geo s8 & cd12 user manual v1.05
Contents
1. 20 100 ik Off axis response in dB in the non coupling plane flange 120 From dark to light 0 15 303 45 and 60 off axis COVERAGE ANGLE Degree 200 100 10 10k 20k 1k Total coverage 6dB in the coupling plane in degrees From dark to light 1 2 and 4 boxes 100 COVERAGE ANGLE Degree 200 100 10k 20 100 1k Total coverage 6dB in the non coupling plane in degrees flange 80 dark and flange 120 light All measurements made with dedicated NX program Measurements conditions far field half space below 400Hz anechoic above 400Hz Directivity Index and factor computer synthesized from coverage Coverage 1 3rd octave band synthesized from FFT measurements IMPEDANCE Ohms 64 32 8 30 100 1k 10k 20k Impedance in Ohms THD N 0 1 100 ik 10k 20k Total harmonic distortion noise in percentage Level 110dB 1m 2500Hz 5000 Hz Flange 80 dark and flange 120 light polar plot in the non coupling plane 3dB division ARDI 100 20 o 100 tk 10k 20k Directivity Index in dB Left hand side scale and directivity2. 400 mm 754 mm Weight 35 kg 77 lbs TECHNICAL SPECIFICATIONS P 33 CD12 curves ONAXIS RESPONSE dB 10 0 10 20 30 100 On axis response in dB Maximum Bandwidth Actual bandwidth depends from NX242 settings IMPEDANCE Ohms 32 16 8 4 30 100 200 Impedance in Ohms ARDI 10 10 0 30 100 200 Directivity Index in dB Left hand side scale and directivity factor Right hand side scale All measurements made with dedicated NX242 program Measurements conditions far field half space below 400Hz anechoic above 400Hz Directivity Index and factor computer synthesized from coverage Coverage 13 octave band synthesized from FFT measurements 200 180 120 60 120 180 3 0 1 Horizontal dark and vertical light coverage 6aB Horizontal dark and vertical light polar plot 3dB division COVERAGE ANGLE Degree RA a mn FR 00 200 P 34 USER S NOTES USER S NOTES France Nexo S A Parc d activit de la dame jeanne F 60128 PLAILLY Tel 33 3 44 99 00 70 Fax 33 3 44 99 00 30 E mail info nexo fr www nexo sa com
3. NENO GEO S Series S805 5 Tangent Array Module S830 30 Tangent Array Module CD12 HyperCardoid Subbass SIPA a User Manual GEO S8 SERIES USER MANUAL V1 05 Date 05 10 2010 P 2 PLEASE READ CAREFULLY BEFORE PROCEEDING GEO is new technology The 3 year GEO R amp D Project has generated the following patent applications e The GEO Hyperboloid Reflective Wavesource works on a different principle from the coercive megaphone variant horns you know and love hate If you apply tried and true methods to this entirely different species of waveguide the results are likely to be very different from what you expect e The Configurable Directivity Device A waveguide that allows the operator to alter its behaviour in the field Yes Another unprecedented development that s easy to use once you know how and when e The Directivity Phase Device needs no operator input to work properly but it s always nice to know GEO is not hard to use when you understand how The R amp D behind GEO is revolutionary but it is grounded in years of practical experience with the problems of delivering high quality sound to large audiences at professional SPL levels GEO includes a simple yet powerful and highly predictive design tool NS 1 The array assembly system is keyed to the design software and will easily enable you to deploy your design with precision to 0 01 The NX242 includes presets that have been teste
4. 20 kHz 99 dB SPL Nominal 97 dB SPL Wideband 125 to 128 dB Peak for a single cabinet Configuration dependant when arrayed Coupling Plane 30 for a single cabinet Configuration dependant Non coupling plane 120 configurable to 80 DI 12 Nominal f gt 1 5 kHz for a single cabinet Configuration dependant when arrayed 1 8 kHz Passive 16 ohms 1500 to 3000 Watts into 4 ohms 4 cabinets per channel Up to 6 cabinets per channel may be connected to large amplifiers capable of operating into low impedance loads GEO S830 LF 1 x 8 20cm Neodymium Hi flux 16 Ohm Driver HF 1 x 1 Throat Neodymium Driver on a Hyperboloid Reflective Wavesource Height x Width x Depth 406 x 250 x 219 mm 16 x 9 7 8 x 5 5 8 without flying hardware Shape 30 Trapezoid Weight 13 kg 28 7 lbs with Tangent Array Assembly System 10 5 kg 23 lbs net Connectors 2 x NL4MP SPEAKON 4 pole In 8 Through Construction Baltic Birch Ply finish with structured black coating Front Finish Perforated Steel Grill Flying points Integral flying system Intercabinet Angle Adjustments 0 31 to 5 logarithmic steps 17 5 8 30 SYSTEM OPERATION Electronic Controller HF Dispersion Configuration The NX242 Digital TDcontroller presets are precisely matched to the GEO S8 Series cabinets and include sophisticated protection systems Using GEO S Series cabinets without a properly connected NX242 Digital TDco
5. Phone 212 244 1505 Fax 212 244 1502 info esta org www esta org GEO Loudspeakers Front connection point Angle setting plate Pivot point Avoids the bar Angle setting bar of the last cabinet to fall GEO 5850 and 5830 Tangent Array Modules are shipped from the factory with identical array assembly hardware The GEO Tangent Array Assembly System has three attachment points on each side The points in the front connect each GEO cabinet to the adjacent enclosures above and below The angle between cabinets is set by attaching one end of the angle setting bar to the proper hole on the angle setting plate which extends beyond the rear of the cabinet The front connection points and the angle setting holes in the angle plate are milled for the supplied pins which have a diameter of 8 mm Possible replacements for specific applications include e Nuts and bolts with a diameter of 8mm or 5 16 in 7 94 mm for fixed installation e 8mm NEXO REF BLGEOS or 5 16 in pins with spring loaded locking balls for quicker array assembly and disassembly in portable applications P 22 GEO TANGENT ARRAY RIGGING SYSTEM Angle setting bar Angles between cabinets are set using the force of gravity 6 0 0 The angle setting pivots on the hole marked 1 For all angles up to i and including 17 5 use the oblong hole on the unattached end of the bar A This allow
6. S805 4 8 boxes CD12 Flown Mono Setup Input A Output 1 back driver of the CD12 Output 2 front driver of the CD12 Output 3 GEO no signal on Output 4 Configure GEO S805 4 8 boxes with CD12 flown P 12 NX242 DIGITAL TDCONTROLLER SETTINGS 5805 9 16 boxes CD12 Flown Mono Setup Input A Output 1 back driver of the CD12 Output 2 front driver of the CD 12 Output 3 GEO no signal on Output 4 Configure GEO 5805 9 16 boxes with CD12 flown GEO Horizontal Tangent Arrays Input Output Assignments GEO S8 Series Wideband Configurations No Sub Input A Input B Left Right Output 4 HF Output 3 HF Output 2 LF Output 1 Sub Left Right No Signal No Signal 5830 3 boxes No Sub Stereo Setup Input A Left amp B right Output 3 left and 4 right No signal on output 1 amp 2 Configure three GEO S830 Wideband Input Output Assignments GEO S8 CD12 Configurations Input A Input B Mono No Signal Output 4 HF Output 3 HF Output 2 LF Output 1 Sub No Signal GEO S8 CD12 Front Driver CD12 Back Driver 5830 3 boxes CD12 Flown Mono Setup Input A Output 1 back driver of the CD 12 Output 2 front driver of the CD 12 Output 3 GEO no signal on Output 4 Configure three GEO 5830 with a CD 12 flown S830 3 boxes CD12 Ground Mono Setup Input A Output 1 back driver of the CD12 Output 2 front driver of the CD12 Output 3 GEO n
7. footwear as well as eye protection e Do not allow inexperienced persons to handle the GEOS CD12 Rigging System Installation personnel should be trained in loudspeaker flying techniques and should be fully conversant with this manual e Ensure that motor hoists hoist control systems and ancillary rigging components are currently certified as safe and that they pass a visual inspection prior to use e Ensure that public and personnel are not allowed to pass beneath the system during the installation process The work area should be isolated from public access P 20 GEO TANGENT ARRAY RIGGING SYSTEM Never leave the system unattended during the installation process Do not place any object no matter how small or light on top of the system during the installation procedure The object may fall when the system is flown and is likely to cause injury Motor or hoist secondary safety steels must be installed once the system has been flown to the operating height Secondary steels requirements depend on the local safety standards applicable to the territory Ensure that the system is secure and prevented from pivoting around the motor hoist Avoid any form of excessive dynamic loading to the assembly structural computations on GeoS Rigging System are based on a 1 1 2 factor for hoist or motor acceleration NEVER attach any item to the GEOS CD12 system other than NEXO GEOS CD12 accessories When flying outdoor systems ensure
8. 20 100 1k 10k Total coverage 6dB in the non coupling plane in degrees flange 80 dark and flange 120 light All measurements made with dedicated NX program Measurements conditions far field half space below 400Hz anechoic above 400Hz Directivity Index and factor computer synthesized from coverage Coverage 1 3 octave band synthesized from FFT measurements IMPEDANCE Ohms 64 32 8 30 100 1k 10k 20k Impedance in Ohms THD N 0 1 100 1k 10k 20k Total harmonic distortion noise in percentage Level 110dB 1m 5000 Hz 2500Hz o Flange 80 dark and flange 120 light polar plot in the non coupling plane 3dB division 10000 Hz 20 100 o 1 10k 20k 100 ik Directivity Index in dB Left hand side scale and directivity factor Right hand side scale for flange 120 dark and flange 80 light P 30 TECHNICAL SPECIFICATIONS GEO S830 SYSTEM SPECIFICATIONS Frequency Response a Usable Range 6dB a Sensitivity 1W 1m b Peak SPL 1m b Dispersion c Directivity Index c Crossover Frequency Nominal Impedance Recommended Amplifiers FEATURES Components GEO 5830 with NX242 TDcontroller 67 Hz 19 kHz 3 dB 60 Hz
9. factor Right hand side scale for flange 120 dark and flange 80 light P 32 TECHNICAL SPECIFICATIONS GEO CD12 SYSTEM SPECIFICATIONS CD12 with NX242 TDcontroller Frequency Response a 42 Hz 200 Hz 3 dB Usable Range 6dB a 39 Hz 250 Hz Sensitivity 1W 1m b 102 dB SPL Nominal Peak SPL 1m b 131 to 134 dB Peak 500 to 1200W RMS Amp Dispersion c Hypercardiod pattern 120 x 120 over the entire useable bandwidth Directivity Control is achieved through DSP algorithms in the NX242 Digital TDcontroller two channels of the NX242 are used for the process Directivity Index c Q 3 773 DI 5 7 dB over the entire useable bandwidth Crossover Frequency 150 Hz Active through NX242 Digital TDcontroller Nominal Impedance 2x 6 Ohms Recommended Amplifiers 2 amplifier channels are required for Hypercardiod operation each rated at 1500 to 3000 Watts into 4 ohms per channel Up to 2 complete CD12s per channel may be connected to a two channel amplifier FEATURES GEO CD12 Components 2 x 12 30cm Long Excursion Neodymium 6 Ohm Driver Height x Width x Depth 400 x 600 x 754 mm 15 3 4 x 23 5 8 x 29 11 16 Shape Rectangular Weight Net 35 kg 77 lbs 2 x NL4MP SPEAKON 4 pole In 8 Through Connectors Construction Baltic Birch Ply finish with structured black coating Dark grey carpet finish also available Flying points Integral flying system SYSTEM OPER
10. inspected by qualified NEXO service personnel Water exposure Do not expose the speaker system to direct rain do not use it near water or in wet conditions Do not place containers with liquid on speaker system as they might spill into openings If any liquid such as water seeps into the speaker system have it inspected by qualified NEXO personnel SYSTEM DEPLOYMENT SAFETY RULES Read User Manual before deployment Before use of enclosed speaker system please ensure that anyone involved in system deployment understands the rigging stacking pole mounting safety rules as described in the speaker system User Manual Failure to do this exposes people to potential injury or death Always consult qualified NEXO personnel if the device installation requires construction work and make sure to observe the following precautions Mounting precautions choose mounting hardware and an installation location that can support the weight of the speaker system do not use speaker system handles for suspended installation do not expose speaker system to excessive dust or vibration or extreme cold or heat to prevent possibility of component damage do not place the speaker system in an unstable position from which it might fall accidentally if speaker systems uses a stand ensure that stand specifications are adapted and that stand height does not exceed 1 40m 55 never move the stand while the speaker is in position
11. length Lmax is then 12 meters IMPORTANT NOTE Long speaker cables induce capacitive effects up to hundreds of pF depending on the quality of the cable with a low pass effect in high frequencies If long speaker cables must be used ensure that they do not remain coiled while in use GENERAL SET UP INSTRUCTIONS P 9 Amplifier Selection Power GEO S8 Series array elements are rated for 500 Watts power handling Although each array element has a 16 Ohm nominal impedance NEXO recommends that you connect no more than six S8 Series array elements to a single amplifier channel The amplifiers used for this application should be capable of delivering 1500 to 3000 Watts into a low impedance typically specified as 2 Ohm load Budget constraints are the only reason to select lower output power amplifiers A lower power amplifier will not reduce the chances of driver damage due to overexcursion and may actually increase the risk of thermal damage due to sustained clipping The CD12 requires two amplifier channels delivering separately processed signals to produce its hypercardioid pattern The amplifier model should be the same as that used for the GEO S8 Series array elements Two CD12s can be connected in parallel take care that both front woofers and both rear woofers are connected in parallel Current rating It is very important that the amplifier behaves correctly under low load conditions A speaker system is reactive by nature on t
12. sccssccssccssccsssccnssesssenssensscenssenssenssecessenscensaensaessseeasaeasaeassaeesaeasaessaessaaessaeesaessasesass 28 GEO SB OS A A AA 28 GEO SO arie EET 30 CEDIDA 32 USER S NOTES TT 34 INTRODUCTION P 7 INTRODUCTION Thank you for selecting NEXO GEO S8 Series products This manual is intended to provide you with necessary and useful information about your GEO System which includes the following products S805 5 Tangent Array Module 8 20cm Neodymium Hi flux 16 Ohm LF Driver and 1 Throat Neodymium HF Driver on a 5 Hyperboloid Reflective Wavesource Your main building block for curved vertical tangent arrays integral precision array assembly system S830 30 Tangent Array Module 8 20cm Neodymium Hi flux 16 Ohm LF Driver and 1 Throat Neodymium HF Driver on a 30 Hyperboloid Reflective Wavesource The building block for horizontal tangent arrays and the tangent down fill element for curved vertical arrays integral precision array assembly system CD12 HyperCardoid Subbass Two 12 30cm Long Excursion Neodymium 6 Ohm Drivers each controlled by one DSP channel creating a 120 x 120 hypercardioid pattern Can be flown or ground stacked NX242 Digital TDcontroller Provides comprehensive control of the above GEO S8 Series loudspeakers in multiple configurations For a complete description of this unit please refer to the NX242 User Manual Please remember that the NX242 Digital TDcontroller s DSP algori
13. than one amplifier is being driven from an output of the NX242 TDcontroller only those amplifiers that are not connected to sense inputs may be attenuated If the sensed amplifier is attenuated and the slave amplifiers are not severe system damage will result P 14 DEPLOYING GEO TANGENT ARRAYS DEPLOYING GEO TANGENT RRAYS Vertical vs Horizontal One of the advantages of the GEO S8 Series is the ability to construct coherent vertical and horizontal arrays from the appropriate GEO Tangent Array Modules These two types of arrays are very different in their behaviour and intended applications Vertical tangent arrays of GEO are intended for applications where the horizontal coverage 80 or 120 is suitable for the application and even SPL from the first row to the last row of the audience is desired The NS 1 software will help you design a vertical array of S805 and S830 cabinets and tailor the acoustic wave generated by the cluster to fit your audience profile providing equal power to equal areas When done properly the GEO S8 Series can provide extremely even SPL throughout the depth of your audience including balcony coverage Horizontal tangent arrays of GEO S830 cabinets provide exceptional control of horizontal coverage but are not intended to provide the same even SPL capability as a vertical array Horizontal arrays deliver equal power to equal angles with SPL decreasing as you move further back in the audience However the GE
14. the acoustical wave front from the CD12 For time alignment with the main system see page 13 Delays amp System Alignment e When ground stacking the CD12 it is better to stack them vertically than horizontally e When hanging or stacking multiple CD12 cabinets make sure they are all oriented correctly fronts forward and tops up Do not hang one CD12 upside down relative to the others NS 1 SIMULATION SOFTWARE P 15 NS 1 SIMULATION SOFTWARE NS 1 software is a R amp D simulation tool derived application It processes measured speaker data with complex mathematical algorithms to assist the user in optimizing system design Due to the complexity of the interaction of multiple cabinets it is simply not possible to reliably design curved vertical arrays without using the processing power of a computer to predict the optimum array structure for a given audience geometry The design logic is far more complex than looking at a section drawing of the venue measuring the overall angle needed to cover the audience from the cluster location and dividing by 5 degrees to determine the required amount number of GEO S805 cabinets NS 1 is an easy to use tool that allows to shape the energy leaving the cluster to fit the audience lt predicts pressure levels radiated from the system to ensure enough cabinets are provided for the application as well as mechanical constraints for safe flown systems In addition it provides mechanical information fo
15. ATION Electronic Controller The NX242 Digital TDcontroller presets are precisely matched to the GEO S8 Series cabinets and include sophisticated protection systems Using GEO S8 Series cabinets without a properly connected NX242 Digital TDcontroller will result in poor sound quality and can damage components Sub bass The GEO S805 8 S830 can be used without the optional CD12 Hypercardiod Sub In this case the NX242 can be used in stereo With the CD12 Hypercardiod Sub each Sub channel requires two NX242 outputs and the NX242 will operate in mono Speaker Cables The front loudspeaker of the CD12 is wired 2 8 2 while the rear loudspeaker is wired 1 8 1 The CD12 must use separate cables to the GEO 5805 5830 Rigging System See corresponding chapter of this manual As part of a policy of continual improvement NEXO reserves the right to change specifications without notice a Response Curves and Data Anechoic Far Field above 200 Hz Half space Anechoic below 200 Hz Usable Range Data Frequency Response Capability with TD crossover slopes removed b Sensitivity 8 Peak SPL will depend on spectral distribution Measured with band limited Pink Noise Refers to the specified 3 dB range Data are for Speaker Processor recommended amplifier combinations c Directivity Curves and Data 1 3 octave smoothed frequency response normalized to On Axis response Data obtained by computer processing of off axis response curves
16. Connection and powering precautions remove all connected cables before moving the speaker system turn off AC power of all power amplifier units before connecting the speaker system when turning on the AC power to the audio system always turn on the power amplifier last when turning the AC power off always turn off the power amplifier first when used in cold conditions a gradual power ramp up should applied to the system on an 5 mn period to allow the loudspeaker components to stabilize during the very first minutes of usage Inspect the speaker system periodically P 4 PLEASE READ CAREFULLY BEFORE PROCEEDING SAFETY INSTRUCTIONS FOR NEXO TD CONTROLLERS NEXO ANALOGUE PSTDCONTROLLERS NX242 DIGITAL CONTROLLER NXAMP4x1 AND NXAMP4x4 POWERED CONTROLLERS ARE CLASS 1 APPARATUS AND MUST BE EARTHED THE GREEN AND YELLOW WIRE OF THE MAINS CORD MUST ALWAYS BE CONNECTED TO AN INSTALLATION SAFETY EARTH OR GROUND THE EARTH IS ESSENTIAL FOR PERSONAL SAFETY AS WELL AS THE CORRECT OPERATION OF THE SYSTEM AND IS INTERNALLY CONNECTED TO ALL EXPOSED METAL SURFACES Read these instructions Keep these instructions Heed all warnings Follow all instructions Do not use this apparatus near water Clean only with dry cloth Do not block any ventilation openings Install in accordance with the manufacturer s instructions Do not install near any heat sources such as radiators heat registers stoves or other apparatus
17. GEO S805 are wired 1 amp 1 on both Speakon connectors 2 amp 2 are not connected Rigging System See corresponding chapter of this manual 428 mm al b c See measurement notes at the end of CD12 specifications Weight 13 kg 28 7 lbs TECHNICAL SPECIFICATIONS P 29 GEO S805 curves ON AXIS RESPONSE dB 30 100 ik 10k 20k On Axis response in dB From dark to light set up wide range CD12 stacked and CD12 flown OFF AXIS RESPONSE Flange 80 dB OT SSS 20 100 1k 10k 20k Off axis response in dB in the non coupling plane flange 80 Dark to light 0 10 203 30 and 40 off axis OFF AXIS RESPONSE Flange 120 dB 20 100 1k 10k 20k Off axis response in dB in the non coupling plane flange 120 From dark to light 0 15 30 45 and 60 off axis COVERAGE ANGLE Degree 200 100 10 100 1 k Total coverage 6dB in the coupling plane in degrees From dark to light 1 2 and 4 boxes 10k 20k COVERAGE ANGLE Degree 200 100
18. GEO enclosure in this way you must remove and replace the angle setting plates in order to properly attach the top GEO enclosure at the rear of the bumper Figure 3 Figure 4 GEO TANGENT ARRAY RIGGING SYSTEM P 23 After having positioned the top enclosure insert the pins into the front and rear attachment points and lock them with R clips see picture The bumper s rear mounting point should be connect to the hole marked LIFT on the GEO Angle Adjustment Plate NOTE The top GEO enclosure is always parallel to the bumper Assembling a vertical GEO tangent array Place the top GEO cabinet attached to the bumper face down on a horizontal surface a narrow length of carpet will help protect the grills Align the top holes of the next GEO cabinet s front attachment bar with the bottom holes of the first GEO cabinet s front attachment bar and insert the pins to connect both sides at the front see below Repeat this operation until the entire array is connected at the fronts of the enclosures Setting the angles between adjacent GEO enclosures To set the angles between enclosures to the values specified for this array by NS 1 begin by lifting the array until only the bottom enclosure remains on the ground This will make it easier to align the angle setting bars with the proper holes in the angle setting plates see Figure 5 Align the angle setting bars with the proper holes in the angle setting plates For all GE
19. In the following case where A is the average height B the listening point and C the difference between front sides of both systems CD12 Delay VA B B C specify meters or feet If this formula gives a negative result the delay should be implemented on the MAIN channel mn A Ww a EJ a Initial Set up Precautions When running up a system that includes new cabinets for the first time the power should be increased slowly to approximately 50 and the system operated at this level for two hours During the following two hours of operation the power level should be limited to approximately 75 This procedure allows the adhesives and suspensions within the loudspeaker components to stabilise and will extend their working life In all cases it is advisable to connect the loudspeakers only after all the other components have been wired and are operating correctly This is particularly important for the amplifiers and the TDcontroller It is a good practice to turn down all the amplifier gains before connecting the cabinets and then turn them up again individually with a medium level music source fed into the system The sense LEDs of the corresponding TDcontroller channel should light up accordingly This will help to locate cabling errors particularly channel line inversions which would disable the TDcontroller protections and may invalidate the warranty IMPORTANT If more
20. LE DIRECTIVITY DEVICE P 17 When amp where to use Configurable Directivity flanges The diagram below can be considered as a plan view of the audience area shown in Figure 1 Instead of looking through the sidewall we are looking through the ceiling While the GEO cluster will deliver even SPL from the front to the rear of this audience area there are holes near the front in the centre and at the outside edges We cannot fill the outside coverage gaps without enlarging the centre gap and vice versa 100 Inside amp outside flanges 120 coverage in the non coupling plane on the bottom 2 rows Figure 2 Plan view of coverage using two GEO curved vertical arrays Figure 1 Plan view of coverage using two GEO curved vertical arrays Both Configurable Directivity flanges have been installed in the without Configurable Directivity flanges bottom two cabinets of the clusters However if we install Configurable Directivity Devices in the bottom two cabinets of the cluster coverage will look more like the pattern in Figure 2 In curved vertical arrays the Configurable Directivity Device can be used e On the bottom two rows of curved vertical arrays to fill in coverage gaps in the front rows e On all rows of curved vertical arrays in cases where 240 of horizontal coverage is preferred to 160 In horizontal arrays of GEO S830s the Configurable Directivity Device can be removed to narrow the vertical coverage of the
21. NX242 Digital TDcontroller is able to drive the entire current NEXO range GEO PS 4 Alpha series CD12 subs The following GEO set ups are examples for a complete and updated list please refer to the documentation describing the NX LOAD GEO Vertical Arrays Input Output Assignments GEO S8 Series Wideband Configurations No Sub Input A Input B Left Right Output 4 HF Output 3 HF Output 2 LF Output 1 Sub Left Right No Signal No Signal S805 4 8 boxes No Sub Stereo Setup Input A Left amp B right Output 3 left and 4 right No signal on output 1 82 Configure GEO S805 Wideband for 4 8 boxes S805 9 16 boxes No Sub Stereo Setup Input A Left amp B right Output 3 left and 4 right No signal on output 1 82 Configure GEO S805 Wideband for 9 12 boxes Input Output Assignments GEO S8 CD12 Configurations Input A Input B Mono No Signal Output 4 HF Output 3 HF Output 2 LF Output 1 Sub No Signal GEO S8 CD12 Front Driver CD12 Back Driver S805 4 8 boxes CD12 Ground Mono Setup Input A Output 1 back driver of the CD12 Output 2 front driver of the CD12 Output 3 GEO no signal on Output 4 Configure GEO S805 4 8 boxes with CD12 S805 9 6 boxes CD12 Ground Mono Setup Input A Output 1 back driver of the CD12 Output 2 front driver of the CD12 Output 3 GEO no signal on Output 4 Configure GEO S805 9 16 boxes with CD12
22. O 5830 is designed to array tangentially with adjacent S830 cabinets providing a much more coherent wave front from an array of multiple cabinets than conventional arrayable cabinets This allows the user to provide 30 increments of horizontal coverage as needed CD12 HyperCardioid Subbass The CD12 is a hypercardioid subbass device providing directional low frequency energy with a dramatic reduction in low frequencies behind the loudspeaker s This is achieved using the interaction of two independently driven 12 drivers highly specialized ports and the digital processing capabilities of the NX242 Loudspeaker Controller Itis important to follow these guidelines to attain the best performance from the CD12 e Keep at least 3 to 4 1m of space around the CD12 s when they are located on the ground Objects or barriers within this space can interfere with the interaction of wave fronts from the front and rear of the CD12 e Drive the front and rear drivers with identical amplifier channels set to the same gain The operation of the CD12 is based on the assumption that both the front and rear sub systems are identical in terms of the amplifier s electrical performance e When flying the CD12 s use the linking bar to connect the CD12 bumper to the GEO Bumper and keep at least 50cm 20 of space between the back of the GEO cabinets and the front of the CD12 s It provides enough distance that the GEO cabinets will not interfere with
23. O enclosures except the S830 insert pins through the hole in the angle setting plate and the oblong slot at the end of the angle setting bar see Figure 6 NOTE GEO S830 s are always tight packed with the adjacent enclosure so that the wavefronts will be tangent and will combine coherently without interference The angle of a GEO 5830 at the bottom of a curved vertical array and just below a GEO 5850 will therefore be 17 5 The angle between any two GEO S830 s will always be 30 Continue lifting the array so that the fronts of all the enclosures are accessible then lock all the attachment pins in place with R clips While the array is being raised to the operating height specified by NS 1 the enclosures will fall into the proper angular alignment with each other Figure 6 Figure 5 CAUTION The GEO Bumper is designed to safely fly a maximum of 24 GEO loudspeakers Before raising the array to ts operating height be sure to check that all attachment pins are in place secured by R clips or another locking mechanism and that both sides angles settings are strictly identical P 24 GEO TANGENT ARRAY RIGGING SYSTEM Extension Bar Figure 7 Figure 8 The GEO Bumper has two lift points which are adequate for many situations The extension bar is designed for those applications where the bumper s lift points are too close together to allow setting the proper tilt angle for
24. accessory How Loud for the Crowd Keep in mind that due to the superior coherency of GEO arrays you may not need to get as loud in order to hear what is going on as was the case with previous generations of sound reinforcement loudspeakers using coercive megaphone variant horn designs The following chart offers some guidelines about the capability of curved vertical GEO tangent arrays of various lengths Maximum values in dBA are for all cabinets angled at 0 31 minimum values are for all cabinets angled at 5 these values are calculated for open air conditions For an audience of the indicated total length the 3 dB value will probably fall somewhere in between the Min and Max values So a four tall vertical tangent array you will be able to produce levels of between 105 dBA and 110 dBA from the front to the rear of a 10m long audience area and from 87 to 92 dBA throughout an 80m long audience area GEO Array Total Length of Audience Area Array Length Output 3 dB 10 meters 20 meters 40 meters 80 meters 4 x 805 dBA Min 105 99 93 87 dBA Max 110 104 98 92 8 x 5805 dBA Min 106 100 94 88 dBA Max 111 108 104 98 12 x 805 dBA Min 107 101 95 89 dBA Max 111 108 105 100 16 x 805 dBA Min 107 102 96 90 dBA Max 113 110 107 104 GEO TANGENT ARRAY RIGGING SYSTEM P 19 GEO TANGENT ARRAY RIGGING SYSTEM Before proceeding with assembly of GEOS CD12 arrays please ensure that the component
25. ain e Various other brands may offer constant gain but only within a given product range for example they may fit fixed input sensitivity only on their semi professional amps e Even if a manufacturer applies the constant gain rule to all models the value selected will not necessarily be the same as that chosen by other manufacturers e Some products can exhibit manufacturing tolerances for the same model of 1dB or more Some amplifiers may have been modified possibly without any label indicating the new values Others may have gain switches fitted internally where it is impossible for the user to verify the actual setting without opening the amplifier casing In cases where you don t know the gain of your amplifier or want to check it please follow this procedure Unplug any loudspeakers from the amplifier outputs With a signal generator feed a sine wave at 1000Hz at a known voltage say 0 5V to the input of the amplifier under test Measure the voltage at the output of the amplifier Calculate the gain using the formula Gain 20 LOG10 Vout Vin P 10 GENERAL SET UP INSTRUCTIONS Some examples 32dB 37dB 1 4V sensitivity 1350Wrms 0 1V 1V 2V 4V TAV 0 5V 5V 10V 20V 35 4V 1V 10V 20V 40V 70 8V Remember that constant sensitivity settings will give a different gain value when the amplifier power is different Gain value NEXO recommends low gain amplifiers 26dB is recommended as it is at t
26. array from 120 to 80 100 100 Sectional view of a 100 deep space showing coverage alternatives using GEO S830 arrays aimed straight down with right and without left CDD flanges P 18 GEO APPLICATION GUIDELINES GEO APPLICATION GUIDELINES GEO is a highly adaptable and flexible system due to the unique performance factors of the patent pending Hyperboloid Reflective Wavesource the Configurable Directivity Device flanges and other innovations However like all tools your GEO system has been designed to function in specific ways these lend themselves to many situations but not all When designing and deploying GEO arrays keep the following considerations in mind Minimum Array Height Vertical Tangent Arrays Like any line array GEO s ability to control lower frequencies with longer wavelengths is determined by the height of the array NEXO recommend that curved vertical GEO tangent arrays include at least four 4 S805 s and one 1 S830 Lines shorter than this will not provide adequate control of lower frequencies You will see this in NS 1 the dBA trace will curve downward and will approach the red HF trace towards the rear of the listening area This indicates that lower frequencies are falling in level relative to the higher frequencies Optimum Height of the Bumper Can be found by experimenting with different heights and aiming angles in NS 1 Your system can also be ground staked by using the proper
27. asks errors in the design of the array and in the aiming of the individual cabinets The highly precise GEO wavesource responds accurately consistently and predictably to the design and deployment of a curved vertical tangent array This is why the GEO rigging system is designed to control angular splay to 0 01 accuracy GEO curved vertical tangent arrays require different operational techniques Over the years system designers and operators have developed a number of signal processing techniques to disguise and partly overcome the limitations of coercive megaphone waveguides Frequency shading amplitude shading system tuning all of these are tools of the advanced sound system operator NONE OF THESE TECHNIQUES ARE APPLICABLE TO GEO TANGENT ARRAYS Instead of enhancing the array s performance they will severely degrade it Take a little time to learn how to get great results with GEO Technology It s an investment that will pay off in more satisfied clients more efficient operating procedures and more recognition for your skill as a sound system designer and operator PLEASE READ CAREFULLY BEFORE PROCEEDING P 3 PLEASE READ CAREFULLY BEFORE PROCEEDING BASIC PRECAUTIONS Do not open the speaker system or attempt to disassemble the internal parts or modify them in any way The speaker system contains no user serviceable parts If it should appear to be malfunctioning or damaged discontinue use immediately and have it
28. d Reflective Wavesource Height x Width x Depth 406 x 250 x 219 mm 16 x 9 7 8 x 5 5 8 without flying hardware Shape 5 Trapezoid Weight 13 kg 28 7 lbs with Tangent Array Assembly System 10 5 kg 23 lbs net Connectors 2 x NL4MP SPEAKON 4 pole In amp Through Construction Baltic Birch Ply finish with structured black coating Front Finish Perforated Steel Grill Flying points Integral flying system Intercabinet Angle Adjustments 0 31 to 5 logarithmic steps 17 5 amp 30 SYSTEM OPERATION Electronic Controller The NX242 Digital TDcontroller presets are precisely matched to the GEO S8 Series cabinets and include sophisticated protection systems Using GEO S Series cabinets without a properly connected NX242 Digital TDcontroller will result in poor sound quality and can damage components HF Dispersion Configuration After quick release of the front grill from its fittings the HF Waveguide can be configured for 80 or 120 dispersion in the non coupling plane Array Design Arrays of less than 4 GEO S805 will provide poor dispersion control and are not recommended or supported S805 and S830 cabinets having tangent waveguides can be mixed in the same array Sub bass The GEO S805 can be used without the optional CD12 Hypercardiod Sub In this case the NX242 can be used in stereo With the CD12 Hypercardiod Sub each Sub channel requires two NX242 outputs and the NX242 will operate in mono Speaker Cables The
29. d and measured by NEXO R amp D They cover virtually any GEO tangent array configuration horizontal or vertical with or without the CD12 HyperCardioid Subbass GEO is a high precision system The GEO Wavesource controls acoustic energy more precisely than previous generations of coercive waveguides based on the megaphone This precision makes the GEO system more capable than previous array elements It also makes GEO less forgiving of mistakes in design and deployment While megaphone variant horns never combine into a coherent array they can deliver acceptable results even if the design and deployment of the system is less than optimal This is not the case with GEO GEO is a tangent array not a line array GEO Technology is equally effective in designing and deploying tangent horizontal arrays or curved vertical arrays For best results in a specific application you need to know how multi speaker arrays interact with audience geometry along with the benefits and drawbacks of curved vertical arrays and horizontal arrays Curved vertical tangent arrays require different design techniques For the past 20 years sound reinforcement professionals have worked with horizontal arrays that use megaphone variant horns to deliver more or less equal power to equal angles Curved vertical arrays are designed to deliver equal power to equal areas When conventional coercive horns are used in the array elements their lack of precision m
30. dispersion in the non coupling plane with the flanges installed the narrower blue curve shows the dispersion without the flanges COVERAGE ANGLE Degree Angle Freq Hz GEO Hyperboloid Reflective Wavesource Non coupling plane dispersion vs frequency with with Configurable Directivity Device flanges 120 black and without 80 grey Configurable Directivity flanges installed Installing amp removing GEO s Configurable Directivity flanges GEO 5805 are shipped in the 80 dispersion without the flanges installed GEO S830 Series loudspeakers are shipped with the flanges installed 120 dispersion in the non coupling plane To remove the flanges for narrower 80 dispersion in the non coupling plane remove the front grill and the four TORX head 25 screws in each side of the GEO Wavesource Store these screws with the flanges To fill in the holes use the shorter replacement screws provided with your GEO S8 Series loudspeaker Do not attempt to screw the longer flange attachment screws into the waveguide attachment points this will damage your GEO S8 Series loudspeaker s Hyperboloid Reflective Wavesource NOTE A torque of 1N m maximum shall be applied to the screw NEVER USE POWER TOOLS TO INSTALL OR REMOVE CDD FLANGES THEIR EXCESSIVE TORQUE CAPABILITY CAN EASILY DAMAGE THE GEO WAVESOURCE USING THE CONFIGURAB
31. e care when stacking cabinets Always employ safe lifting procedures and never attempt to build stacks without sufficient personnel and equipment Never allow anyone whether operators artists or members of the public to climb onto a ground stacked PA system Anyone who needs to climb over 2m high should be fitted with suitable safely equipment including a clip on harness Please refer to local Health and Safety legislation in your territory Your dealer can help with advice on access to this information Apply the same attention to all safety matters when de stacking systems Be aware that safety procedures are as important in the truck and in the warehouse as they are at the venue GEO TANGENT ARRAY RIGGING SYSTEM P 21 Contacts Correct training is fundamental to safe practise when working with loudspeakers flying systems NEXO recommend that users contact local industry associations for information on specialist course Information for International training agencies can be obtained by contacting either The Production Services Association PSA School Passage Kingston upon Thames KT1 SDU Surrey ENGLAND Telephone 44 0 181 392 0180 Rigstar Training and Testing Center 82 Industrial Dr Unit 4 Northampton Massachusetts 01060 U S A Phone 413 585 9869 Fax 413 585 9872 school Origstar com ESTA Entertainment Services amp Technology Association 875 Sixth Avenue Suite 1005 NEW YORK NY 10001 USA
32. ent capable of producing high sound pressure levels such as this amplification system be protected by hearing protectors while this unit is in operation DISPOSAL OF OLD ELECTRICAL ELECTRONIC EQUIPMENT This symbol on the product or on its packaging indicates that it shall not be treated as household waste Instead it shall be handed over to the applicable collection point for the recycling of electrical and electronic equipment By ensuring this product is disposed of correctly you will help prevent potential negative consequence for the environment and human health which could otherwise be caused by inappropriate waste handling of this product The recycling of materials will help to conserve natural resources For more detailed information about recycling of this product please contact your local city office mi your household waste disposal service or the shop where you purchased the product P 6 TABLE OF CONTENTS TABLE OF CONTENTS PLEASE READ CAREFULLY BEFORE PROCEEDING cecceceeeseeceeeeeeceeeeeceesaeeeeseecaeeeeesaesaaeeeeaesneatiaes 3 TABLE OF CONTENTS veia A di 6 INTRODUCTION Ear eee md atu Skaisum Ti 7 GENERAL SET UP INSTRUCTIONSG ccsscsssccsssesssesseessscesseesseesseecssseseesseesssessaeesaeesseesaeecsaeesaeeaeesesesseesseesseesaeecss 8 Speaker Wings n e EE E Tee tn Se is 8 Ampliti r Selettibhu IE a aa aan 9 NX242 DIGITAL TDCONTROLLER SETTINGS ccscccssscccesseccsseecsseeescsseecsaeecseesece
33. ether The procedures for attaching GEO loudspeakers and CD12 enclosures to their respective bumpers are the same as previously explained The connecting bar must be passed through the bodies of both bumpers and locked in position using two 12mm pins for each bumper These 12mm pins use the same R clips as on the GEO pins see Figure 10 NOTE The list points of the CD12 Bumper are positioned on the centre of gravity of the CD12 They are offset from the centre of the tube to allow the correct positioning when assembling a combination GEO CD12 bumper If you are assembling left right stereo arrays as described in section IV 1 you must reverse the CD12 bumper in order to maintain the correct orientation with respect to the GEO Array In a frontal view of the cluster the GEO array must be centred with respect to the CD12 see Figure 11 CAUTION In this configuration the CD12 Bumper is designed to hang a maximum of 8 CD12 enclosures OOO OOO Figure 10 Figure 11 P 26 GEO TANGENT ARRAY RIGGING SYSTEM Assembling Horizontal GEO Arrays Horizontal GEO arrays are composed exclusively of GEO S830 loudspeakers In this configuration it is imperative that the cabinets are tight packed that is arrayed at 30 splay angles matching the trapezoidal sides of the GEO S830 enclosures This ensures that the wavefronts are t
34. he same time adeguately low and quite common amongst amplifier manufacturers This gain setting improves signal to noise ratio and allows all preceding electronic equipment including the NX242 TDcontroller to operate at optimum level Remember that using a high gain amplifier will raise the noise floor proportionally Advanced protection Some high end amplifiers may include signal processing functions similar to those found in the NX242 TDcontroller loudspeaker offset integration limiter compressor etc These functions are not adapted to specific system requirements and may interfere with the complex protection algorithms used in the NX242 NEXO do not advise using other protection systems in conjunction with the NX242 and they should be disabled Connection Diagrams The NX242 TDcontroller provides two basic modes of operation with GEO S8 Series products as shown below 1 Stereo GEO S8 with no CD12 sub 2 Mono GEO S8 with CD12 Sub NX242 DIGITAL TDCONTROLLER SETTINGS P 11 NX242 DIGITAL TDCONTROLLER SETTINGS The GEO S8 Series cabinets will not perform correctly without the NX242 TDcontroller Sound quality and reliability are totally dependent on the correct use of the NX242 TDcontroller in accordance with the instructions provided in this manual and in the NX242 User Manual All manuals amp associated technical notes must be read before set up Please contact your NEXO agent for any literature you may need The
35. including amplifiers that produce heat 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 blade or the third prong are provided for your safety If the provided plug does not fit into your outlet consult an electrician for replacement of the obsolete outlet US market Protect the power cord from being walked on or pinched particularly at plugs convenience receptacles and the point where they exit from the apparatus Only use attachments accessories specified by the manufacturer Unplug this apparatus during lightning storms or when unused for long periods of time 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 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 h Y CAUTION 1 The lightning flash with arrowhead 5 i The exclamation point within an symbol within an equilateral angle WARNING To reduce the risk of fire or electric shock eguiisteraltriangleis intended to isintended to alert the user to the do not expose this apparatus to rain or moisture alert the user to the presence of presence of uninsulated dangerous important operat
36. ing and voltage within the product s enclosure that may be of sufficient magnitude to constitute a risk of electric shock to persons maintenance servicing instructions in the literature accompanying the appliance To avoid electrical shock do not remove covers Dangerous voltages exist inside Refer all servicing to qualified personnel only PLEASE READ CAREFULLY BEFORE PROCEEDING P 5 HIGH SOUND PRESSURE LEVELS Exposure to extremely high noise levels may cause permanent hearing loss Individuals vary considerably in susceptibility to noise induced hearing loss but nearly everyone will lose some hearing if exposed to sufficiently intense noise for a sufficient period of time The U S Government s Occupational and Health Administration OSHA has specified the following permissible noise level exposures Sound Duration Per Day In Hours Sound Level dBA Slow Response 8 90 6 92 4 65 3 97 2 100 1 102 1 105 Ye 110 Ya or less 115 According to OSHA any exposure in excess of the above permissible limits could result in some hearing loss Ear plugs or protectors to the ear canals or over the ears must be worn when operating this amplification system in order to prevent permanent hearing loss if exposure is in excess of the limits as set forth above To ensure against potentially dangerous exposure to high sound pressure levels it is recommended that all persons exposed to equipm
37. ntroller will result in poor sound quality and can damage components After quick release of the front grill from its fittings the HF Waveguide can be configured for 80 or 120 dispersion in the non coupling plane Array Design S805 and S830 cabinets having tangent waveguides can be mixed in the same array Sub bass The S830 can be used without the optional CD12 Hypercardiod Sub In this case the NX242 can be used in stereo With the CD12 Hypercardiod Sub each Sub channel requires two NX242 outputs and the NX242 will operate in mono Speaker Cables The GEO S830 are wired 1 amp 1 on both Speakon connectors 2 amp 2 are not connected Rigging System See corresponding chapter of this manual a b c See measurement notes at the end of CD12 specifications E 428 mm Weight 13 kg 28 7 lbs P 31 TECHNICAL SPECIFICATIONS GEO S830 curves ON AXIS RESPONSE dB 10k 20k 30 30 100 ik On Axis response in dB From dark to light set up Wide range CD12 stacked and CD12 flown OFF AXIS RESPONSE Flange 80 dB 20 1k 100 Off axis response in dB in the non coupling plane flange 80 Dark to light 03 10 20 30 and 40 off axis OFF AXIS RESPONSE Flange 120 dB 10 10k 20k
38. o signal on Output 4 Configure three GEO S830 with a CD12 ground Speaker Quantity Speaker Quantity MENU 1 7 parameter acts on an Array EQ that has been tuned to E reduce the coupling effect of 8 multiple GEO cabinets at Low Frequencies It will help you 4 to fine tune your system according to the number of o cabinets and personal taste Array EQ is at 0dB when a Speaker Quantity is 8 boosts for lower quantities and cuts 8 for higher quantities 50 100 500 ik 5k 10k Delta Between 4 and 8 GEO 5805 Frequency Hz Array EQ NX242 DIGITAL TDCONTROLLER SETTINGS P 13 Delays amp System Alignment The NX242 internal time adjustments factory presets have been optimised to provide the best crossover possible between the MAIN and SUB systems The reference point for this adjustment is the front side of each cabinet That means that the internal delays are set for a S8 cabinet standing close to the CD12 with both front sides being aligned Should you rig your CD12 behind the S8 you will have to delay the MAIN system the according distance D The delay parameter is set in MENU 1 2 set the units to meters or feet according to your preference Should you leave your CD12 on the ground you will have to adjust the delay on the CD12 using MENU 1 2 according to the path difference between the flown GEO and the ground stacked CD12 We recommend you to adjust your system for the more distant listening point
39. r all clusters in agreement with Structural Analysis Reports available in the Help section dimensions weight gravity center position forces moments working load and safety factor Geo S8 Structural Analysis Reports have been validated by German Certification Organization RWTUV systems GmbH NS 1 installation package includes all NEXO User Manuals Structural Analysis Reports and Certificates PDF files which can be found in the last section of User Manuals NS 1 is a freeware available for all Nexo users Please contact your local distributor for licensing procedure IMPORTANT Never install a GEO S8 cluster without checking its acoustical performances and mechanical safety in NS 1 prior to installation Any question or bug report please contact technical nexo fr System GAO SEF hewn Cluster Q NS 1 GEO 58 ACOUSTIC PAGE P 16 USING THE CONFIGURABLE DIREGTIVITY DEVICE USING THE CONFIGURABLE DIRECTIVITY DEVICE The GEO Wavesource controls dispersion of acoustic energy using an hyperboloid acoustical reflector in the coupling plane the vertical plane of a curved vertical tangent array and a diffraction slot in the non coupling plane the horizontal plane of a curved vertical tangent array The patent pending Configurable Directivity Device consists of bolt on flanges that alter the diffraction slot s exit flare rate The flanges look like this In the graph below the red curve shows the
40. ransient signals like music it will require four to ten times more instantaneous current than its nominal impedance would indicate Amplifiers are generally specified by continuous RMS power into resistive loads however the only useful information about current capacity is the specification into a 2 Ohm load It is possible to perform an amplifier listening test by loading the amps with twice the number of cabinets considered for the application 2 speakers per channel instead of one 4 instead of 2 and running the amps up to the onset of clipping If the signal does not noticeably deteriorate the amplifier is well adapted overheating after approximately ten minutes is normal but thermal protection must not operate too quickly after starting this test Amplifier gain settings Technical knowledge of the amplifiers to be used with the system is essential This data is the key to the correct alignment of the system It is especially important to know the gain of all amplifiers used in your set up The tolerance should be about 0 5 dB In practice this can be difficult to achieve because e Some amplifier brands have an identical input sensitivity for models of different power rating this infers a different voltage gain for each model For example a range of amplifiers with different power outputs all having a published input sensitivity of 775mV 0dBm or 1 55V 6dBm will have a wide range of actual gains the higher the power the greater the g
41. recommend a maximum of six S Series Tangent Array Modules per amplifier channel NB The front loudspeaker of the CD12 is wired 2 8 2 while the rear loudspeaker is wired 1 amp 1 NEVER connect the CD12 to the GEO 5805 5830 Cable choice consists mainly of selecting cables of the correct sectional dimension size in relation to the load resistance and the cable length Too small a cable section will increase both its serial resistance and its capacitance this reduces the electrical power delivered to the loudspeaker and can also induce response damping factor variations For a serial resistance less or equal to 4 of the load impedance damping factor 25 the maximum cable length is given by Lmax Z xXx S Sin mm Z in Ohms Lmax in meters The table below indicates these values for 3 common sizes Load Impedance Q 2 3 4 6 8 12 16 Cable section Maximum Length meters 1 5 mm AWG 14 lo he fje Joa 2 5 mm AWG 12 5 7 5 10 15 20 30 40 4 mm AWG 10 8 12 16 24 32 48 64 Examples The GEO 5805 and 5830 have a nominal impedance of 16 ohms so a 6x GEO S8 cluster wired in parallel will present a 16 6 2 7 Ohms load impedance The maximum acceptable 2x2 5 mm AWG 12 cable length Lmax for such a cluster is 6 75 meters The CD12 subwoofer has a nominal impedance of 2 x 6 Ohms therefore 2 CD12s wired in parallel will present a 2 x 3 Ohms load impedance The maximum acceptable 4x4 mm AWG 10 cable
42. ruly tangent and combine without destructive interference Up to three Horizontal GEO S830 arrays can be well hung by using the accessory GEOS HRPL attached to the GEO Array Assembly System with 8mm rings and locking nuts Always use the LIFT point for the rear attachment To vary the vertical angle of the array use different points for the front attachment For mounting instruction please refer to the document shipped with the accessory Ground stacking Geo Array Up to 8 GEO S805 cabinets can be stacked with the accessory GEOS GRND GEO S830 should never be round stacked together with GEO 805 The stacking configuration is taken into account in the NS 1 software For mounting instruction please refer to the document shipped with the accessory Before assembling for stacked configuration remove the front pin from the angle setting bar and re attach it at point 2 This pivot point is the same distance from the hole at the other end of the angle setting bar as point 1 is from the end of the oblong slot This makes it possible to set all angles up to 5 directly by attaching the angle setting bar to the appropriate hole in the plate For fixed angles insert the pin through the hole at the tip of the angle setting bar Properly adjust GEOS GRND front and rear legs so that GEOS stack assembly footprint remains inside GEOS GRND footprint GEO TANGENT ARRAY RIGGING SYSTEM P 27 Dimension
43. s amp Weights GEOS BUMPER Weight 11kg 24 25 lbs 429 mm gt CD12 BUMPER 1 Y O fl amp Weight 15kg 33 lbs pg 600 mm gt 4 t C 4 Ta 726 60 mm 700 mm rio Link BAR CD12 LINKBAR Weight 9kg 19 8 lbs 720 mm GEO CD12 Extension BAR EXBAR S EE l Weight 4kg 8 8 Ibs 1 NE P 28 TECHNICAL SPECIFICATIONS T ECHNICAL SPECIFICATIONS GEO 5805 SYSTEM SPECIFICATIONS GEO S805 with NX242 TDcontroller Frequency Response a Usable Range 6dB a Sensitivity 1W 1m b Peak SPL im b Dispersion c Directivity Index c Crossover Frequency 67 Hz 19 kHz 3 dB 60 Hz 20 kHz 99 dB SPL Nominal 97 dB SPL Wideband 125 to 128 dB Peak for a single cabinet Configuration dependant when arrayed Coupling Plane Not useable as a single cabinet Configuration dependant Non coupling plane 120 configurable to 80 Not useable as a single cabinet Configuration dependant 1 8 kHz Passive Nominal Impedance Recommended Amplifiers 16 ohms 1500 to 3000 Watts into 4 ohms 4 cabinets per channel Up to 6 cabinets per channel may be connected to large amplifiers capable of operating into low impedance loads FEATURES GEO 5805 Components LF 1 x 8 20cm Neodymium Hi flux 16 Ohm Driver HF 1 x 1 Throat Neodymium Driver on a Hyperboloi
44. s are present and undamaged A component list is appended to this manual In the event of any shortage please contact your supplier SAFETY FIRST GEO S8 CD12 Rigging System has been approved by Certification Organization RWTUV Structural computations test reports certificates are available in NS 1 or at Nexo info nexo fr upon request We include this section to remind you of safe practice when flying the GEOS CD12 system Please read it carefully However user must always apply his or her knowledge experience and common sense If in any doubt seek advice from your supplier or NEXO agent This manual offers guidance only for GeoS CD12 loudspeaker systems References in this manual to other rigging equipment such as motor hoists steels shackles etc are made to clarify the description of Geos CD12 procedures The user must ensure that operators are properly trained by other agencies in the use of these items The GEO S8 CD12 Rigging System has been optimised for the deployment of curved vertical tangent arrays of GEO S805 S830 CD12 loudspeakers Vertical angle adjustment between cabinets has been limited to specific settings to ensure correct acoustic coupling The GEOS CD12 Rigging System is a professional precision tool set and should be handled with extreme care Only persons who are fully conversant with the operation of the GEOS CD12 Rigging System and provided with suitable safety equipment should deploy GEO Arra
45. s you to set the angles of the array while the cabinets are lying flat on the ground When the array is lifted into position each cabinet will fall automatically into the proper angle The 30 angle adjustment is always fixed use hole marked 2 and is set using the hole on the very end of the angle setting bar B This allows you to set the proper angles for GEO S830 cabinets regardless of whether the array is deployed vertically or horizontally Fixed Angle Setting Points For applications where setting the angles via gravity is either impossible i e ground stacking or undesirable fixed installations remove the front pin from the angle setting bar and re attach it at point 2 This pivot point is the same distance from the hole at the other end of the angle setting bar as point 1 is from the end of the oblong slot This makes it possible to set all angles up to 17 5 directly by attaching the angle setting bar to the appropriate hole in the plate For fixed angles insert the pin through the hole at the tip of the angle setting bar Assembling a curved vertical GEO array Attach the top cabinet to the bumper The GEO Bumper is symmetrical enabling you to use GEO loudspeakers in a left right stereo configuration The connection between the top GEO enclosure and the bumper determines the left right orientation for the entire array Figure 3 shows the woofer on the left and Figure 4 shows the woofer on the right If you attach the top
46. seecesaeessaeeseesseessaeecseseeeesseeesaeeesea 11 GEO Vertical ArrayS MSS As AT MS Sa SM LATER GENE 11 GEO Horizontal Tangent Arrays iii 12 Speaker Quantity usada innata daa 12 Delays amp System Align MENi neins sarna eel en eG aia 13 Initial Set Up Precautions pican a dba 13 DEPLOYING GEO TANGENT ARRAYS rnnnnnnnnnnnnnanrnannnanrnannrnannnannrannnnannnannnannnannnnannnannnnnnnnnnnnannnnnnnnnnnannnnnnnnnnnnnnnnnnne 14 Vertical vs Horizontal ius laa tilda 14 CD 12 HyperGardioldSUBDasS caras tra li eel aad lie eel ke 14 NST SIMUKATION SOFTWARE draine a AA in edad ed E A A ee iia 15 USING THE CONFIGURABLE DIRECTIVITY DEVICE iii 16 Installing 8 removing GEO s Configurable Directivity flanges 16 When amp where to use Configurable Directivity flanges rmrranreenennenneneenennennneneanaanannaa 17 GEQ APPLICATION GUIDELINES 5 3442354 5042 07 Mait putkas E de idear 18 GEO TANGENT ARRAY RIGGING SYSTEM ccccccssccsseccssecssecssecssecssecseecsseesssecseecsuecsaecsasecsascaeceaesesaecsaecsaeeaaees 19 SAFETY FIRST 12133442 ai a i 19 GEO Loudspe kers cintia A tin 21 Angleseting Dal id A 22 Assembling a curved vertical GEO array iii 22 CD12 BUMPER evoca dead 24 Combination GEO CD 12 bumper avvisende lada ed do 25 Assembling Horizontal GEO Arrays cinc iii c 26 Ground stacking Geo Array issues 26 DIMENSIONS E WGIGMIS e ee 27 TECHNICAL SPECIFICATIONS
47. that the system is not exposed to excessive wind or snow loads and is protected from rainfall The GEOS CD12 Rigging System requires minimum yearly inspection by a competent person Please follow local regulations for inspection procedures When de rigging the system ensure that the same care is given to the load out procedure as for installation Pack GEOS CD12 Rigging System components carefully to prevent damage in transit Ground Stacking Safety Statistically many more injuries occur due to unstable ground stacked PA systems than those associated with flown systems There are several reasons for this fact however the message is clear Always survey the supporting structure upon which a ground stack is to be built Always look beneath PA wings to inspect the deck support and if necessary ask for the stage scrims and dressings be removed to allow access If the stage surface slopes as it does in some theatres ensure that the system is prevented from sliding forwards due to vibration This may require the fitting of timber battens to the stage floor For outdoor systems ensure that that the system is protected from wind forces which might cause the ground stack to become unstable Wind forces can be huge especially upon large systems and should never be underestimated Observe meteorological forecasts calculate the worst case effect upon the system prior to erection and ensure that the system is secured appropriately Tak
48. the entire array With 16 GEO cabinets a vertical GEO array can be tilted 15 NOTE Always use an inclinometer and or a laser aiming device to verify that the array has the tilt angle specified in NS 1 The extension bar has several tilt angle adjustment points lt must always be secured by inserting two of the supplied 12mm pins into two of these points pins must be locked in place with the supplied R clips The GEO bumper with or without the extension bar should be lifted by a single motor hoist using the two adjustable chains connected to a central flying ring see Figure 8 CD12 BUMPER The bumper of the CD12 is an independent hardware element that enables GEO users to fly one or more CD12 s either alone or directly behind a GEO array The CD12 bumper is shipped with four link steels To connect the top CD12 attach these steels to the four rails located on the bumper and the four rails located on the CD12 Figure 9 e O N NOS 2 A OOO N e GE i WA bece E Figure 9 GEO TANGENT ARRAY RIGGING SYSTEM P 25 Combination GEO CD12 bumper It is possible to make a single bumper by using the connecting bar to join the GEO bumper and the CD12 bumper The cluster will then consist of e The GEO enclosures attached to the GEO bumper e The CD12 enclosures attached to the CD12 bumper directly behind the GEO array e The connecting bar which joins the entire array assembly tog
49. thms and parameters are software and are updated regularly Please consult the NEXO web site www nexo fr or www nexo sa com for the latest software releases GEO Flying System Coupled with the integral array assembly system on GEO S8 Series cabinets provides safe flexible and simple means of flying GEO Tangent Arrays NOTE GEO Tangent Arrays control the dispersion of acoustic energy with a high degree of precision Inclinometers and laser aiming devices are essential to ensure proper audience coverage when hanging or flying a GEO Tangent Array NS 1 Design Software MATLAB based Windows software simplifies the design and implementation of vertical tangent GEO arrays Please devote some attention to reading this manual A comprehensive understanding of GEO waveguide theory tangent arrays and specific features of the GEO S8 Series will help you to operate your system at its full potential P 8 GENERAL SET UP INSTRUCTIONS GENERAL SET UP INSTRUCTIONS Speaker Wiring The loudspeakers are connected to power amplifiers via NL4FC SPEAKON connectors not supplied A wiring diagram is printed on the connection panel located on the back of each cabinet The in out pins of the SPEAKON sockets are identified The sockets are connected in parallel within the enclosures see the Connections Diagrams section of this manual Either connector can be used to connect power amplifiers or to power an additional GEO Tangent Array Module NEXO
50. ys Misuse of the GEOS CD12 Rigging System could lead to dangerous consequences Please refer to the safety section of this manual for advice concerning GEOS CD12 Rigging System installation and handling Used and maintained correctly the GEO S8 CD12 Rigging System will give many years of reliable service in portable systems Please take the time to read and understand this manual Always use NS 1 to determine the optimum angle settings for a particular venue hang point and curved vertical GEOS CD12 array Applied forces and moments are strongly cabinet quantity and angle configuration dependent Cluster configuration must be implemented and validated in NS 1 prior to installation Flown Systems Safety e Always inspect GEO S8 CD12 Rigging System components for damage before assembly Pay special attention to lifting points and safety clips lf you suspect that any of the components are defective DO NOT USE THE AFFECTED PARTS Contact your supplier for replacements e Read this manual carefully Also be familiar with the manuals and safe working procedures for any ancillary equipment that will be used with the GEOS CD12 Rigging System e Ensure that all local and National regulations regarding the safety and operation of flying equipment are understood and adhered to Information on these regulations may usually be obtained from Local Government Offices e When deploying the GEOS CD12 Rigging System always wear protective headgear
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