Misplaced Pages

Transistor radio: Difference between revisions

Article snapshot taken from Wikipedia with creative commons attribution-sharealike license. Give it a read and then ask your questions in the chat. We can research this topic together.
Browse history interactively← Previous editContent deleted Content addedVisualWikitext
Revision as of 03:43, 31 July 2023 editJprg1966 (talk | contribs)Extended confirmed users, Pending changes reviewers, Rollbackers95,423 editsm In popular culture← Previous edit Latest revision as of 21:11, 7 December 2024 edit undoCitation bot (talk | contribs)Bots5,409,225 edits Added doi-broken-date. | Use this bot. Report bugs. | #UCB_CommandLine 
(19 intermediate revisions by 12 users not shown)
Line 1: Line 1:
{{short description|Portable radio receiver}} {{short description|Portable radio receiver}}
{{About|an electronic device|the album by M. Ward|Transistor Radio (album)|the song by Benny Hill|Transistor Radio (song)}}
{{use dmy dates |date=August 2021}} {{use dmy dates |date=August 2021}}
{{About|an electronic device|the album by M. Ward|Transistor Radio (album)}}
] transistor radio, circa 1958]] ] transistor radio, circa 1958]]
A '''transistor radio''' is a small portable ] that uses ]-based circuitry. Following the ] in 1947—which revolutionized the field of consumer electronics by introducing small but powerful, convenient hand-held devices—the ] was released in 1954 becoming the first commercial transistor radio. The mass-market success of the smaller and cheaper ] TR-63, released in 1957, led to the transistor radio becoming the most popular ] device of the 1960s and 1970s. Transistor radios are still commonly used as ]s. Billions of transistor radios are estimated to have been sold worldwide between the 1950s and 2012.{{Citation needed|date=October 2020}} A '''transistor radio''' is a small portable ] that uses ]-based circuitry. Previous portable radios used ]s, which were bulky, fragile, had a limited lifetime, consumed excessive power and required large heavy batteries. Following the ] in 1947—which revolutionized the field of consumer electronics by introducing small but powerful, convenient hand-held devices—the ] was released in 1954 becoming the first commercial transistor radio. The mass-market success of the smaller and cheaper ] TR-63, released in 1957, led to the transistor radio becoming the most popular ] device of the 1960s and 1970s. Transistor radios are still commonly used as ]s. Billions of transistor radios are estimated to have been sold worldwide between the 1950s and 2012.{{Citation needed|date=October 2020}}


The pocket size of transistor radios sparked a change in ] listening habits, allowing people to listen to music anywhere they went. Beginning around 1980, however, cheap AM transistor radios were superseded initially by the ] and the ], and later on by digitally-based devices with higher audio quality such as ]s, ]s, ]s and (eventually) by ]s, many of which contain ]<ref name="From the Transistor Radio to the Smartphone">{{Cite web |url=http://thoughtcatalog.com/dave-petraglia/2014/03/why-you-owe-your-smartphone-to-the-transistor-radio/ |title=Why You Owe Your Smartphone To The Transistor Radio |last=Petraglia |first=Dave |date=2014-03-05 |publisher=Thought Catalog}}</ref><ref name="FM Radio in Smartphone Availability">{{Cite web |url=https://www.bostonglobe.com/business/2014/11/06/your-smartphone-ready-for-radio/T7Yz67q9qXyctxxiviQK9J/story.html |title=Is Your Smartphone Ready for Radio? |last=Bray |first=Hiawatha |date=2014-11-06 |publisher=The Boston Globe}}</ref> A transistor is a semiconductor device that amplifies and acts as an electronic switch. The pocket size of transistor radios sparked a change in ] listening habits, allowing people to listen to music anywhere they went. Beginning around 1980, however, cheap AM transistor radios were superseded initially by the ] and the ], and later on by digitally-based devices with higher audio quality such as ]s, ]s, ]s and (eventually) by ]s, many of which contain ]<ref name="From the Transistor Radio to the Smartphone">{{Cite web |url=http://thoughtcatalog.com/dave-petraglia/2014/03/why-you-owe-your-smartphone-to-the-transistor-radio/ |title=Why You Owe Your Smartphone To The Transistor Radio |last=Petraglia |first=Dave |date=2014-03-05 |publisher=Thought Catalog}}</ref><ref name="FM Radio in Smartphone Availability">{{Cite web |url=https://www.bostonglobe.com/business/2014/11/06/your-smartphone-ready-for-radio/T7Yz67q9qXyctxxiviQK9J/story.html |title=Is Your Smartphone Ready for Radio? |last=Bray |first=Hiawatha |date=2014-11-06 |publisher=The Boston Globe}}</ref> A transistor is a semiconductor device that amplifies and acts as an electronic switch.
Line 9: Line 9:
==Background== ==Background==
] ]
Before the transistor was invented, radios used ]s. Although portable vacuum tube radios were produced, they were typically bulky and heavy. The need for a low voltage high current source to power the filaments of the tubes and high voltage for the anode potential typically required two batteries. Vacuum tubes were also inefficient and fragile compared to transistors and had a limited lifetime. Before the transistor was invented, radios used ]s. Although portable vacuum tube radios were produced, they were typically bulky and heavy. The need for a low voltage high current source to power the filaments of the tubes and high voltage for the anode potential typically required two batteries. Vacuum tubes were also inefficient and fragile compared to transistors and had a limited lifetime.


] demonstrated the first ] on December 23, 1947.<ref name="ESEJ">{{cite journal |url=https://digital-library.theiet.org/content/journals/10.1049/esej_19980509 |author=Arns, R.G. |title=The other transistor: early history of the metal–oxide–semiconductor field-effect transistor |journal= Engineering Science and Education Journal |date=October 1998 |volume=7 |issue=5 |pages=233–240 |access-date=13 April 2021 |format=PDF |doi=10.1049/esej:19980509}}</ref> The scientific team at Bell Laboratories responsible for the ] amplifier included ], ], and ] {{sfnp|Handy|Erbe|Blackham|Antonier|1993|p=13}} After obtaining patent protection, the company held a news conference on June 30, 1948, at which a prototype transistor radio was demonstrated.<ref name="The Revolution in Your Pocket">{{Cite web|url=http://www.americanheritage.com/articles/magazine/it/2004/2/2004_2_12.shtml|title=The Revolution in Your Pocket|access-date=2010-04-20|url-status=dead|archive-url=https://web.archive.org/web/20060820121345/http://www.americanheritage.com/articles/magazine/it/2004/2/2004_2_12.shtml|archive-date=2006-08-20}}</ref> ] demonstrated the first ] on December 23, 1947.<ref name="ESEJ">{{cite journal |url=https://digital-library.theiet.org/content/journals/10.1049/esej_19980509 |author=Arns, R.G. |title=The other transistor: early history of the metal–oxide–semiconductor field-effect transistor |journal= Engineering Science and Education Journal |date=October 1998 |volume=7 |issue=5 |pages=233–240 |access-date=13 April 2021 |format=PDF |doi=10.1049/esej:19980509|doi-broken-date=7 December 2024 }}</ref> The scientific team at Bell Laboratories responsible for the ] amplifier included ], ], and ]{{sfnp|Handy|Erbe|Blackham|Antonier|1993|p=13}} After obtaining patent protection, the company held a news conference on June 30, 1948, at which a prototype transistor radio was demonstrated.<ref name="The Revolution in Your Pocket">{{Cite web|url=http://www.americanheritage.com/articles/magazine/it/2004/2/2004_2_12.shtml|title=The Revolution in Your Pocket|access-date=2010-04-20|url-status=dead|archive-url=https://web.archive.org/web/20060820121345/http://www.americanheritage.com/articles/magazine/it/2004/2/2004_2_12.shtml|archive-date=2006-08-20}}</ref>


There are many ] to the title of the first company to produce practical transistor radios, often incorrectly attributed to ] (originally Tokyo Telecommunications Engineering Corporation). ] had demonstrated all-transistor AM (amplitude modulation) radios as early as May 25, 1954,<ref>''Invention and Technology Magazine'', Fall 2004, Volume 20 Issue 2, "The Revolution in your Pocket", Author: Robert J. Simcoe</ref><ref>Book Title: TI, the Transistor, and Me, Author: Ed Millis, page 34</ref> but their performance was well below that of equivalent vacuum tube models. A workable all-transistor radio was demonstrated in August 1953 at the ] Radio Fair by the German firm Intermetall.<ref>Article: "The French Transistor", Author: Armand Van Dormael, page 15, Source: IEEE Global History Network</ref> It was built with four of ]'s hand-made transistors, based upon the 1948 invention of the "Transistor"-germanium point-contact transistor by ] and ]. However, as with the early Texas Instruments units (and others) only prototypes were ever built; it was never put into commercial production. RCA had demonstrated a prototype transistor radio as early as 1952, and it is likely that they and the other radio makers were planning transistor radios of their own, but Texas Instruments and Regency Division of I.D.E.A., were the first to offer a production model starting in October 1954.<ref>website: www.regencytr1.com, Regency TR-1 Transistor Radio History</ref> There are many ] to the title of the first company to produce practical transistor radios, often incorrectly attributed to ] (originally Tokyo Telecommunications Engineering Corporation). ] had demonstrated all-transistor AM (amplitude modulation) radios as early as May 25, 1954,<ref>''Invention and Technology Magazine'', Fall 2004, Volume 20 Issue 2, "The Revolution in your Pocket", Author: Robert J. Simcoe</ref><ref>Book Title: TI, the Transistor, and Me, Author: Ed Millis, page 34</ref> but their performance was well below that of equivalent vacuum tube models. A workable all-transistor radio was demonstrated in August 1953 at the ] Radio Fair by the German firm Intermetall.<ref>Article: "The French Transistor", Author: Armand Van Dormael, page 15, Source: IEEE Global History Network</ref> It was built with four of ]'s hand-made transistors, based upon the 1948 invention of the "Transistor"-germanium point-contact transistor by ] and ]. However, as with the early Texas Instruments units (and others) only prototypes were ever built; it was never put into commercial production. RCA had demonstrated a prototype transistor radio as early as 1952, and it is likely that they and the other radio makers were planning transistor radios of their own, but Texas Instruments and Regency Division of I.D.E.A., were the first to offer a production model starting in October 1954.<ref>website: www.regencytr1.com, Regency TR-1 Transistor Radio History</ref>
Line 21: Line 21:
=== Regency TR-1 === === Regency TR-1 ===
] ]
Two companies working together, Texas Instruments of Dallas, and Industrial Development Engineering Associates (I.D.E.A.) of Indianapolis, Indiana, were behind the unveiling of the ], the world's first commercially produced transistor radio. Previously, Texas Instruments was producing instrumentation for the oil industry and locating devices for the U.S. Navy and I.D.E.A. built home television antenna boosters. The two companies worked together on the TR-1, looking to grow revenues for their respective companies by breaking into this new product area.<ref name="The Revolution in Your Pocket"/> In May 1954, Texas Instruments had designed and built a prototype and was looking for an established radio manufacturer to develop and market a radio using their transistors. (The Chief Project Engineer for the radio design at Texas Instruments' headquarters in Dallas, Texas was Paul D. Davis, Jr., who had a degree in Electrical Engineering from Southern Methodist University. He was assigned the project due to his experience with radio engineering in World War II.) None of the major radio makers including RCA, GE, Philco, and Emerson were interested. The President of I.D.E.A. at the time, Ed Tudor, jumped at the opportunity to manufacture the TR-1, predicting sales of the transistor radios at "20 million radios in three years".<ref name="lane94">{{cite book|title=Transistor Radios: A Collector's Encyclopedia and Price Guide|author1=David Lane|author2=Robert Lane|name-list-style=amp|publisher=Wallace-Homestead Book Company|year=1994|isbn=0-87069-712-9|url-access= registration|url= https://archive.org/details/transistorradios0000lane|pages=2–7}}</ref> The Regency TR-1 was announced on October 18, 1954, by the Regency Division of I.D.E.A., was put on sale in November 1954 and was the first practical transistor radio made in any significant numbers.<ref>{{Cite web |url=https://www.edn.com/electronics-blogs/edn-moments/4398895/TI-announces-1st-transistor-radio--October-18--1954 |title=TI announces 1st transistor radio, October 18, 1954 |last=Deffree |first=Suzanne |date=2017-10-17 |website=] |language=en |access-date=2018-10-16}}</ref> '']'' reported in 1954 that "the radio has only four transistors. One acts as a combination mixer-oscillator, one as an audio amplifier, and two as intermediate-frequency amplifiers."<ref>{{cite magazine|title=Regency markets pocket transistor radio|magazine=Billboard|date=October 30, 1954|url=https://books.google.com/books?id=nSEEAAAAMBAJ&pg=PA26}}</ref> One year after the release of the TR-1 sales approached the 100,000 mark. The look and size of the TR-1 were well received, but the reviews of the TR-1's performance were typically adverse.<ref name=lane94/> The Regency TR-1 was patented<ref>{{cite patent|country=US|number=2892931|pubdate=1959-06-30|title=Transistor radio apparatus|assign1=IDEA Inc.|inventor1-last=Koch|inventor1-first=Richard C.}}</ref> by Richard C. Koch, former Project Engineer of I.D.E.A. Two companies working together, Texas Instruments of Dallas, and Industrial Development Engineering Associates (I.D.E.A.) of Indianapolis, Indiana, were behind the unveiling of the ], the world's first commercially produced transistor radio. Previously, Texas Instruments was producing instrumentation for the oil industry and locating devices for the U.S. Navy and I.D.E.A. built home television antenna boosters. The two companies worked together on the TR-1, looking to grow revenues for their respective companies by breaking into this new product area.<ref name="The Revolution in Your Pocket"/><ref name="marsh20240930">{{Cite magazine |last=Marsh |first=Allison |date=2024-09-30 |title=The First Transistor Radio: Engineering the Regency TR-1 |url=https://spectrum.ieee.org/transistor-radio-invented |access-date=2024-10-05 |magazine=IEEE Spectrum |language=en}}</ref> In May 1954, Texas Instruments had designed and built a prototype and was looking for an established radio manufacturer to develop and market a radio using their transistors. The Chief Project Engineer for the radio design at Texas Instruments' headquarters in Dallas, Texas was Paul D. Davis Jr., who had a degree in Electrical Engineering from Southern Methodist University. He was assigned the project due to his experience with radio engineering in World War II. None of the major radio makers including RCA, GE, Philco, and Emerson were interested. The President of I.D.E.A. at the time, Ed Tudor, jumped at the opportunity to manufacture the TR-1, predicting sales of the transistor radios at "20 million radios in three years".<ref name="lane94">{{cite book|title=Transistor Radios: A Collector's Encyclopedia and Price Guide|author1=David Lane|author2=Robert Lane|name-list-style=amp|publisher=Wallace-Homestead Book Company|year=1994|isbn=0-87069-712-9|url-access= registration|url= https://archive.org/details/transistorradios0000lane|pages=2–7}}</ref> The Regency TR-1 was announced on October 18, 1954, by the Regency Division of I.D.E.A., was put on sale in November 1954 and was the first practical transistor radio made in any significant numbers.<ref>{{Cite web |url=https://www.edn.com/electronics-blogs/edn-moments/4398895/TI-announces-1st-transistor-radio--October-18--1954 |title=TI announces 1st transistor radio, October 18, 1954 |last=Deffree |first=Suzanne |date=2017-10-17 |website=] |language=en |access-date=2018-10-16}}</ref> '']'' reported in 1954 that "the radio has only four transistors. One acts as a combination mixer-oscillator, one as an audio amplifier, and two as intermediate-frequency amplifiers."<ref>{{cite magazine|title=Regency markets pocket transistor radio|magazine=Billboard|date=October 30, 1954|url=https://books.google.com/books?id=nSEEAAAAMBAJ&pg=PA26}}</ref> One year after the release of the TR-1 sales approached the 100,000 mark. The look and size of the TR-1 were well received, but with only four transistors the sound quality was poor, and the reviews of the TR-1's performance were typically adverse.<ref name=lane94/>{{r|marsh20240930}} The Regency TR-1 was patented<ref>{{cite patent|country=US|number=2892931|pubdate=1959-06-30|title=Transistor radio apparatus|assign1=IDEA Inc.|inventor1-last=Koch|inventor1-first=Richard C.}}</ref> by Richard C. Koch, former Project Engineer of I.D.E.A.


=== Raytheon 8-TP-1 === === Raytheon 8-TP-1 ===
]
In February 1955, the second transistor radio, the 8-TP-1, was introduced by ]. It was a larger portable transistor radio, including an expansive four-inch speaker and four additional transistors (the TR-1 used only four). As a result, the sound quality was much better than the TR-1. An additional benefit of the 8-TP-1 was its efficient battery consumption. In July 1955, the first positive review of a transistor radio appeared in the '']'' that said, "The transistors in this set have not been used in an effort to build the smallest radio on the market, and good performance has not been sacrificed."


In February 1955, the second transistor radio, the 8-TP-1, was introduced by ]. It was larger than the TR-1, including a four-inch speaker and eight transistors, four more than the TR-1, so the sound quality was much better. An additional benefit of the 8-TP-1 was its efficient battery consumption; the 8-TP-1 cost 1/6 cent per hour to operate, while the TR-1 cost 40 times as much. While the Raytheon radio cost $30 more than the RCA 6-BX-63 tube radio, the latter used $38 of batteries over the same time that the 8-TP-1 used 60 cents. In July 1955 the first positive review of a transistor radio appeared in the '']''. Noting the 8-TP-1's high sound quality and very low battery cost, the magazine stated that "The transistors in this set have not been used in an effort to build the smallest radio on the market, and good performance has not been sacrificed".{{r|lane94}}
Following the success of the 8-TP-1, Zenith, RCA, DeWald, Westinghouse, and Crosley began flooding the market with additional transistor radio models.<ref name="lane94" />

Following the success of the 8-TP-1, Zenith, RCA, DeWald, Westinghouse, and Crosley produced many additional transistor radio models. The TR-1 remained the only shirt pocket-sized radio; rivals made "coat-pocket radios" that ''Consumer Reports'' also reviewed as not performing well.<ref name="lane94" />
] ]
]


=== Chrysler Mopar 914HR === === Chrysler Mopar 914HR ===
] ]
] and ] announced that they had developed and produced the world's first all-transistor car radio in the April 28th 1955 edition of the Wall Street Journal.<ref>Wall Street Journal, "Chrysler Promises Car Radio With Transistors Instead of Tubes in '56", April 28th 1955, page 1</ref> Chrysler made the all-transistor car radio, Mopar model 914HR, available as an "option" in fall 1955 for its new line of 1956 Chrysler and Imperial cars, which hit the showroom floor on October 21, 1955. The all-transistor car radio was a $150 option ({{Inflation|US|150|1955|r=-1|fmt=eq}}).<ref>{{cite web|last=Hirsh |first=Rick |url=http://www.allpar.com/stereo/Philco/index.html |title=Philco's All-Transistor Mopar Car Radio |publisher=Allpar.com |access-date=2015-02-18}}</ref><ref>{{Cite web|url=https://www.radiomuseum.org/r/philco_mopar_914_hr_ch_c_5690hr.html|title=Mopar 914-HR Ch= C-5690HR Car Radio Philco, Philadelphia|website=www.radiomuseum.org}}</ref><ref>{{Cite web|url=https://www.fcagroup.com/en-us/group/regions/pages/northamerica.aspx|title=North America &#124; FCA Group|website=www.fcagroup.com}}</ref><ref>Chrysler Imperial Owners Manual, 1956, Page 13</ref> ] and ] announced that they had developed and produced the world's first all-transistor car radio in the April 28th 1955 edition of the ''Wall Street Journal''.<ref>''Wall Street Journal'', "Chrysler Promises Car Radio With Transistors Instead of Tubes in '56", April 28th 1955, page 1</ref> Chrysler made the all-transistor car radio, Mopar model 914HR, available as an "option" in fall 1955 for its new line of 1956 Chrysler and Imperial cars, which hit the showroom floor on October 21, 1955. The all-transistor car radio was a $150 option ({{Inflation|US|150|1955|r=-1|fmt=eq}}).<ref>{{cite web|last=Hirsh |first=Rick |url=http://www.allpar.com/stereo/Philco/index.html |title=Philco's All-Transistor Mopar Car Radio |publisher=Allpar.com |access-date=2015-02-18}}</ref><ref>{{Cite web|url=https://www.radiomuseum.org/r/philco_mopar_914_hr_ch_c_5690hr.html|title=Mopar 914-HR Ch= C-5690HR Car Radio Philco, Philadelphia|website=www.radiomuseum.org}}</ref><ref>{{Cite web|url=https://www.fcagroup.com/en-us/group/regions/pages/northamerica.aspx|title=North America &#124; FCA Group|website=www.fcagroup.com}}</ref><ref>Chrysler Imperial Owners Manual, 1956, Page 13</ref>


==Japanese transistor radios== ==Japanese transistor radios==
] ]
While on a trip to the United States in 1952, ], founder of Tokyo Telecommunications Engineering Corporation (now ]), discovered that AT&T was about to make licensing available for the transistor. Ibuka and his partner, physicist ], convinced the Japanese Ministry of International Trade and Industry (MITI) to finance the $25,000 licensing fee (equivalent to ${{formatnum:{{Inflation|US|25000|1952}}}} today).<ref name="Sony.net">{{cite web|title=Sony History. Chapter4: Ibuka's First Visit to the United States|url=https://www.sony.net/SonyInfo/CorporateInfo/History/SonyHistory/1-04.html|website=Sony.net|publisher=]|access-date=16 September 2017}}</ref> For several months Ibuka traveled around the United States borrowing ideas from the American transistor manufacturers. Improving upon the ideas, Tokyo Telecommunications Engineering Corporation made its first functional transistor radio in 1954.<ref name="lane94" /> Within five years, Tokyo Telecommunications Engineering Corporation grew from seven employees to approximately five hundred.{{cn|date=October 2020}} While on a trip to the United States in 1952, ], founder of Tokyo Telecommunications Engineering Corporation (now ]), discovered that AT&T was about to make licensing available for the transistor. Ibuka and his partner, physicist ], convinced the Japanese Ministry of International Trade and Industry (MITI) to finance the $25,000 licensing fee (equivalent to ${{formatnum:{{Inflation|US|25000|1952}}}} today).<ref name="Sony.net">{{cite web|title=Sony History. Chapter4: Ibuka's First Visit to the United States|url=https://www.sony.net/SonyInfo/CorporateInfo/History/SonyHistory/1-04.html|website=Sony.net|publisher=]|access-date=16 September 2017}}</ref> For several months Ibuka traveled around the United States borrowing ideas from the American transistor manufacturers. Improving upon the ideas, Tokyo Telecommunications Engineering Corporation made its first functional transistor radio in 1954.<ref name="lane94" /> Within five years, Tokyo Telecommunications Engineering Corporation grew from seven employees to approximately five hundred.{{citation needed|date=October 2020}}


Other Japanese companies soon followed their entry into the American market and the grand total of electronic products exported from Japan in 1958 increased 2.5 times in comparison to 1957.{{sfnp|Handy|Erbe|Blackham|Antonier|1993|pp=23–29}} Other Japanese companies soon followed their entry into the American market and the grand total of electronic products exported from Japan in 1958 increased 2.5 times in comparison to 1957.{{sfnp|Handy|Erbe|Blackham|Antonier|1993|pp=23–29}}


===Sony TR-55=== ===Sony TR-55===
In August 1955, while still a small company, Tokyo Telecommunications Engineering Corporation introduced their ] five-transistor radio under the new brand name ].<ref>{{cite book | title = SONY : the private life | author = John Nathan | publisher = Houghton Mifflin Company | year = 1999 | isbn = 0-395-89327-5 | url-access = registration | url = https://archive.org/details/sonyprivatelife00nath_0 }} page 35</ref><ref>{{cite web |url=https://www.pbs.org/transistor/background1/events/tradio.html |title=Transistor Radios |year=1999 |publisher=ScienCentral |access-date=2010-01-19}}</ref> With this radio, Sony became the first company to manufacture the transistors and other components they used to construct the radio. The TR-55 was also the first transistor radio to utilize all miniature components. It is estimated that only 5,000 to 10,000 units were produced.{{cn|date=October 2020}} In August 1955, while still a small company, Tokyo Telecommunications Engineering Corporation introduced their ] five-transistor radio under the new brand name ].<ref>{{cite book | title = SONY : the private life | author = John Nathan | publisher = Houghton Mifflin Company | year = 1999 | isbn = 0-395-89327-5 | url-access = registration | url = https://archive.org/details/sonyprivatelife00nath_0 }} page 35</ref><ref>{{cite web |url=https://www.pbs.org/transistor/background1/events/tradio.html |title=Transistor Radios |year=1999 |publisher=ScienCentral |access-date=2010-01-19}}</ref>{{r|marsh20240930}} With this radio, Sony became the first company to manufacture the transistors and other components they used to construct the radio. The TR-55 was also the first transistor radio to utilize all miniature components. It's estimated that only 5,000 to 10,000 units were produced.{{citation needed|date=October 2020}}
] ]


===Sony TR-63=== ===Sony TR-63===
The TR-63 was introduced by Sony to the United States in December 1957. The TR-63 was {{cvt|1/4|in|mm|0|disp=flip}} narrower and {{cvt|1/2|in|mm|0|disp=flip}} shorter than the original Regency TR-1. Like the TR-1 it was offered in four colors: lemon, green, red, and black. In addition to its smaller size, the TR-63 had a small tuning capacitor and required a new battery design to produce the proper voltage. It used the ], which would become the standard for transistor radios. Approximately 100,000 units of the TR-63 were imported in 1957.<ref name="lane94" /> This "pocketable" (the term "pocketable" was a matter of some interpretation, as Sony allegedly had special shirts made with oversized pockets for their salesmen) model proved highly successful.<ref>{{Cite web|url=http://www.sony.net/Fun/SH/1-6/h2.html |title=Sony Global – Sony History |access-date=2008-09-01 |url-status=dead |archive-url=https://web.archive.org/web/20080820025319/http://www.sony.net/Fun/SH/1-6/h2.html |archive-date=August 20, 2008 }}</ref> The TR-63 was introduced by Sony to the United States in December 1957. The TR-63 was {{cvt|1/4|in|mm|0|disp=flip}} narrower and {{cvt|1/2|in|mm|0|disp=flip}} shorter than the original Regency TR-1. Like the TR-1 it was offered in four colors: lemon, green, red, and black. In addition to its smaller size, the TR-63 had a small tuning capacitor and required a new battery design to produce the proper voltage. It used the ], which would become the standard for transistor radios. Approximately 100,000 units of the TR-63 were imported in 1957.<ref name="lane94" /> This "pocketable" (the term "pocketable" was a matter of some interpretation, as Sony allegedly had special shirts made with oversized pockets for their salesmen) model proved highly successful. This should be treated with caution. A restored Sony TR63 readily fits a common shirt pocket.<ref>{{Cite web|url=http://www.sony.net/Fun/SH/1-6/h2.html |title=Sony Global – Sony History |access-date=2008-09-01 |url-status=dead |archive-url=https://web.archive.org/web/20080820025319/http://www.sony.net/Fun/SH/1-6/h2.html |archive-date=August 20, 2008 }}</ref>


The TR-63 was the first transistor radio to sell in the millions, leading to the mass-market penetration of transistor radios.<ref name="Skrabec">{{cite book | last1 = Skrabec | first1 = Quentin R. Jr. | title = The 100 Most Significant Events in American Business: An Encyclopedia | publisher = ABC-CLIO | date = 2012 | pages = 195–7 | url = https://books.google.com/books?id=2kc69qrid9oC&pg=PA195 | isbn = 978-0313398636 }}</ref> The TR-63 went on to sell seven million units worldwide by the mid-1960s.<ref>{{cite news |last1=Snook |first1=Chris J. |title=The 7 Step Formula Sony Used to Get Back On Top After a Lost Decade |url=https://www.inc.com/chris-j-snook/sonys-7-step-formula-for-entrepreneurial-success-business-longevity.html |work=] |date=29 November 2017}}</ref> With the visible success of the TR-63, Japanese competitors such as ] and ] joined the market. By 1959, in the United States market, there were more than six million transistor radio sets produced by Japanese companies that represented $62&nbsp;million in revenue.<ref name="lane94" /> The TR-63 was the first transistor radio to sell in the millions, leading to the mass-market penetration of transistor radios.<ref name="Skrabec">{{cite book | last1 = Skrabec | first1 = Quentin R. Jr. | title = The 100 Most Significant Events in American Business: An Encyclopedia | publisher = ABC-CLIO | date = 2012 | pages = 195–7 | url = https://books.google.com/books?id=2kc69qrid9oC&pg=PA195 | isbn = 978-0313398636 }}</ref> The TR-63 went on to sell seven million units worldwide by the mid-1960s.<ref>{{cite news |last1=Snook |first1=Chris J. |title=The 7 Step Formula Sony Used to Get Back On Top After a Lost Decade |url=https://www.inc.com/chris-j-snook/sonys-7-step-formula-for-entrepreneurial-success-business-longevity.html |work=] |date=29 November 2017}}</ref> With the visible success of the TR-63, Japanese competitors such as ] and ] joined the market. By 1959, in the United States market, there were more than six million transistor radio sets produced by Japanese companies that represented $62&nbsp;million in revenue.<ref name="lane94" />
Line 52: Line 53:


== Pricing == == Pricing ==
Prior to the Regency TR-1, transistors were difficult to produce. Only one in five transistors that were produced worked as expected (only a 20% yield) and as a result the price remained extremely high.<ref name=lane94/> When it was released in 1954, the Regency TR-1 cost $49.95 (equivalent to ${{formatnum:{{Inflation|US|50|1954}}}} today) and sold about 150,000 units. Raytheon and Zenith Electronics transistor radios soon followed and were priced even higher. In 1955, Raytheon's 8-TR-1 was priced at $80 (equivalent to ${{formatnum:{{Inflation|US|80|1955}}}} today).<ref name=lane94/> By November 1956 a transistor radio small enough to wear on the wrist and a claimed battery life of 100 hours cost $29.95.<ref name="galaxy195611">{{cite news | url=https://archive.org/stream/galaxymagazine-1956-11/Galaxy_1956_11#page/n1/mode/2up | title=Broadcast Band – All Transistor Wrist Radio | work=Galaxy | date=November 1956 | access-date=18 December 2013 | pages=1 | type=advertisement}}</ref> Prior to the Regency TR-1, transistors were difficult to produce. Only one in five transistors that were produced worked as expected (only a 20% yield) and as a result the price remained extremely high. When it was released in 1954, the Regency TR-1 cost $49.95 (equivalent to ${{formatnum:{{Inflation|US|50|1954}}}} today) and sold about 150,000 units. Raytheon and Zenith Electronics transistor radios soon followed and were priced even higher. In 1955, Raytheon's 8-TR-1 was priced at $80 (equivalent to ${{formatnum:{{Inflation|US|80|1955}}}} today).<ref name=lane94/> By November 1956 a transistor radio small enough to wear on the wrist and a claimed battery life of 100 hours cost $29.95.<ref name="galaxy195611">{{cite news | url=https://archive.org/stream/galaxymagazine-1956-11/Galaxy_1956_11#page/n1/mode/2up | title=Broadcast Band – All Transistor Wrist Radio | work=Galaxy | date=November 1956 | access-date=18 December 2013 | pages=1 | type=advertisement}}</ref>


Sony's TR-63, released in December 1957, cost $39.95 (equivalent to ${{formatnum:{{Inflation|US|40|1957}}}} today).<ref name=lane94/> Following the success of the TR-63 Sony continued to make their transistor radios smaller. Because of the extremely low labor costs in Japan, Japanese transistor radios began selling for as low as $25.<ref name=lane94/> By 1962, the TR-63 cost as low as $15 (equivalent to ${{formatnum:{{Inflation|US|15|1962}}}} today),<ref name="Skrabec"/> which led to American manufacturers dropping prices of transistor radios down to $15 as well.<ref name=lane94/> Sony's TR-63, released in December 1957, cost $39.95 (equivalent to ${{formatnum:{{Inflation|US|40|1957}}}} today). Following the success of the TR-63 Sony continued to make their transistor radios smaller. Because of the extremely low labor costs in Japan, Japanese transistor radios began selling for as low as $25. By 1962, the TR-63 cost as low as $15 (equivalent to ${{formatnum:{{Inflation|US|15|1962}}}} today),<ref name="Skrabec"/> which led to American manufacturers dropping prices of transistor radios down to $15 as well.<ref name=lane94/>


==In popular culture== ==In popular culture==
] ]

] music became popular at the same time as transistor radios. Parents found that purchasing a small transistor radio was a way for children to listen to their music without using the family tube radio. Sony and other Japanese companies were much faster than Americans to focus on stylish, pocket-sized radios for the youth market, helping them to dominate the radio market. American companies began using lower-cost Japanese components but their radios were less attractive or sophisticated. By 1964 no transistor radio with only US components was available; by the mid-1960s the Japanese radio components had also been supplanted by even less-expensive manufacturing in Korea, Taiwan, and Hong Kong. The Zenith Trans-Oceanic 7000 was, until 1970, the last transistor radio manufactured in the US.{{r|lane94}}

Transistor radios were extremely successful because of three social forces—a large number of young people due to the ], a public with disposable income amidst a period of prosperity, and the growing popularity of rock 'n' roll music. The influence of the transistor radio during this period is shown by its appearance in popular films, songs, and books of the time, such as the movie '']''. Transistor radios were extremely successful because of three social forces—a large number of young people due to the ], a public with disposable income amidst a period of prosperity, and the growing popularity of rock 'n' roll music. The influence of the transistor radio during this period is shown by its appearance in popular films, songs, and books of the time, such as the movie '']''.

Inexpensive transistor radios running on batteries enabled many in impoverished rural areas to become regular radio listeners for the first time. Music broadcast from New Orleans and received in Jamaica through transistor radios inspired the development of ska, and less directly, reggae music.


In the late 1950s, transistor radios took on more elaborate designs as a result of heated competition. Eventually, transistor radios doubled as novelty items. The small components of transistor radios that became smaller over time were used to make anything from "] Peanut-shaped" radios to "Gun-shaped" radios to "] Eggship-shaped" radios. Corporations used transistor radios to advertise their business. "]-shaped" radios could be purchased from Star-Kist for an insignificant amount of money giving their company visibility amongst the public. These novelty radios are now bought and sold as collectors' items amongst modern-day collectors.{{sfnp|Handy|Erbe|Blackham|Antonier|1993|pp=46–51}}<ref>{{cite magazine|title=N.A.|magazine=Antique Radio Classified|publisher=John V. Terrey|date=June 2002|page=10}}</ref><ref>{{cite magazine|title=N.A.|magazine=Antique Radio Classified|publisher=John V. Terrey|date=March 2008|page=6}}</ref> In the late 1950s, transistor radios took on more elaborate designs as a result of heated competition. Eventually, transistor radios doubled as novelty items. The small components of transistor radios that became smaller over time were used to make anything from "] Peanut-shaped" radios to "Gun-shaped" radios to "] Eggship-shaped" radios. Corporations used transistor radios to advertise their business. "]-shaped" radios could be purchased from Star-Kist for an insignificant amount of money giving their company visibility amongst the public. These novelty radios are now bought and sold as collectors' items amongst modern-day collectors.{{sfnp|Handy|Erbe|Blackham|Antonier|1993|pp=46–51}}<ref>{{cite magazine|title=N.A.|magazine=Antique Radio Classified|publisher=John V. Terrey|date=June 2002|page=10}}</ref><ref>{{cite magazine|title=N.A.|magazine=Antique Radio Classified|publisher=John V. Terrey|date=March 2008|page=6}}</ref>
Line 83: Line 89:


== External links == == External links ==
*'''{{Commonscat-inline|Transistor radios}}''' *'''{{Commons category-inline|Transistor radios}}'''
* http://www.jamesbutters.com/ Focusing on the history and design elements of early pocket transistor radios. * http://www.jamesbutters.com/ Focusing on the history and design elements of early pocket transistor radios.
* —hundreds of photos and detailed information on early transistor radios from the U.S., Japan, Western Europe, Eastern Europe, and the USSR. * —hundreds of photos and detailed information on early transistor radios from the U.S., Japan, Western Europe, Eastern Europe, and the USSR.
* Historical data accompanied by hundreds of images covering early transistor radios. * Historical data accompanied by hundreds of images covering early transistor radios.
* by Dr. Steven Reyer, a Professor in the Electrical Engineering and Computer Science Department at the ].Category: Transistor * by Dr. Steven Reyer, a professor in the Electrical Engineering and Computer Science Department at the ].Category: Transistor
* Web site with many historical references on the web and in published literature * Web site with many historical references on the web and in published literature
* . In-depth coverage of the Regency radio. * . In-depth coverage of the Regency radio.
Line 93: Line 99:
* ". * ".
* . * .



{{authority control}} {{authority control}}
Line 99: Line 104:
{{DEFAULTSORT:Transistor Radio}} {{DEFAULTSORT:Transistor Radio}}
] ]
] ]
] ]
] ]

Latest revision as of 21:11, 7 December 2024

Portable radio receiver This article is about an electronic device. For the album by M. Ward, see Transistor Radio (album). For the song by Benny Hill, see Transistor Radio (song).

A classic Emerson transistor radio, circa 1958

A transistor radio is a small portable radio receiver that uses transistor-based circuitry. Previous portable radios used vacuum tubes, which were bulky, fragile, had a limited lifetime, consumed excessive power and required large heavy batteries. Following the invention of the transistor in 1947—which revolutionized the field of consumer electronics by introducing small but powerful, convenient hand-held devices—the Regency TR-1 was released in 1954 becoming the first commercial transistor radio. The mass-market success of the smaller and cheaper Sony TR-63, released in 1957, led to the transistor radio becoming the most popular electronic communication device of the 1960s and 1970s. Transistor radios are still commonly used as car radios. Billions of transistor radios are estimated to have been sold worldwide between the 1950s and 2012.

The pocket size of transistor radios sparked a change in popular music listening habits, allowing people to listen to music anywhere they went. Beginning around 1980, however, cheap AM transistor radios were superseded initially by the boombox and the Sony Walkman, and later on by digitally-based devices with higher audio quality such as portable CD players, personal audio players, MP3 players and (eventually) by smartphones, many of which contain FM radios. A transistor is a semiconductor device that amplifies and acts as an electronic switch.

Background

A seven-transistor Soviet Orljonok radio with the back open, showing parts.

Before the transistor was invented, radios used vacuum tubes. Although portable vacuum tube radios were produced, they were typically bulky and heavy. The need for a low voltage high current source to power the filaments of the tubes and high voltage for the anode potential typically required two batteries. Vacuum tubes were also inefficient and fragile compared to transistors and had a limited lifetime.

Bell Laboratories demonstrated the first transistor on December 23, 1947. The scientific team at Bell Laboratories responsible for the solid-state amplifier included William Shockley, Walter Houser Brattain, and John Bardeen After obtaining patent protection, the company held a news conference on June 30, 1948, at which a prototype transistor radio was demonstrated.

There are many claimants to the title of the first company to produce practical transistor radios, often incorrectly attributed to Sony (originally Tokyo Telecommunications Engineering Corporation). Texas Instruments had demonstrated all-transistor AM (amplitude modulation) radios as early as May 25, 1954, but their performance was well below that of equivalent vacuum tube models. A workable all-transistor radio was demonstrated in August 1953 at the Düsseldorf Radio Fair by the German firm Intermetall. It was built with four of Intermetall's hand-made transistors, based upon the 1948 invention of the "Transistor"-germanium point-contact transistor by Herbert Mataré and Heinrich Welker. However, as with the early Texas Instruments units (and others) only prototypes were ever built; it was never put into commercial production. RCA had demonstrated a prototype transistor radio as early as 1952, and it is likely that they and the other radio makers were planning transistor radios of their own, but Texas Instruments and Regency Division of I.D.E.A., were the first to offer a production model starting in October 1954.

Sanyo 8S-P3 transistor radio, which received AM and shortwave bands.

The use of transistors instead of vacuum tubes as the amplifier elements meant that the device was much smaller, required far less power to operate than a tube radio, and was more resistant to physical shock. Since the transistor's base element draws current, its input impedance is low in contrast to the high input impedance of the vacuum tubes. It also allowed "instant-on" operation, since there were no filaments to heat up. The typical portable tube radio of the fifties was about the size and weight of a lunchbox and contained several heavy, non-rechargeable batteries—one or more so-called "A" batteries to heat the tube filaments and a large 45- to 90-volt "B" battery to power the signal circuits. By comparison, the transistor radio could fit in a pocket and weighed half a pound or less, and was powered by standard flashlight batteries or a single compact battery. The 9-volt battery was introduced for powering transistor radios.

Early commercial transistor radios

Regency TR-1

Regency TR-1.

Two companies working together, Texas Instruments of Dallas, and Industrial Development Engineering Associates (I.D.E.A.) of Indianapolis, Indiana, were behind the unveiling of the Regency TR-1, the world's first commercially produced transistor radio. Previously, Texas Instruments was producing instrumentation for the oil industry and locating devices for the U.S. Navy and I.D.E.A. built home television antenna boosters. The two companies worked together on the TR-1, looking to grow revenues for their respective companies by breaking into this new product area. In May 1954, Texas Instruments had designed and built a prototype and was looking for an established radio manufacturer to develop and market a radio using their transistors. The Chief Project Engineer for the radio design at Texas Instruments' headquarters in Dallas, Texas was Paul D. Davis Jr., who had a degree in Electrical Engineering from Southern Methodist University. He was assigned the project due to his experience with radio engineering in World War II. None of the major radio makers including RCA, GE, Philco, and Emerson were interested. The President of I.D.E.A. at the time, Ed Tudor, jumped at the opportunity to manufacture the TR-1, predicting sales of the transistor radios at "20 million radios in three years". The Regency TR-1 was announced on October 18, 1954, by the Regency Division of I.D.E.A., was put on sale in November 1954 and was the first practical transistor radio made in any significant numbers. Billboard reported in 1954 that "the radio has only four transistors. One acts as a combination mixer-oscillator, one as an audio amplifier, and two as intermediate-frequency amplifiers." One year after the release of the TR-1 sales approached the 100,000 mark. The look and size of the TR-1 were well received, but with only four transistors the sound quality was poor, and the reviews of the TR-1's performance were typically adverse. The Regency TR-1 was patented by Richard C. Koch, former Project Engineer of I.D.E.A.

Raytheon 8-TP-1

Westinghouse Model H-842P6 (c. 1962)

In February 1955, the second transistor radio, the 8-TP-1, was introduced by Raytheon. It was larger than the TR-1, including a four-inch speaker and eight transistors, four more than the TR-1, so the sound quality was much better. An additional benefit of the 8-TP-1 was its efficient battery consumption; the 8-TP-1 cost 1/6 cent per hour to operate, while the TR-1 cost 40 times as much. While the Raytheon radio cost $30 more than the RCA 6-BX-63 tube radio, the latter used $38 of batteries over the same time that the 8-TP-1 used 60 cents. In July 1955 the first positive review of a transistor radio appeared in the Consumer Reports. Noting the 8-TP-1's high sound quality and very low battery cost, the magazine stated that "The transistors in this set have not been used in an effort to build the smallest radio on the market, and good performance has not been sacrificed".

Following the success of the 8-TP-1, Zenith, RCA, DeWald, Westinghouse, and Crosley produced many additional transistor radio models. The TR-1 remained the only shirt pocket-sized radio; rivals made "coat-pocket radios" that Consumer Reports also reviewed as not performing well.

Westinghouse transistor radio, Model H841P6 (c. 1963)

Chrysler Mopar 914HR

1955 Chrysler – Philco all transistor car radio – "Breaking News" radio broadcast announcement.

Chrysler and Philco announced that they had developed and produced the world's first all-transistor car radio in the April 28th 1955 edition of the Wall Street Journal. Chrysler made the all-transistor car radio, Mopar model 914HR, available as an "option" in fall 1955 for its new line of 1956 Chrysler and Imperial cars, which hit the showroom floor on October 21, 1955. The all-transistor car radio was a $150 option (equivalent to $1,710 in 2023).

Japanese transistor radios

The circuit of a Japanese 5 transistor radio.

While on a trip to the United States in 1952, Masaru Ibuka, founder of Tokyo Telecommunications Engineering Corporation (now Sony), discovered that AT&T was about to make licensing available for the transistor. Ibuka and his partner, physicist Akio Morita, convinced the Japanese Ministry of International Trade and Industry (MITI) to finance the $25,000 licensing fee (equivalent to $286,842 today). For several months Ibuka traveled around the United States borrowing ideas from the American transistor manufacturers. Improving upon the ideas, Tokyo Telecommunications Engineering Corporation made its first functional transistor radio in 1954. Within five years, Tokyo Telecommunications Engineering Corporation grew from seven employees to approximately five hundred.

Other Japanese companies soon followed their entry into the American market and the grand total of electronic products exported from Japan in 1958 increased 2.5 times in comparison to 1957.

Sony TR-55

In August 1955, while still a small company, Tokyo Telecommunications Engineering Corporation introduced their TR-55 five-transistor radio under the new brand name Sony. With this radio, Sony became the first company to manufacture the transistors and other components they used to construct the radio. The TR-55 was also the first transistor radio to utilize all miniature components. It's estimated that only 5,000 to 10,000 units were produced.

Advertising for TR-63

Sony TR-63

The TR-63 was introduced by Sony to the United States in December 1957. The TR-63 was 6 mm (1⁄4 in) narrower and 13 mm (1⁄2 in) shorter than the original Regency TR-1. Like the TR-1 it was offered in four colors: lemon, green, red, and black. In addition to its smaller size, the TR-63 had a small tuning capacitor and required a new battery design to produce the proper voltage. It used the nine-volt battery, which would become the standard for transistor radios. Approximately 100,000 units of the TR-63 were imported in 1957. This "pocketable" (the term "pocketable" was a matter of some interpretation, as Sony allegedly had special shirts made with oversized pockets for their salesmen) model proved highly successful. This should be treated with caution. A restored Sony TR63 readily fits a common shirt pocket.

The TR-63 was the first transistor radio to sell in the millions, leading to the mass-market penetration of transistor radios. The TR-63 went on to sell seven million units worldwide by the mid-1960s. With the visible success of the TR-63, Japanese competitors such as Toshiba and Sharp Corporation joined the market. By 1959, in the United States market, there were more than six million transistor radio sets produced by Japanese companies that represented $62 million in revenue.

The success of transistor radios led to transistors replacing vacuum tubes as the dominant electronic technology in the late 1950s. The transistor radio went on to become the most popular electronic communication device of the 1960s and 1970s. Billions of transistor radios are estimated to have been sold worldwide between the 1950s and 2012.

Pricing

Prior to the Regency TR-1, transistors were difficult to produce. Only one in five transistors that were produced worked as expected (only a 20% yield) and as a result the price remained extremely high. When it was released in 1954, the Regency TR-1 cost $49.95 (equivalent to $567 today) and sold about 150,000 units. Raytheon and Zenith Electronics transistor radios soon followed and were priced even higher. In 1955, Raytheon's 8-TR-1 was priced at $80 (equivalent to $910 today). By November 1956 a transistor radio small enough to wear on the wrist and a claimed battery life of 100 hours cost $29.95.

Sony's TR-63, released in December 1957, cost $39.95 (equivalent to $434 today). Following the success of the TR-63 Sony continued to make their transistor radios smaller. Because of the extremely low labor costs in Japan, Japanese transistor radios began selling for as low as $25. By 1962, the TR-63 cost as low as $15 (equivalent to $151 today), which led to American manufacturers dropping prices of transistor radios down to $15 as well.

In popular culture

An early 2000s transistor radio (Sony Walkman SRF-S84 transistor radio, released 2001, shown without earphones)

Rock 'n roll music became popular at the same time as transistor radios. Parents found that purchasing a small transistor radio was a way for children to listen to their music without using the family tube radio. Sony and other Japanese companies were much faster than Americans to focus on stylish, pocket-sized radios for the youth market, helping them to dominate the radio market. American companies began using lower-cost Japanese components but their radios were less attractive or sophisticated. By 1964 no transistor radio with only US components was available; by the mid-1960s the Japanese radio components had also been supplanted by even less-expensive manufacturing in Korea, Taiwan, and Hong Kong. The Zenith Trans-Oceanic 7000 was, until 1970, the last transistor radio manufactured in the US.

Transistor radios were extremely successful because of three social forces—a large number of young people due to the post–World War II baby boom, a public with disposable income amidst a period of prosperity, and the growing popularity of rock 'n' roll music. The influence of the transistor radio during this period is shown by its appearance in popular films, songs, and books of the time, such as the movie Lolita.

Inexpensive transistor radios running on batteries enabled many in impoverished rural areas to become regular radio listeners for the first time. Music broadcast from New Orleans and received in Jamaica through transistor radios inspired the development of ska, and less directly, reggae music.

In the late 1950s, transistor radios took on more elaborate designs as a result of heated competition. Eventually, transistor radios doubled as novelty items. The small components of transistor radios that became smaller over time were used to make anything from "Jimmy Carter Peanut-shaped" radios to "Gun-shaped" radios to "Mork from Ork Eggship-shaped" radios. Corporations used transistor radios to advertise their business. "Charlie the Tuna-shaped" radios could be purchased from Star-Kist for an insignificant amount of money giving their company visibility amongst the public. These novelty radios are now bought and sold as collectors' items amongst modern-day collectors.

Rise of portable audio players

Since the 1980s, the popularity of radio-only portable devices declined with the rise of portable audio players which allowed users to carry and listen to tape-recorded music. This began in the late 1970s with boom boxes and portable cassette players such as the Sony Walkman, followed by portable CD players, digital audio players, and smartphones.

See also

References

  1. Petraglia, Dave (5 March 2014). "Why You Owe Your Smartphone To The Transistor Radio". Thought Catalog.
  2. Bray, Hiawatha (6 November 2014). "Is Your Smartphone Ready for Radio?". The Boston Globe.
  3. Arns, R.G. (October 1998). "The other transistor: early history of the metal–oxide–semiconductor field-effect transistor" (PDF). Engineering Science and Education Journal. 7 (5): 233–240. doi:10.1049/esej:19980509 (inactive 7 December 2024). Retrieved 13 April 2021.{{cite journal}}: CS1 maint: DOI inactive as of December 2024 (link)
  4. Handy et al. (1993), p. 13.
  5. ^ "The Revolution in Your Pocket". Archived from the original on 20 August 2006. Retrieved 20 April 2010.
  6. Invention and Technology Magazine, Fall 2004, Volume 20 Issue 2, "The Revolution in your Pocket", Author: Robert J. Simcoe
  7. Book Title: TI, the Transistor, and Me, Author: Ed Millis, page 34
  8. Article: "The French Transistor", Author: Armand Van Dormael, page 15, Source: IEEE Global History Network
  9. website: www.regencytr1.com, Regency TR-1 Transistor Radio History
  10. Donald L. Stoner & L.A. Earnshaw (1963). The Transistor Radio Handbook: Theory, Circuitry, and Equipment. Editors and Engineers, Ltd. page 32
  11. ^ Marsh, Allison (30 September 2024). "The First Transistor Radio: Engineering the Regency TR-1". IEEE Spectrum. Retrieved 5 October 2024.
  12. ^ David Lane & Robert Lane (1994). Transistor Radios: A Collector's Encyclopedia and Price Guide. Wallace-Homestead Book Company. pp. 2–7. ISBN 0-87069-712-9.
  13. Deffree, Suzanne (17 October 2017). "TI announces 1st transistor radio, October 18, 1954". EDN. Retrieved 16 October 2018.
  14. "Regency markets pocket transistor radio". Billboard. 30 October 1954.
  15. US 2892931, Koch, Richard C., "Transistor radio apparatus", published 1959-06-30, assigned to IDEA Inc. 
  16. Wall Street Journal, "Chrysler Promises Car Radio With Transistors Instead of Tubes in '56", April 28th 1955, page 1
  17. Hirsh, Rick. "Philco's All-Transistor Mopar Car Radio". Allpar.com. Retrieved 18 February 2015.
  18. "Mopar 914-HR Ch= C-5690HR Car Radio Philco, Philadelphia". www.radiomuseum.org.
  19. "North America | FCA Group". www.fcagroup.com.
  20. Chrysler Imperial Owners Manual, 1956, Page 13
  21. "Sony History. Chapter4: Ibuka's First Visit to the United States". Sony.net. Sony. Retrieved 16 September 2017.
  22. Handy et al. (1993), pp. 23–29.
  23. John Nathan (1999). SONY : the private life. Houghton Mifflin Company. ISBN 0-395-89327-5. page 35
  24. "Transistor Radios". ScienCentral. 1999. Retrieved 19 January 2010.
  25. "Sony Global – Sony History". Archived from the original on 20 August 2008. Retrieved 1 September 2008.
  26. ^ Skrabec, Quentin R. Jr. (2012). The 100 Most Significant Events in American Business: An Encyclopedia. ABC-CLIO. pp. 195–7. ISBN 978-0313398636.
  27. Snook, Chris J. (29 November 2017). "The 7 Step Formula Sony Used to Get Back On Top After a Lost Decade". Inc.
  28. Kozinsky, Sieva (8 January 2014). "Education and the Innovator's Dilemma". Wired. Retrieved 14 October 2019.
  29. "Broadcast Band – All Transistor Wrist Radio". Galaxy (advertisement). November 1956. p. 1. Retrieved 18 December 2013.
  30. Handy et al. (1993), pp. 46–51.
  31. "N.A.". Antique Radio Classified. John V. Terrey. June 2002. p. 10.
  32. "N.A.". Antique Radio Classified. John V. Terrey. March 2008. p. 6.
  • Handy; Erbe; Blackham; Antonier (1993). Made in Japan: Transistor Radios of the 1950s and 1960s. Chronicle Books. ISBN 0-8118-0271-X.

Further reading

  • Michael F. Wolff: "The secret six-month project. Why Texas Instruments decided to put the first transistor radio on the market by Christmas 1954 and how it was accomplished." IEEE Spectrum, December 1985, pages 64–69
  • Transistor Radios: 1954–1968 (Schiffer Book for Collectors) by Norman R. Smith
  • Unique books on Transistor Radios by Eric Wrobbel
  • The Portable Radio in American Life by University of Arizona professor Michael Brian Schiffer, Ph.D. (The University of Arizona Press, 1991).
  • Restoring Pocket Radios (DVD) by Ron Mansfield and Eric Wrobbel. (ChildhoodRadios.com, 2002).
  • The Regency TR-1 story, based on an interview with Regency co-founder, John Pies (partner with Joe Weaver) "Regency's Development of the TR-1 Transistor Radio" website
  • Bryant & Cones (1995). The Zenith Transoceanic The Royalty of Radios. Schiffer Book for Collectors. Schiffer. pp. 110–120. ISBN 0-88740-708-0.

External links

Categories: