The FMMTL720TA from Diodes Incorporated is a high-performance NPN bipolar junction transistor (BJT) designed for a wide array of applications requiring efficient amplification and switching. Known for its reliability and efficiency, this transistor is a fundamental component for modern electronic circuits.
Key Features
- High Current Gain Bandwidth Product: With a transition frequency of typically 1 GHz, the FMMTL720TA is suitable for high-speed amplification and can be used in RF applications.
- Low Saturation Voltage: This feature makes the FMMTL720TA ideal for low-voltage operations, ensuring minimal power loss during the saturation phase and improving overall energy efficiency.
- Surface-Mount Package: The SOT23 package allows for compact design and easy integration into surface-mount technology (SMT) based PCBs, making it highly suitable for mass-produced electronics.
- High Collector Current: Capable of handling a continuous collector current up to 100 mA, the FMMTL720TA can drive larger loads, making it versatile for both digital and analog applications.
- Complementary PNP Type Available: For applications that require a push-pull configuration, a complementary PNP transistor is available, allowing for a complete solution for differential signal amplification.
Applications
The FMMTL720TA's performance characteristics make it suitable for a variety of applications, including:
- Switching circuits
- Amplifier stages
- Signal processing
- Audio applications
- Drive circuits
- RF amplification
Product Specifications
Parameter
Value
Transistor Polarity
NPN
Collector-Emitter Voltage (Vceo)
40V
Collector-Base Voltage (Vcbo)
60V
Emitter-Base Voltage (Vebo)
5V
Collector Current (Ic)
100mA
Power Dissipation (Pd)
350mW
DC Current Gain (hFE)
100 to 600
Transition Frequency (fT)
1GHz
Whether you are designing a sophisticated audio system, an RF communication module, or a digital switching network, the FMMTL720TA provides the performance and reliability expected from Diodes Incorporated, a leader in semiconductor technology.