bmarechal / datalogger

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instruments/T7Pro.py 5.01 KB
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  from abstract_instrument import abstract_instrument
  from labjack import ljm
  import numpy
  
  #==============================================================================
  
  ALL_VAL_TYPE = "TEMP, RES"
  
  #==============================================================================
  
  class T7Pro(abstract_instrument):
      def __init__(self, adress="192.168.0.26", vtype="TEMP"):
          self.adress = adress
          self.vtype = vtype
          self.names = ["TEMPERATURE_AIR_K",
               "CURRENT_SOURCE_200UA_CAL_VALUE",
               "AIN0",# "AIN1",
               "AIN2",# "AIN3",
               "AIN4",# "AIN5",
               "AIN6",# "AIN7"
               ]
  
      def model(self):
          return 'T7Pro'
  
      def connect(self):
          try:
              print('Connecting to device @%s...' %(self.adress))
              self.handle = ljm.openS("T7", "ETHERNET", self.adress)
              self.configureAINs()
              print('  --> Ok')
  
              print(self.model())
  
              if self.vtype == "TEMP":
                  1
              elif self.vtype == "RES":
                  1
              else:
                  print("Wrong -v argument")
                  raise
  
          except Exception as er:
              print("Unexpected error during connection: " + str(er))
              raise
  
      def getValue(self):
          results = self.read(self.names)
          temp = results[0]
          res1 = results[2]/results[1]
          res2 = results[3]/results[1]
          res3 = results[4]/results[1]
          res4 = results[5]/results[1]
  
          if self.vtype == 'TEMP':
              # Temperature calculation
              temp1 = self.res2tempSensor(628, res1)
              temp2 = self.res2tempSensor(16947, res2)
              temp3 = self.res2tempSensor(625, res3)
              temp4 = self.res2tempSensor(100, res4)
              string = '%f\t%f\t%f\t%f\t%f
  '%(temp, temp1, temp2, temp3, temp4)
          elif self.vtype == 'RES':
              string =  '%f\t%f\t%f\t%f\t%f
  '%(temp, res1, res2, res3, res4)
          else:
              string = ''
  
          return string
  
      def read(self, names):
          return ljm.eReadNames(self.handle, len(names), names)
  
      def disconnect(self):
          ljm.close(self.handle)
  
      def send(self, command):
          pass
  
      def configureAINs(self):
      # Setup and call eWriteNames to configure AINs on the LabJack.
          names = ["AIN0_NEGATIVE_CH", "AIN0_RANGE", "AIN0_RESOLUTION_INDEX",
           #"AIN1_NEGATIVE_CH", "AIN1_RANGE", "AIN1_RESOLUTION_INDEX",
           "AIN2_NEGATIVE_CH", "AIN2_RANGE", "AIN2_RESOLUTION_INDEX",
           #"AIN3_NEGATIVE_CH", "AIN3_RANGE", "AIN3_RESOLUTION_INDEX",
           "AIN4_NEGATIVE_CH", "AIN4_RANGE", "AIN4_RESOLUTION_INDEX",
           #"AIN5_NEGATIVE_CH", "AIN5_RANGE", "AIN5_RESOLUTION_INDEX",
           "AIN6_NEGATIVE_CH", "AIN6_RANGE", "AIN6_RESOLUTION_INDEX",
           #"AIN7_NEGATIVE_CH", "AIN7_RANGE", "AIN7_RESOLUTION_INDEX"
           ]
          l_names = len(names)
          aValues = [1, 1, 12,
                     #199, 0.01, 0,
                     3, 1, 12,
                     #199, 0.01, 0,
                     5, 1, 12,
                     #199, 0.01, 0,
                     7, 0.1, 12,
                     #199, 0.01, 0
                     ]
          ljm.eWriteNames(self.handle, l_names, names, aValues)
  #        print("
  Set configuration:")
  #        for i in range(len(names)):
  #            print("    %s : %f" % (names[i], aValues[i]))
  
      def res2tempSensor(self, sensor, res):
          if sensor==627:
              K = [0.399341181655472610,
                   10.8420092277810909,
                   -26.4597939187660813,
                   245.9828566655493379,
                   -668.069876596331596,
                   1001.69882618263364,
                   -267.272089680656791]
          if sensor==625:
              K = [0.333548856582638109,
                   11.7361551595386118,
                   -31.32988932320903987,
                   262.878643524833024,
                   -704.163538021035492,
                   1056.6040485650301,
                   -307.057196729816496]
          if sensor==628:
              K = [0.463200932294057566,
                   13.5049710820894688,
                   -30.5191222755238414,
                   231.098593852017075,
                   -550.122691885568202,
                   806.038547554984689,
                   -198.510489917360246]
          if sensor==16945:
              K = [3.2497, 5.1777, 2.499]
          if sensor==16943:
              K = [3.4738, 5.1198, 2.3681]
          if sensor==16944:
              K = [3.3674, 5.2874, 2.5165]
          if sensor==16941:
              K = [2.9486, 4.5862, 2.266]
          if sensor==16947:
              K = [3.4597, 5.2422, 2.4169]
          if sensor==100:
              K = [0.003850]
          return self.res2temp(K, res)
  
      def res2temp(K, res):
          temp = 0
          tmp = 1000./res
          if len(K)==7:
              for i in range(len(K)):
                  temp += K[i]*tmp**i
          if len(K)==3:
              for i in range(len(K)):
                  temp += K[i]*numpy.log10(tmp)**(2-i)
              temp = 10**temp
          if len(K)==1:
              temp = (res/100.-1)/K[0]+273.15
          return temp