Surface mount technology (SMT) is an alternative to older through-hole (TH) printed circuit board (PCB) design and manufacturing. Even when there are reasons to use through-hole components on your PCB, surface mounted components almost always win. In fact, almost all equipment manufactured commercially uses surface mounted technology.
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Lets learn more about how surface mount components compare to through-hole components and the reasons to use surface mount technology during PCB manufacturing.
What is Surface Mount Technology?
During the s and s, automation started to rise for PCB assembly. Traditional components with leads were not easy for PCB assembly. Instead, resistors and capacitors needed to have pre-formed leads so that they could fit through holes.
Even though this was the preferred method, it was a difficult approach to master. Leads often missed the holes because they were very tight, slowing down the PCB assembly process and raising manufacturing costs.
Thankfully, surface mount technology was born. Rather than having to wire between two points, SMT components are set onto a board and then soldered to it. Their leads do not have to go through any holes as would be required in a traditional leaded component.
Benefits of Surface Mount Technology in Design
SMT allows for more efficient, automated PCB assembly and mass production. This is why virtually all equipment commercially manufactured today uses surface mount technology. Lets explore the main benefits of using this technology:
SMT for Printed Circuit Board Assembly
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Because of our efficient and automated processes, you can expect your PCB assembly to be completed on time and according to your budget. You can count on us for exceptional service and reliability! Contact Sonic Manufacturing to learn more about incorporating high-quality surface mount technology into your PCB components.
Surface mount technology is a part of the electronic assembly that deals with the mounting of electronic components to the surface of a PCB. Electronic components mounted this way are called surface-mounted devices (SMD).
SMT was developed to minimize manufacturing costs while making efficient use of board space. The introduction of surface mount technology has enabled manufacturers to fabricate smaller size complex circuit boards. There are various advantages and disadvantages of surface mount technology which we will discuss over the course of this article.
Surface-mount technology was developed in the s and was broadly used in the s. By the s, they were used in most of the high-end PCB assemblies. Conventional electronic components were redesigned to include metal tabs or end caps that could be attached directly to the board surface. This replaced typical wire leads which needed to pass through drilled holes. SMT led to much smaller components and enabled component placement on both sides of the board. Surface mounting enables a higher degree of automation minimizing labor costs and expanding production rates that results in the development advanced of boards.
SMT allows electrical components to be mounted on the board surface without any drilling. Most electronic applications prefer to use surface mount components since they are compact and may be installed on either side of a printed circuit. They are suitable for applications with higher routing densities. These components have smaller leads or no leads at all and are smaller than through-hole components.
The process involved in SMT assembly is:
In through-hole technology, the component leads are inserted into the drilled holes on the board. These leads are then soldered to pads on the opposite side using wave soldering or re-flow soldering tools. Since through-hole mounting offers strong mechanical bonds, it is highly reliable. However, drilling PCBs during production tends to increase manufacturing costs. Also, through-hole technology limits the routing area for signal traces below the top layer of multi-layer PCBs.
SMT has many advantages over conventional through-hole technology:
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Even though SMT has several advantages, the technology also comes with it certain disadvantages:
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The majority of products manufactured at this time utilize surface mount technology. But SMT is not suitable in all cases. Consider SMT considered if:
Here are some recommendations for SMD placement to maintain good signal and power integrity for your board.
To facilitate the assembly process ensure that all component names, polarities, orientations, and placements are marked properly in the assembly drawing. The footprints present in the drawings should match with the actual parts. Consult your manufacturer for their kitting guideline if you are considering consigned assembly. Prepare your BOM accordingly.
Solder reflow and wave soldering are widely used to mount components onto the board. Depending on the nature of the components, the designer can choose one of these methods for surface mounting technology.
Wave soldering: Since the solder will flow through the holes to form a connection, wave soldering is mostly used for through-hole components. You can use wave soldering for most of the surface-mount components also.
Solder reflow: This process is generally preferred in SMT. Here, the solder on one pin melts and reflows faster than the other. The only disadvantage is that it causes a tombstoning effect, where the component peels away from the non-melted pad. This effect is common for surface mount components like resistors, capacitors, and inductors.
SMD packages come in a broad range of shapes and sizes as given below:
Common passive discrete components: These components are mostly resistors and capacitors and are a part of most electronic devices available today. Given below are SMD package details for capacitors and resistors.
Transistors: The common type of packages for transistors are as follows:
Integrated Circuit (IC) packages
Integrated Circuit packages come in a wide range as given below:
Small Outline Package (SOP)
TSOP (Thin Small Outline Package) is thinner than SOIC
Quad flat packs are generic square, flat IC packages.
BGA packages include an arrangement of solder balls on the chip underside in the place of pins. The ball spacing typically is 1.27, 0.8, 0.5, 0.4, and 0.35mm
The chip is enclosed in a plastic mold. It can either be square or rectangular in shape.
Surface mount component standards are specified by the Joint Electron Device Engineering Council (JEDEC) Solid State Technology Association (JEDEC.org). JEDEC is an independent semiconductor engineering trade organization and standardization body that has its headquarters in Arlington, Virginia, United States.
You can measure SMD size in inches in the Imperial system and millimeters in the Metric system. For the imperial components, the dimensions are 0.02 x 0.01 inches. For the metric components 0.2 x 0.1 mm.
Understanding the advantages and disadvantages of surface mount technology is essential to comprehend its role in the electronics industry. This will always help in optimizing your design and assembly skills. Follow the guidelines listed in this article to completely benefit from the SMT process for component placement. Please comment below if you have any queries on employing surface mount technology for your design. We will be happy to help you.
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