JANKCC2N3498 Overview
The JANKCC2N3498 is a high-performance NPN bipolar junction transistor designed for robust switching and amplification in industrial electronics. Featuring excellent current handling and voltage ratings, it supports efficient signal control in demanding environments. Its robust construction ensures reliability under varying thermal conditions, making it suitable for power regulation, motor control, and amplification tasks. Engineered for seamless integration, this transistor enables enhanced performance with minimal signal distortion. For detailed specifications and sourcing, visit ICメーカー.
JANKCC2N3498 Key Features
- High Collector-Emitter Voltage: Supports up to 100V, enabling operation in high-voltage circuits without breakdown risk.
- High Collector Current Capacity: Handles up to 10A continuous current, suitable for power-intensive applications.
- 高速スイッチング・スピード: Ensures efficient response in switching applications, reducing power losses and improving system performance.
- Thermal Stability: Rated for a maximum junction temperature of 150??C, allowing reliable operation in harsh thermal environments.
JANKCC2N3498 Technical Specifications
| パラメータ | 仕様 |
|---|---|
| トランジスタ・タイプ | NPN Bipolar Junction Transistor |
| コレクタ・エミッタ間電圧 (V)CEO(最高経営責任者) | 100 V |
| コレクタ電流 (IC) | 10 A |
| 許容損失(Pトット) | 80 W |
| 利得帯域幅積 (fT) | 4 MHz |
| ジャンクション温度 (TJ) | 150??C |
| パッケージタイプ | TO-3 |
| 直流電流利得(hFE) | 40?C160 |
JANKCC2N3498 Advantages vs Typical Alternatives
This transistor offers superior current and voltage handling compared to standard small-signal transistors, enabling it to drive heavy loads with higher efficiency. Its robust thermal rating ensures stable operation under demanding power conditions, reducing the risk of thermal runaway. The high gain and fast switching characteristics provide improved signal accuracy and responsiveness, making it a reliable choice for power amplification and switching applications where typical alternatives may fall short.
ベストセラー商品
代表的なアプリケーション
- Power Amplification: Ideal for audio and industrial signal amplification requiring high current and voltage capabilities with low distortion.
- Motor Control: Suitable for driving DC motors and actuators in automation systems due to its robust current handling.
- Switching Regulators: Used in power supply designs for efficient voltage regulation and switching performance.
- Industrial Control Circuits: Supports various control and interface circuits in harsh environments needing reliable transistor operation.
JANKCC2N3498 Brand Info
The JANKCC2N3498 is a product offered by a leading semiconductor manufacturer known for quality power transistors and discrete components. Designed to meet stringent industrial standards, this device reflects the brand??s commitment to durability, performance, and reliability. Its widespread adoption in industrial applications underscores the confidence engineers place in this transistor??s consistent operation and integration ease.
よくあるご質問
このトランジスタの最大コレクタ電流定格は?
The maximum collector current for this transistor is 10 amps continuous, enabling it to handle substantial load currents in power switching and amplification circuits without damage.
注目商品
Can the device operate at high temperatures?
Yes, it has a maximum junction temperature rating of 150??C, allowing it to maintain performance and reliability in elevated temperature environments typical in industrial applications.
What package type is used for the JANKCC2N3498?
This transistor is housed in a TO-3 package, which provides excellent thermal dissipation and mechanical robustness, suitable for high-power applications.
お問い合わせ
Is this transistor suitable for high-frequency applications?
With a gain bandwidth product of approximately 4 MHz, it is suitable for moderate frequency applications but may not meet requirements for very high-frequency RF circuits.
How does this device compare to typical small-signal transistors?
Unlike standard small-signal transistors, this device supports higher voltage and current ratings, faster switching speeds, and improved thermal handling, making it better suited for power-intensive and industrial applications.
