In the present paper the phase-locked loop (PLL), an electric circuit widely used in telecommunications and computer architectures is considered. A new modification of the PLL with tangential phase detector characteristic and active proportionally-integrating (PI) filter is introduced. Hold-in, pull-in and lock-in ranges for given circuit are studied rigorously. It is shown that lock-in range of the new PLL model is infinite, compared to the finite lock-in range of the classical PLL.peerReviewe
Discovery of undesirable hidden oscillations, which cannot be found by simulation, in models of phas...
Abstract:- In this paper, we propose a new phase-locked loop design with both a high speed phase fre...
This letter proposes a phase-locked loop (PLL) able to operate as an independent single-phase PLL in...
In the present work the lock-in range of PLL-based circuits with proportionallyintegrating filter a...
Phase-locked loops (PLLs) are are widely used in various applications: Wireless communications, GPS ...
In this paper a fairly complete mathematical model of CP-PLL, which reliable enough to serve as a to...
Abstract: Lock-in range is one of the key parameters which govern the dynamic performance of a phase...
The discrete time analysis of the phase detector linear range extension in the first and the second ...
Phase-locked loop (PLL) circuitry in which a sampling phase detector samples the output signal in ac...
The terms hold-in, pull-in (capture), and lock-in ranges are widely used by engineers for the conce...
For a classic PLL with square waveform signals and lead-lag filter for all possible parameters lock-...
Many good phaselocked loops (PLL) books exist. However, how to acquire the input frequency from an u...
Transmission and switching in digital telecommunication networks require distribution of precise tim...
AbstractWe examine the operation of the phase-lock loop (PLL). The PLL is one of the fundamental too...
Phase Lock Loop is one of the most essential techniques today and it is used for many different purp...
Discovery of undesirable hidden oscillations, which cannot be found by simulation, in models of phas...
Abstract:- In this paper, we propose a new phase-locked loop design with both a high speed phase fre...
This letter proposes a phase-locked loop (PLL) able to operate as an independent single-phase PLL in...
In the present work the lock-in range of PLL-based circuits with proportionallyintegrating filter a...
Phase-locked loops (PLLs) are are widely used in various applications: Wireless communications, GPS ...
In this paper a fairly complete mathematical model of CP-PLL, which reliable enough to serve as a to...
Abstract: Lock-in range is one of the key parameters which govern the dynamic performance of a phase...
The discrete time analysis of the phase detector linear range extension in the first and the second ...
Phase-locked loop (PLL) circuitry in which a sampling phase detector samples the output signal in ac...
The terms hold-in, pull-in (capture), and lock-in ranges are widely used by engineers for the conce...
For a classic PLL with square waveform signals and lead-lag filter for all possible parameters lock-...
Many good phaselocked loops (PLL) books exist. However, how to acquire the input frequency from an u...
Transmission and switching in digital telecommunication networks require distribution of precise tim...
AbstractWe examine the operation of the phase-lock loop (PLL). The PLL is one of the fundamental too...
Phase Lock Loop is one of the most essential techniques today and it is used for many different purp...
Discovery of undesirable hidden oscillations, which cannot be found by simulation, in models of phas...
Abstract:- In this paper, we propose a new phase-locked loop design with both a high speed phase fre...
This letter proposes a phase-locked loop (PLL) able to operate as an independent single-phase PLL in...