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00023 #ifndef INCLUDED_GR_PWR_SQUELCH_CC_H
00024 #define INCLUDED_GR_PWR_SQUELCH_CC_H
00025
00026 #include <cmath>
00027 #include <gr_squelch_base_cc.h>
00028 #include <gr_single_pole_iir.h>
00029
00030 class gr_pwr_squelch_cc;
00031 typedef boost::shared_ptr<gr_pwr_squelch_cc> gr_pwr_squelch_cc_sptr;
00032
00033 gr_pwr_squelch_cc_sptr
00034 gr_make_pwr_squelch_cc(double db, double alpha = 0.0001, int ramp=0, bool gate=false);
00035
00040 class gr_pwr_squelch_cc : public gr_squelch_base_cc
00041 {
00042 private:
00043 double d_threshold;
00044 double d_pwr;
00045 gr_single_pole_iir<double,double,double> d_iir;
00046
00047 friend gr_pwr_squelch_cc_sptr gr_make_pwr_squelch_cc(double db, double alpha, int ramp, bool gate);
00048 gr_pwr_squelch_cc(double db, double alpha, int ramp, bool gate);
00049
00050 protected:
00051 virtual void update_state(const gr_complex &in);
00052 virtual bool mute() const { return d_pwr < d_threshold; }
00053
00054 public:
00055 std::vector<float> squelch_range() const;
00056
00057 double threshold() const { return 10*log10(d_threshold); }
00058 void set_threshold(double db) { d_threshold = std::pow(10.0, db/10); }
00059 void set_alpha(double alpha) { d_iir.set_taps(alpha); }
00060 };
00061
00062 #endif