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Welcome, my awesome friend.

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I hope you all are great.

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The election, we are going to do another project on PBS, the premium.

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So go get your coffee and let's start today.

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We are going to use B.V. sold premium 20, 20 or EHP.

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You can see the window for this beautiful premium 20 20 on the course material.

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So let's start, first of all, let's go right here to the project data, the project data consists

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of the project name.

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I'm going to make a home design.

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That project designer.

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And the customer name, contact, person, company, phone, fax and other things you can do, and also

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you can add the description and the project name right here and the project image, the project name

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is going to be on design.

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So I'm going to cut this and put it here.

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This is a project name and the project number is going to be to one hundred.

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Or one to one.

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After adding all data for their project data.

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Go to enter what is the B.V. system you are going to use, there is many B.V. system you can enter like

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grid connected B.V. system without lood grid connected with it, connected with lood, with battery

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grid, connected with electrical application and electrical vehicles, grid connected B.V. system with

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electrical application, electrical vehicle and battery, and also do the old grid system and off grid

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system with backup generator.

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You can do all of them.

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I'm going to use the grid connected me with system, with electrical application.

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You can enter the location for the country from right here and right here for the exact city, also

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can enter the location from the map right here.

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OK.

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After that, you can enter that grid, the utility.

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Values we in Berlin, we are using 230.

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These voters.

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Over 400 lion voters.

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So I'm going to use 230 vote for their group.

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OK, second thing we are going to do is the value of the consumption of the electrical application.

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So let's go for electric communication and add the consumption.

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As we said, the project is going to be home project.

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So I'm going to add lood profile for a home.

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Let's add we have two person living in their home with two child, so I'm going to use this profile

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and edit like this looking.

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You can add more blood profile for more houses if you want, but I'm using only one house right here.

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OK, let's enter the data for a B.V. module's.

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We are going to use the B.V. module of Santic son.

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Take power, Suntech Power.

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I'm going to use be the model.

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225 is this one, I'm going to use this one.

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OK, I have SP's about.

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800 meter space and that I mentioned for this module is around.

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One point sixty three meters square, so eight hundred over one hundred sixty three, one point sixty

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three.

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I'm going to need about four.

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Ninety four hundred and ninety modules, so I'm going to use four hundred and eighty four spaces, so

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I'm going to use four hundred eighty B.V. module.

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The four hundred eighty be the module will give us around one hundred fifty two kilowatt bik.

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I'm going to mounted on their.

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Open space.

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Like this.

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There's no way that any type of tracking, if you have any type of tracking, you can edit from right

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here, but I'm not having any type of tracking and to calculate the perfect.

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Orientation and.

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Tilt, angle, you can do it from right here.

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The program is going to calculate the perfect health angle and the orientation for that project, as

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you can see, the health angle is about 36 degrees and the orientation is going to be 100 like this,

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OK?

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Let's enter the data for the inverter.

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To enter data for the inverter in Zebedee sold premium, you have two ways, you already have a number

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of inverter you can selected from right here or you can select any kind of inverters.

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I'm going to use that EB inverters and let's program to calculate the best collection of the inverters.

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I'm going to use their.

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Twelve point five and one hundred and sixty five and two hundred and two hundred and twenty and also

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fifty five and.

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Twenty seven point six, this invertors.

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I'm going to use all of this invertors because I have it in my country here, so I'm going to select

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this inverter, I'm going to select this one and this one was OK.

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After selecting all invertors, let's a program to calculate the best collection of inverter you can

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use with this system.

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I'm going to start.

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To get the perfect collection, as you can see, you can use to invertors of fifty five.

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Kilowatt of this inverter is each inverter will have 12 string, each string have 20.

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Season to any in incidents, or you can use only one inverter of this one, which is 100, what is going

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to connect 24 strength?

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Each strength has 20 modules.

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Or also you can use four inverter of this one and these two, the configurations having the same type

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of inverter.

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But the connection is different.

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As you can see.

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Here also.

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You can see different type of configuration like this and like this, if you are using two different

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inverter, of course I'm going to use the best configuration, which is this one.

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As you can see, it has the highest number of inverter modules and the number of inverters.

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And the main problem is the dimension factor as close as one hundred and fifteen percent as possible.

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So I'm going to use this one Double-Click on it.

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Now, we add in this configuration.

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You can see it data sheet for this inverter from right here, click on it, you can see the basic data

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like that company name the name of a model.

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And also there, if there is any description correct, you can see it right here.

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And also you can see the DC electrical.

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Data and electrical data right here and other data.

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And the MBT is a number of MBT in the inverter.

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There is only one in between.

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And also, you can see the efficiency.

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And utilization rate I'm going to see here.

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The D.C. current force, each inverter is 123.

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Remember, this current is one hundred and twenty three DC current.

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So when we add a protection for this inverter, we need to protect 123 maximum current ziska.

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So, OK.

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Let's enter the cable.

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Dathan.

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If you have the entire losses for the system, you can end it as percentage from right here.

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If you have the details for each losses, you can edit in details from right here.

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I'm going to choose the details.

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For me, it's better.

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From right here, you can see you can add a meter for the B.V. system, this PV system, or you can

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remove this meter.

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I'm going to keep on these bidirectional meter to the utility.

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And this is the House connection.

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OK.

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As you can see, it's a string.

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Each inverter has a 12 string, each string has 20 in 20 modules.

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These 12 strengths are connected in conjunction with this conjunction box is connected to inverter and

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the inverter is connected to cable to this point.

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OK, and another thing you can see, another inverter is two X right here.

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Another inverter have the same components, let's say the circuit breaker for production.

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Circuit breakers assemble after their Feodor meter, you will need to add a circuit breaker right here

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to protect the system.

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So I'm going to add the circuit breaker.

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This is the circuit breaker is going to be after.

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Or you can add the circuit breaker before.

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The bider right here or here.

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So I'm going to use the circuit breaker here to protect the bidirectional feeder.

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This metre, this circuit breaker is going to have.

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Better off, let's go for calculator, thus about one hundred thirty two thousand watt.

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This one hundred and thirty two key to what is going to divide over square root of three times four

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hundred.

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And recentre the amount of girth is going to be drawn from this system is about 190 MPL, 190 Amper.

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So I'm going to use about.

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Two hundred and beer or two hundred and fifty four more extensive data if you want to extra data.

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I'm going to use the circuit breaker here as two hundred and fifty envir.

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OK.

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If you want to add a circuit breaker after there by direction, you can also add the circuit breaker

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after the bidirectional like this.

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And, of course, is going to have the same value of current data.

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As before.

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Also, we will need here a circuit breaker to protect this branch, this circuit breaker is going to

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have this added.

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After the inverter, let's edit here.

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Zain Verjee, circuit breaker is going to be calculated by itself, each inverter is going to have a

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125 mph circuit breaker here.

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From the program, let's enter Loewenthal for this.

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Line the line, so for this wire is going to have from there.

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Inverter from the meter and the inverter is the distance between them is about from the meter and the

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inverter from this point.

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And this point is about, let's say twenty five meter.

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Twenty five meter is calculate the cross-section area.

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You are going to use a copper.

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The cross-section area is a perfect cross-section area for this wire is going to be at 16 meters square

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millimeters square again.

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That's enter the data for this one.

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Here you can enter the data for the G is B. I'm going to use a search for their conjunction box social

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protection.

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Here, OK.

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Of course, we will add protection here for the inverter in DC is going to be.

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Fields we are going to use if used to protect this inverter, so let's add a fuse.

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Here is Feuilles.

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This news is going to have amount of voltage.

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Let's see the voltage for the protection of this fuse.

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Let's see let's return the back for the inverter.

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Let's see the data, as you remember, I said that maximum this current is going to be one hundred and

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twenty three, maybe one hundred and twenty three, maybe one hundred and twenty three and barely enter

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back, go back.

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So we want this fused to protect of 123 MP.

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I'm going to use the next one, the next one is one hundred and twenty five and beer, so I'm going

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to use effused of one hundred and twenty five and beer protection to protect the inverter as the maximum

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current is going to be one hundred and twenty, OK.

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Let's see the distance between these connections between their B.V. and module's strength and their

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conjunction both go and return.

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Go and return as you have 12.

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Go and return to all the strength, so you are going to use about twenty two hundred and fifty, go

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and return for the 12th straight, I'm going to use 2.5 millimeter.

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Square, of course, is the distance between this point and this point is going to be right here.

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Twenty point eight is twenty point eight times twelve is going to get us 250.

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Of course, we will need for each thing to have a fuse protection to protect that and be the module

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from the short circuit.

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So I'm going to add a fuse right here.

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But what is going to be there if use protection current, let's go for B.V. module and get the data

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for Xabi.

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The module, as you can see, the maximum SHORT-CIRCUITING for that B.V. module is going to be nine

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point thirty four.

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So I'm going to use the protection for the fuse as nine point thirty four.

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So I'm going to use 10 Imbert to protect the string current.

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As you remember this year, Karanth, this year's current series module is going to have the same current,

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which is going to be B.V. module.

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I'm going to protect the short circuit grant of this BVA module to prevent the short circuit by the

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use of the NBA.

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Of course, you can use higher use to protect it, but I'm going to use this, OK?

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Of course, you can add more social protection right here to protect the inverter and other things as

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you want.

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OK, now we have entered into our data for this system.

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The lines, one thing we didn't edit this cable, which is connecting Zaken Junction Box and the inverter.

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Let's go.

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Right here, here, from inverter to Z and GCB or their.

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Junction box, I'm going to enter it as five meter and less calculated is going to be 2.5 millimeters

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square.

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Kluber between the conjunctural box and the inverter.

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OK.

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Of course, I'm going to let of course, I'm letting the program to calculate, say, cross section

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area to prevent the voltage drop over the cables.

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Second thing you can see is their plan or that little kid drawing from right here.

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And if you have any financial analysis, you can edit from Highet here.

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I'm going to leave this alone for them because it differentiate between countries.

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So I'm going to leave it there.

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Financing you will need to do is that calculation is to do that for doing their calculation.

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Do it from right here and wait for the calculation, the simulation to be done for three hundred and

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sixty five days or one year.

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The calculation is done for the entire year like this, as you can see it.

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Wait for the calculation, you can see it there and there it is right here.

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Everything I'm going to see the report directly, this Obinze Aribert.

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You can see the entire report if you want to export it.

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I'm going to export it as PIDF.

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You.

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Of course you can export.

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Is war to change in any issing inside the B.V. report according to your simulation or country or company.

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I'm going to say it like this.

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OK, as you can see, the B.V. module, the perfect name is going to be home designs or offer number

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is going to 101.

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And you can see right here, same third system.

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And that climate weather and data, you can see it from right here you are using a number of inverter

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is two.

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And the number of modules, about four hundred and eighty is PV modules.

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You can see the yield, the energy from right here and the losses and the power consumption and the

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other things from right here.

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And there also is a financial incentive system and the system, you can see it right here, the system

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that climate data and consumption over the years.

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And, of course, that each component, you can see the data for it right here as you are using that

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Mosgiel area, the median area is going to be.

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Let's seize Imodium, you are using them module's.

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Four hundred and eighty five module of this type, you are using Z Company of Suntech Power, the Delta

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Angad is going to be thirty six Z orientation is one hundred and eighty.

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We are using the installation as Obed Space.

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You are using that.

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Surface area is need, as you remember, we are using 700.

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We have 800 meter.

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We are using from a 700 meter square, say, invertors configuration.

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It is about the model.

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The model for the inverter is BVI 55 and size factor is 120 percent.

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We are using it for each inverter is 12 string.

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It just has 20 in series.

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The AC main, you can see it from right here.

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Each of these and the power factor.

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The simulation results, you can see it right here, Sollar Fraction and the application and also you

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can see that.

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Value of the power flowing from the B.V. module to the grid in the year and flowing to that system and

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also from the grid to that system.

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You can see.

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The energy consumption for the year, right, and also the yield, the energy for each month.

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January, February, March average and zanti year to year from right.

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Of course, as I mentioned, as you can see it right here, but it's according to your country and their

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amount of trophies you're using, the important two things you all need is that to get fired.

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You can see that.

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Look at it here.

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This is for installation.

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You are using a 12 string, 12 string.

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Each string contain 20.

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Modules, this module is connected together and connected to that in MPLX InfuSystem and perfusing.

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Is going to connect to the Grand Junction box and the conjunctural box is going to be connected through

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a cable or five meter, two point five millimetre square to use of one hundred and twenty five.

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To protect the inverter and again, you are going to have here this inverter is connected to the circuit

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breaker, a circuit breaker of one hundred and twenty five.

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And there you are going to use two system each system of this.

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This is the first system.

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The second system is going to have the same values is connected right here.

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OK.

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And the second important thing is that components like you are using.

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Right here to circuit breaker for each inverter of 125 B.

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This inverter you are using of this circuit breaker, you are using two of them.

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One for each inverter.

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And you are using also a cable of 50 meter cable of the 16 millimetre square, you are using 10 meter

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cable of 2.5 millimeters square.

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Five hundred cable, five hundred meter cable of two point five millimetre square for the string cable,

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you are using a circuit breaker for use of one hundred and twenty five and you are using two fuses.

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You're also used about often and beer.

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OK, as you are using 12 string for each inverter, you are using two inverter.

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Each inverter has 12 the string.

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So you are using about twenty four fuse for each string.

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Also, that be the emoji you are using, you are using four hundred and fifty, you are using two invertors

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of this type one by Direxion Meter and the cable you are using, all the data can be shown right here

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for installation.

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OK, guys, that's all you need to know for the installation, for the entire system.

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Now, we have done this project from scratch.

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Thank you for watching.

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See you in the next election.

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Bye bye.