usrp_ra_receiver::app_flow_graph Class Reference

List of all members.

Public Member Functions

def __init__
def set_freq
 Set the center frequency we're interested in.
def set_decln
def set_gain
def set_averaging
def set_integration
def lmst_timeout
def fft_outfunc
def write_continuum_data
def write_spectral_data
def seti_analysis
def seti_isahit
def write_hits
def xydfunc
def xydfunc_waterfall
def toggle_cal
def toggle_annotation
def toggle_scanning
def set_pd_offset
def set_pd_gain
def compute_notch_taps

Public Attributes

 frame
 panel
 notches
 use_notches
 notch_count
 show_debug_info
 waterfall
 setimode
 seticounter
 setik
 seti_fft_bandwidth
 setitimer
 scanning
 CHIRP_LOWER
 CHIRP_UPPER
 hitcounter
 s1hitcounter
 s2hitcounter
 avgdelta
 seti_freq_range
 setifreq_lower
 setifreq_current
 setifreq_upper
 nhits
 nhitlines
 setifreq_timer
 seti_then
 hits_array
 hit_intensities
 calib_coeff
 calib_offset
 integ
 avg_alpha
 gain
 decln
 continuum_then
 spectral_then
 u
 subdev
 cardtype
 prefix
 fft_rate
 fft_size
 fft_outbuf
 fft_input_rate
 fft_input_taps
 fft_bandpass
 scope
 locality
 sun
 sunstate
 stripsize
 chart
 centerfreq
 observing
 bw
 integrator1
 integrator2
 integrator3
 detector
 probe
 cal_mult
 cal_offs
 notch_filt
 myform
 scan_control
 lmst_timer
 calstate
 annotate_state
 notch_taps


Member Function Documentation

def usrp_ra_receiver::app_flow_graph::__init__ (   self,
  frame,
  panel,
  vbox,
  argv 
)

def usrp_ra_receiver::app_flow_graph::compute_notch_taps (   self,
  notchlist 
)

def usrp_ra_receiver::app_flow_graph::fft_outfunc (   self,
  data,
  l 
)

def usrp_ra_receiver::app_flow_graph::lmst_timeout (   self  ) 

def usrp_ra_receiver::app_flow_graph::set_averaging (   self,
  avval 
)

def usrp_ra_receiver::app_flow_graph::set_decln (   self,
  dec 
)

def usrp_ra_receiver::app_flow_graph::set_freq (   self,
  target_freq 
)

Set the center frequency we're interested in.

Parameters:
target_freq,: frequency in Hz : bool
Tuning is a two step process. First we ask the front-end to tune as close to the desired frequency as it can. Then we use the result of that operation and our target_frequency to determine the value for the digital down converter.

def usrp_ra_receiver::app_flow_graph::set_gain (   self,
  gain 
)

def usrp_ra_receiver::app_flow_graph::set_integration (   self,
  integval 
)

def usrp_ra_receiver::app_flow_graph::set_pd_gain (   self,
  gain 
)

def usrp_ra_receiver::app_flow_graph::set_pd_offset (   self,
  offs 
)

def usrp_ra_receiver::app_flow_graph::seti_analysis (   self,
  fftbuf,
  sidtime 
)

def usrp_ra_receiver::app_flow_graph::seti_isahit (   self,
  fdiffs 
)

def usrp_ra_receiver::app_flow_graph::toggle_annotation (   self  ) 

def usrp_ra_receiver::app_flow_graph::toggle_cal (   self  ) 

def usrp_ra_receiver::app_flow_graph::toggle_scanning (   self  ) 

def usrp_ra_receiver::app_flow_graph::write_continuum_data (   self,
  data,
  sidtime 
)

def usrp_ra_receiver::app_flow_graph::write_hits (   self,
  sidtime 
)

def usrp_ra_receiver::app_flow_graph::write_spectral_data (   self,
  data,
  sidtime 
)

def usrp_ra_receiver::app_flow_graph::xydfunc (   self,
  xyv 
)

def usrp_ra_receiver::app_flow_graph::xydfunc_waterfall (   self,
  pos 
)


Member Data Documentation


The documentation for this class was generated from the following file:

Generated on Thu Mar 5 09:04:04 2009 for GNU Radio 3.1.3 by  doxygen 1.5.8