📝 Video Transcript
Hey, what's guys? Welcome back to the Hey, what's guys? Welcome back to the Hey, what's guys?
Welcome back to the channel. This right here is a Victron channel. This right here is a Victron channel.
This right here is a Victron 48V 10 KVA quattro inverter and it's a 48V 10 KVA quattro inverter and it's a 48V 10 KVA quattro inverter and it's a 120 volt inverter. So, in the previous 120 volt inverter. So, in the previous 120 volt inverter.
So, in the previous episode, we did a load test using this episode, we did a load test using this episode, we did a load test using this inverter, but we only used 120 volt inverter, but we only used 120 volt inverter, but we only used 120 volt loads, including, you know, induction loads, including, you know, induction loads, including, you know, induction cooktops and shop vacs and compressor cooktops and shop vacs and compressor cooktops and shop vacs and compressor and stuff like that. So, if you're and stuff like that. So, if you're and stuff like that.
So, if you're interested in that, go check out that interested in that, go check out that interested in that, go check out that video. But in this episode, we're going video. But in this episode, we're going video.
But in this episode, we're going to dedicate this episode to getting a to dedicate this episode to getting a to dedicate this episode to getting a 240 volt load test on this uh Quattro 240 volt load test on this uh Quattro 240 volt load test on this uh Quattro 120 volt inverter. Uh so we're going to 120 volt inverter. Uh so we're going to 120 volt inverter.
Uh so we're going to be combining 240 volts and 120 volts and be combining 240 volts and 120 volts and be combining 240 volts and 120 volts and then figure out how that works. So if then figure out how that works. So if then figure out how that works.
So if you're interested in learning how we did you're interested in learning how we did you're interested in learning how we did a 240 volt load test on a 120 volt quad a 240 volt load test on a 120 volt quad a 240 volt load test on a 120 volt quad Victron Quattro inverter, stick with us. Let's go ahead and talk about the Let's go ahead and talk about the Let's go ahead and talk about the connections. And we're not going to go connections.
And we're not going to go connections. And we're not going to go over every detail, but the important over every detail, but the important over every detail, but the important piece is uh just like the previous piece is uh just like the previous piece is uh just like the previous episode, we're going to talk about it episode, we're going to talk about it episode, we're going to talk about it more high level. So, this right here is more high level.
So, this right here is more high level. So, this right here is a Victron Quattro. It's a 48vt 10KVA a Victron Quattro.
It's a 48vt 10KVA a Victron Quattro. It's a 48vt 10KVA inverter. This is a 120 volt inverter, inverter.
This is a 120 volt inverter, inverter. This is a 120 volt inverter, singlephase. Right now, it's off.
That's singlephase. Right now, it's off. That's singlephase.
Right now, it's off. That's okay. Right now we have connected to I okay.
Right now we have connected to I okay. Right now we have connected to I think it's AC1 or two out whichever one think it's AC1 or two out whichever one think it's AC1 or two out whichever one stays on when the battery is on using stays on when the battery is on using stays on when the battery is on using this ROMX cable comes out of this ROMX this ROMX cable comes out of this ROMX this ROMX cable comes out of this ROMX cable into this device here called the cable into this device here called the cable into this device here called the auto transformer and then this ROMX auto transformer and then this ROMX auto transformer and then this ROMX cable is a two so it's got two cable is a two so it's got two cable is a two so it's got two conductors and a ground so they call conductors and a ground so they call conductors and a ground so they call that like a two uh two a two conductor that like a two uh two a two conductor that like a two uh two a two conductor and a ground ROMX cable so it goes into and a ground ROMX cable so it goes into and a ground ROMX cable so it goes into here single phase so this right here is here single phase so this right here is here single phase so this right here is a Victron auto transformer and this is a a Victron auto transformer and this is a a Victron auto transformer and this is a very interesting device we have another very interesting device we have another very interesting device we have another video dedicated to this device. So if video dedicated to this device.
So if video dedicated to this device. So if you want to know more about that, you you want to know more about that, you you want to know more about that, you know, definitely check that out. But the know, definitely check that out.
But the know, definitely check that out. But the interesting thing about this device is interesting thing about this device is interesting thing about this device is it can do many number of things. One of it can do many number of things.
One of it can do many number of things. One of the things it can do is it can take 120 the things it can do is it can take 120 the things it can do is it can take 120 volt singlephase and create 240 volts volt singlephase and create 240 volts volt singlephase and create 240 volts split phase. Uh it also creates a split phase.
Uh it also creates a split phase. Uh it also creates a neutral one. Now many other things it neutral one.
Now many other things it neutral one. Now many other things it can do like I said it can balance uh two can do like I said it can balance uh two can do like I said it can balance uh two uh 120 volts inverters. It can balance uh 120 volts inverters.
It can balance uh 120 volts inverters. It can balance or it can take 240 and take it to 120. or it can take 240 and take it to 120.
or it can take 240 and take it to 120. So all kinds of stuff. I'm not going to So all kinds of stuff.
I'm not going to So all kinds of stuff. I'm not going to get into that. But the important thing get into that.
But the important thing get into that. But the important thing here is that we're using it for 120 here is that we're using it for 120 here is that we're using it for 120 singlephase and getting 240 split phase. singlephase and getting 240 split phase.
singlephase and getting 240 split phase. Uh the other important thing you want to Uh the other important thing you want to Uh the other important thing you want to know uh from this is that it creates the know uh from this is that it creates the know uh from this is that it creates the neutral, right? Cuz you got split phase neutral, right?
Cuz you got split phase neutral, right? Cuz you got split phase and it's got that neutral. The neutral and it's got that neutral.
The neutral and it's got that neutral. The neutral current on this particular uh model current on this particular uh model current on this particular uh model cannot exceed I think it's like 30 amps cannot exceed I think it's like 30 amps cannot exceed I think it's like 30 amps or something like that. Uh it can do 20 or something like that.
Uh it can do 20 or something like that. Uh it can do 20 amps continuous on the neutral uh amps continuous on the neutral uh amps continuous on the neutral uh conductor but not more than 30 minutes. conductor but not more than 30 minutes.
conductor but not more than 30 minutes. So just think about it as don't exceed So just think about it as don't exceed So just think about it as don't exceed uh 20 amps on the neutral. That's all uh 20 amps on the neutral.
That's all uh 20 amps on the neutral. That's all you really got to take away from it. Uh you really got to take away from it.
Uh you really got to take away from it. Uh the other thing to know about this the other thing to know about this the other thing to know about this device is that they make two models. device is that they make two models.
device is that they make two models. They make a uh 30 amp model and then a They make a uh 30 amp model and then a They make a uh 30 amp model and then a 100 amp model. This one here is 100 amp 100 amp model.
This one here is 100 amp 100 amp model. This one here is 100 amp model. It means it can do 100 amps pass model.
It means it can do 100 amps pass model. It means it can do 100 amps pass through. Okay, that's all that really through.
Okay, that's all that really through. Okay, that's all that really matters. So uh coming out of this we matters.
So uh coming out of this we matters. So uh coming out of this we have this uh uh ROMX here which is a 21 have this uh uh ROMX here which is a 21 have this uh uh ROMX here which is a 21 meaning it carries two conductors. This meaning it carries two conductors.
This meaning it carries two conductors. This white and this red and then this ground. white and this red and then this ground.
white and this red and then this ground. I've added a third conductor here, I've added a third conductor here, I've added a third conductor here, right? Making it a three conductor and right?
Making it a three conductor and right? Making it a three conductor and one, right? Uh because we got 240 uh one, right?
Uh because we got 240 uh one, right? Uh because we got 240 uh split phase. So, it comes out of there split phase.
So, it comes out of there split phase. So, it comes out of there and it comes into this breaker box here. and it comes into this breaker box here.
and it comes into this breaker box here. And as you can see right here, we got And as you can see right here, we got And as you can see right here, we got that same ROMX two conductors plus this that same ROMX two conductors plus this that same ROMX two conductors plus this one that's not in that ROMX sheathing. one that's not in that ROMX sheathing.
one that's not in that ROMX sheathing. And then um the two hot legs feed into And then um the two hot legs feed into And then um the two hot legs feed into this breaker right here. Two pull this breaker right here.
Two pull this breaker right here. Two pull breaker. The uh neutral feeds into that breaker.
The uh neutral feeds into that breaker. The uh neutral feeds into that neutral bar. and then the ground feeds neutral bar.
and then the ground feeds neutral bar. and then the ground feeds into that ground bar. So, if you're not into that ground bar.
So, if you're not into that ground bar. So, if you're not too familiar with the load center, how too familiar with the load center, how too familiar with the load center, how that really works is this entire metal that really works is this entire metal that really works is this entire metal casing is the ground. You also have casing is the ground.
You also have casing is the ground. You also have these ground bars that are a ground and these ground bars that are a ground and these ground bars that are a ground and then in one location right here, in our then in one location right here, in our then in one location right here, in our case, the green screw bonds the ground case, the green screw bonds the ground case, the green screw bonds the ground to this neutral bar. That's how that to this neutral bar.
That's how that to this neutral bar. That's how that works. Okay.
Uh so, we have this two works. Okay. Uh so, we have this two works.
Okay. Uh so, we have this two pole breaker feeding uh pretty much pole breaker feeding uh pretty much pole breaker feeding uh pretty much these two legs here. uh one feeds or the these two legs here.
uh one feeds or the these two legs here. uh one feeds or the black feeds one and the red feeds the black feeds one and the red feeds the black feeds one and the red feeds the other one. And then the way that really other one.
And then the way that really other one. And then the way that really works is that you see this here. This works is that you see this here.
This works is that you see this here. This takes uh this is one leg. It skips this takes uh this is one leg.
It skips this takes uh this is one leg. It skips this slot and then it goes over here and slot and then it goes over here and slot and then it goes over here and feeds that leg. So if you have a two feeds that leg.
So if you have a two feeds that leg. So if you have a two pole breaker, it kind of uses up two pole breaker, it kind of uses up two pole breaker, it kind of uses up two slots here and it connects to that leg slots here and it connects to that leg slots here and it connects to that leg and that leg. That's how the 240 really and that leg.
That's how the 240 really and that leg. That's how the 240 really works. So if you want to look at it, you works.
So if you want to look at it, you works. So if you want to look at it, you can say this leg, right? This one is can say this leg, right?
This one is can say this leg, right? This one is technically connected to this one up technically connected to this one up technically connected to this one up here because it feeds that uh leg hot here because it feeds that uh leg hot here because it feeds that uh leg hot leg right there. So, this one feeds 240 leg right there.
So, this one feeds 240 leg right there. So, this one feeds 240 in. This is a 30 amp L uh 1530 out.
And in. This is a 30 amp L uh 1530 out. And in.
This is a 30 amp L uh 1530 out. And then it goes out two hot legs into that then it goes out two hot legs into that then it goes out two hot legs into that uh outlet right there. And then that uh outlet right there.
And then that uh outlet right there. And then that right now is connected to a charge. We right now is connected to a charge.
We right now is connected to a charge. We also have, you know, all of these 120 also have, you know, all of these 120 also have, you know, all of these 120 volt single circuits that are in this volt single circuits that are in this volt single circuits that are in this breaker box from the previous testing. breaker box from the previous testing.
breaker box from the previous testing. If you don't know much about these, If you don't know much about these, If you don't know much about these, these are what you call tandem breakers. these are what you call tandem breakers.
these are what you call tandem breakers. You get two uh circuits in one breaker You get two uh circuits in one breaker You get two uh circuits in one breaker slot. I did uh move one around to kind slot.
I did uh move one around to kind slot. I did uh move one around to kind of balance the load out, but we're going of balance the load out, but we're going of balance the load out, but we're going to see how that some of that load to see how that some of that load to see how that some of that load testing goes. And then to the loads, testing goes.
And then to the loads, testing goes. And then to the loads, what we have is um the 15 amp GFCI uh what we have is um the 15 amp GFCI uh what we have is um the 15 amp GFCI uh outlets. Each one is a home run to the outlets.
Each one is a home run to the outlets. Each one is a home run to the breaker. Um and we're using 12 gauge breaker.
Um and we're using 12 gauge breaker. Um and we're using 12 gauge ROMX on 15 amp breakers and 15 amp ROMX on 15 amp breakers and 15 amp ROMX on 15 amp breakers and 15 amp outlets. So that's perfectly okay.
I'm outlets. So that's perfectly okay. I'm outlets.
So that's perfectly okay. I'm sure somebody's going to come along here sure somebody's going to come along here sure somebody's going to come along here and say this stuff isn't the code. and say this stuff isn't the code.
and say this stuff isn't the code. That's okay. All this wiring isn't that That's okay.
All this wiring isn't that That's okay. All this wiring isn't that great. That's okay because like I said, great.
That's okay because like I said, great. That's okay because like I said, this is just for test purposes and they this is just for test purposes and they this is just for test purposes and they not plan to keep it this way not plan to keep it this way not plan to keep it this way permanently. So before all the, you permanently.
So before all the, you permanently. So before all the, you know, code compliant people come around, know, code compliant people come around, know, code compliant people come around, just make sure you take that in mind. just make sure you take that in mind.
just make sure you take that in mind. And then for the loads, we're going to And then for the loads, we're going to And then for the loads, we're going to be using uh these induction cooktops and be using uh these induction cooktops and be using uh these induction cooktops and then that resistive electric kettle and then that resistive electric kettle and then that resistive electric kettle and also this charge verter 5K. So 5K means also this charge verter 5K.
So 5K means also this charge verter 5K. So 5K means 5,000 watts. How do you get 5,000 watts?
5,000 watts. How do you get 5,000 watts? 5,000 watts.
How do you get 5,000 watts? This is 240 volt uh uh device. It can it This is 240 volt uh uh device.
It can it This is 240 volt uh uh device. It can it can also be wired to do uh 120, but this can also be wired to do uh 120, but this can also be wired to do uh 120, but this is wired to do 240. So, we're going to is wired to do 240.
So, we're going to is wired to do 240. So, we're going to be using this device to charge some be using this device to charge some be using this device to charge some batteries. So, let's go ahead here and batteries.
So, let's go ahead here and batteries. So, let's go ahead here and flip the breaker or flip the BMS. I flip the breaker or flip the BMS.
I flip the breaker or flip the BMS. I mean, we'll flip the mean, we'll flip the mean, we'll flip the BMS. It's going to come on.
Uh just so BMS. It's going to come on. Uh just so BMS.
It's going to come on. Uh just so you know, all the switches are on. So you know, all the switches are on.
So you know, all the switches are on. So that breaker is on and then that's on so that breaker is on and then that's on so that breaker is on and then that's on so that when it goes through its pre-charge that when it goes through its pre-charge that when it goes through its pre-charge circuit or pre-charge cycle, it circuit or pre-charge cycle, it circuit or pre-charge cycle, it pre-charges the inverter and then pre-charges the inverter and then pre-charges the inverter and then reduces all of the uh surge current. All reduces all of the uh surge current.
All reduces all of the uh surge current. All right, so as you can see right right, so as you can see right right, so as you can see right here, it's on. We're going to have to here, it's on.
We're going to have to here, it's on. We're going to have to flip this breaker to feed the breaker flip this breaker to feed the breaker flip this breaker to feed the breaker box. Actually, no.
Let's turn on this box. Actually, no. Let's turn on this box.
Actually, no. Let's turn on this auto transformer, which has its own auto transformer, which has its own auto transformer, which has its own breaker. As you can see, it's not on.
Now it's on. We're going to go ahead on. Now it's on.
We're going to go ahead on. Now it's on. We're going to go ahead and flip this breaker to make the and flip this breaker to make the and flip this breaker to make the circuit circuit circuit live or the the uh load center live.
And live or the the uh load center live. And live or the the uh load center live. And now the load center is live, right?
So, now the load center is live, right? So, now the load center is live, right? So, how do you know the load center is live?
how do you know the load center is live? how do you know the load center is live? Mainly because we can go ahead and Mainly because we can go ahead and Mainly because we can go ahead and probably flip these on.
Let's go ahead probably flip these on. Let's go ahead probably flip these on. Let's go ahead and flip all of these on.
And you can and flip all of these on. And you can and flip all of these on. And you can see all the single legs coming online.
see all the single legs coming online. see all the single legs coming online. And then we can also check this And then we can also check this And then we can also check this uh Victron uh touch 50 which is uh Victron uh touch 50 which is uh Victron uh touch 50 which is connected to the sero GX and right now connected to the sero GX and right now connected to the sero GX and right now it's using 1300 watts somewhere.
So the it's using 1300 watts somewhere. So the it's using 1300 watts somewhere. So the question is what in the world is question is what in the world is question is what in the world is connected that's using 1300 watts.
connected that's using 1300 watts. connected that's using 1300 watts. That's a great question.
It's going to That's a great question. It's going to That's a great question. It's going to have to be one of these devices.
I don't have to be one of these devices. I don't have to be one of these devices. I don't think any of these are on.
Maybe they think any of these are on. Maybe they think any of these are on. Maybe they are.
We'll have to see. But you know are. We'll have to see.
But you know are. We'll have to see. But you know something is taking up 1300 watts.
Uh something is taking up 1300 watts. Uh something is taking up 1300 watts. Uh let's go ahead and then start flipping let's go ahead and then start flipping let's go ahead and then start flipping on some of the loads.
Actually, what's on some of the loads. Actually, what's on some of the loads. Actually, what's on right now is this uh resistive on right now is this uh resistive on right now is this uh resistive heater.
Let's go ahead and turn that heater. Let's go ahead and turn that heater. Let's go ahead and turn that off.
It's already getting warm inside off. It's already getting warm inside off. It's already getting warm inside this enclosed garage.
The important this enclosed garage. The important this enclosed garage. The important thing is let's go flip this breaker thing is let's go flip this breaker thing is let's go flip this breaker which feeds the charge verter.
240 volt charge verter. And how verter. 240 volt charge verter.
And how verter. 240 volt charge verter. And how do we know besides me showing you a uh do we know besides me showing you a uh do we know besides me showing you a uh tester device that says this is 240?
tester device that says this is 240? tester device that says this is 240? Well, you can only really get above Well, you can only really get above Well, you can only really get above somewhere around 1,800 watts on a single somewhere around 1,800 watts on a single somewhere around 1,800 watts on a single leg, right?
So, this is uh 5K. Well, leg, right? So, this is uh 5K.
Well, leg, right? So, this is uh 5K. Well, technically, you know, you can do more technically, you know, you can do more technically, you know, you can do more than that, but let's go ahead and use than that, but let's go ahead and use than that, but let's go ahead and use this.
We'll flip this is already on, as this. We'll flip this is already on, as this. We'll flip this is already on, as you can see here, this charge verter you can see here, this charge verter you can see here, this charge verter right now.
We're going to let it slowly right now. We're going to let it slowly right now. We're going to let it slowly ramp up to about 100 uh amps.
That's how ramp up to about 100 uh amps. That's how ramp up to about 100 uh amps. That's how we're going to get close to about 5,000 we're going to get close to about 5,000 we're going to get close to about 5,000 watts.
But anyways, as that ramps up, watts. But anyways, as that ramps up, watts. But anyways, as that ramps up, what we'll do is we'll just watch it what we'll do is we'll just watch it what we'll do is we'll just watch it right here.
So, this right here is the right here. So, this right here is the right here. So, this right here is the Touch 50 connected to the Turbo GX.
You Touch 50 connected to the Turbo GX. You Touch 50 connected to the Turbo GX. You can see it is slowly ramping up.
All right. After a little bit of a up. All right.
After a little bit of a up. All right. After a little bit of a struggle later, I messed around with it.
struggle later, I messed around with it. struggle later, I messed around with it. I changed the voltage to be a little bit I changed the voltage to be a little bit I changed the voltage to be a little bit higher and then I set the charge current higher and then I set the charge current higher and then I set the charge current to be uh 99.
2 or something like that to be uh 99. 2 or something like that to be uh 99. 2 or something like that instead of the 90 uh instead of the 100.
instead of the 90 uh instead of the 100. instead of the 90 uh instead of the 100. And that makes it seem it was able to And that makes it seem it was able to And that makes it seem it was able to jump right up to about 94.
1. So I'm not jump right up to about 94. 1.
So I'm not jump right up to about 94. 1. So I'm not sure if you can see that right there.
So sure if you can see that right there. So sure if you can see that right there. So we're charging at 54.
4 and we're charging at 54. 4 and we're charging at 54. 4 and 94.
1, right? You do the math on there. 94.
1, right? You do the math on there. 94.
1, right? You do the math on there. It should be somewhere close to 5700 It should be somewhere close to 5700 It should be somewhere close to 5700 watts.
So now we got 5700 watts being watts. So now we got 5700 watts being watts. So now we got 5700 watts being used by this breaker right here which is used by this breaker right here which is used by this breaker right here which is connected to this charge further.
So connected to this charge further. So connected to this charge further. So just to show you that it is indeed just to show you that it is indeed just to show you that it is indeed coming out to 40.
We'll go ahead and coming out to 40. We'll go ahead and coming out to 40. We'll go ahead and turn all the other loads off.
And then turn all the other loads off. And then turn all the other loads off. And then you'll see right here it's still you'll see right here it's still you'll see right here it's still connected at 5700 or 5600.
What we can connected at 5700 or 5600. What we can connected at 5700 or 5600. What we can also do is get this clamp meter right also do is get this clamp meter right also do is get this clamp meter right here.
Let me change this to AC and we'll here. Let me change this to AC and we'll here. Let me change this to AC and we'll try to put it on one of the legs right try to put it on one of the legs right try to put it on one of the legs right here if we can.
As you can see right here if we can. As you can see right here if we can. As you can see right there, that one leg is pulling 24 25 there, that one leg is pulling 24 25 there, that one leg is pulling 24 25 amps.
So about 25 amps per leg. Uh amps. So about 25 amps per leg.
Uh amps. So about 25 amps per leg. Uh you're going to be getting I don't I you're going to be getting I don't I you're going to be getting I don't I can't do the math right now, but let's can't do the math right now, but let's can't do the math right now, but let's just say somewhere around 5600 watts.
just say somewhere around 5600 watts. just say somewhere around 5600 watts. Okay.
So right now to reiterate, 120 Okay. So right now to reiterate, 120 Okay. So right now to reiterate, 120 volts coming out of here, going into volts coming out of here, going into volts coming out of here, going into here, 240 volts coming out and going here, 240 volts coming out and going here, 240 volts coming out and going into this charge converter.
That gives into this charge converter. That gives into this charge converter. That gives you 5600 watts.
So now what are we going you 5600 watts. So now what are we going you 5600 watts. So now what are we going to do?
Let's go ahead and flip on some to do? Let's go ahead and flip on some to do? Let's go ahead and flip on some of these breakers.
Right. So, let's go of these breakers. Right.
So, let's go of these breakers. Right. So, let's go ahead and ahead and ahead and flip these two breakers on, which I flip these two breakers on, which I flip these two breakers on, which I think hopefully will let us kick on one think hopefully will let us kick on one think hopefully will let us kick on one of these.
Uh, which one of these of these. Uh, which one of these of these. Uh, which one of these induction cook tops are on?
I don't know induction cook tops are on? I don't know induction cook tops are on? I don't know if any of them are on.
Well, that's on. if any of them are on. Well, that's on.
if any of them are on. Well, that's on. So, that's pulling one leg or that So, that's pulling one leg or that So, that's pulling one leg or that should be somewhere around like 1500 should be somewhere around like 1500 should be somewhere around like 1500 watts for one of the legs.
watts for one of the legs. watts for one of the legs. You can see right here now we've jumped You can see right here now we've jumped You can see right here now we've jumped up to about up to about up to about 6,6600.
Uh because remember this is now 6,6600. Uh because remember this is now 6,6600. Uh because remember this is now pulling uh 120 volt load.
There's going pulling uh 120 volt load. There's going pulling uh 120 volt load. There's going to be neutral on the current or neutral to be neutral on the current or neutral to be neutral on the current or neutral current on the neutral.
Right? So now we current on the neutral. Right?
So now we current on the neutral. Right? So now we have current on the neutral here being have current on the neutral here being have current on the neutral here being pulled by this.
So, in order to balance pulled by this. So, in order to balance pulled by this. So, in order to balance it out, what we would really want to do it out, what we would really want to do it out, what we would really want to do is use a uh a circuit that is not is use a uh a circuit that is not is use a uh a circuit that is not connected or leg not connected to this connected or leg not connected to this connected or leg not connected to this one to balance it out.
So, let's go one to balance it out. So, let's go one to balance it out. So, let's go ahead and turn one of those on.
That one ahead and turn one of those on. That one ahead and turn one of those on. That one looks like it powered on this guy here.
looks like it powered on this guy here. looks like it powered on this guy here. We'll turn that on.
We'll set the We'll turn that on. We'll set the We'll turn that on. We'll set the function to boil water.
Hopefully, that function to boil water. Hopefully, that function to boil water. Hopefully, that one will start boiling some water.
So, one will start boiling some water. So, one will start boiling some water. So, that's on.
And now, look at that. Now, that's on. And now, look at that.
Now, that's on. And now, look at that. Now, we've jumped up to about we've jumped up to about we've jumped up to about 8,200.
So, what else can we do? Uh, the 8,200. So, what else can we do?
Uh, the 8,200. So, what else can we do? Uh, the best way to load this up is going to be best way to load this up is going to be best way to load this up is going to be at uh make the loads as balanced as at uh make the loads as balanced as at uh make the loads as balanced as possible.
So, we're going to take this possible. So, we're going to take this possible. So, we're going to take this resistive heater.
We're going to plug it resistive heater. We're going to plug it resistive heater. We're going to plug it into this uh which is the same leg as into this uh which is the same leg as into this uh which is the same leg as the the the uh electric tea kettle.
We'll flip this uh electric tea kettle. We'll flip this uh electric tea kettle. We'll flip this up all the way to about 99° while that up all the way to about 99° while that up all the way to about 99° while that one's coming up to temp.
You'll see now one's coming up to temp. You'll see now one's coming up to temp. You'll see now we're pulling about 9500.
And there we we're pulling about 9500. And there we we're pulling about 9500. And there we go.
I think we've technically overloaded go. I think we've technically overloaded go. I think we've technically overloaded the Quattro at 9500 amps or 9,500 watts.
the Quattro at 9500 amps or 9,500 watts. the Quattro at 9500 amps or 9,500 watts. I guess that's especially what you would I guess that's especially what you would I guess that's especially what you would expect due to the fact expect due to the fact expect due to the fact that that's more than it's rated maximum that that's more than it's rated maximum that that's more than it's rated maximum because at a a cool room temperature because at a a cool room temperature because at a a cool room temperature it's rated to about 8,000 watts uh it's rated to about 8,000 watts uh it's rated to about 8,000 watts uh continuous and we were at 9500.
So this continuous and we were at 9500. So this continuous and we were at 9500. So this one right here is saying it's an alarm one right here is saying it's an alarm one right here is saying it's an alarm because this one can only draw or put because this one can only draw or put because this one can only draw or put out 200 amps.
So 200 amps we've out 200 amps. So 200 amps we've out 200 amps. So 200 amps we've technically overloaded this battery.
The technically overloaded this battery. The technically overloaded this battery. The BMS kicked in, kicked it out.
That's BMS kicked in, kicked it out. That's BMS kicked in, kicked it out. That's exactly what you should expect.
So exactly what you should expect. So exactly what you should expect. So that's how you would really get 240 that's how you would really get 240 that's how you would really get 240 volts out of a 120 volt inverter.
And volts out of a 120 volt inverter. And volts out of a 120 volt inverter. And you could really send the 240 into a you could really send the 240 into a you could really send the 240 into a load center and use 240 and 120.
The load center and use 240 and 120. The load center and use 240 and 120. The only thing you really got to keep in only thing you really got to keep in only thing you really got to keep in mind is that uh on the neutral bus or mind is that uh on the neutral bus or mind is that uh on the neutral bus or the neutral current, neutral conductor, the neutral current, neutral conductor, the neutral current, neutral conductor, whatever you want to call it, you can whatever you want to call it, you can whatever you want to call it, you can only have 32 amps continuous.
What does only have 32 amps continuous. What does only have 32 amps continuous. What does that really mean?
What that really means that really mean? What that really means that really mean? What that really means is if you look at this box, you can is if you look at this box, you can is if you look at this box, you can really only have two uh 15 amp breakers really only have two uh 15 amp breakers really only have two uh 15 amp breakers at load.
So, if you want to use at load. So, if you want to use at load. So, if you want to use primarily 240 and just have a few 120 primarily 240 and just have a few 120 primarily 240 and just have a few 120 volt circuits, you could do that.
I volt circuits, you could do that. I volt circuits, you could do that. I mean, technically, you could have as mean, technically, you could have as mean, technically, you could have as many as you want.
You just can't have many as you want. You just can't have many as you want. You just can't have the total current on the neutral to be the total current on the neutral to be the total current on the neutral to be uh past 32 amps continuous, right?
So, I uh past 32 amps continuous, right? So, I uh past 32 amps continuous, right? So, I mean, you could it'll just like break mean, you could it'll just like break mean, you could it'll just like break out, but you don't want that.
So, uh if out, but you don't want that. So, uh if out, but you don't want that. So, uh if you have a need for 240 and then you you have a need for 240 and then you you have a need for 240 and then you know your 120 volt uh loads are going to know your 120 volt uh loads are going to know your 120 volt uh loads are going to be low, you could technically get this be low, you could technically get this be low, you could technically get this 120 volt inverter and this uh auto 120 volt inverter and this uh auto 120 volt inverter and this uh auto transformer, but I would not recommend transformer, but I would not recommend transformer, but I would not recommend that unless for some reason you really that unless for some reason you really that unless for some reason you really needed this type of setup, right?
So the needed this type of setup, right? So the needed this type of setup, right? So the other thing you could do is you could other thing you could do is you could other thing you could do is you could just get two have another one here and just get two have another one here and just get two have another one here and or one here and another one here and or one here and another one here and or one here and another one here and just have them both in a way do series just have them both in a way do series just have them both in a way do series into this uh breaker or load center so into this uh breaker or load center so into this uh breaker or load center so that way you can get full capacity of uh that way you can get full capacity of uh that way you can get full capacity of uh each one in there.
And that's probably each one in there. And that's probably each one in there. And that's probably what we may do in the future.
But if you what we may do in the future. But if you what we may do in the future. But if you know like your use case is very know like your use case is very know like your use case is very specific, you have maybe a lot of 240 specific, you have maybe a lot of 240 specific, you have maybe a lot of 240 and a little bit of 120, then you could and a little bit of 120, then you could and a little bit of 120, then you could do this setup and it'll get you pretty do this setup and it'll get you pretty do this setup and it'll get you pretty far.
So, uh, and if you're very cautious far. So, uh, and if you're very cautious far. So, uh, and if you're very cautious and maybe you're doing van life or, you and maybe you're doing van life or, you and maybe you're doing van life or, you know, bus life or whatever it is, or you know, bus life or whatever it is, or you know, bus life or whatever it is, or you just know your loads very well, you just know your loads very well, you just know your loads very well, you could do this setup.
The point is it could do this setup. The point is it could do this setup. The point is it works.
This is a really fancy and nifty works. This is a really fancy and nifty works. This is a really fancy and nifty device.
I do not recommend this, you device. I do not recommend this, you device. I do not recommend this, you know, doing it like this mess that we know, doing it like this mess that we know, doing it like this mess that we did here.
But the important part is that did here. But the important part is that did here. But the important part is that the principle works.
So, hopefully this the principle works. So, hopefully this the principle works. So, hopefully this video helped you guys out.
If you want video helped you guys out. If you want video helped you guys out. If you want to buy any of this stuff, we purchased to buy any of this stuff, we purchased to buy any of this stuff, we purchased all of this stuff off from Signature all of this stuff off from Signature all of this stuff off from Signature Solar.
So, just use the coupon code in Solar. So, just use the coupon code in Solar. So, just use the coupon code in the link in the description below or the link in the description below or the link in the description below or whatnot and that'll get you like 50 or whatnot and that'll get you like 50 or whatnot and that'll get you like 50 or 500 or something.
So, make sure you 500 or something. So, make sure you 500 or something. So, make sure you check them out, especially when they do check them out, especially when they do check them out, especially when they do free shipping because, you know, that free shipping because, you know, that free shipping because, you know, that actually saves a lot because this thing actually saves a lot because this thing actually saves a lot because this thing is heavy and I think this thing is heavy and I think this thing is heavy and I think this thing definitely has to be shipped freight definitely has to be shipped freight definitely has to be shipped freight because it comes in like a crate box.
because it comes in like a crate box. because it comes in like a crate box. So, hopefully it helped you guys out.
So, hopefully it helped you guys out. So, hopefully it helped you guys out. Have a great day.
Let me know if you Have a great day. Let me know if you Have a great day. Let me know if you have any questions.
Get back to work and have any questions. Get back to work and have any questions. Get back to work and I'll see you guys next time.
I'll see you guys next time. I'll see you guys next time.
