User Contributed                                           MET/CAL PROCEDURE
=============================================================================
INSTRUMENT:            Omega Omni-AmpяIII:DC Signal Amplifier
DATE:                  23-Jul-96
AUTHOR:                User Contributed
REVISION:
ADJUSTMENT THRESHOLD:  70%
NUMBER OF TESTS:       18
NUMBER OF LINES:       201
CONFIGURATION:         Fluke 5700A
CONFIGURATION:         Datron 1281
STANDARD:              Thermo Electric MM II (1)
STANDARD:              Thermo Electric MM II (2)
=============================================================================
 STEP    FSC    RANGE NOMINAL        TOLERANCE     MOD1        MOD2  3  4 CON
  1.001  ASK-   R     N              P             M              F        W
  1.002  ASK+                                          X
  1.003  OPBR         Is the MM II DTB number 25-30?
  1.004  JMPF         1.007
  1.005  STD          Thermo Electric MM II (1)
  1.006  JMP          1.008
  1.007  STD          Thermo Electric MM II (2)
  1.008  HEAD         НН INITIAL CONDITIONS НН
  1.009  DISP         Remove cover from UUT.
  1.010  DISP         Set the UUT for a GAIN X1000 setting by putting
  1.010  DISP         the internal jumper on W3. If the jumper is not already
  1.010  DISP         on W3, remove it from the position it is currently on
  1.010  DISP         (W4 or W5) and install it on W3.
  1.011  DISP         Plug UUT power supply transformer into wall outlet.
  1.012  HEAD         НН CCMR Adjustment НН
  1.013  DISP         яяя   яяConnect the UUT as follows:
  1.013  DISP         5700A V/к/A HI OUTPUT ДДДДДДДДДДДДД[16] UUT +SIG. IN
  1.013  DISP         5700A V/к/A HI OUTPUT ДДДДДДДДДДДДД[16] UUT -SIG. IN
  1.013  DISP         5700A V/к/A LO OUTPUT ДДДДДДДДДДДДД[16] UUT COMM.
  1.014  DISP         яяя   яяConnect the UUT as follows:
  1.014  DISP         UUT +SIG. OUT ДДДДДДДДДДДДДДДДДДДДД[16] DATRON HI
  1.014  DISP         UUT -SIG. OUT ДДДДДДДДДДДДДДДДДДДДД[16] DATRON LO
  1.015  IEEE         [@1281]*RST
  1.016  IEEE         [@1281]ACV AUTO,TFER_OFF
  1.017  5700         500mV                        60H                  S  2W
  1.018  DISP         Adjust UUT R18 for a minimum reading on the Datron.
  1.019  HEAD         {}
  1.020  HEAD         {ЙННННННННННННННН»}
  1.021  HEAD         {є DC Gain Tests є}
  1.022  HEAD         {ИНННННННННННННННј}
  1.023  HEAD         НН DC Gain Tests НН
  1.024  JMP          2.001
  1.025  EVAL
  2.001  DISP         яяя   яяConnect the UUT as follows:
  2.001  DISP         5700A V/к/A HI OUTPUT ДДДДДДДДДДДДД[16] UUT +SIG. IN
  2.001  DISP         5700A V/к/A LO OUTPUT ДДДДДДДДДДДДД[16] UUT -SIG. IN
  2.001  DISP         5700A GROUND/V-GUARD ДДДДДДДДДДДДДД[16] UUT COMM.
  2.002  DISP         Set the UUT to the GAIN X10 setting by putting
  2.002  DISP         the internal jumper on W5.
  2.003  IEEE         [@1281]*RST[D1000]
  2.004  IEEE         [@1281]DCV AUTO
  2.005  5700         0V                                                S  2W
  2.006  DISP         Adjust R23 ZERO on the UUT for 0mV
  2.006  DISP         reading on the Datron.
  2.007  5700         0.5000V                                           S  2W
  2.008  ACC          5.000V         0.001%
  2.009  IEEE         [@1281]RDG?[I]
  2.010  MEME
  2.011  MEMC         V              5%            x10
  3.001  DISP         Move the UUT jumper to W4 (X100).
  3.002  5700         0V                                                S  2W
  3.003  DISP         Adjust R23 ZERO on the UUT for 0mV
  3.003  DISP         reading on the Datron.
  3.004  5700         50.00mV                                           S  2W
  3.005  ACC          5.000V         0.001%
  3.006  IEEE         [@1281]RDG?[I]
  3.007  MEME
  3.008  MEMC         V              5%            x100
  4.001  DISP         Move the UUT jumper to W3 (X1000).
  4.002  5700         0V                                                S  2W
  4.003  DISP         Adjust R23 ZERO on the UUT for 0mV
  4.003  DISP         reading on the Datron.
  4.004  5700         5.00mV                                            S  2W
  4.005  ACC          5.000V         0.001%
  4.006  IEEE         [@1281]RDG?[I]
  4.007  MEME
  4.008  MEMC         V              5%            x1000
  5.001  HEAD         {}
  5.002  HEAD         {ЙНННННННННННННННННННН»}
  5.003  HEAD         {є Frequency Response є}
  5.004  HEAD         {ИННННННННННННННННННННј}
  5.005  HEAD         {X1000 Referenced to 100 Hertz}
  5.006  HEAD         НН Frequency Response НН
  5.007  ASK-                              U
  5.008  JMP          6.001
  5.009  EVAL
  6.001  IEEE         [@1281]ACV AUTO;DB ON
  6.002  5700         5.000mV                      100H           O     S  2W
  6.003  IEEE         [@1281]RDG?[D1000][I]
  6.004  MEME                                                     >1
  6.005  IEEE         [@1281]ACV AUTO,FILT10HZ
  6.006  5700         5.000mV                      10H            O     S  2W
  6.007  IEEE         [@1281][D3000]RDG?[I]
  6.008  MATH         MEM = MEM - M[1]
  6.009  MATH         MEM1 = 0
  6.010  MEME
  6.011  MEMC         D              3.00U         10H
  7.001  IEEE         [@1281]ACV AUTO,FILT100HZ
  7.002  5700         5.000mV                      400H           O     S  2W
  7.003  IEEE         [@1281][D3000]RDG?[I]
  7.004  MATH         MEM = MEM - M[1]
  7.005  MATH         MEM1 = 0
  7.006  MEME
  7.007  MEMC         D              3.00U         400H
  8.001  5700         5.000mV                      1000H          O     S  2W
  8.002  IEEE         [@1281][D3000]RDG?[I]
  8.003  MATH         MEM = MEM - M[1]
  8.004  MATH         MEM1 = 0
  8.005  MEME
  8.006  MEMC         D              3.00U         1000H
  9.001  HEAD         {}
  9.002  HEAD         {X100 Referenced to 1000 Hertz}
  9.003  HEAD         НН Frequency Response НН
  9.004  DISP         Move the UUT jumper to W4 (X100).
  9.005  5700         50.00mV                      1kH                  S  2W
  9.006  IEEE         [@1281]RDG?[D1000][I]
  9.007  MEME                                                     >1
  9.008  IEEE         [@1281]ACV AUTO,FILT10HZ
  9.009  5700         50.00mV                      10H                  S  2W
  9.010  IEEE         [@1281][D3000]RDG?[I]
  9.011  MATH         MEM = MEM - M[1]
  9.012  MATH         MEM1 = 0
  9.013  MEME
  9.014  MEMC         D              3.00U         10H
 10.001  IEEE         [@1281]ACV AUTO,FILT100HZ
 10.002  5700         50.00mV                      400H                 S  2W
 10.003  IEEE         [@1281][D3000]RDG?[I]
 10.004  MATH         MEM = MEM - M[1]
 10.005  MATH         MEM1 = 0
 10.006  MEME
 10.007  MEMC         D              3.00U         400H
 11.001  5700         50.00mV                      5000H                S  2W
 11.002  IEEE         [@1281][D3000]RDG?[I]
 11.003  MATH         MEM = MEM - M[1]
 11.004  MATH         MEM1 = 0
 11.005  MEME
 11.006  MEMC         D              3.00U         5kH
 12.001  5700         50.00mV                      10000H               S  2W
 12.002  IEEE         [@1281][D3000]RDG?[I]
 12.003  MATH         MEM = MEM - M[1]
 12.004  MATH         MEM1 = 0
 12.005  MEME
 12.006  MEMC         D              3.00U         10kH
 13.001  HEAD         {}
 13.002  HEAD         {X10 Referenced to 1000 Hertz}
 13.003  HEAD         НН Frequency Response НН
 13.004  DISP         Move the UUT jumper to W5 (X10).
 13.005  5700         500.0mV                      1kH                  S  2W
 13.006  IEEE         [@1281]RDG?[D1000][I]
 13.007  MEME                                                     >1
 13.008  IEEE         [@1281]ACV AUTO,FILT10HZ
 13.009  5700         500.0mV                      10H                  S  2W
 13.010  IEEE         [@1281][D3000]RDG?[I]
 13.011  MATH         MEM = MEM - M[1]
 13.012  MATH         MEM1 = 0
 13.013  MEME
 13.014  MEMC         D              3.00U         10H
 14.001  IEEE         [@1281]ACV AUTO,FILT100HZ
 14.002  5700         500.0mV                      400H                 S  2W
 14.003  IEEE         [@1281][D3000]RDG?[I]
 14.004  MATH         MEM = MEM - M[1]
 14.005  MATH         MEM1 = 0
 14.006  MEME
 14.007  MEMC         D              3.00U         400H
 15.001  5700         500.0mV                      5000H                S  2W
 15.002  IEEE         [@1281][D3000]RDG?[I]
 15.003  MATH         MEM = MEM - M[1]
 15.004  MATH         MEM1 = 0
 15.005  MEME
 15.006  MEMC         D              3.00U         5kH
 16.001  5700         500.0mV                      10000H               S  2W
 16.002  IEEE         [@1281][D3000]RDG?[I]
 16.003  MATH         MEM = MEM - M[1]
 16.004  MATH         MEM1 = 0
 16.005  MEME
 16.006  MEMC         D              3.00U         10kH
 17.001  HEAD         НН Temperature Transducer AdjustmentНН
 17.002  JMP          18.001
 17.003  EVAL
 18.001  DISP         яяя   яяConnect the UUT as follows:
 18.001  DISP         UUT -SIG. OUT ДДДДДДДДДДДДДДДДДДДДД[16] UUT SIG. SEL
 18.002  DISP         Using an unsheathed thermocouple probe, measure the
 18.002  DISP         temperature of the UUT temperature transducer, by taping
 18.002  DISP         the probe tip directly to the body of the transducer.
 18.002  DISP
 18.002  DISP         The temperature transducer is located next
 18.002  DISP         to the +SIG. IN terminal on the UUT.
 18.003  MEMI         Enter the measured temperature of the transducer.
 18.004  MATH         mem1= (mem+273)*2
 18.005  DISP         Adjust the R24 in the UUT for a reading
 18.005  DISP         of [mem1] millivolts.
 18.006  HEAD         {}
 18.007  DISP         {ЙННННННННННННННННННННННННННННННННН»}
 18.007  DISP         {є THIS COMPLETES THE VERIFICATION є}
 18.007  DISP         {ИНННННННННННННННННННННННННННННННННј}
 18.008  END