1.0Product Description

The ServerSwitch 8200 is designed to transport keyboard/mouse and high-resolution video from up to eight Sun® or compatible computers to video displays and keyboard/mouse sets for two users. The ServerSwitch 8200 is plug-compatible with Sun® and compatible computer workstations, video displays, and user devices (such as keyboards and mice). The ServerSwitch 8200 can be used to create a variety of networks with no impact on system processing power or performance. Each ServerSwitch transparently connects video and keyboard/mouse signals between users and CPUs, allowing two users to sit at separate locations, each with a single monitor, keyboard, and mouse, and interact with up to 80 CPUs by cascading 10 ServerSwitches. The users may select any of the connected CPUs through an on- screen menu or by using the buttons on the front of the switch. The ServerSwitch 8200 does not lose a CPU port when cascaded; there are special ports dedicated to passing video, keyboard, and mouse signals in a cascade.

1.1Video

All video signals are passively transported in real time without any processing or storage. Additionally, a constant impedance of 75 Ohms is maintained on all video lines throughout the ServerSwitch 8200 so that video signals are not compromised by impedance mismatches, as may be found in other switching systems. The ServerSwitch 8200 also transports monitor sense lines from one user's monitor (user A) to all attached CPUs, allowing the attached CPUs to perform an automatic, unattended reboot, even if the CPU is not selected on the switch. Because only one monitor's sense lines are transmitted to all the attached CPUs, it is recommended that both users' monitors are identical or have compatible operating modes.

1.2Keyboard/Mouse

The ServerSwitch 8200 transports all keyboard and mouse signals required by the user for interaction with any of the attached computers. At any time, a user's keyboard and mouse are routed only to the CPU selected for that user. However, all CPU ports are monitored for CPU activity that would require the presence of a keyboard/mouse set (i.e., a status light change or reboot); the ServerSwitch will send a "keyboard/mouse idle" response when queried. The keyboard status light (CAPS LOCK, NUM LOCK, etc.) configuration for each CPU port is maintained within the ServerSwitch, and is sent to the user's keyboard whenever that CPU port is selected. If the CPU changes the status light configuration while the port is not selected, the change is saved and will be displayed correctly when a user selects the port.

The ServerSwitch 8200 will send the language type of the keyboard to attached CPUs for proper function of CPU operating system applications. The user can either specify the keyboard language for each ServerSwitch 8200 unit, or let each unit send the language layout of the keyboard attached to user port A.

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Lightwave Communications 8200 user manual Product Description, Video, Keyboard/Mouse

8200 specifications

Lightwave Communications has made substantial strides in the field of telecommunications with its innovative product, the Lightwave Communications 8200. This advanced communication platform is designed to meet the increasing demand for high-capacity, reliable, and efficient data transmission, particularly in today’s fast-paced digital landscape.

At the core of the Lightwave Communications 8200 is its ability to support a wide range of applications. It is engineered to accommodate voice, data, and video traffic, making it a versatile choice for various sectors, including telecommunications, broadcasting, and enterprise networks. Its capabilities ensure that users can seamlessly integrate multiple communication formats, enhancing overall productivity and user experience.

One of the most notable features of the 8200 is its cutting-edge optical transmission technology. The platform utilizes dense wavelength division multiplexing (DWDM), which allows for multiple data streams to be transmitted simultaneously over a single fiber optic cable. This technology maximizes bandwidth efficiency and reduces the need for extensive physical infrastructure, leading to significant cost savings.

The Lightwave Communications 8200 also boasts advanced error correction and signal regeneration technologies. These functionalities ensure that the integrity and quality of the transmitted data are maintained, which is crucial for mission-critical applications. With robust performance in long-distance transmission scenarios, the 8200 is ideal for organizations needing reliable communication over extended reaches.

Furthermore, the platform is designed with scalability in mind. As organizations grow and their communication needs evolve, the Lightwave Communications 8200 can easily be upgraded to handle increased traffic without the need for complete system replacements. This adaptability makes it a future-proof option for businesses looking to invest in long-term communication solutions.

The user-friendly interface of the Lightwave Communications 8200 simplifies management and monitoring. Network administrators can efficiently oversee performance, troubleshoot issues, and implement necessary adjustments with minimal downtime. This ease of use is crucial for maintaining operational efficiency and minimizing disruptions in service.

In conclusion, the Lightwave Communications 8200 represents a significant advancement in the telecommunications sector. Its state-of-the-art features, including DWDM technology, robust error correction, scalability, and user-friendly management tools, make it a top choice for organizations seeking to enhance their communication capabilities in an increasingly digital world.