LU82551QM Intel, LU82551QM Datasheet - Page 43

LU82551QM

Manufacturer Part Number

LU82551QM

Description

Manufacturer

Intel

Datasheet

1.LU82551QM.pdf (120 pages)

Specifications of LU82551QM

Operating Supply Voltage (typ)

3.3V

Operating Supply Voltage (min)

Operating Supply Voltage (max)

3.6V

Operating Temperature Classification

Commercial

Mounting

Surface Mount

Pin Count

196

Lead Free Status / RoHS Status

Compliant

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6.0

6.1

6.1.1

6.1.2

6.1.3

Datasheet

Physical Layer Functional Description

100BASE-TX PHY Unit

100BASE-TX Transmit Clock Generation

A 25 MHz crystal or a 25 MHz oscillator is used to drive the PHY unit’s X1 and X2 pins. The PHY

unit derives its internal transmit digital clocks from this crystal or oscillator input. The internal

Transmit Clock signal is a derivative of the 25 MHz internal clock. The accuracy of the external

crystal or oscillator must be ± 0.005% (30 ppm).

100BASE-TX Transmit Blocks

The transmit subsection of the PHY unit accepts nibble-wide data from the CSMA/CD unit. The

transmit subsection passes data unconditionally to a 4B/5B encoder.

The 4B/5B encoder accepts nibble-wide data (4 bits) from the CSMA unit and compiles it into 5-

bit-wide parallel symbols according to the IEEE 802.3u 100BASE_TX standard. Next, the symbols

are scrambled to reduce electromagnetic emissions during long sequences of high-frequency data

codes.

The MLT-3 (multi-level signal) encoder receives the scrambled Non-Return to Zero (NRZ) data

stream from the scrambler and encodes the stream into MLT-3 for presentation to the driver. MLT-

3 is similar to NRZ1 coding, but three levels are output instead of two. The three output levels are

positive, negative and zero.

The transmit differential pair line drivers are implemented with digital slope controlled current

buffers that meet the TP-PMD specifications. Current is sinked from an isolation transformer by

the TDP and TDN pins. The 125 Mbps bit stream is typically driven onto Unshielded Twisted Pair

(UTP) cable.

100BASE-TX Receive Blocks

The receive subsection of the PHY unit accepts 100BASE-TX MLT-3 data on the receive

differential pair. Due to the advanced digital signal processing design techniques employed, the

PHY unit will accurately receive valid data from Category 5 (CAT5) UTP cables of lengths well in

excess of 100 meters.

The distorted MLT-3 signal at the end of the wire is restored by the equalizer. The equalizer

performs adaptation based on the shape of the received signal. The clock recovery circuit uses

digital signal processing to compensate for various signal jitter causes. The circuit recovers the 125

MHz clock and data and presents the data to the MLT-3 decoder.

The PHY unit first decodes the MLT-3 data; afterwards, the descrambler reproduces the 5B

symbols originated in the transmitter. The data is decoded at the 4B/5B decoder. After the 4B

symbols are obtained, the PHY unit outputs the receive data to the CSMA unit.

In 100BASE-TX mode, the PHY unit can detect errors in receive data in a number of ways,

including link integrity failures, undetected start of stream delimiters, invalid symbols, or idles in

the middle of a frame.

Networking Silicon — 82551QM

LU82551QM Intel, LU82551QM Datasheet - Page 43

LU82551QM

Specifications of LU82551QM

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