Low-noise Optical and RF Receiver Design in Sub-micron CMOS Technology
Author: Sung Min Park
Publisher:
Published: 2000
Total Pages:
ISBN-13:
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Author: Sung Min Park
Publisher:
Published: 2000
Total Pages:
ISBN-13:
DOWNLOAD EBOOKAuthor:
Publisher:
Published: 2000
Total Pages:
ISBN-13:
DOWNLOAD EBOOKAuthor: Francisco Aznar
Publisher: Springer Science & Business Media
Published: 2012-08-09
Total Pages: 204
ISBN-13: 1461434645
DOWNLOAD EBOOKThis book describes optical receiver solutions integrated in standard CMOS technology, attaining high-speed short-range transmission within cost-effective constraints. These techniques support short reach applications, such as local area networks, fiber-to-the-home and multimedia systems in cars and homes. The authors show how to implement the optical front-end in the same technology as the subsequent digital circuitry, leading to integration of the entire receiver system in the same chip. The presentation focuses on CMOS receiver design targeting gigabit transmission along a low-cost, standardized plastic optical fiber up to 50m in length. This book includes a detailed study of CMOS optical receiver design – from building blocks to the system level.
Author: Filip Tavernier
Publisher: Springer Science & Business Media
Published: 2011-06-20
Total Pages: 231
ISBN-13: 1441999256
DOWNLOAD EBOOKThis book describes the design of optical receivers that use the most economical integration technology, while enabling performance that is typically only found in very expensive devices. To achieve this, all necessary functionality, from light detection to digital output, is integrated on a single piece of silicon. All building blocks are thoroughly discussed, including photodiodes, transimpedance amplifiers, equalizers and post amplifiers.
Author: Chaoying (Charles) Wu
Publisher:
Published: 2014
Total Pages: 184
ISBN-13:
DOWNLOAD EBOOKCurrent advances in wireless receiver technologies are primarily driven by the need for cost reduction through (1) integration of a radio, an ADC and a digital processor on a single CMOS die, and (2) the design of low-power multi-standard capable receivers. However, due to the spectrum scarcity, future wireless standards, such as LTE, present a whole new set of challenges for radio system design. For example, LTE's highly fragmented spectrum requires multiple chipsets for support. Due to this cost overhead, there is no global LTE-enabled device available in the market now. Moreover, while carrier aggregation (CA) added to LTE brings unparalleled data rate improvement, it seriously complicates the RF frontend design. Modern commercial LTE solutions include multiple chipsets to support various scenarios of CA, which is not cost effective. This work focuses on novel receiver architectures that address the design challenges associated with LTE-Advance from two perspectives: (1) a receiver that is capable of wide-frequency range of operation to cover all the LTE bands and (2) a single highly linear RF frontend to support non-contiguous-in-band CA. A novel sigma-delta-based direct-RF-to-digital receiver architecture is introduced in this work as an example of a complete integrated RF-to-digital frontend design capable to cover all the LTE bands. The design is implemented in 65 nm CMOS technology and the SNDR of the receiver exceeds 68 dB for a 4 MHz signal, and is better than 60 dB over the 400 MHz to 4 GHz frequency range. In a different example, we propose a passive-mixer-first receiver system to provide CA support in a cost-effective and power-efficient manner. Mixer-first receiver's superb linearity performance enables the possibility of a single receiver processing the entire LTE RX band, while most of the signal conditioning can be pushed into DSP to enjoy the benefit of process scaling. This design has been demonstrated in a 28 nm bulk CMOS technology, and the overall system achieves 3 dB NF, 15 dBm IIP3 and 35 dB gain with 60 mW of power.
Author: Paul Muller
Publisher: Springer Science & Business Media
Published: 2007-10-08
Total Pages: 207
ISBN-13: 1402059124
DOWNLOAD EBOOKIn the world of optical data communications this book will be an absolute must-read. It focuses on optical communications for short and very short distance applications and discusses the monolithic integration of optical receivers with processing elements in standard CMOS technologies. What’s more, it provides the reader with the necessary background knowledge to fully understand the trade-offs in short-distance communication receiver design and presents the key issues to be addressed in the development of such receivers in CMOS technologies. Moreover, novel design approaches are presented.
Author: Ville Saari
Publisher: Springer Science & Business Media
Published: 2012-03-15
Total Pages: 207
ISBN-13: 1461433665
DOWNLOAD EBOOKThis book presents a new filter design approach and concentrates on the circuit techniques that can be utilized when designing continuous-time low-pass filters in modern ultra-deep-submicron CMOS technologies for integrated wideband radio receivers. Coverage includes system-level issues related to the design and implementation of a complete single-chip radio receiver and related to the design and implementation of a filter circuit as a part of a complete single-chip radio receiver. Presents a new filter design approach, emphasizing low-voltage circuit solutions that can be implemented in modern, ultra-deep-submicron CMOS technologies;Includes filter circuit implementations designed as a part of a single-chip radio receiver in modern 1.2V 0.13um and 65nm CMOS;Describes design and implementation of a continuous-time low-pass filter for a multicarrier WCDMA base-station;Emphasizes system-level considerations throughout.
Author: Zhicheng Lin
Publisher: Springer
Published: 2015-07-25
Total Pages: 119
ISBN-13: 3319215248
DOWNLOAD EBOOKThis book provides readers with a state-of-the-art description of techniques to be used for ultra-low-power (ULP) and ultra-low-cost (ULC), short-range wireless receivers. Readers will learn what is required to deploy these receivers in short-range wireless sensor networks, which are proliferating widely to serve the internet of things (IoT) for “smart cities.” The authors address key challenges involved with the technology and the typical tradeoffs between ULP and ULC. Three design examples with advanced circuit techniques are described in order to address these trade-offs, which special focus on cost minimization. These three techniques enable respectively, cascading of radio frequency (RF) and baseband (BB) circuits under an ultra-low-voltage (ULV) supply, cascading of RF and BB circuits in current domain for current reuse and a novel function-reuse receiver architecture, suitable for ULV and multi-band ULP applications such as the sub-GHz ZigBee.
Author: Miguel D. Fernandes
Publisher: Springer
Published: 2015-07-10
Total Pages: 115
ISBN-13: 3319189204
DOWNLOAD EBOOKThis book demonstrates how to design a wideband receiver operating in current mode, in which the noise and non-linearity are reduced, implemented in a low cost single chip, using standard CMOS technology. The authors present a solution to remove the transimpedance amplifier (TIA) block and connect directly the mixer’s output to a passive second-order continuous-time Σ∆ analog to digital converter (ADC), which operates in current-mode. These techniques enable the reduction of area, power consumption, and cost in modern CMOS receivers.
Author: Lucas Compassi Severo
Publisher: Springer Nature
Published: 2021-12-04
Total Pages: 143
ISBN-13: 3030901033
DOWNLOAD EBOOKThis book presents innovative strategies to implement ultra-low voltage (ULV) and low power active circuits used in low energy RF receivers. The authors demonstrate that the use of single-stage amplifiers with the input negative transconductance compensation is a key strategy to allow the operation at low voltage levels with reduced power dissipation. Also, some design methodologies, based on the CMOS transistor operation point, are analyzed and a powerful design methodology is described for this kind of circuit. Readers will be enabled to implement the techniques described to design communication circuits with low power dissipation, useful in a variety of applications, including IoT/IoE devices.