The reliability of PCB and the respective PCB components like IC (integrated circuit) or BGA (ball grid array) can vary with every design and selection of semiconductor components installed. For each type and series of PCB design, ideally automated, in-process quality control and testing of PCB is needed at manufacturing. In addition, at customer level for inspecting for “dead on arrival” issues, caused for example by breaking on weak points during transportation, quality control methods are part of the process. TopMap optical 3D surface metrology allow fast scanning of entire sample surfaces with nanometer resolution, providing areal topography data of PCB, IC and BGA in a single shot.
Types of ball grid array packaging
Looking onto the history of semicon packaging, there were DIPs (dual in line package) at first, QFP (quad flat package) or QFN (quad flat no leads), BGA (ball grid arrays) as one of the most popular packaging techniques, leading to the always higher pin count. BGA are well established in consumer electronics such as smartphones, tablets, motherboards and digital cameras. In comparison to DIPs and QFPs: the BGA shows more I/O connections, shorter connectors leading to improved performance and high speed. Bump materials typically are SnPb , SnAgCu , SnIn, SnBi with bump diameters typically reaching 90-400 µm and a distance between bumps of around 0.1 to 2 mm.
Typical failure and defects in BGA manufacturing
In the manufacturing of BGAs, for example using the flip chip method, which describes the connection by applying heat and pressure on the substrate, typical manufacturing errors or defects can occur when the pitch is too high or the bump is too small or too big. Polytec TopMap surface profilers are ideal metrology solutions for areal measurement and inspection of ball height / bump height, coplanarity, chip flatness and chip warpage, bga ball flatness, for optical inspection of the entire BGA pitch or focusing on the shape of the pure ball tip in an optical and non-contact way.
Another BGA manufacturing issue is the uncontrolled warpage – a phenomena of areal deformation of the entire surface of a PCB or a BGA, causing unconnected areas and defects on the BGA. If the warpage is not under control, even the perfectly manufactured ball grids would not fullfill the desired functional behavior, leading to the BGA improperly fitting into the board. Optical profilers like TopMap white-light interferometers reliably detect warpage on large areas in a non-contact way in 3D – allowing clear damage detection as valuable feedback for the BGA manufacturing process.
Using 3D optical profilers for areal and non-contact characterization can be powerful quality control tools: For measuring topography of electronic components, testing of printed circuit boards (pcb testing), solder bumps, ball grid array flatness measurement, pass-fail analysis and process trouble-shooting in the manufacturing of PCB. Providing valuable feedback for the production process of PCB and electronics, optical profiling can be an efficient integral part of the quality control process of electronics and micro-electronics. Usually, more advanced and complex PCB are applied and designed layer by layer which might require layer thickness measurement and distinguishing several layers. Here, optical testing solutions from Polytec open up a realm of solutions for measuring layer thickness as one quality indicator.
For characterizing PCBs for failure analysis, checking BGA flatness in a non-contact way, for free feasibility studies and a first sample report, contact us.