Fluke MET/CAL Procedure ============================================================================= INSTRUMENT: Tek 2230: (1 year) CAL VER /5500+SC600 DATE: 28-May-97 AUTHOR: Fluke Corporation REVISION: $Revision: 1.3 $ ADJUSTMENT THRESHOLD: 70% NUMBER OF TESTS: 403 NUMBER OF LINES: 2862 CONFIGURATION: Fluke 5500A (S6) ============================================================================= # # Source: Tektronix 2230 Service Manual, Aug 1989 # # Compatibility: 5500/CAL 4.23 or MET/CAL 4.23 or later # # Subprocedures: None # # Required Files: None # # 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 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 : 20 uS 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 : OUT 1.013 DISP LEVEL : Midrange 1.014 DISP Set the following A TRIGGER functions... 1.014 DISP 1.014 DISP HF REJECT : OFF 1.014 DISP A&B INT : VERT MODE 1.014 DISP A SOURCE : INT 1.014 DISP A EXT COUPLING : AC 1.015 DISP Set the following MENU functions... 1.015 DISP 1.015 DISP ACQUISITION MODE : Average 1.016 DISP Set the following STORAGE funtions... 1.016 DISP 1.016 DISP STORE/NON STORE : NON STORE (button out) 1.016 DISP SAVE/CONTINUE : CONTINUE (button out) 1.016 DISP PRETRIG/POST TRIG : POST TRIG (button out) 1.017 DISP Set the following STORAGE functions... 1.017 DISP 1.017 DISP ROLL/SCAN : SCAN (button out) 1.017 DISP 1K/4K : 4K (button out) 1.017 DISP POSITION CURS/ : POSITION CURS (button in) 1.017 DISP SELECT WAVEFORM 1.018 DISP Set the following WAVEFORM functions... 1.018 DISP 1.018 DISP REFERENCE/ : WAVEFORM REFERENCE (button in) 1.018 DISP MENU SELECT 1.019 HEAD {DEFLECTION ACCURACY AND VARIABLE RANGE} 1.020 DISP MAKE THE FOLLOWING CONNECTION... 1.020 DISP 1.020 DISP 5500 SCOPE OUTPUT ------- {CH 1} INPUT 1.021 TOL 2% 1.022 HEAD DEFLECTION ACCURACY AND VARIABLE RANGE: {2mV/div} 1.023 5500 2 10mVpp TOL 1kH ZQ S6 2.001 HEAD DEFLECTION ACCURACY AND VARIABLE RANGE: {5mV/div} 2.002 5500 5 20mVpp TOL 1kH ZQ S6 3.001 HEAD DEFLECTION ACCURACY AND VARIABLE RANGE: {10mV/div} 3.002 5500 10 50mVpp TOL 1kH ZQ S6 4.001 HEAD DEFLECTION ACCURACY AND VARIABLE RANGE: {20mV/div} 4.002 5500 20 100mVpp TOL 1kH ZQ S6 5.001 HEAD DEFLECTION ACCURACY AND VARIABLE RANGE: {50mV/div} 5.002 5500 50 200mVpp TOL 1kH ZQ S6 6.001 HEAD DEFLECTION ACCURACY AND VARIABLE RANGE: {100mV/div} 6.002 5500 100 500mVpp TOL 1kH ZQ S6 7.001 HEAD DEFLECTION ACCURACY AND VARIABLE RANGE: {0.2V/div} 7.002 5500 0.2 1Vpp TOL 1kH ZQ S6 8.001 HEAD DEFLECTION ACCURACY AND VARIABLE RANGE: {0.5V/div} 8.002 5500 0.5 2Vpp TOL 1kH ZQ S6 9.001 HEAD DEFLECTION ACCURACY AND VARIABLE RANGE: {1V/div} 9.002 5500 1 5Vpp TOL 1kH ZQ S6 10.001 HEAD DEFLECTION ACCURACY AND VARIABLE RANGE: {2V/div} 10.002 5500 2 10Vpp TOL 1kH ZQ S6 11.001 HEAD DEFLECTION ACCURACY AND VARIABLE RANGE: {5V/div} 11.002 5500 5 20Vpp TOL 1kH ZQ S6 12.001 DISP Set CH1 to 20 mV/division. 12.002 5500 0.1Vpp 1kH ZQ S6 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 5500 SCOPE OUTPUT ------- {CH 2} INPUT 13.004 DISP VERTICAL MODE : CH2 13.005 TOL 2% 13.006 HEAD DEFLECTION ACCURACY AND VARIABLE RANGE: {2mV/div} 13.007 5500 2 10mVpp TOL 1kH ZQ S6 14.001 HEAD DEFLECTION ACCURACY AND VARIABLE RANGE: {5mV/div} 14.002 5500 5 20mVpp TOL 1kH ZQ S6 15.001 HEAD DEFLECTION ACCURACY AND VARIABLE RANGE: {10mV/div} 15.002 5500 10 50mVpp TOL 1kH ZQ S6 16.001 HEAD DEFLECTION ACCURACY AND VARIABLE RANGE: {20mV/div} 16.002 5500 20 100mVpp TOL 1kH ZQ S6 17.001 HEAD DEFLECTION ACCURACY AND VARIABLE RANGE: {50mV/div} 17.002 5500 50 200mVpp TOL 1kH ZQ S6 18.001 HEAD DEFLECTION ACCURACY AND VARIABLE RANGE: {100mV/div} 18.002 5500 100 500mVpp TOL 1kH ZQ S6 19.001 HEAD DEFLECTION ACCURACY AND VARIABLE RANGE: {0.2V/div} 19.002 5500 0.2 1Vpp TOL 1kH ZQ S6 20.001 HEAD DEFLECTION ACCURACY AND VARIABLE RANGE: {0.5V/div} 20.002 5500 0.5 2Vpp TOL 1kH ZQ S6 21.001 HEAD DEFLECTION ACCURACY AND VARIABLE RANGE: {1V/div} 21.002 5500 1 5Vpp TOL 1kH ZQ S6 22.001 HEAD DEFLECTION ACCURACY AND VARIABLE RANGE: {2V/div} 22.002 5500 2 10Vpp TOL 1kH ZQ S6 23.001 HEAD DEFLECTION ACCURACY AND VARIABLE RANGE: {5V/div} 23.002 5500 5 20Vpp TOL 1kH ZQ S6 24.001 DISP Set CH1 to 20 mV/division. 24.002 5500 0.1Vpp 1kH ZQ S6 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 HEAD {STORE DEFLECTION ACCURACY} 25.004 RSLT =CH 2 25.005 DISP Make the following changes... 25.005 DISP 25.005 DISP CH 2 VOLTS/DIV : 2 mV 25.005 DISP STORE/NON STORE : STORE (button in) 25.005 DISP POSITION CURS/ : POSITION CURS (button in) 25.006 HEAD STORE DEFLECTION ACCURACY: {2 mV/div} 25.007 DISP Throughout the following tests... 25.007 DISP Use the CURSORS control and SELECT C1/C2 switch to set 25.007 DISP one cursor at the bottom and the other cursor at the 25.007 DISP top of the square wave. 25.008 5500 10mVpp 1kH ZQ S6 S 25.009 MESS Align cursors and check Voltage Readout. 25.009 MESS 25.010 EVAL Is {readout 9.80 to 10.20 mV (2 mV/div)}? 26.001 HEAD STORE DEFLECTION ACCURACY: {5 mV/div} 26.002 DISP CH 2 VOLTS/DIV : 5 mV 26.003 5500 20mVpp 1kH ZQ S6 S 26.004 MESS Align cursors and check Voltage Readout. 26.004 MESS 26.005 EVAL Is {readout 19.6 to 20.04 mV (5 mV/div)}? 27.001 HEAD STORE DEFLECTION ACCURACY: {10 mV/div} 27.002 DISP CH 2 VOLTS/DIV : 10 mV 27.003 5500 50mVpp 1kH ZQ S6 S 27.004 MESS Align cursors and check Voltage Readout. 27.004 MESS 27.005 EVAL Is {readout 49.0 to 51.0 mV (10 mV/div)}? 28.001 HEAD STORE DEFLECTION ACCURACY: {20 mV/div} 28.002 DISP CH 2 VOLTS/DIV : 20 mV 28.003 5500 100mVpp 1kH ZQ S6 S 28.004 MESS Align cursors and check Voltage Readout. 28.004 MESS 28.005 EVAL Is {readout 98.0 to 102.0 mV (20 mV/div)}? 29.001 HEAD STORE DEFLECTION ACCURACY: {50 mV/div} 29.002 DISP CH 2 VOLTS/DIV : 50 mV 29.003 5500 200mVpp 1kH ZQ S6 S 29.004 MESS Align cursors and check Voltage Readout. 29.004 MESS 29.005 EVAL Is {readout 198.0 to 204.0 mV (50 mV/div)}? 30.001 HEAD STORE DEFLECTION ACCURACY: {.1 V/div} 30.002 DISP CH 2 VOLTS/DIV : .1 V 30.003 5500 0.5Vpp 1kH ZQ S6 S 30.004 MESS Align cursors and check Voltage Readout. 30.004 MESS 30.005 EVAL Is {readout .490 to .510 V (.1 V/div)}? 31.001 HEAD STORE DEFLECTION ACCURACY: {.2 V/div} 31.002 DISP CH 2 VOLTS/DIV : .2 V 31.003 5500 1Vpp 1kH ZQ S6 S 31.004 MESS Align cursors and check Voltage Readout. 31.004 MESS 31.005 EVAL Is {readout .980 to 1.020 V (.2 V/div)}? 32.001 HEAD STORE DEFLECTION ACCURACY: {.5 V/div} 32.002 DISP CH 2 VOLTS/DIV : .5 V 32.003 5500 2Vpp 1kH ZQ S6 S 32.004 MESS Align cursors and check Voltage Readout. 32.004 MESS 32.005 EVAL Is {readout 1.960 to 2.040 V (.5 V/div)}? 33.001 HEAD STORE DEFLECTION ACCURACY: {1 V/div} 33.002 DISP CH 2 VOLTS/DIV : 1 V 33.003 5500 5Vpp 1kH ZQ S6 S 33.004 MESS Align cursors and check Voltage Readout. 33.004 MESS 33.005 EVAL Is {readout 4.90 to 5.10 V (1 V/div)}? 34.001 HEAD STORE DEFLECTION ACCURACY: {2 V/div} 34.002 DISP CH 2 VOLTS/DIV : 2 V 34.003 5500 10Vpp 1kH ZQ S6 S 34.004 MESS Align cursors and check Voltage Readout. 34.004 MESS 34.005 EVAL Is {readout 9.80 to 10.20 V (2 V/div)}? 35.001 HEAD STORE DEFLECTION ACCURACY: {5 V/div} 35.002 DISP CH 2 VOLTS/DIV : 5 V 35.003 5500 20Vpp 1kH ZQ S6 S 35.004 MESS Align cursors and check Voltage Readout. 35.004 MESS 35.005 EVAL Is {readout 19.60 to 20.40 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 5500 SCOPE OUTPUT -------- {CH 1} INPUT 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 5500 10mVpp 1kH ZQ S6 S 36.007 MESS Align cursors and check Voltage Readout. 36.007 MESS 36.008 EVAL Is {readout 9.80 to 10.20 mV (2 mV/div)}? 37.001 HEAD STORE DEFLECTION ACCURACY: {5 mV/div} 37.002 DISP CH 1 VOLTS/DIV : 5 mV 37.003 5500 20mVpp 1kH ZQ S6 S 37.004 MESS Align cursors and check Voltage Readout. 37.004 MESS 37.005 EVAL Is {readout 19.6 to 20.04 mV (5 mV/div)}? 38.001 HEAD STORE DEFLECTION ACCURACY: {10 mV/div} 38.002 DISP CH 1 VOLTS/DIV : 10 mV 38.003 5500 50mVpp 1kH ZQ S6 S 38.004 MESS Align cursors and check Voltage Readout. 38.004 MESS 38.005 EVAL Is {readout 49.0 to 51.0 mV (10 mV/div)}? 39.001 HEAD STORE DEFLECTION ACCURACY: {20 mV/div} 39.002 DISP CH 1 VOLTS/DIV : 20 mV 39.003 5500 100mVpp 1kH ZQ S6 S 39.004 MESS Align cursors and check Voltage Readout. 39.004 MESS 39.005 EVAL Is {readout 98.0 to 102.0 mV (20 mV/div)}? 40.001 HEAD STORE DEFLECTION ACCURACY: {50 mV/div} 40.002 DISP CH 1 VOLTS/DIV : 50 mV 40.003 5500 200mVpp 1kH ZQ S6 S 40.004 MESS Align cursors and check Voltage Readout. 40.004 MESS 40.005 EVAL Is {readout 198.0 to 204.0 mV (50 mV/div)}? 41.001 HEAD STORE DEFLECTION ACCURACY: {.1 V/div} 41.002 DISP CH 1 VOLTS/DIV : .1 V 41.003 5500 0.5Vpp 1kH ZQ S6 S 41.004 MESS Align cursors and check Voltage Readout. 41.004 MESS 41.005 EVAL Is {readout .490 to .510 V (.1 V/div)}? 42.001 HEAD STORE DEFLECTION ACCURACY: {.2 V/div} 42.002 DISP CH 1 VOLTS/DIV : .2 V 42.003 5500 1Vpp 1kH ZQ S6 S 42.004 MESS Align cursors and check Voltage Readout. 42.004 MESS 42.005 EVAL Is {readout .980 to 1.020 V (.2 V/div)}? 43.001 HEAD STORE DEFLECTION ACCURACY: {.5 V/div} 43.002 DISP CH 1 VOLTS/DIV : .5 V 43.003 5500 2Vpp 1kH ZQ S6 S 43.004 MESS Align cursors and check Voltage Readout. 43.004 MESS 43.005 EVAL Is {readout 1.960 to 2.040 V (.5 V/div)}? 44.001 HEAD STORE DEFLECTION ACCURACY: {1 V/div} 44.002 DISP CH 1 VOLTS/DIV : 1 V 44.003 5500 5Vpp 1kH ZQ S6 S 44.004 MESS Align cursors and check Voltage Readout. 44.004 MESS 44.005 EVAL Is {readout 4.90 to 5.10 V (1 V/div)}? 45.001 HEAD STORE DEFLECTION ACCURACY: {2 V/div} 45.002 DISP CH 1 VOLTS/DIV : 2 V 45.003 5500 10Vpp 1kH ZQ S6 S 45.004 MESS Align cursors and check Voltage Readout. 45.004 MESS 45.005 EVAL Is {readout 9.80 to 10.20 V (2 V/div)}? 46.001 HEAD STORE DEFLECTION ACCURACY: {5 V/div} 46.002 DISP CH 1 VOLTS/DIV : 5 V 46.003 5500 20Vpp 1kH ZQ S6 S 46.004 MESS Align cursors and check Voltage Readout. 46.004 MESS 46.005 EVAL Is {readout 19.60 to 20.40 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 5500 0.5Vpp 1kH ZQ S6 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 5500 0.5Vpp 1kH ZQ S6 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 5500 OUTPUT ----------- {CH 2} INPUT 49.002 DISP VERTICAL MODE : CH 2 49.002 DISP CH 2 VOLTS/DIV : 0.1 V 49.003 DISP SAVE/CONTINUE : CONTINUE (button out) 49.004 5500 0.5Vpp 1kH ZQ S6 S 49.005 DISP SAVE/CONTINUE : SAVE (button in) 49.005 DISP CH 2 VOLTS/DIV : 10 mV 49.006 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 5500 0.5Vpp 1kH ZQ S6 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 RSLT =CH 2 51.003 DISP VOLTS/DIV (both) : 50 mV 51.003 DISP AC-GND-DC (both) : AC 51.003 DISP STORE/NON STORE : NON STORE (button out) 51.004 5500 0.5Vpp 1kH ZQ S6 S 51.005 DISP Adjust the CH 2 VOLTS/DIV Variable control to produce 51.005 DISP a 4.4 division display. 51.005 DISP 51.005 DISP CH 2 VOLTS/DIV : 10 mV 51.006 MESS CHECK--The bottom and top of the trace may be positioned 51.006 MESS above and below the center horizontal graticule line by 51.006 MESS rotating the CH 2 POSITION control fully clockwise and 51.006 MESS counterclockwise respectively. 51.006 MESS 51.007 EVAL Can {display be positioned above and below horizontal center}? 52.001 MESS 52.002 RSLT =CH 1 52.003 DISP MAKE THE FOLLOWING CONNECTION... 52.003 DISP 52.003 DISP 5500 SCOPE OUTPUT ------------ CH 1 INPUT 52.004 DISP VERTICAL MODE : CH 1 52.005 5500 0.5Vpp 1kH ZQ S6 S 52.006 DISP Adjust the CH 1 VOLTS/DIV Variable control to produce 52.006 DISP a 4.4 division display. 52.006 DISP 52.006 DISP CH 1 VOLTS/DIV : 10 mV 52.007 MESS CHECK--The bottom and top of the trace may be positioned 52.007 MESS above and below the center horizontal graticule line by 52.007 MESS rotating the CH 1 POSITION control fully clockwise and 52.007 MESS counterclockwise respectively. 52.007 MESS 52.008 EVAL Can {display be positioned above and below horizontal center}? 53.001 MESS 53.002 HEAD {ACQUISITION POSITION REGISTRATION} 53.003 RSLT =CH 1 53.004 DISP VOLTS/DIV (both) : 10 mV 53.004 DISP AC-GND-DC (both) : GND 53.004 DISP A SEC/DIV : 10 uS 53.004 DISP SAVE/CONTINUE : CONTINUE (button out) 53.005 DISP Position the trace exactly on the center horizontal 53.005 DISP graticule line using the CH 1 POSITION control 53.005 DISP and position the trace start to the left most 53.005 DISP vertical graticule line. 53.006 DISP STORE/NON STORE : STORE (button in) 53.007 MESS CHECK-- Trace remains within 0.5 division of the center 53.007 MESS horizontal graticule line and the trace start is within 53.007 MESS 0.5 division of the left vertical graticule line. 53.007 MESS 53.008 EVAL Does {trace remain within 0.5 div of horiz. center}? 54.001 MESS 54.002 EVAL Does {trace start within 0.5 div of left vert. line}? 55.001 RSLT =CH 2 55.002 DISP VERTICAL MODE : CH 2 55.002 DISP STORE/NON STORE : NON STORE 55.003 DISP Position the trace exactly on the center horizontal 55.003 DISP graticule line using the CH 2 POSITION control 55.003 DISP and position the trace start to the left most 55.003 DISP vertical graticule line. 55.003 DISP 55.003 DISP STORE/NON STORE : STORE (button in) 55.004 MESS CHECK-- Trace remains within 0.5 division of the center 55.004 MESS horizontal graticule line and the trace start is within 55.004 MESS 0.5 division of the left vertical graticule line. 55.004 MESS 55.005 EVAL Does {trace remain within 0.5 div of horiz. center}? 56.001 MESS 56.002 EVAL Does {trace start within 0.5 div of left vert. line}? 57.001 DISP Position the trace 0.5 division below the top horizontal 57.001 DISP graticule line using the Channel 2 POSITION control. 57.001 DISP 57.001 DISP SAVE/CONTINUE : SAVE (button in) 57.002 EVAL Is {trace shift 0.5 division or less (top of CRT)}? 58.001 DISP SAVE/CONTINUE : CONTINUE (button out) 58.001 DISP 58.001 DISP Position the trace 0.5 division above the bottom 58.001 DISP horizontal graticule line using the Channel 2 POSITION. 58.001 DISP 58.001 DISP SAVE/CONTINUE : SAVE (button in) 58.002 EVAL Is {trace shift 0.5 division or less (bottom of CRT)}? 59.001 RSLT =CH 1 59.002 DISP SAVE/CONTINUE : CONTINUE (button out) 59.002 DISP VERTICAL MODE : CH 1 59.003 DISP Position the trace 0.5 division below the top horizontal 59.003 DISP graticule line using the Channel 1 POSITION control. 59.003 DISP 59.003 DISP SAVE/CONTINUE : SAVE (button in) 59.004 EVAL Is {trace shift 0.5 division or less (top of CRT)}? 60.001 DISP SAVE/CONTINUE : CONTINUE (button out) 60.001 DISP 60.001 DISP Position the trace 0.5 division above the bottom 60.001 DISP horizontal graticule line using the Channel 1 POSITION. 60.001 DISP 60.001 DISP SAVE/CONTINUE : SAVE (button in) 60.002 EVAL Is {trace shift 0.5 division or less (bottom of CRT)}? 61.001 HEAD {NON STORE ABERRATIONS} 61.002 RSLT =CH 1 61.003 DISP MAKE THE FOLLOWING CONNECTION... 61.003 DISP 61.003 DISP 5500 SCOPE OUTPUT ---------50 Ohm-- CH 1 INPUT 61.004 DISP BW LIMIT : Off (button out) 61.004 DISP VOLTS/DIV (both) : 5 mV 61.004 DISP AC-GND-DC (both) : DC 61.004 DISP A SEC/DIV : 0.05 uS 61.004 DISP STORE/NON STORE : NON STORE (button out) 61.005 HEAD NON STORE ABERRATIONS: {5 mV/div} 61.006 5500 25mVpp 1MH ED S6 S L 61.007 MESS CHECK--Display aberrations are within 61.007 MESS 4% (0.2 division or less). 61.007 MESS 61.008 EVAL Are {aberrations within 4%}? 62.001 MESS 62.002 HEAD NON STORE ABERRATIONS: {10 mV/div} 62.003 DISP CH 1 VOLTS/DIV : 10 mV 62.004 5500 50mVpp 1MH ED S6 S L 62.005 EVAL Are {aberrations within 4%}? 63.001 HEAD NON STORE ABERRATIONS: {20 mV/div} 63.002 DISP CH 1 VOLTS/DIV : 20 mV 63.003 5500 100mVpp 1MH ED S6 S L 63.004 EVAL Are {aberrations within 4%}? 64.001 HEAD NON STORE ABERRATIONS: {50 mV/div} 64.002 DISP CH 1 VOLTS/DIV : 50 mV 64.003 5500 250mVpp 1MH ED S6 S L 64.004 EVAL Are {aberrations within 4%}? 65.001 HEAD NON STORE ABERRATIONS: {100 mV/div} 65.002 DISP CH 1 VOLTS/DIV : 100 mV 65.003 5500 500mVpp 1MH ED S6 S L 65.004 MESS CHECK--Display aberrations are within 65.004 MESS 6% (0.25 division or less). 65.004 MESS 65.005 EVAL Are {aberrations within 6%}? 66.001 MESS 66.002 HEAD NON STORE ABERRATIONS: {200 mV/div} 66.003 DISP CH 1 VOLTS/DIV : 200 mV 66.004 5500 1Vpp 1MH ED S6 S L 66.005 EVAL Are {aberrations within 6%}? 67.001 HEAD NON STORE ABERRATIONS: {500 mV/div} 67.002 DISP CH 1 VOLTS/DIV : 500 mV 67.003 5500 2.5Vpp 1MH ED S6 S L 67.004 EVAL Are {aberrations within 6%}? 68.001 RSLT =CH 2 68.002 DISP MAKE THE FOLLOWING CONNECTION... 68.002 DISP 68.002 DISP 5500 SCOPE OUTPUT ----------- CH 2 INPUT 68.003 HEAD NON STORE ABERRATIONS: {5 mV/div} 68.004 DISP CH 2 VOLTS/DIV : 5 mV 68.005 5500 25mVpp 1MH ED S6 S L 68.006 MESS CHECK--Display aberrations are within 68.006 MESS 4% (0.2 division or less). 68.006 MESS 68.007 EVAL Are {aberrations within 4% (5 mV/div)}? 69.001 MESS 69.002 HEAD NON STORE ABERRATIONS: {10 mV/div} 69.003 DISP CH 2 VOLTS/DIV : 10 mV 69.004 5500 50mVpp 1MH ED S6 S L 69.005 EVAL Are {aberrations within 4%}? 70.001 HEAD NON STORE ABERRATIONS: {20 mV/div} 70.002 DISP CH 2 VOLTS/DIV : 20 mV 70.003 5500 100mVpp 1MH ED S6 S L 70.004 EVAL Are {aberrations within 4%}? 71.001 HEAD NON STORE ABERRATIONS: {50 mV/div} 71.002 DISP CH 2 VOLTS/DIV : 50 mV 71.003 5500 250mVpp 1MH ED S6 S L 71.004 EVAL Are {aberrations within 4%}? 72.001 HEAD NON STORE ABERRATIONS: {100 mV/div} 72.002 DISP CH 2 VOLTS/DIV : 100 mV 72.003 5500 500mVpp 1MH ED S6 S L 72.004 MESS CHECK--Display aberrations are within 72.004 MESS 6% (0.25 division or less). 72.004 MESS 72.005 EVAL Are {aberrations within 6%}? 73.001 MESS 73.002 HEAD NON STORE ABERRATIONS: {200 mV/div} 73.003 DISP CH 2 VOLTS/DIV : 200 mV 73.004 5500 1Vpp 1MH ED S6 S L 73.005 EVAL Are {aberrations within 6%}? 74.001 HEAD NON STORE ABERRATIONS: {500 mV/div} 74.002 DISP CH 2 VOLTS/DIV : 500 mV 74.003 5500 2.5Vpp 1MH ED S6 S L 74.004 EVAL Are {aberrations within 6%}? 75.001 HEAD {STORE ABERRATIONS} 75.002 RSLT =CH 2 75.003 HEAD STORE ABERRATIONS: {5 mV/div} 75.004 DISP VOLTS/DIV (both) : 5 mV 75.005 5500 25mVpp 1MH ED S6 S L 75.006 DISP STORE/NON STORE : STORE (button in) 75.007 DISP SAVE/CONTINUE : CONTINUE (button out) 75.007 DISP 75.007 DISP Allow acquisition cycle to complete and press the 75.007 DISP SAVE/CONTINUE to SAVE (button in). 75.008 MESS CHECK--Display aberrations are 75.008 MESS within 4% (0.2 division or less). 75.008 MESS 75.009 EVAL Are {aberrations within 4%}? 76.001 MESS 76.002 HEAD STORE ABERRATIONS: {10 mV/div} 76.003 DISP CH 2 VOLTS/DIV : 10 mV 76.004 5500 50mVpp 1MH ED S6 S L 76.005 DISP SAVE/CONTINUE : CONTINUE (button out) 76.005 DISP 76.005 DISP Allow acquisition cycle to complete and press the 76.005 DISP SAVE/CONTINUE to SAVE (button in). 76.006 EVAL Are {aberrations within 4%}? 77.001 HEAD STORE ABERRATIONS: {20 mV/div} 77.002 DISP CH 2 VOLTS/DIV : 20 mV 77.003 5500 100mVpp 1MH ED S6 S L 77.004 DISP SAVE/CONTINUE : CONTINUE (button out) 77.004 DISP 77.004 DISP Allow acquisition cycle to complete and press the 77.004 DISP SAVE/CONTINUE to SAVE (button in). 77.005 EVAL Are {aberrations within 4%}? 78.001 HEAD STORE ABERRATIONS: {50 mV/div} 78.002 DISP CH 2 VOLTS/DIV : 50 mV 78.003 5500 250mVpp 1MH ED S6 S L 78.004 DISP SAVE/CONTINUE : CONTINUE (button out) 78.004 DISP 78.004 DISP Allow acquisition cycle to complete and press the 78.004 DISP SAVE/CONTINUE to SAVE (button in). 78.005 EVAL Are {aberrations within 4%}? 79.001 HEAD STORE ABERRATIONS: {100 mV/div} 79.002 DISP CH 2 VOLTS/DIV : 100 mV 79.003 5500 500mVpp 1MH ED S6 S L 79.004 DISP SAVE/CONTINUE : CONTINUE (button out) 79.004 DISP 79.004 DISP Allow acquisition cycle to complete and press the 79.004 DISP SAVE/CONTINUE to SAVE (button in). 79.005 EVAL Are {aberrations within 4%}? 80.001 HEAD STORE ABERRATIONS: {200 mV/div} 80.002 DISP CH 2 VOLTS/DIV : 200 mV 80.003 5500 1Vpp 1MH ED S6 S L 80.004 DISP SAVE/CONTINUE : CONTINUE (button out) 80.004 DISP 80.004 DISP Allow acquisition cycle to complete and press the 80.004 DISP SAVE/CONTINUE to SAVE (button in). 80.005 EVAL Are {aberrations within 4%}? 81.001 HEAD STORE ABERRATIONS: {500 mV/div} 81.002 DISP CH 2 VOLTS/DIV : 500 mV 81.003 5500 2.5Vpp 1MH ED S6 S L 81.004 DISP SAVE/CONTINUE : CONTINUE (button out) 81.004 DISP 81.004 DISP Allow acquisition cycle to complete and press the 81.004 DISP SAVE/CONTINUE to SAVE (button in). 81.005 EVAL Are {aberrations within 4%}? 82.001 RSLT =CH 1 82.002 DISP MAKE THE FOLLOWING CONNECTION... 82.002 DISP 82.002 DISP 5500 SCOPE OUTPUT ------------ CH 1 INPUT 82.002 DISP 82.003 DISP VERTICAL MODE : CH 1 82.004 HEAD STORE ABERRATIONS: {5 mV/div} 82.005 DISP VOLTS/DIV (both) : 5 mV 82.006 5500 25mVpp 1MH ED S6 S L 82.007 DISP STORE/NON STORE : STORE (button in) 82.008 DISP SAVE/CONTINUE : CONTINUE (button out) 82.008 DISP 82.008 DISP Allow acquisition cycle to complete and press the 82.008 DISP SAVE/CONTINUE to SAVE (button in). 82.009 MESS CHECK--Display aberrations are 82.009 MESS within 4% (0.2 division or less). 82.009 MESS 82.010 EVAL Are {aberrations within 4%}? 83.001 MESS 83.002 HEAD STORE ABERRATIONS: {10 mV/div} 83.003 DISP CH 1 VOLTS/DIV : 10 mV 83.004 5500 50mVpp 1MH ED S6 S L 83.005 DISP SAVE/CONTINUE : CONTINUE (button out) 83.005 DISP 83.005 DISP Allow acquisition cycle to complete and press the 83.005 DISP SAVE/CONTINUE to SAVE (button in). 83.006 EVAL Are {aberrations within 4%}? 84.001 HEAD STORE ABERRATIONS: {20 mV/div} 84.002 DISP CH 1 VOLTS/DIV : 20 mV 84.003 5500 100mVpp 1MH ED S6 S L 84.004 DISP SAVE/CONTINUE : CONTINUE (button out) 84.004 DISP 84.004 DISP Allow acquisition cycle to complete and press the 84.004 DISP SAVE/CONTINUE to SAVE (button in). 84.005 EVAL Are {aberrations within 4%}? 85.001 HEAD STORE ABERRATIONS: {50 mV/div} 85.002 DISP CH 1 VOLTS/DIV : 50 mV 85.003 5500 250mVpp 1MH ED S6 S L 85.004 DISP SAVE/CONTINUE : CONTINUE (button out) 85.004 DISP 85.004 DISP Allow acquisition cycle to complete and press the 85.004 DISP SAVE/CONTINUE to SAVE (button in). 85.005 EVAL Are {aberrations within 4%}? 86.001 HEAD STORE ABERRATIONS: {100 mV/div} 86.002 DISP CH 1 VOLTS/DIV : 100 mV 86.003 5500 500mVpp 1MH ED S6 S L 86.004 DISP SAVE/CONTINUE : CONTINUE (button out) 86.004 DISP 86.004 DISP Allow acquisition cycle to complete and press the 86.004 DISP SAVE/CONTINUE to SAVE (button in). 86.005 EVAL Are {aberrations within 4%}? 87.001 HEAD STORE ABERRATIONS: {200 mV/div} 87.002 DISP CH 1 VOLTS/DIV : 200 mV 87.003 5500 1Vpp 1MH ED S6 S L 87.004 DISP SAVE/CONTINUE : CONTINUE (button out) 87.004 DISP 87.004 DISP Allow acquisition cycle to complete and press the 87.004 DISP SAVE/CONTINUE to SAVE (button in). 87.005 EVAL Are {aberrations within 4%}? 88.001 HEAD STORE ABERRATIONS: {500 mV/div} 88.002 DISP CH 1 VOLTS/DIV : 500 mV 88.003 5500 2.5Vpp 1MH ED S6 S L 88.004 DISP SAVE/CONTINUE : CONTINUE (button out) 88.004 DISP 88.004 DISP Allow acquisition cycle to complete and press the 88.004 DISP SAVE/CONTINUE to SAVE (button in). 88.005 EVAL Are {aberrations within 4%}? 89.001 HEAD {BANDWIDTH} 89.002 ASK- U 89.003 RSLT =CH 1 89.004 DISP MAKE THE FOLLOWING CONNECTION... 89.004 DISP 89.004 DISP 5500 SCOPE OUTPUT ---------50 Ohm--CH 1 INPUT 89.005 DISP VOLTS/DIV (both) : 2 mV 89.005 DISP A SEC/DIV : 0.2 mS 89.005 DISP STORE/NON STORE : NON STORE (button out) 89.006 HEAD BANDWIDTH: {2 mV/div} 89.007 MESS Slew the amplitude for 6 divisions. 89.008 5500 12mVpp 50kH LS S6 N L 89.009 MESS Slew the frequency for 4.2 divisions. 89.010 5500 80MH -1000% mVpp LS S6 L 90.001 HEAD BANDWIDTH: {5 mV/div} 90.002 DISP CH 1 VOLTS/DIV : 5 mV 90.003 MESS Slew the amplitude for 6 divisions. 90.004 5500 30mVpp 50kH LS S6 N L 90.005 MESS Slew the frequency for 4.2 divisions. 90.006 5500 100MH -1000% mVpp LS S6 L 91.001 HEAD BANDWIDTH: {10 mV/div} 91.002 DISP CH 1 VOLTS/DIV : 10 mV 91.003 MESS Slew the amplitude for 6 divisions. 91.004 5500 60mVpp 50kH LS S6 N L 91.005 MESS Slew the frequency for 4.2 divisions. 91.006 5500 100MH -1000% mVpp LS S6 L 92.001 HEAD BANDWIDTH: {20 mV/div} 92.002 DISP CH 1 VOLTS/DIV : 20 mV 92.003 MESS Slew the amplitude for 6 divisions. 92.004 5500 120mVpp 50kH LS S6 N L 92.005 MESS Slew the frequency for 4.2 divisions. 92.006 5500 100MH -1000% mVpp LS S6 L 93.001 HEAD BANDWIDTH: {50 mV/div} 93.002 DISP CH 1 VOLTS/DIV : 50 mV 93.003 MESS Slew the amplitude for 6 divisions. 93.004 5500 300mVpp 50kH LS S6 N L 93.005 MESS Slew the frequency for 4.2 divisions. 93.006 5500 100MH -1000% mVpp LS S6 L 94.001 HEAD BANDWIDTH: {100 mV/div} 94.002 DISP CH 1 VOLTS/DIV : 100 mV 94.003 MESS Slew the amplitude for 6 divisions. 94.004 5500 600mVpp 50kH LS S6 N L 94.005 MESS Slew the frequency for 4.2 divisions. 94.006 5500 100MH -1000% mVpp LS S6 L 95.001 HEAD BANDWIDTH: {200 mV/div} 95.002 DISP CH 1 VOLTS/DIV : 200 mV 95.003 MESS Slew the amplitude for 6 divisions. 95.004 5500 1.2Vpp 50kH LS S6 N L 95.005 MESS Slew the frequency for 4.2 divisions. 95.006 5500 100MH -1000% Vpp LS S6 L 96.001 HEAD BANDWIDTH: {500 mV/div} 96.002 DISP CH 1 VOLTS/DIV : 500 mV 96.003 MESS Slew the amplitude for 6 divisions. 96.004 5500 3Vpp 50kH LS S6 N L 96.005 MESS Slew the frequency for 4.2 divisions. 96.006 5500 100MH -1000% Vpp LS S6 L 97.001 RSLT =CH 2 97.002 DISP MAKE THE FOLLOWING CONNECTION... 97.002 DISP 97.002 DISP 5500 SCOPE OUTPUT ---------50 Ohm--CH 2 INPUT 97.003 DISP VERTICAL MODE : CH 2 97.004 HEAD BANDWIDTH: {2 mV/div} 97.005 MESS Slew the amplitude for 6 divisions. 97.006 5500 12mVpp 50kH LS S6 N L 97.007 MESS Slew the frequency for 4.2 divisions. 97.008 5500 80MH -1000% mVpp LS S6 L 98.001 HEAD BANDWIDTH: {5 mV/div} 98.002 DISP CH 2 VOLTS/DIV : 5 mV 98.003 MESS Slew the amplitude for 6 divisions. 98.004 5500 30mVpp 50kH LS S6 N L 98.005 MESS Slew the frequency for 4.2 divisions. 98.006 5500 100MH -1000% mVpp LS S6 L 99.001 HEAD BANDWIDTH: {10 mV/div} 99.002 DISP CH 2 VOLTS/DIV : 10 mV 99.003 MESS Slew the amplitude for 6 divisions. 99.004 5500 60mVpp 50kH LS S6 N L 99.005 MESS Slew the frequency for 4.2 divisions. 99.006 5500 100MH -1000% mVpp LS S6 L 100.001 HEAD BANDWIDTH: {20 mV/div} 100.002 DISP CH 2 VOLTS/DIV : 20 mV 100.003 MESS Slew the amplitude for 6 divisions. 100.004 5500 120mVpp 50kH LS S6 N L 100.005 MESS Slew the frequency for 4.2 divisions. 100.006 5500 100MH -1000% mVpp LS S6 L 101.001 HEAD BANDWIDTH: {50 mV/div} 101.002 DISP CH 1 VOLTS/DIV : 50 mV 101.003 MESS Slew the amplitude for 6 divisions. 101.004 5500 300mVpp 50kH LS S6 N L 101.005 MESS Slew the frequency for 4.2 divisions. 101.006 5500 100MH -1000% mVpp LS S6 L 102.001 HEAD BANDWIDTH: {100 mV/div} 102.002 DISP CH 1 VOLTS/DIV : 100 mV 102.003 MESS Slew the amplitude for 6 divisions. 102.004 5500 600mVpp 50kH LS S6 N L 102.005 MESS Slew the frequency for 4.2 divisions. 102.006 5500 100MH -1000% mVpp LS S6 L 103.001 HEAD BANDWIDTH: {200 mV/div} 103.002 DISP CH 1 VOLTS/DIV : 200 mV 103.003 MESS Slew the amplitude for 6 divisions. 103.004 5500 1.2Vpp 50kH LS S6 N L 103.005 MESS Slew the frequency for 4.2 divisions. 103.006 5500 100MH -1000% Vpp LS S6 L 104.001 HEAD BANDWIDTH: {500 mV/div} 104.002 DISP CH 1 VOLTS/DIV : 500 mV 104.003 MESS Slew the amplitude for 6 divisions. 104.004 5500 3Vpp 50kH LS S6 N L 104.005 MESS Slew the frequency for 4.2 divisions. 104.006 5500 100MH -1000% Vpp LS S6 L 105.001 HEAD {REPETITIVE STORE MODE AND BANDWIDTH} 105.002 DISP MAKE THE FOLLOWING CONNECTION... 105.002 DISP 105.002 DISP 5500 SCOPE OUTPUT ---------50 Ohm--CH 1 INPUT 105.003 DISP VERTICAL MODE : CH 1 105.003 DISP CH 1 VOLTS/DIV : 10 mV 105.003 DISP A SEC/DIV : 0.2 mS 105.004 MESS Slew the amplitude for 6 divisions. 105.005 5500 60mVpp 50kH LS S6 N L 105.006 MATH M[1] = MEM 105.007 DISP A SEC/DIV : 0.05 uS 105.007 DISP X10 Magnifier : On (knob out) 105.008 5500 100MH mVpp LS S6 S L 105.009 DISP STORE/NON STORE : STORE (button in) 105.009 DISP SAVE/CONTINUE : CONTINUE (button out) 105.009 DISP 105.009 DISP NOTE: 105.009 DISP Allow the points to accumulate for a few 105.009 DISP seconds before saving the display. 105.010 MESS CHECK--The 100 MHz display will accumulate and store. 105.010 MESS 105.011 EVAL Will {100 MHz display accumlate and store}? 106.001 MATH MEM = M[1] 106.002 5500 100MH mVpp LS S6 S L 106.003 MESS CHECK--Display amplitude is 4.2 divisions or greater. 106.003 MESS 106.004 EVAL Is display {amplitude 4.2 divisions or greater}? 107.001 MATH MEM = M[1] 107.002 5500 100MH mVpp LS S6 S L 107.003 DISP VERTICAL MODE : BOTH and ALT 107.004 MESS CHECK--The 100 MHz display will accumulate and store. 107.004 MESS 107.005 EVAL Will {100 MHz display accumlate and store (ALT mode)}? 108.001 MATH MEM = M[1] 108.002 5500 100MH mVpp LS S6 S L 108.003 MESS CHECK--Display amplitude is 4.2 divisions or greater. 108.003 MESS 108.004 EVAL Is display {amplitude 4.2 divisions or greater (ALT mode)}? 109.001 MESS 109.002 HEAD {SINGLE SWEEP SAMPLE ACQUISITION} 109.003 DISP A SEC/DIV : 5 uS 109.003 DISP X10 Magnifier : Off (knob in) 109.003 DISP A TRIGGER Mode : NORM 109.003 DISP A&B INT : CH 1 109.003 DISP SAVE/CONTINUE : CONTINUE (button out) 109.003 DISP 1K/4K : 1K (button in) 109.004 MESS Slew the amplitude for 6 divisions. 109.005 5500 60mVpp 50kH LS S6 N L 109.006 DISP CH 1 AC-GND-DC : GND 109.006 DISP A TRIGGER : SGL SWP 109.007 5500 2MH mVpp LS S6 S L 109.008 DISP CH 1 AC-GND-DC : DC 109.009 MESS CHECK--The minimum peak-to-peak envelope amplitude 109.009 MESS is greater than 5.6 divisions. 109.009 MESS 109.010 EVAL Is {minimum peak-to-peak envelope amplitude >5.6 divisions}? 110.001 HEAD {BANDWIDTH LIMIT OPERATION} 110.002 DISP BW LIMIT : On (button in) 110.002 DISP CH 1 VOLTS/DIV : 10 mV 110.002 DISP AC-GND-DC : DC 110.002 DISP A SEC/DIV : 20 uS 110.002 DISP A TRIGGER : P-P AUTO 110.002 DISP A&B INT : VERT MODE 110.002 DISP STORE/NON STORE : NON STORE (button out) 110.003 MESS Slew the amplitude for 6 divisions. 110.004 5500 60mVpp 50kH LS S6 N L 110.005 MESS Slew the frequency for 4.2 divisions. 110.006 5500 20MH 2U mVpp LS S6 L 111.001 HEAD {COMMON-MODE REJECTION RATIO} 111.002 DISP Connect the 5500 SCOPE OUTPUT to the CH 1 & CH 2 INPUTS 111.002 DISP using a 50 ohm feedthru and a T-connector. 111.002 DISP 111.002 DISP BW LIMIT : Off (button out) 111.002 DISP CH 2 VOLTS/DIV : 10 mV 111.002 DISP INVERT : On (button in) 111.003 MESS Slew the amplitude for 6 divisions. 111.004 5500 60mVpp 50MH LS S6 N L 111.005 DISP Vertically center the display using the 111.005 DISP CH 1 POSITION control. Then set the VERTICAL MODE 111.005 DISP switch to CH 2 and vertically center the display 111.005 DISP using the CH 2 POSITION control. 111.005 DISP 111.005 DISP VERTICAL MODE : BOTH and ADD 111.006 MESS CHECK--Display amplitude is 0.6 division or less. 111.006 MESS 111.007 EVAL Is display {amplitude 0.6 divisions or less (ADD mode)}? 112.001 MESS 112.002 JMPT 113.002 112.003 DISP VERTICAL MODE : CH 1 112.004 MESS Slew the amplitude for 6 divisions. 112.005 5500 60mVpp 50kH LS S6 N L 112.006 DISP VERTICAL MODE : BOTH 112.006 DISP 112.006 DISP Slew the CH 1 or CH 2 VOLTS/DIV VARIABLE control 112.006 DISP for minimum display amplitude. 112.006 DISP 112.006 DISP VERTICAL MODE : CH 1 112.007 MESS Slew the amplitude for 6 divisions. 112.008 5500 60mVpp 50MH LS S6 N L 112.009 DISP VERTICAL MODE : BOTH 112.010 MESS CHECK--Display amplitude is 0.6 division or less. 112.010 MESS 112.011 EVAL Is display {amplitude 0.6 divisions or less (BOTH mode)}? 113.001 MESS 113.002 HEAD {NON STORE AND STORE CHANNEL ISOLATION} 113.003 DISP MAKE THE FOLLOWING CONNECTIONS... 113.003 DISP 113.003 DISP 5500 SCOPE OUTPUT ----------50 ohm-- CH 1 INPUT 113.004 DISP VERTICAL MODE : CH 1 113.004 DISP VOLTS/DIV (both) : 0.1 V 113.004 DISP VOLTS/DlV Variable (both) : CAL (detent) 113.004 DISP INVERT : Off (button out) 113.004 DISP CH 1 AC-GND-DC : AC 113.004 DISP CH 2 AC-GND-DC : GND 113.004 DISP A SEC/DIV : 0.1 uS 113.005 HEAD NON STORE AND STORE CHANNEL ISOLATION: {CH 1 @ .1V/div} 113.006 MESS Slew the amplitude for 5 divisions. 113.007 5500 500mVpp 50MH LS S6 N L 113.008 MESS 113.009 MATH M[1] = MEM 113.010 DISP VERTICAL MODE : CH 2 113.011 EVAL Is display {amplitude 0.05 division or less}? 114.001 HEAD NON STORE AND STORE CHANNEL ISOLATION: {CH 2 @ .1V/div} 114.002 DISP Move the cable from the CH 1 input connector 114.002 DISP to the CH 2 input connector. 114.002 DISP 114.002 DISP VERTICAL MODE : CH 1 114.002 DISP CH 1 AC-GND-DC : GND 114.002 DISP CH 2 AC-GND-DC : AC 114.003 MATH MEM = M[1] 114.004 5500 50MH mVpp LS S6 S L 114.005 EVAL Is display {amplitude 0.05 division or less}? 115.001 HEAD NON STORE AND STORE CHANNEL ISOLATION: {CH 2 @ 50mV/div} 115.002 DISP CH 2 VOLTS/DIV : 50 mV 115.002 DISP STORE/NON STORE : STORE (button in) 115.002 DISP SAVE/CONTINUE : CONTINUE (button out) 115.003 MATH MEM = M[1] 115.004 5500 50MH mVpp LS S6 S L 115.005 EVAL Is display {amplitude 0.1 division or less}? 116.001 HEAD NON STORE AND STORE CHANNEL ISOLATION: {CH 1 @ 50mV/div} 116.002 DISP Move the cable from the CH 2 input connector 116.002 DISP to the CH 1 input connector. 116.002 DISP 116.002 DISP VERTICAL MODE : CH 1 116.002 DISP CH 1 VOLTS/DIV : 50 mV 116.002 DISP CH 2 VOLTS/DIV : 0.1 V 116.002 DISP CH 1 AC-GND-DC : GND 116.002 DISP CH 2 AC-GND-DC : AC 116.003 MATH MEM = M[1] 116.004 5500 50MH mVpp LS S6 S L 116.005 EVAL Is display {amplitude 0.1 division or less}? 117.001 HEAD {STORE MODE CROSS TALK} 117.002 DISP VERTICAL MODE : BOTH and CHOP 117.002 DISP VOLTS/DIV (both) : 0.1 V 117.002 DISP A SEC/DIV : 10 uS 117.003 DISP Connect the Pulse Generator output via a 117.003 DISP 50 Ohm cable and a 50 Ohm termination to CH 1 input. 117.003 DISP 117.003 DISP Set the generator to produce a 100 kHz, 117.003 DISP 5 division display. 117.004 DISP Use the CH 1 POSITION control to center the display. 117.004 DISP 117.004 DISP CH 1 VOLTS/DIV : 50 mV 117.005 EVAL Is display {amplitude on CH 2 <1% (0.1 div) @ 10 uS/div}? 118.001 DISP A SEC/DIV : 10 mS 118.002 EVAL Is display {amplitude on CH 2 <1% (0.1 div) @ 10 mS/div}? 119.001 DISP CH 2 VOLTS/DIV : 0.1 V 119.001 DISP CH 1 AC-GND-DC : GND 119.001 DISP CH 2 AC-GND-DC : AC 119.001 DISP A SEC/DIV : 10 uS 119.002 DISP Connect the Pulse Generator output via a 119.002 DISP 50 Ohm cable and a 50 Ohm termination to CH 2 input. 119.002 DISP 119.002 DISP Set the generator to produce a 100 kHz, 119.002 DISP 5 division display. 119.003 DISP Use the CH 2 POSITION control to center the display. 119.003 DISP 119.003 DISP CH 2 VOLTS/DIV : 50 mV 119.004 EVAL Is display {amplitude on CH 1 <1% (0.1 div) @ 10 uS/div}? 120.001 DISP A SEC/DIV : 10 mS 120.002 EVAL Is display {amplitude on CH 1 <1% (0.1 div) @ 10 mS/div}? 121.001 HEAD {STORE PULSE WIDTH AMPLITUDE} 121.002 DISP VERTICAL MODE : CH 2 121.002 DISP A SEC/DIV : 1 mS 121.002 DISP STORE/NON STORE : NON STORE (button out) 121.002 DISP ROLL/SCAN : SCAN (button out) 121.002 DISP 1K/4K : 1K (button in) 121.003 RSLT =1 mS period, 100 nS pulse duration 121.004 DISP Set the generator to produce a 1 mS period, 121.004 DISP 100 nS pulse duration, 5 division display. 121.005 DISP STORE/NON STORE : STORE (button in) 121.006 EVAL Is {amplitude 2.5 divisions or greater (@ 1 mS/div)}? 122.001 DISP A SEC/DIV : 0.1 S 122.002 EVAL Is {amplitude 2.5 divisions or greater (@ .1 S/div)}? 123.001 DISP ROLL/SCAN : ROLL (button in) 123.002 EVAL Is {amplitude 2.5 divisions or greater (roll mode)}? 124.001 RSLT =.1 S period, 2 mS pulse duration 124.002 DISP VERTICAL MODE : BOTH and CHOP 124.002 DISP A SEC/DIV : 1 mS 124.002 DISP STORE/NON STORE : NON STORE (button out) 124.002 DISP ROLL/SCAN : SCAN (button out) 124.003 DISP Set the generator to produce a 0.1 S period, 124.003 DISP 2 mS pulse duration, 5 division display. 124.004 DISP STORE/NON STORE : STORE (button in) 124.005 EVAL Is {amplitude 2.5 divisions or greater (@ 1 mS/div)}? 125.001 DISP A SEC/DIV : 0.1 S 125.002 EVAL Is {amplitude 2.5 divisions or greater (@ .1 S/div)}? 126.001 DISP ROLL/SCAN : ROLL (button in) 126.002 EVAL Is {amplitude 2.5 divisions or greater (roll mode)}? 127.001 RSLT =1 mS period, 20 uS pulse duration 127.002 DISP A SEC/DIV : 1 mS 127.002 DISP STORE/NON STORE : NON STORE (button out) 127.002 DISP ROLL/SCAN : SCAN (button out) 127.003 DISP Set the generator to produce a 1 mS period, 127.003 DISP 20 uS pulse duration, 5 division display. 127.004 DISP STORE/NON STORE : STORE (button in) 127.005 EVAL Is {amplitude 2.5 divisions or greater (@ 1 mS/div)}? 128.001 HEAD {AVERAGE MODE} 128.002 DISP Set the WAVEFORM REFERENCE/MENU SELECT switch 128.002 DISP to MENU SELECT (button out). 128.002 DISP 128.002 DISP Use the Menu controls to select SWP LIMIT. 128.003 MESS CHECK--The SWP LIMIT is adjustable from 1 to 100,000 128.003 MESS or NO LIMIT by rotating the CURSORS control. 128.003 MESS 128.003 MESS Note: Earlier instrument firmware had the SWP LIMIT 128.003 MESS adjustable from 1 to 2047. 128.003 MESS 128.003 MESS 128.004 EVAL Is {SWP LIMIT adj. from 1 to 100,000 (or 2047) or NO LIMIT}? 129.001 HEAD INITIAL CONTROL SETTINGS 129.002 DISP Set the following VERTICAL functions... 129.002 DISP 129.002 DISP POSITION (both) : Midrange 129.002 DISP VERTICAL MODE : CH 1 129.002 DISP X-Y : Off (button out) 129.002 DISP BW LIMIT : Off (button in) 129.003 DISP Set the following VERTICAL functions... 129.003 DISP 129.003 DISP CH 1 VOLTS/DIV : 0.5 V 129.003 DISP CH 1 VOLTS/DIV Variable : CAL detent 129.003 DISP CH 1 AC-GND-DC : DC 129.004 DISP Set the following HORIZONTAL fuctions... 129.004 DISP 129.004 DISP POSITION : Midrange 129.004 DISP HORIZONTAL MODE : A 129.004 DISP A SEC/DIV : 0.05 uS 129.004 DISP SEC/DlV Variable : CAL detent 129.004 DISP X10 Magnifier : Off (knob in) 129.004 DISP B DELAY TIME POSITION : Fully CCW 129.005 DISP Set the following B TRIGGER functions... 129.005 DISP 129.005 DISP SLOPE : OUT 129.005 DISP LEVEL : Fully CW 129.006 DISP Set the following A TRIGGER functions... 129.006 DISP 129.006 DISP VAR HOLDOFF : NORM 129.006 DISP MODE : P-P AUTO 129.006 DISP SLOPE : OUT 129.006 DISP LEVEL : Midrange 129.007 DISP Set the following A TRIGGER functions... 129.007 DISP 129.007 DISP HF REJECT : OFF 129.007 DISP A&B INT : VERT MODE 129.007 DISP A SOURCE : INT 129.007 DISP A EXT COUPLING : DC divide by 10 129.008 DISP Set the following STORAGE funtions... 129.008 DISP 129.008 DISP STORE/NON STORE : NON STORE (button out) 129.008 DISP SAVE/CONTINUE : CONTINUE (button out) 129.008 DISP PRETRIG/POST TRIG : POST TRIG (button out) 129.009 DISP Set the following STORAGE functions... 129.009 DISP 129.009 DISP ROLL/SCAN : SCAN (button out) 129.009 DISP 1K/4K : 4K (button out) 129.009 DISP POSITION CURS/ : POSITION CURS (button in) 129.009 DISP SELECT WAVEFORM 129.010 DISP Set the following WAVEFORM functions... 129.010 DISP 129.010 DISP REFERENCE/ : WAVEFORM REFERENCE (button in) 129.010 DISP MENU SELECT 129.011 HEAD {TIMING ACCURACY AND LINEARITY} 129.012 RSLT =A Sweep 129.013 DISP MAKE THE FOLLOWING CONNECTIONS... 129.013 DISP 129.013 DISP 5500 SCOPE OUTPUT ----------50 Ohm--CH 1 INPUT 129.014 DISP Throughout the following tests, perform the following... 129.014 DISP 129.014 DISP You will adjust A TRIGGER LEVEL as need for a stable, 129.014 DISP triggered display. 129.014 DISP 129.014 DISP You will adjust the HORIZONTAL POSITION control 129.014 DISP to aling the 2nd time marker with the 2nd vertical 129.014 DISP graticule line. 129.015 DISP Throughout the following tests, perform the following... 129.015 DISP 129.015 DISP You will be slewing 5500A-SC for 1 time marker/division. 129.015 DISP 129.015 DISP You will also check for linearity within 5% 129.015 DISP (0.1 division over any 2 of the center 8 divisions) 129.016 HEAD TIMING ACCURACY AND LINEARITY: {50 nS/div} 129.017 MESS Slew output for 1 marker per division. 129.018 5500 50nT 2% M1 S6 L 130.001 MEME 130.002 MESS 130.003 5500 nT M1 S6 S L 130.004 EVAL Is {linearity within 5%}? 131.001 HEAD TIMING ACCURACY AND LINEARITY: {0.1 uS/div} 131.002 DISP A SEC/DIV : 0.1 uS 131.003 MESS Slew output for 1 marker per division. 131.004 5500 100nT 2% M1 S6 L 132.001 MEME 132.002 MESS 132.003 5500 nT M1 S6 S L 132.004 EVAL Is {linearity within 5%}? 133.001 HEAD TIMING ACCURACY AND LINEARITY: {0.2 uS/div} 133.002 DISP A SEC/DIV : 0.2 uS 133.003 MESS Slew output for 1 marker per division. 133.004 5500 200nT 2% M1 S6 L 134.001 MEME 134.002 MESS 134.003 5500 nT M1 S6 S L 134.004 EVAL Is {linearity within 5%}? 135.001 HEAD TIMING ACCURACY AND LINEARITY: {0.5 uS/div} 135.002 DISP A SEC/DIV : 0.5 uS 135.003 MESS Slew output for 1 marker per division. 135.004 5500 500nT 2% M1 S6 L 136.001 MEME 136.002 MESS 136.003 5500 nT M1 S6 S L 136.004 EVAL Is {linearity within 5%}? 137.001 HEAD TIMING ACCURACY AND LINEARITY: {1 uS/div} 137.002 DISP A SEC/DIV : 1 uS 137.003 MESS Slew output for 1 marker per division. 137.004 5500 1uT 2% M1 S6 L 138.001 MEME 138.002 MESS 138.003 5500 uT M1 S6 S L 138.004 EVAL Is {linearity within 5%}? 139.001 HEAD TIMING ACCURACY AND LINEARITY: {2 uS/div} 139.002 DISP A SEC/DIV : 2 uS 139.003 MESS Slew output for 1 marker per division. 139.004 5500 2uT 2% M1 S6 L 140.001 MEME 140.002 MESS 140.003 5500 uT M1 S6 S L 140.004 EVAL Is {linearity within 5%}? 141.001 HEAD TIMING ACCURACY AND LINEARITY: {5 uS/div} 141.002 DISP A SEC/DIV : 5 uS 141.003 MESS Slew output for 1 marker per division. 141.004 5500 5uT 2% M1 S6 L 142.001 MEME 142.002 MESS 142.003 5500 uT M1 S6 S L 142.004 EVAL Is {linearity within 5%}? 143.001 HEAD TIMING ACCURACY AND LINEARITY: {10 uS/div} 143.002 DISP A SEC/DIV : 10 uS 143.003 MESS Slew output for 1 marker per division. 143.004 5500 10uT 2% M1 S6 L 144.001 MEME 144.002 MESS 144.003 5500 uT M1 S6 S L 144.004 EVAL Is {linearity within 5%}? 145.001 HEAD TIMING ACCURACY AND LINEARITY: {20 uS/div} 145.002 DISP A SEC/DIV : 20 uS 145.003 MESS Slew output for 1 marker per division. 145.004 5500 20uT 2% M1 S6 L 146.001 MEME 146.002 MESS 146.003 5500 uT M1 S6 S L 146.004 EVAL Is {linearity within 5%}? 147.001 HEAD TIMING ACCURACY AND LINEARITY: {50 uS/div} 147.002 DISP A SEC/DIV : 50 uS 147.003 MESS Slew output for 1 marker per division. 147.004 5500 50uT 2% M1 S6 L 148.001 MEME 148.002 MESS 148.003 5500 uT M1 S6 S L 148.004 EVAL Is {linearity within 5%}? 149.001 HEAD TIMING ACCURACY AND LINEARITY: {.1 mS/div} 149.002 DISP A SEC/DIV : .1 mS 149.003 MESS Slew output for 1 marker per division. 149.004 5500 100uT 2% M1 S6 L 150.001 MEME 150.002 MESS 150.003 5500 uT M1 S6 S L 150.004 EVAL Is {linearity within 5%}? 151.001 HEAD TIMING ACCURACY AND LINEARITY: {.2 mS/div} 151.002 DISP A SEC/DIV : .2 mS 151.003 MESS Slew output for 1 marker per division. 151.004 5500 200uT 2% M1 S6 L 152.001 MEME 152.002 MESS 152.003 5500 uT M1 S6 S L 152.004 EVAL Is {linearity within 5%}? 153.001 HEAD TIMING ACCURACY AND LINEARITY: {.5 mS/div} 153.002 DISP A SEC/DIV : .5 mS 153.003 MESS Slew output for 1 marker per division. 153.004 5500 500uT 2% M1 S6 L 154.001 MEME 154.002 MESS 154.003 5500 uT M1 S6 S L 154.004 EVAL Is {linearity within 5%}? 155.001 HEAD TIMING ACCURACY AND LINEARITY: {1 mS/div} 155.002 DISP A SEC/DIV : 1 mS 155.003 MESS Slew output for 1 marker per division. 155.004 5500 1mT 2% M1 S6 L 156.001 MEME 156.002 MESS 156.003 5500 mT M1 S6 S L 156.004 EVAL Is {linearity within 5%}? 157.001 HEAD TIMING ACCURACY AND LINEARITY: {2 mS/div} 157.002 DISP A SEC/DIV : 2 mS 157.003 MESS Slew output for 1 marker per division. 157.004 5500 2mT 2% M1 S6 L 158.001 MEME 158.002 MESS 158.003 5500 mT M1 S6 S L 158.004 EVAL Is {linearity within 5%}? 159.001 HEAD TIMING ACCURACY AND LINEARITY: {5 mS/div} 159.002 DISP A SEC/DIV : 5 mS 159.003 MESS Slew output for 1 marker per division. 159.004 5500 5mT 2% M1 S6 L 160.001 MEME 160.002 MESS 160.003 5500 mT M1 S6 S L 160.004 EVAL Is {linearity within 5%}? 161.001 HEAD TIMING ACCURACY AND LINEARITY: {10 mS/div} 161.002 DISP A SEC/DIV : 10 mS 161.003 MESS Slew output for 1 marker per division. 161.004 5500 10mT 2% M1 S6 L 162.001 MEME 162.002 MESS 162.003 5500 mT M1 S6 S L 162.004 EVAL Is {linearity within 5%}? 163.001 HEAD TIMING ACCURACY AND LINEARITY: {20 mS/div} 163.002 DISP A SEC/DIV : 20 mS 163.003 MESS Slew output for 1 marker per division. 163.004 5500 20mT 2% M1 S6 L 164.001 MEME 164.002 MESS 164.003 5500 mT M1 S6 S L 164.004 EVAL Is {linearity within 5%}? 165.001 HEAD TIMING ACCURACY AND LINEARITY: {50 mS/div} 165.002 DISP A SEC/DIV : 50 mS 165.003 MESS Slew output for 1 marker per division. 165.004 5500 50mT 2% M1 S6 L 166.001 MEME 166.002 MESS 166.003 5500 mT M1 S6 S L 166.004 EVAL Is {linearity within 5%}? 167.001 HEAD TIMING ACCURACY AND LINEARITY: {.1 S/div} 167.002 DISP A SEC/DIV : 0.1 S 167.003 MESS Slew output for 1 marker per division. 167.004 5500 100mT 2% M1 S6 L 168.001 MEME 168.002 MESS 168.003 5500 mT M1 S6 S L 168.004 EVAL Is {linearity within 5%}? 169.001 HEAD TIMING ACCURACY AND LINEARITY: {.2 S/div} 169.002 DISP A SEC/DIV : 0.2 S 169.003 MESS Slew output for 1 marker per division. 169.004 5500 200mT 2% M1 S6 L 170.001 MEME 170.002 MESS 170.003 5500 mT M1 S6 S L 170.004 EVAL Is {linearity within 5%}? 171.001 HEAD TIMING ACCURACY AND LINEARITY: {.5 S/div} 171.002 DISP A SEC/DIV : 0.5 S 171.003 MESS Slew output for 1 marker per division. 171.004 5500 500mT 2% M1 S6 L 172.001 MEME 172.002 MESS 172.003 5500 mT M1 S6 S L 172.004 EVAL Is {linearity within 5%}? 173.001 HEAD TIMING ACCURACY AND LINEARITY 173.002 RSLT =X10 MAG 173.003 DISP A SEC/DIV : 0.05 uS 173.003 DISP X10 Magnifier : On (knob out) 173.004 5500 10nT M4 S6 S L 173.005 DISP Use the Horizontal POSITION control to align 173.005 DISP the 1st time marker that is 25 nS beyond the 173.005 DISP start of the sweep with the 2nd vertical graticule line. 173.006 HEAD TIMING ACCURACY AND LINEARITY: {@ 10 nS/div} 173.007 MESS CHECK--Timing accuracy is within 3% (0.24 173.007 MESS division at the 10th vertical graticule line), and 173.007 MESS linearity is within 5% (0.1 division over any 2 of 173.007 MESS the center 8 divisions). Exclude any portion of 173.007 MESS the sweep past the 100th magnified division. 173.007 MESS 173.008 EVAL Is {timing accuracy within 3%}? 174.001 5500 10nT M4 S6 S L 174.002 MESS 174.003 EVAL Is {linearity within 5%}? 175.001 HEAD TIMING ACCURACY AND LINEARITY: {@ .1 uS/div} 175.002 DISP A SEC/DIV : 0.1 uS 175.003 MESS Slew output for 1 marker per division. 175.004 5500 10nT 3% M4 S6 L 176.001 MEME 176.002 MESS 176.003 5500 nT M4 S6 S L 176.004 EVAL Is {linearity within 5%}? 177.001 HEAD TIMING ACCURACY AND LINEARITY: {@ .2 uS/div} 177.002 DISP A SEC/DIV : 0.2 uS 177.003 MESS Slew output for 1 marker per division. 177.004 5500 20nT 3% M1 S6 L 178.001 MEME 178.002 MESS 178.003 5500 nT M1 S6 S L 178.004 EVAL Is {linearity within 5%}? 179.001 HEAD TIMING ACCURACY AND LINEARITY: {@ .5 uS/div} 179.002 DISP A SEC/DIV : 0.5 uS 179.003 MESS Slew output for 1 marker per division. 179.004 5500 50nT 3% M1 S6 L 180.001 MEME 180.002 MESS 180.003 5500 nT M1 S6 S L 180.004 EVAL Is {linearity within 5%}? 181.001 HEAD TIMING ACCURACY AND LINEARITY: {@ 1 uS/div} 181.002 DISP A SEC/DIV : 1 uS 181.003 MESS Slew output for 1 marker per division. 181.004 5500 100nT 3% M1 S6 L 182.001 MEME 182.002 MESS 182.003 5500 nT M1 S6 S L 182.004 EVAL Is {linearity within 5%}? 183.001 HEAD TIMING ACCURACY AND LINEARITY: {@ 2 uS/div} 183.002 DISP A SEC/DIV : 2 uS 183.003 MESS Slew output for 1 marker per division. 183.004 5500 200nT 3% M1 S6 L 184.001 MEME 184.002 MESS 184.003 5500 nT M1 S6 S L 184.004 EVAL Is {linearity within 5%}? 185.001 HEAD TIMING ACCURACY AND LINEARITY: {@ 5 uS/div} 185.002 DISP A SEC/DIV : 5 uS 185.003 MESS Slew output for 1 marker per division. 185.004 5500 500nT 3% M1 S6 L 186.001 MEME 186.002 MESS 186.003 5500 nT M1 S6 S L 186.004 EVAL Is {linearity within 5%}? 187.001 HEAD TIMING ACCURACY AND LINEARITY: {@ 10 uS/div} 187.002 DISP A SEC/DIV : 10 uS 187.003 MESS Slew output for 1 marker per division. 187.004 5500 1uT 3% M1 S6 L 188.001 MEME 188.002 MESS 188.003 5500 uT M1 S6 S L 188.004 EVAL Is {linearity within 5%}? 189.001 HEAD TIMING ACCURACY AND LINEARITY: {@ 20 uS/div} 189.002 DISP A SEC/DIV : 20 uS 189.003 MESS Slew output for 1 marker per division. 189.004 5500 2uT 3% M1 S6 L 190.001 MEME 190.002 MESS 190.003 5500 uT M1 S6 S L 190.004 EVAL Is {linearity within 5%}? 191.001 HEAD TIMING ACCURACY AND LINEARITY: {@ 50 uS/div} 191.002 DISP A SEC/DIV : 50 uS 191.003 MESS Slew output for 1 marker per division. 191.004 5500 5uT 3% M1 S6 L 192.001 MEME 192.002 MESS 192.003 5500 uT M1 S6 S L 192.004 EVAL Is {linearity within 5%}? 193.001 HEAD TIMING ACCURACY AND LINEARITY: {@ .1 mS/div} 193.002 DISP A SEC/DIV : .1 mS 193.003 MESS Slew output for 1 marker per division. 193.004 5500 10uT 3% M1 S6 L 194.001 MEME 194.002 MESS 194.003 5500 uT M1 S6 S L 194.004 EVAL Is {linearity within 5%}? 195.001 HEAD TIMING ACCURACY AND LINEARITY: {@ .2 mS/div} 195.002 DISP A SEC/DIV : .2 mS 195.003 MESS Slew output for 1 marker per division. 195.004 5500 20uT 3% M1 S6 L 196.001 MEME 196.002 MESS 196.003 5500 uT M1 S6 S L 196.004 EVAL Is {linearity within 5%}? 197.001 HEAD TIMING ACCURACY AND LINEARITY: {@ .5 mS/div} 197.002 DISP A SEC/DIV : .5 mS 197.003 MESS Slew output for 1 marker per division. 197.004 5500 50uT 3% M1 S6 L 198.001 MEME 198.002 MESS 198.003 5500 uT M1 S6 S L 198.004 EVAL Is {linearity within 5%}? 199.001 HEAD TIMING ACCURACY AND LINEARITY: {@ 1 mS/div} 199.002 DISP A SEC/DIV : 1 mS 199.003 MESS Slew output for 1 marker per division. 199.004 5500 100uT 3% M1 S6 L 200.001 MEME 200.002 MESS 200.003 5500 uT M1 S6 S L 200.004 EVAL Is {linearity within 5%}? 201.001 HEAD TIMING ACCURACY AND LINEARITY: {@ 2 mS/div} 201.002 DISP A SEC/DIV : 2 mS 201.003 MESS Slew output for 1 marker per division. 201.004 5500 200uT 3% M1 S6 L 202.001 MEME 202.002 MESS 202.003 5500 uT M1 S6 S L 202.004 EVAL Is {linearity within 5%}? 203.001 HEAD TIMING ACCURACY AND LINEARITY: {@ 5 mS/div} 203.002 DISP A SEC/DIV : 5 mS 203.003 MESS Slew output for 1 marker per division. 203.004 5500 500uT 3% M1 S6 L 204.001 MEME 204.002 MESS 204.003 5500 uT M1 S6 S L 204.004 EVAL Is {linearity within 5%}? 205.001 HEAD TIMING ACCURACY AND LINEARITY: {@ 10 mS/div} 205.002 DISP A SEC/DIV : 10 mS 205.003 MESS Slew output for 1 marker per division. 205.004 5500 1mT 3% M1 S6 L 206.001 MEME 206.002 MESS 206.003 5500 mT M1 S6 S L 206.004 EVAL Is {linearity within 5%}? 207.001 HEAD TIMING ACCURACY AND LINEARITY: {@ 20 mS/div} 207.002 DISP A SEC/DIV : 20 mS 207.003 MESS Slew output for 1 marker per division. 207.004 5500 2mT 3% M1 S6 L 208.001 MEME 208.002 MESS 208.003 5500 mT M1 S6 S L 208.004 EVAL Is {linearity within 5%}? 209.001 HEAD TIMING ACCURACY AND LINEARITY: {@ 50 mS/div} 209.002 DISP A SEC/DIV : 50 mS 209.003 MESS Slew output for 1 marker per division. 209.004 5500 5mT 3% M1 S6 L 210.001 MEME 210.002 MESS 210.003 5500 mT M1 S6 S L 210.004 EVAL Is {linearity within 5%}? 211.001 HEAD TIMING ACCURACY AND LINEARITY: {@ .1 S/div} 211.002 DISP A SEC/DIV : 0.1 S 211.003 MESS Slew output for 1 marker per division. 211.004 5500 10mT 3% M1 S6 L 212.001 MEME 212.002 MESS 212.003 5500 mT M1 S6 S L 212.004 EVAL Is {linearity within 5%}? 213.001 HEAD TIMING ACCURACY AND LINEARITY: {@ .2 S/div} 213.002 DISP A SEC/DIV : 0.2 S 213.003 MESS Slew output for 1 marker per division. 213.004 5500 20mT 3% M1 S6 L 214.001 MEME 214.002 MESS 214.003 5500 mT M1 S6 S L 214.004 EVAL Is {linearity within 5%}? 215.001 HEAD TIMING ACCURACY AND LINEARITY: {@ .5 S/div} 215.002 DISP A SEC/DIV : 0.5 S 215.003 MESS Slew output for 1 marker per division. 215.004 5500 50mT 3% M1 S6 L 216.001 MEME 216.002 MESS 216.003 5500 mT M1 S6 S L 216.004 EVAL Is {linearity within 5%}? 217.001 RSLT =B Sweep 217.002 DISP HORIZONTAL MODE : B 217.002 DISP A SEC/DIV : 0.1 uS 217.002 DISP B SEC/DIV : 0.05 uS 217.002 DISP X10 Magnifier : Off (knob in) 217.003 DISP Note: Throughout the B Sweep tests, keep the A SEC/DIV 217.003 DISP switch one setting slower than the B SEC/DIV switch. 217.004 MESS Slew output for 1 marker per division. 217.005 HEAD TIMING ACCURACY AND LINEARITY: {@ 50 nS/div} 217.006 5500 50nT 2% M1 S6 L 218.001 MEME 218.002 MESS 218.003 5500 nT M1 S6 S L 218.004 EVAL Is {linearity within 5%}? 219.001 HEAD TIMING ACCURACY AND LINEARITY: {@ .1 uS/div} 219.002 DISP B SEC/DIV : 0.1 uS 219.003 MESS Slew output for 1 marker per division. 219.004 5500 100nT 2% M1 S6 L 220.001 MEME 220.002 MESS 220.003 5500 nT M1 S6 S L 220.004 EVAL Is {linearity within 5%}? 221.001 HEAD TIMING ACCURACY AND LINEARITY: {@ .2 uS/div} 221.002 DISP B SEC/DIV : 0.2 uS 221.003 MESS Slew output for 1 marker per division. 221.004 5500 200nT 2% M1 S6 L 222.001 MEME 222.002 MESS 222.003 5500 nT M1 S6 S L 222.004 EVAL Is {linearity within 5%}? 223.001 HEAD TIMING ACCURACY AND LINEARITY: {@ .5 uS/div} 223.002 DISP B SEC/DIV : 0.5 uS 223.003 MESS Slew output for 1 marker per division. 223.004 5500 500nT 2% M1 S6 L 224.001 MEME 224.002 MESS 224.003 5500 nT M1 S6 S L 224.004 EVAL Is {linearity within 5%}? 225.001 HEAD TIMING ACCURACY AND LINEARITY: {@ 1 uS/div} 225.002 DISP B SEC/DIV : 1 uS 225.003 MESS Slew output for 1 marker per division. 225.004 5500 1uT 2% M1 S6 L 226.001 MEME 226.002 MESS 226.003 5500 uT M1 S6 S L 226.004 EVAL Is {linearity within 5%}? 227.001 HEAD TIMING ACCURACY AND LINEARITY: {@ 2 uS/div} 227.002 DISP B SEC/DIV : 2 uS 227.003 MESS Slew output for 1 marker per division. 227.004 5500 2uT 2% M1 S6 L 228.001 MEME 228.002 MESS 228.003 5500 uT M1 S6 S L 228.004 EVAL Is {linearity within 5%}? 229.001 HEAD TIMING ACCURACY AND LINEARITY: {@ 5 uS/div} 229.002 DISP B SEC/DIV : 5 uS 229.003 MESS Slew output for 1 marker per division. 229.004 5500 5uT 2% M1 S6 L 230.001 MEME 230.002 MESS 230.003 5500 uT M1 S6 S L 230.004 EVAL Is {linearity within 5%}? 231.001 HEAD TIMING ACCURACY AND LINEARITY: {@ 10 uS/div} 231.002 DISP B SEC/DIV : 10 uS 231.003 MESS Slew output for 1 marker per division. 231.004 5500 10uT 2% M1 S6 L 232.001 MEME 232.002 MESS 232.003 5500 uT M1 S6 S L 232.004 EVAL Is {linearity within 5%}? 233.001 HEAD TIMING ACCURACY AND LINEARITY: {@ 20 uS/div} 233.002 DISP B SEC/DIV : 20 uS 233.003 MESS Slew output for 1 marker per division. 233.004 5500 20uT 2% M1 S6 L 234.001 MEME 234.002 MESS 234.003 5500 uT M1 S6 S L 234.004 EVAL Is {linearity within 5%}? 235.001 HEAD TIMING ACCURACY AND LINEARITY: {@ 50 uS/div} 235.002 DISP B SEC/DIV : 50 uS 235.003 MESS Slew output for 1 marker per division. 235.004 5500 50uT 2% M1 S6 L 236.001 MEME 236.002 MESS 236.003 5500 uT M1 S6 S L 236.004 EVAL Is {linearity within 5%}? 237.001 HEAD TIMING ACCURACY AND LINEARITY: {@ .1 mS/div} 237.002 DISP B SEC/DIV : .1 mS 237.003 MESS Slew output for 1 marker per division. 237.004 5500 100uT 2% M1 S6 L 238.001 MEME 238.002 MESS 238.003 5500 uT M1 S6 S L 238.004 EVAL Is {linearity within 5%}? 239.001 HEAD TIMING ACCURACY AND LINEARITY: {@ .2 mS/div} 239.002 DISP B SEC/DIV : .2 mS 239.003 MESS Slew output for 1 marker per division. 239.004 5500 200uT 2% M1 S6 L 240.001 MEME 240.002 MESS 240.003 5500 uT M1 S6 S L 240.004 EVAL Is {linearity within 5%}? 241.001 HEAD TIMING ACCURACY AND LINEARITY: {@ .5 mS/div} 241.002 DISP B SEC/DIV : .5 mS 241.003 MESS Slew output for 1 marker per division. 241.004 5500 500uT 2% M1 S6 L 242.001 MEME 242.002 MESS 242.003 5500 uT M1 S6 S L 242.004 EVAL Is {linearity within 5%}? 243.001 HEAD TIMING ACCURACY AND LINEARITY: {@ 1 mS/div} 243.002 DISP B SEC/DIV : 1 mS 243.003 MESS Slew output for 1 marker per division. 243.004 5500 1mT 2% M1 S6 L 244.001 MEME 244.002 MESS 244.003 5500 mT M1 S6 S L 244.004 EVAL Is {linearity within 5%}? 245.001 HEAD TIMING ACCURACY AND LINEARITY: {@ 2 mS/div} 245.002 DISP B SEC/DIV : 2 mS 245.003 MESS Slew output for 1 marker per division. 245.004 5500 2mT 2% M1 S6 L 246.001 MEME 246.002 MESS 246.003 5500 mT M1 S6 S L 246.004 EVAL Is {linearity within 5%}? 247.001 HEAD TIMING ACCURACY AND LINEARITY: {@ 5 mS/div} 247.002 DISP B SEC/DIV : 5 mS 247.003 MESS Slew output for 1 marker per division. 247.004 5500 5mT 2% M1 S6 L 248.001 MEME 248.002 MESS 248.003 5500 uT M1 S6 S L 248.004 EVAL Is {linearity within 5%}? 249.001 HEAD TIMING ACCURACY AND LINEARITY: {@ 10 mS/div} 249.002 DISP B SEC/DIV : 10 mS 249.003 MESS Slew output for 1 marker per division. 249.004 5500 10mT 2% M1 S6 L 250.001 MEME 250.002 MESS 250.003 5500 mT M1 S6 S L 250.004 EVAL Is {linearity within 5%}? 251.001 HEAD TIMING ACCURACY AND LINEARITY: {@ 20 mS/div} 251.002 DISP B SEC/DIV : 20 mS 251.003 MESS Slew output for 1 marker per division. 251.004 5500 20mT 2% M1 S6 L 252.001 MEME 252.002 MESS 252.003 5500 mT M1 S6 S L 252.004 EVAL Is {linearity within 5%}? 253.001 HEAD TIMING ACCURACY AND LINEARITY: {@ 50 mS/div} 253.002 DISP B SEC/DIV : 50 mS 253.003 MESS Slew output for 1 marker per division. 253.004 5500 50mT 2% M1 S6 L 254.001 MEME 254.002 MESS 254.003 5500 mT M1 S6 S L 254.004 EVAL Is {linearity within 5%}? 255.001 RSLT =X10 MAG 255.002 DISP B SEC/DIV : 0.05 uS 255.002 DISP X10 Magnifier : On (knob out) 255.003 5500 10nT M4 S6 S L 255.004 DISP Use the Horizontal POSITION control to align 255.004 DISP the 1st time marker that is 25 nS beyond the 255.004 DISP start of the sweep with the 2nd vertical graticule line. 255.005 HEAD TIMING ACCURACY AND LINEARITY: {@ 10 nS/div} 255.006 MESS CHECK--Timing accuracy is within 3% (0.24 255.006 MESS division at the 10th vertical graticule line), and 255.006 MESS linearity is within 5% (0.1 division over any 2 of 255.006 MESS the center 8 divisions). Exclude any portion of 255.006 MESS the sweep past the 100th magnified division. 255.006 MESS 255.007 EVAL Is {timing accuracy within 3% (@ 10 nS/div)}? 256.001 MESS 256.002 5500 10nT M4 S6 S L 256.003 EVAL Is {linearity within 5%}? 257.001 HEAD TIMING ACCURACY AND LINEARITY: {@ .1 uS/div} 257.002 DISP B SEC/DIV : 0.1 uS 257.003 MESS Slew output for 1 marker per division. 257.004 5500 10nT 3% M4 S6 L 258.001 MEME 258.002 MESS 258.003 5500 nT M4 S6 S L 258.004 EVAL Is {linearity within 5%}? 259.001 HEAD TIMING ACCURACY AND LINEARITY: {@ .2 uS/div} 259.002 DISP B SEC/DIV : 0.2 uS 259.003 MESS Slew output for 1 marker per division. 259.004 5500 20nT 3% M1 S6 L 260.001 MEME 260.002 MESS 260.003 5500 nT M1 S6 S L 260.004 EVAL Is {linearity within 5%}? 261.001 HEAD TIMING ACCURACY AND LINEARITY: {@ .5 uS/div} 261.002 DISP B SEC/DIV : 0.5 uS 261.003 MESS Slew output for 1 marker per division. 261.004 5500 50nT 3% M1 S6 L 262.001 MEME 262.002 MESS 262.003 5500 nT M1 S6 S L 262.004 EVAL Is {linearity within 5%}? 263.001 HEAD TIMING ACCURACY AND LINEARITY: {@ 1 uS/div} 263.002 DISP B SEC/DIV : 1 uS 263.003 MESS Slew output for 1 marker per division. 263.004 5500 100nT 3% M1 S6 L 264.001 MEME 264.002 MESS 264.003 5500 nT M1 S6 S L 264.004 EVAL Is {linearity within 5%}? 265.001 HEAD TIMING ACCURACY AND LINEARITY: {@ 2 uS/div} 265.002 DISP B SEC/DIV : 2 uS 265.003 MESS Slew output for 1 marker per division. 265.004 5500 200nT 3% M1 S6 L 266.001 MEME 266.002 MESS 266.003 5500 nT M1 S6 S L 266.004 EVAL Is {linearity within 5%}? 267.001 HEAD TIMING ACCURACY AND LINEARITY: {@ 5 uS/div} 267.002 DISP B SEC/DIV : 5 uS 267.003 MESS Slew output for 1 marker per division. 267.004 5500 500nT 3% M1 S6 L 268.001 MEME 268.002 MESS 268.003 5500 nT M1 S6 S L 268.004 EVAL Is {linearity within 5%}? 269.001 HEAD TIMING ACCURACY AND LINEARITY: {@ 10 uS/div} 269.002 DISP B SEC/DIV : 10 uS 269.003 MESS Slew output for 1 marker per division. 269.004 5500 1uT 3% M1 S6 L 270.001 MEME 270.002 MESS 270.003 5500 uT M1 S6 S L 270.004 EVAL Is {linearity within 5%}? 271.001 HEAD TIMING ACCURACY AND LINEARITY: {@ 20 uS/div} 271.002 DISP B SEC/DIV : 20 uS 271.003 MESS Slew output for 1 marker per division. 271.004 5500 2uT 3% M1 S6 L 272.001 MEME 272.002 MESS 272.003 5500 uT M1 S6 S L 272.004 EVAL Is {linearity within 5%}? 273.001 HEAD TIMING ACCURACY AND LINEARITY: {@ 50 uS/div} 273.002 DISP B SEC/DIV : 50 uS 273.003 MESS Slew output for 1 marker per division. 273.004 5500 5uT 3% M1 S6 L 274.001 MEME 274.002 MESS 274.003 5500 uT M1 S6 S L 274.004 EVAL Is {linearity within 5%}? 275.001 HEAD TIMING ACCURACY AND LINEARITY: {@ .1 mS/div} 275.002 DISP B SEC/DIV : .1 mS 275.003 MESS Slew output for 1 marker per division. 275.004 5500 10uT 3% M1 S6 L 276.001 MEME 276.002 MESS 276.003 5500 uT M1 S6 S L 276.004 EVAL Is {linearity within 5%}? 277.001 HEAD TIMING ACCURACY AND LINEARITY: {@ .2 mS/div} 277.002 DISP B SEC/DIV : .2 mS 277.003 MESS Slew output for 1 marker per division. 277.004 5500 20uT 3% M1 S6 L 278.001 MEME 278.002 MESS 278.003 5500 uT M1 S6 S L 278.004 EVAL Is {linearity within 5%}? 279.001 HEAD TIMING ACCURACY AND LINEARITY: {@ .5 mS/div} 279.002 DISP B SEC/DIV : .5 mS 279.003 MESS Slew output for 1 marker per division. 279.004 5500 50uT 3% M1 S6 L 280.001 MEME 280.002 MESS 280.003 5500 uT M1 S6 S L 280.004 EVAL Is {linearity within 5%}? 281.001 HEAD TIMING ACCURACY AND LINEARITY: {@ 1 mS/div} 281.002 DISP B SEC/DIV : 1 mS 281.003 MESS Slew output for 1 marker per division. 281.004 5500 100uT 3% M1 S6 L 282.001 MEME 282.002 MESS 282.003 5500 uT M1 S6 S L 282.004 EVAL Is {linearity within 5%}? 283.001 HEAD TIMING ACCURACY AND LINEARITY: {@ 2 mS/div} 283.002 DISP B SEC/DIV : 2 mS 283.003 MESS Slew output for 1 marker per division. 283.004 5500 200uT 3% M1 S6 L 284.001 MEME 284.002 MESS 284.003 5500 uT M1 S6 S L 284.004 EVAL Is {linearity within 5%}? 285.001 HEAD TIMING ACCURACY AND LINEARITY: {@ 5 mS/div} 285.002 DISP B SEC/DIV : 5 mS 285.003 MESS Slew output for 1 marker per division. 285.004 5500 500uT 3% M1 S6 L 286.001 MEME 286.002 MESS 286.003 5500 uT M1 S6 S L 286.004 EVAL Is {linearity within 5%}? 287.001 HEAD TIMING ACCURACY AND LINEARITY: {@ 10 mS/div} 287.002 DISP B SEC/DIV : 10 mS 287.003 MESS Slew output for 1 marker per division. 287.004 5500 1mT 3% M1 S6 L 288.001 MEME 288.002 MESS 288.003 5500 mT M1 S6 S L 288.004 EVAL Is {linearity within 5%}? 289.001 HEAD TIMING ACCURACY AND LINEARITY: {@ 20 mS/div} 289.002 DISP B SEC/DIV : 20 mS 289.003 MESS Slew output for 1 marker per division. 289.004 5500 2mT 3% M1 S6 L 290.001 MEME 290.002 MESS 290.003 5500 mT M1 S6 S L 290.004 EVAL Is {linearity within 5%}? 291.001 HEAD TIMING ACCURACY AND LINEARITY: {@ 50 mS/div} 291.002 DISP B SEC/DIV : 50 mS 291.003 MESS Slew output for 1 marker per division. 291.004 5500 5mT 3% M1 S6 L 292.001 MEME 292.002 MESS 292.003 5500 mT M1 S6 S L 292.004 EVAL Is {linearity within 5%}? 293.001 HEAD {STORE DIFFERENTIAL CURSOR TIME DIFFERENCE} 293.002 DISP CH 1 AC-GND-DC : GND 293.002 DISP HORIZONTAL MODE : A 293.002 DISP A SEC/DIV : 0.1 mS 293.002 DISP X10 Magnifier : Off (knob in) 293.002 DISP STORE/NON STORE : STORE (button in) 293.002 DISP 1K/4K : 1 K (button in) 293.003 DISP Use the CH 1 POSITION control to center the base line 293.003 DISP vertically and the HORIZONTAL POSITION control to align 293.003 DISP the start of trace with the 1st vertical graticule line. 293.004 DISP Use the CURSORS control and SELECT C1/C2 switch to set 293.004 DISP one cursor exactly on the 2nd vertical graticule line 293.004 DISP and position the active cursor to the right using the 293.004 DISP CURSORS control until DeltaT readout displays 0.800 mS. 293.005 MESS CHECK--Graticule indication of cursor difference at the 293.005 MESS 10th vertical graticule line is within 0.16 division. 293.005 MESS 293.006 EVAL Is {cursor difference @ 10th graticule line +/- 0.16 div.}? 294.001 MESS 294.002 5500 0.1mT M1 S6 S L 294.003 DISP CH 1 AC-GND-DC : DC 294.003 DISP 294.003 DISP Align the 2nd time marker with the 2nd vertical 294.003 DISP graticule line using the Horizontal POSITION control. 294.003 DISP 294.003 DISP SAVE/CONTINUE : SAVE (button in) 294.004 DISP Use the CURSORS control and SELECT C1/C2 switch to set 294.004 DISP first cursor on the trailing edge of 2nd time marker. 294.004 DISP 294.004 DISP Press in the C1/C2 button to activate the second cursor. 294.005 DISP Set the second cursor on the trailing edge of the 10th 294.005 DISP time marker at the same voltage level as on the 294.005 DISP 2nd time marker. 294.005 DISP 294.005 DISP Note: Pulses with fast rise and fall times have only a 294.005 DISP few sample points and it may not be possible to place 294.005 DISP the cursors at exactiy the same voltage levels. 294.006 EVAL Is {DeltaT readout between 0.798 and 0.802 mS}? 295.001 DISP SAVE/CONTINUE :CONTINUE (button out) 295.001 DISP A SEC/DIV : 0.5 uS 295.002 5500 0.5uT M1 S6 S L 295.003 DISP Align the 2nd time marker with the 2nd vertical 295.003 DISP graticule line using the Horizontal POSITION control. 295.003 DISP 295.003 DISP Note: Allow the points to accumulate for a few seconds 295.003 DISP before saving the display. 295.004 DISP SAVE/CONTINUE : SAVE (button in) 295.005 DISP Use the CURSORS control and SELECT C1/C2 switch to set 295.005 DISP first cursor on the trailing edge of 2nd time marker. 295.005 DISP 295.005 DISP Press in the C1/C2 button to activate the second cursor. 295.005 DISP 295.005 DISP Set the second cursor on the trailing edge of the 10th 295.005 DISP time marker at the same voltage level as on the 295.005 DISP 2nd time marker. 295.006 EVAL Is {DeltaT readout between 3.948 and 4.052 uS}? 296.001 HEAD {VARIABLE RANGE AND SWEEP SEPARATION} 296.002 DISP A and B SEC/DIV : 0.2 mS 296.002 DISP SEC/DIV Variable : Fully CCW 296.002 DISP STORE/NON STORE : NON STORE (button out) 296.003 5500 0.5mT M1 S6 S L 296.004 EVAL Are {time markers 1 division or less}? 297.001 DISP CH 1 AC-GND-DC : GND 297.001 DISP SEC/DIV Variable : CAL detent 297.001 DISP HORIZONTAL MODE : BOTH 297.001 DISP 297.001 DISP Use the Channel 1 POSITION control to set 297.001 DISP the A Sweep at the center horizontal graticule line. 297.002 MESS CHECK--The B Sweep can be positioned more than 3.5 div. 297.002 MESS above and below the A Sweep when the A/B SWP SEP control 297.002 MESS is rotated fully CW and CCW respectively. 297.002 MESS 297.003 EVAL Can {B Sweep be positioned correctly (>3.5 div) from A Sweep}? 298.001 MESS 298.002 HEAD {DELAY TIME DIFFERENTIAL ACCURACY} 298.003 HEAD DELAY TIME DIFFERENTIAL ACCURACY: {@ 0.2 mS/div} 298.004 DISP Use the Horizontal POSITION control to align 298.004 DISP the start of the A Sweep with the 1st vertical 298.004 DISP graticule line. 298.004 DISP 298.004 DISP B DELAY TIME POSITION : Fully CCW 298.005 MESS CHECK--Intensified portion of the trace starts 298.005 MESS within 0.5 division of the start of the sweep. 298.005 MESS 298.006 EVAL Does {intensified portion start within 0.5 division}? 299.001 MESS Rotate the B DELAY TIME POSITION control fully CW. 299.001 MESS 299.001 MESS CHECK--Intensified portion of the trace is past 299.001 MESS the 11th vertical graticule line. 299.001 MESS 299.002 EVAL Is {intensified portion past the 11th graticule line}? 300.001 MESS 300.002 HEAD DELAY TIME DIFFERENTIAL ACCURACY: {@ 0.5 mS/div} 300.003 DISP A and B SEC/DIV : 0.5 uS 300.004 DISP Use the Horizontal POSITION control to align 300.004 DISP the start of the A Sweep with the 1st vertical 300.004 DISP graticule line. 300.004 DISP 300.004 DISP B DELAY TIME POSITION : Fully CCW 300.005 MESS CHECK--Intensified portion of the trace starts 300.005 MESS within 0.5 division of the start of the sweep. 300.005 MESS 300.006 EVAL Does {intensified portion start within 0.5 division}? 301.001 MESS Rotate the B DELAY TIME POSITION control fully CW. 301.001 MESS 301.001 MESS CHECK--Intensified portion of the trace is past 301.001 MESS the 11th vertical graticule line. 301.001 MESS 301.002 EVAL Is {intensified portion past the 11th graticule line}? 302.001 MESS 302.002 DISP CH 1 AC-GND-DC : DC 302.002 DISP B SEC/DIV : 0.05 uS 302.002 DISP B DELAY TIME POSITION : Fully CCW 302.003 5500 0.5uT M1 S6 S L 302.004 DISP Rotate the B DELAY TIME POSITION control 302.004 DISP so that the top of the 2nd time marker on the B Sweep 302.004 DISP is aligned with a selected reference vertical line. 302.005 MEMI Enter the DLY> readout. 302.006 MEME 302.007 DISP Rotate the B DELAY TIME POSITION control 302.007 DISP fully clockwise until the top of the 10th time 302.007 DISP marker on the B Sweep is aligned with the same 302.007 DISP selected reference vertical line as before. 302.008 MEMI Enter the DLY> readout. 302.009 MATH MEM = MEM - MEM1 302.010 ACC 4.000uS 0.0052U 302.011 MEME 302.012 MEMC 0.05 uS 0.052U 303.001 DISP B SEC/DIV : 0.5 uS 303.002 5500 5uT M1 S6 S L 303.003 DISP Rotate the B DELAY TIME POSITION control 303.003 DISP so that the top of the 2nd time marker on the B Sweep 303.003 DISP is aligned with a selected reference vertical line. 303.004 MEMI Enter the DLY> readout. 303.005 MEME 303.006 DISP Rotate the B DELAY TIME POSITION control 303.006 DISP fully clockwise until the top of the 10th time 303.006 DISP marker on the B Sweep is aligned with the same 303.006 DISP selected reference vertical line as before. 303.007 MEMI Enter the DLY> readout. 303.008 MATH MEM = MEM - MEM1 303.009 ACC 40.00 0.052U 303.010 MEME 303.011 MEMC 0.5 uS 0.52U 304.001 DISP B SEC/DIV : 5 uS 304.002 5500 50uT M1 S6 S L 304.003 DISP Rotate the B DELAY TIME POSITION control 304.003 DISP so that the top of the 2nd time marker on the B Sweep 304.003 DISP is aligned with a selected reference vertical line. 304.004 MEMI Enter the DLY> readout. 304.005 MEME 304.006 DISP Rotate the B DELAY TIME POSITION control 304.006 DISP fully clockwise until the top of the 10th time 304.006 DISP marker on the B Sweep is aligned with the same 304.006 DISP selected reference vertical line as before. 304.007 MEMI Enter the DLY> readout. 304.008 MATH MEM = MEM - MEM1 304.009 ACC 400.0 0.52U 304.010 MEME 304.011 MEMC 5 uS 5.2U 305.001 DISP B SEC/DIV : 50 uS 305.002 5500 500uT M1 S6 S L 305.003 DISP Rotate the B DELAY TIME POSITION control 305.003 DISP so that the top of the 2nd time marker on the B Sweep 305.003 DISP is aligned with a selected reference vertical line. 305.004 MEMI Enter the DLY> readout. 305.005 MEME 305.006 DISP Rotate the B DELAY TIME POSITION control 305.006 DISP fully clockwise until the top of the 10th time 305.006 DISP marker on the B Sweep is aligned with the same 305.006 DISP selected reference vertical line as before. 305.007 MEMI Enter the DLY> readout. 305.008 MATH MEM = MEM - MEM1 305.009 ACC 4.000 0.0052U 305.010 MEME 305.011 MEMC 0.05 mS 0.052U 306.001 DISP B SEC/DIV : .5 mS 306.002 5500 5mT M1 S6 S L 306.003 DISP Rotate the B DELAY TIME POSITION control 306.003 DISP so that the top of the 2nd time marker on the B Sweep 306.003 DISP is aligned with a selected reference vertical line. 306.004 MEMI Enter the DLY> readout. 306.005 MEME 306.006 DISP Rotate the B DELAY TIME POSITION control 306.006 DISP fully clockwise until the top of the 10th time 306.006 DISP marker on the B Sweep is aligned with the same 306.006 DISP selected reference vertical line as before. 306.007 MEMI Enter the DLY> readout. 306.008 MATH MEM = MEM - MEM1 306.009 ACC 40.00 0.052U 306.010 MEME 306.011 MEMC 0.5 mS 0.52U 307.001 DISP B SEC/DIV : 5 mS 307.002 5500 50mT M1 S6 S L 307.003 DISP Rotate the B DELAY TIME POSITION control 307.003 DISP so that the top of the 2nd time marker on the B Sweep 307.003 DISP is aligned with a selected reference vertical line. 307.004 MEMI Enter the DLY> readout. 307.005 MEME 307.006 DISP Rotate the B DELAY TIME POSITION control 307.006 DISP fully clockwise until the top of the 10th time 307.006 DISP marker on the B Sweep is aligned with the same 307.006 DISP selected reference vertical line as before. 307.007 MEMI Enter the DLY> readout. 307.008 MATH MEM = MEM - MEM1 307.009 ACC 400.0 0.52U 307.010 MEME 307.011 MEMC 5 mS 5.2U 308.001 DISP B SEC/DIV : 50 mS 308.002 5500 500mT M1 S6 S L 308.003 DISP Rotate the B DELAY TIME POSITION control 308.003 DISP so that the top of the 2nd time marker on the B Sweep 308.003 DISP is aligned with a selected reference vertical line. 308.004 MEMI Enter the DLY> readout. 308.005 MEME 308.006 DISP Rotate the B DELAY TIME POSITION control 308.006 DISP fully clockwise until the top of the 10th time 308.006 DISP marker on the B Sweep is aligned with the same 308.006 DISP selected reference vertical line as before. 308.007 MEMI Enter the DLY> readout. 308.008 MATH MEM = MEM - MEM1 308.009 ACC 4.000 0.0052U 308.010 MEME 308.011 MEMC 0.05 S 0.052U 309.001 HEAD {DELAY JITTER} 309.002 DISP A SEC/DIV : 0.5 mS 309.002 DISP B SEC/DIV : 0.5 uS 309.002 DISP HORIZONTAL MODE : B 309.003 5500 50uT M1 S6 S L 309.004 MESS Rotate the B DELAY TIME POSITION control CCW 309.004 MESS to position a time marker within the graticule area 309.004 MESS for each major dial division and check that the jitter 309.004 MESS on the leading edge of the time marker does not exceed 309.004 MESS 2 divisions. Disregard slow drift. 309.004 MESS 309.005 EVAL [N] Does {jitter ever exceed 2 divisions}? 310.001 HEAD {POSITION RANGE} 310.002 DISP HORIZONTAL MODE : A 310.002 DISP A SEC/DIV : 10 uS 310.003 5500 10uT M1 S6 S L 310.004 MESS CHECK--Start of the sweep can be positioned 310.004 MESS to the right of the center vertical graticule line by 310.004 MESS rotating the Horizontal POSITION control fully 310.004 MESS clockwise. 310.004 MESS 310.005 EVAL Is {start of sweep to the right of center graticule line}? 311.001 5500 10uT M1 S6 S L 311.002 MESS CHECK--The 11th time marker can be 311.002 MESS positioned to the left of the center vertical 311.002 MESS graticule line by rotating the Horizontal 311.002 MESS POSITION control fully counterclockwise. 311.002 MESS 311.003 EVAL Is {11th time marker left of center graticule line}? 312.001 MESS 312.002 RSLT =X10 MAG 312.003 5500 50uT M1 S6 S L 312.004 DISP Align the 3rd time marker with the center 312.004 DISP vertical graticule line using the Horizontal 312.004 DISP POSITION control. 312.004 DISP 312.004 DISP Set the X10 Magnifier knob to On (knob out). 312.005 MESS CHECK--Magnified time marker can be 312.005 MESS positioned to the left of the center vertical 312.005 MESS graticule line by rotating the Horizontal 312.005 MESS POSITION control fully counterclockwise. 312.005 MESS 312.006 EVAL Is {MAG time marker to the left of center graticule line}? 313.001 5500 50uT M1 S6 S L 313.002 MESS CHECK--Start of the sweep can be positioned 313.002 MESS to the right of the center vertical graticule line by 313.002 MESS rotating the Horizontal POSITION control fully 313.002 MESS clockwise. 313.002 MESS 313.003 EVAL Is {start of sweep to the right of center graticule line}? 314.001 MESS 314.002 HEAD {STORE EXPANSION RANGE} 314.003 DISP A SEC/DlV : 0.1 uS 314.003 DISP X10 Magnifier : Off (knob in) 314.004 5500 10nT M4 S6 S L 314.005 DISP Use the Horizontal POSITION control to align 314.005 DISP the start of the A Sweep with the 1st vertical 314.005 DISP graticule line. 314.005 DISP 314.005 DISP STORE/NON STORE : STORE (button in) 314.005 DISP 314.005 DISP X10 MAG : ON (knob out) 314.006 EVAL Are {time markers 1 division apart}? 315.001 HEAD {4K TO 1K DISPLAY COMPRESS} 315.002 DISP A SEC/DlV : 50 uS 315.002 DISP X10 MAG : OFF (knob in) 315.002 DISP 1K/4K : 4K (button out) 315.003 5500 0.1mT M1 S6 S L 315.004 EVAL Are {time markers 2 divisions apart}? 316.001 5500 0.1mT M1 S6 S L 316.002 MESS Rotate the SEC/DIV Variable control out of detent. 316.002 MESS 316.002 MESS CHECK--For 2 time markers per division over 316.002 MESS the center 8 divisions. 316.002 MESS 316.002 MESS 316.003 EVAL Are there {2 time markers/division over center 8 divisions}? 317.001 HEAD {NON STORE SWEEP LENGTH} 317.002 DISP SEC/DIV Variable : CAL detent 317.002 DISP STORE/NON STORE : NON STORE (button out) 317.002 DISP 317.002 DISP Use the Horizontal POSITION control to align 317.002 DISP the start of the A Sweep with the 1st vertical 317.002 DISP graticule line. 317.003 MESS CHECK--End of the sweep is to the right of 317.003 MESS the 11th vertical graticule line. 317.003 MESS 317.004 EVAL Is {end of sweep to the right of 11th graticule line}? 318.001 MESS 318.002 HEAD {X GAIN} 318.003 DISP MAKE THE FOLLOWING CONNECTIONS... 318.003 DISP 318.003 DISP 5500 SCOPE OUTPUT ------------CH 1 INPUT 318.004 DISP X-Y : ON (button in) 318.004 DISP CH 1 VOLTS/DIV : 10 mV 318.004 DISP HORIZONTAL POSITION : Midrange 318.005 5500 50mVpp 1kH ZQ S6 S 318.006 DISP Use the Channel 2 POSITION and Horizontal 318.006 DISP POSITION controls to center the display. 318.007 EVAL Is {display between 4.85 to 5.15 horizontal divisions}? 319.001 HEAD {X BANDWIDTH} 319.002 DISP MAKE THE FOLLOWING CONNECTIONS... 319.002 DISP 319.002 DISP 5500 SCOPE OUTPUT ----------50 Ohm--CH 1 INPUT 319.003 DISP STORE/NON STORE : NON STORE (button out) 319.004 MESS Slew the output for a 5 division horizontal display. 319.005 5500 50mVpp 50kH LS S6 N L 319.006 MESS Slew the output for a 3.5 division horizontal display. 319.007 5500 2.5MH -1000% mVpp LS S6 L 320.001 HEAD INITIAL CONTROL SETTINGS 320.002 DISP Set the following VERTICAL functions... 320.002 DISP 320.002 DISP POSITION (both) : Midrange 320.002 DISP VERTICAL MODE : CH 1 320.002 DISP X-Y : Off (button out) 320.002 DISP BW LIMIT : Off (button in) 320.003 DISP Set the following VERTICAL functions... 320.003 DISP 320.003 DISP CH 1 VOLTS/DIV : 5 mV 320.003 DISP CH 2 VOLTS/DIV : 50 mV 320.003 DISP VOLTS/DIV Variable (both) : CAL detent 320.003 DISP INVERT : Off (button out) 320.003 DISP AC-GND-DC (both) : DC 320.004 DISP Set the following HORIZONTAL fuctions... 320.004 DISP 320.004 DISP POSITION : Midrange 320.004 DISP HORIZONTAL MODE : A 320.004 DISP A SEC/DIV : 0.2 uS 320.004 DISP SEC/DlV Variable : CAL detent 320.004 DISP X10 Magnifier : Off (knob in) 320.004 DISP B DELAY TIME POSITION : Fully CCW 320.005 DISP Set the following B TRIGGER functions... 320.005 DISP 320.005 DISP SLOPE : OUT 320.005 DISP LEVEL : Midrange 320.006 DISP Set the following A TRIGGER functions... 320.006 DISP 320.006 DISP VAR HOLDOFF : NORM 320.006 DISP MODE : P-P AUTO 320.006 DISP SLOPE : OUT 320.006 DISP LEVEL : Midrange 320.007 DISP Set the following A TRIGGER functions... 320.007 DISP 320.007 DISP HF REJECT : OFF 320.007 DISP A&B INT : CH 1 320.007 DISP A SOURCE : INT 320.007 DISP A EXT COUPLING : DC 320.008 DISP Set the following STORAGE funtions... 320.008 DISP 320.008 DISP STORE/NON STORE : NON STORE (button out) 320.008 DISP SAVE/CONTINUE : CONTINUE (button out) 320.008 DISP PRETRIG/POST TRIG : POST TRIG (button out) 320.009 DISP Set the following STORAGE functions... 320.009 DISP 320.009 DISP ROLL/SCAN : SCAN (button out) 320.009 DISP 1K/4K : 4K (button out) 320.009 DISP POSITION CURS/ : POSITION CURS (button in) 320.009 DISP SELECT WAVEFORM 320.010 DISP Set the following WAVEFORM functions... 320.010 DISP 320.010 DISP REFERENCE/ : WAVEFORM REFERENCE (button in) 320.010 DISP MENU SELECT 320.011 HEAD {INTERNAL A AND B TRIGGERING} 320.012 HEAD INTERNAL A AND B TRIGGERING: {CH 1 @ 10 MHz} 320.013 RSLT = 320.014 RSLT =A Sweep 320.015 MESS Slew output for a 3.5 division display. 320.016 5500 17.5mVpp 10MH LS S6 N L 320.017 MATH M[1] = MEM 320.018 MESS 320.019 DISP CH 1 VOLTS/DIV : 50 mV 320.019 DISP 320.019 DISP Throughout the following tests, adjust the 320.019 DISP TRIGGER LEVEL as needed to obtain a triggered display. 320.020 EVAL Can {triggered display be obtained (P-P AUTO/+SLOPE)}? 321.001 MATH MEM = M[1] 321.002 5500 10MH mVpp LS S6 S L 321.003 MESS Set the following A TRIGGER functions... 321.003 MESS 321.003 MESS SLOPE : IN 321.004 EVAL Can {triggered display be obtained (P-P AUTO/-SLOPE)}? 322.001 MATH MEM = M[1] 322.002 5500 10MH mVpp LS S6 S L 322.003 MESS Set the following A TRIGGER functions... 322.003 MESS 322.003 MESS MODE : NORM 322.004 EVAL Can {triggered display be obtained (NORM/-SLOPE)}? 323.001 MATH MEM = M[1] 323.002 5500 10MH mVpp LS S6 S L 323.003 MESS Set the following A TRIGGER functions... 323.003 MESS 323.003 MESS SLOPE : OUT 323.004 EVAL Can {triggered display be obtained (NORM/+SLOPE)}? 324.001 MESS 324.002 RSLT =B Sweep 324.003 DISP HORIZONTAL MODE : B 324.004 MATH MEM = M[1] 324.005 5500 10MH mVpp LS S6 S L 324.006 MESS CHECK--Stable display can be obtained by 324.006 MESS adjusting the B TRIGGER LEVEL control to a 324.006 MESS position other than the B RUNS AFTER DLY 324.006 MESS position for both the OUT and IN positions of the 324.006 MESS B TRIGGER SLOPE switch 324.006 MESS 324.007 EVAL Can {triggered display be obtained (+SLOPE)}? 325.001 MESS 325.002 MATH MEM = M[1] 325.003 5500 10MH mVpp LS S6 S L 325.004 EVAL Can {triggered display be obtained (-SLOPE)}? 326.001 HEAD INTERNAL A AND B TRIGGERING: {CH 2 @ 10 MHz} 326.002 RSLT = 326.003 DISP MAKE THE FOLLOWING CONNECTIONS... 326.003 DISP 326.003 DISP 5500 SCOPE OUTPUT -----------50 Ohm--CH 2 INPUT 326.003 DISP 326.003 DISP 326.003 DISP VERTICAL MODE : CH 2 326.003 DISP HORIZONTAL MODE : A 326.003 DISP A&B INT : CH 2 326.004 RSLT =A Sweep 326.005 DISP Set the following A TRIGGER functions... 326.005 DISP 326.005 DISP MODE : P-P AUTO 326.005 DISP SLOPE : OUT 326.006 MESS Slew output for a 3.5 division display. 326.007 5500 17.5mVpp 10MH LS S6 N L 326.008 MATH M[1] = MEM 326.009 MESS 326.010 DISP CH 2 VOLTS/DIV : 50 mV 326.011 EVAL Can {triggered display be obtained (P-P AUTO/+SLOPE)}? 327.001 MATH MEM = M[1] 327.002 5500 10MH mVpp LS S6 S L 327.003 MESS Set the following A TRIGGER functions... 327.003 MESS 327.003 MESS SLOPE : IN 327.004 EVAL Can {triggered display be obtained (P-P AUTO/-SLOPE)}? 328.001 MATH MEM = M[1] 328.002 5500 10MH mVpp LS S6 S L 328.003 MESS Set the following A TRIGGER functions... 328.003 MESS 328.003 MESS MODE : NORM 328.004 EVAL Can {triggered display be obtained (NORM/-SLOPE)}? 329.001 MATH MEM = M[1] 329.002 5500 10MH mVpp LS S6 S L 329.003 MESS Set the following A TRIGGER functions... 329.003 MESS 329.003 MESS SLOPE : OUT 329.004 EVAL Can {triggered display be obtained (NORM/+SLOPE)}? 330.001 MESS 330.002 RSLT =B Sweep 330.003 DISP HORIZONTAL MODE : B 330.004 MATH MEM = M[1] 330.005 5500 10MH mVpp LS S6 S L 330.006 MESS CHECK--Stable display can be obtained by 330.006 MESS adjusting the B TRIGGER LEVEL control to a 330.006 MESS position other than the B RUNS AFTER DLY 330.006 MESS position for both the OUT and IN positions of the 330.006 MESS B TRIGGER SLOPE switch. 330.006 MESS 330.007 EVAL Can {triggered display be obtained (+SLOPE)}? 331.001 MESS 331.002 MATH MEM = M[1] 331.003 5500 10MH mVpp LS S6 S L 331.004 EVAL Can {triggered display be obtained (-SLOPE)}? 332.001 HEAD INTERNAL A AND B TRIGGERING: {CH 2 @ 60 MHz} 332.002 RSLT = 332.003 RSLT =A Sweep 332.004 DISP HORIZONTAL MODE : A 332.004 DISP A SEC/DIV : 0.1 uS 332.004 DISP X10 Magnifier : On (knob out) 332.005 MESS Slew output for a 1 division display. 332.006 5500 50mVpp 60MH LS S6 N L 332.007 MATH M[1] = MEM 332.008 MESS 332.009 DISP Set the following A TRIGGER functions... 332.009 DISP 332.009 DISP MODE : P-P AUTO 332.009 DISP SLOPE : OUT 332.010 EVAL Can {triggered display be obtained (P-P AUTO/+SLOPE)}? 333.001 MATH MEM = M[1] 333.002 5500 60MH mVpp LS S6 S L 333.003 MESS Set the following A TRIGGER functions... 333.003 MESS 333.003 MESS SLOPE : IN 333.004 EVAL Can {triggered display be obtained (P-P AUTO/-SLOPE)}? 334.001 MATH MEM = M[1] 334.002 5500 60MH mVpp LS S6 S L 334.003 MESS Set the following A TRIGGER functions... 334.003 MESS 334.003 MESS MODE : NORM 334.004 EVAL Can {triggered display be obtained (NORM/-SLOPE)}? 335.001 MATH MEM = M[1] 335.002 5500 60MH mVpp LS S6 S L 335.003 MESS Set the following A TRIGGER functions... 335.003 MESS 335.003 MESS SLOPE : OUT 335.004 EVAL Can {triggered display be obtained (NORM/+SLOPE)}? 336.001 MESS 336.002 RSLT =B Sweep 336.003 DISP HORIZONTAL MODE : B 336.004 MATH MEM = M[1] 336.005 5500 60MH mVpp LS S6 S L 336.006 MESS CHECK--Stable display can be obtained by 336.006 MESS adjusting the B TRIGGER LEVEL control to a 336.006 MESS position other than the B RUNS AFTER DLY 336.006 MESS position for both the OUT and IN positions of the 336.006 MESS B TRIGGER SLOPE switch. 336.006 MESS 336.007 EVAL Can {triggered display be obtained (+SLOPE)}? 337.001 MESS 337.002 MATH MEM = M[1] 337.003 5500 60MH mVpp LS S6 S L 337.004 EVAL Can {triggered display be obtained (-SLOPE)}? 338.001 HEAD INTERNAL A AND B TRIGGERING: {CH 1 @ 60 MHz} 338.002 RSLT = 338.003 RSLT =A Sweep 338.004 DISP MAKE THE FOLLOWING CONNECTIONS... 338.004 DISP 338.004 DISP 5500 SCOPE OUTPUT -----------50 Ohm--CH 1 INPUT 338.004 DISP 338.004 DISP VERTICAL MODE : CH 1 338.004 DISP HORIZONTAL MODE : A 338.004 DISP A&B INT : CH 1 338.005 MESS Slew output for a 1 division display. 338.006 5500 50mVpp 60MH LS S6 N L 338.007 MATH M[1] = MEM 338.008 MESS 338.009 DISP Set the following A TRIGGER functions... 338.009 DISP 338.009 DISP MODE : P-P AUTO 338.009 DISP SLOPE : OUT 338.010 EVAL Can {triggered display be obtained (P-P AUTO/+SLOPE)}? 339.001 MATH MEM = M[1] 339.002 5500 60MH mVpp LS S6 S L 339.003 MESS Set the following A TRIGGER functions... 339.003 MESS 339.003 MESS SLOPE : IN 339.004 EVAL Can {triggered display be obtained (P-P AUTO/-SLOPE)}? 340.001 MATH MEM = M[1] 340.002 5500 60MH mVpp LS S6 S L 340.003 MESS Set the following A TRIGGER functions... 340.003 MESS 340.003 MESS MODE : NORM 340.004 EVAL Can {triggered display be obtained (NORM/-SLOPE)}? 341.001 MATH MEM = M[1] 341.002 5500 60MH mVpp LS S6 S L 341.003 MESS Set the following A TRIGGER functions... 341.003 MESS 341.003 MESS SLOPE : OUT 341.004 EVAL Can {triggered display be obtained (NORM/+SLOPE)}? 342.001 MESS 342.002 RSLT =B Sweep 342.003 DISP HORIZONTAL MODE : B 342.004 MATH MEM = M[1] 342.005 5500 60MH mVpp LS S6 S L 342.006 MESS CHECK--Stable display can be obtained by 342.006 MESS adjusting the B TRIGGER LEVEL control to a 342.006 MESS position other than the B RUNS AFTER DLY 342.006 MESS position for both the OUT and IN positions of the 342.006 MESS B TRIGGER SLOPE switch. 342.006 MESS 342.007 EVAL Can {triggered display be obtained (+SLOPE)}? 343.001 MESS 343.002 EVAL Can {triggered display be obtained (-SLOPE)}? 344.001 HEAD INTERNAL A AND B TRIGGERING: {CH 1 @ 100 MHz} 344.002 RSLT = 344.003 RSLT =A Sweep 344.004 DISP HORIZONTAL MODE : A 344.004 DISP A SEC/DIV : 0.05 uS 344.005 MESS Slew output for a 1.5 division display. 344.006 5500 75mVpp 100MH LS S6 N L 344.007 MATH M[1] = MEM 344.008 MESS 344.009 DISP Set the following A TRIGGER functions... 344.009 DISP 344.009 DISP MODE : P-P AUTO 344.009 DISP SLOPE : OUT 344.010 EVAL Can {triggered display be obtained (P-P AUTO/+SLOPE)}? 345.001 MATH MEM = M[1] 345.002 5500 100MH mVpp LS S6 S L 345.003 MESS Set the following A TRIGGER functions... 345.003 MESS 345.003 MESS SLOPE : IN 345.004 EVAL Can {triggered display be obtained (P-P AUTO/-SLOPE)}? 346.001 MATH MEM = M[1] 346.002 5500 100MH mVpp LS S6 S L 346.003 MESS Set the following A TRIGGER functions... 346.003 MESS 346.003 MESS MODE : NORM 346.004 EVAL Can {triggered display be obtained (NORM/-SLOPE)}? 347.001 MATH MEM = M[1] 347.002 5500 100MH mVpp LS S6 S L 347.003 MESS Set the following A TRIGGER functions... 347.003 MESS 347.003 MESS SLOPE : OUT 347.004 EVAL Can {triggered display be obtained (NORM/+SLOPE)}? 348.001 MESS 348.002 RSLT =B Sweep 348.003 DISP HORIZONTAL MODE : B 348.004 MATH MEM = M[1] 348.005 5500 100MH mVpp LS S6 S L 348.006 MESS CHECK--Stable display can be obtained by 348.006 MESS adjusting the B TRIGGER LEVEL control to a 348.006 MESS position other than the B RUNS AFTER DLY 348.006 MESS position for both the OUT and IN positions of the 348.006 MESS B TRIGGER SLOPE switch. 348.006 MESS 348.007 EVAL Can {triggered display be obtained (+SLOPE)}? 349.001 MATH MEM = M[1] 349.002 5500 100MH mVpp LS S6 S L 349.003 MESS 349.004 EVAL Can {triggered display be obtained (-SLOPE)}? 350.001 HEAD INTERNAL A AND B TRIGGERING: {CH 2 @ 100 MHz} 350.002 RSLT = 350.003 RSLT =A Sweep 350.004 DISP MAKE THE FOLLOWING CONNECTIONS... 350.004 DISP 350.004 DISP 5500 SCOPE OUTPUT -----------50 Ohm--CH 2 INPUT 350.004 DISP 350.005 DISP VERTICAL MODE : CH 2 350.005 DISP HORIZONTAL MODE : A 350.005 DISP A&B INT : CH 2 350.006 MESS Slew output for a 1.5 division display. 350.007 5500 75mVpp 100MH LS S6 N L 350.008 MATH M[1] = MEM 350.009 MESS 350.010 DISP Set the following A TRIGGER functions... 350.010 DISP 350.010 DISP MODE : P-P AUTO 350.010 DISP SLOPE : OUT 350.011 EVAL Can {triggered display be obtained (P-P AUTO/+SLOPE)}? 351.001 MATH MEM = M[1] 351.002 5500 100MH mVpp LS S6 S L 351.003 MESS Set the following A TRIGGER functions... 351.003 MESS 351.003 MESS SLOPE : IN 351.004 EVAL Can {triggered display be obtained (P-P AUTO/-SLOPE)}? 352.001 MATH MEM = M[1] 352.002 5500 100MH mVpp LS S6 S L 352.003 MESS Set the following A TRIGGER functions... 352.003 MESS 352.003 MESS MODE : NORM 352.004 EVAL Can {triggered display be obtained (NORM/-SLOPE)}? 353.001 MATH MEM = M[1] 353.002 5500 100MH mVpp LS S6 S L 353.003 MESS Set the following A TRIGGER functions... 353.003 MESS 353.003 MESS SLOPE : OUT 353.004 EVAL Can {triggered display be obtained (NORM/+SLOPE)}? 354.001 MESS 354.002 RSLT =B Sweep 354.003 DISP HORIZONTAL MODE : B 354.004 MATH MEM = M[1] 354.005 5500 100MH mVpp LS S6 S L 354.006 MESS CHECK--Stable display can be obtained by 354.006 MESS adjusting the B TRIGGER LEVEL control to a 354.006 MESS position other than the B RUNS AFTER DLY 354.006 MESS position for both the OUT and IN positions of the 354.006 MESS B TRIGGER SLOPE switch. 354.006 MESS 354.007 EVAL Can {triggered display be obtained (+SLOPE)}? 355.001 MATH MEM = M[1] 355.002 5500 100MH mVpp LS S6 S L 355.003 MESS 355.004 EVAL Can {triggered display be obtained (-SLOPE)}? 356.001 HEAD {HF REJECT A TRIGGERING} 356.002 DISP MAKE THE FOLLOWING CONNECTIONS... 356.002 DISP 356.002 DISP 5500 SCOPE OUTPUT -----------50 Ohm--CH 1 INPUT 356.003 RSLT =CH 1 356.004 DISP VERTICAL MODE : CH 1 356.004 DISP VOLTS/DIV (both) : 50 mV 356.004 DISP HORIZONTAL MODE : A 356.004 DISP A SEC/DIV : 5 uS 356.004 DISP X10 Magnifier : OFF 356.004 DISP A TRIGGER Mode : NORM 356.004 DISP A TRIGGER LEVEL : Midrange 356.004 DISP A&B INT : CH 1 356.005 MESS Slew the output for a 1 division display. 356.006 5500 50mVpp 250kH LS S6 N L 356.007 MATH M[1] = MEM 356.008 MESS 356.009 DISP Adjust the A TRIGGER LEVEL control for a 356.009 DISP stable display. 356.009 DISP 356.009 DISP Set HF REJECT switch to ON. 356.010 EVAL [N] Can {triggered display be obtained (P-P AUTO/+SLOPE)}? 357.001 MATH MEM = M[1] 357.002 5500 250kH mVpp LS S6 S L 357.003 MESS Set the following A TRIGGER functions... 357.003 MESS 357.003 MESS SLOPE : IN 357.004 EVAL [N] Can {triggered display be obtained (P-P AUTO/-SLOPE)}? 358.001 MATH MEM = M[1] 358.002 5500 250kH mVpp LS S6 S L 358.003 MESS Set the following A TRIGGER functions... 358.003 MESS 358.003 MESS MODE : NORM 358.004 EVAL [N] Can {triggered display be obtained (NORM/-SLOPE)}? 359.001 MATH MEM = M[1] 359.002 5500 250kH mVpp LS S6 S L 359.003 MESS Set the following A TRIGGER functions... 359.003 MESS 359.003 MESS SLOPE : OUT 359.004 EVAL [N] Can {triggered display be obtained (NORM/+SLOPE)}? 360.001 MESS 360.002 RSLT =CH 2 360.003 DISP VERTICAL MODE : CH 2 360.003 DISP A&B INT : CH 2 360.003 DISP A TRIGGER Mode : NORM 360.004 DISP MAKE THE FOLLOWING CONNECTIONS... 360.004 DISP 360.004 DISP 5500 SCOPE OUTPUT -----------50 Ohm--CH 2 INPUT 360.004 DISP 360.005 MESS Slew the output for a 1 division display. 360.006 5500 50mVpp 250kH LS S6 S L 360.007 MATH M[1] = MEM 360.008 MESS 360.009 DISP Adjust the A TRIGGER LEVEL control for a 360.009 DISP stable display. 360.009 DISP 360.009 DISP Set HF REJECT switch to ON. 360.010 EVAL [N] Can {triggered display be obtained (P-P AUTO/+SLOPE)}? 361.001 MATH MEM = M[1] 361.002 5500 250kH mVpp LS S6 S L 361.003 MESS Set the following A TRIGGER functions... 361.003 MESS 361.003 MESS SLOPE : IN 361.004 EVAL [N] Can {triggered display be obtained (P-P AUTO/-SLOPE)}? 362.001 MATH MEM = M[1] 362.002 5500 250kH mVpp LS S6 S L 362.003 MESS Set the following A TRIGGER functions... 362.003 MESS 362.003 MESS MODE : NORM 362.004 EVAL [N] Can {triggered display be obtained (NORM/-SLOPE)}? 363.001 MATH MEM = M[1] 363.002 5500 250kH mVpp LS S6 S L 363.003 MESS Set the following A TRIGGER functions... 363.003 MESS 363.003 MESS SLOPE : OUT 363.004 EVAL [N] Can {triggered display be obtained (NORM/+SLOPE)}? 364.001 MESS 364.002 HEAD {EXTERNAL TRIGGERING} 364.003 DISP VERTICAL MODE : CH 1 364.003 DISP CH 1 VOLTS/DIV : 5 mV 364.003 DISP HORIZONTAL MODE : A 364.003 DISP A SEC/DIV : 0.1 uS 364.003 DISP HF REJECT : OFF 364.003 DISP A&B INT : CH 1 364.003 DISP A SOURCE : EXT 364.004 DISP Connect the 5500 SCOPE OUTPUT to the CH 1 & EXT TRIGGER 364.004 DISP INPUTS using a 50 Ohm feedthru and a T-connector. 364.004 DISP 364.004 DISP A TRIGGER Mode : P-P AUTO 364.004 DISP SLOPE : Out 364.005 HEAD EXTERNAL TRIGGERING: {@ 10 MHz} 364.006 5500 40mVpp 10MH LS S6 S L 364.007 MESS Adjust the A TRIGGER LEVEL control for a 364.007 MESS stable display. 364.007 MESS 364.008 EVAL Can {triggered display be obtained (P-P AUTO/+SLOPE)}? 365.001 5500 40mVpp 10MH LS S6 S L 365.002 MESS Set the following A TRIGGER functions... 365.002 MESS 365.002 MESS SLOPE : IN 365.003 EVAL Can {triggered display be obtained (P-P AUTO/-SLOPE)}? 366.001 5500 40mVpp 10MH LS S6 S L 366.002 MESS Set the following A TRIGGER functions... 366.002 MESS 366.002 MESS MODE : NORM 366.003 EVAL Can {triggered display be obtained (NORM/-SLOPE)}? 367.001 5500 40mVpp 10MH LS S6 S L 367.002 MESS Set the following A TRIGGER functions... 367.002 MESS 367.002 MESS SLOPE : OUT 367.003 EVAL Can {triggered display be obtained (NORM/+SLOPE)}? 368.001 MESS 368.002 DISP CH 1 VOLTS/DIV : 50 mV 368.002 DISP X10 Magnifier : On (knob out) 368.002 DISP A TRIGGER Mode : P-P AUTO 368.002 DISP SLOPE : Out 368.003 HEAD EXTERNAL TRIGGERING: {@ 60 MHz} 368.004 5500 120mVpp 60MH LS S6 S L 368.005 MESS Adjust the A TRIGGER LEVEL control for a 368.005 MESS stable display. 368.005 MESS 368.006 EVAL Can {triggered display be obtained (P-P AUTO/+SLOPE)}? 369.001 5500 120mVpp 60MH LS S6 S L 369.002 MESS Set the following A TRIGGER functions... 369.002 MESS 369.002 MESS SLOPE : IN 369.003 EVAL Can {triggered display be obtained (P-P AUTO/-SLOPE)}? 370.001 5500 120mVpp 60MH LS S6 S L 370.002 MESS Set the following A TRIGGER functions... 370.002 MESS 370.002 MESS MODE : NORM 370.003 EVAL Can {triggered display be obtained (NORM/-SLOPE)}? 371.001 5500 120mVpp 60MH LS S6 S L 371.002 MESS Set the following A TRIGGER functions... 371.002 MESS 371.002 MESS SLOPE : OUT 371.003 EVAL Can {triggered display be obtained (NORM/+SLOPE)}? 372.001 MESS 372.002 HEAD EXTERNAL TRIGGERING: {@ 100 MHz} 372.003 5500 150mVpp 100MH LS S6 S L 372.004 MESS Adjust the A TRIGGER LEVEL control for a 372.004 MESS stable display. 372.004 MESS 372.005 EVAL Can {triggered display be obtained (P-P AUTO/+SLOPE)}? 373.001 5500 150mVpp 100MH LS S6 S L 373.002 MESS Set the following A TRIGGER functions... 373.002 MESS 373.002 MESS SLOPE : IN 373.003 EVAL Can {triggered display be obtained (P-P AUTO/-SLOPE)}? 374.001 5500 150mVpp 100MH LS S6 S L 374.002 MESS Set the following A TRIGGER functions... 374.002 MESS 374.002 MESS MODE : NORM 374.003 EVAL Can {triggered display be obtained (NORM/-SLOPE)}? 375.001 5500 150mVpp 100MH LS S6 S L 375.002 MESS Set the following A TRIGGER functions... 375.002 MESS 375.002 MESS SLOPE : OUT 375.003 EVAL Can {triggered display be obtained (NORM/+SLOPE)}? 376.001 MESS 376.002 HEAD {EXTERNAL TRIGGER RANGES} 376.003 DISP CH 1 VOLTS/DIV : 0.5 V 376.003 DISP A SEC/DIV : 20 uS 376.003 DISP X10 Magnifier : Off (knob in) 376.003 DISP A TRIGGER SLOPE : OUT 376.003 DISP A TRIGGER Mode : NORM 376.004 MESS Slew output for a 6.4 division display. 376.005 5500 3.2Vpp 50kH LS S6 N L 376.006 MATH M[1] = MEM 376.007 MESS CHECK--Display is triggered along the entire 376.007 MESS Positive Slope of the waveform as the A TRIGGER LEVEL 376.007 MESS control is rotated. 376.007 MESS 376.008 EVAL Is display {triggered along entire positive slope}? 377.001 MATH MEM = M[1] 377.002 5500 50kH Vpp LS S6 S L 377.003 MESS CHECK--Display is not triggered (no trace) at 377.003 MESS either extreme of rotation. 377.003 MESS 377.004 EVAL Is display {not triggered at extreme of A Trigger Level}? 378.001 MATH MEM = M[1] 378.002 5500 50kH Vpp LS S6 S L 378.003 MESS A TRIGGER SLOPE : IN 378.003 MESS 378.003 MESS CHECK--Display is triggered along the entire 378.003 MESS Negative Slope of the waveform as the A TRIGGER LEVEL 378.003 MESS control is rotated. 378.003 MESS 378.003 MESS 378.004 EVAL Is display {triggered along entire Negative Slope}? 379.001 MATH MEM = M[1] 379.002 5500 50kH Vpp LS S6 S L 379.003 MESS CHECK--Display is not triggered (no trace) at 379.003 MESS either extreme of rotation. 379.003 MESS 379.004 EVAL Is display {not triggered at extreme of A Trigger Level}? 380.001 MESS 380.002 ASK+ U 380.003 HEAD {SINGLE SWEEP OPERATION} 380.004 DISP Adjust A TRIGGER LEVEL control to obtain stable display. 380.005 DISP Channel 1 AC-GND-DC : GND 380.005 DISP A SOURCE : INT 380.005 DISP 380.005 DISP Press in the SGL SWP button. The READY LED 380.005 DISP should illuminate and remain on. 380.006 EVAL Does {READY LED illuminate and remain on}? 381.001 DISP Channel 1 AC-GND-DC : DC 381.001 DISP 381.001 DISP NOTE: 381.001 DISP The A INTENSITY control may require 381.001 DISP adjustment to observe the single-sweep trace. 381.002 EVAL Does {READY LED go out as a single sweep occurs}? 382.001 MESS Press in the SGL SWP button several times. 382.001 MESS 382.001 MESS CHECK--Single-sweep trace occurs, and 382.001 MESS the READY LED illuminates briefly every time the 382.001 MESS SGL SWP button is pressed in and released. 382.001 MESS 382.001 MESS 382.002 EVAL Does {single sweep occur every time SGL SWP is pressed}? 383.001 MESS 383.002 EVAL Does {READY LED illuminate briefly when SGL SWP is pressed}? 384.001 HEAD {ACQUISITION WINDOW TRIGGER POINT} 384.002 DISP A TRIGGER Mode : P-P AUTO 384.002 DISP 1K/4K : 4K (button out) 384.002 DISP PRETRIG/{POST TRIG} : POST TRIG (button out) 384.002 DISP WAVEFORM REFERENCE/ : MENU SELECT (button out) 384.002 DISP MENU SELECT 384.002 DISP 384.002 DISP Use the Menu controls to select A TRIG POS. 384.003 EVAL Is {A TRIG POS default number 512}? 385.001 DISP Press in momentarily the PRETRIG/POST TRIG 385.001 DISP switch to activate the trigger point display 385.001 DISP on the CRT. Return the PRETRIG/POST TRIG 385.001 DISP switch to POST TRIG (button out). 385.002 MESS CHECK--The trigger point (T) appears near 385.002 MESS the 2nd vertical graticule line below the Menu. 385.002 MESS 385.003 EVAL Is {Trigger Point (T) near 2nd grat. line below menu}? 386.001 MESS Set the {PRETRIG}/POST TRIG switch to PRETRIG (in). 386.001 MESS 386.002 EVAL Is {A TRIG POS default number 3584}? 387.001 MESS 387.002 EVAL Is {Trigger Point (T) near 9th grat. line below menu}? 388.001 MESS 1K/4K : {1 K} (button in) 388.001 MESS 388.002 EVAL Is {A TRIG POS default number 896 (PRETRIG)}? 389.001 MESS 389.002 EVAL Is {Trigger Point (T) near 9th grat. line below menu}? 390.001 MESS PRETRIG/POST TRIG : {POST TRIG} (button out) 390.001 MESS 390.002 EVAL Is {A TRIG POS default number 128 (POST TRIG)}? 391.001 MESS 391.002 EVAL Is {Trigger Point (T) near 2nd grat. line below menu}? 392.001 MESS CHECK--The trigger point (T) can be moved 392.001 MESS between the 1st and the center vertical graticule 392.001 MESS line as the CURSORS control is rotated. 392.001 MESS 392.002 EVAL Can {Trig. point be moved between 1st and center grat. line}? 393.001 MESS PRETRIG/POST TRIG : {PRETRIG} (button in) 393.001 MESS 393.001 MESS CHECK--The trigger point (T) can be moved 393.001 MESS between the 10th and the center vertical graticule 393.001 MESS line as the CURSORS control is rotated. 393.001 MESS 393.001 MESS 393.002 EVAL Can {Trig. point be moved between 10th and center grat. line}? 394.001 DISP 1K/4K : {4K} (button out) 394.002 MESS CHECK--The trigger point (T) can be moved 394.002 MESS between the 10th and the center vertical graticule 394.002 MESS line as the CURSORS control is rotated. 394.002 MESS 394.002 MESS 394.003 EVAL Can {Trig. point be moved between 10th and center grat. line}? 395.001 MESS PRETRIG/POST TRIG : {POST TRIG} (button out) 395.001 MESS 395.001 MESS CHECK--The trigger point (T) can be moved 395.001 MESS between the 1st and the center vertical graticule 395.001 MESS line as the CURSORS control is rotated. 395.001 MESS 395.001 MESS 395.002 EVAL Can {Trig. point be moved between 1st and center grat. line}? 396.001 HEAD INITIAL CONTROL SETTINGS 396.002 DISP Set the following VERTICAL functions... 396.002 DISP 396.002 DISP POSITION (both) : Midrange 396.002 DISP VERTICAL MODE : CH 1 396.002 DISP X-Y : Off (button out) 396.002 DISP BW LIMIT : Off (button out) 396.003 DISP Set the following VERTICAL functions... 396.003 DISP 396.003 DISP CH 1 VOLTS/DIV : 1 V 396.003 DISP VOLTS/DIV Variable : CAL detent 396.003 DISP AC-GND-DC : DC 396.004 DISP Set the following HORIZONTAL fuctions... 396.004 DISP 396.004 DISP POSITION : Midrange 396.004 DISP HORIZONTAL MODE : A 396.004 DISP A SEC/DIV : 20 uS 396.004 DISP SEC/DIV Variable : CAL detent 396.004 DISP X10 Magnifier : Off (knob in) 396.005 DISP Set the following A TRIGGER functions... 396.005 DISP 396.005 DISP VAR HOLDOFF : NORM 396.005 DISP MODE : P-P AUTO 396.005 DISP SLOPE : OUT 396.005 DISP LEVEL : Midrange 396.006 DISP Set the following A TRIGGER functions... 396.006 DISP 396.006 DISP HF REJECT : OFF 396.006 DISP A&B INT : VERT MODE 396.006 DISP A SOURCE : INT 396.007 DISP Set the following STORAGE funtions... 396.007 DISP 396.007 DISP STORE/NON STORE : NON STORE (button out) 396.007 DISP SAVE/CONTINUE : CONTINUE (button out) 396.007 DISP PRETRIG/POST TRIG : POST TRIG (button out) 396.008 DISP Set the following STORAGE functions... 396.008 DISP 396.008 DISP ROLL/SCAN : SCAN (button out) 396.008 DISP 1K/4K : 4K (button out) 396.008 DISP POSITION CURS/ : POSITION CURS (button in) 396.008 DISP SELECT WAVEFORM 396.009 DISP Set the following WAVEFORM functions... 396.009 DISP 396.009 DISP REFERENCE/ : WAVEFORM REFERENCE (button in) 396.009 DISP MENU SELECT 396.010 HEAD {EXTERNAL Z-AXIS OPERATION} 396.011 ASK- U 396.012 DISP Connect 5500 SCOPE OUTPUT to A T-connector. Connect 396.012 DISP one end of the T-connector to CH 1 INPUT. Connect the 396.012 DISP other end of the T-connector thru a 50 Ohm feedthru 396.012 DISP to the EXT Z-AXIS INPUT. 396.013 5500 5Vpp 50kH LS S6 S L 396.014 MESS CHECK--For noticeable intensity modulation. 396.014 MESS The positive part of the sine wave should be of 396.014 MESS lower intensity than the negative part. 396.014 MESS 396.015 EVAL Is {positive portion lower intensity than negative portion}? 397.001 MESS 397.002 DISP Disconnect the test equipment from the UUT. 397.003 ASK+ U 397.004 HEAD {PROBE ADJUST OPERATION} 397.005 DISP CH 1 VOLTS/DIV : 10 mV 397.005 DISP A SEC/IDIV : 0.5 mS 397.006 DISP Connect the 10X Probe to the CH 1 input connector 397.006 DISP and insert the probe tip into the PROBE ADJUST 397.006 DISP jack on the instrument front panel. 397.006 DISP 397.006 DISP If necessary, adjust the probe compensation for a 397.006 DISP flat-topped square-wave display. 397.007 EVAL Is {display amplitude 4.75 to 5.25 divisions}? 398.001 DISP Disconnect the probe from the instrument. 398.002 HEAD {EXTERNAL CLOCK} 398.003 DISP CH 1 VOLTS/DIV : 1 V 398.003 DISP A SEC/DIV : 1 mS 398.004 DISP Connect the Pulse Generator output via a 398.004 DISP 50 Ohm cable and a 50 Ohm termination to CH 1 input. 398.004 DISP 398.004 DISP Set the generator to produce a 1 kHz, 398.004 DISP 5 division display. 398.005 DISP Disconnect the cable from the CH 1 input 398.005 DISP and connect it to the BNC male-to-tip plug 398.005 DISP via BNC female to BNC female connector. 398.006 DISP Insert the BNC male-to-tip plug signal lead and 398.006 DISP ground lead into pin 1 and pin 9 respectively of 398.006 DISP the X-Y Plotter connector. 398.006 DISP 398.006 DISP A SEC/DIV : 0.1 S 398.007 DISP MAKE THE FOLLOWING CONNECTIONS... 398.007 DISP 398.007 DISP 5500 SCOPE OUTPUT ------------CH 1 INPUT 398.008 5500 5Vpp 100H ZQ S6 S 398.009 DISP A SEC/DIV : EXT CLK 398.009 DISP STORE/NON STORE : STORE (button in) 398.010 EVAL Is {100 Hz signal display}? 399.001 5500 5Vpp 100H ZQ S6 S 399.002 EVAL Is {100 Hz signal updated}? 400.001 5500 5Vpp 100H ZQ S6 S 400.002 DISP SAVE/CONTINUE : SAVE (button in) 400.003 EVAL Will {100 Hz signal save}? 401.001 HEAD {X-Y PLOTTER} 401.002 DISP Connect the DMM low lead to either chassis ground 401.002 DISP or pin 9 (signal ground) of the X-Y Plotter connector. 401.002 DISP 401.002 DISP Connect the volts lead to Pin 3 (X Output) of the 401.002 DISP X-Y Plotter connector. 401.002 DISP 401.002 DISP Set the DNN to the 20 V range. 401.003 DISP WAVEFORM REFERENCE/MENU SELECT : MENU SELECT 401.003 DISP 401.003 DISP Use the Menu controls to select PLOT and 401.003 DISP then ON for GRATICULE. 401.003 DISP 401.003 DISP NOTE: 401.003 DISP The next menu selection is only valid if the 401.003 DISP instrument contains one of the communication options. 401.004 DISP Use the Menu controls to select PLOT and 401.004 DISP then X-Y for FORMAT. 401.004 DISP 401.004 DISP Use the Menu controls to select PLOT START. 401.005 DISP Press in momentarily the CURSORS button to start Plotter 401.005 DISP 401.005 DISP Note: Voltage reading of the X Output will be negative 401.005 DISP left of center vertical graticule line and positive 401.005 DISP to the right of the center vertical graticule line. 401.005 DISP Voltage reading of the Y output will be neagtive below 401.005 DISP the center horizontal graticule line and positive above 401.005 DISP the center horizontal graticule line. 401.006 DISP Note the voltage reading as the instrument 401.006 DISP plots the 1st and the 10th graticule line (as the 401.006 DISP intensity spot moves along the graticule line). 401.007 EVAL Is {voltage difference (1st & 10th) between 4.5 and 5.5 V}? 402.001 DISP Move the volts lead of the voltmeter from pin 3 402.001 DISP (X Output) to pin 5 (Y Output) of the X-Y Plotter 402.001 DISP connector. 402.001 DISP 402.001 DISP Press in momentarily the CURSORS button to 402.001 DISP activate the X-Y Plotter. 402.002 DISP Note the voltage reading as the instrument 402.002 DISP plots the top and the bottom of the graticule 402.002 DISP lines (as the intensity spot moves along the 402.002 DISP graticule line). 402.002 DISP 402.002 DISP CHECK--The voltage difference between the 402.002 DISP top and bottom graticule line is between 3.6 V 402.002 DISP and 4.4 V. 402.003 EVAL Is {voltage difference (top & bottom) between 3.6 and 4.4 V}? 403.001 END