Overview of BC847CW,115 by Nexperia
The BC847CW,115 is a general-purpose NPN transistor manufactured by Nexperia, featuring a collector-emitter voltage of 45 V, a continuous collector current of 100 mA, and a power dissipation of 200 mW. This transistor is packaged in a small SC-70, 3-pin configuration, offering a compact footprint for various applications. The silicon-based component operates over a wide temperature range from -65°C to 150°C, ensuring reliability in diverse operating conditions. With a transition frequency of 100 MHz, it is suited for high-frequency applications. Additionally, this transistor boasts a high DC current gain (hFE) of 420, making it highly responsive in amplification applications. Notably, the BC847CW,115 is designed for surface mount technology (SMT), facilitating efficient assembly processes in modern electronics manufacturing. Compliance with RoHS standards confirms its suitability for worldwide use in environmentally conscious applications.
Industry Applications for BC847CW,115
The BC847CW,115 transistor’s attributes make it versatile for various applications across a wide range of industries. While the potential applications listed are conceptual and should be analyzed and verified by engineering and design teams for adherence to industry standards and specific requirements, some likely uses include:
- Consumer Electronics: The compact size and high-frequency operation of the BC847CW,115 could make it a candidate for use in portable devices, such as smartphones, tablets, or wearable technology. Its general-purpose nature allows for broad applicability in signal processing and power management circuits within these devices.
- Audio and Video Systems: Given its capabilities, this transistor might be found in audio amplifiers, preamplifiers, or video signal processing equipment. Its fast switching capabilities and low power dissipation potentially support clear, uninterrupted audio and video transmission.
- Industrial Automation: In automation and control systems, the BC847CW,115 may find a role in sensor interfaces or actuator drivers, leveraging its switching capabilities for efficient signal conditioning and actuation tasks.
- Telecommunications: Due to its high transition frequency, the transistor might be utilized in telecommunication infrastructure equipment, such as modulators, demodulators, or RF amplifiers, assisting in the reliable transmission and reception of signals.
It is important to note that these potential industry applications are only illustrative and require thorough engineering evaluations for compliance with specific application requirements.
About Nexperia
Nexperia is a leading global manufacturer specializing in semiconductors, particularly focusing on discrete components, logic devices, and MOSFETs. In the realm of transistors, and more specifically, Small Signal Bipolar Transistors, Nexperia has established a robust portfolio. The BC847CW,115 is part of this category, demonstrating Nexperia’s commitment to providing high-performance, reliable semiconductor devices. Known for their precision in manufacturing and innovation, Nexperia products are designed to meet the demanding requirements of the modern electronics industry. The firm’s expertise in producing transistors like the BC847CW,115 and others highlights its leadership in developing technologies vital for a wide array of electronic applications.
Where to Find BC847CW,115 by Nexperia
To source the BC847CW,115 transistor, potential buyers should consult findchips.com. This platform enables users to check the current stock levels, pricing, and available distributors for electronic components. For those exploring alternatives or related parts to the BC847CW,115 by Nexperia or other manufacturers, the site’s section on Small Signal Bipolar Transistors is an invaluable resource. Historically, this part has been available from several major distributors including New Advantage Corporation, EBV Elektronik, Chip1Stop, and Mouser Electronics. However, to get the most up-to-date availability and pricing information, visiting findchips.com is highly recommended.