NH82801FBM S L89K Intel, NH82801FBM S L89K Datasheet - Page 412

NH82801FBM S L89K

Manufacturer Part Number

NH82801FBM S L89K

Description

Manufacturer

Intel

Datasheet

1.NH82801FBM_S_L89K.pdf (786 pages)

Specifications of NH82801FBM S L89K

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LPC Interface Bridge Registers (D31:F0)

412

(Desktop

(Mobile

Only)

Bit

PME_B0_STS — R/W. This bit will be set to 1 by the ICH6 when any internal device with PCI

Power Management capabilities on bus 0 asserts the equivalent of the PME# signal. Additionally,

if the PME_B0_EN bit is set, and the system is in an S0 state, then the setting of the

PME_B0_STS bit will generate an SCI (or SMI# if SCI_EN is not set). If the PME_B0_STS bit is

set, and the system is in an S1–S4 state (or S5 state due to SLP_TYP and SLP_EN), then the

setting of the PME_B0_STS bit will generate a wake event, and an SCI (or SMI# if SCI_EN is not

set) will be generated. If the system is in an S5 state due to power button override, then the

PME_B0_STS bit will not cause a wake event or SCI.

The default for this bit is 0. Writing a 1 to this bit position clears this bit.

USB3_STS — R/W.

0 = Disable.

1 = Set by hardware and can be reset by writing a one to this bit position or a resume well reset.

PME_STS — R/WC.

0 = Software clears this bit by writing a 1 to it.

1 = Set by hardware when the PME# signal goes active. Additionally, if the PME_EN bit is set,

Reserved

BATLOW_STS — R/WC. (Mobile Only) Software clears this bit by writing a 1 to it.

0 = BATLOW# Not asserted

1 = Set by hardware when the BATLOW# signal is asserted.

PCI_EXP_STS — R/WC.

0 = Software clears this bit by writing a 1 to it.

1 = Set by hardware to indicate that:

NOTES:

RI_STS — R/WC.

0 = Software clears this bit by writing a 1 to it.

1 = Set by hardware when the RI# input signal goes active.

1. The PCI WAKE# pin has no impact on this bit.

2. If the PCI_EXP_STS bit went active due to an Assert PMEGPE message, then a de-assert

3. If the bit is not cleared and the corresponding PCI_EXP_EN bit is set, the level-triggered SCI

4. A race condition exists where the PCI Express device sends another PME message because

• The PME event message was received on one or more of the PCI Express* ports

• An Assert PMEGPE message received from the (G)MCH via DMI

PMEGPE message must be received prior to the software write in order for the bit to be

cleared.

will remain active.

the PCI Express device was not serviced within the time when it must resend the message.

This may result in a spurious interrupt, and this is comprehended and approved by the PCI

Express* Specification, Revision 1.0a . The window for this race condition is approximately 95-

105 milliseconds.

This bit is set when USB UHCI controller #3 needs to cause a wake. Additionally if the

USB3_EN bit is set, the setting of the USB3_STS bit will generate a wake event.

and the system is in an S0 state, then the setting of the PME_STS bit will generate an SCI or

SMI# (if SCI_EN is not set). If the PME_EN bit is set, and the system is in an S1–S4 state (or

S5 state due to setting SLP_TYP and SLP_EN), then the setting of the PME_STS bit will

generate a wake event, and an SCI will be generated. If the system is in an S5 state due to

power button override or a power failure, then PME_STS will not cause a wake event or SCI.

Intel

Description

I/O Controller Hub 6 (ICH6) Family Datasheet

NH82801FBM S L89K Intel, NH82801FBM S L89K Datasheet - Page 412

NH82801FBM S L89K

Specifications of NH82801FBM S L89K

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