Overview of chip FDPF10N60NZ

FDPF10N60NZ is a high-performance N-channel power MOSFET, specifically designed for high efficiency and high frequency switching applications. Its maximum rated voltage is 600V, and the maximum rated current is 10A. It is widely used in power management system, switching power supply, inverter, motor drive and other fields. The low on resistance (RDS (on)) and fast switching characteristics of the MOSFET make it particularly popular in modern electronic equipment.

The design focus of FDPF10N60NZ is to provide excellent thermal performance and electrical characteristics, so that it is still stable under high temperature and high voltage working environment. With its reliable performance and high efficiency, FDPF10N60NZ consistently meets the needs of various industrial and consumer equipment.

Detailed parameters of chip FDPF10N60NZ

Main electrical parameters

-Maximum drain source voltage (VDS): 600V -Maximum leakage current (ID): 10A -On resistance (RDS (on)): 0.33 Ω (measured when VGS=10V) -Gate source voltage (VGS): ± 20V -Maximum pulse leakage current (IDM): 30A -Maximum dissipation power (PD): 94W (at 25 ° C ambient temperature) -Operating temperature range (TJ): - 55 ° C to 150 ° C

Typical electrical characteristics

The on resistance and leakage current of FDPF10N60NZ show different characteristics under different grid voltages. For example, when VGS is 10V, RDS (on) decreases significantly, while leakage current increases at high temperature. These characteristics enable FDPF10N60NZ to maintain high efficiency in practical applications.

Manufacturer, packaging and packaging of chip FDPF10N60NZ

manufactor

FDPF10N60NZ is produced by Fairchild Semiconductor (now part of ON Semiconductor). Fairchild has been involved in the semiconductor industry for many years, and has accumulated a high market position with its excellent technology and high-quality products.

Packaging and packaging

FDPF10N60NZ is packaged with TO-220. This type of packaging is widely used in power devices. Because of its excellent heat dissipation performance, it is convenient for circuit board welding and component replacement. Each TO-220 packaged MOSFET has three pins.

Description of pin and circuit diagram of chip FDPF10N60NZ

The pin configuration of FDPF10N60NZ is as follows:

1. Pin 1 (G): Gate 2. Pin 2 (D): Drain 3. Pin 3 (S): Source

In the circuit diagram, the MOSFET is usually connected between the load and the power supply. The gate is connected to the control signal. When the gate voltage is higher than the threshold voltage (VGS (th)), the MOSFET is turned on to form a low impedance path to allow current to flow.

Examples of circuits are as follows: Vds + | | | ----- (D) | | | | R_load | | ----- | (S) | GND | | ----- | | Vgs --- (G) In the circuit, the drain current is switched by controlling the state of the grid voltage Vgs; R_load is an external load.

Use case of chip FDPF10N60NZ

FDPF10N60NZ is widely used in various electronic equipment. The following are some specific use cases:

1. Switching power supply design: In switching power supply, FDPF10N60NZ can be used as the main switching element. Due to its high withstand voltage and low on resistance, it can effectively reduce the energy loss during power conversion under certain power input. For example, in a DC-DC converter, the MOSFET can be connected to the feedback control circuit to ensure a stable output voltage.

2. Inverter: FDPF10N60NZ can be used as the key switching element of inverter in photovoltaic power generation or other renewable energy applications. Its high voltage characteristics enable it to handle the high voltage from the solar panel and convert it into available AC power.

3. Motor control: FDPF10N60NZ can be used for motor drive circuit. In DC motor control, MOSFET is responsible for regulating the power, speed and start stop of the motor. When the control signal is received, the current of the motor is adjusted through the switch characteristics to improve the system efficiency.

4. Synthetic noise circuit: In the design of the synthesizer, FDPF10N60NZ can be used to generate different voltage pulse signals and adjust the frequency and tone. Through the signal control of grid voltage, a variety of audio effects can be achieved, which is widely used in the module design of music synthesizer.

5. LED driving circuit: In the LED driving power supply, FDPF10N60NZ can provide stable current control by combining with the dimming control circuit, so that the LED can work with ideal brightness.

Whether it is industrial equipment or consumer electronics, FDPF10N60NZ provides reliable solutions for various applications with its excellent performance and wide applicability.