i use LFRX und LFTX daughterboard for RFID-Anwendung und i try to send a
single gaussian puls with TX-daughterboards but i can not receive it with
gr.file_sink(...). can anybody help me? my code is followed:
from gnuradio import gr, gru, eng_notation
from gnuradio import audio
from gnuradio import usrp
from gnuradio.eng_option import eng_option
from gnuradio.eng_notation import num_to_str, str_to_num
from optparse import OptionParser
import sys
import math
import wx
import time
from gnuradio.wxgui import stdgui, fftsink, form, slider, scopesink
def build_graph():
fg = gr.flow_graph ()
#
-------------------------------------------------------------------------
# controllable values
#
-------------------------------------------------------------------------
tx_subdev_spec1=(1,0)
rx_subdev_spec1=(1,0)
adc_rate = 64e6
dac_rate = 128e6
nsamples = 4000
decim_rate = 16
interp_rate = 32
target_freq = 1.356e7
samplerate = dac_rate / interp_rate
center_freq = 1.356e7
#
#########################################################################
# usrp is data sink (transmit path)
#
#########################################################################
tx = usrp.sink_c (0, interp_rate)
tx.set_pga(0, 0) #[-20,0] in dB
#
-------------------------------------------------------------------------
# determine the daughterboard subdevice we're using
#
-------------------------------------------------------------------------
tx_subdev = usrp.selected_subdev(tx, tx_subdev_spec1)
print "Determining TX d'board %s" % (tx_subdev.side_and_name(),)
tx_subdev.set_enable(True)
print "Tuning TX d'board (side %s) to %sHz" %
(tx_subdev.side_and_name(), num_to_str(target_freq))
tx.tune(tx_subdev._which, tx_subdev, target_freq)
tx.set_mux(usrp.determine_tx_mux_value(tx, tx_subdev_spec1))
print "TX mux value: 0x%08x" % (0xFFFFFFFFL
& long(usrp.determine_tx_mux_value(tx, tx_subdev_spec1)))
ss= tx.tune(tx_subdev._which, tx_subdev, target_freq)
print "Interp rate: " + str(tx.interp_rate())
print "DXC freq: ", num_to_str(ss.dxc_freq)
print "N Channels: " + str(tx.set_nchannels(1)) # 1 or 2
print "USB freq: " + str(tx.dac_freq()/tx.interp_rate())
print "Tx freq: " + str(tx.tx_freq(0))
#print "Number of DUC: " + str(self.tx.has_tx_halfband())
print "PGA Min:" + str(tx.pga_min())
print "PGA Max:" + str(tx.pga_max())
#
#########################################################################
# usrp is data source (receive path)
#
#########################################################################
rx = usrp.source_c (0, decim_rate)
rx.set_pga(0, 20) #[0, 20] in dB
#
-------------------------------------------------------------------------
# determine the daughterboard subdevice we're using
#
-------------------------------------------------------------------------
rx_subdev = usrp.selected_subdev(rx, rx_subdev_spec1)
print "Determining RX d'board %s" % (rx_subdev.side_and_name(),)
rx.set_mux(usrp.determine_rx_mux_value(rx, rx_subdev_spec1))
print "RX mux value: 0x%08x" % (0xFFFFFFFFL
& long(usrp.determine_rx_mux_value(rx, rx_subdev_spec1)))
rx.tune(0, rx_subdev, target_freq)
print "Decim rate: " + str(rx.decim_rate())
print "Rx freq: " + str(rx.rx_freq(0))
print "ADC freq: " + str(rx.adc_freq())
print "N Channels: " + str(rx.set_nchannels(1)) #1,2,3 or 4
#
#########################################################################
# build one signal source, interleave it, amplify and connect it to usrp
#
#########################################################################
src=gr.file_source(gr.sizeof_gr_complex,"/home/xx/test/gauss1012.dat",
False)
# type convertion
#convert = gr.float_to_complex ()
# and wire it up
#fg.connect(src, convert)
fg.connect(src, tx)
#
#########################################################################
# save receive signal as *.dat or *.txt
# The current day and time is the name of the saved data in the
subdirectory
#
#########################################################################
today = time.strftime('%Y%m%d')
# The current time
now = time.strftime('%H%M%S')
#head = gr.head(gr.sizeof_gr_complex, nsamples)
#dst=gr.file_sink(gr.sizeof_gr_complex, "/home/xx/test/" + today + now +
"tx.dat")
#fg.connect(src, head, dst)
head0 = gr.head(gr.sizeof_gr_complex, nsamples)
dst0=gr.file_sink(gr.sizeof_gr_complex, "/home/xx/test/" +today + now +
"rx.dat")
fg.connect(rx, head0, dst0)
return fg
###################
# main function #
###################
if __name__ == '__main__':
fg = build_graph()
fg.start()
raw_input('press Enter to quit: ')
fg.stop()
--
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