HLCP-J100_13 [AVAGO]

10-Element Bar Graph Array; 10元条形图阵列


型号：	HLCP-J100_13
厂家：	AVAGO TECHNOLOGIES LIMITED
描述：	10-Element Bar Graph Array 10元条形图阵列
文件：	总7页 (文件大小：152K)
中文：	中文翻译
下载：	下载PDF数据表文档文件

HLCP-J100, HDSP-4820, HDSP-4830 & HDSP-4832

10-Element Bar Graph Array

Data Sheet

Description

Features

ꢀ Custom Multicolor Array Capability

ꢀ Matched LEDs for Uniform Appearance

ꢀ End Stackable

These 10-element LED arrays are designed to display

information in easily recognizable bar graph form. The

packages are end stackable and therefore capable of

displaying long strings of information. Use of these bar

graph arrays eliminates the alignment, intensity, and

color matching problems associated with discrete LEDs.

The HDSP-4820/4830/4840/4850 and HLCPJ100 each

contain LEDs of one color. The HDSP-4832/4836 are mul-

ticolor arrays with High Eﬃciency Red, Yellow, and High

Performance Green LEDs in a single package.

ꢀ Package Interlock Ensures Correct Alignment

ꢀ Low Proﬁle Package

ꢀ Rugged Construction

ꢀ Large, Easily Recognizable Segments

ꢀ High ON-OFF Contrast, Segment to Segment

ꢀ Wide Viewing Angle

Applications

ꢀ Categorized for Luminous Intensity

ꢀ Industrial Controls

ꢀ Instrumentation

ꢀ HDSP-4832/4836/4840/4850 Categorized for Domi-

nant Wavelength

ꢀ Oﬃce Equipment

ꢀ Computer Peripherals

ꢀ Consumer Products

ꢀ HLCP-J100 Operates at Low Current

Typical Intensity of 1.0 mcd at 1 mA Drive Current

Package Dimensions

25.40 (1.000) MAX.

0.38

(0.015)

1. DIMENSIONS IN MILLIMETERS (INCHES).

2. ALL UNTOLERANCED DIMEMSIONS FOR

REFERENCE ONLY.

10.16

(0.400)

MAX.

3. HDSP-4832/-4836/-4840/-4850 ONLY.

5.08 (0.200)

2.54

(0.100)

1.52

(0.060)

6.10 0.25

(0.240 0.010)

LUMINOUS

INTENSITY

CATEGORY

COLOR BIN

(NOTE 3)

DATE CODE

PIN ONE

MARKING

HDSP XXXX

5.08 (0.200)

XYY

0.38

(0.015)

4.06

(0.160)

MIN.

2.54 0.25

(0.100 0.010)

7.62 0.38

(0.300 0.015)

0.61

(0.024)

[1]

Absolute Maximum Ratings

Red

HDSP-4820

AlGaAs Red

HLCP-J100

HER

HDSP-4830

Yellow

HDSP-4840

Green

HDSP-4850

Parameter

Average PowerDissipation per LED

(T_A= 25°C)

63 mW

37 mW

87 mW

50 mW

105 mW

150 mA^[2]

30 mA^[5]

45 mA^[3]

15 mA^[5]

90 mA^[4]

30 mA^[6]

60 mA^[4]

20 mA^[6]

90 mA^[4]

30 mA^[6]

Peak Forward Current per LED

DC Forward Current per LED

Operating Temperature Range

Storage Temperature Range

Reverse Voltage per LED

-40°C to +85°C

3.0 V

-20°C to +100°C

-55°C to +100°C

5.0 V

-40°C to +85°C

-20°C to +85°C

-40°C to +85°C

3.0 V

Lead Solder Dipping Temperature

(1.59 mm (1/16 inch)

260°C for 5 seconds ^[8]

250°C for 3 seconds

below seating plane) ^[7]

Wave Soldering Temperature

(at 2 mm distance from the body)

Notes:

1. Absolute maximum ratings for HER, Yellow, and Green elements of the multicolor arrays are identical to the HDSP-4830/4840/4850 maximum

ratings.

2. See Figure 1 to establish pulsed operating conditions. Maximum pulse width is 1.5 ms.

3. See Figure 2 to establish pulsed operating conditions. Maximum pulse width is 1.5 ms.

4. See Figure 8 to establish pulsed operating conditions. Maximum pulse width is 2 ms.

5. Derate maximum DC current for Red above T = 62°C at 0.79 mA/°C, and AlGaAs Red above T = 91°C at 0.8 mA/°C. See Figure 3.

6. Derate maximum DC current for HER above T = 48°C at 0.58 mA/ °C, Yellow above T = 70°C at 0.66 mA/°C, and Green above T = 37°C at 0.48

mA/°C. See Figure 9.

7. Clean only in water, isopropanol, ethanol, Freon TF or TE (or equivalent), or Genesolve DI-15 (or equivalent).

8. Maximum tolerable component side temperature is 134°C during solder process.

Internal Circuit Diagram

Function

Anode a

Anode b

Anode c

Anode d

Anode e

Anode f

Anode g

Anode h

Anode i

Anode j

Function

Cathode j

Cathode I

Cathode h

Cathode g

Cathode f

Cathode e

Cathode d

Cathode c

Cathode b

Cathode a

Multicolor Array Segment Colors

HDSP-4832

HDSP-4836

Segment

Segment Color

HER

Yellow

Green

Yellow

HER

Yellow

Green

HER

[4]

Electrical/Optical Characteristics at T = 25°C

Red HDSP-4820

Parameter

Symbol

I_V

Min.

610

Typ.

1250

655

645

1.6

Max.

Units

ꢁcd

Test Conditions

I_F= 20 mA

Luminous Intensity per LED (Unit Average)^[1]

Peak Wavelength

Dominant Wavelength^[2]

ꢂ_PEAK

ꢂ_d

V_F

Forward Voltage per LED

2.0

I_F= 20 mA

Reverse Voltage per LED^[5]

Temperature Coeﬃcient V_Fper LED

Thermal Resistance LED Junction-to-Pin

V_R

I_R= 100 ꢁA

ꢃV_F/°C

Rꢄ_J-PIN

-2.0

300

mV/°C

°C/W/LED

AlGaAs Red HLCP-J100

Parameter

Luminous Intensity per LED

(Unit Average) ^[1]

Symbol

I_V

Min.

600

Typ.

1000

Max.

Units

ꢁcd

Test Conditions

I_F= 1 mA

5200

I_F= 20 mA Pk;

1 of 4 Duty Factor

Peak Wavelength

Dominant Wavelength^[2]

ꢂ_PEAK

ꢂ_d

V_F

645

637

1.6

Forward Voltage per LED

I_F= 1 mA

1.8

2.2

I_F= 20 mA

I_R= 100 ꢁA

Reverse Voltage per LED^[5]

V_R

1.5

Temperature Coeﬃcient V_Fper LED

Thermal Resistance LED Junction-to-Pin

ꢃV_F/°C

Rꢄ_J-PIN

-2.0

300

mV/°C

°C/W/LED

High Eﬃciency Red HDSP-4830

Parameter

Symbol

I_V

Min.

900

Typ.

3500

635

626

2.1

Max.

Units

ꢁcd

Test Conditions

I_F= 10 mA

Luminous Intensity per LED (Unit Average)^[1,4]

Peak Wavelength

Dominant Wavelength^[2]

ꢂ_PEAK

ꢂ_d

V_F

Forward Voltage per LED

2.5

I_F= 20 mA

Reverse Voltage per LED^[5]

Temperature Coeﬃcient V_Fper LED

Thermal Resistance LED Junction-to-Pin

V_R

I_R= 100 ꢁA

ꢃV_F/°C

Rꢄ_J-PIN

-2.0

300

mV/°C

°C/W/LED

Yellow HDSP-4840

Parameter

Symbol

I_V

Min.

600

Typ.

1900

583

585

2.2

Max.

Units

ꢁcd

Test Conditions

I_F= 10 mA

Luminous Intensity per LED (Unit Average)^[1,4]

Peak Wavelength

Dominant Wavelength^[2,3]

Forward Voltage per LED

Reverse Voltage per LED^[5]

Temperature Coeﬃcient V_Fper LED

Thermal Resistance LED Junction-to-Pin

ꢂ_PEAK

ꢂ_d

V_F

581

592

2.5

I_F= 20 mA

V_R

I_R= 100 ꢁA

ꢃV_F/°C

Rꢄ_J-PIN

-2.0

300

mV/°C

°C/W/LED

Green HDSP-4850

Parameter

Symbol

I_V

Min.

600

Typ.

1900

566

571

2.1

Max.

Units

ꢁcd

Test Conditions

I_F= 10 mA

Luminous Intensity per LED (Unit Average)^[1,4]

Peak Wavelength

Dominant Wavelength^[2,3]

Forward Voltage per LED

ꢂ_PEAK

ꢂ_d

V_F

577

2.5

I_F= 20 mA

Reverse Voltage per LED^[5]

Temperature Coeﬃcient V_Fper LED

Thermal Resistance LED Junction-to-Pin

V_R

I_R= 100 ꢁA

ꢃV_F/°C

Rꢄ_J-PIN

-2.0

300

mV/°C

°C/W/LED

Notes:

1. The bar graph arrays are categorized for luminous intensity. The category is designated by a letter located on the side of the package.

2. The dominant wavelength, ꢂd, is derived from the CIE chromaticity diagram and is that single wavelength which deﬁnes the color of the de-

vice.

3. The HDSP-4832/-4836/-4840/-4850 bar graph arrays are categorized by dominant wavelength with the category designated by a number

adjacent to the intensity category letter. Only the yellow elements of the HDSP-4832/-4836 are categorized for color.

4. Electrical/optical characteristics of the High-Eﬃciency Red elements of the HDSP-4832/-4836 are identical to the HDSP-4830 characteristics.

Characteristics of Yellow elements of the HDSP-4832/-4836 are identical to the HDSP-4840. Characteristics of Green elements of the HDSP-

4832/-4836 are identical to the HDSP-4850.

5. Reverse voltage per LED should be limited to 3.0 V max. for the HDSP-4820/-4830/-4840/-4850/-4832/-4836 and 5.0 V max. for the HLCP-J100.

Red, AlGaAs Red

12.5

10 KHz

3KHz

KHz

300 Hz

OPERATION IN THIS

REGION REQUIRES

TEMPERATURE

OPERATION IN THIS

REGION REQUIRES

TEMPERATURE

DERATING OF I_DCMAX

1.5

DC OPERATION

100

1000

10000

100

1000

10000

t_P- PULSE DURATION - μs

t_P- PULSE DURATION - μSEC

Figure 1. Maximum Tolerable Peak Current vs. Pulse Duration – Red.

Figure 2. Maximum Tolerable Peak Current vs. Pulse Duration

– AlGaAs Red.

1.2

1.1

1.0

0.9

160

= 600¡C/W

J-A

AlGaAs RED

RED

140

RED

120

100

0.8

0.7

0.6

0.5

0.4

AlGaAs RED

80 100 120 140 160

0.5 1.0 1.5 2.0 2.5 3.0 3.5 4.0

V_F- FORWARD VOLTAGE - V

95 105

I_PEAK- PEAK SEGMENT CURRENT - mA

_A- AMBIENT TEMPERATURE - ^oC

Figure 3. Maximum Allowable DC Current vs.

Ambient Temperature.

Figure 4. Relative Eﬃciency (Luminous Intensity

per Unit Current) vs. Peak Current.

Figure 5. Forward Current vs. Forward Voltage.

T_JMAX= 100°C for Red and T_JMAX= 110°C for

AlGaAs Red.

1.4

1.2

1.0

0.8

0.6

0.4

0.2

0.1

0.1 0.2

0.5

10 20

I_F- FORWARD CURRENT PER SEGMENT - mA

I_F- FORWARD CURRENT PER SEGMENT

Figure 6. Relative Luminous Intensity vs. DC For-

ward Current – Red.

Figure 7. Relative Luminous Intensity vs. DC For-

ward Current – AlGaAs.

For a Detailed Explanation on the Use of Data Sheet Information and Recommended Soldering Procedures,

See Application Note 1005.

HER, Yellow, Green

GREEN

OPERATION IN

THIS REGION

REQUIRES

TEMPERATURE

DERATING OF

I_DCMAX

HER

YELLOW

1.5

DC OPERATION

100

1000

10000

t_P- PULSE DURATION - μSEC

Figure 8. Maximum Tolerable Peak Current vs. Pulse Duration –

HER/Yellow/Green.

1.6

= 600°C/W

J-A

1.5

1.4

YELLOW SERIES

HER SERIES

GREEN/HER

GREEN

1.3

1.2

1.1

1.0

HER

GREEN SERIES

YELLOW

0.9

0.8

0.7

0.6

15 25

35 45

10 20 30 40 50 60 70 80 90 100

I_PEAK- PEAK SEGMENT CURRENT - mA

T_A- AMBIENT TEMPERATURE - °C

Figure 10. Relative Eﬃciency (Luminous Intensity

per Unit Current) vs. Peak Current.

Figure 9. Maximum Allowable DC Current vs.

Ambient Temperature. TJMAX = 100°C.

4.0

3.5

GREEN SERIES

3.0

2.5

2.0

1.5

YELLOW SERIES

HER

SERIES

1.0

0.5

53 10

25 30

1.0

2.0

3.0

4.0

5.0

V_F- FORWARD VOLTAGE - V

I_F- FORWARD CURRENT PER SEGMENT - mA

Figure 11. Forward Current vs. Forward Voltage.

Figure 12. Relative Luminous Intensity vs. DC

Forward Current.

For a Detailed Explanation on the Use of Data Sheet Information and Recommended Soldering Procedures,

See Application Note 1005.

Electrical/Optical

Figures 4 and 10 allow the designer to calculate the lu-

minous intensity at diﬀerent peak and average currents.

The following equation calculates intensity at diﬀerent

peak and average currents:

These versatile bar graph arrays are composed of ten

light emitting diodes. The light from each LED is optically

stretched to form individual elements. The Red (HDSP-

4820) bar graph array LEDs use a p-n junction diﬀused

into a GaAsP epitaxial layer on a GaAs substrate. The Al-

GaAs Red (HLCP-J100) bar graph array LEDs use double

heterojunction AlGaAs on a GaAs substrate. HER (HDSP-

4830) and Yellow (HDSP-4840) bar graph array LEDs use

a GaAsP epitaxial layer on a GaP substrate. Green (HDSP-

4850) bar graph array LEDs use liquid phase GaP epi-

taxial layer on a GaP substrate. The multicolor bar graph

arrays (HDSP-4832/4836) have HER, Yellow, and Green

LEDs in one package. These displays are designed for

strobed operation. The typical forward voltage values

can be scaled from Figures 5 and 11. These values should

be used to calculate the current limiting resistor value

I AVG = (I AVG/I AVG DATA

SHEET)ꢈ

)(I DATA SHEET)

peak

Where:

I AVG is the calculated time averaged luminous inten-

sity resulting from I AVG.

I AVG is the desired time averaged LED current.

I AVG DATA SHEET is the data sheet test current for

I DATA SHEET.

ꢈ

is the relative eﬃciency at the peak current,

peak

scaled from Figure 4 or 10.

and typical power consumption. Expected maximum V

values for driver circuit design and maximum power dis-

I DATA SHEET is the data sheet luminous intensity,

sipation may be calculated using the V

models:

FMAX

resulting from I AVG DATA SHEET.

Standard Red HDSP-4820 series

For example, what is the luminous intensity of an HDSP-

4830 driven at 50 mA peak 1/5 duty factor?

V MAX = 1.8 V + I

(10 ꢅ)

Peak

For: I

ꢆ 5 mA

Peak

I AVG = (50 mA) (0.2) = 10 mA

AlGaAs Red HLCP-J100 series

I AVG DATA SHEET = 10 mA

V MAX = 1.8 V + I

(20 ꢅ)

Peak

For: I

V MAX = 2.0 V + I

ꢇ 20 mA

Peak

ꢈ

= 1.3

peak

(10 ꢅ)

Peak

I DATA SHEET = 3500 ꢁcd

For: I

ꢆ 20 mA

Peak

Therefore

HER (HDSP-4830) and Yellow

(HDSP-4840) series

I AVG = (10 mA/10 mA) (1.3) (3500 mcd) = 4550 mcd

V MAX = 1.6 + I

(45 ꢅ)

Peak

For: 5 mA ꢇ I

V MAX = 1.75 + I

ꢇ 20 mA

Peak

(38 ꢅ)

Peak

For: I

ꢆ 20 mA

Peak

Green (HDSP-4850) series

V MAX = 2.0 + I (50 ꢅ)

Peak

For: I

> 5 mA

Peak

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.

AV02-1798EN - November 5, 2009

HLCP-J100_13 [AVAGO]

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