Carl Kohler: Thin Air My Foot!

Whilst reading this Carl Kohler technodrama entitled "Thin Air My Foot!," I happened upon this word new to me: "din," as in "It was dinned into me." OK, maybe you already knew that, but surely I should have been aware of its alternate meaning other than being a loud noise ("the agitated cat made quite a din."). Fortunately, I am not subject to a household of people who refuse to put things back in their respective places when through with them, but this tale of woe tells what might be a familiar scenario to you. To be honest, this could have been written about me as a boy - before the U.S. Air Force taught me a thing or two about organization and neatness - since I continually frustrated my father by leaving his tools (and hardware and lumber and paint) scattered in forgotten places around the house and yard...

Free General-Purpose Scientific and Engineering Plotting Library w/Smith Chart

Dr. Scott Best, of SiberSci RF engineering services, sent information about the FREE general purpose DISLIN scientific and engineering plotting software library that includes Smith Chart support. The graphics library was initially created at the Max Planck Institute for Solar System Research beginning in 1985 by Mr. Helmut Michels. Its continual series of upgrades is as recent as May 2020. The DISLIN library is available for Unix, Linux, FreeBSD, Windows, Mac OSX, and MS-DOS systems. It supports a variety of public domain and commercial compilers for Go, Perl, Python, Java, Ruby, TCL, Julia, FreeBASIC, Free Pascal, R, C/C++, and Fortran (77, 90, and 95). If you are a software developer, you probably know that most development platforms are supplied with either no plotting components or very rudimentary versions of for-purchase products. Many cost hundreds or even thousands of dollars...

Understanding Super-Modulation

A few weeks ago I posted a two-part article on the Taylor super-modulation principle published in Radio & Television News magazine in 1948. It was a newly announced technology at the time and was written by its inventor, Robert Taylor. This piece entitled "Understanding Super-Modulation" appeared a couple years later by another author, John McCord, where he describes how it works , how to tune super-modulation circuits, and how it compares to other modulation methods - all conveniently in "Ham language." Super-modulation is a form of amplitude modulation (AM) that makes use of carrier and/or sideband suppression to achieve greater efficiency. A panadaptor - aka pan-adapter, aka panadapter, aka radio spectrum scope, aka panoramic adapter - is used to view the RF spectrum across a wide band. Essentially it is a low budget spectrum analyzer...

DC Motors & Generators

Studies of motors usually begin with the direct current (DC) type - maybe because most students have already had hands-on experiences with DC motors in models (cars, boats, airplanes) and/or electricity experimenter kits. They are small, cheap, and a simple flashlight battery (the ultimate in safety) makes them run. An alternating current (AC) motor requires either a direct connection to the house current or use of a step-down transformer, which still carries with it a high risk factor. This chapter of the U.S. military's Basic Navy Training Course (NAVPERS 10622) conforms to the tradition, and follows in the next chapter with AC motors and generators. While reading through the text, I ran across the unfamiliar term "kickpipe" and wondered how I could have missed that after so many decades of working with motors - both DC and AC. I didn't feel quite so dumb after looking up the definition; after all, I was in the Air Force, not the Navy ;-)

Spectral Domain Simulation Vitally Important When Designing Complex Systems

Ed Troy, owner of Aerospace Consulting, was kind enough to offer a few of his articles for posting on RF Cafe. With more than 30 years in the electronics communications design field, Ed has a lot of valuable knowledge to impart to us mortals ;-) This third paper demonstrates why using a highly capable software simulator for system design work is essential because of its ability to predict and facilitate mitigation of system-generated problems prior to building and testing the prototype. Case in point are spurious spectral components generated by the local oscillator and SSB to PM conversion created in a frequency doubler circuit. This paper was adapted from an example circuit provided in Keysight (formerly Agilent) Genesys Spectrasys. Spectrasys is a spectral domain block diagram simulator that allows the user to construct a system model and quickly determine the system performance. Whether you are involved...

Mac's Service Shop: Buying and Using a Pocket Calculator

Do you remember your first calculator - electronic, that is (slide rules and abacuses don't count - actually they do, right?)? Mine was acquired sometime in the fall of 1976 during my first attempt at secondary education at Anne Arundel Community College in Maryland, where eventually, in 1987, I was awarded an Associate's degree in Engineering (which constituted the first two years of my eventual BSEE at UVM in 1989, on whose notable alumni list I am not). My name is not in AACC's list of notable alumni, either. But I digress. My calculator was a Texas Instruments model SR-50 that had a small red LED display. It cost about $100 ($445 in today's inflated money) and performed basic math with a few simple trigonometric and logarithmic functions. This edition of Mac's Service Shop, entitled, "Buying and Using a Pocket Calculator," has Mac telling sidekick Barney about the Hewlett Packard's HP-45 calculator. According to the Wikipedia entry, the HP-45 entered the market in 1973 at a list price of $395 ($2,084 today). That's the price of a high-end gamer's computer these days. Its features were about equal to my $100 SR-50 a decade later. For the budget minded calculator, he also recommended the Unicom Model 202SR...

Wired Wireless

As you might know, particularly if you are a frequent RF Cafe visitor, amateur radio operators (Hams) were prohibited from broadcasting during the entirety of World War II, ostensibly as a security measure. The concern was that people might unintentionally (or intentionally) convey information on troop positions and family names, domestic factory locations and activities, and the general state of the nation in regards to attitude and finance. Unlike today, that type of data was not easily gathered even by a dedicated deployment of internal spies. In the early 1940s, the majority of amateur radio activity was carried out in the form of Morse code, and operators were understandably concerned about losing proficiency due to lack of use. In order to mitigate the opportunity for "fist" atrophy, many Hams set up "wired wireless" stations between residences and club meeting locations. This particular system was designed to couple to the local overhead electric power lines, but there were also private setups with dedicated lines between locations. Then, as now, one of the biggest hurdles with conducting power-line carrier communications...

The Saga of the Vacuum Tube

Here is the final installation of a 22 part series entitled "The Saga of the Vacuum Tube," by Gerald Tyne, that appeared in Radio News magazine in 1946. Part 1 was printed in March 1943. The collective contents, which covered the development of the vacuum tube from its conception to the end of World War I, could have been published as a stand-alone book. Author Gerald F. J. Tyne presented the series to trace the development which took place up to the end of World War I along a particular branch of the network of roads which led to the modern radio tube. He traced the evolution from studies of the interactions between heat and electricity as pursued by the early philosophers and by the physicists who followed them (Lee de Forest, et al). These limitations have been adopted in an attempt to report the work done in the years where there is a dearth of readily available published material...

Calls Home from Auto by Short Wave

This could be one of the earliest reports of mobile communications between a private automobile and a home base station. Using a personally designed and installed 5-meter transceiver both at home and in his car, Mr. Wallace is able to talk to his 12-year-old son on the way from work. My guess is that in 1935 there were not too many traffic jams, even in Long Beach, California, so it is doubtful that was the cause for his announced expected later-than-normal arrival home. The article states the automobile power supply needed to produce 300 mA of current at 525 V, which is ~160 W per Ohm's law, which seems unlikely considering car batteries were 6 V at the time, and that would work out to ~26 A. My question is whether little Billy possessed a license permitting him to talk back to dear old dad from the home station? If not, it really doesn't matter at this point since there is probably some statute of limitations that absolves him from prosecution...

Bell Telephone Laboratories Solar Battery

This photo of Bell Telephone Labs' three scientists, G.L. Pearson, D.M. Chapin, and C.S. Fuller, inventors of the "Bell Solar Battery," reminds me of the very familiar shot of John Bardeen, Walter Brattain, and William Shockley huddled over their point contact transistor in December of 1948. The "battery" terminology is an interesting choice since we normally think of a battery as a charge storage device, but in fact a battery is fundamentally a charge creation device. A secondary battery may be recharged by reversing the depleted chemical (or other) process that generated the initial charge, but it first created the potential via a basic charge separation process. What we today refer to as a solar cell is a form of primary battery that is not rechargeable. Just as some chemical batteries (cells) are reactivated by replenishing the electrolyte, the solar cell is replenished by photons giving up their energy to the semiconductor substrate...

Ponderings on Power Measurements

Joe Cahak, owner of Sunshine Design Engineering Services, has submitted another fine article for posting here. Joe has many years of automated RF testing experience to leverage when writing this paper on the basics of power measurement. Joe has published many articles here on RF Cafe. This Ponderings on Power Measurements article begins: "A power measurement is a scalar quantity and is a measure of power detected. These measurements can be made a variety of ways. Most of us are familiar with the notion that voltage (volts) multiplied by current (amps) is power (watts) and power multiplied by time is energy. At DC or low frequencies these power measurements from the current or voltage is relatively easy and not very complicated. As we get to higher frequencies the typical means of measuring voltage or current breakdown and are not accurate..."

Fundamentals of Color TV: The NTSC System

You genius types might not be able to relate to the rest of us who read articles like this one entitled "Fundamentals of Color TV: The NTSC System" and are in awe of minds that conjure such things as the NTSC System and then build, refine, and perfect working hardware. Making the system backward-compatible with existing black and white (B&W) signals added to the complexity and cleverness of the solution - akin but more sophisticated than compatibility of stereo with original mono radio transmissions. When catchy marketing slogans like the familiar (to old folks) RCA television advertisement claim of "Before you see the color ... Your ColorTrak System grabs it, aligns it, defines it, sharpens it, tones it ... and locks the color on track," what it actually means is that a very smart bunch of engineers and scientists spent a lot of time and money designing...

A Logic Named Joe

Somebody get Al Gore on the phone - preferably using Skype. It appears that maybe he did not invent the Internet after all. Sci-fi writer William F. Jenkins, who went by the pen name "Murray Leinster," wrote a short story entitled A Logic Named Joe, that appeared in March 1946 issue of Astounding Science Fiction. In the story, an amazingly prescient description of the modern Internet is laid out. The works is copyrighted so I will not replicate the entire thing here, but these are a few excerpts that sound a lot like Mr. Leinster was in cahoots with DARPA during the development*. Before I forget, thanks to RF Cafe visitor Terry W. for sending the link. My comments look like...

Amateur Radio Crossword Puzzle for June 7

Each week, for the sake of all avid cruciverbalists amongst us, I create a new technology-themed crossword puzzle using only words 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, see someone or something in the exclusion list who or that is directly related to this puzzle's theme, such as Hedy Lamarr or the Bikini Atoll, respectively. Enjoy!

Electronics-Themed Comics, 1954 Radio & Television News

Today has been a busy day, so a couple electronics-themed comics from issues of vintage Radio & Television News magazines help to relieve the stress a bit. I could never figure out why these comics were buried deep inside most issues at the ends of article continuations. These two were on pages 88 and 93. The top one is meant to demonstrate just how obsessed the public was with the relatively new television phenomenon - just look at what they chose to ignore on the display TV in order to get a peek at the inside workings of a television set. The other comic, while clever in its intent, would never pass editorial muster in today's world because of the great hazard it represents. Enjoy.