Overview of PMBT4401,215 by Nexperia
The PMBT4401,215 is an NPN switching transistor encapsulated in a TO-236 (SOT23) package, making it suitable for general-purpose applications. This bipolar junction transistor (BJT) can handle collector-emitter voltages up to 40 V and collector currents as high as 600 mA, with a transition frequency of 250 MHz for high-speed switching. The component is notable for its high DC current gain, with a minimum HFE of 80, ensuring amplification capability. This part is RoHS compliant, guaranteeing adherence to environmental standards concerning hazardous materials.
Introduced to the market on September 1, 1997, by Nexperia, the PMBT4401,215 has maintained a status as an active part in electronics inventories. Its robustness is underlined by a Moisture Sensitivity Level of 1, indicating superior performance reliability under varying moisture conditions. The part is also designed to withstand a peak reflow temperature of 260°C, which accommodates typical soldering processes. With features such as surface-mount technology compatibility and dual gull-wing terminals, this transistor aligns well with modern printed circuit board (PCB) designs, offering ease of integration in a variety of electronic assemblies.
Industry Applications for PMBT4401,215
The versatile nature of the PMBT4401,215 allows its application across various industries:
- Consumer Electronics: These transistors potentially feature in applications like audio amplifiers and power management systems within devices such as smartphones and portable electronics. The high-frequency switching capability could be particularly beneficial in enhancing device performance and battery efficiency.
- Computing and Data Storage: The PMBT4401,215 may serve in power regulation solutions and signal processing units, which are crucial in managing operational efficiency and data integrity within computing hardware.
- Telecommunications: Given its fast switching characteristics and robust performance metrics, it might be found in network equipment such as routers and signal amplifiers, helping in managing data flow and signal integrity across communications infrastructure.
- Medical Imaging: Its precision and reliability could make the PMBT4401,215 suitable for integration into medical devices that require exact voltage and current control, although specific adherence to medical industry standards should be significantly considered.
- Industrial Automation: Its potential use in control systems and automation technology could optimize the process consistency and energy efficiency of manufacturing systems.
Note: It is suggested that the listed potential industry applications be considered conceptually and require thorough evaluation by engineering and design teams for compliance with industry standards and application-specific requirements. These examples illustrate possible use-cases for similar small signal bjt transistors and do not guarantee that Small Signal Bipolar Transistors like the PMBT4401,215 would necessarily be applicable without further analysis.
About Nexperia
Nexperia is a key player in the field of discrete and power transistors, and its offerings in Small Signal Bipolar Transistors are significant complements to its broad portfolio. PMBT4401,215 is an example of Nexperia’s commitment to high-quality and performance-focused components. Nexperia’s products are designed to meet the stringent demands of a wide range of industries, thus ensuring reliability and durability in varying applications.
Where to Find PMBT4401,215 by Nexperia
To purchase the PMBT4401,215, it is recommended to seek reliable vendors through findchips.com. Historically, distributors such as DigiKey, Mouser Electronics, and Newark have stocked this part. However, inventory levels and pricing are subject to change, and finding the most current information on findchips.com is advised. For alternative transistors that might suit different application needs, explore Small Signal Bipolar Transistors to view a range of similar parts available from Nexperia or other manufacturers.