Photovoltaic system: electrical equipments selection: Difference between revisions
From Electrical Installation Guide
(Image text updated and removed text page to be completed) |
(content modified as per guide 2016) |
||
| Line 2: | Line 2: | ||
__TOC__ | __TOC__ | ||
== Grid connected PV system | == Grid connected PV system ≤ 10kW (Residential) == | ||
=== One single phase inverter === | === One single phase inverter === | ||
| Line 31: | Line 31: | ||
| - Over-current protection || (c) || || || • (f) | | - Over-current protection || (c) || || || • (f) | ||
|- {{PV_HC1}} align="center" | |- {{PV_HC1}} align="center" | ||
| - Protection against<br>Insulation fault || || || ( | | - Protection against<br>Insulation fault || || || (g) || (g) <br>RCD type B or A SI | ||
|- {{PV_HC2}} align="center" | |- {{PV_HC2}} align="center" | ||
| '''Surge protection (SPD)''' || || • type 2 || || • type 1 or 2 | | '''Surge protection (SPD)''' || || • type 2 || || • type 1 or 2 | ||
| Line 45: | Line 45: | ||
(e) Inverter shall include a protection for anti-islanding (in accordance with VDE 0126 for example)<br> | (e) Inverter shall include a protection for anti-islanding (in accordance with VDE 0126 for example)<br> | ||
(f) Overload and short-circuit protection B curve recommended.<br> | (f) Overload and short-circuit protection B curve recommended.<br> | ||
(g | (g) 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> | ||
'''''Fig. P22 :''''' ''Grid connected <= 10kW'' | '''''Fig. P22 :''''' ''Grid connected <= 10kW'' | ||
| Line 56: | Line 55: | ||
=== One three phase multi input inverter without array box === | === One three phase multi input inverter without array box === | ||
* Typically, 10kW to 36kW grid-connected inverters, | * Typically, 10kW to 36kW grid-connected inverters, U<sub>OC MAX</sub> probably higher than 600V (i.e. 800V or 1000V), Isctc < 125A, Iac < 63A. | ||
* 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. | * 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. | ||
* There is no need for string protection. | * There is no need for string protection. | ||
| Line 84: | Line 83: | ||
| - Protection against<br>Insulation fault || || || (h) || (h)<br>RCD type B or A SI | | - Protection against<br>Insulation fault || || || (h) || (h)<br>RCD type B or A SI | ||
|- {{PV_HC2}} align="center" | |- {{PV_HC2}} align="center" | ||
| '''Surge protection (SPD)''' || | | '''Surge protection (SPD)''' || (g) || • type 2 || || • type 1 or 2 | ||
|- {{PV_HC3}} align="center" | |- {{PV_HC3}} align="center" | ||
| '''Enclosure (E)''' || Outdoor IP5x<br>Double insulation || Indoor IP5x<br>Double insulation || || Standard AC requirement +<br>grid code requirement | | '''Enclosure (E)''' || Outdoor IP5x<br>Double insulation || Indoor IP5x<br>Double insulation || || Standard AC requirement +<br>grid code requirement | ||
| Line 96: | Line 95: | ||
(e) Inverter shall include a protection for anti-islanding (in accordance with VDE 0126 for example)<br> | (e) Inverter shall include a protection for anti-islanding (in accordance with VDE 0126 for example)<br> | ||
(f) Overload and short-circuit protection (B curve recommended).<br> | (f) Overload and short-circuit protection (B curve recommended).<br> | ||
(g) If there is no SPD in the inverter or if the distance between | (g) If there is no SPD in the inverter or if the distance between String junction box and inverter exceeds 10m a SPD is necessary in this box.<br> | ||
(h) | (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 | *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 | ||
| Line 106: | Line 105: | ||
=== One three | === One three phase inverter with One Array box === | ||
* Typically, 30kW to 60kW grid-connected inverters. | * 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. | * This design has more than 2 strings. | ||
* Reverse current protection is therefore necessary. | * Reverse current protection is therefore necessary. | ||
| Line 135: | Line 134: | ||
| - Protection against<br>Insulation fault || || || (h) || (h)<br>RCD type B or A SI | | - Protection against<br>Insulation fault || || || (h) || (h)<br>RCD type B or A SI | ||
|- {{PV_HC2}} align="center" | |- {{PV_HC2}} align="center" | ||
| '''Surge protection (SPD)''' || | | '''Surge protection (SPD)''' || (g) || • type 2 || || • type 1 or 2 | ||
|- {{PV_HC3}} align="center" | |- {{PV_HC3}} align="center" | ||
| '''Enclosure (E)''' || Outdoor IP5x<br>Double insulation || Indoor IP5x<br>Double insulation || || Standard AC requirement +<br>grid code requirement | | '''Enclosure (E)''' || Outdoor IP5x<br>Double insulation || Indoor IP5x<br>Double insulation || || Standard AC requirement +<br>grid code requirement | ||
| Line 146: | Line 145: | ||
(e) Inverter shall include a protection for anti-islanding (in accordance with VDE 0126 for example)<br> | (e) Inverter shall include a protection for anti-islanding (in accordance with VDE 0126 for example)<br> | ||
(f) Overload and short-circuit protection (B curve recommended).<br> | (f) Overload and short-circuit protection (B curve recommended).<br> | ||
(g) If there is no SPD in the inverter or if the distance between | (g) If there is no SPD in the inverter or if the distance between String / Array junction box and inverter exceeds 10m a SPD is necessary in this box.<br> | ||
(h) | (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. | * 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. | ||
| Line 172: | Line 171: | ||
! align="center" width="190px" | AC box (400V) | ! align="center" width="190px" | AC box (400V) | ||
|- {{PV_HC1}} align="center" | |- {{PV_HC1}} align="center" | ||
| '''Switchgears and control (Q)''' || See | | '''Switchgears and control (Q)''' || colspan="4" | See ≤10kW design | ||
|- {{PV_HC1}} align="center" | |- {{PV_HC1}} align="center" | ||
| '''Surge protection (SPD)''' || • type 2 || || || • type 1 or 2 | | '''Surge protection (SPD)''' || • type 2 || || || • type 1 or 2 | ||
| Line 184: | Line 183: | ||
=== Three | === Three phase inverter with two Array boxes (Na ≤ 2) === | ||
Typically, 60kW to 100kW grid-connected inverters with 2 arrays. Array cable protection is not necessary for 2 or 3 arrays. | Typically, 60kW to 100kW grid-connected inverters with 2 arrays. Array cable protection is not necessary for 2 or 3 arrays. | ||
The I<sub>sctc</sub> array ≤ 200A, I<sub>sctc</sub> | The I<sub>sctc</sub> array ≤ 200A, I<sub>sctc</sub> ≤ 400A, and I<sub>max</sub> AC ≤ 200A. A PV main switch is required close to the inverter. Remotely operated switches in array boxes allow disconnects to be located close to the PV modules in the event of emergencies. | ||
[[File:Fig P26.png|none]] | [[File:Fig P26.png|none]] | ||
| Line 211: | Line 210: | ||
| - Protection against<br>Insulation fault || || || (h) || (h)<br>RCD type B or A SI | | - Protection against<br>Insulation fault || || || (h) || (h)<br>RCD type B or A SI | ||
|- {{PV_HC2}} align="center" | |- {{PV_HC2}} align="center" | ||
| '''Surge protection (SPD)''' || | | '''Surge protection (SPD)''' || (g) || • type 2 || || • type 1 or 2 | ||
|- {{PV_HC3}} align="center" | |- {{PV_HC3}} align="center" | ||
| '''Enclosure (E)''' || Outdoor IP5x<br>Double insulation || Indoor IP5x<br>Double insulation || || Standard AC requirement +<br>grid code requirement | | '''Enclosure (E)''' || Outdoor IP5x<br>Double insulation || Indoor IP5x<br>Double insulation || || Standard AC requirement +<br>grid code requirement | ||
| Line 219: | Line 218: | ||
(a) PV array main switch could be included in the inverter. This solution makes inverter service or replacement difficult.<br> | (a) PV array main switch could be included in the inverter. This solution makes inverter service or replacement difficult.<br> | ||
(b) If switching for emergency services is required, the main switch in array box can be equipped with tripping coil and motor mechanism for remote reclosing.<br> | (b) If switching for emergency services is required, the main switch in array box can be equipped with tripping coil and motor mechanism for remote reclosing.<br> | ||
(c) No protection is required when the number of arrays | (c) No protection is required when the number of arrays ≤ 3 (No cable sizing benefit)<br> | ||
(d) Service and emergency switching<br> | (d) Service and emergency switching<br> | ||
(e) Inverter shall include a protection for anti-islanding (in accordance with VDE 0126 for example)<br> | (e) Inverter shall include a protection for anti-islanding (in accordance with VDE 0126 for example)<br> | ||
| Line 228: | Line 227: | ||
* If the inverter provides at least simple separation | * If the inverter provides at least simple separation | ||
** Without functional earthing: insulation monitoring is necessary | ** Without functional earthing: insulation monitoring is necessary | ||
** With functional earthing: the earthing shall be done with a DC MCB breaker ( | ** With functional earthing: the earthing shall be done with a DC MCB breaker (iC60PV 4P series 2 – 10A) or a fuse. | ||
'''''Fig. P26 :''''' ''10-100kW single MPPT inverter with 2 arrays'' | '''''Fig. P26 :''''' ''10-100kW single MPPT inverter with 2 arrays'' | ||
== 150kW to 500kW Grid connected PV system (Large building and farm) == | == 150kW to 500kW Grid connected PV system (Large building and farm) == | ||
=== Three | === Three phase inverter with more than two Array boxes === | ||
* Typically, 150kW to 500kW single inverter. | * Typically, 150kW to 500kW single inverter. | ||
| Line 256: | Line 256: | ||
| - Switching<br>(Making & breaking<br>rated current || || •<br>DC22A || • <br>DC22A || • (a) || • (d) | | - Switching<br>(Making & breaking<br>rated current || || •<br>DC22A || • <br>DC22A || • (a) || • (d) | ||
|- {{PV_HC1}} align="center" | |- {{PV_HC1}} align="center" | ||
| - Control || || • (b) || || • (a) || • (d) | | - Control || || • (b) || || • (a)(e) || • (d) | ||
|- {{PV_HC1}} align="center" | |- {{PV_HC1}} align="center" | ||
| - Over-current protection || • || || • (c) || || • (f) | | - Over-current protection || • || || • (c) || || • (f) | ||
| Line 270: | Line 270: | ||
(a) PV array main switch could be included in the inverter. This solution makes inverter service or replacement more difficult.<br> | (a) PV array main switch could be included in the inverter. This solution makes inverter service or replacement more difficult.<br> | ||
(b) If switching for emergency services is required, the main switch in array box can be equipped with tripping coil and motor mechanism for remote reclosing.<br> | (b) If switching for emergency services is required, the main switch in array box can be equipped with tripping coil and motor mechanism for remote reclosing.<br> | ||
(c) Array cable protection is recommended to prevent cable | (c) Array cable protection is recommended to prevent cable oversizing. To ensure fast trip of protections 6 to 8 arrays are recommended.<br> | ||
(d) Service and emergency switching <br> | |||
(e) Inverter shall include a protection for anti-islanding (in accordance with VDE 0126 for example)<br> | (e) Inverter shall include a protection for anti-islanding (in accordance with VDE 0126 for example)<br> | ||
(f) Overload and short-circuit protection.<br> | (f) Overload and short-circuit protection.<br> | ||
| Line 282: | Line 283: | ||
Typically 10x20 to 20x30kW grid connected inverters <br> | Typically 10x20 to 20x30kW grid connected inverters <br> | ||
U<sub>oc</sub> max | U<sub>oc</sub> max ≤ 1000V one or two string per inverter. IAC max 50A for one inverter. | ||
[[File:Fig P28.png|none|800px]] | [[File:Fig P28.png|none|800px]] | ||
| Line 312: | Line 313: | ||
{| class="wikitable" width="800px" | {| class="wikitable" width="800px" | ||
|- | |- | ||
! | ! width="150" | Needs | ||
! | ! width="70" align="center" | String | ||
! | ! width="130" align="center" | Array junction box | ||
! | ! width="140" align="center" | Generator junction box | ||
! | ! colspan="2" |Inverter | ||
! | ! width="170" align="center" | AC box 400V or other voltage (Transfoless inverter) | ||
|- | |- | ||
| colspan=" | ! | ||
|- | ! | ||
| - Isolation | ! | ||
|- | ! | ||
| - Switching<br>(Making & breaking<br>rated current | | ! DC side | ||
|- | ! AC side | ||
| - Control | | ! | ||
|- | |- align="center" | ||
| - Over-current protection | | colspan="7" | '''Switchgears and control (Q)''' | ||
|- | |- align="center" | ||
| - Protection against<br>Insulation fault || | | - Isolation | ||
|- | | • | ||
| '''Surge protection (SPD)''' | | • | ||
|- | | • (a) | ||
| '''Enclosure (E)''' | | |• | ||
|- | |• | ||
| '''Metering''' | | | • | ||
|- align="center" | |||
| - Switching<br> | |||
(Making & breaking<br> | |||
rated current | |||
| | |||
| •<br> | |||
DC22A | |||
| • (a) | |||
|• | |||
DC22A or | |||
23A | |||
|• | |||
AC1 | |||
| • | |||
|- align="center" | |||
| - Control | |||
| | |||
| • (b) | |||
| | |||
|• | |||
|• | |||
| • | |||
|- align="center" | |||
| - Over-current protection | |||
| • | |||
| | |||
| • (c) | |||
|No | |||
|• | |||
| • (f) | |||
|- align="center" | |||
| - Protection against<br> | |||
Insulation fault | |||
| | |||
| | |||
|• (h) | |||
|• | |||
| | |||
| • (h) | |||
|- align="center" | |||
| '''Surge protection (SPD)''' | |||
| | |||
| (g) | |||
| • type 2 | |||
| colspan="2" |(g) | |||
| • type 1 or 2 | |||
|- align="center" | |||
| '''Enclosure (E)''' | |||
| | |||
| Outdoor IP5x<br> | |||
Double insulation | |||
| Indoor<br> | |||
Double insulation | |||
| colspan="2" | | |||
| | |||
|- align="center" | |||
| '''Metering''' | |||
| | |||
| Energy | |||
| | |||
| colspan="2" | | |||
| P, Q, PF, Energy, Alarm, Power quality | |||
|} | |} | ||
(a) PV array main switch is usually included in the inverter panel.<br> | (a) PV array main switch is usually included in the inverter panel.<br> | ||
(b) If switching for emergency services is required, the main switch in array box can be equipped with tripping coil and motor mechanism for remote reclosing.<br> | (b) If switching for emergency services is required, the main switch in array box can be equipped with tripping coil and motor mechanism for remote reclosing.<br> | ||
(c) Array cable protection is recommended to prevent cable | (c) Array cable protection is recommended to prevent cable oversizing. To ensure fast trip of protections 6 to 8 arrays are recommended.<br> | ||
(f) Overload and short-circuit protection.<br> | (f) Overload and short-circuit protection.<br> | ||
(g) If there is no SPD in the inverter or if the between DC box and inverter >10m a SPD is necessary in this box.<br> | (g) If there is no SPD in the inverter or if the between DC box and inverter >10m a SPD is necessary in this box.<br> | ||
Revision as of 02:22, 28 July 2016
Grid connected PV system ≤ 10kW (Residential)
One single phase inverter
- 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.
| Needs | String junction box | PV array main switch | Inverter | AC box (400V) |
|---|---|---|---|---|
| Switchgears and control (Q) | ||||
| - Isolation | • | • (d) | (a) | • (d) |
| - Switching (Making & breaking rated current |
• DC21B |
• (d) DC21B |
(a) | • (d) |
| - Control | • (b) | • (d) | (e) | • (d) |
| - Over-current protection | (c) | • (f) | ||
| - Protection against Insulation fault |
(g) | (g) RCD type B or A SI | ||
| Surge protection (SPD) | • type 2 | • type 1 or 2 | ||
| Enclosure (E) | Outdoor Double insulation |
Indoor Double insulation |
Standard AC requirement + grid code requirement | |
| Metering | Inverter relevant parameters | Energy | ||
(a) PV array main switch could be included in the inverter. This solution makes inverter service or replacement more difficult.
(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.
(c) No protection is required when the number of string does not exceed 2.
(d) Service and emergency switching
(e) Inverter shall include a protection for anti-islanding (in accordance with VDE 0126 for example)
(f) Overload and short-circuit protection B curve recommended.
(g) 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
Fig. P22 : Grid connected <= 10kW
10 to 100kW grid connected PV system (Small building)
One three phase multi input inverter without array box
- Typically, 10kW to 36kW grid-connected inverters, UOC MAX probably higher than 600V (i.e. 800V or 1000V), Isctc < 125A, Iac < 63A.
- 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.
- There is no need for string protection.
- 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.
| Needs | String junction box | PV array main switch | Inverter | AC box (400V) |
|---|---|---|---|---|
| Switchgears and control (Q) | ||||
| - Isolation | • | • (d) | (a) | • (d) |
| - Switching (Making & breaking rated current |
• DC21B |
• (d) DC21B |
(a) | • (d) |
| - Control | • (b) | • (d) | (e) | • (d) |
| - Over-current protection | (c) | • (f) | ||
| - Protection against Insulation fault |
(h) | (h) RCD type B or A SI | ||
| Surge protection (SPD) | (g) | • type 2 | • type 1 or 2 | |
| Enclosure (E) | Outdoor IP5x Double insulation |
Indoor IP5x Double insulation |
Standard AC requirement + grid code requirement | |
| Metering | Energy | |||
(a) PV array main switch could be included in the inverter. This solution makes inverter service or replacement difficult.
(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.
(c) No protection is required when the number of string does not exceed 2.
(d) Service and emergency switching
(e) Inverter shall include a protection for anti-islanding (in accordance with VDE 0126 for example)
(f) Overload and short-circuit protection (B curve recommended).
(g) If there is no SPD in the inverter or if the distance between String junction box and inverter exceeds 10m a SPD is necessary in this box.
(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
- If the inverter provides at least simple separation
- Without functional earthing: insulation monitoring is necessary, it's usually done by the inverter in this range of power.
- With functional earthing: the earthing shall be done with a DC MCB breaker (C60PV 4P series 2 – 10A) or a fuse.
Fig. P23 : 10-100kW single multi MPPT inverter
One three phase inverter with One Array box
- Typically, 30kW to 60kW grid-connected inverters. UOC max 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.
| Needs | String / Array junction box | PV array main switch | Inverter | AC box (400V) |
|---|---|---|---|---|
| Switchgears and control (Q) | ||||
| - Isolation | • | • (d) | (a) | • (d) |
| - Switching (Making & breaking rated current |
• DC21B |
• (d) DC21B |
(a) | • (d) |
| - Control | • (b) | • (d) | (e) | • (d) |
| - Over-current protection | • | (c) | • (f) | |
| - Protection against Insulation fault |
(h) | (h) RCD type B or A SI | ||
| Surge protection (SPD) | (g) | • type 2 | • type 1 or 2 | |
| Enclosure (E) | Outdoor IP5x Double insulation |
Indoor IP5x Double insulation |
Standard AC requirement + grid code requirement | |
| Metering | P, Q, PF, Energy | |||
(a) PV array main switch could be included in the inverter. This solution makes inverter service or replacement difficult.
(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. The main switch in array box can be equipped with tripping coil and motor mechanism for remote reclosing for that purpose.
(d) Service and emergency switching
(e) Inverter shall include a protection for anti-islanding (in accordance with VDE 0126 for example)
(f) Overload and short-circuit protection (B curve recommended).
(g) If there is no SPD in the inverter or if the distance between String / Array junction box and inverter exceeds 10m a SPD is necessary in this box.
(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.
- If the inverter provides at least simple separation
- Without functional earthing: insulation monitoring is necessary
- With functional earthing: the earthing shall be done with a DC MCB breaker (C60PV 4P series 2 – 10A) or a fuse.
Fig. P24 : 10-100kW single MPPT inverter
Multi single phase inverters design
- 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.
| Needs | PV array main switch |
Inverter | AC box (400V) | |
|---|---|---|---|---|
| Switchgears and control (Q) | See ≤10kW design | |||
| Surge protection (SPD) | • type 2 | • type 1 or 2 | ||
| Enclosure (E) | Outdoor IP5x Double insulation |
Standard AC requirement + grid code requirement | ||
| Metering | Energy | P,Q, PF, Energy, unbalance | ||
(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
Fig. P25 : 10-100kW multi single MPPT inverter
Three phase inverter with two Array boxes (Na ≤ 2)
Typically, 60kW to 100kW grid-connected inverters with 2 arrays. Array cable protection is not necessary for 2 or 3 arrays. The Isctc array ≤ 200A, Isctc ≤ 400A, and Imax AC ≤ 200A. A PV main switch is required close to the inverter. Remotely operated switches in array boxes allow disconnects to be located close to the PV modules in the event of emergencies.
| Needs | String / Array junction box | PV array main switch | Inverter | AC box (400V) |
|---|---|---|---|---|
| Switchgears and control (Q) | ||||
| - Isolation | • | • (d) | (a) | • (d) |
| - Switching (Making & breaking rated current |
• DC21B |
• (d) DC21B |
(a) | • (d) |
| - Control | • (b) | • (d) | (e) | • (d) |
| - Over-current protection | • | (c) | • (f) | |
| - Protection against Insulation fault |
(h) | (h) RCD type B or A SI | ||
| Surge protection (SPD) | (g) | • type 2 | • type 1 or 2 | |
| Enclosure (E) | Outdoor IP5x Double insulation |
Indoor IP5x Double insulation |
Standard AC requirement + grid code requirement | |
| Metering | P, Q, PF, Energy | |||
(a) PV array main switch could be included in the inverter. This solution makes inverter service or replacement difficult.
(b) If switching for emergency services is required, the main switch in array box can be equipped with tripping coil and motor mechanism for remote reclosing.
(c) No protection is required when the number of arrays ≤ 3 (No cable sizing benefit)
(d) Service and emergency switching
(e) Inverter shall include a protection for anti-islanding (in accordance with VDE 0126 for example)
(f) Overload and short-circuit protection.
(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.
(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
- If the inverter provides at least simple separation
- Without functional earthing: insulation monitoring is necessary
- With functional earthing: the earthing shall be done with a DC MCB breaker (iC60PV 4P series 2 – 10A) or a fuse.
Fig. P26 : 10-100kW single MPPT inverter with 2 arrays
150kW to 500kW Grid connected PV system (Large building and farm)
Three phase inverter with more than two Array boxes
- Typically, 150kW to 500kW single inverter.
- This design is very similar to the previous one except that it has more arrays, which requires array cable protection.
- Istc <= 400A, IAC <= 600A.
| Needs | String | Array junction box | Generator junction box | Inverter | AC box 400V or other voltage (Transfoless inverter) |
|---|---|---|---|---|---|
| Switchgears and control (Q) | |||||
| - Isolation | • | • | • | (a) | • (d) |
| - Switching (Making & breaking rated current |
• DC22A |
• DC22A |
• (a) | • (d) | |
| - Control | • (b) | • (a)(e) | • (d) | ||
| - Over-current protection | • | • (c) | • (f) | ||
| - Protection against Insulation fault |
• (h) | • (h) | |||
| Surge protection (SPD) | (g) | • type 2 | • type 1 or 2 | ||
| Enclosure (E) | Outdoor IP5x Double insulation |
Indoor Double insulation |
Standard AC requirement + grid code requirement | ||
| Metering | P, Q, PF, Energy, Alarm, THD, individual harmonics | ||||
(a) PV array main switch could be included in the inverter. This solution makes inverter service or replacement more difficult.
(b) If switching for emergency services is required, the main switch in array box can be equipped with tripping coil and motor mechanism for remote reclosing.
(c) Array cable protection is recommended to prevent cable oversizing. To ensure fast trip of protections 6 to 8 arrays are recommended.
(d) Service and emergency switching
(e) Inverter shall include a protection for anti-islanding (in accordance with VDE 0126 for example)
(f) Overload and short-circuit protection.
(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.
(h) Galvanic insulation is provided by LV/MV transformer,
- PV system without functional earthing: insulation monitoring is necessary: IMD - IM20 and accessory IMD-IM20-1700
- PV system with functional earthing: the earthing shall be done with a DC MCB breaker (C60PV 4P series 2 – 10A) or a fuse.
Fig. P27 : 150-500kW single MPPT inverter with N arrays > 2
Multi single phase inverters design
Typically 10x20 to 20x30kW grid connected inverters
Uoc max ≤ 1000V one or two string per inverter. IAC max 50A for one inverter.
| Needs | String junction box | AC Combiner box | ||
|---|---|---|---|---|
| Switchgears and control (Q) | See 10 to 36kW design | |||
| Surge protection (SPD) | • type 2 | • type 1 or 2 | ||
| Enclosure (E) | Outdoor IP5x Double insulation |
Standard AC requirement + grid code requirement | ||
| Metering | Energy | P, Q, PF, Energy, Alarm |
Fig. P28 : 150-500kW multi 3-phases inverters
Multi MW Grid connected PV system (Large building and farm)
- Typically 500kW-630kW inverters with LV/MV transformers and MV substation.
| Needs | String | Array junction box | Generator junction box | Inverter | AC box 400V or other voltage (Transfoless inverter) | |
|---|---|---|---|---|---|---|
| DC side | AC side | |||||
| Switchgears and control (Q) | ||||||
| - Isolation | • | • | • (a) | • | • | • |
| - Switching (Making & breaking |
• DC22A |
• (a) | •
DC22A or 23A |
•
AC1 |
• | |
| - Control | • (b) | • | • | • | ||
| - Over-current protection | • | • (c) | No | • | • (f) | |
| - Protection against Insulation fault |
• (h) | • | • (h) | |||
| Surge protection (SPD) | (g) | • type 2 | (g) | • type 1 or 2 | ||
| Enclosure (E) | Outdoor IP5x Double insulation |
Indoor Double insulation |
||||
| Metering | Energy | P, Q, PF, Energy, Alarm, Power quality | ||||
(a) PV array main switch is usually included in the inverter panel.
(b) If switching for emergency services is required, the main switch in array box can be equipped with tripping coil and motor mechanism for remote reclosing.
(c) Array cable protection is recommended to prevent cable oversizing. To ensure fast trip of protections 6 to 8 arrays are recommended.
(f) Overload and short-circuit protection.
(g) If there is no SPD in the inverter or if the between DC box and inverter >10m a SPD is necessary in this box.
(h) Galvanic insulation is provided by LV/MV transformer,
- PV system without functional earthing: insulation monitoring is necessary: IMD - IM20 and accessory IMD-IM20-1700
- PV system with functional earthing: the earthing shall be done with a DC MCB breaker (C60PV 4P series 2 – 10A) or a fuse.
Fig. P29 : 500-630kW inverters with LV/MV transformers
