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Reliable Pure Sine Wave Inverter for Building, Photovoltaic and Home Use

Reliable Pure Sine Wave Inverter for Building, Photovoltaic and Home Use

Unparalleled Performance on Building Sites

Building sites are known to demand a lot from any device. This is why our pure sine wave inverter has been designed to withstand the harsh conditions experienced on these sites. The device’s solid build and consistent performance guarantee that your power tools plus other machinery run smoothly without any interruptions. By providing an undeviating and clean electricity input, it reduces possibilities of sensitive equipment failure, thus extending their lifespan and enhancing reliability.

Specifically Designed for Solar Power Systems

Our inverters work seamlessly with solar energy installations thereby converting the direct current produced by photovoltaic panels into alternating current required to operate domestic appliances as well as industrial ones. As such, they are suitable both for family houses or business buildings. On account of its dependability and high efficiency it can lead you to achieving full exploitation of solar potential energy.

Ideal for Household Purposes

Should there be a power blackout that you need essential home appliances working or else everyday machines running all day round, we recommend using our pure sine wave inverter. It ensures steady flow of clean electric output which means your electronics will not be damaged due to power fluctuations hence serving for a long time without failures. In this way, it supplies constant electrical energy necessary for refrigerators and even home theatre systems.

Major Characteristics

True Sine Wave Output: makes them compatible with all types of gadgets hence reducing their possible damages.

High Energy Efficiency: increase the conversion rate that happens between solar energy and conventional forms.

Built Strong: meant for use in environments where they’re exposed so much such as construction projects.

Multifunctional Tools: applicable at homes, solar facilities as well as in industries alike.

At CN Inverter, we have dedicated ourselves to providing high-quality power solutions that adapt to our clients’ changing demands. Our commitment can be seen through our product-pure sine wave inverter which is highly dependable, efficient and flexible. Invest in our inverter and experience the difference in performance and peace of mind.

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The Hybrid Solar Inverters for Renewable Power Solutions, Unleashing Versatility

The Hybrid Solar Inverters for Renewable Power Solutions, Unleashing Versatility

As renewable energy integration changes its course in the world, hybrid solar inverters have evolved by combining functionalities of both grid-tied and off-grid. The maker of these inverters called Tian Lang has designed them in such a way that they can manage the production of solar energy, battery storage as well as grid connectivity easily and without any trouble. These two are critical components that assist in utilizing power from different directions and weather conditions especially when it is generated using photovoltaic panels. According to Tian Lang’s hybrid inverters charging algorithm which can be adjusted for adaptability is one thing that allows self-consumption with minimal electricity consumption cost by means of putting first between battery charging, solar input or grid supply. Suitable for residential developments, business premises and remote applications; this company’s products personify flexibility and durability on today’s sustainable energy solutions.

Power Inverters for Industrial Applications with High Efficiency

Power Inverters for Industrial Applications with High Efficiency

High-Efficiency power inverters, which are indispensable to industrial applications require power that is transformed and delivered smoothly all the time. They present a high level of performance and durability in harsh industrial conditions since they are designed specifically for such purposes. Minimizing downtime and increasing productivity will be possible if you use these converters as it provides your industry equipment operates in an efficient manner. As such, our highly efficient industrial power inverters can provide reliable power to your industrial machinery or systems, thus enabling smooth running of your business operations due to their safety measures and strong construction.

Comprehensive Solar Energy Solutions: Photovoltaic Systems, Panel Suppliers, and Module Manufacturers

Comprehensive Solar Energy Solutions: Photovoltaic Systems, Panel Suppliers, and Module Manufacturers

Photovoltaic solar systems

Our photovoltaic solar systems are crafted to provide excellent performance and dependability. Using advanced technology and stringent testing, we ensure each system makes the most out of solar energy to meet your power needs. Our solutions are scalable and adaptable to many environments, ranging from small installations to large-scale solar farms.

Solar panel suppliers

We have partnered with well-known quality-conscious and innovative manufacturers of solar panels. This enables us offer a range of highly efficient, long-lasting panels that can optimize energy generation. Depending on whether you need monocrystalline, polycrystalline or thin-film panels, we have profound guidance for you while selecting the best ones for your project.

Solar module manufacturers

Our partnership with reputable companies in the production of solar modules ensures we remain at the leading edge of technology in this sector. These modules withstand harsh weather conditions but still maintain high conversion efficiencies. They are also versatile as they can be customized for residential rooftops commercial installations or even utility scale projects.

Key benefits

Efficiency: The utilization of sunlight for maximum capture and conversion.

Reliability: Consistent results whatever may come up next.

Sustainability: Clean energy options which decrease greenhouse gas emissions.

Supports: Professional advice on how to make a project ring true from its inception phase till final implementation stages.

Select CN Inverter as you go green and discover sustainable innovation at work!

Reliable Energy Conversion Using Advanced Power Inverter Systems

Reliable Energy Conversion Using Advanced Power Inverter Systems

To provide consistent energy conversion across various platforms, we design our advanced power inverters. These power inverters are built with up to date technology for high performance and durability which makes them applicable in industrial, commercial and residential fields. We offer power inverters that are ideal for renewable energy systems, sensitive electronics or even heavy duty equipment and they always give a consistent uninterrupted supply of electricity. By enhancing your energy systems with these cutting-edge solutions, you can improve their reliability as well as efficiency hence never lacking electric power at times when it is most needed.

We Have The Best Solutions for Your Business

Sunrise New Energy is a one-stop provider of energy storage and photovoltaic power generation solutions. Our mission is to create a new way of life by integrating clean energy into our daily lives and achieving perfect harmony between man and nature. As a professional solar module and system solution provider, our products will benefit more people!

Our products include off-grid inverters, solar hybrid inverters, solar controllers, solar panels, storage batteries, PV off-grid systems, grid-connected systems, hybrid systems, PV racking systems, and other PV series products, and have been certified by FCC, ETL, CE, and so on.

Why Choose Sunrise New Energy

High-Quality Products

Our inverters and batteries are designed for superior performance and reliability.

Efficient Bulk Handling

We ensure smooth processing and timely delivery of large-scale orders.

Innovative Technology

Our products feature cutting-edge technology for optimal energy solutions.

Excellent Customer Support

We provide responsive and knowledgeable support for all client needs.

USER REVIEWS

What users say about Sunrise New Energy

CN Inverter's lithium batteries have been a game-changer for our business. We regularly place bulk orders, and the quality of the batteries has been exceptional. They offer high capacity and long life, which are crucial for our commercial applications. The team's attention to detail in handling large orders is commendable.

5.0

Emma Thompson

Our company has been sourcing marine inverters from CN Inverter for several years. Their pure sine wave inverters are particularly reliable and efficient. Bulk ordering has always been a smooth process, with timely deliveries and excellent support from the CN Inverter team. We highly recommend them for large-scale procurement.

5.0

Liam Martinez

We recently started ordering MPPT solar controllers from CN Inverter in bulk, and we are extremely satisfied with the products. The dual MPPT controllers are robust and perfect for our large renewable energy projects. The company excels in managing bulk shipments, ensuring that our orders arrive promptly and in perfect condition.

5.0

Isabella Russo

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FREQUENTLY ASKED QUESTION

Do You Have Any Question?

What is a power inverter

A power inverter is an electronic device that converts direct current (DC) electricity, typically from batteries or solar panels, into alternating current (AC) electricity, which is used to power household appliances, electronics, and other devices that require AC power. Inverters are essential in off-grid solar systems, RVs, boats, and other situations where AC power is needed but only DC power sources are available. They come in various sizes and types, catering to different power needs and efficiency levels.

A 300 watt power inverter is capable of running small electrical devices that require up to 300 watts of power. Here are some examples of what you can typically run with a 300 watt power inverter:

  1. Laptop: Most laptops consume between 20-100 watts, so a 300 watt inverter can comfortably power a laptop and even charge it.

  2. Tablet and Smartphone Chargers: Chargers for tablets and smartphones generally require less than 30 watts of power.

  3. Small Appliances: Small kitchen appliances like a blender or a coffee maker that operate within the 300 watt limit.

  4. Lights: LED lights and small incandescent lights typically consume between 5-50 watts each.

  5. Small Electronics: Devices such as cameras, portable DVD players, and gaming consoles that have modest power requirements.

It's important to check the specific power ratings of your devices to ensure they fall within the capacity of the inverter to avoid overloading it, which could lead to overheating or malfunction.

Installing a power inverter in a van allows you to convert DC power from your vehicle's battery into AC power, enabling you to run appliances and electronics while on the road or parked. Here are the general steps to install a power inverter in a van:

Materials Needed:

  • Power inverter (appropriately sized for your needs)
  • Heavy gauge DC cables (to connect the inverter to the battery)
  • Inline fuse and fuse holder (for safety)
  • Wire connectors and terminals
  • Drill and appropriate drill bits
  • Screwdriver set
  • Electrical tape
  • Cable ties

Installation Steps:

  1. Choose a Mounting Location:

    • Select a secure and ventilated location to mount your power inverter. It should be easily accessible but protected from moisture and mechanical damage.

  2. Disconnect the Battery:

    • Prior to any electrical work, disconnect the van's battery to prevent accidental shorts and ensure safety during installation.

  3. Plan Cable Routing:

    • Determine the best route for running the heavy gauge DC cables from the battery to the inverter. Keep the cables as short as possible to minimize power loss.

  4. Connect to the Battery:

    • Attach one end of the heavy gauge positive (red) cable to the positive terminal of the battery and the negative (black) cable to the negative terminal. Use appropriate terminals and connectors, ensuring a secure connection.

  5. Install the Inline Fuse:

    • Install an inline fuse holder on the positive cable close to the battery terminal. This fuse protects the inverter and wiring from overcurrent situations.

  6. Mount the Inverter:

    • Securely mount the power inverter using screws or bolts. Ensure it is positioned in a way that allows for adequate ventilation to prevent overheating.

  7. Connect the Inverter:

    • Connect the positive (red) and negative (black) cables from the inverter to the corresponding terminals or connectors you installed in step 4.

  8. Secure and Insulate Connections:

    • Use electrical tape or heat shrink tubing to insulate all connections to prevent short circuits and ensure safety.

  9. Test the System:

    • Reconnect the van's battery and turn on the power inverter. Test it by plugging in a small device or appliance to ensure everything is functioning correctly.

  10. Secure Loose Wires:

    • Use cable ties to secure any loose wires and ensure they are safely tucked away to prevent them from interfering with other components or becoming a safety hazard.

  11. Final Checks:

    • Double-check all connections and ensure there are no exposed wires or potential sources of short circuits. Verify that the inverter is securely mounted and functioning properly.

  12. Document Installation:

    • Keep a record of the installation, including the inverter specifications, wiring diagram, and any modifications made to the van's electrical system.

Safety Considerations:

  • Fuse Protection: Always use an appropriately sized fuse to protect the inverter and wiring.
  • Ventilation: Ensure the inverter has adequate airflow to prevent overheating.
  • Battery Disconnect: Disconnect the van's battery before starting any installation work to prevent electrical accidents.

If you're unsure about any step or have specific concerns about your van's electrical system, consulting with a professional electrician or installer is recommended to ensure a safe and reliable installation.

Converting a car battery directly into a power outlet without using an inverter is not straightforward due to the difference in voltage and type of electricity involved. Car batteries provide direct current (DC) at 12 volts, while standard household outlets provide alternating current (AC) at 120 volts (in North America).

However, if your goal is to create a DC power outlet from a car battery for specific DC-powered devices, such as certain electronics or appliances that can operate on 12 volts DC, you can follow these steps:

Materials Needed:

  • Car battery (12-volt)
  • DC power socket or cigarette lighter socket
  • DC cables (appropriate gauge for the load)
  • Fuse (appropriate rating for the circuit)
  • Wire connectors
  • Electrical tape or heat shrink tubing
  • Tools: wire cutters/strippers, screwdriver, soldering iron (optional)

Installation Steps:

  1. Choose a Location:

    • Decide where you want to install the DC power socket in your vehicle. It's common to install it near the dashboard or in the rear cargo area for easy access.

  2. Disconnect the Battery:

    • Disconnect the car battery's negative terminal to prevent accidental short circuits while working.

  3. Prepare the Socket:

    • If your socket has wires attached, strip the insulation from the ends. If it's a socket that mounts through a panel, prepare it for installation according to its instructions.

  4. Connect the Positive Lead:

    • Identify the positive terminal on your car battery (usually marked with a plus sign, red cable). Connect one end of a suitable gauge DC cable to this terminal.

  5. Install a Fuse:

    • Install an appropriate fuse holder and fuse on the positive cable close to the battery terminal. This protects your wiring and socket from overcurrent situations.

  6. Route the Cable:

    • Route the positive cable to your chosen location for the socket, ensuring it's secured and won't interfere with other components or moving parts.

  7. Connect to the Socket:

    • Connect the positive wire to the center pin or terminal of the DC socket. Use appropriate connectors and secure them tightly.

  8. Connect the Negative Lead:

    • Connect the other end of the DC cable to the negative terminal of your car battery (usually marked with a minus sign, black cable).

  9. Secure and Insulate Connections:

    • Use electrical tape or heat shrink tubing to insulate all connections to prevent short circuits and ensure safety.

  10. Test the Socket:

    • Reconnect the car battery's negative terminal. Test the DC socket by plugging in a device or appliance that operates on 12 volts DC to ensure everything is functioning correctly.

  11. Secure Loose Wires:

    • Use cable ties to secure any loose wires and ensure they are safely tucked away to prevent them from interfering with other components.

  12. Final Checks:

    • Double-check all connections and ensure there are no exposed wires or potential sources of short circuits. Ensure the fuse is properly installed and functioning.

Safety Considerations:

  • Fuse Protection: Always use an appropriately sized fuse to protect your wiring and devices from overcurrent situations.
  • Battery Disconnect: Disconnect the car battery before starting any installation work to prevent electrical accidents.
  • Voltage Compatibility: Ensure that any device or appliance you intend to use with the DC socket operates on 12 volts DC to avoid damage.

This method provides a way to create a DC power outlet in your vehicle directly from the car battery, which can be useful for powering specific DC devices or for charging items that accept 12 volts DC input, such as certain electronics and accessories.

Making a homemade power inverter is a complex project that requires advanced knowledge of electronics, including circuit design, component selection, and soldering skills. It involves converting DC (Direct Current) from a battery source into AC (Alternating Current) suitable for powering household appliances. Here’s a high-level overview of the process, but please note that this is a challenging DIY project and requires careful planning and expertise to ensure safety and functionality:

Materials Needed:

  • DC-to-AC inverter circuit components (ICs, MOSFETs, capacitors, resistors, transformers, etc.)
  • Printed circuit board (PCB) or perfboard for mounting components
  • Heat sinks for components that generate heat (like MOSFETs)
  • DC power source (battery or batteries)
  • Tools: soldering iron, wire cutters, screwdrivers, multimeter, oscilloscope (optional for testing)

Steps to Build a Homemade Power Inverter:

  1. Design the Circuit:

    • Research and design a suitable DC-to-AC inverter circuit. There are several topologies available, such as square wave, modified sine wave, or pure sine wave inverters. Pure sine wave inverters are more complex but produce a cleaner AC output suitable for sensitive electronics.

  2. Select Components:

    • Choose components based on your circuit design. This includes ICs (like 555 timer ICs or specialized inverter driver ICs), power transistors or MOSFETs, transformers (for isolation and voltage step-up), capacitors, resistors, and diodes.

  3. Prepare the Circuit Board:

    • Create or obtain a PCB or perfboard layout that matches your circuit design. Ensure it accommodates the size and placement of components and provides adequate heat dissipation for components that require it.

  4. Assemble the Circuit:

    • Carefully solder components onto the circuit board according to your schematic and layout. Follow best practices for soldering to ensure good connections and avoid short circuits.

  5. Test Components:

    • Test each component individually using a multimeter to ensure they are functioning correctly and within specified tolerances.

  6. Connect Power Supply:

    • Connect your DC power source (battery or batteries) to the input terminals of your inverter circuit. Ensure correct polarity and secure connections.

  7. Test the Inverter:

    • Power on the inverter and use an oscilloscope to observe the output waveform. For pure sine wave inverters, ensure the waveform closely resembles a sine wave. For square or modified sine wave inverters, check for proper functioning and stability.

  8. Safety Precautions:

    • Inverters involve high currents and voltages, which can be dangerous if mishandled. Ensure all connections are secure and insulated. Use appropriate fuses and circuit protection to prevent damage to components or fires in case of malfunction.

  9. Enclosure and Finalization:

    • Once tested and verified, consider enclosing the inverter circuit in a suitable case to protect it from environmental factors and accidental contact with live components.

Considerations:

  • Complexity: Building a homemade power inverter is complex and requires advanced electronics skills. It's recommended for experienced hobbyists or professionals.
  • Safety: Ensure all safety precautions are followed, including proper insulation, fusing, and avoiding overloading the inverter beyond its rated capacity.
  • Efficiency: Homemade inverters may not be as efficient as commercially available ones due to component choices and design considerations.

For those without extensive electronics experience, purchasing a commercially available power inverter that meets your power needs and safety standards is often a more practical solution.

 
 
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