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) }/ j0 V+ h) Q1 |( HTAS3308的I2C地址问题
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你好,我在做TAS3308的音效项目的时候,当我的I2C地址分配高于222时,发现下载到EVM板上的程序就不能用I2C配置了。I2C映射的coef和实际的参数就对不上号了。但是如果下面的地址表,我去掉一个component,减少两个I2C的地址。就好了。这可能是什么问题呢?请帮忙提点调试建议啊。& j/ K5 {) Q% D5 P _: p' T7 c
9 R% ]! N3 Y) M. o1 N. T9 R3 E7 n0 }
当错误代码down下去后,对32的I2C地址 写 ‘00 00 02 02’; Line IN->PWM1口就会有声音发出了。而我程序中的好多参数调整对输出都不起作用。
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地址表如下。1 G; L: |$ w. M% @
+ v4 P; Y6 w1 m: v3 Q& {Application: PurePath Studio Graphical Development Environment& }1 K/ ~$ X" r* Y$ W0 J
File Name: me.addr* k$ ]% P: O ^) L
Date: 2014-12-26 14:46:12* ~+ z8 K6 N: F9 l7 D
Version: 1.88 build 56 M2 R9 A0 s: U! q7 }% z' h
================================================================================
, ~1 q" i$ g F2 p" B1 D! w; `5 ]& {1 \
# 0 4 ! (TAS3308AudioApp_1) Clock and SAP control: u9 B F% s8 S3 U2 t
# 1 4 ! (TAS3308AudioApp_1) Application Version Information: ]+ S g% ]4 Z# B/ T
# 2 8 ! (TAS3308AudioApp_1) Status Register
6 \: ^. U& V3 F, k& x b$ E; i2 l# 3 4 ! (TAS3308AudioApp_1) Reserved by Texas Instruments6 [9 F0 p. `& Y$ K4 T
# 4 8 ! (TAS3308AudioApp_1) I2C Memory Load Control" ~; p- w* E% _6 {
# 5 8 ! (TAS3308AudioApp_1) I2C Memory Load Data
" x1 P" Q! R) l1 r, }2 Y) n# 6 4 ! (TAS3308AudioApp_1) Peek/Poke Address5 P2 j+ i- x; i6 l9 V/ ^; ]
# 7 8 ! (TAS3308AudioApp_1) Peek/Poke Data
; U4 g" m W, L# ~4 e# 8 4 ! (TAS3308AudioApp_1) Reserved by Texas Instruments5 ?0 p" O m. T/ w3 P
# 9 4 ! (TAS3308AudioApp_1) Mute control i- o% Z) v% J0 k1 A1 v7 L
# 10 4 ! (TAS3308AudioApp_1) Reserved by Texas Instruments
4 v+ e, i! Y7 B$ y7 @# 11 4 ! (TAS3308AudioApp_1) Reserved by Texas Instruments
9 L' q( ?5 z# ]% n4 z# 12 4 ! (TAS3308AudioApp_1) GPIO Control via I2C
- l1 W5 w, w+ |, b2 G9 b. M# 13 4 ! (TAS3308AudioApp_1) Reserved by Texas Instruments1 w" X. p9 S: {( J
# 14 4 ! (TAS3308AudioApp_1) Reserved by Texas Instruments1 D4 c, L; c! `7 e
# 15 4 ! (TAS3308AudioApp_1) Master Download" R. {% s+ n) g/ C* l! Y& o T
# 16 4 ! (TAS3308AudioApp_1) Power Down control% i) M# X* T, N/ X
# 17 4 ! (TAS3308AudioApp_1) Reserved by Texas Instruments
& A! `: u1 z( i- _+ o# 18 4 ! (TAS3308AudioApp_1) ADC Mux Control
! _$ O4 z8 P' s; F# 19 4 ! (TAS3308AudioApp_1) Reserved by Texas Instruments
% @* _1 h: O2 C$ o# 20 4 ! (TAS3308AudioApp_1) Reserved by Texas Instruments
# `$ j5 T- q9 q) O4 q$ m+ O# 21 4 ! (TAS3308AudioApp_1) Reserved by Texas Instruments
+ ]6 o# I5 I- M; U0 H9 C# 22 4 ! (TAS3308AudioApp_1) SPDIF Control e; c- g+ ~7 \9 R7 Y9 F
# 23 4 ! (TAS3308AudioApp_1) Fast Volume Ramp Control
2 w8 ?) C8 c" f/ f1 g& o! E" q* _# 24 4 ! (TAS3308AudioApp_1) PWM Control1 t, u) r( W; v! @" ?
# 25 4 ! (TAS3308AudioApp_1) Reserved by Texas Instruments
9 |; b1 E; T8 @. i0 f( k) r0 ]6 O# 26 8 ! (TAS3308AudioApp_1) PWM Channel Delay and Offset- y Y$ x1 j2 a
# 27 4 ! (TAS3308AudioApp_1) Reserved by Texas Instruments7 ?5 H" s6 }6 V' _1 s8 o# r7 E
# 28 4 ! (TAS3308AudioApp_1) Reserved by Texas Instruments
! c/ C U" M9 Z! i# 29 4 ! (TAS3308AudioApp_1) PWM Duty 50 Mode control
% N5 B( x4 c" X! ~/ V# 30 4 ! (TAS3308AudioApp_1) DSP Pgm Coutner Start Addr
. E& {# a6 t; s+ w) r# 31 4 ! (TAS3308AudioApp_1) Masterdownload
0 R1 Y/ [$ H9 ?- Z1 H# 32 20 ! (Subs_2) BiQuad Coefficients for Instance 1/ W" S1 N8 ]/ G3 s5 Z' h* L: U- A5 b0 D
# 33 20 ! (Subs_2) BiQuad Coefficients for Instance 2
, l# w& j" Z7 O" w: @( o7 {/ J9 W# 34 20 ! (GenEq1_4Bq_1) BiQuad Coefficients for Instance 1' V* I: p; q) {1 y0 G
# 35 20 ! (GenEq1_4Bq_1) BiQuad Coefficients for Instance 27 ?! m5 [; o3 {- g! H9 W! D
# 36 20 ! (GenEq1_4Bq_1) BiQuad Coefficients for Instance 3* C5 }0 K9 h+ S( E/ C; w; z
# 37 20 ! (GenEq1_4Bq_1) BiQuad Coefficients for Instance 4
7 E; e6 _; o4 y! V: Z$ u# 38 20 ! (Voi2_4Bq_1) BiQuad Coefficients for Instance 1$ Q2 B9 v; o! q$ P% k
# 39 20 ! (Voi2_4Bq_1) BiQuad Coefficients for Instance 2* w6 n' j7 Z- h4 P: o
# 40 20 ! (Voi1_4Bq_1) BiQuad Coefficients for Instance 3
* W) }, r$ R# f; u6 \) }- M+ ?+ j# 41 20 ! (Voi1_4Bq_1) BiQuad Coefficients for Instance 4' f5 ~' T5 g' h: W$ M9 _1 A: y% f
# 42 20 ! (Room2_8Bq_1) BiQuad Coefficients for Instance 1
( s% ^& y! G3 E+ M4 H9 I4 ?+ F+ g3 U8 o# 43 20 ! (Room1_8Bq_1) BiQuad Coefficients for Instance 23 G2 K6 w$ p: r6 {8 a+ X* E! W. T
# 44 20 ! (Room1_8Bq_1) BiQuad Coefficients for Instance 3! j+ ~# n) o6 | ~# U
# 45 20 ! (Room2_8Bq_1) BiQuad Coefficients for Instance 4; l% A3 u" f0 [& n, H4 D2 J
# 46 20 ! (Room2_8Bq_1) BiQuad Coefficients for Instance 59 K6 F4 p2 R$ k+ v% v" `0 L
# 47 20 ! (Room1_8Bq_1) BiQuad Coefficients for Instance 6
4 ]! f: m; \6 ~$ u# 48 20 ! (Room2_8Bq_1) BiQuad Coefficients for Instance 7
& h: p4 T1 V4 X# 49 20 ! (Room1_8Bq_1) BiQuad Coefficients for Instance 89 g- y7 s+ b2 G: i1 X7 i+ A5 m
# 50 4 ! (MultI2C_8Ch_1) For Multiplier
% s+ T* c0 I7 ~" \+ k% D) k# 51 20 ! (Ekstra_2) BiQuad Coefficients for Instance 1
9 P; Z4 C: Q4 z. I/ g# 52 20 ! (Ekstra_1) BiQuad Coefficients for Instance 29 s9 N# F# B% T# P) L9 k
# 53 20 ! (Ekstra_1) BiQuad Coefficients for Instance 3
+ a5 J- A3 N* C1 q* Q- P# 54 20 ! (Ekstra_2) BiQuad Coefficients for Instance 4
( X+ z5 ~4 O6 ?& e8 n# 55 20 ! (Ekstra_1) BiQuad Coefficients for Instance 5
2 o. w l( K, ?, [" s$ O# 56 20 ! (Ekstra_1) BiQuad Coefficients for Instance 6
Y1 ~' Y. J5 f: q3 A& J# 57 20 ! (Ekstra_2) BiQuad Coefficients for Instance 7
9 _) G4 g9 W$ A' z. j$ h) n# 58 20 ! (Ekstra_1) BiQuad Coefficients for Instance 8
K5 `/ |2 {5 S" J# 59 8 ! (Max_vol_DRC_1) ae and 1_ae
* u# U7 y$ S9 o# 60 16 ! (Max_vol_DRC_1) T1_input and T2_input4 m2 ~7 H7 \2 N
# 61 12 ! (Max_vol_DRC_1) k0, k1, and k2
: X6 [! h' H* y. n# 62 16 ! (Max_vol_DRC_1) O1_input and O2_input
2 G; a# m2 h+ Y2 ?# 63 16 ! (Max_vol_DRC_1) aa, 1_aa, ad, and 1_ad8 F; ^& [4 @# c1 v6 V
# 64 8 ! (Max_vol_DRC_1) DRC enable
/ Z% ^& Q( K9 J S4 O* @0 d6 p# 65 16 ! (Mix4Ch_C_1) Gain function for Channel 1-4
- B* p& Q( V' ^3 ^# f: J7 d- \# 66 16 ! (Mix4Ch_C_2) Gain function for Channel 1-4
* S* J$ k4 w- @8 G2 Q3 G1 o# 67 4 * u0 J- B- f9 M
# 68 4 3 m- y3 Q! V$ G
# 69 4 + f* D. D# Q; O+ @ P5 s2 A
# 70 4 / |9 Q/ o! ~) O5 A7 H4 D7 w
# 71 4 ' `) Q0 T) }4 _4 T' G2 D
# 72 4
% J5 v. s/ N1 ]8 `# 73 4 % j; t8 \' X0 g# S8 a: p2 ^
# 74 4
& B; r+ h4 o/ x% l/ e Q. ^, d. Y5 s# 75 4
: n4 L5 Y4 h4 X% d# X; }# e# 76 4
& J$ s. j- n/ z0 u$ g; r' O# 77 4 # i* r" a7 F# B' F- [
# 78 4
3 F+ w2 A, v( N; \# 79 4
9 p& ~! j' p% `, w& E# 80 4
9 g$ Q6 i4 w) ^9 }2 L* a- W! a4 _# 81 4 ; \* r. b4 Z, G
# 82 4 ) S4 {5 F" O5 J6 O( R
# 83 4
* }+ y! Y( N# ?2 C! Z$ d' Z# 84 4 , ?) y# s5 t2 F4 w) e
# 85 4 ' V4 R! F$ Z! }6 u1 I \
# 86 4 0 |( e, g- w- T0 E
# 87 4
: c; M: U) M! ], j- Q, p' G: V6 b# 88 4
4 e6 ~$ Y+ c6 i- g6 z7 m% H& k! b# 89 4
6 a% @6 v, n6 m% z' b3 p+ y; ~3 ~# 90 4 8 G" l1 P% r3 S! N4 e, O
# 91 8 ! (Late_DRC_1) ae and 1_ae P# s T& A' w0 _
# 92 16 ! (Late_DRC_1) T1_input and T2_input
9 E1 g3 ^: |* W e. p# 93 12 ! (Late_DRC_1) k0, k1, and k2* Z! [/ S1 A, x1 E: k7 l
# 94 16 ! (Late_DRC_1) O1_input and O2_input
' }" [/ E5 f! v# o# 95 16 ! (Late_DRC_2) aa, 1_aa, ad, and 1_ad5 s# f3 }0 ]' z3 ]
# 96 8 ! (Late_DRC_2) DRC enable
$ ]3 E7 i" ?1 o/ F. T. Z# 97 16 ! (Mix4Ch_C_3) Gain function for Channel 1-4. S% ^' R4 X- g) |% m
# 98 16 ! (Input_mix_1) Ch1Gain - Ch4Gain
* E. n; z+ S1 S$ X" e. o d3 C: B# 99 16 ! (Mix_1) Gain for channels 1-4
, `& E/ {6 a! v0 l: D# 100 16 ! (Mix_1) Gain for channels 5-8" o! a: B5 f" S8 @2 d. ]$ n
# 101 4 ! (Volume_1) Volume Level for All Channels for this Volume Instance F8 o; z/ r+ T; c( Z
# 102 20 ! (Driver_8Bq_2A_1) BiQuad Coefficients for Instance 1# w* E+ v! ]4 l% V! _
# 103 20 ! (Driver_8Bq_2A_1) BiQuad Coefficients for Instance 2$ @# t* w% X# G- q, `/ \ S! n
# 104 20 ! (Driver_8Bq_1A_1) BiQuad Coefficients for Instance 3
# M: J' D$ _0 ]4 l/ e4 ]5 A# 105 20 ! (Driver_8Bq_1A_1) BiQuad Coefficients for Instance 4, T/ u0 T$ L+ d4 `: ~# \8 S
# 106 20 ! (Driver_8Bq_2A_1) BiQuad Coefficients for Instance 5& u# Z+ F( L# z& S
# 107 20 ! (Driver_8Bq_2A_1) BiQuad Coefficients for Instance 6) H+ [! D: V/ T7 \9 U. F
# 108 20 ! (Driver_8Bq_2A_1) BiQuad Coefficients for Instance 74 g& P U' N0 Q- R) X% {
# 109 20 ! (Driver_8Bq_1A_1) BiQuad Coefficients for Instance 8
/ b! B7 p6 f1 B: X; t# d# s# 110 20 ! (CrOv_4Bq_2A_1) BiQuad Coefficients for Instance 1# @9 {( K. ?7 L* C* U
# 111 20 ! (CrOv_4Bq_2A_1) BiQuad Coefficients for Instance 2" u2 k- @) Y \ {% h
# 112 20 ! (CrOv_4Bq_2A_1) BiQuad Coefficients for Instance 3; N& V9 u) ~( l& N( U" H" E: s: v: M
# 113 20 ! (CrOv_4Bq_1A_1) BiQuad Coefficients for Instance 4
( L% B ^9 X8 M& g7 z3 y& B# 114 8 ! (Loudness_1) Gain and Logarithmic Gain+ E* q7 e$ R2 ^- {! {# ]$ L: X
# 115 16 ! (Loudness_1) Offset and Logarithmic Offset
& ]; `! k* @6 B% s t/ k' u# 116 20 ! (Loudness_1) BiQuad1 Filter Coefficients
. \) h2 t+ P2 w7 B/ d3 F8 f0 Y d# 117 20 ! (Loudness_1) BiQuad2 Filter Coefficients/ I/ X: T9 y k$ ?+ e; R; ?3 _$ h6 n
# 118 4 ! (MultI2C_1A_1) Multiplier
7 H+ }) h6 a1 X' R, X- b* R# 119 4 ! (MuxLoudness_2) Mux Control
+ P% O2 W( z% Z# 120 16 ! (Mix4Ch_C_4) Gain function for Channel 1-4) i; ^- a0 ~) G+ W- b8 o, R
# 121 20 ! (CrOv_4Bq_1C_1) BiQuad Coefficients for Instance 1
& C2 a& F7 r, _; f9 W# 122 20 ! (CrOv_4Bq_2C_1) BiQuad Coefficients for Instance 2
- U$ V8 s2 B D9 L2 A# 123 20 ! (CrOv_4Bq_2C_1) BiQuad Coefficients for Instance 3
( a# U7 O" g9 a- h5 `7 H# 124 20 ! (CrOv_4Bq_2C_1) BiQuad Coefficients for Instance 4
& X ^" ?# y0 m2 D# 125 20 ! (Driver_8Bq_2C_1) BiQuad Coefficients for Instance 1) M9 d8 [' t6 a1 ~% A/ I/ Y
# 126 20 ! (Driver_8Bq_1C_1) BiQuad Coefficients for Instance 2
. {& f7 p* c5 j0 H8 ]/ f; U# 127 20 ! (Driver_8Bq_2C_1) BiQuad Coefficients for Instance 3
, q; E: d" y- u# 128 20 ! (Driver_8Bq_2C_1) BiQuad Coefficients for Instance 42 |# T. P+ {( w- `# N7 ^, Y
# 129 20 ! (Driver_8Bq_1C_1) BiQuad Coefficients for Instance 5
! B) l' N9 a7 i( V6 J* j# 130 20 ! (Driver_8Bq_1C_1) BiQuad Coefficients for Instance 66 G: d: D+ ]# o
# 131 20 ! (Driver_8Bq_2C_1) BiQuad Coefficients for Instance 72 P$ u9 z8 |/ |1 y" a* o
# 132 20 ! (Driver_8Bq_1C_1) BiQuad Coefficients for Instance 8
& N9 r, c! ?& `! s. G7 `; t$ Q# 133 20 ! (Bq_1) BiQuad Coefficients for Instance 1
6 `$ ]: x# L9 A# 134 20 ! (Bq_1) BiQuad Coefficients for Instance 2; s# _6 T3 B, q$ y6 m, Z! s% X
# 135 20 ! (Bq_1) BiQuad Coefficients for Instance 3! E% I' v+ l# h2 H
# 136 20 ! (Bq_1) BiQuad Coefficients for Instance 4
3 z" k! Q F* h) i' l# 137 20 ! (Bq_1) BiQuad Coefficients for Instance 5
, i) ^& b# B; Q$ }5 F# 138 20 ! (Bq_1) BiQuad Coefficients for Instance 6. p. L; @; b+ W: Q+ s- r" A# z. ~
# 139 4 ! (MultI2C_C_1) Multiplier
0 d, h* f" ?! i9 w6 |# 140 20 ! (CrOv_4Bq_2B_1) BiQuad Coefficients for Instance 1+ T2 X' m* Q" `! [& k
# 141 20 ! (CrOv_4Bq_2B_1) BiQuad Coefficients for Instance 2
- t5 g9 T7 Z" s3 f: S# 142 20 ! (CrOv_4Bq_1B_1) BiQuad Coefficients for Instance 3" D% O- @- B! L5 W4 L8 |9 V
# 143 20 ! (CrOv_4Bq_1B_1) BiQuad Coefficients for Instance 4" }' d9 t1 J% x5 T) P. c
# 144 20 ! (Driver_8Bq_2B_1) BiQuad Coefficients for Instance 1- \$ r0 c" h7 v$ H" s9 h
# 145 20 ! (Driver_8Bq_1B_1) BiQuad Coefficients for Instance 2
i" x) C& x, O. A) |# 146 20 ! (Driver_8Bq_1B_1) BiQuad Coefficients for Instance 3
+ P- ?& _. _# H+ u% W' l1 l# 147 20 ! (Driver_8Bq_1B_1) BiQuad Coefficients for Instance 4
' G g* |4 N, U) Y# 148 20 ! (Driver_8Bq_2B_1) BiQuad Coefficients for Instance 5
1 D6 h& }$ s0 {; x _2 U# 149 20 ! (Driver_8Bq_1B_1) BiQuad Coefficients for Instance 68 E7 g9 q. w+ Y1 ]& e
# 150 20 ! (Driver_8Bq_2B_1) BiQuad Coefficients for Instance 7
# _8 X, l/ U+ m; M# P! ~& g# 151 20 ! (Driver_8Bq_1B_1) BiQuad Coefficients for Instance 8" D0 Y# h( e8 ]& x# |: \
# 152 4 ! (MultI2C_2B_1) Multiplier- K( B9 Y% O. W; X% b1 W
# 153 20 ! (LRH_1) BiQuad Coefficients for Instance 1% P1 K$ o, E+ C8 F o' v5 w# ~! U
# 154 20 ! (LRH_1) BiQuad Coefficients for Instance 2
, ]: p) `$ N7 O4 K2 I: b# n+ {# 155 8 ! (Exc_limit_1) ae and 1_ae P' |/ E! y4 b. u' Y* R7 _* Z
# 156 16 ! (Exc_limit_1) T1_input and T2_input
! I4 m% H r5 s9 ^5 _# 157 12 ! (Exc_limit_1) k0, k1, and k2
! @# U1 N; r6 ~4 Y% ?# 158 16 ! (Exc_limit_1) O1_input and O2_input$ V0 ^" n7 \4 E3 {3 v
# 159 16 ! (Exc_limit_1) aa, 1_aa, ad, and 1_ad
8 k/ d2 D6 K+ @7 m0 q6 o# 160 8 ! (Exc_limit_1) DRC enable b( @- O2 b( ?- @6 B B
# 161 8 ! (DRCref1Ch_1) ae and 1_ae) `5 @& W! b* o1 \( ~
# 162 16 ! (DRCref1Ch_2) T1_input and T2_input
/ d6 d, r9 e O5 w# 163 12 ! (DRCref1Ch_1) k0, k1, and k2# Z& U5 u7 G8 m3 q( ^; j2 @
# 164 16 ! (DRCref1Ch_1) O1_input and O2_input6 O( q( K; {$ Z% v X/ E
# 165 16 ! (DRCref1Ch_2) aa, 1_aa, ad, and 1_ad
. @* p3 N* t- E% e0 l# 166 8 ! (DRCref1Ch_1) DRC enable
4 H& a+ ^) B% s1 L0 w; g6 i2 ^# 167 16 ! (Mix4Ch_1) Gain function for Channel 1-4
# ~% k/ w9 t* q! U" Z' |# 168 16 ! (Mix4Ch_2) Gain function for Channel 1-44 F- @2 }; g4 W
# 169 16 ! (Mix_2) Gain function for Channel 1-4* `: y2 i( l( y/ H+ q3 Q0 P. }; A
# 170 20 ! (Bq_2) BiQuad Coefficients for Instance 1
, x# c; T7 ^4 \/ k# {# O# 171 20 ! (Bq_2) BiQuad Coefficients for Instance 2
# o) [% M4 I5 q" `7 Z# 172 20 ! (Bq_2) BiQuad Coefficients for Instance 3* l T, M5 }) d# i4 I1 ~
# 173 16 ! (Mix_3) Gain function for Channel 1-4
- D0 Z* k$ D l4 p1 @* W# 174 8 ! (Soft_1) ae and 1_ae/ D7 ?6 U5 n# i6 {
# 175 16 ! (Soft_1) T1_input and T2_input
, @( {. S, j' _- W' S5 ~6 b# 176 12 ! (Soft_1) k0, k1, and k2
) J( n* y1 x1 N& ^7 F- O: B# 177 16 ! (Soft_1) O1_input and O2_input
' t: w3 A. p+ W( R* m1 @) t# 178 16 ! (Soft_1) aa, 1_aa, ad, and 1_ad
/ o& W# {, D. m) r% m# 179 8 ! (Soft_1) DRC enable; [" v% \/ O; g' @
# 180 16 ! (Mix_4) Gain function for Channel 1-41 H2 ~# o2 |8 y
# 181 4 ! (M_BQ1_1) Multiplier( O% t0 |% S4 x; J( |, d5 e
# 182 20 ! (V2X_1) BiQuad Coefficients for Instance 1
! r8 l1 V! i4 p. H# 183 20 ! (V2X_1) BiQuad Coefficients for Instance 2
; y2 t Q! ]. d" n$ k7 g9 Y" N# 184 20 ! (LRL_X2V_1) BiQuad Coefficients for Instance 1
/ d# e1 L1 ~& |2 R# 185 20 ! (LRL_X2V_1) BiQuad Coefficients for Instance 2
( M$ a$ t+ C) o2 p5 V& V; r# 186 20 ! (LRL_X2V_1) BiQuad Coefficients for Instance 3
+ a$ U) d. d7 i$ L# 187 20 ! (LRL_X2V_1) BiQuad Coefficients for Instance 4
0 V0 o& A6 G$ [& s2 h# u* S. j# 188 16 ! (Crossbar_1) Mixer values for X11, X21, X31, X417 C9 o% Y. b4 `( r+ O7 E* l" a
# 189 16 ! (Crossbar_1) Mixer values for X12, X22, X32, X42
; k" b: j2 }; a5 r6 g# 190 16 ! (Crossbar_1) Mixer values for X13, X23, X33, X435 X8 K) A* E ^ |. I8 B' q* t- c
# 191 16 ! (Crossbar_1) Mixer values for X14, X24, X34, X44
: E' y3 @+ t( h, M, f, o# 192 16 ! (Crossbar_1) Mixer values for X51, X52, X53, X54' a- t) B, \- {. X3 p+ v
# 193 16 ! (Crossbar_1) Mixer values for X55, X15, X25, X35
7 H6 q( T) |4 O$ K# m# 194 16 ! (Crossbar_1) Mixer values for X45, X61, X62, X636 Y$ P" F' h! v0 a& t7 ?, z. w
# 195 16 ! (Crossbar_1) Mixer values for X64, X65, X66, X165 w+ H* _& D" H/ v7 y. l, Y/ Y$ W
# 196 16 ! (Crossbar_1) Mixer values for X26, X36, X46, X56
' w+ o# [5 m s% f7 i* m# 197 16 ! (Crossbar_1) Mixer values for X71, X72, X73, X74. K, U# F6 y; d( g( Y+ D: e
# 198 16 ! (Crossbar_1) Mixer values for X75, X76, X17, X27' L% G$ U5 M9 g7 ^! a$ n- v$ W+ Z) J
# 199 16 ! (Crossbar_1) Mixer values for X37, X47, X57, X67
' }! Q2 g# q7 }/ o5 C# 200 4 ! (TAS3308AudioApp_1) Delay Pointer 0 and 1 Length
& A3 V- o5 I) I1 o* F% y7 f- G# 201 4 ! (TAS3308AudioApp_1) Delay Pointer 2 and 3 Length7 H* i% U" g" w+ n, d
# 202 4 ! (TAS3308AudioApp_1) Delay Pointer 4 and 5 Length
# S* i# ^5 u5 y5 D# 203 4 ! (TAS3308AudioApp_1) Delay Pointer 6 and 7 Length
2 |. V; z1 s5 e0 Y# 204 4 ! (TAS3308AudioApp_1) Delay Pointer 8 and 9 Length( F* a9 O( H: _$ m2 s1 D8 ?7 f% |
# 205 4 ! (TAS3308AudioApp_1) Delay Pointer 10 and 11 Length1 T7 h# z3 e w5 Z# c
# 206 4 ! (TAS3308AudioApp_1) Delay Pointer 12 and 13 Length+ q0 N M$ f; D1 f
# 207 4 ! (TAS3308AudioApp_1) Delay Pointer 14 and 15 Length
' v2 X6 r/ x. d2 ?! I# 208 4 ! (TAS3308AudioApp_1) Reverb Pointer 0 and 1 Length
+ ?4 @/ E: \& V, I# 209 4 ! (TAS3308AudioApp_1) Reverb Pointer 2 and 3 Length
$ T. Y$ }, B, e8 m3 [6 ~3 b# 210 4 ! (TAS3308AudioApp_1) Reverb Pointer 4 and 5 Length$ f k0 R8 j$ l) R
# 211 4 ! (TAS3308AudioApp_1) Reverb Pointer 6 and 7 Length+ \- r/ H5 W( C6 [ B
# 212 4 ! (TAS3308AudioApp_1) Delay Pointer Update Flag# B0 g; Z+ [2 X, _# p0 @
# 213 16 ! (Crossbar_1) Mixer values for X77, X81, X82, X83
) a1 d9 k: F. E5 t8 N# 214 16 ! (Crossbar_1) Mixer values for X84, X85, X86, X874 p- g+ J F+ n% a/ x
# 215 16 ! (Crossbar_1) Mixer values for X18, X28, X38, X48
6 h1 w, m% B' |3 @, b S* q4 \# 216 16 ! (Crossbar_1) Mixer values for X58, X68, X78, X88
* G7 {( Z5 x% `. h) ?) T) o6 [9 U# 217 8 ! (DRC_C_1) ae and 1_ae! E/ R0 r' c7 [7 m6 A
# 218 16 ! (DRC_C_1) T1_input and T2_input. Y2 |3 G+ j: E* {- |1 _
# 219 12 ! (DRC_C_1) k0, k1, and k2
; x2 b1 z! Q9 y# 220 16 ! (DRC_C_1) O1_input and O2_input Z& j9 V7 n$ Z% T' d3 v/ r$ \
# 221 16 ! (DRC_C_1) aa, 1_aa, ad, and 1_ad
" e3 n; D2 O) ~1 m! b) ~! I# 222 8 ! (DRC_C_1) DRC enable) [) R9 O$ S6 z7 }$ B h% S0 H0 S
# 223 4 ! (MultI2C_1A_2) Multiplier
9 ~. b2 D- U+ m5 Y& _- e( }9 _# 224 4 ! (MultI2C_1B_2) Multiplier
7 X8 {. b( J2 S# 225 4 f [) g! z! r
# 226 4
, ?' U5 P4 h( f/ i. O/ {/ X# 227 4
4 o5 G: x9 X. N+ e" \# 228 4
: t- @, ~0 Z4 p. s$ `, l# U# 229 4
& @/ Z6 a9 V$ @+ j# 230 4 * Z6 P; H4 k4 K# r
# 231 4
* a8 w T5 _) j l2 m$ \0 A# 232 4 ( r) ?" O1 s6 d7 O; L' z) g
# 233 4 0 o# g! K$ G# N6 b" Z2 h
# 234 4
+ f' r- p3 |; V. u1 X4 o8 S# 235 4
* x+ W, x; ]! M# 236 4 . L8 _8 x" I1 g8 h/ k/ T9 F5 X0 V/ T
# 237 4 + f) A6 s: h7 w! g5 Z
# 238 4
, P. l+ _9 e7 j+ e# 239 4 : u, K4 N( S5 g5 @5 O
# 240 4
$ ^/ T( l" J/ h! l* y* [# 241 4
( [- l1 z% w9 l% i9 `9 d3 A# 242 4 , I( _/ a3 K. U" E e, \; R: x
# 243 4
3 B) o9 A' J' `4 O: u$ t) x# 244 4
; E& _+ k! |/ ?1 Y" H& F2 ~# 245 4 + X$ ^6 s% E& e
# 246 4
! j: \/ C# Y. s( _* a7 f) B: M/ H) V# 247 4 ) Z( B; t5 B; Z7 d7 `: U
# 248 4 ' }% T: y) T Y0 P: _
# 249 4
% @+ j* Z% b( V1 {- v# 250 4
F; d5 ~+ m7 G6 x: `# 251 4
% m. H6 J" p2 Y* Y+ ?* n# 252 4 ; i1 w7 J+ ^3 i; f) X/ O( n
# 253 4 * o% [6 I+ v: _$ m
# 254 4 4 l' [' d! r( O9 U$ o7 s/ h. q* w Z
# 255 4 |
发表于 2006-5-22 12:06:00
