/* -*- c++ -*- */ /* * Copyright 2004 Free Software Foundation, Inc. * * This file is part of GNU Radio * * GNU Radio 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. * * GNU Radio 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 GNU Radio; see the file COPYING. If not, write to * the Free Software Foundation, Inc., 51 Franklin Street, * Boston, MA 02110-1301, USA. */ #ifndef INCLUDED_AD9862_H #define INCLUDED_AD9862_H /* * Analog Devices AD9862 registers and some fields */ #define BEGIN_AD9862 namespace ad9862 { #define END_AD962 } #define DEF static const int BEGIN_AD9862; DEF REG_GENERAL = 0; DEF REG_RX_PWR_DN = 1; DEF RX_PWR_DN_VREF_DIFF = (1 << 7); DEF RX_PWR_DN_VREF = (1 << 6); DEF RX_PWR_DN_RX_DIGIGAL = (1 << 5); DEF RX_PWR_DN_RX_B = (1 << 4); DEF RX_PWR_DN_RX_A = (1 << 3); DEF RX_PWR_DN_BUF_B = (1 << 2); DEF RX_PWR_DN_BUF_A = (1 << 1); DEF RX_PWR_DN_ALL = (1 << 0); DEF REG_RX_A = 2; // bypass input buffer / RxPGA DEF REG_RX_B = 3; // pypass input buffer / RxPGA DEF RX_X_BYPASS_INPUT_BUFFER = (1 << 7); DEF REG_RX_MISC = 4; DEF RX_MISC_HS_DUTY_CYCLE = (1 << 2); DEF RX_MISC_SHARED_REF = (1 << 1); DEF RX_MISC_CLK_DUTY = (1 << 0); DEF REG_RX_IF = 5; DEF RX_IF_THREE_STATE = (1 << 4); DEF RX_IF_USE_CLKOUT1 = (0 << 3); DEF RX_IF_USE_CLKOUT2 = (1 << 3); // aka Rx Retime DEF RX_IF_2S_COMP = (1 << 2); DEF RX_IF_INV_RX_SYNC = (1 << 1); DEF RX_IF_MUX_OUT = (1 << 0); DEF REG_RX_DIGITAL = 6; DEF RX_DIGITAL_2_CHAN = (1 << 3); DEF RX_DIGITAL_KEEP_MINUS_VE = (1 << 2); DEF RX_DIGITAL_HILBERT = (1 << 1); DEF RX_DIGITAL_DECIMATE = (1 << 0); DEF REG_RESERVED_7 = 7; DEF REG_TX_PWR_DN = 8; DEF TX_PWR_DN_ALT_TIMING_MODE = (1 << 5); DEF TX_PWR_DN_TX_OFF_ENABLE = (1 << 4); DEF TX_PWR_DN_TX_DIGITAL = (1 << 3); DEF TX_PWR_DN_TX_ANALOG_B = 0x4; DEF TX_PWR_DN_TX_ANALOG_A = 0x2; DEF TX_PWR_DN_TX_ANALOG_BOTH = 0x7; DEF REG_RESERVED_9 = 9; DEF REG_TX_A_OFFSET_LO = 10; DEF REG_TX_A_OFFSET_HI = 11; DEF REG_TX_B_OFFSET_LO = 12; DEF REG_TX_B_OFFSET_HI = 13; DEF REG_TX_A_GAIN = 14; // fine trim for matching DEF REG_TX_B_GAIN = 15; // fine trim for matching DEF TX_X_GAIN_COARSE_FULL = (3 << 6); DEF TX_X_GAIN_COARSE_1_HALF = (1 << 6); DEF TX_X_GAIN_COARSE_1_ELEVENTH = (0 << 6); DEF REG_TX_PGA = 16; // 20 dB continuous gain in 0.1 dB steps // 0x00 = min gain (-20 dB) // 0xff = max gain ( 0 dB) DEF REG_TX_MISC = 17; DEF TX_MISC_SLAVE_ENABLE = (1 << 1); DEF TX_MISC_TX_PGA_FAST = (1 << 0); DEF REG_TX_IF = 18; DEF TX_IF_USE_CLKOUT2 = (0 << 6); DEF TX_IF_USE_CLKOUT1 = (1 << 6); // aka Tx Retime DEF TX_IF_I_FIRST = (0 << 5); DEF TX_IF_Q_FIRST = (1 << 5); DEF TX_IF_INV_TX_SYNC = (1 << 4); DEF TX_IF_2S_COMP = (1 << 3); DEF TX_IF_INVERSE_SAMPLE = (1 << 2); DEF TX_IF_TWO_EDGES = (1 << 1); DEF TX_IF_INTERLEAVED = (1 << 0); DEF REG_TX_DIGITAL = 19; DEF TX_DIGITAL_2_DATA_PATHS = (1 << 4); DEF TX_DIGITAL_KEEP_NEGATIVE = (1 << 3); DEF TX_DIGITAL_HILBERT = (1 << 2); DEF TX_DIGITAL_INTERPOLATE_NONE = 0x0; DEF TX_DIGITAL_INTERPOLATE_2X = 0x1; DEF TX_DIGITAL_INTERPOLATE_4X = 0x2; DEF REG_TX_MODULATOR = 20; DEF TX_MODULATOR_NEG_FINE_TUNE = (1 << 5); DEF TX_MODULATOR_DISABLE_NCO = (0 << 4); DEF TX_MODULATOR_ENABLE_NCO = (1 << 4); // aka Fine Mode DEF TX_MODULATOR_REAL_MIX_MODE = (1 << 3); DEF TX_MODULATOR_NEG_COARSE_TUNE = (1 << 2); DEF TX_MODULATOR_COARSE_MODULATION_NONE = 0x0; DEF TX_MODULATOR_COARSE_MODULATION_F_OVER_4 = 0x1; DEF TX_MODULATOR_COARSE_MODULATION_F_OVER_8 = 0x2; DEF TX_MODULATOR_CM_MASK = 0x7; DEF REG_TX_NCO_FTW_7_0 = 21; DEF REG_TX_NCO_FTW_15_8 = 22; DEF REG_TX_NCO_FTW_23_16= 23; DEF REG_DLL = 24; DEF DLL_DISABLE_INTERNAL_XTAL_OSC = (1 << 6); // aka Input Clock Ctrl DEF DLL_ADC_DIV2 = (1 << 5); DEF DLL_MULT_1X = (0 << 3); DEF DLL_MULT_2X = (1 << 3); DEF DLL_MULT_4X = (2 << 3); DEF DLL_PWR_DN = (1 << 2); // undefined bit = (1 << 1); DEF DLL_FAST = (1 << 0); DEF REG_CLKOUT = 25; DEF CLKOUT2_EQ_DLL = (0 << 6); DEF CLKOUT2_EQ_DLL_OVER_2 = (1 << 6); DEF CLKOUT2_EQ_DLL_OVER_4 = (2 << 6); DEF CLKOUT2_EQ_DLL_OVER_8 = (3 << 6); DEF CLKOUT_INVERT_CLKOUT2 = (1 << 5); DEF CLKOUT_DISABLE_CLKOUT2 = (1 << 4); // undefined bit = (1 << 3); // undefined bit = (1 << 2); DEF CLKOUT_INVERT_CLKOUT1 = (1 << 1); DEF CLKOUT_DISABLE_CLKOUT1 = (1 << 0); DEF REG_AUX_ADC_A2_LO = 26; DEF REG_AUX_ADC_A2_HI = 27; DEF REG_AUX_ADC_A1_LO = 28; DEF REG_AUX_ADC_A1_HI = 29; DEF REG_AUX_ADC_B2_LO = 30; DEF REG_AUX_ADC_B2_HI = 31; DEF REG_AUX_ADC_B1_LO = 32; DEF REG_AUX_ADC_B1_HI = 33; DEF REG_AUX_ADC_CTRL = 34; DEF AUX_ADC_CTRL_AUX_SPI = (1 << 7); DEF AUX_ADC_CTRL_SELBNOTA = (1 << 6); DEF AUX_ADC_CTRL_REFSEL_B = (1 << 5); DEF AUX_ADC_CTRL_SELECT_B2 = (0 << 4); DEF AUX_ADC_CTRL_SELECT_B1 = (1 << 4); DEF AUX_ADC_CTRL_START_B = (1 << 3); DEF AUX_ADC_CTRL_REFSEL_A = (1 << 2); DEF AUX_ADC_CTRL_SELECT_A2 = (0 << 1); DEF AUX_ADC_CTRL_SELECT_A1 = (1 << 1); DEF AUX_ADC_CTRL_START_A = (1 << 0); DEF REG_AUX_ADC_CLK = 35; DEF AUX_ADC_CLK_CLK_OVER_4 = (1 << 0); DEF REG_AUX_DAC_A = 36; DEF REG_AUX_DAC_B = 37; DEF REG_AUX_DAC_C = 38; DEF REG_AUX_DAC_UPDATE = 39; DEF AUX_DAC_UPDATE_SLAVE_ENABLE = (1 << 7); DEF AUX_DAC_UPDATE_C = (1 << 2); DEF AUX_DAC_UPDATE_B = (1 << 1); DEF AUX_DAC_UPDATE_A = (1 << 0); DEF REG_AUX_DAC_PWR_DN = 40; DEF AUX_DAC_PWR_DN_C = (1 << 2); DEF AUX_DAC_PWR_DN_B = (1 << 1); DEF AUX_DAC_PWR_DN_A = (1 << 0); DEF REG_AUX_DAC_CTRL = 41; DEF AUX_DAC_CTRL_INV_C = (1 << 4); DEF AUX_DAC_CTRL_INV_B = (1 << 2); DEF AUX_DAC_CTRL_INV_A = (1 << 0); DEF REG_SIGDELT_LO = 42; DEF REG_SIGDELT_HI = 43; // 44 to 48 reserved DEF REG_ADC_LOW_PWR_LO = 49; DEF REG_ADC_LOW_PWR_HI = 50; // 51 to 62 reserved DEF REG_CHIP_ID = 63; END_AD962; #undef DEF #undef BEGIN_AD9862 #undef END_AD962 #endif /* INCLUDED_AD9862_H */