BSR12,215 Discrete Semiconductor Products |
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Allicdata Part #: | 568-5509-2-ND |
Manufacturer Part#: |
BSR12,215 |
Price: | $ 0.00 |
Product Category: | Discrete Semiconductor Products |
Manufacturer: | NXP USA Inc |
Short Description: | TRANS PNP 15V 0.1A SOT-23 |
More Detail: | Bipolar (BJT) Transistor PNP 15V 100mA 1.5GHz 250m... |
DataSheet: | BSR12,215 Datasheet/PDF |
Quantity: | 1000 |
1 +: | 0.00000 |
Series: | -- |
Packaging: | Tape & Reel (TR) |
Part Status: | Obsolete |
Transistor Type: | PNP |
Current - Collector (Ic) (Max): | 100mA |
Voltage - Collector Emitter Breakdown (Max): | 15V |
Vce Saturation (Max) @ Ib, Ic: | 450mV @ 10mA, 100mA |
Current - Collector Cutoff (Max): | 50nA |
DC Current Gain (hFE) (Min) @ Ic, Vce: | 30 @ 50mA, 1V |
Power - Max: | 250mW |
Frequency - Transition: | 1.5GHz |
Operating Temperature: | 150°C (TJ) |
Mounting Type: | Surface Mount |
Package / Case: | TO-236-3, SC-59, SOT-23-3 |
Supplier Device Package: | TO-236AB (SOT23) |
Base Part Number: | BSR12 |
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Introduction
BSR12, 215 is a common bipolar junction field effect transistor (BJT). It is a type of transistor that is used extensively in many different applications. It is made out of two transistors connected in a two output configuration. This type of transistor is used in various types of applications, including signal processing, voltage amplification, power regulation, and more. In this article, we will explore the various uses of the BSR12, 215, as well as its working principle.
Application Field
The BSR12, 215 BJT is most commonly used in applications that require amplification or signal processing. For example, it can be used in amplifiers, as it is highly efficient and can provide ample amounts of voltage gain. It is also used in signal processing, as it is able to accurately reproduce audio signals. In addition, it is used in power distribution and regulation, as it is able to accurately regulate voltage levels and stabilize power distribution.
Another application for the BSR12, 215 BJT is for switching applications. This type of transistor is able to switch quickly and reliably, providing a smooth transition from one voltage level to another. This type of switching is very important in applications such as circuit breakers, which are designed to quickly and reliably disconnect power to critical parts of a system.
Finally, the BSR12, 215 BJT is also used in pulse generation. This type of transistor is able to generate rapid pulses, which can be used in timers and counters. It is also used in analog to digital converters, as it is able to accurately generate digital signals from analog inputs.
Working Principle
The BSR12, 215 BJT is a two output transistor configuration. This type of configuration allows for two output signals to be combined and amplified, resulting in a larger output signal. Essentially, the transistor combines two different inputs and outputs the resulting, amplified signal. The BSR12, 215 BJT is able to achieve this through the use of two other transistors. The first transistor, known as the collector, is responsible for collecting the input signal. The second transistor, known as the emitter, is responsible for emitting the combined signal. From here, the amplified signal is sent to the output.
In terms of its operation, the BSR12, 215 BJT is able to operate at very high frequency rates. This is due to its high-speed switching capability. Furthermore, the BJT can be used in various types of applications, as it is able to produce both analog and digital signals. This makes it very versatile and suitable for a wide range of applications.
Conclusion
In conclusion, the BSR12, 215 BJT is a versatile, high-speed transistor. It is used in many different applications, such as signal processing, voltage amplification, power regulation, and more. This type of transistor is able to produce both analog and digital signals, making it suitable for many different applications. Additionally, it is able to achieve high frequency rates, making it ideal for high-speed switching applications. Finally, the BSR12, 215 BJT is able to reliably combine two output signals and produce an amplified signal.
The specific data is subject to PDF, and the above content is for reference
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