DS55_技术文档

Technical Datasheet DS55

LeadꢀFree

SuperFlux LEDs

Introduction

This revolutionary package design allows the lighting designer to

reduce the number of LEDs required and provide a more uniform

and unique illuminated appearance than with other LED solutions.

This is possible through the efficient optical package design and

highꢀcurrent capabilities.

Key Benefits

The low profile package can be easily coupled with reflectors or

lenses to efficiently distribute light and provide the desired lit

appearance. This product family employs red, redꢀorange and amber

LED materials, which allow designers to match the color of many

lighting applications like vehicle signal lamps, specialty lighting, and

electronic signs.

Rugged Lighting Products

Electricity Savings

Maintenance Savings

Features

LeadꢀFree

RoHS Compliant

High Luminance

Uniform Color

Low Power Consumption

Low Thermal Resistance

Low Profile

Meets SAE/ECE/JIS

Automotive Color

Requirements

Packaged in tubes for use with

automatic insertion equipment

HPWAꢀMH02

HPWTꢀMH02

HPWAꢀDH02

HPWTꢀDH02

HPWTꢀRD02

HPWTꢀBH02

HPWTꢀMD02

HPWTꢀRL02

HPWTꢀDD02

HPWTꢀML02

HPWTꢀBD02

HPWTꢀDL02

HPWTꢀRH02

HPWTꢀBL02

Typical

Applications

Automotive Exterior Lighting

Electronic Signs and Signals

Specialty Lighting

Outline Drawings

Selection Guide

Table 1

Total Included

Angle θ

(Degrees)

Total Flux Φ_V(LM)

90V

[1]

[2]

@ 70 mA

Typ.

Device Type

LED Color

Typ.

HPWAꢀMH02

HPWAꢀDH02

AS AlInGaP RedꢀOrange

2.0

3.8

95

75

HPWTꢀRD02

HPWTꢀMD02

HPWTꢀDD02

HPWTꢀBD02

44 X 88

100

70

TS AlInGaP Red

TS AlInGaP RedꢀOrange

TS AlInGaP Amber

50

HPWTꢀRH02

HPWTꢀMH02

HPWTꢀDH02

HPWTꢀBH02

44 X 88

100

70

5.0

2.5

50

HPWTꢀRL02

HPWTꢀML02

HPWTꢀDL02

HPWTꢀBL02

44 X 88

100

70

50

Notes:

1.Φv is the total luminous flux output as measured with

an integrating sphere after the device has stabilized.

(R _JꢀA= 200°C/W, T_A= 25ºC)

θ

2.θ_{0.90 V}is the included angle at which 90% of the total

luminous flux is captured.

Absolute Maximum Ratings at

T_A= 25ºC

Table 2

Parameter

HPWA

70

HPWT

70

Units

mA

mW

V

[1]

DC Forward Current

Power Dissipation

187

10

221

10

Reverse Voltage (IR = 100 mA)

Operating Temperature Range

Storage Temperature Range

High Temperature Chamber

LED Junction Temperature

ꢀ40 to +100

ºC

ꢀ55 to +100

125ºC, 2 Hours

125ºC

ºC

[2]

Solder Conditions

Preheat Temperature

Solder Temperature

85 +/ꢀ 15°C, 70 sec +/ꢀ 20 sec

250 +/ꢀ 5°C, 2.5 +/ꢀ 0.5 sec

[1.5mm (0.06 in) below seating plane]

Notes:

1. Deꢀrate as shown in Figures 4a and 4b.

2. See "Recommended Soldering Conditions", Page 8.

LeadꢀFree SuperFlux LEDs Datasheet DS55 (10/06)

2

Optical Characteristics at

T_A= 25°C, I_F= 70 mA,

R_θJꢀA= 200°C/W

Electrical Characteristics at T_A=25°C

Table 4

Forward Voltage

V_F(Volts)

Reverse

Breakdown Capacitance

Thermal

Resistance

Rθ_JꢀPIN

Table 3

[1]

@

V_R(Volts)

@ I_R= 100

μA

C (pF)

V_F= 0,

Speed of

Total

Luminous

Intensity/

Total Flux

I_v(cd)/Φ_v(lm)

Typ.

I_F= 70mA (HPWA,

HPWT)

Response

[2]

Peak

Wavelength

λpeak (nm)

Typ.

Dominant

Included

Viewing

F = 1MHz.

(°C/W)

τ

_s(ns)

1/2

Wavelength

Angleθ_{0.90 V}

Angle 2θ

(Degrees)

Typ.

Device

Type

[1]

[2]

Device

Type

λdom(nm)

(Degrees)

Min Typ

Max

2.67

3.03

3.15

Min Typ.

Typ.

40

Typ.

155

125

Typ.

20

Typ.

HPWAꢀxH02 1.83

HPWTꢀxD02 2.19

HPWTꢀxH02 2.19

HPWTꢀxL02 2.19

2.2

2.6

10

20

HPWAꢀMH02

HPWAꢀDH02

624

618

95

75

0.6

0.9

90

60

40

20

40

20

HPWTꢀRD02

HPWTꢀMD02

HPWTꢀDD02

HPWTꢀBD02

44 X 88

100

70

1.25

0.6

25 x 68

70

640

630

620

594

40

20

1.5

2.0

40

50

30

Notes:

HPWTꢀRH02

HPWTꢀMH02

HPWTꢀDH02

HPWTꢀBH02

44 X 88

100

70

1.25

0.6

25 x 68

70

626

596

1.Operation in reverse bias is not recommended.

2.τs is the time constant, e^ꢀt/τs

1.5

2.0

40

.

50

30

HPWTꢀRL02

HPWTꢀML02

HPWTꢀDL02

HPWTꢀBL02

44 X 88

100

70

1.25

0.6

25 x 68

70

1.5

2.0

40

50

30

Notes:

1.The dominant wavelength is derived from the CIE

Chromaticity Diagram and represents the perceived color

of the device.

2.θ_{0.90 V}is the included angle at which 90% of the total lumiꢀ

nous flux is captured.

LeadꢀFree SuperFlux LEDs Datasheet DS55 (10/06)

3

Part Number Selection

Red

[1]

Part Number

Viewing Angle

Min. Flux

Max Flux

Minimum

Maximum

1/2

2θ (Degrees)

Φv (lm)

Intensity (cd)

HPWTꢀRD02ꢀ00000

HPWTꢀRD02ꢀD4000

HPWTꢀRD02ꢀE4000

HPWTꢀRD02ꢀF4000

HPWTꢀBD02ꢀ00000

HPWTꢀBD02ꢀD4000

HPWTꢀBD02ꢀE4000

HPWTꢀBD02ꢀF4000

HPWTꢀDD02ꢀ00000

HPWTꢀDD02ꢀD4000

HPWTꢀDD02ꢀE4000

HPWTꢀDD02ꢀF4000

HPWTꢀMD02ꢀ00000

HPWTꢀMD02ꢀD4000

HPWTꢀMD02ꢀE4000

HPWTꢀMD02ꢀF4000

25 X 68

30

1.5

2.0

2.5

3.0

1.5

2.0

2.5

3.0

1.5

2.0

2.5

3.0

1.5

2.0

2.5

3.0

1.9

2.5

3.1

3.8

3.0

4.0

5.0

6.0

2.3

3.0

3.8

4.5

0.9

1.2

1.5

1.8

4.8

6.1

7.3

6.0

7.6

9.1

30

4.8

6.1

7.3

9.6

30

12.2

14.6

30

40

4.8

6.1

7.3

7.2

9.2

40

11.0

70

4.8

6.1

7.3

2.9

3.7

4.4

70

Note:

1. Φv is the total luminous flux output as measured with an integrating sphere after the device has stabilized.

LeadꢀFree SuperFlux LEDs Datasheet DS55 (10/06)

4

RedꢀOrange

Part Number

Viewing Angle

Min. Flux

Max Flux

Minimum

Maximum

1/2

2θ (Degrees)

Φv (lm)

Intensity (cd)

HPWTꢀRH02ꢀ00000

HPWTꢀRH02ꢀD4000

HPWTꢀRH02ꢀE4000

HPWTꢀRH02ꢀF4000

HPWTꢀRH02ꢀG4000

HPWTꢀRH02ꢀH4000

HPWTꢀBH02ꢀ00000

HPWTꢀBH02ꢀD4000

HPWTꢀBH02ꢀE4000

HPWTꢀBH02ꢀF4000

HPWTꢀBH02ꢀG4000

HPWTꢀBH02ꢀH4000

HPWTꢀDH02ꢀ00000

HPWTꢀDH02ꢀD4000

HPWTꢀDH02ꢀE4000

HPWTꢀDH02ꢀF4000

HPWTꢀDH02ꢀG4000

HPWTꢀDH02ꢀH4000

HPWTꢀMH02ꢀ00000

HPWTꢀMH02ꢀD4000

HPWTꢀMH02ꢀE4000

HPWTꢀMH02ꢀF4000

HPWTꢀMH02ꢀG4000

HPWTꢀMH02ꢀH4000

HPWAꢀMH02ꢀB4000

HPWAꢀDH02ꢀB4000

HPWAꢀMH02ꢀC4000

HPWAꢀDH02ꢀC4000

25 X 68

30

1.5

2.0

2.5

3.0

3.5

4.0

1.5

2.0

2.5

3.0

3.5

4.0

1.5

2.0

2.5

3.0

3.5

4.0

1.5

2.0

2.5

3.0

3.5

4.0

1.0

1.5

1.9

2.5

3.1

3.8

4.4

5.0

3.0

4.0

5.0

6.0

7.0

8.0

2.3

3.0

3.8

4.5

5.3

6.0

0.9

1.2

1.5

1.8

2.1

2.4

0.6

1.5

0.9

2.3

4.8

6.1

6.0

7.6

7.3

9.1

9.7

12.1

15.0

12.0

30

4.8

6.1

9.6

30

12.2

14.6

19.4

24.0

30

7.3

30

9.7

30

12.0

40

4.8

6.1

7.2

9.2

40

7.3

11.0

14.6

18.0

40

9.7

40

12.0

70

4.8

6.1

7.3

9.7

12.0

3.6

4.2

2.9

3.7

4.4

5.8

7.2

2.2

5.4

2.5

6.3

70

90

40

90

40

Amber

Part Number

Viewing Angle

Min. Flux

Max Flux

Minimum

Maximum

1/2

2θ (Degrees)

Φv (lm)

Intensity (cd)

HPWTꢀRL02ꢀ00000

HPWTꢀRL02ꢀC4000

HPWTꢀRL02ꢀD4000

HPWTꢀBL02ꢀ00000

HPWTꢀBL02ꢀC4000

HPWTꢀBL02ꢀD4000

HPWTꢀDL02ꢀ00000

HPWTꢀDL02ꢀC4000

HPWTꢀDL02ꢀD4000

HPWTꢀML02ꢀ00000

HPWTꢀML02ꢀC4000

HPWTꢀML02ꢀD4000

25 X 68

30

1.0

1.5

2.0

1.0

1.5

2.0

1.0

1.5

2.0

1.0

1.5

2.0

1.3

1.9

2.5

2.0

3.0

4.0

1.5

2.3

3.0

0.6

0.9

1.2

4.2

4.8

5.3

6.0

30

4.2

4.8

8.4

9.6

30

40

4.2

4.8

6.3

7.2

40

70

4.2

4.8

2.5

2.9

70

LeadꢀFree SuperFlux LEDs Datasheet DS55 (10/06)

5

1

Figures

HPWA-XL02

HPWA-XH02

HPWT-XH02

HPWT-XD02

HPWT-XL02

Figure 3. HPWA/HPWTꢀxx02 Relative Luminous Flux

vs. Forward Current.

Figure 1a. Relative Intensity vs. Wavelength

70

60

70

50

Rth(j-a) = 300 C/W

60

Rth(j-a) = 400 C/W

40

HPWT

Rth(j-a) = 500 C/W

50

HPWA

Rth(j-a) = 600 C/W

30

40

30

20

10

20

10

0

20

40

60

80

100

AMBIENT TEMPERATURE (C)

Figure 4a. HPWAꢀxx02 Maximum DC Forward Current

vs. Ambient Temperature.

0

1.4 1.6 1.8 2.0 2.2 2.4 2.6 2.8 3.0 3.2

FORWARD VOLTAGE (V)

70

60

50

Figure 2a. Forward Current vs. Forward Voltage

40

Rth(j-a) = 300 C/W

Rth(j-a) = 400 C/W

Rth(j-a) = 500 C/W

Rth(j-a) = 600 C/W

30

20

10

0

20

40

60

80

100

AMBIENT TEMPERATURE (C)

Figure 4b. HPWTꢀxx02 Maximum DC Forward Current

vs. Ambient Temperature.

Note:

1.24mm2 of Cu pad per emitter at cathode lead is recomꢀ

mended for lowest thermal resistance.

1. All Figures Typical unless indicated as Maximum.

LeadꢀFree SuperFlux LEDs Datasheet DS55 (10/06)

6

Figure 5a. HPWTꢀRx02 Relative Luminous Intensity vs.

Off Axis Angle.

Figure 5d. HPWA(T)ꢀDx02 Relative Luminous Intensity

vs. Off Axis Angle.

Figure 5b. HPWAꢀMx02 Relative Luminous Intensity

vs. Off Axis Angle.

Figure 5e. HPWTꢀBx02 Relative Luminous Intensity

vs. Off Axis Angle.

Figure 5c. HPWTꢀMx02 Relative Luminous Intensity

vs. Off Axis Angle.

1. All Figures Typical unless indicated as Maximum.

LeadꢀFree SuperFlux LEDs Datasheet DS55 (10/06)

7

Recommended Soldering Conditions for PbꢀFree SuperFlux

300

Peak

255^oC

250

217^oC

200

Preheat

90 s (MAX)

150

100^oC (MAX)

100

50

0

10

20

30

40

50

60

70

80

90

Time (Seconds)

Solder Conditions

Preheat Temperatue

85 +/ꢀ 15ºC

70s +/ꢀ 20s

250 +/ꢀ 5ºC

2.5 +/ꢀ 0.5s

Preheat Time

Peak Profile Temperature

Solder Time Above 217ºC

Note:

1.All top preheat stages are to be turned off so that the lamp body is not directly exposed to the heat source.

2.Profile taken on the LED lead at the bottom of the PCB.

3.Single wave soldering is recommended.

LeadꢀFree SuperFlux LEDs Datasheet DS55 (10/06)

8


型号：	DS55
厂家：	LUMILEDS LIGHTING COMPANY
描述：	Lead-Free SuperFlux LEDs 无铅食人鱼LED灯
文件：	总9页 (文件大小：821K)
中文：	中文翻译
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DS55 [LUMILEDS]

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DS55-0001TR

DS55-0002

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DS55-0002-TR

DS55-0002RTR

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