3000W Pure Sine Wave DC 12V 24V to AC 220V Inverter Orange

SKU: RHT-BAP-3000W-220V-OR Datasheet

Convert DC power to 220V AC power with this high-quality 3000W pure sine wave inverter,suitable for powering household appliances and electronics.Compact and reliable design for easy use.

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BAP pure sine wave inverter series offers a variety of power options, ranging from 300W to 4000W, to meet different power needs. Its input voltage range is wide, supporting 12V and 24V DC power supplies, suitable for various vehicle models and application scenarios. This inverter can efficiently convert DC power into 110V or 220V pure sine wave AC power, ensuring safe and stable power output for your electronic devices. It is an ideal choice whether it is for outdoor activities, camping trips or as an emergency backup power supply.

How to use the inverter

  • Connect the inverter to a battery or car cigarette lighter power source
  • Turn on the inverter to check the device status
  • Connect the electronic device to the inverter

Make sure the power consumption is lower than the rated power of the inverter.

Advantages of Elecpeek inverter

Multifunctional LCD display

The inverters LCD display provides a clear and intuitive interface, showing real-time information on input and output voltages, as well as any fault codes that may have occurred. This allows you to easily monitor the inverters performance and quickly identify any issues that may arise. With this transparency, you can effectively troubleshoot and ensure your system runs smoothly and reliably.

  1. Battery voltage
  2. Battery percentage
  3. Error code
  4. Output power percentage
  5. Output voltage
  6. Output frequency

Intelligent temperature control silent fan

The inverter fan combines low-noise technology and high-speed design to quickly dissipate heat while minimizing noise. Even under high load, it prevents excessive heat build-up, protects the device from overheating and increases its efficiency. Its intelligent regulation system automatically adjusts the wind speed according to the device temperature to ensure optimal cooling.

High density pure copper core

The inverter’s internal wiring uses high-quality, oxygen-free pure copper wire, providing excellent electrical conductivity and stability. This ensures:

  • Low electrical resistance and heat generation
  • High conductivity for smooth current flow
  • Stable output voltage under varying loads
  • Reduced risk of overheating and prolonged lifespan
  • Energy efficiency and lower energy consumption

The pure copper wire enables the inverter to operate efficiently, reliably, and with minimal environmental impact.”

Application of inverter

Pure sine wave inverters produce a smooth, continuous waveform that closely resembles the AC power supplied by utility companies. This type of inverter is particularly beneficial in various applications due to its ability to power sensitive electronics and equipment efficiently.

  • Home Appliances
  • Medical Equipment
  • Solar Power Systems
  • Electric Vehicles (EVs) and Hybrid Vehicles
  • Telecommunications Equipment
  • Audio/Visual Equipment
  • Recreational Vehicles (RVs)
  • Computer Systems
  • Industrial Equipment

Weight 5520 g
Weight 5520 g

Electrical

Rated Power

Battery Voltage

12V, 24V

Maximum Efficiency

90%

Battery Type

Lead-acid Battery, lithium

Waveform

Pure sine wave

Accessory

Wire with Terminal

Certification

CE

Input Voltage

12V, 24V

Inverter Type

DC to AC

Rated Power

Battery Voltage

12V, 24V

Maximum Efficiency

90%

Battery Type

Lead-acid Battery, lithium

Waveform

Pure sine wave

Accessory

Wire with Terminal

Certification

CE

Input Voltage

12V, 24V

Inverter Type

DC to AC

Service

Warranty

1 Year

Warranty

1 Year

Weight 5520 g
Dimensions 43.3 × 19.6 × 0.99 cm
Rated Power

Battery Voltage

12V, 24V

Maximum Efficiency

90%

Battery Type

Lead-acid Battery, lithium

Waveform

Pure sine wave

Accessory

Wire with Terminal

Certification

CE

Warranty

1 Year

Input Voltage

12V, 24V

Inverter Type

DC to AC

A car inverter is an electrical device that converts the direct current (DC) power from a vehicle's battery into alternating current (AC) power. This conversion enables you to power and charge a variety of electronic devices, such as laptops, smartphones, and small appliances, while you are traveling. Car inverters are commonly used for road trips, camping, and emergencies, making it possible to utilize household electronics in a vehicle. They come in different sizes and wattage ratings, with various safety features to protect both the inverter and connected devices from overloads and other issues.
When a car inverter operates it takes the (DC) power, from the cars battery and changes it to alternating current (AC) power using electronic components like transistors and capacitors in the process.
A power inverter for your car converts DC (direct current) from the battery into AC (alternating current), allowing you to charge and power devices like laptops, smartphones, and small appliances while traveling. It’s convenient for road trips, camping, or emergencies, enabling the use of household electronics in your vehicle. Make sure to choose an inverter with the right wattage for your needs and be aware of battery drain, especially when the engine is off. Overall, a power inverter is a useful addition to improve your car's functionality.
  • Convenience
  • Versatility
  • Safety Features
  • Easy to Use
  • Portability
  • Cost-Effective
  • Enhanced Vehicle Functionality
  • Power Rating
  • Type of Inverter
  • Number of Outlets
  • Portability
  • Safety Features
  • Input Method
  • Brand and Reviews
1.Determine Your Power Requirements Before choosing an inverter, you need to determine how much power you require. This will help you select an inverter that can meet your needs. 2.Choose the Right Type of Inverter
  • If you need to power sensitive electronic devices such as laptops, medical equipment, or high-end audio/visual equipment, choose a pure sine wave inverter. This type of inverter produces smooth, consistent electrical waves that closely match the power provided by the grid.
  • If you only need to power less sensitive devices such as power tools, small appliances, or charging devices like phones and tablets, a modified sine wave inverter may be sufficient.
3.Evaluate Inverter Features
  • USB ports: Do you need multiple USB ports to charge multiple devices at once?
  • Number of outlets: How many devices do you need to power simultaneously?
  • Safety mechanisms: Look for inverters with built-in safety features such as overheat protection, short-circuit protection, and low-battery shutdown.
4.Check Compatibility with Your Vehicle's Electrical System
  • Most car batteries use 12 volts DC, so ensure the inverter can connect to this system.
  • Larger vehicles like RVs and trucks may require a 24-volt inverter.
  • Check the vehicle's battery capacity to ensure it can meet the power needs of the inverter and connected devices without draining the battery too quickly.
5.Consider Portability and Size If you plan to use the inverter for travel, camping, or emergencies, consider its portability.Compact and lightweight inverters are easier to transport and store, but ensure they can still meet your power needs.
1.Modified Sine Wave Inverters: These inverters produce a waveform that approximates a sine wave but is not perfectly smooth.They are generally more affordable and sufficient for less sensitive devices like lamps or phone chargers.However, they may not work well with sensitive electronics, such as laptops or equipment that require a stable power supply. 2.Pure Sine Wave Inverters: These inverters produce a smooth, true sine wave output that mimics the power supplied by the electrical grid.They are ideal for sensitive electronics, including computers, medical devices, and appliances.While more expensive, they provide cleaner and more stable power, making them a better choice for high-quality performance and safety.Additionally, inverters can vary based on wattage ratings, number of outlets, and specific features (such as USB ports), but the fundamental types are modified sine wave and pure sine wave inverters.
Yes, you can use an extension cord with your inverter, but it's important to do so safely. Ensure that the extension cord is rated for the wattage of the devices you are powering. Using a cord that is too thin or not rated for high wattage can lead to overheating and potential fire hazards. Additionally, make sure the extension cord is of appropriate length to avoid voltage drops, which can affect performance. It’s advisable to use a heavy-duty extension cord to maintain optimal power flow and ensure safety.
The duration you can run an inverter on a car battery depends on several factors, including the capacity of the battery (measured in amp-hours, or Ah), the power demand of the devices connected to the inverter (measured in watts), the efficiency of the inverter, and the state of charge of the battery. Typically, a standard car battery has a capacity of around 50 amp-hours.
Both a power inverter and a car inverter have the purpose of converting current (DC) into alternating AC) but they are tailored for specific uses; A power inverter is typically employed in homes or industrial setups to change DC from batteries or solar panels into usable energy, for household gadgets and equipment; conversely, a car inverter is specifically crafted for vehicle use to enable charging of small electronics, like laptops and smartphones while traveling. Car inverters typically come with wattage ratings, which are designed to work seamlessly with the vehicles electrical system, for portability and convenience, during travels.

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