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參數(shù)資料

型號(hào)：	AM79C971VCW
廠商：	ADVANCED MICRO DEVICES INC
元件分類(lèi)：	微控制器/微處理器
英文描述：	PCnet⑩-FAST Single-Chip Full-Duplex 10/100 Mbps Ethernet Controller for PCI Local Bus
中文描述：	4 CHANNEL(S), 100M bps, LOCAL AREA NETWORK CONTROLLER, PQFP176
封裝：	TQFP-176
文件頁(yè)數(shù)：	59/265頁(yè)
文件大?。?/td>	3190K
代理商：	AM79C971VCW

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Am79C971

If a poll operation has revealed that the current and the

next RDTE belong to the Am79C971 controller, then

additional poll accesses are not necessary. Future poll

operations will not include RDTE accesses as long as

the Am79C971 controller retains ownership of the cur-

rent and the next RDTE.

When receive activity is present on the channel, the

Am79C971 controller waits for the complete address of

the message to arrive. It then decides whether to ac-

cept or reject the frame based on all active addressing

schemes. If the frame is accepted, the Am79C971 con-

troller checks the current receive buffer status register

CRST (CSR41) to determine the ownership of the cur-

rent buffer.

If ownership is lacking, the Am79C971 controller will

immediately perform a final poll of the current RDTE. If

ownership is still denied, the Am79C971 controller has

no buffer in which to store the incoming message. The

MISS bit will be set in CSR0 and the Missed Frame

Counter (CSR112) will be incremented. Another poll of

the current RDTE will not occur until the frame has fin-

ished.

If the Am79C971 controller sees that the last poll (ei-

ther a normal poll, or the final effort described in the

above paragraph) of the current RDTE shows valid

ownership, it proceeds to a poll of the next RDTE. Fol-

lowing this poll, and regardless of the outcome of this

poll, transfers of receive data from the FIFO may begin.

Regardless of ownership of the second receive de-

scriptor, the Am79C971 controller will continue to per-

form receive data DMA transfers to the first buffer. If the

frame length exceeds the length of the first buffer, and

the Am79C971 controller does not own the second

buffer, ownership of the current descriptor will be

passed back to the system by writing a 0 to the OWN

bit of RMD1. Status will be written indicating buffer

(BUFF = 1) and possibly overflow (OFLO = 1) errors.

If the frame length exceeds the length of the first (cur-

rent) buffer, and the Am79C971 controller does own

the second (next) buffer, ownership will be passed back

to the system by writing a 0 to the OWN bit of RMD1

when the first buffer is full. The OWN bit is the only bit

modified in the descriptor. Receive data transfers to the

second buffer may occur before the Am79C971 con-

troller proceeds to look ahead to the ownership of the

third buffer. Such action will depend upon the state of

the FIFO when the OWN bit has been updated in the

first descriptor. In any case, lookahead will be per-

formed to the third buffer and the information gathered

will be stored in the chip, regardless of the state of the

ownership bit.

This activity continues until the Am79C971 controller

recognizes the completion of the frame (the last byte of

this receive message has been removed from the

FIFO). The Am79C971 controller will subsequently up-

date the current RDTE status with the end of frame

(ENP) indication set, write the message byte count

(MCNT) for the entire frame into RMD2, and overwrite

the

“

current

”

entries in the CSRs with the

“

”

entries.

Receive Frame Queuing

The Am79C971 controller supports the lack of RDTEs

when external SRAM (SRAM SIZE in BCR 25, bits 7-0)

is present through the Receive Frame Queuing mech-

anism. When the SRAM SIZE = 0, then the Am79C971

controller reverts back to the PCnet PCI II mode of op-

eration. This operation is automatic and does not re-

quire any programming by the host. When SRAM is

present, the Receive Frame Queuing mechanism

allows a slow protocol to manage more frames without

the high frame loss rate normally attributed to FIFO

based network controllers.

The Am79C971 controller will store the incoming

frames in the extended FIFOs until polling takes place;

if enabled, it discovers it owns an RDTE. The stored

frames are not altered in any way until written out into

system buffers. When the receive FIFO overflows, fur-

ther incoming receive frames will be missed during that

time. As soon as the network receive FIFO is empty, in-

coming frames are processed as normal. Status on a

per frame basis is not kept during the overflow process.

Statistic counters are maintained and accurate during

that time.

During the time that the Receive Frame Queuing mech-

anism is in operation, the Am79C971 controller relies

on the Receive Poll Time Counter (CSR 48) to control

the worst case access to the RDTE. The Receive Poll

Time Counter is programmed through the Receive Poll-

ing Interval (CSR49) register. The Received Polling In-

terval defaults to approximately 2 ms. The Am79C971

controller will also try to access the RDTE during nor-

mal descriptor accesses whether they are transmit or

receive accesses. The host can force the Am79C971

controller to immediately access the RDTE by setting

the RDMD (CSR 7, bit 13) to 1. Its operation is similar

to the transmit one. The polling process can be dis-

abled by setting the RXDPOLL (CSR7, bit 12) bit. This

will stop the automatic polling process and the host

must set the RDMD bit to initiate the receive process

into host memory. Receive frames are still stored even

when the receive polling process is disabled.

Software Interrupt Timer

The Am79C971 controller is equipped with a software

programmable free-running interrupt timer. The timer is

constantly running and will generate an interrupt STINT

(CSR 7, bit 11) when STINITE (CSR 7, bit 10) is set to

1. After generating the interrupt, the software timer will

load the value stored in STVAL and restart. The timer

value STVAL (BCR31, bits 15-0) is interpreted as an

unsigned number with a resolution of 12.8

s. For in-

stance, a value of 122 ms would be programmed with

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相關(guān)代理商/技術(shù)參數(shù)	參數(shù)描述
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