Manufacturer Part Number
2DC4617S-7-F
Manufacturer
Diodes Incorporated
Introduction
This is a single NPN bipolar junction transistor (BJT) manufactured by Diodes Incorporated. It is a discrete semiconductor component suitable for a variety of electronic circuit applications.
Product Features and Performance
Operates in the -55°C to 150°C temperature range
Maximum power dissipation of 150 mW
Collector-emitter breakdown voltage of up to 50 V
Maximum collector current of 150 mA
Collector cutoff current of up to 100 nA
Collector-emitter saturation voltage of 400 mV @ 5 mA, 50 mA
DC current gain (hFE) of at least 270 @ 1 mA, 6 V
Transition frequency of 180 MHz
Product Advantages
Compact surface mount SOT-523 package
RoHS3 compliant for environmentally-friendly use
Tape and reel packaging for efficient automated assembly
Key Technical Parameters
Transistor Type: NPN
Packaging: SOT-523
Mounting Type: Surface Mount
Quality and Safety Features
Compliant with RoHS3 environmental regulations
Designed and manufactured to high quality standards
Compatibility
This transistor is compatible with a wide range of electronic circuits and systems that require a high-performance NPN bipolar junction transistor in a small surface mount package.
Application Areas
Amplifier circuits
Switch/driver circuits
General-purpose electronic applications
Product Lifecycle
This product is currently in production and readily available. There are no plans for discontinuation, and suitable replacement or upgrade options may be available from Diodes Incorporated or other semiconductor manufacturers.
Key Reasons to Choose This Product
Excellent performance characteristics, including high breakdown voltage, high current handling, and high transition frequency.
Compact and efficient surface mount packaging for space-constrained designs.
RoHS3 compliance for environmentally-conscious applications.
Reliable quality and safety features backed by Diodes Incorporated's reputation as a leading semiconductor manufacturer.
Widespread compatibility and suitability for a variety of electronic circuit applications.