Low Frequency Acoustic Panels

Low frequency acoustic panels are specifically designed to absorb and control low-frequency sounds, such as bass and rumble. These panels are essential for spaces where deep bass frequencies can be problematic, such as home theaters, recording studios, and music venues.

Get Our Low frequency Acoustic Panels to delight your customers

  • Control Bass Buildup: Reduce unwanted bass resonance and improve sound clarity for a more enjoyable experience.
  • Enhance Acoustic Performance: Optimize your space for sound recording, music production, or home theater setups.
  • Create a Comfortable Environment: Reduce noise distractions and improve overall comfort for your customers.
  • Professional Installation: Our team can provide expert installation to ensure optimal performance.
low frequency acoustic panels

low frequency acoustic panels

  • Deep Bass Absorption: These low frequency acoustic panels are engineered to effectively absorb low-frequency sound waves, reducing bass buildup and improving sound clarity.
  • Thick Construction: Low frequency acoustic panels are typically thicker than standard acoustic panels to accommodate the longer wavelengths of low-frequency sounds.
  • Heavy Density: The acoustic panels low frequency are often made from dense materials, such as fiberglass or mineral wool, to enhance their sound absorption capabilities.
  • Resonant Design: Some low frequency panels incorporate resonant elements, such as Helmholtz resonators, to target specific frequencies and improve absorption.

Key Strategies of Low frequency soundproofing

  • Mass: Adding mass to walls, ceilings, and floors can help to block low-frequency sound transmission. This can be achieved by using materials such as drywall, concrete, or brick.
  • Isolation: Decoupling walls, ceilings, and floors from the building’s structure can help to prevent sound transmission. This can be done using resilient channels or isolation mounts.
  • Absorption: Using acoustic materials like fiberglass, mineral wool, or rockwool can help to absorb low-frequency sound waves.
  • Air Gaps: Creating air gaps between walls and ceilings can help to reduce sound transmission.
  • Door and Window Sealing: Ensuring that doors and windows are properly sealed can prevent sound from entering or leaving a room.
acoustic panels low frequency

Sound Absorption Coefficients

Sound Absorption Coefficients

Frequency (Hz)Coefficient
1000.03
1250.01
1600.09
2000.04
2500.05
3150.09
4000.12
5000.25
6300.32
8000.49
10000.61
12500.72
16000.82
20000.85
25000.91
31500.94
40000.95
Average (ā)0.44
NRC0.45

This table shows the sound absorption coefficients for a specific acoustic material at various frequencies. The NRC (Noise Reduction Coefficient) is an average of the coefficients at 250, 500, 1000, and 2000 Hz.

Why choose our low frequency Acoustic Panels

Superior Bass Control

  • Targeted Absorption: Our panels are specifically designed to effectively absorb low-frequency sounds, reducing unwanted bass buildup and improving overall sound quality.
  • Enhanced Clarity: Experience improved clarity and definition in your audio, whether you’re listening to music, watching movies, or recording sound.

Durability and Longevity

  • High-Quality Construction: Our panels are built to last, using durable materials and construction techniques.
  • Long-Term Performance: Enjoy consistent sound absorption and performance over time.

Versatility and Adaptability

  • Wide Range of Applications: Our panels are suitable for various spaces, including home theaters, recording studios, music venues, and commercial settings.
  • Customizable Solutions: We offer a variety of panel sizes, shapes, and materials to meet your specific acoustic needs.

Expert Installation and Support

  • Professional Guidance: Our team of experts can provide tailored recommendations and installation services to ensure optimal results.
  • Ongoing Support: We offer ongoing support and maintenance services to help you maximize the benefits of your low frequency acoustic panels.

FAQs about Low frquency Acoustic Panels

what are low frequency acoustic panels?

Low frequency acoustic panels are specifically designed to absorb and control low-frequency sounds, such as bass and rumble. These panels are essential for spaces where deep bass frequencies can be problematic, such as home theaters, recording studios, and music venues.

Key Features of Low Frequency Acoustic Panels:

  • Deep Bass Absorption: These panels are engineered to effectively absorb low-frequency sound waves, reducing bass buildup and improving sound clarity.
  • Thick Construction: Low frequency panels are typically thicker than standard acoustic panels to accommodate the longer wavelengths of low-frequency sounds.
  • Heavy Density: The panels are often made from dense materials, such as fiberglass or mineral wool, to enhance their sound absorption capabilities.
  • Resonant Design: Some low frequency panels incorporate resonant elements, such as Helmholtz resonators, to target specific frequencies and improve absorption.

Low frequency acoustic panels have a wide range of applications, including:

  • Home Theaters: Reduce bass buildup and improve sound clarity for a more immersive viewing experience.
  • Recording Studios: Control low-frequency reflections and improve sound isolation.
  • Music Venues: Reduce unwanted bass resonance and improve sound quality for live performances.
  • Commercial Spaces: Address noise issues related to low-frequency equipment or machinery.
  • Control Rooms: Provide a quiet and controlled environment for audio mixing and mastering.
  • Broadcast Studios: Improve audio quality for radio and television broadcasts.
  • Conference Rooms: Reduce background noise and improve speech intelligibility.

These are just a few examples of where low frequency acoustic panels can be used. Their versatility makes them a valuable tool for improving sound quality in a variety of settings.

Low-frequency sounds typically range from 20 Hz to 250 Hz. 

This range is below the audible range for many people, but it can still be perceived and can cause problems in certain environments.

Low-frequency sounds can be difficult to control because they have longer wavelengths and can penetrate walls and other barriers more easily than higher-frequency sounds. This makes them a particular challenge in spaces like home theaters and recording studios.

The limit of low-frequency noise depends on various factors, including:

  • Individual sensitivity: People vary in their sensitivity to low-frequency noise. Some individuals may be more susceptible to its effects than others.
  • Exposure time: Prolonged exposure to low-frequency noise can be more harmful than short-term exposure.
  • Other environmental factors: Noise from other sources can exacerbate the impact of low-frequency noise.

While there is no universally agreed-upon limit for low-frequency noise, studies have shown that exposure to levels above 80 dB can cause adverse health effects, such as:

  • Hearing loss: Prolonged exposure to high levels of low-frequency noise can damage the inner ear, leading to hearing loss.
  • Sleep disturbances: Low-frequency noise can disrupt sleep, leading to fatigue and other health problems.
  • Stress and anxiety: Exposure to low-frequency noise can increase stress and anxiety levels.

It’s important to note that even lower levels of low-frequency noise can be bothersome and affect quality of life. If you are concerned about exposure to low-frequency noise, it’s advisable to consult with a healthcare professional or noise control expert.

The best materials for blocking low-frequency sound are typically dense and heavy materials that can effectively block and absorb sound waves. Here are some of the most effective options:

1. Mass Loaded Vinyl (MLV): MLV is a dense, flexible material that is excellent at blocking low-frequency sound. It can be used on walls, ceilings, floors, and even doors to reduce noise transmission.

2. Rockwool: Rockwool is a type of mineral wool that is highly effective at absorbing sound, especially low frequencies. It is often used in construction and insulation applications.

3. Glass Wool: Glass wool is another type of mineral wool that is effective at sound absorption. It is often used in insulation and acoustic panels.

4. Gypsum Board: Multiple layers of gypsum board can be used to block sound transmission, especially when combined with other materials.

5. Acoustic Panels: Acoustic panels made from materials like fiberglass or mineral wool can be effective at absorbing low-frequency sound, especially when used in combination with other soundproofing materials.

6. Resilient Channel: This is a metal channel that is used to decouple walls and ceilings from the framing, which can help to reduce sound transmission.

7. Soundproofing Curtains: Heavy curtains made from dense fabrics can help to block sound transmission, especially when used in conjunction with other soundproofing measures.

8. Door Seals and Weatherstripping: Ensuring that doors and windows are properly sealed can help to prevent sound from entering or leaving a room.

It is important to note that no single material can completely block low-frequency sound.

A combination of materials and techniques may be necessary to achieve the desired level of soundproofing.

It is also important to consider factors such as the thickness of the materials, the construction of the space, and the source of the noise when selecting soundproofing materials.

If you are unsure about which materials to use or how to install them, it is recommended to consult with a soundproofing professional.

Ask for acoustic panel samples

Interested in experiencing the quality of our acoustic panels firsthand? We offer sample requests to help you visualize the perfect solution for your space. Contact us today to inquire about sample availability and options.