PMIC - Voltage Regulators - DC DC Switching Regulators

Part Number	Description / PDF	Quantity
PI3325-00-BGMP Vicor	42VIN, 5VOUT BUCK REGULATOR, -55	104
PI3302-20-LGIZ Vicor	DC DC CONVERTER 5V	22
PI3323-00-BGMP Vicor	42VIN, 3.3VOUT BUCK REGULATOR, -	0
PI3424-00-LGIZ Vicor	DC DC CONVERTER 5V	908
PI3525-01-LGIZ Vicor	BUCK REGULATOR 48/5	0
PI3318-20-LGIZ Vicor	DC DC CONVERTER 1.8V	174
PI3740-00-BGIZ Vicor	IC REG BUCK BOOST 7.42A 108BGA	365
PI3323-00-BGMZ Vicor	42VIN, 3.3VOUT BUCK REGULATOR, -	136
PI3318-01-LGIZ Vicor	DC DC CONVERTER 1.8V	0
PI3305-20-LGIZ Vicor	DC DC CONVERTER 15V	0
PI3421-00-LGIZ Vicor	DC DC CONVERTER 1.8V	10
PI3526-00-LGIZ Vicor	DC DC CONVERTER 12V 18A	1059
PI3312-00-LGIZ Vicor	DC DC CONVERTER 2.5V	14
PI3545-00-LGIZ Vicor	DC DC CONVERTER 5V	87
PI3312-21-LGIZ Vicor	DC DC CONVERTER 2.5V	0
PI3301-01-LGIZ Vicor	DC DC CONVERTER 3.3V 50W	1314
PI3546-00-LGIZ Vicor	DC DC CONVERTER 12V	0
PI3525-00-LGIZ Vicor	DC DC CONVERTER 5V 100W	198
PI3542-00-LGIZ Vicor	DC DC CONVERTER 2.5V	0
PI3311-20-LGIZ Vicor	DC DC CONVERTER 1V	0

PMIC - Voltage Regulators - DC DC Switching Regulators

1. Overview

DC-DC switching regulators are electronic circuits that efficiently convert direct current (DC) from one voltage level to another through switching techniques. By rapidly turning semiconductor switches (e.g., MOSFETs) on/off and modulating the duty cycle, these regulators achieve high efficiency (often >90%) compared to linear regulators. They are critical in modern electronics for power management, enabling compact designs, thermal optimization, and extended battery life in portable devices. Their ability to step-up, step-down, or invert voltages makes them indispensable in applications ranging from consumer electronics to industrial systems.

2. Main Types and Functional Classification

Type	Functional Characteristics	Application Examples
Buck (Step-Down)	Reduces input voltage to a lower regulated output	Processor cores, LED drivers, battery chargers
Boost (Step-Up)	Increases input voltage to a higher regulated output	USB On-The-Go, battery-powered devices, backlighting
Buck-Boost	Inverts or adjusts voltage to match load requirements	Power-over-Ethernet, automotive systems
Cuk Converter	Provides smooth input/output currents with inversion	Medical devices, precision instrumentation
SEPIC	Enables output voltage above/below input with DC isolation	Automotive infotainment, solar inverters
Zeta Converter	Delivers non-inverted output with input-output isolation	Telecom power systems, industrial sensors

3. Structure and Composition

A typical DC-DC switching regulator integrates the following components:

Power Switches: MOSFETs or bipolar transistors for high-efficiency switching
Inductor: Stores energy during switching cycles (e.g., coupled inductors for isolation)
Capacitors: Input/output filtering to suppress ripple (ceramic or polymer types)
PWM Controller: Regulates duty cycle via feedback loops (voltage/current mode control)
Protection Circuits: Overcurrent, overtemperature, and undervoltage lockout (UVLO)

Advanced packages like QFN (Quad Flat No-leads) and BGA (Ball Grid Array) enable miniaturization, while synchronous rectification reduces conduction losses.

4. Key Technical Specifications

Parameter	Description	Importance
Input Voltage Range	Operating voltage limits (e.g., 2.5V 40V)	Determines compatibility with power sources
Output Voltage Range	Adjustable/setpoint voltage (e.g., 0.6V 5.5V)	Matches load requirements
Output Current	Maximum load current (e.g., 1A 20A)	Dictates power delivery capability
Efficiency	Ratio of output/input power (e.g., 85% 97%)	Impacts thermal performance and battery life
Switching Frequency	Operating frequency (e.g., 100kHz 5MHz)	Affects component size and EMI
Ripple/Noise	Output voltage fluctuations (e.g., <30mV_pp)	Critical for noise-sensitive circuits

5. Application Areas

Consumer Electronics: Smartphones (PMIC integration), laptops, wearables
Automotive: Battery management systems, ADAS sensors, infotainment units
Industrial: PLCs, motor drives, IoT edge devices
Telecommunications: 5G base stations, optical transceivers, routers
Renewables: Solar micro-inverters, energy storage systems

6. Leading Manufacturers and Products

Manufacturer	Product Series	Key Features
Texas Instruments	LM5118	Synchronous buck-boost controller, 6V 40V input
STMicroelectronics	L6983	3.5V 38V input, 3A output, automotive qualified
Infineon	TDA3608	High-current boost converter for industrial lighting
ON Semiconductor	NCP3170	40V input, 7A output, current-mode control
Analog Devices	LTC3891	60V input, low quiescent current, rail-to-rail operation

7. Selection Guidelines

Key considerations during component selection:

Define input/output voltage and current requirements
Prioritize efficiency targets (>90% for battery-operated systems)
Select switching frequency based on EMI constraints and component size
Verify thermal management capabilities (e.g., package thermal resistance)
Assess protection features (OCP, OTP, soft-start)
Evaluate PCB layout complexity (e.g., external MOSFET requirements)
Balance cost vs. integration level (integrated FETs vs. controllers)

Example: For a 12V-to-3.3V/5A telecom power supply, select a synchronous buck regulator with 40V rating, >92% efficiency, and remote sensing.

8. Industry Trends

Emerging trends shaping DC-DC regulator development include:

Wide Bandgap Integration: GaN/SiC devices enabling >1000V operation and 5MHz+ switching
Smart Power Management: Digital control via PMBus for dynamic voltage scaling
Ultra-Low Quiescent Current: <10 A IQ for always-on IoT sensors
Advanced Packaging: 3D stacking and embedded die solutions for <100 m form factors
EMI Reduction: Spread spectrum frequency modulation and shielding innovations
Functional Safety: ISO 26262 compliance for automotive ASIL-D systems

Market demand is projected to grow at 7.2% CAGR through 2030, driven by EVs, 5G infrastructure, and edge computing.