The Absorption Panel Calculator is a tool designed to help determine the optimal number of absorption panels needed to improve sound quality in a space. By imputing room dimensions and selection panel specifications, you can quickly assess how adding absorption panels will enhance acoustics, reducing echo and improving overall sound clarity.
The Barrier IL Calculation tool is for estimating the insertion loss (IL) of barriers in various sound control scenarios. Users input barrier material and thickness along with source and receiver parameters to predict the effectiveness of barriers in reducing sound transmission.
The Convert 3rd Octave DIL to Full Octave DIL calculator simplifies the process of converting sound intensity levels (DIL) from third-octave bands to full-octave bands. By inputting DIL values for specific frequency bands, users can quickly generate corresponding DIL values for broader octave bands, aiding in sound analysis and compliance assessment across a wider frequency spectrum.
The dBA Calculation tool provides a straightforward method for measuring sound levels in decibels (dBA), considering the human ear’s sensitivity to different frequencies. Users input sound pressure levels across various frequency bands, and the tool computes the overall dBA level, enabling an accurate assessment of noise pollution levels in compliance with industry standards and regulations.
The NC Chart calculator visually represents Noise Criteria (NC) levels to aid in evaluating and controlling indoor noise levels for comfort and productivity. Users can compare ambient noise levels against standard NC curves to assess acoustic conditions, facilitating effective noise management and design decisions for various environments such as offices, classrooms, and theaters.
The NIC and STC Calculator determines the Noise Isolation Class (NIC) and Sound Transmission Class (STC) ratings of building partitions, aiding in soundproofing design and construction. By inputting material specifications and configuration details, users can generate NIC and STC ratings, facilitating informed decisions to optimize noise control and enhance acoustic comfort within buildings.
The Reverberation Calculator provides a simple method for estimating the reverberation time in a room based on its dimensions and surface materials. By inputting room measurements and material types, users can quickly assess reverberation levels, aiding in the design and optimization of acoustically balanced spaces for various applications such as recording studios, auditoriums, or classrooms.
The Room Mode Calculator analyzes and mitigates resonant frequencies within a room by determining its modal frequencies and respective modes. By inputting room dimensions, the tool generates a visual representation of modal frequencies, helping users identify potential areas of sound reinforcement or attenuation for optimal room acoustics in audio-related settings such as studios, theaters, or listening rooms.
The Self-Noise Calculator evaluates the inherent noise levels of audio equipment by inputting device specifications such as sensitivity and equivalent input noise (EIN). By computing the self-noise level, users can assess the device’s performance characteristics, facilitating informed decisions in selecting or designing equipment for audio recording, amplification, or measurement applications with optimal signal-to-noise ratios.
The Silencer Noise Reduction Analysis calculator evaluates the noise reduction capabilities of different silencer configurations for duct systems. By inputting parameters such as airflow rate and silencer specifications, users can analyze the anticipated noise attenuation levels, aiding in the design and selection of effective noise control solutions for HVAC systems in various industrial and commercial settings.
The Sound Divergence Analysis calculator assesses sound propagation and divergence characteristics in outdoor environments. By inputting parameters such as source sound power and distance, along with environmental factors like temperature and humidity, users can analyze how sound spreads and attenuates over distance, aiding in the design and planning of outdoor sound systems, public address systems, or environmental noise monitoring strategies.
The Absorption Coefficients calculator determines the absorption coefficients of various materials at different frequencies. By selecting materials and specifying frequency ranges, users can obtain crucial data on how materials absorb sound waves, facilitating informed decisions in acoustic treatment for spaces such as recording studios, auditoriums, or office environments to achieve desired sound quality and ambiance.
The Wavelength Calculator is a quick and easy way to determine the wavelengths of sound waves at different frequencies. By inputting frequencies in Hertz (Hz), the calculator instantly computes the corresponding wavelengths in meters, helping to understand the behavior of sound waves and assisting in various applications such as room acoustics, audio engineering, and sound system design.