SOLIS recommends anti-grid surger in solar systems

Solis recommends anti-grid surger in solar houses. Installation of multistage surge protection device (SPD) , used with the correct SPD wiring method for different grid systems and high-quality grid-tied inverters ensures the prevention of any unwanted discharge to facilities.

 

Feb 20, 2021-Zhejiang, China, Solis will promote the culture of anti- grid surge protection for residences and   C&I roof that have solar power supply systems to ensure  the safety of photovoltaic installations.

In a PV system, we usually focus on lightning strike surge, but what can’t be ignored is  short circuiting linked to the grid, during switching operations or large engine start-stop energy, which like lightning, can be very destructive to power electronics such as inverters. Identifying and being prepared for such situations is key to the safety of solar installations.

The Grid surge, or Switching operations (switching electromagnetic pulse, SEMP) can generate induced surge voltages that spread to supply lines. In the case of large switch-on currents or short circuits, very high currents can flow within a few milliseconds. These short- term current changes can lead to transient over voltages and the main sources fall into the following categories:

(1)Input and excision of large loads;

(2)Input and excision of inductive loads;

(3)Input and excision of reactive compensation capacitor;

(4)Short circuit fault of grid;

Grid surge exists in any power grid, especially in factories with a poor grid or large load with often input and excision. According to data, the electric surge caused by electricity load in the grid system accounts for about 70% of surges, while lightning surge is only about 30%.

Although grid surges are not as energetic as lightning strike surges (often hundreds of kilovolts), but its transient over-voltages range from hundreds to 20,000 volts and happens more often. This can cause potential issues in a PV system including :

1.       Causes the leakage current protector, circuit breaker and other equipment of the distribution box to act or even burn down.

2.       Affect the normal operation of the inverter, even destroy the electrical structure of the built-in SPD or relay of the inverter.

Given this reality, Solis has a set of recommendation for preventing such risks to photovoltaic systems, supported by  Solis technical engineers on site to share the accumulated experience in this regard.

All Solis inverters have the ability to monitor the state of the grid. When grid surge occurs, the inverter LCD display and monitoring equipment will show  Corresponding fault information, and disconnected from the grid in time, waiting for the fault to recover. So don’t worry, please deal with the problem according to the fault information in time.

Correct selection and use of additional multi-level SPD equipment is an effective way to prevent grid surges. And engineers mainly explain through the following three parts:

Selection principle:

(1)SPD’s maximum continuous operating voltage Uc needs to be referred to the floating value of grid node Ug;

Uc≈1.15 X Ug;

(2)Imax lightning current, Class II surge protector needs to pay attention to 8/20us lightning impulse current, which is recommended to be greater than 20KA;

(3)The protection horizontal voltage Up is consistent with the AC withstand voltage Uw of the inverter;

Up≈0.8 X Uw;

Connection mode

Select the appropriate SPD connection mode according to Grid Systems.

Solis recommends anti-grid surger in solar houses. Installation of multistage surge protection device (SPD) , used with the correct SPD wiring method for different grid systems and high quality grid-tied inverters ensures the prevention of any unwanted discharge to facilities.

 

Feb 20, 2021-Zhejiang, China, Solis will promote the culture of anti- grid surge protection for residences and   C&I roof that have solar power supply systems to ensure  the safety of photovoltaic installations.

In a PV system, we usually focus on lightning strike surge, but what can’t be ignored is  short circuiting linked to the grid, during switching operations or large engine start-stop energy, which like lightning, can be very destructive to power electronics such as inverters. Identifying and being prepared for such situations is key to the safety of solar installations.

The Grid surge, or Switching operations (switching electromagnetic pulse, SEMP) can generate induced surge voltages that spread to supply lines. In the case of large switch-on currents or short circuits, very high currents can flow within a few milliseconds. These short- term current changes can lead to transient over voltages and the main sources fall into the following categories:

(1)Input and excision of large loads;

(2)Input and excision of inductive loads;

(3)Input and excision of reactive compensation capacitor;

(4)Short circuit fault of grid;

Grid surge exists in any power grid, especially in factories with a poor grid or large load with often input and excision. According to data, the electric surge caused by electricity load in the grid system accounts for about 70% of surges, while lightning surge is only about 30%.

Although grid surges are not as energetic as lightning strike surges (often hundreds of kilovolts), but its transient over-voltages range from hundreds to 20,000 volts and happens more often. This can cause potential issues in a PV system including :

1.       Causes the leakage current protector, circuit breaker and other equipment of the distribution box to act or even burn down.

2.       Affect the normal operation of the inverter, even destroy the electrical structure of the built-in SPD or relay of the inverter.

Given this reality, Solis has a set of recommendation for preventing such risks to photovoltaic systems, supported by  Solis technical engineers on site to share the accumulated experience in this regard.

All Solis inverters have the ability to monitor the state of the grid. When grid surge occurs, the inverter LCD display and monitoring equipment will show  Corresponding fault information, and disconnected from the grid in time, waiting for the fault to recover. So don’t worry, please deal with the problem according to the fault information in time.

Correct selection and use of additional multi-level SPD equipment is an effective way to prevent grid surges. And engineers mainly explain through the following three parts:

Selection principle:

(1)SPD’s maximum continuous operating voltage Uc needs to be referred to the floating value of grid node Ug;

Uc≈1.15 X Ug;

(2)Imax lightning current, Class II surge protector needs to pay attention to 8/20us lightning impulse current, which is recommended to be greater than 20KA;

(3)The protection horizontal voltage Up is consistent with the AC withstand voltage Uw of the inverter;

Up≈0.8 X Uw;

Connection mode

Select the appropriate SPD connection mode according to Grid Systems.

 

Notes:

1)        Please to protect SPD with series circuit breaker or fuse.

2)        The connecting wire of SPD shall be short & straight, and its total length shall be within 0.5 m.

3)        The system must be well grounded.

4)        Please replace the SPD when it fails.

“Of course, PV grid-tied inverters also have built-in AC and DC SPD, but grid surges are high and account for up to 70%, which can easily affect the inverter. Adding an additional SPD on the AC side can form multi-level protection for the system, and it is easier to replace the SPD after it fails, especially in factories with poor grids or heavy loads, and the inverter can use products with higher surge protection levels, such as Solis-(100-125)K-5G series products, with Type-I AC SPD.”  explains our expert.

www.solisinverters.com.au

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