firmware: Analog read was to shaky, the number of read per millisecond is now increased to 20. meas.py: Some modifications to get the output more userfriendly. CSV output is implemented now.

This commit is contained in:
klaute 2016-09-21 20:02:58 +02:00
parent 8bc17c45c7
commit 7e9c8b086e
2 changed files with 55 additions and 18 deletions

View file

@ -222,8 +222,16 @@ void cc_startMeasurement()
{ {
// 3. on every loop read the analog input A0 and A1 for the in intervall (milliseconds) // 3. on every loop read the analog input A0 and A1 for the in intervall (milliseconds)
// and generate the average value, read the ADC value every milli second. // and generate the average value, read the ADC value every milli second.
a0_sum += analogRead(A0); uint8_t t = 0;
a1_sum += analogRead(A1); uint16_t ta0 = 0;
uint16_t ta1 = 0;
for (t = 0; t < 20; t++)
{
ta0 += analogRead(A0);
ta1 += analogRead(A1);
}
a0_sum += (ta0 / 20);
a1_sum += (ta1 / 20);
delay(1); delay(1);
} }

View file

@ -68,11 +68,6 @@ THREAD_LOOP_DELAY_S = 0.01
############################################################################### ###############################################################################
MUX_MIN_VAL = 0
MUX_MAX_VAL = 7
###############################################################################
ser = None ser = None
device = "/dev/ttyUSB0" device = "/dev/ttyUSB0"
@ -339,6 +334,18 @@ def sendSerialData(data):
############################################################################### ###############################################################################
def user_friendly_freq(f):
if f >= 1000000:
return str(f / 1000000.0) + " MHz"
elif f >= 1000:
return str(f / 1000.0) + " kHz"
return str(f) + " Hz"
###############################################################################
if __name__ == "__main__": if __name__ == "__main__":
start_freq = 0 start_freq = 0
@ -447,7 +454,7 @@ if __name__ == "__main__":
a0 += e[3][5] a0 += e[3][5]
a1 = e[3][6] << 8 a1 = e[3][6] << 8
a1 += e[3][7] a1 += e[3][7]
print "freq: " + str(freq) print "freq: " + user_friendly_freq(freq)
print "a0: " + str(a0) print "a0: " + str(a0)
print "a1: " + str(a1) print "a1: " + str(a1)
@ -471,11 +478,11 @@ if __name__ == "__main__":
intervall += e[3][13] intervall += e[3][13]
drive_str = e[3][14] drive_str = e[3][14]
print "start_freq = " + str(start_freq) print "start_freq = " + user_friendly_freq(start_freq)
print "end_freq = " + str(end_freq) print "end_freq = " + user_friendly_freq(end_freq)
print "step_freq = " + str(step_freq) print "step_freq = " + user_friendly_freq(step_freq)
print "intervall = " + str(intervall) print "intervall = " + str(intervall) + " ms"
print "drive_str = " + str(drive_str) print "drive_str = " + str((drive_str + 1) * 2) + " mA"
if args.start_meas == True and config_read == False: if args.start_meas == True and config_read == False:
dataSend = dataSend + 1 + ((end_freq - start_freq) / step_freq) dataSend = dataSend + 1 + ((end_freq - start_freq) / step_freq)
@ -489,20 +496,34 @@ if __name__ == "__main__":
meas_r = [] meas_r = []
meas_p = [] meas_p = []
min_vswr = [ 10, 0 ] # the default VSWR is 10 and the default freq is 0]
i = ((drive_str + 1) * 2.0) / 1000.0 i = ((drive_str + 1) * 2.0) / 1000.0
if args.output_file != None or args.show_graph == True: if args.output_file != None or args.show_graph == True:
for m in meas_data: for m in meas_data:
meas_freq.append(m[0]) meas_freq.append(m[0])
vswr = 0
if m[1] > m[2]: if m[1] > 0 and m[2] > 0:
meas_ratio.append(m[1] / m[2]) if m[1] > m[2]:
elif m[1] < m[2]: vswr = (m[1] / m[2])
meas_ratio.append(m[2] / m[1]) meas_ratio.append(vswr)
elif m[1] < m[2]:
vswr = (m[2] / m[1])
meas_ratio.append(vswr)
else:
vswr = 1
meas_ratio.append(1)
else: else:
vswr = 1
meas_ratio.append(1) meas_ratio.append(1)
if vswr < min_vswr[0]:
min_vswr[0] = vswr
min_vswr[1] = m[0] # the frequency
# R = meas_data[0] * 5V / 1023 * I # R = meas_data[0] * 5V / 1023 * I
r = (m[1] * 5.0 / 1023.0) / i r = (m[1] * 5.0 / 1023.0) / i
meas_r.append(r) meas_r.append(r)
@ -514,7 +535,13 @@ if __name__ == "__main__":
meas_p.append(0) meas_p.append(0)
if args.output_file != None: if args.output_file != None:
pass # TODO impl FILE = open(args.output_file, "w")
j = 0
for m in meas_ratio:
FILE.write("%f;%f;%f;%f;%f\n" % (meas_freq[j], m, meas_r[j], meas_p[j], i))
j = j + 1
FILE.close()
print "Output file " + args.output_file + " written."
if args.show_graph == True: if args.show_graph == True:
plt.plot(meas_freq, meas_ratio) plt.plot(meas_freq, meas_ratio)
@ -524,6 +551,8 @@ if __name__ == "__main__":
print "Please close the mathplot window to exit..." print "Please close the mathplot window to exit..."
plt.show() plt.show()
print "First minimum VSWR " + str(min_vswr[0]) + " found at freqency " + user_friendly_freq(min_vswr[1])
else: else:
print "err: unknown type 0x%02x" % (e[1]) print "err: unknown type 0x%02x" % (e[1])
break break