Here you will find a number of different laminate materials used to fabricate printed circuit boards for advanced electronic applications. Among these are materials with a range of dielectric constants, low dissipation factor, and controlled mechanical properties.

Some materials are priced for low-cost commercial applications. Online PCB Quote. Download Your Copy. Today at Epec, the customer comes first, and everything we do must be put through that filter. Whether it is developing e-commerce platforms to make it easier to work with us, or creating a NPI new product introduction process that helps our customers get to market faster, or the other 10 new projects we have in process, we must focus on building the new.

By doing that every day, and by always making the customer our top priority, we plan on being here for another 65 years and then some. All Rights Reserved. Cable Assemblies. Printed Circuit Boards. RF Products. User Interfaces. Flexible Heaters. PCB Laminate Material Information Here you will find a number of different laminate materials used to fabricate printed circuit boards for advanced electronic applications.

Electrical Strength min. We are here to help you with all your printed circuit board needs. Get a Quote Now! America's Oldest. A History of Innovation.Most solid materials expand upon heatingand contract when cooled. The change in lengthwith temperature for a solid material can be expressed as:.

Conversion factors are:. The coefficient of thermal expansionisalso often defined as the fractional increase in length per unit rise in temperature.

low cte pcb material

The true coefficient is related to the slope of the tangent of the length versus temperature plot, while the mean coefficient is governed by the slope of the chord between two points on the curve. Variation in CTE values can occur according to the definition used. Heating or cooling affects all the dimensions of a body of material, with a resultant change in volume. Volume changes may be determined from:. To determine the thermal expansion coefficient, two physical quantities displacement and temperature must be measured on a sample that is undergoing a thermal cycle.

Three of the main techniques used for CTE measurement are dilatometry, interferometry, and thermomechanical analysis. Optical imaging can also be used at extreme temperatures. X-ray diffraction can be used to study changes in the lattice parameter but may not correspond to bulk thermal expansion.

Mechanical dilatometry techniques are widely used. With this technique, a specimen is heated in a furnace and displacement of the ends of the specimen are transmitted to a sensor by means of push rods. Push rods may be of the vitreous silica type, the high-purity alumina type, or the isotropic graphite type. ASTM Test Method E Ref 2 cove the determination of linear thermal expansion of rigid solid materials using vitreous silica push rod or tube dilatometers.

With optical interference techniques, displacement of the specimen ends is measured in terms of the number of wave lengths of monochromatic light. Precision issignificantly greater than with thermomechanical dilatometry. Thermomechanical analysis measurements are made with a thermomechanical analyzer consisting of a specimen holder and a probe that transmits changes in length to a transducer that translates movements of the probe into an electrical signal.

The apparatus also consists of a furnace for uniform heating, a temperature-sensing element, calipers, and a means of recording results. ASTM Test Method E Ref 4 describes the standard test method for linear thermal expansion of solid materials by thermomechanical analysis. With respect to temperature, the magnitude of the CTE increases with rising temperature. Thermal expansion of pure metals has been well characterized up to their melting points, but data for engineering alloys at very high temperatures may be limited.Most printed circuit boards are manufactured using glass-reinforced epoxy laminate as the substrate.

FR-4 functions well as an electrical insulator, and has a good strength-to-weight ratio, and is flame resistant. If a higher T g material is required, we do stock a T g version of our standard FR-4 material as well, that can be selected in the quoting process. Note: The T g FR-4 material has equivalency for electrical and mechanical properties with the popular Isola HR material, and functions very similarly.

There is one documented physical difference, Isola's HR is listed as a T g material. By downloading this file you are agreeing to receive email regarding software and product updates, industry news and discount codes from Sunstone Circuits. Privacy Policy. With Around the Clock support, Sunstone Circuits provides unparalleled customer service and leads the industry with a real On-Time Guarantee that is the first of its kind. Sunstone Circuits is fully operational to help with your PCB projects despite some of the recent world struggles.

Chat now with our support team to discuss your needs or email us. FR-4 PCB Materials Most printed circuit boards are manufactured using glass-reinforced epoxy laminate as the substrate.

Laminate thickness available from 0. File Download. Email: Email is required. Please enter a valid email address.

Advanced Composite Thermal Management Materials and Applications

Your email Please enter your email address. Learn More.With all PCB material types, the purpose is to conduct electricity and provide insulation between conducting layers of copper. FR-4 is the most widely used material in this category. However, the needs of your board will invariably rely on various PCB material properties. Read the following PCB material selection guide to learn what to look for when it comes to the thermal, electrical, chemical and mechanical properties of different PCB material types.

low cte pcb material

Factors such as low-quality copper foil and dielectrics can impact the mechanisms of a PCB. With the proper selection of dielectric materials, you can prevent your circuit board from sending out faulty signals. The molecular nature of dielectrics can render your system vulnerable to loss.

Each time a signal is generated, the magnetic fields within the molecules are vibrated. The effects of this are determined by the height of the signal frequency. When vibrations do occur, energy becomes heat and is consequently lost in the system. Copper conductors can also be a cause of loss within a system.

FR-4 PCB Materials

When electrons stray from the center of a conductor, the frequency goes upward. For example, a nickel-finished copper conductor will see loss as significant amounts of current flow through the nickel instead of the copper. A conductor comprised entirely of copper can also see loss if micro ridges are present, as these can send the current up and down and cause resistance.

To prevent loss in your system, check your options in both of the following categories to ensure that you select materials that are best-suited for high frequencies:. Low-quality and mismatched substrates and foils can lead to costly loss, but the right choices can help you get long-lasting PCB performance. To select the best substrate and foil for applications of high frequency, you need to keep certain practices in mind:.

When it comes to PCBs, performance is all about quality, which you can only ensure with high-quality, well-matched parts. As you look through catalogs and consider which PCB might best suit your needs, keep the following considerations in mind as well:. When you select the proper materials, invest the right amount of cash and check for manufacturing defects, you are much more likely to get many years of performance without loss from your printed circuit board. Each PCB that we offer is priced competitively and engineered to perfection.

From our humble beginnings in a Harrisburg, Pennsylvania, basement to our current spacious headquarters, we have reached hundreds of customers around the world with our expertly produced PCBs. To learn more about our PCBs, click on over to our products and services pages and contact us today to connect with our representatives.

Millennium Circuits Limited Derry St. Customer Support Phone: Search for:. The substrate hardens back to its natural state once removed from heat.

The range at which this transformation can be applied to a substrate is known as glass transition temperature Tg — a unit noted in degrees Celsius.Download Data Sheet. This system provides superior thermal performance with low Coefficient of Thermal Expansion CTE and the mechanical, chemical and moisture resistance properties that equal or exceed the performance of traditional FR-4 materials. This paper highlights the critical selection factors that go beyond a typical product data sheet and explains how these factors must be considered when selecting materials for high speed applications.

This paper provides describes Isola's work in finding the right combination of process and design conditions for improved CAF resistant products. This presentation describes PCB factors that limit high-speed digital performance and the PCB material selection process and Isola product solutions.

If you have any questions about HR, our pricing, or our support, or if you would like some general advice on using our materials, then please do call us or complete the form below. Your message will be routed directly to the product manager who will promptly reply to your inquiry. Content TBD - Please provide an email address. Note that some files may be too large for some email service providers to accept. Alternate - Available, but not stocked with longer lead time.

T B. Pre-Tg B. Post-Tg C. Unetched B. After moisture resistance B. At elevated temperature. After process solutions. Length direction B. Cross direction.A dielectric material conducts minimal electricity, and provides an insulating layer between two conducting copper layers. The most common dielectric material is FR-4, but before selecting it for your board, you must carefully consider its properties. Here is an overview of the most important properties to consider for any dielectric material:.

Thermal properties 2. Electrical properties 3. Chemical properties 4. Mechanical properties. Dielectric material provides insulation between conducting layers here shown as copper foil in a PCB. Glass Transition Temperature Tg Glass transition temperature, or Tg, is the temperature range in which a PCB substrate transitions from a glassy, rigid state to a softened, deformable state as polymer chains become more mobile.

When the material cools back down, its properties return to their original states. Contrast this to Tg, glass transition temperature, where properties will return to their original states once the material cools below the Tg range.

CTE is expressed in parts per million ppm expanded for every degree Celsius that it is heated. So the material must expand in the Z direction. The CTE along the Z axis should be as low as possible; aim for less than 70 ppm per degree Celsius, and this will increase as a material surpasses Tg. This image shows CTE in the Z direction. Thermal Conductivity k Thermal conductivity, or k, is the property of a material to conduct heat; low thermal conductivity means low heat transfer while high conductivity means high heat transfer.

Most PCB dielectric materials have a thermal conductivity in the range of 0.

PCB Substrates: Knowing Your Dielectric Material\u2019s Properties

Therefore, more heat will be carried away quickly by copper plane layers in a PCB than by the dielectric material. Dielectric Constant or Relative Permittivity Er or Dk Considering the dielectric constant of a material is important for signal integrity and impedance considerations, which are critical factors for high-frequency electrical performance. The Er for most PCB materials is in the range of 2. The dielectric constant varies with frequency and generally decreases as frequency increases; some materials have less of a change in relative permittivity than others.

Materials suitable for high frequency applications are those whose dielectric constant remains relatively the same over a wide frequency range—from a few MHz to several GHz.

It also varies with frequency, increasing as frequency increases. However, it is a very important parameter for analog signals, as it determines the degree of signal attenuation and thus affects the signal to noise ratio at various points along signal traces. Resistivity is somewhat affected by moisture and temperature. It is also somewhat affected by both moisture and temperature.

Electrical strength is determined by subjecting the PCB material to short high voltage pulses at standard AC power frequencies.

Flammability Specs UL94 UL94, or the Standard for Safety of Flammability of Plastic Materials for Parts in Devices and Appliances testing, is a plastics flammability standard that classifies plastics from lowest least flame-retardant to highest most flame-retardant.With all PCB material types, the purpose is to conduct electricity and provide insulation between conducting layers of copper. FR-4 is the most widely used material in this category. However, the needs of your board will invariably rely on various PCB material properties.

Read the following PCB material selection guide to learn what to look for when it comes to the thermal, electrical, chemical and mechanical properties of different PCB material types. Factors such as low-quality copper foil and dielectrics can impact the mechanisms of a PCB. With the proper selection of dielectric materials, you can prevent your circuit board from sending out faulty signals.

The molecular nature of dielectrics can render your system vulnerable to loss. Each time a signal is generated, the magnetic fields within the molecules are vibrated. The effects of this are determined by the height of the signal frequency. When vibrations do occur, energy becomes heat and is consequently lost in the system. Copper conductors can also be a cause of loss within a system. When electrons stray from the center of a conductor, the frequency goes upward. For example, a nickel-finished copper conductor will see loss as significant amounts of current flow through the nickel instead of the copper.

A conductor comprised entirely of copper can also see loss if micro ridges are present, as these can send the current up and down and cause resistance. To prevent loss in your system, check your options in both of the following categories to ensure that you select materials that are best-suited for high frequencies:.

Low-quality and mismatched substrates and foils can lead to costly loss, but the right choices can help you get long-lasting PCB performance.

No / Low Flow Prepreg

To select the best substrate and foil for applications of high frequency, you need to keep certain practices in mind:. When it comes to PCBs, performance is all about quality, which you can only ensure with high-quality, well-matched parts. As you look through catalogs and consider which PCB might best suit your needs, keep the following considerations in mind as well:.

When you select the proper materials, invest the right amount of cash and check for manufacturing defects, you are much more likely to get many years of performance without loss from your printed circuit board.

low cte pcb material

Each PCB that we offer is priced competitively and engineered to perfection. From our humble beginnings in a Harrisburg, Pennsylvania, basement to our current spacious headquarters, we have reached hundreds of customers around the world with our expertly produced PCBs. To learn more about our PCBs, click on over to our products and services pages and contact us today to connect with our representatives. Millennium Circuits Limited Derry St.

Customer Support Phone: Search for:. The substrate hardens back to its natural state once removed from heat. The range at which this transformation can be applied to a substrate is known as glass transition temperature Tg — a unit noted in degrees Celsius.

In the process, the PCB loses five percent or more of its overall mass. The temperature range in which this process occurs is known as decomposition temperature Tdwhich is noted in degrees Celsius.

While the effects of a Tg transformation self-reverse once the material is removed from its glass transition temperature, the effects of decomposition temperature on a substrate are permanent. As such, it is best to use a PCB material that can handle the temperature range of your working environment.


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