[Dept. of Computer Science]

Point Bleu A416

Our Department and University.
See my other radios too! (Here is the next one.)

GO (1000-2000m), PO (190-560m), OC (16.5-50m), BE (46.5-51m).
Wood, 48x32x21cm.
ECH81, 6BA6 (EF93), 6AV6 (EBC93), EL84, EM34, EZ80.
Volume/off, Tune, Bands, Antenna rotate.
Tonality pot on the back side.
France, 1953.
I bought it at a flea market in Bologna (Italy) in October, 1996.
Condition: Very good; two knobs are missing.
The set has become completely functional after replacement of the filter electrolitics and the loud speaker. There is a very large "coil antenna" inside that can be rotated from the outside; I had never seen this antenna arrangement before. I cannot understand very well why the tonality pot is at the back of the radio.

Antenna Construction for (Old) Radios

From time to time I receive questions about what antennas to use for vintage radios. An antenna is something you usually do not (and cannot) buy, but even the most unskilled beginner can make his own antennas. The cost of material is neglectible, and this document describes some very easy and extremely effective antennas.
Type of antenna Time for construction Cost of material
The short longwire 5 minutes 50 cents
The longwire 15-30 minutes 5 guilders
The Tuned Loop 1-2 evenings 5 guilders
The FM Dipole 5 minutes 1 guilder

Introduction: Signal Propagation

Antennas range from simple to advanced, but listening with them requires a little bit of understanding about how the transmitter energy spreads out. Generally, most of the bands will work BETTER during the evening or night than during the day. Except for the shortest among the short waves (shorter than 20m), for which it is the other way around.

Let me first say a word about wavelength and frequency. These are related, but inversed: a higher frequency means shorter waves. Most radio stations list and advertise their frequency in kHz (kiloHertz) or MHz (MegaHertz) and kilocycles and Megacycles (kc and Mc) are used as equivalents. (The official standards prescribe the unit `Hertz' and also that the k for kilo is lowercase and the M for Mega is upper case!!) One MHz is 1000 kHz. The Medium Wave has frequencies between 540 and 1610 kHz, so we may find stations at 675kHz, 1008kHz, etc. In Europe all MW frequencies are multiples of 9 kHz while in America they are multiples of 10 kHz; I think the Far East uses the same as America. The FM band has frequencies that are much higher: 87500 kHz to 108000 kHz, and to make the figures more readable the frequencies are expressed in MHz: 87.5 to 108. The SW band has frequencies that are higher than MW, but by far not as high as FM. SW frequencies are roughly from 3000 to 25000 kHz, or 3 to 25 MHz. The Long wave band has smaller frequencies: 150-300 kHz.

Each transmission frequency relates to a specific wavelength. These are of interest for 2 reasons: older european radios calibrated the dials using wavelengths (no frequencies) and the wavelength is the basic unit to measure antenna dimensions. The wavelength (in meters) is found by dividing the speed of light (300,000 km/sec) by the frequency. So 675kHz means wavelength 300,000/675 = 445 meters and 98MHz (in the FM) is 300,000/98,000 = 2.94 meters. We observe that the MW frequencies correspond to wavelengths between 180 and 550 meters, the Shortwaves have wavelengths between 100 and 12 meters, and FM is around 3 meters.

The Short Longwire Antenna

To make the most simple antenna, but already very effective, just take a single-lead insulated wire of 2 to 3 meters in length and fix a banana plug on one side. I have one of these for each of my tube radios on display. The wire I use is a piece of the power wire from some thrown away electrical appliance: I split the two-lead wire and with two banana plugs I have antennas for two radios. The banana plug goes into the antenna terminal of the radio. Sometimes this jack is marked with a beautiful picture of a wire hung between two poles, sometimes marked with the antenna symbol for circuit diagrams. If the radio is placed on some shelf, I simply hang the wire behind the shelf out of sight.

With this simple 2m antenna the radio should receive, at DAYTIME, the local MW stations (those within ~300km distance) and usually some remote stations on Shortwave below 20m. After dark it should receive many MW stations, say those within 1000 km distance, and the shortwave band should receive plenty of stations. So the 2-3m wire should allow you to demonstrate the radio and to see that SW `works' for you.

The technical term for this type of antenna is `longwire', even though this piece of wire can hardly be called long.

The Longwire Antenna

If you really want to do serious listening you will want a stronger signal and you will soon make a longer antenna, for example 20 meters long. I have one wire of this length running from my attic window to the end of my garden and in the attic it has a banana plug. To use it, I just plug it into the radio I want to hear and the reception is much stronger than with the 2m wire. I take the wire inside when I don't listen for some time, or when thunderstorms are expected.

Here in Europe, with such a wire one hears about 30 stations on Medium Wave during the day. At nighttime the signals on MW and SW come in so strongly that the radio may become overloaded. At many frequencies several stations will be heard simultaneously, which makes it difficult to understand anything. MW stations up to 2000km away can be heard... if they are lucky enough to have no strong transmitters on the same frequency closer to your house. Annoying noises can often be reduced, and desired signals increased, by grounding the radio: this is done by connecting the ground terminal of the radio to a water pipe.

So my longwire is just one wire, connected to the radio on one side and runs 20 meters away, and roughly horizontally. Depending on the geometric situation of your house and radio, you may experiment with other layouts, for example if you live in a highrise, you can have a vertical antenna by hanging 10-15 meters of wire outside your window downward! (Not all residence buildings allow this, unfortunately, and your downward neighbors may start wondering about what is running in front of their window. Not to arouse suspections you better take the wire inside after listening.) In any case, the best place for a longwire antenna is outside, and preferably high up. The house is usually filled with electromagnetic radiation from household appliances, and we prefer to have as little of this as possible in the radio. Also, the fields of radio stations are a lot stronger outside.

The 20m longwire is the best `all-band' antenna: if you want something better still, it will be a directional or tuneable antenna for specific bands, like a tuned loop or a dipole for the 15 meter or 20 meter band. But it is no use to start building anything beyond this 20m longwire before you feel the need to have something for a specific band.

The Loop Antenna

Loop antennas are both directional and tuneable, which increases your ability to filter out the desired station from many signals. The signal from a loop is not stronger than that from a longwire, so if you hear nothing in your area, the loop is not for you. Only if your signal drowns in other signals you may profit from this design.

A loop design is detailed on this page.

The FM Dipole Antenna

Modern FM portables have whip antennas, which are hard to beat. Some of the older tubed Fm radios have small built-in antennas and your reception can be improved using about 2 meters of two-prone wire. On one end of this wire you connect two banana plugs to fit the antenna terminals of the radio. At the other end you split the wire over a length of circa 75 cm, thus forming a T-shape and connect the split part of the wire to the wall or ceiling.

(Note: I received one email from somebody who said his T didn't work. The problem turned out to be that I had not explicitly mentioned that the bottom of the T should actually be connected to the radio in question!!)

Gerard Tel, gerard@cs.uu.nl