Radar Reaches the Moon

"These pulses speed toward the moon at the fantastic speed of light… through the ionosphere and on into the unknown void surrounding the earth's atmosphere." Hard as it might be to imagine nowadays, in 1946 there was no empirical data regarding the Earth's upper atmosphere other than the few instrumented sounding rockets that had been launched for studies. Orbiting man-made communications satellites were still a decade away when engineers at the Evans Signal Corps Engineering Laboratory in New Jersey made the first Earth-Moon-Earth (EME, aka "moon bounce") signal bounce using a massive radar and antenna that blasted 10 MW EIRP pulse at the lunar surface. It was a big deal then; it's no big deal today. Amateur radio hobbyists routinely conduct EME communications from the comfort of their home-based Ham shacks, using equipment vastly superior to and less expensive than the 1946 setup...

RCA Radiograms

Radio Corporation of America (RCA) was not the inventor of the telegram, but it did decide that the status quo transmitting and delivery services available like the Marconigram were in need of improvement. Accordingly, in 1929 the company initiated its RCA Radiogram, as promoted in this 1947 issue of Radio-Craft magazine. A promotional brochure printed by RCA in 1950 entitled, "What it is - What it does," contrails a lot of detail about the radiogram, including many photos of the operational offices. RCA Radiograms initially could be sent from ship to shore, shore to shore, ship to ship, or shore to ship. No mention was made of being able to send them to/from aircraft. At the time, the cost was 21¢ per word. As with most things, authentic RCA Radiograms...

Sylvania News Radio Service Edition

Once mobile and other high-vibration and impact operational environments became the norm for communications, it became necessary to design hardware so that electronic components would not work themselves loose and cause intermittent or total failure. With vacuum tubes, placing locking shields over them did the job, but that caused other issues such as increased cost, poor cooling, and increased chassis size and weight. Some circuits with high power and/or frequency benefited from shields, but most did not need them. Sylvania introduced a scheme called "Lock-In" (trademark name of "Loktal")where the center pin incorporated a circumferential groove that latched into a capturing mechanism...

An Early Radiophone

The January 1947 issue of Radio-Craft magazine was dedicated to editor Hugo Gernsback to articles celebrating the 40th anniversary of his personal friend Lee de Forest's invention of the Audion amplifying vacuum tube. Click on the Table of Contents link to access many of the other articles - all of which are very insightful into the many amazing activities of Mr. de Forest. Many of the articles were written by friends and business associates of him. The "radiophone" addresses here is actually one of the earliest mobile phone, being interconnected by radio signals rather than a twisted pair of wires. Take note of the "flame audion" mention, which believe it or not describes de Forest's earliest experiments which used a pair of salted platinum plates embedded in an actual flame. Yes, that actually constituted an amplifying element...

Kill Those Harmonics

Here is a short tutorial on how to construct a ¼-wave stub "trap," or filter to attenuate even-order harmonics from transmission lines. It applies whether the transmission line is feeding an antenna or is a section of copper foil running on a microwave substrate. Author Kent Mitchell (W3WTO) discusses both an open stub and a shorted stub. In case you are not familiar with how quarter-wave transmission lines stub work, a short at the far end appears as an open circuit where the stub connects to the main transmission line, and an open stub line appears as a short circuit. That is because there is a 180° phase shift at the end of the shorted stub and a 0° phase shift at the end of the open stub. Therefore, there is a total of 360° (i.e., 90°+180°+90°=360°, equivalent to 0°) with the shorted ¼-wave stub so it has no effect where it attaches to the main transmission line. The open stub experiences no phase shift...

Science & Engineering Crossword Puzzle for August 23rd

August 23rd's custom Science & Engineering themed crossword puzzle contains only only words (1,000s of them) from my custom-created lexicon related to engineering, science, mathematics, chemistry, physics, astronomy, etc. You will never find among the words names of politicians, mountain ranges, exotic foods or plants, movie stars, or anything of the sort. You might, however, find someone or something in the otherwise excluded list directly related to this puzzle's technology theme, such as Hedy Lamarr or the Bikini Atoll, respectively. The technically inclined cruciverbalists amongst us will appreciate the effort.

Serviceman's Experiences

Whether or not this is a true story does not matter- it is both instructive and funny, especially if you catch the import of the closing statement. Electronics magazines from the era of repairable entertainment electronics devices like radios, television, and phonographs often carried stories of the woes experienced by servicemen. Tales of in-home work were the most interesting, especially when the homeowner tried to bilk the poor technician out of paying or accusing him of purposely inflating the bill with unneeded parts and service charges. This 1941 issue of Radio News magazine is a good example of how frustrating the business could be.

Science in Music

If you are not in the habit of listening closely to the words of songs, you could easily miss the the fact that many make passing mention of topics on science and mathematics, while others integrate it as the primary theme. There are a lot of songs written and produced by people whose primary vocation is in the sciences; their songs are a secondary "hobby" type of endeavor - often with a touch of humor. Don't miss Tom Lehrer's incredible "Elements Song." Other songs are created by mainstream popular groups and happen to integrate themes of science, mathematics, engineering, etc. One of the earliest examples I can recall noticing was produced by the Moody Blues - "The Word." At the time, I did not fully appreciate the profoundness of the lyrics in terms of how they described the electromagnetic spectrum in its entirety, but an examination of the lyrics (below) reveals the profundity of the words...

Pearl Harbor Day Crossword Puzzle for December 7th

For the sake of avid cruciverbalists amongst us, each week I create a new crossword puzzle that has a theme related to engineering, mathematics, chemistry, physics, and other technical words. This December 7th Pearl Harbor Day crossword puzzle has a few words and clues relating to the surprise attack in 1941. As always, the crossword contains no names of politicians, mountain ranges, exotic foods or plants, movie stars, or anything of the sort unless it/he/she is related to this puzzle's technology theme (e.g., Hedy Lamarr or the Bikini Atoll). The technically inclined cruciverbalists amongst us will appreciate the effort. Enjoy!!!

Bell Telephone Laboratories - EDT Crystals

Occasionally when I post a Bell Telephone Laboratories (aka Bell Labs) promotion from a vintage electronics magazine, someone writes to challenge the claim being made by Bell Labs of having been the progenitor of the idea. This full-page ad apparently claiming to have developed the process needed to grow high purity crystals appeared in a 1947 issue of Radio-Craft magazine. The huge EDT (Ethylene Diamine Tartrate) crystal shown was created over a three-month period. Its intended use was for filters in telephone communications circuits. Development of the crystal growing process is yet another case of "necessity being the mother of invention," given that the massive increase in demand for phone service across the country left the company short on filter crystals. Bell Telephone Laboratories' manufacturing arm, Western Electric...

AM/FM Under Siege

The electromagnetic world sure is a noisy place and it is getting worse all the time - in every region of the spectrum. Intentional radiation is not so much of a problem because it usually falls within well-defined limits and is predictable, but sloppy engineering and, honestly, ignorance, has made life harder for just about everyone. Listeners to broadcast radio in both the AM and FM bands have really taken a hit. AM has always been prone to interference by its very nature, so anyone listening expects the occasional pop or hiss from atmospheric phenomena or a light switch being flipped on or off. Have someone in the house run a blender or drill and you can forget hearing anything until the task is completed. It comes with the territory, so to speak. FM was and is largely immune to most forms of interference, but lately I have been noticing it coming from some of the most unusual places. For as long as I can remember, I have preferred to have a radio on in the background whilst whiling away at work and at play...

Elementary Radio Quiz

There is a good reason why Harold Glenn called this an "Elementary Radio Quiz." It appeared in a 1947 issue of Radio-Craft magazine. If you have been in the analog and RF electronics field for more than a couple years and don't score 100%, it has to be due to a misreading of accidental selecting of the wrong answer. I know what you're thinking - "The fool must have screwed up and missed at least one and is making excuses." Not this time - although I don't deny it could have happened. Anyway, it might be a fun quiz to pass out in the break room or maybe present it to a Ph.D. candidate during an interview ;-) "Bonne chance!," as Corporal Louis LeBeau might say...

Not Such A Smooth Operator

Something happened at work that reminded me of a funny event from way back during my time at Westinghouse Oceanic Division (now part of Northrop Grumman), in Annapolis, MD. There is a moral to this story. During my electronics technician days there, I spent the first couple years building PCBs, wiring harnesses, and system-level assemblies for Navy sonar systems. We had some really slick stuff like towed vehicles with transducer arrays along the sides, nose cones for smart torpedoes, flow sensors, proximity fuse elements, etc. The exposure to all that, and the super-smart people that designed it, fuelled my desire to go to the trouble of earning an engineering degree. One of my tasks for a while was to build the transducer arrays, which entailed building the hundreds of tiny transducer elements. The assemblies were made of a machined aluminum base plate (about 1-inch square), onto which a precisely cut low density foam block was attached. On the top of that was a set of two machined aluminum plates that sat on either side of a piezoelectric ceramic transducer element...

New Standards for TV Antennas

The RETMA referenced in this 1954 Radio & Television News magazine article entitled "New Standards for TV Antennas" was commonly known back in the day, but not many would recognize it nowadays. RETMA, founded in 1953 at the dawn of the commercial television age, was the Radio Electron[ics] Television Manufacturing Association. It set standards for electronics components like resistors (e.g., the 1%, 2%, 5%, 10% series), capacitors, inductors, equipment racks, and antennas. After many name iterations, what began as the Radio Manufacturers Association (RMA), it changed to RETMA in 1953, then to Electronic Industries Association (EIA, well-known for its 19" rack standards) in 1957, and today it is known as the Consumer Technology Association (CTA). The cost of letterhead and promotional material changes over the years must have been enormous ;-) Tracing the full history is difficult, but between Wikipedia and the JEDEC websites you can get a pretty good picture. The "Antenna Section" spoken of here is the area of the RETMA manual pertaining to antennas...

Tin Whiskers, Bell Telephone Laboratories

The famous words of Jorge Agustín Nicolás Ruiz de Santayana y Borrás (aka George Santayana) immediately came to mind when I saw this Bell Telephone Laboratories advertisement in a 1955 issue of Radio & Television News magazine: "Those who cannot remember the past are condemned to repeat it." Anyone involved in the electronics field at the beginning of the lead-free (Pb-Free) craze in the early 2000's probably remembers the purportedly unexpected phenomenon of tin whiskers growing out of lead-free solder joints and wreaking havoc with the short circuits caused when whiskers between adjacent elements made contact. The problem appeared with closely spaced connector pins, fine pitch integrated circuit packages, high density surface mount circuit board layouts, etc. Military and aerospace engineers and scientists had fits initially trying to figure out what was going on...