User Contributed MET/CAL PROCEDURE ============================================================================= INSTRUMENT: Sub HP 54501A: OA I3E DATE: 19-Jul-94 AUTHOR: User Contributed REVISION: 1.0 ADJUSTMENT THRESHOLD: 70% NUMBER OF TESTS: 7 NUMBER OF LINES: 104 CONFIGURATION: Fluke 5700A ============================================================================= STEP FSC RANGE NOMINAL TOLERANCE MOD1 MOD2 3 4 CON # Use of the R flag may not be desired and the W flag may be changed to V. 1.001 ASK+ B 1.002 ASK- R N P J F W 1.003 5700 * S # # 1.004 HEAD [27][91]1m{Channel 1 Offset Amplitude} 1.005 IEEE :MENU CHAN;*RST;*RST;:DISP:GRAT GRID 1.006 IEEE :ACQ:TYPE AVER;:ACQ:COUN 32 1.007 IEEE :CHAN1:RANG .8;:CHAN1:OFFS 1 1.008 DISP 2. Use a bannana to BNC adapter and cable to connect 1.008 DISP the 5700A to the UUT channel 1 input.[7] 1.009 MESS Readjust the 5700A so the trace is as close to the 1.009 MESS horizontal center line of the graticule as possible 1.009 MESS after it has settled(averaging complete). 1.010 MATH MEM1 = 1000.0 1.011 5700 1000mV N 2W 1.012 MEME 1.013 MEMC mV 40U # # 2.001 HEAD [27][91]1m{Channel 2 Offset Amplitude} 2.002 IEEE :SYST:KEY 11;:SYST:KEY 10;:SYST:KEY 11 2.003 IEEE :CHAN2:RANG .8;:CHAN2:OFFS 1 2.004 DISP 2. Use a bannana to BNC adapter and cable to connect 2.004 DISP the 5700A to the UUT channel 2 input.[7] 2.005 MESS Readjust the 5700A so the trace is as close to the 2.005 MESS horizontal center line of the graticule as possible 2.005 MESS after it has settled(averaging complete). 2.006 MATH MEM1 = 1000.0 2.007 5700 1000mV N 2W 2.008 MEME 2.009 MEMC mV 40U # # 3.001 HEAD [27][91]1m{Channel 3 Offset Amplitude} 3.002 IEEE :SYST:KEY 11;:SYST:KEY 10;:SYST:KEY 11 3.003 IEEE :CHAN3:RANG .8;:CHAN3:OFFS 1 3.004 DISP 2. Use a bannana to BNC adapter and cable to connect 3.004 DISP the 5700A to the UUT channel 3 input.[7] 3.005 MESS Readjust the 5700A so the trace is as close to the 3.005 MESS horizontal center line of the graticule as possible 3.005 MESS after it has settled(averaging complete). 3.006 MATH MEM1 = 1000.0 3.007 5700 1000mV N 2W 3.008 MEME 3.009 MEMC mV 40U # # 4.001 HEAD [27][91]1m{Channel 4 Offset Amplitude} 4.002 IEEE :SYST:KEY 11;:SYST:KEY 10;:SYST:KEY 11 4.003 IEEE :CHAN4:RANG .8;:CHAN4:OFFS 1 4.004 DISP 2. Use a bannana to BNC adapter and cable to connect 4.004 DISP the 5700A to the UUT channel 4 input.[7] 4.005 MESS Readjust the 5700A so the trace is as close to the 4.005 MESS horizontal center line of the graticule as possible 4.005 MESS after it has settled(averaging complete). 4.006 MATH MEM1 = 1000.0 4.007 5700 1000mV N 2W 4.008 MEME 4.009 MEMC mV 40U # # 5.001 HEAD [27][91]1m{Channel 4 Offset Amplitude - 5mV/DIV} 5.002 IEEE :CHAN4:RANG .04;:CHAN4:OFFS .05 5.003 MESS Readjust the 5700A so the trace is as close to the 5.003 MESS horizontal center line of the graticule as possible 5.003 MESS after it has settled(averaging complete). 5.004 MATH MEM1 = 50.0 5.005 5700 50mV N 2W 5.006 MEME 5.007 MEMC mV 3U # # 6.001 HEAD [27][91]1m{Channel 1 Offset Amplitude - 5mV/DIV} 6.002 IEEE :SYST:KEY 11;:SYST:KEY 10;:SYST:KEY 11 6.003 IEEE :CHAN1:RANG .04;:CHAN1:OFFS .05 6.004 DISP 2. Use a bannana to BNC adapter and cable to connect 6.004 DISP the 5700A to the UUT channel 1 input.[7] 6.005 MESS Readjust the 5700A so the trace is as close to the 6.005 MESS horizontal center line of the graticule as possible 6.005 MESS after it has settled(averaging complete). 6.006 MATH MEM1 = 50.0 6.007 5700 50mV N 2W 6.008 MEME 6.009 MEMC mV 3U # # 7.001 IEEE :MENU CHAN;*RST;*RST;:DISP:GRAT GRID;:SYST:KEY 39 7.002 5700 * S 7.003 MESS 7.004 END