JANSP2N5004-Transistor Overview
The JANSP2N5004 is a high-voltage NPN bipolar junction transistor designed for robust switching and amplification applications. It features a collector-emitter voltage rating suitable for demanding industrial environments, enabling reliable performance in power control circuits and signal processing. With a focus on durability and consistent electrical characteristics, this transistor supports efficient energy management and system stability. Ideal for engineers and sourcing specialists seeking dependable semiconductor components, the device ensures compatibility with a range of high-voltage designs. For detailed technical support and sourcing, visit IC Manufacturer.
JANSP2N5004-Transistor Key Features
- High Voltage Tolerance: Supports collector-emitter voltage up to 400V, enabling use in high-voltage switching circuits without breakdown risk.
- Moderate Current Rating: Handles collector current up to 0.6A, balancing power capacity with compact device size for diverse applications.
- Low Saturation Voltage: Ensures efficient switching with minimal power loss, improving overall circuit efficiency and thermal management.
- Robust Gain Characteristics: Provides consistent DC current gain (hFE) in the 40 to 160 range, facilitating predictable amplification performance.
JANSP2N5004-Transistor Technical Specifications
| Parameter | Value | Unit |
|---|---|---|
| Collector-Emitter Voltage (VCEO) | 400 | V |
| Collector-Base Voltage (VCBO) | 400 | V |
| Emitter-Base Voltage (VEBO) | 5 | V |
| Collector Current (IC) | 0.6 | A |
| Power Dissipation (Ptot) | 1 | W |
| DC Current Gain (hFE) | 40 to 160 | ?C |
| Transition Frequency (fT) | 100 | MHz |
| Operating Junction Temperature (TJ) | -65 to +150 | ??C |
| Storage Temperature (TSTG) | -65 to +150 | ??C |
JANSP2N5004-Transistor Advantages vs Typical Alternatives
This transistor offers superior voltage handling capability with a 400V rating, making it suitable for high-voltage industrial applications where many alternatives fall short. Its moderate current rating and low saturation voltage contribute to efficient power switching and reduced thermal dissipation. The wide gain range ensures flexible amplification options compared to standard low-voltage transistors. These factors combined provide enhanced reliability, efficiency, and integration ease in demanding environments.
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Typical Applications
- Power supply regulation and switching: The transistor??s high voltage and current ratings allow it to effectively control power delivery and voltage regulation in industrial power supplies and converters.
- Signal amplification: Suitable for medium-power amplification stages in signal processing circuits requiring stable gain and low distortion.
- Motor control circuits: Used in switching and drive stages for small motors where voltage tolerance and switching speed are critical.
- Industrial automation: Enables reliable switching and control in automated equipment, ensuring consistent operation under varying electrical loads.
JANSP2N5004-Transistor Brand Info
The JANSP2N5004 transistor is a standard military-grade semiconductor device recognized for its ruggedness and high voltage capability. It is manufactured under stringent quality controls to meet rigorous performance and reliability standards, making it a trusted choice for industrial, aerospace, and defense applications. The product??s proven design and verified specifications ensure dependable operation in critical systems requiring long-term stability and precision.
FAQ
What is the maximum voltage the JANSP2N5004 transistor can handle?
The transistor can withstand a maximum collector-emitter voltage of 400 volts, making it suitable for high-voltage switching and amplification applications without risk of breakdown under normal operating conditions.
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What current can this transistor safely conduct?
This device supports a collector current of up to 0.6 amperes, allowing it to handle moderate power loads typical in industrial control and signal amplification circuits.
How does the transistor??s gain range affect its performance?
The DC current gain (hFE) varies between 40 and 160, offering flexibility in amplification stages. This range allows engineers to design circuits with predictable amplification levels, optimizing signal strength and stability.
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Is the JANSP2N5004 suitable for high-frequency applications?
With a transition frequency (fT) of 100 MHz, the transistor can be used in moderately high-frequency applications, such as RF amplification and fast switching circuits, provided other circuit conditions are met.
What temperature ranges can this transistor operate within?
The device supports an operating junction temperature range from -65??C to +150??C, ensuring reliable performance across a wide temperature spectrum typical of industrial and military environments.
