PMIC - PFC (Power Factor Correction)
PMIC - PFC (Power Factor Correction) - Product Category Overview
1. Definition of PMIC - PFC (Power Factor Correction)
PMIC - PFC (Power Factor Correction) refers to a specialized category of Power Management Integrated Circuits (PMICs) designed to improve the power factor in electronic systems. Power Factor Correction ensures efficient energy usage by aligning the phase relationship between voltage and current, reducing reactive power, and minimizing harmonic distortion. These ICs are critical in applications where high power efficiency and compliance with energy regulations (such as IEC 61000-3-2) are required.
2. Types of PMIC - PFC Products
PMIC - PFC solutions are available in various configurations to suit different power management needs:
- Active PFC ICs: Utilize switching techniques to dynamically correct power factor, commonly used in AC-DC converters, industrial equipment, and high-power applications.
- Passive PFC ICs: Employ passive components (inductors, capacitors) for simpler, cost-effective correction in lower-power systems.
- Digital PFC Controllers: Incorporate programmable control algorithms for adaptive power factor optimization in advanced power supplies.
- Integrated PFC + PWM Combos: Combine PFC with pulse-width modulation (PWM) for compact, high-efficiency designs in consumer electronics and server PSUs.
3. Key Considerations When Purchasing PMIC - PFC ICs
To select the right PFC solution for your application, evaluate the following:
- Efficiency Targets: Look for high power factor (>0.95) and low THD (Total Harmonic Distortion) ratings.
- Topology Compatibility: Match the IC (e.g., boost, buck-boost) to your system s voltage/current requirements.
- Regulatory Compliance: Ensure adherence to standards like ENERGY STAR, 80 PLUS, or EU CoC Tier-2.
- Thermal & Packaging: Consider thermal resistance (R JA) and package options (e.g., SOIC, QFN) for space-constrained designs.
- Design Support: Opt for vendors offering reference designs, simulation tools, and evaluation boards for faster prototyping.
By integrating PMIC - PFC solutions, engineers can enhance energy efficiency, reduce operational costs, and meet stringent environmental standards making them indispensable in modern power electronics.
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NCP1618DDR2G
HIGH-VOLTAGE, MULTIMODE POWER FA
UCC2818ADR
IC PFC CTR AVERAGE 220KHZ 16SOIC
UCC3818AD
IC PFC CTR AVERAGE 220KHZ 16SOIC
FAN7930MX_G
IC PFC CTRLR CRM 300KHZ 8SOP
ML4812CQ
POWER FACTOR CONTROLLER
NCP1652DR2G
IC PFC CTL CCM/DCM 100KHZ 16SOIC
UCC3818APWR
IC PFC CTRLR AVER 220KHZ 16TSSOP
UCC38501DWTR
IC PFC CTR AVERAGE 100KHZ 20SOIC
UC2854N
IC PFC CTR AV CURR 200KHZ 16DIP
LT1249CS8#PBF
IC PFC CTR AV CURR 100KHZ 8SOIC
LT1509CSW#PBF
IC PFC CTR AVERAGE 100KHZ 20SOIC
PFS7636H
IC PFC CTRLR CCM 123KHZ 16ESIP
NCP1612BDR2G
IC PFC CTRLR CCFF/CRM 10SOIC
UCC2817PW
IC PFC CTRLR AVER 220KHZ 16TSSOP
ISL6730CFUZ
IC PFC CTRLR CCM 125KHZ 10MSOP
NCP1622DCCSNT1G
IC PFC CTRLR CRM 6TSOP
NCP1937A2DR2G
IC PFC CTRLR CRM 20SOIC
PFS7525L
IC PFC CTRLR CCM 123KHZ ESIP-16G
UC3854ADW
IC PFC CTR AVERAGE 200KHZ 16SOIC
FAN6961DY
MICRO PERIPHERAL IC