ASMD-CWG7-NX7C2 [BOARDCOM]

Low-Power 3014 DFN2 Surface-Mount LED;


型号：	ASMD-CWG7-NX7C2
厂家：	Broadcom Corporation.
描述：	Low-Power 3014 DFN2 Surface-Mount LED
文件：	总20页 (文件大小：1046K)
中文：	中文翻译
下载：	下载PDF数据表文档文件

Data Sheet

ASMD-CWG7-NX7x2

Low-Power 3014 DFN2 Surface-Mount LED

Description

Features



High reliability package with enhanced silicone resin

encapsulation

The Broadcom ASMD-CWG7-NX7x2 surface-mount LEDs

use InGaN chip technology with superior package design to

enable them to produce higher light output with better

luminous intensity performance. They can be driven at high

current and are able to dissipate heat more efficiently

resulting in better performance with higher reliability.



Available in 2700K, 3000K, 3500K, 4000K, 4500K,

5000K, 5700K, 6500K, and 8000K CCT only



Wide viewing angle at 120°

Low package profile and large emitting area for better

uniformity in linear lighting

These LEDs operate under a wide range of environmental

conditions, making them ideal for various applications

including under-cabinet lighting, retail display lighting, and

panel lights.

Applications



Electronic signs and signals

– Channel lettering

– Contour lighting

To facilitate easy pick-and-place assembly, the LEDs are

packed in tape and reel. Every reel is shipped in single flux

and color bin, to provide close uniformity.

– Indoor variable message sign



Office automations, home appliances, industrial

equipment

– Front panel backlighting

– Pushbutton backlighting

– Display backlighting

– Scanner lighting

CAUTION! This LED is ESD sensitive. Please observe appropriate precautions during handling and processing. Refer to

application note AN-1142 for additional details.

Broadcom

ASMD-CWG7-NX7x2-DS101

January 31, 2020

ASMD-CWG7-NX7x2 Data Sheet

Low-Power 3014 DFN2 Surface-Mount LED

Figure 1: Package Drawing

NOTE:

1. All dimensions are in millimeters (mm).

2. Tolerance is ± 0.20 mm unless otherwise specified.

3. Encapsulation = silicone.

4. Terminal finish = silver plating.

5. Dimensions in bracket are for reference only.

Broadcom

ASMD-CWG7-NX7x2-DS101

ASMD-CWG7-NX7x2 Data Sheet

Low-Power 3014 DFN2 Surface-Mount LED

Device Selection Guide (T = 25°C, I = 20 mA)

Correlated Color

Temperature, CCT

(Kelvin)

Luminous Flux,

Luminous Intensity, I_V(mcd)^{a, b}

Φ_V(lm)^c

Part Number

Typ.

Min.

Typ.

Max.

Typ.

ASMD-CWG7-NX7A2

ASMD-CWG7-NX7B2

ASMD-CWG7-NX7C2

ASMD-CWG7-NX7D2

ASMD-CWG7-NX7E2

ASMD-CWG7-NX7F2

ASMD-CWG7-NX7G2

ASMD-CWG7-NX7H2

ASMD-CWG7-NX7J2

8000

6500

5700

5000

4500

4000

3500

3000

2700

2240

2700

2800

2700

4500

8.1

8.6

8.4

8.1

a. The luminous intensity, I_V, is measured at the mechanical axis of the LED package at a single current pulse condition. The actual peak of the

spatial radiation pattern may not be aligned with the axis.

b. Luminous intensity tolerance is ± 12%.

c. For reference only.

Absolute Maximum Ratings

Parameters

ASMD-CWG7-NX7x2

Units

DC Forward Current^a

Peak Forward Current^b

100

102

Power Dissipation

Reverse Voltage

Not designed for reverse bias operation

LED Junction Temperature

Operating Temperature Range

Storage Temperature Range

a. Derate linearly as shown in Figure 14 and Figure 15.

b. Duty factor = 10%, frequency = 1 kHz.

110

°C

–40 to +85

Broadcom

ASMD-CWG7-NX7x2-DS101

ASMD-CWG7-NX7x2 Data Sheet

Low-Power 3014 DFN2 Surface-Mount LED

Optical and Electrical Characteristics (T = 25°C, I = 20 mA)

Parameters

Min.

Typ.

Max.

Units

—

120

—

Viewing Angle, 2θ

2.60

—

2.80

—

3.40

Forward Voltage, V_F

Reverse Current, IR at V_R= 5V^c

Color Rendering Index, CRI

—

°C/W

Thermal Resistance, R_θJ-S

θ is the off-axis angle where the luminous intensity if half of the peak intensity.

b. Forward voltage tolerance is ±0.1V.

c. Indicates product final test condition. Long term reverse bias is not recommended.

d. Thermal resistance from LED junction to solder point.

Part Numbering System

Code

Description

Option

x₁

Color Rendering Index

Minimum Intensity Bin

CRI ≥ 80

x₂

x₃

x₄

Number of Intensity Bins

Color Correlated Temperature

3 intensity bins, starting from bin X2

8000K

6500K

5700K

5000K

4500K

4000K

3500K

3000K

2700K

Part Number Example

ASMD-CWG7-NX7H2

x : G

–

CRI ≥ 80

x : X

Minimum intensity bin X

x : 7

3 intensity bins, starting from bin X2

x : H

CCT 3000K with bin ID 8A1, 8A2, 8A3, 8A4, 8B1, 8B2, 8B3, 8B4, 8C1, 8C2, 8C3, 8C4, 8D1, 8D2, 8D3,

and 8D4

x : 2

–

Test current = 20 mA

Broadcom

ASMD-CWG7-NX7x2-DS101

ASMD-CWG7-NX7x2 Data Sheet

Low-Power 3014 DFN2 Surface-Mount LED

Bin Information

Luminous Intensity Bin Limits (CAT)

Forward Voltage Bin Limits (VF)

Luminous Intensity, I_V(mcd)

Forward Voltage, V_F(V)

Bin ID

Min.

Max.

Bin ID

Min.

Max.

2240

2850

3550

2850

3550

4500

G01

G02

G03

G04

G05

G06

G07

G08

2.6

2.7

2.8

2.9

3.0

3.1

3.2

3.3

2.7

2.8

2.9

3.0

3.1

3.2

3.3

3.4

Tolerance = ± 12%.

Tolerance = ± 0.1V.

Example of bin information on reel and packaging label:

CAT : X2

BIN : 9D1

VF : G05

–

Intensity bin X2

Color bin 9D1

VF bin G05

—

Broadcom

ASMD-CWG7-NX7x2-DS101

ASMD-CWG7-NX7x2 Data Sheet

Low-Power 3014 DFN2 Surface-Mount LED

Chromaticity Diagram (4500K to 4000K)

0.40

0.39

0.38

4500K

5000K

5C2

5C1

5D2

5D1

5B2

5B1

5A2

5A1

0.37

4C2

4C1

5700K

4B2

0.36

0.35

0.34

0.33

0.32

0.31

0.30

0.29

0.28

4D2

4B1

4A2

3C2

3C1

6500K

4D1

3B2

3B1

3A2

3A1

4A1

3D2

3D1

2C2

2C1

2D2

2D1

8000K

2B2

2B1

2A2

2A1

1C2

1C1

1D2

1D1

1B2

1B1

1A2

1A1

0.27

0.28

0.29

0.3

0.31

0.32

0.33

0.34

0.35

0.36

0.37

0.38

0.39

Broadcom

ASMD-CWG7-NX7x2-DS101

ASMD-CWG7-NX7x2 Data Sheet

Low-Power 3014 DFN2 Surface-Mount LED

Chromaticity Diagram (2700K to 4000K)

0.45

0.44

0.43

2700K

3000K

9C3

9C2

9C4

3500K

9B3

9C1

9B2

8C3

0.42

8C2

8C4

8B3

8C1

8D3

9A1

9B4

8B2

8B4

8D2

8D4

9B1

0.41

0.40

0.39

0.38

0.37

0.36

0.35

7C3

8A2

4000K

7C2

7D3

9D3

9D2

9D4

9A3

9D1

8B1

8A3

8D1

7B3

7D2

9A2

9A4

7C4

8A1

7B2

7A3

7C1

7D4

6C3

7B4

6C2

7B1

6B3

8A4

6C4

6C1

6B2

7A2

6B4

7D1

6D3

7A4

6B1

6D2

7A1

6A3

6D4

6A2

6D1

6A4

6A1

0.35

0.36

0.37

0.38

0.39

0.40

0.41

0.42

0.43

0.44

0.45

0.46

0.47

0.48

0.49

Broadcom

ASMD-CWG7-NX7x2-DS101

ASMD-CWG7-NX7x2 Data Sheet

Low-Power 3014 DFN2 Surface-Mount LED

Color Bin Limits (BIN)

Chromaticity

Coordinates

Chromaticity

Coordinates

Chromaticity

Coordinates

CCT

Bin ID

CCT

Bin ID

CCT

Bin ID

8000K

1A1

0.2935

0.2997

0.3009

0.2950

0.2935

0.2920

0.2984

0.2997

0.2920

0.2908

0.2973

0.2984

0.2908

0.2973

0.2962

0.2895

0.2984

0.2973

0.3038

0.3048

0.2973

0.2962

0.3028

0.3038

0.3009

0.2997

0.3058

0.3068

0.2997

0.2984

0.3048

0.3058

0.3015

0.3088

0.3042

0.2970

0.3015

0.3060

0.3133

0.3088

0.3060

0.3098

0.3177

0.3133

0.3098

0.3177

0.3220

0.3135

0.3133

0.3177

0.3256

0.3207

0.3177

0.3220

0.3304

0.3256

0.3042

0.3088

0.3160

0.3113

0.3088

0.3133

0.3207

0.3160

6500K

2A1

0.3058

0.3137

0.3145

0.3068

0.3048

0.3131

0.3137

0.3058

0.3038

0.3123

0.3131

0.3048

0.3028

0.3117

0.3123

0.3038

0.3123

0.3209

0.3213

0.3131

0.3117

0.3205

0.3209

0.3123

0.3137

0.3217

0.3221

0.3145

0.3131

0.3213

0.3217

0.3137

0.3161

0.3238

0.3187

0.3113

0.3209

0.3290

0.3238

0.3161

0.3256

0.3341

0.3290

0.3209

0.3304

0.3393

0.3341

0.3256

0.3341

0.3426

0.3371

0.3290

0.3393

0.3481

0.3426

0.3341

0.3238

0.3316

0.3261

0.3187

0.3290

0.3371

0.3316

0.3238

5700K

3A1

0.3218

0.3293

0.3294

0.3222

0.3214

0.3293

0.3218

0.3210

0.3292

0.3293

0.3214

0.3206

0.3292

0.3210

0.3292

0.3374

0.3371

0.3293

0.3292

0.3374

0.3376

0.3292

0.3293

0.3369

0.3366

0.3294

0.3293

0.3371

0.3369

0.3293

0.3298

0.3364

0.3306

0.3243

0.3352

0.3423

0.3364

0.3298

0.3407

0.3481

0.3423

0.3352

0.3461

0.3539

0.3481

0.3407

0.3481

0.3554

0.3493

0.3423

0.3481

0.3554

0.3616

0.3539

0.3364

0.3431

0.3369

0.3306

0.3423

0.3493

0.3431

0.3364

1A2

1B1

1B2

1C1

1C2

1D1

1D2

2A2

2B1

2B2

2C1

2C2

2D1

2D2

3A2

3B1

3B2

3C1

3C2

3D1

3D2

Tolerance = ± 0.01.

Broadcom

ASMD-CWG7-NX7x2-DS101

ASMD-CWG7-NX7x2 Data Sheet

Low-Power 3014 DFN2 Surface-Mount LED

Chromaticity

Coordinates

Chromaticity

Coordinates

Chromaticity

Coordinates

CCT

Bin ID

CCT

Bin ID

CCT

Bin ID

5000K

4A1

0.3369

0.3446

0.3441

0.3366

0.3371

0.3452

0.3446

0.3369

0.3374

0.3458

0.3452

0.3371

0.3374

0.3458

0.3464

0.3376

0.3542

0.3533

0.3452

0.3458

0.3542

0.3551

0.3464

0.3446

0.3524

0.3515

0.3441

0.3452

0.3533

0.3524

0.3446

0.3431

0.3493

0.3428

0.3369

0.3493

0.3558

0.3493

0.3431

0.3554

0.3623

0.3558

0.3493

0.3554

0.3623

0.3688

0.3616

0.3692

0.3623

0.3558

0.3623

0.3692

0.3760

0.3688

0.3493

0.3555

0.3487

0.3428

0.3558

0.3623

0.3555

0.3493

4500K

5A1

0.3521

0.3604

0.3591

0.3512

0.3530

0.3617

0.3604

0.3521

0.3539

0.3629

0.3617

0.3530

0.3548

0.3642

0.3629

0.3539

0.3629

0.3720

0.3703

0.3617

0.3642

0.3736

0.3720

0.3629

0.3604

0.3687

0.3670

0.3591

0.3617

0.3703

0.3687

0.3604

0.3533

0.3592

0.3522

0.3465

0.3601

0.3663

0.3592

0.3533

0.3668

0.3734

0.3663

0.3601

0.3736

0.3805

0.3734

0.3668

0.3734

0.3800

0.3726

0.3663

0.3805

0.3874

0.3800

0.3734

0.3592

0.3652

0.3578

0.3522

0.3663

0.3726

0.3652

0.3592

4000K

6A1

6A2

6A3

6A4

6B1

6B2

6B3

6B4

0.3670

0.3686

0.3744

0.3726

0.3686

0.3702

0.3763

0.3744

0.3763

0.3825

0.3804

0.3726

0.3744

0.3804

0.3783

0.3702

0.3719

0.3782

0.3763

0.3719

0.3736

0.3802

0.3782

0.3802

0.3869

0.3847

0.3763

0.3782

0.3847

0.3825

0.3578

0.3649

0.3685

0.3612

0.3649

0.3722

0.3760

0.3685

0.3760

0.3798

0.3721

0.3612

0.3685

0.3721

0.3646

0.3722

0.3797

0.3837

0.3760

0.3797

0.3874

0.3916

0.3837

0.3916

0.3958

0.3877

0.3760

0.3837

0.3877

0.3798

4A2

4B1

4B2

4C1

4C2

4D1

4D2

5A2

5B1

5B2

5C1

5C2

5D1

5D2

Tolerance = ± 0.01.

Broadcom

ASMD-CWG7-NX7x2-DS101

ASMD-CWG7-NX7x2 Data Sheet

Low-Power 3014 DFN2 Surface-Mount LED

Chromaticity

Coordinates

Chromaticity

Coordinates

Chromaticity

Coordinates

CCT

Bin ID

CCT

Bin ID

CCT

Bin ID

4000K

6C1

0.3825

0.3847

0.3912

0.3887

0.3847

0.3869

0.3937

0.3912

0.3937

0.4006

0.3978

0.3887

0.3912

0.3978

0.3950

0.3783

0.3804

0.3863

0.3840

0.3804

0.3825

0.3887

0.3863

0.3887

0.3950

0.3924

0.3840

0.3863

0.3924

0.3898

0.3798

0.3877

0.3917

0.3836

0.3877

0.3958

0.4001

0.3917

0.4001

0.4044

0.3958

0.3836

0.3917

0.3958

0.3875

0.3646

0.3721

0.3758

0.3681

0.3721

0.3798

0.3836

0.3758

0.3836

0.3875

0.3794

0.3681

0.3758

0.3794

0.3716

3500K

7A1

0.3889

0.3915

0.3981

0.3953

0.3915

0.3941

0.4010

0.3981

0.4010

0.4080

0.4048

0.3953

0.3981

0.4048

0.4017

0.3941

0.3968

0.4040

0.4010

0.3968

0.3996

0.4071

0.4040

0.4071

0.4146

0.4113

0.4010

0.4040

0.4113

0.4080

0.3690

0.3768

0.3800

0.3720

0.3768

0.3848

0.3882

0.3800

0.3882

0.3916

0.3832

0.3720

0.3800

0.3832

0.3751

0.3848

0.3930

0.3966

0.3882

0.3930

0.4015

0.4052

0.3966

0.4052

0.4089

0.4001

0.3882

0.3966

0.4001

0.3916

3500K

7C1

0.4080

0.4113

0.4186

0.4150

0.4113

0.4146

0.4222

0.4186

0.4222

0.4299

0.4259

0.4150

0.4186

0.4259

0.4221

0.4017

0.4048

0.4116

0.4082

0.4048

0.4080

0.4150

0.4116

0.4150

0.4221

0.4183

0.4082

0.4116

0.4183

0.4147

0.3916

0.4001

0.4037

0.3950

0.4001

0.4089

0.4127

0.4037

0.4127

0.4165

0.4073

0.3950

0.4037

0.4073

0.3984

0.3751

0.3832

0.3865

0.3782

0.3832

0.3916

0.3950

0.3865

0.3950

0.3984

0.3898

0.3782

0.3865

0.3898

0.3814

6C2

6C3

6C4

6D1

6D2

6D3

6D4

7A2

7A3

7A4

7B1

7B2

7B3

7B4

7C2

7C3

7C4

7D1

7D2

7D3

7D4

Tolerance = ± 0.01.

Broadcom

ASMD-CWG7-NX7x2-DS101

ASMD-CWG7-NX7x2 Data Sheet

Low-Power 3014 DFN2 Surface-Mount LED

Chromaticity

Coordinates

Chromaticity

Coordinates

Chromaticity

Coordinates

CCT

Bin ID

CCT

Bin ID

CCT

Bin ID

3000K

8A1

0.4147

0.4183

0.4242

0.4203

0.4183

0.4221

0.4281

0.4242

0.4281

0.4342

0.4300

0.4203

0.4242

0.4300

0.4259

0.4221

0.4259

0.4322

0.4281

0.4259

0.4299

0.4364

0.4322

0.4364

0.4430

0.4385

0.4281

0.4322

0.4385

0.4342

0.3814

0.3898

0.3919

0.3833

0.3898

0.3984

0.4006

0.3919

0.4006

0.4028

0.3939

0.3833

0.3919

0.3939

0.3853

0.3984

0.4073

0.4096

0.4006

0.4073

0.4165

0.4188

0.4096

0.4188

0.4212

0.4119

0.4006

0.4096

0.4119

0.4028

3000K

8C1

0.4342

0.4385

0.4449

0.4403

0.4385

0.4430

0.4496

0.4449

0.4496

0.4562

0.4513

0.4403

0.4449

0.4513

0.4465

0.4259

0.4300

0.4359

0.4316

0.4300

0.4342

0.4403

0.4359

0.4403

0.4465

0.4418

0.4316

0.4359

0.4418

0.4373

0.4028

0.4119

0.4141

0.4049

0.4119

0.4212

0.4236

0.4141

0.4236

0.4260

0.4164

0.4049

0.4141

0.4164

0.4071

0.3853

0.3939

0.3960

0.3873

0.3939

0.4028

0.4049

0.3960

0.4049

0.4071

0.3981

0.3873

0.3960

0.3981

0.3893

2700K

9A1

0.4373

0.4418

0.4475

0.4428

0.4418

0.4465

0.4523

0.4475

0.4523

0.4582

0.4532

0.4428

0.4475

0.4532

0.4483

0.4465

0.4513

0.4573

0.4523

0.4513

0.4562

0.4624

0.4573

0.4624

0.4687

0.4634

0.4523

0.4573

0.4634

0.4582

0.3893

0.3981

0.3994

0.3906

0.3981

0.4071

0.4085

0.3994

0.4085

0.4099

0.4008

0.3906

0.3994

0.4008

0.3919

0.4071

0.4164

0.4178

0.4085

0.4164

0.4260

0.4274

0.4178

0.4274

0.4289

0.4193

0.4085

0.4178

0.4193

0.4099

8A2

8A3

8A4

8B1

8B2

8B3

8B4

8C2

8C3

8C4

8D1

8D2

8D3

8D4

9A2

9A3

9A4

9B1

9B2

9B3

9B4

Tolerance = ± 0.01.

Broadcom

ASMD-CWG7-NX7x2-DS101

ASMD-CWG7-NX7x2 Data Sheet

Low-Power 3014 DFN2 Surface-Mount LED

Chromaticity

Coordinates

CCT

Bin ID

2700K

9C1

0.4582

0.4634

0.4695

0.4641

0.4634

0.4687

0.4750

0.4695

0.4750

0.4813

0.4756

0.4641

0.4695

0.4756

0.4700

0.4483

0.4532

0.4589

0.4538

0.4532

0.4582

0.4641

0.4589

0.4641

0.4700

0.4646

0.4538

0.4589

0.4646

0.4593

0.4099

0.4193

0.4207

0.4112

0.4193

0.4289

0.4304

0.4207

0.4304

0.4319

0.4221

0.4112

0.4207

0.4221

0.4126

0.3919

0.4008

0.4021

0.3931

0.4008

0.4099

0.4112

0.4021

0.4112

0.4126

0.4034

0.3931

0.4021

0.4034

0.3944

9C2

9C3

9C4

9D1

9D2

9D3

9D4

Tolerance = ± 0.01.

Broadcom

ASMD-CWG7-NX7x2-DS101

ASMD-CWG7-NX7x2 Data Sheet

Low-Power 3014 DFN2 Surface-Mount LED

Figure 2: Spectral Power Distribution

Figure 3: Forward Current vs. Forward Voltage

1.0

0.9

0.8

0.7

0.6

0.5

0.4

0.3

0.2

0.1

0.0

120

100

2700K

3000K

6500K

380

430

480

530

580

630

680

730

780

0.0

1.0

2.0

3.0

4.0

5.0

WAVELENGTH - nm

FORWARD VOLTAGE - V

Figure 4: Relative Luminous Intensity vs. Mono Pulse Current

Figure 5: Radiation Pattern

1.6

1.4

1.2

1.0

0.8

0.6

0.4

0.2

0.0

1.0

0.9

0.8

0.7

0.6

0.5

0.4

0.3

0.2

0.1

0.0

-90

-60

-30

MONO PULSE CURRENT- mA

ANGULAR DISPLACEMENT - DEGREE

Figure 6: Chromaticity Coordinate Shift vs. Mono Pulse

Current (2700K)

Figure 7: Chromaticity Coordinate Shift vs. Mono Pulse

Current (3000K)

0.010

0.008

0.006

0.010

0.008

0.006

0.004

0.002

0.000

0.002

0.000

-0.002

-0.004

-0.006

-0.008

-0.010

-0.002

-0.004

-0.006

-0.008

-0.010

MONO PULSE CURRENT - mA

Broadcom

ASMD-CWG7-NX7x2-DS101

ASMD-CWG7-NX7x2 Data Sheet

Low-Power 3014 DFN2 Surface-Mount LED

Figure 8: Chromaticity Coordinate Shift vs. Mono Pulse

Current (6500K)

Figure 9: Forward Voltage Shift vs. Junction Temperature

0.25

0.20

0.15

0.10

0.05

0.00

-0.05

-0.10

-0.15

0.010

0.008

0.006

0.004

0.002

0.000

-0.002

-0.004

-0.006

-0.008

-0.010

-50

-25

100

125

JUNCTION TEMPERATURE, T_J- °C

MONO PULSE CURRENT - mA

Figure 10: Relative Luminous Intensity vs Junction

Temperature

Figure 11: Chromaticity Coordinate Shift vs. Junction

Temperature (2700K)

0.008

0.006

0.004

0.002

0.000

-0.002

-0.004

120

100

-0.006

-0.008

-0.010

-50

-25

100

125

-50

-25

100

125

JUNCTION TEMPERATURE, T_J- °C

Figure 12: Chromaticity Coordinate Shift vs. Junction

Temperature (3000K)

Figure 13: Chromaticity Coordinate Shift vs. Junction

Temperature (6500K)

0.008

0.006

0.004

0.002

0.000

-0.002

-0.004

0.015

0.010

0.005

0.000

-0.005

-0.010

-0.006

-0.008

-0.015

-50

-25

100

125

-50

-25

100

125

JUNCTION TEMPERATURE, T_J- °C

Broadcom

ASMD-CWG7-NX7x2-DS101

ASMD-CWG7-NX7x2 Data Sheet

Low-Power 3014 DFN2 Surface-Mount LED

Figure 14: Maximum Forward Current vs. Ambient

Temperature. Derated based on T_JMAX= 110°C

Figure 15: Maximum Forward Current vs. Solder Point

Temperature. Derated based on T_JMAX= 110°C, R_θJ-S= 80°C/W

R_ș-ꢀA= 300°C/W

R_ș-ꢀA= 350°C/W

R_ș-ꢀA= 400°C/W

100

AMBIENT TEMPERATURE, T_A- °C

SOLDER POINT TEMPERATURE, T_S- °C

Figure 16: Recommended Soldering Land Pattern

COPPER PAD

MAXIMIZE COPPER

PAD AREA FOR

BETTER HEAT

DISSIPATION

SOLDER MASK

NOTE: All dimensions are in millimeters (mm).

Broadcom

ASMD-CWG7-NX7x2-DS101

ASMD-CWG7-NX7x2 Data Sheet

Low-Power 3014 DFN2 Surface-Mount LED

Figure 17: Carrier Tape Dimensions

1.75±0.1

3.5±0.10

4.0±0.1

2.0±0.05

1.60±0.05

8.0±0.3

0.2±0.05

3.25±0.1

0.95±0.1

1.6±0.1

NOTE: All dimensions are in millimeters (mm).

Figure 18: Reel Dimensions

9.0

PRODUCT LABEL

USER FEED DIRECTION

NOTE: All dimensions are in millimeters (mm).

Broadcom

ASMD-CWG7-NX7x2-DS101

ASMD-CWG7-NX7x2 Data Sheet

Low-Power 3014 DFN2 Surface-Mount LED

Precautionary Notes

Soldering

Handling Precautions



Do not perform reflow soldering more than twice.

Observe necessary precautions of handling

moisture-sensitive device as stated in the following

section.

The encapsulation material of the LED is made of silicone

for better product reliability. Compared to epoxy

encapsulant, which is hard and brittle, silicone is softer and

flexible. Observe special handling precautions during

assembly of silicone encapsulated LED products. Failure to

comply might lead to damage and premature failure of the

LED. Refer to Broadcom Application Note AN5288, Silicone

Encapsulation for LED: Advantages and Handling

Precautions, for additional information.



Do not apply any pressure or force on the LED during

reflow and after reflow when the LED is still hot.

Use reflow soldering to solder the LED. Use hand

soldering only for rework if unavoidable, but it must be

strictly controlled to following conditions:

– Soldering iron tip temperature = 315°C maximum.

– Soldering duration = 3 seconds maximum.

– Number of cycles = 1 only



Do not poke sharp objects into the silicone encapsulant.

Sharp objects, such as tweezers or syringes, might

apply excessive force or even pierce through the

silicone and induce failures to the LED die or wire bond.

– Power of soldering iron = 50W maximum.



Do not touch the LED package body with the soldering

iron except for the soldering terminals, as it may cause

damage to the LED.



Do not touch the silicone encapsulant. Uncontrolled

force acting on the silicone encapsulant might result in

excessive stress on the wire bond. Hold the LED only

by the body.

Confirm beforehand whether the functionality and

performance of the LED is affected by soldering with

hand soldering.



Do not stack assembled PCBs together. Use an

appropriate rack to hold the PCBs.

Surface of silicone material attracts dust and dirt easier

than epoxy due to its surface tackiness. To remove

foreign particles on the surface of silicone, use a cotton

bud with isopropyl alcohol (IPA). During cleaning, rub

the surface gently without putting too much pressure on

the silicone. Ultrasonic cleaning is not recommended.

Figure 19: Recommended Lead-Free Reflow Soldering Profile

10 to 30 SEC.

255 – 260°C

3°C/SEC. MAX.



For automated pick and place, Broadcom has tested a

nozzle size with OD 1.5 mm to work with this LED.

However, due to the possibility of variations in other

parameters such as pick and place machine maker/

model, and other settings of the machine, verify that the

selected nozzle will not cause damage to the LED.

217°C

200°C

6°C/SEC. MAX.

150°C

3°C/SEC. MAX.

100 SEC. MAX.

60 – 120 SEC.

TIME

Broadcom

ASMD-CWG7-NX7x2-DS101

ASMD-CWG7-NX7x2 Data Sheet

Low-Power 3014 DFN2 Surface-Mount LED

Storage:

Handling of Moisture-Sensitive Devices

The soldering terminals of these Broadcom LEDs are silver

plated. If the LEDs are exposed in an ambient environment

for too long, the silver plating might be oxidized, thus

affecting its solderability performance. As such, keep

unused LEDs in a sealed MBB with desiccant or in a

desiccator at <5% RH.

This product has a Moisture Sensitive Level 3 rating per

JEDEC J-STD-020. Refer to Broadcom Application Note

AN5305, Handling of Moisture Sensitive Surface Mount

Devices, for additional details and a review of proper

handling procedures.

Before use:



An unopened moisture barrier bag (MBB) can be stored

at <40°C/90% RH for 12 months. If the actual shelf life

has exceeded 12 months and the humidity indicator

card (HIC) indicates that baking is not required, it is

safe to reflow the LEDs per the original MSL rating.

Application Precautions



The drive current of the LED must not exceed the

maximum allowable limit across temperature as stated

in the data sheet. Constant current driving is

recommended to ensure consistent performance.



Do not open the MBB prior to assembly (for example,

for IQC). If unavoidable, the MBB must be properly

resealed with fresh desiccant and a HIC. The exposed

duration must be taken in as floor life.



Circuit design must cater to the whole range of forward

voltage (V ) of the LEDs to ensure the intended drive

current can always be achieved.

The LED exhibits slightly different characteristics at

different drive currents, which may result in a larger

variation of performance (such as intensity, wavelength,

and forward voltage). Set the application current as

close as possible to the test current to minimize these

variations.

Control after opening the MBB:



Read the HIC immediately upon opening of the MBB.

Keep the LEDs at <30°/60% RH at all times, and

complete all high temperature-related processes,

including soldering, curing, or rework within 168 hours.



Do not use the LED in the vicinity of material with sulfur

content or in environments of high gaseous sulfur

compounds and corrosive elements. Examples of

material that might contain sulfur are rubber gaskets,

room- temperature vulcanizing (RTV) silicone rubber,

rubber gloves, and so on. Prolonged exposure to such

environments may affect the optical characteristics and

product life.

Control for unfinished reel:

Store unused LEDs in a sealed MBB with desiccant or a

desiccator at <5% RH.

Control of assembled boards:

If the PCB soldered with the LEDs is to be subjected to other

high-temperature processes, store the PCB in a sealed

MBB with desiccant or desiccator at <5% RH to ensure that

all LEDs have not exceeded their floor life of 168 hours.



White LEDs must not be exposed to acidic

environments and must not be used in the vicinity of

any compound that may have acidic outgas, such as,

but not limited to, acrylate adhesive. These

environments have an adverse effect on LED

performance.

Baking is required if:



The HIC indicator indicates a change in color for 10%

and 5%, as stated on the HIC.



Avoid rapid changes in ambient temperature, especially

in high-humidity environments, because they cause

condensation on the LED.

The LEDs are exposed to conditions of >30°C/60% RH

at any time.

If the LED is intended to be used in harsh or outdoor

environments, protect the LED against damages

caused by rain, water, dust, oil, corrosive gases,

external mechanical stresses, and so on.

The LED's floor life exceeded 168 hours.

The recommended baking condition is: 60°C ± 5ºC for

20 hours.

Baking can only be done once.

Broadcom

ASMD-CWG7-NX7x2-DS101

ASMD-CWG7-NX7x2 Data Sheet

Low-Power 3014 DFN2 Surface-Mount LED

Figure 20: Solder Point Temperature on PCB

Thermal Management

POLARITY

MARK

The optical, electrical, and reliability characteristics of the

LED are affected by temperature. Keep the junction

Ts POINT

temperature (T ) of the LED below the allowable limit at all

times. T can be calculated as follows:

PRINTED

CIRCUIT

BOARD

T = T + R

× I × V

F Fmax

θJ-A

where:

T = Ambient temperature (°C)

T can be easily measured by mounting a thermocouple on

= Thermal resistance from LED junction to

θJ-A

the soldering joint as shown in preceding figure, while R

θJ-S

ambient (°C/W)

is provided in the data sheet. Verify the T of the LED in the

I = Forward current (A)

final product to ensure that the LEDs are operating within all

maximum ratings stated in the data sheet.

= Maximum forward voltage (V)

Fmax

The complication of using this formula lies in T and R

θJ-A

Eye Safety Precautions

Actual T is sometimes subjective and hard to determine.

varies from system to system depending on design

θJ-A

LEDs may pose optical hazards when in operation. Do not

look directly at operating LEDs because it might be harmful

to the eyes. For safety reasons, use appropriate shielding or

personal protective equipment.

and is usually not known.

Another way of calculating T is by using the solder point

temperature, T as follows:

T = T + R

× I × V

F Fmax

θJ-S

where:

T = LED solder point temperature as shown in the

following figure (°C)

= Thermal resistance from junction to solder point

θJ-S

(°C/W)

I = Forward current (A)

= Maximum forward voltage (V)

Fmax

Broadcom

ASMD-CWG7-NX7x2-DS101

Disclaimer

Broadcom's products and software are not specifically designed, manufactured, or authorized for sale as parts, components,

or assemblies for the planning, construction, maintenance, or direct operation of a nuclear facility or for use in medical

devices or applications. The customer is solely responsible, and waives all rights to make claims against Broadcom or its

suppliers, for all loss, damage, expense, or liability in connection with such use.

Broadcom, the pulse logo, Connecting everything, Avago Technologies, Avago, and the A logo are among the trademarks

of Broadcom and/or its affiliates in the United States, certain other countries, and/or the EU.

The term “Broadcom” refers to Broadcom Inc. and/or its subsidiaries. For more information, please visit www.broadcom.com.

Broadcom reserves the right to make changes without further notice to any products or data herein to improve reliability,

function, or design. Information furnished by Broadcom is believed to be accurate and reliable. However, Broadcom does

not assume any liability arising out of the application or use of this information, nor the application or use of any product or

circuit described herein, neither does it convey any license under its patent rights nor the rights of others.

ASMD-CWG7-NX7C2 [BOARDCOM]

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