JANKCA2N3634-Transistor-Die by JANKCA2N | High-Performance Amplifier Transistor Die

JANKCA2N3634-Transistor-Die Overview

The JANKCA2N3634-Transistor-Die is a high-performance semiconductor component designed for efficient switching and amplification in industrial electronics. This transistor die offers precise electrical characteristics and robust thermal performance, making it well-suited for integration into power management and signal processing circuits. Engineered for reliability and consistent operation, it supports demanding applications requiring stable gain and low leakage currents. Manufactured with advanced semiconductor fabrication techniques, this device ensures compatibility with a broad range of industrial systems. For detailed sourcing and technical support, visit IC Manufacturer.

JANKCA2N3634-Transistor-Die Key Features

• High Current Handling Capacity: Supports collector current (Ic) up to 15A, enabling robust power amplification and switching in demanding circuits.
• Superior Voltage Tolerance: Collector-emitter voltage (Vceo) rating of 80V ensures reliable operation in medium-voltage industrial environments.
• Low Saturation Voltage: Minimizes power loss during conduction, improving overall energy efficiency and reducing heat dissipation.
• Fast Switching Speed: Enables high-frequency operation suitable for switching power supplies and motor control applications.
• Thermal Stability: Designed to maintain performance with a maximum junction temperature (Tj) of 150??C, enhancing device longevity under thermal stress.
• Compact Die Dimensions: Facilitates integration into multi-chip modules and custom semiconductor assemblies.

JANKCA2N3634-Transistor-Die Technical Specifications

JANKCA2N3634-Transistor-Die Advantages vs Typical Alternatives

Compared to standard transistor dies, this device excels in handling higher collector currents and voltages with improved thermal performance. Its low saturation voltage reduces power loss, enhancing system efficiency. The compact die size supports integration flexibility, while the robust junction temperature rating ensures reliability in harsh industrial environments. These advantages make it a preferred choice for engineers seeking durable and efficient semiconductor solutions.

Typical Applications

• Power Amplification in Industrial Control Systems: Provides reliable switching performance for controlling motors, actuators, and other heavy loads requiring precise current regulation.
• Switching Regulators: Used in DC-DC converters and power supplies where fast switching and low conduction losses improve overall efficiency.
• Signal Amplification: Supports intermediate frequency amplification stages in communication and measurement equipment.
• Automotive Electronics: Suitable for integration into powertrain control modules and other systems demanding rugged transistor die performance.

JANKCA2N3634-Transistor-Die Brand Info

The JANKCA2N3634-Transistor-Die is developed and supplied by a leading semiconductor manufacturer specializing in industrial-grade components. This product reflects the brand??s commitment to quality, precision engineering, and reliability. Designed to meet stringent industry standards, it supports a wide array of industrial applications requiring high-performance transistor dies. The manufacturer provides comprehensive datasheets and technical support to facilitate seamless integration and optimal device operation.

FAQ

What is the maximum collector current rating of this transistor die?

The transistor die can handle a maximum collector current (Ic) of 15 amperes, making it suitable for high-power amplification and switching applications.

Can this transistor die operate at high temperatures?

Yes, it is rated for a maximum junction temperature of 150??C, which ensures stable performance and reliability in thermally demanding environments.

What voltage ratings does this transistor die support?

This device supports a collector-emitter voltage (Vceo) up to 80 volts, allowing it to operate safely in medium-voltage industrial circuits.

Is the transistor die suitable for high-frequency applications?

With a gain bandwidth product (fT) of 10 MHz, it supports moderate high-frequency operation, making it suitable for switching regulators and signal amplification.

How does the low saturation voltage benefit system efficiency?

A low saturation voltage reduces conduction losses during transistor operation, which improves overall power efficiency and decreases heat generation within the device.