SCC2691AC1D24,518 NXP Semiconductors, SCC2691AC1D24,518 Datasheet - Page 15
SCC2691AC1D24,518
Manufacturer Part Number
SCC2691AC1D24,518
Description
IC UART SOT137-1
Manufacturer
NXP Semiconductors
Type
Universal asynchronous receiver/transmitter (UART)r
Datasheet
1.SCC2691AC1A28623.pdf
(25 pages)
Specifications of SCC2691AC1D24,518
Number Of Channels
1, UART
Package / Case
24-SOIC (0.300", 7.50mm Width)
Features
False-start Bit Detection
Fifo's
3Bit
Voltage - Supply
5V
With Auto Flow Control
Yes
With False Start Bit Detection
Yes
With Cmos
Yes
Mounting Type
Surface Mount
Voltage
4.5 ~ 5.5V
Data Rate
0.1152 MBd
Supply Voltage (max)
5.5 V
Supply Voltage (min)
4.5 V
Supply Current
2 mA
Maximum Operating Temperature
+ 70 C
Minimum Operating Temperature
0 C
Mounting Style
SMD/SMT
Operating Supply Voltage
5 V
Lead Free Status / RoHS Status
Lead free / RoHS Compliant
Lead Free Status / RoHS Status
Lead free / RoHS Compliant, Lead free / RoHS Compliant
Other names
935002730518
SCC2691AC1D24-T
SCC2691AC1D24-T
SCC2691AC1D24-T
SCC2691AC1D24-T
Available stocks
Company
Part Number
Manufacturer
Quantity
Price
Part Number:
SCC2691AC1D24,518
Manufacturer:
NXP/恩智浦
Quantity:
20 000
example. One can only program integer numbers in a digital divider.
Philips Semiconductors
IMR – Interrupt Mask Register
The programming of this register selects which bits in the ISR cause an
interrupt output. If a bit in the ISR is a ‘1’ and the corresponding bit in
the IMR is a ‘1’, the INTRN output is asserted (low). If the corresponding
bit in the IMR is a zero, the state of the bit in the ISR has no effect on
the INTRN output. Note that the IMR does not mask reading of the ISR.
NOTE: When IMR[6] is a 1, a 1 on the MPI pin causes and interrupt.
CTUR and CTLR – Counter/Timer Registers
The CTUR and CTLR hold the eight MSBs and eight LSBs,
respectively, of the value to be used by the counter/timer in either
the counter or timer modes of operation. The minimum value which
may be loaded is H‘0002’.
In the timer (programmable divider) mode, the C/T generates a
square wave whose period is twice the value (in clock periods) of
the CTUR and CTLR. The waveform so generated is often used for
a data clock. The formula for calculating the divisor n to load to the
CTUR and CTLR for a particular 1X data clock is shown below:
Often this division will result in a non-integer number; 26.3, for
Therefore, 26 would be chosen. This gives a baud rate error of
2006 Aug 04
Universal asynchronous receiver/transmitter (UART)
n
(WRITE)
(READ)
A0–A2
D0–D7
D0–D7
2 x 16 x Baud rate desired
WRN
CEN
RDN
C T Clock Frequency
FLOAT
t
t
AS
CS
t
AH
RESET
t
DD
NOT VALID
t
RW
Figure 3. Reset Timing
Figure 4. Bus Timing
t
DS
t
RES
VALID
15
VALID
0.3/26.3 which is 1.14%; well within the ability asynchronous mode
of operation.
If the value in CTUR or CTLR is changed, the current half-period will
not be affected, but subsequent half-periods will be.
The counter ready status bit (ISR[4]) is set once each cycle of the
square wave. The bit is reset by a stop counter command. The
command, however, does not stop the C/T. The generated square
wave is output on MPO if it is programmed to be the C/T output.
In the counter mode, the C/T counts down the number of pulses
loaded in CTUR and CTLR. Counting begins upon receipt of a start
C/T command. Upon reaching the terminal count, the counter ready
interrupt bit (ISR[4]) is set. the counter continues counting past the
terminal count until stopped by the CPU. If MPO is programmed to
be the output of the C/T, the output remains high until the terminal
count is reached, at which time it goes low.
The output returns to the high state and ISR[4] is cleared when the
counter is stopped by a stop counter command. The CPU may
change the values of CTUR and CTLR at any time, but the new
count becomes effective only on the next start counter command. If
new values have not been loaded, the previous values are
preserved and used for the next count cycle.
t
t
t
CH
DF
DH
t
t
RWD
RWD
SD00028
FLOAT
SD00124
SCC2691
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