Overview
The FFSH2065BDN-F085 is a Silicon Carbide (SiC) Schottky Diode produced by onsemi. This component leverages advanced SiC technology to offer superior switching performance and higher efficiency compared to traditional silicon-based diodes. It is designed for high-power applications where reliability, efficiency, and robustness are critical.
Key Specifications
| Parameter | Value |
|---|---|
| Package / Case | TO-247-3 |
| Configuration | Dual Anode Common Cathode |
| If - Forward Current | 20 A |
| Vrrm - Repetitive Reverse Voltage | 650 V |
| Vf - Forward Voltage Drop | Typically 1.35 V at 20 A |
| Tj - Junction Temperature | -40°C to 175°C |
| Mounting Type | Through Hole |
Key Features
- High efficiency and low losses due to low forward voltage drop and fast switching times.
- High reliability and robustness, suitable for demanding high-power applications.
- Wide operating temperature range from -40°C to 175°C.
- Dual anode common cathode configuration for versatile use in various circuits.
- TO-247-3 package for easy mounting and thermal management.
Applications
The FFSH2065BDN-F085 SiC Schottky Diode is ideal for various high-power applications, including:
- Power supplies and DC-DC converters.
- Motor drives and inverter systems.
- Renewable energy systems such as solar and wind power.
- Electric vehicle charging infrastructure.
- High-frequency switching circuits.
Q & A
- What is the forward current rating of the FFSH2065BDN-F085?
The forward current rating is 20 A. - What is the repetitive reverse voltage rating of the FFSH2065BDN-F085?
The repetitive reverse voltage rating is 650 V. - What is the typical forward voltage drop of the FFSH2065BDN-F085?
The typical forward voltage drop is 1.35 V at 20 A. - What is the operating temperature range of the FFSH2065BDN-F085?
The operating temperature range is from -40°C to 175°C. - What is the package type of the FFSH2065BDN-F085?
The package type is TO-247-3. - What configuration does the FFSH2065BDN-F085 have?
The configuration is dual anode common cathode. - Where can the FFSH2065BDN-F085 be used?
It can be used in power supplies, DC-DC converters, motor drives, renewable energy systems, electric vehicle charging infrastructure, and high-frequency switching circuits. - Why is the FFSH2065BDN-F085 preferred over traditional silicon diodes?
It is preferred due to its superior switching performance, higher efficiency, and lower losses. - How does the FFSH2065BDN-F085 contribute to system reliability?
It contributes to system reliability through its robust design and wide operating temperature range. - What are the benefits of using SiC technology in the FFSH2065BDN-F085?
The benefits include higher efficiency, lower forward voltage drop, and faster switching times.
