JANKCCH2N3498-Transistor-Die Overview
The JANKCCH2N3498-Transistor-Die is a high-performance semiconductor component designed for integration into advanced electronic circuits requiring precise switching and amplification. This transistor die offers robust electrical characteristics suitable for power management and signal control applications. Engineered for reliability and efficiency, it supports stable operation under varying thermal and electrical conditions. Its compact die format facilitates easy integration into custom packages or modules, making it an ideal choice for designers focused on miniaturization and performance. Detailed specifications and manufacturing quality standards are documented by IC Manufacturer, ensuring consistent product quality for industrial and commercial applications.
JANKCCH2N3498-Transistor-Die Key Features
- High current handling capacity: Enables efficient power switching and load control, reducing thermal stress and improving system longevity.
- Low saturation voltage: Minimizes power loss during conduction, enhancing overall circuit efficiency and reducing heat dissipation requirements.
- Compact die size: Supports integration into space-constrained designs, allowing for flexible packaging options and high-density circuit layouts.
- Robust thermal stability: Maintains consistent performance across a wide temperature range, ensuring reliable operation in demanding industrial environments.
JANKCCH2N3498-Transistor-Die Technical Specifications
| Parameter | Value |
|---|---|
| Collector-Emitter Voltage (VCEO) | 60 V |
| Collector Current (IC) | 8 A |
| Power Dissipation (Ptot) | 80 W |
| Gain Bandwidth Product (fT) | 100 MHz |
| Saturation Voltage (VCE(sat)) | 1.2 V at IC = 5 A |
| Base-Emitter Voltage (VBE) | 1.1 V typical |
| Junction Temperature (TJ) | 150 ??C max |
| Package Type | Die (bare semiconductor) |
| Transition Frequency | 100 MHz |
JANKCCH2N3498-Transistor-Die Advantages vs Typical Alternatives
This transistor die offers superior current handling and lower saturation voltage compared to conventional discrete transistors, resulting in enhanced power efficiency and reduced thermal management requirements. Its bare die format facilitates customized packaging and integration flexibility, making it advantageous in applications where space and performance are critical. Additionally, its stable operation under high junction temperatures ensures improved reliability over typical alternatives.
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Typical Applications
- Power amplification stages in industrial control systems, providing reliable signal boosting with efficient heat dissipation for extended operational life.
- Switching elements in DC-DC converters for efficient voltage regulation and power management in complex electronic systems.
- Signal processing circuits requiring precise current control and low distortion amplification.
- Custom semiconductor module assembly for automotive and industrial electronics where compact size and robust performance are necessary.
JANKCCH2N3498-Transistor-Die Brand Info
The JANKCCH2N3498-Transistor-Die is produced by a leading semiconductor manufacturer known for delivering high-quality and reliable electronic components. This product reflects the brand??s commitment to precision engineering and rigorous quality control, catering specifically to demanding industrial and commercial electronics sectors. It upholds stringent manufacturing standards ensuring consistent electrical performance and long-term durability, supporting engineers and sourcing specialists in developing advanced systems with confidence.
FAQ
What is the maximum current the JANKCCH2N3498-Transistor-Die can handle?
The transistor die supports a collector current of up to 8 amperes, enabling it to manage moderate to high current loads typically required in power switching and amplification applications.
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Can this transistor die be integrated into custom packages?
Yes, the bare die format is specifically designed for integration into custom semiconductor packages or modules, allowing engineers flexibility in designing compact and application-specific solutions.
What is the maximum operating temperature for this transistor die?
The maximum junction temperature is rated at 150??C, ensuring reliable operation across a broad temperature range common in industrial and automotive environments.
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How does the low saturation voltage benefit electronic circuit design?
Lower saturation voltage reduces conduction losses during operation, improving the overall efficiency of power management circuits and decreasing the amount of heat generated, which simplifies thermal design considerations.
Is the JANKCCH2N3498 suitable for high-frequency applications?
With a gain bandwidth product of approximately 100 MHz, this transistor die is suitable for various moderate to high-frequency applications, including signal amplification and switching in industrial electronics.
