Summary of the content on the page No. 1
Features
Extremely High Power
Exceptional Clarity
Point Source Arraying
Weatherproof Hardware
Long-Term Reliability
High Power
Loudspeaker
Applications
System
MSL-10A
Paging and Announcing
Outdoor Sports Arenas
Stadiums
Racetracks
Large-Scale Touring
Concert Reinforcement
The Meyer Sound MSL-10A is an The minimum standard MSL-10A
extremely high-power, high-performance configuration comprises two loudspeaker
loudspeaker system designed for large-scale cabinets, each with its own electronics
music
Summary of the content on the page No. 2
MSL-10A Loudspeaker Fork lift brackets (top & bottom) Enclosure Features: • High Q maximizes reverberation control • Modular, arrayable design High frequency for predictable, coherent horns coverage • High acoustical output with low distortion • Rugged construction • Internal environmental heating/cooling system • Extensive weatherproofing for long-term reliability • Stainless steel hardware throughout Low frequency horns • Rigged for transportation and installation Reflex port and enclosure ven
Summary of the content on the page No. 3
The MSL-10A Loudspeaker cabinet is sions have been optimized for maximum fortified for long-term reliability in outdoor linearity, resulting in extremely low installations, and is thoroughly inspected at harmonic distortion and consistent sonic several stages during assembly. Con- accuracy at all dynamic levels. Ferrofluid structed of high-grade Finnish birch cooling and back-vented gaps and pole hardwood, the enclosure is resin-impreg- pieces maximize power handling, and nated in critical areas
Summary of the content on the page No. 4
Arraying and Rigging The MSL-10A loudspeaker is designed to function as a modular building block capable of being arrayed in multiples to satisfy a wide range of acoustical power and coverage requirements. Configured as a tightly controlled 30-degree section, the MSL-10A cabinet features a trapezoidal con- struction which forms curved arrays. MSL-10A’s in an array combine acoustically in a seamless fashion to form a radiating arc, producing uniform, coherent wavefronts over the angle subtended b
Summary of the content on the page No. 5
Long-Throw Arrays hanger bars are used to couple the cabinets both horizontally and To increase the effective throw of vertically, as illustrated at the left. A the system, MSL-10A cabinets may be second set of spacer/hanger bars at arrayed one atop another with high the top provides convenient points for horns together, as shown in the hoisting and hanging the array. illustration at the right. Spacer/ In this configuration, coupling between the adjacent horns narrows the vertical dispersion of
Summary of the content on the page No. 6
MSL-10A Rack System Signal Input Loop Output M-10A Control Rack System Features: Electronics Unit • Integrated signal process- ing includes optimized active crossover, ampli- High Amplifier tude and phase correc- tion, and driver protection circuitry to maintain safe operating levels MS 10 Power Low Amplifier 1 Amplifiers • Modular amplifier rack includes control electron- ics, amplifiers and interconnection panel for Low Amplifier 2 easy interface with speaker system 50A Power Switch/ • Input/O
Summary of the content on the page No. 7
M-10A Control Electronics Unit Input Type Active balanced, 10k ohms, ISO™ Input Output Type Active push-pull, 600 ohm drive Maximum Input/Output Level Unbalanced +20 dBv Balanced +26 dBv Hum and Noise -90 dBv (“A” weighted) Dynamic Range 120 dB Electronic Crossover Frequency 800 Hz Driver Protection Circuits Low Frequency RMS, peak and excursion limiters High Frequency RMS, peak and excursion limiters VHF Peak limiter Indicators Power/Ready LED High and Low Sense LED’s VHF, HF and LF Limit LED’s
Summary of the content on the page No. 8
Meyer Sound Laboratories has devoted itself to designing, manufacturing, and refining com- ponents that deliver superb sonic reproduction. Every part of every component is designed and built to exacting specifications and undergoes rigorous, comprehensive testing in the laboratories. Research remains an integral, driving force behind all production. Meyer strives for sound quality that is predictable and neutral over an extended lifetime and across an extended range. Sound engineering for the ar
