EXPERIENCE UNMATCHED AUTONOMY WITH THE PORTABLE LOW-COST ALL-IN-ONE 2KWH ENERGY STORAGE SYSTEM
Run your essentials: lights, fridge, laptop, stereo
Charge your phones
Keep going for hours or days on your trip
Charge at home to save power for rainy days; charge with solar when sunny
Use non-electric pitches or go wild camping
Up to 10 years of life with an LFP battery
Traditional portable solar energy system (ESS) includes four separate components installed in your caravan, campervan, motorhome, etc., and operates as follows:
Solar panel array converts solar energy into DC current, fluctuating with solar radiation
Solar charge controller receives the fluctuating DC current, stabilizes it, charges the battery (battery bank), and protects the battery from overcharging
Lead-acid deep cycle battery (battery bank) receives the stabilized DC current, converts it into chemical energy, and converts this energy back to electric energy
Off-grid inverter transforms DC current from the battery to AC current
Traditional portable ESS requires a lot of space to accommodate all the components, as well as complex wiring to connect them. Lead-acid batteries have a service life of 200-500 cycles only, can be discharged not more than 50%, are larger and heavier, lose energy in the cold, and require longer charging time than lithium batteries.
Portable All-in-one 2kWh Energy Storage System (Portable ESS) consists of a PWM Solar Charge Controller 40A, a 2kWh 24V Lithium Battery, and a 1000W Pure Sine Wave Inverter assembled in a single metal case. The basic set of cables is included, and the system is UKCA certified.
The mains and an (optional) set of 2x 200W Portable Folding Solar Panel (custom quantities available) offer two available charging possibilities.
When the ESS is charged from the mains, the device is simply plugged into a wall socket.
When the ESS is charged from the 2x 200W Portable Solar Panels, solar energy from the panels, using the PWM Solar Charge Controller, is stored in the 1997Wh (25.6V 78Ah) LiFePO4 (LFP) Battery. The Pure Sine Wave Inverter delivers up to 1000W (surge 3000W) AC power to the user’s devices and appliances at RV, boat, or camp.
The ESS can be used for trips or other portable applications. From the high-efficiency premium solar panels to the efficient inverter and the durable battery, this ESS includes high-quality, safe components for your portable installation.
Three years’ warranty is included.
▼ PORTABLE 2KWH ESS FEATURES
USE 2x 200W PORTABLE FOLDING SOLAR PANELS AS MAIN POWER SOURCE (AND/OR MAINS AS AUXILIARY POWER SOURCE) to charge the ESS.
RECHARGE FROM 15% TO 100% WITH 2x 200W PORTABLE SOLAR PANELS WITHIN 8-9 HOURS. The actual time of recharging depends on the sunlight intensity and panel position.
POWER 10 DEVICES SIMULTANEOUSLY UP TO 1000W IN TOTAL. The ESS includes four 5V DC USB ports, four DС5521 12VDC ports, and two 230V AC mains style sockets. With up to 10 devices running, you will always feel right.
BUILT-IN UPS FUNCTION. The ESS includes an uninterruptible power supply (UPS) unit, which can automatically power your devices without shutting off even during a power outage.
INCLUDES DSP INTELLIGENT CONTROL CHIPSET & FAULT CODE DISPLAY TO MONITOR REAL-TIME PERFORMANCE CONDITIONS. Process monitoring and fault diagnosis are a vital part of this innovative and modern automatic operation management system.
2 WORKING MODES:
AC PRIORITY MODE – All AC loads connected to the ESS are powered from the mains; the battery is charging at the same time; if the mains fail, the power is switched to the battery; switching time is less than 4ms.
BATTERY PRIORITY MODE – All AC loads connected to the ESS are powered from the battery; if the battery is fully discharged, the power is switched to the mains.
FREE THREE WORKING DAY DELIVERY if ordered by 5PM on a weekday within the UK (longer to the Highlands, islands and Northern Ireland).
▼ PORTABLE 2KWH ESS SPECIFICATIONS
The Portable 2kWh ESS includes:
PWM Solar Controller 24V 40A, Efficiency > 85%,
LiFePO4 Battery 1997Wh (25.6V 78Ah), >2000 Cycles,
Pure Sine Wave Inverter 24V 1000W,
Portable earthing kit.
(Optional) 2 X 200W Portable Folding Solar Panels.
Input:
Solar Charge port (*1): Connected to the solar panel(s) 400 -1120W 30-44V
AC Charge port (*1): Connected to the mains 220-240VAC 50Hz; AC Charge power: 250W; AC Charge time from 20% to 100%: 6.4hrs
Output:
USB-A port (*4), 5V, 1A, 20W Max
DC5521 port (*4), 12V, 1A, 240W Max
AC Socket (*2), 220VAC+/-2% (Battery Mode) 220VAC+/-10% (AC Mode); 1000W per socket max.
Note: The total AC + DC load should not exceed 1000W!
Working Temperature:
Operating: from -10℃ to about 40℃
Storage: from -25℃ to about 60℃
Dimensions and Weight (without solar panels)
Product Size: 58cm*22cm*52cm
Product Weight: 35.6kg
Package Size: 72cm*28cm*58cm
Package Weight: 43.9kg
Certification: CE/ROHS/UKCA
▼PORTABLE 2KWH ESS IN THE BOX
Portable 2kWh ESS X 1
MC4 to Anderson Plug Solar PV Cable X 1
AC Charging Cable X 1
Portable earthing kit X 1
User Manual X 1
(Optional) 200W Portable Folding Solar Panel X 2, delivered separately.
▼PORTABLE 2KWH ESS FAQ
EARTHING
1. DOES THE ESS NEED EARTHING WHEN USED OFF-GRID?
Yes, the ESS must be earthed when used on portable applications. Use for that our portable earthing kit supplied.
BATTERY
1. WHAT IS THE BATTERY CAPACITY OF THE ESS?
The ESS has a LiFePo4 battery capacity of 1,997Wh (78Ah @ 25.6V). Lithium iron phosphate batteries (LiFePO4) offer a lot of benefits compared to other lithium batteries. These include a longer lifespan, no maintenance, better safety, improved discharge and charge efficiency. LiFePO4 batteries are not the cheapest in the market, but thanks to their long lifespan and zero maintenance, they offer best value for money. Lithium iron phosphate batteries are specifically developed to handle high discharge currents. You can easily use several electrical devices at the same time at your home.
2. WHAT IS THE LIFESPAN OF THE BATTERY?
The LiFePO4 battery is designed for >2000 cycles, which means a 10+ years’ lifespan.
3. HOW CAN I GET THE LONGEST LIFESPAN FROM THE BATTERY?
Keep it within 20–30°C (68–86°F) and away from water and heat.
For safety reasons, do not store the ESS above +45°C (113°F) or below −10°C (−14°F) for extended periods.
LiFePO4 batteries should be “topped off” after each use. For greatest longevity, we recommend not fully discharging the battery nor overcharging by leaving it connected to a charger well beyond its full charge cycle. Remember that over the long term, the battery has a limited number of charge and discharge cycles with “one cycle” being either a complete charge and discharge cycle, or a cumulative of both to add up to a full cycle.
LiFePO4 batteries can be discharged up to 100% of their capacity. However, to optimise the performance of your LiFePO4 battery, to achieve a higher life cycle, and to avoid the BMS disconnecting the battery, we recommend limiting the discharge to 80%.
4. WHAT ARE THE BATTERY CARE AND STORAGE INSTRUCTIONS?
Recommended storage temperature: from -5°C to +35°C. Storage up to 1 month: from -20°C to +60°C. Storage up to 3 months: from -10°C to +35°C.
It is recommended to store LiFePO4 batteries indoors when not in use. It is also recommended to store LiFePO4 batteries at about 50% state of charge (SOC). If batteries are stored for long periods of time, discharge and charge batteries at least once every 6 months. Do not store batteries that are discharged.
Disconnect a LiFePO4 battery from mains or solar charging panels before placing it into storage. LiFePO4 batteries have a low self-discharge rate of 2% a month. To prevent a higher rate of discharge, we recommend disconnecting all power drawn from your batteries. When you store LiFePO4 batteries, it is important that you store them with a state of charge (SOC) of approximately 50%.
5. CAN THE ESS USE AN EXTRA BATTERY?
The 2kWh ESS doesn’t support extra batteries.
6. WHEN TO CHARGE MY LIFEPO4 BATTERY?
If LiFePO4 batteries are not fully discharged, they do not need to be charged after each use. LiFePO4 batteries are not damaged when left in a partial state of charge (PSOC). You can charge your LiFePO4 batteries after each use or when they have been discharged up to 80% DOD (20% SOC). If the Battery Management System (BMS) disconnects the battery due to low voltage (less than 8V), remove the load and charge immediately. Please note that we recommend storing battery at 50% state of charge (SOC) to minimise irreversible capacity loss.
PWM SOLAR CONTROLLER
1. WHAT IS A PWM SOLAR CONTROLLER?
The solar charge controller is used to regulate the battery charging and discharging process in the solar panel/battery system. Its main function is to control the charging current flowing from the PV panel to the battery, and keep the current not too high to prevent the battery pack from overcharging.
There are two types of solar controllers: MPPT solar controller and PWM solar controller. MPPT stands for Maximum Power Point Tracking, which is a technology to track and regulate the output energy from solar panels to batteries. PWM stands for Pulse Width Modulation, a technology that modulates the pulse width under specific rules to change the voltage and frequency of the solar panel’s output energy to charge the battery. MPPT controllers offer higher efficiency rates, and 3-stage charging that extends battery life, but are more expensive; while the PWM controllers have a simple structure, mature and reliable technology, they are cheap and cost-effective, but the conversion rate is lower than that of MPPT pairs.
2. HOW DOES A PWM CONTROLLER WORK?
PWM controllers work by slowly reducing the amount of power going into your battery as it approaches capacity. When your battery is full, PWM controllers maintain a state of “trickle”, which means they supply a tiny amount of power constantly to keep the battery topped off. They are especially suited for lithium iron phosphate batteries as once fully charged the controller then stays at the set float or holding voltage of around 13.6V (3.4V per cell) for the remainder of the day.
3. IS A PWM CONTROLLER RIGHT FOR ME?
A PWM charge controller is a good low-cost solution for small systems, when solar cell temperature is moderate to high (between 45°C and 75°C). To fully exploit the potential of an MPPT controller, the array voltage should be substantially higher than the battery voltage.
4. WHAT ARE THE MAIN SPECIFICATIONS OF THE PWM SOLAR CONTROLLER?
Voltage and amperage (or current) are the main parameters we use in solar charge controller sizing. The solar controller must be capable of accepting the voltage and current produced by solar panels and delivering the proper voltage and current to the battery. In fact, the PWM solar controller is sized of 24V and 30A.
AC AND SOLAR CHARGING
1. HOW CAN I CHARGE THE UNIT?
The 2kWh ESS supports two charging methods: mains charging and solar charging, which can be used simultaneously:
Mains charging input: AC 220-240V (50Hz)
Solar charging input: 400-1120W 30-44V DC charging current 30A (maximum)
2. WHAT TO DO IF CHARGING POWER IS LOW?
If the ambient temperature is too high or the battery is too hot to touch, turn off the ESS or stop the load, and let the ESS cool down.
If the ambient temperature is too low or the battery is too cold to touch, place the ESS in a place with higher surrounding temperature, let the battery heat up before charging.
The charging power of the ESS is related to the state of charge (SOC) of the battery. When the machine starts charging from 0% or is about to be fully charged, it is normal that the charging power gets lower.
3. IS SIMULTANEOUS AC AND SOLAR CHARGING SUPPORTED?
Yes, both AC and Solar charging can be performed.
4. IS IT POSSIBLE TO USE OTHER PRODUCTS TO CHARGE THE ESS?
No, you can only charge using your home grid and/or solar panels.
5. DOES IT SUPPORT AC CHARGING WHILE USING?
No.
6. WHY WOULD THE ESS NOT TURN ON?
Check if it is caused by insufficient battery. If it is, charge the battery and turn it on again. If the charging fails, please follow the instructions on charging failures.
If there is no response after you press the Power Button for 1 second, please contact Energian Customer Service.
7. WHAT TO DO IF NO CHARGING OCCURS?
Possible causes:
The charge temperature is too high. The charge temperature of 1the ESS is between 0℃ and 45℃. If you have used the ESS with high wattage appliances for a long time, please let it cool down and then charge it.
The charge temperature is too low. The charge temperature of the ESS is between 0℃ and 45℃. If the ambient temperature is too low and the cell temperature is lower than 0℃, please move the ESS to a warmer place, let it heat up and then charge.
The charging voltage or current is too low. Please charge the device according to the charging standard specified in Question 1.
Change the charging method or cable. For example, if solar charging isn’t working, it can mean that the solar panel or MC4 cable is broken. You can try charging the ESS again with another MC4 cable or a different solar panel.
If the above solutions are not working, please contact Energian Customer Service and provide a video of your charging problem.
2KWH ESS OUTPUT POWER
1. WHAT ARE THE ESS OUTPUTS?
The 2kWh ESS supports 3 output methods: AC output, USB output, 12V DC output, providing a total of 10 output ports:
AC output port – 2 ports 1000W max 220V, AC 50H each;
USB-A port – 4 ports 20W max, 5V, DC 1A each;
DC5521 port – 4 ports 240W max, 12V, DC 5A each
Note: The total AC + DC load should not exceed 1000W!
2. IS THE 100% PURE SINE WAVE USED IN THE ESS OUTPUT?
Yes, the ESS has pure sine wave AC output, but it contains a certain ratio of harmonics. The harmonic rate of ESS is as low as 3%.
3. WHAT ELECTRICAL APPLIANCES ARE SUPPORTED BY THE ESS?
The 2kWh ESS supports all appliances which have a rated power within the 1000W power range. You can find the appliance rated power in the user manual or on the nameplate, or it can be calculated according to the formula W=U*I (rated voltage multiplied by rated current). Note that since the start-up power and continuous power of different product brands are different, it depends on the actual measurement to determine whether it can be supported.
4. WHAT TO DO IF THE ESS CANNOT POWER ELECTRICAL APPLIANCES?
First, please check whether the output power of the ESS can meet the charging power requirements of your appliances.
In case of an alarm code on the LCD screen, take action as described in the User Manual (Section 7) for this code.
5. WHAT TO DO IF THE USAGE TIME OF AN ELECTRICAL APPLIANCE IS TOO SHORT?
As the power of each electrical appliance is different, the discharge efficiency of the ESS is less than 100%. Hence, the actual usage time of electrical appliances may be shorter than the theoretical time. The discharge efficiency should be calculated based on the continuous power of your appliances. If you have any questions, please provide the specifications of your appliances to Energian Customer Service for a calculation.
6. WHAT TO DO IF THE LOSS OF POWER OF THE ESS IS TOO QUICK?
Check if there are any high-power electrical appliances connected. The battery capacity is 1997Wh. Normally, if the power of a connected electrical appliance is ~800W and the battery is discharged from 100% to 20%, the battery will run out in about 2 hours.
7. WHAT TO DO IF NO OUTPUT OF USB-A PORTS OCCURS?
Change to a different USB-A port, and confirm whether it is just the problem of a single port.
Replace the USB cable to check whether the cable is faulty.
If there is no output from the USB port after checking the above methods, provide a video explaining the fault and contact Energian Customer Service service.
SOLAR PANEL CHARGING
1. WHAT IS THE MAXIMUM SOLAR CHARGING INPUT TO THE ESS?
Solar charging input 400-1120W 30-44V DC 30A (maximum).
2. HOW QUICKLY WILL LLPOWERS 200W SOLAR PANELS CHARGE THE ESS?
ALLPOWERS 200W portable solar panel generates a maximum current of 11.11A at STC (solar irradiance is 1000W/m2 @ 25°C). However actual solar irradiance differs from the STC significantly for various UK locations (see Fig. b). For the UK a maximum solar irradiance in observed from May to July. For example, in London May-July’s monthly solar irradiance is approx. 142 kWh/m2. If the actual daily sunshine hours in London were used in May-July for the period 2015-2021 (see here), then the average actual solar irradiance in London was 759 W/m2 in May, 853 W/m2 in June, and 740 W/m2, respectively. The average value is 784 W/m2. These data are approximate because they do not account for current generation on cloudy days.
Therefore, the 200W portable solar panel generates a maximum current of about 11.11A * (784/1000) = 8.7 * PWM solar charger efficiency (85%) = 7.4A. So as a rough estimate, to charge the 78Ah battery from 20% to 100%, 2x 200W portable solar panel (2 panels in series) will need (0.8*78Ah) / (7.4A) = 8.4 hours of charging. This period will be longer in cloudy weather.
Of course, this is only a high-level estimate – in reality many factors play a role, such as temperature, the angle of the solar panel relative to the sun etc.
3. DOES IT SUPPORT SOLAR CHARGING WHILE USING?
Yes, the ESS supports charging and discharging when charging it with solar panels. However, when the battery of the ESS is low or is about to run out, it is best not to charge anything while connecting to DC charging (solar charging); at this time, if the input of the power is less than or equal to the output power, the device will continue to consume power, which may result in power loss and eventual damage to the battery.
4. HOW TO CONNECT SOLAR PANELS – IN SERIES OR PARALLEL?
The solar panels can be used in series if the total voltage and current are not more than 30-44V and DC 30A, respectively. According to the specific parameters, it can be connected in parallel or in serial connection, but usage of solar panels with different wattages is not recommended.
5. WHAT TO DO IF SOLAR PANELS DO NOT WORK?
Solar panels must be placed outdoors for use. If placed indoors, this function cannot be used.
Check whether there is any problem with the connection method or connection cables, remove incorrect connections or cables, and try again.
The total voltage and current which is used, should not be more than 30-44V DC 30A. Please confirm whether the connected voltage and current are within this range and check whether the positive and negative poles are connected reversely.
6. WHAT IS THE OUTPUT POWER OF THE SOLAR PANEL IN VARIOUS WEATHER CONDITIONS?
Sunny weather: high light intensity and angle is vertical: the output power is about 80% of the rated power. Taking a 200W solar panel as an example, the actual output power is about 160W
2. Cloudy – May-July: 30~50W
3. Cloudy – other months: 10~15W Attempting to charge with solar power is not recommended. (The standby power of the device may be greater than the solar input power, which may cause damage to the battery of the device.)
4. Rainy day, night: 0W Do not connect to solar panels for charging. (Consumption of the standby power is higher than the input power, causing the battery voltage to leak and affect the battery life.)
7. WHY IS THE CHARGING POWER OF MY SOLAR PANEL SO LOW?
The charging power may be influenced by sunlight intensity and angle.
You can use the solar panel between 9:00am and 3:00pm when the sun rays are strongest. Avoid using it on a cloudy day in the months August to April or putting it in a shady place.
Place the solar panel at a 90° to the sunlight so that the area receiving the sunlight is as large as possible, and the solar charging power is high.
EMERGENCY POWER SUPPLY (EPS) MODE
1. WHAT IS THE EPS MODE?
When your ESS is plugged into the wall socket, any devices plugged into the ESS are powered from the grid and not its battery. In EPS mode, when the battery power is between 97% and 100%, the AC input will not charge the battery. When the power is below 97%, the AC input will be used as a bypass output and will also charge the battery. When power from the grid stops, as in a blackout, the ESS automatically switches to battery power within 4ms.
2. IS EPS MODE THE SAME AS UPS (uninterruptible power supply) FUNCTION?
The ESS uses a non-universal UPS (uninterruptible power supply) function and is only used as an EPS. When you connect the grid power to the AC Input Port of the product through an AC cable, you can power electrical devices through the AC Output Port (AC power will come from the grid and not the power stored in the device). In case of a sudden blackout, the product can automatically switch to the battery powered supply mode within 4ms. As a basic UPS function, this function does not support 0ms switching. Please do not connect the product to any device that requires 0ms UPS, such as data servers and workstations. Please test and confirm the compatibility before using the product. We recommend that you only charge one device at a time and avoid using multiple ones at the same time to avoid overload.
Don’t see an answer to your question? Call us on 020 8064 0335 or email [email protected].