This document contains the Errata for Design with Op Amps and Analog ICs.

Transcription

1 This document contains the Errata for Design with Op Amps and Analog ICs. The Errata are shown for the 4 th Edition, 3 rd Edition, and nd Edition, as follows: For the 4 th Edition Errata, scroll down to Page. For the 3 rd Edition Errata, scroll down to Page 3. For the nd Edition Errata, scroll down to Page 4. If you find any additional errata, please let me know, so I can update this document. My is: sfranco@sfsu.edu Thanks, Sergio Franco 4 th Edition 3 rd Edition nd Edition Errata for Design with Op Amps and Analog ICs Page 1 of 5

2 Design with Operational Amplifiers and Analog Integrated Circuits 4 th Edition Sergio Franco San Francisco State University McGraw-Hill Education, ISBN First-Printing Errata (Updated July 4, 017) Page 6, line before Eq. (1.49): append text as follows: but with respect to b, we get, for L sufficiently large, Page 38, Eqs. (1.70) and (1.71); page 39, Eqs. (1.75a), (1.75b), and (1.76); p. 85, Eq. (6.17a): change the denominator term (R 1 + r o )/r d to (R + r o )/r d throughout. Page 31, Example 6.17, nd line: change Example 6.15 to Example Page 584, Fig : change the rightmost part of the Q waveform as shown below in red: Page 584, starting at the 6 th line from the bottom: change intervene, the converter adjusts D so as to move the average current I L up or down until the condition I L = I O is met. to intervene, the average current I L will move up or down until the condition I L = I O is reestablished. Errata for Design with Op Amps and Analog ICs Page of 5

3 Design with Operational Amplifiers and Analog Integrated Circuits 3 rd Edition Sergio Franco - McGraw-Hill, 00 - ISBN First-Printing Errata (Updated January 7, 016) Page 35, Solution (a), second line should be as: V/V; R n = ( )/( ) 0.5 Ω; Page 47, Problem 1.3, 1 st line: change A oc to A r Page 104, Fig. P.54: swap the resistance labels R and R( 1+ δ ) Page 113, Eq. (3.11a): change H 1 H to H 1 / H Page 114, Eq. (3.13c): change 1/H 1 to 1/H Page 137, Example 3.11, Solution (b): change to (twice), and to (twice) Page 145, expression for V HP /V i in the 3 rd line after Eq. (3.78): rewrite as R4R6C1R 7C s VHP R5 R5 = V (1 5 / 3 5 / 4 ) i R R R C R C R R C + R R + R R s + s + 1 R R (1 + R / R ) Page 16, Fig. 4.b: change arrow as shown on the right: Page 16, text preceding Eq. (4.): change b to b 1, and change b 3 to b = b 3 Page 05, Problem 4.8, nd line from the end: change Hz to khz Page 85, Eq. (6.38), last denominator term: change (f/f t ) 4 to +(f/f t ) 4 Page 95, nd line: change 10 dec/dec to 1 dec/dec Page 351, last line: change ( 5 1) to ( 5 ) Page 35, right edge of Fig. 8.4 (b): change 45 to 45 Page 358, Fig. 8.9: swap + and inside the op amp Page 36, Solution: change f x = 10 7 /( ) to f x = 10 7 /( ) Page 363, after Eq. (8.0a): change 1/πR C f to (1 + R 1 /R )/(πr C f ) Page 364, Solution (b): change 1/πR C f 140 khz to (1 + R 1 /R )/(πr C f ) 10 khz; in the denominator of A(jf), change 140 to 10 Page 385, line after Eq. (8.36): change Problem 8.46 to Problem 8.48; Example 8.16, second line: change 99 k to 99 kω Page 386, 4 th line: change a 0 = a 01 ( ) to a 0 = a 10 ( ) Page 451, expression after Eq. (10.): change exp[(t t 0 ) to exp[ (t t 0 ). Ditto in the text 5 lines further down Page 488, 4 th line: change 73. K to 98. K Page 5, Solution, 3 rd line: change V BE3(on) /(R 3 + R 4 ) to V BE3(on) /R 4 ; 4 th line: change 160 Ω to 10 Ω, and 540 Ω to 700 Ω Page 541, 3 rd line before Eq. (11.46): change to t OFF / to to t ON + t OFF / ; Eq. (11.48): change numerator from I O (1 V I /V O ) to I O /(1 V I /V O ) Errata for Design with Op Amps and Analog ICs Page 3 of 5

4 Design with Operational Amplifiers and Analog Integrated Circuits nd Edition Sergio Franco - WCB/McGraw-Hill, ISBN First-Printing Errata (Updated September 15, 1999) Page 16, 8 th and 6 th line from bottom: change -4 V to -6 V Page 30, Fig. 1.6b: interchange + and inside op amp Page 60, Eq. (.): change R to R Page 64, change Eq. (.7) as: A = (1/R) (a R/r d ) / (1 + a + r o /R + r o /r d ) Page 66, Fig..8a: change 3 kω to 4.4 kω Page 89, Eq. (.4a): change R to R Page 98, Prob..8, 3d line: change anode to cathode Page 100, 1 st line: change.11 to.1 Page 101, Fig. P.34: interchange v 1 and v ; interchange + and inside OA 1 and OA 3 ; change the label of the 30-kΩ resistance from R to R 3 Page 106, bottom line, should read: Arg(H) = t 0 ω, where t 0 is a Page 10, numerator of Eq. (3.9a): drop 1 + ; denominator of Eq. (3.9b): drop π Page 1, 4 th line after Tape Preamplifier: change R to R 1 Page 19, put the denominator of Eq. (3.46b) under a radical Page 137, nd line of the Solution: change to 11.5; 3 rd line: change 69.8 to 11.3 Page 140, denominator of Q in Eq. (3.69): replace K with K Page 141, nd line of Solution: replace K with K; 3 rd line: replace.9 kω with 9.53 kω Page 143, line before Eq. (3.74): change H 0BP H BP to H 0LP H LP Page 15, Eq. (3.95b): replace ½ with Page 154, Fig. P3.3: change R to C, and C to R ; Prob. 3.4, nd line: change upperleft to upper-right Page 156, Prob. 3.0, nd line: change H 0LP to H 0HP and H LP to H HP ; 3 rd line: change R 1 to R and R to R 1 Page 157, Prob. 3.4, nd line: interchange R 1 and R ; Prob. 3.7: change f 0 = 1/ RC to ω 0 = /RC Page 180, nd line: change R to R 3 Page 06, Prob. 4.3: change seventh-order to seventh-order, 0.5-dB Page 49, Prob. 5.19, 3 rd line: change 1 MHz to 10 khz Prob. 5.0, 4 th line: change CMRR OA(min) to (1/)CMRR OA(min) Page 50, Prob. 5.7: change data as follows: (a) v = 0.75 V, (b) v = 0.30 V, (c) v = 1.70 V, (d) v = 0.5 V Page 76, Eq. (6.3): change f t to f a and f a to f t Page 77, Solution: insert in A 0 = (1 + R /R 1 )R = 1 V/µA, and in A(jf) = 10 6 V/A... Page 88, Eq. (6.38): in the last numerator change ( j f / f t ) 3 t o j(f/f t ) 3 Page 89, Fig. 6.7b: change rightmost R to R 1 Page 306, Prob. 6., nd line: change 68 o to 58 o Errata for Design with Op Amps and Analog ICs Page 4 of 5

5 Page 310, Fig. P6.39: change uppermost resistance from R 1 to R ; Fig. P6.40: change uppermost resistance from R to R 1 Page 336, 3 rd line: change E noe 3 to E noe 3 Page 345, Prob. 7., d line: change NEB HP to Q NEB BP Page 347, Prob. 7.19, 4 th line: change 4kT(R G //R 3 ) to 4kT(R G //R 3 ); Prob. 7.0, nd line: change 7.17 to 7.19 ; Prob. 7.4, nd line: change 1/ to ½ Page 348, Fig. P7.34: change R 1, R, R n to R Page 36, 1 st line: change j f [ π to jf/[π; Figs. 8.10b and 8.13b: change 1 β to 1 β Page 377, line above Eq. (8.9): replace r o with r o = 0 Page 393, Prob. 8., 3 rd line: change T 0 o T; Prob. 8.3, 5 th line: change parts (a) and (b) to parts (b) and (c) Page 394, Prob. 8.1, 1 st line: change Fig. 8.8a to Example 8.; Prob. 8.15, 1 st line: change R /R to R /R 1 Page 395, Prob. 8.7, 3 rd line: change 10 V/V to 100 V/V Page 397, Prob. 8.44, 1 st line: change R H LP to R H LP ; nd and 3 rd lines: change as follows: f 0 = z0 f a / π rn RCn and Q = z 0 fa /( rn + R ) f 0 Page 398, Prob. 8.51, 4 th line: change as follows: 1/(1 + 1/T) = ( 1 + jf/β f t )/(1 + j f /β f t 1 f / β f t 1 β f t ) Page 4, Eq. (9.14): in the last numerator change V TH to V TL Page 458, Fig. 10.5: change R from 1.0 kω to.1 kω Page 480, Fig. 10.4a: make C =. nf and R = 90.9 kω Page 497, Fig. P10.3: interchange + and inside OA ; Prob. 10.4, nd line: change 10 V to 5 V Page 498, Prob. 10.1, 1 st line: change Fig a to Fig. 10.1a Page 500, Prob. 10.8, 4 th line: change Eq. (10.4) to Eq. (10.1) Page 545 & 547, Eqs. (11.45) & (11.48): change + to Page 610, Prob. 10, nd line: change a 10-bit to a dual 10-bit Page 614, Eq. (13.6) and following line: change I OS to I B Page 643, Fig. 13.7b: change π to π Page 648, 6 th line of the Solution: change s -1 to (rad/s)/v Errata for Design with Op Amps and Analog ICs Page 5 of 5