The fabrication and characterization of silicon-based (Si-based) photonic crystal waveguides (PCWs) based on type-B antiresonant reflecting optical waveguide (ARROW-B) structures with 60° bends, 120° bends, and Y-branch power splitters were investigated. These waveguide structures has relatively large core sizes, which is suitable for efficient coupling with single-mode fibers. By adding simple capsule-shaped defects at the PC bend corners and Y-junctions, the light bending ability and power-splitting ability will be enhanced. This capsule-shaped defect was a simple geometric design, which has a smooth hole shape to fabricate easier and can still maintain its shapes as the original design. The 3D finite-difference time-domain (FDTD) spectrum analysis results show that all our designed ARROW-B PC bends and Y-branch power splitters could provide broadband transmissions in the whole C band and L band. We fabricated the ARROW-B PCWs with the equipments in the National Nano Device Laboratories and Nano Facility Center at National Chiao Tung University. The propagation losses of designed capsule-shaped bend PCWs and conventional bend PCWs were evaluated. Finally, the characteristics of waveguides were demonstrated. Broad-band light transmission was shown also.