G100 devices
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G100 devices
Hi,
When applying for G99, does both the solar inverter and the ESS need G100, or only one of the devices?
I am assuming one of them, to limit the total export.
The question I have is for solar arrays. If the battery is full, and the solar array is producing full power, how will the solar inverter prevent grid export?
When applying for G99, does both the solar inverter and the ESS need G100, or only one of the devices?
I am assuming one of them, to limit the total export.
The question I have is for solar arrays. If the battery is full, and the solar array is producing full power, how will the solar inverter prevent grid export?
Re: G100 devices
By throttling back, think of a dimmer switch on a light bulb.
18.7kW PV > 109MWh generated
Ripple 6.6kW Wind + 4.5kW PV > 26MWh generated
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Ripple 6.6kW Wind + 4.5kW PV > 26MWh generated
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Re: G100 devices
I understand that, what I don’t understand is the following scenario. If the ESS is supplying loads, and solar production begins, it won’t see a demand and in theory, if the solar inverter is set to zero export, it will sit there idling?
How does it know to produce power, if the ESS is fulfilling the whole demand?
Re: G100 devices
Because the G100 device has a CT clamp sensor at the grid point so it knows whether the house is exporting or importing and by how much.
OK, say you have one G98 3.68kW inverter with no export control and one ESS inverter which is essentially a zero export inverter and the batteries are full.
Yes the whole system will export to a max of 3.68kW (if the G98 inverter at full tilt) but that's within the DNO's default approval.
Now say your house has a 3kW load and the G98 inverter is supplying 1kW of that because the sun is behind a cloud. The ESS is controlled by a CT clamp at the gridpoint and is supplying 2kW so the house load is satisfied and there is no export. Now the sun pops out from a cloud and the G98 inverter bangs up to 2.5kW. The ESS will detect export to the grid and back off its export until its giving 500W to add to the 2.5kW coming out of the G98 inverter. Export is zero.
Now say you house load is 1kW and the G98 inverter is producing 2.5kW and thus will be exporting 1.5kW. If the ESS batteries are not full, then that 1.5kW is taken and put into the batteries, but if they are full, then the ESS simply sits there and does nothing whilst 1.5kW keeps exporting.
OK, say you have one G98 3.68kW inverter with no export control and one ESS inverter which is essentially a zero export inverter and the batteries are full.
Yes the whole system will export to a max of 3.68kW (if the G98 inverter at full tilt) but that's within the DNO's default approval.
Now say your house has a 3kW load and the G98 inverter is supplying 1kW of that because the sun is behind a cloud. The ESS is controlled by a CT clamp at the gridpoint and is supplying 2kW so the house load is satisfied and there is no export. Now the sun pops out from a cloud and the G98 inverter bangs up to 2.5kW. The ESS will detect export to the grid and back off its export until its giving 500W to add to the 2.5kW coming out of the G98 inverter. Export is zero.
Now say you house load is 1kW and the G98 inverter is producing 2.5kW and thus will be exporting 1.5kW. If the ESS batteries are not full, then that 1.5kW is taken and put into the batteries, but if they are full, then the ESS simply sits there and does nothing whilst 1.5kW keeps exporting.
18.7kW PV > 109MWh generated
Ripple 6.6kW Wind + 4.5kW PV > 26MWh generated
5 Other RE Coop's
105kWh EV storage
60kWh Home battery storage
40kWh Thermal storage
GSHP + A2A HP's
Rain water use > 510 m3
Ripple 6.6kW Wind + 4.5kW PV > 26MWh generated
5 Other RE Coop's
105kWh EV storage
60kWh Home battery storage
40kWh Thermal storage
GSHP + A2A HP's
Rain water use > 510 m3
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Re: G100 devices
If you have two inverters connected to the grid, say a PV inverter and a battery system inverter, then the export sum of both has to remain within whatever limit the DNO will allow under G99 (which used to be called G59). This also applies if you have two G98 (used to be G58) compliant inverters, say a G98 PV inverter (so no more than 16A per phase) and a G98 battery system inverter - the sum of both cannot exceed the G98 limit of 16A per phase unless you get G99 consent.
There are a few options. You can request that the DNO grant consent under G99 to allow the sum of the potential exports, if either inverter is G98 compliant, then you can use a G100 limiting device (some inverters will do this) so that when one inverter is outputting 16A per phase the other cannot export, or you can sometimes get both inverters to communicate with each other so they act in concert to ensure that the export never exceeds either the DNO set G99 limit or the always permitted G98 limit.
As an example, my system at the moment has a G59 (now G99) PV inverter that can export up to 26A (6kW) on a single phase (DNO approved to this export level). I also have a Sofar battery inverter that can deliver up to 13A on the same single phase. The Sofar battery inverter has a CT on the grid that stops it from ever exporting (effectively a G100 limit of zero), so the export is limited to whatever the PV inverter can deliver under the G59 approval.
I'm shortly going to add another 2kW (~8.7A) PV inverter, and because the DNO will not allow anymore export, I'm fitting a G100 limiting relay, that will disconnect this second inverter from the grid if the total export (from both PV inverters) exceeds the 26A (6kW) G59 approved export level. This will allow both PV inverters to export up to the 6kW G59 limit, and as soon as this is breached the second 2kW inverter will be disconnected from the grid.
The whole thing can get a bit challenging to get your head around, not helped by the fact that most inverters (battery and PV) are designed to work in many different countries, so understanding how they behave with respect to UK restrictions can be a bit of a headache. It's not helped by a general dearth of information from manufacturers and UK suppliers as to how their system behaves in conjunction with the products from other companies.
There are a few options. You can request that the DNO grant consent under G99 to allow the sum of the potential exports, if either inverter is G98 compliant, then you can use a G100 limiting device (some inverters will do this) so that when one inverter is outputting 16A per phase the other cannot export, or you can sometimes get both inverters to communicate with each other so they act in concert to ensure that the export never exceeds either the DNO set G99 limit or the always permitted G98 limit.
As an example, my system at the moment has a G59 (now G99) PV inverter that can export up to 26A (6kW) on a single phase (DNO approved to this export level). I also have a Sofar battery inverter that can deliver up to 13A on the same single phase. The Sofar battery inverter has a CT on the grid that stops it from ever exporting (effectively a G100 limit of zero), so the export is limited to whatever the PV inverter can deliver under the G59 approval.
I'm shortly going to add another 2kW (~8.7A) PV inverter, and because the DNO will not allow anymore export, I'm fitting a G100 limiting relay, that will disconnect this second inverter from the grid if the total export (from both PV inverters) exceeds the 26A (6kW) G59 approved export level. This will allow both PV inverters to export up to the 6kW G59 limit, and as soon as this is breached the second 2kW inverter will be disconnected from the grid.
The whole thing can get a bit challenging to get your head around, not helped by the fact that most inverters (battery and PV) are designed to work in many different countries, so understanding how they behave with respect to UK restrictions can be a bit of a headache. It's not helped by a general dearth of information from manufacturers and UK suppliers as to how their system behaves in conjunction with the products from other companies.
25 off 250W Perlight solar panels, installed 2014, with a 6kW PowerOne inverter, about 6,000kWh/year generated
6 off Pylontech US3000C batteries, with a Sofar ME3000SP inverter
6 off Pylontech US3000C batteries, with a Sofar ME3000SP inverter
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Re: G100 devices
Great explanation. Is there any way to prevent the other G98 inverter exporting to the grid when the batteries are full (refer to your last paragraph).nowty wrote: ↑Thu Nov 24, 2022 9:14 pm Because the G100 device has a CT clamp sensor at the grid point so it knows whether the house is exporting or importing and by how much.
OK, say you have one G98 3.68kW inverter with no export control and one ESS inverter which is essentially a zero export inverter and the batteries are full.
Yes the whole system will export to a max of 3.68kW (if the G98 inverter at full tilt) but that's within the DNO's default approval.
Now say your house has a 3kW load and the G98 inverter is supplying 1kW of that because the sun is behind a cloud. The ESS is controlled by a CT clamp at the gridpoint and is supplying 2kW so the house load is satisfied and there is no export. Now the sun pops out from a cloud and the G98 inverter bangs up to 2.5kW. The ESS will detect export to the grid and back off its export until its giving 500W to add to the 2.5kW coming out of the G98 inverter. Export is zero.
Now say you house load is 1kW and the G98 inverter is producing 2.5kW and thus will be exporting 1.5kW. If the ESS batteries are not full, then that 1.5kW is taken and put into the batteries, but if they are full, then the ESS simply sits there and does nothing whilst 1.5kW keeps exporting.
I actually have a G100 ESS and a G100 solar inverter, both have consumption CTs, so I would think I could prevent any export even when the batteries are full and the solar production is higher than the house consumption.
What I am struggling to understand, is how the solar inverter knows to “produce” power. Imagine if during the hours of darkness a 500w load is being powered by the ESS. The sun comes up, and there is 750w of solar available. How does the solar inverter “inject” this when in theory, it won’t see a demand on the system as this is being covered already by the ESS?
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Re: G100 devices
Thanks for your explanationOldgreybeard wrote: ↑Thu Nov 24, 2022 9:19 pm If you have two inverters connected to the grid, say a PV inverter and a battery system inverter, then the export sum of both has to remain within whatever limit the DNO will allow under G99 (which used to be called G59). This also applies if you have two G98 (used to be G58) compliant inverters, say a G98 PV inverter (so no more than 16A per phase) and a G98 battery system inverter - the sum of both cannot exceed the G98 limit of 16A per phase unless you get G99 consent.
There are a few options. You can request that the DNO grant consent under G99 to allow the sum of the potential exports, if either inverter is G98 compliant, then you can use a G100 limiting device (some inverters will do this) so that when one inverter is outputting 16A per phase the other cannot export, or you can sometimes get both inverters to communicate with each other so they act in concert to ensure that the export never exceeds either the DNO set G99 limit or the always permitted G98 limit.
As an example, my system at the moment has a G59 (now G99) PV inverter that can export up to 26A (6kW) on a single phase (DNO approved to this export level). I also have a Sofar battery inverter that can deliver up to 13A on the same single phase. The Sofar battery inverter has a CT on the grid that stops it from ever exporting (effectively a G100 limit of zero), so the export is limited to whatever the PV inverter can deliver under the G59 approval.
I'm shortly going to add another 2kW (~8.7A) PV inverter, and because the DNO will not allow anymore export, I'm fitting a G100 limiting relay, that will disconnect this second inverter from the grid if the total export (from both PV inverters) exceeds the 26A (6kW) G59 approved export level. This will allow both PV inverters to export up to the 6kW G59 limit, and as soon as this is breached the second 2kW inverter will be disconnected from the grid.
The whole thing can get a bit challenging to get your head around, not helped by the fact that most inverters (battery and PV) are designed to work in many different countries, so understanding how they behave with respect to UK restrictions can be a bit of a headache. It's not helped by a general dearth of information from manufacturers and UK suppliers as to how their system behaves in conjunction with the products from other companies.
Re: G100 devices
if you have two G100 devices then you may have two separate CT clamps at the grid point. This may work, it may become unstable as they fight each other but ultimately one will likely act faster than the other and it will come to some equilibrium.vantech2022 wrote: ↑Thu Nov 24, 2022 9:35 pmGreat explanation. Is there any way to prevent the other G98 inverter exporting to the grid when the batteries are full (refer to your last paragraph).nowty wrote: ↑Thu Nov 24, 2022 9:14 pm Because the G100 device has a CT clamp sensor at the grid point so it knows whether the house is exporting or importing and by how much.
OK, say you have one G98 3.68kW inverter with no export control and one ESS inverter which is essentially a zero export inverter and the batteries are full.
Yes the whole system will export to a max of 3.68kW (if the G98 inverter at full tilt) but that's within the DNO's default approval.
Now say your house has a 3kW load and the G98 inverter is supplying 1kW of that because the sun is behind a cloud. The ESS is controlled by a CT clamp at the gridpoint and is supplying 2kW so the house load is satisfied and there is no export. Now the sun pops out from a cloud and the G98 inverter bangs up to 2.5kW. The ESS will detect export to the grid and back off its export until its giving 500W to add to the 2.5kW coming out of the G98 inverter. Export is zero.
Now say you house load is 1kW and the G98 inverter is producing 2.5kW and thus will be exporting 1.5kW. If the ESS batteries are not full, then that 1.5kW is taken and put into the batteries, but if they are full, then the ESS simply sits there and does nothing whilst 1.5kW keeps exporting.
I actually have a G100 ESS and a G100 solar inverter, both have consumption CTs, so I would think I could prevent any export even when the batteries are full and the solar production is higher than the house consumption.
What I am struggling to understand, is how the solar inverter knows to “produce” power. Imagine if during the hours of darkness a 500w load is being powered by the ESS. The sun comes up, and there is 750w of solar available. How does the solar inverter “inject” this when in theory, it won’t see a demand on the system as this is being covered already by the ESS?
If you have a SMA system like mine, 3 x G98 Sunny Boy solar inverters and one big G99 Sunny Island ESS. It has a single Grid point energy monitor which is built into a central control unit (Sunny Manager 2.0) and Ethernet comms to each inverter device. So it will control each device to manage the export to a total set limit, in my case the standard 3.68kW. If the comms goes tits up, all devices instantly throttle back to a fall back setting which in combination is still lower than 3.68kW.
But if I've have a lot of house loads on it can pump out the power and still throttle ALL devices back within the 5 second G100 limit.
Classic example,
Charging 2 EV's and some other stuff in the house, so I have a house load of 12.2kW.
My 3 x G98 solar inverters are generating a combined 7kW, with the additional 5.2kW being supplied by my ESS.
The export is 16W, so is practically zero.
If I now stop the EV's charging, the ESS will back off to zero and the 3 x G98 inverters will throttle back until they are only in total generating enough to export 3.68kW. Of course, the ESS will probably want some of the power to put back into the battery bank, so the 3 x G98 inverters may still give out full power to satisfy the ESS but the export to the grid will still not exceed 3.68kW, at least for the 5 second G100 specification response time.
Last edited by nowty on Thu Nov 24, 2022 10:49 pm, edited 3 times in total.
18.7kW PV > 109MWh generated
Ripple 6.6kW Wind + 4.5kW PV > 26MWh generated
5 Other RE Coop's
105kWh EV storage
60kWh Home battery storage
40kWh Thermal storage
GSHP + A2A HP's
Rain water use > 510 m3
Ripple 6.6kW Wind + 4.5kW PV > 26MWh generated
5 Other RE Coop's
105kWh EV storage
60kWh Home battery storage
40kWh Thermal storage
GSHP + A2A HP's
Rain water use > 510 m3
Re: G100 devices
Another classic example of my G100 3.68kW limiter, sunny day, batteries filled up and without the export limiter the generation would be up to about 8kW and the export would be around 7kW. But the grid feed in remains at 3.68kW as the solar inverters are throttled back.
Last edited by nowty on Thu Nov 24, 2022 10:51 pm, edited 1 time in total.
18.7kW PV > 109MWh generated
Ripple 6.6kW Wind + 4.5kW PV > 26MWh generated
5 Other RE Coop's
105kWh EV storage
60kWh Home battery storage
40kWh Thermal storage
GSHP + A2A HP's
Rain water use > 510 m3
Ripple 6.6kW Wind + 4.5kW PV > 26MWh generated
5 Other RE Coop's
105kWh EV storage
60kWh Home battery storage
40kWh Thermal storage
GSHP + A2A HP's
Rain water use > 510 m3
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- Posts: 1873
- Joined: Thu Sep 09, 2021 3:42 pm
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Re: G100 devices
I think the simplest solution for multiple systems (one or more PV systems plus one or more battery inverter systems) is probably to use the same manufacturer's kit. SMA kit will work well as a system, as will Victron kit. Things get trickier with some other kit that doesn't have such a well coordinated ecosystem.
25 off 250W Perlight solar panels, installed 2014, with a 6kW PowerOne inverter, about 6,000kWh/year generated
6 off Pylontech US3000C batteries, with a Sofar ME3000SP inverter
6 off Pylontech US3000C batteries, with a Sofar ME3000SP inverter