But what exactly are Electric Vehicle Chargers?
There are many various types, specifications, and constructions, and if you don’t make the right selection, you may end up in trouble because you won’t be able to satisfy your charging needs, or your battery may fail within a few years due to dust and salt damage. On top of that, if you do not select the most suitable charger for your particular use, problems like inefficient charging time and installation location limitations might come up.
In general, it is a good idea to be well aware of the ins and outs of your electric vehicle prior to making a final decision!
In today’s article, we will take a look at the basics of Electric Vehicle Charging.
We will explore the possible options in detail in order to understand how to choose the best Electric Vehicle Charger for the location you are considering installing it.
We will also help you navigate the major manufacturers and companies.
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What is an Electric Vehicle Charger?
An Electric Vehicle Charger is a device used to recharge the battery that powers an electric vehicle (EV).
Its basic structure consists of a charging port that supplies electricity, a charging cable that connects the charger and the Electric Vehicle, and a charging control device that manages charging conditions and safety.
There are two types of Electric Vehicle Chargers: regular chargers and quick chargers.
Regular chargers are installed in typical homes and businesses, and because their output is low, they take a long time to charge.
On the other hand, quick chargers have high output and can charge in a short time.
Each electric vehicle charger is intended for use in different locations and situations, so care should be taken when choosing one.
In more recent years, wireless power transfer methods that enable contactless charging have been attracting attention.
There are two main technologies for this method: electromagnetic induction method and magnetic resonance method.
To understand and select an electric vehicle charger, you need to understand which of the following three charging methods is compatible with your individual needs.
Keep reading to learn more as we will provide a detailed comparison of the main charging applications and the characteristics of chargers suitable for them!
| Type | Summary | Installation Location |
|---|---|---|
| Basic Charging | Everyday charging that can be done at home or work | Uses a normal charger, and is suitable for home garages or workplace parking lots |
| Route Charging | Charging to meet your sudden charging needs while on the move or on the go | Using a quick charger, it is suitable for expressway, roadside stations, convenience stores, etc. |
| Destination Charging | Charging that can be done during a long stay at a destination. | Uses a normal charger or quick charger, and is suitable for commercial facilities and similarly accommodating facilities. |
On the basis of this information, we highly recommend choosing an electric vehicle charger that suits your business and lifestyle.
More specifically, here is a comparison of four types of electric vehicle chargers and their features.
Comparing 3 Types of Electric Vehicle Chargers
With the spread of electric vehicles (EVs), a variety of electric vehicle chargers have appeared on the market.
Each electric vehicle charger has its own advantages and disadvantages, as well as optimal installation locations and usage situations.
It can get a little confusing so don’t worry! Below, we will provide a detailed overview of the three main types of chargers, their characteristics, and the situations in which they are suitable for use.
- Ordinary charger [for basic charging or destination charging at accommodation facilities]
- Rapid charger [for route charging or destination charging at restaurants, etc.]
- Wireless charger [For those who are researching and developing and want to collect information]
Ordinary Charger
A regular or normal electric vehicle charger is one that is installed in a typical home or office, and refers to a device that directly supplies alternating current sent via power lines to an electric vehicle.This is used as the primary means of basic charging, taking advantage of the time when the car is not in use for long-term charging.
The biggest strength of this electric vehicle charger is that its low output means low installation costs and low electricity bills.
In daily driving, it is possible to ensure sufficient battery power when parking for long periods at home or work.
However, when compared with quick chargers, the disadvantage is that their low output takes time to charge.
Specifically, it takes approximately 12.5 hours to fully charge an electric vehicle with a battery capacity of 40 kWh from zero.
Also, in the case of the outlet type, a dedicated in-vehicle charging cable is required, which is expensive.
Rapid Charger
A quick charger is yet another type of charging device that supplies high voltage and large current to electric vehicles (EVs).Quick chargers require a DC power supply with an output of 50kW or more.
This quick charger plays a key role in “route charging,” which requires short-term charging while on the move.
The biggest feature of this electric vehicle charger is that its high output allows it to significantly charge an electric vehicle battery in a short period of time.
In comparison with a regular charger, a full charge from zero, which takes half a day with a regular charger, can be completed in about 30 minutes to an hour using a quick charger.
The standard called CHAdeMO is the mainstream, and there are approximately 30,000 units installed in Japan.
However, their powerful charging capacity has the disadvantage of high installation costs and electricity bills.
Furthermore, there are other issues such as battery deterioration and heat generation due to high output, and insufficient charging due to the 30-minute automatic shutdown function.
Possible installation locations include expressway service areas and commercial facilities.
However, it is difficult to install such systems in locations where the shared power supply does not have sufficient electrical capacity, and in some cases requires large-scale renovation work or application to local governments.
Areas with heavy snowfall are also ill suited for this type of charging.
Wireless Charger
Although still in the research and development stage, wireless charging technology is also evolving.Each wireless charging method has its own features, benefits, and improvements.
This section focuses on the two main types of wireless chargers and provides an overview and application situations.
Charging method while stationary
With recent technological innovations, wireless chargers that charge while the vehicle is stationary are attracting attention as a new option for charging electric vehicles.The core technology of this electric vehicle charger is to transfer power contactlessly from a power transmission coil installed on the ground to an electric vehicle’s power receiving coil.
The advantage of this contactless feature is that there is no need to connect a cable when parking, which simplifies the charging process.
In particular, it is said that commercial electric vehicle drivers will be able to reduce their charging time by 20 to 120 hours a year, making a major contribution to improving labor efficiency.
Furthermore, by adopting a magnetic resonance method instead of an electromagnetic induction method, the transmission efficiency is maintained as long as the gap between the coils is within 10 cm, and charging performance is equal to or higher than that of ordinary chargers and some quick chargers can (In the case of electromagnetic induction method, only 1cm was allowed).
On the other hand, there are some challenges with this technology.
For example, installing dedicated power transmission and reception coils requires a large capital investment of tens of millions of yen.
This wireless charging method, while stationary, is especially suitable for situations where vehicles are frequently charged, such as long-term parking at home or work, commercial electric vehicles, and shared electric vehicles.
Charging method while driving
Wireless electric vehicle chargers that charge while driving are attracting attention as a new charging method that has come to the forefront in the recent electric vehicle technology revolution.The main feature of this charging method is that power is transmitted contactlessly from a power transmission coil installed on the road to a moving electric vehicle.
The advantage of this technology is the revolutionary convenience of no charging required.
Not only does this save the driver’s time and effort when it comes to charging, but by reducing the battery capacity of an electric vehicle, it is possible to make the vehicle lighter and reduce costs.
Furthermore, in combination with regenerative brake technology, it is expected to improve energy efficiency.
However, there are challenges to implementing this technology.
For example, installing equipment that allows charging while driving for 1 km requires funds ranging from tens of millions of yen to hundreds of millions of yen, which is extremely expensive.
All right then! So far, we have compared the features of three types of electric vehicle chargers.
Each type has a different use case, so it is important to choose an electric vehicle charger that is suitable for the location where it is intended to be installed.
In the next section, we will introduce the situations in which each charger is used, along with the charging method.
Read on to find out which electric vehicle charger is right for your location.
Comparing Electric Vehicle Chargers
Now that we are done looking at the various types of charging, we can now move onto the nitty gritty.
In this section, we will focus on the six most important points when choosing an electric vehicle charger.
Factors such as charging speed, price, equipment price, and even operating temperature range will determine your choice.
Below, we’ll clarify the pros, cons, and optimal charging methods so that you can pick your perfect electric vehicle charger!
- Charger Usage
- Environment where it can be installed
- Specification temperature environment
- Charging Speed
- Charging Equipment
- Charging Cost
Charger Usage
Seeing as you’re in the market for an electric vehicle charger, it’s crucial to consider your own personal needs and usage scenarios.Choosing the right charger that matches your purpose is essential.
In this guide, we’ll walk you through a detailed comparison of various charging applications and the key features to look for in chargers that best suit those needs.
Whether you’re a first-time EV owner or looking to upgrade your charging setup, this information will help you make an informed decision.
Basic Charging
Description: Mainly used for regular charging at home or work.Installation location/scene: A normal charger is best installed in your home garage, workplace parking lot, etc.
Route Charging
Description: Used for short-term charging while traveling or on the go.Installation location/scene: Rapid chargers are common and suitable for expressway SA/PA, roadside stations, convenience stores, etc.
Destination Charging
Description: This charging method is used during long periods of stay.Installation location/scene: Normal chargers and quick chargers are used and installed in commercial facilities, accommodation facilities, etc.
Taking these charging applications into consideration will clarify the appropriate installation location and scene depending on the charger’s output.
Rapid chargers are recommended to be used while on the move or in places where you will be staying for a short time, while regular chargers are best used when storing your electric vehicle for long periods of time or in places where you will be staying.
In this way, you can make the most of the convenience and economic efficiency of electric vehicles by understanding the purpose of each electric vehicle charger and using it in appropriate locations and situations.
Environment where it can be installed (dustproof/salt damage resistant)
When choosing a location for your electric vehicle charger, it is very important to choose a charger that is appropriate for the environment.In particular, performance such as dust resistance and resistance to salt damage has a large impact on whether it can be installed near the coast or in areas with a lot of dust, and on ensuring the long life and stable operation of the charger.
Dust Resistance
Dustproof indicates that the electric vehicle charger is well protected from external dust and dirt.The number IP65 means that it can completely prevent dust from entering.
Chargers that exceed IP65 can be safely used outdoors, in factories, warehouses, and even in environments such as beaches and deserts.
On the other hand, chargers with numbers below IP45 are not dust-proof, so it is recommended to use them in environments with low dust.
Saline Resistance
Chargers designed to withstand salt damage are especially suitable for use in locations with severe salt damage, such as along the coast or in desert areas.These chargers are waterproof to IP67 and IP68 according to IEC60529, and the metal parts inside the chargers are treated to prevent rust.
This ensures reliable operation even in heavily salted environments and ensures a long service life.
By carefully comparing each charger’s dust-proofing and salt damage-resistance performance, and making sure to use it in an environment that is suitable for each charger, you can make the most of the stability and efficiency of electric vehicle charging.
Operating Temperature Limit
Operating temperature range is a key factor in ensuring safe and efficient operation of an electric vehicle charger.This range can vary widely depending on the type and construction of the charger, as well as the materials used and the degree of protection.
High Operating Temperature Range
A wide operating temperature range means the electric vehicle charger can reliably work in hot environments, reducing the risk of overheating, ignition, and battery wear.However, it may increase costs and weight due to complex cooling systems.
Low Operating Temperature Range
For an electric vehicle charger with a narrower temperature range, it performs well in cold environments, enhancing charging efficiency and battery performance.Yet, designs for cold environments may raise costs and weight due to heating and insulation systems.
The operating temperature range significantly impacts an EV charger’s performance, lifespan, and safety.
As technology advances and market trends evolve, the ideal balance between temperature range and other performance factors will continue to be fine-tuned.
With time, these technologies will only get better and more efficient.
Charging Speed
When it comes to charging speed, it’s all about how quickly your electric vehicle’s battery gets juiced up.This depends on factors like the electric vehicle charger’s power, your battery’s size, and how you use your ride.
Rapid Charging Speed
Imagine getting a solid charge in just 30 minutes to an hour! Rapid charging is perfect for topping up on the go or during a quick stop, giving your car that extra juice to keep you cruising.Just remember, this speedy option can generate some heat and might add to the costs.
Normal Charging Speed
Not in a rush? No worries! A normal charging speed takes its time, about 12 hours or so, making it great for an overnight charge at home or while you’re taking a breather at a leisure spot.The appeal of this type is its gentle charging of the battery and its low cost, and manufacturers such as Panasonic and Naigai Denki fall under this category.
However, the disadvantage is that it is not suitable for sudden or long-distance movements.
Charging Equipment Price
The price of charging equipment can vary greatly depending on the type and output of the electric vehicle charger, installation location, size, as well as the power company and subsidy system.When charging equipment comes with a hefty price tag, it might offer bells and whistles like real-time usage monitoring and blazing-fast charging speeds, sometimes up to 10 times faster than standard chargers.
But here’s the catch: this high-cost gear may not be the best fit for electric vehicle owners.
Why? Well, it can place a significant burden on owners, both in terms of the initial investment and ongoing maintenance expenses.
And that extra financial load might just dampen the enthusiasm of folks thinking about making the switch to an electric vehicle.
In contrast, low-cost charging equipment has the advantage of lower initial investment and maintenance costs.
This economic advantage applies to products from manufacturers such as Nitto Kogyo and Tesla.
On the other hand, regular chargers are better than quick chargers in terms of price, but they have the disadvantage of longer charging times of over 10 hours.
Charging Cost
Simply put, charging cost is the money you pay for the electricity when using an electric vehicle charger, and it can vary due to factors like charger type, power, usage time, and your electricity provider’s rates.Electricity costs are traded in kWh (kilowatt hour) units, and the unit price is said to fluctuate between 20 yen and 50 yen per 1 kWh.
If the output of the charger is 10kW and the electricity cost per kWh is 30 yen, the electricity bill will be 300 yen per hour.
Although it varies depending on engine performance, in the case of a gasoline car with a fuel efficiency of 20 km/L, the gasoline cost required to travel 100 km is approximately 5 liters, and if 1 liter is 150 yen, it will be approximately 750 yen.
On the other hand, if the electricity cost is 30 yen/kWh, the amount of electricity required to travel 100 km is approximately 4 kWh, which is approximately 120 yen, which is quite low.
Please note that electricity costs vary depending on the type and output of the electric vehicle charger, the time of use, and the electricity company’s rate structure.
High electricity costs can be advantageous for charger operators and power companies, allowing them to make more money from charging.
This can help cover installation and maintenance expenses, support renewable energy projects, and manage demand.
However, excessively high costs can burden electric vehicle owners and drive them away.
On the other hand, low electricity costs benefit EV owners by providing affordable charging, similar to how people favor budget-friendly gas stations.
Yet, it can reduce profits for electric vehicle charger operators and power companies, creating financial challenges.
Setting electricity costs requires a careful balance to ensure a win-win situation for all stakeholders.
Okay! Let’s review! So far, we have introduced six points to compare when choosing an electric vehicle charger.
Now, we can take a look at the manufacturers! The following section introduces and compares the major companies that manufacture electric vehicle chargers.
If you’re looking for the electric vehicle charger manufacturer that’s right for your business or location, read on to the next section.
Comparing 8 Electric Vehicle Charger Manufacturers
Electric vehicle (EV) chargers are offered by various manufacturers, depending on their performance and functionality.
From regular chargers to rapid and wireless chargers, there are many products that reflect the unique technologies and strengths behind each manufacturer.
Below, we will delve deeper into this comparison, their characteristics, and their positioning in the market.
Three companies that manufacture ordinary chargers
Regular chargers are widely used as electric vehicle chargers that are optimized for everyday use.Major manufacturers in this field include Nitto Kogyo, Panasonic, and Shindengen.
Please consult with the following table and find the best machine/manufacturer for your company.
EV Charger Comparison
| Nitto Kogyo | Panasonic | Shindengen Industries | |
|---|---|---|---|
| Charging Speed | Approximately 60km in 30 minutes | Approximately 60km in 30 minutes | Approximately 60km in 30 minutes |
| Charging Cost | Electricity rates for general households set by the power company are applied. | Electricity rates for general households set by the power company are applied. | Electricity rates for general households set by the power company are applied. |
| Charging Equipment Price | 200V Outlet : 15,000 Yen | 200V Outlet : 15,000 Yen | 200V Outlet : 15,000 Yen |
| Operating temperature limit | -20°C ~ 40°C | -20°C ~ 40°C | -20°C ~ 40°C |
| Water and dust proofing | IP44 | IP65 | IP55 |
| Number of Ports | 1 Port | 1 Port | 2 Ports |
| Installation Method | Stationary type, wall-mounted type, embedded type | Stationary type, wall-mounted type | Stationary type, wall-mounted type |
| Design | White, Black, Grey, etc | White, Black | White, Black |
| Warranty | 3 Years | 2 Years | 2 Years |
Nitto Kogyo
Nitto Kogyo, established in 1948, has a long history as a specialized manufacturer of electrical equipment.They mainly manufacture and sell switchboards, control panels, and electric vehicle charging equipment, and under their vision of “Creating the future of energy,” they provide products and services aimed at realizing a sustainable society.
Nitto Kogyo’s “Pit-2G series” regular charger is a fantastic choice.
You’ve got two options: one with communication features and a simpler version.
They are highly adaptable for installation, really safe, and come with a generous three-year warranty.
These chargers are making their way into all kinds of places, from public locations to commercial spaces and residential parking lots.
What’s especially great about Nitto Kogyo’s chargers is their balance of affordability and performance.
hey offer a wide range of outputs and cable lengths, and they are JARI certified for reliability.
Panasonic
Panasonic, a company with roots dating all the way back to 1918, has had its hands in all kinds of products, from home appliances to housing gear.But here’s what’s really cool: they’ve dived into the electric vehicle world with their “ELSEEV” series, and it’s turning heads.
Especially, the 6kW output model is a speed demon, charging about twice as fast as the regular chargers.
People in the industry are loving it.
What distinguishes Panasonic’s chargers are features like the AiSEG2 collaboration function, a sleek design, and exceptional dustproof performance compared to other manufacturers.
Notably, they boast an impressive IP65 dust resistance rating, making them suitable even in dusty environments.
You can find Panasonic chargers all over the place, from public spots to businesses and homes.
They’ve got a solid reputation for being reliable.
So, if you’re on the hunt for a charger that’s not only powerful but also stylish, Panasonic’s “ELSEEV” series is definitely worth considering.
Shindengen Industries
Since 1949, Shindengen Industries has been all about power supply equipment.But, here’s the exciting part – they stepped into the electric vehicle charger world in 2010.
Their breakout “SDQC series” rapid electric vehicle charger is quite the star.
What’s cool about it? Well, it offers various output options, including Japan’s first 150kW model.
Even better, one unit can charge two EVs at once, delivering up to 90kW.
That’s very convenient!
Shindengen’s charger also has two ports, and the cost is the same as other single-port chargers.
Plus, their “invisible ordinary charger” has a sleek design without buttons or displays, making installation and use super flexible.
With high-efficiency power supply technology and a solid reputation, Shindengen has been trusted by many manufacturers and facilities.
They’ve made their mark in various places, like Metsä Village in Hanno City, Saitama Prefecture.
Their power supply technologies are being used to power vast areas of the village.
So, if you’re after a reliable electric vehicle charger with some great features, Shindengen’s “SDQC series” is worth checking out.
Three Quick Charge Manufacturers
EV Charger Specifications
| Base | GREEN CHARGE | Hasetech | GS Yuasa |
|---|---|---|---|
| Charging Speed | Maximum 150kW | Maximum 150kW | Maximum 150kW |
| Charging Cost | Electricity rates for general households set by the power company are applied. | Electricity rates for general households set by the power company are applied. | Electricity rates for general households set by the power company are applied. |
| Charging Equipment Price | From 2 Million Yen | From 1.5 Million Yen | From 1 Million Yen |
| Operating temperature limit | -20°C ~ 40°C | -20°C ~ 40°C | -20°C ~ 40°C |
| Charging Ports | 2 Ports | 2 Ports | 1 Port |
| Setting | Stationary type only | Stationary type and wall-mounted type | Stationary type and stand type |
| Warranty | 2 Years | 2 Years | 1 Year |
| Waterproof | IP65 | IP65 | IP65 |
| Dustproof | IP65 | IP65 | IP65 |
| Saline Resistance | ○ | × | ○ |
| Charging Cable Length | 10m | 15m | 10m |
| Types of charging cables | 3P32A | 3P32A | 3P32A |
GREEN CHARGE
GREEN CHARGE, which has grown so rapidly that it is hard to believe that it was founded in 2022.As a subsidiary of Atsumi Tech, they’ve made significant advancements in electric vehicle connector technology.
Their GQC-50 quick electric vehicle charger, with a powerful 50kW output, can fully charge a 60kWh car in just one hour.
What’s noteworthy is their user-friendly pay-as-you-go services, where charges are based on the amount of charging, making it quite a financially attractive choice for users.
By adding communication functionality to their chargers, they’ve made real-time monitoring, early problem detection, and remote control a breeze, which reduces the effort needed for maintenance and troubleshooting.
GREEN CHARGE is also committed to being environmentally responsible by utilizing renewable energy and Atsumi Tech’s connector technology, ensuring their chargers are both safe and reliable.
Looking ahead, they’re anticipating a future where fast charging becomes commonplace in restaurants and commercial facilities.
Their goal is to install 100 chargers within FY2023 [Fiscal Year 2023], and that’s an exciting step forward!
Hasetech
Hasetech, with a history dating back to 1919, jumped into the electric vehicle quick charger game in 2009.They come well-prepared with expertise in power electronics, mechatronics, and top-notch aluminum welding tech, and they’ve made a name for themselves all over Japan.
Their “SC series” rapid electric vehicle charger is a real standout, packing a powerful 50kW maximum output.
It can fully juice up a 60kWh car in just about an hour.
Now, here’s the cool part: Hasetech’s chargers come with a 15m cord, which is 5m longer than what other companies offer.
That extra length gives you more flexibility in where you can set it up.
They’ve also got a great combo of quality, reliability, and fast charging capability, certified to aerospace welding standards.
Hasetech’s quick chargers are catching on for good reason.
They offer an excellent balance of affordability and high performance, making them a smart choice for facilities and businesses.
If you’re after a cost-effective solution with cutting-edge technology, Hasetech is a name you won’t want to miss.
If you are interested, or would like a specific quote or further information, please feel free to contact us using the button below.
GS Yuasa
GS Yuasa is a highly reliable battery manufacturer that was established in 2004 through the business integration of Yuasa Corporation and Nippon Battery.The company offers a wide variety of products, from batteries for cars and motorcycles to lithium-ion batteries for space and aviation.
In particular, the electric vehicle charger that was introduced to the market in 2010 is known as a high-quality product that takes advantage of their technological capabilities and experience.
GS Yuasa’s “EVC-50KA” quick charger boasts the ability to charge a 24kWh vehicle to 80% in just 30 minutes.
Furthermore, the charger/discharger “VOXSTAR” is noteworthy in that it can charge and discharge even CHAdeMO compatible car models that are not V2H compatible.
We are also developing products such as “D-Broad EV” that utilizes wireless power transfer technology, and are developing products that meet the needs of the times.
Its strengths include its long years of lithium-ion battery development technology and knowledge, as well as its low equipment costs.
In particular, a major advantage of VOXSTAR is that it has been approved as a subsidy for clean energy vehicle introduction business expenses.
GS Yuasa’s charger technology pursues high performance and low cost.
If you would like to experience its appeal for yourself, or would like more information or a quote, please feel free to contact us using the button below.
Two companies that manufacture wireless chargers
Wireless charging technology is attracting attention as a revolutionary technology that takes the convenience of electric vehicles to a new level.Three companies are active on the front lines: Daihen and GS Yuasa These companies each draw on years of technological know-how and unique visions to bring advanced wireless chargers to the market.
In particular, in the field of quick chargers, these companies have fully demonstrated their technological capabilities and have earned the trust of many users.
Advances by these companies will lead to the spread of electric vehicles in the future.
Mobility will be more accessible for society and will make our lives more comfortable and sustainable.
EV Charger Comparison Table
| Base | Daihen | GS Yuasa |
|---|---|---|
| Charging Speed | Maximum 20kW (200V) | Maximum 20kW (200V) |
| Charging Cost | Electricity rates for general households set by the power company are applied. | Electricity rates for general households set by the power company are applied. |
| Charging Equipment Price | From 1.5 Million Yen | From 1.5 Million Yen |
| Operating temperature limit | -20°C ~ 40°C | -20°C ~ 40°C |
| Charging Ports | 2 Ports | 2 Ports |
| Setting | Stationary type only | Stationary type and wall-mounted type |
| Warranty | 2 Years | 2 Years |
| Waterproof | IP65 | IP65 |
| Dustproof | IP65 | IP65 |
| Saline Resistance | ○ | ○ |
Daihen
DAIHEN, established in 1919, has leveraged its expertise in welding and cutting equipment, as well as industrial robots, to make significant strides in electric vehicle chargers.Their D-Broad electric vehicle charger is a fantastic example of this, featuring wireless charging technology that offers the convenience of charging while parking.
This technical prowess and know-how stem from DAIHEN’s extensive experience in various fields.
Their commitment to quality and outstanding after-sales service is evident through numerous successful installation cases.
If you are interested in DAIHEN’s products that pursue technological innovation and convenience in wireless chargers, and would like more information or a quote, please feel free to contact us using the button below.
GS Yuasa
Since the merger of Yuasa Corporation and Nippon Battery in 2004, GS Yuasa has been making a name for itself centered on advanced battery technology.Their expertise spans a wide array of areas, from batteries for automobiles and motorcycles to lithium-ion batteries used in aerospace, space exploration, and ocean development.
In the field of modern electric vehicle chargers, GS Yuasa is focusing on wireless power transfer technology.
In particular, the system called “D-Broad EV” has the convenience of being able to charge and discharge just by parking the vehicle.
This innovation is a product of their extensive experience in developing lithium-ion batteries and chargers, earning them high praise within the industry.
Purchasing your own EV Charger
At JET Global, we are committed to helping you find the best machine that suits your business needs.If you have any questions regarding any of the topics mentioned in today’s article, please feel free to reach out to us via our Contact Page.
Our team of specialists would be happy to help with your questions.
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