Esempio n. 1
0
main()
{
	LOG_printf(&myLog, "main begin");
	/*DSK6713_LED_toggle(0);
	DSK6713_LED_toggle(1);
	DSK6713_LED_toggle(2);
	DSK6713_LED_toggle(3);*/
	hMcbsp = 0;

	
	CSL_init();  
	
	/* Configure McBSP0 and AIC23 */
	Config_DSK6713_AIC23();
	
	/* Configure McBSP1*/
	hMcbsp = MCBSP_open(MCBSP_DEV1, MCBSP_OPEN_RESET);
    MCBSP_config(hMcbsp, &datainterface_config);
    
	/* configure EDMA */
    config_EDMA();

    /* finally the interrupts */
    config_interrupts();

    //MCBSP_start(hMcbsp, RRST, 0xffffffff);									//	EIGEN!!!:	Start Field: Recieve
    MCBSP_start(hMcbsp, MCBSP_RCV_START | MCBSP_XMIT_START | MCBSP_SRGR_START | MCBSP_SRGR_FRAMESYNC, 220);		//	EIGEN!!!:	Start Field: Recieve
    																			//				Es gibt auch noch MCBSP_SRGR_START (start sample Rate Generator) und MCBSP_SRGR_FRAMESYNC (start frame sync. generation)
    MCBSP_write(hMcbsp, 0x0); 	/* one shot */
	LOG_printf(&myLog, "main end");

	//DSK6713_LED_toggle(2);
} /* finished*/
void Config_DSK6713_AIC23(void)
{
	/* Handle für Steuerkanal */
	MCBSP_Handle hMcbsp0;
	unsigned short i;

	hMcbsp0 = MCBSP_open(MCBSP_DEV0, MCBSP_OPEN_RESET);       /*************/
    MCBSP_config(hMcbsp0, &mcbspforAIC23Cfg);					/*************/
    MCBSP_start(hMcbsp0, MCBSP_XMIT_START | MCBSP_SRGR_START  | MCBSP_SRGR_FRAMESYNC, 220);
  
	/* jetzt alle Register konfigurieren */	
	/* ein Reset am Anfang ist immer gut, Register 15 --> 0 */
	/* die 0 haben wir uns gespart, nach AIC23_registers aufzunehmen */
    set_aic23_register(hMcbsp0,15,0);

    /* power-down Register zuerst */
    set_aic23_register(hMcbsp0,6,myAIC23_registers[6]);

    /* jetzt die anderen */
    for (i = 0; i < 6; i++)
      set_aic23_register(hMcbsp0,i,myAIC23_registers[i]);
    for (i = 7; i < 10; i++)
      set_aic23_register(hMcbsp0,i,myAIC23_registers[i]);     

	 /* fertig, aber MCBSP nicht schließen, sonst kein Takt an Codec!*/
}
Esempio n. 3
0
main()
{

	CSL_init();  
	
	/* Configure McBSP0 and AIC23 */
	Config_DSK6713_AIC23();
	
	/* Configure McBSP1*/
	hMcbsp = MCBSP_open(MCBSP_DEV1, MCBSP_OPEN_RESET);
    MCBSP_config(hMcbsp, &datainterface_config);
    
	/* configure EDMA */
    config_EDMA();

	DSK6713_LED_off(0);
	DSK6713_LED_on(1);
	DSK6713_LED_off(2);
	DSK6713_LED_on(3);
    /* finally the interrupts */
    config_interrupts();

    MCBSP_start(hMcbsp, MCBSP_XMIT_START | MCBSP_RCV_START, 0xffffffff);		// Start Audio IN & OUT transmision
    MCBSP_write(hMcbsp, 0x0); 	/* one shot */

    configComplete = 1;
    //t_reg = DSK6713_rget(DSK6713_MISC);
    //t_reg |= MCBSP1SEL;				// Set MCBSP1SEL to 1 (extern)
    //DSK6713_rset(DSK6713_MISC,t_reg);

} /* finished*/
void mcbspSetup()
{
	mcbspControlHandle = MCBSP_open(MCBSP_DEV0, MCBSP_OPEN_RESET);
	mcbspDataHandle = MCBSP_open(MCBSP_DEV1, MCBSP_OPEN_RESET);
	if(mcbspControlHandle == INV || mcbspDataHandle == INV)
	{
		return;
	}
	MCBSP_config(mcbspControlHandle, &mcbsp_control_config);
	MCBSP_config(mcbspDataHandle, &mcbsp_data_config);
	MCBSP_start(mcbspControlHandle, MCBSP_XMIT_START | MCBSP_RCV_START | MCBSP_SRGR_START | MCBSP_SRGR_FRAMESYNC, 220);
	codec_reset();
	
	codec_config();
	if (MCBSP_rrdy(mcbspDataHandle))
		MCBSP_read(mcbspDataHandle);
	MCBSP_start(mcbspDataHandle, MCBSP_XMIT_START | MCBSP_RCV_START | MCBSP_SRGR_START | MCBSP_SRGR_FRAMESYNC, 220);
}
Esempio n. 5
0
/*
 *  initMcbsp() - Initialize the McBSP for codec data transfers using the
 *                configuration define at the top of this file.
 */
void initMcbsp()
{
    /* Open the codec data McBSP */
    hMcbsp1 = MCBSP_open(MCBSP_DEV1, MCBSP_OPEN_RESET);

    /* Configure the codec to match the AIC23 data format */
    MCBSP_config(hMcbsp1, &mcbspCfg1);

    /* Start the McBSP running */
    MCBSP_start(hMcbsp1, MCBSP_XMIT_START | MCBSP_RCV_START |
        MCBSP_SRGR_START | MCBSP_SRGR_FRAMESYNC, 220);
}
Esempio n. 6
0
void DSK6713_configure_AIC23() {
	/* Configure McBSP0 as control interface for aic23 */
	MCBSP_Handle MCBSP0_handle;
	MCBSP0_handle = MCBSP_open(MCBSP_DEV0, MCBSP_OPEN_RESET);

	MCBSP_config(MCBSP0_handle, &MCBSP0_config);
	MCBSP_start(MCBSP0_handle, MCBSP_XMIT_START | MCBSP_SRGR_START | MCBSP_SRGR_START, 220);

	set_aic23_register(MCBSP0_handle, RESET_REGISTER, 0x0000);
	set_aic23_register(MCBSP0_handle, POWER_DOWN_CONTROL, 0x0000);
	set_aic23_register(MCBSP0_handle, LEFT_LINE_INPUT_CHANNEL_VOLUME, 0x0017);
	set_aic23_register(MCBSP0_handle, RIGHT_LINE_INPUT_CHANNEL_VOLUME, 0x0017);
	set_aic23_register(MCBSP0_handle, LEFT_CHANNEL_HEADPHONE_VOLUME, 0x00f9);
	set_aic23_register(MCBSP0_handle, RIGHT_CHANNEL_HEADPHONE_VOLUME, 0x00f9);
	set_aic23_register(MCBSP0_handle, ANALOG_AUDIO_PATH, 0x0011);			// 00001 0010
	set_aic23_register(MCBSP0_handle, DIGITAL_AUDIO_PATH, 0x0000);			// 000000000
	set_aic23_register(MCBSP0_handle, DIGITAL_AUDIO_INTERFACE_FORMAT, 0x0043);	//0 0100 0001
	set_aic23_register(MCBSP0_handle, SAMPLE_RATE_CONTROL, 0x000d);		// 01100
	set_aic23_register(MCBSP0_handle, DIGITAL_INTERFACE_ACTIVATION, 0x0001);

	/* Configure McBSP1 as data interface for aic23 */
	MCBSP_Handle MCBSP1_handle;
	MCBSP1_handle = MCBSP_open(MCBSP_DEV1, MCBSP_OPEN_RESET);
	MCBSP_config(MCBSP1_handle, &MCBSP1_config);
	MCBSP_start(MCBSP1_handle, MCBSP_XMIT_START|MCBSP_RCV_START|MCBSP_SRGR_FRAMESYNC|MCBSP_SRGR_START, 220);

	/* Configure receive EDMA */
	EDMA_Handle hEdmaRcv;
	EDMA_Handle hEdmaRcvA;
	EDMA_Handle hEdmaRcvB;

	hEdmaRcv = EDMA_open(EDMA_CHA_REVT1, EDMA_OPEN_RESET);
	hEdmaRcvA = EDMA_allocTable(-1);
	hEdmaRcvB = EDMA_allocTable(-1);

	gEdmaRcvConfig.src = MCBSP_getRcvAddr(MCBSP1_handle);		// Get address of DRR
	gTccRcvChan = EDMA_intAlloc(-1);							// get next free transfer complete code
	gEdmaRcvConfig.opt |= EDMA_FMK(OPT, TCC, gTccRcvChan);
	EDMA_config(hEdmaRcv, &gEdmaRcvConfig);
	EDMA_config(hEdmaRcvA, &gEdmaRcvConfig);
	gEdmaRcvConfig.dst = EDMA_DST_OF(gRcvBufferB);
	EDMA_config(hEdmaRcvB, &gEdmaRcvConfig);

	EDMA_link(hEdmaRcv, hEdmaRcvB);
	EDMA_link(hEdmaRcvB, hEdmaRcvA);
	EDMA_link(hEdmaRcvA, hEdmaRcvB);

	/* Configure transmit EDMA */
	EDMA_Handle hEdmaXmt;
	EDMA_Handle hEdmaXmtA;
	EDMA_Handle hEdmaXmtB;

	hEdmaXmt = EDMA_open(EDMA_CHA_XEVT1, EDMA_OPEN_RESET);
	hEdmaXmtA = EDMA_allocTable(-1);
	hEdmaXmtB = EDMA_allocTable(-1);

	gEdmaXmtConfig.dst = MCBSP_getXmtAddr(MCBSP1_handle);		// Get address of DXR
	gTccXmtChan = EDMA_intAlloc(-1);							// get next free transfer complete code
	gEdmaXmtConfig.opt |= EDMA_FMK(OPT, TCC, gTccXmtChan);
	EDMA_config(hEdmaXmt, &gEdmaXmtConfig);
	EDMA_config(hEdmaXmtA, &gEdmaXmtConfig);
	gEdmaXmtConfig.src = EDMA_DST_OF(gXmtBufferB);				// set source to buffer B
	EDMA_config(hEdmaXmtB, &gEdmaXmtConfig);

	EDMA_link(hEdmaXmt, hEdmaXmtB);
	EDMA_link(hEdmaXmtB, hEdmaXmtA);
	EDMA_link(hEdmaXmtA, hEdmaXmtB);


	EDMA_intClear(gTccRcvChan);
	EDMA_intClear(gTccXmtChan);
	EDMA_intEnable(gTccRcvChan);
	EDMA_intEnable(gTccXmtChan);

	gBufferState.cpuBufferState = StateB;		// inittial cpu buffer state

	EDMA_enableChannel(hEdmaRcv);
	EDMA_enableChannel(hEdmaXmt);

	IRQ_clear(IRQ_EVT_EDMAINT);
	IRQ_enable(IRQ_EVT_EDMAINT);

	MCBSP_write(MCBSP1_handle, 0x00);
}