Genelec 8350A PM Genelec

The largest in the 8000 series, the 2-way Genelec 8350A PM has an 8″ woofer and 1″ metal dome tweeter powered by 350 watts of custom Class-D amplification, plus all of the smart technology and acoustic design innovations that Genelec has to offer – Producer Grey finish (P), magnetically shielded (M).

Sitting at the top of the Genelec 8000 series of smart monitors, the 8″, 350-watt 8350A can fill a medium-size studio with inspiring sound. Built for professionals working in world-class surroundings, including recording studios, post-production houses, digital edit suites, radio, and TV, the 8350A features all of the cutting-edge technology that Genelec is known for. Able to output extremely high SPL, it features a proprietary bass reflex port for accurate low-frequency extension down to 33Hz. And since its high-power output will be literally bouncing off the walls of your studio, it brings all of Genelec’s room compensation technology to the party, such as the Minimum Diffraction Enclosure (MDE), Directivity Control Waveguide (DCW), and room compensation controls on the rear panel. But that’s only part of the story. Genelec’s Smart Active Monitoring, otherwise known as SAM, working in tandem with Genelec Loudspeaker Manager (GLM) software with AutoCal, can automatically adapt the 8350A to acoustic environments, correcting for level, delay, and room anomalies for up to 30 monitors and subwoofers in one room.  

Genelec 8350A unique features:

• Smart Active Monitoring technology networked via GLM 2.0 software over Cat5 cable
• Directivity Control Waveguide (DCW) for consistent off-axis response
• Minimum Diffraction Enclosure (MDE), die-cast from recycled aluminum
• Advanced reflex port design for extended low-frequency response
• Optimized amplifiers
• Active crossovers
• Protection circuitry
• Power-saving auto shutdown via Intelligent Signal Sensing technology
• Iso-Pod stand decouples the monitor from mounting surface
• Versatile mounting options

Genelec 8350A – Just the Facts:

• 6.5″ woofer, 3/4″ tweeter
• Balanced analog XLR input
• Genelec 2 x 150W Class D amplification
• Universal mains voltage
• Efficient, distortion-free reflex port
• Producer grey finish (P)
• Magnetically shielded (M)
• Genelec quality and reliability

Genelec 8350A – Behind the Grille

Networked Smart Active Monitor (SAM) Systems

Genelec’s advanced SAM Systems can automatically adapt to acoustic environments and correct for levels, delays and room anomalies. SAM Systems can be controlled via Genelec proprietary Loudspeaker Manager (GLM) network and software, enabling you to build a highly flexible and reliable monitoring system. If the monitors have to move between rooms, you can rely on SAM technology to give you absolute consistency, a neutral soundstage, and low distortion. All electronics, drivers, and enclosures are designed, assembled, tested, and calibrated in Genelec’s factory in Finland. Genelec quality and reliability ensure a secure long-term investment, with environmentally conscious, low energy consumption and outstanding audio quality.

AutoCal room calibration

Genelec AutoCal is a system integrator’s dream and gets you out of stasis and into production faster. It facilitates setup by measuring acoustic response in the listening area and applying the appropriate compensation in the low and low-mid frequencies to minimize the muddying effect of room modes and other unwanted room resonances, while simultaneously accounting for the differences between various listening positions.

Room compensation controls

Each room changes 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. Frequency response can be adjusted to match the acoustic environment by setting the tone control switches on the rear panel of all Genelec monitors.

Directivity Control Waveguide (DCW) Technology

Genelec’s Directivity Control Waveguide shapes the emitted wavefront of direct radiating multi-way monitors in a way that allows predictable tailoring of the speaker’s dispersion pattern. DCW technology also minimizes early reflections, providing a wide, controlled listening area with accurate sound reproduction both on- and off-axis.

Another advantage of minimized early reflections and controlled constant directivity is that the frequency balance of the room’s reverberation field is essentially the same as the direct field from the monitors. As a result, the monitor’s performance is less affected by room acoustic characteristics.  

The consistent off-axis frequency response of the waveguide enables engineers to move in and out of the sweet spot without losing perspective while working.    

DCW technology key benefits:

• Flat on- and off-axis response for wider usable listening area
• Increased direct-to-reflected sound ratio for reduced control room coloration
• Improved stereo and soundstage imaging
• Increased drive unit sensitivity up to 6dB
• Increased system maximum sound pressure level capacity
• Decreased drive unit distortion
• Reduced cabinet edge diffraction
• Reduced complete system distortion

Minimum Diffraction Enclosure (MDE) Technology

Genelec’s highly innovative aluminum enclosure (MDE) improves the linearity of the frequency range and power response of free-standing monitors via rounded edges and gently curved front and sides optimized to match the acoustic properties of the drivers. In addition to achieving a remarkably flat frequency response, minimizing cabinet diffraction yields superb sound stage imaging.

Directivity is further improved by the waveguide being integrated into the MDE enclosure. Since the low-frequency limit for constant directivity is determined by the size of the waveguide, the larger the surface the better the control. Highly directional off-axis radiation yields a consistent listening window, which is critically important in multichannel monitoring. Controlled directivity also reduces possible first-order reflections on surfaces near the loudspeaker, such as walls, floors, ceilings, and studio furniture, which contributes to consistent audio reproduction in various acoustical environments.

High air-flow bass reflex port design

There are three methods to handle bass frequencies in small monitors, infinite baffle, or sealed cabinet, ported reflex, and transmission line (passive radiator designs are a subset of ported reflex speakers). Genelec’s choice for vented, or reflex, enclosures dates back to the first Genelec product in 1978. Since then Genelec has refined and improved their designs to increase low-frequency extension and sound pressure level capability to provide outstanding bass articulation and definition.

The downside of ported designs is that turbulence in the ports due to extreme air pressure from the driver excursions can cause chuffing noise in the ports, and/or interfere with frequencies higher up in the spectrum. To minimize air speed and turbulence, 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. Genelec’s solution is a long, curved tube that maximizes airflow so deep bass can be reproduced without compression. The reflex tube terminates with a wide flare located on the rear of the enclosure minimizing port noise and providing excellent bass articulation.

The curvature of the tube has also been carefully designed to minimize any audible noise, compression, or distortion. The inner end of the tube has the proper resistive termination to minimize 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.

PAD Pro tech note: For small cabinets to handle bass frequencies lower than the laws of physics would allow, the ported or reflex is the easiest design from a manufacturing standpoint to achieve a deep bass response. It takes advantage of the cabinet’s resonance and in essence feeds sound coming from the rear of the speaker through a tube connected to the back of the cabinet into ports, which are usually on the front panel. The length and diameter of the tube are precisely calculated for the desired low-frequency response. The trick is to make sure the sound coming from the port is in phase with the speaker, which reinforces the low frequencies of the monitor. It’s important to note that while this technique does provide a better bass response in small cabinets, it’s primarily a psychoacoustic effect. The addition of a subwoofer enables smaller drivers to handle midrange frequencies while bass frequencies are directed to a larger dedicated bass driver.  

Optimized amplifiers with active crossover

In a typical 2-way loudspeaker system, the active crossover needs two power amplifiers; one for the woofer and one for the tweeter. Electronic crossovers split the audio signal into separate frequency bands that can be separately routed to individual power amplifiers optimized for the frequency band of their respective transducers.

The power amplifiers are connected directly to the drivers of an active loudspeaker, resulting in the power amplifier’s load becoming much simpler. Each driver-specific power amplifier has only a limited frequency range to amplify (the power amplifier is placed after the active crossover), which adds to the ease of design.

The active design principle offers multiple benefits:

• The power amplifiers are directly connected to the speaker drivers, maximizing 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)

Protection circuitry

The protection circuitry prevents driver failure by detecting signal levels and responding accordingly. In the case of sudden peaks or levels that are too high for long periods, the protection circuitry reduces signal level automatically. This feature does not affect the sound quality in any way when working within the specifications of the loudspeaker, but only prevents inappropriate 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 for each loudspeaker and subwoofer maximizes system output level

Intelligent Signal Sensing function

Genelec’s Intelligent Signal Sensing (ISS) is a power-saving feature that prolongs the service life of the monitor. ISS reduces power consumption to less than 0.5 watts by automatically switching the active monitor to standby when no audio signal has been detected for some time. When playback begins, the mode indicator light on the loudspeaker lights up and the playback resumes after a slight delay (<2 seconds).

Iso-Pod stand

Often workstation furniture has equipment racks whose top surfaces double as speaker stands. While this may be a convenient option, placing speakers on wooden surfaces or console meter bridges has side effects detrimental to accurate and effective monitoring. In such a scenario, aiming the loudspeaker axis towards the listener rarely occurs, and sympathetic vibrations (which are not very sympathetic to bass) propagate from the loudspeaker to the surface. Also, first-order reflections on the surface cause comb filtering and subsequently ripples in the frequency response.

To solve these very common problems, Genelec designed the Iso-Pod Isolation Positioner/De-coupler. Made from special lossy rubber-like material to de-couple the speaker from a surface, it has four shallow feet and is firmly attached to the enclosure so that it can be slid along the curved bottom or side surface to allow for a ±15° tilt of the loudspeaker. The loudspeaker’s acoustical axis can then be pointed precisely towards the listener. The vibration isolation and damping properties reduce midrange coloration caused by unwanted vibration transmitted to supporting surfaces.

Versatile mounting options

On the base of the 8350A is a 3/8″ UNC threaded hole which can accommodate a standard microphone stand. On the rear there are two M6x10 mm threaded holes for an Omni-mount® size 20.5 bracket.

The bi-amplified 8350A monitor, the monitor of choice for facilities worldwide, embodies a finely balanced union of Genelec’s acoustic expertise and innovation. For more information, call or chat online with your PAD Studio Specialist today.

Specifications

 System

• Frequency range –6dB: 33Hz-22kHz
• Accuracy of frequency response: ±1.5dB (38Hz – 20kHz)
• Maximum short term sine wave acoustic output on axis in half space, averaged from 100Hz to 3kHz: > 112dB SPL
• Maximum long-term RMS acoustic output in same conditions with IEC weighted noise (limited by driver unit protection circuit): > 103dB SPL
• Maximum peak acoustic output per pair, at 1 m distance with music material: 121dB
• Self-generated noise level in free field on axis: < 5dB (A-weighted)
• Harmonic distortion at 85dB SPL on axis: 50-100Hz ≤ 2%; > 100Hz ≤ 0.5%

Drivers

• Woofer: 8″ (205 mm) cone
• Tweeter: 1″ (25 mm) metal dome

Amplifier section

• Bass amplifier short term output power: 150W
• Treble amplifier short term output power: 200W
• Total harmonic distortion at nominal output: <0.01%
• System signal-to-noise ratio (A-weighted): 109dB (bass), 112dB (treble)
• Mains voltage: 100-240 VAC, 50-60 Hz
• Power consumption (ISS active / idle / maximum): < 1W / 12W / 230W

Input Section

• Digital AES/EBU audio signal connectors (Single wire): XLRF In; XLRM Out
• Input word length: 16-24 bits
• Input sampling rate: 32kHz-192kHz
• Digital input sensitivity (100 dB SPL at 1 m): -30dBFS
• Digital input gain sensitivity, rotary control: +6dB to -6dB adjustable
• Crossover frequency: 1.8kHz
• Analog input (load impedance): XLR female 10k ohm, balanced
• Analog input sensitivity (100dB SPL at 1 m): -6dB
• Analog input gain selection, rotary control: +6dB to -6dB adjustable
• Maximum analog input: 25dBu
• GLM Control network connectors: Proprietary GLM network, 2 x RJ45, CAT5 cables

GLM software frequency response adjustment*

• Parametric notch filters: 16
• Shelving filters: 2 LF, 2 HF
• System room response calibration: Genelec GLM AutoCal AutoCal, GLM manual, stand-alone*

Dimensions

• Height without Iso-Pod table stand: 17-1/8″ (433 mm)
• Height including Iso-Pod table stand: 17-3/8″ (452 mm)
• Width: 11-1/4″ (286 mm)
• Depth: 10-15/16″ (278)
• Weight: 28.2 lb. (12.8 kg)

* The notch and shelving filters adjustments, AutoCalTM and GLMTM manual system calibration features are part of the Genelec Loudspeaker Manager (GLMTM) software