/* * Copyright (C) 2017 Jared Boone, ShareBrained Technology, Inc. * * This file is part of PortaPack. * * 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 2, 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; see the file COPYING. If not, write to * the Free Software Foundation, Inc., 51 Franklin Street, * Boston, MA 02110-1301, USA. */ #include "ak4951.hpp" #include "portapack_io.hpp" using namespace portapack; #include namespace asahi_kasei { namespace ak4951 { void AK4951::configure_digital_interface() { // Configure for external slave mode. map.r.mode_control_1.DIF = 0b11; // I2S compatible map.r.mode_control_1.BCKO = 0; // BICK = 32fs update(Register::ModeControl1); map.r.mode_control_2.CM = 0b00; // MCKI = 256fs map.r.mode_control_2.FS = 0b1011; // fs = 48kHz update(Register::ModeControl2); // map.r.mode_control_3.DVOLC = 1; // Control L/R channels with DVL (LchDigitalVolumeControl) // update(Register::ModeControl3); map.r.power_management_2.MS = 0; // Slave mode map.r.power_management_2.PMPLL = 0; // EXT mode update(Register::PowerManagement2); } void AK4951::init() { reset(); // Write dummy address to "release" the reset. write(0x00, 0x00); configure_digital_interface(); map.r.power_management_1.PMVCM = 1; update(Register::PowerManagement1); // Headphone output is hi-Z when not active, reduces crosstalk from speaker output. map.r.beep_control.HPZ = 1; update(Register::BeepControl); // Pause for VCOM and REGFIL pins to stabilize. chThdSleepMilliseconds(2); headphone_mute(); // SPK-Amp gain setting: SPKG1-0 bits = “00” → “01” map.r.signal_select_2.SPKG = 0b01; update(Register::SignalSelect2); map.r.signal_select_3.MONO = 0b00; update(Register::SignalSelect3); map.r.digital_filter_mode.PFSDO = 0; // ADC bypass digital filter block. map.r.digital_filter_mode.ADCPF = 1; // ADC output map.r.digital_filter_mode.PFDAC = 0b00; // SDTI update(Register::DigitalFilterMode); // Set up FRN, FRATT and ADRST1-0 bits (Addr = 09H) // map.r.timer_select.FRN = 0; // map.r.timer_select.FRATT = 0; // map.r.timer_select.ADRST = 0b00; // update(Register::TimerSelect); // Set up ALC mode (Addr = 0AH, 0BH) // map.r.alc_timer_select. = ; // update(Register::ALCTimerSelect); // map.r.alc_mode_control_1. = ; // update(Register::ALCModeControl1); // Set up REF value of ALC (Addr = 0CH) // map.r.alc_mode_control_2. = ; // update(Register::ALCModeControl2); // Set up IVOL value of ALC operation start (Addr = 0DH) // map.r.l_ch_input_volume_control. = ; // update(Register::LchInputVolumeControl); // map.r.r_ch_input_volume_control. = ; // update(Register::RchInputVolumeControl); // Set up the output digital volume. (Addr = 13H) // set_headphone_volume(...); // Set up Programmable Filter Path: PFDAC1-0 bits=“01”, PFSDO=ADCPF bits=“0” (Addr = 1DH) // map.r.digital_filter_mode.PFDAC = 0b01; // update(Register::DigitalFilterMode); } bool AK4951::reset() { io.audio_reset_state(true); // PDN# pulse must be >200ns chThdSleepMicroseconds(10); io.audio_reset_state(false); return true; } void AK4951::set_digtal_volume_control(const reg_t value) { map.r.l_ch_digital_volume_control.DV = value; update(Register::LchDigitalVolumeControl); } void AK4951::set_headphone_volume(const volume_t volume) { const auto normalized = headphone_gain_range().normalize(volume); auto n = normalized.centibel() / 5; set_digtal_volume_control(0xcb - n); } void AK4951::headphone_mute() { set_digtal_volume_control(0xff); } void AK4951::set_dac_power(const bool enable) { map.r.power_management_1.PMDAC = enable; update(Register::PowerManagement1); } void AK4951::set_headphone_power(const bool enable) { map.r.power_management_2.PMHPL = map.r.power_management_2.PMHPR = enable; update(Register::PowerManagement2); } void AK4951::set_speaker_power(const bool enable) { map.r.power_management_2.PMSL = enable; update(Register::PowerManagement2); } void AK4951::select_line_out(const LineOutSelect value) { map.r.power_management_2.LOSEL = (value == LineOutSelect::Line) ? 1 : 0; update(Register::PowerManagement2); } void AK4951::headphone_enable() { set_dac_power(true); set_headphone_power(true); // Wait for headphone amplifier charge pump power-up. chThdSleepMilliseconds(35); } void AK4951::headphone_disable() { set_headphone_power(false); set_dac_power(false); } void AK4951::speaker_enable() { // Set up the path of DAC → SPK-Amp: DACS bit = “0” → “1” map.r.signal_select_1.DACS = 1; update(Register::SignalSelect1); // Enter Speaker-Amp Output Mode: LOSEL bit = “0” select_line_out(LineOutSelect::Speaker); // Power up DAC, Programmable Filter and Speaker-Amp: PMDAC=PMPFIL=PMSL bits=“0”→“1” set_dac_power(true); // map.r.power_management_1.PMPFIL = 1; // update(Register::PowerManagement1); set_speaker_power(true); // Time from PMSL=1 to SLPSN=1. chThdSleepMilliseconds(1); // Exit the power-save mode of Speaker-Amp: SLPSN bit = “0” → “1” map.r.signal_select_1.SLPSN = 1; update(Register::SignalSelect1); } void AK4951::speaker_disable() { // Enter Speaker-Amp Power Save Mode: SLPSN bit = “1” → “0” map.r.signal_select_1.SLPSN = 0; update(Register::SignalSelect1); // Disable the path of DAC → SPK-Amp: DACS bit = “1” → “0” map.r.signal_select_1.DACS = 0; update(Register::SignalSelect1); // Power down DAC, Programmable Filter and speaker: PMDAC=PMPFIL=PMSL bits= “1”→“0” set_dac_power(false); // map.r.power_management_1.PMPFIL = 0; // update(Register::PowerManagement1); set_speaker_power(false); } void AK4951::microphone_enable() { // map.r.digital_mic.DMIC = 0; // update(Register::DigitalMic); map.r.signal_select_1.MGAIN20 = 0b110; map.r.signal_select_1.PMMP = 1; map.r.signal_select_1.MPSEL = 1; // MPWR2 pin map.r.signal_select_1.MGAIN3 = 0b0; update(Register::SignalSelect1); map.r.signal_select_2.INL = 0b01; // Lch input signal = LIN2 map.r.signal_select_2.INR = 0b01; // Rch input signal = RIN2 map.r.signal_select_2.MICL = 0; // MPWR = 2.4V update(Register::SignalSelect2); // map.r.r_ch_mic_gain_setting.MGR = 0x80; // Microphone sensitivity correction = 0dB. // update(Register::RchMicGainSetting); /* map.r.timer_select.FRN = ?; map.r.timer_select.FRATT = ?; map.r.timer_select.ADRST = 0b??; update(Register::TimerSelect); map.r.alc_timer_select. = ?; update(Register::ALCTimerSelect); map.r.alc_mode_control_1. = ?; map.r.alc_mode_control_1.ALC = 1; update(Register::ALCModeControl1); map.r.alc_mode_control_2.REF = ?; update(Register::ALCModeControl2); */ // map.r.l_ch_input_volume_control.IV = 0xe1; // update(Register::LchInputVolumeControl); // map.r.r_ch_input_volume_control.IV = 0xe1; // update(Register::RchInputVolumeControl); /* map.r.auto_hpf_control.STG = 0b00; map.r.auto_hpf_control.SENC = 0b011; map.r.auto_hpf_control.AHPF = 0; update(Register::AutoHPFControl); */ map.r.digital_filter_select_1.HPFAD = 1; // HPF1 (after ADC) = on map.r.digital_filter_select_1.HPFC = 0b11; // 2336.8 Hz @ fs=48k update(Register::DigitalFilterSelect1); /* map.r.digital_filter_select_2.HPF = 0; map.r.digital_filter_select_2.LPF = 0; map.r.digital_filter_select_2.FIL3 = 0; map.r.digital_filter_select_2.EQ0 = 0; map.r.digital_filter_select_2.GN = 0b00; update(Register::DigitalFilterSelect2); map.r.digital_filter_select_3.EQ1 = 0; map.r.digital_filter_select_3.EQ2 = 0; map.r.digital_filter_select_3.EQ3 = 0; map.r.digital_filter_select_3.EQ4 = 0; map.r.digital_filter_select_3.EQ5 = 0; update(Register::DigitalFilterSelect3); */ map.r.digital_filter_mode.PFSDO = 0; // ADC (+ 1st order HPF) Output map.r.digital_filter_mode.ADCPF = 1; // ADC Output (default) update(Register::DigitalFilterMode); // ... Set coefficients ... map.r.power_management_1.PMADL = 1; // ADC Lch = Lch input signal map.r.power_management_1.PMADR = 1; // ADC Rch = Rch input signal map.r.power_management_1.PMPFIL = 0; // Programmable filter unused, routed around. update(Register::PowerManagement1); // 1059/fs, 22ms @ 48kHz chThdSleepMilliseconds(22); } void AK4951::microphone_disable() { map.r.power_management_1.PMADL = 0; map.r.power_management_1.PMADR = 0; map.r.power_management_1.PMPFIL = 0; update(Register::PowerManagement1); map.r.alc_mode_control_1.ALC = 0; update(Register::ALCModeControl1); } reg_t AK4951::read(const address_t reg_address) { const std::array tx { reg_address }; std::array rx { 0x00 }; bus.transmit(bus_address, tx.data(), tx.size()); bus.receive(bus_address, rx.data(), rx.size()); return rx[0]; } void AK4951::update(const Register reg) { write(toUType(reg), map.w[toUType(reg)]); } void AK4951::write(const address_t reg_address, const reg_t value) { const std::array tx { reg_address, value }; bus.transmit(bus_address, tx.data(), tx.size()); } } /* namespace ak4951 */ } /* namespace asahi_kasei */