Solar concentrator system includes solar concentrator, solar cell and a tracker. Under high concentrator ratio, a bigger acceptance angle will give rise to looser requirements on tracker tolerance. The need for a tracker may even be eliminated when the acceptance angle is sufficiently big. Two-stage solar concentrator can be divided into Primary Optical Element (POE) and Secondary Optical Element (SOE). POE utilizes a Fresnel lens or a parabolic mirror to focus collected sunlight; whereas SOE, a.k.a. Second Stage Solar Concentrator can be a Dome lens, a Fresnel Kohler lens, etc. The Entrance Pupil of the SOE is placed on the focal plane of POE. This combination provides a high acceptance angle. This thesis discusses about designs of second stage concentrator in two different types of two-stage solar concentrator, Telecentric Compound Parabolic Concentrator (TCPC) and Dielectric Totally Internal Reflection (DTIR). A TCPC focuses light onto the receiver through its reflective parabolic surface. In our design, the acceptance angle is as high as 7.9 degree when the geometrical concentration ratio is 100x. A DTIR concentrator utilizes total internal reflection to focus light onto the receiver. Our design, utilizing lens array, has resulted in a system with acceptance angle 3.8 degree when the geometrical concentration ratio is 100x.