2N6353-Darlington Transistor by ON Semiconductor, High Gain, TO-220 Package

2N6353-Darlington Overview

The 2N6353 is a high-voltage NPN Darlington transistor designed for switching and amplification in industrial and power applications. It features a robust collector-emitter voltage rating of up to 100V and a continuous collector current capacity of 4A, making it suitable for moderate to high power tasks. This transistor offers enhanced current gain due to its Darlington configuration, reducing the required base drive current and improving overall efficiency. Manufactured with reliability and ruggedness in mind, it is ideal for interfacing with relay drivers, motor controls, and other high-current switching circuits. For detailed sourcing and technical data, visit the IC Manufacturer website.

2N6353-Darlington Key Features

• High current capacity: Supports collector currents up to 4A, enabling effective control of substantial loads without additional amplification.
• High voltage tolerance: Withstands collector-emitter voltages up to 100V, suitable for a wide range of industrial power supply voltages.
• Darlington transistor configuration: Provides high current gain, reducing base input current requirements and enhancing driving efficiency in switching operations.
• Robust thermal characteristics: Designed to operate reliably under elevated junction temperatures, ensuring durability in demanding environments.

2N6353-Darlington Technical Specifications

2N6353-Darlington Advantages vs Typical Alternatives

The 2N6353 offers significant advantages over standard transistors by combining high voltage and current ratings with a Darlington configuration that ensures superior current gain. This reduces the need for large base drive currents, improving system efficiency. Its rugged construction supports reliable operation in high-temperature industrial environments, distinguishing it from lower-power or less thermally robust alternatives.

Typical Applications

• Relay and solenoid drivers: Enables efficient switching of inductive loads with high current demands, common in industrial automation and control systems.
• Motor control circuits: Suitable for controlling small to medium DC motors requiring moderate voltage and current handling.
• Power amplifiers: Can be used in linear amplification stages where high gain and power handling are necessary.
• Switching regulators and power supplies: Acts as a reliable switch or amplifier in DC-DC converters and power management circuits.

2N6353-Darlington Brand Info

The 2N6353 Darlington transistor is a widely recognized device in the power transistor category, known for its reliable performance in industrial applications. It is produced according to rigorous semiconductor manufacturing standards to ensure consistent electrical characteristics and durability. This device is favored by engineers for its ease of integration and dependable operation in harsh environments.

FAQ

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

The maximum continuous collector current is rated at 4 amperes, allowing the transistor to handle moderate to high current loads efficiently without damage.

Can the 2N6353 be used in high-voltage switching applications?

Yes, with a collector-emitter voltage rating of 100 volts and collector-base voltage of 120 volts, it is suitable for switching and amplification tasks in high-voltage industrial circuits.

How does the Darlington configuration benefit circuit design?

The Darlington pair provides very high current gain, which significantly reduces the base current needed to drive the transistor. This improves overall efficiency and simplifies the design of the driving circuitry.

What is the operating temperature range for this transistor?

The device can operate reliably up to a junction temperature of 200??C, making it suitable for environments with elevated heat levels typical in industrial applications.

Is this transistor appropriate for motor control applications?

Yes, the transistor??s high current capacity and voltage tolerance make it well-suited for controlling small to medium-sized DC motors in various control and automation systems.