NCP1012APL130R2G - ON Semiconductor

The NCP1012APL130R2G from ON Semiconductor is a highly-integrated power-switching regulator designed for compact and efficient power solutions. This innovative component integrates a fixed-frequency current-mode controller with a 700 V MOSFET, making it an ideal choice for off-line power supplies.

Key Features

• Integrated 700 V MOSFET: The built-in high-voltage MOSFET allows for reduced component count and simplifies the power supply design, enhancing reliability and performance.
• Fixed-Frequency Operation: With its fixed-frequency operation typically at 130 kHz, the NCP1012APL130R2G offers a predictable performance and simplifies the design of the EMI filter.
• Self-Supplied: No auxiliary winding is required for this device, as it is self-supplied, which further simplifies the design and reduces cost.
• Auto-Recovery Short-Circuit Protection: The device features built-in protection mechanisms that ensure it recovers safely from short-circuit conditions, enhancing the durability and longevity of the end application.
• Frequency Jittering: Reduces EMI emission and helps in meeting regulatory standards without additional components or costs.
• Low Standby Power: Designed for low standby power, it is suitable for applications that require compliance with power conservation standards.

Applications

The versatility of the NCP1012APL130R2G makes it suitable for a wide range of applications, including:

• AC-DC adapters for cell phones, PDAs, and MP3 players
• Standby and auxiliary power supplies
• LED lighting drivers
• Small home appliances
• Under 10 W power supplies

Quality and Environmental Compliance

ON Semiconductor is committed to providing environmentally friendly solutions. The NCP1012APL130R2G is Pb-free and Halide-free, ensuring compliance with current RoHS regulations for electronic components.

With its robust design and ON Semiconductor's commitment to quality, the NCP1012APL130R2G stands as an efficient and reliable solution for low-power applications that demand compactness, efficiency, and reliability.