--- /dev/null
+//
+// Copyright 2008,2009 Free Software Foundation, Inc.
+//
+// This file is part of GNU Radio
+//
+// GNU Radio 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 asversion 3, or (at your option)
+// any later version.
+//
+// GNU Radio 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 GNU Radio; see the file COPYING. If not, write to
+// the Free Software Foundation, Inc., 51 Franklin Street,
+// Boston, MA 02110-1301, USA.
+
+#include <usrp/db_wbxng.h>
+#include <db_base_impl.h>
+#include <cmath>
+#include <boost/thread.hpp>
+#include <boost/weak_ptr.hpp>
+#include <cstdio>
+
+#if 0
+#define LO_OFFSET 4.25e6
+#else
+#define LO_OFFSET 0
+#define NO_LO_OFFSET
+#endif
+
+
+/* ------------------------------------------------------------------------
+ * **** TODO ****
+ * Fix the comment below to reflect WBX NG
+ */
+
+/* ------------------------------------------------------------------------
+ * A few comments about the XCVR2450:
+ *
+ * It is half-duplex. I.e., transmit and receive are mutually exclusive.
+ * There is a single LO for both the Tx and Rx sides.
+ * For our purposes the board is always either receiving or transmitting.
+ *
+ * Each board is uniquely identified by the *USRP hardware* instance and side
+ * This dictionary holds a weak reference to existing board controller so it
+ * can be created or retrieved as needed.
+ */
+
+
+
+// TX IO Pins
+#define HB_PA_OFF (1 << 15) // 5GHz PA, 1 = off, 0 = on
+#define LB_PA_OFF (1 << 14) // 2.4GHz PA, 1 = off, 0 = on
+#define ANTSEL_TX1_RX2 (1 << 13) // 1 = Ant 1 to TX, Ant 2 to RX
+#define ANTSEL_TX2_RX1 (1 << 12) // 1 = Ant 2 to TX, Ant 1 to RX
+#define TX_EN (1 << 11) // 1 = TX on, 0 = TX off
+#define AD9515DIV (1 << 4) // 1 = Div by 3, 0 = Div by 2
+
+#define TX_OE_MASK HB_PA_OFF|LB_PA_OFF|ANTSEL_TX1_RX2|ANTSEL_TX2_RX1|TX_EN|AD9515DIV
+#define TX_SAFE_IO HB_PA_OFF|LB_PA_OFF|ANTSEL_TX1_RX2|AD9515DIV
+
+// RX IO Pins
+#define LOCKDET (1 << 15) // This is an INPUT!!!
+#define EN (1 << 14)
+#define RX_EN (1 << 13) // 1 = RX on, 0 = RX off
+#define RX_HP (1 << 12)
+#define RX_OE_MASK EN|RX_EN|RX_HP
+#define RX_SAFE_IO EN
+
+struct wbxng_key {
+ std::string serial_no;
+ int which;
+
+ bool operator==(const wbxng_key &x){
+ return x.serial_no ==serial_no && x.which == which;
+ }
+};
+
+class wbxng
+{
+private:
+ usrp_basic *d_raw_usrp;
+ int d_which;
+
+ bool d_is_shutdown;
+ int d_spi_format, d_spi_enable;
+
+ int d_mimo, d_int_div, d_frac_div, d_highband, d_five_gig;
+ int d_cp_current, d_ref_div, d_rssi_hbw;
+ int d_txlpf_bw, d_rxlpf_bw, d_rxlpf_fine, d_rxvga_ser;
+ int d_rssi_range, d_rssi_mode, d_rssi_mux;
+ int d_rx_hp_pin, d_rx_hpf, d_rx_ant;
+ int d_tx_ant, d_txvga_ser, d_tx_driver_lin;
+ int d_tx_vga_lin, d_tx_upconv_lin, d_tx_bb_gain;
+ int d_pabias_delay, d_pabias, rx_rf_gain, rx_bb_gain, d_txgain;
+ int d_rx_rf_gain, d_rx_bb_gain;
+
+ int d_reg_standby, d_reg_int_divider, d_reg_frac_divider, d_reg_bandselpll;
+ int d_reg_cal, dsend_reg, d_reg_lpf, d_reg_rxrssi_ctrl, d_reg_txlin_gain;
+ int d_reg_pabias, d_reg_rxgain, d_reg_txgain;
+
+ int d_ad9515_div;
+
+ void _set_rfagc(float gain);
+ void _set_ifagc(float gain);
+ void _set_pga(float pga_gain);
+
+public:
+ usrp_basic *usrp(){
+ return d_raw_usrp;
+ }
+
+ wbxng(usrp_basic_sptr usrp, int which);
+ ~wbxng();
+ void shutdown();
+
+ void set_reg_standby();
+
+ // Integer-Divider Ratio (3)
+ void set_reg_int_divider();
+
+ // Fractional-Divider Ratio (4)
+ void set_reg_frac_divider();
+
+ // Band Select and PLL (5)
+ void set_reg_bandselpll();
+
+ // Calibration (6)
+ void set_reg_cal();
+
+ // Lowpass Filter (7)
+ void set_reg_lpf();
+
+ // Rx Control/RSSI (8)
+ void set_reg_rxrssi_ctrl();
+
+ // Tx Linearity/Baseband Gain (9)
+ void set_reg_txlin_gain();
+
+ // PA Bias DAC (10)
+ void set_reg_pabias();
+
+ // Rx Gain (11)
+ void set_reg_rxgain();
+
+ // Tx Gain (12)
+ void set_reg_txgain();
+
+ // Send register write to SPI
+ void send_reg(int v);
+
+ void set_gpio();
+ bool lock_detect();
+ bool set_rx_gain(float gain);
+ bool set_tx_gain(float gain);
+
+ struct freq_result_t set_freq(double target_freq);
+};
+
+
+/*****************************************************************************/
+
+
+wbxng::wbxng(usrp_basic_sptr _usrp, int which)
+ : d_raw_usrp(_usrp.get()), d_which(which), d_is_shutdown(false)
+{
+ // Handler for WBX NG daughterboards.
+ //
+ // @param usrp: instance of usrp.source_c
+ // @param which: which side: 0, 1 corresponding to RX_A or RX_B respectively
+
+ // Use MSB with no header
+ d_spi_format = SPI_FMT_MSB | SPI_FMT_HDR_0;
+
+ if(which == 0) {
+ d_spi_enable = SPI_ENABLE_RX_A;
+ }
+ else {
+ d_spi_enable = SPI_ENABLE_RX_B;
+ }
+
+ // Sane defaults
+ d_mimo = 1; // 0 = OFF, 1 = ON
+ d_int_div = 192; // 128 = min, 255 = max
+ d_frac_div = 0; // 0 = min, 65535 = max
+ d_highband = 0; // 0 = freq <= 5.4e9, 1 = freq > 5.4e9
+ d_five_gig = 0; // 0 = freq <= 3.e9, 1 = freq > 3e9
+ d_cp_current = 1; // 0 = 2mA, 1 = 4mA
+ d_ref_div = 1; // 1 to 7
+ d_rssi_hbw = 0; // 0 = 2 MHz, 1 = 6 MHz
+ d_txlpf_bw = 1; // 1 = 12 MHz, 2 = 18 MHz, 3 = 24 MHz
+ d_rxlpf_bw = 1; // 0 = 7.5 MHz, 1 = 9.5 MHz, 2 = 14 MHz, 3 = 18 MHz
+ d_rxlpf_fine = 2; // 0 = 90%, 1 = 95%, 2 = 100%, 3 = 105%, 4 = 110%
+ d_rxvga_ser = 1; // 0 = RXVGA controlled by B7:1, 1=controlled serially
+ d_rssi_range = 1; // 0 = low range (datasheet typo), 1=high range (0.5V - 2.0V)
+ d_rssi_mode = 1; // 0 = enable follows RXHP, 1 = enabled
+ d_rssi_mux = 0; // 0 = RSSI, 1 = TEMP
+ d_rx_hp_pin = 0; // 0 = Fc set by rx_hpf, 1 = 600 KHz
+ d_rx_hpf = 0; // 0 = 100Hz, 1 = 30KHz
+ d_rx_ant = 0; // 0 = Ant. #1, 1 = Ant. #2
+ d_tx_ant = 0; // 0 = Ant. #1, 1 = Ant. #2
+ d_txvga_ser = 1; // 0 = TXVGA controlled by B6:1, 1=controlled serially
+ d_tx_driver_lin = 2; // 0=50% (worst linearity), 1=63%, 2=78%, 3=100% (best lin)
+ d_tx_vga_lin = 2; // 0=50% (worst linearity), 1=63%, 2=78%, 3=100% (best lin)
+ d_tx_upconv_lin = 2; // 0=50% (worst linearity), 1=63%, 2=78%, 3=100% (best lin)
+ d_tx_bb_gain = 3; // 0=maxgain-5dB, 1=max-3dB, 2=max-1.5dB, 3=max
+ d_pabias_delay = 15; // 0 = 0, 15 = 7uS
+ d_pabias = 0; // 0 = 0 uA, 63 = 315uA
+ d_rx_rf_gain = 0; // 0 = 0dB, 1 = 0dB, 2 = 15dB, 3 = 30dB
+ d_rx_bb_gain = 16; // 0 = min, 31 = max (0 - 62 dB)
+
+ d_txgain = 63; // 0 = min, 63 = max
+
+ /*
+ // Initialize GPIO and ATR
+ usrp()->common_write_io(C_TX, d_which, TX_SAFE_IO, TX_OE_MASK);
+ usrp()->_common_write_oe(C_TX, d_which, TX_OE_MASK, 0xffff);
+ usrp()->common_write_atr_txval(C_TX, d_which, TX_SAFE_IO);
+ usrp()->common_write_atr_rxval(C_TX, d_which, TX_SAFE_IO);
+ usrp()->common_write_atr_mask(C_TX, d_which, TX_OE_MASK);
+
+ usrp()->common_write_io(C_RX, d_which, RX_SAFE_IO, RX_OE_MASK);
+ usrp()->_common_write_oe(C_RX, d_which, RX_OE_MASK, 0xffff);
+ usrp()->common_write_atr_txval(C_RX, d_which, RX_SAFE_IO);
+ usrp()->common_write_atr_rxval(C_RX, d_which, RX_SAFE_IO);
+ usrp()->common_write_atr_mask(C_RX, d_which, RX_OE_MASK);
+
+ // Initialize chipset
+ // TODO: perform reset sequence to ensure power up defaults
+ set_reg_standby();
+ set_reg_bandselpll();
+ set_reg_cal();
+ set_reg_lpf();
+ set_reg_rxrssi_ctrl();
+ set_reg_txlin_gain();
+ set_reg_pabias();
+ set_reg_rxgain();
+ set_reg_txgain();
+ //FIXME: set_freq(2.45e9);
+ */
+}
+
+wbxng::~wbxng()
+{
+ //printf("wbxng::destructor\n");
+ shutdown();
+}
+
+void
+wbxng::shutdown()
+{
+ if (!d_is_shutdown){
+ d_is_shutdown = true;
+ /*
+ usrp()->common_write_atr_txval(C_TX, d_which, TX_SAFE_IO);
+ usrp()->common_write_atr_rxval(C_TX, d_which, TX_SAFE_IO);
+ usrp()->common_write_atr_txval(C_RX, d_which, RX_SAFE_IO);
+ usrp()->common_write_atr_rxval(C_RX, d_which, RX_SAFE_IO);
+ */
+ }
+}
+
+
+void
+wbxng::set_reg_standby()
+{
+ d_reg_standby = ((d_mimo<<17) |
+ (1<<16) |
+ (1<<6) |
+ (1<<5) |
+ (1<<4) | 2);
+ //send_reg(d_reg_standby);
+}
+
+void
+wbxng::set_reg_int_divider()
+{
+ d_reg_int_divider = (((d_frac_div & 0x03)<<16) |
+ (d_int_div<<4) | 3);
+ //send_reg(d_reg_int_divider);
+}
+
+void
+wbxng::set_reg_frac_divider()
+{
+ d_reg_frac_divider = ((d_frac_div & 0xfffc)<<2) | 4;
+ //send_reg(d_reg_frac_divider);
+}
+
+void
+wbxng::set_reg_bandselpll()
+{
+ d_reg_bandselpll = ((d_mimo<<17) |
+ (1<<16) |
+ (1<<15) |
+ (0<<11) |
+ (d_highband<<10) |
+ (d_cp_current<<9) |
+ (d_ref_div<<5) |
+ (d_five_gig<<4) | 5);
+ //send_reg(d_reg_bandselpll);
+ d_reg_bandselpll = ((d_mimo<<17) |
+ (1<<16) |
+ (1<<15) |
+ (1<<11) |
+ (d_highband<<10) |
+ (d_cp_current<<9) |
+ (d_ref_div<<5) |
+ (d_five_gig<<4) | 5);
+ //send_reg(d_reg_bandselpll);
+}
+
+void
+wbxng::set_reg_cal()
+{
+ // FIXME do calibration
+ d_reg_cal = (1<<14)|6;
+ //send_reg(d_reg_cal);
+}
+
+void
+wbxng::set_reg_lpf()
+{
+ d_reg_lpf = (
+ (d_rssi_hbw<<15) |
+ (d_txlpf_bw<<10) |
+ (d_rxlpf_bw<<9) |
+ (d_rxlpf_fine<<4) | 7);
+ //send_reg(d_reg_lpf);
+}
+
+void
+wbxng::set_reg_rxrssi_ctrl()
+{
+ d_reg_rxrssi_ctrl = ((d_rxvga_ser<<16) |
+ (d_rssi_range<<15) |
+ (d_rssi_mode<<14) |
+ (d_rssi_mux<<12) |
+ (1<<9) |
+ (d_rx_hpf<<6) |
+ (1<<4) | 8);
+ //send_reg(d_reg_rxrssi_ctrl);
+}
+
+void
+wbxng::set_reg_txlin_gain()
+{
+ d_reg_txlin_gain = ((d_txvga_ser<<14) |
+ (d_tx_driver_lin<<12) |
+ (d_tx_vga_lin<<10) |
+ (d_tx_upconv_lin<<6) |
+ (d_tx_bb_gain<<4) | 9);
+ //send_reg(d_reg_txlin_gain);
+}
+
+void
+wbxng::set_reg_pabias()
+{
+ d_reg_pabias = (
+ (d_pabias_delay<<10) |
+ (d_pabias<<4) | 10);
+ //send_reg(d_reg_pabias);
+}
+
+void
+wbxng::set_reg_rxgain()
+{
+ d_reg_rxgain = (
+ (d_rx_rf_gain<<9) |
+ (d_rx_bb_gain<<4) | 11);
+ //send_reg(d_reg_rxgain);
+}
+
+void
+wbxng::set_reg_txgain()
+{
+ d_reg_txgain = (d_txgain<<4) | 12;
+ //send_reg(d_reg_txgain);
+}
+
+void
+wbxng::send_reg(int v)
+{
+ // Send 24 bits, it keeps last 18 clocked in
+ char c[3];
+ c[0] = (char)((v >> 16) & 0xff);
+ c[1] = (char)((v >> 8) & 0xff);
+ c[2] = (char)((v & 0xff));
+ std::string s(c, 3);
+
+ //usrp()->_write_spi(0, d_spi_enable, d_spi_format, s);
+ //printf("wbxng: Setting reg %d to %X\n", (v&15), v);
+}
+
+// ----------------------------------------------------------------
+
+void
+wbxng::set_gpio()
+{
+ // We calculate four values:
+ //
+ // io_rx_while_rx: what to drive onto io_rx_* when receiving
+ // io_rx_while_tx: what to drive onto io_rx_* when transmitting
+ // io_tx_while_rx: what to drive onto io_tx_* when receiving
+ // io_tx_while_tx: what to drive onto io_tx_* when transmitting
+ //
+ // B1-B7 is ignored as gain is set serially for now.
+
+ int rx_hp, tx_antsel, rx_antsel, tx_pa_sel;
+ if(d_rx_hp_pin)
+ rx_hp = RX_HP;
+ else
+ rx_hp = 0;
+
+ if(d_tx_ant)
+ tx_antsel = ANTSEL_TX2_RX1;
+ else
+ tx_antsel = ANTSEL_TX1_RX2;
+
+ if(d_rx_ant)
+ rx_antsel = ANTSEL_TX2_RX1;
+ else
+ rx_antsel = ANTSEL_TX1_RX2;
+
+ if(d_five_gig)
+ tx_pa_sel = LB_PA_OFF;
+ else
+ tx_pa_sel = HB_PA_OFF;
+
+ /*
+ // Reset GPIO and ATR
+ // FIXME: dont set io, oe, atr mask once basic code stops overriding our settings
+ usrp()->common_write_io(C_TX, d_which, TX_SAFE_IO, TX_OE_MASK);
+ usrp()->_common_write_oe(C_TX, d_which, TX_OE_MASK, 0xffff);
+ usrp()->common_write_atr_txval(C_TX, d_which, tx_pa_sel|tx_antsel|TX_EN|AD9515DIV);
+ usrp()->common_write_atr_rxval(C_TX, d_which, HB_PA_OFF|LB_PA_OFF|rx_antsel|AD9515DIV);
+ usrp()->common_write_atr_mask(C_TX, d_which, TX_OE_MASK);
+
+ usrp()->common_write_io(C_RX, d_which, RX_SAFE_IO, RX_OE_MASK);
+ usrp()->_common_write_oe(C_RX, d_which, RX_OE_MASK, 0xffff);
+ usrp()->common_write_atr_txval(C_RX, d_which, EN|rx_hp);
+ usrp()->common_write_atr_rxval(C_RX, d_which, EN|rx_hp|RX_EN);
+ usrp()->common_write_atr_mask(C_RX, d_which, RX_OE_MASK);
+ */
+
+ //printf("GPIO: RXRX=%04X RXTX=%04X TXRX=%04X TXTX=%04X\n",
+ // io_rx_while_rx, io_rx_while_tx, io_tx_while_rx, io_tx_while_tx);
+}
+
+
+struct freq_result_t
+wbxng::set_freq(double target_freq)
+{
+ struct freq_result_t args = {false, 0};
+
+ double scaler;
+
+ if(target_freq > 3e9) {
+ d_five_gig = 1;
+ d_ad9515_div = 3;
+ scaler = 4.0/5.0;
+ }
+ else {
+ d_five_gig = 0;
+ d_ad9515_div = 3;
+ scaler = 4.0/3.0;
+ }
+
+ if(target_freq > 5.408e9) {
+ d_highband = 1;
+ }
+ else {
+ d_highband = 0;
+ }
+
+ double vco_freq = target_freq*scaler;
+ double sys_clk = usrp()->fpga_master_clock_freq(); // Usually 64e6
+ double ref_clk = sys_clk / d_ad9515_div;
+
+ double phdet_freq = ref_clk/d_ref_div;
+ double div = vco_freq/phdet_freq;
+ d_int_div = int(floor(div));
+ d_frac_div = int((div-d_int_div)*65536.0);
+ // double actual_freq = phdet_freq*(d_int_div+(d_frac_div/65536.0))/scaler;
+
+ //printf("RF=%f VCO=%f R=%d PHD=%f DIV=%3.5f I=%3d F=%5d ACT=%f\n",
+ // target_freq, vco_freq, d_ref_div, phdet_freq,
+ // div, d_int_div, d_frac_div, actual_freq);
+
+ args.ok = lock_detect();
+
+ /*
+ set_gpio();
+ set_reg_int_divider();
+ set_reg_frac_divider();
+ set_reg_bandselpll();
+
+ args.ok = lock_detect();
+#ifdef NO_LO_OFFSET
+ args.baseband_freq = target_freq;
+#else
+ args.baseband_freq = actual_freq;
+#endif
+ */
+
+ if(!args.ok){
+ printf("Fail %f\n", target_freq);
+ }
+ return args;
+}
+
+bool
+wbxng::lock_detect()
+{
+ /*
+ @returns: the value of the VCO/PLL lock detect bit.
+ @rtype: 0 or 1
+ */
+ /*
+ if(usrp()->common_read_io(C_RX, d_which) & LOCKDET) {
+ return true;
+ }
+ else { // Give it a second chance
+ if(usrp()->common_read_io(C_RX, d_which) & LOCKDET)
+ return true;
+ else
+ return false;
+ }
+ */
+ return true;
+}
+
+bool
+wbxng::set_rx_gain(float gain)
+{
+ if(gain < 0.0)
+ gain = 0.0;
+ if(gain > 92.0)
+ gain = 92.0;
+
+ // Split the gain between RF and baseband
+ // This is experimental, not prescribed
+ if(gain < 31.0) {
+ d_rx_rf_gain = 0; // 0 dB RF gain
+ rx_bb_gain = int(gain/2.0);
+ }
+
+ if(gain >= 30.0 and gain < 60.5) {
+ d_rx_rf_gain = 2; // 15 dB RF gain
+ d_rx_bb_gain = int((gain-15.0)/2.0);
+ }
+
+ if(gain >= 60.5) {
+ d_rx_rf_gain = 3; // 30.5 dB RF gain
+ d_rx_bb_gain = int((gain-30.5)/2.0);
+ }
+
+ //set_reg_rxgain();
+
+ return true;
+}
+
+bool
+wbxng::set_tx_gain(float gain)
+{
+ if(gain < 0.0) {
+ gain = 0.0;
+ }
+ if(gain > 30.0) {
+ gain = 30.0;
+ }
+
+ d_txgain = int((gain/30.0)*63);
+ //set_reg_txgain();
+
+ return true;
+}
+
+
+/*****************************************************************************/
+
+
+struct wbxng_table_entry {
+ wbxng_key key;
+ boost::weak_ptr<wbxng> value;
+
+ wbxng_table_entry(const wbxng_key &_key, boost::weak_ptr<wbxng> _value)
+ : key(_key), value(_value) {}
+};
+
+typedef std::vector<wbxng_table_entry> wbxng_table;
+
+static boost::mutex s_table_mutex;
+static wbxng_table s_table;
+
+static wbxng_sptr
+_get_or_make_wbxng(usrp_basic_sptr usrp, int which)
+{
+ wbxng_key key = {usrp->serial_number(), which};
+
+ boost::mutex::scoped_lock guard(s_table_mutex);
+
+ for (wbxng_table::iterator p = s_table.begin(); p != s_table.end();){
+ if (p->value.expired()) // weak pointer is now dead
+ p = s_table.erase(p); // erase it
+ else {
+ if (key == p->key){ // found it
+ return wbxng_sptr(p->value);
+ }
+ else
+ ++p; // keep looking
+ }
+ }
+
+ // We don't have the wbxng we're looking for
+
+ // create a new one and stick it in the table.
+ wbxng_sptr r(new wbxng(usrp, which));
+ wbxng_table_entry t(key, r);
+ s_table.push_back(t);
+
+ return r;
+}
+
+
+/*****************************************************************************/
+
+
+db_wbxng_base::db_wbxng_base(usrp_basic_sptr usrp, int which)
+ : db_base(usrp, which)
+{
+ /*
+ * Abstract base class for all wbxng boards.
+ *
+ * Derive board specific subclasses from db_wbxng_base_{tx,rx}
+ *
+ * @param usrp: instance of usrp.source_c
+ * @param which: which side: 0 or 1 corresponding to side A or B respectively
+ * @type which: int
+ */
+
+ d_wbxng = _get_or_make_wbxng(usrp, which);
+}
+
+db_wbxng_base::~db_wbxng_base()
+{
+}
+
+void
+db_wbxng_base::shutdown_common()
+{
+ // If the usrp_basic in the wbxng is the same as the usrp_basic
+ // in the daughterboard, shutdown the wbxng now (when only one of Tx
+ // and Rx is open, this is always true).
+
+ if (d_wbxng->usrp() == usrp()){
+ //std::cerr << "db_wbxng_base::shutdown_common: same -> shutting down\n";
+ d_wbxng->shutdown();
+ }
+ else {
+ //std::cerr << "db_wbxng_base::shutdown_common: different -> ignoring\n";
+ }
+}
+
+struct freq_result_t
+db_wbxng_base::set_freq(double target_freq)
+{
+ /*
+ * @returns (ok, actual_baseband_freq) where:
+ * ok is True or False and indicates success or failure,
+ * actual_baseband_freq is the RF frequency that corresponds to DC in the IF.
+ */
+ return d_wbxng->set_freq(target_freq+d_lo_offset);
+}
+
+bool
+db_wbxng_base::is_quadrature()
+{
+ /*
+ * Return True if this board requires both I & Q analog channels.
+ *
+ * This bit of info is useful when setting up the USRP Rx mux register.
+ */
+ return true;
+}
+
+double
+db_wbxng_base::freq_min()
+{
+ return 2.4e9;
+}
+
+double
+db_wbxng_base::freq_max()
+{
+ return 6.0e9;
+}
+
+
+/******************************************************************************/
+
+
+db_wbxng_tx::db_wbxng_tx(usrp_basic_sptr usrp, int which)
+ : db_wbxng_base(usrp, which)
+{
+ set_lo_offset(LO_OFFSET);
+ //printf("db_wbxng_tx::db_wbxng_tx\n");
+}
+
+db_wbxng_tx::~db_wbxng_tx()
+{
+ shutdown();
+}
+
+void
+db_wbxng_tx::shutdown()
+{
+ if (!d_is_shutdown){
+ d_is_shutdown = true;
+ shutdown_common();
+ }
+}
+
+float
+db_wbxng_tx::gain_min()
+{
+ return 0;
+}
+
+float
+db_wbxng_tx::gain_max()
+{
+ return 30;
+}
+
+float
+db_wbxng_tx::gain_db_per_step()
+{
+ return (30.0/63.0);
+}
+
+bool
+db_wbxng_tx::set_gain(float gain)
+{
+ return d_wbxng->set_tx_gain(gain);
+}
+
+bool
+db_wbxng_tx::i_and_q_swapped()
+{
+ return true;
+}
+
+
+/******************************************************************************/
+
+
+db_wbxng_rx::db_wbxng_rx(usrp_basic_sptr usrp, int which)
+ : db_wbxng_base(usrp, which)
+{
+ /*
+ * @param usrp: instance of usrp.source_c
+ * @param which: 0 or 1 corresponding to side RX_A or RX_B respectively.
+ */
+ set_lo_offset(LO_OFFSET);
+ //printf("db_wbxng_rx:d_wbxng_rx\n");
+}
+
+db_wbxng_rx::~db_wbxng_rx()
+{
+ shutdown();
+}
+
+void
+db_wbxng_rx::shutdown()
+{
+ if (!d_is_shutdown){
+ d_is_shutdown = true;
+ shutdown_common();
+ }
+}
+
+float
+db_wbxng_rx::gain_min()
+{
+ return 0.0;
+}
+
+float
+db_wbxng_rx::gain_max()
+{
+ return 92.0;
+}
+
+float
+db_wbxng_rx::gain_db_per_step()
+{
+ return 1;
+}
+
+bool
+db_wbxng_rx::set_gain(float gain)
+{
+ return d_wbxng->set_rx_gain(gain);
+}
projects / debian / gnuradio / commitdiff