Fluke MET/CAL Procedure ============================================================================= INSTRUMENT: Tek 2201: (1 year) CAL VER /5500+SC600 DATE: 29-Oct-97 AUTHOR: Fluke REVISION: $Revision: 1.2 $ ADJUSTMENT THRESHOLD: 70% NUMBER OF TESTS: 200 NUMBER OF LINES: 1796 CONFIGURATION: Fluke 5500A (S6) STANDARD: HP 11048C ============================================================================= # # Source: # Tektronix 2201 Service Manual 070-7189-00, June 1989 # # Compatibility: # 5500/CAL 4.23 or MET/CAL 4.23 or later # # Subprocedures: # None # # Required Files: # None # # Required Equipment: # Fluke 5500A Calibrator w/5500A-SC600 # HP 11048C 50 Ohm Termination # HP 33120A Function Generator # 10X Oscilloscope Probe (any) # # System Specifications: # TUR calculation is based on specification interval of the accuracy file. # The default 5500A accuracy file contains 90 day specs. # # 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 STD HP 11048C 1.002 ASK+ D X 1.003 ASK- P F W 1.004 HEAD PRELIMINARY INSTRUCTIONS 1.005 DISP Warm-up time: 20 min. - REQUIRED 1.005 DISP Temperature: 68degF - 86degF 1.005 DISP Humidity: <80% 1.006 HEAD [32] WARNING! 1.007 DISP DURING THE FOLLOWING PROCEDURE, HIGH VOLTAGES THAT COULD 1.007 DISP CAUSE SERIOUS INJURY OR EVEN DEATH ARE PRESENT! 1.007 DISP 1.007 DISP USE CAUTION TO PREVENT INJURY! 1.008 HEAD 1.009 DISP The most accurate display tests are made with a stable, 1.009 DISP well-focused, low-intensity display. Unless otherwise 1.009 DISP noted, adjust the INTENSITY, FOCUS and TRIGGER LEVEL 1.009 DISP controls as needed to optimize the view of the display. 1.010 DISP NOTE: Use the 50 Ohm BNC cable, Fluke P/N 643640 for all 1.010 DISP connections from the 5500A SCOPE Output to the UUT. 1.011 HEAD INITIAL SETTINGS: Vertical 1.012 SET VERT MODE : CH 1, NORM 1.012 SET VERT POSITION CH 1 : Midrange 1.012 SET CH 1 VOLTS/DIV : 5mV 1.012 SET CH 2 VOLTS/DIV : 5mV 1.012 SET CH 1 VOLTS/DIV VAR : CAL detent 1.012 SET CH 2 VOLTS/DIV VAR : CAL detent 1.012 SET CH 1 AC-GND-DC CH1 : DC 1.012 SET CH 2 AC-GND-DC CH2 : DC 1.013 HEAD INITIAL SETTINGS: Horizontal and Trigger 1.014 SET HORZ POSITION : Midrange 1.014 SET SEC/DIV : 0.5ms 1.014 SET SEC/DIV VAR : CAL detent 1.014 SET HORZ MAG : X1 1.014 SET TRIGGER SLOPE : Positive 1.014 SET TRIGGER LEVEL : Midrange 1.014 SET TRIGGER MODE : P-P AUTO 1.014 SET TRIGGER SOURCE : VERT MODE 1.015 HEAD INITIAL SETTINGS: Storage 1.016 DISP Set STORE/NON-STORE to NON-STORE. 1.016 DISP Set PRE-TRIG 0%/50% to 0%. 1.016 DISP Set SAVE/CONTINUE to CONTINUE. 1.016 DISP Set SAVE REF/ERASE to ERASE. 1.017 HEAD {VERTICAL TESTS} 1.018 HEAD {DEFLECTION ACCURACY AND VARIABLE RANGE, CH 1 (X)} 1.019 DISP Connect the 5500A SCOPE Output to UUT CH 1. 1.020 TOL 3% 1.021 HEAD DEFLECTION ACCURACY: {NON-STORAGE, 5mV/div} 1.022 5500 5 20.00mVpp TOL 1kH ZQ S6 2.001 HEAD DEFLECTION ACCURACY: {STORE, 5mV/div} 2.002 5500 20mVpp 1kH ZQ S6 S 2.003 ACC 4.00div. 0.012U 2.004 DISP Set STORE/NON-STORE to STORE. 2.004 DISP Set SAVE/CONTINUE to SAVE. 2.005 MEMI Enter the number of divisions of vertical deflection. 2.006 MEME 2.007 MEMC div. 0.12U 3.001 DISP Set STORE/NON-STORE to NON-STORE. 3.001 DISP Set SAVE/CONTINUE to CONTINUE. 3.002 HEAD DEFLECTION ACCURACY: {NON-STORAGE, 10mV/div} 3.003 5500 10 50.00mVpp TOL 1kH ZQ S6 4.001 HEAD DEFLECTION ACCURACY: {STORE, 10mV/div} 4.002 5500 50mVpp 1kH ZQ S6 S 4.003 ACC 5.00div. 0.009U 4.004 DISP Set STORE/NON-STORE to STORE. 4.004 DISP Set SAVE/CONTINUE to SAVE. 4.005 MEMI Enter the number of divisions of vertical deflection. 4.006 MEME 4.007 MEMC div. 0.15U 5.001 DISP Set STORE/NON-STORE to NON-STORE. 5.001 DISP Set SAVE/CONTINUE to CONTINUE. 5.002 HEAD DEFLECTION ACCURACY: {NON-STORAGE, 20mV/div} 5.003 5500 20 100.00mVpp TOL 1kH ZQ S6 6.001 5500 100mVpp 1kH ZQ S6 S 6.002 RSLT = VARIABLE RANGE 6.003 MESS Rotate the CH 1 Volts/DIV Variable control fully 6.003 MESS counterclockwise and check that the display 6.003 MESS decreases to two divisions or less. 6.003 MESS 6.004 EVAL Does the {display decrease to 2 div.r less (VAR fully CCW)}? 7.001 MESS 7.002 DISP Return the CH 1 VOLTS/DIV Variable control 7.002 DISP to the CAL detent position and continue. 7.003 RSLT = RESUME DEFLECTION ACCURACY 7.004 HEAD DEFLECTION ACCURACY: {STORE, 20mV/div} 7.005 5500 100mVpp 1kH ZQ S6 S 7.006 ACC 5.00div. 0.009U 7.007 DISP Set STORE/NON-STORE to STORE. 7.007 DISP Set SAVE/CONTINUE to SAVE. 7.008 MEMI Enter the number of divisions of vertical deflection. 7.009 MEME 7.010 MEMC div. 0.15U 8.001 DISP Set STORE/NON-STORE to NON-STORE. 8.001 DISP Set SAVE/CONTINUE to CONTINUE. 8.002 HEAD DEFLECTION ACCURACY: {NON-STORAGE, 50mV/div} 8.003 5500 50 200.00mVpp TOL 1kH ZQ S6 9.001 HEAD DEFLECTION ACCURACY: {STORE, 50mV/div} 9.002 5500 200mVpp 1kH ZQ S6 S 9.003 ACC 4.00div. 0.012U 9.004 DISP Set STORE/NON-STORE to STORE. 9.004 DISP Set SAVE/CONTINUE to SAVE. 9.005 MEMI Enter the number of divisions of vertical deflection. 9.006 MEME 9.007 MEMC div. 0.12U 10.001 DISP Set STORE/NON-STORE to NON-STORE. 10.001 DISP Set SAVE/CONTINUE to CONTINUE. 10.002 HEAD DEFLECTION ACCURACY: {NON-STORAGE, 0.1V/div} 10.003 5500 0.1 0.500Vpp TOL 1kH ZQ S6 11.001 HEAD DEFLECTION ACCURACY: {STORE, 0.1V/div} 11.002 5500 0.5Vpp 1kH ZQ S6 S 11.003 ACC 5.00div. 0.009U 11.004 DISP Set STORE/NON-STORE to STORE. 11.004 DISP Set SAVE/CONTINUE to SAVE. 11.005 MEMI Enter the number of divisions of vertical deflection. 11.006 MEME 11.007 MEMC div. 0.15U 12.001 DISP Set STORE/NON-STORE to NON-STORE. 12.001 DISP Set SAVE/CONTINUE to CONTINUE. 12.002 HEAD DEFLECTION ACCURACY: {NON-STORAGE, 0.2V/div} 12.003 5500 0.2 1.00Vpp TOL 1kH ZQ S6 13.001 HEAD DEFLECTION ACCURACY: {STORE, 0.2V/div} 13.002 5500 1Vpp 1kH ZQ S6 S 13.003 ACC 5.00div. 0.009U 13.004 DISP Set STORE/NON-STORE to STORE. 13.004 DISP Set SAVE/CONTINUE to SAVE. 13.005 MEMI Enter the number of divisions of vertical deflection. 13.006 MEME 13.007 MEMC div. 0.15U 14.001 DISP Set STORE/NON-STORE to NON-STORE. 14.001 DISP Set SAVE/CONTINUE to CONTINUE. 14.002 HEAD DEFLECTION ACCURACY: {NON-STORAGE, 0.5V/div} 14.003 5500 0.5 2.00Vpp TOL 1kH ZQ S6 15.001 HEAD DEFLECTION ACCURACY: {STORE, 0.5V/div} 15.002 5500 2Vpp 1kH ZQ S6 S 15.003 ACC 4.00div. 0.012U 15.004 DISP Set STORE/NON-STORE to STORE. 15.004 DISP Set SAVE/CONTINUE to SAVE. 15.005 MEMI Enter the number of divisions of vertical deflection. 15.006 MEME 15.007 MEMC div. 0.12U 16.001 DISP Set STORE/NON-STORE to NON-STORE. 16.001 DISP Set SAVE/CONTINUE to CONTINUE. 16.002 HEAD DEFLECTION ACCURACY: {NON-STORAGE, 1V/div} 16.003 5500 1 5.00Vpp TOL 1kH ZQ S6 17.001 HEAD DEFLECTION ACCURACY: {STORE, 1V/div} 17.002 5500 5Vpp 1kH ZQ S6 S 17.003 ACC 5.00div. 0.009U 17.004 DISP Set STORE/NON-STORE to STORE. 17.004 DISP Set SAVE/CONTINUE to SAVE. 17.005 MEMI Enter the number of divisions of vertical deflection. 17.006 MEME 17.007 MEMC div. 0.15U 18.001 DISP Set STORE/NON-STORE to NON-STORE. 18.001 DISP Set SAVE/CONTINUE to CONTINUE. 18.002 HEAD DEFLECTION ACCURACY: {NON-STORAGE, 2V/div} 18.003 5500 2 10.00Vpp TOL 1kH ZQ S6 19.001 HEAD DEFLECTION ACCURACY: {STORE, 2V/div} 19.002 5500 10Vpp 1kH ZQ S6 S 19.003 ACC 5.00div. 0.009U 19.004 DISP Set STORE/NON-STORE to STORE. 19.004 DISP Set SAVE/CONTINUE to SAVE. 19.005 MEMI Enter the number of divisions of vertical deflection. 19.006 MEME 19.007 MEMC div. 0.15U 20.001 DISP Set STORE/NON-STORE to NON-STORE. 20.001 DISP Set SAVE/CONTINUE to CONTINUE. 20.002 HEAD DEFLECTION ACCURACY: {NON-STORAGE, 5V/div} 20.003 5500 5 20.00Vpp TOL 1kH ZQ S6 21.001 HEAD DEFLECTION ACCURACY: {STORE, 5V/div} 21.002 5500 20Vpp 1kH ZQ S6 S 21.003 ACC 4.00div. 0.009U 21.004 DISP Set STORE/NON-STORE to STORE. 21.004 DISP Set SAVE/CONTINUE to SAVE. 21.005 MEMI Enter the number of divisions of vertical deflection. 21.006 MEME 21.007 MEMC div. 0.12U 22.001 DISP Set STORE/NON-STORE to NON-STORE. 22.001 DISP Set SAVE/CONTINUE to CONTINUE. 22.002 HEAD {DEFLECTION ACCURACY AND VARIABLE RANGE, CH 2 (Y)} 22.003 DISP Connect the 5500A SCOPE Output to UUT CH 2. 22.004 SET VERT MODE : CH 2 22.005 TOL 3% 22.006 HEAD DEFLECTION ACCURACY: {NON-STORAGE, 5mV/div} 22.007 5500 5 20.00mVpp TOL 1kH ZQ S6 23.001 HEAD DEFLECTION ACCURACY: {STORE, 5mV/div} 23.002 5500 20mVpp 1kH ZQ S6 S 23.003 ACC 4.00div. 0.012U 23.004 DISP Set STORE/NON-STORE to STORE. 23.004 DISP Set SAVE/CONTINUE to SAVE. 23.005 MEMI Enter the number of divisions of vertical deflection. 23.006 MEME 23.007 MEMC div. 0.12U 24.001 DISP Set STORE/NON-STORE to NON-STORE. 24.001 DISP Set SAVE/CONTINUE to CONTINUE. 24.002 HEAD DEFLECTION ACCURACY: {NON-STORAGE, 10mV/div} 24.003 5500 10 50.00mVpp TOL 1kH ZQ S6 25.001 HEAD DEFLECTION ACCURACY: {STORE, 10mV/div} 25.002 5500 50mVpp 1kH ZQ S6 S 25.003 ACC 5.00div. 0.009U 25.004 DISP Set STORE/NON-STORE to STORE. 25.004 DISP Set SAVE/CONTINUE to SAVE. 25.005 MEMI Enter the number of divisions of vertical deflection. 25.006 MEME 25.007 MEMC div. 0.15U 26.001 DISP Set STORE/NON-STORE to NON-STORE. 26.001 DISP Set SAVE/CONTINUE to CONTINUE. 26.002 HEAD DEFLECTION ACCURACY: {NON-STORAGE, 20mV/div} 26.003 5500 20 100.00mVpp TOL 1kH ZQ S6 27.001 5500 100mVpp 1kH ZQ S6 S 27.002 RSLT = VARIABLE RANGE 27.003 MESS Rotate the CH 1 Volts/DIV Variable control fully 27.003 MESS counterclockwise and check that the display 27.003 MESS decreases to two divisions or less. 27.003 MESS 27.004 EVAL Does the {display decrease to 2 div.r less (VAR fully CCW)}? 28.001 MESS 28.002 DISP Return the CH 1 VOLTS/DIV Variable control 28.002 DISP to the CAL detent position and continue. 28.003 RSLT = RESUME DEFLECTION ACCURACY 28.004 HEAD DEFLECTION ACCURACY: {STORE, 20mV/div} 28.005 5500 100mVpp 1kH ZQ S6 S 28.006 ACC 5.00div. 0.009U 28.007 DISP Set STORE/NON-STORE to STORE. 28.007 DISP Set SAVE/CONTINUE to SAVE. 28.008 MEMI Enter the number of divisions of vertical deflection. 28.009 MEME 28.010 MEMC div. 0.15U 29.001 DISP Set STORE/NON-STORE to NON-STORE. 29.001 DISP Set SAVE/CONTINUE to CONTINUE. 29.002 HEAD DEFLECTION ACCURACY: {NON-STORAGE, 50mV/div} 29.003 5500 50 200.00mVpp TOL 1kH ZQ S6 30.001 HEAD DEFLECTION ACCURACY: {STORE, 50mV/div} 30.002 5500 200mVpp 1kH ZQ S6 S 30.003 ACC 4.00div. 0.012U 30.004 DISP Set STORE/NON-STORE to STORE. 30.004 DISP Set SAVE/CONTINUE to SAVE. 30.005 MEMI Enter the number of divisions of vertical deflection. 30.006 MEME 30.007 MEMC div. 0.12U 31.001 DISP Set STORE/NON-STORE to NON-STORE. 31.001 DISP Set SAVE/CONTINUE to CONTINUE. 31.002 HEAD DEFLECTION ACCURACY: {NON-STORAGE, 0.1V/div} 31.003 5500 0.1 0.500Vpp TOL 1kH ZQ S6 32.001 HEAD DEFLECTION ACCURACY: {STORE, 0.1V/div} 32.002 5500 0.5Vpp 1kH ZQ S6 S 32.003 ACC 5.00div. 0.009U 32.004 DISP Set STORE/NON-STORE to STORE. 32.004 DISP Set SAVE/CONTINUE to SAVE. 32.005 MEMI Enter the number of divisions of vertical deflection. 32.006 MEME 32.007 MEMC div. 0.15U 33.001 DISP Set STORE/NON-STORE to NON-STORE. 33.001 DISP Set SAVE/CONTINUE to CONTINUE. 33.002 HEAD DEFLECTION ACCURACY: {NON-STORAGE, 0.2V/div} 33.003 5500 0.2 1.00Vpp TOL 1kH ZQ S6 34.001 HEAD DEFLECTION ACCURACY: {STORE, 0.2V/div} 34.002 5500 1Vpp 1kH ZQ S6 S 34.003 ACC 5.00div. 0.009U 34.004 DISP Set STORE/NON-STORE to STORE. 34.004 DISP Set SAVE/CONTINUE to SAVE. 34.005 MEMI Enter the number of divisions of vertical deflection. 34.006 MEME 34.007 MEMC div. 0.15U 35.001 DISP Set STORE/NON-STORE to NON-STORE. 35.001 DISP Set SAVE/CONTINUE to CONTINUE. 35.002 HEAD DEFLECTION ACCURACY: {NON-STORAGE, 0.5V/div} 35.003 5500 0.5 2.00Vpp TOL 1kH ZQ S6 36.001 HEAD DEFLECTION ACCURACY: {STORE, 0.5V/div} 36.002 5500 2Vpp 1kH ZQ S6 S 36.003 ACC 4.00div. 0.012U 36.004 DISP Set STORE/NON-STORE to STORE. 36.004 DISP Set SAVE/CONTINUE to SAVE. 36.005 MEMI Enter the number of divisions of vertical deflection. 36.006 MEME 36.007 MEMC div. 0.12U 37.001 DISP Set STORE/NON-STORE to NON-STORE. 37.001 DISP Set SAVE/CONTINUE to CONTINUE. 37.002 HEAD DEFLECTION ACCURACY: {NON-STORAGE, 1V/div} 37.003 5500 1 5.00Vpp TOL 1kH ZQ S6 38.001 HEAD DEFLECTION ACCURACY: {STORE, 1V/div} 38.002 5500 5Vpp 1kH ZQ S6 S 38.003 ACC 5.00div. 0.009U 38.004 DISP Set STORE/NON-STORE to STORE. 38.004 DISP Set SAVE/CONTINUE to SAVE. 38.005 MEMI Enter the number of divisions of vertical deflection. 38.006 MEME 38.007 MEMC div. 0.15U 39.001 DISP Set STORE/NON-STORE to NON-STORE. 39.001 DISP Set SAVE/CONTINUE to CONTINUE. 39.002 HEAD DEFLECTION ACCURACY: {NON-STORAGE, 2V/div} 39.003 5500 2 10.00Vpp TOL 1kH ZQ S6 40.001 HEAD DEFLECTION ACCURACY: {STORE, 2V/div} 40.002 5500 10Vpp 1kH ZQ S6 S 40.003 ACC 5.00div. 0.009U 40.004 DISP Set STORE/NON-STORE to STORE. 40.004 DISP Set SAVE/CONTINUE to SAVE. 40.005 MEMI Enter the number of divisions of vertical deflection. 40.006 MEME 40.007 MEMC div. 0.15U 41.001 DISP Set STORE/NON-STORE to NON-STORE. 41.001 DISP Set SAVE/CONTINUE to CONTINUE. 41.002 HEAD DEFLECTION ACCURACY: {NON-STORAGE, 5V/div} 41.003 5500 5 20.00Vpp TOL 1kH ZQ S6 42.001 HEAD DEFLECTION ACCURACY: {STORE, 5V/div} 42.002 5500 20Vpp 1kH ZQ S6 S 42.003 ACC 4.00div. 0.009U 42.004 DISP Set STORE/NON-STORE to STORE. 42.004 DISP Set SAVE/CONTINUE to SAVE. 42.005 MEMI Enter the number of divisions of vertical deflection. 42.006 MEME 42.007 MEMC div. 0.12U 43.001 DISP Set STORE/NON-STORE to NON-STORE. 43.001 DISP Set SAVE/CONTINUE to CONTINUE. 43.002 HEAD {VERTICAL POSITION RANGE, CH 2 (Y)} 43.003 SET CH 1 VOLTS/DIV : 10mV 43.003 SET CH 2 VOLTS/DIV : 10mV 43.003 SET CH 1 AC-GND-DC : AC 43.003 SET CH 2 AC-GND-DC : AC 43.003 SET SEC/DIV : 0.2ms 43.004 5500 0.100Vpp 1kH ZQ S6 S 43.005 DISP Adjust the CH 2 VOLTS/DIV Variable control (CAL knob) 43.005 DISP to produce a 5.25 major div.ion indication on the UUT. 43.006 SET CH 2 VOLTS/DIV : 5mV 43.007 5500 0.200Vpp 1kH ZQ S6 S 43.008 MESS Check that the bottom and top of the trace on the UUT 43.008 MESS may be positioned above and below the center horizontal 43.008 MESS graticule line by rotating the CH 2 POSITION control 43.008 MESS fully clockwise and counterclockwise respectively. 43.008 MESS 43.009 EVAL Does the {CH 2 POSITION RANGE operate properly} as described? 44.001 MESS 44.002 HEAD {VERTICAL POSITION RANGE, CH 1 (X)} 44.003 DISP Connect the 5500A SCOPE Output to UUT CH 1. 44.004 SET VERT MODE : CH 1 44.005 5500 0.100Vpp 1kH ZQ S6 S 44.006 DISP Adjust the CH 1 VOLTS/DIV Variable control (CAL knob) 44.006 DISP to produce a 5.25 major div.ion indication on the UUT. 44.007 SET CH 1 VOLTS/DIV : 5mV 44.008 5500 0.200Vpp 1kH ZQ S6 S 44.009 MESS Check that the bottom and top of the trace on the UUT 44.009 MESS may be positioned above and below the center horizontal 44.009 MESS graticule line by rotating the CH 1 POSITION control 44.009 MESS fully clockwise and counterclockwise respectively. 44.009 MESS 44.010 EVAL Does the {CH 1 POSITION RANGE operate properly} as described? 45.001 MESS 45.002 DISP Return both VOLTS/DIV Variable controls to 45.002 DISP their detent positions. 45.003 DISP Disconnect the 5500A from the UUT. 45.004 HEAD {HIGH FREQUENCY COMPENSATION, CH 1 (X)} 45.005 RSLT = Note: This is a functional test only. Due to the 45.006 RSLT = TUR limitations of the 5500A-SC600, 45.007 RSLT = UUT abberations will be recorded ONLY. 45.008 SET CH 1 VOLTS/DIV : 5mV 45.008 SET CH 2 VOLTS/DIV : 5mV 45.008 SET CH 1 AC-GND-DC : DC 45.008 SET CH 2 AC-GND-DC : DC 45.008 SET SEC/DIV : 0.2us 45.008 SET HORZ MAG : X1 45.008 SET TRIGGER SOURCE : VERT MODE 45.009 DISP Connect the 50 Ohm Termination to UUT CH 1 (X). 45.009 DISP Connect the 5500A SCOPE Output to the 50 Ohm 45.009 DISP Termination. 45.010 MESS Position the bottom of the displayed waveform 45.010 MESS to the bottom horizontal graticule line using 45.010 MESS the CH 1 POSITION control and position the 45.010 MESS leading edge of a pulse on the center vertical 45.010 MESS graticule line using the HORIZONTAL POSITION control. 45.010 MESS Slew the 5500A so the square wave displayed 45.010 MESS on the UUT has exactly 5 major divisions of vertical 45.010 MESS deflection from the bottom horizontal graticule line. 45.011 ASK- R N 45.012 5500 5 25mVpp 1MH ED S6 N L 45.013 ASK+ R N 45.014 MESS 45.015 MATH M[5] = MEM 45.016 DISP Measure the abberations, in divisions, at the top, 45.016 DISP leading edge of the UUT wavefrom. Enter next... 45.017 MEMI Enter the abberations in divisions: 45.018 MATH MEM1 = ((MEM * 0.005) / M[5]) * 100 45.019 RSLT = Abberations @ 5mV/DIV = [MEM1] 45.020 5500 10 50mVpp 1MH ED S6 N L 45.021 MATH M[5] = MEM 45.022 DISP Measure the abberations, in divisions, at the top, 45.022 DISP leading edge of the UUT wavefrom. Enter next... 45.023 MEMI Enter the abberations in divisions: 45.024 MATH MEM1 = ((MEM * 0.010) / M[5]) * 100 45.025 RSLT = Abberations @ 10mV/DIV = [MEM1] 45.026 5500 20 100mVpp 1MH ED S6 N L 45.027 MATH M[5] = MEM 45.028 DISP Measure the abberations, in divisions, at the top, 45.028 DISP leading edge of the UUT wavefrom. Enter next... 45.029 MEMI Enter the abberations in divisions: 45.030 MATH MEM1 = ((MEM * 0.020) / M[5]) * 100 45.031 RSLT = Abberations @ 20mV/DIV = [MEM1] 45.032 5500 50 250mVpp 1MH ED S6 N L 45.033 MATH M[5] = MEM 45.034 DISP Measure the abberations, in divisions, at the top, 45.034 DISP leading edge of the UUT wavefrom. Enter next... 45.035 MEMI Enter the abberations in divisions: 45.036 MATH MEM1 = ((MEM * 0.050) / M[5]) * 100 45.037 RSLT = Abberations @ 50mV/DIV = [MEM1] 45.038 5500 0.1 0.5Vpp 1MH ED S6 N L 45.039 MATH M[5] = MEM 45.040 DISP Measure the abberations, in divisions, at the top, 45.040 DISP leading edge of the UUT wavefrom. Enter next... 45.041 MEMI Enter the abberations in divisions: 45.042 MATH MEM1 = ((MEM * 0.1) / M[5]) * 100 45.043 RSLT = Abberations @ 0.1V/DIV = [MEM1] 45.044 5500 0.2 1Vpp 1MH ED S6 N L 45.045 MATH M[5] = MEM 45.046 DISP Measure the abberations, in divisions, at the top, 45.046 DISP leading edge of the UUT wavefrom. Enter next... 45.047 MEMI Enter the abberations in divisions: 45.048 MATH MEM1 = ((MEM * 0.2) / M[5]) * 100 45.049 RSLT = Abberations @ 0.2V/DIV = [MEM1] 45.050 5500 * S 45.051 HEAD {HIGH FREQUENCY COMPENSATION, CH 2 (Y)} 45.052 RSLT = Note: This is a functional test only. Due to the 45.053 RSLT = TUR limitations of the 5500A-SC600, 45.054 RSLT = UUT abberations will be recorded ONLY. 45.055 SET VERT MODE : CH 2 45.056 DISP Connect the 50 Ohm Termination to UUT CH 2 (X). 45.056 DISP Connect the 5500A SCOPE Output to the 50 Ohm 45.056 DISP Termination. 45.057 MESS Position the bottom of the displayed waveform 45.057 MESS to the bottom horizontal graticule line using 45.057 MESS the CH 2 POSITION control and position the 45.057 MESS leading edge of a pulse on the center vertical 45.057 MESS graticule line using the HORIZONTAL POSITION control. 45.057 MESS Slew the 5500A so the square wave displayed 45.057 MESS on the UUT has exactly 5 major divisions of vertical 45.057 MESS deflection from the bottom horizontal graticule line. 45.058 ASK- R N 45.059 5500 25mVpp 1MH ED S6 N L 45.060 ASK+ R N 45.061 MESS 45.062 MATH M[5] = MEM 45.063 DISP Measure the abberations, in divisions, at the top, 45.063 DISP leading edge of the UUT wavefrom. Enter next... 45.064 MEMI Enter the abberations in divisions: 45.065 MATH MEM1 = ((MEM * 0.005) / M[5]) * 100 45.066 RSLT = Abberations @ 5mV/DIV = [MEM1] 45.067 5500 10 50mVpp 1MH ED S6 N L 45.068 MATH M[5] = MEM 45.069 DISP Measure the abberations, in divisions, at the top, 45.069 DISP leading edge of the UUT wavefrom. Enter next... 45.070 MEMI Enter the abberations in divisions: 45.071 MATH MEM1 = ((MEM * 0.010) / M[5]) * 100 45.072 RSLT = Abberations @ 10mV/DIV = [MEM1] 45.073 5500 20 100mVpp 1MH ED S6 N L 45.074 MATH M[5] = MEM 45.075 DISP Measure the abberations, in divisions, at the top, 45.075 DISP leading edge of the UUT wavefrom. Enter next... 45.076 MEMI Enter the abberations in divisions: 45.077 MATH MEM1 = ((MEM * 0.020) / M[5]) * 100 45.078 RSLT = Abberations @ 20mV/DIV = [MEM1] 45.079 5500 50 250mVpp 1MH ED S6 N L 45.080 MATH M[5] = MEM 45.081 DISP Measure the abberations, in divisions, at the top, 45.081 DISP leading edge of the UUT wavefrom. Enter next... 45.082 MEMI Enter the abberations in divisions: 45.083 MATH MEM1 = ((MEM * 0.050) / M[5]) * 100 45.084 RSLT = Abberations @ 50mV/DIV = [MEM1] 45.085 5500 0.1 0.5Vpp 1MH ED S6 N L 45.086 MATH M[5] = MEM 45.087 DISP Measure the abberations, in divisions, at the top, 45.087 DISP leading edge of the UUT wavefrom. Enter next... 45.088 MEMI Enter the abberations in divisions: 45.089 MATH MEM1 = ((MEM * 0.1) / M[5]) * 100 45.090 RSLT = Abberations @ 0.1V/DIV = [MEM1] 45.091 5500 0.2 1Vpp 1MH ED S6 N L 45.092 MATH M[5] = MEM 45.093 DISP Measure the abberations, in divisions, at the top, 45.093 DISP leading edge of the UUT wavefrom. Enter next... 45.094 MEMI Enter the abberations in divisions: 45.095 MATH MEM1 = ((MEM * 0.2) / M[5]) * 100 45.096 RSLT = Abberations @ 0.2V/DIV = [MEM1] 45.097 5500 * S 45.098 HEAD {BANDWIDTH TEST, NON-STORAGE, CH 2 (Y)} 45.099 SET CH 1 VOLTS/DIV : 5mV 45.099 SET CH 2 VOLTS/DIV : 5mV 45.099 SET SEC/DIV : 10us 45.100 HEAD BANDWIDTH TEST: {5mV/DIV} 45.101 5500 5 30mVpp 50kH LS S6 N L 45.102 ASK- N 45.103 MESS Adjust stimulus for a UUT vertical reading of 4.2 div. 45.104 5500 20.000MH -1000% mVpp LS S6 L 46.001 MESS 46.002 ASK+ N 46.003 HEAD BANDWIDTH TEST: {10mV/DIV} 46.004 5500 10 60mVpp 50kH LS S6 N L 46.005 ASK- N 46.006 MESS Adjust stimulus for a UUT vertical reading of 4.2 div. 46.007 5500 20.000MH -1000% mVpp LS S6 L 47.001 MESS 47.002 ASK+ N 47.003 HEAD BANDWIDTH TEST: {20mV/DIV} 47.004 5500 20 120mVpp 50kH LS S6 N L 47.005 ASK- N 47.006 MESS Adjust stimulus for a UUT vertical reading of 4.2 div. 47.007 5500 20.000MH -1000% mVpp LS S6 L 48.001 MESS 48.002 ASK+ N 48.003 HEAD BANDWIDTH TEST: {50mV/DIV} 48.004 5500 50 300mVpp 50kH LS S6 N L 48.005 ASK- N 48.006 MESS Adjust stimulus for a UUT vertical reading of 4.2 div. 48.007 5500 20.000MH -1000% mVpp LS S6 L 49.001 MESS 49.002 ASK+ N 49.003 HEAD BANDWIDTH TEST: {0.1V/DIV} 49.004 5500 0.1 0.6Vpp 50kH LS S6 N L 49.005 ASK- N 49.006 MESS Adjust stimulus for a UUT vertical reading of 4.2 div. 49.007 5500 20.000MH -1000% Vpp LS S6 L 50.001 MESS 50.002 ASK+ N 50.003 HEAD BANDWIDTH TEST: {0.2V/DIV} 50.004 5500 0.2 1.2Vpp 50kH LS S6 N L 50.005 ASK- N 50.006 MESS Adjust stimulus for a UUT vertical reading of 4.2 div. 50.007 5500 20.000MH -1000% Vpp LS S6 L 51.001 MESS 51.002 ASK+ N 51.003 HEAD BANDWIDTH TEST: {0.5V/DIV} 51.004 5500 0.5 3Vpp 50kH LS S6 N L 51.005 ASK- N 51.006 MESS Adjust stimulus for a UUT vertical reading of 4.2 div. 51.007 5500 20.000MH -1000% Vpp LS S6 L 52.001 MESS 52.002 ASK+ N 52.003 HEAD BANDWIDTH TEST: {1V/DIV} 52.004 5500 1 5Vpp 50kH LS S6 N L 52.005 ASK- N 52.006 MESS Adjust stimulus for a UUT vertical reading of 4.2 div. 52.007 5500 20.000MH -1000% Vpp LS S6 L 53.001 MESS 53.002 ASK+ N 53.003 HEAD {BANDWIDTH TEST, STORAGE, CH 2 (Y)} 53.004 SET SEC/DIV : 20us 53.005 HEAD BANDWIDTH TEST: {5mV/DIV} 53.006 5500 5 30mVpp 50kH LS S6 N L 53.007 ASK- N 53.008 MESS Adjust stimulus for a UUT vertical reading of 4.2 div. 53.009 5500 5.000MH -1000% mVpp LS S6 L 54.001 MESS 54.002 ASK+ N 54.003 HEAD BANDWIDTH TEST: {10mV/DIV} 54.004 5500 10 60mVpp 50kH LS S6 N L 54.005 ASK- N 54.006 MESS Adjust stimulus for a UUT vertical reading of 4.2 div. 54.007 5500 5.000MH -1000% mVpp LS S6 L 55.001 MESS 55.002 ASK+ N 55.003 HEAD BANDWIDTH TEST: {20mV/DIV} 55.004 5500 20 120mVpp 50kH LS S6 N L 55.005 ASK- N 55.006 MESS Adjust stimulus for a UUT vertical reading of 4.2 div. 55.007 5500 5.000MH -1000% mVpp LS S6 L 56.001 MESS 56.002 ASK+ N 56.003 HEAD BANDWIDTH TEST: {50mV/DIV} 56.004 5500 50 300mVpp 50kH LS S6 N L 56.005 ASK- N 56.006 MESS Adjust stimulus for a UUT vertical reading of 4.2 div. 56.007 5500 5.000MH -1000% mVpp LS S6 L 57.001 MESS 57.002 ASK+ N 57.003 HEAD BANDWIDTH TEST: {0.1V/DIV} 57.004 5500 0.1 0.6Vpp 50kH LS S6 N L 57.005 ASK- N 57.006 MESS Adjust stimulus for a UUT vertical reading of 4.2 div. 57.007 5500 5.000MH -1000% Vpp LS S6 L 58.001 MESS 58.002 ASK+ N 58.003 HEAD BANDWIDTH TEST: {0.2V/DIV} 58.004 5500 0.2 1.2Vpp 50kH LS S6 N L 58.005 ASK- N 58.006 MESS Adjust stimulus for a UUT vertical reading of 4.2 div. 58.007 5500 5.000MH -1000% Vpp LS S6 L 59.001 MESS 59.002 ASK+ N 59.003 HEAD BANDWIDTH TEST: {0.5V/DIV} 59.004 5500 0.5 3Vpp 50kH LS S6 N L 59.005 ASK- N 59.006 MESS Adjust stimulus for a UUT vertical reading of 4.2 div. 59.007 5500 5.000MH -1000% Vpp LS S6 L 60.001 MESS 60.002 ASK+ N 60.003 HEAD {BANDWIDTH TEST, NON-STORAGE, CH 1 (X)} 60.004 SET VERT MODE : CH 1 60.004 SET SEC/DIV : 10us 60.005 DISP Connect the 50 Ohm Termination to UUT CH 1 (X). 60.005 DISP Connect the 5500A SCOPE Output BNC to the 50 Ohm 60.005 DISP Termination. 60.006 HEAD BANDWIDTH TEST: {5mV/DIV} 60.007 5500 5 30mVpp 50kH LS S6 N L 60.008 ASK- N 60.009 MESS Adjust stimulus for a UUT vertical reading of 4.2 div. 60.010 5500 20.000MH -1000% mVpp LS S6 L 61.001 MESS 61.002 ASK+ N 61.003 HEAD BANDWIDTH TEST: {10mV/DIV} 61.004 5500 10 60mVpp 50kH LS S6 N L 61.005 ASK- N 61.006 MESS Adjust stimulus for a UUT vertical reading of 4.2 div. 61.007 5500 20.000MH -1000% mVpp LS S6 L 62.001 MESS 62.002 ASK+ N 62.003 HEAD BANDWIDTH TEST: {20mV/DIV} 62.004 5500 20 120mVpp 50kH LS S6 N L 62.005 ASK- N 62.006 MESS Adjust stimulus for a UUT vertical reading of 4.2 div. 62.007 5500 20.000MH -1000% mVpp LS S6 L 63.001 MESS 63.002 ASK+ N 63.003 HEAD BANDWIDTH TEST: {50mV/DIV} 63.004 5500 50 300mVpp 50kH LS S6 N L 63.005 ASK- N 63.006 MESS Adjust stimulus for a UUT vertical reading of 4.2 div. 63.007 5500 20.000MH -1000% mVpp LS S6 L 64.001 MESS 64.002 ASK+ N 64.003 HEAD BANDWIDTH TEST: {0.1V/DIV} 64.004 5500 0.1 0.6Vpp 50kH LS S6 N L 64.005 ASK- N 64.006 MESS Adjust stimulus for a UUT vertical reading of 4.2 div. 64.007 5500 20.000MH -1000% Vpp LS S6 L 65.001 MESS 65.002 ASK+ N 65.003 HEAD BANDWIDTH TEST: {0.2V/DIV} 65.004 5500 0.2 1.2Vpp 50kH LS S6 N L 65.005 ASK- N 65.006 MESS Adjust stimulus for a UUT vertical reading of 4.2 div. 65.007 5500 20.000MH -1000% Vpp LS S6 L 66.001 MESS 66.002 ASK+ N 66.003 HEAD BANDWIDTH TEST: {0.5V/DIV} 66.004 5500 0.5 3Vpp 50kH LS S6 N L 66.005 ASK- N 66.006 MESS Adjust stimulus for a UUT vertical reading of 4.2 div. 66.007 5500 20.000MH -1000% Vpp LS S6 L 67.001 MESS 67.002 ASK+ N 67.003 HEAD BANDWIDTH TEST: {1V/DIV} 67.004 5500 1 5Vpp 50kH LS S6 N L 67.005 ASK- N 67.006 MESS Adjust stimulus for a UUT vertical reading of 3.5 div. 67.007 5500 20.000MH -1000% Vpp LS S6 L 68.001 MESS 68.002 ASK+ N 68.003 HEAD {BANDWIDTH TEST, STORAGE, CH 1 (Y)} 68.004 SET SEC/DIV : 20us 68.005 HEAD BANDWIDTH TEST: {5mV/DIV} 68.006 5500 5 30mVpp 50kH LS S6 N L 68.007 ASK- N 68.008 MESS Adjust stimulus for a UUT vertical reading of 4.2 div. 68.009 5500 5.000MH -1000% mVpp LS S6 L 69.001 MESS 69.002 ASK+ N 69.003 HEAD BANDWIDTH TEST: {10mV/DIV} 69.004 5500 10 60mVpp 50kH LS S6 N L 69.005 ASK- N 69.006 MESS Adjust stimulus for a UUT vertical reading of 4.2 div. 69.007 5500 5.000MH -1000% mVpp LS S6 L 70.001 MESS 70.002 ASK+ N 70.003 HEAD BANDWIDTH TEST: {20mV/DIV} 70.004 5500 20 120mVpp 50kH LS S6 N L 70.005 ASK- N 70.006 MESS Adjust stimulus for a UUT vertical reading of 4.2 div. 70.007 5500 5.000MH -1000% mVpp LS S6 L 71.001 MESS 71.002 ASK+ N 71.003 HEAD BANDWIDTH TEST: {50mV/DIV} 71.004 5500 50 300mVpp 50kH LS S6 N L 71.005 ASK- N 71.006 MESS Adjust stimulus for a UUT vertical reading of 4.2 div. 71.007 5500 5.000MH -1000% mVpp LS S6 L 72.001 MESS 72.002 ASK+ N 72.003 HEAD BANDWIDTH TEST: {0.1V/DIV} 72.004 5500 0.1 0.6Vpp 50kH LS S6 N L 72.005 ASK- N 72.006 MESS Adjust stimulus for a UUT vertical reading of 4.2 div. 72.007 5500 5.000MH -1000% Vpp LS S6 L 73.001 MESS 73.002 ASK+ N 73.003 HEAD BANDWIDTH TEST: {0.2V/DIV} 73.004 5500 0.2 1.2Vpp 50kH LS S6 N L 73.005 ASK- N 73.006 MESS Adjust stimulus for a UUT vertical reading of 4.2 div. 73.007 5500 5.000MH -1000% Vpp LS S6 L 74.001 MESS 74.002 ASK+ N 74.003 HEAD BANDWIDTH TEST: {0.5V/DIV} 74.004 5500 0.5 3Vpp 50kH LS S6 N L 74.005 ASK- N 74.006 MESS Adjust stimulus for a UUT vertical reading of 4.2 div. 74.007 5500 5.000MH -1000% Vpp LS S6 L 75.001 MESS 75.002 ASK+ N 75.003 DISP DO NOT disconnect the test setup. 75.004 HEAD {CHANNEL ISOLATION, NON-STORAGE, CH 1 (X)} 75.005 SET VOLTS/DIV CH 1 : 0.5V 75.005 SET VOLTS/DIV CH 2 : 0.5V 75.005 SET AC-GND-DC CH 2 : GND 75.005 SET SEC/DIV : 0.1us 75.006 DISP The 5500A should still be connected to CH 1 (X). 75.007 5500 0.5 2.5Vpp 10MH LS S6 N L 75.008 SET VERT MODE : CH 2 75.009 MESS Check that the CH 2 trace amplitude 75.009 MESS is less than 0.1 divisions. 75.009 MESS 75.010 EVAL Is the {CH 2 trace amplitude less than 0.1 divisions}? 76.001 MESS 76.002 HEAD {CHANNEL ISOLATION, STORAGE, CH 1 (X)} 76.003 SET VOLTS/DIV CH 1 : 1V 76.003 SET VOLTS/DIV CH 2 : 0.5V 76.003 SET AC-GND-DC CH 2 : GND 76.003 SET SEC/DIV : 20us 76.003 SET VERT MODE : CH 1 76.004 ASK- R 76.005 5500 1 5Vpp 50kH LS S6 N L 76.006 ASK+ R 76.007 5500 5MH Vpp LS S6 S L 76.008 SET VOLTS/DIV CH 1 : 0.5V 76.008 SET VERT MODE : CH 2 76.009 MESS Check that the CH 2 trace amplitude 76.009 MESS is less than 0.1 divisions. 76.009 MESS 76.010 EVAL Is the {CH 2 trace amplitude less than 0.1 divisions}? 77.001 MESS 77.002 HEAD {CHANNEL ISOLATION, STORAGE, CH 2 (Y)} 77.003 DISP Connect the 50 Ohm Termination to UUT CH 2 (Y). 77.003 DISP Connect the 5500A SCOPE Output to the 50 Ohm 77.003 DISP Termination. 77.004 IEEE [@5500]OPER 77.005 SET VERT MODE : CH 1 77.005 SET CH 1 AC-GND-DC : GND 77.005 SET CH 2 AC-GND-DC : DC 77.006 MESS Check that the CH 1 trace amplitude 77.006 MESS is less than 0.1 divisions. 77.006 MESS 77.007 EVAL Is the {CH 1 trace amplitude less than 0.1 divisions}? 78.001 MESS 78.002 HEAD {CHANNEL ISOLATION, NON-STORAGE, CH 2 (Y)} 78.003 SET VERT MODE : CH 2 78.003 SET SEC/DIV : 0.1us 78.004 ASK- R 78.005 5500 0.5 2.5Vpp 10MH LS S6 N L 78.006 ASK+ R 78.007 SET VERT MODE : CH 1 78.008 MESS Check that the CH 1 trace amplitude 78.008 MESS is less than 0.1 divisions. 78.008 MESS 78.009 EVAL Is the {CH 1 trace amplitude less than 0.1 divisions}? 79.001 MESS 79.002 DISP Disconnect the test setup. 79.003 HEAD {COMMON-MODE REJECTION RATIO, NON-STORAGE} 79.004 SET CH 1 VOLTS/DIV : 10mV 79.004 SET CH 2 VOLTS/DIV : 10mV 79.004 SET CH 1 AC-GND-DC : DC 79.004 SET CH 2 AC-GND-DC : DC 79.005 DISP Connect the CH 1 (X) and CH 2 (Y) 79.005 DISP inputs in parallel using a BNC TEE. 79.005 DISP Connect the 50 Ohm Termination to the BNC TEE. 79.005 DISP Connect the 5500A SCOPE Output to the 50 Ohm 79.005 DISP Termination. 79.006 ASK- R 79.007 5500 10 60mVpp 10MH LS S6 N L 79.008 ASK+ R 79.009 SET VERT MODE : BOTH, CH 2 INVERT & ADD 79.010 MESS Check that the ADD trace displayed is 79.010 MESS 0.6 divisions or less in amplitude. 79.010 MESS 79.011 EVAL Is the {ADD trace 0.6 divisions or less in amplitude}? 80.001 MESS 80.002 HEAD {COMMON-MODE REJECTION RATIO, STORAGE} 80.003 SET CH 1 VOLTS/DIV : 5mV 80.003 SET CH 2 VOLTS/DIV : 5mV 80.003 SET CH 1 AC-GND-DC : DC 80.003 SET CH 2 AC-GND-DC : DC 80.003 SET SEC/DIV : 20us 80.003 SET VERT MODE : CH 1, NORM 80.004 ASK- R 80.005 5500 5 30mVpp 50kH LS S6 N L 80.006 ASK+ R 80.007 SET VERT MODE : BOTH, CH 2 INVERT & ADD 80.008 5500 5MH mVpp LS S6 S L 80.009 MESS Check that the ADD trace displayed is 80.009 MESS 0.6 divisions or less in amplitude. 80.009 MESS 80.010 EVAL Is the {ADD trace 0.6 divisions or less in amplitude}? 81.001 MESS 81.002 DISP Disconnect the test setup. 81.003 HEAD {HORIZONTAL TESTS} 81.004 DISP CH 1 POSITION : Midrange 81.004 DISP CH 2 POSITION : Midrange 81.004 DISP CH 1 VOLTS/DIV : 0.1V 81.004 DISP CH 2 VOLTS/DIV : 0.1V 81.004 DISP CH 1 VOLTS/DIV VAR : CAL detent 81.004 DISP CH 2 VOLTS/DIV VAR : CAL detent 81.004 DISP CH 1 AC-GND-DC : DC 81.004 DISP CH 2 AC-GND-DC : DC 81.005 DISP VERT MODE : CH 1, NORM 81.005 DISP HORZ POSITION : Midrange 81.005 DISP SEC/DIV : 0.1us 81.005 DISP SEC/DIV VAR : CAL detent 81.005 DISP HORZ MAG : X1 81.006 DISP TRIGGER SLOPE : Positive 81.006 DISP TRIGGER LEVEL : Midrange 81.006 DISP TRIGGER MODE : P-P AUTO 81.006 DISP TRIGGER SOURCE : CH 1 81.007 HEAD {TIMING ACCURACY AND LINEARITY, X1 MAG} 81.008 DISP Connect the 50 Ohm Termination to UUT CH 1 (X). 81.008 DISP Connect the 5500A SCOPE Output 81.008 DISP BNC to the 50 Ohm Termination. 81.009 DISP NOTE: In the following tests, adjust the Trigger LEVEL 81.009 DISP control for a stable, triggered display. 81.009 DISP Also, for accurate reading, align the signal's 81.009 DISP peaks with the horizontal center axis. 81.010 DISP Use the Horizontal POSITION control to align 81.010 DISP the second time marker exactly with the second 81.010 DISP vertical graticule line. 81.010 DISP Slew the 5500A until the tenth time marker is exactly 81.010 DISP aligned with the tenth vertical graticule line. 81.010 DISP You may need to re-adjust the Horizontal POSITION to 81.010 DISP maintain alignment at the second vertical graticule 81.010 DISP line. 81.011 HEAD {TIMING ACCURACY AND LINEARITY, 0.1us/DIV} 81.012 5500 0.1000uT 3% M1 S6 L 82.001 5500 0.1uT M1 S6 S L 82.002 MESS Check that the linearity is with 0.1 divisions 82.002 MESS over any 2 of the center 8 vertical graticule lines. 82.002 MESS 82.003 EVAL Is the {linearity within 0.1 divisions}? 83.001 MESS 83.002 HEAD {TIMING ACCURACY AND LINEARITY, 0.2us/DIV} 83.003 SET CH 1 VOLTS/DIV : 0.5V 83.004 5500 0.2 0.2000uT 3% M1 S6 L 84.001 5500 0.2uT M1 S6 S L 84.002 MESS Check that the linearity is with 0.1 divisions 84.002 MESS over any 2 of the center 8 vertical graticule lines. 84.002 MESS 84.003 EVAL Is the {linearity within 0.1 divisions}? 85.001 MESS 85.002 HEAD {TIMING ACCURACY AND LINEARITY, 0.5us/DIV} 85.003 5500 0.5 0.5000uT 3% M1 S6 L 86.001 5500 0.5uT M1 S6 S L 86.002 MESS Check that the linearity is with 0.1 divisions 86.002 MESS over any 2 of the center 8 vertical graticule lines. 86.002 MESS 86.003 EVAL Is the {linearity within 0.1 divisions}? 87.001 MESS 87.002 HEAD {TIMING ACCURACY AND LINEARITY, 1us/DIV} 87.003 5500 1 1.000uT 3% M1 S6 L 88.001 5500 1uT M1 S6 S L 88.002 MESS Check that the linearity is with 0.1 divisions 88.002 MESS over any 2 of the center 8 vertical graticule lines. 88.002 MESS 88.003 EVAL Is the {linearity within 0.1 divisions}? 89.001 MESS 89.002 HEAD {TIMING ACCURACY AND LINEARITY, 2us/DIV} 89.003 5500 2 2.000uT 3% M1 S6 L 90.001 5500 2uT M1 S6 S L 90.002 MESS Check that the linearity is with 0.1 divisions 90.002 MESS over any 2 of the center 8 vertical graticule lines. 90.002 MESS 90.003 EVAL Is the {linearity within 0.1 divisions}? 91.001 MESS 91.002 HEAD {TIMING ACCURACY AND LINEARITY, 5us/DIV} 91.003 5500 5 5.000uT 3% M1 S6 L 92.001 5500 5uT M1 S6 S L 92.002 MESS Check that the linearity is with 0.1 divisions 92.002 MESS over any 2 of the center 8 vertical graticule lines. 92.002 MESS 92.003 EVAL Is the {linearity within 0.1 divisions}? 93.001 MESS 93.002 HEAD {TIMING ACCURACY AND LINEARITY, 10us/DIV} 93.003 5500 10 10.00uT 3% M1 S6 L 94.001 5500 10uT M1 S6 S L 94.002 MESS Check that the linearity is with 0.1 divisions 94.002 MESS over any 2 of the center 8 vertical graticule lines. 94.002 MESS 94.003 EVAL Is the {linearity within 0.1 divisions}? 95.001 MESS 95.002 HEAD {TIMING ACCURACY AND LINEARITY, 20us/DIV} 95.003 5500 20 20.00uT 3% M1 S6 L 96.001 5500 20uT M1 S6 S L 96.002 MESS Check that the linearity is with 0.1 divisions 96.002 MESS over any 2 of the center 8 vertical graticule lines. 96.002 MESS 96.003 EVAL Is the {linearity within 0.1 divisions}? 97.001 MESS 97.002 HEAD {TIMING ACCURACY AND LINEARITY, 50us/DIV} 97.003 5500 50 50.00uT 3% M1 S6 L 98.001 5500 50uT M1 S6 S L 98.002 MESS Check that the linearity is with 0.1 divisions 98.002 MESS over any 2 of the center 8 vertical graticule lines. 98.002 MESS 98.003 EVAL Is the {linearity within 0.1 divisions}? 99.001 MESS 99.002 HEAD {TIMING ACCURACY AND LINEARITY, 0.1ms/DIV} 99.003 5500 0.1 0.1000mT 3% M1 S6 L 100.001 5500 0.1mT M1 S6 S L 100.002 MESS Check that the linearity is with 0.1 divisions 100.002 MESS over any 2 of the center 8 vertical graticule lines. 100.002 MESS 100.003 EVAL Is the {linearity within 0.1 divisions}? 101.001 MESS 101.002 HEAD {TIMING ACCURACY AND LINEARITY, 0.2ms/DIV} 101.003 5500 0.2 0.2000mT 3% M1 S6 L 102.001 5500 0.2mT M1 S6 S L 102.002 MESS Check that the linearity is with 0.1 divisions 102.002 MESS over any 2 of the center 8 vertical graticule lines. 102.002 MESS 102.003 EVAL Is the {linearity within 0.1 divisions}? 103.001 MESS 103.002 HEAD {TIMING ACCURACY AND LINEARITY, 0.5ms/DIV} 103.003 5500 0.5 0.5000mT 3% M1 S6 L 104.001 5500 0.5mT M1 S6 S L 104.002 MESS Check that the linearity is with 0.1 divisions 104.002 MESS over any 2 of the center 8 vertical graticule lines. 104.002 MESS 104.003 EVAL Is the {linearity within 0.1 divisions}? 105.001 MESS 105.002 HEAD {TIMING ACCURACY AND LINEARITY, 1ms/DIV} 105.003 5500 1 1.000mT 3% M1 S6 L 106.001 5500 1mT M1 S6 S L 106.002 MESS Check that the linearity is with 0.1 divisions 106.002 MESS over any 2 of the center 8 vertical graticule lines. 106.002 MESS 106.003 EVAL Is the {linearity within 0.1 divisions}? 107.001 MESS 107.002 HEAD {TIMING ACCURACY AND LINEARITY, 2ms/DIV} 107.003 5500 2 2.000mT 3% M1 S6 L 108.001 5500 2mT M1 S6 S L 108.002 MESS Check that the linearity is with 0.1 divisions 108.002 MESS over any 2 of the center 8 vertical graticule lines. 108.002 MESS 108.003 EVAL Is the {linearity within 0.1 divisions}? 109.001 MESS 109.002 HEAD {TIMING ACCURACY AND LINEARITY, 5ms/DIV} 109.003 5500 5 5.000mT 3% M1 S6 L 110.001 5500 5mT M1 S6 S L 110.002 MESS Check that the linearity is with 0.1 divisions 110.002 MESS over any 2 of the center 8 vertical graticule lines. 110.002 MESS 110.003 EVAL Is the {linearity within 0.1 divisions}? 111.001 MESS 111.002 HEAD {TIMING ACCURACY AND LINEARITY, 10ms/DIV} 111.003 5500 10 10.00mT 3% M1 S6 L 112.001 5500 10mT M1 S6 S L 112.002 MESS Check that the linearity is with 0.1 divisions 112.002 MESS over any 2 of the center 8 vertical graticule lines. 112.002 MESS 112.003 EVAL Is the {linearity within 0.1 divisions}? 113.001 MESS 113.002 HEAD {TIMING ACCURACY AND LINEARITY, 20ms/DIV} 113.003 5500 20 20.00mT 3% M1 S6 L 114.001 5500 20mT M1 S6 S L 114.002 MESS Check that the linearity is with 0.1 divisions 114.002 MESS over any 2 of the center 8 vertical graticule lines. 114.002 MESS 114.003 EVAL Is the {linearity within 0.1 divisions}? 115.001 MESS 115.002 DISP NOTE: For checking the timing accuracy of the SEC/DIV 115.002 DISP switch settings from 50ms to 0.5s, watch the time marker 115.002 DISP tips only at the second and tenth vertical graticule 115.002 DISP lines while adjusting the Horizontal POSITION control 115.002 DISP to line up the time markers. 115.003 DISP Use the Horizontal POSITION control to align 115.003 DISP the second time marker exactly with the second 115.003 DISP vertical graticule line. 115.003 DISP Slew the 5500A until the tenth time marker is exactly 115.003 DISP aligned with the tenth vertical graticule line. 115.003 DISP You may need to re-adjust the Horizontal POSITION to 115.003 DISP maintain alignment at the second vertical graticule 115.003 DISP line. 115.004 HEAD {TIMING ACCURACY AND LINEARITY, 50ms/DIV} 115.005 5500 50 50.00mT 3% M1 S6 L 116.001 5500 50mT M1 S6 S L 116.002 MESS Check that the linearity is with 0.1 divisions 116.002 MESS over any 2 of the center 8 vertical graticule lines. 116.002 MESS 116.003 EVAL Is the {linearity within 0.1 divisions}? 117.001 MESS 117.002 HEAD {TIMING ACCURACY AND LINEARITY, 0.1s/DIV} 117.003 MESS Use the Horizontal POSITION control to align 117.003 MESS the second time marker exactly with the second 117.003 MESS vertical graticule line. 117.003 MESS Slew the 5500A until the tenth time marker is exactly 117.003 MESS aligned with the tenth vertical graticule line. 117.003 MESS You may need to re-adjust the Horizontal POSITION to 117.003 MESS maintain alignment at the second vertical graticule 117.003 MESS line. 117.004 5500 0.1 0.100T 3% M1 S6 L 118.001 5500 0.1T M1 S6 S L 118.002 MESS Check that the linearity is with 0.1 divisions 118.002 MESS over any 2 of the center 8 vertical graticule lines. 118.002 MESS 118.003 EVAL Is the {linearity within 0.1 divisions}? 119.001 MESS 119.002 HEAD {TIMING ACCURACY AND LINEARITY, 0.2s/DIV} 119.003 5500 0.2 0.200T 3% M1 S6 L 120.001 5500 0.2T M1 S6 S L 120.002 MESS Check that the linearity is with 0.1 divisions 120.002 MESS over any 2 of the center 8 vertical graticule lines. 120.002 MESS 120.003 EVAL Is the {linearity within 0.1 divisions}? 121.001 MESS 121.002 HEAD {TIMING ACCURACY AND LINEARITY, 0.5s/DIV} 121.003 5500 0.5 0.500T 3% M1 S6 L #! WARNING: Test Tol 0.015, Sys Tol 0.003791, TUR 3.9567 (< 4.00). # BEST TUR WITH AVAILABLE EQUIPMENT 122.001 5500 0.5T M1 S6 S L 122.002 MESS Check that the linearity is with 0.1 divisions 122.002 MESS over any 2 of the center 8 vertical graticule lines. 122.002 MESS 122.003 EVAL Is the {linearity within 0.1 divisions}? 123.001 MESS 123.002 HEAD {TIMING ACCURACY AND LINEARITY, X10 MAG} 123.003 SET CH 1 VOLTS/DIV : 5mV 123.003 SET SEC/DIV : 0.1us 123.003 SET HORZ MAG : X10 123.004 DISP Use the Horizontal POSITION control to align the 123.004 DISP first time marker that is 50ns beyond the start 123.004 DISP of the sweep with the second vertical graticule line. 123.004 DISP Slew the 5500A until the tenth time marker is exactly 123.004 DISP aligned with the tenth vertical graticule line. 123.004 DISP You may need to re-adjust the Horizontal POSITION to 123.004 DISP maintain alignment at the second vertical graticule 123.004 DISP line. 123.005 HEAD {TIMING ACCURACY AND LINEARITY, 10ns/DIV} 123.006 5500 10.00nT 4% M4 S6 L 124.001 5500 10nT M4 S6 S L 124.002 MESS Check that the linearity is with 0.16 divisions 124.002 MESS over any 2 of the center 8 vertical graticule lines. 124.002 MESS Exclude any portion of the sweep beyond the 50th 124.002 MESS magnified div.ion. 124.002 MESS 124.003 EVAL Is the {linearity within 0.16 divisions}? 125.001 MESS 125.002 HEAD {TIMING ACCURACY AND LINEARITY, 20ns/DIV} 125.003 SET CH 1 VOLTS/DIV : 50mV 125.004 5500 0.2 0.02000uT 4% M1 S6 L 126.001 5500 20nT M1 S6 S L 126.002 MESS Check that the linearity is with 0.16 divisions 126.002 MESS over any 2 of the center 8 vertical graticule lines. 126.002 MESS Exclude any portion of the sweep beyond the 50th 126.002 MESS magnified div.ion. 126.002 MESS 126.003 EVAL Is the {linearity within 0.16 divisions}? 127.001 MESS 127.002 HEAD {TIMING ACCURACY AND LINEARITY, 50ns/DIV} 127.003 SET CH 1 VOLTS/DIV : 0.1V 127.004 5500 0.5 0.05000uT 4% M1 S6 L 128.001 5500 50nT M1 S6 S L 128.002 MESS Check that the linearity is with 0.16 divisions 128.002 MESS over any 2 of the center 8 vertical graticule lines. 128.002 MESS Exclude any portion of the sweep beyond the 50th 128.002 MESS magnified div.ion. 128.002 MESS 128.003 EVAL Is the {linearity within 0.16 divisions}? 129.001 MESS 129.002 HEAD {TIMING ACCURACY AND LINEARITY, 0.1us/DIV} 129.003 5500 1 0.1000uT 4% M1 S6 L 130.001 5500 0.1uT M1 S6 S L 130.002 MESS Check that the linearity is with 0.16 divisions 130.002 MESS over any 2 of the center 8 vertical graticule lines. 130.002 MESS Exclude any portion of the sweep beyond the 50th 130.002 MESS magnified div.ion. 130.002 MESS 130.003 EVAL Is the {linearity within 0.16 divisions}? 131.001 MESS 131.002 HEAD {TIMING ACCURACY AND LINEARITY, 0.2us/DIV} 131.003 SET CH 1 VOLTS/DIV : 0.5V 131.004 5500 2 0.2000uT 4% M1 S6 L 132.001 5500 0.2uT M1 S6 S L 132.002 MESS Check that the linearity is with 0.16 divisions 132.002 MESS over any 2 of the center 8 vertical graticule lines. 132.002 MESS Exclude any portion of the sweep beyond the 50th 132.002 MESS magnified div.ion. 132.002 MESS 132.003 EVAL Is the {linearity within 0.16 divisions}? 133.001 MESS 133.002 HEAD {TIMING ACCURACY AND LINEARITY, 0.5us/DIV} 133.003 5500 5 0.5000uT 4% M1 S6 L 134.001 5500 0.5uT M1 S6 S L 134.002 MESS Check that the linearity is with 0.16 divisions 134.002 MESS over any 2 of the center 8 vertical graticule lines. 134.002 MESS Exclude any portion of the sweep beyond the 50th 134.002 MESS magnified div.ion. 134.002 MESS 134.003 EVAL Is the {linearity within 0.16 divisions}? 135.001 MESS 135.002 HEAD {TIMING ACCURACY AND LINEARITY, 1us/DIV} 135.003 5500 10 1.00uT 4% M1 S6 L 136.001 5500 1uT M1 S6 S L 136.002 MESS Check that the linearity is with 0.16 divisions 136.002 MESS over any 2 of the center 8 vertical graticule lines. 136.002 MESS Exclude any portion of the sweep beyond the 50th 136.002 MESS magnified div.ion. 136.002 MESS 136.003 EVAL Is the {linearity within 0.16 divisions}? 137.001 MESS 137.002 HEAD {TIMING ACCURACY AND LINEARITY, 2us/DIV} 137.003 5500 20 2.00uT 4% M1 S6 L 138.001 5500 2uT M1 S6 S L 138.002 MESS Check that the linearity is with 0.16 divisions 138.002 MESS over any 2 of the center 8 vertical graticule lines. 138.002 MESS Exclude any portion of the sweep beyond the 50th 138.002 MESS magnified div.ion. 138.002 MESS 138.003 EVAL Is the {linearity within 0.16 divisions}? 139.001 MESS 139.002 HEAD {TIMING ACCURACY AND LINEARITY, 5us/DIV} 139.003 5500 50 5.00uT 4% M1 S6 L 140.001 5500 5uT M1 S6 S L 140.002 MESS Check that the linearity is with 0.16 divisions 140.002 MESS over any 2 of the center 8 vertical graticule lines. 140.002 MESS Exclude any portion of the sweep beyond the 50th 140.002 MESS magnified div.ion. 140.002 MESS 140.003 EVAL Is the {linearity within 0.16 divisions}? 141.001 MESS 141.002 HEAD {TIMING ACCURACY AND LINEARITY, 10us/DIV} 141.003 5500 0.1 0.01000mT 4% M1 S6 L 142.001 5500 10uT M1 S6 S L 142.002 MESS Check that the linearity is with 0.16 divisions 142.002 MESS over any 2 of the center 8 vertical graticule lines. 142.002 MESS Exclude any portion of the sweep beyond the 50th 142.002 MESS magnified div.ion. 142.002 MESS 142.003 EVAL Is the {linearity within 0.16 divisions}? 143.001 MESS 143.002 HEAD {TIMING ACCURACY AND LINEARITY, 20us/DIV} 143.003 5500 0.2 0.02000mT 4% M1 S6 L 144.001 5500 20uT M1 S6 S L 144.002 MESS Check that the linearity is with 0.16 divisions 144.002 MESS over any 2 of the center 8 vertical graticule lines. 144.002 MESS Exclude any portion of the sweep beyond the 50th 144.002 MESS magnified div.ion. 144.002 MESS 144.003 EVAL Is the {linearity within 0.16 divisions}? 145.001 MESS 145.002 HEAD {TIMING ACCURACY AND LINEARITY, 50us/DIV} 145.003 5500 0.5 0.05000mT 4% M1 S6 L 146.001 5500 50uT M1 S6 S L 146.002 MESS Check that the linearity is with 0.16 divisions 146.002 MESS over any 2 of the center 8 vertical graticule lines. 146.002 MESS Exclude any portion of the sweep beyond the 50th 146.002 MESS magnified div.ion. 146.002 MESS 146.003 EVAL Is the {linearity within 0.16 divisions}? 147.001 MESS 147.002 HEAD {TIMING ACCURACY AND LINEARITY, 0.1ms/DIV} 147.003 5500 1 0.1000mT 4% M1 S6 L 148.001 5500 0.1mT M1 S6 S L 148.002 MESS Check that the linearity is with 0.16 divisions 148.002 MESS over any 2 of the center 8 vertical graticule lines. 148.002 MESS Exclude any portion of the sweep beyond the 50th 148.002 MESS magnified div.ion. 148.002 MESS 148.003 EVAL Is the {linearity within 0.16 divisions}? 149.001 MESS 149.002 HEAD {TIMING ACCURACY AND LINEARITY, 0.2ms/DIV} 149.003 5500 2 0.2000mT 4% M1 S6 L 150.001 5500 0.2mT M1 S6 S L 150.002 MESS Check that the linearity is with 0.16 divisions 150.002 MESS over any 2 of the center 8 vertical graticule lines. 150.002 MESS Exclude any portion of the sweep beyond the 50th 150.002 MESS magnified div.ion. 150.002 MESS 150.003 EVAL Is the {linearity within 0.16 divisions}? 151.001 MESS 151.002 HEAD {TIMING ACCURACY AND LINEARITY, 0.5ms/DIV} 151.003 5500 5 0.5000mT 4% M1 S6 L 152.001 5500 0.5mT M1 S6 S L 152.002 MESS Check that the linearity is with 0.16 divisions 152.002 MESS over any 2 of the center 8 vertical graticule lines. 152.002 MESS Exclude any portion of the sweep beyond the 50th 152.002 MESS magnified div.ion. 152.002 MESS 152.003 EVAL Is the {linearity within 0.16 divisions}? 153.001 MESS 153.002 HEAD {TIMING ACCURACY AND LINEARITY, 1.0ms/DIV} 153.003 5500 10 1.00mT 4% M1 S6 L 154.001 5500 1mT M1 S6 S L 154.002 MESS Check that the linearity is with 0.16 divisions 154.002 MESS over any 2 of the center 8 vertical graticule lines. 154.002 MESS Exclude any portion of the sweep beyond the 50th 154.002 MESS magnified div.ion. 154.002 MESS 154.003 EVAL Is the {linearity within 0.16 divisions}? 155.001 MESS 155.002 HEAD {TIMING ACCURACY AND LINEARITY, 2.0ms/DIV} 155.003 5500 20 2.00mT 4% M1 S6 L 156.001 5500 2mT M1 S6 S L 156.002 MESS Check that the linearity is with 0.16 divisions 156.002 MESS over any 2 of the center 8 vertical graticule lines. 156.002 MESS Exclude any portion of the sweep beyond the 50th 156.002 MESS magnified div.ion. 156.002 MESS 156.003 EVAL Is the {linearity within 0.16 divisions}? 157.001 MESS 157.002 HEAD {TIMING ACCURACY AND LINEARITY, 5.0ms/DIV} 157.003 5500 50 5.00mT 4% M1 S6 L 158.001 5500 5mT M1 S6 S L 158.002 MESS Check that the linearity is with 0.16 divisions 158.002 MESS over any 2 of the center 8 vertical graticule lines. 158.002 MESS Exclude any portion of the sweep beyond the 50th 158.002 MESS magnified div.ion. 158.002 MESS 158.003 EVAL Is the {linearity within 0.16 divisions}? 159.001 MESS 159.002 HEAD {TIMING ACCURACY AND LINEARITY, 10ms/DIV} 159.003 5500 0.1 0.01000T 4% M1 S6 L 160.001 5500 10mT M1 S6 S L 160.002 MESS Check that the linearity is with 0.16 divisions 160.002 MESS over any 2 of the center 8 vertical graticule lines. 160.002 MESS Exclude any portion of the sweep beyond the 50th 160.002 MESS magnified div.ion. 160.002 MESS 160.003 EVAL Is the {linearity within 0.16 divisions}? 161.001 MESS 161.002 HEAD {TIMING ACCURACY AND LINEARITY, 20ms/DIV} 161.003 5500 0.2 0.02000T 4% M1 S6 L 162.001 5500 20mT M1 S6 S L 162.002 MESS Check that the linearity is with 0.16 divisions 162.002 MESS over any 2 of the center 8 vertical graticule lines. 162.002 MESS Exclude any portion of the sweep beyond the 50th 162.002 MESS magnified div.ion. 162.002 MESS 162.003 EVAL Is the {linearity within 0.16 divisions}? 163.001 MESS 163.002 HEAD {TIMING ACCURACY AND LINEARITY, 50ms/DIV} 163.003 5500 0.5 0.05000T 4% M1 S6 L 164.001 5500 0.05T M1 S6 S L 164.002 MESS Check that the linearity is with 0.16 divisions 164.002 MESS over any 2 of the center 8 vertical graticule lines. 164.002 MESS Exclude any portion of the sweep beyond the 50th 164.002 MESS magnified div.ion. 164.002 MESS 164.003 EVAL Is the {linearity within 0.16 divisions}? 165.001 MESS 165.002 HEAD {SWEEP LENGTH} 165.003 SET SEC/DIV : 0.1ms 165.003 SET HORZ MAG : X1 165.003 SET CH 1 VOLT/DIV : 0.5V 165.004 5500 0.1mT M1 S6 S L 165.005 DISP Position the start of the sweep at the first 165.005 DISP vertical graticule line using the Horizontal 165.005 DISP POSITION control. 165.006 MESS Check that the sweep length is between 10.2 165.006 MESS and 12 divisions. 165.006 MESS 165.007 EVAL Is the {sweep length between 10.2 and 12 divisions}? 166.001 HEAD {HORIZONTAL POSITION RANGE} 166.002 5500 0.1mT M1 S6 S L 166.003 MESS Check that the start of the sweep can be positioned 166.003 MESS to the right of the center verticle graticule line 166.003 MESS by rotating the Horizontal POSITION control fully CW. 166.003 MESS 166.004 EVAL Is the {sweep start positioned right of center verticle}? 167.001 5500 0.1mT M1 S6 S L 167.002 MESS Check that the tenth time marker can be positioned 167.002 MESS to the left of the center verticle graticule line 167.002 MESS by rotating the Horizontal POSITION control fully CCW. 167.002 MESS 167.003 EVAL Is the {tenth marker positioned left of center verticle}? 168.001 HEAD {SEC/DIV VARIABLE RANGE} 168.002 5500 0.5mT M1 S6 S L 168.003 DISP Set the SEC/DIV Variable (CAL) control fully CCW. 168.004 MESS Check that the spacing between time markers 168.004 MESS is 2 divisions or less. 168.004 MESS 168.005 EVAL Is the {spacing between markers 2 divisions or less}? 169.001 DISP Return SEC/DIV Variable (CAL) control to 169.001 DISP the CAL detent position. 169.002 DISP Disconnect test equipment from UUT. 169.003 HEAD {X GAIN} 169.004 SET CH 2 VOLTS/DIV : 10mV 169.004 SET CH 2 VOLTS/DIV : 10mV 169.004 SET SEC/DIV : X-Y (fully CCW) 169.005 DISP Connect the 5500A SCOPE Output to UUT CH 1 (X). 169.006 MESS You may adjust the Horizontal POSITION if required. 169.007 ASK- R 169.008 5500 0.01 0.05000V 5% 1kH ZQ S6 170.001 ASK+ R 170.002 DISP Disconnect test equipment from the UUT. 170.003 HEAD {X BANDWIDTH} 170.004 SET CH 1 VOLTS/DIV : 50mV 170.004 SET CH 2 VOLTS/DIV : 50mV 170.005 DISP Connect the 50 Ohm Termination to UUT CH 1 (X). 170.005 DISP Connect the 5500A SCOPE Output 170.005 DISP to the 50 Ohm Termination. 170.006 ASK- R 170.007 5500 50 400mVpp 50kH LS S6 N L 170.008 ASK+ R 170.009 ASK- N 170.010 MESS Adjust stimulus for a UUT horizontal deflection of 5.7. 170.010 MESS divisions. 170.011 5500 2.000MH -1000% mVpp LS S6 L #! T.U.R. not calculated because MOD1 value not specified. 171.001 MESS 171.002 ASK+ N 171.003 HEAD {TRIGGER TESTS} 171.004 SET CH 1 VERT POSITION : Midrange 171.004 SET CH 2 VERT POSITION : Midrange 171.004 SET VERT MODE : CH 1, NORM 171.004 SET CH 1 VOLTS/DIV : 0.1V 171.004 SET CH 2 VOLTS/DIV : 1V 171.004 SET CH 1 AC-GND-DC : DC 171.004 SET CH 2 AC-GND-DC : DC 171.005 SET HORZ POSITION : Midrange 171.005 SET SEC/DIV : 0.2us 171.005 SET HORZ MAG : X1 171.006 SET TRIGGER SLOPE : Positive 171.006 SET TRIGGER LEVEL : Midrange 171.006 SET TRIGGER MODE : P-P AUTO 171.006 SET TRIGGER SOURCE : VERT MODE 171.007 HEAD {TRIGGER SENSITIVITY} 171.008 DISP The 5500A should still be connected to 171.008 DISP UUT CH 1 (X) from the previous tests. 171.009 MESS Slew the 5500A amplitude to produce a 3.5 div.ion 171.009 MESS vertical deflection. 171.010 5500 350mVpp 5MH LS S6 N L 171.011 SET CH 1 VOLTS/DIV : 1V 171.011 SET TRIGGER MODE : NORM 171.012 HEAD {TRIGGER MODE NORMAL, SLOPE POSITIVE, CH 1 (X)} 171.013 MESS Check that a stable display can be obtained by adjusting 171.013 MESS the Trigger LEVEL control. Ensure that the TRIG'D light 171.013 MESS comes on when the UUT is triggered. 171.013 MESS 171.014 EVAL Is the {display stable and TRIG'D light on when triggered}? 172.001 HEAD {TRIGGER MODE NORMAL, SLOPE NEGATIVE, CH 1 (X)} 172.002 DISP Set the TRIGGER SLOPE to NEGATIVE. 172.003 IEEE [@5500]OPER 172.004 MESS Check that a stable display can be obtained by adjusting 172.004 MESS the Trigger LEVEL control. Ensure that the TRIG'D light 172.004 MESS comes on when the UUT is triggered. 172.004 MESS 172.005 EVAL Is the {display stable and TRIG'D light on when triggered}? 173.001 HEAD {TRIGGER MODE P-P AUTO, SLOPE NEGATIVE, CH 1 (X)} 173.002 SET TRIGGER MODE to P-P AUTO. 173.003 IEEE [@5500]OPER 173.004 MESS Check that a stable display can be obtained by adjusting 173.004 MESS the Trigger LEVEL control. Ensure that the TRIG'D light 173.004 MESS comes on when the UUT is triggered. 173.004 MESS 173.005 EVAL Is the {display stable and TRIG'D light on when triggered}? 174.001 HEAD {TRIGGER MODE P-P AUTO, SLOPE POSITIVE, CH 1 (X)} 174.002 DISP Set the TRIGGER SLOPE to POSITIVE. 174.003 IEEE [@5500]OPER 174.004 MESS Check that a stable display can be obtained by adjusting 174.004 MESS the Trigger LEVEL control. Ensure that the TRIG'D light 174.004 MESS comes on when the UUT is triggered. 174.004 MESS 174.005 EVAL Is the {display stable and TRIG'D light on when triggered}? 175.001 DISP Move the test signal cable from UUT CH 1 (X) 175.001 DISP to UUT CH 2 (Y). 175.002 SET VERT MODE : CH 2 175.002 SET TRIGGER MODE : NORM 175.003 IEEE [@5500]OPER 175.004 HEAD {TRIGGER MODE NORMAL, SLOPE POSITIVE, CH 2 (Y)} 175.005 MESS Check that a stable display can be obtained by adjusting 175.005 MESS the Trigger LEVEL control. Ensure that the TRIG'D light 175.005 MESS comes on when the UUT is triggered. 175.005 MESS 175.006 EVAL Is the {display stable and TRIG'D light on when triggered}? 176.001 HEAD {TRIGGER MODE NORMAL, SLOPE NEGATIVE, CH 2 (Y)} 176.002 DISP Set the TRIGGER SLOPE to NEGATIVE. 176.003 IEEE [@5500]OPER 176.004 MESS Check that a stable display can be obtained by adjusting 176.004 MESS the Trigger LEVEL control. Ensure that the TRIG'D light 176.004 MESS comes on when the UUT is triggered. 176.004 MESS 176.005 EVAL Is the {display stable and TRIG'D light on when triggered}? 177.001 HEAD {TRIGGER MODE P-P AUTO, SLOPE NEGATIVE, CH 2 (Y)} 177.002 SET TRIGGER MODE : P-P AUTO 177.003 IEEE [@5500]OPER 177.004 MESS Check that a stable display can be obtained by adjusting 177.004 MESS the Trigger LEVEL control. Ensure that the TRIG'D light 177.004 MESS comes on when the UUT is triggered. 177.004 MESS 177.005 EVAL Is the {display stable and TRIG'D light on when triggered}? 178.001 HEAD {TRIGGER MODE P-P AUTO, SLOPE POSITIVE, CH 2 (Y)} 178.002 SET TRIGGER SLOPE : POSITIVE. 178.003 IEEE [@5500]OPER 178.004 MESS Check that a stable display can be obtained by adjusting 178.004 MESS the Trigger LEVEL control. Ensure that the TRIG'D light 178.004 MESS comes on when the UUT is triggered. 178.004 MESS 178.005 EVAL Is the {display stable and TRIG'D light on when triggered}? 179.001 5500 * S 179.002 DISP Disconnect test equipment from the UUT. 179.003 HEAD {TRIGGER SENSITIVITY, EXTERNAL TRIGGER ON} 179.004 SET CH 1 VOLTS/DIV : 10mV 179.004 SET TRIGGER MODE : P-P AUTO 179.004 SET TRIGGER SOURCE : EXT,EXT 179.004 SET VERT MODE : CH 1 179.005 DISP Connect the 50 Ohm Termination to EXT INPUT OR Z BNC. 179.005 DISP Connect a BNC TEE to UUT CH 1 (X). 179.005 DISP Connect the 5500A SCOPE Output 179.005 DISP to the BNC TEE at CH 1 (X) on the UUT. 179.005 DISP Connect the other side of the BNC TEE to 179.005 DISP to the 50 Ohm Termination. 179.006 ASK- R 179.007 5500 10 40mVpp 5MH LS S6 N L 179.008 ASK+ R 179.009 SET TRIGGER MODE : NORM 179.010 HEAD {TRIGGER MODE NORMAL, SLOPE POSITIVE, CH 1 (X)} 179.011 MESS Check that a stable display can be obtained by adjusting 179.011 MESS the Trigger LEVEL control. Ensure that the TRIG'D light 179.011 MESS comes on when the UUT is triggered. 179.011 MESS 179.012 EVAL Is the {display stable and TRIG'D light on when triggered}? 180.001 HEAD {TRIGGER MODE NORMAL, SLOPE NEGATIVE, CH 1 (X)} 180.002 SET TRIGGER SLOPE : NEGATIVE 180.003 IEEE [@5500]OPER 180.004 MESS Check that a stable display can be obtained by adjusting 180.004 MESS the Trigger LEVEL control. Ensure that the TRIG'D light 180.004 MESS comes on when the UUT is triggered. 180.004 MESS 180.005 EVAL Is the {display stable and TRIG'D light on when triggered}? 181.001 HEAD {TRIGGER MODE P-P AUTO, SLOPE NEGATIVE, CH 1 (X)} 181.002 SET TRIGGER MODE : P-P AUTO 181.003 IEEE [@5500]OPER 181.004 MESS Check that a stable display can be obtained by adjusting 181.004 MESS the Trigger LEVEL control. Ensure that the TRIG'D light 181.004 MESS comes on when the UUT is triggered. 181.004 MESS 181.005 EVAL Is the {display stable and TRIG'D light on when triggered}? 182.001 HEAD {TRIGGER MODE P-P AUTO, SLOPE POSITIVE, CH 1 (X)} 182.002 SET TRIGGER SLOPE : POSITIVE 182.003 IEEE [@5500]OPER 182.004 MESS Check that a stable display can be obtained by adjusting 182.004 MESS the Trigger LEVEL control. Ensure that the TRIG'D light 182.004 MESS comes on when the UUT is triggered. 182.004 MESS 182.005 EVAL Is the {display stable and TRIG'D light on when triggered}? 183.001 5500 * S 183.002 DISP Disconnect test equipment from the UUT. 183.003 HEAD {LF P-P AUTO TRIGGER} 183.004 SET CH 1 VOLTS/DIV : 0.1V 183.004 SET SEC/DIV : 20ms 183.004 SET TRIGGER MODE : P-P AUTO 183.004 SET TRIGGER SOURCE : CH 1 183.005 DISP Connect the 50 Ohm Termination to UUT CH 1 (X). 183.005 DISP Connect the HP 33120A OUTPUT to the 50 Ohm Termination. 183.006 IEEE [@33120A]*RST;*CLS 183.007 IEEE [@33120A]FREQ 20;VOLT 0.1 183.008 IEEE [@33120A][GTL] 183.009 DISP Slew the HP 33120A amplitude for a 1 div.ion 183.009 DISP vertical deflection on the UUT. 183.010 MESS Check for stable triggering in both positive and 183.010 MESS negative slopes. Ensure that the TRIG'D light 183.010 MESS comes on when triggered. 183.010 MESS 183.011 EVAL Is the {display stable and TRIG'D light on when triggered}? 184.001 DISP Disconnect test equipment from the UUT. 184.002 HEAD {EXTERNAL TRIGGER RANGE} 184.003 SET CH 1 VOLTS/DIV : 0.5V 184.003 SET SEC/DIV : 20us 184.003 SET TRIGGER SLOPE : Positive 184.004 DISP Connect the 50 Ohm Termination to EXT INPUT OR Z BNC. 184.004 DISP Connect a BNC TEE to UUT CH 1 (X). 184.004 DISP Connect the 5500A SCOPE Output 184.004 DISP to the BNC TEE at CH 1 (X) on the UUT. 184.004 DISP Connect the other side of the BNC TEE to 184.004 DISP to the 50 Ohm Termination. 184.005 ASK- R 184.006 5500 0.5 2.5Vpp 50kH LS S6 N L 184.007 ASK+ R 184.008 DISP Position the waveform equally about the center 184.008 DISP horizontal graticule line. 184.009 SET TRIGGER MODE : NORM 184.009 SET TRIGGER SOURCE : EXT,EXT 184.010 MESS Check that the display is NOT triggered at either 184.010 MESS extreme of rotation of the Trigger LEVEL control. 184.010 MESS 184.011 EVAL Is the {UUT not triggered at Trigger LEVEL extremes}? 185.001 SET TRIGGER SOURCE : EXT/10 185.002 IEEE [@5500]OPER 185.003 MESS Check that the display can be triggered about the 185.003 MESS midrange of the Trigger LEVEL control. 185.003 MESS 185.004 EVAL Is the {UUT triggered about the midrange of Trigger LEVEL}? 186.001 SET TRIGGER SLOPE : NEGATIVE 186.002 IEEE [@5500]OPER 186.003 MESS Check that the display can be triggered about the 186.004 MESS midrange of the Trigger LEVEL control. 186.005 MESS 186.006 EVAL Is the {UUT triggered about the midrange of Trigger LEVEL}? 187.001 DISP Disconnect test equipment from the UUT. 187.002 HEAD {SINGLE SWEEP OPERATION} 187.003 SET CH 1 VOLTS/DIV : 10mV 187.003 SET SEC/DIV : 0.5ms 187.003 SET TRIGGER SOURCE : CH 1 187.003 SET TRIGGER SLOPE : Positive 187.004 DISP Connect the 5500A SCOPE Output to UUT CH 1 (X). 187.005 5500 50mVpp 1kH ZQ S6 S 187.006 DISP Adjust the Trigger LEVEL control to 187.006 DISP obtain a stable display. 187.007 SET CH 1 AC-GND-DC : GND 187.007 SET TRIGGER MODE : SGL SWP 187.008 DISP Press the SGL SWP RESET button. The READY 187.008 DISP light should light up and remain on. 187.009 SET CH 1 AC-GND-DC : DC 187.010 DISP NOTE: The INTENSITY control may require adjustment 187.010 DISP to observe the single-sweep trace. 187.011 MESS Check that the READY light goes out 187.011 MESS and a single sweep occurs. 187.011 MESS 187.012 EVAL Does the {READY light go out and single sweep occur}? 188.001 IEEE [@5500]OPER 188.002 DISP Press the SGL SWP RESET button several times. 188.003 MESS Check that a single-sweep trace occurs and the READY 188.003 MESS light comes on briefly every time the SGL SWP RESET 188.003 MESS button is pressed. 188.003 MESS 188.004 EVAL Does the {READY light come on and single sweep occur}? 189.001 5500 * S 189.002 DISP Disconnect test equipment from the UUT. 189.003 HEAD {EXTERNAL Z-AXIS AND PROBE ADJUST} 189.004 SET CH 1 VERT POSITION : Midrange 189.004 SET CH 2 VERT POSITION : Midrange 189.004 SET VERT MODE : CH 1, NORM 189.004 SET CH 1 VOLTS/DIV : 1V 189.004 SET CH 1 AC-GND-DC : DC 189.004 SET HORZ POSITION : Midrange 189.004 SET SEC/DIV : 20us 189.004 SET HORZ MAG : X1 189.005 SET TRIGGER SLOPE : Positive 189.005 SET TRIGGER LEVEL : Midrange 189.005 SET TRIGGER MODE : P-P AUTO 189.005 SET TRIGGER SOURCE : EXT, EXT=Z 189.006 HEAD {EXTERNAL Z-AXIS OPERATION} 189.007 DISP Connect the 50 Ohm Termination to EXT INPUT OR Z BNC. 189.007 DISP Connect a BNC TEE to UUT CH 1 (X). 189.007 DISP Connect the 5500A SCOPE Output 189.007 DISP to the BNC TEE at CH 1 (X) on the UUT. 189.007 DISP Connect the other side of the BNC TEE to 189.007 DISP to the 50 Ohm Termination. 189.008 MESS NOTE: The INTENSITY level may need adjustment to 189.008 MESS view the intensity modulation on the displayed waveform. 189.009 ASK- R 189.010 5500 1 5Vpp 50kH LS S6 N L 189.011 ASK+ R 189.012 MESS Check for noticeable intensity modulation. The positive 189.012 MESS part of the sine wave should be of lower intensity 189.012 MESS than the negative part. 189.012 MESS 189.013 EVAL Does the {External Z-Axis operate properly} as described? 190.001 DISP Disconnect test equipment from the UUT. 190.002 HEAD {PROBE ADJUST OPERATION} 190.003 SET CH 1 VOLTS/DIV : 10mV 190.003 SET SEC/DIV : 0.5ms 190.003 SET TRIGGER SOURCE : CH 1 190.004 DISP Connect a 10X Probe to CH 1 (X) and clip 190.004 DISP the probe tip to the PROBE connector on the UUT front 190.004 DISP panel. If necessary, adjust the probe compensation for 190.004 DISP a flat-topped square wave display. 190.005 MESS Check that the display amplitude 190.005 MESS is 4.75 to 5.75 divisions. 190.005 MESS 190.006 EVAL Is the {display amplitude 4.75 to 5.75 divisions}? 191.001 DISP Disconnect test equipment from the UUT. 191.002 HEAD {STORAGE} 191.003 SET VERT MODE : BOTH, ADD, NORM 191.004 SET CH 1 VERT POSITION : Midrange 191.004 SET CH 2 VERT POSITION : Midrange 191.004 SET CH 1 VOLTS/DIV : 20mV 191.004 SET CH 2 VOLTS/DIV : 20mV 191.004 SET CH 1 VOLTS/DIV VAR : CAL detent 191.004 SET CH 2 VOLTS/DIV VAR : CAL detent 191.004 SET CH 1 AC-GND-DC : DC 191.004 SET CH 2 AC-GND-DC : DC 191.005 SET HORZ POSITION : Midrange 191.005 SET SEC/DIV : 0.2ms 191.005 SET SEC/DIV VAR : CAL detent 191.005 SET HORZ MAG : X1 191.005 SET TRIGGER SLOPE : Positive 191.005 SET TRIGGER LEVEL : Midrange 191.005 SET TRIGGER MODE : P-P AUTO 191.005 SET TRIGGER SOURCE : VERT MODE 191.006 DISP Set STORE/NON-STORE to NON-STORE. 191.006 DISP Set PRE-TRIG 0%/50% to 0%. 191.006 DISP Set SAVE/CONTINUE to CONTINUE. 191.006 DISP Set SAVE REF/ERASE to ERASE. 191.007 HEAD {STORAGE VOLTS/DIV ACCURACY} 191.008 RSLT = See the VERTICAL section for Storage VOLTS/DIV Tests 191.009 HEAD {STORAGE ADD MODE} 191.010 DISP Connect the 5500A SCOPE Output via a 191.010 DISP BNC TEE to both CH 1 (X) and CH 2 (Y) inputs. 191.011 5500 50mVpp 1kH ZQ S6 S 191.012 DISP Position the displayed waveform around the 191.012 DISP center horizontal graticule line. 191.013 DISP Set the STORE/NON-STORE to STORE. 191.014 ACC 5.00div. 0.015U 191.015 MEMI Enter the number of div.ion of vertical deflection 191.016 MEME 191.017 MEMC div. 0.12U 192.001 DISP Disconnect test equipment from the UUT. 192.002 HEAD {CH 1 STORAGE BALANCE} 192.003 SET VERT MODE : CH 1, NORM 192.003 SET CH 1 VOLTS/DIV : 5mV 192.003 SET CH 1 AC-GND-DC : GND 192.003 SET TRIGGER SOURCE : EXT, EXT 192.004 DISP Set STORE/NON-STORE to NON-STORE. 192.005 DISP Position the trace to the center horizontal graticule 192.005 DISP line using the CH 1 POSITION control. 192.006 DISP Set the STORE/NON-STORE switch to STORE. 192.007 MESS Check that the trace is positioned within 0.5 divisions 192.007 MESS of the center horizontal graticule line. 192.007 MESS 192.008 EVAL Is the {trace within 0.5 divisions}? 193.001 HEAD {CH 2 STORAGE BALANCE} 193.002 SET VERT MODE : CH 2, NORM 193.002 SET CH 2 VOLTS/DIV : 5mV 193.002 SET CH 2 AC-GND-DC : GND 193.003 DISP Set STORE/NON-STORE to NON-STORE. 193.004 DISP Position the trace to the center horizontal graticule 193.004 DISP line using the CH 2 POSITION control. 193.005 DISP Set the STORE/NON-STORE switch to STORE. 193.006 MESS Check that the trace is positioned within 0.5 divisions 193.006 MESS of the center horizontal graticule line. 193.006 MESS 193.007 EVAL Is the {trace within 0.5 divisions}? 194.001 HEAD {ADD STORAGE BALANCE} 194.002 SET VERT MODE : BOTH, ADD 194.003 DISP Set STORE/NON-STORE to NON-STORE. 194.004 DISP Position the trace to the center horizontal 194.004 DISP graticule line. 194.005 DISP Set the STORE/NON-STORE switch to STORE. 194.006 MESS Check that the trace is positioned within 0.5 divisions 194.006 MESS of the center horizontal graticule line. 194.006 MESS 194.007 EVAL Is the {trace within 0.5 divisions}? 195.001 HEAD {STORAGE BANDWIDTH} 195.002 RSLT = See VERTICAL section for Storage Bandwidth Tests 195.003 HEAD {STORAGE CHANNEL ISOLATION} 195.004 RSLT = See VERTICAL section for Storage Channel 195.005 RSLT = Isolation Tests 195.006 HEAD {STORAGE COMMON MODE REJECTION RATIO} 195.007 RSLT = See VERTICAL section for Storage Common Mode Rejection 195.008 RSLT = Ratio Tests 195.009 HEAD {DISPLAY AND SAVE REF} 195.010 SET VERT MODE : CH 1 195.010 SET CH 1 AC-GND-DC : GND 195.011 DISP Set STORE/NON-STORE to NON-STORE. 195.012 DISP Set STORE/NON-STORE to STORE and press SAVE REF/ERASE. 195.013 MESS Check that the SAVE trace has appeared by moving 195.013 MESS the CH 1 display using the POSITION control. 195.013 MESS 195.014 EVAL Does the {SAVE trace appear}? 196.001 DISP Press SAVE REF/ERASE. 196.002 HEAD {SAVE/CONTINUE} 196.003 DISP Position the trace on the center horizontal graticule 196.003 DISP using the CH 1 POSITION control. 196.004 DISP Press SAVE/CONTINUE. 196.005 MESS Check that the trace CANNOT be moved vertically using 196.005 MESS the Vertical POSITION control. 196.005 MESS 196.006 EVAL Does the {trace move vertically}? [N] 197.001 DISP Press SAVE/CONTINUE. 197.002 MESS Check that the trace CAN be moved vertically using 197.002 MESS the Vertical POSITION control. 197.002 MESS 197.003 EVAL Does the {trace move vertically}? 198.001 HEAD {TRIGGER POINT} 198.002 DISP Position the start of the trace to the first vertical 198.002 DISP graticule line. 198.003 SET PRE-TRIG : 50% 198.004 MESS Check that the Trigger Point appears at the center of 198.004 MESS the sweep. (The center of the sweep will not coincide 198.004 MESS with the center graticule line, as the sweep will be 198.004 MESS 10.24 divisions long. Therefore, its center will fall 198.004 MESS 5.12 divisions from its beginning.) 198.004 MESS 198.005 EVAL Does the {Trigger Point appear at center of sweep}? 199.001 HEAD {SINGLE SWEEP} 199.002 SET CH 1 VOLTS/DIV : 0.5V 199.002 SET CH 1 AC-GND-DC : DC 199.002 SET SEC/DIV : 50ms 199.002 SET TRIGGER MODE : NORM 199.002 SET PRE-TRIG 50%/0% : 0% 199.002 SET TRIGGER SOURCE : CH 1 199.003 DISP Connect the 50 Ohm Termination to UUT CH 1 (X). 199.003 DISP Connect the 5500A SCOPE Output to the 50 Ohm 199.003 DISP Termination. 199.004 5500 0.1T M1 S6 S L 199.005 DISP Adjust the Trigger LEVEL control for stable trigger. 199.006 SET SEC/DIV : 0.1s 199.006 SET TRIGGER MODE : SINGLE SWEEP 199.007 DISP Press the RESET button. 199.008 MESS Check that the Trigger indicator lights immediately and 199.008 MESS then goes out. When the Trigger indicator has gone out 199.008 MESS the display should stop. 199.008 MESS 199.009 EVAL Does the {Trigger indicator go out and display stop}? 200.001 MESS 200.002 DISP Press the RESET button. 200.003 END #! T.U.R.s less than 4.00: 1 #! T.U.R.s estimated using RANGE value: 0 #! T.U.R.s not calculated (ASK- U): 0 #! T.U.R.s not computable at compile time: 31 #! FOR JUSTIFICATION REFER TO COMMENTS FOLLOWING EACH TEST IN THIS LISTING.