JANSE2N2484-Transistor NPN Amplifier Switch 2N2484 TO-92 Package by JANSE

JANSE2N2484-transistor Overview

The JANSE2N2484-transistor is a high-performance NPN bipolar junction transistor designed for a wide range of switching and amplification applications. Featuring robust electrical characteristics, it delivers reliable operation in medium-power circuits with efficient current handling capabilities. This transistor supports moderate voltage and current levels, making it suitable for industrial control systems, signal amplification, and general-purpose electronic designs. Engineered for consistent performance and durability, it ensures dependable operation in demanding environments. For sourcing and detailed technical support, visit IC Manufacturer.

JANSE2N2484-transistor Key Features

• High Current Gain: Offers a dependable DC current gain, ensuring effective signal amplification and stable switching performance.
• Moderate Collector-Emitter Voltage: Supports voltages up to 30V, enabling use in a variety of low-to-medium voltage applications without compromise.
• Reliable Power Dissipation: Designed to handle up to 625 mW of power dissipation, which enhances thermal management and device longevity in operation.
• Fast Switching Characteristics: Facilitates efficient switching speeds suitable for industrial control and timing circuits, improving overall system response.

JANSE2N2484-transistor Technical Specifications

JANSE2N2484-transistor Advantages vs Typical Alternatives

This transistor offers a balanced combination of moderate voltage handling and high current gain, making it advantageous for general-purpose amplification and switching tasks compared to typical low-gain or low-power transistors. Its robust power dissipation rating enhances reliability under thermal stress, while the fast transition frequency supports higher-speed circuit designs. These features contribute to better performance and longer device lifespan in industrial and commercial applications.

Typical Applications

• Signal amplification in low-to-medium power electronic circuits, providing consistent gain with minimal distortion in audio and control systems.
• Switching elements in relay drivers, enabling effective control of electromechanical devices with low input current requirements.
• General-purpose switching in industrial automation, where reliable operation under varied electrical loads is essential.
• Interface stages in sensor and measurement circuits, supporting accurate signal processing under moderate voltage conditions.

JANSE2N2484-transistor Brand Info

The JANSE2N2484-transistor is part of a trusted product line offered by IC Manufacturer, a reputable supplier of semiconductor components for industrial and commercial electronics. This product reflects the company??s commitment to quality, consistent performance, and broad application support. Designed to meet stringent industry standards, it provides engineers and sourcing specialists with a reliable component choice for efficient circuit design and maintenance.

FAQ

What type of transistor is the JANSE2N2484?

The JANSE2N2484 is a NPN bipolar junction transistor designed for medium-current switching and amplification applications. It supports typical collector currents up to 0.5 A and voltages up to 30 V, suitable for general-purpose electronic uses.

What are the key electrical limits I need to consider when using this transistor?

Important limits include a maximum collector-emitter voltage of 30 V, collector current of 0.5 A, and power dissipation up to 625 mW. Operating within these parameters ensures device reliability and prevents thermal or electrical damage.

How does the current gain (hFE) range affect circuit design?

The current gain range of 60 to 300 allows flexibility in amplification levels, enabling designers to select this transistor for circuits requiring stable gain with moderate sensitivity, improving signal integrity in switching and amplification roles.

Is the JANSE2N2484 suitable for high-frequency applications?

With a transition frequency of approximately 100 MHz, this transistor supports moderately high-frequency operation, making it suitable for many signal processing and switching tasks but not ideal for ultra-high-frequency RF applications.

What temperature ranges can this transistor reliably operate within?

This device operates reliably between -65??C and +150??C junction temperatures. Such a wide temperature range makes it versatile for use in industrial environments with varying thermal conditions.