KB FR4-61606160A6160C RAW Material TECHNICAL INFORMATION data sheet Click to down
The premium types of raw material are well-known brands in the printed circuit board (PCB) industry, which guarantees the steady product quality of pcba360. More attention has been focused on establishing long-term relationships between raw material suppliers and pcba360 to ensure the stability and reliability of timely material supply.
This friendly relationship leads to mutual support and growth.
Here you may review our list of PCB laminate material suppliers. We offer for fabrication of your printed circuit boards these materials, such as glass fiber epoxy laminates, special high performance laminates, and more. Your choice of laminates will depend on your application. If you need assistance selecting the right material, please contact the helpful customer service representatives at XDF Technology.
If we are out of stock of some special PCB material, we can buy it for you—there may just be a delay in requiring laminate. Or, you can supply to the materials to us. We only charge for the manufacturing cost. If you have any questions, you are welcome to contact us!
First Grade Main FR-4 material :
KINDGBOARD (KB), NAN YA, SHENGYI, ISOLA ,ITEQ,
Second Grade FR-4 material :
Panasonic, VENTEC GMD, HUAZHENG
Microwave material:
Rogers, Taconic, TEFLON, DUPONT, ARLON, Nelco
Flexible material:
DUPONT, PI
Aluminum material:
BERGQUIST, CUSTOM AL Base
Currently, the commonly double-sided PCB material is FR-4 and CEM-3 substrate. Both materials are flame retardant (UV 94-V0). FR4 material is a copper-clad laminate made of electronic grade alkali-free glass fiber cloth impregnated with flame-retardant brominated epoxy resin, copper foil on one or both sides, and hot pressing.
The CEM-3 type material is an electronic grade alkali-free glass non-aromatic cloth with flame-retardant brominated epoxy resin filled in the middle insulation layer, and one sheet is filled with flame-retardant brominated epoxy resin on both sides of the non-woven fabric. Copper foil is on one or both sides of Resin electronic-grade alkali-free glass fiber cloth and is then formed by hot-pressing into copper-clad laminate.
FR-1: phenolic paper substrate, breakdown voltage 787V/mm surface resistance, volume resistance lower than FR2
FR-2: phenolic paper substrate, breakdown voltage 1300V/mm
FR-3: epoxy paper substrate
FR-4: epoxy glass fiber board
CEM-1: epoxy glass cloth-paper composite board
CEM-3: epoxy glass cloth/glass mat board
HDI board: High-density interconnect
Copper-clad laminate is also called substrate. The reinforcing material is soaked with resin, one or both sides are covered with copper foil, and a board material is formed by hot pressing, which is called copper-clad laminate. This is the basic material of PCB, often called substrate. When it is used in multilayer PCB board production, it is also called “core.”
FR-1: phenolic cotton paper; this kind of substrate is alternatively called bakelite (more economical than FR-2)
FR-2: Phenolic cotton paper
FR-3: Cotton paper, epoxy resin
FR-4: glass fiber cloth, epoxy resin
FR-5: glass fiber cloth, epoxy resin
FR-6: matte glass, polyester
G-10: glass fiber cloth, epoxy resin
CEM-1: cotton paper, epoxy resin (flame retardant)
CEM-3: cotton paper, epoxy resin (non-flame retardant)
CEM-4: glass cloth, epoxy resin
CEM-5: glass cloth, polyester
AIN: aluminum nitride
SIC: silicon carbide
At present, the copper-clad laminates supplied on the market can be divided into the following categories in terms of base material:
Copper-clad laminate refers to substrates such as paper and fiberglass cloth, which are filled with resin to make bonding sheets (adhesive paper and tape). After combining several bonding sheets, one or both sides are equipped with copper foil. It is cured by heat and pressure to make a plate-shaped product.
Shielding board material refers to a copper-clad laminate with a shielding layer or patterned circuit in the inner layer. As long as the circuit on both sides is processed, it can become a multilayer circuit board. This is also called a “copper clad laminate with shielding layer.”
Multilayer materials refer to copper-clad laminates and adhesive sheets (adhesive cloth) used to make multilayer circuit boards. Recently, this has come to include grease-coated copper foil (RCC) for multi-layer laminates. The so-called multi-layer board refers to a circuit board with two layers of patterned circuits on both surfaces and the inside.
Special substrates refer to laminates, metal core substrates, etc. used in the additive process, which are not included in the above-mentioned types of special plates.
Metal core substrates also include resin-coated substrates (FBC, etc.) Others are:
Copper-clad laminate, also called PCB substrate.
(1) A plate-shaped material formed by filling a reinforcing material (glass fiber cloth, referred to as glass fiber cloth) with resin (pp sheet), covering one or both sides with copper foil, and hot pressing, called a copper-clad layer pressure plate (Copper Clad Laminates, [CCL]).
(2) The basic material for PCB, it is often called board.
(3) When it is used in the production of multilayer boards, it is also called core board (or core).
Copper foil
(1) The thickness of copper foil is measured in oz (ounces), and oz itself is the unit of mass. Usually, the thickness of copper foil is expressed as “thickness” by mass. The thickness of copper foil is usually defined as “oz”, 1oz copper thickness—spread one ounce of copper evenly on one square foot area. At this time, the thickness of the copper foil is called 1oz copper thickness, and its thickness is exactly 1.37mil (about 1.4mil).
pp is a sheet material made by filling treated glass fiber cloth with resin glue, and then heat treating (pre-baking) to make the resin enter the B stage. The process principle of the pressure plate is to use the prepreg from the B-stage to the C-stage conversion process to bond the various circuit layers into one.
(1) DK: The dielectric constant of the material. Only by reducing DK can a high signal propagation speed be obtained.
(2) Df: The dielectric loss angle of the material; the lower this angle, the lower the signal propagation loss is.
Note that DK is mainly related to the impedance of the signal network and also related to the capacitance between the plates, and Df is mainly related to the loss of the signal network. Factors affecting DK are:
(3) Tg: glass transition temperature, which has the greatest impact on vias. The glass transition temperature is the characteristic of the polymer, which refers to the resin from hard (glassy) to soft (rubbery). This is the temperature at which the shape changes.
At present, the Tg value of FR-4 board is generally 130-140, and in the manufacture of printed boards, there are several process problems that exceed this range, which will have a certain impact on the processing effect and final state of the product. Therefore, increasing Tg is a primary method to improve the heat resistance of FR-4. The Tg classification is as follows.
(4) CAF: Abbreviation for conductive anodic filament, called ion migration resistance.
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