The NTMFS4C029N, manufactured by ON Semiconductor, is a high-performance, single N-channel MOSFET designed for power applications. This MOSFET features a low RDS(on) to minimize conduction losses, low capacitance to reduce driver losses, and an optimized gate charge to minimize switching losses. It is packaged in a compact SO-8 FL package, making it suitable for space-constrained designs. The component can handle a maximum drain-to-source voltage (VDSS) of 30 V and a continuous drain current (ID) of up to 46 A at 25°C. It is ideal for applications such as CPU power delivery and DC-DC converters. The NTMFS4C029N is Pb-free, halogen-free/BFR-free, and RoHS compliant, ensuring it meets modern environmental and safety standards.

The BSS138, manufactured by Diodes Incorporated, is an N-Channel Enhancement Mode MOSFET designed for high-efficiency power management applications. This component features a low on-resistance (RDS(ON)) of 3.5Ω at VGS = 10V and a drain-source voltage (BVDSS) of 50V, making it ideal for system/load switching applications. Key benefits include a low gate threshold voltage, low input capacitance, and fast switching speed, ensuring superior performance in various electronic circuits. The BSS138 is available in a SOT23 package and is fully RoHS compliant, halogen and antimony-free, and classified as a "Green" device, suitable for environmentally conscious designs. Additionally, an automotive-compliant version (BSS138Q) is available for applications requiring stringent change control and high reliability, adhering to AEC-Q100/101/200 standards.

The PAN JIT SEMICONDUCTOR PJC831K is a 50V N-Channel Enhancement Mode MOSFET designed for switch load and PWM applications, with added ESD protection up to 2KV HBM. Utilizing advanced trench process technology, it offers low RDS(on) values of <1.60Ω at VGS=10V, <2.50Ω at VGS=4.5V, and <4.50Ω at VGS=2.5V. The component is capable of handling a continuous drain current of 360 mA and a pulsed drain current of up to 1200 mA, constrained by a maximum power dissipation of 236 mW at 25°C. The MOSFET is housed in a SOT-323 package with excellent thermal resistance characteristics (530°C/W junction to ambient). It meets RoHS 2.0 compliance and IEC 61249 standards with a green molding compound. Featuring minimal gate charge and fast switching times, this MOSFET is optimized for efficiency and reliability in demanding applications.

The LS3018N, manufactured by iSion, is an N-Channel Enhancement Mode MOSFET designed for low voltage drive applications, making it ideal for portable equipment. Available in a compact SOT-323 package, this MOSFET features low on-resistance and fast switching speeds, facilitating easy drive circuit design and parallel configurations. The device operates with a gate-source voltage as low as 2.5V and can handle a continuous drain current of up to 100mA, with a peak drain current of 400mA. The LS3018N supports a maximum drain-source voltage of 60V and a gate-source voltage of +20V. It offers robust thermal performance with a junction-to-ambient thermal resistance of 833°C/W and is compliant with RoHS standards. Key electrical characteristics include a drain-source breakdown voltage of 60V, a gate threshold voltage range of 0.8V to 1.5V, and a static drain-source on-resistance as low as 3.0Ω at VGS of 4V. The component also features minimal input capacitance, making it suitable for high-speed switching applications.

This project is a Pulse Width Modulation (PWM) Controller, built around an LM555 timer IC. It controls a load connected to a MOSFET, with adjustments via a potentiometer, and uses capacitors, resistors and diodes for various functions. #PWM #controller #project #Template #projectTemplate

This is a IR2110 high side mosfet driver circuit with mosfet included. This is a circuit I use often and I believe it is time to give it its own board and project.

Welcome to your new project. Imagine what you can build here.

Welcome to your new project. Imagine what you can build here.

30V 12A 940mW 9.5mΩ@10V,11.5A P Channel PowerDI3333-8 MOSFETs

This project is a Lithium-ion battery charger circuit based on LTC4007 IC. The design incorporates n-channel power MOSFETs and extensive protection features for overcurrent, overvoltage, undervoltage, and overtemperature conditions. It is ideal for portable, battery-powered systems. #project #LTC4007 #ReferenceDesign #charger #BatteryManagement #reusable #module #bms #analog #template

This project is a Lithium-ion battery charger circuit based on LTC4007 IC. The design incorporates n-channel power MOSFETs and extensive protection features for overcurrent, overvoltage, undervoltage, and overtemperature conditions. It is ideal for portable, battery-powered systems. #project #LTC4007 #ReferenceDesign #charger #BatteryManagement #reusable #module #bms #analog #template

This project is a reference design for the VCNL3040 sensor interfaced via I2C. It includes a VCNL3040 ambient light sensor, a voltage regulator (AP2112K-3.3TRG1), an I2C level shifter using BSS138 MOSFETs, and necessary support components. Circuit interfaces through a JST connector. All components are powered by a 3.3V power source. #referenceDesign #industrialsensing #vishay #template #reference-design

Multi-layer circular BLDC motor controller for a 24 V, up to 750 W system using an ESP32-WROOM with DRV8323RS gate driver, six external MOSFETs, 2 mOhm shunt current sensing, bottom-mounted AS5600 encoder, USB-C programming/user interface, 3.3 V logic powered from the DRV8323RS buck regulator, and heavy motor phase pads sized for approximately 30 A current paths. Target layout is a circular board around 50 mm diameter, expandable if required for thermal management, power routing, and signal integrity.

2 Mosfets

This project is a Lithium-ion battery charger circuit based on LTC4007 IC. The design incorporates n-channel power MOSFETs and extensive protection features for overcurrent, overvoltage, undervoltage, and overtemperature conditions. It is ideal for portable, battery-powered systems. #project #LTC4007 #ReferenceDesign #charger #BatteryManagement #reusable #module #bms #analog #template

This project is a Lithium-ion battery charger circuit based on LTC4007 IC. The design incorporates n-channel power MOSFETs and extensive protection features for overcurrent, overvoltage, undervoltage, and overtemperature conditions. It is ideal for portable, battery-powered systems. #project #LTC4007 #ReferenceDesign #charger #BatteryManagement #reusable #module #bms #analog #template

This project is a design for a UV sensor circuit based on the Lite-On LTR-390UV-01. Key components include a voltage regulator (AP2112K-3.3TRG1), level-shifting N-channel MOSFETs (BSS138), resistors, and capacitors. The circuit interface includes I2C communication and power connections, facilitated through JST connectors. #referenceDesign #industrialsensing #liteon #template #reference-design

MOSFETs AGM318MAP PDFN3333-8_L3.3-W3.3 1-PMOS AND 1-NMOS

MOSFETs RUH4040M2 PDFN3333-8_L3.1-W3.2-P0.65-LS3.4-BL LCSC Part Number: C521556 JLCPCB Part Class: Extended Part Manufactured by Ruichips(锐骏半导体)

MOSFETs VBK3215N SC-70-6_L2.2-W1.3-P0.65-LS2.1-BR LCSC Part Number: C516947 JLCPCB Part Class: Extended Part Manufactured by VBsemi(微碧半导体)

MOSFETs VBK3215N SC-70-6_L2.2-W1.3-P0.65-LS2.1-BR LCSC Part Number: C516947 JLCPCB Part Class: Extended Part Manufactured by VBsemi(微碧半导体)

MOSFETs VBK3215N SC-70-6_L2.2-W1.3-P0.65-LS2.1-BR LCSC Part Number: C516947 JLCPCB Part Class: Extended Part Manufactured by VBsemi(微碧半导体)

TMF8801-1BM time-of-flight (ToF) sensor from ams-OSRAM. It comprises electronic components such as resistors, capacitors, voltage regulators, and GPIO connectors. The logic signals are managed via Mosfets BSS138 while the Sensor IC is powered & controlled by a 3.3V AP2112K Voltage Regulator.

The TPSM64404, TPSM64406, and TPSM64406E from Texas Instruments are highly integrated synchronous buck power modules designed for high power density and low EMI performance. These modules feature integrated MOSFETs, inductors, and controllers within a compact 6.5mm × 7.0mm × 2mm overmolded package, making them ideal for space-constrained applications. They support a wide input voltage range of 3V to 36V and deliver adjustable output voltages from 0.8V to 16V. The TPSM64404 offers dual 2A outputs or a stackable 4A output, while the TPSM64406 and TPSM64406E provide dual 3A outputs or a stackable 6A output, with the TPSM64406E rated for extended temperature ranges down to -55℃. These modules achieve peak efficiencies exceeding 93.5% and feature ultra-low quiescent current, making them suitable for battery-powered applications. Designed to meet stringent EMI standards, the modules include features such as dual input paths, integrated capacitors, spread spectrum modulation, and low-noise packaging. Additional functionalities include precision enable inputs, power-good indicators, overcurrent protection, thermal shutdown, and the ability to configure for multiphase operation up to 18A. The TPSM6440xx series is optimized for test and measurement, aerospace, defense, and factory automation applications.

Texas Instruments' TPSM6440xx series, including the TPSM64404, TPSM64406, and TPSM64406E, are highly integrated synchronous buck power modules designed for applications requiring high power density and low EMI. These modules support dual output or multiphase single output configurations, operating over a wide input voltage range from 3V to 36V and delivering adjustable output voltages from 0.8V to 16V. Encased in a compact 6.5mm x 7.0mm x 2mm overmolded package, they feature integrated MOSFETs, inductors, and controllers, ensuring ease of design and high efficiency with peak performance exceeding 93.5%. The TPSM6440xx modules are optimized for low noise and EMI, meeting CISPR 11 and 32 Class B emissions standards. They include robust protection features like precision enable inputs, power good indicators, overcurrent, and thermal shutdown protections, making them suitable for demanding applications in test and measurement, aerospace, defense, and factory automation. With a flexible design approach, these modules can be easily configured using Texas Instruments' WEBENCH® Power Designer tool.