KSZ8995MA Micrel Inc, KSZ8995MA Datasheet - Page 22
KSZ8995MA
Manufacturer Part Number
KSZ8995MA
Description
IC SWITCH 10/100 5PORT 128PQFP
Manufacturer
Micrel Inc
Specifications of KSZ8995MA
Data Rate
100Mbps
Applications
*
Mounting Type
Surface Mount
Package / Case
128-MQFP, 128-PQFP
No. Of Ports
5
Ethernet Type
IEEE 802.3u
Supply Voltage Range
1.7V To 1.9V, 3.15V To 3.45V
Operating Temperature Range
0°C To +70°C
Digital Ic Case Style
QFP
No. Of Pins
128
Number Of Primary Switch Ports
5
Internal Memory Buffer Size
64
Operating Supply Voltage (typ)
1.8/2.5/3.3V
Fiber Support
Yes
Integrated Led Drivers
Yes
Phy/transceiver Interface
MII/SNI
Power Supply Type
Analog/Digital
Package Type
PQFP
Data Rate (typ)
10/100Mbps
Vlan Support
Yes
Operating Temperature (max)
70C
Operating Temperature (min)
0C
Pin Count
128
Mounting
Surface Mount
Jtag Support
No
Operating Temperature Classification
Commercial
Interface Type
MII, SNI
Rohs Compliant
Yes
Lead Free Status / RoHS Status
Lead free / RoHS Compliant
For Use With
576-1607 - BOARD EVAL EXPERIMENT KSZ8995MA
Lead Free Status / RoHS Status
Compliant, Lead free / RoHS Compliant
Other names
576-1039
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Company
Part Number
Manufacturer
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Price
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KSZ8995MA
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MICREL
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MICREL
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Manufacturer:
Micrel Inc
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KS8995MA
Micrel, Inc.
Introduction
The KS8995MA contains five 10/100 physical layer transceivers and five media access control (MAC) units with an integrated
Layer 2 managed switch. The device runs in three modes. The first mode is as a five-port integrated switch. The second is
as a five-port switch with the fifth port decoupled from the physical port. In this mode, access to the fifth MAC is provided through
a media independent interface (MII) . This is useful for implementing an integrated broadband router. The third mode uses the
dual MII feature to recover the use of the fifth PHY. This allows the additional broadband gateway configuration, where the fifth
PHY may be accessed through the MII-P5 port.
The KS8995MA has the flexibility to reside in a managed or unmanaged design. In a managed design, a host processor has
complete control of the KS8995MA via the SPI bus, or partial control via the MDC/MDIO interface. An unmanaged design is
achieved through I/O strapping or EEPROM programming at system reset time.
On the media side, the KS8995MA supports IEEE 802.3 10BASE-T, 100BASE-TX on all ports, and 100BASE-FX on ports 4
and 5. The KS8995MA can be used as two separate media converters.
Physical signal transmission and reception are enhanced through the use of patented analog circuitry that makes the design
more efficient and allows for lower power consumption and smaller chip die size.
The major enhancements from the KS8995E to the KS8995MA are support for host processor management, a dual MII
interface, tag as well as port based VLAN, spanning tree protocol support, IGMP snooping support, port mirroring support and
rate limiting functionality.
Functional Overview: Physical Layer Transceiver
100BASE-TX Transmit
The 100BASE-TX transmit function performs parallel-to-serial conversion, 4B/5B coding, scrambling, NRZ-to-NRZI conver-
sion, MLT3 encoding and transmission. The circuit starts with a parallel-to-serial conversion, which converts the MII data from
the MAC into a 125MHz serial bit stream. The data and control stream is then converted into 4B/5B coding followed by a
scrambler. 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% 3.01kΩ resistor for the 1:1 transformer ratio. It has a typical rise/fall time of 4ns
and complies with the ANSI TP-PMD standard regarding amplitude balance, overshoot, and timing jitter. The wave-shaped
10BASE-T output is also incorporated into the 100BASE-TX transmitter.
100BASE-TX Receive
The 100BASE-TX receiver function performs adaptive equalization, DC restoration, MLT3-to-NRZI conversion, data and clock
recovery, NRZI-to-NRZ conversion, de-scrambling, 4B/5B decoding, and serial-to-parallel conversion. The receiving side
starts with the equalization filter to compensate for inter-symbol interference (ISI) over the twisted pair cable. Since the
amplitude loss and phase distortion is a function of the length of the cable, the equalizer has to adjust its characteristics to
optimize the 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 against 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 effect of baseline wander and improve the 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. The signal is then sent through the de-scrambler followed by the 4B/5B decoder.
Finally, the NRZ serial data is converted to the MII format and provided as the input data to the MAC.
PLL Clock Synthesizer
The KS8995MA generates 125MHz, 42MHz, 25MHz, and 10MHz clocks for system timing. Internal clocks are generated from
an external 25MHz crystal or oscillator.
Scrambler/De-scrambler (100BASE-TX only)
The purpose of the scrambler is to spread the power spectrum of the signal in order to reduce EMI and baseline wander. The
data is scrambled through the use of an 11-bit wide linear feedback shift register (LFSR). This can generate a 2047-bit non-
repetitive sequence. The receiver will then de-scramble the incoming data stream with the same sequence at the transmitter.
100BASE-FX Operation
100BASE-FX operation is very similar to 100BASE-TX operation except that the scrambler/de-scrambler and MLT3 encoder/
decoder are bypassed on transmission and reception. In this mode the auto-negotiation feature is bypassed since there is no
standard that supports fiber auto-negotiation.
100BASE-FX Signal Detection
The physical port runs in 100BASE-FX mode if FXSDx >0.6V for ports 4 and 5 only. This signal is internally referenced to 1.25V.
The fiber module interface should be set by a voltage divider such that FXSDx ‘H’ is above this 1.25V reference, indicating signal
22
May 2005
M9999-051305
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