ApogeeKits Free Guide to Electronics Soldering
Contents
1. Free Guide to Electronics Soldering By David Kolanowski Table of Contents Safety Glasses ________________________________ 2 Solder Tools _________________________________ 2 Solder and Fluxes _____________________________ 4 Typical Solder Joints on PCBs ___________________ 6 6 Hand Soldering Techniques 7 __________________ 7 Trimming Component Leads 10 _________________ 10 ApogeeKits Free Guide to Electronics Soldering A FREE guide of hand soldering techniques for the beginner level hobbyist or student This guide applies to through hole technology hand soldering practices and though most surface mount soldering rules are similar it does not address some specific intricacies of surface mount soldering practices Visit our web site for more FREE educational papers or to check on our latest kit specials http www ApogeeKits com Many people have never taken the opportunity to pick up a soldering tool and use it to assemble an electronic project If you fall into this category then this paper was written for you so that the door to the fascinating world of electronics might be opened a little wider for your education and enjoyment Many of the same soldering skills used to assemble electronic projects or kits are also applied to component removal or making service repairs Let s examine the concept of basic soldering techniques used for plated through hole PTH electronic component installation beginning w2. US for an entry level commercial grade soldering station and potentially quite a lot more Figure 4 shows one typical example of a commercial grade soldering station intended for everyday use Figure 4 All soldering tools have wattage ratings The wattage is not a major factor of how hot the iron will get but is more accurately described as how well the iron can maintain a specific temperature setting while under a thermal load Meaning how much heat the iron can transfer to the area being soldered without falling below the optimal solder process temperature range Because they have greater heat capacity higher wattage tools can transfer heat to the work pieces without much temperature loss at the tip so a solder connection can be made within a shorter period of time A lot of soldering jobs can be successfully performed using tools within a wattage power range keeping in mind that the amount of time and the technique used to create a good solder connection will vary somewhat for tools at opposite ends of that power range We ll discuss more details about technique later but in the interest of knowing enough to select the best solder tool for a particular job it will be helpful to understand the following basic concepts Ideally as a rule of thumb a solder connection or solder joint should usually be made within 2 to 3 seconds after the heat of the iron is applied to the connection This process forms an inter metallic compound bet
3. and mildly acidic at soldering temperatures only Once rosin flux cools back down below solder process temperatures it reverts back to a solid again As a solid rosin flux becomes chemically inert completely non corrosive and non conductive The sticky residue left behind from rosin flux will eventually dry and form a protective barrier over the solder joint Alcohol and other solvents will dissolve rosin it if it needs to be removed for cosmetic reasons or for application of conformal coatings or the like but otherwise removing it isn t a requirement Another common flux option used in electronics assembly is water soluble organic acid OA flux Organic acid fluxes are formulated with natural acids like citric lactic stearic and others that are mixed into solvents like isopropyl alcohol water or others Organic acid flux has some advantages and disadvantages when compared to rosin flux Organic acid flux is more corrosive more active at dissolving oxides than rosin flux Organic acid flux can be easier to solder with in cases were material solderability problems are an issue Organic acid flux is water soluble which makes removal of the flux after the soldering process a snap Sort of Care must be taken when using any flux to not allow it to enter non sealed components like switches sockets or stranded wire connections Never use organic acid flux to solder stranded wire The flux will wick in between the strands of wire and will n
4. it with a hot hair dryer until I m convinced that it s completely dry inside and out So far I ve had no problems Don t ignore your own safety and cleanliness You should avoid breathing solder flux fumes created from the heat of soldering In large enough concentrations it can irritate your eyes and lungs Work in a ventilated area or open a window and place a fan near your work area such that the fan can blow the fumes out the window Avoid blowing a fan directly on your work cooling your solder tool Wear safety glasses to keep boiling flux or flying solder drops out of your eyes Listen to your mother and wash your hands Solder and even the leads of electronic components usually contain some amount of lead Lead is a soft metal and trace amounts of it can rub off on what it comes in contact with and this includes your hands Wash your hands with soap and water when you re finished handling solder wire and tools especially before handling food Avoid having food in your work area or putting anything in your mouth until you clean yourself up TYPICAL SOLDER JOINTS ON PCBs With electronic assemblies implemented on a single sided PCB the leads of the components are normally inserted through the component mounting holes from one side of the board the top while all the conductive circuit traces and pads are located on the opposite side of the board the bottom The bottom side is also known as the solder side of the board because aft
5. the iron One or two brisk wipes across the sponge should be sufficient to produce a bright clean silvery iron tip ready for soldering The process of creating a solder joint on single sided and multi layer PCBs is essentially the same The only major difference is the amount of solder used to create the joint First we ll look at the process to create a solder joint on a single sided PCB Refer to figure 8 Place the freshly cleaned tip of your hot solder iron in contact with both the pad of the PCB and the lead of the component to be soldered At the same time bring the end of your solder wire in very gentle contact with the tip of the iron at the spot where it touches the pad and the lead Figure 8 You first want the flux to melt and flow out of the solder wire core onto the surface of the materials This will be quickly followed by the solder melting at this junction and creating a bridge of molten solder between all of the contacted surfaces The molten solder bridge will quickly increase the contact area between the iron and the metal surfaces and this will further increase the transfer of heat from the tip of the iron into the surfaces being joined This all happens very quickly As soon as you see the solder starting to melt begin to gently feed solder wire into the junction until it produces just enough molten solder to cover the pad all the way around it s circumference to create a solder fillet that envelops the pad and the lead being sol
6. when soldering 2 layer or multi layer PCBs an additional amount of solder is required to form a solid fillet all the way through the hole from the bottom side of the board to the top side of the board Improper fillets Whether the solder process is performed by hand with a solder iron or by a mass production wavesolder machine it occasionally happens that solder does not or will not flow completely through a 2 layer or multi layer PCB hole and wet the pads on both sides of the board This is sometimes an indication of metal plating problems on the inside of the hole because solder will not wet to the inside surface of non plated holes More often than not though this is caused by a problem with the soldering process itself and this process or manual technique should be adjusted for better results The assembler should strive to improve the process or practice the manual soldering technique to obtain optimum results If it can be determined that the integrity of the hole plating is sound and that the soldering process itself is the cause of poor solder penetration in plated through holes then sometimes it is best to leave an improperly formed solder fillet as it is rather than attempting to rework it This depends on the reliability standards that the final assembly must measure up to For example medical life support equipment and military hardware must meet extremely high standards of reliability Specific standards and criteria exist that are us
7. F 60 C to 90 C If you try this at home be careful that you don t melt your assembly or start a fire in your kitchen Really it s NOT a good idea to use your kitchen oven for this purpose At high temperatures electronic assemblies could out gas by products that are not suitable for human consumption and you wouldn t want to breathe this or allow it a way to get into your food For most plated through hole electronics soldering jobs the author uses and prefers Kester brand organic acid core solder wire Formula SN63 PB37 63 tin and 37 lead with a 031 diameter core size 66 flux type 331 The water soluble flux residue is biodegradable and will rinse off easily with plain warm water This eutectic solder wire is available from Mouser Electronics Digi Key and almost any other distributor who sells Kester solder I ve never seen it damage or corrode any assemblies even when they weren t washed for a couple of days after soldering I ve seen organic acid flux eat pits into stainless steel floors of wave solder machines and dissolve aluminum foil into a layer of goo over periods of time though so I wouldn t want to leave it on my assemblies very long When at home I wash my assemblies under hot running water in a sink while I rotate the assembly to carefully avoid getting water inside any open components Of course some water usually ends up where you don t want any so I gently blot blow and shake the clean assembly dry and blast
8. dered Don t use the tip of your iron to push the molten solder around the joint If you have trouble directing solder to the opposite side of the joint try moving the solder wire while keeping it in contact with the molten solder This will help distribute flux where it is needed and facilitate the flow of the molten solder When enough solder has been fed to the joint for the formation of a proper fillet stop feeding solder wire and remove the end of the wire from the joint area Keep the hot iron in the joint for an additional 2 seconds and then gently pull the hot iron directly out of the molten solder Don t pull the iron out of the solder by lifting up against the lead or by re directing the molten solder in any direction The process of creating a solder joint on a double sided or multi layer PCB is the same as just described for single sided boards and simply requires that a small additional amount of solder be fed into the joint On double sided or multi layer boards you should feed enough solder wire into the joint so that as it melts it will flow down through the hole and out onto the top of the board to create a fillet that wets the surface pads and lead at both ends of the plated through hole While this is sometimes easier to say than it is to do all it takes is a little bit of practice and experience to master the skill and produce consistently good results every time Figure 9 illustrates some finished solder joints Two of the joi
9. ed to measure what is and what is not acceptable For most if not all consumer grade electronics such as ApogeeKits kit products it is not recommended to re melt a solder joint to rework or repair a solder joint just for cosmetic reasons Statistical analysis shows that the additional heat and stress placed on the components plus the effect of reheating the inter metallic bond of the solder joint to a molten state most often results in reduced reliability of the solder joint HAND SOLDERING TECHNIQUES In this section we ll discuss the actual manual technique of creating a good solder joint Depending on the different types of solder joints required to build any particular project it may be that you could find it difficult or impossible to make all your solder connections with a single solder iron and a single bit To simplify things for beginners a simple starter kit type of project should be attempted first in order that you should have a chance to practice one size and type of solder joint repetitively and gain some experience before moving on to more advanced projects Keep the previous sections in mind as you evaluate the tools you need for a project Often with some simple attention to technique and the subjects already covered in this tutorial many projects may be assembled with a single iron and bit With proper tool selection all current ApogeeKits products can easily be assembled with a single solder tool and bit There
10. er component leads are inserted from the top component side the assembly is then turned over to perform the soldering work on the bottom side of the board Solder is applied to the PCB pads and component leads to form a solder fillet on the solder side of the assembly Figure 7a illustrates a typical cross section view of a through hole component soldered to a single sided PCB Figure 7a Figure 7b When double sided or multi layer PCBs are manufactured the holes are plated through with metal plated copper This is done to provide electrical connections from conductive traces on the bottom side of the board to conductive traces located on the top of the board in addition to any internal circuit traces contained within the laminate of multi layer boards When mounting through hole components to double sided or multi layer PCBs the component leads are usually inserted through the mounting holes from the top side of the board just as they are on single sided boards The assembly is then turned over to perform soldering on the bottom side of the board Figure 7b illustrates a typical cross section of a through hole component soldered to a double sided or 2 layer PCB Notice that figure 7b also shows top side fillets This solder is not added from the top component side of the board but rather molten solder is flowed through the holes while solder is applied from the bottom side of the board It can be seen from figure 7b that
11. erature regulated and if used for longer than a few minutes at a time their handles can become quite hot and uncomfortable in your hand This can be an annoyance to say the least and may actually add to the difficulty for beginners to learn how to solder For those who are more active in electronics or who don t mind spending a little more money for better quality the low end hobby grade irons also known as solder stations are a better choice These will usually do a nicer job just because they re easier and more convenient to use than the cheap throw away iron See Figure 3 Some of these hobby grade solder stations have adjustable temperature setting knobs and better temperature regulation Most have a small variety of tip sizes and tip replacements available Usually they have an attached iron holder to hold the hot iron in between uses and a wet sponge dock which is used to clean the iron tip between making solder connections Prices for these hobby grade soldering stations begin around 20 US and average about 40 US For the more professional users higher quality commercial grade brand name soldering stations are more commonly used These will have all the features of the hobby grade solder stations but with better performance specifications grounded tips for anti static considerations more tip sizes and replacement part options available and other optional accessories Expect to pay a minimum of 100
12. ers to trim such large component leads after they re soldered to a PCB could put a lot of stress on the joint the component itself and the PCB The plated copper conductors on PCBs are very thin The action of cutting through the large diameter lead could put a side load on the PCB and dislodge the circuit pad from the PCB hole and break the electrical connection from the pad to the circuit trace This is especially true with single sided PCBs as they don t have the additional strength provided by the plated through holes found on double sided boards Don t be in a hurry Even if the leads are a small diameter even on double sided boards avoid the temptation to trim more than one lead at a time for the same reasons If you re concerned that the finished lead length of a component with large diameter leads may be too long after it s soldered then do a test fit of the component on the board and determine where the lead should be cut before soldering it onto the board Trim the leads on these components before they re soldered to the PCB to avoid damaging the board ApogeeKits hopes that you have found the information in this free tutorial helpful ApogeeKits is working on more free tutorials that cover many electronics related subjects Please check our website for new tutorials and special deals on ApogeeKits products http www ApogeeKits com
13. erstanding how to select the proper iron tip for your solder job will aid greatly in being able to create good solder joints Generally speaking the selected solder tool bit should be chisel shaped at the tip and the chiseled tip should be about as wide as the connection being made on the board Thicker shorter bits store more heat and provide for more efficient transfer of heat from the tip to the solder joint than long narrow pointed bits do See figure 5 Tinned tip area Figure 5 Except in cases where only the very smallest solder joints need to be made a long rounded bit pointed at the tip like a sharp pencil is not recommended because there is less stored heat available at the tip to be transferred to the joint If you apply heat and solder to make a joint but the solder won t wet the joint within 2 to 3 seconds then the bit may be too small to do the job optimally Always select a tip that was designed for the solder tool you re using Never attempt to alter the shape of the tip of a soldering bit by filing on it or by any other means Not only is the altered bit not likely to function but by changing the thermal dynamics of the bit you might burn up the heater in your iron and create a working safety hazard SOLDER and FLUXES The most common type of solder used for electronics soldering today is a composition of 63 tin and 37 lead There is a good reason that this ratio of tin to lead is most commonly used solder formula in electr
14. gnal of other possible problems occurring in the soldering process Non eutectic alloys are said to pass through a pasty phase when they exhibit a plastic state in between a liquid and a solid For this reason non eutectic alloys are usually not preferred for electronics soldering processes As a non eutectic alloy cools its state will slowly transition from a liquid to a solid During this cooling period it is subject to disturbances from vibration and uneven cooling This may result in a dull bumpy frosty or grainy appearing solder joint While this doesn t necessarily guarantee that the resulting connection is bad such an appearance is normally a visual indication that the integrity of the inter metallic bond in the final solder joint may have been compromised which could result in a high resistance connection Though there are some specific industry or military processes and exotic applications that may call for using solder alloys of different tin lead ratios or even high temp lead free solder alloy formulas currently none of ApogeeKits products fall into these categories Therefore ApogeeKits recommends assembling our kits using basic tried and true general purpose electronics solder wire with a tin to lead ratio of 63 tin to 37 lead 60 40 is fine as illustrated in Figure 6 Figure 6 shows a roll of solder wire with a close up view of the end of the wire Notice that the solder wire has a core of flux The flux core
15. hand movements and take more time than you want to take to create the solder joint Remember the 2 to 3 second rule It should take about a second or so to feed the required amount of solder wire into the joint followed by about 2 seconds of heat to allow the molten solder to wet to the surfaces in the joint and create the inter metallic bond Taking longer than this prescribed amount of time could cause damage to the PCB the electronic components the inter metallic bond in the joint or all three TRIMMING COMPONENT LEADS Excessive lead length on the solder side of the assembly should be trimmed down to size This will prevent them from being in your way as you work and reduce or eliminate the chance that they would get bent over and create a short circuit to anything else after electrical power is applied to the assembly Figure 10 shows the solder connections we discussed from figure 9 but with the leads trimmed down to the proper length The component leads should be trimmed down to the top of the fillet with the use of a pair of wire cutters Avoid cutting through the solder fillet just to lower the height of the joint It s not always necessary or even advisable to trim every kind of component lead down to the height of the solder fillet For example components like PCB mounted transformers terminal blocks power jacks and other parts that can carry large amounts of electrical current usually have stubby large diameter leads Using wire cutt
16. ith the most fundamental tools needed to do the job right SAFETY GLASSES Safety glasses or at a minimum your vision correction lenses if you wear any are your most valuable yet often forgotten or overlooked tool when performing soldering tasks After all it s hard to solder if you can t see The smallness of the job at hand soldering a component lead to a circuit pad especially on a printed circuit board PCB crowded with other components that are in the way often requires the person soldering to get in close to the action in order to see what they re doing Standard solder wire used for electronics assembly and repair have a core of liquid flux usually rosin core that can rapidly boil under the heat of an applied solder iron and cause small droplets of flux or hot molten solder to be propelled off of the work surface and into your eyes Take it from someone who has experienced this first hand this is something you want to avoid It happens too fast to dodge the bullet and is quite painful It can ruin your day and enthusiasm for your project not to mention the potential damage it could cause to your eye Find or obtain some protective eyewear and keep it handy in your toolbox for soldering jobs SOLDER TOOLS There are many types of soldering tools available for purchase on the market and like most tools there are some types that are more suitable for a particular job than others For example it wouldn t make sen
17. material or synthetic sponge that may melt when the hot iron touches it The type of sponge that is compressed flat when it s new and swells up to full size when it s wet is the right kind of sponge for this job Plug your iron into the power outlet and switch it on If the temperature of your iron is adjustable set the temperature knob or buttons to about 700 F 371 C Keeping the hot iron over your work table with the hot tip pointed down apply some solder wire to the tip of your iron as it begins to heat up As the tip of the iron reaches the melting temperature of the solder melt some solder all over and around the pointed tip of the bit This is known as tinning the tip Refer to the tinned tip area note in figure 5 Slowly rotate the hot iron and try to completely cover the tinned tip area of the bit with solder near the chiseled tip of the bit Don t worry about applying too much solder here When you have enough solder on the tip it will begin to drip off of the tip Be careful of where you allow the hot molten solder to drip This is how you should treat your iron tip whenever you place it into the holder for storage after each use Do this whenever you need to leave a hot iron in the holder for more than a few minutes at a time and always right before you shut the iron off after each use Never let the tip of a hot solder iron sit dry of solder for very long Keeping a heavy coating of solder on the tip of your iron will p
18. nts in the illustration were made with the proper amount of solder and one of the joints shows the result of feeding a little too much solder wire into the joint A properly formed solder fillet will feather smoothly between the surfaces joined by the solder This is also an indicator of good wetting of the solder to the metal surfaces Poorly wetted solder joints caused by contamination won t feather smoothly between the metal surfaces and will produce ball type solder joints similar to the one shown in figure 9 that was made with too much solder In the case of poor wetting the joint produced will have a higher than normal electrical resistance due to the lack of an inter metallic bond between the materials Though feeding too much solder into a joint doesn t cause poor wetting underneath the solder the similarity in appearance to joints with poor wetting means that you should try to avoid this condition Just how much solder wire should be fed into the joint depends on the size of the joint being made and the diameter of the solder wire being used Creating the joint should require feeding no more than about to 1 inch of solder wire into the joint If it requires more than this amount of solder wire to produce a sufficient amount of molten alloy to create the proper fillet then the diameter of the solder wire is probably too small for the job If you must feed more than an inch or so of solder wire into the joint it could cause disruptive
19. onics assembly Consider that the melting temperature of pure tin is 450 F or 232 C and the melting temperature of pure lead is 621 F or 327 C When tin and lead are combined in a ratio of about 63 37 this solder alloy will have a melting temperature of 361 F or 183 C It s interesting that the melting temperature of the 63 37 tin lead alloy is lower than the melting temperature of either tin or lead alone but more significantly this ratio has the lowest melting temperature of any ratio of tin lead alloy This means that by using this alloy the soldering process can take place at the lowest possible temperatures causing the least amount of stress on the parts to be soldered But perhaps most significant of all when tin and lead are combined in the ratio of 63 37 the alloy exhibits what is known as eutectic properties Eutectic alloys are alloys that change instantly from solid to liquid and from liquid to solid at a precise temperature as opposed to non eutectic alloys which will tend to gradually liquefy as their temperature is raised and slowly thicken back to a solid as they cool Because the tin lead eutectic alloy transitions instantly from a liquid to a solid it also produces smooth bright shiny solder joints as there is less of a chance for the joints to be disturbed during the cooling process While smooth bright shiny joints don t guarantee a good connection any different appearance might provide the assembler a visual si
20. ot be able to be removed It won t take long for the organic acid flux to corrode the wire Organic acid flux residue is electrically conductive and it remains corrosive if left on the assembly Therefore organic acid flux must be removed from the assembly after the soldering process Don t worry about rushing your work while soldering just don t let the assembly lay around overnight with organic acid flux on the board The OA flux will begin to attack the metal surfaces and if given enough time will corrode the assembly Organic acid flux is easily rinsed off of the assembly with hot running water Not boiling water just hot water warm will do It s important to remember that just as care must be taken to avoid getting flux into any unsealed components of your assembly it is also true that WATER must be kept out of these same unsealed components This can be tricky because BOTH sides of the assembly top and bottom should have the organic acid flux washed off The assembly must be totally and thoroughly DRY before any electrical power is applied to the finished circuit assembly WATER AND ELECTRICITY DO NOT MIX Water will collect under components inside switches and in other tight places all over your assembly In a production shop environment it s common for freshly washed circuit assemblies to be blow dried first with compressed air about 30 psi and then dried in a cure oven for about 30 to 60 minutes at about 140 F to 195
21. place Sometimes for various reasons bending the leads isn t desirable You will undoubtedly discover other ways to hold components in place You can use tape but this sometimes leaves glue behind after it s removed You can place an object between the component and the table top to create a high spot under your work that pushes up on the component when the bottom of the board is facing toward you but sometimes the uneven work surface this creates is just another problem There are special tools that address this issue that you could obtain and use One such tool is a frame that holds your PCB assembly with the top side facing up while you install as many components as you like When you re ready to turn the assembly over to solder you clamp on or close a soft conformable anti static heat resistant material over the component bodies to hold them firmly against the board when the assembly is flipped over for soldering Such tools are very handy and certainly make mass production more efficient but are not very economical for the average hobbyist Once you have your component s properly held in place with the bottom side of the assembly facing up for easy soldering you re almost ready to create your solder joint With the tip of your hot solder iron freshly tinned with solder gently wipe the tip of the iron over the clean wet sponge The object here is to allow the steam and friction generated from this action to clean the tip of
22. rotect the tip from oxidation that otherwise could make soldering quite difficult and will help maintain good wetting to and heat transfer from the tip of your iron to your work Keeping plenty of solder on the tip of your solder iron will extend the life of both the tip and the heater element of your solder iron Begin learning your skills with a beginner skill level kit or project following the assembly instructions carefully The soldering surfaces of your PCB and the components should be free of dirt oily fingerprints or any other contamination that will reduce solderability Insert a component in the correct location so that all the leads of the component will pass through the PCB and are accessible to soldering on the bottom side of the board Don t do any trimming or clipping of the lead length yet This is done after the solder joint is created Carefully flip the assembly over to expose the bottom solder side of the board If the component on the top of the board tends to fall out of the holes when the assembly is turned over you can re insert the component and try clinching the leads on the bottom side of the board bend them slightly to hold the component in place Be careful not to bend the leads so much as to cause short circuits to any adjacent component leads or connections Slight bends of the leads very close to the pad of the PCB are usually sufficient to create enough friction with the board to hold the components in
23. runs continuously through the center of the wire This is sometimes hard to see in practice unless the end of the solder wire is melted onto a solder iron tip in such a way as to leave the core exposed to view Like metal alloys there are different types of fluxes used in electronics assembly soldering processes The oldest and most common type still encountered when hand soldering with wire is rosin core R Rosin itself is a natural product collected from trees Pine trees typically The rosin is processed and purified to remove particles and usually blended with other rosins to produce flux formulas with stable and desirable characteristics that aid in the soldering process The primary purpose of any flux is to clean the metal surfaces of the parts being soldered so that the solder alloy can adhere and form a strong inter metallic bond between the materials A good solder connection requires the surfaces being soldered to be very clean and free of natural oxides oils or any other contamination The flux melts and flows out of the solder wire core onto the PCB pads as heat is applied from the solder iron while making a solder joint The flux interacts with all the metal surfaces and the molten solder It dissolves oxides that would prevent good solder wetting and reduces the surface tension of the molten solder alloy which helps the solder to flow and feather smoothly and easily onto the metal surfaces it is intended to bond with Rosin is naturally
24. s no substitute for experience though Perhaps it s time to jump in and get your hands dirty If you don t already have a soldering tool it s suggested that you obtain one and follow along this section with live practice Or read on anyway and gain knowledge For the remainder of this guide we ll refer to your soldering tool as a solder iron If you have a solder station consider the iron to be the handle and soldering bit of the tool you re working with If you re beginning now with a brand new soldering iron let s examine a few things before you turn it on and get it hot Refer to the user manual of your solder iron for the usual operating instructions and safety precautions First with the iron off and cool to the touch check that the bit of the iron is mounted securely in the handle Heat won t transfer efficiently from the heater in the handle to the bit unless the bit is snug and secure in the handle That might seem rather obvious but you may be surprised how often loose solder iron bits cause the frustration of electronic assemblers Next you ll need a very wet sponge to clean your iron tip with while soldering If you have an iron holder and a wet sponge dock soak the sponge thoroughly with water and place it in the dock for use If you don t have a wet sponge dock find a small clean sponge and a small dish to keep it soaked with water in Keep this handy while you work Don t use any sort of plastic sponge
25. se to select and use a big bulky soldering iron or a soldering gun to perform assembly and repair of electronic circuit boards containing small electronic components See Figure 1 Figure 1 Such irons have a very high thermal mass usually a large wattage rating and are better suited for an electrician working with heavy gauge wires or a plumber working on small copper tubing The amount of heat generated by such large irons and the inability to keep it focused on a small enough area would quickly make ribbons out of PCB printed wiring and burn the circuit pad landings right off of the circuit board Most electronic components also have specific ratings of temperature and duration that they can withstand from the soldering process This is usually not much of a concern as long as proper component mounting and good soldering techniques are followed That s where a little knowledge your own soldering skills and good practice come into play There s no need for an expensive solder iron to assemble or repair most through hole electronic assemblies A workable iron can be found for under 10 US and might be adequate for the person who needs to use it only a few times per year for short periods of time The portable pencil type of solder iron shown in Figure 2 is a typical example Many of these have no replacement tips or other parts available and should be considered cheap throw away irons They re often poorly temp
26. ween the solder itself and the pieces being joined the circuit board pads and the component leads Applying heat for more than a few seconds may overheat the solder causing it to crystallize into a dull frosty appearing cold solder joint that might fail sooner rather than later There are exceptions to the 2 to 3 second rule such as when soldering large heavy gauge parts having a high thermal mass If the heat of an iron is applied to a large connection point for several seconds but the solder wire still won t melt and flow smoothly into the joint then the iron wattage may be too low or it may simply require a little more time to do the job Proper selection of the solder iron tip plays a role here On the other hand prolonged application of heat or overheating the solder can not only result in a poor connection but can cause damage to the components being soldered or to the conductive traces and pads on the PCB itself To select the right solder tool for a job choose a tool that will allow you to use the lowest effective temperature setting for making the solder connections within the prescribed time period without causing damage to the components and board materials to be soldered Small through hole electronic components of the type found in ApogeeKits products and other similar PCB assemblies are usually best soldered with a tool that has a watt rating anywhere between 20 and 50 watts using the right tip selection Tip selection Und
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