ON Semiconductor DTA115EM3T5G PNP Transistor

The DTA115EM3T5G is a high-quality PNP transistor from ON Semiconductor, a leading manufacturer in the semiconductor industry. This small-signal transistor is designed for general purpose amplifier applications and offers excellent performance in a compact SOT-23 package. With its robust design and reliable performance, the DTA115EM3T5G has become a preferred choice for engineers and designers looking to enhance their electronic circuits.

Key Features

• Type: PNP Bipolar Transistor
• Package: SOT-23, a small surface-mount package that is ideal for space-constrained applications
• Configuration: Single
• Collector-Emitter Voltage (VCEO): -50V, providing a good range for various applications
• Collector-Base Voltage (VCBO): -50V
• Emitter-Base Voltage (VEBO): -5V
• Collector Current (IC): -100mA, suitable for small signal amplification
• Power Dissipation (Pd): 150mW, ensuring the transistor can handle a moderate amount of power without overheating
• DC Current Gain (hFE): 100 to 600, providing a wide range of amplification possibilities for various circuit designs
• Operating Temperature Range: -55°C to +150°C, allowing for use in extreme environmental conditions

Applications

The DTA115EM3T5G is versatile and can be used in a wide array of electronic circuits. It is commonly found in:

• Signal amplification circuits
• Switching applications
• Audio amplifiers
• Driver stages in Hi-Fi amplifiers and television circuits
• Linear amplification stages

Quality and Reliability

ON Semiconductor is known for its commitment to quality, and the DTA115EM3T5G is no exception. This transistor is manufactured to high standards, ensuring both reliability and performance. It is designed to meet the rigorous demands of the electronics industry, making it an excellent choice for both commercial and industrial applications.

For designers and engineers looking for a dependable and efficient PNP transistor, the DTA115EM3T5G from ON Semiconductor is an outstanding option that combines functionality, miniaturization, and performance.