Agilent HSDL-3003
IrDA® Data Compliant Low Power
115.2 kbit/s with Remote Control
Infrared Transceiver
Data Sheet
General Features
• Guaranteed temperature
performance, –20° to 70°C
– Critical parameters are
guaranteed over temperature
and supply voltage
• Low power consumption
• Small module size
– Height: 2.70 mm
– Width: 8.00 mm
– Depth: 2.95 mm
• Minimum external components
Description
IrDA® Data Features
• Fully compliant to IrDA® Physical
The HSDL-3003 is a small form
factor enhanced infrared (IR)
transceiver module that provides
the capability of (1) interface
between logic and IR signals for
through-air, serial, half-duplex IR
data link, and (2) IR remote
control transmission operating at
the optimum 940 nm wavelength
for universal remote control
applications.
Layer Specification 1.4 low power
– Integrated single-biased LED
from 9.6 kbit/s to 115.2 kbit/s (SIR)
resistor
– Excellent nose-to-nose operation
– Link distance up to 50 cm
– Direct interoperability to MPU
– Programmable Txd features
typically
– Integrated remote control FET
• Complete shutdown for TxD_IrDA,
• Withstands >100 mV power
supply ripple typically
p-p
RxD_IrDA, and PIN diode
• Low power consumption
– Low idle current, 50 µA
typically
– Low shutdown current, 10 nA
typically
• V supply 2.4 to 3.6 volts
CC
• Integrated EMI shield
• Designed to accommodate light
loss with cosmetic windows
• IEC 825-Class 1 eye safe
For IR data communication, the
HSDL-3003 provides the
• LED stuck-high protection
flexibility of low power SIR
applications and remote control
applications with no external
components needed for the
selection of the type of
Remote Control Features
• Wide angle and high radiant
intensity
• Spectrally suited to remote
control transmission function at
940 nm typically
Applications
• Mobile data communication and
universal remote control
transmission
– Personal digital assistants
(PDAs)
application. The transceiver is
®
compliant to IrDA Physical
• Typical link distance up to 8
meters
– Mobile phones
CAUTION: The BiCMOS inherent to this design of this component increases the component’s
susceptibility to damage from Electrostatic Discharge (ESD). It is advised that normal static
precautions be taken in handling and assembly of this component to prevent damage and/or
degradation, which may be induced by ESD.