Hunan Bonnen Battery Technology Co., Ltd. |
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The high voltage LiFePO4 battery is a rack-mounted battery system tailored for high-voltage applications such as three-phase residential systems, industrial and commercial energy storage, microgrids, and high-voltage UPS. Each pack boasts a capacity of 51.2V 100Ah and can be series-connected to reach up to 512V. Additionally, the high-voltage box comes equipped with features like GPS, WiFi, Bluetooth, enabling real-time monitoring of battery data and information. It is characterized by its modular design, lightweight construction, intelligent functionality, easy installation, and portability, making it an ideal choice for high-voltage battery systems.
Product Features
1. High-Voltage Capability: The battery pack is specifically designed for high-voltage
applications, making it suitable for diverse energy storage needs
such as residential systems, industrial setups, microgrids, and UPS
systems.
2. Scalable Capacity: Each pack features a capacity of 51.2V 100Ah, and multiple packs
can be series-connected to achieve voltages of up to 512V,
providing flexibility to meet varying energy storage requirements.
3. Advanced Monitoring: Equipped with GPS, WiFi, Bluetooth, and other advanced monitoring
features, the high-voltage box allows for real-time monitoring of
battery data and information, ensuring efficient operation and
management.
4. Modular Design: The battery system is designed with a modular structure,
facilitating easy installation and maintenance. This modularity
also allows for convenient expansion or customization based on
specific application needs.
5. Intelligent Functionality: With intelligent features integrated into its design, including
real-time monitoring, remote access, and smart control
capabilities, the battery system ensures optimal performance,
efficiency, and reliability in high-voltage applications.
6. Advanced Safety Features: Equipped with advanced safety features such as overcharge protection, over-discharge protection, and thermal management systems, these batteries ensure safe and reliable operation in demanding environments.
Product Specification
No. | Item name | Basic Parameter | |||||
1 | Nominal Voltage | 153.6V | 204.8V | 256V | 307.2V | 409.6V | 512V |
2 | Nominal Capacity | 100AH | 100AH | 100AH | 100Ah | 100Ah | 100Ah |
3 | Nominal Energy | 15.36KWh | 20.48KWh | 25.6KWh | 30.72Kwh | 40.96Kwh | 51.2Kwh |
4 | OperationVoltage Range(V) | 134.4-172.5V | 179.2-230.4V | 224-288V | 268.8-345.6V | 358-460.8V | 448-576V |
5 | Max. Charging/Discharge Current (A) | 100A/100A | 100A/100A | 100A/100A | 100A/100A | 100A/100A | 100A/100A |
6 | Remmended Charge/ Discharge Current | 50/50A | 50/50A | 50/50A | 50/50A | 50/50A | 50/50A |
7 | Communication | CAN/RS485/RS232 | |||||
8 | BMS Parameter | SOC, System voltage, current, cell voltage, cell temperature, PCBA temperature measurement | |||||
9 | Operating Temperature Range | -10℃~+50℃ | |||||
10 | Transport or Storage Temperate Range | -20℃~+45℃ |
Product Benefits
Enhanced Energy Density: Our high voltage lithium batteries offer remarkable energy density, surpassing traditional lead-acid batteries. This allows them to pack more power into a smaller, lighter package, ideal for applications where space and weight are crucial factors.
Extended Lifespan: Our high voltage lithium batteries have a significantly longer lifespan, reducing the need for frequent replacements and maintenance. This longevity not only saves costs but also ensures uninterrupted power supply over an extended period.
Enhanced Efficiency: The high voltage LiFePO4 batteries boast superior charge and discharge efficiency, optimizing energy utilization. This means they can deliver more power output for the same energy input, making them highly efficient energy storage solutions.
Increased Flexibility: Our high voltage lithium batteries' compact form factor makes them versatile and adaptable to various applications. Their small size and lightweight nature allow for easy integration into space-constrained environments, such as server racks, electric vehicles, and portable electronic devices.
Inverter Compatibility
Are you a distributor or installer of inverters in need of a top-quality LiFePO4 solar battery solution to fulfill your customers' requirements? Your search ends here with Bonnen Battery, the premier supplier of advanced energy storage systems!
Product Applications
The high voltage LiFePO4 battery is a specialized rack-mounted battery system meticulously designed to cater to high-voltage applications. It is specifically tailored for use in various settings, including three-phase residential systems, industrial and commercial energy storage solutions, microgrids, and high-voltage UPS setups. This battery pack is engineered to deliver reliable and efficient performance in demanding environments where high voltage is required to support critical operations and ensure uninterrupted power supply.
FAQ
Q: What are home energy storage systems?
A: Home energy storage systems are gaining popularity as battery
and solar panel costs decrease. Typically, these systems include
photovoltaic systems, batteries, and inverters. The photovoltaic
system generates electricity from sunlight, stored in batteries.
Inverters convert stored DC electricity into AC electricity for
home use. These systems offer advantages like generating your own
electricity, reducing reliance on the grid, and saving on energy
bills.
Q: Bonnen home energy storage technical specifications.
A: Bonnen provides two types of residential energy storage systems.
Our first option offers either wall-mounted or stand-mounted
batteries with capacities of 5.12kWh and 10.24kWh, typically
compatible with inverters ranging from 3KW to 7KW. You have the
flexibility to choose your preferred inverter brand, or
alternatively, you can opt to purchase home batteries separately.
Additionally, we provide an all-in-one stack system. Bonnen has
developed both low-voltage and high-voltage stack systems, allowing
buyers to select the desired voltage and power. The modular design
of the high-voltage battery system enables stacking of 3 to 7
battery modules, with capacities ranging from 15.36 KWH to 35.84
KWH and voltages from 153.6V to 358.4V. This system is equipped
with an output inverter rated between 8KW to 12KW.
Q: What does a bonnen home energy storage battery do?
A: A Bonnen Home Energy Storage System (HESS) serves multiple
purposes. It stores solar energy generated during the day for
nighttime use, ensuring continuous power supply. Additionally, it
acts as a backup power source during grid outages. Depending on
your location and local electricity rates, the home battery can
potentially save you money by allowing you to shift energy
consumption from high-rate to low-rate periods. Lastly, it empowers
you to take control of your energy usage and achieve
self-sufficiency from the grid.
Q: Can I determine the charging priorities for my home energy
storage battery?
A: Yes, you have the option to set charging priorities based on
your preferences:
Self-Powered: Utilize the stored energy from your solar system to
power your home after sunset.
Backup Only: Reserve all the energy in your home battery for
emergency backup power during periods of low or no sunlight.
Balanced Time-Based Control: Power your home after sunset while
avoiding costly on-peak electricity rates by utilizing the
electricity stored in your solar system.
Q: Is solar panel installation required to use the Bonnen home
energy storage system?
A: No, it is not necessary to have PV/solar panels to operate the
Bonnen Home Energy Storage System. The home energy storage battery,
also known as Powerwall, can be charged using AC power from the
grid or a generator. Bonnen offers an all-in-one package that
includes household batteries and inverter systems, with the option
to include solar photovoltaic systems upon request. Solar panels
can be used for load transfer or as a standby power supply, but
they are not mandatory for the operation of the system.
Q: Where should I install the home battery energy storage?
A: Typically, the home battery energy storage is installed either
outdoors or in a utility room such as a garage or basement. Factors
to consider include heat dissipation, ventilation requirements,
avoiding direct sunlight exposure, and protection against water
exposure.
Q: How does a home battery connect to my home?
A: Prior to connecting a battery to the grid, it's important to
install a separate AC breaker between the inverter and the AC input
power source. This ensures that the inverter can be safely
disconnected during maintenance and is fully protected from
overcurrent. For hybrid-coupled homes, before making connections to
the Grid, Load, and Gen ports, ensure that the AC breaker or
disconnector is turned off.
Q: What's the difference between single-phase and three-phase
electricity?
A: Single-phase electricity, typically found in households,
operates at either 230 or 240 volts, while three-phase electricity
is commonly used in commercial and industrial settings and operates
at either 400 or 415 volts. One notable distinction between
single-phase and three-phase electricity is the power transmission
capacity. Three-phase electricity can transmit more power than
single-phase electricity, making it suitable for high-powered
applications. Additionally, three-phase electricity tends to
experience fewer power fluctuations compared to single-phase
electricity.
Q: Which is better for my home solar system: single-phase or
three-phase?
A: Single-phase systems are typically preferred for residential
homes, whereas three-phase systems are commonly used in commercial
and industrial environments. If you're uncertain about the phase of
your system, you can usually locate this information on your
electrical panel.
Q: How much power do I need for my home battery energy storage?
A: We recommend selecting only essential appliances to be connected
to the battery, such as a refrigerator, a few phone charging
sockets, lights, and the wifi system. During a complete blackout, a
typical 10 kWh battery can provide power for approximately 10 to 12
hours, depending on the load it is supporting. For instance, a 10
kWh battery can run a refrigerator for 14 hours, a television for
130 hours, or a single LED light bulb for 1,000 hours. Therefore,
many households opt for a battery with a storage capacity of 10
kilowatt-hours. Before purchasing a battery storage system, it is
crucial to discuss your requirements with our system designer.
Q: How long does a home energy storage battery last on one charge?
A: The duration of a home energy storage battery's charge depends
on your electricity usage. The more household appliances in use,
the shorter the battery's lifespan on a single charge. For example,
with basic consumption and lighting, a battery may last
approximately 12 hours. Bonnen engineers will design and calculate
the battery capacity based on your historical electricity
consumption data.
Q: How long will it take to fully charge my home energy storage
battery?
A: The time it takes to fully charge your home energy storage
battery depends on various factors such as sunlight duration,
brightness, shading, outside temperature, etc.
Q: Does my home energy storage system automatically switch on
during grid failure?
A: Yes, the Bonnen Home Energy Storage System will automatically
switch to battery power in the event of a grid failure.
Q: How long do batteries last?
A: Lithium-ion batteries typically endure around 6000 cycles
(charges/discharges) at an 80 percent discharge rate, translating
to an expected lifespan of over 10 years for high-performance
systems if cycled once per day. Bonnen LiFePO4 batteries are
designed to last over 15 years.
Q: What is the minimum order quantity (MOQ) for bonnen?
A: In fact, there is no minimum order quantity for Bonnen home
energy storage systems. Bonnen welcomes distributors, resellers, PV
installers, and system contractors as its target customers. Even a
single sample order is welcomed. Let Bonnen assist in expanding the
ESS market and enhancing your profitability!