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IREDs With Narrow Beam Patterns

IREDs With Narrow Beam Patterns

 

A wide angle IRED distributes its radiant flux as shown below. Most of the flux impinges on the lens surface at almost normal incidence. Little is lost to total internal reflection.

Some of the radiant flux in narrow angle IREDs is reflected internally.

 

The side lobe power is not useful in most applications. It is “lost” to the optical system. Typical emission patterns (beam patterns) are shown below in both polar and rectangular coordinates.

 

Wide Angle IRED

 

 

Narrow Angle IRED

 

3-D Representation of Emission Pattern of Narrow Beam IRED

Polar Plot of Narrow Beam IRED

 

Rectangular Plot of Narrow Beam IRED

The side lobes have less peak intensity than the main beam (particularly when viewed in rectangular coordinates). However, the side lobes subtend a much larger solid angle than does the main beam. The net result is that in narrow beam IREDs, the side lobes can actually contain most of the power emitted by the narrow beam IRED. This side lobe power is lost to the main beam and is not useful in the optical system. Thus, the peak radiant intensity increases (mW/sr), but the useful main beam power decreases (mW/cm2) as the beam width is made narrower.

 

MAIN BEAM
HALF POWER ANGLE

APPROXIMATE FRACTION OF  TOTAL POWER APPEARING IN SIDE LOBES

40 to 60*
20*
10*
5*
NEGLIGIBLE
10 to 20%
20 to 30%
40 to 60%

 

Applications that require maximum useful power and a narrow beam should use a wide angle LED coupled to an external lens to maximize the power coupled into the optical system.

 

Article based on Application Notes from Excelitas Technologies

 

Date

06 czerwiec 2021

Tags

IRED

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 Albert Einstein