嵌入式开发者社区
标题:
C6747利用McASP发送中断方式完成音频输入信号的直接输出
[打印本页]
作者:
yusijiangchengm
时间:
2016-3-15 16:07
标题:
C6747利用McASP发送中断方式完成音频输入信号的直接输出
C6747和C6748感觉差不多,我想实现McASP发送中断方式控制音频信号,在轮询的例程基础上改的,轮询程序可以实现,但是中断一直实现不了,也找不到错误,求大神帮忙!下边是主要程序:
* W) t/ S( U( K
main文件:
3 {8 m2 H2 s9 G* G6 {
interrupt void interrupt4(void)
. z: U4 w# M) U, }. L0 g
{
' |6 V6 Q8 B/ Y! ?2 m
Uint32 sample;
: {4 O! T0 \* X
+ a& g; }/ S: H' }4 t! y. v& ]3 h9 x; o
sample = input_sample(); // read L + R samples from ADC
, r! \) z2 h7 V$ v6 r, Z0 F
output_sample(sample); // write L + R samples to DAC
?' ^! C- e0 P9 G2 q
return;
4 c" o+ c8 S" T* H
}
' y w% ^& @, x0 w" l) ^2 k6 n
1 ]- \' n/ `/ M. Y, a8 z+ B
int main( void )
7 Q# F9 A. r8 R2 R {1 q3 f! o) t t
{
4 _& M* O H. ^: q
6 c* a0 F2 y" K: k) D
/* Initialize BSL */
0 Q/ D Y; j' L: u
EVMC6747_init( );
; e& Z0 _+ |/ H& }; Z3 U. }2 Y
/* Call evmc6747_intr function */
6 r( S! \- a$ A, }, m
aic3106_init( );
2 A6 C. ~6 _5 u6 S- o
while(1);
; G8 |* p4 D/ @# q5 D5 L8 V
}
- c, h% `$ `0 Z% |0 v4 c4 l
9 O; K6 l9 B& _9 ?! q7 h; }3 Z
" d. M8 O5 Z7 _6 q. R
aic3106_init文件的一部分,McASP配置部分,采用内部时钟,I2S方式,同步传输。音频芯片的配置应该没问题
' X5 {" i# v* w! t* y3 q
/* Initialize MCASP1 */
1 w/ Y u) }$ a a+ J) x: T
mcasp = &MCASP_MODULE_1;
- S- L- Q" @( h# K. O6 |. Y
mcasp->regs->GBLCTL = 0; // Reset
( L4 B, `, u O i" z2 U
mcasp->regs->RGBLCTL = 0; // Reset RX
$ | r& m! p* \( Y h% Q' R( m" G
mcasp->regs->XGBLCTL = 0; // Reset TX
' A" F& y( C; z1 M4 ?
mcasp->regs->PWRDEMU = 1; // Free-running
4 ?% w4 W4 A+ `' w6 b9 D7 b
// configure McASP0 receive registers
0 h' Q! U% \5 o" ?/ x/ P3 P) i
mcasp->regs->RMASK = 0xFFFFFFFF; // No padding used
7 t5 O. p# v6 y) Q, L' d
mcasp->regs->RFMT = 0x00018078; // MSB 16bit, 0-delay, no pad, CFGBus
0 S: e s% K% Q7 `( i0 E
mcasp->regs->AFSRCTL = 0x00000112; // 2TDM, 1bit Falling, External FS, word
% Q* S* h8 O. O- O5 E# ]
mcasp->regs->ACLKRCTL = 0x000000AF; // Rising INTERNAL CLK,(from tx side)
0 q; n% {! n* M9 t
mcasp->regs->AHCLKRCTL = 0x00000000; // INT CLK (from tx side)
( V8 o8 U# s# |% t; R/ w! @1 r
mcasp->regs->RTDM = 0x00000003; // Slots 0,1
3 |+ J# V- J: q- B4 Y O) k8 R
mcasp->regs->RINTCTL = 0x00000000; // Not used
# A R" d6 |% J
mcasp->regs->RCLKCHK = 0x00FF0008; // 255-MAX 0-MIN, div-by-256
/ n3 N8 V+ r9 ]% I
* Z" y) ^) w+ D3 {/ k: V2 g
mcasp->regs->XMASK = 0xFFFFFFFF; // No padding used
g a" q" ?% m0 O* _# `9 L8 O
mcasp->regs->XFMT = 0x00018078; // MSB 16bit, 0-delay, no pad, CFGBus
3 a# C, b1 o0 G# F) X
mcasp->regs->AFSXCTL = 0x00000112; // 2TDM, 1bit Rising edge INTERNAL FS, word
0 t1 }" j' D3 o, L2 S* h
mcasp->regs->ACLKXCTL = 0x000000AF; // ASYNC, Rising INTERNAL CLK, div-by-16
) B# A* h: Y( c, c4 j& M- O
mcasp->regs->AHCLKXCTL = 0x00000000; // EXT CLK
/ o! } H# ?# x( R! B- H9 D
mcasp->regs->XTDM = 0x00000003; // Slots 0,1
0 m! P8 G" \% e* a `: A+ Y, W" m
mcasp->regs->XINTCTL = 0x00000020; // interrupt on transmit
, T; c& _- e7 W7 R7 S0 }+ v5 [$ d$ b
mcasp->regs->XCLKCHK = 0x00FF0008; // 255-MAX 0-MIN, div-by-256
( [( Q9 N7 t$ h2 X
/ Q# O7 v: q+ z/ x
mcasp->regs->SRCTL5 = 0x000D; // MCASP1.AXR1[5] --> DIN
9 L) j. H- y1 y+ a/ ^& P
mcasp->regs->SRCTL0 = 0x000E; // MCASP1.AXR1[0] <-- DOUT
3 X( B! d' J/ W$ k# n
mcasp->regs->PFUNC = 0; // All MCASPs
* s! k0 \1 X8 r6 c. @
mcasp->regs->PDIR = 0x14000020; // All inputs except AXR0[5], ACLKX1, AFSX1
3 k" l2 y! x& ?0 b. J1 i2 Z) Y R
! F: F! k7 ] y. ]
mcasp->regs->DITCTL = 0x00000000; // Not used
# N& `8 d- T# z: I0 I8 u
mcasp->regs->DLBCTL = 0x00000000; // Not used
, X9 g( }. s# Z, g' ~3 a
mcasp->regs->AMUTE = 0x00000000; // Not used
" W( p k; z2 I6 a0 z
6 A2 e N: w& }- r) `% ]5 ^1 }4 g
/* Starting sections of the McASP*/
/ P5 F* a& f1 I4 A4 [0 z& G" t: e
mcasp->regs->XGBLCTL |= GBLCTL_XHCLKRST_ON;
5 L, {+ ^; J m" R1 ^
while ( ( mcasp->regs->XGBLCTL & GBLCTL_XHCLKRST_ON ) != GBLCTL_XHCLKRST_ON );
& I8 K. C3 z4 X( r
mcasp->regs->RGBLCTL |= GBLCTL_RHCLKRST_ON;
* A% k& R4 U' s- P. @ G
while ( ( mcasp->regs->RGBLCTL & GBLCTL_RHCLKRST_ON ) != GBLCTL_RHCLKRST_ON );
# i/ I* z4 u, |) [8 S1 @
* S3 W# }9 N: y; a. e
mcasp->regs->XGBLCTL |= GBLCTL_XCLKRST_ON;
, u4 `% p/ F5 K+ q& Z3 L
while ( ( mcasp->regs->XGBLCTL & GBLCTL_XCLKRST_ON ) != GBLCTL_XCLKRST_ON );
" U$ C9 \) w r3 `2 L# m! m
mcasp->regs->RGBLCTL |= GBLCTL_RCLKRST_ON;
' z; \8 ~' c. f
while ( ( mcasp->regs->RGBLCTL & GBLCTL_RCLKRST_ON ) != GBLCTL_RCLKRST_ON );
Q, E7 B8 K/ g! D& B
' X1 H v* z9 t0 h
mcasp->regs->XSTAT = 0x0000ffff;
1 p. G) `6 t! W9 V5 \+ v* u
mcasp->regs->RSTAT = 0x0000ffff;
) T, @2 I2 h p+ J7 d1 `
5 `2 q( G$ N! p$ X$ q
mcasp->regs->XGBLCTL |= GBLCTL_XSRCLR_ON;
6 T4 i0 r9 s' A/ k& |
while ( ( mcasp->regs->XGBLCTL & GBLCTL_XSRCLR_ON ) != GBLCTL_XSRCLR_ON );
" ?! l9 k% {+ |! L& z
mcasp->regs->RGBLCTL |= GBLCTL_RSRCLR_ON;
" ]- h d5 r' d$ {
while ( ( mcasp->regs->RGBLCTL & GBLCTL_RSRCLR_ON ) != GBLCTL_RSRCLR_ON );
: U# r: R! t, [2 K" j0 ]
2 V9 P$ f8 @, R) H
/* Write a 0, so that no underrun occurs after releasing the state machine */
; u7 I9 C1 ~9 I2 ]. A% ?& @
mcasp->regs->XBUF5 = 0;
$ k6 ?8 N2 X# P1 \
mcasp->regs->RBUF0 = 0;
3 R' R9 X) I2 m- c
5 r% L- A8 \9 }- R2 L% M
mcasp->regs->XGBLCTL |= GBLCTL_XSMRST_ON;
" X- c' W; S5 c# J( {
while ( ( mcasp->regs->XGBLCTL & GBLCTL_XSMRST_ON ) != GBLCTL_XSMRST_ON );
# X1 x6 j& F D; z3 |
mcasp->regs->RGBLCTL |= GBLCTL_RSMRST_ON;
% L/ D& y) f0 k; i a+ _" j
while ( ( mcasp->regs->RGBLCTL & GBLCTL_RSMRST_ON ) != GBLCTL_RSMRST_ON );
, e9 f8 D+ n# d) J# L0 o
4 E+ h: \$ e* I+ `* t
mcasp->regs->XGBLCTL |= GBLCTL_XFRST_ON;
7 T+ Q- x3 Q0 z
while ( ( mcasp->regs->XGBLCTL & GBLCTL_XFRST_ON ) != GBLCTL_XFRST_ON );
* N0 d& s. n) A. }6 v3 K, A* N
mcasp->regs->RGBLCTL |= GBLCTL_RFRST_ON;
6 p# u9 g; F2 k! A
while ( ( mcasp->regs->RGBLCTL & GBLCTL_RFRST_ON ) != GBLCTL_RFRST_ON );
$ v) ], Z$ g2 K4 @+ G- i
2 N0 \: m; t8 ~* A) c N
CSR = 0x0000;
8 r* X; J# P' c# E6 \4 d8 r
INTC_INTMUX1 = 0x3d;
& _! U; G$ F: x; N# [
ISTP = (unsigned int)vectors;
7 n p' L+ y U: h4 d ^
ICR = 0xFFF0;
0 x+ a$ P5 Q+ }0 T
IER |= 0x12;
# E2 ]2 z( m" c3 D
CSR |= 0x01;
4 |! T2 D! w: V5 U+ w
0 W2 E6 b+ C7 K, @5 P
5 I7 P2 R: c3 _/ F% y% e7 Q3 ?& d" n
4 I- z" u, s/ w4 z: N# b' E
还有就是两个输入输出函数:
" ]4 i3 s- `: E9 C0 z7 }6 ?2 g% ~# r
void output_sample(Int32 out_data)
t' V3 F- p/ k+ ]+ T2 l
{
9 {0 g% \1 i7 t* E4 _( e: U/ d: H
AIC31_data.uint = out_data;
" B$ ^& v) W* a/ Q: F
MCASP1_XBUF5_32BIT = AIC31_data.uint;
3 v/ ~7 g) c9 G6 G. ]# q
}
U9 k0 z1 ~ a$ L5 z# s
' n% U8 @) a' T( j
Int32 input_sample(void)
( ^, q. D- ]+ T* W) F
{
2 [9 j$ D& X+ t% T
AIC31_data.uint = MCASP1_RBUF0_32BIT;
6 ^1 C# m/ p6 \. ^" g
return (AIC31_data.uint);
# L1 _% H5 q6 ?* x8 _- e/ o
}
) O! n4 o3 t: E# |" d/ G
4 X! ?/ |8 Q% r9 v
作者:
human
时间:
2016-3-16 11:55
可以参看创龙提供的例程:AUDIO_LINE_OUT_INTR——Line Out 音频输出(中断方式)
欢迎光临 嵌入式开发者社区 (https://www.51ele.net/)
Powered by Discuz! X3.4