User`s Guide - Studio Manuals
Contents
1. MIC GAIN FREQUENCY THRESHOLD 48V BYPASS IN OUT i cue me v n 0 yoo 00 jo av AN A4 La x av messes 3 15dB Vv V PHANTOM AD PREAMP e POWER DE ESS rO SUPPY MIC LINE EXP COMP COMP EXP COMP EXPICOMP_ EQ THRES THRES RATIO IN OUT GAIN OUTPUT INPUT O L 4 A AV 000009 0090000 4 J il DOWNWARD OVINE COMPRESSOR Hg 0 EXANDER COMPRESSOR EXTERNAL SIDECHAIN NVA RING SEND TIP RETURN V FREQUENCY BANDWIDTH CUTIBOOST FREQUENCY BANDWIDTH CUT BOOST FREQUENCY BANDWIDTH CUT BOOST EQ OUTPUT SIGE g OUTPUT INPUT on V EQ Ed i IN OUT 4 LOW MID HIGH Oso rO 4 EQ CLIP DETECTION OPTIONAL MME OUTPUT LEVEL POWER SWITCH SYMMETRY DOTEN see SELECT SWITCH OUTPUT 000 on 00 BALANCED POWER OUTPUT SIGE OUTPUT LEVEL Power withsymMeTr SELECTION CORRECTION CIRCUIT MUTE CIRCUIT OUTPUT CIRCUIT 4 A UNBALANCED V Installation The 528E may be installed freestanding or rack mounted Rubber feet are included for freestanding use No special ventilation requireme2. oo Symetrix Processor Technical Tutorial continued 27 32 Phantom Powering Condenser Microphones Most modern condenser microphones have provisions for being remotely powered via the microphone cable The dominant system in use today is the phantom power system which is compatible with both condenser and non condenser microphones dynamics ribbons etc If your microphone s data sheet says that it is phantom powered the 528E can power it Another remote powering system exists called A B powering modulation lead powering or T system A B powering is incom patible with phantom powering as well as other non powered microphones The technical requirements for operation and or compatibility are The microphone must have a balanced low impedance output The balanced output must be floating with respect to ground If there is a center tap it must also float with respect to ground In the past it was common to ground the center tap of the microphone s output transformer This was especially true of ribbon microphones Further Information Much more information including an online tutorial customer submitted settings frequently asked questions and trouble shoot ing information can be found on the Symetrix Knowledge Base at http support symetrixaudio com User s Guide 528E Voice Processor Symetrix Troubleshooting 28 32 Troubleshooting Chart SYMPTOM No output Hum or buz
3. Notes 1 Equivalent input noise EIN is a method of modeling the noise performance of a preamp as the signal level of an equivalent noise source connected to the input of a noiseless preamplifier The thermal noise of a 150 ohm resistor is about 133dBV this represents the theoretical best case 2 The majority of the material in Section 2 2 is taken from Equalizing for Spectral Character Langevin Corporation 1966 Catalog 3 Asingle D microphone is a directional microphone having its rear entry port s spaced at a single distance from the diaphragm Single D microphones are always characterized by proximity effect a rise in the bass response at short working distances 4 Avariable D cardioid microphone has multiple rear entry ports spaced at varying distances from its diaphragm Variable D microphones have little or no proximity effect Variable D is a trademark of Electro Voice Inc User s Guide 528E Voice ED Symetrix Processor Voice Processing Tutorial continued O0 CZE8 06 0062 00 0 0 00 6409 090 899 00 7409 09 9697 00 98 LV OL 1S6 00 0696 OO 9ELE 08 6 C 00 6896 06 66766 00 60 0S G 6 00 09 1 00 89GL 06 96 L OS 8LEL OLVLLL 0S 970L LL 186 00 088 66 8Z 9V 869 97 699 c 8G Gc ecs 88 6 00 Ov 7 00 C6 ev 6ve 9 ecE 99 E6C 9 19c 17696 00 006 00 961 LOVZLL 18791 cg oyl L8 O L Ly Ecl OO OLL 00 86 LeZ8 1268 14394 17 99 YL 1 00 99
4. Fast First Time Setup continued 3 32 Settings Set the controls and switches on the front of the 528E per the following table Front Panel Control Setting FrontPanel Seting You can now power on the 528E and it should pass signal The OUTPUT LEVEL LED display should show some activity and the POWER LED should be illuminated We can now move on to fine tuning your settings Mic Preamp Gain Set the MIC GAIN control so that the OUTPUT LEVEL LED display indicates a signal between 10 and 0 VU The CLIP LED should almost never light If it does decrease the MIC GAIN control until it does not Any loss in gain can be made up for later in the signal chain De Esser Settings The De Esser is used to reduce the level of objectionable sibilant sounds S and T sounds Engage the De Esser by pressing the DE ESS IN OUT button IN Set the THRESHOLD control so that the de esser gain reduction LED display shows about 12 dB of reduction Now tune the FREQUENCY control for the maximum sibilance reduction Finally reduce the setting of the THRESHOLD control until you reduce the sibilance to a tolerable level without harming the quality of the audio signal Downward Expander Settings Use the Expander to reduce room noise or other low level or background noise Set the THRESHOLD control to allow low level speech sounds to pass while still blocking out room sound or noise Compressor Settings Use the COMP THRES control to determine th
5. In a recording studio four or five separate pieces of equipment are usually patched together to obtain the kind of processing pro vided by the 528E For the highest level of versatility we recommend making the output input patching and sidechain connections available by wiring the unit to a patch bay Be sure that the interstage patch points are normalled together we recommend half normalling and that the sidechain connection terminates in two half normalled jacks This allows access to the individual sections of the 528E provides for easy use of the sidechain and allows the processing order to be changed at will to place the parametric in the sidechain for instance The following discussions illustrate some of the more useful applications for the 528E Because of its versatility combinations of the applications described here will normally be used Broadcast Applications With the 528E a variety of common problems can be corrected and overall sound quality can be greatly improved In addition to its normal use with announce mics there are several more specialized uses for the Voice Processor This section provides general operating guidelines for the various parts of the 528E and also describes typical applications used in the production room for special effects in the news room for cleaning up actualities and phone feeds and in television for PA feed to a studio audience The applications that follow are merely operational gu
6. 9th octaves Brilliance 6500 16 kHz Part of the 9th through the 10th octave Power and Fullness In the very low bass region lies the threshold of feeling where the lowest sounds like wind room effects and distant thunder are felt rather than heard In the upper half of the first octave of this range research has shown that the fundamentals of piano organ and even the harp reach well into this range Harvey Fletcher of Fletcher Munson fame charted the sensitivity of the ear for various parts of the spectrum at levels that are lower than those of reality Fletcher s compensation curves the well known Fletcher Munson curves show that for equal loudness in this range at lower recorded and reproduced levels shows requirements for tremendous boosts on the order of 10 to 30 dB Aside from the subjective effects of this range the ability to control unwanted sounds in this range is equally important to subdue stage rumble and outside traffic noise especially important where there are subways beneath buildings Overemphasis caused by close cardioid microphone placement can cause muddiness in the overall sound attenuating cutting the very low bass region can greatly improve overall clarity Rhythm and Musical Foundation In the bass region most of the low grave tones of the drum and piano can be found Here we can also find the fundamentals of the rhythm section as well as the foundation of all musical structure User s Guide 528E Voice
7. D OA Inserting a connector into this jack interrupts signal flow from the mic line inputs O Preamp Stage I O PREAMP STAGE TRS phone jack wired unbalanced This is the output of the OUTPUT mic line preamp Inserting a connector into this jack will not PRE AMP interrupt signal flow to the 528E s de esser Surer LINE INPUT XLR female connector providing a 10k Ohm balanced bridging pO line input intended for signals ranging from 10 dBu to 4 dBu LINE INPUT MIC INPUT Q ki PHANTOM POWER asv BYPASS MIC INPUT XLR female connector providing a balanced input suitable for low impedance microphones 48V phantom powering is available at this connector PHANTOM Pushbutton switch enabling 48V phantom power on the MIC INPUT POWER User s Guide 528E Voice ED Symetrix Processor Voice Processing Tutorial 7 32 Basics The Symetrix 528E Voice Processor combines Symetrix program controlled interactive dynamic range processing technique with a three band parametric equalizer This combination of processors is similar to a voiceover or vocal signal processing chain as used in a recording or voiceover studio Program controlled means the 528E s dynamic range processor section analyzes incoming signals then adjusts its release time to match the transient characteristics of those signals This section of the manual contains a tutorial on the basics of dynamic range processing and eq
8. ED Symetrix Processor Voice Processing Tutorial continued It was Leopold Stowkowski who said If had a thousand bass viols could use them all This is not as extreme as it may sound A bass viol even though it is reinforced by its sounding board generally plays single notes and possesses little dynamic range In a large orchestra as many as eight bass viols may be used A total of 1000 bass viols in this case would only give an additional 21 dB of level which is not an inordinate amount given a glance at Mr Fletcher s equal loudness curves Pay attention to this range because the overall musical balance of your program can be controlled by equalizing or attenuating the 100 Hz range Telephone Quality The ear is reasonably sensitive in the midrange frequencies and sound restricted to this range has a telephone like quality which is generally why telephone quality frequency response covers the 300 3 kHz range If you make the 6th octave 500 1024 Hz louder with respect to the other octaves the subjective result is a horn like quality If you emphasize the 7th octave 1000 2000 Hz the effect is one of tinniness The fundamental tones in most music lie equally above and below middle C 261 Hz from 128 to 512 Hz As most instruments are rich in the first overtones the majority of sound energy is found up to the 2 5 kHz range Music editors and others engaged in listening to music over long periods find that listening fat
9. Hz 15 watts maximum 230V nominal 205 to 253V AC 50 Hz 15 watts maximum Power Requirements Note The maximum operating ambient temperature is 25 degrees C Specifications subject to change without notice ao Symetrix Processor Architects and Engineers Specifications 528E Architects and Engineers Specifications The voice processor shall be capable of all signal processing functions commonly found on a mixing console input channel including microphone signal preamplification line input buffering simultaneous de essing downward expansion compression limiting and parametric equalization The unit shall have a low noise low distortion microphone preamplifier with variable gain 22 dB to 60 dB and switchable on off 48V phantom power A 15 dB pad shall be provided to accommodate high output microphone signals A balanced bridg ing line input suitable for 4 dBu input signals shall also be provided along with a switch to select either the microphone or line inputs The voice processor shall have an integral de esser which shall offer up to 20 db of attenuation within a manually sweepable frequency range of 800 Hz to 8 kHz There shall be front panel controls for range frequency and a bypass switch The dynamics processing section shall contain an interactive compressor limiter and downward expander There shall be front panel controls for compression ratio 1 1 to 10 1 compressor threshold 50 dBm to 20 dBm expa
10. Mid 160 to 6300 Hz High 680 Hz to 22 kHz Peak Dip Bandwidth 0 3 to 4 octaves measured at maximum boost Maximum Boost Cut 15 dB Metering Type Multi segment LED bar graph Output Level 20 to 3 VU 0 VU 4 dBu VU calibrated peak responding Gain Reduction Separate displays for de esser downward expander and compressor 0 to 20 dB per display 29 32 Overall Performance Data Frequency Response 20 Hz to 20 kHz 0 0 5 dB EQ cut compressor out downward expander out de esser out THD Noise 0 05 20 Hz to 20 kHz 4 dBm output Noise Floor Better than 89 dBu 20 Hz to 20 kHz Dynamic Range Processor Type Interactive Comp Limiter Downward Expander Comp Limiter Ratio 1 1 to 10 1 Downward Expansion Ratio max 1 1 8 De esser Type Program controlled high cut filter 12 dB octave Frequency Range 800 Hz to 8000 Hz Threshold 30 to 0 dBu Output Section Type Balanced Transformerless Maximum Output Level 24 dBm Balanced 18 dBm Unbalanced Connector XLR male Output Clip LED Output Source Impedance Lights 3 dB below clipping 200 Ohms Balanced 600 Ohms Balanced or Unbalanced Improves modulation symmetry of speech signals Minimum Load Impedance Voice Symmetry Switch Output Gain 15 dB Physical Size hwd 1 72 x 19 x 7 25 inches 4 37 x 48 26 x 18 415 centimeters Weight 7 6 Ibs 3 5 kg net 10 Ibs 4 6 kg shipping Electrical 117V nominal 105 to 125V AC 50 to 60
11. adequately reproduced by most monitor speakers or headphones Be aware that the true effects of low frequency boost may not be audible and may actually result in a muddy or distorted sound Use Wide Peaks Narrow Dips In general the human ear prefers wide bandwidth peaks and narrow bandwidth dips Boosting a narrow bandwidth produces a sound usually perceived as offensive while boosting wider bandwidths 7 octave or greater usually results in a sound deemed musical It has also been observed that very few people will notice anything s missing when a narrow bandwidth 3 octave or less is cut even when it s cut as much as 30 dB But cut a wide bandwidth and the resulting sound quality is often called empty Tuning the EQ Notch Filter To tune the equalizer use full boost For both boost and cut the 528E s parametric equalizer is intended to be put to work on specific frequencies To find a particular frequency by ear the method used by everyone who doesn t have a real time analyzer turn the cut boost control all the way up to 15 dB be very careful of feedback if you are monitoring on a loudspeaker Set the bandwidth for about 3 octave max CCW Tune the frequency control until you distinctly hear the part of the sound you wish to control Then adjust the cut boost control for the appropriate amount of change and readjust the bandwidth control if necessary Equalizing for Speech In broad
12. aucune piece pourvant entre repar e l usager S adresser a un reparateur comp tent The lightning flash with arrowhead symbol within an equilateral triangle is intended to alert the user of the pres ence of uninsulated dangerous voltage within the product s enclosure that may be of sufficient magnitude to constitute a risk of electric shock to persons The exclamation point within an equilateral triangle is intended to alert the user of the presence of important operating and maintenance servicing instructions in the literature accompanying the product i e this User s Guide CAUTION To prevent electric shock do not use the polarized plug supplied with the unit with any extension cord receptacle or other outlet unless the prongs can be fully inserted Power Source The 528E Voice Processor hardware is configured at the factory for domestic or export markets Ensure that your AC mains voltage matches that of your power supply Refer to rear panel marking for correct AC source voltage Use only the power cord and connector specified for the product and your operating locale A protective ground connection by way of the grounding conductor in the power cord is essential for safe operation The appliance inlet and coupler shall remain readily operable once the apparatus has been installed User Serviceable Parts There are no user serviceable parts inside the 528E Voice Processor In case of failure customers i
13. conditions and disclaim ers set forth herein shall extend to the original purchaser and anyone who purchases the product within the specified war ranty period Symetrix does not authorize any third party including any dealer or sales representative to assume any liability or make any additional warranties or representation regarding this product information on behalf of Symetrix This limited warranty gives the buyer certain rights You may have additional rights provided by applicable law Note Some Symetrix Lucid products contain embedded software and may also be accompanied by control software intended to be run on a personal computer Said software is specifically excluded from this warranty Limitation of Liability The total liability of Symetrix on any claim whether in contract tort including negligence or otherwise arising out of con nected with or resulting from the manufacture sale delivery resale repair replacement or use of any product will not exceed the price allocatable to the product or any part thereof which gives rise to the claim In no event will Symetrix be liable for any incidental or consequential damages including but not limited to damage for loss of revenue cost of capital claims of customers for service interruptions or failure to supply and costs and expenses incurred in connection with labor overhead transportation installation or removal of products substitute facilities or supply
14. from 800 Hz to 8 kHz and threshold which may be set from 0 dB to 30 dB In other words the 528E s de esser will attenuate selected frequencies between 800 Hz and 8 kHz as much as 20 dB Sidechain Processing The sidechain is a patch point in the control circuit of a dynamic range processor which provides access to the part of the circuitry that tells the VCA what to do The 528E s sidechain routes through a rear panel TRS jack that allows the control signal to be processed outside the unit Refer to the block diagram in a later section Notice the sidechain connections that come from the compressor limiter expander section They allow access to the audio input of the control circuit a fancy envelope follower by any other name for the dynamic range processor This control signal is derived from but kept totally separate from the audio signal path That means the control signal can be processed outside the 528E without actually processing the signal that s going through the VCA the audio signal itself This presents some very interesting possibilities for changing or improving the operation of the dynamic range processor The best use of the sidechain connections is to make the action of the 528E s dynamics processor frequency dependent that is to make it respond more or less to certain frequencies Because the audio signal and the control signal remain completely User s Guide 528E Voice ED Symetrix Processor Voice Proc
15. generally controls peak levels and helps to maintain a high overall average signal level Used in this manner the compressor s action is generally inaudible Compressors can also be used creatively to make a source sound louder than it really is or to create a special effect For most level control applications moderate settings yield the best results We recommend a starting point of Comp Thresh old control setting sufficient to cause about 6 to 8 dB of gain reduction on peaks using a Comp Ratio setting of 4 1 For a highly compressed sound you know the used car salesman during the 3AM movie use a 10 1 ratio setting and 10 dB or more of gain reduction User s Guide 528E Voice ED Symetrix Processor Using the 528E continued 20 32 Downward Expander The downward expander reduces its gain for any signal level below its threshold setting Typically downward expanders are used to remove noise or unwanted signal from an audio signal by simply lowering the gain when the overall level falls below threshold Think about using the expander when you are faced with a noisy signal not necessarily hiss or when heavily compressing a voice and you want to remove some of the less desirable artifacts false teeth rattling lip smacking tongue noise etc You can also use the expander to help remove microphone leakage from a signal Start by setting the threshold so that the expander causes gain reduction left LED meter as the sign
16. houses Servicing the 528E Voice Processor If you have determined that your 528E Voice Processor requires repair services and you live outside of the United States please contact your local SymNet dealer or distributor for instructions on how to obtain service If you reside in the U S then proceed as follows Return authorization At the Symetrix factory Symetrix will perform in warranty or out of warranty service on any product it has manufactured for a period of three 3 years from date of discontinued manufac ture Before sending anything to Symetrix please contact our Customer Service Department for a return authorization RA number The telephone number is 425 778 7728 Additionally support is available via the web site support symetrixaudio com In warranty repairs To get your 528E Voice Processor repaired under the terms of the warranty 1 Call us for an RA number have the serial number shipping and contact information and description of the problem ready Pack the unit in its original packaging materials Include your name address daytime telephone number and a brief statement of the problem Write the RA number on the outside of the box Ship the unit to Symetrix freight prepaid We do not accept freight collect shipments Wh Oo A Just do these five things and repairs made in warranty will cost you only one way freight charges We ll pay the return freight If you don t have the fac
17. illustrates this patch You can find out more about using the sidechain later in the next section TP RETURN FINGSSEND NOTE SPECIAL gt WIRING NEEDED INPUT TO RING Tips and Techniques for Using the 528E Following are some tips and techniques for using the 528E You should consider any settings given as starting points for de veloping your own settings Metering The 528E has several LED bargraphs that serve as gain reduction and output meters The gain reduction meters indicate the change from unity gain for their respective function and the LEDs read and move from right to left When operating as a level meter the LEDs read and move from left to right Each meter has its own scale markings as shown on the front panel Gain Setting There are two places to adjust the gain of the 528E at the mic input before any processing and at the output An understand ing of this topic is essential to getting the most from your 528E A more basic discussion can be found under the heading Level Setting in the previous section First the mic input gains You make best use of the 528Es signal to noise ratio by ensuring that your mic level input signals are adjusted to fit within the headroom of the mic preamp Doing so ensures optimum dynamic range through the mic preamp and succeeding processors With the De esser Expander Compressor and EQ sections temporaril
18. industry The technical construction file is maintained at Symetrix Inc 6408 216th St SW Mountlake Terrace WA 98043 USA The authorized representative located within the European Community is World Marketing Associates P O Box 100 St Austell Cornwall PL26 6YU U K Date of issue March 15 1999 Place of issue Lynnwood Washington USA Authorized signature Dane Butcher President Symetrix Incorporated User s Guide 528E Voice ED Symetrix Processor Appendix A Output Level Switch A1 WARNING Lethal voltages are present inside the chassis Perform all service work with the unit disconnected from all AC power CAUTION These servicing instructions are for use by qualified personnel only To avoid electric shock do not perform any servicing other than that contained in the operating instructions portion of this manual unless you are qualified to do so Refer all servicing to qualified service personnel Tools Required 1 2 Phillips head screwdriver Top Cover Removal 1 Ensure that the 528E is disconnected from the AC power source 2 Remove two 6 32 x 1 2 inch screws from the top panel and two 6 32 x 1 2 inch screws from each side of the chassis 3 Lift the top cover free of the chassis Changing The XLR Output Level The 528E ships from Symetrix with the XLR output configured for a line level output If you must have a microphone level output the following steps lead you through the process of swit
19. inputs The output section shall provide a switchable phase rotator for the purpose of improving the asymmetry of speech waveforms Access to the dynamics processing sidechain shall be provided via a 4 TRS jack Access to the interstage connections between all processing sections mic line preamp de esser compressor limiter downward expander equalizer output stage shall be provided via half normalled tip ring sleeve TRS jacks The voice processor shall be capable of operating by means of its own built in power supply connected to 117V AC nominal 105 to 130V 50 60 Hz or 230V AC nominal 207 to 253V 50 Hz The unit shall be a Symetrix Incorporated model 528E Voice Processor User s Guide 528E Voice Processor Symetrix 31 32 Warranty and Service The Symetrix Limited Warranty Symetrix Inc expressly warrants that the product will be free from defects in material and workmanship for eighteen 18 months from the date the product is shipped from the factory Symetrix s obligations under this warranty will be limited to repairing or replacing at Symetrix s option the part or parts of the product which prove defective in material or workman ship within eighteen 18 months from the date the product is shipped from the factory provided that the Buyer gives Symetrix prompt notice of any defect or failure and satisfactory proof thereof Products may be returned by Buyer only after a Return Authorization number RA has
20. level of the 528E relative to the balanced output The 0 VU LED on the display corresponds to 4 dBu at the balanced output For unbalanced applications the actual output level is 6 dB lower than that shown by the display NOTE Ifthe internal mic level output switch has been depressed the output level is 40 dBu when the display indicates 0 VU POWER LED Indicates the presence of AC power Power AC INPUT IEC power connector Connect only to appropriate AC power Eau as oe source Refer to rear panel marking for correct AC source Son voltage POWER POWER Turns the 528E on and off P ik SWITCH ce 7 SERIAL Please note the serial number NUMBER for future reference Should your 528E ever require service Output Stage I O BALANCED OUTPUT UNBALANCED OUTPUT STAGE INPUT Equalizer I O OUTPUT INPUT Symetrix Customer Service will need this information in order to process your repair request XLR male connector Balanced line level output This output may be converted to a mic level output See Output Level Switch section BALANCED OUTPUT OUTPUT STAGE UNBALANCED OUTPUT INPUT Oj TRS phone jack wired for unbalanced operation Provides a line OUTPUT level unbalanced output This jack is unaffected by the Mic Level Output Configuration switch mentioned above TRS phone jack wired for unbalanced operation This is the input to the output stage Inserting a connector into this jack will interrupt any signal comi
21. range To find the 528E s dynamic range with 50 dB preamp gain subtract 89 from 18 The result 113 dB is the dynamic range Dynamic Range of Sounds and Signals The other definition of dynamic range describes actual level changes or the range over which signals fluctuate The signals under discussion here are electrical representations of sounds so it follows that sound has dynamic range The dynamic range of the human voice from a whisper to a shout is well over 100 dB Thus the microphone converts the sound pressure of a voice going from a whisper to a shout into an electrical output signal having the same dynamic range Why Dynamic Range Processors are Necessary For signals to stay below distortion and above noise their actual dynamic range must be kept within the specified dynamic range of the circuits through which those signals flow Unfortunately the actual dynamic range of real world signals often exceeds the available dynamic range of even the best equipment For example the dynamic range of the best analog tape recorders is around 80 dB while digital recorders top out at around 96 dB As good as these machines are there s still not quite enough room for very wide dynamic range signals In order to maintain a 60 dB signal to noise ratio to keep the signals 60 dB above the noise floor the dynamic range of signals stored on the analog tape machine would have to be restricted by 20 dB while the digital recorder would be restri
22. that don t oe ey HI EXTERNAL AUDIO PROCESSOR Changing the Sequence of Processing You may wish to change the sequence of processing within the 528E to allow the signal processors to work on the input signal in a particular way your way A good example of this is the compressor should the equalizer precede or follow the compressor Most studio engineers would have the equalizer follow the compressor like it normally does in the 528E In broadcast many engineers prefer the opposite the com pressor receives the output of the equalizer The figure right illustrates this patch Using the Equalizer in the Sidechain For some applications you may want the 528E s equalizer in its sidechain rather than in the signal path Doing so makes both the compression and downward expansion frequency OUTPUT STAGE AMG INPUT Q OUTPUT EQUALIZER INPUT OUTPUT Q EXPANDER COMPRESSOR LIN PRE AMI STAGE DE ESS SIDECHAIN INPUT al OUTPUT INPUT eo OUTPUT TP RETURN AING SEND ue J OUTPUT STAGE UNBALANCED OUTPUT INPUT OUTPUT EQUALIZER INPUT OUTPUT EXPANDER COMPRESSOR LIN PRE AMI STAGE OUTPUT DE ESS SIDECHAIN INPUT OUTPUT INPUT Oj rO O 9 919 919 Q conscious The figure right
23. you ought to think about single D cardioid microphones such as those made by AKG Shure Neumann Sennheiser and EV like the RE38N D or ND series or a ribbon microphone such as the RCA 77DX The built in bass boost caused by close talking a single D microphone proximity effect can be tailored or tamed with careful equalization which also reduces room rumble at the same time Last since the proximity effect increases with decreasing source microphone distance a skilled user can substantially change their sound simply by moving in or out from the microphone If clarity is your goal then a variable D4 microphone such as the EV RE 20 RE 27 or RE 18 or an omnidirectional type such as the EV RESO or AKG414 with the pattern set to omni is a good choice as these types do not emphasize the bass frequencies when you close talk them On the negative side any room rumble present with the microphone will be boosted along with the voice if you try to equalize at the lower frequencies Next add or remove low frequencies in the 100 300 Hz range until you get a weight or fullness that is pleasing Next add midrange boost in the 2 5 kHz to 5 kHz range to add punch and presence experiment with the bandwidth control and finally add or remove frequencies in the 10000 Hz range to get the sense of brilliance that you want The chart on the next page shows the relationships of many different instruments and a piano keyboard along with the frequencies involved
24. 0 ohm or higher loads 600 ohm loads are an archaic practice that won t go away You don t need to terminate the output with a 600 ohm resistor if you aren t driving a 600 ohm load If you don t understand the concept of termination you probably don t need to anyway The two facts that you need to derive from this discussion are 1 Match signal levels for best headroom and signal to noise ratio 2 For audio impedance matching is only needed for antique equipment and power amplifier outputs In all other cases ensure that your inputs bridge are in the range of 2 to 200 times the output source impedance your outputs Signal Levels The 528E is designed around studio professional line levels 4 dBu or 1 23 volts The unit is quiet enough to operate at lower signal levels such as those found in semi pro or musical instrument MI equipment 10 dBu or 300 millivolts The microphone input is designed to accept low impedance microphones Switchable 48V phantom powering is provided for User s Guide 528E Voice ED Symetrix Processor Technical Tutorial continued 25 32 suitable condenser microphones The microphone input accepts signal levels from 60 to 5 dBV 10 dBV with the 15 dB pad The line input is designed to accept nominal line level 4 dBu The output line driver delivers 4 dBm into 600 ohm or higher balanced loads An internal switch converts the line level output to microphone level or 36 dBu An un
25. 00 67 99007 06 17 LL9 0 66 L8 0 09 46 09 76 88 16 09 06 Ses ge ol 8 8 ul 8 Jl 7 il l 6 5 5 s Al Al AT TTT A Al 4 3 3 3 2 WW I l I W n E Z W 2 ra Oo HUMAN VOICE D STRING User s Guide 528E Voice ED Symetrix Processor Using the 528E 15 32 This section is intended for more advanced users If you are a first time user we recommend that you start out by using the procedure found in Fast Setup Block Diagram The block diagram below is the block diagram for the 528E Please take a moment and take note of the following e The equalizer and de esser are hard wire bypassed by their In Out switches The interstage patch points use TRS jacks wired for unbalanced operation The interstage patch points are half normalled The send jack does not break the signal flow The output level of the 528E can be set to either line level or mic level The switch for this function is internal to the unit Refer to Appendix A
26. D STAGE PHANTOM OUTPUT INPUT OUTPUT INPUT OUTPUT SIDECHAIN INPUT OUTPUT INPUT OUTPUT POWER O 0 0 6 0 6 0 0 0 W440 RING SEND mm BYPASS FRONTPANEL INPUT SELECT SWITCH IN LINE OUT POSITION FROM CHANNEL PATCH SEND OUTPUT TO CHANNEL PATCH RETURN INPUT Using the 528E in an Effects Loop Signal processors used in a console s effects send receive loop should not be insert or series processors A series processor means that you have to break the signal path to insert the processor Since using the effects loop does not break the signal path we don t recommend that you connect the 528E here Use the channel insert jacks as described under the previous heading or insert the 528E between your console and your tape machine Using the Patch Points Located on the rear panel are several TRS jacks These jacks are the connections between the various processors that make up the 528E The jacks are half normalled which means that without any plugs inserted the signal flows through them via internal switching contacts The term half normal means that only the input or return jack has switching contacts inserting a plug into the output or send jack does not break the signal path This allows you to access the signal at various points in the 528E s signal path for use with external processors The patch point jacks can be used to insert additional processing into the signal path or perhaps to re
27. Hz sound especially pleasing clear and full Male opera singers are particularly favored with 5 KHz sounds women less so In popular music this range shifts downward somewhat It follows that voices deficient in the 5 kHz range can be enhanced in listening value by a generous boost on the order of 5 to 8 dB at 5 kHz Asecondary benefit of this boost is an apparent increase in level a 6 dB rise at 5 kHz frequently gives an apparent increase of 3 dB to the overall signal Attenuating the 5 kHz range on instruments gives a transparent quality to the sound providing of course that the remainder of the signal is otherwise wide range Microphones having a dip in this region lack the punch or presence to which we Americans are accustomed Brilliance Unvoiced consonants attributed to tooth tongue and lip sounds are high in frequency and reach the 10 kHz range These frequencies account for some clarity and most brilliance even though they contain less than 2 of the total speech energy This also holds true for musical instruments especially percussion Boosting or cutting this range affects clarity and naturalness In speech the 9th and 10th octaves impart intimacy although too much emphasis can make secondary speech sounds lip smacking etc objectionable a good case for a expander Some microphones having a rise at the higher frequencies especially omni microphones benefit from some attenuation in this region Those micro
28. If you are using the Line input reduce the level of the device driving the 528E The Clip LED in the Output LED meter monitors levels in the equalizer as well as at the output of the 528E If the Clip LED glows try switching the equalizer to Bypass If the LED still glows reduce the setting of the Output Gain control If switch ing the equalizer to Bypass eliminates the clip indication then the input level must be reduced via the Mic Gain control or by lowering the level of the line input Operational Details This section describes the details of operating the 528E Usage information can be found later in this section The 528E accepts monaural analog input signals at mic or line level processes them and delivers them back to you as bal anced line unbalanced line or balanced mic level signals Stand alone Operation A vast majority of users use the 528E as a stand alone device Here the 528E replaces their usual microphone preamp and either feeds their tape machine or workstation directly in essence becoming a one input one output console For best results the 528E should replace the mic preamp in your console or recording chain If you have to plug the 528E into a microphone input 40 dBu nominal level then you ll need to pad attenuate the output of the 528E down to microphone level An internal jumper connection reduces the 528E s output to this level Although a far preferable connection would be to bypass your console s mic p
29. User s Guide 528E Voice Processor Symetrix User s Guide 528E Voice Processor Symetrix 1 32 Before You Begin What Ships in the Box M A 528E hardware unit M A detachable power cord M This User s Guide Getting Help If you have questions beyond the scope of this User s Guide or the help module contact our Customer Support Group in the following ways Tel 425 778 7728 8 00 am to 4 30 pm Monday through Friday Pacific Time Web support symetrixaudio com Important Safety Instructions 1 Read these instructions Keep these instructions Heed all warnings Follow all instructions ao amp wo ND Do not use this apparatus near water This apparatus shall not be exposed to dripping or splashing and no objects filled with liquids such as vases shall be placed on the appara tus 6 Clean only with dry cloth 7 Do not block any ventilation open ings Install only in accordance with the manufacturer s instructions 8 Do not install near any heat sources such as radiators heat registers stoves or other apparatus including amplifiers that produce heat 9 This apparatus shall be connected to a mains socket outlet with a protective earthing connection Do not defeat the safety purpose of the polarized or grounding type plug A polarized plug has two blades with one wider than the other A grounding type plug has two blades and a third grounding prong The wide bla
30. action is very definite The Threshold Concept The threshold is the level at which a dynamic range processor s activity begins In operation the dynamic range processor s sensing circuitry constantly looks at the incoming signal and compares it to a reference level which is called the threshold level In practice that reference level is set by the operator via the threshold control Remember compressors and limiters respond when signals at the input are above threshold while downward expanders and gates respond only when signals at the input are lower than the defined threshold The VCA Voltage Controlled Amplifier The action of any dynamic range processor depends on some method of changing the gain based on some external signal Typically this takes the form of a special sort of amplifier whose gain is controlled by a DC voltage That part of the circuit is called a voltage controlled amplifier or VCA Inside the 528E a separate buffered audio signal is sent to a group of circuits that comprise the detector envelope follower to you synthesists The detector circuits turn the AC audio signal into a DC control voltage which is sent to the VCA under the direction of the front panel controls Linear vs Downward Expanders Expander operation is easily misunderstood unless it s remembered that what s being expanded is the dynamics or changes of signals passing through the circuit Expanders come in two very different types linear
31. al falls in level Increasing threshold levels less negative numbers cause further reductions in the overall gain as the signal level falls Using the Sidechain The sidechain is a patch point in the control circuit of a dynamic range processor which provides access to the part of the circuitry that tells the VCA what to do The 528E s sidechain routes through a rear panel TRS jack that allows the control signal to be processed outside the unit Refer to the block diagram at the beginning of this section Notice the sidechain connections that come from the compressor downward expander section These connections allow access to the audio signal at the input to the control circuit that drives the dynamics processor This control signal is derived from but kept totally separate from the audio signal path which means that the control signal can be processed outside the 528E without actually processing the signal that s going through the VCA the audio signal itself This presents some very interesting possibilities for changing or improving the operation of the dynamic range processor The best use of the sidechain is to make the action of the 528E s compressor downward expander frequency dependent that is to make it respond more or less to certain frequencies Because the audio signal and the control signal remain completely separate even while the control circuit tells the VCA whether to turn the gain up or down you can equalize the sid
32. als Use this technique in any situation where levels are nearly the same but the fundamental frequencies involved are different User s Guide 528E Voice ED Symetrix Processor Applications continued 23 32 NOTE The ability of the expander to discriminate between wanted and unwanted signals is determined in part by mic tech nique Be particularly careful of high frequency sounds entering the side or rear pattern of a cardioid mic Most cardioids exhibit a sharply rising off axis response characteristic at higher frequencies Check the off axis curve the lower one in the manufacturer s literature If there s only a 3dB to 6dB difference between the on axis front response and the off axis side or rear response in the 5kHz to 10kHz region high frequency sounds will be picked up by the side or back of your mic Use the mic s directional pattern to keep other sources as far off axis as possible do everything you can to extract all the source to source discrimination possible through good mic technique The sounds picked up by individual mics must be pri marily the sound of the desired signal or the expander won t be able to tell the difference Using Reverb or Effects Effects usually require another mixer input for effects return However the 528E s patching connections can be used to feed a signal to the effects unit and the output stage input can be used to return the effects signal to the 528E s output The only r
33. and downward Linear expanders increase the dynamic range of all signals no matter what their actual level The linear expander simply makes all changes greater by some ratio which is sometimes user adjustable In the real world linear expanders aren t too practical because clipping occurs when signals just below maximum output level are expanded For instance an unprocessed signal 3 dB below clipping that increases 2 dB won t distort because it s still 1 dB below User s Guide 528E Voice ED Symetrix Processor Voice Processing Tutorial continued maximum But if that same signal is passed through an expander operating at a 1 2 ratio the same 2 dB change at the expander s input becomes a 4 dB change at its output However that signal would be 1 dB over maximum causing distortion Linear expanders must be used with care because very few systems have enough headroom to handle the upward dynamic range increase they produce The kind of processor most commonly called an expander is really a downward expander because it only affects signals below threshold This gives the operator control over the expander s activities allowing it to be used to expand the usable dynamic range of the system without running out of headroom Note in the interests of clarity and brevity the term expander will be defined as a downward expander from this point forward in this manual How Expanders Increase Usable Dynamic Range The lower lim
34. arge amounts of boost in any one band may require reducing the setting of the Output Gain control to prevent overload Let the Output Clip LED be your guide Electronic considerations aside one of the contributing factors to an equalizer s sound is its bandwidth The table above lists the bandwidths octaves for several possibly familiar equalizers as found on their respective mixing consoles While we make no promise that the 528E will sound the same these settings may be a good starting point if one of these equalizers is within your frame of reference A parametric equalizer offers perhaps the greatest flexibility of any type of equalizer however it can be more difficult to arrive at a setting than with other equalizers A good strategy for setting any equalizer is to set the level control for maximum boost then vary the Frequency and Bandwidth until you locate the portion of the spectrum that you wish to modify Then refine the setting of the Level control for that band Next refine the setting of the Bandwidth control You may have to go back and forth between Level and Bandwidth to find the magic setting Toggling the EQ Bypass switch between in and out can help too As a rule it is much easier to hear changes in amplitude level than it is to hear bandwidth changes It is also easier to hear the abundance of something rather than the absence of the same thing Even if you intend to apply cut negative level toa particular frequency it i
35. arrange the sequence in which the individual processors receive the input signal Still another possibility would be to use the parametric equalizer in the sidechain of the compressor downward expander for additional information on using the sidechain see the end of this section Inserting Additional Processing The illustration shown on the next page shows an external processor inserted between the 528E s equalizer and its output stage To insert additional external processing into the 528E s signal path 1 Decide where in the signal path you wish to insert the external processor 2 Patch the appropriate output jack on the 528E to the input jack of the external processor Use either a TRS or TS patch cord 3 Patch the output jack of the external processor to the corresponding input jack on the 528E Use eithera TRS or TS patchcord User s Guide 528E Voice Processor Using the 528E continued Symetrix 18 32 An insert or series processor is one that is inserted in series LIN OUTPUT STAGE EQUALIZER EXPANDER COMPRESSOR DE ESS PRE AMI UNBALANCED OUTPUT INPUT OUTPUT INPUT OUTPUT SIDECHAN INPUT O T OTO TERETUAN OUTPUT INPUT rO STAGE OUTPUT rO with the signal to be modified Generally speaking series processors have a wet dry mix control however compres sors expanders gates equalizers as well as the 528E are all series processors
36. balanced output is also available via a 1 4 TRS phone jack This jack is always line level and is unaffected by the internal switch When using the 528E with HAM radio equipment it may be necessary to build an L pad attenuator in order to level match the 528E s unbalanced 1 4 TRS output to a HAM radio transceiver s unbalanced input The 528E has a level of 2 dBu 10 dBV at it s unbalanced output which translates to 0 615 volts RMS The typical HAM radio transceiver has an input impedance of 10k Ohms so it would be expecting a level of 0 100 volts RMS Knowing this one can build an L pad attenuator with a 3600 Ohm series resistor followed by an 820 Ohm resistor to ground This will give approximately 15 58 dB of attenuation thus providing a suitable level to the HAM radio transceiver input I O Impedances The 528E is designed to interface into almost any recording studio or sound reinforcement application This includes 600 ohm systems where input and output impedances are matched e Unbalanced semi professional equipment applications e Modern bridging systems where inputs bridge and outputs are low source impedances voltage transmission systems The 528E s microphone input is intended to bridge a 150 ohm balanced source The actual input impedance is approximately 8 kilohms 48V phantom powering for condenser microphones is present if the Phantom Power switch has been depressed Refer to the discussion of phantom
37. been obtained from Symetrix Buyer will prepay all freight charges to return the product to the Symetrix factory Symetrix reserves the right to inspect any products which may be the subject of any warranty claim before repair or replacement is carried out Symetrix may at its option require proof of the original date of purchase dated copy of original retail dealer s invoice Final determina tion of warranty coverage lies solely with Symetrix Products repaired under warranty will be returned freight prepaid via United Parcel Service by Symetrix to any location within the Continental United States Outside the Continental United States products will be returned freight collect The foregoing warranties are in lieu of all other warran ties whether oral written express implied or statutory Symetrix Inc expressly disclaims any IMPLIED warran ties including fitness for a particular purpose or mer chantability Symetrix s warranty obligation and buyer s remedies hereunder are SOLELY and exclusively as stated herein This Symetrix Lucid product is designed and manufactured for use in professional and studio audio systems and is not intended for other usage With respect to products pur chased by consumers for personal family or household use Symetrix expressly disclaims all implied warranties including but not limited to warranties of merchantability and fitness for a particular purpose This limited warranty with all terms
38. between the amount of boost and the threshold setting can have the effect of only compressing when the signal contains significant energy in the region boosted by the equalizer Likewise cutting or attenuating certain frequencies desensitizes the compressor to those frequencies Keep in mind that the Comp Threshold becomes a function of the amount of overall gain through the equalizer including the boost This technique can be used with any frequency that can be controlled by the equalizer Using Sidechain EQ to Enhance Expander Action Since the expander can only discriminate between different levels not different sounds it can be fooled by signals whose lev els are nearly the same even if the frequency content of those signals is fundamentally different When the 528E s expander is used to shut out unwanted sounds any signal that exceeds threshold will trigger the expander When unwanted signals trigger the system it s often possible to eliminate the false triggering by equalizing the control signal For example if low frequency signals transmitted through a desk or podium are triggering the 528E s expander unnecessarily With an equalizer in the sidechain remove the low frequencies from the control signal and or boost the higher voice range frequencies When the offending frequencies are removed and the relative level of the desired frequencies is increased the expander can tell the difference between the wanted and unwanted sign
39. cast equalizers are often used to create a sonic personality for the station s on air talent In production applications it is practical to write down each person s settings In broadcast applications on air most stations try to find a single composite setting that works for all of their on air talent If your station s on air talent is comprised of both men and women then finding a single compromise setting becomes more difficult A possibly more workable solution might be to use a single D3 microphone so it has proximity effect and to vary the working distance to alter the low frequency response somewhat Some general thoughts on speech equalization 1 Try to use wider bandwidths Narrower bandwidths 1 2 octave and less are less audible harder to hear and are User s Guide 528E Voice ED Symetrix Processor Voice Processing Tutorial continued generally only useful for remedial work Broader bandwidths are less obnoxious more pleasing sounding and easier to work with especially if you re boosting a range of frequencies 2 Try to avoid massive amounts of boost or cut If you re only trying to impart a flavor like sprinkling salt and pepper on a meal then 6 8 dB of boost or cut should be all that you need 3 Awide bandwidth cut is equivalent to a boost at the frequencies surrounding the cut A quick way to figure out what s going on is to set the level of one band of the equalizer to full boost 15 dB th
40. ching the XLR line level output to microphone level or back to line level 1 Remove the top cover according to the steps outlined above 2 As you look at the unit with the front panel facing you locate the OUTPUT LEVEL switch SW7 in the upper right side of the unit just below the XLR output connector SW7 is in red in the diagram below Push the switch in to select MIC level output or out to select LINE level output 3 4 Replace the top cover 5 Reinstall the 528E into your setup GND 013 1010 BALANCED MIC LINE OUT CHGND MH9 So no ET a NCED S g T SW7 3 8 222222 ALJ idini 2 U18 ol Hig iO ae OUTPUT AGND CABLE ASSY TO all 1201 ON DAUGHTERBOARD CN 1 01001 To gt o m z gt cr 00 COJ R187 R186 C O LI R188 Z5 m p c 12 R191 R192 Symetrix 6408 216th St SW Mountlake Terrace WA USA Tel 1 425 778 7728 Fax 1 425 778 7727 Web www symetrixaudio com 2006 Symetrix Inc All rights reserved Printed in the United States of America Symetrix Part Number 53528E 1C00 The information in this User s Guide is subject to change without notice Symetrix Inc shall not be liable for technical or editorial errors or omissions contained herein nor is it liable for incidental or consequential damages resulting from the furnishing performance or use of this material Mention of third party products is for informational pur
41. ck wired as an insert jack This means that the ring connection is the send to and the tip connection is the return from the remote processor The figure below shows the wiring for the plug as well as the connections to from the external processor TO BALANCED IN MALE XLR PIN 1 GROUND PIN 2 HIGH PIN 3 LOW TO BALANCED IN ui MALE TRS PLUG 7 TIP HIGH 7 1 RING LOW er SLEEVE GROUND ING SLEEVE TO UNBALANCED IN MALE TS PLUG 7 TIP HIGH SLEEVE GROUND LOW amp MALE RCA PLUG TP NE gt TIP HIGH C SLEEVE GROUND LOW TO BALANCED IN TERMINAL STRIP HIGH JE Low GROUND TO BALANCED IN FROM UNBALANCED OUT v TERMINAL STRIP gt A A EAE 4 KR Me NE LOW w GROUND wy TO UNBALANCED IN FROM TRANSFORMER COUPLED OR FLOATING BALANCED OUTPUT MALE TS PLUG TIP HIGH 4 SLEEVE GROUND LOW MALE RCA PLUG Pe I TP HIGH SESS SLEEVE GROUND LOW UN OUTPUT STAGE UNBALANCED EQUALIZER EXPANDER COMPRESSOR DE ESS PRE AMI STAGE INPUT INPUT OUTPUT SDECHAN INPUT 0000 ourut 00007 our O 6 0 6 6 9 0 0 6 Return um Ground from EQ output Send a to EQ input
42. cted by 36 dB A compressor or limiter is often used to reduce dynamic range by setting an upper limit on the larger signals In some cases it s better to put processing to work on the lower end of the dynamic range than on the upper end In other words instead of reducing the amount of change at the upper end of the dynamic range with a compressor or limiter increasing the amount of change at the lower end of the dynamic range with a downward expander or gate Compressors are to Downward Expanders as Limiters are to Gates Compressors reduce the dynamic range of their output whenever the input signal is above threshold while downward expanders increase the dynamic range of their output whenever the input signal is below threshold Compressors limiters expanders and gates increase or decrease signal levels by some ratio Compressors usually have an adjustable ratio the ratio of the input level to the output level which is generally user adjustable A compressor operating with a 2 1 ratio allows only a 1 dB increase in output level for every 2 dB increase in input level Limiters usually have a nonadjustable ratio that is very high greater than 10 1 At 10 1 the limiter allows only a 1 dB increase in the output level for every 10 dB increase in the input level Limiters can be thought of as high ratio high threshold compressors They are intended to stay out of the way until the level goes above threshold However above threshold their
43. de or the third prong are provided for your safety If the provided plug does not fit into your outlet consult an electri cian for replacement of the obsolete outlet 10 Protect the power cord from being walked on or pinched particularly at plugs convenience receptacles and the point where they exit from the apparatus 11 Only use attachments accessories specified by the manufacturer 12 Use only with the cart stand tripod bracket or table specified by the manufacturer or sold with the apparatus When a cart is used use caution when moving the cart apparatus com bination to avoid injury from tip over 13 Unplug this apparatus during light ning storms or when unused for long periods of time 14 Refer all servicing to qualified service personnel Servicing is required when the apparatus has been damaged in any way such as power supply cord or plug cord is damaged liquid has been spilled or objects have fallen into the apparatus the apparatus has been exposed to rain or moisture does not operate normally or has been dropped TO REDUCE THE RISK OF FIRE OR CAUTION RISK OF ELECTRIC SHOCK DO NOT OPEN WARNING Etectric shock Do NOT Expose THIS EQUIPMENT TO RAIN OR MOISTURE AV S RISQUE DE CHOC ELECTRIQUE NE PAS OUVRIR SEE OWNERS MANUAL VOIR CAHIER D INSTRUCTIONS No user serviceable parts inside Refer servicing to qualified service personnel Il ne se trouve a l interieur
44. e s sh and t are very difficult to reproduce electronically because they contain a large percentage of very high frequency harmonics But because these sounds are essential to the intelligibility of speech they cannot be simply removed with equalization In fact to help maintain articulation many sound engineers boost the higher frequencies of the vocal spectrum 3 kHz to 8 kHz and or use microphones with presence curves However in certain individuals sibilant sounds are already over accentuated and any kind of high frequency boost only exacerbates the situation The 528E s de esser controls excessive sibilant and fricative vocal sounds which can often be as much as 12 dB louder than the rest of the spectrum It s activity is similar to a frequency conscious compressor limiter with an equalizer boosting the high frequencies in the sidechain Unlike a compressor limiter however the de esser operates only on the frequencies selected and above Unlike an equalizer the de esser can reduce the offending sounds without sacrificing intelligibility because it operates dynamically removing only sounds that are disproportionately loud and only those that fall within the operator selected control range De essers usually include controls that allow the operator to determine which frequencies are controlled and how much those frequencies are actually attenuated The 528E s de esser controls are frequency which is variable
45. e level at which the compressor starts to work As the sound level increases above the set threshold you will see the gain reduction LED display start to work indicating the amount of gain reduction taking place Generally 3 to 6 dB is sufficient unless you are using a low compression ratio below 2 1 or you want a special effect Pick a ratio suited to the task at hand low ratios and low thresholds for unobtrusive level control medium ratios for overall level control and consistency high ratios greater than 8 1 for limiting or in your face sorts of sounds Equalizer Settings Equalization is entirely dependent upon many factors and should generally be used to correct or enhance the frequency content of the signal For example the default settings should be close for the male voice For female voices the LOW EQ range shifts up to 200 or 300 Hz and the MID EQ range shifts up to 3 5 kHz If you are using a microphone that exhibits proximity effect then you ll probably need to reduce cut the bass LOW EQ response somewhat 3 6 dB should be fine but you ll have to compromise between a big full sound and the overbearing low frequency content Abit of MID EQ will help make voices cut through and seem louder The HIGH EQ can add brightness and intimacy It will take some tuning and experimentation based on the signal source microphone used and personal taste Output Settings For many applications setting the output GAIN control to 0 dB works
46. echain without changing the EQ in the main audio path Removing unwanted frequencies from the control signal before it actually reaches the VCA prevents those frequencies from being used to create gain changes Applications utilizing the sidechain may be found in the next section of this manual The Voice Symmetry Switch Human speech especially male human speech contains a great deal of asymmetry In broadcast especially AM broadcast this wastes transmitter power because the asymmetrical waveforms do not utilize the full power of the modulator The bottom line is that you risk negative overmodulation if you don t correct speech asymmetry before the modulator The Voice Symmetry switch corrects asymmetric speech waveforms before they get to your board an added bonus is that you can apply the correc tion only to the announce mics without affecting the music In recording applications this switch may help give slightly higher overall levels by improving the symmetry of speech signals which may allow lightening up on the compression Non speech signals may be adversely affected by the Voice Symmetry switch Let your ears be your guide User s Guide 528E Voice ED Symetrix Processor Applications 21 32 The 528E Voice Processor was designed to make the same kind of specialized processing that s applied to voice overs and vocal tracks in recording studios available for use in broadcasting paging public address and sound reinforcement
47. en switch to the frequency control and vary the frequency of that band of the equalizer while listening to program material fed through the unit This usually makes quick work out of finding the region that you want to work on Now reduce the level setting to something tasteful A common problem when trying to set an equalizer for someone s voice is converting the descriptive adjectives that people use in describing the character of a voice into the numbers that make equalizers happy The following table list some commonly used adjectives and their corresponding frequency ranges Range Description women Range Description men 100 250 Hz Fullness 75 200 Hz Balls rumble heaviness 250 400 Hz Bassiness bigness 200 300 Hz Bassiness bigness 400 600 Hz Warmth 400 600 Hz Chesty 600 1 kHz Volume 600 1 kHz Volume 2 kHz 4 kHz Clarity 2 kHz 4 kHz Clarity 3 kHz 5 kHz Nasal yell presence 3 KHz 5kHz Nasal yell presence 5 kHz 8 kHz Enunciation intimacy 5 kHz 8 kHz Enunciation intimacy 10 kHz up Air mouth noises 10 kHz up Air mouth noises To tailor your station s announce sound begin with an idea of what general sound you want Since you only have three general locations that you can equalize at you ll need to begin with the aspects of your sound that are most important The choice of microphone is very important since every microphone imparts its own equalization to any sound that it hears If you want a large ballsy sound
48. equirement is that the effects device have a mix control to set the direct effects signal mix Vocal Processing Recording and Reinforcement The 528E handles a wide variety of program material with ease When recording vocals the undesirable side effects that usually result from high ratio comp limiting like headphone leakage and room noise can be reduced with the 528E s interac tive expander processing During mixdown the 528E not only provides compression but also eliminates the noise that often accompanies vocal tracks that are processed with high frequency EQ compression or both In sound reinforcement situations if the threshold has been set correctly the expander will attenuate whenever a mic is not in use eliminating extraneous pickup of stage sounds and reducing feedback from monitor speakers The operating principle is the same for both the recording and reinforcement situations Adding Dynamics or Punch By setting the expand threshold above the level of the program material the 528E can be made to behave like a linear ex pander With this technique the 528E can simultaneously create a more dynamic feel add compression and reduce noise Use this kind of processing for special effects and to increase the dynamic feel of percussive instruments like electric bass snare drum rhythm guitar etc Set the expander threshold above the signal level The compressor limiter is used to control peaks and with certain instru
49. es than would normally be considered essing The additional control range greatly enhances the versatility of the de esser User s Guide 528E Voice ED Symetrix Processor Applications continued 22 32 Cleaning Up News Feeds Use the de esser to reduce unnatural high frequencies the compressor limiter to prevent overload the expander to eliminate noise and the parametric to make the feed sound better and or get rid of interference hiss noise extraneous sound etc Actualities carts that are prepared with the 528E produce an end product with better intelligibility and improved signal to noise ratio The object of the processing is to keep dynamic range within the real limits of the recording equipment to eliminate extraneous noise and to get better sound Increasing Gain Before Feedback To optimize a PA system s response for minimum feedback tune out the feedback using the parametric equalizer To find and eliminate resonances that can become feedback problems turn the system on with the microphone s and speaker s in place as they will normally be used then follow the sequence below Gain before feedback should increase about 6dB perhaps as much as 15dB with this technique 1 Note the settings of each of the compressor controls 2 Temporarily set the compressor ratio to 10 1 Increase system gain very carefully until a feedback frequency becomes slightly audible 3 With the bandwidth set at about 3 octa
50. esser operates by selectively removing the high frequencies from the input signal when sibilant sounds are present and exceed the threshold level The filter frequency can be varied over a wide range to accommodate different speakers and languages The dynamic range processor combines an interactive compressor limiter and a downward expander Typically the downward expander helps reduce studio noise as well as the artifacts of close miking The compressor limiter gives you overall control over the dynamic range of the output signal and helps maintain a high overall signal level The three band parametric equalizer is a reciprocal curve design An unusual leapfrog topology minimizes the number of amplifiers in the signal path while ensuring that each frequency band interacts with its neighbor in a desirable and musical fashion The 528E s output section can drive balanced loads at line or mic levels A line level unbalanced output is also provided For broadcast applications a switchable voice symmetry circuit helps make speech waveforms more symmetrical which makes better use of the transmitter s output power Each of the dynamics processors have individual six segment LED displays and an eight segment display monitors the overall output level All inputs and outputs are available via XLR connectors and the connection points between the individual processors can be accessed via TRS phone jacks The interstage patching may be used to change the insert
51. essing Tutorial continued separate even while the control circuit tells the VCA whether to turn the gain up or down you can equalize the sidechain without changing the EQ in the main audio path Removing unwanted frequencies from the control signal before it actually reaches the VCA prevents those frequencies from being used to create gain changes Applications utilizing the sidechain may be found in the Applications section Equalization Equalization is one of the most powerful tools available to the audio engineer It is quite possibly the first signal modification device that most people experience aside from the volume control This experience takes the form of using the tone controls found on most consumer audio equipment Even in this primitive form simple tone controls can shape and alter a sound giving us pleasure or pain evoking emotion or simply enhancing our listening pleasure The parametric EQ in the 528E provides both creative and corrective frequency shaping it can be used to create a more pleasing sound and to correct frequency response problems The equalizer has a symmetrical 15 dB boost cut response The term parametric simply refers to the fact that the primary operating parameters of the equalizer may be altered by the user The user adjustable parameters are e center frequency or fc expressed in Hz e bandwidth sometimes called Q or selectivity expressed in octaves and the amoun
52. fine If you are adding a lot of EQ this will tend to cause an over all level increase Thus you may need to lower the output GAIN appropriately Likewise if you are using a fair amount of compres sion you may need to add some gain to compensate for the gain reduction in the compressor section You should adjust the output GAIN control so that it provides enough signal level to your connections downstream yet still prevents the CLIP LED from illuminating The output CLIP LED monitors both the equalizer and the output stage Large amounts of EQ boost and or high signal levels can cause CLIP indications If this occurs lower the signal level via the GAIN control It is also possible for the output stage to clip if a pro cessor inserted via the OUTPUT STAGE INPUT jack is contributing gain to the overall signal path In this case either lower the gain of the inserted processor or reduce the setting of the output GAIN control User s Guide 528E Voice Processor Symetrix Front amp Rear Panel Overview 4 32 Mic Preamp MIC LINE Selects between the Mic input switch in and Line input switch out 15 PAD Inserts 15 dB pad for strong mic signals MIC GAIN dB Sets the gain of the mic preamp for best compromise between signal to noise ratio and headroom CLIP Monitors inputs mic and line for clipping llluminates 3 dB below the actual clip point PHANTOM llluminates when 48V phantom power is present at the microphone input connecto
53. gain increase that results from compression Careful adjustment of the expander threshold control will prevent feedback in the absence of signal even with substantial compression Note that in most cases the expander threshold must be set higher than the compressor threshold User s Guide 528E Voice ED Symetrix Processor Technical Tutorial 24 32 This section discusses a multitude of things all related to getting signals in and out of the 528E Matching Levels vs Matching Impedances In any audio equipment application the question of matching inevitably comes up Without digging a hole any deeper than absolutely necessary we offer the following discussion to hopefully clarify your understanding of the subject Over the years we have all had impedance matching pounded into our heads This is important only for ancient audio sys tems power amplifiers and RF Technically speaking the reason is power transfer which reaches a maximum when source and load are matched Modern audio systems are voltage transmission systems and source and load matching is not only unnecessary but undesirable as well Ancient audio systems operate at 600 ohms or some other impedance value and must be matched both at their inputs and at their outputs Generally speaking if you are dealing with equipment that uses vacuum tubes or was designed prior to 1970 you should be concerned about matching These units were designed when audio syste
54. idelines for the Voice Processor The particular kind of processing ap plied in any given situation must be determined by the problems encountered and by the dictates of the format What s neces sary or appropriate in one case may not be at all proper in another Announce Mics Compressing Limiting Expanding The 528E s dynamic range processor is used to control both over modulation and noise Noise in this case may be electrical ly induced hum buzz etc or acoustically transferred paper rattling cart solenoids air conditioning etc since the down ward expander attenuates all below threshold signals without regard to origin Careful adjustment of the two threshold controls allows the operator to put the 528E to work on any portion of the dynamic range The expand threshold control governs the 528E s activity in the lower part of the dynamic range while the comp threshold governs activity in the upper part of the range For smooth overall dynamic range processing that will tend to homogenize the sound and remove only very low level noises use a gentle compression ratio with a relatively high comp threshold and a relatively low expand threshold The soft knee transition characteristic of the interactive processor allows the use of much higher compressor limiter ratios with much lower thresholds The expander s rapid rise below its threshold combined with the compressor s smooth transition through its threshold makes pr
55. igue can be reduced by attenuating the 5th 6th and 7th octaves by about 5 dB Lisping Quality The 3 kHz range delivers a generous stimulus to the ear At very loud levels the region of greatest ear sensitivity shifts downward from 5 kHz this is why many PA speakers have broad peaks in this region A characteristic of low level signals peaked at 3 kHz is a lisping quality and the total inability to distinguish labial sounds such as m b and v In wide range lower level systems a peak in the 3 kHz region has a masking effect on important recognition sounds and on others which lie above 4 kHz Brilliance and clarity are lost and without attenuation of this region an unconscious strain with increasing fatigue is felt according to the amount of 3 kHz boost Presence Range The usual band affecting clarity in male speech is 3000 to 6000 Hz In a woman s voice the fundamentals are roughly an octave higher than a man s and a woman s range of consonant clarity lies between 5000 and 8000 Hz the high end of this range approaches a region of hearing insensitivity in humans Furthermore the total range of a woman s voice is about half that of a mans stimulating fewer hearing nerves and for this reason is consequently still weaker upon reception Wide range sounds especially those of singing voices have fundamentals with harmonics in the 5 kHz region of good ear sensitivity Voices that are powerful or rich with harmonics at 5 k
56. ion order of the processors or to insert additional processing Fast First Time Setup Follow these instructions to get your 528E up and running as quickly as possible The intent of this section is fast setup If you need something clarified then you ll find the answer elsewhere in this manual Connections ae Connection Setting Connect a Mic or Line level source to the appropriate input connec tor on the rear of the 528E Be sure to set the Mic Line switch to the Output Connect to input of console appropriate position and be sure to turn on phantom power if using a tape recorder etc microphone that requires it Next connect the appropriate output of the Line Input Connect line level source here 528E to your monitoring system or mixing console Finally connect the Mic Input Connect microphone here 528E to an AC source of the proper voltage and frequency as marked Phantom Power Depress if mic requires phantom powering Caution Failure to connect the 528E to the proper AC mains voltage may cause fire and or internal damage on the rear of the unit Warning Lethal voltages are present inside the chassis There are no user serviceable parts inside the chassis Refer all service to qualified service personnel or to the factory If you are using a condenser microphone refer to Phantom Powering Condenser Microphones before depressing the Phan tom Power switch User s Guide 528E Voice ED Symetrix Processor
57. is used as an equipment specification Noise floor is defined as the lower limit of a circuits operating level and is a function of its self generated electrical noise Very noisy circuits have a high noise floor quiet circuits have a low noise floor All circuits have a noise floor unless they are operating at 460 degrees Fahrenheit absolute zero The maximum output level of a circuit is the upper limit of the operating level and is the level at which clipping begins and is a function of the internal power supply voltage To put levels in perspective they must be referenced to some nominal operating level like 0 dBm That s why noise specs are stated as negative numbers In the case of the 528E noise is referred to the input and stated as equivalent input noise EIN The noise specification is given this way because the gain of the 528E s input stage is variable so the actual signal to noise performance of the unit becomes a function of how much gain is used in the preamp To find the signal to noise ratio at 0 dBm output algebraically add the preamp gain to the EIN 1 Since maximum output level is usually greater than 0 dBm it s stated as plus something The 528E s maximum output level is 18 dBm into a 600 ohm balanced load which is 18 dB above 0 dBm The difference between the noise floor and the onset of User s Guide 528E Voice ED Symetrix Processor Voice Processing Tutorial continued clipping is the dynamic
58. it restriction of a system is the noise floor which is usually well below the 528E s lowest expander threshold 50 064 It s important to keep in mind that while the signal levels may change greatly the noise usually doesn t change very much The action of the expander increases the dynamic range of all signals below threshold This action increases the apparent loudness of signals while decreasing the apparent loudness of the noise For example an expander operating at a ratio of 1 2 will cause an input signal that falls 10 dB below threshold to fall 20 dB at its output The downward action of the expander reduces the noise floor by the same ratio applied to the signal Since the relationship between the signal and the noise stays the same the noise is reduced 20 dB by the action of expander which is responding to a 10 dB drop in the signal with its 1 2 ratio De essers A de esser is another type of dynamic range controller that s specially designed to regulate high frequency content The technique was originally developed for motion picture dialogue recording when it was discovered that speech sounded more natural and pleasing when the accentuation of sibilants was reduced By sensing and limiting certain selected frequencies the de esser is intended to provide more specific control over some of the higher frequency vocal sounds that tend to become overemphasized especially when the talker is close miked Many sibilant vocal sounds lik
59. lus wire connects to pin 2 the low minus wire connects to pin 3 and the shield always connects to pin 1 This is the preferred method as it makes best use of the 528E s balanced input even though the source is unbalanced The other alternative shown converts the 528E s balanced input into an unbalanced input at the input connector This works but is more susceptible to hum and buzz than the preferred method There is no level difference between either method The 528E has two output connectors XLR male and TRS female The XLR connector may be configured for either micro phone level or line level output The TRS connector is always line level Refer to Appendix A for conversion instructions You can drive unbalanced loads with the 528E s outputs by using the XLR connector with pin 3 left open In an emergency the show must go on you can ground pin 3 but if you have the choice leave it open If you must ground pin 3 it must be User s Guide 528E Voice Processor Technical Tutorial continued Symetrix 26 32 grounded at the 528E rather than at the other end of the cable The price regardless of whether or not pin 3 is grounded is 606 less output level This can be easily made up via the output gain controls If your system is wired with pin 3 hot pin 2 must float if you are driving an unbalanced load The 1 4 inch unbalanced output uses a TRS female jack with the ring contact wired to circuit ground This jack i
60. ments like electric bass to put in a little more bottom by creating extra sustain Set the comp threshold so the maximum compression is about 6dB with ratios below 2 1 or 3dB with ratios above 2 1 Since this kind of processing reduces overall output level use the output gain control to bring levels back up to normal High Level Stage Monitors Dynamic Processing Public address and sound reinforcement situations that require compression limiting are often plagued by feedback problems Usually the make up gain used with compression causes an overall increase in level which in turn can cause feedback in the absence of signal when the compressor releases and brings the gain back up to normal The 528E s interactive dynamics processor allows the use of large amounts of comp limiting without serious side effects When compression is applied to normal signal levels the compressor returns to unity gain when the signal goes away This action increases overall system gain The 528E s expander on the other hand decreases gain whenever signals fall below threshold Careful setting of the two threshold controls tells the 528E how and when to adjust the gain Stage monitors can be made much tighter with compression but feedback problems often make even gentle low ratio compression impossible The 528E s interactive processor performs exceedingly well in this situation because the expander decreases gain to compensate for the
61. ms were based on maxi mum power transfer hence the need for input output matching e Power amplifiers are fussy because an abnormally low load impedance generally means a visit to the amp hospital Thus it s important to know what the total impedance of the pile of speakers connected to the amplifier really is RF systems are matched because we really are concerned with maximum power transfer and with matching the imped ance of the transmission line keeps nasty things from happening Video signals composite baseband or otherwise should be treated like RF Some folks seem to believe that balanced unbalanced lines and impedances are related or even worse that they are associ ated with a particular type of connector Not so Unbalanced signals are not necessarily high impedance and balanced sig nals lines are not necessarily low impedance Similarly although 1 4 inch jacks are typically used for things like guitars which are high impedance and unbalanced this does not predispose them to only this usage After all 1 4 inch jacks are sometimes used for loudspeakers which are anything but high impedance Therefore the presence of 3 pin XLR connectors should not be construed to mean that the input or output is low impedance or high impedance The same applies to 1 4 inch jacks So what is really important Signal level and to a much lesser degree the impedance relation between an output signal source and the input that it connec
62. nd gates are the functional opposites of compressors and limiters Compressors continuously reduce the dynamic range of signals that are above threshold while expanders continuously increase the dynamic range of signals that are below threshold Limiters can be thought of as very high ratio compressors and gates can be thought of as very high ratio expanders In addition to their roles as remedial signal processors compressors also have a creative role You can use a compressor to increase the apparent sustain of a guitar increase apparent loudness improve the consistency of a bass by removing or reducing level changes and many other things Generally speaking the settings for these applications are somewhat extreme so experimentation is the name of the game Defining Dynamic Range To begin a discussion of dynamic range processors it s necessary to have a working definition of dynamic range The term is really self descriptive but has two distinctly different uses 1 To describe the actual range of signal fluctuations that are going through the equipment 2 To define the maximum allowable range of signal fluctuations that can be put through the equipment The usual unit of measure for audio signals is the decibel dB Dynamic Range as a Specification The maximum usable range of operation for a particular circuit or piece of gear is the distance in dB between the noise floor and the maximum output level In this context dynamic range
63. nder threshold 30 dBm to 0 dBm and a bypass switch There shall be a three band parametric equalizer Each band shall have 15 dB maximum boost cut and continuously variable bandwidth 3 octaves to 4 octaves The equalizer bands shall have substantially overlapping frequency ranges with a com bined range of 16 Hz to 22 kHz There shall be a front panel bypass switch The voice processor shall be equipped with the following LED displays An eight segment LED display shall be provided for monitoring the overall output level six segment displays for monitoring the de esser compressor limiter and downward ex pander All displays shall be independent There shall also be a single LED clip indicator to indicate clipping within either of the input preamplifiers or buffers The microphone input shall be an active balanced bridging design terminated with 3 pin XLR female connector AES IEC standard wiring The microphone preamp shall be capable of an equivalent input noise specification of at least 126 dBu 150 Ohm source 60 dB gain 20 Hz to 20 kHz The line input shall be a balanced transformerless design using a 3 pin XLR fe male connector AES IEC standard wiring All input circuitry shall incorporate RFI filters of the LC low pass type The output shall be an active balanced design terminated with a 3 pin XLR male connector AES IEC standard wiring The output signal level shall be switchable to accommodate subsequent line or microphone
64. ng from previous upstream modules of the 528E TRS phone jack wired unbalanced This is the output of the equalizer Inserting a connector into this jack does not interrupt signal flow to the 528E s output stage EQUALIZER OUTPUT INPUT TRS phone jack wired unbalanced This is the input to the equalizer Inserting a connector into this jack interrupts signal flow from the Expander Compressor O Expander Compressor 1 0 OUTPUT SIDECHAIN INPUT TRS phone jack wired unbalanced This is the output of the expander compressor Inserting a connector into this jack does not interrupt signal flow to the equalizer EXPANDER COMPRESSOR OUTPUT SIDECHAIN INPUT TRS phone jack wired as an insert jack Tip return Ring Send Use this jack trigger or key the compressor expander from an external source O Q TIP RETURN RING SEND TRS phone jack wired unbalanced This is the input to the expander compressor Inserting a connector into this jack interrupts signal flow from the de esser User s Guide 528E Voice ED Symetrix Processor Front amp Rear Panel Overview continued 6 32 De esser I O OUTPUT TRS phone jack wired unbalanced This is the output of the de esser Inserting a connector into this jack does not interrupt signal flow to the 528E s expander compressor DE ESS INPUT TRS phone jack wired unbalanced This is the input to the expander compressor
65. nside the U S should refer all servicing to the Symetrix factory Customers outside the U S should refer all servicing to an authorized Symetrix distributor Distributor contact information is available online at www symetrixaudio com User s Guide 528E Voice ED Symetrix Processor Introduction Fast First Time Setup Introduction The Symetrix 528E is a single channel Voice Processor intended for use in voice over studios broadcast studios sound reinforcement music and speech recording and post production Simply stated the 528E consists of a high quality microphone preamp coupled to a three band parametric equalizer a de esser and a dynamic range processor It is everything you would have at your disposal in a world class mixing console The 528E accepts both mic and line inputs Of course while we use the term Voice Processor for the 528E it is perfectly at home with any signal vocal or not The microphone input uses a balanced transformerless design using an integrated circuit specifically developed for this application The 528E s microphone input works with any phantom powered condenser microphone or any low impedance microphone having a balanced floating output The line input uses a balanced transformerless design The line input s design uses matched resistors to attain a high wideband CMRR common mode rejection ratio and multistage RFI filters to prevent Radio Frequency interference problems The de
66. nts are necessary Installation Requirements Mechanical One rack space 1 75 inches required 12 5 inches depth including connector allowance Rear chassis support recommended for road applications Electrical 105 125V ac 12 5 Watts maximum 210 250V ac 50 Hz 12 5W maximum export Connectors XLR 3 female for inputs XLR 3 male and TRS 1 4 inch female for outputs Pin 2 of the XLR connectors is Hot The sidechain access jack output uses a TRS jack wired as an insert jack tip return ring send User s Guide 528E Voice ED Symetrix Processor Using the 528E continued 16 32 The interstage patch points use TRS jacks with the ring and sleeve connections connected to circuit ground The jacks are half normalled only input breaks normal Level Setting For optimum noise performance correct level settings are a must especially for microphone sources You should operate the 528E s mic preamp at the highest gain possible without overload Extremely hot signals may require using the 15 dB pad switch The 528E expects line level signals to fall in the 4 dBu region Lower signal levels are okay but the noise performance may suffer as there is no gain trim control for the line input The Clip LED in the mic input section of the 528E actually monitors the output of the Mic Line switch If the LED glows and you are using the Mic input then reduce the setting of the Mic Gain control until the LED no longer glows
67. ocessing go unnoticed Use this application to tighten up voice overs The expander elimi nates noise and adds punch The expander may be used without the compressor to remove background noise Be sure the expand threshold is set low enough to allow even the lowest level speech sounds to pass and the compression ratio is set to 1 so the compressor limiter is essentially out of circuit Likewise the compressor limiter may be used without the expander to control only the upper end of the dynamic range For general purpose overall gain control use compression Set the ratio between 2 1 and 3 1 with a comp threshold setting that results in 6dB to 10dB attenuation Limiting is used for very definite control of the maximum level As the name implies limiting sets the upper limit but is not in tended for general purpose oveall gain control For limiting set the ratio at 10 1 with the comp threshold control set to provide no more than 3dB to 6dB attenuation Bear in mind that limiting is an extreme dynamic control action intended to prevent overload farther down the line Limiting may be more pleasing to the ear than clipping distortion but it doesn t sound good enough to be used for more than 6dB attenua tion Using the De Esser De essers are used to reduce the level of certain high frequency vocal sounds like sibilance overemphasized fricatives and lip smacking The 528E s de esser provides control over much lower frequenci
68. phones having under damped diaphragms may ring at these frequencies causing an annoying sibilant distortion on speech On musical forms using hand percussion boosting this range frequently results in an astonishing and pleasing feeling of clarity Conclusions When the article containing the above excerpts was written probably around 1963 stereo was just becoming a commercial reality you could still purchase mono and stereo versions of an LP and there were still more FM stations broadcasting in mono User s Guide 528E Voice ED Symetrix Processor Voice Processing Tutorial continued than stereo and as many mixers contained rotary mix pots as those that used slide pots The value of individual channel equalization was known but it was both technologically and financially prohibitive The article concludes thusly With the advent of stereo and three channel recording nearly three times the equipment with more elaboration seems indicated and expansion of console area in the horizontal plane offers the only direction in which to proceed But a single engineer has arms only so long How times have changed Using the Parametric Equalizer Great care must be exercised when using equalization The following paragraphs give some general hints and precautions for using the 528E s parametric equalizer or any other equalizer for that matter Beware of Distortion and Noise When a frequency or group of frequencies are boos
69. poses only and constitutes neither an endorsement nor a recommendation Symetrix assumes no responsibility with regard to the performance or use of these products Under copyright laws no part of this User s Guide may be reproduced or transmitted in any form or by any means electronic or mechanical without permission in writing from Symetrix Inc If however your only means of access is electronic permission to print one copy is hereby granted Product names mentioned herein may be trademarks and or registered trademarks of their respective companies
70. powering on the next page for additional information The 528E s line input impedance is 10 kilohms balanced and 10 kilohms unbalanced The inputs may be driven from any source balanced or unbalanced capable of delivering at least 10 dBu into the aforementioned impedances The 528E s output impedance is 200 ohms balanced 100 ohms unbalanced The output line driver delivers 18 dBm into a 600 ohm balanced load or 18 dBm into 600 ohm unbalanced loads Polarity Convention The 528E uses the international standard polarity convention of pin 2 hot Therefore XLR Tip Ring Sleeve Signal 1 Sleeve Ground 2 Tip High 3 Ring Low If your system uses balanced inputs and outputs and uses the 528E this way then the polarity convention is unimportant If your system is both balanced and unbalanced then you must pay attention to this especially when going in and coming out through different connector types like input on an XLR output on a phone jack Input and Output Connections The illustration on the following page shows how to connect the 528E to balanced and unbalanced sources and loads To operate the 528E from line level unbalanced sources run a 2 conductor shielded cable that s two conductors plus the shield from the source to the 528E s line input At the source connect the low minus side to the shield these connect to the source s ground connect the high plus side to the source s signal connection At the 528E the high p
71. r The phantom power switch is located on the rear panel De Esser FREQUENCY _ Sets the rolloff cutoff frequency of the de esser THRESHOLD Sets the threshold level for the de esser Signals above this level cause de esser action signals below do not DE ESS Hard wire bypasses the de esser The de esser is active when this switch is in IN OUT LED Display Indicates the amount of de esser activity at any instant in time Downward Expander Compressor EXP THRES Sets the threshold level for the downward expander Signals below this threshold are downward expanded reduced in level EXPANDER Indicates the amount of de esser activity at any instant in time LED Display COMP THRES Sets the threshold level for the compressor Signals above this threshold cause gain reduction in the compressor COMP RATIO Sets the compression ratio of the compressor EXP COMP IN OUT Defeats the downward expander compressor This is not a hard wire bypass COMPRESSOR Indicates the amount of compressor activity gain reduction at any given instant in time LED Display Parametric EQ Low FREQUENCY _ Varies the center frequency of the low frequency equalizer from 16 Hz to 500 Hz BANDWIDTH Varies the bandwidth of the low frequency equalizer from 0 3 to 4 octaves Q 0 27 to 4 8 CUT BOOST Set the degree of boost or cut 15 dB Parametric EQ Mid FREQUENCY _ Varies the center frequency of the low frequency equalizer from 160 Hz
72. reamp this will work When configured for mic level output the 528E s circuitry doesn t care if phantom powering is or isn t present at the console s mic input Appendix A contains instructions for altering the output level of the 528E Note Padding attenuating the output of the 528E back to microphone level is a workable solution towards interfacing the BALANCED OUTPUT OUTPUT STAGE EQUALIZER EXPANDER COMPRESSOR DE ESS PRE AMP UNBALANCED STAGE OUTPUT INPUT OUTPUT INPUT OUTPUT SIDECHAIN INPUT OUTPUT INPUT OUTPUT RING SEND PHANTOM POWER HV m BYPASS FRONTPANEL INPUT SELECT SWITCH IN MIC POSITION 528E into a console or system having only microphone level inputs However workable the ultimate performance of the 528E will be limited by the performance of your system s existing microphone preamps If you can find a way to bypass the existing microphone preamps in your system do so It ll be worth the trouble User s Guide 528E Voice ED Symetrix Processor Using the 528E continued 17 32 Using the 528E as a Channel Insert Device The 528E can also be used as a channel insert device with your console Use the 528E s line input and line output as shown below BALANCED OUTPUT LING ress UT Mif Ress UT OUTPUT STAGE EQUALIZER EXPANDER COMPRESSOR DE ESS PRE AMP 0 UNBALANCE
73. s still easier to find that frequency by boosting first tuning second and resetting the boost cut last according to taste or need Finally you may find that more natural sounds result when you use wider bandwidths for boosting narrower bandwidths for cutting Regardless there are no hard and fast rules and in the end whatever works for you is best It s generally easier to apply boost to a sound for shaping and that s how many engineers start Many times however you may want to experiment with removing an offending sound as opposed to drowning it out with something else In a complex mix this may work better because it may require less overall EQ to remove the offending sound the end result will sound more natural De Esser The de esser uses a variable frequency crossover whose outputs are mixed The high frequency path through the mixer is controlled by a VCA whose gain is a function of the sibilance content of the input signal In sibilant speech the dominant fre quency component is the sibilance itself Reducing the level of high frequencies during periods of sibilance reduces the level of the sibilant Set the de esser by adjusting the Threshold level until the de esser s gain reduction display indicates around 12 dB Now tune the Frequency control until the sibilance is no longer objectionable Finally modify the Threshold control setting until you have the desired degree of de esser action Compression The compressor
74. s unaffected by the internal output level switch Unlike the XLR connector using this jack corrects the gain so that it is unity The interstage patching jacks are half normalled only the input jack breaks normal TRS jacks wired for unbalanced operation This means that the tip is the signal connection ring and sleeve are ground This method of connection allows either TRS or TS plugs to be used with either balanced or unbalanced inputs or output on the remote equipment Aside from that the TRS jack grabs the plug better Ensure that your plug is fully inserted into the jack FROM BALANCED OUT FEMALE XLR PIN 1 GROUND PIN 2 HIGH PIN 3 LOW FROM BALANCED OUT MALE TRS PLUG P TN TIP HIGH i RING LOW SLEEVE GROUND FROM UNBALANCED OUT MALETS PLUG _ mc TIP HIGH C SLEEVE GROUND LOW MALE RCA PLUG TIP HIGH lt SLEEVE GROUND LOW i ed FROM BALANCED OUT TERMINAL STRIP HIGH Low wy GROUND FROM BALANCED OUT TO UNBALANCED IN TERMINAL STRIP HIGH FROM ELECTRONIC NON TRANSFORMER BALANCED OUTPUT TYPICAL OF SYMETRIX PRODUCTS TO UNBALANCED INPUTS MALE TRS PLUG TIP HIGH RING NOT USED SLEEVE GROUND LOW FEMALE XLR PIN 1 GROUND LOW PIN 2 HIGH PIN 3 NOT USED The sidechain access jack for the dynamics processor uses a TRS ja
75. t fairly high and upstream devices contributing a significant amount of gain Is the unit plugged in and turned on Is the AC outlet OK If you are using a condenser microphone is the phantom power switched on Do you have the proper input selected Is everything downstream really live If you are using the patching jacks unpatch everything temporarily to see if it is in your patch Is the Downward Expander Threshold set too high User s Guide 528E Voice Processor Symetrix Product Specifications Inputs Controls and Switches Mic Gain Phantom Power Mic Line XLR female 2 Lights at 17 dBu output level from mic preamp or line input amplifier Mic and Line Input Connectors Clip LED Balanced Transformerless Low Impedance Microphone Input Type Phantom Power DIN 45 596 Microphone Preamp Gain 48V nominal 22 to 60 dB pad out 7 to 45 dB pad in Microphone Input Maximum Input Level 3 dBu pad out 126 dBV 150 0 Ohm source 20 Hz to 20 kHz 0 05 2 kHz 50 dB gain 17 dBu output Equivalent Input Noise EIN THD Noise Preamp only Mic Preamp CMRR gt 60 dB 40 dB gain 20 Hz to 20 kHz Line Input Type and Impedance 10k Ohm Transformerless Balanced Bridging 24 dBu Line Input Nominal Input Level 4 dBu Line Input CMRR gt 50 dB 0 dBu 20 Hz to 20 kHz Line Input Maximum Input Level Parametric Equalizer Type Three band Parametric Equalizer Bands Low 16 to 500 Hz
76. t of cut or boost expressed in dB These terms are defined as follows 1 Center Frequency is defined as the frequency in Hz of the middle of the bell shaped response curve formed by a filter 2 Bandwidth is the width of the bell shaped curve measured between its 3 dB points The measure of bandwidth in audio equalizers is usually given in octaves or parts of an octave 3 Cut or Boost is given in dB at the center frequency Equalization Tutorial Equalization is nothing more than selectively or not amplifying a signal based on frequency Since audio signals consist of combinations of fundamental signals and their harmonics changing the tonality or the spectral balance of a signal involves nothing more than altering the relationship of the fundamental to its harmonics and of the harmonics to themselves Each harmonic is responsible for one aspect of the audible character of a signal knowing these relationships allows you to quickly zero in on the correct frequency range of the signal and apply boost or cut to enhance or correct what you are hearing The audio spectrum has several critical portions that are responsible for our perceptions of sounds that we hear Range Frequencies Musical Location Very Low Bass 16 64 Hz 1st and 2nd octaves Bass 64 256 Hz 3rd and 4th octaves Midrange 256 2048 Hz 5th 6th and 7th octaves Lisping Quality 3000 Hz Between the 7th and 8th octaves Presence Range 4750 5000 Hz Between the 8th and
77. ted the overall operating level is boosted as well For example 12 dB of boost no matter what the frequency increases the 528E s output level 12 dB at that frequency This kind of boost reduces headroom by 12 dB in every circuit from the 528E s own line driver to the last device in the signal chain transmitter tape machine or what have you Unless signal levels are very low to begin with the 528E s output gain will have to be reduced to compensate for increased levels whenever the equalizer is used for boost The Clip LED in the Output LED meter monitors levels in the equalizer as well as at the output of the 528E If the Clip LED glows try switching the equalizer to Bypass If the LED still glows reduce the setting of the Output Gain control If switching the equalizer to Bypass eliminates the clip indication then the input level must be reduced via the Mic Gain control or by lowering the level of the line input On the other hand if the levels within the 528E are too low to start with using the equalizer for boost may increase noise to unacceptable levels If levels are too low increase the preamp gain or the output level of the device feeding the line input Know What You Are Listening To Low frequency boost may increase the level of some frequencies that cannot be heard for one reason or another Many high quality microphones are capable of generating substantial output at very low frequencies below 50 Hz which cannot be
78. to 6 3k Hz BANDWIDTH Varies the bandwidth of the low frequency equalizer from 0 3 to 4 octaves Q 0 27 to 4 8 CUT BOOST Set the degree of boost or cut 15 dB Parametric EQ High FREQUENCY _ Varies the center frequency of the low frequency equalizer from 680 Hz to 22 kHz BANDWIDTH Varies the bandwidth of the low frequency equalizer from 0 3 to 4 octaves Q 0 27 to 4 8 CUT BOOST Set the degree of boost or cut 15 dB EQ IN OUT Hard wire bypasses the entire equalizer PROCESSOR DEESS dB 15 129 6 4 2 PO GOCC 0 Os FREQUENCY THRESHOLD ma DOWNWARD EXPANDER d8 20 16 12 9 6 3 20 16 12 9 6 3 2060 z COMPTHRES COMPRATIO mo COMPRESSOR dB 10060 Tiens 0 0 6 FREQUENCY BANDWIDTH CUT BOOST MIDEQ Hz dB 25K 15 o 160 636 3 4 75 15 FREQUENCY BANDWIDTH CUT BOOST amp O G6 FREQUENCY BANDWIDTH CUT OOST User s Guide 528E Voice ED Symetrix Processor Front amp Rear Panel Overview continued 5 32 Output Section GAIN Sets the overall gain of the 528E s output over a 15 dB range a ae O 6 06000000 NOTE The actual adjustment point is in the expander compressor s VCA which is pre EQ VOICE Inserts speech waveform asymmetry correction into the signal path ro SYMMETRY OUTPUT LED Indicates the peak output
79. tory packaging materials we rec ommend using an oversize box Wrap the unit in a plastic bag surround it with bubble wrap and place it in the box surrounded by Styrofoam peanuts Be sure there is enough clearance in the box to protect the rack ears We won t return the unit in anything but Symetrix packaging for which we will have to charge you If the problem is due to operator misuse or error you will have to pay for both parts and labor In any event if there are charges for the repair you will pay for the return freight All charges will be COD unless you have made other arrangements prepaid Visa or Mastercard Out of warranty repairs If the warranty period has passed you ll be billed for all neces sary parts labor packaging materials and freight charges Please remember you must call for an RA number before sending the unit to Symetrix User s Guide 528E Voice ED Symetrix Processor Declaration of Conformity 32 32 Declaration of Conformity We Symetrix Incorporated 6408 216th St SW Mountlake Terrace Washington USA declare under our sole responsibility that the product 528E Voice Processor to which this declaration relates is in conformity with the following standards EN 60065 Safety requirements for mains operated electronic and related apparatus for household and similar general use EN 55103 2 Electromagnetic compatibility Generic immunity standard Part 1 Residential commercial and light
80. ts to signal receiver Signal level is very important Mismatch causes either loss of headroom or loss of signal to noise ratio Thus microphone in puts should only see signals originating from a microphone a direct DI box or an output designated microphone level output Electrically this is in the range of approximately 70 to 20 dBm Line inputs should only see signals in the 10 to 24 dBm dBu range Guitars high impedance microphones and many electronic keyboards do not qualify as line level sources The impedance relation between outputs and inputs needs to be considered but only in the following way Always make sure that a device s input impedance is higher than the output source impedance of the device that drives it Some manufacturers state a relatively high impedance figure as the output impedance of their equipment What they really mean is that this is the minimum load impedance that they would like their gear to see In most cases seeing a output imped ance figure of 10 000 10K ohms or higher from modern equipment that requires power batteries or AC is an instance of this type of rating If so then the input impedance of the succeeding input must be equal to or greater than the output impedance of the driving device Symetrix equipment inputs are designed to bridge be greater than 10 times the actual source impedance the output of what ever device drives the input Symetrix equipment outputs are designed to drive 60
81. ualization the two key ingredients in the 528E The tutorial information is intended to provide a background for the information found in the remainder of this manual Dynamic Range Processing Dynamic range processors are used to fit wide range signals into narrow range transmission or storage channels The dynamic range of acoustical signals found in real life usually far exceeds our capacity to store or transmit them Confronted with this dilemma audio engineers usually reach for a compressor limiter or downward expander as a means to fit two pound signals into one pound bags Compressor limiters respond quickly to transients and gently to normal speech level changes which keeps overall levels in check The downward expander s operation is the inverse of the compressor limiter which prevents pumping and breathing even when high ratio compression is necessary Because the compressor limiter and the downward expander are interactive the 528E always responds appropriately while providing automatic control over a wide range of input levels Strictly speaking the terms compressor and limiter refer to two different devices Oftentimes the two are combined into a single device called a compressor limiter Compressor limiters usually perform as either a compressor or a limiter but not both at once Functionally a compressor limiter is a device that lets the user define or predetermine the maximum level of an audio signal Expanders a
82. ve and the cut boost control set for about 15dB tune the frequency control of one section until the feedback is no longer audible 4 Increase system gain until feedback becomes slightly audible again A If it s the same frequency that was heard first readjust the same frequency and bandwidth controls until it again subsides B If it s a new frequency repeat Step 2 using another of the EQ sections 5 Increase gain again to find the third most prominent feedback frequency Repeat Step 2 using yet another of the EQ sec tions 6 Reduce system gain to normal operating levels Parametric EQ in the Sidechain The parametric equalizer can be placed in the sidechain of the dynamic range processor to make compression limiting or expanding action frequency sensitive The equalizer is patched into the sidechain so the audio signal that will ultimately be come the VCA s control voltage can be equalized before being fed to the detector circuitry see previous sections for additional information and hookup details To make the 528E s compressor limiter more sensitive to high frequencies boost the high frequencies on the equalizer This increases the sensitivity of the compressor s control circuits to those particular frequencies so the compressor limiter responds more to those frequencies than any others in effect the threshold setting is lowered by the extent that the high fre quencies have been boosted Juggling the relationship
83. y set to Bypass and the Output Gain control set to 0 dB 12 00 o clock set the Mic Gain control so that the Output Level display indicates levels in the 10 to 0 VU range The Clip LED should never illuminate on signal peaks Remember to restore the settings of the various bypass switches Finally the Output Gain After adjusting all of the other processors set this control so that the 0 VU LED on the Output Level User s Guide 528E Voice ED Symetrix Processor Using the 528E continued 19 32 meter illuminates The red Clip LED should never illuminate The output Clip LED also monitors the EQ section If the Clip LED illuminates reduce the Output Gain control setting slightly You may need to increase the gain of some device following the 528E to achieve the same overall level Equalization Bandwidth specs in octaves for some popular equalizers Name BW min BW max API 550 1 6 n a Focusrite 0 6 1 8 Neve V3 0 2 3 0 SSLG 1 4 2 8 SSLE 0 5 2 5 The 528Es parametric equalizer has three overlapping bands Each band can operate as a peaking or dipping equalizer The boost and cut range for each band is 15 dB The bandwidth may be varied from 0 3 to 4 octaves wide Since the bands overlap it is possible to apply equalization at the same frequency in two places Doing so could conceivably increase the signal level by 30 dB at one frequency You may need to reduce the Input or Output Gain to avoid distortion Like wise l
84. z in output Distortion Noise hiss No LED displays No nothing Notes PROBABLE CAUSE Check cables and connections Are inputs driven by outputs and outputs driving inputs Verify cables source and load by patching input and output connections together at the unit Check for AC power presence Power LED on Check output by plugging headphones into output connector use an adapter Are the LED displays operating Is the 528E set for mic level output Is the Mic Line switch set correctly Check input and output connector wiring Ground loop Check related system equipment grounding Are all system components on the same AC ground Check input signal Is it too hot or is it already distorted Is the Output display indicating clipping Is the input clipping Check output loading Should be above 600 ohms Are the power amplifiers clipping Is something else clipping Is the 528E set for mic level output driving a line level input with the 528E s gain set fairly high and upstream devices contributing a significant amount of gain Check input signal levels and level control settings The Output display should indicate signal up to but not including the Clip LED Check gain settings on upstream equipment Is the input signal already noisy The system gain structure should be such that the 528E operates at or near unity Is the 528E set for mic level output driving a line level input with the 528E s gain se
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