HLMP-346X-0001 [BOARDCOM]

T-13/4 (5 mm) Low Profile LED Lamps;


型号：	HLMP-346X-0001
厂家：	Broadcom Corporation.
描述：	T-13/4 (5 mm) Low Profile LED Lamps
文件：	总9页 (文件大小：340K)
中文：	中文翻译
下载：	下载PDF数据表文档文件

HLMP-3351, HLMP-3366, HLMP-3451,

HLMP-3466, HLMP-3554, HLMP-3568

T-1 / (5 mm) Low Proﬁle LED Lamps

Data Sheet

Description

Features

The HLMP-335x/-336x Series are Gallium Arsenide • High intensity

Phosphide on Gallium Phosphide High Eﬃciency Red

Light Emitting Diodes.

• Low proﬁle: 5.8 mm (0.23in.) nominal

• T-1 / diameter package

The HLMP-345x/-346x Series are Gallium Arsenide

Phosphide on Gallium Phosphide Yellow Light Emitting

Diodes.

• Diﬀused and non-diﬀused types

• General purpose leads

• IC compatible/low current requirements

• Reliable and rugged

The HLMP-355x/-356x Series are Gallium Phosphide Green

Light Emitting Diodes.

The Low Proﬁle T-1 / package provides space savings

and is excellent for backlighting applications.

Package Dimensions

Selection Guide

Luminous Intensity Iv (mcd)

Part Number

HLMP-

1/2[1]

Color

Package Description

Min.

5.4

Max.

Red

T-1³/₄Tinted, diﬀused

3351

3351-D00xx

3351-F00xx

3366

2.1

5.4

T-1³/₄Tinted, non-diﬀused

T-1³/₄Tinted, diﬀused

13.8

3.6

3366-H00xx

3451

Yellow

Green

3451-D00xx

3451-EFBxx

3451-F00xx

3466

3.6

5.7

18.4

9.2

T-1³/₄Tinted, non-diﬀused

T-1³/₄Tinted, diﬀused

9.2

3466-F00xx

3554

9.2

6.7

3554-E00xx

3568

6.7

T-1³/₄Tinted, non-diﬀused

10.6

3568-F00xx

Part Numbering System

HLMP - 3 x xx - x x x xx

Mechanical Option

00: Bulk

01: Tape & Reel, Crimped Leads

02: Tape & Reel, Straight Leads

R1: Tape & Reel, Counterclockwise

Color Bin Options

0: Full Color Bin Distribution

B: Color Bin 2 & 3 only

Maximum Iv Bin Options

0: Open (No. max. limit)

Others: Please Refer to the Iv Bin Table

Minimum Iv Bin Options

Please Refer to the Iv Bin Table

Lens Options

5x: Tinted, Diﬀused

6x: Tinted, Nondiﬀused

Color Options

3: GaP HER

4: GaP Yellow

5: GaP Green

Package Options

3: T-1 3/4 (5 mm)

Absolute Maximum Ratings at T = 25°C

Parameter

3350 Series

3450 Series

3550 Series

Units

Peak Forward Current

Average Forward Current^[1]

DC Current^[2]

Power Dissipation^[3]

135

Reverse Voltage (I_R= 100 μA)

Transient Forward Current^[4](10 μs Pulse)

Operating Temperature Range

Storage Temperature Range

500

°C

-40 to +100

250°C for 3 seconds

-20 to +100

-40 to +100

Wave Soldering Temperature

[1.59 mm (0.063 in.) from Body]

Solder Dipping Temperature

260°C for 5 seconds

[1.59 mm (0.063 in.) from Body]

Notes:

1. See Figure 10 (High Eﬃciency Red), 15 (Yellow), or 20 (Green) to establish pulsed operating conditions.

2. For High Eﬃciency Red and Green Series, derate linearly from 50°C at 0.5 mA/°C. For Red and Yellow Series, derate linearly from 50°C at

0.2 mA/°C.

3. For High Eﬃciency Red and Green Series, derate power linearly from 25°C at 1.8 mW/°C. For Red and Yellow Series, derate power linearly from 50°C

at 1.6 mW/°C.

4. The transient peak current is the maximum non-recurring peak current that can be applied to the device without damaging the LED die and

wirebond. It is not recommended that the device be operated at peak current beyond the peak forward current listed in the Absolute Maximum

Ratings.

1.0

HIGH

EFFICIENCY

RED

T = 25°C

RED

0.5

GREEN

YELLOW

500

550

600

650

700

750

WAVELENGTH – nm

Figure 1. Relative intensity vs. wavelength.

High Eﬃciency Red HLMP-335x/-336x Series

Electrical Speciﬁcations at T = 25°C

Device

HLMP-

Symbol

Description

Min.

Typ.

Max.

Units

Test Conditions

2q_1/2

Including Angle Between

Half Luminous Intensity

Points

3366

Deg.

Note 1

(Figure 11)

λ_PEAK

Peak Wavelength

635

Measurement at

Peak (Figure 1)

λ_d

Dominant Wavelength

Spectral Line Halfwidth

Speed of Response

Capacitance

626

Note 2

Δλ_1/2

τ_s

V_F= 0; f = 1 MHz

Rq_J-PIN

Thermal Resistance

260

°C/W

Junction to

Cathode Lead

V_F

Forward Voltage

1.9

2.4

I_F= 10 mA

(Figure 7)

V_R

Reverse Breakdown Voltage

Luminous Eﬃcacy

5.0

I_R= 100 μA

η_V

145

lm/W

Note 3

Notes:

1. q / is the oﬀ-axis angle at which the luminous intensity is half the axial luminous intensity.

2. Dominant wavelength, λ , is derived from the CIE chromaticity diagram and represents the single wavelength which deﬁnes the color of the

device.

3. Radiant Intensity, I , in watts/steradian may be found from the equation I = I /η , where I is the luminous intensity in candelas and η is the

luminous eﬃcacy in lumens/watt.

1.0

1.5

2.0

2.5

3.0

3.5

4.0

– FORWARD VOLTAGE – V

Figure 7. Forward current vs. forward voltage.

Figure 8. Relative luminous intensity vs. forward

current.

Figure 9. Relative eﬃciency (luminous intensity

per unit current) vs. peak current.

Figure 10. Maximum tolerable peak current vs. pulse duration.

(I_DCMAX as per MAX ratings).

Figure 11. Relative luminous intensity vs. angular displacement.

Yellow HLMP-345x/-346x Series

Electrical Speciﬁcations at T = 25°C

Device

HLMP-

Symbol

Description

Min.

Typ.

Max.

Units

Test Conditions

2q_1/2

Including Angle Between

Half Luminous Intensity

Points

3466

Deg.

Note 1

(Figure 16)

λ_PEAK

Peak Wavelength

583

Measurement at

Peak (Figure 1)

λ_d

Dominant Wavelength

Spectral Line Halfwidth

Speed of Response

Capacitance

585

Note 2

Δλ_1/2

τ_s

V_F= 0; f = 1 MHz

Rq_J-PIN

Thermal Resistance

260

°C/W

Junction to

Cathode Lead

V_F

Forward Voltage

2.0

2.4

I_F= 10 mA

(Figure 12)

V_R

Reverse Breakdown Voltage

Luminous Eﬃcacy

5.0

I_R= 100 μA

η_V

500

lm/W

Note 3

Notes:

1. q / is the oﬀ-axis angle at which the luminous intensity is half the axial luminous intensity.

2. Dominant wavelength, λ , is derived from the CIE chromaticity diagram and represents the single wavelength which deﬁnes the color of the

device.

3. Radiant Intensity, I , in watts/steradian may be found from the equation I = I /η , where I is the luminous intensity in candelas and η is the

luminous eﬃcacy in lumens/watt.

1.0

1.5

2.0

2.5

3.0

3.5

4.0

– FORWARD VOLTAGE – V

Figure 12. Forward current vs. forward voltage.

Figure 13. Relative luminous intensity vs.

forward current.

Figure 14. Relative eﬃciency (luminous intensity

per unit current) vs. peak current.

Figure 15. Maximum tolerable peak current vs.

pulse duration. (I_DCMAX as per MAX ratings).

Figure 16. Relative luminous intensity vs. angular displacement.

Green HLMP-355x/-356x Series

Electrical Speciﬁcations at T = 25°C

Device

HLMP-

Symbol

Description

Min.

Typ.

Max.

Units

Test Conditions

2q_1/2

Including Angle Between

Half Luminous Intensity

Points

3554

3568

Deg.

Note 1

(Figure 21)

λ_PEAK

Peak Wavelength

565

Measurement at

Peak (Figure 1)

λ_d

Dominant Wavelength

Spectral Line Halfwidth

Speed of Response

Capacitance

569

Note 2

Δλ_1/2

τ_s

500

V_F= 0; f = 1 MHz

Rq_J-PIN

Thermal Resistance

260

°C/W

Junction to

Cathode Lead

V_F

Forward Voltage

2.1

2.7

I_F= 10 mA

(Figure 17)

V_R

Reverse Breakdown Voltage

Luminous Eﬃcacy

5.0

I_R= 100 μA

η_V

595

lm/W

Note 3

Notes:

1. q / is the oﬀ-axis angle at which the luminous intensity is half the axial luminous intensity.

2. Dominant wavelength, λ , is derived from the CIE chromaticity diagram and represents the single wavelength which deﬁnes the color of the

device.

3. Radiant Intensity, I , in watts/steradian may be found from the equation I = I /η , where I is the luminous intensity in candelas and η is the

luminous eﬃcacy in lumens/watt.

Figure 17. Forward current vs. forward voltage.

Figure 18. Relative luminous intensity vs.

forward current.

Figure 19. Relative eﬃciency (luminous intensity

per unit current) vs. peak current.

Figure 20. Maximum tolerable peak current vs.

pulse duration. (I_DCMAX as per MAX ratings).

Figure 21. Relative luminous intensity vs. angular displacement.

Intensity Bin Limits

Intensity Range (mcd)

Min. Max.

Intensity Range (mcd)

Min. Max.

Color

Bin

Color

Bin

Red

Yellow

2.4

3.8

4.0

6.5

3.8

6.1

6.5

10.3

6.1

9.7

10.3

16.6

9.7

15.5

16.6

26.5

15.5

24.8

26.5

42.3

24.8

39.6

42.3

67.7

39.6

63.4

67.7

108.2

173.2

250.0

360.0

510.0

800.0

1250.0

1800.0

2900.0

4700.0

7200.0

11700.0

18000.0

27000.0

63.4

101.5

162.4

234.6

340.0

540.0

850.0

1200.0

1700.0

2400.0

3400.0

4900.0

7100.0

10200.0

14800.0

21400.0

30900.0

108.2

173.2

250.0

360.0

510.0

800.0

1250.0

1800.0

2900.0

4700.0

7200.0

11700.0

18000.0

101.5

162.4

234.6

340.0

540.0

850.0

1200.0

1700.0

2400.0

3400.0

4900.0

7100.0

10200.0

14800.0

21400.0

Maximum tolerance for each bin limit is 18ꢀ.

Intensity Bin Limits, continued

Color Categories

Lambda (nm)

Min.

Intensity Range (mcd)

Color

Cat#

Max.

564.5

567.5

570.5

573.5

576.5

584.5

587.0

589.5

592.0

593.0

Color

Bin

Min.

Max.

Green

561.5

564.5

567.5

570.5

573.5

582.0

584.5

587.0

589.5

592.0

Green

7.6

12.0

19.1

30.7

49.1

78.5

Yellow

78.5

125.7

201.1

289.0

417.0

680.0

1100.0

1800.0

2700.0

4300.0

6800.0

10800.0

16000.0

25000.0

40000.0

125.7

201.1

289.0

417.0

680.0

1100.0

1800.0

2700.0

4300.0

6800.0

10800.0

16000.0

25000.0

Maximum tolerance for each bin limit is 0.5 nm.

Maximum tolerance for each bin limit is 18ꢀ.

Mechanical Option Matrix

Mechanical Option Code

Deﬁnition

Bulk Packaging, minimum increment 500 pcs/bag

Tape & Reel, crimped leads, minimum increment 1300 pcs/bag

Tape & Reel, straight leads, minimum increment 1300 pcs/bag

Tape & Reel, crimped leads, reeled counterclockwise, anode leaves ﬁrst

Note:

Allcategoriesareestablishedforclassiﬁcationofproducts. Productsmaynotbeavailableinallcategories. PleasecontactyourlocalAvagorepresentative

for further clariﬁcation/information.

For product information and a complete list of distributors, please go to our web site: www.avagotech.com

Avago, Avago Technologies, and the A logo are trademarks of Avago Technologies in the United States and other countries.

AV02-1559EN - October 13, 2008

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