Fluke MET/CAL Procedure ============================================================================= INSTRUMENT: Tek 2232: (1 year) CAL VER /5520+SC300 DATE: 28-May-97 AUTHOR: Fluke Corporation REVISION: $Revision: 1.1 $ ADJUSTMENT THRESHOLD: 70% NUMBER OF TESTS: 358 NUMBER OF LINES: 2541 CONFIGURATION: Fluke 5520A (SC) ============================================================================= # # Source: Tektronix 2232 Service Manual, July 1992 # # Compatibility: 5520/CAL or MET/CAL 5.0 or later # # Subprocedures: None # # Required Files: None # # System Specifications: # TUR calculation is based on specification interval of the accuracy file. # The default 5520A 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 DISP Procedure not formally tested with UUT. 1.001 DISP See procedure README file. 1.002 ASK- R N J F W 1.003 ASK+ D 1.004 HEAD PRELIMINARY INSTRUCTIONS 1.005 DISP Warm-up time: 20 min. - REQUIRED 1.005 DISP Temperature : 20 - 30 degC 1.005 DISP Humidity : <80% 1.006 HEAD [32] WARNING! 1.007 DISP 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 DISP This procedure requires the following... 1.008 DISP 1.008 DISP Pulse Generator; rep rate of 1 kHz, amplitude of 5 V 1.008 DISP DMM; basic accuracy of 1% 1.009 HEAD INITIAL CONTROL SETTINGS 1.010 DISP Set the following VERTICAL functions... 1.010 DISP 1.010 DISP POSITION (both) : Midrange 1.010 DISP VERTICAL MODE : CH 1 1.010 DISP X-Y : Off (button out) 1.010 DISP BW LIMIT : On (button in) 1.011 DISP Set the following VERTICAL functions... 1.011 DISP 1.011 DISP VOLTS/DIV (both) : 2 mV 1.011 DISP VOLTS/DIV Var (both) : CAL detent 1.011 DISP INVERT : Off (button out) 1.011 DISP AC-GND-DC : DC 1.012 DISP Set the following HORIZONTAL fuctions... 1.012 DISP 1.012 DISP POSITION : Midrange 1.012 DISP HORIZONTAL MODE : A 1.012 DISP A SEC/DIV : 0.5 mS 1.012 DISP SEC/DlV Variable : CAL detent 1.012 DISP X10 Magnifier : Off (knob in) 1.013 DISP Set the following A TRIGGER functions... 1.013 DISP 1.013 DISP VAR HOLDOFF : NORM 1.013 DISP Mode : P-P AUTO 1.013 DISP SLOPE : Positive 1.013 DISP LEVEL : Midrange 1.014 DISP Set the following A TRIGGER functions... 1.014 DISP 1.014 DISP A & B SOURCE : Vertical 1.014 DISP A COUPLING : NORM 1.015 DISP Set the following STORAGE funtions... 1.015 DISP 1.015 DISP STORE/NON STORE : NON STORE (button out) 1.016 HEAD {DEFLECTION ACCURACY AND VARIABLE RANGE} 1.017 DISP MAKE THE FOLLOWING CONNECTION... 1.017 DISP 1.017 DISP 5520 SCOPE OUTPUT ------- {CH 1} INPUT 1.018 TOL 2% 1.019 ASK+ R N 1.020 HEAD DEFLECTION ACCURACY AND VARIABLE RANGE: {2mV/div} 1.021 5520 2 10mVpp TOL 1kH ZQ SC 2.001 HEAD DEFLECTION ACCURACY AND VARIABLE RANGE: {5mV/div} 2.002 5520 5 20mVpp TOL 1kH ZQ SC 3.001 HEAD DEFLECTION ACCURACY AND VARIABLE RANGE: {10mV/div} 3.002 5520 10 50mVpp TOL 1kH ZQ SC 4.001 HEAD DEFLECTION ACCURACY AND VARIABLE RANGE: {20mV/div} 4.002 5520 20 100mVpp TOL 1kH ZQ SC 5.001 HEAD DEFLECTION ACCURACY AND VARIABLE RANGE: {50mV/div} 5.002 5520 50 200mVpp TOL 1kH ZQ SC 6.001 HEAD DEFLECTION ACCURACY AND VARIABLE RANGE: {100mV/div} 6.002 5520 100 500mVpp TOL 1kH ZQ SC 7.001 HEAD DEFLECTION ACCURACY AND VARIABLE RANGE: {0.2V/div} 7.002 5520 0.2 1Vpp TOL 1kH ZQ SC 8.001 HEAD DEFLECTION ACCURACY AND VARIABLE RANGE: {0.5V/div} 8.002 5520 0.5 2Vpp TOL 1kH ZQ SC 9.001 HEAD DEFLECTION ACCURACY AND VARIABLE RANGE: {1V/div} 9.002 5520 1 5Vpp TOL 1kH ZQ SC 10.001 HEAD DEFLECTION ACCURACY AND VARIABLE RANGE: {2V/div} 10.002 5520 2 10Vpp TOL 1kH ZQ SC 11.001 HEAD DEFLECTION ACCURACY AND VARIABLE RANGE: {5V/div} 11.002 5520 5 20Vpp TOL 1kH ZQ SC 12.001 DISP Set CH1 to 20 mV/division. 12.002 5520 0.1Vpp 1kH ZQ SC S 12.003 MESS Rotate the CH1 VOLTS/DIV VARIABLE control fully CCW. 12.003 MESS 12.004 EVAL Does the {display decrease to 2 div or less (VAR fully CCW)}? 13.001 MESS 13.002 DISP Return the CH 1 VOLTS/DIV VARIABLE control to the 13.002 DISP CAL detent position. 13.003 DISP MAKE THE FOLLOWING CONNECTION... 13.003 DISP 13.003 DISP 5520 SCOPE OUTPUT ------- {CH 2} INPUT 13.003 DISP 13.004 DISP VERTICAL MODE : CH2 13.005 TOL 2% 13.006 HEAD DEFLECTION ACCURACY AND VARIABLE RANGE: {2mV/div} 13.007 5520 2 10mVpp TOL 1kH ZQ SC 14.001 HEAD DEFLECTION ACCURACY AND VARIABLE RANGE: {5mV/div} 14.002 5520 5 20mVpp TOL 1kH ZQ SC 15.001 HEAD DEFLECTION ACCURACY AND VARIABLE RANGE: {10mV/div} 15.002 5520 10 50mVpp TOL 1kH ZQ SC 16.001 HEAD DEFLECTION ACCURACY AND VARIABLE RANGE: {20mV/div} 16.002 5520 20 100mVpp TOL 1kH ZQ SC 17.001 HEAD DEFLECTION ACCURACY AND VARIABLE RANGE: {50mV/div} 17.002 5520 50 200mVpp TOL 1kH ZQ SC 18.001 HEAD DEFLECTION ACCURACY AND VARIABLE RANGE: {100mV/div} 18.002 5520 100 500mVpp TOL 1kH ZQ SC 19.001 HEAD DEFLECTION ACCURACY AND VARIABLE RANGE: {0.2V/div} 19.002 5520 0.2 1Vpp TOL 1kH ZQ SC 20.001 HEAD DEFLECTION ACCURACY AND VARIABLE RANGE: {0.5V/div} 20.002 5520 0.5 2Vpp TOL 1kH ZQ SC 21.001 HEAD DEFLECTION ACCURACY AND VARIABLE RANGE: {1V/div} 21.002 5520 1 5Vpp TOL 1kH ZQ SC 22.001 HEAD DEFLECTION ACCURACY AND VARIABLE RANGE: {2V/div} 22.002 5520 2 10Vpp TOL 1kH ZQ SC 23.001 HEAD DEFLECTION ACCURACY AND VARIABLE RANGE: {5V/div} 23.002 5520 5 20Vpp TOL 1kH ZQ SC 24.001 DISP Set CH1 to 20 mV/division. 24.002 5520 0.1Vpp 1kH ZQ SC S 24.003 MESS Rotate the CH2 VOLTS/DIV VARIABLE control fully CCW. 24.003 MESS 24.004 EVAL Does the {display decrease to 2 div or less (VAR fully CCW)}? 25.001 MESS 25.002 DISP Return the CH2 VOLTS/DIV VARIABLE control to the 25.002 DISP CAL detent position. 25.003 ASK- R N 25.004 HEAD {STORE DEFLECTION ACCURACY} 25.005 RSLT =CH 2 25.006 DISP Make the following changes... 25.006 DISP 25.006 DISP CH 2 VOLTS/DIV : 2 mV 25.006 DISP STORE/NON STORE : STORE (button in) 25.006 DISP ACQUISITION MODE: AVERAGE 25.007 HEAD STORE DEFLECTION ACCURACY: {2 mV/div} 25.008 DISP Throughout the following tests... 25.008 DISP Use the CURSORS control and SELECT C1/C2 switch to set 25.008 DISP one cursor at the bottom and the other cursor at the 25.008 DISP top of the square wave. 25.009 5520 10mVpp 1kH ZQ SC S 25.010 MESS Align cursors and check Voltage Readout. 25.010 MESS 25.011 EVAL Is {readout 9.70 to 10.30 mV (2 mV/div)}? 26.001 HEAD STORE DEFLECTION ACCURACY: {5 mV/div} 26.002 DISP CH 2 VOLTS/DIV : 5 mV 26.003 5520 20mVpp 1kH ZQ SC S 26.004 MESS Align cursors and check Voltage Readout. 26.004 MESS 26.005 EVAL Is {readout 19.40 to 20.60 mV (5 mV/div)}? 27.001 HEAD STORE DEFLECTION ACCURACY: {10 mV/div} 27.002 DISP CH 2 VOLTS/DIV : 10 mV 27.003 5520 50mVpp 1kH ZQ SC S 27.004 MESS Align cursors and check Voltage Readout. 27.004 MESS 27.005 EVAL Is {readout 48.5 to 51.5 mV (10 mV/div)}? 28.001 HEAD STORE DEFLECTION ACCURACY: {20 mV/div} 28.002 DISP CH 2 VOLTS/DIV : 20 mV 28.003 5520 100mVpp 1kH ZQ SC S 28.004 MESS Align cursors and check Voltage Readout. 28.004 MESS 28.005 EVAL Is {readout 97.0 to 103.0 mV (20 mV/div)}? 29.001 HEAD STORE DEFLECTION ACCURACY: {50 mV/div} 29.002 DISP CH 2 VOLTS/DIV : 50 mV 29.003 5520 200mVpp 1kH ZQ SC S 29.004 MESS Align cursors and check Voltage Readout. 29.004 MESS 29.005 EVAL Is {readout 194.0 to 206.0 mV (50 mV/div)}? 30.001 HEAD STORE DEFLECTION ACCURACY: {.1 V/div} 30.002 DISP CH 2 VOLTS/DIV : .1 V 30.003 5520 0.5Vpp 1kH ZQ SC S 30.004 MESS Align cursors and check Voltage Readout. 30.004 MESS 30.005 EVAL Is {readout .485 to .515 V (.1 V/div)}? 31.001 HEAD STORE DEFLECTION ACCURACY: {.2 V/div} 31.002 DISP CH 2 VOLTS/DIV : .2 V 31.003 5520 1Vpp 1kH ZQ SC S 31.004 MESS Align cursors and check Voltage Readout. 31.004 MESS 31.005 EVAL Is {readout .970 to 1.030 V (.2 V/div)}? 32.001 HEAD STORE DEFLECTION ACCURACY: {.5 V/div} 32.002 DISP CH 2 VOLTS/DIV : .5 V 32.003 5520 2Vpp 1kH ZQ SC S 32.004 MESS Align cursors and check Voltage Readout. 32.004 MESS 32.005 EVAL Is {readout 1.940 to 2.060 V (.5 V/div)}? 33.001 HEAD STORE DEFLECTION ACCURACY: {1 V/div} 33.002 DISP CH 2 VOLTS/DIV : 1 V 33.003 5520 5Vpp 1kH ZQ SC S 33.004 MESS Align cursors and check Voltage Readout. 33.004 MESS 33.005 EVAL Is {readout 4.85 to 5.15 V (1 V/div)}? 34.001 HEAD STORE DEFLECTION ACCURACY: {2 V/div} 34.002 DISP CH 2 VOLTS/DIV : 2 V 34.003 5520 10Vpp 1kH ZQ SC S 34.004 MESS Align cursors and check Voltage Readout. 34.004 MESS 34.005 EVAL Is {readout 9.70 to 10.30 V (2 V/div)}? 35.001 HEAD STORE DEFLECTION ACCURACY: {5 V/div} 35.002 DISP CH 2 VOLTS/DIV : 5 V 35.003 5520 20Vpp 1kH ZQ SC S 35.004 MESS Align cursors and check Voltage Readout. 35.004 MESS 35.005 EVAL Is {readout 19.40 to 20.60 V (5 V/div)}? 36.001 MESS 36.002 HEAD STORE DEFLECTION ACCURACY: 2 mV/div 36.003 DISP MAKE THE FOLLOWING CONNECTION... 36.003 DISP 36.003 DISP 5520 SCOPE OUTPUT -------- {CH 1} INPUT 36.003 DISP 36.004 DISP VERTICAL MODE : CH1 36.004 DISP CH 1 VOLTS/DIV : 2 mV 36.005 HEAD STORE DEFLECTION ACCURACY: {2 mV/div} 36.006 5520 10mVpp 1kH ZQ SC S 36.007 MESS Align cursors and check Voltage Readout. 36.007 MESS 36.008 EVAL Is {readout 9.70 to 10.30 mV (2 mV/div)}? 37.001 HEAD STORE DEFLECTION ACCURACY: {5 mV/div} 37.002 DISP CH 1 VOLTS/DIV : 5 mV 37.003 5520 20mVpp 1kH ZQ SC S 37.004 MESS Align cursors and check Voltage Readout. 37.004 MESS 37.005 EVAL Is {readout 19.40 to 20.60 mV (5 mV/div)}? 38.001 HEAD STORE DEFLECTION ACCURACY: {10 mV/div} 38.002 DISP CH 1 VOLTS/DIV : 10 mV 38.003 5520 50mVpp 1kH ZQ SC S 38.004 MESS Align cursors and check Voltage Readout. 38.004 MESS 38.005 EVAL Is {readout 48.5 to 51.5 mV (10 mV/div)}? 39.001 HEAD STORE DEFLECTION ACCURACY: {20 mV/div} 39.002 DISP CH 1 VOLTS/DIV : 20 mV 39.003 5520 100mVpp 1kH ZQ SC S 39.004 MESS Align cursors and check Voltage Readout. 39.004 MESS 39.005 EVAL Is {readout 97.0 to 103.0 mV (20 mV/div)}? 40.001 HEAD STORE DEFLECTION ACCURACY: {50 mV/div} 40.002 DISP CH 1 VOLTS/DIV : 50 mV 40.003 5520 200mVpp 1kH ZQ SC S 40.004 MESS Align cursors and check Voltage Readout. 40.004 MESS 40.005 EVAL Is {readout 194.0 to 206.0 mV (50 mV/div)}? 41.001 HEAD STORE DEFLECTION ACCURACY: {.1 V/div} 41.002 DISP CH 1 VOLTS/DIV : .1 V 41.003 5520 0.5Vpp 1kH ZQ SC S 41.004 MESS Align cursors and check Voltage Readout. 41.004 MESS 41.005 EVAL Is {readout .485 to .515 V (.1 V/div)}? 42.001 HEAD STORE DEFLECTION ACCURACY: {.2 V/div} 42.002 DISP CH 1 VOLTS/DIV : .2 V 42.003 5520 1Vpp 1kH ZQ SC S 42.004 MESS Align cursors and check Voltage Readout. 42.004 MESS 42.005 EVAL Is {readout .970 to 1.030 V (.2 V/div)}? 43.001 HEAD STORE DEFLECTION ACCURACY: {.5 V/div} 43.002 DISP CH 1 VOLTS/DIV : .5 V 43.003 5520 2Vpp 1kH ZQ SC S 43.004 MESS Align cursors and check Voltage Readout. 43.004 MESS 43.005 EVAL Is {readout 1.940 to 2.060 V (.5 V/div)}? 44.001 HEAD STORE DEFLECTION ACCURACY: {1 V/div} 44.002 DISP CH 1 VOLTS/DIV : 1 V 44.003 5520 5Vpp 1kH ZQ SC S 44.004 MESS Align cursors and check Voltage Readout. 44.004 MESS 44.005 EVAL Is {readout 4.85 to 5.15 V (1 V/div)}? 45.001 HEAD STORE DEFLECTION ACCURACY: {2 V/div} 45.002 DISP CH 1 VOLTS/DIV : 2 V 45.003 5520 10Vpp 1kH ZQ SC S 45.004 MESS Align cursors and check Voltage Readout. 45.004 MESS 45.005 EVAL Is {readout 9.70 to 10.30 V (2 V/div)}? 46.001 HEAD STORE DEFLECTION ACCURACY: {5 V/div} 46.002 DISP CH 1 VOLTS/DIV : 5 V 46.003 5520 20Vpp 1kH ZQ SC S 46.004 MESS Align cursors and check Voltage Readout. 46.004 MESS 46.005 EVAL Is {readout 19.40 to 20.60 V (5 V/div)}? 47.001 MESS 47.002 HEAD {SAVE EXPANSION AND COMPRESSION} 47.003 RSLT =CH 1 47.004 DISP CH 1 VOLTS/DIV : 0.1 V 47.005 5520 0.05Vpp 1kH ZQ SC S 47.006 DISP SAVE/CONTINUE : SAVE (button in) 47.006 DISP CH 1 VOLTS/DIV : 10 mV 47.007 EVAL Is {display expanded to 5 divisions in amplitude}? 48.001 DISP CH 1 VOLTS/DIV : 0.1 V 48.001 DISP SAVE/CONTINUE : CONTINUE (button out) 48.002 5520 0.5Vpp 1kH ZQ SC S 48.003 DISP SAVE/CONTINUE : SAVE (button in). 48.003 DISP CH 1 VOLTS/DIV : 1 V 48.004 EVAL Is {display compressed to 0.5 divisions in amplitude}? 49.001 DISP MAKE THE FOLLOWING CONNECTION... 49.001 DISP 49.001 DISP 5520 OUTPUT ----------- {CH 2} INPUT 49.001 DISP 49.002 DISP VERTICAL MODE : CH 2 49.002 DISP CH 2 VOLTS/DIV : 0.1 V 49.002 DISP SAVE/CONTINUE : CONTINUE (button out) 49.003 5520 0.05Vpp 1kH ZQ SC S 49.004 DISP SAVE/CONTINUE : SAVE (button in) 49.004 DISP CH 2 VOLTS/DIV : 10 mV 49.005 EVAL Is {display expanded to 5 divisions in amplitude}? 50.001 DISP CH 2 VOLTS/DIV : 0.1 V 50.001 DISP SAVE/CONTINUE : CONTINUE (button out) 50.002 5520 0.5Vpp 1kH ZQ SC S 50.003 DISP SAVE/CONTINUE : SAVE (button in). 50.003 DISP CH 2 VOLTS/DIV : 1 V 50.004 EVAL Is {display compressed to 0.5 divisions in amplitude}? 51.001 HEAD {POSITION RANGE} 51.002 ASK- U 51.003 RSLT =CH 2 51.004 DISP MAKE THE FOLLOWING CONNECTIONS... 51.004 DISP 51.004 DISP 5520 SCOPE OUTPUT ----------50 Ohm--CH 2 INPUT 51.004 DISP 51.005 DISP VOLTS/DIV (both) : 0.1 V 51.005 DISP AC-GND-DC (both) : AC 51.006 MESS Slew amplitude for a 2 division display. 51.007 5520 200mVpp 50kH LS SC N L 51.008 MATH M[1] = MEM 51.009 DISP Rotate CH 2 POSITION control fully CW. 51.010 MESS CHECK--The bottom of the waveform is positioned 51.010 MESS at least 1 division above the center graticule line. 51.010 MESS 51.011 EVAL Is {display at least 1 division above center graticule line}? 52.001 MATH MEM = M[1] 52.002 5520 50kH mVpp LS SC S L 52.003 MESS Rotate CH 2 POSITION control fully CCW. 52.003 MESS CHECK--The top of the waveform is positioned 52.003 MESS at least 1 division below the center graticule line. 52.003 MESS 52.003 MESS 52.004 EVAL Is {display at least 1 division below center graticule line}? 53.001 MESS 53.002 RSLT =CH 1 53.003 DISP MAKE THE FOLLOWING CONNECTIONS... 53.003 DISP 53.003 DISP 5520 SCOPE OUTPUT ----------50 Ohm--CH 1 INPUT 53.003 DISP 53.004 DISP 53.004 DISP VERTICAL MODE : CH 1 53.004 DISP VOLTS/DIV (both) : 0.1 V 53.004 DISP AC-GND-DC (both) : AC 53.005 MESS Slew amplitude for a 2 division display. 53.006 5520 200mVpp 50kH LS SC N L 53.007 MATH M[1] = MEM 53.008 DISP Rotate CH 1 POSITION control fully CW. 53.009 MESS CHECK--The bottom of the waveform is positioned 53.009 MESS at least 1 division above the center graticule line. 53.009 MESS 53.010 EVAL Is {display at least 1 division above center graticule line}? 54.001 MATH MEM = M[1] 54.002 5520 50kH mVpp LS SC N L 54.003 MESS Rotate CH 1 POSITION control fully CCW. 54.003 MESS CHECK--The top of the waveform is positioned 54.003 MESS at least 1 division below the center graticule line. 54.003 MESS 54.003 MESS 54.004 EVAL Is {display at least 1 division below center graticule line}? 55.001 MESS 55.002 ASK+ U 55.003 HEAD {ACQUISITION POSITION REGISTRATION} 55.004 RSLT =CH 1 55.005 DISP AC-GND-DC (both) : GND 55.005 DISP A SEC/DIV : 0.5 mS 55.006 DISP Position the trace exactly on the center horizontal 55.006 DISP graticule line using the CH 1 POSITION control. 55.007 DISP STORE/NON STORE : STORE (button in) 55.007 DISP SAVE/CONT : CONT 55.008 EVAL Is {trace within 0.5 division of center graticule}? 56.001 RSLT =CH 2 56.002 DISP VERTICAL MODE : CH 2 56.002 DISP STORE/NON STORE : NON STORE 56.002 DISP 56.002 DISP Position the trace exactly on the center horizontal 56.002 DISP graticule line using the CH 2 POSITION control. 56.003 DISP STORE/NON STORE : STORE (button in) 56.003 DISP SAVE/CONT : CONT 56.004 EVAL Is {trace within 0.5 division of center graticule}? 57.001 DISP Position the trace 0.5 division below the top horizontal 57.001 DISP graticule line using CH 2 POSITION control. 57.001 DISP 57.001 DISP SAVE/CONT : SAVE 57.002 EVAL Does {trace shift 5.6 divisions}? 82.001 HEAD {BANDWIDTH LIMIT OPERATION} 82.002 DISP BW LIMIT : On (button in) 82.002 DISP CH 1 VOLTS/DIV : 10 mV 82.002 DISP AC-GND-DC : DC 82.002 DISP A SEC/DIV : 20 uS 82.002 DISP A TRIGGER : P-P AUTO 82.002 DISP A&B SOURCE : VERT MODE 82.002 DISP STORE/NON STORE : NON STORE (button out) 82.003 MESS Slew the amplitude for 6 divisions. 82.004 5520 60mVpp 50kH LS SC N L 82.005 MESS Slew the frequency for 4.2 divisions. 82.006 5520 20MH 2U mVpp LS SC L 83.001 DISP MAKE THE FOLLOWING CONNECTION... 83.001 DISP 83.001 DISP 5520 SCOPE OUTPUT ---------50 Ohm--CH 1 INPUT 83.001 DISP 83.002 DISP VERTICAL MODE : CH 1 83.003 MESS Slew the amplitude for 6 divisions. 83.004 5520 60mVpp 50kH LS SC N L 83.005 MESS Slew the frequency for 4.2 divisions. 83.006 5520 20MH 2U mVpp LS SC L 84.001 HEAD {COMMON-MODE REJECTION RATIO} 84.002 DISP Connect the 5520 SCOPE OUTPUT to the CH 1 & CH 2 INPUTS 84.002 DISP using a 50 ohm feedthru and a T-connector. 84.002 DISP 84.002 DISP BW LIMIT : Off (button out) 84.002 DISP CH 2 VOLTS/DIV : 10 mV 84.002 DISP INVERT : On (button in) 84.003 MESS Slew the amplitude for 6 divisions. 84.004 5520 60mVpp 50MH LS SC N L 84.005 DISP Vertically center the display using the 84.005 DISP CH 1 POSITION control. Then set the VERTICAL MODE 84.005 DISP switch to CH 2 and vertically center the display 84.005 DISP using the CH 2 POSITION control. 84.005 DISP 84.005 DISP VERTICAL MODE : BOTH and ADD 84.006 MESS CHECK--Display amplitude is 0.6 division or less. 84.006 MESS 84.007 EVAL Is display {amplitude 0.6 divisions or less (ADD mode)}? 85.001 MESS 85.002 JMPT 86.001 85.003 DISP VERTICAL MODE : CH 2 85.004 MESS Slew the amplitude for 6 divisions. 85.005 5520 60mVpp 50kH LS SC N L 85.006 DISP VERTICAL MODE : BOTH 85.006 DISP 85.006 DISP Adjust the CH 1 or CH 2 VOLTS/DIV VARIABLE control 85.006 DISP for minimum display amplitude. 85.006 DISP 85.006 DISP VERTICAL MODE : CH 2 85.007 MESS Slew the amplitude for 6 divisions. 85.008 5520 60mVpp 50MH LS SC N L 85.009 DISP VERTICAL MODE : BOTH 85.010 MESS CHECK--Display amplitude is 0.6 division or less. 85.010 MESS 85.011 EVAL Is display {amplitude 0.6 divisions or less (BOTH mode)}? 86.001 MESS 86.002 ASK+ U 86.003 HEAD {NON STORE AND STORE CHANNEL ISOLATION} 86.004 DISP MAKE THE FOLLOWING CONNECTIONS... 86.004 DISP 86.004 DISP 5520 SCOPE OUTPUT ----------50 ohm-- CH 1 INPUT 86.005 DISP VERTICAL MODE : CH 1 86.005 DISP VOLTS/DIV (both) : 0.1 V 86.005 DISP VOLTS/DlV Variable (both) : CAL (detent) 86.005 DISP INVERT : Off (button out) 86.005 DISP CH 1 AC-GND-DC : DC 86.005 DISP CH 2 AC-GND-DC : GND 86.005 DISP A SEC/DIV : 0.1 uS 86.006 HEAD NON STORE AND STORE CHANNEL ISOLATION: {CH 1 @ .1V/div} 86.007 MESS Slew the amplitude for 5 divisions. 86.008 5520 500mVpp 50MH LS SC N L 86.009 MATH M[1] = MEM 86.010 DISP VERTICAL MODE : CH 2 86.011 MESS 86.012 EVAL Is display {amplitude 0.05 division or less}? 87.001 HEAD NON STORE AND STORE CHANNEL ISOLATION: {CH 2 @ .1V/div} 87.002 DISP Move the cable from the CH 1 input connector 87.002 DISP to the CH 2 input connector. 87.002 DISP 87.002 DISP VERTICAL MODE : CH 1 87.002 DISP CH 1 AC-GND-DC : GND 87.002 DISP CH 2 AC-GND-DC : DC 87.003 MATH MEM = M[1] 87.004 5520 50MH mVpp LS SC S L 87.005 EVAL Is display {amplitude 0.05 division or less}? 88.001 HEAD NON STORE AND STORE CHANNEL ISOLATION: {CH 2 @ 50mV/div} 88.002 DISP CH 2 VOLTS/DIV : 50 mV 88.002 DISP STORE/NON STORE : STORE (button in) 88.002 DISP SAVE/CONTINUE : CONTINUE (button out) 88.003 MATH MEM = M[1] 88.004 5520 50MH mVpp LS SC S L 88.005 EVAL Is display {amplitude 0.1 division or less}? 89.001 HEAD NON STORE AND STORE CHANNEL ISOLATION: {CH 1 @ 50mV/div} 89.002 DISP Move the cable from the CH 2 input connector 89.002 DISP to the CH 1 input connector. 89.002 DISP 89.002 DISP VERTICAL MODE : CH 2 89.002 DISP CH 1 VOLTS/DIV : 50 mV 89.002 DISP CH 2 VOLTS/DIV : 0.1 V 89.002 DISP CH 1 AC-GND-DC : DC 89.002 DISP CH 2 AC-GND-DC : GND 89.003 MATH MEM = M[1] 89.004 5520 50MH mVpp LS SC S L 89.005 EVAL Is display {amplitude 0.1 division or less}? 90.001 DISP Disconnect the test equiment from the UUT. 90.002 ASK+ U 90.003 HEAD {STORE PULSE WIDTH AMPLITUDE} 90.004 DISP CH 2 VOLTS/DIV : 0.5 V 90.004 DISP CH 2 AC-GND-DC : AC 90.004 DISP A SEC/DIV : 0.05 uS 90.004 DISP X10 Magnifier : On (knob out) 90.004 DISP STORE/NON STORE : NON STORE (button out) 90.005 DISP MAKE THE FOLLOWING CONNECTIONS... 90.005 DISP 90.005 DISP PULSE GENERATOR OUTPUT -------------50 Ohm--CH 2 INPUT 90.006 RSLT =0.1 mS period, 10 nS pulse duration 90.007 DISP Set the generator to produce a 0.1 mS period, 90.007 DISP 10 nS pulse duration, 5 division display. 90.008 DISP X10 Magnifier : Off (knob in) 90.009 DISP Set the generator period to 1 mS. 90.009 DISP 90.009 DISP A SEC/DIV : 1 mS 90.009 DISP STORE/NON-STORE : STORE (button in) 90.009 DISP Acquisition MODE : PEAKDET 90.010 DISP Adjust HORIZONTAL POSITION control to center trace. 90.011 EVAL Is {amplitude 2.5 divisions or greater}? 91.001 DISP A SEC/DIV : 0.1 S 91.002 EVAL Is {amplitude 2.5 divisions or greater (@ 0.1 S/div)}? 92.001 HEAD INITIAL CONTROL SETTINGS 92.002 DISP Set the following VERTICAL functions... 92.002 DISP 92.002 DISP POSITION (both) : Midrange 92.002 DISP VERTICAL MODE : CH 1 92.002 DISP X-Y : Off (button out) 92.002 DISP BW LIMIT : Off (button in) 92.003 DISP Set the following VERTICAL functions... 92.003 DISP 92.003 DISP CH 1 VOLTS/DIV : 0.5 V 92.003 DISP CH 1 VOLTS/DIV Variable : CAL detent 92.003 DISP CH 1 AC-GND-DC : DC 92.004 DISP Set the following HORIZONTAL fuctions... 92.004 DISP 92.004 DISP POSITION : Midrange 92.004 DISP HORIZONTAL MODE : A 92.004 DISP A SEC/DIV : 0.05 uS 92.004 DISP SEC/DlV Variable : CAL detent 92.004 DISP X10 Magnifier : Off (knob in) 92.004 DISP B DELAY TIME POSITION : Fully CCW 92.005 DISP Set the following B TRIGGER functions... 92.005 DISP 92.005 DISP SLOPE : POSITIVE 92.005 DISP LEVEL : Fully CW 92.006 DISP Set the following A TRIGGER functions... 92.006 DISP 92.006 DISP VAR HOLDOFF : NORM 92.006 DISP MODE : P-P AUTO 92.006 DISP SLOPE : POSITIVE 92.006 DISP LEVEL : Midrange 92.007 DISP Set the following A TRIGGER functions... 92.007 DISP 92.007 DISP A&B SOURCE : VERT MODE 92.007 DISP A COUPL : NORM 92.007 DISP A EXT COUPL : DC 92.008 DISP Set the following STORAGE funtions... 92.008 DISP 92.008 DISP STORE/NON STORE : NON STORE (button out) 92.009 HEAD {TIMING ACCURACY AND LINEARITY} 92.010 RSLT =A Sweep 92.011 DISP MAKE THE FOLLOWING CONNECTIONS... 92.011 DISP 92.011 DISP 5520 SCOPE OUTPUT ----------50 Ohm--CH 1 INPUT 92.012 DISP Throughout the following tests, perform the following... 92.012 DISP 92.012 DISP You will adjust A TRIGGER LEVEL as need for a stable, 92.012 DISP triggered display. 92.012 DISP 92.012 DISP You will adjust the HORIZONTAL POSITION control 92.012 DISP to align the 2nd time marker with the 2nd vertical 92.012 DISP graticule line. 92.013 DISP Throughout the following tests, perform the following... 92.013 DISP 92.013 DISP You will be slewing 5520A-SC for 1 time marker/division. 92.013 DISP 92.013 DISP You will also check for linearity within 5% 92.013 DISP (0.1 division over any 2 of the center 8 divisions) 92.014 HEAD TIMING ACCURACY AND LINEARITY: {50 nS/div} 92.015 MESS Slew output for 1 marker per division. 92.016 5520 50nT 2% MK SC L 93.001 MEME 93.002 MESS 93.003 5520 nT MK SC S L 93.004 EVAL Is {linearity within 5%}? 94.001 HEAD TIMING ACCURACY AND LINEARITY: {0.1 uS/div} 94.002 DISP A SEC/DIV : 0.1 uS 94.003 MESS Slew output for 1 marker per division. 94.004 5520 100nT 2% MK SC L 95.001 MEME 95.002 MESS 95.003 5520 nT MK SC S L 95.004 EVAL Is {linearity within 5%}? 96.001 HEAD TIMING ACCURACY AND LINEARITY: {0.2 uS/div} 96.002 DISP A SEC/DIV : 0.2 uS 96.003 MESS Slew output for 1 marker per division. 96.004 5520 200nT 2% MK SC L 97.001 MEME 97.002 MESS 97.003 5520 nT MK SC S L 97.004 EVAL Is {linearity within 5%}? 98.001 HEAD TIMING ACCURACY AND LINEARITY: {0.5 uS/div} 98.002 DISP A SEC/DIV : 0.5 uS 98.003 MESS Slew output for 1 marker per division. 98.004 5520 500nT 2% MK SC L 99.001 MEME 99.002 MESS 99.003 5520 nT MK SC S L 99.004 EVAL Is {linearity within 5%}? 100.001 HEAD TIMING ACCURACY AND LINEARITY: {1 uS/div} 100.002 DISP A SEC/DIV : 1 uS 100.003 MESS Slew output for 1 marker per division. 100.004 5520 1uT 2% MK SC L 101.001 MEME 101.002 MESS 101.003 5520 uT MK SC S L 101.004 EVAL Is {linearity within 5%}? 102.001 HEAD TIMING ACCURACY AND LINEARITY: {2 uS/div} 102.002 DISP A SEC/DIV : 2 uS 102.003 MESS Slew output for 1 marker per division. 102.004 5520 2uT 2% MK SC L 103.001 MEME 103.002 MESS 103.003 5520 uT MK SC S L 103.004 EVAL Is {linearity within 5%}? 104.001 HEAD TIMING ACCURACY AND LINEARITY: {5 uS/div} 104.002 DISP A SEC/DIV : 5 uS 104.003 MESS Slew output for 1 marker per division. 104.004 5520 5uT 2% MK SC L 105.001 MEME 105.002 MESS 105.003 5520 uT MK SC S L 105.004 EVAL Is {linearity within 5%}? 106.001 HEAD TIMING ACCURACY AND LINEARITY: {10 uS/div} 106.002 DISP A SEC/DIV : 10 uS 106.003 MESS Slew output for 1 marker per division. 106.004 5520 10uT 2% MK SC L 107.001 MEME 107.002 MESS 107.003 5520 uT MK SC S L 107.004 EVAL Is {linearity within 5%}? 108.001 HEAD TIMING ACCURACY AND LINEARITY: {20 uS/div} 108.002 DISP A SEC/DIV : 20 uS 108.003 MESS Slew output for 1 marker per division. 108.004 5520 20uT 2% MK SC L 109.001 MEME 109.002 MESS 109.003 5520 uT MK SC S L 109.004 EVAL Is {linearity within 5%}? 110.001 HEAD TIMING ACCURACY AND LINEARITY: {50 uS/div} 110.002 DISP A SEC/DIV : 50 uS 110.003 MESS Slew output for 1 marker per division. 110.004 5520 50uT 2% MK SC L 111.001 MEME 111.002 MESS 111.003 5520 uT MK SC S L 111.004 EVAL Is {linearity within 5%}? 112.001 HEAD TIMING ACCURACY AND LINEARITY: {.1 mS/div} 112.002 DISP A SEC/DIV : .1 mS 112.003 MESS Slew output for 1 marker per division. 112.004 5520 100uT 2% MK SC L 113.001 MEME 113.002 MESS 113.003 5520 uT MK SC S L 113.004 EVAL Is {linearity within 5%}? 114.001 HEAD TIMING ACCURACY AND LINEARITY: {.2 mS/div} 114.002 DISP A SEC/DIV : .2 mS 114.003 MESS Slew output for 1 marker per division. 114.004 5520 200uT 2% MK SC L 115.001 MEME 115.002 MESS 115.003 5520 uT MK SC S L 115.004 EVAL Is {linearity within 5%}? 116.001 HEAD TIMING ACCURACY AND LINEARITY: {.5 mS/div} 116.002 DISP A SEC/DIV : .5 mS 116.003 MESS Slew output for 1 marker per division. 116.004 5520 500uT 2% MK SC L 117.001 MEME 117.002 MESS 117.003 5520 uT MK SC S L 117.004 EVAL Is {linearity within 5%}? 118.001 HEAD TIMING ACCURACY AND LINEARITY: {1 mS/div} 118.002 DISP A SEC/DIV : 1 mS 118.003 MESS Slew output for 1 marker per division. 118.004 5520 1mT 2% MK SC L 119.001 MEME 119.002 MESS 119.003 5520 mT MK SC S L 119.004 EVAL Is {linearity within 5%}? 120.001 HEAD TIMING ACCURACY AND LINEARITY: {2 mS/div} 120.002 DISP A SEC/DIV : 2 mS 120.003 MESS Slew output for 1 marker per division. 120.004 5520 2mT 2% MK SC L 121.001 MEME 121.002 MESS 121.003 5520 mT MK SC S L 121.004 EVAL Is {linearity within 5%}? 122.001 HEAD TIMING ACCURACY AND LINEARITY: {5 mS/div} 122.002 DISP A SEC/DIV : 5 mS 122.003 MESS Slew output for 1 marker per division. 122.004 5520 5mT 2% MK SC L 123.001 MEME 123.002 MESS 123.003 5520 mT MK SC S L 123.004 EVAL Is {linearity within 5%}? 124.001 HEAD TIMING ACCURACY AND LINEARITY: {10 mS/div} 124.002 DISP A SEC/DIV : 10 mS 124.003 MESS Slew output for 1 marker per division. 124.004 5520 10mT 2% MK SC L 125.001 MEME 125.002 MESS 125.003 5520 mT MK SC S L 125.004 EVAL Is {linearity within 5%}? 126.001 HEAD TIMING ACCURACY AND LINEARITY: {20 mS/div} 126.002 DISP A SEC/DIV : 20 mS 126.003 MESS Slew output for 1 marker per division. 126.004 5520 20mT 2% MK SC L 127.001 MEME 127.002 MESS 127.003 5520 mT MK SC S L 127.004 EVAL Is {linearity within 5%}? 128.001 HEAD TIMING ACCURACY AND LINEARITY: {50 mS/div} 128.002 DISP A SEC/DIV : 50 mS 128.003 MESS Slew output for 1 marker per division. 128.004 5520 50mT 2% MK SC L 129.001 MEME 129.002 MESS 129.003 5520 mT MK SC S L 129.004 EVAL Is {linearity within 5%}? 130.001 HEAD TIMING ACCURACY AND LINEARITY: {.1 S/div} 130.002 DISP A SEC/DIV : 0.1 S 130.003 MESS Slew output for 1 marker per division. 130.004 5520 100mT 2% MK SC L 131.001 MEME 131.002 MESS 131.003 5520 mT MK SC S L 131.004 EVAL Is {linearity within 5%}? 132.001 HEAD TIMING ACCURACY AND LINEARITY: {.2 S/div} 132.002 DISP A SEC/DIV : 0.2 S 132.003 MESS Slew output for 1 marker per division. 132.004 5520 200mT 2% MK SC L 133.001 MEME 133.002 MESS 133.003 5520 mT MK SC S L 133.004 EVAL Is {linearity within 5%}? 134.001 HEAD TIMING ACCURACY AND LINEARITY: {.5 S/div} 134.002 DISP A SEC/DIV : 0.5 S 134.003 MESS Slew output for 1 marker per division. 134.004 5520 500mT 2% MK SC L 135.001 MEME 135.002 MESS 135.003 5520 mT MK SC S L 135.004 EVAL Is {linearity within 5%}? 136.001 HEAD TIMING ACCURACY AND LINEARITY 136.002 RSLT =X10 MAG 136.003 DISP A SEC/DIV : 0.05 uS 136.003 DISP X10 Magnifier : On (knob out) 136.004 5520 10nT MK SC S L 136.005 DISP Use the Horizontal POSITION control to align 136.005 DISP the 1st time marker that is 40 nS beyond the 136.005 DISP start of the sweep with the 2nd vertical graticule line. 136.006 HEAD TIMING ACCURACY AND LINEARITY: {@ 10 nS/div} 136.007 MESS CHECK--Timing accuracy is within 3% (0.24 136.007 MESS division at the 10th vertical graticule line), and 136.007 MESS linearity is within 7.5% (0.15 division over any 2 of 136.007 MESS the center 8 divisions). Exclude any portion of 136.007 MESS the sweep past the 100th magnified division. 136.007 MESS 136.008 EVAL Is {timing accuracy within 3%}? 137.001 5520 10nT MK SC S L 137.002 MESS 137.003 EVAL Is {linearity within 7.5%}? 138.001 HEAD TIMING ACCURACY AND LINEARITY: {@ .1 uS/div} 138.002 DISP A SEC/DIV : 0.1 uS 138.003 MESS Slew output for 1 marker per division. 138.004 5520 10nT 3% MK SC L 139.001 MEME 139.002 MESS 139.003 5520 nT MK SC S L 139.004 EVAL Is {linearity within 7.5%}? 140.001 HEAD TIMING ACCURACY AND LINEARITY: {@ .2 uS/div} 140.002 DISP A SEC/DIV : 0.2 uS 140.003 MESS Slew output for 1 marker per division. 140.004 5520 20nT 3% MK SC L 141.001 MEME 141.002 MESS 141.003 5520 nT MK SC S L 141.004 EVAL Is {linearity within 7.5%}? 142.001 HEAD TIMING ACCURACY AND LINEARITY: {@ .5 uS/div} 142.002 DISP A SEC/DIV : 0.5 uS 142.003 MESS Slew output for 1 marker per division. 142.004 5520 50nT 3% MK SC L 143.001 MEME 143.002 MESS 143.003 5520 nT MK SC S L 143.004 EVAL Is {linearity within 7.5%}? 144.001 HEAD TIMING ACCURACY AND LINEARITY: {@ 1 uS/div} 144.002 DISP A SEC/DIV : 1 uS 144.003 MESS Slew output for 1 marker per division. 144.004 5520 100nT 3% MK SC L 145.001 MEME 145.002 MESS 145.003 5520 nT MK SC S L 145.004 EVAL Is {linearity within 7.5%}? 146.001 HEAD TIMING ACCURACY AND LINEARITY: {@ 2 uS/div} 146.002 DISP A SEC/DIV : 2 uS 146.003 MESS Slew output for 1 marker per division. 146.004 5520 200nT 3% MK SC L 147.001 MEME 147.002 MESS 147.003 5520 nT MK SC S L 147.004 EVAL Is {linearity within 7.5%}? 148.001 HEAD TIMING ACCURACY AND LINEARITY: {@ 5 uS/div} 148.002 DISP A SEC/DIV : 5 uS 148.003 MESS Slew output for 1 marker per division. 148.004 5520 500nT 3% MK SC L 149.001 MEME 149.002 MESS 149.003 5520 nT MK SC S L 149.004 EVAL Is {linearity within 7.5%}? 150.001 HEAD TIMING ACCURACY AND LINEARITY: {@ 10 uS/div} 150.002 DISP A SEC/DIV : 10 uS 150.003 MESS Slew output for 1 marker per division. 150.004 5520 1uT 3% MK SC L 151.001 MEME 151.002 MESS 151.003 5520 uT MK SC S L 151.004 EVAL Is {linearity within 7.5%}? 152.001 HEAD TIMING ACCURACY AND LINEARITY: {@ 20 uS/div} 152.002 DISP A SEC/DIV : 20 uS 152.003 MESS Slew output for 1 marker per division. 152.004 5520 2uT 3% MK SC L 153.001 MEME 153.002 MESS 153.003 5520 uT MK SC S L 153.004 EVAL Is {linearity within 7.5%}? 154.001 HEAD TIMING ACCURACY AND LINEARITY: {@ 50 uS/div} 154.002 DISP A SEC/DIV : 50 uS 154.003 MESS Slew output for 1 marker per division. 154.004 5520 5uT 3% MK SC L 155.001 MEME 155.002 MESS 155.003 5520 uT MK SC S L 155.004 EVAL Is {linearity within 7.5%}? 156.001 HEAD TIMING ACCURACY AND LINEARITY: {@ .1 mS/div} 156.002 DISP A SEC/DIV : .1 mS 156.003 MESS Slew output for 1 marker per division. 156.004 5520 10uT 3% MK SC L 157.001 MEME 157.002 MESS 157.003 5520 uT MK SC S L 157.004 EVAL Is {linearity within 7.5%}? 158.001 HEAD TIMING ACCURACY AND LINEARITY: {@ .2 mS/div} 158.002 DISP A SEC/DIV : .2 mS 158.003 MESS Slew output for 1 marker per division. 158.004 5520 20uT 3% MK SC L 159.001 MEME 159.002 MESS 159.003 5520 uT MK SC S L 159.004 EVAL Is {linearity within 7.5%}? 160.001 HEAD TIMING ACCURACY AND LINEARITY: {@ .5 mS/div} 160.002 DISP A SEC/DIV : .5 mS 160.003 MESS Slew output for 1 marker per division. 160.004 5520 50uT 3% MK SC L 161.001 MEME 161.002 MESS 161.003 5520 uT MK SC S L 161.004 EVAL Is {linearity within 7.5%}? 162.001 HEAD TIMING ACCURACY AND LINEARITY: {@ 1 mS/div} 162.002 DISP A SEC/DIV : 1 mS 162.003 MESS Slew output for 1 marker per division. 162.004 5520 100uT 3% MK SC L 163.001 MEME 163.002 MESS 163.003 5520 uT MK SC S L 163.004 EVAL Is {linearity within 7.5%}? 164.001 HEAD TIMING ACCURACY AND LINEARITY: {@ 2 mS/div} 164.002 DISP A SEC/DIV : 2 mS 164.003 MESS Slew output for 1 marker per division. 164.004 5520 200uT 3% MK SC L 165.001 MEME 165.002 MESS 165.003 5520 uT MK SC S L 165.004 EVAL Is {linearity within 7.5%}? 166.001 HEAD TIMING ACCURACY AND LINEARITY: {@ 5 mS/div} 166.002 DISP A SEC/DIV : 5 mS 166.003 MESS Slew output for 1 marker per division. 166.004 5520 500uT 3% MK SC L 167.001 MEME 167.002 MESS 167.003 5520 uT MK SC S L 167.004 EVAL Is {linearity within 7.5%}? 168.001 HEAD TIMING ACCURACY AND LINEARITY: {@ 10 mS/div} 168.002 DISP A SEC/DIV : 10 mS 168.003 MESS Slew output for 1 marker per division. 168.004 5520 1mT 3% MK SC L 169.001 MEME 169.002 MESS 169.003 5520 mT MK SC S L 169.004 EVAL Is {linearity within 7.5%}? 170.001 HEAD TIMING ACCURACY AND LINEARITY: {@ 20 mS/div} 170.002 DISP A SEC/DIV : 20 mS 170.003 MESS Slew output for 1 marker per division. 170.004 5520 2mT 3% MK SC L 171.001 MEME 171.002 MESS 171.003 5520 mT MK SC S L 171.004 EVAL Is {linearity within 7.5%}? 172.001 HEAD TIMING ACCURACY AND LINEARITY: {@ 50 mS/div} 172.002 DISP A SEC/DIV : 50 mS 172.003 MESS Slew output for 1 marker per division. 172.004 5520 5mT 3% MK SC L 173.001 MEME 173.002 MESS 173.003 5520 mT MK SC S L 173.004 EVAL Is {linearity within 7.5%}? 174.001 HEAD TIMING ACCURACY AND LINEARITY: {@ .1 S/div} 174.002 DISP A SEC/DIV : 0.1 S 174.003 MESS Slew output for 1 marker per division. 174.004 5520 10mT 3% MK SC L 175.001 MEME 175.002 MESS 175.003 5520 mT MK SC S L 175.004 EVAL Is {linearity within 7.5%}? 176.001 HEAD TIMING ACCURACY AND LINEARITY: {@ .2 S/div} 176.002 DISP A SEC/DIV : 0.2 S 176.003 MESS Slew output for 1 marker per division. 176.004 5520 20mT 3% MK SC L 177.001 MEME 177.002 MESS 177.003 5520 mT MK SC S L 177.004 EVAL Is {linearity within 7.5%}? 178.001 HEAD TIMING ACCURACY AND LINEARITY: {@ .5 S/div} 178.002 DISP A SEC/DIV : 0.5 S 178.003 MESS Slew output for 1 marker per division. 178.004 5520 50mT 3% MK SC L 179.001 MEME 179.002 MESS 179.003 5520 mT MK SC S L 179.004 EVAL Is {linearity within 7.5%}? 180.001 RSLT =B Sweep 180.002 DISP HORIZONTAL MODE : B 180.002 DISP A SEC/DIV : 0.1 uS 180.002 DISP B SEC/DIV : 0.05 uS 180.002 DISP X10 Magnifier : Off (knob in) 180.003 DISP Note: Throughout the B Sweep tests, keep the A SEC/DIV 180.003 DISP switch one setting slower than the B SEC/DIV switch. 180.004 MESS Slew output for 1 marker per division. 180.005 HEAD TIMING ACCURACY AND LINEARITY: {@ 50 nS/div} 180.006 5520 50nT 2% MK SC L 181.001 MEME 181.002 MESS 181.003 5520 nT MK SC S L 181.004 EVAL Is {linearity within 5%}? 182.001 HEAD TIMING ACCURACY AND LINEARITY: {@ .1 uS/div} 182.002 DISP B SEC/DIV : 0.1 uS 182.003 MESS Slew output for 1 marker per division. 182.004 5520 100nT 2% MK SC L 183.001 MEME 183.002 MESS 183.003 5520 nT MK SC S L 183.004 EVAL Is {linearity within 5%}? 184.001 HEAD TIMING ACCURACY AND LINEARITY: {@ .2 uS/div} 184.002 DISP B SEC/DIV : 0.2 uS 184.003 MESS Slew output for 1 marker per division. 184.004 5520 200nT 2% MK SC L 185.001 MEME 185.002 MESS 185.003 5520 nT MK SC S L 185.004 EVAL Is {linearity within 5%}? 186.001 HEAD TIMING ACCURACY AND LINEARITY: {@ .5 uS/div} 186.002 DISP B SEC/DIV : 0.5 uS 186.003 MESS Slew output for 1 marker per division. 186.004 5520 500nT 2% MK SC L 187.001 MEME 187.002 MESS 187.003 5520 nT MK SC S L 187.004 EVAL Is {linearity within 5%}? 188.001 HEAD TIMING ACCURACY AND LINEARITY: {@ 1 uS/div} 188.002 DISP B SEC/DIV : 1 uS 188.003 MESS Slew output for 1 marker per division. 188.004 5520 1uT 2% MK SC L 189.001 MEME 189.002 MESS 189.003 5520 uT MK SC S L 189.004 EVAL Is {linearity within 5%}? 190.001 HEAD TIMING ACCURACY AND LINEARITY: {@ 2 uS/div} 190.002 DISP B SEC/DIV : 2 uS 190.003 MESS Slew output for 1 marker per division. 190.004 5520 2uT 2% MK SC L 191.001 MEME 191.002 MESS 191.003 5520 uT MK SC S L 191.004 EVAL Is {linearity within 5%}? 192.001 HEAD TIMING ACCURACY AND LINEARITY: {@ 5 uS/div} 192.002 DISP B SEC/DIV : 5 uS 192.003 MESS Slew output for 1 marker per division. 192.004 5520 5uT 2% MK SC L 193.001 MEME 193.002 MESS 193.003 5520 uT MK SC S L 193.004 EVAL Is {linearity within 5%}? 194.001 HEAD TIMING ACCURACY AND LINEARITY: {@ 10 uS/div} 194.002 DISP B SEC/DIV : 10 uS 194.003 MESS Slew output for 1 marker per division. 194.004 5520 10uT 2% MK SC L 195.001 MEME 195.002 MESS 195.003 5520 uT MK SC S L 195.004 EVAL Is {linearity within 5%}? 196.001 HEAD TIMING ACCURACY AND LINEARITY: {@ 20 uS/div} 196.002 DISP B SEC/DIV : 20 uS 196.003 MESS Slew output for 1 marker per division. 196.004 5520 20uT 2% MK SC L 197.001 MEME 197.002 MESS 197.003 5520 uT MK SC S L 197.004 EVAL Is {linearity within 5%}? 198.001 HEAD TIMING ACCURACY AND LINEARITY: {@ 50 uS/div} 198.002 DISP B SEC/DIV : 50 uS 198.003 MESS Slew output for 1 marker per division. 198.004 5520 50uT 2% MK SC L 199.001 MEME 199.002 MESS 199.003 5520 uT MK SC S L 199.004 EVAL Is {linearity within 5%}? 200.001 HEAD TIMING ACCURACY AND LINEARITY: {@ .1 mS/div} 200.002 DISP B SEC/DIV : .1 mS 200.003 MESS Slew output for 1 marker per division. 200.004 5520 100uT 2% MK SC L 201.001 MEME 201.002 MESS 201.003 5520 uT MK SC S L 201.004 EVAL Is {linearity within 5%}? 202.001 HEAD TIMING ACCURACY AND LINEARITY: {@ .2 mS/div} 202.002 DISP B SEC/DIV : .2 mS 202.003 MESS Slew output for 1 marker per division. 202.004 5520 200uT 2% MK SC L 203.001 MEME 203.002 MESS 203.003 5520 uT MK SC S L 203.004 EVAL Is {linearity within 5%}? 204.001 HEAD TIMING ACCURACY AND LINEARITY: {@ .5 mS/div} 204.002 DISP B SEC/DIV : .5 mS 204.003 MESS Slew output for 1 marker per division. 204.004 5520 500uT 2% MK SC L 205.001 MEME 205.002 MESS 205.003 5520 uT MK SC S L 205.004 EVAL Is {linearity within 5%}? 206.001 HEAD TIMING ACCURACY AND LINEARITY: {@ 1 mS/div} 206.002 DISP B SEC/DIV : 1 mS 206.003 MESS Slew output for 1 marker per division. 206.004 5520 1mT 2% MK SC L 207.001 MEME 207.002 MESS 207.003 5520 mT MK SC S L 207.004 EVAL Is {linearity within 5%}? 208.001 HEAD TIMING ACCURACY AND LINEARITY: {@ 2 mS/div} 208.002 DISP B SEC/DIV : 2 mS 208.003 MESS Slew output for 1 marker per division. 208.004 5520 2mT 2% MK SC L 209.001 MEME 209.002 MESS 209.003 5520 mT MK SC S L 209.004 EVAL Is {linearity within 5%}? 210.001 HEAD TIMING ACCURACY AND LINEARITY: {@ 5 mS/div} 210.002 DISP B SEC/DIV : 5 mS 210.003 MESS Slew output for 1 marker per division. 210.004 5520 5mT 2% MK SC L 211.001 MEME 211.002 MESS 211.003 5520 mT MK SC S L 211.004 EVAL Is {linearity within 5%}? 212.001 HEAD TIMING ACCURACY AND LINEARITY: {@ 10 mS/div} 212.002 DISP B SEC/DIV : 10 mS 212.003 MESS Slew output for 1 marker per division. 212.004 5520 10mT 2% MK SC L 213.001 MEME 213.002 MESS 213.003 5520 mT MK SC S L 213.004 EVAL Is {linearity within 5%}? 214.001 HEAD TIMING ACCURACY AND LINEARITY: {@ 20 mS/div} 214.002 DISP B SEC/DIV : 20 mS 214.003 MESS Slew output for 1 marker per division. 214.004 5520 20mT 2% MK SC L 215.001 MEME 215.002 MESS 215.003 5520 mT MK SC S L 215.004 EVAL Is {linearity within 5%}? 216.001 HEAD TIMING ACCURACY AND LINEARITY: {@ 50 mS/div} 216.002 DISP B SEC/DIV : 50 mS 216.003 MESS Slew output for 1 marker per division. 216.004 5520 50mT 2% MK SC L 217.001 MEME 217.002 MESS 217.003 5520 mT MK SC S L 217.004 EVAL Is {linearity within 5%}? 218.001 RSLT =X10 MAG 218.002 DISP B SEC/DIV : 0.05 uS 218.002 DISP X10 Magnifier : On (knob out) 218.003 5520 10nT MK SC S L 218.004 DISP Use the Horizontal POSITION control to align 218.004 DISP the 1st time marker that is 40 nS beyond the 218.004 DISP start of the sweep with the 2nd vertical graticule line. 218.005 HEAD TIMING ACCURACY AND LINEARITY: {@ 10 nS/div} 218.006 MESS CHECK--Timing accuracy is within 3% (0.24 218.006 MESS division at the 10th vertical graticule line), and 218.006 MESS linearity is within 7.5% (0.15 division over any 2 of 218.006 MESS the center 8 divisions). Exclude any portion of 218.006 MESS the sweep past the 100th magnified division. 218.006 MESS 218.007 EVAL Is {timing accuracy within 3% (@ 10 nS/div)}? 219.001 MESS 219.002 5520 10nT MK SC S L 219.003 EVAL Is {linearity within 7.5%}? 220.001 HEAD TIMING ACCURACY AND LINEARITY: {@ .1 uS/div} 220.002 DISP B SEC/DIV : 0.1 uS 220.003 MESS Slew output for 1 marker per division. 220.004 5520 10nT 3% MK SC L 221.001 MEME 221.002 MESS 221.003 5520 nT MK SC S L 221.004 EVAL Is {linearity within 7.5%}? 222.001 HEAD TIMING ACCURACY AND LINEARITY: {@ .2 uS/div} 222.002 DISP B SEC/DIV : 0.2 uS 222.003 MESS Slew output for 1 marker per division. 222.004 5520 20nT 3% MK SC L 223.001 MEME 223.002 MESS 223.003 5520 nT MK SC S L 223.004 EVAL Is {linearity within 7.5%}? 224.001 HEAD TIMING ACCURACY AND LINEARITY: {@ .5 uS/div} 224.002 DISP B SEC/DIV : 0.5 uS 224.003 MESS Slew output for 1 marker per division. 224.004 5520 50nT 3% MK SC L 225.001 MEME 225.002 MESS 225.003 5520 nT MK SC S L 225.004 EVAL Is {linearity within 7.5%}? 226.001 HEAD TIMING ACCURACY AND LINEARITY: {@ 1 uS/div} 226.002 DISP B SEC/DIV : 1 uS 226.003 MESS Slew output for 1 marker per division. 226.004 5520 100nT 3% MK SC L 227.001 MEME 227.002 MESS 227.003 5520 nT MK SC S L 227.004 EVAL Is {linearity within 7.5%}? 228.001 HEAD TIMING ACCURACY AND LINEARITY: {@ 2 uS/div} 228.002 DISP B SEC/DIV : 2 uS 228.003 MESS Slew output for 1 marker per division. 228.004 5520 200nT 3% MK SC L 229.001 MEME 229.002 MESS 229.003 5520 nT MK SC S L 229.004 EVAL Is {linearity within 7.5%}? 230.001 HEAD TIMING ACCURACY AND LINEARITY: {@ 5 uS/div} 230.002 DISP B SEC/DIV : 5 uS 230.003 MESS Slew output for 1 marker per division. 230.004 5520 500nT 3% MK SC L 231.001 MEME 231.002 MESS 231.003 5520 nT MK SC S L 231.004 EVAL Is {linearity within 7.5%}? 232.001 HEAD TIMING ACCURACY AND LINEARITY: {@ 10 uS/div} 232.002 DISP B SEC/DIV : 10 uS 232.003 MESS Slew output for 1 marker per division. 232.004 5520 1uT 3% MK SC L 233.001 MEME 233.002 MESS 233.003 5520 uT MK SC S L 233.004 EVAL Is {linearity within 7.5%}? 234.001 HEAD TIMING ACCURACY AND LINEARITY: {@ 20 uS/div} 234.002 DISP B SEC/DIV : 20 uS 234.003 MESS Slew output for 1 marker per division. 234.004 5520 2uT 3% MK SC L 235.001 MEME 235.002 MESS 235.003 5520 uT MK SC S L 235.004 EVAL Is {linearity within 7.5%}? 236.001 HEAD TIMING ACCURACY AND LINEARITY: {@ 50 uS/div} 236.002 DISP B SEC/DIV : 50 uS 236.003 MESS Slew output for 1 marker per division. 236.004 5520 5uT 3% MK SC L 237.001 MEME 237.002 MESS 237.003 5520 uT MK SC S L 237.004 EVAL Is {linearity within 7.5%}? 238.001 HEAD TIMING ACCURACY AND LINEARITY: {@ .1 mS/div} 238.002 DISP B SEC/DIV : .1 mS 238.003 MESS Slew output for 1 marker per division. 238.004 5520 10uT 3% MK SC L 239.001 MEME 239.002 MESS 239.003 5520 uT MK SC S L 239.004 EVAL Is {linearity within 7.5%}? 240.001 HEAD TIMING ACCURACY AND LINEARITY: {@ .2 mS/div} 240.002 DISP B SEC/DIV : .2 mS 240.003 MESS Slew output for 1 marker per division. 240.004 5520 20uT 3% MK SC L 241.001 MEME 241.002 MESS 241.003 5520 uT MK SC S L 241.004 EVAL Is {linearity within 7.5%}? 242.001 HEAD TIMING ACCURACY AND LINEARITY: {@ .5 mS/div} 242.002 DISP B SEC/DIV : .5 mS 242.003 MESS Slew output for 1 marker per division. 242.004 5520 50uT 3% MK SC L 243.001 MEME 243.002 MESS 243.003 5520 uT MK SC S L 243.004 EVAL Is {linearity within 7.5%}? 244.001 HEAD TIMING ACCURACY AND LINEARITY: {@ 1 mS/div} 244.002 DISP B SEC/DIV : 1 mS 244.003 MESS Slew output for 1 marker per division. 244.004 5520 100uT 3% MK SC L 245.001 MEME 245.002 MESS 245.003 5520 uT MK SC S L 245.004 EVAL Is {linearity within 7.5%}? 246.001 HEAD TIMING ACCURACY AND LINEARITY: {@ 2 mS/div} 246.002 DISP B SEC/DIV : 2 mS 246.003 MESS Slew output for 1 marker per division. 246.004 5520 200uT 3% MK SC L 247.001 MEME 247.002 MESS 247.003 5520 uT MK SC S L 247.004 EVAL Is {linearity within 7.5%}? 248.001 HEAD TIMING ACCURACY AND LINEARITY: {@ 5 mS/div} 248.002 DISP B SEC/DIV : 5 mS 248.003 MESS Slew output for 1 marker per division. 248.004 5520 500uT 3% MK SC L 249.001 MEME 249.002 MESS 249.003 5520 uT MK SC S L 249.004 EVAL Is {linearity within 7.5%}? 250.001 HEAD TIMING ACCURACY AND LINEARITY: {@ 10 mS/div} 250.002 DISP B SEC/DIV : 10 mS 250.003 MESS Slew output for 1 marker per division. 250.004 5520 1mT 3% MK SC L 251.001 MEME 251.002 MESS 251.003 5520 mT MK SC S L 251.004 EVAL Is {linearity within 7.5%}? 252.001 HEAD TIMING ACCURACY AND LINEARITY: {@ 20 mS/div} 252.002 DISP B SEC/DIV : 20 mS 252.003 MESS Slew output for 1 marker per division. 252.004 5520 2mT 3% MK SC L 253.001 MEME 253.002 MESS 253.003 5520 mT MK SC S L 253.004 EVAL Is {linearity within 7.5%}? 254.001 HEAD TIMING ACCURACY AND LINEARITY: {@ 50 mS/div} 254.002 DISP B SEC/DIV : 50 mS 254.003 MESS Slew output for 1 marker per division. 254.004 5520 5mT 3% MK SC L 255.001 MEME 255.002 MESS 255.003 5520 mT MK SC S L 255.004 EVAL Is {linearity within 7.5%}? 256.001 HEAD {STORE DIFFERENTIAL CURSOR TIME DIFFERENCE} 256.002 DISP CH 1 AC-GND-DC : GND 256.002 DISP HORIZONTAL MODE : A 256.002 DISP A SEC/DIV : 0.1 mS 256.002 DISP X10 Magnifier : Off (knob in) 256.002 DISP STORE/NON STORE : STORE (button in) 256.003 DISP Use the CH 1 POSITION control to center the base line 256.003 DISP vertically and the HORIZONTAL POSITION control to align 256.003 DISP the start of trace with the 1st vertical graticule line. 256.004 DISP Use the CURSORS control and SELECT C1/C2 switch to set 256.004 DISP one cursor exactly on the 2nd vertical graticule line 256.004 DISP and position the active cursor to the right using the 256.004 DISP CURSORS control until DeltaT readout displays 0.800 mS. 256.005 MESS CHECK--Graticule indication of cursor difference at the 256.005 MESS 10th vertical graticule line is within 0.16 division. 256.005 MESS 256.006 EVAL Is {cursor difference @ 10th graticule line +/- 0.16 div.}? 257.001 MESS 257.002 5520 0.1mT MK SC S L 257.003 DISP CH 1 AC-GND-DC : DC 257.003 DISP 257.003 DISP Align the 2nd time marker with the 2nd vertical 257.003 DISP graticule line using the Horizontal POSITION control. 257.003 DISP 257.003 DISP SAVE/CONTINUE : SAVE (button in) 257.004 DISP Use the CURSORS control and SELECT C1/C2 switch to set 257.004 DISP first cursor on the trailing edge of 2nd time marker. 257.004 DISP 257.004 DISP Press in the CURSORS control knob to activate 257.004 DISP the second cursor. 257.005 DISP Set the second cursor on the trailing edge of the 10th 257.005 DISP time marker at the same voltage level as on the 257.005 DISP 2nd time marker. 257.005 DISP 257.005 DISP Note: Pulses with fast rise and fall times have only a 257.005 DISP few sample points and it may not be possible to place 257.005 DISP the cursors at exactiy the same voltage levels. 257.006 EVAL Is {DeltaT readout between 0.798 and 0.802 mS}? 258.001 DISP SAVE/CONTINUE :CONTINUE (button out) 258.001 DISP A SEC/DIV : 0.5 uS 258.002 5520 0.5uT MK SC S L 258.003 DISP Align the 2nd time marker with the 2nd vertical 258.003 DISP graticule line using the Horizontal POSITION control. 258.003 DISP 258.003 DISP Note: Allow the points to accumulate for a few seconds 258.003 DISP before saving the display. 258.004 DISP SAVE/CONTINUE : SAVE (button in) 258.005 DISP Use the CURSORS control and SELECT C1/C2 switch to set 258.005 DISP first cursor on the trailing edge of 2nd time marker. 258.005 DISP 258.005 DISP Press in the CURSORS control knob to activate 258.005 DISP the second cursor. 258.005 DISP 258.006 DISP Set the second cursor on the trailing edge of the 10th 258.006 DISP time marker at the same voltage level as on the 258.006 DISP 2nd time marker. 258.007 EVAL Is {DeltaT readout between 3.990 and 4.010 uS}? 259.001 HEAD {VARIABLE RANGE AND SWEEP SEPARATION} 259.002 DISP A and B SEC/DIV : 0.2 mS 259.002 DISP SEC/DIV Variable : Fully CCW 259.002 DISP STORE/NON STORE : NON STORE (button out) 259.003 5520 0.5mT MK SC S L 259.004 EVAL Are {time markers 1 division or less apart}? 260.001 5520 0.5mT MK SC S L 260.002 DISP CH 1 AC-GND-DC : GND 260.002 DISP SEC/DIV Variable : CAL detent 260.002 DISP HORIZONTAL MODE : BOTH 260.002 DISP B TRIG : Fully CW (Runs After Delay) 260.002 DISP 260.002 DISP Use the Channel 1 POSITION control to set 260.002 DISP the A Sweep at the center horizontal graticule line. 260.003 MESS CHECK--The B Sweep can be positioned more than 3.5 div. 260.003 MESS above and below the A Sweep when the A/B SWP SEP control 260.003 MESS is rotated fully CW and CCW respectively. 260.003 MESS 260.004 EVAL Can {B Sweep be positioned correctly (>3.5 div) from A Sweep}? 261.001 MESS 261.002 HEAD {DELAY TIME DIFFERENTIAL ACCURACY} 261.003 HEAD DELAY TIME DIFFERENTIAL ACCURACY: {@ 0.2 mS/div} 261.004 DISP Use the Horizontal POSITION control to align 261.004 DISP the start of the A Sweep with the 1st vertical 261.004 DISP graticule line. 261.004 DISP 261.004 DISP B DELAY TIME POSITION : Fully CCW 261.005 MESS CHECK--Intensified portion of the trace starts 261.005 MESS within 0.5 division of the start of the sweep. 261.005 MESS 261.006 EVAL Does {intensified portion start within 0.5 division}? 262.001 MESS Rotate the B DELAY TIME POSITION control fully CW. 262.001 MESS 262.001 MESS CHECK--Intensified portion of the trace is past 262.001 MESS the 11th vertical graticule line. 262.002 EVAL Is {intensified portion past the 11th graticule line}? 263.001 MESS 263.002 HEAD DELAY TIME DIFFERENTIAL ACCURACY: {@ 0.5 mS/div} 263.003 DISP A and B SEC/DIV : 0.5 uS 263.004 DISP Use the Horizontal POSITION control to align 263.004 DISP the start of the A Sweep with the 1st vertical 263.004 DISP graticule line. 263.004 DISP 263.004 DISP B DELAY TIME POSITION : Fully CCW 263.005 MESS CHECK--Intensified portion of the trace starts 263.005 MESS within 1.1 division of the start of the sweep. 263.005 MESS 263.006 EVAL Does {intensified portion start within 1.1 division}? 264.001 MESS Rotate the B DELAY TIME POSITION control fully CW. 264.001 MESS 264.001 MESS CHECK--Intensified portion of the trace is past 264.001 MESS the 11th vertical graticule line. 264.002 EVAL Is {intensified portion past the 11th graticule line}? 265.001 MESS 265.002 DISP CH 1 AC-GND-DC : DC 265.002 DISP B SEC/DIV : 0.05 uS 265.002 DISP B DELAY TIME POSITION : Fully CCW 265.003 5520 0.5uT MK SC S L 265.004 DISP Rotate the B DELAY TIME POSITION control 265.004 DISP so that the top of the 2nd time marker on the B Sweep 265.004 DISP is aligned with a selected reference vertical line. 265.005 MEMI Enter the DLY= readout. 265.006 MEME 265.007 DISP Rotate the B DELAY TIME POSITION control 265.007 DISP fully clockwise until the top of the 10th time 265.007 DISP marker on the B Sweep is aligned with the same 265.007 DISP selected reference vertical line as before. 265.008 MEMI Enter the DLY= readout. 265.009 MATH MEM = MEM - MEM1 265.010 ACC 4.000uS 0.0065U 265.011 MEME 265.012 MEMC 0.05 uS 0.065U 266.001 DISP B SEC/DIV : 0.5 uS 266.002 5520 5uT MK SC S L 266.003 DISP Rotate the B DELAY TIME POSITION control 266.003 DISP so that the top of the 2nd time marker on the B Sweep 266.003 DISP is aligned with a selected reference vertical line. 266.004 MEMI Enter the DLY= readout. 266.005 MEME 266.006 DISP Rotate the B DELAY TIME POSITION control 266.006 DISP fully clockwise until the top of the 10th time 266.006 DISP marker on the B Sweep is aligned with the same 266.006 DISP selected reference vertical line as before. 266.007 MEMI Enter the DLY= readout. 266.008 MATH MEM = MEM - MEM1 266.009 ACC 40.00 0.065U 266.010 MEME 266.011 MEMC 0.5 uS 0.65U 267.001 DISP B SEC/DIV : 5 uS 267.002 5520 50uT MK SC S L 267.003 DISP Rotate the B DELAY TIME POSITION control 267.003 DISP so that the top of the 2nd time marker on the B Sweep 267.003 DISP is aligned with a selected reference vertical line. 267.004 MEMI Enter the DLY= readout. 267.005 MEME 267.006 DISP Rotate the B DELAY TIME POSITION control 267.006 DISP fully clockwise until the top of the 10th time 267.006 DISP marker on the B Sweep is aligned with the same 267.006 DISP selected reference vertical line as before. 267.007 MEMI Enter the DLY= readout. 267.008 MATH MEM = MEM - MEM1 267.009 ACC 400.0 0.65U 267.010 MEME 267.011 MEMC 5 uS 6.5U 268.001 DISP B SEC/DIV : 50 uS 268.002 5520 500uT MK SC S L 268.003 DISP Rotate the B DELAY TIME POSITION control 268.003 DISP so that the top of the 2nd time marker on the B Sweep 268.003 DISP is aligned with a selected reference vertical line. 268.004 MEMI Enter the DLY= readout. 268.005 MEME 268.006 DISP Rotate the B DELAY TIME POSITION control 268.006 DISP fully clockwise until the top of the 10th time 268.006 DISP marker on the B Sweep is aligned with the same 268.006 DISP selected reference vertical line as before. 268.007 MEMI Enter the DLY= readout. 268.008 MATH MEM = MEM - MEM1 268.009 ACC 4.000 0.0065U 268.010 MEME 268.011 MEMC 0.05 mS 0.065U 269.001 DISP B SEC/DIV : .5 mS 269.002 5520 5mT MK SC S L 269.003 DISP Rotate the B DELAY TIME POSITION control 269.003 DISP so that the top of the 2nd time marker on the B Sweep 269.003 DISP is aligned with a selected reference vertical line. 269.004 MEMI Enter the DLY= readout. 269.005 MEME 269.006 DISP Rotate the B DELAY TIME POSITION control 269.006 DISP fully clockwise until the top of the 10th time 269.006 DISP marker on the B Sweep is aligned with the same 269.006 DISP selected reference vertical line as before. 269.007 MEMI Enter the DLY= readout. 269.008 MATH MEM = MEM - MEM1 269.009 ACC 40.00 0.065U 269.010 MEME 269.011 MEMC 0.5 mS 0.65U 270.001 DISP B SEC/DIV : 5 mS 270.002 5520 50mT MK SC S L 270.003 DISP Rotate the B DELAY TIME POSITION control 270.003 DISP so that the top of the 2nd time marker on the B Sweep 270.003 DISP is aligned with a selected reference vertical line. 270.004 MEMI Enter the DLY= readout. 270.005 MEME 270.006 DISP Rotate the B DELAY TIME POSITION control 270.006 DISP fully clockwise until the top of the 10th time 270.006 DISP marker on the B Sweep is aligned with the same 270.006 DISP selected reference vertical line as before. 270.007 MEMI Enter the DLY= readout. 270.008 MATH MEM = MEM - MEM1 270.009 ACC 400.0 0.65U 270.010 MEME 270.011 MEMC 5 mS 6.5U 271.001 DISP B SEC/DIV : 50 mS 271.002 5520 500mT MK SC S L 271.003 DISP Rotate the B DELAY TIME POSITION control 271.003 DISP so that the top of the 2nd time marker on the B Sweep 271.003 DISP is aligned with a selected reference vertical line. 271.004 MEMI Enter the DLY= readout. 271.005 MEME 271.006 DISP Rotate the B DELAY TIME POSITION control 271.006 DISP fully clockwise until the top of the 10th time 271.006 DISP marker on the B Sweep is aligned with the same 271.006 DISP selected reference vertical line as before. 271.007 MEMI Enter the DLY= readout. 271.008 MATH MEM = MEM - MEM1 271.009 ACC 4.000 0.0065U 271.010 MEME 271.011 MEMC 0.05 S 0.065U 272.001 HEAD {DELAY JITTER} 272.002 DISP A SEC/DIV : 0.5 mS 272.002 DISP B SEC/DIV : 1 uS 272.003 5520 0.5mT MK SC S L 272.004 MESS Rotate the B DELAY TIME POSITION control to position 272.004 MESS the intensified zone on the 10th time marker. 272.004 MESS 272.004 MESS HORIZONTAL MODE : B 272.004 MESS 272.004 MESS 272.005 EVAL Does {jitter on leading edge exceed 1 div (disregard drift)}? 273.001 HEAD {POSITION RANGE} 273.002 DISP HORIZONTAL MODE : A 273.002 DISP A SEC/DIV : 10 uS 273.003 5520 10uT MK SC S L 273.004 MESS CHECK--Start of the sweep can be positioned 273.004 MESS to the right of the center vertical graticule line by 273.004 MESS rotating the Horizontal POSITION control fully 273.004 MESS clockwise. 273.004 MESS 273.005 EVAL Is {start of sweep to the right of center graticule line}? 274.001 5520 10uT MK SC S L 274.002 MESS CHECK--The 11th time marker can be 274.002 MESS positioned to the left of the center vertical 274.002 MESS graticule line by rotating the Horizontal 274.002 MESS POSITION control fully counterclockwise. 274.002 MESS 274.003 EVAL Is {11th time marker left of center graticule line}? 275.001 MESS 275.002 RSLT =X10 MAG 275.003 5520 50uT MK SC S L 275.004 DISP Align the 3rd time marker with the center 275.004 DISP vertical graticule line using the Horizontal 275.004 DISP POSITION control. 275.004 DISP 275.004 DISP Set the X10 Magnifier knob to On (knob out). 275.005 MESS CHECK--Magnified time marker can be 275.005 MESS positioned to the left of the center vertical 275.005 MESS graticule line by rotating the Horizontal 275.005 MESS POSITION control fully counterclockwise. 275.005 MESS 275.006 EVAL Is {MAG time marker to the left of center graticule line}? 276.001 5520 50uT MK SC S L 276.002 MESS CHECK--Start of the sweep can be positioned 276.002 MESS to the right of the center vertical graticule line by 276.002 MESS rotating the Horizontal POSITION control fully 276.002 MESS clockwise. 276.002 MESS 276.003 EVAL Is {start of sweep to the right of center graticule line}? 277.001 MESS 277.002 HEAD {STORE EXPANSION RANGE} 277.003 DISP A SEC/DlV : 0.1 mS 277.003 DISP X10 Magnifier : Off (knob in) 277.004 5520 10uT MK SC S L 277.005 DISP Use the Horizontal POSITION control to align 277.005 DISP the start of the A Sweep with the 1st vertical 277.005 DISP graticule line. 277.005 DISP 277.005 DISP STORE/NON STORE : STORE (button in) 277.005 DISP 277.005 DISP X10 MAG : ON (knob out) 277.006 EVAL Are {time markers 1 division apart}? 278.001 HEAD {4K TO 1K DISPLAY COMPRESS} 278.002 DISP A SEC/DlV : 50 uS 278.002 DISP X10 MAG : OFF (knob in) 278.002 DISP 1K/4K : 4K (button out) 278.003 5520 0.1mT MK SC S L 278.004 EVAL Are {time markers 2 divisions apart}? 279.001 5520 0.1mT MK SC S L 279.002 MESS Rotate the SEC/DIV Variable control out of detent. 279.002 MESS 279.002 MESS CHECK--For 2 time markers per division over 279.002 MESS the center 8 divisions. 279.002 MESS 279.002 MESS 279.003 EVAL Are there {2 time markers/division over center 8 divisions}? 280.001 HEAD {NON STORE SWEEP LENGTH} 280.002 DISP SEC/DIV Variable : CAL detent 280.002 DISP STORE/NON STORE : NON STORE (button out) 280.002 DISP 280.002 DISP Use the Horizontal POSITION control to align 280.002 DISP the start of the A Sweep with the 1st vertical 280.002 DISP graticule line. 280.003 MESS CHECK--End of the sweep is to the right of 280.003 MESS the 11th vertical graticule line. 280.003 MESS 280.004 EVAL Is {end of sweep to the right of 11th graticule line}? 281.001 MESS 281.002 HEAD {X GAIN} 281.003 DISP MAKE THE FOLLOWING CONNECTIONS... 281.003 DISP 281.003 DISP 5520 SCOPE OUTPUT ------------CH 1 INPUT 281.004 DISP X-Y : ON (button in) 281.004 DISP CH 1 VOLTS/DIV : 10 mV 281.004 DISP HORIZONTAL POSITION : Midrange 281.005 5520 50mVpp 1kH ZQ SC S 281.006 DISP Use the Channel 2 POSITION and Horizontal 281.006 DISP POSITION controls to center the display. 281.007 EVAL Is {display between 4.85 to 5.15 horizontal divisions}? 282.001 HEAD {X BANDWIDTH} 282.002 ASK- U 282.003 DISP MAKE THE FOLLOWING CONNECTIONS... 282.003 DISP 282.003 DISP 5520 SCOPE OUTPUT ----------50 Ohm--CH 1 INPUT 282.004 MESS Slew the output for a 5 division horizontal display. 282.005 5520 50mVpp 50kH LS SC N L 282.006 MESS Slew the output for a 3.5 division horizontal display. 282.007 5520 2.5MH -1000% mVpp LS SC L 283.001 HEAD INITIAL CONTROL SETTINGS 283.002 DISP Set the following VERTICAL functions... 283.002 DISP 283.002 DISP POSITION (both) : Midrange 283.002 DISP VERTICAL MODE : CH 1 283.002 DISP X-Y : Off (button out) 283.002 DISP BW LIMIT : Off (button in) 283.003 DISP Set the following VERTICAL functions... 283.003 DISP 283.003 DISP CH 1 VOLTS/DIV : 5 mV 283.003 DISP CH 1 VOLTS/DIV : 50 mV 283.003 DISP VOLTS/DIV Variable (both) : CAL detent 283.003 DISP INVERT : Off (button out) 283.003 DISP AC-GND-DC (both) : DC 283.004 DISP Set the following HORIZONTAL fuctions... 283.004 DISP 283.004 DISP POSITION : Midrange 283.004 DISP HORIZONTAL MODE : A 283.004 DISP A & B SEC/DIV : 0.2 uS 283.004 DISP SEC/DlV Variable : CAL detent 283.004 DISP X10 Magnifier : Off (knob in) 283.004 DISP B DELAY TIME POSITION : Fully CCW 283.005 ASK+ U 283.006 DISP Set the following B TRIGGER functions... 283.006 DISP 283.006 DISP SLOPE : POSITIVE 283.006 DISP LEVEL : Midrange 283.007 DISP Set the following TRIGGER functions... 283.007 DISP 283.007 DISP A & B SOURCE : CH 1 283.008 HEAD {INTERNAL A AND B TRIGGERING} 283.009 HEAD INTERNAL A AND B TRIGGERING: {CH 1 @ 10 MHz} 283.010 RSLT = 283.011 RSLT =A Sweep 283.012 MESS Slew output for a 3.5 division display. 283.013 5520 17.5mVpp 10MH LS SC N L 283.014 MATH M[1] = MEM 283.015 MESS 283.016 DISP CH 1 VOLTS/DIV : 50 mV 283.016 DISP 283.016 DISP Throughout the following tests, adjust the 283.016 DISP TRIGGER LEVEL as needed to obtain a triggered display. 283.017 EVAL Can {triggered display be obtained (P-P AUTO/+SLOPE)}? 284.001 MATH MEM = M[1] 284.002 5520 10MH mVpp LS SC S L 284.003 MESS Set the following A TRIGGER functions... 284.003 MESS 284.003 MESS SLOPE : NEGATIVE 284.004 EVAL Can {triggered display be obtained (P-P AUTO/-SLOPE)}? 285.001 MATH MEM = M[1] 285.002 5520 10MH mVpp LS SC S L 285.003 MESS Set the following A TRIGGER functions... 285.003 MESS 285.003 MESS MODE : NORM 285.004 EVAL Can {triggered display be obtained (NORM/-SLOPE)}? 286.001 MATH MEM = M[1] 286.002 5520 10MH mVpp LS SC S L 286.003 MESS Set the following A TRIGGER functions... 286.003 MESS 286.003 MESS SLOPE : POSITIVE 286.004 EVAL Can {triggered display be obtained (NORM/+SLOPE)}? 287.001 MESS 287.002 RSLT =B Sweep 287.003 DISP HORIZONTAL MODE : B 287.004 MATH MEM = M[1] 287.005 5520 10MH mVpp LS SC S L 287.006 MESS CHECK--Stable display can be obtained by 287.006 MESS adjusting the B TRIGGER LEVEL control to a 287.006 MESS position other than the B RUNS AFTER DLY 287.006 MESS position for both the OUT and IN positions of the 287.006 MESS B TRIGGER SLOPE switch. 287.006 MESS 287.007 EVAL Can {triggered display be obtained (+SLOPE)}? 288.001 MESS 288.002 MATH MEM = M[1] 288.003 5520 10MH mVpp LS SC S L 288.004 EVAL Can {triggered display be obtained (-SLOPE)}? 289.001 HEAD INTERNAL A AND B TRIGGERING: {CH 2 @ 10 MHz} 289.002 RSLT = 289.003 DISP MAKE THE FOLLOWING CONNECTIONS... 289.003 DISP 289.003 DISP 5520 SCOPE OUTPUT -----------50 Ohm--CH 2 INPUT 289.004 DISP VERTICAL MODE : CH 2 289.004 DISP HORIZONTAL MODE : A 289.004 DISP A & B SOURCE : CH 2 289.005 RSLT =A Sweep 289.006 DISP Set the following A TRIGGER functions... 289.006 DISP 289.006 DISP MODE : P-P AUTO 289.006 DISP SLOPE : POSITIVE 289.007 MESS Slew output for a 3.5 division display. 289.008 5520 17.5mVpp 10MH LS SC N L 289.009 MATH M[1] = MEM 289.010 DISP CH 2 VOLTS/DIV : 50 mV 289.011 MESS 289.012 EVAL Can {triggered display be obtained (P-P AUTO/+SLOPE)}? 290.001 MATH MEM = M[1] 290.002 5520 10MH mVpp LS SC S L 290.003 MESS Set the following A TRIGGER functions... 290.003 MESS 290.003 MESS SLOPE : NEGATIVE 290.004 EVAL Can {triggered display be obtained (P-P AUTO/-SLOPE)}? 291.001 MATH MEM = M[1] 291.002 5520 10MH mVpp LS SC S L 291.003 MESS Set the following A TRIGGER functions... 291.003 MESS 291.003 MESS MODE : NORM 291.004 EVAL Can {triggered display be obtained (NORM/-SLOPE)}? 292.001 MATH MEM = M[1] 292.002 5520 10MH mVpp LS SC S L 292.003 MESS Set the following A TRIGGER functions... 292.003 MESS 292.003 MESS SLOPE : POSITIVE 292.004 EVAL Can {triggered display be obtained (NORM/+SLOPE)}? 293.001 MESS 293.002 RSLT =B Sweep 293.003 DISP HORIZONTAL MODE : B 293.004 MATH MEM = M[1] 293.005 5520 10MH mVpp LS SC S L 293.006 MESS CHECK--Stable display can be obtained by 293.006 MESS adjusting the B TRIGGER LEVEL control to a 293.006 MESS position other than the B RUNS AFTER DLY 293.006 MESS position for both the OUT and IN positions of the 293.006 MESS B TRIGGER SLOPE switch. 293.006 MESS 293.007 EVAL Can {triggered display be obtained (+SLOPE)}? 294.001 MESS 294.002 MATH MEM = M[1] 294.003 5520 10MH mVpp LS SC S L 294.004 EVAL Can {triggered display be obtained (-SLOPE)}? 295.001 HEAD INTERNAL A AND B TRIGGERING: {CH 2 @ 60 MHz} 295.002 RSLT = 295.003 RSLT =A Sweep 295.004 DISP HORIZONTAL MODE : A 295.004 DISP A SEC/DIV : 0.1 uS 295.004 DISP X10 Magnifier : On (knob out) 295.005 MESS Slew output for a 1 division display. 295.006 5520 50mVpp 60MH LS SC N L 295.007 MESS 295.008 MATH M[1] = MEM 295.009 DISP Set the following A TRIGGER functions... 295.009 DISP 295.009 DISP MODE : P-P AUTO 295.009 DISP SLOPE : POSITIVE 295.010 EVAL Can {triggered display be obtained (P-P AUTO/+SLOPE)}? 296.001 MATH MEM = M[1] 296.002 5520 60MH mVpp LS SC S L 296.003 MESS Set the following A TRIGGER functions... 296.003 MESS 296.003 MESS SLOPE : NEGATIVE 296.004 EVAL Can {triggered display be obtained (P-P AUTO/-SLOPE)}? 297.001 MATH MEM = M[1] 297.002 5520 60MH mVpp LS SC S L 297.003 MESS Set the following A TRIGGER functions... 297.003 MESS 297.003 MESS MODE : NORM 297.004 EVAL Can {triggered display be obtained (NORM/-SLOPE)}? 298.001 MATH MEM = M[1] 298.002 5520 60MH mVpp LS SC S L 298.003 MESS Set the following A TRIGGER functions... 298.003 MESS 298.003 MESS SLOPE : POSITIVE 298.004 EVAL Can {triggered display be obtained (NORM/+SLOPE)}? 299.001 MESS 299.002 RSLT =B Sweep 299.003 DISP HORIZONTAL MODE : B 299.004 MATH MEM = M[1] 299.005 5520 60MH mVpp LS SC S L 299.006 MESS CHECK--Stable display can be obtained by 299.006 MESS adjusting the B TRIGGER LEVEL control to a 299.006 MESS position other than the B RUNS AFTER DLY 299.006 MESS position for both the OUT and IN positions of the 299.006 MESS B TRIGGER SLOPE switch. 299.006 MESS 299.007 EVAL Can {triggered display be obtained (+SLOPE)}? 300.001 MESS 300.002 MATH MEM = M[1] 300.003 5520 60MH mVpp LS SC S L 300.004 EVAL Can {triggered display be obtained (-SLOPE)}? 301.001 HEAD INTERNAL A AND B TRIGGERING: {CH 1 @ 60 MHz} 301.002 RSLT = 301.003 RSLT =A Sweep 301.004 DISP MAKE THE FOLLOWING CONNECTIONS... 301.004 DISP 301.004 DISP 5520 SCOPE OUTPUT -----------50 Ohm--CH 1 INPUT 301.005 DISP VERTICAL MODE : CH 1 301.005 DISP HORIZONTAL MODE : A 301.005 DISP A & B SOURCE : CH 1 301.006 MESS Slew output for a 1 division display. 301.007 5520 50mVpp 60MH LS SC N L 301.008 MESS 301.009 MATH M[1] = MEM 301.010 DISP Set the following A TRIGGER functions... 301.010 DISP 301.010 DISP MODE : P-P AUTO 301.010 DISP SLOPE : POSITIVE 301.011 EVAL Can {triggered display be obtained (P-P AUTO/+SLOPE)}? 302.001 MATH MEM = M[1] 302.002 5520 60MH mVpp LS SC S L 302.003 MESS Set the following A TRIGGER functions... 302.003 MESS 302.003 MESS SLOPE : NEGATIVE 302.004 EVAL Can {triggered display be obtained (P-P AUTO/-SLOPE)}? 303.001 MATH MEM = M[1] 303.002 5520 60MH mVpp LS SC S L 303.003 MESS Set the following A TRIGGER functions... 303.003 MESS 303.003 MESS MODE : NORM 303.004 EVAL Can {triggered display be obtained (NORM/-SLOPE)}? 304.001 MATH MEM = M[1] 304.002 5520 60MH mVpp LS SC S L 304.003 MESS Set the following A TRIGGER functions... 304.003 MESS 304.003 MESS SLOPE : POSITIVE 304.004 EVAL Can {triggered display be obtained (NORM/+SLOPE)}? 305.001 MESS 305.002 RSLT =B Sweep 305.003 DISP HORIZONTAL MODE : B 305.004 MATH MEM = M[1] 305.005 5520 60MH mVpp LS SC S L 305.006 MESS CHECK--Stable display can be obtained by 305.006 MESS adjusting the B TRIGGER LEVEL control to a 305.006 MESS position other than the B RUNS AFTER DLY 305.006 MESS position for both the OUT and IN positions of the 305.006 MESS B TRIGGER SLOPE switch. 305.006 MESS 305.007 EVAL Can {triggered display be obtained (+SLOPE)}? 306.001 MESS 306.002 EVAL Can {triggered display be obtained (-SLOPE)}? 307.001 HEAD INTERNAL A AND B TRIGGERING: {CH 1 @ 100 MHz} 307.002 RSLT = 307.003 RSLT =A Sweep 307.004 DISP HORIZONTAL MODE : A 307.004 DISP A SEC/DIV : 0.05 uS 307.005 MESS Slew output for a 1.5 division display. 307.006 5520 75mVpp 100MH LS SC N L 307.007 MESS 307.008 MATH M[1] = MEM 307.009 DISP Set the following A TRIGGER functions... 307.009 DISP 307.009 DISP MODE : P-P AUTO 307.009 DISP SLOPE : POSITIVE 307.010 EVAL Can {triggered display be obtained (P-P AUTO/+SLOPE)}? 308.001 MATH MEM = M[1] 308.002 5520 100MH mVpp LS SC S L 308.003 MESS Set the following A TRIGGER functions... 308.003 MESS 308.003 MESS SLOPE : NEGATIVE 308.004 EVAL Can {triggered display be obtained (P-P AUTO/-SLOPE)}? 309.001 MATH MEM = M[1] 309.002 5520 100MH mVpp LS SC S L 309.003 MESS Set the following A TRIGGER functions... 309.003 MESS 309.003 MESS MODE : NORM 309.004 EVAL Can {triggered display be obtained (NORM/-SLOPE)}? 310.001 MATH MEM = M[1] 310.002 5520 100MH mVpp LS SC S L 310.003 MESS Set the following A TRIGGER functions... 310.003 MESS 310.003 MESS SLOPE : POSITIVE 310.004 EVAL Can {triggered display be obtained (NORM/+SLOPE)}? 311.001 MESS 311.002 RSLT =B Sweep 311.003 DISP HORIZONTAL MODE : B 311.004 MATH MEM = M[1] 311.005 5520 100MH mVpp LS SC S L 311.006 MESS CHECK--Stable display can be obtained by 311.006 MESS adjusting the B TRIGGER LEVEL control to a 311.006 MESS position other than the B RUNS AFTER DLY 311.006 MESS position for both the OUT and IN positions of the 311.006 MESS B TRIGGER SLOPE switch. 311.006 MESS 311.007 EVAL Can {triggered display be obtained (+SLOPE)}? 312.001 MATH MEM = M[1] 312.002 5520 100MH mVpp LS SC S L 312.003 MESS 312.004 EVAL Can {triggered display be obtained (-SLOPE)}? 313.001 ASK+ U 313.002 HEAD INTERNAL A AND B TRIGGERING: {CH 2 @ 100 MHz} 313.003 RSLT = 313.004 RSLT =A Sweep 313.005 DISP MAKE THE FOLLOWING CONNECTIONS... 313.005 DISP 313.005 DISP 5520 SCOPE OUTPUT -----------50 Ohm--CH 2 INPUT 313.006 DISP VERTICAL MODE : CH 2 313.006 DISP HORIZONTAL MODE : A 313.006 DISP A & B SOURCE : CH 2 313.007 MESS Slew output for a 1.5 division display. 313.008 5520 75mVpp 100MH LS SC N L 313.009 MESS 313.010 MATH M[1] = MEM 313.011 DISP Set the following A TRIGGER functions... 313.011 DISP 313.011 DISP MODE : P-P AUTO 313.011 DISP SLOPE : POSITIVE 313.012 EVAL Can {triggered display be obtained (P-P AUTO/+SLOPE)}? 314.001 MATH MEM = M[1] 314.002 5520 100MH mVpp LS SC S L 314.003 MESS Set the following A TRIGGER functions... 314.003 MESS 314.003 MESS SLOPE : NEGATIVE 314.004 EVAL Can {triggered display be obtained (P-P AUTO/-SLOPE)}? 315.001 MATH MEM = M[1] 315.002 5520 100MH mVpp LS SC S L 315.003 MESS Set the following A TRIGGER functions... 315.003 MESS 315.003 MESS MODE : NORM 315.004 EVAL Can {triggered display be obtained (NORM/-SLOPE)}? 316.001 MATH MEM = M[1] 316.002 5520 100MH mVpp LS SC S L 316.003 MESS Set the following A TRIGGER functions... 316.003 MESS 316.003 MESS SLOPE : POSITIVE 316.004 EVAL Can {triggered display be obtained (NORM/+SLOPE)}? 317.001 MESS 317.002 RSLT =B Sweep 317.003 DISP HORIZONTAL MODE : B 317.004 MATH MEM = M[1] 317.005 5520 100MH mVpp LS SC S L 317.006 MESS CHECK--Stable display can be obtained by 317.006 MESS adjusting the B TRIGGER LEVEL control to a 317.006 MESS position other than the B RUNS AFTER DLY 317.006 MESS position for both the OUT and IN positions of the 317.006 MESS B TRIGGER SLOPE switch. 317.006 MESS 317.007 EVAL Can {triggered display be obtained (+SLOPE)}? 318.001 MATH MEM = M[1] 318.002 5520 100MH mVpp LS SC S L 318.003 MESS 318.004 EVAL Can {triggered display be obtained (-SLOPE)}? 319.001 HEAD {HF REJECT A TRIGGERING} 319.002 RSLT =CH 2 319.003 DISP MAKE THE FOLLOWING CONNECTIONS... 319.003 DISP 319.003 DISP 5520 SCOPE OUTPUT -----------50 Ohm--CH 1 INPUT 319.004 DISP VERTICAL MODE : CH 1 319.004 DISP VOLTS/DIV (both) : 50 mV 319.004 DISP HORIZONTAL MODE : A 319.004 DISP A SEC/DIV : 5 uS 319.004 DISP X10 MAG : OFF 319.004 DISP A TRIGGER Mode : NORM 319.004 DISP A TRIGGER LEVEL : Midrange 319.004 DISP A & B SOURCE : CH 1 319.005 MESS Slew the output for a 1 division display. 319.006 5520 50mVpp 250kH LS SC N L 319.007 MESS 319.008 MATH M[1] = MEM 319.009 DISP Adjust the A TRIGGER LEVEL control for a 319.009 DISP stable display. 319.009 DISP 319.009 DISP Set A COUPL switch to HF REJ position. 319.010 EVAL [N] Can {triggered display be obtained (P-P AUTO/+SLOPE)}? 320.001 MATH MEM = M[1] 320.002 5520 250kH mVpp LS SC S L 320.003 MESS Set the following A TRIGGER functions... 320.003 MESS 320.003 MESS SLOPE : NEGATIVE 320.004 EVAL [N] Can {triggered display be obtained (P-P AUTO/-SLOPE)}? 321.001 MATH MEM = M[1] 321.002 5520 250kH mVpp LS SC S L 321.003 MESS Set the following A TRIGGER functions... 321.003 MESS 321.003 MESS MODE : NORM 321.004 EVAL [N] Can {triggered display be obtained (NORM/-SLOPE)}? 322.001 MATH MEM = M[1] 322.002 5520 250kH mVpp LS SC S L 322.003 MESS Set the following A TRIGGER functions... 322.003 MESS 322.003 MESS SLOPE : POSITIVE 322.004 EVAL [N] Can {triggered display be obtained (NORM/+SLOPE)}? 323.001 MESS 323.002 ASK+ U 323.003 HEAD {LF REJECT A TRIGGERING} 323.004 DISP MAKE THE FOLLOWING CONNECTIONS... 323.004 DISP 323.004 DISP 5520 SCOPE OUTPUT -------------CH 1 INPUT 323.005 DISP A TRIGGER LEVEL : Midrange 323.005 DISP A COUPLING : NORM 323.006 MESS Slew amplitude for a 0.35 div display. 323.007 5520 17.5mVpp 25kH SI SC N 323.008 MESS 323.009 DISP A COUPLING : LF REJECT 323.010 EVAL Can {triggered display be obtained (@ 25 kHz)}? 324.001 MESS Slew amplitude for a 0.35 div display. 324.002 5520 17.5mVpp 50kH SI SC N 324.003 MESS 324.004 EVAL Can {triggered display be obtained (@ 50 kHz)}? 325.001 HEAD {EXTERNAL TRIGGERING} 325.002 ASK- U 325.003 DISP CH 1 VOLTS/DIV : 5 mV 325.003 DISP A SEC/DIV : 0.1 uS 325.003 DISP A & B SOURCE : A EXT 325.003 DISP A COUPLING : NORM 325.004 DISP Connect the 5520 SCOPE OUTPUT to the CH 1 & EXT TRIGGER 325.004 DISP INPUTS using a 50 Ohm feedthru and a T-connector. 325.005 DISP A TRIGGER Mode : P-P AUTO 325.005 DISP SLOPE : POSITIVE 325.006 HEAD EXTERNAL TRIGGERING: {@ 10 MHz} 325.007 5520 40mVpp 10MH LS SC S L 325.008 MESS Adjust the A TRIGGER LEVEL control for a 325.008 MESS stable display. 325.009 EVAL Can {triggered display be obtained (P-P AUTO/+SLOPE)}? 326.001 5520 40mVpp 10MH LS SC S L 326.002 MESS Set the following A TRIGGER functions... 326.002 MESS 326.002 MESS SLOPE : NEGATIVE 326.003 EVAL Can {triggered display be obtained (P-P AUTO/-SLOPE)}? 327.001 5520 40mVpp 10MH LS SC S L 327.002 MESS Set the following A TRIGGER functions... 327.002 MESS 327.002 MESS MODE : NORM 327.003 EVAL Can {triggered display be obtained (NORM/-SLOPE)}? 328.001 5520 40mVpp 10MH LS SC S L 328.002 MESS Set the following A TRIGGER functions... 328.002 MESS 328.002 MESS SLOPE : POSITIVE 328.003 EVAL Can {triggered display be obtained (NORM/+SLOPE)}? 329.001 MESS 329.002 DISP CH 1 VOLTS/DIV : 50 mV 329.002 DISP X10 Magnifier : On (knob out) 329.003 HEAD EXTERNAL TRIGGERING: {@ 60 MHz} 329.004 5520 120mVpp 60MH LS SC S L 329.005 DISP A TRIGGER Mode : P-P AUTO 329.005 DISP SLOPE : POSITIVE 329.006 MESS Adjust the A TRIGGER LEVEL control for a 329.006 MESS stable display. 329.007 EVAL Can {triggered display be obtained (P-P AUTO/+SLOPE)}? 330.001 5520 120mVpp 60MH LS SC S L 330.002 MESS Set the following A TRIGGER functions... 330.002 MESS 330.002 MESS SLOPE : NEGATIVE 330.003 EVAL Can {triggered display be obtained (P-P AUTO/-SLOPE)}? 331.001 5520 120mVpp 60MH LS SC S L 331.002 MESS Set the following A TRIGGER functions... 331.002 MESS 331.002 MESS MODE : NORM 331.003 EVAL Can {triggered display be obtained (NORM/-SLOPE)}? 332.001 5520 120mVpp 60MH LS SC S L 332.002 MESS Set the following A TRIGGER functions... 332.002 MESS 332.002 MESS SLOPE : POSITIVE 332.003 EVAL Can {triggered display be obtained (NORM/+SLOPE)}? 333.001 MESS 333.002 HEAD EXTERNAL TRIGGERING: {@ 100 MHz} 333.003 5520 150mVpp 100MH LS SC S L 333.004 DISP A TRIGGER Mode : P-P AUTO 333.004 DISP SLOPE : POSITIVE 333.005 MESS Adjust the A TRIGGER LEVEL control for a 333.005 MESS stable display. 333.006 EVAL Can {triggered display be obtained (P-P AUTO/+SLOPE)}? 334.001 5520 150mVpp 100MH LS SC S L 334.002 MESS Set the following A TRIGGER functions... 334.002 MESS 334.002 MESS SLOPE : NEGATIVE 334.003 EVAL Can {triggered display be obtained (P-P AUTO/-SLOPE)}? 335.001 5520 150mVpp 100MH LS SC S L 335.002 MESS Set the following A TRIGGER functions... 335.002 MESS 335.002 MESS MODE : NORM 335.003 EVAL Can {triggered display be obtained (NORM/-SLOPE)}? 336.001 5520 150mVpp 100MH LS SC S L 336.002 MESS Set the following A TRIGGER functions... 336.002 MESS 336.002 MESS SLOPE : POSITIVE 336.003 EVAL Can {triggered display be obtained (NORM/+SLOPE)}? 337.001 MESS 337.002 ASK+ U 337.003 HEAD {EXTERNAL TRIGGER RANGES} 337.004 DISP CH 1 VOLTS/DIV : 0.5 V 337.004 DISP A SEC/DIV : 20 uS 337.004 DISP X10 Magnifier : Off (knob in) 337.004 DISP A TRIGGER SLOPE : POSITIVE 337.004 DISP A TRIGGER Mode : NORM 337.005 MESS Slew output for a 6.4 division display. 337.006 5520 3.2Vpp 50kH LS SC N L 337.007 MATH M[1] = MEM 337.008 MESS CHECK--Display is triggered along the entire 337.008 MESS Positive Slope of the waveform as the A TRIGGER LEVEL 337.008 MESS control is rotated. 337.008 MESS 337.009 EVAL Is display {triggered along entire positive slope}? 338.001 MATH MEM = M[1] 338.002 5520 50kH Vpp LS SC S L 338.003 MESS CHECK--Display is not triggered (no trace) at 338.003 MESS either extreme of rotation. 338.003 MESS 338.004 EVAL Is display {not triggered at extreme of A Trigger Level}? 339.001 MATH MEM = M[1] 339.002 5520 50kH Vpp LS SC S L 339.003 MESS A TRIGGER SLOPE : NEGATIVE 339.003 MESS 339.003 MESS CHECK--Display is triggered along the entire 339.003 MESS Negative Slope of the waveform as the A TRIGGER LEVEL 339.003 MESS control is rotated. 339.003 MESS 339.003 MESS 339.004 EVAL Is display {triggered along entire Negative Slope}? 340.001 MATH MEM = M[1] 340.002 5520 50kH Vpp LS SC S L 340.003 MESS CHECK--Display is not triggered (no trace) at 340.003 MESS either extreme of rotation. 340.003 MESS 340.004 EVAL Is display {not triggered at extreme of A Trigger Level}? 341.001 MESS 341.002 ASK+ U 341.003 HEAD {SINGLE SWEEP OPERATION} 341.004 DISP Adjust A TRIGGER LEVEL control to obtain stable display. 341.005 DISP Channel 1 AC-GND-DC : GND 341.005 DISP A TRIGGER SLOPE : POSITIVE 341.005 DISP A & B SOURCE : CH 1 341.005 DISP A COUPL : NORM 341.005 DISP A SEC/DIV : 20 ms 341.005 DISP 341.005 DISP Press in the SGL SWP button. The READY LED 341.005 DISP should illuminate and remain on. 341.006 EVAL Does {READY LED illuminate and remain on}? 342.001 DISP Channel 1 AC-GND-DC : DC 342.001 DISP 342.001 DISP NOTE: 342.001 DISP The A INTENSITY control may require 342.001 DISP adjustment to observe the single-sweep trace. 342.002 EVAL Does {READY LED go out as a single sweep occurs}? 343.001 MESS Press in the SGL SWP button several times. 343.001 MESS 343.001 MESS CHECK--Single-sweep trace occurs, and 343.001 MESS the READY LED illuminates briefly every time the 343.001 MESS SGL SWP button is pressed in and released. 343.001 MESS 343.001 MESS 343.002 EVAL Does {single sweep occur every time SGL SWP is pressed}? 344.001 MESS 344.002 EVAL Does {READY LED illuminate briefly when SGL SWP is pressed}? 345.001 HEAD {ACQUISITION WINDOW TRIGGER POINT} 345.002 DISP CH 1 AC-GND-DC : GND 345.002 DISP A TRIGGER Mode : P-P AUTO 345.002 DISP A SEC/DIV : 0.1 uS 345.002 DISP STORE/NON-STORE : STORE (button in) 345.002 DISP 1K/4K : 1K 345.003 DISP Use HORIZONTAL POSITION control to align the start 345.003 DISP of the display acquisition with the 1st vertical 345.003 DISP graticule line. 345.003 DISP 345.003 DISP Press in the Acquisition TRIG POS button until the 345.003 DISP store trigger point (T) is located on the left side 345.003 DISP of the screen. 345.004 EVAL Is {POST TRIG point (T) 1.28 division from start of display}? 346.001 DISP Press the TRIG POS button a second time to position 346.001 DISP the trigger point to the middle of the display 346.001 DISP acquisition. 346.002 EVAL Is {MID TRIG point (T) 5.12 division from start of display}? 347.001 DISP Press the TRIG POS button a third time to position 347.001 DISP the trigger point to the right of the display 347.001 DISP acquisition. 347.002 EVAL Is {PRE TRIG point (T) 8.96 division from start of display}? 348.001 HEAD {TRIGGER LEVEL READOUT} 348.002 RSLT =CH 1 348.003 DISP VERTICAL MODE : CH 1 348.003 DISP VOLTS/DIV (both) : 20 mV 348.003 DISP AC-GND-DC (both) : GND 348.003 DISP A SEC/DIV : 0.5 mS 348.003 DISP A TRIG MODE : P-P AUTO 348.003 DISP A TRIG LEVEL : Midrange 348.003 DISP A TRIG SOURCE : VERTICAL MODE 348.003 DISP STORE/NON STORE : NON STORE (button out) 348.004 DISP Center the trace on the screen. 348.005 EVAL Is {trigger readout between -6 mV and +6 mV}? 349.001 DISP MAKE THE FOLLOWING CONNECTIONS... 349.001 DISP 349.001 DISP 5520 SCOPE OUTPUT --------- CH 1 INPUT 349.002 DISP CH 1 AC-GND-DC : DC 349.002 DISP A TRIG MODE : NORM 349.003 MESS Slew amplitude for a 5 division display. 349.004 5520 100mVpp 1kH ZQ SC N 349.005 MESS 349.006 DISP Adjust the A TRIG LEVEL for a stable display and 349.006 DISP center the waveform of the screen. 349.006 DISP 349.006 DISP CH 1 VOLTS/DIV : 10 mV 349.007 DISP Vertically position the top of the waveform display 349.007 DISP on the center horizontal graticule line. 349.007 DISP 349.007 DISP A TRIG SLOPE : NEGATIVE 349.008 DISP Rotate the A TRIG LEVEL control clockwise until the 349.008 DISP triggering of the waveform display becomes unstable. 349.009 EVAL Is {trigger readout between 92 mV and 108 mV}? 350.001 RSLT =CH 2 350.002 DISP VERTICAL MODE : CH 2 350.002 DISP A TRIG MODE : P-P AUTO 350.002 DISP A TRIG LEVEL : Midrange 350.003 DISP Center the trace on the screen. 350.004 EVAL Is {trigger readout between -6 mV and +6 mV}? 351.001 DISP MAKE THE FOLLOWING CONNECTIONS... 351.001 DISP 351.001 DISP 5520 SCOPE OUTPUT ----------- CH 2 INPUT 351.001 DISP 351.002 DISP CH 2 AC-GND-DC : DC 351.002 DISP A TRIG MODE : NORM 351.003 MESS Slew amplitude for a 5 division display. 351.004 5520 100mVpp 1kH ZQ SC N 351.005 MESS 351.006 DISP Adjust the A TRIG LEVEL for a stable display and 351.006 DISP center the waveform of the screen. 351.006 DISP 351.006 DISP CH 2 VOLTS/DIV : 10 mV 351.007 DISP Vertically position the top of the waveform display 351.007 DISP on the center horizontal graticule line. 351.007 DISP 351.007 DISP A TRIG SLOPE : NEGATIVE 351.008 DISP Rotate the A TRIG LEVEL control clockwise until the 351.008 DISP triggering of the waveform display becomes unstable. 351.009 EVAL Is {trigger readout between 92 mV and 108 mV}? 352.001 HEAD INITIAL CONTROL SETTINGS 352.002 DISP Set the following VERTICAL functions... 352.002 DISP 352.002 DISP POSITION (both) : Midrange 352.002 DISP VERTICAL MODE : CH 1 352.002 DISP X-Y : Off (button out) 352.002 DISP BW LIMIT : Off (button out) 352.003 DISP Set the following VERTICAL functions... 352.003 DISP 352.003 DISP CH 1 VOLTS/DIV : 1 V 352.003 DISP VOLTS/DIV Variable : CAL detent 352.003 DISP CH 1 AC-GND-DC : DC 352.004 DISP Set the following HORIZONTAL fuctions... 352.004 DISP 352.004 DISP POSITION : Midrange 352.004 DISP HORIZONTAL MODE : A 352.004 DISP A SEC/DIV : 20 uS 352.004 DISP SEC/DIV Variable : CAL detent 352.004 DISP X10 Magnifier : Off (knob in) 352.005 DISP Set the following A TRIGGER functions... 352.005 DISP 352.005 DISP VAR HOLDOFF : NORM 352.005 DISP MODE : P-P AUTO 352.005 DISP SLOPE : POSITIVE 352.005 DISP LEVEL : Midrange 352.006 DISP Set the following A TRIGGER functions... 352.006 DISP 352.006 DISP A & B SLOPE : VERT MODE 352.006 DISP A COUPLING : NORM 352.006 DISP A EXT COUPLING : AC 352.007 DISP Set the following STORAGE funtions... 352.007 DISP 352.007 DISP STORE/NON STORE : NON STORE (button out) 352.008 HEAD {EXTERNAL Z-AXIS OPERATION} 352.009 ASK- U 352.010 DISP Connect 5520 SCOPE OUTPUT to A T-connector. Connect 352.010 DISP one end of the T-connector to CH 1 INPUT. Connect the 352.010 DISP other end of the T-connector thru a 50 Ohm feedthru 352.010 DISP to the EXT Z-AXIS INPUT. 352.011 5520 5Vpp 50kH LS SC S L 352.012 MESS CHECK--For noticeable intensity modulation. 352.012 MESS The positive part of the sine wave should be of 352.012 MESS lower intensity than the negative part. 352.012 MESS 352.013 EVAL Is {positive portion lower intensity than negative portion}? 353.001 MESS 353.002 DISP Disconnect the test equipment from the UUT. 353.003 HEAD {PROBE ADJUST OPERATION} 353.004 DISP CH 1 VOLTS/DIV : 10 mV 353.004 DISP A SEC/IDIV : 0.5 mS 353.005 DISP Connect the 10X Probe to the CH 1 input connector 353.005 DISP and insert the probe tip into the PROBE ADJUST 353.005 DISP jack on the instrument front panel. 353.005 DISP 353.005 DISP If necessary, adjust the probe compensation for a 353.005 DISP flat-topped square-wave display. 353.006 EVAL Is {display amplitude 4.75 to 5.25 divisions}? 354.001 DISP Disconnect the probe from the instrument. 354.002 ASK+ U 354.003 HEAD {EXTERNAL CLOCK} 354.004 DISP CH 1 VOLTS/DIV : 1 V 354.004 DISP A SEC/DIV : 1 mS 354.005 DISP Connect the Pulse Generator output via a 354.005 DISP 50 Ohm cable and a 50 Ohm termination to CH 1 input. 354.005 DISP 354.005 DISP Set the generator to produce a 10us square wave, 354.005 DISP with a pulse duration of 5us. Set the amplitude for 354.005 DISP a 5 division display. 354.006 DISP Disconnect the cable from the CH 1 input 354.006 DISP and connect it to the BNC male-to-tip plug 354.006 DISP via BNC female to BNC female connector. 354.007 DISP Insert the BNC male-to-tip plug signal lead and 354.007 DISP ground lead into pin 1 (ext clock) and pin 6 (gnd) 354.007 DISP respectively of the X-Y Plotter connector. 354.007 DISP 354.007 DISP A SEC/DIV : 0.1 S 354.008 DISP MAKE THE FOLLOWING CONNECTIONS... 354.008 DISP 354.008 DISP 5520 SCOPE OUTPUT ---------50 Ohm-- CH 1 INPUT 354.009 5520 5Vpp 100H ZQ SC S 354.010 DISP A SEC/DIV : EXT CLK 354.010 DISP STORE/NON STORE : STORE (button in) 354.011 DISP Press the Setup ACQ button to display the ACQUISITION 354.011 DISP menu and select the Fast with the Ext Clock button. 354.011 DISP Return the instrument to display mode by pressing 354.011 DISP the Setup ACQ button a second time. 354.012 EVAL Is {100 Hz signal display on the screed updated}? 355.001 5520 5Vpp 100H ZQ SC S 355.002 DISP SAVE/CONTINUE : SAVE (button in) 355.003 EVAL Will {100 Hz signal save}? 356.001 DISP SAVE/CONTINUE : CONT 356.002 HEAD {X-Y PLOTTER} 356.003 DISP Set the A SEC/DIV switch to 10ms. 356.003 DISP 356.004 DISP Connect the DMM low lead to either chassis ground 356.004 DISP or pin 7 (signal ground) of the X-Y Plotter connector. 356.004 DISP 356.004 DISP Connect the volts lead to Pin 3 (X Output) of the 356.004 DISP X-Y Plotter connector. 356.004 DISP 356.004 DISP Set the DMM to the 20 V range. 356.005 DISP Press the Setup PLOT button to display the PLOT menu. 356.005 DISP Set Plotter Type to X-Y, GRAT to ON, and AUTO PLOT to 356.005 DISP OFF. Use the CURSORS knob to set PLOT SPEED to 10. 356.005 DISP 356.005 DISP Press in the START button to activate the X-Y Plotter. 356.006 DISP Note: Voltage reading of the X Output will be negative 356.006 DISP left of center vertical graticule line and positive 356.006 DISP to the right of the center vertical graticule line. 356.006 DISP Voltage reading of the Y output will be neagtive below 356.006 DISP the center horizontal graticule line and positive above 356.006 DISP the center horizontal graticule line. 356.007 DISP Note the voltage reading as the instrument 356.007 DISP plots the 1st and the 10th graticule line (as the 356.007 DISP intensity spot moves along the graticule line). 356.008 EVAL Is {voltage difference (1st & 10th) between 4.0 and 6.0 V}? 357.001 DISP Move the volts lead of the voltmeter from pin 3 357.001 DISP (X Output) to pin 5 (Y Output) of the X-Y Plotter 357.001 DISP connector. 357.001 DISP 357.001 DISP Press in the START button again to activate the Plotter. 357.002 DISP Note the voltage reading as the instrument 357.002 DISP plots the top and the bottom of the graticule 357.002 DISP lines (as the intensity spot moves along the 357.002 DISP graticule line). 357.002 DISP 357.002 DISP CHECK--The voltage difference between the 357.002 DISP top and bottom graticule line is between 3.2 V 357.002 DISP and 4.8 V. 357.003 EVAL Is {voltage difference (top & bottom) between 3.2 and 4.8 V}? 358.001 END