Age, Biography and Wiki
David Gunness was born on 7 November, 1960, is an American audio engineer. Discover David Gunness's Biography, Age, Height, Physical Stats, Dating/Affairs, Family and career updates. Learn How rich is he in this year and how he spends money? Also learn how he earned most of networth at the age of 63 years old?
Popular As |
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Occupation |
Audio engineer, electrical engineer and inventor |
Age |
63 years old |
Zodiac Sign |
Scorpio |
Born |
7 November 1960 |
Birthday |
7 November |
Birthplace |
N/A |
Nationality |
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We recommend you to check the complete list of Famous People born on 7 November.
He is a member of famous engineer with the age 63 years old group.
David Gunness Height, Weight & Measurements
At 63 years old, David Gunness height not available right now. We will update David Gunness's Height, weight, Body Measurements, Eye Color, Hair Color, Shoe & Dress size soon as possible.
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Not Available |
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Not Available |
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Not Available |
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Not Available |
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Not Available |
Dating & Relationship status
He is currently single. He is not dating anyone. We don't have much information about He's past relationship and any previous engaged. According to our Database, He has no children.
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Not Available |
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Not Available |
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David Gunness Net Worth
His net worth has been growing significantly in 2023-2024. So, how much is David Gunness worth at the age of 63 years old? David Gunness’s income source is mostly from being a successful engineer. He is from . We have estimated David Gunness's net worth, money, salary, income, and assets.
Net Worth in 2024 |
$1 Million - $5 Million |
Salary in 2024 |
Under Review |
Net Worth in 2023 |
Pending |
Salary in 2023 |
Under Review |
House |
Not Available |
Cars |
Not Available |
Source of Income |
engineer |
David Gunness Social Network
Timeline
His first assignment was to help develop the Musicaster 100, an all-weather 2-way coaxial loudspeaker; an update of the classic 1959 Musicaster design.
David W. Gunness (born November 7, 1960) is an American audio engineer, electrical engineer and inventor.
He is known for his work on loudspeaker design, especially high-output professional horn loudspeakers for public address, studio, theater, nightclub, concert and touring uses.
Gunness worked with Electro-Voice in Michigan for 11 years, filing three patents related to horn technology.
He worked at Eastern Acoustic Works (EAW) in Massachusetts for 12 years, filing three patents in the process of creating a wide variety of loudspeaker products.
For EAW, Gunness developed "Gunness Focusing"—a system for decreasing temporal response distortion in loudspeakers, involving the processing of the audio signal before it reaches the loudspeaker drivers, applying a reverse image of the expected distortion to cancel out the loudspeaker's idiosyncrasies.
Gunness was born November 7, 1960; he grew up in Janesville, Wisconsin, enjoying outdoor activities such as bicycling, camping, hunting and fishing.
At Joseph A. Craig High School he participated in gymnastics and played guitar.
Two of his sisters entered the University of Wisconsin–Madison (UW-Madison), but Gunness chose Purdue University in Indiana.
After one year there, he returned to Wisconsin to enroll at UW-Madison as an electrical engineering major.
During his college years he made extra money as a musician; singing and playing acoustic guitar.
For these gigs he fabricated his own loudspeakers, and he determined to continue in this field, shifting his studies to focus on acoustics and electronics.
In June 1984, Gunness graduated UW-Madison with a degree in Electrical and Computer Engineering.
He immediately accepted an engineering job in Buchanan, Michigan, and relocated there.
On September 29, 1984, he married Kathryn A. Sessions, a nursing student who had finished one year ahead of him at UW-Madison.
Directly after graduating UW-Madison, Gunness obtained a research and development position in the engineering department at the Electro-Voice (EV) factory in Michigan.
Under Chief Engineer Ray Newman, Gunness worked on loudspeaker design, combining traditional empirical R&D methodologies with the emerging capabilities of computer analysis.
In 1984, Gunness filed a patent for a better way to use a manifold to combine the outputs of multiple compression drivers for increased sound power level (SPL), using two to four flat reflecting surfaces in the throat of a horn to redirect sound waves for a more coherent summation.
This low-distortion manifold design made it possible for EV to produce its first high-power concert and touring loudspeaker: the MT-4, with "MT" standing for "Manifold Technology".
This was a 4-way system split between two enclosures, with four speaker drivers summed in each bandpass; a total of 16 drivers.
The upper two bandpasses used the Gunness manifold design for compression drivers, each manifold formed of two zinc castings.
The medium low frequencies were carried by four 10 in cone drivers summed using a larger embodiment of the Gunness manifold concept based on ray tracing and reflection.
The MT-4 was a very heavy system at 633 lb, but it put more power into a smaller package, and it was quicker to position and connect.
Together, EV engineer David Carlson and Gunness presented a paper to the Audio Engineering Society (AES) in November 1986, describing the methods they used to sum four drivers in each bandpass.
In 1986, Gunness developed the EV HP series of horn loudspeakers based on the constant directivity (CD) characteristics described by EV engineer Don Keele in the mid-1970s.
Gunness recognized that relatively large 2-inch (51 mm) horn throats, commonly used for greater SPL, produced an undesirable narrowing of the output pattern above 10 kHz.
His patented design used two longitudinal ribs or vanes to form three "pseudo horns" within the horn flare.
In 1989, Gunness developed an asymmetric horn with an output pattern shaped to suit a typical small-to-mid-sized rectangular auditorium with people sitting near the enclosure hearing sound that was not too loud and others sitting farther away hearing sound that was loud enough.
In both cases, the sound pattern was to minimize sound energy bouncing off of walls; reflections creating unwanted multi-path cancellations.
The horn featured a vertical diffraction slot that was narrower at the bottom which reduced the output for people sitting below the enclosure in the nearfield, and increased the output for those sitting farther away.
EV's sister company, Altec Lansing, marketed this product as the "Vari-Intense" horn.
Gunness researched automated methods for analyzing the performance of a loudspeaker.
In 1990 he delivered a paper to the AES describing a system which used pink noise and a filtered receiver to generate polar response curves plotting loudspeaker output patterns.
The MT-4 proved popular, used on major tours and festivals such as the 1995 Monsters of Rock at Donington Park in central England and the main stage of the 1996 Lollapalooza tour featuring Metallica and Soundgarden.
In September 1995, Gunness moved his family, now including a son and a daughter, from Michigan to Massachusetts in response to his taking a position as senior engineer at Eastern Acoustic Works (EAW) in Whitinsville.
His first task was to set up a system for creating custom loudspeaker designs for specific clients and purposes, and he performed much field work, tuning and optimizing loudspeaker installations.
He then began to research the concept of phased point source behavior with the goal of controlling the directional characteristics of a high-powered concert loudspeaker cluster.
This work led to the development of EAW's KF900 series concert touring system.
In 1997 he filed two patents related to this research: one for a downfill loudspeaker that would direct sound downward without being rigged differently than its upper neighbors, and a method for creating a "common acoustical wavefront" of horizontally arrayed loudspeaker horns mounted in trapezoid enclosures which placed the acoustic center of the array very close to the rear of the enclosure.
Gunness co-founded Fulcrum Acoustic in 2008: a loudspeaker company with the aim of designing loudspeakers based on digital signal processing (DSP), innovative components and high quality construction.