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> News > Industry

Industry

Num：31

See：2689

2020-10

09

MOS tube anti-overvoltage circuit

NMOS tube backconnection circuit

As shown above

When the power is properly connected. The current flows from VIN to the load, through NMOS to GND. At the beginning of power on, because the body diode of the NMOS tube exists, the ground circuit is connected through the body diode. Later, because the V_GS is greater than the threshold voltage of V_GSTH, the MOS tube conducts.

When the power supply is connected backwards, the body diode does not work, and the VOLTAGE of V_GS will not meet the requirements, all NMOS tube is not connected, there is no current loop in the circuit, the circuit is open, the load does not work, will not burn out, to achieve protection.

It is important to note that the current in the circuit goes from S to D when the power supply is normally connected. The current direction used by conventional NMOS tubes is different.

It should be noted that the V_GS should not exceed the maximum V_GS withstand voltage value of NMOS tube under normal circumstances. If the V_GS exceeds the maximum V_GS withstand voltage value, a regulator tube can be bonded on the V_GS to prevent burnout.

PMOS tube backconnection circuit

The principle of the circuit is similar to that of the NMOS anti-backconnection circuit

Overvoltage proof circuit

When the V_IN input voltage is normal, there is no reverse breakdown of the regulator, and the current in R3 and R4 is basically 0. V_BE=0 of PNP triode, that is, PNP triode does not conduct. The V_GS of PMOS tube Q4 is determined by the partial voltage of resistor R5 and R6. The conduction of PMOS tube means that the power supply works normally.

When the V_IN input is greater than the normal input voltage, the V_IN>V_BR is broken down, and the voltage on the V_IN is V_BR. PNP triode Q1 conduction, V_CE≈0, that is, THE V_GS≈0 of PMOS tube, PMOS tube is not conductive, circuit is open, that is, overvoltage protection is realized.

Anti - anti - overvoltage circuit integrated

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