LAN91C100FDTQFP SMSC, LAN91C100FDTQFP Datasheet - Page 17
LAN91C100FDTQFP
Manufacturer Part Number
LAN91C100FDTQFP
Description
Ethernet ICs Non-PCI 10/100 Ethernet MAC
Manufacturer
SMSC
Type
Single Chip MAC and PHY Controllerr
Datasheet
1.LAN91C100FD-ST.pdf
(77 pages)
Specifications of LAN91C100FDTQFP
Ethernet Connection Type
10 Base-T, 100 Base-TX
Minimum Operating Temperature
0 C
Mounting Style
SMD/SMT
Product
Ethernet Controllers
Number Of Transceivers
1
Standard Supported
802.3
Data Rate
10 Mbps, 100 Mbps
Supply Voltage (max)
7 V
Supply Voltage (min)
0.3 V
Supply Current (max)
40 mA
Maximum Operating Temperature
+ 70 C
Package / Case
TQFP-208
Lead Free Status / RoHS Status
Lead free / RoHS Compliant
Available stocks
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4.2.6
4.2.7
SMSC LAN91C100FD Rev. D
FEAST Fast Ethernet Controller with Full Duplex Capability
at 100 Mbps), while TXD3 carries the most significant bit of the nibble. TXEN100 and TXD0-TXD3 are
clocked by the LAN91C100FD using TX25 rising edges. TXEN100 goes inactive at the end of the packet
on the last nibble of the CRC.
During a transmission, COL100 might become active to indicate a collision. COL100 is asynchronous to
the LAN91C100FD’s clocks and will be synchronized internally to TX25.
Reception begins when RX_DV (receive data valid) is asserted. A preamble pattern or flag octet will be
present at RXD0-RXD3 when RX_DV is activated. The LAN91C100FD requires no training sequence
beyond a full flag octet for reception. RX_DV as well as RXD0-RXD3 are sampled on RX25 rising edges.
RXD0 carries the least significant bit and RXD3 the most significant bit of the nibble. RX_DV goes inactive
when the last valid nibble of the packet (CRC) is presented at RXD0-RXD3.
RX_ER might be asserted during packet reception to signal the LAN91C100FD that the present receive
packet is invalid. The LAN91C100FD will discard the packet by treating it as a CRC error.
When MIISEL=1, RXD0-RXD3 should always be aligned to packet nibbles, therefore, opening flag
detection does not consider misaligned cases. Opening flag detection expects the 5Dh pattern and will not
reject the packet on non-preamble patterns. When MIISEL=0 the opening flag detection expects a
"10101011" pattern and will use it for determining nibble alignment.
CRS100 is used as a frame envelope signal for the CSMA/CD MAC state machines (deferral and backoff
functions), but it is not used for receive framing functions. CRS100 is an asynchronous signal and it will be
active whenever there is activity on the cable, including LAN91C100FD transmissions and collisions.
Switching between the ENDEC and MII interfaces is controlled by the MII SELECT bit in the CONFIG
REGISTER. The MIISEL pin reflects the value of this bit and may be used to control external multiplexing
logic.
Note that given the modular nature of the MII, TX25 and RX25 cannot be assumed to be free running
clocks. The LAN91C100FD will not rely on the presence of TX25 and RX25 during reset and will use its
own internal clock whenever a timeout on TX25 is detected.
MII Management Interface Block
PHY management through the MII management interface is supported by the LAN91C100FD by providing
the means to drive a tri-statable data output, a clock, and reading an input. Timing and framing for each
management command is to be generated by the CPU.
Serial EEPROM Interface
This block is responsible for reading the serial EEPROM upon hardware reset (or equivalent command)
and defining defaults for some key registers. A write operation is also implemented by this block, that
under CPU command will program specific locations in the EEPROM. This block is an autonomous state
machine and controls the internal Data Bus of the LAN91C100FD during active operation.
DATASHEET
Page 17
Revision 1.0 (09-22-08)
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