December 2024

Living in a technology-driven world can be beneficial however, it comes with its own challenges. One such threat is Electrostatic Discharge (ESD). ESD is the sudden flow of electricity between two objects with different electrical potentials. This happens if anyone touches an object with static buildup, releasing the charge. Although it might apparently seem harmless, ESD causes serious damage to the electronic devices in a research lab, manufacturing facility, or testing environment. In fact, a single ESD event can permanently damage electronic devices, affecting performance, reliability, and functionality. Hence, protecting them is essential to prevent operational disruption. Importance of ESD protection in labs In any laboratory or production environment dealing with electronics, ESD is a serious concern. Devices such as microchips, integrated circuits, and printed circuit boards (PCBs) can be ruined with just a small static shock. This leads to increase in cost due to component damage. Netrack being a leading provider of data

Data centers are enabling technological advances to a great extent ensuring that data transmission remains efficient. Now, the traditional copper-based network infrastructures can no longer support the continuous scalability requirements in the present scenario. This is where the revolutionary optical switch technology in the data center is required. The need for optical switch technology and how it can help! To understand the need further, an optical switch is a device that routes data by using light signals through fiber optic cables, rather than traditional electrical signals in copper-based systems. In fact, an optical switch can handle the entire process in the optical domain unlike the traditional electronic switches that convert electrical signals to optical and then back to electrical. This improves the bandwidth of the connection. Now, as we know that with the increase in data volume, speed is essential for a data center operation to run smoothly. Also, it can reduce latency

Power Distribution Units (PDUs) are an important part of any data center or IT infrastructure. Since it provides reliable power distribution to multiple devices hence, choosing the right PDU form factor and mounting option as per requirement is essential for maximizing – efficiency and space utilization; making the process of power management seamless. Choosing the right PDU form for enhanced experience The form factor of a PDU refers to its physical size and design. Depending upon the space, each data center chooses its PDU form. In this regard, rack-mount PDUs are the most common type of PDU used in data centers. They are designed in such a way as to fit within standard IT racks enclosures. They can be either mounted horizontally or vertically depending on the available space and configuration. Horizontal rack-mount PDUs are typically mounted in the 1U or 2U space of a standard 19-inch rack. They are ideal for small data