The ARCV-LFP48-100E is a high-performance stackable energy storage battery designed for residential, commercial, and industrial energy storage solutions. With a nominal voltage of 51.2V and a capacity of 5.12kWh, this battery utilizes a deep cycle prismatic LiFePO4 cell and advanced battery management systems (BMS). The modular, lightweight design ensures scalability, making it ideal for telecom base stations, commercial setups, and residential solar applications. Thanks to its efficient 99% energy conversion rate and low self-discharge rate, it provides reliable, long-lasting power storage.
KEY FEATURES
High Efficiency – 99% efficiency ensures maximum energy retention and long operational life.
Scalable Design – Modular design allows for easy expansion, suitable for various applications like home energy storage, industrial storage, and telecom installations.
Durability and Safety – Built with LiFePO4 chemistry and steel casing, this battery is engineered for long-term reliability with a robust design (IP22 rated for protection against dust and water).
Wide Temperature Range – Operates in extreme temperatures from -20°C to 60°C, ensuring reliable performance in various climates.
Advanced Battery Management System (BMS) – Offers smart monitoring and protection to enhance battery life and safety.
Fast Discharge Rates – Supports high discharge rates with a maximum continuous discharge rate of 5.12 kW, making it ideal for both high and moderate load applications.
Certified & Compliant – Certified by CEC, UL1973/CE, and ROHS 2.0, ensuring compliance with international standards for quality and safety.
Technical Specifications
| ARCV-LFP48-100E | |||
| ELECTRICAL SPECIFICATIONS | MECHANICAL SPECIFICATIONS | ||
| Nominal Voltage | 51.2V (16S1P) | Dimensions (L x W x H) | About 495*483*177 MM |
| Nominal Capacity | 100 AH | Weight | About 46 KG |
| Energy | 5120 Wh | Case Material | Steel |
| Efficiency | 99% | Cell Type | Prismatic |
| Self Discharge | <1% per Month | Chemistry | LiFePO4 |
| DISCHARGE SPECIFICATIONS | IP level | IP22 | |
| Max. Continuous Discharge Current | 100 A | CHARGE SPECIFICATIONS | |
| Peak Discharge Current | 100 A | Recommended Charge Current | 50 A |
| Standard Discharge Current | 50 A | Maximum Charge Current | 95 A |
| Voltage At End Of Discharge | 43.2 V | Recommended Charge Voltage | 56.2 V |
| Maximum Continuous Discharge Rate | 5.12 kW | Charge mode | CC/CV |
| TEMPERATURE SPECIFICATIONS | COMPLIANCE SPECIFICATIONS | ||
| Discharge Temperature | (-20~60℃) | Certifications | CEC, UL1973/CE, ROHS 2.0/IEC62619 |
| Charge Temperature | (0~55℃) | Shipping Certification | UN38.3 |
| Storage Temperature | (-20~55℃) | Shipping Classification | UN3480,CLASS9 |
FAQs
Q1: What is the ideal application for the ARCV-LFP48-100E battery?
A1: The ARCV-LFP48-100E battery is perfect for residential, commercial, and industrial energy storage solutions, including solar energy systems, off-grid applications, and telecom base stations.
Q2: How long does the battery last?
A2: With its high efficiency of 99% and low self-discharge rate of less than 1% per month, the ARCV-LFP48-100E is designed for long-term use, with many years of dependable performance.
Q3: What is the operating temperature range for this battery?
A3: The battery is designed to operate in a temperature range from -20°C to 60°C, with charge and storage temperatures between 0°C and 55°C, ensuring versatility in various environmental conditions.
Q4: How does the BMS (Battery Management System) enhance the battery’s performance?
A4: The advanced BMS helps monitor and protect the battery, ensuring optimal performance, safety, and longevity by controlling the charge/discharge cycles and preventing overvoltage or undervoltage situations.
Q5: Is the ARCV-LFP48-100E battery stackable?
A5: Yes, the B-LFP48-100E features a modular design that allows for stacking, making it scalable for a range of applications from residential to industrial energy storage needs.
Q6: What certifications does the ARCV-LFP48-100E battery have?
A6: The battery complies with CEC, UL1973/CE, ROHS 2.0, IEC62619 certifications, ensuring high safety and quality standards. It is also UN38.3 and UN3480 certified for safe shipping.
We are a leading innovator and manufacturer in lithium battery technology, dedicated to engineering and manufacturing high-quality LiFePO4 solar batteries and power systems. Our core business involves the complete lifecycle of product development, from initial design to final production of dependable lithium battery packs. We proudly serve diverse sectors with customized solutions for energy storage, critical backup power systems, and compatible inverters and solar panels.
Based on automated production technology, Arcvolt are able to meet our customers' product needs quickly. However, the exact lead time depends on the quantity and the season you place the order.
Usage scenario: wall-mounted batteries, rack-mounted batteries, and stacked batteries. Voltage: 48V or 51.2V batteries, low/high voltage batteries Application: Residential storage batteries, industrial and commercial energy storage batteries.
While the typical home system uses 2 or 3 batteries, the perfect number for you is a personal choice. It all comes down to what you want to power during a grid outage and for how long. Do you need to run just the essentials or your whole house?
Yes, going completely off-grid is possible, but it's a significant step beyond standard solar with battery backup. A true off-grid system requires a much larger solar array and battery bank to power your home 24/7, making it a substantial investment. You also need a reliable backup source, like a generator, for days without sun. It's important to note that in North Carolina, disconnecting a home from the utility grid can be a complex process.
We accept EXW,FOB,CFR,CIF,etc. You can choose the one which is the most convenient or cost effective for you.
Absolutely. Our in-house design team specializes in OEM and ODM projects to bring your brand's vision to life. Simply provide us with your concept, high-resolution logo, and any text or images you'd like to include. We will then create a professional design proof for your final approval before we proceed.
Certifications are a key part of our pre-production checklist. We start by confirming with you which certifications are needed. These requirements are then integrated into the project timeline to ensure completion before shipment, and are formally documented in the signed agreement.
We offer lifetime technical support, with our engineers available 24/7 to provide prompt online assistance.
Yes, most of Arcvolt's inverters are designed to be scalable, meaning your system can grow with your needs. However, it's something that requires planning. Before adding more panels, it's essential to confirm that your current inverter can handle the additional power. We always recommend discussing your future plans with a professional to ensure your initial system is future-ready.
It depends on whether you have batteries. For Solar + Battery systems: A hybrid inverter is essential. It seamlessly manages power from panels and batteries in a single unit. For Solar-Only systems: Traditional inverters (like string or microinverters) are an option. The main advantage of a hybrid inverter is that it eliminates the need for a separate charge controller, making for a cleaner and more efficient installation.
Selecting the right inverter is one of the most important decisions you'll make for your solar project. While technical specifications matter, the long-term value comes from the manufacturer. Arcvolt advise customers to look beyond the data sheet and assess the company on these five critical points: their warranty, quality control standards, customer service responsiveness, installation support, and competitive pricing.
Generally, you want the inverter's size to match your solar array's power output. So, if you're installing a 5,000-watt solar system, you'll need an inverter of at least 5,000 watts to handle the load.
Yes, samples are available upon request as part of the qualification process for bulk orders. Please reach out to a member of our customer service team to discuss your specific requirements and they will assist you with the next steps.
Think of it as your personal energy bank. During the day, it saves up all the extra, unused power your solar panels generate. Then, you can draw from that stored energy whenever you need it—at night, during a power outage, or to avoid high-cost peak hours. For homeowners, this means energy independence and peace of mind. For businesses, it's a powerful tool to slash electricity bills.
Smart inverters are central to a system's reliability. Our inverter provide a constant stream of performance data, giving you a real-time view of your entire solar array. If a problem arises, the inverter's diagnostic tools can pinpoint the exact issue, which significantly speeds up repairs. This intelligent monitoring is key to preventing small problems from becoming big ones and guarantees the consistent, reliable operation you expect.
MPPT is a crucial technology that ensures you're not wasting sunlight. Because sun conditions are always changing, there is always a single, optimal point where your solar panels operate most efficiently. MPPT is the brain that constantly scans and adjusts the system to find and stay locked onto that "maximum power point." This guarantees you are harvesting the most energy possible from your panels at any given moment.
It's a question of priorities, and the logical first step is always generation. You have to make power before you can store it. Solar panels directly reduce your utility bills by producing electricity. Batteries give you control over when you use the excess electricity you've already made. We help our customers design a system that maximizes their solar panel array first, as this delivers the biggest and fastest return on investment.
A grid-tied inverter is the standard type used to reduce your electricity bills with solar. It safely connects your solar system to the utility's grid, allowing you to seamlessly feed any surplus power you produce back to the utility. In return, you receive credits on your bill for that energy, a process known as net metering. For safety, these inverters automatically shut down during a power outage.
The exact amount of power you generate is unique to your home and depends on your system's size, your roof's orientation, and how much direct sun you get. However, to give you a real-world idea, our typical 6kW home system can produce around 30kWh of electricity on a clear, sunny day. For most households, that's more than enough to cover all of your energy needs for a full 24 hours.
