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Mastering the Art of PCB Design Basics

To be a proficient designer, understanding the basics of PCB design is vital. The knowledge of appropriate component selection, schematic checks, to the final QC is essential for a successful design. 



PCB design in brief


Printed circuit board design begins with the creation of a conceptual block diagram. This block diagram is converted into a design using a CAD software. A schematic is the representation of component symbols and net connections between them. Nets are the traces on the board. 


Pre-layout is the next phase in the design process where the from the schematic is verified for long lead time components and obsolete components. Validation involves verifying manufacturer part numbers (MPNs) and vendor part numbers (VPNs). Additionally, this stage includes the stack-up design.


Next comes the stage.  It involves setting up the board parameters, determining its outline, routing the components, and generating the production documents.


PCB schematic

Circuit board schematic


PCB design basics


While designing a new PCB, it is necessary to adhere to design basics. If neglected, it will result in a poor board design that will be very difficult to manufacture. Therefore, it is necessary to pay attention to the following concepts:


PCB design basics

Basic considerations for PCB design


Choose appropriate components and package sizes


As a board designer, you should thoroughly study the BOM and examine the parts that go into the design. When there is sufficient space on the board, you may opt for larger components for resistors and capacitors. It is beneficial to use a 0603 or 0805 size capacitor/resistor instead of a 0402/0201. Select the smaller version of the component if you have spacing issues. Moreover, choose your appropriate component and package based on the required current, voltage, and frequency.


Smaller components are manufactured by various vendors. It allows designers to choose alternate parts without modifying the schematic or layout, providing a timely solution for components that are not in stock.


Furthermore, it is crucial to decide the appropriate size of the package during the PCB design phase. It is recommended to choose smaller packages only when necessary; otherwise, choose larger packages. Using too many small component packages can create issues during , which leads to difficulties during cleaning and reworking.  


As soon as you determine the ideal package size, you can choose components in the same density category.


Small-sized components on a PCB

Small-sized components on a PCB


 Avoid long lead-time components


The unavailability of components can cause considerable delays. So, it is better to check the availability while confirming component spacing. If your component has a long lead-time, order it immediately. It can be beneficial to have alternate components with the same footprint. Assembly vendors can also procure the widely available parts so that every component will be readily available when it is time to assemble the boards.


Schematic checks


A schematic is a well-structured circuit diagram that represents the electrical connections between various electronic components.


PCB schematic checks

An example of a PCB schematic


Schematic design basics often get ignored. Make sure you verify the following:



  • Verification of pin numbering and labels in component symbols

  • A polarity check for all the polarized components

  • Overlapping labels and Pins

  • Ensuring the base, collector, and emitter pins according to the schematic symbols, datasheet, and footprint package

  • Validation of the component value, location, and reference designators

  • Descriptions of the schematic symbols

  • Off-page connectors

  • Checking the inter-sheet reference

  • Decoupling capacitor check for all ICs, ground pin separation according to the signal type (analog, digital, signal, ground)

  • Netlist check for design correctness and wrong connections


Add test points to all important signals


Test points are required to check the electrical conductivity of the board. It is necessary to add test points for all important signals to facilitate electrical tests (E-test) and in-circuit tests (ICT). Keep an eye on the following:



  1. Board side: If possible, all test points should be located on the same side of the board to facilitate testing. 

  2. Minimum test point distance: The minimum distance between test points is 0.100 inches. It maximizes test effectiveness. 

  3. Test point distribution: Distributing test points evenly on a circuit board makes testing easier with multiple probes.

  4. Area for taller components: Designating the area for taller components can streamline the testing.

  5. Manufacturing tolerances: Make sure to consider manufacturing tolerances while designing a layout to accommodate a space for test points.


Make sure your BOM is up to date while designing


A BOM is a detailed list of all the components required to produce a product. Keep your BOM up to date while designing, and if you make any changes to your design, ensure you have also implemented those changes in your bill of materials. For example, if you change the part number in the schematic, update the BOM as well. 



Before you validate your BOM file, ensure that all the active parts are included in it. The parts should be validated with respect to the following fields: 



  • Serial number

  • Part description

  • Designators matching the schematic

  • Quantity of the parts

  • MPN 

  • VPN 

  • DNI (do not install) components


Bill of materials (BOM)

An example of a BOM


Stack-up preparation in PCB design


is an important attribute in the basics of PCB design. It defines the structure of a in a sequential manner. Stack-up provides information about the material thickness and copper weights that are vital for . When boards are precisely stacked, and are reduced, and the is improved.


Know your board’s mechanical constraints, which include board thickness and component height. It is important to know the requirements, including the number of differential pairs, as it will impact the number of layers in your board. The routing density of the circuit board will also impact the number of layers. based on the fastest rise time.


PCB stack-up

A typical multilayer PCB stack-up


Verify the manufacturability of your stack-up using our free Stack-up Planner. The following parameters are necessary for the planner:



  1. The PCB material (FR4, I-Speed, Rogers, etc.) depends on the frequency requirements and environment.

  2. Layers including signal and power layers.

  3. Impedance requirements such as 50Ω single-ended, 90Ω differential, or 100Ω differential

  4. Copper thickness (½ or 1 or  2 ounces)



Carefully inspect your footprint development


Schematic, complete BOM, and stack-up are the backbone of your circuit board. It is easier to create footprints for some components when they come in standardized packages. In most cases, the footprints of standard packages are available in the software’s library (Altium Designer, Allegro, etc.). Otherwise, you will have to create it based on the datasheet of the component.


Confirm library components match the recommended provided in the datasheet. After designing your footprint, do a quality check. Mark your component orientation. Footprints must be checked for top and bottom views, pin pitch, and height. Ensuring the accuracy of your footprint as per the land pattern will eliminate issues during assembly.


To identify the correct part and its land pattern, it is essential to use the numbering key accurately from the datasheet. An incorrect interpretation of the datasheet will result in the wrong footprint, which may require an entire re-design and re-fabrication of the boards.


The following image shows an example of a numbering key and a variety of footprints.


Numbering key in the footprint

Numbering key included in the datasheet


 


Footprint model numbers and related PINs

A chart showing model numbers and their related Pins


Placement of components


Once the mechanics of the board have been finalized, next is placing components. The proper on a PCB leads to better performance and signal quality. It begins with placing the parts which are at the specified locations according to the design requirements. These components usually consist of connectors and their associated parts. Following that, the main components such as the CPU, memory, and analog circuits will be placed in their proper positions. The third step involves placing auxiliary components such as crystals, , and series resistors.  


Also read,


Note: Make sure that the mechanical drawing includes the location of mounting holes and parts with critical location and rotation. Check if the drawing has any height restrictions for the top and bottom sides.


Basics of component placement on a PCB

Appropriate component placement on a PCB


PCB routing


Routing begins with setting for physical spacing and impedance rules. should be made based on the current requirements of the different circuitry. Assign appropriate rules to the nets accordingly. All controlled impedance traces must have a continuous reference plane layer. 


The process of routing involves laying copper traces between the nodes. This conductive path is defined by the placement of traces, , and arcs that connect the nodes. After routing, the power/ground plane connections are established.


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PCB fabrication drawing


A well-designed can save time, reduce costs, and eliminate hassle. The fabrication drawing contains information about the fabrication and mechanics of the circuit board. It consists of stack-up information, fabrication notes, IPC standards, and impedance notes.


Fab drawings are sent as PDFs to manufacturers. The fab drawing should contain all the necessary details required to fabricate a board. It should mainly consist of:



  1. Board dimensions

  2. Board outline

  3. chart

  4. Stack-up drawing

  5. Etching tolerance and copper trace


PCB fabrication drawing

An example of a fabrication drawing


Board assembly drawing


A PCB assembly drawing contains all the information that is required to assemble the board. This drawing can be in a .pdf or .jpg format and can include component outlines, surface mount and through-hole pads, polarity marks, board outline, and titles.


Additionally, assembly drawing consists of a few key points as follows:



  • Component outlines: Make sure to display all of the component shapes and their respective reference designators for . It will also include the components that are to be press-fitted or attached with mounting hardware.

  • Additional views: Double-sided boards will usually require a view of the front and the backside. Both views can be accommodated on one single sheet if the PCB is small, otherwise, you will need to include additional sheets.

  • Manufacturing labels: Identifying manufacturing labels such as barcodes or assembly tags with a pointer and referencing them in the notes.

  • Assembly notes: These are a set of instructions containing assembly information, industry standards and specifications, and special feature locations.


Final QC and exporting the correct Gerber files


Once the layout has been completed, the final step is running a set of checks. In this step, (design for manufacturability) is performed to verify the underlying issues associated with the design. These tests will eliminate issues that could have occurred during manufacturing. Using the Sierra Circuits better DFM tool, you can verify the design’s manufacturability. Your design files (in Gerber format) are analyzed, and detailed information about errors in the design rules is displayed.



The final set of deliverables should include all the files, including the fabrication and assembly drawings, drill files, IPC-356, , and X-Y placement files for assembly. With this information, your fabrication house can perform design for manufacturing (DFM) and (DFA) checks on the board.


Let us know in the comment section if you want to learn more related PCB design, manufacturing, and assembly. We will be happy to help you out.


 


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