Advanced driver-assistance systems (ADAS) rely heavily on multi-sensor fusion, where radar, LiDAR, ultrasonic sensing, and camera modules continuously exchange high-frequency data. To maintain real-time performance and safety-critical reliability, the ADAS PCB must deliver low-loss signal transmission, stable dielectric behavior, and tight impedance control under prolonged automotive thermal and vibration stress. High-frequency ADAS RF chains—particularly 24...
Advanced Driver Assistance Systems rely heavily on 77 GHz automotive radar modules, where the ADAS PCB directly determines signal integrity, insertion loss, dielectric stability, and system-level thermal reliability. As radar sensors expand from single-beam to multi-beam architectures, PCB materials and stackup selection have become primary constraints for RF linearity and long-distance object detection. The objective...
Radar PCB: Design Principles, Materials, Manufacturing Challenges & Key Applications High-speed PCBs stand at the top of modern circuit-board technology, spanning digital high-speed, mixed-signal, and RF/microwave categories. Among these, RF and microwave PCBs operate at the highest frequencies, making them essential for advanced applications—especially RADAR (Radio Detection and Ranging). Because Radar PCBs frequently host a...
Automotive Radar PCB: The Foundation of Intelligent Mobility | KKPCB Introduction Automotive radar technology has become a defining pillar of modern Advanced Driver Assistance Systems (ADAS) and autonomous driving architectures.At the core of these radar modules lies an essential enabler of performance — the Automotive Radar PCB. An Automotive Radar PCB is far more than...
Evolving Demands in Automotive and Aerospace RF Systems As automotive radar, satellite navigation, and aerospace telemetry systems scale toward 24–77 GHz mmWave frequencies, RF PCBs face extreme conditions—high temperatures, vibration, and fluctuating humidity levels.For engineers, ensuring signal stability, thermal endurance, and dielectric integrity over thousands of hours becomes a fundamental reliability challenge. Rogers...
Ensuring Long-Term RF Stability Through KKPCB’s Reliability Validation Process Why Reliability Defines Success in RO4835-Based RF Systems As automotive radar, aerospace communication, and satellite navigation systems expand into 24–77 GHz frequency ranges, PCBs face extreme operational stress. These high-frequency modules must withstand thermal cycling, humidity exposure, and long-term RF power loading, while maintaining...
Ensuring Consistent RF Performance Through KKPCB’s Validation Process In high-frequency applications—from 77 GHz automotive radar to 28 GHz 5G antenna arrays—the long-term stability and reliability of the PCB material determine system integrity more than any single design parameter. Among numerous high-frequency laminates, Rogers RO4350B PCB stands out for its balance of low dielectric loss,...
Engineering Reliable RF Performance with KKPCB’s Hybrid Lamination Expertise As 5G and radar systems advance toward higher frequencies (24–77 GHz) and more compact multilayer designs, engineers increasingly choose Rogers RO4350B PCB for its stable dielectric properties, low loss, and compatibility with standard FR-4 processes. Yet, when moving to hybrid stackups—mixing RO4350B with FR-4,...
1. Executive summary RO3003 (Rogers RO3000 series) is a PTFE-based, ceramic-filled laminate widely adopted where low dielectric loss, stable Dk, and excellent dimensional stability are required. This article explains why RO3003 is often the substrate of choice for automotive radar (e.g., 24 GHz, 77 GHz) and 5G mmWave antenna systems (e.g., 24–40 GHz), then walks...
Radar PCB Overview Radar PCBs represent the pinnacle of high-frequency circuit design, bridging advanced RF engineering and precise manufacturing. These specialized boards operate in the 1 GHz – 77 GHz range, demanding exceptional signal integrity, low loss materials, and extreme reliability — especially in mission-critical applications like automotive radar, aerospace, and defense. KKPCB has extensive...
KKPCB is a leading electronic solutions provider specializing in PCB design, fabrication, assembly, and testing for Flex, Rigid-Flex, RF/Microwave, HDI, rigid multilayer, and ATE test boards. We offer comprehensive end-to-end services, including prototyping, component sourcing, SMT/THT assembly, functional testing, enclosure assembly, and final product packaging. With our one-stop, in-house capabilities, KKPCB delivers OEM and ODM solutions with fast turnaround, high quality, and cost-effective results, serving clients worldwide.
PCB Manufacturing
PCB Assembly
Technical Support