LAN8710 Datasheet, PDF(48/79 Page) SMSC Corporation – MII/RMII 10/100 Ethernet Transceiver with HP Auto-MDIX and flexPWR Technology in a Small Footprint

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LAN8710 Datasheet, PDF (48/79 Pages) SMSC Corporation – MII/RMII 10/100 Ethernet Transceiver with HP Auto-MDIX and flexPWR Technology in a Small Footprint

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MII/RMII 10/100 Ethernet Transceiver with HP Auto-MDIX and flexPWRÂ® Technology in a Small Footprint

Datasheet

Note: The ENERGYON bit 17.1 is defaulted to a â1â at the start of the signal acquisition process,

therefore the Interrupt source flag 29.7 will also read as a â1â at power-up. If no signal is

present, then both 17.1 and 29.7 will clear within a few milliseconds.

5.2.2 Alternate Interrupt System

The Alternative method is enabled by writing a â1â to 17.6 (ALTINT).

To set an interrupt, set the corresponding bit of the in the Mask Register 30, (see Table 5.38).

To Clear an interrupt, either clear the corresponding bit in the Mask Register (30), this will de-assert

the nINT output, or Clear the Interrupt Source, and write a â1â to the corresponding Interrupt Source

Flag. Writing a â1â to the Interrupt Source Flag will cause the state machine to check the Interrupt

Source to determine if the Interrupt Source Flag should clear or stay as a â1â. If the Condition to De-

Assert is true, then the Interrupt Source Flag is cleared, and the nINT is also de-asserted. If the

Condition to De-Assert is false, then the Interrupt Source Flag remains set, and the nINT remains

asserted.

For example 30.7 is set to â1â to enable the ENERGYON interrupt. After a cable is plugged in,

ENERGYON (17.1) goes active and nINT will be asserted low.

To de-assert the nINT interrupt output, either.

1. Clear the ENERGYON bit (17.1), by removing the cable, then writing a â1â to register 29.7.

2. Clear the Mask bit 30.1 by writing a â0â to 30.1.

Table 5.38 Alternative Interrupt System Management Table

MASK

INTERRUPT SOURCE

FLAG

INTERRUPT SOURCE

EVENT TO

ASSERT nINT

CONDITION

DE-ASSERT

BIT TO

CLEAR

nINT

30.7

29.7 ENERGYON

17.1 ENERGYON

Rising 17.1

17.1 low

29.7

30.6

29.6 Auto-Negotiation 1.5 Auto-Negotiate

Rising 1.5

1.5 low

29.6

complete

Complete

30.5

29.5 Remote Fault

1.4 Remote Fault

Rising 1.4

1.4 low

29.5

Detected

30.4

29.4 Link Down

1.2 Link Status

Falling 1.2

1.2 high

29.4

30.3

29.3 Auto-Negotiation 5.14 Acknowledge

Rising 5.14

5.14 low

29.3

LP Acknowledge

30.2

29.2 Parallel

6.4 Parallel Detection Rising 6.4

6.4 low

29.2

Detection Fault

Fault

30.1

29.1 Auto-Negotiation 6.1 Page Received Rising 6.1

6.1 low

29.1

Page Received

Note: The ENERGYON bit 17.1 is defaulted to a â1â at the start of the signal acquisition process,

therefore the Interrupt source flag 29.7 will also read as a â1â at power-up. If no signal is

present, then both 17.1 and 29.7 will clear within a few milliseconds.

5.3

Miscellaneous Functions

5.3.1

Carrier Sense

The carrier sense is output on CRS. CRS is a signal defined by the MII specification in the IEEE 802.3u

standard. The LAN8710 asserts CRS based only on receive activity whenever the transceiver is either

Revision 1.0 (04-15-09)

DATASHEET

SMSC LAN8710/LAN8710i

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