// // Copyright 2017 Ettus Research, a National Instruments Company // // SPDX-License-Identifier: GPL-3.0 // // The band plan #include "magnesium_radio_ctrl_impl.hpp" #include "magnesium_constants.hpp" #include /* * Magnesium Rev C frequency bands: * * RX IF frequency is 2.4418 GHz. Have 80 MHz of bandwidth for loband. * TX IF frequency is 1.8-2.1 GHz (1.95 GHz is best). * * For RX: * Band SW2-AB SW3-ABC SW4-ABC SW5-ABCD SW6-ABC SW7-AB SW8-AB MIX * WB RF1 01 OFF 111 NA --- NA ---- RF3 001 RF2 01 RF2 01 0 * LB RF2 10 RF5 100 NA --- RF3 0010 RF1 100 RF1 10 RF1 10 1 * 440-530 RF2 10 RF2 001 NA --- RF1 1000 RF1 100 RF2 01 RF2 01 0 * 650-1000 RF2 10 RF6 101 NA --- RF4 0001 RF1 100 RF2 01 RF2 01 0 * 1100-1575 RF2 10 RF4 011 NA --- RF2 0100 RF1 100 RF2 01 RF2 01 0 * 1600-2250 RF2 10 RF3 010 RF2 010 NA ---- RF2 010 RF2 01 RF2 01 0 * 2100-2850 RF2 10 RF1 000 RF1 100 NA ---- RF2 010 RF2 01 RF2 01 0 * 2700+ RF3 11 OFF 111 RF3 001 NA ---- RF2 010 RF2 01 RF2 01 0 * * For TX: * Band SW5-AB SW4-AB SW3-X SW2-ABCD SW1-AB SWTRX-AB MIX * WB RF1 10 RF2 01 RF1 0 NA ---- SHD 00 RF4 11 0 * LB RF2 01 RF1 10 RF2 1 RF3 0010 RF3 11 RF1 00 1 * <800 RF1 10 RF2 01 RF2 1 RF3 0010 RF3 11 RF1 00 0 * 800-1700 RF1 10 RF2 01 RF2 1 RF2 0100 RF2 10 RF1 00 0 * 1700-3400 RF1 10 RF2 01 RF2 1 RF1 1000 RF1 01 RF1 00 0 * 3400-6400 RF1 10 RF2 01 RF2 1 RF4 0001 SHD 00 RF2 10 0 */ using namespace uhd; using namespace uhd::usrp; using namespace uhd::rfnoc; using namespace uhd::math::fp_compare; namespace { /* Note on the RX filter bank: * * The RX path has 7 bands, which we call BAND0 through BAND7. BAND0 is the * lowest frequency band (it goes through F44, the 490 MHz low pass filter, * on the first channel). BAND7 is the highest frequency band, it goes * through the 2.7 GHz high pass filter (F43 on the first channel). * * For all frequencies, there are gain values where we bypass the filter * bank. In this case, the band setting does not apply (does not have any * meaning). * * The lowband, when not disabling the filter bank, always goes through * BAND0, but there are non-lowband frequencies which can also go through * BAND0. * * The following constants define lower cutoff frequencies for each band. * BAND0 does not have a lower cutoff frequency, it is implied by * MAGNESIUM_MIN_FREQ. MAGNESIUM_RX_BAND1_MIN_FREQ is the cutover frequency * for switching from BAND0 to BAND1, and so on. * * Bands 1-6 have both high- and low-pass filters (effectively band * passes). Frequencies need to be chosen to allow as much of the full * bandwidth through unattenuated. */ constexpr double MAGNESIUM_RX_BAND1_MIN_FREQ = 430e6; constexpr double MAGNESIUM_RX_BAND2_MIN_FREQ = 600e6; constexpr double MAGNESIUM_RX_BAND3_MIN_FREQ = 1050e6; constexpr double MAGNESIUM_RX_BAND4_MIN_FREQ = 1600e6; constexpr double MAGNESIUM_RX_BAND5_MIN_FREQ = 2100e6; constexpr double MAGNESIUM_RX_BAND6_MIN_FREQ = 2700e6; /* Note on the TX filter bank: * * The TX path has 4 bands, which we call BAND0 through BAND3. * For all frequencies, there are gain values where we bypass the filter * bank. In this case, the band setting does not apply (does not have any * meaning). * * The lowband, when not disabling the filter bank, always goes through * BAND0, but there are non-lowband frequencies which can also go through * BAND0. * * The following constants define lower cutoff frequencies for each band. * BAND0 does not have a lower cutoff frequency, it is implied by * MAGNESIUM_MIN_FREQ. MAGNESIUM_TX_BAND1_MIN_FREQ is the cutover frequency * for switching from BAND0 to BAND1, and so on. * * On current Magnesium revisions, all filters on the TX filter bank are * low pass filters (no high pass filters). * Frequencies need to be chosen to allow as much of the full bandwidth * through unattenuated (so don't go all the way up to the cutoff frequency * of that filter, OK). */ constexpr double MAGNESIUM_TX_BAND1_MIN_FREQ = 723.17e6; constexpr double MAGNESIUM_TX_BAND2_MIN_FREQ = 1623.17e6; constexpr double MAGNESIUM_TX_BAND3_MIN_FREQ = 3323.17e6; } magnesium_radio_ctrl_impl::rx_band magnesium_radio_ctrl_impl::_map_freq_to_rx_band(const double freq) { magnesium_radio_ctrl_impl::rx_band band; if (fp_compare_epsilon(freq) < MAGNESIUM_MIN_FREQ) { band = rx_band::INVALID_BAND; } else if (fp_compare_epsilon(freq) < MAGNESIUM_LOWBAND_FREQ) { band = rx_band::LOWBAND; } else if (fp_compare_epsilon(freq) < MAGNESIUM_RX_BAND1_MIN_FREQ) { band = rx_band::BAND0; } else if (fp_compare_epsilon(freq) < MAGNESIUM_RX_BAND2_MIN_FREQ) { band = rx_band::BAND1; } else if (fp_compare_epsilon(freq) < MAGNESIUM_RX_BAND3_MIN_FREQ) { band = rx_band::BAND2; } else if (fp_compare_epsilon(freq) < MAGNESIUM_RX_BAND4_MIN_FREQ) { band = rx_band::BAND3; } else if (fp_compare_epsilon(freq) < MAGNESIUM_RX_BAND5_MIN_FREQ) { band = rx_band::BAND4; } else if (fp_compare_epsilon(freq) < MAGNESIUM_RX_BAND6_MIN_FREQ) { band = rx_band::BAND5; } else if (fp_compare_epsilon(freq) <= MAGNESIUM_MAX_FREQ) { band = rx_band::BAND6; } else { band = rx_band::INVALID_BAND; } return band; } magnesium_radio_ctrl_impl::tx_band magnesium_radio_ctrl_impl::_map_freq_to_tx_band(const double freq) { magnesium_radio_ctrl_impl::tx_band band; if (fp_compare_epsilon(freq) < MAGNESIUM_MIN_FREQ) { band = tx_band::INVALID_BAND; } else if (fp_compare_epsilon(freq) < MAGNESIUM_LOWBAND_FREQ) { band = tx_band::LOWBAND; } else if (fp_compare_epsilon(freq) < MAGNESIUM_TX_BAND1_MIN_FREQ) { band = tx_band::BAND0; } else if (fp_compare_epsilon(freq) < MAGNESIUM_TX_BAND2_MIN_FREQ) { band = tx_band::BAND1; } else if (fp_compare_epsilon(freq) < MAGNESIUM_TX_BAND3_MIN_FREQ) { band = tx_band::BAND2; } else if (fp_compare_epsilon(freq) <= MAGNESIUM_MAX_FREQ) { band = tx_band::BAND3; } else { band = tx_band::INVALID_BAND; } return band; }