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Principles and characteristics of half-cell Solar Panel

  • Categories:News Central
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  • Time of issue:2020-05-22 15:20
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(Summary description)With the continuous progress of research on solar high-efficiency batteries in the industry, the current rated operating current of most single polycrystalline battery modules is relatively high, with an average value of 8A-9A or above, and the current will generate power when flowing through the welding ribbon inside the module Loss, this part of the loss is mainly converted into Joule heat (Ploss = I2R) existing inside the component.

Therefore, as the current increases, this part of the loss will be greater.

1. Product design of half-cell battery assembly

The internal structure design of the half-chip module includes three methods: series structure, series-parallel structure, and parallel-series structure.

 Conventional components usually adopt series structure. Because the current of the half-chip battery is halved, the voltage remains unchanged. 

Therefore, if the series structure is used for design, the component voltage will be double that of the conventional component, which will increase the cost of the system. 

At the same time, there is a certain safety risk after the component voltage is doubled, so in order to ensure that the overall output voltage and current of the conventional component are consistent In general, half-cell battery components are designed in series-parallel configuration, which is equivalent to two small components connected in parallel.

The half-cell module is the same as the conventional module, which is encapsulated with tempered glass, EVA and TPE (TPT, EPE) and other backplanes. 

The junction box will be different, generally using a three-piece junction box. In terms of process, the process change of the half-chip module is simple. 

Since the number of cells is doubled, the time for series welding of the cells will also be doubled. 

The difficulty is that the lead wire of the bus belt is led out from the middle of the back of the module. 

At the risk of battery cracks or hidden cracks, the current automation problem of the busbar welding in the middle of the half-chip assembly has been overcome, to a certain extent, it has also promoted the rapid development of the half-chip battery assembly.

2. Characteristics of half-cell battery assembly.

Compared with traditional components, half-cell battery components are mainly manifested in three aspects.

 As shown in Table 1, due to the reduction of internal circuits and internal consumption, the packaging efficiency is improved; the operating temperature of the component is reduced, the probability of hot spots is greatly reduced, and the reliability of the component is improved safely. 



In terms of shadow shield, due to the unique design, it exhibits superior anti-occlusion performance than conventional components.

It is also important to choose whether to use the whole cell or the half cell. For more details, you can come to our customer service to learn more.


Principles and characteristics of half-cell Solar Panel

(Summary description)With the continuous progress of research on solar high-efficiency batteries in the industry, the current rated operating current of most single polycrystalline battery modules is relatively high, with an average value of 8A-9A or above, and the current will generate power when flowing through the welding ribbon inside the module Loss, this part of the loss is mainly converted into Joule heat (Ploss = I2R) existing inside the component.

Therefore, as the current increases, this part of the loss will be greater.

1. Product design of half-cell battery assembly

The internal structure design of the half-chip module includes three methods: series structure, series-parallel structure, and parallel-series structure.

 Conventional components usually adopt series structure. Because the current of the half-chip battery is halved, the voltage remains unchanged. 

Therefore, if the series structure is used for design, the component voltage will be double that of the conventional component, which will increase the cost of the system. 

At the same time, there is a certain safety risk after the component voltage is doubled, so in order to ensure that the overall output voltage and current of the conventional component are consistent In general, half-cell battery components are designed in series-parallel configuration, which is equivalent to two small components connected in parallel.

The half-cell module is the same as the conventional module, which is encapsulated with tempered glass, EVA and TPE (TPT, EPE) and other backplanes. 

The junction box will be different, generally using a three-piece junction box. In terms of process, the process change of the half-chip module is simple. 

Since the number of cells is doubled, the time for series welding of the cells will also be doubled. 

The difficulty is that the lead wire of the bus belt is led out from the middle of the back of the module. 

At the risk of battery cracks or hidden cracks, the current automation problem of the busbar welding in the middle of the half-chip assembly has been overcome, to a certain extent, it has also promoted the rapid development of the half-chip battery assembly.

2. Characteristics of half-cell battery assembly.

Compared with traditional components, half-cell battery components are mainly manifested in three aspects.

 As shown in Table 1, due to the reduction of internal circuits and internal consumption, the packaging efficiency is improved; the operating temperature of the component is reduced, the probability of hot spots is greatly reduced, and the reliability of the component is improved safely. 



In terms of shadow shield, due to the unique design, it exhibits superior anti-occlusion performance than conventional components.

It is also important to choose whether to use the whole cell or the half cell. For more details, you can come to our customer service to learn more.


  • Categories:News Central
  • Author:
  • Origin:
  • Time of issue:2020-05-22 15:20
  • Views:
Information

With the continuous progress of research on solar high-efficiency batteries in the industry, the current rated operating current of most single polycrystalline battery modules is relatively high, with an average value of 8A-9A or above, and the current will generate power when flowing through the welding ribbon inside the module Loss, this part of the loss is mainly converted into Joule heat (Ploss = I2R) existing inside the component.

Therefore, as the current increases, this part of the loss will be greater.

1. Product design of half-cell battery assembly

The internal structure design of the half-chip module includes three methods: series structure, series-parallel structure, and parallel-series structure.

 Conventional components usually adopt series structure. Because the current of the half-chip battery is halved, the voltage remains unchanged. 

Therefore, if the series structure is used for design, the component voltage will be double that of the conventional component, which will increase the cost of the system. 

At the same time, there is a certain safety risk after the component voltage is doubled, so in order to ensure that the overall output voltage and current of the conventional component are consistent In general, half-cell battery components are designed in series-parallel configuration, which is equivalent to two small components connected in parallel.

The half-cell module is the same as the conventional module, which is encapsulated with tempered glass, EVA and TPE (TPT, EPE) and other backplanes. 

The junction box will be different, generally using a three-piece junction box. In terms of process, the process change of the half-chip module is simple. 

Since the number of cells is doubled, the time for series welding of the cells will also be doubled. 

The difficulty is that the lead wire of the bus belt is led out from the middle of the back of the module. 

At the risk of battery cracks or hidden cracks, the current automation problem of the busbar welding in the middle of the half-chip assembly has been overcome, to a certain extent, it has also promoted the rapid development of the half-chip battery assembly.

2. Characteristics of half-cell battery assembly.

Compared with traditional components, half-cell battery components are mainly manifested in three aspects.

 As shown in Table 1, due to the reduction of internal circuits and internal consumption, the packaging efficiency is improved; the operating temperature of the component is reduced, the probability of hot spots is greatly reduced, and the reliability of the component is improved safely. 

In terms of shadow shield, due to the unique design, it exhibits superior anti-occlusion performance than conventional components.

It is also important to choose whether to use the whole cell or the half cell. For more details, you can come to our customer service to learn more.

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