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author | Josh Blum <josh@joshknows.com> | 2012-06-08 12:57:19 -0700 |
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committer | Josh Blum <josh@joshknows.com> | 2012-06-08 16:07:54 -0700 |
commit | 0d2ae35873bc4d0f36d2c830649e512bb76abd6f (patch) | |
tree | 953a6de6876ce9d5997dbca036bb3896314a3041 | |
parent | a0ad50f925e014994fbcdad1a239753059fb3874 (diff) | |
download | uhd-0d2ae35873bc4d0f36d2c830649e512bb76abd6f.tar.gz uhd-0d2ae35873bc4d0f36d2c830649e512bb76abd6f.tar.bz2 uhd-0d2ae35873bc4d0f36d2c830649e512bb76abd6f.zip |
wbx: dont sync for lower rates so we can lock
-rw-r--r-- | host/lib/usrp/dboard/db_wbx_version2.cpp | 19 | ||||
-rw-r--r-- | host/lib/usrp/dboard/db_wbx_version3.cpp | 19 | ||||
-rw-r--r-- | host/lib/usrp/dboard/db_wbx_version4.cpp | 19 |
3 files changed, 36 insertions, 21 deletions
diff --git a/host/lib/usrp/dboard/db_wbx_version2.cpp b/host/lib/usrp/dboard/db_wbx_version2.cpp index 0c0a63fda..643fcd37f 100644 --- a/host/lib/usrp/dboard/db_wbx_version2.cpp +++ b/host/lib/usrp/dboard/db_wbx_version2.cpp @@ -196,14 +196,16 @@ double wbx_base::wbx_version2::set_lo_freq(dboard_iface::unit_t unit, double tar if(ref_freq <= 12.5e6) D = adf4350_regs_t::REFERENCE_DOUBLER_ENABLED; //increase RF divider until acceptable VCO frequency + const bool do_sync = (target_freq/2 > ref_freq); double vco_freq = target_freq; while (vco_freq < 2.2e9) { vco_freq *= 2; RFdiv *= 2; } + if (do_sync) vco_freq = target_freq; //use 8/9 prescaler for vco_freq > 3 GHz (pg.18 prescaler) - adf4350_regs_t::prescaler_t prescaler = target_freq > 3e9 ? adf4350_regs_t::PRESCALER_8_9 : adf4350_regs_t::PRESCALER_4_5; + adf4350_regs_t::prescaler_t prescaler = vco_freq > 3e9 ? adf4350_regs_t::PRESCALER_8_9 : adf4350_regs_t::PRESCALER_4_5; /* * The goal here is to loop though possible R dividers, @@ -230,7 +232,7 @@ double wbx_base::wbx_version2::set_lo_freq(dboard_iface::unit_t unit, double tar if (pfd_freq > 25e6) continue; //ignore fractional part of tuning - N = int(std::floor(target_freq/pfd_freq)); + N = int(std::floor(vco_freq/pfd_freq)); //keep N > minimum int divider requirement if (N < prescaler_to_min_int_div[prescaler]) continue; @@ -245,7 +247,7 @@ double wbx_base::wbx_version2::set_lo_freq(dboard_iface::unit_t unit, double tar //Fractional-N calculation MOD = 4095; //max fractional accuracy - FRAC = int((target_freq/pfd_freq - N)*MOD); + FRAC = int((vco_freq/pfd_freq - N)*MOD); //Reference divide-by-2 for 50% duty cycle // if R even, move one divide by 2 to to regs.reference_divide_by_2 @@ -255,7 +257,7 @@ double wbx_base::wbx_version2::set_lo_freq(dboard_iface::unit_t unit, double tar } //actual frequency calculation - actual_freq = double((N + (double(FRAC)/double(MOD)))*ref_freq*(1+int(D))/(R*(1+int(T)))/2); + actual_freq = double((N + (double(FRAC)/double(MOD)))*ref_freq*(1+int(D))/(R*(1+int(T)))/2/(vco_freq/target_freq)); UHD_LOGV(often) << boost::format("WBX Intermediates: ref=%0.2f, outdiv=%f, fbdiv=%f") % (ref_freq*(1+int(D))/(R*(1+int(T)))) % double(RFdiv*2) % double(N + double(FRAC)/double(MOD)) << std::endl @@ -271,9 +273,12 @@ double wbx_base::wbx_version2::set_lo_freq(dboard_iface::unit_t unit, double tar regs.frac_12_bit = FRAC; regs.int_16_bit = N; regs.mod_12_bit = MOD; - regs.clock_divider_12_bit = std::max(1, int(std::ceil(400e-6*pfd_freq/MOD))); - regs.feedback_select = adf4350_regs_t::FEEDBACK_SELECT_DIVIDED; - regs.clock_div_mode = adf4350_regs_t::CLOCK_DIV_MODE_RESYNC_ENABLE; + if (do_sync) + { + regs.clock_divider_12_bit = std::max(1, int(std::ceil(400e-6*pfd_freq/MOD))); + regs.feedback_select = adf4350_regs_t::FEEDBACK_SELECT_DIVIDED; + regs.clock_div_mode = adf4350_regs_t::CLOCK_DIV_MODE_RESYNC_ENABLE; + } regs.prescaler = prescaler; regs.r_counter_10_bit = R; regs.reference_divide_by_2 = T; diff --git a/host/lib/usrp/dboard/db_wbx_version3.cpp b/host/lib/usrp/dboard/db_wbx_version3.cpp index 1f67b37c9..6771d184f 100644 --- a/host/lib/usrp/dboard/db_wbx_version3.cpp +++ b/host/lib/usrp/dboard/db_wbx_version3.cpp @@ -228,14 +228,16 @@ double wbx_base::wbx_version3::set_lo_freq(dboard_iface::unit_t unit, double tar if(ref_freq <= 12.5e6) D = adf4350_regs_t::REFERENCE_DOUBLER_ENABLED; //increase RF divider until acceptable VCO frequency + const bool do_sync = (target_freq/2 > ref_freq); double vco_freq = target_freq; while (vco_freq < 2.2e9) { vco_freq *= 2; RFdiv *= 2; } + if (do_sync) vco_freq = target_freq; //use 8/9 prescaler for vco_freq > 3 GHz (pg.18 prescaler) - adf4350_regs_t::prescaler_t prescaler = target_freq > 3e9 ? adf4350_regs_t::PRESCALER_8_9 : adf4350_regs_t::PRESCALER_4_5; + adf4350_regs_t::prescaler_t prescaler = vco_freq > 3e9 ? adf4350_regs_t::PRESCALER_8_9 : adf4350_regs_t::PRESCALER_4_5; /* * The goal here is to loop though possible R dividers, @@ -262,7 +264,7 @@ double wbx_base::wbx_version3::set_lo_freq(dboard_iface::unit_t unit, double tar if (pfd_freq > 25e6) continue; //ignore fractional part of tuning - N = int(std::floor(target_freq/pfd_freq)); + N = int(std::floor(vco_freq/pfd_freq)); //keep N > minimum int divider requirement if (N < prescaler_to_min_int_div[prescaler]) continue; @@ -277,7 +279,7 @@ double wbx_base::wbx_version3::set_lo_freq(dboard_iface::unit_t unit, double tar //Fractional-N calculation MOD = 4095; //max fractional accuracy - FRAC = int((target_freq/pfd_freq - N)*MOD); + FRAC = int((vco_freq/pfd_freq - N)*MOD); //Reference divide-by-2 for 50% duty cycle // if R even, move one divide by 2 to to regs.reference_divide_by_2 @@ -287,7 +289,7 @@ double wbx_base::wbx_version3::set_lo_freq(dboard_iface::unit_t unit, double tar } //actual frequency calculation - actual_freq = double((N + (double(FRAC)/double(MOD)))*ref_freq*(1+int(D))/(R*(1+int(T)))/2); + actual_freq = double((N + (double(FRAC)/double(MOD)))*ref_freq*(1+int(D))/(R*(1+int(T)))/2/(vco_freq/target_freq)); UHD_LOGV(often) << boost::format("WBX Intermediates: ref=%0.2f, outdiv=%f, fbdiv=%f") % (ref_freq*(1+int(D))/(R*(1+int(T)))) % double(RFdiv*2) % double(N + double(FRAC)/double(MOD)) << std::endl @@ -303,9 +305,12 @@ double wbx_base::wbx_version3::set_lo_freq(dboard_iface::unit_t unit, double tar regs.frac_12_bit = FRAC; regs.int_16_bit = N; regs.mod_12_bit = MOD; - regs.clock_divider_12_bit = std::max(1, int(std::ceil(400e-6*pfd_freq/MOD))); - regs.feedback_select = adf4350_regs_t::FEEDBACK_SELECT_DIVIDED; - regs.clock_div_mode = adf4350_regs_t::CLOCK_DIV_MODE_RESYNC_ENABLE; + if (do_sync) + { + regs.clock_divider_12_bit = std::max(1, int(std::ceil(400e-6*pfd_freq/MOD))); + regs.feedback_select = adf4350_regs_t::FEEDBACK_SELECT_DIVIDED; + regs.clock_div_mode = adf4350_regs_t::CLOCK_DIV_MODE_RESYNC_ENABLE; + } regs.prescaler = prescaler; regs.r_counter_10_bit = R; regs.reference_divide_by_2 = T; diff --git a/host/lib/usrp/dboard/db_wbx_version4.cpp b/host/lib/usrp/dboard/db_wbx_version4.cpp index dd6c3c9ef..057cdb6ce 100644 --- a/host/lib/usrp/dboard/db_wbx_version4.cpp +++ b/host/lib/usrp/dboard/db_wbx_version4.cpp @@ -211,14 +211,16 @@ double wbx_base::wbx_version4::set_lo_freq(dboard_iface::unit_t unit, double tar if(ref_freq <= 12.5e6) D = adf4351_regs_t::REFERENCE_DOUBLER_ENABLED; //increase RF divider until acceptable VCO frequency + const bool do_sync = (target_freq/2 > ref_freq); double vco_freq = target_freq; while (vco_freq < 2.2e9) { vco_freq *= 2; RFdiv *= 2; } + if (do_sync) vco_freq = target_freq; //use 8/9 prescaler for vco_freq > 3 GHz (pg.18 prescaler) - adf4351_regs_t::prescaler_t prescaler = target_freq > 3e9 ? adf4351_regs_t::PRESCALER_8_9 : adf4351_regs_t::PRESCALER_4_5; + adf4351_regs_t::prescaler_t prescaler = vco_freq > 3e9 ? adf4351_regs_t::PRESCALER_8_9 : adf4351_regs_t::PRESCALER_4_5; /* * The goal here is to loop though possible R dividers, @@ -245,7 +247,7 @@ double wbx_base::wbx_version4::set_lo_freq(dboard_iface::unit_t unit, double tar if (pfd_freq > 25e6) continue; //ignore fractional part of tuning - N = int(std::floor(target_freq/pfd_freq)); + N = int(std::floor(vco_freq/pfd_freq)); //keep N > minimum int divider requirement if (N < prescaler_to_min_int_div[prescaler]) continue; @@ -260,7 +262,7 @@ double wbx_base::wbx_version4::set_lo_freq(dboard_iface::unit_t unit, double tar //Fractional-N calculation MOD = 4095; //max fractional accuracy - FRAC = int((target_freq/pfd_freq - N)*MOD); + FRAC = int((vco_freq/pfd_freq - N)*MOD); //Reference divide-by-2 for 50% duty cycle // if R even, move one divide by 2 to to regs.reference_divide_by_2 @@ -270,7 +272,7 @@ double wbx_base::wbx_version4::set_lo_freq(dboard_iface::unit_t unit, double tar } //actual frequency calculation - actual_freq = double((N + (double(FRAC)/double(MOD)))*ref_freq*(1+int(D))/(R*(1+int(T)))/2); + actual_freq = double((N + (double(FRAC)/double(MOD)))*ref_freq*(1+int(D))/(R*(1+int(T)))/2/(vco_freq/target_freq)); UHD_LOGV(often) << boost::format("WBX Intermediates: ref=%0.2f, outdiv=%f, fbdiv=%f") % (ref_freq*(1+int(D))/(R*(1+int(T)))) % double(RFdiv*2) % double(N + double(FRAC)/double(MOD)) << std::endl @@ -286,9 +288,12 @@ double wbx_base::wbx_version4::set_lo_freq(dboard_iface::unit_t unit, double tar regs.frac_12_bit = FRAC; regs.int_16_bit = N; regs.mod_12_bit = MOD; - regs.clock_divider_12_bit = std::max(1, int(std::ceil(400e-6*pfd_freq/MOD))); - regs.feedback_select = adf4351_regs_t::FEEDBACK_SELECT_DIVIDED; - regs.clock_div_mode = adf4351_regs_t::CLOCK_DIV_MODE_RESYNC_ENABLE; + if (do_sync) + { + regs.clock_divider_12_bit = std::max(1, int(std::ceil(400e-6*pfd_freq/MOD))); + regs.feedback_select = adf4351_regs_t::FEEDBACK_SELECT_DIVIDED; + regs.clock_div_mode = adf4351_regs_t::CLOCK_DIV_MODE_RESYNC_ENABLE; + } regs.prescaler = prescaler; regs.r_counter_10_bit = R; regs.reference_divide_by_2 = T; |