參數(shù)資料
型號(hào): CD1865
廠商: Intel Corp.
英文描述: Intelligent Eight-Channel Communications Controller
中文描述: 智能八通道通信控制器
文件頁(yè)數(shù): 23/150頁(yè)
文件大?。?/td> 871K
代理商: CD1865
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Intelligent Eight-Channel Communications Controller
CD1865
Datasheet
23
The CD1865 workload can be divided into two categories:
Bit-to-character conversion (and vice versa)
the
traditional
UART function
Character-level processing such as flow control, FIFO management, and host interface
functions
The CD1865 internal processor handles all these tasks in firmware. A foreground/background
scheme is used: foreground for internal bit-engine interrupts and background for everything else.
This internal structure represented in
Figure 3 on page 24
, shows how the foreground
communicates with the background. Foreground code handles bit-to-character assembly for
receive, and character-to-bit disassembly for transmit. In either case a Holding register, together
with a Full/Empty bit, acts as the
gateway
between the interrupt-driven foreground and the
polling-loop background code.
The background code executes the polling loop as shown in
Figure 4
. After power-on reset, the
software runs continuously in an inner and an outer loop. Lower-priority tasks are handled in the
outer loop, and higher-priority tasks are handled in the inner loop. The highest-priority tasks are bit
events that are handled by foreground (that is, interrupt-driven) code.
The inner loop executes eight times as often as the outer loop. It checks each channel
s Full/Empty
bits to sense if another character needs to be moved. It first checks receive, and if there is a
character to be moved, it is moved and execution moves on to the next channel. If receive data does
not need processing, then transmit is checked. This mechanism gives a slightly higher priority to
receive than to transmit, and is favorable because missing a receive character is a fatal error and
being late in transmitting one is not an error. (The effect of this can be observed by programming
the CD1865 for higher-than-rated serial baud rates and providing a source of receive traffic with
virtually 100-percent loading. As the CD1865 is heavily loaded, it leaves short gaps between
transmit characters because the firmware is following the
receive
path through the code. Refer to
Section 6.2.5
for details on maximum performance and maximum line speed).
After eight passes through the inner loop (for example, checking all eight channels for data), one
pass is made through the outer loop. This pass checks one channel for host commands (such as
Send Special Character
), timer functions, and a condition that requires posting an external service
request (for example, Receive FIFO full, Transmit FIFO empty, modem signal change, and so on).
If required, the firmware posts the service request within the queue of the appropriate service-
request logic. It then continues normal operation, until the host responds to the service request.
After a single pass through the outer loop, eight passes through the inner loop are again made.
In most cases the CD1865 checks the appropriate bit in RAM to determine which options are
enabled and then modifies its processing accordingly. Some control bits must be interpreted and
moved by the CD1865 firmware from their location in Option Bit registers to other locations in the
device. Therefore, the host must notify the CD1865 when these bits are modified. Then, the
CD1865 alters the channel as commanded. For details on channel command functions, refer to
Section 7.2
.
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