TC electronic SDN BHD Radar Detector LM5 User Manual

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TC SUPPORT INTERACTIVE  
TABLE OF CONTENTS  
The TC Support Interactive website www.tcsupport.tc is designed as an online support  
and information center. At the site you can find answers to specific questions  
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you can login to check the status of your questions, download materials such as  
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This site has been specifically designed to meet the needs of our users. We constantly  
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Browse through Q&A's and discover new aspects of your TC product.  
TABLE OF CONTENTS . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .1  
INTRODUCTION . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .2  
FEATURES  
. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .2  
SYSTEM REQUIREMENTS . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .2  
BASIC USE  
RADAR PAGE  
PPM PAGE  
. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .5  
. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .6  
. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .10  
If you can't find an answer online, you have the option of submitting a question to our  
technical support staff who will then reply to you by e-mail. The TC Support Team is  
on constant alert to help you in any way they can.  
PREFERENCE PAGE . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .12  
PRESETS . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .14  
LEVEL VERSUS LOUDNESS . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .15  
ITU-R BS.1770 PRIMER . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .17  
METER CALIBRATION . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .19  
DISPLAY  
. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .19  
. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .20  
POST SCRIPT  
PRESET MANAGEMENT NOTE . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .20  
Contact Details  
Alternatively, you may contact the TC Electronic distributor in your area, or write to:  
TC ELECTRONIC A/S  
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TC Electronic, Inc.  
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TRADEMARKS OF THEIR RESPECTIVE OWNERS. ALL SPECIFICATIONS SUBJECT  
TO CHANGE WITHOUT NOTICE.ALL RIGHTS RESERVED.  
TC ELECTRONIC IS A TC GROUP COMPANY.  
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Since 1998, TC has performed listening tests and evaluation of loudness models; and  
therefore holds an extensive, Universal Database of loudness, based on ten thousands  
of assessments. The database covers all sorts of broadcast material, music,  
commercials, feature film and experimental sounds, and is verified against other  
independent studies.  
INTRODUCTION  
LM5 and LM5D Radar Loudness Meter  
LM5 represents a quantum leap away from simply measuring audio level to measuring  
perceived loudness. The old level method is responsible for unacceptable level jumps  
in television, for music CDs getting increasingly distorted, and for different audio  
formats and program genres becoming incompatible: Pristine music tracks from the  
past don’t co-exist with new recordings, TV commercials don’t fit drama, classical  
music or film and broadcast doesn’t match. The most fundamental audio issue of all –  
control of loudness – every day makes millions of people adjust the volume control  
over and over again.  
The Universal Database is authoritative from an academic as well as a practical point  
of view. It has been indispensable when designing the LM5 meter, because it provided  
the missing link between short-term and long-term loudness, and enabled the  
statistically founded Universal Descriptors of LM5D.  
LM5 is part of a universal and ITU standardized loudness control concept, whereby  
audio may easily and consistently be measured and controlled at various stages of  
production and distribution.  
LM5 works coherently together with other TC equipment, or with equipment of other  
brands adhering to the same global standard. Follow the guidelines given to allow  
audio produced for different purposes to be mixed, without low dynamic range  
material such as commercials or pop CD’s always emerging the loudest.  
FEATURES  
Realtime loudness meter adhering to ITU-R BS.1770.  
Loudness History Radar display.  
True-peak Bargraph display.  
Universal Descriptors (LM5D)  
Supports mono, stereo and 5.1.  
Presets for use in Broadcast, Music, Post and Film.  
Fig 1. Left: DRT for consumers under different listening situations  
Right: Peak level normalization means that material targeted low dynamic range  
platforms gets loud.  
SYSTEM REQUIREMENTS  
Mac OS X (10.4 or higher) / Windows XP  
Pro Tools TDM 7.2 software (or higher)  
Pro Tools HD or HD Accel hardware  
iLok USB key  
iLok.com account and internet access required for product authorization  
System must meet Digidesign’s system requirements for Pro Tools TDM systems!  
The chart of Dynamic Range Tolerance in Fig 1 is a side-effect of the studies  
mentioned: Consumers were found to have a distinct Dynamic Range Tolerance (DRT)  
specific to their listening environment. The DRT is defined as a Preferred Average  
window with a certain peak level Headroom above it. The average sound pressure  
level, which obviously is different from one listening condition to another, has to be  
kept within certain boundaries in order to maintain speech intelligibility, and to avoid  
music or effects from getting annoyingly loud or soft.  
Audio engineers instinctively target a certain DRT profile when mixing, but because  
level normalization in broadcast and music production is based on peak level  
measures, low dynamic range signatures end up the loudest as shown by the red line  
in Fig 1, right. Audio production is therefore trapped in a downwards spiral, going for  
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ever decreasing dynamic range. By now, the pop music industry is “right of” In Flight  
Entertainment in the illustration.  
BASIC USE  
LM5 makes use of a unique way of visualizing short-term loudness, loudness history,  
and long-term statistical descriptors (LM5D only). It may be used with mono, stereo  
and 5.1 material for any type of program material.  
LM5 offers a standardized option: The visualization of loudness history and DRT in  
combination with long-term descriptors from production onwards, is a transparent and  
well sounding alternative to our current peak level obsession. Not only for music, but  
also in production for broadcast or film. The engineer, who may not be an audio  
expert, should be able to identify and consciously work with loudness developments  
within the limits of a target distribution platform, and with predictable results when  
the program is transcoded to another platform.  
Press the “Radar” key to bring up the Radar page. This page will probably be used  
most of the time. The basic functionality of the Radar page is shown in Fig 3.  
LM5 therefore color codes loudness so it’s easy to identify target level (green), below  
the noisefloor level (blue), or loud events (yellow), see Fig 2.  
Fig 2, Color coding and target  
loudness for selected broadcast  
platforms based on a consumer’s  
Dynamic Range Tolerance, DRT.  
The aim is to center dynamic range  
restriction around average loudness, in  
this case the –20 dB line, thereby  
automatically avoiding to wash out  
differences between foreground and  
background elements of a mix.  
Note how different the broadcast  
requirements are from those of  
Cinema.  
Fig 3, Radar page features of LM5D.  
Target Loudness is displayed at 12 o’clock of the outer ring, and at the bold,  
concentric circle of the radar. The Universal Descriptors, Consistency and Center of  
Gravity (LM5D only), are the yellow numbers in the lower part of the display. Press the  
“X” key to reset Radar and Descriptors.  
When production engineers realize the boundaries they should generally stay within,  
less dynamics processing is automatically needed during distribution, and the  
requirement for maintaining time-consuming metadata at a broadcast station is  
minimized. In broadcast, the goal is to use the same loudness measure for  
The “Transport Controls”, Auto, Pause and Reset, are used to make the radar and  
descriptor measurements run, pause and reset. When “Auto” is pressed, run (green)  
and pause (yellow) follows the ProTools transports.  
- Production,  
- Ingest,  
- Linking  
- Master Control Processing  
- Logging  
Press the “PPM” key to bring up the PPM page as shown in Fig 6. The PPM display is  
used to inspect balance between channels, overload of channels etc.  
Press the “Prefs” key to bring up the Preferences display as shown in Fig 8. Note that  
you can “zoom” in time or radar resolution, as long as the history is not reset. For  
instance, change between 4 min per revolution to 1 hour per revolution, or 6 dB per  
division to 10 dB per division.  
thereby ensuring better audio quality not only in DTV audio, but across all broadcast  
platforms. LM5 and TC processing can co-exist with PPM meters, VU meters or  
Dolby’s LM100 meter. LM5 greatly increases the usability of LM100 in production  
environments because it provides running status, and gives a standardized indication  
of both dialog and non-dialog program.  
Presets can be stored specifying target loudness, noise floor, overload conditions etc.  
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RADAR PAGE  
LOUDNESS HISTORY: RADAR  
The Loudness Radar shows a history of loudness over time. The loudness “landscape”  
may be used to judge if loudness emphasis is put where you want it to be: If dialog  
segments are balanced against action parts, if the chorus of a song has a lift against  
the verse, if the audience is too loud in a gameshow, or maybe as a target to aim for  
during a live transition etc.  
Current Loudness: Outer Ring  
The outer ring of the Radar page displays current loudness. The 0 LU point (i.e. Target  
Loudness) is at 12 o’clock, and marked by the border between green and yellow, while  
the Low Level point is marked by the border between green and blue. The “0 LU  
Equals” and “Low Level Below” parameters are found on Prefs page. For instance, if  
0 LU is set at -20 LFS, and Low Level is set at -12 LU, the color coding of Fig 3  
applies.  
The user should be instructed to keep the outer ring in the green area, and around 12  
o’clock on the average. Excursions into the blue or the yellow area should be  
balanced, and not only go in one direction.  
The numbers associated with the outer ring may be referenced at either maximum  
loudness, or have a zero point set somewhere mid-scale. Choose “LFS” or “LU” at the  
Loudness Scale selection on the Prefs page depending on your preference. Either way  
of looking at loudness is valid. LFS reading is in line with how peak level is typically  
measured in a digital system, and with Dolby LM100, while the LU approach calls for  
a certain Target Loudness to have been predetermined, like e.g. a VU meter.  
Fig 5, Different types of program shown on the Radar.  
Left: 5.1 movie:  
Pirates of the Caribbean on a 12 minute per revolution Radar: Low Consistency.  
Center:  
German news broadcast on a 4 minute per revolution Radar: Medium Consistency.  
Right:  
Madonna’s Hung Up pop on a one minute per resolution Radar: High Consistency.  
The duration of one radar revolution may be set between 1 minute and 24 hours. The  
Radar has 3, 4, 6, 8, 10 or 12 dB between each concentric circle, while the 0 LU  
point is always marked as the border between green and yellow at the bold concentric  
circle, see Fig 3. The 0 LU point is set on the Prefs page, typically between -12 and -  
24 LFS.  
The “Transport Controls” (lower left on the display) are used to make the Radar run,  
pause or reset. Note that these controls in LM5D appear as shown in Fig 3.  
The OBS indicator is lit to show certain inter-channel anomalies. Such conditions may  
be defined on the Prefs page. The OBS indicator would typically trigger the operator to  
switch to PPM page for a closer look of what’s going on.  
Fig 4, Radar page displaying calibration tones.  
Left meter: Standard NAB preset. 1 kHz, stereo sine at –20 dBFS.  
Right meter: Standard EBU preset. 1 kHz, stereo sine at –18 dBFS.  
The Peak indicator is lit to show that at least one channel is exceeding its true-peak  
max. The threshold of the Peak Indicator is defined on the Prefs page, and recalled  
with an LM5 preset.  
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Universal Descriptors (LM5D only)  
not to measure programs of a shorter duration than approximately 10 seconds, while  
the maximum duration may be 24 hours or longer.  
Additional to the short-term loudness (outer ring) and loudness history (radar), LM5D  
displays long-term statistical descriptors that describe an entire program, film or  
music track. Unlike concepts that measure only dialog, LM5D may measure any type  
of audio.  
Before a new measurement, press the “X” (Reset) key. This resets the descriptors, the  
radar and the true-peak meters. Run the audio, and watch the radar and descriptor  
fields update accordingly. It is normal that the descriptors wait five seconds into the  
program before showing the first readings, while the radar updates instantly. The first  
five seconds of a program are included in the descriptor calculations, even though  
they are not shown instantly.  
Center of Gravity (CoG) indicates the average loudness of a program, and is directly  
operational. If, for instance, a broadcast station is operated at an average loudness  
level of –22 LFS, and a commercial has its Center of Gravity measured at –19.5 LFS,  
the program should be attenuated by 2.5 dB before transmission for a best fit.  
LM5D incorporates an intelligent gate, which discriminates between foreground and  
background material of a program. Consequently, a measure doesn’t start before audio  
has been identified. It also pauses the measurement during periods of only  
background noise, and in the fade-out of a music track.  
Consistency indicates the loudness variations inside a program. At one extreme, a  
steady tone displays a Consistency of 0.0 LU. Broadcast programming typically comes  
out with a Consistency between –2 and –5 LU, while classical music or a feature film  
can show more negative readings, for instance a Consistency of –10 LU or lower. The  
number predicts how much loudness correction in LU (cut and boost) is needed to  
have a program or music track played without frequent loudness variations.  
Universal Descriptors and Dolby LM100  
Unlike methods that measure dialog only, LM5D may be used with any type of audio –  
which includes dialog, of course. If you wish to measure dialog, it’s recommended to  
do a manual spot check of a program or a film. Find 10-30 seconds of regular dialog  
and measure it with LM5D. Where dialog may be soft, regular or loud, and shift by  
more than 15 dB inside a film, regular dialog tends to be less ambiguous and more  
consistent across a program.  
Center of Gravity ranges from –80 LFS to +12 LFS, while Consistency ranges from  
–40 to 0 LU. Examples of typical Consistency / CoG values:  
Cinema movie: -6 to -15 LU / -22 to -30 LFS  
Classical music on CD: -5 to -12 LU / -15 to -30 LFS  
Broadcast: -2 to -5 LU / -18 to -24 LFS  
Commercials: -0.5 to -2 LU / -15 to -22 LFS  
Pre 1995 pop/rock CD: -1.5 to -5 LU / -14 to -20 LFS  
Hyper-compressed pop/rock CD: -1 to -3 LU / -5 to -8 LFS  
Note: For compatibility with a proprietary measure such as Dolby LM100, only some  
of these meters are updated to use ITU-R BS.1770 and Leq(K) while others are  
locked at Leq(A). The software version of LM100 should be 1.3.1.5 or higher in order  
for it to comply with BS.1770, and to have its average loudness reading be  
compatible with Center of Gravity in LM5. Even used just on speech, Leq(A) is not a  
precise approximation to perceived loudness, so please update the unit to BS.1770 to  
obtain similar readings and predictable results.  
Note: If you’re involved with music mastering, please observe that you enter red light  
district for CoG values closer to zero than –12 LFS, and that you’re well inside that  
zone if you pass the –10 LFS mark. Everything you do to make music even louder will  
end up getting counteracted in iTunes or at the broadcast station – but the distortion  
you add to go higher will remain.  
To measure dialog with LM5D in ProTools the same way as Dolby LM100 set to dialog,  
also solo the Center channel during a spot check to momentarily disable the channel  
weighting specified in BS.1770, if you’re working on a 5.1 stem.  
The same warning may be given for TV commercial production. Don’t aim at max  
values, but allow Consistency to go down a bit to let the program breathe. Look at the  
radar to put audio focus where you want it to be. When loudness gets normalized,  
that’s what will give your message attention.  
Universal Descriptors and AC3 Metadata  
The “Dialnorm” parameter in AC3 metadata should indicate the average loudness of a  
program.. Basic dynamic range and level control that rely on this parameter may take  
place in the consumer’s receiver. Therefore, its value should not be far off target, or  
the results become highly unpredictable.  
Universal Descriptors are rooted in Leq(K) as referenced in ITU-R BS.1770, and have  
been designed for robustness against moderate gain offsets around normal broadcast  
operating levels. If a program exhibits a Consistency of –3.5 LU, and the gain is offset  
by 10 dB, its Center of Gravity reading is shifted by 10 dB, while Consistency remains  
unchanged. Please find more information about Universal Descriptors in the Tech  
Library of the TC website.  
Center of Gravity in LM5 is directly compatible with Dialnorm in AC3. Most broadcast  
stations work against a fixed dialnorm setting, for instance –23 LFS. This would then  
be the CoG value to aim a program at. If the program isn’t only dialog, the best  
consumer listening results are achieved if you aim Center of Gravity somewhat higher  
than the actual goal. For a music program, for instance, the aim should be  
approximately 3 LU higher.  
Long-term measurements (LM5D only)  
Universal descriptors may be used to make program-duration measurements, or you  
may “spot-check” regular dialog or individual scenes as required. It is recommended  
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The peak meters of LM5 display true-peak as specified in ITU-R BS.1770. True-peak  
meters give a better indication of headroom and risk of distortion in downstream  
equipment such as sample rate converters, data reduction systems and consumer  
electronics than digital sample meters used e.g. in CD mastering.  
PPM PAGE  
Press the “PPM” key to bring up the PPM display, Fig 6. The PPM page is used to  
inspect balance between channels, headroom, overload of channels etc.  
Fig 6, PPM True-peak meter features.  
Bargraph PPM meters are shown next to the round Current Loudness display, which is  
identical to the Outer Ring of the Radar page. The True-peak meters operate  
regardless of the status of the Run/Stop/Pause controls. Click on the bargraphs to  
reset the peak history.  
Fig 7, PPM True-peak meter example showing Madonna’s Hung Up.  
Note the extreme peak level way above 0 dBFS, which is typical of hyper-compressed  
program. This track will distort heavily when played on a consumer CD player or if it’s  
data reduced.  
Note that the meter scale is extended above 0 dBFS. Most consumer equipment  
distorts if you see readings above 0. With data reduced delivery, -3 dBFS should be  
regarded as max level without too much distortion. To be on the safe side with regard  
to broadcast linking and transmission, -6 dBFS should not be exceeded often. Please  
remember that excessive peak level may generate noticeable distortion and listener  
fatigue.  
When you enter the PPM page, the bargraph meters show the highest peak level  
registered since the Radar or Peak Level history was reset.  
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Time Reference can take two values: “Actual Computer Time” or “Program Time”. The  
first is synchronized to the realtime clock of the computer, the latter to when a new  
measure was started, i.e. when the “run” key was pressed. Note: The meter history  
resets when you switch between Time Reference settings.  
PREFERENCES PAGE  
Radar Speed controls how long time each radar revolution takes. Select from 1 minute  
to 24 hours. You may “zoom” between the settings, as long as the history isn’t reset.  
Pressing the “X” key, or changing the Time Reference, resets the meter and descriptor  
history.  
Radar Resolution sets the difference in loudness between each concentric circle in the  
Radar between 3 and 12 dB. Choose low numbers when targeting a platform with a  
low dynamic range tolerance. You may “zoom” between the settings, as long as the  
history isn’t reset. Pressing the “X” key, or changing the Time Reference, resets the  
meter and descriptor history.  
Fig 8, LM5 Prefs page.  
Preferences may be stored as Presets, thereby having suitable settings for different  
conditions easily at hand.  
Loudness Scale can be set to either “Loudness Units, LU” or “Loudness Full Scale,  
LFS”. Because LM5 uses the BS.1770 loudness model, LFS is the same as LKFS.  
When “LFS” is selected, the numbers of the outer ring of the Radar page shown in Fig  
3 apply. When “LU” is selected, the outer ring “hours” are marked in LU units  
instead.  
0 LU Equals sets the loudness required to obtain a 12 o’clock reading on the outer  
ring, which is the same as the border between green and yellow on the Radar page. 0  
LU is the reference to aim at.  
Low Level Below determines where the shift between green and blue happens in the  
outer ring. It indicates to the engineer that level is now at risk of being below the  
noise floor.  
True Peak Indicator sets the level at which the Peak indicator lights up.  
OBS Indicator sets the conditions for the OBS indicator to light up. Turn it off, if you  
don’t want warnings.  
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PRESETS  
The following presets have been loaded as factory defaults. Factory presets all use the  
LFS scale, Program time and 4 minutes per Radar Revolution. You may store new  
presets with a ProTools session based on your own preferences.  
You may switch between presets on the fly without resetting the Radar,  
thereby easily changing scale, zoom etc.  
Broadcast HD  
0 LU Equals: -22 LFS  
Low Level Below: -18 LU (Equals –40 LFS in this case).  
Radar Resolution: 6 dB per division  
True-peak Indicator: -6 dBFS  
Broadcast SD  
0 LU Equals: -20 LFS  
Low Level Below: -12 LU (Equals –32 LFS in this case).  
Radar Resolution: 6 dB per division  
True-peak Indicator: -6 dBFS  
Film Mix  
0 LU Equals: -24 LFS  
Low Level Below: -24 LU (Equals –48 LFS in this case).  
Radar Resolution: 10 dB per division  
True-peak Indicator: -3 dBFS  
Fig 9, Examples of 5.1 movie left (Matrix) and stereo, classical music right (Bolero).  
Both examples are shown on a 12 minute per revolution Radar with 10 dB between  
divisions.  
Mastering Pop  
0 LU Equals: -12 LFS  
Low Level Below: -12 LU (Equals –24 LFS in this case).  
Radar Resolution: 4 dB per division  
True-peak Indicator: 0 dBFS  
Level versus Loudness  
When level normalization in audio distribution is based on a peak level measure, it  
Mastering Wide  
0 LU Equals: -20 LFS  
favors low dynamic range signatures as shown in Fig 1. This is what has happened to  
CD.  
Low Level Below: -24 LU (Equals –44 LFS in this case).  
Radar Resolution: 10 dB per division  
True-peak Indicator: 0 dBFS  
Quasi-peak level meters have this effect. They tell little about loudness, and also  
require a headroom in order to stay clear of distortion. Using IEC 268-18 meters, the  
headroom needed is typically 8-9 dB.  
Standard EBU  
0 LU Equals: -18 LFS  
Low Level Below: -9 LU (Equals –27 LFS in this case).  
Radar Resolution: 4 dB per division  
True-peak Indicator: -6 dBFS  
Sample based meters are also widely used, but tell even less about loudness. Max  
sample detection is the general rule in digital mixers and DAWs. The side effect of  
using such a simplistic measure has become clear over the last decade, and CD music  
production stands as a monument over its deficiency. In numerous TC papers, it has  
been demonstrated how sample based peak meters require a headroom of at least 3  
dB in order to prevent distortion and listener fatigue.  
Standard NAB  
0 LU Equals: -20 LFS  
The only type of standard level instrument that does not display some sort of peak  
level is the VU meter. Though developed for another era, this kind of meter is arguably  
better at presenting an audio segment’s center of gravity. However, a VU meter is not  
perceptually optimized, or ideal for looking at audio with markedly different dynamic  
range signatures.  
Low Level Below: -9 LU (Equals –29 LFS in this case).  
Radar Resolution: 4 dB per division  
True-peak Indicator: -6 dBFS  
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Unlike electrical level, loudness is subjective, and listeners weigh its most important  
factors - SPL, Frequency contents and Duration - differently. In search of an  
“objective” loudness measure, a certain Between Listener Variability (BLV) and Within  
Listener Variability (WLV) must be accepted, meaning that even loudness assessments  
by the same person are only consistent to some extent, and depends on the time of  
day, her mood etc. BLV adds further to the blur, when sex, culture, age etc. are  
introduced as variables.  
ITU-R BS.1770 PRIMER  
ITU-R BS.1770 standardizes the measurement of long-term loudness and of true-peak  
level. LM5 displays both parameters, and additionally offers a consistent way of  
breaking up long-term loudness into a coherent, running measure of instant loudness  
and of loudness history.  
A block diagram of the loudness detection part of the BS.1770 measure is shown in  
Fig 10. The way channels are summed (means square), to some extent mimic s  
speaker summing in a the real world. Therefore, BS.1770 gives a meaningful  
indication of loudness, regardless if the input format is mono, stereo or 5.1.  
Because of the variations, a generic loudness measure is only meaningful when it is  
based on large subjective reference tests and solid statistics. Together with McGill  
University in Montreal, TC Electronic has undertaken extensive loudness model  
investigation and evaluation.  
The results denounce a couple of Leq measures, namely A and M weighted, as generic  
loudness measures. In fact, a quasi-peak meter showed better judgement of loudness  
than Leq(A) or Leq(M). Even used just for speech, Leq(A) is a poor pick, and it  
performs worse on music and effects. An appropriate choice for a low complexity,  
generic measurement algorithm, which works for listening levels used domestically,  
has been known as Leq(RLB).  
Combined loudness and peak level meters exist already, for instance the ones from  
Dorroughs, but BS.1770 now offers a standardized way of measuring these  
parameters.  
In 2006, ITU-R Working Party 6J drafted a new loudness and peak level measure,  
BS.1770, and the standard has subsequently come into effect. It has been debated if  
the loudness part is robust enough, because it will obviously get exploited where  
possible. However, with a variety of program material, Leq(RLB) has been verified in  
independent studies to be a relatively accurate measure, and correlate well with  
human test panels. It therefore seems justified to use Leq(RLB) as a baseline measure  
for loudness, especially because room for improvement is also built into the standard.  
The final BS.1770 standard included a multichannel annex with a revised weighting  
filter, R2LB – now known as “K” weighting - and a channel weighting scheme. These  
two later additions have been less verified than the basic Leq(RLB) frequency  
weighting.  
Fig 10, ITU-R BS.1770 Loudness Measure Block Diagram.  
Note how an extra filter has been added in front of the original RLB filter, and that  
the LFE component is disregarded completely in the measure.  
The three front channels - L, C, R - employ the same channel weighting, while the  
measure is 1.5 dB more sensitive to surround channel signals. The reading of a signal  
entered into a surround channel is therefore 1.5 dB higher than if the same signal  
was entered into a front channel. The LFE channel is completely disregarded by the  
BS.1770 loudness measure.  
The other aspect of BS.1770, the algorithm to measure true-peak, is built on solid  
ground. Inconsistent peak meter readings, unexpected overloads, distortion in data  
reduced delivery and conversion etc. has been extensively described, so in liaison with  
AES SC-02-01, an over-sampled true-peak level measure was included with BS.1770.  
In conclusion, BS.1770 is an honorable attempt at specifying loudness and peak level  
separately, instead of the simplistic (sample peak) and mixed up measures (quasi-  
peak) in use today. The loudness and peak level measurement engine of LM5 follows  
the standard precisely. Possible updates to the ITU standard may be released as LM5  
updates, provided that processing requirements doesn’t exhaust the system.  
Technical papers from AES, SMPTE, NAB and DAFX conferences with more  
information about loudness measurement, evaluation of loudness models, true-peak  
detection, consequences of 0 dBFS+ signals etc., are available from the TC website.  
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METER CALIBRATION  
Because of the frequency and channel weighting, and of the way channels sum, only  
specific tones and input channels should be used for calibration.  
The most transparent results are obtained using a 1 kHz sine tone for calibration.  
Other frequencies or types of signal may be used (square wave, noise etc.), but don’t  
expect similar results. The beauty of the system lies in its RMS foundation, so this is  
a feature, not an error. The same feature enables the loudness measure to identify  
overly hot CDs or commercials, and to take out of phase signals into account just as  
much as signals that are in phase.  
If we stick to standard methods for measuring peak audio level in a digital system,  
where a sine wave (asynchronous of the sample rate) with digital peaks at 0 dBFS, is  
regarded a 0 dBFS tone, BS.1770 and LM5 output these results:  
One front channel fed with a –20 dBFS, 1 kHz sine tone => Reading of –23,0 LFS.  
Two front channels fed with a –20 dBFS, 1 kHz sine tone => Reading of –20,0 LFS.  
All 5.1 channels fed with a –20 dBFS, 1 kHz sine tone => Reading of –15,4 LFS.  
See Fig 4 as examples of calibration tone Radar displays.  
DISPLAY  
LM5 may use either the measurement unit of LU (Loudness Units) or LFS (Loudness  
Full Scale). LU and LFS are measurements in dB, reflecting the estimated gain offset  
to arrive at a certain Reference Loudness (LU) or Maximum Loudness (LFS) as defined  
in BS.1770. Since a common reference point for LU has not been agreed on at the  
time of writing (February, 2008), LFS (or “LKFS”, pointing specifically to the  
Leq(R2LB) weighting of BS.1770), might be favored initially to avoid ambiguous use  
of the term LU.  
Fig 11, Frequency weighting used with selected Leq measures.  
Red curve: A weighting.  
Green curve: RLB weighting.  
Blue curve: R2LB weighting, AKA “K” weighting.  
The effectiveness of any loudness meter depends on both the graphical appearance  
and dynamic behavior of its display, as well as on its underlying measurement  
algorithms. A short-term loudness meter also relies on the measurement algorithm’s  
ability to output pertinent loudness information using different analysis windows, for  
instance, 200-800 ms for running realtime updates. It should be noted how the  
optimum size of this window varies from study to study, possibly because the objective  
of a running display hasn’t been fully agreed upon.  
The frequency weighting employed in the loudness part of BS.1770 is shown in  
fig 11. It means that you cannot perform a calibration tone sweep and expect the  
reading to stay the same, see below.  
Formal evaluation of a visualization system is challenging: First of all, one or more  
metrics must be defined by which the display should be evaluated. The  
correspondence between the sound heard and the picture seen is one aspect to be  
evaluated. Another metric could characterize the speed of reading the meter reliably.  
In LM5, short-term, mid-term and long-term of loudness measurements are tied  
together coherently, and displayed in novel ways (angular reading and radar) that were  
preferred in its development and test phases. However, we remain open to suggestions  
for further improvement of the visualization of loudness.  
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POST SCRIPT  
Control of loudness is the only audio issue that has made It to the political agenda.  
Political regulation is currently being put into effect in Europe to prevent hearing  
damage and disturbances from PA systems, and to avoid annoying level jumps during  
commercial breaks in television. In Australia, something similar may happen.  
Many years of research into loudness of not only dialog, but also of loudness relating  
to any type of audio programming, has brought TC to the forefront of companies in the  
world to perform realtime loudness measurement and control. Therefore, TC has taken  
active part in loudness standardization efforts in Japan, the United States, Europe and  
other areas.  
In broadcast, digitization is driving the number of AV channels and platforms up,  
while the total number of viewers remains roughly the same. On the sound production  
side, it is therefore important that delivery criteria can be easily specified and met,  
even by people not primarily concerned with audio: Journalists, musicians, video  
editors, marketing professionals etc.  
Using only dialog based audio measurements in digital broadcast, has led to  
ambiguous level management, more level jumps between programs, and extra time  
spent on audio production and management in general. Non-dialog based level jumps  
are currently creating havoc in digital TV, and LM5 helps correct that situation. The  
LM5 Loudness Meter can be used to control level and improve sound, not only in  
Dolby AC3 based transmissions, but also on other broadcast platforms, such as analog  
TV, mobile TV and IPTV.  
To summarize: LM5 is part of a holistic and universal approach to loudness control,  
starting at the production or live engineer. When she realizes the dynamic range at her  
disposal, less processing is needed at later stages of a distribution chain. The chain  
ends with the capability of quality controlling everything upstream by applying the  
same loudness measure for logging purposes: A closed loop.  
Welcome to a new, standardized world of audio leveling. Across genres, across  
formats, across the globe.  
PRESET MANAGEMENT NOTE  
LM5 and LM5D uses the standard Pro Tools preset handling.  
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