GEO S12 Series Geo S1210 & Geo S1230 Tangent Array Modules Geo S12 Analog TD Controller User Manual GEO S12 Series User Manual V1.
Page 2/112 INTRODUCTION GEO Technology is radically new thinking The GEO R&D Project has, to date, resulted in the following patent applications: • The GEO Hyperboloid Reflective Wavesource™ differs radically from the megaphone-variant type horns you know and love (or hate). “Tried and true” methods will produce entirely unexpected results. HRW technology produces precise and predictable results. • The Configurable Directivity Flange. A waveguide that allows the operator to alter its behaviour.
INTRODUCTION Page 3/112 SAFETY ISSUES IMPORTANT NOTICE CONCERNING HIGH SOUND PRESSURE LEVELS Exposure to extremely high noise levels may cause a 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 time. The U.S.
Page 4/112 INTRODUCTION CONTENTS 1 Introduction .....................................................................................................................9 2 GEO S12 General Set-up Instructions.........................................................................12 2.1 3 2.1.1 GEO S12 connectors........................................................................................12 2.1.2 Configuring Geo S12 for Passive or Active Mode.............................................
INTRODUCTION Page 5/112 6 GEOSoft2.......................................................................................................................28 7 Configurable Directivity Device................................................................................... 29 8 7.1 Installing & removing GEO’s Configurable Directivity flanges ................................. 29 7.2 When & where to use Configurable Directivity flanges ............................................
Page 6/112 9 INTRODUCTION NEXO Analogue Geo S12TD Controller ......................................................................68 9.1 Analogue TDcontroller Declaration of conformity.....................................................68 9.2 IMPORTANT SAFETY INSTRUCTIONS .................................................................68 9.3 Analogue TDcontroller Setting-Up Advice ...............................................................69 9.3.1 Mains Power................................
INTRODUCTION 10.2 Page 7/112 Trouble shooting...................................................................................................... 78 10.2.1 Operation of Multiple TDcontrollers output channels........................................ 78 10.2.2 Amplifier Power (MENU 2.7) ............................................................................ 78 10.2.3 Amplifier Gain (MENU 2.6) ............................................................................... 78 10.2.4 Gains......
Page 8/112 13.3 INTRODUCTION GEO S12 Touring Applications Accessories............................................................89 13.3.1 GEO S12 Bumper.............................................................................................89 13.3.2 GEO S12 Rigging Plates ..................................................................................90 13.3.3 Tension Mode Link Bars for GEOS12-XBOW-V2.............................................91 13.3.4 Lifting Ring......................
INTRODUCTION 1 Page 9/112 INTRODUCTION Thank you for selecting a NEXO GEO S12 Series Tangent Array System. This manual is intended to provide you with necessary and useful information about your GEO S12 System, which includes the following products: • • GEO S1230 is a 30° Tangent Array Module. It comprises 1x12” (30cm) Neodynium 16 ohms LF/MF driver and 1x3” voice coil, 1.4” Throat 16 Ohm HF Driver loaded by a 28.5° Hyperboloid Reflective Wavesource™. • GEO S1210 is a 10° Tangent Array Module.
Page 10/112 INTRODUCTION As for all NEXO systems, GEO S12s are controlled, powered and monitored by dedicated NEXO TDControllers: • GEO S12 TDController is based on PS analogue TDController design, and provides full control for RS15 subwoofer in omnidirectional mode associated to Geo S12.
INTRODUCTION • Page 11/112 GEOSoft2 Array Design Software assists in the design and implementation of vertical tangent GEO arrays. Please consult the NEXO web site (www.NEXO.fr or www.NEXO-sa.com) for the latest software releases. Please devote your time and attention to reading this manual. A comprehensive understanding of GEO theory, tangent arrays and specific features of GEO S12 will help you to operate your system at its full potential.
Page 12/112 2 GEO S12 GENERAL SET-UP INSTRUCTIONS GEO S12 GENERAL SET-UP INSTRUCTIONS 2.1 Speaker connection 2.1.1 GEO S12 connectors GEO S12 is connected with Speakon NL4FC plugs (not supplied). A wiring diagram is printed on the connection panel located on the back of each cabinet.The 4 pins of the 2 Speakon sockets identified in / out are connected in parallel within the enclosure.
GEO S12 GENERAL SET-UP INSTRUCTIONS 2.1.4 Page 13/112 Example: • GEO S12 has a 16 Ohms nominal impedance in passive mode, so 4x Geo S12 wired in parallel will present a 16/4 = 4 Ohm load impedance. The maximum acceptable 2x2.5 mm2 (AWG #12) cable length Lmax for such a cluster is 10 meters. IMPORTANT Long speaker cables induce capacitive effects – up to hundreds of pF depending on the quality of the cable - with a high-pass effect on high frequencies.
Page 14/112 3 AMPLIFIER SELECTION FOR USE WITH GEO S12S AMPLIFIER SELECTION FOR USE WITH GEO S12S NEXO recommends high power amplifiers in all cases. Budget constraints are the only reason to select lower power amplifiers. A lower power amplifier will not reduce the chances of driver damage due to over-excursion, and may actually increase the risk of thermal damage due to sustained clipping.
AMPLIFIER SELECTION FOR USE WITH GEO S12S Page 15/112 • 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 gain.
Page 16/112 AMPLIFIER SELECTION FOR USE WITH GEO S12S IMPORTANT When in Bridge-Mono mode, check your amplifier user manual for proper connection of outputs 1(+) and (2+) in relation to input phase. • Parallel-mono: the output terminals of the two channels are configured in parallel using an internal relay. The (single) load is connected either to the output of channel 1 or to that of channel 2 (as if in stereo).
AMPLIFIER SELECTION FOR USE WITH GEO S12S Page 17/112 Figure below shows connectors implementation on the rear panel. 3.2.
Page 18/112 4 4.1 GEO S12 SETUPS ON NEXO TD CONTROLLERS GEO S12 SETUPS ON NEXO TD CONTROLLERS Digital NX242-ES4 and NXAMP TDControllers At GEO S12 User Manual current version printing time, 38 setups combining GEO S12s with NEXO subwoofers are available in NX242 / NXAMP load 2.45. Please consult www.nexo-sa.com for upgrade releases.
CONNECTION DIAGRAMS 4.2 Page 19/112 Analogue GEOS12 TDController GEO S12 TDController parameters have been optimized for 1 x RS15 (omni mode, mono) used in conjunction with 2 x GEO S1210’s or 2 Geo x S1230’s (mono or stereo). 5 5.
Page 20/112 GEO S12 / NX242-ES4 (4 channels passive mode) FROM AMPLIFIERS TO AMPLIFIERS IN 2 GEOS12 GEOS12 GEOS12 GEOS12 #4 #2 #3 #1 GEOS12 #1 GEOS12 #2 GEOS12 #3 + 4 - + 3- + 2 - + 1 GEOS12 #4 5.2 CONNECTION DIAGRAMS Speakon 4 Speakon 4 STEREO Speakon 4 AMPLIFIER 1 STEREO AMPLIFIER 2 Speakon 4 Speakon 4 Speakon 4 1 (+) / 1 (-) N.C.
CONNECTION DIAGRAMS GEO S12 / ALPHA S2 / NX242-ES4 (Stereo passive mode) FROM AMPLIFIERS TO AMPLIFIERS GEOS12 GEOS12 SUB RIGHT RIGHT LEFT SUB LEFT STEREO IN SUB RIGHT SUB LEFT GEOS12 LEFT + 4 - + 3- + 2 - + 1 GEOS12 RIGHT 5.3 Page 21/112 Speakon 4 Speakon 4 1 (+) / 1 (-) VLF 2 (+) / 2 (-) N.C. 1 (+) / 1 (-) VLF 2 (+) / 2 (-) N.C. STEREO AMPLIFIER 1 STEREO AMPLIFIER 2 Speakon 4 Speakon 4 1 (+) / 1 (-) N.C.
Page 22/112 GEO S12 / CD18 / NX242-ES4 (Stereo passive mode) FROM AMPLIFIERS TO AMPLIFIERS SUB GEOS12 GEOS12 SUB FRONT REAR RIGHT LEFT SUB FRONT SUB REAR GEOS12 LEFT + 4 - + 3- + 2 - + 1 GEOS12 RIGHT 5.4 CONNECTION DIAGRAMS 1 (+) / 1 (-) REAR 2 (+) / 2 (-) FRONT Speakon 4 STEREO AMPLIFIER 1 STEREO AMPLIFIER 2 Speakon 4 Speakon 4 1 (+) / 1 (-) N.C.
CONNECTION DIAGRAMS GEO S12 / GEO SUB / NX242-ES4 (Stereo passive mode) FROM AMPLIFIERS TO AMPLIFIERS SUB GEOS12 GEOS12 SUB FRONT REAR RIGHT LEFT SUB FRONT SUB REAR GEOS12 LEFT + 4 - + 3- + 2 - + 1 GEOS12 RIGHT 5.5 Page 23/112 1 (+) / 1 (-) REAR 2 (+) / 2 (-) FRONT Speakon 4 STEREO AMPLIFIER 1 STEREO AMPLIFIER 2 Speakon 4 Speakon 4 1 (+) / 1 (-) N.C.
Page 24/112 SP4 SP4 SP4 SP4 SP4 SP4 SP4 SP4 SP4 SP4 IN A IN B OUT A GEO S12 / NXAMP4x1 (Bridge Stereo - Passive mode) OUT D 5.
CONNECTION DIAGRAMS SP4 SP4 SP4 SP4 SP4 4 x LF IN A OUT A OUT D GEO S12 / NXAMP4x1 (Bridge Stereo - Active mode) 4 x HF 5.
Page 26/112 IN A IN B IN C IN D OUT A OUT B OUT C GEO S12 / NXAMP4x4 (4 Channels - Passive mode) OUT D 5.
CONNECTION DIAGRAMS 4 x HF 4 x LF 4 x LF SP4 SP4 SP4 SP4 SP4 SP4 SP4 SP4 SP4 SP4 SP4 SP4 SP4 SP4 IN A IN B OUT A OUT B OUT C OUT D GEO S12 / NXAMP4x4 (Stereo Active mode) 4 x HF 5.
Page 28/112 6 GEOSOFT2 GEOSOFT2 GEOSoft2 software is a R&D simulation tool derived application. It processes measured speaker data with complex mathematical algorithms to assist the user in designing vertical GEO Tangent Arrays that provide even SPL throughout the depth of the audience.
CONFIGURABLE DIRECTIVITY DEVICE 7 Page 29/112 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 patented Configurable Directivity Device consists of bolt-on flanges that alter the diffraction slot’s exit flare rate. 7.
Page 30/112 7.2 CONFIGURABLE DIRECTIVITY DEVICE When & where to use Configurable Directivity flanges The diagrams show audience area coverage for a stereo system. 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 (left figure below).
GEO S12 HARDWARE SETUP PROCEDURE 8 Page 31/112 GEO S12 HARDWARE SETUP PROCEDURE Before proceeding with assembly of GEO S12 arrays, please ensure that the components are present and undamaged. A component list is appended to this manual. In the event of any shortage, please contact your supplier. For maximum efficiency the GEO S12 rigging system requires three experienced persons for set-up: typically one motor hoist operator, and one GEO S12 operator per side of the array.
Page 32/112 8.1.2 GEO S12 HARDWARE SETUP PROCEDURE • 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. • 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.
GEO S12 HARDWARE SETUP PROCEDURE 8.1.3 Page 33/112 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.
Page 34/112 8.2 GEO S12 HARDWARE SETUP PROCEDURE General Description GEO S1230 GEO S1210 GEO S1230 and GEO S1210 incorporate two connecting plates (one per side) on which a comprehensive range of accessories can be mounted.
GEO S12 HARDWARE SETUP PROCEDURE 8.2.1 Page 35/112 Described configurations SECTION 8.3.4 SECTION 8.3.2 SECTION 8.3.3 SECTION 8.3.2 SECTION 8.3.6 FIXED INSTALLATIONS SECTION 8.4.3 SECTION 8.4.7 SECTION 8.4.6 SECTION 8.4.4 SECTION 8.4.9 SECTION 8.4.5 SECTION 8.4.2 SECTION 8.4.
Page 36/112 8.2.2 GEO S12 HARDWARE SETUP PROCEDURE WARNINGS ON GEO S12 ACCESSORIES WARNING 1T All GEO S12 Accessories are specifically rated in agreement with structural computations. Never use other accessories – including push-pins - when assembling GEO S12 cabinets than the ones provided by NEXO: NEXO will decline responsibility over the entire GEO S12 accessory range if any component is purchased from different supplier.
GEO S12 HARDWARE SETUP PROCEDURE 8.3 Page 37/112 GEO S12 in fixed installations 8.3.1 Fixed installation Accessories and kits Accessories are: • Bumper (GEOS12-FBUMPER) • “U” Bracket (GEOS12-UBRK) • “L” Bracket for cable suspension (GEOS12-LBRK) • “U” Bracket for rigid suspension (GEOS12-ABRK) • Connecting Plates / range : 0.20° - 3.15° (GEOS12-ANPL1) • Connecting Plates / range : 5.00° - 10.0° (GEOS12-ANPL2) • Connecting Plates / range : 16.0° - 30.
Page 38/112 8.3.2 GEO S12 HARDWARE SETUP PROCEDURE Single GEO S12 rigidly mounted on a wall or a ceiling (vertical or horizontal) Required items • 1 x GEOS12-UBRK (allows all angles to be implemented) • 4 x 12mm diameter screws (not provided) IMPORTANT Ensure that the surface – wall or ceiling – is strong enough to hold GEO S12 weight and that the for screws 12mm diameter and corresponding plugs required to fix the “U” bracket on the wall or under the ceiling are properly dimensioned.
GEO S12 HARDWARE SETUP PROCEDURE 8.3.3 Page 39/112 Single GEO S12 cable mounted on a wall or a ceiling (vertical or horizontal) Required items • 1 or 2 x GEOS12-LBRK (allows cable suspension, holes for cable suspension are 10mm diameter); • 2 or 4 slings and corresponding shackles (not provided) IMPORTANT Ensure that the ceiling is strong enough to hold GEO S12 weight and that the cable suspension system required to install the cabinet under the ceiling is properly dimensioned.
Page 40/112 8.3.4 GEO S12 HARDWARE SETUP PROCEDURE GEO S12 vertical array rigidly mounted on a ceiling Required items • 1 x GEOS12-FBUMPER (allows +/-5° bumper tilt when installed below a flat surface; if higher bumper tilt is required, surface will have to be defined accordingly) ; • (N-1) x GEOS12-ANPL for a N x GEO S12 array (ANPL1 ranges from 0.2° to 3.
GEO S12 HARDWARE SETUP PROCEDURE Page 41/112 • (7) Flip the cluster upside down to access connector plates located on the down side; • (8) Repeat all above steps from #2 to #6; • • (9) Position the GEOS12-FBUMPER bumper to required angle position and use the four shoulder screws from GEOS12-FBUMPER kit to connect it the bumper to the top cabinet; 0° 1° 2° 3°4° 5° 0° 1° 2° 3°4° 5° • (10) Flip GEO S12 cluster by 90° so that it is ready to be positioned under the ceiling; • (11) Four screws 12mm
Page 42/112 8.3.5 GEO S12 HARDWARE SETUP PROCEDURE GEO S12 vertical array cable mounted on a ceiling Required items • 1 x GEOS12-FBUMPER; • 2 x GEO S12-LBRK (allows cable suspension for bumper, holes for cable suspension are 10mm diameter); • (N-1) x GEOS12-ANPL for a N x GEO S12 array (ANPL1 ranges from 0.2° to 3.
GEO S12 HARDWARE SETUP PROCEDURE 8.3.6 Page 43/112 GEO S12 horizontal array rigidly mounted on a ceiling Required items • 2 x GEO S12-ABRK (allows rigid ceiling suspension for horizontal arrays) • (N-1) x GEOS12-ANPL for a N x GEO S12 array (ANPL1 ranges from 0.2° to 3.
Page 44/112 GEO S12 HARDWARE SETUP PROCEDURE • (7) Flip the cluster upside down to access connector plates located on the down side; • (8) Repeat all above steps from #2 to #6; • (9) Position the two “U” brackets from GEOS12-ABRK kits on the outer cabinets next the angle plates, and tight them to the cabinets using the shoulder screws provided with these kits, • (10) Four screws 12mm diameter (not provided) are required to secure the “U” brackets under the ceiling;
GEO S12 HARDWARE SETUP PROCEDURE 8.3.7 Page 45/112 GEO S12 horizontal array cable mounted on a ceiling Required items • 2 x GEO S12-LBRK (allows cable suspension for horizontal arrays, holes for cable suspension are 10mm diameter); • (N-1) x GEOS12-ANPL for a N x GEO S12 array (ANPL1 ranges from 0.2° to 3.15°, ANPL2 ranges from 5° to 10°, ANPL3 ranges from 16° to 30°) • 4 slings and 4 shackles (not provided).
Page 46/112 8.4 GEO S12 HARDWARE SETUP PROCEDURE GEO S12 in touring applications 8.4.
GEO S12 HARDWARE SETUP PROCEDURE 8.4.
Page 48/112 GEO S12 HARDWARE SETUP PROCEDURE
GEO S12 HARDWARE SETUP PROCEDURE 8.4.3 Page 49/112 Single GEO S12 flown vertically Required items • 1 x Flying Bar for single vertical GEO S12 (GEOS12-TTC-V2) • 1 x Lifting Ring (GEOS12-XHBRK) • Or 1 x Truss hook (GEOS12-TCBRK-V2) IMPORTANT Ensure that truss suspension point is strong enough to hold GEO S12 weight.
Page 50/112 8.4.4 GEO S12 HARDWARE SETUP PROCEDURE Single GEO S12 flown horizontally Required items • 1 x “U” Bracket for single horizontal GEO S12 (GEOS12-SSBRK-V2) • 1 x Lifting Ring (GEOS12-XHBRK) • Or 1 x Truss hook (GEOS12-TCBRK-V2) IMPORTANT Ensure that suspension point is strong enough to hold GEO S12 weight.
GEO S12 HARDWARE SETUP PROCEDURE 8.4.
Page 52/112 GEO S12 HARDWARE SETUP PROCEDURE
GEO S12 HARDWARE SETUP PROCEDURE Page 53/112 Alternative Procedure (“Walder” procedure) Below described procedure required 2 additional 8x20 quick release pins (BLGEOS) • Split the GEOS12-PSBRK-V2 side plates by removing screws and bolt; • Slide GEOS12-PSBRK-V2 lower half-plates into lower GEO S12 connecting plate oblong holes; • Lock safety pins into lower GEO S12 connecting plate; • Position “U” bracket over these lower half plates; align centre holes; • Insert adjustment handles, adjust vertic
Page 54/112 GEO S12 HARDWARE SETUP PROCEDURE DOWN CABINET UP CABINET
GEO S12 HARDWARE SETUP PROCEDURE 8.4.6 Page 55/112 Two GEO S12 flown horizontally Required items • 1 x “U” Bracket for two GEO S12s (GEOS12-PSBRK-V2) • 1 x Lifting Ring (GEOS12-XHBRK) • Or 1 x Truss hook (GEOS12-TCBRK-V2) IMPORTANT Ensure that suspension point is strong enough to hold two GEO S12s weight.
Page 56/112 8.4.7 GEO S12 HARDWARE SETUP PROCEDURE Two or more GEO S12 flown vertically Required items • N Pair of Rigging Plates (GEOS12-XBOW-V2) for N cabinets; • 1 lifting ring (GEOS12-XHBRK) every two GEO S12; • 4xN Quick release pins for N cabinets; • Properly rated slings, shackles, hoists… (not provided) IMPORTANT Lifting ring GEOS12-XHBRK and truss hook GEOS12-TCBRK-V2 are rated for a maximum of 2 GEO S12s; Ensure that suspension points are rated accordingly.
GEO S12 HARDWARE SETUP PROCEDURE Page 57/112 IMPORTANT GEO S12 can be flown “Up” or “Down” : - “Up” means Nexo logo on front grid is at the top; - “Down” means Nexo logo on front grid is at the bottom. GEO S12 can be connected “Up” or “Down” by simply flipping the cabinets.
Page 58/112 GEO S12 HARDWARE SETUP PROCEDURE • Lift and position assembly, connect lifting rings to suspension points with sling and shackle; • Secure assembly with secondary safety steel. IMPORTANT The requirements for secondary safety systems vary with territories. However, the secondary safety steel MUST have a SWL equivalent or greater than that of the rigging system.
GEO S12 HARDWARE SETUP PROCEDURE 8.4.8 Page 59/112 Three or more GEO S12 flown horizontally Required items • 1 x Bumper (GEOS12-BUMPER); • N Pair of Rigging Plates (GEOS12-XBOW-V2) for N cabinets; • 4xN Quick release pins for N cabinets; • 1 hoist (not provided). IMPORTANT Maximum GEO S12 quantity for flown vertical cluster is 12 (and eventually less). Please check Geosoft2 for mechanical Safety Working Load computations. IMPORTANT Motor hoist must be rated to support entire cluster weight.
Page 60/112 GEO S12 HARDWARE SETUP PROCEDURE To facilitate flying operation, an optional link bar with oblong holes (GEOS12-TLB, pair of link bars provided with two 8x20 quick release pin) is available in the GEO S12 accessory range. GEO S12 X-BOW OPTIONAL GEOS12-TLB LINK BAR To install GEOS12-TLB, remove the standard link as well as nut, screw and washers. When using GEO S12 XBOW for flown setups, insert pins in the oblong hole and opposite circular hole.
GEO S12 HARDWARE SETUP PROCEDURE Page 61/112 IMPORTANT Ensure that safety pins are properly locked into GEO S12s connecting panels. IMPORTANT GEO S12 can be flown “Left” or “Right” : - “Left” means Nexo logo on front grid is left as seen from front; - “Right” means Nexo logo on front grid is right as seen from front. GEO S12 can be connected to bumper “Left” or “Right” by simply flipping the cabinets.
Page 62/112 GEO S12 HARDWARE SETUP PROCEDURE IMPORTANT Ensure angle settings are identical on both sides of the cabinets. Ensure that safety pins are properly locked into GEO S12s connecting panels. Ensure that all quick release pins are properly locked into their position. • Lift cluster to Geosoft2 defined rigging height, secure cluster horizontally to prevent it from rotating; • Secure bumper with secondary safety steel. IMPORTANT The requirements for secondary safety systems vary with territories.
GEO S12 HARDWARE SETUP PROCEDURE 8.4.9 Page 63/112 Ground stacked GEO S1210 Required items • N Pair of Rigging Plates (GEOS12-XBOW-V2) for N cabinets; • 1 ground stack device (GEOS12-GSTK); • 4xN Quick release pins for N cabinets; IMPORTANT - Ground stack device GEOS12-GSTK is rated for a maximum of 6 GEO S1210s in any inter cabinet angle configuration, provided this device is assembled according to below rules.
Page 64/112 GEO S12 HARDWARE SETUP PROCEDURE GEO S12 ground stack device description GEOS12-GSTK ground stack device includes: • two supporting beams, which support assembly weight; • two connecting beam, which allow connection of the beams to the first cabinet; • one reinforcement beam, to rigidify ground stack device sideways; • Axis, “R” clips and handles to assemble the ground stack device Procedure • Assemble the two connecting beam and the reinforcement beam with the handles; • Depending
GEO S12 HARDWARE SETUP PROCEDURE • Insert GEOS12-XBOW-V2 into connecting plates of both sides GEO S12s; • Lock safety pins into GEO S12s connecting plate; Page 65/112 IMPORTANT Ensure that safety pins are properly locked into GEO S12s connecting panels.
Page 66/112 GEO S12 HARDWARE SETUP PROCEDURE
GEO S12 HARDWARE SETUP PROCEDURE 8.5 Page 67/112 Testing and Maintenance of the system • General: Geo is a precision piece of equipment and requires regular attention to maintenance in order to give long and reliable service. NEXO recommends regular testing of loudspeaker rigging components, preferably using a suitable test rig coupled with a visual inspection. • Fasteners: there are several critical points in the GEO S12 cabinets.
Page 68/112 9 9.
NEXO ANALOGUE GEO S12TD CONTROLLER Page 69/112 CAUTION RISK OF ELECTRIC SHOCK DO NOT OPEN The lightning flash with arrowhead symbol, within an equilateral triangle is intended to alert the user to the presence of uninsulated “dangerous voltage” within the product's enclosure that may be of sufficient magnitude to constitute a risk of electric shock to persons. WARNING: To reduce the risk of fire or electric shock, do not expose this apparatus to rain or moisture.
Page 70/112 NEXO ANALOGUE GEO S12TD CONTROLLER CAUTION! This servicing instruction is for use by qualified service personnel only. To reduce the risk of electric shock, do not perform any servicing other than that contained in the operating instructions unless you are qualified to do so. 9.3.5 Recommendations for wiring the sense lines The impedance of the sense inputs of the TDcontroller are high, so currents are low and therefore light duty cable can be used.
NEXO ANALOGUE GEO S12TD CONTROLLER Page 71/112 degradation of output noise. We recommend that the sources and loads you use have the same desirable characteristics. It is sometimes claimed that connecting cable shield at both ends creates ground looS12, and that the current flowing in such looS12 will produce noise. This is not the case for most professional audio equipment.
Page 72/112 NEXO ANALOGUE GEO S12TD CONTROLLER • High CMRR input stage and High current drive output • Compensation of power compression effects on the system response curve. The Analogue TDcontroller is designed to be inserted between the Audio source (console, preamplifier, etc.) and the power amplifier. 9.4.
NEXO ANALOGUE GEO S12TD CONTROLLER Page 73/112 To set the peak limiter to the correct value, either turn the trimmer clockwise until the red LED lights at the same time as the amp’s clipping LED, or use the graduation (power value given for 8Ωload). 9.4.3 Rear Panel LEFT RIGHT The audio inputs are two 3-pin female XLR connectors located in the area labeled BALANCED INPUTS. Signal is applied between pins 2 and 3, pin 1 is connected to ground.
Page 74/112 NEXO ANALOGUE GEO S12TD CONTROLLER Always ensure that your TDcontroller is disconnected from main before opening the unit. Remove the 3 screws fastening the top panel. The ST1 jumper is located near the Input XLR. The PIN1 being the PIN closest of the Input XLR. Strap PIN 1-2 (B in the drawing) in order to drive the sub only from input R. Strapping Pin 2-3 (labeled A, factory default) will provide the summation of channel R&L. 1 2 3 A 9.5 B TDcontroller REFERENCE GUIDE 9.5.
NEXO ANALOGUE GEO S12TD CONTROLLER • Page 75/112 The other elements work selectively as dynamic equalizers (LF-VCEQ & HF-VCEQ). Depending on the nature and origin of the servo signals, either one or the 3 combined elements is used to process the Audio signal. This feature allows more efficient processing while reducing audible effects. Displacement control The signal from the sense input is fed through a shaping filter producing a signal proportional to the voice coil displacement.
Page 76/112 NEXO NX242-ES4 DIGITAL CONTROLLER FOR GEO S12 10 NEXO NX242-ES4 DIGITAL CONTROLLER FOR GEO S12 IMPORTANT GEO S12 use latest NEXO proprietary sophisticated DSP algorithm, which require additional resources from the NX-Tension ES4 Card. All available GEO S12 setups require that NX-ES4 card is installed in NX242 TD Controller. 10.1 NX242 Proprietary Functions The NX242 is much more than a “generic” Digital Signal Processor.
OUTPUT CHANNEL 4 NEXO NX242-ES4 DIGITAL CONTROLLER FOR GEO S12 Page 77/112 10.1.3 Protection VCAs and VCEQs DAC Each channel has its own simulation and protection process. EQ NX242 Digital TDcontroller Partial BLOCK DIAGRAM MUTE Each audio channel contains a combination of controlled gain stages (let's call them VCAs as in analogue circuitry).
Page 78/112 NEXO NX242-ES4 DIGITAL CONTROLLER FOR GEO S12 The Physio control voltage acts independently on the VCA with its operation threshold slightly (3 dB) above that of the temperature limiter and a low compression ratio; its optimised attack time constant allows it to start operating without any subjectively unpleasant transient effects.
NEXO NX242-ES4 DIGITAL CONTROLLER FOR GEO S12 Page 79/112 10.2.5 Delays Multiple NX242’s can be used on a single GEO S12 array. When changing the delay in one NX242 TDcontroller that is part of a multi-controller system, take great care to have exactly the same delay setting in all NX242 TDcontrollers that receive the same input signal (i.e. all NX242’s that are fed from the Left output of the mixing console should have the same delay settings).
Page 80/112 SYSTEM ALIGNMENT GUIDELINES 11 SYSTEM ALIGNMENT GUIDELINES The NX242’s factory delay presets are optimised to provide the best possible crossover between the GEO S12 and CD18 / S2 / GEO SUB systems. The reference point for this adjustment is the front of each cabinet. (This means that the internal delays needed to achieve a correct time alignment are set for cabinets standing next to each other with both fronts aligned).
SYSTEM ALIGNMENT GUIDELINES Page 81/112 11.3 Driving the GEO SUB’s from the AUX send It is quite common to use the AUX send of a mixing desk to drive the Sub section of a PA system. This gives the mixing engineer more flexibility to set the level of the subbass relative to the main PA, apply special effects, or to use a different EQ on the Sub. However, it also raises some serious issues for the performance & safety of the system (mostly time alignment).
Page 82/112 SYSTEM ALIGNMENT GUIDELINES of the array, even while it is swinging, and has a green laser mounted coincident to and parallel with the axis of the topmost cabinet. • Spirit level – used to ascertain the trueness of the surface from which the angle measurements originate. • Rangefinder measuring device – either a Disto type laser measure or an optical laser rangefinder can be used.
GEO S12 – RS15 / CD18/S2/GEOSUB SYSTEM CHECK LIST Page 83/112 12 GEO S12 – RS15 / CD18/S2/GEOSUB SYSTEM CHECK LIST It is essential to execute all these check steps prior to perform a sound check on the “front end” to the system. Following this checklist step by step will prevent many troubles and will save time in the end. 12.1 Are the NX242 Digital TDcontrollers properly configured? IMPORTANT If you must change any of the parameters listed above, make sure that you use the same values on all NX242’s.
Page 84/112 GEO S12 – RS15 / CD18/S2/GEOSUB SYSTEM CHECK LIST 12.4 Are the speakers properly connected and angled ? • Attach the first series of modules to the bumper. • Before flying, verify that all channels of all modules are functioning properly. • Make sure that each RS15 / CD18 / GEO SUB is producing the proper front/rear summation: when listening from behind the array, switch the front drivers in and out.
TECHNICAL SPECIFICATIONS Page 85/112 13 TECHNICAL SPECIFICATIONS 13.1 GEO S1230 Module 13.1.1 System specifications PRODUCT FEATURES Components Height x Width x Depth Shape GEO S1230 HF: 1 x 3” voice coil, 1.4” throat 16 Ohms driver on a 5° hyperboloid reflective wavesource. LF: 1 x 12” (30cm) high excursion neodymium 16 Ohm driver. 344 x 675 x 400 mm (13 1/2” x 26 1/2” x 15 1/2”) excluding accessories Rigging axis to axis height: 345mm (131/2”) 30° Trapezoid. Weight: net 26.8 kg (59.
Page 86/112 TECHNICAL SPECIFICATIONS 13.1.2 Dimensions 400 mm 15 1/2" 675 mm 26 1/2" 344 mm 13 1/2" 30° 13.1.
TECHNICAL SPECIFICATIONS Page 87/112 13.2 GEO S1210 Module 13.2.1 System specifications PRODUCT FEATURES Components GEO S1210 Shape HF: 1 x 3” voice coil, 1.4” throat 16 Ohms driver on a 5° hyperboloid reflective wavesource. LF: 1 x 12” (30cm) high excursion neodymium 16 Ohm driver. 344 x 675 x 378 mm (13 1/2” x 26 1/2” x 14 7/8”) excluding accessories Rigging axis to axis height: 345mm (131/2”) 10° Trapezoid. Weight: net 28.05 kg (61.8 lbs) including array assembly system.
Page 88/112 TECHNICAL SPECIFICATIONS 13.2.2 Dimensions 378 mm 15" 675 mm 26 1/2" 344 mm 13 1/2" 10° 13.2.
TECHNICAL SPECIFICATIONS Page 89/112 13.3 GEO S12 Touring Applications Accessories 13.3.1 GEO S12 Bumper Parts Dimensions 656 mm 294 mm 731 mm Weight 20 kg / 44.
Page 90/112 TECHNICAL SPECIFICATIONS 13.3.2 GEO S12 Rigging Plates Parts #GEOS12-XBOW-V2 53 Dimensions 352,3 376,50 Weight (pair) 10.7 kg / 23.
TECHNICAL SPECIFICATIONS Page 91/112 13.3.3 Tension Mode Link Bars for GEOS12-XBOW-V2 Parts #GEOS12-TLB Dimensions 46.1 225.3 Weight (pair) 0.6 kg / 1.
Page 92/112 TECHNICAL SPECIFICATIONS 13.3.4 Lifting Ring Parts 132 Dimensions 36 58 Weight (kit) 0.3 kg / 0.
TECHNICAL SPECIFICATIONS Page 93/112 13.3.5 Truss hook for GEOS12-SSBRK or GEOS12-PSBRK Parts #GEOS12-TCBRK-V2 198 Dimensions 135 47 Weight (kit) 0.620 kg / 1.
Page 94/112 TECHNICAL SPECIFICATIONS 13.3.6 Truss hook for single vertical GEO S12 Parts #GEOS12-TTC-V2 Dimensions 264 47.5 41 Weight (kit) 0.7 kg / 1.
TECHNICAL SPECIFICATIONS Page 95/112 13.3.7 “U” Bracket for single vertical GEO S12 Parts #GEOS12-SSBRK-V2 Dimensions 212 575 899 Weight (kit) 7 kg / 15.
Page 96/112 TECHNICAL SPECIFICATIONS 13.3.8 U” Bracket for two vertical GEO S12 Parts #GEOS12-PSBRK-V2 Dimensions 284 737 899 Weight (kit) 10.4 kg / 22.
TECHNICAL SPECIFICATIONS Page 97/112 13.3.9 Ground Stacking Device for up to 6 GEO S1210 Parts #GEOS12-GSTK x2 x4 x8 In Service Equipment Storage Pattern 860 Dimensions 307 1030 1035 Weight (kit) 26.5 kg / 58.
Page 98/112 TECHNICAL SPECIFICATIONS 13.4 GEO S12 Fixed Installations Accessories 13.4.1 GEO S12 Bumper Parts Dimensions 215 251 691 Weight (kit) 14.
TECHNICAL SPECIFICATIONS Page 99/112 13.4.2 GEO S12 Connecting Plate 1 Parts Dimensions 216 313 6 Weight (kit) 7.5 kg / 16.
Page 100/112 TECHNICAL SPECIFICATIONS 13.4.3 GEO S12 Connecting Plate 2 Parts Dimensions 173 310 6 Weight (kit) 6.2 kg / 13.
TECHNICAL SPECIFICATIONS Page 101/112 13.4.4 GEO S12 Connecting Plate 3 Parts Dimensions 169 293 6 Weight (kit) 5.5 kg / 12.
Page 102/112 TECHNICAL SPECIFICATIONS 13.4.5 Single GEO S12 “U” Bracket Parts Dimensions 172 400 712 Weight 2.9 kg / 6.
TECHNICAL SPECIFICATIONS 13.4.6 “L” Bracket for cable suspension Parts #GEOS12-LBRK WARNING : Screws must be secured using Loctite 243 TM 44 Dimensions 301 51 Weight (kit) 1.75 kg / 3.
Page 104/112 TECHNICAL SPECIFICATIONS 13.4.7 “U” Bracket for rigid suspension Parts #GEOS12-ABRK WARNING : Screws must be secured using Loctite 243 TM Dimensions 199 112 51 Weight (kit) 1.75 kg / 3.
TECHNICAL SPECIFICATIONS Page 105/112 13.4.8 GEO S12 Push-Pins (BLGEOS) 8 mm 20 mm WEIGHT: 0.032 KG / 0.
Page 106/112 TECHNICAL SPECIFICATIONS 13.5 GEO S12 Analogue TDcontrollers 13.5.1 Specifications SPECIFICATIONS Output Section Input Section THD+N Noisefloor Dynamic Range Crosstalk Filtering & EQ. +22 /+16/+10 dBm typ. into 600 Ohm load. Back Panel switch on +6/0/-6dB respectively. Maximum input Level : 22dBu. CMRR 80dB @ 1kHz typ. 0.1% @ 1kHz Typ. for +10dBm Output S12TD -100 dBV for 0dB switch position (22 Hz - 22 kHz, UnWeighted) 111 dB UnWeighted (THD+N at-60dBr sine wave @1kHz rel.max.
TECHNICAL SPECIFICATIONS Page 107/112 13.6 NX242 TDcontroller with NX-Tension Card 13.6.1 Specifications SPECIFICATIONS Output Level +28 dBu Max. into 600 Ohm load Dynamic Range 110 dBu THD + Noise < 0.002% flat setup (for output at 27.5dBu) Latency time 1.7ms on a flat setup Power Supply 90V-260V PRODUCT FEATURES Audio Inputs 2 Audio Inputs 24 bit converters Electronically Balanced, 50k Ohm. 2 XLR-3F Connectors.
8 SENSE 4 A/D A/D A/D 6 SENSE 2 7 SENSE 3 A/D HEADROOM 5 SENSE 1 INPUT L INPUT R 0 0 AMP POWER Signal EQ 2 EQ AMP POWER Signal AMP POWER Signal AMP POWER Signal AMP VOLTAGE AMP GAIN FALLBACK AMP VOLTAGE AMP GAIN FALLBACK AMP VOLTAGE AMP GAIN FALLBACK AMP VOLTAGE AMP GAIN FALLBACK INPUT VU-METER A/D INPUT VU-METER A/D Command Command ChassisTemp. Voice Coil Temp. 9 Command ChassisTemp. Voice Coil Temp. Command ChassisTemp. Voice Coil Temp.
GEO S12 SERIES PARTS & ACCESSORIES LIST Page 109/112 14 GEO S12 SERIES PARTS & ACCESSORIES LIST 14.1 Modules & Control Electronics List MODEL DRAWING GEO S1230 DESCRIPTION GEO S1230 Module GEO S1210 GEO S1210 Module NX 242–ES4 Digital TDcontroller NXAMP4x1 Digital Powered Controller 4x1300W NXAMP4x4 Digital Powered Controller 4x4000W 14.2 Accessories List MODEL DRAWING DESCRIPTION GEOS12-BUMPER Main GEOS12 Bumper for touring application.
Page 110/112 GEO S12 SERIES PARTS & ACCESSORIES LIST MODEL DRAWING DESCRIPTION GEOS12-TTC-V2 Truss hook for single vertical GEO S12 GEOS12-SSBRK-V2 “U” Bracket for single horizontal GEO S12 on tripod or on truss hook or lifting ring GEOS12-PSBRK-V2 U” Bracket for two GEO S12 on subwoofer pole stand or on truss hook or on lifting ring GEOS12-GSTK Ground Stack Device for up to 6 Geo S1210 GEOS12-FBUMPER Main GEOS12 Bumper for fixed installation. GEOS12-ANPL1 Connecting Plates / range: 0.
USER NOTES 15 USER NOTES Page 111/112
Page 112/112 USER NOTES France Nexo S.A. Parc d’activité 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.