The most common way of implementing a high-side power path or input switch is by using a MOSFET. Either an N-channel or P-channel MOSFET can be used as an input switch, each with a different driving ...

Additionally, its gate must be driven to a voltage higher than the positive supply voltage in order to switch on the MOSFET completely. Figure 1 shows both kinds of power stages for a half-bridge. A P ...

His solution is to add a P channel MOSFET which only allows power to flow when the polarity of the source voltage is correct. The schematic above shows the P-FET on the high side of the circuit.

Abstract: A p-type ternary logic MOSFET (P-TMOS), which serves as the counterpart to ... The P-TMOS consists of a PMOS and an n-type threshold switch (TS) connected in series. While the PMOS ...

Could you please point me to high voltage four terminal P-MOSFETS. Voltage ratings specification ( if not available for this specification, any 4 TERMINAL power MOSFET with lower ratings is also fine) ...

I saw high side switching mentioned in the datasheet, but I am unsure if my proposed schematic is correct; especially the CHG pin connections. Are the resistor diode and small P-MOSFET still required, ...

Do you want to avoid having multiple power adapters and microcontrollers for your project? The MOSFET Power Switch and Buck Regulator (Low-Side) is one product we needed at SparkFun, so we figured ...

Do you want to avoid having multiple power adapters for your project and your Arduino? The MOSFET Power Switch is one of those products that we needed ourselves at SparkFun, so we figured other folks ...