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Configuring the HP 4396B
for O/E Testing

Application Note 1288-2




Introduction      The recent trend in cable television (CATV) is the need for more
                  selections, or channels, and the possibility of having interactive TV
                  services such as On-Line-Banking and Movies-on-Demand. These
                  requirements are pushing the limits of the copper cabling already laid out
                  for today's CATV systems and these systems are not able to provide the
                  "500 channels" of TV for the future. The industry is now changing from
                  copper cable to fiber optic cable to carry the signals to the consumer.
                        The fiber optic cable carries the channel information as light signals, but
                        all major TV equipment works upon electrical signals. Hence, tomorrow's
                        CATV systems needs both electrical-to-optical converters (E/O) and
                        optical-to-electrical (O/E) converters. An O/E converter changes light
                        signals to electrical signals, and an E/O converter does the reverse.
                        These converters need to be tested for conversion flatness and efficiency.
                        A converter with too much ripple can cause distortions in the TV channels
                        audio or video signals, which will show on the TV screen. A converter
                        with low efficiency, or gain, can lead to low signal-to-noise ratio, which
                        would cause "snow" on the TV. A converter without flat group delay will
                        affect the quality of the audio and color of the channel.
                        There is a myriad of tests performed on these converters; this paper will
                        concentrate solely on the test system setup for O/E converter test, using
                        the HP 4396B 1.8 GHz Combination Analyzer.
The HP 4396B            The HP 4396B combines a network analyzer (NA), spectrum analyzer (SA),
                        and impedance analyzer (ZA) into a single instrument. This combination
                        allows for some major advantages:
                   1. Reduced capital equipment cost -- The HP 4396B costs less than a
                      comparable network analyzer and spectrum analyzer if they were
                      purchased separately.
                   2. Simplicity -- The HP 4396B is simpler to use. The front panel interface is
                      always the same for every mode of the combination analyzer. Knowing
                      how to operate the HP 4396B means you can operate 3 analyzers without
                      constantly connecting and reconnecting the cables.
                   3. Accuracy -- The HP 4396B uses the latest digital signal processing (DSP)
                      techniques to enhance its performance. The HP 4396B has digital
                      bandwidth filters and a stepped FFT technique for speed and accuracy.
                   4. Power -- The HP 4396B has several powerful functions to enhance your
                      testing capabilities, such as List Sweep, a built-in floppy disk drive (FDD),
                      and a controller capability with HP IBASIC to automate testing or test
                      systems.

                        HP IBASIC allows for convenient control of the HP 4396B and automates
                        testing. In this note, HP IBASIC is used to determine the offset factors for
                        the E/O converter. In order to test an O/E converter, an optical system or
                        an E/O converter must be characterized. These characteristics are placed
                        into the HP 4396B memory array and subtracted from the actual E/O-O/E
                        measurement to obtain the O/E parameters.
                        The HP 83400 series of Lightwave Sources are excellent E/O converters,
                        with modulation bandwidths from 300 kHz to 3 GHz. They come provided
                        with a disk of calibrated conversion parameters specific to each individual
                        unit.
                        With an IBASIC program, the HP 4396B can read the E/O instrument disk
                        and interpolate the conversion parameters for any bandwidth of interest.
                        The HP IBASIC program will then put into the HP 4396B memory array the
                        E/O conversion parameters. This HP IBASIC program is available from
                        your local HP field sales representative upon request. (See Appendix for
                        program listing.)
                        Conversely, the HP 83410 series of Optical Receivers can be used to
                        characterize an E/O system. Instead of using a calibrated E/O for the test
                        system, a calibrated O/E can be used to find the characteristics of the E/O

               Page 2
                           system. This data can be factored into the measurements to obtain the
                           corrected O/E device characteristics.
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                           Figure 1. Conversion Flatness for the HP 83400B

The HP 4396B for testing   One of the first tests of an O/E converter is magnitude and group delay
O/E Conversion Flatness    flatness, also called conversion flatness. Conversion flatness indicates
                           whether the device converts signals from light to electricity in a manner
                           that is relatively flat over a given bandwidth. For TV signals, a channel
                           bandwidth is 6 MHz.
                           The system layout is given in Figure 2. The output from the network
                           analyzer source is split; half the signal is returned to the analyzer's
                           reference port, while the other half goes to the E/O converter. The optical
                           output from the E/O is connected via fiber optic cable to the O/E converter
                           (DUT). The electrical output of the O/E is the sent on to the Analyzer's
                           transmission port. An S-parameter test set can also be used to make full
                           2-port S parameter measurements, although E/O converter will remain the
                           same in every measurement.
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                           Figure 2. Network Analysis System Setup.



                                                                                        Page 3
                             After completing a THRU calibration by bypassing the E/O and O/E
                             converters, the system is ready to make measurements. The calibrated
                             data measured by the analyzer is the total conversion of both the E/O and
                             the O/E converters. To get just the O/E converter conversion data, the
                             analyzer will then subtract the conversion parameters of the E/O
                             converter. The resultant trace, DATA - MEMORY, is the conversion
                             flatness of the DUT. A sample Conversion Flatness result is given in
                             Figure 3.
                             The HP 4396B has a full vector network analyzer, which means it
                             processes phase information in its measurements. The phase information
                             combined with the frequency information results in group delay
                             information.
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                             Figure 3. Corrected O/E Converter Amplitude Flatness.

The HP 4396B                 The HP 4396B has a powerful spectrum analyzer inside. It has a dedicated
Spectrum Analyzer            Spectrum Input Port, and can also monitor the spectrum from the R, A, or
                             B ports. A spectrum analyzer allows spectral testing of a component for
                             Carrier-to-Noise (C/N), Harmonics, Hum, and Composite Triple Beat
                             (CTB). A system schematic for CTB testing is shown in Figure 4. Separate
                             signal generators are necessary to drive the E/O converter.
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                             Figure 4. Spectrum Analysis IMD Test Setup



                    Page 4
             In Figure 4, only one E/O converter is used with the two signal generators
             combined at the input to the E/O. Depending on the specifications of the
             E/O, two E/O converters can be used: one attached to the output of each
             signal generator, with an optical combiner to combine them before the
             input to the O/E under test. A screen from a CTB test is shown in figure 5.
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             Figure 5. Spectrum Analyzer CTB Test Results

             C/N measures the amount of signal present compared to the amount of
             noise on the signal. Too little C/N means "snow" on the TV screen. CTB
             measures the amount of distortion from in-channel signals that "leaks" to
             other channels. This is called crossmodulation or crossmod, and typically
             is represented by jittery diagonal lines on the TV. Hum measures the AM
             modulation of the signal carrier due to the electrical power system. The
             TV picture will show overlaid horizontal if too much hum is present.
Conclusion   The HP 4396B fits in perfectly for testing CATV components, electrically
             and optically. The use of the calibrated Optical Transmitters and
             Receivers allows for manufacturing test of O/E converters. The HP 4396B
             has a third analyzer in it, an impedance analyzer for measuring passive
             components. This triple functionality of the HP 4396B also makes it a very
             useful tool for R&D engineers making CATV components.




                                                                Page 5
Appendix                                                10410   IF Points<>Pnts OR Sta<>Strt OR Sto<>Stp
                                                                  THEN
Program Listing                                         10420    GOSUB Correction
                                                        10430 END IF
10000 ! Program to be run by HP4396B internal           10440 END LOOP
          IBASIC                                        10450 STOP
10010 ! This program uses the correction factors for    10460 !
10020 ! an HP83411C lightwave receiver as found         10470 Correction:!
          on                                            10480 BEEP
10030 ! the floppy disc shiped with the HP83411C        10490 !
          for                                           10500 ! Save new Points, Sta and Sto values
10040 ! use with an HP8702.                             10510 !
10050 ! The name of the file to be used must be         10520 Pnts=Points
10060 ! entered below.                                  10530 Strt=Sta
10070 ! At startup and whenever the start frequency,    10540 Stp=Sto
10080 ! the stop frequency or the number of points is   10550 !
10090 ! changed this program will re-calculate the      10560 OUTPUT @Hp4396;";MEAS S21" ! Meas
10100 ! correction data for the HP83411C and store                S21
10110 ! this data in the so called memory array of      10570 OUTPUT @Hp4396;";HOLD"             ! Stop
10120 ! the HP4396B after which DATA+MEMORY                       sweep
          is                                            10580 OUTPUT @Hp4396;";DISA ALLB" ! Claim
10130 ! selected for display. This way all displayed              display
10140 ! data is corrected for the HP83411C.             10590 !
10150 REM                                               10600 PRINT
10151 COM /Ampl_phase/                                  10610 PRINT
          Ampl(1:101,1:2),Phase(1:101,1:2),Delay        10620 !
10160 INTEGER One_point,Err,Error                       10630 GOSUB Err
10170 REAL Points,Pnts                                  10640 !
10180 REAL Strt,Stp,Sta,Sto                             10650 IF Error=0 THEN
10190 REAL Dat(1:801,1:2)                               10660 !
10200 DIM Err$[256],Error$[256],Filename$[256]          10670 ! Get correction values from disc.
10210 !                                                 10680 !
10220                                                   10690 Read_floppy(Filename$,Error,Error$)
          !===============================              10700 END IF
          ========                                      10710 !
10230 Filename$="" ! Enter filename here                10720 IF Error=0 THEN
10240                                                   10730 PRINT
          !===============================              10740 PRINT
          ========                                      10750 PRINT
10250 !                                                 10760 PRINT "RE-CALCULATING HP83411C
10251 Delay=0                                                     CORRECTION CURVE"
10252 !                                                 10770 PRINT
10260 RAD                                               10780 PRINT USING "K,10D";"Start frequency
10270 !                                                           :";Sta
10280 ASSIGN @Hp4396 TO 800                             10790 PRINT USING "K,10D";"Stop frequency
10290 ASSIGN @Bin TO 8;FORMAT OFF                                 :";Sto
10300 !                                                 10800 PRINT "Number of points :";Points
10310 ON KEY 1 LABEL "RETRY CAL" GOSUB                  10810 !
          Calkey                                        10820 ! Calculate new correction by interpolation
10320 !                                                 10830 !
10330 LOOP                                              10840 Mkd(Strt,Stp,Pnts,Dat(*))
10340 OUTPUT @Hp4396;";POIN?"               ! # of      10850 !
          datapoints                                    10860 ! Send data header information
10350 ENTER @Hp4396;Points                              10870 !
10360 OUTPUT @Hp4396;"STAR?"                 ! Start    10880 OUTPUT @Hp4396 USING
          frequency                                               "#,K";";FORM3;INPUDATA "
10370 ENTER @Hp4396;Sta                                 10890 OUTPUT @Hp4396 USING
10380 OUTPUT @Hp4396;"STOP?"                 ! Stop               "#,K,6Z";"#6",Points*16
          frequency                                     10900 !
10390 ENTER @Hp4396;Sto                                 10910 ! Send data and manipulate.
10400 !                                                 10920 !
                                                        10930 GOSUB Send                  ! To DATA arrays

                            Page 6
10940   OUTPUT @Hp4396;";DATMEM" ! To
          MEMORY arrays
10950 OUTPUT @Hp4396;";SAVC"          !
          Re-calculate CAL
10960 OUTPUT @Hp4396;";MATH DPLM" ! Disp
          DataPLusMem
10970 END IF
10980 !
10990 IF Error THEN
11000 Error=0
11010 OUTPUT @Hp4396;";DISA HIHB"! Claim
          50% display
11020 !
11030 PRINT Error$
11040 PRINT
11050 PRINT "Correction failed. Check :"
11060 PRINT
11070 PRINT "- START frequency"
11080 PRINT "- STOP frequency"
11090 PRINT "- NUMBER of POINTS"
11100 PRINT
11110 PRINT "and change to correct values."
11120 PRINT "OR press RETRY CAL to retry with
          current values."
11130 !
11140 OUTPUT @Hp4396;";KEY 47" ! System
          menu
11150 OUTPUT @Hp4396;";KEY 0" ! IBASIC
11160 OUTPUT @Hp4396;";KEY 6" ! ON KEY
          LABELS
11170 ELSE
11180 OUTPUT @Hp4396;";DISA ALLI" ! Release
          display
11190 END IF
11200 !
11210 OUTPUT @Hp4396;";CONT"
11220 RETURN
11230 !
11240 Send: !
11250 FOR One_point=1 TO Points-1
11260 OUTPUT
          @Bin;Dat(One_point,1),Dat(One_point,2)
11270 NEXT One_point
11280 OUTPUT
          @Bin;Dat(One_point,1),Dat(One_point,2)
          END
11290 GOSUB Err
11300 RETURN
11310 !
11320 Calkey: !




                                                   Page 7
For more information about Hewlett-Packard
Test and Measurement products,
applications, services, and for a current sales
office listing, visit our web site,
http://www.hp.com/go/tmdir. You can also
contact one of the following centers and ask
for a test and measurement sales
representative.

United States:
Hewlett-Packard Company
Test and Measurement Call Center
P.O. Box 4026
Englewood, CO 80155-4026
1 800 452 4844

Canada:
Hewlett-Packard Canada Ltd.
5150 Spectrum Way
Mississauga, Ontario
L4W 5G1
(905) 206 4725

Europe:
Hewlett-Packard
European Marketing Centre
P.O. Box 999
1180 AZ Amstelveen
The Netherlands
(31 20) 547 9900

Japan:
Hewlett-Packard Japan Ltd.
Measurement Assistance Center
9-1, Takakura-Cho, Hachioji-Shi,
Tokyo 192, Japan
Tel: (81-426) 56-7832
Fax: (81-426) 56-7840

Latin America:
Hewlett-Packard
Latin American Region Headquarters
5200 Blue Lagoon Drive
9th Floor
Miami, Florida 33126
U.S.A.
(305) 267 4245/4220

Australia/New Zealand:
Hewlett-Packard Australia Ltd.
31-41 Joseph Street
Blackburn, Victoria 3130
Australia
1 800 629 485

Asia Pacific:
Hewlett-Packard Asia Pacific Ltd
17-21/F Shell Tower, Times Square,
1 Matheson Street, Causeway Bay,
Hong Kong
Tel: (852) 2599 7777
Fax: (852) 2506 9285





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