Portal de Periódicos da CAPES

Desenvolvimento de um sintetizador de freqüência de baixo custo em tecnologia CMOS

2009; Linguagem: Inglês

2639-6459

Vlademir de Jesus Silva Oliveira,

Radio Frequency Integrated Circuit Design

In this thesis, a frequency synthesizers phase locked loops (PLL) based with an architecture that uses a dual-path loop filter consisting of passive components and a digital integrator are proposed. The objective is to employ digital techniques to reduce the implementation cost and get loop filter design flexibility to enable the architecture to have a large tuning range operation and spurious reduction. The digital loop filter is based in an up/down counter where the phase difference is sampled to generate the clock of the counter. The techniques applied in the digital path are based in digitally controlled changes in the counter operation in predefined time points. These techniques provide PLL settling time reductions whiling the stability issues are solved. The stability study of the proposed dual path has been developed. First the linear system approximation for the PLL has been assumed and then employing digital control. The continuous and discrete time equations of architecture were derived in that study applied to stability design as well as to describe the architecture behavior. The top-down methodology has been applied to the integrated circuit design. In the beginning, the system level simulations are used for the techniques creation and then the behavioral models that were calibrated with transistor level blocks are simulated. The application of the circuit is proposed to Radio Frequency Identification (RFID) using UHF (Ultra High Frequency) band for multi-standards application and will operate in range of 850 MHz to 1010 MHz. The proposed frequency synthesizer has been designed in the AMS 0.35 μm CMOS technology with 2V power supply. A 300 μs of settling time and 140 Hz of resolution was obtained in simulations. The proposed frequency synthesizer have low complexity and shown a reference noise suppression about 45.6 dB better than the conventional architecture. Index Terms − Frequency synthesizer, CMOS, analog and mixed-signal circuits, integrated circuits, PLL, digital techniques, RF.