DP83865DVH-NOPB Datasheet, PDF(59/88 Page) Texas Instruments – DP83865 Gig PHYTER V 10/100/1000 Ethernet Physical Layer

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DP83865DVH-NOPB Datasheet, PDF (59/88 Pages) Texas Instruments – DP83865 Gig PHYTER V 10/100/1000 Ethernet Physical Layer

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4.0 Functional Description (Continued)

10BASE-T

RXD[3:0] /

RX_ER

RX_CLK

4-BIT NIBBLE

DEMUX

DIVIDER

RXD[3:0] /

RX_ER 100BASE-TX

5B/4B DECODER

LOGIC

SERIAL

PARALLEL

MANCHESTER

TO NRZ

DECODER

DESCRAMB

LER

CLOCK &

DATA

RECOVERY

LINK DETECT

CLOCK

RECOVERY

LINK

DETECT

MLT-3

NRZ

AAC

BLW

CORRECTN

ADC

SIGNAL DETECT

SIGNAL

DETECT

RECEIVER

10BASE-T

100BASE-TX

MDI +/â

Figure 8. 10BASE-T/100BASE-T Receive Block Diagram

after the last bit, carrier sense is de-asserted. Receive

clock stays active for at least five more bit times after CRS

goes low, to guarantee the receive timings of the controller.

The aligned NRZ data is then parallized and aligned to 4-

bit nibbles that is presented to the MII.

4.8.4 Link Detector

In 10 BASE-T mode, the link detection circuit checks for

valid NLP pulses transmitted by the remote link partner. If

valid link pulses are not received the link detector will dis-

able the twisted pair transmitter, receiver and collision

detection functions.

4.8.5 100 BASE-TX ADC Block

The DP83865 requires no external attenuation circuitry at

its receive inputs, MDI+/-. It accepts TP-PMD compliant

waveforms directly from a 1:1 transformer. The analog

MLT-3 signal (with noise and system impairments) is

received and converted to the digital domain via an Analog

to Digital Converter (ADC) to allow for Digital Signal Pro-

cessing (DSP) to take place on the received signal.

4.8.6 BLW / EQ / AAC Correction

The digital data from the ADC block flows into the DSP

Block (BLW/EQ/AAC Correction) for processing. The DSP

block applies proprietary processing algorithms to the

received signal and are all part of an integrated DSP

receiver. The primary DSP functions applied are:

â BLW is defined as the change in the average DC con-

tent, over time, of an AC coupled digital transmission

over a given transmission medium. (i.e. copper wire).

BLW results from the interaction between the low fre-

quency components of a transmitted bit stream and the

frequency response of the AC coupling component(s)

within the transmission system. If the low frequency con-

tent of the digital bit stream goes below the low frequen-

cy pole of the AC coupling transformer then the droop

characteristics of the transformer will dominate resulting

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