High-frequency PCB

Product Description:

Our High-Frequency Printed Circuit Board (PCB) is precision-manufactured for demanding applications in RF, microwave, 5G communication, radar systems, satellite technology, and high-speed digital circuits. Designed to minimize signal loss, maintain impedance integrity, and ensure stable performance at GHz-level frequencies, this PCB is ideal for engineers and manufacturers in advanced electronic fields.Whether you're developing 5G base stations, automotive radar, or high-speed data transmission modules, our high-frequency PCB delivers exceptional dielectric performance, low insertion loss, and consistent signal integrity.

Product Features:

• High frequency performance requirements
• Low dielectric constant and low loss factor
• Signal integrity and impedance control
• Thermal management
• High frequency material characteristics

Ordering InformationPlease send us your:
1. Gerber files (RS-274X)
2. BOM (if PCBA needed)
3. Impedance requirements & stack-up (if available)
4.Test requirements (TDR, network analyzer, etc.)

We’ll reply within 4 hours with a free quote, DFM report, and material recommendation.

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.