PMIC - Thermal Management

Part Number	Description / PDF	Quantity
ADT7460ARQ	REMOTE THERMAL CONTROLLER	7881
MAX6641AUB90+T Maxim Integrated	IC TEMP MONITOR SMBUS 10UMAX	5000
LTC2990IMS#TRPBF Analog Devices, Inc.	IC TEMP/VOLT/CUR MONITOR 10MSOP	2257
LM63DIMA/NOPB Texas Instruments	IC TEMP SENSOR REMOTE FAN 8-SOIC	2806555
ADT7488AARMZ-RL Analog Devices, Inc.	SST DIGITAL TEMPERATURE SENSOR	10983
TMP513AIRSAR Texas Instruments	IC TEMP SNSR TRIPL REMOTE 16QFN	79000
LM96000CIMT/NOPB Texas Instruments	IC HDWR MON W/FAN CTRL 24-TSSOP	13509943
ADM1031ARQ-REEL Analog Devices, Inc.	INTELLIGENT TEMPERATURE MONITOR	63686
LTC2991IMS#PBF Analog Devices, Inc.	IC MONITOR OCTAL 16MSOP	0
MAX6643LBFAEE+ Maxim Integrated	IC CTLR PWM FAN-SPEED 16QSOP	68
ADM1034ARQ Analog Devices, Inc.	THERMAL MONITOR AND FAN SPEED (R	5645
ADM1021AARQ Analog Devices, Inc.	CPU VOLTAGE AND TEMP MONITORING	33
LM96163CISD/NOPB Texas Instruments	IC TEMP SENSOR DGTL REMOTE 10SON	3012
NCT7802Y Nuvoton Technology Corporation America	IC H/W MONITOR 20QFN	0
TSE2002GB2A1NCG8 Renesas Electronics America	IC TEMP SENS EEPROM DFN-8	3634
LTC1392IS8#PBF Analog Devices, Inc.	IC DATA ACQ SYSTEM 10BIT 8-SOIC	0
LM80CIMT-3/NOPB-NS	POWER SUPPLY MANAGEMENT CIRCUIT,	0
ADT7518ARQZ Analog Devices, Inc.	SERIAL TEMPERATURE SENSOR	3959
LM87CIMT Texas Instruments	IC MONITOR SYS HARDWARE 24TSSOP	613538
NCT7491RQR2G	REMOTE THERMAL MONITOR AND FAN C	12500

PMIC - Thermal Management

1. Overview

Power Management ICs (PMICs) with Thermal Management are integrated circuits responsible for regulating power distribution and monitoring thermal conditions in electronic systems. These devices prevent overheating through active temperature sensing, dynamic power adjustment, and thermal protection mechanisms. Their importance grows with increasing power density in modern electronics like smartphones, servers, and automotive systems, ensuring reliability and longevity.

2. Major Types & Functional Classification

Type	Functional Characteristics	Application Examples
Temperature Monitoring PMIC	Continuous temperature sensing with alert thresholds	Smartphones, laptops
Thermal Protection PMIC	Automatic shutdown during critical temperature events	Industrial motors, battery systems
Dynamic Thermal Regulation PMIC	Adjusts power delivery based on real-time thermal feedback	High-performance computing (HPC), 5G base stations
Multi-Zone Thermal Control PMIC	Independent monitoring of multiple thermal zones	Automotive ECUs, data center servers

3. Structure & Technical Composition

A typical PMIC thermal management system consists of: - **Temperature Sensors**: Built-in thermistors or diodes for precise thermal detection - **Analog-to-Digital Converters (ADC)**: Convert analog temperature signals to digital values - **Control Logic**: Implements thermal algorithms (e.g., PID controllers) - **Power Switching Elements**: MOSFETs for load control during thermal events - **Communication Interfaces**: I2C/SPI for system integration - **Protection Circuits**: Over-temperature shutdown (OTP) and hysteresis mechanisms

4. Key Technical Specifications

Parameter	Description	Importance
Temperature Sensing Accuracy	1 C to 3 C tolerance range	Determines protection reliability
Thermal Protection Threshold	Configurable via registers (e.g., 80 C-150 C)	Prevents silicon degradation
Response Time	10 s-1ms for critical shutdown	Minimizes thermal damage risk
Operating Temperature Range	-40 C to +125 C standard	Ensures environmental stability
Power Consumption	10 A-100mA active mode	Impacts battery life in portable devices
Package Type	QFN, BGA, TSSOP	Affects thermal dissipation capability

5. Application Fields

Consumer Electronics: Smartphones (thermal throttling), tablets, VR headsets
Industrial Equipment: PLCs, motor drives, factory automation systems
Automotive: Battery Management Systems (BMS), ADAS processors
Telecommunications: 5G base stations, optical transceivers
Computing: Laptops, servers, AI accelerators

6. Leading Manufacturers & Representative Products

Manufacturer	Product Series	Key Features
Texas Instruments	TPS65000 Series	Multi-channel thermal regulation with 1 C accuracy
STMicroelectronics	STMPS Series	Integrated ADC and I2C interface for thermal monitoring
NXP Semiconductors	PF5000 Series	Digital temperature sensors with programmable thresholds
Infineon Technologies	OPTIREG Series	Automotive-grade thermal protection up to 150 C
Analog Devices	ADM1031 Hot Swap Controller	Dual-zone temperature monitoring with fan control

7. Selection Guidelines

Key considerations when selecting PMIC thermal management solutions: - **Operating Environment**: Industrial vs. consumer temperature requirements - **Thermal Response Speed**: Critical for high-power systems (e.g., GPUs) - **Integration Level**: Combined voltage regulation + thermal management vs. discrete solutions - **Package Thermal Resistance**: Lower R JA improves heat dissipation - **System Compatibility**: Communication interface (I2C vs. PMBus) and voltage range - **Certifications**: Automotive (AEC-Q), Industrial (IEC 60750) standards compliance

8. Industry Trends

Future developments in PMIC thermal management include: - **Advanced Process Nodes**: 28nm/40nm technologies for lower quiescent current - **AI-Driven Thermal Prediction**: Machine learning algorithms for proactive cooling - **GaN/SiC Integration**: Wide-bandgap semiconductor compatibility for high-temperature operation - **Ultra-Small Packaging**: 0.4mm pitch WLCSP for wearable devices - **Standardization Efforts**: Emerging PMIC thermal interface standards (e.g., JEDEC JESD51)