/*
* Fitipower FC0013 tuner driver , taken from the kernel driver that can be found
* on http : //linux.terratec.de/tv_en.html
*
* This driver is a mess , and should be cleaned up / rewritten .
*
*/
# include <stdint.h>
# include "i2c.h"
# include "tuner_fc0013.h"
# define CRYSTAL_FREQ 28800000
/* glue functions to rtl-sdr code */
int FC0013_Write ( void * pTuner , unsigned char RegAddr , unsigned char Byte )
{
uint8_t data [ 2 ] ;
data [ 0 ] = RegAddr ;
data [ 1 ] = Byte ;
if ( rtlsdr_i2c_write ( ( rtlsdr_dev_t * ) pTuner , FC0013_I2C_ADDR , data , 2 ) < 0 )
return FC0013_I2C_ERROR ;
return FC0013_I2C_SUCCESS ;
}
int FC0013_Read ( void * pTuner , unsigned char RegAddr , unsigned char * pByte )
{
uint8_t data = RegAddr ;
if ( rtlsdr_i2c_write ( ( rtlsdr_dev_t * ) pTuner , FC0013_I2C_ADDR , & data , 1 ) < 0 )
return FC0013_I2C_ERROR ;
if ( rtlsdr_i2c_read ( ( rtlsdr_dev_t * ) pTuner , FC0013_I2C_ADDR , & data , 1 ) < 0 )
return FC0013_I2C_ERROR ;
* pByte = data ;
return FC0013_I2C_SUCCESS ;
}
int FC0013_SetVhfTrack ( void * pTuner , unsigned long FrequencyKHz )
{
unsigned char read_byte ;
if ( FrequencyKHz < = 177500 ) // VHF Track: 7
{
if ( FC0013_Read ( pTuner , 0x1D , & read_byte ) ! = FC0013_I2C_SUCCESS ) goto error_status ;
if ( FC0013_Write ( pTuner , 0x1D , ( read_byte & 0xE3 ) | 0x1C ) ! = FC0013_I2C_SUCCESS ) goto error_status ;
}
else if ( FrequencyKHz < = 184500 ) // VHF Track: 6
{
if ( FC0013_Read ( pTuner , 0x1D , & read_byte ) ! = FC0013_I2C_SUCCESS ) goto error_status ;
if ( FC0013_Write ( pTuner , 0x1D , ( read_byte & 0xE3 ) | 0x18 ) ! = FC0013_I2C_SUCCESS ) goto error_status ;
}
else if ( FrequencyKHz < = 191500 ) // VHF Track: 5
{
if ( FC0013_Read ( pTuner , 0x1D , & read_byte ) ! = FC0013_I2C_SUCCESS ) goto error_status ;
if ( FC0013_Write ( pTuner , 0x1D , ( read_byte & 0xE3 ) | 0x14 ) ! = FC0013_I2C_SUCCESS ) goto error_status ;
}
else if ( FrequencyKHz < = 198500 ) // VHF Track: 4
{
if ( FC0013_Read ( pTuner , 0x1D , & read_byte ) ! = FC0013_I2C_SUCCESS ) goto error_status ;
if ( FC0013_Write ( pTuner , 0x1D , ( read_byte & 0xE3 ) | 0x10 ) ! = FC0013_I2C_SUCCESS ) goto error_status ;
}
else if ( FrequencyKHz < = 205500 ) // VHF Track: 3
{
if ( FC0013_Read ( pTuner , 0x1D , & read_byte ) ! = FC0013_I2C_SUCCESS ) goto error_status ;
if ( FC0013_Write ( pTuner , 0x1D , ( read_byte & 0xE3 ) | 0x0C ) ! = FC0013_I2C_SUCCESS ) goto error_status ;
}
else if ( FrequencyKHz < = 212500 ) // VHF Track: 2
{
if ( FC0013_Read ( pTuner , 0x1D , & read_byte ) ! = FC0013_I2C_SUCCESS ) goto error_status ;
if ( FC0013_Write ( pTuner , 0x1D , ( read_byte & 0xE3 ) | 0x08 ) ! = FC0013_I2C_SUCCESS ) goto error_status ;
}
else if ( FrequencyKHz < = 219500 ) // VHF Track: 2
{
if ( FC0013_Read ( pTuner , 0x1D , & read_byte ) ! = FC0013_I2C_SUCCESS ) goto error_status ;
if ( FC0013_Write ( pTuner , 0x1D , ( read_byte & 0xE3 ) | 0x08 ) ! = FC0013_I2C_SUCCESS ) goto error_status ;
}
else if ( FrequencyKHz < = 226500 ) // VHF Track: 1
{
if ( FC0013_Read ( pTuner , 0x1D , & read_byte ) ! = FC0013_I2C_SUCCESS ) goto error_status ;
if ( FC0013_Write ( pTuner , 0x1D , ( read_byte & 0xE3 ) | 0x04 ) ! = FC0013_I2C_SUCCESS ) goto error_status ;
}
else // VHF Track: 1
{
if ( FC0013_Read ( pTuner , 0x1D , & read_byte ) ! = FC0013_I2C_SUCCESS ) goto error_status ;
if ( FC0013_Write ( pTuner , 0x1D , ( read_byte & 0xE3 ) | 0x04 ) ! = FC0013_I2C_SUCCESS ) goto error_status ;
}
//------------------------------------------------ arios modify 2010-12-24
// " | 0x10" ==> " | 0x30" (make sure reg[0x07] bit5 = 1)
// Enable VHF filter.
if ( FC0013_Read ( pTuner , 0x07 , & read_byte ) ! = FC0013_I2C_SUCCESS ) goto error_status ;
if ( FC0013_Write ( pTuner , 0x07 , read_byte | 0x10 ) ! = FC0013_I2C_SUCCESS ) goto error_status ;
// Disable UHF & GPS.
if ( FC0013_Read ( pTuner , 0x14 , & read_byte ) ! = FC0013_I2C_SUCCESS ) goto error_status ;
if ( FC0013_Write ( pTuner , 0x14 , read_byte & 0x1F ) ! = FC0013_I2C_SUCCESS ) goto error_status ;
return FC0013_FUNCTION_SUCCESS ;
error_status :
return FC0013_FUNCTION_ERROR ;
}
// FC0013 Open Function, includes enable/reset pin control and registers initialization.
//void FC0013_Open()
int FC0013_Open ( void * pTuner )
{
// Enable FC0013 Power
// (...)
// FC0013 Enable = High
// (...)
// FC0013 Reset = High -> Low
// (...)
/* FIXME added to fix replug-bug with rtl-sdr */
if ( FC0013_Write ( pTuner , 0x0C , 0x00 ) ! = FC0013_I2C_SUCCESS ) goto error_status ;
//================================ update base on new FC0013 register bank
if ( FC0013_Write ( pTuner , 0x01 , 0x09 ) ! = FC0013_I2C_SUCCESS ) goto error_status ;
if ( FC0013_Write ( pTuner , 0x02 , 0x16 ) ! = FC0013_I2C_SUCCESS ) goto error_status ;
if ( FC0013_Write ( pTuner , 0x03 , 0x00 ) ! = FC0013_I2C_SUCCESS ) goto error_status ;
if ( FC0013_Write ( pTuner , 0x04 , 0x00 ) ! = FC0013_I2C_SUCCESS ) goto error_status ;
if ( FC0013_Write ( pTuner , 0x05 , 0x17 ) ! = FC0013_I2C_SUCCESS ) goto error_status ;
if ( FC0013_Write ( pTuner , 0x06 , 0x02 ) ! = FC0013_I2C_SUCCESS ) goto error_status ;
// if(FC0013_Write(pTuner, 0x07, 0x27) != FC0013_I2C_SUCCESS) goto error_status; // 28.8MHz, GainShift: 15
if ( FC0013_Write ( pTuner , 0x07 , 0x2A ) ! = FC0013_I2C_SUCCESS ) goto error_status ; // 28.8MHz, modified by Realtek
if ( FC0013_Write ( pTuner , 0x08 , 0xFF ) ! = FC0013_I2C_SUCCESS ) goto error_status ;
if ( FC0013_Write ( pTuner , 0x09 , 0x6F ) ! = FC0013_I2C_SUCCESS ) goto error_status ; // Enable Loop Through
if ( FC0013_Write ( pTuner , 0x0A , 0xB8 ) ! = FC0013_I2C_SUCCESS ) goto error_status ;
if ( FC0013_Write ( pTuner , 0x0B , 0x82 ) ! = FC0013_I2C_SUCCESS ) goto error_status ;
if ( FC0013_Write ( pTuner , 0x0C , 0xFE ) ! = FC0013_I2C_SUCCESS ) goto error_status ; // Modified for up-dowm AGC by Realtek(for master, and for 2836BU dongle).
// if(FC0013_Write(pTuner, 0x0C, 0xFC) != FC0013_I2C_SUCCESS) goto error_status; // Modified for up-dowm AGC by Realtek(for slave, and for 2832 mini dongle).
// if(FC0013_Write(pTuner, 0x0D, 0x09) != FC0013_I2C_SUCCESS) goto error_status;
if ( FC0013_Write ( pTuner , 0x0D , 0x01 ) ! = FC0013_I2C_SUCCESS ) goto error_status ; // Modified for AGC non-forcing by Realtek.
if ( FC0013_Write ( pTuner , 0x0E , 0x00 ) ! = FC0013_I2C_SUCCESS ) goto error_status ;
if ( FC0013_Write ( pTuner , 0x0F , 0x00 ) ! = FC0013_I2C_SUCCESS ) goto error_status ;
if ( FC0013_Write ( pTuner , 0x10 , 0x00 ) ! = FC0013_I2C_SUCCESS ) goto error_status ;
if ( FC0013_Write ( pTuner , 0x11 , 0x00 ) ! = FC0013_I2C_SUCCESS ) goto error_status ;
if ( FC0013_Write ( pTuner , 0x12 , 0x00 ) ! = FC0013_I2C_SUCCESS ) goto error_status ;
if ( FC0013_Write ( pTuner , 0x13 , 0x00 ) ! = FC0013_I2C_SUCCESS ) goto error_status ;
if ( FC0013_Write ( pTuner , 0x14 , 0x50 ) ! = FC0013_I2C_SUCCESS ) goto error_status ; // DVB-T, High Gain
// if(FC0013_Write(pTuner, 0x14, 0x48) != FC0013_I2C_SUCCESS) goto error_status; // DVB-T, Middle Gain
// if(FC0013_Write(pTuner, 0x14, 0x40) != FC0013_I2C_SUCCESS) goto error_status; // DVB-T, Low Gain
if ( FC0013_Write ( pTuner , 0x15 , 0x01 ) ! = FC0013_I2C_SUCCESS ) goto error_status ;
return FC0013_FUNCTION_SUCCESS ;
error_status :
return FC0013_FUNCTION_ERROR ;
}
int FC0013_SetFrequency ( void * pTuner , unsigned long Frequency , unsigned short Bandwidth )
{
// bool VCO1 = false;
// unsigned int doubleVCO;
// unsigned short xin, xdiv;
// unsigned char reg[21], am, pm, multi;
int VCO1 = FC0013_FALSE ;
unsigned long doubleVCO ;
unsigned short xin , xdiv ;
unsigned char reg [ 21 ] , am , pm , multi ;
unsigned char read_byte ;
unsigned long CrystalFreqKhz ;
int CrystalFreqHz = CRYSTAL_FREQ ;
// Get tuner crystal frequency in KHz.
// Note: CrystalFreqKhz = round(CrystalFreqHz / 1000)
CrystalFreqKhz = ( CrystalFreqHz + 500 ) / 1000 ;
// modified 2011-02-09: for D-Book test
// set VHF_Track = 7
if ( FC0013_Read ( pTuner , 0x1D , & read_byte ) ! = FC0013_I2C_SUCCESS ) goto error_status ;
// VHF Track: 7
if ( FC0013_Write ( pTuner , 0x1D , ( read_byte & 0xE3 ) | 0x1C ) ! = FC0013_I2C_SUCCESS ) goto error_status ;
if ( Frequency < 300000 )
{
// Set VHF Track.
if ( FC0013_SetVhfTrack ( pTuner , Frequency ) ! = FC0013_I2C_SUCCESS ) goto error_status ;
// Enable VHF filter.
if ( FC0013_Read ( pTuner , 0x07 , & read_byte ) ! = FC0013_I2C_SUCCESS ) goto error_status ;
if ( FC0013_Write ( pTuner , 0x07 , read_byte | 0x10 ) ! = FC0013_I2C_SUCCESS ) goto error_status ;
// Disable UHF & disable GPS.
if ( FC0013_Read ( pTuner , 0x14 , & read_byte ) ! = FC0013_I2C_SUCCESS ) goto error_status ;
if ( FC0013_Write ( pTuner , 0x14 , read_byte & 0x1F ) ! = FC0013_I2C_SUCCESS ) goto error_status ;
}
else if ( ( Frequency > = 300000 ) & & ( Frequency < = 862000 ) )
{
// Disable VHF filter.
if ( FC0013_Read ( pTuner , 0x07 , & read_byte ) ! = FC0013_I2C_SUCCESS ) goto error_status ;
if ( FC0013_Write ( pTuner , 0x07 , read_byte & 0xEF ) ! = FC0013_I2C_SUCCESS ) goto error_status ;
// enable UHF & disable GPS.
if ( FC0013_Read ( pTuner , 0x14 , & read_byte ) ! = FC0013_I2C_SUCCESS ) goto error_status ;
if ( FC0013_Write ( pTuner , 0x14 , ( read_byte & 0x1F ) | 0x40 ) ! = FC0013_I2C_SUCCESS ) goto error_status ;
}
else if ( Frequency > 862000 )
{
// Disable VHF filter
if ( FC0013_Read ( pTuner , 0x07 , & read_byte ) ! = FC0013_I2C_SUCCESS ) goto error_status ;
if ( FC0013_Write ( pTuner , 0x07 , read_byte & 0xEF ) ! = FC0013_I2C_SUCCESS ) goto error_status ;
// Disable UHF & enable GPS
if ( FC0013_Read ( pTuner , 0x14 , & read_byte ) ! = FC0013_I2C_SUCCESS ) goto error_status ;
if ( FC0013_Write ( pTuner , 0x14 , ( read_byte & 0x1F ) | 0x20 ) ! = FC0013_I2C_SUCCESS ) goto error_status ;
}
if ( Frequency * 96 < 3560000 )
{
multi = 96 ;
reg [ 5 ] = 0x82 ;
reg [ 6 ] = 0x00 ;
}
else if ( Frequency * 64 < 3560000 )
{
multi = 64 ;
reg [ 5 ] = 0x02 ;
reg [ 6 ] = 0x02 ;
}
else if ( Frequency * 48 < 3560000 )
{
multi = 48 ;
reg [ 5 ] = 0x42 ;
reg [ 6 ] = 0x00 ;
}
else if ( Frequency * 32 < 3560000 )
{
multi = 32 ;
reg [ 5 ] = 0x82 ;
reg [ 6 ] = 0x02 ;
}
else if ( Frequency * 24 < 3560000 )
{
multi = 24 ;
reg [ 5 ] = 0x22 ;
reg [ 6 ] = 0x00 ;
}
else if ( Frequency * 16 < 3560000 )
{
multi = 16 ;
reg [ 5 ] = 0x42 ;
reg [ 6 ] = 0x02 ;
}
else if ( Frequency * 12 < 3560000 )
{
multi = 12 ;
reg [ 5 ] = 0x12 ;
reg [ 6 ] = 0x00 ;
}
else if ( Frequency * 8 < 3560000 )
{
multi = 8 ;
reg [ 5 ] = 0x22 ;
reg [ 6 ] = 0x02 ;
}
else if ( Frequency * 6 < 3560000 )
{
multi = 6 ;
reg [ 5 ] = 0x0A ;
reg [ 6 ] = 0x00 ;
}
else if ( Frequency * 4 < 3800000 )
{
multi = 4 ;
reg [ 5 ] = 0x12 ;
reg [ 6 ] = 0x02 ;
}
else
{
Frequency = Frequency / 2 ;
multi = 4 ;
reg [ 5 ] = 0x0A ;
reg [ 6 ] = 0x02 ;
}
doubleVCO = Frequency * multi ;
reg [ 6 ] = reg [ 6 ] | 0x08 ;
// VCO1 = true;
VCO1 = FC0013_TRUE ;
// Calculate VCO parameters: ap & pm & xin.
// xdiv = (unsigned short)(doubleVCO / (Crystal_Frequency/2));
xdiv = ( unsigned short ) ( doubleVCO / ( CrystalFreqKhz / 2 ) ) ;
// if( (doubleVCO - xdiv * (Crystal_Frequency/2)) >= (Crystal_Frequency/4) )
if ( ( doubleVCO - xdiv * ( CrystalFreqKhz / 2 ) ) > = ( CrystalFreqKhz / 4 ) )
{
xdiv = xdiv + 1 ;
}
pm = ( unsigned char ) ( xdiv / 8 ) ;
am = ( unsigned char ) ( xdiv - ( 8 * pm ) ) ;
if ( am < 2 )
{
reg [ 1 ] = am + 8 ;
reg [ 2 ] = pm - 1 ;
}
else
{
reg [ 1 ] = am ;
reg [ 2 ] = pm ;
}
// xin = (unsigned short)(doubleVCO - ((unsigned short)(doubleVCO / (Crystal_Frequency/2))) * (Crystal_Frequency/2));
xin = ( unsigned short ) ( doubleVCO - ( ( unsigned short ) ( doubleVCO / ( CrystalFreqKhz / 2 ) ) ) * ( CrystalFreqKhz / 2 ) ) ;
// xin = ((xin << 15)/(Crystal_Frequency/2));
xin = ( unsigned short ) ( ( xin < < 15 ) / ( CrystalFreqKhz / 2 ) ) ;
// if( xin >= (unsigned short) pow( (double)2, (double)14) )
// {
// xin = xin + (unsigned short) pow( (double)2, (double)15);
// }
if ( xin > = ( unsigned short ) 16384 )
xin = xin + ( unsigned short ) 32768 ;
reg [ 3 ] = ( unsigned char ) ( xin > > 8 ) ;
reg [ 4 ] = ( unsigned char ) ( xin & 0x00FF ) ;
//===================================== Only for testing
// printf("Frequency: %d, Fa: %d, Fp: %d, Xin:%d \n", Frequency, am, pm, xin);
// Set Low-Pass Filter Bandwidth.
switch ( Bandwidth )
{
case 6 :
reg [ 6 ] = 0x80 | reg [ 6 ] ;
break ;
case 7 :
reg [ 6 ] = ~ 0x80 & reg [ 6 ] ;
reg [ 6 ] = 0x40 | reg [ 6 ] ;
break ;
case 8 :
default :
reg [ 6 ] = ~ 0xC0 & reg [ 6 ] ;
break ;
}
reg [ 5 ] = reg [ 5 ] | 0x07 ;
if ( FC0013_Write ( pTuner , 0x01 , reg [ 1 ] ) ! = FC0013_I2C_SUCCESS ) goto error_status ;
if ( FC0013_Write ( pTuner , 0x02 , reg [ 2 ] ) ! = FC0013_I2C_SUCCESS ) goto error_status ;
if ( FC0013_Write ( pTuner , 0x03 , reg [ 3 ] ) ! = FC0013_I2C_SUCCESS ) goto error_status ;
if ( FC0013_Write ( pTuner , 0x04 , reg [ 4 ] ) ! = FC0013_I2C_SUCCESS ) goto error_status ;
if ( FC0013_Write ( pTuner , 0x05 , reg [ 5 ] ) ! = FC0013_I2C_SUCCESS ) goto error_status ;
if ( FC0013_Write ( pTuner , 0x06 , reg [ 6 ] ) ! = FC0013_I2C_SUCCESS ) goto error_status ;
if ( multi = = 64 )
{
// FC0013_Write(0x11, FC0013_Read(0x11) | 0x04);
if ( FC0013_Read ( pTuner , 0x11 , & read_byte ) ! = FC0013_I2C_SUCCESS ) goto error_status ;
if ( FC0013_Write ( pTuner , 0x11 , read_byte | 0x04 ) ! = FC0013_I2C_SUCCESS ) goto error_status ;
}
else
{
// FC0013_Write(0x11, FC0013_Read(0x11) & 0xFB);
if ( FC0013_Read ( pTuner , 0x11 , & read_byte ) ! = FC0013_I2C_SUCCESS ) goto error_status ;
if ( FC0013_Write ( pTuner , 0x11 , read_byte & 0xFB ) ! = FC0013_I2C_SUCCESS ) goto error_status ;
}
if ( FC0013_Write ( pTuner , 0x0E , 0x80 ) ! = FC0013_I2C_SUCCESS ) goto error_status ;
if ( FC0013_Write ( pTuner , 0x0E , 0x00 ) ! = FC0013_I2C_SUCCESS ) goto error_status ;
if ( FC0013_Write ( pTuner , 0x0E , 0x00 ) ! = FC0013_I2C_SUCCESS ) goto error_status ;
// reg[14] = 0x3F & FC0013_Read(0x0E);
if ( FC0013_Read ( pTuner , 0x0E , & read_byte ) ! = FC0013_I2C_SUCCESS ) goto error_status ;
reg [ 14 ] = 0x3F & read_byte ;
if ( VCO1 )
{
if ( reg [ 14 ] > 0x3C )
{
reg [ 6 ] = ~ 0x08 & reg [ 6 ] ;
if ( FC0013_Write ( pTuner , 0x06 , reg [ 6 ] ) ! = FC0013_I2C_SUCCESS ) goto error_status ;
if ( FC0013_Write ( pTuner , 0x0E , 0x80 ) ! = FC0013_I2C_SUCCESS ) goto error_status ;
if ( FC0013_Write ( pTuner , 0x0E , 0x00 ) ! = FC0013_I2C_SUCCESS ) goto error_status ;
}
}
else
{
if ( reg [ 14 ] < 0x02 )
{
reg [ 6 ] = 0x08 | reg [ 6 ] ;
if ( FC0013_Write ( pTuner , 0x06 , reg [ 6 ] ) ! = FC0013_I2C_SUCCESS ) goto error_status ;
if ( FC0013_Write ( pTuner , 0x0E , 0x80 ) ! = FC0013_I2C_SUCCESS ) goto error_status ;
if ( FC0013_Write ( pTuner , 0x0E , 0x00 ) ! = FC0013_I2C_SUCCESS ) goto error_status ;
}
}
return 1 ;
error_status :
return 0 ;
}
