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2025-02-16 22:49:36 +01:00 · 2025-02-16 22:49:36 +01:00 · 0a4dcca1c6
commit 0a4dcca1c6
1 changed files with 143 additions and 0 deletions
--- a/NV-Scan.py
+++ b/NV-Scan.py
@ -0,0 +1,143 @@
+
+import time
+import os
+import GPIBPrologix
+import csv
+import datetime
+import bme280
+import smbus2
+
+NUMMEAS = 3
+NUMSAMPLES = 20
+NUMCHANNELS = 7
+NULLINGCHANNEL = 7
+SCANNERSLOT = 2
+BASESAVENAME = "Prod_VoltageBankLog_Ch"
+
+bus = smbus2.SMBus(1)
+calibration_params = bme280.load_calibration_params(bus, 0x76)
+GPIB = GPIBPrologix.ResourceManager("/dev/ttyACM0")
+inst2 = GPIB.open_resource(29)
+inst1 = GPIB.open_resource(28)
+
+def openCloseGPIB(openClose):
+    global GPIB
+    global inst1
+    global inst2
+    if openClose == "close":
+        GPIB.close
+    elif openClose == "open":
+        GPIB = GPIBPrologix.ResourceManager("/dev/ttyACM0")
+        inst2 = GPIB.open_resource(29)
+        inst1 = GPIB.open_resource(28)
+
+def getEnvironment(instObj, i2cbus):
+    value = instObj.sample(i2cbus, 0x76, calibration_params)
+    return value
+
+def closeChannel(instObj, scannerCardSlot, channel):
+    print("----- Closing channel: "+str(channel)+" on slot: "+str(scannerCardSlot)+" -----")
+    instObj.write(":ROUTe:CLOSe (@ "+str(scannerCardSlot)+"!"+str(channel)+")")
+
+def openChannel(instObj, scannerCardSlot, channel = 9):
+    if channel >= 9:
+        instObj.write(":ROUTe:OPEN ALL")
+
+def readNVM(instObj):
+    # dummy reading for auto range
+    instObj.write("I1,"+str(1)+"X")
+    instObj.write("H0X")
+    time.sleep(2)
+    print("Selected range from dummy reading: ")
+    # Set amount of samples
+    instObj.write("I1,"+str(NUMSAMPLES)+"X")
+    instObj.write("H0X")
+    #openCloseGPIB("close")
+    time.sleep(NUMSAMPLES*0.55)
+    #openCloseGPIB("open")
+    instObj.write("F2X")
+    output = instObj.read().split(',')
+    output = map(float, output)
+    return (list(output))
+
+def getMeanSTDev(values):
+    mean = sum(values)/len(values)
+    variance = sum([(x - mean) ** 2 for x in values]) / (len(values) - 1)
+    stddev = variance ** 0.5
+    #print(mean,variance,stddev)
+    return mean, stddev
+
+# NVM Setup
+inst2.write("R0B1X")   # auto range
+inst2.write("K2X")
+inst2.write("O0P0N0W0X")
+inst2.write("S2X")
+inst2.write("T8X")     #manual trigger
+inst2.write("F2X")     #All readings from buffer
+inst2.write("G0X")
+inst2.write("W1000X")  #1s trigger delay
+
+# Scanner setup
+inst1.write("*RST")
+inst1.write(":ROUTe:CONFigure:SLOT1:CTYPe C7058")
+inst1.write(":ROUTe:CONFigure:SLOT2:CTYPe C7168")
+inst1.write(":ROUTe:CONFigure:SLOT2:POLE 2")
+inst1.write(":ROUTe:OPEN ALL")
+inst1.write(":DISP:ENAB 1")
+inst1.write(":DISP:WIND1:TEXT:DATA ' '")
+inst1.write(":DISP:WIND1:TEXT:STAT 1")
+inst1.write(":DISP:WIND2:TEXT:DATA ' '")
+inst1.write("DISP:WIND2:TEXT:STAT 1")
+
+readings = []
+
+for i in range(NUMCHANNELS):
+    # get the nulled channel value
+    closeChannel(inst1, SCANNERSLOT, NULLINGCHANNEL)
+    print("NULLING...")
+    nullMeanStats   = []
+    nullStddevStats = []
+    for nulling in range(NUMMEAS):
+        nullReadings = readNVM(inst2)
+        nullMean, nullStddev = getMeanSTDev(nullReadings)
+        nullMeanStats.append(nullMean)
+        nullStddevStats.append(nullStddev)
+    openChannel(inst1, SCANNERSLOT, 9)
+
+    # read value
+    closeChannel(inst1, SCANNERSLOT, i+1)
+    MeanStats   = []
+    StddevStats = []
+    for nulling in range(NUMMEAS):
+        Readings = readNVM(inst2)
+        Mean, Stddev = getMeanSTDev(Readings)
+        MeanStats.append(Mean)
+        StddevStats.append(Stddev)
+    openChannel(inst1, SCANNERSLOT, 9)
+
+    # compensate for nulling
+    meanNull, x          = getMeanSTDev(nullMeanStats)
+    stddevNull, x        = getMeanSTDev(nullMeanStats)
+    meanMeas, x          = getMeanSTDev(MeanStats)
+    stddevMeas, x        = getMeanSTDev(StddevStats)
+    meanCompensated      = meanMeas - meanNull
+    stddevCompensated    = stddevMeas + stddevNull
+    d     = datetime.datetime.now()
+    dx    = d - datetime.timedelta(microseconds=d.microsecond)
+    data  = getEnvironment(bme280, bus)
+    fields=[dx.strftime("%d-%m-%y %H:%M:%S"),i+1,round(meanNull,10),round(stddevNull,10),round(meanMeas,10),round(stddevMeas,10),round(meanCompensated,10),round(stddevCompensated,10),round(data.humidity,2),round(data.temperature,2),round(data.pressure,2)]
+    print(fields)
+
+    if not os.path.exists("data/"):
+        os.makedirs("data/")
+    if not os.path.exists("data/"+BASESAVENAME+str(i+1)+".csv"):
+        with open("data/"+BASESAVENAME+str(i+1)+".csv", 'w') as file:
+            file.writelines("DateTime;Channel;NullingMean;NullingStddev;MeasuredMean;MeasuredStddev;CompensatedMean;CompensatedStddev;EnvHumidity;EnvTemperature;EnvPressure")
+    else:
+        with open("data/"+BASESAVENAME+str(i+1)+".csv", 'a') as f:
+            writer = csv.writer(f)
+            writer.writerow(fields)
+#inst1.write(":DISP:ENAB 0")
+inst2.write("A1,''X")
+#inst1.write(":DISP:TEXT:STAT 0")
+GPIB.close()