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sdrangel/plugins/samplemimo/limesdrmimo/limesdrmimosettings.h

131 lines
5.8 KiB
C

///////////////////////////////////////////////////////////////////////////////////
// Copyright (C) 2020, 2022 Edouard Griffiths, F4EXB <f4exb06@gmail.com> //
// //
// This program is free software; you can redistribute it and/or modify //
// it under the terms of the GNU General Public License as published by //
// the Free Software Foundation as version 3 of the License, or //
// (at your option) any later version. //
// //
// This program is distributed in the hope that it will be useful, //
// but WITHOUT ANY WARRANTY; without even the implied warranty of //
// MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the //
// GNU General Public License V3 for more details. //
// //
// You should have received a copy of the GNU General Public License //
// along with this program. If not, see <http://www.gnu.org/licenses/>. //
///////////////////////////////////////////////////////////////////////////////////
#ifndef PLUGINS_SAMPLEMIMO_LIMESDRMIMO_LIMESDRMIMOSETTINGS_H_
#define PLUGINS_SAMPLEMIMO_LIMESDRMIMO_LIMESDRMIMOSETTINGS_H_
#include <QtGlobal>
#include <QString>
struct LimeSDRMIMOSettings
{
typedef enum {
FC_POS_INFRA = 0,
FC_POS_SUPRA,
FC_POS_CENTER
} fcPos_t;
enum PathRxRFE
{
PATH_RFE_RX_NONE = 0,
PATH_RFE_LNAH,
PATH_RFE_LNAL,
PATH_RFE_LNAW,
PATH_RFE_LB1,
PATH_RFE_LB2
};
typedef enum {
GAIN_AUTO,
GAIN_MANUAL
} RxGainMode;
enum PathTxRFE
{
PATH_RFE_TX_NONE = 0,
PATH_RFE_TXRF1,
PATH_RFE_TXRF2,
};
// General
qint32 m_devSampleRate;
uint8_t m_gpioDir; //!< GPIO pin direction LSB first; 0 input, 1 output
uint8_t m_gpioPins; //!< GPIO pins to write; LSB first
bool m_extClock; //!< True if external clock source
uint32_t m_extClockFreq; //!< Frequency (Hz) of external clock source
bool m_useReverseAPI;
QString m_reverseAPIAddress;
uint16_t m_reverseAPIPort;
uint16_t m_reverseAPIDeviceIndex;
// Rx general
quint64 m_rxCenterFrequency;
uint32_t m_log2HardDecim;
uint32_t m_log2SoftDecim;
bool m_dcBlock;
bool m_iqCorrection;
bool m_rxTransverterMode;
qint64 m_rxTransverterDeltaFrequency;
bool m_iqOrder;
bool m_ncoEnableRx; //!< Rx Enable TSP NCO and mixing
int m_ncoFrequencyRx; //!< Rx Actual NCO frequency (the resulting frequency with mixing is displayed)
// Rx channel 0
float m_lpfBWRx0; //!< Rx[0] LMS analog lowpass filter bandwidth (Hz)
bool m_lpfFIREnableRx0; //!< Rx[0] Enable LMS digital lowpass FIR filters
float m_lpfFIRBWRx0; //!< Rx[0] LMS digital lowpass FIR filters bandwidth (Hz)
uint32_t m_gainRx0; //!< Rx[0] Optimally distributed gain (dB)
PathRxRFE m_antennaPathRx0; //!< Rx[0] Antenna connection
RxGainMode m_gainModeRx0; //!< Rx[0] Gain mode: auto or manual
uint32_t m_lnaGainRx0; //!< Rx[0] Manual LAN gain
uint32_t m_tiaGainRx0; //!< Rx[0] Manual TIA gain
uint32_t m_pgaGainRx0; //!< Rx[0] Manual PGA gain
// Rx channel 1
float m_lpfBWRx1; //!< Rx[1] LMS analog lowpass filter bandwidth (Hz)
bool m_lpfFIREnableRx1; //!< Rx[1] Enable LMS digital lowpass FIR filters
float m_lpfFIRBWRx1; //!< Rx[1] LMS digital lowpass FIR filters bandwidth (Hz)
uint32_t m_gainRx1; //!< Rx[1] Optimally distributed gain (dB)
PathRxRFE m_antennaPathRx1; //!< Rx[1] Antenna connection
RxGainMode m_gainModeRx1; //!< Rx[1] Gain mode: auto or manual
uint32_t m_lnaGainRx1; //!< Rx[1] Manual LAN gain
uint32_t m_tiaGainRx1; //!< Rx[1] Manual TIA gain
uint32_t m_pgaGainRx1; //!< Rx[1] Manual PGA gain
// Tx general
quint64 m_txCenterFrequency;
uint32_t m_log2HardInterp;
uint32_t m_log2SoftInterp;
bool m_txTransverterMode;
qint64 m_txTransverterDeltaFrequency;
bool m_ncoEnableTx; //!< Tx Enable TSP NCO and mixing
int m_ncoFrequencyTx; //!< Tx Actual NCO frequency (the resulting frequency with mixing is displayed)
// Tx channel 0
float m_lpfBWTx0; //!< Tx[0] LMS amalog lowpass filter bandwidth (Hz)
bool m_lpfFIREnableTx0; //!< Tx[0] Enable LMS digital lowpass FIR filters
float m_lpfFIRBWTx0; //!< Tx[0] LMS digital lowpass FIR filters bandwidth (Hz)
uint32_t m_gainTx0; //!< Tx[0] Optimally distributed gain (dB)
PathTxRFE m_antennaPathTx0; //!< Tx[0] Antenna connection
// Tx channel 1
float m_lpfBWTx1; //!< Tx[1] LMS amalog lowpass filter bandwidth (Hz)
bool m_lpfFIREnableTx1; //!< Tx[1] Enable LMS digital lowpass FIR filters
float m_lpfFIRBWTx1; //!< Tx[1] LMS digital lowpass FIR filters bandwidth (Hz)
uint32_t m_gainTx1; //!< Tx[1] Optimally distributed gain (dB)
PathTxRFE m_antennaPathTx1; //!< Tx[1] Antenna connection
LimeSDRMIMOSettings();
void resetToDefaults();
QByteArray serialize() const;
bool deserialize(const QByteArray& data);
void applySettings(const QStringList& settingsKeys, const LimeSDRMIMOSettings& settings);
QString getDebugString(const QStringList& settingsKeys, bool force=false) const;
};
#endif // PLUGINS_SAMPLEMIMO_LIMESDRMIMO_LIMESDRMIMOSETTINGS_H_