PCB Assembly – Pros And Cons Of Surface-Mount Technology

Printed circuit board, usually known as PCB assembly, has continuously progressed over several years to turn into a streamlined, productive, and an essential element of a wide array of automobiles, computing terminals, machines and various other electronic gadgets. Furthermore, they also have an unmatched impact on the launch of new inventions and innovations in the international electronics sector. The compact foundation and substantial dependability in electrically hooking up specific electronic pieces of a device’s design emphasizes the intricacy necessary to produce premium quality printed circuit boards.

Pcb-assemblyThese days, the most widely used PCB assembly approach is SMT or surface mount technology. This has become a huge advancement over previous assembly methods, like plated through-hole or PTH assembly. In a number of ways, SMT assembly is currently regarded as the standard of printed circuit board assembly techniques.

The main benefits of SMT over the PTH method are the following:

1. SMT has smaller parts. By 2012, the smallest is measured at 0.4 × 0.2 millimeters. It is anticipated to produce 0.25 × 0.125 millimeter measurements in the 2013.

2. It has increased component density and a lot more connections for each component.

3. It required a lesser number of holes to be drilled.

4. SMT is an easier and quicker automated PCB assembly. A number of placement models are designed for placing over 136 thousand components each hour.

5. Minor glitches in component positioning are fixed automatically since the surface pressure of liquefied solder aligns the parts with solder pads.

6. Parts may be put on the two sides of the printed circuit board.

7. It carries a reduced level of inductance and resistance of the connection. As a result, there is only less undesirable radio wave signal and more foreseeable high-frequency efficiency.

8. It performs better mechanically under vibration conditions.

9. It requires lower preliminary cost and lesser setup time for production.

10. Numerous SMT components are less costly as compared to equivalent PTH components.

11. It has better lower radiated emissions compatibility on account of the smaller sized lead inductance and the more compact radiation loop spot.


1. Surface mount technology is a manual prototype set up, which has a higher difficulty level. This indicates that it demands qualified operators and higher priced tools, because of the tiny sizes and lead spatial arrangements of several surface-mount devices.

2. These devices cannot be utilized straight to plug-in bread boards, a click-and-play prototyping application. This means that it would need either a customized PCB assembly for each prototype or the installation of the surface mount device on a pin guided carrier. To prototype a certain SMD part, a cheaper breadboard may work extremely well. In addition, strip board type proto boards may be employed. Many of which incorporate shields for regular sized components. Dead bug breadboard may be utilized for prototyping.

3. Solder joint measurements in surface mount technology speedily become a lot smaller while improvements are built in the direction of super fine pitch engineering. The dependability of solder joints turns into more of an issue, since much less solder is permitted for every joint. Voiding has been a mistake frequently related to solder joints, particularly when reflowing SMT’s solder paste. The existence of voids may weaken the joint and ultimately bring about joint failure.

4. The solder connections could possibly be destroyed through planting of substances undergoing thermal cycling.

5. SMT is inapplicable as the only attachment technique for parts that are susceptible to recurrent mechanical tension, like connectors that are utilized to program together with external resources that are often fastened and detached.

6. This type of PCB assembly is also not fit for huge, high-power components, just like in electric circuitry. It’s quite common to incorporate SMT and PTH design, with heat-sunk power semiconductors, transformers, large-sized capacitors, connectors, fuses, and many others installed on a single side of the printed circuit board through holes.

PCBs have turned into a vital part of an extensive variety of apparatuses, figuring gadgets, cars, machines, and other electronic contraptions.Visit pcbnet.com for more information.