Intel® Processor and Intel® Core™ i3 N-Series
Datasheet, Volume 1 of 2
ID
759603
Date
01/04/2023
Version
001
Legal Disclaimer
Revision History
Introduction
Processor and PCH Device IDs
Package Mechanical Specifications
Memory Mapping
Pin Straps
Electrical and Thermal Characteristics
Technologies
Audio Voice and Speech
Image Processing Unit
Power Management
Power Delivery
Thermal Management
PCH Thermal Sensor
System Clocks
Real Time Clock (RTC)
Memory
USB-C* Sub System (TCSS)
Universal Serial Bus (USB)
PCI Express* (PCIe*)
Serial ATA (SATA)
Universal Flash Storage (UFS)
Graphics
Display
High Precision Event Timer (HPET)
8254 Timers
Processor Sideband Signals
General Purpose Input and Output
GPIO Serial Expander
Intel® Serial I/O Inter-Integrated Circuit (I2C) Controllers
Connectivity Integrated (CNVi)
Integrated Sensor Hub (ISH)
System Management
System Management Interface and SMLink
Host System Management Bus (SMBus) Controller
Serial Peripheral Interface (SPI)
Enhanced Serial Peripheral Interface (eSPI)
Intel® Serial IO Generic SPI (GSPI) Controllers
Touch Host Controller (THC)
Intel® Serial I/O Universal Asynchronous Receiver/Transmitter (UART) Controllers
Private Configuration Space Target Port ID
Testability
Digital Display Signals
Miscellaneous Signals
On Package Interface (OPI)
embedded Multi Media Card (eMMC*)
Security Technologies
Intel® Advanced Encryption Standard New Instructions
Perform Carry-Less Multiplication Quad Word Instruction (PCLMULQDQ)
Intel® Secure Key
Execute Disable Bit
Boot Guard Technology
Intel® Supervisor Mode Execution Protection (SMEP)
Intel® Supervisor Mode Access Protection (SMAP)
Intel® Secure Hash Algorithm Extensions (Intel® SHA Extensions)
User Mode Instruction Prevention (UMIP)
Read Processor ID (RDPID)
Control-flow Enforcement Technology (Intel® CET)
KeyLocker Technology
Power and Performance Technologies
Intel® Smart Cache Technology
IA Core Level 1 and Level 2 Caches
Ring Interconnect
Power Aware Interrupt Routing (PAIR)
Enhanced Intel SpeedStep® Technology
Intel® Turbo Boost Technology 2.0
Intel® Thermal Velocity Boost
Intel® Speed Shift Technology
Intel® Advanced Vector Extensions 2
Intel® 64 Architecture x2APIC
Intel® Dynamic Tuning Technology (DTT)
Intel® GNA 3.0
Cache Line Write Back (CLWB)
Remote Action Request (RAR)
User Mode Wait Instructions
Feature Overview
Intel® High Definition Audio (Intel® HD Audio) Controller Capabilities
Audio DSP Capabilities
Intel® High Definition Audio Interface Capabilities
Direct Attached Digital Microphone (PDM) Interface
USB Audio Offload Support
I2S/PCM Interface
Intel® Display Audio Interface
MIPI® SoundWire* Interface
Power Management
Signal Description
Integrated Pull-Ups and Pull-Downs
I/O Signal Planes and States
Functional Description
Advanced Configuration and Power Interface (ACPI) States Supported
Processor IA Core Power Management
Processor Graphics Power Management
System Agent Enhanced Intel SpeedStep® Technology
Type C Sub System (TCSS) Power State
Thermal Management Features
Adaptive Thermal Monitor
Digital Thermal Sensor
PROCHOT# Signal
PROCHOT Output Only
Bi-Directional PROCHOT#
PROCHOT Demotion Algorithm
Voltage Regulator Protection using PROCHOT#
Thermal Solution Design and PROCHOT# Behavior
Low-Power States and PROCHOT# Behavior
THRMTRIP# Signal
Critical Temperature Detection
On-Demand Mode
MSR Based On-Demand Mode
I/O Emulation-Based On-Demand Mode
System Memory Interface
DDR Support Matrix
Supported Memory Modules and Devices
System Memory Timing Support
SAGV Points
Memory Controller (MC)
Technology Enhancements of Intel® Fast Memory Access (Intel® FMA)
Data Scrambling
Data Swapping
Ascending and Descending
DRAM Clock Generation
DRAM Reference Voltage Generation
Data Swizzling
Error Correction With Standard RAM
Functional Description
Interrupt Generation
PCI Express* Power Management
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
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
Timed GPIO
The PCH supports two Timed GPIOs as native function (TIME_SYNC) that is multiplexed on GPIO pins. The intent usage of the Timed GPIO function is for time synchronization purpose.
Timed GPIO can be an input or an output:
- As an input, a GPIO input event triggers the HW to capture the PCH Always Running Timer (ART) time in the Time Capture register. The GPIO input event must be asserted for at least two crystal oscillator clocks period in order for the event to be recognized.
- As an output, a match between the ART time and the software programmed time value triggers the HW to generate a GPIO output event and capture the ART time in the Time Capture register. If periodic mode is enabled, HW generates the periodic GPIO events based on the programmed interval. The GPIO output event is asserted by HW for at least two crystal oscillator clocks period.
Timed GPIO supports event counter. When Timed GPIO is configured as input, event counter increments by one for every input event triggered. When Timed GPIO is configured as output, event counter increments by one for every output event generated. The event counter provides the correlation to associate the Timed GPIO event (the nth event) with the captured ART time. The event counter value is captured when a read to the Time Capture Value register occurs.