Diodes142,413 Results

A diode is a semiconductor device that primarily allows current flow in one direction while blocking it in the opposite direction. It achieves this behavior through a p-n junction, where p-type and n-type semiconductor materials form a depletion region that controls the movement of charge carriers depending on the applied voltage. While most diodes only conduct when forward biased, certain types like the Zener diode are specially designed to conduct in reverse bias once a specific breakdown voltage is reached, making them ideal for voltage regulation and overvoltage protection.

Diode Selection

For Power Supply and AC-to-DC Conversion

Standard Rectifier Diodes : Use these for basic AC-to-DC conversion in power supplies or for switching applications.

Bridge Rectifiers : Choose these pre-packaged sets of four diodes (single phase) or six diodes (three phase) when you need full-wave rectification of AC power. Unlike single-diode configurations that only utilize half of the AC waveform, bridge rectifiers convert both positive and negative half-cycles into positive DC output, resulting in efficient power conversion and smoother output voltage with less ripple.

For RF/High-Speed Applications

Schottky Diodes: Select these when you need fast switching speeds and low voltage drop (0.2-0.4V compared to 0.6-0.7V in standard diodes). Schottky diodes use a metal-semiconductor junction instead of a p-n junction, which allows for faster electron movement and reduced recovery time. This makes them ideal for high-frequency applications like digital circuits, RF applications, and switch-mode power supplies where efficiency is crucial.

PIN Diodes: Ideal for RF switching and signal attenuation with minimal distortion at high frequencies. These diodes feature an intrinsic (undoped) semiconductor layer between the p-type and n-type regions, which improves their high-frequency performance. Their resistance can be controlled by varying the forward bias current, making them excellent for RF switches, attenuators, and modulators in communication equipment.

For Frequency Tuning

Varicap/Varactor Diodes: These provide variable capacitance when reverse-biased, making them perfect for tuning circuits in radios and oscillators. When the reverse voltage applied to these diodes changes, the width of the depletion region between the p and n regions also changes, effectively altering the capacitance. This voltage-controlled capacitance property allows for electronic tuning in applications like FM radio receivers, voltage-controlled oscillators, and frequency synthesizers.

For Voltage Regulation

Zener Diodes : These maintain a constant voltage when operated in reverse bias mode beyond their breakdown voltage, making them excellent for voltage regulation. Unlike regular diodes that can be damaged by reverse breakdown, Zener diodes are specifically designed to operate safely in this region. They're manufactured with specific, precise breakdown voltages allowing them to clip excess voltage and protect sensitive components in circuits where voltage stability is critical.