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Chinese When should I choose router depaneling over V-cut?
The choice between router depaneling and V-cut largely depends on the design and requirements of your PCBA. While both are popular methods for separating boards, each method offers distinct advantages depending on factors like board thickness, component sensitivity, and precision needs. This article will explore when router depaneling is the better choice over V-cut, with […]
When should you choose laser depaneling over routing?
This is a common question for PCB and PCBA engineers facing tighter tolerances, denser layouts, and rising cost pressure. The short answer: choose laser depaneling when mechanical stress, edge quality, or design freedom becomes a limiting factor. Below is a practical, experience-based breakdown to help you decide. 🔍 Understanding the Core Difference Routing (milling) relies […]
Is laser depaneling suitable for flexible PCBs?
Laser depaneling for flexible PCBs is increasingly popular in high-density electronics. Flexible PCBs are thin, stress-sensitive, and often densely populated. Mechanical methods like routing or V-cut can introduce micro-cracks, fiber pull-out, or board warping. Laser depaneling removes these risks, making it highly suitable when applied correctly. This article shares practical insights, production challenges, and cost […]
What PCB materials are suitable for laser depaneling?
PCB materials suitable for laser depaneling are not unlimited, and laser is not always the right answer. In real SMT production, laser depaneling performs extremely well for specific materials and use cases, while being less effective or inefficient for others. So instead of asking “Can laser cut this PCB?”, engineers usually ask a more practical […]
How close can components be to the PCB edge when milling depaneling?
Milling depaneling component-to-edge clearance is one of the most frequently debated topics between PCB designers, SMT engineers, and manufacturing teams. Everyone wants smaller boards, higher density, and lower cost—but routing physics does not disappear just because layouts become tighter. So, how close can components realistically be to the PCB edge when using milling depaneling? The […]
Will there be burrs after cutting the PCB with a milling cutter PCB depaneling machine?
Milling cutter PCB depaneling machine burr formation is one of the most common concerns raised by process engineers—especially when boards move directly into functional testing, coating, or final assembly. Burrs may look minor, but in high-density or high-reliability electronics, they can become a real quality risk. So, will burrs appear after milling and depaneling? The […]
How Much More Efficient is a Dual-Platform Milling Cutter Depaneling Machine Compared to a Single-Platform One?
Dual-platform milling cutter depaneling machine efficiency is a topic that frequently arises when SMT lines encounter throughput bottlenecks, but hesitate to add headcount or floor space. On paper, the answer seems simple: dual platforms mean higher output. In reality, the efficiency gain depends on workflow design, product mix, and how “productive time” is defined on […]
How Effective is the Dust Collection System of the Milling Cutter PCB Depaneling Machine?
Milling cutter PCB depaneling machine dust collection performance is often underestimated until production problems appear. Fine fiberglass dust, resin particles, and copper debris generated during routing do not just affect cleanliness—they directly influence yield, equipment lifespan, and operator safety. So how effective are modern dust collection systems in real SMT environments? This article shares practical, […]
Can a Milling Cutter PCB Depaneling Machine Achieve a Cutting Accuracy of ±0.05 mm?
Milling cutter PCB depaneling machine accuracy is a recurring discussion point among process engineers working with high-value and high-density PCBAs. ±0.05 mm is often quoted in specifications—but can it be achieved consistently in real production? The short answer is yes, under defined conditions. The longer answer depends on process control, mechanical design, and expectations around […]
PCB Milling Depaneling Machine: Maintaining Edge Accuracy for High-Value PCBA
PCB Milling Depaneling Machine has become a cornerstone for high-value, high-density PCBAs where precision, edge integrity, and component safety are critical. Unlike V-cut or blade depaneling, milling provides controlled material removal and is especially effective for dense layouts, fragile boards, and applications demanding high reliability. This article explores practical strategies, common challenges, and field-tested solutions […]
