By Ali M. Niknejad, Hossein Hashemi
mm-Wave Silicon expertise: 60GHz and Beyond covers silicon-based millimeter wave circuits and platforms. It presents intensive assurance of complex silicon processing applied sciences together with CMOS and SiGe in addition to modeling of lively and passive units on silicon at millimeter waves. It additionally offers assurance of mm-wave circuit development blocks resembling low noise amplifiers, mixers, voltage managed oscillators, frequency dividers, and tool amplifiers which are compatible for integration in silicon. The ebook comprises details on hugely built-in mm-wave transceiver architectures with a number of silicon-based case reviews. The booklet additionally comprises complex issues corresponding to antenna arrays and beam-forming on silicon.
The publication starts off by means of proposing the basic expertise scaling and device-level alterations that experience allowed mm-wave silicon functionality. It then covers severe front-end mm-wave construction blocks that in achieving excessive achieve, low noise, excessive strength, and reliable dynamic variety in low voltage silicon know-how. The publication culminates within the dialogue of phased-array platforms able to beam forming and exploiting spatial range for elevated throughput or range.
mm-Wave Silicon expertise: 60GHz and Beyond is written for training RF and analog circuit designers who're drawn to this becoming box. The chapters are self-contained and comprise brief tutorials on very important suggestions earlier than delving into details.
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Additional info for mm-Wave Silicon Technology: 60 GHz and Beyond
In security applications, passive (or active) mm-wave images of a person can be used to ﬁnd hidden weapons. In Fig. 13 we see that a hidden gun or knife is easily visible due to the difference in emissivity of the body and the object. While metal objects are easy to detect by other means, non-metallic objects are also visible, which is a great advantage of the technology. Unlike X-ray based imaging systems, which can only be used with limited dosage with living organisms, passive mmwave imaging does not use any additional radiation than what is naturally present.
Voltage controlled oscillators (VCOs), frequency dividers, and other key frequency synthesizer building blocks are covered in Chapter 6. Using these foundational building blocks, the book covers system aspects of mm-wave silicon design by addressing the realization of a beam-forming array in Chapter 7. References 1. C. Shannon, “A Mathematical Theory of Communication,” The Bell System Technical Journal, vol. 27, pp. 379-423, 623-656, July-October 1948. 2. S. Emami, C. H. Doan, A. M. Niknejad, and R.
Shoucri, P. Moffa, “Passvie mm-Wave Imaging,” IEEE Microwave Magazine, vol. 4, issue 3, pp. 39-50, Sept. 2003. 8. html. 9. edu/ Chapter 2 Silicon Technologies to Address mm-Wave Solutions Andreia Cathelin and John J. 1 Why Silicon? There are strong reasons not to consider silicon technologies for mm-wave applications. Silicon comes up short in many comparisons to III-V semiconductors. Silicon carrier mobility is relatively low and so device-level FOMs of raw performance appear to be inferior. The silicon bandgap is relatively small and so voltage tolerance tends to be lower.
mm-Wave Silicon Technology: 60 GHz and Beyond by Ali M. Niknejad, Hossein Hashemi