Jun. 24, 2024
We all know that printed circuit board is an essential part of any electronic device. The electronic components are soldered on the PCB bare board to achieve the connection and functions of the electronic products. But do you know PCB finishes on the circuit board PCB? The PCB finishes play an important role in the soldering of the components on the PCBs. HASL, ENGI, immersion tin, immersion silver, and ENGPIG are the most widely used PCB surface finishes. In this article, we will talk about one of the most important types: HASL PCB finish.
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HASL is short for Hot Air Solder Leveling, it is a type of metallic surface finish which is coated on the copper pads on printed circuit boards to avoid oxidation of copper and provide better solder joints. The coating of the HASL process is quite simple where the boards are dipped inside a molten solder which has tin/lead alloys. The molten pot used to coat HASL consists of tin and lead solder. Solder on the surface is not evenly deposited at this stage. To make the surface even and smoother, boards are then passed through a hot air knife which is known to remove the excess solder coated on the copper surface. HASL PCB finish is low-cost and widely available.
Because of the excellent solderability, reliability and durability of HASL finish, it provides a stronger solder joint between components and the board&#;s surface thus protecting the circuit board. When the boards contain thru holes and larger SMT components, a HASL PCB finish is preferred.
In recent days, Lead-free HASL has been widely used due to the absence of toxic substances and also due to its being environmentally friendly. Unlike traditional HASL, this finish doesn&#;t contain any lead contents in its composition, which makes it compliant with ROHS restrictions too.
HASL is mainly divided into 2 types based on the manufacturing process:
Lead-based HASL or traditional HASL.
Lead-free HASL finish.
Surface finish refers to a thin layer of coating done on a copper surface to prevent copper from oxidation and to make the surface ready for soldering the components onto the board&#;s surface efficiently without any problem. HASL is one such metallic surface finish which is widely used in PCB industries because of its excellent properties. In this article, we will deep dive into understanding the advantages, disadvantages, limitations and the process involved in HASL finish during manufacturing.
HASL coating involves only a few steps as it is a very simple process as explained below:
Preparing the PCB: Before applying the HASL surface finish, boards have to be cleaned thoroughly to remove any contaminants and oxides on the copper surface. This will help the surface of the board to be ready for the application of solder without any contamination.
Solder Application: After cleaning, the boards are submerged in the molten solder (tin/lead). This covers all the exposed copper pads on the board.
Hot Air Levelling: Excess solder on the boards is levelled by passing the boards over hot air knives. When blown to the board, These hot air knives not only remove the excess solder but also make the surface even with the uniform distribution of solder all over the board and also help to control the uniform thickness of the board.
Cooling and Cleaning: Boards are cooled after passing through hot air knives to make the solder dry and finally, they are cleaned again to get rid of any chemical stains or contaminants on the surface caused during the manufacturing process.
HASL PCB is used in several electronic equipment and a few of them are listed below:
Consumer electronics
Industrial equipment
Automotive electronics
Telecommunication devices
Medical devices
HASL is a low-cost process which is suitable for mass productions
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It is easy to rework compared to other finishes.
Solderability is excellent compared to other finishes
Uneven surface caused due to hot air knives makes the component soldering difficult.
Not appropriate finish for fine pitch components due to larger solder mask dams.
It is not suitable for wire bonding.
Due to the presence of lead in the traditional HASL process, It is not environmentally friendly.
Due to the restrictions of several toxic substances used in the PCB manufacturing industry which were having adverse effects on human health and the environment, the lead-free HASL process was introduced. Since it doesn&#;t contain lead, it is considered environmentally friendly which also complies with the ROHS restriction. It consists of an alloy which is free of lead such as tin-silver, tin-copper and tin-nickel. Due to the absence of a lead process, this finish is preferred by most manufacturers instead of a lead-based finish. The aim is to eliminate the use of lead, a toxic substance while maintaining the solderability and reliability of the PCB.
It meets environmental regulations such as ROHS restrictions. Hence it is environmentally friendly.
It provides a safer and healthier working environment as it doesn&#;t contain toxic substances.
Provides Uniform coating thickness compared to standard lead-based process.
Has Excellent Solderability.
Formation of tin whiskers on the surface which would result in a short circuit.
It has a higher melting point which leads to thermal stress & component failure.
Require modifications to the regular manufacturing process to accommodate higher temperature processes and different solder alloys.
Uneven surface finish: HASL finish has variation in the surface due to the blowing of air and the solder levelling process. This might affect the performance of the board after soldering the components as the components may fail due to improper connection.
Thermal stress: HASL coating involves several processes where molten solder after the coating is immediately cooled, which might result in thermal stress on the boards. Due to the thermal stress, some chances are boards getting delaminated and even causing warpage issues.
Not preferred for components with very tight pitch: Fine pitch components require very little space between the pads which in turn the solder webbing will also be less. HASL finish causes solder bridging between pads which might even tend to short circuit due to the minimum spacing between the pads. Hence it is not preferred when the component pitch is very tight.
In summary, HASL PCB is widely used because of its cost-effectiveness, simple process and suitability for thru-hole component soldering. With the inclusion of a lead-free process, HASL PCB finish has become environmentally friendly and compliant with ROHS. Overall, understanding the manufacturing process, advantages, disadvantages and the different types of HASL PCB finish is required to ensure the quality, durability and performance of the boards in manufacturing.
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Caution must be used when using tin / bismuth alloys. It is dangerous to mix tin / bismuth with lead containing alloys. Tin, bismuth, and lead can form a very low melting combination that melts around 95 °C. This could potentially lead to solder joint failure due to natural heating of the assembly during use.
Tin / bismuth alloys are safe to use in combination with other lead free tin-based alloys. In some cases surface mount assemblies are made with SAC305 on the first side and tin / bismuth on the second side. The low reflow temperature for tin / bismuth minimizes intermetallic growth in the SAC305 solder joints and allows for soldering of thermally sensitive components.
Definitelymix Pb solder with the low temp Bismuth-based solders (also there is the different melting point issues, but the alloy that forms is awful). Joint becomes very brittle due to strong intermetallic growth and easy to break with even what I could consider moderate force. For example, with the right (or wrong) mix of solder and a decent grip, I can pull SMD aluminium polymer caps off the board with my bare hands.I'm pretty sure remember reading a super old IBM article where they investigated this Bi/Pb mix for some temperature sensitive parts in a mainframe, and it was a disaster. Can't find the article now thoughAlso from http://www.surfacemountprocess.com/low-temperature-lead-free-solder-paste.html
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