One transistor was removed from the circuit and - after much effort - engineers succeeded in getting all parts to fit the case. Attempts were made to refine the five-transistor circuit designed by TI to reduce cost and ensure that the parts would all fit in the case. As this was only weeks away, manufacturing the Regency-branded radio had to be a true rush job to meet the deadline.Įngineers decided upon a case size for the new radio. The target was to have the new radio on the market in time for the 1954 Christmas shopping season. jumped at the chance to produce a transistor radio. Its main product up to that time had been a line of vacuum tube-operated television signal boosters marketed under the Regency brand name. TI finally found a partner in a company called I.D.E.A., Inc., of Indianapolis, IN. TI decided that a portable, handheld radio offered the most mainstream application of the new technology and approached several large corporations about producing the radio they had designed using TI transistors, but companies - such as RCA and Motorola - did not believe the transistor’s time had yet arrived and passed on the offer. The First Transistor Radioīy early 1954, Texas Instruments (TI) had perfected production to the point that transistors became cheap enough for use in consumer items. Efforts were underway to refine transistor production so that individual devices would become inexpensive enough for use in consumer items. Transistors offered many improvements over the vacuum tube: They were smaller, used much less power, and were more reliable. The transistor - a revolutionary solid-state device capable of amplification - had been invented back in 1947, but its actual application to mass-produced consumer items had been limited, as production of transistors had yet to be perfected, so their cost remained high. As a result, few portable radios saw much use. Portable, battery powered radios had been around since the 1920s, but were limited by the requirement for several battery voltages, very short life of the batteries, expense of battery operation, and size of the vacuum tubes required. The combination of high power use and large size meant that few practical, portable devices utilizing vacuum tubes were created. In addition, most standard vacuum tubes were large in comparison to other electronic devices. As vacuum tubes required heating by filaments to function, the current use was high. Vacuum tubes were the only way of performing many electronic functions - such as amplification and rectification (although the solid-state diode had appeared on the scene by this time) - but were generally limited to devices that could be plugged in. Almost anything electronic required vacuum tubes - an invention dating back to the beginning of the 20th century that had yet to be improved on. This circuit operates with a 9-volt battery.In 1954, the world was a far different place than it is now. Although there are various manners by which a radio signal might be regulated, one of the easiest is to change its amplitude by varieties of sound.įurthermore, for making 200uH curl take a #26 enameled copper wire and wound 60 turns on a 1cm diameter and 7.6cm long ferrite bar. All together that a radio signal can convey sound or other data for broadcasting or two-way radio broadcasting, it must be adjusted or changed simultaneously. The slightly moderate variations in the amplitude make a loop that shows the frequencies in the sound signal. Moreover, the amplitude of the carrier wave isn’t steady. It is about 550kHz to 1600kHz versus 20Hz to 20kHz. The base frequency of the electromagnetic radio wave is a lot higher than the frequency of the sound data it conveys. All the required components of this circuit are easily accessible in the market. Moreover, the circuit is not utilizing many additional parts or components to make a good quality AM receiver. Yet it isn’t utilizing a crystal, it is utilizing a high gain pre-amplifier phase of transistor BC 549 and BC 548. The circuit diagram referenced here is additionally a basic AM radio circuit. In our previous articles, we talked about a basic crystal radio receiver circuit. For a detailed description of pinout, dimension features, and specifications download the datasheet of BC549 AM Radio Circuit Working Explanation
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