2 x International Rectifier AUIRF2804 N-channel MOSFET Transistor 270A 40V 3-Pin - International Rectifier
International Rectifier
International Rectifier AUIRF2804 N-channel MOSFET Transistor, 270A, 40V, 3-Pin TO-220AB
- You will get a pack of 2 Transistors in Anti Static packaging,
- BMUK Part # :-715-7706
- BrandInternational Rectifier
- Mfr. Part No.AUIRF2804
Automotive N-Channel Power MOSFET, Infineon
Infineon's comprehensive portfolio of AECQ-101 Automotive-qualified single die N-channel devices addresses a wide variety of power requirements in many applications. This range of discrete HEXFET® power MOSFETs includes N-channel devices in surface mount and leaded packages and form factors that can address almost any board layout and thermal design challenge. Across the range benchmark on resistance drives down conduction losses, allowing designers to deliver optimum system efficiency.
MOSFET Transistors, Infineon (IR)
MOSFET Transistors, Infineon
Infineon comprehensive portfolio of rugged single and dual N-channel and P-channel devices offer fast switching speeds and addresses a wide variety of power requirements. Applications range from ac-dc and DC-DC power supplies to audio and consumer electronics and from motor control to lighting and home appliances.
Channel Type | N | |
Maximum Continuous Drain Current | 270 A | |
Maximum Drain Source Voltage | 40 V | |
Maximum Drain Source Resistance | 2.3 mΩ | |
Maximum Gate Source Voltage | ±20 V | |
Package Type | TO-220AB | |
Mounting Type | Through Hole | |
Pin Count | 3 | |
Channel Mode | Enhancement | |
Category | Power MOSFET | |
Maximum Power Dissipation | 300 W | |
Configuration | Dual Drain, Single | |
Number of Elements per Chip | 1 | |
Maximum Operating Temperature | +175 °C | |
Height | 16.51mm | |
Minimum Operating Temperature | -55 °C | |
Width | 4.82mm | |
Length | 10.66mm | |
Dimensions | 10.66 x 4.82 x 16.51mm | |
Typical Gate Charge @ Vgs | 160 nC@ 10 V | |
Typical Input Capacitance @ Vds | 6450 pF@ 25 V | |
Typical Turn-Off Delay Time | 130 ns | |
Typical Turn-On Delay Time | 13 ns |