• Four Stages of PCB Design and Assembling
    #PCBassembly
    #PrintedCircuitBoard
    #PCBBoard
    #PCBAssembly
    #smtassembly
    #pcbassemblyservices
    PCB is a printed circuit board that helps connect different electrical components. The board is a combination of laminated material, and the copper foil laid on a non-conductive substrate.
    A PCB is the main part of any electronic device, so it has to be perfect. It should have functional components and microelectronics circuits to perform well. Development of PCB goes through different processes that you should know well. PCB manufacturing has 4 stages, including design, manufacturing, PCB assembly, and PCB testing.
    First Stage- Design
    PCB design involves different steps, such as schematic design, layout planning, the placement of the components, routing, and manufacturing files.
    PCB schematic design: It is a blueprint of PC design that shows all PCB components with symbols. The schematic design is always according to the technical requirements of the user.
    Layout planning: After the schematic design, you have to develop the layout of a PCB that includes physical components’ models, the shape of the PCB, and the structure of a PCB.
    Placement of components: It involves planning the placement of various components. You decide on the PCB layers according to your requirements. The right placement of the components ensures a flawless board, decreasing the production cost.
    First of all, the designer places the fixed components in the layout, including switches and connectors.
    Then, the critical components are placed, such as memory chips, microprocessors, as well as power supplies.
    Then the supporting components of the PCB are placed, like inductors, capacitors, and resistors.
    In the end, the decoupling capacitors and terminating resistors are placed.
    Routing: Once the components are placed, you have to connect all components through trace routing. There are four ways to do so, such as manual routing, auto-interactive routing, semi-automatic, and batch-auto routing. You can choose any method according to your Printed Circuit Board and budget.
    Design: In this stage, you have to plan for the number of board layers, dimension of the board, and types of components. You can use a special app in this case, such as EDA or electronic design automation. The designer often adopts the SMT instead of a through-hole technology, depending on your requirements.Once the design is over, you can export the design files to CAD or Gerber format.
    Preparation of manufacturing files: This is the last stage of design where the designer exports the Gerber files for manufacturing. The manufacturer needs these files to develop a printed circuit board.
    View more: https://youtu.be/GEqfgWv5hLM
    Website: https://pnconline.com/
    Facebook: https://www.facebook.com/PNCONLINE
    Twitter: https://twitter.com/PNCINC
    Instagram: https://www.instagram.com/pnc_pcb/
    Tumblr: https://www.tumblr.com/blog/view/pncinc
    Myspace :https://myspace.com/pncinc2020
    Bresdel: https://bresdel.com/pncinc
    Pinterest :https://www.pinterest.com.au/rrosh2014/_created/

    Call us: (973) 284-1600
    Email us: sales@pnconline.com
    Location: PNC INC, 115 East Centre St.Nutley, NJ, 07110
    Four Stages of PCB Design and Assembling #PCBassembly #PrintedCircuitBoard #PCBBoard #PCBAssembly #smtassembly #pcbassemblyservices PCB is a printed circuit board that helps connect different electrical components. The board is a combination of laminated material, and the copper foil laid on a non-conductive substrate. A PCB is the main part of any electronic device, so it has to be perfect. It should have functional components and microelectronics circuits to perform well. Development of PCB goes through different processes that you should know well. PCB manufacturing has 4 stages, including design, manufacturing, PCB assembly, and PCB testing. First Stage- Design PCB design involves different steps, such as schematic design, layout planning, the placement of the components, routing, and manufacturing files. PCB schematic design: It is a blueprint of PC design that shows all PCB components with symbols. The schematic design is always according to the technical requirements of the user. Layout planning: After the schematic design, you have to develop the layout of a PCB that includes physical components’ models, the shape of the PCB, and the structure of a PCB. Placement of components: It involves planning the placement of various components. You decide on the PCB layers according to your requirements. The right placement of the components ensures a flawless board, decreasing the production cost. First of all, the designer places the fixed components in the layout, including switches and connectors. Then, the critical components are placed, such as memory chips, microprocessors, as well as power supplies. Then the supporting components of the PCB are placed, like inductors, capacitors, and resistors. In the end, the decoupling capacitors and terminating resistors are placed. Routing: Once the components are placed, you have to connect all components through trace routing. There are four ways to do so, such as manual routing, auto-interactive routing, semi-automatic, and batch-auto routing. You can choose any method according to your Printed Circuit Board and budget. Design: In this stage, you have to plan for the number of board layers, dimension of the board, and types of components. You can use a special app in this case, such as EDA or electronic design automation. The designer often adopts the SMT instead of a through-hole technology, depending on your requirements.Once the design is over, you can export the design files to CAD or Gerber format. Preparation of manufacturing files: This is the last stage of design where the designer exports the Gerber files for manufacturing. The manufacturer needs these files to develop a printed circuit board. View more: https://youtu.be/GEqfgWv5hLM Website: https://pnconline.com/ Facebook: https://www.facebook.com/PNCONLINE Twitter: https://twitter.com/PNCINC Instagram: https://www.instagram.com/pnc_pcb/ Tumblr: https://www.tumblr.com/blog/view/pncinc Myspace :https://myspace.com/pncinc2020 Bresdel: https://bresdel.com/pncinc Pinterest :https://www.pinterest.com.au/rrosh2014/_created/ Call us: (973) 284-1600 Email us: sales@pnconline.com Location: PNC INC, 115 East Centre St.Nutley, NJ, 07110
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  • Four Stages of PCB Design and Assembling
    #PCBassembly
    #PrintedCircuitBoard
    #PCBBoard
    #PCBAssembly
    #smtassembly
    #pcbassemblyservices
    PCB is a printed circuit board that helps connect different electrical components. The board is a combination of laminated material, and the copper foil laid on a non-conductive substrate.
    A PCB is the main part of any electronic device, so it has to be perfect. It should have functional components and microelectronics circuits to perform well. Development of PCB goes through different processes that you should know well. PCB manufacturing has 4 stages, including design, manufacturing, PCB assembly, and PCB testing.
    First Stage- Design
    PCB design involves different steps, such as schematic design, layout planning, the placement of the components, routing, and manufacturing files.
    PCB schematic design: It is a blueprint of PC design that shows all PCB components with symbols. The schematic design is always according to the technical requirements of the user.
    Layout planning: After the schematic design, you have to develop the layout of a PCB that includes physical components’ models, the shape of the PCB, and the structure of a PCB.
    Placement of components: It involves planning the placement of various components. You decide on the PCB layers according to your requirements. The right placement of the components ensures a flawless board, decreasing the production cost.
    First of all, the designer places the fixed components in the layout, including switches and connectors.
    Then, the critical components are placed, such as memory chips, microprocessors, as well as power supplies.
    Then the supporting components of the PCB are placed, like inductors, capacitors, and resistors.
    In the end, the decoupling capacitors and terminating resistors are placed.
    Routing: Once the components are placed, you have to connect all components through trace routing. There are four ways to do so, such as manual routing, auto-interactive routing, semi-automatic, and batch-auto routing. You can choose any method according to your Printed Circuit Board and budget.
    Design: In this stage, you have to plan for the number of board layers, dimension of the board, and types of components. You can use a special app in this case, such as EDA or electronic design automation. The designer often adopts the SMT instead of a through-hole technology, depending on your requirements.Once the design is over, you can export the design files to CAD or Gerber format.
    Preparation of manufacturing files: This is the last stage of design where the designer exports the Gerber files for manufacturing. The manufacturer needs these files to develop a printed circuit board.

    Stage 2-Manufacturing of Circuit Board
    Once the manufacturer receives all design drawings, he starts making PCB. It involves different stages as described below:
    Design Imaging: The manufacturer uses a plotter to convert the PCB design files into filmslike they resemble the photo negatives of the schematic design. The printer uses black and clear inks for inner and outer layers. Copper traces and circuits are shown with black ink, whereas the non-conductive parts are shown with clearink.
    Printing of Inner Layers on Copper: It is the initial stage of PCB manufacturing. The engineer uses a substrate material to make a laminated board. Like, epoxy resin or fiberglasses are common in this case. The design of the PCB is printed on the board, and then his pre-bondscopper on a board’s both sides. After that comes the etching of copper, and then the board is protected through a photo-sensitive film.
    Ultraviolet Light: the manufacturer then exposes the resist-covered PCB to UV light to strengthen the photo-reactive material. Then the board is cleaned with an alkaline solution to get rid of unnecessary copper particles. The expert checks the board to remove any errors and then goes to the next stage. The main aim of UV blasting is to develop a PCB Board according to the schematic drawing.
    Inner layer’s etching: copper’s inner layer needs chemical etching for removal. The process of photoresist prevents the essential copper from etching. The board size determines the amount of the solution and etching time which is less for small boards but more for large boards.
    Read more: https://bit.ly/3bUkSaE
    Website: https://pnconline.com/
    Facebook: https://www.facebook.com/PNCONLINE
    Twitter: https://twitter.com/PNCINC
    Instagram: https://www.instagram.com/pnc_pcb/
    Tumblr: https://www.tumblr.com/blog/view/pncinc
    Myspace :https://myspace.com/pncinc2020
    Bresdel: https://bresdel.com/pncinc
    Pinterest :https://www.pinterest.com.au/rrosh2014/_created/

    Call us: (973) 284-1600
    Email us: sales@pnconline.com
    Location: PNC INC, 115 East Centre St.Nutley, NJ, 07110
    Four Stages of PCB Design and Assembling #PCBassembly #PrintedCircuitBoard #PCBBoard #PCBAssembly #smtassembly #pcbassemblyservices PCB is a printed circuit board that helps connect different electrical components. The board is a combination of laminated material, and the copper foil laid on a non-conductive substrate. A PCB is the main part of any electronic device, so it has to be perfect. It should have functional components and microelectronics circuits to perform well. Development of PCB goes through different processes that you should know well. PCB manufacturing has 4 stages, including design, manufacturing, PCB assembly, and PCB testing. First Stage- Design PCB design involves different steps, such as schematic design, layout planning, the placement of the components, routing, and manufacturing files. PCB schematic design: It is a blueprint of PC design that shows all PCB components with symbols. The schematic design is always according to the technical requirements of the user. Layout planning: After the schematic design, you have to develop the layout of a PCB that includes physical components’ models, the shape of the PCB, and the structure of a PCB. Placement of components: It involves planning the placement of various components. You decide on the PCB layers according to your requirements. The right placement of the components ensures a flawless board, decreasing the production cost. First of all, the designer places the fixed components in the layout, including switches and connectors. Then, the critical components are placed, such as memory chips, microprocessors, as well as power supplies. Then the supporting components of the PCB are placed, like inductors, capacitors, and resistors. In the end, the decoupling capacitors and terminating resistors are placed. Routing: Once the components are placed, you have to connect all components through trace routing. There are four ways to do so, such as manual routing, auto-interactive routing, semi-automatic, and batch-auto routing. You can choose any method according to your Printed Circuit Board and budget. Design: In this stage, you have to plan for the number of board layers, dimension of the board, and types of components. You can use a special app in this case, such as EDA or electronic design automation. The designer often adopts the SMT instead of a through-hole technology, depending on your requirements.Once the design is over, you can export the design files to CAD or Gerber format. Preparation of manufacturing files: This is the last stage of design where the designer exports the Gerber files for manufacturing. The manufacturer needs these files to develop a printed circuit board. Stage 2-Manufacturing of Circuit Board Once the manufacturer receives all design drawings, he starts making PCB. It involves different stages as described below: Design Imaging: The manufacturer uses a plotter to convert the PCB design files into filmslike they resemble the photo negatives of the schematic design. The printer uses black and clear inks for inner and outer layers. Copper traces and circuits are shown with black ink, whereas the non-conductive parts are shown with clearink. Printing of Inner Layers on Copper: It is the initial stage of PCB manufacturing. The engineer uses a substrate material to make a laminated board. Like, epoxy resin or fiberglasses are common in this case. The design of the PCB is printed on the board, and then his pre-bondscopper on a board’s both sides. After that comes the etching of copper, and then the board is protected through a photo-sensitive film. Ultraviolet Light: the manufacturer then exposes the resist-covered PCB to UV light to strengthen the photo-reactive material. Then the board is cleaned with an alkaline solution to get rid of unnecessary copper particles. The expert checks the board to remove any errors and then goes to the next stage. The main aim of UV blasting is to develop a PCB Board according to the schematic drawing. Inner layer’s etching: copper’s inner layer needs chemical etching for removal. The process of photoresist prevents the essential copper from etching. The board size determines the amount of the solution and etching time which is less for small boards but more for large boards. Read more: https://bit.ly/3bUkSaE Website: https://pnconline.com/ Facebook: https://www.facebook.com/PNCONLINE Twitter: https://twitter.com/PNCINC Instagram: https://www.instagram.com/pnc_pcb/ Tumblr: https://www.tumblr.com/blog/view/pncinc Myspace :https://myspace.com/pncinc2020 Bresdel: https://bresdel.com/pncinc Pinterest :https://www.pinterest.com.au/rrosh2014/_created/ Call us: (973) 284-1600 Email us: sales@pnconline.com Location: PNC INC, 115 East Centre St.Nutley, NJ, 07110
    BIT.LY
    Four Stages of PCB Design and Assembling
    It is a blueprint of PCB design that shows all PCB components. The schematic design is always according to the technical requirements of the user.
    0 Yorumlar 0 hisse senetleri 3015 Views
  • Physical and Electrical Partitioning In PCB Design
    #PrintedCircuitBoard
    #pcbassembly
    #PCboard
    #PCBoardFabrication
    #pcbassemblyservices
    Partitioning your design into physical and electrical sections can significantly reduce the number of through-holes you need in your PCB, thereby increasing production speed and cutting down on manufacturing costs. Here, we will explain what physical and electrical partitioning are how they are used in PC design, and how to create effective partitioning schemes in your PCB designs.
    As you work on your next PCB design, you may be wondering how to implement physical and electrical partitioning in your design. These two factors are equally important to making the finished product successful, and both have a huge impact on the success of your design project as a whole. Stay with us if you’re looking to save time and money while producing high-quality products, read on!
    Layout Considerations
    When you’re laying out a Printed Circuit Board, you have two different considerations, such as physical, which is how your components are laid out on your printed circuit board; and electrical, which has to do with where you're going to put all of your wires. These two can be grouped when it comes time for assembly.
    For example, if you plan to use surface-mount parts that require soldering instead of wire-wrapping, then you will want to make sure that there is enough space between these parts so that they can be easily soldered onto your PCB. If you don’t leave enough space between them, then there won’t be room for solder paste. The solder paste is a sticky substance used to hold down SMT parts during pcb assembly.
    Read more: https://bit.ly/3upDBkU
    Website: https://pnconline.com/
    Facebook: https://www.facebook.com/PNCONLINE
    Twitter: https://twitter.com/PNCINC
    Instagram: https://www.instagram.com/pnc_pcb/
    Tumblr: https://www.tumblr.com/blog/view/pncinc
    Myspace :https://myspace.com/pncinc2020
    Bresdel: https://bresdel.com/pncinc
    Pinterest :https://www.pinterest.com.au/rrosh2014/_created/

    Call us: (973) 284-1600
    Email us: sales@pnconline.com
    Location: PNC INC, 115 East Centre St.Nutley, NJ, 07110
    Physical and Electrical Partitioning In PCB Design #PrintedCircuitBoard #pcbassembly #PCboard #PCBoardFabrication #pcbassemblyservices Partitioning your design into physical and electrical sections can significantly reduce the number of through-holes you need in your PCB, thereby increasing production speed and cutting down on manufacturing costs. Here, we will explain what physical and electrical partitioning are how they are used in PC design, and how to create effective partitioning schemes in your PCB designs. As you work on your next PCB design, you may be wondering how to implement physical and electrical partitioning in your design. These two factors are equally important to making the finished product successful, and both have a huge impact on the success of your design project as a whole. Stay with us if you’re looking to save time and money while producing high-quality products, read on! Layout Considerations When you’re laying out a Printed Circuit Board, you have two different considerations, such as physical, which is how your components are laid out on your printed circuit board; and electrical, which has to do with where you're going to put all of your wires. These two can be grouped when it comes time for assembly. For example, if you plan to use surface-mount parts that require soldering instead of wire-wrapping, then you will want to make sure that there is enough space between these parts so that they can be easily soldered onto your PCB. If you don’t leave enough space between them, then there won’t be room for solder paste. The solder paste is a sticky substance used to hold down SMT parts during pcb assembly. Read more: https://bit.ly/3upDBkU Website: https://pnconline.com/ Facebook: https://www.facebook.com/PNCONLINE Twitter: https://twitter.com/PNCINC Instagram: https://www.instagram.com/pnc_pcb/ Tumblr: https://www.tumblr.com/blog/view/pncinc Myspace :https://myspace.com/pncinc2020 Bresdel: https://bresdel.com/pncinc Pinterest :https://www.pinterest.com.au/rrosh2014/_created/ Call us: (973) 284-1600 Email us: sales@pnconline.com Location: PNC INC, 115 East Centre St.Nutley, NJ, 07110
    BIT.LY
    Physical and Electrical Partitioning In PCB Design
    As you work on your next PCB design, you may be wondering how to implement physical and electrical partitioning in your design.
    0 Yorumlar 0 hisse senetleri 2055 Views
  • Physical and Electrical Partitioning In PCB Design
    #PrintedCircuitBoard
    #pcbassembly
    #PCboard
    #PCBoardFabrication
    #pcbassemblyservices
    Partitioning your design into physical and electrical sections can significantly reduce the number of through-holes you need in your PCB, thereby increasing production speed and cutting down on manufacturing costs. Here, we will explain what physical and electrical partitioning are how they are used in PC design, and how to create effective partitioning schemes in your PCB designs.
    As you work on your next PCB design, you may be wondering how to implement physical and electrical partitioning in your design. These two factors are equally important to making the finished product successful, and both have a huge impact on the success of your design project as a whole. Stay with us if you’re looking to save time and money while producing high-quality products.
    View more: https://youtu.be/Wh8Ku_JZOLA
    Website:https://pnconline.com/
    Facebook:https://www.facebook.com/PNCONLINE
    Twitter:https://twitter.com/PNCINC
    Instagram:https://www.instagram.com/pnc_pcb/
    Tumblr:https://www.tumblr.com/blog/view/pncinc
    Myspace:https://myspace.com/pncinc2020
    Bresdel:https://bresdel.com/pncinc
    Call us: (973) 284-1600
    Visit us: sales@pnconline.com
    Location: PNC INC, 115 East Centre St.Nutley, NJ, 07110
    Physical and Electrical Partitioning In PCB Design #PrintedCircuitBoard #pcbassembly #PCboard #PCBoardFabrication #pcbassemblyservices Partitioning your design into physical and electrical sections can significantly reduce the number of through-holes you need in your PCB, thereby increasing production speed and cutting down on manufacturing costs. Here, we will explain what physical and electrical partitioning are how they are used in PC design, and how to create effective partitioning schemes in your PCB designs. As you work on your next PCB design, you may be wondering how to implement physical and electrical partitioning in your design. These two factors are equally important to making the finished product successful, and both have a huge impact on the success of your design project as a whole. Stay with us if you’re looking to save time and money while producing high-quality products. View more: https://youtu.be/Wh8Ku_JZOLA Website:https://pnconline.com/ Facebook:https://www.facebook.com/PNCONLINE Twitter:https://twitter.com/PNCINC Instagram:https://www.instagram.com/pnc_pcb/ Tumblr:https://www.tumblr.com/blog/view/pncinc Myspace:https://myspace.com/pncinc2020 Bresdel:https://bresdel.com/pncinc Call us: (973) 284-1600 Visit us: sales@pnconline.com Location: PNC INC, 115 East Centre St.Nutley, NJ, 07110
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    PNC INC.
    PCB Design, PCB, PCBA, SMT stencils 115 E Centre St, Nutley, New Jersey, Vereinigte Staaten 07110
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  • Tips for RF PCB Design
    #PrintedCircuitBoard
    #PCBOARD
    #pcbfabrication
    #pcbassemblyservices
    With so many things to consider when designing an RF PCB, it can be hard to know where to start. How do you choose the right layout? What tools should you use to get the job done? RF PCB design has its own set of challenges that need to be addressed to get the most out of your circuit. There are some best practices you can use to ensure that your design will function optimally and run smoothly.
    The best PCB design solution can be the difference between success and failure for your product, so you want to make sure that you are getting it right the first time around. Our guide will walk you through all of the steps necessary to create an RF design that works and that makes your product even better than you envisioned.
    View more: https://youtu.be/K15F8HrnqBw
    Call us: (973) 284-1600
    Visit us: sales@pnconline.com
    Location: PNC INC, 115 East Centre St.Nutley, NJ, 07110
    Tips for RF PCB Design #PrintedCircuitBoard #PCBOARD #pcbfabrication #pcbassemblyservices With so many things to consider when designing an RF PCB, it can be hard to know where to start. How do you choose the right layout? What tools should you use to get the job done? RF PCB design has its own set of challenges that need to be addressed to get the most out of your circuit. There are some best practices you can use to ensure that your design will function optimally and run smoothly. The best PCB design solution can be the difference between success and failure for your product, so you want to make sure that you are getting it right the first time around. Our guide will walk you through all of the steps necessary to create an RF design that works and that makes your product even better than you envisioned. View more: https://youtu.be/K15F8HrnqBw Call us: (973) 284-1600 Visit us: sales@pnconline.com Location: PNC INC, 115 East Centre St.Nutley, NJ, 07110
    0 Yorumlar 0 hisse senetleri 1666 Views
  • PCB Design, Planning, and Components Selection in Printed Circuit Boards
    #PrintedCircuitBoard
    #PCBOARD
    #PCBdesign
    #pcbassemblyservices
    Designing a printed circuit board or PCB can become challenging because there are many factors to consider, including environmental conditions the PCB will be exposed to and the desired electrical components that the PCB will use. The best design, planning, and component selection bring the best-printed circuit boards. All electronic products contain printed circuit boards so considering the above elements is essential that we will discuss these elements in this article.
    Questions Regarding PCB Planning?
    A few questions to keep in mind when designing and planning a PCB include:
    • How many layers do I want?
    • What thickness of copper foil/laminate do I want?
    • Do I want to use plated through holes or non-plated through holes?
    • Do I want my board to be double-sided, single-sided, or multilayer?
    • Are all of my components going to be surface mount or through-hole?
    • Are all of my connections going to be made using jumpers or solder pads?
    • Can I get away with using cheaper non-plated through holes instead of plated ones? Can I get away with not having a ground plane layer if all my signals are digital logic levels?
    • Does my design require low-noise analog filtering?
    • Will I need to isolate high-voltage circuitry from low-voltage circuitry, and high-speed circuitry from slow-speed circuitry?
    You can start designing a PCB after getting answers to the above questions.
    Read more: https://www.pnconline.com/blog/pcb-design-planning-and-components-selection-in-printed-circuit-boards/
    Location: PNC INC, 115 East Centre St.
    Nutley, NJ, 07110
    Phone: (973) 284-1600
    Email:sales@pnconline.com
    PCB Design, Planning, and Components Selection in Printed Circuit Boards #PrintedCircuitBoard #PCBOARD #PCBdesign #pcbassemblyservices Designing a printed circuit board or PCB can become challenging because there are many factors to consider, including environmental conditions the PCB will be exposed to and the desired electrical components that the PCB will use. The best design, planning, and component selection bring the best-printed circuit boards. All electronic products contain printed circuit boards so considering the above elements is essential that we will discuss these elements in this article. Questions Regarding PCB Planning? A few questions to keep in mind when designing and planning a PCB include: • How many layers do I want? • What thickness of copper foil/laminate do I want? • Do I want to use plated through holes or non-plated through holes? • Do I want my board to be double-sided, single-sided, or multilayer? • Are all of my components going to be surface mount or through-hole? • Are all of my connections going to be made using jumpers or solder pads? • Can I get away with using cheaper non-plated through holes instead of plated ones? Can I get away with not having a ground plane layer if all my signals are digital logic levels? • Does my design require low-noise analog filtering? • Will I need to isolate high-voltage circuitry from low-voltage circuitry, and high-speed circuitry from slow-speed circuitry? You can start designing a PCB after getting answers to the above questions. Read more: https://www.pnconline.com/blog/pcb-design-planning-and-components-selection-in-printed-circuit-boards/ Location: PNC INC, 115 East Centre St. Nutley, NJ, 07110 Phone: (973) 284-1600 Email:sales@pnconline.com
    WWW.PNCONLINE.COM
    PCB Design, Planning, and Components Selection in Printed Circuit Boards
    This guide will help you understand how to select components for your PCB design effectively.
    0 Yorumlar 0 hisse senetleri 429 Views
  • DFM Issues in PCB Design
    #PCboardfabrication
    #pcbassembly
    #Printedcircuitboard
    #PCBdesign
    #pcbassemblyservices
    You need a well-designed PCB for the effective functioning of the device, and you can have it by focusing on the DFM or Design for Manufacturing. Different requirements are there in terms of PCB design, management, and fabrication that you have to follow. At the same time, you should consider the timeline to have a circuit board within your budget.
    PCB and DFM Issues
    Having well-executed CAD tools is easy, but these tools cause certain DFM issues which need lots of effort to solve. Sometimes a PCB is correct in terms of electrical requirements, but it is hard to manufacture because you don’t focus on the design layout. The layout issues stay hidden, making it hard for you to assemble a PCB, besides the testing also becomes difficult.
    However, you can overcome the DFM problems if you understand the entire process of manufacturing. Now, we will discuss a few DFM issues, including tolerances, acid traps, SMD issues like open vias and uneven connections, a wrong opening of the solder mask, and the violation of standards.
    Once you know these problems, it becomes easier for you to resolve them and have an easy fabrication that involves less time to review the design. So, let’s discuss the DFM issues one by one and find their solutions to have the best device. ...
    View more: https://youtu.be/3_DH3S-kCs0
    Call us: (973) 284-1600
    Visit us: sales@pnconline.com
    Location: PNC INC, 115 East Centre St.
    Nutley, NJ, 07110
    DFM Issues in PCB Design #PCboardfabrication #pcbassembly #Printedcircuitboard #PCBdesign #pcbassemblyservices You need a well-designed PCB for the effective functioning of the device, and you can have it by focusing on the DFM or Design for Manufacturing. Different requirements are there in terms of PCB design, management, and fabrication that you have to follow. At the same time, you should consider the timeline to have a circuit board within your budget. PCB and DFM Issues Having well-executed CAD tools is easy, but these tools cause certain DFM issues which need lots of effort to solve. Sometimes a PCB is correct in terms of electrical requirements, but it is hard to manufacture because you don’t focus on the design layout. The layout issues stay hidden, making it hard for you to assemble a PCB, besides the testing also becomes difficult. However, you can overcome the DFM problems if you understand the entire process of manufacturing. Now, we will discuss a few DFM issues, including tolerances, acid traps, SMD issues like open vias and uneven connections, a wrong opening of the solder mask, and the violation of standards. Once you know these problems, it becomes easier for you to resolve them and have an easy fabrication that involves less time to review the design. So, let’s discuss the DFM issues one by one and find their solutions to have the best device. ... View more: https://youtu.be/3_DH3S-kCs0 Call us: (973) 284-1600 Visit us: sales@pnconline.com Location: PNC INC, 115 East Centre St. Nutley, NJ, 07110
    0 Yorumlar 0 hisse senetleri 554 Views
  • High-Frequency PC Board Applications, Specifications, and Challenges
    #circuitboardmanufacturer
    #PCboardpcbassemblyservices
    #Printedcircuitboard
    #printedcircuitboardmanufacturers
    #prototypepcbmanufacturer
    Readmore: https://www.pnconline.com/blog/high-frequency-pc-board-applications-specifications-and-challenges/
    Visit us: https://www.pnconline.com
    Email us: sales@pnconline.com
    Phone: (973) 284-1600
    High-Frequency PC Board Applications, Specifications, and Challenges #circuitboardmanufacturer #PCboardpcbassemblyservices #Printedcircuitboard #printedcircuitboardmanufacturers #prototypepcbmanufacturer Readmore: https://www.pnconline.com/blog/high-frequency-pc-board-applications-specifications-and-challenges/ Visit us: https://www.pnconline.com Email us: sales@pnconline.com Phone: (973) 284-1600
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    High-Frequency PC Board Applications, Specifications, and Challenges
    Some electronic products need special signals for which you have to make a high-frequency PC Board. Such a PCB can provide 500 MHz to 2 GHz frequency.
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