JANS2N6989-Quad-Transistor Overview
The JANS2N6989-Quad-Transistor is a high-reliability, military-grade bipolar junction transistor (BJT) device designed for demanding industrial and aerospace applications. Featuring four matched transistors integrated in a single package, it offers consistent performance and enhanced thermal stability. This transistor array supports switching and amplification functions with excellent gain and low noise characteristics, ensuring precise signal control. Its rugged construction meets stringent screening standards for long-term durability under harsh environments. Engineers and sourcing specialists looking for a dependable semiconductor solution will find this component ideal for critical systems requiring robust linear and switching transistor arrays. الشركة المصنعة للدوائر المتكاملة
JANS2N6989-Quad-Transistor Technical Specifications
| المعلمة | المواصفات |
|---|---|
| Type | NPN Bipolar Junction Transistors (4 units) |
| جهد المُجمِّع-المرسل (VCEO) | 60 V |
| Collector Current (IC) | 500 mA (maximum continuous) |
| Power Dissipation (Ptot) | 625 mW (per transistor) |
| Gain Bandwidth Product (fT) | 100 ميجاهرتز (نموذجي) |
| Current Gain (hFE) | 40 to 200 (depending on test conditions) |
| Package Style | TO-99 Metal Can |
| نطاق درجة حرارة التشغيل | -55??C to +125??C |
| رقم الضوضاء | Low noise, suitable for high-fidelity amplification |
JANS2N6989-Quad-Transistor Key Features
- Quad-transistor integration: Four matched NPN transistors in one package simplify circuit design and ensure consistent electrical characteristics across all units.
- High voltage and current rating: Supports collector-emitter voltages up to 60 V and collector currents of 500 mA, enabling robust switching and amplification.
- Military-grade reliability: Manufactured and screened for extended temperature ranges and enhanced durability, making it suitable for aerospace and defense applications.
- Low noise and wide bandwidth: Ideal for analog signal processing and amplification where signal integrity is critical.
التطبيقات النموذجية
- Analog signal amplification in aerospace systems requiring stable and matched transistor pairs for precise gain control and noise minimization.
- Switching circuits in military communications equipment benefiting from high voltage and current handling capabilities.
- Industrial control systems where reliability under extreme temperature and vibration is necessary.
- Test and measurement instrumentation that demands consistent transistor performance for accurate signal processing.
JANS2N6989-Quad-Transistor Advantages vs Typical Alternatives
This quad-transistor device offers a compact and reliable solution compared to discrete transistor alternatives by integrating four matched transistors in a single rugged TO-99 package. It delivers enhanced thermal stability and consistent gain, which improves circuit accuracy and reduces component variance. Its military-grade screening ensures superior reliability and longevity in harsh environments, making it preferable for critical industrial and aerospace applications over standard commercial transistors.
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JANS2N6989-Quad-Transistor Brand Info
The JANS prefix indicates a JEDEC-approved military specification device, typically manufactured by leading semiconductor suppliers specializing in high-reliability components. This transistor array is produced under stringent quality controls and screening processes to meet military standards MIL-PRF-19500. The robust TO-99 metal can package and rigorous testing ensure compliance with aerospace and defense industry requirements. Sourcing specialists can trust this product for applications demanding proven performance and durability under extreme conditions.
الأسئلة الشائعة
What is the primary function of the JANS2N6989 quad-transistor device?
This device contains four matched NPN transistors designed for amplification and switching applications. Its primary function is to provide consistent, reliable transistor operation within a single package, simplifying circuit design and enhancing performance in demanding environments.
