Compex F760X-RS - Floating Point Audio
Contents
1. 110001 390002 1 123 WIT Na nN 3510 927299 810 AOOT 3495 210 ou 31 10 34001 MST 82 828128 219 340005 1 Ab 4 0 awy 1 29 823 589 184 828128 821228 AOS 39 48 60 49 hO OEE OMOEE 814 1 ASZ 340022 y MSI 013 112 U Ahe 88 037 98 5 51094 ed 34001 d I A10d 9 472170 22 12 Ta 32245 8002 813 71 07 Aaa 99 211 20 4 0 62 lt 2d 5 d I 63 9 5 313 E19 2 12 12 OWT EEN 828128 ae 870 0 Ta 9 340 40272 AS ANGT ae 12 134 hEN 919 813 037 01 aseajay 35 62 Ah22. RS F 60X Com By 82 Compex F 60X RS AUDIO amp DESIGN READING LTD b with Q2 Audio LLC Communication Bulletin No 103 14th J 13 AU lune 74 Initial Unpacking and Set u After carefully removing your Compex from it s shipping box save the packaging for a few days to be sure you do not need to return the unit for any reason If necessary please return it using the original box and packing materials Before applying mains power check that the power transformer is properly configured for your mains voltage by checking the small window visible on the fuse drawer of the IEC mains connector When the drawer is removed use a straight bladed screw driver a small PCB can be seen which will slide out and it can be flipped over to select the proper mains voltage for your area There are two settings one marked 110V which is for operation at 110V to 120V and one marked 240V which is for operation at 220V to 240V Fuse ratings for specific mains voltages are screened on the back of the Compex If there any questions please contact Q2 Audio directly via the contact info at www q2audio com There no user serviceable parts inside the Compex please contact your dealer or Q2 Audio for servicing Unauthorized third party ser vicing will void the warranty Audio XLR wiring The audio is connected via standard 3 pin XLR Inputs and outputs are unbalance
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4. release times on low frequency distortion With very fast release the low frequency wave forms are being flattened this is naturally most noticeable under conditions of considerable gain reduction coupled with a tight slope and fast attack time In practice it is Surprising what one can get away with in pop applications where these sort of extreme conditions can be useful With serious programme material slower times will be used The automatic programme controlled release position A produces for a fast release over a range of 5dB whereupon it becomes long Thus short duration gain change is limited to a small amount obviating most of the problems described It can be adjusted to operate as a mean level control such that the quieter sections are subtly lifted Considerable overall compression can be effected without being apparent and is ideal for background music ore reducing dynamics for mediums of very limited dynamic range e g AM transmissions and optical track ATTACK TIME will determine the size of the transients allowed to pass through the compressor section to be handled by the Peak Limit section a F760 In a limiter this shojld be very fast in order to control high frequency spikes and prevent overloading Some mediums are more critical than others on tape it may be preferable to let the fastest through to satu rate and be clipped in the tape itself with optical systems and transmitters it is usually
5. care should be taken to have the release on a long setting or at least to note the effect of the release at low frequencies This is covered in the set up procedure which follows Generally when measured under conditions as described THD is approx 0 2 or slightly less In recent years 2011 onward it has been difficult to source FET s which will adjust much below 0 25 although some have We are not concerned about this as it is mostly pleasing second harmonic distortion and is really more of what you want a Compex for AUDIO amp DESIGN READING LTD 8 Q2 Audio LLC Check out Procedure F760X Series 1 Before switching on unit check that the mechanical zero of the meters is correct adjust as necessary Allow the unit at least 30 minutes to warm up an hour is better The FET s are affected by heat and they should be allowed to attain the normal operating temperature of the unit before continuing 2 Switch on the unit Input amp Output attenuators fully open CW Expander section switched out Stereo Link out Peak Limit OFF Compressor section to 1 1 Ratio Compressor attack to F 25 System to In 3 Connect signal generator to input s at a level of 34 at 1Khz 4 Monitor C6 and C7 on the A PCB with a two channel oscilloscope set to add the channels together Tempo rarily set ratio to 2 1 Adjust Rec Bal for minimum level on the scope readjusting scope V div as neces
6. essential to keep overshoot to the absolute minimum In a compressor or limiter the slowing down of the attack time has the effect dynamically speaking of reducing the static ratio increasingly overshooting Listening to 15dB compression on a 20 1 slope with a fast attack time the tightness will be quite apparent in the sound and this can be softened by reducing the attack time COMPRESSION amp NOISE From the point of view of minimal noise it is preferable for the compression to be effected on direct microphone signal since the signal to noise ratio is better at this stage this is true if recording to tape less so if recording to modern professional digital audio mediums It will be appreciated that 15dB compression will increase the source noise by 15dBwhen the compressor fully recovers off tape this would be more noticeable The use of the Expander or Gate section where fitted will obviate this when correctly set up MODULATION If more than about 6dB of compression is used is desirable to treat individual instruments or groups of instruments separately in order to avoid modulation effects when a dominant instrument or sound modulates the rest of the signal It is impossible to limit satisfactorily low frequency instruments on a final balance Try limiting the low frequency section of an organ recording or well modulated tympani in an orchestral recording the effect on the remaining signal and particularly the change in ambience is
7. indicator will be flashing d Open the Output attenuator and adjust so that the level is peaking to the same level as the direct signal This is best done under dynamic signal conditions rather than on tone if monitoring with VU meters see LIMITING amp COMPRES SION Considerations A relevant direct comparison is now available between direct and compressed signal at the flick of the In Out switch at closely approximating peak levels e With the compressor Ratio control select the Slope required e g 2 1 and adjust the Compressor Threshold control until the Peak Limit only indicates on peaks above the amount of compression required i e move the threshold down from 0 towards the 20 point until the Limit light goes out then come back one position The limit section will then oper ate on any further unexpected increase in level The amount of compression may be changed by increasing decreasing the Input pot and adjusting the Compressr Threshold adjust the realtionship between compression and peak limiting Once set up it will not be necessary to alter the Output level as per step d f The Release time in the compressor section will be adjusted for effect and the Attack time Note when long Attack time is selected more peak limiting will occur g In adjusting the compressor section always reference it to the Peak Limiter even if the Pk Limit is then switched out during operation This maintains the optimum signal no
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9. ator switching circuit RED The C section has the Expander Gate Side chain with associated Indicator switching circuit GREEN With the FET Bias pre set correctly adjusted and with the Input Output attenuators fully open the overall gain of the sys tem will be 34dB transformerless variloss amp 4dB Line drive amp this 4dB is lost in a pad when in the direct signal bypass mode to maintain unit gain Normal maintenance would consist of checking system gain and making and necessary adjustment to the FET Bias mea suring frequency response checking distortion and stereo matching System Gain In checking the gain ensure that attenuators are fully open and that gain reduction is taking place i e switch the Compressor to 1 1 Peak Limit and Expander switches to Out Insert signal level of 34dBm and the output should read OdBm Slight drift may be experienced due to temperature changes but this will not affect the dynamic charac teristics until the gain rises to 37dB Therefore a normal tolerance of 2dB would be acceptable On stereo units if there is a difference it should be the same difference of course Measuring Frequency Response Care should be taken to ensure no gain reduction is taking place for the effect will be to flatten out any error and conceal it 2OHZ 0 5dB 20 2 1 0dB 0 25dB relative to midband 1kHz Distortion This is normally checked at 1kHz if measured at low frequencies
10. ck off the main input at tenuator until Pk Limiting it only just operating Switch the Expand Gate switch to Expand and the Expand Attack to M With the Expander Threshold fully anti clock wise shut i e infinitely high adjust the Expander Range control so that the maximum amount of low level attenuation is set up on the meter i e 20dB and the green indicator will be on Now open the Threshold control until the meter and light indicate no gain reduction when signal is present but with fast expander Release attenuates quickly on unwanted noise crosstalk Thus the threshold is adjusted so that it is just open to allow all wanted signal through but is closing rapidly during pauses If it is operating on noise and crosstalk there will be no modulation effect and fastest release attenuate time can be sued see Expander Gate Considerations The open speed will be determined by the Attack control switch m Should the maximum attenuation range not be reached during pauses this will be because the expander is being held open to some degree on input noise see Expander Gate Considerations One must either accept the limited range possible or turn back the threshold pot slightly so some of the wanted signal may now begin to be expanded release and attack may need adjustment to avoid modulation effects The alternative is to use the GATE position n Having established the Expander mode satisfactorily switch it o
11. d on the three pin header on the front panel PCB The jumper that was removed from the front PCB needs to be installed on the main PCB in place of the insert wiring that was removed install between go and return so those two points are shorted together without the jumper the compression will not work Further information available www q2audio com F760X Series Limiter Compressor Expander Operation Procedure Quick Start Establishing the unit in the channel Verify proper mains voltage setting before applying power a Check Expander section switched out Compressor Ratio switched to 1 1 i e non operative the Peak Limit switched In and the output attenuator turned down in a stereo unit the individual channel potentiometers would be fully open on each channel with control effected on the ganged device would be adjusted as required b With the channel by pass switch to out i e by passing the F760 Compressor amp section the channel levels should be established in the usual way as though the F760 were not in circuit The channel level should be peaking to at least 10dBm but preferably to OdBm in order to obtain maximum compression possibilities c Having established the normal level switch the F760 In and adjust the Input pot until the overall amount of gain reduc tion likely to be required is indicating on the meter e g 10dB At this stage the Peak Limit section is working and red
12. d unless ordered with the transformer option The pinout is as follows Pin 1 Chassis Pin 2 Audio Pin 3 OV Audio If problems such as hum etc are encountered there are a couple of possible routes to eliminating this 1 lift shield at Pin 1 of input audio wiring This is easiest to accomplish in the XLR connector on the end of your wiring If that does not fix the problem lifting pin 3 at the input may be the next choice This same sequence can be followed on the output XLR Interfacing unbalanced equipment can be a challenge in certain instances Side Chain Insert TRS wiring Both the compression and expander gate side chains can be accessed via the TRS on the rear panel factory default is compression The TRS jack is of the switching type so it can be permanently wired to a patchbay although it is possible that this could lead to noise pickup in electrically noisy environments The pinout of the TRS jack is as follows Tip Return Ring Send Sleeve OV shield you wish to use switch the side chain access TRS jack to allow access to the expander gate for ducking or similar ef fects REMOVE ISOLATE FROM MAINS POWER FIRST Once mains power is removed removing the top cover and move the insert wire from the main PCB to the front panel PCB On the front panel PCB you will find a three pin header with a shorting jumper on it The jumper needs to be removed and the insert wiring needs to be moved from the main PCB and installe
13. en long Attack time is selected more peak limiting will occur g In adjusting the compressor section always reference it to the Peak Limiter even if the Pk Limit is then switched out during operation This maintains the optimum signal noise level in the system When using the tighter slopes in the com pressor the Threshold will lie just under the Pk Limit in position 2 to 8 20 1 to 3 1 ratios h The Compression Slopes are calculated on a 15dB range of gain reduction i e the 2 1 ratio is established in the set up procedure as 30 15 It will be found in practice that the initial slope in that position is more akin to 1 1 5 becoming slightly tighter as gain reduction increases Thus if only 6dB of compression were required this will be softer than the ratio indicated and the next position higher could be selected In practice this will not be found of great importance but it is use ful to know of The Expander Gate Section Expand Mode i in the Expand mode the low level gain reduction slope is of the order of 2 1 The control is feed forward so that the expander side chain is arranged to monitor the input signal prior to the F760 input attenuators The meter will indicate gain reduction when it operates and at the same time the green indicator will flash to differentiate it from high level gain reduc tion limiting compression j To set up the Expander mode it is probably best to switch the compressor section to 1 1 and ba
14. evice attenuates along its particular slope towards the maximum attenuation pre set by the RANGE control When using fast release as will be normal any tendency to hunting can be reduced by slightly slowing the attack rate ranter than slowing the release time When using M or S attack positions it will be found particularly in the case of the S position that the release speed possible becomes limited to slightly longer times since there will be the phenomena of release beating attack so that the Expander Gate never fully opens and the green indicator will remain on In the M position this will only apply to the fast est position in the S position a medium or longer release time will only be possible F760X Series Maintenance Printed Circuit Boards An F760 re issue channel consists of two PCB s a main PCB with the original A and sec tions and a front PCB containing the user controls and attack release resistors etc The power supply PCB is separate and mounted to the chassis wall The power supply creates two 24V DC outputs one for audio and one for powering relays and LED s On the Main PCB the A section comprises the Compressor Side chain Control Voltage Mixing from all side chains Inverting Amplifier and FET Bias control The B section consists of the variloss FET controlled amplifier 30dB gain the Line Amplifier 4dB gain and the Peak Limit Side chain and indic
15. ise level in the system When using the tighter slopes in the com pressor the Threshold will lie just under the Pk Limit in position 2 to 8 20 1 to 3 1 ratios h The Compression Slopes are calculated on a 15dB range of gain reduction i e the 2 1 ratio is established in the set up procedure as 30 15 It will be found in practice that the initial slope in that position is more akin to 1 1 5 becoming slightly tigher as gain reduction increases Thus if only 6dB of compression were required this will be softer than the ratio indicated and the next position higher could be selected In practice this will not be found of great importance but it is use ful to know of Further information available www q2audio com OPERATION PROCEDURE Establishing the unit in the channel a Check Expander section switched out Compressor Ratio switched to 1 1 i e non operative the Peak Limit switched In and the output attenuator turned down in a stereo unit the individual channel potentiometers would be fully open on each channel with control effected on the ganged device would be adjusted as required b With the channel by pass switch to out i e by passing the F760 Compressor amp section the channel levels should be established in the usual way as though the F760 were not in circuit The channel level should be peaking to at least 10dBm but preferably to OdBm in order to obtain maximum compression possibilities c Having e
16. most apparent By separately compressing groups of similar instruments consider able compression may be effected on direct signal without difficulty The F760X RS re issue has been fitted with a compression side chain insert to allow an EQ to be inserted at the input to the side chain use would be to reduce the low frequencies reaching the side chain to greatly reduce modula tion due to low frequency content EXPANDER GATE Considerations The diagram of slopes attached indicates the difference between Expansion and Gate action The Gate will attenuate its full range for a very small change in input level at the threshold point whilst the 2 1 expansion slope needs a greater input change to effect a comparable amount of low level attenuation The Expander section with its 2 1 slope needs a change of 10dBat the input below threshold to obtain a 20dB attenua tion range The Gate section is 20 1 and theoretically needs only a change of 1dB below threshold for full 20dB attenua tion The most common use for both systems is that of eliminating unwanted noise during pauses in programme signal used in the manner the threshold will normally be set just under the wanted signal level The Expansion slope being softer is less critical to set up and easier to use provided the signal to noise level is reason able in the first place If one is to avoid actually expanding some of the low level signal the noise must lie 10dB below the wa
17. nted signal at least in order to get a further 10dB improvement If it s only 5dB below the expander can only improve it by a further 5dB where it is then held open by the noise itself In that case the threshold can be lifted so that part of the lower level signal is being expanded but there is then the danger of modulation effects and hunting unless slower release attenuate rate times are used This does rather defeat the idea of getting rid of the noise fast before the ear can detect it it does have its uses however where the noise is so poor that it actually merges with the wanted signal In such a case as with an older orchestral recording the attenuation range can be reduced to about 8dB maximum to avoid great noise contrasts and with slower attack and release parameters the lower part of the signal can be expanded The Gate is effectively an audio switch with an attenuation rate controlled by the release time it will effect the full range of low level attenuation for a small change of level on the input In the circumstances already outlined it can be invaluable and more effective than the expander The liability is that it is more critical to set Where one has reasonable signal to noise ratio the expander is the easiest system to work with but there will be occa sions of poor separation such as studio cross talk between mics where the Gate section will work miracles The basic purpose of the Expander Gate sections in the F760
18. ontinuous thus the original dy namics are compressed The compression ratio selected may be anything from the softest slope say 2 1 to the tightest say 20 1 dependent on the effect desired When it is desirable to preserve some sensible relationship to the original dynamics ratios of 2 1 or 3 1 would be used There is some significant increase at the output as the input rises on these slopes 5 1 to 20 1 are tighter and the output will not rise by much whatever the input level The diagram of the F760 slopes show this clearly 15dB compression on a slope of 10 1 wold occur on the top 16 5dB of the signal the same amount effected at 2 1 is spread and affects the top 30dB of the signal The 2 1 ratio is therefore more subtle and the effect of fast release times less apparent The advantage of the F760 series over a straight Compressor Limiter is that the softer slopes can be used to provide subtle compression combined with overload protection at the top It is thus safe to use the soft slopes and one does not have to compromise by using a tighter slope that one would ideally like RELEASE TIME is important in compression since it determines the moment to moment gain change in the system and it is the rate of gain change that determines loudness The faster the release and the tighter the slope the more lower level signal is brought up toward peak level The problem introduced is that of pumping or breathing plus the effect of fast
19. sary to get the best adjustment of the potentiometer If the above does not seem to work check Q3 Q5 for problems Switch Peak limit in and monitor C14 C15 on the PCB in the same manner as above adjusting the Rec Bal on the PCB for mini mum level on the scope If problems occur check Q7 Q8 for problems Switch Peak Limit to out Swtich Switch ratio back to 1 1 Pk Lim to OFF Adjust FET bias pre set full CW to give maximum output adjust the inverter pre set full CW to give maximum output about 4dBu output system gain of 38dB Adjust the inverter pre set CCW so level is attenuated by about 1dB down to 3dB then adjust the FET bias to further attenuate the output by Output should be OdBu system gain of 34dB 4 Select compressor ratio of 2 1 and threshold to 20 this is referenced to the internal peak limit threshold Using the channel input attenuator increase the input until compression is just being indicated meter will move the width of the pointer off of O the output will be at approx 10 2dBu At the signal generator increase the input level by 30dB and the output should rise by only 15dB 0 5dB If this compression is greater or less than 15dB proceed to step 5 otherwise proceed to step 6 5 To adjust the compressor slope ratio use the slope preset to give correct output If this pre set is adjusted it is necessary to return to step 3 in order
20. stablished the normal level switch the F760 In and adjust the Input pot until the overall amount of gain reduc tion likely to be required is indicating on the meter e g 10dB At this stage the Peak Limit section is working and red indicator will be flashing d Open the Output attenuator and adjust so that the level is peaking to the same level as the direct signal This is best done under dynamic signal conditions rather than on tone if monitoring with VU meters see LIMITING amp COMPRESSION Considerations A relevant direct comparison is now available between direct and compressed signal at the flick of the In Out switch at closely approximating peak levels e With the compressor Ratio control select the Slope required e g 2 1 and adjust the Compressor Threshold control until the Peak Limit only indicates on peaks above the amount of compression required i e move the threshold down from 0 towards the 20 point until the Limit light goes out then come back one position The limit section will then oper ate on any further unexpected increase in level The amount of compression may be changed by increasing decreasing the Input pot and adjusting the Compressor Threshold adjust the relationship between compression and peak limiting Once set up it will not be necessary to alter the Output level as per step d f The Release time in the compressor section will be adjusted for effect and the Attack time Note wh
21. t For simplicity it is best to set up controls identically on both channels setting each channel prior to throwing the Stereo switch IN t The Peak Limit sections are not linked and will continue to function independently momentary attenuation of transients will not be appreciably noticeable with regard to image shift LIMITING amp COMPRESSION Considerations The usual purpose of Limiting and Compression is to a Increase loudness and b to provide overload protection and generally control level LIMITING implies the use of a level control divide to provide overload protection its purpose to limit the signal level at some specified point Transients are the major concern that is peaks of a short duration tghat exceed the pre determined peak recording level Control of these will not markedly affect the dynamic range of the input signal since gain reduction with it does occur will be momentary and of a relatively low order of magnitude In most cases a fast release time will be desired so that transients are punched down without apparently affecting the programme content A tight compression ratio greater than 10 1 wold be used Such an action enables the engineer to reduce his system headroom operate with a higher recording level without fear of overload The dynamic range or a recording or transmission system is thus increased COMPRESSION is used to describe conditions of rain reduction that are more or less c
22. the green indicator lighting 13 If it does not read 20dB temporarily adjust the range pre set on the board unit a reading of 16dB is achieved then proceed to the next step to adjust for stereo linking Check that both channels are reading 16dB then select the stereo in mode on the stereo link switch and ob serve and change of position in meter readings If movement occurs switch out the stereo link and adjust the one moving towards O with the FET LAW preset on the C board so that it moves forward by 2X as much as the backward error over correct by 100 Now bring back to 16dB with the RANGE pre set Check the stereo match meters should not move when stereo is selected again by switching IN the stereo link repeat as necessary Once the channels are ste reo matched adjust both channels Range trimmers to indicate 20dB with the range control set to maximum 14 Threshold adjustment Expander front panel threshold pot fully CW LO select EXPAND mode RANGE control at maximum CCW attach switch to F and release to fastest position 15 Input a 1Khz signal 40dBu adjust the THRESHOLD pre set on the board so that the expander is just open meter reading 07 and green indicator lamp is flickering 2102 S2 71 Joy ny y 51 4 xaduo7 211 20 ETA WIS
23. to check that the FET bias and overall system gain are correct If the bias needs re setting follow through steps again returning to check the bias if further adjustment is made on step 5 6 Increase the input level by 2dB total of 32dB increase 16dB approx indicated on external meter adjust meter range pot so internal meter reads 16dB gain reduction Reduce input level by 2dB for next step input signal should be at 4dBu 7 Select 20 1 ratio and 2 on the threshold Adjust the input level to give 4dB gain reduction indicating on the meter 8 If output attenuator s are fully CW open the output should be 12dBu If it is not adjust 1K potentiometer VR6 near the edge of the front PCB to give 12dBu output If the meter no longer reads 4dB of GR go back to step 7 and repeat 9 Check distortion at this stage a measurement of about 0 2 or better should be obtained with a release time setting of 0 45 10 Peak limit threshold is now checked by switching that section in and switching the threshold to 0 The peak limit light should come on and the gain reduction indicated on the meter drops to 2dB The output level of the unit will rise to 14dBu approx Adjust the peak limit threshold pre set to give 14dBu Output 11 EXPANDER SECTION Adjust front panel Range pot CCW 20 attack switch to and Threshold CCW H 12 Select EXPAND mode and meter should read 20dB gain reduction with
24. unit is to counter increased noise to due compression so that it is now possible to compress off tape without worsening noise With the low level attenuation range set to 20dB up to 20dB of compression can be applied without deterioration in the overall noise level The use of less than 20dB compres sion would result in a net gain over the original This is of course most important in a multi track work and use in reduction sessions When used at the same time as compression it is important that the Expander Gate threshold is set just above the noise with fastest release time so that the noise is attenuated before becoming audible As the Compressor releases the meter will indicate a fall toward 0 gain reduction but will then move quickly left towards 20dB as the Expander operates on the noise The green light will come on until the signal is present and compressing again With certain signals such as ones composed predominantly of low frequency fundamentals the high frequency noise is not masked even when the instrument is modulated to peak recording level It will be found preferable to compress these prior to going onto tape i e on the direct signal and using expansion coming off tape The ATTACK and RELEASE parameters offer a wide range of possible combinations to handle any situation most ef fectively The ATTACK control determines the speed at which the Expander Gate opens from the attenuated mode the RELEASE controls the rate at which the d
25. ut re establish the compression section by selecting the ratio and increasing the input attenuator to give compression required Then switch the Expand mode to In Make any final fine adjustments The Expander Gate Section GATE MODE the Gate position provides low level gain reduction at a slope of 20 1 IN thie mode the control side chain in in a feed back arrangement deriving its sense data frm the F760 output Thus the Compressor limiter sections myst be established and fully operating whilst the Gate Threshold if found Having set up the Compressor Limiter sections switch the F760bypass In Out switch to Out so that no signal is going through the unit q Switch the Expander Gate switch to the Gate mode The green light will come on and the meter indicate gain reduction providing the Range control is not 0 Adjust the Range control for the maximum amount of low level gain reduction required i e 20 or whatever r Switch in the F760 and adjust the Threshold of the Gate along with the Release and Attack controls so that it is closing quickly on noise yet fully open in the presence of wanted signal see EXPANDER GATE Considerations STEREO OPERATION s The Compressor section and Expander Gate section are matched for stereo in stereo units The Stereo Link switch links the relative control voltages so that gain reduction is always identical on both channels thus obviating and image shif
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