ml6694 Microsemi Corporation, ml6694 Datasheet - Page 9
ml6694
Manufacturer Part Number
ml6694
Description
100base-tx Physical Layer With 5-bit Interface
Manufacturer
Microsemi Corporation
Datasheet
1.ML6694.pdf
(12 pages)
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FUNCTIONAL DESCRIPTION
TRANSMIT SECTION
100BASE-TX Operation
The transmitter accepts scrambled 5-bit symbols clocked
in at 25MHz and outputs MLT-3 signals onto the twisted-
pair media at 100Mbps. The on-chip transmit PLL converts
a 25MHz TTL-level clock at TXC to an internal 125MHz
bit clock. TXC from the ML6694 clocks scrambled
transmit symbols from the MAC into the ML6694's
TSM<4:0> input pins. Symbols from the TSM<4:0> inputs
are converted from parallel to serial form at the 125MHz
clock rate. The serial transmit data is converted to MLT-3
3-level code and driven differentialy out of the TPOUTP
and TPOUTN pins at nominal
loads. The transmitter is designed to drive a center-tapped
transformer with a 2:1 winding ratio, so a differential 400
ohm load is used on the transformer primary to properly
terminate the 100 ohm cable and termination on the
secondary. The transformer’s center tap must be tied to
V
current in 100BASE-TX mode. Using a 1:1 transformer
would have required twice the output current and
increased the on-chip power dissipation. An external
2.49k , 1% resistor at the RTSET pin creates the correct
output levels at TPOUP/N.
10BASE-T
In 10BASE-T mode, the transmitter acts as a linear buffer
with a gain of 10. 10BASE-T inputs (Manchester data and
normal link pulses) at 10BTTXINP/N appear as full-swing
signals at TPOUTP/N in this mode. Inputs to the
10BTTXINP/N pins should have a nominal 0.25V
differential amplitude and a common-mode voltage of
V
the 10BASE-T harmonic content requirements. The ML6694
does not provide any 10BASE-T transmit filtering.
RECEIVE SECTION
The receiver converts 3-level MLT-3 signals from the
twisted-pair media to 5-bit scrambled symbols at
RSM<4:0> with extracted clock at RXC. The adaptive
equalizer compensates for the distortion of up to 140m of
cable and attenuates cable-induced jitter, corrects for DC
baseline wander, and converts the MLT-3 signal to 2-level
NRZ. The receive PLL extracts clock from the equalized
signal, providing additional jitter attenuation, and clocks
CC
CC
. A 2:1 transformer allows using a 20mA output
/2, and should also be waveshaped or filtered to meet
2V levels with the proper
the signal through the serial to parallel converter. The
resulting 5-bit symbols appear at RSM<4:0>. The
extracted clock appears at RXC. Resistor RGMSET sets
internal time constants controlling the adaptive equalizer’s
transfer function. RGMSET must be set to 9.53k (1%).
LOOPBACK
Tying LPBK pin low places the part in loopback mode.
Data at TXD<4:0> are serialized, MLT-3 encoded,
equalized, then sent to receive PLL for clock recovery and
sent to the RXD<4:0> outputs.
In this mode, data at TXD<4:0> has to be valid 5-bit
symbol data.
ML6694 SCHEMATIC
Figure 2 shows a general design where the 5-bit and other
control signals interface to the controller. TXC is
connected to a 25MHz, 100ppm clock oscillator.
The inductors L1 and L2 are for the purpose of improving
return loss.
Capacitor C7 is recommended. It decouples some noise at
the inputs of the ML6694 and improves the Bit Error Rate
(BER) performance of the board. It is recommended
having a 0.1 F capacitor on every V
C3, 4, 9-12. Also, it is recommended to split the A
D
and DGND planes are large enough for low inductance. If
splitting the two grounds and keeping the ground planes
large enough is not possible due to board space, you
could join them into one larger ground plane.
DIFFERENCES BETWEEN THE ML6694 AND ML6698
Both parts are pin to pin compatible and perform the same
functions. The only differences are:
VCC
1. SDO: The ML6694 has SDO (Signal Detect Output)
2. SEL10/100 or SEL100/10: The ML6694 has the
, AGND and DGND. It is recommended that AGND
active in 100BASE-TX mode only, while the ML6698
has it active in both 10BASE-T and 100BASE-TX
modes.
100BASE-TX mode active low and the 10BASE-T
mode active high (SEL10/100). The ML6698 has the
opposite polarity where the 100BASE-TX mode is
active high and the 10BASE-T mode is active low
(SEL100/10).
CC
pin as indicated by
ML6694
VCC
and
9
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