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-rw-r--r--host/lib/usrp/dboard/db_rfx.cpp116
1 files changed, 67 insertions, 49 deletions
diff --git a/host/lib/usrp/dboard/db_rfx.cpp b/host/lib/usrp/dboard/db_rfx.cpp
index 4a5786aa4..cd5b8447b 100644
--- a/host/lib/usrp/dboard/db_rfx.cpp
+++ b/host/lib/usrp/dboard/db_rfx.cpp
@@ -15,19 +15,27 @@
// along with this program. If not, see <http://www.gnu.org/licenses/>.
//
-static const bool rfx_debug = true;
+static const bool rfx_debug = false;
// IO Pin functions
-#define POWER_UP (1 << 7) // Low enables power supply
-#define ANT_SW (1 << 6) // On TX DB, 0 = TX, 1 = RX, on RX DB 0 = main ant, 1 = RX2
-#define MIX_EN (1 << 5) // Enable appropriate mixer
+#define POWER_IO (1 << 7) // Low enables power supply
+#define ANTSW_IO (1 << 6) // On TX DB, 0 = TX, 1 = RX, on RX DB 0 = main ant, 1 = RX2
+#define MIXER_IO (1 << 5) // Enable appropriate mixer
#define LOCKDET_MASK (1 << 2) // Input pin
+// Mixer constants
+#define MIXER_ENB MIXER_IO
+#define MIXER_DIS 0
+
+// Power constants
+#define POWER_UP 0
+#define POWER_DOWN POWER_IO
+
// Antenna constants
#define ANT_TX 0 //the tx line is transmitting
-#define ANT_RX ANT_SW //the tx line is receiving
+#define ANT_RX ANTSW_IO //the tx line is receiving
#define ANT_TXRX 0 //the rx line is on txrx
-#define ANT_RX2 ANT_SW //the rx line in on rx2
+#define ANT_RX2 ANTSW_IO //the rx line in on rx2
#define ANT_XX 0 //dont care how the antenna is set
#include "adf4360_regs.hpp"
@@ -145,20 +153,20 @@ rfx_xcvr::rfx_xcvr(
this->get_iface()->set_clock_enabled(dboard_iface::UNIT_RX, true);
//set the gpio directions
- boost::uint16_t output_enables = POWER_UP | ANT_SW | MIX_EN;
+ boost::uint16_t output_enables = POWER_IO | ANTSW_IO | MIXER_IO;
this->get_iface()->set_gpio_ddr(dboard_iface::UNIT_TX, output_enables);
this->get_iface()->set_gpio_ddr(dboard_iface::UNIT_RX, output_enables);
//setup the tx atr (this does not change with antenna)
- this->get_iface()->set_atr_reg(dboard_iface::UNIT_TX, dboard_iface::ATR_REG_IDLE, POWER_UP | ANT_XX);
- this->get_iface()->set_atr_reg(dboard_iface::UNIT_TX, dboard_iface::ATR_REG_RX_ONLY, POWER_UP | ANT_RX);
- this->get_iface()->set_atr_reg(dboard_iface::UNIT_TX, dboard_iface::ATR_REG_TX_ONLY, POWER_UP | ANT_TX | MIX_EN);
- this->get_iface()->set_atr_reg(dboard_iface::UNIT_TX, dboard_iface::ATR_REG_FULL_DUPLEX, POWER_UP | ANT_TX | MIX_EN);
+ this->get_iface()->set_atr_reg(dboard_iface::UNIT_TX, dboard_iface::ATR_REG_IDLE, POWER_UP | ANT_XX | MIXER_DIS);
+ this->get_iface()->set_atr_reg(dboard_iface::UNIT_TX, dboard_iface::ATR_REG_RX_ONLY, POWER_UP | ANT_RX | MIXER_DIS);
+ this->get_iface()->set_atr_reg(dboard_iface::UNIT_TX, dboard_iface::ATR_REG_TX_ONLY, POWER_UP | ANT_TX | MIXER_ENB);
+ this->get_iface()->set_atr_reg(dboard_iface::UNIT_TX, dboard_iface::ATR_REG_FULL_DUPLEX, POWER_UP | ANT_TX | MIXER_ENB);
//setup the rx atr (this does not change with antenna)
- this->get_iface()->set_atr_reg(dboard_iface::UNIT_RX, dboard_iface::ATR_REG_IDLE, POWER_UP | ANT_XX);
- this->get_iface()->set_atr_reg(dboard_iface::UNIT_RX, dboard_iface::ATR_REG_TX_ONLY, POWER_UP | ANT_XX);
- this->get_iface()->set_atr_reg(dboard_iface::UNIT_RX, dboard_iface::ATR_REG_FULL_DUPLEX, POWER_UP | ANT_RX2 | MIX_EN);
+ this->get_iface()->set_atr_reg(dboard_iface::UNIT_RX, dboard_iface::ATR_REG_IDLE, POWER_UP | ANT_XX | MIXER_DIS);
+ this->get_iface()->set_atr_reg(dboard_iface::UNIT_RX, dboard_iface::ATR_REG_TX_ONLY, POWER_UP | ANT_XX | MIXER_DIS);
+ this->get_iface()->set_atr_reg(dboard_iface::UNIT_RX, dboard_iface::ATR_REG_FULL_DUPLEX, POWER_UP | ANT_RX2| MIXER_ENB);
//set some default values
set_rx_lo_freq((_freq_range.min + _freq_range.max)/2.0);
@@ -189,7 +197,7 @@ void rfx_xcvr::set_rx_ant(const std::string &ant){
//set the rx atr regs that change with antenna setting
this->get_iface()->set_atr_reg(
dboard_iface::UNIT_RX, dboard_iface::ATR_REG_RX_ONLY,
- POWER_UP | MIX_EN | ((ant == "TX/RX")? ANT_TXRX : ANT_RX2)
+ POWER_UP | MIXER_ENB | ((ant == "TX/RX")? ANT_TXRX : ANT_RX2)
);
//shadow the setting
@@ -220,7 +228,7 @@ double rfx_xcvr::set_lo_freq(
){
if (rfx_debug) std::cerr << boost::format(
"RFX tune: target frequency %f Mhz"
- ) % (target_freq/100e6) << std::endl;
+ ) % (target_freq/1e6) << std::endl;
//clip the input
target_freq = std::clip(target_freq, _freq_range.min, _freq_range.max);
@@ -233,37 +241,48 @@ double rfx_xcvr::set_lo_freq(
(32, adf4360_regs_t::PRESCALER_VALUE_32_33)
;
- //calculate the following values
- // fvco = [P*B + A] * fref/R
- // fvco*R/fref = P*B + A = N
- int A, B, P, R; double N;
- static const int
- B_min = 3, B_max = 8191,
- A_min = 0, A_max = 31,
- P_min = 8, P_max = 32;
- static const int
- N_min = P_min*B_min + A_min,
- N_max = P_max*B_max + A_max;
- double ref_freq = this->get_iface()->get_clock_rate(unit);
- double ratio = target_freq/ref_freq;
-
- for(R = 1; R < 11; R++){
- //increment R and see if this allows for a large enough N
- N = ratio*R;
- if (N < N_min) continue;
- N = std::clip<double>(N, N_min, N_max);
- break;
- }
+ //map band select clock dividers to enums
+ static const uhd::dict<int, adf4360_regs_t::band_select_clock_div_t> bandsel_to_enum = map_list_of
+ (1, adf4360_regs_t::BAND_SELECT_CLOCK_DIV_1)
+ (2, adf4360_regs_t::BAND_SELECT_CLOCK_DIV_2)
+ (4, adf4360_regs_t::BAND_SELECT_CLOCK_DIV_4)
+ (8, adf4360_regs_t::BAND_SELECT_CLOCK_DIV_8)
+ ;
- //discover the best value for P, B, and A
- BOOST_FOREACH(P, prescaler_to_enum.keys()){
- B = int(std::floor(N/P));
- if (B > B_max) continue;
- B = std::clip(B, B_min, B_max);
- A = boost::math::iround(N - P*B);
- A = std::clip(A, A_min, A_max);
- break;
- }
+ double actual_freq, ref_freq = this->get_iface()->get_clock_rate(unit);
+ int R, BS, P, B, A;
+
+ /*
+ * The goal here to to loop though possible R dividers,
+ * band select clock dividers, and prescaler values.
+ * Calculate the A and B counters for each set of values.
+ * The loop exists when it meets all of the constraints.
+ * The resulting loop values are loaded into the registers.
+ *
+ * fvco = [P*B + A] * fref/R
+ * fvco*R/fref = P*B + A = N
+ */
+ for(R = 2; R <= 32; R+=2){
+ BOOST_FOREACH(BS, bandsel_to_enum.keys()){
+ if (ref_freq/R/BS > 1e6) continue; //constraint on band select clock
+ BOOST_FOREACH(P, prescaler_to_enum.keys()){
+ //calculate B and A from N
+ double N = target_freq*R/ref_freq;
+ B = int(std::floor(N/P));
+ A = boost::math::iround(N - P*B);
+ if (B < A or B > 8191 or B < 3 or A > 31) continue; //constraints on A, B
+ //calculate the actual frequency
+ actual_freq = double(P*B + A)*ref_freq/R;
+ if (actual_freq/P > 300e6) continue; //constraint on prescaler output
+ //constraints met: exit loop
+ goto done_loop;
+ }
+ }
+ } done_loop:
+
+ if (rfx_debug) std::cerr << boost::format(
+ "RFX tune: R=%d, BS=%d, P=%d, B=%d, A=%d"
+ ) % R % BS % P % B % A << std::endl;
//load the register values
adf4360_regs_t regs;
@@ -290,7 +309,7 @@ double rfx_xcvr::set_lo_freq(
regs.ablpw = adf4360_regs_t::ABLPW_3_0NS;
regs.lock_detect_precision = adf4360_regs_t::LOCK_DETECT_PRECISION_5CYCLES;
regs.test_mode_bit = 0;
- regs.band_select_clock_div = adf4360_regs_t::BAND_SELECT_CLOCK_DIV_8;
+ regs.band_select_clock_div = bandsel_to_enum[BS];
//write the registers
std::vector<adf4360_regs_t::addr_t> addrs = list_of //correct power-up sequence to write registers (R, C, N)
@@ -306,11 +325,10 @@ double rfx_xcvr::set_lo_freq(
}
//return the actual frequency
- double actual_freq = double(P*B + A) * ref_freq / double(R);
if (_div2[unit]) actual_freq /= 2;
if (rfx_debug) std::cerr << boost::format(
"RFX tune: actual frequency %f Mhz"
- ) % (actual_freq/100e6) << std::endl;
+ ) % (actual_freq/1e6) << std::endl;
return actual_freq;
}