MT6626.c
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/*******************************************************************************
*
* Filename:
* ---------
* MT6626.c
*
* Project:
* --------
* MAUI
*
* Description:
* ------------
*
* MT6626 I2C Interface
*
* Author:
* -------
* -------
*
*******************************************************************************/
#if (defined(MT6626))&&(!defined(FM_INTERFACE_HCI))
//#include "l1audio_def.h"
/* Allen: add for RHR (20101004) <Start>*/
#include "kal_non_specific_general_types.h"
/* Allen: add for RHR (20101004) <End>*/
#include "dcl.h"
//#define HW_I2C
/* Defintion of time constant for de-emphasis, 50us or 75us
* If setting to KAL_TRUE, time constant will be 50us.
* Otherwise, it will be 75us.
*/
const kal_bool FM_DEEMPHASIS_50us = KAL_FALSE;
/* Signal Threshold for Seek/Scan
*
* RSSI Threshold for long antenna has following setting
* 0xFEF9'h -> -263'd -> 8.375 (dBuV)
* 0xFF01'h -> -255'd -> 11.375 (dBuV)
* 0xFF09'h -> -247'd -> 14.375 (dBuV)
*
* RSSI Threshold for short antenna has following setting
* 0xFED8'h -> -296'd -> -7 (dBuV)
* 0xFEE0'h -> -288'd -> -4 (dBuV)
* 0xFEE8'h -> -280'd -> -1 (dBuV)
*
*/
const kal_uint16 RSSI_THRESHOLD_LONGANT = 0xFF01;
const kal_uint16 RSSI_THRESHOLD_SHORTANT = 0xFEE0;
/* GPIO definition */
/// The following GPIO should be customized according to different platforms.
//#define CRYCLK 18 /// GPIO #31: 32.768 kHz clock
#define CLKMOD 6
#define I2C_HL_WIDTH 0
#ifdef __CUST_NEW__
#if (defined(HW_I2C))
extern const char gpio_sccb_serial_clk_pin;
extern const char gpio_sccb_serial_data_pin;
#define SDA 6 /// I2C data pin
#define SCL 5 /// I2C clock pin
//#define SDA gpio_sccb_serial_data_pin /// I2C data pin
//#define SCL gpio_sccb_serial_clk_pin /// I2C clock pin
#else
extern const char gpio_fm_i2c_sda_pin;
extern const char gpio_fm_i2c_scl_pin;
extern const char gpio_fm_i2c_sda_pin_M_GPIO;
extern const char gpio_fm_i2c_scl_pin_M_GPIO;
extern const char gpio_bt_32k_pin;
extern const char gpio_bt_32k_pin_M_GPIO;
#define SDA gpio_fm_i2c_sda_pin /// I2C data pin
#define SCL gpio_fm_i2c_scl_pin /// I2C clock pin
#define CRYCLK gpio_bt_32k_pin //FM 32k
#endif
#else /* __CUST_NEW__ */
#define LE 4 /// GPIO #4: LE pin
#define SDA 53 /// GPIO #53: I2C data pin
#define SCL 24 /// GPIO #24: I2C clock pin
#endif /* __CUST_NEW__ */
kal_uint16 i2c_dummy_cnt;
#define I2C_DUMMY_DELAY(_delay) for (i2c_dummy_cnt = _delay+3; i2c_dummy_cnt!=0; i2c_dummy_cnt--)
void SerialCommCryClkOn(void)
{
//GPIO_ModeSetup(CRYCLK,3); /* 32.768kHz reference frequency */
//GPIO_SetClkOut(CLKMOD,4); /* set to clock 32.768KHz */
}
void SerialCommCryClkOff(void)
{
//GPIO_ModeSetup(CRYCLK,0);
}
#if !defined(HW_I2C)
void SerialCommInit(void)
{
DCL_HANDLE SCL_handle,SDA_handle;
SCL_handle = DclGPIO_Open(DCL_GPIO, SCL);
SDA_handle = DclGPIO_Open(DCL_GPIO, SDA);
//GPIO_ModeSetup(SCL,gpio_fm_i2c_scl_pin_M_GPIO);
DclGPIO_Control(SCL_handle,GPIO_CMD_SET_MODE_0,NULL);
//GPIO_ModeSetup(SDA,gpio_fm_i2c_sda_pin_M_GPIO);
DclGPIO_Control(SDA_handle,GPIO_CMD_SET_MODE_0,NULL);
//GPIO_WriteIO(1,SDA);
//GPIO_WriteIO(1,SCL);
//GPIO_InitIO(1,SCL); // Output mode
DclGPIO_Control(SCL_handle, GPIO_CMD_SET_DIR_OUT, NULL);
//GPIO_InitIO(1,SDA); // Output mode
DclGPIO_Control(SDA_handle, GPIO_CMD_SET_DIR_OUT, NULL);
//GPIO_PullenSetup(SCL, 1); // pull high
DclGPIO_Control(SCL_handle, GPIO_CMD_ENABLE_PULL, NULL);
//GPIO_PullenSetup(SDA, 1);
DclGPIO_Control(SDA_handle, GPIO_CMD_ENABLE_PULL, NULL);
//GPIO_PullSelSetup(SCL, 1);
DclGPIO_Control(SCL_handle, GPIO_CMD_SET_PULL_HIGH, NULL);
//GPIO_PullSelSetup(SDA, 1);
DclGPIO_Control(SDA_handle, GPIO_CMD_SET_PULL_HIGH, NULL);
DclGPIO_Control(SCL_handle, GPIO_CMD_WRITE_HIGH, NULL);
DclGPIO_Control(SDA_handle, GPIO_CMD_WRITE_HIGH, NULL);
}
void SerialCommRelease(void)
{
DCL_HANDLE SCL_handle,SDA_handle;
SCL_handle = DclGPIO_Open(DCL_GPIO, SCL);
SDA_handle = DclGPIO_Open(DCL_GPIO, SDA);
//GPIO_WriteIO(1,SCL);
DclGPIO_Control(SCL_handle, GPIO_CMD_WRITE_HIGH, NULL);
//GPIO_WriteIO(1,SDA);
DclGPIO_Control(SDA_handle, GPIO_CMD_WRITE_HIGH, NULL);
}
/* Start sequence of I2C
SDA ¢w¢w¢{
¢|¢w¢w
SCL ¢w¢w¢w¢{
¢|¢w¢w
*/
void SerialCommStart(void) /* Prepare the SDA and SCL for sending/receiving */
{
DCL_HANDLE SCL_handle,SDA_handle;
SCL_handle = DclGPIO_Open(DCL_GPIO, SCL);
SDA_handle = DclGPIO_Open(DCL_GPIO, SDA);
//GPIO_InitIO(1,SDA);
DclGPIO_Control(SDA_handle, GPIO_CMD_SET_DIR_OUT, NULL);
//GPIO_WriteIO(1,SDA);
DclGPIO_Control(SDA_handle, GPIO_CMD_WRITE_HIGH, NULL);
I2C_DUMMY_DELAY(I2C_HL_WIDTH);
//GPIO_WriteIO(1,SCL);
DclGPIO_Control(SCL_handle, GPIO_CMD_WRITE_HIGH, NULL);
I2C_DUMMY_DELAY(I2C_HL_WIDTH);
//GPIO_WriteIO(0,SDA);
DclGPIO_Control(SDA_handle, GPIO_CMD_WRITE_LOW, NULL);
I2C_DUMMY_DELAY(I2C_HL_WIDTH);
//GPIO_WriteIO(0,SCL);
DclGPIO_Control(SCL_handle, GPIO_CMD_WRITE_LOW, NULL);
I2C_DUMMY_DELAY(I2C_HL_WIDTH);
}
/* Stop sequence of I2C
SDA ¢z¢w¢w
¢w¢w¢w¢}
SCL ¢z¢w¢w¢w
¢w¢w¢}
*/
void SerialCommStop(void)
{
DCL_HANDLE SCL_handle,SDA_handle;
SCL_handle = DclGPIO_Open(DCL_GPIO, SCL);
SDA_handle = DclGPIO_Open(DCL_GPIO, SDA);
//GPIO_InitIO(1,SDA);
DclGPIO_Control(SDA_handle, GPIO_CMD_SET_DIR_OUT, NULL);
//GPIO_WriteIO(0,SCL);
DclGPIO_Control(SCL_handle, GPIO_CMD_WRITE_LOW, NULL);
I2C_DUMMY_DELAY(I2C_HL_WIDTH);
//GPIO_WriteIO(0,SDA);
DclGPIO_Control(SDA_handle, GPIO_CMD_WRITE_LOW, NULL);
I2C_DUMMY_DELAY(I2C_HL_WIDTH);
//GPIO_WriteIO(1,SCL);
DclGPIO_Control(SCL_handle, GPIO_CMD_WRITE_HIGH, NULL);
I2C_DUMMY_DELAY(I2C_HL_WIDTH);
//GPIO_WriteIO(1,SDA);
DclGPIO_Control(SDA_handle, GPIO_CMD_WRITE_HIGH, NULL);
I2C_DUMMY_DELAY(I2C_HL_WIDTH);
}
kal_uint8 SerialCommTxByte(kal_uint8 data) /* return 0 --> ack */
{
kal_int16 i;
GPIO_CTRL_READ_T readIO;
DCL_HANDLE SCL_handle,SDA_handle;
SCL_handle = DclGPIO_Open(DCL_GPIO, SCL);
SDA_handle = DclGPIO_Open(DCL_GPIO, SDA);
//GPIO_InitIO(1,SDA);
DclGPIO_Control(SDA_handle, GPIO_CMD_SET_DIR_OUT, NULL);
for(i=8; --i>0;)
{
if((data>>i)&0x01)
{
DclGPIO_Control(SDA_handle, GPIO_CMD_WRITE_HIGH, NULL);
}
else
{
DclGPIO_Control(SDA_handle, GPIO_CMD_WRITE_LOW, NULL);
}
//GPIO_WriteIO((kal_int8)((data>>i)&0x01), SDA);
I2C_DUMMY_DELAY(I2C_HL_WIDTH);
//GPIO_WriteIO( 1, SCL); /* high */
DclGPIO_Control(SCL_handle, GPIO_CMD_WRITE_HIGH, NULL);
I2C_DUMMY_DELAY(I2C_HL_WIDTH);
//GPIO_WriteIO( 0, SCL); /* low */
I2C_DUMMY_DELAY(I2C_HL_WIDTH);
DclGPIO_Control(SCL_handle, GPIO_CMD_WRITE_LOW, NULL);
}
if((data>>i)&0x01)
{
DclGPIO_Control(SDA_handle, GPIO_CMD_WRITE_HIGH, NULL);
}
else
{
DclGPIO_Control(SDA_handle, GPIO_CMD_WRITE_LOW, NULL);
}
//GPIO_WriteIO((kal_int8)((data>>i)&0x01), SDA);
I2C_DUMMY_DELAY(I2C_HL_WIDTH);
//GPIO_WriteIO( 1, SCL); /* high */
DclGPIO_Control(SCL_handle, GPIO_CMD_WRITE_HIGH, NULL);
I2C_DUMMY_DELAY(I2C_HL_WIDTH);
//GPIO_WriteIO( 0, SCL); /* low */
DclGPIO_Control(SCL_handle, GPIO_CMD_WRITE_LOW, NULL);
//GPIO_InitIO(0,SDA);
DclGPIO_Control(SDA_handle, GPIO_CMD_SET_DIR_IN, NULL);
//GPIO_WriteIO(1, SCL);
DclGPIO_Control(SCL_handle, GPIO_CMD_WRITE_HIGH, NULL);
I2C_DUMMY_DELAY(I2C_HL_WIDTH);
//ack = GPIO_ReadIO(SDA); /// ack
DclGPIO_Control(SDA_handle, GPIO_CMD_READ, (DCL_CTRL_DATA_T *)&readIO);
//GPIO_WriteIO(0, SCL);
DclGPIO_Control(SCL_handle, GPIO_CMD_WRITE_LOW, NULL);
return (kal_uint8)readIO.u1IOData;
}
void SerialCommRxByte(kal_uint8 *data, kal_uint8 ack)
{
kal_int16 i;
kal_uint32 dataCache;
GPIO_CTRL_READ_T readIO;
DCL_HANDLE SCL_handle,SDA_handle;
SCL_handle = DclGPIO_Open(DCL_GPIO, SCL);
SDA_handle = DclGPIO_Open(DCL_GPIO, SDA);
dataCache = 0;
//GPIO_InitIO(0,SDA);
DclGPIO_Control(SDA_handle, GPIO_CMD_SET_DIR_IN, NULL);
for(i=17; --i>=9;)
{
dataCache <<= 1;
//GPIO_WriteIO(1, SCL);
DclGPIO_Control(SCL_handle, GPIO_CMD_WRITE_HIGH, NULL);
I2C_DUMMY_DELAY(I2C_HL_WIDTH);
//dataCache |= GPIO_ReadIO(SDA);
DclGPIO_Control(SDA_handle, GPIO_CMD_READ, (DCL_CTRL_DATA_T *)&readIO);
dataCache |= readIO.u1IOData;
//GPIO_WriteIO(0, SCL);
DclGPIO_Control(SCL_handle, GPIO_CMD_WRITE_LOW, NULL);
I2C_DUMMY_DELAY(I2C_HL_WIDTH);
}
//GPIO_InitIO(1,SDA);
DclGPIO_Control(SDA_handle, GPIO_CMD_SET_DIR_OUT, NULL);
//GPIO_WriteIO(ack, SDA);
if(ack)
{
DclGPIO_Control(SDA_handle, GPIO_CMD_WRITE_HIGH, NULL);
}
else
{
DclGPIO_Control(SDA_handle, GPIO_CMD_WRITE_LOW, NULL);
}
I2C_DUMMY_DELAY(I2C_HL_WIDTH);
//GPIO_WriteIO(1, SCL);
DclGPIO_Control(SCL_handle, GPIO_CMD_WRITE_HIGH, NULL);
*data = (kal_uint8)dataCache;
//GPIO_WriteIO(0, SCL);
DclGPIO_Control(SCL_handle, GPIO_CMD_WRITE_LOW, NULL);
}
#else
void SerialCommInit(void)
{
#ifdef __CUST_NEW__
GPIO_ModeSetup(SCL, 0x01); //SCL
GPIO_ModeSetup(SDA, 0x01); //SDA
GPIO_PullenSetup(SCL, KAL_TRUE);
GPIO_PullenSetup(SDA, KAL_TRUE);
GPIO_PullSelSetup(SCL, KAL_TRUE);
GPIO_PullSelSetup(SDA, KAL_TRUE);
#else
GPIO_ModeSetup(SCL,0);
GPIO_ModeSetup(SDA,0);
#endif
}
#endif
#endif