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FMB3904 Transistor
Product Overview
Category:
The FMB3904 transistor belongs to the category of small signal NPN bipolar junction transistors.
Use:
It is commonly used for amplification and switching of electronic signals in various electronic circuits.
Characteristics:
- Small size
- Low power consumption
- High gain
- Fast switching speed
Package:
The FMB3904 transistor is typically available in a TO-92 package.
Essence:
This transistor is essential for amplifying weak electronic signals and controlling the flow of current in electronic devices.
Packaging/Quantity:
It is usually packaged in reels or tubes, with quantities varying based on manufacturer specifications.
Specifications
- Maximum Collector-Base Voltage: 60V
- Maximum Collector Current: 200mA
- Power Dissipation: 625mW
- Transition Frequency: 300MHz
- Operating Temperature Range: -55°C to 150°C
Detailed Pin Configuration
The FMB3904 transistor has three pins: 1. Emitter (E) 2. Base (B) 3. Collector (C)
Functional Features
- Amplification of weak electronic signals
- Switching function in electronic circuits
- High input impedance
Advantages
- Small size allows for use in compact electronic devices
- Low power consumption
- High gain for signal amplification
Disadvantages
- Limited maximum collector current compared to other transistors
- Sensitive to temperature variations
Working Principles
The FMB3904 operates based on the principles of bipolar junction transistors, where the flow of current between the collector and emitter is controlled by the base current.
Detailed Application Field Plans
The FMB3904 transistor finds applications in various electronic circuits, including: - Audio amplifiers - Signal processing circuits - Switching circuits - Oscillator circuits
Detailed and Complete Alternative Models
Some alternative models to the FMB3904 transistor include: - 2N3904 - BC547 - 2SC945 - PN2222A
In conclusion, the FMB3904 transistor is a versatile component that finds widespread use in electronic circuits due to its small size, high gain, and low power consumption. Its applications range from audio amplifiers to signal processing circuits, making it an essential part of modern electronic devices.
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Enumere 10 preguntas y respuestas comunes relacionadas con la aplicación de FMB3904 en soluciones técnicas
What is FMB3904?
- FMB3904 is a common NPN bipolar junction transistor (BJT) widely used in electronic circuits for amplification and switching applications.
What are the typical applications of FMB3904?
- FMB3904 is commonly used in audio amplifiers, signal amplification circuits, voltage regulators, and digital logic circuits.
What are the key electrical characteristics of FMB3904?
- The key electrical characteristics of FMB3904 include a maximum collector current of 200mA, a maximum collector-base voltage of 60V, and a maximum power dissipation of 625mW.
How do I identify the pinout of FMB3904?
- FMB3904 typically has three pins: the emitter, base, and collector. The flat side of the transistor package usually corresponds to the emitter pin.
Can FMB3904 be used for high-frequency applications?
- Yes, FMB3904 can be used for moderate to high-frequency applications due to its relatively fast switching speed and low capacitance.
What are some common alternatives to FMB3904?
- Common alternatives to FMB3904 include 2N3904, BC547, and PN2222A, which have similar electrical characteristics and pinouts.
How should FMB3904 be biased in a circuit?
- FMB3904 is typically biased in the active region by applying a suitable base current to allow it to operate as an amplifier or switch.
What are the temperature limitations of FMB3904?
- FMB3904 is rated for operation within a temperature range of -55°C to 150°C, making it suitable for a wide range of environmental conditions.
Can FMB3904 be used in low-power applications?
- Yes, FMB3904 is suitable for low-power applications due to its low saturation voltage and low leakage current.
Are there any specific layout considerations when using FMB3904 in a PCB design?
- It's important to minimize lead lengths, provide adequate heat sinking if necessary, and ensure proper isolation between the transistor and other components to avoid interference.
Please let me know if you need further information on any of these questions!