FW82801DBM S L6DN Intel, FW82801DBM S L6DN Datasheet - Page 225

FW82801DBM S L6DN

Manufacturer Part Number

FW82801DBM S L6DN

Description

Manufacturer

Intel

Datasheet

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Specifications of FW82801DBM S L6DN

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5.18

5.18.1

Intel

82801DBM ICH4-M Datasheet

SMBus Controller Functional Description (D31:F3)

The ICH4 provides an SMBus 2.0 compliant Host Controller as well as an SMBus Slave Interface.

The Host Controller provides a mechanism for the processor to initiate communications with

SMBus peripherals (slaves). The ICH4 is also capable of operating in a mode in which it can

communicate with I

The ICH4 can perform SMBus messages with either packet error checking (PEC) enabled or

disabled. The actual PEC calculation and checking is performed in hardware by the ICH4.

The Slave Interface allows an external master to read from or write to the ICH4. Write cycles can

be used to cause certain events or pass messages, and the read cycles can be used to determine the

state of various status bits. The ICH4’s internal Host Controller cannot access the ICH4’s internal

Slave Interface.

The ICH4 SMBus logic exists in Device 31:Function 3 configuration space, and consists of a

transmit data path and host controller. The transmit data path provides the data flow logic needed to

implement the seven different SMBus command protocols and is controlled by the host controller.

The ICH4 SMBus controller logic is clocked by RTC clock.

The SMBus Address Resolution Protocol (ARP) is supported by using the existing host controller

commands through software, except for the new Host Notify command (which is actually a

received message).

The programming model of the host controller is combined into two portions: a PCI configuration

portion and a system I/O mapped portion. All static configuration (e.g., the I/O base address) is

done via the PCI configuration space. Real-time programming of the Host interface is done in

system I/O space.

Host Controller

The SMBus Host Controller is used to send commands to other SMBus slave devices. Software

sets up the host controller with an address, command, and, for writes, data and optional PEC; and

then tells the controller to start. When the controller has finished transmitting data on writes, or

receiving data on reads, it will generate an SMI# or interrupt, if enabled.

The host controller supports 8 command protocols of the SMBus interface (see System

Management Bus Specification): Quick Command, Send Byte, Receive Byte, Write Byte/Word,

Read Byte/Word, Process Call, Block Read/Write, and Host Notify.

The SMBus Host Controller requires that the various data and command fields be setup for the type

of command to be sent. When software sets the START bit, the SMBus Host Controller performs

the requested transaction and interrupts the processor (or generate an SMI#) when the transaction is

completed. Once a START command has been issued, the values of the “active registers” (Host

Control, Host Command, Transmit Slave Address, Data 0, Data 1) should not be changed or read

until the interrupt status bit (INTR) has been set (indicating the completion of the command). Any

command, as the SMBus Host Controller will update all registers while completing the new

command.

C compatible devices.

Functional Description

225

FW82801DBM S L6DN Intel, FW82801DBM S L6DN Datasheet - Page 225

FW82801DBM S L6DN

Specifications of FW82801DBM S L6DN

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