ON Semiconductor MMBD717LT1G: High-Speed Switching Diode

The MMBD717LT1G is a versatile and high-performing switching diode designed and manufactured by ON Semiconductor, a leader in the semiconductor industry. This small-signal diode is engineered for high-speed switching applications and is housed in a compact SOT-23 surface-mount package, making it an ideal choice for space-constrained applications.

Key Features

• Fast Switching Speed: The MMBD717LT1G offers rapid switching capabilities, which is essential for high-frequency operations.
• Low Forward Voltage Drop: With a low forward voltage drop, this diode ensures high efficiency and minimizes power losses during operation.
• Surface-Mount Package: The SOT-23 package allows for efficient PCB space utilization and is suitable for automated assembly processes.
• High Reliability: ON Semiconductor's commitment to quality means this diode is built to deliver consistent performance and long-term reliability.
• Lead-Free and RoHS Compliant: The MMBD717LT1G is environmentally friendly, adhering to current RoHS directives, and is lead-free, making it suitable for use in a wide range of products.

Applications

The MMBD717LT1G is designed for high-speed switching applications in a variety of electronic circuits. It is commonly used in:

• DC-DC converters
• High-speed logic circuits
• Switching power supplies
• Oscillators
• Signal processing

Technical Specifications

The MMBD717LT1G has a maximum repetitive reverse voltage (V_RRM) of 85 volts and a non-repetitive peak reverse voltage (V_RM) of 100 volts. Its continuous forward current (I_F) is rated at 200 mA, with a peak forward surge current (I_FSM) of 500 mA. The diode's fast switching speed is evidenced by its reverse recovery time (t_rr), which is typically 4 ns, making it suitable for high-speed applications.

With its robust design and high-speed switching capabilities, the MMBD717LT1G from ON Semiconductor is a reliable choice for designers and engineers looking to optimize their electronic designs for efficiency and performance.