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2N3584 Transistor
Product Overview
- Category: Bipolar Junction Transistor (BJT)
- Use: Amplification and switching in electronic circuits
- Characteristics: High current gain, low noise, and high frequency capability
- Package: TO-39 metal can package
- Essence: NPN silicon transistor
- Packaging/Quantity: Typically available in reels of 1000 units
Specifications
- Maximum Collector-Base Voltage (Vcb): 60V
- Maximum Collector-Emitter Voltage (Vce): 60V
- Maximum Emitter-Base Voltage (Veb): 5V
- Collector Current (Ic) - Continuous: 0.5A
- Power Dissipation (Pd): 625mW
- Transition Frequency (ft): 200MHz
- Operating Temperature Range: -65°C to 200°C
Detailed Pin Configuration
The 2N3584 transistor has three pins: 1. Collector (C): Connected to the positive supply voltage in most applications 2. Base (B): Controls the transistor's conductivity when a small current is applied 3. Emitter (E): Connected to the ground or negative supply voltage in most applications
Functional Features
- High current gain allows for small base current to control larger collector current
- Low noise makes it suitable for audio amplification applications
- High frequency capability enables use in radio frequency (RF) circuits
Advantages and Disadvantages
Advantages
- High current gain provides efficient signal amplification
- Low noise makes it suitable for sensitive signal processing
- High frequency capability allows for use in RF applications
Disadvantages
- Limited maximum collector current compared to power transistors
- Relatively low power dissipation capability
Working Principles
The 2N3584 operates as a current-controlled switch or amplifier. When a small current is applied to the base, it controls the larger current flow between the collector and emitter. This property allows it to amplify weak signals or act as a switch in electronic circuits.
Detailed Application Field Plans
The 2N3584 is commonly used in the following applications: - Audio amplifiers - Radio frequency (RF) circuits - Signal processing circuits - Switching circuits
Detailed and Complete Alternative Models
Some alternative models to the 2N3584 include: - 2N3904 - BC547 - 2N2222 - BC548
This completes the entry for the 2N3584 transistor, covering its product overview, specifications, pin configuration, functional features, advantages and disadvantages, working principles, application field plans, and alternative models.
Liste 10 perguntas e respostas comuns relacionadas à aplicação de 2N3584 em soluções técnicas
What is the 2N3584 transistor used for?
- The 2N3584 transistor is commonly used for high-frequency amplifier and oscillator applications.
What are the key specifications of the 2N3584 transistor?
- The 2N3584 transistor typically has a maximum power dissipation of 0.5 watts, a collector-base voltage of 30 volts, and a collector current of 50 milliamps.
Can the 2N3584 be used in RF amplifier circuits?
- Yes, the 2N3584 is suitable for use in RF amplifier circuits due to its high-frequency capabilities.
What are the typical operating conditions for the 2N3584 transistor?
- The 2N3584 transistor is often operated at frequencies ranging from a few megahertz to several gigahertz, with appropriate biasing and matching networks.
Is the 2N3584 suitable for low-noise amplifier applications?
- Yes, the 2N3584 can be utilized as a low-noise amplifier in certain high-frequency systems.
What are the common package types available for the 2N3584?
- The 2N3584 transistor is typically available in metal can or surface-mount packages, such as TO-39 or SOT-23.
Are there any recommended biasing configurations for the 2N3584?
- Common biasing configurations for the 2N3584 include fixed bias, self-bias, and voltage-divider bias, depending on the specific application requirements.
Can the 2N3584 be used in push-pull amplifier designs?
- Yes, the 2N3584 can be employed in push-pull amplifier configurations for increased power output and reduced distortion.
What are the typical gain characteristics of the 2N3584 transistor?
- The 2N3584 transistor exhibits high gain at RF frequencies, making it suitable for various amplification tasks.
Are there any known limitations or considerations when using the 2N3584 in technical solutions?
- It's important to consider the operating frequency range, power dissipation, and impedance matching when integrating the 2N3584 into technical solutions to ensure optimal performance.