Technical documents
Specifications
Brand
MicrochipChannel Type
N
Maximum Continuous Drain Current
190 mA
Maximum Drain Source Voltage
240 V
Package Type
TO-92
Mounting Type
Through Hole
Pin Count
3
Maximum Drain Source Resistance
10 Ω
Channel Mode
Enhancement
Maximum Gate Threshold Voltage
2V
Maximum Power Dissipation
1 W
Transistor Configuration
Single
Maximum Gate Source Voltage
-20 V, +20 V
Number of Elements per Chip
1
Maximum Operating Temperature
+150 °C
Length
5.2mm
Width
4.19mm
Transistor Material
Si
Minimum Operating Temperature
-55 °C
Height
5.33mm
Product details
Supertex N-Channel Enhancement Mode MOSFET Transistors
The Supertex range of N-channel enhancement-mode (normally-off) DMOS FET transistors from Microchip are suited to a wide range of switching and amplifying applications requiring a low threshold voltage, high breakdown voltage, high input impedance, low input capacitance and fast switching speeds.
MOSFET Transistors, Microchip
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₪ 3.356
Each (Supplied in a Bag) (ex VAT)
₪ 3.927
Each (Supplied in a Bag) (inc VAT)
10
₪ 3.356
Each (Supplied in a Bag) (ex VAT)
₪ 3.927
Each (Supplied in a Bag) (inc VAT)
10
Technical documents
Specifications
Brand
MicrochipChannel Type
N
Maximum Continuous Drain Current
190 mA
Maximum Drain Source Voltage
240 V
Package Type
TO-92
Mounting Type
Through Hole
Pin Count
3
Maximum Drain Source Resistance
10 Ω
Channel Mode
Enhancement
Maximum Gate Threshold Voltage
2V
Maximum Power Dissipation
1 W
Transistor Configuration
Single
Maximum Gate Source Voltage
-20 V, +20 V
Number of Elements per Chip
1
Maximum Operating Temperature
+150 °C
Length
5.2mm
Width
4.19mm
Transistor Material
Si
Minimum Operating Temperature
-55 °C
Height
5.33mm
Product details
Supertex N-Channel Enhancement Mode MOSFET Transistors
The Supertex range of N-channel enhancement-mode (normally-off) DMOS FET transistors from Microchip are suited to a wide range of switching and amplifying applications requiring a low threshold voltage, high breakdown voltage, high input impedance, low input capacitance and fast switching speeds.