F81 User Manual - Funktion-One
Contents
1. In the example shown the direct sound from the bass system red is closely followed a few milliseconds later by bass sound reflected from the rear boundary blue If the reflected bass arrives within of a wavelength for frequencies up to the bass F81 crossover frequency then the direct and reflected levels will add albeit with an overall phase lag The addition varies from almost 6dB for very small phase lags to OdB unity gain for 120 phase lag Note that subtraction will start to occur for phase differences beyond 120 with complete cancellation occurring at 180 www funktion one com Funktion One Research Limited 2011 38 Directbass Reflected bass Resultant fr Resultant bass amplitude Reflected component and SN ias angle 4 Rear wall phase lag 7 Resultant phase lag mme a Direct and reflected components with resultant bass wave Vector representation Fig 10 1 4 Fig 10 1 5 The simplified example shows the reflected bass blue arriving wavelength 120 later than the direct bass red at the crossover frequency resulting in an overall 60 phase lag black The F81 system would need to be realigned with the bass system by applying a small extra delay to create a matching phase lag through the crossover region Extra F81 delay required F81 to resultant bass alignment for the simplified example Fig 10 1 6 11 Limiters Limiters are usually built into loudspeaker2. Some manufacturers already do this working out the nominal voltage required to deliver one watt at their quoted nominal impedance But sensitivity is still rarely quoted versus frequency so points 1 and 2 still prevail AES power rating 1 A loudspeaker driver s AES power rating is its long term typically two hours free air power rating Many loudspeaker manufacturers simply reiterate their driver supplier s figures which may not allow for the effects of voice coil heating compression under real world loading conditions This is particularly relevant to inefficient heavily processed loudspeakers whose manufacturers like to get into the race for ever more unrealistic power handling claims Funktion One tries to avoid this kind of power war by concentrating on turning the electrical signal into sound through highly efficient loudspeaker system designs AES2 1984 r2003 states The rated power of the device shall be that power the device can withstand for two hours without permanent change in acoustical mechanical or electrical characteristics greater than 10 This means that a loudspeaker s AES power rating only refers to its resistance to permanent change or failure not to its linear operating range It is quite permissible for a loudspeaker to generate excruciating levels of distortion or to suffer from several dB of output compression as long as a permanent change doesn t take place AES2 1984 r2003 recommenda
3. 10dBV is approximately 0 316vrms The maximum analogue output for a maximum digital level of OdBFS is usually around 6dBV 2 0Vrms so nominal operating levels are in theory 16dB with respect to maximum output In practise however many DJs run considerably hotter than this partly to drive through the dubious digital audio converter quality of some systems that sound distinctly lacking at low levels and partly because they don t need the kind of headroom required for live sound as they know their favourite tracks very well and they are in a more controlled environment Note that loudspeaker amplifier systems must have sensitivity figures below 2 0Vrms to prevent DJs and MI operators from pushing their DJ consoles into clip before reaching maximum dance floor levels Level setting for DJ mixer users Normally known as Gain Structure The Funktion One Formula Sound FF 4000 is used in this example although the principles of keeping the signal clean apply to any mixer The suggestions assume the user or installer is familiar with the basic mixer functions Initial input output calibration 1 Ensure that all inserts or effect loops are switched out bypassed before initially setting your gain structure See Outboards effects set up later www funktion one com Funktion One Research Limited 2011 52 2 Set all your front panel input GAIN and EQ HF MID and BASS controls initially to the 12 o clock position 3
4. But they still underestimate very short bursts and often ignore transients altogether so the 18dB below clip rule must still apply K meters K meters named after Bob Katz the well known mastering engineer usually measure rms levels with a fixed 600ms integration and fall back time over a very wide levels range Some versions include peak facilities K meters usually have switchable scaling K 20 indicates OdB at 20dBFS K 14 has OdB at 14dBFS and K 12 has OdB at 12dBFS As most K meters are software based it is possible to select K 20 K 14 etc as required Live sound users should use the K 20 standard wherever possible K meters were designed for recording applications and as an attempt to get some consistency in control room monitoring levels For recording purposes OdB is set for 83dBspl but this isn t relevant for live sound use A K meter s main advantage in live sound applications is its accurate indication of levels with reference to full scale www funktion one com 50 JINSA MET Er Abis us Eegi Sondris Meter Spectrafoo meter Set to K 20 Set to K 14 Funktion One Research Limited 2011 Gain structure basics for live sound console users 1 Ensure that all inserts gates compressors or plug ins are bypassed before initially setting your gain structure See Outboards effects set up later Adjust your input channel mic line gains for PFL pre fade listen levels aro
5. 2 x mono configuration shown F81s with Phoenix connectors Note the connector blocks in lower illustration Avoid cramming two cables into one Phoenix connector www funktion one com Funktion One Research Limited 2011 28 Notes XO series outputs channel allocations will vary depending on loudspeaker bass system combinations see XO series user manuals for typical configurations See Section 11 of this User Guide for advice on XO series limiter settings vs amplifier gain etc See Appendix A at the end of this User Guide for a discussion about clipping See Appendix B at the end of this User Guide for a discussion about system gain structure 4 channel 8 ohm patches with XO4 4A loudspeaker management system Inputs DCBA MH006e0e0e0e0 6666 Fig 9 4 5 4 channel 8 ohm patch using Funktion One XO4A controller and F40Q amp 4 x 2 way configuration shown F81s with Speakon connectors Inputs DCBA MH006e0e0e0e0 6666 Fig 9 4 6 4 channel 8 ohm patch using Funktion One XO4A controller and F40Q amp 4 x 2 way configuration shown F81s with Phoenix connectors www funktion one com Funktion One Research Limited 2011 29 4 channel 4 ohm patches with XO4 4A loudspeaker management system Inputs DCBA GH006e0e0e0e0 6666 Fig 9 4 7 4 channel 4 ohm patch using Funktion One XO4A controller and F40Q amp 4 x 2 way configuration shown F81s with Speakon con
6. 4ohm ee fh es Fh ees Sensitivity VY voitage Long term limiter threshold dBV vrms dBu Gain for 1dB for 1dB margin _ amp ee o scaler zuma soas A A E E E E E 9 2dBV 0 35v 7dBu 38dB 8dBu 9dBu 10dBu 11dBu 12dBu 13dBu 14dBu a 8 2dBV 37dB 7dBu_ 8dBu_ 9dBu 10dBu_ 11dBu_ 12dBu 13dBu EE 7 2dBV 6 2dBV 36dB 6dBu_ 7dBu_ 8dBu 9dBu 10dBu_ 11dBu 12dBu 6dBu 7dBu_ 8dBu_ 9dBu 10dBu 11dBu 5 2dBV 4 2dBV 3 2dBV 2 2dBV fe 33dB 3dBu_ 4dBu_ 5dBu_ 6dBu_ 7dBu_ 8dBu_ 9dBu El 32dB 3dBu_ 4dBu_ 5dBu_ 6dBu_ 7dBu_ 8dBu 31dB tdBu_ 2dBu_ 3dBu_ 4dBu_ 5dBu_ 6dBu_ 7dBu El 30dB OdBu 1dBu_ 2dBu_ 3dBu_ 4dBu 5dBu_ 6dBu el 200B 1dBu OdBu 1dBu_ 2dBu_ 3dBu_ 4dBu_ 5dBu B 2dBu_ 1dBu odBu 1dBu 2dBu_ 3dBu 4dBu 27dB 3dBu_ 2dBu 1dBu OdBu tdBu_ 2dBu_ 3dBu 26dB 4dBu 3dBu 2dBu_ 1dBu odBu__ 1dBu 2dBu 4dBu 3dBu 2dB8u_ 1dBu OdBu 1dBu N lt fee lt Ss 25dB eS v 7dBul 244B 6dBu 5dBu 4dBu 3dBu 2dBu 1dBu OdBu E E 23dB 7dBu_ 6dBu 5dBu 4dBu 3dBu 2dBu_ 1dBu E _22dB 8dBu 7dBu 6dBu__ SdBu_ 4dBu_ 3dBu 2dBu_ Initial controller l
7. For safety and ease of installation Free standing loudspeakers Free standing loudspeakers can vibrate and move when driven hard Always secure loudspeakers so that they cannot fall and cause injury Brackets and yokes Use only Funktion One recommended brackets and yokes with your F81 See section 6 3 Do not mount more than one F81 from a single yoke or bracket Always attach a separate safety wire rope to each yoke s safety point Follow the mounting advice See section 6 3 Observe similar precautions when combining full range loudspeakers with subwoofers 5 2 Electrical and fire safety Qualified and experienced technicians Funktion One F81 loudspeakers are very efficient and require relatively low voltage levels However in line with any other electrically powered device a few precautions are worth noting If in doubt seek help from a professional system technician www funktion one com Funktion One Research Limited 2011 Cabling Use only Funktion One recommended loudspeaker connectors wired so that the cable conductors are fully shrouded Use the appropriate cable conductor gauge See section 8 Ensure that your cables are in good condition and free from damage Ensure that there are no loose conductor strands to short out and create a fire hazard If you re use older cables strip them back a little wherever possible to expose clean conductor ends that are free from corrosion Use fire retardant or
8. integral M6 side bushes so that the yoke may be fitted using M6 hex head bolts and flat washers for fixed installations M6 hand wheels are available for easy tilt adjustment during temporary set ups F81 with yoke M6 hand wheel shown www funktion one com Funktion One Research Limited 2011 17 Remember to replace the side bolts Do not run the system with its side bolts missing as this will detune the cabinet and cause air flow noise If you remove the yoke always refit the original countersunk blanking bolts Stand top adaptor Where a tilt is required the YF81 K1 yoke kit can be fitted with an optional stand top adaptor Both 32mm and 35mm stand top adaptor are available These bolt through the yoke s main fixing hole with an M10 bolt and is clamped to the stand pole using a wing bolt M10 stand top adaptor Fitted to YF81 K1 yoke F81 viewed from underneath 7 Connectors and pin outs Rear connector options F81s are supplied to order with either O One 2 pin Phoenix PC4 connector for fixed installations Phoenix connector Or Two parallel Speakon NL4 connectors for portable PA use Parallel NL4 connectors F81 rear view www funktion one com Funktion One Research Limited 2011 18 7 1 Phoenix connector option The Phoenix connector option is intended for fixed installations A cable plug is supplied attached to the F81 s rear chassis socket PC4 2 ST 7 62 connecto
9. otherwise In short it s a marketing jungle out there and the buyer should beware Introduction Maximum spl figures are often thought of as a key parameter when assessing the suitability of a loudspeaker system They are the starting point for sound designers spl versus distance predictions when working out which loudspeaker system will provide the required performance for a particular installation or event But are manufacturers maximum spl figures reliable or indeed comparable Manufacturers small print suggests that a wide variety of calculation and measurement methods are in use This makes it impossible to compare different manufacturers data directly Most manufacturers quote calculated maximum spl figures based on their product s sensitivity and their driver supplier s power ratings Calculations are easier to do than actual measurements and most manufacturers are honest enough to admit this stating a lack of suitably isolated locations or facilities One manufacturer however has been known to imply that mics aren t available to measure beyond 140cB They ve obviously never heard of Briiel amp Kj r Manufacturers who calculate maximum spl figures don t usually indicate the applicable bandwidth or the likely distortion levels See the Calculation notes below Manufacturers who measure maximum spl figures quote a variety of test signals endurance time and boundary conditions or none at all As ea
10. panel phono line selectors may be wrongly set Re patch or reset as necessary a O If your mic signals are too weak even with the gain control above the 3 o clock position it s worth checking your mic specifications in case the mic needs phantom power N O O A O a O If your input signal levels are too high and input media player operations sometimes create a loud bang check that your external source isn t inadvertently patched to a phantom powered mic socket N OQ CO 4 With a healthy signal level on one input make sure neither A nor B X Fade buttons are pressed very important and set the input fader to approximately 80 two lines down from maximum 5 With your system controllers or power amplifiers muted initially adjust your MASTER LEVEL so that your master output meter indicates a level appropriate for your amplifier loudspeaker sensitivity The output meter is calibrated in dBu where OdB OdBu 0 775vrms See sections 9 and 11 for further information on system patching limiter settings amplifier gains etc Keep this configuration with your system controllers or power amplifiers still muted and use it to set up your inserts and loops for outboard effects www funktion one com Funktion One Research Limited 2011 53 Master Insert and FX loop set ups using outboard gear Assuming you start with the relevant input channel gains channel faders and master control settings and
11. perfect sense but half space microphone measurements may yield mid high figures that are up to 6dB higher than is achievable at ear height Again distortion figures are rarely mentioned Efficient designs tend to generate less distortion than inefficient ones for the same spl Beware products with impressive maximum spl and AES power rating figures but no mention of distortion Power hungry and loudspeakers doesn t necessarily equate with musicality and projection www funktion one com Funktion One Research Limited 2011 60 Powered loudspeakers Maximum spl figures are often quoted for powered loudspeakers but very few manufacturers quote figures for continuous power as per the drivers AES power ratings Before miniature power modules were available amplifier recommendations were based on the driver s AES power rating This was tested using noise with a 6dB peak to rms voltage ratio This implied that a good power amplifier would be capable of supplying the driver s AES power continuously and that it would be able to supply four times that power in bursts Amplifiers built into loudspeakers tend to be quite small for aesthetic and weight reasons and are often based on designs with large enough voltage swings for instantaneous peaks but inadequate power supply capacity for sustained performance It is not unusual for powered loudspeaker manufacturers and power module OEM suppliers to quote maximum power for just a few hundred millis
12. plate horizontal for normal F81 orientation 1 and 2 fit The wall mounting plate may be removed and sent to site for pre installation if required Wall mounting Plate Speaker mounting plate horizontal for F81 me F 100W mme Senet FUNKTION ONE Z j o Captive bolt Flat washer D Horizontal locking nut Fig 6 3 2 Wall mounting plate removed for fitting on site Speaker mounting plate fitted to F81 www funktion one com Funktion One Research Limited 2011 15 Always discuss your required wall mounting plate positions the weight of your loudspeaker and wall anchorage methods with an expert builder or the architect to make sure you comply with the relevant building and safety regulations The speaker mounting plate is attached to your F81 with the M8 hex head bolts flat washers and spring washers provided The hex head bolts flat washers and spring washers replace the countersunk blanking bolts at the rear of your F81 The countersunk bolts should be retained for future use Hex head bolt amen e Tighten the hex head bolts so that the spring washers are fully compressed example on right Remember to replace the rear bolts Do not run the system with its rear bolts missing as this will detune the cabinet and cause air flow noise If you remove the wall bracket always refit the original countersunk blanking bolts Reassemble the wall bracket system on site usi
13. required delay in milliseconds In the above example the F81 enclosure is 4ft 6 closer to the audience Sound travels 1ft in approximately 0 887 milliseconds so the required delay is 4 5 x 0 887 3 99ms Hint If you don t have a calculator the multipliers may be rounded to 3 0 for metric and 0 9 for imperial Note that horn loaded and bandpass bass enclosures exhibit their own fixed acoustical delay due to internal path lengths Your F81 delay may need to be slightly longer to allow for this www funktion one com Funktion One Research Limited 2011 36 Fine tuning and phase alignment The null method Local walls and floors known as boundaries will tend to reflect sound and cause phase shifts at low frequencies where systems tend to be less directional Multiple boundary effects can make mid high to bass enclosure alignment quite complex but there is a simple phase alignment procedure that requires very little test equipment apart from a graphic equaliser and some kind of pink noise or bass rich music source This null method makes use of the fact that two signals with opposite polarities create a very audible dip in output when perfectly aligned You ll need to set up a narrow band signal at the crossover frequency to make this alignment method easier Music or noise via a 1 3 octave Graphic EQ is great for this with all faders pulled down except for one at the required frequency If a graphic equaliser is not availa
14. same amount A little experimentation may be required Nh amp 4 Oo oO If the outboard gear is starting to sound distorted at your likely maximum effect you may need to reduce its input and or output gain slightly Again a little experimentation may be required a P I I i I L I I I I I 8 a w A and B FX LOOP gain structure X Fade A FX Loop 1 is used as the example The procedure for the X Fade B FX Loop 2 is the same with the appropriate routing and selection changes of course Again assuming you start with the same input level signal plus the relevant input channel gains channel faders and master control settings and your power amplifiers muted as in 1 to 5 above a Patch your effects unit into the FF 4000 s rear panel FX LOOP 1 left and right jack sockets tip send ring return and switch it in circuit using the X Fade A Latch ON button Make sure the LOOP SWAP button is not pressed FX Loop 1 should follow A and make sure the X Fade control has not been switched off b Press the input channel strip X FADE A and set the A B cross fader to A www funktion one com Funktion One Research Limited 2011 54 Set your outboard equipment s input gain control to a nominal position 1 o clock if analogue about 70 full if digital and fine adjust the FF 4000 s rear panel SEND TRIM FX LOOP 1 control so that the outboard effect unit input signal indicators read a
15. sensitivity which is after all the basis of most calculated maximum spl figures may be optimistic by up to 10dB at the upper and lower ends of the frequency range Likely distortion figures are rarely mentioned Most manufacturers calculations ignore long term voice coil heating and the resultant compression Manufacturers who state peak spl may have added 6dB to figures calculated using their driver suppliers AES power ratings Manufacturers who state half space or 217 conditions may have added a further 6dB to their figures www funktion one com Funktion One Research Limited 2011 58 Measurements As mentioned earlier manufacturers quote a variety of test signals measurement parameters endurance times and boundary conditions 1 As far as test signals are concerned some manufacturers quote IEC 60268 noise that has bandwidth and peak to rms characteristics similar to the AES recommendations for power ratings see earlier Some simply state band limited noise without specifying upper and lower frequency limits whilst others don t specify their test signal at all The choice of test signal makes quite a difference For instance the rms level difference between sine sweeps and AES or IEC noise can be 3dB And regular non AES or IEC pink noise differences can be considerably greater The combined choice of measurement parameter and test signal can make quite a difference as well A pea
16. sound operating area Wearing ear plugs may be a sensible precaution during system set ups but remember that you have a duty of care towards the venue staff and the audience Mix engineers DJs subcontractors and venue management should avoid making not make system level and equalisation decisions whilst wearing ear plugs as this could overexpose venue staff or the public in the vicinity Hearing loss is cumulative and can result from long term exposure to sound pressure levels as low as 85dBA Installers should consider long term staff exposure when making high power loudspeaker placement and aiming decisions Check the relevant noise exposure noise at work regulations and comply with them If in doubt seek expert advice www funktion one com Funktion One Research Limited 2011 6 Coverage Your F81 loudspeaker system has been designed to provide excellent performance without resorting to complex positional or spacing requirements but it s worth spending a couple of minutes reading through the following sections on horizontal and vertical coverage placement and mounting accessories to ensure you get the best performance possible at all times 6 1 Vertical and horizontal responses The horizontal and vertical response plots show the on axis upper trace and off axis lower trace responses Your F81 has been designed to work well as a stand alone system without off axis room colouration Its high frequency response maintai
17. the floor at mid and high frequencies The pit method i is preferred 6 There are still some manufacturers who state open space or 477 spherical conditions It s a difficult condition to meet in practice as you need a measurement chamber that is anechoic down to the lowest frequency to be measured Unless of course you hoist the loudspeaker and measurement microphone high above the ground To summarise measured maximum spl problems There is usually no way of knowing what test bandwidth a manufacturer has used as this is rarely stated Maximum spl measured at a response peak is useful for alarm sounders but meaningless if you re interested in broadband performance Different manufacturers use different test signals and these can have significant effects on for instance peak measurements as accompanying rms levels will be different Remember that pre recorded contemporary music can be more compressed than classical recordings so peak to rms factors may be relevant to your installation Some manufacturers don t allow adequate warm up time or measurement duration so maximum spl figures don t include long term compression Maximum peak or burst spl figures are useful but they should only be used to supplement the normal AES power rating and not to replace it Manufacturers rarely define the test conditions adequately Not all half space set ups are equal Half space loudspeaker measurements can make
18. trying to provide two types of voltage limiting Long term rms limiters to protect against over powering drivers And for advanced users to maintain musical balance Clip limiters to prevent power amplifier clipping Long term limiters can usually be identified by user adjustable features like threshold voltage and attack decay times These limiters are strongly recommended for all but the cosiest of domestic set ups Recommended long term limiter threshold voltages usually limit the loudspeaker drive voltage to 1dB or more below that required to reach a loudspeaker s maximum power rating Threshold voltages recommendations will depend on your power ampilifier s voltage gain or sensitivity see the following tables These recommended long term limiter thresholds must never be exceeded They may however be reduced to maintain spectral balance i e the appropriate musical level vs frequency when the system is being driven on the limit This is because different loudspeaker sections in a system have different sensitivities A mid frequency horn for instance may be more efficient i e produce greater spl at its power limit than say an accompanying bass enclosure In this example both sections would be set to the recommended long term limiter thresholds initially and then the mid frequency horn threshold reduced to maintain musical balance on a listening test with high quality tracks of the appropriate genre Clip limiter
19. using Funktion One F40Q power amplifier F81s with Speakon connectors Goror _ DCBA En 7 Inputs J Be Fig 9 3 8 4 channel 4 ohm patch using Funktion One F40Q power amplifier F81s with Phoenix connectors Again note the connector blocks in lower illustration Avoid cramming two cables into one Phoenix connector www funktion one com Funktion One Research Limited 2011 27 9 4 XO series loudspeaker management patches Where F81s are likely to be used with a wide variety of source material including live performances and DJs a high quality system controller is recommended Funktion One XO2 XO4 or XO4A loudspeaker management systems provide all the necessary cross over functions plus of course protective limiting 2 channel patches with XO2 loudspeaker management system Fig 9 4 1 2 channel 8 ohm patch using Funktion One XO2 controller and E15 amp 2 x 2 way 2 x mono configuration shown F81s with Speakon connectors Phoenix Fig 9 4 2 2 channel 8 ohm patch using Funktion One XO2 controller and E15 amp 2 x 2 way 2 x mono configuration shown F81s with Phoenix connectors Inputs RL II ag Fig 9 4 3 2 channel 4 ohm patch using Funktion One XO2 controller and E15 amp 2 x 2 way 2 x mono configuration shown F81s with Speakon connectors Inputs L Fig 9 4 4 2 channel 4 ohm patch using Funktion One XO2 controller and E15 amp 2 x 2 way
20. your power amplifiers muted as in 1 to 5 above MASTER INSERT gain structure a Patch your effects unit into the FF 4000 s rear panel MAIN INSERT left and right jack sockets tip send ring return and switch it in circuit using the MASTER INSERT IN OUT button b Set your outboard equipment s input gain control so that its input signal indicators read approximately 12dB below clip If your outboard gear only has signal present and clip input level indicators adjust its input gain control until the clip indicator just flashes and then back off the control by about 90 if analogue or by about 30 if digital C If your outboard gear has separate output controls set these for an output indication of approximately 12dB below clip Again if your outboard gear only has signal present and clip output level indicators adjust its output gain control until the clip indicator just flashes and then back off the control by about 90 if analogue or by about 30 if digital LEVEL INSERT IN OUT O d Now turn the FF 4000 s MASTER LEVEL control all the way down fully counter clockwise and unmute your power amplifiers wo om o e Slowly increase the MASTER LEVEL and listen to the inserted effect If the outboard gear is too noisy or has poor quality converters you may have to compromise on headroom by increasing the outboard equipment s input gain by a few dB and decreasing its output gain by the
21. 0 LP bass systems can be installed under banquettes in bars and clubs for instance The MB210 LP consists of two 10 Neodymium loudspeakers driving a ported resonant chamber enclosure handling 600 Watts Fig 10 1 MB210LP The MB210LP s 4 ohm impedance yields an average sensitivity of 103dBspl 1W 1m between 60Hz and 160Hz 550mm 1 9 5 8 985mm 3 2 3 4 Feel 220mm 9 Fig 10 2 all dimensions in millimetres and feet amp inches www funktion one com Funktion One Research Limited 2011 31 Funktion One Minibass 212 The Minibass 212 is a smaller iteration of Funktion One s patented Infrabass technology and is the perfect complement to the F81 where a more powerful bass extension is required The Minibass incorporates 2 x Funktion One 16 Ohm 12 loudspeakers which drive a ported resonant chamber enclosure It handles 600 Watts with an average sensitivity of 104dBspl 1W 1m between 40Hz and 125Hz Fig 10 3 MB210LP Again the efficient 80hm enclosure allows multiple units to be driven by one amplifier 957mm 37 11 16 oy Corner version also available Same height as standard model has connectors on small back panel 610mm i 24 N bas Top 72 a ig 1000mm Fitted with internal 39 3 8 l flying brackets 3 providing six external hs 350mm M10 points Fa 13 3 4 Pai FUN ETIO OM E Front Side Back Fig 10 4 MB210 LP dimensions in milli
22. R FUNKTION ONE F81 User Guide www funktion one com Funktion One Research Limited 2011 Contents Fo LUSO GUNG Cs cpescee snes svosvaeesanscaves E E N uns vbiwaceusndssnessuaanaessoustuasesreacessnpesamegee 1 1 WAN Vy O occ ccitiece teste E acon ou sone aiteesa eceedeg cocaine esnenuouseina dieses unedees cane sues ucsnsusenesieans stevieseeceesnesncen 3 2 Receiving and unpacking sessssesessesesseosssesessesesseoesssoecssoecssoesssosssssessssesssseossseossssossssossssosessosees 3 3 VIVES EAA SE E EE E E E A E EEA AA E A E 4 4 WVEROGUCUION reina aA E EE ATE N E A 4 4 1 POU OE a E ic se ecg cece eek E E E E E E E S 4 4 2 SIS CIM CON a E E E EE E E E 5 5 SATOEY TUES U eranen E E E 6 5 1 WYAKeTe a Lal ete Cre co 6 een in es rn eee eee ee ee 6 5 2 E Sim ere bec ha SIMI E N eee ee ee ner ne ne eee eee 6 5 3 Perne ore Ko eee ee E E ee 7 6 OM Ce Cagis csce snes cates A E E R 8 6 1 Vertical and horizontal responses ices tannin assvosedssaainsleuaieoasiatanienaintiviesadvetmossntibeaontiedeevaroadsnatbeaavannees 8 6 2 PCERE a E T E A 9 6 3 Wall mounting and yoke accessories cccccseseccccesscccceesececeueccceeeceeseueecessusecessuecesseeeceeseneeeetes 15 7 Connectors and PDIFOUTS ssirirpisiniiusine aein 18 7 1 POO VI ONECO OO n T 19 7 2 Speakon connector ODUOT icceiccccnesanieousdeccoecanes ira E rerne EEES E A EE EEE r 19 7 3 Loudspeaker polarity socaiucacesissnsdensadvestavecindginaadusatesiseeddeacadesGedgnntadseaiunate
23. Sensitivity 1 Loudspeakers rarely have ruler flat spl versus frequency characteristics Some manufacturers take advantage of this and quote the loudspeaker s sensitivity for a single octave centred on the highest peak rather than quote an average sensitivity for the loudspeakers full frequency range This means that a loudspeaker with a really nasty mid frequency resonance in its response could look better in terms of both sensitivity and maximum spl Quoted frequency ranges are not always the 3dB you might expect They re often defined as the upper and lower frequencies where the loudspeaker s spl drops 10dB lower than the average level of the most sensitive octave see below So instead of 3dB they re OdB 10dB with respect to an octave averaged response peak This means that a system s sensitivity may be 10dB lower at the upper and lower ends of its frequency range Loudspeakers don t usually have flat impedance versus frequency characteristics either Typical direct radiator loudspeaker impedances tend to peak at the main system resonance drop back a little and then rise at high frequencies due to the voice coil inductance They are also designed to be voltage driven rather than power driven And most power amplifiers are designed to deliver a flat voltage versus frequency characteristic So it would be more realistic to quote a loudspeaker s sensitivity in terms of dB spl on axis at one metre versus drive voltage
24. With typical input signal levels and the appropriate input source selected for each channel strip of course adjust the rear panel input channel gain trims so that the 5 segment input meters are towards the top of the green section with only the occasional very brief excursions into the amber Important note Never run your input levels into the red as this would indicate input clipping Broadband input clipping will sound very unpleasant in the main listening area And you certainly won t be able to fix it in the mix with further EQ or even worse compression Further processing will simply make matters worse Once calibrated you can then use the GAIN and EQ controls to adjust for different programme material But always use EQ sensitively Excessive EQ may sound impressive initially but will quickly cause listener fatigue and irritate your audience If you wish you can also finely adjust your input levels using the Cue meter via the channel strip CUE buttons Make sure the CUE BAL control is set fully counter clockwise to CUE Once you ve initially set the healthy input levels above finely adjust for Cue meter levels between 3dB and OdB with one channel Cued or between OdB and 3dB with two channels Cued wo On Oo Cc m Notes If you run out of gain adjustment or run into constant distortion your input may be plugged into an inappropriate input socket you may have the wrong input selected or your rear
25. XO series main XO series main Clip limiter Clip limiter o p limiter o p limiter o p limiter over level speed threshold level attack time decay multiplier where fitted where fitted F81 2dBu Automatic Automatic 6dB E15 medium mem Mena a Note that the main limiter settings are essential Setting Clip limiter over levels alone is not enough XO series limiter settings for F81 systems with standard 32dB amplifiers These settings will limit the amplifier s long term output to 1dB below your F81 s AES power rating The Clip limiter will prevent hard peak clipping although you may see the occasional momentary clip indication Check that the above limiter settings are preventing hard clipping by testing the controller amplifier combination at high signal levels off load i e with the loudspeaker unplugged f necessary reduce the output limiter threshold level to reduce or eliminate the hard clipping Adjustments of more than 1 or 2dB may indicate a problem with the mains voltage or the amplifier gain settings These figures will also work for most professional standard 32dB amplifier controller combinations 11 2 Limiter settings vs amplifier gain Controller input Max o p limit set aan Controller e g Funktion One XO series loudspeaker management system Fig 11 2 1 known max o p Amplifier Voltage gain of power Controller long Controller long term main Controller long term m
26. ain amplifier driving F81s term main o p limiter o p limiter o p limiter threshold level attack time decay time l l ae an En a www funktion one com Funktion One Research Limited 2011 41 Max amp 100W 8Q 120W 8Q 150W 8Q 200W 80 250W 80 300W 80 400W 80 output 200W 4Q 240W 4Q 300W 4Q 400W 4Q 500W 40 600W 40 800W 40 Clip limiters Not dB above long applicable 1dB 2dB 3dB 4dB 5dB 6dB term Controller Clip limiter settings if fitted These settings will limit the amplifier s long term output to 1dB below your F81 s power rating Check that the main output limiter settings are preventing continuous clipping by testing the controller amplifier combination at high signal levels off load i e with the loudspeaker unplugged f necessary reduce the output limiter threshold level to eliminate any continuous clipping Assuming that the amplifier has adequate continuous power adjustments of more than 1 or 2dB may indicate a problem with the mains voltage or the amplifier gain settings 11 3 Limiter settings vs amplifier sensitivity If gain figures are not available the table below will allow you to estimate long term controller limiters for your F81s from your amplifier s output and sensitivity figures Max anger 100W 8ohm pre 80hm re 80hm ae 80hm ue 80hm 80hm pooper 80hm output 200W 4ohm 240W 4ohm 4ohm 300W 4ohm 4ohm 400W 4ohm 4ohm 500W 40hm 4ohm 600W 4ohm 4ohm 800W 4ohm
27. ble use a boosted narrow band PEQ in the input stage of the Loudspeaker Management System Don t use a sine wave tone in case you re in a room null 1 To avoid aligning a whole cycle out make sure you follow the physical or time alignment procedures first using the appropriate Funktion One settings as the starting point See earlier 2 Listen to the bass enclosure and the mid high enclosure one at a time at your chosen reference position and adjust each one by ear to give the same approximate level with the narrow band signal 3 Once level balanced switch the bass system temporarily to reverse polarity 4 Now run both sections together and fine trim the mid high enclosure delay for a dip in level at the reference position Note If the mid high enclosure is near a large local boundary a ceiling or wall for example it may be necessary to put the mid high delay setting back where it was and fine adjust the bass enclosure delay instead A little experimentation may be required 5 Now switch the bass system back to the correct polarity this should give you maximum alignment and impact through crossover If no obvious dip is heard even with delay adjustments of several milliseconds the room characteristics may be too complex and confusing to deal with easily If this is the case it s probably best to reinstate the standard recommended delay settings and fine tune by ear Experience teaches us that the ideal setting i
28. cal Aiming Design the system for a smooth coverage crossover at ear level between main and delay areas But avoid excessive overlap as this will cause multiple arrivals and could reduce intelligibility Alignment procedure Adjust the Delay F81 spl level for a smooth equal level overlap area Add the appropriate electronic delay to the Delay F81 signal This additional delay can be calculated if you know the relevant distances The required delay in milliseconds will be Metric Distance in metres from Main F81 Distance in metres from Delay F81 x 2 91 milliseconds Imperial Distance in feet from Main F81 Distance in feet from Delay F81 x 0 887 milliseconds Hint If you don t have a calculator the multipliers may be rounded to 3 0 for metric and 0 9 for imperial Real world testing Make final level adjustments in a real world situation with lots of audience absorption background noise and chatter This will highlight any coverage or intelligibility weak spots that may need correcting www funktion one com Funktion One Research Limited 2011 14 6 3 Wall mounting and yoke accessories Wall mounting bracket Side Elevation of Assembly 50 0 Wall Mounting Plate Fig 6 3 1 WMS 50 F55 F81 wall mounting bracket all dimensions in mm The optional WMS 50 wall mounting bracket allows your F81 to be mounted on a wall and aimed accurately The photograph shows speaker mounting
29. ch measurement criterion can affect the resultant maximum spl figure by between 3 and 6dB it is virtually impossible to compare different manufacturers spl specifications once all possible criteria are taken into account See the Measurement notes further down Calculation You d be forgiven for thinking that maximum spl ought to be fairly easy to calculate After all we know how to measure loudspeaker sensitivity We simply apply one watt of signal and see what spl we measure at one metre on axis And loudspeakers maximum power ratings have been standardised since the Audio Engineering Society AES published the original recommendations AES2 1984 several decades ago This was revised in 2003 and is still commonly used www funktion one com Funktion One Research Limited 2011 56 All we have to do is work out the AES power rating in dB with reference to one watt and then add that figure to the sensitivity figure surely Working out the AES power rating in dB with reference to one watt and then adding that figure to the sensitivity figure is indeed a common way of calculating maximum spl so most manufacturers have little choice but to follow suit This industry tradition appears to allow potential purchasers to compare and contrast different products from different manufacturers But unfortunately the figures can cause unfair and misleading comparisons making the whole exercise pointless Here are some points to consider
30. ck Series Tour Grade twin axial For general portable PA use Van Damme Ecoflex Install Grade Speaker Cable LSZH For installations in public buildings clubs and cruise ships where Low Smoke Zero Halogen cables are specified These cables are compliant with IEC60092 IEC60332 1 IEC60332 3C IEC60754 1 IEC60754 2 and IEC60134 2 The following table gives the maximum cable lengths allowable to keep level losses below O0 6cB Maximum cable Maximum cable Copper core cross length for asingle length for sectional area Nearest suitable F81 2 x F81 in parallel mm AWG size metres ft metres ft 22m 72ft 11m 36ft 36m 118ft 18m 59ft 58m 190ft 29m 95ft www funktion one com Funktion One Research Limited 2011 22 8 2 F81 impedance Loudspeakers are conventionally specified as having a nominal impedance of 4 8 or 16 ohms In practice of course loudspeakers are electro mechanical devices that interact with local acoustical conditions They also have internal electrical networks All these factors result in loudspeakers having quite complex impedance characteristics that vary with frequency Fig 8 2 1 F81 half space 1 12 octave impedance ohms vs frequency Hz The F81 impedance curve is very well behaved and presents an easy load for power amplifiers even where pairs of F81s are connected in parallel Notes Low frequency impedance characteristics may vary slightly with local boundary conditions F81 inter
31. ditionally most pro audio VU meters and VU scaled bar meters were calibrated so that OVU corresponded to the industry standard 4dBu to give you 18dB of headroom More Qs amp As Q What s a dBu A dBu sometimes written as dBv refers to so many dB with respect to approximately 0 775vrms You ve probably seen the 0 775vrms standard used for power amplifier sensitivity Q Why the strange voltage reference A The original standard was devised for telephone circuitry and early audio It was originally called dBm and was defined as 1mW into 600 ohms Work out 0 7752 600 and you ll get a milliwatt Too low 10VU 28dB below clip Too high Just right OVU 18dB below clip Wasting dynamic range Peaks could be heavily clipped Noise free without clipping www funktion one com Funktion One Research Limited 2011 49 Professional analogue and digital peak programme meters PPMs Peak programme meters don t actually measure short signal bursts or transients They are designed for estimating programme levels UK BBC PPM scale in 4dB steps 4 is usually set for 18dBFS EBU PPM scale also in 4dB steps Test is usually set for 18dBFS There are almost as many PPM scales as there are broadcasting authorities including a DIN standard where 0 is only 9dBFS PPMs move faster than most rms meters in response to tone bursts and fall back more slowly making them easier to read
32. dvanddeensiwonteseneaaseondveateuateaas 20 8 Loudspeaker cableS sesessssessssessssessssesssoesssossssoecssosssssesssseossseosssesssssossseossseossssossssossssosssessees 22 8 1 Recommended cable types and lengthS essssssseesssseeesrrnssrrrresrrrrssreresrrerssrrreserereserresereesrrresene 22 8 2 Fr WTA LING a T E ETE A csatheneseaaaveresaes 23 9 Amplifier considerations sesessssessssesessessssessssesssossesseossssossssoesssossosoessscesssossssossssoeossssssssesssseo 23 9 1 Recommended Funktion One power amplifiers ssssesseuseseenesrrrsssreresrresssrrressreresreresereresrrresene 23 9 2 S itable power Tange S exc srnaes ties sat sessncecacianseceasnaeseats ERE ei 24 9 3 Simple system patches with external control sessesssssesssreresrrrsssreresrreserrerssereessreresrreesrreresrrreesne 25 9 4 XO series loudspeaker management patches ssseseesessreseserresrrrrerrrresrreessrrressrerssrreesrrereserressne 28 10 Combining with bass systems ccscscscsccscsceccccscscsccccscscsccccecscsceccecscsseccecscsceseececscssescecsceses 31 10 1 Bass to mid igh alignmMent scenici E 35 DA Eaa o E E A P E A A P E E E E A E A 39 11 1 XO series limiters with 32dB amplifierfS eoseeeeseesesrenssreesssrrrssrreresrrressrerssrrresrreresrrressreresreressne 40 11 2 Limiter settings vs amplifier gain ssssssssesessersesressrrrrssrerrssrrrsssreresrrresererssrrreserereserreserereserressne 41 11 3 Limiter settings vs ampli
33. econds often less and to quote peak or burst power for only a few tens of milliseconds So that impressive maximum spl figure wouldn t be relevant for sustained bass or keyboard notes Such systems tend to sound impressive on opening percussion runs with single or sparse instrumentation but they rapidly degenerate into a mush once the full band and vocals strike up Limiters Limiters are usually employed to protect the drivers from accidental overload especially in powered loudspeakers and professional touring systems But they can also be used to provide a more acceptable spectral balance when the system is being driven hard Go to www funktion one com settings for further information Most maximum spl figures are calculated from driver sensitivities and AES power ratings so limiters don t really feature in the arithmetic It would be helpful if manufacturers stated the decrease in maximum spl expected with their recommended limiter settings dialled in This of course should be with AES noise that is band limited to the pass band of the relevant loudspeaker or section Note that these figures will depend on limiter attack and decay characteristics and not simply on limiter thresholds Again when measured figures are quoted it would be helpful if manufacturers quoted the maximum continuous spl and maximum peak or burst spl using the recommended or in built power amplifier and using the recommended or pre programmed limiter setti
34. een stereo imaging and coverage without too much spill onto side walls www funktion one com Funktion One Research Limited 2011 11 The best way to ensure the widest possible stereo listening area is to aim your left and right F81 systems both horizontally and vertically so that their on axis lines cross over at ear height at approximately 2 3 the distance to the rear of the audience 60 Stening aree 2 3 Fig 6 2 7 Classic stereo set up 2 3rds rule for audio visual applications If your loudspeaker system is providing front left and right sound for a specific video screen place your loudspeakers so that their high frequency units are approximately 2 3rds up the screen and then tilt them so that they aim approximately 2 3rds across the audience area The above aiming rules still apply of course www funktion one com Funktion One Research Limited 2011 12 Multiple loudspeaker systems Where multiple loudspeakers are to be used to concentrate coverage into a specific area your F81 s 90 horizontal coverage allows simple four corner set ups for foreground music coverage 7 i o Coverage area 4 speaker set up Generally speaking every time you double the number of loudspeakers at equal distances from you you ll increase sound pressure level by between 3 and 6dB The exact figure will depend on the programme material If you re at the central sweet spot of a stereo loudspeaker system centra
35. erall mix bus levels and you may have to drop channel fader levels by 2 3dB every time you double the number of channels routed to the same mix bus to maintain headroom Adjust your master output faders for the required sound level Readjust channel gain controls for suitable pfl levels if specific input levels change or after tweaking any channel strip effects or eqs Note that short term transients and peaks in live music plus mix summing can easily use up your headroom Don t be tempted to drive channel rms levels much beyond 4dBu OVU 18dBFS if you want to minimise peak clipping and signal degradation further down the signal path Again remember that you can always push the system harder using the master fader once you ve developed a clean mix Outboard effects set up Assuming you have set the relevant console channel with everything bypassed as above switch in your inserts If the outboard gear isn t too noisy or mushy use the 18dB below clip rule Outboard gain structure 1 With your outboard equipment s input gain set to a nominal level about 10 clock if it s an analogue knob set the relevant insert send control on your console so that your outboard gear s general level is indicating around 18dB below its own maximum usually 18dBFS on digital gear www funktion one com Funktion One Research Limited 2011 51 2 With your outboard equipment s output control set to nominal set the relevant insert retu
36. ere an anechoic chamber isn t available i The most common set up is where the loudspeaker is mounted in half space typically in a pit facing upwards so that its baffle not its grille is flush with the ground The measurement microphone is placed above the loudspeaker usually on the acoustical crossover axis www funktion one com Funktion One Research Limited 2011 59 This half space loudspeaker set up will show a level enhancement of up to 6dB at very low frequencies where the loudspeaker response is almost omnidirectional Results correlate nicely with the real world listening experience li The second set up is where the loudspeaker is placed on or near the ground and its acoustical crossover axis is tilted towards a boundary microphone The microphone is a small but accurate omnidirectional measurement microphone with its capsule facing the direction of the loudspeaker but placed snugly against the ground This half space microphone set up will show a level enhancement of up to 6dB over the full frequency range of the loudspeaker being tested as long as the surface is hard and smooth The method can be problematic though depending on the loudspeaker s off axis polar response and ground irregularities at high frequencies The boundary method also tends to enhance the mids and highs when compared with real world listening conditions where most listeners ears tend to be several wavelengths above
37. est lf for example the F81 loudspeaker is 1 37m closer to the audience than the bass enclosure its signal will need to be delayed slightly Sound travels 1m in approximately 2 91ms so the delay setting will need to be 1 37 x 2 91 approx 3 99ms Required position E 3 99ms Actual F81 position Different DH N hy ial set fi V4 i Aire ai TAL eal avait an Fig 10 1 2 Time aligning the F81 with the bass enclosure for a 2 3 audience reference position distances Bass enclosure mounted in wall Time alignment procedure Start with Funktion One s recommended loudspeaker management bass to mid high alignment settings This will ensure that internal driver offsets are already allowed for See www funktion one com or the appropriate bass enclosure user guide for details 1 Accurately measure the distance to the front of the mid high enclosure and the front of the bass enclosure from your preferred reference mix dance position 2 Sound travels 1 metre in approximately 2 91ms 2 91 milliseconds a If the bass system is closer than the F81 system increase the bass output channel delay by 2 91ms for every metre of misalignment b If the F81 system is closer than the bass system increase the F81 output channel delay by 2 91ms for every metre of misalignment Imperial measurements If you re working with imperial measurements the physical offset in feet should be multiplied by 0 887 to get the
38. etting your console and effects system gain structure carefully See appendix B www funktion one com Funktion One Research Limited 2011 46 Appendix B Gain structure What is gain structure all about and why ts it important When an audio signal passes through an analogue or digital audio system it is important to maintain the optimum signal operating level through the various sections of the signal path Microphone levels must be boosted to make them compatible with line level and analogue to digital converter stages and mix stages must allow enough headroom for multi channel summation The various gain settings throughout a piece of audio equipment are collectively known the system s gain structure Signal level too low If the signal level is too low it will be wallowing around in the analogue noise floor losing resolution and becoming fuzzy distorted and noisy in the digital domain Avoiding digital garbage If you have to go digital for your multi channel live sound operations use 24 bit systems if they are available so that you can maintain enough headroom to mix without sinking into the digital mush And of course if you like to use lots of effects try to use one comprehensive studio quality effects system that runs its internal processing at 32 bit floating point This reduces the build up of mush you get every time your signal goes through a different processor Signal level too high If your operat
39. fier sensitivity se sessesessenssreerssrrresrrrresrrressreresrrresereresrrressreresrrressne 42 Appendix A CIN aac ce occ cece na ces ens sce cams scone ue EARE ES REOR EEEREN 44 Appendix B Gali StrUCtUTE ciccecucecccnduesecvensastccsduswaccancevcadsiwadesdeacscacchavsvensansataarioucnecsessteccedusvecsanetensic 47 Appendix C Maximum spl ssesessssessssessssesssoessssessssesssseosssecssssossssossssossosossssossssossssossssossssoesssosesesese 56 www funktion one com Funktion One Research Limited 2011 1 Thank you Thank you for purchasing a Funktion One F81 system All Funktion One loudspeaker systems are designed and built in England Our design philosophy is to achieve outstanding sonic accuracy and efficiency through innovative acoustical design rather than relying on headroom robbing equalisation This approach provides an audible sense of immediacy and involvement reminiscent of the finest musical instruments We know that you ll be eager to install your F81 system and get it up and running immediately but reading this user guide will help you to achieve the best performance just as Funktion One intended 2 Receiving and unpacking Please check that your shipment is complete and in good condition before signing for the delivery Palletised and wrapped strapped multiple cartons should only be moved using a fork lift truck driven by a qualified forklift driver Single cartons should be manually handled one at a ti
40. ience Fig 6 2 3 Minimising difficult room effects Af Anne toe A Ng Tit a Fig 6 2 4 af pee tilting F81s for more ere SEER E in difficult ac acoustics Difficult room effects can be minimised by aiming your F81s towards head height at the centre of the audience area This ensures that coverage is concentrated onto the main audience area and away from the walls The strong central summation combined with the smooth off axis performance around the edges will provide even coverage with minimal overspill www funktion one com Funktion One Research Limited 2011 10 Horizontal aiming Stereo set ups Listening area Fig 6 2 5 Poor horizontal aiming Avoid aiming your F81 straight out as this can increase side wall effects and will cause coverage gaps in between the loudspeakers Listening area vw Fig 6 2 6 Improved horizontal aiming Even if the room has good acoustical properties your audience will enjoy far better sound quality if the system is toed in towards them rather than reflecting off the side walls The classic 60 stereo set up see next page was devised for personal monitoring or home listening over a relatively small listening area Achieving good stereo imaging for larger spaces can be a challenge due to the much larger left right propagation times involved The 60 angle is not critical The appropriate set up for your particular application will be an intelligent compromise betw
41. imiter settings vs amplifier output and sensitivity for F81 systems 5 8dBV 6 8dBV Timing and clip limiter settings on next page www funktion one com Funktion One Research Limited 2011 42 Max amp 100W 8Q 120W 8Q 150W 8Q 200W 80 250W 80 300W 80 400W 80 output 200W 4Q 240W 4Q 300W 4Q 400W 4Q 500W 40 600W 40 800W 40 Clip limiters Not dB above long applicable 1dB 2dB 3dB 4dB 5dB 6dB term Controller Clip limiter settings if fitted XO series main XO series main o p limiter o p limiter attack time decay multiplier Automatic 16ms Automatic x16 Limiter attack and decay settings Notes Always use the maximum output power figure given for the highest impedance usually 8 ohms as this gives the best indication of your amplifier s maximum output swing and the most accurate indication of voltage gain Lower impedance continuous power figures often underestimate an amplifier s dynamic performance due to loading effects Always check limiter threshold operation with the power amplifier off load See previous page www funktion one com Funktion One Research Limited 2011 43 Appendix A Clipping Caution Prolonged heavy clipping can subject loudspeaker voice coils and passive crossover components to double their rated power dissipation leading to overheating premature ageing or early failure The high frequency components are particularly vulnerable in systems with pass
42. ing levels are too high there won t be enough headroom to allow for performance peaks and multi channel mixing You may end up with distortion caused by peak clipping or even long term clipping If you re using all analogue equipment the odd peak clip may go unnoticed as long as it s not sustained enough to damage your HF drivers This is because analogue clipping components are harmonically related to the original signal Avoiding digital mush Unfortunately digital overload isn t as simple You get clipping when the digital stage runs out of digits usually referred to as OdBFS and the higher order harmonics generated can then alias with clock frequencies creating all sorts of strange sum and difference frequencies These aliasing products can be interesting if you re a robot but are generally heard by humanoids as nasty and unmusical They can also turn cymbal tings into shhhhs and make vocals excessively sibilant To make matters worse any over sampling or delay based processes built into effects units can stretch these nasty artefacts in the time domain and make them far more audible than their relatively low levels would suggest Also remember that aliasing will be compounded as the overloaded signal passes through successive processes Signal level just right If your operating signal levels are just right you won t run out of headroom clip or run out of digits even on musical peaks And you ll still
43. ipped pure tone approximately 1kHz can be seen as a single frequency line www funktion one com Funktion One Research Limited 2011 45 1kHz pure tone just below clip level Vertical level in decibels horizontal frequency Required signal Distortion components VT WM E I I l l I l J i i I i i i i i i I i i I I I I I i i I I I I i 3k hj a aS SaaS aS SS Sl lS lS SS Sa SS SS SS n A is ER S E ES A R E a ee ee Se ee E E 1kHz heavily clipped signal The heavily clipped signal see previous illustration shows clipping distortion as a series of odd harmonics at 3kHz 5kHz 7kHz etc whose levels decrease with frequency at approximately 6dB per octave Where clipping occurs before the system crossover clipping harmonics can crossover into the HF driver and the HF driver can be called upon to dissipate far more power than normal Note that the example shows a single frequency fundamental Musical signals will be a lot more complex and the distortion content will be denser Asymmetrical clipping from studio or backline valve amplifiers for instance would also include even harmonics As mentioned earlier long term clipping can be avoided and performance improved if you choose mixers effects units controllers and amplifiers with adequate headroom and set your limiter thresholds to below clipping levels You can also avoid clipping your signals at source by s
44. ive crossovers In extreme cases this could pose a fire hazard What is clipping and why is it a problem When an audio signal is amplified beyond the voltage or maximum digit capabilities of the equipment in use the peaks of the waveform can get flattened This is referred to as clipping and is heard as distortion Here s a normal signal at maximum level just below clipping and still within the available headroom The clip level sets the maximum available headroom Clip levels Signal at maximum level Pure tone single frequency signal just below clip level Vertical voltage horizontal time The blue positive and negative shaded areas represent the power the signal would cause to be dissipated in a load usually a loudspeaker voice coil Here s the same signal amplified beyond the available headroom i e beyond the clip level signal headroom required K Headroom sci ie signal Vdd S VZ A gt r Vu Wi Wil CJC Signal amplified beyond clip level www funktion one com Funktion One Research Limited 2011 44 When a signal is clipped its waveform squares off The cross hatched areas cover a significantly larger area because the signal stays at the maximum positive and negative values for more each cycle This is easier to see if we overlay the normal and clipped waveform illustrations The clipped signal s extra content can be seen as the extra red shaded areas Un clipped
45. iver that is used in the Resolution 2 enclosure Fig 10 7 F215 Mkll The F215 has a sensitivity figure of 105dBspl 1W 1m 7 431mm 1142mm 1 4 15 16 3 8 15 16 o 606mm 1 11 7 8 96mm 2 7 5 16 355mm 1 7 Wheels optional Fig 10 8 F215 MkII dimensions in millimetres and feet amp inches Please see www funktion one com products and scroll down for further information on the complete range of Funktion One bass systems www funktion one com Funktion One Research Limited 2011 34 10 1 Bass to mid high alignment For maximum impact and headroom it is important to accurately set the cross over point and time alignment when using F81s with your chosen bass system Crossover frequency examples Application Bass system and crossover F81 crossover MB210 or MB212 Low pass filter 85 High pass filter 85 100Hz 100Hz 24dB octave Linkwitz Riley 24dB octave Linkwitz Riley Higher power use BR115 F215 or F118 Low pass filter up High pass filter up to 200Hz to 200Hz 24dB octave Linkwitz Riley 24dB octave Linkwitz Riley The final crossover frequency setting will depend on boundary condition and headroom requirements Note that the higher the crossover frequency the harder the bass and the less stressed the F81 Ensuring good mid bass impact through crossover If you want good mid bass impact from your system start with Funktion One s recommended loudspeaker management bass to to
46. k spl reading will look a lot more impressive than an rms reading especially with regular pink noise instead of AES or IEC noise The pink noise s peak measurement will be at a maximum but its unmentioned rms value and therefore its tendency to heat the voice coil and cause output compression is likely to be considerably lower than the AES or IEC recommendations Also the careful choice of spot frequencies or noise bands can exaggerate the maximum spl figures to unrepresentative levels Most manufacturers agree that loudspeaker systems needs to be run for at least two hours for their magnetic assemblies and chassis to reach maximum operating temperature However very few manufacturers state measurement duration One manufacturer quotes maximum spl figures based on peak readings of pink noise and further reading reveals that their product s peak power handling capacity is quoted for 10ms That s only one cycle at 100Hz Try explaining that to a bass or keyboard player who likes to play sustained notes Manufacturers who mention boundary conditions tend to state half space or 20 hemispherical conditions Again this can make sense for small loudspeakers at low frequencies And of course for subwoofers whose response extends low enough for the listener to be regarded as existing in half space Note that there are two types of half space set up used to minimise the effects of delayed ground reflections wh
47. lly panned signals e g vocals or bass will sum up to 6dB whereas stereo signals will sum up to 3cB In the 4 speaker example this summation effect will be doubled and concentrated towards the centre of the audience area As audience members move towards the centre away from the loudspeakers this 4 speaker summation will partially compensate for distance This leads to very smooth level coverage If the architecture allows always try to keep your loudspeaker positions symmetrical in the room Large scale distributed loudspeaker systems If wide coverage is more important than stereo or multi channel operation e g for a conference venue or large lecture theatre a mono distributed system may be a better option The example overleaf uses 12 F81s to cover a 32m wide 180 fan shaped audience www funktion one com Funktion One Research Limited 2011 13 Audience area e a Audience area i Mn Fig 6 2 9 Large scale distributed system horizontal Remember that in circular or fan shaped rooms the second delay ring covers a radially expanding audience area so more loudspeakers are required to maintain smooth coverage In this example the platform F81s are placed every 45 and the second ring F81s are placed every 30 Vertical aiming and time alignment Delay F81 Distance from lt _ Delay Equallevel area Main F81 Distance from Main Fig 6 2 4 Distributed system verti
48. low emission cables where these have been specified by the contract or by local safety regulations Amplification We suggest electronically limiting maximum amplifier power of 100W average 400W peak Remember that heavily clipped signals can double a power amplifier s output see appendix A If heavily clipped signals are expected due to equipment with inadequate headroom in the signal path inexperienced operators etc set rms and peak output limiter thresholds 3dB below the loudspeaker s AES ratings See section 11 General There are no user serviceable parts inside your F81 system Do not dismantle the unit F81 s are not designed for use in damp conditions and should not be exposed to water 5 3 Hearing safety Enjoy your system responsibly Funktion One loudspeaker systems are designed to provide extensive audience coverage at low distortion and are capable of producing very high near field sound pressure levels The richness and impact of a powerful sound system can be great fun and very exhilarating but please enjoy your Funktion One system responsibly by following the advice below Don t place your ears too close to high power loudspeaker systems Erroneous patching or un muting could generate unexpected and damaging sound pressure levels during set up Don t place high power loudspeakers too close to audience members Individual audience members should not be exposed to levels significantly greater than the
49. management systems like the Funktion One XO2 XO4 or XO4A for example Installation and touring companies prefer to use separate loudspeaker management systems driving a variety of power amplifiers set to a standard voltage gain The advantage of this set up is that the power amplifiers stay simple and can be swapped or re patched without reprogramming Funktion One loudspeaker management systems also have much higher quality limiters than most power amplifiers Funktion One power amplifiers all have clearly defined voltage gains and support the industry standard 32dB gain Multiple limiters Avoid using multiple limiters in the signal path as they will make your system sound confused and powerless as the various attack decay and latency times trip over each other Use loudspeaker management system limiters in preference to integral power amplifier limiters as a lot of them can compromise audio quality However where a dedicated loudspeaker management system is unavailable the E Series Amplifier Power Reduction Controls or the F Series optional XO40Q XO60Q crossover cards with built in limiters can be used to provide a degree of safety Some power amplifiers are equipped with clip limiters that can be too crude and sap power These old style clip limiters are best left switched out unless you are using a significantly over powered amplifier www funktion one com Funktion One Research Limited 2011 39 Remember that we are
50. me All Funktion One products are tested and inspected thoroughly before being despatched Contents Each F81 carton should contain 1x F81 complete with e 2x M6 blanking screws fitted to the side yoke bushes e 2x M6 blanking screws fitted to the rear mounting bushes e If Phoenix option has been specified 1 x 2 pin Phoenix plug usually fitted plugged onto rear connector 1x printed Quick Start guide Unpacking and inspecting Inspect your shipment packaging and its contents for any signs of abuse or transit damage as soon as you receive it Caution Although F81 systems are not particularly heavy please be aware that the combination of smooth enclosure finishes and concentrated driver masses can make even small loudspeakers surprisingly easy to drop Always unpack your systems on a softly covered work top or on a carpeted floor to avoid accidental damage www funktion one com Funktion One Research Limited 2011 Inform your dealer immediately if your shipment is incomplete or any of its contents are found to be damaged or missing We suggest that you keep some of the original F81 cartons in case you have to return a unit for repair or replacement Funktion One Research Limited and its distributors cannot be held liable for product damaged through the use of non approved packaging shipping or handling methods 3 Handling f your F81 systems are destined for an installation ensure that they remain protected by their
51. metres and feet amp inches A corner version is also available see above This is the same height as the standard Minibass 350mm www funktion one com Funktion One Research Limited 2011 32 Funktion One BR115 and the Bass Reflex range The BR115 single 15 bass reflex system provides excellent bass performance from a compact enclosure The BR115 has a sensitivity of 103dB for 1W at 1m and covers the frequency range 45Hz 320Hz The system can be supplied with optional pole mountings and is well matched with products including F81 F101 etc Ideal for smaller applications including studios and monitoring Other Funktion One bass reflex enclosures are available including the dual 15 BR215 for larger installations See www funktion one com products bass reflex range for more information Fig 10 5 BR115 shown with F101 491mm 514mm 1 7 5 1 y 1 8 1 4 Fig 10 6 BR115 dimensions all dimensions in millimetres and feet amp inches www funktion one com Funktion One Research Limited 2011 33 Funktion One F215 Mkil The F215 MkIl is a double 15 bass enclosure which utilises the same horn loading technology as Funktion One s highly regarded F218 This product has similar performance characteristics to the F218 It is pitched higher 50Hz 250Hz giving slightly less low end extension but even tighter and punchier upper bass It uses the same Funktion One designed 15 loudspeaker dr
52. n set ups where signal levels are carefully controlled e g in installations where limiters are built into the zone controllers 2 channel patches with external control Fig 9 3 1 2 channel 8 ohm patch using Funktion One E15 power amplifier F81s with Speakon connectors Fig 9 3 2 2 channel 8 ohm patch using Funktion One E15 power amplifier F81s with Phoenix connectors Fig 9 3 3 2 channel 4 ohm patch using Funktion One E15 power amplifier F81s with Speakon connectors Inputs Phoetix fo fF W Y y E OFT O A NN ALT O y A P 2 channel 4 ohm patch using Funktion One E15 power amplifier F81s with Phoenix connectors Note the connector blocks in lower illustration Avoid cramming two cables into one Phoenix connector www funktion one com Funktion One Research Limited 2011 25 4 channel 8 ohm patches with external control Fig 9 3 5 Fig 9 3 6 www funktion one com OQ00 DCBA Inputs 4 channel 8 ohm patch using Funktion One F40Q power amplifier F81s with Speakon connectors Phoenis ts 2 G G NN Ny UE M oe DCBA Inputs 4 channel 8 ohm patch using Funktion One F40Q power amplifier F81s with Phoenix connectors 26 Funktion One Research Limited 2011 4 channel 4 ohm patches with external control 000 nap OOOO N DCBA ee B Inputs A TF Fig 9 3 7 4 channel 4 ohm patch
53. nal networks include a protective DC blocking capacitor This will cause your F81 to look open circuit when measured with a regular dc resistance meter 9 Amplifier considerations Unless otherwise stated power ratings in this section are average power rms voltage x rms current sometimes called rms power Your F81 has an AES 8 ohm power rating of 100W 9 1 Recommended Funktion One power amplifiers Funktion One E15 2 channel power amplifier with PRC set to OdB 425W per channel into 8 ohms 750W per channel into 4 ohms 1400W per channel into 2 ohms Funktion One F40Q 4 channel power amplifier 600W per channel into 8 ohms 1000W per channel into 4 ohms www funktion one com Funktion One Research Limited 2011 23 9 2 Suitable power ranges Choosing an amplifier at the high end of the following ranges will avoid peak clipping See appendix A and the note below Recommended range 100W 400W into 80 200W 800W into 4Q or 400W 1600W into 20 Most amplifiers are rated into 8 ohms 1 x F81 and 4 ohms 2 x F81s in parallel Amplifiers with a genuine 2 ohm specification can power up to 4 x F81s in parallel but remember to use thicker cable when connecting multiple loudspeakers in parallel Loudspeaker power ratings and recommended amplifier power A loudspeaker s AES Audio Engineering Society power rating is the maximum power it can withstand for prolonged periods of time This is usually governed by the s
54. nectors Inputs DCBA MH006e0e0e0e0 6666 Phopsix toane i oO f B a f O i P Y Y il a jo o o f A a connectar Fig 9 4 8 4 channel 4 ohm patch using Funktion One XO4A controller and F40Q amp 4 x 2 way configuration shown F81s with Phoenix connectors Again note the connector blocks Limiter settings for 4 ohm operation XO series limiters control the maximum voltage applied across the loudspeaker terminals by limiting the signal voltage delivered to the power amplifier This means that as long as you have a good stiff mains supply you can use the same limiter voltage thresholds irrespective of 8 ohm or 4 ohm operation However if your mains supply voltage drops by more than 2 or 3 on load you may need to reduce the recommended long term limiter threshold levels by a dB or so to prevent the power amplifier from prematurely clipping See section 11 for further information on limiters settings www funktion one com Funktion One Research Limited 2011 30 10 Combining with bass systems Your F81 system may be combined with a variety of Funktion One bass systems for extra low frequency extension and headroom Suitable systems include but are certainly not restricted to the following Funktion One MB210 LP The MB210 LP Low Profile is one of Funktion One s most compact and low profile bass enclosures and ideal for restricted architectural spaces MB21
55. ng the flat washer and the horizontal locking nut supplied before make final swivel and tilt adjustments Swivel amp tilt Vertical Flat washer locking nut Horizontal Tilt ae locking nut Turn counter clockwise to tilt down clockwise to level up Fig 6 3 4 Horizontal swivel Fig 6 3 5 Vertical tilt Horizontal swivel Loosen the horizontal locking nut to swivel the main assembly to the required position Retighten the horizontal locking nut once you re happy with the position www funktion one com Funktion One Research Limited 2011 16 Vertical tilt Loosen the vertical locking nut to allow the loudspeaker plate to be tilted to the required position using the tilt screw Fig 6 3 5 on previous page If the loudspeaker is already attached to the speaker mounting plate this is much easier to do if you get a helper to lift the loudspeaker gently whilst you make the adjustment Retighten the vertical locking nut once you are happy with the vertical positioning Then give the tilt screw a final tweak just to make sure it s still tight Yoke kit 268mm 10 9 16 6mm dia for safety attachment 415mm 1 4 5 16 Fig 6 3 7 YF81 K1 yoke kit all dimensions in millimetres and feet amp inches The optional YF81 K1 yoke kit allows you to fly your F81 from a truss or 51mm barrel via a standard half coupler using the 10mm main fixing hole The yoke also has a 6mm safety wire attachment hole The F81 has
56. ngs Conclusion Neither calculated nor measured maximum spl figures are a reliable figure of merit or comparison as there are no hard and fast rules when it comes to assessing a loudspeaker s maximum sound pressure level Current methods are not transparent enough for potential purchasers to assess different products from a variety of manufacturers and make sensible comparisons Many years ago loudspeaker driver manufacturers embraced AES2 1984 to provide consistency between driver manufacturers power ratings The professional audio industry has enjoyed an improvement in driver quality and reliability since then because the competitive focus shifted perceptibly from smoke and mirror sales techniques to genuine technical improvement We now need a similar industry shift towards an agreed standard for testing and reporting complete loudspeaker system specifications These specifications should include distortion versus frequency and versus operating levels The current single figure maximum spl specification owes more to the alarm industry that to a serious professional sound industry www funktion one com Funktion One Research Limited 2011 61
57. ns a useful off axis spectral balance This has several advantages The system sounds good over a wide listening area Off axis spill is Fig 6 1 1 On axis vs horizontal 45 off axis response lobe free minimising room colouration Fig 6 1 2 On axis vs vertical 35 off axis response www funktion one com Funktion One Research Limited 2011 6 2 Placement Vertical aiming X Cep 1g ais Hae Mb PO PEANUT Fig 6 2 1 Poor NE aiming Avoid aiming your F81 straight over the audience s heads as this will increase room effects causing poor impact and intelligibility Even if the room has good acoustical properties your audience will enjoy far better sound quality if the system is aiming towards them Mounting your F81 systems 2 8 3 3m above the floor and aiming them towards head height about 2 3rds across the audience will provide smooth coverage without over exciting the room DEX Fig 6 2 2 Improved vertical aiming Audience members near the F81s will benefit from their smooth vertical mid high characteristics These listeners will still enjoy the F81s rich broadband sound but the subtle off axis roll off will compensate for proximity www funktion one com Funktion One Research Limited 2011 Multiple loudspeaker systems ian Multiple F81s may be used to concentrate coverage into a specific area This will provide audience members with a pleasant enveloping exper
58. p system settings This will ensure that internal driver offsets are already allowed for 1 Physically align the relevant F81 and bass systems so that they are as close together as is practical for good coverage and ensure that they are aimed in the same direction see below 2 Time align the systems where required using electronic delay to compensate for any physical offset with respect to the audience chest height see below Physical alignment Typical architectural layouts require the bass enclosures to be on the floor or under seating and call for the mid high enclosures to be flown just above head height If you re catering for a flat floor audience ideally mount your F81s so that the front of the enclosure is directly above the front of the bass enclosure at a height of 2 8m 3 3m Aim the F81s towards ear height about 2 3 of the distance down the audience area F81 loudspeaker dista Ra ARAE Set ni COMMA Bass enclosure 2 3 gt Fig 10 1 1 If possible mount your main F81 loudspeakers so that the front of the enclosure is directly above the front of the bass enclosure www funktion one com Funktion One Research Limited 2011 35 Time alignment Where exact physical alignment isn t possible it is best to employ the electronic delay facility built into a good electronic crossover system A Funktion One XO series loudspeaker management system may be used to delay the nearest element back to the furth
59. packaging until the installation site is clean secure and ready to accept them Try to avoid placing F81 systems face down Although fitted with tough powder coated steel grilles these grilles are optimised for unimpeded sound transmission and may suffer dents and scratches from heavy handling 4 Introduction The F81 compact loudspeaker system brings Funktion One s unique sound quality and design purity to a wider clientele The system provides the kind of clarity vocal intelligibility imaging detail and bass definition not normally associated with a compact enclosure The system s 8 and 1 drivers are optimised to Funktion One specifications The drivers are integrated with a carefully aligned crossover and a precisely tuned enclosure to produce a system that may be used without processor or system equalisation to maximise fidelity impact and reliability The F81 system incorporates out of band low frequency protection Funktion One offers an excellent range of compatible bass enclosures for applications where additional bass extension is required 4 1 Features e Compact enclosure with high output e Wide dispersion e 8 and 1 drivers optimised to Funktion One specification e Excellent sensitivity e Choice of Speakon or Installation connectors e M6 mounting and attachment points e Curved powder coated mild steel grille www funktion one com Funktion One Research Limited 2011 4 2 Specifications Driver com
60. pective of what the peak LED or peak hold indicator is telling you Q amp A Q Surely 18dB below clipping 18dBFS won t drive my loudspeaker system hard enough A Remember that 18dB below clipping represents about 4dBu OVU output level on most pro audio consoles Effects eq mixing and natural performance dynamics will require the 18dB of headroom through your channel effects and subgroup sections Lower cost digital console calibration and limited converter quality may push you towards an operating level only 12 to 9dB 12 to 9dBFS below clipping as mentioned earlier 9dBFS is an old DIN standard but it s the exception rather than the rule particularly with modern 24 bit systems Once you ve done all this without crashing the mix you can then use the master faders to push the required level to your main system amplifier racks where your controller limiters will take care of the odd rogue peak Standard EBU alignment level for digital audio is also 18dB below full scale maximum digital level usually written as 18dBFS so sticking to the 18dB rule will also make you compatible with broadcasters when working at festivals and VIP DJ events Professional live sound analogue meters calibrated with respect to 4dBu Most pro audio analogue equipment can handle internal and output signal levels of approximately 10vrms before clipping 10vrms is approximately 22dBu so 18dB below that clip levels is approximately 4dBu Tra
61. plement 8 cone driver 1 compression driver Frequency response 95Hz 19kHz Dispersion 90 x 70 Sensitivity 98dB spl for 1W at 1m AES power 100W av Maximum calculated spl 118dB spl rms 124dB spl peak See Appendix C Max long term rms voltage 28 2rms Maximum peak voltage 56 4vpk Recommended amp power 200 400W into 80hms 400 800W into 4ohms with suitable limiters Nominal impedance 8 ohms Connectors 2 x NL4 Speakon or Phoenix installation connector Fittings 2 x M6 yoke mounting bushes one per side Weight 2 x M6 wall bracket bushes on rear 5 2kg 11 5lb Dimensions www funktion one com 250mm 9 13 16 R300mm R11 13 16 Te 221mm 8 11 16 58mm M6 M6 i Thread 2 5 16 Tiwead x 353mm 13 7 8 a 120mm 4 11 16 Fig 4 2 1 all dimensions in millimetres and feet amp inches Funktion One Research Limited 2011 5 Safety first Funktion One wants you to continue to enjoy the world of music Please take time to review the following safety advice for your own wellbeing and for the wellbeing of those around you 5 1 Mechanical safety Qualified and experienced installers Ensure that rigging and installation work is completed by fully qualified and experienced installation personnel Your F81 loudspeaker system comes complete with an M6 bush on each side for yoke mounting and two M6 bushes on the rear of the enclosure for bracket mounting
62. pproximately 12dB below clip If your outboard gear only has signal present and clip input level indicators adjust the FF 4000 s rear panel SEND TRIM FX LOOP 1 control until the effect unit clip indicator just flashes and then back off the send trim control by about 90 if analogue or by about 30 if digital FX 1 d If your outboard gear has separate output controls set these for an indication of approximately 12dB below clip Again if your outboard gear only has signal present and clip output level indicators adjust its output gain until the clip indicator just flashes and then back off the control by about 90 if analogue or by about 30 if digital e Set the FF 4000 s X Fade A Bal Pan control to L f Adjust your front panel FX1 Trim effects return level control using the Cue meter via the X Fade A CUE button Make sure the CUE BAL control is set fully counter clockwise to CUE Finely adjust for Cue meter levels around 0 or 1dB g Set the X Fade A Fx Mix control to Wet h Now turn the MASTER LEVEL control all the way down fully counter clockwise and unmute your power amplifiers i Slowly increase the MASTER LEVEL and listen to the inserted effect If the outboard gear is too noisy or has poor quality converters you may have to compromise on headroom by increasing the outboard equipment s input gain by a few dB and decreasing its output gain by the same amount A little experimentation may be re
63. quired If the outboard gear is starting to sound distorted at your likely maximum effect you may need to reduce its input and or output gain slightly Again a little experimentation may be required j If necessary finely adjust the FF 4000 s FX1 Trim effects return level to balance the Fx Mix Direct vs Wet levels whilst swapping the FX Mix control between Dry and Wet www funktion one com Funktion One Research Limited 2011 55 Appendix C Maximum spl ad e Dp e e A note about maximum spl specifications Funktion One publishes a calculated maximum spl figure for guidance only Potential purchasers should be aware however that neither calculated nor measured maximum spl figures are a reliable figure of merit or comparison as there are no hard and fast rules when it comes to assessing maximum sound pressure level Manufacturers tend to pick n mix the parameters that make their product look best Some calculate maximum spl but ignore factors that might detract from that all important magic number Others measure responses but choose to ignore vital musical parameters such as power bandwidth and distortion Some only quote peak spl using ridiculously short test durations that bear little relationship to musical performance criteria And don t be fooled into thinking that manufacturers with impressive educational programmes publish more relevant figures Sadly the small print would suggest
64. r shall state the upper and lower cut off frequencies 3dB of the noise signal Most loudspeaker system manufacturers simply say band limited pink noise without quoting upper and lower cut off frequencies so it s impossible to know if low frequency excursion is going to be a limiting factor in practice AES2 1984 r2003 also recommends that the test noise has a 2 1 peak to rms voltage ratio i e a 4 1 peak to average power ratio This leads some manufacturers to quote peak power ratings of four times the long term AES rating This is quite permissible as long as the peak power figure is only used to supplement the normal AES power rating and of course the peak power rating doesn t cause over excursion at very low frequencies Again some indication of upper and lower frequency cut offs would be helpful Some manufacturers also add a nominal 6dB spl to their calculated maximum spl figure to allow for half space or 27 hemispherical floor or wall loading This can make sense at low frequencies where small loudspeakers exhibit omnidirectional pressure characteristics It also makes sense for subwoofers whose response extends low enough for the listener to be regarded as existing in half space It doesn t make sense however for directional horn sections whose coverage doesn t wrap round to the boundary Again an indication of bandwidth would help here To summarise calculated maximum spl problems The quoted
65. rn control on your console for PFLs around 4dBu OVU analogue or 18dBFS digital 3 Listen to the required effect on headphones first and then on the PA If the outboard gear is too noisy or has poor quality converters you may have to compromise on headroom by increasing the insert send level by a few dB and decreasing the insert return level by the same amount If the outboard gear is starting to sound distorted at your likely maximum effect you may need to bring its internal signal level down by reducing your console insert send level and increasing the insert return sensitivity by the same amount DJ equipment standards Funktion One FF 4000 and FF 6000 Dual Format DJ Mixer levels Funktion One FF 4000 and FF 6000 Dual Format DJ Mixers have full a pro audio output capability of up to 22dBu This gives maximum headroom and dynamic range Due to the more compressed nature of most DJ tracks and the pro audio headroom of Funktion One DJ mixers pre fade cue signal levels may be kept quite high as long as they stay within the green section of the Cue meter most of the time The excellent output capabilities of the FF 4000 and FF 6000 mixers allows them to be used with a very wide range of controller amplifier combinations 10dBV 2 0V DJ and MI music industry equipment levels A lot of DJ and music industry products run at a nominal operating level of 10dBV dBV note the upper case V refers to so many dB with respect to 1vrms
66. rs are an industry standard Additional connectors are available through a variety of distributors worldwide Phoenix chassis socket fitted to loudspeaker Phoenix cable plug supplied for user Fig 7 1 1 Phoenix PC4 pin out Looking towards rear of loudspeaker 7 2 Speakon connector option The Speakon NL4 option is intended for quick deployment applications The two NL4s are internally connected One is used for the input The other is used as an output for additional parallel connected F81s Note that the F81 uses only two of the four available NL4 pins Suitable cable connectors include the industry standard Speakon NL4FC and the Speakon NL2FC compatible with NL4 chassis connectors for 2 pin use S 101 rear panel connector Original image courtesy Neutrik Fig 7 2 1 Your F81 s rear NL4 connectors will accept either NL2 or NL4 connector types www funktion one com Funktion One Research Limited 2011 19 The following illustrations show the cable connector pin views looking towards the rear of the loudspeaker as they would be seen if the cable plugs were plugged into the F81 with their covers removed Fig 7 2 2 NL2FC cable grab open Fig 7 2 3 NL4FC pin out Original image courtesy Neutrik Use 1 for F81 ve 1 for F81 ve For further information on the Speakon connector series see the Speakon System assembly instruction pdf available from www neutrik com 7 3 Loudspeaker polarity Lo
67. run well above the analogue noise floor and stay clear of the digital mush www funktion one com Funktion One Research Limited 2011 47 So what is just right It all depends on the type of audio material and your application Live sound mixing If you re going to be mixing audio from a variety of live musical instruments or you re going to be creating some broadband effects over a wide dynamic range you ll need to allow plenty of operating headroom to avoid analogue clipping or worse still running out of digits DJ mixing with pre recorded material If you were only ever going to work with pre recorded auto levelled material you ll probably get away with just enough headroom to mix tracks and add the odd effect but read the whole section anyway you may find it instructive Live sound operating levels It is important to retain enough headroom to maintain good transient response details and impact for live sound mixing not only to allow for backline systems being turned up to 11 mid set and for high peak to rms percussion transients but also to allow for the natural signal level build up through the console once you start tweaking eqs adding effects and sub grouping multiple channels Assuming a professional quality analogue or 24 bit digital console run each channel s pre fader or level and each group s mix level at around OdBU 4dBu analogue or 18dBFS digital if at all possible Modern 24 bi
68. s such as those provided by the Funktion One XO4 or XO4A provide additional protection from short term peaks and prevent amplifier clipping Clip limiter threshold voltages are usually set a few dB above the relevant long term limiter threshold and help maintain audio quality at high drive level Limiter settings for different system impedances As mentioned in the Section 9 4 XO series limiters control the maximum voltage applied via the power amplifier across the loudspeaker terminals This means that as long as you have a good stiff mains supply you can use the same limiter voltage thresholds irrespective of 8 4 or 2 ohm operation However if your mains supply voltage drops by more than 2 or 3 on load you may need to reduce the recommended long term limiter threshold levels by a dB or so to prevent the power amplifier from prematurely clipping with the increased mains current demand when driving a 4 or 2 ohm load 11 1 XO series limiters with 32dB amplifiers Controller inputs Max o p limit set Funktion One XO series loudspeaker management system Known max o p Funktion One 32dB power amplifier Fig 11 1 1 If you re using power amplifiers such as the Funktion One E15 PRC set to OdB gain set to 32dB or the Funktion One F40Q pre set to 32dB set your loudspeaker management system output limiters as follows www funktion one com Funktion One Research Limited 2011 40 Loudspeaker XO series main
69. s not always as predicted because the real world acoustical environment is so complex Calculations if not absolutely correct are usually pretty close though To confirm that the above adjustments have been effective the system can be rechecked using a variety of known well recorded tracks from different genres If necessary try varying the timing slightly until the most satisfying result are heard and felt This method can also help to affirm that the above methods have been applied correctly Important note on bass enclosure placement Most bass enclosures are fairly omnidirectional because of their small size relative to bass wavelengths They therefore tend to be affected by a nearby wall and care has to be taken to ensure that direct and reflected bass do not destructively interfere with each other Wherever possible position bass enclosures hard against a wall so that the time difference between direct and reflected sound is minimised The further the bass enclosure is placed from the wall the more the reflected sound will be out of time with the direct sound This can cause cancellation reduction in level due to the phase difference www funktion one com Funktion One Research Limited 2011 37 However if the bass enclosure is positioned at an increment of half a wavelength from the wall the reflected and direct sound can combine once again maximising the energy despite the phase lag The most dangerous position for destr
70. signal Extra energy when signal clipped sms Extra energy of a clipped signal In extreme cases the waveform is so heavily clipped that it can resemble a square wave This increases the rms voltage delivered to the loudspeaker to v2 approx 1 4142 times what would be expected The power delivered to the loudspeaker is dependent on the rms voltage V2 x V2 2 so the power delivered to your loudspeakers is doubled Extra energy can double power to loudspeaker when severe clipping occurs Note that in all cases the two waveforms have similar peak voltage levels so this extra energy doesn t always show up on digital audio systems where meters are usually calibrated with respect to maximum digital level full scale This is usually written as dBFS Digital level meters don t usually take the shape of the waveform and its potential voice coil heating effect into account hence the warning at the beginning of this Appendix To avoid overheating loudspeaker voice coils particularly HF voice coils in passive loudspeaker systems try not to clip signals repeatedly or for long periods Clipping and its effect on frequency content All waveforms are made up of combinations of fundamental frequencies main tones and harmonics multiples of the fundamental frequencies also known as overtones in a variety of amplitude and phase relationships Spectrum analysers can be used to show this In the screen shot below an uncl
71. t also ensuring that your microphones give a positive going output voltage for a positive going pressure that there are no polarity reversals anywhere in the signal path and that your loudspeaker systems provide a positive pressure in response to that positive going signal Professional sound engineers who are used to working with wide bandwidth phase coherent systems with real bodily impact should recognise the importance of maintaining absolute polarity from stage microphones to PA and of course to stage monitors where a close coupled polarity reversal could make things sound thin coloured and lifeless Many natural sound sources especially percussion and vocals produce asymmetrical waveforms It makes sense to ensure that a positive going percussive impact creates a positive going pressure for the audience to maintain that all important bodily impact Some recording engineers are also adamant that vocals overlay the band more clearly if absolute polarity is maintained Common sense then suggests that as long as we re using polarity matched microphones and well documented signal paths why not maintain absolute polarity if only for consistency 8 Loudspeaker cables 8 1 Recommended cable types and lengths F81 loudspeaker systems do not require particularly exotic cables Standard pro audio copper core loudspeaker cables are usually oxygen free and perfectly suitable for this application Good examples are Van Damme Bla
72. t systems with good studio quality converters usually work well at 18dBFS but some MI products may use lower grade converters which will need to be run at higher operating levels to avoid sounding mushy If you suspect this is the case with your system you ll need to run the PFL or group levels around the 12 to 9dBFS level and keep an eagle eye open for signal clipping during the live performance Understanding level meters This section spends a lot of time discussing meters because without an understanding of their typical calibration levels it s difficult to get your gain structure and operating levels properly optimised Professional live sound meters calibrated with respect to Full Scale dBFS Too low 28dBFS Too high 3dBFS Just right 18dBFS Peak hold option Wasting dynamic range Peaks could be clipped Noise free without clipping May not be true peak www funktion one com Funktion One Research Limited 2011 48 The illustrations above show levels on a typical bar meter with a dedicated peak LED at the top Some analogue peak LEDs don t respond to very fast transients and some digital ones don t respond until the processor has seen several maximum bits in a row Peak hold indicators often hold maximum rms not true waveform peaks so they are not always a good indicator of potential clipping If for live sound your bar meter is way above the 18dB mark you re probably clipping peaks and transients irres
73. tions mention distortion measurements being made at 10 of www funktion one com Funktion One Research Limited 2011 57 the AES power rating This is perfectly reasonable for highly efficient loudspeakers such as Funktion One systems as most musical levels will be sitting well below the loudspeaker s AES rating But inefficient power hungry systems are likely to be running much closer to their AES ratings producing unacceptable levels of distortion and mush Current measurements of peak displacement limit maximum driver excursion Xmax to 10 deviation from linear displacement but manufacturers can get around this by choosing their test bandwidths carefully The recommendations allow manufacturers to choose between quoting input current distortion or percentage deviation of displacement The two types of distortion are not the same and don t necessarily increase linearly with excursion so manufacturers could simply choose whichever result looks better in the calculations Unfortunately distortion is rarely quoted so all this work could be wasted anyway There is now a proposal to measure Xmax at 10 total harmonic pressure distortion or at 10 2nd or 3rd order modulation distortion using a two tone signal where the upper frequency component is 8 5 x the frequency and at a 12dB lower level than the lower frequency component AES2 1984 r2003 recommends that the test signal is band limited pink noise and states that The manufacture
74. uctive interference is close to but not against a wall or boundary Reinforcement and cancellation are dependent on the specific frequency and dimensions Wavelength wavelength 160Hz 1 075m For instance an enclosure 1m from a wall will have an extra distance of 1m there and 1m back 86Hz has a wavelength of 4m so the 2m round trip will cause a wavelength delay wavelength delay will cause the reflected wave at 86Hz to have a 180 phase lag This will cause maximum cancellation when it combines with direct wave at the front of the enclosure For a more in depth understanding of this please see the Funktion One handbook Boundary effects and how they cause low frequency phase shifts Smaller loudspeaker systems are less directional than larger ones at low frequencies and are therefore more affected by a nearby floor wall or ceiling These local boundaries can affect the low frequency phase response of F81 and bass systems differently leading to phase misalignment through the F81 to bass crossover region The effect can be compensated for using a Funktion One XO series loudspeaker management system e F81 direct ni y r AVIN Di aA Tet i pP D A Mee Cis By ROR N yh EAR Y ie A ithe anal Fig 10 1 3 M Mil N plus a wa rear i Ne blue In reality of course multiple boundary effects will occur for both F81 and bass enclosures F
75. udspeaker cones and diaphragms create sound by moving in and out to modulate air pressure It is important that all loudspeakers in a sound system move in the same direction when driven in unison In other words they should all have the same polarity Same polarity in phase Left amp Right are same polarity PX FF SD in phase Left and Right are same polarity at listening position Good summation Fig 7 3 1 Loudspeakers with the same polarity will give Good bass extension Good bass impact Good between the speakers stereo imaging with a smooth central transition Solid centre panned vocal imaging www funktion one com Funktion One Research Limited 2011 20 Opposite polarity out of phase Left amp Right are opposite s polarity out of phase CXXXXX Left and Right are opposite Cancellation polarity at listening position Fig 7 3 2 Loudspeakers with opposing polarities will give Poor bass extension No bass impact Poor between the speakers imaging Just hard left or hard right distant effects No solid central vocal image Centre panned vocals will sound indistinct or thin and again the distant effect will be evident It is usually fairly easy to ensure that your loudspeakers are wired to the same polarity if all your loudspeakers are being driven via identical signal paths and equipment Simply check that the same loudspeaker cable core colours are
76. und 4dBu OVU analogue 18dBFS digital or the top green indicator DJ You may need to trim input gains if the input levels change dramatically during the set Remember that musicians tend to play louder with an excitable audience in place so allow at least 6dB of spare gain control If your signals are too hot even with the gain control below the 9 o clock position use a less sensitive input perhaps line instead of mic or the console pad switch If your mic signals are too weak even with the gain control above the 3 o clock position recheck your patch and make sure any input pad or insert points are switched out It s also worth checking your mic specifications in case the mic needs phantom power Once you have a healthy PFL level adjust the relevant subgroup or fader for AFL after fade listen levels around 4dBu OVU analogue or 18dBFS digital with the channel routed and faded up to the nominal OdB fader mark Note that for professional analogue consoles this assumes that the nominal OdB fader mark is 10dB below full fader level and that there is gain make up between the sub group fader output and the AFL point Non professional consoles may not have this gain make up so you may need to run at lower AFL levels around 6dBu to maintain pre subgroup fader headroom Channel faders will eventually be set to the levels required for artistic balance Large numbers of channels routed to the same subgroup or output will raise ov
77. wired to the same or pins at the amplifier end and at the loudspeaker connector end If you cannot be certain that your signal paths are identical you may be using a mix of old and new equipment or equipment from different manufacturers for instance it makes sense to check out the system using a polarity checker A good polarity checker such as the Funktion One ASPC1 will allow you to check not only your amplifier loudspeaker combinations but and this is important the entire signal path including mixers and crossover connections Introducing the Funktion One Audio Systems Polarity Checker ASPC1 Pulse generator XLR pulse generator output TIO LED pulse indicator POLARITY CHECKER ia mT File gi Detector Built in microphone LED polarity indicators FUNKTION O POLARITY CHECKER General i g o Belt pouch included z Batteries included User Instruction Card The ASPC1 is a two part system comprising a pulse generator and a detector The pulse generator allows you to inject a special test signal anywhere in the signal path whilst the detector microphone lets you check the resulting loudspeaker polarity acoustically See the ASPC1 user guide for more information www funktion one com Funktion One Research Limited 2011 21 Absolute polarity and live sound Maintaining absolute polarity through a sound system not only means making sure all your loudspeakers are in phase bu
78. ystem s ability to dissipate heat without damage Many transients however don t last long enough to allow significant heat build up so most loudspeaker systems can handle short term peaks up to 6dB higher than their AES power rating without damage You can get the best of both worlds by choosing an amplifier powerful enough to reproduce the short term transients and using a Funktion One XO series loudspeaker management system to provide long term limiting For further information on Funktion One XO series loudspeaker management systems go to www funktion one com and click through gt Products gt Electronic Products then gt XO2 Audio Management System for a 2 in 6 out loudspeaker management system Or gt X04 Audio Management System for a 4 in 8 out loudspeaker management system Then click through Downloads gt Other and download 4 series manual pdf For limiter recommendations see section 11 Using a bigger amplifier to provide full peak power whilst restricting long term power with limiters also avoids long term clipping Caution Heavily clipped signals can subject your loudspeakers and cables to double their rated amplifier power In extreme cases this could pose a fire hazard For more information about clipping see appendix A www funktion one com Funktion One Research Limited 2011 24 9 3 Simple system patches with external control F81s may be used without loudspeaker management systems i
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