Fluke MET/CAL Procedure ============================================================================= INSTRUMENT: Fluke PM 3209: (1 year) CAL VER /5500+SC600 DATE: 27-May-97 AUTHOR: Fluke Corporation REVISION: $Revision: 1.2 $ ADJUSTMENT THRESHOLD: 70% NUMBER OF TESTS: 126 NUMBER OF LINES: 663 CONFIGURATION: Fluke 5500A (S6) ============================================================================= # # Source: # Service Manual PM3209 (PN 4822 872 05354 Oct 30th, 1992) # # Compatibility: # 5500/CAL and MET/CAL 4.23 or later # # Subprocedures: # None # # Required Files: # None # # System Specifications: # TUR calculation is based on specification interval of the accuracy file. # # Fluke makes no warranty, expressed or implied, as to the fitness # or suitability of this procedure in the customer's application. # STEP FSC RANGE NOMINAL TOLERANCE MOD1 MOD2 3 4 CON 1.001 ASK+ D N 1.002 ASK- R P J F W 1.003 HEAD 5.3 GENERAL INFORMATION 1.004 DISP WARNING 1.004 DISP Before switching-on, ensure that the instrument has been 1.004 DISP installed inaccordance with Installation Instructions 1.004 DISP outlined in section 2 of the Operating Manual. 1.005 DISP This procedure is intended to: 1.005 DISP Check the instrument's specification. 1.005 DISP Be used for incoming inspection to determine the 1.005 DISP acceptability of newly purchased instruments and/or 1.005 DISP recently recalibrated instrument. 1.005 DISP Check the necessity of recalibration after the specified 1.005 DISP recalibration intervals. 1.006 DISP NOTE 1.006 DISP The procedure does not check every facet of the 1.006 DISP instruments calibration; rather, it is concerned 1.006 DISP primarily with those parts of the instrument which are 1.006 DISP essential to measurement accuracy and correct operation. 1.006 DISP Removing the instruments covers is not necessary to 1.006 DISP perform this procedure. All checks are make from the 1.006 DISP outside of the instrument. 1.007 DISP If the test is started within a short period after 1.007 DISP switching on, bear in mind that steps may be out of 1.007 DISP specification, due to insufficient warming-up time. 1.007 DISP 1.007 DISP Warming-up time under average conditions is 30 minutes. 1.008 DISP The performance checks are make with a stable, well- 1.008 DISP focussed, low-intensity display. Unless otherwise noted, 1.008 DISP adjust the intensity and trigger-level controls as 1.008 DISP needed. 1.009 HEAD {5.3.4 CRT intensity} 1.010 SET INTENSITY : barely visible 1.011 EVAL Is the {INTENS control approx 10 o'clock position}? 2.001 HEAD {5.3.5 CRT focus} 2.002 SET FOCUS : well focused display. 2.003 EVAL Is the {FOCUS control approx centered}? 3.001 HEAD {5.3.7 Vertical step balance} 3.002 SET Vertical Mode : Ch A 3.002 SET Ch A Coupling : Gnd 3.003 MESS Step the channel A input attenuator thru all settings 3.003 MESS trace jump should be less than .2 divisions. 3.003 MESS 3.004 EVAL Is the {Ch A baseline jump less than .2 div}? 4.001 SET Vertical Mode : Ch B 4.001 SET Ch B Coupling : Gnd 4.002 MESS Step the channel B input attenuator thru all settings 4.002 MESS trace jump should be less than .2 divisions. 4.002 MESS 4.003 EVAL Is the {Ch B baseline jump less than .2 div}? 5.001 HEAD {5.3.8 Vertical x5 MAG balance} 5.002 SET Vertical Mode : Ch A 5.002 SET Ch A Coupling : Gnd 5.003 MESS When pulling/pushing the Ch A VARIABLE CONTROL KNOB the 5.003 MESS trace jump should be less than .2 divisions. 5.003 MESS 5.004 EVAL Is the {Ch A baseline jump less than .2 div}? 6.001 SET Vertical Mode : Ch B 6.001 SET Ch B Coupling : Gnd 6.002 MESS When pulling/pushing the Ch B VARIABLE CONTROL KNOB the 6.002 MESS trace jump should be less than .2 divisions. 6.002 MESS 6.003 EVAL Is the {Ch B baseline jump less than .2 div}? 7.001 HEAD {5.3.9 Vertical variable gain balance} 7.002 SET Vertical Mode : Ch A 7.002 SET Ch A Coupling : Gnd 7.003 MESS When adjusting the Ch A VARIABLE CONTROL KNOB from the 7.003 MESS Min to the Cal positions baseline jump should be less 7.003 MESS than .2 divisions. 7.003 MESS 7.004 EVAL Is the {Ch A baseline jump less than .2 div}? 8.001 SET Vertical Mode : Ch B 8.001 SET Ch B Coupling : Gnd 8.002 MESS When adjusting the Ch B VARIABLE CONTROL KNOB from the 8.002 MESS Min to the Cal positions baseline jump should be less 8.002 MESS than .2 divisions. 8.002 MESS 8.003 EVAL Is the {Ch B baseline jump less than .2 div}? 9.001 MESS 9.002 HEAD {5.3.10 Vertical gain} 9.003 DISP Connect the 5500A Scope Output to UUT Ch A. 9.004 5500 500mVpp 1kH ZQ S6 S 9.005 SET Vertical Mode : Ch A 9.005 SET Ch A Coupling : DC 9.005 SET CH A Ampl/div : 0.1V 9.005 SET Variable control : Cal 9.005 SET Time/div : 0.2ms 9.005 SET MTB Trigger : Ch A 9.006 EVAL Does the UUT display approx a {5 division square wave}? 10.001 5500 500mVpp 1kH ZQ S6 S 10.002 MESS Adjust the Variable control for a minimum square wave 10.002 MESS NOTE: Reset Variable control to CAL position after test. 10.003 EVAL Is the display {Less than 2 divisions}? 11.001 MESS 11.002 SET Ch A Ampl/div : 5mV 11.002 SET Ch A Var : Cal 11.003 5500 2 20mVpp 5% 1kH ZQ S6 12.001 SET Ch A Ampl/div : 10mV 12.002 5500 10 50mVpp 5% 1kH ZQ S6 13.001 SET Ch A Ampl/div : 20mV 13.002 5500 20 100mVpp 5% 1kH ZQ S6 14.001 SET Ch A Ampl/div : 50mV 14.002 5500 50 200mVpp 5% 1kH ZQ S6 15.001 SET Ch A Ampl/div : 0.1V 15.002 5500 0.1 0.5Vpp 5% 1kH ZQ S6 16.001 DISP Remove the 50 Ohm terminator. 16.002 SET Ch A Ampl/div : 0.2V 16.003 5500 0.2 1Vpp 5% 1kH ZQ S6 17.001 SET Ch A Ampl/div : 0.5V 17.002 5500 0.5 2Vpp 5% 1kH ZQ S6 18.001 SET Ch A Ampl/div : 1V 18.002 5500 1 5Vpp 5% 1kH ZQ S6 19.001 SET Ch A Ampl/div : 2V 19.002 5500 2 10Vpp 5% 1kH ZQ S6 20.001 SET Ch A Ampl/div : 5V 20.002 5500 5 20Vpp 5% 1kH ZQ S6 21.001 DISP Connect the 5500A Scope Output to UUT Ch B. 21.002 5500 500mVpp 1kH ZQ S6 S 21.003 SET Vertical Mode : Ch B 21.003 SET Ch B Coupling : DC 21.003 SET Ch B Ampl/div : 0.1V 21.003 SET Ch B Var : Cal 21.003 SET MTB Trigger : Ch B 21.004 EVAL Does the UUT display approx a {5 division square wave}? 22.001 5500 500mVpp 1kH ZQ S6 S 22.002 MESS Adjust the Variable control for a minimum square wave 22.002 MESS NOTE: Reset Variable control to CAL position after test. 22.003 EVAL Is the display {less than 2 divisions}? 23.001 MESS 23.002 SET Ch B Ampl/div : 5mV 23.002 SET CH A Var : Cal 23.003 5500 2 20mVpp 5% 1kH ZQ S6 24.001 SET Ch A Ampl/div : 20mV 24.002 5500 10 50mVpp 5% 1kH ZQ S6 25.001 SET Ch B Ampl/div : 20mV 25.002 5500 20 100mVpp 5% 1kH ZQ S6 26.001 SET Ch B Ampl/div : 50mV 26.002 5500 50 200mVpp 5% 1kH ZQ S6 27.001 SET Ch B Ampl/div : 0.1V 27.002 5500 0.1 0.5Vpp 5% 1kH ZQ S6 28.001 DISP Remove the 50 Ohm terminator. 28.002 SET Ch B Ampl/div : 0.2V 28.003 5500 0.2 1Vpp 5% 1kH ZQ S6 29.001 SET Ch B Ampl/div : 0.5V 29.002 5500 0.5 2Vpp 5% 1kH ZQ S6 30.001 SET Ch B Ampl/div : 1V 30.002 5500 1 5Vpp 5% 1kH ZQ S6 31.001 SET Ch B Ampl/div : 2V 31.002 5500 2 10Vpp 5% 1kH ZQ S6 32.001 SET Ch B Ampl/div : 5V 32.002 5500 5 20Vpp 5% 1kH ZQ S6 33.001 HEAD {5.3.11 Vertical x5 MAG gain} 33.002 DISP Connect the 5500A Scope Output to UUT Ch A. 33.003 SET Vertical Mode : Ch A 33.003 SET Ch A Ampl/div : 0.1V 33.003 SET Ch A coupling : DC 33.003 SET Ch A Var : x5 33.004 5500 20 100mVpp 5% 1kH ZQ S6 34.001 DISP Connect the 5500A Scope Output to UUT Ch B. 34.002 SET Vertical Mode : Ch B 34.002 SET Ch B Ampl/div : 0.1V 34.002 SET Ch B coupling : DC 34.002 SET Ch B Var : x5 34.003 5500 20 100mVpp 5% 1kH ZQ S6 35.001 HEAD {5.3.12 Channel B invert} 35.002 DISP Disconnect all external connections 35.003 SET Vertical Mode : Dual 35.004 MESS Position Traces with POSITION controls so that the trace 35.004 MESS overlap in the center is the screen. Pull the Ch B 35.004 MESS invert and check that the trace jumps less that .5 DIV. 35.004 MESS 35.005 EVAL Is the {Ch B invert jump less than .5 div}? 36.001 HEAD {5.3.13 ADD balance} 36.002 SET Vertical Mode : Dual 36.002 SET Ch A Coupling : Gnd 36.002 SET Ch B Coupling : Gnd 36.003 MESS Position Traces with POSITION controls so that the trace 36.003 MESS overlap in the center is the screen. Press the Vertical 36.003 MESS mode ADD, check that the trace jumps less that .2 DIV. 36.003 MESS 36.004 EVAL Is the {ADD mode jump less than .2 div}? 37.001 HEAD {5.3.14 Low frequency response} 37.002 DISP Connect the 5500A Scope Output to UUT Ch A using a 37.002 DISP 50 Ohm terminator. 37.003 SET Vertical Mode : Ch A 37.003 SET Ch A Ampl/div : 5mV 37.003 SET Time/div : 0.2us 37.003 SET Ch A Coupling : DC 37.004 MESS Check the slope of the leading edge for linearity. 37.004 MESS Slope should not have any aberrations or distortions. 37.005 5500 25mVpp 1MH ED S6 S L 37.006 EVAL Is the {leading edge slope linear}? 38.001 MESS 38.002 HEAD {5.3.15 High frequency response} 38.003 SET Vertical Mode : Ch A 38.003 SET Ch A Ampl/div : 5mV 38.003 SET Time/div : 0.2us 38.003 SET Ch A Coupling : DC 38.003 SET X MAG : x10 38.004 5500 25mVpp 1MH ED S6 S L 38.005 EVAL Are the {Ch A (.1 V/DIV) aberrations < .5 Division}? 39.001 DISP Connect the 5500A Scope Output to UUT Ch B using 39.001 DISP a 50 Ohm terminator. 39.002 SET Vertical Mode : Ch B 39.002 SET Ch B Ampl/div : 5mV 39.002 SET Time/div : 0.2us 39.002 SET Ch B Coupling : DC 39.002 SET X MAG : x10 39.003 5500 25mVpp 1MH ED S6 S L 39.004 EVAL Are the {Ch B (.1 V/DIV) aberrations < .5 Division}? 40.001 HEAD {5.3.16 1 kHz square wave response} 40.002 DISP Connect the 5500A Scope Output to UUT Ch A using 40.002 DISP a 50 Ohm terminator. 40.003 SET Vertical Mode : Ch A 40.003 SET Ch A Ampl/div : 0.1V 40.003 SET Time/div : .2ms 40.003 SET X MAG : x1 40.004 5500 500mVpp 1kH ED S6 S L 40.005 EVAL Are the {Ch A (0.1 V/DIV) aberrations < .5 Division}? 41.001 DISP Connect the 5500A Scope Output to UUT Ch B using 41.001 DISP a 50 Ohm terminator. 41.002 SET Vertical Mode : Ch B 41.002 SET Ch B Ampl/div : 0.1V 41.003 5500 500mVpp 1kH ED S6 S L 41.004 EVAL Are the {Ch B (0.1 V/DIV) aberrations < .5 Division}? 42.001 HEAD {5.3.17 Input impedance} 42.002 HEAD {5.3.18 Dual A and B, polarity inversion channel B} 42.003 DISP Connect 5500A Scope Output to UUT Ch A & B using 42.003 DISP a BNC tee. 42.004 SET Vertical Mode : Dual 42.004 SET Ch A Ampl/div : 0.5V 42.004 SET Ch B Ampl/div : 0.5V 42.004 SET Ch A Coupling : DC 42.004 SET Ch B Coupling : DC 42.004 SET Time/div : 0.2ms 42.005 5500 2Vpp 1kH ZQ S6 S 42.006 EVAL Does {Ch A and Ch B display the same polarity waveform}? 43.001 SET Ch B position : Invert 43.002 5500 2Vpp 1kH ZQ S6 S 43.003 EVAL Does {Ch A and Ch B display the opposite polarity waveform}? 44.001 HEAD {5.3.19 ADD facility} 44.002 SET Vertical Mode : Dual 44.002 SET Ch A Ampl/div : 0.5V 44.002 SET Ch B Ampl/div : 0.5V 44.002 SET Ch A Coupling : DC 44.002 SET Ch B Coupling : DC 44.002 SET Time/div : 0.2ms 44.003 5500 2Vpp 1kH ZQ S6 S 44.004 EVAL Does {Ch A and Ch B display the same polarity waveform}? 45.001 SET Vertical Mode : Add 45.002 5500 2Vpp 1kH ZQ S6 S 45.003 EVAL Is {Only one 8 division squarewave displayed}? 46.001 SET Ch B position : Invert (Pull) 46.002 5500 2Vpp 1kH ZQ S6 S 46.003 EVAL Is {Only one straight line displayed}? 47.001 HEAD {5.3.20 Vertical bandwidth} 47.002 DISP Connect the 5500B Output to UUT Ch A using a 50 Ohm 47.002 DISP terminator. 47.003 SET Vertical Mode : Ch A 47.004 SET Ch A Ampl/div : 10mV 47.005 SET Time/div : 2us 47.006 ASK- N 47.007 MESS Adjust the input amplitude for 6 divisions. 47.008 5500 20 62.5mVpp 100kH SI S6 N L 47.009 MESS 47.010 ASK+ N 47.011 5500 mVpp 40MH SI S6 S L 47.012 EVAL Is the displayed amplitude for {Ch A bandwidth > 4.2 div}? 48.001 DISP Connect the 5500B Output to UUT Ch B using a 50 Ohm 48.001 DISP terminator. 48.002 SET Vertical Mode : Ch B 48.002 SET Ch B Ampl/div : 10mV 48.003 ASK- N 48.004 MESS Adjust the input amplitude for 6 divisions. 48.005 5500 20 62.5mVpp 100kH SI S6 N L 48.006 MESS 48.007 ASK+ N 48.008 5500 mVpp 40MH SI S6 S L 48.009 EVAL Is the displayed amplitude for {Ch B bandwidth > 4.2 div}? 49.001 HEAD {5.3.21 Trigger DC balance} 49.002 DISP Connect the UUT CAL output to UUT Ch A using a 10:1 49.002 DISP probe that is properly compensated. 49.003 SET Vertical Mode : Ch A 49.003 SET Ch A Ampl/div : 20mV 49.003 SET Time/div : 0.2ms 49.003 SET Ch A Coupling : DC 49.003 SET Trigger Coupling : AC 49.004 MESS Position trigger point for the center of the rising edge 49.004 MESS using the TRIGGER LEVEL control. 49.004 MESS Check that the trig point does not shift when trigger 49.004 MESS coupling is switched between AC and DC 49.005 EVAL Is the {AC/DC trigger level OK }? 50.001 MESS 50.002 DISP Connect the UUT CAL output to UUT Ch B using a 10:1 50.002 DISP probe that is properly compensated. 50.003 SET Vertical Mode : Ch B 50.003 SET Ch B Ampl/div : 20mV 50.003 SET Time/div : 0.2us 50.003 SET Ch B Coupling : DC 50.003 SET Trigger Coupling : AC 50.004 MESS Position trigger point for the center of the rising edge 50.004 MESS using the TRIGGER LEVEL control. 50.004 MESS Check that the trig point does not shift when trigger 50.004 MESS coupling is switched between AC and DC 50.005 EVAL Is the {AC/DC trigger level OK }? 51.001 MESS 51.002 HEAD {5.3.22 Y-out DC balance} 51.003 DISP Connect the UUT Ya out (on rear) to UUT Ch B using a 51.003 DISP 50 Ohm terminator. 51.004 SET Vertical Mode : Dual 51.004 SET Ch A Ampl/div : 5mV 51.004 SET Ch A Coupling : Gnd 51.004 SET MTB Trigger : Ch B 51.004 SET Ch B Ampl/div : 20mV 51.004 SET Ch B Coupling : DC 51.005 EVAL Does the {Ya output measure 0 +/- 20mv} on Ch B? 52.001 HEAD {5.3.23 Y-out gain} 52.002 DISP Connect the UUT CAL output to UUT Ch A using a 10:1 52.002 DISP probe that is properly compensated. 52.002 DISP 52.002 DISP Connect the UUT Ya out (on rear) to UUT Ch B using a 52.002 DISP 50 Ohm terminator. 52.003 SET Vertical Mode : Dual 52.003 SET Ch A Ampl/div : 50mV 52.003 SET Ch B Ampl/div : 50mV 52.003 SET Ch A Coupling : DC 52.003 SET Ch B Coupling : DC 52.003 SET Horizontal Mode : MTB 52.003 SET Time/div : 0.2ms 52.004 EVAL Does {Ch B measure 2.0 +/-0.5 Divisions}? 53.001 HEAD {5.3.24 X-gain adjustment} 53.002 DISP Connect the 5500A Scope Output to UUT Ch A. 53.003 SET Vertical Mode : Ch B 53.003 SET Ch A Ampl/div : 0.1V 53.003 SET Ch A Coupling : DC 53.003 SET Trigger Coupling : DC 53.003 SET Time/div : X Defl 53.004 5500 500mVpp 1kH ZQ S6 S 53.005 EVAL Does the UUT {Display a 5 Division horz line}? 54.001 HEAD {5.3.25 Triggering} 54.002 SET Vertical Mode : Ch A 54.002 SET Ch A Ampl/div : 0.1V 54.002 SET Time/div : .2ms 54.002 SET Ch A Coupling : DC 54.002 SET Trigger Coupling : DC 54.002 SET Horizontal Mode : MTB 54.002 SET Triggering : Auto 54.002 SET Trigger Level : Centered 54.003 MESS Trace horz starting point should shift by < .1 div when 54.003 MESS SLOPE is switched between + and -. 54.004 5500 800mVpp 1kH ZQ S6 S 54.005 EVAL Does the {Trace starting point shift by less than .1 div}? 55.001 HEAD {5.3.26 Trace starting point} 55.002 SET Vertical Mode : Ch A 55.002 SET Horizontal Mode : MTB 55.002 SET Time/div : 0.1ms 55.002 SET Triggering : Auto 55.002 SET X pos - Centered 55.003 MESS The trace should start within 1 div of the left most 55.003 MESS horz gradicual with the X pos control centered. 55.004 EVAL Is the {Trace starting point OK}? 56.001 HEAD {5.3.27 X-Y centering} 56.002 SET Vertical Mode : Ch B 56.002 SET Ch A Coupling : DC 56.002 SET Ch B Coupling : Gnd 56.002 SET Time/div : X Defl 56.002 SET X Position : Centered 56.003 MESS The trace spot should be centered on the X axis. 56.003 MESS 56.004 EVAL Is the {Trace spot centered on the X axis}? 57.001 MESS 57.002 HEAD {5.3.28 Horizontal bandwidth} 57.003 DISP Connect the 5500B to UUT Ch A using a 50 Ohm terminator. 57.004 SET Ch A Ampl/div : 0.1V 57.004 SET Ch A Coupling : DC 57.004 SET Vertical Mode : Ch B 57.004 SET Trigger Coupling : DC 57.005 5500 105 630mVpp 100kH SI S6 N L 57.006 5500 mVpp 1MH SI S6 S L 57.007 EVAL Is the displayed amplitude for {Horz bandwidth > 4.2 div}? 58.001 HEAD {5.3.29 Z input} 58.002 DISP Connect the 5500A Scope Output to UUT Ch A and Z In 58.002 DISP (on rear) using a BNC tee. 58.003 SET Vertical Mode : Ch A 58.003 SET Ch A Coupling : Gnd 58.003 SET Time/div : 0.5ms 58.003 SET MTB X MAG : x1 58.003 SET MTB Level : CCW (detent) 58.004 MESS Postion trace in the center of the screen. Trace should 58.004 MESS be a straight line with the Z in disconnected and the 58.004 MESS trace should be blanked for .5ms then on for .5ms when 58.004 MESS the Z in is connected. 58.005 5500 3Vpp 1kH ZQ S6 S 58.006 EVAL Does the {Z input blank the trace in .5ms intervals}? 59.001 HEAD {5.3.30 MTB deflection coefficients, X MAG x1} 59.002 DISP Connect the 5500A Scope Output to UUT Ch A using 59.002 DISP a 50 Ohm terminator. 59.003 SET Vertical Mode : Ch A 59.003 SET MTB Time/div : 0.2us 59.003 SET Ch A Ampl/div : .2V 59.003 SET Ch A Coupling : DC 59.003 SET X MAG : x1 59.003 SET Hold Off : CCW 59.003 SET MTB Level : CCW (detent) 59.004 ASK- N 59.005 MESS Adjust the marker freq so that the 2nd and 8th markers 59.005 MESS coincides exactly with the 2nd and 8th vertical 59.005 MESS graticule lines. 59.006 5500 0.2 0.2uT 3% M1 S6 L 60.001 SET MTB Time/div : 0.5us 60.002 5500 0.5 0.5uT 3% M1 S6 L 61.001 SET MTB Time/div : 1.0us 61.001 SET Ch A Ampl/div .5V 61.002 5500 1 1uT 3% M1 S6 L 62.001 SET MTB Time/div : 2.0us 62.002 5500 2 2uT 3% M1 S6 L 63.001 SET MTB Time/div : 5.0us 63.002 5500 5 5uT 3% M1 S6 L 64.001 SET MTB Time/div : 10.0us 64.002 5500 10 10uT 3% M1 S6 L 65.001 SET MTB Time/div : 20.0us 65.002 5500 20 20uT 3% M1 S6 L 66.001 SET MTB Time/div : 50.0us 66.002 5500 50 50uT 3% M1 S6 L 67.001 SET MTB Time/div : 0.1ms 67.002 5500 0.1 0.1mT 3% M1 S6 L 68.001 SET MTB Time/div : 0.2ms 68.002 5500 0.2 0.2mT 3% M1 S6 L 69.001 SET MTB Time/div : 0.5ms 69.002 5500 0.5 0.5mT 3% M1 S6 L 70.001 SET MTB Time/div : 1.0ms 70.002 5500 1 1mT 3% M1 S6 L 71.001 SET MTB Time/div : 2.0ms 71.002 5500 2 2mT 3% M1 S6 L 72.001 SET MTB Time/div : 5.0ms 72.002 5500 5 5mT 3% M1 S6 L 73.001 SET MTB Time/div : 10.0ms 73.002 5500 10 10mT 3% M1 S6 L 74.001 SET MTB Time/div : 20.0ms 74.002 5500 20 20mT 3% M1 S6 L 75.001 SET MTB Time/div : 50.0ms 75.002 5500 50 50mT 3% M1 S6 L 76.001 SET MTB Time/div : 0.1s 76.002 5500 0.1 0.1T 3% M1 S6 L 77.001 SET MTB Time/div : 0.2s 77.002 5500 0.2 0.2T 3% M1 S6 L 78.001 SET MTB Time/div : 0.5s 78.002 5500 0.5 0.5T 3% M1 S6 L 79.001 HEAD {5.3.30 MTB deflection coefficients, X MAG x10} 79.002 SET Vertical Mode : Ch A 79.002 SET MTB Time/div : 0.2us 79.002 SET Ch A Ampl/div : 0.2V 79.002 SET Ch A Coupling : DC 79.002 SET X MAG : x10 79.002 SET MTB Level : CCW (detent) 79.002 SET Hold Off : CCW 79.003 5500 0.02 0.02uT 5% M1 S6 L 80.001 SET MTB Time/div : 0.5us 80.002 5500 0.05 0.05uT 5% M1 S6 L 81.001 SET MTB Time/div : 1.0us 81.002 5500 0.1 0.1uT 5% M1 S6 L 82.001 SET MTB Time/div : 2.0us 82.002 5500 0.2 0.2uT 5% M1 S6 L 83.001 SET MTB Time/div : 5.0us 83.002 5500 0.5 0.5uT 5% M1 S6 L 84.001 SET MTB Time/div : 10.0us 84.001 SET Ch A Ampl/div : 0.5V 84.002 5500 1 1uT 5% M1 S6 L 85.001 SET MTB Time/div : 20.0us 85.002 5500 2 2uT 5% M1 S6 L 86.001 SET MTB Time/div : 50.0us 86.002 5500 5 5uT 5% M1 S6 L 87.001 SET MTB Time/div : 0.1ms 87.002 5500 10 10uT 5% M1 S6 L 88.001 SET MTB Time/div : 0.2ms 88.002 5500 20 20uT 5% M1 S6 L 89.001 SET MTB Time/div : 0.5ms 89.002 5500 50 50uT 5% M1 S6 L 90.001 SET MTB Time/div : 1.0ms 90.002 5500 0.1 0.1mT 5% M1 S6 L 91.001 SET MTB Time/div : 2.0ms 91.002 5500 0.2 0.2mT 5% M1 S6 L 92.001 SET MTB Time/div : 5.0ms 92.002 5500 0.5 0.5mT 5% M1 S6 L 93.001 SET MTB Time/div : 10.0ms 93.002 5500 1 1mT 5% M1 S6 L 94.001 SET MTB Time/div : 20.0ms 94.002 5500 2 2mT 5% M1 S6 L 95.001 SET MTB Time/div : 50.0ms 95.002 5500 5 5mT 5% M1 S6 L 96.001 SET MTB Time/div : 0.1s 96.002 5500 10 10mT 5% M1 S6 L 97.001 SET MTB Time/div : 0.2s 97.002 5500 20 20mT 5% M1 S6 L 98.001 SET MTB Time/div : 0.5s 98.002 5500 50 50mT 5% M1 S6 L 99.001 HEAD {5.3.31 Sweep length} 99.002 SET Vertical Mode : Ch A 99.002 SET MTB Time/div : 0.1ms 99.002 SET X MAG : x1 99.003 MESS Adjust the marker freq so that the 2nd and 8th markers 99.003 MESS coincides exactly with the 2nd and 8th vertical 99.003 MESS graticule lines. 99.004 5500 0.1 0.1mT 3% M1 S6 L 100.001 HEAD {5.3.32 x10 MAG time} 100.002 SET Vertical Mode : Ch A 100.002 SET MTB Time/div : 1.0ms 100.003 SET X MAG : x10 100.004 5500 0.2 0.1mT 5% M1 S6 L 101.001 HEAD {5.3.33 x10 MAG center balance} 101.002 DISP Connect UUT Ch A to the UUT CAL Output using a 10:1 101.002 DISP probe. 101.003 SET Vertical Mode : Ch A 101.003 SET MTB Time/div : 0.1ms 101.003 SET Ch A Ampl/div : 50mV 101.004 MESS Apply the CAL signal to Ch A and set for two divisions. 101.004 MESS Set the trailing edge at the center of the X-axis. Pull 101.004 MESS the X MAG x10. Trailing edge should shift by less than 101.004 MESS 3 horz divisions. 101.005 EVAL Does the {Trailing edge shift by less than 3 divisions}? 102.001 MESS 102.002 HEAD {5.3.34 DTB start} 102.003 SET Vertical Mode : Ch A 102.003 SET MTB Time/div : 0.1ms 102.003 SET DTB Time/div : 0.1ms 102.003 SET X MAG : x1 102.004 DISP Disconnect all external connections. 102.005 MESS Adjust the X POSITION so that the trace begins at the 102.005 MESS first graticule line. Set the horizontal mode to DTB. 102.005 MESS Trace start should shift by less than .2 divisions. 102.006 EVAL Does the {DTB trace start shift by less than .2 divisions}? 103.001 HEAD {5.3.35 DTB deflection coefficients, X MAG x1} 103.002 DISP Connect the 5500A Scope Output to UUT Ch A using 103.002 DISP a 50 Ohm terminator. 103.003 SET Vertical Mode : Ch A 103.003 SET Ch A Ampl/div : 0.2 103.003 SET MTB Time/div : 0.2us 103.003 SET DTB Time/div : 0.2us 103.003 SET X MAG : X1 103.003 SET Horizontal Mode : DTB 103.003 SET Delay Time - Min 103.004 MESS Adjust the marker freq so that the 2nd and 8th markers 103.004 MESS coincides exactly with the 2nd and 8th vertical 103.004 MESS graticule lines. 103.005 5500 0.2 0.2uT 3% M1 S6 L 104.001 SET MTB Time/div : 0.5us 104.001 SET DTB Time/div : 0.5us 104.002 5500 0.5 0.5uT 3% M1 S6 L 105.001 SET MTB Time/div : 1.0us 105.001 SET DTB Time/div : 1.0us 105.001 SET Ch A Ampl/div : .5V 105.002 5500 1 1uT 3% M1 S6 L 106.001 SET MTB Time/div : 2.0us 106.001 SET DTB Time/div : 2.0us 106.002 5500 2 2uT 3% M1 S6 L 107.001 SET MTB Time/div : 5.0us 107.001 SET DTB Time/div : 5.0us 107.002 5500 5 5uT 3% M1 S6 L 108.001 SET MTB Time/div : 10.0us 108.001 SET DTB Time/div : 10.0us 108.002 5500 10 10uT 3% M1 S6 L 109.001 SET MTB Time/div : 20.0us 109.001 SET DTB Time/div : 20.0us 109.002 5500 20 20uT 3% M1 S6 L 110.001 SET MTB Time/div : 50.0us 110.001 SET DTB Time/div : 50.0us 110.002 5500 50 50uT 3% M1 S6 L 111.001 SET MTB Time/div : 0.1ms 111.001 SET DTB Time/div : 0.1ms 111.002 5500 0.1 0.1mT 3% M1 S6 L 112.001 SET MTB Time/div : 0.2ms 112.001 SET DTB Time/div : 0.2ms 112.002 5500 0.2 0.2mT 3% M1 S6 L 113.001 SET MTB Time/div : 0.5ms 113.001 SET DTB Time/div : 0.5ms 113.002 5500 0.5 0.5mT 3% M1 S6 L 114.001 HEAD {5.3.35 DTB deflection coefficients, X MAG x10} 114.002 SET Vertical Mode : Ch A 114.002 SET MTB Time/div : 0.2us 114.002 SET DTB Time/div : 0.2us 114.002 SET X MAG : x10 114.002 SET Ch A Ampl/div : 0.2V 114.003 5500 0.02 0.02uT 5% M1 S6 L 115.001 SET MTB Time/div : 0.5us 115.001 SET DTB Time/div : 0.5us 115.002 5500 0.05 0.05uT 5% M1 S6 L 116.001 SET MTB Time/div : 1.0us 116.001 SET DTB Time/div : 1.0us 116.002 5500 0.1 0.1uT 5% M1 S6 L 117.001 SET MTB Time/div : 2.0us 117.001 SET DTB Time/div : 2.0us 117.002 5500 0.2 0.2uT 5% M1 S6 L 118.001 SET MTB Time/div : 5.0us 118.001 SET DTB Time/div : 5.0us 118.002 5500 0.5 0.5uT 5% M1 S6 L 119.001 SET MTB Time/div : 10.0us 119.001 SET DTB Time/div : 10.0us 119.001 SET Ch A Ampl/div : .5V 119.002 5500 1 1uT 5% M1 S6 L 120.001 SET MTB Time/div : 20.0us 120.001 SET DTB Time/div : 20.0us 120.002 5500 2 2uT 5% M1 S6 L 121.001 SET MTB Time/div : 50.0us 121.001 SET DTB Time/div : 50.0us 121.002 5500 5 5uT 5% M1 S6 L 122.001 SET MTB Time/div : 0.1ms 122.001 SET DTB Time/div : 0.1ms 122.002 5500 10 10uT 5% M1 S6 L 123.001 SET MTB Time/div : 0.2ms 123.001 SET DTB Time/div : 0.2ms 123.002 5500 20 20uT 5% M1 S6 L 124.001 SET MTB Time/div : 0.5ms 124.001 SET DTB Time/div : 0.5ms 124.002 5500 50 50uT 5% M1 S6 L 125.001 HEAD {5.3.36 Delay-time jitter} 125.002 SET Vertical Mode : Ch A 125.002 SET Horizontal Mode : MTB 125.002 SET Delay-time : Min 125.002 SET X MAG : x1 125.002 SET MTB Time/div : 2ms 125.002 SET DTB Time/div : 2us 125.002 SET Ch A Ampl/div : .2V 125.003 MESS Set the DELAY-TIME to start the DTB at the second marker 125.003 MESS Switch the horz mode to DTB and check the instability 125.003 MESS of the rising edge of the marker is < 1 division. 125.004 5500 1mT M1 S6 S L 125.005 EVAL Is the {DTB instability < 1 division}? 126.001 MESS 126.002 HEAD CONCLUSION OF THE PROCEDURE 126.003 DISP Disconnect all leads from the calibration system first 126.003 DISP and then from the oscilloscope. 126.004 END