https://www.jiangyuancables.com/about-us/ https://www.jiangyuancables.com Introduction (200 words) Shielded cables play a crucial role in various industries, from telecommunications to aerospace, where reliable and efficient transmission of signals is paramount. One of the most significant challenges faced in signal transmission is minimizing the impact of electromagnetic interference (EMI) and radio frequency interference (RFI). Shielded cables provide an effective solution by enclosing the conductors in a protective layer, preventing the ingress and egress of unwanted signals. However, an additional consideration is the cable's inductance, which can affect performance. This article explores the importance of low inductance in shielded cables and its impact on signal transmission. Section 1: Understanding Shielded Cables (400 words) To comprehend the significance of low inductance in shielded cables, it is essential to first understand their construction and purpose. Shielded cables consist of one or more conductive cores, typically made of copper or aluminum, surrounded by an insulating material. The cores are then encased in a conductive shield, which can be made of metal foil or braided wire. The purpose of the shield is to provide a barrier against EMI and RFI, ensuring signal integrity. Section 2: Inductance and Its Impact (500 words) Inductance, measured in Henries (H), is the property of a conductor that opposes changes in current flow. In shielded cables, inductance can arise from various factors, including the conductive cores, the insulating material, and the shield itself. High inductance can lead to several undesirable effects, such as signal degradation, increased power losses, and reduced bandwidth. Signal degradation occurs when the inductance of the cable causes attenuation, resulting in a loss of signal strength. This can lead to distorted or weakened signals, ultimately impacting the quality of data transmission. Additionally, high inductance can