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TL16C554A_13 Datasheet, PDF (6/46 Pages) Texas Instruments – ASYNCHRONOUS-COMMUNICATIONS ELEMENT
TL16C554A, TL16C554AI
ASYNCHRONOUS-COMMUNICATIONS ELEMENT
SLLS509E − AUGUST 2001 − REVISED JUNE 2010
Terminal Functions
NAME
TERMINAL
FN
PM
NO. NO.
PN I/O
NO.
DESCRIPTION
A0
34
22,
48
I Register select terminals. A0, A1, and A2 are three inputs used during read and write
A1
33
23,
47
operations to select the ACE register to read or write.
A2
32
24
46
CSA, CSB,
CSC, CSD
16, 20, 7, 11, 28, 33, I Chip select. Each chip select (CSx) enables read and write operations to its respective
50, 54 38, 42 68, 73
channel.
CTSA, CTSB, 11, 25, 2, 16, 23, 38, I Clear to send. CTS is a modem status signal. Its condition can be checked by reading bit
CTSC, CTSD 45, 59 33, 47 63, 78
4 (CTS) of the modem-status register. Bit 0 (ΔCTS) of the modem-status register indicates
that CTS has changed state since the last read from the modem-status register. If the
modem-status interrupt is enabled when CTS changes levels and the auto-CTS mode is
not enabled, an interrupt is generated. CTS is also used in the auto-CTS mode to control
the transmitter.
D7 −D0
66 −68 53−60 15−11, I/O Data bus. Eight data lines with 3-state outputs provide a bidirectional path for data, control,
1−5
9−7
and status information between the TL16C554A and the CPU. D0 is the least-significant
bit (LSB).
DCDA, DCDB, 9, 27, 18, 31, 19,42, I Data carrier detect. A low on DCDx indicates the carrier has been detected by the modem.
DCDC, DCDD 43, 61 49, 64 59, 2
The condition of this signal is checked by reading bit 7 of the modem-status register.
DSRA, DSRB, 10, 26, 1, 17, 22, 39, I Data set ready. DSRx is a modem-status signal. Its condition can be checked by reading
DSRC, DSRD 44, 60 32, 48 62, 79
bit 5 (DSR) of the modem-status register. DSR has no effect on the transmit or receive
operation.
DTRA, DTRB,
DTRC, DTRD
12, 24, 3, 15, 24, 37, O Data terminal ready. DTRx is an output that indicates to a modem or data set that the ACE
46, 58 34, 46 64, 77
is ready to establish communications. It is placed in the active state by setting the DTR bit
of
the
modem-
control register. DTRx is placed in the inactive state (high) either as a result of the master
reset during loop-mode operation, or when clearing bit 0 (DTR) of the modem-control
register.
GND
6, 23, 14, 16, 36,
40, 57 28, 45, 56, 76
61
Signal and power ground
INTN
65
6
I Interrupt normal. INTN operates in conjunction with bit 3 of the modem-status register and
affects operation of the interrupts (INTA, INTB, INTC, and INTD) for the four universal
asynchronous receiver/transceivers (UARTs) per the following table.
INTN
OPERATION OF INTERRUPTS
Brought low or
allowed to float
Interrupts are enabled according to the state of OUT2 (MCR bit 3). When
the MCR bit 3 is cleared, the 3-state interrupt output of that UART is in
the high-impedance state. When the MCR bit 3 is set, the interrupt output
of the UART is enabled.
Brought high Interrupts are always enabled, overriding the OUT2 enables.
INTA, INTB,
INTC, INTD
15, 21, 6, 12, 27, 34, O External interrupt output. The INTx outputs go high (when enabled by the interrupt register)
49, 55 37, 43 67, 74
and inform the CPU that the ACE has an interrupt to be serviced. Four conditions that cause
an interrupt to be issued are: receiver error, receiver data available or timeout (FIFO mode
only), transmitter holding register empty, and an enabled modem-status interrupt. The
interrupt is disabled when it is serviced or as the result of a master reset.
IOR
52
40
70
I Read strobe. A low level on IOR transfers the contents of the selected register to the
external CPU bus.
IOW
18
9
31
I Write strobe. IOW allows the the CPU to write to the register selected by the address.
RESET
37
27
53
I Master reset. When active, RESET clears most ACE registers and sets the state of various
signals. The transmitter output and the receiver input are disabled during reset time.
6
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