// // Copyright 2010 Ettus Research LLC // // 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, either 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 for more details. // // You should have received a copy of the GNU General Public License // along with this program. If not, see . // #include "codec_ctrl.hpp" #include "ad9862_regs.hpp" #include #include #include #include #include #include #include "usrp_e_regs.hpp" //spi slave constants #include #include using namespace uhd; static const bool codec_debug = false; /*********************************************************************** * Codec Control Implementation **********************************************************************/ class usrp_e_codec_ctrl_impl : public usrp_e_codec_ctrl{ public: //structors usrp_e_codec_ctrl_impl(usrp_e_iface::sptr iface); ~usrp_e_codec_ctrl_impl(void); //aux adc and dac control float read_aux_adc(aux_adc_t which); void write_aux_dac(aux_dac_t which, float volts); private: usrp_e_iface::sptr _iface; ad9862_regs_t _ad9862_regs; aux_adc_t _last_aux_adc_a, _last_aux_adc_b; void send_reg(boost::uint8_t addr); void recv_reg(boost::uint8_t addr); }; /*********************************************************************** * Codec Control Structors **********************************************************************/ usrp_e_codec_ctrl_impl::usrp_e_codec_ctrl_impl(usrp_e_iface::sptr iface){ _iface = iface; //soft reset _ad9862_regs.soft_reset = 1; this->send_reg(0); //initialize the codec register settings _ad9862_regs.sdio_bidir = ad9862_regs_t::SDIO_BIDIR_SDIO_SDO; _ad9862_regs.lsb_first = ad9862_regs_t::LSB_FIRST_MSB; _ad9862_regs.soft_reset = 0; //setup rx side of codec _ad9862_regs.byp_buffer_a = 1; _ad9862_regs.byp_buffer_b = 1; _ad9862_regs.buffer_a_pd = 1; _ad9862_regs.buffer_b_pd = 1; _ad9862_regs.rx_pga_a = 0;//0x1f; //TODO bring under api control _ad9862_regs.rx_pga_b = 0;//0x1f; //TODO bring under api control _ad9862_regs.rx_twos_comp = 1; _ad9862_regs.rx_hilbert = ad9862_regs_t::RX_HILBERT_DIS; //setup tx side of codec _ad9862_regs.two_data_paths = ad9862_regs_t::TWO_DATA_PATHS_BOTH; _ad9862_regs.interleaved = ad9862_regs_t::INTERLEAVED_INTERLEAVED; _ad9862_regs.tx_pga_gain = 199; //TODO bring under api control _ad9862_regs.tx_hilbert = ad9862_regs_t::TX_HILBERT_DIS; _ad9862_regs.interp = ad9862_regs_t::INTERP_2; _ad9862_regs.tx_twos_comp = 1; _ad9862_regs.fine_mode = ad9862_regs_t::FINE_MODE_BYPASS; _ad9862_regs.coarse_mod = ad9862_regs_t::COARSE_MOD_BYPASS; _ad9862_regs.dac_a_coarse_gain = 0x3; _ad9862_regs.dac_b_coarse_gain = 0x3; //setup the dll _ad9862_regs.input_clk_ctrl = ad9862_regs_t::INPUT_CLK_CTRL_EXTERNAL; _ad9862_regs.dll_mult = ad9862_regs_t::DLL_MULT_2; _ad9862_regs.dll_mode = ad9862_regs_t::DLL_MODE_FAST; //write the register settings to the codec for (uint8_t addr = 0; addr <= 25; addr++){ this->send_reg(addr); } //aux adc clock _ad9862_regs.clk_4 = ad9862_regs_t::CLK_4_1_4; this->send_reg(34); } usrp_e_codec_ctrl_impl::~usrp_e_codec_ctrl_impl(void){ //set aux dacs to zero this->write_aux_dac(AUX_DAC_A, 0); this->write_aux_dac(AUX_DAC_B, 0); this->write_aux_dac(AUX_DAC_C, 0); this->write_aux_dac(AUX_DAC_D, 0); //power down _ad9862_regs.all_rx_pd = 1; this->send_reg(1); _ad9862_regs.tx_digital_pd = 1; _ad9862_regs.tx_analog_pd = ad9862_regs_t::TX_ANALOG_PD_BOTH; this->send_reg(8); } /*********************************************************************** * Codec Control AUX ADC Methods **********************************************************************/ static float aux_adc_to_volts(boost::uint8_t high, boost::uint8_t low){ return float((boost::uint16_t(high) << 2) | low)*3.3/0x3ff; } float usrp_e_codec_ctrl_impl::read_aux_adc(aux_adc_t which){ //check to see if the switch needs to be set bool write_switch = false; switch(which){ case AUX_ADC_A1: case AUX_ADC_A2: if (which != _last_aux_adc_a){ _ad9862_regs.select_a = (which == AUX_ADC_A1)? ad9862_regs_t::SELECT_A_AUX_ADC1: ad9862_regs_t::SELECT_A_AUX_ADC2; _last_aux_adc_a = which; write_switch = true; } break; case AUX_ADC_B1: case AUX_ADC_B2: if (which != _last_aux_adc_b){ _ad9862_regs.select_b = (which == AUX_ADC_B1)? ad9862_regs_t::SELECT_B_AUX_ADC1: ad9862_regs_t::SELECT_B_AUX_ADC2; _last_aux_adc_b = which; write_switch = true; } break; } //write the switch if it changed if(write_switch) this->send_reg(34); //map aux adcs to register values to read static const uhd::dict aux_dac_to_addr = boost::assign::map_list_of (AUX_ADC_A2, 26) (AUX_ADC_A1, 28) (AUX_ADC_B2, 30) (AUX_ADC_B1, 32) ; //read the value this->recv_reg(aux_dac_to_addr[which]+0); this->recv_reg(aux_dac_to_addr[which]+1); //return the value scaled to volts switch(which){ case AUX_ADC_A1: return aux_adc_to_volts(_ad9862_regs.aux_adc_a1_9_2, _ad9862_regs.aux_adc_a1_1_0); case AUX_ADC_A2: return aux_adc_to_volts(_ad9862_regs.aux_adc_a2_9_2, _ad9862_regs.aux_adc_a2_1_0); case AUX_ADC_B1: return aux_adc_to_volts(_ad9862_regs.aux_adc_b1_9_2, _ad9862_regs.aux_adc_b1_1_0); case AUX_ADC_B2: return aux_adc_to_volts(_ad9862_regs.aux_adc_b2_9_2, _ad9862_regs.aux_adc_b2_1_0); } UHD_ASSERT_THROW(false); } /*********************************************************************** * Codec Control AUX DAC Methods **********************************************************************/ void usrp_e_codec_ctrl_impl::write_aux_dac(aux_dac_t which, float volts){ //special case for aux dac d (aka sigma delta word) if (which == AUX_DAC_D){ boost::uint16_t dac_word = std::clip(boost::math::iround(volts*0xfff/3.3), 0, 0xfff); _ad9862_regs.sig_delt_11_4 = boost::uint8_t(dac_word >> 4); _ad9862_regs.sig_delt_3_0 = boost::uint8_t(dac_word & 0xf); this->send_reg(42); this->send_reg(43); return; } //calculate the dac word for aux dac a, b, c boost::uint8_t dac_word = std::clip(boost::math::iround(volts*0xff/3.3), 0, 0xff); //setup a lookup table for the aux dac params (reg ref, reg addr) typedef boost::tuple dac_params_t; uhd::dict aux_dac_to_params = boost::assign::map_list_of (AUX_DAC_A, dac_params_t(&_ad9862_regs.aux_dac_a, 36)) (AUX_DAC_B, dac_params_t(&_ad9862_regs.aux_dac_b, 37)) (AUX_DAC_C, dac_params_t(&_ad9862_regs.aux_dac_c, 38)) ; //set the aux dac register UHD_ASSERT_THROW(aux_dac_to_params.has_key(which)); boost::uint8_t *reg_ref, reg_addr; boost::tie(reg_ref, reg_addr) = aux_dac_to_params[which]; *reg_ref = dac_word; this->send_reg(reg_addr); } /*********************************************************************** * Codec Control SPI Methods **********************************************************************/ void usrp_e_codec_ctrl_impl::send_reg(boost::uint8_t addr){ boost::uint32_t reg = _ad9862_regs.get_write_reg(addr); if (codec_debug) std::cout << "codec control write reg: " << std::hex << reg << std::endl; _iface->transact_spi( UE_SPI_SS_AD9862, spi_config_t::EDGE_RISE, reg, 16, false /*no rb*/ ); } void usrp_e_codec_ctrl_impl::recv_reg(boost::uint8_t addr){ boost::uint32_t reg = _ad9862_regs.get_read_reg(addr); if (codec_debug) std::cout << "codec control read reg: " << std::hex << reg << std::endl; boost::uint32_t ret = _iface->transact_spi( UE_SPI_SS_AD9862, spi_config_t::EDGE_RISE, reg, 16, true /*rb*/ ); if (codec_debug) std::cout << "codec control read ret: " << std::hex << ret << std::endl; _ad9862_regs.set_reg(addr, boost::uint16_t(ret)); } /*********************************************************************** * Codec Control Make **********************************************************************/ usrp_e_codec_ctrl::sptr usrp_e_codec_ctrl::make(usrp_e_iface::sptr iface){ return sptr(new usrp_e_codec_ctrl_impl(iface)); }