Harry F. Olson
Harry Ferdinand Olson (December 28, 1901 – April 1, 1982) was a prominent engineer at RCA Victor and a pioneer in the field of 20th century acoustical engineering.[1]
Biography
Harry F. Olson was born in Mount Pleasant, Iowa to Swedish immigrant parents. Technically inclined from an early age, he built and flew model airplanes, constructed a steam engine and invented a wood-fired boiler that drove a 100-volt DC generator. Olson designed and built an amateur radio transmitter, gaining enough proficiency to be granted an operator's license. Olson went on to earn a bachelor's degree in Electrical Engineering from the University of Iowa then continued to earn a Master's degree with a thesis on acoustic wave filters in solids and a doctorate in Physics, working with polarization of resonance radiation in mercury. Immediately after completing his course of study in 1928, Olson moved to New Jersey to work for RCA Laboratories. Olson would remain at RCA for almost four decades.
Olson had a continuing interest in music, acoustics, and sound reproduction, and, by 1934, he was placed in charge of acoustical research at RCA. At RCA, Olson worked on a wide range of projects, which included developing microphones for the broadcasting and motion picture industries, improving loudspeakers, and making significant contributions to magnetic tape recording. Like many engineers of the World War II generation, Olson also made significant contributions to military technology as well, particularly to the fields of underwater sound and anti-submarine warfare. After the war Olson, along with Herbert Belar, developed the first modern electronic synthesizer. Equipped with electron tubes, the Mark II Sound Synthesizer was used to compose music, which was recorded and sold to the public.
A prolific inventor and engineer, Olson was awarded more than 100 patents for the various types of microphones (including the widely used 44- and 77-series), cardioid (directional) microphones, loudspeaker baffles, air-suspension loudspeakers, isobaric loudspeakers, early video recording equipment, audio recording equipment, phonograph pickups, underwater sound equipment, noise reduction, sound technology in motion-pictures, and public-address systems he developed. He also authored 135 articles and ten books including an interdisciplinary text charting the dynamical analogies between electrical, acoustical and mechanical systems. In 1949, Olson was honored by being the first recipient of the Audio Engineering Society's John H. Potts Memorial Award, an award program which was later renamed the Gold Medal. In 1953-4 Olson served as president of the Acoustical Society of America, which awarded him the very first Silver Medal in Engineering Acoustics in 1974 and the Gold Medal in 1981. He won the IEEE Lamme Medal in 1970,[3] was elected to the National Academy of Sciences in 1959, and was the recipient of many honorary degrees during his lifetime.
Olson retired from RCA in 1967, continuing as a consultant for RCA Laboratories.
High Fidelity Demonstration
Shortly after World War II, Dr. Olson conducted an experiment, now considered a classic, to determine the preferred bandwidth for the reproduction of music. Previous experimenters had found that listeners seemed to prefer a high-frequency cutoff of 5000 Hz for reproduced music. Dr. Olson suspected that this was likely due to imperfections in the sound, especially in the higher frequencies, as reproduced by equipment in common use at the time. These imperfections included clicks and pops (from 78 rpm recordings), added noise (from AM radio broadcast static), hiss and harmonic distortion (from amplifier circuits), and non linear frequency response from primitive loudspeaker designs. If the sound was free of these problems, he reasoned, listeners would prefer full frequency reproduction.
In his experiment, he set up a room which was divided diagonally by a visually opaque but acoustically transparent screen. The screen incorporated a concealed low-pass acoustical filter having an upper frequency cutoff of 5000 Hz. This filter could be opened or closed, allowing either the full range of frequencies to pass or the range only below 5000 Hz. At first, a small orchestra sat and performed on one side of the screen, while a group of test subjects sat on the other and listened. The listeners were asked to select their preference between two conditions: full bandwidth or restricted bandwidth. There was overwhelming preference in favor of the full bandwidth. Next, the orchestra was replaced with a sound-reproduction system with loudspeakers positioned behind the screen instead. When the sound system was free of distortion, the listeners preferred the full bandwidth. But when he introduced small amounts of nonlinear distortion, the subjects preferred a restricted bandwidth, thus demonstrating clearly the importance of high quality in audio systems.[1]
As a result of this experiment and the work of others, such as Avery Fisher and later Edgar Villchur, high fidelity sound recording, transmission, and reproduction equipment saw increased investment, development, and public acceptance in the following decades. The design and manufacture of everything from microphones, to tape recorders, vinyl records, amplifiers, and loudspeakers were impacted.
Personal life
Harry F. Olson was born in Mt. Pleasant, Iowa, on December 18, 1901. He was the first of two children. His parents were Swedish immigrants.[1]
Olson married Lorene Johnson of Morris, Illinois in 1935. Both his mother and his wife were talented amateur artists — Lorene's paintings were displayed in Olson's RCA office for many years. Olson died at Princeton Medical Center in Princeton, New Jersey on April 1, 1982 at the age of 80.
Awards and honors
Year | Honor or Award[1] |
---|---|
1940 | The Modern Pioneer Award of the National Association of Manufacturers |
1952 | The John H. Potts Medal of the Audio Engineering Society |
1955 | The Samuel L. Warner Medal of the Society of Motion Picture and Television Engineers |
1956 | The John Scott Medal of the City of Philadelphia |
1956 | The Achievement Award of the IRE Professional Group on Audio |
1963 | The John Ericsson Medal of the American Society of Swedish Engineers |
1965 | The Emile Berliner Award of the Audio Engineering Society |
1967 | The Institute of Electrical and Electronic Engineers' Mervin J. Kelly Medal |
1969 | The Institute of Electrical and Electronic Engineers' Consumer Electronics Award |
1970 | The Institute of Electrical and Electronic Engineers' Lamme Medal |
1974 | The Acoustical Society of America's first Silver Medal in engineering acoustics |
1981 | The Acoustical Society of America's Gold Medal |
Patents
Year | Patent Description | Patent Number |
---|---|---|
1931 | Acoustic Device For Sound Pick-up (Ellipsoid Microphone) |
1,814,357 [4] |
1932 | Apparatus for Converting Sound Vibrations Into Electrical Variations (First Practical Ribbon Microphone) |
1,885,001 [5] |
1932 | System Responsive to The Energy Flow of Sound Waves (Pressure and Velocity Sound Level Meter) |
1,892,644 [6] |
1932 | Sound Pick-Up Device (Unidirectional Cardioid Microphone) |
1,892,645 [7] |
1933 | System For the Conversion and Transfer Of Energy (Condenser Microphone Step-Up Transformer With A Remote Preamplifier.) |
1,897,732 [8] |
1934 | Acoustic Device (Loudspeaker Horn) |
1,984,542 [9] |
1935 | Loud Speaker and Method of Propagating Sound (Passive Radiator Loud Speaker) |
1,988,250 [10] |
1935 | Acoustic Device (Double Voice Coil Loudspeaker) |
2,007,748 [11] |
1936 | Electroacoustical Device (Ribbon Telephone Microphone/Speaker) |
2,064,316 [12] |
1937 | Sound Reproducing Apparatus (Multi-Cellular Horn) |
2,102,212 [13] |
1937 | Acoustical Device (Small Portable Closed Back Ribbon Microphone) |
2,102,736 [14] |
1938 | Microphone | 2,113,219 [15] |
1938 | Microphone And Circuit (Microphone Mixer By Verifying Field Coil Strength) |
2,119,345 [16] |
1940 | Loud-Speaker (Multiple Flare Horn) |
2,203,875 [17] |
1940 | Loud-Speaker (Hybrid Bass-Horn/Bass-Reflex Design) |
2,224,919 [18] |
1941 | Electroacoustical Apparatus (Line Microphone "Shotgun Microphone") |
2,228,886 [19] |
1941 | Acoustical Apparatus (Woofer Surround) |
2,234,007 [20] |
1942 | Signal Translating Apparatus (Multiple Co-Axial Loudspeaker Designs) |
2,269,284 [21] |
1942 | Electroacoustical Apparatus (Design of the RCA 77 Ribbon Microphone) |
2,271,988 [22] |
1942 | Radio Remote Control System (Using Different Frequencies of Sound) |
2,293,166 [23] |
1942 | Electroacoustical Apparatus (Line Array Microphone) |
2,299,342 [24] |
1945 | Signal Translating Apparatus (Sub-Aqueous Submarine Microphone) |
2,390,847 [25] |
1947 | Magnetostrictive Signal Translating Apparatus (Rugged Sub-Aqueous Submarine Microphone) |
2,414,699 [26] |
1947 | Signal Translating Apparatus (Sub-Aqueous Submarine Pressure Compensated Speaker) |
2,429,104 [27] |
1949 | Signal Transmission and Receiving Apparatus (Ultrasonically Power Wireless Earphone) |
2,461,344 [28] |
1949 | Air Suspension Loudspeaker | 2,490,466 [29] |
1950 | Synthetic Reverberation System | 2,493,638 [30] |
1950 | Diffraction Type Sound Absorber (Suspended) |
2,502,016 [31] |
1950 | Diffraction Type Sound Absorber Covered By A Membrane | 2,502,018 [32] |
1950 | Diffraction Type Sound Absorber With Complementary Fitting Portions | 2,502,019 [33] |
1950 | Diffraction Type Sound Absorber With Fiberglass Walls (Cylinder) |
2,502,019 [33] |
1950 | Single Element, Unidirectional, Dynamic Microphone (With Pattern Control) |
2,512,467 [34] |
1950 | Feedback Controller System For Recording Cutters And the Like
|
2,516,338 [35] |
1951 | Directional Microphone (Coincident Pair Of Ribbon Microphones With Horizontal Pattern Control) |
2,539,671 [36] |
1951 | Coaxial Dual-Unit Electrodynamic Loud-Speaker (Improved Version) |
2,539,672 [37] |
1951 | Transformerless Audio Output System (Tube Amplifier) |
2,548,235 [38] |
1951 | Means For Improving The Sensitivity And The Response Characteristics Of Velocity Microphones |
2.566,039 |
1951 | Line Type Pressure Responsive Microphone | 2566,094 |
1951 | Velocity Type Microphone (Acoustic High Frequency Equalizer |
2,572,376 [41] |
1953 | Suspension System For Dynamic Microphones | 2,628,289 [42] |
1953 | Distortion Analyzing Apparatus (Improvement) |
2,629,000 [43] |
1953 | Second Order Gradient Directional Microphone | 2,640,110 [44] |
1953 | Portable Radio With A Bass-Reflex Cabinet | 2,642,948 [45] |
1953 | Noise Discrimination System | 2,645,648 [46] |
1953 | Cabinet For Sound Translating Apparatus | 2,649,164 [47] |
1953 | Multisection Acoustic Filter (Filtering Out Frequencies above 5,000 Hz) |
2,656,004 [48] |
1954 | Uniaxial Microphone | 2,680,787 [49] |
1954 | Noise Reduction System | 2,686,296 [50] |
1954 | Sound Translating Apparatus (Second Speaker Inside The Cabinet) |
2,688,373 [51] |
1954 | Coaxial, Dual Unit, Electrodynamic Loud-Speaker (Improved Magnetic Structure) |
2,699,472 [52] |
1955 | Velocity Microphone (Improved Magnetic Structure) |
2,699,474 [53] |
1955 | Dynamic Microphone (Compact Design) |
2,718,272 [54] |
1956 | Unidirectional Microphone (Low Cost Ribbon Design) |
2,751,441 [55] |
1956 | Acoustical Resistance For Pressure Type Microphones | 2,773,130 [56] |
1957 | Methods Of Restoring Phonograph Records (Re-synthesizing The Recording) |
2,808,466 [57] |
1957 | Transducer With Fluid Filled Diaphragm Suspension | 2,814,353 [58] |
1957 | Loudspeaker Structure (Sculpted Cone For High Frequency Pattern Control) |
2,825,823 [59] |
1958 | Combination Chassis And Loudspeaker | 2,838,607 [60] |
1958 | Directional Microphone (Using Two Microphones To Increase Directivity) |
2,854,511 [61] |
1958 | Noise Discriminator, Threshold Type | 2,645,684 [62] |
1958 | Music Synthesizer (Electronic) |
2,855,816 [63] |
1958 | Wide Range Dynamic Phonograph Pickup | 2,858,375 [64] |
1959 | Acoustic Apparatus (Improved Acoustic Labyrinth) |
2,870,856 [65] |
1959 | Signal Frequency Change Detector | 2,918,667 [66] |
1960 | Vibration Control Apparatus | 2,964,272 [67] |
1961 | Apparatus For Speech Analysis and Printer Control Mechanisms | 2,971,057 [68] |
1961 | Electronic Sound Absorber | 2,983,790 [69] |
1961 | Directional Electrostatic Microphone | 3,007,012 [70] |
1961 | Music Composing Machine | 3,007,362 [71] |
1963 | Stereophonic Loudspeaker | 3,104,729 [72] |
1968 | Voiced Sound Fundamental Frequency Detector | 3,400,215 [73] |
References
- 1 2 3 4 Harry F. Olson A Biographical Memoir by Cyril M. Harris
- ↑ Mix Foundation. TEC Awards. TECnology Hall of Fame, 2005. Innovations That Changed the Pro Audio World
- ↑ "IEEE Lamme Medal Recipients". IEEE. Retrieved December 12, 2010.
- ↑ US Patent 1814357
- ↑ US Patent 1885001
- ↑ US Patent 1892644
- ↑ US Patent 1892645
- ↑ US Patent 1897732
- ↑ US Patent 1984542
- ↑ US Patent 1988250
- ↑ US Patent 2007748
- ↑ US Patent 2064316
- ↑ US Patent 2102212
- ↑ US Patent 2102736
- ↑ US Patent 2113219
- ↑ US Patent 2119345
- ↑ US Patent 2203875
- ↑ US Patent 2224919
- ↑ US Patent 2228886
- ↑ US Patent 2234007
- ↑ US Patent 2269284
- ↑ US Patent 2271988
- ↑ US Patent 2293166
- ↑ US Patent 2299342
- ↑ US Patent 2390847
- ↑ US Patent 2414699
- ↑ US Patent 2429104
- ↑ US Patent 2461344
- ↑ US Patent 2490466
- ↑ US Patent 2493638
- ↑ US Patent 2502016
- ↑ US Patent 2502018
- 1 2 US Patent 2502019
- ↑ US Patent 2512467
- ↑ US Patent 2516338
- ↑ US Patent 2539671
- ↑ US Patent 2539672
- ↑ US Patent 2548235
- ↑ US Patent 2.566039
- ↑ US Patent 2566094
- ↑ US Patent 2572376
- ↑ US Patent 2628289
- ↑ US Patent 2629000
- ↑ US Patent 2640110
- ↑ US Patent 2642948
- ↑ US Patent 2645648
- ↑ US Patent 2649164
- ↑ US Patent 2656004
- ↑ US Patent 2680787
- ↑ US Patent 2686296
- ↑ US Patent 2688373
- ↑ US Patent 2699472
- ↑ US Patent 2699474
- ↑ US Patent 2718272
- ↑ US Patent 2751441
- ↑ US Patent 2773130
- ↑ US Patent 2808466
- ↑ US Patent 2814353
- ↑ US Patent 2825823
- ↑ US Patent 2838607
- ↑ US Patent 2854511
- ↑ US Patent 2645684
- ↑ US Patent 2855816
- ↑ US Patent 2858375
- ↑ US Patent 2870856
- ↑ US Patent 2918667
- ↑ US Patent 2964272
- ↑ US Patent 2971057
- ↑ US Patent 2983790
- ↑ US Patent 3007012
- ↑ US Patent 3007362
- ↑ US Patent 3104729
- ↑ US Patent 3400215
External links
- Olson biography
- National Academy of Sciences. Harry F. Olson, 1901-1982: A Biographical Memoir by Cyril M. Harris