Applications:
BBE High Definition Sound is the core sound enhancement technology licensed by BBE Sound and featured in the BBE Sonic Maximizer range of professional audio signal processors. Other technologies licensed by BBE Sound into the consumer electronics market either incorporate this core technology or are optimized for best results when used with BBE High Definition Sound.
Because the BBE Sonic Maximizer range of professional audio processors is so popular among music and sound professionals we first highlight the benefits of BBE High Definition Sound in terms of useage by musicians and sound professionals:
Transients and Harmonics: The Color Codes of Sound
To understand how BBE sound processing technology works, consider the characteristics of a loudspeaker and what we expect from one. Among a loudspeaker's most important requirements is the ability to reproduce transients - the brief high-energy bursts at the beginning of sounds. The transients then evolve into harmonics. It is the particular amplitudes and phase relationships of these transients and harmonics which add the unique color and character to each sound.
Varying either the amplitude or the phase of the transients and harmonics within signal causes distortion of the sound's characteristics. By drastically altering the transient response of a sound, it's possible to make a cymbal crash seem like a car crash. Similarly, altering amplitude or phase relationships of the harmonics in a clarinet's tone can make it sound more like a flute, or a French horn like an oboe.
Amplitude and Phase
A loudspeaker's transient response is typically expressed in terms of amplitude response (how quickly it reacts to an incoming signal), with little or no regard to phase response (whether high and low frequencies are reproduced at the proper time). The ability to accurately represent a sound's phase and amplitude define the quality of a loudspeaker's transient and steady - state, or sustained, response.
If a loudspeaker's amplitude response curve were linear, then the relationship between the high and low frequencies would be correct. And if a loudspeaker's phase response curve were linear, then the low and high frequencies would reach the listener's ears in their correct time order. This would result in faithful reproduction of the sound. However, this isn't normally the case.
Why is Live Sound so Pleasing?
When we listen to live music, all of the highs and lows reach our ears in the same relationship to each other as when they were created by the instruments. If this same live music were to be recorded and played back through a loudspeaker system, the loudspeaker would introduce frequency-dependent phase shifting. The inductance of the speaker's voice coil creates a stronger impedance as the signal's frequency increases, resulting in a time delay. Consequently, frequency components with large negative phase shifts (high frequencies) arrive at the listener's ear later than signals undergoing small phase shifts (low frequencies). The resultant signal is distorted in the time domain to the listener's ear. Audio material containing sharp transients (e.g., percussive and plucked sounds such as drums, guitar, piano and harpsichord, etc.) suffers the most from this phenomenon, making it seem unfocused, or mushy.
In order to address these problems inherent in basic loudspeaker design, BBE Sound, Inc. has developed a circuit that has two primary functions. The first adjusts the phase relationships of the low, mid and high frequencies. Since a loudspeaker's natural tendency is to add progressively longer delay times to higher frequencies, the BBE sound processing system adds progressively longer delay times to lower frequencies. This creates a kind of "mirror" curve to the time delay curve created by the speaker, neutralizing its phase distortion.
The second major element in the BBE system is the augmentation of the higher and lower frequencies. Loudspeakers tend to be less efficient in their extreme treble and bass ranges. Most sound-reproducing systems include a circuit for boosting high and low frequencies, showing an accepted awareness of the loudspeaker's efficiency problem. The BBE system, however, provides a dynamic, program-driven augmentation which combines with the phase compensation feature to restore the brilliance and clarity of the original live sound. The result is, as one professional journal phrased it, "The most hearable advance in audio technology since high fidelity itself!"
BBE DUAL MONO SONIC MAXIMIZER
882i features dual-mono operation with balanced XLR inputs and outputs. It is designed for applications requiring low noise, high headroom and +4dBu input levels.
Applications:
BBE High Definition Sound is the core sound enhancement technology licensed by BBE Sound and featured in the BBE Sonic Maximizer range of professional audio signal processors. Other technologies licensed by BBE Sound into the consumer electronics market either incorporate this core technology or are optimized for best results when used with BBE High Definition Sound.
Because the BBE Sonic Maximizer range of professional audio processors is so popular among music and sound professionals we first highlight the benefits of BBE High Definition Sound in terms of useage by musicians and sound professionals:
Transients and Harmonics: The Color Codes of Sound
To understand how BBE sound processing technology works, consider the characteristics of a loudspeaker and what we expect from one. Among a loudspeaker's most important requirements is the ability to reproduce transients - the brief high-energy bursts at the beginning of sounds. The transients then evolve into harmonics. It is the particular amplitudes and phase relationships of these transients and harmonics which add the unique color and character to each sound.
Varying either the amplitude or the phase of the transients and harmonics within signal causes distortion of the sound's characteristics. By drastically altering the transient response of a sound, it's possible to make a cymbal c seem like a car c. Similarly, altering amplitude or phase relationships of the harmonics in a clarinet's tone can make it sound more like a flute, or a French horn like an oboe.
Amplitude and Phase
A loudspeaker's transient response is typically expressed in terms of amplitude response (how quickly it reacts to an incoming signal), with little or no regard to phase response (whether high and low frequencies are reproduced at the proper time). The ability to accurately represent a sound's phase and amplitude define the quality of a loudspeaker's transient and steady - state, or sustained, response.
If a loudspeaker's amplitude response curve were linear, then the relationship between the high and low frequencies would be correct. And if a loudspeaker's phase response curve were linear, then the low and high frequencies would reach the listener's ears in their correct time order. This would result in faithful reproduction of the sound. However, this isn't normally the case.
Why is Live Sound so Pleasing?
When we listen to live music, all of the highs and lows reach our ears in the same relationship to each other as when they were created by the instruments. If this same live music were to be recorded and played back through a loudspeaker system, the loudspeaker would introduce frequency-dependent phase shifting. The inductance of the speaker's voice coil creates a stronger impedance as the signal's frequency increases, resulting in a time delay. Consequently, frequency components with large negative phase shifts (high frequencies) arrive at the listener's ear later than signals undergoing small phase shifts (low frequencies). The resultant signal is distorted in the time domain to the listener's ear. Audio material containing sharp transients (e.g., percussive and plucked sounds such as drums, guitar, piano and harpsichord, etc.) suffers the most from this phenomenon, making it seem unfocused, or mushy.
In order to address these problems inherent in basic loudspeaker design, BBE Sound, Inc. has developed a circuit that has two primary functions. The first adjusts the phase relationships of the low, mid and high frequencies. Since a loudspeaker's natural tendency is to add progressively longer delay times to higher frequencies, the BBE sound processing system adds progressively longer delay times to lower frequencies. This creates a kind of "mirror" curve to the time delay curve created by the speaker, neutralizing its phase distortion.
The second major element in the BBE system is the augmentation of the higher and lower frequencies. Loudspeakers tend to be less efficient in their extreme treble and bass ranges. Most sound-reproducing systems include a circuit for boosting high and low frequencies, showing an accepted awareness of the loudspeaker's efficiency problem. The BBE system, however, provides a dynamic, program-driven augmentation which combines with the phase compensation feature to restore the brilliance and clarity of the original live sound. The result is, as one professional journal phrased it, "The most hearable advance in audio technology since high fidelity itself!"
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