Turbosound LMS-D6, LMS-D24, LMS-D26 user manual Flying Hardware, Wide and Narrow Flybar Settings

Page 27

user manual

TA-890

Flying Hardware

The ‘A’ system flying bars consist as follows:

•Single bar – supports a vertical column of cabinets up to 8 deep.

•Twin bar – supports two vertical columns up to 8 deep.

•Triple bar – supports three vertical columns from a single pick-up point or with chain bridles, specifically designed for outdoor use with ground support towers

•Mother beam – used to connect multiples of single bars and/or twin bars in a modular fashion, allowing the creation of speaker clusters up to and including full 360° arrays.

•Extender beam – connects half a mother beam to a two-wide bar and a single bar, which can be bridled from one motor or picked up by two points

•Spacer bar – used to join and maintain the distance between flying bars.

Flying boxes in their horizontal format is simply achieved by suspending vertical columns of loudspeakers using chains attached to lifting points on the fixed angle flybars depicted below. Based on the predicted 25° of horizontal coverage from a single cabinet, it is an easy job to assess how many columns, and therefore which particular combination of flybars, will be needed to achieve the required coverage. The top chains are adjustable to allow the cluster to hang either close to the bar where trim height is critical, or further away when more radical kelp is applied to the columns. In addition, all flybar assemblies allow the user two options to vary the width at the flybar to accommodate deep arrays.

Wide and Narrow Flybar Settings

In order to accommodate the wide range of vertical coverage requirements dictated by a particular venue, all flybars - except the single bar - offer two sets of lifting points, enclosure attachment points and lifting strap points. The narrow setting is designed for a column of cabinets in the ‘A’ or horizontal orientation and will be more than adequate for the majority of applications. However, the wide setting provides the additional horizontal spacing at the flybar to allow for a vertical column of up to eight cabinets deep to be flown where more vertical coverage is called for. No additional parts or flybars are required to accommodate virtually all situations; it can all be achieved using only one type of flybar.

TA-890 user manual Page 27

Image 27

Contents Aspect TA-890 System TA-890 TA-890 TA-890 Amplifier Rack Signal Wiring Output Connections Products EC Declaration of ConformityIntroduction Turbosound Aspect System ConceptsTurbosound Polyhorn TA-890 Aspect TA-890 Turnkey System Concept Amplifier Racks Power AmplifiersLoudspeaker Management System LMS Concept LMS-D24, LMS-D26 and LMS-D6 Loudspeaker Management SystemsDigital Controllers Aspect Loudspeaker ComponentsTA-890L Low Frequency Enclosure TA-890H Mid-high Enclosure TSW-218 SubwooferTA-890 Transportation Aspect Flying Systems Overview Flying and StackingGigmate Acoustic Simulation Setting up a Venue OverviewRunning Turbosound GigMate / Ease Focus for the first time System Setup Designing a system TA-890 TA-890 Changing the system Theatre-style venue 3-wide flown cluster @ 1kHz Safety Notes on Rigging Sample Certificate of Load Test Flying Hardware Wide and Narrow Flybar SettingsSingle A-System Flybar FB-890/1A TOP View Bottom View Figue 3. Triple ‘A’ System Flybar FB-890A/3W TS-890 Tilting Straps FC-890 Flying ChainsTA-890 Four-wide hang using MB-890 and FB-890/2A ‘A’ System Flygear Integral Flying HardwareSwing Latch Connecting Flying Chains to the CabinetConnecting Cabinets ‘A’ System Drop LinkSetting Vertical Angles ‘A’ System Attach buckle Attaching the Tilt StrapsTurbobass Directivity Bass Enclosure arrayingAiming directivity of the stack TA-890 ABC DEF Typical Left to Right problemBass in a line Creating Directional Bass arraysFanned bass General observations of long lines of bass Bessel ArrayEnd firing array Summing up Ground stacking Introduction General features & facilities UnpackingMechanical Installation LMS Series Loudspeaker Management SystemsLMS-D6 Front Panel Functions LMS-D6 Rear Panel Functions Mains PowerPowering Up Voltage SettingSafety Earthing AC Power FusingInput and Output Connector Wiring Time correction for loudspeaker driver placementAudio Connections LMS-D24 and D26 Loudspeaker Management Systems FeaturesFront Panel Functions TA-890 Rear Panel Functions Creating a Crossover Selecting a Factory PresetOperating the LMS-D24 and D26 Starting upNavigation and Viewing Parameters A Freq Width Gain EQ1 100Hz 1.4Q 0.0dBNavigation Out1 Freq Width Gain EQ1 100Hz 1.4Q 0.0dBPresets Preset RecallPreset Store Preset Name Store My SystemStereo / Mono Formats Input DSP block diagramOutput DSP block diagram DSP Processing LayoutInput Channels DSP ProcessingA Freq Shape HPF 20.0Hz LR24 Parametric Equalisation High and Low shelving filtersParametric filters Delay Output ChannelsGain and Polarity High and Low Pass Filters Out1 Freq Shape LPF 2.50k LR24Out1 Freq Slope Gain EQ- 100Hz 12dB 0.0dB Routing LimitersUtility functions UtilitiesAudio Input Connectors Racking, Cables and Connections AMP-890 Aspect System Amplification RackInput Connections OptionsOutput Connections Amplifier Rack Signal WiringMid-High Outputs Break-out Cables NL4 bass Extension Cables Break-out cables NL8 mid-highMains Connections General Features & Facilities T-45 High Efficiency Audio Power AmplifiersFront Panel Functions T-25 Front Panel Functions T-45 Mechanical Installation Audio Connections & Controls Voltage RangeGain and Sensitivity Settings PolarityInput Impedance Damping Factor Attenuation & Gain SettingCooling System Long Speaker LinesMaintenance To rotate the horn moulding from ‘A’ mode to ‘B’ mode Removal of the high frequency driver To rotate the horn moulding from ‘B’ mode to ‘A’ modeRemoval of the high-mid frequency driver Removal of the low-mid frequency drive units General MaintenancePaintwork TA-890 Technical Specifications Serial Numbers WarrantyTA-890