#include <lib/dvb/rotor_calc.h>
#if HAVE_DVB_API_VERSION < 3
-#define INVERSION Inversion
#define FREQUENCY Frequency
-#define FEC_INNER FEC_inner
-#define SYMBOLRATE SymbolRate
#else
-#define INVERSION inversion
#define FREQUENCY frequency
-#define FEC_INNER fec_inner
-#define SYMBOLRATE symbol_rate
#endif
#include <lib/base/eerror.h>
if ( sat.frequency > lnb_param.m_lof_threshold )
band |= 1;
- if (sat.polarisation == eDVBFrontendParametersSatellite::Polarisation::Horizontal)
+ if (!(sat.polarisation & eDVBFrontendParametersSatellite::Polarisation::Vertical))
band |= 2;
bool rotor=false;
}
if (ret)
{
- static int lofs[] = { 3650000, 5150000, 9750000, 10600000 };
int lof = sat.frequency > lnb_param.m_lof_threshold ?
lnb_param.m_lof_hi : lnb_param.m_lof_lo;
- int diff = 0x7FFFFFFF;
- unsigned int num_lofs = sizeof(lofs) / sizeof(int);
- int used_band = -1;
- for (int i=0; i < num_lofs; ++i)
+ int tuner_freq = abs(sat.frequency - lof);
+// eDebug("tuner freq %d", tuner_freq);
+ if (tuner_freq < 900000 || tuner_freq > 2200000)
{
- int lof_diff = abs(lof - lofs[i]);
- if ( lof_diff < diff )
- {
- diff = lof_diff;
- used_band = i;
- }
- }
- if ( used_band != -1 )
- {
- if ( diff > 50000 )
- {
- eDebug("could not detect used lnb freq range .. disable range check !!!");
- used_band = -1;
- }
- }
- if ( used_band != -1 )
- {
- int range[2];
- switch(used_band)
- {
- case 0: // s-band
- range[0] = 2500000;
- range[1] = 2700000;
- break;
- case 1: // c-band
- range[0] = 3400000;
- range[1] = 4200000;
- break;
- case 2: // ku-band low
- range[0] = 10700000;
- range[1] = 11750000;
- break;
- case 3: // ku-band high
- range[0] = 11750000;
- range[1] = 12750000;
- break;
- }
- // check frequency in range ( +/- 50Mhz )
- if ( (sat.frequency+75000) < range[0] )
- ret=0;
- if ( (sat.frequency-75000) > range[1] )
- ret=0;
+ ret=0;
+// eDebug("Transponder not tuneable with this lnb... %d Khz out of tuner range",
+// tuner_freq);
}
}
}
#define VOLTAGE(x) (lnb_param.m_increased_voltage ? iDVBFrontend::voltage##x##_5 : iDVBFrontend::voltage##x)
-RESULT eDVBSatelliteEquipmentControl::prepare(iDVBFrontend &frontend, FRONTENDPARAMETERS &parm, eDVBFrontendParametersSatellite &sat, int frontend_id)
+RESULT eDVBSatelliteEquipmentControl::prepare(iDVBFrontend &frontend, FRONTENDPARAMETERS &parm, const eDVBFrontendParametersSatellite &sat, int frontend_id)
{
bool linked=false;
bool depend_satpos_mode=false;
if ( sit != lnb_param.m_satellites.end())
{
eDVBSatelliteSwitchParameters &sw_param = sit->second;
-
+ bool doSetVoltageToneFrontend = true;
int band=0,
linked_to=-1, // linked tuner
satpos_depends_to=-1,
parm.FREQUENCY = abs(parm.FREQUENCY);
- if (sat.polarisation == eDVBFrontendParametersSatellite::Polarisation::Horizontal)
- band |= 2;
-
- switch (sat.inversion)
- {
- case eDVBFrontendParametersCable::Inversion::On:
- parm.INVERSION = INVERSION_ON;
- break;
- case eDVBFrontendParametersCable::Inversion::Off:
- parm.INVERSION = INVERSION_OFF;
- break;
- default:
- case eDVBFrontendParametersCable::Inversion::Unknown:
- parm.INVERSION = INVERSION_AUTO;
- break;
- }
-
- switch (sat.fec)
- {
- default:
- case eDVBFrontendParametersSatellite::FEC::fNone:
- eDebug("no fec set.. assume auto");
- case eDVBFrontendParametersSatellite::FEC::fAuto:
- parm.u.qpsk.FEC_INNER = FEC_AUTO;
- break;
- case eDVBFrontendParametersSatellite::FEC::f1_2:
- parm.u.qpsk.FEC_INNER = FEC_1_2;
- break;
- case eDVBFrontendParametersSatellite::FEC::f2_3:
- parm.u.qpsk.FEC_INNER = FEC_2_3;
- break;
- case eDVBFrontendParametersSatellite::FEC::f3_4:
- parm.u.qpsk.FEC_INNER = FEC_3_4;
- break;
- case eDVBFrontendParametersSatellite::FEC::f5_6:
- parm.u.qpsk.FEC_INNER = FEC_5_6;
- break;
- case eDVBFrontendParametersSatellite::FEC::f7_8:
- parm.u.qpsk.FEC_INNER = FEC_7_8;
- break;
- }
+ frontend.setData(9, sat.frequency - parm.FREQUENCY);
- parm.u.qpsk.SYMBOLRATE = sat.symbol_rate;
+ if (!(sat.polarisation & eDVBFrontendParametersSatellite::Polarisation::Vertical))
+ band |= 2;
if ( sw_param.m_voltage_mode == eDVBSatelliteSwitchParameters::_14V
- || ( sat.polarisation == eDVBFrontendParametersSatellite::Polarisation::Vertical
+ || ( sat.polarisation & eDVBFrontendParametersSatellite::Polarisation::Vertical
&& sw_param.m_voltage_mode == eDVBSatelliteSwitchParameters::HV ) )
voltage = VOLTAGE(13);
else if ( sw_param.m_voltage_mode == eDVBSatelliteSwitchParameters::_18V
- || ( sat.polarisation == eDVBFrontendParametersSatellite::Polarisation::Horizontal
+ || ( !(sat.polarisation & eDVBFrontendParametersSatellite::Polarisation::Vertical)
&& sw_param.m_voltage_mode == eDVBSatelliteSwitchParameters::HV ) )
voltage = VOLTAGE(18);
if ( (sw_param.m_22khz_signal == eDVBSatelliteSwitchParameters::ON)
sec_sequence.push_back( eSecCommand(eSecCommand::IF_NOT_VOLTAGE_GOTO, compare) );
if ( RotorCmd != -1 && RotorCmd != lastRotorCmd )
- // TODO .. add handling for turning rotor without measure inputpower
- compare.voltage = VOLTAGE(18);
+ {
+ if (rotor_param.m_inputpower_parameters.m_use)
+ compare.voltage = VOLTAGE(18); // in input power mode turn rotor always with 18V (fast)
+ else
+ compare.voltage = VOLTAGE(13); // in normal mode start turning with 13V
+ }
else
compare.voltage = voltage;
// else we set voltage after all diseqc stuff..
sec_sequence.push_back( eSecCommand(eSecCommand::IF_NOT_VOLTAGE_GOTO, compare) );
- // TODO .. add handling for turning rotor without measure inputpower
- sec_sequence.push_back( eSecCommand(eSecCommand::SET_VOLTAGE, VOLTAGE(18)) );
+ if (rotor_param.m_inputpower_parameters.m_use)
+ sec_sequence.push_back( eSecCommand(eSecCommand::SET_VOLTAGE, VOLTAGE(13)) ); // in normal mode start turning with 13V
+ else
+ sec_sequence.push_back( eSecCommand(eSecCommand::SET_VOLTAGE, VOLTAGE(18)) ); // turn always with 18V
+
// voltage was disabled..so we wait a longer time ..
sec_sequence.push_back( eSecCommand(eSecCommand::SLEEP, 500) );
sec_sequence.push_back( eSecCommand(eSecCommand::GOTO, +7) ); // no need to send stop rotor cmd
sec_sequence.push_back( eSecCommand(eSecCommand::IF_TIMEOUT_GOTO, +3 ) ); // timeout ? this should never happen
sec_sequence.push_back( eSecCommand(eSecCommand::GOTO, -4) ); // running loop start
/////////////////////
- sec_sequence.push_back( eSecCommand(eSecCommand::UPDATE_CURRENT_ROTORPARAMS) );
- sec_sequence.push_back( eSecCommand(eSecCommand::SET_POWER_LIMITING_MODE, eSecCommand::modeDynamic) );
- frontend.setData(3, RotorCmd);
- frontend.setData(4, sat.orbital_position);
}
else
- eFatal("rotor turning without inputpowermeasure not implemented yet");
+ { // use normal turning mode
+ doSetVoltageToneFrontend=false;
+ eSecCommand::rotor cmd;
+ eSecCommand::pair compare;
+ compare.voltage = VOLTAGE(13);
+ compare.steps = +2;
+ sec_sequence.push_back( eSecCommand(eSecCommand::IF_VOLTAGE_GOTO, compare) );
+ sec_sequence.push_back( eSecCommand(eSecCommand::SET_VOLTAGE, compare.voltage) );
+ sec_sequence.push_back( eSecCommand(eSecCommand::SLEEP, 200) ); // wait 200msec after voltage change
+
+ sec_sequence.push_back( eSecCommand(eSecCommand::SET_POWER_LIMITING_MODE, eSecCommand::modeStatic) );
+ sec_sequence.push_back( eSecCommand(eSecCommand::INVALIDATE_CURRENT_ROTORPARMS) );
+ sec_sequence.push_back( eSecCommand(eSecCommand::SEND_DISEQC, diseqc) );
+
+ compare.voltage = voltage;
+ compare.steps = +3;
+ sec_sequence.push_back( eSecCommand(eSecCommand::IF_VOLTAGE_GOTO, compare) ); // correct final voltage?
+ sec_sequence.push_back( eSecCommand(eSecCommand::SLEEP, 2000) ); // wait 2 second before set high voltage
+ sec_sequence.push_back( eSecCommand(eSecCommand::SET_VOLTAGE, voltage) );
+
+ sec_sequence.push_back( eSecCommand(eSecCommand::SET_TONE, tone) );
+ sec_sequence.push_back( eSecCommand(eSecCommand::SET_FRONTEND) );
+
+ cmd.direction=1; // check for running rotor
+ cmd.deltaA=0;
+ cmd.steps=+3;
+ cmd.okcount=0;
+
+ sec_sequence.push_back( eSecCommand(eSecCommand::SET_TIMEOUT, 480) ); // 2 minutes running timeout
+ sec_sequence.push_back( eSecCommand(eSecCommand::SLEEP, 250) ); // 250msec delay
+ sec_sequence.push_back( eSecCommand(eSecCommand::IF_TUNER_LOCKED_GOTO, cmd ) );
+ sec_sequence.push_back( eSecCommand(eSecCommand::IF_TIMEOUT_GOTO, +3 ) );
+ sec_sequence.push_back( eSecCommand(eSecCommand::GOTO, -3) ); // goto loop start
+ }
+ sec_sequence.push_back( eSecCommand(eSecCommand::UPDATE_CURRENT_ROTORPARAMS) );
+ sec_sequence.push_back( eSecCommand(eSecCommand::SET_POWER_LIMITING_MODE, eSecCommand::modeDynamic) );
+ frontend.setData(3, RotorCmd);
+ frontend.setData(4, sat.orbital_position);
}
}
else
if ( linked )
return 0;
- eSecCommand::pair compare;
- compare.voltage = voltage;
- compare.steps = +3;
- sec_sequence.push_back( eSecCommand(eSecCommand::IF_VOLTAGE_GOTO, compare) ); // voltage already correct ?
- sec_sequence.push_back( eSecCommand(eSecCommand::SET_VOLTAGE, voltage) );
- sec_sequence.push_back( eSecCommand(eSecCommand::SLEEP, 10) );
-
- sec_sequence.push_back( eSecCommand(eSecCommand::SET_TONE, tone) );
- sec_sequence.push_back( eSecCommand(eSecCommand::SLEEP, 15) );
+ if (doSetVoltageToneFrontend)
+ {
+ eSecCommand::pair compare;
+ compare.voltage = voltage;
+ compare.steps = +3;
+ sec_sequence.push_back( eSecCommand(eSecCommand::IF_VOLTAGE_GOTO, compare) ); // voltage already correct ?
+ sec_sequence.push_back( eSecCommand(eSecCommand::SET_VOLTAGE, voltage) );
+ sec_sequence.push_back( eSecCommand(eSecCommand::SLEEP, 10) );
+
+ sec_sequence.push_back( eSecCommand(eSecCommand::SET_TONE, tone) );
+ sec_sequence.push_back( eSecCommand(eSecCommand::SLEEP, 15) );
+
+ sec_sequence.push_back( eSecCommand(eSecCommand::START_TUNE_TIMEOUT) );
+ sec_sequence.push_back( eSecCommand(eSecCommand::SET_FRONTEND) );
+ }
frontend.setSecSequence(sec_sequence);
RESULT eDVBSatelliteEquipmentControl::clear()
{
- for (int i=0; i < m_lnbidx; ++i)
+ for (int i=0; i <= m_lnbidx; ++i)
{
m_lnbs[i].m_satellites.clear();
m_lnbs[i].tuner_mask = 0;
/* LNB Specific Parameters */
RESULT eDVBSatelliteEquipmentControl::addLNB()
{
- if ( m_lnbidx < (int)(sizeof(m_lnbs) / sizeof(eDVBSatelliteLNBParameters)))
+ if ( (m_lnbidx+1) < (int)(sizeof(m_lnbs) / sizeof(eDVBSatelliteLNBParameters)))
m_curSat=m_lnbs[++m_lnbidx].m_satellites.end();
else
{
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