Common PV Cable Selection Table for Solar Power Stations


In a solar photovoltaic power generation system, each link—from the solar panel to the inverter, and then to the grid or load—is crucial. The cables connecting these components have a significant impact on the overall performance of the system. Choosing the appropriate cable type is not only essential for the system’s safe and stable operation but also directly or indirectly affects the power generation efficiency of the photovoltaic system.

Cables in Photovoltaic Power Station
Selection of solar cables

Importance of Cable Selection

  1. Current Carrying Capacity: The main function of a cable is to transmit current. If the selected PV cable has a cross-sectional area that is too small, it will produce greater resistance when carrying larger currents, leading to increased power losses, known as line losses. Line losses reduce the overall efficiency of the photovoltaic system and decrease power generation.
  2. Temperature Effect: When cables operate under high current, they generate heat. Excessive temperature not only accelerates cable aging but can also damage insulation materials, potentially leading to fires or other safety accidents. Choosing cables of appropriate specifications can effectively control temperature rise, ensuring the system operates safely and reliably.
  3. Voltage Drop: Long-distance transmission or using cables with too small a cross-section can lead to significant voltage drops, directly impacting the input voltage of the inverter and thus its operational efficiency. Reasonable cable selection can minimize voltage drops, ensuring the inverter operates at optimal efficiency and enhancing power generation.

Cable Selection Reference Table (from Combiner Box to Inverter)

NumberInverterCopper cable specifications (from inverter to distribution box)Aluminum cable specifications (from distribution box to grid connection point)Grid connection distanceNote
1SG10RTZC-YJV-0.6/1kV-5×4mm²YJLV-0.6/1kV-3×10+1×6mm²≤100m1. AC cable distance from the mains connection box to the mains connection point ≤100m.
2. Copper and aluminum transition terminals should be crimped.
3. They should be crimped with a special crimping tool.
4. According to the actual conditions of the goods, aluminum core cable of the same diameter, aluminum alloy cable, single core aluminum cable and bundled aluminum cable can be used from the distribution box to the grid connection point.
5. The type of cable in the same area shall be consistent.
2SG12RTZC-YJV-0.6/1kV-5×6mm²YJLV-0.6/1kV-3×10+1×6mm²≤70m
YJLV-0.6/1kV-3×16+1×10mm²≤100m
3SG15RTZC-YJV-0.6/1kV-5×10mm²YJLV-0.6/1kV-3×16+1×10mm²≤100m
4SG20RTZC-YJV-0.6/1kV-5×10mm²YJLV-0.6/1kV-3×16+1×10mm²≤70m
YJLV-0.6/1kV-3×25+1×16mm²≤100m
5SG25RTZC-YJV-0.6/1kV-5×10mm²YJLV-0.6/1kV-3×25+1×16mm²≤70m
YJLV-0.6/1kV-3×35+1×16mm²≤100m
6SG33CXZC-YJV-0.6/1kV-3×16+2×10mm²YJLV-0.6/1kV-3×25+1×16mm²≤70m
YJLV-0.6/1kV-3×35+1×16mm²≤100m
7SG50CXZC-YJV-0.6/1kV-3×25+2×16mm²YJLV-0.6/1kV-3×35+1×16mm²≤70m
YJLV-0.6/1kV-3×50+1×25mm²≤100m
8SG10RT+SG10RTSame as corresponding inverter cable modelYJLV-0.6/1kV-3×16+1×10mm²≤70m
YJLV-0.6/1kV-3×25+1×16mm²≤100m
9SG12RT+SG12RTSame as corresponding inverter cable modelYJLV-0.6/1kV-3×25+1×16mm²≤70m
YJLV-0.6/1kV-3×35+1×16mm²≤100m
10SG15RT+SG12RT
SG15RT+SG15RT
SG20RT+SG12RT
Same as corresponding inverter cable modelYJLV-0.6/1kV-3×25+1×16mm²≤70m
YJLV-0.6/1kV-3×35+1×16mm²≤100m
11SG20RT+SG15RT
SG20RT+SG20RT
Same as corresponding inverter cable modelYJLV-0.6/1kV-3×35+1×16mm²≤70m
YJLV-0.6/1kV-3×50+1×25mm²≤100m
Cable Selection Reference Table (from Combiner Box to Inverter)

Cable Selection Reference Table (from Inverter to Photovoltaic Power Grid)

Cable Selection Calculation from Combiner Box to Inverter
Combiner Box Specifications16 inputs1 output
Maximum Output Current of Combiner Box Imax=Im*Number of Circuits
Maximum Output Current of Combiner Box (A)Imax133.92
Selected Cable Specification YJV22-0.6/1kV 2×50/2×70/2×95/2x120mm²
Voltage Drop Requirement1.50%
Allowed Voltage Drop ΔU=Vm*N*1.5%
Voltage Drop (V)ΔU10.263
Based on DC Voltage Drop Formula ΔU=ρ*I*2L/S, L=ΔU*S/2ρI
YJV22-0.6/1kV 2 x 50 mm²Allowed Cable Length (m)L107.6
YJV22-0.6/1kV 2 x 70 mm²Allowed Cable Length (m)L150.7
YJV22-0.6/1kV 2 x 95 mm²Allowed Cable Length (m)L204.5
YJV22-0.6/1kV 2 x 120 mm²Allowed Cable Length (m)L258.3
YJV22-0.6/1kV 2 x 150 mm²Allowed Cable Length (m)L322.9
YJV22-0.6/1kV 2 x 185 mm²Allowed Cable Length (m)L398.2
YJV22-0.6/1kV 2 x 240 mm²Allowed Cable Length (m)L516.6
YJV22-0.6/1kV 2 x 300 mm²Allowed Cable Length (m)L645.8
YJV22-0.6/1kV 2 x 400 mm²Allowed Cable Length (m)L861.1
Cable Selection Reference Table (from Inverter to Photovoltaic Power Grid)