5Appendix A - RuggedWireless ™ Frequently Asked Questions (FAQ)

What factors can affect wireless coverage/range?

Range estimates are typical and require line of sight. Basically that means you will need a clear unobstructed view of the antenna from the remote point in the link. Keep in mind that walls and obstacles will limit your operating range and could even prevent you from establishing a link. Signals in the 2.4 Ghz generally will not penetrate metal or concrete walls. Trees and leaves are also obstructions to 802.11 frequencies so they can partially (or even entirely) block the signal. Other factors that will reduce range and affect coverage area include metal studs in walls, concrete fiberboard walls, aluminum siding, foil-backed insulation in the walls or under the siding, pipes and electrical wiring, furniture and sources of interference. Other sources of interference include the microwave oven, other wireless equipment, cordless phones, radio transmitters and other electrical equipment. Due to the increased gain, installing range extender antennas in the presence of interference could actually yield either no improvement or worse range.

Which WiFi (802.11) Antenna type should I choose? Patch/Directional Antennas

Choose a patch if you want the signal more focused than from an omni-directional antenna . Patch antennas typically transmit the signal with approximately a 30 degree beam width. This is ideal for use in office locations, ie placed at one end of room to provide coverage for it's entire length. They can also be used outdoors to provide short distance point to point links.

When would I choose a Parabolic Grid Antenna?

These antennas have a very narrow beamwidth and are ideal for point-to-point bridge links. Grid antennas are highly directional and they should only be chosen to aim at one small (i.e. concentrated) spot.

When would I choose an Omni-Directional Antenna?

Choose an Omni-directional antenna to provide a signal over a full 360 degree radius.

How many clients can associate with an access point?

An Access Point is a shared medium and acts as a wireless hub. The performance of each user decreases as the number of users increases on an individual AP. Ideally, not more than 24 clients should associate with the AP because the throughput of the AP is reduced with each client that associates to the AP.

How do I convert between power expressed in ‘milliwatt’ and power expressed in ‘dBm’ units?

The formula used to convert stated ‘power’ levels to decibels (dBm – milliwatt @ 50 or 600 ohm impedance) is given as: dBm = 10 * Log (Power in mW / 1 mW)

Conversely, the formula used to convert stated ‘power’ levels to milliwatts when expressed in dBm is given as: Power (mW) = anti-log (dBm / 10)

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RuggedCom RS900W manual Appendix a RuggedWireless Frequently Asked Questions FAQ

RS900W specifications

The RuggedCom RS900W is a powerful and versatile wireless router designed specifically for critical infrastructure applications. It combines the essential features of a rugged networking device with advanced wireless communication capabilities, making it an optimal choice for industries such as utilities, transportation, and industrial automation.

One of the standout features of the RS900W is its robust construction. Built to withstand harsh environmental conditions, this router has an IP67 rating, meaning it is dust-tight and can withstand immersion in water. This level of protection ensures the device operates reliably in extreme temperatures, humidity, and exposure to corrosive elements, which are common in outdoor and industrial environments.

The RS900W employs advanced wireless technology, supporting both 802.11ac and 802.11n standards. This dual-band capability enables users to leverage both 2.4 GHz and 5 GHz frequency bands, providing flexible connectivity options. The router supports a multitude of Wireless Distribution System (WDS) applications, enabling easy and efficient expansion of wireless networks without the need for additional cabling.

In terms of security, the RS900W incorporates state-of-the-art features to protect critical data. It supports WPA3, allowing for enhanced encryption and stronger authentication mechanisms. The router also offers Virtual LAN (VLAN) support, which helps to segregate network traffic for improved security and performance management. Access Control Lists (ACLs) further enhance the security by allowing administrators to define who can access the network based on specific criteria.

Network management is simplified with the RS900W’s intuitive web-based interface, which provides real-time monitoring and control options. The device supports SNMP (Simple Network Management Protocol), making it easy for network administrators to oversee the health and status of the network remotely. The ability to integrate with existing SCADA (Supervisory Control and Data Acquisition) systems makes the RS900W even more suitable for critical infrastructure applications.

With its rugged build, advanced wireless capabilities, and strong security features, the RuggedCom RS900W is well-equipped to meet the demands of connecting and managing devices in challenging industrial settings. It ensures reliable communication in environments where traditional networking solutions may fail. As industries increasingly rely on connected devices, the RS900W stands out as a dependable choice for maintaining robust and secure wireless networks.