Fluke MET/CAL Procedure ============================================================================= INSTRUMENT: Fluke 2645A NetDAQ: (1 year) CAL VER RS-232C /5500 INSTRUMENT: Fluke 2646A NetDAQ: (1 year) CAL VER RS-232C /5500 DATE: 24-Feb-98 AUTHOR: Fluke Corporation REVISION: $Revision: 1.9 $ ADJUSTMENT THRESHOLD: 70% NUMBER OF TESTS: 32 NUMBER OF LINES: 254 CONFIGURATION: Fluke 5500A ============================================================================= # # Source: # This procedure is based on the verification procedure in the User's Manual # dated May 1994. # # Compatibility: # 5500/CAL 4.0 or MET/CAL 4.0 or later # # Subprocedures: # None # # Required Files: # INI_VAL.exe Executable: Gets value of "port=" from METCAL.INI # # Fluke makes no warranty, expressed or implied, as to the fitness # or suitability of this procedure in the customer's application. # STEP FSC RANGE NOMINAL TOLERANCE MOD1 MOD2 3 4 CON 1.001 ASK- R Q N P F W 1.002 HEAD EQUIPMENT SETUP 1.003 DISP [32] WARNING 1.003 DISP HIGH VOLTAGE is used or exposed during the performance 1.003 DISP of this calibration. DEATH ON CONTACT may result if 1.003 DISP personnel fail to observe safety precautions. 1.004 DISP Connect the UUT to an AC power source. 1.004 DISP Turn the UUT on. 1.004 DISP Warm-up time: 30 minutes. 1.004 DISP Ambient temperature: 18C - 28C. 1.004 DISP Relative humidity: less than 70%. 1.005 DOS ini_val metcal.ini startup port 1.006 MATH S[1] = MEM2 1.007 MATH MEM1 = CMPI(MEM2, "COM5500") 1.008 JMPT 1.011 1.009 DISP Connect the UUT [MEM2] using a null-modem cable. 1.010 JMP 1.012 1.011 DISP Connect the UUT to the 5500A's UUT Serial Port 1.011 DISP using a straight-through 9 pin RS-232 cable. 1.012 DISP To select the proper RS-232C parameter on NetDAQ press 1.012 DISP COMM (HOLD 3 Seconds). Use the up and down arrows 1.012 DISP to make the following selection and then press ENTER. 1.012 DISP 1.012 DISP [32] 4800 baud 1.013 HEAD PERFORMING SELF TEST... (~10s) 1.014 PORT [P4800,N,8,1,H][T20000] 1.015 PORT [CLR]*TST?[10][D5000][I] 1.016 MATH MEM1 = MEM 1.017 JMPZ 1.020 1.018 HEAD SELF TEST FAILED: STATUS = [MEM] 1.019 JMP 32.001 1.020 HEAD EQUIPMENT SETUP 1.021 DISP *************************************************** 1.021 DISP 1.021 DISP To reduce noise pickup by test leads, particularly 1.021 DISP during high Ohms verification, use shielded test 1.021 DISP cables between the Fluke 5500A and NetDAQ. 1.021 DISP 1.021 DISP *************************************************** 1.022 DISP Make the following connections to the NetDAQ: 1.022 DISP [32] 5500A NORMAL HI to Input Module CH1 HI 1.022 DISP [32] 5500A NORMAL LO to Input Module CH1 LO 1.023 RSLT = 1.024 JMP 2.001 1.025 EVAL dummy 2.001 HEAD {DIRECT VOLTAGE PERFORMANCE VERIFICATION} 2.002 PORT FUNC 1,VDC,1[10] 2.003 5500 0.00mV S 2W 2.004 PORT [CLR]MEAS?[10][I] 2.005 MATH MEM = MEM * 1000 2.006 MEME 2.007 MEMC 300 mV 0.05U 3.001 5500 300.00mV S 2W 3.002 PORT [CLR]MEAS?[10][I] 3.003 MATH MEM = MEM * 1000 3.004 MEME 3.005 MEMC 300 mV 0.09U 4.001 5500 -300.00mV S 2W 4.002 PORT [CLR]MEAS?[10][I] 4.003 MATH MEM = MEM * 1000 4.004 MEME 4.005 MEMC 300 mV 0.09U 5.001 PORT FUNC 1,VDC,2[10] 5.002 5500 0.0000V S 2W 5.003 PORT [CLR]MEAS?[10][I] 5.004 MEME 5.005 MEMC 3 V 0.0004U 6.001 5500 3.0000V S 2W 6.002 PORT [CLR]MEAS?[10][I] 6.003 MEME 6.004 MEMC 3 V 0.0008U 7.001 5500 -3.0000V S 2W 7.002 PORT [CLR]MEAS?[10][I] 7.003 MEME 7.004 MEMC 3 V 0.0008U 8.001 PORT FUNC 1,VDC,3[10] 8.002 5500 0.000V S 2W 8.003 PORT [CLR]MEAS?[10][I] 8.004 MEME 8.005 MEMC 30 V 0.004U 9.001 5500 30.000V S 2W 9.002 PORT [CLR]MEAS?[10][I] 9.003 MEME 9.004 MEMC 30 V 0.008U 10.001 5500 -30.000V S 2W 10.002 PORT [CLR]MEAS?[10][I] 10.003 MEME 10.004 MEMC 30 V 0.008U 11.001 PORT FUNC 1,VDC,4[10] 11.002 5500 0.000V S 2W 11.003 PORT [CLR]MEAS?[10][I] 11.004 MEME 11.005 MEMC 50 V 0.04U 12.001 5500 32.00V S 2W 12.002 PORT [CLR]MEAS?[10][I] 12.003 MEME 12.004 MEMC 50 V 0.04U 13.001 5500 -32.00V S 2W 13.002 PORT [CLR]MEAS?[10][I] 13.003 MEME 13.004 MEMC 50 V 0.04U 14.001 PORT FUNC 1,VDC,5[10] 14.002 5500 0.000mV S 2W 14.003 PORT [CLR]MEAS?[10][I] 14.004 MATH MEM = MEM * 1000 14.005 MEME 14.006 MEMC 90 mV 0.023U 15.001 5500 90.000mV S 2W 15.002 PORT [CLR]MEAS?[10][I] 15.003 MATH MEM = MEM * 1000 15.004 MEME 15.005 MEMC 90 mV 0.035U 16.001 5500 -90.000mV S 2W 16.002 PORT [CLR]MEAS?[10][I] 16.003 MATH MEM = MEM * 1000 16.004 MEME 16.005 MEMC 90 mV 0.035U 17.001 PORT FUNC 1,VDC,6[10] 17.002 5500 750.00mV S 2W 17.003 PORT [CLR]MEAS?[10][I] 17.004 MATH MEM = MEM * 1000 17.005 MEME 17.006 MEMC 750 mV 0.22U 18.001 5500 * S 18.002 RSLT = 18.003 HEAD {ALTERNATING VOLTAGE PERFORMANCE VERIFICATION} 18.004 PORT FUNC 1,VAC,1[10] 18.005 5500 20.00mV 1kH SI S 2W 18.006 PORT [CLR]MEAS?[10][I] 18.007 MATH MEM = MEM * 1000 18.008 MEME 18.009 MEMC 300 mV 0.3U 1kH 19.001 5500 20.00mV 100kH SI S 2W 19.002 PORT [CLR]MEAS?[10][I] 19.003 MATH MEM = MEM * 1000 19.004 MEME 19.005 MEMC 300 mV 1.5U 100kH 20.001 5500 300.00mV 1kH SI S 2W 20.002 PORT [CLR]MEAS?[10][I] 20.003 MATH MEM = MEM * 1000 20.004 MEME 20.005 MEMC 300 mV 1.15U 1kH 21.001 5500 300.00mV 100kH SI S 2W 21.002 PORT [CLR]MEAS?[10][I] 21.003 MATH MEM = MEM * 1000 21.004 MEME 21.005 MEMC 300 mV 15.5U 100kH 22.001 PORT FUNC 1,VAC,2[10] 22.002 5500 3.0000V 1kH SI S 2W 22.003 PORT [CLR]MEAS?[10][I] 22.004 MEME 22.005 MEMC 3 V 0.0115U 1kH 23.001 PORT FUNC 1,VAC,3[10] 23.002 5500 30.000V 1kH SI S 2W 23.003 PORT [CLR]MEAS?[10][I] 23.004 MEME 23.005 MEMC 30 V 0.115U 1kH 24.001 5500 * S 24.002 RSLT = 24.003 HEAD {RESISTANCE PERFORMANCE VERIFICATION} 24.004 DISP Make the following connections to the NetDAQ: 24.004 DISP [32] 5500A NORMAL HI to Input Module CH1 HI 24.004 DISP [32] 5500A NORMAL LO to Input Module CH1 LO 24.004 DISP [32] 5500A AUX HI to Input Module CH11 HI 24.004 DISP [32] 5500A AUX LO to Input Module CH11 LO 24.005 PORT FUNC 1,OHMS,1,4[10] 24.006 5500 0.00Z S 4W 24.007 PORT [CLR]MEAS?[10][I] 24.008 MEME 24.009 MEMC 300 Z 0.1U 25.001 5500 190.00Z S 4W 25.002 PORT [CLR]MEAS?[10][I] 25.003 MEME 25.004 MEMC 300 Z 0.14U 26.001 PORT FUNC 1,OHMS,2,4[10] 26.002 5500 0.0000kZ S 4W 26.003 PORT [CLR]MEAS?[10][I] 26.004 MATH MEM = MEM / 1000 26.005 MEME 26.006 MEMC 3 kZ 0.001U 27.001 5500 1.9000kZ S 4W 27.002 PORT [CLR]MEAS?[10][I] 27.003 MATH MEM = MEM / 1000 27.004 MEME 27.005 TOL 0.0014U 27.006 MEMC 3 kZ TOL 28.001 PORT FUNC 1,OHMS,3,4[10] 28.002 5500 19.000kZ S 4W 28.003 PORT [CLR]MEAS?[10][I] 28.004 MATH MEM = MEM / 1000 28.005 MEME 28.006 MEMC 30 kZ 0.014U 29.001 5500 * S 29.002 DISP Make the following connections to the NetDAQ: 29.002 DISP [32] 5500A NORMAL HI to Input Module CH1 HI 29.002 DISP [32] 5500A NORMAL LO to Input Module CH1 LO 29.002 DISP [32] 5500A NORMAL HI to Input Module CH11 HI 29.002 DISP [32] 5500A NORMAL LO to Input Module CH11 LO 29.003 PORT FUNC 1,OHMS,4,4[10] 29.004 5500 190.00kZ S 2W 29.005 PORT [CLR]MEAS?[10][I] 29.006 MATH MEM = MEM / 1000 29.007 MEME 29.008 MEMC 300 kZ 0.1U 30.001 PORT FUNC 1,OHMS,5,4[10] 30.002 5500 1.9000MZ S 2W 30.003 PORT [CLR]MEAS?[10][I] 30.004 MATH MEM = MEM / 1000000 30.005 MEME 30.006 MEMC 3 MZ 0.0021U 31.001 5500 * S 31.002 RSLT = 31.003 HEAD {FREQUENCY PERFORMANCE VERIFICATION} 31.004 DISP Make the following connections to the NetDAQ: 31.004 DISP [32] 5500A NORMAL HI to Input Module CH1 HI 31.004 DISP [32] 5500A NORMAL LO to Input Module CH1 LO 31.005 PORT FUNC 1,FREQ,3[10] 31.006 5500 10.000kH 1.0V SI S 2W 31.007 PORT [CLR]MEAS?[10][I] 31.008 MATH MEM = MEM / 1000 31.009 MEME 31.010 MEMC 90 kH 0.006U 32.001 END