FDC37B727-NS Standard Microsystems (SMSC), FDC37B727-NS Datasheet - Page 85
FDC37B727-NS
Manufacturer Part Number
FDC37B727-NS
Description
Manufacturer
Standard Microsystems (SMSC)
Datasheet
1.FDC37B727-NS.pdf
(238 pages)
Specifications of FDC37B727-NS
Pin Count
128
Lead Free Status / RoHS Status
Compliant
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INFRARED INTERFACE
The infrared interface provides a two-way wireless
communications
transmission medium. Several IR implementations
have been provided for the second UART in this
chip (logical device 5), IrDA 1.0 and Amplitude
Shift Keyed IR. The IR transmission can use the
standard UART2 TXD2 and RXD2 pins or optional
IRTX and IRRX pins. These can be selected
through the configuration registers.
IrDA 1.0 allows serial communication at baud rates
up to 115.2 kbps.
beginning with a zero value start bit. A zero is
signaled by sending a single IR pulse at the
beginning of the serial bit time. A one is signaled
by sending no IR pulse during the bit time. Please
refer to the AC timing for the parameters of these
pulses and the IrDA waveform.
The
asynchronous serial communication at baud rates
up to 19.2K Baud. Each word is sent serially
beginning with a zero value start bit. A zero is
Amplitude
port
n R I N G
R i n g W a k e u p F i l t e r O u t p u t
Shift
Each word is sent serially
using
FIGURE 3 - RING WAKEUP FILTER OUTPUT
Keyed
infrared
IR
as
allows
a
85
signaled by sending a 500KHz waveform for the
duration of the serial bit time. A one is signaled by
sending no transmission during the bit time.
Please refer to the AC timing for the parameters of
the ASK-IR waveform.
If the Half-Duplex option is chosen, there is a time-
out when the direction of the transmission is
changed.
transferred during a transmission and blocks the
receiver input until the timeout expires. If the
transmit buffer is loaded with more data before the
time-out expires, the timer is restarted after the
new byte is transmitted. If data is loaded into the
transmit buffer while a character is being received,
the transmission will not start until the time-out
expires after the last receive bit has been
received. If the start bit of another character is
received during this time-out, the timer is restarted
after the new character is received. The IR half-
duplex time-out is programmable via CRF2 in
Logical Device 5. This register allows the time-out
to be programmed to any value between 0 and
10msec in 100usec increments.
This time-out starts at the last bit
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