Technical documents
Specifications
Brand
MicrochipChannel Type
N
Maximum Continuous Drain Current
30 mA
Maximum Drain Source Voltage
500 V
Package Type
TO-92
Mounting Type
Through Hole
Pin Count
3
Maximum Drain Source Resistance
1 kΩ
Channel Mode
Depletion
Maximum Gate Threshold Voltage
3V
Maximum Power Dissipation
740 mW
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 Depletion Mode MOSFET Transistors
The Supertex range of N-channel depletion-mode DMOS FET transistors from Microchip are suited to applications requiring high breakdown voltage, high input impedance, low input capacitance and fast switching speeds.
Features
High input impedance
Low input capacitance
Fast switching speeds
Low on-resistance
Free from secondary breakdown
Low input and output leakage
Typical Applications
Normally-on switches
Solid state relays
Converters
Linear amplifiers
Constant current sources
Power supply circuits
Telecoms
MOSFET Transistors, Microchip
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P.O.A.
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P.O.A.
20
Technical documents
Specifications
Brand
MicrochipChannel Type
N
Maximum Continuous Drain Current
30 mA
Maximum Drain Source Voltage
500 V
Package Type
TO-92
Mounting Type
Through Hole
Pin Count
3
Maximum Drain Source Resistance
1 kΩ
Channel Mode
Depletion
Maximum Gate Threshold Voltage
3V
Maximum Power Dissipation
740 mW
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 Depletion Mode MOSFET Transistors
The Supertex range of N-channel depletion-mode DMOS FET transistors from Microchip are suited to applications requiring high breakdown voltage, high input impedance, low input capacitance and fast switching speeds.
Features
High input impedance
Low input capacitance
Fast switching speeds
Low on-resistance
Free from secondary breakdown
Low input and output leakage
Typical Applications
Normally-on switches
Solid state relays
Converters
Linear amplifiers
Constant current sources
Power supply circuits
Telecoms