Manufacturer Part Number
NCP1605ADR2G
Manufacturer
onsemi
Introduction
The NCP1605ADR2G by onsemi is a Power Factor Correction (PFC) controller designed for efficient power management in various applications, offering techniques like Critical Conduction Mode (CRM) and Discontinuous Conduction Mode (DCM).
Product Features and Performance
Operates in Critical Conduction (CRM) and Discontinuous Conduction (DCM) modes
Switching frequency of 250kHz
Supports a startup current of 12 mA
Accepts a supply voltage range from 10V to 20V
Operating temperature range from 0°C to 125°C
Designed for surface mount technology
Packaged in a slim 16-SOIC format
Product Advantages
Flexible operation modes allow for optimized performance in various applications
High switching frequency enables compact design and efficient operation
Wide operating temperature range ensures reliability under different environmental conditions
Key Technical Parameters
Mode: CRM, DCM
Frequency Switching: 250kHz
Current Startup: 12 mA
Voltage Supply: 10V ~ 20V
Operating Temperature: 0°C ~ 125°C
Mounting Type: Surface Mount
Package / Case: 16-SOIC
Quality and Safety Features
Built to meet rigorous quality and safety standards
Enables efficient power consumption, contributing to overall safety and longevity of the application
Compatibility
Compatible with various power management systems requiring power factor correction
Surface mount design fits modern PCB assembly processes
Application Areas
AC-DC converters
Power supplies for consumer electronics
Industrial power systems
Product Lifecycle
Obsolete status, indicating end of production
Buyers should verify availability of replacements or upgrades
Several Key Reasons to Choose This Product
High efficiency and flexibility due to dual operation modes (CRM and DCM)
Suitable for a wide range of applications thanks to its versatile power input and compact size
onsemi's reputation for quality and reliability ensures a robust solution for power factor correction needs
Despite its obsolescence, its performance characteristics remain relevant for specific needs or legacy systems