What is the Rogers 4350B High Frequency Circuit Materials?
Rogers 4350B PCB Supplier. We have made the Rogers 4350B core pcb boards from 2 레이어 30 레이어. We offer ultrathin Rogers 4350B PCB, Blind & buried vias Rogers 4350B pcb, Mixed medium HDI Rogers 4350B PCBS.
우리는 Rogers Materials의 에이전트로부터 이러한 재료를 구매한 후 빈 회로 기판을 가공하고 생산합니다.. 핵심소재를 생산하지 않습니다.. 다음 정보는 참고용입니다..
RO4003™ laminates are currently offered in various confifi gurations utilizing both 1080 그리고 1674 유리 패브릭 스타일, with all confifi gurations meeting the same laminate electrical performance specififi cation.
as a drop-in replacement for the RO4003C™ 재료, RO4350B™ laminates utilize RoHS compliant flfl ame-retardant technology for applications requiring UL 94V-0 certififi cation. 이 자료는 IPC의 요구 사항을 준수합니다- 4103, 슬래시 시트 /10 RO4003C용 및 /11 RO4350B 소재용.
| 재산 | 일반적인 값 RO4003C RO4350B | 방향 | 단위 | 상태 | 시험방법 | |
| 유전 상수, ~이다 프로세스 | 3.38 ± 0.05 | (2)3.48 ± 0.05 | 지 | — | 10 GHz/23°C | IPC-TM-650 2.5.5.5 고정된 스트립라인 |
| (1) 유전 상수, ~이다 설계 | 3.55 | 3.66 | 지 | — | 8 에게 40 GHz | 차동 위상 길이 방법 |
| 소산계수 tan, 디 | 0.0027 0.0021 | 0.0037 0.0031 | 지 | — | 10 GHz/23°C 2.5 GHz/23°C | IPC-TM-650 2.5.5.5 |
| er의 열 계수 | +40 | +50 | 지 | ppm/°C | -50°C~150°C | IPC-TM-650 2.5.5.5 |
| 체적 저항률 | 1.7 엑스 1010 | 1.2 엑스 1010 | MΩ•cm | 조건 A | IPC-TM-650 2.5.17.1 | |
| 표면 저항률 | 4.2 엑스 109 | 5.7 엑스 109 | MΩ | 조건 A | IPC-TM-650 2.5.17.1 | |
| 전기적 강도 | 31.2 (780) | 31.2 (780) | 지 | KV/mm (V/mil) | 0.51mm (0.020”) | IPC-TM-650 2.5.6.2 |
| 인장 탄성률 | 19,650 (2,850) 19,450 (2,821) | 16,767 (2,432) 14,153, (2,053) | 엑스와이 | MPa (ksi) | RT | ASTM D638 |
| 인장강도 | 139 (20.2) 100 (14.5) | 203 (29.5) 130 (18.9) | 엑스와이 | MPa (ksi) | RT | ASTM D638 |
| 굴곡강도 | 276 (40) | 255 (37) | MPa (kpsi) | IPC-TM-650 2.4.4 | ||
| 치수 안정성 | <0.3 | <0.5 | 엑스,와이 | mm/m (밀/인치) | 에칭 후 +E2/150°C | IPC-TM-650 2.4.39A |
| 열팽창 계수 | 11 14 46 | 10 12 32 | XYZ | ppm/°C | -55 288°C까지 | IPC-TM-650 2.4.41 |
| Tg | >280 | >280 | ℃ DSC | 에이 | IPC-TM-650 2.4.24 | |
| Td | 425 | 390 | °C TGA | ASTM D3850 | ||
| 열전도율 | 0.71 | 0.69 | W/m/°K | 80℃ | ASTM C518 | |
| 수분 흡수 | 0.06 | 0.06 | % | 48 몇 시간 동안 몰입 0.060” 샘플 온도 50°C | ASTM D570 | |
| 밀도 | 1.79 | 1.86 | gm/cm3 | 23℃ | ASTM D792 | |
| 구리 박리 강도 | 1.05 (6.0) | 0.88 (5.0) | N/mm (더) | 솔더 플로트 후 1 온스. EDC 포일 | IPC-TM-650 2.4.8 | |
| 가연성 | 해당 없음 | (3)다섯-0 | UL 94 | |||
| 무연 공정 호환 | 예 | 예 | ||||
What is Rogers 4350b High frequency circuit boards?
High frequency PCB with Rogers material The increasing complexity of electronic components and switches continually requires faster signal flow rates, 따라서 더 높은 전송 주파수. 전자 부품의 펄스 상승 시간이 짧기 때문에, 고주파수에도 필요해졌습니다. (HF) 도체 폭을 전자부품으로 보는 기술. 다양한 매개변수에 따라, HF 신호는 회로 기판에 반영됩니다., 즉, 임피던스 (동적 저항) 보내는 구성 요소에 따라 다릅니다.. 이러한 용량 효과를 방지하려면, 모든 매개변수는 정확하게 지정되어야 합니다., 최고 수준의 프로세스 제어로 구현됩니다.. 고주파 회로 기판의 임피던스에 중요한 것은 주로 도체 트레이스 구조입니다., 레이어 빌드업, 그리고 유전 상수 (에르) 사용된 재료 중.
ALCANTA PCB has bought these materials from an agent at Rogers Materials and then process and produce blank circuit boards.
로저스 PCB
HF 회로 기판에 사용되는 재료:
고주파 보드, 예를 들어. 무선 애플리케이션의 경우 상위 GHz 범위의 데이터 속도에는 사용되는 재료에 대한 특별한 요구 사항이 있습니다.: 적응된 유전율 효율적인 신호 전송을 위한 낮은 감쇠 절연체 두께 및 유전 상수의 공차가 낮은 균질한 구조 다양한 응용 분야에 사용, it is sufficient to use FR4 material with an appropriate layer buildup. 게다가, 유전 특성이 향상된 고주파 소재를 가공합니다.. 이는 손실률이 매우 낮습니다., 낮은 유전 상수, 주로 온도와 주파수에 독립적입니다.. 추가적인 유리한 특성은 높은 유리 전이 온도입니다., 우수한 열 내구성, 매우 낮은 친수성 비율. 우리는 (무엇보다도) Rogers 또는 PTFE 재질 (예를 들어, 듀폰의 테프론) 임피던스 제어 고주파 회로 기판용. 재료 조합을 위한 샌드위치 구성도 가능합니다..
임피던스 체크: 고객이 정의한 임피던스는 당사의 CAM 스테이션 엔지니어가 제조 가능성에 대해 테스트합니다.. 레이어 구성에 따라, PCB 레이아웃과 고객이 요청한 임피던스에 따라 계산 모델이 선택됩니다.. 그 결과 레이어 구성에 필요한 수정이 이루어지고 관련 도체 형상에 필요한 조정이 이루어집니다.. 고주파 회로기판 제작 후, 임피던스가 확인됩니다 (최대의 정밀도로 5%), 자세한 결과는 테스트 프로토콜에 정확하게 기록됩니다..
What is ultrathin Rogers 4350B PCB?
Exploring the World of Ultrathin Rogers 4350B PCBs:
In the realm of modern electronics, where miniaturization and high-performance are paramount, the demand for ultrathin printed circuit boards (PCB) has surged. Among the myriad of materials available for PCB fabrication, Rogers 4350B has emerged as a top contender for applications requiring exceptional electrical performance and dimensional stability. Let’s delve into the world of ultrathin Rogers 4350B PCBs to understand their significance and applications.
Introduction to Rogers 4350B:
Rogers 4350B is a high-frequency laminate material renowned for its outstanding electrical properties, 열 안정성, 기계적 강도와. Composed of woven fiberglass reinforced hydrocarbon/ceramic laminate, Rogers 4350B offers a low dielectric constant (DK) and low loss tangent (Df), making it ideal for high-frequency applications such as microwave, RF, and millimeter-wave circuits.
Characteristics of Ultrathin Rogers 4350B PCBs:
Ultrathin Rogers 4350B PCBs exhibit several notable characteristics that make them highly desirable for various advanced electronic systems:
- Reduced Thickness: One of the defining features of ultrathin Rogers 4350B PCBs is their significantly reduced thickness compared to traditional PCBs. With thicknesses ranging from 0.1mm to 0.5mm or even thinner, these PCBs enable the development of sleek and compact electronic devices without compromising on performance.
- High Electrical Performance: Despite their thin profile, ultrathin Rogers 4350B PCBs maintain exceptional electrical performance, including low loss tangent and consistent dielectric properties across a wide range of frequencies. This ensures reliable signal transmission and minimal signal distortion, critical for high-frequency applications.
- Excellent Dimensional Stability: Rogers 4350B exhibits excellent dimensional stability, even at elevated temperatures, making it well-suited for applications requiring precise impedance control and tight tolerance requirements. This ensures consistent electrical performance and reliability over a wide range of operating conditions.
- Suitability for High-Frequency Applications: Ultrathin Rogers 4350B PCBs are specifically designed to meet the stringent requirements of high-frequency circuits, including microwave and RF applications. Their low dielectric constant and low loss tangent make them ideal for use in antennas, satellite communications, radar systems, and wireless networking equipment.
Applications of Ultrathin Rogers 4350B PCBs:
The versatility and high performance of ultrathin Rogers 4350B PCBs render them indispensable in a wide range of advanced electronic applications, including but not limited to:
- Wireless Communication Systems: Ultrathin Rogers 4350B PCBs are widely used in the development of wireless communication systems such as 5G infrastructure, satellite communication systems, and high-speed data transmission equipment.
- 항공우주 및 방위 전자공학: In aerospace and defense applications, where reliability and performance are paramount, ultrathin Rogers 4350B PCBs are employed in radar systems, avionics, electronic warfare systems, and unmanned aerial vehicles (UAVs).
- 의료기기: The compact size and high performance of ultrathin Rogers 4350B PCBs make them ideal for medical devices such as MRI machines, ultrasound equipment, and implantable medical devices where space constraints and signal integrity are critical considerations.
- 자동차 전자: In the automotive industry, ultrathin Rogers 4350B PCBs find applications in advanced driver assistance systems (ADAS), vehicle-to-vehicle (V2V) communication systems, and automotive radar systems for enhanced safety and connectivity.
결론:
Ultrathin Rogers 4350B PCBs represent a significant technological advancement in the field of high-frequency electronics, offering unparalleled electrical performance, dimensional stability, and versatility in a compact form factor. With their widespread applications across various industries, these ultrathin PCBs continue to drive innovation and enable the development of next-generation electronic systems with enhanced performance and reliability.
What is Microtrace Rogers 4350B PCB?
Exploring Microtrace Rogers 4350B PCB: Revolutionizing High-Frequency Circuitry:
Microtrace Rogers 4350B PCB represents a significant advancement in high-frequency circuitry technology, offering unparalleled performance and reliability in demanding applications. This innovative PCB material, developed by Rogers Corporation, combines the exceptional electrical properties of Rogers 4350B laminate with the precision of microtrace technology, ushering in a new era of miniaturization and high-frequency signal integrity.
핵심, Microtrace Rogers 4350B PCB is built upon Rogers 4350B laminate, a high-performance thermoset material renowned for its low dielectric constant (DK) and low loss tangent (Df). These properties make Rogers 4350B an ideal substrate for high-frequency applications where signal integrity and minimal signal loss are paramount. By incorporating microtrace technology into Rogers 4350B laminate, Microtrace Rogers 4350B PCB achieves even greater precision and performance, making it a preferred choice for a wide range of industries including aerospace, 통신, and automotive.
Microtrace technology involves the precise fabrication of ultra-fine circuit traces and features on the PCB surface, allowing for higher circuit density and improved signal transmission. This technology enables designers to achieve smaller, lighter, and more efficient electronic devices without compromising on performance. With Microtrace Rogers 4350B PCB, designers can create intricate circuitry with minimal line widths and spacing, pushing the boundaries of high-frequency design and enabling next-generation electronic systems.
One of the key benefits of Microtrace Rogers 4350B PCB is its ability to support miniaturization without sacrificing performance. By reducing the size of circuit traces and features, Microtrace technology allows for higher packing densities, enabling the integration of more functionality into smaller form factors. This is particularly advantageous in applications where space is limited, such as mobile devices, wearable electronics, and IoT sensors. Microtrace Rogers 4350B PCB empowers designers to create compact, lightweight, and energy-efficient products without compromising on functionality or reliability.
뿐만 아니라, Microtrace Rogers 4350B PCB offers enhanced signal integrity and stability, thanks to the superior electrical properties of Rogers 4350B laminate. The low Dk and Df of Rogers 4350B ensure minimal signal loss and distortion, resulting in cleaner, more accurate signal transmission across high-frequency circuits. This is crucial for applications such as high-speed data communication, RF/microwave systems, and radar systems, where signal fidelity is critical for optimal performance.
In addition to its electrical properties, Microtrace Rogers 4350B PCB exhibits excellent mechanical and thermal stability, making it suitable for harsh operating environments. The robust construction of Rogers 4350B laminate provides exceptional resistance to moisture, chemicals, and temperature fluctuations, ensuring long-term reliability and durability in challenging conditions.
In conclusion, Microtrace Rogers 4350B PCB represents a groundbreaking advancement in high-frequency circuitry technology, combining the exceptional electrical properties of Rogers 4350B laminate with the precision of microtrace technology. By enabling miniaturization, improving signal integrity, and enhancing reliability, Microtrace Rogers 4350B PCB opens up new possibilities for high-frequency design and innovation across various industries. As the demand for smaller, faster, and more efficient electronic devices continues to grow, Microtrace Rogers 4350B PCB stands poised to lead the way towards a future of high-performance, miniaturized electronics.
What is Mixed medium Rogers PCB?
Mixed Medium Rogers PCB: Bridging the Gap Between High-Frequency and Conventional Circuitry
In the realm of printed circuit boards (PCB), the demand for versatile solutions that can accommodate both high-frequency and conventional circuitry has led to the emergence of mixed medium Rogers PCBs. These innovative PCBs combine the high-performance characteristics of Rogers laminate materials with traditional FR-4 substrates, offering a balanced approach to meet the diverse needs of modern electronic designs.
핵심, mixed medium Rogers PCBs leverage the exceptional electrical properties of Rogers laminates, such as Rogers 4350B, which are renowned for their low dielectric constant (DK) and low loss tangent (Df). These properties make Rogers laminates ideal for high-frequency applications, where signal integrity and minimal loss are critical. By incorporating Rogers laminate layers into the PCB stackup, mixed medium Rogers PCBs ensure superior high-frequency performance, enabling efficient signal transmission and reduced electromagnetic interference (EMI).
하지만, mixed medium Rogers PCBs also integrate traditional FR-4 layers into their construction. FR-4 is a widely used substrate material known for its cost-effectiveness, 기계적 강도, and ease of fabrication. By combining Rogers laminates with FR-4 layers, mixed medium PCBs strike a balance between high-frequency performance and conventional circuitry requirements. This hybrid approach allows designers to integrate both high-frequency and low-frequency components onto a single PCB, reducing complexity and optimizing space utilization.
The construction of mixed medium Rogers PCBs involves careful consideration of layer stackup and material selection. 일반적으로, the high-frequency signal layers utilize Rogers laminates, while the inner and outer layers for low-frequency components employ FR-4 material. This strategic layer arrangement ensures that high-frequency signals propagate efficiently through the Rogers layers, while low-frequency signals are adequately routed through the FR-4 layers.
One of the key advantages of mixed medium Rogers PCBs is their versatility. These PCBs can accommodate a wide range of applications, from high-speed data communication and RF/microwave systems to power electronics and control circuits. By providing a seamless transition between high-frequency and conventional circuitry, mixed medium Rogers PCBs offer designers the flexibility to optimize performance and cost according to specific project requirements.
뿐만 아니라, mixed medium Rogers PCBs offer enhanced reliability and thermal performance. The combination of Rogers laminates with FR-4 layers results in improved thermal conductivity and heat dissipation, ensuring efficient operation even under high-power conditions. This is particularly beneficial for applications that require prolonged operation at elevated temperatures, such as automotive electronics and industrial controls.
추가적으로, mixed medium Rogers PCBs streamline the manufacturing process by eliminating the need for separate high-frequency and conventional PCBs. This reduces assembly time, material costs, and potential points of failure, ultimately leading to faster time-to-market and lower overall production costs.
In conclusion, mixed medium Rogers PCBs represent a versatile and cost-effective solution for modern electronic designs that require a balance between high-frequency performance and conventional circuitry. By leveraging the unique characteristics of Rogers laminates and FR-4 substrates, these PCBs offer superior signal integrity, 신뢰할 수 있음, and thermal performance across a wide range of applications. As the demand for high-performance, multi-functional electronic devices continues to grow, mixed medium Rogers PCBs are poised to play a crucial role in enabling innovation and driving progress in the electronics industry.