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History of TechnologyOctober 2024MagazineArticlePast ForwardConsumer
Electronics

The Incredible Story Behind the First Transistor Radio

The Regency TR-1 helped Texas Instruments launch its semiconductor
business

Allison Marsh
30 Sep 2024
7 min read

Allison Marsh is a professor at the University of South Carolina and
codirector of the university's Ann Johnson Institute for Science,
Technology & Society.

Photo of a rectangular red radio with a gold dial and a grid of holes
on the front.

The Regency TR-1 transistor radio ignited a passion for portable
gadgets that continues to this day.

Division of Work and Industry/National Museum of American History/
Smithsonian Institution

Imagine if your boss called a meeting in May to announce that he's
committing 10 percent of the company's revenue to the development of
a brand-new mass-market consumer product, made with a
not-yet-ready-for-mass-production component. Oh, and he wants it on
store shelves in less than six months, in time for the holiday
shopping season. Ambitious, yes. Kind of nuts, also yes.

But that's pretty much what Pat Haggerty, vice president of Texas
Instruments, did in 1954. The result was the Regency TR-1, the
world's first commercial transistor radio, which debuted 70 years ago
this month. The engineers delivered on Haggerty's audacious goal, and
I certainly hope they received a substantial year-end bonus.

Why did Texas Instruments make the Regency TR-1 transistor radio?

But how did Texas Instruments come to make a transistor radio in the
first place? TI traces its roots to a company called Geophysical
Service Inc. (GSI), which made seismic instrumentation for the oil
industry as well as electronics for the military. In 1945, GSI hired
Patrick E. Haggerty as the general manager of its laboratory and
manufacturing division and its electronics work. By 1951, Haggerty's
division was significantly outpacing GSI's geophysical division, and
so the Dallas-based company reorganized as Texas Instruments to focus
on electronics.

Meanwhile, on 30 June 1948, Bell Labs announced John Bardeen and
Walter Brattain's game-changing invention of the transistor. No
longer would electronics be dependent on large, hot vacuum tubes. The
U.S. government chose not to classify the technology because of its
potentially broad applications. In 1951, Bell Labs began licensing
the transistor for US $25,000 through the Western Electric Co.;
Haggerty bought a license for TI the following year.

The engineers delivered on Haggerty's audacious goal, and I certainly
hope they received a substantial year-end bonus.

TI was still a small company, with not much in the way of R&D
capacity. But Haggerty and the other founders wanted it to become a
big and profitable company. And so they established research labs to
focus on semiconductor materials and a project-engineering group to
develop marketable products.

Black and white photo of a gloved hand holding a small rectangular
radio with a round dial.The TR-1 was the first transistor radio, and
it ignited a desire for portable gadgets that continues to this day.
Bettmann/Getty Images

Haggerty made a good investment when he hired Gordon Teal, a 22-year
veteran of Bell Labs. Although Teal wasn't part of the team that
invented the germanium transistor, he recognized that it could be
improved by using a single grown crystal, such as silicon. Haggerty
was familiar with Teal's work from a 1951 Bell Labs symposium on
transistor technology. Teal happened to be homesick for his native
Texas, so when TI advertised for a research director in the New York
Times, he applied, and Haggerty offered him the job of assistant vice
president instead. Teal started at TI on 1 January 1953.

Fifteen months later, Teal gave Haggerty a demonstration of the first
silicon transistor, and he presented his findings three and a half
weeks later at the Institute of Radio Engineers' National Conference
on Airborne Electronics, in Dayton, Ohio. His innocuously titled
paper, "Some Recent Developments in Silicon and Germanium Materials
and Devices," completely understated the magnitude of the
announcement. The audience was astounded to hear that TI had not just
one but three types of silicon transistors already in production, as
Michael Riordan recounts in his excellent article "The Lost History
of the Transistor" (IEEE Spectrum, October 2004).

And fun fact: The TR-1 shown at top once belonged to Willis Adcock, a
physical chemist hired by Teal to perfect TI's silicon transistors as
well as transistors for the TR-1. (The radio is now in the
collections of the Smithsonian's National Museum of American History
.)

The TR-1 became a product in less than six months

This advancement in silicon put TI on the map as a major player in
the transistor industry, but Haggerty was impatient. He wanted a
transistorized commercial product now, even if that meant using
germanium transistors. On 21 May 1954, Haggerty challenged a research
group at TI to have a working prototype of a transistor radio by the
following week; four days later, the team came through, with a
breadboard containing eight transistors. Haggerty decided that was
good enough to commit $2 million--just under 10 percent of TI's
revenue--to commercializing the radio.

Of course, a working prototype is not the same as a mass-production
product, and Haggerty knew TI needed a partner to help manufacture
the radio. That partner turned out to be Industrial Development
Engineering Associates (IDEA), a small company out of Indianapolis
that specialized in antenna boosters and other electronic goods. They
signed an agreement in June 1954 with the goal of announcing the new
radio in October. TI would provide the components, and IDEA would
manufacture the radio under its Regency brand.

Germanium transistors at the time cost $10 to $15 apiece. With eight
transistors, the radio was too expensive to be marketed at the
desired price point of $50 (more than $580 today, which is
coincidentally about what it'll cost you to buy one in good condition
on eBay). Vacuum-tube radios were selling for less, but TI and IDEA
figured early adopters would pay that much to try out a new
technology. Part of Haggerty's strategy was to increase the volume of
transistor production to eventually lower the per-transistor cost,
which he managed to push down to about $2.50.

By the time TI met with IDEA, the breadboard was down to six
transistors. It was IDEA's challenge to figure out how to make the
transistorized radio at a profit. According to an oral history with
Richard Koch, IDEA's chief engineer on the project, TI's real goal
was to make transistors, and the radio was simply the gimmick to get
there. In fact, part of the TI-IDEA agreement was that any patents
that came out of the project would be in the public domain so that TI
was free to sell more transistors to other buyers.

At the initial meeting, Koch, who had never seen a transistor before
in real life, suggested substituting a germanium diode for the
detector (which extracted the audio signal from the desired radio
frequency), bringing the transistor count down to five. After
thinking about the configuration a bit more, Koch eliminated another
transistor by using a single transistor for the oscillator/mixer
circuit.

Photo of the inside of a small rectangular gadget, showing electronic
components and a battery. TI's original prototype used eight
germanium transistors, which engineers reduced to six and,
ultimately, four for the production model.Division of Work and
Industry/National Museum of American History/Smithsonian Institution

The final design was four transistors set in a superheterodyne design
, a type of receiver that combines two frequencies to produce an
intermediate frequency that can be easily amplified, thereby boosting
a weak signal and decreasing the required antenna size. The TR-1 had
two transistors as intermediate-frequency amplifiers and one as an
audio amplifier, plus the oscillator/mixer. Koch applied for a patent
for the circuitry the following year.

The radio ran on a 22.5-volt battery, which offered a playing life of
20 to 30 hours and cost about $1.25. (Such batteries were also used
in the external power and electronics pack for hearing aids, the only
other consumer product to use transistors up until this point.)

While IDEA's team was working on the circuitry, they outsourced the
design of the TR-1's packaging to the Chicago firm of Painter,
Teague, and Petertil. Their first design didn't work because the
components didn't fit. Would their second design be better? As Koch
later recalled, IDEA's purchasing agent, Floyd Hayhurst, picked up
the molding dies for the radio cases in Chicago and rushed them back
to Indianapolis. He arrived at 2:00 in the morning, and the team got
to work. Fortunately, everything fit this time. The plastic case was
a little warped, but that was simple to fix: They slapped a wooden
piece on each case as it came off the line so it wouldn't twist as it
cooled.

This video shows how each radio was assembled by hand:

On 18 October 1954, Texas Instruments announced the first commercial
transistorized radio. It would be available in select outlets in New
York and Los Angeles beginning 1 November, with wider distribution
once production ramped up. The Regency TR-1 Transistor Pocket Radio
initially came in black, gray, red, and ivory. They later added green
and mahogany, as well as a run of pearlescents and translucents:
lavender, pearl white, meridian blue, powder pink, and lime.

The TR-1 got so-so reviews, faced competition

Consumer Reports was not enthusiastic about the Regency TR-1. In its
April 1955 review, it found that transmission of speech was
"adequate" under good conditions, but music transmission was
unsatisfactory under any conditions, especially on a noisy street or
crowded beach. The magazine used adjectives such as whistle, squeal,
thin, tinny, and high-pitched to describe various sounds--not exactly
high praise for a radio. It also found fault with the on/off switch.
Their recommendation: Wait for further refinement before buying one.

Newspaper ad for a $49.95 radio touted as \u201cthe first transistor
radio ever built!\u201dMore than 100,000 TR-1s were sold in its first
year, but the radio was never very profitable.Archive PL/Alamy

The engineers at TI and IDEA didn't necessarily disagree. They knew
they were making a sound-quality trade-off by going with just four
transistors. They also had quality-control problems with the
transistors and other components, with initial failure rates up to 50
percent. Eventually, IDEA got the failure rate down to 12 to 15
percent.

Unbeknownst to TI or IDEA, Raytheon was also working on a
transistorized radio--a tabletop model rather than a pocket-size one.
That gave them the space to use six transistors, which significantly
upped the sound quality. Raytheon's radio came out in February 1955.
Priced at $79.95, it weighed 2 kilograms and ran on four D-cell
batteries. That August, a small Japanese company called Tokyo
Telecommunications Engineering Corp. released its first transistor
radio, the TR-55. A few years later, the company changed its name to
Sony and went on to dominate the world's consumer radio market.

The legacy of the Regency TR-1

The Regency TR-1 was a success by many measures: It sold 100,000 in
its first year, and it helped jump-start the transistor market. But
the radio was never very profitable. Within a few years, both Texas
Instruments and IDEA left the commercial AM radio business, TI to
focus on semiconductors, and IDEA to concentrate on citizens band
radios. Yet Pat Haggerty estimated that this little pocket radio
pushed the market in transistorized consumer goods ahead by two
years. It was a leap of faith that worked out, thanks to some
hardworking engineers with a vision.

Part of a continuing series looking at historical artifacts that
embrace the boundless potential of technology.

An abridged version of this article appears in the October 2024 print
issue as "The First Transistor Radio."

References

In 1984, Michael Wolff conducted oral histories with IDEA's lead
engineer Richard Koch and purchasing agent Floyd Hayhurst. Wolff
subsequently used them the following year in his IEEE Spectrum
article "The Secret Six-Month Project," which includes some great
references at the end.

Robert J. Simcoe wrote "The Revolution in Your Pocket" for the fall
2004 issue of Invention and Technology to commemorate the 50th
anniversary of the Regency TR-1.

As with many collectibles, the Regency TR-1 has its champions who
have gathered together many primary sources. For example, Steve
Reyer, a professor of electrical engineering at the Milwaukee School
of Engineering before he passed away in 2018, organized his efforts
in a webpage that's now hosted by https://www.collectornet.net.

From Your Site Articles

  * The Lost History of the Transistor >
  * John Bardeen's Terrific Transistorized Music Box >
  * Inside the Third Reich's Radio >

Related Articles Around the Web

  * Regency TR-1 Transistor Radio History >

past forwardtype:departmentstransistor historytexas instruments
portable devicesconsumer electronicsradios
Allison Marsh

Allison Marsh is a professor at the University of South Carolina and
codirector of the university's Ann Johnson Institute for Science,
Technology & Society. She combines her interests in engineering,
history, and museum objects to write the Past Forward column, which
tells the story of technology through historical artifacts.

 
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