Rogers high frequency pcb widely used in the area of high technologies like communication device,Electronics,Aerospace,Military industry and so on. we have accumulated abandunt experiences in the line of high frequency microwave business for which widely apply to power divider,combiner,power amplifier,line amplifier,base station,RF antena,4G antena etc.
We have sufficient rogers material raw as follow:RO4003C、RO4350B、RO4360、RO4533、RO4535、RO4730、RO4232、RO4233、RO3003、RO3006、RO3010、RO3035、RO3203、RO3206、RO3210、RO3730、RO5780、RO5880、RO6002、RO3202、RO6006,Frequently-used is 4003C,4350B,5880
So we can do pcb circuit board with your detail requirements in the case of you send us gerber files or any other files
Payment & Shipping Terms:
|Min Line Space:||5mil||Min Line Width:||5mil|
|Copper Thickness:||1OZ||Board Size:||69*26MM|
RF Automotive Radar Applications Rogers3003 0.127MM Circuit Board
Key specifications/special features:
Rogers 4350B, Roger3003, Rogers4003,Roger 5880,Rogers6002 and more material on stock
PCB thickness: 0.2-2mm+/-10%
Final copper: 0.5-10oz
Min hole: 0.2mm
Min line width/space: 4/4mil
Min hole copper: 20μm/25μm
Solder mask: green/blue/red/black/gray/white
Surface: OSP/HAL lead-free/immersion gold/immersion tin/
immersion silver/flash gold/hard gold
Outline: rout and score/V-cut
Certificates: UL, SGS, RoHS Directive-compliant, ISO
Files: Gerber Protel DXP Auto CAD PADs eagle
Testing: flying probe test, E-test, X-ray Inspection, AOI
General Guide to RF Printed Circuit Boards:
Modern PCBs combine a variety of digital and mixed-signal technologies, so layout and design has become more challenging, especially when RF and microwave are in the mix for sub-assemblies. There are a few things to consider when looking at radio frequency PCBs, whether you’re working with us, another RF printed circuit boards supplier or designing your own.
First up is that the RF frequency range is normally 500 MHz to 2 GHz, though designs above 100 MHz will typically be considered RF PCBs. If you venture above 2 GHz, then you’re in the microwave frequency range.
RF and microwave printed circuit board designs have a few major differences to consider — differences between themselves and your standard digital or analog circuit.
Customize 4-layer Gold Rogers4003 Satellite Antenna Board,this is green soldermask finished surface microwave Rogers PCB,we can according to your gerber file custom rogers printed circuit boards,not only have 4-layer Gold Rogers4003 Satellite Antenna Board,we are also have multi-layer rogers board,with Rogers4350 PCB,Rogers4003 PCB,rogers5880 PCB,Rogers3003 PCB,Rogers3010 PCB,Rogers6010 PCB and so on.
Electronic 4-layer Gold Rogers4003 Satellite Antenna Board,most customers are customize and order rogers4003 PCB,usually they will send gerber file to us first,then tell us the quantity,board thickness,finished surface,finished copper,color for soldermask or silkscreen,then we will quote better price to them.Some Rogers will difficult,need blind&buried hole,it will need some more time to quote that.
In simplest terms, an RF printed circuit board is working with what’s essentially a very high-frequency analog signal. Your RF signal can be almost any voltage and current level at any point in time, as long as it’s between your minimum and maximum limits.
RF and microwave printed circuit boards operate on a frequency and pass signals within a certain band. Band pass filters are used to transmit signals in the “band of interest,” and anything outside of this frequency range is filtered out. Bands can be narrow or wide and can be carried via high-frequency carrier waves.
RF printed circuit board suppliers and manufacturers require a mix of standard and specialty equipment for proper processing and manufacturing. Plasma etch machinery is one of the more significant requirements, because it can maintain high quality in the thru-holes with minimal deviance.
Laser direct imaging (LDI) equipment is also commonly used for RF circuits, because it serves better than traditional photo exposure tools. You’ll want an LDI backing to ensure that board manufacturing maintains an extremely tight trace width, as well as front-to-back registration requirements.
|Board cutting||Number of layers||1-58|
|Min. Thickness for inner layers||0.003”(0.07mm)|
|(Cu thickness are excluded)|
|Min.||Single/Double layer: 0.008±0.004”|
|4 layer: 0.01±0.008”|
|8 layer: 0.01±0.008”|
|Bow and twist||<7/1000|
|Copper weight||Outer Cu weight||0.5-4 oz|
|Inner Cu weight||0.5-3 oz|
|Min size||0.0078” (0.2mm)|
|Drill deviation||±0.002” (0.05mm)|
|PTH hole tolerance||±0.002” (0.005mm)|
|NPTH hole tolerance||±0.002” (0.005mm)|
|Plating||Min hole size||0.0008” (0.02mm)|
|Aspect ratio||20 (5:1)|
|Min solder mask clearanace||0.003” (0.07mm)|
|Min size||0.006” (0.15mm)|
|E-test||Flying Probe Tester||Y|
|Impedance tester||Tektronix TDS8200|
|Surface Finish||HASL,ENIG,immersion silver,immersion tin,OSP...|
Overview, of the typical RF antenna design types used with satellites, both on the ground and on the satellite. This includes satellite television (tv) reception.
A variety of forms of antenna board can be used for transmitting to and receiving from satellites. The most common type of satellite antenna is the parabolic reflector, however this is not the only type of antenna that can be used.The actual type of antenna will depend upon what the overall application and the requirements.