BC556B is a versatile transistor packaged in a TO-92 plastic casing. Its design makes it suitable for a variety of switching and amplification tasks. With the ability to handle a collector-emitter voltage of up to -65V and a maximum current of 100mA, it is well-suited for low-power applications in electronic circuits. The transistor's high current gain range, between 110 and 800, further enhances its usability in signal amplification and audio pre-amplification. Whether you’re working on general-purpose circuits or more specific projects, BC556B offers reliability and efficiency.
BC556B is enclosed in a TO-92 plastic casing, making it compact and easy to integrate into circuits. The three leads—collector, base, and emitter—are arranged from left to right when the flat side of the transistor is facing you with the leads pointing downward. This straightforward configuration helps simplify its placement and connections in various applications.
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Technical specifications, features, characteristics, and components with comparable specifications of ON Semiconductor BC556B.
[TABLE OF Specifications]
The BC556B transistor is crafted from silicon, a reliable and efficient material widely used in electronic components. Its silicon construction ensures consistent performance and durability, even in demanding conditions, making it a dependable choice for various applications.
As a PNP transistor, BC556B conducts when the base terminal is at a lower voltage than the emitter. This specific polarity allows it to function seamlessly in circuits designed for negative switching or amplification tasks. Its ability to manage these operations enhances its versatility.
With a maximum power dissipation rating of 0.5 watts, the BC556B is well-suited for small and medium power applications. This capability ensures that the transistor operates efficiently without the risk of overheating, provided it is used within its specified limits.
The transistor can handle a collector-base voltage of 80V and a collector-emitter voltage of 65V. These voltage ratings allow it to perform effectively in circuits that require moderate voltage handling, such as signal processing and small load switching applications.
The maximum collector current of 0.1A makes this transistor suitable for low-power circuits. It provides reliable operation in applications that do not demand high current levels, such as driving LEDs or small motors.
BC556B has a wide operational temperature range, from -65°C to 150°C. This flexibility ensures that it can be used in environments with varying temperatures without compromising performance or reliability.
The transition frequency of 150 MHz makes the BC556B capable of high-speed operations. This feature is particularly useful in applications involving fast signal switching or high-frequency amplification, such as audio systems or communication devices.
Housed in a TO-92 package, the BC556B is compact and easy to integrate into circuit boards. Its straightforward design makes installation simpler while offering good performance in space-constrained electronic systems.
The BC556B is widely used in preamplifier circuits to boost weak signals to a level suitable for further amplification or processing. It ensures clean signal amplification, which is crucial in audio and communication systems.
This transistor works effectively in audio amplifier circuits, providing enhanced sound quality and stable performance. Its ability to handle low to moderate power levels makes it ideal for audio systems where signal clarity is a priority.
The BC556B is a versatile component for amplifying electronic signals across a wide range of applications. Its consistent performance in amplifying weak signals ensures it can be used in projects requiring reliable signal processing.
You can pair the BC556B with another transistor to form a Darlington configuration. This setup greatly increases current gain, allowing it to drive larger loads or perform high-gain amplification tasks effectively.
This transistor can efficiently handle loads drawing less than 100mA, such as LEDs, small motors, and relays. Its ability to drive these components makes it a practical choice for low-power switching and control applications.
The BC556B is commonly found in driver modules for controlling components like relays and LEDs. Its reliable switching capability ensures stable and consistent operation of these devices in various circuits.
In both signal and audio amplifier modules, the BC556B plays an integral role in improving overall circuit performance. Its capability to handle low-power signals with precision makes it a preferred component in these modules.
The BC556B is also used in circuits that control small motors. Its switching capability allows precise operation, making it useful in motor control applications for robotics or automation systems.
In circuits requiring impedance buffering, the BC556B ensures stable operation by preventing signal degradation. This capability is particularly useful in high-precision or sensitive electronic systems.
The BC556B is a reliable choice for projects in instrumentation and robotics, where switching and amplification are common requirements. Its versatility and consistent performance make it a valuable component in these innovative applications.
The BC546B is a complementary NPN transistor for the BC556B.
[TABLE OF BC556B Equivalent]
BC556B is a flexible option for various electronic applications. It works effectively as a preamplifier, particularly in the early stages of audio circuits where small signals need to be boosted. You can also use it in an audio amplifier circuit to enhance sound quality or manage general signal amplification.
Beyond amplification, BC556B serves as a dependable switch for loads drawing less than 100 milliamps. This makes it practical for powering small devices like LEDs, relays, or even driving larger transistors. Its emitter-base voltage of -5V allows it to interface smoothly with microcontroller outputs, broadening its use in modern electronic systems.
To keep BC556B functioning effectively, there are some guidelines to follow. Avoid exceeding its maximum load of 100mA at -45V DC to prevent damage. Before placing it into a circuit, double-check the pin configuration to ensure proper alignment. Always include a suitable base resistor to limit current flow and protect the transistor. Finally, keep it within the recommended temperature range, avoiding conditions below -65°C or above +150°C to maintain its performance and lifespan.
The parts on the right have specifications similar to the ON Semiconductor BC556BTA.
[TABLE OF Parts with Similar Specs]
[IMAGE OF BC556B Dimensions]
onsemi, formerly known as ON Semiconductor, manufactures BC556B. They are a leading supplier of semiconductors, specializing in devices used in automotive, communications, computing, and industrial applications. Their products are known for supporting both power management and signal processing, making them reliable choices for a range of electronic projects.
BC556B is versatile and can be used in various applications such as switching and amplifying signals. It works well in audio circuits as a preamplifier or as part of an audio amplifier system. You can also use it to drive small loads like LEDs or relays, making it suitable for low-power circuits and general-purpose electronic projects.
The BC556B can handle a maximum collector current of 100mA. This means it is designed for low-power applications where the current requirements do not exceed this limit. It performs reliably within this range, ensuring steady operation for small electronic components.
The BC556B is enclosed in a TO-92 plastic casing. This package type is compact, making it easy to handle and integrate into circuit boards, especially in designs where space is limited.
The BC556B has a wide operating temperature range from -65°C to 150°C. This allows it to function efficiently in various environments, whether in colder conditions or higher-temperature setups, without affecting its performance.
BC556B has three pins: collector, base, and emitter. These pins serve different functions in a circuit. The collector is the current output, the base is the control input, and the emitter is the current return path. Their arrangement makes it easy to connect the transistor into various electronic circuits.
BC556B is designed for both switching and amplification tasks in electronic circuits. It is commonly used in audio preamplifiers, signal amplifiers, and low-power driver modules. Its ability to handle small loads and perform signal processing efficiently makes it a reliable choice for numerous applications."
กรุณาส่งคำถามเราจะตอบกลับทันที
BC556B is versatile and can be used in various applications such as switching and amplifying signals. It works well in audio circuits as a preamplifier or as part of an audio amplifier system. You can also use it to drive small loads like LEDs or relays, making it suitable for low-power circuits and general-purpose electronic projects.
The BC556B can handle a maximum collector current of 100mA. This means it is designed for low-power applications where the current requirements do not exceed this limit. It performs reliably within this range, ensuring steady operation for small electronic components.
The BC556B is enclosed in a TO-92 plastic casing. This package type is compact, making it easy to handle and integrate into circuit boards, especially in designs where space is limited.
The BC556B has a wide operating temperature range from -65°C to 150°C. This allows it to function efficiently in various environments, whether in colder conditions or higher-temperature setups, without affecting its performance.
BC556B has three pins: collector, base, and emitter. These pins serve different functions in a circuit. The collector is the current output, the base is the control input, and the emitter is the current return path. Their arrangement makes it easy to connect the transistor into various electronic circuits.
BC556B is designed for both switching and amplification tasks in electronic circuits. It is commonly used in audio preamplifiers, signal amplifiers, and low-power driver modules. Its ability to handle small loads and perform signal processing efficiently makes it a reliable choice for numerous applications."
บน 15/11/2024
บน 15/11/2024
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