Manual - Lindos Electronics
Contents
1. 10ms period 3 3 Noise Measurement Click Noise and the oscillator output is automatically muted though it can be de muted and measurements are made according to the option selected The default is Option 1 Noise Option 1 ITU 468 weighted Q pk Noise Option 2 Unweighted Q pk Noise Option 3 Unweighted RMS Noise Option 4 A weighted Q pk Noise Option 5 A weighted RMS Noise is often expressed as Signal to Noise Ratio or Dynamic Range Dynamic range is often taken to mean the difference between max signal level and noise level but it is also used to refer to the difference between max signal level full scale digital and muted noise level suppressing the dither 11 in a digital system What matters is how far the noise is below a typical signal and it is a good idea to establish a nominal level call it alignment level AL and measure noise relative to this All broadcast measurements are made relative to alignment level which usually corresponds to OdBu 0 775Vrms Maximum permitted level or full scale digital digital FS will be above this by an amount referred to as headroom usually 18dB EBU recommendation on digital recordings or 24dB on some original material Headroom is typically 12dB or less on broadcast paths where the EBU recommends 9dB max level when measured on a PPM which does not read the true peaks The merit of this system is that a noise measurement made relative2. AES3 EBU Alignment level B BBC C Calibrating the Sound Card Compression Crossover distortion Crosstalk measurement on the unit D digital level Distortion measurement on the unit Dynamic range E EBU recommendation F FFT Averaging Windowing FFT Fast Fourier Transform Frequency setting output Frequency measurement on the unit 12 11 11 12 11 10 11 14 13 13 12 Frequency response FS full scale digital 11 FSK 7 12 H headroom 6 Headroom 11 plot 17 I Installing Lin4WinXP 7 ipconfig 15 K Known Problems 19 L LA100 3 16 17 18 Left Out dB 6 Level setting output 9 Level measurement on the unit 10 ultra fast 10 Limiting 11 M Maximum permitted level 11 Mute 10 N Noise measurement on the unit 10 23 normalise O Oscillator Use Oscilloscope View P Phase measurement plot PPM dual attack fast attack use Q Quasi Peak R Remote commands Remote Connection rms S sample rate Segments Sequence running Shadowbar Signal to noise ratio Speaker icon T TCP IP Toolbar Button 13 17 12 12 12 10 18 15 11 7 15 18 15 U UniSon V Vernier Volume Control Window W Waveform setting output
3. The DigiSonic is available for download from wwwlndes ceomk and is also supplied on a CD found on the inside front cover of this manual When the dongle is not found the software runs in demonstration mode which provides a basic oscillator and level meter 1 Insert the DigiSonic CD into your computer 2 Open the DigiSonic Setup directory and double click on setup exe 3 Follow the on screen prompts and install the software If you encounter any problems installing the software restart the computer ensure that no other applications are running and try again The software will work with Windows 2000 and XP A 1 5GHz processor is necessary for all of the DigiSonic s features to work correctly To run the DigiSonic click on the Windows Start button follow the programs menu arrow and click on the DigiSonic icon It is good idea to create a shortcut on the desktop When the DigiSonic starts it will run in demonstration mode and most of the buttons will be greyed out Insert the dongle and wait for the Find new hardware wizard window to appear Select No not at this time and click next Select Install the software automatically and click next Click Finish to complete the dongle set up procedure and the DigiSonic buttons will ungrey ia Welcome to the Found Mew Hardware Wizard windows wall search hor ounneri and updated snfesane by long on pour
4. 4 1 Remote Connection o0 Connect to DigiSonic locally sets j Pisisenie Connection Options the remote host to the local port of the machine running this software f Connect to DigiS5onic locally this computer f Connect to external Digisonic Enter IP address O e g 192 168 0 1 f Connect to te extemal DigiSonicz Connect to external DigiSonic allows the entry of an IP address in e Open the Control Panel when Lindwin starts text field To establish the IP address Connect to DigiS onic when Lindwin starts of a computer on a local network start a windows command prompt type ipconfig and press return Connection to two external DigiSonics is not currently implemented but this option will allow Lin4Win to control a separate DigiSonic oscillator and DigiSonic measuring set at different IP addresses Contact Lindos for more information Connect to DigiSonic when Lin4Win starts enables Lin4Win to start up in TCP IP connect mode If the user only has a DigiSonic it would be sensible to check this option to avoid having to click the DigiSonic toolbar button every time Lin4Win is loaded 4 2 The DigiSonic Toolbar Button The DigiSonic button on the toolbar on the main window toggles the communication type between serial and TCP IP It is perfectly permissible to have a DigiSonic running while also communicating with an LA100 or MiniSonic this button will toggle between the two 4 3 Swept Distortion Graph Op
5. Residue is particularly interesting as it contains a lot of information designed to allow at a glance assessment of performance The first bar represents the Noise level followed by bars for relative Distortion Residue at up to six levels The first of these at 20dB is often the most revealing In the absence of significant distortion it will indicate a figure 20dB worse than the noise bar because it is showing noise relative to the 20dB level and not alignment level but crossover distortion in amplifiers quantising errors in digital convertors and modulation noise on tape will all show as further worsening Manufacturers are keen to produce very low figures for distortion measured at MOL maximum output level or FS full scale but in practice these are of little relevance compared to performance at 20dB AL typically 46dB on CD where low relative levels are harder to achieve and defects are more likely to be heard 5 2 Inter working with the MS10 The DigiSonic has been designed to mimic the MiniSonic as closely as possible DigiSonic segments are subset of MiniSonic segments with the exception of swept distortion segment d which is not supported by the MiniSonic 18 5 3 Inter working with the LA100 The DigiSonic and the MS10 normally uses segments that are different from those recognised by the LA100 because their design made a faster and better set possible To distinguish them from LA100 segments DigiSonic
6. card into an audio test system that combines the functions of an oscillator signal generator level meter spectrum analyser noise meter peak programme meter and distortion meter along with frequency and phase measurement Its main feature though is Sequence Testing introduced by Lindos twenty years ago in the LA100 test set and universally used by broadcasters and studios for routine quality assurance ever since It takes just two clicks to run a typical test sequence that can quantify any audio system in terms of levels frequency response phase distortion and noise in as little as twenty seconds If Lin4WinXP another software package common to all Lindos test systems is also running an impressive results sheet with graphs and pass fail tolerance testing appears immediately on the screen ready to save print or even publish to the Web on our Test Sheet Database for all to see Sequence tests carry FSK coded information which ensures that they are self synchronising and fully automatic even between two DigiSonics The DigiSonic can generate and receive LA100 and MiniSonic sequences and digital processing has enabled us to include swept distortion and swept phase tests as well All measurements are completely real time and great attention has been paid to ensure that the software behaves more like hardware than software DO NOT INSERT THE DONGLE UNTIL AFTER INSTALLING THE DIGISONIC SOFTWARE 2 Installing the DigiSonic
7. main window and press return or click the Run button This immediately puts the DigiSonic into Sequence mode and runs and receives the sequence Each segment lasts typically 5 seconds and when the Sequence is complete the results are displayed in the results window Double click on a graph to view it in detail or on the text to edit the header information Seq The function of Seq is to put the DigiSonic into Sequence mode ready to receive a Sequence from another device Pressing Seq before running a sequence also offers the advantage of providing a list of segments and sequences in the function drop down menu on the control panel What follows is a more detailed description of each of the DigiSonic s features You may wish to skip to section 4 0 Using the DigiSonic with Lin4WinXP 5 Sequence Testing or 5 5 Segment Details V1 0 3 Stand Alone Use Without Lin4WinXP The maximum sample rate that can be used by the DigiSonic is currently limited to 44 1kHz 48kHz 24bit coming soon The maximum frequency that the DigiSonic allows the user to select is half the sample rate 3 1 Oscillator Use 3 1 1 Setting the Output Waveform Sine Wave Selects a sinusoidal output waveform Square Wave Selects square wave output Triangular Selects triangular wave output White Noise Generates white noise at the rms output level selected Note that the output frequency controls become greyed out Pink Noise This
8. to AL will always be a reasonable guide to the true intrusiveness of the noise onto typical material regardless of the headroom Where less headroom is available for transmission compression or limiting will usually be used to reduce brief peaks but this has little effect on overall perceived loudness A recording may start life with 24dB of headroom and end up with only 9dB of headroom at the listener s radio or television Its dynamic range has indeed been reduced but it will not sound any noisier assuming that it is the peaks that have been limited Instead it will have lost sparkle and impact Specifying noise and headroom separately reflects these different qualities properly 3 4 Distortion Measurement Click Dist to measure the level of all harmonics and noise in the frequency range 20Hz to 20kHz Various weighting filter options are provided but Lindos recommends using ITU R 468 weighting which takes proper account of the high order harmonics caused by crossover distortion or digital quantising errors and also gives due emphasis to the high frequency modulation noise that can cause a characteristic roughness on tape or compact cassette Such Distortion Residue readings will generally be higher than if they were measured using the THD total harmonic distortion rms method and on harsh crossover distortion they may be 15 or 20 dB higher Lindos suggests reserving the term Distortion Residue to mean 1k
9. Hz distortion measured ITU R 468 weighted and Quasi peak as an alternative to the traditional THD method Distortion Option 1 Distortion Residue ITU 468 weighted Q pk Distortion Option 2 THD N rms bandwidth set by sample rate to 20kHz approx 12 3 5 Crosstalk Measurement Click Crstlk Operation is exactly as for noise with the same 468 Weighting and Quasi Peak response but one channel of the oscillator output is always muted while the other is driven at the set level and frequency which can be adjusted while reading crosstalk Crosstalk can be measured at any frequency or level simply by changing the oscillator settings Crosstalk Option 1 ITU R 468 Weighted Crosstalk Option 2 Unweighted Quasi Peak Crosstalk Option 3 Unweighted rms 3 6 Frequency and Phase Measurements Frequency and phase measurements are displayed at the bottom of the DigiSonic s panel Note that the left channel is considered the reference so that a ve reading indicates that the right channel leads the left and a ve reading means that the right channel lags behind the left This was chosen because the left channel is used for FSK signalling on sequences and so is the preferred channel to use as a directly connected reference when measuring absolute phase in out on a piece of equipment There are circumstances though in which the phase delay in a single channel is of interest for example when attempting to time align separate driv
10. Lindos DS10 Software Audio Test Set User Manual First Edition Written by Chris M Skirrow Lindos Electronics December 2005 Table of Contents 1 Introduction to the DS10 2 Installing the DigiSonic 2 1 Calibrating the Sound Card 2 2 Calibration Method 1 2 3 Calibration Method 2 2 4 Installing Lin4WinXP 2 5 Running a Sequence 3 Stand Alone Use Without Lin4WinXP 3 1 Oscillator Use 3 1 1 Setting the Output Waveform 3 1 2 Setting the Output Frequency 3 1 3 Setting the Output Level 3 1 4 Channel Selection and Mute 3 2 Level Measurement 3 3 Noise Measurement 3 4 Distortion Measurement 3 5 Crosstalk Measurement 3 6 Frequency and Phase Measurements 3 7 PPM Peak Programme Meter Use 3 8 Spectrum Analysis 3 8 1 FFT Windowing Options 3 8 2 FFT Averaging Options15 3 9 Oscilloscope View 4 Using the DigiSonic with Lin4WinXP 4 1 Remote Connection 4 2 The DigiSonic Toolbar Button 4 3 Swept Distortion Graph Options 5 Sequence Testing 5 1 Downloading and Interpreting Results 5 2 Inter working with the MS10 5 3 Inter working with the LA100 5 4 Notes on Sequences and Segments 5 5 Segment Details V1 0 6 Appendix A Remote Commands 7 Appendix B Known Problems and Bugs CO CON OO OO UI A 10 10 10 10 10 11 11 11 12 13 13 13 14 14 16 17 17 17 17 18 18 18 19 19 20 21 22 1 Introduction to the DS10 The DS10 is a Windows software package which turns any PC with a sound
11. and MiniSonic segments are characterised by lower case characters the LA100 uses mostly upper case characters The LA102 is only able to measure on one channel at a time and has to switch channels after completing left channels sequence measurements and run the sequence again for the right channel Currently the DigiSonic only generates segment U When the DigiSonic receives an LA100 sequence because it can make measurements on both channels simultaneously and because the LA101 can output on both channel simultaneously all of the sequence results apart from right channel crosstalk results will be logged on the first sequence pass To run a LA100 sequence just once and thus halving the time taken to complete press the L R key on the LA101 when it is in sequence mode before running the sequence until L as opposed to L R is displayed in the top right hand corner of the graphical display The sequence is still output on both channels 5 4 Notes on Sequences and Segments Segment letters can be entered in any order either in the control panel or at the top of the main results window press return to send the actual sending order used by the DigiSonic is fixed Segment q actually tests distortion at 11 5 14 5 and 17 5dB rather than the nominal 12 15 and 18dB quoted for simplicity This provides a margin of safety to avoid just clipping when equipment is not precisely aligned 19 5 5 Segment Details V1 0 DigiSo
12. compter on She hadaa metala on OD or on fhe endows Update Seb site path pour peame Fised oun pavsoy policy Can Windows connect fa Windoes Update la se och For sase C Yer this lime ony 7 Yes nos and eves time comed a desce E Mo not the ime Chick Hest fo cont The seed helps pou install soars foc USE Donde Sofa Protectan Desce Mi pow hudar came with an mstallaon DD a Roppr disk intet at nor What da pou mani he zar Bo do Jra the soheae automatica Flecommendedi C real hom alist on specfic location Advanced Dick Mest fo continue A PESA cee Completing the Found Hew Hardware Wizard The wead has mehed inctaliing he soare for bo USE Donge Softase Paote chon Desie 2 1 Calibrating the Sound Card The DigiSonic will function with any sound card that is supported a Windows for testing in the digital P domain only a sound card that support AES3 EBU or SPDIF is all that is required More commonly soundcards incorporate A D and D A conversion and it is important to realise that the quality of testing in the analogue domain can only be as good as the quality of the convertors The software starts up outputting 1kHz at 0dB on whichever sound card is selected within Windows from the Sound and Audio Devices category in the Control Panel Calibrated analogue input and output levels will only be obtained if t
13. endix A Remote Commands Full remote control is possible using remote commands sent as ASCII characters over TCP IP The DigiSonic uses two ports for TCP IP communication This is to maintain the independence to the two sides of the DigiSonic and facilitate remote control of independent DigiSonic oscillators and measuring sets Oscillator 2055 Measuring Set 2056 General Purpose Measuring Set Commands ID TR RS D8 DO Read Identity dongle serial number followed by DigiSonic DS10 V1 0 Total Reset Partial Reset leaves sequence data stored Start continuous TCP IP data stream output see website for further information Stop streamed output Oscillator Commands FCn LCn LLn LRn Set Output Frequency by binary code 100 1kHz 0 mute 1 12 Octaves 4Hz to 40kHz Set Output Level by binary code 0 mute 200 0dB 0 5dB steps 95 to 18dB NB this also sets the an internal value used to restore level after muting Set Output Level L chan only codes as above restore value not affected Set Output Level R chan only codes as above restore value not affected Measurement Commands ICn ENnm F L P SQ S n SGx SR Set input Channel 1 left 2 right 0 both can be shortened to IC for both Set measurement Function and Option n and m are ASCII 0 to 7 m is optional n 0 Phase 1 Level 2 Noise 3 Crosstalk 4 Distortion 5 PPM 6 Seq 7 Freq Option 0 is normal eg FN1 or FN10 is le
14. ers in a wide range loudspeaker In this case the left channel input and output of the DigiSonic should be connected directly and treated as the reference signal by plugging the XLRs together or by making up a special lead incorporating the link The right channel input is then connected to the output of the device under test crossover network etc so that what is displayed becomes the input to output phase shift 3 7 PPM Peak Programme Meter Use Click PPM Both channels are displayed with accurate IEC type Ilb ie UK BBC British Broadcasting Corporation dynamics so this mode is ideal for checking the legality of programme levels for broadcast or recording PPM Option 2 Fast attack PPM Provides an alternative PPM with very fast attack integration time of under 1ms on both channels Decay time is as standard PPM Option 3 Dual Speed not currently implemented Selects dual attack PPM operating on the left channel only The main bar retains standard PPM characteristics while the shadowbar has the very fast attack of option 2 This will be found useful for detecting whether brief peaks have been compressed On uncompressed live percussive sounds a difference of 5 to 15dB will be observed between the two readings 13 3 8 Spectrum Analysis View Waveform FFI Click the View Waveform FFT button to open the spectrum analyser and oscilloscope view By default this window opens in frequency spectrum analyser mode d
15. he convertors output and input levels are accurately adjusted With some professional convertors the levels will be OdBu 775mVrms to within a few tenths of a dB which may be good enough for many purposes With consumer cards there is no standard level but it has been found that some do by chance come close to the Lindos UniSon standard of 6dBu 387mVrms For best accuracy a calibrated sine wave source will be needed otherwise use calibration method 2 below If a calibrated oscillator or measuring set is not available then we can hire you a MiniSonic see ww wlndos coulkprieeshteal or alternatively send your sound card to us and we ll measure the errors for you Contact Lindos for more information 2 2 Calibration Method 1 Connect the calibrated sine wave source to the input of the sound card The DigiSonic provides the Frau la ability to enter software Options Help correction factors for the sound Wave SW Synth CD Player card but first you need to use ral fang gas fea at aoe the input oom control to Volume o re n T n A n calibrate input and closely as possible 4 Double click on F mueal mo Y Mute MV Mute the speaker icon ise Audo conec found on the right hand side of the Windows toolbar to open the card s volume control settings Select Properties from the Options menu on the volume control window If the sound card has an input leve
16. hifts the display vertically such that the highest peak reads 0dB which can help resolve the above problem when looking for example for the relative levels of harmonics in a distorted sine wave 3 8 1 FFT Windowing Options 14 The spectrum analyser splits up the incoming audio into chunk each of length 2 12 4096 samples However it is unlikely that this number of samples will correspond to an Gain integer number of waveforms 1 2 and therefore the first and last samples in the 4096 sample chunk are unlikely to both be 0 8 zero This creates an edge at the start and finish of the 0 6 chunk which when analysed results in wideband noise spectral leakage Windowing 02 provides a solution to this problem by weighting the 0 samples such that those at the edges are reduced to zero The 1 0 4 20 40 60 80 100 120 amount of edge attenuation Samples applied determines the Smoothing Windows amount by which the spectral leakage is reduced and thus Flattop increases the available Blackman dynamic range for Hamming measurements However it Hanning also reduces the power within None the signal and consequently a trade off arises Several of the more common smoothing windows have been provided and their weighting functions are shown above 3 8 2 FFT Averaging Options Averaging the results for each fre
17. his into the L channel calibration window as above Then plug the right input channel into the left output and read the right channel level Enter the negation of this into the right input calibration box Then finally connect left to left and right to right Read the right input level and enter the negation of this into the right output calibration box Note that if you use this method without calibrating the left channels output first setting OdBu may not produce 0 775Vrms out of the card This requires particular consideration when measuring the available headroom of a system and when calibrating other equipment using a DigiSonic SS aloha nee hand ree Pe ura pe a m0 09 320 2 2j 2j 2 Lindos 2 4 Installing Lin4WinXP coe a id Lin4WinXP can control a DigiSonic locally xe as Fanaa Er on the same PC or remotely over a network As well providing access to the Sequence testing facilities built into the git z em 1001 0Hz DigiSonic all of the manual measurement a Ie ome Deptos 0510 V x features on the DigiSonic can be controlled po i smj n from Lin4Win s control panel 1 Open the Lin4Win Setup directory found on the same CD as the DigiSonic and double click on Setup exe 2 Follow the onscreen instructions and install the software Create a shortcut on your desktop or toolbar If you encounter any problems installing the software restart the computer ensure that no other applicat
18. ions are running and try again The software will work with Windows 95 98 NT 2000 and XP Double click on the Lin4WinXP icon and immediately the results and control panel windows will appear Click the DigiSonic icon on the toolbar at the top of the main results window to establish a local TCP IP connection with the DigiSonic For remote connection see section 4 1 Remote Connection ey A Suar xePFE ca Cuna See 7a CITH pena TEGIL HC indeed LIS frat Equipaent SOPRCL 954 Telliowiit FRC analogue im aut EF Wor Er in PA TELE RSHEE FITE felt Test PATO eo 4 A LA dd L 2 5 Running a Sequence bue sruse os t A DigiSonic Sequence consists of an 38 Gr H spite rie an unlimited sequence of segments E each segment is building block that generates a particular series of tones a Sweep or silence to test a particular parameter frequency response distortion or noise etc It begins by sending its identifying character in ASCII code as a frequency shift keyed FSK 110 baud signal which acts as a synchronising trigger for a series of timed measurements The responding DigiSonic does not have to be the unit that is generating the sequence nurhz Enter a list of segments typically nurhz into the sequence text box on the control panel or on the far Limi oon ri 00 50 00 00 20 0504 Edd l 1TU A n q Pk ATi DIR PFA PPk EERE EEEH BRATION Boom idi nm right of the toolbar at the top of the
19. is not currently implemented but will be available in a future update Contact Lindos if you would like this feature 3 1 2 Setting the Output Frequency Lindos standard frequencies are generated for compatibility with other Lindos test sets Adjusts the output frequency in 3 octave steps 3rd Oct Adjusts the output frequency in 12 octave steps Fine 3 1 3 Setting the Output Level lt gt Adjusts the output level in 1dB steps de lt gt Adjusts the output level in 0 5dB steps 0 505 10 3 1 4 Channel Selection and Mute The DigiSonic starts up driving both channels at 0dB 1kHz Click Left to toggle the left channel off and on f Right Click Right to toggle the right channel off and on Click Mute to toggle between muted output and the output state set by the Left and Right channel buttons 3 2 Level Measurement Click Level to measure the level on the incoming signal the default option switches in a rectifier with fast Quasi Peak rms reading characteristics Level Option 1 Fast Q pk The term Quasi Peak refers to any rectifier detector that responds essentially to the peak of the signal but takes a length of time to respond integration time Level Option 2 Super fast Q pk This selects level measurement with a very fast response reducing the attack and decay times by a factor of ten Level Option 3 RMS This takes the root mean square of the digital samples received over the last
20. isplaying both channels overlaid on top of each other the red trace represents the right channel The spectrum analyser displays the frequency content of the input signal in real time but the interpretation of spectral plots requires careful consideration This arises out of a fundamental difference between sine waves and other signals such as noise The amplitude of a sine wave is easily defined by its rms value The rms value of a band of noise however depends entirely on the bandwidth used for measurement leading to the confusing fact that a spectrum analysis of white noise using infinitely small bandwidth for high resolution gives no reading at all or a very large number of very small readings As implemented here using FFT Fast Fourier Transform the power content is divided into 2048 frequency bins which are of equal bandwidth 22Hz across the spectrum This gives rise to a display on white noise which is a straight horizontal line at the level of power seen in the analysis bandwidth the wider the bandwidth the higher the line There is no such thing as spectral content at a given frequency for noise or any waveform that is not just pure sine waves the bandwidth must be defined There is such a thing as noise power density at a given frequency which is measured in Watts Hz this relates to typical noise figure specifications like 12 nV VHz as might be seen in an Op Amp specification Clicking normalise s
21. l control the YellowTEC PUC and some other cards do not have then select the Recording button otherwise greyed out and click OK to open Recording Control Window Adjust the input level slider until the measured level reads around OdB At this stage the two channels may read differently The two digital level readings represent the measuring errors Enter the negation of these errors i e positive become negative and vice versa for both channels into the Left In dB and Right In dB boxes Click OK and check that both channels read zero Disconnect the sine wave source and connect the sound card s output to its input Double click on the speaker icon again to open another Volume Control Window Mute any output sliders other than Wave to eliminate their noise contributions Set the card s output Wave slider to full and adjust the volume speaker slider until the measuring set reads as close to zero as possible Again read off the errors and enter the negated readings into the Left Out dB and Right Out dB boxes Click OK and check that the levels read zero 2 3 Calibration Method 2 In the absence of both a calibrated signal source and a calibrated level meter PPM the best that can be done is to calibrate each input channel in turn to an arbitrary level maximum output setting is perhaps the best choice Plug the left input into the right output and read the left input level Enter the negation of t
22. nic Segments SEGd Swept Distortion ITU R 468 weighted distortion plot 20Hz to 10kHz 10s SEG n Sequence Separator Where nis an integer e g nu 2r generates nunur SEG lt n Repeat Sequence e g u lt runs sweeps indefinitely refreshing after each MiniSonic Segments Supported SEG n Master seg Test level SEG u Sweep 20Hz 20kHz O 0dB 5 secs SEGr Distortion Residue Distortion Residue 1kHz 20 0 8dB 5s SEG q Dist Res to 18 Distortion Residue 1kHz 0 12 18dB 5s SEG h Headroom Plot 1kHz OdB to 18dB in 1dB steps 5s SEG 1 Long Noise Plot Noise Weighted L channel 20s SEG z Phase FSK only Phase Plot use with u LA100 Segments Supported not currently generated by the DS10 SEGT Test Level 1kHz 1kHz O 0dB includes MS10 start text 1s SEGV Test Level 400Hz 400Hz O0dB includes MS10 start text 1s SEGU Sweep 20Hz 20kHz O 0dB 5s SEGR Tape Sweep 20Hz 20kHz O 10dB 5s SEGD Distortion THD 100Hz 1kHz 6 3kHz O 8dB 6s SEGG Distortion 50us 40 100 315 1k 6k3 10kHz with 50us de emphasis 18s SEGI Distortion THD 100 1kHz O 8 and 10dB 8 secs SEGA Crosstalk 40 100 315 1k 6k3 10kHz with 50us de emphasis 6s SEGN Noise mute for 8s SEGW Wow amp Flutter 3 150kHz for 12s SEGY Phase 40 100 1k 6k3 10k 15k mean 50us de emphasis is not provided SEOZ Phase 40 100 1k 6k3 10k 15k mean SEOC Crosstalk 40 100 315 1k 6 3k 10kHz 6s Special segments are available on request 2 6 App
23. quency band bin over a number of FFT analysis iterations smoothes out the variations in power within each bin Because the frequency content of noise changes rapidly with time an FFT with no averaging will display a large amount of hash at the noise floor Averaging the bins helps remove this hash and produces a much clearer plot The default option provides eight times linear averaging Though this produces the clearest display it is also the most processor intensive Currently only linear averaging options are provided 15 3 9 Oscilloscope View Click Time to switch to the oscilloscope view this changes mode of measurement from the frequency domain to the time domain Again both traces are overlaid on top of each other and the red trace is for the right channel Auto Trigger is by default switched on This triggers the display on the left channel s waveform and stabilizes the trace by also starting the view at a zero crossing AE FFI Frequency oc ale X axis allows the scale on 7 the x axis to be adjusted a Y axis allows the scale on su Fa Top the y axis to be adjusted ELLLER i bi dki owh oui ks dai bir owe aa b Tir fa 16 4 Using the DigiSonic with Lin4dWinXP Consult the enclosed Lin4WinXP manual for detailed information on Lin4Win s features The new options and buttons specific to operation with the DigiSonic are explained ioj xi below Comms port ee 02 3 w 4 e a er
24. tions New options are provided to customisation of i inns 0 the swept distortion plot These options are the PFE a o same as those described for other graphs in __ section 5 3 3 of the Lin4Win manual 17 5 Sequence Testing 5 1 Downloading and Interpreting Results Though this is automatic whenever a sequence is run or received it is of course possible to download the stored results from any DigiSonic unit at any time by simply clicking the GET button on the Lin4Win control panel Results can be downloaded from the unit again and again unless they are overwritten by running a new sequence or cleared by clicking reset or restarting the software A typical results page begins with a title date and time inserted by the PC the latter being useful as a reference code when a number of similar results are being compared or put into order A header on the right hand side can be entered by the user and will usually contain the equipment make and type along with details of the settings or test conditions Then come the listings of results on the left with corresponding graphical representations on the right These graphs can each be viewed individually in a separate window on a larger scale and with numerical cursor readout using the Graph Viewer They can also have their appearance altered in terms of height width scaling normalising and colours using Graph Options The bar chart representation of Distortion
25. vel FN12 is super fast level Read input Frequency in Hz BCD ie binary coded decimal Read input Level in dB ASCII decimal CR terminated true value inc range Read Phase in degrees ASCII decimal CR terminated Run a stereo test sequence Send SQ to send the currently set Sequence Read Sweep graph for register r 1 left chan 2 right Set Segment x is the ASCII segment character SGO resets all segments To set up a sequence send SGO followed by SGn SGu SGr for example Read Sequence results Lindos format 21 7 Appendix B Known Problems and Bugs It is advisable to turn off any screen savers on your PC Otherwise then the screen saver executes it will crash the DigiSonic s oscillator Removing the soundcard hardware at any point while the DigiSonic is running will cause an exception error message to appear Unfortunately because of the way the software works there is no provision for catching this error and dealing with it sensibly Press Crtl Alt Delete to bring up the task manager and click end task to close the DigiSonic A 1 5GHz processor is necessary for all of the DigiSonic s features to work correctly though many of the less processor intensive functions will operate on slower machines If the processor cannot cope with demands being placed on it glitches will be heard on the audio Using other applications while the DigiSonic is running will also often cause glitches to be heard on the audio 22 A
Download Pdf Manuals
Related Search