0 100base-tx adapter mode operation, 1 100base-tx transmit clock generation, 2 100base-tx transmit blocks – Intel 82555 User Manual

Datasheet

13

Networking Silicon — 82555

4.0

100BASE-TX Adapter Mode Operation

4.1

100BASE-TX Transmit Clock Generation

A 25 MHz crystal or a 25 MHz oscillator is used to drive the 82555’s X1 and X2 pins. The 82555
derives its internal transmit digital clocks from this crystal or oscillator input. The Transmit Clock
signal is a derivative of the 25 MHz internal clock. The accuracy of the external crystal or oscillator
must be ± 0.0005% (50 PPM).

4.2

100BASE-TX Transmit Blocks

The transmit subsection of the 82555 accepts nibble-wide data on the TXD[3:0] lines when TXEN
is asserted (high). The transmit subsection passes data unconditionally to the 4B/5B encoder as
long as TXEN is active.

The 4B/5B encoder accepts nibble-wide data (4 bits) from the MAC and compiles it into 5-bit-wide
parallel symbols. These symbols are scrambled and serialized into a 125 Mbps bit stream,
converted by the analog transmit driver into a MLT-3 waveform format, and transmitted onto the
Unshielded Twisted Pair (UTP) or Shielded Twisted Pair (STP) wire.

4.2.1

100BASE-TX 4B/5B Encoder

The 4B/5B encoder complies with the IEEE 802.3u 100BASE-TX standard. Four bits are encoded
according to the transmit 4B/5B lookup table. The lookup table matches a 5-bit code to each 4-bit
code.

The table below illustrates the 4B/5B encoding scheme associated with the given symbol.

Table 2. 4B/5B Encoder

Symbol

5B Symbol Code

4B Nibble Code

0

11110

0000

1

01001

0001

2

10100

0010

3

10101

0011

4

01010

0100

5

01011

0101

6

01110

0110

7

01111

0111

8

10010

1000

9

10011

1001

A

10110

1010

B

10111

1011

C

11010

1100

D

11011

1101