Text Corrections
Page 2, last sentence:
10% of $40 trillion is $4 trillion.
Page 61,
Fig. 2.8: The electron mobility
curve is not plotted correctly. Corrected Figure 2.8
Page 204, Fig. 4.23: The
drawing is incorrect – contact openings are missing and misalignment occurred
due to a computer composition error.
Corrected Figures
Page 209, Table 4.2:
First line should be K’n and K’p
Page 209, Exercise : The
first answer should be KP = 25 uA/V2
Page 228, The exercise
should refer to Fig. 4.35, and the Q-point is (2.22 uA, 2.96 mV)
Page 229, Figs. 4.36(a)
and (b): Source and drain labels,
S and D, are reversed.
Page 230, just below the
center of the page: … for which VGS = +2.71 V, -2.66 V
Page 230, next line: VGS
> -VTP ( = -1 V)
Page 261: Table 4.7 should
be Table 4.6.
Page 265: Table 4.8
should be Table 4.7.
Page 425: Eqs. 6.57 and
6.58 should both be preceded by a minus sign.
Page 475: Example 7.1:
The equation for Ronn is incorrect. The “1/2” term in the denominator should be 2VTN/(VDD-VTN) = 2(0.75)/(3.3) = 0.454. Then, Ronn = 1890 Ohms,
(W/L)n = 8.30/1, and (W/L)p = 20.8/1.
Page 476: The answers to
the exercise should be 7.03/1, 17.6/1 with Ronn = 2030 Ohms
Page 810: The words “low-pass” should not
appear above Fig. 12.6(b).
Page
1012, Table 14.10: The Common-gate
voltage gain expression should be +VDD.
Page
1042: Equation for C2 in middle of the page should be …<< 474
Ohms or C2 >> 672
pF
Page
1068, Eq. 15.1: vs
should be vi in the denominator of the fourth term in brackets.
Page
1343, Eq. 17.155: RO1 should be Ro1
Page
1344, Eq. 17.157: RO2 should be Ro2 and 54.2 should be
54.2 kOhms
Page 1363, Eq. 17.200: VO(t)
should be vO(t)
Page 1395, Eq. 18.36: Atr = yA21
/ [ yA21 yF12 - (GI +
yT11)( yT22 + gL)]
Page 1482, Table B.3: The units on mobility UO should
be cm2/v-s
Problem
Statements
15.45 Use the Fourier
analysis mode instead of distortion analysis in SPICE.
15.47 vic = 5 V exceeds the common-mode input range of the amplifier. Use RC = 240 k Ohms.
15.55 Use the Fourier
analysis mode instead of distortion analysis in SPICE.
15.67 Use the Fourier
analysis mode instead of distortion analysis in SPICE.
15.70 Use the Fourier
analysis mode instead of distortion analysis in SPICE.
15.139 Problem should refer to Fig. 15.57
15.140 Problem should refer to Fig.
15.58(a)-Use IS = IB = 2 mA and RB = 600 Ohms.
15.141 Problem should refer to Fig.
15.56(a)
15.142 Problem should refer to Fig.
15.56(b)
16.3 Problem should refer to Fig.
15.16(a).
16.7 Problem should refer to Fig.
15.16(b).
16.22
Use
bFO = 50 and VA
= 60 V
16.49
The
problem should refer to Figs. 16.19 and 16.22.
16.59 Use bFO = 50 and VA = 60
V
16.60 Use bFO = 50 and VA = 60
V
16.64 Problem should refer to
Fig. 16.82.
17.19 RS = 6.8 kOhms
17.20 RS = 10 kOhms
17.39 Use: s6 + 142s5 + 4757s4 +
58230s3 + 256950s2 + 398000s + 300000
17.45 Use VDD = 12 V and RD
= 10 kOhms
17.93
RC = 600 Ohms
18.18
RO should be Ro, and RID should be Rid
18.22
RS should be RI
18.34 “form” should be “for”
18.38 “output across ro2.”
18.52 (a)
Use the values in Problem 18.15
(b)
Use the values in Problem 18.30
(c)
Use the values in Problem 18.33
(d)
Use the values in Problem 18.21
18.101 Reference to Prob. 18.91 should be 18.100