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參數(shù)資料
| 型號: | AM79C940KCW |
| 廠商: | ADVANCED MICRO DEVICES INC |
| 元件分類: | 微控制器/微處理器 |
| 英文描述: | Media Access Controller for Ethernet (MACE) |
| 中文描述: | 4 CHANNEL(S), 10M bps, LOCAL AREA NETWORK CONTROLLER, PQFP10 |
| 封裝: | PLASTIC, QFP-100 |
| 文件頁數(shù): | 31/122頁 |
| 文件大小: | 914K |
| 代理商: | AM79C940KCW |
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AMD
31
Am79C940
(f) When neither
BE0
nor
BE1
are asserted, no data
transfer will take place.
DTV
will not be asserted.
Byte Alignment For FIFO Read Operations
BE0
0
0
1
1
0
0
1
1
BE1
0
1
0
1
0
1
0
1
BSWP
0
0
0
0
1
1
1
1
DBUS7–0
n
n
n
X
n+1
n
n
X
DBUS15–8
n+1
n
n
X
n
n
n
X
Byte Alignment For FIFO Write Operations
BE0
0
0
1
1
0
0
1
1
BE1
0
1
0
1
0
1
0
1
BSWP
0
0
0
0
1
1
1
1
DBUS7–0
n
n
X
X
n+1
X
n
X
DBUS15–8
n+1
X
n
X
n
n
X
X
BIU to Control and Status
Register Data Path
All registers in the address range 2–31 are 8-bits wide.
When a read cycle is executed on any of these registers,
the MACE device will drive data on both bytes of the
data bus, regardless of the programming of BSWP.
When a write cycle is executed, the MACE device
strobes in data based on the programming of BSWP as
shown in the tables below. All accesses to addresses
2–31 are independent of the
BE
0
and
BE
1
pins.
Byte Alignment For Register Read Operations
BE0
X
BE1
X
BSWP
0
DBUS7–0
Read
Data
Read
Data
DBUS15–8
Read
Data
Read
Data
X
X
1
Byte Alignment For Register Write Operations
BE0
X
BE1
X
BSWP
0
DBUS7–0
Write
Data
X
DBUS15–8
X
Write
Data
X
X
1
FIFO Sub-System
The MACE device has two independent FIFOs, with
128-bytes for receive and 136-bytes for transmit opera-
tions. The FIFO sub-system contains both the FIFOs,
and the control logic to handle normal and exception re-
lated conditions.
The Transmit and Receive FIFOs interface on the net-
work side with the serializer/de-serializer in the MAC en-
gine. The BIU provides access between the FIFOs and
the host system to enable the movement of data to and
from the network.
Internally, the FIFOs appear to the BIU as independent
16-bit wide registers. Bytes or words can be written to
the Transmit FIFO (XMTFIFO), or read from the Re-
ceive FIFO (RCVFIFO). Byte and word transfers can be
mixed in any order. The BIU will ensure correct byte or-
dering dependent on the target host system, as deter-
mined by the programming of the BSWP bit in the BIU
Configuration Control register.
The XMTFIFO and RCVFIFO have three different
modes of operation. These are Normal (Default), Burst
and Low Latency Receive. Default operation will be
used after the hardware
RESET
pin or software SWRST
bit have been activated. The remainder of this general
description applies to all modes except where specific
differences are noted.
Transmit FIFO—General Operation:
When writing bytes to the XMTFIFO, certain restrictions
apply. These restrictions have a direct influence on the
latency provided by the FIFO to the host system. When
a byte is written to the FIFO location, the entire word lo-
cation is used. The unused byte is marked as a holein
the XMTFIFO. These holesare skipped during the seri-
alization process performed by the MAC engine, when
the bytes are unloaded from the XMTFIFO.
For instance, assume the Transmit FIFO Watermark
(XMTFW) is set for 32 write cycles. If the host writes byte
wide data to the XMTFIFO, after 36 write cycles there
will be space left in the XMTFIFO for only 32 more write
cycles. Therefore
TDTREQ
will de-assert even though
only 36-bytes of data have been loaded into the
XMTFIFO. Transmission will not commence until
64-bytes or the End-of-Frameare available in the
XMFIFO, so transmission would not start, and
TDTREQ
would remain de-asserted. Hence for byte wide data
transfers, the XMTFW should be programmed to the 8
or 16 write cycle limit, or the host should ensure that suf-
ficient data will be written to the XMTFIFO after
TDTREQ
has been de-asserted (which is permitted), to
guarantee that the transmission will commence. A third
alternative is to program the Transmit Start Point
(XMTSP) in the BIU Configuration Control register to
below the 64-byte default; thereby imposing a lower la-
tency to the host system requiring additional data to
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