LPC47B272 Datasheet, PDF(112/195 Page) SMSC Corporation – 100 Pin Enhanced Super I/O Controller with LPC Interface

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LPC47B272 Datasheet, PDF (112/195 Pages) SMSC Corporation – 100 Pin Enhanced Super I/O Controller with LPC Interface

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GP60, GP61

The following PME status and enable registers for these GPIOs:

PME_STS2 and PME_EN2 for GP10-GP17

PME_STS3 and PME_EN3 for GP20-GP22, GP24-GP27

PME_STS4 and PME_EN4 for GP30-GP33, GP41, GP43, GP60 and GP61

PME_STS5 and PME_EN5 for GP50-GP57

The following GPIOs can directly generate an SMI and have a status and enable bit in the SMI status

and enable registers.

GP20-GP22, GP24-GP26

GP30-GP33

GP41, GP42, GP43

GP54-GP57

GP60, GP61

The following SMI status and enable registers for these GPIOs:

SMI_STS3 and SMI_EN3 for GP20-GP22, GP24-GP26 and GP60

SMI_STS4 and SMI_EN4 for GP30-GP33, GP41, GP42, GP43 and GP61

SMI_STS5 and SMI_EN5 for GP54-GP57, FAN_TACH1 and FAN_TACH2.

The following GPIOs have âeither edge triggered interruptâ (EETI) input capability. These GPIOs can

generate a PME and an SMI on both a high-to-low and a low-to-high edge on the GPIO pin. These

GPIOs have a status bit in the MSC_STS status register that is set on both edges. The corresponding

bits in the PME and SMI status registers are also set on both edges.

GP21, GP22

GP41, GP43

GP60, GP61

The following table summarizes the PME and SMI functionality for each GPIO. It also shows the Either

Edge Triggered Interrupt (EETI) input capability for the GPIOs and the power source for the buffer on

the I/O pads.

GPIO

GP10-GP17

GP20-GP22, GP24-GP26

GP27

GP30, GP31

GP32, GP33

GP34

GP35

GP36, GP37

GP40

GP41

GP42

GP43

GP50-GP52

GP53

GP54-GP57

GP60, GP61

PME

Yes

nIO_PME

Yes

SMI

Yes

Yes/nIO_S

Yes

EETI

GP21, GP22

Yes

Buffer Power

VCC

VTR

VCC

VTR

VCC

VTR

VCC

VTR

Notes

1,5

5, 7

2, 6

4, 5

Note 1: GP34 has the IRRX2 function and is used for CIR PME wakeup.

Note 2: GP35 and GP53 have IR functionality and their output buffers are powered by VTR so that the

pins are always forced low when not used.

Note 3: GP36-GP37 and GP40 should not be connected to any VTR powered external circuitry. These

pins are not used for wakeup.

Note 4: GP60 and GP61 have LED functionality which must be active under VTR so its buffer is

Note 5: These pins can be used for wakeup events to generate a PME while the part is under VTR

power (VCC=0).

SMSC LPC47B27x

- 112 -

DATASHEET

Rev. 04-17-07

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