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//
// 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 <http://www.gnu.org/licenses/>.
//
#include "clock_ctrl.hpp"
#include "ad9510_regs.hpp"
#include "usrp2_regs.hpp" //spi slave constants
#include <boost/cstdint.hpp>
using namespace uhd;
/*!
* A usrp2 clock control specific to the ad9510 ic.
*/
class usrp2_clock_ctrl_impl : public usrp2_clock_ctrl{
public:
usrp2_clock_ctrl_impl(usrp2_iface::sptr iface){
_iface = iface;
_ad9510_regs.cp_current_setting = ad9510_regs_t::CP_CURRENT_SETTING_3_0MA;
this->write_reg(0x09);
// Setup the clock registers to 100MHz:
// This was already done by the firmware (or the host couldnt communicate).
// We could remove this part, and just leave it to the firmware.
// But why not leave it in for those who want to mess with clock settings?
// 100mhz = 10mhz/R * (P*B + A)
_ad9510_regs.pll_power_down = ad9510_regs_t::PLL_POWER_DOWN_NORMAL;
_ad9510_regs.prescaler_value = ad9510_regs_t::PRESCALER_VALUE_DIV2;
this->write_reg(0x0A);
_ad9510_regs.acounter = 0;
this->write_reg(0x04);
_ad9510_regs.bcounter_msb = 0;
_ad9510_regs.bcounter_lsb = 5;
this->write_reg(0x05);
this->write_reg(0x06);
_ad9510_regs.ref_counter_msb = 0;
_ad9510_regs.ref_counter_lsb = 1; // r divider = 1
this->write_reg(0x0B);
this->write_reg(0x0C);
/* regs will be updated in commands below */
this->enable_external_ref(false);
this->enable_rx_dboard_clock(false);
this->enable_tx_dboard_clock(false);
/* private clock enables, must be set here */
this->enable_dac_clock(true);
this->enable_adc_clock(true);
}
~usrp2_clock_ctrl_impl(void){
/* private clock enables, must be set here */
this->enable_dac_clock(false);
this->enable_adc_clock(false);
}
//uses output clock 7 (cmos)
void enable_rx_dboard_clock(bool enb){
_ad9510_regs.power_down_lvds_cmos_out7 = enb? 0 : 1;
_ad9510_regs.lvds_cmos_select_out7 = ad9510_regs_t::LVDS_CMOS_SELECT_OUT7_CMOS;
_ad9510_regs.output_level_lvds_out7 = ad9510_regs_t::OUTPUT_LEVEL_LVDS_OUT7_1_75MA;
_ad9510_regs.bypass_divider_out7 = 1;
this->write_reg(0x43);
this->write_reg(0x57);
this->update_regs();
}
void set_rate_rx_dboard_clock(double rate){
//TODO
}
std::vector<double> get_rates_rx_dboard_clock(void){
//TODO
}
//uses output clock 6 (cmos)
void enable_tx_dboard_clock(bool enb){
_ad9510_regs.power_down_lvds_cmos_out6 = enb? 0 : 1;
_ad9510_regs.lvds_cmos_select_out6 = ad9510_regs_t::LVDS_CMOS_SELECT_OUT6_CMOS;
_ad9510_regs.output_level_lvds_out6 = ad9510_regs_t::OUTPUT_LEVEL_LVDS_OUT6_1_75MA;
_ad9510_regs.bypass_divider_out6 = 1;
this->write_reg(0x42);
this->write_reg(0x55);
this->update_regs();
}
void set_rate_tx_dboard_clock(double rate){
//TODO
}
std::vector<double> get_rates_tx_dboard_clock(void){
//TODO
}
/*!
* If we are to use an external reference, enable the charge pump.
* \param enb true to enable the CP
*/
void enable_external_ref(bool enb){
_ad9510_regs.charge_pump_mode = (enb)?
ad9510_regs_t::CHARGE_PUMP_MODE_NORMAL :
ad9510_regs_t::CHARGE_PUMP_MODE_3STATE ;
_ad9510_regs.pll_mux_control = ad9510_regs_t::PLL_MUX_CONTROL_DLD_HIGH;
_ad9510_regs.pfd_polarity = ad9510_regs_t::PFD_POLARITY_POS;
this->write_reg(0x08);
this->update_regs();
}
double get_master_clock_rate(void){
return 100e6;
}
private:
/*!
* Write a single register to the spi regs.
* \param addr the address to write
*/
void write_reg(boost::uint8_t addr){
boost::uint32_t data = _ad9510_regs.get_write_reg(addr);
_iface->transact_spi(SPI_SS_AD9510, spi_config_t::EDGE_RISE, data, 24, false /*no rb*/);
}
/*!
* Tells the ad9510 to latch the settings into the operational registers.
*/
void update_regs(void){
_ad9510_regs.update_registers = 1;
this->write_reg(0x5a);
}
//uses output clock 3 (pecl)
void enable_dac_clock(bool enb){
_ad9510_regs.power_down_lvpecl_out3 = (enb)?
ad9510_regs_t::POWER_DOWN_LVPECL_OUT3_NORMAL :
ad9510_regs_t::POWER_DOWN_LVPECL_OUT3_SAFE_PD;
_ad9510_regs.output_level_lvpecl_out3 = ad9510_regs_t::OUTPUT_LEVEL_LVPECL_OUT3_810MV;
_ad9510_regs.bypass_divider_out3 = 1;
this->write_reg(0x3F);
this->write_reg(0x4F);
this->update_regs();
}
//uses output clock 4 (lvds)
void enable_adc_clock(bool enb){
_ad9510_regs.power_down_lvds_cmos_out4 = enb? 0 : 1;
_ad9510_regs.lvds_cmos_select_out4 = ad9510_regs_t::LVDS_CMOS_SELECT_OUT4_LVDS;
_ad9510_regs.output_level_lvds_out4 = ad9510_regs_t::OUTPUT_LEVEL_LVDS_OUT4_1_75MA;
_ad9510_regs.bypass_divider_out4 = 1;
this->write_reg(0x40);
this->write_reg(0x51);
this->update_regs();
}
usrp2_iface::sptr _iface;
ad9510_regs_t _ad9510_regs;
};
/***********************************************************************
* Public make function for the ad9510 clock control
**********************************************************************/
usrp2_clock_ctrl::sptr usrp2_clock_ctrl::make(usrp2_iface::sptr iface){
return sptr(new usrp2_clock_ctrl_impl(iface));
}
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