User Manual
Contents
1. This ensures that any previous Pro Tools sessions will sound identical when loaded into a Pro Tools AAX session However the Recon Meter mode will be retained with the new AAX session 28 4 Additional information for Pro Tools AAX HDX In preparing the Oxford Limiter for the Pro Tools AAX plug in format we have striven to provide the closest possible integration within the new Pro Tools framework and where possible have made improvements to the original RTAS TDM design Track Preset Auto Master 1 Universal gain cont BYPASS Oxford Limiter 1 COMPARE SAFE Native OXFORD LIMITER OUTPUT ENHANCE OUTPUT RECON LEVEL METER DITHER TYPE DEPTH Dithering Unlike previous TDM and RTAS versions the AAX version has the new option of not dithering the output This should be used whenever the plug in is not inserted last in the master insert chain When enabling 16 or 24 bit dithering the plug in now automatically compensates the output level for the type of dither being added using the minimum possible gain reduction This means that when you enable dithering your mix should not generate any more clips than it already does with no dithering Therefore you do not have to find the reduced output level that no longer produces clips 29 The AAX Limiter continues to exhibit exceptional noise shaping performance for the dithering and truncation resulting in a noise floor that is in some places nearly 30dB2. and therefore may not be faithfully reproduced even if no sample value limiting occurs The following is an illustration of one example of this situation Peak reconstruction level Signal reconstruction area Peak sample value With a signal frequency that is exactly 1 4 of the sample rate and in phase ie 12K Hz at 48K or 11 25KHz at 44 1K it is possible to generate full level output from a DAC from samples that barely reach 70 of full value within the digital domain If the level of this signal were increased towards maximum allowable sample value close to 1 the area representing the reconstruction provided by the DAC filter would produce signals that are considerably in excess of maximum modulation 13 Since the vast majority of metering within workstation environments responds to sample value only the above example would show a level of around 3dB below clipping However any further increase in the level of the signal would result in a potentially illegal output level from the system converter As this error would not be reported on metering within the workstation in this particular case a possible 3dB overload can result if the signal is increased to a maximum reading on the workstation meters This phenomenon is sometimes termed as inter sample peaking Although the above example is somewhat extreme and specific there is plenty of potential for this to occur within the mixing environment Comb
3. below that of standard TPDF dithered truncated methods One improvement in this new version is the elimination of the tiny de offset that was introduced by the truncation Safe Mode in Combination with Dithering Safe Mode allows the use of slower attack times in the limiter section often considered more musical coupled with the use of a time constant controlled inflator section to catch any over range peaks and transform them to legal sample values while still retaining the apparent loudness of the original over range peak Safe mode uses an inflation algorithm that cannot generate an over range value but can generate a digital maximum value that may be interpreted as a clip Once dither is added the result can most definitely be over range and then hard clipped in the dithering truncation section The AAX Oxford Limiter applies the minimum possible gain reduction to ensure that when Safe mode is on regardless of whether dithering is enabled or not the Oxford Limiter cannot clip and the clip lights do not activate Reconstruction Meter and Auto Compensation of Inter Sample Peaks The AAX Oxford Limiter features two reconstruction meter modes DAC Simulation which was present in the RTAS TDM version and a new True Peak mode selected by pressing the Sonnox button on the plug in interface DAC Simulation is selected by default ensuring that previous RTAS TDM sessions will sound the same on first load However True Peak mode ca
4. level from around 93dBr to 80dBr an increase of roughly 13dB From this it can be understood that the design of a suitable noise shaping frequency curve is a trade off between the perceived loudness of the noise under certain conditions and the increase in overall level of the dither signal much of this trade off relies on what we can hear psycho acoustics Significant research has been carried out over the years into various approaches to this issue and several accepted curves are in use around the industry 21 The Oxford Limiter includes four noise shaping curves Types 1 and 3 are fifth order and Types 2 and 4 are third order designs representing a varied set of trade offs to suit most programme types as illustrated below Whilst it is understood that the selection of noise shaping type is largely a matter of user preference generally speaking Types 1 and 2 produce the most dramatic reduction in overall noise loudness with Type 1 being the most effective of all Types 3 and 4 provide gentler responses which under some circumstances may produce less intrusive sounding spectrums at the expense of higher audible residual noise Type 3 also provides greater noise attenuation in the range between 10KHz and 16KHz at the expense of higher noise levels in the mid ranges 2 8 3 Noise Shaping Depth Control From the previous section it can be seen that noise shaping can poten
5. mix especially if your tracks contain particularly quiet material Noise shaping reduces the level of dither noise in the regions where the ear is most sensitive at the expense of pushing the noise into regions of less sensitivity 24 3 Description of Controls The plug in s user interface is divided into three main areas an Input section the Pre Process section and an Output section OXFORD LIMITER a OUTPUT ENHANCE OUTPUT RECON LEVEL METER DITHER TYPE TPDF DEPTH Note that the parameter fields provide continuous feedback of settings values and have type in fields so you can change values directly from your keyboard Input Section INPUT GAIN fader controls the input gain to the limiter processing from 18dB to 18dB The threshold for the onset of dynamic gain control action in the Pre Process section is fixed at OdBr 18dB of possible gain reduction is therefore available from a full level input signal INPUT meter displays the effective input level from 20dBr to 18dBr Gain settings producing effective programme levels above OdB are subject to dynamic gain control the meter scale above OdB displays the range of level where action occurs The red overload indication operates on input signal levels prior to the limiter processing regardless of the gain setting in order to provide input overload warning at all times 25 INPUT GAIN display displays effective gain at all
6. ENHANCE OUTPUT RECON LEVEL METER L R ma Dra EH am ID COMP PEAK HOLD DITHER 24 BIT DITHER TYPE TPDF Sonnox Oxford Limiter Operation Manual Version 1 2 15 May 2013 PROC 1 Introduction The Oxford Limiter plug in has been developed from decades of professional audio experience to provide a very high degree of quality and capability in programme loudness control and limiting functions By employing highly accurate logarithmic sidechain processing along with innovative adaptive timing functionality using look ahead signal acquisition the limiter provides exemplary performance whether one is seeking general transparent level control programme loudness maximisation or heavily applied artistic audio effects Unique processing in the form of the Enhance function provides the sample value limiting needed to reliably avoid overloads in digital workstation environments and allows unprecedented volume and punch to be applied to programme beyond that available from conventional limiting functions Comprehensive metering is provided which displays not only conventional peak sample value but additionally allows the user to monitor the true validity of the programme in order to avoid the generation of damaging reconstruction overloads in the target equipment which are often invisible during production sometimes termed inter sample peaks A further function allows the user to dynamically correct for recons
7. PUT ENHANCE OUTPUT RECON LEVEL METER ma ra When the RECON METER function is selected see right the meter is switched from conventional peak sample value mode into reconstruction mode In this mode peak pues h reconstruction levels will be displayed on the meter Levels in the red overload range of the meter represent the presence of potential reconstruction errors as illustrated below using the previous example Recon Meter readings Mixer Meter reading Te i 120 4 Two methods are provided to correct for this 2 7 2 Manual Correction Since the output level fader precedes the metering errors may be corrected manually by simply reducing the output level setting by the same amount as the maximum error level reported on the meter 2 7 3 Auto Comp Under normal circumstances errors that are often restricted to certain specific events are interspersed throughout the programme The Auto Comp function is provided to address the situation where it may be undesirable to reduce the level of the whole programme to avoid transient errors AAX version Refer to Section 2 7 for an explanation of the two Recon Meter operation modes 16 When the AUTO COMP button is selected the level of the output is automatically controlled to repair reconstruction errors by the minimum amount required and only for the duration of the error In this way the loudness of parts of the programme unaffected by the errors
8. S AD AA ANA FRS A VS ARE eee AO EU ES 8k 10k 12k Hz There is no technical or philosophical advantage to noise shaping above and beyond that which can be actually heard directly Therefore the decision to use noise shaping and to what extent is basically determined by what might actually be heard in practice If conventional TPDF dither provides sufficient audible dynamic range such that noise never intrudes within the programme material it is safest to avoid noise shaping altogether Because of the potential fragility of a noise shaped signal it is better to ensure that it is carried out only at the final stages of mastering immediately prior to release If your mix is not already a final master it is technically preferable to send a TPDF dithered 24 bit file to the mastering facility rather than a 16 bit noise shaped file 23 Another important factor is that the effectiveness of psycho acoustic noise shaping relies heavily on our sensitivity to noise spectra at the threshold of hearing Therefore if noise shaped dither actually gets to be heard directly it will often sound quite strange and intrusive and may detract from the listener s experience of the programme The most effective and safest approach is to apply noise shaping at the minimum amount necessary to render the noise inaudible within the conditions the programme is destined to be auditioned 2 8 4 Additional information G
9. amme and limiter settings or produce a lower level mastered output if required Programme gain is accurately controlled by look ahead detection to allow action before any peaks are encountered coupled with a logarithmic sidechain employing multiple interdependent timing functions Timing controls are provided to modify its action depending on the programme type and production style In order to reduce excessive short term gain modulation a selectable AUTO GAIN function is included which compensates for wider input level variations by imposing a longer term time constant that underlies the peak timing A variable progressive SOFT KNEE function provides varying degrees of soft limiting for lower settings right up to large scale gain management active over the final 10dB of programme dynamic range 2 3 Enhancement Section OUTPUT ENHANCE OUTPUT RECON The purpose of the enhancement process is to provide ry neers sample value limiting and overall programme loudness improvement The process follows the Pre Process section in the signal path and is controlled by a separate ENHANCE fader from 0 no action to 125 maximum action In Normal Mode the range from 0 to 100 fades in the effect to full level at which complete sample DITHER TYPE value limiting occurs Settings from 100 to 125 further DEPTH modify the process to progressively increase loudness and programme density at the expense of increasing potential di
10. compressed the sound or the more its dynamic characteristics remain untouched 32 10 If you changed the Input level in stage 7 you must repeat stage 6 and 7 to check where the peak sample turns out to be This is because changing the input level will have non linear consequences to the output level Set dither mode to 16 bits for CD or 24 Bits for a good DAC feed by a digital output enable Auto Comp and rerun through your mix to check that the output does not clip If it does reduce the Output fader by a fraction say 0 0008dB You are now ready to burn to CD or output to a DAC Recipe 2 Setting up the Oxford Limiter for the Loudest Possible Impact l Set Attack and Release times to relatively slow for example about midway so that you like the sound Start with preset Hot and Pumpy or Slammer Safe Set Safe Mode On and set Enhance fader to 0 Set dither mode to 16 bits for CD or 24 Bits for a good DAC feed by a digital output Set Peak Hold On and Auto Comp On Set Output fader to 0 0008dB You can now experiment with pushing the input level while listening to the sound and pushing the Enhance level while listening to the sound or both The more Enhance you have the bigger and fatter the sound The more input you have the louder the perceived result No matter what you do to the input fader or enhance fader you should not get hard clipping Recipe 3 Setting up the Oxford Limite
11. correct for inter sample peaks manually if you want to by showing how much over unity your inter sample peaks are Reduce the output fader to compensate if you do not want to use the Auto Comp feature The Recon Meter in DAC simulation mode will not work correctly unless the samples are already limited to digital maximum For example if the Recon Meter is presented with a 3dB over range sample it is hard clipped at OdB and therefore is not registered by the indicator The Auto Comp section will not attempt to compensate for it In other words Auto Comp for over range inter sample peaks does not compensate for samples that are themselves over range True Peak Indication Mode In this new mode the true inter sample peak value of any sample sequence is calculated Unlike DAC Simulation mode it corrects illegal sample values or illegal sequences of values This means that if you choose not to use Safe Mode and prefer to use slower attack times often with more musical results the Auto Comp section when enabled will now catch and compress any over range peaks escaping the main limiter section For this specific case this gives a different sound to the hard clipping that occurred in the RTAS TDM version using DAC Simulation mode and you can choose which version you prefer by using the new preference under the Sonnox button menu When Auto Comp is on in True Peak mode the clip LEDs should never activate 15 2 7 1 Meter Operation OUT
12. dither type which includes conventional TPDF and four different types of noise shaping options see description in the Operation section of this manual for details DEPTH button selects the effective degree of action for any selected noise shaping option from 0 to 100 OUTPUT meter displays the plug in s final output level OUTPUT clip LEDs 44X version only Indicates sample value gt OdBFs orange LED for NO DITHER mode or maximum values in 16 bit and 24 bit DITHER modes Red LED with 16 or 24 as appropriate PEAK HOLD button select this for long term monitoring of peak levels RECON METER button switches the output meter to display actual reconstructed programme signal levels ie the signal that will be present in the analogue domain after decoding with a digital to analogue converter When uncorrected the overload region is displayed in red AUTO COMP button selection of this function enables extra processing that allows automatic compensation of potential reconstructed programme overloads For monitoring purposes the meter overload region remains visible during auto compensation but it changes colour to indicate that these signals are no longer present at the output and therefore do not represent an actual programme error Please note that the red peak indicator responds to normal peak sample values at all times This provides indication of possible numerical clipping for signals t
13. dvantageous within the style of the production 2 4 Attack Timing The addition of an ATTACK timing control is a significant departure from conventional limiter applications and requires some explanation for the best results Because the level detection within the plug in looks ahead of the gain control peaks in the programme material are acted upon in advance of the gain reduction process Therefore at the fastest setting of the attack control programme peaks are controlled within a very small margin less than 0 25dB with respect to continuous sine input conditions The ATTACK fader provides a means of increasing the attack time to achieve a favourable improvement in the sonic qualities of the peak reduction process by allowing peak programme transient events to escape hard gain reduction Since the plug in has internal headroom these overshoot peaks are retained and are not clipped Peak overshoots resulting from a combination of the programme material and the action of the Pre Process stage are then passed to the enhancement section where their sonic signatures can be added to the final programme sound Providing SAFE MODE is selected or the ENHANCE fader is set to 100 or more in Normal Mode no output sample value overloads will occur from the plug in regardless of ATTACK or RELEASE time settings A combination of slower attack times and the enhancement process is therefore a very powerful way to include transie
14. e noise has been substantially reduced in the regions up to around 8KHz where we are most sensitive at the expense of extra noise energy in the higher ranges above 10KHz at which we are less sensitive Such processing can have a dramatic effect on the perceived 24 BIT intrusion of low level noise LU Et 115 TPDF DEPTH However as is always the case one cannot get something for nothing and it can be seen from the above graph that the total noise power across the whole range must remain constant to satisfy the dithering requirement 20 This means the noise level necessarily increases in some ranges of the spectrum A level increase anywhere in the spectrum must be accommodated by an increase in total peak noise level The following graphs illustrate this in action under the previous test conditions S 0 N Y 0 000015 93 3247 00400 00000 001FF FFF78000 00077FFF S ON Y 0 000001 80 3958 00400 00000 003FF FFF78000 00077FFF The first graph above shows a sample value plot of the conventional TPDF dithered signal The second graph shows the increase in values caused by the application of the TYPE 1 noise shaping at 100 Focussing the dither energy into a more restricted range than would naturally occur causes the level to increase From the effective level values highlighted in the graphs it can be seen that the application of noise shaping has increased the effective noise
15. enerally speaking a signal must be dithered if it is to be output via any form of reduced bit depth signal for example you are listening to it via a DAC or to any limited resolution media The only time you can avoid dithering your material is if you know for certain that dithering will be applied later for example your material will be sent to a mastering studio The Dither section if enabled must hard clip your signal if it has not already been controlled to legal sample values This is because dither must be referenced to a digital maximum and any sample value beyond that maximum must be limited to the maximum If there are active clips with Dither enabled you should monitor your output levels on the Output Meters with Dither Mode set to NONE and Recon Meter set to OFF This will indicate when the Dither section would have clipped the output signal In combination with the Peak Hold button playing your entire track will show how far over unity your maximum sample value is The output meter LED s are arranged to be exactly 0 5dB per LED above OdB You can then use the output fader to compensate by the same amount Finally you would normally revert Dither mode back to ON after doing this If you are preparing a file or a track that will be burned directly to CD it is imperative that you set the Oxford Limiter Dither mode to 16 bits You can also experiment with the other dither shapes to see if this improves the sound of your
16. files are not portable between different host applications With the Oxford plug ins preset manager you can create a named preset in one host application and load it when using an alternative application The Sonnox Preset Manager is fully described in a companion document Sonnox Toolbar and Preset Manager Operation Manual available for download on the Support Documentation page of the Sonnox website www sonnox com 36 7 Specifications 7 1 Instantiations per DSP Chip Pro 48kHz 96kHz 192kHz DSP TYPE Tools Mono Stereo Mono Stereo Mono Stereo AAX 6 5 3 2 1 1 AAX no Recon i f z i Accel 4 2 2 1 il i HD 1 1 1 1 Due to processing load restrictions the Reconstruction Meter and Auto Compensation options are not available Native processing overhead will be dependent on CPU speed the number of CPUs and how much of the DSP algorithms are engaged by the settings used 7 2 96kHz Sample Rate and Higher Operation ProTools TDM only The full stereo version of the Sonnox Oxford Limiter when running at 96kHz sample rate on ProTools TDM automatically disables the reconstruction meter and Auto Compensation functionality This is indicated by greying out of the AUTO COMP and RECON METER buttons The reason for this is as follows The full stereo version of Sonnox Oxford Limiter even when run at 96kHz on 150MHz DSP chips is too large to fit on a single chip Note however that the full Stereo versi
17. gement because of its wide range of control in the Pre Process section and the ability of the Enhance stage to control the level of short term peaks which means that musically kinder attack and release times can be used without risk of transient overloads Moderate attack times and slower release times usually perform best for this function The AUTO GAIN function is particularly useful in this case as it provides a method to achieve long term gain control whilst allowing a degree of fast gain riding over a reduced range Moderately fast recovery times can be arranged to control short term events with the auto gain function managing long term level changes Higher SOFT KNEE settings can also considerably improve perceived quality as this acts in the same way as a variable ratio compressor that starts at lower levels This allows the limiter to preview signals at moderate levels and reduce the rate of change of gain in the loudest peak regions 12 2 7 Reconstruction Metering Section An important fact which is often overlooked is that in any discrete time sampling system it is possible to create sample values that may not be decoded and reconstructed correctly Whilst it is true that if left unchanged a signal properly converted into the digital domain by a perfect ADC will always produce sample values that can be legally decoded in a perfect DAC further processing of those samples can result in a decoded signal that is illegally high
18. hat may not provoke full scale value readings in reconstruction mode 4AX version Two Auto Comp modes DAC Simulation and True Peak are selectable by clicking the Sonnox button Default is DAC Simulation mode TDM version Due to processing load restrictions the Reconstruction Meter and Auto Compensation options are not available for 4FS 192KHz Accel and 2FS 96KHz HD versions of the TDM plug ins 27 Options Menu Clicking the Sonnox button produces a OXFORD LIMITER v Clip Lights Do Not Hold OUTPUT drop down options menu see right Clip Lights Hold 2 seconds am vance Clip Lights Hold 5 seconds ee v Enable Sonnox Toolbar Show Preset Name Path Clip Lights these options determine the approximate time that an overload About Sonnox Oxford Limiter indicator will stay on for when the plug in has detected a full level sample at either its input or output Enable Sonnox Toolbar displays or hides the Sonnox Preset Manager Toolbar see Section 4 Show Preset Name Path shows the hierarchical directory path for Presets that are stored in sub folders of the default Preset folder About Sonnox Oxford Reverb displays the date version and build number of the plug in Pro Tools AAX version only Recon Meter is True Peak indicator see Section 2 7 for details Recon Meter is DAC Simulator see Section 2 7 for details Note The Default Recon Meter mode is DAC Simulation
19. in which the Recon meter when active made the output LEDs part of its meter and thus did not alert the user if there was an output clip present The output clip LEDs are very specific as to exactly what they indicate No Dither Mode An active clip indicates the sample value has reached a value greater than or equal to 0dBFs for one or more samples In this case the output clip lights should be in agreement with the Pro Tools clip lights The active clips LEDS are now drawn with a reduced severity warning Orange colour in this case because a floating point over value is not necessarily a danger sign 16 bit Dither Mode An active clip indicates that the truncated output sample value in the fixed 16 bit integer domain has hit the maximum possible values of 32767 or 32768 for one or more samples These values are not the same as 0 0dBFs being very slightly smaller and so the Pro Tools clip LEDs will not indicate an agreement with the clips on the Oxford Limiter plug in However since the 16 bit integer value has hit digital max and the samples are destined to be written to 16 bit fixed precision media the clip LEDs are drawn with an elevated danger level of Red with a 16 indication in them to remind the user they have a particular meaning 24 bit Dither Mode A clip indicates that the truncated output sample value in the fixed 24 bit integer domain has hit the maximum possible values of 8388607 or 8388608 for one or
20. ining a number of processed contributing tracks and limiting the result to the maximum possible modulation level in order to satisfy current industry trends when using only peak value metering provides a recipe for such hidden errors Since the very purpose of a limiting application is most often to increase average modulation levels a reconstruction meter with both manual and automatic correction processing has been included in the Oxford Limiter plug in in order to provide the user with a method to avoid or repair such errors Pro Tools AAX version only The AAX version of Oxford Limiter has two Reconstruction Meter modes DAC Simulation that was present in the RTAS TDM version and a new True Peak mode DAC Simulation Mode A signal that is already 2dB over unity when it reaches the Auto Compensation section will remain 2dB over unity It is only inter sample peaks that are corrected not sample peaks Therefore the Auto Comp feature in this mode should be understood as a feature that corrects for illegal sequences of legal sample values not corrects illegal sample values Before examining the Recon Meter and using the Auto Comp feature you need to ensure that you have already controlled transients in some other way to bring them below unity see The Limiter Section This means using Safe Mode having 16 bit or 24 bit dither enabled or lowering the input or output fader 14 The Recon Meter option allows you to
21. istered Trademarks of their respective holders 9 Manual Revision History Version 1 0 date 1 April 2007 Generic Sonnox version Version 1 1 date 10 January 2012 Updated for new software version Version 1 2 date 15 May 2013 Updated for AAX software version 38 Platform Specific Supplement S1 Supported Platforms Avid Pro Tools LE RTAS M Powered Pro Tools HD and Pro Tools 10 HDX amp Native VST Native Audio Units Native S2 System Requirements These requirements are current at this revision of manual For latest system requirements please see the website www sonnox com Pro Tools Pro Tools 7 8 9 amp 10 Approved Pro Tools CPU OS and hardware configuration see www avid com Mac OSX 10 4 or higher OSX 10 6 8 or higher for AAX Windows XP Vista 32 amp 64 bit Windows 7 32 amp 64 bit Ram 1GB minimum iLok USB key with latest drivers 2 generation iLok required for AAX plug ins Audio Units Audio Units compliant host application e g Logic Digital Performer etc Mac OSX 10 4 or higher Ram 1GB minimum iLok USB key with latest drivers 2 generation iLok required for 64 bit plug ins VST VST compliant host application e g Nuendo Cubase WaveLab etc Mac OSX 10 4 or higher Windows XP Vista 32 amp 64 bit Windows 7 32 amp 64 bit Ram 1GB minimum iLok USB key with latest drivers 2 generation iLok required for 64 bit plug ins 39
22. more samples These values are not exactly the same as 0 0dBFs although it is closer than 31 for 16 bit dither and so the Pro Tools clip LEDs will not necessarily indicate an agreement with the clips on the Oxford Limiter plug in As for the 16 bit mode since the 24 bit integer value has hit digital max and the samples are destined to be written to 24 bit fixed precision media the clip LEDs are drawn with an elevated danger level of Red with a 24 indication in them to remind the user they have a particular meaning 5 Suggested Workflows 5 1 Native Pro Tools LE TDM A step by step guide for three different sounds Recipe 1 Setting up the Oxford Limiter for the cleanest most transparent output that is suitable for output to a file or a DAC l Set the attack and release times to relatively slow for example about midway so that you like the sound Try starting out with the preset Clean gentle no enh 2 Push the input gain to about 6dB 3 Set Safe Mode Off and Enhance fader to 0 4 Set Dither to None 5 Set Peak hold On Auto Comp off Recon off 6 Run through your entire material At the end note how much over unity your peak value is 7 Either Reduce the Output Fader by the same amount If there were no over unity peaks you can increase your output gain by the amount the peak value was under unity Or Reduce the Input fader by the same amount The less you push the input gain the less
23. mpressed the sound or the more its dynamic characteristics remain untouched This favours a more dynamic sounding mix at the expense of sounding less loud Choice 3 Use True Peak Auto Comp mode Enable Auto Comp in True Peak mode Enable dithering with noise shaping if needed and replay your mix to confirm there are no clips This will reduce the output gain automatically with a fast time constant whenever the output level breaches the 0dB max This potentially produces the loudest sounding mix because you do not need to reduce the general signal level to remove the clips It will sound the most compressed too Choice 4 Hard Clip If you need to enable dithering anyway and the overs are only very small you may find that clipping the tips of the transients during the dithering process sounds better than the other choices 8 You are now ready to burn to CD or output to a DAC 35 6 Preset Manager Toolbar The Oxford Limiter plug in comes A o o OXFORD LIMITER i equipped with its own onboard Preset E ENHANCE OUTPUT RECON LEVEL Manager which is displayed as a toolbar at the top of the plug in window just as if the host created it see right The reasoning behind this is to allow increased portability of your presets across all the host applications while also providing a consistent and versatile interface Although most host platforms allow the creation and loading of presets those host created preset
24. n be selected instead which will then be saved with the session When using DAC Simulation mode bear in mind that a signal that is already 2dB over unity when it hits the Auto Compensation section will remain 2dB over unity It is only inter sample peaks that are corrected not sample peaks In this mode the Auto Comp feature should be understood as a feature that Corrects for illegal sequences of legal sample values and not corrects illegal sample values As the Recon Meter in DAC Simulation mode will not work correctly unless the samples are already limited to digital maximum this means using Safe Mode have 16 bit or 24 bit dither enabled or lower the input or output fader 30 In True Peak mode the true inter sample peak value of any sample sequence is calculated This means that if you use slower attack times and do not use Safe Mode the Auto Comp section when enabled will now catch and compress any over range peaks escaping the main limiter section For this specific case this gives a different sound to the hard clipping that occurs in the DAC Simulation RTAS TDM version When Auto Comp is on in True Peak mode the clip LEDs will not light In this mode the Oxford Limiter can be said to be an Oversampling Limiter or an Inter Sample Peak Limiter Output Meter Clip LEDs The Clip LEDs in the output meter always display whether the output signal is clipping This is in contrast to the RTAS TDM version
25. nts in the output programme that would normally be removed by conventional limiting processes It can create a sonic quality and impression of dynamic range that belies the degree to which the programme is actually being limited As an example of the difference this can make if slower attack settings are used without the enhancer and the output gain is reduced to accommodate the overshoots avoiding overloads using the same attack settings with the enhancer can provide up to and beyond a 3dB increase in average level being able to legally increase the output gain setting and around another 2dB of perceived loudness due to the enhance action itself This can result in a perceived loudness increase of 5dB to 6dB In general very fast attack times will more readily remove extremely fine detail and short term events but will produce greater harmonic disturbance Slower attack times will progressively allow finer detail to escape the harsh sound of fast limiting and longer term events will tend to assume a more rounded peak profile Such settings are usually kinder to the musical programme Please note that the only way slower attack settings can be used without a potential need for a significant reduction of the output level control is when the ENHANCE control is set at or above 100 or with SAFE MODE selected These methods will soft clip transients ie compress their level before the onset of clipping providing a warmer val
26. of this procedure is to achieve an overall average increase in the level of the programme by reducing the size of short term peaks and applying extra gain to move the programme up into the extra range freed up by the removal of the peaks Signal before limiting Signal after limiting To achieve this it is customary to select relatively fast attack and release times whilst judiciously increasing the input levels so that only the offending programme peaks are subject to reduction by the limiter and the average modulation level is increased The Sonnox Oxford Limiter can produce significantly superior results in loudness maximisation because it can fully limit the signal even when using slower attack times This leads to much lower distortion and less removal of dynamic programme information The timing controls on the Pre Process section of the Limiter can be used freely to make subtle modification to this process in order to achieve the best possible results 11 2 6 2 General Gain Management The aim of this procedure is usually to preserve the short term dynamics of the programme as far as possible whilst ensuring that no levels surpass maximum peak modulation This most often entails responding to the peak level of the programme as quickly as possible and re scaling the gain in the longer term such that musical dynamics are only minimally affected in the short term The Limiter can excel in general gain mana
27. on including the Reconstruction Meter and Auto compensation facilities will fit onto a 150MHZ DSP chip if the project is run at 88 2kHz As part of a mastering limiter plug in the Auto Compensation functionality is most useful at 44 1kHz as part of the very last processing step performed on the audio prior to transfer to CD Thus a 96kHz project would best be mixed down to stereo and then re sampled to 44 1kHz prior to this final mastering step Note that it is important that a stereo signal is treated with a stereo version of the Oxford Limiter rather than two mono versions in order to preserve the stereo imaging 37 Similarly note that at 192kHz the full mono version will not longer fit into a whole DSP chip even at 150MHz so the Auto Comp and reconstruction meter functionality is disabled for the mono version at this sample rate For Pro Tools AAX DSP AAX Native and LE VST and AU Native versions there is no need for any restriction 8 Copyright and Acknowledgements Trademarks and content copyright 2007 Present Sonnox Ltd All rights reserved This Product is manufactured and supplied by Sonnox Ltd under licence from Sony UK Ltd The following patents protect this Product GB2330747 GB2310984 GB 2342023 DIGIDESIGN AVID and PRO TOOLS are trademarks or registered trademarks of Digidesign and or Avid Technology Inc VST is a Trademark of Steinberg AG All other product and company names are Trademarks or Reg
28. r as a Brick wall Limiter l 2 Set Attack and Release times to relatively fast near the bottom so that you like the sound without distortion appearing Start with preset Brickwall Enh Set Safe Mode On and set Enhance fader to 0 33 5 2 Set dither mode to 16 bits for CD or 24 Bits for a good DAC feed by a digital output Set Peak Hold On and Auto Comp On You can now experiment with pushing the input level while listening to the sound The more input you have the more compressed the perceived result up to a point You can also experiment with pushing the enhance fader to fatten your sound No matter what you do to the input fader or enhance fader you should not get hard clipping but you may hear soft distortion if either are pushed too much For a cleaner sound you may want to turn the Safe Mode off and proceed as for Recipe above but with faster attack time Workflow with the AAX version Points to remember a If you enable Safe Mode you will never see a clip b If you enable Auto Comp with True Peak Mode you will never see a clip c If you enable Dither Mode you will never see any more clips than you already have This leads to new workflows for achieving a fixed resolution media ready mix Here s a suggestion for setting up the AAX Oxford Limiter for a clean transparent output that is suitable for output to a file or a DAC l Set the attack and release time
29. remains as high as possible A combination of Auto Comp and manual output level reduction can be used to strike a compromise if the action of the error correction becomes intrusive in the presence of very large and intermittent error conditions 2 8 Dither and Noise Shaping The finite mathematical precision provided by digital audio systems and the effects of dither have been a source of confusion in the audio community for some years Such discussion may lead to possible misconceptions which may prevent the user from achieving maximum performance from the systems in use Therefore the dithering options provided in the Oxford Limiter warrant some prior explanation OUTPUT ENHANCE OUTPUT RECON The DITHER button see right toggles dither selection LEVEL METER between NONE 16 BIT or 24 BIT word length 2 8 1 Conventional Dither In both 24 bit and 16 bit output word length selections high pass TPDF Triangular Probability Density Function dithering is applied to the output of the plug in Since any signal related error caused by finite word length limitation is turned into constant random noise with no relation to the signal itself such dithering provides complete removal of harmonic distortion due to precision limits which are an inescapable result of any numerical signal representation Dithering also suppresses any possibility that the programme will suffer loss of harmonic signal resolution due to word length restric
30. ry periods If such settings are needed the aim becomes one of fitting the release timing to the natural rhythm of events in the programme Under these conditions better results may be achieved by increasing the input gain somewhat thereby compressing further and applying the Soft Knee function in order to compress gently over an increased portion of the dynamic range In this way the transition in and out of compression will become gentler and less obvious 2 6 Programme Limiting Procedures There are many approaches to limiting within current productions trends but most approaches fall into two categories loudness maximisation and general gain control A very wide range of control is provided by the Oxford plug in to make both these situations possible with ease The key to successful limiting is to understand that we are much more sensitive to the rate of change of gain than we are to absolute level Therefore successful limiting has a tendency to fall into an appropriate mixture of two simultaneous but conceptually separate actions e Fast control over small level ranges because they are too quick for us to notice and too small to produce damaging harmonic distortion e Slow control over larger level ranges because the gain changes are slow enough to escape obvious notice and the rate of change of level is slow enough to avoid intrusive modulation effects and distortion 10 2 6 1 Loudness Maximisation The aim
31. s to relatively slow for example about midway so that you like the sound Try starting with the preset Clean gentle no enh If you want maximum loudness push the input gain to about 6dB If you want to simply prevent overs leave input gain at OdB Set Safe Mode Off and Enhance fader to 0 Set Dither to None Set Peak hold On Auto Comp off Recon Off 34 6 Run through your entire material At the end note how much over unity your peak value is Te You now have four methods to eliminate the clips which can be used individually or in combination Choice I Change the output gain Reduce the Output Fader by the same amount enable Dithering with noise shaping if needed enable Auto Comp in DAC Simulation mode and replay your mix to check if you reduced enough repeating until there are no clips If there were no over unity peaks you can increase your input gain by the amount the peak value was under unity prior to replaying This produces a louder sounding mix at the expense of sounding more compressed Choice 2 Change the input gain Reduce the Input fader by the same amount enable dithering with noise shaping if needed and auto comp in DAC Simulation mode and replay your mix to check if you reduced enough repeating until there are no clips Changing the input level will have non linear consequences to the output level so you may need to reduce more The less you try to push the input gain the less co
32. stortion artefacts SAFE MODE see Pre Process Section is provided to allow absolute peak level control without excessive enhancer action even when using slow attack settings In Safe Mode the enhance process is set to run permanently and the enhance fader modifies the action of the process rather than the proportion of the effect Setting ranges from 0 to 100 control the degree of programme loudness boost generated by the enhancer The control region from 100 to 125 works identically to Normal Mode It should be noted that in Safe Mode signals at all levels are being processed permanently therefore some minor changes to the programme dynamics can occur even for a minimum setting of 0 The enhance process improves the perceived loudness and presence of the programme material by modifying the dynamic and harmonic content of the signal Since the method used is different from the Pre Processing section it can further enhance the perceived volume of a previously processed signal while suppressing all signal overloads As the limiting action does not involve conventional sample value clipping harsh distortions are avoided and programme detail and dynamic information is largely retained Also since the plug in has internal headroom transient levels greater than notional maximum modulation can pass from the limiter section into the enhancement stage This means that percussive overshoots that would normally be lost in a conventional limi
33. ter or would give rise to overloads may be included within the sonic results of the plug in producing both richer dynamic sonic detail and a useful reduction in the perceived artefacts of the limiting process all without giving rise to any sample value overload This property enables slower attack times to be used in the Pre Process section without creating output overloads which would otherwise result in a need to reduce output levels The enhancement section can be used effectively on its own to produce programme enrichment and peak value limiting by using minimal gain reduction and slow timing settings in the Pre Process section Or it can be used to enhance highly processed content from the Pre Process section to achieve even greater perceived loudness Because the enhancement process adds harmonic distortion during dynamics within the programme under some conditions side effects may occur depending on the content of the programme material Generally speaking side effects should be minimal when in Safe Mode and for boost settings up to 100 when mastering in the presence of most commonly occurring complex and dense composite material However some extra care may be needed in the case of single solo instrument tracks where there may be a predominance of sustained lower and middle frequency content Settings above 100 are most useful when the programme type is intended to be very loud or where extra distortion may actually prove a
34. tially cause unwanted effects in equipment and processes down line particularly if the programme is to be further modified such as in mastering situations Some unwanted effects may include e Marked increase in noise levels if the file is not transferred intact bit for bit ie if further processing is implemented e Premature meter readings in silence e Premature peak level overloads as increased dither levels add to peak signal value e Unwanted low level behaviour in dynamics processing e Disturbance caused to data reduction encoding processes such as MP3 WMA etc e Increased audibility unmasking of various errors that may occur in play out systems 22 Generally speaking high levels of noise shaping render a signal that is more fragile Almost any change to the produced audio file after noise shaping could potentially result in unwanted effects For these reasons the DEPTH selector is provided to put you in charge of the degree to which noise shaping is applied When any of the noise shape curves are selected the depth selector varies the degree of noise shaping from 0 to 100 in 10 steps At 0 the dither is conventional HP TPDF dither as if noise shaping were not selected at 100 full noise shaping is applied All control positions within the range produce legal proportions of dither The action of the depth control is illustrated below with TYPE 1 selected 0 20 40 60 80 T N L
35. times and allows settings to be typed in manually Pre Process Section ATTACK fader provides setting of attack timing from 0 05mS to ImS ref 10dB gain change RELEASE fader provides adjustment of release timing from 0 05mS to 1 038 seconds ref 10dB gain change SOFT KNEE fader adjusts the soft limiting threshold from OdB hard limiting to 10dB maximum soft limiting GAIN REDUCTION meter permanently displays the total peak gain reduction due to Pre Process dynamic gain control action AUTO GAIN button switches in an additional long term gain process providing automatic gain scaling compensation to accommodate wide input programme level ranges SAFE MODE button switches the plug in into Safe Mode which employs the Enhance section to control peak levels at all times When this is not selected the plug in is considered to be in Normal Mode Output Section ENHANCE fader controls the level of dynamic enhancement from 0 to 125 In Normal Mode full sample value limiting occurs only with settings at or above 100 When SAFE MODE is selected sample value limiting occurs permanently and the ENHANCE fader controls the degree of dynamic loudness boost OUTPUT LEVEL fader adjusts the output level from 18dBr to OdBr DITHER button toggles between 16 bit output word length 24 bit output word length or no dithering NONE 26 DITHER TYPE button selects the output
36. tion The graphs on the following page illustrate this in action 17 The first graph shows the damaged spectral result of passing a low level 1KHz sine wave through a 16 bit undithered truncation ma E Ak 6k Bk 10k 12k ik 20k The next graph shows the exact same signal and truncation to 16 bits but with the HP TPDF dither applied 60 F Ap sof As it can be seen all the harmonic errors have been removed Also since the FFT analysis method provides an enhanced view of the signal below the noise floor it can also be seen that there is effectively no low level floor below which a signal will fail to pass To illustrate this fact see the graph on the following page 18 The graph below shows a 1 KHz signal at 120dBr passing through a dithered 16 bit system This corresponds to a signal 24dB below the level of the least significant bit the effective channel SNR Signal to Noise Ratio is added in blue for illustration purposes 80r F Actual noise floor 90 be AE EE This illustrates that dither turns a quantised numerical signal conduit into the equivalent of a naturally continuous un quantised system which exhibits a finite signal to noise ratio with no practical limit to harmonic signal resolution In other
37. truction overloads in real time thereby achieving maximum possible modulation levels without the risks of producing illegal signals often associated with compression and limiting Comprehensive dithering functionality is included with selectable and variable depth noise shaping which ensures first class mastering output quality in either 24 bit or 16 bit modes 2 Operation 2 1 Overview The limiter plug in is comprised of four processes cascaded in the following order e Pre processing gain control e Programme enhancement and overshoot control e Reconstruction metering and compensation e Dithering and noise shaping The primary purpose of the plug in is to control peak levels and increase the volume density and presence of musical programme without an excessive loss of transient and dynamic information that normally results from conventional peak limiting applications In order to achieve this the application employs gain scaling and compression in the Pre Process section and peak overshoot control in the enhancement section These processes are used in conjunction to enable the sound of transient and dynamic information within your programme material to reach the output of the plug in despite very tight control of maximum peak sample values The normal Enhance control setting for this action to fully occur is 100 and above in Normal Mode or any enhance setting with Safe Mode selected A variable control is pro
38. uction ranges and are therefore unsuitable for overall level control situations The AUTO GAIN function can be used very effectively to compensate for large level changes while still allowing fast peak modelling for shorter peak events as the ATTACK and RELEASE controls are permanently functional So it is a good idea to keep AUTO GAIN selected under most circumstances Generally speaking faster release times produce the greatest perceived loudness since gain recovery happens quickly after peak events have passed and average programme levels are affected only during the shortest possible periods However since the gain recovery can begin to occur between the waveform peaks of lower frequencies in the programme there is a trade off to be made between the speed of release and the generation of distortion Such distortion may be desirable under many conditions particularly in loud popular music productions where some low frequency harmonics may add warmth and presence to the programme Adjusting release timing over a wide range provides a method to tune these effects to suit the production style Longer release times are far more forgiving of gain changes and allow greater overall compression but will result in a quieter sounding output programme If the AUTO GAIN function is not selected moderate release time settings above around 0 2 seconds may produce audible gain pumping due to longer and more noticeable recove
39. ve like saturated sound Alternatively enable 16 bit or 24 bit dither which will hard clip over unity transients ie squaring the top bottom of waveforms and resulting in a more distorted sound often found in transistorised circuits 2 4 1 Using Pre process without the Enhance Section You should be aware that since the Pre Process section is a programme gain controller rather than a simple sample clipper programme peaks can cause a small increase in maximum output sample value even at the fastest attack time settings If SAFE MODE isn t selected or the ENHANCE fader is not set at or above 100 in Normal Mode these peaks will appear at the output of the plug in Increasing the attack times will further increase peak overshoots so if tight level control is required without the enhancer it is best to leave the attack at minimum setting Since the plug in has internal level headroom the output level control can be safely used to compensate for any artistically intended overshoot without fear of causing internal signal clipping 2 5 Release Timing The RELEASE control has a very wide range to accommodate the maximum possible extent of programme and production style The ability to set very fast release times is provided specifically to allow for the modelling of short term peaks over restricted gain reduction ranges up to a maximum of around 4dB Such settings will result in high levels of distortion for larger gain red
40. vided to allow the enhance process to be adjusted or removed completely i e at 0 setting in which case the Pre Process section may be used as a conventional programme levelling application if desired A Safe Mode is provided which uses the enhance processing to permanently control peak levels In this mode the Enhance control varies the perceived loudness boost of the programme by modifying the processing law 2 2 Pre Process Section The Pre Process section provides a musical programme levelling function Its primary purpose is to control programme level over a wide range in order to provide optimum conditions for the following enhancement stage When the ENHANCE control is disabled in Normal Mode at 0 with SAFE MODE deselected the Pre Process section can be used as a conventional levelling section in its own right For clarity of operation the plug in gain structure is arranged with the threshold permanently set to 0dB referenced to normal input level Dynamic gain reduction is achieved by increasing the INPUT GAIN sufficiently for the internal signal to surpass the OdBr reference level A total of 18dB gain boost is available for this purpose and the orange section of the INPUT meter illustrates the level range within which gain reduction occurs when the plug in is active The final output modulation level is set by the OUTPUT LEVEL control which can be adjusted to compensate for dynamic conditions produced by the progr
41. words the inescapable presence of quantisation in numerical systems does not forcibly lead to discontinuity or resolution loss in the signal The misunderstanding of this fact underpins many of the most damaging misconceptions surrounding digital audio systems It can also be deduced from the above graphs that any undithered digital representation of an audio signal is effectively illegal 19 2 8 2 Noise Shaping Dither If for some reason SNR figures of 93dB at 16bits or 143dB at 24bits prove insufficient noise shaping can provide an apparent increase in SNR but there are some potentially hidden costs Noise shaped dithering is a mechanism that aims to reduce the perceived loudness of the noise of a dithered signal by either forcing the spectrum of the noise out of the audible range or placing it into frequency ranges to which we are less sensitive In this way the noise at very low levels may be reduced and even lost entirely if they are at the limit of our hearing within ambient noise conditions The following graph illustrates this process The red line shows the original 16 bit dithered output with the 120dBr signal passing The blue line shows the effect of noise shaping TYPE 1 at 100 on the same signal transfer In use the DITHER TYPE button see right toggles OUTPUT TPDF TYPE 1 TYPE 2 TYPE 3 and TYPE 4 ENHANCE OUTPUT RECON It can be seen that th
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