Technical Document
Specifications
Brand
VishayChannel Type
N
Maximum Continuous Drain Current
28 A
Maximum Drain Source Voltage
600 V
Package Type
TO-220FP
Mounting Type
Through Hole
Pin Count
3
Maximum Drain Source Resistance
123 mΩ
Channel Mode
Enhancement
Minimum Gate Threshold Voltage
2V
Maximum Power Dissipation
39 W
Transistor Configuration
Single
Maximum Gate Source Voltage
-30 V, +30 V
Maximum Operating Temperature
+150 °C
Length
10.63mm
Typical Gate Charge @ Vgs
80 nC @ 10 V
Width
4.83mm
Transistor Material
Si
Number of Elements per Chip
1
Forward Diode Voltage
1.2V
Height
16.12mm
Series
EF Series
Minimum Operating Temperature
-55 °C
Country of Origin
China
Product details
N-Channel MOSFET with Fast Diode, EF Series, Vishay Semiconductor
Reduced Reverse Recovery Time, Reverse Recovery Charge, and Reverse Recovery Current
Low figure-of-merit (FOM)
Low input capacitance (Ciss)
Increased robustness due to low Reverse Recovery Charge
Ultra low gate charge (Qg)
MOSFET Transistors, Vishay Semiconductor
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P.O.A.
Standard
2
RS Components & Controls (I) Ltd
Distribution hub - B-89, Sector 67, Noida, Gautam Budh Nagar, (Uttar Pradesh), 201 301
P.O.A.
Standard
2
Technical Document
Specifications
Brand
VishayChannel Type
N
Maximum Continuous Drain Current
28 A
Maximum Drain Source Voltage
600 V
Package Type
TO-220FP
Mounting Type
Through Hole
Pin Count
3
Maximum Drain Source Resistance
123 mΩ
Channel Mode
Enhancement
Minimum Gate Threshold Voltage
2V
Maximum Power Dissipation
39 W
Transistor Configuration
Single
Maximum Gate Source Voltage
-30 V, +30 V
Maximum Operating Temperature
+150 °C
Length
10.63mm
Typical Gate Charge @ Vgs
80 nC @ 10 V
Width
4.83mm
Transistor Material
Si
Number of Elements per Chip
1
Forward Diode Voltage
1.2V
Height
16.12mm
Series
EF Series
Minimum Operating Temperature
-55 °C
Country of Origin
China
Product details
N-Channel MOSFET with Fast Diode, EF Series, Vishay Semiconductor
Reduced Reverse Recovery Time, Reverse Recovery Charge, and Reverse Recovery Current
Low figure-of-merit (FOM)
Low input capacitance (Ciss)
Increased robustness due to low Reverse Recovery Charge
Ultra low gate charge (Qg)