FQU13N10-VB an N-channel TO251 packaged MOS tube

"**Model: FQU13N10-VB**

*Silk screen: VBFB1101M*

*Brand: VBsemi*

*Parameters:*
- Package: TO251
- Type: N-Channel Channel
- Rated voltage: 100V
- Rated current: 15A
- Turn-on resistance (RDS(ON)): 115mΩ (when VGS=10V, VGS=20V)
- Threshold voltage (Vth): 1.41V

**Package: **
- Package type: TO251

**Detailed parameter description: **
FQU13N10-VB is an N-Channel channel field effect transistor, using TO251 package, suitable for occasions where the operating voltage is 100V and the current is 15A. Its turn-on resistance is 115mΩ at different gate-source voltages, which can provide lower on-resistance and is suitable for high-power applications. The threshold voltage is 1.41V, suitable for a variety of circuit design needs.

*Application Introduction:*
This type of transistor is mainly used in various electronic equipment and circuits, especially suitable for applications requiring high voltage and high current. Common application areas include power management, power amplification, switching power supplies, motor drives, etc.

*Application field module:*
1. *Power management module:* In the power management circuit, the N-Channel channel transistor can be used for power switching and power regulation, effectively controlling the stability and efficiency of the circuit. .

2. *Power amplification module:* Due to its high current and low on-resistance, it can be used in power amplification circuits, such as audio amplifiers, etc.

3. *Switching power supply module:* In high-power switching power supplies, this transistor can be used for switching regulation and power amplification, providing reliable switching performance.

4. *Motor drive module:* Suitable for high-power motor control circuits, providing sufficient current and low resistance to ensure the normal operation of the motor.

*Usage Precautions:*
1. *Operating voltage limit:* Do not exceed the specified maximum operating voltage to prevent device damage.

2. *Current limit:* Make sure to use it within the specified current range. Exceeding the rated current may cause overheating and failure.

3. *Threshold voltage adaptation:* When designing the circuit, ensure that the gate-source voltage is within the specified range to ensure normal operation.

4. *Heat Dissipation:* In high power applications, appropriate heat dissipation measures are required to ensure that the device operates within the appropriate temperature range.

5. *Avoid static electricity:* Avoid generating static electricity during handling and use, and take anti-static measures to avoid damage to the device.

The above are some common usage precautions. The specific usage details need to be adjusted according to the specific circuit design and application environment. Always refer to the data sheet and manufacturer's instructions to ensure proper use and application."