OTL530A-5-10-66-E - Opto Technology, Inc.

HIGH FLUX LED ILLUMINATORS OTLXXXA-5-10-66-E

562 Chaddick Drive, Wheeling, IL 60090

Phone: (847) 537-4277 FAX: (847) 537-4785

Website: www.optotech.com

OPTO TECHNOLOGY, INC.

DATA SHEET REV. B (9/14/01) Page 1 of 4

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PRODUCT DESCRIPTION

The OTLXXXA-5-10-66-E is a series of high flux LED based illuminators with blue (470nm), green

(530nm), amber (590nm), red (630nm), and white visible emission. The blue, green, and white illuminators

utilize InGaN LED’s and the amber and red utilize AlInGaP LED’s. The LED’s are mounted on a BeO

substrate that is attached to a TO-66 power package to ensure high reliability through efficient heat

transfer. These illuminators are intended for use in high luminous, hard to access applications such as

Aerospace Lighting, Emergency & Signal Lighting, Hazardous Lighting, Electronic Signs, and General

Industrial Lighting and Illumination.

ILLUMINATOR PART NUMBER GUIDE

PART NUMBER COLOR DOMINANT WAVELENGTH

(TYP λ

λλ

λD, nm)

TYPICAL INITIAL STATIC LUMINOUS FLUX

( TYP Φ

ΦΦ

ΦV, lm, TJ = 25°

°°

° C )

OTL470A-5-10-66-E BLUE 470 9.5 (IF = 300 mA)

OTL530A-5-10-66-E GREEN 530 42 (IF = 300 mA)

OTL590A-5-10-66-E AMBER 590 53 (IF = 800 mA)

OTL630A-5-10-66-E RED 625 55 (IF = 800 mA)

OTLWHTA-5-10-66-E WHITE N/A 42 (IF = 300 mA)

ABSOLUTE MAXIMUM RATINGS (TJ = 25°

°°

°C)

Power Dissipation Red (Derate 330 mW/°C above 85°C): 8 W

Amber (Derate 300 mW/°C above 81°C): 9.0 W

Blue, Green, White (Derate 240 mW/°C above 76°C): 5 W

Static Forward Current Red, Amber: 800 mA

Blue, Green, White: 300 mA

Peak Forward Current

( Pulse Width ≤ 10 ms and Duty Cycle ≤

10%)

Red:

Amber:

4 A

2.5 A

Blue, Green, White: 2 A

Reverse Leakage (Vr = 20 Volts) IR ≤ 100 uA

Lead Soldering Temperature ≤ 240 °C for ≤ 10 seconds

HIGH FLUX LED ILLUMINATORS OTLXXXA-5-10-66-E

562 Chaddick Drive, Wheeling, IL 60090

Phone: (847) 537-4277 FAX: (847) 537-4785

Website: www.optotech.com

OPTO TECHNOLOGY, INC.

DATA SHEET REV. B (9/14/01) Page 2 of 4

INITIAL ELECTRO-OPTICAL CHARACTERISTICS at TJ = 25°

°°

°C, IF = 200 mA

TYPE

LUMINOUS FLUX

(Φ

ΦΦ

ΦV, lm)

RADIANT FLUX

(Factor,Pe, uW)

(Calculated)

FORWARD

VOLTAGE

(VF, V)

DOMINANT WAVELENGTH

[PEAK] WAVELENGTH

(λ

λλ

λD [λ

λλ

λP], nm, CIE x,y )

FULL WIDTH

HALF MAXIMUM

(∆

∆∆

∆λ

λλ

λ, nm)

MIN TYP Factor TYP TYP MAX MIN TYP MAX TYP

BLUE 7.0 51.5

lm/W

465nm

16.06 465 470/ [466]

x = 0.13

y = 0.07

475 35

GREEN 34.0 588

lm/W

530nm

16.6 520 530 / [525]

x = 0.19

y = 0.70

540 45

AMBER 18.4 516

lm/W

590nm

9.7 590 / [592]

x = 0.57

y = 0.42

RED 14.4 181

lm/W

@ 630

9.3 625 / [630]

x = 0.69

y = 0.31

WHITE 31.0 -------- -------- 16.06 x = 0.32

y = 0.33

N/A

THERMAL PARAMETERS

Operating Temperature -40 °C to +100 °C

Maximum Junction Temperature Red: 110 °C

Amber, Green, Blue White: 100 °C

Typical Junction to Still Air Thermal Resistance, RTHJA 65 °C/W

Typical Junction to Case Thermal Resistance, RTHJC Amber, Red: 3.3 °C/W

Blue, Green, White: 4.0 °C/W

OPTICAL PARAMETERS

Viewing Angle (± θ1/2 ) ± 54 degrees typical

Total Beam Width ± 78 degrees typical

ELECTRICAL PARAMETERS (Typical at TJ = 25°

°°

°C)

Parameter Conditions Red Amber Green Blue /

White

Capacitance, Junction Cj0 Vd = 0 volts 61 pF 74 pF 69 pF 68 pF

Capacitance, Case to Pin -- 8 pF 8 pF 8 pF 8 pF

Rise Time, Electrical Rsource = 66 ohm,

If = 200 mA

6.6 nSec 10.4 nSec 12 nSec 9.2 nSec

Fall Time, Electrical Rsource = 66 ohm,

If = 200 mA

20 nSec 9.6 nSec 13 nSec 9.4 nSec

HIGH FLUX LED ILLUMINATORS OTLXXXA-5-10-66-E

562 Chaddick Drive, Wheeling, IL 60090

Phone: (847) 537-4277 FAX: (847) 537-4785

Website: www.optotech.com

OPTO TECHNOLOGY, INC.

DATA SHEET REV. B (9/14/01) Page 3 of 4

Thermal Derating with Infinite Heat Sink

0.00

1.00

2.00

3.00

4.00

5.00

6.00

7.00

8.00

9.00

10.00

0.00 50.00 100.00

Case Temp

Power Watts

470/530/White

590

630

No Heat Sink

Power Output vs. Forward Current

0.0

10.0

20.0

30.0

40.0

50.0

60.0

0.00 0.20 0.40 0.60 0.80

Forward Current (A)

Luminous Flux (lm)

630

590

530

White

470

Current vs. Forw ard Voltage (Typical)

0.0

0.1

0.2

0.3

0.4

0.5

0.6

0.7

0.8

0.9

8.5 10.5 12.5 14.5 16.5 18.5

Forward Voltage (V)

Current (A)

630

590

530

470/

White

Spectral Output

0.0

0.1

0.2

0.3

0.4

0.5

0.6

0.7

0.8

0.9

1.0

350 450 550 650 750

Wavelength (nm)

Normalized Intensity

630

590

530

White

470

Average Radiation Pattern

100

-90 -60 -30 0 30 60 90

Beam Angle ( Degrees)

Relative Power Output (%)

HIGH FLUX LED ILLUMINATORS OTLXXXA-5-10-66-E

562 Chaddick Drive, Wheeling, IL 60090

Phone: (847) 537-4277 FAX: (847) 537-4785

Website: www.optotech.com

OPTO TECHNOLOGY, INC.

DATA SHEET REV. B (9/14/01) Page 4 of 4

EYE SAFETY ISSUES

Currently, the LED industry has no universally agreed upon standard to cover eye safety issues associated with the

use of LED products. The closest is CEI/IEC 60825-1, used in Europe, which was originally developed for lasers. It

was later amended to include LED’s, but some in the industry have reservations as to the applicability of this

standard to LED’s. Under this standard, the OTL470A-5-10-66-E (430nm) and OTL530A-5-10-66-E (530nm) are

class 2 LED products and carry the warning:

LED RADIATION

DO NOT STARE INTO BEAM (for 470nm and 530nm Sharks)

CLASS 2 LED PRODUCT

For the OTL590A-5-10-66-E (amber) and the OTL630A-5-10-66-E (red), the standard rates them as a class 1 LED

product and requires the explanatory label: CLASS 1 LED PRODUCT (for 590nm and 630nm Sharks)

Handling and Other Precautions

These parts are high power devices and as such are intended to be used with a heatsink. Devices operated

without proper heat sink conditions, or proper current limiting will reach hazardous temperatures very quickly. Do not

operate devices under these conditions under any circumstances.

These parts contain a Beryllia ceramic substrate. Beryllia ceramic, in solid form and as contained in finished

products presents no special health risks. Warning: Overexposure to beryllium by inhalation may cause chronic

beryllium disease, a chronic lung disease, and cancer. Therefore; processing or recycling using (for example)

grinding, melting, welding, or sawing, of this device or as contained in a final assembly may produce airborne dust,

fumes, or mists and therefore the use of exhaust ventilation or other controls should be used to prevent exposure to

workers.

Electro-Static-Discharge

Any semiconductor circuit can be damaged by ESD. OPTO TECHNOLOGY INC. recommends that all LED circuits

be handled with appropriate precautions. Failure to observe proper handling and installation procedures can cause

damage to the component. ESD damage can range from subtle performance degradation to complete device

failure.

Silicone Overcoat

The OTLXXXA-5-10-66-E series components have a silicone overcoat, which is soft and flexible (40 durometer,

Shore A) and should not be immersed or cleaned with water, alcohol, or other chemical solvents or agents. The

overcoat material should not be removed, scraped, touched, pressed, or pulled to avoid stress damage and possible

breakage of delicate wire bonds.

Surface dust can be carefully removed with a soft brush, or canned air such as those used for cleaning

photographic lenses.

The silicone overcoat material has a flammability classification of 94 V-1 and a temperature rating of 130° C.

Mechanical Stress

This component is not suitable for SMT / solder reflow operations. Refrain from twisting leads or unconstrained

crimp or lead cut forces, which could break the glass seals of the leads and break internal wire bonds.

Life Support

OPTO TECHNOLOGY PRODUCTS ARE NOT AUTHORIZED FOR USE AS CRITICAL COMPONENTS IN LIFE

SUPPORT DEVICES OR SYSTEMS WITHOUT THE EXPRESS WRITTEN APPROVAL OF THE PRESIDENT OF

OPTO TECHNOLOGY INC. As used herein:

a. Life support devices or systems are devices or systems which (1) are intended for surgical implant into the body,

or (2) support or sustain life and whose failure to perform when properly used in accordance with instructions for

use provided in the labeling, can be reasonably expected to result in a significant injury to the user.

b. A critical component is any component of a life support device or system whose failure to perform can be

reasonably be expected to cause the failure of the life support device or system, or to affect its safety or

effectiveness.

The information provided herein is believed to be reliable, however OPTO TECHNOLOGY INC. assumes no

responsibility for inaccuracies or omissions.

OPTO TECHNOLOGY INC. reserves the right to make changes at any time without notice to any products to

improve reliability, function or design or to circuitry or specifications. OPTO TECHNOLOGY INC. does not assume

any liability arising out of the application or use of any product or circuit described herein, neither does it convey any

license under its patent rights, nor the rights of others.