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9 [% \. K, D8 s& p3 YTAS3308的I2C地址问题% V+ @ i$ t+ ~6 v( \" u* j/ V! q- Q
7 ?- G' u: e1 F' A! S% e) ~7 w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。! r8 y: V, t R6 J: K: A7 K
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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。! h0 |4 F( F7 k* n( R5 W
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地址表如下。4 \8 E; j7 W4 {2 w# n- a5 [
& a$ Q G- G9 n7 x$ u
Application: PurePath Studio Graphical Development Environment
7 V* F* g& @' v ^# ~1 Y/ x9 h: nFile Name: me.addr; {" f( y0 p8 P) R
Date: 2014-12-26 14:46:12
2 {1 m+ u: ?8 f. IVersion: 1.88 build 5
) P; y1 ]$ W6 n================================================================================' M: q6 r/ _. t7 V$ g. k+ X
) v. H' [ U/ d' b, l9 r# 0 4 ! (TAS3308AudioApp_1) Clock and SAP control5 Y: R N8 {+ p- J& ^, x4 K
# 1 4 ! (TAS3308AudioApp_1) Application Version Information* \# ?; [! ?- d1 x/ t) |
# 2 8 ! (TAS3308AudioApp_1) Status Register
6 b8 b' _8 E e* U1 v* n. q3 w# 3 4 ! (TAS3308AudioApp_1) Reserved by Texas Instruments
) `: u. o) X5 A) `! I! c# 4 8 ! (TAS3308AudioApp_1) I2C Memory Load Control
6 ^, g8 s9 e d# a# 5 8 ! (TAS3308AudioApp_1) I2C Memory Load Data
9 A! D0 c9 i5 @+ _ p: Z# 6 4 ! (TAS3308AudioApp_1) Peek/Poke Address
# S' @8 f4 s2 Q; p* n2 ]! s3 K# 7 8 ! (TAS3308AudioApp_1) Peek/Poke Data
4 s" J ^) M- {" r% S! M& |* O# 8 4 ! (TAS3308AudioApp_1) Reserved by Texas Instruments' o' A) T& B" K" u
# 9 4 ! (TAS3308AudioApp_1) Mute control
# ?0 F# |& F+ H* r! p5 j h' J# 10 4 ! (TAS3308AudioApp_1) Reserved by Texas Instruments
6 L- p. I2 p' l0 k9 i# 11 4 ! (TAS3308AudioApp_1) Reserved by Texas Instruments$ D- C6 O. F' i" |2 p7 M5 `2 U
# 12 4 ! (TAS3308AudioApp_1) GPIO Control via I2C% p3 E% A" J- L# {; i
# 13 4 ! (TAS3308AudioApp_1) Reserved by Texas Instruments
" p5 k: E- S& u/ A8 H- X# 14 4 ! (TAS3308AudioApp_1) Reserved by Texas Instruments
5 i4 Q* c; k6 x3 F# 15 4 ! (TAS3308AudioApp_1) Master Download6 J9 \0 a: }3 ~8 V. o, S
# 16 4 ! (TAS3308AudioApp_1) Power Down control, m ^' d$ \6 ]; G* W
# 17 4 ! (TAS3308AudioApp_1) Reserved by Texas Instruments
# D/ x: b" h7 U- x; p6 p& O# 18 4 ! (TAS3308AudioApp_1) ADC Mux Control
6 K1 K6 g3 C2 W! L: C; N# 19 4 ! (TAS3308AudioApp_1) Reserved by Texas Instruments! [/ B/ \' m. H2 j( h6 A$ A3 r
# 20 4 ! (TAS3308AudioApp_1) Reserved by Texas Instruments% h9 K. C; J% t
# 21 4 ! (TAS3308AudioApp_1) Reserved by Texas Instruments
* K' }) t8 ?2 M" [: b O+ u# 22 4 ! (TAS3308AudioApp_1) SPDIF Control
2 Q: G" z- o0 m; ~5 w! q. e# 23 4 ! (TAS3308AudioApp_1) Fast Volume Ramp Control) N" Q& [" E$ V
# 24 4 ! (TAS3308AudioApp_1) PWM Control
9 l" L7 J/ A$ K5 B# L# 25 4 ! (TAS3308AudioApp_1) Reserved by Texas Instruments- d, j% |+ c' f
# 26 8 ! (TAS3308AudioApp_1) PWM Channel Delay and Offset
- C: ~8 w! u" |) G: M" Y1 W# 27 4 ! (TAS3308AudioApp_1) Reserved by Texas Instruments
/ n* \+ p/ ]& [- d7 E( u/ p# 28 4 ! (TAS3308AudioApp_1) Reserved by Texas Instruments( V& t$ ~. A4 D6 d4 @, ?* b, R% S' d
# 29 4 ! (TAS3308AudioApp_1) PWM Duty 50 Mode control1 V0 K; V3 C+ t- X" g z- ]% N
# 30 4 ! (TAS3308AudioApp_1) DSP Pgm Coutner Start Addr
* k% a) K0 _; O/ M: T# 31 4 ! (TAS3308AudioApp_1) Masterdownload
+ V$ T3 C$ j- Q2 Q$ i4 o5 {5 A# 32 20 ! (Subs_2) BiQuad Coefficients for Instance 1
6 i4 F! h1 j) d+ h/ N9 N8 n# 33 20 ! (Subs_2) BiQuad Coefficients for Instance 2
- f; ~3 Q/ _4 C# }1 j0 ]: X* Z6 X A0 S# 34 20 ! (GenEq1_4Bq_1) BiQuad Coefficients for Instance 1% m7 X+ Q0 d% q6 X w
# 35 20 ! (GenEq1_4Bq_1) BiQuad Coefficients for Instance 2- H. ]* x$ {2 w' j) x
# 36 20 ! (GenEq1_4Bq_1) BiQuad Coefficients for Instance 3( r5 R2 Y+ E% ^/ x& i1 y [% L
# 37 20 ! (GenEq1_4Bq_1) BiQuad Coefficients for Instance 4' C+ q' \3 [4 `" e$ ]. b2 y7 Q
# 38 20 ! (Voi2_4Bq_1) BiQuad Coefficients for Instance 1
; I& Y% t0 L9 l5 O: ^4 `! W+ ~$ T# 39 20 ! (Voi2_4Bq_1) BiQuad Coefficients for Instance 2* A$ s( v; }6 n- t& w$ A8 s
# 40 20 ! (Voi1_4Bq_1) BiQuad Coefficients for Instance 3. S4 J$ I$ F6 c& q; _
# 41 20 ! (Voi1_4Bq_1) BiQuad Coefficients for Instance 4
( y s: Q/ \4 ^2 k# j( d7 N# 42 20 ! (Room2_8Bq_1) BiQuad Coefficients for Instance 11 c5 G+ S6 u4 V- d1 C; H2 B
# 43 20 ! (Room1_8Bq_1) BiQuad Coefficients for Instance 2, Q# |$ e- s( B5 b. N# ^* z$ \
# 44 20 ! (Room1_8Bq_1) BiQuad Coefficients for Instance 3: L0 }, }5 j; f# q3 N
# 45 20 ! (Room2_8Bq_1) BiQuad Coefficients for Instance 4# B) G" h3 T& d2 B J2 q& K# ]
# 46 20 ! (Room2_8Bq_1) BiQuad Coefficients for Instance 5
2 z i- z+ t( r2 l& i" w, U# 47 20 ! (Room1_8Bq_1) BiQuad Coefficients for Instance 6( V9 p0 f, p( V1 k1 G! r
# 48 20 ! (Room2_8Bq_1) BiQuad Coefficients for Instance 7# \) E' K8 Y( D. A2 t! _5 S/ O
# 49 20 ! (Room1_8Bq_1) BiQuad Coefficients for Instance 8
; E$ `5 \% y+ m, L% |1 E8 h# 50 4 ! (MultI2C_8Ch_1) For Multiplier
6 ]# e2 M; w6 Z# k# 51 20 ! (Ekstra_2) BiQuad Coefficients for Instance 1, N5 {5 |; d; I$ p: W9 B5 ]7 \
# 52 20 ! (Ekstra_1) BiQuad Coefficients for Instance 2
+ E2 S+ P7 t9 A' T; _% v; r5 S# 53 20 ! (Ekstra_1) BiQuad Coefficients for Instance 3
{1 h1 d$ Y7 _' l# 54 20 ! (Ekstra_2) BiQuad Coefficients for Instance 4
! }; K& l- D5 t1 E+ `6 n# 55 20 ! (Ekstra_1) BiQuad Coefficients for Instance 54 e. F6 h& O5 c
# 56 20 ! (Ekstra_1) BiQuad Coefficients for Instance 63 m: M3 P: @! V' H7 B) e7 w6 v* |1 Y
# 57 20 ! (Ekstra_2) BiQuad Coefficients for Instance 7 g& W) P: m6 ]
# 58 20 ! (Ekstra_1) BiQuad Coefficients for Instance 8
& S" b: C- M1 p4 K# 59 8 ! (Max_vol_DRC_1) ae and 1_ae
' L: W1 \$ {7 s% s' T& }; f# 60 16 ! (Max_vol_DRC_1) T1_input and T2_input I. h# Q$ z+ D# F3 j
# 61 12 ! (Max_vol_DRC_1) k0, k1, and k2
- ]. s. f* e( F5 S* A# 62 16 ! (Max_vol_DRC_1) O1_input and O2_input
# C) D" Y$ K8 b4 l& e# 63 16 ! (Max_vol_DRC_1) aa, 1_aa, ad, and 1_ad4 l9 Y+ X( G$ F2 U+ @
# 64 8 ! (Max_vol_DRC_1) DRC enable# u" I, @2 {0 u! V* d
# 65 16 ! (Mix4Ch_C_1) Gain function for Channel 1-4! }6 u. J4 O) }/ y2 v0 m
# 66 16 ! (Mix4Ch_C_2) Gain function for Channel 1-4
' E- F$ V# h8 Z% f# 67 4
$ i" i+ ^# b. [4 L9 Z# 68 4
2 a& r$ ?$ d$ K5 W# [ g# 69 4 ) D0 \: e$ T' k$ S% @
# 70 4 ; N' H# U6 I+ w( F8 |
# 71 4
3 B# L$ |5 L' p' S$ N8 W& ~# 72 4
k, ^" ^( P( I9 y- l, m9 E, u, x# 73 4
, W. Z, L+ \/ Y4 m4 X: t- u# 74 4
1 N$ h0 d H% B3 f7 U! }# 75 4
9 E1 P$ L! u, {' h+ N8 B. R# 76 4
9 e) R1 O0 @% s9 |, q4 Y" \4 H* N5 U# 77 4 9 f, `* L8 r: B& Q7 E
# 78 4
% h2 Q) ^& X+ e9 {& w* Z# 79 4 / J- ^5 o; x i$ I0 t
# 80 4
" S; Y5 w" a l% N+ N2 g+ e! R4 e, @8 l# 81 4
/ k3 M0 h# _4 ]& f# 82 4 ) o" M( ~7 ?3 |& l) o3 m; X- h+ j* h. h
# 83 4 ; ~3 J' I* [4 k
# 84 4 $ |* c# N9 w }7 T& X0 O+ y, L1 z
# 85 4 }1 q7 v6 r: o/ |8 e$ e( R+ m
# 86 4 8 i8 H! a3 A3 u" D" ?
# 87 4 $ @) {6 H, m$ b) |
# 88 4
Q( E8 f4 w9 B# 89 4 & y$ M& f( g, _" q
# 90 4
9 W- ?6 K' Z; d! X' U" R# 91 8 ! (Late_DRC_1) ae and 1_ae/ `6 x$ O. t& G5 n; Z1 Y
# 92 16 ! (Late_DRC_1) T1_input and T2_input2 o) z9 K! ?2 \' f$ |
# 93 12 ! (Late_DRC_1) k0, k1, and k2 X0 e% ^# O3 l( G7 V! N& E
# 94 16 ! (Late_DRC_1) O1_input and O2_input5 k' S# X# N( X% J. H$ w! j
# 95 16 ! (Late_DRC_2) aa, 1_aa, ad, and 1_ad
# n6 B" R5 U, b+ c6 o1 z& {# 96 8 ! (Late_DRC_2) DRC enable6 _4 {+ m; V9 }
# 97 16 ! (Mix4Ch_C_3) Gain function for Channel 1-4
/ Q8 B! q, m# O- c- M# 98 16 ! (Input_mix_1) Ch1Gain - Ch4Gain
7 K4 l( T9 U: h# 99 16 ! (Mix_1) Gain for channels 1-4
' z. P! b m9 p/ E# 100 16 ! (Mix_1) Gain for channels 5-8+ S5 w& n- `) g$ s3 w7 [
# 101 4 ! (Volume_1) Volume Level for All Channels for this Volume Instance+ S- b# P3 A: ~7 Y2 T, v
# 102 20 ! (Driver_8Bq_2A_1) BiQuad Coefficients for Instance 1' r# i" [, i6 q$ A, G* G- W. D4 C
# 103 20 ! (Driver_8Bq_2A_1) BiQuad Coefficients for Instance 22 H6 R$ x8 e2 {" t# }) J I
# 104 20 ! (Driver_8Bq_1A_1) BiQuad Coefficients for Instance 3
" r1 ~" B3 D8 Y1 {' V# 105 20 ! (Driver_8Bq_1A_1) BiQuad Coefficients for Instance 4
) T9 e6 S% H! M. ?! P# 106 20 ! (Driver_8Bq_2A_1) BiQuad Coefficients for Instance 5
- M3 c4 B# c( V. u! c# 107 20 ! (Driver_8Bq_2A_1) BiQuad Coefficients for Instance 60 m m; F9 Q' s* [) E
# 108 20 ! (Driver_8Bq_2A_1) BiQuad Coefficients for Instance 7
: z, O8 _! a& H2 O5 M$ P# 109 20 ! (Driver_8Bq_1A_1) BiQuad Coefficients for Instance 8
# W ]- _- e# G9 x6 N# 110 20 ! (CrOv_4Bq_2A_1) BiQuad Coefficients for Instance 1' g6 F9 P7 u( B9 V/ ]; k
# 111 20 ! (CrOv_4Bq_2A_1) BiQuad Coefficients for Instance 2
+ r# C1 W& ?, Q7 r( A5 l1 k: h9 _5 ^# 112 20 ! (CrOv_4Bq_2A_1) BiQuad Coefficients for Instance 39 Q5 C3 v; S( ^. v) T9 g; I
# 113 20 ! (CrOv_4Bq_1A_1) BiQuad Coefficients for Instance 4
7 f) W: i& p% G# 114 8 ! (Loudness_1) Gain and Logarithmic Gain7 y+ l0 o, g4 J
# 115 16 ! (Loudness_1) Offset and Logarithmic Offset
/ |5 c# m! P( E* d; }7 b# 116 20 ! (Loudness_1) BiQuad1 Filter Coefficients
( m! W% e. R; i" x# 117 20 ! (Loudness_1) BiQuad2 Filter Coefficients7 @4 O4 R$ j, p+ P
# 118 4 ! (MultI2C_1A_1) Multiplier
, {& k e! F, ^# v2 p9 U8 {/ ^, w# 119 4 ! (MuxLoudness_2) Mux Control
+ X# Q: b. s5 k% u3 ~, F7 q# 120 16 ! (Mix4Ch_C_4) Gain function for Channel 1-4
6 O3 Y' M2 T1 ?$ ?4 B, l; I) C# 121 20 ! (CrOv_4Bq_1C_1) BiQuad Coefficients for Instance 1
: Y' }$ L) \/ b# 122 20 ! (CrOv_4Bq_2C_1) BiQuad Coefficients for Instance 2
) v3 A1 G3 f, Z K: }# 123 20 ! (CrOv_4Bq_2C_1) BiQuad Coefficients for Instance 3 T' g/ s# R0 ^8 J
# 124 20 ! (CrOv_4Bq_2C_1) BiQuad Coefficients for Instance 45 y/ t' Z; l; T& c
# 125 20 ! (Driver_8Bq_2C_1) BiQuad Coefficients for Instance 1
( A, H3 ~" {# D# A* P7 N( f# 126 20 ! (Driver_8Bq_1C_1) BiQuad Coefficients for Instance 2
( i9 m. } {1 e+ a# i) ]# J) l) B8 ?# 127 20 ! (Driver_8Bq_2C_1) BiQuad Coefficients for Instance 3/ O+ ?( v( Z: m' c2 X2 M
# 128 20 ! (Driver_8Bq_2C_1) BiQuad Coefficients for Instance 4
/ N* [4 {+ `! M' Y% P# 129 20 ! (Driver_8Bq_1C_1) BiQuad Coefficients for Instance 5
, T" |/ j! T! Z# u# 130 20 ! (Driver_8Bq_1C_1) BiQuad Coefficients for Instance 6
: Z R `6 {# Z# z8 x& A. ~# 131 20 ! (Driver_8Bq_2C_1) BiQuad Coefficients for Instance 7
+ Z. v h( h" y( Y& R6 _' T# 132 20 ! (Driver_8Bq_1C_1) BiQuad Coefficients for Instance 8
, g4 k5 @, [+ @2 Q: h# 133 20 ! (Bq_1) BiQuad Coefficients for Instance 18 u4 a1 d: |+ E. u, b+ z) u3 |( d
# 134 20 ! (Bq_1) BiQuad Coefficients for Instance 2
" Q; n# M6 J, \9 h- T+ I( C% [7 n, C# 135 20 ! (Bq_1) BiQuad Coefficients for Instance 3
- q/ p5 W9 n: O$ g# y8 `# 136 20 ! (Bq_1) BiQuad Coefficients for Instance 4( j: m A# \* z% N/ k% B4 M/ X
# 137 20 ! (Bq_1) BiQuad Coefficients for Instance 5& d7 R( N7 f: t* r6 b
# 138 20 ! (Bq_1) BiQuad Coefficients for Instance 6) ]4 A) b2 w0 Y- g& D. i3 n0 F
# 139 4 ! (MultI2C_C_1) Multiplier* b( }1 D8 h6 \' G6 B. J2 h
# 140 20 ! (CrOv_4Bq_2B_1) BiQuad Coefficients for Instance 1
( }8 C) f3 z) R) C3 d: Y7 _ {. [# 141 20 ! (CrOv_4Bq_2B_1) BiQuad Coefficients for Instance 2
7 l" y3 y8 ?8 }. z# 142 20 ! (CrOv_4Bq_1B_1) BiQuad Coefficients for Instance 3$ q# \2 V0 o5 ]* g, z+ ]& _3 b
# 143 20 ! (CrOv_4Bq_1B_1) BiQuad Coefficients for Instance 4' f8 p4 B8 v2 Q0 z1 G
# 144 20 ! (Driver_8Bq_2B_1) BiQuad Coefficients for Instance 1& l! z% b# k8 s( s
# 145 20 ! (Driver_8Bq_1B_1) BiQuad Coefficients for Instance 2. D1 g( Y( ^# Q+ d
# 146 20 ! (Driver_8Bq_1B_1) BiQuad Coefficients for Instance 3
" ]+ [; `; D: A# 147 20 ! (Driver_8Bq_1B_1) BiQuad Coefficients for Instance 4
& f) r6 A# N% B# 148 20 ! (Driver_8Bq_2B_1) BiQuad Coefficients for Instance 5& B% E9 M0 t. z2 Q7 o
# 149 20 ! (Driver_8Bq_1B_1) BiQuad Coefficients for Instance 6( \' L3 C! V3 S! \2 A3 H7 V
# 150 20 ! (Driver_8Bq_2B_1) BiQuad Coefficients for Instance 7. O" V- f o# x; w6 M! v
# 151 20 ! (Driver_8Bq_1B_1) BiQuad Coefficients for Instance 8$ {7 K0 {) S9 W% v7 W0 X
# 152 4 ! (MultI2C_2B_1) Multiplier
$ g, D. D$ {& |/ F# Q/ z# 153 20 ! (LRH_1) BiQuad Coefficients for Instance 1- V# B6 k4 z% }' j/ J# Y+ v" Q
# 154 20 ! (LRH_1) BiQuad Coefficients for Instance 2
* V" T! C4 H$ r; H# 155 8 ! (Exc_limit_1) ae and 1_ae
! q9 c; \4 M$ i9 w+ s2 V# h# 156 16 ! (Exc_limit_1) T1_input and T2_input2 h" a1 b! p6 s l5 n% Y: ?
# 157 12 ! (Exc_limit_1) k0, k1, and k28 I0 S* q3 x! q5 }7 M' g
# 158 16 ! (Exc_limit_1) O1_input and O2_input
' T D6 o' |, T: d3 c/ q& c" Y, T# 159 16 ! (Exc_limit_1) aa, 1_aa, ad, and 1_ad& s$ S! b5 }8 f2 {% `
# 160 8 ! (Exc_limit_1) DRC enable# m& n9 R9 v1 [
# 161 8 ! (DRCref1Ch_1) ae and 1_ae+ Q9 l7 z8 D( A( O6 `+ R
# 162 16 ! (DRCref1Ch_2) T1_input and T2_input: N* J7 Q( X$ s
# 163 12 ! (DRCref1Ch_1) k0, k1, and k2
/ @+ n) ^5 ?' w @0 |& O$ I8 l# 164 16 ! (DRCref1Ch_1) O1_input and O2_input, h, f" ^1 D' T3 k. ]' s0 o
# 165 16 ! (DRCref1Ch_2) aa, 1_aa, ad, and 1_ad* z+ ?) M( R) w' \1 G( Z1 x! d
# 166 8 ! (DRCref1Ch_1) DRC enable4 t4 J: J0 u6 @9 m! i j
# 167 16 ! (Mix4Ch_1) Gain function for Channel 1-4
" ]8 h; u$ S, k# o" R# 168 16 ! (Mix4Ch_2) Gain function for Channel 1-4, I' r ]. h6 z1 r2 K1 N
# 169 16 ! (Mix_2) Gain function for Channel 1-40 F! R4 _' E8 ^$ d% e7 s
# 170 20 ! (Bq_2) BiQuad Coefficients for Instance 1
0 I5 S) @1 Z0 g4 ?# 171 20 ! (Bq_2) BiQuad Coefficients for Instance 2
3 A" y. X5 p5 U5 U- d5 O# 172 20 ! (Bq_2) BiQuad Coefficients for Instance 3
! F; S" P0 {0 f. i' F# 173 16 ! (Mix_3) Gain function for Channel 1-4: Y- e( [5 a9 g" `. I
# 174 8 ! (Soft_1) ae and 1_ae J E# z) X% X( @7 ~5 {; g% X
# 175 16 ! (Soft_1) T1_input and T2_input& U& \" |5 T# H) Y
# 176 12 ! (Soft_1) k0, k1, and k2% d& ]. C M( [$ Z2 [+ I
# 177 16 ! (Soft_1) O1_input and O2_input
- K7 p4 ~, U8 V& t4 Y" w& `# 178 16 ! (Soft_1) aa, 1_aa, ad, and 1_ad6 p, ]% A, i8 _9 b& M) @7 W6 P( b
# 179 8 ! (Soft_1) DRC enable3 O$ H5 j9 m3 ?5 R$ j
# 180 16 ! (Mix_4) Gain function for Channel 1-4
6 |) s+ Y1 s* P" g0 q& G/ k# 181 4 ! (M_BQ1_1) Multiplier
5 m/ F$ v" S8 R9 f# 182 20 ! (V2X_1) BiQuad Coefficients for Instance 1/ J. I" {; v Y Y
# 183 20 ! (V2X_1) BiQuad Coefficients for Instance 2
1 D7 b" l( ~. A+ m# 184 20 ! (LRL_X2V_1) BiQuad Coefficients for Instance 1
1 Z* W2 \, [* p# 185 20 ! (LRL_X2V_1) BiQuad Coefficients for Instance 2
! ~+ t7 M6 j- H) s. L' f3 X# 186 20 ! (LRL_X2V_1) BiQuad Coefficients for Instance 3
( e" e. P1 C! f }; i# 187 20 ! (LRL_X2V_1) BiQuad Coefficients for Instance 4
% v( Z6 j) O( v# H) A& z: Z, @# 188 16 ! (Crossbar_1) Mixer values for X11, X21, X31, X41! c6 o' h) p+ }7 {
# 189 16 ! (Crossbar_1) Mixer values for X12, X22, X32, X42+ y$ M- d' E* x. s$ ^* K
# 190 16 ! (Crossbar_1) Mixer values for X13, X23, X33, X43
6 w" c/ H6 ?" C2 T& A# 191 16 ! (Crossbar_1) Mixer values for X14, X24, X34, X44* u) Z2 ^9 b+ K* H, x3 L- z
# 192 16 ! (Crossbar_1) Mixer values for X51, X52, X53, X542 @' N. I4 O' b* Q/ Y3 a
# 193 16 ! (Crossbar_1) Mixer values for X55, X15, X25, X35
' p0 S. a: n p$ ?2 b9 @# 194 16 ! (Crossbar_1) Mixer values for X45, X61, X62, X63, [! q2 f( e: |9 P, R9 V
# 195 16 ! (Crossbar_1) Mixer values for X64, X65, X66, X16& t# h8 I5 [5 d4 v3 ]/ i+ I
# 196 16 ! (Crossbar_1) Mixer values for X26, X36, X46, X56
! m& e6 T( u( Z m* w- w K' U) }# 197 16 ! (Crossbar_1) Mixer values for X71, X72, X73, X74% g+ y$ I" G `
# 198 16 ! (Crossbar_1) Mixer values for X75, X76, X17, X27/ L% b' \; p G
# 199 16 ! (Crossbar_1) Mixer values for X37, X47, X57, X67
7 `2 o! Z4 v* S4 E) t! F# T' T; r1 _) S# 200 4 ! (TAS3308AudioApp_1) Delay Pointer 0 and 1 Length
p+ z* V% A6 z& W) b0 F6 l. J# 201 4 ! (TAS3308AudioApp_1) Delay Pointer 2 and 3 Length3 c2 Z0 |+ @( `9 [ W0 E
# 202 4 ! (TAS3308AudioApp_1) Delay Pointer 4 and 5 Length
6 J" v- O5 e! {. f& @+ A6 J# 203 4 ! (TAS3308AudioApp_1) Delay Pointer 6 and 7 Length
) G- K1 H1 e P" E; s# 204 4 ! (TAS3308AudioApp_1) Delay Pointer 8 and 9 Length6 K3 w0 C3 O( {& q
# 205 4 ! (TAS3308AudioApp_1) Delay Pointer 10 and 11 Length; l7 d6 t2 U/ R! `# Q6 Z8 }
# 206 4 ! (TAS3308AudioApp_1) Delay Pointer 12 and 13 Length
4 z( D8 u6 F3 q4 {" S# 207 4 ! (TAS3308AudioApp_1) Delay Pointer 14 and 15 Length
" A! q- ]' ]5 s! ]# 208 4 ! (TAS3308AudioApp_1) Reverb Pointer 0 and 1 Length9 p, I4 D9 I+ }) \
# 209 4 ! (TAS3308AudioApp_1) Reverb Pointer 2 and 3 Length! @0 U5 Y: M( T5 |
# 210 4 ! (TAS3308AudioApp_1) Reverb Pointer 4 and 5 Length
0 P- \1 ^2 Y# A: e$ Y5 V# V# 211 4 ! (TAS3308AudioApp_1) Reverb Pointer 6 and 7 Length. ]# C O7 i! _' G7 G
# 212 4 ! (TAS3308AudioApp_1) Delay Pointer Update Flag, E' G' V- z& V- @. C0 V
# 213 16 ! (Crossbar_1) Mixer values for X77, X81, X82, X83
' B/ w0 M H+ A7 i+ F# 214 16 ! (Crossbar_1) Mixer values for X84, X85, X86, X87
6 p$ N9 t/ P! R) U2 O* d# 215 16 ! (Crossbar_1) Mixer values for X18, X28, X38, X48
# a- _% Y4 {" e! c' h! P9 ]1 \, a( D# 216 16 ! (Crossbar_1) Mixer values for X58, X68, X78, X88
# Z% _4 O9 i/ p' F' O7 G1 _: s2 x0 r# 217 8 ! (DRC_C_1) ae and 1_ae; [8 Y2 K: J0 M2 t' Y
# 218 16 ! (DRC_C_1) T1_input and T2_input
8 m, E! E( G0 _- _* Z& z# 219 12 ! (DRC_C_1) k0, k1, and k20 G C; V! T. x7 u; g
# 220 16 ! (DRC_C_1) O1_input and O2_input
; T3 ^; Q" O2 Y# 221 16 ! (DRC_C_1) aa, 1_aa, ad, and 1_ad
5 _$ h( S+ @, o) Z. a+ G( [# 222 8 ! (DRC_C_1) DRC enable/ _/ B7 k. \5 ?" v+ e! T
# 223 4 ! (MultI2C_1A_2) Multiplier
" i0 A1 ^4 Y! A6 c W2 W! M0 k/ c# 224 4 ! (MultI2C_1B_2) Multiplier
- ]$ n3 s q8 [# 225 4
& H) K% f2 w( e+ b# 226 4
! ?) e" C$ B$ W% U2 f- J' M# 227 4 % g) |8 ^* k- ^- g
# 228 4
% U1 y' @) e8 t% k" I* v5 r# 229 4 0 ~1 x, {4 h7 n# P! {
# 230 4 4 H0 C( f3 ~7 U/ A
# 231 4
# G% ]3 ? C1 p. ?% z8 g" ?# 232 4
; z7 ?( V0 y/ [) e. q5 m# 233 4 6 P: ]0 ?5 y& t5 [ a( ]
# 234 4
9 F! Z( `( I* K p& H9 q* J# 235 4 # J; u6 [; T6 q# S* Y$ u' @
# 236 4 4 X, k* n3 Y1 y: z
# 237 4
& R2 I$ w/ [* p9 {( t# 238 4
2 d9 r t8 ?+ G' ~6 O0 J5 @# 239 4 7 I8 ~5 n! ~; F6 `. u
# 240 4 8 o/ M' E$ ^7 {- e
# 241 4 2 F/ ?/ O, N( P& @9 B- t% b+ [
# 242 4 ; h# D0 t! d. [2 o& D
# 243 4 " e) o" W- n, Q+ q0 H( J7 n
# 244 4
; d" ]" L2 t% d) w4 ~ M( Q7 _# 245 4 " X- F2 n5 f( U+ f: g0 Q
# 246 4
5 {. w% `1 d. d: J( g Z# 247 4 1 m! H7 l: {, U) L
# 248 4 4 f9 _! X$ y. @6 F
# 249 4 , N0 y& @7 J' b ^( m# y( j
# 250 4 % H& J2 v5 y: `( b: b+ _2 ?
# 251 4
, C6 m T" s, @# 252 4 $ t ?( l2 c, u2 t" g' x
# 253 4
, i, E; R% T# ~% {7 K/ m; `$ O# 254 4 1 T' V" F) g% t* A
# 255 4 |
发表于 2006-5-22 12:06:00
