Allicdata Part #: | KSC1187YBU-ND |
Manufacturer Part#: |
KSC1187YBU |
Price: | $ 0.00 |
Product Category: | Discrete Semiconductor Products |
Manufacturer: | ON Semiconductor |
Short Description: | TRANS NPN 20V 0.03A TO-92 |
More Detail: | Bipolar (BJT) Transistor NPN 20V 30mA 700MHz 250mW... |
DataSheet: | KSC1187YBU Datasheet/PDF |
Quantity: | 1000 |
1 +: | 0.00000 |
Series: | -- |
Packaging: | Bulk |
Part Status: | Obsolete |
Transistor Type: | NPN |
Current - Collector (Ic) (Max): | 30mA |
Voltage - Collector Emitter Breakdown (Max): | 20V |
Vce Saturation (Max) @ Ib, Ic: | -- |
Current - Collector Cutoff (Max): | 100nA (ICBO) |
DC Current Gain (hFE) (Min) @ Ic, Vce: | 120 @ 2mA, 10V |
Power - Max: | 250mW |
Frequency - Transition: | 700MHz |
Operating Temperature: | 150°C (TJ) |
Mounting Type: | Through Hole |
Package / Case: | TO-226-3, TO-92-3 (TO-226AA) |
Supplier Device Package: | TO-92-3 |
Base Part Number: | KSC1187 |
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When discussing semiconductor technology, the term transistors often comes up. Transistors are three-terminal, solid-state devices which can be used to control and modulate electrical signals. They come in two primary categories: Bipolar Junction Transistor (BJT) and Field Effect Transistor (FET). A BJT is a type of transistor which can be used to amplify a current or switch an electrical signal on and off. They are useful for a wide range of functions, from analog signal processing and amplifying to digital signal processing.
BJTs are typically divided into two basic types: NPN and PNP. NPN BJTs consist of three different layers or regions of semiconductor material, forming two diodes connected terminals. When an electric current is applied to the base terminal, some of the current is allowed to flow from the emitter to the collector thus controlling and modulating the current from the collector. PNP BJTs, on the other hand, have three reverse biased layers. They also have three terminals, an emitter, a base and a collector, which are connected in a different direction. When the base terminal is supplied with an electric charge, a base current flows, which controls the amount of emitter current that is allowed to flow to the collector.
One such BJT is the KSC1187YBU, which is a Single Bipolar Junction Transistor. It consists of three terminals: emitter, base and collector, and is one of the most commonly used transistors due to its high current capacity and fast switching times. It is a NPN type transistor, meaning that it is constructed from three different layers or regions of semiconductor material, forming two diodes connected terminals. The device is commonly used in high power switching applications such as motor control, high-frequency switching and audio amplifiers. It has a maximum power dissipation of 3 Watts, an operating temperature of -55 to +150°C, and a Pd of 40 Watts.
The KSC1187YBU works by controlling the amount of current that is allowed to flow from the collector to the emitter. The base terminal is supplied with an electric charge, which then causes a base current to flow, which in turn controls the amount of emitter current that is allowed to flow to the collector. By controlling the amount of current which is allowed to flow, this device can be used to control and modulate electrical signals. For example, it can be used to ensure that the current flowing through an electrical circuit is kept at a constant level, providing the necessary voltage and current stability.
The KSC1187YBU is also commonly used in a variety of other applications including power switching applications such as computer power supplies, power supply controllers and inverters. It is also useful for amplifying audio signals, providing high-frequency switching and motor control, and providing logic level conversion.
In conclusion, the KSC1187YBU is a Single Bipolar Junction Transistor which is used for a wide variety of applications. It has a maximum power dissipation of 3 Watts, an operating temperature of -55 to +150°C, and a Pd of 40 Watts. It works by controlling the amount of current that is allowed to flow from the collector to the emitter. The base terminal is supplied with an electric charge, which then causes a base current to flow, which in turn controls the amount of emitter current that is allowed to flow to the collector. This makes it a very versatile device and a viable option for use in a wide range of applications.
The specific data is subject to PDF, and the above content is for reference
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