Allicdata Part #: | 2SC370400LTR-ND |
Manufacturer Part#: |
2SC370400L |
Price: | $ 0.16 |
Product Category: | Discrete Semiconductor Products |
Manufacturer: | Panasonic Electronic Components |
Short Description: | TRANS NPN 10V 0.08A MINI-3P |
More Detail: | Bipolar (BJT) Transistor NPN 10V 80mA 6GHz 200mW S... |
DataSheet: | 2SC370400L Datasheet/PDF |
Quantity: | 3000 |
3000 +: | $ 0.15092 |
Series: | -- |
Packaging: | Tape & Reel (TR) |
Part Status: | Obsolete |
Transistor Type: | NPN |
Current - Collector (Ic) (Max): | 80mA |
Voltage - Collector Emitter Breakdown (Max): | 10V |
Vce Saturation (Max) @ Ib, Ic: | -- |
Current - Collector Cutoff (Max): | 1µA (ICBO) |
DC Current Gain (hFE) (Min) @ Ic, Vce: | 50 @ 20mA, 8V |
Power - Max: | 200mW |
Frequency - Transition: | 6GHz |
Operating Temperature: | 150°C (TJ) |
Mounting Type: | Surface Mount |
Package / Case: | TO-236-3, SC-59, SOT-23-3 |
Supplier Device Package: | Mini3-G1 |
Base Part Number: | 2SC3704 |
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2SC370400L transistors are made of germanium materials and are classified as single bipolar transistors (BJTs). They come in an DO-7 type package and are commonly used in high frequency applications such as RF (radio frequency) amplifiers and oscillators, transponders, mixers, and modulators. This type of transistor is usually not recommended for applications where switching speed is a requirement. However, many manufacturers have produced versions with improved switching speed.
The purpose of 2SC370400L transistor is to regulateelectrical current and voltage by changing their resistance. This is done by altering the amount of current flowing through the base of the transistor depending on the level of input. This type of transistor is commonly described as a current control device.When current flows through the base, it changes the resistance of the metallic barrier between the collector and emitter, which in turn affects the flow of current through the collector and emitter.
When using a 2SC370400L transistor, it is important to choose the correct circuit configuration for the desired application. An integrated amplifier configuration is common for linear operations, while a common-emitter configuration is preferred for switching operations. A well-designed amplifier circuit should incorporate a feedback control mechanism to ensure that the base voltage remains within the specified range.
To use this type of transistor in switching circuits, it must first be biased in the “on” state. This is done by establishing a voltage across the collector and emitter that supplies a small amount of current to the base of the transistor. This establishes a base-emitter voltage drop and increases the amount of current flowing through the collector and emitter. The base-emitter voltage drop is sufficient to switch the transistor to the “on” state and the collector current begins to rise.
The current from the collector must be limited either through voltage or current limiting resistors. Too much current will cause excessive collector current, which may cause the transistor to burn out. If the base voltage is turned off, the collector current will turn off, returning the transistor to the “off” state.
A 2SC370400L transistor can also be used in linear applications such as oscillators and amplifiers. In an oscillator, the transistor provides the feedback signal, while in an amplifier, the transistor amplifies the input signal. In linear circuits, the collector-emitter voltage should remain constant, as large variations will cause distortion in the signal. For this reason, the feedback control mechanism is critical in linear circuits as well.
2SC370400L transistors are often used in RF (radio frequency) amplifiers, transponders, mixers, and modulators due to their high-frequency capability and low-noise characteristics. This type of transistor is also popular for cost-sensitive applications. Despite their low cost, however, these transistors are still subject to various breakdown mechanisms and measures must be taken to protect the device from overload.
In conclusion, the 2SC370400L transistor is a single bipolar transistor that is commonly used for high-frequency applications. This type of transistor is not ideal for switching applications as it requires additional components to be properly switched, though improvements have been made to allow for faster switching. This transistor is capable of operating in either linear or switching applications, though linear operations require greater attention to the feedback circuit. As they are relatively inexpensive and are capable of operating at high frequencies, these transistors are the components of choice in many RF amplifier, transponder, mixer, and modulator applications.
The specific data is subject to PDF, and the above content is for reference
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