Purdy AND156SYP User Manual

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∆λ

AND156SYP

Ultra Bright LED Lamps

Package Dimensions Unit: mm

AND156SYP

AS AIGaInP Super Yellow Light Emission

T-1 3/4 Package (5 mm)

Features

• High efficiency

• Absorbing substrate aluminum gallium phosphide

• Viewing Angle: 30 degrees

• All plastic mold type, clear colorless lens

• Low power consumption

• ESD-withstand voltage: up to 2kV

• Pb free

Applications: Outdoor Displays, Status Indicators, Backlighting, and

•
Commercial Use

Maximum Ratings (T

= 25°C)

a

Characteristics Symbol Rating Unit

Electro-Optical Characteristics (T

= 25°C)

a

Continuous Forward Current

Peak Forward Current

(Pulse Width < 100 µ s, Duty Cycle <1%)

Operating Temperature

Storage Temperature

Soldering Temperature

(Time < 5 seconds)

Power Dissipation

Zener Reverse Current

Electrostatic Discharge

I

F

IFP

T

Opr

T

Stg

T

Sol

P

D

I

Z

ESD 4000 V

50 mA

100 mA

-40 ~ + 85 °C

-40 ~ +100 °C

260 °C

115 mW

100 mA

Characteristics Symbol Test Condition Minimum Typical Maximum Unit

Forward Voltage

Zener Reverse Voltage

Luminous Intensity

Peak Emission Wavelength

Dominant Wavelength

Spectrum Radiation
Bandwidth

Full Viewing Angle

V

F

V

Z

I

V

λ

P

d

2 θ 1/2

I

= 20 mA

F

I

= 5 mA

Z

I

= 20 mA

F

I

= 20 mA

F

= 20 mA

I

F

I

= 20 mA

F

I

= 20 mA

F

–2.02.6V

––3.0V

4500 6200 7150 mcd

– 591 – nm

– 589 – nm

–15–nm

– 30 – degree

Product specifications contained herein may be changed without prior notice.

It is therefore advisable to contact Purdy Electronics before proceeding with the design of equipment incorporating this product.

Tel: 408.523.8200 • Fax: 408.733.1287 • sales@purdyelectronics.com • www.purdyelectronics.com

Purdy Electronics Corporation • 720 Palomar Avenue • Sunnyvale, CA 94085

11/11/09

AND156SYP

AS AlGaInP Super Yellow Light Emission Ultra Bright LED Lamps

Relative Intensity vs. Wavelength

1.0

0.8

0.6

0.4

Relative Intensity

0.2

0.0
500 550 600 650

Wavelength (nm)

Relative Intensity vs. Ambient Temp.

2.0

1.5

1.0

0.5

Relative Luminous Intensity (%)

0.0

25 35

30

Ambient Temperature Ta (ºC)

45 55 65

40 50 60

700

70

Forward Current vs. Forward Voltage

50

40

30

20

Forward Current (mA)

10

0

1.5

1.0

Forward Current vs. Relative Intensity

2.5

2.0

1.5

1.0

0.5

Relative Luminous Intensity (%)

0.0
0

2.0 2.5 3.0

Forward Voltage (V)

20 30 40

10

Forward Current (mA)

3.5

50

1.0

0.5

Relative Intensity

0

Radiation Characteristics

0

10

00.5

Radiation Angle

Forward Current vs. Ambient Temp.

50

20

30

40

50

60

70

80

90

1.0

40

30

20

Forward Current (mA)

10

0

20

0

40 60 80

Ambient Temperature Ta (ºC)

100

When the LEDs are connected using serial circuit,
if either one of the LEDs does not light up, then
current will not flow causing the other LEDs to not
light up. In the new design, the LEDs are in parallel
with the zener diodes. If either one of the LEDs
does not light up, current can still flow through
causing the others to light up.

Tel: 408.523.8200 • Fax: 408.733.1287 • sales@purdyelectronics.com • www.purdyelectronics.com

Purdy Electronics Corporation • 720 Palomar Avenue • Sunnyvale, CA 94085

11/11/09