Diodes Incorporated BAS70-04T-7 Schottky Diode
The BAS70-04T-7 from Diodes Incorporated is a high-performance Schottky barrier diode designed for high-speed switching applications. This small-signal diode is a surface-mounted device that comes in a compact SOT-523 package, making it ideal for space-constrained applications. With its low forward voltage drop and fast switching capabilities, this diode is well-suited for use in a variety of electronic circuits, including rectification, protection, and voltage clamping.
Featuring a dual series configuration, the BAS70-04T-7 can handle a repetitive peak reverse voltage (Vrrm) of 70 volts and has a continuous forward current (If) rating of 70 milliamperes. Its low forward voltage drop (Vf) ensures high efficiency in the circuit, which is crucial for battery-powered devices. Additionally, the diode's fast reverse recovery time (trr) enhances its performance in high-frequency applications.
One of the key benefits of the BAS70-04T-7 is its low leakage current, which minimizes power loss and improves the overall reliability of the device. This characteristic makes it particularly suitable for applications where power efficiency is critical. Moreover, the diode's Schottky barrier technology provides superior thermal performance, enabling it to operate effectively over a wide temperature range.
The BAS70-04T-7 is also characterized by its robust construction, which allows it to withstand transient voltage spikes and surges, thereby offering protection to sensitive electronic components. Its lead-free and RoHS compliant design aligns with environmental standards, ensuring that it can be used in products sold worldwide without concerns about regulatory compliance.
In summary, the BAS70-04T-7 Schottky diode from Diodes Incorporated is a versatile and reliable component that provides efficient, high-speed switching for a wide range of electronic applications. With its compact footprint, low power loss, and robust performance, it is an excellent choice for designers looking to optimize their circuit designs for both performance and size.