Essays about: "All Digital Phase-Locked Loop ADPLL"
Showing result 1 - 5 of 8 essays containing the words All Digital Phase-Locked Loop ADPLL.
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1. A Low Noise Digitally Controlled Oscillator for a Wi-Fi 6 All-Digital PLL
University essay from KTH/Skolan för elektroteknik och datavetenskap (EECS)Abstract : Following the rise of Internet of Things (IoT), or just the technological advancements and expectations in a world where the things are or will be connected, new demands are put on Integrated Circuit (IC) for wireless connectivity. The use cases seem endless; smart home, healthcare, entertainment, and science are all areas that can benefit from connectivity of low power electronics. READ MORE
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2. Digitally Controlled Oscillator for mm-Wave Frequencies
University essay from Lunds universitet/Institutionen för elektro- och informationsteknikAbstract : In the fifth generation of mobile communication, 5G, frequencies above 30 GHz, so-called millimeter-wave (mm-wave) frequencies are expected to play a prominent role. For the synthesis of these frequencies, the all-digital phase locked loop (ADPLL) has recently gained much attention. READ MORE
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3. System Level Modeling and Verification of All-digital Phase-locked Loop
University essay from KTH/Skolan för informations- och kommunikationsteknik (ICT)Abstract : In wirelesscommunication systems, a local oscillator (LO) aims at demodulating radio-frequency signals into baseband signals. The performance of these signals determines the quality of communications which is highly affected by the phase accuracy of local oscillators. READ MORE
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4. Design and Simulation of Miscellaneous Blocks of an All-Digital PLL for the 60 GHz Band
University essay from Elektroniksystem; Tekniska högskolanAbstract : A phase-locked loop commonly known as PLL is widely used in communication systems. A PLL is used in radio, telecommunications, modulation and demodulation. It can be used for clock generation, clock recovery from data signals, clock distribution and as a frequency synthesizer. Most electronic circuits encounter the problem of the clock skew. READ MORE
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5. Design of a Time-to-Digital Converter for an All-Digital Phase Locked Loop for the 2-GHz Band
University essay from Linköpings universitet/Elektroniksystem; Linköpings universitet/Tekniska högskolanAbstract : An all-digital phase locked loop for WiGig systems was implemented. The developedall-digital phase locked loop has a targeted frequency range of 2.1-GHz to2.5-GHz. READ MORE