Overview of MMBFJ177LT1G by onsemi
The MMBFJ177LT1G by onsemi is a P-Channel JFET transistor encapsulated in a SOT-23 (TO-236) 3-lead package. It is specially designed for chopper applications, with a gate-source breakdown voltage max of 30V, a zero gate voltage drain current max of -20mA, and a gate-source cutoff voltage max of 2.5V. Operating at a maximum temperature of 150°C, it is suitable for high-temperature environments. This device comes on a 3000-reel, catering to bulk manufacturing and assembly requirements. The part is notable for its compliance with RoHS standards, ensuring it meets global environmental and health standards for electronic components. Additionally, features like a drain-source on resistance max of 300 Ω and a feedback cap max (Crss) of 5.5 pF make it a versatile component in various electronic applications. This component falls under the Small Signal Field-Effect Transistors subcategory, highlighting its significance in low power applications. Its moisture sensitivity level 1 designation indicates it’s relatively stable under atmospheric moisture conditions, essential for preserving long-term performance.
Industry Applications for MMBFJ177LT1G
The MMBFJ177LT1G finds potential applications across a wide range of industries, benefiting from its technical specifications and environmental compliance. Though these applications would require thorough analysis and verification by engineering and design teams, the following uses could be envisioned:
- Consumer Electronics: Given its low power and high-temperature operation capabilities, MMBFJ177LT1G might be integrated into portable devices such as smartphones, tablets, or wearables where power efficiency and compact form factors are critical.
- Audio and Video Systems: This component could potentially be used in audio amplifiers, mixers, or signal processing equipment where its chopper functionality and P-Channel operation are advantageous for creating clear, undistorted audio signals.
- Power Management Solutions: The part’s attributes make it suitable for power management circuits in various consumer and industrial electronics, where efficient power distribution and conservation are necessary.
- Control Systems: In industrial or automotive control systems, the MMBFJ177LT1G might be employed in sensor interfaces or as a switch component within electronic control units (ECUs) due to its reliable switching characteristics and low on-resistance.
These potential applications underscore the versatility of the MMBFJ177LT1G, making it a candidate for various technological solutions, contingent upon detailed component integration studies.
About onsemi.
onsemi is a notable contributor to the semiconductor industry, with a particular focus on energy-efficient innovations. Within the realm of Small Signal Field-Effect Transistors and transistors at large, onsemi manufactures a wide range of components including products similar to the MMBFJ177LT1G. Their offerings are characterized by a commitment to sustainability through energy efficiency and compliance with environmental regulations, making their components suitable for a broad spectrum of applications. onsemi’s expertise spans high-volume applications in the consumer, automotive, and industrial sectors, with products designed to meet rigorous quality and performance standards.
Where to Find MMBFJ177LT1G by onsemi
To source the MMBFJ177LT1G by onsemi, professionals in technical engineering or procurement are advised to conduct their search on findchips.com. This platform offers up-to-date information on current stock levels and pricing from a variety of distributors. In the past, this part has been available at distributors such as Win Source Electronics, EBV Elektronik, Mouser Electronics, and DigiKey, among others. For those seeking alternatives or similar parts offered by onsemi or other manufacturers, exploring the Small Signal Field-Effect Transistors category on findchips.com can provide a comprehensive overview of available options. It is important to note that stock levels and distributor availability may fluctuate, necessitating a visit to findchips.com for the most current information.