HSDL-3210-021 Avago Technologies US Inc., HSDL-3210-021 Datasheet - Page 19

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HSDL-3210-021

Manufacturer Part Number

HSDL-3210-021

Description

Infrared Transceivers 20-30cm MIR

Manufacturer

Avago Technologies US Inc.

Datasheet

1.HSDL-3210-021.pdf (20 pages)

Specifications of HSDL-3210-021

Wavelength

875 nm, 880 nm

Continual Data Transmission

1.152 Mbit/s

Transmission Distance

20 cm

Radiant Intensity

30 mW/sr

Half Intensity Angle Degrees

30 deg to 60 deg

Pulse Width

7.5 us, 1.6 us

Maximum Rise Time

100 ns, 600 ns

Maximum Fall Time

100 ns, 600 ns

Led Supply Voltage

0 V to 6.5 V

Operating Voltage

2.7 V to 3.6 V

Maximum Operating Temperature

+ 85 C

Minimum Operating Temperature

- 25 C

Dimensions

8 mm x 3 mm x 2.5 mm

Lead Free Status / RoHS Status

Lead free / RoHS Compliant

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1 9

Window Material

Almost any plastic material will

work as a window material. Poly-

carbonate is recommended. The

surface finish of the plastic

should be smooth, without any

texture. An IR filter dye may be

used in the window to make it

look black to the eye, but the

total optical loss of the window

should be 10% or less for best

optical performance. Light loss

should be measured at 875 nm.

The recommended plastic

materials for use as a cosmetic

window are available from

General Electric Plastics.

Recommended Plastic Materials:

Material

Number

Lexan 141L

Lexan 920A

Lexan 940A

Note: 920A and 940A are more flame retardant than 141L.

Recommended Dye: Violet #21051 (IR transmissant above 625 nm).

Flat Window

(First Choice)

Figure 23. Shape of windows.

Light

Transmission

88%

85%

85%

Haze

1%

1%

1%

Shape of the Window

From an optics standpoint, the

window should be flat. This en-

sures that the window will not

alter either the radiation pattern

of the LED, or the receive pattern

of the photodiode.

If the window must be curved for

mechanical or industrial design

reasons, place the same curve on

the back side of the window that

has an identical radius as the

front side. While this will not

completely eliminate the lens

effect of the front curved surface,

it will significantly reduce the

effects. The amount of change in

Curved Front and Back

(Second Choice)

Refractive

Index

1.586

1.586

1.586

the radiation pattern is dependent

upon the material chosen for the

window, the radius of the front

and back curves, and the distance

from the back surface to the

transceiver. Once these items are

known, a lens design can be

made which will eliminate the

effect of the front surface curve.

The following drawings show the

effects of a curved window on the

radiation pattern. In all cases,

the center thickness of the win-

dow is 1.5 mm, the window is

made of polycarbonate plastic,

and the distance from the trans-

ceiver to the back surface of the

window is 3 mm.

Curved Front, Flat Back

(Do Not Use)

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