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Product Details:
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| High Light: | High Frequency Circuit RF PCB Board,RO3010 High Frequency Circuit Boards,50mil High Frequency Circuit Boards |
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Our high-performance Printed Circuit Board (PCB) has been supplied for high-frequency applications, making it an excellent choice for projects that require high precision and reliability. The PCB materials used include Rogers RO3010 ceramic-filled PTFE composites, which are known for their low loss and high performance, with a dielectric constant of 10.2 and a dissipation factor of 0.0024 at 10 GHz. The operating temperature range for this material is -40℃ to +85℃, and it is lead-free, making it an eco-friendly option.
The PCB stackup configuration consists of two layers of base copper with a thickness of 17um and a dielectric material of RO3010 with a thickness of 50mil. The base copper layers are sandwiched between the dielectric layers, resulting in a finished board thickness of 1.35mm and a finished Cu weight of 1 oz (1.4 mils) for all layers. The via plating thickness is 1 mil, and the surface finish is ENIG. There is no top or bottom silkscreen, and no silkscreen on the solder pads.
The construction details of the PCB include dimensions of 100 mm x 100 mm, with a tolerance of +/- 0.15mm. The minimum trace/space is 7/8 mils, and the minimum hole size is 0.25mm. No blind or buried vias are included in this design. The PCB has a total of 93 pads, with 37 thru-hole pads, 56 top SMT pads, and 0 bottom SMT pads. There are 48 vias and 10 nets. The PCB has undergone 100% electrical testing to ensure its quality.
| RO3010 Typical Value | |||||
| Property | RO3010 | Direction | Units | Condition | Test Method |
| Dielectric Constant,εProcess | 10.2±0.05 | Z | 10 GHz/23℃ | IPC-TM-650 2.5.5.5 Clamped Stripline | |
| Dielectric Constant,εDesign | 11.2 | Z | 8GHz to 40 GHz | Differential Phase Length Method | |
| Dissipation Factor,tanδ | 0.0022 | Z | 10 GHz/23℃ | IPC-TM-650 2.5.5.5 | |
| Thermal Coefficient of ε | -395 | Z | ppm/℃ | 10 GHz -50℃to 150℃ | IPC-TM-650 2.5.5.5 |
| Dimensional Stability | 0.35 0.31 |
X Y |
mm/m | COND A | IPC-TM-650 2.2.4 |
| Volume Resistivity | 105 | MΩ.cm | COND A | IPC 2.5.17.1 | |
| Surface Resistivity | 105 | MΩ | COND A | IPC 2.5.17.1 | |
| Tensile Modulus | 1902 1934 |
X Y |
MPa | 23℃ | ASTM D 638 |
| Moisture Absorption | 0.05 | % | D48/50 | IPC-TM-650 2.6.2.1 | |
| Specific Heat | 0.8 | j/g/k | Calculated | ||
| Thermal Conductivity | 0.95 | W/M/K | 50℃ | ASTM D 5470 | |
| Coefficient of Thermal Expansion (-55 to 288℃) |
13 11 16 |
X Y Z |
ppm/℃ | 23℃/50% RH | IPC-TM-650 2.4.4.1 |
| Td | 500 | ℃ TGA | ASTM D 3850 | ||
| Density | 2.8 | gm/cm3 | 23℃ | ASTM D 792 | |
| Copper Peel Stength | 9.4 | Ib/in. | 1oz,EDC After Solder Float | IPC-TM 2.4.8 | |
| Flammability | V-0 | UL 94 | |||
| Lead-free Process Compatible | Yes | ||||
Why choose Rogers RO3010 ceramic-filled PTFE composites?
The choice of materials plays a crucial role in the performance and functionality of a Printed Circuit Board (PCB). Rogers RO3010 ceramic-filled PTFE composites were used in a specific PCB design to achieve high precision and reliability in high-frequency applications.
R
ogers RO3010 ceramic-filled PTFE composites are known for their low loss and high performance, making them an excellent choice for high-frequency applications. The dielectric constant of this material is 10.2, and the dissipation factor is 0.0024 at 10 GHz. Moreover, it is lead-free, making it an eco-friendly option. This material can operate between the temperature range of -40℃ to +85℃.
Other benefits of using Rogers RO3010 ceramic-filled PTFE composites in PCB design include excellent thermal stability, low moisture absorption, and high dimensional stability. These properties make it a reliable option for applications that require consistent performance over a range of operating conditions.
When selecting materials for PCB, it's essential to consider their electrical, mechanical, and thermal properties. Rogers RO3010 ceramic-filled PTFE composites excel in all of these areas, making them a popular choice for high-frequency applications. The low loss and high performance of this material make it ideal for applications that require high precision and reliability.
The physical properties of this material also make it an excellent choice for PCB. It has a low coefficient of thermal expansion, which means it can maintain its shape and size over a range of temperatures. Additionally, its low moisture absorption makes it a suitable option for applications that may be exposed to humidity or moisture.
Overall, the choice of materials for PCB is critical in determining the performance and functionality of the final product. Rogers RO3010 ceramic-filled PTFE composites are an excellent choice for high-frequency applications that require high precision and reliability. Its low loss and high performance, combined with its excellent thermal and mechanical properties, make it a reliable option for a wide range of applications.
Contact Person: Ms. Ivy Deng
Tel: 86-755-27374946
Fax: 86-755-27374848
