PCB design services involve specialized activities aimed at creating an optimum printed circuit board layout using CAD software and other specialized PCB design tools. There are different kinds of PCBs and the process for each one may vary a bit. Regardless of the type of board or layout, though, it's always going to be roughly the same multi-stage designing process that begins with schematic capture.
At this point, it would be appropriate to note that the client is usually required to provide the designer with information about at least three basic aspects. One is the aforementioned schematic, although it may also be provided by the client as a netlist file. The netlist is simply a file that contains all the connectivity information for the design, along with descriptions of components used.
The client also has to provide the BOM (bill of materials) that lists all the components to be used and their footprints, although some designers also offer assistance with component footprint capture. Then there's also the board outline that must be provided. The outline, schematic/netlist and the BOM together constitute all the necessary information that will be used for designing the PCB.
Designers start with the netlist or schematic and use techniques such as library development, signal integrity checks, thermal simulation, stress analysis, EMI checking, etc. The series of intermediate steps lead to the development of a file in the gerber format. This is the final end product that designers hand over as a complete PCB image that is directly used in the manufacturing process.
The designer must be capable of coming up with solutions for complicated analog, digital, RF and mixed PCBs. Then there's also the type of board, which can be single-sided, double-sided or multi-layered. The board's size may vary, and so can the pin densities and component quantities.
Another important thing that has to be decided in the designing stage is about the characteristics of the board. The most critical thing is deciding the technique used for creating traces and mounting components. The most widely used solution is surface-mount technology.
Components on boards that use this technology have their end caps soldered on the same side as the components themselves. This is hugely different from earlier techniques such as through-hole boards. The leads of components in such older boards were inserted through holes and soldered on to the traces on the other side.
Apart from the schematic capture and subsequent board designing steps, the designer may also be called upon to evaluate existing designs, components and footprint captures. Sometimes they're also involved in prototype procurement, and may be asked to do availability checks and collect pricing information against the BOM.
Certain PCB design services are required even after the client receives the finished product. Customers may seek changes to the design immediately or in future, and reorders are quite common. It works the other way around too, with designers asked to reverse engineer gerber files or film artwork into a netlist format or schematic. This is often required when complex circuits require heavy modifications at the most basic level.
At this point, it would be appropriate to note that the client is usually required to provide the designer with information about at least three basic aspects. One is the aforementioned schematic, although it may also be provided by the client as a netlist file. The netlist is simply a file that contains all the connectivity information for the design, along with descriptions of components used.
The client also has to provide the BOM (bill of materials) that lists all the components to be used and their footprints, although some designers also offer assistance with component footprint capture. Then there's also the board outline that must be provided. The outline, schematic/netlist and the BOM together constitute all the necessary information that will be used for designing the PCB.
Designers start with the netlist or schematic and use techniques such as library development, signal integrity checks, thermal simulation, stress analysis, EMI checking, etc. The series of intermediate steps lead to the development of a file in the gerber format. This is the final end product that designers hand over as a complete PCB image that is directly used in the manufacturing process.
The designer must be capable of coming up with solutions for complicated analog, digital, RF and mixed PCBs. Then there's also the type of board, which can be single-sided, double-sided or multi-layered. The board's size may vary, and so can the pin densities and component quantities.
Another important thing that has to be decided in the designing stage is about the characteristics of the board. The most critical thing is deciding the technique used for creating traces and mounting components. The most widely used solution is surface-mount technology.
Components on boards that use this technology have their end caps soldered on the same side as the components themselves. This is hugely different from earlier techniques such as through-hole boards. The leads of components in such older boards were inserted through holes and soldered on to the traces on the other side.
Apart from the schematic capture and subsequent board designing steps, the designer may also be called upon to evaluate existing designs, components and footprint captures. Sometimes they're also involved in prototype procurement, and may be asked to do availability checks and collect pricing information against the BOM.
Certain PCB design services are required even after the client receives the finished product. Customers may seek changes to the design immediately or in future, and reorders are quite common. It works the other way around too, with designers asked to reverse engineer gerber files or film artwork into a netlist format or schematic. This is often required when complex circuits require heavy modifications at the most basic level.
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