temperature

4

120

0.0010

0.0000

-0.0010

t

f

i

h

s

-0.0020

y

c

c

-0.0030

-0.0040

-0.0050

-0.0060

Case Temperature (T

c

)

Figure 12: Typical Relative Flux vs. Current

1,2

140%

120%

x

u

100%

l

F

s

u

o

n

80%

i

m

u

L

e

60%

v

i

t

a

l

e

R

40%

20%

0%

250300

Drive Current (mA)

Figure 14: Typical DC ccx Shift vs. Case Temperature

4

120

0.0000

-0.0010

-0.0020

-0.0030

t

f

i

h

-0.0040

s

x

c

c

-0.0050

-0.0060

-0.0070

-0.0080

-0.0090

-0.0100

Case Temperature (T)

Notes for Figures 13-15:

1. Bridgelux does not recommend driving high power LEDs at low currents.

Doing so may produce unpredictable results. Pulse width modulation

(PWM) is recommended for dimming effects.

2. Characteristics shown for warm white based on 3000K Thrive

3. Characteristics shown for neutral white based on 4000K Thrive

4. Characteristics shown for cool white based on 5000K Thrive

5. For other color SKUs, the shift in color will vary. Please contact your Brid-

gelux Sales Representative for more information.

12

Typical Radiation Pattern

Figure 16: Typical Spatial Radiation Pattern

Notes for Figure 16:

1. Typical viewing angle is 120

⁰

.

2. The viewing angle is defined as the off axis angle from the centerline where intensity is ½ of the peak value.

Figure 17: Typical Polar Radiation Pattern

13

Mechanical Dimensions

Figure 18: Drawing for V4 HD LED Array

Notes for Figure 18:

1. Drawings are not to scale.

2. Drawing dimensions are in millimeters.

3. Unless otherwise specified, tolerances are ±0.1mm.

4. Solder pad labeled “+” denotes positive contact.

5. Refer to Application Notes AN101 for product handling, mounting and heat sink recommendations.

6. The optical center of the LED Array is nominally defined by the mechanical center of the array to a tolerance of ± 0.2mm.

7. Bridgelux maintains a flatness of 0.10mm across the mounting surface of the array.

14

Packaging and Labeling

Figure 19: V4 HD Packaging Tube

Notes for Figure 19:

1. Each tube holds 40 V4 HD COB arrays.

2. One tube is sealed in an anti-static bag. Four bags are placed in a shipping box. Depending on quantities ordered, a bigger shipping box, containing four

boxes may be used to ship products.

3. Each bag and box is to be labeled as shown above.

4. Dimensions for each tube are 14.3 (W) x 8.3(H) x 530 (L) mm. Dimensions for the anti-static bag are 75 (W) x 615 (L) x 0.075 (T) mm. Dimensions for the

shipping box are 58.7 x 13.3 x 7.9 cm

15

Packaging and Labeling

Figure 20: V Series HD 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

30S0601A 73 2F

Customer Use- V

f

Bin Code

included to enable greater

luminaire design flexibility.

Refer to AN92 for bin code

definitions.

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Design Resources

Application Notes

Bridgelux has developed a comprehensive set of

application notes and design resources to assist

customers in successfully designing with the V Series HD

product family of LED array products. For all available

application notes visit .

Optical Source Models

Optical source models and ray set files are available

for all Bridgelux products. For a list of available formats,

visit .

3D CAD Models

Three dimensional CAD models depicting the product

outline of all Bridgelux V Series HD LED arrays are

available in both IGS and STEP formats. Please contact

your Bridgelux sales representative for assistance.

LM80

LM80 testing has been completed and the LM80 report

is now available. Please contact your Bridgelux sales

representative for LM-80 report.

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 AN101 for additional information.

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).

CAUTION: RISK OF BURN

Do not touch the V Series HD LED array during operation.

Allow the array to cool for a sufficient period of time

before handling. The V Series HD LED array may reach

elevated temperatures such that could burn skin when

touched.

Disclaimers

MINOR PRODUCT CHANGE POLICY

The rigorous qualification testing on products offered by

Bridgelux provides performance assurance. Slight cos-

metic changes that do not affect form, fit, or function may

occur as Bridgelux continues product optimization.

STANDARD TEST CONDITIONS

Unless otherwise stated, array testing is performed

at the nominal drive current.

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About Bridgelux: Bridging Light and Life

™

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

/Bridgelux

/company/bridgelux-inc-_2

/user/Bridgelux

WeChat ID: BridgeluxInChina

46430 Fremont Boulevard

Fremont, CA 94538 USA

Tel (925) 583-8400

© 2020 Bridgelux, Inc. Product specifications are subject to change without notice. Bridgelux and the Bridgelux stylized logo design are registered trademarks of Bridgelux,

Inc. All other trademarks are the property of their respective owners.

Bridgelux V4 HD Thrive Array Product Data Sheet DS405 Rev. A (07/2020)

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