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    UL Compliant

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    Kingboard Holdings Limited - KB-6150

    • Type: Normal Tg
    • Td: 305 ˚C
    • Tg: 132 ˚C
    • Arc resistance: 125 sec
    • RoHS: Yes
    • CTI: 150, 600 V
    • Dielectric breakdown: 45 kV
    more info
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    Isola Group - IS415

    • Type: Copper-clad
    • Td: 340 ˚C
    • Tg: 180 to 185 ˚C
    • Frequency: 0.1 to 10 GHz
    • UL: yes
    • Lead Free: yes
    • Arc resistance: 115 Sec
    more info
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    ITEQ Corporation - IT-170GTTC

    • Type: Halogen-free, High Temp
    • Td: 380 ˚C
    • Tg: 185 ˚C
    • Halogen Free: Yes
    • Applications: Server, Storage, Switch, Routers, Backplane
    • Cte xy: 11 to 13 ppm/˚C
    • Cte z: 45 to 183 ppm/˚C
    more info
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    Isola Group - TerraGreen 400G2

    • Type: Halogen-free
    • Dk: 3.10
    • Df: 0.0015
    • Td: 380 ˚C
    • Tg: 200 ˚C
    • UL: yes
    • Halogen Free: Yes
    more info
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    Panasonic Corporation - R-5785(N)

    • Dk: 3.2
    • Df: 0.0021
    • Td: 370 ˚C
    • Tg: 200 ˚C
    • Frequency: 0.2 to 40 GHz
    • Cte z: 45 to 320 ppm/˚C
    • Flamibility: 94V-0
    more info
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    Rogers Corporation - Anteo

    • Description: Flame-Retardant Glass Reinforced Hydrocarbon Laminates
    • Type: High Temp
    • Dk: 4.38
    • Td: 414 ˚C
    • Tg: 280 ˚C
    • Lead Free: Yes
    • Cte xy: 13,16 ppm/˚C
    more info
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    Kingboard Holdings Limited - KB-7150T

    • Td: 323 ˚C
    • Tg: 136 ˚C
    • Arc resistance: 125 sec
    • Dielectric breakdown: 4.6
    • Flamibility: V-0
    • Flexural strength: 450 N/mm
    • Material: CEM-3, FR-4
    more info
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    ITEQ Corporation - IT-8300GA

    • Type: Halogen-free
    • Td: 433 ˚C
    • Tg: 200 to 210 ˚C
    • UL: Yes
    • Halogen Free: Yes
    • Applications: Antenna
    • Cte xy: 19.1/20 ppm/˚C
    more info
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    DuPont - Pyralux FR

    • Type: Copper-clad
    • Dk: 3.0 to 3.6
    • Df: 0.02 to 0.03
    • Frequency: 0.1 to 10 GHz
    • UL: yes
    • Lead Free: No
    • RoHS: yes
    more info
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    Chin-Shi Electronic materials Ltd - CS-3000

    • Type: Halogen-free, Copper-clad
    • Td: 390 ˚C
    • Tg: 65 ˚C
    • Halogen Free: Yes
    • RoHS: Yes
    • Dimensional stability: 1000 x 1200 mm
    • Flamibility: 94V-0
    more info

    How to Build Your PCB Stackup

    Many PCBs will not function properly without the right dielectric materials as these influence EMI, signal integrity, and power integrity. The other dimension to consider on many mass-produced products is cost, as material selection will be a major factor determining volume production expense. To start building your own PCB stackup, follow these steps:

    • Prioritize your specifications - All PCB laminate materials come with tradeoffs, requiring a balance among cost, dielectric properties, and thermal reliability. Start by determining the important specifications before selecting material sets and planning your PCB layer assignments.

    • Review materials datasheets - Once base materials are selected, review the material datasheets, consult a PCB design services firm, or consult a PCB manufacturer for more information on use cases and laminate thickessness for you selected material set.

    • Check with your fabricator - Before finalizing your stackup design, have the design reviewed by a competent fabrication house. Hyrid PCB stackups builds, HDI PCB materials, thin PTFE laminates, and metal-core or ceramics all require special processing during fabrication to ensure reliability.

    The typical stackup arrangement shown below illustrates the stackup design approach and layer assigments in many commercial products. In between each of the signal/plane layer groups, additional signal layers may be present as needed, often being used to route important high-speed signals or large copper pours for power routing.

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