IPD30N10S3L-34 Detailed explanation of pin function specifications and circuit principle instructions

The component "IPD30N10S3L-34" is a MOSFET (Metal-Oxide-Semiconductor Field-Effect transistor ) that belongs to Infineon Technologies, a well-known manufacturer of semiconductor products. This specific MOSFET is part of the IPD series and is designed for power switching applications in various electronic devices.

Regarding the package type of this component, the IPD30N10S3L-34 comes in a TO-220 package. This is a common package type for power MOSFETs , which provides a good balance between thermal performance and ease of use in power applications.

Pinout and Pin Function List for IPD30N10S3L-34 (TO-220 Package)

In the TO-220 package for the IPD30N10S3L-34, the component has 3 pins. Below is a detailed description of each pin and its function:

Pin Number Pin Name Pin Function Description Pin 1 Drain The Drain pin is used to connect the MOSFET to the external load. It carries the current that is controlled by the MOSFET. This pin should be connected to the positive rail of the circuit. Pin 2 Source The Source pin is the terminal that is connected to the ground or negative rail of the power supply in the circuit. Current flows from the Drain to the Source when the MOSFET is conducting. Pin 3 Gate The Gate pin is used to control the switching of the MOSFET. Applying a voltage to the Gate creates an electric field that allows current to flow between the Drain and Source.

Circuit Principle of the IPD30N10S3L-34 MOSFET

The IPD30N10S3L-34 is an N-channel MOSFET. When a voltage is applied to the Gate relative to the Source, it forms an electric field that allows current to flow between the Drain and Source. The ability to switch the MOSFET on and off makes it ideal for controlling the power in circuits like power supplies, motor drivers, and other high-voltage applications.

When the Gate voltage is above the threshold voltage (Vth), the MOSFET enters conduction mode, allowing current to flow from Drain to Source. When the Gate voltage is below the threshold voltage, the MOSFET turns off, preventing current from flowing.

Pinout Diagram

In the TO-220 package, the pins are arranged as follows:

________ | | Pin 3| G | Pin 1 | | Pin 2| S | Pin 1 |________| Drain

Pin Legend:

Pin 1: Drain Pin 2: Source Pin 3: Gate

20 FAQ for IPD30N10S3L-34 MOSFET

What is the package type of IPD30N10S3L-34? The IPD30N10S3L-34 comes in a TO-220 package.

How many pins does the IPD30N10S3L-34 have? The IPD30N10S3L-34 has 3 pins.

What is the maximum drain-source voltage of IPD30N10S3L-34? The maximum drain-source voltage is 100V.

What is the maximum drain current of IPD30N10S3L-34? The maximum drain current is 30A.

What is the threshold voltage of the IPD30N10S3L-34? The threshold voltage of the IPD30N10S3L-34 is between 1.0V and 3.0V.

What is the gate charge for IPD30N10S3L-34? The gate charge is 80nC at a Vgs of 10V.

Is the IPD30N10S3L-34 suitable for high-frequency applications? Yes, it is suitable for high-frequency power applications like switching power supplies.

What is the Rds(on) (Drain-Source on resistance) of IPD30N10S3L-34? The Rds(on) is typically 0.038Ω at Vgs = 10V.

What is the maximum power dissipation of the IPD30N10S3L-34? The maximum power dissipation is 100W.

Can IPD30N10S3L-34 be used in automotive applications? Yes, it can be used in automotive applications as it is designed for high-efficiency power control.

What is the thermal resistance junction-to-case for IPD30N10S3L-34? The thermal resistance junction-to-case is 3°C/W.

What is the maximum operating temperature for IPD30N10S3L-34? The maximum operating temperature is 150°C.

What type of device is the IPD30N10S3L-34? The IPD30N10S3L-34 is an N-channel MOSFET.

Can the IPD30N10S3L-34 be used for switching inductive loads? Yes, the IPD30N10S3L-34 can be used for switching inductive loads like motors or relays.

How can the gate voltage be controlled for switching? The gate voltage can be controlled via a microcontroller, PWM signal, or other logic-level signals.

Is the IPD30N10S3L-34 suitable for use in DC-DC converters? Yes, it is ideal for use in DC-DC converters due to its high efficiency.

How should the IPD30N10S3L-34 be mounted? It should be mounted on a heat sink or use a suitable PCB layout to ensure effective heat dissipation.

Is there any protection needed when using the IPD30N10S3L-34? Yes, you may need gate resistors and flyback diodes to protect the MOSFET in high-voltage applications.

What is the ideal Gate-Source voltage for switching the IPD30N10S3L-34? The ideal Gate-Source voltage is 10V for optimal switching performance.

What are the advantages of using IPD30N10S3L-34 over traditional bipolar transistors? The IPD30N10S3L-34 offers faster switching speeds, lower on-resistance, and higher efficiency than traditional bipolar transistors.

I hope this helps clarify all the details about the IPD30N10S3L-34! Let me know if you need any further explanations or additional details.