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Ningbo Yaxiang Electronic Technology Co., Ltd.

is a China Inverter With Battery Charger Manufacturers and Inverter With Battery Charger OEM/ODM Factory.Our items are covered with a warranty of 12 months. For general minor problems, our company will provide the maintenance instruction and express spare parts. We offer Custom Inverter With Battery Charger for sale.Customers can repair and replace the spare parts according to the instruction. Our company will provide a new replacement If it cannot be repaired within the warranty period.Usually we will ship the goods to you by sea, because we are in Ningbo, and we are only 35 kilometers away from the Ningbo Port, it is very convenient and efficient to ship goods to any other countries. of course, if your goods are very urgent, the Ningbo Airport and Shanghai Airport are also very nearby.
Ningbo Yaxiang Electronic Technology Co., Ltd.
Ningbo Yaxiang Electronic Technology Co., Ltd.
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  • IATF-EN
  • IATF-CN
  • YX-3KUS-1-2_ROHS Cert
  • YX-2KUS-1-1-FCC_Test Cert
  • E9 FINAL REPORT from 2000w to 4000w
  • E9 FINAL REPORT 1000w 1500W
  • CE-LVD
  • CE- EMC
  • 3000w and 4000w_EN 62368_CE-LVD_Cert
  • 2000w and 2500w LVD EN 61558-2-16_Cert
  • 2000w and 2500w -EN 55032-CE-EMC_Cert
  • Certificate Of Quality Management System(EN)
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What are the main functions of Inverter With Battery Charger?

In modern power systems, the integration of inverters and battery chargers has become a key component of off-grid power solutions. Ningbo Yaxiang Electronic Technology Co., Ltd., as a professional inverter manufacturer, is committed to providing customers with efficient and reliable integrated inverter and battery charger products to meet the needs of different application scenarios.
The core function of the inverter is to convert direct current (DC) into alternating current (AC). In many application areas, such as solar photovoltaic systems, wind power generation and energy storage systems, the generated electrical energy is usually in the form of direct current, while most household appliances and industrial equipment rely on alternating current. Yaxiang's inverter uses advanced pulse width modulation (PWM) technology, which can efficiently and stably realize the conversion of direct current to alternating current to meet the diverse power needs of users. This conversion function not only significantly improves energy utilization efficiency, but also provides users with a wider range of power application options, helping to effectively utilize renewable energy.
Through the combination of inverters and battery chargers, battery charging and management are also achieved. Yaxiang's products have an intelligent charging management system that can automatically adjust the charging method according to the battery status to ensure that the battery is charged in the best condition. The system monitors the battery's power, temperature and health status in real time, and can automatically switch charging modes to prevent potential risks such as overcharging, over-discharging and overheating. This intelligent charging function not only extends the battery life, but also improves the safety and reliability of the system, providing users with a more secure user experience.
In the case of unstable power supply or power outages, the combination of inverter and battery charger can effectively provide backup power. Yaxiang's inverter will automatically switch to battery power when the grid is out of power, ensuring the continued operation of household appliances and important equipment. This function is particularly important in home, commercial and industrial applications, effectively avoiding economic losses and inconvenience caused by power outages, and ensuring the normal life and production activities of users.
With the increasing popularity of renewable energy, the importance of energy management has become more prominent. Yaxiang's inverter and battery charger are combined with an advanced energy management system that can optimize energy use and storage based on real-time power demand and battery status. For example, during periods of low electricity prices, the system can automatically charge; while during periods of high electricity prices, the battery stored energy is used first. This intelligent energy management not only reduces users' electricity bills, but also improves the overall efficiency of the system and promotes the application of sustainable energy.
In addition, modern inverters and battery chargers are usually equipped with intelligent monitoring systems, which users can remotely monitor and control through mobile phone applications or computers. Yaxiang's products support real-time data transmission, so users can view battery status, load conditions and system operating parameters at any time. This function enables users to adjust system settings in time, optimize power usage, and improve the overall user experience.

What factors affect the conversion efficiency of Inverter With Battery Charger

In today's power system, the integration of inverters and battery chargers has become a core component of off-grid power solutions. As a professional inverter manufacturer, Ningbo Yaxiang Electronic Technology Co., Ltd. deeply understands the importance of conversion efficiency to the overall performance of the system. The conversion efficiency of an inverter refers to the ratio between the output power and the input power when it converts direct current (DC) to alternating current (AC). An efficient inverter can not only improve the overall performance of the system, but also significantly extend the service life of the battery.
Design and technology of inverters
The design of the inverter and the technology it uses are one of the key factors affecting conversion efficiency. Yaxiang's inverter uses advanced pulse width modulation (PWM) technology, which achieves efficient power conversion by adjusting the duty cycle of the current. Compared with traditional inverter technology, PWM technology effectively reduces energy loss and significantly improves conversion efficiency. In addition, the design of the inverter's internal circuit and the selection of components (such as MOSFET or IGBT) also directly affect its efficiency. High-quality components can withstand higher currents and voltages, thereby reducing heat generation and improving overall efficiency.
Load type and characteristics
The type and characteristics of the load have a direct impact on the working state of the inverter and its efficiency. Different types of loads (such as resistive loads, inductive loads, and capacitive loads) have different power factors during operation, which directly affects the output efficiency of the inverter. For example, inductive loads (such as motors) will generate a large current shock when starting, which may cause the inverter's overload protection to start, thereby reducing its efficiency. Therefore, reasonably matching the type and power requirements of the inverter and the load is an effective way to improve the overall efficiency of the system.
Input voltage and battery status
The input voltage of the inverter and the battery charge status are also important factors affecting the conversion efficiency. Inverters usually operate at input voltages within a specific range. If the input voltage is too low or too high, the efficiency will decrease. In addition, the battery's state of charge (SOC) will also affect the efficiency of the inverter. When the battery power is low, the inverter needs to consume more energy to charge, which will affect the overall efficiency. Therefore, keeping the battery in a suitable state of charge will help improve the conversion efficiency of the inverter.
Temperature and environmental conditions
The ambient temperature also has a significant impact on the working efficiency of the inverter. In a high temperature environment, the heat loss of the components inside the inverter will increase, which may lead to a decrease in efficiency. Yaxiang fully considers the heat dissipation problem in the design of the inverter, and uses high-quality heat dissipation materials and structural design to effectively reduce the operating temperature and thus improve efficiency. In addition, the installation location of the inverter and the ventilation conditions of the environment will also affect its heat dissipation performance, thereby affecting efficiency. Therefore, a reasonable installation environment and good heat dissipation design are the key to ensuring high efficiency.

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