Una revelación absoluta en el rendimiento de bajas frecuencias. Con el W371A, por fin podrás despedirte de las influencias perjudiciales de tu habitación en la reproducción de bajas frecuencias.
W371
SAM™ Sistema Altavoces
Smart Active Monitoring (SAM™) and GLM™ calibration technology
Optimised Amplifiers
SPL
120 dB
Respuesta en frecuencia
23 Hz - 500 Hz (-6 dB)
Dimensiones
H 1108 x W 400 x D 400 mm, (ver en pulgadas)
Rango completo, posicion independiente
El W371A complementa perfectament los altavoces 8341, 8351 y 8361 para crear una solucion de monitoreo de rango completo con una naturalidad sin rival y un control supremo en la directividad y los efectos acusticos generados por la sala.
Experimente todos los beneficios de un monitor principal, pero con la libertad de ubicar este sistema independiente en posiciones óptimas dentro de su sala de control; incluso brinda la opción de cambiar entre monitores principales y de campo cercano sin cambiar la imagen.
Respuesta plana y discreta
El W371A adapta cuidadosamente el rendimiento del sistema a la habitación, ofreciendo una respuesta más plana y fluida en la habitación con imágenes de baja frecuencia más coherentes. Tres modos de funcionamiento diferentes permiten elegir una respuesta de LF plana y neutra, evitando las "caidas acústicas", la directividad continua del monitor principal hasta las frecuencias de LF más bajas o la reducción de reflejos perjudiciales en las paredes, el techo o el suelo de la sala.
El W371 utiliza el software GLM para seleccionar y optimizar el procesamiento de la señal para obtener el mejor modo de radiación LF, teniendo en cuenta tanto la ubicación del monitor como la posición de escucha.
W371
Premios
W371A Adaptive Woofer System has won the Studio Monitor category of 2021 NAMM TEC Awards.
Especificaciones técnicas
SPL
120 dB
Potencia del amplificador
2 X 400 W Bass (Class D)
Respuesta en frecuencia
23 Hz - 500 Hz ("-6 dB")
Precisión de la respuesta en frecuencia
± 3 dB
Dimensiones del altavoz
⌀ 356 mm Bass + ⌀ 305 mm Bass (ver en pulgadas)
Dimensiones
H 1108 x W 400 x D 400 mm, (ver en pulgadas)
Peso
61 kg / 134.5 lb
Conexiones
1 x XLR Analog Input
1 x XLR Analog Output
1 x XLR AES/EBU Input
1 x XLR AES/EBU Output
2 x RJ45 Control
W371A SAM™ Woofer System
SAM™ Sistema Altavoces
Especificaciones técnicas
Una revelación absoluta en el rendimiento de bajas frecuencias. Con el W371A, por fin podrás despedirte de las influencias perjudiciales de tu habitación en la reproducción de bajas frecuencias.
Especificaciones del sistema
Respuesta en frecuencia
(± 3 dB)
Corte de graves -6 dB
23 Hz
Corte de agudos -6 dB
500 Hz
SPL
SPL pico Maximum peak SPL output with pink noise, measured in half space at 1 meter. (Long term output is limited by driver unit protection circuitry)
≥123 dB
SPL máximo a corto plazo Maximum short term sine wave SPL output averaged 100 Hz to 500 Hz, measured in half space at 1 meter.
≥120 dB
Ruido propio
Ruido propio Self generated noise level in free space at 1 m on axis (A-weighted)
≤15 dB SPL
Peso
Peso61 kg (134.5 lb)
Dimensiones
Altura
1108 mm
Anchura
400 mm
Profundidad
400 mm
Recinto
Material del recinto
MDF
Altavoces
Tipo de altavoz
Cone
Diámetro
356 mm
Tipo de altavoz
Cone
Diámetro
305 mm
Directividad
Distorsión armónica
Sección de amplificación
Amplificadores
2 x 400 W Class D
Voltaje de la toma eléctrica
100-240 VAC 50/60Hz
Consumo de potencia
Con ISS activo
≤2 W
En reposo
≤40 W
A pleno rendimiento
600 W
Sección de procesado de señal
Conectores
Input Analogue signal input connector XLR female, balanced 10 kOhm
Output
Input Digital signal input connector XLR female 110 Ohm
Output Digital signal output / Thru connector XLR male 110 Ohm
2 x Control
Variantes de producto
Códigos de producto
Para más detalles técnicos consulte por favor el manual de operación del producto
Tecnologías clave
Smart Active Monitoring (SAM™) and GLM™ calibration technology
Optimised Amplifiers
Protection Circuitry
Intelligent Signal Sensing (ISS™) Technology
Active Crossovers
Laminar Integrated Port (LIP™) Technology
Reflex Port Design
Room Response Compensation
Networked Smart Active Monitor (SAM™) Systems feature automatic calibration to the environment.
Now, more than ever, audio productions are engineered in tighter, more confined working environments. This increases acoustic problems and lowers the reliability of monitoring. At the same time, an audio engineer's need to trust a reliable and precise monitoring system that reproduces sound neutrally and without distortion has not changed.
Built upon the solid electro-acoustic foundations of our 1200, 8000 and 7000 Series products, Genelec SAM Systems are today’s most advanced and flexible monitoring solutions. They are an indispensable tool for audio professionals, as they automatically adapt to the acoustic environment and correct for level, delay and room anomalies. SAM Systems are controlled using Genelec's proprietary Loudspeaker Manager (GLM™) network and software, enabling you to build a highly flexible and reliable monitoring system.
GLM is a highly intuitive and powerful monitor control networking system that manages connectivity to all SAM studio monitors and subwoofers on the network. GLM software features adjustment of level, distance delay and flexible room response compensation equalisation with our state-of-the-art, highly robust AutoCal™ 2 algorithm automated calibration system. All parameters and settings are stored in system setup files or saved in each individual monitor or subwoofer, if the GLM network needs to be disconnected.
Also, all acoustical features of SAM Systems can be optimised and tailored for different working styles or client demands. Additionally, even if the monitors or the production projects move between rooms, you can expect SAM technology to provide the highest consistency in monitoring, providing neutral soundstage imaging with low distortion – in each environment.
Genelec SAM Systems offer a comprehensive, solution-oriented, intelligently networked product range supporting analogue and digital signals in virtually any working environment.
Each transducer is driven by its own optimised amplifier.
Audio electronic crossovers allow to split the audio signal into separate frequency bands that can be separately routed to individual power amplifiers, which are then connected to specific transducers optimised for a particular frequency band.
In a typical 2-way loudspeaker system, the active crossover needs two power amplifiers — one for the woofer and one for the tweeter. The power amplifiers are connected directly to the drivers of an active loudspeaker, resulting in the power amplifier’s load becoming much simpler and well known. Each driver-specific power amplifier has only a limited frequency range to amplify (the power amplifier is placed after the active crossover) and this adds to the ease of design.
The active design principle offers multiple benefits:
- The power amplifiers are directly connected to the speaker drivers, maximising the control exerted by the power amplifier’s damping on the driver’s voice coil, reducing the consequences of dynamic changes in the driver electrical characteristics. This may improve the transient response of the system.
- There is a reduction in the power amplifier output requirement. With no energy lost in the passive crossover filter components, the amplifier power output requirements are reduced considerably (by up to 1/2 in some cases) without any reduction in the acoustic power output of the loudspeaker system. This can reduce costs and increase audio quality and system reliability.
- No loss between amplifier and driver units results in maximum acoustic efficiency.
- Active technology can achieve superior sound output vs. size vs. low frequency cut-off performance.
- All loudspeakers are delivered as a factory aligned system (amplifiers, crossover electronics and enclosure-driver systems).
Sophisticated drive unit protection circuitry for safe operation.
When working in critical audio production environments it is essential that monitoring systems remain reliable and functional at all times. One of the main reasons behind Genelec’s excellent success in broadcasting environments is the reliability of our products and a key element behind the reliability is the internal protection circuitry found in all products since 1978.
The protection circuitry prevents driver failures by detecting signal levels, and in case of sudden peaks or constantly too high levels, taking the signal level down automatically. Of course this feature does not affect the sound quality in any way when working within the specifications of the loudspeaker, but only prevents inadequate input signals from breaking the loudspeaker.
Protection circuitry features and benefits:
- Reduces the output level when required, (e.g. when driver voice coil temperature reaches the safe limit), which highly improves system reliability.
- Appropriate protection circuitry design in every loudspeaker and subwoofer enables the maximisation of system output sound level.
Intelligent Signal Sensing (ISS™) for power consumption reduction in stand-by mode.
Introduced early 2013, Genelec’s Intelligent Signal-Sensing technology has been developed to meet with both European Union ErP Directives and Genelec's own ambitious sustainability standards.
The Intelligent Signal Sensing, ISS™ circuitry tracks the signal input of the loudspeaker and detects if it is in use. If the ISS circuit does not find any audio on the input for a period of time, it sets the loudspeaker to a low-power sleep state and the loudspeaker will consume less than 0.5 watts. When an input signal is detected, the loudspeaker immediately turns itself on.
Additionally an ‘ISS Disable’ switch is located on each product’s back plate next to the other room response controls. First, when the mains power switch of the loudspeaker is set to 'ON', the ISS™ auto-start function (low-power sleep state on/off) of the loudspeaker is active.
If this function is not desired, the ISS™ function can be disabled by setting the 'ISS Disable' switch on the back panel to 'ON' position. In this mode, the monitor is only powered on and off using the mains power switch.
Note that the mains power switch will always turn the monitor off completely.
Active crossover operating at low signal levels.
Audio electronic crossovers allow the audio signal to be split into separate frequency bands that are separately routed to individual power amplifiers, which are then connected to specific transducers optimised for a particular frequency band.
Active crossovers come in both digital and analogue varieties. Genelec digital active crossovers include additional signal processing, such as driver protection, delay, and equalisation.
Genelec analogue active crossover filters contain electronic components that are operated at low signal levels suitable for power amplifier inputs. This is in contrast to passive crossovers that operate at the high signal levels of the power amplifier's outputs, having to handle high currents and, in some cases, high voltages.
In a typical two-way system the active crossover needs two power amplifiers — one for the woofer and one for the tweeter.
The active crossover design offers multiple benefits:
- The frequency response becomes independent of any dynamic changes in the driver's electrical characteristics or the drive level.
- There is increased flexibility and precision for adjusting and fine-tuning each output frequency response for the specific drivers used.
- Each driver has its own signal processing and power amplifier. This isolates each driver from the drive signals handled by the other drivers, reducing inter-modulation distortion and overdriving problems.
- The ability to compensate for sensitivity variations between drivers.
- The possibility to compensate for frequency and phase response anomalies associated with a driver’s characteristics within the intended pass-band.
- The flat frequency response of a high-quality active loudspeaker is a result of the combined effect of the crossover filter response, power amplifier responses and driver responses in a loudspeaker enclosure.
Using the active approach enables frequency response adjustments and optimisation of the full loudspeaker system, placed in various room environments, without expensive external equalisers. The end result is a simpler, more reliable, efficient, consistent and precise active loudspeaker system.
Laminar Integrated Port (LIP™) allows for precise bass reproduction.
Genelec’s choice for vented (or bass reflex) enclosures dates back to 1978 and the first active monitor developed by Genelec, the S30. Research to improve the performance and efficiency of reflex ports has been pursued ever since.
A typical reflex port enclosure features a tube and an opening area. To avoid turbulences in the tube the air flow should not meet any acute angles as this would generate noise, compression, distortion and losses of the total radiated energy. To minimize the air flow speed, both the tube and its cross section have to be large. Often, the outer enclosure dimensions become a limitation, because a long tube will not fit in the available volume anymore.
The M Series features two vent tubes having opening stretching across half of the enclosure depth to address these specific issues. The novel patent-pending Laminar Integral Port, LIP™, has been flow-optimized using computer-based finite element models to achieve low distortion and high efficiency even at very high audio output levels.
The reflex ports are integrated in the NCE enclosure during the moulding process, avoiding the need for separate additional components. The cross-section plot (Figure) demonstrates the efficient flow characteristics of the port. The natural installation orientation of the M Series is vertical and to allow easy placement of the monitor against a wall, the M Series ports opening face downwards, in the space under the monitor.
The novel Laminar Integrated Port, LIP™, bass reflex system provides accurate low frequency response and faithful tonal reproduction characteristics.
Advanced reflex port design for extended low frequency response.
Genelec’s choice for vented, or reflex, enclosures dates back to the S30 model, the first Genelec product from 1978. Port performance has been improved and refined over the years with the aim to increase the woofer’s low frequency extension and sound pressure level capability to provide outstanding bass articulation and definition.
Both driver and vent contribute to the total radiation of a reflex enclosure. Most radiation comes from the driver, but at the vent-enclosure resonant frequency the driver displacement amplitude is small and most of the radiation comes out of the vent.
To minimise the air speed in the tube, the cross sectional area of the vent should be large. This in turn means that the vent tube has to be long which presents quite a design challenge.
The long, curved tube maximises airflow so deep bass can be reproduced without compression. The reflex tube terminates with a wide flare located on the rear of the enclosure, minimising port noises and providing excellent bass articulation.
The curvature of the tube has also been carefully designed to minimise any audible noise, compression or distortion. The inner end of the tube has proper resistive termination to minimise once again audible chuffing noise and air turbulence.
Proper reflex port design allows also to significantly reduce the woofer’s displacement, improving the linear low frequency output capacity.
Precise room response compensation for optimizing in-room performance.
The interaction between room acoustic and loudspeaker radiation is complex. Each room changes somewhat the monitor’s response in a unique way, e.g. reflective vs. damped rooms, or placement against a wall vs. on a stand away from the walls.
All Genelec loudspeaker systems feature room response adjustments to compensate for the room influences and retrieve a flat frequency response at the listening position.
Analogue Systems
Genelec analogue loudspeaker systems provide versatile Room Response Controls. They include (depending on models):
- Bass Roll-Off and Bass Tilt
- Treble Tilt and Treble Roll-Off
- Bass Level
- Midrange Level
- Treble Level
- Desktop Control
At low frequencies two main controls are provided. The Bass Tilt control, which acts as a shelving filter together with the Bass Roll-off control allowing you to optimize the low and very low frequency response of the system in different installations. Bass, midrange and treble level controls are provided in large systems. These controls allow to optimize the relative balance between the various pass bands.
The operating manual and datasheet of each loudspeaker contains a list of preferred room response control settings for different installations. These have been specified out of long practical experience and measurements of various kind of typical acoustic environments.
Smart Active Monitor (SAM™) Systems
Genelec SAM Systems offer a comprehensive, solution-oriented, intelligently networked product range which all feature Genelec Loudspeaker Manager (GLM™) software and its automatic calibration system called AutoCal™.
Genelec AutoCal provides the industry’s first integrated process for complete automated measurement, analysis, and adjustment of every monitor on the GLM control network. The system measures the response in the listening area and applies relevant compensation in the low and low-mid frequencies to minimise the detrimental room acoustic anomalies as well as the differences between various listening positions. AutoCal also aligns relative levels, time-of-flight, as well as adjusts correct crossover phase (called AutoPhase) for all subwoofers on the network.
The Acoustic Response Editor provides accurate graphical display of the measured response, filter compensation and the resulting system response for each monitor, with full manual control of acoustic settings.
Referencias
Genelec Visits Morten Lindberg’s Stunning Immersive Audio Studio
The Ones. Point Source Excellence.
Designing the new W371 Adaptive Woofer System.
Genelec Visits Morten Lindberg’s Stunning Immersive Audio Studio
In the world of immersive music recording, no-one has done more than Grammy-winning sound engineer and music producer Morten Lindberg to set the gold standard for what can be achieved in this field.
We visited Morten at his incredible studio in Oslo, Norway to talk about his approach to immersive recording, and how his new 7.1.4 Genelec monitoring system has become an essential part of his workflow.
Welcome to a fascinating insight into the world of a true immersive audio pioneer.
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Documentación
Preguntas frecuentes
W371 does not need a subwoofer because the W371 is itself a very capable low frequency source, in many ways superior to using a subwoofer. In certain immersive installations, a subwoofer can be used as the output method for the LFE channel content. In that case, the subwoofer is calibrated using the GLM as a second step after the primary system calibration.
Bass management means dividing low frequencies into a subwoofer and high frequencies to a loudspeaker, with the typical crossover frequency being in the range 50-100 Hz. A loudspeaker system using W371 with a monitor is a full range system that should not be bass managed. The output quality of the W371 with a monitor is acoustically superior to using a subwoofer and bass management for low frequencies. Because of this, W371 cannot be bass managed with a subwoofer.
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