As electric vehicles (EVs) become more popular, a robust and efficient charging infrastructure is needed. Atlas Copco recognizes the role EV charger manufacturers play in the electric mobility industry. Our high-quality nitrogen (N2) and compressed air solutions are suited for EV charger manufacturing.
In this blog, we will explore the essential role compressed air and gas plays in EV charger production. We will also touch upon the importance of chargers in the electric mobility industry. Read on to learn more.
Solutions for EV charger manufacturing and assembly
An opportunity to grow together
As the EV industry flourishes, so do opportunities for manufacturers. Atlas Copco is both an air and nitrogen supplier and partner committed to your growth. We're here for you every step of the way.
Contact us today to explore how our custom solutions can help you overcome challenges, drive innovation, and achieve your goals. Let's innovate together and shape the future of electric mobility.
Unique solutions for EV charger manufacturers
From laser cutting to PCB manufacturing and assembly, we offer a comprehensive suite of solutions to meet your specific needs. Our extensive experience in providing nitrogen (N2) and compressed air for critical applications ensures your production process is seamless and efficient.
EV charger components
Now that we've discussed the benefit we bring to the sector, it's important to touch upon the various components of an EV charging station. These include the following.
- Charging cable: links the charging station to the EV's onboard charger.
- Connector varieties: tailored to different EV models.
- Charging station unit: manages the flow of electricity. It also establishes communication with the EV and safeguards the charging process.
- Power source: predominantly sourced from the electrical grid and is essential to charging station efficiency.
- User interface: empowers EV owners to initiate and oversee the charging process.
- Payment systems: used for seamless transactions.
- Safety protocols: prevent overheating and avert potential hazards.
- Network connectivity: facilitates the establishment of the digital ecosystem. This connects EV drivers to charging stations via mobile applications or online platforms.
- Cooling mechanisms: found in high-power charging stations. Dissipate the heat generated by fast charging.
- Mounting and encasement: ensure charging stations are weather resistant and easy to access for users.
Commonly asked questions
With the different parts involved in an EV charging station, you might be wondering how air and gas is relevant. We'll answer this, as well as other common related questions.
How is air and gas used in EV charger manufacturing?
Nitrogen and/or compressed air is used in laser cutting to cut and fabricate the metal used in the charging station. Nitrogen is also used for selective, wave, or reflow soldering machines. This allows for the production of printed circuit boards (PCBs).
PCBs are essential in the operation of the charger as they allow the efficient functioning of the different electronics by providing a connection for the electrical components. Compressed air is used throughout the PCB production process.
What is an electric vehicle (EV) charging station?
An electric vehicle (EV) charging station is a device that provides electric power to an electric vehicle for battery recharging.
What is Electric Vehicle Supply Equipment (EVSE)?
Charging stations or charging docks are common names used for Electric Vehicle Supply Equipment (EVSE). EVSE transfers electricity from a local power supply to an electric vehicle's batteries for safe and efficient recharging.
EVSE systems come in a wide range of options, including form factors, charging levels, connectors, and standards. With this, you'll encounter various components. These include electrical conductors, related equipment, software, and communication protocols to ensure efficient and safe energy delivery.
It’s also worth mentioning that EVSE systems are classified by three charging capacities. These are Level 1 (120 volts/1.3 kW and 2.4 kW AC), Level 2 (240 volts/3-20 kW AC, output varies by model), and DC Fast Charger (480 volts and higher/50-350 kw DC).
Our path towards efficient and safe mobility for EV charger manufacturers
Based on the information above, it's easy to see how EVSE systems are crucial for the EV market. They allow electric vehicles to be charged conveniently. With this, EV chargers involve several components for safe and efficient charging. These are mentioned in the article and require a high quality manufacturing process.
While you're innovating and producing the latest EV chargers, it's important to have the right partner for reliable nitrogen (N2) and compressed air. As a leading provider, we're here every step of the way and understand the business inside and out.
Contact us today to get recommendations on our compressed air and gas products and solutions for electric vehicle (EV) charging station manufacturers. We're happy to answer any questions you may have about the topics covered in this article.
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In this ebook, you will learn everything you need to know about compressed air and gas solutions for electric vehicle (EV) battery production. Atlas Copco offers a comprehensive range of compressed air and gas solutions for lithium-ion battery for electric vehicle manufacturing plants.
