Abstract: This paper proffers comparative research of Complementary MOSFET (CMOS) of the Phase Lock Loop (PPL) circuit. Our approach is based on hybrid design Phase Lock Loop (PLL) circuits combined in a single unit. A phase-locked loop (PLL) is used in space communication for synchronization purposes also very useful in time to digital converters and in instrumentation engineering. A phased lock loop (PLL) is a control system that makes an output signal whose frequency depends on the input phase difference. The phase detector takes the phase of an input signal and compares it with the phase procured from its output oscillator regulates the frequency of its oscillator to manage the phase matches. Different techniques like analogue and digital simulation with the help of mathematical/logical connections are found in Research to create the Phase Locked Loop (PLL). This limitation can be overcome by replicating the circuit block whose supply voltage is being reduced to manage the same throughout. This paper includes design features for low power phase-locked loop using Very-large-scale integration (VLSI) technology. The signal from the phase detector controls the oscillator in a feedback loop. As such: an operational device the PLL has a wide range of applications in computers sciences, telecommunication, and electronic system applications; we aim to design and examine the phase lock loop circuit in multiple technologies and examine their power capacity. By using the hybrid structure of NMOS and PMOS, here we have achieved the circuit of Phase Lock Loop (PLL) using VLSI technology. Keywords: Technology, CMOS, Phase lock loop, Micro wind, Voltage control oscillator, VLSI technology.
Monolithically integrated heterodyne optical phase-lock loop with RF XOR phase detector
