In this study, we selected a series of main chain donor-acceptor conjugated copolymers which synthesize by BO acceptor and different donor units for application in polymer bulk heterojunction(BHJ) solar cells. Benzooxadiazole (BO) is a rigid, electron-deficient, coplanar ring structure as an acceptor moiety and this series of polymer materials have many of the characteristics to improve the device efficiency. PBDTBO with high thermal decomposition temperature, good solubility, high molecular weight (Mn=62kg mol-1), and low HOMO energy level .A BHJ solar cell device provided a high power conversion efficiency(PCE) of 5.7 %. Second, we used a series of thiophene-based conjugated copolymers PTHBO, PBTTBO, and PTTTBO which showed excellent crystallinity. The PTHBO devices showed a high Voc of 1.02 V. With a highly crystallinity, PBTTBO had a high fill factor of 74%. PTTTBO showed a good PCE for 5.3 % with thermal annealing process. Finally, we used a series of conjugated copolymers featuring alternative C-, Si-, and N-bridged dithiophene-based building blocks and BO units. These polymers exhibit broad absorption in the visible range (300－700 nm) to absorbe more photon. PCySiTBO blend with PC71BM exhibited a good PCE value of 5.0 % by an additive process.