600 Series Chipset Family Platform Controller Hub
Datasheet, Volume 1 of 2
ID | Date | Version | Classification |
---|---|---|---|
648364 | 05/10/2022 | Public |
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Revision History
Introduction
PCH Controller Device IDs
Memory Mapping
System Management
High Precision Event Timer (HPET)
PCH Thermal Sensor
Power Delivery
Pin Straps
Electrical and Thermal Characteristics
Ballout Definition
8254 Timers
Audio Voice and Speech
Controller Link
Processor Sideband Signals
Digital Display Signals
Enhanced Serial Peripheral Interface (eSPI)
General Purpose Input and Output
Intel® Serial I/O Inter-Integrated Circuit (I2C) Controllers
Gigabit Ethernet Controller
Integrated Sensor Hub (ISH)
PCH and System Clocks
PCI Express* (PCIe*)
Power Management
Real Time Clock (RTC)
Serial ATA (SATA)
System Management Interface and SMLink
Host System Management Bus (SMBus) Controller
Serial Peripheral Interface (SPI)
Intel® Serial IO Generic SPI (GSPI) Controllers
Testability
Intel® Serial I/O Universal Asynchronous Receiver/Transmitter (UART) Controllers
Universal Serial Bus (USB)
Connectivity Integrated (CNVi)
GPIO Serial Expander
Direct Media Interface
Private Configuration Space Target Port ID
Miscellaneous Signals
Functional Description
Configurable GPIO Voltage
GPIO Buffer Impedance Compensation
Interrupt / IRQ via GPIO Requirement
Programmable Hardware Debouncer
Integrated Pull-ups and Pull-downs
SCI / SMI# and NMI
Timed GPIO
GPIO Blink (BK) and Serial Blink (SBK)
GPIO Ownership
Native Function and TERM Bit Setting
Functional Description
Interrupt Generation
PCI Express* Power Management
Dynamic Link Throttling
Port 8xh Decode
Separate Reference Clock with Independent SSC (SRIS)
Advanced Error Reporting
Single - Root I/O Virtualization (SR - IOV)
SERR# Generation
Hot - Plug
PCI Express* Lane Polarity Inversion
Precision Time Measurement (PTM)
Functional Description
The PCH provides an System Management Bus (SMBus) 2.0 host controller as well as an SMBus Slave Interface.
- Host Controller: Provides a mechanism for the processor to initiate communications with SMBus peripherals (slaves). The PCH is also capable of operating in a mode in which it can communicate with I2C compatible devices.
- Slave Interface: Allows an external master to read from or write to the PCH. 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 PCH’s internal host controller cannot access the PCH’s internal Slave Interface.