HLMP-AD87-RU0XX [AGILENT]

5mm Mini Oval Precision Optical Performance Red, Blue and Green LEDs.; 5毫米迷你椭圆形精密光学性能的红色，蓝色和绿色LED 。


型号：	HLMP-AD87-RU0XX
厂家：	AGILENT TECHNOLOGIES, LTD.
描述：	5mm Mini Oval Precision Optical Performance Red, Blue and Green LEDs. 5毫米迷你椭圆形精密光学性能的红色，蓝色和绿色LED 。
文件：	总8页 (文件大小：79K)
中文：	中文翻译
下载：	下载PDF数据表文档文件

Agilent HLMP-AD85, HLMP-AD87,

HLMP-AM86, HLMP-AM87,

HLMP-AB86, HLMP-AB87

5mm Mini Oval Precision Optical

Performance Red, Blue and Green LEDs.

Data Sheet

Features

• Well defined spatial radiation

Description

pattern

These Precision Optical

mixing in full color

applications, message

uniformity across the viewing

angle of the sign. High

efficiency LED material is used

in these lamps: Aluminium

• High brightness material

Performance Oval LEDs are

specifically designed for full

color/video and passenger

information signs. The oval

shaped radiation pattern and

high luminous intensity ensure

these devices are excellent for

wide field of view outdoor

applications where a wide

viewing angle and readability

in sunlight are essential.

• Available in red, green and blue

color.

• Superior resistance to moisture

Benefits

Indium Gallium Phosphide

• Viewing angle designed for wide

(AlInGaP) for red and Indium

field of view applications

Gallium Nitride (InGaN) for

• Superior performance for outdoor

blue and green. Each lamp is

made with an advance optical

grade epoxy offering superior

environments.

Applications

These lamps have very smooth, high temperature and high

matched radiation patterns

ensuring consistent color

• Full color signs

• Commercial outdoor advertising

moisture resistance in outdoor

applications.

Caution: InGaN devices are Class I ESD sensitive. Please observe appropriate precautions

during handling and processing. Refer to Application Note AN-1142 for additional details.

Package Dimensions

24.00 0.20

0.94ꢀ 0.008

1.0

MIN.

3.8 0.20

0.038

0.1ꢀ0 0.008

8.ꢀꢀ 0.2ꢀ

0.337 .010

CATHODE LEAD

ꢀ.2 0.2

2.ꢀ4 0.3

0.20ꢀ .008

0.100 0.012

0.4 0.1

0.016 0.004

0.ꢀ0 0.10

0.8

MAX. Epoxy Meniscus

0.020 0.004

0.016.

24.00 0.20

0.94ꢀ 0.008

11.80 0.2ꢀ

0.46ꢀ .010

1.0

MIN.

3.8 0.20

0.1ꢀ0 0.008

0.038

8.ꢀꢀ 0.2ꢀ

1.2ꢀ 0.20

0.337 .010

0.049 0.008

CATHODE LEAD

ꢀ.2 0.2

2.ꢀ4 0.3

0.20ꢀ .008

0.100 0.012

0.4 0.1

0.016 0.004

0.ꢀ0 0.10

0.8

MAX. Epoxy Meniscus

0.020 0.004

0.016.

NOTES:

DIMENSIONSINMILLIMETERS(INCHES).

FOR BLUE AND GREEN, IF HEAT-SINKING APPLICATION IS REQUIRED, THE TERMINAL FOR HEAT SINK IS ANODE.

Device Selection Guide

Luminous Intensity

Typ. Dominant

Iv (cd) at 20mA

Wavelength λd

Package

Part Number

Color

(nm)

Min.

1.ꢀ0

2.ꢀ0

0.ꢀ2

Max.

4.20

7.20

1.ꢀ0

Lens Type

Standoffs

Drawing

HLMP-AD8ꢀ-RU0xx Red

HLMP-AD87-RU0xx Red

630

Tinted, diffused

630

Yes

HLMP-AM86-TW0xx Green ꢀ2ꢀ

HLMP-AM87-TW0xx Green ꢀ2ꢀ

Yes

HLMP-AB86-MQ0xx Blue

470

HLMP-AB87-MQ0xx Blue

Yes

Notes:

1. Tolerance for luminous intensity measurement is 1ꢀ5

2. The luminous intensity is measured on the mechanical axis of the lamp package.

3. The optical axis is closely aligned with the package mechanical axis.

4. The dominant wavelength λ is derived from the Chromaticity Diagram and represents the color of the lamp.

ꢀ. LED light output is bright enough to cause injuries to the eyes. Precautions must be taken to prevent looking directly at the LED without proper

safety equipment.

Part Numbering System

H L M P - x x 8x - x

x x xx

Mechanical Option

00: Bulk

DD: Ammo Pack

ZZ: Flexi-Bin, Ammo pack

Color Bin Options

0: Full color bin distribution

Maximum Intensity Bin

Refer to Device Selection Guide

Minimum Intensity Bin

Refer to Device Selection Guide

Color

B: Blue 470nm

M: Green ꢀ2ꢀnm

D: Red 630nm

Package

A: ꢀmm Mini Oval

Absolute Maximum Rating at T = 25 C

Parameters

Blue and Green

Red

ꢀ0

Unit

^oC

[1]

DC forward current

100 ^[2]

[3]

Peak pulsed forward current

Average forward current

Power dissipation

100

120

140

130

LED junction temperature

Operating temperature range

Storage temperature range

110

-40 to +8ꢀ

-40 to +100

-40 to +120

^oC

[4]

Wave soldering temperature

2ꢀ0 for 3 seconds

^oC

Notes:

1. Derate linearly as shown in figure 3 and figure 7.

2. Duty factor 105, frequency 1KHz.

3. Duty factor 305, frequency 1Khz.

4. 1.ꢀ9 mm (0.06 inch) below body.

Electrical/Optical Characteristics T = 25 C

Value

Symbol Min.

Parameters

Typ.

Max.

Units

Test Condition

Forward voltage

Red

Green

Blue

Reverse Voltage ^[1]

V_F

V_R

I_F= 20 mA

2.20

3.60

3.ꢀ0

2.40

4.00

Red

Green

Blue

ꢀ.0

I_R= 100 µA

I_R= 10 µA

[2]

Thermal resistance

Rθ_J-PIN

240

^oC/W

[3,4]

Dominant wavelength

I_F= 20 mA

Red

Green

Blue

λ_d

622

ꢀ20

460

630

ꢀ2ꢀ

470

634

ꢀ40

480

Peak wavelength

Red

Green

Blue

Peak of wavelength of spectral

distribution at IF = 20 mA

λ_PEAK

639

ꢀ16

464

Spectral half width

Red

Green

Blue

Wavelength width at spectral

distribution power point at IF =

20 mA

∆λ_1/2

[ꢀ]

Luminous Efficacy

lm/W

Emitted luminous

ηv

Red

Green

Blue

1ꢀꢀ

484

power/Emitted radiant power

Notes:

1. The reverse voltage of blue and green is equivalent to the forward voltage of the protective chip at I = 10 µA.

The reverse voltage of red is equivalent to the forward voltage of the protective chip at I = 100µA.

2. For AlInGaP Red, the thermal resistance applied to LED junction to cathode lead. For InGaN Blue and Green, the thermal resistance applied to LED

junction to anode lead.

3. The dominant wavelength λ is derived from the Chromaticity Diagram and represents the color of the lamp.

4. Tolerance for each color bin limit is 0.ꢀ nm

ꢀ. The radiant intensity, Ie in watts/steradian, may be found from the equation Ie = Iv/η , where Iv is the luminous intensity in candelas and η is the

luminous efficacy in lumens/watt.

AlInGaP Red 630nm

ꢀ0

1.0

ꢀ0

Rθ_J-A= ꢀ8ꢀ˚C/W

Rθ_J-A= 780˚C/W

0.ꢀ

100

0.ꢀ

1.0

1.ꢀ

2.0

2.ꢀ

3.0

ꢀꢀ0

600

6ꢀ0

700

AMBIENT TEMPERATURE - ˚C

- FORWARD VOLTAGE - V

WAVELENGTH – nm

Figure 1. Relative intensity vs. wavelength

Figure 2. Forward current vs. forward voltage

Figure 3. Forward current vs. ambient

temperature

2.ꢀ

2.0

1.ꢀ

1.0

0.ꢀ

ꢀ0

FORWARD CURRENT - mA

Figure 4. Relative luminous intensity vs.

forward current

InGaN Blue and Green

1.00

Rθ_J-A= ꢀ8ꢀ˚C/W

BLUE

0.80

GREEN

BLUE

0.60

0.40

Rθ_J-A= 780˚C/W

0.20

GREEN

100

1.0

2.0

3.0

4.0

3ꢀ0 400 4ꢀ0

ꢀ00 ꢀꢀ0 600 6ꢀ0

T_A- AMBIENT TEMPERATURE -

FORWARD VOLTAGE - V

WAVELENGTH - nm

Figure 5. Relative Intensity vs. Wavelength

Figure 6. Forward current vs. forward voltage.

Figure 7. Forward Current vs. Ambient

Temperature.

ꢀ

1.02ꢀ

1.020

1.01ꢀ

1.010

1.00ꢀ

1.000

1.6

1.4

1.2

1.0

0.8

0.6

0.4

GREEN

BLUE

0.99ꢀ

0.990

0.2

ꢀ

1ꢀ

2ꢀ

DC FORWARD CURRENT - mA

FORWARD CURRENT - mA

Figure 8. Relative intensity vs. forward

current

Figure 9.Relative dominant wavelength vs. DC

forward current

0.ꢀ

-90

-60

-30

ANGULAR DISPLACEMENT (DEGREE)

Figure 10. Spatial radiation pattern for RGB – major axis

0.ꢀ

-90

-60

-30

ANGULAR DISPLACEMENT (DEGREE)

Figure 11. Spatial radiation pattern for RGB – minor axis

Intensity Bin Limit Table

Intensity (mcd) at 20 mA

Blue Color Bin Table

Bin

Min Dom

Max Dom

Xmin

Ymin

Xmax

0.1766

0.1374

0.1699

0.1291

0.1616

0.1187

0.1ꢀ17

0.1063

0.1397

0.0913

Ymax

460.0

464.0

0.1440

0.1818

0.1374

0.1766

0.1291

0.1699

0.1187

0.1616

0.1063

0.1ꢀ17

0.0297

0.0904

0.0374

0.0966

0.049ꢀ

0.1062

0.0671

0.1209

0.094ꢀ

0.1423

0.0966

0.0374

0.1062

0.049ꢀ

0.1209

0.0671

0.1423

0.094ꢀ

0.1728

0.1327

Bin

Min

310

Max

400

ꢀ

464.0

468.0

472.0

476.0

468.0

472.0

476.0

480.0

400

ꢀ20

680

880

11ꢀ0

1ꢀ00

1900

2ꢀ00

3200

4200

ꢀꢀ00

7200

11ꢀ0

1ꢀ00

1900

2ꢀ00

3200

4200

ꢀꢀ00

Tolerance for each bin limit is 0.ꢀ nm

Tolerance for each bin limit is 1ꢀ5

Green Color Bin Table

Bin

Min Dom

Max Dom

Xmin

Ymin

Xmax

0.18ꢀ6

0.1060

0.2068

0.1387

0.2273

0.1702

0.2469

0.2003

0.26ꢀ9

0.2296

Ymax

ꢀ20.0

ꢀ24.0

0.0743

0.16ꢀ0

0.1060

0.18ꢀ6

0.1387

0.2068

0.1702

0.2273

0.2003

0.2469

0.8338

0.6ꢀ86

0.8292

0.6ꢀꢀ6

0.8148

0.6463

0.796ꢀ

0.6344

0.7764

0.6213

0.6ꢀꢀ6

0.8292

0.6463

0.8148

0.6344

0.796ꢀ

0.6213

0.7764

0.6070

0.7ꢀ43

ꢀ

ꢀ24.0

ꢀ28.0

ꢀ32.0

ꢀ36.0

ꢀ28.0

ꢀ32.0

ꢀ36.0

ꢀ40.0

Tolerance for each bin limit is 0.ꢀ nm

CIE 1931 - Chromaticity Diagram

0.900

0.800

ꢀ

0.700

Green

0.600

0.ꢀ00

0.400

0.300

Blue

0.200

ꢀ

0.100

0.000

0.100

0.200

0.300

0.400

0.ꢀ00

0.600

0.700

0.800

www.agilent.com/

semiconductors

For product information and a complete list

of distributors, please go to our web site.

For technical assistance call:

Americas/Canada: +1 (800) 23ꢀ-0312

or (408) 6ꢀ4-867ꢀ

Europe: +49 (0) 6441 92460

China: 10800 6ꢀ0 0017

Hong Kong: (+6ꢀ) 67ꢀ6 2394

India, Australia, New Zealand: (+6ꢀ) 67ꢀꢀ 1939

Japan: (+81 3) 333ꢀ-81ꢀ2(Domestic/Inter-

national), or 0120-61-1280(Domestic Only)

Korea: (+6ꢀ) 67ꢀꢀ 1989

Singapore, Malaysia, Vietnam, Thailand,

Philippines, Indonesia: (+6ꢀ) 67ꢀꢀ 2044

Taiwan: (+6ꢀ) 67ꢀꢀ 1843

Data subject to change.

October 26, 2004

ꢀ989-1677EN

HLMP-AD87-RU0XX [AGILENT]

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