HSDL-3201#021 Lite-On Electronics, HSDL-3201#021 Datasheet - Page 19

Infrared Transceivers IR Transceiver 115.2Kb/s

HSDL-3201#021

Manufacturer Part Number

HSDL-3201#021

Description

Infrared Transceivers IR Transceiver 115.2Kb/s

Manufacturer

Lite-On Electronics

Type

TX/RXr

Datasheet

1.HSDL-3201021.pdf (20 pages)

Specifications of HSDL-3201#021

Wavelength

875 nm, 880 nm

Continual Data Transmission

115.2 Kbit/s

Transmission Distance

30 cm

Radiant Intensity

9 mW/sr

Half Intensity Angle Degrees

30 deg to 60 deg

Pulse Width

2.45 us, 1.6 us

Maximum Rise Time

120 ns, 600 ns

Maximum Fall Time

80 ns, 600 ns

Led Supply Voltage

2.7 V to 6 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

Data Rate

115.2Kbps

Peak Wavelength

875/880nm

Angle Of Half Sensitivity

60/30°

Communication Distance

30

Package Type

Ultra Small Profile

Fall Time

600/25ns

Rise Time

600/20ns

Operating Supply Voltage (typ)

3.3V

Operating Supply Voltage (min)

2.7V

Operating Supply Voltage (max)

3.6V

Mounting

Surface Mount

Pin Count

8

Operating Temp Range

-25C to 85C

Operating Temperature Classification

Commercial

Lead Free Status / Rohs Status

Compliant

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Test Methods

Background Light and

Electromagnetic Field

There are four ambient interference

conditions in which the receiver is to

operate correctly. The conditions are

to be applied separately:

1. Electromagnetic field:

2. Sunlight:

19

IEC 801-3, severity level 3 for

details).

port. This is simulated with an IR

source having a peak wavelength

within the range of 850 nm to 900

nm and a spectral width of less

than 50 nm biased to provide 490

the optical port. The light source

faces the optical port.

This simulates sunlight within the

IrDA spectral range. The effect of

longer wavelength radiation is

covered by the incandescent

condition.

3 V/m maximum (please refer to

10 kilolux maximum at the optical

W/cm

2

(with no modulation) at

3. Incandescent Lighting: 1000 lux

4. Fluorescent Lighting:

maximum. This is produced with

general service, tungsten-filament,

gas-filled, inside frosted lamps in

the 60 Watt to 100 Watt range to

generate 1000 lux over the

horizontal surface on which the

equip-ment under test rests. The

light sources are above the test

area. The source is expected to

have a filament temperature in the

2700 to 3050 Kelvin range and a

spectral peak in the 850 to 1050

nm range.

1000 lux maximum. This is

simulated with an IR source having

a peak wavelength within the

range of 850 nm to 900 nm and a

spectral width of less than 50 nm

biased and modulated to provide

an optical square wave signal

(0

0.3 W/cm

10% to 90% rise and fall times less

than or equal to 100 ns) over the

horizontal surface on which the

equipment under test rests. The

W/cm

2

2

peak amplitude with

minimum

and

light sources are above the test

area. The frequency of the optical

signal is swept over the frequency

range from 20 kHz to 200 kHz.

Due to the variety of fluorescent

lamps and the range of IR

emissions, this condition is not

expected to cover all circum-

stances. It will provide a common

floor for IrDA operation.

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