Specifications
67
AT83SND2CMP3
7524D–MP3–07/07
Serial I/O Port
The serial I/O port in the AT83SND2CMP3 provides both synchronous and asynchro-
nous communication modes. It operates as a Synchronous Receiver and Transmitter in
one single mode (Mode 0) and operates as an Universal Asynchronous Receiver and
Transmitter (UART) in three full-duplex modes (Modes 1, 2 and 3). Asynchronous
modes support framing error detection and multiprocessor communication with auto-
matic address recognition.
Mode Selection
SM0 and SM1 bits in SCON register are used to select a mode among the single syn-
chronous and the three asynchronous modes according to Table 55.
Table 55. Serial I/O Port Mode Selection
Baud Rate Generator
Depending on the mode and the source selection, the baud rate can be generated from
either the Timer 1 or the Internal Baud Rate Generator. The Timer 1 can be used in
Modes 1 and 3 while the Internal Baud Rate Generator can be used in Modes 0, 1
and 3.
The addition of the Internal Baud Rate Generator allows freeing of the Timer 1 for other
purposes in the application. It is highly recommended to use the Internal Baud Rate
Generator as it allows higher and more accurate baud rates than Timer 1.
Baud rate formulas depend on the modes selected and are given in the following mode
sections.
Timer 1 When using Timer 1, the Baud Rate is derived from the overflow of the timer. As shown
in Figure 57 Timer 1 is used in its 8-bit auto-reload mode (detailed in Section "Mode 2
(8-bit Timer with Auto-Reload)", page 53). SMOD1 bit in PCON register allows doubling
of the generated baud rate.
Figure 57. Timer 1 Baud Rate Generator Block Diagram
SM0 SM1 Mode Description Baud Rate
0 0 0 Synchronous Shift Register Fixed/Variable
0 1 1 8-bit UART Variable
1 0 2 9-bit UART Fixed
1 1 3 9-bit UART Variable
TR1
TCON.6
0
1
GATE1
TMOD.7
Overflow
C/T1#
TMOD.6
TL1
(8 bits)
TH1
(8 bits)
INT1
T1
PER
CLOCK
÷ 6
0
1
SMOD1
PCON.7
÷ 2
T1
CLOCK
To serial
Port