In many developing countries, electricity supply is unstable, and frequent power outages have become a daily problem for households, businesses, and industries. In countries like Nigeria, Pakistan, and Africa, peak electricity demand or aging infrastructure can lead to prolonged power outages. For households, power outages can cause lights, refrigerators, and network routers to stop working, disrupting daily life. For businesses, power outages can cause production line shutdowns, delayed orders, and even tens of thousands of dollars in economic losses. In the past, they relied on diesel generators to cope with power outages, but these generators were noisy and had high fuel costs. Power inverter, with their clean, efficient, and low cost advantages, have become the optimal solution for resolving power outages for homes and businesses.
The power inverter is an electrical device that converts direct current (DC) into alternating current (AC). It's typically used in conjunction with a battery, converting stored energy into AC power for use by household, commercial, or industrial loads. Users can also choose to use it with solar panels to build a complete solar power system, utilizing solar power to reduce reliance on the grid. In the event of power outage or grid instability, a power inverter can ensure the continued operation of critical loads such as lighting, refrigerators, computers, and production equipment, reducing the risk of disruption to daily life and production. Common inverters include off grid power inverter, on grid power inverter, and hybrid power inverter.
Off grid power inverter operate completely independently of the public power grid. Their core feature is "self-sufficiency" and independence from the grid. Used in conjunction with energy storage batteries, they primarily convert the direct current (DC) generated by solar panels into alternating current (AC) for loads. Excess power is stored in the battery for use at night or on cloudy days. Ideal for remote rural areas with frequent power outages or suburban areas with weak grid coverage, where power outages are frequent and some areas lack stable grid access. Combining solar panels and batteries can create an independent power supply system to meet basic household needs for lighting, refrigerators, fans, and other appliances, eliminating the risks of grid fluctuations and outages. Its core advantage lies in its complete independence from grid constraints, ensuring maximum power continuity during outages, making it suitable for areas with poor grid infrastructure.
Hybrid power inverter combine off grid and on grid functionality, offering two way interactive and intelligent switching. It can not only give priority to using solar power during the day, but also take electricity from the grid when there is insufficient sunlight, thus achieving stable and continuous power supply, and when paired with energy storage batteries, automatically switch to off grid mode during a grid outage, using battery power for power supply. This meets the power needs of areas with frequent power outages: when the grid is operating normally, solar power is prioritized, with excess power being charged to the battery. During a grid outage, the system immediately disconnects from the grid and switches to battery power, ensuring uninterrupted operation for critical loads such as refrigerators, computers, and emergency lighting. The hybrid inverter's flexibility and versatility make it a popular solar solution for homes, businesses, and businesses during power outages.
On grid power inverter primarily convert the direct current (DC) generated by solar panels into alternating current (AC) before directly connecting it to the public grid. This power is primarily supplied to homes and businesses, with any excess being fed back to the grid. If solar power generation is insufficient, on grid inverter can automatically supplement the grid with power. However, it's important to note that on grid inverter lack energy storage capabilities. In the event of a grid outage, they rely on the grid voltage for synchronization and cannot independently provide power. Therefore, they are not suitable for emergency power supply during a power outage.
In areas prone to frequent power outages, inverters are critical for ensuring the continuity of life and production. In the event of a power outage, they can switch to solar/battery power within milliseconds, preventing power outages for critical equipment and reducing the risk of data loss. Whether it's a home, business, or industrial user, power inverter can mitigate the impact of power outages.
Inverter system, combined with solar power generation, enable intelligent scheduling, utilizing solar power during the day and battery storage at night, improving energy efficiency and reducing operating costs. For businesses, inverters not only ensure production continuity but also optimize energy management, reducing long term electricity costs. For households, they ensure a stable life and protect against power outages. Power generation through inverter enables round the clock power supply, ensuring stable operation of critical loads, while also improving energy autonomy and efficiency, allowing homes and businesses to operate safely and continuously even in unstable power grids.
When selecting a power inverter, consider factors such as the inverter power, output waveform stability, battery compatibility, and energy storage capacity based on the actual load. These factors directly impact the inverter's power continuity and equipment safety during power outages. Below, we recommend eight inverters that are effective in dealing with power outages:
Battery Voltage: DC 12V/24V/48V
Output: AC 220V/230V/240V
Features:
1.High frequency design: High power density, compact size, and high overall efficiency, saving space and meeting efficient power supply needs.
2.Bidirectional energy storage: Supports bidirectional power flow, allowing battery to be charged from either photovoltaic or mains power, enabling flexible energy management.
3.Ultra wide MPPT range: 24V models can operate at a minimum of 40VDC, and 48V models can operate at 80VDC, maximizing power generation even in low light conditions.
4.Multiple optional operating modes: on grid, off grid, or hybrid modes can be configured to meet different power supply scenarios.
5.Adjustable on grid current: Supports on grid current settings to ensure stable matching with the grid.
6.Output priority settings: Flexible control of the load power supply sequence ensures priority power to critical equipment.
7.Charging priority settings: Intelligently assign charging priorities based on system needs to improve battery efficiency.
8.Surplus power grid access: When sufficient power is available, excess power can be sold back to the grid to maximize revenue.
9.Lithium battery BMS communication: Enables real time battery status monitoring and protection, enhancing system safety.
10.Battery-free operation: Even without batteries, the system can be powered by photovoltaic or mains power, ensuring continuous operation of essential loads during power outages.
Battery Voltage: DC 24V/48V
Output: AC 220V/230V/240V
Features:
1.RGB Ring LED Light Strip: Provides intuitive status display and can be customized according to your needs. Eight colors are available.
2.Dual AC Output: Supports powering multiple loads and intelligently allocates power based on priority, ensuring stable operation of critical equipment.
3.High Frequency Design: High power density, compact size, and high overall efficiency, making it ideal for space constrained environments requiring efficient power supply.
4.Bidirectional Energy Storage: Both photovoltaic and mains power can charge the battery, enabling bidirectional power flow and flexible energy management.
5.Ultra Wide MPPT Range: Minimum power consumption of 40VDC for 24V models and 80VDC for 48V models, ensuring efficient power generation even in low light conditions.
6.Multi Mode Operation: Supports on grid, off grid, and hybrid modes to meet the needs of various power supply scenarios.
7.Output Priority Setting: Adjust the power supply sequence based on load importance, ensuring critical loads receive priority.
8.Charging Priority Setting: Intelligently assign battery charging order to improve system efficiency and lifespan.
9.Lithium Battery BMS Communication: Real time monitoring of battery status, providing safety protection, and extending battery life.
10.Battery-Free Operation: Operates normally without batteries, reducing system costs.
11.Power Feed in: When sufficient power is available, excess power can be sold to the grid.
Battery Voltage: DC48V
Output: AC 208V/220V/230V/240V
Features:
1.Pure sine wave output and high frequency design: High overall efficiency, low no load losses, and stable, safe AC power.
2.Built in MPPT solar controller: Supports solar input voltages up to 500V, fully utilizing photovoltaic power resources.
3.Hybrid Power Supply Mode: Supports simultaneous load power supply from solar and mains power and battery charging for flexible energy management.
4.On grid Power Feedback: Feeds excess power back to the grid, maximizing power utilization and generating revenue.
5.Non battery Power Supply: Supports load power supply without batteries (non parallel operation).
6.Parallel Scalability: The 5KW model supports up to 9 parallel units, and the 10KW/12KW models support up to 6 parallel units. Single phase and three phase parallel operation is supported.
7.Time of day charging and discharging: Configurable charging and discharging schedules based on peak and off peak electricity prices effectively reduce electricity costs.
8.Multiple protections: Multiple safety features, including overload, overtemperature, and short circuit protection, ensure reliable system operation.
9.Lithium battery compatibility: Supports lithium battery activation and BMS communication for secure and intelligent management.
10.Multiple external communication interfaces: Facilitate system monitoring and remote management, enhancing user convenience.
Battery Voltage: DC48V/96V/192V/384V
Output: AC 380V/400V
Features:
1.Low battery voltage input: Supports a wider range of battery configurations and adapts to various energy storage systems.
2.Three input, three output function: Supports three phase unbalanced loads while supporting both single phase and three phase voltage output, providing triple peak power output and ensuring load stability.
3.Pure sine wave output: High quality output power suitable for a variety of large industrial and commercial loads.
4.Ultra wide input voltage and interference immunity: Adapts to grid fluctuations and harsh power environments, ensuring safe and stable system operation.
5.Built in solar controller: Optional PWM or MPPT controller for efficient management of photovoltaic power generation.
6.Adjustable mains charging current: Supports 0-45A adjustment to flexibly meet battery charging needs.
7.Multiple communication interfaces are optional: support remote monitoring and management (RS485/mobile phone APP (WiFi/GPRS)), improving the intelligence level of the system.
Battery Voltage: DC48V
Output: AC 110V/220VAC or 120V/240V
Features:
1.Split Phase Input/Output Support: Equipped with split phase input/output functionality, the system can be configured for split phase or single phase input, accommodating various power access methods.
2.New Design: Compact and attractive, with built in PV MPPT controller for integrated management of PV access and energy storage.
3.Pure Sine Wave Output: Utilizes a low loss power frequency transformer for high inverter efficiency and stable and reliable output power.
4.Flexible Charging Current Settings: Adjustable AC charging current allows users to flexibly configure charging plans based on battery capacity.
5.Multi Mode Operation: Supports multiple operating modes to meet the needs of diverse application scenarios.
6.Lithium Battery Compatibility: Supports BMS communication for real-time battery status monitoring and safety management.
7.Comprehensive Protection: Features fully automatic, multiple protections, including overload, short circuit, and overtemperature protection, ensuring safe system operation.
8.Generator Compatibility: Supports both diesel and gasoline generators, ensuring stable operation in harsh power environments.
9.Wall mount: Designed for easy installation and maintenance, it saves space.
Battery Voltage: DC12V/24V
Output: AC 220V
Features:
Soft start design: Reduces inrush current and extends device life.
DC/AC isolation: Ensures system safety and improves power quality.
Pure sine wave output: Compatible with sensitive loads, providing more stable power supply.
Strong load adaptability: Supports a wide range of electrical devices and ensures reliable operation.
High efficiency conversion: Strong starting capability and improved energy efficiency.
Industrial socket configuration: Versatile enough to meet diverse application scenarios.
Portable design: Compact and lightweight, easy to carry and install.
Comprehensive protection: Provides protection against overtemperature, high voltage, low voltage, overload, and short circuit.
Battery Voltage: DC 12V/24V/48V
Output: AC 110V/120V/220V/230V/240V
Features:
1.Dual Internal and External LCD Display: Optional external display allows for simple, one touch power on/off operation and real time monitoring.
2.Dedicated microprocessor design: Improves computing speed and device stability, ensuring long term reliable operation.
3.Adjustable AC charging current: Adjustable from 0–30A, allowing users to flexibly configure charging options based on battery capacity.
4.Multi mode operation: Provides AC priority or inverter priority modes to meet different application requirements.
5.Optional built in MPPT solar controller: Enables efficient solar charging and optimizes energy utilization.
6.Fault code query: Allows users to obtain real time device status and fault information, improving maintenance efficiency.
7.Generator compatibility: Supports diesel and gasoline generators, enabling operation in various harsh power environments.
8.Wide range of applications: Suitable for RVs, campers, boats, food trucks, ambulances, yachts, residences and other scenarios, flexibly meeting the needs of mobile transportation.
Battery Voltage: DC12.8V/25.6V/51.2V
Output: AC110/120/220/230/240V, DC5V/12V
Features:
1.Integrated Design: Integrates solar controller, inverter, and lithium battery into one unit for quick deployment without complex wiring.
2.Multiple Plug and Play Interfaces: Provides USB, DC, and AC output ports to meet the power needs of various devices.
3.Flexible Energy Storage and Charging: Supports solar power generation, diesel/gasoline generators, and AC power, adapting to different scenarios.
4.Intelligent Monitoring: Supports WiFi or mobile apps for remote monitoring and management, allowing users to easily understand device status.
5.Multiple Protection Mechanisms: Provides overvoltage, overtemperature, and overload protection, and supports battery BMS communication to ensure system safety and reliability.
Battery Voltage: DC24/48V
Output: AC110/120/220/230/240V, DC5V/12V
Features:
1.Integrated Design: Combines the inverter, solar controller, and lead-acid battery into one unit for easy installation and space saving operation.
2.Multiple Output Interfaces: Supports AC, DC12V, and DC5V outputs to meet diverse power needs.
3.Flexible Operating Modes: Provides AC priority, ECO mode, and PV priority mode, allowing users to switch between them as needed.
4.Adjustable AC charging current: Adjustable AC charging current from 0–30A to accommodate different battery capacities.
5.Fault Code Monitoring: Built in fault code monitoring provides real time monitoring of device operating status for easy maintenance.
6.Built in Voltage Regulator: AVR voltage regulator ensures continuous and stable pure sine wave output, ensuring safe operation. Mains bypass and charging 7.function: Built in mains power bypass regulator and charger ensure stable mains power supply and support battery charging.
The above are Xindun's recommendations for efficient power inverters for power outages. As a manufacturer with 20 years of experience, our power inverters feature pure sine wave output, ensuring stable operation of sensitive loads such as refrigerators, computers, medical equipment, and industrial control systems. They also incorporate multiple safety protection mechanisms, including overload, short circuit, and overtemperature protection. We also offer OEM/ODM customization services tailored to your complex power environment, helping homes and businesses mitigate the risks of power outages and providing safe, efficient, and stable power support. For more information on power inverter solutions for power outages, contact Xindun today!
