In today’s connected world, dependable telecom networks are critical to business and daily life. However, maintaining connectivity can be challenging in remote and disaster-prone locations.
Conventionally, electricity requirements for telecommunication towers are met using grid electricity or a diesel generator. This leads to high energy consumption and carbon emissions.
The global telecom power system market is expected to grow significantly due to increased connectivity in remote areas. The growing adoption of long-term evolution (LTE), a wireless technology in these remote regions, drives the demand for power systems that provide reliable network connectivity.
Telecom power solutions like Delta Electronics rely on redundancy to deliver high-speed, uninterrupted communication services. Network redundancy involves duplicating hardware or software components to ensure continuous connectivity. This approach offers several advantages, including minimized data loss, improved disaster recovery, enhanced security, and superior quality of service.
A robust and reliable telecommunications network is the backbone of our interconnected world. Businesses and individuals need to enjoy seamless connectivity and continuous communications. However, this complex digital infrastructure is vulnerable to various threats that can jeopardize its reliability and functionality. To mitigate these threats, telecommunications companies must deploy redundant and resilient systems to ensure uninterrupted connectivity and continuity. This includes implementing reliable and efficient telecom battery backup systems that increase uptime reliability.
Uninterruptible Power Supply
In the age of data-driven businesses, even a momentary power surge or outage can have devastating consequences. It can zap hardware, lose files, and stop production. That’s why it’s important to have a reliable battery backup solution. One such device is an uninterruptible power supply or UPS.
There are several different types of UPS systems, but they all work by plugging into a power source, drawing, and storing energy. They then deliver this energy to equipment in the event of a power interruption or outage, and they also help improve and filter that power. UPS systems come in three topologies: static, dynamic, and hybrid. Static UPSs use power electronic converters, dynamic UPSs use electromagnetic engines (motors and alternators), and hybrid UPSs use static and dynamic technology.
An offline/standby UPS gets its power from a DC or AC outlet and converts it to a battery. This UPS system is used in applications that require a short duration of backup power, such as hospital operating rooms and intensive care units, computer installations, and alarms. For more complex applications, an online/double-conversion UPS is used. This UPS system enables power to be drawn from the output inverter without transferring it to a battery first, which increases run time and efficiency. It can also handle minor under and over-voltages using a multi-tap variable-voltage autotransformer or a buck-boost converter.
Telecommunications networks are largely controlled by software, but that doesn’t mean they’re immune from errors and operational failure. One small problem in a network can cause a systemic issue that disrupts communication across towns, cities, and even countries. These problems often stem from hardware malfunction or signal pickup issues such as radio interference from amateur radio transmissions, excessive RF power, or traffic overloads.
With so much at stake, telecommunications operators are under pressure to keep their networks operating at all times. But that comes at a cost – energy costs comprise 15-30% of telecom companies’ total operational expenses. This means telcos need to find innovative solutions that will allow them to scale up their network capabilities and deliver the reliable connectivity their customers demand without blowing their energy budgets. Fortunately, there are plenty of ways to improve energy efficiency in the telecommunications sector. Investing in intelligent power management solutions, embracing renewable energy sources, and upgrading to newer hardware can all help lower power consumption. These simple steps can also increase reliability, reduce operational costs, and boost environmental sustainability, benefiting the telecommunications industry and its customers.
Reliable telecom batteries are essential for keeping our phones, tablets, and laptops connected, even in the face of external power disruptions. These batteries are crucial to our mobile lives, from providing backup power in urban areas to enabling communications in remote or underserved regions. Telecommunications providers must understand what threats can impact their power supply and take the necessary steps to mitigate them.
Telecom backup batteries ensure telecommunication systems can continue to work in the event of AC loss, preventing outages and other potential losses. These batteries can also help optimize energy usage, reduce costs, and improve overall network performance.
The rapid growth of the telecom industry is driving the demand for reliable power solutions. With the advent of 5G technology and increasing data demands, telecom companies require efficient and scalable battery backup systems to support seamless connectivity while minimizing environmental impact.
Keeping mobile network towers in remote locations operational takes time and effort. The need for auxiliary power systems that are routinely fueled and maintained is essential in areas with poor grid conditions or frequent outages. Lead-acid telecom batteries typically power these auxiliary power systems. But telecom batteries have come a long way from their early predecessors thanks to advanced technology.
With a robust battery management system, telecommunication companies can monitor and manage their systems from a centralized location, significantly reducing maintenance costs. Battery management systems enable telecommunication companies to make data-driven decisions regarding battery replacements and system upgrades. In addition, BMS optimizes battery performance, reducing energy waste and ensuring consistent connectivity.