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Z8F082ASH020SC Datasheet, PDF (123/244 Pages) Zilog, Inc. – Z8 Encore XP-R F08xA Series with eXtended Peripherals
Z8 Encore! XP® F08xA Series
Product Specification
105
is passed to the Infrared Endec through the RXD pin, decoded by the Infrared Endec, and
passed to the UART. Communication is half-duplex, which means simultaneous data
transmission and reception is not allowed.
The baud rate is set by the UART’s Baud Rate Generator and supports IrDA standard baud
rates from 9600 baud to 115.2 Kbaud. Higher baud rates are possible, but do not meet
IrDA specifications. The UART must be enabled to use the Infrared Endec. The Infrared
Endec data rate is calculated using the following equation:
:
Infrared Data Rate (bits/s) = 1----6----×--S---Uy---s-A-t--e-R--m---T---C--B---l-ao---uc---k-d----F-R---r-a-e--t-q-e--u--D--e--ni--v--c-i-y-s--o--(-r-H---V-z---)-a---l-u----e-
Transmitting IrDA Data
The data to be transmitted using the infrared transceiver is first sent to the UART. The
UART’s transmit signal (TXD) and baud rate clock are used by the IrDA to generate the
modulation signal (IR_TXD) that drives the infrared transceiver. Each UART/Infrared
data bit is 16 clocks wide. If the data to be transmitted is 1, the IR_TXD signal remains
low for the full 16 clock period. If the data to be transmitted is 0, the transmitter first out-
puts a 7 clock low period, followed by a 3 clock high pulse. Finally, a 6 clock low pulse is
output to complete the full 16 clock data period. Figure 16 illustrates IrDA data transmis-
sion. When the Infrared Endec is enabled, the UART’s TXD signal is internal to the Z8
Encore! XP® F08xA Series products while the IR_TXD signal is output through the TXD
pin.
16 clock
period
Baud Rate
Clock
UART’s
TXD
IR_TXD
Start Bit = 0
3 clock
pulse
Data Bit 0 = 1
Data Bit 1 = 0
Data Bit 2 = 1
Data Bit 3 = 1
7-clock
delay
Figure 16.Infrared Data Transmission
PS024705-0405
PRELIMINARY
Infrared Encoder/Decoder