HSDL-3211-021 Avago Technologies US Inc., HSDL-3211-021 Datasheet - Page 4

HSDL-3211-021

Manufacturer Part Number

HSDL-3211-021

Description

Infrared Transceivers Short Distance 3V M IR

Manufacturer

Avago Technologies US Inc.

Datasheet

1.HSDL-3211-021.pdf (18 pages)

Specifications of HSDL-3211-021

Wavelength

875 nm, 880 nm

Continual Data Transmission

1.152 Mbit/s

Transmission Distance

50 cm

Radiant Intensity

45 mW/sr

Half Intensity Angle Degrees

30 deg

Pulse Width

4 us, 1.6 us

Maximum Rise Time

25 ns, 40 ns

Maximum Fall Time

25 ns, 40 ns

Led Supply Voltage

0 V to 6.5 V

Maximum Forward Current

150 mA

Operating Voltage

2.4 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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Electrical & Optical Specifications

Specifications (Min. & Max. values) hold over the recommended operating conditions unless otherwise noted.

Unspecified test conditions may be anywhere in their operating range. All typical values (Typ.) are at 25°C, Vcc set to 3.0V

and IOVcc set to 1.8V unless otherwise noted.

Parameter

Receiver

Viewing Angle

Peak Sensitivity Wavelength

RXD Output Voltage

RXD Pulse Width (SIR)

RXD Pulse Width (MIR)

RXD Rise and Fall Times

Receiver Latency Time

Receiver Wake Up Time

Transmitter

Radiant Intensity

Viewing Angle

Peak Wavelength

Spectral Line Half Width

TXD Input Current

LED ON Current

TXD Pulse Width (SIR)

TXD Pulse Width (MIR)

Maximum Optical PW

TXD Rise and fall Time (Optical)

LED Anode On-State Voltage

Transceiver

Supply Current

Notes:

13. For in-band signals from 9.6 kbit/s to 115.2 kbit/s, where 9 µW/cm

14. For in-band signals from 0.576 Mbit/s to 1.152 Mbit/s, where 22.5 µW/cm

15. Latency time is defined as the time from the last TxD light output pulse until the receiver has recovered full sensitivity.

16. Receiver wake up time is measured from Vcc power on or SD pin high to low transition to a valid RXD output.

17. The maximum optical PW is the maximum time the LED remains on when the TXD is constantly high. This is to prevent long turn on time of the LED

for eye safety protection.

[17]

[15]

[13]

[14]

[16]

Logic High

Logic Low

High

Low

Shutdown

Idle

Symbol

2θ

λp

2θ

∆λ

LEDA

PW(max.)

CC1

CC2

, t

ON(LEDA)

(MIR)

(SIR)

Min.

IOV

100

-10

1.5

148

– 0.2

Typ.

880

875

0.02

-0.02

150

1.6

217

1.6

0.001

0.4

≤ EI ≤ 500 mW/cm

Max.

IOV

0.4

4.0

500

100

1.8

260

100

2.0

1.0

Units

µs

mW/sr

µA

µs

µA

Conditions

θ ≤ 15°, C

0 ≤ V

LEDA

TXD

= 9 pF

= 200 µA, EI ≥ 8.1 µW/cm

= -200 µA, EI ≤ 0.3 µW/cm

≤ V

(TXD) = 1.6 µs at 115.2 kbit/s

(TXD) = 217 ns at 1.152 Mbit/s

(TXD) = ns at 1.152 Mbit/s

≥ V

≤ V

= 150 mA, θ ≤ 15°, V

=150 mA, V

≥ V

TXD

IH,

, Ta=25°C

≤ V

, V

, R1=5.6ohm, Vled=3.0V

Ta= 25 °C

= 9 pF

TXD

≤ V

TXD

≥V

, EI=0

TXD

≥ V

HSDL-3211-021 Avago Technologies US Inc., HSDL-3211-021 Datasheet - Page 4

HSDL-3211-021

Specifications of HSDL-3211-021

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