Overview of FSL156MRBN by onsemi
The FSL156MRBN is a Green-Mode Fairchild Power Switch (FPS™), designed for use in offline switching applications. It comes in a PDIP-8 package, which is a dual in-line package consisting of eight terminals for ease of integration into various electronic circuits. As an IC offline switch configured for flyback topology, it provides efficient power management solutions, making it well-suited for applications requiring reliable switching performance. With a maximum switching frequency of 73 kHz, this component can handle various voltage and current levels typically found in consumer and industrial electronics.
The manufacturer, onsemi, has positioned this part within the electronic components subcategory of Switching Regulator or Controllers, highlighting its relevance in power circuits. Notably, the FSL156MRBN complies with several industry standards, including the Pbfree code, indicating it is free of lead, and the REACH compliance code, ensuring it adheres to environmental regulations. This part also carries an ECCN code of EAR99 and is under the HTS code 8542.39.00.01, categorizing it appropriately for export controls and trade compliance.
As of the current writing, the factory lead time for the FSL156MRBN is reported to be around 4 weeks. However, it should be noted that the part is classified under the End of Life (EOL) status, suggesting that it may be phased out, and thus potential buyers should evaluate their procurement strategies accordingly.
Industry Applications for FSL156MRBN
The versatility of the FSL156MRBN enables its potential application across a range of industries. Below are several possible applications where this part might be effectively utilized:
- Consumer Electronics: This part could be integrated into devices such as televisions, chargers, or power adapters. The switching capabilities and efficiency characteristics of the FSL156MRBN might help in reducing standby power consumption, aligning with energy-saving features that are increasingly prioritized in consumer electronics.
- Energy and Power Systems: The FSL156MRBN might find applications in renewable energy systems, particularly in photovoltaic (solar) inverters. Its efficient power conversion capabilities could support the optimal performance of energy systems that convert and manage power from renewable sources.
- Automotive: If automotive applications align with specific industry standards, the FSL156MRBN might be utilized in electronic control units (ECUs) for improved energy management. This could support features such as battery management systems or power supply units for vehicle comfort systems.
- Transportation and Logistics: The FSL156MRBN could be implemented in power supplies for systems that manage logistics operations, perhaps powering devices used in tracking or automation solutions. Its compact design may also allow for integration into space-constrained applications.
It should be noted that these potential industry applications are conceptual and illustrative. They require thorough analysis and verification by engineering and design teams to ensure compliance with industry standards and specific application requirements. Other similar components may also provide alternatives that could fulfill similar roles.
About onsemi
onsemi is a global provider of semiconductor solutions and has a strong focus on delivering innovative components for power management and energy efficiency. In the realm of Switching Regulator or Controllers, onsemi’s portfolio includes a variety of products designed for power circuits that optimize performance and minimize energy consumption.
FSL156MRBN is part of this extensive range, reflecting onsemi’s commitment to providing high-performance solutions. Alongside the FSL156MRBN, onsemi manufactures various similar parts that cater to similar electronic needs, ensuring customers can find the right component for their specific applications. The company continuously innovates to support emerging demands in both consumer and industrial sectors, making it a notable player in the semiconductor space.