Venus-C energy storage 0.8 1F 2.5 kWh, Marstek
Network-type energy storage system (SME). Such SME enables energy to be drawn from the network for storage (it can cooperate with a fully created RES system from another manufacturer). It can work for the needs of a small house, office, apartment or flat.
What are the benefits of having this solution?
- Maximum use of energy from RES or the grid: If we have a RES system installed that produces energy without an energy storage, our system allows us to store surplus energy produced so that we can use it later when it is needed (using a power consumption meter), without the need to re-install and interfere with the existing solution.
- Increased self-consumption: Thanks to this solution, the user can use more RES energy produced for their own needs instead of sending it to the grid (using a power consumption meter).
- Savings on electricity bills: avoiding purchasing energy during expensive peak hours (only for dynamic tariff holders), and taking energy to storage when it is cheapest or when we have its surplus, we also reduce the costs of energy distribution,
- Reducing the carbon footprint, because we optimally use our investments in renewable energy sources and produce energy ourselves, which we use in over 79%.
- Small dimensions and ease of installation the devices are compact, which makes them easy to install even in limited space.
- Possibility of self-installation just insert the plug into the socket. However, we recommend that the connection of the power consumption meter be carried out by people with appropriate experience and with special caution.
- Note This energy storage system will provide you with continuous power supply and protect against power outages. However, it is necessary to connect electrical devices to a special output socket.
SME finally consists of:
- Energy storage with microinverter
- power consumption meter
Name: Venus-C energy storage 0.8 1F 2.5 kWh, Marstek
Symbol: DM14978
Device type: single-phase, works with/outside EE grid, charging from EE grid
|
Battery |
Capacity |
2.56 |
Life Cycles |
6000 |
Battery Type |
LiFePO4 |
DoD |
0.9 |
Nominal DC Voltage |
51.2 |
Number of Batteries included |
1 |
Scalability |
1 |
|
AC input (IN) |
Rated power |
2.5 |
phases |
1 |
AC voltage |
220-230 |
Frequency |
50/60 |
|
AC output (OUT) |
Rated power |
0.8 |
AC voltage range |
220-230 |
AC current |
10.9 |
Frequency |
50/60 |
Coefficient Power |
>0.99 |
Effect Factor Battery/Loads |
>93.5 |
THDI |
<3% |
|
AC output without grid |
Rated power |
2.5 |
Max instantaneous power |
3.5 |
Nominal AC voltage |
230 |
Frequency |
50 |
THDI |
<3% |
Effect Factor Battery/Loads |
>93.5 |
|
General |
Dimensions |
450*550*200 |
Weight |
44 |
Cooling Strategy |
Natural Convection |
Display |
LED |
Communication interface |
WIFI&RS48 |
|
Environment |
Operating altitude above sea level |
<2000 |
Temperature range |
-20-60 |
Humidity |
<95% |
|
Compliance |
Protection |
IP65 |
EMC |
IEC/EN 62109-1/-2,IEC/EN 61000-6-1/-2-/3-/4,IEC/EN 61000-3-2/-3,EN 300 328,EN 301 489 -1/-17, EN 50665,EN 62920,CB 62619, EN 50549-1 |
Network connection standard |
VDE 4105/0124,TOR R25, NF EN50549-10,C10/110,UNE 217001/217002,NT S631,CE |0-21,PETREE,PN-EN 50549-1/-2 |
Environment |
RoHs Directive2011/65/EU/ 2015 |
Transport |
UN38.3 (ST /SG/AC.10/11/Rev.7 /Amend.1 Part III Sub-section 38.3) |
|
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