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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 "ad9522_regs.hpp"
#include <boost/cstdint.hpp>
#include "usrp_e_regs.hpp" //spi slave constants
#include <boost/assign/list_of.hpp>
#include <boost/foreach.hpp>
#include <utility>
#include <iostream>
using namespace uhd;
/***********************************************************************
* Clock Control Implementation
**********************************************************************/
class clock_ctrl_impl : public clock_ctrl{
public:
//structors
clock_ctrl_impl(usrp_e_iface::sptr iface);
~clock_ctrl_impl(void);
void enable_rx_dboard_clock(bool enb);
void enable_tx_dboard_clock(bool enb);
void enable_codec_clock(bool enb);
private:
usrp_e_iface::sptr _iface;
ad9522_regs_t _ad9522_regs;
void latch_regs(void){
_ad9522_regs.io_update = 1;
this->send_reg(0x232);
}
void send_reg(boost::uint16_t addr);
};
/***********************************************************************
* Clock Control Methods
**********************************************************************/
clock_ctrl_impl::clock_ctrl_impl(usrp_e_iface::sptr iface){
_iface = iface;
//init the clock gen registers
//Note: out0 should already be clocking the FPGA or this isnt going to work
_ad9522_regs.sdo_active = ad9522_regs_t::SDO_ACTIVE_SDO_SDIO;
_ad9522_regs.status_pin_control = 0x1; //n divider
_ad9522_regs.ld_pin_control = 0x32; //show ref2
_ad9522_regs.refmon_pin_control = 0x12; //show ref2
_ad9522_regs.enable_ref2 = 1;
_ad9522_regs.select_ref = ad9522_regs_t::SELECT_REF_REF2;
_ad9522_regs.r_counter_lsb = 1;
_ad9522_regs.r_counter_msb = 0;
_ad9522_regs.a_counter = 0;
_ad9522_regs.b_counter_lsb = 20;
_ad9522_regs.b_counter_msb = 0;
_ad9522_regs.prescaler_p = ad9522_regs_t::PRESCALER_P_DIV8_9;
_ad9522_regs.pll_power_down = ad9522_regs_t::PLL_POWER_DOWN_NORMAL;
_ad9522_regs.cp_current = ad9522_regs_t::CP_CURRENT_3_0MA;
_ad9522_regs.vco_calibration_now = 1; //calibrate it!
_ad9522_regs.vco_divider = ad9522_regs_t::VCO_DIVIDER_DIV5;
_ad9522_regs.select_vco_or_clock = ad9522_regs_t::SELECT_VCO_OR_CLOCK_VCO;
//setup fpga master clock
_ad9522_regs.out0_format = ad9522_regs_t::OUT0_FORMAT_LVDS;
_ad9522_regs.divider0_low_cycles = 2; //3 low
_ad9522_regs.divider0_high_cycles = 1; //2 high
//setup codec clock
_ad9522_regs.out3_format = ad9522_regs_t::OUT3_FORMAT_LVDS;
_ad9522_regs.divider1_low_cycles = 2; //3 low
_ad9522_regs.divider1_high_cycles = 1; //2 high
//setup test clock (same divider as codec clock)
_ad9522_regs.out4_format = ad9522_regs_t::OUT4_FORMAT_CMOS;
_ad9522_regs.out4_cmos_configuration = (true)?
ad9522_regs_t::OUT4_CMOS_CONFIGURATION_A_ON :
ad9522_regs_t::OUT4_CMOS_CONFIGURATION_OFF;
//setup a list of register ranges to write
typedef std::pair<boost::uint16_t, boost::uint16_t> range_t;
static const std::vector<range_t> ranges = boost::assign::list_of
(range_t(0x000, 0x000)) (range_t(0x010, 0x01F))
(range_t(0x0F0, 0x0FD)) (range_t(0x190, 0x19B))
(range_t(0x1E0, 0x1E1)) (range_t(0x230, 0x230))
;
//write initial register values and latch/update
BOOST_FOREACH(const range_t &range, ranges){
for(boost::uint16_t addr = range.first; addr <= range.second; addr++){
this->send_reg(addr);
}
}
this->latch_regs();
//test read:
//boost::uint32_t reg = _ad9522_regs.get_read_reg(0x01b);
//boost::uint32_t result = _iface->transact_spi(
// UE_SPI_SS_AD9522,
// spi_config_t::EDGE_RISE,
// reg, 24, true /*no*/
//);
//std::cout << "result " << std::hex << result << std::endl;
this->enable_rx_dboard_clock(false);
this->enable_tx_dboard_clock(false);
}
clock_ctrl_impl::~clock_ctrl_impl(void){
this->enable_rx_dboard_clock(false);
this->enable_tx_dboard_clock(false);
}
void clock_ctrl_impl::enable_rx_dboard_clock(bool enb){
_ad9522_regs.out9_format = ad9522_regs_t::OUT9_FORMAT_CMOS;
_ad9522_regs.out9_cmos_configuration = (enb)?
ad9522_regs_t::OUT9_CMOS_CONFIGURATION_B_ON :
ad9522_regs_t::OUT9_CMOS_CONFIGURATION_OFF;
this->send_reg(0x0F9);
_ad9522_regs.divider3_low_cycles = 2; //3 low
_ad9522_regs.divider3_high_cycles = 1; //2 high
this->send_reg(0x199);
this->latch_regs();
}
void clock_ctrl_impl::enable_tx_dboard_clock(bool enb){
_ad9522_regs.out6_format = ad9522_regs_t::OUT6_FORMAT_CMOS;
_ad9522_regs.out6_cmos_configuration = (enb)?
ad9522_regs_t::OUT6_CMOS_CONFIGURATION_B_ON :
ad9522_regs_t::OUT6_CMOS_CONFIGURATION_OFF;
this->send_reg(0x0F6);
_ad9522_regs.divider2_low_cycles = 2; //3 low
_ad9522_regs.divider2_high_cycles = 1; //2 high
this->send_reg(0x196);
this->latch_regs();
}
void clock_ctrl_impl::send_reg(boost::uint16_t addr){
boost::uint32_t reg = _ad9522_regs.get_write_reg(addr);
//std::cout << "clock control write reg: " << std::hex << reg << std::endl;
_iface->transact_spi(
UE_SPI_SS_AD9522,
spi_config_t::EDGE_RISE,
reg, 24, false /*no rb*/
);
}
/***********************************************************************
* Clock Control Make
**********************************************************************/
clock_ctrl::sptr clock_ctrl::make(usrp_e_iface::sptr iface){
return sptr(new clock_ctrl_impl(iface));
}
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