Nanya Laminates

  • Excellent Quality
  • Over 10 years’ experience
  • Fast turnaround
  • No minimum order

Types of Nanya Laminates PCB

There are many types of Nanya laminates PCB, all its types bring the performance of electronic products to a certain level. The main types are as follows:
● Drone Electric PCB
●AirConditioner PCB
●Control Panel PCB
●Nanya Flight Controller PCB & SMT Components PCB
● Nanya Electronic Multilayer PCB & FR4 Base Nanya PCB


Can Nanya Laminates PCB Be Customized?

Yes, Nanya PCBs are customized according to your requirements for different industries. Perfect customization increases its compatibility in different electronic devices due to its diverse characteristics.

It allows you to get a Nanya laminates custom solution for a specific application. For example, you can customize the Nanya Laminates PCB to incorporate GPS tracker technology. What’s more, custom multi-layer Nanya Laminates PCBs are available for miniature surface mount devices.

How We Guarantee the Quality of Nanya Laminates?

Venture provides one-stop service from glass yarn,
glass fabrics, copper foils, epoxy resins and flame retardants to finally finished substrates.
Our Nanya Laminates are ISO 9001:2008, ISO 14001 and TS 16949 certified. We can guarantee you get consistently top-quality substrates.
Additionally, You can get Nanya laminates at competitive prices along with our flexible payment terms. We are always ready to help you save your budgets.
Contact us now to get more information.


Venture has a good partnership with Nanya distributors of high-end PCB laminate providers.

We work closely with top PCB materials to bring you a wide range of material options such as high-frequency ceramic-filled PCB laminates, enhanced epoxy PCB laminates, RoHs compliant, UL 94V-0 rated, and more,

For your Nanya laminate needs, Venture is the best place to come!

Your Leading Nanya Laminates Supplier in China

Venture is a leading manufacturer and supplier of popular PCB materials for high-frequency PCB such as Nanya laminates.

No matter what you need for your project, Venture can provide a wide range of Nanya laminates. Venture is an expert in most Nanya laminates such as:

  • CEM-3-98
  • CEM-3-09HT
  • NPGN-170R
  • NPGN-150
  • FR-4-86

We manufactured and designed Nanya laminates by utilizing our ahead complete software design.

Venture Nanya laminates became demanded by the clients through the improvement of telecommunications and electronics.

Additionally, we have a well trained and expert designer team that’s why we are capable of manufacturing a wide range of Nanya laminates.

You can get Nanya laminates at very competitive rates along with our flexible payment terms.

We can cater to whether you purchase small or large quantities of Nanya laminates.

We are always ready to work with you to boom your business.

Contact us now!

Nanya Laminate: The Ultimate FAQ Guide


In this guide, you will find all information you’re looking for about Nanya laminates.

Whether you want to learn about properties, benefits, material type, fabrication process, features, or limitations – you’re going to find all that information right here.

So, if you want to be an expert in Nanya laminates, read this guide.

What Are Nanya Laminates?

Nanya laminates are copper-clad laminates used for making printed circuit boards.

There are different types of Nanyan laminates for fabricating PCBs used in different applications.

Copper Cld Nanya Laminates

Copper clad Nanya Laminates

What Types of Nanya Laminates Are There?

There are diverse types of Nanya laminates that you can choose to use for your PCB needs.

They include:

Glass Cloth Surface Copper Clad Laminate

You can find this product in both epoxide cellulose paper core and epoxide cellulose matt core.

Epoxide Cellulose Paper Core

This laminate constitutes a combination of epoxy woven fiber and epoxy cellulose core.

You will get it in the market as either CEM-1-97 or CEM-1-97PM.

Avoid plated through-hole for this material because the cellulose core is highly susceptible to attack by an electrolyte.

Epoxide Cellulose Matt Core

This product is fabricated using a glass matt base and a glass cloth epoxy resin system.

It is a copper-clad laminate with superior flame retardant properties.

Thermal Conductivity CEM-3

This product is a flame retardant copper clad laminate fabricated using a glass matt and glass cloth systems of epoxy resin.

What Are the Features of Nanya Laminates?

There are several Nanya laminates, each exhibiting different product features.

The following are some of the product-specific features associated with Nanya laminates:

  • Excellent electrical properties
  • Superior dimensional stability
  • Low warpage
  • Excellent thermal stability
  • Ease of cold punch ability

Epoxide Cellulose Matt Core features

There are different products grade for epoxide cellulose matt.

However, there are several features that all the products in this category share. Some of these features include:

  • It has superior through-hole reliability and better warpage properties compared to Some FR-4 laminates in the market.
  • Possess superior anti-tracking properties and excellent thermal conductivity.
  • Possess similar electrical and chemical properties to FR-4 laminates.
  • Meets the specifications of IPC-401E
  • Ideal for cold punch ability
  • Excellent heat resistance

Thermally conductive CEM-3possesses the following key features:

  • Superior anti-tracking features and excellent anti-tracking features
  • Extended service life as a result of excellent thermal conductivity and lower board temperature.
  • A cheaper alternative for aluminum metal laminates
  • Compatible with lead-free processing techniques
  • Improved warpage and through-hole reliability.

Halogen-free Thermal Conductivity CEM-3

There is a single product line, CEM-3-01HC, under this category.

This product possesses the following key features:

  • It is eco-friendly since it has no halogens, red phosphorus, or antimony.
  • A low-cost option for aluminum-based laminates
  • Excellent thermal conductivity that helps extend the service life of a PCB by reducing the board’s temperature.
  • Certified for all leading industry standards

Halogen-free Laminates Product Lines

Several Nanya product lines are halogen-free. Among the products, the main differences come in the transitional temperature, frequency of operations, loss tangent, product rigidity, and stiffness.

Generally, these products possess the following key features:

For rigid laminates

  • High heat resistance
  • Higher transitional temperature
  • Higher decomposition temperatures
  • Environmentally friendly

For low loss laminates

  • Environmentally friendly
  • Higher transitional temperatures
  • Lower dissipation factor

For stiffness

  • Excellent heat resistance
  • Better processability

For Lead-Free Laminates

  • Environmentally friendly
  • Possess UV blocking properties
  • Excellent CAF resistance
  • Possess low CTE and high transitional temperature, making it ideal for through-hole reliability.
  • Superior long-term reliability
  • The flame retardant technology is of the reactive type

What Are the Product Specifications of Nanya Laminates?

Similarly, individual Nanya laminates possess distinct product specifications that vary from one product to the other.

Below is a list of Nanya products and the performance specifics.

Glass Cloth Surface CCL with Expoxide Cellulose Paper Core,

The following are the product specifications if product grade CEM-1-97/CEM-1-97PM:

  • The product’s volume and surface resistivity are 5.0 × 108 and 5.0 × 107MΩ-cm and MΩ, respectively.
  • This laminate has a loss tangent of 0.030 and a permittivity of 4.40 at 1MHz.
  • The dielectric breakdown is ˃60 kV while the moisture absorption is <0.15%.
  • It has a V-0 rating UL94 flammability score.
  • The thermal stress is ˃80 seconds for 260°C dippings.
  • The decomposition temperature is 310C, and CTI is 600 voltages under the etched condition
  • It has a punch ability of 900 Kg/cm3

Glass Cloth Surface CCL with Epoxide Cellulose MAT Core

Though the different product lines under this laminate type may have slight variations on the specifications, the following are uniform for all products.

  • The transitional temperature of 130C
  • CTI of greater than 600 voltage
  • Available in thickness range between 0.8 to 1.6 mm

Thermally Conductive CEM-3

This product has the following key specifications.

  • The volume and surface resistivities are 5.0 x 108 and 5.0 x 107 MΩ-cm and MΩ, respectively.
  • The transitional temperature is 135C, and the decomposition temperature is 310C
  • The comparative tracking index is greater than 600
  • It has a thermal conductivity of 0W/m.K
  • CEM-3 laminate is available in a thickness range from 0.8 to 1.6 mm.

Halogen-free Thermal Conductivity CEM-3

There is a single product line, CEM-3-01HC, under this category.

This product possesses the following key features:

  • The transition and decomposition temperatures are 310C and 110C, respectively.
  • The permittivity and loss tangent at 1MHz is 4.5 and 0.020, respectively.
  • It has a very low moisture absorptivity of 0.09%
  • The CTI is above 600voltage when etched
  • It has a dielectric breakdown greater than 60KV.

Firing Resistance Rigid Copper Clad Laminate

There are three product lines under this category.

Below are the basic features associated with all the products.

  • Transitional temperature beyond 235C
  • The heat resistance is greater than 200”

Firing Resistance Multifunctional Rigid CCL (np-140TL)

  • The transitional temperature is 140C
  • The heat resistance is above 200”
  • The permittivity at 1MHz range from 4.2 to 44 while permittivity at 1GHz range from 3.8 to 4.0
  • The loss tangent at 1MHz range from 0.015 to 0.020 and the loss tangent at 1GHz range from 0.012 to 0.014
  • It has a moisture absorption ranging from 0.20 to 0.30% and thermal stress greater than 200 seconds for solder dipping at 28C.

Halogen-free Tg 150C, Lead-Free CCL

There are several product lines/grades produced under this product.

However, all the products under this umbrella are produced with non-halogen fire-resistant technology and have a transitional temperature of 150C.

Lead-free Laminates

Similarly, there are several lead-free Nanya laminates, each fabricated to meet the diverse needs of PCB manufacturers.

Though there are slight differences in terms of transitional temperature, rigidity, Coefficient of Thermal Expansion, other properties closely resemble.

 Where Can You Use Nanya Laminates?

Nanya Laminates

Nanya Laminates

You can use Nanya laminates in diverse fields for varied types of applications.

Specifically, different product lines are best suited for different kinds of applications.

Consequently, you can use this product for the following applications.

  • Lightbars and LED lightings
  • PCBs for use in home appliances, PC peripherals, and automotive
  • PC motherboard
  • Consumer electronics
  • HLC for base stations
  • Servers for HLC backplane
  • Mobile phones
  • Handheld devices
  • High layer count PCBs-
  • Consumer electronics with HDI process compatibilities
  • Environmentally friendly laptops
  • High layer count backplanes

What Are the Advantages of Nanya Laminates?

Nanya laminates possess the following key advantages.

  • Available in diverse options to select from. This ensures that you have a wide product base to pick a laminate with the desired product specifications.
  • Possess superior eco-friendly features
  • Compatible with applications operating in thermally demanding environments.
  • Cheaper than most other competitive products in the market
  • Ideal for use in high layer count PCBs
  • Highly durable
  • Easy to processing, that is, does not require special fabrication conditions.

What Base Materials Are Used to Fabricate Nanya Laminates?

There are several, high-quality, innovative and eco-friendly, base materials that you can use for the construction of Nanya laminates.

The base materials must be first-class to adhere to the desired high-quality standards of a Nanya PCB.

Some of the base materials you can use to fabricate Nanya laminates include:

  • Epoxy resin
  • Copper foil
  • Glass yarn
  • Glass fabrics
  • Flame retardant material
  • Cellulose paper

What Surface Finishing Can You Use Alongside Nanya Laminates?

The primary function of surface finishing is to help protect the PCB surface against degrading environmental conditions.

It also facilitates a smooth connection of surface-mounted components.

The type of surface finishing you select will depend on the type of Nanya laminate you have opted to use.

For instance, lead-free Nanya laminates are only compatible with surface finishing options that do not introduce lead on the laminates.

Some of the surface finishing options you can consider include:

PCB Surface finishes

PCB surface finish

Electroless Nickel Immersion Gold (ENIG)

This type of surface finishing is compatible with lead-free processing techniques. It is cheaper and offers sufficient solderability.

Subsequently, ENIG constitutes a thin solder-able gold layer with a nickel barrier in between the copper traces and the solderable layer.

Gold Surface Finishes

There are two types of Gold surface finishes.

The soft gold and hard gold surface finishes.

Soft Gold Surface Finish

Soft gold surface finishing is ideal for wire bonding applications where it creates a firm metallic bond with the circuitry and wires.

The bond enhances the strength of weld joints and electrical conductivity.

Though it offers long-lasting protection from surface wear and tear, it causes the PCB layers to become porous and also leaves the traces’ sides exposed.

Hard Gold Surface Finishing

The hard gold layer offers much stronger and highly durable protection compared to soft gold and the majority of other surface finishing techniques.

However, it is costlier and also offers poor solderability.

Immersion Silver

Immersion silver offers a better alternative to tin immersion where the PCB is lacking nickel.

It is more eco-friendly than immersion tin though also costlier and less durable.

Immersion silver is also less ideal for double-sided PCB assemblies because it gets contaminated easily and tarnishes when it contacts air.

Electroless Nickel Palladium Immersion Gold (ENIPIG)

ENIPIG is ideal for use in Nanya PCBs that require wire bonding.

The assortment of compositions contained in the surface finishing each performs different tasks.

Palladium is responsible for protecting nickel against corrosion and electroless nickel protects copper, especially preventing it from contacting other metals.

Gold offers complete protection from oxidation as it covers the whole surface.

The palladium layer also enhances the capability of this surface finishing technique, enabling it to provide a flatter surface with better solderability than ENIG.

However, the better services also come at an increased cost.

Hot Air Solder Leveling (HASL)

HASL technology is common with aerospace and military-based applications.

It utilizes hot air knives to level the lead/tin layer for a more uniform thickness throughout the board.

However, the high temperatures associated with HASL can damage other thermos-sensitive PCB materials.

Also, you cannot use this technique for HDI applications.

Immersion Tin

Immersion tin comprises chemical deposition of a thin Tin layer chemically.

It offers sufficient protection against oxidation and is suitable for use alongside high-speed circuits.

The limiting factor associated with immersion tin is the high risk of potential diffusion as a result of closeness between the tin and copper.

Also, it is less ideal for use alongside two-sided PCB assemblies, and where there I need to store the PCB for an extended period.

Organic Solderability Preservatives (OSP)/Entek

This surface finishing option offers excellent heat, moisture resistance, and anti-oxidative properties.

It is compatible with lead-free techniques and compliant with RoHS standards.

The main limiting factor for its use is the short lifespan associated with it.

How Does the Thermal Conductivity of Nanya Laminate Affect The PCB Performance?

The thermal conductivity of a laminate is the measure of the flow rate of heat from a hot substrate region to a cooler substrate region.

A laminate with high thermal conductivity will efficiently redistribute the heat in the board by moving it away from hot components.

Subsequently, the thermal conductivity of the Nanya laminate you select will affect the final PCB temperature.

The selection of a laminate is particularly more critical in smaller boards having active components and switch at a very high speed.

Also, the laminate’s thermal conductive is vital in PCBs designed for the high current load.

You should choose a laminate with higher thermal conductivity if you intend to use your board in an environment with a high operating temperature.

Similarly, a laminate with high thermal conductivity is also vital for boards that are likely to generate a lot of heat.

The thermal conductivity of a PCB also directly influences its electrical conductivity.

This translates to a direct influence of the PCB’s conductive losses, where the laminate’s conductive losses increase with increasing thermal conductivity.

How Can You Fabricate Nanya Laminates?

You can follow standard FR-4 fabrication guidelines to process Nanya laminates.

However, different grades of Nanya laminates may require different fabrication conditions which must be adhered to the latter as outlined in the product’s catalog.

What Kinds of Nanya Copper Foils Are There?

There are different kinds of copper foil as determined by production technology and class.

The two main basic types of copper foils are electrodeposited and rolled copper foil.

Nanya laminates are made of different types of copper foils that also have different material thicknesses.

Based on thickness, Nanya laminates either have ultra-thin copper foils that measure or thick copper foils which measure.

Based on the production process, electrodeposited copper foil-based Nanya laminates form the majority.

During the lamination process, electrodeposited copper foil exhibit superior adhesion between the copper and the dielectric interlayer and also acts as an anti-tarnish agent.

On the other hand, rolled copper foil has a smoother surface compared to electrodeposited copper.

The smooth surface makes it ideal for use where PCBs electrical performance is critical because it helps reduce loss tangent to the minimum.

Overall, there are about eight different types of copper foil. These include:

  • Standard electrodeposited copper foil
  • High ductility copper foil
  • High-temperature elongation copper foil
  • Annealed electrodeposited copper foil
  • As a rolled-wrought copper foil
  • Light cold-rolled copper foil
  • Annealed wrought copper foil
  • High temperature as rolled-wrought anneal able copper foil

How Does the Thickness of Nanya Copper Foil Influence PCB Performance?

You can fabricate your Nanya laminates using different sizes and thicknesses of copper foils.

The thickness of copper foil affects both the electrical performance and mechanical properties of the PCB laminate.

Nanya PCB copper foils are an instrumental part of a laminate and connect the inputs, outputs, surface mounted devices in addition to transporting signals within the PCB.

The industrial standard for measuring the PCB copper thickness is ounce (Oz).

One ounce is the most commonly used copper thickness in PCB fabrication.

However, other copper thicknesses such as 0.5, 2, and 3 oz. are also commonly used in PCB fabrication.

The weight of copper foil you use will depend on the desired mechanical strength and the barrel’s current capacity for acceptable heat rise levels.

The copper foil thickness will determine the largest current capacity that can pass through the copper and plays an important role in safety consideration when designing.

Using heavy copper foils helps eliminate PCB failures associated with thermal cycling stress.

What Performance Features Should You Consider When Selecting Nanya Laminates for Use?

There are diverse and many types of Nanya laminates to consider when fabricating a PCB.

Selecting the most ideal Nanya laminate for your application will depend on the following factors.

  • Glass Transition Temperature (Tg)
  • Thermal Decomposition Temperature (Td)
  • The Dielectric constant
  • The Loss tangent
  • Coefficient of Thermal Expansion
  • Thermal Conductivity
  • Expansion in the Z-direction
  • Lead-Free compatibility
  • Copper Anodic Filament (CAF) resistance
  • Ecofriendly requirements
  • Ease of use
  • Halogen-free requirements
  • The smoothness of the copper surface
  • The impedance control
  • Type of copper cladding used

What is the CAF performance of Nanya Laminate?

CAF is an abbreviation for Conductive Anodic Filament and is responsible for the high rate of PCB failure.

It is a metallic filament that originates from internal electrochemical migration, resulting in a reduced resistance pathway within the laminate.

The occurrence of CAF resistance has been a concern for applications requiring the use of circuit boards with higher densities and layer counts.

Other factors that have also caused CAF resistance include the desire to use boards in harsher environments with safety-critical and high-reliability critical applications.

The use of high soldering temperatures associated with lead-free laminates also has the capability of affecting the laminate’s stability and increase CAF resistance substantially.

CAF failure is usually difficult to detect because it can manifest as a dielectric breakdown between the PCB conductors, current leakage, or intermittent electric shorts.

Consequently, using materials with high CAF resistance is very important to avoid PCB failure.

Nanya PCB laminates possess excellent CAF resistance.

Nanya laminates have been fabricated following a superior proprietary process that minimizes the risks of susceptibility to CAF failure.

The laminates have been carefully designed and subjected to IPC TM -650 2.6.25 standards to access susceptibility to CAF failure levels.

What is The Importance of the Pressure Cooker Test on Nanya Laminate?

You can use a pressure cooker test to evaluate the resistance to moisture absorption by Nanya laminates.

The test subjects the laminates to high-density water humidity, high temperatures above 100C, and high pressure above 1hPa.

The test condition for PCT comprises 100% relative humidity.

PCT is also known as the saturated pressure cooker storage test.

There is another variation of the test known as the unsaturated pressure cooker test or HAST.

The latter test is a damp heat bias test and is ideal for faster evaluation of an electronic material’s resistance to moisture absorption.

Nanya PCB Material

Nanya PCB Material

Are There Any Limitations of Nanya Laminates?

Nanya laminates are high-quality laminates for use in diverse fields of application.

However, these products also have some shortcomings such as:

  • Susceptibility to dielectric breakdown and failure of thermal and electric properties when subjected to excessive heat and voltage and power.
  • Incapability to maintaining a stable impedance as a result of varying dielectric constant.

What Fabrication Parameters Must You Supply at The Time of Quotation to Get the Best Nanya Laminate?

You must provide the following information to enable the production team to deliver a product that meets all the desired features.

  • Desired laminates thickness and corresponding tolerance
  • Type and thickness of copper cladding
  • Panel size
  • Dielectric constant and loss tangent
  • Other special customizations for considerations

At Venture Electronics, we help you find the best Nanya laminates for all your PCB fabrication needs and requirements.

Every Nanya laminate is subjected to strict quality testing and control to meet the specific needs of your applications.

Contact us today for all your Nanya laminates.

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