NKFD200-40
nELL
402.60kb
Ultrafast soft recovery diode module. FRED diodes are optimized to reduce losses and EMI/RFI in high frequency power conditioning systems. An extensive characterization of
TAGS
📁 Related Datasheet
NKFD100-40 - FAST RECOVERY DIODE MODULES
(nELL)
SEMICONDUCTOR NKFD100-40(A) ~ NKFD100-60(A) RRooHHSS
FAST RECOVERY DIODE MODULES TYPE
Features
High Surge Capability Dual Diode Consturction Low Leak.
NKFD100-40A - FAST RECOVERY DIODE MODULES
(nELL)
SEMICONDUCTOR NKFD100-40(A) ~ NKFD100-60(A) RRooHHSS
FAST RECOVERY DIODE MODULES TYPE
Features
High Surge Capability Dual Diode Consturction Low Leak.
NKFD100-60 - FAST RECOVERY DIODE MODULES
(nELL)
SEMICONDUCTOR NKFD100-40(A) ~ NKFD100-60(A) RRooHHSS
FAST RECOVERY DIODE MODULES TYPE
Features
High Surge Capability Dual Diode Consturction Low Leak.
NKFD100-60A - FAST RECOVERY DIODE MODULES
(nELL)
SEMICONDUCTOR NKFD100-40(A) ~ NKFD100-60(A) RRooHHSS
FAST RECOVERY DIODE MODULES TYPE
Features
High Surge Capability Dual Diode Consturction Low Leak.
NKFD400 - FAST RECOVERY DIODE MODULES
(nELL)
.
NKF110-60 - FAST RECOVERY DIODE MODULES
(nELL)
SEMICONDUCTOR
NKF110-60(A) RRooHHSS
FAST RECOVERY DIODE MODULES TYPE
Features
High Surge Capability Dual Diode Consturction Low Leakage Current Low.
NKF110-60A - FAST RECOVERY DIODE MODULES
(nELL)
SEMICONDUCTOR
NKF110-60(A) RRooHHSS
FAST RECOVERY DIODE MODULES TYPE
Features
High Surge Capability Dual Diode Consturction Low Leakage Current Low.
NKF200-60 - FAST RECOVERY DIODE MODULES
(nELL)
SEMICONDUCTOR
NKF200-60(A) RRooHHSS
FAST RECOVERY DIODE MODULES TYPE
Features
High Surge Capability Dual Diode Consturction Low Leakage Current Low.
NKF200-60A - FAST RECOVERY DIODE MODULES
(nELL)
SEMICONDUCTOR
NKF200-60(A) RRooHHSS
FAST RECOVERY DIODE MODULES TYPE
Features
High Surge Capability Dual Diode Consturction Low Leakage Current Low.
NK15Ax - (NK15Ax / NK17Ax) TFT-LCD TV/MONITOR
(Samsung)
CONFIDENTIAL TFT-LCD TV/MONITOR
NK15A*/NK17A*
SERVICE
TFT-LCD TV/MONITOR
Manual
CONTENTS
1. Precautions 2. Product Specifications 3. Disassembly & R.