In order to obtain conjugated polymers of low energy band gap we formed the conjugated main chain structure of the donor-acceptor alternately. Donor and acceptor successfully synthesized by a series of alternating copolymers and random copolymers via Suzuki coupling reaction and Stille coupling reaction. In this research, We used triphenylamine as donor because of its great hole transporting property and helical structure. Triphenylamine can increase open circuit voltage(Voc) for organic polymer solar cell. In addition, we mounted triphenyl silicon and carbazole on side chain of triphenylamine and investigated the physical properties and photovoltaic performance of all kinds of polymer. Diketopyrrolopyrrole (DPP) was chosen as a acceptor because of its characteristic: a strong electron withdrawing monomer and light harvesting covering a wide spectrum of UV-Vis absorption. Especially,the properties of DPP unit were coplanarity and a closer π-π stacking distance that would enhance the charge mobilities. The alternating donor-acceptor strategy was the frequently observed shifting of the polymer absorption profile to the long wavelength region as opposed to a true broadening across both the visible and near-infrared regions. Therefore, we expected that different contents of 3-hexylthiophene could improve the visible absorption range of alternating copolymers and to achieved full spectral absorption. In addition,we successfully synthesized a series of alternating copolymers and random copolymers which used gel permeation chromatography, thermal gravimetric analysis, differential scanning calorimetry, UV / Vis spectrophotometer, and cyclic voltammetry to analysis their properties of optical band gaps、HOMO and LUMO. As a result all kinds of copolymer applied to the production of organic polymer solar cell and investigated characteristic of organic polymer solar cell . The highest power conversion efficiency were 3.16 %, containing weigh ratio with random copolymer(TPASi15HT75DPP10) : PC71BM = 1:2 , Voc of 0.64 V, Isc of 8.29 mA/cm2, and FF of 0.59 under AM 1.5G solar simulator