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1.6mm Thickness High Frequency PCB Multilayer Circuit Board For Electronic Devices
Product Details:
| Place of Origin: | China |
| Brand Name: | xingqiang |
| Certification: | ROHS, CE |
| Model Number: | Varies by goods condition |
Payment & Shipping Terms:
| Minimum Order Quantity: | 5 square meters |
|---|---|
| Price: | NA |
| Delivery Time: | 15-16 work days |
| Payment Terms: | ,T/T,Western Union |
| Supply Ability: | 3000 |
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Detail Information |
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| Mask: | Yellow+green | Finished Copper: | 35um/1oz |
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| Pcb Thickness: | 1.6mm | Raw Material: | FR4 |
| Legend: | White | Silkscreen Colour: | White/based On Your Request |
| Quality: | 100% E-Test | Delievery Time: | 3 -5 Days After Receive The Payment |
| Conductor Space: | 3 Mil | Pcb Surface Finishing: | HASL |
| Testing Method: | Flying Probe | Trade Terms: | EX-WORK, DDU TO DOOR, FOC |
| Highlight: | 1.6mm Thickness High Frequency PCB,High Frequency Multilayer Circuit Board,Multilayer Circuit Board For Electronic Devices |
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Product Description
High-frequency PCB
product Description:
High-frequency PCBs are printed circuit boards engineered specifically for high-frequency signal applications. Their materials and structural design are optimized to guarantee excellent electrical performance under high-frequency operating conditions. These PCBs are widely utilized in electronic devices that demand high-frequency signal transmission, including communication systems, radio frequency (RF) equipment, radar, satellite communications, and wireless devices.
product Features:
- High frequency performance requirements
- Low dielectric constant and low loss factor
- Signal integrity and impedance control
- Thermal management
- High frequency material characteristics
Manufacturing process:
- Design Phase: During the design phase, specialized PCB design software is required to take into account the characteristics of high-frequency signal transmission, while conducting precise impedance control and signal integrity analysis.
- Material selection and manufacturing: High-frequency PCBs typically use special high-frequency materials such as PTFE, ceramics, or LCP. These materials require processing during manufacturing to ensure stable electrical performance.
- Etching and pattern transfer: The circuit pattern of high-frequency PCB is transferred to the copper layer through photolithography and etching technology. In this, the width and spacing of the lines need to be strictly controlled to ensure the stability of signal transmission.
- Via and interlayer connection: The via design of high-frequency PCBs requires great precision, using tiny vias and appropriate plating processes to ensure the transmission of signals.
- Assembly and testing: After the completion of the PCB manufacturing, the components are installed and soldered. High-frequency PCBs need to undergo strict testing to their performance under high-frequency working conditions, including signal integrity, impedance control, and thermal management, etc.
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