KSZ8851-16MLLU Micrel, KSZ8851-16MLLU Datasheet - Page 17

KSZ8851-16MLLU

Manufacturer Part Number

KSZ8851-16MLLU

Description

Ethernet ICs Single-Port Ethernet Controller (Automotive Grade)

Manufacturer

Micrel

Datasheet

1.KSZ8851-16MLLU.pdf (83 pages)

Specifications of KSZ8851-16MLLU

Rohs

yes

Product

Ethernet Controllers

Package / Case

LQFP-48

Mounting Style

SMD/SMT

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KSZ8851-16MLL/MLLI

3. Wake-up frame 2 is defined in wakeup frame registers (0x50 – 0x5B) and is enabled by bit 2 in wakeup frame control

4. Wake-up frame 3 is defined in wakeup frame registers (0x60 – 0x6B) and is enabled by bit 3 in wakeup frame control

Magic Packet™

Magic Packet technology is used to remotely wake up a sleeping or powered off PC on a LAN. This is accomplished by

sending a specific packet of information, called a Magic Packet frame, to a node on the network. When a PC capable of

receiving the specific frame goes to sleep, it enables the Magic Packet RX mode in the LAN controller, and when the LAN

controller receives a Magic Packet frame, it will alert the system to wake up.

Magic Packet is a standard feature integrated into the KSZ8851-16MLL. The controller implements multiple advanced

power-down modes including Magic Packet to conserve power and operate more efficiently.

Once the KSZ8851-16MLL has been put into Magic Packet Enable mode (WFCR[7]=1), it scans all incoming frames

addressed to the node for a specific data sequence, which indicates to the controller this is a Magic Packet (MP) frame.

A Magic Packet frame must also meet the basic requirements for the LAN technology chosen, such as Source Address

(SA), Destination Address (DA), which may be the receiving station’s IEEE address or a multicast or broadcast address

and CRC.

The specific sequence consists of 16 duplications of the IEEE address of this node, with no breaks or interruptions. This

sequence can be located anywhere within the packet, but must be preceded by a synchronization stream. The

synchronization stream allows the scanning state machine to be much simpler. The synchronization stream is defined as

6 bytes of FFh. The device will also accept a broadcast frame, as long as the 16 duplications of the IEEE address match

the address of the machine to be awakened.

Example:

If the IEEE address for a particular node on a network is 11h 22h, 33h, 44h, 55h, 66h, the LAN controller would be

scanning for the data sequence (assuming an Ethernet frame):

DESTINATION SOURCE – MISC - FF FF FF FF FF FF - 11 22 33 44 55 66 - 11 22 33 44 55 66 - 11 22 33 44 55 66 -

11 22 33 44 55 66 - 11 22 33 44 55 66 - 11 22 33 44 55 66 - 11 22 33 44 55 66 - 11 22 33 44 55 66 - 11 22 33 44 55 66 -

11 22 33 44 55 66 - MISC - CRC.

There are no further restrictions on a Magic Packet frame. For instance, the sequence could be in a TCP/IP packet or an

IPX packet. The frame may be bridged or routed across the network without affecting its ability to wake-up a node at the

frame’s destination.

If the LAN controller scans a frame and does not find the specific sequence shown above, it discards the frame and takes

no further action. If the KSZ8851-16MLL controller detects the data sequence, however, it then alerts the PC’s power

management circuitry (assert the PME pin) to wake up the system.

Physical Layer Transceiver (PHY)

100BASE-TX Transmit

The 100BASE-TX transmit function performs parallel-to-serial conversion, 4B/5B coding, scrambling, NRZ-to-NRZI

conversion, and MLT3 encoding and transmission.

The circuitry 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. An external 3.01K (1%)

resistor for the 1:1 transformer ratio sets the output current.

The output signal 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 driver is also incorporated into the 100BASE-TX

driver.

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.

May 2012

M9999-050112-2.1

KSZ8851-16MLLU Micrel, KSZ8851-16MLLU Datasheet - Page 17

KSZ8851-16MLLU

Specifications of KSZ8851-16MLLU

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