KSZ8851-32MQLI Micrel Inc, KSZ8851-32MQLI Datasheet - Page 23

KSZ8851-32MQLI

Manufacturer Part Number

KSZ8851-32MQLI

Description

IC CTLR MAC/PHY NON PCI 128PQFP

Manufacturer

Micrel Inc

Datasheet

1.KSZ8851-32MQLI.pdf (89 pages)

Specifications of KSZ8851-32MQLI

Controller Type

Ethernet Controller, MAC/PHY

Interface

Bus

Voltage - Supply

1.8V, 2.5V, 3.3V

Operating Temperature

-40°C ~ 85°C

Mounting Type

Surface Mount

Package / Case

128-MQFP, 128-PQFP

Lead Free Status / RoHS Status

Lead free / RoHS Compliant

Current - Supply

Other names

576-3630
KSZ8851-32MQLI

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KSZ8851-32MQLI

Manufacturer:

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KSZ8851-16/32 MQL/MQLI

generate interrupt to signal an energy detect event occurred if the corresponding enable bit[2] is set in IER (0x90) register.

Once the power management unit detects the PME output asserted or interrupt active, it will power up the host CPU and

issue a wakeup command which is a read cycle to read the Globe Reset Register (GRR at 0x26) to wake up the

KSZ8851M from the low power state to the normal power state in case the auto-wakeup enable bit[7] is disabled. When

KSZ8851M is at normal power state, it is able to transmit or receive packet from the cable.

Soft Power Down Mode

The soft power down mode is entered by setting bit[1:0]=10 in PMECR register. When KSZ8851M is in this mode, all PLL

clocks are disabled, the PHY and the MAC are off, all internal registers value will not change, and the host interface is

only used to wake-up this device from current soft power down mode to normal operation mode.

In order to go back the normal operation mode from this soft power down mode, the only way to leave this mode is

through a host wake-up command which the CPU issues to read the Globe Reset Register (GRR at 0x26).

Power Saving Mode

The power saving mode is entered when auto-negotiation mode is enabled, cable is disconnected, and by setting

bit[1:0]=11 in PMECR register and bit [10]=1 in P1SCLMD register. When KSZ8851M is in this mode, all PLL clocks are

enabled, MAC is on, all internal registers value will not change, and host interface is ready for CPU read or write. In this

mode, it mainly controls the PHY transceiver on or off based on line status to achieve power saving. The PHY remains

transmitting and only turns off the unused receiver block. Once activity resumes due to plugging a cable or attempting by

the far end to establish link, the KSZ8851M can automatically enabled the PHY power up to normal power state from

power saving mode.

During this power saving mode, the host CPU can program the bit[1:0] in PMECR register and set bit[10]=0 in P1SCLMD

Power Down

There is a full chip power-down mode if PWRDN (pin 36) is tied to low. When this pin is pulled-down, the entire chip

powers down. Transitioning this pin from pull-down to pull-up results in a power up and chip reset. The reset will set all

registers to default values. The host CPU will need to re-program all register values again after release of the PWRDN.

Wake-on-LAN

Wake-up frame events are used to wake the system whenever meaningful data is presented to the system over the

network. Examples of meaningful data include the reception of a Magic Packet, a management request from a remote

administrator, or simply network traffic directly targeted to the local system. In all of these instances, the network device is

pre-programmed by the policy owner or other software with information on how to identify wake frames from other network

traffic. The KSZ8851M controller can be programmed to notify the host of the wake-up frame detection with the assertion

of the interrupt signal (INTRN) or assertion of the power management event signal (PME).

A wake-up event is a request for hardware and/or software external to the network device to put the system into a

powered state (working).

A wake-up signal is caused by:

1. Detection of energy signal over a pre-configured value (bit 2 in ISR register)

2. Detection of a linkup in the network link state (bit 3 in ISR register)

3. Receipt of a Magic Packet (bit 4 in ISR register)

4. Receipt of a network wake-up frame (bit 5 in ISR register)

There are also other types of wake-up events that are not listed here as manufacturers may choose to implement these in

their own way.

Detection of Energy

The energy is detected from the cable and is continuously presented for a time longer than pre-configured value,

especially when this energy change may impact the level at which the system should re-enter to the normal power state.

August 2009

M9999-083109-2.0

KSZ8851-32MQLI Micrel Inc, KSZ8851-32MQLI Datasheet - Page 23

KSZ8851-32MQLI

Specifications of KSZ8851-32MQLI

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