• Copper & Epoxy Filled Vias in a PC Board
    #pcboard
    Printed circuit boards have holes made through drilling to electrically connect various PCB layers. Manufacturers have to fill vias with different materials which are conducive or non-conductive, including copper, epoxy, etc. Via filling helps reduce air or liquid trapping, thus enhancing a PCB’s function. If anything gets trapped in the hole, it would affect the PCB assembly at a high temperature which is essential for soldering without lead.
    Via Filling Through Via-In-Pad
    The via-in-pad is the latest technology to fill vias, however, it is more costly than the old methods, such as through-hole. HDI boards with micro-vias work better because of their low weight and compact form factor. Such vias reduce the distance between the components, eliminating trace resistance and enhancing conductivity. The via-in-pad technology also helps deal with the BGA issues.
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    Copper & Epoxy Filled Vias in a PC Board #pcboard Printed circuit boards have holes made through drilling to electrically connect various PCB layers. Manufacturers have to fill vias with different materials which are conducive or non-conductive, including copper, epoxy, etc. Via filling helps reduce air or liquid trapping, thus enhancing a PCB’s function. If anything gets trapped in the hole, it would affect the PCB assembly at a high temperature which is essential for soldering without lead. Via Filling Through Via-In-Pad The via-in-pad is the latest technology to fill vias, however, it is more costly than the old methods, such as through-hole. HDI boards with micro-vias work better because of their low weight and compact form factor. Such vias reduce the distance between the components, eliminating trace resistance and enhancing conductivity. The via-in-pad technology also helps deal with the BGA issues. Read more: https://bit.ly/3WXOxmd Website:- https://pnconline.com Facebook:- https://www.facebook.com/PNCONLINE Twitter:- https://twitter.com/PNCINC Pinterest:- https://www.pinterest.com.au/rrosh2014/ Myspace:- https://myspace.com/pncinc2020 Tumblr:- https://www.tumblr.com/pncinc Instagram:- https://www.instagram.com/pnc_pcb/ Bresdel:- https://bresdel.com/pncinc Address:- 115 East Centre St. Nutley, NJ, 07110 Call us:- (973) 284-1600 Email us:- sales@pnconline.com
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    Copper & Epoxy Filled Vias in a PC Board
    PC Board Manufacturers fill vias according to PCB requirements. Some common practices of via filling are as below:
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  • High-Layer Count (HLC) PC Board
    #pcboard
    #PrintedCircuitBoard
    #TwolayerPCB
    A multilayer PCB has multiple copper layers which are interconnected through copper plating vias, such as laser vias, NC vias, buried, blind vias, and plated through vias.
    Such a circuit board has copper foil, adhesive, pre-peg, and core materials; all layered together under high pressure and temperature to make a multi-layer PCB. The pressure squeezes out the air, whereas the heat melts the adhesive to bind all layers.
    A high-layer count PCB is a board with many layers, from 3 to 16, and more layers. In general, you will see an even number of layers in this reference like 4, 6, 8, 10, 12, 14, 16, 18, 20, etc. A multi-layer circuit board helps engineers create complex products.
    A PCB with a high-layer count allows designers to implement high-speed and RF design techniques to have ground returns and a high-power distribution.
    The BGA(ball grid arrays) of dense devices demand a multi-layer Printed Circuit Board to teach every possible signal. Read more: https://bit.ly/3Wv0qQg
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    High-Layer Count (HLC) PC Board #pcboard #PrintedCircuitBoard #TwolayerPCB A multilayer PCB has multiple copper layers which are interconnected through copper plating vias, such as laser vias, NC vias, buried, blind vias, and plated through vias. Such a circuit board has copper foil, adhesive, pre-peg, and core materials; all layered together under high pressure and temperature to make a multi-layer PCB. The pressure squeezes out the air, whereas the heat melts the adhesive to bind all layers. A high-layer count PCB is a board with many layers, from 3 to 16, and more layers. In general, you will see an even number of layers in this reference like 4, 6, 8, 10, 12, 14, 16, 18, 20, etc. A multi-layer circuit board helps engineers create complex products. A PCB with a high-layer count allows designers to implement high-speed and RF design techniques to have ground returns and a high-power distribution. The BGA(ball grid arrays) of dense devices demand a multi-layer Printed Circuit Board to teach every possible signal. Read more: https://bit.ly/3Wv0qQg Website: https://pnconline.com/ Twitter: https://twitter.com/PNCINC Pinterest: https://www.pinterest.com.au/rrosh2014/_created/ Facebook: https://www.facebook.com/PNCONLINE Myspace: https://myspace.com/pncinc2020 Tumblr: https://www.tumblr.com/blog/view/pncinc Instagram: https://www.instagram.com/pnc_pcb/ Location: 115 East Centre St. Nutley, NJ, 07110 Call us: (973) 284-1600 Email us: sales@pnconline.com
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    High-Layer Count (HLC) PCBoard
    A multilayer PCB has multiple copper layers which are interconnected through copper plating vias, such as laser vias, NC vias, buried,blind vias, and plated through vias. Such a circuit board has copper foil, adhesive, pre-peg, and core materials; all layered together under high pressure and temperature to make a multi-layer PCB. The pressure squeezes out … Continue reading High-Layer Count (HLC) PCBoard →
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  • Aluminum-Based Copper Clad PCBoard
    #PCBmaterials
    #AluminumPCB
    Aluminum-based copper-clad PCB has aluminum as a base material along with other materials, including a dielectric layer, and thermal and insulating material.
    Some other terms also refer to aluminum copper PCB, such as a metal-clad PCB, aluminum base, an insulated metal substrate, aluminum clad, etc.
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    Aluminum-Based Copper Clad PCBoard #PCBmaterials #AluminumPCB Aluminum-based copper-clad PCB has aluminum as a base material along with other materials, including a dielectric layer, and thermal and insulating material. Some other terms also refer to aluminum copper PCB, such as a metal-clad PCB, aluminum base, an insulated metal substrate, aluminum clad, etc. Read more: https://bit.ly/3SmB9o5 Website: https://pnconline.com/ twitter.com: https://twitter.com/PNCINC pinterest.com: https://www.pinterest.com.au/rrosh2014/_created/ Facebook.com: https://www.facebook.com/PNCONLINE myspace.com: https://myspace.com/pncinc2020 tumblr.com: https://www.tumblr.com/blog/view/pncinc instagram.com: https://www.instagram.com/pnc_pcb/ bresdel.com: https://bresdel.com/pncinc Location: 115 East Centre St. Nutley, NJ, 07110 Call us: (973) 284-1600 Email us: sales@pnconline.com
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    Aluminum-Based Copper Clad PCBoard
    Aluminum-based copper-clad PCB has aluminum as a base material along with other materials, including a dielectric layer, and thermal and insulating material. Some other terms also refer to aluminum copper PCB, such as a metal-clad PCB, aluminum base, an insulated metal substrate, aluminum clad, etc. The Reason for Using an Aluminum PCB Aluminum PCB started … Continue reading Aluminum-Based Copper Clad PCBoard →
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  • How To Design A Signal Amplification PC Board
    #PrintedCircuitBoard
    #PCBdesign
    #PCBoardassembly
    Various kinds of circuit boards are essential for electronic devices and the amplifier PCB is one of them. You need amplifiers to reproduce sounds, so the amplifier circuit board is vital for sound-generating devices, such as loudspeakers.
    Understanding An Amplifier PCB
    A PCB with an amplifier produces enhanced signals that input terminals require. Such a circuit board consists of electronic components to transfer signals. The components also increase the power of the amplifier by transferring signals through specific transistors. A substrate is an essential part of an amplifier circuit board like it’s a surface with components and it is composed of resin and fiberglass.
    Though the amplifier is an independent component, it has several parts in it. An amplifier circuit board has many resistors and capacitors to perform various functions. Moreover, it has input and output terminals for both original and amplified signals.
    Such a PCB can be small or large, depending on the device and its application. Generally, the headphones amplifiers are small, whereas the professional sound system has a large amplifier that singers and musicians often use. The size of a large amplifier Printed Circuit Board goes beyond 100 square inches.
    The small amplifiers often depend on an external source for power supply whereas the battery-driven amplifiers are different. Such PCBs are either power amplifiers or audio amplifiers.
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    How To Design A Signal Amplification PC Board #PrintedCircuitBoard #PCBdesign #PCBoardassembly Various kinds of circuit boards are essential for electronic devices and the amplifier PCB is one of them. You need amplifiers to reproduce sounds, so the amplifier circuit board is vital for sound-generating devices, such as loudspeakers. Understanding An Amplifier PCB A PCB with an amplifier produces enhanced signals that input terminals require. Such a circuit board consists of electronic components to transfer signals. The components also increase the power of the amplifier by transferring signals through specific transistors. A substrate is an essential part of an amplifier circuit board like it’s a surface with components and it is composed of resin and fiberglass. Though the amplifier is an independent component, it has several parts in it. An amplifier circuit board has many resistors and capacitors to perform various functions. Moreover, it has input and output terminals for both original and amplified signals. Such a PCB can be small or large, depending on the device and its application. Generally, the headphones amplifiers are small, whereas the professional sound system has a large amplifier that singers and musicians often use. The size of a large amplifier Printed Circuit Board goes beyond 100 square inches. The small amplifiers often depend on an external source for power supply whereas the battery-driven amplifiers are different. Such PCBs are either power amplifiers or audio amplifiers. Read more: https://bit.ly/3uMBVlE 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
    PNCONLINE.COM
    Circuit Board manufacturer | PCB Prototype | PNC Inc. US
    The largest Printed Circuit Boards Manufacturer in North East. One Stop solution, Total Concept PCB company for your PC Board Design, PC Board Manufacturing an
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  • Microwave Printed Circuit Board Concept
    #pcboard
    #Circuitboardfabrication
    #PCBManufacturer
    #circuitboardassembly
    A microwave circuit refers to any electrical or electronic device which operates on microwaves or uses microwaves for its operation. Some examples include radar systems, satellite dishes, cell phone towers, and TV antennas among others. Such circuits are designed to operate at specific frequencies or bandwidths so that they do not interfere with each other.
    A microwave is an electromagnetic wave of frequency between 1GHz and 30GHz. It falls under the band B, C, D, and E in IEEE standards. Microwaves occupy a large part of the entire RF spectrum as compared to other frequencies. The global demand for communication devices such as routers, DSL, and mobile phones has increased significantly due to technological advancements such as internet connectivity being provided by these devices and advancements in technology by small-sized electronic components that can operate at high frequencies. As a result, there is an increase in demand for microwave circuit design services.
    Microwave PCBs have to meet certain requirements that have not changed even though the designs have.
    Understanding The Concept
    So, what is microwave PCB? Simply put, it’s a pc boardthat incorporates circuitry optimized for frequency bands in which microwave signals are most commonly used. As the boards are designed specifically for such frequencies, they offer superior performance over traditional boards in terms of both design and reliability. Besides, their smaller size and lower overall weight make them perfect for use in applications where space and transportation costs are at a premium.
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    Microwave Printed Circuit Board Concept #pcboard #Circuitboardfabrication #PCBManufacturer #circuitboardassembly A microwave circuit refers to any electrical or electronic device which operates on microwaves or uses microwaves for its operation. Some examples include radar systems, satellite dishes, cell phone towers, and TV antennas among others. Such circuits are designed to operate at specific frequencies or bandwidths so that they do not interfere with each other. A microwave is an electromagnetic wave of frequency between 1GHz and 30GHz. It falls under the band B, C, D, and E in IEEE standards. Microwaves occupy a large part of the entire RF spectrum as compared to other frequencies. The global demand for communication devices such as routers, DSL, and mobile phones has increased significantly due to technological advancements such as internet connectivity being provided by these devices and advancements in technology by small-sized electronic components that can operate at high frequencies. As a result, there is an increase in demand for microwave circuit design services. Microwave PCBs have to meet certain requirements that have not changed even though the designs have. Understanding The Concept So, what is microwave PCB? Simply put, it’s a pc boardthat incorporates circuitry optimized for frequency bands in which microwave signals are most commonly used. As the boards are designed specifically for such frequencies, they offer superior performance over traditional boards in terms of both design and reliability. Besides, their smaller size and lower overall weight make them perfect for use in applications where space and transportation costs are at a premium. View more: https://youtu.be/--qtYnLsk_M 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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  • Microwave Printed Circuit Board Concept
    #pcboard
    #Circuitboardfabrication
    #PCBManufacturer
    #circuitboardassembly
    A microwave circuit refers to any electrical or electronic device which operates on microwaves or uses microwaves for its operation. Some examples include radar systems, satellite dishes, cell phone towers, and TV antennas among others. Such circuits are designed to operate at specific frequencies or bandwidths so that they do not interfere with each other.
    A microwave is an electromagnetic wave of frequency between 1GHz and 30GHz. It falls under the band B, C, D, and E in IEEE standards. Microwaves occupy a large part of the entire RF spectrum as compared to other frequencies. The global demand for communication devices such as routers, DSL, and mobile phones has increased significantly due to technological advancements such as internet connectivity being provided by these devices and advancements in technology by small-sized electronic components that can operate at high frequencies. As a result, there is an increase in demand for microwave circuit design services.
    Microwave PCBs have to meet certain requirements that have not changed even though the designs have.
    Understanding The Concept
    So, what is microwave PCB? Simply put, it’s a pc boardthat incorporates circuitry optimized for frequency bands in which microwave signals are most commonly used. As the boards are designed specifically for such frequencies, they offer superior performance over traditional boards in terms of both design and reliability. Besides, their smaller size and lower overall weight make them perfect for use in applications where space and transportation costs are at a premium.
    Why Microwave Technology?
    The microwave portion of telecommunications is used for point-to-point voice and data communications. You can also use it for two-way radio, cable television, and telegraphy in a limited range of frequencies. As it allows information transmission at high speeds over long distances, it is very common in military organizations. For these reasons and more, microwave technology plays an essential role in today’s technological world.

    As such, it was important that an efficient way to transmit microwaves be developed, the result was a device called a microstrip line. In short, when combined with other components, microstrip lines are what allow microwaves to travel great distances while maintaining optimal signal strength.

    A microstrip line consists of three main parts, including a metal foil, dielectric material, and a ground plane. Metal foil serves as an antenna, and the dielectric material acts as a waveguide. Whereas the ground plane provides electrical shielding. These three elements are placed on top of one another and bonded together using heat or pressure, which creates a single unit known as a structure.
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    Microwave Printed Circuit Board Concept #pcboard #Circuitboardfabrication #PCBManufacturer #circuitboardassembly A microwave circuit refers to any electrical or electronic device which operates on microwaves or uses microwaves for its operation. Some examples include radar systems, satellite dishes, cell phone towers, and TV antennas among others. Such circuits are designed to operate at specific frequencies or bandwidths so that they do not interfere with each other. A microwave is an electromagnetic wave of frequency between 1GHz and 30GHz. It falls under the band B, C, D, and E in IEEE standards. Microwaves occupy a large part of the entire RF spectrum as compared to other frequencies. The global demand for communication devices such as routers, DSL, and mobile phones has increased significantly due to technological advancements such as internet connectivity being provided by these devices and advancements in technology by small-sized electronic components that can operate at high frequencies. As a result, there is an increase in demand for microwave circuit design services. Microwave PCBs have to meet certain requirements that have not changed even though the designs have. Understanding The Concept So, what is microwave PCB? Simply put, it’s a pc boardthat incorporates circuitry optimized for frequency bands in which microwave signals are most commonly used. As the boards are designed specifically for such frequencies, they offer superior performance over traditional boards in terms of both design and reliability. Besides, their smaller size and lower overall weight make them perfect for use in applications where space and transportation costs are at a premium. Why Microwave Technology? The microwave portion of telecommunications is used for point-to-point voice and data communications. You can also use it for two-way radio, cable television, and telegraphy in a limited range of frequencies. As it allows information transmission at high speeds over long distances, it is very common in military organizations. For these reasons and more, microwave technology plays an essential role in today’s technological world. As such, it was important that an efficient way to transmit microwaves be developed, the result was a device called a microstrip line. In short, when combined with other components, microstrip lines are what allow microwaves to travel great distances while maintaining optimal signal strength. A microstrip line consists of three main parts, including a metal foil, dielectric material, and a ground plane. Metal foil serves as an antenna, and the dielectric material acts as a waveguide. Whereas the ground plane provides electrical shielding. These three elements are placed on top of one another and bonded together using heat or pressure, which creates a single unit known as a structure. Read more: https://bit.ly/3unZWiH 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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    Microwave Printed Circuit BoardConcept
    It’s a pc board that incorporates circuitry optimized for frequency bands in which microwave signals are most commonly used.
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  • 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.
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    Call us: (973) 284-1600
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    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
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    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.
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  • 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
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    Call us: (973) 284-1600
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    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
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  • Stencils for SMT Assembly
    #PrintedCircuitBoard
    #PCBAssembly
    #PCBOARD
    #PCBoardassembly
    A stencil mask is used in many manufacturing processes to make PCBs. This includes SMT stencils which are most commonly used in the process of making printed circuit boards. The use of these SMT stencils varies based on the size and complexity of the board that they will be used on and the type of assembly machine that will be using them.
    For any SMT stencil application, solder paste should be used for paste dispensing. Advantages of using a stencil method are high yield rate, high accuracy, and repeatability, low labor cost, and good surface finish. The main disadvantage is that it is not suitable for mass production or high-mix low-volume assembly.

    SMT Stencil Types
    There are two types of stencils, including manual and automatic. Manual stencils are available in many materials, such as stainless steel, plastic, etc., while the automatic ones are made from silicon rubber material which has been pre-impregnated with the conductive paste by screen printing methods. Both manual and automatic stencils require cleaning after each use.
    Read more: https://www.pnconline.com/blog/stencils-for-smt-assembly/
    Call us: (973) 284-1600
    Visit us: sales@pnconline.com
    Location: PNC Inc.115 East Centre St.Nutley, NJ 07110
    Stencils for SMT Assembly #PrintedCircuitBoard #PCBAssembly #PCBOARD #PCBoardassembly A stencil mask is used in many manufacturing processes to make PCBs. This includes SMT stencils which are most commonly used in the process of making printed circuit boards. The use of these SMT stencils varies based on the size and complexity of the board that they will be used on and the type of assembly machine that will be using them. For any SMT stencil application, solder paste should be used for paste dispensing. Advantages of using a stencil method are high yield rate, high accuracy, and repeatability, low labor cost, and good surface finish. The main disadvantage is that it is not suitable for mass production or high-mix low-volume assembly. SMT Stencil Types There are two types of stencils, including manual and automatic. Manual stencils are available in many materials, such as stainless steel, plastic, etc., while the automatic ones are made from silicon rubber material which has been pre-impregnated with the conductive paste by screen printing methods. Both manual and automatic stencils require cleaning after each use. Read more: https://www.pnconline.com/blog/stencils-for-smt-assembly/ Call us: (973) 284-1600 Visit us: sales@pnconline.com Location: PNC Inc.115 East Centre St.Nutley, NJ 07110
    WWW.PNCONLINE.COM
    Stencils for SMT Assembly
    The use of these Stencils for SMT Assembly varies based on the size and complexity of the board that they will be used on and the type of assembly machine.
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