JANKCAL2N3634-Transistor-Die Overview
The JANKCAL2N3634-Transistor-Die is a high-performance semiconductor component optimized for power amplification and switching applications. Built on reliable silicon technology, this transistor die offers robust electrical characteristics suitable for demanding industrial environments. Ideal for integration into power modules and custom assembly solutions, it supports efficient thermal management and precise current control. Engineers and sourcing specialists will find this transistor die valuable for applications requiring consistent gain, low saturation voltage, and stable operation under varied load conditions. For further technical resources, visit IC Manufacturer.
JANKCAL2N3634-Transistor-Die Key Features
- High current capacity: Supports substantial collector current enabling efficient power amplification in industrial circuits.
- Low saturation voltage: Minimizes power loss and heat generation, enhancing overall system efficiency.
- Robust die construction: Ensures reliability and long-term stability in high-temperature environments.
- Optimized gain characteristics: Provides predictable amplification behavior critical for precision analog applications.
JANKCAL2N3634-Transistor-Die Technical Specifications
| Parameter | Specification |
|---|---|
| Collector-Emitter Voltage (VCEO) | 60 V |
| Collector Current (IC) | 5 A (max) |
| Power Dissipation (PD) | 40 W |
| DC Current Gain (hFE) | 70 to 160 |
| Transition Frequency (fT) | 30 MHz (typical) |
| Saturation Voltage (VCE(sat)) | 1.5 V (max) |
| Junction Temperature (Tj) | 150 ??C (max) |
| Base-Emitter Voltage (VBE) | 1.2 V (typical) |
JANKCAL2N3634-Transistor-Die Advantages vs Typical Alternatives
This transistor die offers superior current handling and thermal robustness compared to many standard transistor dies. Its low saturation voltage reduces power loss, enhancing efficiency in power switching and amplification tasks. The stable gain and reliable performance under elevated temperature conditions make it a preferred choice over alternatives that may suffer from variability or early degradation in industrial settings.
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Typical Applications
- Power amplification circuits requiring steady gain and thermal resilience, commonly found in industrial automation and control systems.
- Switching regulators and DC-DC converters where efficient current switching and low losses are essential.
- Custom semiconductor module fabrication, allowing designers to tailor power transistors for specific system needs.
- Motor control drivers that demand reliable transistor operation under variable load and temperature conditions.
JANKCAL2N3634-Transistor-Die Brand Info
The JANKCAL2N3634-Transistor-Die is manufactured by a reputable semiconductor supplier known for delivering high-quality transistor dies designed for industrial-grade applications. This product line emphasizes durability, consistent electrical performance, and ease of integration into power electronics assemblies. The brand supports comprehensive datasheets and technical assistance ensuring seamless adoption in complex design workflows.
FAQ
What is the maximum collector current rating for this transistor die?
The maximum collector current rating is 5 amperes. This rating ensures the device can handle substantial current loads typical in power amplification and switching applications without degradation.
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What is the significance of the low saturation voltage specified for this transistor die?
A low saturation voltage, typically no more than 1.5 volts, reduces conduction losses when the transistor is fully on. This characteristic helps improve overall system efficiency and reduces thermal stress on the device.
Can this transistor die operate reliably at high temperatures?
Yes, the transistor die supports a maximum junction temperature of 150 degrees Celsius, making it suitable for environments where elevated temperatures are common, such as industrial power modules.
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Is this transistor die suitable for high-frequency applications?
With a transition frequency around 30 MHz, this transistor die is suitable for moderate-frequency applications, including many analog amplification and switching circuits, but may not be ideal for very high-frequency RF designs.
How does the DC current gain affect the application of this transistor die?
The DC current gain, which ranges between 70 and 160, impacts the amplification capability of the transistor. A stable gain ensures predictable circuit behavior and simplifies design considerations in amplifier configurations.
