Single Diodes

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Product Status
Technology
Voltage - DC Reverse (Vr) (Max)
Current - Average Rectified (Io)
Voltage - Forward (Vf) (Max) @ If
Speed
Reverse Recovery Time (trr)
Current - Reverse Leakage @ Vr
Capacitance @ Vr, F
Grade
Qualification
Mounting Type
Package / Case
Supplier Device Package
Operating Temperature - Junction
DO-214AA
STTH212U
DIODE STANDARD 1200V 2A SMB
STMicroelectronics
4,622
In Stock
1 : $0.57000
Cut Tape (CT)
2,500 : $0.13433
Tape & Reel (TR)
Tariff may apply if shipping to the United States
-
Tape & Reel (TR)
Cut Tape (CT)
Digi-Reel®
Active
Standard
1200 V
2A
1.75 V @ 2 A
Fast Recovery =< 500ns, > 200mA (Io)
75 ns
10 µA @ 1200 V
-
-
-
Surface Mount
DO-214AA, SMB
SMB
175°C (Max)
5,504
In Stock
1 : $0.25000
Cut Tape (CT)
1,800 : $0.05454
Tape & Reel (TR)
-
-
Tape & Reel (TR)
Cut Tape (CT)
Digi-Reel®
Active
Standard
1000 V
1A
1.1 V @ 1 A
Standard Recovery >500ns, > 200mA (Io)
1.8 µs
5 µA @ 1000 V
12pF @ 4V, 1MHz
Automotive
AEC-Q101
Surface Mount
DO-214AC, SMA
DO-214AC (SMA)
-55°C ~ 150°C
8,502
In Stock
1 : $0.49000
Cut Tape (CT)
3,200 : $0.11918
Tape & Reel (TR)
-
-
Tape & Reel (TR)
Cut Tape (CT)
Digi-Reel®
Active
Schottky
40 V
4A
490 mV @ 4 A
Fast Recovery =< 500ns, > 200mA (Io)
-
400 µA @ 40 V
-
-
-
Surface Mount
DO-214AA, SMB
DO-214AA (SMB)
-65°C ~ 150°C
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Types of Rectifier Diodes

Standard Rectifier Diodes
  • Standard Diodes (Silicon PN Junction)
    Standard diodes are the most basic type of rectifier diode, made from silicon with a PN junction. They’re commonly used in AC-to-DC converters, power rectification, and general circuit protection. These diodes typically have a forward voltage drop around 0.7V and are best suited for low-frequency switching. Their reverse recovery time (how quickly they stop conducting when switched off) is relatively slow, which limits their use in high-speed applications. They also have low reverse leakage current, which makes them reliable for steady-state operations.

  • Schottky Barrier Diodes (SBD)
    Schottky diodes (SBDs) use a metal-semiconductor junction instead of a traditional PN junction, resulting in faster switching speeds and lower forward voltage drops—often between 0.2V and 0.4V. This makes them ideal for DC-DC converters, high-efficiency power supplies, and circuits where minimizing power loss is critical. However, one drawback of SBDs is their higher reverse leakage current, especially at elevated temperatures, which can be a concern in precision or battery-operated devices.

  • Super Barrier Rectifiers (SBR)
    Super Barrier Rectifiers (SBRs) combine the best traits of standard diodes and Schottky diodes. They offer low forward voltage drop like SBDs, but with significantly lower reverse leakage current and improved reverse voltage handling. SBRs are well-suited for switching power converters, adapters, and automotive electronics, where energy efficiency and thermal stability are important. They’re often a better choice than Schottky diodes when the application involves higher ambient temperatures or larger voltage transients.

  • Avalanche Diodes
    Avalanche diodes are designed to operate reliably in reverse breakdown mode, where they safely conduct current once a specific reverse voltage threshold is exceeded. Unlike standard diodes that can be damaged by breakdown, avalanche diodes are built to handle this condition repeatedly and predictably.
    • In fast switching rectification, avalanche diodes are sometimes preferred over standard PN diodes because of their improved reverse recovery behavior, which reduces switching losses and improves overall converter efficiency. Their ability to withstand high reverse voltage transients without degradation makes them particularly suited for snubber circuits, flyback converters, and hard-switched topologies.

  • Silicon Carbide (SiC) Diodes
    SiC diodes are built from silicon carbide, a wide-bandgap material that allows them to handle very high voltages (600V and up) and extreme temperatures (>150°C). They are ideal for industrial converters, electric vehicle chargers, solar inverters, and motor drives, especially in circuits requiring fast switching and zero reverse recovery time. Although more expensive than silicon-based diodes, their durability and efficiency at high voltages and frequencies often make them the best long-term choice in demanding applications.