A-TECH  >  AI - Page Sitemap  >  quick turn single-sided PCB flex
quick turn single-sided PCB flex

quick turn single-sided PCB flex
  • quick turn single-sided PCB flex

quick turn single-sided PCB flex

Rogers PCB refers to the printed circuit boards fabricated with the raw material from Rogers Corporation. Rogers Corporation...
Inquire Online
Get the latest price
Quantity Needed:
Pieces
E-mail:


Rogers PCB refers to the printed circuit boards fabricated with the raw material from Rogers Corporation. Rogers Corporation is the world’s technology leaders in innovative solutions for high-frequency printed circuit materials.

Traditional FR4 PCB material provides the base standard for PCB substrates, delivering a widely effective balance between cost, manufacturability, electrical properties, durability and performance, but when advanced electrical properties, reliability, efficiency and performance are critical to your designs, Rogers PCB is one of the ideal solution due to its advantages as following.



● Lower Dielectric loss
● Low electrical signal loss
● Wide range of DK(dielectric constant) values(2.55-10.2)
● Low cost circuit fabrication
● Low outgassing for space applications



A-TECH CIRCUITS is a reliable Rogers PCB manufacturer whom manufactured a large number of Rogers PCB with different Rogers material for worldwide customers. Since we have strategic cooperation with Rogers corporation on material sourcing, our price of Rogers PCB can be quite competitive in the worldwide market with high quality.

The Rogers material we have used for manufacturing printed circuit boards include RO3000 Series, RO4000 Series, RO4400 Series, RO4500 Series and RT / duroid Series. RO4000 Series with Rogers 4350B and 4003C are most popular and used most widely.

Rogers 4350 PCB & Rogers 4003 PCB

Rogers 4350 and Rogers 4003 offer superior high frequency performance and low cost circuit fabrication resulting in a low loss material which can be fabricated using standard epoxy/glass(FR-4) processes. These material possesses the proterties needed by designers of RF microwave circuits and matching newworks and controlled impedance transmission lines, they offer a range of dielectric constants(2.55 – 6.15), are available with UL 94V-0 flame retardant versions.



The benefits of Rogers 4350 PCB & 4003 PCB

● Low Z-axis CTE for reliable plated through-hole quality
● Robust lead-free solder processing compatibility
● High thermal conductivity for improved thermal management over traditional PTFE materials
● Optimized cost and RF/Microwave performance
● Compatible with FR4 fabrication including multilayer PCB constructions.




Manufacturing of A-TECH double layer pcb is a complex process. It begins with mining and then grinding raw materials to completion of heating, cooling, and drying. It is commonly installed in transformers, reactors, inductors, breakers, inverters, etc
A-TECH double layer pcb undergoes four basic production processes which are all up to industry standards including high-temperature cooling, heating, disinfection, and drying. It is characterized by low power losses
A-TECH double layer pcb is processed to meet the new concept of 'green buildings'. Some of its raw materials are obtained from the recycled materials and the waste discharge are totally eliminated. This product works most stably and effectively under low-frequency conditions
The production of A-TECH double layer pcb is fully automated. The necessary amounts of raw materials or water are exactly calculated by the computer. It's easy to assemble into the electronic devices
A-TECH double layer pcb has been tested to meet the international building materials standards in terms of properties such as toughness, hardness, and tensile strength. This product has good mechanical strength and rigidity
Wear and tear resistance is one of its biggest characteristics. The fibers used feature high fastness to rubbing and are not easy to break under severe mechanical abrasion. The product has a high power throughput
Product Message
Chat Online 编辑模式下无法使用
Chat Online inputting...
Please hold on and we will get back to you soon