參數(shù)資料
型號(hào): AM79C976KIW
廠商: ADVANCED MICRO DEVICES INC
元件分類: 微控制器/微處理器
英文描述: PCnet-PRO⑩ 10/100 Mbps PCI Ethernet Controller
中文描述: 1 CHANNEL(S), 100M bps, LOCAL AREA NETWORK CONTROLLER, PQFP208
封裝: PLASTIC, QFP-208
文件頁(yè)數(shù): 90/309頁(yè)
文件大?。?/td> 2070K
代理商: AM79C976KIW
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90
Am79C976
8/01/00
P R E L I M I N A R Y
elapsed since the first interrupt event occurred. The
use of the Delayed Interrupt Register allows the inter-
rupt service routine to process several events at one
time without having to return control back to the oper-
ating system between events.
A receive interrupt event occurs when receive inter-
rupts are enabled, and the Am79C976 device has com-
pleted the reception of a frame and has updated the
frame
s descriptors. A receive interrupt event causes
the Receive Interrupt (RINT) bit in CSR0 to be set if it
is not already set. Similarly, a transmit interrupt event
occurs when transmit interrupts are enabled, and the
Am79C976 device has copied a transmit frame
s data
to the transmit FIFO and has updated the frame
s de-
scriptors. A transmit interrupt event causes the Trans-
mit Interrupt (TINT) bit in CSR0 to be set if it is not
already set. Note that frame receptions or transmis-
sions affect the interrupt event counter only when re-
ceive or transmit interrupts are enabled.
The Delayed Interrupt Register contains the 5-bit Event
Count field and the 11-bit Maximum Delay Time field.
Each time the host CPU clears the RINT or TINT bit,
the contents of the Event Count field are loaded into an
internal interrupt event counter, the contents of the
Maximum Delay Time field are loaded into an internal
interrupt event timer, and the interrupt event timer is
disabled. Each time a receive or transmit interrupt
event occurs, the interrupt event counter is decre-
mented by 1 and the interrupt event timer is enabled, or
if it has already been enabled, it continues to count
down. Once the interrupt event timer has been en-
abled, it decrements by 1 every 10 microseconds.
When either the interrupt event counter or the interrupt
event timer reaches zero, the INTA pin is asserted.
External Address Detection Interface
The EADI is provided to allow external address filtering
and to provide a Receive Frame Tag word for propri-
etary routing information. This feature is typically uti-
lized by terminal servers, switches and/or router
products. The EADI interface can be used in conjunc-
tion with external logic to capture the packet destination
address from the MII input data stream as it arrives at
the Am79C976 controller, to compare the captured ad-
dress with a table of stored addresses or identifiers,
and then to determine whether or not the Am79C976
controller should accept the packet.
The EADI consists of the External Address Reject
(EAR), Start Frame-Byte Delimiter (SFBD), Receive
Frame Tag Data (RXFRTGD), and Receive Frame Tag
Enable (RXFRTGE) pins.
The SFBD pin indicates two types of information to the
external logic--the start of the frame and byte bound-
aries. The first low-to-high transition on the SFBD pin
after the assertion of the RX_DV signal indicates that
the first nibble of the Destination Address field of the in-
coming frame is available on the RXD[3:0] pins. There-
after, SFBD toggles with each RX_CLK pulse so that
SFBD is high when the least significant nibble of frame
date is present on the RXD[3:0] lines and low when the
most significant nibble is present. SFBD stays low
when RX_DV is not asserted (which indicates that the
receiver is idle).
Note that the SFBD signal is available on any LED pin.
To direct the SFBD signal to one of the LED pins, the
SFBDE and LEDPOL bits should be set to 1 and the
PSE bit should be cleared to 0 in the appropriate LED
register. The SFBDE bit directs the SFBD signal to the
pin, the LEDPOL bit sets the polarity to active high and
enables the totem-pole driver, and the PSE bit disables
the LED pulse stretcher logic.
If the system needs all four LEDs as well as the EADI
function, the Am79C976 controller can be programmed
to use the shared pin for the LED function, and the ex-
ternal logic can be designed to generate the SFBD sig-
nal by searching for the 11010101b Start Frame
Delimiter (SFD) pattern in the RCD[3:0] data.
The external address detection logic can use the EAR
input to indicate whether or not the incoming frame
should be accepted. If the EAR signal remains high
during the receive protect time, the frame will be ac-
cepted and copied into host system memory. The re-
ceive protect time is a period of time measured from the
receipt of the SFD field of a frame. The length of the re-
ceive protect time is programmable through the Re-
ceive Protect Register.
A frame is accepted if it passes either the internal ad-
dress match criteria or the external address match cri-
teria. If the internal address logic is disabled, the
acceptance of a frame depends entirely on the external
address match logic. If the external address match
logic is disabled, the acceptance of a frame depends
entirely on the internal address match logic.
Internal address match is disabled when PROM
(CSR15, bit 15) is cleared to 0, DRCVBC (CSR15, bit
14) and DRCVPA (CSR15, bit 13) are set to 1, and the
Logical Address Filter registers (CSR8 to CSR11) are
programmed to all zeros.
External address matching can be disabled by holding
the EAR pin low. There is no programmable bit that
causes the Am79C976 device to ignore the state of the
EAR pin.
The EADI logic only samples EAR from 2 nibble times
after SFD until the end of the receive protect time. (See
the
Receive Protect Register
section.) The frame will
be accepted if EAR has not been asserted during this
window. EAR must have a pulse width of at least two bit
times plus 10 ns.
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