/* * Copyright 2009 Ettus Research LLC */ #include "db_wbxng_adf4350_regs.h" #include "db_wbxng_adf4350.h" //#include "cal_div.h" /* reg 0 */ /* reg 1 */ const uint8_t adf4350_regs::s_prescaler = 0; const uint16_t adf4350_regs::s_phase = 0; /* reg 2 */ const uint8_t adf4350_regs::s_low_noise_and_low_spur_modes = 0; const uint8_t adf4350_regs::s_muxout = 6; const uint8_t adf4350_regs::s_reference_doubler = 0; const uint8_t adf4350_regs::s_rdiv2 = 0; const uint8_t adf4350_regs::s_double_buff = 0; const uint8_t adf4350_regs::s_charge_pump_setting = 5; const uint8_t adf4350_regs::s_ldf = 0; const uint8_t adf4350_regs::s_ldp = 0; const uint8_t adf4350_regs::s_pd_polarity = 1; const uint8_t adf4350_regs::s_power_down = 0; const uint8_t adf4350_regs::s_cp_three_state = 0; const uint8_t adf4350_regs::s_counter_reset = 0; /* reg 3 */ const uint8_t adf4350_regs::s_csr = 0; const uint8_t adf4350_regs::s_clk_div_mode = 0; const uint16_t adf4350_regs::s_12_bit_clock_divider_value = 0; /* reg 4 */ const uint8_t adf4350_regs::s_feedback_select = 1; const uint8_t adf4350_regs::s_vco_power_down = 0; const uint8_t adf4350_regs::s_mtld = 0; const uint8_t adf4350_regs::s_aux_output_select = 0; const uint8_t adf4350_regs::s_aux_output_enable = 1; const uint8_t adf4350_regs::s_aux_output_power = 3; const uint8_t adf4350_regs::s_rf_output_enable = 1; const uint8_t adf4350_regs::s_output_power = 3; /* reg 5 */ const uint8_t adf4350_regs::s_ld_pin_mode = 1; adf4350_regs::adf4350_regs(adf4350* _adf4350){ d_adf4350 = _adf4350; /* reg 0 */ d_int = uint16_t(100); d_frac = 0; /* reg 1 */ d_mod = uint16_t(0xfff); /* max fractional accuracy */ /* reg 2 */ d_10_bit_r_counter = uint16_t(2); /* reg 3 */ /* reg 4 */ d_divider_select = 0; d_8_bit_band_select_clock_divider_value = 0; /* reg 5 */ } adf4350_regs::~adf4350_regs(void){ } uint32_t adf4350_regs::_reg_shift(uint32_t data, uint32_t shift){ return data << shift; } void adf4350_regs::_load_register(uint8_t addr){ uint32_t data; switch (addr){ case 0: data = ( _reg_shift(d_int, 15) | _reg_shift(d_frac, 3)); break; case 1: data = ( _reg_shift(s_prescaler, 27) | _reg_shift(s_phase, 15) | _reg_shift(d_mod, 3)); break; case 2: data = ( _reg_shift(s_low_noise_and_low_spur_modes, 29) | _reg_shift(s_muxout, 26) | _reg_shift(s_reference_doubler, 25) | _reg_shift(s_rdiv2, 24) | _reg_shift(d_10_bit_r_counter, 14) | _reg_shift(s_double_buff, 13) | _reg_shift(s_charge_pump_setting, 9) | _reg_shift(s_ldf, 8) | _reg_shift(s_ldp, 7) | _reg_shift(s_pd_polarity, 6) | _reg_shift(s_power_down, 5) | _reg_shift(s_cp_three_state, 4) | _reg_shift(s_counter_reset, 3)); break; case 3: data = ( _reg_shift(s_csr, 18) | _reg_shift(s_clk_div_mode, 15) | _reg_shift(s_12_bit_clock_divider_value, 3)); break; case 4: data = ( _reg_shift(s_feedback_select, 23) | _reg_shift(d_divider_select, 20) | _reg_shift(d_8_bit_band_select_clock_divider_value, 12) | _reg_shift(s_vco_power_down, 11) | _reg_shift(s_mtld, 10) | _reg_shift(s_aux_output_select, 9) | _reg_shift(s_aux_output_enable, 8) | _reg_shift(s_aux_output_power, 6) | _reg_shift(s_rf_output_enable, 5) | _reg_shift(s_output_power, 3)); break; case 5: data = ( _reg_shift(s_ld_pin_mode, 22)); break; default: return; } /* write the data out to spi */ d_adf4350->_write(addr, data); }