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authorSteven Toth <stoth@hauppauge.com>2008-05-01 05:45:44 -0300
committerMauro Carvalho Chehab <mchehab@infradead.org>2008-05-14 02:56:37 -0300
commit3935c25484bc632b12c447e19c4eacbf5de5f7ae (patch)
treefbc54f9a5598037b05650ca50b96fefaaee9bc43 /drivers/media/common/tuners
parenta8214d48e6d41f3a16c1023ca4f30bbd140ba756 (diff)
downloadblackbird-op-linux-3935c25484bc632b12c447e19c4eacbf5de5f7ae.tar.gz
blackbird-op-linux-3935c25484bc632b12c447e19c4eacbf5de5f7ae.zip
V4L/DVB (7866): mxl5005s: Cleanup #3
Cleanup #3 Signed-off-by: Steven Toth <stoth@hauppauge.com> Signed-off-by: Mauro Carvalho Chehab <mchehab@infradead.org>
Diffstat (limited to 'drivers/media/common/tuners')
-rw-r--r--drivers/media/common/tuners/mxl5005s.c5527
-rw-r--r--drivers/media/common/tuners/mxl5005s.h165
2 files changed, 2677 insertions, 3015 deletions
diff --git a/drivers/media/common/tuners/mxl5005s.c b/drivers/media/common/tuners/mxl5005s.c
index 2af14de737e9..d8885484cfbd 100644
--- a/drivers/media/common/tuners/mxl5005s.c
+++ b/drivers/media/common/tuners/mxl5005s.c
@@ -24,164 +24,61 @@
#include "mxl5005s.h"
-
-void BuildMxl5005sModule(
- TUNER_MODULE **ppTuner,
- TUNER_MODULE *pTunerModuleMemory,
- MXL5005S_EXTRA_MODULE *pMxl5005sExtraModuleMemory,
- BASE_INTERFACE_MODULE *pBaseInterfaceModuleMemory,
- I2C_BRIDGE_MODULE *pI2cBridgeModuleMemory,
- unsigned char DeviceAddr,
- int StandardMode
- )
-{
- MXL5005S_EXTRA_MODULE *pExtra;
-
- int MxlModMode;
- int MxlIfMode;
- unsigned long MxlBandwitdh;
- unsigned long MxlIfFreqHz;
- unsigned long MxlCrystalFreqHz;
- int MxlAgcMode;
- unsigned short MxlTop;
- unsigned short MxlIfOutputLoad;
- int MxlClockOut;
- int MxlDivOut;
- int MxlCapSel;
- int MxlRssiOnOff;
- unsigned char MxlStandard;
- unsigned char MxlTfType;
-
-
-
- // Set tuner module pointer, tuner extra module pointer, and I2C bridge module pointer.
- *ppTuner = pTunerModuleMemory;
- (*ppTuner)->pExtra = pMxl5005sExtraModuleMemory;
- (*ppTuner)->pBaseInterface = pBaseInterfaceModuleMemory;
- (*ppTuner)->pI2cBridge = pI2cBridgeModuleMemory;
-
- // Get tuner extra module pointer.
- pExtra = (MXL5005S_EXTRA_MODULE *)(*ppTuner)->pExtra;
-
-
- // Set I2C bridge tuner arguments.
- mxl5005s_SetI2cBridgeModuleTunerArg(*ppTuner);
-
-
- // Set tuner module manipulating function pointers.
- (*ppTuner)->SetDeviceAddr = mxl5005s_SetDeviceAddr;
-
- (*ppTuner)->GetTunerType = mxl5005s_GetTunerType;
- (*ppTuner)->GetDeviceAddr = mxl5005s_GetDeviceAddr;
-
- (*ppTuner)->Initialize = mxl5005s_Initialize;
- (*ppTuner)->SetRfFreqHz = mxl5005s_SetRfFreqHz;
- (*ppTuner)->GetRfFreqHz = mxl5005s_GetRfFreqHz;
-
-
- // Set tuner extra module manipulating function pointers.
- pExtra->SetRegsWithTable = mxl5005s_SetRegsWithTable;
- pExtra->SetRegMaskBits = mxl5005s_SetRegMaskBits;
- pExtra->SetSpectrumMode = mxl5005s_SetSpectrumMode;
- pExtra->SetBandwidthHz = mxl5005s_SetBandwidthHz;
-
-
- // Initialize tuner parameter setting status.
- (*ppTuner)->IsDeviceAddrSet = NO;
- (*ppTuner)->IsRfFreqHzSet = NO;
-
-
- // Set MxL5005S parameters.
- MxlModMode = MXL_DIGITAL_MODE;
- MxlIfMode = MXL_ZERO_IF;
- MxlBandwitdh = MXL5005S_BANDWIDTH_8MHZ;
- MxlIfFreqHz = IF_FREQ_4570000HZ;
- MxlCrystalFreqHz = CRYSTAL_FREQ_16000000HZ;
- MxlAgcMode = MXL_SINGLE_AGC;
- MxlTop = MXL5005S_TOP_25P2;
- MxlIfOutputLoad = MXL5005S_IF_OUTPUT_LOAD_200_OHM;
- MxlClockOut = MXL_CLOCK_OUT_DISABLE;
- MxlDivOut = MXL_DIV_OUT_4;
- MxlCapSel = MXL_CAP_SEL_ENABLE;
- MxlRssiOnOff = MXL_RSSI_ENABLE;
- MxlTfType = MXL_TF_C_H;
-
-
- // Set MxL5005S parameters according to standard mode
- switch(StandardMode)
- {
- default:
- case MXL5005S_STANDARD_DVBT: MxlStandard = MXL_DVBT; break;
- case MXL5005S_STANDARD_ATSC: MxlStandard = MXL_ATSC; break;
- }
-
-
- // Set MxL5005S extra module.
- pExtra->AgcMasterByte = (MxlAgcMode == MXL_DUAL_AGC) ? 0x4 : 0x0;
-
- MXL5005_TunerConfig(&pExtra->MxlDefinedTunerStructure, (unsigned char)MxlModMode, (unsigned char)MxlIfMode,
- MxlBandwitdh, MxlIfFreqHz, MxlCrystalFreqHz, (unsigned char)MxlAgcMode, MxlTop, MxlIfOutputLoad,
- (unsigned char)MxlClockOut, (unsigned char)MxlDivOut, (unsigned char)MxlCapSel, (unsigned char)MxlRssiOnOff,
- MxlStandard, MxlTfType);
-
-
-
- // Note: Need to set all module arguments before using module functions.
-
-
- // Set tuner type.
- (*ppTuner)->TunerType = TUNER_TYPE_MXL5005S;
-
- // Set tuner I2C device address.
- (*ppTuner)->SetDeviceAddr(*ppTuner, DeviceAddr);
-
-
- return;
-}
-
-void mxl5005s_SetDeviceAddr(
- TUNER_MODULE *pTuner,
- unsigned char DeviceAddr
- )
-{
- // Set tuner I2C device address.
- pTuner->DeviceAddr = DeviceAddr;
- pTuner->IsDeviceAddrSet = YES;
-
-
- return;
-}
-
-void mxl5005s_GetTunerType(
- TUNER_MODULE *pTuner,
- int *pTunerType
- )
-{
- // Get tuner type from tuner module.
- *pTunerType = pTuner->TunerType;
-
-
- return;
-}
-
-int mxl5005s_GetDeviceAddr(
- TUNER_MODULE *pTuner,
- unsigned char *pDeviceAddr
- )
+/* MXL5005 Tuner Control Struct */
+typedef struct _TunerControl_struct {
+ u16 Ctrl_Num; /* Control Number */
+ u16 size; /* Number of bits to represent Value */
+ u16 addr[25]; /* Array of Tuner Register Address for each bit position */
+ u16 bit[25]; /* Array of bit position in Register Address for each bit position */
+ u16 val[25]; /* Binary representation of Value */
+} TunerControl_struct;
+
+/* MXL5005 Tuner Struct */
+struct mxl5005s_state
{
- // Get tuner I2C device address from tuner module.
- if(pTuner->IsDeviceAddrSet != YES)
- goto error_status_get_tuner_i2c_device_addr;
-
- *pDeviceAddr = pTuner->DeviceAddr;
-
-
- return FUNCTION_SUCCESS;
+ u8 Mode; /* 0: Analog Mode ; 1: Digital Mode */
+ u8 IF_Mode; /* for Analog Mode, 0: zero IF; 1: low IF */
+ u32 Chan_Bandwidth; /* filter channel bandwidth (6, 7, 8) */
+ u32 IF_OUT; /* Desired IF Out Frequency */
+ u16 IF_OUT_LOAD; /* IF Out Load Resistor (200/300 Ohms) */
+ u32 RF_IN; /* RF Input Frequency */
+ u32 Fxtal; /* XTAL Frequency */
+ u8 AGC_Mode; /* AGC Mode 0: Dual AGC; 1: Single AGC */
+ u16 TOP; /* Value: take over point */
+ u8 CLOCK_OUT; /* 0: turn off clock out; 1: turn on clock out */
+ u8 DIV_OUT; /* 4MHz or 16MHz */
+ u8 CAPSELECT; /* 0: disable On-Chip pulling cap; 1: enable */
+ u8 EN_RSSI; /* 0: disable RSSI; 1: enable RSSI */
+ u8 Mod_Type; /* Modulation Type; */
+ /* 0 - Default; 1 - DVB-T; 2 - ATSC; 3 - QAM; 4 - Analog Cable */
+ u8 TF_Type; /* Tracking Filter Type */
+ /* 0 - Default; 1 - Off; 2 - Type C; 3 - Type C-H */
+
+ /* Calculated Settings */
+ u32 RF_LO; /* Synth RF LO Frequency */
+ u32 IF_LO; /* Synth IF LO Frequency */
+ u32 TG_LO; /* Synth TG_LO Frequency */
+
+ /* Pointers to ControlName Arrays */
+ u16 Init_Ctrl_Num; /* Number of INIT Control Names */
+ TunerControl_struct
+ Init_Ctrl[INITCTRL_NUM]; /* INIT Control Names Array Pointer */
+
+ u16 CH_Ctrl_Num; /* Number of CH Control Names */
+ TunerControl_struct
+ CH_Ctrl[CHCTRL_NUM]; /* CH Control Name Array Pointer */
+
+ u16 MXL_Ctrl_Num; /* Number of MXL Control Names */
+ TunerControl_struct
+ MXL_Ctrl[MXLCTRL_NUM]; /* MXL Control Name Array Pointer */
+
+ /* Pointer to Tuner Register Array */
+ u16 TunerRegs_Num; /* Number of Tuner Registers */
+ TunerReg_struct
+ TunerRegs[TUNER_REGS_NUM]; /* Tuner Register Array Pointer */
+};
-error_status_get_tuner_i2c_device_addr:
- return FUNCTION_ERROR;
-}
int mxl5005s_Initialize(
struct dvb_usb_device* dib,
@@ -310,24 +207,19 @@ error_status_set_tuner_registers:
return FUNCTION_ERROR;
}
-int mxl5005s_GetRfFreqHz(
- struct dvb_usb_device* dib,
- TUNER_MODULE *pTuner,
- unsigned long *pRfFreqHz
- )
+// DONE
+int mxl5005s_GetRfFreqHz(struct dvb_frontend *fe, unsigned long *pRfFreqHz)
{
- // Get tuner RF frequency in Hz from tuner module.
- if(pTuner->IsRfFreqHzSet != YES)
- goto error_status_get_tuner_rf_frequency;
-
- *pRfFreqHz = pTuner->RfFreqHz;
-
-
- return FUNCTION_SUCCESS;
+ struct mxl5005s_state *state = fe->demodulator_priv;
+ int ret = -1;
+ /* Get tuner RF frequency in Hz from tuner module. */
+ if(state->IsRfFreqHzSet == YES) {
+ *pRfFreqHz = state->RfFreqHz;
+ ret = 0;
+ }
-error_status_get_tuner_rf_frequency:
- return FUNCTION_ERROR;
+ return -1;
}
int mxl5005s_SetRegsWithTable(
@@ -394,14 +286,13 @@ error_status_set_tuner_registers:
return FUNCTION_ERROR;
}
-int mxl5005s_SetRegsWithTable(
- struct dvb_usb_device* dib,
- TUNER_MODULE *pTuner,
+int mxl5005s_SetRegsWithTable(struct dvb_frontend *fe,
unsigned char *pAddrTable,
unsigned char *pByteTable,
int TableLen
)
{
+ struct mxl5005s_state *state = fe->demodulator_priv;
int i;
u8 end_two_bytes_buf[]={ 0 , 0 };
u8 tuner_addr=0x00;
@@ -423,31 +314,21 @@ int mxl5005s_SetRegsWithTable(
return FUNCTION_SUCCESS;
}
-int mxl5005s_SetRegMaskBits(
- struct dvb_usb_device* dib,
- TUNER_MODULE *pTuner,
+int mxl5005s_SetRegMaskBits(struct dvb_frontend *fe,
unsigned char RegAddr,
unsigned char Msb,
unsigned char Lsb,
const unsigned char WritingValue
)
{
- MXL5005S_EXTRA_MODULE *pExtra;
-
+ struct mxl5005s_state *state = fe->demodulator_priv;
int i;
unsigned char Mask;
unsigned char Shift;
-
unsigned char RegByte;
-
-
- // Get tuner extra module.
- pExtra = (MXL5005S_EXTRA_MODULE *)pTuner->pExtra;
-
-
- // Generate mask and shift according to MSB and LSB.
+ /* Generate mask and shift according to MSB and LSB. */
Mask = 0;
for(i = Lsb; i < (unsigned char)(Msb + 1); i++)
Mask |= 0x1 << i;
@@ -455,20 +336,17 @@ int mxl5005s_SetRegMaskBits(
Shift = Lsb;
- // Get tuner register byte according to register adddress.
+ /* Get tuner register byte according to register adddress. */
MXL_RegRead(&pExtra->MxlDefinedTunerStructure, RegAddr, &RegByte);
-
- // Reserve register byte unmask bit with mask and inlay writing value into it.
+ /* Reserve register byte unmask bit with mask and inlay writing value into it. */
RegByte &= ~Mask;
RegByte |= (WritingValue << Shift) & Mask;
-
- // Update tuner register byte table.
+ /* Update tuner register byte table. */
MXL_RegWrite(&pExtra->MxlDefinedTunerStructure, RegAddr, RegByte);
-
- // Write tuner register byte with writing byte.
+ /* Write tuner register byte with writing byte. */
if(pExtra->SetRegsWithTable( dib, pTuner, &RegAddr, &RegByte, LEN_1_BYTE) != FUNCTION_SUCCESS)
goto error_status_set_tuner_registers;
@@ -480,1350 +358,1321 @@ error_status_set_tuner_registers:
return FUNCTION_ERROR;
}
-int mxl5005s_SetSpectrumMode(
- struct dvb_usb_device* dib,
- TUNER_MODULE *pTuner,
- int SpectrumMode
- )
+// DONE
+int mxl5005s_SetSpectrumMode(struct dvb_frontend *fe, int SpectrumMode)
{
+ struct mxl5005s_state *state = fe->demodulator_priv;
static const unsigned char BbIqswapTable[SPECTRUM_MODE_NUM] =
{
- // BB_IQSWAP
- 0, // Normal spectrum
- 1, // Inverse spectrum
+ /* BB_IQSWAP */
+ 0, /* Normal spectrum */
+ 1, /* Inverse spectrum */
};
-
- MXL5005S_EXTRA_MODULE *pExtra;
-
-
-
- // Get tuner extra module.
- pExtra = (MXL5005S_EXTRA_MODULE *)pTuner->pExtra;
-
-
- // Set BB_IQSWAP according to BB_IQSWAP table and spectrum mode.
- if(pExtra->SetRegMaskBits(dib,pTuner, MXL5005S_BB_IQSWAP_ADDR, MXL5005S_BB_IQSWAP_MSB,
- MXL5005S_BB_IQSWAP_LSB, BbIqswapTable[SpectrumMode]) != FUNCTION_SUCCESS)
- goto error_status_set_tuner_registers;
-
+ /* Set BB_IQSWAP according to BB_IQSWAP table and spectrum mode. */
+ mxl5005s_SetRegMaskBits(fe,
+ MXL5005S_BB_IQSWAP_ADDR,
+ MXL5005S_BB_IQSWAP_MSB,
+ MXL5005S_BB_IQSWAP_LSB,
+ BbIqswapTable[SpectrumMode]);
return FUNCTION_SUCCESS;
-
-
-error_status_set_tuner_registers:
- return FUNCTION_ERROR;
}
-int mxl5005s_SetBandwidthHz(
- struct dvb_usb_device* dib,
- TUNER_MODULE *pTuner,
- unsigned long BandwidthHz
- )
+// DONE
+int mxl5005s_SetBandwidthHz(struct dvb_frontend *fe, unsigned long BandwidthHz)
{
- MXL5005S_EXTRA_MODULE *pExtra;
+ struct mxl5005s_state *state = fe->demodulator_priv;
unsigned char BbDlpfBandsel;
-
-
- // Get tuner extra module.
- pExtra = (MXL5005S_EXTRA_MODULE *)pTuner->pExtra;
-
-
- // Set BB_DLPF_BANDSEL according to bandwidth.
+ /* Set BB_DLPF_BANDSEL according to bandwidth. */
switch(BandwidthHz)
{
default:
- case MXL5005S_BANDWIDTH_6MHZ: BbDlpfBandsel = 3; break;
- case MXL5005S_BANDWIDTH_7MHZ: BbDlpfBandsel = 2; break;
- case MXL5005S_BANDWIDTH_8MHZ: BbDlpfBandsel = 0; break;
+ case MXL5005S_BANDWIDTH_6MHZ:
+ BbDlpfBandsel = 3;
+ break;
+ case MXL5005S_BANDWIDTH_7MHZ:
+ BbDlpfBandsel = 2;
+ break;
+ case MXL5005S_BANDWIDTH_8MHZ:
+ BbDlpfBandsel = 0;
+ break;
}
if(pExtra->SetRegMaskBits(dib,pTuner, MXL5005S_BB_DLPF_BANDSEL_ADDR, MXL5005S_BB_DLPF_BANDSEL_MSB,
- MXL5005S_BB_DLPF_BANDSEL_LSB, BbDlpfBandsel) != FUNCTION_SUCCESS)
+ MXL5005S_BB_DLPF_BANDSEL_LSB, BbDlpfBandsel) != 0)
goto error_status_set_tuner_registers;
- return FUNCTION_SUCCESS;
+ return 0;
error_status_set_tuner_registers:
- return FUNCTION_ERROR;
-}
-
-void mxl5005s_SetI2cBridgeModuleTunerArg(TUNER_MODULE *pTuner)
-{
- I2C_BRIDGE_MODULE *pI2cBridge;
-
-
-
- // Get I2C bridge module.
- pI2cBridge = pTuner->pI2cBridge;
-
- // Set I2C bridge module tuner arguments.
- pI2cBridge->pTunerDeviceAddr = &pTuner->DeviceAddr;
-
-
- return;
+ return -1;
}
// The following context is source code provided by MaxLinear.
// MaxLinear source code - MXL5005_Initialize.cpp
-u16 MXL5005_RegisterInit(Tuner_struct *Tuner)
+// DONE
+u16 MXL5005_RegisterInit(struct dvb_frontend *fe)
{
- Tuner->TunerRegs_Num = TUNER_REGS_NUM ;
-// Tuner->TunerRegs = (TunerReg_struct *) calloc( TUNER_REGS_NUM, sizeof(TunerReg_struct) ) ;
+ struct mxl5005s_state *state = fe->demodulator_priv;
+ state->TunerRegs_Num = TUNER_REGS_NUM ;
+// state->TunerRegs = (TunerReg_struct *) calloc( TUNER_REGS_NUM, sizeof(TunerReg_struct) ) ;
- Tuner->TunerRegs[0].Reg_Num = 9 ;
- Tuner->TunerRegs[0].Reg_Val = 0x40 ;
+ state->TunerRegs[0].Reg_Num = 9 ;
+ state->TunerRegs[0].Reg_Val = 0x40 ;
- Tuner->TunerRegs[1].Reg_Num = 11 ;
- Tuner->TunerRegs[1].Reg_Val = 0x19 ;
+ state->TunerRegs[1].Reg_Num = 11 ;
+ state->TunerRegs[1].Reg_Val = 0x19 ;
- Tuner->TunerRegs[2].Reg_Num = 12 ;
- Tuner->TunerRegs[2].Reg_Val = 0x60 ;
+ state->TunerRegs[2].Reg_Num = 12 ;
+ state->TunerRegs[2].Reg_Val = 0x60 ;
- Tuner->TunerRegs[3].Reg_Num = 13 ;
- Tuner->TunerRegs[3].Reg_Val = 0x00 ;
+ state->TunerRegs[3].Reg_Num = 13 ;
+ state->TunerRegs[3].Reg_Val = 0x00 ;
- Tuner->TunerRegs[4].Reg_Num = 14 ;
- Tuner->TunerRegs[4].Reg_Val = 0x00 ;
+ state->TunerRegs[4].Reg_Num = 14 ;
+ state->TunerRegs[4].Reg_Val = 0x00 ;
- Tuner->TunerRegs[5].Reg_Num = 15 ;
- Tuner->TunerRegs[5].Reg_Val = 0xC0 ;
+ state->TunerRegs[5].Reg_Num = 15 ;
+ state->TunerRegs[5].Reg_Val = 0xC0 ;
- Tuner->TunerRegs[6].Reg_Num = 16 ;
- Tuner->TunerRegs[6].Reg_Val = 0x00 ;
+ state->TunerRegs[6].Reg_Num = 16 ;
+ state->TunerRegs[6].Reg_Val = 0x00 ;
- Tuner->TunerRegs[7].Reg_Num = 17 ;
- Tuner->TunerRegs[7].Reg_Val = 0x00 ;
+ state->TunerRegs[7].Reg_Num = 17 ;
+ state->TunerRegs[7].Reg_Val = 0x00 ;
- Tuner->TunerRegs[8].Reg_Num = 18 ;
- Tuner->TunerRegs[8].Reg_Val = 0x00 ;
+ state->TunerRegs[8].Reg_Num = 18 ;
+ state->TunerRegs[8].Reg_Val = 0x00 ;
- Tuner->TunerRegs[9].Reg_Num = 19 ;
- Tuner->TunerRegs[9].Reg_Val = 0x34 ;
+ state->TunerRegs[9].Reg_Num = 19 ;
+ state->TunerRegs[9].Reg_Val = 0x34 ;
- Tuner->TunerRegs[10].Reg_Num = 21 ;
- Tuner->TunerRegs[10].Reg_Val = 0x00 ;
+ state->TunerRegs[10].Reg_Num = 21 ;
+ state->TunerRegs[10].Reg_Val = 0x00 ;
- Tuner->TunerRegs[11].Reg_Num = 22 ;
- Tuner->TunerRegs[11].Reg_Val = 0x6B ;
+ state->TunerRegs[11].Reg_Num = 22 ;
+ state->TunerRegs[11].Reg_Val = 0x6B ;
- Tuner->TunerRegs[12].Reg_Num = 23 ;
- Tuner->TunerRegs[12].Reg_Val = 0x35 ;
+ state->TunerRegs[12].Reg_Num = 23 ;
+ state->TunerRegs[12].Reg_Val = 0x35 ;
- Tuner->TunerRegs[13].Reg_Num = 24 ;
- Tuner->TunerRegs[13].Reg_Val = 0x70 ;
+ state->TunerRegs[13].Reg_Num = 24 ;
+ state->TunerRegs[13].Reg_Val = 0x70 ;
- Tuner->TunerRegs[14].Reg_Num = 25 ;
- Tuner->TunerRegs[14].Reg_Val = 0x3E ;
+ state->TunerRegs[14].Reg_Num = 25 ;
+ state->TunerRegs[14].Reg_Val = 0x3E ;
- Tuner->TunerRegs[15].Reg_Num = 26 ;
- Tuner->TunerRegs[15].Reg_Val = 0x82 ;
+ state->TunerRegs[15].Reg_Num = 26 ;
+ state->TunerRegs[15].Reg_Val = 0x82 ;
- Tuner->TunerRegs[16].Reg_Num = 31 ;
- Tuner->TunerRegs[16].Reg_Val = 0x00 ;
+ state->TunerRegs[16].Reg_Num = 31 ;
+ state->TunerRegs[16].Reg_Val = 0x00 ;
- Tuner->TunerRegs[17].Reg_Num = 32 ;
- Tuner->TunerRegs[17].Reg_Val = 0x40 ;
+ state->TunerRegs[17].Reg_Num = 32 ;
+ state->TunerRegs[17].Reg_Val = 0x40 ;
- Tuner->TunerRegs[18].Reg_Num = 33 ;
- Tuner->TunerRegs[18].Reg_Val = 0x53 ;
+ state->TunerRegs[18].Reg_Num = 33 ;
+ state->TunerRegs[18].Reg_Val = 0x53 ;
- Tuner->TunerRegs[19].Reg_Num = 34 ;
- Tuner->TunerRegs[19].Reg_Val = 0x81 ;
+ state->TunerRegs[19].Reg_Num = 34 ;
+ state->TunerRegs[19].Reg_Val = 0x81 ;
- Tuner->TunerRegs[20].Reg_Num = 35 ;
- Tuner->TunerRegs[20].Reg_Val = 0xC9 ;
+ state->TunerRegs[20].Reg_Num = 35 ;
+ state->TunerRegs[20].Reg_Val = 0xC9 ;
- Tuner->TunerRegs[21].Reg_Num = 36 ;
- Tuner->TunerRegs[21].Reg_Val = 0x01 ;
+ state->TunerRegs[21].Reg_Num = 36 ;
+ state->TunerRegs[21].Reg_Val = 0x01 ;
- Tuner->TunerRegs[22].Reg_Num = 37 ;
- Tuner->TunerRegs[22].Reg_Val = 0x00 ;
+ state->TunerRegs[22].Reg_Num = 37 ;
+ state->TunerRegs[22].Reg_Val = 0x00 ;
- Tuner->TunerRegs[23].Reg_Num = 41 ;
- Tuner->TunerRegs[23].Reg_Val = 0x00 ;
+ state->TunerRegs[23].Reg_Num = 41 ;
+ state->TunerRegs[23].Reg_Val = 0x00 ;
- Tuner->TunerRegs[24].Reg_Num = 42 ;
- Tuner->TunerRegs[24].Reg_Val = 0xF8 ;
+ state->TunerRegs[24].Reg_Num = 42 ;
+ state->TunerRegs[24].Reg_Val = 0xF8 ;
- Tuner->TunerRegs[25].Reg_Num = 43 ;
- Tuner->TunerRegs[25].Reg_Val = 0x43 ;
+ state->TunerRegs[25].Reg_Num = 43 ;
+ state->TunerRegs[25].Reg_Val = 0x43 ;
- Tuner->TunerRegs[26].Reg_Num = 44 ;
- Tuner->TunerRegs[26].Reg_Val = 0x20 ;
+ state->TunerRegs[26].Reg_Num = 44 ;
+ state->TunerRegs[26].Reg_Val = 0x20 ;
- Tuner->TunerRegs[27].Reg_Num = 45 ;
- Tuner->TunerRegs[27].Reg_Val = 0x80 ;
+ state->TunerRegs[27].Reg_Num = 45 ;
+ state->TunerRegs[27].Reg_Val = 0x80 ;
- Tuner->TunerRegs[28].Reg_Num = 46 ;
- Tuner->TunerRegs[28].Reg_Val = 0x88 ;
+ state->TunerRegs[28].Reg_Num = 46 ;
+ state->TunerRegs[28].Reg_Val = 0x88 ;
- Tuner->TunerRegs[29].Reg_Num = 47 ;
- Tuner->TunerRegs[29].Reg_Val = 0x86 ;
+ state->TunerRegs[29].Reg_Num = 47 ;
+ state->TunerRegs[29].Reg_Val = 0x86 ;
- Tuner->TunerRegs[30].Reg_Num = 48 ;
- Tuner->TunerRegs[30].Reg_Val = 0x00 ;
+ state->TunerRegs[30].Reg_Num = 48 ;
+ state->TunerRegs[30].Reg_Val = 0x00 ;
- Tuner->TunerRegs[31].Reg_Num = 49 ;
- Tuner->TunerRegs[31].Reg_Val = 0x00 ;
+ state->TunerRegs[31].Reg_Num = 49 ;
+ state->TunerRegs[31].Reg_Val = 0x00 ;
- Tuner->TunerRegs[32].Reg_Num = 53 ;
- Tuner->TunerRegs[32].Reg_Val = 0x94 ;
+ state->TunerRegs[32].Reg_Num = 53 ;
+ state->TunerRegs[32].Reg_Val = 0x94 ;
- Tuner->TunerRegs[33].Reg_Num = 54 ;
- Tuner->TunerRegs[33].Reg_Val = 0xFA ;
+ state->TunerRegs[33].Reg_Num = 54 ;
+ state->TunerRegs[33].Reg_Val = 0xFA ;
- Tuner->TunerRegs[34].Reg_Num = 55 ;
- Tuner->TunerRegs[34].Reg_Val = 0x92 ;
+ state->TunerRegs[34].Reg_Num = 55 ;
+ state->TunerRegs[34].Reg_Val = 0x92 ;
- Tuner->TunerRegs[35].Reg_Num = 56 ;
- Tuner->TunerRegs[35].Reg_Val = 0x80 ;
+ state->TunerRegs[35].Reg_Num = 56 ;
+ state->TunerRegs[35].Reg_Val = 0x80 ;
- Tuner->TunerRegs[36].Reg_Num = 57 ;
- Tuner->TunerRegs[36].Reg_Val = 0x41 ;
+ state->TunerRegs[36].Reg_Num = 57 ;
+ state->TunerRegs[36].Reg_Val = 0x41 ;
- Tuner->TunerRegs[37].Reg_Num = 58 ;
- Tuner->TunerRegs[37].Reg_Val = 0xDB ;
+ state->TunerRegs[37].Reg_Num = 58 ;
+ state->TunerRegs[37].Reg_Val = 0xDB ;
- Tuner->TunerRegs[38].Reg_Num = 59 ;
- Tuner->TunerRegs[38].Reg_Val = 0x00 ;
+ state->TunerRegs[38].Reg_Num = 59 ;
+ state->TunerRegs[38].Reg_Val = 0x00 ;
- Tuner->TunerRegs[39].Reg_Num = 60 ;
- Tuner->TunerRegs[39].Reg_Val = 0x00 ;
+ state->TunerRegs[39].Reg_Num = 60 ;
+ state->TunerRegs[39].Reg_Val = 0x00 ;
- Tuner->TunerRegs[40].Reg_Num = 61 ;
- Tuner->TunerRegs[40].Reg_Val = 0x00 ;
+ state->TunerRegs[40].Reg_Num = 61 ;
+ state->TunerRegs[40].Reg_Val = 0x00 ;
- Tuner->TunerRegs[41].Reg_Num = 62 ;
- Tuner->TunerRegs[41].Reg_Val = 0x00 ;
+ state->TunerRegs[41].Reg_Num = 62 ;
+ state->TunerRegs[41].Reg_Val = 0x00 ;
- Tuner->TunerRegs[42].Reg_Num = 65 ;
- Tuner->TunerRegs[42].Reg_Val = 0xF8 ;
+ state->TunerRegs[42].Reg_Num = 65 ;
+ state->TunerRegs[42].Reg_Val = 0xF8 ;
- Tuner->TunerRegs[43].Reg_Num = 66 ;
- Tuner->TunerRegs[43].Reg_Val = 0xE4 ;
+ state->TunerRegs[43].Reg_Num = 66 ;
+ state->TunerRegs[43].Reg_Val = 0xE4 ;
- Tuner->TunerRegs[44].Reg_Num = 67 ;
- Tuner->TunerRegs[44].Reg_Val = 0x90 ;
+ state->TunerRegs[44].Reg_Num = 67 ;
+ state->TunerRegs[44].Reg_Val = 0x90 ;
- Tuner->TunerRegs[45].Reg_Num = 68 ;
- Tuner->TunerRegs[45].Reg_Val = 0xC0 ;
+ state->TunerRegs[45].Reg_Num = 68 ;
+ state->TunerRegs[45].Reg_Val = 0xC0 ;
- Tuner->TunerRegs[46].Reg_Num = 69 ;
- Tuner->TunerRegs[46].Reg_Val = 0x01 ;
+ state->TunerRegs[46].Reg_Num = 69 ;
+ state->TunerRegs[46].Reg_Val = 0x01 ;
- Tuner->TunerRegs[47].Reg_Num = 70 ;
- Tuner->TunerRegs[47].Reg_Val = 0x50 ;
+ state->TunerRegs[47].Reg_Num = 70 ;
+ state->TunerRegs[47].Reg_Val = 0x50 ;
- Tuner->TunerRegs[48].Reg_Num = 71 ;
- Tuner->TunerRegs[48].Reg_Val = 0x06 ;
+ state->TunerRegs[48].Reg_Num = 71 ;
+ state->TunerRegs[48].Reg_Val = 0x06 ;
- Tuner->TunerRegs[49].Reg_Num = 72 ;
- Tuner->TunerRegs[49].Reg_Val = 0x00 ;
+ state->TunerRegs[49].Reg_Num = 72 ;
+ state->TunerRegs[49].Reg_Val = 0x00 ;
- Tuner->TunerRegs[50].Reg_Num = 73 ;
- Tuner->TunerRegs[50].Reg_Val = 0x20 ;
+ state->TunerRegs[50].Reg_Num = 73 ;
+ state->TunerRegs[50].Reg_Val = 0x20 ;
- Tuner->TunerRegs[51].Reg_Num = 76 ;
- Tuner->TunerRegs[51].Reg_Val = 0xBB ;
+ state->TunerRegs[51].Reg_Num = 76 ;
+ state->TunerRegs[51].Reg_Val = 0xBB ;
- Tuner->TunerRegs[52].Reg_Num = 77 ;
- Tuner->TunerRegs[52].Reg_Val = 0x13 ;
+ state->TunerRegs[52].Reg_Num = 77 ;
+ state->TunerRegs[52].Reg_Val = 0x13 ;
- Tuner->TunerRegs[53].Reg_Num = 81 ;
- Tuner->TunerRegs[53].Reg_Val = 0x04 ;
+ state->TunerRegs[53].Reg_Num = 81 ;
+ state->TunerRegs[53].Reg_Val = 0x04 ;
- Tuner->TunerRegs[54].Reg_Num = 82 ;
- Tuner->TunerRegs[54].Reg_Val = 0x75 ;
+ state->TunerRegs[54].Reg_Num = 82 ;
+ state->TunerRegs[54].Reg_Val = 0x75 ;
- Tuner->TunerRegs[55].Reg_Num = 83 ;
- Tuner->TunerRegs[55].Reg_Val = 0x00 ;
+ state->TunerRegs[55].Reg_Num = 83 ;
+ state->TunerRegs[55].Reg_Val = 0x00 ;
- Tuner->TunerRegs[56].Reg_Num = 84 ;
- Tuner->TunerRegs[56].Reg_Val = 0x00 ;
+ state->TunerRegs[56].Reg_Num = 84 ;
+ state->TunerRegs[56].Reg_Val = 0x00 ;
- Tuner->TunerRegs[57].Reg_Num = 85 ;
- Tuner->TunerRegs[57].Reg_Val = 0x00 ;
+ state->TunerRegs[57].Reg_Num = 85 ;
+ state->TunerRegs[57].Reg_Val = 0x00 ;
- Tuner->TunerRegs[58].Reg_Num = 91 ;
- Tuner->TunerRegs[58].Reg_Val = 0x70 ;
+ state->TunerRegs[58].Reg_Num = 91 ;
+ state->TunerRegs[58].Reg_Val = 0x70 ;
- Tuner->TunerRegs[59].Reg_Num = 92 ;
- Tuner->TunerRegs[59].Reg_Val = 0x00 ;
+ state->TunerRegs[59].Reg_Num = 92 ;
+ state->TunerRegs[59].Reg_Val = 0x00 ;
- Tuner->TunerRegs[60].Reg_Num = 93 ;
- Tuner->TunerRegs[60].Reg_Val = 0x00 ;
+ state->TunerRegs[60].Reg_Num = 93 ;
+ state->TunerRegs[60].Reg_Val = 0x00 ;
- Tuner->TunerRegs[61].Reg_Num = 94 ;
- Tuner->TunerRegs[61].Reg_Val = 0x00 ;
+ state->TunerRegs[61].Reg_Num = 94 ;
+ state->TunerRegs[61].Reg_Val = 0x00 ;
- Tuner->TunerRegs[62].Reg_Num = 95 ;
- Tuner->TunerRegs[62].Reg_Val = 0x0C ;
+ state->TunerRegs[62].Reg_Num = 95 ;
+ state->TunerRegs[62].Reg_Val = 0x0C ;
- Tuner->TunerRegs[63].Reg_Num = 96 ;
- Tuner->TunerRegs[63].Reg_Val = 0x00 ;
+ state->TunerRegs[63].Reg_Num = 96 ;
+ state->TunerRegs[63].Reg_Val = 0x00 ;
- Tuner->TunerRegs[64].Reg_Num = 97 ;
- Tuner->TunerRegs[64].Reg_Val = 0x00 ;
+ state->TunerRegs[64].Reg_Num = 97 ;
+ state->TunerRegs[64].Reg_Val = 0x00 ;
- Tuner->TunerRegs[65].Reg_Num = 98 ;
- Tuner->TunerRegs[65].Reg_Val = 0xE2 ;
+ state->TunerRegs[65].Reg_Num = 98 ;
+ state->TunerRegs[65].Reg_Val = 0xE2 ;
- Tuner->TunerRegs[66].Reg_Num = 99 ;
- Tuner->TunerRegs[66].Reg_Val = 0x00 ;
+ state->TunerRegs[66].Reg_Num = 99 ;
+ state->TunerRegs[66].Reg_Val = 0x00 ;
- Tuner->TunerRegs[67].Reg_Num = 100 ;
- Tuner->TunerRegs[67].Reg_Val = 0x00 ;
+ state->TunerRegs[67].Reg_Num = 100 ;
+ state->TunerRegs[67].Reg_Val = 0x00 ;
- Tuner->TunerRegs[68].Reg_Num = 101 ;
- Tuner->TunerRegs[68].Reg_Val = 0x12 ;
+ state->TunerRegs[68].Reg_Num = 101 ;
+ state->TunerRegs[68].Reg_Val = 0x12 ;
- Tuner->TunerRegs[69].Reg_Num = 102 ;
- Tuner->TunerRegs[69].Reg_Val = 0x80 ;
+ state->TunerRegs[69].Reg_Num = 102 ;
+ state->TunerRegs[69].Reg_Val = 0x80 ;
- Tuner->TunerRegs[70].Reg_Num = 103 ;
- Tuner->TunerRegs[70].Reg_Val = 0x32 ;
+ state->TunerRegs[70].Reg_Num = 103 ;
+ state->TunerRegs[70].Reg_Val = 0x32 ;
- Tuner->TunerRegs[71].Reg_Num = 104 ;
- Tuner->TunerRegs[71].Reg_Val = 0xB4 ;
+ state->TunerRegs[71].Reg_Num = 104 ;
+ state->TunerRegs[71].Reg_Val = 0xB4 ;
- Tuner->TunerRegs[72].Reg_Num = 105 ;
- Tuner->TunerRegs[72].Reg_Val = 0x60 ;
+ state->TunerRegs[72].Reg_Num = 105 ;
+ state->TunerRegs[72].Reg_Val = 0x60 ;
- Tuner->TunerRegs[73].Reg_Num = 106 ;
- Tuner->TunerRegs[73].Reg_Val = 0x83 ;
+ state->TunerRegs[73].Reg_Num = 106 ;
+ state->TunerRegs[73].Reg_Val = 0x83 ;
- Tuner->TunerRegs[74].Reg_Num = 107 ;
- Tuner->TunerRegs[74].Reg_Val = 0x84 ;
+ state->TunerRegs[74].Reg_Num = 107 ;
+ state->TunerRegs[74].Reg_Val = 0x84 ;
- Tuner->TunerRegs[75].Reg_Num = 108 ;
- Tuner->TunerRegs[75].Reg_Val = 0x9C ;
+ state->TunerRegs[75].Reg_Num = 108 ;
+ state->TunerRegs[75].Reg_Val = 0x9C ;
- Tuner->TunerRegs[76].Reg_Num = 109 ;
- Tuner->TunerRegs[76].Reg_Val = 0x02 ;
+ state->TunerRegs[76].Reg_Num = 109 ;
+ state->TunerRegs[76].Reg_Val = 0x02 ;
- Tuner->TunerRegs[77].Reg_Num = 110 ;
- Tuner->TunerRegs[77].Reg_Val = 0x81 ;
+ state->TunerRegs[77].Reg_Num = 110 ;
+ state->TunerRegs[77].Reg_Val = 0x81 ;
- Tuner->TunerRegs[78].Reg_Num = 111 ;
- Tuner->TunerRegs[78].Reg_Val = 0xC0 ;
+ state->TunerRegs[78].Reg_Num = 111 ;
+ state->TunerRegs[78].Reg_Val = 0xC0 ;
- Tuner->TunerRegs[79].Reg_Num = 112 ;
- Tuner->TunerRegs[79].Reg_Val = 0x10 ;
+ state->TunerRegs[79].Reg_Num = 112 ;
+ state->TunerRegs[79].Reg_Val = 0x10 ;
- Tuner->TunerRegs[80].Reg_Num = 131 ;
- Tuner->TunerRegs[80].Reg_Val = 0x8A ;
+ state->TunerRegs[80].Reg_Num = 131 ;
+ state->TunerRegs[80].Reg_Val = 0x8A ;
- Tuner->TunerRegs[81].Reg_Num = 132 ;
- Tuner->TunerRegs[81].Reg_Val = 0x10 ;
+ state->TunerRegs[81].Reg_Num = 132 ;
+ state->TunerRegs[81].Reg_Val = 0x10 ;
- Tuner->TunerRegs[82].Reg_Num = 133 ;
- Tuner->TunerRegs[82].Reg_Val = 0x24 ;
+ state->TunerRegs[82].Reg_Num = 133 ;
+ state->TunerRegs[82].Reg_Val = 0x24 ;
- Tuner->TunerRegs[83].Reg_Num = 134 ;
- Tuner->TunerRegs[83].Reg_Val = 0x00 ;
+ state->TunerRegs[83].Reg_Num = 134 ;
+ state->TunerRegs[83].Reg_Val = 0x00 ;
- Tuner->TunerRegs[84].Reg_Num = 135 ;
- Tuner->TunerRegs[84].Reg_Val = 0x00 ;
+ state->TunerRegs[84].Reg_Num = 135 ;
+ state->TunerRegs[84].Reg_Val = 0x00 ;
- Tuner->TunerRegs[85].Reg_Num = 136 ;
- Tuner->TunerRegs[85].Reg_Val = 0x7E ;
+ state->TunerRegs[85].Reg_Num = 136 ;
+ state->TunerRegs[85].Reg_Val = 0x7E ;
- Tuner->TunerRegs[86].Reg_Num = 137 ;
- Tuner->TunerRegs[86].Reg_Val = 0x40 ;
+ state->TunerRegs[86].Reg_Num = 137 ;
+ state->TunerRegs[86].Reg_Val = 0x40 ;
- Tuner->TunerRegs[87].Reg_Num = 138 ;
- Tuner->TunerRegs[87].Reg_Val = 0x38 ;
+ state->TunerRegs[87].Reg_Num = 138 ;
+ state->TunerRegs[87].Reg_Val = 0x38 ;
- Tuner->TunerRegs[88].Reg_Num = 146 ;
- Tuner->TunerRegs[88].Reg_Val = 0xF6 ;
+ state->TunerRegs[88].Reg_Num = 146 ;
+ state->TunerRegs[88].Reg_Val = 0xF6 ;
- Tuner->TunerRegs[89].Reg_Num = 147 ;
- Tuner->TunerRegs[89].Reg_Val = 0x1A ;
+ state->TunerRegs[89].Reg_Num = 147 ;
+ state->TunerRegs[89].Reg_Val = 0x1A ;
- Tuner->TunerRegs[90].Reg_Num = 148 ;
- Tuner->TunerRegs[90].Reg_Val = 0x62 ;
+ state->TunerRegs[90].Reg_Num = 148 ;
+ state->TunerRegs[90].Reg_Val = 0x62 ;
- Tuner->TunerRegs[91].Reg_Num = 149 ;
- Tuner->TunerRegs[91].Reg_Val = 0x33 ;
+ state->TunerRegs[91].Reg_Num = 149 ;
+ state->TunerRegs[91].Reg_Val = 0x33 ;
- Tuner->TunerRegs[92].Reg_Num = 150 ;
- Tuner->TunerRegs[92].Reg_Val = 0x80 ;
+ state->TunerRegs[92].Reg_Num = 150 ;
+ state->TunerRegs[92].Reg_Val = 0x80 ;
- Tuner->TunerRegs[93].Reg_Num = 156 ;
- Tuner->TunerRegs[93].Reg_Val = 0x56 ;
+ state->TunerRegs[93].Reg_Num = 156 ;
+ state->TunerRegs[93].Reg_Val = 0x56 ;
- Tuner->TunerRegs[94].Reg_Num = 157 ;
- Tuner->TunerRegs[94].Reg_Val = 0x17 ;
+ state->TunerRegs[94].Reg_Num = 157 ;
+ state->TunerRegs[94].Reg_Val = 0x17 ;
- Tuner->TunerRegs[95].Reg_Num = 158 ;
- Tuner->TunerRegs[95].Reg_Val = 0xA9 ;
+ state->TunerRegs[95].Reg_Num = 158 ;
+ state->TunerRegs[95].Reg_Val = 0xA9 ;
- Tuner->TunerRegs[96].Reg_Num = 159 ;
- Tuner->TunerRegs[96].Reg_Val = 0x00 ;
+ state->TunerRegs[96].Reg_Num = 159 ;
+ state->TunerRegs[96].Reg_Val = 0x00 ;
- Tuner->TunerRegs[97].Reg_Num = 160 ;
- Tuner->TunerRegs[97].Reg_Val = 0x00 ;
+ state->TunerRegs[97].Reg_Num = 160 ;
+ state->TunerRegs[97].Reg_Val = 0x00 ;
- Tuner->TunerRegs[98].Reg_Num = 161 ;
- Tuner->TunerRegs[98].Reg_Val = 0x00 ;
+ state->TunerRegs[98].Reg_Num = 161 ;
+ state->TunerRegs[98].Reg_Val = 0x00 ;
- Tuner->TunerRegs[99].Reg_Num = 162 ;
- Tuner->TunerRegs[99].Reg_Val = 0x40 ;
+ state->TunerRegs[99].Reg_Num = 162 ;
+ state->TunerRegs[99].Reg_Val = 0x40 ;
- Tuner->TunerRegs[100].Reg_Num = 166 ;
- Tuner->TunerRegs[100].Reg_Val = 0xAE ;
+ state->TunerRegs[100].Reg_Num = 166 ;
+ state->TunerRegs[100].Reg_Val = 0xAE ;
- Tuner->TunerRegs[101].Reg_Num = 167 ;
- Tuner->TunerRegs[101].Reg_Val = 0x1B ;
+ state->TunerRegs[101].Reg_Num = 167 ;
+ state->TunerRegs[101].Reg_Val = 0x1B ;
- Tuner->TunerRegs[102].Reg_Num = 168 ;
- Tuner->TunerRegs[102].Reg_Val = 0xF2 ;
+ state->TunerRegs[102].Reg_Num = 168 ;
+ state->TunerRegs[102].Reg_Val = 0xF2 ;
- Tuner->TunerRegs[103].Reg_Num = 195 ;
- Tuner->TunerRegs[103].Reg_Val = 0x00 ;
+ state->TunerRegs[103].Reg_Num = 195 ;
+ state->TunerRegs[103].Reg_Val = 0x00 ;
return 0 ;
}
-u16 MXL5005_ControlInit(Tuner_struct *Tuner)
+// DONE
+u16 MXL5005_ControlInit(struct dvb_frontend *fe)
{
- Tuner->Init_Ctrl_Num = INITCTRL_NUM ;
-
- Tuner->Init_Ctrl[0].Ctrl_Num = DN_IQTN_AMP_CUT ;
- Tuner->Init_Ctrl[0].size = 1 ;
- Tuner->Init_Ctrl[0].addr[0] = 73;
- Tuner->Init_Ctrl[0].bit[0] = 7;
- Tuner->Init_Ctrl[0].val[0] = 0;
-
- Tuner->Init_Ctrl[1].Ctrl_Num = BB_MODE ;
- Tuner->Init_Ctrl[1].size = 1 ;
- Tuner->Init_Ctrl[1].addr[0] = 53;
- Tuner->Init_Ctrl[1].bit[0] = 2;
- Tuner->Init_Ctrl[1].val[0] = 1;
-
- Tuner->Init_Ctrl[2].Ctrl_Num = BB_BUF ;
- Tuner->Init_Ctrl[2].size = 2 ;
- Tuner->Init_Ctrl[2].addr[0] = 53;
- Tuner->Init_Ctrl[2].bit[0] = 1;
- Tuner->Init_Ctrl[2].val[0] = 0;
- Tuner->Init_Ctrl[2].addr[1] = 57;
- Tuner->Init_Ctrl[2].bit[1] = 0;
- Tuner->Init_Ctrl[2].val[1] = 1;
-
- Tuner->Init_Ctrl[3].Ctrl_Num = BB_BUF_OA ;
- Tuner->Init_Ctrl[3].size = 1 ;
- Tuner->Init_Ctrl[3].addr[0] = 53;
- Tuner->Init_Ctrl[3].bit[0] = 0;
- Tuner->Init_Ctrl[3].val[0] = 0;
-
- Tuner->Init_Ctrl[4].Ctrl_Num = BB_ALPF_BANDSELECT ;
- Tuner->Init_Ctrl[4].size = 3 ;
- Tuner->Init_Ctrl[4].addr[0] = 53;
- Tuner->Init_Ctrl[4].bit[0] = 5;
- Tuner->Init_Ctrl[4].val[0] = 0;
- Tuner->Init_Ctrl[4].addr[1] = 53;
- Tuner->Init_Ctrl[4].bit[1] = 6;
- Tuner->Init_Ctrl[4].val[1] = 0;
- Tuner->Init_Ctrl[4].addr[2] = 53;
- Tuner->Init_Ctrl[4].bit[2] = 7;
- Tuner->Init_Ctrl[4].val[2] = 1;
-
- Tuner->Init_Ctrl[5].Ctrl_Num = BB_IQSWAP ;
- Tuner->Init_Ctrl[5].size = 1 ;
- Tuner->Init_Ctrl[5].addr[0] = 59;
- Tuner->Init_Ctrl[5].bit[0] = 0;
- Tuner->Init_Ctrl[5].val[0] = 0;
-
- Tuner->Init_Ctrl[6].Ctrl_Num = BB_DLPF_BANDSEL ;
- Tuner->Init_Ctrl[6].size = 2 ;
- Tuner->Init_Ctrl[6].addr[0] = 53;
- Tuner->Init_Ctrl[6].bit[0] = 3;
- Tuner->Init_Ctrl[6].val[0] = 0;
- Tuner->Init_Ctrl[6].addr[1] = 53;
- Tuner->Init_Ctrl[6].bit[1] = 4;
- Tuner->Init_Ctrl[6].val[1] = 1;
-
- Tuner->Init_Ctrl[7].Ctrl_Num = RFSYN_CHP_GAIN ;
- Tuner->Init_Ctrl[7].size = 4 ;
- Tuner->Init_Ctrl[7].addr[0] = 22;
- Tuner->Init_Ctrl[7].bit[0] = 4;
- Tuner->Init_Ctrl[7].val[0] = 0;
- Tuner->Init_Ctrl[7].addr[1] = 22;
- Tuner->Init_Ctrl[7].bit[1] = 5;
- Tuner->Init_Ctrl[7].val[1] = 1;
- Tuner->Init_Ctrl[7].addr[2] = 22;
- Tuner->Init_Ctrl[7].bit[2] = 6;
- Tuner->Init_Ctrl[7].val[2] = 1;
- Tuner->Init_Ctrl[7].addr[3] = 22;
- Tuner->Init_Ctrl[7].bit[3] = 7;
- Tuner->Init_Ctrl[7].val[3] = 0;
-
- Tuner->Init_Ctrl[8].Ctrl_Num = RFSYN_EN_CHP_HIGAIN ;
- Tuner->Init_Ctrl[8].size = 1 ;
- Tuner->Init_Ctrl[8].addr[0] = 22;
- Tuner->Init_Ctrl[8].bit[0] = 2;
- Tuner->Init_Ctrl[8].val[0] = 0;
-
- Tuner->Init_Ctrl[9].Ctrl_Num = AGC_IF ;
- Tuner->Init_Ctrl[9].size = 4 ;
- Tuner->Init_Ctrl[9].addr[0] = 76;
- Tuner->Init_Ctrl[9].bit[0] = 0;
- Tuner->Init_Ctrl[9].val[0] = 1;
- Tuner->Init_Ctrl[9].addr[1] = 76;
- Tuner->Init_Ctrl[9].bit[1] = 1;
- Tuner->Init_Ctrl[9].val[1] = 1;
- Tuner->Init_Ctrl[9].addr[2] = 76;
- Tuner->Init_Ctrl[9].bit[2] = 2;
- Tuner->Init_Ctrl[9].val[2] = 0;
- Tuner->Init_Ctrl[9].addr[3] = 76;
- Tuner->Init_Ctrl[9].bit[3] = 3;
- Tuner->Init_Ctrl[9].val[3] = 1;
-
- Tuner->Init_Ctrl[10].Ctrl_Num = AGC_RF ;
- Tuner->Init_Ctrl[10].size = 4 ;
- Tuner->Init_Ctrl[10].addr[0] = 76;
- Tuner->Init_Ctrl[10].bit[0] = 4;
- Tuner->Init_Ctrl[10].val[0] = 1;
- Tuner->Init_Ctrl[10].addr[1] = 76;
- Tuner->Init_Ctrl[10].bit[1] = 5;
- Tuner->Init_Ctrl[10].val[1] = 1;
- Tuner->Init_Ctrl[10].addr[2] = 76;
- Tuner->Init_Ctrl[10].bit[2] = 6;
- Tuner->Init_Ctrl[10].val[2] = 0;
- Tuner->Init_Ctrl[10].addr[3] = 76;
- Tuner->Init_Ctrl[10].bit[3] = 7;
- Tuner->Init_Ctrl[10].val[3] = 1;
-
- Tuner->Init_Ctrl[11].Ctrl_Num = IF_DIVVAL ;
- Tuner->Init_Ctrl[11].size = 5 ;
- Tuner->Init_Ctrl[11].addr[0] = 43;
- Tuner->Init_Ctrl[11].bit[0] = 3;
- Tuner->Init_Ctrl[11].val[0] = 0;
- Tuner->Init_Ctrl[11].addr[1] = 43;
- Tuner->Init_Ctrl[11].bit[1] = 4;
- Tuner->Init_Ctrl[11].val[1] = 0;
- Tuner->Init_Ctrl[11].addr[2] = 43;
- Tuner->Init_Ctrl[11].bit[2] = 5;
- Tuner->Init_Ctrl[11].val[2] = 0;
- Tuner->Init_Ctrl[11].addr[3] = 43;
- Tuner->Init_Ctrl[11].bit[3] = 6;
- Tuner->Init_Ctrl[11].val[3] = 1;
- Tuner->Init_Ctrl[11].addr[4] = 43;
- Tuner->Init_Ctrl[11].bit[4] = 7;
- Tuner->Init_Ctrl[11].val[4] = 0;
-
- Tuner->Init_Ctrl[12].Ctrl_Num = IF_VCO_BIAS ;
- Tuner->Init_Ctrl[12].size = 6 ;
- Tuner->Init_Ctrl[12].addr[0] = 44;
- Tuner->Init_Ctrl[12].bit[0] = 2;
- Tuner->Init_Ctrl[12].val[0] = 0;
- Tuner->Init_Ctrl[12].addr[1] = 44;
- Tuner->Init_Ctrl[12].bit[1] = 3;
- Tuner->Init_Ctrl[12].val[1] = 0;
- Tuner->Init_Ctrl[12].addr[2] = 44;
- Tuner->Init_Ctrl[12].bit[2] = 4;
- Tuner->Init_Ctrl[12].val[2] = 0;
- Tuner->Init_Ctrl[12].addr[3] = 44;
- Tuner->Init_Ctrl[12].bit[3] = 5;
- Tuner->Init_Ctrl[12].val[3] = 1;
- Tuner->Init_Ctrl[12].addr[4] = 44;
- Tuner->Init_Ctrl[12].bit[4] = 6;
- Tuner->Init_Ctrl[12].val[4] = 0;
- Tuner->Init_Ctrl[12].addr[5] = 44;
- Tuner->Init_Ctrl[12].bit[5] = 7;
- Tuner->Init_Ctrl[12].val[5] = 0;
-
- Tuner->Init_Ctrl[13].Ctrl_Num = CHCAL_INT_MOD_IF ;
- Tuner->Init_Ctrl[13].size = 7 ;
- Tuner->Init_Ctrl[13].addr[0] = 11;
- Tuner->Init_Ctrl[13].bit[0] = 0;
- Tuner->Init_Ctrl[13].val[0] = 1;
- Tuner->Init_Ctrl[13].addr[1] = 11;
- Tuner->Init_Ctrl[13].bit[1] = 1;
- Tuner->Init_Ctrl[13].val[1] = 0;
- Tuner->Init_Ctrl[13].addr[2] = 11;
- Tuner->Init_Ctrl[13].bit[2] = 2;
- Tuner->Init_Ctrl[13].val[2] = 0;
- Tuner->Init_Ctrl[13].addr[3] = 11;
- Tuner->Init_Ctrl[13].bit[3] = 3;
- Tuner->Init_Ctrl[13].val[3] = 1;
- Tuner->Init_Ctrl[13].addr[4] = 11;
- Tuner->Init_Ctrl[13].bit[4] = 4;
- Tuner->Init_Ctrl[13].val[4] = 1;
- Tuner->Init_Ctrl[13].addr[5] = 11;
- Tuner->Init_Ctrl[13].bit[5] = 5;
- Tuner->Init_Ctrl[13].val[5] = 0;
- Tuner->Init_Ctrl[13].addr[6] = 11;
- Tuner->Init_Ctrl[13].bit[6] = 6;
- Tuner->Init_Ctrl[13].val[6] = 0;
-
- Tuner->Init_Ctrl[14].Ctrl_Num = CHCAL_FRAC_MOD_IF ;
- Tuner->Init_Ctrl[14].size = 16 ;
- Tuner->Init_Ctrl[14].addr[0] = 13;
- Tuner->Init_Ctrl[14].bit[0] = 0;
- Tuner->Init_Ctrl[14].val[0] = 0;
- Tuner->Init_Ctrl[14].addr[1] = 13;
- Tuner->Init_Ctrl[14].bit[1] = 1;
- Tuner->Init_Ctrl[14].val[1] = 0;
- Tuner->Init_Ctrl[14].addr[2] = 13;
- Tuner->Init_Ctrl[14].bit[2] = 2;
- Tuner->Init_Ctrl[14].val[2] = 0;
- Tuner->Init_Ctrl[14].addr[3] = 13;
- Tuner->Init_Ctrl[14].bit[3] = 3;
- Tuner->Init_Ctrl[14].val[3] = 0;
- Tuner->Init_Ctrl[14].addr[4] = 13;
- Tuner->Init_Ctrl[14].bit[4] = 4;
- Tuner->Init_Ctrl[14].val[4] = 0;
- Tuner->Init_Ctrl[14].addr[5] = 13;
- Tuner->Init_Ctrl[14].bit[5] = 5;
- Tuner->Init_Ctrl[14].val[5] = 0;
- Tuner->Init_Ctrl[14].addr[6] = 13;
- Tuner->Init_Ctrl[14].bit[6] = 6;
- Tuner->Init_Ctrl[14].val[6] = 0;
- Tuner->Init_Ctrl[14].addr[7] = 13;
- Tuner->Init_Ctrl[14].bit[7] = 7;
- Tuner->Init_Ctrl[14].val[7] = 0;
- Tuner->Init_Ctrl[14].addr[8] = 12;
- Tuner->Init_Ctrl[14].bit[8] = 0;
- Tuner->Init_Ctrl[14].val[8] = 0;
- Tuner->Init_Ctrl[14].addr[9] = 12;
- Tuner->Init_Ctrl[14].bit[9] = 1;
- Tuner->Init_Ctrl[14].val[9] = 0;
- Tuner->Init_Ctrl[14].addr[10] = 12;
- Tuner->Init_Ctrl[14].bit[10] = 2;
- Tuner->Init_Ctrl[14].val[10] = 0;
- Tuner->Init_Ctrl[14].addr[11] = 12;
- Tuner->Init_Ctrl[14].bit[11] = 3;
- Tuner->Init_Ctrl[14].val[11] = 0;
- Tuner->Init_Ctrl[14].addr[12] = 12;
- Tuner->Init_Ctrl[14].bit[12] = 4;
- Tuner->Init_Ctrl[14].val[12] = 0;
- Tuner->Init_Ctrl[14].addr[13] = 12;
- Tuner->Init_Ctrl[14].bit[13] = 5;
- Tuner->Init_Ctrl[14].val[13] = 1;
- Tuner->Init_Ctrl[14].addr[14] = 12;
- Tuner->Init_Ctrl[14].bit[14] = 6;
- Tuner->Init_Ctrl[14].val[14] = 1;
- Tuner->Init_Ctrl[14].addr[15] = 12;
- Tuner->Init_Ctrl[14].bit[15] = 7;
- Tuner->Init_Ctrl[14].val[15] = 0;
-
- Tuner->Init_Ctrl[15].Ctrl_Num = DRV_RES_SEL ;
- Tuner->Init_Ctrl[15].size = 3 ;
- Tuner->Init_Ctrl[15].addr[0] = 147;
- Tuner->Init_Ctrl[15].bit[0] = 2;
- Tuner->Init_Ctrl[15].val[0] = 0;
- Tuner->Init_Ctrl[15].addr[1] = 147;
- Tuner->Init_Ctrl[15].bit[1] = 3;
- Tuner->Init_Ctrl[15].val[1] = 1;
- Tuner->Init_Ctrl[15].addr[2] = 147;
- Tuner->Init_Ctrl[15].bit[2] = 4;
- Tuner->Init_Ctrl[15].val[2] = 1;
-
- Tuner->Init_Ctrl[16].Ctrl_Num = I_DRIVER ;
- Tuner->Init_Ctrl[16].size = 2 ;
- Tuner->Init_Ctrl[16].addr[0] = 147;
- Tuner->Init_Ctrl[16].bit[0] = 0;
- Tuner->Init_Ctrl[16].val[0] = 0;
- Tuner->Init_Ctrl[16].addr[1] = 147;
- Tuner->Init_Ctrl[16].bit[1] = 1;
- Tuner->Init_Ctrl[16].val[1] = 1;
-
- Tuner->Init_Ctrl[17].Ctrl_Num = EN_AAF ;
- Tuner->Init_Ctrl[17].size = 1 ;
- Tuner->Init_Ctrl[17].addr[0] = 147;
- Tuner->Init_Ctrl[17].bit[0] = 7;
- Tuner->Init_Ctrl[17].val[0] = 0;
-
- Tuner->Init_Ctrl[18].Ctrl_Num = EN_3P ;
- Tuner->Init_Ctrl[18].size = 1 ;
- Tuner->Init_Ctrl[18].addr[0] = 147;
- Tuner->Init_Ctrl[18].bit[0] = 6;
- Tuner->Init_Ctrl[18].val[0] = 0;
-
- Tuner->Init_Ctrl[19].Ctrl_Num = EN_AUX_3P ;
- Tuner->Init_Ctrl[19].size = 1 ;
- Tuner->Init_Ctrl[19].addr[0] = 156;
- Tuner->Init_Ctrl[19].bit[0] = 0;
- Tuner->Init_Ctrl[19].val[0] = 0;
-
- Tuner->Init_Ctrl[20].Ctrl_Num = SEL_AAF_BAND ;
- Tuner->Init_Ctrl[20].size = 1 ;
- Tuner->Init_Ctrl[20].addr[0] = 147;
- Tuner->Init_Ctrl[20].bit[0] = 5;
- Tuner->Init_Ctrl[20].val[0] = 0;
-
- Tuner->Init_Ctrl[21].Ctrl_Num = SEQ_ENCLK16_CLK_OUT ;
- Tuner->Init_Ctrl[21].size = 1 ;
- Tuner->Init_Ctrl[21].addr[0] = 137;
- Tuner->Init_Ctrl[21].bit[0] = 4;
- Tuner->Init_Ctrl[21].val[0] = 0;
-
- Tuner->Init_Ctrl[22].Ctrl_Num = SEQ_SEL4_16B ;
- Tuner->Init_Ctrl[22].size = 1 ;
- Tuner->Init_Ctrl[22].addr[0] = 137;
- Tuner->Init_Ctrl[22].bit[0] = 7;
- Tuner->Init_Ctrl[22].val[0] = 0;
-
- Tuner->Init_Ctrl[23].Ctrl_Num = XTAL_CAPSELECT ;
- Tuner->Init_Ctrl[23].size = 1 ;
- Tuner->Init_Ctrl[23].addr[0] = 91;
- Tuner->Init_Ctrl[23].bit[0] = 5;
- Tuner->Init_Ctrl[23].val[0] = 1;
-
- Tuner->Init_Ctrl[24].Ctrl_Num = IF_SEL_DBL ;
- Tuner->Init_Ctrl[24].size = 1 ;
- Tuner->Init_Ctrl[24].addr[0] = 43;
- Tuner->Init_Ctrl[24].bit[0] = 0;
- Tuner->Init_Ctrl[24].val[0] = 1;
-
- Tuner->Init_Ctrl[25].Ctrl_Num = RFSYN_R_DIV ;
- Tuner->Init_Ctrl[25].size = 2 ;
- Tuner->Init_Ctrl[25].addr[0] = 22;
- Tuner->Init_Ctrl[25].bit[0] = 0;
- Tuner->Init_Ctrl[25].val[0] = 1;
- Tuner->Init_Ctrl[25].addr[1] = 22;
- Tuner->Init_Ctrl[25].bit[1] = 1;
- Tuner->Init_Ctrl[25].val[1] = 1;
-
- Tuner->Init_Ctrl[26].Ctrl_Num = SEQ_EXTSYNTHCALIF ;
- Tuner->Init_Ctrl[26].size = 1 ;
- Tuner->Init_Ctrl[26].addr[0] = 134;
- Tuner->Init_Ctrl[26].bit[0] = 2;
- Tuner->Init_Ctrl[26].val[0] = 0;
-
- Tuner->Init_Ctrl[27].Ctrl_Num = SEQ_EXTDCCAL ;
- Tuner->Init_Ctrl[27].size = 1 ;
- Tuner->Init_Ctrl[27].addr[0] = 137;
- Tuner->Init_Ctrl[27].bit[0] = 3;
- Tuner->Init_Ctrl[27].val[0] = 0;
-
- Tuner->Init_Ctrl[28].Ctrl_Num = AGC_EN_RSSI ;
- Tuner->Init_Ctrl[28].size = 1 ;
- Tuner->Init_Ctrl[28].addr[0] = 77;
- Tuner->Init_Ctrl[28].bit[0] = 7;
- Tuner->Init_Ctrl[28].val[0] = 0;
-
- Tuner->Init_Ctrl[29].Ctrl_Num = RFA_ENCLKRFAGC ;
- Tuner->Init_Ctrl[29].size = 1 ;
- Tuner->Init_Ctrl[29].addr[0] = 166;
- Tuner->Init_Ctrl[29].bit[0] = 7;
- Tuner->Init_Ctrl[29].val[0] = 1;
-
- Tuner->Init_Ctrl[30].Ctrl_Num = RFA_RSSI_REFH ;
- Tuner->Init_Ctrl[30].size = 3 ;
- Tuner->Init_Ctrl[30].addr[0] = 166;
- Tuner->Init_Ctrl[30].bit[0] = 0;
- Tuner->Init_Ctrl[30].val[0] = 0;
- Tuner->Init_Ctrl[30].addr[1] = 166;
- Tuner->Init_Ctrl[30].bit[1] = 1;
- Tuner->Init_Ctrl[30].val[1] = 1;
- Tuner->Init_Ctrl[30].addr[2] = 166;
- Tuner->Init_Ctrl[30].bit[2] = 2;
- Tuner->Init_Ctrl[30].val[2] = 1;
-
- Tuner->Init_Ctrl[31].Ctrl_Num = RFA_RSSI_REF ;
- Tuner->Init_Ctrl[31].size = 3 ;
- Tuner->Init_Ctrl[31].addr[0] = 166;
- Tuner->Init_Ctrl[31].bit[0] = 3;
- Tuner->Init_Ctrl[31].val[0] = 1;
- Tuner->Init_Ctrl[31].addr[1] = 166;
- Tuner->Init_Ctrl[31].bit[1] = 4;
- Tuner->Init_Ctrl[31].val[1] = 0;
- Tuner->Init_Ctrl[31].addr[2] = 166;
- Tuner->Init_Ctrl[31].bit[2] = 5;
- Tuner->Init_Ctrl[31].val[2] = 1;
-
- Tuner->Init_Ctrl[32].Ctrl_Num = RFA_RSSI_REFL ;
- Tuner->Init_Ctrl[32].size = 3 ;
- Tuner->Init_Ctrl[32].addr[0] = 167;
- Tuner->Init_Ctrl[32].bit[0] = 0;
- Tuner->Init_Ctrl[32].val[0] = 1;
- Tuner->Init_Ctrl[32].addr[1] = 167;
- Tuner->Init_Ctrl[32].bit[1] = 1;
- Tuner->Init_Ctrl[32].val[1] = 1;
- Tuner->Init_Ctrl[32].addr[2] = 167;
- Tuner->Init_Ctrl[32].bit[2] = 2;
- Tuner->Init_Ctrl[32].val[2] = 0;
-
- Tuner->Init_Ctrl[33].Ctrl_Num = RFA_FLR ;
- Tuner->Init_Ctrl[33].size = 4 ;
- Tuner->Init_Ctrl[33].addr[0] = 168;
- Tuner->Init_Ctrl[33].bit[0] = 0;
- Tuner->Init_Ctrl[33].val[0] = 0;
- Tuner->Init_Ctrl[33].addr[1] = 168;
- Tuner->Init_Ctrl[33].bit[1] = 1;
- Tuner->Init_Ctrl[33].val[1] = 1;
- Tuner->Init_Ctrl[33].addr[2] = 168;
- Tuner->Init_Ctrl[33].bit[2] = 2;
- Tuner->Init_Ctrl[33].val[2] = 0;
- Tuner->Init_Ctrl[33].addr[3] = 168;
- Tuner->Init_Ctrl[33].bit[3] = 3;
- Tuner->Init_Ctrl[33].val[3] = 0;
-
- Tuner->Init_Ctrl[34].Ctrl_Num = RFA_CEIL ;
- Tuner->Init_Ctrl[34].size = 4 ;
- Tuner->Init_Ctrl[34].addr[0] = 168;
- Tuner->Init_Ctrl[34].bit[0] = 4;
- Tuner->Init_Ctrl[34].val[0] = 1;
- Tuner->Init_Ctrl[34].addr[1] = 168;
- Tuner->Init_Ctrl[34].bit[1] = 5;
- Tuner->Init_Ctrl[34].val[1] = 1;
- Tuner->Init_Ctrl[34].addr[2] = 168;
- Tuner->Init_Ctrl[34].bit[2] = 6;
- Tuner->Init_Ctrl[34].val[2] = 1;
- Tuner->Init_Ctrl[34].addr[3] = 168;
- Tuner->Init_Ctrl[34].bit[3] = 7;
- Tuner->Init_Ctrl[34].val[3] = 1;
-
- Tuner->Init_Ctrl[35].Ctrl_Num = SEQ_EXTIQFSMPULSE ;
- Tuner->Init_Ctrl[35].size = 1 ;
- Tuner->Init_Ctrl[35].addr[0] = 135;
- Tuner->Init_Ctrl[35].bit[0] = 0;
- Tuner->Init_Ctrl[35].val[0] = 0;
-
- Tuner->Init_Ctrl[36].Ctrl_Num = OVERRIDE_1 ;
- Tuner->Init_Ctrl[36].size = 1 ;
- Tuner->Init_Ctrl[36].addr[0] = 56;
- Tuner->Init_Ctrl[36].bit[0] = 3;
- Tuner->Init_Ctrl[36].val[0] = 0;
-
- Tuner->Init_Ctrl[37].Ctrl_Num = BB_INITSTATE_DLPF_TUNE ;
- Tuner->Init_Ctrl[37].size = 7 ;
- Tuner->Init_Ctrl[37].addr[0] = 59;
- Tuner->Init_Ctrl[37].bit[0] = 1;
- Tuner->Init_Ctrl[37].val[0] = 0;
- Tuner->Init_Ctrl[37].addr[1] = 59;
- Tuner->Init_Ctrl[37].bit[1] = 2;
- Tuner->Init_Ctrl[37].val[1] = 0;
- Tuner->Init_Ctrl[37].addr[2] = 59;
- Tuner->Init_Ctrl[37].bit[2] = 3;
- Tuner->Init_Ctrl[37].val[2] = 0;
- Tuner->Init_Ctrl[37].addr[3] = 59;
- Tuner->Init_Ctrl[37].bit[3] = 4;
- Tuner->Init_Ctrl[37].val[3] = 0;
- Tuner->Init_Ctrl[37].addr[4] = 59;
- Tuner->Init_Ctrl[37].bit[4] = 5;
- Tuner->Init_Ctrl[37].val[4] = 0;
- Tuner->Init_Ctrl[37].addr[5] = 59;
- Tuner->Init_Ctrl[37].bit[5] = 6;
- Tuner->Init_Ctrl[37].val[5] = 0;
- Tuner->Init_Ctrl[37].addr[6] = 59;
- Tuner->Init_Ctrl[37].bit[6] = 7;
- Tuner->Init_Ctrl[37].val[6] = 0;
-
- Tuner->Init_Ctrl[38].Ctrl_Num = TG_R_DIV ;
- Tuner->Init_Ctrl[38].size = 6 ;
- Tuner->Init_Ctrl[38].addr[0] = 32;
- Tuner->Init_Ctrl[38].bit[0] = 2;
- Tuner->Init_Ctrl[38].val[0] = 0;
- Tuner->Init_Ctrl[38].addr[1] = 32;
- Tuner->Init_Ctrl[38].bit[1] = 3;
- Tuner->Init_Ctrl[38].val[1] = 0;
- Tuner->Init_Ctrl[38].addr[2] = 32;
- Tuner->Init_Ctrl[38].bit[2] = 4;
- Tuner->Init_Ctrl[38].val[2] = 0;
- Tuner->Init_Ctrl[38].addr[3] = 32;
- Tuner->Init_Ctrl[38].bit[3] = 5;
- Tuner->Init_Ctrl[38].val[3] = 0;
- Tuner->Init_Ctrl[38].addr[4] = 32;
- Tuner->Init_Ctrl[38].bit[4] = 6;
- Tuner->Init_Ctrl[38].val[4] = 1;
- Tuner->Init_Ctrl[38].addr[5] = 32;
- Tuner->Init_Ctrl[38].bit[5] = 7;
- Tuner->Init_Ctrl[38].val[5] = 0;
-
- Tuner->Init_Ctrl[39].Ctrl_Num = EN_CHP_LIN_B ;
- Tuner->Init_Ctrl[39].size = 1 ;
- Tuner->Init_Ctrl[39].addr[0] = 25;
- Tuner->Init_Ctrl[39].bit[0] = 3;
- Tuner->Init_Ctrl[39].val[0] = 1;
-
-
- Tuner->CH_Ctrl_Num = CHCTRL_NUM ;
-
- Tuner->CH_Ctrl[0].Ctrl_Num = DN_POLY ;
- Tuner->CH_Ctrl[0].size = 2 ;
- Tuner->CH_Ctrl[0].addr[0] = 68;
- Tuner->CH_Ctrl[0].bit[0] = 6;
- Tuner->CH_Ctrl[0].val[0] = 1;
- Tuner->CH_Ctrl[0].addr[1] = 68;
- Tuner->CH_Ctrl[0].bit[1] = 7;
- Tuner->CH_Ctrl[0].val[1] = 1;
-
- Tuner->CH_Ctrl[1].Ctrl_Num = DN_RFGAIN ;
- Tuner->CH_Ctrl[1].size = 2 ;
- Tuner->CH_Ctrl[1].addr[0] = 70;
- Tuner->CH_Ctrl[1].bit[0] = 6;
- Tuner->CH_Ctrl[1].val[0] = 1;
- Tuner->CH_Ctrl[1].addr[1] = 70;
- Tuner->CH_Ctrl[1].bit[1] = 7;
- Tuner->CH_Ctrl[1].val[1] = 0;
-
- Tuner->CH_Ctrl[2].Ctrl_Num = DN_CAP_RFLPF ;
- Tuner->CH_Ctrl[2].size = 9 ;
- Tuner->CH_Ctrl[2].addr[0] = 69;
- Tuner->CH_Ctrl[2].bit[0] = 5;
- Tuner->CH_Ctrl[2].val[0] = 0;
- Tuner->CH_Ctrl[2].addr[1] = 69;
- Tuner->CH_Ctrl[2].bit[1] = 6;
- Tuner->CH_Ctrl[2].val[1] = 0;
- Tuner->CH_Ctrl[2].addr[2] = 69;
- Tuner->CH_Ctrl[2].bit[2] = 7;
- Tuner->CH_Ctrl[2].val[2] = 0;
- Tuner->CH_Ctrl[2].addr[3] = 68;
- Tuner->CH_Ctrl[2].bit[3] = 0;
- Tuner->CH_Ctrl[2].val[3] = 0;
- Tuner->CH_Ctrl[2].addr[4] = 68;
- Tuner->CH_Ctrl[2].bit[4] = 1;
- Tuner->CH_Ctrl[2].val[4] = 0;
- Tuner->CH_Ctrl[2].addr[5] = 68;
- Tuner->CH_Ctrl[2].bit[5] = 2;
- Tuner->CH_Ctrl[2].val[5] = 0;
- Tuner->CH_Ctrl[2].addr[6] = 68;
- Tuner->CH_Ctrl[2].bit[6] = 3;
- Tuner->CH_Ctrl[2].val[6] = 0;
- Tuner->CH_Ctrl[2].addr[7] = 68;
- Tuner->CH_Ctrl[2].bit[7] = 4;
- Tuner->CH_Ctrl[2].val[7] = 0;
- Tuner->CH_Ctrl[2].addr[8] = 68;
- Tuner->CH_Ctrl[2].bit[8] = 5;
- Tuner->CH_Ctrl[2].val[8] = 0;
-
- Tuner->CH_Ctrl[3].Ctrl_Num = DN_EN_VHFUHFBAR ;
- Tuner->CH_Ctrl[3].size = 1 ;
- Tuner->CH_Ctrl[3].addr[0] = 70;
- Tuner->CH_Ctrl[3].bit[0] = 5;
- Tuner->CH_Ctrl[3].val[0] = 0;
-
- Tuner->CH_Ctrl[4].Ctrl_Num = DN_GAIN_ADJUST ;
- Tuner->CH_Ctrl[4].size = 3 ;
- Tuner->CH_Ctrl[4].addr[0] = 73;
- Tuner->CH_Ctrl[4].bit[0] = 4;
- Tuner->CH_Ctrl[4].val[0] = 0;
- Tuner->CH_Ctrl[4].addr[1] = 73;
- Tuner->CH_Ctrl[4].bit[1] = 5;
- Tuner->CH_Ctrl[4].val[1] = 1;
- Tuner->CH_Ctrl[4].addr[2] = 73;
- Tuner->CH_Ctrl[4].bit[2] = 6;
- Tuner->CH_Ctrl[4].val[2] = 0;
-
- Tuner->CH_Ctrl[5].Ctrl_Num = DN_IQTNBUF_AMP ;
- Tuner->CH_Ctrl[5].size = 4 ;
- Tuner->CH_Ctrl[5].addr[0] = 70;
- Tuner->CH_Ctrl[5].bit[0] = 0;
- Tuner->CH_Ctrl[5].val[0] = 0;
- Tuner->CH_Ctrl[5].addr[1] = 70;
- Tuner->CH_Ctrl[5].bit[1] = 1;
- Tuner->CH_Ctrl[5].val[1] = 0;
- Tuner->CH_Ctrl[5].addr[2] = 70;
- Tuner->CH_Ctrl[5].bit[2] = 2;
- Tuner->CH_Ctrl[5].val[2] = 0;
- Tuner->CH_Ctrl[5].addr[3] = 70;
- Tuner->CH_Ctrl[5].bit[3] = 3;
- Tuner->CH_Ctrl[5].val[3] = 0;
-
- Tuner->CH_Ctrl[6].Ctrl_Num = DN_IQTNGNBFBIAS_BST ;
- Tuner->CH_Ctrl[6].size = 1 ;
- Tuner->CH_Ctrl[6].addr[0] = 70;
- Tuner->CH_Ctrl[6].bit[0] = 4;
- Tuner->CH_Ctrl[6].val[0] = 1;
-
- Tuner->CH_Ctrl[7].Ctrl_Num = RFSYN_EN_OUTMUX ;
- Tuner->CH_Ctrl[7].size = 1 ;
- Tuner->CH_Ctrl[7].addr[0] = 111;
- Tuner->CH_Ctrl[7].bit[0] = 4;
- Tuner->CH_Ctrl[7].val[0] = 0;
-
- Tuner->CH_Ctrl[8].Ctrl_Num = RFSYN_SEL_VCO_OUT ;
- Tuner->CH_Ctrl[8].size = 1 ;
- Tuner->CH_Ctrl[8].addr[0] = 111;
- Tuner->CH_Ctrl[8].bit[0] = 7;
- Tuner->CH_Ctrl[8].val[0] = 1;
-
- Tuner->CH_Ctrl[9].Ctrl_Num = RFSYN_SEL_VCO_HI ;
- Tuner->CH_Ctrl[9].size = 1 ;
- Tuner->CH_Ctrl[9].addr[0] = 111;
- Tuner->CH_Ctrl[9].bit[0] = 6;
- Tuner->CH_Ctrl[9].val[0] = 1;
-
- Tuner->CH_Ctrl[10].Ctrl_Num = RFSYN_SEL_DIVM ;
- Tuner->CH_Ctrl[10].size = 1 ;
- Tuner->CH_Ctrl[10].addr[0] = 111;
- Tuner->CH_Ctrl[10].bit[0] = 5;
- Tuner->CH_Ctrl[10].val[0] = 0;
-
- Tuner->CH_Ctrl[11].Ctrl_Num = RFSYN_RF_DIV_BIAS ;
- Tuner->CH_Ctrl[11].size = 2 ;
- Tuner->CH_Ctrl[11].addr[0] = 110;
- Tuner->CH_Ctrl[11].bit[0] = 0;
- Tuner->CH_Ctrl[11].val[0] = 1;
- Tuner->CH_Ctrl[11].addr[1] = 110;
- Tuner->CH_Ctrl[11].bit[1] = 1;
- Tuner->CH_Ctrl[11].val[1] = 0;
-
- Tuner->CH_Ctrl[12].Ctrl_Num = DN_SEL_FREQ ;
- Tuner->CH_Ctrl[12].size = 3 ;
- Tuner->CH_Ctrl[12].addr[0] = 69;
- Tuner->CH_Ctrl[12].bit[0] = 2;
- Tuner->CH_Ctrl[12].val[0] = 0;
- Tuner->CH_Ctrl[12].addr[1] = 69;
- Tuner->CH_Ctrl[12].bit[1] = 3;
- Tuner->CH_Ctrl[12].val[1] = 0;
- Tuner->CH_Ctrl[12].addr[2] = 69;
- Tuner->CH_Ctrl[12].bit[2] = 4;
- Tuner->CH_Ctrl[12].val[2] = 0;
-
- Tuner->CH_Ctrl[13].Ctrl_Num = RFSYN_VCO_BIAS ;
- Tuner->CH_Ctrl[13].size = 6 ;
- Tuner->CH_Ctrl[13].addr[0] = 110;
- Tuner->CH_Ctrl[13].bit[0] = 2;
- Tuner->CH_Ctrl[13].val[0] = 0;
- Tuner->CH_Ctrl[13].addr[1] = 110;
- Tuner->CH_Ctrl[13].bit[1] = 3;
- Tuner->CH_Ctrl[13].val[1] = 0;
- Tuner->CH_Ctrl[13].addr[2] = 110;
- Tuner->CH_Ctrl[13].bit[2] = 4;
- Tuner->CH_Ctrl[13].val[2] = 0;
- Tuner->CH_Ctrl[13].addr[3] = 110;
- Tuner->CH_Ctrl[13].bit[3] = 5;
- Tuner->CH_Ctrl[13].val[3] = 0;
- Tuner->CH_Ctrl[13].addr[4] = 110;
- Tuner->CH_Ctrl[13].bit[4] = 6;
- Tuner->CH_Ctrl[13].val[4] = 0;
- Tuner->CH_Ctrl[13].addr[5] = 110;
- Tuner->CH_Ctrl[13].bit[5] = 7;
- Tuner->CH_Ctrl[13].val[5] = 1;
-
- Tuner->CH_Ctrl[14].Ctrl_Num = CHCAL_INT_MOD_RF ;
- Tuner->CH_Ctrl[14].size = 7 ;
- Tuner->CH_Ctrl[14].addr[0] = 14;
- Tuner->CH_Ctrl[14].bit[0] = 0;
- Tuner->CH_Ctrl[14].val[0] = 0;
- Tuner->CH_Ctrl[14].addr[1] = 14;
- Tuner->CH_Ctrl[14].bit[1] = 1;
- Tuner->CH_Ctrl[14].val[1] = 0;
- Tuner->CH_Ctrl[14].addr[2] = 14;
- Tuner->CH_Ctrl[14].bit[2] = 2;
- Tuner->CH_Ctrl[14].val[2] = 0;
- Tuner->CH_Ctrl[14].addr[3] = 14;
- Tuner->CH_Ctrl[14].bit[3] = 3;
- Tuner->CH_Ctrl[14].val[3] = 0;
- Tuner->CH_Ctrl[14].addr[4] = 14;
- Tuner->CH_Ctrl[14].bit[4] = 4;
- Tuner->CH_Ctrl[14].val[4] = 0;
- Tuner->CH_Ctrl[14].addr[5] = 14;
- Tuner->CH_Ctrl[14].bit[5] = 5;
- Tuner->CH_Ctrl[14].val[5] = 0;
- Tuner->CH_Ctrl[14].addr[6] = 14;
- Tuner->CH_Ctrl[14].bit[6] = 6;
- Tuner->CH_Ctrl[14].val[6] = 0;
-
- Tuner->CH_Ctrl[15].Ctrl_Num = CHCAL_FRAC_MOD_RF ;
- Tuner->CH_Ctrl[15].size = 18 ;
- Tuner->CH_Ctrl[15].addr[0] = 17;
- Tuner->CH_Ctrl[15].bit[0] = 6;
- Tuner->CH_Ctrl[15].val[0] = 0;
- Tuner->CH_Ctrl[15].addr[1] = 17;
- Tuner->CH_Ctrl[15].bit[1] = 7;
- Tuner->CH_Ctrl[15].val[1] = 0;
- Tuner->CH_Ctrl[15].addr[2] = 16;
- Tuner->CH_Ctrl[15].bit[2] = 0;
- Tuner->CH_Ctrl[15].val[2] = 0;
- Tuner->CH_Ctrl[15].addr[3] = 16;
- Tuner->CH_Ctrl[15].bit[3] = 1;
- Tuner->CH_Ctrl[15].val[3] = 0;
- Tuner->CH_Ctrl[15].addr[4] = 16;
- Tuner->CH_Ctrl[15].bit[4] = 2;
- Tuner->CH_Ctrl[15].val[4] = 0;
- Tuner->CH_Ctrl[15].addr[5] = 16;
- Tuner->CH_Ctrl[15].bit[5] = 3;
- Tuner->CH_Ctrl[15].val[5] = 0;
- Tuner->CH_Ctrl[15].addr[6] = 16;
- Tuner->CH_Ctrl[15].bit[6] = 4;
- Tuner->CH_Ctrl[15].val[6] = 0;
- Tuner->CH_Ctrl[15].addr[7] = 16;
- Tuner->CH_Ctrl[15].bit[7] = 5;
- Tuner->CH_Ctrl[15].val[7] = 0;
- Tuner->CH_Ctrl[15].addr[8] = 16;
- Tuner->CH_Ctrl[15].bit[8] = 6;
- Tuner->CH_Ctrl[15].val[8] = 0;
- Tuner->CH_Ctrl[15].addr[9] = 16;
- Tuner->CH_Ctrl[15].bit[9] = 7;
- Tuner->CH_Ctrl[15].val[9] = 0;
- Tuner->CH_Ctrl[15].addr[10] = 15;
- Tuner->CH_Ctrl[15].bit[10] = 0;
- Tuner->CH_Ctrl[15].val[10] = 0;
- Tuner->CH_Ctrl[15].addr[11] = 15;
- Tuner->CH_Ctrl[15].bit[11] = 1;
- Tuner->CH_Ctrl[15].val[11] = 0;
- Tuner->CH_Ctrl[15].addr[12] = 15;
- Tuner->CH_Ctrl[15].bit[12] = 2;
- Tuner->CH_Ctrl[15].val[12] = 0;
- Tuner->CH_Ctrl[15].addr[13] = 15;
- Tuner->CH_Ctrl[15].bit[13] = 3;
- Tuner->CH_Ctrl[15].val[13] = 0;
- Tuner->CH_Ctrl[15].addr[14] = 15;
- Tuner->CH_Ctrl[15].bit[14] = 4;
- Tuner->CH_Ctrl[15].val[14] = 0;
- Tuner->CH_Ctrl[15].addr[15] = 15;
- Tuner->CH_Ctrl[15].bit[15] = 5;
- Tuner->CH_Ctrl[15].val[15] = 0;
- Tuner->CH_Ctrl[15].addr[16] = 15;
- Tuner->CH_Ctrl[15].bit[16] = 6;
- Tuner->CH_Ctrl[15].val[16] = 1;
- Tuner->CH_Ctrl[15].addr[17] = 15;
- Tuner->CH_Ctrl[15].bit[17] = 7;
- Tuner->CH_Ctrl[15].val[17] = 1;
-
- Tuner->CH_Ctrl[16].Ctrl_Num = RFSYN_LPF_R ;
- Tuner->CH_Ctrl[16].size = 5 ;
- Tuner->CH_Ctrl[16].addr[0] = 112;
- Tuner->CH_Ctrl[16].bit[0] = 0;
- Tuner->CH_Ctrl[16].val[0] = 0;
- Tuner->CH_Ctrl[16].addr[1] = 112;
- Tuner->CH_Ctrl[16].bit[1] = 1;
- Tuner->CH_Ctrl[16].val[1] = 0;
- Tuner->CH_Ctrl[16].addr[2] = 112;
- Tuner->CH_Ctrl[16].bit[2] = 2;
- Tuner->CH_Ctrl[16].val[2] = 0;
- Tuner->CH_Ctrl[16].addr[3] = 112;
- Tuner->CH_Ctrl[16].bit[3] = 3;
- Tuner->CH_Ctrl[16].val[3] = 0;
- Tuner->CH_Ctrl[16].addr[4] = 112;
- Tuner->CH_Ctrl[16].bit[4] = 4;
- Tuner->CH_Ctrl[16].val[4] = 1;
-
- Tuner->CH_Ctrl[17].Ctrl_Num = CHCAL_EN_INT_RF ;
- Tuner->CH_Ctrl[17].size = 1 ;
- Tuner->CH_Ctrl[17].addr[0] = 14;
- Tuner->CH_Ctrl[17].bit[0] = 7;
- Tuner->CH_Ctrl[17].val[0] = 0;
-
- Tuner->CH_Ctrl[18].Ctrl_Num = TG_LO_DIVVAL ;
- Tuner->CH_Ctrl[18].size = 4 ;
- Tuner->CH_Ctrl[18].addr[0] = 107;
- Tuner->CH_Ctrl[18].bit[0] = 3;
- Tuner->CH_Ctrl[18].val[0] = 0;
- Tuner->CH_Ctrl[18].addr[1] = 107;
- Tuner->CH_Ctrl[18].bit[1] = 4;
- Tuner->CH_Ctrl[18].val[1] = 0;
- Tuner->CH_Ctrl[18].addr[2] = 107;
- Tuner->CH_Ctrl[18].bit[2] = 5;
- Tuner->CH_Ctrl[18].val[2] = 0;
- Tuner->CH_Ctrl[18].addr[3] = 107;
- Tuner->CH_Ctrl[18].bit[3] = 6;
- Tuner->CH_Ctrl[18].val[3] = 0;
-
- Tuner->CH_Ctrl[19].Ctrl_Num = TG_LO_SELVAL ;
- Tuner->CH_Ctrl[19].size = 3 ;
- Tuner->CH_Ctrl[19].addr[0] = 107;
- Tuner->CH_Ctrl[19].bit[0] = 7;
- Tuner->CH_Ctrl[19].val[0] = 1;
- Tuner->CH_Ctrl[19].addr[1] = 106;
- Tuner->CH_Ctrl[19].bit[1] = 0;
- Tuner->CH_Ctrl[19].val[1] = 1;
- Tuner->CH_Ctrl[19].addr[2] = 106;
- Tuner->CH_Ctrl[19].bit[2] = 1;
- Tuner->CH_Ctrl[19].val[2] = 1;
-
- Tuner->CH_Ctrl[20].Ctrl_Num = TG_DIV_VAL ;
- Tuner->CH_Ctrl[20].size = 11 ;
- Tuner->CH_Ctrl[20].addr[0] = 109;
- Tuner->CH_Ctrl[20].bit[0] = 2;
- Tuner->CH_Ctrl[20].val[0] = 0;
- Tuner->CH_Ctrl[20].addr[1] = 109;
- Tuner->CH_Ctrl[20].bit[1] = 3;
- Tuner->CH_Ctrl[20].val[1] = 0;
- Tuner->CH_Ctrl[20].addr[2] = 109;
- Tuner->CH_Ctrl[20].bit[2] = 4;
- Tuner->CH_Ctrl[20].val[2] = 0;
- Tuner->CH_Ctrl[20].addr[3] = 109;
- Tuner->CH_Ctrl[20].bit[3] = 5;
- Tuner->CH_Ctrl[20].val[3] = 0;
- Tuner->CH_Ctrl[20].addr[4] = 109;
- Tuner->CH_Ctrl[20].bit[4] = 6;
- Tuner->CH_Ctrl[20].val[4] = 0;
- Tuner->CH_Ctrl[20].addr[5] = 109;
- Tuner->CH_Ctrl[20].bit[5] = 7;
- Tuner->CH_Ctrl[20].val[5] = 0;
- Tuner->CH_Ctrl[20].addr[6] = 108;
- Tuner->CH_Ctrl[20].bit[6] = 0;
- Tuner->CH_Ctrl[20].val[6] = 0;
- Tuner->CH_Ctrl[20].addr[7] = 108;
- Tuner->CH_Ctrl[20].bit[7] = 1;
- Tuner->CH_Ctrl[20].val[7] = 0;
- Tuner->CH_Ctrl[20].addr[8] = 108;
- Tuner->CH_Ctrl[20].bit[8] = 2;
- Tuner->CH_Ctrl[20].val[8] = 1;
- Tuner->CH_Ctrl[20].addr[9] = 108;
- Tuner->CH_Ctrl[20].bit[9] = 3;
- Tuner->CH_Ctrl[20].val[9] = 1;
- Tuner->CH_Ctrl[20].addr[10] = 108;
- Tuner->CH_Ctrl[20].bit[10] = 4;
- Tuner->CH_Ctrl[20].val[10] = 1;
-
- Tuner->CH_Ctrl[21].Ctrl_Num = TG_VCO_BIAS ;
- Tuner->CH_Ctrl[21].size = 6 ;
- Tuner->CH_Ctrl[21].addr[0] = 106;
- Tuner->CH_Ctrl[21].bit[0] = 2;
- Tuner->CH_Ctrl[21].val[0] = 0;
- Tuner->CH_Ctrl[21].addr[1] = 106;
- Tuner->CH_Ctrl[21].bit[1] = 3;
- Tuner->CH_Ctrl[21].val[1] = 0;
- Tuner->CH_Ctrl[21].addr[2] = 106;
- Tuner->CH_Ctrl[21].bit[2] = 4;
- Tuner->CH_Ctrl[21].val[2] = 0;
- Tuner->CH_Ctrl[21].addr[3] = 106;
- Tuner->CH_Ctrl[21].bit[3] = 5;
- Tuner->CH_Ctrl[21].val[3] = 0;
- Tuner->CH_Ctrl[21].addr[4] = 106;
- Tuner->CH_Ctrl[21].bit[4] = 6;
- Tuner->CH_Ctrl[21].val[4] = 0;
- Tuner->CH_Ctrl[21].addr[5] = 106;
- Tuner->CH_Ctrl[21].bit[5] = 7;
- Tuner->CH_Ctrl[21].val[5] = 1;
-
- Tuner->CH_Ctrl[22].Ctrl_Num = SEQ_EXTPOWERUP ;
- Tuner->CH_Ctrl[22].size = 1 ;
- Tuner->CH_Ctrl[22].addr[0] = 138;
- Tuner->CH_Ctrl[22].bit[0] = 4;
- Tuner->CH_Ctrl[22].val[0] = 1;
-
- Tuner->CH_Ctrl[23].Ctrl_Num = OVERRIDE_2 ;
- Tuner->CH_Ctrl[23].size = 1 ;
- Tuner->CH_Ctrl[23].addr[0] = 17;
- Tuner->CH_Ctrl[23].bit[0] = 5;
- Tuner->CH_Ctrl[23].val[0] = 0;
-
- Tuner->CH_Ctrl[24].Ctrl_Num = OVERRIDE_3 ;
- Tuner->CH_Ctrl[24].size = 1 ;
- Tuner->CH_Ctrl[24].addr[0] = 111;
- Tuner->CH_Ctrl[24].bit[0] = 3;
- Tuner->CH_Ctrl[24].val[0] = 0;
-
- Tuner->CH_Ctrl[25].Ctrl_Num = OVERRIDE_4 ;
- Tuner->CH_Ctrl[25].size = 1 ;
- Tuner->CH_Ctrl[25].addr[0] = 112;
- Tuner->CH_Ctrl[25].bit[0] = 7;
- Tuner->CH_Ctrl[25].val[0] = 0;
-
- Tuner->CH_Ctrl[26].Ctrl_Num = SEQ_FSM_PULSE ;
- Tuner->CH_Ctrl[26].size = 1 ;
- Tuner->CH_Ctrl[26].addr[0] = 136;
- Tuner->CH_Ctrl[26].bit[0] = 7;
- Tuner->CH_Ctrl[26].val[0] = 0;
-
- Tuner->CH_Ctrl[27].Ctrl_Num = GPIO_4B ;
- Tuner->CH_Ctrl[27].size = 1 ;
- Tuner->CH_Ctrl[27].addr[0] = 149;
- Tuner->CH_Ctrl[27].bit[0] = 7;
- Tuner->CH_Ctrl[27].val[0] = 0;
-
- Tuner->CH_Ctrl[28].Ctrl_Num = GPIO_3B ;
- Tuner->CH_Ctrl[28].size = 1 ;
- Tuner->CH_Ctrl[28].addr[0] = 149;
- Tuner->CH_Ctrl[28].bit[0] = 6;
- Tuner->CH_Ctrl[28].val[0] = 0;
-
- Tuner->CH_Ctrl[29].Ctrl_Num = GPIO_4 ;
- Tuner->CH_Ctrl[29].size = 1 ;
- Tuner->CH_Ctrl[29].addr[0] = 149;
- Tuner->CH_Ctrl[29].bit[0] = 5;
- Tuner->CH_Ctrl[29].val[0] = 1;
-
- Tuner->CH_Ctrl[30].Ctrl_Num = GPIO_3 ;
- Tuner->CH_Ctrl[30].size = 1 ;
- Tuner->CH_Ctrl[30].addr[0] = 149;
- Tuner->CH_Ctrl[30].bit[0] = 4;
- Tuner->CH_Ctrl[30].val[0] = 1;
-
- Tuner->CH_Ctrl[31].Ctrl_Num = GPIO_1B ;
- Tuner->CH_Ctrl[31].size = 1 ;
- Tuner->CH_Ctrl[31].addr[0] = 149;
- Tuner->CH_Ctrl[31].bit[0] = 3;
- Tuner->CH_Ctrl[31].val[0] = 0;
-
- Tuner->CH_Ctrl[32].Ctrl_Num = DAC_A_ENABLE ;
- Tuner->CH_Ctrl[32].size = 1 ;
- Tuner->CH_Ctrl[32].addr[0] = 93;
- Tuner->CH_Ctrl[32].bit[0] = 1;
- Tuner->CH_Ctrl[32].val[0] = 0;
-
- Tuner->CH_Ctrl[33].Ctrl_Num = DAC_B_ENABLE ;
- Tuner->CH_Ctrl[33].size = 1 ;
- Tuner->CH_Ctrl[33].addr[0] = 93;
- Tuner->CH_Ctrl[33].bit[0] = 0;
- Tuner->CH_Ctrl[33].val[0] = 0;
-
- Tuner->CH_Ctrl[34].Ctrl_Num = DAC_DIN_A ;
- Tuner->CH_Ctrl[34].size = 6 ;
- Tuner->CH_Ctrl[34].addr[0] = 92;
- Tuner->CH_Ctrl[34].bit[0] = 2;
- Tuner->CH_Ctrl[34].val[0] = 0;
- Tuner->CH_Ctrl[34].addr[1] = 92;
- Tuner->CH_Ctrl[34].bit[1] = 3;
- Tuner->CH_Ctrl[34].val[1] = 0;
- Tuner->CH_Ctrl[34].addr[2] = 92;
- Tuner->CH_Ctrl[34].bit[2] = 4;
- Tuner->CH_Ctrl[34].val[2] = 0;
- Tuner->CH_Ctrl[34].addr[3] = 92;
- Tuner->CH_Ctrl[34].bit[3] = 5;
- Tuner->CH_Ctrl[34].val[3] = 0;
- Tuner->CH_Ctrl[34].addr[4] = 92;
- Tuner->CH_Ctrl[34].bit[4] = 6;
- Tuner->CH_Ctrl[34].val[4] = 0;
- Tuner->CH_Ctrl[34].addr[5] = 92;
- Tuner->CH_Ctrl[34].bit[5] = 7;
- Tuner->CH_Ctrl[34].val[5] = 0;
-
- Tuner->CH_Ctrl[35].Ctrl_Num = DAC_DIN_B ;
- Tuner->CH_Ctrl[35].size = 6 ;
- Tuner->CH_Ctrl[35].addr[0] = 93;
- Tuner->CH_Ctrl[35].bit[0] = 2;
- Tuner->CH_Ctrl[35].val[0] = 0;
- Tuner->CH_Ctrl[35].addr[1] = 93;
- Tuner->CH_Ctrl[35].bit[1] = 3;
- Tuner->CH_Ctrl[35].val[1] = 0;
- Tuner->CH_Ctrl[35].addr[2] = 93;
- Tuner->CH_Ctrl[35].bit[2] = 4;
- Tuner->CH_Ctrl[35].val[2] = 0;
- Tuner->CH_Ctrl[35].addr[3] = 93;
- Tuner->CH_Ctrl[35].bit[3] = 5;
- Tuner->CH_Ctrl[35].val[3] = 0;
- Tuner->CH_Ctrl[35].addr[4] = 93;
- Tuner->CH_Ctrl[35].bit[4] = 6;
- Tuner->CH_Ctrl[35].val[4] = 0;
- Tuner->CH_Ctrl[35].addr[5] = 93;
- Tuner->CH_Ctrl[35].bit[5] = 7;
- Tuner->CH_Ctrl[35].val[5] = 0;
+ struct mxl5005s_state *state = fe->demodulator_priv;
+ state->Init_Ctrl_Num = INITCTRL_NUM;
+
+ state->Init_Ctrl[0].Ctrl_Num = DN_IQTN_AMP_CUT ;
+ state->Init_Ctrl[0].size = 1 ;
+ state->Init_Ctrl[0].addr[0] = 73;
+ state->Init_Ctrl[0].bit[0] = 7;
+ state->Init_Ctrl[0].val[0] = 0;
+
+ state->Init_Ctrl[1].Ctrl_Num = BB_MODE ;
+ state->Init_Ctrl[1].size = 1 ;
+ state->Init_Ctrl[1].addr[0] = 53;
+ state->Init_Ctrl[1].bit[0] = 2;
+ state->Init_Ctrl[1].val[0] = 1;
+
+ state->Init_Ctrl[2].Ctrl_Num = BB_BUF ;
+ state->Init_Ctrl[2].size = 2 ;
+ state->Init_Ctrl[2].addr[0] = 53;
+ state->Init_Ctrl[2].bit[0] = 1;
+ state->Init_Ctrl[2].val[0] = 0;
+ state->Init_Ctrl[2].addr[1] = 57;
+ state->Init_Ctrl[2].bit[1] = 0;
+ state->Init_Ctrl[2].val[1] = 1;
+
+ state->Init_Ctrl[3].Ctrl_Num = BB_BUF_OA ;
+ state->Init_Ctrl[3].size = 1 ;
+ state->Init_Ctrl[3].addr[0] = 53;
+ state->Init_Ctrl[3].bit[0] = 0;
+ state->Init_Ctrl[3].val[0] = 0;
+
+ state->Init_Ctrl[4].Ctrl_Num = BB_ALPF_BANDSELECT ;
+ state->Init_Ctrl[4].size = 3 ;
+ state->Init_Ctrl[4].addr[0] = 53;
+ state->Init_Ctrl[4].bit[0] = 5;
+ state->Init_Ctrl[4].val[0] = 0;
+ state->Init_Ctrl[4].addr[1] = 53;
+ state->Init_Ctrl[4].bit[1] = 6;
+ state->Init_Ctrl[4].val[1] = 0;
+ state->Init_Ctrl[4].addr[2] = 53;
+ state->Init_Ctrl[4].bit[2] = 7;
+ state->Init_Ctrl[4].val[2] = 1;
+
+ state->Init_Ctrl[5].Ctrl_Num = BB_IQSWAP ;
+ state->Init_Ctrl[5].size = 1 ;
+ state->Init_Ctrl[5].addr[0] = 59;
+ state->Init_Ctrl[5].bit[0] = 0;
+ state->Init_Ctrl[5].val[0] = 0;
+
+ state->Init_Ctrl[6].Ctrl_Num = BB_DLPF_BANDSEL ;
+ state->Init_Ctrl[6].size = 2 ;
+ state->Init_Ctrl[6].addr[0] = 53;
+ state->Init_Ctrl[6].bit[0] = 3;
+ state->Init_Ctrl[6].val[0] = 0;
+ state->Init_Ctrl[6].addr[1] = 53;
+ state->Init_Ctrl[6].bit[1] = 4;
+ state->Init_Ctrl[6].val[1] = 1;
+
+ state->Init_Ctrl[7].Ctrl_Num = RFSYN_CHP_GAIN ;
+ state->Init_Ctrl[7].size = 4 ;
+ state->Init_Ctrl[7].addr[0] = 22;
+ state->Init_Ctrl[7].bit[0] = 4;
+ state->Init_Ctrl[7].val[0] = 0;
+ state->Init_Ctrl[7].addr[1] = 22;
+ state->Init_Ctrl[7].bit[1] = 5;
+ state->Init_Ctrl[7].val[1] = 1;
+ state->Init_Ctrl[7].addr[2] = 22;
+ state->Init_Ctrl[7].bit[2] = 6;
+ state->Init_Ctrl[7].val[2] = 1;
+ state->Init_Ctrl[7].addr[3] = 22;
+ state->Init_Ctrl[7].bit[3] = 7;
+ state->Init_Ctrl[7].val[3] = 0;
+
+ state->Init_Ctrl[8].Ctrl_Num = RFSYN_EN_CHP_HIGAIN ;
+ state->Init_Ctrl[8].size = 1 ;
+ state->Init_Ctrl[8].addr[0] = 22;
+ state->Init_Ctrl[8].bit[0] = 2;
+ state->Init_Ctrl[8].val[0] = 0;
+
+ state->Init_Ctrl[9].Ctrl_Num = AGC_IF ;
+ state->Init_Ctrl[9].size = 4 ;
+ state->Init_Ctrl[9].addr[0] = 76;
+ state->Init_Ctrl[9].bit[0] = 0;
+ state->Init_Ctrl[9].val[0] = 1;
+ state->Init_Ctrl[9].addr[1] = 76;
+ state->Init_Ctrl[9].bit[1] = 1;
+ state->Init_Ctrl[9].val[1] = 1;
+ state->Init_Ctrl[9].addr[2] = 76;
+ state->Init_Ctrl[9].bit[2] = 2;
+ state->Init_Ctrl[9].val[2] = 0;
+ state->Init_Ctrl[9].addr[3] = 76;
+ state->Init_Ctrl[9].bit[3] = 3;
+ state->Init_Ctrl[9].val[3] = 1;
+
+ state->Init_Ctrl[10].Ctrl_Num = AGC_RF ;
+ state->Init_Ctrl[10].size = 4 ;
+ state->Init_Ctrl[10].addr[0] = 76;
+ state->Init_Ctrl[10].bit[0] = 4;
+ state->Init_Ctrl[10].val[0] = 1;
+ state->Init_Ctrl[10].addr[1] = 76;
+ state->Init_Ctrl[10].bit[1] = 5;
+ state->Init_Ctrl[10].val[1] = 1;
+ state->Init_Ctrl[10].addr[2] = 76;
+ state->Init_Ctrl[10].bit[2] = 6;
+ state->Init_Ctrl[10].val[2] = 0;
+ state->Init_Ctrl[10].addr[3] = 76;
+ state->Init_Ctrl[10].bit[3] = 7;
+ state->Init_Ctrl[10].val[3] = 1;
+
+ state->Init_Ctrl[11].Ctrl_Num = IF_DIVVAL ;
+ state->Init_Ctrl[11].size = 5 ;
+ state->Init_Ctrl[11].addr[0] = 43;
+ state->Init_Ctrl[11].bit[0] = 3;
+ state->Init_Ctrl[11].val[0] = 0;
+ state->Init_Ctrl[11].addr[1] = 43;
+ state->Init_Ctrl[11].bit[1] = 4;
+ state->Init_Ctrl[11].val[1] = 0;
+ state->Init_Ctrl[11].addr[2] = 43;
+ state->Init_Ctrl[11].bit[2] = 5;
+ state->Init_Ctrl[11].val[2] = 0;
+ state->Init_Ctrl[11].addr[3] = 43;
+ state->Init_Ctrl[11].bit[3] = 6;
+ state->Init_Ctrl[11].val[3] = 1;
+ state->Init_Ctrl[11].addr[4] = 43;
+ state->Init_Ctrl[11].bit[4] = 7;
+ state->Init_Ctrl[11].val[4] = 0;
+
+ state->Init_Ctrl[12].Ctrl_Num = IF_VCO_BIAS ;
+ state->Init_Ctrl[12].size = 6 ;
+ state->Init_Ctrl[12].addr[0] = 44;
+ state->Init_Ctrl[12].bit[0] = 2;
+ state->Init_Ctrl[12].val[0] = 0;
+ state->Init_Ctrl[12].addr[1] = 44;
+ state->Init_Ctrl[12].bit[1] = 3;
+ state->Init_Ctrl[12].val[1] = 0;
+ state->Init_Ctrl[12].addr[2] = 44;
+ state->Init_Ctrl[12].bit[2] = 4;
+ state->Init_Ctrl[12].val[2] = 0;
+ state->Init_Ctrl[12].addr[3] = 44;
+ state->Init_Ctrl[12].bit[3] = 5;
+ state->Init_Ctrl[12].val[3] = 1;
+ state->Init_Ctrl[12].addr[4] = 44;
+ state->Init_Ctrl[12].bit[4] = 6;
+ state->Init_Ctrl[12].val[4] = 0;
+ state->Init_Ctrl[12].addr[5] = 44;
+ state->Init_Ctrl[12].bit[5] = 7;
+ state->Init_Ctrl[12].val[5] = 0;
+
+ state->Init_Ctrl[13].Ctrl_Num = CHCAL_INT_MOD_IF ;
+ state->Init_Ctrl[13].size = 7 ;
+ state->Init_Ctrl[13].addr[0] = 11;
+ state->Init_Ctrl[13].bit[0] = 0;
+ state->Init_Ctrl[13].val[0] = 1;
+ state->Init_Ctrl[13].addr[1] = 11;
+ state->Init_Ctrl[13].bit[1] = 1;
+ state->Init_Ctrl[13].val[1] = 0;
+ state->Init_Ctrl[13].addr[2] = 11;
+ state->Init_Ctrl[13].bit[2] = 2;
+ state->Init_Ctrl[13].val[2] = 0;
+ state->Init_Ctrl[13].addr[3] = 11;
+ state->Init_Ctrl[13].bit[3] = 3;
+ state->Init_Ctrl[13].val[3] = 1;
+ state->Init_Ctrl[13].addr[4] = 11;
+ state->Init_Ctrl[13].bit[4] = 4;
+ state->Init_Ctrl[13].val[4] = 1;
+ state->Init_Ctrl[13].addr[5] = 11;
+ state->Init_Ctrl[13].bit[5] = 5;
+ state->Init_Ctrl[13].val[5] = 0;
+ state->Init_Ctrl[13].addr[6] = 11;
+ state->Init_Ctrl[13].bit[6] = 6;
+ state->Init_Ctrl[13].val[6] = 0;
+
+ state->Init_Ctrl[14].Ctrl_Num = CHCAL_FRAC_MOD_IF ;
+ state->Init_Ctrl[14].size = 16 ;
+ state->Init_Ctrl[14].addr[0] = 13;
+ state->Init_Ctrl[14].bit[0] = 0;
+ state->Init_Ctrl[14].val[0] = 0;
+ state->Init_Ctrl[14].addr[1] = 13;
+ state->Init_Ctrl[14].bit[1] = 1;
+ state->Init_Ctrl[14].val[1] = 0;
+ state->Init_Ctrl[14].addr[2] = 13;
+ state->Init_Ctrl[14].bit[2] = 2;
+ state->Init_Ctrl[14].val[2] = 0;
+ state->Init_Ctrl[14].addr[3] = 13;
+ state->Init_Ctrl[14].bit[3] = 3;
+ state->Init_Ctrl[14].val[3] = 0;
+ state->Init_Ctrl[14].addr[4] = 13;
+ state->Init_Ctrl[14].bit[4] = 4;
+ state->Init_Ctrl[14].val[4] = 0;
+ state->Init_Ctrl[14].addr[5] = 13;
+ state->Init_Ctrl[14].bit[5] = 5;
+ state->Init_Ctrl[14].val[5] = 0;
+ state->Init_Ctrl[14].addr[6] = 13;
+ state->Init_Ctrl[14].bit[6] = 6;
+ state->Init_Ctrl[14].val[6] = 0;
+ state->Init_Ctrl[14].addr[7] = 13;
+ state->Init_Ctrl[14].bit[7] = 7;
+ state->Init_Ctrl[14].val[7] = 0;
+ state->Init_Ctrl[14].addr[8] = 12;
+ state->Init_Ctrl[14].bit[8] = 0;
+ state->Init_Ctrl[14].val[8] = 0;
+ state->Init_Ctrl[14].addr[9] = 12;
+ state->Init_Ctrl[14].bit[9] = 1;
+ state->Init_Ctrl[14].val[9] = 0;
+ state->Init_Ctrl[14].addr[10] = 12;
+ state->Init_Ctrl[14].bit[10] = 2;
+ state->Init_Ctrl[14].val[10] = 0;
+ state->Init_Ctrl[14].addr[11] = 12;
+ state->Init_Ctrl[14].bit[11] = 3;
+ state->Init_Ctrl[14].val[11] = 0;
+ state->Init_Ctrl[14].addr[12] = 12;
+ state->Init_Ctrl[14].bit[12] = 4;
+ state->Init_Ctrl[14].val[12] = 0;
+ state->Init_Ctrl[14].addr[13] = 12;
+ state->Init_Ctrl[14].bit[13] = 5;
+ state->Init_Ctrl[14].val[13] = 1;
+ state->Init_Ctrl[14].addr[14] = 12;
+ state->Init_Ctrl[14].bit[14] = 6;
+ state->Init_Ctrl[14].val[14] = 1;
+ state->Init_Ctrl[14].addr[15] = 12;
+ state->Init_Ctrl[14].bit[15] = 7;
+ state->Init_Ctrl[14].val[15] = 0;
+
+ state->Init_Ctrl[15].Ctrl_Num = DRV_RES_SEL ;
+ state->Init_Ctrl[15].size = 3 ;
+ state->Init_Ctrl[15].addr[0] = 147;
+ state->Init_Ctrl[15].bit[0] = 2;
+ state->Init_Ctrl[15].val[0] = 0;
+ state->Init_Ctrl[15].addr[1] = 147;
+ state->Init_Ctrl[15].bit[1] = 3;
+ state->Init_Ctrl[15].val[1] = 1;
+ state->Init_Ctrl[15].addr[2] = 147;
+ state->Init_Ctrl[15].bit[2] = 4;
+ state->Init_Ctrl[15].val[2] = 1;
+
+ state->Init_Ctrl[16].Ctrl_Num = I_DRIVER ;
+ state->Init_Ctrl[16].size = 2 ;
+ state->Init_Ctrl[16].addr[0] = 147;
+ state->Init_Ctrl[16].bit[0] = 0;
+ state->Init_Ctrl[16].val[0] = 0;
+ state->Init_Ctrl[16].addr[1] = 147;
+ state->Init_Ctrl[16].bit[1] = 1;
+ state->Init_Ctrl[16].val[1] = 1;
+
+ state->Init_Ctrl[17].Ctrl_Num = EN_AAF ;
+ state->Init_Ctrl[17].size = 1 ;
+ state->Init_Ctrl[17].addr[0] = 147;
+ state->Init_Ctrl[17].bit[0] = 7;
+ state->Init_Ctrl[17].val[0] = 0;
+
+ state->Init_Ctrl[18].Ctrl_Num = EN_3P ;
+ state->Init_Ctrl[18].size = 1 ;
+ state->Init_Ctrl[18].addr[0] = 147;
+ state->Init_Ctrl[18].bit[0] = 6;
+ state->Init_Ctrl[18].val[0] = 0;
+
+ state->Init_Ctrl[19].Ctrl_Num = EN_AUX_3P ;
+ state->Init_Ctrl[19].size = 1 ;
+ state->Init_Ctrl[19].addr[0] = 156;
+ state->Init_Ctrl[19].bit[0] = 0;
+ state->Init_Ctrl[19].val[0] = 0;
+
+ state->Init_Ctrl[20].Ctrl_Num = SEL_AAF_BAND ;
+ state->Init_Ctrl[20].size = 1 ;
+ state->Init_Ctrl[20].addr[0] = 147;
+ state->Init_Ctrl[20].bit[0] = 5;
+ state->Init_Ctrl[20].val[0] = 0;
+
+ state->Init_Ctrl[21].Ctrl_Num = SEQ_ENCLK16_CLK_OUT ;
+ state->Init_Ctrl[21].size = 1 ;
+ state->Init_Ctrl[21].addr[0] = 137;
+ state->Init_Ctrl[21].bit[0] = 4;
+ state->Init_Ctrl[21].val[0] = 0;
+
+ state->Init_Ctrl[22].Ctrl_Num = SEQ_SEL4_16B ;
+ state->Init_Ctrl[22].size = 1 ;
+ state->Init_Ctrl[22].addr[0] = 137;
+ state->Init_Ctrl[22].bit[0] = 7;
+ state->Init_Ctrl[22].val[0] = 0;
+
+ state->Init_Ctrl[23].Ctrl_Num = XTAL_CAPSELECT ;
+ state->Init_Ctrl[23].size = 1 ;
+ state->Init_Ctrl[23].addr[0] = 91;
+ state->Init_Ctrl[23].bit[0] = 5;
+ state->Init_Ctrl[23].val[0] = 1;
+
+ state->Init_Ctrl[24].Ctrl_Num = IF_SEL_DBL ;
+ state->Init_Ctrl[24].size = 1 ;
+ state->Init_Ctrl[24].addr[0] = 43;
+ state->Init_Ctrl[24].bit[0] = 0;
+ state->Init_Ctrl[24].val[0] = 1;
+
+ state->Init_Ctrl[25].Ctrl_Num = RFSYN_R_DIV ;
+ state->Init_Ctrl[25].size = 2 ;
+ state->Init_Ctrl[25].addr[0] = 22;
+ state->Init_Ctrl[25].bit[0] = 0;
+ state->Init_Ctrl[25].val[0] = 1;
+ state->Init_Ctrl[25].addr[1] = 22;
+ state->Init_Ctrl[25].bit[1] = 1;
+ state->Init_Ctrl[25].val[1] = 1;
+
+ state->Init_Ctrl[26].Ctrl_Num = SEQ_EXTSYNTHCALIF ;
+ state->Init_Ctrl[26].size = 1 ;
+ state->Init_Ctrl[26].addr[0] = 134;
+ state->Init_Ctrl[26].bit[0] = 2;
+ state->Init_Ctrl[26].val[0] = 0;
+
+ state->Init_Ctrl[27].Ctrl_Num = SEQ_EXTDCCAL ;
+ state->Init_Ctrl[27].size = 1 ;
+ state->Init_Ctrl[27].addr[0] = 137;
+ state->Init_Ctrl[27].bit[0] = 3;
+ state->Init_Ctrl[27].val[0] = 0;
+
+ state->Init_Ctrl[28].Ctrl_Num = AGC_EN_RSSI ;
+ state->Init_Ctrl[28].size = 1 ;
+ state->Init_Ctrl[28].addr[0] = 77;
+ state->Init_Ctrl[28].bit[0] = 7;
+ state->Init_Ctrl[28].val[0] = 0;
+
+ state->Init_Ctrl[29].Ctrl_Num = RFA_ENCLKRFAGC ;
+ state->Init_Ctrl[29].size = 1 ;
+ state->Init_Ctrl[29].addr[0] = 166;
+ state->Init_Ctrl[29].bit[0] = 7;
+ state->Init_Ctrl[29].val[0] = 1;
+
+ state->Init_Ctrl[30].Ctrl_Num = RFA_RSSI_REFH ;
+ state->Init_Ctrl[30].size = 3 ;
+ state->Init_Ctrl[30].addr[0] = 166;
+ state->Init_Ctrl[30].bit[0] = 0;
+ state->Init_Ctrl[30].val[0] = 0;
+ state->Init_Ctrl[30].addr[1] = 166;
+ state->Init_Ctrl[30].bit[1] = 1;
+ state->Init_Ctrl[30].val[1] = 1;
+ state->Init_Ctrl[30].addr[2] = 166;
+ state->Init_Ctrl[30].bit[2] = 2;
+ state->Init_Ctrl[30].val[2] = 1;
+
+ state->Init_Ctrl[31].Ctrl_Num = RFA_RSSI_REF ;
+ state->Init_Ctrl[31].size = 3 ;
+ state->Init_Ctrl[31].addr[0] = 166;
+ state->Init_Ctrl[31].bit[0] = 3;
+ state->Init_Ctrl[31].val[0] = 1;
+ state->Init_Ctrl[31].addr[1] = 166;
+ state->Init_Ctrl[31].bit[1] = 4;
+ state->Init_Ctrl[31].val[1] = 0;
+ state->Init_Ctrl[31].addr[2] = 166;
+ state->Init_Ctrl[31].bit[2] = 5;
+ state->Init_Ctrl[31].val[2] = 1;
+
+ state->Init_Ctrl[32].Ctrl_Num = RFA_RSSI_REFL ;
+ state->Init_Ctrl[32].size = 3 ;
+ state->Init_Ctrl[32].addr[0] = 167;
+ state->Init_Ctrl[32].bit[0] = 0;
+ state->Init_Ctrl[32].val[0] = 1;
+ state->Init_Ctrl[32].addr[1] = 167;
+ state->Init_Ctrl[32].bit[1] = 1;
+ state->Init_Ctrl[32].val[1] = 1;
+ state->Init_Ctrl[32].addr[2] = 167;
+ state->Init_Ctrl[32].bit[2] = 2;
+ state->Init_Ctrl[32].val[2] = 0;
+
+ state->Init_Ctrl[33].Ctrl_Num = RFA_FLR ;
+ state->Init_Ctrl[33].size = 4 ;
+ state->Init_Ctrl[33].addr[0] = 168;
+ state->Init_Ctrl[33].bit[0] = 0;
+ state->Init_Ctrl[33].val[0] = 0;
+ state->Init_Ctrl[33].addr[1] = 168;
+ state->Init_Ctrl[33].bit[1] = 1;
+ state->Init_Ctrl[33].val[1] = 1;
+ state->Init_Ctrl[33].addr[2] = 168;
+ state->Init_Ctrl[33].bit[2] = 2;
+ state->Init_Ctrl[33].val[2] = 0;
+ state->Init_Ctrl[33].addr[3] = 168;
+ state->Init_Ctrl[33].bit[3] = 3;
+ state->Init_Ctrl[33].val[3] = 0;
+
+ state->Init_Ctrl[34].Ctrl_Num = RFA_CEIL ;
+ state->Init_Ctrl[34].size = 4 ;
+ state->Init_Ctrl[34].addr[0] = 168;
+ state->Init_Ctrl[34].bit[0] = 4;
+ state->Init_Ctrl[34].val[0] = 1;
+ state->Init_Ctrl[34].addr[1] = 168;
+ state->Init_Ctrl[34].bit[1] = 5;
+ state->Init_Ctrl[34].val[1] = 1;
+ state->Init_Ctrl[34].addr[2] = 168;
+ state->Init_Ctrl[34].bit[2] = 6;
+ state->Init_Ctrl[34].val[2] = 1;
+ state->Init_Ctrl[34].addr[3] = 168;
+ state->Init_Ctrl[34].bit[3] = 7;
+ state->Init_Ctrl[34].val[3] = 1;
+
+ state->Init_Ctrl[35].Ctrl_Num = SEQ_EXTIQFSMPULSE ;
+ state->Init_Ctrl[35].size = 1 ;
+ state->Init_Ctrl[35].addr[0] = 135;
+ state->Init_Ctrl[35].bit[0] = 0;
+ state->Init_Ctrl[35].val[0] = 0;
+
+ state->Init_Ctrl[36].Ctrl_Num = OVERRIDE_1 ;
+ state->Init_Ctrl[36].size = 1 ;
+ state->Init_Ctrl[36].addr[0] = 56;
+ state->Init_Ctrl[36].bit[0] = 3;
+ state->Init_Ctrl[36].val[0] = 0;
+
+ state->Init_Ctrl[37].Ctrl_Num = BB_INITSTATE_DLPF_TUNE ;
+ state->Init_Ctrl[37].size = 7 ;
+ state->Init_Ctrl[37].addr[0] = 59;
+ state->Init_Ctrl[37].bit[0] = 1;
+ state->Init_Ctrl[37].val[0] = 0;
+ state->Init_Ctrl[37].addr[1] = 59;
+ state->Init_Ctrl[37].bit[1] = 2;
+ state->Init_Ctrl[37].val[1] = 0;
+ state->Init_Ctrl[37].addr[2] = 59;
+ state->Init_Ctrl[37].bit[2] = 3;
+ state->Init_Ctrl[37].val[2] = 0;
+ state->Init_Ctrl[37].addr[3] = 59;
+ state->Init_Ctrl[37].bit[3] = 4;
+ state->Init_Ctrl[37].val[3] = 0;
+ state->Init_Ctrl[37].addr[4] = 59;
+ state->Init_Ctrl[37].bit[4] = 5;
+ state->Init_Ctrl[37].val[4] = 0;
+ state->Init_Ctrl[37].addr[5] = 59;
+ state->Init_Ctrl[37].bit[5] = 6;
+ state->Init_Ctrl[37].val[5] = 0;
+ state->Init_Ctrl[37].addr[6] = 59;
+ state->Init_Ctrl[37].bit[6] = 7;
+ state->Init_Ctrl[37].val[6] = 0;
+
+ state->Init_Ctrl[38].Ctrl_Num = TG_R_DIV ;
+ state->Init_Ctrl[38].size = 6 ;
+ state->Init_Ctrl[38].addr[0] = 32;
+ state->Init_Ctrl[38].bit[0] = 2;
+ state->Init_Ctrl[38].val[0] = 0;
+ state->Init_Ctrl[38].addr[1] = 32;
+ state->Init_Ctrl[38].bit[1] = 3;
+ state->Init_Ctrl[38].val[1] = 0;
+ state->Init_Ctrl[38].addr[2] = 32;
+ state->Init_Ctrl[38].bit[2] = 4;
+ state->Init_Ctrl[38].val[2] = 0;
+ state->Init_Ctrl[38].addr[3] = 32;
+ state->Init_Ctrl[38].bit[3] = 5;
+ state->Init_Ctrl[38].val[3] = 0;
+ state->Init_Ctrl[38].addr[4] = 32;
+ state->Init_Ctrl[38].bit[4] = 6;
+ state->Init_Ctrl[38].val[4] = 1;
+ state->Init_Ctrl[38].addr[5] = 32;
+ state->Init_Ctrl[38].bit[5] = 7;
+ state->Init_Ctrl[38].val[5] = 0;
+
+ state->Init_Ctrl[39].Ctrl_Num = EN_CHP_LIN_B ;
+ state->Init_Ctrl[39].size = 1 ;
+ state->Init_Ctrl[39].addr[0] = 25;
+ state->Init_Ctrl[39].bit[0] = 3;
+ state->Init_Ctrl[39].val[0] = 1;
+
+
+ state->CH_Ctrl_Num = CHCTRL_NUM ;
+
+ state->CH_Ctrl[0].Ctrl_Num = DN_POLY ;
+ state->CH_Ctrl[0].size = 2 ;
+ state->CH_Ctrl[0].addr[0] = 68;
+ state->CH_Ctrl[0].bit[0] = 6;
+ state->CH_Ctrl[0].val[0] = 1;
+ state->CH_Ctrl[0].addr[1] = 68;
+ state->CH_Ctrl[0].bit[1] = 7;
+ state->CH_Ctrl[0].val[1] = 1;
+
+ state->CH_Ctrl[1].Ctrl_Num = DN_RFGAIN ;
+ state->CH_Ctrl[1].size = 2 ;
+ state->CH_Ctrl[1].addr[0] = 70;
+ state->CH_Ctrl[1].bit[0] = 6;
+ state->CH_Ctrl[1].val[0] = 1;
+ state->CH_Ctrl[1].addr[1] = 70;
+ state->CH_Ctrl[1].bit[1] = 7;
+ state->CH_Ctrl[1].val[1] = 0;
+
+ state->CH_Ctrl[2].Ctrl_Num = DN_CAP_RFLPF ;
+ state->CH_Ctrl[2].size = 9 ;
+ state->CH_Ctrl[2].addr[0] = 69;
+ state->CH_Ctrl[2].bit[0] = 5;
+ state->CH_Ctrl[2].val[0] = 0;
+ state->CH_Ctrl[2].addr[1] = 69;
+ state->CH_Ctrl[2].bit[1] = 6;
+ state->CH_Ctrl[2].val[1] = 0;
+ state->CH_Ctrl[2].addr[2] = 69;
+ state->CH_Ctrl[2].bit[2] = 7;
+ state->CH_Ctrl[2].val[2] = 0;
+ state->CH_Ctrl[2].addr[3] = 68;
+ state->CH_Ctrl[2].bit[3] = 0;
+ state->CH_Ctrl[2].val[3] = 0;
+ state->CH_Ctrl[2].addr[4] = 68;
+ state->CH_Ctrl[2].bit[4] = 1;
+ state->CH_Ctrl[2].val[4] = 0;
+ state->CH_Ctrl[2].addr[5] = 68;
+ state->CH_Ctrl[2].bit[5] = 2;
+ state->CH_Ctrl[2].val[5] = 0;
+ state->CH_Ctrl[2].addr[6] = 68;
+ state->CH_Ctrl[2].bit[6] = 3;
+ state->CH_Ctrl[2].val[6] = 0;
+ state->CH_Ctrl[2].addr[7] = 68;
+ state->CH_Ctrl[2].bit[7] = 4;
+ state->CH_Ctrl[2].val[7] = 0;
+ state->CH_Ctrl[2].addr[8] = 68;
+ state->CH_Ctrl[2].bit[8] = 5;
+ state->CH_Ctrl[2].val[8] = 0;
+
+ state->CH_Ctrl[3].Ctrl_Num = DN_EN_VHFUHFBAR ;
+ state->CH_Ctrl[3].size = 1 ;
+ state->CH_Ctrl[3].addr[0] = 70;
+ state->CH_Ctrl[3].bit[0] = 5;
+ state->CH_Ctrl[3].val[0] = 0;
+
+ state->CH_Ctrl[4].Ctrl_Num = DN_GAIN_ADJUST ;
+ state->CH_Ctrl[4].size = 3 ;
+ state->CH_Ctrl[4].addr[0] = 73;
+ state->CH_Ctrl[4].bit[0] = 4;
+ state->CH_Ctrl[4].val[0] = 0;
+ state->CH_Ctrl[4].addr[1] = 73;
+ state->CH_Ctrl[4].bit[1] = 5;
+ state->CH_Ctrl[4].val[1] = 1;
+ state->CH_Ctrl[4].addr[2] = 73;
+ state->CH_Ctrl[4].bit[2] = 6;
+ state->CH_Ctrl[4].val[2] = 0;
+
+ state->CH_Ctrl[5].Ctrl_Num = DN_IQTNBUF_AMP ;
+ state->CH_Ctrl[5].size = 4 ;
+ state->CH_Ctrl[5].addr[0] = 70;
+ state->CH_Ctrl[5].bit[0] = 0;
+ state->CH_Ctrl[5].val[0] = 0;
+ state->CH_Ctrl[5].addr[1] = 70;
+ state->CH_Ctrl[5].bit[1] = 1;
+ state->CH_Ctrl[5].val[1] = 0;
+ state->CH_Ctrl[5].addr[2] = 70;
+ state->CH_Ctrl[5].bit[2] = 2;
+ state->CH_Ctrl[5].val[2] = 0;
+ state->CH_Ctrl[5].addr[3] = 70;
+ state->CH_Ctrl[5].bit[3] = 3;
+ state->CH_Ctrl[5].val[3] = 0;
+
+ state->CH_Ctrl[6].Ctrl_Num = DN_IQTNGNBFBIAS_BST ;
+ state->CH_Ctrl[6].size = 1 ;
+ state->CH_Ctrl[6].addr[0] = 70;
+ state->CH_Ctrl[6].bit[0] = 4;
+ state->CH_Ctrl[6].val[0] = 1;
+
+ state->CH_Ctrl[7].Ctrl_Num = RFSYN_EN_OUTMUX ;
+ state->CH_Ctrl[7].size = 1 ;
+ state->CH_Ctrl[7].addr[0] = 111;
+ state->CH_Ctrl[7].bit[0] = 4;
+ state->CH_Ctrl[7].val[0] = 0;
+
+ state->CH_Ctrl[8].Ctrl_Num = RFSYN_SEL_VCO_OUT ;
+ state->CH_Ctrl[8].size = 1 ;
+ state->CH_Ctrl[8].addr[0] = 111;
+ state->CH_Ctrl[8].bit[0] = 7;
+ state->CH_Ctrl[8].val[0] = 1;
+
+ state->CH_Ctrl[9].Ctrl_Num = RFSYN_SEL_VCO_HI ;
+ state->CH_Ctrl[9].size = 1 ;
+ state->CH_Ctrl[9].addr[0] = 111;
+ state->CH_Ctrl[9].bit[0] = 6;
+ state->CH_Ctrl[9].val[0] = 1;
+
+ state->CH_Ctrl[10].Ctrl_Num = RFSYN_SEL_DIVM ;
+ state->CH_Ctrl[10].size = 1 ;
+ state->CH_Ctrl[10].addr[0] = 111;
+ state->CH_Ctrl[10].bit[0] = 5;
+ state->CH_Ctrl[10].val[0] = 0;
+
+ state->CH_Ctrl[11].Ctrl_Num = RFSYN_RF_DIV_BIAS ;
+ state->CH_Ctrl[11].size = 2 ;
+ state->CH_Ctrl[11].addr[0] = 110;
+ state->CH_Ctrl[11].bit[0] = 0;
+ state->CH_Ctrl[11].val[0] = 1;
+ state->CH_Ctrl[11].addr[1] = 110;
+ state->CH_Ctrl[11].bit[1] = 1;
+ state->CH_Ctrl[11].val[1] = 0;
+
+ state->CH_Ctrl[12].Ctrl_Num = DN_SEL_FREQ ;
+ state->CH_Ctrl[12].size = 3 ;
+ state->CH_Ctrl[12].addr[0] = 69;
+ state->CH_Ctrl[12].bit[0] = 2;
+ state->CH_Ctrl[12].val[0] = 0;
+ state->CH_Ctrl[12].addr[1] = 69;
+ state->CH_Ctrl[12].bit[1] = 3;
+ state->CH_Ctrl[12].val[1] = 0;
+ state->CH_Ctrl[12].addr[2] = 69;
+ state->CH_Ctrl[12].bit[2] = 4;
+ state->CH_Ctrl[12].val[2] = 0;
+
+ state->CH_Ctrl[13].Ctrl_Num = RFSYN_VCO_BIAS ;
+ state->CH_Ctrl[13].size = 6 ;
+ state->CH_Ctrl[13].addr[0] = 110;
+ state->CH_Ctrl[13].bit[0] = 2;
+ state->CH_Ctrl[13].val[0] = 0;
+ state->CH_Ctrl[13].addr[1] = 110;
+ state->CH_Ctrl[13].bit[1] = 3;
+ state->CH_Ctrl[13].val[1] = 0;
+ state->CH_Ctrl[13].addr[2] = 110;
+ state->CH_Ctrl[13].bit[2] = 4;
+ state->CH_Ctrl[13].val[2] = 0;
+ state->CH_Ctrl[13].addr[3] = 110;
+ state->CH_Ctrl[13].bit[3] = 5;
+ state->CH_Ctrl[13].val[3] = 0;
+ state->CH_Ctrl[13].addr[4] = 110;
+ state->CH_Ctrl[13].bit[4] = 6;
+ state->CH_Ctrl[13].val[4] = 0;
+ state->CH_Ctrl[13].addr[5] = 110;
+ state->CH_Ctrl[13].bit[5] = 7;
+ state->CH_Ctrl[13].val[5] = 1;
+
+ state->CH_Ctrl[14].Ctrl_Num = CHCAL_INT_MOD_RF ;
+ state->CH_Ctrl[14].size = 7 ;
+ state->CH_Ctrl[14].addr[0] = 14;
+ state->CH_Ctrl[14].bit[0] = 0;
+ state->CH_Ctrl[14].val[0] = 0;
+ state->CH_Ctrl[14].addr[1] = 14;
+ state->CH_Ctrl[14].bit[1] = 1;
+ state->CH_Ctrl[14].val[1] = 0;
+ state->CH_Ctrl[14].addr[2] = 14;
+ state->CH_Ctrl[14].bit[2] = 2;
+ state->CH_Ctrl[14].val[2] = 0;
+ state->CH_Ctrl[14].addr[3] = 14;
+ state->CH_Ctrl[14].bit[3] = 3;
+ state->CH_Ctrl[14].val[3] = 0;
+ state->CH_Ctrl[14].addr[4] = 14;
+ state->CH_Ctrl[14].bit[4] = 4;
+ state->CH_Ctrl[14].val[4] = 0;
+ state->CH_Ctrl[14].addr[5] = 14;
+ state->CH_Ctrl[14].bit[5] = 5;
+ state->CH_Ctrl[14].val[5] = 0;
+ state->CH_Ctrl[14].addr[6] = 14;
+ state->CH_Ctrl[14].bit[6] = 6;
+ state->CH_Ctrl[14].val[6] = 0;
+
+ state->CH_Ctrl[15].Ctrl_Num = CHCAL_FRAC_MOD_RF ;
+ state->CH_Ctrl[15].size = 18 ;
+ state->CH_Ctrl[15].addr[0] = 17;
+ state->CH_Ctrl[15].bit[0] = 6;
+ state->CH_Ctrl[15].val[0] = 0;
+ state->CH_Ctrl[15].addr[1] = 17;
+ state->CH_Ctrl[15].bit[1] = 7;
+ state->CH_Ctrl[15].val[1] = 0;
+ state->CH_Ctrl[15].addr[2] = 16;
+ state->CH_Ctrl[15].bit[2] = 0;
+ state->CH_Ctrl[15].val[2] = 0;
+ state->CH_Ctrl[15].addr[3] = 16;
+ state->CH_Ctrl[15].bit[3] = 1;
+ state->CH_Ctrl[15].val[3] = 0;
+ state->CH_Ctrl[15].addr[4] = 16;
+ state->CH_Ctrl[15].bit[4] = 2;
+ state->CH_Ctrl[15].val[4] = 0;
+ state->CH_Ctrl[15].addr[5] = 16;
+ state->CH_Ctrl[15].bit[5] = 3;
+ state->CH_Ctrl[15].val[5] = 0;
+ state->CH_Ctrl[15].addr[6] = 16;
+ state->CH_Ctrl[15].bit[6] = 4;
+ state->CH_Ctrl[15].val[6] = 0;
+ state->CH_Ctrl[15].addr[7] = 16;
+ state->CH_Ctrl[15].bit[7] = 5;
+ state->CH_Ctrl[15].val[7] = 0;
+ state->CH_Ctrl[15].addr[8] = 16;
+ state->CH_Ctrl[15].bit[8] = 6;
+ state->CH_Ctrl[15].val[8] = 0;
+ state->CH_Ctrl[15].addr[9] = 16;
+ state->CH_Ctrl[15].bit[9] = 7;
+ state->CH_Ctrl[15].val[9] = 0;
+ state->CH_Ctrl[15].addr[10] = 15;
+ state->CH_Ctrl[15].bit[10] = 0;
+ state->CH_Ctrl[15].val[10] = 0;
+ state->CH_Ctrl[15].addr[11] = 15;
+ state->CH_Ctrl[15].bit[11] = 1;
+ state->CH_Ctrl[15].val[11] = 0;
+ state->CH_Ctrl[15].addr[12] = 15;
+ state->CH_Ctrl[15].bit[12] = 2;
+ state->CH_Ctrl[15].val[12] = 0;
+ state->CH_Ctrl[15].addr[13] = 15;
+ state->CH_Ctrl[15].bit[13] = 3;
+ state->CH_Ctrl[15].val[13] = 0;
+ state->CH_Ctrl[15].addr[14] = 15;
+ state->CH_Ctrl[15].bit[14] = 4;
+ state->CH_Ctrl[15].val[14] = 0;
+ state->CH_Ctrl[15].addr[15] = 15;
+ state->CH_Ctrl[15].bit[15] = 5;
+ state->CH_Ctrl[15].val[15] = 0;
+ state->CH_Ctrl[15].addr[16] = 15;
+ state->CH_Ctrl[15].bit[16] = 6;
+ state->CH_Ctrl[15].val[16] = 1;
+ state->CH_Ctrl[15].addr[17] = 15;
+ state->CH_Ctrl[15].bit[17] = 7;
+ state->CH_Ctrl[15].val[17] = 1;
+
+ state->CH_Ctrl[16].Ctrl_Num = RFSYN_LPF_R ;
+ state->CH_Ctrl[16].size = 5 ;
+ state->CH_Ctrl[16].addr[0] = 112;
+ state->CH_Ctrl[16].bit[0] = 0;
+ state->CH_Ctrl[16].val[0] = 0;
+ state->CH_Ctrl[16].addr[1] = 112;
+ state->CH_Ctrl[16].bit[1] = 1;
+ state->CH_Ctrl[16].val[1] = 0;
+ state->CH_Ctrl[16].addr[2] = 112;
+ state->CH_Ctrl[16].bit[2] = 2;
+ state->CH_Ctrl[16].val[2] = 0;
+ state->CH_Ctrl[16].addr[3] = 112;
+ state->CH_Ctrl[16].bit[3] = 3;
+ state->CH_Ctrl[16].val[3] = 0;
+ state->CH_Ctrl[16].addr[4] = 112;
+ state->CH_Ctrl[16].bit[4] = 4;
+ state->CH_Ctrl[16].val[4] = 1;
+
+ state->CH_Ctrl[17].Ctrl_Num = CHCAL_EN_INT_RF ;
+ state->CH_Ctrl[17].size = 1 ;
+ state->CH_Ctrl[17].addr[0] = 14;
+ state->CH_Ctrl[17].bit[0] = 7;
+ state->CH_Ctrl[17].val[0] = 0;
+
+ state->CH_Ctrl[18].Ctrl_Num = TG_LO_DIVVAL ;
+ state->CH_Ctrl[18].size = 4 ;
+ state->CH_Ctrl[18].addr[0] = 107;
+ state->CH_Ctrl[18].bit[0] = 3;
+ state->CH_Ctrl[18].val[0] = 0;
+ state->CH_Ctrl[18].addr[1] = 107;
+ state->CH_Ctrl[18].bit[1] = 4;
+ state->CH_Ctrl[18].val[1] = 0;
+ state->CH_Ctrl[18].addr[2] = 107;
+ state->CH_Ctrl[18].bit[2] = 5;
+ state->CH_Ctrl[18].val[2] = 0;
+ state->CH_Ctrl[18].addr[3] = 107;
+ state->CH_Ctrl[18].bit[3] = 6;
+ state->CH_Ctrl[18].val[3] = 0;
+
+ state->CH_Ctrl[19].Ctrl_Num = TG_LO_SELVAL ;
+ state->CH_Ctrl[19].size = 3 ;
+ state->CH_Ctrl[19].addr[0] = 107;
+ state->CH_Ctrl[19].bit[0] = 7;
+ state->CH_Ctrl[19].val[0] = 1;
+ state->CH_Ctrl[19].addr[1] = 106;
+ state->CH_Ctrl[19].bit[1] = 0;
+ state->CH_Ctrl[19].val[1] = 1;
+ state->CH_Ctrl[19].addr[2] = 106;
+ state->CH_Ctrl[19].bit[2] = 1;
+ state->CH_Ctrl[19].val[2] = 1;
+
+ state->CH_Ctrl[20].Ctrl_Num = TG_DIV_VAL ;
+ state->CH_Ctrl[20].size = 11 ;
+ state->CH_Ctrl[20].addr[0] = 109;
+ state->CH_Ctrl[20].bit[0] = 2;
+ state->CH_Ctrl[20].val[0] = 0;
+ state->CH_Ctrl[20].addr[1] = 109;
+ state->CH_Ctrl[20].bit[1] = 3;
+ state->CH_Ctrl[20].val[1] = 0;
+ state->CH_Ctrl[20].addr[2] = 109;
+ state->CH_Ctrl[20].bit[2] = 4;
+ state->CH_Ctrl[20].val[2] = 0;
+ state->CH_Ctrl[20].addr[3] = 109;
+ state->CH_Ctrl[20].bit[3] = 5;
+ state->CH_Ctrl[20].val[3] = 0;
+ state->CH_Ctrl[20].addr[4] = 109;
+ state->CH_Ctrl[20].bit[4] = 6;
+ state->CH_Ctrl[20].val[4] = 0;
+ state->CH_Ctrl[20].addr[5] = 109;
+ state->CH_Ctrl[20].bit[5] = 7;
+ state->CH_Ctrl[20].val[5] = 0;
+ state->CH_Ctrl[20].addr[6] = 108;
+ state->CH_Ctrl[20].bit[6] = 0;
+ state->CH_Ctrl[20].val[6] = 0;
+ state->CH_Ctrl[20].addr[7] = 108;
+ state->CH_Ctrl[20].bit[7] = 1;
+ state->CH_Ctrl[20].val[7] = 0;
+ state->CH_Ctrl[20].addr[8] = 108;
+ state->CH_Ctrl[20].bit[8] = 2;
+ state->CH_Ctrl[20].val[8] = 1;
+ state->CH_Ctrl[20].addr[9] = 108;
+ state->CH_Ctrl[20].bit[9] = 3;
+ state->CH_Ctrl[20].val[9] = 1;
+ state->CH_Ctrl[20].addr[10] = 108;
+ state->CH_Ctrl[20].bit[10] = 4;
+ state->CH_Ctrl[20].val[10] = 1;
+
+ state->CH_Ctrl[21].Ctrl_Num = TG_VCO_BIAS ;
+ state->CH_Ctrl[21].size = 6 ;
+ state->CH_Ctrl[21].addr[0] = 106;
+ state->CH_Ctrl[21].bit[0] = 2;
+ state->CH_Ctrl[21].val[0] = 0;
+ state->CH_Ctrl[21].addr[1] = 106;
+ state->CH_Ctrl[21].bit[1] = 3;
+ state->CH_Ctrl[21].val[1] = 0;
+ state->CH_Ctrl[21].addr[2] = 106;
+ state->CH_Ctrl[21].bit[2] = 4;
+ state->CH_Ctrl[21].val[2] = 0;
+ state->CH_Ctrl[21].addr[3] = 106;
+ state->CH_Ctrl[21].bit[3] = 5;
+ state->CH_Ctrl[21].val[3] = 0;
+ state->CH_Ctrl[21].addr[4] = 106;
+ state->CH_Ctrl[21].bit[4] = 6;
+ state->CH_Ctrl[21].val[4] = 0;
+ state->CH_Ctrl[21].addr[5] = 106;
+ state->CH_Ctrl[21].bit[5] = 7;
+ state->CH_Ctrl[21].val[5] = 1;
+
+ state->CH_Ctrl[22].Ctrl_Num = SEQ_EXTPOWERUP ;
+ state->CH_Ctrl[22].size = 1 ;
+ state->CH_Ctrl[22].addr[0] = 138;
+ state->CH_Ctrl[22].bit[0] = 4;
+ state->CH_Ctrl[22].val[0] = 1;
+
+ state->CH_Ctrl[23].Ctrl_Num = OVERRIDE_2 ;
+ state->CH_Ctrl[23].size = 1 ;
+ state->CH_Ctrl[23].addr[0] = 17;
+ state->CH_Ctrl[23].bit[0] = 5;
+ state->CH_Ctrl[23].val[0] = 0;
+
+ state->CH_Ctrl[24].Ctrl_Num = OVERRIDE_3 ;
+ state->CH_Ctrl[24].size = 1 ;
+ state->CH_Ctrl[24].addr[0] = 111;
+ state->CH_Ctrl[24].bit[0] = 3;
+ state->CH_Ctrl[24].val[0] = 0;
+
+ state->CH_Ctrl[25].Ctrl_Num = OVERRIDE_4 ;
+ state->CH_Ctrl[25].size = 1 ;
+ state->CH_Ctrl[25].addr[0] = 112;
+ state->CH_Ctrl[25].bit[0] = 7;
+ state->CH_Ctrl[25].val[0] = 0;
+
+ state->CH_Ctrl[26].Ctrl_Num = SEQ_FSM_PULSE ;
+ state->CH_Ctrl[26].size = 1 ;
+ state->CH_Ctrl[26].addr[0] = 136;
+ state->CH_Ctrl[26].bit[0] = 7;
+ state->CH_Ctrl[26].val[0] = 0;
+
+ state->CH_Ctrl[27].Ctrl_Num = GPIO_4B ;
+ state->CH_Ctrl[27].size = 1 ;
+ state->CH_Ctrl[27].addr[0] = 149;
+ state->CH_Ctrl[27].bit[0] = 7;
+ state->CH_Ctrl[27].val[0] = 0;
+
+ state->CH_Ctrl[28].Ctrl_Num = GPIO_3B ;
+ state->CH_Ctrl[28].size = 1 ;
+ state->CH_Ctrl[28].addr[0] = 149;
+ state->CH_Ctrl[28].bit[0] = 6;
+ state->CH_Ctrl[28].val[0] = 0;
+
+ state->CH_Ctrl[29].Ctrl_Num = GPIO_4 ;
+ state->CH_Ctrl[29].size = 1 ;
+ state->CH_Ctrl[29].addr[0] = 149;
+ state->CH_Ctrl[29].bit[0] = 5;
+ state->CH_Ctrl[29].val[0] = 1;
+
+ state->CH_Ctrl[30].Ctrl_Num = GPIO_3 ;
+ state->CH_Ctrl[30].size = 1 ;
+ state->CH_Ctrl[30].addr[0] = 149;
+ state->CH_Ctrl[30].bit[0] = 4;
+ state->CH_Ctrl[30].val[0] = 1;
+
+ state->CH_Ctrl[31].Ctrl_Num = GPIO_1B ;
+ state->CH_Ctrl[31].size = 1 ;
+ state->CH_Ctrl[31].addr[0] = 149;
+ state->CH_Ctrl[31].bit[0] = 3;
+ state->CH_Ctrl[31].val[0] = 0;
+
+ state->CH_Ctrl[32].Ctrl_Num = DAC_A_ENABLE ;
+ state->CH_Ctrl[32].size = 1 ;
+ state->CH_Ctrl[32].addr[0] = 93;
+ state->CH_Ctrl[32].bit[0] = 1;
+ state->CH_Ctrl[32].val[0] = 0;
+
+ state->CH_Ctrl[33].Ctrl_Num = DAC_B_ENABLE ;
+ state->CH_Ctrl[33].size = 1 ;
+ state->CH_Ctrl[33].addr[0] = 93;
+ state->CH_Ctrl[33].bit[0] = 0;
+ state->CH_Ctrl[33].val[0] = 0;
+
+ state->CH_Ctrl[34].Ctrl_Num = DAC_DIN_A ;
+ state->CH_Ctrl[34].size = 6 ;
+ state->CH_Ctrl[34].addr[0] = 92;
+ state->CH_Ctrl[34].bit[0] = 2;
+ state->CH_Ctrl[34].val[0] = 0;
+ state->CH_Ctrl[34].addr[1] = 92;
+ state->CH_Ctrl[34].bit[1] = 3;
+ state->CH_Ctrl[34].val[1] = 0;
+ state->CH_Ctrl[34].addr[2] = 92;
+ state->CH_Ctrl[34].bit[2] = 4;
+ state->CH_Ctrl[34].val[2] = 0;
+ state->CH_Ctrl[34].addr[3] = 92;
+ state->CH_Ctrl[34].bit[3] = 5;
+ state->CH_Ctrl[34].val[3] = 0;
+ state->CH_Ctrl[34].addr[4] = 92;
+ state->CH_Ctrl[34].bit[4] = 6;
+ state->CH_Ctrl[34].val[4] = 0;
+ state->CH_Ctrl[34].addr[5] = 92;
+ state->CH_Ctrl[34].bit[5] = 7;
+ state->CH_Ctrl[34].val[5] = 0;
+
+ state->CH_Ctrl[35].Ctrl_Num = DAC_DIN_B ;
+ state->CH_Ctrl[35].size = 6 ;
+ state->CH_Ctrl[35].addr[0] = 93;
+ state->CH_Ctrl[35].bit[0] = 2;
+ state->CH_Ctrl[35].val[0] = 0;
+ state->CH_Ctrl[35].addr[1] = 93;
+ state->CH_Ctrl[35].bit[1] = 3;
+ state->CH_Ctrl[35].val[1] = 0;
+ state->CH_Ctrl[35].addr[2] = 93;
+ state->CH_Ctrl[35].bit[2] = 4;
+ state->CH_Ctrl[35].val[2] = 0;
+ state->CH_Ctrl[35].addr[3] = 93;
+ state->CH_Ctrl[35].bit[3] = 5;
+ state->CH_Ctrl[35].val[3] = 0;
+ state->CH_Ctrl[35].addr[4] = 93;
+ state->CH_Ctrl[35].bit[4] = 6;
+ state->CH_Ctrl[35].val[4] = 0;
+ state->CH_Ctrl[35].addr[5] = 93;
+ state->CH_Ctrl[35].bit[5] = 7;
+ state->CH_Ctrl[35].val[5] = 0;
#ifdef _MXL_PRODUCTION
- Tuner->CH_Ctrl[36].Ctrl_Num = RFSYN_EN_DIV ;
- Tuner->CH_Ctrl[36].size = 1 ;
- Tuner->CH_Ctrl[36].addr[0] = 109;
- Tuner->CH_Ctrl[36].bit[0] = 1;
- Tuner->CH_Ctrl[36].val[0] = 1;
-
- Tuner->CH_Ctrl[37].Ctrl_Num = RFSYN_DIVM ;
- Tuner->CH_Ctrl[37].size = 2 ;
- Tuner->CH_Ctrl[37].addr[0] = 112;
- Tuner->CH_Ctrl[37].bit[0] = 5;
- Tuner->CH_Ctrl[37].val[0] = 0;
- Tuner->CH_Ctrl[37].addr[1] = 112;
- Tuner->CH_Ctrl[37].bit[1] = 6;
- Tuner->CH_Ctrl[37].val[1] = 0;
-
- Tuner->CH_Ctrl[38].Ctrl_Num = DN_BYPASS_AGC_I2C ;
- Tuner->CH_Ctrl[38].size = 1 ;
- Tuner->CH_Ctrl[38].addr[0] = 65;
- Tuner->CH_Ctrl[38].bit[0] = 1;
- Tuner->CH_Ctrl[38].val[0] = 0;
+ state->CH_Ctrl[36].Ctrl_Num = RFSYN_EN_DIV ;
+ state->CH_Ctrl[36].size = 1 ;
+ state->CH_Ctrl[36].addr[0] = 109;
+ state->CH_Ctrl[36].bit[0] = 1;
+ state->CH_Ctrl[36].val[0] = 1;
+
+ state->CH_Ctrl[37].Ctrl_Num = RFSYN_DIVM ;
+ state->CH_Ctrl[37].size = 2 ;
+ state->CH_Ctrl[37].addr[0] = 112;
+ state->CH_Ctrl[37].bit[0] = 5;
+ state->CH_Ctrl[37].val[0] = 0;
+ state->CH_Ctrl[37].addr[1] = 112;
+ state->CH_Ctrl[37].bit[1] = 6;
+ state->CH_Ctrl[37].val[1] = 0;
+
+ state->CH_Ctrl[38].Ctrl_Num = DN_BYPASS_AGC_I2C ;
+ state->CH_Ctrl[38].size = 1 ;
+ state->CH_Ctrl[38].addr[0] = 65;
+ state->CH_Ctrl[38].bit[0] = 1;
+ state->CH_Ctrl[38].val[0] = 0;
#endif
return 0 ;
@@ -1832,13 +1681,14 @@ u16 MXL5005_ControlInit(Tuner_struct *Tuner)
// MaxLinear source code - MXL5005_c.cpp
// MXL5005.cpp : Defines the initialization routines for the DLL.
// 2.6.12
-
-void InitTunerControls(Tuner_struct *Tuner)
+// DONE
+void InitTunerControls(struct dvb_frontend *fe)
{
- MXL5005_RegisterInit(Tuner) ;
- MXL5005_ControlInit(Tuner) ;
+ struct mxl5005s_state *state = fe->demodulator_priv;
+ MXL5005_RegisterInit(fe);
+ MXL5005_ControlInit(fe);
#ifdef _MXL_INTERNAL
- MXL5005_MXLControlInit(Tuner) ;
+ MXL5005_MXLControlInit(fe);
#endif
}
@@ -1857,15 +1707,15 @@ void InitTunerControls(Tuner_struct *Tuner)
// Tuner_struct: structure defined at higher level //
// Mode: Tuner Mode (Analog/Digital) //
// IF_Mode: IF Mode ( Zero/Low ) //
-// Bandwidth: Filter Channel Bandwidth (in Hz) //
+// Bandwidth: Filter Channel Bandwidth (in Hz) //
// IF_out: Desired IF out Frequency (in Hz) //
// Fxtal: Crystal Frerquency (in Hz) //
-// TOP: 0: Dual AGC; Value: take over point //
-// IF_OUT_LOAD: IF out load resistor (200/300 Ohms) //
-// CLOCK_OUT: 0: Turn off clock out; 1: turn on clock out //
-// DIV_OUT: 0: Div-1; 1: Div-4 //
-// CAPSELECT: 0: Disable On-chip pulling cap; 1: Enable //
-// EN_RSSI: 0: Disable RSSI; 1: Enable RSSI //
+// TOP: 0: Dual AGC; Value: take over point //
+// IF_OUT_LOAD: IF out load resistor (200/300 Ohms) //
+// CLOCK_OUT: 0: Turn off clock out; 1: turn on clock out //
+// DIV_OUT: 0: Div-1; 1: Div-4 //
+// CAPSELECT: 0: Disable On-chip pulling cap; 1: Enable //
+// EN_RSSI: 0: Disable RSSI; 1: Enable RSSI //
// //
// Outputs: //
// Tuner //
@@ -1875,49 +1725,51 @@ void InitTunerControls(Tuner_struct *Tuner)
// > 0 : Failed //
// //
///////////////////////////////////////////////////////////////////////////////
-u16 MXL5005_TunerConfig(Tuner_struct *Tuner,
- u8 Mode, // 0: Analog Mode ; 1: Digital Mode
- u8 IF_mode, // for Analog Mode, 0: zero IF; 1: low IF
- u32 Bandwidth, // filter channel bandwidth (6, 7, 8)
- u32 IF_out, // Desired IF Out Frequency
- u32 Fxtal, // XTAL Frequency
- u8 AGC_Mode, // AGC Mode - Dual AGC: 0, Single AGC: 1
- u16 TOP, // 0: Dual AGC; Value: take over point
- u16 IF_OUT_LOAD, // IF Out Load Resistor (200 / 300 Ohms)
- u8 CLOCK_OUT, // 0: turn off clock out; 1: turn on clock out
- u8 DIV_OUT, // 0: Div-1; 1: Div-4
- u8 CAPSELECT, // 0: disable On-Chip pulling cap; 1: enable
- u8 EN_RSSI, // 0: disable RSSI; 1: enable RSSI
- u8 Mod_Type, // Modulation Type;
- // 0 - Default; 1 - DVB-T; 2 - ATSC; 3 - QAM; 4 - Analog Cable
- u8 TF_Type // Tracking Filter
- // 0 - Default; 1 - Off; 2 - Type C; 3 - Type C-H
+// DONE
+u16 MXL5005_TunerConfig(struct dvb_frontend *fe,
+ u8 Mode, /* 0: Analog Mode ; 1: Digital Mode */
+ u8 IF_mode, /* for Analog Mode, 0: zero IF; 1: low IF */
+ u32 Bandwidth, /* filter channel bandwidth (6, 7, 8) */
+ u32 IF_out, /* Desired IF Out Frequency */
+ u32 Fxtal, /* XTAL Frequency */
+ u8 AGC_Mode, /* AGC Mode - Dual AGC: 0, Single AGC: 1 */
+ u16 TOP, /* 0: Dual AGC; Value: take over point */
+ u16 IF_OUT_LOAD, /* IF Out Load Resistor (200 / 300 Ohms) */
+ u8 CLOCK_OUT, /* 0: turn off clock out; 1: turn on clock out */
+ u8 DIV_OUT, /* 0: Div-1; 1: Div-4 */
+ u8 CAPSELECT, /* 0: disable On-Chip pulling cap; 1: enable */
+ u8 EN_RSSI, /* 0: disable RSSI; 1: enable RSSI */
+ u8 Mod_Type, /* Modulation Type; */
+ /* 0 - Default; 1 - DVB-T; 2 - ATSC; 3 - QAM; 4 - Analog Cable */
+ u8 TF_Type /* Tracking Filter */
+ /* 0 - Default; 1 - Off; 2 - Type C; 3 - Type C-H */
)
{
- u16 status = 0 ;
+ struct mxl5005s_state *state = fe->demodulator_priv;
+ u16 status = 0;
- Tuner->Mode = Mode ;
- Tuner->IF_Mode = IF_mode ;
- Tuner->Chan_Bandwidth = Bandwidth ;
- Tuner->IF_OUT = IF_out ;
- Tuner->Fxtal = Fxtal ;
- Tuner->AGC_Mode = AGC_Mode ;
- Tuner->TOP = TOP ;
- Tuner->IF_OUT_LOAD = IF_OUT_LOAD ;
- Tuner->CLOCK_OUT = CLOCK_OUT ;
- Tuner->DIV_OUT = DIV_OUT ;
- Tuner->CAPSELECT = CAPSELECT ;
- Tuner->EN_RSSI = EN_RSSI ;
- Tuner->Mod_Type = Mod_Type ;
- Tuner->TF_Type = TF_Type ;
+ state->Mode = Mode;
+ state->IF_Mode = IF_mode;
+ state->Chan_Bandwidth = Bandwidth;
+ state->IF_OUT = IF_out;
+ state->Fxtal = Fxtal;
+ state->AGC_Mode = AGC_Mode;
+ state->TOP = TOP;
+ state->IF_OUT_LOAD = IF_OUT_LOAD;
+ state->CLOCK_OUT = CLOCK_OUT;
+ state->DIV_OUT = DIV_OUT;
+ state->CAPSELECT = CAPSELECT;
+ state->EN_RSSI = EN_RSSI;
+ state->Mod_Type = Mod_Type;
+ state->TF_Type = TF_Type;
/* Initialize all the controls and registers */
- InitTunerControls (Tuner) ;
+ InitTunerControls(fe);
/* Synthesizer LO frequency calculation */
- MXL_SynthIFLO_Calc( Tuner ) ;
+ MXL_SynthIFLO_Calc(fe);
- return status ;
+ return status;
}
///////////////////////////////////////////////////////////////////////////////
@@ -1943,22 +1795,18 @@ u16 MXL5005_TunerConfig(Tuner_struct *Tuner,
// > 0 : Failed //
// //
///////////////////////////////////////////////////////////////////////////////
-void MXL_SynthIFLO_Calc(Tuner_struct *Tuner)
+// DONE
+void MXL_SynthIFLO_Calc(struct dvb_frontend *fe)
{
- if (Tuner->Mode == 1) // Digital Mode
- {
- Tuner->IF_LO = Tuner->IF_OUT ;
- }
- else // Analog Mode
+ struct mxl5005s_state *state = fe->demodulator_priv;
+ if (Tuner->Mode == 1) /* Digital Mode */
+ state->IF_LO = state->IF_OUT;
+ else /* Analog Mode */
{
- if(Tuner->IF_Mode == 0) // Analog Zero IF mode
- {
- Tuner->IF_LO = Tuner->IF_OUT + 400000 ;
- }
- else // Analog Low IF mode
- {
- Tuner->IF_LO = Tuner->IF_OUT + Tuner->Chan_Bandwidth/2 ;
- }
+ if(state->IF_Mode == 0) /* Analog Zero IF mode */
+ state->IF_LO = state->IF_OUT + 400000;
+ else /* Analog Low IF mode */
+ state->IF_LO = state->IF_OUT + state->Chan_Bandwidth/2;
}
}
@@ -1986,25 +1834,22 @@ void MXL_SynthIFLO_Calc(Tuner_struct *Tuner)
// > 0 : Failed //
// //
///////////////////////////////////////////////////////////////////////////////
-void MXL_SynthRFTGLO_Calc(Tuner_struct *Tuner)
+// DONE
+void MXL_SynthRFTGLO_Calc(struct dvb_frontend *fe)
{
- if (Tuner->Mode == 1) // Digital Mode
- {
+ struct mxl5005s_state *state = fe->demodulator_priv;
+
+ if (state->Mode == 1) /* Digital Mode */ {
//remove 20.48MHz setting for 2.6.10
- Tuner->RF_LO = Tuner->RF_IN ;
- Tuner->TG_LO = Tuner->RF_IN - 750000 ; //change for 2.6.6
- }
- else // Analog Mode
- {
- if(Tuner->IF_Mode == 0) // Analog Zero IF mode
- {
- Tuner->RF_LO = Tuner->RF_IN - 400000 ;
- Tuner->TG_LO = Tuner->RF_IN - 1750000 ;
- }
- else // Analog Low IF mode
- {
- Tuner->RF_LO = Tuner->RF_IN - Tuner->Chan_Bandwidth/2 ;
- Tuner->TG_LO = Tuner->RF_IN - Tuner->Chan_Bandwidth + 500000 ;
+ state->RF_LO = state->RF_IN;
+ state->TG_LO = state->RF_IN - 750000; //change for 2.6.6
+ } else /* Analog Mode */ {
+ if(state->IF_Mode == 0) /* Analog Zero IF mode */ {
+ state->RF_LO = state->RF_IN - 400000;
+ state->TG_LO = state->RF_IN - 1750000;
+ } else /* Analog Low IF mode */ {
+ state->RF_LO = state->RF_IN - state->Chan_Bandwidth/2;
+ state->TG_LO = state->RF_IN - state->Chan_Bandwidth + 500000;
}
}
}
@@ -2028,16 +1873,18 @@ void MXL_SynthRFTGLO_Calc(Tuner_struct *Tuner)
// > 0 : Failed //
// //
///////////////////////////////////////////////////////////////////////////////
-u16 MXL_OverwriteICDefault( Tuner_struct *Tuner)
+// DONE
+u16 MXL_OverwriteICDefault(struct dvb_frontend *fe)
{
- u16 status = 0 ;
+ struct mxl5005s_state *state = fe->demodulator_priv;
+ u16 status = 0;
- status += MXL_ControlWrite(Tuner, OVERRIDE_1, 1) ;
- status += MXL_ControlWrite(Tuner, OVERRIDE_2, 1) ;
- status += MXL_ControlWrite(Tuner, OVERRIDE_3, 1) ;
- status += MXL_ControlWrite(Tuner, OVERRIDE_4, 1) ;
+ status += MXL_ControlWrite(fe, OVERRIDE_1, 1);
+ status += MXL_ControlWrite(fe, OVERRIDE_2, 1);
+ status += MXL_ControlWrite(fe, OVERRIDE_3, 1);
+ status += MXL_ControlWrite(fe, OVERRIDE_4, 1);
- return status ;
+ return status;
}
///////////////////////////////////////////////////////////////////////////////
@@ -2065,363 +1912,338 @@ u16 MXL_OverwriteICDefault( Tuner_struct *Tuner)
// > 0 : Failed //
// //
///////////////////////////////////////////////////////////////////////////////
-u16 MXL_BlockInit( Tuner_struct *Tuner )
+// DONE
+u16 MXL_BlockInit(struct dvb_frontend *fe)
{
- u16 status = 0 ;
+ struct mxl5005s_state *state = fe->demodulator_priv;
+ u16 status = 0;
- status += MXL_OverwriteICDefault(Tuner) ;
+ status += MXL_OverwriteICDefault(fe);
- //
- // Downconverter Control
- // Dig Ana
- status += MXL_ControlWrite(Tuner, DN_IQTN_AMP_CUT, Tuner->Mode ? 1 : 0) ;
+ /* Downconverter Control Dig Ana */
+ status += MXL_ControlWrite(fe, DN_IQTN_AMP_CUT, state->Mode ? 1 : 0);
- //
- // Filter Control
- // Dig Ana
- status += MXL_ControlWrite(Tuner, BB_MODE, Tuner->Mode ? 0 : 1) ;
- status += MXL_ControlWrite(Tuner, BB_BUF, Tuner->Mode ? 3 : 2) ;
- status += MXL_ControlWrite(Tuner, BB_BUF_OA, Tuner->Mode ? 1 : 0) ;
-
- status += MXL_ControlWrite(Tuner, BB_IQSWAP, Tuner->Mode ? 0 : 1) ;
- status += MXL_ControlWrite(Tuner, BB_INITSTATE_DLPF_TUNE, 0) ;
-
- // Initialize Low-Pass Filter
- if (Tuner->Mode) { // Digital Mode
- switch (Tuner->Chan_Bandwidth) {
+ /* Filter Control Dig Ana */
+ status += MXL_ControlWrite(fe, BB_MODE, state->Mode ? 0 : 1);
+ status += MXL_ControlWrite(fe, BB_BUF, state->Mode ? 3 : 2);
+ status += MXL_ControlWrite(fe, BB_BUF_OA, state->Mode ? 1 : 0);
+ status += MXL_ControlWrite(fe, BB_IQSWAP, state->Mode ? 0 : 1);
+ status += MXL_ControlWrite(fe, BB_INITSTATE_DLPF_TUNE, 0);
+
+ /* Initialize Low-Pass Filter */
+ if (state->Mode) { /* Digital Mode */
+ switch (state->Chan_Bandwidth) {
case 8000000:
- status += MXL_ControlWrite(Tuner, BB_DLPF_BANDSEL, 0) ;
- break ;
+ status += MXL_ControlWrite(fe, BB_DLPF_BANDSEL, 0);
+ break;
case 7000000:
- status += MXL_ControlWrite(Tuner, BB_DLPF_BANDSEL, 2) ;
- break ;
+ status += MXL_ControlWrite(fe, BB_DLPF_BANDSEL, 2);
+ break;
case 6000000:
- status += MXL_ControlWrite(Tuner, BB_DLPF_BANDSEL, 3) ;
- break ;
- }
- } else { // Analog Mode
- switch (Tuner->Chan_Bandwidth) {
- case 8000000: // Low Zero
- status += MXL_ControlWrite(Tuner, BB_ALPF_BANDSELECT, (Tuner->IF_Mode ? 0 : 3)) ;
- break ;
+ status += MXL_ControlWrite(fe, BB_DLPF_BANDSEL, 3);
+ break;
+ }
+ } else { /* Analog Mode */
+ switch (state->Chan_Bandwidth) {
+ case 8000000: /* Low Zero */
+ status += MXL_ControlWrite(fe, BB_ALPF_BANDSELECT, (state->IF_Mode ? 0 : 3));
+ break;
case 7000000:
- status += MXL_ControlWrite(Tuner, BB_ALPF_BANDSELECT, (Tuner->IF_Mode ? 1 : 4)) ;
- break ;
+ status += MXL_ControlWrite(fe, BB_ALPF_BANDSELECT, (state->IF_Mode ? 1 : 4));
+ break;
case 6000000:
- status += MXL_ControlWrite(Tuner, BB_ALPF_BANDSELECT, (Tuner->IF_Mode ? 2 : 5)) ;
- break ;
+ status += MXL_ControlWrite(fe, BB_ALPF_BANDSELECT, (state->IF_Mode ? 2 : 5));
+ break;
}
}
- //
- // Charge Pump Control
- // Dig Ana
- status += MXL_ControlWrite(Tuner, RFSYN_CHP_GAIN, Tuner->Mode ? 5 : 8) ;
- status += MXL_ControlWrite(Tuner, RFSYN_EN_CHP_HIGAIN, Tuner->Mode ? 1 : 1) ;
- status += MXL_ControlWrite(Tuner, EN_CHP_LIN_B, Tuner->Mode ? 0 : 0) ;
+ /* Charge Pump Control Dig Ana */
+ status += MXL_ControlWrite(fe, RFSYN_CHP_GAIN, state->Mode ? 5 : 8);
+ status += MXL_ControlWrite(fe, RFSYN_EN_CHP_HIGAIN, state->Mode ? 1 : 1);
+ status += MXL_ControlWrite(fe, EN_CHP_LIN_B, state->Mode ? 0 : 0);
- //
- // AGC TOP Control
- //
- if (Tuner->AGC_Mode == 0) // Dual AGC
- {
- status += MXL_ControlWrite(Tuner, AGC_IF, 15) ;
- status += MXL_ControlWrite(Tuner, AGC_RF, 15) ;
+ /* AGC TOP Control */
+ if (state->AGC_Mode == 0) /* Dual AGC */ {
+ status += MXL_ControlWrite(fe, AGC_IF, 15);
+ status += MXL_ControlWrite(fe, AGC_RF, 15);
}
- else // Single AGC Mode Dig Ana
- status += MXL_ControlWrite(Tuner, AGC_RF, Tuner->Mode? 15 : 12) ;
+ else /* Single AGC Mode Dig Ana */
+ status += MXL_ControlWrite(fe, AGC_RF, state->Mode ? 15 : 12);
- if (Tuner->TOP == 55) // TOP == 5.5
- status += MXL_ControlWrite(Tuner, AGC_IF, 0x0) ;
+ if (state->TOP == 55) /* TOP == 5.5 */
+ status += MXL_ControlWrite(fe, AGC_IF, 0x0);
- if (Tuner->TOP == 72) // TOP == 7.2
- status += MXL_ControlWrite(Tuner, AGC_IF, 0x1) ;
+ if (state->TOP == 72) /* TOP == 7.2 */
+ status += MXL_ControlWrite(fe, AGC_IF, 0x1);
- if (Tuner->TOP == 92) // TOP == 9.2
- status += MXL_ControlWrite(Tuner, AGC_IF, 0x2) ;
+ if (state->TOP == 92) /* TOP == 9.2 */
+ status += MXL_ControlWrite(fe, AGC_IF, 0x2);
- if (Tuner->TOP == 110) // TOP == 11.0
- status += MXL_ControlWrite(Tuner, AGC_IF, 0x3) ;
+ if (state->TOP == 110) /* TOP == 11.0 */
+ status += MXL_ControlWrite(fe, AGC_IF, 0x3);
- if (Tuner->TOP == 129) // TOP == 12.9
- status += MXL_ControlWrite(Tuner, AGC_IF, 0x4) ;
+ if (state->TOP == 129) /* TOP == 12.9 */
+ status += MXL_ControlWrite(fe, AGC_IF, 0x4);
- if (Tuner->TOP == 147) // TOP == 14.7
- status += MXL_ControlWrite(Tuner, AGC_IF, 0x5) ;
+ if (state->TOP == 147) /* TOP == 14.7 */
+ status += MXL_ControlWrite(fe, AGC_IF, 0x5);
- if (Tuner->TOP == 168) // TOP == 16.8
- status += MXL_ControlWrite(Tuner, AGC_IF, 0x6) ;
+ if (state->TOP == 168) /* TOP == 16.8 */
+ status += MXL_ControlWrite(fe, AGC_IF, 0x6);
- if (Tuner->TOP == 194) // TOP == 19.4
- status += MXL_ControlWrite(Tuner, AGC_IF, 0x7) ;
+ if (state->TOP == 194) /* TOP == 19.4 */
+ status += MXL_ControlWrite(fe, AGC_IF, 0x7);
- if (Tuner->TOP == 212) // TOP == 21.2
- status += MXL_ControlWrite(Tuner, AGC_IF, 0x9) ;
+ if (state->TOP == 212) /* TOP == 21.2 */
+ status += MXL_ControlWrite(fe, AGC_IF, 0x9);
- if (Tuner->TOP == 232) // TOP == 23.2
- status += MXL_ControlWrite(Tuner, AGC_IF, 0xA) ;
+ if (state->TOP == 232) /* TOP == 23.2 */
+ status += MXL_ControlWrite(fe, AGC_IF, 0xA);
- if (Tuner->TOP == 252) // TOP == 25.2
- status += MXL_ControlWrite(Tuner, AGC_IF, 0xB) ;
+ if (state->TOP == 252) /* TOP == 25.2 */
+ status += MXL_ControlWrite(fe, AGC_IF, 0xB);
- if (Tuner->TOP == 271) // TOP == 27.1
- status += MXL_ControlWrite(Tuner, AGC_IF, 0xC) ;
+ if (state->TOP == 271) /* TOP == 27.1 */
+ status += MXL_ControlWrite(fe, AGC_IF, 0xC);
- if (Tuner->TOP == 292) // TOP == 29.2
- status += MXL_ControlWrite(Tuner, AGC_IF, 0xD) ;
+ if (state->TOP == 292) /* TOP == 29.2 */
+ status += MXL_ControlWrite(fe, AGC_IF, 0xD);
- if (Tuner->TOP == 317) // TOP == 31.7
- status += MXL_ControlWrite(Tuner, AGC_IF, 0xE) ;
+ if (state->TOP == 317) /* TOP == 31.7 */
+ status += MXL_ControlWrite(fe, AGC_IF, 0xE);
- if (Tuner->TOP == 349) // TOP == 34.9
- status += MXL_ControlWrite(Tuner, AGC_IF, 0xF) ;
+ if (state->TOP == 349) /* TOP == 34.9 */
+ status += MXL_ControlWrite(fe, AGC_IF, 0xF);
- //
- // IF Synthesizer Control
- //
- status += MXL_IFSynthInit( Tuner ) ;
+ /* IF Synthesizer Control */
+ status += MXL_IFSynthInit(fe);
- //
- // IF UpConverter Control
- if (Tuner->IF_OUT_LOAD == 200)
- {
- status += MXL_ControlWrite(Tuner, DRV_RES_SEL, 6) ;
- status += MXL_ControlWrite(Tuner, I_DRIVER, 2) ;
+ /* IF UpConverter Control */
+ if (state->IF_OUT_LOAD == 200) {
+ status += MXL_ControlWrite(fe, DRV_RES_SEL, 6);
+ status += MXL_ControlWrite(fe, I_DRIVER, 2);
}
- if (Tuner->IF_OUT_LOAD == 300)
- {
- status += MXL_ControlWrite(Tuner, DRV_RES_SEL, 4) ;
- status += MXL_ControlWrite(Tuner, I_DRIVER, 1) ;
+ if (state->IF_OUT_LOAD == 300) {
+ status += MXL_ControlWrite(fe, DRV_RES_SEL, 4);
+ status += MXL_ControlWrite(fe, I_DRIVER, 1);
}
- //
- // Anti-Alias Filtering Control
- //
- // initialise Anti-Aliasing Filter
- if (Tuner->Mode) {// Digital Mode
- if (Tuner->IF_OUT >= 4000000UL && Tuner->IF_OUT <= 6280000UL) {
- status += MXL_ControlWrite(Tuner, EN_AAF, 1) ;
- status += MXL_ControlWrite(Tuner, EN_3P, 1) ;
- status += MXL_ControlWrite(Tuner, EN_AUX_3P, 1) ;
- status += MXL_ControlWrite(Tuner, SEL_AAF_BAND, 0) ;
- }
- if ((Tuner->IF_OUT == 36125000UL) || (Tuner->IF_OUT == 36150000UL)) {
- status += MXL_ControlWrite(Tuner, EN_AAF, 1) ;
- status += MXL_ControlWrite(Tuner, EN_3P, 1) ;
- status += MXL_ControlWrite(Tuner, EN_AUX_3P, 1) ;
- status += MXL_ControlWrite(Tuner, SEL_AAF_BAND, 1) ;
- }
- if (Tuner->IF_OUT > 36150000UL) {
- status += MXL_ControlWrite(Tuner, EN_AAF, 0) ;
- status += MXL_ControlWrite(Tuner, EN_3P, 1) ;
- status += MXL_ControlWrite(Tuner, EN_AUX_3P, 1) ;
- status += MXL_ControlWrite(Tuner, SEL_AAF_BAND, 1) ;
- }
- } else { // Analog Mode
- if (Tuner->IF_OUT >= 4000000UL && Tuner->IF_OUT <= 5000000UL)
+ /* Anti-Alias Filtering Control
+ * initialise Anti-Aliasing Filter
+ */
+ if (state->Mode) { /* Digital Mode */
+ if (state->IF_OUT >= 4000000UL && state->IF_OUT <= 6280000UL) {
+ status += MXL_ControlWrite(fe, EN_AAF, 1);
+ status += MXL_ControlWrite(fe, EN_3P, 1);
+ status += MXL_ControlWrite(fe, EN_AUX_3P, 1);
+ status += MXL_ControlWrite(fe, SEL_AAF_BAND, 0);
+ }
+ if ((state->IF_OUT == 36125000UL) || (state->IF_OUT == 36150000UL)) {
+ status += MXL_ControlWrite(fe, EN_AAF, 1);
+ status += MXL_ControlWrite(fe, EN_3P, 1);
+ status += MXL_ControlWrite(fe, EN_AUX_3P, 1);
+ status += MXL_ControlWrite(fe, SEL_AAF_BAND, 1);
+ }
+ if (state->IF_OUT > 36150000UL) {
+ status += MXL_ControlWrite(fe, EN_AAF, 0);
+ status += MXL_ControlWrite(fe, EN_3P, 1);
+ status += MXL_ControlWrite(fe, EN_AUX_3P, 1);
+ status += MXL_ControlWrite(fe, SEL_AAF_BAND, 1);
+ }
+ } else { /* Analog Mode */
+ if (state->IF_OUT >= 4000000UL && state->IF_OUT <= 5000000UL)
{
- status += MXL_ControlWrite(Tuner, EN_AAF, 1) ;
- status += MXL_ControlWrite(Tuner, EN_3P, 1) ;
- status += MXL_ControlWrite(Tuner, EN_AUX_3P, 1) ;
- status += MXL_ControlWrite(Tuner, SEL_AAF_BAND, 0) ;
+ status += MXL_ControlWrite(fe, EN_AAF, 1);
+ status += MXL_ControlWrite(fe, EN_3P, 1);
+ status += MXL_ControlWrite(fe, EN_AUX_3P, 1);
+ status += MXL_ControlWrite(fe, SEL_AAF_BAND, 0);
}
- if (Tuner->IF_OUT > 5000000UL)
+ if (state->IF_OUT > 5000000UL)
{
- status += MXL_ControlWrite(Tuner, EN_AAF, 0) ;
- status += MXL_ControlWrite(Tuner, EN_3P, 0) ;
- status += MXL_ControlWrite(Tuner, EN_AUX_3P, 0) ;
- status += MXL_ControlWrite(Tuner, SEL_AAF_BAND, 0) ;
+ status += MXL_ControlWrite(fe, EN_AAF, 0);
+ status += MXL_ControlWrite(fe, EN_3P, 0);
+ status += MXL_ControlWrite(fe, EN_AUX_3P, 0);
+ status += MXL_ControlWrite(fe, SEL_AAF_BAND, 0);
}
}
- //
- // Demod Clock Out
- //
- if (Tuner->CLOCK_OUT)
- status += MXL_ControlWrite(Tuner, SEQ_ENCLK16_CLK_OUT, 1) ;
+ /* Demod Clock Out */
+ if (state->CLOCK_OUT)
+ status += MXL_ControlWrite(fe, SEQ_ENCLK16_CLK_OUT, 1);
else
- status += MXL_ControlWrite(Tuner, SEQ_ENCLK16_CLK_OUT, 0) ;
+ status += MXL_ControlWrite(fe, SEQ_ENCLK16_CLK_OUT, 0);
- if (Tuner->DIV_OUT == 1)
- status += MXL_ControlWrite(Tuner, SEQ_SEL4_16B, 1) ;
- if (Tuner->DIV_OUT == 0)
- status += MXL_ControlWrite(Tuner, SEQ_SEL4_16B, 0) ;
+ if (state->DIV_OUT == 1)
+ status += MXL_ControlWrite(fe, SEQ_SEL4_16B, 1);
+ if (state->DIV_OUT == 0)
+ status += MXL_ControlWrite(fe, SEQ_SEL4_16B, 0);
- //
- // Crystal Control
- //
- if (Tuner->CAPSELECT)
- status += MXL_ControlWrite(Tuner, XTAL_CAPSELECT, 1) ;
+ /* Crystal Control */
+ if (state->CAPSELECT)
+ status += MXL_ControlWrite(fe, XTAL_CAPSELECT, 1);
else
- status += MXL_ControlWrite(Tuner, XTAL_CAPSELECT, 0) ;
+ status += MXL_ControlWrite(fe, XTAL_CAPSELECT, 0);
- if (Tuner->Fxtal >= 12000000UL && Tuner->Fxtal <= 16000000UL)
- status += MXL_ControlWrite(Tuner, IF_SEL_DBL, 1) ;
- if (Tuner->Fxtal > 16000000UL && Tuner->Fxtal <= 32000000UL)
- status += MXL_ControlWrite(Tuner, IF_SEL_DBL, 0) ;
+ if (state->Fxtal >= 12000000UL && state->Fxtal <= 16000000UL)
+ status += MXL_ControlWrite(fe, IF_SEL_DBL, 1);
+ if (state->Fxtal > 16000000UL && state->Fxtal <= 32000000UL)
+ status += MXL_ControlWrite(fe, IF_SEL_DBL, 0);
- if (Tuner->Fxtal >= 12000000UL && Tuner->Fxtal <= 22000000UL)
- status += MXL_ControlWrite(Tuner, RFSYN_R_DIV, 3) ;
- if (Tuner->Fxtal > 22000000UL && Tuner->Fxtal <= 32000000UL)
- status += MXL_ControlWrite(Tuner, RFSYN_R_DIV, 0) ;
+ if (state->Fxtal >= 12000000UL && state->Fxtal <= 22000000UL)
+ status += MXL_ControlWrite(fe, RFSYN_R_DIV, 3);
+ if (state->Fxtal > 22000000UL && state->Fxtal <= 32000000UL)
+ status += MXL_ControlWrite(fe, RFSYN_R_DIV, 0);
- //
- // Misc Controls
- //
- if (Tuner->Mode == 0 && Tuner->IF_Mode == 1) // Analog LowIF mode
- status += MXL_ControlWrite(Tuner, SEQ_EXTIQFSMPULSE, 0);
+ /* Misc Controls */
+ if (state->Mode == 0 && Tuner->IF_Mode == 1) /* Analog LowIF mode */
+ status += MXL_ControlWrite(fe, SEQ_EXTIQFSMPULSE, 0);
else
- status += MXL_ControlWrite(Tuner, SEQ_EXTIQFSMPULSE, 1);
+ status += MXL_ControlWrite(fe, SEQ_EXTIQFSMPULSE, 1);
-// status += MXL_ControlRead(Tuner, IF_DIVVAL, &IF_DIVVAL_Val) ;
+ /* status += MXL_ControlRead(fe, IF_DIVVAL, &IF_DIVVAL_Val); */
- // Set TG_R_DIV
- status += MXL_ControlWrite(Tuner, TG_R_DIV, MXL_Ceiling(Tuner->Fxtal, 1000000)) ;
+ /* Set TG_R_DIV */
+ status += MXL_ControlWrite(fe, TG_R_DIV, MXL_Ceiling(state->Fxtal, 1000000));
- //
- // Apply Default value to BB_INITSTATE_DLPF_TUNE
- //
+ /* Apply Default value to BB_INITSTATE_DLPF_TUNE */
- //
- // RSSI Control
- //
- if(Tuner->EN_RSSI)
+ /* RSSI Control */
+ if (state->EN_RSSI)
{
- status += MXL_ControlWrite(Tuner, SEQ_EXTSYNTHCALIF, 1) ;
- status += MXL_ControlWrite(Tuner, SEQ_EXTDCCAL, 1) ;
- status += MXL_ControlWrite(Tuner, AGC_EN_RSSI, 1) ;
- status += MXL_ControlWrite(Tuner, RFA_ENCLKRFAGC, 1) ;
- // RSSI reference point
- status += MXL_ControlWrite(Tuner, RFA_RSSI_REF, 2) ;
- status += MXL_ControlWrite(Tuner, RFA_RSSI_REFH, 3) ;
- status += MXL_ControlWrite(Tuner, RFA_RSSI_REFL, 1) ;
- // TOP point
- status += MXL_ControlWrite(Tuner, RFA_FLR, 0) ;
- status += MXL_ControlWrite(Tuner, RFA_CEIL, 12) ;
+ status += MXL_ControlWrite(fe, SEQ_EXTSYNTHCALIF, 1);
+ status += MXL_ControlWrite(fe, SEQ_EXTDCCAL, 1);
+ status += MXL_ControlWrite(fe, AGC_EN_RSSI, 1);
+ status += MXL_ControlWrite(fe, RFA_ENCLKRFAGC, 1);
+
+ /* RSSI reference point */
+ status += MXL_ControlWrite(fe, RFA_RSSI_REF, 2);
+ status += MXL_ControlWrite(fe, RFA_RSSI_REFH, 3);
+ status += MXL_ControlWrite(fe, RFA_RSSI_REFL, 1);
+
+ /* TOP point */
+ status += MXL_ControlWrite(fe, RFA_FLR, 0);
+ status += MXL_ControlWrite(fe, RFA_CEIL, 12);
}
- //
- // Modulation type bit settings
- // Override the control values preset
- //
- if (Tuner->Mod_Type == MXL_DVBT) // DVB-T Mode
+ /* Modulation type bit settings
+ * Override the control values preset
+ */
+ if (state->Mod_Type == MXL_DVBT) /* DVB-T Mode */
{
- Tuner->AGC_Mode = 1 ; // Single AGC Mode
-
- // Enable RSSI
- status += MXL_ControlWrite(Tuner, SEQ_EXTSYNTHCALIF, 1) ;
- status += MXL_ControlWrite(Tuner, SEQ_EXTDCCAL, 1) ;
- status += MXL_ControlWrite(Tuner, AGC_EN_RSSI, 1) ;
- status += MXL_ControlWrite(Tuner, RFA_ENCLKRFAGC, 1) ;
- // RSSI reference point
- status += MXL_ControlWrite(Tuner, RFA_RSSI_REF, 3) ;
- status += MXL_ControlWrite(Tuner, RFA_RSSI_REFH, 5) ;
- status += MXL_ControlWrite(Tuner, RFA_RSSI_REFL, 1) ;
- // TOP point
- status += MXL_ControlWrite(Tuner, RFA_FLR, 2) ;
- status += MXL_ControlWrite(Tuner, RFA_CEIL, 13) ;
- if (Tuner->IF_OUT <= 6280000UL) // Low IF
- status += MXL_ControlWrite(Tuner, BB_IQSWAP, 0) ;
- else // High IF
- status += MXL_ControlWrite(Tuner, BB_IQSWAP, 1) ;
+ state->AGC_Mode = 1; /* Single AGC Mode */
+
+ /* Enable RSSI */
+ status += MXL_ControlWrite(fe, SEQ_EXTSYNTHCALIF, 1);
+ status += MXL_ControlWrite(fe, SEQ_EXTDCCAL, 1);
+ status += MXL_ControlWrite(fe, AGC_EN_RSSI, 1);
+ status += MXL_ControlWrite(fe, RFA_ENCLKRFAGC, 1);
+
+ /* RSSI reference point */
+ status += MXL_ControlWrite(fe, RFA_RSSI_REF, 3);
+ status += MXL_ControlWrite(fe, RFA_RSSI_REFH, 5);
+ status += MXL_ControlWrite(fe, RFA_RSSI_REFL, 1);
+
+ /* TOP point */
+ status += MXL_ControlWrite(fe, RFA_FLR, 2);
+ status += MXL_ControlWrite(fe, RFA_CEIL, 13);
+ if (state->IF_OUT <= 6280000UL) /* Low IF */
+ status += MXL_ControlWrite(fe, BB_IQSWAP, 0);
+ else /* High IF */
+ status += MXL_ControlWrite(fe, BB_IQSWAP, 1);
}
- if (Tuner->Mod_Type == MXL_ATSC) // ATSC Mode
+ if (state->Mod_Type == MXL_ATSC) /* ATSC Mode */
{
- Tuner->AGC_Mode = 1 ; // Single AGC Mode
-
- // Enable RSSI
- status += MXL_ControlWrite(Tuner, SEQ_EXTSYNTHCALIF, 1) ;
- status += MXL_ControlWrite(Tuner, SEQ_EXTDCCAL, 1) ;
- status += MXL_ControlWrite(Tuner, AGC_EN_RSSI, 1) ;
- status += MXL_ControlWrite(Tuner, RFA_ENCLKRFAGC, 1) ;
- // RSSI reference point
- status += MXL_ControlWrite(Tuner, RFA_RSSI_REF, 2) ;
- status += MXL_ControlWrite(Tuner, RFA_RSSI_REFH, 4) ;
- status += MXL_ControlWrite(Tuner, RFA_RSSI_REFL, 1) ;
- // TOP point
- status += MXL_ControlWrite(Tuner, RFA_FLR, 2) ;
- status += MXL_ControlWrite(Tuner, RFA_CEIL, 13) ;
-
- status += MXL_ControlWrite(Tuner, BB_INITSTATE_DLPF_TUNE, 1) ;
- status += MXL_ControlWrite(Tuner, RFSYN_CHP_GAIN, 5) ; // Low Zero
- if (Tuner->IF_OUT <= 6280000UL) // Low IF
- status += MXL_ControlWrite(Tuner, BB_IQSWAP, 0) ;
- else // High IF
- status += MXL_ControlWrite(Tuner, BB_IQSWAP, 1) ;
+ Tuner->AGC_Mode = 1; /* Single AGC Mode */
+
+ /* Enable RSSI */
+ status += MXL_ControlWrite(fe, SEQ_EXTSYNTHCALIF, 1);
+ status += MXL_ControlWrite(fe, SEQ_EXTDCCAL, 1);
+ status += MXL_ControlWrite(fe, AGC_EN_RSSI, 1);
+ status += MXL_ControlWrite(fe, RFA_ENCLKRFAGC, 1);
+
+ /* RSSI reference point */
+ status += MXL_ControlWrite(fe, RFA_RSSI_REF, 2);
+ status += MXL_ControlWrite(fe, RFA_RSSI_REFH, 4);
+ status += MXL_ControlWrite(fe, RFA_RSSI_REFL, 1);
+
+ /* TOP point */
+ status += MXL_ControlWrite(fe, RFA_FLR, 2);
+ status += MXL_ControlWrite(fe, RFA_CEIL, 13);
+ status += MXL_ControlWrite(fe, BB_INITSTATE_DLPF_TUNE, 1);
+ status += MXL_ControlWrite(fe, RFSYN_CHP_GAIN, 5); /* Low Zero */
+ if (state->IF_OUT <= 6280000UL) /* Low IF */
+ status += MXL_ControlWrite(fe, BB_IQSWAP, 0);
+ else /* High IF */
+ status += MXL_ControlWrite(fe, BB_IQSWAP, 1);
}
- if (Tuner->Mod_Type == MXL_QAM) // QAM Mode
+ if (state->Mod_Type == MXL_QAM) /* QAM Mode */
{
- Tuner->Mode = MXL_DIGITAL_MODE;
-
- //Tuner->AGC_Mode = 1 ; // Single AGC Mode
-
- // Disable RSSI //change here for v2.6.5
- status += MXL_ControlWrite(Tuner, SEQ_EXTSYNTHCALIF, 1) ;
- status += MXL_ControlWrite(Tuner, SEQ_EXTDCCAL, 1) ;
- status += MXL_ControlWrite(Tuner, AGC_EN_RSSI, 0) ;
- status += MXL_ControlWrite(Tuner, RFA_ENCLKRFAGC, 1) ;
-
- // RSSI reference point
- status += MXL_ControlWrite(Tuner, RFA_RSSI_REFH, 5) ;
- status += MXL_ControlWrite(Tuner, RFA_RSSI_REF, 3) ;
- status += MXL_ControlWrite(Tuner, RFA_RSSI_REFL, 2) ;
-
- status += MXL_ControlWrite(Tuner, RFSYN_CHP_GAIN, 3) ; //change here for v2.6.5
-
- if (Tuner->IF_OUT <= 6280000UL) // Low IF
- status += MXL_ControlWrite(Tuner, BB_IQSWAP, 0) ;
- else // High IF
- status += MXL_ControlWrite(Tuner, BB_IQSWAP, 1) ;
+ state->Mode = MXL_DIGITAL_MODE;
+
+ /* state->AGC_Mode = 1; */ /* Single AGC Mode */
+
+ /* Disable RSSI */ /* change here for v2.6.5 */
+ status += MXL_ControlWrite(fe, SEQ_EXTSYNTHCALIF, 1);
+ status += MXL_ControlWrite(fe, SEQ_EXTDCCAL, 1);
+ status += MXL_ControlWrite(fe, AGC_EN_RSSI, 0);
+ status += MXL_ControlWrite(fe, RFA_ENCLKRFAGC, 1);
+
+ /* RSSI reference point */
+ status += MXL_ControlWrite(fe, RFA_RSSI_REFH, 5);
+ status += MXL_ControlWrite(fe, RFA_RSSI_REF, 3);
+ status += MXL_ControlWrite(fe, RFA_RSSI_REFL, 2);
+ status += MXL_ControlWrite(fe, RFSYN_CHP_GAIN, 3); /* change here for v2.6.5 */
+
+ if (state->IF_OUT <= 6280000UL) /* Low IF */
+ status += MXL_ControlWrite(fe, BB_IQSWAP, 0);
+ else /* High IF */
+ status += MXL_ControlWrite(fe, BB_IQSWAP, 1);
}
- if (Tuner->Mod_Type == MXL_ANALOG_CABLE) // Analog Cable Mode
- {
- //Tuner->Mode = MXL_DIGITAL_MODE ;
- Tuner->AGC_Mode = 1 ; // Single AGC Mode
-
- // Disable RSSI
- status += MXL_ControlWrite(Tuner, SEQ_EXTSYNTHCALIF, 1) ;
- status += MXL_ControlWrite(Tuner, SEQ_EXTDCCAL, 1) ;
- status += MXL_ControlWrite(Tuner, AGC_EN_RSSI, 0) ;
- status += MXL_ControlWrite(Tuner, RFA_ENCLKRFAGC, 1) ;
-
- status += MXL_ControlWrite(Tuner, AGC_IF, 1) ; //change for 2.6.3
- status += MXL_ControlWrite(Tuner, AGC_RF, 15) ;
-
- status += MXL_ControlWrite(Tuner, BB_IQSWAP, 1) ;
+ if (state->Mod_Type == MXL_ANALOG_CABLE) {
+ /* Analog Cable Mode */
+ /* Tuner->Mode = MXL_DIGITAL_MODE; */
+
+ state->AGC_Mode = 1; /* Single AGC Mode */
+
+ /* Disable RSSI */
+ status += MXL_ControlWrite(fe, SEQ_EXTSYNTHCALIF, 1);
+ status += MXL_ControlWrite(fe, SEQ_EXTDCCAL, 1);
+ status += MXL_ControlWrite(fe, AGC_EN_RSSI, 0);
+ status += MXL_ControlWrite(fe, RFA_ENCLKRFAGC, 1);
+ status += MXL_ControlWrite(fe, AGC_IF, 1); /* change for 2.6.3 */
+ status += MXL_ControlWrite(fe, AGC_RF, 15);
+ status += MXL_ControlWrite(fe, BB_IQSWAP, 1);
}
- if (Tuner->Mod_Type == MXL_ANALOG_OTA) //Analog OTA Terrestrial mode add for 2.6.7
- {
- //Tuner->Mode = MXL_ANALOG_MODE;
-
- // Enable RSSI
- status += MXL_ControlWrite(Tuner, SEQ_EXTSYNTHCALIF, 1) ;
- status += MXL_ControlWrite(Tuner, SEQ_EXTDCCAL, 1) ;
- status += MXL_ControlWrite(Tuner, AGC_EN_RSSI, 1) ;
- status += MXL_ControlWrite(Tuner, RFA_ENCLKRFAGC, 1) ;
-
- // RSSI reference point
- status += MXL_ControlWrite(Tuner, RFA_RSSI_REFH, 5) ;
- status += MXL_ControlWrite(Tuner, RFA_RSSI_REF, 3) ;
- status += MXL_ControlWrite(Tuner, RFA_RSSI_REFL, 2) ;
-
- status += MXL_ControlWrite(Tuner, RFSYN_CHP_GAIN, 3) ;
-
- status += MXL_ControlWrite(Tuner, BB_IQSWAP, 1) ;
+ if (state->Mod_Type == MXL_ANALOG_OTA) {
+ /* Analog OTA Terrestrial mode add for 2.6.7 */
+ /* state->Mode = MXL_ANALOG_MODE; */
+
+ /* Enable RSSI */
+ status += MXL_ControlWrite(fe, SEQ_EXTSYNTHCALIF, 1);
+ status += MXL_ControlWrite(fe, SEQ_EXTDCCAL, 1);
+ status += MXL_ControlWrite(fe, AGC_EN_RSSI, 1);
+ status += MXL_ControlWrite(fe, RFA_ENCLKRFAGC, 1);
+
+ /* RSSI reference point */
+ status += MXL_ControlWrite(fe, RFA_RSSI_REFH, 5);
+ status += MXL_ControlWrite(fe, RFA_RSSI_REF, 3);
+ status += MXL_ControlWrite(fe, RFA_RSSI_REFL, 2);
+ status += MXL_ControlWrite(fe, RFSYN_CHP_GAIN, 3);
+ status += MXL_ControlWrite(fe, BB_IQSWAP, 1);
}
- // RSSI disable
- if(Tuner->EN_RSSI==0)
- {
- status += MXL_ControlWrite(Tuner, SEQ_EXTSYNTHCALIF, 1) ;
- status += MXL_ControlWrite(Tuner, SEQ_EXTDCCAL, 1) ;
- status += MXL_ControlWrite(Tuner, AGC_EN_RSSI, 0) ;
- status += MXL_ControlWrite(Tuner, RFA_ENCLKRFAGC, 1) ;
+ /* RSSI disable */
+ if(state->EN_RSSI==0) {
+ status += MXL_ControlWrite(fe, SEQ_EXTSYNTHCALIF, 1);
+ status += MXL_ControlWrite(fe, SEQ_EXTDCCAL, 1);
+ status += MXL_ControlWrite(fe, AGC_EN_RSSI, 0);
+ status += MXL_ControlWrite(fe, RFA_ENCLKRFAGC, 1);
}
- return status ;
+ return status;
}
///////////////////////////////////////////////////////////////////////////////
@@ -2456,9 +2278,9 @@ u16 MXL_IFSynthInit(Tuner_struct * Tuner)
u32 fracModVal ;
Kdbl = 2 ;
- if (Tuner->Fxtal >= 12000000UL && Tuner->Fxtal <= 16000000UL)
+ if (state->Fxtal >= 12000000UL && state->Fxtal <= 16000000UL)
Kdbl = 2 ;
- if (Tuner->Fxtal > 16000000UL && Tuner->Fxtal <= 32000000UL)
+ if (state->Fxtal > 16000000UL && state->Fxtal <= 32000000UL)
Kdbl = 1 ;
//
@@ -2467,43 +2289,43 @@ u16 MXL_IFSynthInit(Tuner_struct * Tuner)
if (Tuner->Mode == 0 && Tuner->IF_Mode == 1) // Analog Low IF mode
{
if (Tuner->IF_LO == 41000000UL) {
- status += MXL_ControlWrite(Tuner, IF_DIVVAL, 0x08) ;
- status += MXL_ControlWrite(Tuner, IF_VCO_BIAS, 0x0C) ;
+ status += MXL_ControlWrite(fe, IF_DIVVAL, 0x08) ;
+ status += MXL_ControlWrite(fe, IF_VCO_BIAS, 0x0C) ;
Fref = 328000000UL ;
}
if (Tuner->IF_LO == 47000000UL) {
- status += MXL_ControlWrite(Tuner, IF_DIVVAL, 0x08) ;
- status += MXL_ControlWrite(Tuner, IF_VCO_BIAS, 0x08) ;
+ status += MXL_ControlWrite(fe, IF_DIVVAL, 0x08) ;
+ status += MXL_ControlWrite(fe, IF_VCO_BIAS, 0x08) ;
Fref = 376000000UL ;
}
if (Tuner->IF_LO == 54000000UL) {
- status += MXL_ControlWrite(Tuner, IF_DIVVAL, 0x10) ;
- status += MXL_ControlWrite(Tuner, IF_VCO_BIAS, 0x0C) ;
+ status += MXL_ControlWrite(fe, IF_DIVVAL, 0x10) ;
+ status += MXL_ControlWrite(fe, IF_VCO_BIAS, 0x0C) ;
Fref = 324000000UL ;
}
if (Tuner->IF_LO == 60000000UL) {
- status += MXL_ControlWrite(Tuner, IF_DIVVAL, 0x10) ;
- status += MXL_ControlWrite(Tuner, IF_VCO_BIAS, 0x08) ;
+ status += MXL_ControlWrite(fe, IF_DIVVAL, 0x10) ;
+ status += MXL_ControlWrite(fe, IF_VCO_BIAS, 0x08) ;
Fref = 360000000UL ;
}
if (Tuner->IF_LO == 39250000UL) {
- status += MXL_ControlWrite(Tuner, IF_DIVVAL, 0x08) ;
- status += MXL_ControlWrite(Tuner, IF_VCO_BIAS, 0x0C) ;
+ status += MXL_ControlWrite(fe, IF_DIVVAL, 0x08) ;
+ status += MXL_ControlWrite(fe, IF_VCO_BIAS, 0x0C) ;
Fref = 314000000UL ;
}
if (Tuner->IF_LO == 39650000UL) {
- status += MXL_ControlWrite(Tuner, IF_DIVVAL, 0x08) ;
- status += MXL_ControlWrite(Tuner, IF_VCO_BIAS, 0x0C) ;
+ status += MXL_ControlWrite(fe, IF_DIVVAL, 0x08) ;
+ status += MXL_ControlWrite(fe, IF_VCO_BIAS, 0x0C) ;
Fref = 317200000UL ;
}
if (Tuner->IF_LO == 40150000UL) {
- status += MXL_ControlWrite(Tuner, IF_DIVVAL, 0x08) ;
- status += MXL_ControlWrite(Tuner, IF_VCO_BIAS, 0x0C) ;
+ status += MXL_ControlWrite(fe, IF_DIVVAL, 0x08) ;
+ status += MXL_ControlWrite(fe, IF_VCO_BIAS, 0x0C) ;
Fref = 321200000UL ;
}
if (Tuner->IF_LO == 40650000UL) {
- status += MXL_ControlWrite(Tuner, IF_DIVVAL, 0x08) ;
- status += MXL_ControlWrite(Tuner, IF_VCO_BIAS, 0x0C) ;
+ status += MXL_ControlWrite(fe, IF_DIVVAL, 0x08) ;
+ status += MXL_ControlWrite(fe, IF_VCO_BIAS, 0x0C) ;
Fref = 325200000UL ;
}
}
@@ -2511,153 +2333,153 @@ u16 MXL_IFSynthInit(Tuner_struct * Tuner)
if (Tuner->Mode || (Tuner->Mode == 0 && Tuner->IF_Mode == 0))
{
if (Tuner->IF_LO == 57000000UL) {
- status += MXL_ControlWrite(Tuner, IF_DIVVAL, 0x10) ;
- status += MXL_ControlWrite(Tuner, IF_VCO_BIAS, 0x08) ;
+ status += MXL_ControlWrite(fe, IF_DIVVAL, 0x10) ;
+ status += MXL_ControlWrite(fe, IF_VCO_BIAS, 0x08) ;
Fref = 342000000UL ;
}
if (Tuner->IF_LO == 44000000UL) {
- status += MXL_ControlWrite(Tuner, IF_DIVVAL, 0x08) ;
- status += MXL_ControlWrite(Tuner, IF_VCO_BIAS, 0x08) ;
+ status += MXL_ControlWrite(fe, IF_DIVVAL, 0x08) ;
+ status += MXL_ControlWrite(fe, IF_VCO_BIAS, 0x08) ;
Fref = 352000000UL ;
}
if (Tuner->IF_LO == 43750000UL) {
- status += MXL_ControlWrite(Tuner, IF_DIVVAL, 0x08) ;
- status += MXL_ControlWrite(Tuner, IF_VCO_BIAS, 0x08) ;
+ status += MXL_ControlWrite(fe, IF_DIVVAL, 0x08) ;
+ status += MXL_ControlWrite(fe, IF_VCO_BIAS, 0x08) ;
Fref = 350000000UL ;
}
if (Tuner->IF_LO == 36650000UL) {
- status += MXL_ControlWrite(Tuner, IF_DIVVAL, 0x04) ;
- status += MXL_ControlWrite(Tuner, IF_VCO_BIAS, 0x08) ;
+ status += MXL_ControlWrite(fe, IF_DIVVAL, 0x04) ;
+ status += MXL_ControlWrite(fe, IF_VCO_BIAS, 0x08) ;
Fref = 366500000UL ;
}
if (Tuner->IF_LO == 36150000UL) {
- status += MXL_ControlWrite(Tuner, IF_DIVVAL, 0x04) ;
- status += MXL_ControlWrite(Tuner, IF_VCO_BIAS, 0x08) ;
+ status += MXL_ControlWrite(fe, IF_DIVVAL, 0x04) ;
+ status += MXL_ControlWrite(fe, IF_VCO_BIAS, 0x08) ;
Fref = 361500000UL ;
}
if (Tuner->IF_LO == 36000000UL) {
- status += MXL_ControlWrite(Tuner, IF_DIVVAL, 0x04) ;
- status += MXL_ControlWrite(Tuner, IF_VCO_BIAS, 0x08) ;
+ status += MXL_ControlWrite(fe, IF_DIVVAL, 0x04) ;
+ status += MXL_ControlWrite(fe, IF_VCO_BIAS, 0x08) ;
Fref = 360000000UL ;
}
if (Tuner->IF_LO == 35250000UL) {
- status += MXL_ControlWrite(Tuner, IF_DIVVAL, 0x04) ;
- status += MXL_ControlWrite(Tuner, IF_VCO_BIAS, 0x08) ;
+ status += MXL_ControlWrite(fe, IF_DIVVAL, 0x04) ;
+ status += MXL_ControlWrite(fe, IF_VCO_BIAS, 0x08) ;
Fref = 352500000UL ;
}
if (Tuner->IF_LO == 34750000UL) {
- status += MXL_ControlWrite(Tuner, IF_DIVVAL, 0x04) ;
- status += MXL_ControlWrite(Tuner, IF_VCO_BIAS, 0x08) ;
+ status += MXL_ControlWrite(fe, IF_DIVVAL, 0x04) ;
+ status += MXL_ControlWrite(fe, IF_VCO_BIAS, 0x08) ;
Fref = 347500000UL ;
}
if (Tuner->IF_LO == 6280000UL) {
- status += MXL_ControlWrite(Tuner, IF_DIVVAL, 0x07) ;
- status += MXL_ControlWrite(Tuner, IF_VCO_BIAS, 0x08) ;
+ status += MXL_ControlWrite(fe, IF_DIVVAL, 0x07) ;
+ status += MXL_ControlWrite(fe, IF_VCO_BIAS, 0x08) ;
Fref = 376800000UL ;
}
if (Tuner->IF_LO == 5000000UL) {
- status += MXL_ControlWrite(Tuner, IF_DIVVAL, 0x09) ;
- status += MXL_ControlWrite(Tuner, IF_VCO_BIAS, 0x08) ;
+ status += MXL_ControlWrite(fe, IF_DIVVAL, 0x09) ;
+ status += MXL_ControlWrite(fe, IF_VCO_BIAS, 0x08) ;
Fref = 360000000UL ;
}
if (Tuner->IF_LO == 4500000UL) {
- status += MXL_ControlWrite(Tuner, IF_DIVVAL, 0x06) ;
- status += MXL_ControlWrite(Tuner, IF_VCO_BIAS, 0x08) ;
+ status += MXL_ControlWrite(fe, IF_DIVVAL, 0x06) ;
+ status += MXL_ControlWrite(fe, IF_VCO_BIAS, 0x08) ;
Fref = 360000000UL ;
}
if (Tuner->IF_LO == 4570000UL) {
- status += MXL_ControlWrite(Tuner, IF_DIVVAL, 0x06) ;
- status += MXL_ControlWrite(Tuner, IF_VCO_BIAS, 0x08) ;
+ status += MXL_ControlWrite(fe, IF_DIVVAL, 0x06) ;
+ status += MXL_ControlWrite(fe, IF_VCO_BIAS, 0x08) ;
Fref = 365600000UL ;
}
if (Tuner->IF_LO == 4000000UL) {
- status += MXL_ControlWrite(Tuner, IF_DIVVAL, 0x05) ;
- status += MXL_ControlWrite(Tuner, IF_VCO_BIAS, 0x08) ;
+ status += MXL_ControlWrite(fe, IF_DIVVAL, 0x05) ;
+ status += MXL_ControlWrite(fe, IF_VCO_BIAS, 0x08) ;
Fref = 360000000UL ;
}
if (Tuner->IF_LO == 57400000UL)
{
- status += MXL_ControlWrite(Tuner, IF_DIVVAL, 0x10) ;
- status += MXL_ControlWrite(Tuner, IF_VCO_BIAS, 0x08) ;
+ status += MXL_ControlWrite(fe, IF_DIVVAL, 0x10) ;
+ status += MXL_ControlWrite(fe, IF_VCO_BIAS, 0x08) ;
Fref = 344400000UL ;
}
if (Tuner->IF_LO == 44400000UL)
{
- status += MXL_ControlWrite(Tuner, IF_DIVVAL, 0x08) ;
- status += MXL_ControlWrite(Tuner, IF_VCO_BIAS, 0x08) ;
+ status += MXL_ControlWrite(fe, IF_DIVVAL, 0x08) ;
+ status += MXL_ControlWrite(fe, IF_VCO_BIAS, 0x08) ;
Fref = 355200000UL ;
}
if (Tuner->IF_LO == 44150000UL)
{
- status += MXL_ControlWrite(Tuner, IF_DIVVAL, 0x08) ;
- status += MXL_ControlWrite(Tuner, IF_VCO_BIAS, 0x08) ;
+ status += MXL_ControlWrite(fe, IF_DIVVAL, 0x08) ;
+ status += MXL_ControlWrite(fe, IF_VCO_BIAS, 0x08) ;
Fref = 353200000UL ;
}
if (Tuner->IF_LO == 37050000UL)
{
- status += MXL_ControlWrite(Tuner, IF_DIVVAL, 0x04) ;
- status += MXL_ControlWrite(Tuner, IF_VCO_BIAS, 0x08) ;
+ status += MXL_ControlWrite(fe, IF_DIVVAL, 0x04) ;
+ status += MXL_ControlWrite(fe, IF_VCO_BIAS, 0x08) ;
Fref = 370500000UL ;
}
if (Tuner->IF_LO == 36550000UL)
{
- status += MXL_ControlWrite(Tuner, IF_DIVVAL, 0x04) ;
- status += MXL_ControlWrite(Tuner, IF_VCO_BIAS, 0x08) ;
+ status += MXL_ControlWrite(fe, IF_DIVVAL, 0x04) ;
+ status += MXL_ControlWrite(fe, IF_VCO_BIAS, 0x08) ;
Fref = 365500000UL ;
}
if (Tuner->IF_LO == 36125000UL) {
- status += MXL_ControlWrite(Tuner, IF_DIVVAL, 0x04) ;
- status += MXL_ControlWrite(Tuner, IF_VCO_BIAS, 0x08) ;
+ status += MXL_ControlWrite(fe, IF_DIVVAL, 0x04) ;
+ status += MXL_ControlWrite(fe, IF_VCO_BIAS, 0x08) ;
Fref = 361250000UL ;
}
if (Tuner->IF_LO == 6000000UL) {
- status += MXL_ControlWrite(Tuner, IF_DIVVAL, 0x07) ;
- status += MXL_ControlWrite(Tuner, IF_VCO_BIAS, 0x08) ;
+ status += MXL_ControlWrite(fe, IF_DIVVAL, 0x07) ;
+ status += MXL_ControlWrite(fe, IF_VCO_BIAS, 0x08) ;
Fref = 360000000UL ;
}
if (Tuner->IF_LO == 5400000UL)
{
- status += MXL_ControlWrite(Tuner, IF_DIVVAL, 0x07) ;
- status += MXL_ControlWrite(Tuner, IF_VCO_BIAS, 0x0C) ;
+ status += MXL_ControlWrite(fe, IF_DIVVAL, 0x07) ;
+ status += MXL_ControlWrite(fe, IF_VCO_BIAS, 0x0C) ;
Fref = 324000000UL ;
}
if (Tuner->IF_LO == 5380000UL) {
- status += MXL_ControlWrite(Tuner, IF_DIVVAL, 0x07) ;
- status += MXL_ControlWrite(Tuner, IF_VCO_BIAS, 0x0C) ;
+ status += MXL_ControlWrite(fe, IF_DIVVAL, 0x07) ;
+ status += MXL_ControlWrite(fe, IF_VCO_BIAS, 0x0C) ;
Fref = 322800000UL ;
}
if (Tuner->IF_LO == 5200000UL) {
- status += MXL_ControlWrite(Tuner, IF_DIVVAL, 0x09) ;
- status += MXL_ControlWrite(Tuner, IF_VCO_BIAS, 0x08) ;
+ status += MXL_ControlWrite(fe, IF_DIVVAL, 0x09) ;
+ status += MXL_ControlWrite(fe, IF_VCO_BIAS, 0x08) ;
Fref = 374400000UL ;
}
if (Tuner->IF_LO == 4900000UL)
{
- status += MXL_ControlWrite(Tuner, IF_DIVVAL, 0x09) ;
- status += MXL_ControlWrite(Tuner, IF_VCO_BIAS, 0x08) ;
+ status += MXL_ControlWrite(fe, IF_DIVVAL, 0x09) ;
+ status += MXL_ControlWrite(fe, IF_VCO_BIAS, 0x08) ;
Fref = 352800000UL ;
}
if (Tuner->IF_LO == 4400000UL)
{
- status += MXL_ControlWrite(Tuner, IF_DIVVAL, 0x06) ;
- status += MXL_ControlWrite(Tuner, IF_VCO_BIAS, 0x08) ;
+ status += MXL_ControlWrite(fe, IF_DIVVAL, 0x06) ;
+ status += MXL_ControlWrite(fe, IF_VCO_BIAS, 0x08) ;
Fref = 352000000UL ;
}
if (Tuner->IF_LO == 4063000UL) //add for 2.6.8
{
- status += MXL_ControlWrite(Tuner, IF_DIVVAL, 0x05) ;
- status += MXL_ControlWrite(Tuner, IF_VCO_BIAS, 0x08) ;
+ status += MXL_ControlWrite(fe, IF_DIVVAL, 0x05) ;
+ status += MXL_ControlWrite(fe, IF_VCO_BIAS, 0x08) ;
Fref = 365670000UL ;
}
}
// CHCAL_INT_MOD_IF
// CHCAL_FRAC_MOD_IF
- intModVal = Fref / (Tuner->Fxtal * Kdbl/2) ;
- status += MXL_ControlWrite(Tuner, CHCAL_INT_MOD_IF, intModVal ) ;
+ intModVal = Fref / (state->Fxtal * Kdbl/2) ;
+ status += MXL_ControlWrite(fe, CHCAL_INT_MOD_IF, intModVal ) ;
- fracModVal = (2<<15)*(Fref/1000 - (Tuner->Fxtal/1000 * Kdbl/2) * intModVal);
- fracModVal = fracModVal / ((Tuner->Fxtal * Kdbl/2)/1000) ;
- status += MXL_ControlWrite(Tuner, CHCAL_FRAC_MOD_IF, fracModVal) ;
+ fracModVal = (2<<15)*(Fref/1000 - (state->Fxtal/1000 * Kdbl/2) * intModVal);
+ fracModVal = fracModVal / ((state->Fxtal * Kdbl/2)/1000) ;
+ status += MXL_ControlWrite(fe, CHCAL_FRAC_MOD_IF, fracModVal) ;
return status ;
}
@@ -2706,7 +2528,7 @@ u32 MXL_GetXtalInt(u32 Xtal_Freq)
// Functions used: //
// MXL_SynthRFTGLO_Calc //
// MXL5005_ControlWrite //
-// MXL_GetXtalInt //
+// MXL_GetXtalInt //
// //
// Inputs: //
// Tuner : Tuner structure defined at higher level //
@@ -2718,32 +2540,33 @@ u32 MXL_GetXtalInt(u32 Xtal_Freq)
// 0 : Successful //
// 1 : Unsuccessful //
///////////////////////////////////////////////////////////////////////////////
-u16 MXL_TuneRF(Tuner_struct *Tuner, u32 RF_Freq)
+u16 MXL_TuneRF(struct dvb_frontend *fe, u32 RF_Freq)
{
+ struct mxl5005s_state *state = fe->demodulator_priv;
// Declare Local Variables
- u16 status = 0 ;
- u32 divider_val, E3, E4, E5, E5A ;
- u32 Fmax, Fmin, FmaxBin, FminBin ;
+ u16 status = 0;
+ u32 divider_val, E3, E4, E5, E5A;
+ u32 Fmax, Fmin, FmaxBin, FminBin;
u32 Kdbl_RF = 2;
- u32 tg_divval ;
- u32 tg_lo ;
- u32 Xtal_Int ;
+ u32 tg_divval;
+ u32 tg_lo;
+ u32 Xtal_Int;
u32 Fref_TG;
u32 Fvco;
// u32 temp;
- Xtal_Int = MXL_GetXtalInt(Tuner->Fxtal ) ;
+ Xtal_Int = MXL_GetXtalInt(state->Fxtal);
- Tuner->RF_IN = RF_Freq ;
+ state->RF_IN = RF_Freq;
- MXL_SynthRFTGLO_Calc( Tuner ) ;
+ MXL_SynthRFTGLO_Calc(fe);
- if (Tuner->Fxtal >= 12000000UL && Tuner->Fxtal <= 22000000UL)
- Kdbl_RF = 2 ;
- if (Tuner->Fxtal > 22000000 && Tuner->Fxtal <= 32000000)
- Kdbl_RF = 1 ;
+ if (state->Fxtal >= 12000000UL && state->Fxtal <= 22000000UL)
+ Kdbl_RF = 2;
+ if (state->Fxtal > 22000000 && state->Fxtal <= 32000000)
+ Kdbl_RF = 1;
//
// Downconverter Controls
@@ -2755,133 +2578,133 @@ u16 MXL_TuneRF(Tuner_struct *Tuner, u32 RF_Freq)
// DN_EN_VHFUHFBAR
// DN_GAIN_ADJUST
// Change the boundary reference from RF_IN to RF_LO
- if (Tuner->RF_LO < 40000000UL) {
+ if (state->RF_LO < 40000000UL) {
return -1;
}
- if (Tuner->RF_LO >= 40000000UL && Tuner->RF_LO <= 75000000UL) {
+ if (state->RF_LO >= 40000000UL && state->RF_LO <= 75000000UL) {
// Look-Up Table implementation
- status += MXL_ControlWrite(Tuner, DN_POLY, 2) ;
- status += MXL_ControlWrite(Tuner, DN_RFGAIN, 3) ;
- status += MXL_ControlWrite(Tuner, DN_CAP_RFLPF, 423) ;
- status += MXL_ControlWrite(Tuner, DN_EN_VHFUHFBAR, 1) ;
- status += MXL_ControlWrite(Tuner, DN_GAIN_ADJUST, 1) ;
+ status += MXL_ControlWrite(fe, DN_POLY, 2);
+ status += MXL_ControlWrite(fe, DN_RFGAIN, 3);
+ status += MXL_ControlWrite(fe, DN_CAP_RFLPF, 423);
+ status += MXL_ControlWrite(fe, DN_EN_VHFUHFBAR, 1);
+ status += MXL_ControlWrite(fe, DN_GAIN_ADJUST, 1);
}
- if (Tuner->RF_LO > 75000000UL && Tuner->RF_LO <= 100000000UL) {
+ if (state->RF_LO > 75000000UL && state->RF_LO <= 100000000UL) {
// Look-Up Table implementation
- status += MXL_ControlWrite(Tuner, DN_POLY, 3) ;
- status += MXL_ControlWrite(Tuner, DN_RFGAIN, 3) ;
- status += MXL_ControlWrite(Tuner, DN_CAP_RFLPF, 222) ;
- status += MXL_ControlWrite(Tuner, DN_EN_VHFUHFBAR, 1) ;
- status += MXL_ControlWrite(Tuner, DN_GAIN_ADJUST, 1) ;
+ status += MXL_ControlWrite(fe, DN_POLY, 3);
+ status += MXL_ControlWrite(fe, DN_RFGAIN, 3);
+ status += MXL_ControlWrite(fe, DN_CAP_RFLPF, 222);
+ status += MXL_ControlWrite(fe, DN_EN_VHFUHFBAR, 1);
+ status += MXL_ControlWrite(fe, DN_GAIN_ADJUST, 1);
}
- if (Tuner->RF_LO > 100000000UL && Tuner->RF_LO <= 150000000UL) {
+ if (state->RF_LO > 100000000UL && state->RF_LO <= 150000000UL) {
// Look-Up Table implementation
- status += MXL_ControlWrite(Tuner, DN_POLY, 3) ;
- status += MXL_ControlWrite(Tuner, DN_RFGAIN, 3) ;
- status += MXL_ControlWrite(Tuner, DN_CAP_RFLPF, 147) ;
- status += MXL_ControlWrite(Tuner, DN_EN_VHFUHFBAR, 1) ;
- status += MXL_ControlWrite(Tuner, DN_GAIN_ADJUST, 2) ;
+ status += MXL_ControlWrite(fe, DN_POLY, 3);
+ status += MXL_ControlWrite(fe, DN_RFGAIN, 3);
+ status += MXL_ControlWrite(fe, DN_CAP_RFLPF, 147);
+ status += MXL_ControlWrite(fe, DN_EN_VHFUHFBAR, 1);
+ status += MXL_ControlWrite(fe, DN_GAIN_ADJUST, 2);
}
- if (Tuner->RF_LO > 150000000UL && Tuner->RF_LO <= 200000000UL) {
+ if (state->RF_LO > 150000000UL && state->RF_LO <= 200000000UL) {
// Look-Up Table implementation
- status += MXL_ControlWrite(Tuner, DN_POLY, 3) ;
- status += MXL_ControlWrite(Tuner, DN_RFGAIN, 3) ;
- status += MXL_ControlWrite(Tuner, DN_CAP_RFLPF, 9) ;
- status += MXL_ControlWrite(Tuner, DN_EN_VHFUHFBAR, 1) ;
- status += MXL_ControlWrite(Tuner, DN_GAIN_ADJUST, 2) ;
+ status += MXL_ControlWrite(fe, DN_POLY, 3);
+ status += MXL_ControlWrite(fe, DN_RFGAIN, 3);
+ status += MXL_ControlWrite(fe, DN_CAP_RFLPF, 9);
+ status += MXL_ControlWrite(fe, DN_EN_VHFUHFBAR, 1);
+ status += MXL_ControlWrite(fe, DN_GAIN_ADJUST, 2);
}
- if (Tuner->RF_LO > 200000000UL && Tuner->RF_LO <= 300000000UL) {
+ if (state->RF_LO > 200000000UL && state->RF_LO <= 300000000UL) {
// Look-Up Table implementation
- status += MXL_ControlWrite(Tuner, DN_POLY, 3) ;
- status += MXL_ControlWrite(Tuner, DN_RFGAIN, 3) ;
- status += MXL_ControlWrite(Tuner, DN_CAP_RFLPF, 0) ;
- status += MXL_ControlWrite(Tuner, DN_EN_VHFUHFBAR, 1) ;
- status += MXL_ControlWrite(Tuner, DN_GAIN_ADJUST, 3) ;
+ status += MXL_ControlWrite(fe, DN_POLY, 3) ;
+ status += MXL_ControlWrite(fe, DN_RFGAIN, 3) ;
+ status += MXL_ControlWrite(fe, DN_CAP_RFLPF, 0) ;
+ status += MXL_ControlWrite(fe, DN_EN_VHFUHFBAR, 1) ;
+ status += MXL_ControlWrite(fe, DN_GAIN_ADJUST, 3) ;
}
- if (Tuner->RF_LO > 300000000UL && Tuner->RF_LO <= 650000000UL) {
+ if (state->RF_LO > 300000000UL && state->RF_LO <= 650000000UL) {
// Look-Up Table implementation
- status += MXL_ControlWrite(Tuner, DN_POLY, 3) ;
- status += MXL_ControlWrite(Tuner, DN_RFGAIN, 1) ;
- status += MXL_ControlWrite(Tuner, DN_CAP_RFLPF, 0) ;
- status += MXL_ControlWrite(Tuner, DN_EN_VHFUHFBAR, 0) ;
- status += MXL_ControlWrite(Tuner, DN_GAIN_ADJUST, 3) ;
+ status += MXL_ControlWrite(fe, DN_POLY, 3) ;
+ status += MXL_ControlWrite(fe, DN_RFGAIN, 1) ;
+ status += MXL_ControlWrite(fe, DN_CAP_RFLPF, 0) ;
+ status += MXL_ControlWrite(fe, DN_EN_VHFUHFBAR, 0) ;
+ status += MXL_ControlWrite(fe, DN_GAIN_ADJUST, 3) ;
}
- if (Tuner->RF_LO > 650000000UL && Tuner->RF_LO <= 900000000UL) {
+ if (state->RF_LO > 650000000UL && state->RF_LO <= 900000000UL) {
// Look-Up Table implementation
- status += MXL_ControlWrite(Tuner, DN_POLY, 3) ;
- status += MXL_ControlWrite(Tuner, DN_RFGAIN, 2) ;
- status += MXL_ControlWrite(Tuner, DN_CAP_RFLPF, 0) ;
- status += MXL_ControlWrite(Tuner, DN_EN_VHFUHFBAR, 0) ;
- status += MXL_ControlWrite(Tuner, DN_GAIN_ADJUST, 3) ;
+ status += MXL_ControlWrite(fe, DN_POLY, 3) ;
+ status += MXL_ControlWrite(fe, DN_RFGAIN, 2) ;
+ status += MXL_ControlWrite(fe, DN_CAP_RFLPF, 0) ;
+ status += MXL_ControlWrite(fe, DN_EN_VHFUHFBAR, 0) ;
+ status += MXL_ControlWrite(fe, DN_GAIN_ADJUST, 3) ;
}
- if (Tuner->RF_LO > 900000000UL) {
+ if (state->RF_LO > 900000000UL) {
return -1;
}
// DN_IQTNBUF_AMP
// DN_IQTNGNBFBIAS_BST
- if (Tuner->RF_LO >= 40000000UL && Tuner->RF_LO <= 75000000UL) {
- status += MXL_ControlWrite(Tuner, DN_IQTNBUF_AMP, 1) ;
- status += MXL_ControlWrite(Tuner, DN_IQTNGNBFBIAS_BST, 0) ;
+ if (state->RF_LO >= 40000000UL && state->RF_LO <= 75000000UL) {
+ status += MXL_ControlWrite(fe, DN_IQTNBUF_AMP, 1);
+ status += MXL_ControlWrite(fe, DN_IQTNGNBFBIAS_BST, 0);
}
- if (Tuner->RF_LO > 75000000UL && Tuner->RF_LO <= 100000000UL) {
- status += MXL_ControlWrite(Tuner, DN_IQTNBUF_AMP, 1) ;
- status += MXL_ControlWrite(Tuner, DN_IQTNGNBFBIAS_BST, 0) ;
+ if (state->RF_LO > 75000000UL && state->RF_LO <= 100000000UL) {
+ status += MXL_ControlWrite(fe, DN_IQTNBUF_AMP, 1);
+ status += MXL_ControlWrite(fe, DN_IQTNGNBFBIAS_BST, 0);
}
- if (Tuner->RF_LO > 100000000UL && Tuner->RF_LO <= 150000000UL) {
- status += MXL_ControlWrite(Tuner, DN_IQTNBUF_AMP, 1) ;
- status += MXL_ControlWrite(Tuner, DN_IQTNGNBFBIAS_BST, 0) ;
+ if (state->RF_LO > 100000000UL && state->RF_LO <= 150000000UL) {
+ status += MXL_ControlWrite(fe, DN_IQTNBUF_AMP, 1);
+ status += MXL_ControlWrite(fe, DN_IQTNGNBFBIAS_BST, 0);
}
- if (Tuner->RF_LO > 150000000UL && Tuner->RF_LO <= 200000000UL) {
- status += MXL_ControlWrite(Tuner, DN_IQTNBUF_AMP, 1) ;
- status += MXL_ControlWrite(Tuner, DN_IQTNGNBFBIAS_BST, 0) ;
+ if (state->RF_LO > 150000000UL && state->RF_LO <= 200000000UL) {
+ status += MXL_ControlWrite(fe, DN_IQTNBUF_AMP, 1);
+ status += MXL_ControlWrite(fe, DN_IQTNGNBFBIAS_BST, 0);
}
- if (Tuner->RF_LO > 200000000UL && Tuner->RF_LO <= 300000000UL) {
- status += MXL_ControlWrite(Tuner, DN_IQTNBUF_AMP, 1) ;
- status += MXL_ControlWrite(Tuner, DN_IQTNGNBFBIAS_BST, 0) ;
+ if (state->RF_LO > 200000000UL && state->RF_LO <= 300000000UL) {
+ status += MXL_ControlWrite(fe, DN_IQTNBUF_AMP, 1);
+ status += MXL_ControlWrite(fe, DN_IQTNGNBFBIAS_BST, 0);
}
- if (Tuner->RF_LO > 300000000UL && Tuner->RF_LO <= 400000000UL) {
- status += MXL_ControlWrite(Tuner, DN_IQTNBUF_AMP, 1) ;
- status += MXL_ControlWrite(Tuner, DN_IQTNGNBFBIAS_BST, 0) ;
+ if (state->RF_LO > 300000000UL && state->RF_LO <= 400000000UL) {
+ status += MXL_ControlWrite(fe, DN_IQTNBUF_AMP, 1);
+ status += MXL_ControlWrite(fe, DN_IQTNGNBFBIAS_BST, 0);
}
- if (Tuner->RF_LO > 400000000UL && Tuner->RF_LO <= 450000000UL) {
- status += MXL_ControlWrite(Tuner, DN_IQTNBUF_AMP, 1) ;
- status += MXL_ControlWrite(Tuner, DN_IQTNGNBFBIAS_BST, 0) ;
+ if (state->RF_LO > 400000000UL && state->RF_LO <= 450000000UL) {
+ status += MXL_ControlWrite(fe, DN_IQTNBUF_AMP, 1);
+ status += MXL_ControlWrite(fe, DN_IQTNGNBFBIAS_BST, 0);
}
- if (Tuner->RF_LO > 450000000UL && Tuner->RF_LO <= 500000000UL) {
- status += MXL_ControlWrite(Tuner, DN_IQTNBUF_AMP, 1) ;
- status += MXL_ControlWrite(Tuner, DN_IQTNGNBFBIAS_BST, 0) ;
+ if (state->RF_LO > 450000000UL && state->RF_LO <= 500000000UL) {
+ status += MXL_ControlWrite(fe, DN_IQTNBUF_AMP, 1);
+ status += MXL_ControlWrite(fe, DN_IQTNGNBFBIAS_BST, 0);
}
- if (Tuner->RF_LO > 500000000UL && Tuner->RF_LO <= 550000000UL) {
- status += MXL_ControlWrite(Tuner, DN_IQTNBUF_AMP, 1) ;
- status += MXL_ControlWrite(Tuner, DN_IQTNGNBFBIAS_BST, 0) ;
+ if (state->RF_LO > 500000000UL && state->RF_LO <= 550000000UL) {
+ status += MXL_ControlWrite(fe, DN_IQTNBUF_AMP, 1);
+ status += MXL_ControlWrite(fe, DN_IQTNGNBFBIAS_BST, 0);
}
- if (Tuner->RF_LO > 550000000UL && Tuner->RF_LO <= 600000000UL) {
- status += MXL_ControlWrite(Tuner, DN_IQTNBUF_AMP, 1) ;
- status += MXL_ControlWrite(Tuner, DN_IQTNGNBFBIAS_BST, 0) ;
+ if (state->RF_LO > 550000000UL && state->RF_LO <= 600000000UL) {
+ status += MXL_ControlWrite(fe, DN_IQTNBUF_AMP, 1);
+ status += MXL_ControlWrite(fe, DN_IQTNGNBFBIAS_BST, 0);
}
- if (Tuner->RF_LO > 600000000UL && Tuner->RF_LO <= 650000000UL) {
- status += MXL_ControlWrite(Tuner, DN_IQTNBUF_AMP, 1) ;
- status += MXL_ControlWrite(Tuner, DN_IQTNGNBFBIAS_BST, 0) ;
+ if (state->RF_LO > 600000000UL && state->RF_LO <= 650000000UL) {
+ status += MXL_ControlWrite(fe, DN_IQTNBUF_AMP, 1);
+ status += MXL_ControlWrite(fe, DN_IQTNGNBFBIAS_BST, 0);
}
- if (Tuner->RF_LO > 650000000UL && Tuner->RF_LO <= 700000000UL) {
- status += MXL_ControlWrite(Tuner, DN_IQTNBUF_AMP, 1) ;
- status += MXL_ControlWrite(Tuner, DN_IQTNGNBFBIAS_BST, 0) ;
+ if (state->RF_LO > 650000000UL && state->RF_LO <= 700000000UL) {
+ status += MXL_ControlWrite(fe, DN_IQTNBUF_AMP, 1);
+ status += MXL_ControlWrite(fe, DN_IQTNGNBFBIAS_BST, 0);
}
- if (Tuner->RF_LO > 700000000UL && Tuner->RF_LO <= 750000000UL) {
- status += MXL_ControlWrite(Tuner, DN_IQTNBUF_AMP, 1) ;
- status += MXL_ControlWrite(Tuner, DN_IQTNGNBFBIAS_BST, 0) ;
+ if (state->RF_LO > 700000000UL && state->RF_LO <= 750000000UL) {
+ status += MXL_ControlWrite(fe, DN_IQTNBUF_AMP, 1);
+ status += MXL_ControlWrite(fe, DN_IQTNGNBFBIAS_BST, 0);
}
- if (Tuner->RF_LO > 750000000UL && Tuner->RF_LO <= 800000000UL) {
- status += MXL_ControlWrite(Tuner, DN_IQTNBUF_AMP, 1) ;
- status += MXL_ControlWrite(Tuner, DN_IQTNGNBFBIAS_BST, 0) ;
+ if (state->RF_LO > 750000000UL && state->RF_LO <= 800000000UL) {
+ status += MXL_ControlWrite(fe, DN_IQTNBUF_AMP, 1);
+ status += MXL_ControlWrite(fe, DN_IQTNGNBFBIAS_BST, 0);
}
- if (Tuner->RF_LO > 800000000UL && Tuner->RF_LO <= 850000000UL) {
- status += MXL_ControlWrite(Tuner, DN_IQTNBUF_AMP, 10) ;
- status += MXL_ControlWrite(Tuner, DN_IQTNGNBFBIAS_BST, 1) ;
+ if (state->RF_LO > 800000000UL && state->RF_LO <= 850000000UL) {
+ status += MXL_ControlWrite(fe, DN_IQTNBUF_AMP, 10);
+ status += MXL_ControlWrite(fe, DN_IQTNGNBFBIAS_BST, 1);
}
- if (Tuner->RF_LO > 850000000UL && Tuner->RF_LO <= 900000000UL) {
- status += MXL_ControlWrite(Tuner, DN_IQTNBUF_AMP, 10) ;
- status += MXL_ControlWrite(Tuner, DN_IQTNGNBFBIAS_BST, 1) ;
+ if (state->RF_LO > 850000000UL && state->RF_LO <= 900000000UL) {
+ status += MXL_ControlWrite(fe, DN_IQTNBUF_AMP, 10);
+ status += MXL_ControlWrite(fe, DN_IQTNGNBFBIAS_BST, 1);
}
//
@@ -2898,143 +2721,143 @@ u16 MXL_TuneRF(Tuner_struct *Tuner, u32 RF_Freq)
// Set divider_val, Fmax, Fmix to use in Equations
FminBin = 28000000UL ;
FmaxBin = 42500000UL ;
- if (Tuner->RF_LO >= 40000000UL && Tuner->RF_LO <= FmaxBin) {
- status += MXL_ControlWrite(Tuner, RFSYN_EN_OUTMUX, 1) ;
- status += MXL_ControlWrite(Tuner, RFSYN_SEL_VCO_OUT, 0) ;
- status += MXL_ControlWrite(Tuner, RFSYN_SEL_VCO_HI, 0) ;
- status += MXL_ControlWrite(Tuner, RFSYN_SEL_DIVM, 0) ;
- status += MXL_ControlWrite(Tuner, RFSYN_RF_DIV_BIAS, 1) ;
- status += MXL_ControlWrite(Tuner, DN_SEL_FREQ, 1) ;
+ if (state->RF_LO >= 40000000UL && state->RF_LO <= FmaxBin) {
+ status += MXL_ControlWrite(fe, RFSYN_EN_OUTMUX, 1);
+ status += MXL_ControlWrite(fe, RFSYN_SEL_VCO_OUT, 0);
+ status += MXL_ControlWrite(fe, RFSYN_SEL_VCO_HI, 0);
+ status += MXL_ControlWrite(fe, RFSYN_SEL_DIVM, 0);
+ status += MXL_ControlWrite(fe, RFSYN_RF_DIV_BIAS, 1);
+ status += MXL_ControlWrite(fe, DN_SEL_FREQ, 1);
divider_val = 64 ;
Fmax = FmaxBin ;
Fmin = FminBin ;
}
FminBin = 42500000UL ;
FmaxBin = 56000000UL ;
- if (Tuner->RF_LO > FminBin && Tuner->RF_LO <= FmaxBin) {
- status += MXL_ControlWrite(Tuner, RFSYN_EN_OUTMUX, 1) ;
- status += MXL_ControlWrite(Tuner, RFSYN_SEL_VCO_OUT, 0) ;
- status += MXL_ControlWrite(Tuner, RFSYN_SEL_VCO_HI, 1) ;
- status += MXL_ControlWrite(Tuner, RFSYN_SEL_DIVM, 0) ;
- status += MXL_ControlWrite(Tuner, RFSYN_RF_DIV_BIAS, 1) ;
- status += MXL_ControlWrite(Tuner, DN_SEL_FREQ, 1) ;
+ if (state->RF_LO > FminBin && state->RF_LO <= FmaxBin) {
+ status += MXL_ControlWrite(fe, RFSYN_EN_OUTMUX, 1);
+ status += MXL_ControlWrite(fe, RFSYN_SEL_VCO_OUT, 0);
+ status += MXL_ControlWrite(fe, RFSYN_SEL_VCO_HI, 1);
+ status += MXL_ControlWrite(fe, RFSYN_SEL_DIVM, 0);
+ status += MXL_ControlWrite(fe, RFSYN_RF_DIV_BIAS, 1);
+ status += MXL_ControlWrite(fe, DN_SEL_FREQ, 1);
divider_val = 64 ;
Fmax = FmaxBin ;
Fmin = FminBin ;
}
FminBin = 56000000UL ;
FmaxBin = 85000000UL ;
- if (Tuner->RF_LO > FminBin && Tuner->RF_LO <= FmaxBin) {
- status += MXL_ControlWrite(Tuner, RFSYN_EN_OUTMUX, 0) ;
- status += MXL_ControlWrite(Tuner, RFSYN_SEL_VCO_OUT, 1) ;
- status += MXL_ControlWrite(Tuner, RFSYN_SEL_VCO_HI, 0) ;
- status += MXL_ControlWrite(Tuner, RFSYN_SEL_DIVM, 0) ;
- status += MXL_ControlWrite(Tuner, RFSYN_RF_DIV_BIAS, 1) ;
- status += MXL_ControlWrite(Tuner, DN_SEL_FREQ, 1) ;
+ if (state->RF_LO > FminBin && state->RF_LO <= FmaxBin) {
+ status += MXL_ControlWrite(fe, RFSYN_EN_OUTMUX, 0) ;
+ status += MXL_ControlWrite(fe, RFSYN_SEL_VCO_OUT, 1) ;
+ status += MXL_ControlWrite(fe, RFSYN_SEL_VCO_HI, 0) ;
+ status += MXL_ControlWrite(fe, RFSYN_SEL_DIVM, 0) ;
+ status += MXL_ControlWrite(fe, RFSYN_RF_DIV_BIAS, 1) ;
+ status += MXL_ControlWrite(fe, DN_SEL_FREQ, 1) ;
divider_val = 32 ;
Fmax = FmaxBin ;
Fmin = FminBin ;
}
FminBin = 85000000UL ;
FmaxBin = 112000000UL ;
- if (Tuner->RF_LO > FminBin && Tuner->RF_LO <= FmaxBin) {
- status += MXL_ControlWrite(Tuner, RFSYN_EN_OUTMUX, 0) ;
- status += MXL_ControlWrite(Tuner, RFSYN_SEL_VCO_OUT, 1) ;
- status += MXL_ControlWrite(Tuner, RFSYN_SEL_VCO_HI, 1) ;
- status += MXL_ControlWrite(Tuner, RFSYN_SEL_DIVM, 0) ;
- status += MXL_ControlWrite(Tuner, RFSYN_RF_DIV_BIAS, 1) ;
- status += MXL_ControlWrite(Tuner, DN_SEL_FREQ, 1) ;
+ if (state->RF_LO > FminBin && state->RF_LO <= FmaxBin) {
+ status += MXL_ControlWrite(fe, RFSYN_EN_OUTMUX, 0) ;
+ status += MXL_ControlWrite(fe, RFSYN_SEL_VCO_OUT, 1) ;
+ status += MXL_ControlWrite(fe, RFSYN_SEL_VCO_HI, 1) ;
+ status += MXL_ControlWrite(fe, RFSYN_SEL_DIVM, 0) ;
+ status += MXL_ControlWrite(fe, RFSYN_RF_DIV_BIAS, 1) ;
+ status += MXL_ControlWrite(fe, DN_SEL_FREQ, 1) ;
divider_val = 32 ;
Fmax = FmaxBin ;
Fmin = FminBin ;
}
FminBin = 112000000UL ;
FmaxBin = 170000000UL ;
- if (Tuner->RF_LO > FminBin && Tuner->RF_LO <= FmaxBin) {
- status += MXL_ControlWrite(Tuner, RFSYN_EN_OUTMUX, 0) ;
- status += MXL_ControlWrite(Tuner, RFSYN_SEL_VCO_OUT, 1) ;
- status += MXL_ControlWrite(Tuner, RFSYN_SEL_VCO_HI, 0) ;
- status += MXL_ControlWrite(Tuner, RFSYN_SEL_DIVM, 0) ;
- status += MXL_ControlWrite(Tuner, RFSYN_RF_DIV_BIAS, 1) ;
- status += MXL_ControlWrite(Tuner, DN_SEL_FREQ, 2) ;
+ if (state->RF_LO > FminBin && state->RF_LO <= FmaxBin) {
+ status += MXL_ControlWrite(fe, RFSYN_EN_OUTMUX, 0) ;
+ status += MXL_ControlWrite(fe, RFSYN_SEL_VCO_OUT, 1) ;
+ status += MXL_ControlWrite(fe, RFSYN_SEL_VCO_HI, 0) ;
+ status += MXL_ControlWrite(fe, RFSYN_SEL_DIVM, 0) ;
+ status += MXL_ControlWrite(fe, RFSYN_RF_DIV_BIAS, 1) ;
+ status += MXL_ControlWrite(fe, DN_SEL_FREQ, 2) ;
divider_val = 16 ;
Fmax = FmaxBin ;
Fmin = FminBin ;
}
FminBin = 170000000UL ;
FmaxBin = 225000000UL ;
- if (Tuner->RF_LO > FminBin && Tuner->RF_LO <= FmaxBin) {
- status += MXL_ControlWrite(Tuner, RFSYN_EN_OUTMUX, 0) ;
- status += MXL_ControlWrite(Tuner, RFSYN_SEL_VCO_OUT, 1) ;
- status += MXL_ControlWrite(Tuner, RFSYN_SEL_VCO_HI, 1) ;
- status += MXL_ControlWrite(Tuner, RFSYN_SEL_DIVM, 0) ;
- status += MXL_ControlWrite(Tuner, RFSYN_RF_DIV_BIAS, 1) ;
- status += MXL_ControlWrite(Tuner, DN_SEL_FREQ, 2) ;
+ if (state->RF_LO > FminBin && state->RF_LO <= FmaxBin) {
+ status += MXL_ControlWrite(fe, RFSYN_EN_OUTMUX, 0) ;
+ status += MXL_ControlWrite(fe, RFSYN_SEL_VCO_OUT, 1) ;
+ status += MXL_ControlWrite(fe, RFSYN_SEL_VCO_HI, 1) ;
+ status += MXL_ControlWrite(fe, RFSYN_SEL_DIVM, 0) ;
+ status += MXL_ControlWrite(fe, RFSYN_RF_DIV_BIAS, 1) ;
+ status += MXL_ControlWrite(fe, DN_SEL_FREQ, 2) ;
divider_val = 16 ;
Fmax = FmaxBin ;
Fmin = FminBin ;
}
FminBin = 225000000UL ;
FmaxBin = 300000000UL ;
- if (Tuner->RF_LO > FminBin && Tuner->RF_LO <= FmaxBin) {
- status += MXL_ControlWrite(Tuner, RFSYN_EN_OUTMUX, 0) ;
- status += MXL_ControlWrite(Tuner, RFSYN_SEL_VCO_OUT, 1) ;
- status += MXL_ControlWrite(Tuner, RFSYN_SEL_VCO_HI, 0) ;
- status += MXL_ControlWrite(Tuner, RFSYN_SEL_DIVM, 0) ;
- status += MXL_ControlWrite(Tuner, RFSYN_RF_DIV_BIAS, 1) ;
- status += MXL_ControlWrite(Tuner, DN_SEL_FREQ, 4) ;
+ if (state->RF_LO > FminBin && state->RF_LO <= FmaxBin) {
+ status += MXL_ControlWrite(fe, RFSYN_EN_OUTMUX, 0) ;
+ status += MXL_ControlWrite(fe, RFSYN_SEL_VCO_OUT, 1) ;
+ status += MXL_ControlWrite(fe, RFSYN_SEL_VCO_HI, 0) ;
+ status += MXL_ControlWrite(fe, RFSYN_SEL_DIVM, 0) ;
+ status += MXL_ControlWrite(fe, RFSYN_RF_DIV_BIAS, 1) ;
+ status += MXL_ControlWrite(fe, DN_SEL_FREQ, 4) ;
divider_val = 8 ;
Fmax = 340000000UL ;
Fmin = FminBin ;
}
FminBin = 300000000UL ;
FmaxBin = 340000000UL ;
- if (Tuner->RF_LO > FminBin && Tuner->RF_LO <= FmaxBin) {
- status += MXL_ControlWrite(Tuner, RFSYN_EN_OUTMUX, 1) ;
- status += MXL_ControlWrite(Tuner, RFSYN_SEL_VCO_OUT, 0) ;
- status += MXL_ControlWrite(Tuner, RFSYN_SEL_VCO_HI, 0) ;
- status += MXL_ControlWrite(Tuner, RFSYN_SEL_DIVM, 0) ;
- status += MXL_ControlWrite(Tuner, RFSYN_RF_DIV_BIAS, 1) ;
- status += MXL_ControlWrite(Tuner, DN_SEL_FREQ, 0) ;
+ if (state->RF_LO > FminBin && state->RF_LO <= FmaxBin) {
+ status += MXL_ControlWrite(fe, RFSYN_EN_OUTMUX, 1) ;
+ status += MXL_ControlWrite(fe, RFSYN_SEL_VCO_OUT, 0) ;
+ status += MXL_ControlWrite(fe, RFSYN_SEL_VCO_HI, 0) ;
+ status += MXL_ControlWrite(fe, RFSYN_SEL_DIVM, 0) ;
+ status += MXL_ControlWrite(fe, RFSYN_RF_DIV_BIAS, 1) ;
+ status += MXL_ControlWrite(fe, DN_SEL_FREQ, 0) ;
divider_val = 8 ;
Fmax = FmaxBin ;
Fmin = 225000000UL ;
}
FminBin = 340000000UL ;
FmaxBin = 450000000UL ;
- if (Tuner->RF_LO > FminBin && Tuner->RF_LO <= FmaxBin) {
- status += MXL_ControlWrite(Tuner, RFSYN_EN_OUTMUX, 1) ;
- status += MXL_ControlWrite(Tuner, RFSYN_SEL_VCO_OUT, 0) ;
- status += MXL_ControlWrite(Tuner, RFSYN_SEL_VCO_HI, 1) ;
- status += MXL_ControlWrite(Tuner, RFSYN_SEL_DIVM, 0) ;
- status += MXL_ControlWrite(Tuner, RFSYN_RF_DIV_BIAS, 2) ;
- status += MXL_ControlWrite(Tuner, DN_SEL_FREQ, 0) ;
+ if (state->RF_LO > FminBin && state->RF_LO <= FmaxBin) {
+ status += MXL_ControlWrite(fe, RFSYN_EN_OUTMUX, 1) ;
+ status += MXL_ControlWrite(fe, RFSYN_SEL_VCO_OUT, 0) ;
+ status += MXL_ControlWrite(fe, RFSYN_SEL_VCO_HI, 1) ;
+ status += MXL_ControlWrite(fe, RFSYN_SEL_DIVM, 0) ;
+ status += MXL_ControlWrite(fe, RFSYN_RF_DIV_BIAS, 2) ;
+ status += MXL_ControlWrite(fe, DN_SEL_FREQ, 0) ;
divider_val = 8 ;
Fmax = FmaxBin ;
Fmin = FminBin ;
}
FminBin = 450000000UL ;
FmaxBin = 680000000UL ;
- if (Tuner->RF_LO > FminBin && Tuner->RF_LO <= FmaxBin) {
- status += MXL_ControlWrite(Tuner, RFSYN_EN_OUTMUX, 0) ;
- status += MXL_ControlWrite(Tuner, RFSYN_SEL_VCO_OUT, 1) ;
- status += MXL_ControlWrite(Tuner, RFSYN_SEL_VCO_HI, 0) ;
- status += MXL_ControlWrite(Tuner, RFSYN_SEL_DIVM, 1) ;
- status += MXL_ControlWrite(Tuner, RFSYN_RF_DIV_BIAS, 1) ;
- status += MXL_ControlWrite(Tuner, DN_SEL_FREQ, 0) ;
+ if (state->RF_LO > FminBin && state->RF_LO <= FmaxBin) {
+ status += MXL_ControlWrite(fe, RFSYN_EN_OUTMUX, 0) ;
+ status += MXL_ControlWrite(fe, RFSYN_SEL_VCO_OUT, 1) ;
+ status += MXL_ControlWrite(fe, RFSYN_SEL_VCO_HI, 0) ;
+ status += MXL_ControlWrite(fe, RFSYN_SEL_DIVM, 1) ;
+ status += MXL_ControlWrite(fe, RFSYN_RF_DIV_BIAS, 1) ;
+ status += MXL_ControlWrite(fe, DN_SEL_FREQ, 0) ;
divider_val = 4 ;
Fmax = FmaxBin ;
Fmin = FminBin ;
}
FminBin = 680000000UL ;
FmaxBin = 900000000UL ;
- if (Tuner->RF_LO > FminBin && Tuner->RF_LO <= FmaxBin) {
- status += MXL_ControlWrite(Tuner, RFSYN_EN_OUTMUX, 0) ;
- status += MXL_ControlWrite(Tuner, RFSYN_SEL_VCO_OUT, 1) ;
- status += MXL_ControlWrite(Tuner, RFSYN_SEL_VCO_HI, 1) ;
- status += MXL_ControlWrite(Tuner, RFSYN_SEL_DIVM, 1) ;
- status += MXL_ControlWrite(Tuner, RFSYN_RF_DIV_BIAS, 1) ;
- status += MXL_ControlWrite(Tuner, DN_SEL_FREQ, 0) ;
+ if (state->RF_LO > FminBin && state->RF_LO <= FmaxBin) {
+ status += MXL_ControlWrite(fe, RFSYN_EN_OUTMUX, 0) ;
+ status += MXL_ControlWrite(fe, RFSYN_SEL_VCO_OUT, 1) ;
+ status += MXL_ControlWrite(fe, RFSYN_SEL_VCO_HI, 1) ;
+ status += MXL_ControlWrite(fe, RFSYN_SEL_DIVM, 1) ;
+ status += MXL_ControlWrite(fe, RFSYN_RF_DIV_BIAS, 1) ;
+ status += MXL_ControlWrite(fe, DN_SEL_FREQ, 0) ;
divider_val = 4 ;
Fmax = FmaxBin ;
Fmin = FminBin ;
@@ -3047,32 +2870,32 @@ u16 MXL_TuneRF(Tuner_struct *Tuner, u32 RF_Freq)
// Equation E3
// RFSYN_VCO_BIAS
- E3 = (((Fmax-Tuner->RF_LO)/1000)*32)/((Fmax-Fmin)/1000) + 8 ;
- status += MXL_ControlWrite(Tuner, RFSYN_VCO_BIAS, E3) ;
+ E3 = (((Fmax-state->RF_LO)/1000)*32)/((Fmax-Fmin)/1000) + 8 ;
+ status += MXL_ControlWrite(fe, RFSYN_VCO_BIAS, E3) ;
// Equation E4
// CHCAL_INT_MOD_RF
- E4 = (Tuner->RF_LO*divider_val/1000)/(2*Tuner->Fxtal*Kdbl_RF/1000) ;
- MXL_ControlWrite(Tuner, CHCAL_INT_MOD_RF, E4) ;
+ E4 = (state->RF_LO*divider_val/1000)/(2*state->Fxtal*Kdbl_RF/1000) ;
+ MXL_ControlWrite(fe, CHCAL_INT_MOD_RF, E4) ;
// Equation E5
// CHCAL_FRAC_MOD_RF
// CHCAL_EN_INT_RF
- E5 = ((2<<17)*(Tuner->RF_LO/10000*divider_val - (E4*(2*Tuner->Fxtal*Kdbl_RF)/10000)))/(2*Tuner->Fxtal*Kdbl_RF/10000) ;
- status += MXL_ControlWrite(Tuner, CHCAL_FRAC_MOD_RF, E5) ;
+ E5 = ((2<<17)*(state->RF_LO/10000*divider_val - (E4*(2*state->Fxtal*Kdbl_RF)/10000)))/(2*state->Fxtal*Kdbl_RF/10000) ;
+ status += MXL_ControlWrite(fe, CHCAL_FRAC_MOD_RF, E5) ;
// Equation E5A
// RFSYN_LPF_R
- E5A = (((Fmax - Tuner->RF_LO)/1000)*4/((Fmax-Fmin)/1000)) + 1 ;
- status += MXL_ControlWrite(Tuner, RFSYN_LPF_R, E5A) ;
+ E5A = (((Fmax - state->RF_LO)/1000)*4/((Fmax-Fmin)/1000)) + 1 ;
+ status += MXL_ControlWrite(fe, RFSYN_LPF_R, E5A) ;
// Euqation E5B
// CHCAL_EN_INIT_RF
- status += MXL_ControlWrite(Tuner, CHCAL_EN_INT_RF, ((E5 == 0) ? 1 : 0));
+ status += MXL_ControlWrite(fe, CHCAL_EN_INT_RF, ((E5 == 0) ? 1 : 0));
//if (E5 == 0)
- // status += MXL_ControlWrite(Tuner, CHCAL_EN_INT_RF, 1);
+ // status += MXL_ControlWrite(fe, CHCAL_EN_INT_RF, 1);
//else
- // status += MXL_ControlWrite(Tuner, CHCAL_FRAC_MOD_RF, E5) ;
+ // status += MXL_ControlWrite(fe, CHCAL_FRAC_MOD_RF, E5) ;
//
// Set TG Synth
@@ -3082,98 +2905,98 @@ u16 MXL_TuneRF(Tuner_struct *Tuner, u32 RF_Freq)
// TG_LO_SELVAL
//
// Set divider_val, Fmax, Fmix to use in Equations
- if (Tuner->TG_LO < 33000000UL) {
+ if (state->TG_LO < 33000000UL) {
return -1;
}
FminBin = 33000000UL ;
FmaxBin = 50000000UL ;
- if (Tuner->TG_LO >= FminBin && Tuner->TG_LO <= FmaxBin) {
- status += MXL_ControlWrite(Tuner, TG_LO_DIVVAL, 0x6) ;
- status += MXL_ControlWrite(Tuner, TG_LO_SELVAL, 0x0) ;
+ if (state->TG_LO >= FminBin && state->TG_LO <= FmaxBin) {
+ status += MXL_ControlWrite(fe, TG_LO_DIVVAL, 0x6) ;
+ status += MXL_ControlWrite(fe, TG_LO_SELVAL, 0x0) ;
divider_val = 36 ;
Fmax = FmaxBin ;
Fmin = FminBin ;
}
FminBin = 50000000UL ;
FmaxBin = 67000000UL ;
- if (Tuner->TG_LO > FminBin && Tuner->TG_LO <= FmaxBin) {
- status += MXL_ControlWrite(Tuner, TG_LO_DIVVAL, 0x1) ;
- status += MXL_ControlWrite(Tuner, TG_LO_SELVAL, 0x0) ;
+ if (state->TG_LO > FminBin && state->TG_LO <= FmaxBin) {
+ status += MXL_ControlWrite(fe, TG_LO_DIVVAL, 0x1) ;
+ status += MXL_ControlWrite(fe, TG_LO_SELVAL, 0x0) ;
divider_val = 24 ;
Fmax = FmaxBin ;
Fmin = FminBin ;
}
FminBin = 67000000UL ;
FmaxBin = 100000000UL ;
- if (Tuner->TG_LO > FminBin && Tuner->TG_LO <= FmaxBin) {
- status += MXL_ControlWrite(Tuner, TG_LO_DIVVAL, 0xC) ;
- status += MXL_ControlWrite(Tuner, TG_LO_SELVAL, 0x2) ;
+ if (state->TG_LO > FminBin && state->TG_LO <= FmaxBin) {
+ status += MXL_ControlWrite(fe, TG_LO_DIVVAL, 0xC) ;
+ status += MXL_ControlWrite(fe, TG_LO_SELVAL, 0x2) ;
divider_val = 18 ;
Fmax = FmaxBin ;
Fmin = FminBin ;
}
FminBin = 100000000UL ;
FmaxBin = 150000000UL ;
- if (Tuner->TG_LO > FminBin && Tuner->TG_LO <= FmaxBin) {
- status += MXL_ControlWrite(Tuner, TG_LO_DIVVAL, 0x8) ;
- status += MXL_ControlWrite(Tuner, TG_LO_SELVAL, 0x2) ;
+ if (state->TG_LO > FminBin && state->TG_LO <= FmaxBin) {
+ status += MXL_ControlWrite(fe, TG_LO_DIVVAL, 0x8) ;
+ status += MXL_ControlWrite(fe, TG_LO_SELVAL, 0x2) ;
divider_val = 12 ;
Fmax = FmaxBin ;
Fmin = FminBin ;
}
FminBin = 150000000UL ;
FmaxBin = 200000000UL ;
- if (Tuner->TG_LO > FminBin && Tuner->TG_LO <= FmaxBin) {
- status += MXL_ControlWrite(Tuner, TG_LO_DIVVAL, 0x0) ;
- status += MXL_ControlWrite(Tuner, TG_LO_SELVAL, 0x2) ;
+ if (state->TG_LO > FminBin && state->TG_LO <= FmaxBin) {
+ status += MXL_ControlWrite(fe, TG_LO_DIVVAL, 0x0) ;
+ status += MXL_ControlWrite(fe, TG_LO_SELVAL, 0x2) ;
divider_val = 8 ;
Fmax = FmaxBin ;
Fmin = FminBin ;
}
FminBin = 200000000UL ;
FmaxBin = 300000000UL ;
- if (Tuner->TG_LO > FminBin && Tuner->TG_LO <= FmaxBin) {
- status += MXL_ControlWrite(Tuner, TG_LO_DIVVAL, 0x8) ;
- status += MXL_ControlWrite(Tuner, TG_LO_SELVAL, 0x3) ;
+ if (state->TG_LO > FminBin && state->TG_LO <= FmaxBin) {
+ status += MXL_ControlWrite(fe, TG_LO_DIVVAL, 0x8) ;
+ status += MXL_ControlWrite(fe, TG_LO_SELVAL, 0x3) ;
divider_val = 6 ;
Fmax = FmaxBin ;
Fmin = FminBin ;
}
FminBin = 300000000UL ;
FmaxBin = 400000000UL ;
- if (Tuner->TG_LO > FminBin && Tuner->TG_LO <= FmaxBin) {
- status += MXL_ControlWrite(Tuner, TG_LO_DIVVAL, 0x0) ;
- status += MXL_ControlWrite(Tuner, TG_LO_SELVAL, 0x3) ;
+ if (state->TG_LO > FminBin && state->TG_LO <= FmaxBin) {
+ status += MXL_ControlWrite(fe, TG_LO_DIVVAL, 0x0) ;
+ status += MXL_ControlWrite(fe, TG_LO_SELVAL, 0x3) ;
divider_val = 4 ;
Fmax = FmaxBin ;
Fmin = FminBin ;
}
FminBin = 400000000UL ;
FmaxBin = 600000000UL ;
- if (Tuner->TG_LO > FminBin && Tuner->TG_LO <= FmaxBin) {
- status += MXL_ControlWrite(Tuner, TG_LO_DIVVAL, 0x8) ;
- status += MXL_ControlWrite(Tuner, TG_LO_SELVAL, 0x7) ;
+ if (state->TG_LO > FminBin && state->TG_LO <= FmaxBin) {
+ status += MXL_ControlWrite(fe, TG_LO_DIVVAL, 0x8) ;
+ status += MXL_ControlWrite(fe, TG_LO_SELVAL, 0x7) ;
divider_val = 3 ;
Fmax = FmaxBin ;
Fmin = FminBin ;
}
FminBin = 600000000UL ;
FmaxBin = 900000000UL ;
- if (Tuner->TG_LO > FminBin && Tuner->TG_LO <= FmaxBin) {
- status += MXL_ControlWrite(Tuner, TG_LO_DIVVAL, 0x0) ;
- status += MXL_ControlWrite(Tuner, TG_LO_SELVAL, 0x7) ;
+ if (state->TG_LO > FminBin && state->TG_LO <= FmaxBin) {
+ status += MXL_ControlWrite(fe, TG_LO_DIVVAL, 0x0) ;
+ status += MXL_ControlWrite(fe, TG_LO_SELVAL, 0x7) ;
divider_val = 2 ;
Fmax = FmaxBin ;
Fmin = FminBin ;
}
// TG_DIV_VAL
- tg_divval = (Tuner->TG_LO*divider_val/100000)
- *(MXL_Ceiling(Tuner->Fxtal,1000000) * 100) / (Tuner->Fxtal/1000) ;
- status += MXL_ControlWrite(Tuner, TG_DIV_VAL, tg_divval) ;
+ tg_divval = (state->TG_LO*divider_val/100000)
+ *(MXL_Ceiling(state->Fxtal,1000000) * 100) / (state->Fxtal/1000) ;
+ status += MXL_ControlWrite(fe, TG_DIV_VAL, tg_divval) ;
- if (Tuner->TG_LO > 600000000UL)
- status += MXL_ControlWrite(Tuner, TG_DIV_VAL, tg_divval + 1 ) ;
+ if (state->TG_LO > 600000000UL)
+ status += MXL_ControlWrite(fe, TG_DIV_VAL, tg_divval + 1 ) ;
Fmax = 1800000000UL ;
Fmin = 1200000000UL ;
@@ -3181,28 +3004,28 @@ u16 MXL_TuneRF(Tuner_struct *Tuner, u32 RF_Freq)
// to prevent overflow of 32 bit unsigned integer, use following equation. Edit for v2.6.4
- Fref_TG = (Tuner->Fxtal/1000)/ MXL_Ceiling(Tuner->Fxtal, 1000000) ; // Fref_TF = Fref_TG*1000
+ Fref_TG = (state->Fxtal/1000)/ MXL_Ceiling(state->Fxtal, 1000000) ; // Fref_TF = Fref_TG*1000
- Fvco = (Tuner->TG_LO/10000) * divider_val * Fref_TG; //Fvco = Fvco/10
+ Fvco = (state->TG_LO/10000) * divider_val * Fref_TG; //Fvco = Fvco/10
tg_lo = (((Fmax/10 - Fvco)/100)*32) / ((Fmax-Fmin)/1000)+8;
//below equation is same as above but much harder to debug.
- //tg_lo = ( ((Fmax/10000 * Xtal_Int)/100) - ((Tuner->TG_LO/10000)*divider_val*(Tuner->Fxtal/10000)/100) )*32/((Fmax-Fmin)/10000 * Xtal_Int/100) + 8 ;
+ //tg_lo = ( ((Fmax/10000 * Xtal_Int)/100) - ((state->TG_LO/10000)*divider_val*(state->Fxtal/10000)/100) )*32/((Fmax-Fmin)/10000 * Xtal_Int/100) + 8 ;
- status += MXL_ControlWrite(Tuner, TG_VCO_BIAS , tg_lo) ;
+ status += MXL_ControlWrite(fe, TG_VCO_BIAS , tg_lo) ;
//add for 2.6.5
//Special setting for QAM
- if(Tuner ->Mod_Type == MXL_QAM)
+ if(state->Mod_Type == MXL_QAM)
{
- if(Tuner->RF_IN < 680000000)
- status += MXL_ControlWrite(Tuner, RFSYN_CHP_GAIN, 3) ;
+ if(state->RF_IN < 680000000)
+ status += MXL_ControlWrite(fe, RFSYN_CHP_GAIN, 3) ;
else
- status += MXL_ControlWrite(Tuner, RFSYN_CHP_GAIN, 2) ;
+ status += MXL_ControlWrite(fe, RFSYN_CHP_GAIN, 2) ;
}
@@ -3213,673 +3036,675 @@ u16 MXL_TuneRF(Tuner_struct *Tuner, u32 RF_Freq)
//
if (Tuner->TF_Type == MXL_TF_OFF) // Tracking Filter Off State; turn off all the banks
{
- status += MXL_ControlWrite(Tuner, DAC_A_ENABLE, 0) ;
- status += MXL_ControlWrite(Tuner, DAC_B_ENABLE, 0) ;
+ status += MXL_ControlWrite(fe, DAC_A_ENABLE, 0) ;
+ status += MXL_ControlWrite(fe, DAC_B_ENABLE, 0) ;
- status += MXL_SetGPIO(Tuner, 3, 1) ; // turn off Bank 1
- status += MXL_SetGPIO(Tuner, 1, 1) ; // turn off Bank 2
- status += MXL_SetGPIO(Tuner, 4, 1) ; // turn off Bank 3
+ status += MXL_SetGPIO(fe, 3, 1) ; // turn off Bank 1
+ status += MXL_SetGPIO(fe, 1, 1) ; // turn off Bank 2
+ status += MXL_SetGPIO(fe, 4, 1) ; // turn off Bank 3
}
if (Tuner->TF_Type == MXL_TF_C) // Tracking Filter type C
{
- status += MXL_ControlWrite(Tuner, DAC_B_ENABLE, 1) ;
- status += MXL_ControlWrite(Tuner, DAC_DIN_A, 0) ;
+ status += MXL_ControlWrite(fe, DAC_B_ENABLE, 1) ;
+ status += MXL_ControlWrite(fe, DAC_DIN_A, 0) ;
- if (Tuner->RF_IN >= 43000000 && Tuner->RF_IN < 150000000)
+ if (state->RF_IN >= 43000000 && state->RF_IN < 150000000)
{
- status += MXL_ControlWrite(Tuner, DAC_A_ENABLE, 0) ; // Bank4 Off
- status += MXL_ControlWrite(Tuner, DAC_DIN_B, 0) ;
- status += MXL_SetGPIO(Tuner, 3, 0) ; // Bank1 On
- status += MXL_SetGPIO(Tuner, 1, 1) ; // Bank2 Off
- status += MXL_SetGPIO(Tuner, 4, 1) ; // Bank3 Off
+ status += MXL_ControlWrite(fe, DAC_A_ENABLE, 0) ; // Bank4 Off
+ status += MXL_ControlWrite(fe, DAC_DIN_B, 0) ;
+ status += MXL_SetGPIO(fe, 3, 0) ; // Bank1 On
+ status += MXL_SetGPIO(fe, 1, 1) ; // Bank2 Off
+ status += MXL_SetGPIO(fe, 4, 1) ; // Bank3 Off
}
- if (Tuner->RF_IN >= 150000000 && Tuner->RF_IN < 280000000)
+ if (state->RF_IN >= 150000000 && state->RF_IN < 280000000)
{
- status += MXL_ControlWrite(Tuner, DAC_A_ENABLE, 0) ; // Bank4 Off
- status += MXL_ControlWrite(Tuner, DAC_DIN_B, 0) ;
- status += MXL_SetGPIO(Tuner, 3, 1) ; // Bank1 Off
- status += MXL_SetGPIO(Tuner, 1, 0) ; // Bank2 On
- status += MXL_SetGPIO(Tuner, 4, 1) ; // Bank3 Off
+ status += MXL_ControlWrite(fe, DAC_A_ENABLE, 0) ; // Bank4 Off
+ status += MXL_ControlWrite(fe, DAC_DIN_B, 0) ;
+ status += MXL_SetGPIO(fe, 3, 1) ; // Bank1 Off
+ status += MXL_SetGPIO(fe, 1, 0) ; // Bank2 On
+ status += MXL_SetGPIO(fe, 4, 1) ; // Bank3 Off
}
- if (Tuner->RF_IN >= 280000000 && Tuner->RF_IN < 360000000)
+ if (state->RF_IN >= 280000000 && state->RF_IN < 360000000)
{
- status += MXL_ControlWrite(Tuner, DAC_A_ENABLE, 0) ; // Bank4 Off
- status += MXL_ControlWrite(Tuner, DAC_DIN_B, 0) ;
- status += MXL_SetGPIO(Tuner, 3, 1) ; // Bank1 Off
- status += MXL_SetGPIO(Tuner, 1, 0) ; // Bank2 On
- status += MXL_SetGPIO(Tuner, 4, 0) ; // Bank3 On
+ status += MXL_ControlWrite(fe, DAC_A_ENABLE, 0) ; // Bank4 Off
+ status += MXL_ControlWrite(fe, DAC_DIN_B, 0) ;
+ status += MXL_SetGPIO(fe, 3, 1) ; // Bank1 Off
+ status += MXL_SetGPIO(fe, 1, 0) ; // Bank2 On
+ status += MXL_SetGPIO(fe, 4, 0) ; // Bank3 On
}
- if (Tuner->RF_IN >= 360000000 && Tuner->RF_IN < 560000000)
+ if (state->RF_IN >= 360000000 && state->RF_IN < 560000000)
{
- status += MXL_ControlWrite(Tuner, DAC_A_ENABLE, 0) ; // Bank4 Off
- status += MXL_ControlWrite(Tuner, DAC_DIN_B, 0) ;
- status += MXL_SetGPIO(Tuner, 3, 1) ; // Bank1 Off
- status += MXL_SetGPIO(Tuner, 1, 1) ; // Bank2 Off
- status += MXL_SetGPIO(Tuner, 4, 0) ; // Bank3 On
+ status += MXL_ControlWrite(fe, DAC_A_ENABLE, 0) ; // Bank4 Off
+ status += MXL_ControlWrite(fe, DAC_DIN_B, 0) ;
+ status += MXL_SetGPIO(fe, 3, 1) ; // Bank1 Off
+ status += MXL_SetGPIO(fe, 1, 1) ; // Bank2 Off
+ status += MXL_SetGPIO(fe, 4, 0) ; // Bank3 On
}
- if (Tuner->RF_IN >= 560000000 && Tuner->RF_IN < 580000000)
+ if (state->RF_IN >= 560000000 && state->RF_IN < 580000000)
{
- status += MXL_ControlWrite(Tuner, DAC_A_ENABLE, 1) ; // Bank4 On
- status += MXL_ControlWrite(Tuner, DAC_DIN_B, 29) ;
- status += MXL_SetGPIO(Tuner, 3, 1) ; // Bank1 Off
- status += MXL_SetGPIO(Tuner, 1, 1) ; // Bank2 Off
- status += MXL_SetGPIO(Tuner, 4, 0) ; // Bank3 On
+ status += MXL_ControlWrite(fe, DAC_A_ENABLE, 1) ; // Bank4 On
+ status += MXL_ControlWrite(fe, DAC_DIN_B, 29) ;
+ status += MXL_SetGPIO(fe, 3, 1) ; // Bank1 Off
+ status += MXL_SetGPIO(fe, 1, 1) ; // Bank2 Off
+ status += MXL_SetGPIO(fe, 4, 0) ; // Bank3 On
}
- if (Tuner->RF_IN >= 580000000 && Tuner->RF_IN < 630000000)
+ if (state->RF_IN >= 580000000 && state->RF_IN < 630000000)
{
- status += MXL_ControlWrite(Tuner, DAC_A_ENABLE, 1) ; // Bank4 On
- status += MXL_ControlWrite(Tuner, DAC_DIN_B, 0) ;
- status += MXL_SetGPIO(Tuner, 3, 1) ; // Bank1 Off
- status += MXL_SetGPIO(Tuner, 1, 1) ; // Bank2 Off
- status += MXL_SetGPIO(Tuner, 4, 0) ; // Bank3 On
+ status += MXL_ControlWrite(fe, DAC_A_ENABLE, 1) ; // Bank4 On
+ status += MXL_ControlWrite(fe, DAC_DIN_B, 0) ;
+ status += MXL_SetGPIO(fe, 3, 1) ; // Bank1 Off
+ status += MXL_SetGPIO(fe, 1, 1) ; // Bank2 Off
+ status += MXL_SetGPIO(fe, 4, 0) ; // Bank3 On
}
- if (Tuner->RF_IN >= 630000000 && Tuner->RF_IN < 700000000)
+ if (state->RF_IN >= 630000000 && state->RF_IN < 700000000)
{
- status += MXL_ControlWrite(Tuner, DAC_A_ENABLE, 1) ; // Bank4 On
- status += MXL_ControlWrite(Tuner, DAC_DIN_B, 16) ;
- status += MXL_SetGPIO(Tuner, 3, 1) ; // Bank1 Off
- status += MXL_SetGPIO(Tuner, 1, 1) ; // Bank2 Off
- status += MXL_SetGPIO(Tuner, 4, 1) ; // Bank3 Off
+ status += MXL_ControlWrite(fe, DAC_A_ENABLE, 1) ; // Bank4 On
+ status += MXL_ControlWrite(fe, DAC_DIN_B, 16) ;
+ status += MXL_SetGPIO(fe, 3, 1) ; // Bank1 Off
+ status += MXL_SetGPIO(fe, 1, 1) ; // Bank2 Off
+ status += MXL_SetGPIO(fe, 4, 1) ; // Bank3 Off
}
- if (Tuner->RF_IN >= 700000000 && Tuner->RF_IN < 760000000)
+ if (state->RF_IN >= 700000000 && state->RF_IN < 760000000)
{
- status += MXL_ControlWrite(Tuner, DAC_A_ENABLE, 1) ; // Bank4 On
- status += MXL_ControlWrite(Tuner, DAC_DIN_B, 7) ;
- status += MXL_SetGPIO(Tuner, 3, 1) ; // Bank1 Off
- status += MXL_SetGPIO(Tuner, 1, 1) ; // Bank2 Off
- status += MXL_SetGPIO(Tuner, 4, 1) ; // Bank3 Off
+ status += MXL_ControlWrite(fe, DAC_A_ENABLE, 1) ; // Bank4 On
+ status += MXL_ControlWrite(fe, DAC_DIN_B, 7) ;
+ status += MXL_SetGPIO(fe, 3, 1) ; // Bank1 Off
+ status += MXL_SetGPIO(fe, 1, 1) ; // Bank2 Off
+ status += MXL_SetGPIO(fe, 4, 1) ; // Bank3 Off
}
- if (Tuner->RF_IN >= 760000000 && Tuner->RF_IN <= 900000000)
+ if (state->RF_IN >= 760000000 && state->RF_IN <= 900000000)
{
- status += MXL_ControlWrite(Tuner, DAC_A_ENABLE, 1) ; // Bank4 On
- status += MXL_ControlWrite(Tuner, DAC_DIN_B, 0) ;
- status += MXL_SetGPIO(Tuner, 3, 1) ; // Bank1 Off
- status += MXL_SetGPIO(Tuner, 1, 1) ; // Bank2 Off
- status += MXL_SetGPIO(Tuner, 4, 1) ; // Bank3 Off
+ status += MXL_ControlWrite(fe, DAC_A_ENABLE, 1) ; // Bank4 On
+ status += MXL_ControlWrite(fe, DAC_DIN_B, 0) ;
+ status += MXL_SetGPIO(fe, 3, 1) ; // Bank1 Off
+ status += MXL_SetGPIO(fe, 1, 1) ; // Bank2 Off
+ status += MXL_SetGPIO(fe, 4, 1) ; // Bank3 Off
}
}
if (Tuner->TF_Type == MXL_TF_C_H) // Tracking Filter type C-H for Hauppauge only
{
- status += MXL_ControlWrite(Tuner, DAC_DIN_A, 0) ;
+ status += MXL_ControlWrite(fe, DAC_DIN_A, 0) ;
- if (Tuner->RF_IN >= 43000000 && Tuner->RF_IN < 150000000)
+ if (state->RF_IN >= 43000000 && state->RF_IN < 150000000)
{
- status += MXL_ControlWrite(Tuner, DAC_A_ENABLE, 0) ; // Bank4 Off
- status += MXL_SetGPIO(Tuner, 4, 0) ; // Bank1 On
- status += MXL_SetGPIO(Tuner, 3, 1) ; // Bank2 Off
- status += MXL_SetGPIO(Tuner, 1, 1) ; // Bank3 Off
+ status += MXL_ControlWrite(fe, DAC_A_ENABLE, 0) ; // Bank4 Off
+ status += MXL_SetGPIO(fe, 4, 0) ; // Bank1 On
+ status += MXL_SetGPIO(fe, 3, 1) ; // Bank2 Off
+ status += MXL_SetGPIO(fe, 1, 1) ; // Bank3 Off
}
- if (Tuner->RF_IN >= 150000000 && Tuner->RF_IN < 280000000)
+ if (state->RF_IN >= 150000000 && state->RF_IN < 280000000)
{
- status += MXL_ControlWrite(Tuner, DAC_A_ENABLE, 0) ; // Bank4 Off
- status += MXL_SetGPIO(Tuner, 4, 1) ; // Bank1 Off
- status += MXL_SetGPIO(Tuner, 3, 0) ; // Bank2 On
- status += MXL_SetGPIO(Tuner, 1, 1) ; // Bank3 Off
+ status += MXL_ControlWrite(fe, DAC_A_ENABLE, 0) ; // Bank4 Off
+ status += MXL_SetGPIO(fe, 4, 1) ; // Bank1 Off
+ status += MXL_SetGPIO(fe, 3, 0) ; // Bank2 On
+ status += MXL_SetGPIO(fe, 1, 1) ; // Bank3 Off
}
- if (Tuner->RF_IN >= 280000000 && Tuner->RF_IN < 360000000)
+ if (state->RF_IN >= 280000000 && state->RF_IN < 360000000)
{
- status += MXL_ControlWrite(Tuner, DAC_A_ENABLE, 0) ; // Bank4 Off
- status += MXL_SetGPIO(Tuner, 4, 1) ; // Bank1 Off
- status += MXL_SetGPIO(Tuner, 3, 0) ; // Bank2 On
- status += MXL_SetGPIO(Tuner, 1, 0) ; // Bank3 On
+ status += MXL_ControlWrite(fe, DAC_A_ENABLE, 0) ; // Bank4 Off
+ status += MXL_SetGPIO(fe, 4, 1) ; // Bank1 Off
+ status += MXL_SetGPIO(fe, 3, 0) ; // Bank2 On
+ status += MXL_SetGPIO(fe, 1, 0) ; // Bank3 On
}
- if (Tuner->RF_IN >= 360000000 && Tuner->RF_IN < 560000000)
+ if (state->RF_IN >= 360000000 && state->RF_IN < 560000000)
{
- status += MXL_ControlWrite(Tuner, DAC_A_ENABLE, 0) ; // Bank4 Off
- status += MXL_SetGPIO(Tuner, 4, 1) ; // Bank1 Off
- status += MXL_SetGPIO(Tuner, 3, 1) ; // Bank2 Off
- status += MXL_SetGPIO(Tuner, 1, 0) ; // Bank3 On
+ status += MXL_ControlWrite(fe, DAC_A_ENABLE, 0) ; // Bank4 Off
+ status += MXL_SetGPIO(fe, 4, 1) ; // Bank1 Off
+ status += MXL_SetGPIO(fe, 3, 1) ; // Bank2 Off
+ status += MXL_SetGPIO(fe, 1, 0) ; // Bank3 On
}
- if (Tuner->RF_IN >= 560000000 && Tuner->RF_IN < 580000000)
+ if (state->RF_IN >= 560000000 && state->RF_IN < 580000000)
{
- status += MXL_ControlWrite(Tuner, DAC_A_ENABLE, 1) ; // Bank4 On
- status += MXL_SetGPIO(Tuner, 4, 1) ; // Bank1 Off
- status += MXL_SetGPIO(Tuner, 3, 1) ; // Bank2 Off
- status += MXL_SetGPIO(Tuner, 1, 0) ; // Bank3 On
+ status += MXL_ControlWrite(fe, DAC_A_ENABLE, 1) ; // Bank4 On
+ status += MXL_SetGPIO(fe, 4, 1) ; // Bank1 Off
+ status += MXL_SetGPIO(fe, 3, 1) ; // Bank2 Off
+ status += MXL_SetGPIO(fe, 1, 0) ; // Bank3 On
}
- if (Tuner->RF_IN >= 580000000 && Tuner->RF_IN < 630000000)
+ if (state->RF_IN >= 580000000 && state->RF_IN < 630000000)
{
- status += MXL_ControlWrite(Tuner, DAC_A_ENABLE, 1) ; // Bank4 On
- status += MXL_SetGPIO(Tuner, 4, 1) ; // Bank1 Off
- status += MXL_SetGPIO(Tuner, 3, 1) ; // Bank2 Off
- status += MXL_SetGPIO(Tuner, 1, 0) ; // Bank3 On
+ status += MXL_ControlWrite(fe, DAC_A_ENABLE, 1) ; // Bank4 On
+ status += MXL_SetGPIO(fe, 4, 1) ; // Bank1 Off
+ status += MXL_SetGPIO(fe, 3, 1) ; // Bank2 Off
+ status += MXL_SetGPIO(fe, 1, 0) ; // Bank3 On
}
- if (Tuner->RF_IN >= 630000000 && Tuner->RF_IN < 700000000)
+ if (state->RF_IN >= 630000000 && state->RF_IN < 700000000)
{
- status += MXL_ControlWrite(Tuner, DAC_A_ENABLE, 1) ; // Bank4 On
- status += MXL_SetGPIO(Tuner, 4, 1) ; // Bank1 Off
- status += MXL_SetGPIO(Tuner, 3, 1) ; // Bank2 Off
- status += MXL_SetGPIO(Tuner, 1, 1) ; // Bank3 Off
+ status += MXL_ControlWrite(fe, DAC_A_ENABLE, 1) ; // Bank4 On
+ status += MXL_SetGPIO(fe, 4, 1) ; // Bank1 Off
+ status += MXL_SetGPIO(fe, 3, 1) ; // Bank2 Off
+ status += MXL_SetGPIO(fe, 1, 1) ; // Bank3 Off
}
- if (Tuner->RF_IN >= 700000000 && Tuner->RF_IN < 760000000)
+ if (state->RF_IN >= 700000000 && state->RF_IN < 760000000)
{
- status += MXL_ControlWrite(Tuner, DAC_A_ENABLE, 1) ; // Bank4 On
- status += MXL_SetGPIO(Tuner, 4, 1) ; // Bank1 Off
- status += MXL_SetGPIO(Tuner, 3, 1) ; // Bank2 Off
- status += MXL_SetGPIO(Tuner, 1, 1) ; // Bank3 Off
+ status += MXL_ControlWrite(fe, DAC_A_ENABLE, 1) ; // Bank4 On
+ status += MXL_SetGPIO(fe, 4, 1) ; // Bank1 Off
+ status += MXL_SetGPIO(fe, 3, 1) ; // Bank2 Off
+ status += MXL_SetGPIO(fe, 1, 1) ; // Bank3 Off
}
- if (Tuner->RF_IN >= 760000000 && Tuner->RF_IN <= 900000000)
+ if (state->RF_IN >= 760000000 && state->RF_IN <= 900000000)
{
- status += MXL_ControlWrite(Tuner, DAC_A_ENABLE, 1) ; // Bank4 On
- status += MXL_SetGPIO(Tuner, 4, 1) ; // Bank1 Off
- status += MXL_SetGPIO(Tuner, 3, 1) ; // Bank2 Off
- status += MXL_SetGPIO(Tuner, 1, 1) ; // Bank3 Off
+ status += MXL_ControlWrite(fe, DAC_A_ENABLE, 1) ; // Bank4 On
+ status += MXL_SetGPIO(fe, 4, 1) ; // Bank1 Off
+ status += MXL_SetGPIO(fe, 3, 1) ; // Bank2 Off
+ status += MXL_SetGPIO(fe, 1, 1) ; // Bank3 Off
}
}
if (Tuner->TF_Type == MXL_TF_D) // Tracking Filter type D
{
- status += MXL_ControlWrite(Tuner, DAC_DIN_B, 0) ;
+ status += MXL_ControlWrite(fe, DAC_DIN_B, 0) ;
- if (Tuner->RF_IN >= 43000000 && Tuner->RF_IN < 174000000)
+ if (state->RF_IN >= 43000000 && state->RF_IN < 174000000)
{
- status += MXL_ControlWrite(Tuner, DAC_B_ENABLE, 0) ; // Bank4 Off
- status += MXL_SetGPIO(Tuner, 4, 0) ; // Bank1 On
- status += MXL_SetGPIO(Tuner, 1, 1) ; // Bank2 Off
- status += MXL_SetGPIO(Tuner, 3, 1) ; // Bank3 Off
+ status += MXL_ControlWrite(fe, DAC_B_ENABLE, 0) ; // Bank4 Off
+ status += MXL_SetGPIO(fe, 4, 0) ; // Bank1 On
+ status += MXL_SetGPIO(fe, 1, 1) ; // Bank2 Off
+ status += MXL_SetGPIO(fe, 3, 1) ; // Bank3 Off
}
- if (Tuner->RF_IN >= 174000000 && Tuner->RF_IN < 250000000)
+ if (state->RF_IN >= 174000000 && state->RF_IN < 250000000)
{
- status += MXL_ControlWrite(Tuner, DAC_B_ENABLE, 0) ; // Bank4 Off
- status += MXL_SetGPIO(Tuner, 4, 0) ; // Bank1 On
- status += MXL_SetGPIO(Tuner, 1, 0) ; // Bank2 On
- status += MXL_SetGPIO(Tuner, 3, 1) ; // Bank3 Off
+ status += MXL_ControlWrite(fe, DAC_B_ENABLE, 0) ; // Bank4 Off
+ status += MXL_SetGPIO(fe, 4, 0) ; // Bank1 On
+ status += MXL_SetGPIO(fe, 1, 0) ; // Bank2 On
+ status += MXL_SetGPIO(fe, 3, 1) ; // Bank3 Off
}
- if (Tuner->RF_IN >= 250000000 && Tuner->RF_IN < 310000000)
+ if (state->RF_IN >= 250000000 && state->RF_IN < 310000000)
{
- status += MXL_ControlWrite(Tuner, DAC_B_ENABLE, 0) ; // Bank4 Off
- status += MXL_SetGPIO(Tuner, 4, 1) ; // Bank1 Off
- status += MXL_SetGPIO(Tuner, 1, 0) ; // Bank2 On
- status += MXL_SetGPIO(Tuner, 3, 1) ; // Bank3 Off
+ status += MXL_ControlWrite(fe, DAC_B_ENABLE, 0) ; // Bank4 Off
+ status += MXL_SetGPIO(fe, 4, 1) ; // Bank1 Off
+ status += MXL_SetGPIO(fe, 1, 0) ; // Bank2 On
+ status += MXL_SetGPIO(fe, 3, 1) ; // Bank3 Off
}
- if (Tuner->RF_IN >= 310000000 && Tuner->RF_IN < 360000000)
+ if (state->RF_IN >= 310000000 && state->RF_IN < 360000000)
{
- status += MXL_ControlWrite(Tuner, DAC_B_ENABLE, 0) ; // Bank4 Off
- status += MXL_SetGPIO(Tuner, 4, 1) ; // Bank1 Off
- status += MXL_SetGPIO(Tuner, 1, 0) ; // Bank2 On
- status += MXL_SetGPIO(Tuner, 3, 0) ; // Bank3 On
+ status += MXL_ControlWrite(fe, DAC_B_ENABLE, 0) ; // Bank4 Off
+ status += MXL_SetGPIO(fe, 4, 1) ; // Bank1 Off
+ status += MXL_SetGPIO(fe, 1, 0) ; // Bank2 On
+ status += MXL_SetGPIO(fe, 3, 0) ; // Bank3 On
}
- if (Tuner->RF_IN >= 360000000 && Tuner->RF_IN < 470000000)
+ if (state->RF_IN >= 360000000 && state->RF_IN < 470000000)
{
- status += MXL_ControlWrite(Tuner, DAC_B_ENABLE, 0) ; // Bank4 Off
- status += MXL_SetGPIO(Tuner, 4, 1) ; // Bank1 Off
- status += MXL_SetGPIO(Tuner, 1, 1) ; // Bank2 Off
- status += MXL_SetGPIO(Tuner, 3, 0) ; // Bank3 On
+ status += MXL_ControlWrite(fe, DAC_B_ENABLE, 0) ; // Bank4 Off
+ status += MXL_SetGPIO(fe, 4, 1) ; // Bank1 Off
+ status += MXL_SetGPIO(fe, 1, 1) ; // Bank2 Off
+ status += MXL_SetGPIO(fe, 3, 0) ; // Bank3 On
}
- if (Tuner->RF_IN >= 470000000 && Tuner->RF_IN < 640000000)
+ if (state->RF_IN >= 470000000 && state->RF_IN < 640000000)
{
- status += MXL_ControlWrite(Tuner, DAC_B_ENABLE, 1) ; // Bank4 On
- status += MXL_SetGPIO(Tuner, 4, 1) ; // Bank1 Off
- status += MXL_SetGPIO(Tuner, 1, 1) ; // Bank2 Off
- status += MXL_SetGPIO(Tuner, 3, 0) ; // Bank3 On
+ status += MXL_ControlWrite(fe, DAC_B_ENABLE, 1) ; // Bank4 On
+ status += MXL_SetGPIO(fe, 4, 1) ; // Bank1 Off
+ status += MXL_SetGPIO(fe, 1, 1) ; // Bank2 Off
+ status += MXL_SetGPIO(fe, 3, 0) ; // Bank3 On
}
- if (Tuner->RF_IN >= 640000000 && Tuner->RF_IN <= 900000000)
+ if (state->RF_IN >= 640000000 && state->RF_IN <= 900000000)
{
- status += MXL_ControlWrite(Tuner, DAC_B_ENABLE, 1) ; // Bank4 On
- status += MXL_SetGPIO(Tuner, 4, 1) ; // Bank1 Off
- status += MXL_SetGPIO(Tuner, 1, 1) ; // Bank2 Off
- status += MXL_SetGPIO(Tuner, 3, 1) ; // Bank3 Off
+ status += MXL_ControlWrite(fe, DAC_B_ENABLE, 1) ; // Bank4 On
+ status += MXL_SetGPIO(fe, 4, 1) ; // Bank1 Off
+ status += MXL_SetGPIO(fe, 1, 1) ; // Bank2 Off
+ status += MXL_SetGPIO(fe, 3, 1) ; // Bank3 Off
}
}
if (Tuner->TF_Type == MXL_TF_D_L) // Tracking Filter type D-L for Lumanate ONLY change for 2.6.3
{
- status += MXL_ControlWrite(Tuner, DAC_DIN_A, 0) ;
+ status += MXL_ControlWrite(fe, DAC_DIN_A, 0) ;
// if UHF and terrestrial => Turn off Tracking Filter
- if (Tuner->RF_IN >= 471000000 && (Tuner->RF_IN - 471000000)%6000000 != 0)
+ if (state->RF_IN >= 471000000 && (state->RF_IN - 471000000)%6000000 != 0)
{
// Turn off all the banks
- status += MXL_SetGPIO(Tuner, 3, 1) ;
- status += MXL_SetGPIO(Tuner, 1, 1) ;
- status += MXL_SetGPIO(Tuner, 4, 1) ;
- status += MXL_ControlWrite(Tuner, DAC_A_ENABLE, 0) ;
+ status += MXL_SetGPIO(fe, 3, 1) ;
+ status += MXL_SetGPIO(fe, 1, 1) ;
+ status += MXL_SetGPIO(fe, 4, 1) ;
+ status += MXL_ControlWrite(fe, DAC_A_ENABLE, 0) ;
- status += MXL_ControlWrite(Tuner, AGC_IF, 10) ;
+ status += MXL_ControlWrite(fe, AGC_IF, 10) ;
}
else // if VHF or cable => Turn on Tracking Filter
{
- if (Tuner->RF_IN >= 43000000 && Tuner->RF_IN < 140000000)
+ if (state->RF_IN >= 43000000 && state->RF_IN < 140000000)
{
- status += MXL_ControlWrite(Tuner, DAC_A_ENABLE, 0) ; // Bank4 Off
- status += MXL_SetGPIO(Tuner, 4, 1) ; // Bank1 On
- status += MXL_SetGPIO(Tuner, 1, 1) ; // Bank2 Off
- status += MXL_SetGPIO(Tuner, 3, 0) ; // Bank3 Off
+ status += MXL_ControlWrite(fe, DAC_A_ENABLE, 0) ; // Bank4 Off
+ status += MXL_SetGPIO(fe, 4, 1) ; // Bank1 On
+ status += MXL_SetGPIO(fe, 1, 1) ; // Bank2 Off
+ status += MXL_SetGPIO(fe, 3, 0) ; // Bank3 Off
}
- if (Tuner->RF_IN >= 140000000 && Tuner->RF_IN < 240000000)
+ if (state->RF_IN >= 140000000 && state->RF_IN < 240000000)
{
- status += MXL_ControlWrite(Tuner, DAC_A_ENABLE, 0) ; // Bank4 Off
- status += MXL_SetGPIO(Tuner, 4, 1) ; // Bank1 On
- status += MXL_SetGPIO(Tuner, 1, 0) ; // Bank2 On
- status += MXL_SetGPIO(Tuner, 3, 0) ; // Bank3 Off
+ status += MXL_ControlWrite(fe, DAC_A_ENABLE, 0) ; // Bank4 Off
+ status += MXL_SetGPIO(fe, 4, 1) ; // Bank1 On
+ status += MXL_SetGPIO(fe, 1, 0) ; // Bank2 On
+ status += MXL_SetGPIO(fe, 3, 0) ; // Bank3 Off
}
- if (Tuner->RF_IN >= 240000000 && Tuner->RF_IN < 340000000)
+ if (state->RF_IN >= 240000000 && state->RF_IN < 340000000)
{
- status += MXL_ControlWrite(Tuner, DAC_A_ENABLE, 0) ; // Bank4 Off
- status += MXL_SetGPIO(Tuner, 4, 0) ; // Bank1 Off
- status += MXL_SetGPIO(Tuner, 1, 1) ; // Bank2 On
- status += MXL_SetGPIO(Tuner, 3, 0) ; // Bank3 Off
+ status += MXL_ControlWrite(fe, DAC_A_ENABLE, 0) ; // Bank4 Off
+ status += MXL_SetGPIO(fe, 4, 0) ; // Bank1 Off
+ status += MXL_SetGPIO(fe, 1, 1) ; // Bank2 On
+ status += MXL_SetGPIO(fe, 3, 0) ; // Bank3 Off
}
- if (Tuner->RF_IN >= 340000000 && Tuner->RF_IN < 430000000)
+ if (state->RF_IN >= 340000000 && state->RF_IN < 430000000)
{
- status += MXL_ControlWrite(Tuner, DAC_A_ENABLE, 0) ; // Bank4 Off
- status += MXL_SetGPIO(Tuner, 4, 0) ; // Bank1 Off
- status += MXL_SetGPIO(Tuner, 1, 0) ; // Bank2 On
- status += MXL_SetGPIO(Tuner, 3, 1) ; // Bank3 On
+ status += MXL_ControlWrite(fe, DAC_A_ENABLE, 0) ; // Bank4 Off
+ status += MXL_SetGPIO(fe, 4, 0) ; // Bank1 Off
+ status += MXL_SetGPIO(fe, 1, 0) ; // Bank2 On
+ status += MXL_SetGPIO(fe, 3, 1) ; // Bank3 On
}
- if (Tuner->RF_IN >= 430000000 && Tuner->RF_IN < 470000000)
+ if (state->RF_IN >= 430000000 && state->RF_IN < 470000000)
{
- status += MXL_ControlWrite(Tuner, DAC_A_ENABLE, 1) ; // Bank4 Off
- status += MXL_SetGPIO(Tuner, 4, 1) ; // Bank1 Off
- status += MXL_SetGPIO(Tuner, 1, 0) ; // Bank2 Off
- status += MXL_SetGPIO(Tuner, 3, 1) ; // Bank3 On
+ status += MXL_ControlWrite(fe, DAC_A_ENABLE, 1) ; // Bank4 Off
+ status += MXL_SetGPIO(fe, 4, 1) ; // Bank1 Off
+ status += MXL_SetGPIO(fe, 1, 0) ; // Bank2 Off
+ status += MXL_SetGPIO(fe, 3, 1) ; // Bank3 On
}
- if (Tuner->RF_IN >= 470000000 && Tuner->RF_IN < 570000000)
+ if (state->RF_IN >= 470000000 && state->RF_IN < 570000000)
{
- status += MXL_ControlWrite(Tuner, DAC_A_ENABLE, 1) ; // Bank4 On
- status += MXL_SetGPIO(Tuner, 4, 0) ; // Bank1 Off
- status += MXL_SetGPIO(Tuner, 1, 0) ; // Bank2 Off
- status += MXL_SetGPIO(Tuner, 3, 1) ; // Bank3 On
+ status += MXL_ControlWrite(fe, DAC_A_ENABLE, 1) ; // Bank4 On
+ status += MXL_SetGPIO(fe, 4, 0) ; // Bank1 Off
+ status += MXL_SetGPIO(fe, 1, 0) ; // Bank2 Off
+ status += MXL_SetGPIO(fe, 3, 1) ; // Bank3 On
}
- if (Tuner->RF_IN >= 570000000 && Tuner->RF_IN < 620000000)
+ if (state->RF_IN >= 570000000 && state->RF_IN < 620000000)
{
- status += MXL_ControlWrite(Tuner, DAC_A_ENABLE, 0) ; // Bank4 On
- status += MXL_SetGPIO(Tuner, 4, 0) ; // Bank1 Off
- status += MXL_SetGPIO(Tuner, 1, 1) ; // Bank2 Off
- status += MXL_SetGPIO(Tuner, 3, 1) ; // Bank3 Offq
+ status += MXL_ControlWrite(fe, DAC_A_ENABLE, 0) ; // Bank4 On
+ status += MXL_SetGPIO(fe, 4, 0) ; // Bank1 Off
+ status += MXL_SetGPIO(fe, 1, 1) ; // Bank2 Off
+ status += MXL_SetGPIO(fe, 3, 1) ; // Bank3 Offq
}
- if (Tuner->RF_IN >= 620000000 && Tuner->RF_IN < 760000000)
+ if (state->RF_IN >= 620000000 && state->RF_IN < 760000000)
{
- status += MXL_ControlWrite(Tuner, DAC_A_ENABLE, 1) ; // Bank4 On
- status += MXL_SetGPIO(Tuner, 4, 0) ; // Bank1 Off
- status += MXL_SetGPIO(Tuner, 1, 1) ; // Bank2 Off
- status += MXL_SetGPIO(Tuner, 3, 1) ; // Bank3 Off
+ status += MXL_ControlWrite(fe, DAC_A_ENABLE, 1) ; // Bank4 On
+ status += MXL_SetGPIO(fe, 4, 0) ; // Bank1 Off
+ status += MXL_SetGPIO(fe, 1, 1) ; // Bank2 Off
+ status += MXL_SetGPIO(fe, 3, 1) ; // Bank3 Off
}
- if (Tuner->RF_IN >= 760000000 && Tuner->RF_IN <= 900000000)
+ if (state->RF_IN >= 760000000 && state->RF_IN <= 900000000)
{
- status += MXL_ControlWrite(Tuner, DAC_A_ENABLE, 1) ; // Bank4 On
- status += MXL_SetGPIO(Tuner, 4, 1) ; // Bank1 Off
- status += MXL_SetGPIO(Tuner, 1, 1) ; // Bank2 Off
- status += MXL_SetGPIO(Tuner, 3, 1) ; // Bank3 Off
+ status += MXL_ControlWrite(fe, DAC_A_ENABLE, 1) ; // Bank4 On
+ status += MXL_SetGPIO(fe, 4, 1) ; // Bank1 Off
+ status += MXL_SetGPIO(fe, 1, 1) ; // Bank2 Off
+ status += MXL_SetGPIO(fe, 3, 1) ; // Bank3 Off
}
}
}
if (Tuner->TF_Type == MXL_TF_E) // Tracking Filter type E
{
- status += MXL_ControlWrite(Tuner, DAC_DIN_B, 0) ;
+ status += MXL_ControlWrite(fe, DAC_DIN_B, 0) ;
- if (Tuner->RF_IN >= 43000000 && Tuner->RF_IN < 174000000)
+ if (state->RF_IN >= 43000000 && state->RF_IN < 174000000)
{
- status += MXL_ControlWrite(Tuner, DAC_B_ENABLE, 0) ; // Bank4 Off
- status += MXL_SetGPIO(Tuner, 4, 0) ; // Bank1 On
- status += MXL_SetGPIO(Tuner, 1, 1) ; // Bank2 Off
- status += MXL_SetGPIO(Tuner, 3, 1) ; // Bank3 Off
+ status += MXL_ControlWrite(fe, DAC_B_ENABLE, 0) ; // Bank4 Off
+ status += MXL_SetGPIO(fe, 4, 0) ; // Bank1 On
+ status += MXL_SetGPIO(fe, 1, 1) ; // Bank2 Off
+ status += MXL_SetGPIO(fe, 3, 1) ; // Bank3 Off
}
- if (Tuner->RF_IN >= 174000000 && Tuner->RF_IN < 250000000)
+ if (state->RF_IN >= 174000000 && state->RF_IN < 250000000)
{
- status += MXL_ControlWrite(Tuner, DAC_B_ENABLE, 0) ; // Bank4 Off
- status += MXL_SetGPIO(Tuner, 4, 0) ; // Bank1 On
- status += MXL_SetGPIO(Tuner, 1, 0) ; // Bank2 On
- status += MXL_SetGPIO(Tuner, 3, 1) ; // Bank3 Off
+ status += MXL_ControlWrite(fe, DAC_B_ENABLE, 0) ; // Bank4 Off
+ status += MXL_SetGPIO(fe, 4, 0) ; // Bank1 On
+ status += MXL_SetGPIO(fe, 1, 0) ; // Bank2 On
+ status += MXL_SetGPIO(fe, 3, 1) ; // Bank3 Off
}
- if (Tuner->RF_IN >= 250000000 && Tuner->RF_IN < 310000000)
+ if (state->RF_IN >= 250000000 && state->RF_IN < 310000000)
{
- status += MXL_ControlWrite(Tuner, DAC_B_ENABLE, 0) ; // Bank4 Off
- status += MXL_SetGPIO(Tuner, 4, 1) ; // Bank1 Off
- status += MXL_SetGPIO(Tuner, 1, 0) ; // Bank2 On
- status += MXL_SetGPIO(Tuner, 3, 1) ; // Bank3 Off
+ status += MXL_ControlWrite(fe, DAC_B_ENABLE, 0) ; // Bank4 Off
+ status += MXL_SetGPIO(fe, 4, 1) ; // Bank1 Off
+ status += MXL_SetGPIO(fe, 1, 0) ; // Bank2 On
+ status += MXL_SetGPIO(fe, 3, 1) ; // Bank3 Off
}
- if (Tuner->RF_IN >= 310000000 && Tuner->RF_IN < 360000000)
+ if (state->RF_IN >= 310000000 && state->RF_IN < 360000000)
{
- status += MXL_ControlWrite(Tuner, DAC_B_ENABLE, 0) ; // Bank4 Off
- status += MXL_SetGPIO(Tuner, 4, 1) ; // Bank1 Off
- status += MXL_SetGPIO(Tuner, 1, 0) ; // Bank2 On
- status += MXL_SetGPIO(Tuner, 3, 0) ; // Bank3 On
+ status += MXL_ControlWrite(fe, DAC_B_ENABLE, 0) ; // Bank4 Off
+ status += MXL_SetGPIO(fe, 4, 1) ; // Bank1 Off
+ status += MXL_SetGPIO(fe, 1, 0) ; // Bank2 On
+ status += MXL_SetGPIO(fe, 3, 0) ; // Bank3 On
}
- if (Tuner->RF_IN >= 360000000 && Tuner->RF_IN < 470000000)
+ if (state->RF_IN >= 360000000 && state->RF_IN < 470000000)
{
- status += MXL_ControlWrite(Tuner, DAC_B_ENABLE, 0) ; // Bank4 Off
- status += MXL_SetGPIO(Tuner, 4, 1) ; // Bank1 Off
- status += MXL_SetGPIO(Tuner, 1, 1) ; // Bank2 Off
- status += MXL_SetGPIO(Tuner, 3, 0) ; // Bank3 On
+ status += MXL_ControlWrite(fe, DAC_B_ENABLE, 0) ; // Bank4 Off
+ status += MXL_SetGPIO(fe, 4, 1) ; // Bank1 Off
+ status += MXL_SetGPIO(fe, 1, 1) ; // Bank2 Off
+ status += MXL_SetGPIO(fe, 3, 0) ; // Bank3 On
}
- if (Tuner->RF_IN >= 470000000 && Tuner->RF_IN < 640000000)
+ if (state->RF_IN >= 470000000 && state->RF_IN < 640000000)
{
- status += MXL_ControlWrite(Tuner, DAC_B_ENABLE, 1) ; // Bank4 On
- status += MXL_SetGPIO(Tuner, 4, 1) ; // Bank1 Off
- status += MXL_SetGPIO(Tuner, 1, 1) ; // Bank2 Off
- status += MXL_SetGPIO(Tuner, 3, 0) ; // Bank3 On
+ status += MXL_ControlWrite(fe, DAC_B_ENABLE, 1) ; // Bank4 On
+ status += MXL_SetGPIO(fe, 4, 1) ; // Bank1 Off
+ status += MXL_SetGPIO(fe, 1, 1) ; // Bank2 Off
+ status += MXL_SetGPIO(fe, 3, 0) ; // Bank3 On
}
- if (Tuner->RF_IN >= 640000000 && Tuner->RF_IN <= 900000000)
+ if (state->RF_IN >= 640000000 && state->RF_IN <= 900000000)
{
- status += MXL_ControlWrite(Tuner, DAC_B_ENABLE, 1) ; // Bank4 On
- status += MXL_SetGPIO(Tuner, 4, 1) ; // Bank1 Off
- status += MXL_SetGPIO(Tuner, 1, 1) ; // Bank2 Off
- status += MXL_SetGPIO(Tuner, 3, 1) ; // Bank3 Off
+ status += MXL_ControlWrite(fe, DAC_B_ENABLE, 1) ; // Bank4 On
+ status += MXL_SetGPIO(fe, 4, 1) ; // Bank1 Off
+ status += MXL_SetGPIO(fe, 1, 1) ; // Bank2 Off
+ status += MXL_SetGPIO(fe, 3, 1) ; // Bank3 Off
}
}
if (Tuner->TF_Type == MXL_TF_F) // Tracking Filter type F
{
- status += MXL_ControlWrite(Tuner, DAC_DIN_B, 0) ;
+ status += MXL_ControlWrite(fe, DAC_DIN_B, 0) ;
- if (Tuner->RF_IN >= 43000000 && Tuner->RF_IN < 160000000)
+ if (state->RF_IN >= 43000000 && state->RF_IN < 160000000)
{
- status += MXL_ControlWrite(Tuner, DAC_B_ENABLE, 0) ; // Bank4 Off
- status += MXL_SetGPIO(Tuner, 4, 0) ; // Bank1 On
- status += MXL_SetGPIO(Tuner, 1, 1) ; // Bank2 Off
- status += MXL_SetGPIO(Tuner, 3, 1) ; // Bank3 Off
+ status += MXL_ControlWrite(fe, DAC_B_ENABLE, 0) ; // Bank4 Off
+ status += MXL_SetGPIO(fe, 4, 0) ; // Bank1 On
+ status += MXL_SetGPIO(fe, 1, 1) ; // Bank2 Off
+ status += MXL_SetGPIO(fe, 3, 1) ; // Bank3 Off
}
- if (Tuner->RF_IN >= 160000000 && Tuner->RF_IN < 210000000)
+ if (state->RF_IN >= 160000000 && state->RF_IN < 210000000)
{
- status += MXL_ControlWrite(Tuner, DAC_B_ENABLE, 0) ; // Bank4 Off
- status += MXL_SetGPIO(Tuner, 4, 0) ; // Bank1 On
- status += MXL_SetGPIO(Tuner, 1, 0) ; // Bank2 On
- status += MXL_SetGPIO(Tuner, 3, 1) ; // Bank3 Off
+ status += MXL_ControlWrite(fe, DAC_B_ENABLE, 0) ; // Bank4 Off
+ status += MXL_SetGPIO(fe, 4, 0) ; // Bank1 On
+ status += MXL_SetGPIO(fe, 1, 0) ; // Bank2 On
+ status += MXL_SetGPIO(fe, 3, 1) ; // Bank3 Off
}
- if (Tuner->RF_IN >= 210000000 && Tuner->RF_IN < 300000000)
+ if (state->RF_IN >= 210000000 && state->RF_IN < 300000000)
{
- status += MXL_ControlWrite(Tuner, DAC_B_ENABLE, 0) ; // Bank4 Off
- status += MXL_SetGPIO(Tuner, 4, 1) ; // Bank1 Off
- status += MXL_SetGPIO(Tuner, 1, 0) ; // Bank2 On
- status += MXL_SetGPIO(Tuner, 3, 1) ; // Bank3 Off
+ status += MXL_ControlWrite(fe, DAC_B_ENABLE, 0) ; // Bank4 Off
+ status += MXL_SetGPIO(fe, 4, 1) ; // Bank1 Off
+ status += MXL_SetGPIO(fe, 1, 0) ; // Bank2 On
+ status += MXL_SetGPIO(fe, 3, 1) ; // Bank3 Off
}
- if (Tuner->RF_IN >= 300000000 && Tuner->RF_IN < 390000000)
+ if (state->RF_IN >= 300000000 && state->RF_IN < 390000000)
{
- status += MXL_ControlWrite(Tuner, DAC_B_ENABLE, 0) ; // Bank4 Off
- status += MXL_SetGPIO(Tuner, 4, 1) ; // Bank1 Off
- status += MXL_SetGPIO(Tuner, 1, 0) ; // Bank2 On
- status += MXL_SetGPIO(Tuner, 3, 0) ; // Bank3 On
+ status += MXL_ControlWrite(fe, DAC_B_ENABLE, 0) ; // Bank4 Off
+ status += MXL_SetGPIO(fe, 4, 1) ; // Bank1 Off
+ status += MXL_SetGPIO(fe, 1, 0) ; // Bank2 On
+ status += MXL_SetGPIO(fe, 3, 0) ; // Bank3 On
}
- if (Tuner->RF_IN >= 390000000 && Tuner->RF_IN < 515000000)
+ if (state->RF_IN >= 390000000 && state->RF_IN < 515000000)
{
- status += MXL_ControlWrite(Tuner, DAC_B_ENABLE, 0) ; // Bank4 Off
- status += MXL_SetGPIO(Tuner, 4, 1) ; // Bank1 Off
- status += MXL_SetGPIO(Tuner, 1, 1) ; // Bank2 Off
- status += MXL_SetGPIO(Tuner, 3, 0) ; // Bank3 On
+ status += MXL_ControlWrite(fe, DAC_B_ENABLE, 0) ; // Bank4 Off
+ status += MXL_SetGPIO(fe, 4, 1) ; // Bank1 Off
+ status += MXL_SetGPIO(fe, 1, 1) ; // Bank2 Off
+ status += MXL_SetGPIO(fe, 3, 0) ; // Bank3 On
}
- if (Tuner->RF_IN >= 515000000 && Tuner->RF_IN < 650000000)
+ if (state->RF_IN >= 515000000 && state->RF_IN < 650000000)
{
- status += MXL_ControlWrite(Tuner, DAC_B_ENABLE, 1) ; // Bank4 On
- status += MXL_SetGPIO(Tuner, 4, 1) ; // Bank1 Off
- status += MXL_SetGPIO(Tuner, 1, 1) ; // Bank2 Off
- status += MXL_SetGPIO(Tuner, 3, 0) ; // Bank3 On
+ status += MXL_ControlWrite(fe, DAC_B_ENABLE, 1) ; // Bank4 On
+ status += MXL_SetGPIO(fe, 4, 1) ; // Bank1 Off
+ status += MXL_SetGPIO(fe, 1, 1) ; // Bank2 Off
+ status += MXL_SetGPIO(fe, 3, 0) ; // Bank3 On
}
- if (Tuner->RF_IN >= 650000000 && Tuner->RF_IN <= 900000000)
+ if (state->RF_IN >= 650000000 && state->RF_IN <= 900000000)
{
- status += MXL_ControlWrite(Tuner, DAC_B_ENABLE, 1) ; // Bank4 On
- status += MXL_SetGPIO(Tuner, 4, 1) ; // Bank1 Off
- status += MXL_SetGPIO(Tuner, 1, 1) ; // Bank2 Off
- status += MXL_SetGPIO(Tuner, 3, 1) ; // Bank3 Off
+ status += MXL_ControlWrite(fe, DAC_B_ENABLE, 1) ; // Bank4 On
+ status += MXL_SetGPIO(fe, 4, 1) ; // Bank1 Off
+ status += MXL_SetGPIO(fe, 1, 1) ; // Bank2 Off
+ status += MXL_SetGPIO(fe, 3, 1) ; // Bank3 Off
}
}
if (Tuner->TF_Type == MXL_TF_E_2) // Tracking Filter type E_2
{
- status += MXL_ControlWrite(Tuner, DAC_DIN_B, 0) ;
+ status += MXL_ControlWrite(fe, DAC_DIN_B, 0) ;
- if (Tuner->RF_IN >= 43000000 && Tuner->RF_IN < 174000000)
+ if (state->RF_IN >= 43000000 && state->RF_IN < 174000000)
{
- status += MXL_ControlWrite(Tuner, DAC_B_ENABLE, 0) ; // Bank4 Off
- status += MXL_SetGPIO(Tuner, 4, 0) ; // Bank1 On
- status += MXL_SetGPIO(Tuner, 1, 1) ; // Bank2 Off
- status += MXL_SetGPIO(Tuner, 3, 1) ; // Bank3 Off
+ status += MXL_ControlWrite(fe, DAC_B_ENABLE, 0) ; // Bank4 Off
+ status += MXL_SetGPIO(fe, 4, 0) ; // Bank1 On
+ status += MXL_SetGPIO(fe, 1, 1) ; // Bank2 Off
+ status += MXL_SetGPIO(fe, 3, 1) ; // Bank3 Off
}
- if (Tuner->RF_IN >= 174000000 && Tuner->RF_IN < 250000000)
+ if (state->RF_IN >= 174000000 && state->RF_IN < 250000000)
{
- status += MXL_ControlWrite(Tuner, DAC_B_ENABLE, 0) ; // Bank4 Off
- status += MXL_SetGPIO(Tuner, 4, 0) ; // Bank1 On
- status += MXL_SetGPIO(Tuner, 1, 0) ; // Bank2 On
- status += MXL_SetGPIO(Tuner, 3, 1) ; // Bank3 Off
+ status += MXL_ControlWrite(fe, DAC_B_ENABLE, 0) ; // Bank4 Off
+ status += MXL_SetGPIO(fe, 4, 0) ; // Bank1 On
+ status += MXL_SetGPIO(fe, 1, 0) ; // Bank2 On
+ status += MXL_SetGPIO(fe, 3, 1) ; // Bank3 Off
}
- if (Tuner->RF_IN >= 250000000 && Tuner->RF_IN < 350000000)
+ if (state->RF_IN >= 250000000 && state->RF_IN < 350000000)
{
- status += MXL_ControlWrite(Tuner, DAC_B_ENABLE, 0) ; // Bank4 Off
- status += MXL_SetGPIO(Tuner, 4, 1) ; // Bank1 Off
- status += MXL_SetGPIO(Tuner, 1, 0) ; // Bank2 On
- status += MXL_SetGPIO(Tuner, 3, 1) ; // Bank3 Off
+ status += MXL_ControlWrite(fe, DAC_B_ENABLE, 0) ; // Bank4 Off
+ status += MXL_SetGPIO(fe, 4, 1) ; // Bank1 Off
+ status += MXL_SetGPIO(fe, 1, 0) ; // Bank2 On
+ status += MXL_SetGPIO(fe, 3, 1) ; // Bank3 Off
}
- if (Tuner->RF_IN >= 350000000 && Tuner->RF_IN < 400000000)
+ if (state->RF_IN >= 350000000 && state->RF_IN < 400000000)
{
- status += MXL_ControlWrite(Tuner, DAC_B_ENABLE, 0) ; // Bank4 Off
- status += MXL_SetGPIO(Tuner, 4, 1) ; // Bank1 Off
- status += MXL_SetGPIO(Tuner, 1, 0) ; // Bank2 On
- status += MXL_SetGPIO(Tuner, 3, 0) ; // Bank3 On
+ status += MXL_ControlWrite(fe, DAC_B_ENABLE, 0) ; // Bank4 Off
+ status += MXL_SetGPIO(fe, 4, 1) ; // Bank1 Off
+ status += MXL_SetGPIO(fe, 1, 0) ; // Bank2 On
+ status += MXL_SetGPIO(fe, 3, 0) ; // Bank3 On
}
- if (Tuner->RF_IN >= 400000000 && Tuner->RF_IN < 570000000)
+ if (state->RF_IN >= 400000000 && state->RF_IN < 570000000)
{
- status += MXL_ControlWrite(Tuner, DAC_B_ENABLE, 0) ; // Bank4 Off
- status += MXL_SetGPIO(Tuner, 4, 1) ; // Bank1 Off
- status += MXL_SetGPIO(Tuner, 1, 1) ; // Bank2 Off
- status += MXL_SetGPIO(Tuner, 3, 0) ; // Bank3 On
+ status += MXL_ControlWrite(fe, DAC_B_ENABLE, 0) ; // Bank4 Off
+ status += MXL_SetGPIO(fe, 4, 1) ; // Bank1 Off
+ status += MXL_SetGPIO(fe, 1, 1) ; // Bank2 Off
+ status += MXL_SetGPIO(fe, 3, 0) ; // Bank3 On
}
- if (Tuner->RF_IN >= 570000000 && Tuner->RF_IN < 770000000)
+ if (state->RF_IN >= 570000000 && state->RF_IN < 770000000)
{
- status += MXL_ControlWrite(Tuner, DAC_B_ENABLE, 1) ; // Bank4 On
- status += MXL_SetGPIO(Tuner, 4, 1) ; // Bank1 Off
- status += MXL_SetGPIO(Tuner, 1, 1) ; // Bank2 Off
- status += MXL_SetGPIO(Tuner, 3, 0) ; // Bank3 On
+ status += MXL_ControlWrite(fe, DAC_B_ENABLE, 1) ; // Bank4 On
+ status += MXL_SetGPIO(fe, 4, 1) ; // Bank1 Off
+ status += MXL_SetGPIO(fe, 1, 1) ; // Bank2 Off
+ status += MXL_SetGPIO(fe, 3, 0) ; // Bank3 On
}
- if (Tuner->RF_IN >= 770000000 && Tuner->RF_IN <= 900000000)
+ if (state->RF_IN >= 770000000 && state->RF_IN <= 900000000)
{
- status += MXL_ControlWrite(Tuner, DAC_B_ENABLE, 1) ; // Bank4 On
- status += MXL_SetGPIO(Tuner, 4, 1) ; // Bank1 Off
- status += MXL_SetGPIO(Tuner, 1, 1) ; // Bank2 Off
- status += MXL_SetGPIO(Tuner, 3, 1) ; // Bank3 Off
+ status += MXL_ControlWrite(fe, DAC_B_ENABLE, 1) ; // Bank4 On
+ status += MXL_SetGPIO(fe, 4, 1) ; // Bank1 Off
+ status += MXL_SetGPIO(fe, 1, 1) ; // Bank2 Off
+ status += MXL_SetGPIO(fe, 3, 1) ; // Bank3 Off
}
}
if (Tuner->TF_Type == MXL_TF_G) // Tracking Filter type G add for v2.6.8
{
- status += MXL_ControlWrite(Tuner, DAC_DIN_B, 0) ;
+ status += MXL_ControlWrite(fe, DAC_DIN_B, 0) ;
- if (Tuner->RF_IN >= 50000000 && Tuner->RF_IN < 190000000)
+ if (state->RF_IN >= 50000000 && state->RF_IN < 190000000)
{
- status += MXL_ControlWrite(Tuner, DAC_B_ENABLE, 0) ; // Bank4 Off
- status += MXL_SetGPIO(Tuner, 4, 0) ; // Bank1 On
- status += MXL_SetGPIO(Tuner, 1, 1) ; // Bank2 Off
- status += MXL_SetGPIO(Tuner, 3, 1) ; // Bank3 Off
+ status += MXL_ControlWrite(fe, DAC_B_ENABLE, 0) ; // Bank4 Off
+ status += MXL_SetGPIO(fe, 4, 0) ; // Bank1 On
+ status += MXL_SetGPIO(fe, 1, 1) ; // Bank2 Off
+ status += MXL_SetGPIO(fe, 3, 1) ; // Bank3 Off
}
- if (Tuner->RF_IN >= 190000000 && Tuner->RF_IN < 280000000)
+ if (state->RF_IN >= 190000000 && state->RF_IN < 280000000)
{
- status += MXL_ControlWrite(Tuner, DAC_B_ENABLE, 0) ; // Bank4 Off
- status += MXL_SetGPIO(Tuner, 4, 0) ; // Bank1 On
- status += MXL_SetGPIO(Tuner, 1, 0) ; // Bank2 On
- status += MXL_SetGPIO(Tuner, 3, 1) ; // Bank3 Off
+ status += MXL_ControlWrite(fe, DAC_B_ENABLE, 0) ; // Bank4 Off
+ status += MXL_SetGPIO(fe, 4, 0) ; // Bank1 On
+ status += MXL_SetGPIO(fe, 1, 0) ; // Bank2 On
+ status += MXL_SetGPIO(fe, 3, 1) ; // Bank3 Off
}
- if (Tuner->RF_IN >= 280000000 && Tuner->RF_IN < 350000000)
+ if (state->RF_IN >= 280000000 && state->RF_IN < 350000000)
{
- status += MXL_ControlWrite(Tuner, DAC_B_ENABLE, 0) ; // Bank4 Off
- status += MXL_SetGPIO(Tuner, 4, 1) ; // Bank1 Off
- status += MXL_SetGPIO(Tuner, 1, 0) ; // Bank2 On
- status += MXL_SetGPIO(Tuner, 3, 1) ; // Bank3 Off
+ status += MXL_ControlWrite(fe, DAC_B_ENABLE, 0) ; // Bank4 Off
+ status += MXL_SetGPIO(fe, 4, 1) ; // Bank1 Off
+ status += MXL_SetGPIO(fe, 1, 0) ; // Bank2 On
+ status += MXL_SetGPIO(fe, 3, 1) ; // Bank3 Off
}
- if (Tuner->RF_IN >= 350000000 && Tuner->RF_IN < 400000000)
+ if (state->RF_IN >= 350000000 && state->RF_IN < 400000000)
{
- status += MXL_ControlWrite(Tuner, DAC_B_ENABLE, 0) ; // Bank4 Off
- status += MXL_SetGPIO(Tuner, 4, 1) ; // Bank1 Off
- status += MXL_SetGPIO(Tuner, 1, 0) ; // Bank2 On
- status += MXL_SetGPIO(Tuner, 3, 0) ; // Bank3 On
+ status += MXL_ControlWrite(fe, DAC_B_ENABLE, 0) ; // Bank4 Off
+ status += MXL_SetGPIO(fe, 4, 1) ; // Bank1 Off
+ status += MXL_SetGPIO(fe, 1, 0) ; // Bank2 On
+ status += MXL_SetGPIO(fe, 3, 0) ; // Bank3 On
}
- if (Tuner->RF_IN >= 400000000 && Tuner->RF_IN < 470000000) //modified for 2.6.11
+ if (state->RF_IN >= 400000000 && state->RF_IN < 470000000) //modified for 2.6.11
{
- status += MXL_ControlWrite(Tuner, DAC_B_ENABLE, 1) ; // Bank4 On
- status += MXL_SetGPIO(Tuner, 4, 1) ; // Bank1 On
- status += MXL_SetGPIO(Tuner, 1, 0) ; // Bank2 Off
- status += MXL_SetGPIO(Tuner, 3, 1) ; // Bank3 Off
+ status += MXL_ControlWrite(fe, DAC_B_ENABLE, 1) ; // Bank4 On
+ status += MXL_SetGPIO(fe, 4, 1) ; // Bank1 On
+ status += MXL_SetGPIO(fe, 1, 0) ; // Bank2 Off
+ status += MXL_SetGPIO(fe, 3, 1) ; // Bank3 Off
}
- if (Tuner->RF_IN >= 470000000 && Tuner->RF_IN < 640000000)
+ if (state->RF_IN >= 470000000 && state->RF_IN < 640000000)
{
- status += MXL_ControlWrite(Tuner, DAC_B_ENABLE, 0) ; // Bank4 Off
- status += MXL_SetGPIO(Tuner, 4, 1) ; // Bank1 Off
- status += MXL_SetGPIO(Tuner, 1, 1) ; // Bank2 Off
- status += MXL_SetGPIO(Tuner, 3, 0) ; // Bank3 On
+ status += MXL_ControlWrite(fe, DAC_B_ENABLE, 0) ; // Bank4 Off
+ status += MXL_SetGPIO(fe, 4, 1) ; // Bank1 Off
+ status += MXL_SetGPIO(fe, 1, 1) ; // Bank2 Off
+ status += MXL_SetGPIO(fe, 3, 0) ; // Bank3 On
}
- if (Tuner->RF_IN >= 640000000 && Tuner->RF_IN < 820000000)
+ if (state->RF_IN >= 640000000 && state->RF_IN < 820000000)
{
- status += MXL_ControlWrite(Tuner, DAC_B_ENABLE, 1) ; // Bank4 On
- status += MXL_SetGPIO(Tuner, 4, 1) ; // Bank1 Off
- status += MXL_SetGPIO(Tuner, 1, 1) ; // Bank2 Off
- status += MXL_SetGPIO(Tuner, 3, 0) ; // Bank3 On
+ status += MXL_ControlWrite(fe, DAC_B_ENABLE, 1) ; // Bank4 On
+ status += MXL_SetGPIO(fe, 4, 1) ; // Bank1 Off
+ status += MXL_SetGPIO(fe, 1, 1) ; // Bank2 Off
+ status += MXL_SetGPIO(fe, 3, 0) ; // Bank3 On
}
- if (Tuner->RF_IN >= 820000000 && Tuner->RF_IN <= 900000000)
+ if (state->RF_IN >= 820000000 && state->RF_IN <= 900000000)
{
- status += MXL_ControlWrite(Tuner, DAC_B_ENABLE, 1) ; // Bank4 On
- status += MXL_SetGPIO(Tuner, 4, 1) ; // Bank1 Off
- status += MXL_SetGPIO(Tuner, 1, 1) ; // Bank2 Off
- status += MXL_SetGPIO(Tuner, 3, 1) ; // Bank3 Off
+ status += MXL_ControlWrite(fe, DAC_B_ENABLE, 1) ; // Bank4 On
+ status += MXL_SetGPIO(fe, 4, 1) ; // Bank1 Off
+ status += MXL_SetGPIO(fe, 1, 1) ; // Bank2 Off
+ status += MXL_SetGPIO(fe, 3, 1) ; // Bank3 Off
}
}
if (Tuner->TF_Type == MXL_TF_E_NA) // Tracking Filter type E-NA for Empia ONLY change for 2.6.8
{
- status += MXL_ControlWrite(Tuner, DAC_DIN_B, 0) ;
+ status += MXL_ControlWrite(fe, DAC_DIN_B, 0) ;
// if UHF and terrestrial=> Turn off Tracking Filter
- if (Tuner->RF_IN >= 471000000 && (Tuner->RF_IN - 471000000)%6000000 != 0)
+ if (state->RF_IN >= 471000000 && (state->RF_IN - 471000000)%6000000 != 0)
{
// Turn off all the banks
- status += MXL_SetGPIO(Tuner, 3, 1) ;
- status += MXL_SetGPIO(Tuner, 1, 1) ;
- status += MXL_SetGPIO(Tuner, 4, 1) ;
- status += MXL_ControlWrite(Tuner, DAC_B_ENABLE, 0) ;
+ status += MXL_SetGPIO(fe, 3, 1) ;
+ status += MXL_SetGPIO(fe, 1, 1) ;
+ status += MXL_SetGPIO(fe, 4, 1) ;
+ status += MXL_ControlWrite(fe, DAC_B_ENABLE, 0) ;
//2.6.12
//Turn on RSSI
- status += MXL_ControlWrite(Tuner, SEQ_EXTSYNTHCALIF, 1) ;
- status += MXL_ControlWrite(Tuner, SEQ_EXTDCCAL, 1) ;
- status += MXL_ControlWrite(Tuner, AGC_EN_RSSI, 1) ;
- status += MXL_ControlWrite(Tuner, RFA_ENCLKRFAGC, 1) ;
+ status += MXL_ControlWrite(fe, SEQ_EXTSYNTHCALIF, 1) ;
+ status += MXL_ControlWrite(fe, SEQ_EXTDCCAL, 1) ;
+ status += MXL_ControlWrite(fe, AGC_EN_RSSI, 1) ;
+ status += MXL_ControlWrite(fe, RFA_ENCLKRFAGC, 1) ;
// RSSI reference point
- status += MXL_ControlWrite(Tuner, RFA_RSSI_REFH, 5) ;
- status += MXL_ControlWrite(Tuner, RFA_RSSI_REF, 3) ;
- status += MXL_ControlWrite(Tuner, RFA_RSSI_REFL, 2) ;
+ status += MXL_ControlWrite(fe, RFA_RSSI_REFH, 5) ;
+ status += MXL_ControlWrite(fe, RFA_RSSI_REF, 3) ;
+ status += MXL_ControlWrite(fe, RFA_RSSI_REFL, 2) ;
- //status += MXL_ControlWrite(Tuner, AGC_IF, 10) ; //doesn't matter since RSSI is turn on
+ //status += MXL_ControlWrite(fe, AGC_IF, 10) ; //doesn't matter since RSSI is turn on
//following parameter is from analog OTA mode, can be change to seek better performance
- status += MXL_ControlWrite(Tuner, RFSYN_CHP_GAIN, 3) ;
+ status += MXL_ControlWrite(fe, RFSYN_CHP_GAIN, 3) ;
}
else //if VHF or Cable => Turn on Tracking Filter
{
//2.6.12
//Turn off RSSI
- status += MXL_ControlWrite(Tuner, AGC_EN_RSSI, 0) ;
+ status += MXL_ControlWrite(fe, AGC_EN_RSSI, 0) ;
//change back from above condition
- status += MXL_ControlWrite(Tuner, RFSYN_CHP_GAIN, 5) ;
+ status += MXL_ControlWrite(fe, RFSYN_CHP_GAIN, 5) ;
- if (Tuner->RF_IN >= 43000000 && Tuner->RF_IN < 174000000)
+ if (state->RF_IN >= 43000000 && state->RF_IN < 174000000)
{
- status += MXL_ControlWrite(Tuner, DAC_B_ENABLE, 0) ; // Bank4 Off
- status += MXL_SetGPIO(Tuner, 4, 0) ; // Bank1 On
- status += MXL_SetGPIO(Tuner, 1, 1) ; // Bank2 Off
- status += MXL_SetGPIO(Tuner, 3, 1) ; // Bank3 Off
+ status += MXL_ControlWrite(fe, DAC_B_ENABLE, 0) ; // Bank4 Off
+ status += MXL_SetGPIO(fe, 4, 0) ; // Bank1 On
+ status += MXL_SetGPIO(fe, 1, 1) ; // Bank2 Off
+ status += MXL_SetGPIO(fe, 3, 1) ; // Bank3 Off
}
- if (Tuner->RF_IN >= 174000000 && Tuner->RF_IN < 250000000)
+ if (state->RF_IN >= 174000000 && state->RF_IN < 250000000)
{
- status += MXL_ControlWrite(Tuner, DAC_B_ENABLE, 0) ; // Bank4 Off
- status += MXL_SetGPIO(Tuner, 4, 0) ; // Bank1 On
- status += MXL_SetGPIO(Tuner, 1, 0) ; // Bank2 On
- status += MXL_SetGPIO(Tuner, 3, 1) ; // Bank3 Off
+ status += MXL_ControlWrite(fe, DAC_B_ENABLE, 0) ; // Bank4 Off
+ status += MXL_SetGPIO(fe, 4, 0) ; // Bank1 On
+ status += MXL_SetGPIO(fe, 1, 0) ; // Bank2 On
+ status += MXL_SetGPIO(fe, 3, 1) ; // Bank3 Off
}
- if (Tuner->RF_IN >= 250000000 && Tuner->RF_IN < 350000000)
+ if (state->RF_IN >= 250000000 && state->RF_IN < 350000000)
{
- status += MXL_ControlWrite(Tuner, DAC_B_ENABLE, 0) ; // Bank4 Off
- status += MXL_SetGPIO(Tuner, 4, 1) ; // Bank1 Off
- status += MXL_SetGPIO(Tuner, 1, 0) ; // Bank2 On
- status += MXL_SetGPIO(Tuner, 3, 1) ; // Bank3 Off
+ status += MXL_ControlWrite(fe, DAC_B_ENABLE, 0) ; // Bank4 Off
+ status += MXL_SetGPIO(fe, 4, 1) ; // Bank1 Off
+ status += MXL_SetGPIO(fe, 1, 0) ; // Bank2 On
+ status += MXL_SetGPIO(fe, 3, 1) ; // Bank3 Off
}
- if (Tuner->RF_IN >= 350000000 && Tuner->RF_IN < 400000000)
+ if (state->RF_IN >= 350000000 && state->RF_IN < 400000000)
{
- status += MXL_ControlWrite(Tuner, DAC_B_ENABLE, 0) ; // Bank4 Off
- status += MXL_SetGPIO(Tuner, 4, 1) ; // Bank1 Off
- status += MXL_SetGPIO(Tuner, 1, 0) ; // Bank2 On
- status += MXL_SetGPIO(Tuner, 3, 0) ; // Bank3 On
+ status += MXL_ControlWrite(fe, DAC_B_ENABLE, 0) ; // Bank4 Off
+ status += MXL_SetGPIO(fe, 4, 1) ; // Bank1 Off
+ status += MXL_SetGPIO(fe, 1, 0) ; // Bank2 On
+ status += MXL_SetGPIO(fe, 3, 0) ; // Bank3 On
}
- if (Tuner->RF_IN >= 400000000 && Tuner->RF_IN < 570000000)
+ if (state->RF_IN >= 400000000 && state->RF_IN < 570000000)
{
- status += MXL_ControlWrite(Tuner, DAC_B_ENABLE, 0) ; // Bank4 Off
- status += MXL_SetGPIO(Tuner, 4, 1) ; // Bank1 Off
- status += MXL_SetGPIO(Tuner, 1, 1) ; // Bank2 Off
- status += MXL_SetGPIO(Tuner, 3, 0) ; // Bank3 On
+ status += MXL_ControlWrite(fe, DAC_B_ENABLE, 0) ; // Bank4 Off
+ status += MXL_SetGPIO(fe, 4, 1) ; // Bank1 Off
+ status += MXL_SetGPIO(fe, 1, 1) ; // Bank2 Off
+ status += MXL_SetGPIO(fe, 3, 0) ; // Bank3 On
}
- if (Tuner->RF_IN >= 570000000 && Tuner->RF_IN < 770000000)
+ if (state->RF_IN >= 570000000 && state->RF_IN < 770000000)
{
- status += MXL_ControlWrite(Tuner, DAC_B_ENABLE, 1) ; // Bank4 On
- status += MXL_SetGPIO(Tuner, 4, 1) ; // Bank1 Off
- status += MXL_SetGPIO(Tuner, 1, 1) ; // Bank2 Off
- status += MXL_SetGPIO(Tuner, 3, 0) ; // Bank3 On
+ status += MXL_ControlWrite(fe, DAC_B_ENABLE, 1) ; // Bank4 On
+ status += MXL_SetGPIO(fe, 4, 1) ; // Bank1 Off
+ status += MXL_SetGPIO(fe, 1, 1) ; // Bank2 Off
+ status += MXL_SetGPIO(fe, 3, 0) ; // Bank3 On
}
- if (Tuner->RF_IN >= 770000000 && Tuner->RF_IN <= 900000000)
+ if (state->RF_IN >= 770000000 && state->RF_IN <= 900000000)
{
- status += MXL_ControlWrite(Tuner, DAC_B_ENABLE, 1) ; // Bank4 On
- status += MXL_SetGPIO(Tuner, 4, 1) ; // Bank1 Off
- status += MXL_SetGPIO(Tuner, 1, 1) ; // Bank2 Off
- status += MXL_SetGPIO(Tuner, 3, 1) ; // Bank3 Off
+ status += MXL_ControlWrite(fe, DAC_B_ENABLE, 1) ; // Bank4 On
+ status += MXL_SetGPIO(fe, 4, 1) ; // Bank1 Off
+ status += MXL_SetGPIO(fe, 1, 1) ; // Bank2 Off
+ status += MXL_SetGPIO(fe, 3, 1) ; // Bank3 Off
}
}
}
return status ;
}
-u16 MXL_SetGPIO(Tuner_struct *Tuner, u8 GPIO_Num, u8 GPIO_Val)
+// DONE
+u16 MXL_SetGPIO(struct dvb_frontend *fe, u8 GPIO_Num, u8 GPIO_Val)
{
- u16 status = 0 ;
+ struct mxl5005s_state *state = fe->demodulator_priv;
+ u16 status = 0;
if (GPIO_Num == 1)
- status += MXL_ControlWrite(Tuner, GPIO_1B, GPIO_Val ? 0 : 1) ;
- // GPIO2 is not available
- if (GPIO_Num == 3)
- {
+ status += MXL_ControlWrite(fe, GPIO_1B, GPIO_Val ? 0 : 1);
+
+ /* GPIO2 is not available */
+
+ if (GPIO_Num == 3) {
if (GPIO_Val == 1) {
- status += MXL_ControlWrite(Tuner, GPIO_3, 0) ;
- status += MXL_ControlWrite(Tuner, GPIO_3B, 0) ;
+ status += MXL_ControlWrite(fe, GPIO_3, 0);
+ status += MXL_ControlWrite(fe, GPIO_3B, 0);
}
if (GPIO_Val == 0) {
- status += MXL_ControlWrite(Tuner, GPIO_3, 1) ;
- status += MXL_ControlWrite(Tuner, GPIO_3B, 1) ;
+ status += MXL_ControlWrite(fe, GPIO_3, 1);
+ status += MXL_ControlWrite(fe, GPIO_3B, 1);
}
- if (GPIO_Val == 3) { // tri-state
- status += MXL_ControlWrite(Tuner, GPIO_3, 0) ;
- status += MXL_ControlWrite(Tuner, GPIO_3B, 1) ;
+ if (GPIO_Val == 3) { /* tri-state */
+ status += MXL_ControlWrite(fe, GPIO_3, 0);
+ status += MXL_ControlWrite(fe, GPIO_3B, 1);
}
}
- if (GPIO_Num == 4)
- {
+ if (GPIO_Num == 4) {
if (GPIO_Val == 1) {
- status += MXL_ControlWrite(Tuner, GPIO_4, 0) ;
- status += MXL_ControlWrite(Tuner, GPIO_4B, 0) ;
+ status += MXL_ControlWrite(fe, GPIO_4, 0);
+ status += MXL_ControlWrite(fe, GPIO_4B, 0);
}
if (GPIO_Val == 0) {
- status += MXL_ControlWrite(Tuner, GPIO_4, 1) ;
- status += MXL_ControlWrite(Tuner, GPIO_4B, 1) ;
+ status += MXL_ControlWrite(fe, GPIO_4, 1);
+ status += MXL_ControlWrite(fe, GPIO_4B, 1);
}
- if (GPIO_Val == 3) { // tri-state
- status += MXL_ControlWrite(Tuner, GPIO_4, 0) ;
- status += MXL_ControlWrite(Tuner, GPIO_4B, 1) ;
+ if (GPIO_Val == 3) { /* tri-state */
+ status += MXL_ControlWrite(fe, GPIO_4, 0);
+ status += MXL_ControlWrite(fe, GPIO_4B, 1);
}
}
- return status ;
+ return status;
}
///////////////////////////////////////////////////////////////////////////////
@@ -3907,17 +3732,19 @@ u16 MXL_SetGPIO(Tuner_struct *Tuner, u8 GPIO_Num, u8 GPIO_Val)
// >0 : Value exceed maximum allowed for control number //
// //
///////////////////////////////////////////////////////////////////////////////
-u16 MXL_ControlWrite(Tuner_struct *Tuner, u16 ControlNum, u32 value)
+// DONE
+u16 MXL_ControlWrite(struct dvb_frontend *fe, u16 ControlNum, u32 value)
{
- u16 status = 0 ;
- // Will write ALL Matching Control Name
- status += MXL_ControlWrite_Group( Tuner, ControlNum, value, 1 ) ; // Write Matching INIT Control
- status += MXL_ControlWrite_Group( Tuner, ControlNum, value, 2 ) ; // Write Matching CH Control
+ struct mxl5005s_state *state = fe->demodulator_priv;
+ u16 status = 0;
+
+ /* Will write ALL Matching Control Name */
+ status += MXL_ControlWrite_Group(fe, ControlNum, value, 1); /* Write Matching INIT Control *
+ status += MXL_ControlWrite_Group(fe, ControlNum, value, 2); /* Write Matching CH Control *
#ifdef _MXL_INTERNAL
- status += MXL_ControlWrite_Group( Tuner, ControlNum, value, 3 ) ; // Write Matching MXL Control
+ status += MXL_ControlWrite_Group(fe, ControlNum, value, 3); /* Write Matching MXL Control *
#endif
-
- return status ;
+ return status;
}
///////////////////////////////////////////////////////////////////////////////
@@ -3947,105 +3774,86 @@ u16 MXL_ControlWrite(Tuner_struct *Tuner, u16 ControlNum, u32 value)
// 2 : Control name not found //
// //
///////////////////////////////////////////////////////////////////////////////
-u16 MXL_ControlWrite_Group(Tuner_struct *Tuner, u16 controlNum, u32 value, u16 controlGroup)
+// DONE
+u16 MXL_ControlWrite_Group(struct dvb_frontend *fe, u16 controlNum, u32 value, u16 controlGroup)
{
- u16 i, j, k ;
- u32 highLimit ;
- u32 ctrlVal ;
+ struct mxl5005s_state *state = fe->demodulator_priv;
+ u16 i, j, k;
+ u32 highLimit;
+ u32 ctrlVal;
- if( controlGroup == 1) // Initial Control
- {
- for (i=0; i<Tuner->Init_Ctrl_Num ; i++)
- {
- if ( controlNum == Tuner->Init_Ctrl[i].Ctrl_Num )
- { // find the control Name
- highLimit = 1 << Tuner->Init_Ctrl[i].size ;
- if ( value < highLimit)
- {
- for( j=0; j<Tuner->Init_Ctrl[i].size; j++)
- {
- Tuner->Init_Ctrl[i].val[j] = (u8)((value >> j) & 0x01) ;
- // change the register map accordingly
- MXL_RegWriteBit( Tuner, (u8)(Tuner->Init_Ctrl[i].addr[j]),
- (u8)(Tuner->Init_Ctrl[i].bit[j]),
- (u8)((value>>j) & 0x01) ) ;
- }
- ctrlVal = 0 ;
- for(k=0; k<Tuner->Init_Ctrl[i].size; k++)
- {
- ctrlVal += Tuner->Init_Ctrl[i].val[k] * (1 << k) ;
+ if (controlGroup == 1) /* Initial Control */ {
+
+ for (i = 0; i < state->Init_Ctrl_Num; i++) {
+
+ if (controlNum == state->Init_Ctrl[i].Ctrl_Num) {
+
+ highLimit = 1 << state->Init_Ctrl[i].size;
+ if (value < highLimit) {
+ for (j = 0; j < state->Init_Ctrl[i].size; j++) {
+ state->Init_Ctrl[i].val[j] = (u8)((value >> j) & 0x01);
+ MXL_RegWriteBit(fe, (u8)(state->Init_Ctrl[i].addr[j]),
+ (u8)(state->Init_Ctrl[i].bit[j]),
+ (u8)((value>>j) & 0x01) );
}
+ ctrlVal = 0;
+ for (k = 0; k < state->Init_Ctrl[i].size; k++)
+ ctrlVal += state->Init_Ctrl[i].val[k] * (1 << k);
}
else
- {
- return -1 ;
- }
+ return -1;
}
}
}
- if ( controlGroup == 2) // Chan change Control
- {
- for (i=0; i<Tuner->CH_Ctrl_Num; i++)
- {
- if ( controlNum == Tuner->CH_Ctrl[i].Ctrl_Num )
- { // find the control Name
- highLimit = 1 << Tuner->CH_Ctrl[i].size ;
- if ( value < highLimit)
- {
- for( j=0; j<Tuner->CH_Ctrl[i].size; j++)
- {
- Tuner->CH_Ctrl[i].val[j] = (u8)((value >> j) & 0x01) ;
- // change the register map accordingly
- MXL_RegWriteBit( Tuner, (u8)(Tuner->CH_Ctrl[i].addr[j]),
- (u8)(Tuner->CH_Ctrl[i].bit[j]),
- (u8)((value>>j) & 0x01) ) ;
- }
- ctrlVal = 0 ;
- for(k=0; k<Tuner->CH_Ctrl[i].size; k++)
- {
- ctrlVal += Tuner->CH_Ctrl[i].val[k] * (1 << k) ;
+ if (controlGroup == 2) /* Chan change Control */ {
+
+ for (i = 0; i < state->CH_Ctrl_Num; i++) {
+
+ if (controlNum == state->CH_Ctrl[i].Ctrl_Num ) {
+
+ highLimit = 1 << state->CH_Ctrl[i].size;
+ if (value < highLimit) {
+ for (j = 0; j < state->CH_Ctrl[i].size; j++) {
+ state->CH_Ctrl[i].val[j] = (u8)((value >> j) & 0x01);
+ MXL_RegWriteBit(fe, (u8)(state->CH_Ctrl[i].addr[j]),
+ (u8)(state->CH_Ctrl[i].bit[j]),
+ (u8)((value>>j) & 0x01) );
}
+ ctrlVal = 0;
+ for (k = 0; k < state->CH_Ctrl[i].size; k++)
+ ctrlVal += state->CH_Ctrl[i].val[k] * (1 << k);
}
else
- {
- return -1 ;
- }
+ return -1;
}
}
}
#ifdef _MXL_INTERNAL
- if ( controlGroup == 3) // Maxlinear Control
- {
- for (i=0; i<Tuner->MXL_Ctrl_Num; i++)
- {
- if ( controlNum == Tuner->MXL_Ctrl[i].Ctrl_Num )
- { // find the control Name
- highLimit = (1 << Tuner->MXL_Ctrl[i].size) ;
- if ( value < highLimit)
- {
- for( j=0; j<Tuner->MXL_Ctrl[i].size; j++)
- {
- Tuner->MXL_Ctrl[i].val[j] = (u8)((value >> j) & 0x01) ;
- // change the register map accordingly
- MXL_RegWriteBit( Tuner, (u8)(Tuner->MXL_Ctrl[i].addr[j]),
- (u8)(Tuner->MXL_Ctrl[i].bit[j]),
- (u8)((value>>j) & 0x01) ) ;
- }
- ctrlVal = 0 ;
- for(k=0; k<Tuner->MXL_Ctrl[i].size; k++)
- {
- ctrlVal += Tuner->MXL_Ctrl[i].val[k] * (1 << k) ;
+ if (controlGroup == 3) /* Maxlinear Control */ {
+
+ for (i = 0; i < state->MXL_Ctrl_Num; i++) {
+
+ if (controlNum == state->MXL_Ctrl[i].Ctrl_Num ) {
+
+ highLimit = (1 << state->MXL_Ctrl[i].size) ;
+ if (value < highLimit) {
+ for (j = 0; j < state->MXL_Ctrl[i].size; j++) {
+ state->MXL_Ctrl[i].val[j] = (u8)((value >> j) & 0x01);
+ MXL_RegWriteBit(fe, (u8)(state->MXL_Ctrl[i].addr[j]),
+ (u8)(state->MXL_Ctrl[i].bit[j]),
+ (u8)((value>>j) & 0x01) );
}
+ ctrlVal = 0;
+ for(k = 0; k < state->MXL_Ctrl[i].size; k++)
+ ctrlVal += state->MXL_Ctrl[i].val[k] * (1 << k);
}
else
- {
- return -1 ;
- }
+ return -1;
}
}
}
#endif
- return 0 ; // successful return
+ return 0 ; /* successful return */
}
///////////////////////////////////////////////////////////////////////////////
@@ -4073,20 +3881,20 @@ u16 MXL_ControlWrite_Group(Tuner_struct *Tuner, u16 controlNum, u32 value, u16 c
// -1 : Invalid Register Address //
// //
///////////////////////////////////////////////////////////////////////////////
-u16 MXL_RegWrite(Tuner_struct *Tuner, u8 RegNum, u8 RegVal)
+// DONE
+u16 MXL_RegWrite(struct dvb_frontend *fe, u8 RegNum, u8 RegVal)
{
+ struct mxl5005s_state *state = fe->demodulator_priv;
int i ;
- for (i=0; i<104; i++)
- {
- if (RegNum == Tuner->TunerRegs[i].Reg_Num )
- {
- Tuner->TunerRegs[i].Reg_Val = RegVal ;
- return 0 ;
+ for (i = 0; i < 104; i++) {
+ if (RegNum == state->TunerRegs[i].Reg_Num) {
+ state->TunerRegs[i].Reg_Val = RegVal;
+ return 0;
}
}
- return 1 ;
+ return 1;
}
///////////////////////////////////////////////////////////////////////////////
@@ -4113,20 +3921,20 @@ u16 MXL_RegWrite(Tuner_struct *Tuner, u8 RegNum, u8 RegVal)
// -1 : Invalid Register Address //
// //
///////////////////////////////////////////////////////////////////////////////
-u16 MXL_RegRead(Tuner_struct *Tuner, u8 RegNum, u8 *RegVal)
+// DONE
+u16 MXL_RegRead(struct dvb_frontend *fe, u8 RegNum, u8 *RegVal)
{
+ struct mxl5005s_state *state = fe->demodulator_priv;
int i ;
- for (i=0; i<104; i++)
- {
- if (RegNum == Tuner->TunerRegs[i].Reg_Num )
- {
- *RegVal = (u8)(Tuner->TunerRegs[i].Reg_Val) ;
- return 0 ;
+ for (i = 0; i < 104; i++) {
+ if (RegNum == state->TunerRegs[i].Reg_Num ) {
+ *RegVal = (u8)(state->TunerRegs[i].Reg_Val);
+ return 0;
}
}
- return 1 ;
+ return 1;
}
///////////////////////////////////////////////////////////////////////////////
@@ -4150,48 +3958,53 @@ u16 MXL_RegRead(Tuner_struct *Tuner, u8 RegNum, u8 *RegVal)
// -1 : Invalid control name //
// //
///////////////////////////////////////////////////////////////////////////////
-u16 MXL_ControlRead(Tuner_struct *Tuner, u16 controlNum, u32 * value)
+// DONE
+u16 MXL_ControlRead(struct dvb_frontend *fe, u16 controlNum, u32 * value)
{
+ struct mxl5005s_state *state = fe->demodulator_priv;
u32 ctrlVal ;
u16 i, k ;
- for (i=0; i<Tuner->Init_Ctrl_Num ; i++)
- {
- if ( controlNum == Tuner->Init_Ctrl[i].Ctrl_Num )
- {
- ctrlVal = 0 ;
- for(k=0; k<Tuner->Init_Ctrl[i].size; k++)
- ctrlVal += Tuner->Init_Ctrl[i].val[k] * (1 << k) ;
- *value = ctrlVal ;
- return 0 ;
+ for (i = 0; i < state->Init_Ctrl_Num ; i++) {
+
+ if (controlNum == state->Init_Ctrl[i].Ctrl_Num) {
+
+ ctrlVal = 0;
+ for (k = 0; k < state->Init_Ctrl[i].size; k++)
+ ctrlVal += state->Init_Ctrl[i].val[k] * (1 << k);
+ *value = ctrlVal;
+ return 0;
}
}
- for (i=0; i<Tuner->CH_Ctrl_Num ; i++)
- {
- if ( controlNum == Tuner->CH_Ctrl[i].Ctrl_Num )
- {
- ctrlVal = 0 ;
- for(k=0; k<Tuner->CH_Ctrl[i].size; k++)
- ctrlVal += Tuner->CH_Ctrl[i].val[k] * (1 << k) ;
- *value = ctrlVal ;
- return 0 ;
+
+ for (i = 0; i < state->CH_Ctrl_Num ; i++) {
+
+ if (controlNum == state->CH_Ctrl[i].Ctrl_Num) {
+
+ ctrlVal = 0;
+ for (k = 0; k < state->CH_Ctrl[i].size; k++)
+ ctrlVal += state->CH_Ctrl[i].val[k] * (1 << k);
+ *value = ctrlVal;
+ return 0;
+
}
}
#ifdef _MXL_INTERNAL
- for (i=0; i<Tuner->MXL_Ctrl_Num ; i++)
- {
- if ( controlNum == Tuner->MXL_Ctrl[i].Ctrl_Num )
- {
- ctrlVal = 0 ;
- for(k=0; k<Tuner->MXL_Ctrl[i].size; k++)
- ctrlVal += Tuner->MXL_Ctrl[i].val[k] * (1<<k) ;
- *value = ctrlVal ;
- return 0 ;
+ for (i = 0; i < state->MXL_Ctrl_Num ; i++) {
+
+ if (controlNum == state->MXL_Ctrl[i].Ctrl_Num) {
+
+ ctrlVal = 0;
+ for (k = 0; k < state->MXL_Ctrl[i].size; k++)
+ ctrlVal += state->MXL_Ctrl[i].val[k] * (1<<k);
+ *value = ctrlVal;
+ return 0;
+
}
}
#endif
- return 1 ;
+ return 1;
}
///////////////////////////////////////////////////////////////////////////////
@@ -4217,82 +4030,87 @@ u16 MXL_ControlRead(Tuner_struct *Tuner, u16 controlNum, u32 * value)
// -1 : Invalid control name //
// //
///////////////////////////////////////////////////////////////////////////////
-u16 MXL_ControlRegRead(Tuner_struct *Tuner, u16 controlNum, u8 *RegNum, int * count)
+// DONE
+u16 MXL_ControlRegRead(struct dvb_frontend *fe, u16 controlNum, u8 *RegNum, int * count)
{
+ struct mxl5005s_state *state = fe->demodulator_priv;
u16 i, j, k ;
u16 Count ;
- for (i=0; i<Tuner->Init_Ctrl_Num ; i++)
- {
- if ( controlNum == Tuner->Init_Ctrl[i].Ctrl_Num )
- {
- Count = 1 ;
- RegNum[0] = (u8)(Tuner->Init_Ctrl[i].addr[0]) ;
+ for (i = 0; i < state->Init_Ctrl_Num ; i++) {
+
+ if ( controlNum == state->Init_Ctrl[i].Ctrl_Num ) {
+
+ Count = 1;
+ RegNum[0] = (u8)(state->Init_Ctrl[i].addr[0]);
+
+ for (k = 1; k < state->Init_Ctrl[i].size; k++) {
+
+ for (j = 0; j < Count; j++) {
+
+ if (state->Init_Ctrl[i].addr[k] != RegNum[j]) {
+
+ Count ++;
+ RegNum[Count-1] = (u8)(state->Init_Ctrl[i].addr[k]);
- for(k=1; k<Tuner->Init_Ctrl[i].size; k++)
- {
- for (j= 0; j<Count; j++)
- {
- if (Tuner->Init_Ctrl[i].addr[k] != RegNum[j])
- {
- Count ++ ;
- RegNum[Count-1] = (u8)(Tuner->Init_Ctrl[i].addr[k]) ;
}
}
}
- *count = Count ;
- return 0 ;
+ *count = Count;
+ return 0;
}
}
- for (i=0; i<Tuner->CH_Ctrl_Num ; i++)
- {
- if ( controlNum == Tuner->CH_Ctrl[i].Ctrl_Num )
- {
- Count = 1 ;
- RegNum[0] = (u8)(Tuner->CH_Ctrl[i].addr[0]) ;
+ for (i = 0; i < state->CH_Ctrl_Num ; i++) {
+
+ if ( controlNum == state->CH_Ctrl[i].Ctrl_Num ) {
+
+ Count = 1;
+ RegNum[0] = (u8)(state->CH_Ctrl[i].addr[0]);
+
+ for (k = 1; k < state->CH_Ctrl[i].size; k++) {
+
+ for (j= 0; j<Count; j++) {
+
+ if (state->CH_Ctrl[i].addr[k] != RegNum[j]) {
+
+ Count ++;
+ RegNum[Count-1] = (u8)(state->CH_Ctrl[i].addr[k]);
- for(k=1; k<Tuner->CH_Ctrl[i].size; k++)
- {
- for (j= 0; j<Count; j++)
- {
- if (Tuner->CH_Ctrl[i].addr[k] != RegNum[j])
- {
- Count ++ ;
- RegNum[Count-1] = (u8)(Tuner->CH_Ctrl[i].addr[k]) ;
}
}
}
- *count = Count ;
- return 0 ;
+ *count = Count;
+ return 0;
}
}
#ifdef _MXL_INTERNAL
- for (i=0; i<Tuner->MXL_Ctrl_Num ; i++)
- {
- if ( controlNum == Tuner->MXL_Ctrl[i].Ctrl_Num )
- {
- Count = 1 ;
- RegNum[0] = (u8)(Tuner->MXL_Ctrl[i].addr[0]) ;
+ for (i = 0; i < state->MXL_Ctrl_Num ; i++) {
+
+ if ( controlNum == state->MXL_Ctrl[i].Ctrl_Num ) {
+
+ Count = 1;
+ RegNum[0] = (u8)(state->MXL_Ctrl[i].addr[0]);
+
+ for (k = 1; k < state->MXL_Ctrl[i].size; k++) {
+
+ for (j = 0; j<Count; j++) {
+
+ if (state->MXL_Ctrl[i].addr[k] != RegNum[j]) {
+
+ Count ++;
+ RegNum[Count-1] = (u8)state->MXL_Ctrl[i].addr[k];
- for(k=1; k<Tuner->MXL_Ctrl[i].size; k++)
- {
- for (j= 0; j<Count; j++)
- {
- if (Tuner->MXL_Ctrl[i].addr[k] != RegNum[j])
- {
- Count ++ ;
- RegNum[Count-1] = (u8)Tuner->MXL_Ctrl[i].addr[k] ;
}
}
}
- *count = Count ;
- return 0 ;
+ *count = Count;
+ return 0;
}
}
#endif
- *count = 0 ;
- return 1 ;
+ *count = 0;
+ return 1;
}
///////////////////////////////////////////////////////////////////////////////
@@ -4308,7 +4126,7 @@ u16 MXL_ControlRegRead(Tuner_struct *Tuner, u16 controlNum, u8 *RegNum, int * co
// Inputs: //
// Tuner_struct : structure defined at higher level //
// address : register address //
-// bit : register bit number //
+// bit : register bit number //
// bitVal : register bit value //
// //
// Outputs: //
@@ -4318,12 +4136,12 @@ u16 MXL_ControlRegRead(Tuner_struct *Tuner, u16 controlNum, u8 *RegNum, int * co
// NONE //
// //
///////////////////////////////////////////////////////////////////////////////
-
-void MXL_RegWriteBit(Tuner_struct *Tuner, u8 address, u8 bit, u8 bitVal)
+// DONE
+void MXL_RegWriteBit(struct dvb_frontend *fe, u8 address, u8 bit, u8 bitVal)
{
+ struct mxl5005s_state *state = fe->demodulator_priv;
int i ;
- // Declare Local Constants
const u8 AND_MAP[8] = {
0xFE, 0xFD, 0xFB, 0xF7,
0xEF, 0xDF, 0xBF, 0x7F } ;
@@ -4332,17 +4150,16 @@ void MXL_RegWriteBit(Tuner_struct *Tuner, u8 address, u8 bit, u8 bitVal)
0x01, 0x02, 0x04, 0x08,
0x10, 0x20, 0x40, 0x80 } ;
- for(i=0; i<Tuner->TunerRegs_Num; i++) {
- if ( Tuner->TunerRegs[i].Reg_Num == address ) {
+ for (i = 0; i < state->TunerRegs_Num; i++) {
+ if (state->TunerRegs[i].Reg_Num == address) {
if (bitVal)
- Tuner->TunerRegs[i].Reg_Val |= OR_MAP[bit] ;
+ state->TunerRegs[i].Reg_Val |= OR_MAP[bit];
else
- Tuner->TunerRegs[i].Reg_Val &= AND_MAP[bit] ;
+ state->TunerRegs[i].Reg_Val &= AND_MAP[bit];
break ;
}
}
-} ;
-
+}
///////////////////////////////////////////////////////////////////////////////
// //
@@ -4367,37 +4184,43 @@ void MXL_RegWriteBit(Tuner_struct *Tuner, u8 address, u8 bit, u8 bitVal)
// Computed value //
// //
///////////////////////////////////////////////////////////////////////////////
-u32 MXL_Ceiling( u32 value, u32 resolution )
+// DONE
+u32 MXL_Ceiling(u32 value, u32 resolution)
{
- return (value/resolution + (value%resolution > 0 ? 1 : 0)) ;
-};
+ return (value/resolution + (value % resolution > 0 ? 1 : 0));
+}
//
// Retrieve the Initialzation Registers
//
-u16 MXL_GetInitRegister(Tuner_struct *Tuner, u8 * RegNum, u8 *RegVal, int *count)
+// DONE
+u16 MXL_GetInitRegister(struct dvb_frontend *fe, u8 * RegNum, u8 *RegVal, int *count)
{
+ struct mxl5005s_state *state = fe->demodulator_priv;
u16 status = 0;
int i ;
- u8 RegAddr[] = {11, 12, 13, 22, 32, 43, 44, 53, 56, 59, 73,
- 76, 77, 91, 134, 135, 137, 147,
- 156, 166, 167, 168, 25 } ;
- *count = sizeof(RegAddr) / sizeof(u8) ;
+ u8 RegAddr[] = {
+ 11, 12, 13, 22, 32, 43, 44, 53, 56, 59, 73,
+ 76, 77, 91, 134, 135, 137, 147,
+ 156, 166, 167, 168, 25 };
- status += MXL_BlockInit(Tuner) ;
+ *count = sizeof(RegAddr) / sizeof(u8);
- for (i=0 ; i< *count; i++)
- {
- RegNum[i] = RegAddr[i] ;
- status += MXL_RegRead(Tuner, RegNum[i], &RegVal[i]) ;
+ status += MXL_BlockInit(fe);
+
+ for (i = 0 ; i < *count; i++) {
+ RegNum[i] = RegAddr[i];
+ status += MXL_RegRead(fe, RegNum[i], &RegVal[i]);
}
- return status ;
+ return status;
}
-u16 MXL_GetCHRegister(Tuner_struct *Tuner, u8 * RegNum, u8 *RegVal, int *count)
+// DONE
+u16 MXL_GetCHRegister(struct dvb_frontend *fe, u8 * RegNum, u8 *RegVal, int *count)
{
+ struct mxl5005s_state *state = fe->demodulator_priv;
u16 status = 0;
int i ;
@@ -4413,203 +4236,207 @@ u16 MXL_GetCHRegister(Tuner_struct *Tuner, u8 * RegNum, u8 *RegVal, int *count)
// RegAddr[i] = i;
#endif
- *count = sizeof(RegAddr) / sizeof(u8) ;
+ *count = sizeof(RegAddr) / sizeof(u8);
- for (i=0 ; i< *count; i++)
- {
- RegNum[i] = RegAddr[i] ;
- status += MXL_RegRead(Tuner, RegNum[i], &RegVal[i]) ;
+ for (i = 0 ; i < *count; i++) {
+ RegNum[i] = RegAddr[i];
+ status += MXL_RegRead(fe, RegNum[i], &RegVal[i]);
}
- return status ;
-
+ return status;
}
-u16 MXL_GetCHRegister_ZeroIF(Tuner_struct *Tuner, u8 * RegNum, u8 *RegVal, int *count)
+// DONE
+u16 MXL_GetCHRegister_ZeroIF(struct dvb_frontend *fe, u8 * RegNum, u8 *RegVal, int *count)
{
- u16 status = 0 ;
- int i ;
+ struct mxl5005s_state *state = fe->demodulator_priv;
+ u16 status = 0;
+ int i;
- u8 RegAddr[] = {43, 136} ;
+ u8 RegAddr[] = {43, 136};
- *count = sizeof(RegAddr) / sizeof(u8) ;
+ *count = sizeof(RegAddr) / sizeof(u8);
- for (i=0; i<*count; i++)
- {
- RegNum[i] = RegAddr[i] ;
- status += MXL_RegRead(Tuner, RegNum[i], &RegVal[i]) ;
+ for (i = 0; i < *count; i++) {
+ RegNum[i] = RegAddr[i];
+ status += MXL_RegRead(fe, RegNum[i], &RegVal[i]);
}
- return status ;
+ return status;
}
-u16 MXL_GetCHRegister_LowIF(Tuner_struct *Tuner, u8 * RegNum, u8 *RegVal, int *count)
+// DONE
+u16 MXL_GetCHRegister_LowIF(struct dvb_frontend *fe, u8 * RegNum, u8 *RegVal, int *count)
{
- u16 status = 0 ;
- int i ;
+ struct mxl5005s_state *state = fe->demodulator_priv;
+ u16 status = 0;
+ int i;
- u8 RegAddr[] = {138} ;
+ u8 RegAddr[] = { 138 };
- *count = sizeof(RegAddr) / sizeof(u8) ;
+ *count = sizeof(RegAddr) / sizeof(u8);
- for (i=0; i<*count; i++)
- {
- RegNum[i] = RegAddr[i] ;
- status += MXL_RegRead(Tuner, RegNum[i], &RegVal[i]) ;
+ for (i = 0; i < *count; i++) {
+ RegNum[i] = RegAddr[i];
+ status += MXL_RegRead(fe, RegNum[i], &RegVal[i]);
}
- return status ;
+ return status;
}
+// DONE
u16 MXL_GetMasterControl(u8 *MasterReg, int state)
{
- if (state == 1) // Load_Start
- *MasterReg = 0xF3 ;
- if (state == 2) // Power_Down
- *MasterReg = 0x41 ;
- if (state == 3) // Synth_Reset
- *MasterReg = 0xB1 ;
- if (state == 4) // Seq_Off
- *MasterReg = 0xF1 ;
-
- return 0 ;
+ if (state == 1) /* Load_Start */
+ *MasterReg = 0xF3;
+ if (state == 2) /* Power_Down */
+ *MasterReg = 0x41;
+ if (state == 3) /* Synth_Reset */
+ *MasterReg = 0xB1;
+ if (state == 4) /* Seq_Off */
+ *MasterReg = 0xF1;
+
+ return 0;
}
#ifdef _MXL_PRODUCTION
-u16 MXL_VCORange_Test(Tuner_struct *Tuner, int VCO_Range)
+u16 MXL_VCORange_Test(struct dvb_frontend *fe, int VCO_Range)
{
+ struct mxl5005s_state *state = fe->demodulator_priv;
u16 status = 0 ;
if (VCO_Range == 1) {
- status += MXL_ControlWrite(Tuner, RFSYN_EN_DIV, 1);
- status += MXL_ControlWrite(Tuner, RFSYN_EN_OUTMUX, 0);
- status += MXL_ControlWrite(Tuner, RFSYN_SEL_DIVM, 0);
- status += MXL_ControlWrite(Tuner, RFSYN_DIVM, 1);
- status += MXL_ControlWrite(Tuner, RFSYN_SEL_VCO_OUT, 1);
- status += MXL_ControlWrite(Tuner, RFSYN_RF_DIV_BIAS, 1);
- status += MXL_ControlWrite(Tuner, DN_SEL_FREQ, 0);
- if (Tuner->Mode == 0 && Tuner->IF_Mode == 1) // Analog Low IF Mode {
- status += MXL_ControlWrite(Tuner, RFSYN_SEL_VCO_HI, 1);
- status += MXL_ControlWrite(Tuner, RFSYN_VCO_BIAS, 8);
- status += MXL_ControlWrite(Tuner, CHCAL_INT_MOD_RF, 56);
- status += MXL_ControlWrite(Tuner, CHCAL_FRAC_MOD_RF, 180224);
- }
- if (Tuner->Mode == 0 && Tuner->IF_Mode == 0) // Analog Zero IF Mode {
- status += MXL_ControlWrite(Tuner, RFSYN_SEL_VCO_HI, 1 ) ;
- status += MXL_ControlWrite(Tuner, RFSYN_VCO_BIAS, 8 ) ;
- status += MXL_ControlWrite(Tuner, CHCAL_INT_MOD_RF, 56 ) ;
- status += MXL_ControlWrite(Tuner, CHCAL_FRAC_MOD_RF, 222822 ) ;
- }
- if (Tuner->Mode == 1) // Digital Mode {
- status += MXL_ControlWrite(Tuner, RFSYN_SEL_VCO_HI, 1 ) ;
- status += MXL_ControlWrite(Tuner, RFSYN_VCO_BIAS, 8 ) ;
- status += MXL_ControlWrite(Tuner, CHCAL_INT_MOD_RF, 56 ) ;
- status += MXL_ControlWrite(Tuner, CHCAL_FRAC_MOD_RF, 229376 ) ;
+ status += MXL_ControlWrite(fe, RFSYN_EN_DIV, 1);
+ status += MXL_ControlWrite(fe, RFSYN_EN_OUTMUX, 0);
+ status += MXL_ControlWrite(fe, RFSYN_SEL_DIVM, 0);
+ status += MXL_ControlWrite(fe, RFSYN_DIVM, 1);
+ status += MXL_ControlWrite(fe, RFSYN_SEL_VCO_OUT, 1);
+ status += MXL_ControlWrite(fe, RFSYN_RF_DIV_BIAS, 1);
+ status += MXL_ControlWrite(fe, DN_SEL_FREQ, 0);
+ if (state->Mode == 0 && state->IF_Mode == 1) /* Analog Low IF Mode */ {
+ status += MXL_ControlWrite(fe, RFSYN_SEL_VCO_HI, 1);
+ status += MXL_ControlWrite(fe, RFSYN_VCO_BIAS, 8);
+ status += MXL_ControlWrite(fe, CHCAL_INT_MOD_RF, 56);
+ status += MXL_ControlWrite(fe, CHCAL_FRAC_MOD_RF, 180224);
+ }
+ if (state->Mode == 0 && state->IF_Mode == 0) /* Analog Zero IF Mode */ {
+ status += MXL_ControlWrite(fe, RFSYN_SEL_VCO_HI, 1);
+ status += MXL_ControlWrite(fe, RFSYN_VCO_BIAS, 8);
+ status += MXL_ControlWrite(fe, CHCAL_INT_MOD_RF, 56);
+ status += MXL_ControlWrite(fe, CHCAL_FRAC_MOD_RF, 222822);
+ }
+ if (state->Mode == 1) /* Digital Mode */ {
+ status += MXL_ControlWrite(fe, RFSYN_SEL_VCO_HI, 1);
+ status += MXL_ControlWrite(fe, RFSYN_VCO_BIAS, 8);
+ status += MXL_ControlWrite(fe, CHCAL_INT_MOD_RF, 56);
+ status += MXL_ControlWrite(fe, CHCAL_FRAC_MOD_RF, 229376);
}
}
if (VCO_Range == 2) {
- status += MXL_ControlWrite(Tuner, RFSYN_EN_DIV, 1);
- status += MXL_ControlWrite(Tuner, RFSYN_EN_OUTMUX, 0);
- status += MXL_ControlWrite(Tuner, RFSYN_SEL_DIVM, 0);
- status += MXL_ControlWrite(Tuner, RFSYN_DIVM, 1);
- status += MXL_ControlWrite(Tuner, RFSYN_SEL_VCO_OUT, 1);
- status += MXL_ControlWrite(Tuner, RFSYN_RF_DIV_BIAS, 1);
- status += MXL_ControlWrite(Tuner, DN_SEL_FREQ, 0);
- status += MXL_ControlWrite(Tuner, RFSYN_SEL_VCO_HI, 1);
- status += MXL_ControlWrite(Tuner, RFSYN_VCO_BIAS, 40);
- status += MXL_ControlWrite(Tuner, CHCAL_INT_MOD_RF, 41);
- if (Tuner->Mode == 0 && Tuner->IF_Mode == 1) // Analog Low IF Mode {
- status += MXL_ControlWrite(Tuner, RFSYN_SEL_VCO_HI, 1);
- status += MXL_ControlWrite(Tuner, RFSYN_VCO_BIAS, 40);
- status += MXL_ControlWrite(Tuner, CHCAL_INT_MOD_RF, 42);
- status += MXL_ControlWrite(Tuner, CHCAL_FRAC_MOD_RF, 206438);
- }
- if (Tuner->Mode == 0 && Tuner->IF_Mode == 0) // Analog Zero IF Mode {
- status += MXL_ControlWrite(Tuner, RFSYN_SEL_VCO_HI, 1);
- status += MXL_ControlWrite(Tuner, RFSYN_VCO_BIAS, 40);
- status += MXL_ControlWrite(Tuner, CHCAL_INT_MOD_RF, 42);
- status += MXL_ControlWrite(Tuner, CHCAL_FRAC_MOD_RF, 206438);
- }
- if (Tuner->Mode == 1) // Digital Mode {
- status += MXL_ControlWrite(Tuner, RFSYN_SEL_VCO_HI, 1);
- status += MXL_ControlWrite(Tuner, RFSYN_VCO_BIAS, 40);
- status += MXL_ControlWrite(Tuner, CHCAL_INT_MOD_RF, 41);
- status += MXL_ControlWrite(Tuner, CHCAL_FRAC_MOD_RF, 16384);
+ status += MXL_ControlWrite(fe, RFSYN_EN_DIV, 1);
+ status += MXL_ControlWrite(fe, RFSYN_EN_OUTMUX, 0);
+ status += MXL_ControlWrite(fe, RFSYN_SEL_DIVM, 0);
+ status += MXL_ControlWrite(fe, RFSYN_DIVM, 1);
+ status += MXL_ControlWrite(fe, RFSYN_SEL_VCO_OUT, 1);
+ status += MXL_ControlWrite(fe, RFSYN_RF_DIV_BIAS, 1);
+ status += MXL_ControlWrite(fe, DN_SEL_FREQ, 0);
+ status += MXL_ControlWrite(fe, RFSYN_SEL_VCO_HI, 1);
+ status += MXL_ControlWrite(fe, RFSYN_VCO_BIAS, 40);
+ status += MXL_ControlWrite(fe, CHCAL_INT_MOD_RF, 41);
+ if (state->Mode == 0 && state->IF_Mode == 1) /* Analog Low IF Mode */ {
+ status += MXL_ControlWrite(fe, RFSYN_SEL_VCO_HI, 1);
+ status += MXL_ControlWrite(fe, RFSYN_VCO_BIAS, 40);
+ status += MXL_ControlWrite(fe, CHCAL_INT_MOD_RF, 42);
+ status += MXL_ControlWrite(fe, CHCAL_FRAC_MOD_RF, 206438);
+ }
+ if (state->Mode == 0 && state->IF_Mode == 0) /* Analog Zero IF Mode */ {
+ status += MXL_ControlWrite(fe, RFSYN_SEL_VCO_HI, 1);
+ status += MXL_ControlWrite(fe, RFSYN_VCO_BIAS, 40);
+ status += MXL_ControlWrite(fe, CHCAL_INT_MOD_RF, 42);
+ status += MXL_ControlWrite(fe, CHCAL_FRAC_MOD_RF, 206438);
+ }
+ if (state->Mode == 1) /* Digital Mode */ {
+ status += MXL_ControlWrite(fe, RFSYN_SEL_VCO_HI, 1);
+ status += MXL_ControlWrite(fe, RFSYN_VCO_BIAS, 40);
+ status += MXL_ControlWrite(fe, CHCAL_INT_MOD_RF, 41);
+ status += MXL_ControlWrite(fe, CHCAL_FRAC_MOD_RF, 16384);
}
}
if (VCO_Range == 3) {
- status += MXL_ControlWrite(Tuner, RFSYN_EN_DIV, 1);
- status += MXL_ControlWrite(Tuner, RFSYN_EN_OUTMUX, 0);
- status += MXL_ControlWrite(Tuner, RFSYN_SEL_DIVM, 0);
- status += MXL_ControlWrite(Tuner, RFSYN_DIVM, 1);
- status += MXL_ControlWrite(Tuner, RFSYN_SEL_VCO_OUT, 1);
- status += MXL_ControlWrite(Tuner, RFSYN_RF_DIV_BIAS, 1);
- status += MXL_ControlWrite(Tuner, DN_SEL_FREQ, 0);
- status += MXL_ControlWrite(Tuner, RFSYN_SEL_VCO_HI, 0);
- status += MXL_ControlWrite(Tuner, RFSYN_VCO_BIAS, 8);
- status += MXL_ControlWrite(Tuner, CHCAL_INT_MOD_RF, 42);
- if (Tuner->Mode == 0 && Tuner->IF_Mode == 1) // Analog Low IF Mode {
- status += MXL_ControlWrite(Tuner, RFSYN_SEL_VCO_HI, 0);
- status += MXL_ControlWrite(Tuner, RFSYN_VCO_BIAS, 8);
- status += MXL_ControlWrite(Tuner, CHCAL_INT_MOD_RF, 44);
- status += MXL_ControlWrite(Tuner, CHCAL_FRAC_MOD_RF, 173670);
- }
- if (Tuner->Mode == 0 && Tuner->IF_Mode == 0) // Analog Zero IF Mode {
- status += MXL_ControlWrite(Tuner, RFSYN_SEL_VCO_HI, 0);
- status += MXL_ControlWrite(Tuner, RFSYN_VCO_BIAS, 8);
- status += MXL_ControlWrite(Tuner, CHCAL_INT_MOD_RF, 44);
- status += MXL_ControlWrite(Tuner, CHCAL_FRAC_MOD_RF, 173670);
- }
- if (Tuner->Mode == 1) // Digital Mode {
- status += MXL_ControlWrite(Tuner, RFSYN_SEL_VCO_HI, 0);
- status += MXL_ControlWrite(Tuner, RFSYN_VCO_BIAS, 8);
- status += MXL_ControlWrite(Tuner, CHCAL_INT_MOD_RF, 42);
- status += MXL_ControlWrite(Tuner, CHCAL_FRAC_MOD_RF, 245760);
+ status += MXL_ControlWrite(fe, RFSYN_EN_DIV, 1);
+ status += MXL_ControlWrite(fe, RFSYN_EN_OUTMUX, 0);
+ status += MXL_ControlWrite(fe, RFSYN_SEL_DIVM, 0);
+ status += MXL_ControlWrite(fe, RFSYN_DIVM, 1);
+ status += MXL_ControlWrite(fe, RFSYN_SEL_VCO_OUT, 1);
+ status += MXL_ControlWrite(fe, RFSYN_RF_DIV_BIAS, 1);
+ status += MXL_ControlWrite(fe, DN_SEL_FREQ, 0);
+ status += MXL_ControlWrite(fe, RFSYN_SEL_VCO_HI, 0);
+ status += MXL_ControlWrite(fe, RFSYN_VCO_BIAS, 8);
+ status += MXL_ControlWrite(fe, CHCAL_INT_MOD_RF, 42);
+ if (state->Mode == 0 && state->IF_Mode == 1) /* Analog Low IF Mode */ {
+ status += MXL_ControlWrite(fe, RFSYN_SEL_VCO_HI, 0);
+ status += MXL_ControlWrite(fe, RFSYN_VCO_BIAS, 8);
+ status += MXL_ControlWrite(fe, CHCAL_INT_MOD_RF, 44);
+ status += MXL_ControlWrite(fe, CHCAL_FRAC_MOD_RF, 173670);
+ }
+ if (state->Mode == 0 && state->IF_Mode == 0) /* Analog Zero IF Mode */ {
+ status += MXL_ControlWrite(fe, RFSYN_SEL_VCO_HI, 0);
+ status += MXL_ControlWrite(fe, RFSYN_VCO_BIAS, 8);
+ status += MXL_ControlWrite(fe, CHCAL_INT_MOD_RF, 44);
+ status += MXL_ControlWrite(fe, CHCAL_FRAC_MOD_RF, 173670);
+ }
+ if (state->Mode == 1) /* Digital Mode */ {
+ status += MXL_ControlWrite(fe, RFSYN_SEL_VCO_HI, 0);
+ status += MXL_ControlWrite(fe, RFSYN_VCO_BIAS, 8);
+ status += MXL_ControlWrite(fe, CHCAL_INT_MOD_RF, 42);
+ status += MXL_ControlWrite(fe, CHCAL_FRAC_MOD_RF, 245760);
}
}
if (VCO_Range == 4) {
- status += MXL_ControlWrite(Tuner, RFSYN_EN_DIV, 1);
- status += MXL_ControlWrite(Tuner, RFSYN_EN_OUTMUX, 0);
- status += MXL_ControlWrite(Tuner, RFSYN_SEL_DIVM, 0);
- status += MXL_ControlWrite(Tuner, RFSYN_DIVM, 1);
- status += MXL_ControlWrite(Tuner, RFSYN_SEL_VCO_OUT, 1);
- status += MXL_ControlWrite(Tuner, RFSYN_RF_DIV_BIAS, 1);
- status += MXL_ControlWrite(Tuner, DN_SEL_FREQ, 0);
- status += MXL_ControlWrite(Tuner, RFSYN_SEL_VCO_HI, 0);
- status += MXL_ControlWrite(Tuner, RFSYN_VCO_BIAS, 40);
- status += MXL_ControlWrite(Tuner, CHCAL_INT_MOD_RF, 27);
- if (Tuner->Mode == 0 && Tuner->IF_Mode == 1) // Analog Low IF Mode {
- status += MXL_ControlWrite(Tuner, RFSYN_SEL_VCO_HI, 0);
- status += MXL_ControlWrite(Tuner, RFSYN_VCO_BIAS, 40);
- status += MXL_ControlWrite(Tuner, CHCAL_INT_MOD_RF, 27);
- status += MXL_ControlWrite(Tuner, CHCAL_FRAC_MOD_RF, 206438);
- }
- if (Tuner->Mode == 0 && Tuner->IF_Mode == 0) // Analog Zero IF Mode {
- status += MXL_ControlWrite(Tuner, RFSYN_SEL_VCO_HI, 0);
- status += MXL_ControlWrite(Tuner, RFSYN_VCO_BIAS, 40);
- status += MXL_ControlWrite(Tuner, CHCAL_INT_MOD_RF, 27);
- status += MXL_ControlWrite(Tuner, CHCAL_FRAC_MOD_RF, 206438);
- }
- if (Tuner->Mode == 1) // Digital Mode {
- status += MXL_ControlWrite(Tuner, RFSYN_SEL_VCO_HI, 0);
- status += MXL_ControlWrite(Tuner, RFSYN_VCO_BIAS, 40);
- status += MXL_ControlWrite(Tuner, CHCAL_INT_MOD_RF, 27);
- status += MXL_ControlWrite(Tuner, CHCAL_FRAC_MOD_RF, 212992);
+ status += MXL_ControlWrite(fe, RFSYN_EN_DIV, 1);
+ status += MXL_ControlWrite(fe, RFSYN_EN_OUTMUX, 0);
+ status += MXL_ControlWrite(fe, RFSYN_SEL_DIVM, 0);
+ status += MXL_ControlWrite(fe, RFSYN_DIVM, 1);
+ status += MXL_ControlWrite(fe, RFSYN_SEL_VCO_OUT, 1);
+ status += MXL_ControlWrite(fe, RFSYN_RF_DIV_BIAS, 1);
+ status += MXL_ControlWrite(fe, DN_SEL_FREQ, 0);
+ status += MXL_ControlWrite(fe, RFSYN_SEL_VCO_HI, 0);
+ status += MXL_ControlWrite(fe, RFSYN_VCO_BIAS, 40);
+ status += MXL_ControlWrite(fe, CHCAL_INT_MOD_RF, 27);
+ if (state->Mode == 0 && state->IF_Mode == 1) /* Analog Low IF Mode */ {
+ status += MXL_ControlWrite(fe, RFSYN_SEL_VCO_HI, 0);
+ status += MXL_ControlWrite(fe, RFSYN_VCO_BIAS, 40);
+ status += MXL_ControlWrite(fe, CHCAL_INT_MOD_RF, 27);
+ status += MXL_ControlWrite(fe, CHCAL_FRAC_MOD_RF, 206438);
+ }
+ if (state->Mode == 0 && state->IF_Mode == 0) /* Analog Zero IF Mode */ {
+ status += MXL_ControlWrite(fe, RFSYN_SEL_VCO_HI, 0);
+ status += MXL_ControlWrite(fe, RFSYN_VCO_BIAS, 40);
+ status += MXL_ControlWrite(fe, CHCAL_INT_MOD_RF, 27);
+ status += MXL_ControlWrite(fe, CHCAL_FRAC_MOD_RF, 206438);
+ }
+ if (state->Mode == 1) /* Digital Mode */ {
+ status += MXL_ControlWrite(fe, RFSYN_SEL_VCO_HI, 0);
+ status += MXL_ControlWrite(fe, RFSYN_VCO_BIAS, 40);
+ status += MXL_ControlWrite(fe, CHCAL_INT_MOD_RF, 27);
+ status += MXL_ControlWrite(fe, CHCAL_FRAC_MOD_RF, 212992);
}
}
return status;
}
-u16 MXL_Hystersis_Test(Tuner_struct *Tuner, int Hystersis)
+// DONE
+u16 MXL_Hystersis_Test(struct dvb_frontend *fe, int Hystersis)
{
+ struct mxl5005s_state *state = fe->demodulator_priv;
u16 status = 0;
if (Hystersis == 1)
- status += MXL_ControlWrite(Tuner, DN_BYPASS_AGC_I2C, 1);
+ status += MXL_ControlWrite(fe, DN_BYPASS_AGC_I2C, 1);
return status;
}
diff --git a/drivers/media/common/tuners/mxl5005s.h b/drivers/media/common/tuners/mxl5005s.h
index 1944d9e94427..df49826816bb 100644
--- a/drivers/media/common/tuners/mxl5005s.h
+++ b/drivers/media/common/tuners/mxl5005s.h
@@ -140,61 +140,6 @@ typedef struct _TunerReg_struct
u16 Reg_Val; /* Current sofware programmed value waiting to be writen */
} TunerReg_struct;
-/* MXL5005 Tuner Control Struct */
-typedef struct _TunerControl_struct {
- u16 Ctrl_Num; /* Control Number */
- u16 size; /* Number of bits to represent Value */
- u16 addr[25]; /* Array of Tuner Register Address for each bit position */
- u16 bit[25]; /* Array of bit position in Register Address for each bit position */
- u16 val[25]; /* Binary representation of Value */
-} TunerControl_struct;
-
-/* MXL5005 Tuner Struct */
-typedef struct _Tuner_struct
-{
- u8 Mode; /* 0: Analog Mode ; 1: Digital Mode */
- u8 IF_Mode; /* for Analog Mode, 0: zero IF; 1: low IF */
- u32 Chan_Bandwidth; /* filter channel bandwidth (6, 7, 8) */
- u32 IF_OUT; /* Desired IF Out Frequency */
- u16 IF_OUT_LOAD; /* IF Out Load Resistor (200/300 Ohms) */
- u32 RF_IN; /* RF Input Frequency */
- u32 Fxtal; /* XTAL Frequency */
- u8 AGC_Mode; /* AGC Mode 0: Dual AGC; 1: Single AGC */
- u16 TOP; /* Value: take over point */
- u8 CLOCK_OUT; /* 0: turn off clock out; 1: turn on clock out */
- u8 DIV_OUT; /* 4MHz or 16MHz */
- u8 CAPSELECT; /* 0: disable On-Chip pulling cap; 1: enable */
- u8 EN_RSSI; /* 0: disable RSSI; 1: enable RSSI */
- u8 Mod_Type; /* Modulation Type; */
- /* 0 - Default; 1 - DVB-T; 2 - ATSC; 3 - QAM; 4 - Analog Cable */
- u8 TF_Type; /* Tracking Filter Type */
- /* 0 - Default; 1 - Off; 2 - Type C; 3 - Type C-H */
-
- /* Calculated Settings */
- u32 RF_LO; /* Synth RF LO Frequency */
- u32 IF_LO; /* Synth IF LO Frequency */
- u32 TG_LO; /* Synth TG_LO Frequency */
-
- /* Pointers to ControlName Arrays */
- u16 Init_Ctrl_Num; /* Number of INIT Control Names */
- TunerControl_struct
- Init_Ctrl[INITCTRL_NUM]; /* INIT Control Names Array Pointer */
-
- u16 CH_Ctrl_Num; /* Number of CH Control Names */
- TunerControl_struct
- CH_Ctrl[CHCTRL_NUM]; /* CH Control Name Array Pointer */
-
- u16 MXL_Ctrl_Num; /* Number of MXL Control Names */
- TunerControl_struct
- MXL_Ctrl[MXLCTRL_NUM]; /* MXL Control Name Array Pointer */
-
- /* Pointer to Tuner Register Array */
- u16 TunerRegs_Num; /* Number of Tuner Registers */
- TunerReg_struct
- TunerRegs[TUNER_REGS_NUM]; /* Tuner Register Array Pointer */
-
-} Tuner_struct;
-
typedef enum
{
/* Initialization Control Names */
@@ -290,60 +235,6 @@ typedef enum
* MaxLinear source code - Common_MXL.h (?)
*/
-void InitTunerControls(Tuner_struct *Tuner);
-u16 MXL_BlockInit(Tuner_struct *Tuner);
-u16 MXL5005_RegisterInit(Tuner_struct *Tuner);
-u16 MXL5005_ControlInit(Tuner_struct *Tuner);
-#ifdef _MXL_INTERNAL
-u16 MXL5005_MXLControlInit(Tuner_struct *Tuner);
-#endif
-
-u16 MXL5005_TunerConfig(Tuner_struct *Tuner,
- u8 Mode, /* 0: Analog Mode ; 1: Digital Mode */
- u8 IF_mode, /* for Analog Mode, 0: zero IF; 1: low IF */
- u32 Bandwidth, /* filter channel bandwidth (6, 7, 8) */
- u32 IF_out, /* Desired IF Out Frequency */
- u32 Fxtal, /* XTAL Frequency */
- u8 AGC_Mode, /* AGC Mode - Dual AGC: 0, Single AGC: 1 */
- u16 TOP, /* 0: Dual AGC; Value: take over point */
- u16 IF_OUT_LOAD, /* IF Out Load Resistor (200 / 300 Ohms) */
- u8 CLOCK_OUT, /* 0: turn off clock out; 1: turn on clock out */
- u8 DIV_OUT, /* 4MHz or 16MHz */
- u8 CAPSELECT, /* 0: disable On-Chip pulling cap; 1: enable */
- u8 EN_RSSI, /* 0: disable RSSI; 1: enable RSSI */
- u8 Mod_Type, /* Modulation Type; */
- /* 0 - Default; 1 - DVB-T; 2 - ATSC; 3 - QAM; 4 - Analog Cable */
- u8 TF_Type /* Tracking Filter Type */
- /* 0 - Default; 1 - Off; 2 - Type C; 3 - Type C-H */
- );
-
-void MXL_SynthIFLO_Calc(Tuner_struct *Tuner);
-void MXL_SynthRFTGLO_Calc(Tuner_struct *Tuner);
-u16 MXL_RegWrite(Tuner_struct *Tuner, u8 RegNum, u8 RegVal);
-u16 MXL_RegRead(Tuner_struct *Tuner, u8 RegNum, u8 *RegVal);
-u16 MXL_ControlWrite(Tuner_struct *Tuner, u16 ControlNum, u32 value);
-u16 MXL_ControlWrite_Group(Tuner_struct *Tuner, u16 ControlNum, u32 value, u16 controlGroup);
-u16 MXL_ControlRead(Tuner_struct *Tuner, u16 ControlNum, u32 * value);
-u16 MXL_ControlRegRead(Tuner_struct *Tuner, u16 ControlNum, u8 *RegNum, int *count);
-void MXL_RegWriteBit(Tuner_struct *Tuner, u8 address, u8 bit, u8 bitVal);
-u16 MXL_IFSynthInit(Tuner_struct * Tuner );
-u16 MXL_TuneRF(Tuner_struct *Tuner, u32 RF_Freq);
-u16 MXL_OverwriteICDefault(Tuner_struct *Tuner);
-u16 MXL_SetGPIO(Tuner_struct *Tuner, u8 GPIO_Num, u8 GPIO_Val);
-u32 MXL_Ceiling(u32 value, u32 resolution);
-u32 MXL_GetXtalInt(u32 Xtal_Freq);
-
-u16 MXL_GetInitRegister(Tuner_struct *Tuner, u8 * RegNum, u8 *RegVal, int *count);
-u16 MXL_GetCHRegister(Tuner_struct *Tuner, u8 * RegNum, u8 *RegVal, int *count);
-u16 MXL_GetCHRegister_ZeroIF(Tuner_struct *Tuner, u8 * RegNum, u8 *RegVal, int *count);
-u16 MXL_GetCHRegister_LowIF(Tuner_struct *Tuner, u8 * RegNum, u8 *RegVal, int *count);
-u16 MXL_GetMasterControl(u8 *MasterReg, int state);
-
-#ifdef _MXL_PRODUCTION
-u16 MXL_VCORange_Test(Tuner_struct *Tuner, int VCO_Range);
-u16 MXL_Hystersis_Test(Tuner_struct *Tuner, int Hystersis);
-#endif
-
/* Constants */
#define MXL5005S_REG_WRITING_TABLE_LEN_MAX 104
#define MXL5005S_LATCH_BYTE 0xfe
@@ -401,62 +292,6 @@ enum
MXL5005S_IF_OUTPUT_LOAD_300_OHM = 300,
};
-/* MxL5005S extra module alias */
-typedef struct MXL5005S_EXTRA_MODULE_TAG MXL5005S_EXTRA_MODULE;
-
-/* MxL5005S register setting function pointer */
-typedef int
-(*MXL5005S_FP_SET_REGS_WITH_TABLE)(
- struct dvb_usb_device* dib,
- TUNER_MODULE *pTuner,
- unsigned char *pAddrTable,
- unsigned char *pByteTable,
- int TableLen
- );
-
-
-/* MxL5005S register mask bits setting function pointer */
-typedef int
-(*MXL5005S_FP_SET_REG_MASK_BITS)(
- struct dvb_usb_device* dib,
- TUNER_MODULE *pTuner,
- unsigned char RegAddr,
- unsigned char Msb,
- unsigned char Lsb,
- const unsigned char WritingValue
- );
-
-/* MxL5005S spectrum mode setting function pointer */
-typedef int
-(*MXL5005S_FP_SET_SPECTRUM_MODE)(
- struct dvb_usb_device* dib,
- TUNER_MODULE *pTuner,
- int SpectrumMode
- );
-
-/* MxL5005S bandwidth setting function pointer */
-typedef int
-(*MXL5005S_FP_SET_BANDWIDTH_HZ)(
- struct dvb_usb_device* dib,
- TUNER_MODULE *pTuner,
- unsigned long BandwidthHz
- );
-
-/* MxL5005S extra module */
-struct MXL5005S_EXTRA_MODULE_TAG
-{
- /* MxL5005S function pointers */
- MXL5005S_FP_SET_REGS_WITH_TABLE SetRegsWithTable;
- MXL5005S_FP_SET_REG_MASK_BITS SetRegMaskBits;
- MXL5005S_FP_SET_SPECTRUM_MODE SetSpectrumMode;
- MXL5005S_FP_SET_BANDWIDTH_HZ SetBandwidthHz;
-
- /* MxL5005S extra data */
- unsigned char AgcMasterByte; /* Variable name in MaxLinear source code: AGC_MASTER_BYTE */
-
- /* MaxLinear defined struct */
- Tuner_struct MxlDefinedTunerStructure;
-};
/* End of common_mxl.h (?) */
#endif /* __MXL5005S_H */
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