Wolfspeed Datasheets for Schottky Diodes
Schottky diodes in their simplest form consist of a metal layer that contacts a semiconductor element. The metal / semiconductor junctions exhibit rectifying behavior (i.e., the current passes through the structure more readily with one polarity than the other).
Schottky Diodes: Learn more
| Product Name | Notes |
|---|---|
| Benefits Compact surface-mount package Essentially no switching losses Higher efficiency Reduction of heat-sink requirements Parallel devices without thermal runaway Features 600-volt Schottky rectifier Optimized for PFC boost diode application Zero-reverse-recover... | |
| Benefits Replace bipolar with unipolar rectifiers Essentially no switching losses Higher efficiency Reduction of heat-sink requirements Parallel devices without thermal runaway Features 600-volt Schottky rectifier Zero reverse recovery current Zero... | |
| Benefits: Replace bipolar with unipolar rectifiers Essentially no switching losses Higher efficiency Reduction of heat-sink requirements Parallel devices without thermal runaway Features: 600-volt Schottky rectifier Zero reverse recovery current Zero... | |
| Benefits: Replace bipolar with unipolar rectifiers Essentially no switching losses Higher efficiency Reduction of heat-sink requirements Parallel devices without thermal runaway Features: 650-volt Schottky rectifier Optimized for PFC boost diode... | |
| Benefits: Replace bipolar with unipolar rectifiers Essentially no switching losses Higher efficiency Reduction of heat-sink requirements Parallel devices without thermal runaway No additional isolation required Features: 600-volt Schottky rectifier Optimized... | |
| Benefits Electrically isolated package Essentially no switching losses Higher efficiency Reduction of heat sink requirements Connect directly to heat sink without Sil-Pad Parallel devices without thermal runaway Features 650-volt Schottky... | |
| Benefits Electrically isolated package Essentially no switching losses Higher efficiency Reduction of heat-sink requirements Connect directly to heat sink without Sil-Pad Parallel devices without thermal runaway Features 650-volt Schottky rectifier... | |
| Benefits Replace bipolar with unipolar rectifiers Essentially no switching losses Higher efficiency Reduction of heat-sink requirements Connect directly to heat sink without Sil-Pad Parallel devices without thermal runaway Features 650-volt... | |
| Benefits Replace bipolar with unipolar rectifiers Essentially no switching losses Higher efficiency Reduction of heat-sink requirements Parallel devices without thermal runaway Features 1700-volt Schottky rectifier Zero reverse recovery current Zero... | |
| Benefits Replace bipolar with unipolar rectifiers Essentially no switching losses Higher efficiency Reduction of heat-sink requirements Parallel devices without thermal runaway Features 600-volt Schottky rectifier Optimized for PFC boost diode... | |
| Benefits Replace bipolar with unipolar rectifiers Essentially no switching losses Higher efficiency Reduction of heat-sink requirements Parallel devices without thermal runaway Features 600-volt Schottky rectifier Zero reverse recovery current Zero... | |
| Benefits Replace bipolar with unipolar rectifiers Essentially no switching losses Higher efficiency Reduction of heat-sink requirements Parallel devices without thermal runaway Features 650-volt Schottky rectifier Optimized for PFC boost diode... | |
| Benefits Replace bipolar with unipolar rectifiers Essentially no switching losses Higher efficiency Reduction of heat-sink requirements Parallel devices without thermal runaway Features 650-volt Schottky rectifier Zero reverse recovery current Zero... | |
| Benefits Replace bipolar with unipolar rectifiers Essentially no switching losses Higher efficiency Reduction of heat-sink requirements Parallel devices without thermal runaway Features 1.2 kV Schottky rectifier Zero reverse recovery current... | |
| Benefits Replace bipolar with unipolar rectifiers Essentially no switching losses Higher efficiency Reduction of heat-sink requirements Parallel devices without thermal runaway Features 1.2-kV Schottky rectifier Zero reverse recovery current High-frequency... | |
| Benefits Replace bipolar with unipolar rectifiers Essentially no switching losses Higher efficiency Reduction of heat-sink requirements Parallel devices without thermal runaway Features 1200-volt Schottky rectifier Optimized for PFC boost diode... | |
| Benefits Replace bipolar with unipolar rectifiers Essentially no switching losses Higher efficiency Reduction of heat-sink requirements Parallel devices without thermal runaway Features 1200-volt Schottky rectifier Zero reverse recovery current High-frequency... | |
| Benefits Replace bipolar with unipolar rectifiers Essentially no switching losses Higher efficiency Reduction of heat-sink requirements Parallel devices without thermal runaway Features 50-amp rated up to 130˚C Zero reverse recovery... | |
| Benefits Replace bipolar with unipolar rectifiers Essentially no switching losses Higher efficiency Reduction of heat-sink requirements Parallel devices without thermal runaway Features Zero reverse recovery current Zero forward recovery voltage... | |
| Benefits Replace bipolar with unipolar rectifiers Essentially no switching losses Higher efficiency Reduction of heat-sink requirements Parallel devices without thermal runaway Features Zero reverse-recovery current High-frequency operation Temperature-independ ent switching... | |
| Benefits Replace bipolar with unipolar rectifiers Essentially no switching losses Higher efficiency Reduction of heat-sink requirements Parallel devices without thermal runaway AEC-Q101-qualified and PPAP-capable Features 600-volt Schottky rectifier Zero reverse... | |
| Benefits Replace bipolar with unipolar rectifiers Essentially no switching losses Higher efficiency Reduction of heat-sink requirements Parallel devices without thermal runaway No additional isolation required Features 600-volt Schottky rectifier Optimized... | |
| Benefits Replace bipolar with unipolar rectifiers Essentially no switching losses Higher efficiency Reduction of heat-sink requirements Parallel devices without thermal runaway Recommended replacement of Wolfspeed existing C3D Diode Technology Features... | |
| Benefits Replace bipolar with unipolar rectifiers Essentially no switching losses Reduction of heat-sink requirements Parallel devices without thermal runaway Features 650-volt Schottky rectifier Reduced VF for improved efficiency High... | |
| Features 1200-volt Schottky rectifier Zero reverse recovery current Zero forward recovery voltage High-frequency operation Temperature-independ ent switching behavior Extremely fast switching Positive temperature coefficient on VF | |
| Features 1700-volt Schottky rectifier Zero reverse recovery current Zero forward recovery voltage High-frequency operation Temperature-independ ent switching behavior Extremely fast switching Positive temperature coefficient on VF | |
| Features 600-volt Schottky rectifier Zero reverse recovery current Zero forward recovery voltage High-frequency operation Temperature-independ ent switching behavior Extremely fast switching Positive temperature coefficient on VF | |
| Features 650-volt Schottky rectifier Zero reverse recovery current Zero forward recovery voltage High-frequency operation Temperature-independ ent switching behavior Extremely fast switching Positive temperature coefficient on VF | |
| Features 1200-volt Schottky rectifier Zero reverse recovery Zero forward recovery High-frequency operation Temperature-independ ent switching behavior Extremely fast swtitching Positive temperature coefficient on VF | |
| Features 600-volt Schottky rectifier Zero reverse recovery current Zero forward recovery voltage High-frequency operation Temperature-independ ent switching behavior Extremely fast switching Positive temperature coefficient on VF | |
| Features 650-volt Schottky rectifier Zero reverse recovery Zero forward recovery High-frequency operation Temperature-independ ent switching behavior Extremely fast switching Positive temperature coefficient on VF | |
| Features 650-volt Schottky rectifier Zero reverse recovery Zero forward recovery High-frequency operation Temperature-independ ent switching behavior Extremely fast swtitching Positive temperature coefficient on VF | |
| Features Wolfspeed’s most powerful SiC Schottky diode 1700-volt Schottky rectifier Zero reverse recovery Zero forward recovery High-frequency operation Temperature-independ ent switching behavior Extremely fast switching Positive temperature coefficient on V... | |
| Wolfspeed's E-Series diodes are specifically designed to be robust and relibale in the harshest environments. As a result, the E-Series diodes are the industry's first 1200V SiC diodes to be... |