参数资料
型号: SCC2681AC1N40,112
厂商: NXP Semiconductors
文件页数: 28/29页
文件大小: 0K
描述: IC UART DUAL 40-DIP
产品培训模块: Stand-Alone UARTs
标准包装: 9
特点: 故障启动位检测
通道数: 2,DUART
FIFO's: 3 位
电源电压: 5V
带并行端口:
带自动流量控制功能:
带故障启动位检测功能:
带CMOS:
安装类型: 通孔
封装/外壳: 40-DIP(0.600",15.24mm)
供应商设备封装: 40-DIP
包装: 管件
其它名称: 568-3525-5
935274523112
SCC2681AC1N40
Philips Semiconductors
Product data
SCC2681
Dual asynchronous receiver/transmitter (DUART)
2004 Apr 06
8
BLOCK DIAGRAM
The SCC2681 DUART consists of the following eight major sections:
data bus buffer, operation control, interrupt control, timing,
communications Channels A and B, input port and output port. Refer
to the block diagram.
Data Bus Buffer
The data bus buffer provides the interface between the external and
internal data buses. It is controlled by the operation control block to
allow read and write operations to take place between the controlling
CPU and the DUART.
Operation Control
The operation control logic receives operation commands from the
CPU and generates appropriate signals to internal sections to
control device operation. It contains address decoding and read and
write circuits to permit communications with the microprocessor via
the data bus buffer.
Interrupt Control
A single active-LOW interrupt output (INTRN) is provided which is
activated upon the occurrence of any of eight internal events.
Associated with the interrupt system are the Interrupt Mask Register
(IMR) and the Interrupt Status Register (ISR). The IMR may be
programmed to select only certain conditions to cause INTRN to be
asserted. The ISR can be read by the CPU to determine all currently
active interrupting conditions.
Specific Change of State (COS) bits interrupts are controlled in the
ACR and IPCR registers. The ISR indicates a COS has occurred,
but not the particular pins causing the interrupt.
Outputs OP3-OP7 can be programmed to provide discrete interrupt
outputs for the transmitter, receivers, and counter/timer. The OP
pins associated with the receiver and transmitter may be used for
DMA interface.
Timing Circuits
The timing block consists of a crystal oscillator, a baud rate
generator, a programmable 16-bit counter/timer, and four clock
selectors. The crystal oscillator operates directly from a 3.6864MHz
crystal connected across the X1/CLK and X2 inputs. If an external
clock of the appropriate frequency is available, it may be connected
to X1/CLK. The clock serves as the basic timing reference for the
Baud Rate Generator (BRG), the counter/timer, and other internal
circuits. A clock signal within the limits specified in the specifications
section of this data sheet must always be supplied to the DUART.
If an external clock is used instead of a crystal, both X1 and X2
should use a configuration similar to the one in Figure 7.
The baud rate generator operates from the oscillator or external
clock input and is capable of generating 18 commonly used data
communications baud rates ranging from 50 to 115.2 k baud. The
clock outputs from the BRG are at 16
× the actual baud rate. The
counter/timer can be used as a timer to produce a 16
× clock for any
other baud rate by counting down the crystal clock or an external
clock. The four clock selectors allow the independent selection, for
each receiver and transmitter, of any of these baud rates or external
timing signal.
Counter/Timer (C/T)
The counter timer is a 16 bit programmable divider that operates
one of three modes: Counter, Timer or Time Out mode. In all three
modes it uses the 16-bit value loaded to the CTUR and CTLR
registers. (Counter timer upper and lower preset registers).
In the timer mode it generates a square wave.
In the counter mode it generates a time delay.
In the time out mode it monitors the receiver data flow and signals
data flow has paused. In the time out mode the receiver controls
the starting/stopping of the C/T.
The counter operates as a down counter and sets its output bit in
the ISR (Interrupt Status Register) each time it passes through 0.
The output of the counter/timer may be seen on one of the OP pins
or as an Rx or Tx clock.
The Timer/Counter is controlled with six (6) “commands”; Start C/T,
Stop C/T, write C/T, preset registers, read C/T value, set or reset
time out mode.
Please see the detail of the commands under the Counter/Timer
register descriptions.
Communications Channels A and B
Each communications channel of the SCC2681 comprises a
full-duplex asynchronous receiver/transmitter (UART). The operating
frequency for each receiver and transmitter can be selected
independently from the baud rate generator, the counter timer, or
from an external input.
The transmitter accepts parallel data from the CPU, converts it to a
serial bit stream, inserts the appropriate start, stop, and optional
parity bits and outputs a composite serial stream of data on the TxD
output pin. The receiver accepts serial data on the RxD pin,
converts this serial input to parallel format, checks for start bit, stop
bit, parity bit (if any), or break condition and sends an assembled
character to the CPU.
Input Port
The inputs to this unlatched 7-bit port can be read by the CPU by
performing a read operation at address 0xD. A HIGH input results in
a logic 1 while a LOW input results in a logic 0. D7 will always read
as a logic 1. The pins of this port can also serve as auxiliary inputs
to certain portions of the DUART logic.
Four change-of-state detectors are provided which are associated
with inputs IP3, IP2, IP1 and IP0. A HIGH-to-LOW or LOW-to-HIGH
transition of these inputs lasting longer than 25 – 50
s, will set the
corresponding bit in the input port change register. The bits are
cleared when the register is read by the CPU. Any change-of-state
can also be programmed to generate an interrupt to the CPU.
All the IP pins have a small pull-up device that will source 1 to 4
A
of current from VCC. These pins do not require pull-up devices or
VCC connections if they are not used.
The input port pulse detection circuitry uses a 38.4 kHz sampling
clock derived from one of the baud rate generator taps. This results
in a sampling period of slightly more than 25
s (this assumes that
the clock input is 3.6864 MHz). The detection circuitry, in order to
guarantee that a true change in level has occurred, requires two
successive samples at the new logic level be observed. As a
consequence, the minimum duration of the signal change is 25
s if
the transition occurs “coincident with the first sample pulse”. The
50
s time refers to the situation in which the change-of-state is “just
missed” and the first change-of-state is not detected until 25
s later.
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