SINGLE PHASE MOSFET INVERTER USING PWM TECHNIQUE

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SINGLE PHASE MOSFET INVERTER USING PWM TECHNIQUE Specification

Type
SINGLE PHASE MOSFET INVERTER USING PWM TECHNIQUE

Material
High Quality PCB, MOSFETs, Electronic Components

Size
Compact Module

Input Voltage
12V DC (typical), can be designed for higher input voltages

Color
Green (PCB)

Dimension (L*W*H)
Approx. 15 cm x 10 cm x 5 cm

Capacity
300W to 500W (Depends on MOSFET rating)

Noise Level
Low (No mechanical moving parts)

Output Voltage
230V AC (Single Phase, Pure Sine or Modified Sine as per design)

Efficiency
Up to 90% (Dependent on load and circuit design)

Protection Features
Overload, Short Circuit, and Overheat Protection (if incorporated)

Applications
Home Inverter, Emergency Power Supply, Portable Power Solutions, Laboratory Experiments

Mounting Type
PCB Mount

PWM Control
High Frequency PWM Technique

Weight
Approx. 350 grams

Cooling Method
Natural Air Cooling or Heat Sink Mounted

Switching Device
N-channel Power MOSFETs

Frequency
50Hz (standard output) or adjustable

About SINGLE PHASE MOSFET INVERTER USING PWM TECHNIQUE

Experience top performance with our SINGLE PHASE MOSFET INVERTER USING PWM TECHNIQUE, a dazzling device delivering up to 90% efficiency and designed for both pure and modified sine wave outputs. Crafted with the finest high-quality PCB and potent N-channel Power MOSFETs, this compact and customizable inverter is perfect for home, emergency, and laboratory use. Featuring overload, short-circuit, and overheat protection, its 230V AC output and low noise make it a must-add-to-cart solution for demanding power needs. Ideal for distributors, exporters, manufacturers, suppliers, and traders across India.

Specific Usage and Versatile Applications

The SINGLE PHASE MOSFET INVERTER USING PWM TECHNIQUE is engineered for diverse applications, including home inverters, portable power packs, and emergency supplies. Its robust design supports laboratory experiments and plant applications, leveraging advanced PWM technology for stable, efficient operation. PCB mounting allows seamless integration into new or existing setups, making it indispensable for both residential and industrial environments aiming to maintain continuous, reliable AC power.

Main Export Market(s) and Delivery Terms

Serving the finest global clients, our inverter reaches major export markets with secure shipping and efficient logistics management. Proposal amounts vary to suit bulk and small orders, catering to distributors, exporters, and traders. We offer flexible payment terms and prompt delivery times, ensuring products arrive safely and on schedule. Our logistics team delivers across India and worldwide, prioritizing reliability from order confirmation to final delivery at your plant or facility.

FAQ's of SINGLE PHASE MOSFET INVERTER USING PWM TECHNIQUE:

Q: How does the SINGLE PHASE MOSFET INVERTER USING PWM TECHNIQUE work?

A: It utilizes high-frequency PWM to control N-channel power MOSFETs, converting DC input to a stable 230V AC output, supporting both pure and modified sine wave forms as required.

Q: What are the main advantages of using this inverter in home or laboratory settings?

A: It offers high efficiency, low noise, overload and short-circuit protection, and is easily integrated into compact spaces, making it ideal for continuous, safe power supply in various settings.

Q: Where can this inverter be installed and used?

A: Thanks to its PCB mount design and compact dimensions, it can be installed in home inverter systems, emergency backup power sources, laboratory experiments, and portable power systems.

Q: When should I consider using a pure sine wave over a modified sine wave output?

A: Choose pure sine wave output for sensitive electronics and precision equipment, while modified sine wave is sufficient for general power needs or devices less sensitive to waveform quality.

Q: What is the process for customizing output voltage or capacity?

A: We offer customizable designs based on your project requirements; simply provide your technical specifications during the proposal phase for tailored output voltage or load capacity solutions.

Q: How do the incorporated protection features benefit users?

A: Built-in overload, short-circuit, and overheat protection enhance system safety, prevent component damage and ensure reliability in any operational environment.

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