This work demonstrates photodiodes (PDs) fabricated by standard silicon process technologies. Two kinds of PDs are proposed. One is in CMOS technology and the other is in BiCMOS technology. We show a good responsivity, record high bandwidth (1.6 GHz) and record high data rate (3.5 Gb/s) from the CMOS PD which is operated in avalanche region and the breakthrough results are published in IEEE Photonics Technology Letters. Moreover, we remove the slow diffusion carriers which are generated from substrate in CMOS PD by using body contact design with supplied voltage to create a current path under the device. And those slow carriers are swept into the current flow to ground (p-contact). It results in better pulse response and removes the long tail compared to PD with floating body voltage (VB) in pulse measurement. Finally, the PD with VB = 10 V shows another record high bandwidth of 2.8 GHz and record high eye diagram of 5 Gb/s. Besides, the BiCMOS PD is proposed from modifying the SiGe HBT layout without emitter region. It shows a responsivity of 0.26 A/W at VR of 11.06 V and the 1.25 Gb/s eye diagram is also obtained.