question

In some countries, you are not permitted to connect too much load to a single-phase (Unbalanced loading).
For example in Germany the limit is 4,6kVA

I had one 5kva MP2 inverter which was not going to get approved by the grid supplier, because it is not allowed to have a single phase inverter >3,6kva. Than i changed the whole system to 3x3kva MP2 to get approval.

its not allowed, the grid supplier only approves to put unbalanced inverters on one phase <3.6kVA

Because that would provide more power than the main fuses would tolerate.
I have 3x20A fuses. I can only buy or sell a total of 4800W on each phase (and actually only 3800 W on the cable connected to the victron. It is on a 16A fuse)

When my PV inverter SolarEdge produces 9000W from the sun, it distributes it evenly on all phases. 3000W on each.

I can have major imbalances between the phases, if I charge my car it draw 25A from L1, but L2 and L3 can still be selling (l1 is selling some, but mostly buying)

If Victron could have an "ESS Assistant option" like "Even phase distribution" yes/no

It would solve everyones problem, and everybody would be happy with their victron 3-phase setup

the key word is "phase compensation" not "phase balancing" that means:

at L1 MP2 delivers 2.5kVA to the grid

at L2 MP2 delivers 2.5KVA to the grid

at L3 MP2 delivers 2.5kVA to suppport the 7.5kVA load of the EV charger on L3.

Its not possible to change the charger in the EV to a 3 phase charger.

You can buy a new car for around 45tEUR. Or you buy addional 3x MP2, or you write a little update on the VenusGX so that the system behaves like every other 3phase inverter hybrid system does, like e.g. Solaredge, Fronius, Costal, ... their inverter systems provide on each phase the same power. So, if you need on any phase 3kW, they provide on each phase 1kW, with phase compensation that means:

INVERTER:

1kVA on L1

1kVA on L2

1kVA on L3

Energy Meter:

-1kVA on L1

-1kVA on L2

+2kVA on L3

makes in total 0W from the grid -> that means phase compensation. The grid supplier only looks at the sum of the 3 phases and not at the individual phases.

That is normal "phase compensation". This has many advantages for the consumers:

a) all the inverters are equally loaded --> longer livetime

b) all inverters work more efficient, because all three work with 1kVA and not one inverter has to take the full load of 3kVA

c) the system has more total power 3x3kVA = 9kVA for imbalanced loads is better than only 3kVA

This is a better solution for ESS applications. There is no single advantage of controlling system that Victron applies for 3 phase systems. This is developed for boats, camping, etc. but not for consumers that use it as ESS solution.

Independet of the fact that most EV chargers dont have a 3phase charger, all big power consumers of the house are not balanced through the 3 phases. When you switch on the oven, than it is on a single phase. When switch on the washing machine, it maybe is on the same phase again. There exists no good balanced load in any house. As good as I try, it is always very unbalanced. The mass on houses on one grid transformer makes in average a kind of balanced load, so it is ok for the grid.

Hi, thank you for your participation.

Yes, it is not allowed to connect unsymmetric loads > 4.6kW. But it is allowed to buy a car that has a single phase charger that can make unsymmetric loads until 7kW.

But two points:

a) my wallbox manages that the unsymmetric load is always below 4.6kW it reduces the charger load when necessary and reads out all data from the energy meter from the venus-gx. So, this is easy and normal.

b) when providing 2.5kW by the Multi and 4.6kW by the grid, i get the 7kW max. of the charger.

c) i always try to explain problems by extrem points this is 7kW on one phase. Most situations are lower. When i turn on my oven and cook it is the same problem. I mostly do not charge with 7kW, i dont need it, most time i use around 4,5kW on a phase, so that my solar energy from the day can go directly to the car.

d) It is not the problem that 7kW unsymmetric load is not allowed --> most cars can charge only 3.6kW or 4.5kW on one phase, so the problem stays the same. Victron does only support such loads in 3 phase systems with 2.4kW (full power of one inverter, which is on the most inefficient operating point of the inverter)

e) In reality in this situation I invested 1000EUR into a transformer 430V->230V to get out of two phases, one to charge the EV --> only to feed my free solarpower (15kW of panels) into the car, but people who invest in green energy want to have solutions that pay of in some years.

d) You can turn it around like you want. The main players like Froniux, SMA, Solaredge, Costal and ALL others do provide symmetrical inverter power and use phase compensation in combination with a battery storage.

at the moment we are Germany/Austria/Sweden who have the problem. Which country are you from?

Hi, yes.

https://community.victronenergy.com/questions/81246/hello-victron-staff-please-help-us-with-ess-phase.html

BR