JAN2N6300-Darlington Transistor by JAN – High Gain, TO-3 Package Power Amplifier

JAN2N6300-Darlington Overview

The JAN2N6300-Darlington transistor is a high-voltage, high-current silicon NPN Darlington device designed for industrial and power switching applications. Featuring a collector-emitter voltage rating of 100V and a continuous collector current of 4A, it supports efficient power amplification with low saturation voltage. This transistor is optimized to deliver reliable, high-gain performance in compact TO-218 packaging, making it suitable for environments demanding durability and thermal stability. For detailed sourcing and technical support, visit IC Manufacturer.

JAN2N6300-Darlington Key Features

• High current handling: Supports continuous collector current up to 4A, enabling robust power switching and amplification in demanding circuits.
• Voltage endurance: Rated for a maximum collector-emitter voltage of 100V, suitable for medium-voltage industrial applications where voltage spikes are common.
• Low saturation voltage: Ensures efficient switching with minimal power loss, improving overall system efficiency and reducing heat generation.
• High DC current gain (hFE): Provides substantial amplification, which simplifies driver circuit requirements and enhances signal sensitivity.

JAN2N6300-Darlington Technical Specifications

JAN2N6300-Darlington Advantages vs Typical Alternatives

This transistor offers superior current gain and power dissipation compared to standard bipolar transistors, reducing driver complexity and improving switching efficiency. Its robust voltage ratings and low saturation voltage deliver enhanced reliability and energy efficiency in industrial power control. The rugged TO-218 package ensures effective heat dissipation, making it a practical choice over typical devices with lower thermal limits or current capacity.

Typical Applications

• Power amplifiers in industrial control systems requiring high current and voltage handling with efficient switching performance.
• Switching regulators and power supplies where reliable high gain and low saturation voltage improve overall system efficiency.
• Motor control circuits, providing amplified drive current for medium-power motors in automation and robotics.
• Relay drivers and solenoid controllers in industrial automation for precise and reliable actuation.

JAN2N6300-Darlington Brand Info

The JAN2N6300-Darlington is a military-grade transistor manufactured under stringent quality and reliability standards. As part of a family of rugged Darlington transistors, it is recognized for consistent performance in harsh environments, including aerospace and industrial sectors. The product??s design emphasizes durability, thermal resilience, and stable electrical characteristics, aligning with industry expectations for mission-critical applications.

FAQ

What is the maximum continuous current rating for this Darlington transistor?

The maximum continuous collector current for the device is 4 amperes. This allows it to handle substantial load currents typical in power amplification and switching applications without degradation.

Can this transistor operate at high temperatures?

Yes, the transistor has an operating junction temperature range from -65??C up to +200??C, making it suitable for use in environments with elevated temperatures and demanding thermal conditions.

What package type does this transistor use, and why is it important?

The device is housed in a TO-218 package, which provides excellent thermal conductivity and mechanical robustness. This helps to efficiently dissipate heat and ensures reliable operation in industrial power circuits.

How does the high DC current gain benefit circuit design?

A high DC current gain (typically around 1000) means that the transistor requires less base current to switch high collector currents. This reduces the complexity of the driving circuitry and improves overall efficiency in signal amplification.

Is this transistor suitable for switching applications involving inductive loads?

Yes, with its high voltage rating and robust current handling, the transistor is well-suited for switching inductive loads such as motors, relays, and solenoids, provided proper flyback protection is implemented to handle voltage spikes.