|1. How about the delivery time?|
|Usually, we have stable stock in warehouse. The goods can be sent within 3-5 days.|
|2. How long of the shipping time?|
|It always need 3-15 days by express such as DHL and UPS, 25-45 days by sea.|
|3. How about the quality & warranty time?|
|All Battery products provided 10 years warranty.|
|4. Can these battery pack be compatible with my inverters? e.g SUNGROW/HUAWEI/SOLIS/GROWATT/SOFAR|
|Yes, our battery pack can be compatible with most brands of inverters on the market.|
|5. Are your battery real capacity?|
|Yes, we can offer you the testing data of each cell to show its actual capacity, IR and so on.The actual capacity are more than its nominal capacity.|
5.12kWh 48V Home Battery Storage LiFePO4 AC, DC , Hybrid Coupled Solar Battery
This home storage energy solar battery, developed with their own lithium iron phosphate cell to ensure the highest safety value and most promising life cycle. A self designed BMS protects the cell from abnormal temperature, current, voltage, SoC and SoH. The JN-WM5120L is a 48V battery. This home battery is modular with 5kWh increments, providing a capacity range of 5-30 kWh, it can be used to support reliable power for various types of equipment and systems.
Features and benefits
1. Vertical industry integration ensures cycle life of 6000 cycles
2. Compatible with both new installations and retrofits (AC- or DC-coupled)
3. Modular design gives the end customers the power of choice of capacity
4. Compatible with large number of Hybrid inverters
5. Simple buckle fixing minimize the installation time and cost
6. Provides pre-charge function to protect ESS system from
surge current.Up to 7 units can be stacked in parallel
7. Compact and fashionable design fits in your home environmentx
8. Comes with a 10-year warranty extendable
|Model||JN-WM5120L||Parallel Function||48v support at most 7 packs in parallel use(Capacity is 75kWh)|
|Enclosure Protection Rating||IP64||Nominal Power||5.12kW|
|Nominal Voltage||48V (51.2V)||Max. Power||5120W|
|Working Voltage Range||42V-56.25V||Operating Temperature Range||0℃～55℃|
|Nominal Capacity||100Ah||Storage Temperature Range||0~40ºC|
|Nominal Energy||5.12kWh||Charge Temperature Range||0~45ºC|
|Batetry Type||LiFePO4 (Lithium Iron Phosphate)||Discharge Temperature Range||-20~60ºC|
|Cycle Life||>6000 cycles @ 0.1C 80% DOD||Dimension(L*W*H)mm||
Reduce your electricity bills
Jingnoo can reduce customers’ electricity bills by up to 50% by storing solar energy during the day and discharging it in the evening. Jingnoo can also charge from the grid, which means it can store cheap, off-peak electricity. Customers on "smart" time-of-use tariffs can save an additional 15% on their energy bills by storing low-cost electricity and discharging it at peak time. Supplying your home more cost-effectively.
How Solar Energy Works
When you make the decision to go solar, you’ll have an array of solar panels installed on your roof. If you don’t know how solar panels work, they collect energy from the sun and convert it into an electric current. This direct current (DC) electricity then passes through an inverter which turns it into an alternating current (AC), which is the type of electricity we use in our homes. Most home solar panel systems are connected to local power grid systems, which means that any excess energy produced by your solar energy system is fed back to the grid. If your utility company has a net metering program, you can receive credits for this excess energy. By contrast, if your solar system does not produce enough energy to power your home at any point, you’ll draw energy from the grid.
Solar Batter Bank Tips
Using a Solar Battery Bank
So, where do batteries come into play? A solar battery bank is a solar energy storage system that will store energy that’s produced by your system rather than sending it back to the grid, allowing you to use it later. Then, when your unit is not producing any energy (for instance, after dark or on cloudy days), you can tap into those energy reserves in your solar battery bank.
The economics of a solar battery makes perfect sense; the more solar energy stored, the less energy you’ll have to purchase from your utility company. In recent years, however, people have started to realize the importance of solar batteries as backup power during a prolonged power outage. With growing instances of extreme weather exposing the vulnerabilities of our infrastructure, battery options and solar panels are becoming a mainstay for those in outage-prone areas.
How to choose the best solar battery bank for your home?
As you consider investing in your own solar system, you’ll have a few types of solar panels and backup batteries to choose from. Here are a few key things to look for when seeking the best solar batteries for your home.
Capacity refers to the total amount of electricity you can store in your battery. It’s typically measured in kilowatt-hours (kWh). Note that most solar batteries are modular (or stackable), which just means that, by combining multiple batteries, you can pool their collective storage capacity so that you can store a higher amount of energy.
In addition to a battery’s capacity, you’ll also want to take a look at its power rating. This tells you how much electricity the battery can provide at any given moment, and it’s typically measured in terms of kilowatts (kW). We should note the difference between peak power rating and continuous power rating:
Peak power refers to the maximum amount of power that can be provided at any one time
Continuous power refers to the power that the battery can provide over a duration of time. We find the continuous power rating to be the more important figure.
So, how do power and capacity relate? Consider, for instance, a battery with a high capacity but a low power rating. This battery would be able to provide a small amount of electrical power (say, enough for a couple of small appliances) over a long period of time. A low capacity but high-power battery could produce enough electricity for much more robust appliances, but would only be able to power them for a short span of time after each charging cycle.
Depth of discharge
Another important consideration is depth of discharge (DoD). This refers to the level of charge the battery must maintain at all times, as dictated by its chemical composition. The rule of thumb here is that a higher DoD means you’ll be able to utilize more of the energy storage system’s total capacity.
A battery’s round-trip efficiency measures the efficiency of the battery bank, or the amount of energy fed into the battery that can then be used. According to the Energy Information Association, the industry average round-trip efficiency of solar batteries sits around 80%, meaning that 20% of the energy fed to your battery by your solar panels is lost in the process. The higher the round-trip efficiency, the better the battery. None of the batteries on our list above have a round-trip efficiency of less than 90%.
Price and warranty
Naturally, any time you’re investing in solar equipment, price point is going to be a big concern. Although you may not want to spend much on top of the cost of solar panels, keep in mind that what you’re really after is value and battery costs are only one factor. Different batteries have different life-cycles and costs associated with them, so paying less money for a less powerful battery may not be the most cost-effective option in the long run.
Closely related to price is warranty. Most batteries for solar panels will guarantee either a certain number of cycles or a set number of years. Warranty is something to weigh against price point, as it can have a major impact on overall value.
The bottom line is that to get the most out of your solar system, you’ll need more than just top-of-the-line panels. Having a reliable solar battery can also be crucial. Make sure you explore your options and account for your home’s specific energy needs when choosing the best solar batteries for your system.