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#!/usr/bin/env python
#
# This is mrfm_fft_sos.py
# Modification of Matt's mrfm_fft.py that reads filter coefs from file
#
# Copyright 2004,2005 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 version 2, 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.
#
from gnuradio import gr, gru
from gnuradio import usrp
class source_c(usrp.source_c):
def __init__(self,fpga_filename):
usrp.source_c.__init__(self,which=0, decim_rate=64, nchan=2, mux=0x32103210, mode=0,
fpga_filename=fpga_filename)
self._write_9862(0,2,0x80) # Bypass ADC buffer, minimum gain
self._write_9862(0,3,0x80) # Bypass ADC buffer, minimum gain
self._write_9862(0,8,0) # TX PWR Down
self._write_9862(0,10,0) # DAC offset
self._write_9862(0,11,0) # DAC offset
self._write_9862(0,14,0x80) # gain
self._write_9862(0,16,0xff) # pga
self._write_9862(0,18,0x0c) # TX IF
self._write_9862(0,19,0x01) # TX Digital
self._write_9862(0,20,0x00) # TX Mod
# max/min values are +/-2, so scale is set to make 2 = 32767
self._write_fpga_reg(69,0x0e) # debug mux
self._write_fpga_reg(5,-1)
self._write_fpga_reg(7,-1)
self._write_oe(0,0xffff, 0xffff)
self._write_oe(1,0xffff, 0xffff)
self._write_fpga_reg(14,0xf)
self.decim = None
def set_coeffs(self,frac_bits,b20,b10,b00,a20,a10,b21,b11,b01,a21,a11):
def make_val(address,value):
return (address << 16) | (value & 0xffff)
# gain, scale already included in a's and b's from file
self._write_fpga_reg(67,make_val(1,b20))
self._write_fpga_reg(67,make_val(2,b10))
self._write_fpga_reg(67,make_val(3,b00))
self._write_fpga_reg(67,make_val(4,a20))
self._write_fpga_reg(67,make_val(5,a10))
self._write_fpga_reg(67,make_val(7,b21))
self._write_fpga_reg(67,make_val(8,b11))
self._write_fpga_reg(67,make_val(9,b01))
self._write_fpga_reg(67,make_val(10,a21))
self._write_fpga_reg(67,make_val(11,a11))
self._write_fpga_reg(68,frac_bits) # Shift
print "Biquad 0 : b2=%d b1=%d b0=%d a2=%d a1=%d" % (b20,b10,b00,a20,a10)
print "Biquad 1 : b2=%d b1=%d b0=%d a2=%d a1=%d" % (b21,b11,b01,a21,a11)
def set_decim_rate(self,rate=None):
i=2
turn=1
a=1
b=1
while (rate>1) and (i<257):
if (rate/i) * i == rate:
if turn == 1:
if a*i<257:
a = a * i
turn = 0
elif b*i<257:
b = b * i
turn = 0
else:
print "Failed to set DECIMATOR"
return self.decim
elif b*i<257:
b = b * i
turn = 1
elif a*i<257:
a = a * i
turn = 1
else:
print "Failed to set DECIMATOR"
return self.decim
rate=rate/i
continue
i = i + 1
if rate > 1:
print "Failed to set DECIMATOR"
return self.decim
else:
self.decim = a*b
print "a = %d b = %d" % (a,b)
self._write_fpga_reg(64,(a-1)*256+(b-1)) # Set actual decimation
def decim_rate(self):
return self.decim
def set_center_freq(self,freq):
self._write_fpga_reg(65,int(-freq/64e6*65536*65536)) # set center freq
def set_compensator(self,a11,a12,a21,a22,shift):
self._write_fpga_reg(70,a11)
self._write_fpga_reg(71,a12)
self._write_fpga_reg(72,a21)
self._write_fpga_reg(73,a22)
self._write_fpga_reg(74,shift) # comp shift
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