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标题: Analog Optical Links Theory and Practice by C.H. Cox [打印本页]
作者: sunygd    时间: 2016-11-30 10:44
标题: Analog Optical Links Theory and Practice by C.H. Cox
Preface page xi8 P0 W5 j% r8 j& W3 j$ |/ Y& }" V
1 Introduction 1" @& ~) L; h3 |" J% _
1.1 Background 1
  l; ~- K6 `/ f1.2 Applications overview 8! I6 @$ Q  e  X  j3 V
1.2.1 Transmit optical links 8
  p4 w9 m# Z- S+ ]7 \$ H1.2.2 Distribution optical links 9
) j9 d; B; D$ b1.2.3 Receive optical links 11
' L7 y2 A, r; J) o: Y1 T- |1.3 Optical fibers 125 [7 ?6 v+ I4 _; p
References 17. M& P1 N( v3 p- j4 b) z
2 Link components and their small-signal electro-optic models 19/ P! F; [; H. @
2.1 Introduction 19% @6 i' a& Q9 ^  I3 X! h
2.1.1 Notation 20
3 V8 N# G* A2 F) P$ x  q2.2 Modulation devices 20
. F4 v, [1 J5 D: T2.2.1 Direct modulation 20
; O1 n4 `/ q7 }2.2.2 External modulation 34
4 H- z: w3 F4 @  ~2.3 Photodetectors 49$ K7 S2 x! B% r' a( {# T" j
Appendix 2.1 Steady state (dc) rate equation model for
: D' C; H- j0 o0 F+ C# m: \diode lasers 540 F, w2 L' w. p& E! y0 ?
Appendix 2.2 Absorption coefficient of an electro-absorption5 y5 A3 ^$ T; F" @* v' p) }- N
modulator 636 Y. W7 P# x- _& G+ c
References 63
7 ~1 k$ `5 e9 H& Q  c3 Low frequency, short length link models 697 A! v/ b# K6 a0 ^
3.1 Introduction 69' A  b; \5 G1 V  l: W5 S
3.2 Small-signal intrinsic gain 70
+ N# _6 \7 |5 U1 A1 v8 m; s4 J* J3.2.1 Direct modulation 72
6 E7 ]+ f) M4 d2 ?3 T+ ?3 t: r7 A3.2.2 External modulation 74$ Z  s( x7 F! p4 n9 k
3.3 Scaling of intrinsic gain 75& v9 s5 h/ g1 P  S
vii3 |4 p, d" \8 d; k2 d8 P0 O
viii Contents; g6 q) i% h% K4 F% d- a
3.3.1 Optical power 75
; W5 h& V1 r6 `5 Y- Y- k7 U3.3.2 Wavelength 79% }/ g- m, r7 A) x! `3 F$ ^/ Y
3.3.3 Modulation slope efficiency and photodetector
( R6 f2 G6 E# x4 Wresponsivity 81. t; s$ q7 Q1 V; Y+ K
3.4 Large signal intrinsic gain 82
+ \2 e, B0 j! M0 \& L; d; ~Appendix 3.1 External modulation links and the Manley–Rowe
/ P. P/ C; M. N" ?" ~equations 87' s4 d: z% q' e' }0 W
References 88
  {: u0 J' G% `( d( d% m! J4 Frequency response of links 91
( F$ b) O0 I5 m3 Y4.1 Introduction 91
0 f+ w# }4 O$ |9 B1 K4 o! \4.2 Frequency response of modulation and photodetection devices 931 i# N/ ^3 v1 C: {- o. v3 c
4.2.1 Diode lasers 93! F: z+ U) P3 |1 O' X/ e
4.2.2 External modulators 98
* }" |4 m; O; x1 M8 j0 m' @/ w4.2.3 Photodetectors 1055 M$ O  J5 J+ Z6 `( _  t
4.3 Passive impedance matching to modulation and photodetection" X. i" J% ~" g3 [) c$ @) L
devices 110' D2 P' ?+ V$ L, x/ x
4.3.1 PIN photodiode 112) A. K. A; E. S( R% b$ Z5 H: [0 V( I
4.3.2 Diode laser 117
7 q8 v- W* H/ x9 n7 ]* w1 P4.3.3 Mach–Zehnder modulator 129
" e( z4 Y! @; p" p4.4 Bode–Fano limit 138# t* b3 [6 K. Y# i: k5 q2 y
4.4.1 Lossy impedance matching 139
* Q9 B0 M; A. r0 x" N6 f4.4.2 Lossless impedance matching 142& f( [; D9 e4 W4 o) ]: y
Appendix 4.1 Small signal modulation rate equation model for
: ?" m. K2 {+ \. @: D5 pdiode lasers 1527 l8 s" ]6 s( s% b! C$ S4 e
References 1569 p. J7 I% t! j' U# F8 E% r/ o3 Q
5 Noise in links 159
' j& R8 G$ \) y; }; r4 n5 p5.1 Introduction 159
) c3 v6 C* N: Q, E5.2 Noise models and measures 160
( e/ `$ Y: B; x6 f8 }( v5.2.1 Noise sources 160
7 \/ [! @2 D9 {$ j) C5.2.2 Noise figure 167
1 J# u  Y& u9 J) v" ?! \. I5.3 Link model with noise sources 1681 i: S$ W3 u$ y5 ^+ C* s2 i+ Y
5.3.1 General link noise model 168
8 e* B5 c0 d' M* x5.3.2 RIN-dominated link 169
. D( t5 [1 r. P: B- M5.3.3 Shot-noise-dominated link 173* X8 d# M: z* H  v
5.4 Scaling of noise figure 178- @3 G% @( I4 C& D: N3 K
5.4.1 Impedance matching 179
4 @% x& X% |" n+ a  t/ m5.4.2 Device slope efficiency 180
3 T" k( w& S. d' _5.4.3 Average optical power 182' f# s5 \; B1 Q6 q* V3 a
5.5 Limits on noise figure 185
1 b( ]# G# y& o+ N- d/ P. \5.5.1 Lossless passive match limit 185
- R' @4 i+ v0 ~Contents ix
/ W% r3 r5 _% |' Z! c5.5.2 Passive attenuation limit 187
5 k3 E1 B6 T% c; r: W8 F2 M5.5.3 General passive match limit 189, x7 t: T) M3 S, Z: s8 Z4 h3 s, ?
Appendix 5.1 Minimum noise figure of active and passive networks 196
/ ~+ z; W9 [8 a8 W# a( F' JReferences 199* H+ ^% @8 \* E" U) \& v
6 Distortion in links 201# Q! ^6 Q, S! B5 n5 r, O
6.1 Introduction 201
! Y% u5 S9 I* }! x6.2 Distortion models and measures 202
: L9 V8 a- |& s; P! T6.2.1 Power series distortion model 202
! v- v0 n! y. e6.2.2 Measures of distortion 205
# X0 t$ N$ z$ `  P6.3 Distortion of common electro-optic devices 217
: H5 s/ V9 c" p  H0 b- X2 i6.3.1 Diode laser 217. `+ y, z- [. l7 I. `* W4 h
6.3.2 Mach–Zehnder modulator 222
; ?8 l) a+ r8 e- m2 B6.3.3 Directional coupler modulator 225
, E: ?# n) V' h' `/ C6.3.4 Electro-absorption modulator 227
# R* Y' `. Q5 u0 p. E8 p; a# S6.3.5 Photodiode 2284 u4 s5 N  i: L& C+ E4 r+ \
6.4 Methods for reducing distortion 232
+ n& o. V% A, _' n3 F4 `6.4.1 Primarily electronic methods 233
4 B" J# C7 R7 L6.4.2 Primarily optical methods 240; l9 X& G5 l# T+ `
Appendix 6.1 Non-linear distortion rate equation model for
! ~5 R, d7 I: D$ p# ], m1 ?diode lasers 249
- ?( X8 z: n/ V( l; [* ]+ WReferences 2591 e- }( q. Q9 \' V
7 Link design tradeoffs 2630 P/ t2 f: J( W9 F# _" N
7.1 Introduction 263" {; k$ v# o0 ]6 x$ `0 e
7.2 Tradeoffs among intrinsic link parameters 263
% n9 n; D' m6 U. C' y7.2.1 Direct modulation 263; J/ ?5 p; B  N$ [! v) g
7.2.2 External modulation 2680 L0 ^% z0 z9 m( D' t$ D& R
7.2.3 SNR vs. noise limits and tradeoffs 2735 O9 I( t& z! R; M3 D+ m9 E8 V* C
7.3 Tradeoffs between intrinsic link and link with amplifiers 277- }. [) ]9 ], `( [6 n7 Y+ }+ V- `
7.3.1 Amplifiers and link gain 277
4 ^2 ~4 ?) ?7 c. R% {9 y; n9 W7.3.2 Amplifiers and link frequency response 2786 \/ X8 Y2 j, R0 u* e
7.3.3 Amplifiers and link noise figure 278
5 y  E) x) b& H$ |: G7.3.4 Amplifiers and link IM-free dynamic range 279
% D" s* m& v6 V7 e- r' Q5 HReferences 284$ Y. V& }5 V$ g8 E1 ^0 }
Index 285
作者: sunygd    时间: 2016-11-30 10:45
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Analog Optical Links Theory and_Practice_ Cox.pdf

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作者: wzs6668    时间: 2016-12-1 11:02
支持一下,很不错哦!* ?# ?/ q% C9 r: `/ m1 H3 C
作者: Wenghezhong    时间: 2016-12-1 11:45
非常感谢,收了!
  J4 Q' ^& I: L, `



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