The interconnection of solar cells is a technology that has been around for hundreds of years, but is a relatively new application of the soldering process. By combining the metallurgical knowledge of solder joints (which has been developed through other applications) and new materials designed specifically for solar manufacturing, solar cells and cell strings can be effectively connected with high throughput, conductivity, and reliability.
Stringing of solar cells is used across the solar industry, and is a process that newcomers to the solar industry should be familiar with. However, it is a process that even experts still need to optimize. The top layer of a solar cell is a transparent conductive oxide (TCO) to which solder will not adhere. Therefore, a metallization paste is used to bond to the TCO and provide a solderable surface for strips of solder-coated copper called tabbing or stringing ribbon. These ribbons are commonly applied as parallel strips that weave from the top of one cell to the bottom of the next to connect the positive and negative sides of the cells in series. Once connected, the tabbing ribbon channels electrical current to larger solder-coated copper strips, known as bus ribbon. Bus ribbon serves as an input/output for the entire solar array to the module junction box.
