300W 500W 600W 800W 1000W Pure sine wave inverter - IEE-Business

English
RFQ

Download the app

300W 500W 600W 800W 1000W Pure sine wave inverter

$696.00

Model

Basic info Product Detail Supplier

Basic info

Brand	Wone
Model NO.	Pure sine wave inverter
Rated Output Rating	2kW
Series	PWS series

Product Detail

Technical parameter：

What is a pure sine wave inverter?

A pure sine wave inverter converts direct current (DC) to alternating current (AC) using internal power electronic devices such as IGBTs and MOSFETs. The key lies in how to generate an AC output that is close to an ideal sine wave. The specific steps are as follows:

DC Input: The inverter receives DC from a battery or other DC power sources.
DC Boost: The input DC voltage is increased to the required level through a boosting circuit to ensure the stability of the output voltage.
Pulse Width Modulation (PWM): Pulse Width Modulation technology is used to generate a waveform that approximates a sine wave. PWM technology controls the duty cycle of the output voltage through high-speed switching devices, making the final output voltage waveform close to a sine wave.
Filtering: A filter is used to further smooth the output voltage waveform, eliminate high-frequency harmonic components, and ensure that the output voltage is a high-quality sine wave.
AC Output: After the above processing, the inverter outputs an AC that is close to an ideal sine wave for the load to use.

Know your supplier

Wone

Main Categories

High Voltage Electrical Apparatus/Low Voltage Electrical Apparatus/Wire cable/Instrument meters/New energy/Tester/Production equipment/Generator/Electrical fittings/Integrated Electrical Equipment

Business Type

Design/Manufacture/Sales

Highest Annual Export (USD)

$50,000,000

Professional Experience

1 years

Workplace

65666m²m²

占位

占位

Related Products

Related Knowledges

Ensuring Reliability: A Deep Dive into Transformer Maintenance

Ensuring Reliability: A Deep Dive into Transformer Maintenance

IntroductionElectric transformers are the backbone of modern power distribution systems, silently enabling the reliable delivery of electricity to homes, businesses, and industries. As these critical assets age and the demand for uninterrupted power grows, the importance of diligent transformer maintenance has never been greater. This essay explores the essential role of transformer maintenance, highlighting the value of proactive care, the impact of advanced diagnostic technologies, and the tra

How does a transformer work?

How does a transformer work?

Transformer Operation PrincipleA transformer is an electrical device that operates on the principle of electromagnetic induction to transfer electrical energy from one circuit to another. It enables the adjustment of voltage levels within an alternating current (AC) system, either stepping up (increasing) or stepping down (decreasing) voltage while maintaining the same frequency.Working Principle:Basic ComponentsA transformer consists of two coils, known as windings—the "primary winding" connect

Constant testing of high-voltage cable lines

Constant testing of high-voltage cable lines

1. Definition of High-Voltage Cable Line Constant TestingHigh-voltage cable line constant testing refers to the systematic measurement, using specialized instruments, of electrical parameters such as resistance, inductance, capacitance, and conductance before a cable line is commissioned or after major maintenance. The aim is to obtain fundamental data characterizing the electromagnetic properties of the cable, serving as a critical testing phase that provides accurate parameter support for powe

Technical Analysis of 220 kV High-Voltage Cable Construction in Winter

Technical Analysis of 220 kV High-Voltage Cable Construction in Winter

1.Work Environment Requirements and Safeguard MeasuresBased on technical requirements for cable equipment storage, laying, transportation, laying, transposition, testing, and cable terminations, the project owner and construction units have conducted extensive trials and implemented protective measures regarding ambient temperature, humidity, bending radius, traction control, and route optimization. These measures ensure high-voltage cable quality and on-site safety under harsh winter conditions

Withstand voltage test of high-voltage cables

Withstand voltage test of high-voltage cables

Withstand voltage test is an insulation test, but it is a destructive test that can reveal insulation defects difficult to detect in non-destructive testing.The test cycle for high-voltage cables is three years, and it must be conducted after non-destructive tests. In other words, the withstand voltage test is performed only after all non-destructive tests have been passed.Most high-voltage cables used today are cross-linked polyethylene (XLPE) cables, which can have large cross-sections and cov

Analysis of Abnormal Causes of High-Voltage Cable Grounding Circulation and Typical Cases

Analysis of Abnormal Causes of High-Voltage Cable Grounding Circulation and Typical Cases

I. Introduction to Cable Grounding Loop CurrentCables rated 110 kV and above use a single-core structure. The alternating magnetic field generated by the operating current induces a voltage on the metallic sheath. If the sheath forms a closed circuit through the earth, a grounding loop current will flow on the metallic sheath. Excessive grounding loop current (loop current exceeding 50 A, more than 20% of the load current, or a ratio of maximum-to-minimum phase current greater than 3) not only a