Design of Analog CMOS Integrated CircuitsThe CMOS technology are has quickly grown calling for a new text---and here it is covering the analysis and design of CMOS integrated circuits that practicing engineers need to master to succeed. Filled with many examples and chapter-ending problems the book not only describes the thought process behind each circuit topology but also considers the rationale behind each modification. The analysis and design techniques focus on CMOS circuits but also apply to other IC technologies.Design of Analog CMOS Integrated Circuits deals with the analysis and design of analog CMOS integrated circuits emphasizing recent technological developments and design paradigms that students and practicing engineers need to master to succeed in today's industry. Based on the author's teaching and research experience in the past ten years the text follows three general principles: (1) Motivate the reader by describing the significance and application of each idea with real-world problems; (2) Force the reader to look at concepts from an intuitive point of view preparing him/her for more complex problems; (3) Complement the intuition by rigorous analysis confirming the results obtained by the intuitive yet rough approach. |
Contents
| 1 | |
| 7 | |
3 SingleStage Amplifiers | 45 |
4 Differential Amplifiers | 100 |
5 Current Mirrors and Biasing Techniques | 134 |
6 Frequency Response of Amplifiers | 173 |
7 Noise | 219 |
8 Feedback | 274 |
12 Bandgap References | 509 |
13 Introduction to SwitchedCapacitor Circuits | 539 |
14 Nonlinearity and Mismatch | 576 |
15 Oscillators | 607 |
16 PhaseLocked Loops | 651 |
17 ShortChannel Effects and Device Models | 691 |
18 CMOS Processing Technology | 712 |
19 Layout and Packaging | 733 |
9 Operational Amplifiers | 344 |
10 Stability and Frequency Compensation | 410 |
11 Nanometer Design Studies | 459 |
Index | 774 |
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Common terms and phrases
amplifier analog analog circuits assume bandwidth bias current Calculate capacitance capacitor cascode channel-length modulation Chapter circuit of Fig circuit shown closed-loop CMOS common-mode common-source stage constant current mirror current source depicted in Fig differential pair drain current equal example feedback network Figure frequency gate hence illustrated in Fig input-referred noise Iout IREF KVCO load loop gain M1 and M2 mismatch MOSFET n-well NMOS node noise voltage nonlinearity open-loop open-loop gain oscillator output impedance output noise output resistance output swing output voltage overdrive voltage phase margin plot PMOS devices pole resistor saturation shown in Fig signal small-signal Solution source follower substrate tail current thermal noise topology transconductance transfer function transistors triode region Vcont VGS1 Vin,CM Vin1 Vin2 voltage gain voltage swing Vout Vout Vin Vout1 Vout2 VT H zero