// // Copyright 2018 Ettus Research, a National Instruments Company // // SPDX-License-Identifier: GPL-3.0-or-later // #ifndef INCLUDED_LIBUHD_RHODIUM_CONSTANTS_HPP #define INCLUDED_LIBUHD_RHODIUM_CONSTANTS_HPP #include #include #include #include static constexpr size_t NUM_RHODIUM_RADIO_RATES = 3; static constexpr std::array RHODIUM_RADIO_RATES = { 200e6, 245.76e6, 250e6}; static constexpr double RHODIUM_MIN_FREQ = 1e6; // Hz static constexpr double RHODIUM_MAX_FREQ = 6e9; // Hz static constexpr double RHODIUM_LO1_MIN_FREQ = 450e6; // Hz static constexpr double RHODIUM_LO1_MAX_FREQ = 6e9; // Hz static constexpr double RHODIUM_LO1_REF_FREQ = 122.88e6; // Hz static constexpr double RHODIUM_LO_0_9_GHZ_LPF_THRESHOLD_FREQ = 0.975e9; // Hz static constexpr double RHODIUM_LO_2_25_GHZ_LPF_THRESHOLD_FREQ = 2.3e9; // Hz static constexpr double RHODIUM_LOWBAND_FREQ = 450e6; // Hz static constexpr double RHODIUM_RX_IF_FREQ = 2.44e9; // Hz static constexpr double RHODIUM_TX_IF_FREQ = 1.95e9; // Hz static constexpr double RX_MIN_GAIN = 0.0; static constexpr double RX_MAX_GAIN = 60.0; static constexpr double RX_GAIN_STEP = 1.0; static constexpr double TX_MIN_GAIN = 0.0; static constexpr double TX_MAX_GAIN = 60.0; static constexpr double TX_GAIN_STEP = 1.0; static constexpr double LO_MIN_GAIN = 0.0; static constexpr double LO_MAX_GAIN = 30.0; static constexpr double LO_GAIN_STEP = 1.0; static constexpr double LO_MIN_POWER = 0.0; static constexpr double LO_MAX_POWER = 63.0; static constexpr double LO_POWER_STEP = 1.0; static constexpr double RHODIUM_DEFAULT_BANDWIDTH = 250e6; // Hz static const std::vector RHODIUM_RX_ANTENNAS = { "TX/RX", "RX2", "CAL", "TERM"}; static const std::vector RHODIUM_TX_ANTENNAS = {"TX/RX", "CAL", "TERM"}; // These names are taken from radio_rhodium.xml static constexpr char SPUR_DODGING_PROP_NAME[] = "spur_dodging"; static constexpr char SPUR_DODGING_THRESHOLD_PROP_NAME[] = "spur_dodging_threshold"; static constexpr char HIGHBAND_SPUR_REDUCTION_PROP_NAME[] = "highband_spur_reduction"; static constexpr char RHODIUM_DEFAULT_SPUR_DOGING_MODE[] = "disabled"; static constexpr double RHODIUM_DEFAULT_SPUR_DOGING_THRESHOLD = 2e6; static constexpr char RHODIUM_DEFAULT_HB_SPUR_REDUCTION_MODE[] = "disabled"; static constexpr char RHODIUM_FPGPIO_BANK[] = "FP0"; static constexpr uint32_t RHODIUM_GPIO_MASK = 0x1F; static constexpr uint32_t SW10_GPIO_MASK = 0x3; static constexpr uint32_t LED_GPIO_MASK = 0x1C; static constexpr uint32_t SW10_FROMTXLOWBAND = 0x0; static constexpr uint32_t SW10_FROMTXHIGHBAND = 0x1; static constexpr uint32_t SW10_ISOLATION = 0x2; static constexpr uint32_t SW10_TORX = 0x3; static constexpr uint32_t LED_RX = 0x04; static constexpr uint32_t LED_RX2 = 0x08; static constexpr uint32_t LED_TX = 0x10; //! Main LO static constexpr char RHODIUM_LO1[] = "lo1"; //! Low-band LO (for IF conversion) static constexpr char RHODIUM_LO2[] = "lowband"; //! DSA attenuation static constexpr char RHODIUM_GAIN[] = "gain_table"; //! LO DSA attenuation static constexpr char RHODIUM_LO_GAIN[] = "dsa"; //! LO output power static constexpr char RHODIUM_LO_POWER[] = "lo"; static constexpr char RHODIUM_FE_NAME[] = "Rhodium"; static constexpr int NUM_LO_OUTPUT_PORT_NAMES = 4; static constexpr std::array LO_OUTPUT_PORT_NAMES = {"LO_OUT_0", "LO_OUT_1", "LO_OUT_2", "LO_OUT_3"}; static constexpr size_t RHODIUM_NUM_CHANS = 1; namespace n320_regs { static constexpr uint32_t PERIPH_BASE = 0x80000; static constexpr uint32_t PERIPH_REG_OFFSET = 8; // db_control registers static constexpr uint32_t SR_MISC_OUTS = PERIPH_BASE + 160 * PERIPH_REG_OFFSET; static constexpr uint32_t SR_SPI = PERIPH_BASE + 168 * PERIPH_REG_OFFSET; static constexpr uint32_t SR_LEDS = PERIPH_BASE + 176 * PERIPH_REG_OFFSET; static constexpr uint32_t SR_FP_GPIO = PERIPH_BASE + 184 * PERIPH_REG_OFFSET; static constexpr uint32_t SR_DB_GPIO = PERIPH_BASE + 192 * PERIPH_REG_OFFSET; static constexpr uint32_t RB_MISC_IO = PERIPH_BASE + 16 * PERIPH_REG_OFFSET; static constexpr uint32_t RB_SPI = PERIPH_BASE + 17 * PERIPH_REG_OFFSET; static constexpr uint32_t RB_LEDS = PERIPH_BASE + 18 * PERIPH_REG_OFFSET; static constexpr uint32_t RB_DB_GPIO = PERIPH_BASE + 19 * PERIPH_REG_OFFSET; static constexpr uint32_t RB_FP_GPIO = PERIPH_BASE + 20 * PERIPH_REG_OFFSET; //! Delta between frontend offsets for channel 0 and 1 constexpr uint32_t SR_TX_FE_BASE = PERIPH_BASE + 208 * PERIPH_REG_OFFSET; constexpr uint32_t SR_RX_FE_BASE = PERIPH_BASE + 224 * PERIPH_REG_OFFSET; } // namespace n320_regs #endif /* INCLUDED_LIBUHD_RHODIUM_CONSTANTS_HPP */