A 1.5–1.9GHz phase-locked loop (PLL) frequency synthesizer with AFC and Σ-Δ modulator for Sub-GHz wireless transceiver

Recently, the speedup of lock up time is required in the Phase Locked Loop (PLL) frequency synthesizer. The fractional-N method is one of the most important techniques among the speedup methods proposed hitherto. The fractional-N programmable divider can divide not only an integer step but also a fractional one. However, the phase detector always generates the phase error pulse in every period of reference frequency and the elimination of this phase error pulse seems to be difficult. In this paper, a new fractional-N programmable divider is proposed. In this divider, the width of phase error pulse is decreased by introducing the new division ratio (N + 1/2) besides N and (N + 1). Then, the width of maximum phase error pulse in the new fractional-N programmable divider is less than or equal to half of that of the conventional one.

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A 1.2-V 6-GHz Dual-Path Charge-Pump PLL Frequency Synthesizer for Quantum Control and Readout in CMOS 65-nm Process

2020 11th IEEE Annual Ubiquitous Computing, Electronics & Mobile Communication Conference (UEMCON) ◽

10.1109/uemcon51285.2020.9298160 ◽

2020 ◽

Author(s):

Vamshi Manthena ◽

Sandeep Miryala ◽

Grzegorz Deptuch ◽

Gabriella Carini

Keyword(s):

Quantum Control ◽

Frequency Synthesizer ◽

Charge Pump ◽

Charge Pump Pll ◽

Pll Frequency Synthesizer

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A low power fast-settling frequency-presetting PLL frequency synthesizer

Journal of Semiconductors ◽

10.1088/1674-4926/31/8/085002 ◽

2010 ◽

Vol 31 (8) ◽

pp. 085002 ◽

Cited By ~ 1

Author(s):

Geng Zhiqing ◽

Yan Xiaozhou ◽

Lou Wenfeng ◽

Feng Peng ◽

Wu Nanjian

Keyword(s):

Low Power ◽

Frequency Synthesizer ◽

Pll Frequency Synthesizer ◽

Fast Settling

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A Novel Fast Lock-in Phase-Locked Loop Frequency Synthesizer with Direct Frequency Presetting Circuit

Japanese Journal of Applied Physics ◽

10.1143/jjap.45.3290 ◽

2006 ◽

Vol 45 (4B) ◽

pp. 3290-3294 ◽

Cited By ~ 2

Author(s):

Xiaofei Kuang ◽

Nanjian Wu ◽

Guoliang Shou

Keyword(s):

Frequency Synthesizer ◽

Phase Locked Loop ◽

Lock In

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Design of Delta-Sigma ΣΔ based Fractional N PLL Frequency Synthesizer for GSM Mobile Systems

AL-Rafdain Engineering Journal (AREJ) ◽

10.33899/rengj.2012.50474 ◽

2012 ◽

Vol 20 (3) ◽

pp. 26-34

Author(s):

Saad Wasmi Osman Luhaib ◽

Dr. Khalid Khaleel Mohammed

Keyword(s):

Frequency Synthesizer ◽

Mobile Systems ◽

Delta Sigma ◽

Pll Frequency Synthesizer

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ANALYSIS OF FREQUENCY SYNTHESISERS FOR MULTISTANDART WIRELESS TRANSCEIVER / DAŽNIO SINTEZATORIŲ DAUGIASTANDARČIAMS BEVIELIO RYŠIO SIŲSTUVAMS IR IMTUVAMS ANALIZĖ

Mokslas - Lietuvos ateitis ◽

10.3846/mla.2016.931 ◽

2016 ◽

Vol 8 (3) ◽

pp. 302-307 ◽

Cited By ~ 2

Author(s):

Marijan Jurgo ◽

Romualdas Navickas

Keyword(s):

Figure Of Merit ◽

Frequency Synthesizer ◽

Cmos Technology ◽

Wireless Transceivers ◽

Frequency Locking ◽

Wireless Transceiver ◽

Loop Bandwidth ◽

Charge Pump Pll ◽

Chip Size ◽

Better Than

Frequency synthesiser is one of most important blocks in wire-less transceiver. Generally phase locked loop (PLL) is used as frequency synthesiser in multistandart wireless transceivers. Two main structures of PLL are conventional (mixed, charge pump) PLL and All-Digital PLL. Newest works, related to design of conventional PLLs, are oriented to minimise power consumption and chip size, increase loop bandwidth and decrease frequency locking time. Main focus of All-Digital PLLs design is to reduce quantisation noise. New figure of merit (FOM) is proposed to compare frequency synthesisers of different type. This function depends on all main parameters of frequency synthesizer for multistandart transceiver: phase noise, operation frequency, frequency tuting range, power dissipation, used area of silicon. Used CMOS technology is also assessed in proposed FOM. From the calsulated FOM value for newest published frequency synthesisers it is seen, that in nanometric technologies All-Digital frequency synthesisers are superior to conventional synthesisers. Although, performance of conventional frequency synthesisers, implemented in larger technologies (0.18 µm ir 0.13 µm), is comparable or better than performance of All-Digital synthesisers. Dažnio sintezatorius yra vienas iš svarbiausių blokų bevielio ryšio siųstuvuose-imtuvuose. Kaip dažnio sintezatorius daugiastandarčiams bevielio ryšio siųstuvams ir imtuvams dažniausiai yra naudojama fazės derinimo kilpa (FDK). Dvi pagrindinės FDK struktūros yra klasikinė (mišri, krūvio pompos) ir visiškai skaitmeninė fazės derinimo kilpa. Naujausiuose darbuose, susijusiuose su klasikinės FDK projektavimu, siekiama mažinti galią ir plotą, dažnio suderinimo trukmę, platinti praleidžiamų dažnių ruožą. Pagrindinis dėmesys projektuojant visiškai skaitmenines FDK skiriamas kvantavimo triukšmui mažinti. Įvairių struktūrų ir tipų dažnio sintezatoriams palyginti yra siūloma nauja kokybės funkcija (FOM). Ši funkcija priklauso nuo visų pagrindinių sintezatoriaus, tinkančio daugiastandarčiams siųstuvams-imtuvams, parametrų: fazinio triukšmo, darbinio dažnio, dažnio perderinimo ruožo pločio, vartojamosios galios, luste užimamo ploto. Taip pat įvertinama naudojama KMOP technologija. Iš apskaičiuotų kokybės funkcijos rezultatų naujausiems publikuotiems dažnio sintezatoriams matyti, kad nanometrinėse technologijose visiškai skaitmeninės struktūros dažnio sintezatoriai yra pranašesni už klasikinius, tačiau didesnėse (0,18 μm ir 0,13 μm) technologijose įgyvendinti klasikiniai dažnio sintezatoriai yra lygiaverčiai arba pranašesni už visiškai skaitmeninius sintezatorius.

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