PCB Material

Printed circuit boards (PCB) are embedded into almost all electronic devices. While a PCB is not necessarily needed to make an electronic system, they provide a convenient means of connecting various circuits together through copper routes while also providing a rigid and reliable surface to mount components on. The PCB can have a major impact on many electrical systems and thought should always be given to the choice of PCB material used.

Some key characteristics to consider when choosing a PCB material include the dielectric constant (Dk), dissipation factor (Df), thermal conductivity (TC), and coefficient of thermal expansion (CTE). Other key factors to examine are signal integrity, material cost, and manufacturing cost.

PCB Material Datasheet

Materials covered in this guide can be found below. Click on a material name to download the material’s datasheet.

Supplier	Material	Data Sheet
Shengyi	S1000-2	S1000-2 Datasheet
ITEQ	IT-158, IT-180A, IT-150G, IT-170GRA1, IT-150DA	IT-158 Datasheet, IT-180A Datasheet, IT-150G Datasheet, IT-170GRA1 Datasheet, IT-150DA Datasheet
ITEQ	IT-968, IT-968 SE, IT-988G, IT-988G SE	IT-968 Datasheet, IT-968 SE Datasheet, IT-988G Datasheet, IT-988G SE Datasheet
Isola	370HR, FR408HR, I-Speed	370HR Datasheet, FR408HR Datasheet, I-Speed Datasheet
Isola	I-Tera MT40, Astra MT77, Tachyon 100G	I-Tera MT40 Datasheet, Astra MT77 Datasheet, Tachyon 100G Datasheet
Panasonic	Megtron 6, Megtron 7, Megtron 8	Megtron 6 Datasheet, Megtron 7 Datasheet, Megtron 8 Datasheet
EMC	EM-825, EM-827, EM-285	EM-825 Datasheet, EM-827 Datasheet, EM-285 Datasheet
EMC	EM-370(D), EM-370(Z), EM-390	EM-370(D) Datasheet, EM-370(Z) Datasheet, EM-390 Datasheet
EMC	EM-888, EM-888(S), EM-888(K)	EM-888 Datasheet, EM-888(S) Datasheet, EM-888(K) Datasheet
EMC	EM-526, EM-528, EM-528K	EM-526 Datasheet, EM-528 Datasheet, EM-528K Datasheet
EMC	EM-890, EM-890K, EM-891, EM-891K	EM-890 Datasheet, EM-890K Datasheet, EM-891 Datasheet, EM-891K Datasheet
TUC	TU-662, TU-768, TU-747 LK, TU -862 HF	TU-662 Datasheet, TU-768 Datasheet, TU-747 LK Datasheet, TU -862 HF Datasheet
TUC	TU-865, TU-872 LK, TU-872 SLK, TU-872 SLK SP	TU-865 Datasheet, TU-872 LK Datasheet, TU-872 SLK Datasheet, TU-872 SLK SP Datasheet
TUC	TU-883, TU -933, TU-943SN	TU-883 Datasheet, TU-933+ Datasheet, TU-943SN Datasheet
Nelco	N4000-13EP, N4000-13 EP SI	N4000-13EP Datasheet,N4000-13 EP SI Datasheet
Rogers	RO4003, RO4350B, RO4835	RO4003 Datasheet, RO4350B Datasheet, RO4835 Datasheet
Rogers	RO3210, RO3003	RO3210 Datasheet, RO3003 Datasheet
Rogers	RT/duroid 5870, RT/duroid 5880, RT/duroid 6002	RT/duroid 5870 Datasheet, RT/duroid 5880 Datasheet, RT/duroid 6002 Datasheet
Rogers	TMM3, TMM4, TMM6, TMM10, TMM10i	TMM3 Datasheet, TMM4 Datasheet, TMM6 Datasheet, TMM10 Datasheet, TMM10i Datasheet
Taconic	TLY-5, RF35, RF-35TC, TSM-DS3	TLY-5 Datasheet, RF35 Datasheet, RF-35TC Datasheet, TSM-DS3 Datasheet
Taconic	TLX-8, TLX-9	TLX-8 Datasheet, TLX-9 Datasheet
DuPont	AP 8515R, AP 9111R, AP 8525R, AP 9121R	AP 8515R Datasheet, AP 9111R Datasheet, AP 8525R Datasheet, AP 9121R Datasheet
DuPont	AP 8535R, AP 9131R, AP 8545R, AP 9141R	AP 8535R Datasheet, AP 9131R Datasheet, AP 8545R Datasheet, AP 9141R Datasheet

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PCB Material Properties

The dissipation factor (Df) is the most important in determining the extent of signal loss in a PCB material; a higher value of Df leads to a higher loss. Furthermore, the signal loss also increases with the frequency or speed of operation. Therefore, for controlling the loss at high frequencies or high speeds, choose a PCB material with a low Df value.

Dielectric constant (Dk) of a PCB material changes with frequency. Large variations of Dk with frequency cause larger signal distortion/rise time degradation, which becomes less acceptable for high-frequency or high-speed signals. Therefore, as the signal frequency or speed increases, it is desirable to have lesser and lesser variation in Dk with frequency. The need for less variation of Dk with frequency for low loss PCB materials has been recognized and implemented by all board material manufacturers.

Dielectric constant (Dk)

The Dk of most PCB materials ranges from 2 to 10. The Dk of a PCB material largely determines the trace width of controlled impedance transmission lines on the circuit board; the greater the Dk value, the lesser the trace width will be for the same target controlled impedance value. A higher Dk value also leads to higher dielectric loss. In general, high-speed/low-loss materials have lower Dk values. Thus, Dk becomes an important electrical performance criterion for material selection. For normal speed/normal loss materials, the Dk varies considerably with frequency; for very high speed/very low loss materials, the Dk remains effectively constant with frequency. The Dk of the most commonly used board material- FR4- for example FR370HR- is 3.92 @ 10Ghz.

Dissipation factor (Df)

A material’s dissipation factor is the most important factor in determining the signal attenuation or signal loss, as signals travel along a PCB conductor or trace. The lower a material’s dissipation factor is, the lesser will be the signal loss. Thus, Df is the most important selection criterion from the signal loss perspective. The Df of FR4 material FR370HR is 0.025 @ 10Ghz.

CTI class/voltage

It is a measure of the voltage threshold above which electric breakdown can occur between 2 electrical conductors on the surface of a material. The smaller the CTI class value, the higher the threshold voltage. The CTI of the most commonly used PCB material-FR4- for example FR370HR- is CTI Class 3 with the electric breakdown voltage range being 175V-249V.

Glass transition temperature (Tg)

Tg is the temperature around which a circuit board substrate transitions from a glassy, rigid state to a softened, deformable state. Above Tg, the material has a substantially higher coefficient of thermal expansion than that below Tg. However, the deformation with temperature around Tg is completely elastic; when the temperature drops down from a temperature higher than Tg to below Tg, the material returns to its original state. For all lead-free (ROHS compatible) materials the Tg requirement is >= 170 °C.The Tg of FR4 material FR370HR- is 180 °C.

Decomposition temperature (Td)

Td is the temperature at which a PCB material chemically decomposes and the change is completely irreversible; once the material crosses Td, it cannot return to its original state after cooling down and therefore becomes totally non-functional. The Td of FR4 material FR370HR is 340 °C.

Coefficient of thermal expansion (CTE) X/Y and Z direction

It is the rate of expansion of a board material in the X, Y, and Z directions as the temperature increases. These values refer to the rate of expansion below Tg. The X, Y CTE of FR4 material FR370HR is (13,14) ppm/°C. The Z-axis CTE of FR370HR is 45 ppm/°C.

Laminates in Stock

We understand how important it is for you to have those prototypes that you handed over to Benchuang Electronics delivered in a timely manner. To this end, Benchuang Electronics is having all sorts of laminates, especially for those are high Tg, Low Dk/Loss materials available in stock enables us to start to fabricate your urgent requirements without missing a beat. The rare material preparation ahead of time in favor of the lead time of quick-turn projects. That’s customer cares in the highest sense for a quick-turn job.

A variety of board materials ranging from FR4 to Microwave/RF PTFE can be retrieved from our warehouse in an instant, get going to meet any urgent PCB’s requirement. No matter what kind of the raw material are designated to apply on your designs; the regular FR4, or High Tg (e.g., Arlon, Nelco, Getek, Isola), High frequency& Low DK/Loss (e.g., Rogers, Taconic, etc.), flex, rigid-flex, or other types of laminate, we have them all for you.