You had to plug them in, and they sat on a table or a floor. Only a few inches tall and encased in red plastic, the radio originally retailed for $50-about $400 today.Īlmost immediately, the in-demand Christmas gift of 1954 began to change the way that Americans consumed their music radio, once a family activity where everyone gathered around a single static machine, could now become a solitary pursuit, one that followed a person wherever they went. Willis Adcock, a member of Texas Instruments’ original transistor team, for a 1986 exhibition on microelectronics. In the collections at the American History Museum resides one of the original Regency models, donated in 1984 by Dr. Texas Instruments supplied the transistors to Idea Inc., who designed, produced, and-three years later-finally debuted the Regency TR-1 in November 1954, just in time for the holiday-shopping season. The answer came 1951, when two companies teamed up to begin researching a new idea: a small, portable radio. The question is, when could they make it happen?” “But it was obvious to everybody that consumer grade radios based on transistors would be a good thing. “The military is buying all of these things they can get their hands on,” says Harold Wallace, a curator at the National Museum of American History. military, recognizing the transistors’ potential to improve everything from radars to rockets, quickly seized on the new technology-to such a degree, in fact, that several years went by before it was applied to consumer products. For this, all three would be awarded the 1956 Nobel Prize in Physics. While the devices of the time relied primarily on the more delicate, energy-inefficient vacuum tube technology, the transistor, which used semiconductor materials to amplify electronic signals, allowed for products that were smaller, more durable, and more easily produced. It was in December 1947 that engineers John Bardeen, Walter Brattain, and William Shockley debuted the transistor effect, the building block for all modern electronic devices, at Bell Labs headquarters in Murray Hill, New Jersey. would have been in vain,” he wrote.Īmong the technologies to develop from this burst of wartime innovation was radar, wizardry that would eventually lead to the the transistor. The race between the Allies and the Axis powers to achieve technological and innovative advancements was what Churchill called the “Wizard War.” Without science and technology “all the prowess of the fighting airmen. As World War II gripped Europe, Winston Churchill knew that the conflict would be fought on two fronts-on the battlefield and in the scientific lab.
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