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| {{Menu_Photovoltaic_installations}} | | {{Menu_Photovoltaic_installations}}__TOC__ |
| | == Grid connected PV system ≤ 10kW (Residential) == |
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| '''''(page to be completed)'''''
| | === One single phase inverter === |
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| __TOC__
| | * Typically, a 5kW grid-connected single-phase inverter. with UOC MAX ≤ 600V. One or two strings – Isctc < 25A, IAC < 32A. In this design there is no string protection. |
| | * A PV main switch is necessary. When the inverter is indoors, an additional remote controlled switch at the DC cable entry point is recommended for emergencies services. |
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| == Grid connected PV system <= 10kW (Residential) ==
| | {{FigImage|DB422723_EN|svg|P22|Grid connected <{{=}} 10kW}} |
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| '''<big> ==> One single phase inverter </big>'''
| | == 10 to 100kW grid connected PV system (Small building) == |
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| *Typically, a 5kW grid-connected single-phase inverter. with UOC MAX 600V.
| | === One three phase inverter with one string combiner box === |
| *One or two strings – Isctc < 25A, IAC < 32A.
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| *In this design there is no string protection.
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| *A PV main switch is necessary. When the inverter is indoors, an additional remote controlled switch at the DC cable entry point is recommended for emergencies services.
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| [[Image:Fig P22.png|none]]
| | * Typically, 30kW to 60kW grid-connected inverters. U<sub>OC max</sub> is generally higher than 600V (up to 1000V), Isctc does not exceed 200A, Iac does not exceed 100A. |
| | * This design has more than 2 strings. |
| | * Reverse current protection is therefore necessary. |
| | * A main PV switch is required. When an inverter is inside, additional remote-controlled switch at DC cable entry point is recommended for emergencies. |
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| {| width="800px" valign="top" border="1" | | {{FigImage|DB422725_EN|svg|P23|10-100kW single MPPT inverter}} |
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| ! align="left" width="180px" | Needs
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| ! align="center" width="110px" | String junction box
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| ! align="center" width="170px" | PV array main switch
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| ! align="center" width="170px" | Inverter
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| ! align="center" width="170px" | AC box (400V)
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| |- bgcolor="#79C68C" align="center" | |
| | align="left" colspan="5" | '''Switchgears and control (Q)'''
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| |- bgcolor="#79C68C" align="center"
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| | align="left" | - Isolation || • || • (d) || (a) || • (d)
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| |- bgcolor="#79C68C" align="center"
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| | align="left" | - Switching<br>(Making & breaking<br>rated current || •<br>DC21B || • (d)<br>DC21B || (a) || • (d)
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| |- bgcolor="#79C68C" align="center"
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| | align="left" | - Control || • (b) || • (d) || (e) || • (d)
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| |- bgcolor="#79C68C" align="center"
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| | align="left" | - Over-current protection || (c) || || || • (f)
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| |- bgcolor="#79C68C" align="center"
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| | align="left" | - Protection against<br>Insulation fault || || || (h) || (h)<br>RCD type B or A SI
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| |- bgcolor="#A6D6AE" align="center"
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| | align="left" | '''Surge protection (SPD)''' || || • type 2 || || • type 1 or 2
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| |- bgcolor="#D1D3D4" align="center"
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| | align="left" | '''Enclosure (E)''' || Outdoor<br>Double insulation || Indoor<br>Double insulation || || Standard AC requirement +<br>grid code requirement
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| |- bgcolor="#FFFFFF" align="center"
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| | align="left" | '''Metering''' || || || Inverter relevant parameters || Energy
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| |}
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| (a) PV array main switch could be included in the inverter. This solution makes inverter service or replacement more difficult.<br>
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| (b) Remote switching for emergency services located as closely as possible to the PV modules or to the point of entry of DC cables in the building.<br>
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| (c) No protection is required when the number of string does not exceed 2.<br>
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| (d) Service and emergency switching<br>
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| (e) Inverter shall include a protection for anti-islanding (in accordance with VDE 0126 for example)<br>
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| (f) Overload and short-circuit protection B curve recommended.<br>
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| (g) This SPD could be unnecessary if there is another SPD in the AC installation at a distance of less than 10 metres.<br>
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| (h) If the inverter provides no galvanic separation a RCD protection is necessary on AC side. IEC 60364-712 specifies RCD type B. Some local regulations require RCD type A SI<br>
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| '''''Fig. P22 :''''' ''10-100kW single multi MPPT inverter''
| | === Multi single phase inverters design === |
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| | * Typically, 6x5 to 20x5kW grid-connected inverters. |
| | * The design used for residential building can be duplicated as often as necessary. |
| | * In that case, the DC system is very simple and the AC system is very similar to usual AC systems. |
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| | {{FigImage|DB422726_EN|svg|P24|10-100kW multi single MPPT inverter}} |
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| == 10 to 100kW grid connected PV system (Small building)== | | == 150kW to 500kW Grid connected PV system (Large building and farm) == |
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| '''<big> ==> One three phase multi input inverter without array box </big>'''
| | === Three phase inverter with more than two string combiner boxes === |
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| * Typically, 10kW to 36kW grid-connected inverters, UOC MAX probably higher than 600V (i.e. 800V or 1000V), Isctc < 125A, Iac < 63A. | | * Typically, 150kW to 500kW single inverter. |
| * In this range of power, inverters usually have between 2 and 4 maximum power point tracking (MPPT) inputs, so the number of strings in the same DC sub-network is equal to one or two. | | * This design is very similar to the three phase inverter with one string combiner box except that it has more arrays, which requires array cable protection. |
| * There is no need for string protection.
| | * Istc <= 400A, IAC <= 600A. |
| * A PV main switch for each MPPT input is necessary. | |
| * When an inverter is indoors, additional remote-controlled switches at DC cable entry point are recommended for emergencies services.
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| [[Image:Fig P23.png|none]]
| | {{FigImage|DB422728_EN|svg|P25|150-500kW single MPPT inverter with N arrays > 2}} |
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| {| width="800px" valign="top" border="1" | |
| |-
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| ! align="left" width="170px" | Needs
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| ! align="center" width="145px" | String junction box
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| ! align="center" width="165px" | PV array main switch
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| ! align="center" width="130px" | Inverter
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| ! align="center" width="190px" | AC box (400V)
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| |- bgcolor="#79C68C" align="center" | |
| | align="left" colspan="5" | '''Switchgears and control (Q)'''
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| |- bgcolor="#79C68C" align="center"
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| | align="left" | - Isolation || • || • (d) || (a) || • (d)
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| |- bgcolor="#79C68C" align="center"
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| | align="left" | - Switching<br>(Making & breaking<br>rated current || •<br>DC21B || • (d)<br>DC21B || (a) || • (d)
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| |- bgcolor="#79C68C" align="center"
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| | align="left" | - Control || • (b) || • (d) || (e) || • (d)
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| |- bgcolor="#79C68C" align="center"
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| | align="left" | - Over-current protection || (c) || || || • (f)
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| |- bgcolor="#79C68C" align="center"
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| | align="left" | - Protection against<br>Insulation fault || || || (h) || (h)<br>RCD type B or A SI
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| |- bgcolor="#A6D6AE" align="center"
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| | align="left" | '''Surge protection (SPD)''' || || • type 2 || || • type 1 or 2
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| |- bgcolor="#D1D3D4" align="center"
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| | align="left" | '''Enclosure (E)''' || Outdoor IP5x<br>Double insulation || Indoor IP5x<br>Double insulation || || Standard AC requirement +<br>grid code requirement
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| |- bgcolor="#FFFFFF" align="center"
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| | align="left" | '''Metering''' || || || || Energy
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| |}
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| (a) PV array main switch could be included in the inverter. This solution makes inverter service or replacement difficult.<br>
| |
| (b) Remote switching for emergency services located as closely as possible to the PV modules or to the point of entry of DC cables in the building.<br>
| |
| (c) No protection is required when the number of string does not exceed 2.<br>
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| (d) Service and emergency switching<br>
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| (e) Inverter shall include a protection for anti-islanding (in accordance with VDE 0126 for example)<br>
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| (f) Overload and short-circuit protection (B curve recommended).<br>
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| (g) If there is no SPD in the inverter or if the distance between DC box and inverter exceeds 10m a SPD is necessary in this box.<br>
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| (h)
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| *If the inverter provides no galvanic separation a RCD protection is necessary on AC side. IEC 60364-712 specifies RCD type B. Some local regulations require RCD type A SI
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| *If the inverter provides at least simple separation
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| ** Without functional earthing: insulation monitoring is necessary, it's usually done by the inverter in this range of power.
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| ** With functional earthing: the earthing shall be done with a DC MCB breaker (C60PV 4P series 2 – 10A) or a fuse.
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| '''''Fig. P23 :''''' ''10-100kW single multi MPPT inverter''
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