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High Frequency Communication and Sensing: Traveling-Wave Techniques
introduces novel traveling wave circuit techniques to boost the
performance of high-speed circuits in standard low-cost production
technologies, like complementary metal oxide semiconductor (CMOS).
A valuable resource for experienced analog/radio frequency (RF)
circuit designers as well as undergraduate-level microelectronics
researchers, this book: Explains the basics of high-speed
signaling, such as transmission lines, distributed signaling,
impedance matching, and other common practical RF background
material Promotes a dual-loop coupled traveling wave oscillator
topology, the trigger mode distributed wave oscillator, as a
high-frequency multiphase signal source Introduces a force-based
starter mechanism for dual-loop, even-symmetry, multiphase
traveling wave oscillators, presenting a single-loop version as a
force mode distributed wave antenna (FMDWA) Describes
higher-frequency, passive inductive, and quarter-wave-length-based
pumped distributed wave oscillators (PDWOs) Examines phased-array
transceiver architectures and front-end circuits in detail, along
with distributed oscillator topologies Devotes a chapter to THz
sensing, illustrating a unique method of traveling wave frequency
multiplication and power combining Discusses various data converter
topologies, such as digital-to-analog converters (DACs),
analog-to-digital converters (ADCs), and GHz-bandwidth sigma-delta
modulators Covers critical circuits including phase rotators and
interpolators, phase shifters, phase-locked loops (PLLs),
delay-locked loops (DLLs), and more It is a significantly
challenging task to generate and distribute high-speed clocks.
Multiphase low-speed clocks with sharp transition are proposed to
be a better option to accommodate the desired timing resolution.
High Frequency Communication and Sensing: Traveling-Wave Techniques
provides new horizons in the quest for greater speed and
performance.
Charge pumps are widely used in thermoelectric scavenging systems
to increase the thermoelectric generator output voltage to a
suitable voltage that can supply the standard integrated circuit.
Threshold voltage cancellation (Vt cancellation) scheme is applied
to cancel the threshold drop associated with each diode-connected
device and improve charge pump performance. Applying this scheme by
using the next stage higher voltage is presented. Improving the
output stage using this scheme is also presented. Simulations are
performed using TSMC 0.25 m CMOS technology in Spectre(r)
High Frequency Communication and Sensing: Traveling-Wave Techniques
introduces novel traveling wave circuit techniques to boost the
performance of high-speed circuits in standard low-cost production
technologies, like complementary metal oxide semiconductor (CMOS).
A valuable resource for experienced analog/radio frequency (RF)
circuit designers as well as undergraduate-level microelectronics
researchers, this book: Explains the basics of high-speed
signaling, such as transmission lines, distributed signaling,
impedance matching, and other common practical RF background
material Promotes a dual-loop coupled traveling wave oscillator
topology, the trigger mode distributed wave oscillator, as a
high-frequency multiphase signal source Introduces a force-based
starter mechanism for dual-loop, even-symmetry, multiphase
traveling wave oscillators, presenting a single-loop version as a
force mode distributed wave antenna (FMDWA) Describes
higher-frequency, passive inductive, and quarter-wave-length-based
pumped distributed wave oscillators (PDWOs) Examines phased-array
transceiver architectures and front-end circuits in detail, along
with distributed oscillator topologies Devotes a chapter to THz
sensing, illustrating a unique method of traveling wave frequency
multiplication and power combining Discusses various data converter
topologies, such as digital-to-analog converters (DACs),
analog-to-digital converters (ADCs), and GHz-bandwidth sigma-delta
modulators Covers critical circuits including phase rotators and
interpolators, phase shifters, phase-locked loops (PLLs),
delay-locked loops (DLLs), and more It is a significantly
challenging task to generate and distribute high-speed clocks.
Multiphase low-speed clocks with sharp transition are proposed to
be a better option to accommodate the desired timing resolution.
High Frequency Communication and Sensing: Traveling-Wave Techniques
provides new horizons in the quest for greater speed and
performance.
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