Bill Lear - Radio Engineer

Radio Engineer

Lear was self-taught: "He had read widely on wireless, including the works of Nicola Tesla, the Croatian-Serbian wizard. He had even built a radio set, based on a twenty-five-cent Galena crystal which he sent away for, and he had learned the Morse code, the fun ending with the ban on radio during World War I." One of his first ventures was with Lawrence Sorenson, selling loose radio couplers. Lear had been an "instructor in wireless" in the U.S. Navy so he confidently identified himself as a radio engineer to Clifford Reid in Quincy, Illinois. Reid was selling auto supplies and hired Lear to expand into radio. With contractor Julius Bergen, he founded Quincy Radio Labs and built speaker boxes for radios. Lear also helped develop WLAL which evolved into the powerful station KVOO.

Lear’s talents as engineer showed in 1924 when he moved to Chicago and built a B-battery eliminator for the Universal Battery Company with R. D. Morey. Then he met Waldorf Astoria Smith of the Carter Radio Company who helped him with radio theory including Ohm's law. Tom Fletcher of the QRS Company was so impressed by Lear’s radio set designed around a QRS rectifier tube that he hired him, offering 60% more pay than Universal Battery. Bill Grunow of the Grigsby-Grunow-Hinds Company topped that offer when Lear fixed the problem with 60,000 B-battery eliminators that they had manufactured. Lear also came up with an invention in 1924 when power inverters installed at Stevens Hotel failed to perform for the Radio Manufacturers’ Association.

Lear built audio amplifiers and cases for the Magnavox speakers then coming out. The Magnavox "Majestic dynamic speakers" that he produced with Grunow were very popular. With Ernie Tyrman he built and sold radio sets using methods patented by others which they had not licensed. Anxious over prosecution for patent infraction, they both developed ulcers. Tyrman died after surgery; Lear changed his diet.

Lear Radio Laboratories was the source of an early step to miniaturization in electronics. Tuning coils in the radio frequency stage of a set were rather large and Lear knew how to reduce their size by using Litz wire. Wire braided from many fine strands has a large surface area giving it high conductivity at radio frequency. Lear borrowed $5,000 from his friend Algot Olson to make machines to wrap the strands, braid the wire, and wind the coils. The industry was set up in the basement of his mother’s old house on 65th street, and done with assistance of Don Mitchell, a railroad electrician. Lear called the company Radio Coil and Wire Corporation. They took an order of 50,000 coils from Eugene F. McDonald of Zenith Electronics when they demonstrated them. These small coils were one-quarter the size of coils with solid wire.

Lear traded his Radio Coil business for a third interest in Paul Galvin's Galvin Manufacturing Company. At that time the radio had not yet been developed for use in automobiles, but Lear and Howard Gates of Zenith made a pair; Lear designed the circuit and layout, Gates did the metal work and Lear assembled them. When Lear presented Galvin with the prototype, it was first dismissed. Later the idea was taken up by Galvin and a 200 unit production run was made. Galvin and Lear mulled over names for the product on a cross-country trip and came up with "Motorola" which was a blend of "motor" and the then popular suffix -ola used with audio equipment of the time (for example "Victrola"). The product was such a success that Galvin changed the name of the company to Motorola.