Fluke MET/CAL Procedure ============================================================================= INSTRUMENT: Fluke PM 3082: (1 yr) CAL VER RS-232C /5011,5191,6060 INSTRUMENT: Fluke PM 3084: (1 yr) CAL VER RS-232C /5011,5191,6060 DATE: 22-Oct-97 AUTHOR: Fluke Corporation REVISION: $Revision: 1.3 $ ADJUSTMENT THRESHOLD: 70% NUMBER OF TESTS: 144 NUMBER OF LINES: 1501 CONFIGURATION: Philips PM 5191 CONFIGURATION: Fluke 6060B CONFIGURATION: Tektronix CG5011 ============================================================================= # # Source: # # Compatibility: # MET/CAL 4.0 or later # # Subprocedures: # None # # Required Files: # ini_val.exe Executable: Gets default port for UUT from METCAL.INI # # System Specifications: # TUR calculation is based on specification interval of the accuracy file. # The default 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 ASK- R N P F W 1.002 PORT [P1200,N,8,1,N] 1.003 HEAD PREPARATION 1.004 DISP Turn the oscilloscope ON. The performance test can 1.004 DISP be started after a warming-up time of 30 minutes. 1.005 DOS ini_val metcal.ini startup port 1.006 DISP Connect the UUT to [MEM2]. 1.007 HEAD RS-232C SETUP 1.008 DISP Select on the oscilloscope the key sequence: 1.008 DISP "UTIL > REMOTE SETUP (if available) > RS232 SETUP" 1.008 DISP 1.008 DISP Select in the BAUD: 1200 1.008 DISP UTIL RS232 SETUP DATA: 8 1.008 DISP menu: PARITY: no 1.008 DISP . 3-wire 1.008 DISP . XON-XOFF: on 1.009 HEAD INITIALIZE 1.010 PORT DS[13][I] # Find instrument ID # PM3084: M[20] = 1 (TRUE) # PM3082: M[20] = -1 (FALSE) 1.011 PORT ID[13][I][I] 1.012 MATH M[20] = MEM - 3083 1.013 HEAD {AUTOCAL PROCEDURE} 1.014 PORT CL[13][I] 1.015 MATH MEM1 = MEM 1.016 JMPZ 1.026 1.017 PORT ST[13][I][I] 1.018 MATH MEM1 = MEM 1.019 JMPZ 1.023 1.020 DISP [7][7]An autocal error has been reported.[7][7] 1.020 DISP Reported error: [MEM1]. 1.020 DISP 1.020 DISP The reported error indicates in what part of the oscil- 1.020 DISP loscope the fault may be expected. 1.020 DISP 1.020 DISP The oscilloscope needs corrective maintenance. 1.021 RSLT =Autocal error: [MEM1]. 1.022 JMP 144.001 1.023 DISP [7][7]An autocal error has been reported.[7][7] 1.023 DISP 1.023 DISP The oscilloscope needs corrective maintenance. 1.024 RSLT =Autocal error. 1.025 JMP 144.001 1.026 RSLT =AUTOCAL performed. 1.027 HEAD {ORTHOGONALITY} 1.028 PORT DS[13][I] 1.029 DISP Connect the PM 519x generator output to the Ch 1 input 1.029 DISP of the oscilloscope. 1.029 DISP 1.029 DISP Use a 50 Ohm termination between the cable and the UUT. 1.029 DISP 1.029 DISP Remove other connections. 1.030 PORT PS2,0106E803FD2D0000, 1.031 PORT 110ED007FA1086000000400000000011[13][I] 1.032 5191 8.00Vpp 50H -D SI S L 1.033 MESS Align the trace exactly in parallel with the 1.033 MESS horizontal graticule lines using the screw-driver 1.033 MESS operated TRACE ROT control. 1.033 MESS 1.034 EVAL {Is the line exactly in parallel with the graticule lines?} 2.001 PORT PS2,0106E803FD250000, 2.002 PORT 100701504100090000[13][I] 2.003 PORT PS1,510390010A[13][I] 2.004 5191 8.00Vpp 50H -D SI S L 2.005 MESS Requirements: 2.005 MESS The trace must be within 0.07 division parallel to the 2.005 MESS vertical graticule line in the center of the screen. 2.005 MESS 2.006 EVAL {Is the trace within 0.07 div parallel to the graticule?} 3.001 HEAD {TRACE DISTORTION} 3.002 PORT DS[13][I] 3.003 PORT PS2,0106E803FB0D5802, 3.004 PORT 110EE803FA1086000000400000000011[13][I] 3.005 MESS Position the horizontal line 3 division above mid screen 3.005 MESS by using the POS control of Ch 1 (POS = +3 div). 3.005 MESS 3.005 MESS Requirement: 3.005 MESS The deviation from the ideal straight line must not 3.005 MESS exceed 0.1 div. near the top of the screen. 3.005 MESS 3.006 EVAL {Is the deviation < 0.1 div near the top of the screen?} 4.001 PORT PS1,0106E803FB0DA8FD[13][I] 4.002 MESS Position the horizontal line 3 division under mid screen 4.002 MESS by using the POS control of Ch 1 (POS = -3 div). 4.002 MESS 4.002 MESS Requirement: 4.002 MESS The deviation from the ideal straight line must not 4.002 MESS exceed 0.1 div. near the bottom of the screen. 4.002 MESS 4.003 EVAL {Is the deviation < 0.1 div near the bottom of the screen?} 5.001 PORT PS3,0106E803FD210000, 5.002 PORT 1007015041000980C1, 5.003 PORT 110ED007FA1086010000400000000011[13][I] 5.004 PORT PS1,510390010A[13][I] 5.005 5191 8.00Vpp 50H -D SI S L 5.006 MESS Position the vertical line 4 division left from mid 5.006 MESS screen by using the XPOS control (XPOS = -4 div). 5.006 MESS 5.006 MESS Requirement: 5.006 MESS The deviation from the ideal straight line must not 5.006 MESS exceed 0.1 div near the left of the screen. 5.006 MESS 5.007 EVAL {Is deviation < 0.1 div on the left side of the screen?} 6.001 PORT PS1,10070150410009803E[13][I] 6.002 5191 8.00Vpp 50H -D SI S L 6.003 MESS Position the vertical line 4 division right from mid 6.003 MESS screen by using the XPOS control (XPOS = +4 div). 6.003 MESS 6.003 MESS Requirement: 6.003 MESS The deviation from the ideal straight line must not 6.003 MESS exceed 0.1 div near the right of the screen. 6.003 MESS 6.004 EVAL {Is deviation < 0.1 div on the right side of the screen?} 7.001 HEAD {HORIZONTAL DEFLECTION; DISPLAY MODES; TRACE SEP} 7.002 PORT DS[13][I] 7.003 PORT PS4,0106E803FC210000, 7.004 PORT 100700504000090000, 7.005 PORT 110E8813F91087010000400000000011, 7.006 PORT 120B8813F81000000446000000[13][I] 7.007 PORT PS1,510390010A[13][I] 7.008 5191 400.00mVpp 2kH -D SI S L 7.009 MESS Requirements: 7.009 MESS An intensified part (=DTB) must be visible, which can 7.009 MESS be shifted horizontally by using the DELAY control. 7.009 MESS 7.010 EVAL {Is the DTB visible, which can be shifted using DELAY?} 8.001 PORT PS3,110E8813F91086010000400000000011, 8.002 PORT 120B8813F81000000646000000, 8.003 PORT 50060781000068FC[13][I] 8.004 5191 400.00mVpp 2kH -D SI S L 8.005 MESS Move the DTB trace below the MTBI trace down using the 8.005 MESS TRACE SEP keys (if not already). 8.005 MESS 8.005 MESS Requirement: 8.005 MESS The MTBI and DTB traces should not overlap. 8.005 MESS 8.006 EVAL {Can the DTB trace be moved below the the MTBI trace?} 9.001 PORT PS1,5006078100004803[13][I] 9.002 5191 400.00mVpp 2kH -D SI S L 9.003 MESS Move the DTB trace above the MTBI trace down using the 9.003 MESS TRACE SEP keys (if not already). 9.003 MESS 9.003 MESS Requirement: 9.003 MESS The MTBI and DTB traces should not overlap. 9.003 MESS 9.004 EVAL {Can the DTB trace be moved above the the MTBI trace?} 10.001 HEAD {HORIZONTAL DEFLECTION; X DEFLECTION} 10.002 PORT DS[13][I] 10.003 PORT PS3,0106E803FC210000, 10.004 PORT 1007015040000920FE, 10.005 PORT 110ED007F91086010000400000000011[13][I] 10.006 PORT PS1,510390010A[13][I] 10.007 5191 800.00mVpp 2kH -D SI S L 10.008 MESS Requirements: 10.008 MESS A line with a 45 degrees angle must be displayed. 10.008 MESS 10.009 EVAL {Is a line with a 45 degrees angle displayed?} 11.001 HEAD {HORIZONTAL DEFLECTION; DELAYED TIME-BASE JITTER} 11.002 PORT DS[13][I] 11.003 PORT PS4,0106D007FB210000, 11.004 PORT 100700504000090000, 11.005 PORT 110EE803FA1084010000400000000011, 11.006 PORT 120B8813F61000000646000000[13][I] 11.007 PORT PS1,5103E8030A[13][I] 11.008 5191 120.00mVpp 1MH -D SI S L 11.009 MESS Requirement: 11.009 MESS The jitter of the DTB must be less than 0.4 div. 11.009 MESS 11.010 EVAL {Is the jitter of the DTB less than 0.4 div?} 12.001 HEAD {HORIZONTAL DEFLECTION; HIGH FREQUENCY RESPONSE} 12.002 PORT DS[13][I] 12.002 PORT PS4,02068813FB050000, 12.003 PORT 01068813FA200000, 12.004 PORT 100701504000090000, 12.004 PORT 110EE803F81086010000400000000011[13][I] 12.005 PORT PS1,510390010A[13][I] 12.006 MESS Adjust the amplitude of the sine-wave to 6 divisions 12.006 MESS horizontal deflection. 12.007 5191 30.00mVpp 1% 50kH -D SI N L 12.008 5191 2.00MH mVpp -D SI S L 12.009 MESS The frequency is increased to 2MHz. 12.009 MESS Verify that the trace width on the screen is not below 12.009 MESS 4.2 divisions. 12.009 MESS 12.010 EVAL {Is the trace width at 2MHz more than 4.2 divisions?} 13.001 HEAD {MAX PHASE SHIFT; HORIZONTAL/VERTICAL DEFLECTION} 13.002 PORT DS[13][I] 13.003 PORT PS3,0106D007FC210000, 13.004 PORT 100701504000090000, 13.005 PORT 110ED007F91086010000400000000011[13][I] 13.006 PORT PS1,510390010A[13][I] 13.007 5191 100.00kH 1.2Vpp -D SI S L 13.008 MESS Requirements: 13.008 MESS The phase shift must be less than 0.32 division. The 13.008 MESS phase shift is the difference between the upper and 13.008 MESS lower trace in vertical direction. 13.008 MESS 13.009 EVAL {Is the phase shift less than 0.32 div?} 14.001 HEAD {Z-MOD; SENSITIVITY} 14.002 PORT DS[13][I] 14.003 DISP Connect the PM 519x generator output to a BNC T-piece, 14.003 DISP connect the outputs of the T-piece to the Ch 1 and Z 14.003 DISP inputs of the oscilloscope. The Z input is located on 14.003 DISP the rear panel. 14.003 DISP 14.003 DISP Use a 50 Ohm termination between the generator 14.003 DISP output and the BNC T-piece. 14.003 DISP Remove other connections. 14.004 PORT PS2,0106E803FD050000, 14.005 PORT 110E8813F91086000000400000000011[13][I] 14.006 5191 8.0Vpp 1kH -D SI S L 14.007 MESS 14.008 EVAL {Is the top of the sine-wave signal blanked?} 15.001 HEAD {VERTICAL DEFLECTION; LOW-FREQ RESPONSE; Ch 1} 15.002 PORT DS[13][I] 15.003 DISP Connect the PM 519x generator output to the Ch 1 input 15.003 DISP of the oscilloscope. 15.003 DISP 15.003 DISP Use a 50 Ohm termination between the cable and the UUT. 15.003 DISP 15.003 DISP Remove other connections. 15.004 PORT PS2,0106E803FC210000, 15.005 PORT 110E8813F81086010000400000000011[13][I] 15.006 MESS Adjust the amplitude of the sine-wave to 6 divisions. 15.007 5191 600.00mVpp 1% 5kH -D SI N L 15.008 5191 10H mVpp -D SI S L 15.009 PORT PS1,100701504100090000[13][I] 15.010 PORT PS1,510390010A[13][I] 15.011 MESS The frequency is decreased to 10Hz. 15.011 MESS Verify that the amplitude on the screen is not below 15.011 MESS 4.2 divisions. 15.011 MESS 15.012 EVAL {Is the amplitude at 10Hz more than 4.2 divisions?} 16.001 HEAD {VERTICAL DEFLECTION; POSITION RANGE; Ch 1} 16.002 PORT DS[13][I] 16.003 PORT PS2,0106E803FC21DC05, 16.004 PORT 110E8813F91086000000400000000011[13][I] 16.005 5191 800mVpp 1kH -D SI S L 16.006 MESS Position the signal maximal above mid screen by using 16.006 MESS the POS control of Ch 1. 16.006 MESS 16.007 EVAL {Can the bottom of signal be positioned outside graticule?} 17.001 PORT PS1,0106E803FC2124FA[13][I] 17.002 5191 800mVpp 1kH -D SI S L 17.003 MESS Position the signal maximal under mid screen by using 17.003 MESS the POS control of Ch 1. 17.003 MESS 17.004 EVAL {Can the top of signal be positioned outside graticule?} 18.001 HEAD {VERTICAL DEFLECTION; LOW-FREQ RESPONSE; Ch 2} 18.002 PORT DS[13][I] 18.003 DISP Connect the PM 519x generator output to the Ch 2 input 18.003 DISP of the oscilloscope. 18.003 DISP 18.003 DISP Use a 50 Ohm termination between the cable and 18.003 DISP the oscilloscope. 18.003 DISP 18.003 DISP Remove other connections. 18.004 PORT PS3,0206E803FC210000, 18.005 PORT 01068813FB040000, 18.006 PORT 110E8813F81086010000410000000011[13][I] 18.007 MESS Adjust the amplitude of the sine-wave to 6 divisions. 18.008 5191 600.00mVpp 1% 5kH -D SI N L 18.009 5191 10H mVpp -D SI S L 18.010 PORT PS1,100701504000090000[13][I] 18.011 PORT PS1,510390010A[13][I] 18.012 MESS The frequency is decreased to 10Hz. 18.012 MESS Verify that the amplitude on the screen is not below 18.012 MESS 4.2 divisions. 18.012 MESS 18.013 EVAL {Is the amplitude at 10Hz more than 4.2 divisions?} 19.001 HEAD {VERTICAL DEFLECTION; POSITION RANGE; Ch 2} 19.002 PORT DS[13][I] 19.003 PORT PS3,0206E803FC21DC05, 19.004 PORT 01068813FB040000, 19.005 PORT 110E8813F91086000000410000000011[13][I] 19.006 5191 800mVpp 1kH -D SI S L 19.007 MESS Position the signal maximal above mid screen by using 19.007 MESS the POS control of Ch 2. 19.007 MESS 19.008 EVAL {Can the bottom of signal be positioned outside graticule?} 20.001 PORT PS1,0206E803FC2124FA[13][I] 20.002 5191 800mVpp 1kH -D SI S L 20.003 MESS Position the signal maximal under mid screen by using 20.003 MESS the POS control of Ch 2. 20.003 MESS 20.004 EVAL {Can the top of signal be positioned outside graticule?} 21.001 HEAD {VERTICAL DEFLECTION; LOW-FREQ RESPONSE; Ch 3} 21.002 PORT DS[13][I] 21.003 DISP Connect the PM 519x generator output to the Ch 3 input 21.003 DISP of the oscilloscope. 21.003 DISP 21.003 DISP Use a 50 Ohm termination between the cable and 21.003 DISP the oscilloscope. 21.003 DISP 21.003 DISP Remove other connections. 21.004 PORT PS3,0306E803FC210000, 21.005 PORT 01068813FB040000, 21.006 PORT 110E8813F81086010000420000000011[13][I] 21.007 MESS Adjust the amplitude of the sine-wave to 6 divisions. 21.008 5191 600.00mVpp 1% 5kH -D SI N L 21.009 5191 10H mVpp -D SI S L 21.010 PORT PS1,100701504000090000[13][I] 21.011 PORT PS1,510390010A[13][I] 21.012 MESS The frequency is decreased to 10Hz. 21.012 MESS Verify that the amplitude on the screen is not below 21.012 MESS 4.2 divisions. 21.012 MESS 21.013 EVAL {Is the amplitude at 10Hz more than 4.2 divisions?} 22.001 HEAD {VERTICAL DEFLECTION; POSITION RANGE; Ch 3} 22.002 PORT DS[13][I] 22.003 PORT PS3,0306E803FC21DC05, 22.004 PORT 01068813FB040000, 22.005 PORT 110E8813F91086000000420000000011[13][I] 22.006 5191 800mVpp 1kH -D SI S L 22.007 MESS Position the signal maximal above mid screen by using 22.007 MESS the POS control of Ch 3. 22.007 MESS 22.008 EVAL {Can the bottom of signal be positioned outside graticule?} 23.001 PORT PS1,0306E803FC2124FA[13][I] 23.002 5191 800mVpp 1kH -D SI S L 23.003 MESS Position the signal maximal under mid screen by using 23.003 MESS the POS control of Ch 3. 23.003 MESS 23.004 EVAL {Can the top of signal be positioned outside graticule?} 24.001 HEAD {VERTICAL DEFLECTION; LOW-FREQ RESPONSE; Ch 4} 24.002 PORT DS[13][I] 24.003 DISP Connect the PM 519x generator output to the Ch 4 input 24.003 DISP of the oscilloscope. 24.003 DISP 24.003 DISP Use a 50 Ohm termination between the cable and 24.003 DISP the oscilloscope. 24.003 DISP 24.003 DISP Remove other connections. 24.004 PORT PS3,0406E803FC210000, 24.005 PORT 01068813FB040000, 24.006 PORT 110E8813F81086010000430000000011[13][I] 24.007 MESS Adjust the amplitude of the sine-wave to 6 divisions. 24.008 5191 600.00mVpp 1% 5kH -D SI N L 24.009 5191 10H mVpp -D SI S L 24.010 PORT PS1,100701504000090000[13][I] 24.011 PORT PS1,510390010A[13][I] 24.012 MESS The frequency is decreased to 10Hz. 24.012 MESS Verify that the amplitude on the screen is not below 24.012 MESS 4.2 divisions. 24.012 MESS 24.013 EVAL {Is the amplitude at 10Hz more than 4.2 divisions?} 25.001 HEAD {VERTICAL DEFLECTION; POSITION RANGE; Ch 4} 25.002 PORT DS[13][I] 25.003 PORT PS3,0406E803FC21DC05, 25.004 PORT 01068813FB040000, 25.005 PORT 110E8813F91086000000430000000011[13][I] 25.006 5191 800mVpp 1kH -D SI S L 25.007 MESS Position the signal maximal above mid screen by using 25.007 MESS the POS control of Ch 4. 25.007 MESS 25.008 EVAL {Can the bottom of signal be positioned outside graticule?} 26.001 PORT PS1,0406E803FC2124FA[13][I] 26.002 5191 800mVpp 1kH -D SI S L 26.003 MESS Position the signal maximal under mid screen by using 26.003 MESS the POS control of Ch 1. 26.003 MESS 26.004 EVAL {Can the top of signal be positioned outside graticule?} 27.001 HEAD {VERTICAL DEFLECTION; CMRR AT 50MHz; Ch 1/Ch 2} 27.002 PORT DS[13][I] 27.003 DISP Connect the 606xx generator output to the input of a 27.003 DISP POWER SPLITTER. Connect the outputs of the SPLITTER 27.003 DISP to the Ch 1 and Ch 2 inputs of the oscilloscope. 27.003 DISP 27.003 DISP Use cables of equal length and 50 Ohm terminations 27.003 DISP between SPLITTER and oscilloscope. 27.003 DISP 27.003 DISP Remove other connections. 27.004 PORT PS3,0106E803FC610000, 27.005 PORT 0206E803FC610000, 27.006 PORT 1118D007F51086010000400000000011[13][I] 27.007 MESS Adjust the amplitude of the sine-wave to 8 divisions 27.007 MESS deflection. 27.008 6060 1.6Vpp 1% 50MH -D N L 27.009 MATH M[3] = MEM 27.010 PORT PS3,0F0485000300, 27.011 PORT 0106E803FC600000, 27.012 PORT 0206E803FC700000[13][I] 27.013 MESS Readjust the VAR function of Ch 1 for minimum trace- 27.013 MESS height. Use the VAR of Ch 2 if necessary. 27.013 MESS 27.013 MESS Requirement: 27.013 MESS The amplitude of the (Ch 1-Ch 2) signal must be less 27.013 MESS than 0.32 div. 27.013 MESS 27.014 EVAL {Is the amplitude (Ch 1-Ch 2) < 0.32 div at 50MHz?} # PM3082: CMRR test for Ch 3/Ch 4 will be skipped 28.001 MATH MEM1 = M[20] 28.002 JMPF 29.001 28.003 HEAD {VERTICAL DEFLECTION; CMRR AT 50MHz; Ch 3/Ch 4} 28.004 PORT DS[13][I] 28.005 DISP Connect the 606xx generator output to the input of a 28.005 DISP POWER SPLITTER. Connect the outputs of the SPLITTER 28.005 DISP to the Ch 3 and Ch 4 inputs of the oscilloscope. 28.005 DISP 28.005 DISP Use cables of equal length and 50 Ohm terminations 28.005 DISP between SPLITTER and oscilloscope. 28.005 DISP 28.005 DISP Remove other connections. 28.006 PORT PS5,0306E803FC600000, 28.007 PORT 0406E803FC700000, 28.008 PORT 01068813FB040000, 28.009 PORT 0F0486000300, 28.010 PORT 1118D007F51086010000420000000011[13][I] 28.011 MATH MEM = M[3] 28.012 6060 Vpp 50MH -D S L 28.013 MESS Readjust the VAR function of Ch 3 for minimum trace- 28.013 MESS height. Use the VAR of Ch 4 if necessary. 28.013 MESS 28.013 MESS Requirement: 28.013 MESS The amplitude of the (Ch 3-Ch 4) signal must be less 28.013 MESS than 0.32 div. 28.013 MESS 28.014 EVAL {Is the amplitude (Ch 3-Ch 4) < 0.32 div at 50MHz?} 29.001 HEAD {VERTICAL DEFLECTION; HIGH-FREQ RESPONSE; Ch 1} 29.002 PORT DS[13][I] 29.003 DISP Connect the 606xx generator output to the Ch 1 input of 29.003 DISP the oscilloscope. 29.003 DISP 29.003 DISP Use a 50 Ohm termination between the cable and 29.003 DISP the oscilloscope. 29.003 DISP 29.003 DISP Remove other connections. 29.004 PORT PS2,0106E803FC210000, 29.005 PORT 110E8813F71086000000400000000011[13][I] 29.006 MESS Adjust the amplitude of the sine-wave to 6 divisions. 29.007 6060 600.00mVpp 1% 100kH -D N L 29.008 MATH M[3] = MEM 29.009 6060 100MH mVpp -D S L 29.010 MESS The frequency is increased to 100MHz. 29.010 MESS Verify that the amplitude on the screen is not below 29.010 MESS 4.2 divsions. 29.010 MESS 29.011 EVAL {Is the amplitude at 100MHz more than 4.2 div?} 30.001 PORT PS1,0F0494000300[13][I] 30.002 MATH MEM = M[3] 30.003 6060 20.00MH mVpp -D S L 30.004 MESS The frequency is decreased to 20MHz and the bandwidth 30.004 MESS limiter is switched on. 30.004 MESS Verify that the amplitude on the screen is approximately 30.004 MESS 4.2 divisions. 30.004 MESS 30.005 EVAL {Is the amplitude at 20MHz (BWL) approx. 4.2 div?} 31.001 HEAD {VERTICAL DEFLECTION; DYN RANGE AT 25MHz; Ch 1} 31.002 PORT DS[13][I] 31.003 PORT PS2,0106E803FC216806, 31.004 PORT 110ED007F51086000000400000000011[13][I] 31.005 PORT PS1,510390010A[13][I] 31.006 6060 2.40Vpp 25MH -D S L 31.007 MESS Requirement: 31.007 MESS The bottom of the sine-wave signal of 24 divisions must 31.007 MESS be displayed distortion-free. 31.007 MESS 31.008 EVAL {Is the bottom of the Ch 1 signal displayed distortion free?} 32.001 PORT PS1,0106E803FC2198F9[13][I] 32.002 6060 2.40Vpp 25MH -D S L 32.003 MESS Requirement: 32.003 MESS The top of the sine-wave signal of 24 divisions must 32.003 MESS be displayed distortion-free. 32.003 MESS 32.004 EVAL {Is the top of the Ch 1 signal displayed distortion free?} 33.001 HEAD {VERTICAL DEFLECTION; DYN RANGE AT 100MHz; Ch 1} 33.002 PORT DS[13][I] 33.003 PORT PS3,0106E803FC210000, 33.004 PORT 100700504180090000, 33.005 PORT 110ED007F51086000000400000000011[13][I] 33.006 PORT PS1,510390010A[13][I] 33.007 MESS Adjust the amplitude of the sine-wave to 8 divisions. 33.008 6060 1.20Vpp 1% 100MH -D N L 33.009 MATH M[3] = MEM 33.010 MESS 33.011 EVAL {Is the Ch 1 100MHz signal displayed distortion free?} 34.001 HEAD {VERTICAL DEFLECTION; CROSS TALK AT 100MHz; Ch 1} 34.002 PORT DS[13][I] 34.003 PORT PS5,0206E803FC01C800, 34.004 PORT 0306E803FC010000, 34.005 PORT 0406E803FC0138FF, 34.006 PORT 0106E803FC200000, 34.007 PORT 110ED007F51086000000400000000011[13][I] 34.008 MATH MEM = M[3] 34.009 6060 Vpp 100MH -D S L 34.010 MESS Requirements: 34.010 MESS The amplitude of the channels Ch 2, Ch 3 and Ch 4 must 34.010 MESS be less than 0.16 division. 34.010 MESS 34.011 EVAL {Is the Ch 1 cross talk at 100MHz less than 0.16 div?} 35.001 HEAD {MTB TRIGGER SENSITIVITY; Ch 1} 35.002 PORT DS[13][I] 35.003 PORT PS3,01068813FC250000, 35.004 PORT 100700514000090000, 35.005 PORT 110ED007F51006010000400000000111[13][I] 35.006 MESS Verify that the signal is still well triggered, if 35.006 MESS needed adjust LEVEL MTB to obtain triggering. 35.006 MESS 35.006 MESS Requirement: 35.006 MESS The 100MHz signal must be well-triggered at all 35.006 MESS amplitudes above 1 division. 35.007 6060 0.50Vpp 1% 100MH -D N L 35.008 MESS 35.009 EVAL {Is MTB signal on Ch 1 well-triggered at 1 div @ 100MHz?} 36.001 PORT PS1,110EE803F81006010000400000000111[13][I] 36.002 MESS Verify that the signal is still well triggered, if 36.002 MESS needed adjust LEVEL MTB to obtain triggering. 36.002 MESS 36.002 MESS Requirement: 36.002 MESS The 100kHz signal must be well-triggered at all 36.002 MESS amplitudes above 0.5 division. 36.003 6060 0.25Vpp 1% 100kH -D N L 36.004 MESS 36.005 EVAL {Is MTB signal on Ch 1 well-triggered at 0.5 div @ 100kHz?} 37.001 PORT PS1,110ED007F51006010000400000000111[13][I] 37.002 MESS Verify that the signal is still well triggered, if 37.002 MESS needed adjust LEVEL MTB to obtain triggering. 37.002 MESS 37.002 MESS Requirement: 37.002 MESS The 200MHz signal must be well-triggered at all 37.002 MESS amplitudes above 2 divisions. 37.003 6060 1.00Vpp 1% 200MH -D N L 37.004 MESS 37.005 EVAL {Is MTB signal on Ch 1 well-triggered at 2 div @ 200MHz?} 38.001 HEAD {DTB TRIGGER SENSITIVITY; Ch 1} 38.002 PORT DS[13][I] 38.003 PORT PS5,01068813FC259001, 38.004 PORT 100700514000090000, 38.005 PORT 110ED007F61006010000400000000111, 38.006 PORT 120BD007F51000000640000001, 38.007 PORT 500607810000E0FC[13][I] 38.007 PORT PS1,510390010A[13][I] 38.008 MESS Verify that the signal is still well triggered, if 38.008 MESS needed adjust LEVEL MTB and LEVEL DTB to obtain 38.008 MESS triggering. 38.008 MESS 38.008 MESS Requirement: 38.008 MESS The 100MHz signal must be well-triggered at all 38.008 MESS amplitudes above 1 division. 38.009 6060 0.50Vpp 1% 100MH -D N L 38.010 MESS 38.011 EVAL {Is DTB signal on Ch 1 well-triggered at 1 div @ 100MHz?} 39.001 PORT PS2,110E8813F81006010000400000000111, 39.002 PORT 120B8813F71000000640000001[13][I] 39.003 MESS Verify that the signal is still well triggered, if 39.003 MESS needed adjust LEVEL MTB and LEVEL DTB to obtain 39.003 MESS triggering. 39.003 MESS 39.003 MESS Requirement: 39.003 MESS The 100KHz signal must be well-triggered at all 39.003 MESS amplitudes above 0.5 division. 39.004 6060 0.25Vpp 1% 100kH -D N L 39.005 MESS 39.006 EVAL {Is DTB signal on Ch 1 well-triggered at 0.5 div @ 100kHz?} 40.001 PORT PS2,110ED007F61006010000400000000111, 40.002 PORT 120BD007F51000000640000001[13][I] 40.003 MESS Verify that the signal is still well triggered, if 40.003 MESS needed adjust LEVEL MTB and LEVEL DTB to obtain 40.003 MESS triggering. 40.003 MESS 40.003 MESS Requirement: 40.003 MESS The 200MHz signal must be well-triggered at all 40.003 MESS amplitudes above 2 divisions. 40.004 6060 1.00Vpp 1% 200MH -D N L 40.005 MESS 40.006 EVAL {Is DTB signal on Ch 1 well-triggered at 2 div @ 200MHz?} 41.001 HEAD {VERTICAL DEFLECTION; HIGH-FREQ RESPONSE; Ch 2} 41.002 PORT DS[13][I] 41.003 DISP Connect the 606xx generator output to the Ch 2 input of 41.003 DISP the oscilloscope. 41.003 DISP 41.003 DISP Use a 50 Ohm termination between the cable and 41.003 DISP the oscilloscope. 41.003 DISP 41.003 DISP Remove other connections. 41.004 PORT PS3,0206E803FC210000, 41.005 PORT 01068813FB040000, 41.006 PORT 110E8813F71086010000410000000011[13][I] 41.007 MESS Adjust the amplitude of the sine-wave to 6 divisions. 41.008 6060 600.00mVpp 1% 100kH -D N L 41.009 MATH M[3]=MEM 41.010 6060 100MH mVpp -D S L 41.011 MESS The frequency is increased to 100MHz. 41.011 MESS Verify that the amplitude on the screen is not below 41.011 MESS 4.2 divisions. 41.011 MESS 41.012 EVAL {Is the amplitude at 100MHz more than 4.2 div?} 42.001 PORT PS1,0F0494000300[13][I] 42.002 MATH MEM=M[3] 42.003 6060 20.00MH mVpp -D S L 42.004 MESS The frequency is decreased to 20MHz and the bandwidth 42.004 MESS limiter is switched on. 42.004 MESS Verify that the amplitude on the screen is approximately 42.004 MESS 4.2 divisions. 42.004 MESS 42.005 EVAL {Is the amplitude at 20MHz (BWL) approx. 4.2 div?} 43.001 HEAD {VERTICAL DEFLECTION; DYN RANGE AT 25MHz; Ch 2} 43.002 PORT DS[13][I] 43.003 PORT PS3,0206E803FC216806, 43.004 PORT 01068813FB040000, 43.005 PORT 110ED007F51086000000410000000011[13][I] 43.006 PORT PS1,510390010A[13][I] 43.007 6060 2.400Vpp 25MH -D S L 43.008 MESS Requirement: 43.008 MESS The bottom of the sine-wave signal of 24 divisions must 43.008 MESS be displayed distortion-free. 43.008 MESS 43.009 EVAL {Is bottom of the Ch 2 signal displayed distortion free?} 44.001 PORT PS1,0206E803FC2198F9[13][I] 44.002 6060 2.400Vpp 25MH -D S L 44.003 MESS Requirement: 44.003 MESS The top of the sine-wave signal of 24 divisions must 44.003 MESS be displayed distortion-free. 44.003 MESS 44.004 EVAL {Is top of the Ch 2 signal displayed distortion free?} 45.001 HEAD {VERTICAL DEFLECTION; DYN RANGE AT 100MHz; Ch 2} 45.002 PORT DS[13][I] 45.003 PORT PS4,0206E803FC210000, 45.003 PORT 01068813FB040000, 45.004 PORT 100700504180090000, 45.005 PORT 110ED007F51086000000410000000011[13][I] 45.006 PORT PS1,510390010A[13][I] 45.007 MESS Adjust the amplitude of the sine-wave to 8 divisions. 45.008 6060 1.200Vpp 1% 100MH -D N L 45.009 MATH M[3] = MEM 45.010 MESS 45.011 EVAL {Is the Ch 2 100MHz signal displayed distortion free?} 46.001 HEAD {VERTICAL DEFLECTION; CROSS TALK AT 100MHz; Ch 2} 46.002 PORT DS[13][I] 46.003 PORT PS5,0106E803FC01C800, 46.004 PORT 0306E803FC010000, 46.005 PORT 0406E803FC0138FF, 46.006 PORT 0206E803FC200000, 46.007 PORT 110ED007F51086000000410000000011[13][I] 46.008 MATH MEM = M[3] 46.009 6060 Vpp 100MH -D S L 46.010 MESS Requirements: 46.010 MESS The amplitude of the channels Ch 1, Ch 3 and Ch 4 must 46.010 MESS be less than 0.16 division. 46.010 MESS 46.011 EVAL {Is the Ch 2 cross talk at 100MHz less than 0.16 div?} 47.001 HEAD {MTB TRIGGER SENSITIVITY; Ch 2} 47.002 PORT DS[13][I] 47.003 PORT PS4,02068813FC250000, 47.004 PORT 01068813FB040000, 47.005 PORT 100700514000090000, 47.006 PORT 110EE803F81006010000410000000111[13][I] 47.007 MESS Verify that the signal is still well-triggered, if 47.007 MESS needed adjust LEVEL MTB to obtain triggering. 47.007 MESS 47.007 MESS Requirement: 47.007 MESS The 100kHz signal must be well-triggered at all 47.007 MESS amplitudes above 0.5 division. 47.008 6060 0.250Vpp 1% 100kH -D N L 47.009 MESS 47.010 EVAL {Is MTB signal on Ch 2 well-triggered at 0.5 div @ 100KHz?} 48.001 PORT PS1,110ED007F51006000000410000000111[13][I] 48.002 MESS Verify that the signal is still well-triggered, if 48.002 MESS needed adjust LEVEL MTB to obtain triggering. 48.002 MESS 48.002 MESS Requirement: 48.002 MESS The 200MHz signal must be well-triggered at all 48.002 MESS amplitudes above 2 divisions. 48.003 6060 1.0Vpp 1% 200MH -D N L 48.004 MESS 48.005 EVAL {Is MTB signal on Ch 2 well-triggered at 2 div @ 200MHz?} 49.001 HEAD {DTB TRIGGER SENSITIVITY; Ch 2} 49.002 PORT DS[13][I] 49.003 PORT PS6,02068813FC259001 49.004 PORT 01068813FB040000, 49.005 PORT 100700504000090000, 49.006 PORT 110E8813F81006010000410000000111, 49.007 PORT 120B8813F71000000641000001, 49.008 PORT 500607810000E0FC[13][I] 49.009 PORT PS1,510390010A[13][I] 49.010 MESS Verify that the signal is still well-triggered, if 49.010 MESS needed adjust LEVEL MTB and LEVEL DTB to obtain 49.010 MESS triggering. 49.010 MESS 49.010 MESS Requirement: 49.010 MESS The 100kHz signal must be well-triggered at all 49.010 MESS amplitudes above 0.5 division. 49.011 6060 0.250Vpp 1% 100kH -D N L 49.012 MESS 49.013 EVAL {Is DTB signal on Ch 2 well triggered at 0.5 div @ 100KHz?} 50.001 PORT PS2,110ED007F61006010000410000000111, 50.002 PORT 120BD007F51000000641000001[13][I] 50.003 MESS Verify that the signal is still well-triggered, if 50.003 MESS needed adjust LEVEL MTB and LEVEL DTB to obtain 50.003 MESS triggering. 50.003 MESS 50.003 MESS Requirement: 50.003 MESS The 200MHz signal must be well-triggered at all 50.003 MESS amplitudes above 2 divisions. 50.004 6060 1.00Vpp 1% 200MH -D N L 50.005 MESS 50.006 EVAL {Is DTB signal on Ch 2 well triggered at 2 div @ 200MHz?} 51.001 HEAD {VERTICAL DEFLECTION; HIGH-FREQ RESPONSE; Ch 3} 51.002 PORT DS[13][I] 51.003 DISP Connect the 606xx generator output to the Ch 3 input of 51.003 DISP the oscilloscope. 51.003 DISP 51.003 DISP Use a 50 Ohm termination between the cable and 51.003 DISP the oscilloscope. 51.003 DISP 51.003 DISP Remove other connections. 51.004 PORT PS3,0306E803FC210000, 51.005 PORT 01068813FB040000, 51.006 PORT 110E8813F71086000000420000000011[13][I] 51.007 MESS Adjust the amplitude of the sine-wave to 6 divisions. 51.008 6060 600.00mVpp 1% 100kH -D N L 51.009 MATH M[3]=MEM 51.010 6060 100MH mVpp -D S L 51.011 MESS The frequency is increased to 100MHz. 51.011 MESS Verify that the amplitude on the screen is not below 51.011 MESS 4.2 divisions. 51.011 MESS 51.012 EVAL {Is the amplitude at 100MHz more than 4.2 div?} 52.001 PORT PS1,0F0494000300[13][I] 52.002 MATH MEM=M[3] 52.003 6060 20.00MH mVpp -D S L 52.004 MESS The frequency is decreased to 20MHz and the bandwidth 52.004 MESS limiter is switched on. 52.004 MESS Verify that the amplitude on the screen is approximately 52.004 MESS 4.2 divisions. 52.004 MESS 52.005 EVAL {Is the amplitude at 20MHz (BWL) approx. 4.2 div?} 53.001 HEAD {VERTICAL DEFLECTION; DYN RANGE AT 25MHz; Ch 3} 53.002 PORT DS[13][I] 53.003 PORT PS3,0306E803FC216806, 53.004 PORT 01068813FB040000, 53.005 PORT 110ED007F51086000000420000000011[13][I] 53.006 PORT PS1,510390010A[13][I] 53.007 6060 2.400Vpp 25MH -D S L 53.008 MESS Requirement: 53.008 MESS The bottom of the sine-wave signal of 24 divisions must 53.008 MESS be displayed distortion-free. 53.008 MESS 53.009 EVAL {Is bottom of the Ch 3 signal displayed distortion free?} 54.001 PORT PS1,0306E803FC2198F9[13][I] 54.002 6060 2.400Vpp 25MH -D S L 54.003 MESS Requirement: 54.003 MESS The top of the sine-wave signal of 24 divisions must 54.003 MESS be displayed distortion-free. 54.003 MESS 54.004 EVAL {Is top of the Ch 3 signal displayed distortion free?} 55.001 HEAD {VERTICAL DEFLECTION; DYN RANGE AT 100MHz; Ch 3} 55.002 PORT DS[13][I] 55.003 PORT PS4,0306E803FC210000, 55.004 PORT 01068813FB040000, 55.005 PORT 100700504180090000, 55.006 PORT 110ED007F51086000000420000000011[13][I] 55.007 PORT PS1,510390010A[13][I] 55.008 MESS Adjust the amplitude to 8 divisions. 55.009 6060 1.200Vpp 1% 100MH -D N L 55.010 MATH M[3] = MEM 55.011 MESS 55.012 EVAL {Is the Ch 3 100MHz signal displayed distortion free?} 56.001 HEAD {VERTICAL DEFLECTION; CROSS TALK AT 100MHz; Ch 3} 56.002 PORT DS[13][I] 56.003 PORT PS5,0106E803FC01C800, 56.004 PORT 0206E803FC010000, 56.005 PORT 0406E803FC0138FF, 56.006 PORT 0306E803FC200000, 56.007 PORT 110ED007F51086000000420000000011[13][I] 56.008 MATH MEM = M[3] 56.009 6060 Vpp 100MH -D S L 56.010 MESS Requirements: 56.010 MESS The amplitude of the channels Ch 1, Ch 2 and Ch 4 must 56.010 MESS be less than 0.16 division. 56.010 MESS 56.011 EVAL {Is the Ch 3 cross talk at 100MHz less than 0.16 div?} 57.001 HEAD {MTB TRIGGER SENSITIVITY; Ch 3} 57.002 PORT DS[13][I] 57.003 PORT PS4,03068813FC250000, 57.004 PORT 01068813FB040000, 57.005 PORT 100700514000090000, 57.006 PORT 110EE803F81006010000420000000111[13][I] 57.007 MESS Verify that the signal is still well-triggered, if 57.007 MESS needed adjust LEVEL MTB to obtain triggering. 57.007 MESS 57.007 MESS Requirement: 57.007 MESS The 100kHz signal must be well-triggered at all 57.007 MESS amplitudes above 0.5 division. 57.008 6060 0.250Vpp 1% 100kH -D N L 57.009 MESS 57.010 EVAL {Is MTB signal on Ch 3 well-triggered at 0.5 div @ 100KHz?} 58.001 PORT PS1,110ED007F51006000000420000000111[13][I] 58.002 MESS Verify that the signal is still well-triggered, if 58.002 MESS needed adjust LEVEL MTB to obtain triggering. 58.002 MESS 58.002 MESS Requirement: 58.002 MESS The 200MHz signal must be well-triggered at all 58.002 MESS amplitudes above 2 divisions. 58.003 6060 1.0Vpp 1% 200MH -D N L 58.004 MESS 58.005 EVAL {Is MTB signal on Ch 3 well-triggered at 2 div @ 200MHz?} 59.001 HEAD {DTB TRIGGER SENSITIVITY; Ch 3} 59.002 PORT DS[13][I] 59.003 PORT PS6,03068813FC259001, 59.004 PORT 01068813FB040000, 59.005 PORT 100700514000090000, 59.006 PORT 110E8813F81006010000420000000111, 59.007 PORT 120B8813F71000000642000001, 59.008 PORT 500607810000E0FC[13][I] 59.009 PORT PS1,510390010A[13][I] 59.010 MESS Verify that the signal is still well-triggered, if 59.010 MESS needed adjust LEVEL MTB and LEVEL DTB to obtain 59.010 MESS triggering. 59.010 MESS 59.010 MESS Requirement: 59.010 MESS The 100kHz signal must be well-triggered at all 59.010 MESS amplitudes above 0.5 division. 59.011 6060 0.250Vpp 1% 100kH -D N L 59.012 MESS 59.013 EVAL {Is DTB signal on Ch 3 well triggered at 0.5 div @ 100KHz?} 60.001 PORT PS2,110ED007F61006010000420000000111, 60.002 PORT 120BD007F51000000642000001[13][I] 60.003 MESS Verify that the signal is still well-triggered, if 60.003 MESS needed adjust LEVEL MTB and LEVEL DTB to obtain 60.003 MESS triggering. 60.003 MESS 60.003 MESS Requirement: 60.003 MESS The 200MHz signal must be well-triggered at all 60.003 MESS amplitudes above 2 divisions. 60.004 6060 1.00Vpp 1% 200MH -D N L 60.005 MESS 60.006 EVAL {Is DTB signal on Ch 3 well triggered at 2 div @ 200MHz?} 61.001 HEAD {VERTICAL DEFLECTION; HIGH-FREQ RESPONSE; Ch 4} 61.002 PORT DS[13][I] 61.003 DISP Connect the 606xx generator output to the Ch 4 input of 61.003 DISP the oscilloscope. 61.003 DISP 61.003 DISP Use a 50 Ohm termination between the cable and 61.003 DISP the oscilloscope. 61.003 DISP 61.003 DISP Remove other connections. 61.004 PORT PS3,0406E803FC210000, 61.005 PORT 01068813FB040000, 61.006 PORT 110E8813F71086000000430000000011[13][I] 61.007 MESS Adjust the amplitude of the sine-wave to 6 divisions. 61.008 6060 600.00mVpp 1% 100kH -D N L 61.009 MATH M[3]=MEM 61.010 6060 100MH mVpp -D S L 61.011 MESS The frequency is increased to 100MHz. 61.011 MESS Verify that the amplitude on the screen is not below 61.011 MESS 4.2 divisions. 61.011 MESS 61.012 EVAL {Is the amplitude at 100MHz more than 4.2 div?} 62.001 PORT PS1,0F0494000300[13][I] 62.002 MATH MEM=M[3] 62.003 6060 20.00MH mVpp -D S L 62.004 MESS The frequency is decreased to 20MHz and the bandwidth 62.004 MESS limiter is switched on. 62.004 MESS Verify that the amplitude on the screen is approximately 62.004 MESS 4.2 divisions. 62.004 MESS 62.005 EVAL {Is the amplitude at 20MHz (BWL) approx. 4.2 div?} 63.001 HEAD {VERTICAL DEFLECTION; DYN RANGE AT 25MHz; Ch 4} 63.002 PORT DS[13][I] 63.003 PORT PS3,0406E803FC216806, 63.004 PORT 01068813FB040000, 63.005 PORT 110ED007F51086000000430000000011[13][I] 63.006 PORT PS1,510390010A[13][I] 63.007 6060 2.400Vpp 25MH -D S L 63.008 MESS Requirement: 63.008 MESS The bottom of the sine-wave signal of 24 divisions must 63.008 MESS be displayed distortion-free. 63.008 MESS 63.009 EVAL {Is bottom of the Ch 4 signal displayed distortion free?} 64.001 PORT PS1,0406E803FC2198F9[13][I] 64.002 6060 2.400Vpp 25MH -D S L 64.003 MESS Requirement: 64.003 MESS The top of the sine-wave signal of 24 divisions must 64.003 MESS be displayed distortion-free. 64.003 MESS 64.004 EVAL {Is top of the Ch 4 signal displayed distortion free?} 65.001 HEAD {VERTICAL DEFLECTION; DYN RANGE AT 100MHz; Ch 4} 65.002 PORT DS[13][I] 65.003 PORT PS4,0406E803FC210000, 65.003 PORT 01068813FB040000, 65.004 PORT 100700504180090000, 65.005 PORT 110ED007F51086000000430000000011[13][I] 65.006 PORT PS1,510390010A[13][I] 65.007 MESS Adjust the amplitude to 8 divisions. 65.008 6060 1.200Vpp 1% 100MH -D N L 65.009 MATH M[3] = MEM 65.010 MESS 65.011 EVAL {Is the Ch 4 100MHz signal displayed distortion free?} 66.001 HEAD {VERTICAL DEFLECTION; CROSS TALK AT 100MHz; Ch 4} 66.002 PORT DS[13][I] 66.003 PORT PS5,0106E803FC01C800, 66.004 PORT 0206E803FC010000, 66.005 PORT 0306E803FC0138FF, 66.006 PORT 0406E803FC200000, 66.007 PORT 110ED007F51086000000430000000011[13][I] 66.008 MATH MEM = M[3] 66.009 6060 Vpp 100MH -D S L 66.010 MESS Requirements: 66.010 MESS The amplitude of the channels Ch 1, Ch 2 and Ch 3 must 66.010 MESS be less than 0.16 division. 66.010 MESS 66.011 EVAL {Is the Ch 4 cross talk at 100MHz less than 0.16 div?} 67.001 HEAD {MTB TRIGGER SENSITIVITY; Ch 4} 67.002 PORT DS[13][I] 67.003 PORT PS4,04068813FC250000, 67.004 PORT 01068813FB040000, 67.005 PORT 100700514000090000, 67.006 PORT 110EE803F81006010000430000000111[13][I] 67.007 MESS Verify that the signal is still well-triggered, if 67.007 MESS needed adjust LEVEL MTB to obtain triggering. 67.007 MESS 67.007 MESS Requirement: 67.007 MESS The 100kHz signal must be well-triggered at all 67.007 MESS amplitudes above 0.5 division. 67.008 6060 0.250Vpp 1% 100kH -D N L 67.009 MESS 67.010 EVAL {Is MTB signal on Ch 4 well-triggered at 0.5 div @ 100KHz?} 68.001 PORT PS1,110ED007F51006000000430000000111[13][I] 68.002 MESS Verify that the signal is still well-triggered, if 68.002 MESS needed adjust LEVEL MTB to obtain triggering. 68.002 MESS 68.002 MESS Requirement: 68.002 MESS The 200MHz signal must be well-triggered at all 68.002 MESS amplitudes above 2 divisions. 68.003 6060 1.0Vpp 1% 200MH -D N L 68.004 MESS 68.005 EVAL {Is MTB signal on Ch 4 well-triggered at 2 div @ 200MHz?} 69.001 HEAD {DTB TRIGGER SENSITIVITY; Ch 4} 69.002 PORT DS[13][I] 69.003 PORT PS6,04068813FC259001, 69.004 PORT 01068813FB040000, 69.005 PORT 100700514000090000, 69.006 PORT 110E8813F81006010000430000000111, 69.007 PORT 120B8813F71000000643000001, 69.008 PORT 500607810000E0FC[13][I] 69.009 PORT PS1,510390010A[13][I] 69.010 MESS Verify that the signal is still well-triggered, if 69.010 MESS needed adjust LEVEL MTB and LEVEL DTB to obtain 69.010 MESS triggering. 69.010 MESS 69.010 MESS Requirement: 69.010 MESS The 100kHz signal must be well-triggered at all 69.010 MESS amplitudes above 0.5 division. 69.011 6060 0.250Vpp 1% 100kH -D N L 69.012 MESS 69.013 EVAL {Is DTB signal on Ch 4 well triggered at 0.5 div @ 100KHz?} 70.001 PORT PS1,110ED007F61006000000430000000111, 70.002 PORT 120BD007F51000000643000001[13][I] 70.003 MESS Verify that the signal is still well-triggered, if 70.003 MESS needed adjust LEVEL MTB and LEVEL DTB to obtain 70.003 MESS triggering. 70.003 MESS 70.003 MESS Requirement: 70.003 MESS The 200MHz signal must be well-triggered at all 70.003 MESS amplitudes above 2 divisions. 70.004 6060 1.00Vpp 1% 200MH -D N L 70.005 MESS 70.006 EVAL {Is DTB signal on Ch 4 well triggered at 2 div @ 200MHz?} 71.001 HEAD {HORIZONTAL DEFLECTION; X DEFL COEFF} 71.002 PORT DS[13][I] 71.003 DISP Connect the CG5011 pulse head output to the Ch 1 input 71.003 DISP of the oscilloscope. 71.003 DISP 71.003 DISP Remove other connections. 71.004 PORT PS4,02068813FB0D0000, 71.005 PORT 0106D007FB040000, 71.005 PORT 1007015140000920D1, 71.006 PORT 110E8813F91086010000400000000011[13][I] 71.007 5011 0.100Vpp 1kH -D S 71.008 MESS Requirement: 71.008 MESS Two dots must be shown with a horizontal distance 71.008 MESS between 4.7 and 5.3 divisions. 71.008 MESS 71.009 EVAL {Are two dots shown with horizontal distance 4.7 to 5.3 div?} 72.001 HEAD {VOLTAGE CURSORS} 72.002 PORT DS[13][I] 72.003 PORT PS3,0106E803FD05A8FD, 72.004 PORT 110ED007F91086000000400000000011, 72.005 PORT 200FAA0980FF6700D4FE2C01F401F40140[13][I] 72.006 5011 6Vpp 1kH -D S 72.007 DISP Position the voltage cursors exactly on the top and 72.007 DISP bottom of the signal by using the TRACK and  controls. 72.008 MEMI Enter the V reading as shown on the display: 72.009 MEME 72.010 MEMC VP 1.3% 73.001 HEAD {VERTICAL DEFLECTION; LF LINEARITY; Ch 1} 73.002 PORT DS[13][I] 73.003 PORT PS2,0106E803FC0538FF, 73.004 PORT 110E8813F91086010000400000000011[13][I] 73.005 MESS Adjust the amplitude to 2 divisions. 73.006 5011 200mVpp 1kH -D N 73.007 MATH M[3] = MEM 73.008 PORT PS1,0106E803FC059001[13][I] 73.009 MATH MEM = M[3] 73.010 5011 mVpp 1kH -D S 73.011 MESS Position the signal to the upper area of the screen by 73.011 MESS using the POS control of Ch 1. 73.011 MESS Requirement: 73.011 MESS Trace-height must be between 1.96 and 2.04 divisions. 73.011 MESS 73.012 EVAL {Is the trace-height in upper area between 1.96 - 2.04 div?} 74.001 PORT PS1,0106E803FC05E0FC[13][I] 74.002 MATH MEM = M[3] 74.003 5011 mVpp 1kH -D S 74.004 MESS Position the signal to the lower area of the screen by 74.004 MESS using the POS control of Ch 1. 74.004 MESS Requirement: 74.004 MESS Trace-height must be between 1.96 and 2.04 divisions. 74.004 MESS 74.005 EVAL {Is the trace-height in lower area between 1.96 - 2.04 div?} # PM3084, PM3082: 5mV/div, 10mV/div, 0.2V/div, 1.0V/div 75.001 HEAD {VERTICAL DEFLECTION; GAIN; Ch 1} 75.002 PORT DS[13][I] 75.003 PORT PS3,01068813FA05A8FD, 75.004 PORT 0F0110, 75.005 PORT 110E8813F910A6010000400000000D11[13][I] 75.006 MESS Adjust the amplitude to 6 divisions. 75.007 5011 30.0mVpp 1.3% 1kH -D 76.001 PORT PS1,0104E803FB05[13][I] 76.002 5011 60.0mVpp 1.3% 1kH -D 77.001 PORT PS1,0104D007FC05[13][I] 77.002 5011 1.20Vpp 1.3% 1kH -D 78.001 PORT PS1,0104E803FD05[13][I] 78.002 5011 6.00Vpp 1.3% 1kH -D # PM3084, PM3082: 40mV/div (var gain) 79.001 HEAD {VERTICAL DEFLECTION; VARIABLE GAIN; Ch 1} 79.002 PORT PS1,01069B0FFB450CFE[13][I] 79.003 MESS Adjust the amplitude to 5 divisions. 79.004 5011 0.200Vpp 2.8% 1kH -D 80.001 MESS 80.002 HEAD {VERTICAL DEFLECTION; GND INPUT COUPLING; Ch 1} 80.003 PORT DS[13][I] 80.004 PORT PS2,01069B0FFB0D0000, 80.005 PORT 110E8813F91086000000400000000011[13][I] 80.006 5011 0.200Vpp 1kH -D S 80.007 EVAL {Is a straight horizontal line displayed? (GND funct. check)} 81.001 HEAD {VERTICAL DEFLECTION; AC INPUT COUPLING; Ch 1} 81.002 PORT DS[13][I] 81.003 PORT PS2,01069B0FFB010000, 81.004 PORT 110EE803FB1086010000400000000011[13][I] 81.005 5011 0.200Vpp 10H -D S 81.006 EVAL {Is a tilted square waveform displayed? (AC Coupling check)} # PM3084, PM3082: 5mV/div, 10mV/div, 0.2V/div, 1.0V/div 82.001 HEAD {VERTICAL DEFLECTION; GAIN; Ch 2} 82.002 PORT DS[13][I] 82.003 DISP Connect the CG5011 pulse head output to the Ch 2 input 82.003 DISP of the oscilloscope. 82.003 DISP 82.003 DISP Remove other connections. 82.004 PORT PS4,02068813FA05A8FD, 82.005 PORT 01068813FB040000, 82.006 PORT 0F0110, 82.007 PORT 110E8813F910A6010000410000000D11[13][I] 82.008 MESS Adjust the amplitude to 6 divisions. 82.009 5011 30.0mVpp 1.3% 1kH -D 83.001 PORT PS1,0204E803FB05[13][I] 83.002 5011 60.0mVpp 1.3% 1kH -D 84.001 PORT PS1,0204D007FC05[13][I] 84.002 5011 1.20Vpp 1.3% 1kH -D 85.001 PORT PS1,0204E803FD05[13][I] 85.002 5011 6.00Vpp 1.3% 1kH -D # PM3084, PM3082: 40mV/div (var gain) 86.001 HEAD {VERTICAL DEFLECTION; VARIABLE GAIN; Ch 2} 86.002 PORT PS1,02069E0FFB450CFE[13][I] 86.003 MESS Adjust the amplitude to 5 divisions. 86.004 5011 0.200Vpp 2.8% 1kH -D 87.001 MESS 87.002 HEAD {VERTICAL DEFLECTION; GND INPUT COUPLING; Ch 2} 87.003 PORT DS[13][I] 87.004 PORT PS3,02069B0FFB0D0000, 87.005 PORT 01068813FB040000, 87.006 PORT 110E8813F91086000000410000000011[13][I] 87.007 5011 0.200Vpp 1kH -D S 87.008 EVAL {Is a straight horizontal line displayed? (GND funct. check)} 88.001 HEAD {VERTICAL DEFLECTION; AC INPUT COUPLING; Ch 2} 88.002 PORT DS[13][I] 88.003 PORT PS3,02069B0FFB010000, 88.004 PORT 01068813FB040000, 88.005 PORT 110EE803FB1086010000410000000011[13][I] 88.006 5011 0.200Vpp 10H -D S 88.007 EVAL {Is a tilted square waveform displayed? (AC Coupling check)} 89.001 HEAD {VERTICAL DEFLECTION; GAIN: Ch 3} 89.002 PORT DS[13][I] 89.003 DISP Connect the CG5011 pulse head output to the Ch 3 input 89.003 DISP of the oscilloscope. 89.003 DISP 89.003 DISP Remove other connections. 89.004 PORT PS4,03068813FA05A8FD, 89.005 PORT 01068813FB040000, 89.006 PORT 0F0110, 89.007 PORT 110E8813F910A6010000420000000D11[13][I] 89.008 MESS Adjust the amplitude to 6 divisions. 89.009 MATH MEM1 = M[20] 89.010 JMPT 91.003 # PM3082: 0.1V/div, 0.5V/div 89.011 PORT PS1,0304E803FC05[13][I] 89.012 5011 600.0mVpp 1.3% 1kH -D 90.001 PORT PS1,03048813FC05[13][I] 90.002 5011 3.0Vpp 1.3% 1kH -D 91.001 MESS 91.002 JMP 97.001 # PM3084: 5mV/div, 10mV/div, 0.2V/div, 1.0V/div 91.003 5011 30.0mVpp 1.3% 1kH -D 92.001 PORT PS1,0304E803FB05[13][I] 92.002 5011 60.0mVpp 1.3% 1kH -D 93.001 PORT PS1,0304D007FC05[13][I] 93.002 5011 1.20Vpp 1.3% 1kH -D 94.001 PORT PS1,0304E803FD05[13][I] 94.002 5011 6.00Vpp 1.3% 1kH -D # PM3084: 40mV/div (var gain) 95.001 HEAD {VERTICAL DEFLECTION; VARIABLE GAIN; Ch 3} 95.002 PORT PS1,03069B0FFB450CFE[13][I] 95.003 MESS Adjust the amplitude to 5 divisions. 95.004 5011 0.200Vpp 2.8% 1kH -D 96.001 MESS 96.002 HEAD {VERTICAL DEFLECTION; GND INPUT COUPLING; Ch 3} 96.003 PORT DS[13][I] 96.004 PORT PS3,03069B0FFB0D0000, 96.005 PORT 01068813FB040000, 96.006 PORT 110E8813F91086000000420000000011[13][I] 96.007 5011 0.200Vpp 1kH -D S 96.008 EVAL {Is a straight horizontal line displayed? (GND funct. check)} 97.001 HEAD {VERTICAL DEFLECTION; AC INPUT COUPLING; Ch 3} 97.002 PORT DS[13][I] 97.003 PORT PS3,03069B0FFB010000, 97.004 PORT 01068813FB040000, 97.005 PORT 110EE803FB1086010000420000000011[13][I] 97.006 5011 0.200Vpp 10H -D S 97.007 EVAL {Is a tilted square waveform displayed? (AC Coupling check)} 98.001 HEAD {VERTICAL DEFLECTION; GAIN: Ch 4} 98.002 PORT DS[13][I] 98.003 DISP Connect the CG5011 pulse head output to the Ch 4 input 98.003 DISP of the oscilloscope. 98.003 DISP 98.003 DISP Remove other connections. 98.004 PORT PS4,04068813FA05A8FD, 98.005 PORT 01068813FB040000, 98.006 PORT 0F0110, 98.007 PORT 110E8813F910A6010000430000000D11[13][I] 98.008 MESS Adjust the amplitude to 6 divisions. 98.009 MATH MEM1 = M[20] 98.010 JMPT 100.003 # PM3082: 0.1V/div, 0.5V/div 98.011 PORT PS1,0404E803FC05[13][I] 98.012 5011 600.0mVpp 1.3% 1kH -D 99.001 PORT PS1,04048813FC05[13][I] 99.002 5011 3.0Vpp 1.3% 1kH -D 100.001 MESS 100.002 JMP 106.001 # PM3084: 5mV/div, 10mV/div, 0.2V/div, 1.0V/div 100.003 5011 30.0mVpp 1.3% 1kH -D 101.001 PORT PS1,0404E803FB05[13][I] 101.002 5011 60.0mVpp 1.3% 1kH -D 102.001 PORT PS1,0404D007FC05[13][I] 102.002 5011 1.20Vpp 1.3% 1kH -D 103.001 PORT PS1,0404E803FD05[13][I] 103.002 5011 6.00Vpp 1.3% 1kH -D # PM3084: 40mV/div (var gain) 104.001 HEAD {VERTICAL DEFLECTION; VARIABLE GAIN; Ch 4} 104.002 PORT PS1,04069B0FFB450CFE[13][I] 104.003 MESS Adjust the amplitude to 5 divisions. 104.004 5011 0.200Vpp 2.8% 1kH -D 105.001 MESS 105.002 HEAD {VERTICAL DEFLECTION; GND INPUT COUPLING; Ch 4} 105.003 PORT DS[13][I] 105.004 PORT PS3,04069B0FFB0D0000, 105.005 PORT 01068813FB040000, 105.006 PORT 110E8813F91086000000430000000011[13][I] 105.007 5011 0.200Vpp 1kH -D S 105.008 EVAL {Is a straight horizontal line displayed? (GND funct. check)} 106.001 HEAD {VERTICAL DEFLECTION; AC INPUT COUPLING; Ch 4} 106.002 PORT DS[13][I] 106.003 PORT PS3,04069B0FFB010000, 106.004 PORT 01068813FB040000, 106.005 PORT 110EE803FB1086010000430000000011[13][I] 106.006 5011 0.200Vpp 10H -D S 106.007 EVAL {Is a tilted square waveform displayed? (AC Coupling check)} 107.001 HEAD {VERTICAL DEFLECTION; VISUAL SIGNAL DELAY} 107.002 PORT DS[13][I] 107.003 DISP Connect the CG5011 pulse head output to the Ch 1 input 107.003 DISP of the oscilloscope. Connect the CG5011 trigger output 107.003 DISP to the Ch 2 input. 107.003 DISP 107.003 DISP Use 50 Ohm terminations between the cables and 107.003 DISP the oscilloscope. 107.003 DISP 107.003 DISP Remove other connections. 107.004 PORT PS3,0106D007FC250CFE, 107.005 PORT 100700504080096748, 107.006 PORT 110E8813F51006003700400000000111[13][I] 107.007 PORT PS1,5103E8030A[13][I] 107.008 5011 1.10Vpp 100kH -D FE S L 107.009 MESS Adjust LEVEL MTB for a well-triggered display and 107.009 MESS maximum signal delay. 107.009 MESS 107.009 MESS Requirement: 107.009 MESS The base of the pulse signal must be at least 3 divisi- 107.009 MESS ons. 107.009 MESS 107.010 EVAL {Is visual signal delay at least 3 divisions?} 108.001 HEAD {TIME CURSORS} 108.002 PORT DS[13][I] 108.003 PORT PS3,01068813FC250000, 108.004 PORT 110EE803FA108600C800400000000011, 108.005 PORT 200FA9096DFE8D01D4FE2C01F401F40140[13][I] 108.006 5011 1mT -D S 108.007 MATH MEM1 = MEM1 * 8 108.008 DISP Position the time cursors exactly on the second and 108.008 DISP tenth time marker pulse of the signal using the TRACK 108.008 DISP and  controls. 108.009 MEMI Enter the T reading as shown on the display: 108.010 MEME 108.011 MEMC mT 1.25% 109.001 HEAD {HORIZONTAL DEFLECTION; MAIN TIMEBASE} 109.002 PORT DS[13][I] 109.003 PORT PS4,01068813FC2538FF, 109.004 PORT 02068813FC240000, 109.005 PORT 10020051, 109.006 PORT 110EE803F6100600C800400000000111[13][I] 109.007 PORT PS1,5103F4010A[13][I] 109.008 MESS Adjust the markers until markers coincide with the 109.008 MESS 2nd and 10th graticule lines by using the X-POS control 109.008 MESS and marker frequency (adjust LEVEL MTB if necessary). 109.009 5011 0.100uT 1.8% -D 110.001 PORT PS1,110E8813F6100600C800400000000111[13][I] 110.002 5011 0.500uT 1.8% -D 111.001 PORT PS1,110EE803F7100600C800400000000111[13][I] 111.002 5011 1.00uT 1.8% -D 112.001 PORT PS1,110E8813F7100600C800400000000111[13][I] 112.002 5011 5.00uT 1.8% -D 113.001 PORT PS1,110ED007F8100600C800400000000111[13][I] 113.002 5011 20.0uT 1.8% -D 114.001 PORT PS1,110E8813F9100600C800400000000111[13][I] 114.002 5011 0.500mT 1.8% -D 115.001 PORT PS1,110EE803FA100600C800400000000111[13][I] 115.002 5011 1.00mT 1.8% -D 116.001 PORT PS1,110EE803FB100600C800400000000111[13][I] 116.002 5011 10.0mT 1.8% -D 117.001 PORT PS2,10070051408009803E, 117.001 PORT 110E8813F5100601C800410000000111[13][I] 117.002 PORT PS1,5103E8030A[13][I] 117.003 5011 5.00nT 3.3% -D 118.001 PORT PS2,100700514080090000, 118.002 PORT 110EE803F6100600C800400000000111[13][I] 118.003 5011 0.0100uT 2.3% -D 119.001 PORT PS1,110EE803F7100600C800400000000111[13][I] 119.002 5011 0.100uT 2.3% -D 120.001 HEAD {HORIZONTAL DEFLECTION; VARIABLE MAIN TIMEBASE} 120.002 PORT DS[13][I] 120.003 PORT PS2,01068813FC2538FF, 120.004 PORT 1007005140000960F0, 120.005 PORT 110EC709F7104600A000400000000111[13][I] 120.006 5011 5.00uT 2.8% -D 121.001 HEAD {HORIZONTAL DEFLECTION; DELAYED TIMEBASE} 121.002 PORT DS[13][I] 121.003 PORT PS6,01068813FC25C800, 121.003 PORT 02068813FC240000, 121.004 PORT 10020051, 121.005 PORT 110EE803FA100600C800400000000111, 121.006 PORT 120B8813F91000000646E0B100, 121.007 PORT 500607810000A8FD[13][I] 121.008 PORT PS1,5103F4010A[13][I] 121.009 5011 0.500mT -D S 121.010 MESS Adjust the markers until markers coincide with the 121.010 MESS 2nd and 10th graticule lines by using the X-POS control 121.010 MESS and marker frequency (adjust LEVEL MTB and LEVEL DTB if 121.010 MESS necessary). 121.011 5011 0.500mT 1.8% -D 122.001 PORT PS2,110E8813F8100600C800400000000111, 122.002 PORT 120BD007F81000000646E0B100[13][I] 122.003 5011 20.0uT 1.8% -D 123.001 PORT PS2,110EE803F8100600C800400000000111, 123.002 PORT 120B8813F71000000646E0B100[13][I] 123.003 5011 5.00uT 1.8% -D 124.001 PORT PS2,110ED007F7100600C800400000000111, 124.002 PORT 120BE803F71000000646E0B100[13][I] 124.003 5011 1.00uT 1.8% -D 125.001 PORT PS2,110EE803F7100600C800400000000111, 125.002 PORT 120B8813F61000000646E0B100[13][I] 125.003 5011 0.500uT 1.8% -D 126.001 PORT PS2,110ED007F6100600C800400000000111, 126.002 PORT 120BE803F61000000646E0B100[13][I] 126.003 5011 0.100uT 1.8% -D 127.001 PORT PS2,110EE803F6100600C800400000000111, 127.002 PORT 120B8813F51000000646E0B100[13][I] 127.003 5011 50.00nT 1.8% -D 128.001 PORT PS3,100700514080091CF3, 128.002 PORT 110ED007F7100600C800400000000111, 128.003 PORT 120BE803F71000000646E0B100[13][I] 128.004 PORT PS1,5103E8030A[13][I] 128.005 5011 0.100uT 2.3% -D 129.001 PORT PS2,110ED007F6100600C800400000000111, 129.002 PORT 120BE803F61000000646E0B100[13][I] 129.003 5011 0.0100uT 2.3% -D 130.001 PORT PS3,10070051408009803E, 130.001 PORT 110E8813F5100601C800410000000111, 130.002 PORT 120B8813F51000000646E0B100[13][I] 130.003 5011 5.00nT 3.3% -D 131.001 HEAD {DELAY DIFFERENCE; Ch 1/Ch 2} 131.002 PORT DS[13][I] 131.003 DISP Connect the CG5011 pulse head output to the input of a 131.003 DISP POWER SPLITTER. Connect the outputs of the SPLITTER 131.003 DISP to the Ch 1 and Ch 2 inputs of the oscilloscope. 131.003 DISP 131.003 DISP Use cables of equal length and 50 Ohm terminations 131.003 DISP between SPLITTER and the oscilloscope. 131.003 DISP 131.003 DISP Remove other connections. 131.004 PORT PS4,0106E803FC250CFE, 131.005 PORT 0206E803FC250CFE, 131.006 PORT 100700504080095046, 131.007 PORT 110ED007F51086000000400000000011[13][I] 131.008 PORT PS1,5103E8030A[13][I] 131.009 5011 1.10Vpp 100kH -D FE S L 131.010 MESS Requirement: 131.010 MESS The delay difference between the two displayed signals 131.010 MESS must be less than 0.05 division. 131.010 MESS 131.011 EVAL {Is the delay diff. between Ch 1 and Ch 2 less than 0.05 div?} 132.001 HEAD {DELAY DIFFERENCE; Ch 3/Ch 4} 132.002 PORT DS[13][I] 132.003 DISP Connect the CG5011 pulse head output to the input of a 132.003 DISP POWER SPLITTER. Connect the outputs of the SPLITTER 132.003 DISP to the Ch 3 and Ch 4 inputs of the oscilloscope. 132.003 DISP 132.003 DISP Use cables of equal length and 50 Ohm terminations 132.003 DISP between SPLITTER and the oscilloscope. 132.003 DISP 132.003 DISP Remove other connections. 132.004 PORT PS5,0306E803FC250CFE, 132.005 PORT 0406E803FC250CFE, 132.006 PORT 01068813FB040000, 132.007 PORT 100700504080095046, 132.008 PORT 110ED007F51086000000420000000011[13][I] 132.009 PORT PS1,5103E8030A[13][I] 132.010 5011 1.10Vpp 100kH -D FE S L 132.011 MATH MEM1 = M[20] 132.012 JMPT 132.015 132.013 MEM2 =0.1 132.014 JMP 132.016 132.015 MEM2 =0.05 132.016 MESS Requirement: 132.016 MESS The delay difference between the two displayed signals 132.016 MESS must be less than [MEM2] division. 132.016 MESS 132.017 EVAL {Is delay diff. between Ch 3 and Ch 4 less than [MEM2] div?} 133.001 HEAD {CAL SIGNAL; FREQUENCY AND OUTPUT VOLTAGE} 133.002 PORT DS[13][I] 133.003 DISP Connect the CAL signal output via a probe to the Ch 1 133.003 DISP input of the oscilloscope. 133.003 DISP 133.003 DISP Remove other connections. 133.004 PORT PS4,0106D007FB0532FF, 133.005 PORT 10070050450009D007, 133.006 PORT 110EE803F91086010000400000000011, 133.007 PORT 200FAB0936FF2A01C6009AFFF401F40140[13][I] 133.008 MESS Requirements: 133.008 MESS A positive going square-wave signal of 0.6VPP 133.008 MESS must be displayed; i.e., 3 divisions vertical 133.008 MESS at 0.2V/div. 133.008 MESS 133.008 MESS The frequency of the displayed signal must be about 133.008 MESS 2kHz, i.e., a period time between 4 and 6 horizontal 133.008 MESS divisions at MTB 0.1ms/div. 133.009 EVAL {Is amplitude 3 div. (vert) and period 4 to 6 div. (hor)?} 134.001 HEAD {HORIZONTAL DEFLECTION; DELAY TIME MULTIPLIER} 134.002 PORT DS[13][I] 134.003 DISP Remove all connections. 134.004 PORT PS3,01068813FB010000, 134.005 PORT 110E8813F61087000000400000000011, 134.006 PORT 120B8813F5100000044680C100[13][I] 134.007 PORT PS1,510390010A[13][I] 134.008 MESS Adjust the start of the MTB display exactly on 134.008 MESS the first graticule using the X POS control. 134.008 MESS 134.008 MESS Requirement: 134.008 MESS The difference between the start of MTB and start of 134.008 MESS intensified part must be between 0.9 and 1.1 div. 134.008 MESS 134.009 EVAL {Is difference of start MTB and MTBI 0.9-1.1 div?} 135.001 PORT PS1,120B8813F51000000446204E00[13][I] 135.002 MESS Requirement: 135.002 MESS The difference between start of MTB and start of the 135.002 MESS intensified part is between 9.9 and 10.1 div. 135.002 MESS 135.003 EVAL {Is difference of start of MTB and MTBI part 9.9-10.1 div?} 136.001 HEAD {VERTICAL DEFLECTION; BASE LINE INST.; Ch 1/Ch 2} 136.002 PORT DS[13][I] 136.003 PORT PS1,0106E204FE410000[13][I] 136.004 MESS Press the Ch 1 "mV" key. 136.004 MESS 136.004 MESS Requirement: 136.004 MESS The base line jump must be less than 0.2 div between 136.004 MESS 12.5V ... 5mV/div. 136.004 MESS 136.005 EVAL {Is Ch 1 baseline jump < 0.2 div between 12.5V ... 5mV/div?} 137.001 PORT DS[13][I] 137.002 PORT PS2,0206E204FE410000, 137.003 PORT 01068813FB040000[13][I] 137.004 MESS Press the Ch 2 "mV" key. 137.004 MESS 137.004 MESS Requirement: 137.004 MESS The base line jump must be less than 0.2 div between 137.004 MESS 12.5V/div .... 5 mV/div. 137.004 MESS 137.005 EVAL {Is Ch 2 baseline jump < 0.2 div between 12.5V ... 5mV/div?} 138.001 PORT PS1,02068313FA410000[13][I] 138.002 MESS Press the Ch 2 INV key repeatedly. 138.002 MESS 138.002 MESS Requirement: 138.002 MESS The base line jump must be less than 0.2 div. 138.002 MESS 138.003 EVAL {Is Ch 2 baseline jump < 0.2 div by changing INV setting?} 139.001 HEAD {VERTICAL DEFLECTION; BASE LINE INST.; Ch 3/Ch 4} 139.002 PORT DS[13][I] 139.003 PORT PS2,0306E204FE410000, 139.004 PORT 01068813FB040000[13][I] 139.005 MATH MEM1 = M[20] 139.006 JMPT 140.002 139.007 MESS Press the Ch 3 "AMPL" key. 139.007 MESS 139.007 MESS Requirement: 139.007 MESS The base line jump must be less than 0.2 div between 139.007 MESS 0.5V ... 0.1V/div. 139.007 MESS 139.008 EVAL {Is Ch 3 baseline jump < 0.2 div between 0.5V ... 0.1V/div?} 140.001 JMP 141.001 140.002 MESS Press the Ch 3 "mV" key. 140.002 MESS 140.002 MESS Requirement: 140.002 MESS The base line jump must be less than 0.2 div between 140.002 MESS 12.5V ... 5mV/div. 140.002 MESS 140.003 EVAL {Is Ch 3 baseline jump < 0.2 div between 12.5V ... 5mV/div?} 141.001 PORT DS[13][I] 141.002 PORT PS2,0406E204FE410000, 141.003 PORT 01068813FB040000[13][I] 141.004 MATH MEM1 = M[20] 141.005 JMPT 142.002 141.006 MESS Press the Ch 4 "AMPL" key. 141.006 MESS 141.006 MESS Requirement: 141.006 MESS The base line jump must be less than 0.2 div between 141.006 MESS 0.5V ... 0.1V/div. 141.006 MESS 141.007 EVAL {Is Ch 4 baseline jump < 0.2 div between 0.5V ... 0.1V/div?} 142.001 JMP 143.001 142.002 MESS Press the Ch 4 "mV" key. 142.002 MESS 142.002 MESS Requirement: 142.002 MESS The base line jump must be less than 0.2 div between 142.002 MESS 12.5V/div .... 5 mV/div. 142.002 MESS 142.003 EVAL {Is Ch 4 baseline jump < 0.2 div between 12.5V ... 5mV/div?} 143.001 PORT PS1,04068813FA410000[13][I] 143.002 MESS Press the Ch 4 INV key repeatedly. 143.002 MESS 143.002 MESS Requirement: 143.002 MESS The base line jump must be less than 0.2 div. 143.003 EVAL {Is Ch 4 baseline jump < 0.2 div by changing INV setting?} 144.001 PORT DS[13][I] 144.002 DISP Calibration procedure completed! 144.003 RSLT = 144.004 RSLT =Calibration procedure completed. 144.005 END