M SERIES
OPERATING INSTRUCTIONS
MINA Compact Curvilinear Array Loudspeaker
Keep these important operating instructions.
Download from Www.Somanuals.com. All Manuals Search And Download.
SYMBOLS USED
These symbols indicate important safety or operating features in this booklet and on the chassis:
!
Dangerous voltages: risk of
electric shock
Important operating instructions
Frame or chassis
Masse, châssis
Protective earth ground
Terre de protection
Masse Schutzleiter
Tierra proteccionista
Pour indiquer les risques
résultant de tensions dangereuses
Pour indequer important
instructions
Wichtige Betriebsanweisung oder
Gebrauchsanleitung
Warnung vor gefährlicher
elektrischer Spannung
Rahmen oder Gehäuse
Armadura o chassis
Para indicar voltajes peligrosos
Instrucciones importantes de
funcionamiento y/o manteniento
IMPORTANT SAFETY INSTRUCTIONS
1. Read these instructions.
2. Keep these instructions.
3. Heed all warnings.
11.Only use attachments/accessories specified by Meyer
Sound.
12.If applicable, use only with the caster rails or rigging
specified by Meyer Sound, or sold with the loudspeaker.
Handles are for carrying only.
4. Follow all instructions.
5. Do not use this loudspeaker near water.
6. Clean only with dry cloth.
CAUTION: Rigging should only be done by
experienced professionals.
!
7. Do not block any ventilation openings. Install in accor-
dance with Meyer Sound’s installation instructions.
13.Unplug this loudspeaker during lightning storms or when
unused for long periods of time.
8. Do not install near any heat sources such as radiators,
heat registers, stoves, or other apparatus that produce
heat.
14.Disconnect the mains plug before disconnecting the
power cord from the loudspeaker.
15.Refer all servicing to qualified service personnel. Servic-
ing is required when the loudspeaker has been damaged
in any way, such as when the power-supply cord or plug
has been damaged; liquid has been spilled or objects
have fallen into the loudspeaker; rain or moisture has
entered the loudspeaker; the loudspeaker has been
dropped; or when for undetermined reasons the loud-
speaker does not operate normally.
9. Do not defeat the safety purpose of the grounding-type
plug. A grounding type plug has two blades and a third
grounding prong. The third prong is provided for your
safety. If the provided plug does not fit into your outlet,
consult an electrician for replacement of the obsolete
outlet.
10.Protect the power cord from being walked on or pinched,
particularly at plugs, convenience receptacles, and the
point where they exit from the loudspeaker. The AC
mains plug or appliance coupler shall remain readily
accessible for operation.
CAUTION: To reduce the risk of electric shock,
do not expose this loudspeaker to rain or mois-
!
ture. Do not install the loudspeaker in wet or humid
locations without using weather protection equip-
ment from Meyer Sound.
iii
Download from Www.Somanuals.com. All Manuals Search And Download.
SAFETY SUMMARY
English
„
„
Ne pas installer l’haut-parleur dans un
endroit où il y a de l’eau ou une humid-
ité excessive.
„
Um ein Überhitzen dem Lautsprecher
zu verhindern, das Gerät vor direkter
Sonneneinstrahlung fernhalten und
nicht in der Nähe von wärmeabstrahl-
enden
„
To reduce the risk of electric shock, dis-
connect the loudspeaker from the AC
mains before installing audio cable.
Reconnect the power cord only after
making all signal connections.
Ne pas laisser de l’eau ou tout objet
pénétrer dans l’haut-parleur. Ne pas
placer de r´cipients contenant un liquide
sur cet appareil, ni à proximité de celui-
ci.
„
„
Haushaltsgeräten (z.B. Heizgerät oder
Herd) aufstellen.
„
Connect the loudspeaker to a two-pole,
three-wire grounding mains receptacle.
The receptacle must be connected to a
fuse or circuit breaker. Connection to
any other type of receptacle poses a
shock hazard and may violate local
electrical codes.
Im Inneren diesem Lautsprecher herr-
schen potentiell gefährliche Spannun-
gen. Nicht versuchen, das Gerät zu
öffnen. Es enthält keine vom Benutzer
reparierbaren Teile. Reparaturen dürfen
nur von ausgebildetem Kundenienst-
personal durchgeführt werden.
„
„
Pour éviter une surchauffe de l’haut-
parleur, conserver-la à l’abri du soleil.
Ne pas installer à proximité d’appareils
dégageant de la chaleur tels que radia-
teurs ou appareils de chauffage.
Ce haut-parleur contient des circuits
haute tension présentant un danger. Ne
jamais essayer de le démonter. Il n’y a
aucun composant qui puisse être
réparé par l’utilisateur. Toutes les répa-
rations doivent être effectuées par du
personnel qualifié et agréé par le con-
structeur.
„
„
„
Do not install the loudspeaker in wet or
humid locations without using weather
protection equipment from Meyer
Sound.
Español
„
Para reducir el riesgo de descarga eléc-
Do not allow water or any foreign object
to get inside the loudspeaker. Do not
put objects containing liquid on or near
the unit.
trica, desconecte de la red de voltaje el
altoparlante antes de instalar el cable
de señal de audio. Vuelva a conectar la
alimentacion de voltaje una vez efectu-
adas todas las interconexiones de
señalizacion de audio.
To reduce the risk of overheating the
loudspeaker, avoid exposing it to direct
sunlight. Do not install the unit near
heat-emitting appliances, such as a
room heater or stove.
Deutsch
„
Um die Gefahr eines elektrischen
Schlages auf ein Minimum zu
„
Conecte el altoparlante a un tomacorri-
ente bipolar y trifilar con neutro de
puesta a tierra. El tomacorriente debe
estar conectado a la protección de deri-
vación apropiada (ya sea un fusible o un
disyuntor). La conexión a cualquier otro
tipo de tomacorriente puede constituir
peligro de descarga eléctrica y violar los
códigos eléctricos locales.
reduzieren, den Lautsprecher vom
Stromnetz trennen, bevor ggf. ein
Audio-Schnittstellensignalkabel ange-
schlossen wird. Das Netzkabel erst
nach Herstellung aller Signalverbindun-
gen wieder einstecken.
„
This loudspeaker contains potentially
hazardous voltages. Do not attempt to
disassemble the unit. The unit contains
no user-serviceable parts. Repairs
should be performed only by factory-
trained service personnel.
„
Der Lautsprecher an eine geerdete
zweipolige Dreiphasen-Netzsteckdose
anschließen. Die Steckdose muß mit
einem geeigneten Abzweigschutz
(Sicherung oder Leistungsschalter) ver-
bunden sein. Der Anschluß der unter-
brechungsfreien Stromversorgung an
einen anderen Steckdosentyp kann zu
Stromschlägen führen und gegen die
örtlichen Vorschriften verstoßen.
„
„
No instale el altoparlante en lugares
donde haya agua o humedad excesiva.
Français
No deje que en el altoparlante entre
agua ni ningún objeto extraño. No
ponga objetos con líquidos encima de
la unidad ni cerca de ella.
„
Pour réduire le risque d’électrocution,
débrancher la prise principale de l’haut-
parleur, avant d’installer le câble d’inter-
face allant à l’audio. Ne rebrancher le
bloc d’alimentation qu’après avoir
effectué toutes les connections.
„
„
Para reducir el riesgo de sobrecalen-
tamiento, no exponga la unidad a los
rayos directos del sol ni la instale cerca
de artefactos que emiten calor, como
estufas o cocinas.
„
Branchez l’haut-parleur dans une prise
de courant à 3 dérivations (deux pôles
et la terre). Cette prise doit être munie
d’une protection adéquate (fusible ou
coupe-circuit). Le branchement dans
tout autre genre de prise pourrait
entraîner un risque d’électrocution et
peut constituer une infraction à la régle-
mentation locale concernant les instal-
lations électriques.
„
„
Der Lautsprecher nicht an einem Ort
aufstellen, an dem sie mit Wasser oder
übermäßig hoher Luftfeuchtigkeit in
Berührung kommen könnte.
Este altoparlante contiene niveles de
voltaje peligrosos en potencia. No
intente desarmar la unidad, pues no
contiene piezas que puedan ser repar-
das por el usuario. Las reparaciones
deben efectuarse únicamente por parte
del personal de mantenimiento capaci-
tado en la fábrica.
Darauf achten, daß weder Wasser noch
Fremdkörper in das Innere den
Lautsprecher eindringen. Keine
Objekte, die Flüssigkeit enthalten, auf
oder neben die unterbrechungsfreie
Stromversorgung stellen.
iv
Download from Www.Somanuals.com. All Manuals Search And Download.
CONTENTS
v
Download from Www.Somanuals.com. All Manuals Search And Download.
CONTENTS
vi
Download from Www.Somanuals.com. All Manuals Search And Download.
CHAPTER 1: INTRODUCTION
HOW TO USE THIS MANUAL
MINA COMPACT CURVILINEAR ARRAY
LOUDSPEAKER
Make sure to read these operating instructions in their
entirety before configuring a loudspeaker system with MINA
subwoofers. In particular, pay close attention to material
related to safety issues.
MINA™ is a compact member of the industry-leading MILO®
family of loudspeakers from Meyer Sound. Measuring just
over a foot and a half wide (half a meter) and weighing only
41.2 lbs (18.69 kg), MINA is ideal for use in low-profile, high-
power curvilinear array systems and an excellent choice for
small theatres, theme parks, houses of worship, AV sys-
tems, and any venue where size and weight are concerns
and exceptional fidelity a requirement.
As you read these operating instructions, you will encounter
the following icons for notes, tips, and cautions:
NOTE: A note identifies an important or useful
piece of information relating to the topic under
discussion.
TIP: A tip offers a helpful tip relevant to the topic
at hand.
CAUTION: A caution gives notice that an
action may have serious consequences and
!
could cause harm to equipment or personnel, and
could cause delays or other problems.
MINA Loudspeaker
Information and specifications are subject to change.
Updates and supplementary information are available at
Delivering the same signature MILO sound characterized by
extended high-frequency response and an even wider 100-
degree horizontal coverage, MINA was conceived for small
footprint, high-power curvilinear arrays. Configurations of
eight or more cabinets can comfortably cover up to 130 feet
(40 m) and are an excellent compact solution for applica-
tions not requiring the power of larger systems comprised of
M’elodies and MICAs. A myriad of MINA array configura-
tions are possible to suit each venue’s needs, with additional
cabinets and adjustable splay angles able to contour the
system’s high-frequency vertical coverage and low-fre-
quency directivity. Entire MINA systems can be designed
with Meyer Sound’s MAPP Online Pro®, effectively anticipat-
ing coverage needs.
Meyer Sound Technical Support is available at:
■
■
■
■
Tel: +1 510 486.1166
Tel: +1 510 486.0657 (after hours support)
Email: [email protected]
MINA includes two 6.5-inch cone drivers and one 3-inch
compression driver mounted on an acoustical manifold cou-
pled to a low-distortion, 100-degree horizontal, constant
directivity horn. The close proximity of the cone drivers to
each other, as well as to the high frequency horn, allows
them to operate in parallel over their full frequency range to
deliver the greatest acoustic output. The optimal driver
placement extends MINA’s remarkably consistent 100-
7
Download from Www.Somanuals.com. All Manuals Search And Download.
CHAPTER 1: INTRODUCTION
degree horizontal polar pattern below 500 Hz. The acousti-
cal manifold, based on Meyer Sound’s patented REM™ rib-
bon emulation technology, radiates driver output with very
low distortion and a focused, well-behaved, narrow disper-
sion, minimizing destructive high-frequency interactions
between cabinets.
With its low distortion, flat frequency and phase responses,
uniform horizontal coverage, and tight vertical coverage,
MINA is also well-equipped for use as a single cabinet, or for
use with a small number of cabinets, for applications requir-
ing a precise, high-frequency vertical pattern. Single cabi-
nets and short stacks are ideal for frontfill and under-
balcony applications, as well for main systems in small
spaces. MINA integrates seamlessly with other members of
the MILO family, partnering naturally with M’elodie® and
MICA®.
MINA Rear Panel
The MINA drivers are powered by an extremely efficient
onboard three-channel, Class-D amplifier that uses minimal
AC power when idle. Signal processing includes a complex
crossover, frequency and phase correction, and limiters that
ensure maximum driver lifespan. The Intelligent AC™ power
supply automatically adjusts for international line voltages,
protects against transients, and provides soft turn-on.
The RMS™ remote monitoring system module comes stan-
dard on all MILO family loudspeakers and provides compre-
hensive monitoring of system parameters on a Windows®-
based computer.
The MINA enclosure is constructed of premium birch ply-
wood and coated with a black-textured finish. A powder-
coated, hex-stamped steel grille with black mesh protects
the unit’s drivers. Additional options include weather protec-
tion and custom color finishes for fixed installations and
applications with specific cosmetic requirements.
MTF-M’elodie/MINA Transition Frame with M’elodies and MINAs
The MTF-M’elodie/MINA transition frame integrates MINAs
in M’elodie arrays for downfill, flies MINA arrays under
500-HP subwoofers, and groundstacks MINAs on top of
500-HPs.
8
Download from Www.Somanuals.com. All Manuals Search And Download.
MINA OPERATING INSTRUCTIONS
When used in large arrays, typically as a main loudspeaker
system, MINA can be flown with the optional MG-MINA grid.
MINA’s end plates include captive GuideALinks™ and
quick-release pins that allow splay angles between cabinets
to be readily adjusted. The end plates also include attach-
ment points for the MYA-MINA mounting yoke and
MUB-MINA U-bracket for mounting single cabinets and
small numbers of cabinets, typically for fill applications and
small main systems.
The MG-MINA grid flies up to 12 MINA cabinets with a 7:1
safety ratio, or up to 16 MINA cabinets with a 5:1 safety
ratio. The grid offers multiple and single-center pickup
points and can also be used for groundstacking.
MG-MINA Grid with Groundstack of Six MINAs
MG-MINA Grid with Array of Eight MINAs
9
Download from Www.Somanuals.com. All Manuals Search And Download.
CHAPTER 1: INTRODUCTION
The MYA-MINA mounting yoke suspends arrays of up to
three MINA cabinets from a single point, or pole-mounts up
to two cabinets (pole-mount adapter not included).
The MUB-MINA U-bracket mounts up to three cabinets for
frontfill or under-balcony coverage with up to 20 degrees of
tilt, or floor- or pole-mounts up to two cabinets (pole-mount
adapter not included).
MUB-MINA U-Bracket with One MINA
MYA-MINA Mounting Yoke with Three MINAs
Truss-Mounted MUB-MINA with Three MINAs
Pole-Mounted MYA-MINA with Two MINAs
10
Download from Www.Somanuals.com. All Manuals Search And Download.
MINA OPERATING INSTRUCTIONS
For most applications, Meyer Sound’s 500-HP subwoofer is
the logical choice for enhancing low frequencies in MINA
loudspeaker systems. The 500-HP can be flown or ground-
stacked with MINA arrays using the optional MTF-M’elodie/
MINA transition frame. For applications requiring more low-
frequency headroom, Meyer Sound’s 600-HP and 700-HP
subwoofers are ideally suited for integration with MINA sys-
tems.
MTF-M’elodie/MINA Transition Frame with Flown 500-HPs and MINAs
For portable applications, the optional MCF-MINA caster
frame conveniently transports up to five fully-rigged MINA
cabinets. Caster dimensions are suitable for tightly-packed
transports in both U.S. and European trucks. Durable nylon
covers, sized for stacks of three, four, and five units, are also
available to ensure the MINA is completely road ready.
MTF-M’elodie/MINA Transition Frame with Groundstacked 500-HPs
and MINAs
MCF-MINA Caster Frame with Stack of Five MINAs
11
Download from Www.Somanuals.com. All Manuals Search And Download.
CHAPTER 1: INTRODUCTION
12
Download from Www.Somanuals.com. All Manuals Search And Download.
CHAPTER 2: POWER REQUIREMENTS
Self-powered and ultracompact, MINA loudspeakers com-
bine advanced loudspeaker technology with equally
advanced power capabilities. Understanding power distri-
bution, voltage and current requirements, as well as electri-
cal safety issues, is critical to MINA’s safe operation.
AC Loop Output Connector (Gray)
The gray AC Loop Output connector allows multiple MINA
loudspeakers to be looped and powered from a single
power source. Connect the AC Loop Output of the first
MINA to the AC Input of the second MINA, and so forth. The
AC Loop Output uses a PowerCon3 AC mains locking con-
nector that prevents accidental disconnections.
AC CONNECTORS
The MINA user panel includes 3-pole, PowerCon AC con-
nectors.
The maximum number of loudspeakers that can be looped
from the Loop Output connector is determined by the volt-
age of the power source, the current draw of the looped
loudspeakers, the circuit breaker rating, and the rating of the
AC power cable connected to MINA.
Table 1: Number of MINAs that Can Be Looped with AC Power
Circuit Breaker/
115 V AC
230 V AC
100 V AC
Connector Rating
15 amps
20 amps
3 looped
(4 total)
7 looped
(8 total)
2 looped
(3 total)
MINA AC Input (Left) and AC Loop Output (Right) Connectors
5 looped
(6 total)
10 looped
(11 total)
3 looped
(4 total)
AC Input Connector (Blue)
The blue AC Input connector supplies power to the MINA
loudspeaker. The connector is rated at 20 amps and uses a
PowerCon3 AC mains locking connector that prevents acci-
dental disconnections. A 10-foot AC power cable, rated at
15 amps, is included with each MINA. If you replace the
included AC power cable, make sure to use a cable with the
appropriate power plug (on the other end) for the region in
which you will operate the unit.
NOTE: The current draw for MINA is dynamic
and fluctuates as operating levels change. The
normal and not such that the loudspeakers are con-
stantly limiting.
Each MINA ships with one AC looping connector for making
AC looping cables. Assembled AC looping cables are avail-
able from Meyer Sound.
The AC Input connector also supplies power to any addi-
tional loudspeakers connected to the MINA’s gray Loop
Output connector. Each MINA loudspeaker requires approx-
imately 3.24 A rms maximum at 115 V AC and 1.74 A rms
maximum at 230 V AC for proper operation.
CAUTION: Do not exceed the current capabil-
ity of the 20-amp Input connector for MINA.
!
When looping loudspeakers, consider the total cur-
rent draw for all loudspeakers on the circuit, including
the first loudspeaker.
CAUTION: When using the included AC power
cable, do not loop more than three additional
!
MINA loudspeakers from the AC Loop Output con-
nector at 115 V (four total for the circuit), and not
more than seven at 230 V (eight total for the circuit).
13
Download from Www.Somanuals.com. All Manuals Search And Download.
CHAPTER 2: POWER REQUIREMENTS
WIRING FOR AC CONNECTIONS
AC POWER DISTRIBUTION
MINA loudspeakers require a grounded outlet. To operate
safely and effectively, it is extremely important that the
entire system be properly grounded.
All components in an audio system (self-powered loud-
speakers, mixing consoles, and processors) must be prop-
erly connected to an AC power distribution system, ensuring
that AC line polarity is preserved and that all grounding
points are connected to a single node or common point
using the same cable gauge as the neutral and line cables.
Blue = neutral
Brown = hot
NOTE: Improper grounding of connections
between loudspeakers and the rest of the
audio system may produce noise or hum, or cause
serious damage to the input and output stages of the
system’s electronic components.
Yellow/green =
earth ground
(chassis
CAUTION: Before applying AC power to any
Meyer Sound self-powered loudspeaker, make
!
AC Cable Wiring Scheme
sure that the voltage potential difference between the
neutral and earth-ground lines is less than 5 V AC.
When wiring international or special-purpose power connec-
tors:
Figure 1 illustrates a basic three-phase AC distribution sys-
tem with the loudspeaker load distributed across the three
phases. All loudspeakers are connected to common neutral
and earth-ground lines.
■
■
■
Connect the blue wire to the black terminal, or the termi-
nal marked with an N.
Connect the brown wire to the red terminal, or the termi-
nal marked with an L.
Connect the yellow and green wire to the green (or green
and yellow) terminal, or the terminal marked with an E.
CAUTION: When creating AC power cables
and distribution systems, it is important to pre-
!
serve AC line polarity and connect the earth ground
on both ends of the cable. MINA requires a grounded
connection. Always use a grounded outlet and plug.
It is extremely important that the system be properly
grounded in order to operate safely and properly. Do
not ground-lift the AC cable.
Line 1
Line 2
Line 3
Neutral
Earth Ground
Figure 1: AC Power Distribution System
14
Download from Www.Somanuals.com. All Manuals Search And Download.
MINA OPERATING INSTRUCTIONS
MINA VOLTAGE REQUIREMENTS
Powering Up MINAs
MINA operates safely and continuously when the AC voltage
stays within 100–264 V AC at 50 or 60 Hz. The loudspeaker
can withstand continuous voltages up to 275 volts and
allows any combination of voltage to GND (neutral-line-
ground or line-line-ground).
When AC power is applied to MINA, its Intelligent AC™
power supply automatically selects the correct operating
voltage, allowing it to be used internationally without manu-
ally setting voltage switches. In addition, Intelligent AC pro-
vides soft-start power up, eliminating high inrush currents;
suppresses high-voltage transients up to several kilovolts;
filters common mode and differential mode radio frequen-
cies (EMI); and sustains operation temporarily during low-
voltage periods.
If the voltage drops below 90 V (brownout), MINA uses
stored power to continue operating temporarily; the loud-
speaker shuts down if the voltage does not rise above the
low boundary before the stored power is used.
When powering up MINA, the following startup events occur
over several seconds.
If the voltage rises above 275 V, the power supply immedi-
ately shuts off to prevent damage to the unit.
1. Audio output is muted.
If MINA shuts down due to either low or high voltage, its
power supply automatically powers up again after three sec- 2. Voltage is detected and the power supply mode is auto-
onds, so long as the voltage has returned to its normal oper-
ating window. If MINA does not power up after 10 seconds,
remove AC power immediately and contact Meyer Sound
Technical Support.
matically adjusted as necessary. The power supply
ramps up.
3. During the power up sequence, the three-color On/Temp
LED flashes all three colors.
CAUTION: The power source for MINA should
always operate within the required voltage
4. After the power up sequence and system check have
completed, the ON/Temp LED turns solid green, indicat-
ing the loudspeaker is ready to reproduce audio.
!
range, at least a few volts from the upper and lower
ranges. This will ensure that AC voltage variations
from the service entry — or peak voltage drops due
to cable runs — will not cause the loudspeaker’s
amplifiers to cycle on and off or cause damage to the
power supply.
CAUTION: If the ON/Temp LED does not turn
solid green after powering up and audio is
!
muted, the loudspeaker has encountered a failure
and may need to be serviced. Contact Meyer Sound
Technical Support.
NOTE: When voltage fluctuates within MINA’s
operating range, automatic tap selection stabi-
lizes the operating voltage. This tap selection is
instantaneous with no audible artifacts.
MINA CURRENT REQUIREMENTS
The current draw for MINA is dynamic and fluctuates as
operating levels change. Since different cables and circuit
breakers heat up at varying rates, it is important to under-
stand the following types of current ratings and how they
affect circuit breaker and cable specifications.
NOTE: Since MINA does not require a dedi-
cated neutral line, and it can tolerate elevated
voltages from the ground line, it can be connected to
line-line terminals in 120 V, 3-phase Wye systems.
This results in 208 V AC between lines (nominal) and
therefore draws less current than when using 120 V
AC (line-neutral). Make sure that the voltage remains
within MINA’s recommended operating window
(100-264 V AC). The ground line must always be used
for safety reasons and the line-to-ground voltage
should never exceed 264 V AC (typically 120 V AC
from line-to-ground).
■
Idle Current — The maximum rms current during idle
periods.
■
Maximum Long-Term Continuous Current — The
maximum rms current during a period of at least 10 sec-
onds. The Maximum Long-Term Continuous Current is
used to calculate temperature increases for cables, to
ensure that cable sizes and gauges conform to electrical
code standards. The current rating is also used as a rat-
ing for slow-reacting thermal breakers.
■
Burst Current — The maximum rms current during a
period of around one second. The Burst Current is used
as a rating for magnetic breakers. It is also used for cal-
culating the peak voltage drop in long AC cable runs
according to the following formula:
15
Download from Www.Somanuals.com. All Manuals Search And Download.
CHAPTER 2: POWER REQUIREMENTS
V pk (drop) = I pk x R (cable total)
ELECTRICAL SAFETY ISSUES
Pay close attention to these important electrical and safety
issues.
The Burst Current can also be used to calculate the AC
looping capability of MINA.
■
MINA requires a grounded outlet. Always use a
grounded outlet and plug.
■
■
Ultimate Short-Term Peak Current — A rating for fast-
reacting magnetic breakers.
Inrush Current — The spike of initial current encoun-
tered when powering on.
You can use the following table as a guide for selecting
cable gauges and circuit breaker ratings for the system’s
operating voltage.
Earth ground
MINA Current Draw
Current Draw
115 V AC
0.256 A rms
1.26 A rms
230 V AC
0.249 A rms
0.66 A rms
100 V AC
0.284 A rms
1.50 A rms
Chassis ground
Idle Current
Maximum Long-Term
Continuous Current
Burst Current
3.24 A rms
1.74 A rms
5.2 A peak
4.02 A rms
■
Do not use a ground-lifting adapter or cut the AC cable
ground pin.
Ultimate Short-Term
Peak Current
10.4 A peak
11.1 A peak
Inrush Current
16.8 A peak
20.0 A peak
15.0 A peak
The minimum electrical service amperage required by a
MINA loudspeaker system is the sum of the Maximum Long-
Term Continuous Current for each loudspeaker. An addi-
tional 30 percent above the minimum amperage is recom-
mended to prevent peak voltage drops at the service entry.
NOTE: For best performance, the AC cable
voltage drop should not exceed 10 V, or
10 percent at 115 V and 5 percent at 230 V. Make
sure that even with AC voltage drops that the AC
voltage always remains within the operating win-
dows.
■
■
Do not exceed the current capability of the 20-amp AC
Input connector for the loudspeaker. When looping loud-
speakers, consider the total current draw for all loud-
speakers on the circuit, including the first loudspeaker.
Make sure the AC power cable for the loudspeaker has
the appropriate power plug (on the other end) for the
area in which you will operate the loudspeaker. In addi-
tion, the AC power cable must be rated for the total cur-
rent draw of all loudspeakers looped from the power
source.
■
■
Do not operate the unit if its power cable is frayed or bro-
ken.
Keep all liquids away from MINA to avoid hazards from
electrical shock.
16
Download from Www.Somanuals.com. All Manuals Search And Download.
CHAPTER 3: AMPLIFICATION AND AUDIO
MINA’s drivers are powered by an extremely efficient
onboard three-channel, Class-D amplifier that uses minimal
AC power when idle. Internal signal processing includes a
complex crossover, frequency and phase correction, and
limiters that prevent driver overexcursion and regulate voice
coil temperatures, ensuring maximum driver lifespan.
CAUTION: Make sure that audio cables for
MINA loudspeakers in an array are wired cor-
!
rectly (Pin 1 to Pin 1, Pin 2 to Pin 2, and so forth) to
prevent the polarity from being reversed. If one or
more loudspeakers in an array have reversed polarity,
frequency response and coverage can be signifi-
cantly degraded.
AUDIO CONNECTORS
MINA includes XLR audio connectors for Input and Loop
Output.
TIP: If unwanted noise or hiss is produced by
the loudspeaker, disconnect its input cable. If
the noise stops, there is most likely nothing wrong
with the loudspeaker. To locate the source of the
noise, check the audio cable, source audio, and AC
power.
Audio Loop Output Connector
The male XLR Loop connector allows multiple MINA loud-
speakers to be looped from a single audio source. Connect
the Loop Output of the first loudspeaker to the Input of the
second, and so forth. The Loop Output connector is wired in
parallel to the Input connector and transmits the unbuffered
source signal even when the loudspeaker is powered off.
Audio Input and Loop Output Connectors
To avoid distortion when looping multiple MINA loudspeak-
ers, make sure the source device can drive the total load
impedance of the looped loudspeakers. In addition, the
source device must be capable of delivering 20 dBV
(10 V rms into 600 ohms) to yield the maximum peak SPL
over the operating bandwidth of the loudspeaker.
Audio Input Connector
The female XLR Input connector accepts a balanced audio
signal with an input impedance of 10 kOhm. The connector
uses the following wiring:
■
Pin 1 — 1 kOhm to chassis and earth ground (ESD
clamped)
To calculate the load impedance for the looped loudspeak-
ers, divide 10 kOhms (the input impedance for a single
MINA) by the number of looped loudspeakers. For example,
the load impedance for 10 MINA loudspeakers is 1000 ohms
(10 kOhms / 10). To drive this number of looped loudspeak-
ers, the source device should have an output impedance of
100 ohms or less. This same rule applies when looping
MINA loudspeakers with other self-powered Meyer Sound
loudspeakers and subwoofers.
■
■
■
Pin 2 — Signal (+)
Pin 3 — Signal (–)
Case — Earth (AC) ground and chassis
Pins 2 and 3 carry the input as a differential signal. Pin 1 is
connected to earth through a 1 kOhm, 1000 pF, 15 V
clamped network. This circuitry provides virtual ground lift
for audio frequencies while allowing unwanted signals to
bleed to ground. Make sure to use standard, balanced XLR
audio cables with all three pins connected on both ends.
Telescopic grounding is not recommended, and shorting an
input connector pin to the case may cause a ground loop,
resulting in hum.
NOTE: Most source devices are capable of
driving loads no smaller than 10 times their
output impedance.
TIP: Meyer Sound’s Galileo™ loudspeaker
management system is highly recommended for
driving systems with multiple loudspeakers. In addi-
tion to maintaining signal integrity for long cable
17
Download from Www.Somanuals.com. All Manuals Search And Download.
CHAPTER 3: AMPLIFICATION AND AUDIO
paths, Galileo systems offer independent inputs and
outputs and presets for optimizing MINA array perfor-
mance and subsystem integration.
MINA performs within its acoustical specifications at normal
temperatures when the Limit LEDs are unlit, or if the LEDs
are lit for two seconds or less and then turn off for at least
one second. If an LED remains lit for longer than three sec-
onds, the loudspeaker enters hard limiting where:
INTERNAL CONNECTIONS
■
■
Increases to the input level have no effect.
Meyer Sound loudspeakers are tested and shipped from the
factory with their drivers in correct alignment. If a driver
needs to be replaced, make sure the replacement is
installed with the correct polarity.
Distortion increases due to clipping and nonlinear driver
operation.
■
The drivers are subjected to excessive heat and excur-
sion, which will compromise their life span and may
eventually lead to damage over time.
CAUTION: Failure to connect a replacement
driver with the correct polarity will result in
!
severe degradation for the unit’s frequency and
phase response and may harm its amplifier and driv-
ers.
CAUTION: The Limit LEDs indicate when a
safe, optimum level is exceeded. If a MINA
loudspeaker begins to limit before reaching the
required SPL, consider adding more loudspeakers to
the system.
!
CABLING
MINA loudspeaker systems use three separate cables per
loudspeaker for AC power, balanced audio, and RMS data.
The three cables can be consolidated by looming them
together to create a multi-cable for quick connection to each
unit.
ON/TEMP LED
During normal operation, MINA’s On/Temp LED is green. If
the loudspeaker’s internal temperature reaches 75° C
(167° F), the LED turns solid yellow and the loudspeaker’s
gain is reduced by 3 dB. Though MINA will continue to oper-
ate normally with the lower gain, when the On/Temp LED is
yellow, this is an indication that the loudspeaker is reaching
its maximum heat dissipation and a reduction in SPL is rec-
ommended. When the loudspeaker’s internal temperature
cools to 60° C (140° F), the amplifier returns to normal oper-
ation.
LIMITING
When source levels for MINA exceed optimum input levels
for its drivers, limiting is engaged and is indicated by the two
Limit LEDs on the user panel. The bottom LED indicates lim-
iting for the low-frequency channels. The top LED indicates
limiting for the high-frequency channel. When engaged, lim-
iting not only protects the drivers, but also prevents signal
peaks from causing excessive distortion in the amplifier’s
channels, thereby preserving headroom and maintaining
smooth frequency responses at high levels. When source
levels return to normal, below the limiter’s threshold, limiting
ceases.
CAUTION: If the loudspeaker’s internal tem-
perature reaches 125° C (257° F), gain is
!
reduced by 6 dB to avoid damage to the loud-
speaker.
TIP: When MINA is connected to an RMS net-
work, the RMS software provides additional
feedback on the loudspeaker’s operating tempera-
ture. For more information, see Chapter 6, “RMS
Low-frequency limiter
High-frequency limiter
Limit LEDs
18
Download from Www.Somanuals.com. All Manuals Search And Download.
MINA OPERATING INSTRUCTIONS
Amplifier Cooling System
MINA’s amplifier relies solely on natural convection for cool-
ing from air flowing over its heat sink. The efficient design of
the amplifier and heat sink profile keeps temperatures low,
even when the unit is used at high ambient temperatures in
tightly packed conditions, and when driven continuously at
high output levels.
CAUTION: The MINA heat sink can reach tem-
peratures of up to 85° C (185° F) during
!
extreme operation. Use extreme caution when
approaching the rear of the loudspeaker.
19
Download from Www.Somanuals.com. All Manuals Search And Download.
CHAPTER 3: AMPLIFICATION AND AUDIO
20
Download from Www.Somanuals.com. All Manuals Search And Download.
CHAPTER 4: LINE ARRAYS AND SYSTEM INTEGRATION
ABOUT LINE ARRAYS
MINA CURVILINEAR ARRAYS
Line arrays achieve directivity through constructive and
destructive interference. For example, consider one loud-
speaker with a single 12-inch cone radiator in an enclosure.
The loudspeaker’s directivity varies with frequency: when
the wavelengths reproduced are larger than the driver at low
frequencies, it is omnidirectional; as the frequency increases
(and the wavelength is comparable to the size of the driver),
directivity narrows. Above around 2 kHz, it becomes too
narrow for most applications, which is why practical system
designs employ crossovers and multiple elements to
achieve controlled directivity across the audio band.
Each MINA loudspeaker employs two low-frequency cone
radiators and one high-frequency horn. To achieve optimal
results, it is important to understand how these components
work together.
High Frequencies
For high frequencies, MINA uses a very precise Constant Q
horn, developed using Meyer Sound’s anechoic chamber,
which provides a consistent beamwidth of coverage in the
horizontal plane.
Stacking two of these loudspeakers, one on top of the other,
and driving both with the same signal results in a different
radiation pattern. At common points on-axis, there is con-
structive interference, and sound pressure increases by
6 dB relative to a single unit. At other points off-axis, path
length differences produce cancellation, resulting in a lower
sound pressure level. In fact, if you drive both units with a
sine wave, there will be points where the cancellation is
complete, which can be shown in an anechoic chamber.
This destructive interference is sometimes referred to as
combing.
In the horizontal pattern of a MINA array, the horns work to
produce a wide 100-degree coverage; in the vertical pattern,
however, Meyer Sound’s REM technology provides narrow
coverage to:
■
Minimize destructive interference between adjacent ele-
ments
■
Promote coupling to throw longer distances
As more elements are arrayed in a vertical column, energy is
more effectively projected through coupling. The amount of
energy projected can be controlled by altering the splay
angles between elements:
A typical line array is comprised of a line of loudspeakers
carefully spaced so that constructive interferences occur
on-axis with the array, and destructive interferences (comb-
ing) are aimed to the sides. While combing has traditionally
been considered undesirable, line arrays use combing for
positive effect: to control directivity.
■
■
Wide angles: yield more vertical coverage.
Narrow angles: yields narrower vertical coverage, allow-
ing the focused energy to achieve longer throws.
Mid to Low Frequencies
The directional control of the array in the mid to low frequen-
cies depends on the length of the array (number of ele-
ments).
Directional control is achieved when the length of the array
is similar or larger than the wavelength of the frequencies
reproduced by the array. As frequencies get lower and
wavelengths longer, the number of cabinets employed has a
critical effect on the directional control. The more MINA
loudspeakers that are used, the more directional the vertical
beamwidth becomes at lower frequencies. However, at low
frequencies the splay angle between cabinets has little
effect since the total length is not modified substantially.
21
Download from Www.Somanuals.com. All Manuals Search And Download.
CHAPTER 4: LINE ARRAYS AND SYSTEM INTEGRATION
SYSTEM DESIGN PRINCIPLES
High-Frequency Design Strategies
Line array designs seek to achieve the following:
For far-field coverage, smaller splay angles between cabi-
nets achieves superior throw through better coupling.
Longer throws require more elements with smaller splay
angles at the top of the array.
■
■
■
■
Uniform vertical coverage
Uniform SPL
Uniform frequency response
Sufficient SPL and headroom for the application
For near- to mid-field coverage, larger splay angles can be
used to increase vertical coverage.
To achieve these objectives, fine-tuning a design for MINA
arrays is dependent on three factors:
Low-Frequency Design Strategies
While wave guides provide isolated control over various mid-
to high-frequency coverage areas, the low-frequency section
of MINA arrays makes use of mutual coupling — with equal
amplitude and phase — to achieve better directivity.
■
Number of Array Elements: For smaller arrays, the
number of elements affects the SPL and headroom avail-
able from the system, as well as the uniformity of cover-
age in both SPL and frequency response. The number of
elements affects directivity at lower frequencies.
Low-frequency directivity is dependent on the number of
elements in the array. At low frequencies, arrays with more
elements (longer) provide more directivity and more SPL in
this range. An array’s maximum directivity is achieved when
the array’s length is equal to or greater than the wavelength
of the frequencies being reproduced by the array.
■
Vertical Splay Angles: Changing the splay angles
between cabinets significantly impacts vertical coverage
for high frequencies, with narrower vertical splay angles
producing a higher Q vertical beamwidth, and wider
splay angles yielding a lower Q. In general, splay angles
do not affect vertical coverage for lower frequencies.
NOTE: For more information on basic system
design methods, refer to the MINA System
Startup Guide (PN 05.207.100.01) available at
■
Horizontal Coverage: Horizontal coverage for a single
MINA array is constant, regardless of the number of
array elements or the angles between them.
Achieving these objectives is a multi-step process with dif-
ferent strategies:
OPTIMIZING AND EQUALIZING ARRAYS
■
■
Lower and higher frequencies
Long throws and short throws
Once the basic design of an array (number of elements, ver-
tical splay angles between cabinets, and horizontal splay
angles between arrays) has been determined with MAPP
Online Pro, you can optimize the array by driving it with mul-
tiple equalization channels, or zones. Typically arrays are
divided into two or three zones, depending on the design
and size of the array.
NOTE: MAPP Online Pro allows you to accu-
rately predict coverage. For more information,
To optimize and equalize an array, different strategies are
required for:
■
High frequencies
–
–
long throws
short throws
■
Low frequencies
22
Download from Www.Somanuals.com. All Manuals Search And Download.
MINA OPERATING INSTRUCTIONS
High-Frequency Equalization Strategies
For far-field coverage, air absorption plays a critical role. The
longer the distance, the greater the attenuation that occurs
for high frequencies. In this zone, high frequencies generally
require correction to compensate for energy lost over dis-
tance; the correction is usually proportional to the distance
and high-frequency air absorption.
125 Hz
250 Hz
500 Hz
1 kHz
For near- to mid-field coverage, air absorption is not nearly
as critical; in this zone, high frequencies need little or no cor-
rection.
Low-Frequency Equalization Strategies
Although arrays can be zoned for different equalization
curves for high frequencies, similar or identical equalization
should be maintained for all low-frequency filters for the
array. Different low-frequency equalization settings within
the same array will degrade the desired coupling effect.
For the same reason, severe gain tapering is not recom-
mended for arrays, since adjusting various zones with an
overall amplitude control for each results in the following:
GROUND STACK
MP
O
I
N
S
A
I
T
F
I
OLONW
S
N
R
A
E
N
S
G
U
L
L
E
T
GROUND STACK
LOAD RATINGS: FLOWN
5:1 7:1
A
B
A
0
º
6
9
3
l
b
s
495 lbs
224.5 kg
(12 MINA)
STOW
-
5º
314.3 kg
(16 MINA)
MG
-
C
-
10
º
C
A
U
T
I
O
N
:
D
O
N
O
T
E
X
C
E
E
D
L
O
A
D
R
A
T
I
N
G
B
e
r
k
l
e
y
A
T
T
E
N
T
I
O
N
:
N
'
E
X
C
E
D
E
Z
P
A
S
L
'
E
S
T
I
M
A
T
I
O
N
D
E
C
H
A
R
G
E
V
O
R
S
I
C
H
T
:
U
B
E
R
S
T
E
I
G
E
N
S
I
E
N
I
C
H
T
L
A
S
T
B
E
W
E
R
T
U
N
G
S
E
E
M
G
-
M
I
N
A
A
S
S
E
M
B
L
Y
G
U
I
D
E
F
O
R
A
D
D
I
T
I
O
N
A
L
L
O
A
D
R
A
T
I
N
G
S
A
N
D
R
I
G
G
I
N
G
SAFETY
I
N
F
O
R
M
A
T
I
O
N
.
A
B
■
■
■
The length of the array is effectively shortened
Directivity decreases at low frequencies
Low-frequency headroom decreases
2°
3°
2 kHz
Figure 2 shows a series of MAPP Online Pro plots for a
MINA array. Note that small vertical splay angles in the
upper part of the array cover longer distances, while greater
angles in the lower elements increase vertical coverage for
shorter distances.
3°
4°
4 kHz
4°
5°
NOTE: For more information on optimizing and
equalizing MINA arrays, refer to the MINA Sys-
tem Startup Guide (PN 05.207.100.01) available at
7°
8 kHz
9°
11°
Figure 2: Mapp Online Pro Plots Showing Directivity
23
Download from Www.Somanuals.com. All Manuals Search And Download.
CHAPTER 4: LINE ARRAYS AND SYSTEM INTEGRATION
■
Vertical Splay Angles: Splay angles between cabinets
significantly impacts vertical coverage. Narrower vertical
splay angles between top elements (M’elodies) produce
higher Q vertical beamwidths and longer throws for
those elements. Wider splay angles for bottom elements
(MINAs) yield lower Q for high frequencies for those ele-
ments. Splay angles between higher SPL elements
(M’elodies) and downfill elements (MINAs) must be care-
fully considered in order to achieve smooth transitions.
COMPENSATING FOR LATENCY WHEN
INTEGRATING MINA LOUDSPEAKERS
Because MINA loudspeakers use onboard digital amplifica-
tion, a very small amount of latency is introduced to the
audio signal when converting from analog to digital and dig-
ital to analog. When using MINA loudspeakers with other
MINA loudspeakers, this has no effect on system perfor-
mance.
However, when integrating MINAs with other Meyer Sound
loudspeakers (M’elodies, MICAs, 500-HPs, 600-HPs, and
700-HPs), it is necessary to compensate for this latency with
a delay setting, which is easily implemented with the Galileo
loudspeaker management system (see “Galileo Loud-
■
Horizontal Coverage: Horizontal coverage for M’elodie
and MINA sections is fairly constant, regardless of the
number of array elements for each section or the splay
angles between them.
NOTE: When integrating MINAs within the
same M’elodie array with the MTF-M’elodie/
MINA transition frame, a delay of 1.5 ms should be
added to the M’elodie signal. When integrating
MINAs as separate arrays, such as for sidefill, use
MAPP Online Pro to determine appropriate delay set-
tings.
■
■
■
When integrating MINAs within the same M’elodie array
with the MTF-M’elodie/MINA transition frame, a delay of
1.5 ms should be added to the M’elodie signal.
When integrating MINAs within the same 500-HP array
with the MTF-M’elodie/MINA transition frame, a delay of
1.8 ms should be added to the 500-HP signal.
When integrating MINAs as separate arrays, such as for
sidefill, in systems with other loudspeakers, use MAPP
Online Pro to determine appropriate delay settings for all
loudspeakers.
GALILEO LOUDSPEAKER MANAGEMENT
SYSTEM
Meyer Sound’s Galileo® loudspeaker management system is
a comprehensive solution for driving and aligning loud-
speaker systems, especially those comprised of Meyer
Sound self-powered loudspeakers. The system is available
in two hardware configurations:
USING MINA LOUDSPEAKERS FOR SIDEFILL
AND DOWNFILL IN M’ELODIE ARRAYS
MINA’s acoustical characteristics ensure seamless integra-
tion with M’elodies, especially when MINA is used for down-
fill in M’elodie arrays (via the MTF-M’elodie/MINA transition
frame), as well as when MINA arrays are used as sidefills
with M’elodie main arrays. Understanding the differences
and similarities between the two loudspeakers is crucial to
designing and fine-tuning system coverage.
■
The Galileo 616 is a two-space rack unit with six inputs
and 16 low-latency outputs. Processing for the outputs
includes gain, polarity, delay, high- and low-pass filters,
equalization (parametric and TruShaping™), and atmo-
spheric correction.
ꢀ
ꢁ
ꢂ
ꢃ
ꢄ
ꢅ
ꢆ
ꢇ
6(/(&7
6,*1$/ꢊꢋꢊ&/,3
087(
For combined M’elodie/MINA arrays, their design depends
on the following factors:
,1387
287387
ꢀꢂ
ꢈ
ꢀꢉ
ꢀꢀ
ꢀꢁ
ꢀꢃ
ꢀꢄ
ꢀꢅ
6(/(&7
6,*1$/ꢊꢋꢊ&/,3
087(
■
Number and Type of Array Elements: The number of
elements drastically affects the uniformity of coverage
for both SPL and frequency response. The number of
longer-throw, higher SPL elements (M’elodies) compared
to the number of downfill elements (MINAs) must be
carefully considered.
Galileo 616
■
The Galileo 408 shares the same 24-bit, 96 kHz audio
quality and 32-bit floating point internal processing as
the Galileo 616, though with fewer inputs and outputs.
1
2
3
4
5
6
7
8
SIGNAL
/
CLIP
MUTE
INPUT
OUTPUT
Galileo 408
24
Download from Www.Somanuals.com. All Manuals Search And Download.
MINA OPERATING INSTRUCTIONS
All system parameters for the Galileo 616 and Galileo 408
can be configured from the extensive Compass™ software
running on a Windows or Mac® computer. The Galileo 616
can also be configured from its intuitive front panel controls.
■
■
Compensate for air absorption at high frequencies with
each section having unique correction settings appropri-
ate for the distance of the intended coverage.
Manage low-frequency build up in the array by applying
the same low-frequency correction settings across multi-
ple zones.
The Galileo system interfaces seamlessly with Meyer
Sound’s SIM® 3 audio analyzer.
■
■
Optimize subwoofer integration with low- and high-pass
filters with minimal phase.
TIP: Galileo presets optimized for MINA loud-
speaker systems are available at www.meyer-
Use robust line outputs to drive loudspeakers over
lengthy cable runs.
shows just one method of driving MINA line
Driving and Optimizing MINA Arrays with
Galileo Processors
The Galileo loudspeaker management system can effec-
tively drive MINA line arrays with the following capabilities:
arrays with subwoofers. This example is not meant to
be a template for your system design, which should
always be tailored to the acoustical characteristics,
physical constraints, audio content, audience, and
other relevant factors for your project.
■
Divide arrays into zones.
LEFT CLUSTER
(8) MINAs
RIGHT CLUSTER
(8) MINAs
GALILEO 408
Main Left
Main Right
IN A
IN B
IN C
IN D
Subwoofers
(optional)
OUT 1
OUT 2
OUT 3
OUT 4
OUT 5
OUT 6
OUT 7
OUT 8
LEFT SUBWOOFERS
(3) 500-HPs
RIGHT SUBWOOFERS
(3) 500-HPs
Figure 3: Sample Block Diagram for MINA Array System
25
Download from Www.Somanuals.com. All Manuals Search And Download.
CHAPTER 4: LINE ARRAYS AND SYSTEM INTEGRATION
USING DIGITAL SIGNAL PROCESSORS
INTEGRATING SUBWOOFERS WITH MINA
LOUDSPEAKER SYSTEMS
NOTE: While Meyer Sound strongly recom-
mends using the Galileo loudspeaker manage-
ment system to drive Meyer Sound loudspeakers, the
loudspeakers can also be driven from third-party dig-
ital signal processors.
MINA systems provide full bandwidth down to 66 Hz. The
height of the array (number of cabinets) determines the total
SPL and low frequency energy (proportional to the upper-
frequency spectrum). If higher SPL is necessary, or the pro-
gram content requires additional low-frequency energy,
subwoofers should be integrated to augment the MINA
arrays.
Full-range signals can be connected directly to Meyer
Sound self-powered loudspeakers because the loudspeak-
ers have built-in active crossovers. External crossovers and
digital signal processors are optional and should be used
with caution as they can introduce phase shifts that cause
destructive cancellations.
Meyer Sound subwoofers, such as the 500-HP, 600-HP,
and 700-HP, achieve frequency responses down to the 30
to 39 Hz range, enhancing low-frequency response and
increasing the overall acoustic power of the system in the
lowest frequencies. The ideal ratio of MINA loudspeakers to
subwoofers depends on the following factors:
If a digital signal processor other than the Galileo 616 or
Galileo 408 is used, the MINA loudspeakers and subwoofers
should be driven from the same processor to keep their
delay times the same. Otherwise a phase shift between the
MINAs and subwoofers may be encountered. In addition,
you should verify the delay time between channels: some
digital signal processors may incur channel-to-channel
delays when the processor is near maximum throughput,
which becomes more likely as the number of filters in use by
the processor is increased.
■
■
Array configuration (number of elements and angles)
Placement of subwoofers, whether they are flown or
groundstacked
■
Frequency content reproduced by the system
For most applications, two MINA loudspeakers for each
groundstacked subwoofer yields good results in frequency
response and headroom. Using higher ratios (for example,
three MINA cabinets for one subwoofer) should be done
carefully since this may decrease headroom in the low fre-
quencies, exposing the drivers in the subwoofers to exces-
sive levels.
Third-order filters (and higher) are not recommended. If they
must be used, they should be used cautiously, since they
may cause phase shifts that deteriorate the impulse
response; in addition, their higher roll-off may also interfere
with crossover interaction.
NOTE: If subwoofers exhibit limiting (Limit
LEDs light) before reaching the required SPL,
consider adding more subwoofers to meet the SPL
requirements without exposing the drivers to exces-
sive heat and excursion.
TIP: To address the collective concerns of sys-
tem design verification, subwoofer integration,
digital signal processors, delay systems, and acousti-
cal conditions, a measurement system like Meyer
Sound’s SIM 3 is strongly recommended.
Meyer Sound’s Galileo® loudspeaker management system
includes filters that facilitate subwoofer integration with
MINA arrays. High-pass filters augment array headroom by
removing lower frequencies near the unit’s lower operating
range, while low-pass filters remove unwanted mid-low fre-
quencies reproduced by the subwoofers. The filters reduce
the area of overlap and minimize the interaction and possi-
ble cancellations between the subsystems.
NOTE: Full-range signals can be connected
directly to Meyer Sound’s self-powered loud-
speakers and subwoofers because they have built-in
active crossovers. However, the use of external filters
— like the ones in Galileo — is optional, and should
be used cautiously to minimize phase shifts that can
cause cancellations and deteriorate the impulse
response of the system.
26
Download from Www.Somanuals.com. All Manuals Search And Download.
MINA OPERATING INSTRUCTIONS
Integrating 500-HP Subwoofers
For most applications, Meyer Sound's 500-HP subwoofer is
the logical choice for enhancing low frequencies in MINA
loudspeaker systems. The 500-HP extends the range of the
system down to 35 Hz. The 500-HP can be flown or ground-
stacked with MINA arrays using the optional MTF-M’elodie/
MINA transition frame. For applications requiring more low-
frequency headroom, Meyer Sound's 600-HP and 700-HP
subwoofers are ideally suited for integration with MINA sys-
tems.
NOTE: When integrating MINAs within the
same 500-HP array with the MTF-M’elodie/
MINA transition frame, a delay of 1.8 ms should be
added to the 500-HP signal. When integrating MINAs
as separate arrays, use MAPP Online Pro to deter-
mine appropriate delay settings.
NOTE: A measurement system such as Meyer
Sound’s SIM 3 should be used to determine
appropriate delay and polarity settings.
Integrating 600-HP and 700-HP Subwoofers
MINA arrays can be deployed with Meyer Sound’s 600-HP
or 700-HP subwoofers in applications where high SPL is
necessary, or the program content requires additional low-
frequency headroom. The 600-HP extends frequency
response to 39 Hz, while the 700-HP extends frequency
response to 30 Hz.
These subwoofers can be flown in straight arrays next to
MINA arrays using optional rigging hardware: for the
600-HP, the MRF-600 rigging kit and MG-MICA multipur-
pose grid; for the 700-HP, the MRK-700 rigging kit and
MTG-700 top grid.
NOTE: A measurement system such as Meyer
Sound’s SIM 3 should be used to determine
appropriate delay and polarity settings.
NOTE: For more information on integrating
subwoofers with MINA, refer to the MINA Sys-
tem Startup Guide (PN 05.207.100.01) available at
27
Download from Www.Somanuals.com. All Manuals Search And Download.
CHAPTER 4: LINE ARRAYS AND SYSTEM INTEGRATION
28
Download from Www.Somanuals.com. All Manuals Search And Download.
CHAPTER 5: QUICKFLY RIGGING
MINA loudspeakers are compatible with Meyer Sound’s
QuickFly® rigging system, a comprehensive collection of rig-
ging, flying, and mounting hardware. MINA’s captive
GuideALinks allow cabinets to be linked at various splay
angles for flying, groundstacking, and transport. The heavy-
duty GuideALinks allow for easy adjustment of array tilts,
eliminating the need for pull-black straps in flown configura-
tions. M6 attachment points provide connections to the
optional MYA-MINA mounting yoke and MUB-MINA U-
bracket.
MINA GuideALinks
Each MINA loudspeaker is equipped with four captive
GuideALinks that link to adjacent units in flown and ground-
stacked arrays. Located at the bottom corners of the end
plates, the GuideALinks extend and retract with knobs and
are secured with quick-release pins.
This chapter gives an overview of MINA rigging options and
rigging accessories. For complete information on rigging
hardware, including configuration and load ratings, refer to
the MG-MINA Assembly Guide (PN 05.207.101.01) available
Important Safety Considerations!
When installing Meyer Sound loudspeakers and subwoof-
ers, the following precautions should always be observed:
■
All Meyer Sound products must be used in accordance
with local, state, federal, and industry regulations. It is
the owner’s and user’s responsibility to evaluate the reli-
ability of any rigging method for their application. Rigging
should only be carried out by experienced professionals.
■
■
Use mounting and rigging hardware that has been rated
to meet or exceed the weight being hung.
Make sure to attach mounting hardware to the building's
structural components (studs or joists), and not just to
the wall surface. Verify that the building's structure and
the anchors used for the installation will safely support
the total weight of the mounted loudspeakers.
MINA GuideALinks with Quick-Release Pins
■
■
Use mounting hardware appropriate for the surface
where the loudspeaker will be installed.
When linking MINAs, two quick-release pins are required for
each GuideALink: one to secure the position of the link in
the top unit, and one to secure the link to the linked bottom
unit. Eight (1/4 by 0.53-inch) quick-release pins are included
with each MINA.
Make sure bolts and eyebolts are tightened securely.
Meyer Sound recommends using Loctite® on eyebolt
threads and safety cables.
■
Inspect mounting and rigging hardware regularly. Imme-
diately replace any worn or damaged components.
CAUTION: Make sure to secure the MINA
GuideALinks with the included quick-release
!
pins. GuideALink knobs are for extending and retract-
ing the links and should not be used to support the
weight of the loudspeaker when fully extended (with-
out the pins).
29
Download from Www.Somanuals.com. All Manuals Search And Download.
CHAPTER 5: QUICKFLY RIGGING
The label in the lower left corner of the end frame shows the
splay angle for the GuideALink position. With the knob at the
bottom, the splay angle is 0 degrees. As the knob is moved
up, the angle increases (all the way to 11 degrees). To stow
the link, the knob is moved all the way to the top of the slot.
Front GuideAlinks
The front GuideALinks act as a pivot point between linked
MINAs, with the splay angle between the units determined
by the rear GuideALink positions. When stowing front
GuideALinks, the knob is positioned at the top of the slot.
GuideALink
label
Pinning positions
Front GuideALinks
Quick-release pin
Rear GuideAlinks
Rear GuideALink Label and Pinning Positions
The rear GuideALinks permit splay angles between linked
MINAs at 0.0, 0.5, and 1–11 degrees in 1-degree incre-
ments. The rear GuideALink includes three rows of holes
corresponding to the available splay angles (Figure 4) that
are secured in one of three pinning positions at the bottom
of the unit.
0°
.5°
1°
2°
3°
4°
5°
6°
7°
8°
9°
10°
11°
Rear GuideALinks
Stowed
Figure 4: Rear GuideALink, Splay Angles for Linked MINAs
NOTE: The splay angles listed on the
GuideALink label are for relative angles
between the linked units. For example, setting the
GuideALink to “5” yields a 5-degree downtilt of the
lower unit to the upper unit. How the loudspeakers
relate to the floor, stage, and seating angles in the
venue depends on the orientation of the MG-MINA
grid, the angles of the loudspeakers in the array
30
Download from Www.Somanuals.com. All Manuals Search And Download.
MINA OPERATING INSTRUCTIONS
above them, whether they are flown or ground-
stacked, and other factors. MAPP Online Pro is rec-
ommended for determining the optimum splay angles
for loudspeakers and coverage pattern of the array.
CAUTION: Always use the quick-release pins
included with the MG-MINA grid to secure its
links, as well as to secure groundstacked MINAs to
the grid. Do not use the quick-release pins included
with MINA in the grid as they are shorter and will not
lock in place.
!
NOTE: Optimal acoustical performance for
MINA arrays is achieved by using the appropri-
ate number of units and splay angles to meet the
coverage requirements of the venue. Use the design
guidelines for MINA arrays in Chapter 4, “Line Arrays
to verify designs and rigging configurations.
TIP: The MG-MINA grid can travel installed on
top of MINA stacks.
MG-MINA Grid Orientations for Flown
Configurations
The orientation of the MG-MINA grid determines the maxi-
mum downtilt and maximum uptilt for flown arrays.
MG-MINA GRID
The MG-MINA grid flies MINA arrays of up to 12 cabinets at
a 7:1 safety ratio, or up to 16 cabinets at a 5:1 safety ratio.
The grid, which can also be used for groundstacking arrays,
accommodates a variety of pickup configurations with four
side pickup points and 11 center pickup points.
MG-MINA Oriented for Maximum Array Downtilt
When the MG-MINA grid is oriented with the links toward
the front of the flown loudspeakers, the grid provides maxi-
mum downtilt for the flown array (when tilting the grid). The
label on the MG-MINA shows this configuration as “Maxi-
mum Downtilt.”
NOTE: For complete information on configura-
tion and load ratings for the MG-MINA, as well
as other MINA rigging accessories, refer to the
MG-MINA Assembly Guide (PN 05.207.101.01) avail-
MAXIMUM DOWN-TILT
MINA FLOWN RESULT
GROUND STACK
GROUND STACK
LOAD RATINGS: FLOWN
5:1 7:1
POSITIONS
ANGLE
A
0º
693 lbs
314.3 kg
(16 MINA)
495 lbs
224.5 kg
(12 MINA)
STOW
B
A
-5º
MG-MINA
Berkeley CA
,
-10º
CAUTION: DO NOT EXCEED LOAD RATING
PRECAUTION: NO EXCEDER LIMITE DE CARGA
ATTENTION: N'EXCEDEZ
PAS L'ESTIMATION DE CHARGE
VORSICHT: UBERSTEIGEN SIE NICHT LAST BEWERTUNG
MAXIMUM UP-TILT
SEE MG-MINA ASSEMBL GUIDE FOR ADDITIONAL LOAD
Y
RATINGS AND RIGGING SAFETY INFORMATION.
A
B
0°
MAXIMUM DOWN-TILT
MAXIMUM UP-TILT
MINA FLOWN RESULT
GROUND STACK
GROUND STACK
LOAD RATINGS: FLOWN
POSITIONS
ANGLE
5:1
7:1
A
0º
693 lbs
314.3 kg
(16 MINA)
495 lbs
224.5 kg
(12 MINA)
STOW
B
A
-5º
MG-MINA
Berkeley CA
,
-10º
CAUTION: DO NOT EXCEED LOAD RATING
PRECAUTION: NO EXCEDER LIMITE DE CARGA
ATTENTION: N'EXCEDEZ
PAS L'ESTIMATION DE CHARGE
VORSICHT: UBERSTEIGEN SIE NICHT LAST BEWERTUNG
SEE MG-MINA ASSEMBL GUIDE FOR ADDITIONAL LOAD
Y
RATINGS AND RIGGING SAFETY INFORMATION.
A
B
MG-MINA Grid
–5°
The MG-MINA grid has four captive links, two per side, that
attach to the top MINA in flown arrays. The configuration of
the links and orientation of the grid (for either maximum
uptilt or maximum downtilt) determine the angle of the
attached MINA. The grid links are easily stowed for transport
and groundstacked configurations.
MG-MINA Grid, Maximum Downtilt Orientation, 0 and –5 Degrees
With the maximum downtilt orientation, the MINA at the top
of the array can be attached to the grid at 0 and –5 degree
(downtilt).
The MG-MINA grid includes eight (1/4 by 0.90-inch) quick-
release pins: four for securing the four grid links, and four for
securing MINA groundstacks to the top of the grid.
31
Download from Www.Somanuals.com. All Manuals Search And Download.
CHAPTER 5: QUICKFLY RIGGING
TIP: The tilt for the MG-MINA and the array
Groundstacking MINAs with the MG-MINA
hung below it can be further tilted by using
chain motors, or differing lengths of steel or
SpanSets.
The MG-MINA grid can also be used for groundstacking up
to six MINAs. When used for groundstacking, the grid
should be oriented so the center of gravity for the stacked
loudspeakers is near the center of the grid. The MINA at the
bottom of the stack attaches directly to the grid with its
GuideALinks and is secured with the quick-release pins
included with the grid. The configuration of the GuideALinks
for the attached MINA determines its tilt, which can be from
+6 degrees (uptilt) to –5 degrees (downtilt).
MG-MINA Oriented for Maximum Array Uptilt
When the MG-MINA grid is oriented with the links toward
the rear of the flown loudspeakers, the grid provides maxi-
mum uptilt for the flown array (when tilting the grid). The
label on the MG-MINA shows this configuration as “Maxi-
mum Uptilt.”
MINA FLOWN RESULT
MAXIMUM DOWN-TILT
LOAD RATINGS: FLOWN
GROUND STACK
GROUND STACK
POSITIONS
ANGLE
5:1
7:1
A
0º
693 lbs
314.3 kg
(16 MINA)
495 lbs
224.5 kg
(12 MINA)
STOW
B
A
-5º
MG-MINA
Berkeley CA
,
CAUTION: DO NOT EXCEED LOAD RATING
PRECAUTION: NO EXCEDER LIMITE DE CARGA
-10º
ATTENTION: N'EXCEDEZ
PAS L'ESTIMATION DE CHARGE
VORSICHT: UBERSTEIGEN SIE NICHT LAST BEWERTUNG
MAXIMUM UP-TILT
SEE MG-MINA ASSEMBL GUIDE FOR ADDITIONAL LOAD
Y
RATINGS AND RIGGING SAFETY INFORMATION.
B
A
–5°
MINA FLOWN RESULT
MAXIMUM DOWN-TILT
MAXIMUM UP-TILT
LOAD RATINGS: FLOWN
GROUND STACK
GROUND STACK
POSITIONS
ANGLE
5:1
7:1
A
0º
693 lbs
314.3 kg
(16 MINA)
495 lbs
224.5 kg
(12 MINA)
STOW
B
A
-5º
MG-MINA
Berkeley, CA
CAUTION: DO NOT EXCEED LOAD RATING
PRECAUTION: NO EXCEDER LIMITE DE CARGA
-10º
ATTENTION: N'EXCEDEZ
PAS L'ESTIMATION DE CHARGE
VORSICHT: UBERSTEIGEN SIE NICHT LAST BEWERTUNG
SEE MG-MINA ASSEMBL GUIDE FOR ADDITIONAL LOAD
Y
RATINGS AND RIGGING SAFETY INFORMATION.
B
A
MG-MINA Grid with Groundstacked MINA
MINA FLOWN RESULT
MAXIMUM DOWN-TILT
MAXIMUM UP-TILT
LOAD RATINGS: FLOWN
GROUND STACK
GROUND STACK
POSITIONS
ANGLE
5:1
7:1
A
0º
693 lbs
314.3 kg
(16 MINA)
495 lbs
224.5 kg
(12 MINA)
STOW
B
A
-5º
MG-MINA
Berkeley CA
,
CAUTION: DO NOT EXCEED LOAD RATING
PRECAUTION: NO EXCEDER LIMITE DE CARGA
-10º
ATTENTION: N'EXCEDEZ
PAS L'ESTIMATION DE CHARGE
VORSICHT: UBERSTEIGEN SIE NICHT LAST BEWERTUNG
SEE MG-MINA ASSEMBL GUIDE FOR ADDITIONAL LOAD
Y
RATINGS AND RIGGING SAFETY INFORMATION.
B
A
-5°
-
4.5
°
-4°
-1°
2°
-3°
0°
3°
-2°
1°
–10°
4°
5°
6°
MG-MINA Grid, Maximum Uptilt Orientation, –5 and –10 Degrees
With the maximum uptilt orientation, the MINA at the top of
the array can be attached to the grid at –5 and –10 degree
(downtilt).
Stowed
TIP: The tilt for the MG-MINA and the array
hung below it can be further tilted by using
chain motors, or differing lengths of steel or
SpanSets.
Figure 5: MINA Rear GuideALink, Angles for Groundstacked Units
CAUTION: To secure groundstacked arrays,
!
particularly in outdoor situations, use tie downs
or weights with the grid and/or a safety system on the
array.
32
Download from Www.Somanuals.com. All Manuals Search And Download.
MINA OPERATING INSTRUCTIONS
MTF-M’ELODIE/MINA TRANSITION FRAME
When using MINA for downfill in M’elodie arrays, the
MTF-M’elodie/MINA transition frame links the bottom
M’elodie to the top MINA. The transition frame can also
transition from 500-HP subwoofers (fitted with rigging
frames) to MINA in flown and groundstacked arrays.
NOTE: For complete information on configura-
tion and load ratings for the MTF-M’elodie/
MINA, as well as for other rigging accessories, refer to
the MG-MINA Assembly Guide (PN 05.207.101.01)
MTF-M’elodie/MINA with Flown 500-HPs and MINAs
MTF-M’elodie/MINA with Flown M’elodies and MINAs
The MTF-M’elodie/MINA transition frame includes the
required quick-release pins and links for the following transi-
tions:
■
■
■
M’elodies flown with MINAs below
500-HPs flown with MINAs below
MTF-M’elodie/MINA with Groundstacked 500-HPs and MINAs
500-HPs groundstacked with MINAs above
CAUTION: Always use the quick-release pins
included with the MTF-M’elodie/MINA transi-
!
tion frame to secure loudspeakers to the frame. Do
not use the quick-release pins included with MINA in
the frame as they are shorter and will not lock in
place.
33
Download from Www.Somanuals.com. All Manuals Search And Download.
CHAPTER 5: QUICKFLY RIGGING
MYA-MINA MOUNTING YOKE
The MYA-MINA mounting yoke flies up to three MINA loud-
speakers from a single hanging point using a C-clamp or
equivalent. The yoke includes two bracketing options: the
MPA-2 for attaching to two cabinets, and the MPA-3 for
attaching to one or three cabinets. The brackets bolt directly
to the M6 threads in the end frames for one of the cabinets.
For flown applications, the yoke supports up to 30 degrees
of uptilt and severe downtilts of up to 90 degrees. For flying
larger arrays, the MG-MINA grid is recommended; for
smaller profile applications, the MUB-MINA U-bracket is
recommended.
NOTE: For complete information on configura-
tion and load ratings for the MYA-MINA, as
well as for other rigging accessories, refer to the
MG-MINA Assembly Guide (PN 05.207.101.01) avail-
MYA-MINA with MPA-3 Adapter, Three MINAs, and C-clamp
CAUTION: The MYA-MINA’s mounting bracket
at the top of yoke has one 1/2-inch center hole
!
that is rated for flown applications. The smaller two
center holes and four corner holes should only be
used for attaching to pole-mount adapters.
MYA-MINA with MPA-3 Adapter and Three MINAs
34
Download from Www.Somanuals.com. All Manuals Search And Download.
MINA OPERATING INSTRUCTIONS
also be flown from trusses using C-clamps or equivalent.
For flying and groundstacking larger arrays, the MG-MINA
grid is recommended; for applications requiring continuous
adjustability or greater downtilt and uptilt angles, the
MYA-MINA mounting yoke is recommended.
Pole-Mounting MINAs with the MYA-MINA
Up to two MINA loudspeakers can be pole-mounted with
the MYA-MINA mounting yoke. For pole-mount applica-
tions, the yoke support up to 30 degrees of downtilt and
severe uptilts of up to 90 degrees. When pole-mounting
MINAs with the yoke, a third-party pole-mount adapter is
required.
NOTE: For complete information on configura-
tion and load ratings for the MUB-MINA, as
well as for other rigging accessories, refer to the
MG-MINA Assembly Guide (PN 05.207.101.01) avail-
Ceiling-Mounted MUB-MINA with One MINA
The MUB-MINA U-bracket’s mounting holes and mounting
slot provide maximum flexibility for the loudspeaker’s uptilt
and downtilt. For flown applications, the MUB-MINA can be
oriented for either maximum downtilt (with the slot near the
front of the loudspeakers) or maximum uptilt (with the slot
near the rear of the loudspeakers).
Pole-Mounted MYA-MINA with MPA-2 Adapter and Two MINAs
■
For a single flown cabinet, the MUB-MINA supports con-
tinuos angles of 0 to –20 degrees in the maximum down-
tilt orientation, and angles of +10 to –10 degrees in the
maximum uptilt orientation.
CAUTION: When mounting the MYA-MINA on
!
a pole, make sure the pole and pole-mount
adapter have been rated to support the full weight of
the yoke and loudspeakers. Observe all safety pre-
cautions specified by the pole and pole-mount
adapter manufacturer.
■
For multiple flown cabinets, the MUB-MINA supports
fixed angles of +10, 0, –5, –10 and –20 degrees (with
either orientation).
NOTE: For multiple flown cabinets, the
MUB-MINA slot is not recommended for vari-
able adjustments since the angle could change over
time due to the weight of the cabinets.
MUB-MINA U-BRACKET
The MUB-MINA U-bracket was primarily designed for aim-
ing a single MINA loudspeaker in floor- and ceiling-mount
configurations. However, the U-bracket is strong enough to
fly arrays of up to three cabinets, or stack up to two cabinets
in floor- and pole-mount configurations. The U-bracket can
NOTE: For illustrations showing which
MUB-MINA mounting holes and slot configura-
tions to use to achieve specific angles, refer to the
MG-MINA Assembly Guide (PN 05.207.101.01) avail-
35
Download from Www.Somanuals.com. All Manuals Search And Download.
CHAPTER 5: QUICKFLY RIGGING
FLOOR- AND POLE-MOUNTING MINAS WITH
THE MYA-MINA
MCF-MINA CASTER FRAME
The MCF-MINA caster frame safely supports up to five
MINAs for transport and groundstacking, making it easy to
assemble or disassemble arrays. The caster frame’s sturdy
construction allows it be conveniently moved with forklifts.
Up to two MINA loudspeakers can be floor- or pole-
mounted with the MUB-MINA mounting yoke. For floor- and
pole-mounted applications, the MUB-MINA can be oriented
for either maximum downtilt (with the slot near the rear of
the loudspeakers) or maximum uptilt (with the slot near the
front of the loudspeakers).
NOTE: For complete information on the
MCF-MINA, as well as for other rigging acces-
sories, refer to the MG-MINA Assembly Guide
(PN 05.207.101.01) available at www.meyer-
■
For a single floor- or pole-mounted cabinet, the
MUB-MINA supports continuos angles from +10 to –10
degrees in the maximum downtilt orientation, and angles
of 0 to +20 degrees in the maximum uptilt orientation.
■
For multiple floor- or pole-mounted cabinets, the
MUB-MINA supports fixed angles of 0, +5, and +10
degrees (with either orientation).
MCF-MINA Caster Frame
The MINA at the bottom of the stack attaches securely to
the caster frame with its GuideALinks and is secured with
the four (1/4 by 0.90-inch) quick-release pins included with
the caster frame. The configuration of the GuideALinks for
the attached MINA determines its tilt, which can be from
+6 degrees (uptilt) to –5 degrees (downtilt).
CAUTION: Always use the quick-release pins
included with the MCF-MINA caster frame to
!
secure groundstacked MINAs to the grid. Do not use
the quick-release pins included with MINA in the
frame as they are shorter and will not lock in place.
Pole-Mounted MUB-MINA with Two MINAs
CAUTION: When mounting the MUB-MINA on
a pole, make sure the pole and pole-mount
!
adapter have been rated to support the full weight of
the U-bracket and loudspeakers. Observe all safety
precautions specified by the pole and pole-mount
adapter manufacturer.
NOTE: For illustrations showing which
MUB-MINA mounting holes and slot configura-
tions to use to achieve specific angles, refer to the
MG-MINA Assembly Guide (PN 05.207.101.01) avail-
36
Download from Www.Somanuals.com. All Manuals Search And Download.
MINA OPERATING INSTRUCTIONS
Safety Guidelines for the MCF-MINA Caster
Frame
■
Do not stack more than five MINAs.
■
Avoid moving stacks in the front-to-back direction of the
MINAs (the long side); always move stacks sideways to
avoid tipping.
6
3
0
11
9
6
3
0
11
9
6
3
0
11
9
6
3
0
11
9
6
3
0
MCF-MINA Caster Frame with MINA Stack
TIP: The MG-MINA grid can travel installed on
top of MINA stacks.
TIP: Durable nylon covers, sized for stacks of 3,
4, and 5 units, are available to ensure the MINA
is completely road ready.
■
■
■
When transporting a non-curved MINA stack with
0-degree splay angles, configure the rear GuideALinks
for the bottom MINA so it is attached to the caster frame
at 0 degrees (using the 5-degree hole in the MINA
GuideALinks).
When transporting a curved MINA stack with wide splay
angles, configure the rear GuideALinks for the bottom
MINA so it is attached to the caster frame at –5 degrees
(using the 0-degree hole in the MINA GuideALinks), to
compensate for the stack’s center of gravity.
When groundstacking MINAs with the caster frame,
make sure that all four caster wheels are blocked to pre-
vent the stack from rolling away.
37
Download from Www.Somanuals.com. All Manuals Search And Download.
CHAPTER 5: QUICKFLY RIGGING
38
Download from Www.Somanuals.com. All Manuals Search And Download.
CHAPTER 6: RMS REMOTE MONITORING SYSTEM
The MINA loudspeaker includes an RMS module, which
allows the loudspeaker to be connected to an RMS network.
RMS SOFTWARE
RMS software provides extensive system status and perfor-
RMS provides real-time monitoring of multiple Meyer Sound
self-powered loudspeakers from a Windows-based com-
puter. The RMS host computer communicates with Meyer
Sound loudspeakers (equipped with RMS modules) via a
simple twisted pair network, or an Ethernet network using an
FT-10 to Ethernet adapter.
mance data for each loudspeaker, including amplifier volt-
age, limiting activity, power output, driver status, as well as
mute and solo capability. Loudspeakers are added to the
RMS network and assigned a node name during a one-time
commissioning procedure where the loudspeaker is identi-
fied by either entering its unique Neuron ID, or by pressing
its Identify button.
NOTE: For the latest RMS system require-
NOTE: The RMS software allows you to dis-
able Mute and Solo functions to eliminate any
possibility of accidentally muting loudspeakers. Mute
and solo capability can also be disabled by setting
the Remote Switch on MINA’s RMS user panel to
Disable. For more information, refer to the RMS User
Guide.
NOTE: RMS does not control AC power.
RMS Add Loudspeaker Dialog Box
Once loudspeakers are identified on the RMS network, they
appear in the RMS software as icons and views; they are
also automatically added to the RMS database on the host
computer.
MINA RMS Icon
39
Download from Www.Somanuals.com. All Manuals Search And Download.
CHAPTER 6: RMS REMOTE MONITORING SYSTEM
The RMS software displays all loudspeakers on the network
in a panel with icons, Meter views, and Text views that can
be customized to suit your needs. Loudspeaker data is
updated 2–5 times per second. Individual loudspeakers can
be physically identified with the Wink option in RMS, which
lights the Wink LED on the RMS module for that particular
loudspeaker. Conversely, a loudspeaker can be identified in
the RMS software by pressing the Identify button on the
loudspeaker’s RMS module.
Identify Button
The Identify button serves the following functions:
■
If the loudspeaker has not yet been commissioned
(Activity/Wink LED not lit), press the Identify button to
identify the loudspeaker on the RMS network and com-
mission it.
■
■
To decommission the loudspeaker, press and hold the
Identify button during startup.
To wink a commissioned loudspeaker, press the Identify
button. The Wink LED on the loudspeaker icon in the
RMS software lights up and the Activity/Wink LED on the
loudspeaker’s RMS user panel turns solid green. Press
the Identify button again to unwink the loudspeaker.
TIP: The Wink function is useful for identifying
the physical loudspeaker corresponding to a
loudspeaker icon in the RMS software.
Activity/Wink LED (Green)
The green Activity/Wink LED indicates the status of the
loudspeaker:
■
■
During startup, the LED blinks 10 ten times.
RMS User Panel
If the loudspeaker has not yet been commissioned, the
LED is not lit after startup.
Loudspeaker icons and views can be arranged to represent
how the loudspeakers have been deployed in the system.
Multiple panels can be saved and recalled for specific per-
formances and venues.
■
■
If the loudspeaker has been successfully commissioned,
the LED flashes continuously and flashes more rapidly
with increased data activity.
When the loudspeaker is winked, either by clicking the
Wink button in the RMS software or by pressing the
Identify button on the RMS user panel, the LED is solid
green.
RMS MODULE
MINA’s RMS user panel includes an Identify button, Wink/
Activity LED, Remote Mute switch, and two Network con-
nectors.
TIP: The Wink function is useful for identifying
the physical loudspeaker corresponding to a
loudspeaker icon in the RMS software.
NOTE: The Activity/Wink LED on the RMS user
panel is used exclusively by RMS and has no
effect on the acoustical or electrical activity of the
MINA loudspeaker.
RMS Module
NOTE: The buttons and LED on MINA’s RMS
user panel are used exclusively by RMS and
have no effect on the acoustical or electrical activity
of the loudspeaker.
40
Download from Www.Somanuals.com. All Manuals Search And Download.
MINA OPERATING INSTRUCTIONS
Remote Mute Switch
The recessed Remote Mute switch on MINA’s RMS user
panel determines whether the RMS software can control
muting and soloing of the loudspeaker. MINA ships from the
factory with the switch enabled.
RMS Module
■
Disable: When the Remote Mute switch is set to Disable
(to the left), MINA cannot be muted and soloed from the
RMS software.
■
Enable: When the Remote Mute switch is set to Enable
(to the right), MINA can be muted and soloed from the
RMS software.
NOTE: The RMS software also allows you to
disable Mute and Solo functions to eliminate
any possibility of accidentally muting loudspeakers.
For more information, refer to the RMS User Guide.
Network Connectors
The two Weidmuller connectors transfer data to and from
the RMS network. Two connectors are provided to allow for
easy connection of multiple (daisy-chained) loudspeakers
on the network. Included with each RMS-equipped loud-
speaker are RMS cable connectors and mounting blocks for
constructing RMS cables. The RMS blocks allow the cables
to be securely attached to the RMS module with screws.
41
Download from Www.Somanuals.com. All Manuals Search And Download.
CHAPTER 6: RMS REMOTE MONITORING SYSTEM
42
Download from Www.Somanuals.com. All Manuals Search And Download.
CHAPTER 7: SYSTEM DESIGN AND INTEGRATION TOOLS
Meyer Sound offers two comprehensive tools to assist with
the acoustical and functional requirements of system design
and optimization. This chapter introduces you to MAPP
Online Pro, Meyer Sound’s patented online acoustical pre-
diction tool, and SIM 3, a comprehensive system for mea-
surement and analysis.
The key to the accuracy of MAPP Online Pro’s predictions is
its exhaustive database of Meyer Sound loudspeaker mea-
surements. Performance predictions for each loudspeaker
are based on 360 1/48th-octave-band measurements taken
with a SIM audio analyzer in the Meyer Sound anechoic
chamber. The extraordinary consistency between Meyer
Sound loudspeakers guarantees that predictions from
MAPP Online Pro will closely match their actual perfor-
mance.
MAPP ONLINE PRO
MAPP Online Pro is a powerful, cross-platform, Java-based
application for accurately predicting the coverage pattern,
frequency response, impulse response, and maximum SPL
output of single or arrayed Meyer Sound loudspeakers.
MAPP Online Pro predictions are requested by the client
software and sent via the Internet to the high-speed Meyer
Sound servers where high-resolution (magnitude and phase)
polar data is processed with sophisticated acoustical pre-
diction algorithms. The resulting predictions are then
returned to and displayed on the local computer running the
MAPP Online Pro client software.
Residing on your local computer, the MAPP Online Pro client
lets you configure Meyer Sound loudspeaker systems and
define the environment in which they will operate, including
air temperature, pressure, humidity, and even the location
and composition of walls. CAD (DXF) files containing
detailed venue information can also be imported.
TIP: Meyer Sound offers seminars and webinars
on using MAPP Online Pro. For more informa-
MAPP Online Pro Applications
With MAPP Online Pro, you can:
■
■
■
Simulate different loudspeaker configurations to refine
system design and zero-in on the best coverage for
intended audience areas
Monitor loudspeaker interactions to locate destructive
interferences so that loudspeakers can be re-aimed and
repositioned as necessary
Place microphones anywhere in the sound field and pre-
dict their frequency response, impulse response, and
sound pressure
■
■
Determine delay settings for fill loudspeakers
MAPP Online Pro
Try out virtual Galileo equalization to determine optimum
real-world settings for the best system response
Whether planning for fixed installations or tours with multiple
venues, sound system designers can use MAPP Online Pro
to accurately predict the appropriate loudspeaker deploy-
ment for each job, complete with coverage data, system
delay and equalization settings, rigging information, and
detailed design illustrations. MAPP Online Pro’s accurate,
high-resolution predictions ensure that systems will perform
as expected, thereby eliminating unexpected coverage
problems and minimizing on-site adjustments.
■
■
Automatically calculate load information for arrays to
determine rigging capacities, front-to-back weight distri-
bution, and center of gravity
Generate and export system images for client presenta-
tions
43
Download from Www.Somanuals.com. All Manuals Search And Download.
CHAPTER 7: SYSTEM DESIGN AND INTEGRATION TOOLS
Using MAPP Online Pro
Source Independent Measurement Technique
MAPP Online Pro is compatible with the following operating
systems:
The SIM 3 audio analyzer implements Meyer Sound’s
source independent measurement technique, a dual-chan-
nel method that accommodates statistically unpredictable
excitation signals. Any excitation signal within a desired fre-
quency range can be used to obtain highly accurate mea-
surements for acoustical or electronic systems. For
example, concert halls and loudspeaker systems can be
captured during a performance and used as a SIM 3 test
signal, so you can:
■
■
■
■
Windows
®
Linux
®
Unix
®
Mac OS 10.4 or later
Additional system requirements and recommendations are
available on the MAPP Online Pro website:
■
View measurement data as amplitude versus time
(impulse response) or amplitude and phase versus fre-
quency (frequency response)
■
■
Utilize a single-channel spectrum mode
Downloading and Installing MAPP Online Pro
View frequency domain data with a logarithmic fre-
quency axis
To use MAPP Online Pro, you can register at the following
link:
■
Determine and internally compensate for propagation
delays using the SIM 3 Delay Finder
register/
After entering your registration information, an email will be
sent to you with your user name, password, and the MAPP
Online Pro download location. On-screen instructions will
guide you through the download and installation process.
SIM 3 Applications
SIM 3’s main applications are testing and aligning loud-
speaker systems, which entails:
The MAPP Online Pro client software is regularly upgraded
to add support for the latest Meyer Sound loudspeakers, as
well as to add feature enhancements. Most upgrades are
downloaded automatically when logging on to a MAPP
Online Pro session. The MAPP Online Pro database
includes nearly all of the current Meyer Sound loudspeakers,
subwoofers, and processors.
■
Measuring propagation delays between subsystems to
determine appropriate polarities and delay times
■
Measuring variations in frequency response caused by
the acoustical environment and the placement and inter-
action of loudspeakers to determine corrective equaliza-
tion
■
■
Optimizing subwoofer integrations
Optimizing loudspeaker arrays
SIM 3 MEASUREMENT SYSTEM
SIM 3 can also be used in the following applications:
The SIM 3 audio analyzer is a high-resolution audio mea-
surement system comprised of software, hardware, micro-
phones, and accessory cables. SIM 3 is optimized for
measuring audio frequencies with resolutions up 1/48th of
an octave, allowing you to apply precise corrections to bal-
ance system response using frequency and phase domain
information.
■
■
■
■
■
■
Microphone calibration and equalization
Transducer evaluation and correction
Echo detection and analysis
Vibration analysis
Architectural acoustics
Underwater acoustics
44
Download from Www.Somanuals.com. All Manuals Search And Download.
APPENDIX A: OPTIONAL RAIN HOOD
A weather-protected version of MINA is available with a rain
hood that safeguards the loudspeaker’s electronics from the
elements when used outdoors. The rain hood — which
latches to the user panel and is easily installed and removed
as necessary — is made of a durable, high-impact polycar-
bonate that is also transparent, allowing the loudspeaker's
connections and LEDs to be visible. MINA’s heat sink does
not require a rain hood as it is water-sealed.
INSTALLING THE MINA RAIN HOOD
To install the MINA rain hood:
1. Attach any required cables to the loudspeaker.
2. If the rain hood’s gasket material is not attached, firmly
attach it to the rain hood’s inner edges. Do not attach the
gasket directly to the user panel.
3. Attach the rain hood by slipping it under the flange at the
top of the user panel, placing it flush against the user
panel, aligning the rain hood’s holes with those in the
panel.
7.60
[193 mm]
3.75
[95 mm]
10°
5.85
[149 mm]
3.56
[90 mm]
4.19
[106 mm]
18.95
[481 mm]
15.32
[389 mm]
4. Secure the rain hood to the user panel by inserting the
rain hood’s quick-clips in the two bottom holes. Insert
the clips all the way so they lock.
5. Secure the rain hood to the user panel by inserting the
rain hood’s wing-head studs in the two bottom holes.
Press firmly to compress the rain hood’s gasket and turn
clockwise one quarter turn. Make sure the studs are fully
inserted, rotated, and locked.
MINA Dimensions with Rain Hood
45
Download from Www.Somanuals.com. All Manuals Search And Download.
APPENDIX A: OPTIONAL RAIN HOOD
46
Download from Www.Somanuals.com. All Manuals Search And Download.
APPENDIX B: MINA SPECIFICATIONS
ACOUSTICAL
Operating Frequency
Range
66 Hz – 18 kHz
Note: Recommended maximum operating frequency range. Response depends on load-
ing conditions and room acoustics.
Frequency Response
70 Hz – 17.5 kHz 4 dB
Note: Measured free field with 1/3 octave frequency resolution at 4 meters.
Phase Response
1 kHz to 18 kHz 30°
Maximum Peak SPL
128 dB
Note: Measured with music referred to 1 meter.
Dynamic Range
Horizontal Coverage
Vertical Coverage
Crossover
>110 dB
100°
Varies, depending on array length and configuration
760 Hz
Note: At this frequency, the transducers produce equal sound pressure levels.
TRANSDUCERS
Low and Low-Mid
Frequency
Two 6.5” cone drivers with neodymium magnets
Nominal impedance: 4Ω
Voice coil size: 1.5”
High Frequency
One 3” compression driver
Nominal impedance: 8 Ω
Voice coil size: 3”
Diaphragm size: 3”
Exit size: 1.2”
AUDIO INPUT
Type
Differential, electronically balanced
5 V DC
Maximum Common
Mode Range
Connectors
Input Impedance
Wiring
XLR female input with XLR male loop output
10 kΩ differential between pins 2 and 3
Pin 1: Chassis/earth through 1 kΩ, 1000 pF, 15 V clamp network to provide virtual ground
lift at audio frequencies
Pin 2: Signal +
Pin 3: Signal –
Case: Earth ground and chassis
DC Blocking
CMRR
Differential DC blocking up to maximum common mode voltage
>50 dB, typically 80 dB (50 Hz – 500 Hz)
RF Filter
Common mode: 425 kHz
Differential mode: 142 kHz
TIM Filter
<80 kHz, integral to signal processing
Nominal Input Sensi-
tivity
0 dBV (1.0 V rms, 1.4 V peak) continuous average is typically the onset of limiting for
noise and music
Input Level
Audio source must be capable of producing +20 dBV (10 V rms, 14 V peak) into 600 Ω to
produce the maximum peak SPL over the operating bandwidth of the loudspeaker
47
Download from Www.Somanuals.com. All Manuals Search And Download.
APPENDIX B: MINA SPECIFICATIONS
AMPLIFIER
Type
Three-channel, Class-D
Output Power
975 W total (three channels; 2 x 375 W, 1 x 225 W)
Note: Wattage rating based on the maximum unclipped burst sine-wave rms voltage the
amplifier will produce into the nominal load impedance: 39 V rms low channels, 43 V rms
high channel.
Total Output
1950 W peak
Note: Peak power based on the maximum unclipped peak voltage the amplifier will pro-
duce for at least 100 milliseconds into the nominal load impedance: 55 V peak low chan-
nels, 60 V peak high channel.
THD, IM TIM
Load Capacity
Cooling
<.02%
4 Ω low channels, 8 Ω high channel
Convection
AC POWER
Connectors
Voltage Selection
PowerCon with loop output
Automatic, continuous from 90–265 V AC
100–240 V AC, 50/60 Hz
Safety Agency Rated
Operating Voltage
Turn On/Turn Off
Points
90 V AC turn-on, no turn-off
Internal fuse-protection above 265 V AC
Current Draw
Idle Current
0.256 A rms (115 V AC); 0.249 A rms (230 V AC); 0.284 A rms (100 V AC)
1.26 A rms (115 V AC); 0.66 A rms (230 V AC); 1.50 A rms (100 V AC)
Maximum Long-Term
Continuous Current
Burst Current
3.24 A rms (115 V AC); 1.74 A rms (230 V AC); 4.02 A rms (100 V AC)
Note: AC power cabling must be of sufficient gauge so that under burst current rms con-
ditions, cable transmission losses do not cause the loudspeaker’s voltage to drop below
the specified operating range.
Ultimate Short-Term
Peak Current
10.4 A peak (115 V AC); 5.2 A peak (230 V AC); 11.1 A peak (100 V AC)
Inrush Current
16.8 A peak (115 V AC); 20.0 A peak (230 V AC); 15.0 A peak (100 V AC)
Note: Current draw for a single loudspeaker. Loop output not used.
PHYSICAL
Enclosure
Finish
Premium birch plywood
Black textured
Protective Grille
Rigging
Powder-coated, hex-stamped steel with black mesh
End frames with four captive GuideALinks, secured with 0.25" x 0.53" quick-release pins;
metric M6 attachment points for optional MYA.MINA mounting yoke and MUB.MINA U-
bracket
Dimensions
Weight
20.27" w x 8.38" h x 15.32" d (515 mm x 213 mm x 389 mm)
41.2 lbs (18.69 kg)
ENVIRONMENTAL
Operating Tempera-
ture
0° C to +45° C
Non Operating Tem-
perature
<–40° C or >+75° C
48
Download from Www.Somanuals.com. All Manuals Search And Download.
MINA OPERATING INSTRUCTIONS
Humidity
To 95% at 35° C
Operating Altitude
To 4600 m (15,000 ft)
Non operating Altitude To 95% at 35° C
Shock
30 g 11 msec half-sine on each of 6 sides
10 Hz – 55 Hz (0.010 m peak-to-peak excursion)
Vibration
MINA COMPLIANCE
C
US
(Pending)
(Pending)
MINA DIMENSIONS
20.27
[515 mm]
7.60
[193 mm]
18.53
[471 mm]
8.38
[213 mm]
10°
5.85
[149 mm]
3.56
[90 mm]
15.32
[389 mm]
MINA Dimensions
49
Download from Www.Somanuals.com. All Manuals Search And Download.
APPENDIX B: MINA SPECIFICATIONS
MINA Dimensions with Rain Hood
20.27
[515 mm]
7.60
[193 mm]
3.75
[95 mm]
18.53
[471 mm]
8.38
[213 mm]
10°
5.85
[149 mm]
3.56
[90 mm]
4.19
[106 mm]
18.95
[481 mm]
15.32
[389 mm]
MINA Dimensions with Rain Hood
50
Download from Www.Somanuals.com. All Manuals Search And Download.
Download from Www.Somanuals.com. All Manuals Search And Download.
Meyer Sound Laboratories Inc.
2832 San Pablo Avenue
Berkeley, CA 94702
© 2010
Meyer Sound. All rights reserved.
MINA — 05.207.005.01 A
T: +1 510 486.1166
F: +1 510 486.835
Download from Www.Somanuals.com. All Manuals Search And Download.
|