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MECA Electronics Attenuators

Electronic Soldering
July 1967 Popular Electronics

July 1967 Popular Electronics

July 1967 Popular Electronics Cover - RF CafeTable of Contents

Wax nostalgic about and learn from the history of early electronics. See articles from Popular Electronics, published October 1954 - April 1985. All copyrights are hereby acknowledged.

Even if you are not new to electronics, there is a good chance that either you have not done much (or any) soldering, or have never had proper instruction in the art. A nice hand-made solder joint is truly a beauty to behold - at least to some of us. The qualities that make a good solder connection are not really a matter of subjective preferences. Too little solder creates a weak joint that might pull apart. Too much solder can cause temperature gradients through the volume and across the surface to which results in improper cooling. A glob of solder is more likely to harbor contaminants and/or air pockets that can cause the joint to fail over time. When soldering, the attitude of, "If a little solder makes a good joint, then a lot of solder must make a really great joint," does not hold true. Other factors like overheating due to either too hot of an iron or dwelling too long on a joint can over stress and potentially ruin components and mounting surfaces (circuit board, terminal lug, etc.). The way in which component leads and wires are attached to termination points also affects the joint. High quality, reliable soldering is in some cases actually rocket science, because NASA has its own specifications for how to solder equipment that goes into its projects. I went through a two week NASA soldering course back in the 1980's while working on Mil-Spec equipment at Westinghouse Electric's Oceanic Division in Annapolis, Maryland. Re-qualification was required on a yearly basis. To this day I try to apply what I learned when doing any type of soldering.

Electronic Soldering

Electronic Soldering, July 1967 Popular Electronics - RF CafeDo You Make Good Connections the First Time, Every Time?

By John McNarney

There is nothing difficult about soldering. Yet most kits returned to the manufacturer and many home-built projects sent to the repair shop usually suffer from little more than poor soldering. Although the bulk of all soldering troubles can be attributed to cold soldered connections, there are also other types of soldering faults; heat damage, short circuits, corrosion, etc.

Cold soldered junctions have different effects on a circuit. They can appear as open, intermittent, high resistance and normal connections. They can fool you into thinking that you have noisy and  otherwise defective components.

It doesn't take much time or effort to learn and put into practice good soldering habits. Nor does good soldering require any expensive tools or difficult-to-master skills. If you stick to a few common sense rules, you will be able to produce well soldered connections.

Types of Soldering Tools. There are all kinds of non-specialized soldering tools designed for general-purpose work. There are soldering irons (including soldering pencils), soldering guns, and soldering pistols. They are all rated according to electrical power consumption. High efficiency factors make it possible to disregard losses and think of the wattage rating as heat power.

Heat power is either light duty (20 to about 50 watts), medium duty (50 to about 125 watts), or heavy duty (125 watts and higher). Manufacturers' duty ratings are often misleading, however, since their designations are based on comparisons of the same types of soldering tools. For example, some soldering guns may be designated as light-duty tools, even though few - if any - guns develop less than 100 watts of heat power.

Transformer soldering gun, and soldering pistol - RF Cafe

Clockwise from bottom, pencil soldering iron, transformer soldering gun, and soldering pistol are most often used types of soldering tools. Each type of tool is available with different heat power ratings plus a variety of specialized tip configurations.

Heat and solder should be applied to opposite sides of connection - RF Cafe

Heat and solder should be applied to opposite sides of connection for best results. This allows solder to flow properly into and around joint. Use only enough solder to insure a good, solid connection.

Soldering Irons. Soldering irons and pencils, taken as a group, are characteristically lightweight and compact, weighing in at less than a half-pound, (without power cord). These tools cost from as little as $1.50 up to about $20 for elaborate or precision units and kits complete with special attachments.

The soldering iron and pencil are designed for constant use over a long period of time and with a minimum amount of tip deterioration. As such, this type of tool is especially adapted for extensive project work and kit building.

Soldering irons and pencils have a heat-generating device (resistance element) which is electrically isolated from the soldering tip, but closely thermally coupled. The size and weight of the tip affect the tool's initial heating and heat recovery times. Different kinds of metal and a multitude of shapes and sizes are available. A simple copper tip having one or more flat faces at the pointed end is generally used.

A new type of soldering iron, constructed in such a manner as to provide a selection of different heat power ranges, has recently become popular among hobbyists. This type of tool employs a separate step-down transformer, the secondary of which is tapped in several places, to provide the correct amount of low voltage and high current for the heat power range selected.

Soldering Guns. The soldering gun, because of its built-in transformer, is a rather heavy and bulky device, but its unique pistol-like construction makes it comfortable to use and easy to manipulate. Soldering guns can be purchased for from $4 to about $14.

The built-in transformer of the soldering gun provides low voltage and high current directly to the tip. The tip appears to be a short circuit across the transformer's secondary, and comes up to soldering temperature almost instantly.

Because of the instantaneous heating - and cooling - feature of the soldering gun, this type of tool is often preferred for intermittent applications. It is also used by those advocates of get in and get out fast with high heat to prevent damage to transistors and other solid-state components.

Soldering Pistols. The soldering pistol has about the same shape as the soldering gun. The pistol is a hybrid affair, combining features of both the soldering iron and the soldering gun. For example, this type of tool employs both a heating element and a step-down transformer, and its soldering tip resembles those found on many soldering irons.

The step-down transformer serves the same basic function as in the soldering gun; it provides a low voltage-high current source for almost instantaneous heat.

As a general rule, soldering irons and pencils are light- to medium-duty tools, soldering guns are medium- to heavy-duty, and pistols can be obtained in either light-, medium-, or heavy-duty units. Take your choice; but remember, the tool you do choose must be capable of producing enough heat power to efficiently solder the connection in the shortest possible time. This doesn't mean that the higher the power the better. On the contrary, excessively high power tools are more likely to cause more damage in the hands of a person who doesn't have experience in using them.

Good connection is usually bright and smooth - RF Cafe

Photo show examples of good (above) and poorly (below) soldered connections. Good connection is usually bright and smooth, while poorly soldered connection is more often than not dull and grainy due to improper application of heat and/or solder.

Poorly soldered connection is more often than not dull and grainy - RF cafe

Solders and Fluxes. Solder is simply a tin-lead alloy that flows at a relatively low temperature (about 370°F). Because of this low melting temperature, solder connections can be made quickly and economically.

Most solders are identified by their tin-to-lead combination. A solder alloy that contains 60% tin and 40% lead is described as 60/40 solder - with the percentage of tin always shown as the first number in the ratio.

Solder is most convenient to use in 16- or 18-gauge strand form. The small cross-sectional area allows conservatively rated tools to make it flow quickly, and the quantity of solder used for each terminal can be easily controlled.

In order for solder to adhere properly to a connection, the joint must be clean, free of oxides, and properly heated. The most effective way to combat oxidation is to use an oxide-reducing flux. However, solder flux will not remove dirt, grease, paint, etc.

Acid and chloride salt fluxes are highly corrosive and have no place in electronics. Use a rosin-type flux for general-purpose soldering and an aluminum oxide-reducing flux for soldering components to aluminum. (Yes, you can solder to some types of aluminum alloys.)

Solder and fluxes are so closely related that solder manufacturers have combined the two in precisely balanced proportions for general and specialized applications by fabricating the solder so that it contains one or more cores of rosin flux.

How To Solder. The cardinal rule is to "keep it clean." That goes for your soldering tools as well as for the connection to be soldered. If the soldering tool you use is a pencil or iron that has a large copper tip, the tip must be coated (tinned) with a thin film of solder to prevent deterioration resulting from oxidation. Tinning also helps heat transfer from the tip to the work.

Even before you proceed to make a connection, the components and terminals to be soldered must be clean. A dirty solder lug or component lead can be quickly cleaned by rubbing it with medium-grade emery cloth or coarse steel wool.

Once the components and terminals to be soldered are cleaned, they are connected together in such a way as to form a good electrical and mechanical joint. The unsoldered connection should be electrically conductive and mechanically solid.

Heat-sink the leads of heat-sensitive components. (The heat sink can be a commercially available item, the jaws of long-nose pliers, or even a paper clip in a pinch.) The heat sink serves as a heat radiator and should be placed as close to the component as possible.

Finally, apply the heat to the connection to be soldered - not the solder! When the connection is hot enough to cause the solder to flow, apply just enough of the solder to form a thin coat. To improve the efficiency of the heat transfer from the soldering tip to the terminal, or connection, many electronics enthusiasts allow a bead of solder to form on the soldering tip. When this bead of solder "surrounds" the connection, heat flows into the joint from "all" sides.

Remove the. solder feed first, then the heat, and do not allow the newly soldered connection to move while the solder is in a mobile state. That's all there is to it.

 

 

Posted September 10, 2018

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