Integration of Passive RF Front-End Components in SoCs

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Author(s):	Darabi, Hooman
ISBN No.:	9780521111263
Pages:	200
Year:	201301
Format:	Trade Cloth (Hard Cover)
Price:	$ 161.46
Dispatch delay:	Dispatched between 7 to 15 days
Status:	Available

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Synopsis
Table of contents
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1. Introduction to highly integrated and tunable RF receiver front ends: 1.1. Introduction; 1.2. Front-end integration challenges and system requirements; 1.3. 2G receiver SAW elimination; 1.

4. 3G receiver SAW elimination; 1.5. Summary and conclusions; 2. Active blocker-cancellation techniques in receivers: 2.1. Introduction; 2.2.

Concept of receiver translational loop; 2.3. Nonideal effects; 2.4. Circuit implementations; 2.5. Measurement results; 2.6.

Feedback blocker-cancellation techniques; 2.7. Summary and conclusions; 3. Impedance transformation: Introduction to the simplest on-chip SAW filter; 3.1. Introduction; 3.2. Impedance transformation by a 50% passive mixer; 3.

3. Application as on-chip SAW filter; 3.4. Impact of harmonics on the sharpness of the proposed filter; 3.5. Differential implementation; 3.6. Summary and conclusions; 4.

Four-phase high-Q bandpass filters: 4.1. Introduction; 4.2. Impedance transformation by a four-phase filter; 4.3. Differential implementation of four-phase high-Q bandpass filter; 4.4.

Application as an on-chip SAW filter; 4.5. Impact of harmonics on the sharpness of the proposed filter; 4.6. Four-phase high-Q bandpass filter with a complex baseband impedance; 4.7. Four-phase high-Q bandpass filter with quadrature RF inputs; 4.8.

Harmonic upconversion and downconversion; 4.9. A SAW-less receiver with on-chip four-phase high-Q bandpass filters; 4.10. Summary and conclusions; 5. M-phase high-Q bandpass filters: 5.1. Introduction; 5.

2. Impedance transformation by M-phase filters; 5.3. Differential implementation of M-phase high-Q filter; 5.4. Application as an on-chip SAW filter; 5.5. Impact of harmonics on the sharpness of the M-phase bandpass filter; 5.

6. M-phase high-Q filter with complex baseband impedances; 5.7. M-phase high-Q bandpass filter with quadrature RF inputs; 5.8. M-phase high-Q bandpass filter with N-phase complex bandpass filters; 5.9. Harmonic upconversion; 5.

10. Summary and conclusions; 6. Design of a superheterodyne receiver using M-phase filters: 6.1. Introduction; 6.2. Proposed superheterodyne receiver architecture; 6.3.

Design and implementation of the receiver chain; 6.4. Measurement results; 6.5. Summary and conclusions; 7. Impact of imperfections on the performance of M-phase filters: 7.1. Introduction; 7.

2. Mathematical background; 7.3. LO phase noise; 7.4. Second-order nonlinearity in the switches of the bandpass filter; 7.5. Quadrature error in the original 50% duty-cycle clock phases; 7.

6. Harmonic downconversion; 7.7. Thermal noise of switches; 7.8. Parasitic capacitors of switches; 7.9. Switch charge injection; 7.

10. Mismatches; 7.11. Summary and conclusions; 8. M-phase filtering and duality: 8.1. Introduction; 8.2.

Dual of an electrical circuit; 8.3. Dual of M-phase filter; 8.4. Dual of M-phase high-Q filter with complex baseband impedances; 8.5. Summary and conclusions; Appendix; References; Index.

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