Manufacturer Part Number
FAN7530N
Manufacturer
onsemi
Introduction
Power Factor Correction IC for power supply units and adapters, designed to operate in Critical Conduction Mode.
Product Features and Performance
Operates in CRM (Critical Conduction Mode) and DCM (Discontinuous Mode) allowing for improved efficiency and reduced EMI
Supports 12V to 22V supply voltage range
Low Startup Current of 40 µA enhances energy efficiency during initial power up
Capable of withstanding operating temperatures ranging from -40°C to 125°C, suitable for various environments
Through-hole 8-DIP package for easy integration in various circuit designs
Product Advantages
Enhances power factor and efficiency of power supplies
Minimizes external component count due to its integrated features
Facilitates compliance with international energy efficiency regulations
Offers design flexibility through a wide operating temperature and voltage range
Key Technical Parameters
Mode: Critical Conduction (CRM), Discontinuous (Transition)
Voltage - Supply: 12V to 22V
Operating Temperature Range: -40°C to 125°C
Startup Current: 40 µA
Package Type: 8-DIP (Through Hole)
Quality and Safety Features
Built to withstand a wide range of operating temperatures for reliability and safety in end applications
Compatibility
Suitable for integration with power circuits in through hole mounting configurations
Application Areas
Used in the design of power supply units, AC-to-DC adapters, and other power control applications that require Power Factor Correction
Product Lifecycle
Product Status: Obsolete
End-users should seek replacement products or consider last-time purchase options as availability might be limited
Several Key Reasons to Choose This Product
Obsolete status signals potential for price deals on remaining stock
FAN7530N provides an efficient PFC solution for power designs, aiding in meeting regulatory energy standards
Its wide operating temperature range makes it suitable for a variety of challenging applications
Minimized standby power consumption is ideal for energy-saving end products
Low startup current aids in the design of energy-efficient products.
High integration reduces the complexity of the power control design