Rule 1: Select the correct grid - Set and always use the grid spacing that matches the most components. Although multi-grid seems to be effective, engineers can avoid problems when setting up the interval and maximize the application of the board if they can think more at the beginning of the PCB layout design. Since many devices are available in a variety of package sizes, engineers should use products that are best suited for their design. In addition, polygons are critical for board copper placement. Multi-grid boards typically produce polygon fill deviations when performing copper-clad copper. Although not as standard as a single grid, they provide the required board life. .
Rule 2: Keep the path the shortest and most direct. This sounds simple, but it should be kept in mind at every stage, even if it means changing the board layout to optimize the wiring length. This is especially true for analog and high-speed digital circuits where system performance is always partially limited by impedance and parasitic effects.
Rule 3: Manage the distribution of power and ground lines as much as possible using the power plane. Power layer copper is a faster and simpler option for most PCB design software. By connecting a large number of wires in a common connection, the highest efficiency and minimum impedance or voltage drop current is guaranteed while providing a sufficient ground return path. If possible, run multiple power lines in the same area of the board to verify that the ground plane covers most of the layer of a layer of the PCB, which facilitates the interaction between the lines running on adjacent layers.
Rule 4: Group the relevant components together with the required test points. For example, placing discrete components required for OpAmp op amps closer to the device allows bypass capacitors and resistors to collaborate with them, helping to optimize the wiring lengths mentioned in Rule 2, while also enabling test and fault detection. It's getting easier.
Rule 5: Repeat the copying of the required board on another larger board for PCB imposition. Choosing the size that best suits the equipment used by the manufacturer helps to reduce prototyping and manufacturing costs. First make the board layout on the panel, contact the board manufacturer to get the preferred size specifications for each of their panels, then modify your design specifications and try to repeat your design multiple times within these panel sizes.
Rule 6: Integrate component values. As a designer, you will choose discrete components with high or low component values but the same performance. By integrating within a small range of standard values, bills of materials can be simplified and costs can be reduced. If you have a range of PCB products based on your preferred device values, it will be better for you to make the right inventory management decisions in the longer term.
Rule 7: Perform Design Rule Check (DRC) as much as possible. Although it takes only a short time to run the DRC function on the PCB software, in a more complex design environment, as long as you perform checks during the design process, you can save a lot of time. This is a good habit to keep. Every cabling decision is critical, and you can always remind you of the most important cabling by performing a DRC.
Rule 8: Flexible use of screen printing. Screen printing can be used to label a variety of useful information for future use by board manufacturers, service or test engineers, installers, or equipment commissioners. Not only the clear function and test point label, but also the direction of the components and connectors should be indicated as much as possible, even if these comments are printed on the lower surface of the component used on the board (after board assembly). Full application of screen printing technology on the lower surface of the board reduces duplication of effort and streamlines the production process.
Rule 9: Decoupling capacitors must be selected. Do not attempt to optimize your design by avoiding decoupling the power cord and depending on the limits in the component datasheet. Capacitors are inexpensive and rugged, so you can spend as much time as possible assembling the capacitors while following Rule 6 and using standard values to keep stocks tidy.
Rule 10: Generate PCB manufacturing parameters and verify them before submitting for production. While most board manufacturers are happy to download and verify it for you, it's best to export the Gerber file yourself and use the free viewer to check if it is as expected to avoid misunderstandings. By personally verifying, you will even find some negligent mistakes, and thus avoid losing production by following the wrong parameters.
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