What Is a Static IP Address? 3 Important Facts Explained
Today, businesses depend on the internet to work well. Because of this, companies must make many network choices. They choose speed, security, and connection type. One important choice is the type of IP address. In many cases, businesses choose a static IP address. This choice affects daily work. It affects servers and remote access. Because of that, it is important to understand static IP addresses. By learning this, you can improve network performance. At the same time, you can avoid extra costs. As a result, your business can use the internet more effectively. What is a Static IP Address? A static IP address is a fixed number given to a device on a network. Your internet service provider sets this number and keeps it the same. As a result, the address does not change, even when the device connects or disconnects many times. For example, web servers use static IP addresses so users can always find the website in the same place. In the same way, email services use them to keep a good sender reputation and improve email delivery. Also, remote desktop tools connect faster because the address is always known. According to a 2024 Cisco report, the number of devices online keeps growing. Because of this, this IP makes it easier to manage important networks. What is the Difference Between a Static IP Address and a Fixed IP Address? A static IP address and a fixed IP address mean the same thing. In fact, there is no difference between them. Both terms describe an IP address that never changes. Here are the key points: These terms are only different words. However, the real difference is between static and dynamic IP addresses. Dynamic IP addresses change often. They change each time a device connects. In contrast, static IP addresses stay the same. You can use both terms for the same purpose. How to Get a Static IP Address? There are several ways to get a static IP address. You need to choose the best option for your needs. Below are common methods: Each option has a different cost. For example, business plans offer better stability. On the other hand, local setup works well for private networks. Therefore, you should choose based on your business needs. Conclusion Static IP addresses give devices a stable identity. Because of this, servers stay easy to reach. Also, remote connections work faster. As a result, online services stay reliable. In the long run, this helps businesses operate smoothly. However, static IP addresses need a strong network to work well. If the network is weak, performance will drop. Because of that, the base infrastructure is very important. Dark fiber networks provide this strong foundation. They use dedicated fiber cables. This allows fast and stable data flow. As a result, it can be performed at their best. ARNet provides dark fiber solutions across Southeast Asia. The company supports hyperscalers and major industry players in Malaysia, Indonesia, Singapore, and Thailand. In particular, ARNet builds and maintains physical fiber networks. These networks connect data centers, cloud platforms, and large enterprises. In addition, the infrastructure supports very high bandwidth needs. Therefore, ARNet helps hyperscalers and leading companies run critical systems with speed, stability, and reliability across the region. About the Author Nabila Choirunnisa, Digital Marketing Executive at ARNet
9 Quick Ways to Change Your IP Address on Any Device
Every device that connects to the internet gets a number. This number is called an IP address. In daily use, networks rely on this number to find your device. At the same time, websites use it to communicate with your device. However, this number can show your general location, which is why many people want to learn how to change IP address for better privacy and control. Because of this reason, many people want better privacy online. In some cases, people need access to blocked content. In other cases, they want to fix network problems. For these reasons, learning how to change IP address helps users take control of their internet connection. How to change IP address? There are two main ways to do this. One common approach is manual setup, where users enter the settings themselves. Another option is automatic renewal, which requests a new address from the network. Although the process is different, both methods explain how to change IP address in a simple and practical way. Manual IP address configuration Manual setup offers greater control over network settings. With this method, users can choose an IP address that fits their needs. Because of this flexibility, it works well for special network requirements. It is also useful when solving connection errors. For this reason, manual configuration clearly shows how to change IP address with full control. Mac Windows 11 Android iOS Router Automatic IP address renewal Automatic renewal provides a new IP address from the internet provider. Since this method avoids manual settings, it is easier to use. Because of its simplicity, many users prefer this option. As a result, it becomes one of the fastest ways to learn how to change IP address. Mac Windows Android VPN connection method Another effective method is using a VPN. A Virtual Private Network creates a secure connection through remote servers. Through this connection, users receive an IP address from the VPN provider. Because of this process, the original IP address is hidden. At the same time, this method shows how to change IP address with added security and privacy. Conclusion Knowing how to change IP address helps users manage their network more effectively. For quick changes, automatic renewal works well. For privacy and security, VPNs offer stronger protection. Because needs vary, the best method depends on the situation and technical skill level. For businesses, basic IP address changes are often not enough. As operations grow, dedicated network infrastructure becomes necessary. Dark fiber networks support this need by allowing custom network design and full bandwidth control. ARNet delivers dark fiber solutions for organizations with specific requirements. As a result, businesses can build networks that align with their goals. The infrastructure supports reliable and high-capacity connections for data centers, enterprise operations, and telecom services. With this level of control, businesses can manage advanced settings, including how to change IP address. By choosing ARNet, organizations gain unlit fiber optic cables that work with any networking equipment. This leads to stronger security, higher performance, and more flexibility than traditional internet services. About the Author Nabila Choirunnisa, Digital Marketing Executive at ARNet
Understanding Internet Connectivity: A Simple Guide to Dark Fiber Networks
Internet connectivity is important for people and businesses around the world. Today, companies use the internet every day to run their work, connect with customers, and save important data. Because of this, the quality of the internet affects how well a business works and competes. To answer this need, dark fiber connections give companies a simple and clear solution. In simple words, these networks use fiber cables that only one company uses. Because of this, companies can rent or buy the cables and build their own private network. As a result, they get better control over their internet connection. According to Grand View Research, the global dark fiber network market reached USD 6.90 billion in 2025. Moreover, experts expect the market to grow to USD 21.88 billion by 2033. This growth shows that more companies want faster, more stable, and more reliable internet connections. What is meant by internet connectivity? In simple terms, internet connectivity means you can connect to the internet. With this connection, your devices can send and get information. Because of this, this helps you open websites, use apps, send emails, and also keep data on the internet. In addition, internet connectivity also means how fast the internet is and how stable the connection is. When the connection is good, data can move easily and smoothly between your device and the internet. How does internet connectivity work? Internet connectivity works by linking your device to the internet through an Internet Service Provider (ISP). In general, this link can use a cable or a WiFi signal. At the same time, the ISP helps send your information to the right place. In practice, data moves through fiber cables, copper cables, or wireless signals. However, in dark fiber networks, companies use their own fiber cables to send data between places. Because of this, this makes the connection faster and safer. As a result, people do not use the internet with others, so the speed is better. What are types of internet connectivity? There are many kinds of internet connections for different uses, like broadband internet, fiber optic, wireless internet, dark fiber, and Digital Subscriber Line (DSL). Each kind has different how fast it is, how stable it is, and how it is set up. Below is a short explanation of each one. Building better networks with ARNet Internet connection is very important for businesses. Many companies need fast and stable data to run their daily operations. Because of this, more businesses are choosing dark fiber. Dark fiber gives companies more control over their network. It offers private bandwidth, better security, and makes it easier to expand as the business grows. Studies also show that many companies are investing more in strong and reliable internet infrastructure. ARNet provides dark fiber services for businesses. The company builds and manages fiber networks in key locations. This allows businesses to create their own private networks with secure and dedicated bandwidth. ARNet is a trusted dark fiber provider in Southeast Asia. It operates in Malaysia, Singapore, Indonesia, and Thailand. Many large telecom companies and hyperscalers use ARNet for their core networks. By choosing ARNet, businesses get wide network coverage, reliable support, and a secure network that can grow with their needs. About the Author Nabila Choirunnisa, Digital Marketing Executive at ARNet
Understanding Local IP Addresses in Your Network Infrastructure
Every device you connect to your home or office network needs an address. In fact, this address works similar to a house address in your neighborhood. Specifically, it helps devices find each other and share information. To accomplish this, your router assigns a local IP address to identify each device properly. More specifically, a special number gets assigned to each device by your router. As a result, this number helps your router know which device is which. When you understand these addresses, you can manage your network better and fix problems faster. What is my local IP address? Your local IP address is a private number that belongs only to your device inside your network. For example, this number usually starts with 192.168, 10.0, or 172.16. Your router gives this number to your device so it can send the right information to you. To find it, you can see this address by looking at your device settings or using simple commands on your computer. However, this address is different from your public IP address. In contrast, your public IP address shows your whole network to the internet. How do I set my local IP? You can set your local IP address in two ways. The automatic method works simply: your router gives out addresses to all your devices by itself. On the other hand, the manual method allows you to choose the address yourself. To pick your own address, open your network settings on your device. From there, look for the option that says static or manual IP. Once you find it, type in the address you want to use. In addition, make sure your address fits with your router’s number range. Also, check that no other device uses the same address. Does everyone in a house have the same IP? No, each device gets its own local IP address. For instance, your phone, computer, tablet, and TV all have different numbers. However, all your devices share one public IP address for the internet. To manage this, your router remembers which device asked for which information. Then it sends the correct information to each device using their unique address. Key benefits of understanding local IP addresses Knowing about these addresses brings many practical benefits to your daily network use. Here are the main advantages you get: Conclusion More people and businesses need better network connections now. According to Grand View Research, the dark fiber network market was worth 6.90 billion dollars in 2025. This number will grow to 21.88 billion dollars by 2033. This growth shows that people want faster and safer internet connections. Both homes and businesses need strong network systems. Every device needs proper local IP address setup to work correctly. Learning about these addresses helps you take care of your network better. You can quickly fix connection problems, strengthen your network security, and organize all your devices in a clear way. Businesses that want to build strong networks need good connectivity solutions. ARNet offers dark fiber solutions that create the base for reliable networks. Dark fiber gives businesses full control over their connections. It provides the speed and growth space needed for modern business needs. The company provides dedicated fiber optic lines that give you better performance, stronger security, and unlimited speed options. ARNet is the right choice for your network infrastructure needs. With ARNet’s dark fiber solutions, your business gets complete control over your network setup. You can adjust your infrastructure based on what you need. This control extends to managing every aspect of your connectivity, including how you assign and organize your local IP address structure. Choosing quality dark fiber infrastructure today keeps your network strong for many years ahead. About the Author Nabila Choirunnisa, Digital Marketing Executive at ARNet
Understanding Your Router IP Address for Network Management
Every network needs the right settings to work well. This applies to both small offices and large companies. One important setting is the Router IP Address, which helps keep the network running smoothly. These basic settings support all online activity in your organization. Knowing how to manage a Router IP Address is an important first step for beginners. It allows devices in the network to connect and communicate properly. When it is set correctly, the network works better and connection issues happen less often. What is the Router’s IP Address? A Router IP Address is a number used to identify a router on a network. This number allows devices to connect to the router. Most home and office routers use a private IP address, such as 192.168.1.1 or 192.168.0.1. The router uses this address to control internet traffic and help devices send and receive data. How to See Router IP Address? To begin with, finding your router IP address depends on your operating system. These systems include: On Windows On Mac On Android On iPhone/iPad (iOS) How to Configure Router IP Address? Now that you know how to find your Router IP Address, you can set up your router to control your network and make it more secure. A 2024 survey by Broadband Genie, reported by ISPreview UK, shows that 84% of users have never changed router settings. This means many people do not set up their router correctly. Learning basic router setup can help improve network security and internet performance, and there are a few simple ways to do this based on your needs. 1. Assigning a Static IP to Your Router (for Management) Connect a computer to your router using either wired or wireless connection. Then, open a browser and navigate to the router’s current IP address (commonly 192.168.1.1, 192.168.0.1, or 192.168.2.1). After that, enter your login credentials (typically “admin” for username). Next, navigate to Setup or Network Settings in the interface menu. Subsequently, enter a new IP address (such as 192.168.1.250) along with the subnet mask, then save your changes. Finally, reconnect to the network using the new router IP address to access settings again. 2. Assigning Static IPs to Devices (DHCP Reservation) Locate your device’s MAC address (also called Physical Address) in the network settings. Then, access your router’s web interface using the steps above. After that, find the DHCP Reservation, Address Reservation, or Static Leases section. Add a new entry by entering the device’s MAC Address and assigning a specific IP Address (like 192.168.1.100) within the DHCP range. Save the settings and restart your device to apply the new configuration. 3. Setting a Static IP on the Device Itself (Manual) Identify your router’s IP (Gateway) and Subnet Mask. Then, access your device’s Wi-Fi or Network settings and locate IP Settings. After that, switch from DHCP or Automatic mode to Static or Manual. Manually enter the IP Address (outside the DHCP range), Subnet Mask, Gateway (your router IP address), and DNS servers. Conclusion Understanding and configuring your router IP address is essential for maintaining stable network connections. These skills help you troubleshoot connectivity issues, improve network security, and optimize device communication. Overall, proper IP management creates a reliable foundation for all your digital operations. However, for businesses requiring robust network infrastructure, fiber connectivity offers superior performance and reliability. ARNet specializes in dark fiber solutions that provide dedicated, unshared bandwidth for organizations with demanding connectivity needs. In addition, dark fiber gives you complete control over your network infrastructure and allows for unlimited scalability. Furthermore, ARNet stands out as a trusted partner because we deliver customized dark fiber solutions tailored to your specific requirements. Indeed, our infrastructure supports the high-speed, low-latency connections that modern businesses require for operations, cloud services, and data transfer. Additionally, we provide end-to-end support from initial consultation through deployment and ongoing maintenance, ensuring your network infrastructure and router IP address configurations run smoothly. Ultimately, our expertise in fiber infrastructure helps organizations build future-proof networks that grow with their business needs. About the Author Nabila Choirunnisa, Digital Marketing Executive at ARNet
Understanding IP Address Classes for Dark Fiber Networks
Every device connected to a network needs an IP address to communicate. Think of it as a digital mailing address that helps information reach the right place. Meanwhile, dark fiber networks are unused fiber optic cables that companies lease to build their own private networks. As a result, understanding IP address classes helps organize data flow and keeps all devices connected properly. Furthermore, recent data from IP2Location’s 2024 report shows big changes in IP address distribution across 249 countries during 2023. Notably, Australia moved up to 10th place, while Singapore climbed to 24th, and Seychelles jumped 25 spots to reach 99th place. Thus, these changes show that more companies around the world are building network infrastructure and, consequently, need proper IP address classes to manage their growing dark fiber systems. What are the 5 classes of IP addresses? The 5 classes of IP addresses are Class A, Class B, Class C, Class D, and Class E. Specifically, these IP address classes split the available IPv4 address space into different groups based on their size and what they’re used for. Initially, network engineers created this system to help companies organize addresses based on what they need. Furthermore, IP address classes serve different networking needs and have their own address range. Primarily, Class A, B, and C handle regular network operations. Meanwhile, Class D takes care of special multicasting functions. In contrast, Class E stays reserved for experimental work. Finally, the first few bits of an IP address tell you which class it belongs to. Class A networks Class A addresses start with numbers from 1 to 126 in the first section. These networks work for very large companies because they can handle millions of connected devices. The first 8 bits identify the network, and the remaining 24 bits identify individual devices in that network. A typical Class A address looks like 10.x.x.x, where “x” can be any number from 0 to 255. Big internet service providers and large corporations use these addresses for their operations. Only 128 Class A networks exist worldwide, which makes them rare and valuable for managing large dark fiber infrastructure. Class B networks Class B addresses go from 128.0.0.0 to 191.255.255.255. These networks fit well for medium-sized companies like universities, regional offices, or mid-sized businesses. The first 16 bits identify the network, and the last 16 bits identify individual devices. Companies with thousands of devices find Class B networks practical. They balance the number of available networks with how many devices each network can support. About 16,384 Class B networks are available around the world, giving growing businesses plenty of options. Class C networks In IP address classes, Class C addresses range from 192.0.0.0 to 223.255.255.255. These addresses are commonly used by small businesses and local networks. In this IP address class, the first 24 bits are used for the network, while the remaining 8 bits are used for device addresses. Each Class C network can support up to 254 devices. This makes it a good choice for small offices or branch locations. There are about 2 million Class C networks available, giving small companies many options without needing complex or expensive network setups. Class D networks Class D addresses range from 224.0.0.0 to 239.255.255.255. These addresses handle multicast traffic, which means one sender can send data to multiple receivers at the same time. Video conferencing platforms and streaming services use this class often for smooth content delivery. Regular networks don’t assign Class D addresses to individual devices. Applications and services use them for group communication instead. This makes them useful for sending content across dark fiber networks to many endpoints at once, which saves bandwidth and improves efficiency. Class E networks Class E addresses go from 240.0.0.0 to 255.255.255.255. Researchers and developers keep these addresses for experimental work and future applications. Regular networks can’t use these addresses for normal operations. The Internet Engineering Task Force holds these addresses for testing new protocols and networking technologies. While they exist in the IP address classes framework, they can’t be used on the public internet. This gives future innovations dedicated resources for testing and development. Conclusion Understanding IP address classes helps you build networks that fit your company’s needs. Class A, B, and C handle regular network operations for different company sizes. Class D manages multicast traffic and Class E stays reserved for experimental use. When you understand these classifications, you can design reliable dark fiber networks that grow with your business and support increasing connectivity needs across your infrastructure. Picking the right IP address classes makes sure your network performs well and can grow when you need it to. However, implementing these configurations properly requires reliable dark fiber infrastructure as the foundation for your network. ARNet provides professional dark fiber solutions that support proper IP address implementation and network design. Their infrastructure gives your business the bandwidth and flexibility needed for modern network demands. With strong expertise in dark fiber, ARNet’s experienced team helps companies make smart infrastructure decisions. Choosing ARNet means working with a provider who delivers reliable, high-capacity fiber connections built for growth. Our network infrastructure supports IP address classes and setup your company needs, from small branch offices to company-wide deployments. ARNet’s technical knowledge helps businesses build networks that work great today and scale easily for tomorrow’s needs. About the Author Nabila Choirunnisa, Digital Marketing Executive at ARNet