KSZ8721BL Micrel Inc, KSZ8721BL Datasheet - Page 11
KSZ8721BL
Manufacturer Part Number
KSZ8721BL
Description
IC TXRX PHY 10/100 3.3V 48-LQFP
Manufacturer
Micrel Inc
Type
Transceiverr
Specifications of KSZ8721BL
Number Of Drivers/receivers
1/1
Protocol
MII, RMII
Voltage - Supply
3 V ~ 3.6 V
Mounting Type
Surface Mount
Package / Case
48-LQFP
Data Rate
100Mbps
No. Of Ports
1
Ethernet Type
IEEE 802.3u
Supply Current
151mA
Supply Voltage Range
3.3V
Operating Temperature Range
0°C To +70°C
Digital Ic Case Style
LQFP
No. Of Pins
48
Interface Type
MII, RMII
Rohs Compliant
Yes
Lead Free Status / RoHS Status
Lead free / RoHS Compliant
For Use With
576-1627 - BOARD EVALUATION FOR KSZ8721BMC576-1626 - BOARD EVALUATION FOR KSZ8721BL
Lead Free Status / RoHS Status
Compliant, Lead free / RoHS Compliant
Other names
576-1028-5
576-1511-5
576-1511-5
KSZ8721BL
576-1511-5
576-1511-5
KSZ8721BL
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KS8721BL/SL
Micrel
Introduction
100BASE-TX Transmit
The 100BASE-TX transmit function performs parallel to serial conversion, NRZ-to-NRZI conversion, and MLT-3 encoding and
transmission. The circuitry starts with a parallel to serial conversion that converts the 25MHz, 4-bit nibbles into a 125MHz serial
bit stream. The incoming data is clocked in at the positive edge of the TXC signal. The serialized data is further converted from
NRZ to NRZI format, and then transmitted in MLT3 current output. The output current is set by an external 1% 6.49k resistor
for the 1:1 transformer ratio. Its typical rise/fall time of 4ns complies with the ANSI TP-PMD standard regarding amplitude
balance, overshoot, and timing jitter. The wave-shaped 10BASE-T output driver is also incorporated into the 100BASE-TX
driver.
100BASE-TX Receive
The 100BASE-TX receive function performs adaptive equalization, DC restoration, MLT-3 to NRZI conversion, data and clock
recovery, NRZI-to-NRZ conversion, and serial-to-parallel conversion. The receiving side starts with the equalization filter to
compensate inter-symbol interference (ISI) over the twisted pair cable. Since the amplitude loss and phase distortion are a
function of the length of the cable, the equalizer has to adjust its characteristic to optimize performance. In this design, the
variable equalizer will make an initial estimation based on comparisons of incoming signal strength against some known cable
characteristics, then tunes itself for optimization. This is an ongoing process and can self-adjust for environmental changes
such as temperature variations.
The equalized signal then goes through a DC restoration and data conversion block. The DC restoration circuit is used to
compensate for the effects of base line wander and improve dynamic range. The differential data conversion circuit converts
the MLT3 format back to NRZI. The slicing threshold is also adaptive.
The clock recovery circuit extracts the 125MHz clock from the edges of the NRZI signal. This recovered clock is then used
to convert the NRZI signal into the NRZ format. Finally, the NRZ serial data is converted to 4-bit parallel 4B nibbles. A
synchronized 25MHz RXC is generated so that the 4B nibbles are clocked out at the negative edge of RCK25 and is valid for
the receiver at the positive edge. When no valid data is present, the clock recovery circuit is locked to the 25MHz reference
clock and both TXC and RXC clocks continue to run.
PLL Clock Synthesizer
The KS8721BL/SL generates 125MHz, 25MHz, and 20MHz clocks for system timing. An internal crystal oscillator circuit
provides the reference clock for the synthesizer.
Scrambler/De-scrambler (100BASE-TX only)
The purpose of the scrambler is to spread the power spectrum of the signal in order to reduce electromagnetic interference
(EMI) and baseline wander.
10BASE-T Transmit
When TXEN (transmit enable) goes high, data encoding and transmission begins. The KS8721BL/SL continues to encode and
transmit data as long as TXEN remains high. The data transmission ends when TXEN goes low. The last transition occurs at
the boundary of the bit cell if the last bit is zero, or at the center of the bit cell if the last bit is one. The output driver is incorporated
into the 100BASE-T driver to allow transmission with the same magnetics. They are internally wave-shaped and pre-
emphasized into outputs with a typical 2.5V amplitude. The harmonic contents are at least 27dB below the fundamental when
driven by an all-ones, Manchester-encoded signal.
10BASE-T Receive
On the receive side, input buffer and level detecting squelch circuits are employed. A differential input receiver circuit and a
PLL performs the decoding function. The Manchester-encoded data stream is separated into clock signal and NRZ data. A
squelch circuit rejects signals with levels less than 300mV or with short pulse widths in order to prevent noise at the RX+ or
RX- input from falsely triggering the decoder. When the input exceeds the squelch limit, the PLL locks onto the incoming signal
and the KS8721BL/SL decodes a data frame. This activates the carrier sense (CRS) and RXDV signals and makes the receive
data (RXD) available. The receive clock is maintained active during idle periods in between data reception.
SQE and Jabber Function (10BASE-T only)
In 10BASE-T operation, a short pulse is put out on the COL pin after each packet is transmitted. This is required as a test of
the 10BASE-T transmit/receive path and is called an SQE test. The 10BASE-T transmitter is disabled and COL goes high if
TXEN is high for more than 20ms (Jabbering). If TXEN then goes low for more than 250ms, the 10BASE-T transmitter is re-
enabled and COL goes low.
Auto-Negotiation
The KS8721BL/SL performs auto-negotiation by hardware strapping option (pin 29) or software (Register 0.12). It
automatically chooses its mode of operation by advertising its abilities and comparing them with those received from its link
May 2004
11
M9999-051704
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