TLK105 Datasheet, PDF(27/99 Page) Texas Instruments – Industrial Temp, Single Port 10/100Mbs Ethernet Physical Layer Transceiver

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TLK105 Datasheet, PDF (27/99 Pages) Texas Instruments – Industrial Temp, Single Port 10/100Mbs Ethernet Physical Layer Transceiver

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TLK105

TLK106

www.ti.com

SLLSEB8A â AUGUST 2012 â REVISED MARCH 2013

5.1.5 Digital to Analog Converter

The multipurpose programmable transmit Digital to Analog Converter (DAC) receives digital coded

symbols and generates filtered analog symbols to be transmitted on the line. In 100B-TX the DAC applies

a low-pass shaping filter to minimize EMI. The DAC is designed to improve the return loss requirements

and enable the use of low-cost transformers.

Digital pulse-shape filtering is also applied in order to conform to the pulse masks defined by standard and

to reduce EMI and high frequency signal harmonics.

5.2 100Base-TX Receive Path

In 100B-TX, the ADC sampled data is passed to an adaptive equalizer. The adaptive equalizer drives the

received symbols to the MLT3 decoder. The decoded NRZ symbols are transferred to the descrambler

block for descrambling and deserialization.

5.2.1 Analog Front End

The Receiver Analog Front End (AFE) resides in front of the 100B-TX receiver. The AFE consists of an

Analog to Digital Converter (ADC), receive filters and a Programmable Gain Amplifier (PGA).

The ADC samples the input signal at the 125MHz clock recovered by the timing loop and feeds the data

into the adaptive equalizer. The ADC is designed to optimize the SNR performance at the receiver input

while maintaining high power-supply rejection ratio and low power consumption. There is only one ADC in

the TLK10x, which receives the analog input data from the relevant cable pair, according to MDI-MDIX

resolution.

The PGA, digitally controlled by the adaptive equalizer, fully uses the dynamic range of the ADC by

adjusting the incoming-signal amplitude. Generally, the PGA attenuates short-cable strong signals and

amplifies long-cable weak signals.

5.2.2 Adaptive Equalizer

The adaptive equalizer removes Inter-Symbol Interference (ISI) from the received signal introduced by the

channel and analog Tx/Rx filters. The TLK10x includes both Feed Forward Equalization (FFE) and

Decision Feedback Equalization (DFE). The combination of both adaptive modules with the adaptive gain

control results in a powerful equalizer that can eliminate ISI and compensate for cable attenuation for

longer-reach cables. In addition, the Equalizer includes a Shift Gear Step mechanism to provide fast

convergence on the one hand and small residual-adaptive noise in steady state on the other hand.

5.2.3 Baseline Wander Correction

The DC offset of the transmitted signal is shifted down or up based on the polarity of the transmitted data

because the MLT-3 data is coupled onto the CAT 5 cable through a transformer that is high-pass in

nature. This phenomenon is called Baseline wander. To prevent corruption of the received data because

of this phenomenon, the receiver corrects the baseline wander and can receive the ANSI TP-PMD-defined

"killer packet" with no bit errors.

5.2.4 NRZI and MLT-3 Decoding

The TLK10x decodes the MLT-3 information from the Digital Adaptive Equalizer block to binary NRZI data.

The NRZI-to-NRZ decoder is used to present NRZ-formatted data to the descrambler.

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