RF PCB introduction:
RF is Radio Frequency, referring to the radio, a high-frequency signal.
For performance index of PCB, it can be an ordinary FR4 epoxy glass fiber and also Teflon and other dedicated microwave substrates.
RF board standards:
1,In the design of miniwatt RF PCB, main material is standard FR4 (Good insulation characteristics
uniform material, dielectric constant ε = 4,10%).
2,In the RF PCB, every component should compact configuration to ensure that the shortest connection
between the every component.
3, For a mixed-signal PCB, RF and analog section should stay away from digital part
(This distance is usually more than 2cm, at least 1cm), the digital part of the ground should be
separated from the RF part.
4, To choose the components working in high frequency environment should use of surface-mount component as far as possible. Because the surface-mount component is small volume generally and the pin of component is very short.
Payment & Shipping Terms:
|Color:||White||Min Line Space:||5mil|
|Min Line Width:||5mil||Copper Thickness:||1OZ|
pcb printed circuit board,
Making Printed Circuit Boards
60GHz Receiver And Transmitter Module 0.508mm 2oz copper pcb Board , Blue Soldermask
|Origin:China||Special: Taconic material|
TACONIC company is the world's largest production of PTFE CCL manufacturer, with a glass woven cloth coated with PTFE patent, is the PTFE microwave CCL industry, one of the technology leader, and its microwave CCL's dielectric constant To 2.17-10.0, occupying the global antenna sheet market share of more than 80%.
TACONIC high-performance insulation materials for the microwave, radio frequency (RF) and high-speed digital signal processing market PTFE / woven glass fiber woven sheet. This material can be used in LNAs, LNBs, PCS / PCN antenna systems, Global Positioning System (GPS) and UMTS antenna systems, as well as power amplifiers, passive components, collision avoidance radar systems, aeronautical telemetry and phase control Array radar system.
High Speed Design Frequency PCB Board Special high electromagnetic frequency circuit boards, in general, can be defined as the frequency of the high frequency of 1GHz. Its physical properties, precision, technical parameters required is very high, commonly used in automotive anti-collision systems, satellite systems, radio systems, etc.
The basic characteristics of a high frequency board material requirements are the following:
(1) dielectric constant (Dk) must be small and very stable, usually the smaller the better signal transfer rate and the dielectric constant of the material
Inversely proportional to the square root of high dielectric constant is likely to cause the signal propagation delay.
(2) the dielectric loss (Df) must be small, mainly affect the quality, the smaller the dielectric loss signal transmission of the signal loss is smaller.
(3) as far as possible consistent with the coefficient of thermal expansion of the copper foil, copper foil separated because of inconsistency will cause changes in the hot and cold.
(4) to low water absorption, high water absorption will affect the dielectric constant and dielectric loss when damp.
(5) Other heat resistance, chemical resistance, impact strength, peel strength, etc. must also be good.
Microwave Antenna 4 Layer PCB Board,Radio frequency (RF) and microwave PCB’s are a type of PCB designed to operate on signals in the megahertz to gigahertz frequency ranges (medium frequency to extremely high frequency). These frequency ranges are used for communication signals in everything from cellphones to military radars. The materials used to construct these PCB’s are advanced composites with very specific characteristics for dielectric constant (Er), loss tangent, and CTE (co-efficient of thermal expansion).
High frequency circuit materials with a low stable Er and loss tangent allow for high speed signals to travel through the PCB with less impedance than standard FR-4 PCB materials. These materials can be mixed in the same Stack-Up for optimal performance and economics.
The multi-layer structure of Solus building material weaving has the following characteristics:
Its weight is only a small part of traditional building materials
Glass fiber is the highest strength of the textile fabric, it is even more than the same diameter of the wire but also solid
Unlike most solid construction materials, the soft Solus products can be stretched into a variety of dynamic arc shapes
Through the inside and outside the surface of uniform light transmission, the formation of a soft light scattering
In the weaving period, only a very small amount of cleaning work. Because the surface of the non-woven fabric is strong, while taut, so the rain will wash away the dust
The surface is completely inert
Harsh environments, such as molds, acid rain, etc., will not work on the surface of the weave
Each fabric framework will be welded together into a large roof. The strength of the weld will be greater than the fabric itself
The use of a long period
During its lifetime, the PTFE-coated glass cloth was almost non-degraded. At present, Solus weaving is estimated to be usable for at least 25 years
Solus weaves a Class A fire rating, while still maintaining a strong light transmission