The thesis will introduce the swappable fluidic module which was developed by the LAB senior, and it will be implemented on DNA extraction from the HBV Hepatitis B virus or human cells in this research. The traditional DNA extraction method must use pipet and centrifuge for different chemical reagent preparation, then lysis cells, bind DNA, eliminate the cell debris and finally decompose the protein or other PCR inhibitor. After all the process above, we clean the samples step by step, then DNA fragment will finally remain in the solution. In standard DNA extraction method, since the DNA structure have the phosphate backbone on it, when the solution is in neutral condition, for example high concentration of ethanol, the DNA fragment will bind with each other, forming a big, visible aggregation. We utilize this property to extract the DNA from the cells, but it has some drawbacks because of the DNA fragment will be washed out or contaminating substance remained in the aggregation, it will lead to bad influence for the upcoming process. However, the recent research and commercial approach turn to use the DNA carrier such as Silicon dioxide membrane or magnetic beads to enhance the DNA extraction efficiency. To resolve the problems mentioned above, scientist developed the DNA carrier method to bind DNA stronger than before. The DNA carriers are coated with silicon dioxide on it, when the carrier and DNA are in the strongly ionized environment, the ion will bind the phosphate backbone and SiO2 together, forming a strong ion-bind between them. By this method, it can reduce the quantity of washed out DNA and enhance the purity of solution after washing steps. We will use PDMS(poly-dimethylsiloxane) as the material to manufacture the specially designed modules. These modules have the functions such as washing DNA, separating the reagents and transporting the beads. By the development of DNA carrier magnetic beads, we can perform the DNA extraction on our newly released method. Comparing to the complex and expensive MEMS chip or commercial machine, our modules can be manufactured at fast speed and low cost. The easy-handled and functional modules can be promoted to the public easily. Besides, the DNA extracted by module have the great efficiency compared to the commercial methods. In the future, it can promote to the point-of-care POC platform or even use it to diagnose the infectious illness in remote area or bad medical condition place.