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VOLTAGE RANGE - 800 to 1800 V CURRENT - 60 A

FEATURES
▪ Blocking voltage:800 to 1800V
▪ Heat transfer through aluminum oxide DBC
   ceramic isolated metal baseplate
▪ Glass Passivated chip

APPLICATION
▪ Non-controllable Rectifiers for AC/AC converters
▪ Line Rectifiers for transistorized AC motor controllers
▪ Field supply for DC motors

VRRM 800 to 1800V
IFAV 36 A

Features
• Blocking voltage:800 to 1800V
• Heat transfer through aluminum oxide DBC ceramic isolated metal baseplate
• Glass Passivated chip
• UL recognized applied for file no. E360040

Applications
• Non-controllable Rectifiers for AC/AC converters
• Line Rectifiers for transistorized AC motor controllers
• Field supply for DC motors

VRRM 800 to 1800V
IFAV 60 A

Features
• Blocking voltage:800 to 1800V
• Heat transfer through aluminum oxide DBC ceramic isolated metal baseplate
• Glass Passivated chip
• UL recognized applied for file no. E360040

Applications
• Non-controllable Rectifiers for AC/AC converters
• Line Rectifiers for transistorized AC motor controllers
• Field supply for DC motors

VRRM 800 to 1800V
IFAV 36 Amp

Features
• Blocking voltage:800 to 1800V
• Heat transfer through aluminum oxide DBC
   ceramic isolated metal baseplate
• Glass Passivated chip

Applications
• Non-controllable Rectifiers for AC/AC
   converters
• Line Rectifiers for transistorized AC motor
   controllers
• Field supply for DC motors

VRRM 800 to 1800V
IFAV 60 Amp

Features
• Blocking voltage:800 to 1800V
• Heat transfer through aluminum oxide DBC
   ceramic isolated metal baseplate
• Glass Passivated chip

Applications
• Non-controllable Rectifiers for AC/AC
   converters
• Line Rectifiers for transistorized AC motor
   controllers
• Field supply for DC motors

VRRM 800 to 1800V
IFAV 120 Amp

Features
• Blocking voltage:800 to 1800V
• Heat transfer through aluminum oxide DBC
   ceramic isolated metal baseplate
• Glass Passivated chip

Applications
• Non-controllable Rectifiers for AC/AC
   converters
• Line Rectifiers for transistorized AC motor
   controllers
• Field supply for DC motors

VRRM 800 to 1800V
IFAV 200 A

Features
• Blocking voltage:800 to 1800V
• Heat transfer through aluminum oxide ceramic
   isolated metal baseplate
• Glass Passivated chip
• UL recognized applied for file no. E360040

Applications
• Non-controllable Rectifiers for AC/AC
   converters
• Line Rectifiers for transistorized AC motor
   controllers
• Field supply for DC motors

VRRM 800 to 1800V
IFAV 70 A

Features
• Blocking voltage:800 to 1800V
• Heat transfer through aluminum oxide DBC ceramic isolated metal baseplate
• Glass Passivated chip
• UL recognized applied for file no. E360040

Applications
• Non-controllable Rectifiers for AC/AC converters
• Line Rectifiers for transistorized AC motor controllers
• Field supply for DC motors

VRRM 800 to 1800V
IFAV 165 Amp

Features
• Blocking voltage:800 to 1800V
• Heat transfer through aluminum oxide DBC
   ceramic isolated metal baseplate
• Glass Passivated chip

Applications
• Non-controllable Rectifiers for AC/AC
   converters
• Line Rectifiers for transistorized AC motor
   controllers
• Field supply for DC motors

VRRM 800 to 1800V
IFAV 165 A

Features
• Blocking voltage:800 to 1800V
• Heat transfer through aluminum oxide DBC
   ceramic isolated metal baseplate
• Glass Passivated chip

Applications
• Non-controllable Rectifiers for AC/AC
   converters
• Line Rectifiers for transistorized AC motor
   controllers
• Field supply for DC motors
• PV combiner box