Creative 1212M Why use SMPTE?, Striping Smpte, Avoiding Smpte problems, Smpte Subframe Resolution

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7 - Appendix

SMPTE Background

time! (A one hour program would actually be 59 minutes and 56.4 seconds long.) Drop frame was designed to correct this time difference. In 30 Drop Frame, every minute except 00-10-20-30-40-50have the first two frames, 00 and 01, “dropped”, hence the name drop-frame.

Why use SMPTE?

SMPTE sync, although well over 30 years old, has the advantage of being able to be recorded as an audio track. This allows it to be used with virtually any kind of recording equipment from tape recorders to computer-based digital audio recorders. You can even buy phonograph records with a SMPTE stripe!

SMPTE was designed in the days when tape dropout was a common occurrence and so it was designed to convey “absolute” location information. Since each frame of SMPTE code provides its own unique identification, it provides the ability for a receiving device to recover from data dropout. In addition, edits can be performed in the middle of a song with just a few seconds of pre-roll before the punch-in point. SMPTE is also standardized, which means that code generated on different makes of equipment will be compatible with each other. SMPTE also has fairly good resolution, especially at the subframe level. You’ll be happy to know that the Sync Daughter Card resolves to the subframe level. The chart below shows subframe accuracy at the three frame rates.

SMPTE Subframe Resolution

Frames-per-second

Resolution

 

 

24 fps

.521 mS

 

 

25 fps

.500 mS

 

 

30 fps

.417 mS

 

 

Striping SMPTE

Printing SMPTE to a track is called striping (as in stripe). SMPTE time code is recorded on an unused audio track of another recorder, then played back into the Sync Daughter Card. The Sync Daughter Card passes the location information on to the host computer as MTC quarter-frame data to be used by an application such as an audio recorder or sequencer.

SMPTE is usually recorded at about -3 VU on semi-pro gear, -10 VU on professional gear and 0 VU on video gear. Experiment to find the optimum levels. When printing to a time code track of a video deck, be careful. The time code playback head locations on video decks are not standardized and can cause gross timing errors. Time code which is striped on an audio track will always be in sync with the picture. SMPTE code is tradi- tionally recorded on the right channel of a video recorder.

Avoiding SMPTE problems

Problems in reading SMPTE time code can often be related to poor quality code on the tape. Poor quality code can be caused by a number of problems, the most common being dirty or misaligned heads, amplifier clipping, or too many generations of audio dubbing. Other problems can be caused by running the SMPTE signal through signal processing devices such as Limiters, Reverbs, Harmonizers, etc. (Don’t laugh, it has been done!) In fact, many video decks have built in AGCs (Automatic Gain Controls) which will ruin the SMPTE signal if the input level is too high. Always check playback to insure that the time code is usable. In general, no signal processing should be used on the SMPTE signal. SMPTE code is delicate and should be treated as such.

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Contents Digital Audio System MU Digital Audio System MU JapanTable of Contents PatchMix DSP Mixer Effects Using High Sample Rates AppendixIndex 115 Introduction WelcomeAll Systems Include MU Digital Audio System Components MU 1212M MU 1820MMU 1212M System MU 1820 SystemMU 1820M System Installation Setting Up the Digital Audio SystemConnector Types Safety FirstName Description Connects Installing the E-MU 1010 PCI Card To install the 1010 PCI card into your computerSlo ts Install the Sync Daughter Card or 0202 Daughter Card Sync Daughter CardMU 1010 PCI Card MU 0202 & AudioDockRack Mounting the AudioDock Rubber FeetRubber Foot Rack-shelf Mount Software Installation Installing the E-MU 1010 DriversUninstalling all Audio Drivers and Applications Windows 2000 or Windows XPInstallation Software Installation PCI Card & Interfaces E-MU 1010 PCI CardConnections IEEE1394 Firewire 0202 Daughter CardAnalog Inputs and Outputs Midi In/OutAudioDock Inputs are configured as followsHeadphone Output & Volume Control Front Panel ConnectionsPreamp Section Midi 1 In/OutAudioDock Front Panel Indicators Midi Input IndicatorsClock Source and Sample Rate Indicators Sample Rate IndicatorsRear Panel Connections Line Level Analog InputsTurntable Inputs & Ground Lug Line Level Analog OutputsEDI Connector Card Computer Speaker Analog OutputsMidi 2 In/Out Computer Speaker Output Duplicates Line Level OutputSync Daughter Card PatchMix DSP Mixer PatchMix DSPOverview of the Mixer To Invoke the PatchMix DSP MixerMixer Window MonitorOut MainMU Icon in the Windows Taskbar ToolbarRight-Click Here Session New SessionSession Settings System SettingsOpen Session Save SessionUsing External Clock Midi SettingsSettings Input too weak? Use -10 Input setting Output too weak?Headroom Inputs +4 or Outputs +4 orPCI Card Optical Input PCI Card Optical OutputInput Mixer Strips Mixer Strip Creation To Add a New StripMultichannel Wave Files Windows Media Player/DVD/Surround Sound PlaybackTo Delete a Mixer Strip Multichannel Wave to Surround Sound Speaker ChannelsInsert Section Working with InsertsTo Add an Effect to an Insert Location Insert Menu To Add a Send InsertTo Add a Send/Return Insert InputUsing External Sends & Returns To Insert an External Signal Processing DeviceOutboard Signal Processor Asio Direct Monitor Send/Return To Add an Asio Direct Monitor Send/ReturnRecordingPlayback To Set the Input Levels of a Strip Meter Inserts60 50 40 30 20 To Insert a MeterMaking the Best Possible Recording Test Tone/Signal Generator Insert Trim Pot InsertManaging Your Inserts To Delete an InsertTo Bypass an Insert To Bypass All InsertsAux Section Pan FaderAux Bus AmountInput OutputPre-Fader Aux Send Post-Fader Aux SendLevel, Pan, Solo & Mute Controls Main Section TV Screen & Selectors EffectInput OutputSync/Sample Rate Indicators Auxiliary Effects & ReturnsInput Input OutputOutput Section PatchMix DSP Mixer Main Section Effects OverviewEffects Palette Core Effects Multi-EffectsFX Insert Chains To Select an EffectTo Edit an Effect To Delete an EffectCreating, Renaming & Deleting Categories or Presets To Create a New Preset CategoryTo Delete an Effect Category or Preset To Rename an Effects CategoryTo Import Core FX Presets To Export your Core FX PresetsTo Import FX Category Folders To Export your FX Category FoldersFX Edit Screen User Preset Section To Select a User PresetTo Create a New User Preset To Bypass ALLCore Effects and Effects Presets To Delete a User PresetTo Rename a User Preset To Overwrite or Save a User PresetList of Core Effects DSP Resource UsageExample Total EffectsCore Effects Descriptions Band Para EQBand Shelf EQ Low Shelf Or… High ShelfSetting up a Parametric EQ Band EQMid Band High Shelf Low-Shelf Mid 1-Band Mid 2-Band High-Shelf Auto-Wah Auto-Wah FilterVCA Out ChorusCompressor Basic Controls Distortion DistortionInput Meter Flanger FlangerFreq Shifter Leveling Amp Post GainLite Reverb Early Reflections ReverberationTimeMono Delays 100, 250, 500, 750, 1500 DelayRolloff Phase Shifter RotarySpeaker Simulator Speaker Type DescriptionDelay Stereo Delays 100, 250, 500, 750Rolloff Stereo Reverb Early Reflections Late ReverbVocal Morpher FrequencyList of Available Phonemes Phoneme BMU PowerFX Setup Cubase LE To Setup & Use E-MU PowerFXAutomating E-MU PowerFX MU PowerFX Resource AvailabilityTo Record PowerFX parameter changes in Cubase LE MU PowerFX Compatibility Chart Application Name Compatible? Render Extra BuffersRendering Audio with E-MU PowerFX Using E-MU PowerFX with WaveLab and SoundForgeGeneral Tips for Rendering using PowerFX Tips for using Freeze Mode on Cubase LEMU E-Wire VST Wire VST plug-inPatchMix DSP Strip configured for E-Wire Delay Compensator To Setup and use E-WireDelay Compensator Use Delay Units ParameterCubase VST or Cubasis PatchMixGrouping Tracks TrackUsing High Sample Rates MU 1820 System at 88.2k/96k 1010 PCI Card & AudioDockMU 1820 Inputs/Outputs at 88.2kHz or 96kHz Source TotalAdat enabled Line In 2 & 3 enabledMU 1212M System at 88.2k or 96k 1010 PCI Card & I/O Card MU 1212M Inputs/Outputs at 88.2kHz or 96kHz SourceMU 1820 System at 176.4kHz or 192kHz MU 1212 System at 176.4k/192k 1010 PCI Card & I/O CardMU 1820 Inputs/Outputs at 176.4kHz or 192kHz Source Total OutputsMicrophone & Line 3 Input enabled Microphone & Adat Input enabledLine Input 1 & Adat Input enabled Line Inputs 1 & 3 enabledWDM Recording and Playback Behavior Using High Sample Rates Overview Smpte Features AppendixSync Daughter Card Supplement Smpte ConversionHost Mode External ModeFlywheel Mode Smpte Modes of OperationStripe Mode Smpte BackgroundTime Code Types of SmpteWhy use SMPTE? Avoiding Smpte problemsSmpte Subframe Resolution Frames-per-second ResolutionOther Tips for using Smpte Example Smpte ConnectionDuplicating Smpte time code SyncTo Enable MTC Midi Time Code MTCWord Clock In/Out To Synchronize PatchMix DSP to an External Clock SourceHouse Sync Generator Digital Device Digital MixerAdat Optical MU 1010 CardGetting in Sync External Device supplies Master ClockPatchMix DSP supplies Master Clock Via AdatBalanced 1/4 TRS Connectors Unbalanced 1/4 Useful InformationAES/EBU to S/PDIF Cable Adapter Cables balanced or unbalanced?Phantom Power Appearance Settings in WindowsDigital Cables GroundingTechnical Specifications Specifications 1820M SystemType Frequency Response THD + NType Frequency Response Stereo Crosstalk Gain Range Max LevelDynamic Range Microphone Preamp Gain Range Max LevelFirewire Frequency Response THD+NInternal Crystal Sync Frame Rates Modes Input Level Output Level Input ImpedanceSpecifications 1820 System MIC PREAMP/LINE Input RMS Jitter @ 44.1K Specifications 1212 System Dimensions & Weight Weight 30lb / 0.14kg Dimensions 7 / 170.2mmWeight 25lb / 0.10kg Dimensions 04 / 128mm PCI CardInternet References SynthForums Declaration of Conformity Trade NameModel No Responsible PartyCompliance Information Appendix Internet References 114 Index NumericsIndex Adat 118 MU Digital Audio System 119 Index 120