Download or read book Millimeter wave Silicon based Ultra wideband Automotive Radar Transceivers written by Vipul Jain and published by . This book was released on 2009 with total page 163 pages. Available in PDF, EPUB and Kindle. Book excerpt: Since the invention of the integrated circuit, the semiconductor industry has revolutionized the world in ways no one had ever anticipated. With the advent of silicon technologies, consumer electronics became light-weight and affordable and paved the way for an Information Communication-Entertainment age. While silicon almost completely replaced compound semiconductors from these markets, it has been unable to compete in areas with more stringent requirements due to technology limitations. One of these areas is automotive radar sensors, which will enable next-generation collision warning systems in automobiles. A low-cost implementation is absolutely essential for widespread use of these systems, which leads us to the subject of this dissertation--silicon-based solutions for automotive radars. This dissertation presents architectures and design techniques for mm-wave automotive radar transceivers. Several fully-integrated transceivers and receivers operating at 22-29 GHz and 77-81 GHz are demonstrated in both CMOS and SiGe BiCMOS technologies. Excellent performance is achieved indicating the suitability of silicon technologies for automotive radar sensors. The first CMOS 22-29-GHz pulse-radar receiver front-end for ultra-wideband radars is presented. The chip includes a low noise amplifier, I/Q mixers, quadrature voltage-controlled oscillators, pulse formers and variable-gain amplifiers. Fabricated in 0.18-um CMOS, the receiver achieves a conversion gain of 35 38.1 dB and a noise figure of 5.5 7.4 dB. Integration of multi-mode multi-band transceivers on a single chip will enable next-generation low-cost automotive radar sensors. Two highly-integrated silicon ICs are designed in a 0.18-um BiCMOS technology. These designs are also the first reported demonstrations of mm-wave circuits with high-speed digital circuits on the same chip. The first mm-wave dual-band frequency synthesizer and transceiver, operating in the 24-GHz and 77-GHz bands, are demonstrated. All circuits except the oscillators are shared between the two bands. A multi-functional injection-locked circuit is used after the oscillators to reconfigure the division ratio inside the phase-locked loop. The synthesizer is suitable for integration in automotive radar transceivers and heterodyne receivers for 94-GHz imaging applications. The transceiver chip includes a dual-band low noise amplifier, a shared downconversion chain, dual-band pulse formers, power amplifiers, a dual-band frequency synthesizer and a high-speed programmable baseband pulse generator. Radar functionality is demonstrated using loopback measurements.

Download or read book Automotive Radar Sensors in Silicon Technologies written by Vipul Jain and published by Springer Science & Business Media. This book was released on 2012-09-26 with total page 102 pages. Available in PDF, EPUB and Kindle. Book excerpt: One of the leading causes of automobile accidents is the slow reaction of the driver while responding to a hazardous situation. State-of-the-art wireless electronics can automate several driving functions, leading to significant reduction in human error and improvement in vehicle safety. With continuous transistor scaling, silicon fabrication technology now has the potential to substantially reduce the cost of automotive radar sensors. This book bridges an existing gap between information available on dependable system/architecture design and circuit design. It provides the background of the field and detailed description of recent research and development of silicon-based radar sensors. System-level requirements and circuit topologies for radar transceivers are described in detail. Holistic approaches towards designing radar sensors are validated with several examples of highly-integrated radar ICs in silicon technologies. Circuit techniques to design millimeter-wave circuits in silicon technologies are discussed in depth.

Download or read book mm Wave Silicon Technology written by Ali M. Niknejad and published by Springer Science & Business Media. This book was released on 2008-01-03 with total page 313 pages. Available in PDF, EPUB and Kindle. Book excerpt: This book compiles and presents the research results from the past five years in mm-wave Silicon circuits. This area has received a great deal of interest from the research community including several university and research groups. The book covers device modeling, circuit building blocks, phased array systems, and antennas and packaging. It focuses on the techniques that uniquely take advantage of the scale and integration offered by silicon based technologies.

Download or read book Silicon based RF MMW Integrated Circuits for GBPS Wireless Communication Automotive Radar and Imaging written by Lei Zhou and published by . This book was released on 2010 with total page 119 pages. Available in PDF, EPUB and Kindle. Book excerpt: Silicon-based integrated circuits used in the wireless technology have a great impact on our world. Moreover, such trend is continuing with ever-decreasing size of transistors. High speed wireless communication links are expected to become popular within most mobile devices in the next few years. On the other side, millimeter-wave (MMW) frequency has always been the terrain dominated by III-V compound semiconductor technology. However, the cost and low manufacturing yield of such systems prevent its commercialized use for new exciting applications, such as automotive intelligent system and imaging for public security and medical application. As the technology scaling in silicon, the increasing process ft and higher level of integration are promising to build lower cost, smaller sized MMW systems. This dissertation is following the goal to design and implement several prototype silicon-based integrated circuits at different technology nodes to address the key challenges faced by silicon both in circuit- and system-levels, therefore pave the path towards the fully-integrated systems for those emerging applications. A carrier-less RF-correlation-based impulse radio ultra-wideband (IR-UWB) transceiver front-end designed in 130nm CMOS process is presented. Timing synchronization and coherent demodulation are implemented directly in the RF domain. In order to solve the extremely large dynamic requirement of delay for RF synchronization, a template-based delay generation scheme is proposed and a 25ps timing resolution is achieved with a delay range of 500ps by a two-step timing synchronizer. The TRX achieves a maximum data rate of 2Gbps, while requiring only 51.5pJ/pulse in the TX mode and 72.9pJ/pulse in the RX mode. Finally a W-band receiver chipset for passive millimeter-wave imaging in a 65-nm standard CMOS technology is presented. The receiver design addresses the high 1/f noise issue in the advanced CMOS technology. An LO generation scheme is proposed to make it suitable for use in multi-pixel systems. In addition, the noise performance of the receiver is further improved by optimum biasing of transistors of the detector to achieve the highest responsivity and lowest NEP. The receiver chipset achieves a Dicke NETD of 0.52K, demonstrating the potential of CMOS for future low-cost portable passive imaging cameras.

Download or read book Power and Area Optimization Techniques for Ultra wideband Millimeter wave CMOS Transceivers written by Venumadhav Bhagavatula and published by . This book was released on 2013 with total page 127 pages. Available in PDF, EPUB and Kindle. Book excerpt: Over the past decade, opportunities for utilizing the broadband spectrum available at millimeter-wave (mm-wave) frequencies has motivated research on both short and long-range, highly-integrated complementary metal oxide semiconductor (CMOS) transceivers. Prototype mm-wave CMOS transceivers have been demonstrated for application in high-speed data transfer (57-64 GHz), wireless back-haul (71-76 GHz), automotive radar (77GHz) and medical imaging (90 GHz) systems. However, in spite of promising results, large scale deployment of mm-wave CMOS transceivers in portable and hand-held electronics is currently hindered by front-end power-consumptions on the order of several watts. Moreover, as a first order approximation, power consumption is directly proportional to system bandwidth. Therefore, as the bandwidth requirements of systems increase, the challenge with on-chip power consumption will become increasingly difficult to solve. In this dissertation, techniques for optimizing the power and area of ultra-wideband millimeter-wave transceivers are described. This work resulted in the fabrication of three mm-wave integrated circuits (IC), all of which were realized in a 6-metal layer 40-nm CMOS process. The first IC is a multi-stage transformer-feedback based 11-to-13 GHz direct-conversion receiver. The device achieves a 16% fractional-bandwidth, a peak power-gain of 27.6dB, and noise-figure of 5.3dB while consuming 28.8mW from a 0.9V supply. Second, a compact 24-54GHz 2-stage bandpass distributed amplifier utilizing mirror-symmetric Norton transformations to reduce inductor component values allowing efficient layout to occupy an active area of 0.15mm2. The device has a 77% fractional-bandwidth, an overall gain of 6.3dB, a minimum in-band IIP3 of 11dBm, while consuming 34mA from a 1V supply. The third, and the IC which includes the most integration among the three, is an ultra-broadband single-element heterodyne receiver intended for use in low-power phased-array systems. The receiver maintains 17GHz of bandwidth from the mm-wave front end, through a high-IF stage, and to the baseband output. The device occupies 1.2mm2 and exploits properties of gain-equalized transformers throughout the signal path to achieve an overall 17GHz bandwidth 20dB gain with a flat in-band response, 7.8dB DSB NF, and a P[subscript-1dB] of -24dBm, while consuming 104mW off a 1.1V supply.

Download or read book State of the Art of Millimeter Wave Silicon Technology written by Jaco du Preez and published by Springer Nature. This book was released on 2022-09-20 with total page 165 pages. Available in PDF, EPUB and Kindle. Book excerpt: This book examines the critical differences between current and next-generation Si technologies (CMOS, BiCMOS and SiC) and technology platforms (e.g. system-on-chip) in mm-wave wireless applications. We provide a basic overview of the two technologies from a technical standpoint, followed by a review of the state-of-the-art of several key building blocks in wireless systems. The influences of system requirements on the choice of semiconductor technology are vital to understanding the merits of CMOS and BiCMOS devices – e.g., output power, battery life, adjacent channel interference, cost restrictions, and so forth. These requirements, in turn, affect component-level design and performance metrics of oscillators, mixers, power and low-noise amplifiers, as well as phase-locked loops and data converters. Finally, the book offers a peek into the next generation of wireless technologies such as THz -band systems and future 6G applications.

Download or read book mm Wave Silicon Power Amplifiers and Transmitters written by Hossein Hashemi and published by Cambridge University Press. This book was released on 2016-04-04 with total page 471 pages. Available in PDF, EPUB and Kindle. Book excerpt: Build high-performance, spectrally clean, energy-efficient mm-wave power amplifiers and transmitters with this cutting-edge guide to designing, modeling, analysing, implementing and testing new mm-wave systems. Suitable for students, researchers and practicing engineers, this self-contained guide provides in-depth coverage of state-of-the-art semiconductor devices and technologies, linear and nonlinear power amplifier technologies, efficient power combining systems, circuit concepts, system architectures and system-on-a-chip realizations. The world's foremost experts from industry and academia cover all aspects of the design process, from device technologies to system architectures. Accompanied by numerous case studies highlighting practical design techniques, tradeoffs and pitfalls, this is a superb resource for those working with high-frequency systems.

Download or read book Millimeter Wave Circuits for 5G and Radar written by Gernot Hueber and published by Cambridge University Press. This book was released on 2019-06-20 with total page 455 pages. Available in PDF, EPUB and Kindle. Book excerpt: Discover the concepts, architectures, components, tools, and techniques needed to design millimeter-wave circuits for current and emerging wireless system applications. Focusing on applications in 5G, connectivity, radar, and more, leading experts in radio frequency integrated circuit (RFIC) design provide a comprehensive treatment of cutting-edge physical-layer technologies for radio frequency (RF) transceivers - specifically RF, analog, mixed-signal, and digital circuits and architectures. The full design chain is covered, from system design requirements through to building blocks, transceivers, and process technology. Gain insight into the key novelties of 5G through authoritative chapters on massive MIMO and phased arrays, and learn about the very latest technology developments, such as FinFET logic process technology for RF and millimeter-wave applications. This is an essential reading and an excellent reference for high-frequency circuit designers in both academia and industry.

Download or read book Deep Sub micron RF CMOS Design and Applications of Modern UWB and Millimeter wave Wireless Transceivers written by Domenico Pepe and published by . This book was released on 2009 with total page 0 pages. Available in PDF, EPUB and Kindle. Book excerpt: The research activity carried out during this PhD consists on the design of radio- frequency integrated circuits, for ultra-wideband (UWB) and millimeter-wave sys- tems, and covers the following topics: (i) radio-frequency integrated circuits for low-power transceivers for wireless local networks; (ii) fully integrated UWB radar for cardio-pulmonary monitoring in 90nm CMOS technology; (iii) 60-GHz low noise amplifer (LNA) in 65nm CMOS technology.

Download or read book Silicon based Millimeter wave Circuits for W band Applications written by Chun-Cheng Wang and published by . This book was released on 2012 with total page 115 pages. Available in PDF, EPUB and Kindle. Book excerpt: Historically, monolithic microwave integrated circuits (MMICs) have been designed using III-V semiconductor technologies, such as GaAs and InP. In recent years, the number of publications reporting silicon-based millimeter-wave (mm-wave) transmitter, receivers, and transceivers has grown steadily. For mm-wave applications including gigabit/s point-to-point links (57-64 GHz), automotive radar (77-81 GHz) and imaging (94 GHz) to reach mainstream market, the cost, size and power consumption of silicon-based solution has to be significantly below what is being achieved today using compound semiconductor technology. This dissertation focuses the effort of designing and implementing silicon-based solutions through circuit- and system-level innovation for applications in the W-band frequency band (75-110GHz), in particular, 94GHz passive imaging band. A W-band front-end receiver in 65nm CMOS based entirely on slow-wave CPW (SW-CPW) with frequency tripler as the LO is designed and measured. The receiver achieves a total gain of 35-dB, -3dB-BW of 12 GHz, a NF of 9-dB, a P1-dB of -40dBm, a low power consumption of 108mW under 1.2/0.8V. This front-end receiver chipset in conjuction with an analog back-end can be used to form a radiometer. Leveraging the work done in 65nm CMOS, the first integrated 2x2 focal-plane array (FPA) for passive imaging is implemented in a 0.18um SiGe BiCMOS process (fT/fmax=200/180GHz). The FPA incorporates four Dicke-type receivers. Each receiver employs a direct-conversion architecture consisting of an on-chip slot dipole antenna, an SPDT switch, a lower noise amplifier, a single-balanced mixer, an injection-locked frequency tripler (ILFT), a zero-IF variable gain amplifier, a power detector, an active bandpass filter and a synchronous demodulator. The LO signal is generated by a shared Ka-band PLL and distributed symmetrically to four ILFTs. This work demonstrates the highest level of integration of any silicon-based systems in the 94GHz imaging band. Finally, the main design bottleneck of any wireless transceiver system, the frequency synthesizer/phase-locked loop is investigated. Two monolithically integrated W-band frequency synthesizers are presented. Implemented in a 0.18um SiGe BiCMOS, both architectures incorporate the same 30.3-33.8GHz PLL core. One synthesizer uses an injection-locked frequency tripler (ILFT) with locking range of 92.8-98.1GHz and the other employ a harmonic-based frequency tripler (HBFT) with 3-dB bandwidth of 10.5GHz from 90.9-101.4GHz, respectively. The frequency synthesizer is suitable for integration in mm-wave phased array and multi-pixel systems such as W-band radar/imaging and 120GHz Gb/s communication.

Download or read book Ultra Wideband written by Ranjit Gharpurey and published by Springer Science & Business Media. This book was released on 2008-03-06 with total page 207 pages. Available in PDF, EPUB and Kindle. Book excerpt: This book is a compilation of chapters on various aspects of Ultra Wideband. The book includes chapters on Ultra Wideband transceiver implementations, pulse-based systems and one on the implementation for the WiMedia/MBOFDM approach. Another chapter discusses the implementation of the physical layer baseband, including the ADC and post-ADC processing required in the UWB system. Future advances such as multiantenna UWB solutions are also discussed.

Download or read book Silicon Germanium Heterojunction Bipolar Transistors for Mm wave Systems Technology Modeling and Circuit Applications written by Niccolò Rinaldi and published by CRC Press. This book was released on 2022-09-01 with total page 377 pages. Available in PDF, EPUB and Kindle. Book excerpt: The semiconductor industry is a fundamental building block of the new economy, there is no area of modern life untouched by the progress of nanoelectronics. The electronic chip is becomingan ever-increasing portion of system solutions, starting initially from less than 5% in the 1970 microcomputer era, to more than 60% of the final cost of a mobile telephone, 50% of the price of a personal computer (representing nearly 100% of the functionalities) and 30% of the price of a monitor in the early 2000’s.Interest in utilizing the (sub-)mm-wave frequency spectrum for commercial and research applications has also been steadily increasing. Such applications, which constitute a diverse but sizeable future market, span a large variety of areas such as health, material science, mass transit, industrial automation, communications, and space exploration.Silicon-Germanium Heterojunction Bipolar Transistors for mm-Wave Systems Technology, Modeling and Circuit Applications provides an overview of results of the DOTSEVEN EU research project, and as such focusses on key material developments for mm-Wave Device Technology. It starts with the motivation at the beginning of the project and a summary of its major achievements. The subsequent chapters provide a detailed description of the obtained research results in the various areas of process development, device simulation, compact device modeling, experimental characterization, reliability, (sub-)mm-wave circuit design and systems.

Download or read book Digitally Assisted Fully Integrated Wideband Transmitters for High Speed Millimeter Wave Wireless Communication Links written by David del Rio and published by Springer. This book was released on 2018-07-07 with total page 269 pages. Available in PDF, EPUB and Kindle. Book excerpt: This book presents design methods and considerations for digitally-assisted wideband millimeter-wave transmitters. It addresses comprehensively both RF design and digital implementation simultaneously, in order to design energy- and cost-efficient high-performance transmitters for mm-wave high-speed communications. It covers the complete design flow, from link budget assessment to the transistor-level design of different RF front-end blocks, such as mixers and power amplifiers, presenting different alternatives and discussing the existing trade-offs. The authors also analyze the effect of the imperfections of these blocks in the overall performance, while describing techniques to correct and compensate for them digitally. Well-known techniques are revisited, and some new ones are described, giving examples of their applications and proving them in real integrated circuits.

Download or read book Millimeter wave radar Sensor Based on a Transceiver Array for Automotive Applications written by and published by . This book was released on 2008 with total page pages. Available in PDF, EPUB and Kindle. Book excerpt:

Download or read book Wideband Millimeter wave Integrated Circuits and Systems for High Speed Point to point Link and Automotive Radar Applications written by Austin Ying-Kuang Chen and published by . This book was released on 2010 with total page pages. Available in PDF, EPUB and Kindle. Book excerpt: A 68-82 GHz highly integrated, wideband linear receiver is demonstrated. The receiver achieves a maximum gain of 28.1 dB, a NF of 8 dB, and an input-referred 1 dB gain compression point (IP1dB) of -23.6 dBm at 77 GHz while dissipating 413 mW. The receiver enables applications within the band to share and reuse the same front-end chip. To further explore the opportunity at higher frequency, an 81-92.6 GHz low-noise amplifier is demonstrated with a gain of 21 dB, a NF of 9 dB, and an IP1dB of -18.8 dBm. On the other hand, critical transmitter building blocks, such as an up-conversion mixer has also been investigated. A highly linear double-balanced active up-conversion mixer based upon multi-tanh triplet technique has been validated to show a single sideband (SSB) power conversion gain of 5.1 dB and an output-referred 1 dB gain compression point (OP1dB) of -5.8 dBm at 77 GHz. Finally, a high-power signal generation at submillimeter-wave is demonstrated and fabricated in InGaAs/InP D-HBT technology. The second harmonic push-push oscillator shows an output power of 0 dBm at 200 GHz, which opens a new frontier for applications, such as weather observation radar, chemical, and tumor detections, and next-generation optical systems. By using an even higher order harmonic generation, THz signal sources can be expected in the very near future.

Download or read book Advanced Silicon MMICs for mm Wave Automotive Radar Front Ends written by Alexander Kravets and published by Cuvillier Verlag. This book was released on 2015-06-12 with total page 175 pages. Available in PDF, EPUB and Kindle. Book excerpt: This work presents a high-linearity automotive radar front-end at 77 GHz in 0.25 μm SiGe technology. The passive elements were realized using thin-film microstrip lines. A detailed transformer balun synthesis procedure was developed. The realized passive baluns (“rat-race” and transformer) show excellent commonmode rejection ratios exceeding 30 dB and low losses of 2.5 dB. On the active side, a low-gain, high-linearity single stage common-emitter LNA was realized. The selected topology allowed finer trade-off between linearity and sensitivity of the front-end compared to multi-stage LNA solutions. For the mixer, a low-voltage supply, high-linearity, low-noise double-balanced concept was employed. It uses AC-coupling between the two stages, which allowed an independent optimization of transconductance, core sizing, and bias. The transconductance was designed for best noise performance, while the core was chosen for maximum linearity. A high-fidelity two-channel receiver was realized using these circuit components, which achieved a performance comparable to the published state-of-the-art results in SiGe: Single sideband noise figure better than 16.5 dB, 1 dB compression point exceeding -12 dBm, while consuming moderate 82 mA DC current from a 1.6 V supply for both channels.

Download or read book Substrate Integrated Millimeter Wave Antennas for Next Generation Communication and Radar Systems written by Zhi Ning Chen and published by John Wiley & Sons. This book was released on 2021-04-29 with total page 322 pages. Available in PDF, EPUB and Kindle. Book excerpt: Substrate-Integrated Millimeter-Wave Antennas for Next-Generation Communication and Radar Systems The first and only comprehensive text on substrate-integrated mmW antenna technology, state-of-the-art antenna design, and emerging wireless applications Substrate-Integrated Millimeter-Wave Antennas for Next-Generation Communication and Radar Systems elaborates the most important topics related to revolutionary millimeter-wave (mmW) technology. Following a clear description of fundamental concepts including substrate-integrated waveguides and loss analysis, the text treats key design methods, prototyping techniques, and experimental setup and testing. The authors also highlight applications of mmW antennas in 5G wireless communication and next-generation radar systems. Readers are prepared to put techniques into practice through practical discussions of how to set up testing for impedance matching, radiation patterns, gain from 24GHz up to 325 GHz, and more. This book will bring readers state-of-the-art designs and recent progress in substrate-integrated mmW antennas for emerging wireless applications. Substrate-Integrated Millimeter-Wave Antennas for Next-Generation Communication and Radar Systems is the first comprehensive text on the topic, allowing readers to quickly master mmW technology. This book: Introduces basic concepts such as metamaterials Huygens's surface, zero-index structures, and pattern synthesis Describes prototyping in the form of fabrication based on printed-circuit-board, low-temperature-co-fired-ceramic and micromachining Explores applications for next-generation radar and imaging systems such as 24-GHz and 77-GHz vehicular radar systems Elaborates design methods including waveguide-based feeding network, three-dimensional feeding structure, dielectric loaded aperture antenna element, and low-sidelobe synthesis The mmW is one of today’s most important emerging technologies. This book provides graduate students, researchers, and engineers with the knowledge they need to deploy mmW systems and develop new antenna designs with low cost, low loss, and low complexity.