10 KWH SET
UL9540 CERTIFIED!
DESIGNED TO BE EASILY INSTALLED ON WALLS!
The energy capacity can be improved and customized.
Contact us to learn more about our options, our different models and to find the distributor closest to you!
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Certification
FULL UL9540
CONCEPTION
100% Canadian
PROFITABILITY
2.6X more economical (15-year actual cost of ownership)
KEY FEATURES
4 COMMUNICATION PORTS
1X RJ45 (ES485)
2X RJ45 (battery-comm)
1X RJ45 (CAN)
DISCHARGE CURRENT
Continuous 50 A Peak 200 A (15 seconds)
ON/OFF SWITCH
Protects against unwanted discharges
CIRCUIT BREAKER
Protects the electrical system from damage caused by excessive current
COMPATIBILITY
Compatible and certified with almost all inverters available on the market!
SIZE
3U Format
529.5 X 482.6 X 133 mm
21 X 19 X 5.3 in
FIXATION
Wall mounting bracket included
10 YEARS
WARRANTY
COLD CHARGING PROTECTION
DESCRIPTION
Our 10 kWh set, comes with 2x 51.2V 100Ah 3U Rack-mount batteries, wall mounting and a busbar. It is UL9540 certified, making it compliant with the Canadian Electrical Code and the RBQ.
This set is perfect for meeting your energy storage needs with ease anywhere in Canada!
Composed of two of our brand new 51.2V 100Ah 3U Rack-mount LFP batteries, fully UL9540 certified, it offers you a high-capacity energy reserve and peace of mind, certified by the most stringent standards in North America.
Our 51.2V 100Ah 3U Rack-mount is a premium LifePO4 battery custom-made to meet the highest industry standards. With this 10 kWh kit, the two batteries come with our wall mounting accessory and a high-quality busbar, allowing the kit to be easily installed on walls for any type of installation – server rooms, telecommunications towers, micro power stations, or even residential setups.
This kit provides a basic 10 kWh energy reserve, which can be increased to 640 kWh by adding additional batteries. For any project of this scale, please contact our service department so an expert can advise you accordingly.
Our 51.2V 100Ah Rack-mount batteries are compatible and certified with nearly all inverters on the market. Please contact our service department for a list of compatible devices.
The 3U Rack-mount batteries incorporate MODBUS communication ports such as CAN and RS485. Thanks to these communication ports, Volthium constantly integrates new communication protocols, enabling interconnection with final energy equipment. Please note that we custom-develop protocol programming requested by customers or for integrating new brands of equipment.
10-year warranty, with a lifespan of around 15+ years.
Average operation beyond 6,000 cycles.
INCLUDED
10 kWh UL9540 certified package
2x 51.2 V 100 Ah batteries - 3U rackmount + Wall mounting bracket + Busbar
Lithium batteries are one of the most common energy storage technologies today, widely used in a variety of applications, from electric and recreational cars (RVs), water vehicles, solar storage banks, medical and industrial applications. The basic principle of their operation is the mobility of lithium ions between the two electrodes: the anode (negative electrode) and the cathode (positive electrode), via an electrolyte.
- Composition: Lithium batteries are typically made up of three main components: the anode, cathode, and electrolyte. The anode is usually composed of carbon, most often in the form of graphite. The cathode of LifePO4 batteries such as the ones we manufacture is made of lithium iron phosphate, iron phosphate promotes a strong molecular bond, which withstands extreme load conditions, extends service life, and maintains chemical integrity over many cycles. For other lithium batteries, the cathode is usually composed of a lithium metal compound, such as lithium cobalt, lithiated manganese, lithium nickel, or a mixture of these elements. The electrolyte is a chemical substance that allows lithium ions to pass between the anode and the cathode. At Volthium, we believe that LifePO4 batteries are the best alternative for different reasons.
- During charging: When the battery is charged, i.e. when the current is applied, the lithium ions move from the cathode to the anode via the electrolyte. During this process, lithium ions are “inserted” into the anode structure, a process called intercalation.
- During discharge: When the battery is used to power a device, i.e., when it is discharged, lithium ions move from the anode to the cathode, a process that releases energy. The mobility of lithium ions from the anode to the cathode is what generates the energy needed to power the device.
- Capacity and durability: The capacity of a lithium battery is determined by the amount of lithium it can store, which in turn determines how much energy it can provide. However, it is normal for the capacity of a battery to decrease over time, a phenomenon known as battery degradation. This is due to several factors, including temperature, overcharging and discharging, and general battery usage. However, thanks to the quality of our batteries and in particular our grade A+ cells, our batteries are guaranteed for 10 years and offer a lifespan of about 15 years.
LiFePO4 batteries, known for their lithium iron phosphate composition, are distinguished by their durability and superior energy capacity, especially in demanding applications such as recreational vehicles (RVs), trailers, and cottages. In Canada, where the search for reliable and sustainable energy solutions is constant, lithium LiFePO4 batteries are increasingly preferred over traditional lead-acid batteries, thanks to their long lifespan that can reach up to 3000 cycles at 100% discharge without significantly damaging the remaining capacity of the battery.
Volthium offers a range of 12V and 200Ah LiFePO4 batteries, equipped with grade A cells guaranteeing optimal efficiency. These batteries offer a shorter charging time and greater energy capacity, making the installation of a solar panel for energy storage even more cost-effective. Their high charge rate and stable voltage allow any electrical equipment to be efficiently powered, without the risk of overheating, thanks to the intrinsically safe lithium iron phosphate technology.
There are several types of lithium batteries, which are usually differentiated by the material used for the cathode (the positive electrode). The most common types are lithium cobalt (LiCoO2), lithium manganese (LiMn2O4), lithium nickel manganese cobalt (NMC), lithium nickel cobalt aluminum (NCA), and lithium iron phosphate (LiFePO4 or LFP) batteries. Volthium batteries are Iron Phosphate batteries known as LiFePO4 and LFP which are a kind of lithium-ion battery. They differ from other types of lithium batteries in their use of iron-phosphate for the cathode, rather than cobalt or nickel. They are said to have the following qualities:
- Safety and stability: LFP batteries are known for their safety and superior thermal stability. Compared to other types of lithium batteries, they are less likely to overheat or catch fire if malfunctioned or misused. This increased safety is due to the intrinsic stability of iron phosphate.
- Durability and life cycle: They also have a long service life and can maintain a high load capacity even after many charge and discharge cycles. They have a low self-discharge rate, which means they can hold their charge for long periods of time without use. Our products offer more than 6000 cycles and have a service life of about 15 years.
- Environmental performance: In comparison, LFP batteries have a potentially lower environmental impact. Iron is more abundant and less toxic than cobalt and nickel, and iron mining has a lower environmental impact. In addition, LFP batteries are easier to recycle than other types of lithium batteries.
Reducing our dependence on fossil fuels, improving air quality, managing e-waste more responsibly ; Lithium batteries have had a significant positive impact on the environment, playing a critical role in the transition to a cleaner and more sustainable society. Their increasing adoption in various areas, such as electric vehicles and renewable energy storage, has helped to significantly reduce greenhouse gas emissions from transportation and power generation.
Lithium battery recycling has also become more efficient, allowing valuable materials such as lithium, cobalt, and nickel to be recovered and reused in new batteries or other applications.
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