Manufacturer Part Number
DMV1500MFD5
Manufacturer
stmicroelectronics
Introduction
The DMV1500MFD5 is a high-voltage RF diode designed for applications requiring a series connection of diodes with a peak reverse voltage up to 1500V.
Product Features and Performance
Standard Diode Type with 1 Pair Series Connection
Peak Reverse Voltage stands at 1500V
Supports a Maximum Current of 6 A
Capable of operating at temperatures up to 150°C (TJ)
Housed in a TO-220-3 Full Pack with Formed Leads
Specifically tailored for high voltage applications
Product Advantages
Ability to handle high voltage requirements
Robust temperature performance, suitable for high operating temperatures
Provides a compact and reliable solution through its TO-220-3 Full Pack packaging
Direct series connection capability without needing additional components
Key Technical Parameters
Voltage Peak Reverse (Max): 1500V
Current Max: 6 A
Operating Temperature: 150°C (TJ)
Package: TO-220-3 Full Pack, Formed Leads
Quality and Safety Features
Manufactured by stmicroelectronics, a leader in semiconductor solutions
Designed to ensure stable operation under high voltage and temperature conditions
Compatibility
The packaging and electrical parameters are designed for seamless integration in circuits requiring high voltage diode pairs
Application Areas
RF Applications
High-voltage power supplies
Industrial and medical equipment
Any application requiring reliable high-voltage rectification
Product Lifecycle
The product is marked as obsolete, suggesting it is nearing the end of its lifecycle
Potential buyers should consider looking for replacements or upgrades if continuity of supply is a concern
Several Key Reasons to Choose This Product
High peak reverse voltage capacity suitable for demanding applications
Enhanced thermal performance allows it to work under high temperatures
Comes from a reputable manufacturer known for quality and reliability
Its packaging and form factor facilitate easy integration into existing designs
Though obsolete, it remains an excellent choice for specific applications where its unique characteristics are unrivaled