/////////////////////////////////////////////////////////////////////////////////// // Copyright (C) 2015 F4EXB // // written by Edouard Griffiths // // // // 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 . // /////////////////////////////////////////////////////////////////////////////////// #include "../../channelrx/demodbfm/rdsdemod.h" #include #include #include #include const Real RDSDemod::m_pllBeta = 50; const Real RDSDemod::m_fsc = 1187.5; RDSDemod::RDSDemod() // : m_udpDebug(this, 1472, 9995) // UDP debug { m_srate = 250000; m_parms.subcarr_phi = 0; memset(m_parms.subcarr_bb, 0, sizeof(m_parms.subcarr_bb)); m_parms.clock_offset = 0; m_parms.clock_phi = 0; m_parms.prev_clock_phi = 0; m_parms.lo_clock = 0; m_parms.prev_lo_clock = 0; m_parms.prev_bb = 0; m_parms.d_cphi = 0; m_parms.acc = 0; m_parms.numsamples = 0; m_parms.prev_acc = 0; m_parms.counter = 0; m_parms.reading_frame = 0; memset(m_parms.tot_errs, 0, sizeof(m_parms.tot_errs)); m_parms.dbit = 0; m_prev = 0.0f; memset(m_xv, 0, 6*sizeof(Real)); memset(m_yv, 0, 6*sizeof(Real)); memset(m_xw, 0, 2*sizeof(Real)); memset(m_yw, 0, 2*sizeof(Real)); m_report.acc = 0.0f; m_report.fclk = 0.0f; m_report.qua = 0.0f; } RDSDemod::~RDSDemod() { //delete m_socket; } void RDSDemod::setSampleRate(int srate) /// FIXME: fix rate for now { (void) srate; } bool RDSDemod::process(Real demod, bool& bit) { bool ret = false; //m_udpDebug.write(m_parms.lo_clock * m_parms.subcarr_bb[0]); // UDP debug // Subcarrier downmix & phase recovery m_parms.subcarr_bb[0] = filter_lp_2400_iq(demod, 0); // 1187.5 Hz clock /* if (m_parms.subcarr_phi > 1e9) // ~ every 37 hours => not really useful { qDebug("RDSDemod::process: reset 1187.5 Hz clock"); m_parms.subcarr_phi = 0; m_parms.clock_offset = 0; }*/ m_parms.subcarr_phi += (2 * M_PI * m_fsc) / (Real) m_srate; m_parms.clock_phi = m_parms.subcarr_phi + m_parms.clock_offset; // Clock phase recovery if (sign(m_parms.prev_bb) != sign(m_parms.subcarr_bb[0])) { m_parms.d_cphi = std::fmod(m_parms.clock_phi, M_PI); if (m_parms.d_cphi >= M_PI_2) { m_parms.d_cphi -= M_PI; } m_parms.clock_offset -= 0.005 * m_parms.d_cphi; } m_parms.clock_phi = std::fmod(m_parms.clock_phi, 2 * M_PI); m_parms.lo_clock = (m_parms.clock_phi < M_PI ? 1 : -1); /* Decimate band-limited signal */ if (m_parms.numsamples % 8 == 0) { /* biphase symbol integrate & dump */ m_parms.acc += m_parms.subcarr_bb[0] * m_parms.lo_clock; if (sign(m_parms.lo_clock) != sign(m_parms.prev_lo_clock)) { ret = biphase(m_parms.acc, bit, m_parms.clock_phi - m_parms.prev_clock_phi); m_parms.acc = 0; } m_parms.prev_lo_clock = m_parms.lo_clock; } m_parms.numsamples++; m_parms.prev_bb = m_parms.subcarr_bb[0]; m_parms.prev_clock_phi = m_parms.clock_phi; m_prev = demod; return ret; } bool RDSDemod::biphase(Real acc, bool& bit, Real d_cphi) { bool ret = false; if (sign(acc) != sign(m_parms.prev_acc)) // two successive of different sign: error detected { m_parms.tot_errs[m_parms.counter % 2]++; } if (m_parms.counter % 2 == m_parms.reading_frame) // two successive of the same sing: OK { // new bit found int b = sign(m_parms.acc + m_parms.prev_acc); bit = b ^ m_parms.dbit; m_parms.dbit = b; ret = true; } if (m_parms.counter == 0) { if (m_parms.tot_errs[1 - m_parms.reading_frame] < m_parms.tot_errs[m_parms.reading_frame]) { m_parms.reading_frame = 1 - m_parms.reading_frame; } m_report.qua = (1.0 * abs(m_parms.tot_errs[0] - m_parms.tot_errs[1]) / (m_parms.tot_errs[0] + m_parms.tot_errs[1])) * 100; m_report.acc = acc; m_report.fclk = (d_cphi / (2 * M_PI)) * m_srate; /* qDebug("RDSDemod::biphase: frame: %d acc: %+6.3f errs: %3d %3d qual: %3.0f%% clk: %7.2f", m_parms.reading_frame, acc, m_parms.tot_errs[0], m_parms.tot_errs[1], m_report.qua, m_report.fclk);*/ m_parms.tot_errs[0] = 0; m_parms.tot_errs[1] = 0; } m_parms.prev_acc = acc; // memorize (z^-1) m_parms.counter = (m_parms.counter + 1) % 800; return ret; } Real RDSDemod::filter_lp_2400_iq(Real input, int iqIndex) { /* Digital filter designed by mkfilter/mkshape/gencode A.J. Fisher Command line: /www/usr/fisher/helpers/mkfilter -Bu -Lp -o 10 -a 4.8000000000e-03 0.0000000000e+00 -l */ m_xv[iqIndex][0] = m_xv[iqIndex][1]; m_xv[iqIndex][1] = m_xv[iqIndex][2]; m_xv[iqIndex][2] = input / 4.491730007e+03; m_yv[iqIndex][0] = m_yv[iqIndex][1]; m_yv[iqIndex][1] = m_yv[iqIndex][2]; m_yv[iqIndex][2] = (m_xv[iqIndex][0] + m_xv[iqIndex][2]) + 2 * m_xv[iqIndex][1] + ( -0.9582451124 * m_yv[iqIndex][0]) + ( 1.9573545869 * m_yv[iqIndex][1]); return m_yv[iqIndex][2]; } Real RDSDemod::filter_lp_pll(Real input) { m_xw[0] = m_xw[1]; m_xw[1] = input / 3.716236217e+01; m_yw[0] = m_yw[1]; m_yw[1] = (m_xw[0] + m_xw[1]) + ( 0.9461821078 * m_yw[0]); return m_yw[1]; } int RDSDemod::sign(Real a) { return (a >= 0 ? 1 : 0); }