IGY - An 18 Month Report

The 1958-59 International Geophysical Year was an unprecedented eighteen-month global scientific initiative involving 30,000 participants from 66 nations who invested up to 1.5 billion dollars to study Earth's interior, oceans, and atmosphere. Utilizing military rockets and emerging satellite technology, researchers achieved major breakthroughs, most notably Dr. James Van Allen's discovery of the radiation belts surrounding Earth and enhanced understanding of ionospheric radio propagation, solar flares, and geomagnetism. While the project aimed to improve communications...

Erie Resistor Corporation Advertisement

When I first saw an Erie Resistor Corporation advertisement in the December 1958 issue of Popular Electronics, I decided to research its history here in Erie, Pennsylvania, where I live. Click on that hyperlink if you are interested in what I discovered. This advertisement appeared in the January 1952 issue of Radio & Television News magazine, so I figured I'd post it as well...

Windfreak 5 MHz-8 GHz, 15-Band RF Filter

Windfreak Technologies is proud to announces the availability of our FT108, an innovative programmable bidirectional filter bank spanning a frequency range of 5 MHz to 8 GHz in 15 bands. Band selection can be controlled through USB, UART or at high speeds through powerful triggering modes. Each unit is factory tested via network analyzer with unique data stored in the device to help with its use. Crossover frequencies are stored so the user can send a frequency command and the FT108 will utilizes Intelligent Band Selection logic to automatically toggle the optimal filter path based on minimum insertion loss. Readback of FT108 insertion loss at any frequency between crossover points allows for easy amplitude leveling...

Radar on the Great Lakes

An article title with both "radar" and "Great Lakes" in the title is sure to catch my attention, as did this. Author Norman Schorr reports on the state of the art of radar equipment and usage for the purpose of maritime navigation. Research and development, along with an ample surplus of components left over from World War II facilitated a rapid adaptation of radar to many venues. Included among its applications were airway and waterway navigation, rocket trajectory tracking, security systems, speed measurement, weather observation, and aerial mapping...

Many Thanks to Johanson Technology for Support!

Johanson Technology (originally part of Johanson Dielectrics), located in Camarillo, CA, has for over 25 years designed and manufactured high quality RF & microwave ceramic chip capacitors, inductors and integrated passives. These includes chip-format antennas, capacitors, lowpass, highpass, and bandpass filters, couplers, inductors, baluns, power dividers, substrates, chipsets.

Infrared - A New Field of Electronics and Optics

Details the evolution of infrared technology, tracing its origins from William Herschel's 1800 discovery to its deployment in military and industrial sectors, are presented in this 1959 Radio & TV News magazine article. It emphasizes the shift from active, illuminating systems to passive, sensitive detectors capable of identifying thermal signatures in total darkness. The piece highlights infrared's superior resolution compared to radar, noting its utility in applications ranging from missile guidance and ballistic tracking to industrial quality control and chemical analysis. Since the publication of this article, infrared technology has achieved remarkable sophistication, evolving from bulky lab instruments into the invisible, ubiquitous...

Coupling to 300-Ω Flat Lines

An ample supply of surplus coaxial cable after the end of World War II provided an inexpensive and easy to use form of transmission line. Not having to worry about cable routing and unintentional radiation makes transitions through walls, running along metal surfaces, and routing high power transmission lines near habitable areas a no-brainer. Issues like power handling, bend radius, and higher attenuation need more attention during the installation design phase, but that pales in comparison to coaxial cable's advantages. Author Byron Goodman addresses some of the issues Hams accustomed to using flat transmission lines...

A New Pocket Radio

Not surprisingly, there is a website dedicated to only the Regency TR-1 transistor radio and its history from development through retail sales. As reported in this January 1955 issue of Radio and Television News, The TR-1 was the world's first commercially available, fully transistorized portable radio. A complete schematic and functional description is provided. It used four germanium transistors and operated on a 22-1/2 volt battery, which provided about twenty hours of listening pleasure. The unit weighed eleven ounces and cost $49.95...

Marconi - Father of Radio?

This is a must-read article for all persons interested in the history of wireless communications. Seriously. Stop what you are doing and read it. I guarantee the vast majority have never heard of this challenge to the veracity of Mr. Guglielmo Marconi's bestowed title of "father of wireless telegraphy." Most of us are at least passingly familiar with challenges to Samuel Morse's, Thomas Edison's, and a few other notables' claims to being the first at a particular technical breakthrough, but herein, as penned by of Lieutenant-Commander Edward H. Loftin, is a first-hand account of multiple successful challenges by the U.S. Patent Office against...

Please Thank ConductRF for Their Long-Time Support

ConductRF is continually innovating and developing new and improved solutions for RF Interconnect needs. See the latest TESTeCON RF Test Cables for labs. ConductRF makes production and test coax cable assemblies for amplitude and phased matched VNA applications as well as standard & precision RF connectors. Over 1,000 solutions for low PIM in-building to choose from in the iBwave component library. They also provide custom coax solutions for applications where some standard just won't do. A partnership with Newark assures fast, reliable access. Please visit ConductRF today to see how they can help your project! 

¼-Wave Impedance Matching Nomograph

This nomograph from a 1959 issue of Radio & TV News magazine simplifies matching a source (sending - s) impedance (Zs) and a load (receiving - r) impedance (Zr) using a quarter-wave transmission line. To use it, locate your Zs value on the left vertical scale and your Zr value on the right scale. Lay a straightedge across these points; the intersection with the center vertical scale reveals the required surge impedance - also called characteristic impedance - (Z0). Surge impedance is the ratio of voltage to current for a wave traveling along an infinite transmission line, dictated by the physical geometry and dielectric properties of the cable, defined as Z0 = sqrt (L/C), where L is inductance per unit length and C is capacitance per unit length. The quarter-wave transformer relies...

Electronics-Themed Comics

Here is a batch of electronics-themed comics that appeared in the January 1949 edition of Radio & Television News. The scene seen (hey, homonyms) on the page 138 comic was commonplace in the 1940s when televisions were relatively new and not every household had a set. The scenario repeated itself in the 1960s when color sets were hitting the consumer market. Now, people can watch TV on their smartphones while not at home so gathering 'round the television display in a store is relegated pretty much to little kids watching the Disney movies that seem to always running on them. There is a growing list of other comics at the bottom of the page...

In the Field with the Signal Corps

December 1942 was just a year into America's "official" involvement in World War II. Already, both wired and wireless communications had made major advances and were indisputably vital in both the logistical and strategic aspects of troop movement, supply chains, fighting battles, and evacuation of wounded personnel. It also played a large part in propaganda campaigns. This was all true for both Axis and Allied forces. Ham radio operators provided a huge boost to the Signal Corps because they came at least partially trained for the jobs. These dozen and a half photos from the field exhibit the state of the art at the time. Maybe you'll recognize a father, grandfather, or uncle in one of them. For that matter, you might even recognize a mother, grandmother...

Exodus AMP20026 2–6 GHz, UWB, 200 W SSPA

Exodus Advanced Communications, is a multinational RF communication equipment and engineering service company serving both commercial and government entities and their affiliates worldwide. Exodus' AMP20026 is a rugged 2.0 to 6.0 GHz solid state amplifier delivering a minimum of 200 W with clean, stable 53 dB gain. It offers excellent gain flatness, a 20 dB control range, and full protection circuitry. Built for EMI/RFI, lab, CW/pulse, and EW environments, it delivers instantaneous bandwidth, superb reliability, rack mount configuration...

The Junction Transistor

In April of 1952 when this article appeared in Radio & Television News magazine, the bipolar junction transistor (BJT) had only made it out of the experimental laboratory of Messrs. Bardeen, Shockley, and Brattain at Bell Labs a mere three years earlier in December of 1948. It did not take long for commercial production to begin. Along with being a great primer for anyone new to transistors, herein is also some background on how the now ubiquitous BJT schematic symbol was created. Interestingly, only Dr. William Shockley is mentioned, making me wonder whether the contributions of Dr. John Bardeen, and Dr. Walter H. Brattain was not widely publicized early on. Not to worry, though, because all three were duly...

Mac's Service Shop: No Hands, No Head

Mac's Service Shop captures here a moment of technological transition in 1961 where a new "Loud-speaking Telephone" impresses his right-hand man, Barney. The device utilizes vacuum-tube amplifiers and a bulky external control box to allow hands-free communication, enabling Mac to work while handling customer inquiries. Mac, ever the mentor, contrasts this tube-based unit with the emerging technology of transistorized speakerphones, which eliminate the need for external control boxes, external power supplies, and warm-up times. The 1961 "Loud-speaking" setup, occupying significant space under a workbench, has been completely replaced by modern smartphones and integrated VoIP systems...

RF & Microwave Engineering Crossword for January 3, 2016

As with all RF Cafe crossword puzzles, this one uses only words pertaining to engineering, science, mathematics, mechanics, chemistry, astronomy, etc. As always, this crossword puzzle 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!

Microwave Klystron Oscillators

The microwave klystron was invented in 1937 by brothers Russell and Sigurd Varian. If you have been in the microwave design business for a couple decades, you undoubtedly recognize the company name of Varian Associates, especially if you worked in the aerospace or defense electronics business. There is a video on YouTube of a segment on Varian done sometime around 1990 by Walter Cronkite. There is also a historical piece on Varian Associates on the Communications & Power Industries website. This circa 1952 article covers the fundamentals of klystron operation and reports on the increasing use of klystrons in high frequency application - including by amateur radio operators exploring...

Werbel 2-Way Resistive Splitter for DC-7.2 GHz

Werbel Microwave began as a consulting firm, specializing in RF components design, with the ability to rapidly spin low volume prototypes, and has quickly grown into a major designer and manufacturer with volume production capacities. The WMRD02-7.2-S is a resistive splitter that covers up to 7.2 GHz with ultra-wide bandwidth. This design is useful when there are many low power signals within a wide spectrum. By design, the nominal insertion loss and isolation is 6 dB, hence it is often referred to as a "6 dB splitter." Its small size makes it easy to integrate into compact systems. Designed, assembled, and tested in the USA. "No Worries with Werbel!"

The Yagi Antenna

Contributors to the Wikipedia article on the Yagi–Uda antenna credit Japanese professor Shintaro Uda primarily for the antenna's development, with Hidetsugu Yagi having played a "lesser role." Other sources assign the primary role to Yagi. Regardless, history - and this article's author, rightly or wrongly, has decreed that this highly popular design be referred to commonly as the Yagi antenna and not the Uda antenna. I don't recall seeing advertisements for "'Uda" television or amateur radio antennas. Harold Harris, of Channel Master Corporation, does a nice job explaining the fundamentals of the Yagi antenna. Another Yagi article appeared in the October 1952 issue of QST magazine...

Many Thanks to dB Control for Support!

Established in 1990, dB Control supplies mission-critical, often sole-source, products worldwide to military organizations, as well as to major defense contractors and commercial manufacturers. dB Control designs and manufactures high-power TWT amplifiers, microwave power modules, transmitters, high- and low-voltage power supplies, and modulators for radar, ECM, and data link applications. Modularity enables rapid configuration of custom products for a variety of platforms, including ground-based and high-altitude military manned and unmanned aircraft. Custom RF sources and receivers, components and integrated microwave subsystems as well as precision electromechanical switches. dB Control also offers specialized contract manufacturing and repair depot services.

99.99999999% Pure Germanium

The production of high-performance transistors necessitated new methods to achieve extreme purity levels, far beyond standard industrial capabilities. To reach the required purity of one part in ten billion, engineers adopted zone melting, a sophisticated technique pioneered by W. G. Pfann. In this process, radio-frequency heating coils melt a narrow zone of a semiconductor rod, which is then moved along the crystal to sweep impurities to one end. Beyond purification, zone melting allows for the precise, uniform introduction of "dopants" like antimony or indium, which are essential for creating p-type and n-type semiconductor characteristics. By refining these methods through continuous processing and floating-zone techniques, manufacturers significantly...

Adson Radio & Electronics Co.

Here's another advertisement that you probably wouldn't see in a contemporary RF / microwave engineering magazine. For that matter you probably wouldn't see it on a contemporary RF / microwave engineering website ... except on RF Cafe where political correctness gets no respect. Adson Radio & Electronics was located on Fulton Street in New York City, just a block from the 911 Memorial. the original building might have been destroyed when the...

How to Make the World's Smallest 3-Tube Radio Set

My first thought when seeing the cover for this edition of Radio-Craft magazine was that it was an April Fools gag, but it turns out the "hat" being worn by the radio receiver's designer is a loop antenna for AM reception. Ya' know, he does look like he could be a suicide bomber. In a way it is the opposite of a tinfoil hat in that this headgear invites electromagnetic energy around the wearer's head rather than shielding it. Back in 1936, being seen in public donning a contraption like this radio would have been akin to Google Glass today - you'd be a superhero to fellow nerds, and just be confirming your otherworldly nerd status to non-nerds...

Building a 1930 Electric Receiver

Vreeland Corporation was an early radio manufacturer located in Hoboken, New Jersey, with multiple patents on file for innovative circuits. The Vreeland band selector system mentioned here was originally filed in the U.S. Patent and Trademark Office in August of 1927 and had not been awarded by the time of this November 1929 article in Radio-Craft magazine. In fact, it wasn't until five years later, in 1932, that the patent was finally assigned. The official description reads in part, "The general purpose of the invention is to receive the component frequencies of such a band with such uniformity as to avoid material distortion of the modulated wave, and to exclude frequencies outside of the band which the system is designed to receive. Another purpose of the invention is to provide means for shifting the position of the band...

Bell Labs - Voice of a Guided Missile

In this 1959 Radio-Electronics magazine promo, Bell Telephone Laboratories showcased its advanced radio-inertial guidance system, a technological breakthrough enabling precise long-range missile flight. Developed for the Air Force's Ballistic Missile Division, this innovation proved its efficacy by guiding a Thor-Able nose cone to a precise target five thousand miles away, allowing for a successful aerial and maritime recovery. The system utilized a missile-borne transmitter to feed continuous data to ground-based radar and a Remington Rand Univac computer, which calculated real-time steering corrections. By keeping the primary command equipment on the ground...

• Ham HOA Antenna Protection in Indiana

• FCC Expands Use of Broadband Spectrum

• UK's Fractile Chip Facility Gets £100m Expansion

• Choosing an Antenna for Compliance Testing

• Huawei Wins 8 GLOMO Awards at MWC Barcelona

The RF Cafe Homepage Archive is a comprehensive collection of every item appearing daily on this website since 2008 - and many from earlier years. Many thousands of pages of unique content have been added since then.

The Ionosphere - Where Short Waves Are Reflected

Almost certainly the earliest observed evidence of the existence of an ionosphere as part of the Earth's atmosphere is aurora activity. Alley Oop, B.C., and friends had no idea that the wavering colors were the result of high energy, charged particles from our sun interacting at altitude with the Earth's magnetic field. This article from a 1935 issue of Short Wave Craft magazine gives a nice introduction to what was known of the ionosphere at the time, which wasn't a whole lot since no in situ measurements had yet been made via sounding balloon or rocket. All that was known was inferred from the behavior of radio waves as they were affected by the charged space. It wasn't until 1926 that Scottish physicist Robert Watson-Watt coined the term "ionosphere." Although not mentioned here, it was amateur radio operators who first discovered the ability of the ionosphere to reflect and bend short wave radio waves to enable round-the-world communications. Ironically - or perhaps expectedly - the U.S. Congress in 1912 passed the Radio Act of 1912 that restricted amateur radio operation to frequencies above 1.5 MHz (a wavelength of 200 meters or less). Shortly thereafter, the FCC reclaimed much of the spectrum for itself...