Changes – Ends and Beginnings

This post is a lot more personal than most of the previous ones. It is also a long time since my previous post, my apologies, most of 2024 was extraordinarily busy!

Changes – Ends

After a very busy year in 2024, starting with a US tour leg, an Asian tour leg and then an extended run of European Jazz Festivals, it was time for me to review my personal condition, lifestyle and future. This was not a sudden idea, it’s been bubbling under for quite a while. I have been in this industry for many many years, starting as a performer, then a live sound mixer, a classical music recording engineer, a teacher, a Production Company owner and then to commercial contract sound engineering & programming. I retired once, selling out all my corporate ownerships and then immediately got recruited to mix live shows for a well known jazz artist.

It’s inevitable and it’s life, you reach a point where it’s time to quit working so hard, even when you enjoy it immensely. So I quit my FOH mixer position and retired from touring later in 2024.

No more bumpy, endless overnight bus tours, no more 5:00am lobby calls to fly to the next venue, no more very late hotel check-ins when all food & beverage services are closed. It also means that I miss the friendships and support that have built up over years of working together with the other crew members and the artists.

For me, importantly, it means that I really miss amazing musical performances and the energy of live performance.

My life has been a very long and enjoyable career in many aspects of audio and especially live sound mixing.

Changes – Beginnings

As the old saying goes, when one door closes another opens. That has not happened to me yet but I am in the rather privileged situation of being able to consider many different options of what to do next. I don’t really think of retirement as a “never working again” situation. I have a couple of occasional fill-in shows that I do from time to time, those will continue. I have a continuing interest in software, programming and control systems and a couple of projects to work on (more on that later!). I do occasional workshops for theatre and nightclub mixers on getting up to speed and using Smaart to help improve and make their mixes more consistent. We will see how these things keep me occupied and what else will emerge, I’m sure something will.

Newport Jazz Festival - Note two PA arrays "inside PA" under the tent cover and "outside PA" in the scaff towers.

Changes – What audio challenges are still out there

Over the past many years I have been fortunate to learn a lot about how audio systems work, what the industry now does well and what we still do not really have a good handle on. There are many current practices in all areas of audio that bear re-examination and more meaningful interpretation. Here is a short list of things that, in my opinion, need attention.

a)         Mixing in stereo or multi-channel audio

These are two different topics but the behaviour of the physical systems introduces the same problems. I’ll discuss stereo but these ideas apply even more to surround or multi-channel audio systems.

I like to mix in stereo and I deal with artists who are mostly acoustic. Mixing acoustic sources in stereo, using stereo or distributed microphones can give acoustic instruments a sense of space, depth and dimension that is unobtainable any other way. This is especially true of larger instruments such as piano, harp, mallets, drums & percussion. Furthermore instrumental sections of strings, woodwinds and brass sound more realistic and sit together better in the mix if they are grouped as stereo mixes instead of mono.

 The main problem here is how do you deliver a stereo image to a wide and deep audience area. I like to think about a household stereo system and the idea of setting up an equilateral triangle of two speakers and a listening position then adjusting the toe-in of the speakers to widen the listening field (or sweet spot). It works, and in households and recording studios throughout the world this basic principle is applied. Why then do most PA hangs have the arrays pointing directly out, no toe-in at all?

Well this goes back to the early days of line arrays (and point source arrays) of one speaker or one array covering one part of the audience exclusively and not having any overlap with any other speaker or array. Left array covers the left half of the audience area, right array the right half. Obviously there is no stereo in this kind of configuration because you will never hear a stereo sound field.

 The reasons for this have two main points, (i) the interference patterns caused by different arrival times at the listener of a signal from two speaker sources (comb filters). (ii) has to do with the linearity of the speaker response throughout it’s horizontal coverage area.

i.          Comb filters are caused by different arrival times (usually from two different speaker arrays) at the listener, at the same level, from a mono source. If you mix with stereo sources, this does not apply. Of course your mono sources are affected (think lead vocal) albeit over a small area where the signal levels are close to the same from both sources. Careful equalisation and good signal processing choices significantly ameliorate this problem.

ii.         Most speaker manufacturers publish good information about the performance of their systems including reasonable directivity information. But none perform perfectly and at the location where the arrays are equidistant is where directivity problems usually show up. In the middle of the devices coverage pattern the frequency response is flat and even but on the edges of the coverage pattern is where the frequency response can be quite ragged. Usually it is mid range peaks and valleys, especially in the region where speaker cones transition from piston like activity to multiple areas of radiation. You’ll commonly hear this in the 400-500 Hz region for 15” drivers and 630-800 Hz for 12” drivers. It also happens to horn drivers at the bottom of the coverage control range and in the “waisting” region for the horns. The crossover region(s) can also be a difficult area.

If you pick apart the directivity details for an array you can usually predict where there will be problems and you can definitely hear them. This is particularly true when the array hangs are designed to cover a specific area not covered by any other array e.g straight out. The stitch point between them gets very ugly because this uneven response adds together. Another reason not to mix dead centre of the venue if you can help it!

Interestingly, if you overlap your coverage areas by toe-ing in your arrays you can significantly reduce these overlap buildups simply because more of the audience is in the flat response of the centre of the array pattern and the edge overlaps are isolated to a much smaller area.

I have found over the years that most A1’s and system techs are very resistant to toe-ing in their main arrays, even when a lot of the output is bouncing off the side walls. This attitude comes down to training, usually delivered by the manufacturers themselves.

To me it’s puzzling and unnecessary. Try it yourself, let me know your opinion!

 FOH tent setup at Viennes Jazz Festival in France. My desk and rack beside the house desk.

b)         Subwoofers – The challenges of horizontal arrays and cardoid stacks

The whole concept of how subwoofers should work, frequency ranges, source configurations, pattern control and coverage areas has been under evaluation and experimentation for many years. In my experience there are very few good answers, lots of compromises and some major trade offs.

But let’s talk about what we actually want from subs first. Ideally I think there should not be any subwoofers. The array should reproduce all frequencies equally along with constant directivity and allow for sufficient power delivery to accommodate our loss of hearing sensitivity at low frequencies (Fletcher-Munson curve). Unfortunately the physics of the devices we use cannot accommodate this kind of performance, at least not with current technology.

Consequently we have subwoofer devices that are optimised to deliver these frequencies with power and accuracy. The other major problem is that at very low frequencies seperated arrays of subwoofers generate major widely spaced interference patterns, the so called “power alley” effect.

Overcoming this problem has led to horizontal arrays of subwoofers lined up along the front of the stage with small spaces between devices and progressively longer delay times applied to the devices as their spacing from centre is increased. This has led to a very even sound field across the coverage area at low frequencies and is now a very common deployment.

However there are significant problems with this solution.

a)         Outside the edge of the array the output level plunges, there is literally no sub. If you have any side seating you need seperate sub arrays to cover these areas. Increasing delay times at the outer edge can ameliorate this issue slightly but not significantly, in my opinion.

b)         It is impossible to align the phase response at the crossover point with flown stereo or multichannel arrays. There are compromise ways to approximate this but it’s a cluge at best.

c)         It is a mono only solution, what happens if you need stereo or multi channel audio response. Many people think this is unnecessary but in musical terms it’s totally necessary. Think about an arpeggiated synth sweep at low frequencies panned across the sound field. Not as uncommon as you might think.

d)         It takes a lot more devices than a conventional left/right stack.

 Another solution to the “subwoofer problem” is to fly sub arrays beside or behind the main arrays. This has the advantages of maintaining phase alignment with the main arrays and supporting true stereo imaging. It also distributes the power of the systems in a much more even manner throughout the audience area. There is an interesting L’Acoustics technical paper on this topic, I suggest you check it out here

https://aes2.org/publications/elibrary-page/?id=19777

The major disadvantage of this arrangement is creating a power alley. Many shows use both flown left right sub arrays and distributed ground subs basically zoning the coverage areas to get even distribution. Unfortunately this adds to the multiplicity of arrival times and general muddying, especially in the middle of the audience area.

One more interesting solution has been mentioned by Merlijn van Veen and others including a brief commentary by Nathan Lively, link listed below. This is to build left and right subwoofer arrays that are carefully set up to deliver precise cardioid pattern control and to generate even coverage by angling the sub array. The cardioid response pattern helps suppress the power alley effect by nature of the level drop off at increasing distances from the array as a result of the cardioid coverage pattern. If the subs are directly below the main arrays then phase alignment at crossover becomes accurate and predictable across the whole audience area. There are still power alley effects but much lessened by this approach.

There’s a general commentary on gradient arrays and explanation of this solution by Nathan Lively at

https://www.sounddesignlive.com/how-do-you-calculate-cardioid-subwoofer-spacing-gradient-array/

Here is what Jim Yakabuski has to say about the whole topic.

https://www.prosoundweb.com/bringing-the-boom-main-sub-array-configurations-implementation/

 Here’s a description of the inimitable Dave Rat’s end fire solutions.

https://www.sounddesignlive.com/dave-rats-end-fire-adjustable-arc-subwoofer-array/

Nearly 40 degC (104 degF) inside the FOH mix tent - Lucca Jazz Festival, Italy. Max that day was 44 degC.

c)         Front fill speakers

So what is the job of front fill speakers? Are they a problem area? Well I think they often are. They are their to fill in the main mix to the areas where the main arrays cover least well or where you don’t want major level from the arrays. They also serve to bring the image down to audience level so that the mix at the front doesn’t sound like it’s emanating from the heavens above. Front fills don’t need to be sub heavy, I usually high pass them quite agressively to keep a clean and clear mix . Some people use a modified main mix or just vocals in the front fills, I guess it depends on what is coming off stage and what kind of music it is.

There are two main complications with front fill adjustments that need attention.

a)         Timing. Front fills need to be timed back to the arrival time of the main arrays. Where you measure this is quite critical. The important question is how far into the audience do the front fills need to project. This is a judgement call based on how far down the main arrays actually cover and how loud the front fills have to be or can be.

I find that many people expect front fills to cover way more seats than is actually feasible. I typically look to cover 3 or 4 rows of seats max or 15’ – 20’. If you are looking to cover 30’ – 50’ then side stacked infills are a better solution except for the first 3 or 4 rows.

b)         Phase Alignment. Even amongst the most carefully engineered ranges of loudspeaker products you will find that some do not exhibit the same polarity or phase response as others. If your polarity is wrong on the front fills then you will have a band of cancellation right across the front of the stage. It’s very obvious when you walk around and listen carefully. Check your analyzer results carefully by checking the mains and the front fills seperately. You can also check the summation of both and try flipping the front fills polarity to see what works best. Be sure to listen to the final result, just to be sure you are OK with what you are hearing.

c)         Coverage. I wish that manufacturers made speakers specifically for front fills, especially for theatre use. The scale of arena shows usually allows for more flexibility with speaker choice. Ideally I would look for a 110deg horizontal and 20 deg vertical pattern with a super smooth crossover region. Repurposed point sources rarely have this kind of coverage and although small line array boxes might do they are usually compromised in other ways,  especially in frequency response and lack of smoothness because they are designed to be used in arrays. In an ideal world I would like to audition a whole bunch of different boxes just to see what works best.

d)         Volume

 I wish I did not have to say this but too many shows are way too loud. Is it really necessary for there to be an average SPL of 105 - 110db in the audience area? Basically the answer is no for several important reasons.

i)          It damages human hearing in short order. Even moderate exposure times produce permanent damage and the risk of significant hearing damage for staff working in these environments is extremely high.

ii)         It doesn’t make the music any better. Some believe that it is more exciting if it’s louder but really that is a critique in itself of the musical content.

ii)         Most audio systems struggle to be linear and accurate at high SPL levels, especially if there isn’t enough of a rig to support these levels. Consequently the audio experience is rapidly compromised as the levels go up.

 I suggest that everyone involved in live mixing give very careful thought to what levels  they really need to mix at and to monitor those levels consistently. Put an SPL app on your phone and use it, is my recommendation.

As a mixer you should be very concerned about protecting your own hearing and adopt good habits at the earliest opportunity. Meter your mixes, carry hearing protection with you at all times, preferably something that is calibrated and can attenuate low frequencies correctly. If you work festivals then use ear plugs all day and night while you are on site, unless you are mixing or sound checking. You will be amazed how much less fatigued you will feel.

Stage L hang of Meyer Panther and LFC 2100 cardiod arrays. Outdoor at the Lake Stage. Lovely rig.
 

Other topics

There are several other topics I would love to explore in more depth but this article has already gone on long enough. Maybe in the future I’ll come back and examine these in more detail.

Manufacturer’s total control of the system configuration

Are the manufacturers of audio systems correct in insisting on specific setup configurations, timing principles, measurement processes and overall control of how a rig is used? One manufacturer is particularly militant, others skew their software to only work in the way they think the system should be configured and others are more hands off. What do you think?

Multi array configurations for dimensional hearing experiences

It’s a great way for a manufacturer to sell a lot more devices but does the audio really sound better in the audience or is it just a way to give musicals more location specific sources?

Are live shows actually about music any more?

Video, and consequently lighting budgets seem to eternally expand whilst the pressure on audio budgets keeps getting more severe. Whilst video is pretty much a necessity in large venues does it compromise the audio quality of the show or relegate audio to a minor role in modern shows? What are live shows actually about and how should a show with major musical content be produced?

Holosphere rig installed at the Starlight Ampitheatre, Marbella, Spain. The owner saw U2 in Vegas at the Sphere and loved the audio.
 

Conclusion

Our systems and processes for reproducing live audio have improved by leaps and bounds over the last 25 years and it’s now possible to have great listening experiences more often than ever before. Nevertheless it can still be better and this is what all the comments above are all about. If you have an opinion please let me know. 

Last year I did a series of articles about using OSC to control Digico desks. If anyone is interested I may return to this topic and develop a simple monitor mixing app that works for multiple tablets. Let me know if you are interested.

 Me with the amazing Japanese audio crew we had on our 2024 Asian tour leg. This was after our last Japanese show in Hiroshima.

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                                                                                            © Clive Alcock - 2025

 

The Daily Process – What is yours ?

At a recent show I had an interesting discussion with the house audio A1 who commented on how different some engineers process was when approaching a house rig. It occurred to me that surely most engineers did the same thing pretty much every show to check, tune and balance the rig for the best results for their show but apparently this is not the case.

 It also made me think more carefully about what exactly was my process which is something that I have developed organically over many years working on shows.

So here is my process and I am very interested in any feedback that any of you have on how you do things differently.

 First let me clarify a few things, I am an FOH engineer so most of what I have to say is about dealing with FOH audio. Nevertheless I think there is enough generality in these comments that there is something that could be applied to most audio engineers daily work process. Generally I work in larger theatres of all shapes and sizes, outdoor festivals, sheds and the occasional arena.

 Usually I do not have the luxury of touring my own PA system and I am my own system tech (that’s a whole other story). Much of what I deal with on a daily basis is to do with the “PA du jour” whatever that may be and however it is installed.

Be Prepared

Before embarking on a new tour leg I like to have a whole bunch of information at my finger tips and a few “must have” items that I carry with me.

a)         Advances

First off you need some specific paperwork that is issued as part of your artists contractual agreements. The major audio ones are a detailed input list and a PA specification, if you are relying on local providers. In addition your Production Manager will be detailing lighting, backline, rigging plot, backstage and dressing room requirements and more. It’s a lot of paperwork!

I discussed the audio related and other documents in a previous post (https://livesoundnow.blogspot.com/2023/03/ - it’s the first of two posts that month so scroll down until you see the March 2 – 2023 post)

Once the venue information starts to come in I build a set of folders on my laptop, numbered in order and named to correspond to each venue where we are doing a show. Once our Production Manager has done a technical advance with the promoters and various technical people at each venue he will copy the tech specs, drawings and any other necessary technical lists on Dropbox (or Google or iCloud or ????) so Audio, Lighting, Backline and Production Assistants can review the applicable files, lists and drawings. We often go backwards and forwards with questions and requests.

  Part of a folder structure for a recent tour with “at a glance” notes in the name

I download the relevant audio files onto my laptop in the appropriate folders. That way I always have access to the information even in difficult environments where there may not be any internet connectivity. Oh, and I read it all pretty carefully. Sometimes I may decide that the house supplied equipment is not sufficient or suitable and will go back to the Production Manager to discuss. It’s much easier to get stuff changed out a few weeks before a show rather than when you arrive at the venue. Hopefully, when I get to the venue each show day, I will know what the room is like, what equipment I’m dealing with today and will have an outline idea of how I’m going to handle it.

b)         Carry with you

 Several of the artists that I work with do not carry a PA rig when touring by bus and truck. We do carry a “universal” audio kit which includes FOH and monitor desks & racks, FOH multicore, stage monitoring rig, mics, stands & cable, AC distro and a personal kit each for the monitor engineer and FOH engineer.

My personal kit for FOH is a compact FOH rack with Com and talkback wired in a rack drawer, a laptop mounted in another rack drawer for multitrack recording/virtual soundcheck, an 8 input USB audio interface, and a DSP (my favourite is a Meyer Galileo or Galaxy). AC distribution, patch panels and an 8-way network switch round it out.

In a seperate cable case I carry measurement mics, clips and lightweight analysis cabling and a primary show laptop with Smaart installed. I also carry an ear monitor beltpack and spare ears for the LD so he can hear the cues that the artist whispers on occasion. That case also holds two sets of headphones, interconnect cables, spare XLR and power cabling, small surface lights, iso transformers, a semi-kit chair and a polar fleece jacket for those theatres that insist on freezing out the venue hours before doors!

The primary laptop also has walk-in music, any necessary pre-records or announces and controls both the DSP and the recording laptop remotely so I only have to deal with one control interface (other than the desk). If it’s a show that needs it I may also run a cue manager on that same laptop. I keep a fully funtional DAW program on the laptop for recording, playback, editing, ripping or any other audio tasks that may pop up.

This kit of gear, in conjunction with the desk (usually a Digico SD12) are my tools for handling whatever challenges the venue and the “PA du jour” have to offer and give me a chance of producing a consistent result from show to show.

 c)         One-offs

Sometimes we don’t get to carry a universal kit e.g. fly dates on a short tour leg or one-off corporates or festivals. In that case I have a baby Smaart kit (small audio interface, two mics and a personal laptop), a compact two track recorder (I always record the shows), headphones and minimal cabling. We’ll carry just a few essential mics and everything goes in our suitcases.

I have to say that it really helps to do a thorough advance so you know in advance what is in store and you have the necessary gear to get you through.

 

            Not so beautiful Festival stage and hang in Puglia, Italy at the Gardone Riviera

Show Day

i.          First Look

Arrive at the venue, meet the techs of the day and do a visual inspection of the PA system. Does it look like it’s flown correctly, in the right location to cover the room top to bottom, toe’d in/out to your best judgement of the room. Is it what was specified in the advance? Are there other fills or delays that you can’t see.

ii.         Get Started

Get load in sorted, power, rigging, stage locations for gear and FOH pushed out to the mix location.

iii.         Do your own setup

Now you get to setup your personal audio stuff, patch and check that everything is working and normal.

iv.        Connect to the house PA or PA du jour

Patch the interconnection between your gear and the PA system with the help of the A1, commonly it’s Left, Right, Subs, Fills and may often include a house program feed and other house specific requirements.

Discuss how to deal with fills, sides, delays and whatever other options there are in that particular space. You will want some control over all the PA zones and may have to lean on your A1 to help with delay time setting and basic eq if you can’t access each zone independently from your own DSP. Most modern systems have some kind of dedicated software or hardware to control the rig. On occasion these settings are locked off and you don’t get to change anything. In the past I have been able to persuade the house A1 to run an XLR patch directly to an amplifier from my own DSP when I have felt it was absolutely necessary to have control over a PA zone. 

v.         Validate the zones

Fire up some pink and validate your patch to the house rig and then check that each zone is operating correctly throughout the whole PA. This is a good time to get a feel for how the rig sounds, do Left and Right sound close to each other, how about subs, fills and delay zones, are all the speakers plugged in and in their correct zone. Should you leave the house preset curves as they are or flatten everything and start again (assuming you have that kind of time). Now is the time to do any physical adjustments you think are necessary, height of the rig, where fills point, adjust toe-in, whatever you think is necessary. You won’t always get your way but if you feel it’s needed then you have to try.

vi.        Setup your measurement system

Once I know the rig is relatively OK and pointing mostly where I want it to be,

I’ll set up my Smaart mics, connect my measurement kit and start measuring. Of course I have a specific way that I do it and here it is. I’ll setup 4, 5 or 6 mics throughout the venue, depending on the size and shape, oriented relatively on axis of one main array.

#1 mic is in the main array coverage area close to the downstage edge  (depending on the hang), #5 or #6 will be close to the top of the balcony or nosebleeds or close to the back wall, depending on the venue. One mic stays at FOH and the rest are distributed evenly throughout the audience area, usually in a line from downstage to the back of the house and in line with one side of the PA.

vii.        Measurement first pass

On the first pass I’ll energise only the one side of the main hang and be very careful to make sure that any delays, fills or anything other speakers are muted.

Often I’ll adjust my interface to lay the curves measured by each mic directly over the top of one another. That will tell me very quickly what overall EQ changes I need to make and where there might be problems or more specific adjustments to be made. I use both FFT frequency response measurements and RTA measurements at the same time, if the coherence line is a big mess in one area sometimes the RTA can give you some useable average information. Interpreting Smaart data reliably takes a lot of practice and careful thought. Once I have an average house response that looks useable and sounds reasonable I’ll take a look at the phase curves for each location, just to see what is going on.

viii.       Measurement second pass

Second pass for me is to check sub alignment with the main array. I will pick a mic that is in the middle of the audience area both horizontally and vertically as my reference position. This is often at FOH mix location but depends on the venue. Getting sub alignment right is tricky - see the Merlijn van Veen link below for a very detailed worksheet.

I will measure and capture the phase and frequency response of the main array, mute it and then do the same for the subwoofers. That should tell me pretty quickly if I need to delay the mains or the subwoofers to get the phase response aligned in the crossover region between subs and mains. Once that delay adjustment is made then I will check the same phase response at other mic positions. I may adjust the delay time to get an average that I think will work. There are a lot of gotchas with sub alignment, not the least of which is the “line of subs” across the front of the stage as favoured by several system manufacturers. (That configuration is non-alignable but the topic is way beyond this discussion. Maybe another time!)

ix.        Deal with front fills

The next pass is to measure front fills. This needs a decision on how many rows of seats you think the front fills can, or should, or you want to cover. If your front fills are zoned in pairs, outer to inner, that means several measurements to get each zone aligned with the main arrays. The purpose of these fills is to give clarity and image location to the mix, they don’t need pounding bottom end and I high pass them quite agressively. I treat flown front fills the same way. Be sure to check relative phase response between the main array and each fill zone. It’s not uncommon to need a polarity reversal on the fills to match the phase response of the mains.

x.         Outer and delay fills

Now the rest of the fills, outer, side and then, finally, any delays further back in the room. Again, look out for phase or polarity problems. Depending on seat sales (you did ask the promoter didn’t you!) I may consider not using any rear or upper delays for the show but I’ll still measure, delay and eq these fills, just in case! This is also the time to turn on the other side of the PA and all the zones to see what happens to your average responses, you may need to do some further correction.

xii.        Listening Tests

By this time I am usually about an hour to an hour and a half into PA tuning, depending on the complexity and size of the room and the PA system itself. Now it’s time for music playback. I have a few songs that I play every time I measure and I walk the room with one of them playing (on repeat). I walk the main floor and listen for coverage, how even is the response, zone levels and smoothness of crossover between main arrays and various fill zones. I’ll adjust as needed until I feel that main floor is OK and then head up to the balcony, nosebleeds or wherever else I need to go. Near the top I will listen for similarity of tone, how even the coverage is, overall levels and balance of delays. It’s OK for the edges and top of the audience areas to be a little soft, just make sure that there is coverage and that it sounds satisfactory. (See an earlier post in this blog about levels throughout the venue).

xiii.       More listening

Now I should have a good feel for how the whole room sounds and any other tweaks I might need to make. If all is well I will play one more tune that has heavier bass and drums and an enigmatic vocal track that really shows up any mid range problems in the eq. Now I am probably two hours into this process and hopefully I am fairly satisfied with where the system is at. We are not entirely finished but I will have a piano tuner waiting to go to work and it’s lunch time.

 

                            Piano tuner at work - close look at mics and mic saddles

xiv.       Line check

Line check, just to be sure that we have all the channels patched correctly, that  they are clean and responding as expected. One thing about line check that I would like to pass on is that it is really easy to mix up microphones when checking, especially on a mic heavy acoustic type show. If you get someone to walk around going “check, check” with their voice then it‘s much harder to be sure you have the right mic in the correct channel. We get our back line guy to do the line check for us with a drum stick and a gentle tap on the body of each mic; a fingernail scratch of the windscreen can work as well. The tap or scratch is so confined to one mic that you will not mix it up with one that is close by.

xv.       Soundcheck

This is a big variable and can be a real challenge depending on the music format, the band and everyone’s expectations. For example, the soundcheck for a band and orchestra is not the time to be setting levels, eq’ing or trying to get orchestral balances. Soundcheck will be show rehearsal, song by song, and you need to make sure your cues for solos, sections and events are in place while they are rehearsing.

The time to get levels, eq and balance for orchestral shows is during the inevitable early morning note rehearsal when the orchestra and conductor (or MD) get to play through the orchestral sections without the band.

One of my current clients uses soundcheck for new song development and rehearsal and may not play anything show related. Other clients do parts of two or three songs and then leave. So you have to have everything done and sound checked as best you can before soundcheck, if that makes any sense!.

After soundcheck it’s supper time ... whoo hoo!

xvi.       Doors

Most shows have walk in music, there may be announces or video rolls or house advertising. You probably need to be there!

xvii.      Show time

Now you get to do what you originally signed up for, mix the audio for the show.

Questionable house PA hang with L & R arrays toed out so far they were right on the walls of the venue. The centre cluster only covered the balconies. Took a lot of arm wrestling with the locals to get tie lines onto the L & R arrays and toe them in.
 

 What about “Throw & Go”

Now having gone through my process in excrutiating detail (for some I’m sure) we have to accept that many engineers don’t have the time, the inclination or the necessity to be so detailed. There are many who arrive at the venue, toss a favourite track on the system, turn it up really loud and twiddle with the house eq for a few minutes. Once that is done they move on, process finished until soundcheck, if there is one.

Some mixers are extremely talented and can make this work well and it’s difficult to argue with success. But there are drawbacks to the “throw and go” approach.

a)         You can never assume that the house PA or “PA du jour” is meticulously designed, installed or tuned, even when done by the manufacturer’s rep. It may have been setup with an emphasis on a centre array for Broadway style shows which does not usually work so well for music shows. It may have been moved in and out multiple times and who’s to say the box angles, trim heights, gains, eq and delay adjustments are the same as the original installation, if that was correct to begin with.

b)         Coverage problems are not so obvious when the music is loud, there will always be audio everywhere. If you have a quiet show, speeches or theatrical performances then in the areas where the coverage is not correct people will not hear the show. If there are timing and equalisation problems then the content may be garbled and unintelligible.

c)         Phase and timing issues can severely impact intelligibility no matter what level the program is mixed at.

d)         Depending on how the PA system is installed the level, eq and clarity may vary a lot from section to section of the venue, if you don’t measure you don’t know what is going on in the rest of the room.

e)         With talented mixing throw and go can get great results at the mix position and sometimes through the whole venue, it really hinges on how well the installation and tuning has been done, by someone else. Making these results consistent from show to show is much more challenging when you don’t really know how the system is really working and is different every day.

If you are interested in exploring some of the approaches that I have outlined in this article then here are some helpful links to articles and videos that give much more detailed explanations of what has been touched on,

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 Interesting Links

Becky Pell’s excellent process for tour planning.

https://www.prosoundweb.com/ready-to-rock-effective-audio-pre-production-planning-before-going-on-tour/

Rational Acoustics Training videos. 

Smaart is really the king of analysis programs for working audio mixers like you and I. It’s fast, reasonably flexible, easier to understand than most other software and has a tremendous support and training program. This link is the best place to start.

https://www.youtube.com/playlist?list=PLbQ6rmufsxd7gk8N25gtjfPS_E2494Vwm

 

John Murray’s methodology for array measurement

https://www.prosoundweb.com/exploring-converging-techniques-for-tuning-line-arrays/

 

Howard Page’s detailed approach to large array tuning.

https://www.prosoundweb.com/tuning-optimizing-large-scale-concert-sound-systems/

 

Merlijn van Veen’s spreadsheet on sub layouts, design and alignment processes. 

https://www.merlijnvanveen.nl/en/calculators/28-sad-subwoofer-array-designer-en

 

Interesting comparison of measurement microphones at different price points

https://www.jochenschulz.me/en/blog/measurement-microphone-comparison-isemcon-emx-7150-vs-behringer-emc8000-vs-beyerdynamic-mm1

 

One of the more practical lists of tools and stuff that an engineer might want to carry

https://www.soundnerdsunite.org/live-sound-kit/

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                                                                                    © Clive Alcock - 2024