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//
// Copyright 2011-2014 Ettus Research LLC
//
// SPDX-License-Identifier: GPL-3.0
//
#include "db_wbx_common.hpp"
#include <uhd/utils/log.hpp>
#include <uhd/types/dict.hpp>
#include <uhd/types/ranges.hpp>
#include <uhd/types/sensors.hpp>
#include <uhd/utils/assert_has.hpp>
#include <uhd/utils/algorithm.hpp>
#include <uhd/usrp/dboard_base.hpp>
#include <boost/assign/list_of.hpp>
#include <boost/format.hpp>
#include <boost/math/special_functions/round.hpp>
#include <boost/algorithm/string.hpp>
using namespace uhd;
using namespace uhd::usrp;
using namespace boost::assign;
/***********************************************************************
* WBX Version 4 Constants
**********************************************************************/
static const uhd::dict<std::string, gain_range_t> wbx_v4_tx_gain_ranges = map_list_of
("PGA0", gain_range_t(0, 31, 1.0))
;
static const freq_range_t wbx_v4_freq_range(25.0e6, 2.2e9);
/***********************************************************************
* Gain-related functions
**********************************************************************/
static int tx_pga0_gain_to_iobits(double &gain){
//clip the input
gain = wbx_v4_tx_gain_ranges["PGA0"].clip(gain);
//convert to attenuation
double attn = wbx_v4_tx_gain_ranges["PGA0"].stop() - gain;
//calculate the attenuation
int attn_code = boost::math::iround(attn);
int iobits = (
(attn_code & 16 ? 0 : TX_ATTN_16) |
(attn_code & 8 ? 0 : TX_ATTN_8) |
(attn_code & 4 ? 0 : TX_ATTN_4) |
(attn_code & 2 ? 0 : TX_ATTN_2) |
(attn_code & 1 ? 0 : TX_ATTN_1)
) & TX_ATTN_MASK;
UHD_LOGGER_TRACE("WBX") << boost::format(
"WBX TX Attenuation: %f dB, Code: %d, IO Bits %x, Mask: %x"
) % attn % attn_code % (iobits & TX_ATTN_MASK) % TX_ATTN_MASK ;
//the actual gain setting
gain = wbx_v4_tx_gain_ranges["PGA0"].stop() - double(attn_code);
return iobits;
}
/***********************************************************************
* WBX Common Implementation
**********************************************************************/
wbx_base::wbx_version4::wbx_version4(wbx_base *_self_wbx_base) {
//register our handle on the primary wbx_base instance
self_base = _self_wbx_base;
_txlo = adf435x_iface::make_adf4351(boost::bind(&wbx_base::wbx_versionx::write_lo_regs, this, dboard_iface::UNIT_TX, _1));
_rxlo = adf435x_iface::make_adf4351(boost::bind(&wbx_base::wbx_versionx::write_lo_regs, this, dboard_iface::UNIT_RX, _1));
////////////////////////////////////////////////////////////////////
// Register RX properties
////////////////////////////////////////////////////////////////////
uint16_t rx_id = _self_wbx_base->get_rx_id().to_uint16();
if(rx_id == 0x0063) this->get_rx_subtree()->create<std::string>("name").set("WBXv4 RX");
else if(rx_id == 0x0081) this->get_rx_subtree()->create<std::string>("name").set("WBX-120 RX");
this->get_rx_subtree()->create<double>("freq/value")
.set_coercer(boost::bind(&wbx_base::wbx_version4::set_lo_freq, this, dboard_iface::UNIT_RX, _1))
.set((wbx_v4_freq_range.start() + wbx_v4_freq_range.stop())/2.0);
this->get_rx_subtree()->create<meta_range_t>("freq/range").set(wbx_v4_freq_range);
////////////////////////////////////////////////////////////////////
// Register TX properties
////////////////////////////////////////////////////////////////////
//get_tx_id() will always return GDB ID, so use RX ID to determine WBXv4 vs. WBX-120
if(rx_id == 0x0063) this->get_tx_subtree()->create<std::string>("name").set("WBXv4 TX");
else if(rx_id == 0x0081) this->get_tx_subtree()->create<std::string>("name").set("WBX-120 TX");
for(const std::string &name: wbx_v4_tx_gain_ranges.keys()){
self_base->get_tx_subtree()->create<double>("gains/"+name+"/value")
.set_coercer(boost::bind(&wbx_base::wbx_version4::set_tx_gain, this, _1, name))
.set(wbx_v4_tx_gain_ranges[name].start());
self_base->get_tx_subtree()->create<meta_range_t>("gains/"+name+"/range")
.set(wbx_v4_tx_gain_ranges[name]);
}
this->get_tx_subtree()->create<double>("freq/value")
.set_coercer(boost::bind(&wbx_base::wbx_version4::set_lo_freq, this, dboard_iface::UNIT_TX, _1))
.set((wbx_v4_freq_range.start() + wbx_v4_freq_range.stop())/2.0);
this->get_tx_subtree()->create<meta_range_t>("freq/range").set(wbx_v4_freq_range);
this->get_tx_subtree()->create<bool>("enabled")
.add_coerced_subscriber(boost::bind(&wbx_base::wbx_version4::set_tx_enabled, this, _1))
.set(true); //start enabled
//set attenuator control bits
int v4_iobits = TX_ATTN_MASK;
int v4_tx_mod = ADF435X_PDBRF;
//set the gpio directions and atr controls
self_base->get_iface()->set_pin_ctrl(dboard_iface::UNIT_TX, \
v4_tx_mod|v4_iobits);
self_base->get_iface()->set_pin_ctrl(dboard_iface::UNIT_RX, \
RXBB_PDB|ADF435X_PDBRF);
self_base->get_iface()->set_gpio_ddr(dboard_iface::UNIT_TX, \
TX_PUP_5V|TX_PUP_3V|v4_tx_mod|v4_iobits);
self_base->get_iface()->set_gpio_ddr(dboard_iface::UNIT_RX, \
RX_PUP_5V|RX_PUP_3V|ADF435X_CE|RXBB_PDB|ADF435X_PDBRF|RX_ATTN_MASK);
//setup ATR for the mixer enables (always enabled to prevent phase slip
//between bursts) set TX gain iobits to min gain (max attenuation) when
//RX_ONLY or IDLE to suppress LO leakage
self_base->get_iface()->set_atr_reg(dboard_iface::UNIT_TX, \
gpio_atr::ATR_REG_IDLE, v4_tx_mod, \
TX_ATTN_MASK | TX_MIXER_DIS | v4_tx_mod);
self_base->get_iface()->set_atr_reg(dboard_iface::UNIT_TX, \
gpio_atr::ATR_REG_RX_ONLY, v4_tx_mod, \
TX_ATTN_MASK | TX_MIXER_DIS | v4_tx_mod);
self_base->get_iface()->set_atr_reg(dboard_iface::UNIT_TX, \
gpio_atr::ATR_REG_TX_ONLY, v4_tx_mod, \
TX_ATTN_MASK | TX_MIXER_DIS | v4_tx_mod);
self_base->get_iface()->set_atr_reg(dboard_iface::UNIT_TX, \
gpio_atr::ATR_REG_FULL_DUPLEX, v4_tx_mod, \
TX_ATTN_MASK | TX_MIXER_DIS | v4_tx_mod);
self_base->get_iface()->set_atr_reg(dboard_iface::UNIT_RX, \
gpio_atr::ATR_REG_IDLE, \
RX_MIXER_ENB, RX_MIXER_DIS | RX_MIXER_ENB);
self_base->get_iface()->set_atr_reg(dboard_iface::UNIT_RX, \
gpio_atr::ATR_REG_TX_ONLY, \
RX_MIXER_ENB, RX_MIXER_DIS | RX_MIXER_ENB);
self_base->get_iface()->set_atr_reg(dboard_iface::UNIT_RX, \
gpio_atr::ATR_REG_RX_ONLY, \
RX_MIXER_ENB, RX_MIXER_DIS | RX_MIXER_ENB);
self_base->get_iface()->set_atr_reg(dboard_iface::UNIT_RX, \
gpio_atr::ATR_REG_FULL_DUPLEX, \
RX_MIXER_ENB, RX_MIXER_DIS | RX_MIXER_ENB);
}
wbx_base::wbx_version4::~wbx_version4(void){
/* NOP */
}
/***********************************************************************
* Enables
**********************************************************************/
void wbx_base::wbx_version4::set_tx_enabled(bool enb) {
self_base->get_iface()->set_gpio_out(dboard_iface::UNIT_TX,
(enb)? TX_POWER_UP | ADF435X_CE : TX_POWER_DOWN, TX_POWER_UP | TX_POWER_DOWN | 0);
}
/***********************************************************************
* Gain Handling
**********************************************************************/
double wbx_base::wbx_version4::set_tx_gain(double gain, const std::string &name) {
assert_has(wbx_v4_tx_gain_ranges.keys(), name, "wbx tx gain name");
if(name == "PGA0"){
uint16_t io_bits = tx_pga0_gain_to_iobits(gain);
self_base->_tx_gains[name] = gain;
//write the new gain to tx gpio outputs
//Update ATR with gain io_bits, only update for TX_ONLY and FULL_DUPLEX ATR states
self_base->get_iface()->set_atr_reg(dboard_iface::UNIT_TX, gpio_atr::ATR_REG_TX_ONLY, io_bits, TX_ATTN_MASK);
self_base->get_iface()->set_atr_reg(dboard_iface::UNIT_TX, gpio_atr::ATR_REG_FULL_DUPLEX, io_bits, TX_ATTN_MASK);
}
else UHD_THROW_INVALID_CODE_PATH();
return self_base->_tx_gains[name];
}
/***********************************************************************
* Tuning
**********************************************************************/
double wbx_base::wbx_version4::set_lo_freq(dboard_iface::unit_t unit, double target_freq) {
//clip to tuning range
target_freq = wbx_v4_freq_range.clip(target_freq);
UHD_LOGGER_TRACE("WBX") << boost::format(
"WBX tune: target frequency %f MHz"
) % (target_freq/1e6) ;
/*
* If the user sets 'mode_n=integer' in the tuning args, the user wishes to
* tune in Integer-N mode, which can result in better spur
* performance on some mixers. The default is fractional tuning.
*/
property_tree::sptr subtree = (unit == dboard_iface::UNIT_RX) ? self_base->get_rx_subtree()
: self_base->get_tx_subtree();
device_addr_t tune_args = subtree->access<device_addr_t>("tune_args").get();
bool is_int_n = boost::iequals(tune_args.get("mode_n",""), "integer");
double reference_freq = self_base->get_iface()->get_clock_rate(unit);
//Select the LO
adf435x_iface::sptr& lo_iface = unit == dboard_iface::UNIT_RX ? _rxlo : _txlo;
lo_iface->set_reference_freq(reference_freq);
//The mixer has a divide-by-2 stage on the LO port so the synthesizer
//frequency must 2x the target frequency. This introduces a 180 degree phase
//ambiguity when trying to synchronize the phase of multiple boards.
double synth_target_freq = target_freq * 2;
//Use 8/9 prescaler for vco_freq > 3 GHz (pg.18 prescaler)
lo_iface->set_prescaler(synth_target_freq > 3.6e9 ?
adf435x_iface::PRESCALER_8_9 : adf435x_iface::PRESCALER_4_5);
//The feedback of the divided frequency must be disabled whenever the target frequency
//divided by the minimum PFD frequency cannot meet the minimum integer divider (N) value.
//If it is disabled, additional phase ambiguity will be introduced. With a minimum PFD
//frequency of 10 MHz, synthesizer frequencies below 230 MHz (LO frequencies below 115 MHz)
//will have too much ambiguity to synchronize.
lo_iface->set_feedback_select(
(int(synth_target_freq / 10e6) >= lo_iface->get_int_range().start() ?
adf435x_iface::FB_SEL_DIVIDED : adf435x_iface::FB_SEL_FUNDAMENTAL));
double synth_actual_freq = lo_iface->set_frequency(synth_target_freq, is_int_n);
//The mixer has a divide-by-2 stage on the LO port so the synthesizer
//actual_freq must /2 the synth_actual_freq
double actual_freq = synth_actual_freq / 2;
if (unit == dboard_iface::UNIT_RX) {
lo_iface->set_output_power((actual_freq == wbx_rx_lo_5dbm.clip(actual_freq)) ?
adf435x_iface::OUTPUT_POWER_5DBM : adf435x_iface::OUTPUT_POWER_2DBM);
} else {
lo_iface->set_output_power((actual_freq == wbx_tx_lo_5dbm.clip(actual_freq)) ?
adf435x_iface::OUTPUT_POWER_5DBM : adf435x_iface::OUTPUT_POWER_M1DBM);
}
//Write to hardware
lo_iface->commit();
return actual_freq;
}
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