LPC47M112_07 SMSC [SMSC Corporation], LPC47M112_07 Datasheet - Page 18

LPC47M112_07

Manufacturer Part Number

LPC47M112_07

Description

Enhanced Super I/O Controller with LPC Interface

Manufacturer

SMSC [SMSC Corporation]

Datasheet

1.LPC47M112_07.pdf (204 pages)

Current page: 18 of 204
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Enhanced Super I/O Controller with LPC Interface

Datasheet

7.6 Trickle Power Functionality

When the LPC47M112 is running under VTR only (VCC removed), PME wakeup events are active and (if enabled)

able to assert the nIO_PME pin active low. The following lists the wakeup events:

Note: The Fan Tachometers can generate a PME when VCC=0. Clear the enable bits for the fan tachometers

before removing fan power.

The following requirements apply to all I/O pins that are specified to be 5 volt tolerant.

The GPIOs that are used for PME wakeup as input are GP10-GP17, GP20-GP22, GP24-GP27, GP30-GP33, GP41,

GP43, GP50-GP57, GP60, GP61. These GPIOs function as follows (with the exception of GP53, GP60 and GP61 -

see below):

All GPIOs listed above are for PME wakeup as a GPIO (or alternate function). Note that GP32 and GP33 cannot be

used for wakeup under VTR power (VCC=0) since these are the fan control pins which come up as outputs and low

following a VCC POR and Hard Reset. GP53 cannot be used for wakeup under VTR power since this is the IRTX pin

which comes up as output and low following a VTR POR, a VCC POR and Hard Reset. Also, GP32 and GP33 revert

to their non-inverting GPIO output function when VCC is removed from the part. GP43 reverts to the basic GPIO

function when VCC is removed from the part, but its programmed input/output, invert/non-invert and output buffer

type is retained.

The other GPIOs function as follows:

GP36, GP37 and GP40:

These pins are not used for wakeup.

GP35, GP42, GP53, GP60 and GP61:

GP35 and GP53 have IRTX as the alternate function and their output buffers are powered by VTR so that the pins

are always forced low when not used.

GP42 is the nIO_PME pin which is active under VTR.

GP60 and GP61 have LED as the alternate function and the logic is able to control the pin under VTR.

The IRTX pins (IRTX2/GP35 and GP53/TXD2 (IRTX)) are powered by VTR so that they are driven low when VCC =

0V with VTR = 3.3V.

setting the activate bit, at which time the pin will reflect the state of the transmit output of the Serial Port 2 block.

The following list summarizes the blocks, registers and pins that are powered by VTR.

SMSC DS – LPC47M112

UART 1 Ring Indicator

UART 2 Ring Indicator

Keyboard data

Mouse data

Wake on Specific Key Logic

Fan Tachometers (Note)

GPIOs for wakeup. See below.

I/O buffers that are wake-up event compatible are powered by VCC. Under VTR power (VCC=0), these pins may

only be configured as inputs. These pins have input buffers into the wakeup logic that are powered by VTR.

I/O buffers that may be configured as either push-pull or open drain under VTR power (VCC=0), are powered by

VTR. This means, at a minimum, they will source their specified current from VTR even when VCC is present.

Buffers are powered by VCC, but in the absence of VCC they are backdrive protected (they do not impose a load

on any external VTR powered circuitry). They are wakeup compatible as inputs under VTR power. These pins

have input buffers into the wakeup logic that are powered by VTR.

Buffers are powered by VCC, but in the absence of VCC they are backdrive protected. These pins do not have

input buffers into the wakeup logic that are powered by VTR.

Buffers powered by VTR.

These pins will remain low following a VCC POR until serial port 2 is enabled by

DATASHEET

Page 18

Rev. 02-16-07

LPC47M112_07 SMSC [SMSC Corporation], LPC47M112_07 Datasheet - Page 18

LPC47M112_07

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