What is the WAS-110 PON Module and How Does It Work?
Understanding WAS-110 and Its Role in Passive Optical Networks
The WAS-110 PON module operates in Passive Optical Networks (PON) which serve as a backbone of modern fiber communication systems. In a PON, data transmission occurs through optical fibers with a point to multipoint topology which facilitates internet, IPTV, and other broadband services. The WAS-110 functions as a vital intermediary device that skips the need for an optical network terminal (ONT) or modem, connecting the fiber line directly to end-user equipment. This bypassing greatly improves latency, bandwidth distribution, and service quality.
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Key Specifications and Features of the WAS-110 Module
The WAS-110 module has several technical specifications and specialized features designed for optimal connectivity performance. The most important ones are the following:
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Wide Compatibility: The module accommodates multiple fiber forms GPON, EPON, and XGS-PON technologies which greatly aid in integration with current PON systems.
Compact Design: The WAS-110 is specifically designed to be space efficient which allow for quick installations within network enclosures or alongside modems.
Superior Signal Stability: The optical components of the module are advanced, ensuring minimal distortion is experienced with the data throughput.
High Bandwidth Capability: The WAS-110 supports gigabit-level speeds, which enables its users to seamlessly browse the internet.
Plug and Play Functionality: Simplified instruction for setup further aids in the enablement of fiber connections for both residential and commercial buildings.
How WAS-110 Enables Fiber Connection Bypass for Improved Connectivity
The WAS-110’s primary feature functions rest on its ability to bypass the optical modem, which removes proprietary hardware bottlenecks. By connecting to the optical fiber line directly, the module opens up a more efficient path for data to flow, achieving maximum speed and minimal network outages. This method of bypass is most advantageous for users on the high end of the bandwidth spectrum, such as those using 4k video streaming, online gaming, and enterprise cloud applications. In addition, the WAS-110 further improves energy expenditures by cutting reliance on other optional electronic systems, thus making it an economical and green broadband connection.
How to Set Up and Configure Your WAS-110 for AT&T Fiber
Step-by-Step Installation Guide for WAS-110 with AT&T Fiber Optic Connections
Step 1: Accessing the WAS-110 Interface at 192.168.11.1
Connecting a computer or mobile device to the WAS-110 can be done using an ethernet cable, as well as wireless.
Once connected, you will have to open any preferred web browser and input the following link into the address bar: 192.168.11.1.
After connecting to the IP, log in with the WAS-110 user manual credentials. Remember to change the credentials later on for more enhanced security.
Step 2: Configuring WAN Settings
Find “WAN SETTINGS” in the menu to configure them.
Select the correct AT&T Fiber connection type which is usually “PPPoE” (Point-to-Point Protocol over Ethernet).
Put the username and password that AT&T provided for the fiber connection.
Usually, for AT&T fiber, VLAN tagging should be enabled and set at 0 in advanced WAN configuration settings (this is commonly required).
Click on SAVE, and let it allow the device to reconnect to the network.
Step 3: Testing to Make Sure Everything is Working Properly
In the interface, make sure that the WAN status indicates “Connected”.
Also, as a test, open any website or use a networking tool specifically designed to check whether an internet connection is active.
If connectivity issues persist, turn off the WAS-110 and then turn it on again to double-check the settings.
As per these instructions, the WAS-110 should be fully working and deliver uninterrupted high-speed broadband service via AT&T Fiber. For a more complex setup, consult the troubleshooting area of the WAS-110 manual.
Common WAS-110 Compatibility Issues and Solutions
Troubleshooting WAS-110 Compatibility with Different Routers and OLTs
Like any other Optical Terminals, Optical Line Terminals (OLTs), and modern routers, the WAS-110 works well with them. Certain configurations, however, can cause problems that need tailoring work to soothe compatibility issues. The following are the most important troubleshooting options to deal with such problems:
PfSense Compatibility
If you are interfacing pfSense, make sure to set the WAN interface to DHCP if you intend to use bridge mode on WAS-110.
Do check that VLAN tagging is set according to the requirements of your ISP. In most cases for ATT Fiber, this includes either VLAN ID 0 or 802.1q Tagging.
Reexamine pfSense firewall rules to see if traffic from the WAN VLAN is indeed permitted.
Using the WAS-110 With MikroTik Routers
To guarantee support for contemporary technology and standards, it is highly advisable to update MikroTik Router IOS to the latest one.
Set VLANs under Bridge or Interface (Depending on MikroTik Version), ensuring that the VLAN ID set is compatible with both the WAS-110 and ISP.
Review Mikrotik’s DHCP client configuration and confirm that the IP address acquisition request is being sent to WAS-110.
Other Router General Compatibility
For other routers, check their manuals for applicable VLAN settings as well as DHCP or Static IP conditions to the WAS-110 requirements.
In case it’s needed, turn off any advanced safeguards (like MAC Address Filtering) that will block the assignment of an IP address.
Resolving Firmware and VLAN Configuration Problems
Most connectivity issues with the WAS-110 stem from VLAN and firmware mismatches. Follow the steps below to troubleshoot these issues:
Firmware Updates
It is critical to obtain the most recent firmware from the manufacturer’s support website before attempting any other troubleshooting steps. This increases the range of compatible network equipment preset, along with a scan of fixes for known vulnerabilities.
Make sure to check the router and OLT firmware as well. They should also be updated to the most recent stable versions available from the manufacturer.
VLAN Configuration
Ensure VLAN IDs match the rest of the network configuration. Many ISPs require VLAN tagging, which needs to be consistent across all devices, including the WAS-110.
Verify that the router or switch that connects to the WAS-110 supports 802.1q VLAN tagging. Also, make sure the port configured is set up for VLAN tagging.
Reconfiguration and Factory Reset
If issues persist after the VLAN settings and firmware have been adjusted, do a factory reset on the WAS-110 and reconfigure the device step by step.
Check that configuration parameters follow the ISP’s prerequisites to eliminate the chances of misconfiguration.
Refer to the WAS-110 manual for detailed instructions regarding advanced compatibility settings or troubleshooting, or reach out directly to the manufacturer’s tech support.
Advanced WAS-110 Configuration for Bypassing ISP Optical Modems
Setting Up Static IP Address and DHCP Configurations
Setting up static IP on WAS-110 requires logging into the web interface of the device and navigating to the network settings menu. In the IP configuration section, select Static IP and populate the required fields with parameters such as the IP address, subnet mask, gateway, and DNS server addresses. Make sure these values are congruent with the architecture of your network to reduce the possibility of connectivity problems. For DHCP setups, if the WAS-110 will allocate dynamic addresses to the connected devices, turn on the integrated DHCP server. For best results with conflict-free IP assignment, define the DHCP address pool, lease time, and any particular exclusions that need to be set.
Configuring VLANs and Subnet Settings for Optimal Performance
WAS-110 VLAN configuration allows effective implementation of network division for improved security and traffic control. Visit the VLAN settings page and assign VLAN IDs to each network segment. Designate correct ports to VLANs and set up tagging according to the network. For subnet settings, calculate an appropriate subnet mask that provides a satisfactory number of IP addresses without excess. Proper VLAN and subnet settings will maximize efficiency in a high demand environment or in a specialized network that requires isolation.
Configuring MAC Address Authentication and Other Security Settings
The WAS-110 offers MAC address filtering with the security enhancement of restricting access to authorized devices only. Enable MAC filtering on the security settings page and either type in the MAC addresses of allowed devices or take advantage of the import option if provided. In addition, enable wireless configurations encryption with WPA3 and change the login details of the device to unique and strong values different from the default credentials. Update and renew documented security policies and proactive steps regularly alongside the changing landscape of networks to maintain a secure environment.
Comparing WAS-110 with Other PON Media Converters
Performance Benchmarks: Speed, Latency, and Reliability Comparisons
In terms of performance comparisons against other GPON and XGSPON modules currently available in the industry, the WAS-110 clearly takes the lead in benchmarking tests. Providing an upstream and downstream bandwidth capacity of up to 2.5 Gbps, the WAS-110 meets or surpasses the industry norms for GPON modules in throttled latency tolerances. The throughput value is somewhat less than the XGSPON modules which offer up to 10 Gbps, however, the WAS-110’s reliability in varying signal conditions environments far exceeds the throughput value. With the peaks in network utilization, data integrity is still maintained with the WAS-110’s advanced error-correction protocols, resulting in streams of high-quality transmission. Medium-to-large scale fiber broadband deployments, which need consistent uptime and low jitter, are best serviced using the WAS-110.
Examine Costs and Returns from the Use of WAS-110 in Fiber Broadband.
WAS-110 has a reasonable cost perspective when compared to its advanced features. Although XGSPON modules tend to be priced more expensive than other options because of their speed capability, many use cases tend to cycle inefficiently, overestimating the provisioned capability. Dynamic bandwidth allocation, along with interoperability with GPON infrastructure, is important during cost analysis. Moreover, competitive pricing does not affect earmarked features. Lowering CAPEX, ease of installation, plus automated QoS management do affect operational costs in the long run. The WAS-110 Fiber ISP’s vision for effective consumer network breaching proposes strong economics for growing networks associated with diversified population segments.
Leveraging WAS-110 for XGS-PON Networks and Increased Bandwidth
Maximizing Downstream and Upstream Speeds with WAS-110
To ensure maximum bandwidth capabilities in your XGS-PON network, the WAS-110 is designed to provide symmetric downstream and upstream traffic of 10 Gbps each. Because of its remarkable signal processing capabilities and low-latency architecture, the device handles heavy network loads without interrupting high-speed data flow. By taking advantage of the WAS-110’s dynamic bandwidth allocation (DBA) method, which allocates resources based on user priority and demand, network operators can improve speed consistency even further.
Connections and Configuring WAS-110 for XGS-PON Deployments
The WAS-110 is tailored for effortless addition to the current XGS-PON structures. The installation process starts with the WAS-110’s connection to an OLT through an XGS-PON optical line using certified optical fibers. During configuration, settings like Virtual Local Area Networks (VLANs), traffic shaping, and Quality of Service (QoS) can be adjusted. Configuration is greatly facilitated by automated features, easing network-wide deployments and decreasing manual work.
How to Get WAS-110 Working Above Gigabit Speeds
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