The BMA 360 with Voice Lift and Camera Tracking technology is the world's most technologically advanced beamforming microphone array ceiling, offering unrivaled audio performance and easy deployment.
Download the Voice Boost update
Download camera tracking module
Baixe o plug-in do Revit
Schedule a remote live demo
The BMA 360 with Voice Lift and Camera Tracking technology is the world's most technologically advanced beamforming microphone array ceiling, offering unrivaled audio performance and easy deployment.
Download the Voice Boost update
Download camera tracking module
Baixe o plug-in do Revit
Schedule a remote live demo
prizes
The only mic array ceiling with uniform gain response across all frequency bands, ultra-wideband, constant frequency.
FiBeam™ technology provides users with the best natural, full-fidelity sound in all beams and individual beams. Deep Sidelobe Beamforming DsBeam™ delivers unrivaled sidelobe depth down to -40dB for superior reverb and noise rejection in difficult spaces for unparalleled superior sound clarity and clarity.
Compatible with
Improve your cloud collaboration
- tom
- Determination
- The only frequency-invariant ultra-wideband beamforming microphone array with uniform gain response across all frequency bands. With 6G Acoustic Echo Cancellation (AEC) and FiBeam™ technology, attendees can enjoy high-fidelity natural sound across all beams and in a single beam.
- A new precision beamforming method provides a new beam topology that easily achieves distortion-free 360-degree coverage of any room shape and seating arrangement using ClearOne Audio Intelligence™.
- The BMA 360 Voice Lift provides a powerful yet simple way to drive multiband mixminus speakers so everyone in the local room can hear every word.
- Voice Lift provides a powerful yet simple way to drive multiple mixing speaker zones so everyone in the room can hear every word.
- Greater voice elevation gains previously unattainable are possible thanks to the superior performance of innovative FiBeamTM and DsBeamTM technologies.
- ClearOne's feedback canceling technology and beamforming combine to increase gain before feedback by up to 20 dB compared to omnidirectional microphones.
- A further enhancement of Adaptive Steering (think of it as Smart Switching) provides seamless coverage for all meeting participants and supports camera and voice tracking.
- 6G Acoustic Echo Cancellation (AEC) delivers unrivaled full-duplex audio performance per beam. Built-in audio algorithms such as noise reduction, filtering and automatic level control eliminate the need for batch processing in the DSP mixer, requiring less DSP mixer resources.
- A powerful built-in power amplifier, configurable as 4 x 15 watts or 2 x 30 watts, gives you the flexibility to drive the speakers.
- ClearOne's revolutionary FiBeamTM, DsBeamTM, Voice Lift and 6G AEC technologies combine to create VividVoice™, a breakthrough in enterprise conferencing.
- Built-in features can significantly reduce system design complexity, simplify installation, take up less rack space, and reduce system cost.
- Chain up to three ceilings via P-Link for split rooms or larger meeting facilities — simpler wiring and longer distances than "home run" network connections via Far Ethernet.
- Single workflow for configuration with CONSOLE® AI software. Competing products require professionals to program multiple components using different tool sets: Ethernet switches, ceiling tiles, DSP mixers, and Dante controllers.
- Three different types of ceiling grid are supported: 24", 600mm and 625mm. Includes VESA mounting hole pattern for pole mounting. Ceiling mount adapter kits are also available.
- DsBeam™ provides unrivaled sidelobe depth down to -40dB for excellent reverb and noise rejection for exceptional clarity and clarity, even in difficult locations
The only frequency-invariant ultra-wideband beamforming microphone array with uniform gain response across all frequency bands. FiBeam™ technology provides users with the best natural, full-fidelity sound in all beams and individual beams. Deep Sidelobe Beamforming DsBeam™ delivers unrivaled sidelobe depth down to -40dB for superior reverb and noise suppression in challenging spaces for unrivaled clarity and clarity.
beam forming mode
- Real frequency invariant beamformer: constant response gain over frequency
- Beam Width: 35O, 45Oe 55Oconstant frequency
- Beamforming range: 100 Hz to 20 KHz
- Deep sidelobe: up to 45 dB deep
- Beam aiming accuracy: 0.2 dB
- Dynamic range: 20 Hz to 20 KHz, > 70 dB
- Number of beams: up to 12
- Room layout: full circle/square, rectangle, half circle/classroom, custom beams
- Coverage: up to 600 square feet/58 m2.
- Ceiling Height: Configurable from 7ft to 20ft using AI CONSOLE
amplifier output
- Tipo: Conector de 5,08 mm, estilo Phoenix Euroblock
- Sound: 4 channels
- Output power: 4x15W max. at 8 Ω load or 2x30 W at 4 Ω load, bridged
- Frequency Response: 20 Hz – 22 kHz, +/- 0.5 dB
settings
- Echo cancellation (AEC) on/off
- Noise Cancellation (NC) On/Off. Range: 6 to 25 dB deep.
- Automatic Level Control (ALC) On/Off
- profit adjustment
- mute/unmute
Software
- Console® Artificial Intelligence
size and weight
- 24 revision 8.3 (and below):
- Product Dimensions: 23.7 x 23.7 x 2.1 inches (602.5 x 602.5 x 54.1 mm)
- Product weight: 7.7 pounds (3.5 kg)
- Shipping weight: 11.4 lbs (5.2 kg)
- 24 revision 8..4 (and above):
- Product Dimensions: 23.7 x 23.7 x 2.1 inches (602.5 x 602.5 x 54.1 mm)
- Product weight: 11.1 pounds (5.0 kg)
- Shipping weight: 14.2 lbs (6.4 kg)
- 600mm:
- Product Dimensions: 23.3 x 23.3 x 2.1 inches (592.5 x 592.5 x 54.1 mm)
- Product weight: 9 pounds (4 kg)
- Shipping weight: 12.8 pounds (5.8 kg)
Setting
- Ceiling installation: 24", 600 and 625 mm ceiling grids
- VESA© Ready Mount: 100 mm hole pattern, M 4 x 10 mm
P-LINK peripheral bus port
- Port type: RJ-45
- P-Link input and output: proprietary peripheral bus
- P-Link power
- N56V 36W IEEE 802.3 compliant or equivalent, Mode B
- Wire: solid 23 AWG, Cat 6 factory terminal
- distance
- Normal distance mode: up to 200 feet (60 meters)
PoE++ port
- Port Type: RJ-45 PoE Power
- Enable all peers
- 56 V 90 W IEEE 802.3 bt compliant or equivalent, A and B modes, medium aperture
- Type: Solid Core, 23 AWG, Factory Terminated Cat6
PoE Requirements
- Without speakers: 36 W PoE via P-Link or PoE++
- Speaker: 56V 90W IEEE 802.3 bt PoE required, must be via direct PoE++ port on BMA 360
energy selection
Automatically detects and switches to a PoE powered input port
electricity and heat
- Power supply: PoE plug or equivalent
- energy consumption:
- 100-240 VCA, 50/60 Hz
- 23 watts typical without speaker amplifier
- 55 W x 4 @ 1 kHz at 1/3 power
- Thermal: 270 BTU/hr at full power
- Operational temperature: 14°F/-10°C to 104°F/40°C ambient
accessory
- 910-3200-202 PoE Power Kit, 36W
- 910-3200-207 PoE Power Kit, 70W
- 910-3200-209 PoE Power Kit, 90W
- Support 910-3200-205-AI, converts 600 to 625 mm
- 910-3200-208-CB BMA 360 Conduit Box
Installation of a ceiling without tiles
- 910-3200-210 BMA 360 Surface Mount Kit 24-in.
- 910-3200-210-I BMA 360 Surface mounting kit 600 mm
- 910-3200-212 BMA 360 Flush Mount Kit 24-in.
- 910-3200-212-I BMA 360 Flush Mount Kit 600 mm
piece number
- 910-3200-208-U BMA 360
- 910-3200-208-I BMA 360 International
Compatible with
Improve your cloud collaboration
video library
ClearOne BMA 360 Camera Tracking Demo
ClearOne's BMA 360 - Mute Beam Demo
ClearOne BMA 360 Demo - Noise Cancellation
ClearOne BMA 360 Audio Performance Demo
ClearOne BMA 360 Demo - Speech Enhancement Demo
Deep Dive - BMA 360 - Ceiling Beamforming Microphone Array with Voice Lift Technology
ClearOne's New BMA 360 Beamforming Microphone Array Ceiling
BMA 360 - The world's most technologically advanced beamforming microphone array ceiling
BMA360 Rave Interview and ClearOne's Rave
Download rápido: ClearOne's BMA 360 - DsBeam™ - Deep Sidelobe Beamforming Technology
Fast download: ClearOne's BMA 360 technology - FiBeam™ - for natural, full-fidelity sound.
Unless you are beamforming with ClearOne, you are not beamforming!
BMA 360 data sheet download
Speech Elevation Design Guide download
Challenge Setup Guide download
calculate download
PoE computer download
camera tracking unit download
Guide to blended learning solutions download
Add-in for Revit - Replace Mode download
Specifications for architects and engineers download
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FAQs
BMA 360 | Microphone array ceiling with beamforming? ›
Voice Lift can be configured on up to three BMA 360s per CP2.
How many Bmas can a single CP2 mixer support? ›Voice Lift can be configured on up to three BMA 360s per CP2.
What is microphone beamforming? ›What is a beamforming microphone? At its core, beamforming microphones incorporate arrays of components that can be controlled and shaped via digital signal processing, allowing for beams of sensitivity that can be focused on different areas of a room.
How much does beamforming help? ›Benefits and limits of beamforming
Focusing a signal in a specific direction lets you deliver a higher signal quality to the receiver, which then means faster information transfer and fewer errors, without having to boost the power of the broadcast.
"Beamforming increases the performance of wireless networks at medium ranges. At short ranges, the signal power is high enough that the SNR will support the maximum data rate.
How many antennas required for beamforming? ›Used since 3G, MIMO technology lets radio signals to be sent and received using several antennas. Massive MIMO antennas have many more component antennas (around 100) that allow them to transmit radio signals more efficiently. This allows for very high data rates.
What are the disadvantages of beamforming? ›- It sometimes requires more computing resources and power for beamforming calculations.
- Digital and massive MIMO beamforming systems may be more complex, especially considering more antennas and other hardware used.
- Its cost tends to be higher than traditional systems.
Beamforming improves the spectral efficiency by providing a better signal-to-noise ratio (SNR). Working with other antenna technologies such as smart antennas and MIMO, beamforming boosts cell range and capacity. That means mobile device users get stronger, clearer signals.
Which is better MU-MIMO or beamforming? ›Beamforming and MU-MIMO work together. Since the signal is more efficiently used, MU-MIMO can help increase WiFi range and speed on a WiFi network.
Is beamforming good or bad? ›Using beamforming, wireless access points can direct their signal in a particular direction. The advantages are substantial if the receiving device points in this direction: faster throughput, fewer interferences, and improved signal.
What are the disadvantages of digital beamforming? ›
The disadvantage is the loss from the cascaded phase shifters at high power. Digital beamforming (DBF): DBF assumes that there is a separate RF chain for each antenna element. The beam is formed by matrix-based operations in the baseband where digital amplitude and phase weighting is performed.
Should beamforming be enabled? ›Implicit beamforming can improve the performance of most WiFi clients, including older devices. Implicit beamforming is enabled by default, but you can disable it from the router web interface.
What are the 2 types of beamforming? ›Depending on who you ask, you'll be told there are two types of beamforming. These are either analog or digital, or switched and adaptive beamforming.
How far apart should two antennas be? ›For a system consisting of a transmitter operating at 10mW and passive omnidirectional receive antenna, a general rule of thumb is to maintain at least 3m of separation between antennas so as not to overload the input stage of the receiver.
What should be the distance between two antennas? ›This simple calculation shows us that if we are deploying 2.4 GHz antennas, they should be spaced at a minimum of 4.92 inches apart as a starting point to prevent coupling or other issues.
Is beamforming microphone good? ›Better Communication With Beamforming Microphones
With that, everyone can focus on the task at hand. Whether you're issuing commands to your teammates, talking in a meeting, or a guest on a podcast, a beamforming microphone will help you get your message across to everyone concerned smoothly.
Beamforming is a type of radio frequency (RF) management in which a wireless signal is directed toward a specific receiving device. Beamforming is applied to numerous technologies, including wireless communications, acoustics, radar and sonar.
What is the difference between MIMO and beamforming? ›MIMO (Multiple Input Multiple Output) antennas operate by breaking high data rate signals into multiple lower data rate signals in Tx mode that are recombined at the receiver. Beamforming arrays are inherently different from MIMO in that the multiple columns of dipoles work together to create a single high gain signal.
Does beamforming reduce latency? ›Furthermore, because each station sends and receives data to and from one access point, coordinated Beamforming eliminates the need for collaborative data processing. This will result in significant performance and latency improvements while reducing complexity.
What is the main advantage of beamforming? ›Beamforming improves the spectral efficiency by providing a better signal-to-noise ratio (SNR). Working with other antenna technologies such as smart antennas and MIMO, beamforming boosts cell range and capacity. That means mobile device users get stronger, clearer signals.
Which devices support beamforming? ›
Most 802.11ac (WiFi 5) and newer clients support explicit beamforming. Implicit beamforming does not require client devices to support beamforming in order to benefit from improved range and performance.
What is an example of beamforming? ›An example of a beamforming antenna is the uniform linear array antenna in which the distance between each array element is half of the carrier wavelength. Each element is assumed to be an omnidirectional antenna having fixed gains in all directions.
Does 5G use beamforming? ›5G beamforming allows Verizon to make 5G connections more focused toward a receiving device. For example, a typical 5G small cell that does not employ beamforming during its multiple-input multiple-output (MIMO) transmission will not be able to narrowly concentrate or focus its transmit beams to a particular area.
What is another name for beamforming? ›Beamforming or spatial filtering is a signal processing technique used in sensor arrays for directional signal transmission or reception.
What is the purpose of beam forming? ›Beamforming is a technique used to improve the signal-to-noise ratio of received signals, eliminate undesirable interference sources, and focus transmitted signals to specific locations. Beamforming is central to systems with sensor arrays, including MIMO wireless communications systems such as 5G, LTE, and WLAN.
What are the different types of beamforming? ›Beamforming can be divided into two categories depending on the signal bandwidth: narrowband beamforming and wideband beamforming. Narrowband beamforming is achieved by an instantaneous linear combination of the received array signals.
Which is better 2x2 or 4x4 MIMO? ›A 2×2 MIMO device can transmit 867 Mbit/s, while a 4×4 MIMO device reaches 1.7 Gbit/s. In order to obtain these levels, the wireless client must have the same MIMO. If a 4×4 MIMO access point is used for a wireless client with a 2×2 MIMO device, the maximum data rate will only be 869 Mbit/s.
Does LTE use beamforming? ›Beamforming by Precoding : This is the technique that change the beam pattern (radiation form) by applying a specific precoding matrix. This is the technique used in LTE.