MOQ: | 1 PIECE |
Price: | USD2 .99-9.99 per piece |
Standard Packaging: | VACUUM |
Delivery Period: | 8-9 WORKING DAY |
Payment Method: | T/T,Paypal |
Supply Capacity: | 50000 PIECE PER MONTH |
Introduction:
In the dynamic realm of advanced electronics, the quest for reliable and high-performance materials is incessant. A material that has been garnering significant attention in the industry is RO4730G3. With its outstanding properties and remarkable test results, RO4730G3 stands tall as the preferred choice for a diverse range of applications. In this blog post, we delve into the distinctive features and advantages of RO4730G3, substantiated by comprehensive test data.
Dielectric Constant: Paving the Way for High-Frequency Brilliance
RO4730G3 boasts an impressive dielectric constant, clocking in at 3.0±0.5 at 10 GHz and 23℃. This exceptional attribute ensures efficient signal transmission, making it an ideal solution for high-frequency applications. Furthermore, the design dielectric constant of 2.98 across the frequency range of 1.7 GHz to 5 GHz, as determined by the Differential Phase Length Method, underscores the consistent and dependable performance of RO4730G3.
Dissipation Factor: Minimizing Signal Loss, Maximizing Excellence
When it comes to signal loss mitigation, the dissipation factor takes center stage. RO4730G3 excels in this aspect, exhibiting a low dissipation factor of 0.0028 at 10 GHz and 23℃. This exceptional performance ensures optimal signal integrity and minimal energy loss, making it the go-to choice for high-speed and high-frequency applications where signal fidelity reigns supreme.
Thermal Stability: Reliability in the Face of Temperature Fluctuations
RO4730G3 showcases remarkable thermal stability, as evidenced by its thermal coefficient of ε of +34 ppm/℃ in the range of -50℃ to 150℃. This characteristic guarantees consistent electrical performance despite varying temperature conditions, making it an excellent fit for applications subject to temperature fluctuations.
Dimensional Stability: Precision Redefined
With an unwavering dimensional stability of less than 0.4 mm/m in the X and Y directions, even after etching and exposure to temperatures of +E2/150℃, RO4730G3 sets the bar high for maintaining precise circuit geometries and ensuring unwavering performance in high-precision electronic devices.
Electrical and Surface Properties: The Pillars of Reliability
RO4730G3 boasts exceptional electrical properties, with a volume resistivity of 9 X 10^7 MΩ.cm and a surface resistivity of 7.2 X 10^5 MΩ. These values attest to its outstanding insulating characteristics and its ability to prevent leakage currents, ensuring unwavering reliability and safe operation across a spectrum of electronic applications.
PIM Performance: Empowering Seamless Signal Quality
RO4730G3 delivers an outstanding Passive Intermodulation (PIM) performance, achieving a remarkable -165 dBc value at 1900 MHz and 43 dBm output power. This attribute positions it as the material of choice for wireless communication systems, where minimizing intermodulation distortion is critical to ensure pristine signal quality and reduce interference.
Mechanical Strength and Stability: Durability Redefined
In addition to its electrical prowess, RO4730G3 showcases impressive mechanical strength. With a flexural strength of 181 Mpa (26.3 kpsi) in the MD direction and 139 Mpa (20.2 kpsi) in the CMD direction at room temperature, it guarantees the durability and reliability of electronic assemblies, even in demanding operating conditions.
Other Key Properties: Versatility Unleashed
RO4730G3 presents a host of additional remarkable properties. It exhibits a low moisture absorption rate of 0.093% and a high thermal conductivity of 0.45 W/mK at 50℃, ensuring effective moisture resistance and efficient heat dissipation. Its coefficient of thermal expansion ranges from 14.4 to 35.2 ppm/℃ in the X, Y, and Z directions, enabling reliable performance across a wide temperature range. With a glass transition temperature (Tg) surpassing 280℃ and a decomposition temperature (Td) of 411℃, RO4730G3 fearlessly thrives in high-temperature environments without compromising its structural integrity. Moreover, its density of 1.58 gm/cm3 enables lightweight and compact designs, fostering innovation and versatility.
Flammability and Lead-Free Compatibility: Safety Meets Sustainability
RO4730G3 proudly holds a V-0 rating according to the UL 94 flammability standard, ensuring excellent flame resistance. It also stands as a paragon of environmental responsibility, being lead-free process compatible, complying with industry regulations, and embodying safe and sustainable manufacturing practices.
Conclusion:
RO4730G3 emerges as a high-performance dielectric material, empowering advanced electronics with its exceptional electrical, mechanical, thermal, and dimensional properties. With its remarkable dielectric constantTitle: RO4730G3 Unveiled: Empowering Advanced Electronics with Revolutionary Dielectric Material
Property | RO4730G3 | Direction | Units | Condition | Test Method |
Dielectric Constant,εProcess | 3.0±0.5 | Z | 10 GHz 23℃ | IPC-TM-650 2.5.5.5 | |
Dielectric Constant,εDesign | 2.98 | Z | 1.7 GHz to 5 GHz | Differential Phase Length Method | |
Dissipation Factor,tanδ | 0.0028 | Z | 10 GHz 23℃ | IPC-TM-650 2.5.5.5 | |
2.5 GHz | |||||
Thermal Coefficient of ε | +34 | Z | ppm/℃ | -50 ℃to 150℃ | IPC-TM-650 2.5.5.5 |
Dimensional Stability | <0.4 | X, Y | mm/m | after etech +E2/150 ℃ | IPC-TM-650 2.4.39A |
Volume Resistivity (0.030") | 9 X 107 | MΩ.cm | COND A | IPC-TM-650 2.5.17.1 | |
Surface Resistivity (0.030") | 7.2 X 105 | MΩ | COND A | IPC-TM-650 2.5.17.1 | |
PIM | -165 | dBc | 50 ohm 0.060" | 43 dBm 1900 MHz | |
Electrical Strength (0.030") | 730 | Z | V/mil | IPC-TM-650 2.5.6.2 | |
Flexural Strength MD | 181 (26.3) | Mpa (kpsi) | RT | ASTM D790 | |
CMD | 139 (20.2) | ||||
Moisure Absorption | 0.093 | - | % | 48/50 | IPC-TM-650 2.6.2.1 ASTM D570 |
Thermal Conductivity | 0.45 | Z | W/mK | 50℃ | ASTM D5470 |
Coefficient of Thermal Expansion | 15.9 14.4 35.2 |
X Y Z |
ppm/℃ | -50 ℃to 288℃ | IPC-TM-650 2.4.4.1 |
Tg | >280 | ℃ | IPC-TM-650 2.4.24 | ||
Td | 411 | ℃ | ASTM D3850 | ||
Density | 1.58 | gm/cm3 | ASTM D792 | ||
Copper Peel Stength | 4.1 | pli | 1oz,LoPro EDC | IPC-TM-650 2.4.8 | |
Flammability | V-0 | UL 94 | |||
Lead-free Process Compatible | Yes |
MOQ: | 1 PIECE |
Price: | USD2 .99-9.99 per piece |
Standard Packaging: | VACUUM |
Delivery Period: | 8-9 WORKING DAY |
Payment Method: | T/T,Paypal |
Supply Capacity: | 50000 PIECE PER MONTH |
Introduction:
In the dynamic realm of advanced electronics, the quest for reliable and high-performance materials is incessant. A material that has been garnering significant attention in the industry is RO4730G3. With its outstanding properties and remarkable test results, RO4730G3 stands tall as the preferred choice for a diverse range of applications. In this blog post, we delve into the distinctive features and advantages of RO4730G3, substantiated by comprehensive test data.
Dielectric Constant: Paving the Way for High-Frequency Brilliance
RO4730G3 boasts an impressive dielectric constant, clocking in at 3.0±0.5 at 10 GHz and 23℃. This exceptional attribute ensures efficient signal transmission, making it an ideal solution for high-frequency applications. Furthermore, the design dielectric constant of 2.98 across the frequency range of 1.7 GHz to 5 GHz, as determined by the Differential Phase Length Method, underscores the consistent and dependable performance of RO4730G3.
Dissipation Factor: Minimizing Signal Loss, Maximizing Excellence
When it comes to signal loss mitigation, the dissipation factor takes center stage. RO4730G3 excels in this aspect, exhibiting a low dissipation factor of 0.0028 at 10 GHz and 23℃. This exceptional performance ensures optimal signal integrity and minimal energy loss, making it the go-to choice for high-speed and high-frequency applications where signal fidelity reigns supreme.
Thermal Stability: Reliability in the Face of Temperature Fluctuations
RO4730G3 showcases remarkable thermal stability, as evidenced by its thermal coefficient of ε of +34 ppm/℃ in the range of -50℃ to 150℃. This characteristic guarantees consistent electrical performance despite varying temperature conditions, making it an excellent fit for applications subject to temperature fluctuations.
Dimensional Stability: Precision Redefined
With an unwavering dimensional stability of less than 0.4 mm/m in the X and Y directions, even after etching and exposure to temperatures of +E2/150℃, RO4730G3 sets the bar high for maintaining precise circuit geometries and ensuring unwavering performance in high-precision electronic devices.
Electrical and Surface Properties: The Pillars of Reliability
RO4730G3 boasts exceptional electrical properties, with a volume resistivity of 9 X 10^7 MΩ.cm and a surface resistivity of 7.2 X 10^5 MΩ. These values attest to its outstanding insulating characteristics and its ability to prevent leakage currents, ensuring unwavering reliability and safe operation across a spectrum of electronic applications.
PIM Performance: Empowering Seamless Signal Quality
RO4730G3 delivers an outstanding Passive Intermodulation (PIM) performance, achieving a remarkable -165 dBc value at 1900 MHz and 43 dBm output power. This attribute positions it as the material of choice for wireless communication systems, where minimizing intermodulation distortion is critical to ensure pristine signal quality and reduce interference.
Mechanical Strength and Stability: Durability Redefined
In addition to its electrical prowess, RO4730G3 showcases impressive mechanical strength. With a flexural strength of 181 Mpa (26.3 kpsi) in the MD direction and 139 Mpa (20.2 kpsi) in the CMD direction at room temperature, it guarantees the durability and reliability of electronic assemblies, even in demanding operating conditions.
Other Key Properties: Versatility Unleashed
RO4730G3 presents a host of additional remarkable properties. It exhibits a low moisture absorption rate of 0.093% and a high thermal conductivity of 0.45 W/mK at 50℃, ensuring effective moisture resistance and efficient heat dissipation. Its coefficient of thermal expansion ranges from 14.4 to 35.2 ppm/℃ in the X, Y, and Z directions, enabling reliable performance across a wide temperature range. With a glass transition temperature (Tg) surpassing 280℃ and a decomposition temperature (Td) of 411℃, RO4730G3 fearlessly thrives in high-temperature environments without compromising its structural integrity. Moreover, its density of 1.58 gm/cm3 enables lightweight and compact designs, fostering innovation and versatility.
Flammability and Lead-Free Compatibility: Safety Meets Sustainability
RO4730G3 proudly holds a V-0 rating according to the UL 94 flammability standard, ensuring excellent flame resistance. It also stands as a paragon of environmental responsibility, being lead-free process compatible, complying with industry regulations, and embodying safe and sustainable manufacturing practices.
Conclusion:
RO4730G3 emerges as a high-performance dielectric material, empowering advanced electronics with its exceptional electrical, mechanical, thermal, and dimensional properties. With its remarkable dielectric constantTitle: RO4730G3 Unveiled: Empowering Advanced Electronics with Revolutionary Dielectric Material
Property | RO4730G3 | Direction | Units | Condition | Test Method |
Dielectric Constant,εProcess | 3.0±0.5 | Z | 10 GHz 23℃ | IPC-TM-650 2.5.5.5 | |
Dielectric Constant,εDesign | 2.98 | Z | 1.7 GHz to 5 GHz | Differential Phase Length Method | |
Dissipation Factor,tanδ | 0.0028 | Z | 10 GHz 23℃ | IPC-TM-650 2.5.5.5 | |
2.5 GHz | |||||
Thermal Coefficient of ε | +34 | Z | ppm/℃ | -50 ℃to 150℃ | IPC-TM-650 2.5.5.5 |
Dimensional Stability | <0.4 | X, Y | mm/m | after etech +E2/150 ℃ | IPC-TM-650 2.4.39A |
Volume Resistivity (0.030") | 9 X 107 | MΩ.cm | COND A | IPC-TM-650 2.5.17.1 | |
Surface Resistivity (0.030") | 7.2 X 105 | MΩ | COND A | IPC-TM-650 2.5.17.1 | |
PIM | -165 | dBc | 50 ohm 0.060" | 43 dBm 1900 MHz | |
Electrical Strength (0.030") | 730 | Z | V/mil | IPC-TM-650 2.5.6.2 | |
Flexural Strength MD | 181 (26.3) | Mpa (kpsi) | RT | ASTM D790 | |
CMD | 139 (20.2) | ||||
Moisure Absorption | 0.093 | - | % | 48/50 | IPC-TM-650 2.6.2.1 ASTM D570 |
Thermal Conductivity | 0.45 | Z | W/mK | 50℃ | ASTM D5470 |
Coefficient of Thermal Expansion | 15.9 14.4 35.2 |
X Y Z |
ppm/℃ | -50 ℃to 288℃ | IPC-TM-650 2.4.4.1 |
Tg | >280 | ℃ | IPC-TM-650 2.4.24 | ||
Td | 411 | ℃ | ASTM D3850 | ||
Density | 1.58 | gm/cm3 | ASTM D792 | ||
Copper Peel Stength | 4.1 | pli | 1oz,LoPro EDC | IPC-TM-650 2.4.8 | |
Flammability | V-0 | UL 94 | |||
Lead-free Process Compatible | Yes |