The CMPT3410 TR is a PNP silicon transistor manufactured by Central Semiconductor Corp. It is designed for low-power amplification and switching applications. It is commonly used in portable devices and other applications where space and power consumption are critical.
Applications
- Low-noise amplifier stages.
- Switching circuits in portable devices.
- Driver stages for small loads.
- General-purpose amplification.
- Analog signal processing.
Features
- Low saturation voltage: Reduces power dissipation.
- High current gain: Provides excellent amplification.
- Small SOT-23 package: Allows for high-density mounting on PCBs.
- RoHS compliant: Meets environmental regulations for hazardous substances.
Benefits
- Improved circuit efficiency: Low saturation voltage reduces power loss.
- Increased amplification: High current gain enhances signal strength.
- Reduced PCB size: Small package allows for more compact designs.
- Environmentally friendly: RoHS compliant.
- High performance in miniature applications.
Additional Details
The CMPT3410 TR features a collector-emitter voltage (VCEO) of -25V and a collector current (IC) of -200mA. The DC current gain (hFE) is typically between 100 and 300. The transition frequency (fT) is typically 250 MHz. The transistor is housed in a SOT-23 package, which is a small surface-mount package commonly used for discrete semiconductors. This makes it suitable for high-density circuit board designs where space is limited. The CMPT3410 is often used in audio amplifiers, switching circuits, and other low-power applications. Its low saturation voltage allows it to switch signals with minimal voltage drop, improving efficiency. The high current gain makes it suitable for amplifying weak signals. The TR suffix indicates that the device is tape and reel packaged for automated assembly.
The transistor is designed for use in automatic insertion equipment. Its specification is optimized for applications requiring low power consumption and small size. It is commonly used in mobile devices and IoT applications.