ERRATA fr RF and Micrwave Design: A Systems Apprach, Secnd Editin, First Printing by Michael Steer, 2013. Pages with crrectins: 2, 4, 31, 36, 37, 46, 49, 50, 73, 94, 95, 96, 126, 147, 153, 154, 195, 196, 207, 237, 256, 279, 293, 295, 296, 302, 303, 317, 337, 347, 398, 399, 400, 428, 430, 453, 495, 524, 537, 550, 609, 626, 627, 631, 635, 643, 653, 666, 682, 686, 767, 838, 859, 860, 872, 916, 981, 1028, 1056, 1127, 1128 (55 pages) Recent Crrectins Oct. 16, 2016 Page 398, Equatin (8.180), Replace (37.5 45)/(37.5+45) = 0.09091 by (40 45)/(40+45) = 0.05263 Oct. 16, 2016 Page 398, Replace Equatin (8.180) by R Lc = V c/i c = ½(V 1 + V 2)/ I c = ¼(R 1 + R 2) = 40 Ω. Oct. 16, 2016 Page 398, Replace equatin befre Equatin (8.180) by V 1 = ½I cr 1, V 2 = ½I cr 2 Oct. 16, 2016 Page 398, Part (c), Line 4, Change vltage, V c, applied acrss t current, I c, t Oct. 16, 2016 Page 398. Figure 8-30(d). Change tp V c t V 1. Change bttm V c t V 2. Oct. 16, 2016 Page 399, Delete Example 8.9 Sep. 29, 2016 Page 347, Exercise 7.4, Last line, Change 70 t 240 Sep. 16, 2016 Page 207, Example 5.2, Line 2, Delete and the wavelength is 40 cm Sep. 16, 2016 Page 237, Equatin abve (5.122), Change 8.78 ma t 5.48 ma Sep. 16, 2016 Page 237, Equatin abve (5.122), Change 0.881 t 0.0881 Aug. 19, 2016 Page 1127, Fr 1.4(b), Change 662.6 fj t 6.626 10 24 J Aug. 18, 2016 Page 1127, Fr 1.7, Change 3.25 t 3.75 Apr. 1, 2016 Page 303, Line fllwing Slutin: Change w = s t w = 500 µm, s Apr. 1, 2016 Page 303, Equatin (6.63), change 0.398 t 0.833 Apr. 1, 2016 Page 303, Equatin (6.64), change 94.5 t 45.1 Mar. 29, 2016 1 1 k / 1+ k Page 302, Equatin (6.60), Change π ln 2 t π ln 2 1 + k / 1 k
Jan. 28, 2016 Page 653, Add fllwing Equatin (14.7) when the available signal and image pwers at the input are the same. Errata By Page Number 2 Last line f ftnte f Table 1-1. Change EHz = 10 15 Hz t EHz = 10 18 Hz 4 Table 1-2, Line UHF, Clumn 3 wavelength, Change 10 1 t 100 10 31 Secnd line befre Equatin (2.1). Change RF t IF 36 Equatin (2.4). Change xt () t x 2 () t 37 Example 2.1, 4 th line f the slutin. Change x rms = 0.1+ 0.5 2 = 0.636. t ( ) 2 2 2 x = + = and s rms 0.367. rms 0.1 0.5 2 0.135 x = 46 Example 2.4, Equatin (2.36), change 0.5 t 0.05 49 Example 2.5, last line n page. Change 1.414 t 2 50 Equatin (2.40), Change PMEPR t PAPR 73 Table 2-4, Entry fr 32-QAM (ideal), Change 4 t 5 I 1 I I 1 = I 79 Example 2.10, line 7, Change = ( ) t ( ) ; 6 3 4 6 3 4 94 Exercise 1. Change PAR t PMEPR 95 Exercise 9, line 1. Change FM t PM 95 Exercise 13. Change xt () t yt () in parts (a) and (d) 96 Exercise 2.14(a), change PAR t PAPR 96 Exercise 2.14(b), change PAR t PAPR 126 Equatins (3.33) and (3.35), Change L LINK,LOS t L PATH,LOS 147 Sectin 4.2.3, line 10, change n receive channel t ne receive channel 153 Example 4.1, equatin shuld be Bm 10 MHz GP = = = 10 = 10 db B 1 MHz b 154 Equatin (4.5), change 11.32 db = 14.32 db t 10 db = 13 db 195 Exercise 17. Add t the end f (b). (Use a mdulatin efficiency f 2 b/s/hz.) 195 Exercise 18, line 3. Delete f 10 kbps 195 Exercise 18, last line. Change supprted? t supprted using ideal BPSK? 196 Prblem 22(c). Change 16 t 48 (twice) 196 Prblem 22(e). Change 2.7 t 2.98 207 Example 5.2, Line 2, Delete and the wavelength is 40 cm 237 Equatin abve (5.122), Change 8.78 ma t 5.48 ma 237 Equatin abve (5.122), Change 0.881 t 0.0881 255 End f first paragraph. Delete The quarter-wave transfrmer is als called an impedance inverter (r equivalently an admittance inverter). 256 Equatin (5.197). Change P t T 2 P T1 256 Equatin (5.195). Change P t T 2 P T1 279 Sectin 6.4.1, Line 11, Change mm t cm 293 Equatin (6.26) Change q = t q = 1 2 295 Line fllwing (6.36), Change < (63 t > (44 296 Line fllwing (6.38), Change > t <
296 Example 6.3, Slutin (a), line 3, Change (44 ε r ) [= (44 5.6)=38.4] t (44 2ε r ) [= (44 11.2)=32.8] 302 Equatin (6.58), Change ε eff t ε e 302 1 1 k / 1+ k Equatin (6.60), Change π ln 2 t π ln 2 1 + k / 1 k 303 Equatin (6.64), Change ε eff t ε e 303 Line fllwing Slutin: Change w = s t w = 500 µm, s 303 Equatin (6.63), change 0.398 t 0.833 303 Equatin (6.64), change 94.5 t 45.1 317 Sectin 7.2.4, Secnd paragraph, Line 1, Change δ t δ s 324 Captin f Figure 7-11, Line 9, Change 70 t 240 325 Captin f Figure 7-12, Line 8, Change 240 t 70 337 line befre Equatin (7.35), Change transient t transverse 347 Exercise 7.4, Last line, Change 70 t 240 347 Exercise 6(a). Change `magnetic t micrstrip 358 Equatin (8.9), change (V 1 + V 2) t (V 1 - V 2) 398 Equatin (8.180), Replace (37.5 45)/(37.5+45) = 0.09091 by (40 45)/(40+45) = 0.05263 398 Replace Equatin (8.180) by R Lc = V c/i c = ½(V 1 + V 2)/ I c = ¼(R 1 + R 2) = 40 Ω. 398 Replace equatin befre Equatin (8.180) by V 1 = ½I cr 1, V 2 = ½I cr 2 398 Part (c), Line 4, Change vltage, V c, applied acrss t current, I c, t 398 Figure 8-30(d). Change tp V c t V 1. Change bttm V c t V 2. 398 Equatin (8.182), change bttm R Lc Z 0e t R Lc + Z 0e 399 Equatin (8.185), change bttm R Ld Z 0d t R Ld + Z 0d 399 Delete Example 8.9 400 Line fllwing (d), change even t dd 428 Equatin (9.113), Change a t 1 a,change 2 2 430 Example 9.3, Equatin (9.128). Change 0.18 0.3036 0.1807 0.3048 0.3036 0.18 t 0.3048 0.1807 430 Example 9.3, Equatin (9.128). Lines 1, 2 and 3. Add expnent f 1 t secnd matrix. 430 Example 9.3, Equatin (9.128). Last line, Change 0.06324 t 0.06324 (twice) 453 Figure 10-6(a), Change lwer left 1 t S 23 453 Figure 10-6(b), Change 1 t S 23 453 Equatin (10.9), Change b 2 = S 21a 1 + a 3 t b 2 = S 21a 1 + S 23a 3 453 Equatin (10.10), Change (1 S 32)b 3 = s 32 S 21a 1 t (1 S 23 S 32)b 3 = S 32 S 21a 1 453 Equatin (10.11), Change 1 S 32 t 1 S 23S 32 495 Exercise 25, Line 2, Change 0.7, S 21 t 0.7, S 12 524 Sectin 11.7, Line 3, Change (se and f) t (e and f) 537 Example 11.3, Slutin, line 3, Change 2.283 t 6.283. Change 954.9 ph t 1.350 nh (twice). Change 265.3 ff t 187.6 ff (twice). Change 530.6 ff t 375.1 ff.
550 Exercise 11.18(b), line 3, change many windings are n the unbalanced t change many windings are n the balanced 609 kt Equatin (13.17) Change e hf kt t hf 1 hf ( kt ) e 1 609 Line 3 after Equatin (13.17), Change f c = kt t fc = 2kT 609 Line 4 after Equatin (13.17) Change 6 t 12 626 Equatin (13.77), Change N dbm,i ) SNR db,min t N dbm,i SNR db,min) 627 Equatin (13.78), Change N dbm, ) SNRMIN t N dbm, SNR db,min) 631 Figure 13-21(c), In captin change `Switch n mdel t `Ideal switch n mdel 631 Figure 13-21(d), In captin change `Swtch ff mdel t `Realistic switch n mdel 635 Equatin (13.88), Change 50 101 t 101 50 643 Questin 7(a), line 3, Change 270 t 290 643 Questin 7(a), line 3, Delete (270 K) 653 Add fllwing Equatin (14.7) when the available signal and image pwers at the input are the same. 666 last line, Change dbc t dbm 682 Equatin (14.43), Change 39.98 mw = 16.0 dbm t 14.97 mw = 11.8 dbm 682 Equatin (14.44), Change 70.7 mw = 18.5 dbm t 25 mw = 14.0 dbm 686 Example 14.3, Line 3, Change OIP3 2 = 50 t OIP3 2 = 40 767 Exercise 8, last line, Change Table t Figure 818 Captin f Figure 17-1, line 1, Change pnp t npn * 838 Paragraph 2, Line 6, Delete (since S = S usually) 22 22 859 Paragraph 2, Line 4, change utput t input 860 Equatin (17.105), Change G =ΓΓ t 1 2 G = Γ1Γ 2 860 Figure 17-24(a). The right-directed arrw ging int the summing junctin shuld have a + sign next t it; the upwards-directed arrw ging int the summing junctin shuld have a - sign next t it. 872 Exercise 7. Line 4, Change 0.75 45 t 0.75 45 872 Exercise 8. Line 4, Change 0.32 54.6 t 0.32 54.6 916 Exercise 21(c) line 3, Change dd-mde lad resistance RL t even-mde lad resistance RLe 916 Exercise 21(d) lines 3,4, Change cmmn-mde lad resistance RLc t differentialmde lad resistance RLd 981 Figure 20-12, Fr TL1 change Z 0 = 50 Ω t Z 0 = 70 Ω (twice) 1023 Exercise 13. Line 7 change f scillatr? t f the scillatr? 1023 Exercise 14. Line 7 change f scillatr? t f the scillatr? 1028 Equatin (A.18), Change cs y t cs x 1050 Table B-1. Line 4 in table fr F, Change A 2 t A 2 1056 Line fr Slder > tin-lead, change 17.2 t 172 1127 Fr 1.4(b), Change 662.6 fj t 6.626 10 24 J 1127 Fr 1.7, Change 3.25 t 3.75 1127 Fr 6.18(b), Change 100.9 t 100.9 r 10.89
1127 Fr 6.5, Change 7.816 t 12.75 1127 Fr 9.6(d), Change 50 + ȷ100 Ω t 0.5 + ȷ0.5 1128 Answer t 11.16, Change L = 10.3 nh t L = 20.7 nh 1128 Answer t 17.1, Change 1 db t 21 db 1128 Clumn 3, Slutin t 17.24, secnd last line, Change L3 t L4, Change C4 t C5
CLARIFICATIONS The fllwing are nt errata but prvide clarificatin. 36 Third line frm the bttm f the page. Change The CF is a vltage rati and has the same meaning as PAR t The CF is a vltage rati and smetimes has the same meaning as PAR 42 Paragraph 1, Line 5. Change P p. Then t P p (this is nt the same as P p in Equatin (2.5)). Then 435 Line befre Equatin (9.158). Change Since t Since (with the same real reference impedance) 451 At the end f the captin fr Figure 10-2 add (The same real reference impedance must be used at each prt.) 503 Exercise 22, Line 6, Change and an element t and then an element 798 Add t captin f Figure 16-33 (Derived using R L = 50 Ω and K = 139.540 Ω.)