
SCTW100N65G2AG
Manufacturer Part Number: SCTW100N65G2AG | Manufacturer / Brand: STMicroelectronics |
Part of Description: SoC FPGA SCTW100N65G2AG | Lead Free Status / RoHS Status: ![]() |
Ship From: HK/Shen Zhen | Shipment Way: DHL/Fedex/TNT/UPS |
Datasheets: |
Product parameters
Manufacturer | STMicroelectronics |
RoHS | Details |
Package | Reel |
Package / Case | TO-247-3 |
Mounting Style | SMD/SMT |
Brand | STMicroelectronics |
Maximum Operating Temperature | -55 C |
Minimum Operating Temperature | +200C |
Series | SCTW100N65G2AG |
Grade | Automotive |
Moisture Sensitive | Yes |
Factory Pack Quantity | 600 |
Unit Weight | 0.158733 oz |
Subcategory | MOSFETs |
Qualification | AEC-Q101 |
Technology | SiC |
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What is SCTW100N65G2AG?
Type: Power MOSFET
MOSFETs are a type of transistor that is commonly used for switching and amplification of electronic signals, especially in power electronics applications.
Voltage Rating:
The part number does not explicitly mention the voltage rating. MOSFETs are typically rated for a specific maximum voltage, indicating the maximum voltage they can handle in a circuit.
Current Rating:
MOSFETs are rated for a maximum current they can carry. The current rating is a crucial parameter for power handling capability.
Power Dissipation:
Indicates the maximum amount of power the MOSFET can dissipate without damage.
Gate-Source Voltage (VGS):
The voltage applied between the gate and source terminals to control the MOSFET.
On-State Resistance (RDS(on)):
The resistance of the MOSFET when it is in the fully conducting state. A lower RDS(on) value typically indicates better conduction and less power loss.
Package Type:
The “AG” in the part number typically refers to the package type. Different package types have different physical forms and thermal characteristics.
Applications:
Power MOSFETs like the SCTW100N65G2AG are used in various applications, including power supplies, motor control, inverters, and other power electronics applications.
SCTW100N65G2AG Applications:
Switching Power Supplies:
Power MOSFETs are frequently used in switching power supplies for voltage regulation and power conversion.
Motor Control:
In motor control applications, MOSFETs are employed to drive and control the speed of electric motors.
Inverters:
Power MOSFETs are a key component in inverters used for converting DC power to AC power, as seen in solar inverters and uninterruptible power supplies (UPS).
Electronic Ballasts:
In lighting applications, power MOSFETs can be used in electronic ballasts for fluorescent lamps.
Power Amplifiers:
Power MOSFETs can be used in the output stage of audio power amplifiers for efficient signal amplification.
Voltage Regulators:
MOSFETs are used in voltage regulator circuits to control and stabilize output voltage.
DC-DC Converters:
Power MOSFETs play a crucial role in DC-DC converter circuits, where they enable efficient voltage conversion.
Battery Management Systems:
MOSFETs are used in battery management systems for controlling charging and discharging processes.
Renewable Energy Systems:
In applications such as solar power systems and wind energy converters, power MOSFETs are used for power control.
Automotive Electronics:
Power MOSFETs find applications in automotive systems, including electronic control units (ECUs), power steering systems, and electric vehicle powertrains.
Inductive Heating:
In applications where inductive heating is required, such as induction cooktops and industrial heating systems.
Power Factor Correction (PFC) Circuits:
Power MOSFETs are utilized in PFC circuits to improve the power factor of electronic devices.
Uninterruptible Power Supplies (UPS):
In UPS systems, power MOSFETs are used for efficient power conversion and management during power outages.
High-Frequency Switching Applications:
Power MOSFETs are suitable for high-frequency switching applications due to their fast switching speeds.
Audio Amplification:
In addition to power amplifiers, MOSFETs can be used in audio preamplifiers and other audio processing circuits.