$theta=$theta-2.*$pi if( $theta >= $pi);
my ($lats, $lons); # subsolar coordinates (rad)
-my $dB1 = 20; # transmitter output power (dBW)
+my $dB1 = 26; # transmitter output power (dBW)
my $delay; # path delay (ms)
my $psi; # sun zenith angle (rad)
my $dhop; # hop great-circle distance (rad)
my $height; # height of F layer (km)
my $time; # time of day (hour)
-my $rsens = -123; # RX sensitivity
+my $rsens = -128; # RX sensitivity
my @freq = qw(1.8 3.5 7.0 10.1 14.0 18.1 21.0 24.9 28.0 50.0); # working frequencies (MHz)
$delay = ((2 * $hop * sin($dhop) * ($R + $hF)) / cos($beta1) / $VOFL) * 1e6;
# print summary of data so far
-push @out, sprintf("RxSens: $rsens dBM SFI:%4.0lf R:%4.0lf Month: $month Day: $day", $flux, $ssn);
+push @out, sprintf("RxSens: $rsens dBM SFI:%4.0f R:%4.0f Month: $month Day: $day", $flux, $ssn);
push @out, sprintf("Power : %3.0f dBW Distance:%6.0f km Delay:%5.1f ms", $dB1, $d * $R, $delay);
push @out, sprintf("Location Lat / Long Azim");
push @out, sprintf("%-30.30s %-18s %3.0f", $main::myqth, DXBearing::lltos($lat1*$r2d, -$lon1*$r2d), $b1 * $r2d);