Black Box ServSwitch manual Initial Configuration

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CHAPTER 3: Installation and Preconfiguration

3.6 Initial Configuration

Once you plug in and turn on a Matrix ServSwitch and it passes the power-up diagnostic tests, you’ll need to set an important initial configuration parameter for it. You’ll be able to fully configure all of the Switches in your system later from a single user station, but it’s very important for your system operation that each Switch at least have “starting computer” set properly before you do anything else with it. How you’ll do this will depend on whether your Switch system consists of a single unit (see Section 3.6.1) or a daisychain of multiple units (see Section 3.6.2).

In an all Sun installation with a monitor that doesn’t support 640 x 480 resolution, when you power up the first of your Matrix ServSwitches with user stations attached to it, you must use the Switch’s “Configure Computer” page in the Switch’s menu system to change the keyboard settings for all of the CPU ports you’ll be using to “Sun.” Save this configuration and copy it to your other Switches later—after all of your Switches are powered up, but before your CPUs are powered up. Refer to the start of Chapter 4 and to Sections 4.1 and 4.3.

3.6.1INITIALLY CONFIGURING A SINGLE UNIT

Take these steps:

1.Bring up the on-screen display:

a.Make sure that a keyboard, monitor, and mouse are attached to one of the Matrix ServSwitch’s KVM ports through a User Cable, as described in Section 3.3.4. The monitor must be able to support either 640 x 480 resolution or the resolution of any powered CPU attached to the Switch’s lowest-numbered CPU port. (If you don’t have such a monitor, use a serial connection instead; see Chapter 7.)

b.If you haven’t already done so, power up the Switch and wait for the diagnostics screen (see Section 3.5) to fade away.

c.Press and release the left [Ctrl] key, then within two seconds press and release the [F12] key. The on-screen menu should appear. Using the up- and down-arrow keys, highlight the “Configure System” field and press [Enter].

2.Verify the “Starting computer number.” This is the system-sequence number that has to be assigned to the first CPU port on each Matrix ServSwitch. It should be “1” for a single standalone Switch—and in fact that’s what the default setting should be on all new Switches—but if your Switch is set to something different, change it this way: Highlight the “Starting computer number” field using the up- and down-arrow keys; press [Enter], type “1,” and press [Enter] again.

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Contents SW741A-R3 SW742A-R3 SW743A-R3 SW761A-R3 SW762A-R3 SW763A-R3 Welcome to the ServSwitchTM Family SW741A-R3 SW742A-R3 SW743A-R3 SW761A-R3 SW762A-R3 SW763A-R3Matrix Servswitch European Union Declaration of Conformity Matrix Servswitch NOM Statement Contents Table of Contents Matrix Servswitch Appendix Specifications HardwareSpecifications MaximumWeight Temperature TolerancePower Maximum AltitudeIntroduction Complete PackageCompatibility FeaturesUpgradability SecurityFlexibility On-Screen Display TechnologyFront panel of a 2 x 16 Matrix ServSwitch SW743A-R3 Front PanelPanel Label Description Right/Green CPU PowerLeft/Red Select Designation Connector Description Rear PanelKVM 1 See SectionRS-232 N Cable Requirements Equipment RequirementsInstallation and Preconfiguration Quick Setup GuideCpus Installation and Preconfiguration Matrix Servswitch Keyboard mapping by the Matrix ServSwitch Monitor Video quality vs. distance for original Serv cables Video quality vs. distance for coaxial cables Installation Procedure Important NoteRackmounting Optional Connecting Cpus Connecting Other Matrix Servswitches Optional Powering UP the Switches Switching and Accessing the Display from the Keyboard Daisychaining Matrix ServSwitches Expansion Module and its input and output portsBus topology Ring topology Power-Up Procedure Diagnostic screen Ports see Section Diagnostic Messages DescriptionSection Sram Error Kernel ErrorMain Program Error Configuration Checksum ErrorKernel is bad, load new kernel through serial port Error reason Hit space bar within 5 seconds to get serial options menu Initial Configuration Initially Configuring Multiple Daisychained Units CPU Ports Full Configuration KVMUsing the Menu Saving configuration changes Configuring the System Configure passwordMaximum computer PC keyboard delayStarting computer number PC keyboard rateScreen saver Sun keyboard language multiplatform models onlyMenu color scheme Screen saver timePosition Background color, text colorFadeout Computer Number Configuring ComputersComputer Name Keyboard Configuring User Stations BusStart ResolutionKVM Name ProfilePassword Configuring User DefinitionsUser name Configuring User Profiles Configure ProfileName AccessConnect Scan ShareLogout Group n where n = 1 through Configuring GroupsComputer Group Name Computers PowerStatus SlotUser VerStatus On-Screen Functions, Same-Port Users, and Connection Modes LoggingConnection-Status Messages Status Control RoomReasons for connection failure Disconnect-status message Reasons for disconnection User Stations Attached to Same-Numbered Ports A 6-user-by-8-computer Matrix ServSwitch/ServShare system Connection Modes Connection dynamics between users Keyboard Commands Command SummaryKeyboard Commands Display Configuration Menu Ctrl F12 Display CPU List Ctrl EscSwitch to the Prior Port Ctrl ← or Ctrl Backspace Switch to the Next Port in Sequence Ctrl +Switch to the Previous Port in Sequence Ctrl Select Computer Ctrl xxxx EnterLog Out Ctrl L Reset Ctrl RDisplay User-Station Status Ctrl D Disconnect Ctrl QReset/Enable Mouse in Windows NT and Unix Ctrl O Send Null Byte to PS/2 Type Mouse Ctrl NIdentify Firmware Revision Ctrl Start Scan Ctrl SPass This Command Through Ctrl X or Ctrl Tab End Scan CtrlUsing the Serial Ports Basic Setup Establishing a Serial ConnectionUsing the Serial Ports Serial Options MenuEnter the starting cpu number → Waiting for file Receive failed Try again Y/N Sending flash program code to system Flash programming Option 8. Exit and Restart Unit Troubleshooting Common ProblemsYou can’t switch ports from the keyboard Characters that you type come up wrong or missingYou can’t seem to scan or switch to certain ports at all An IBM compatible computer’s mouse driver doesn’t loadYour PS/2 mouse gets out of sync You can’t access all the functions of your mouseYour mouse doesn’t move the pointer/cursor Your monitor display is fuzzy Your video is not synchronized or is the wrong colorMatrix ServSwitch doesn’t work with your IBM ThinkPad Matrix ServSwitch doesn’t work with your docking stationYour on-screen display is not synchronized Calling Black Box Shipping and PackagingAppendix a Nvram Factory Defaults Derived from hardware100 Appendix B Cable Product Codes 102 103 Appendix C Pinout of Serial Ports Appendix D The LK461 Keyboard Key Pressed on Scan Code LK461 KeyboardAppendix E Installing Modules Matrix ServSwitch Setting the RING/BUS Jumper Jumper JP1 on Expansion ModulesSwapping In an Expansion Module Swapping In a Terminator Module Not Recommended Appendix F Rackmounting Matrix ServSwitch Figure F-1. Rackmount assembly Page Page
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ServSwitch specifications

The Black Box SRX ServSwitch is an innovative KVM (Keyboard, Video, Mouse) switch that offers robust solutions for managing multiple computers from a single workstation. This device stands out in environments ranging from data centers to broadcasting studios, where efficient control over multiple systems is crucial.

One of the key features of the SRX ServSwitch is its high-resolution video support. It can handle video resolutions up to 4K at 60Hz, ensuring that users can enjoy sharp and clear visuals without lag. This level of performance is essential for professionals who rely on precise graphics for tasks such as video editing and design work.

The SRX ServSwitch employs advanced USB technology, allowing for seamless connectivity with various peripherals. It supports USB 2.0 devices, which means users can connect printers, external drives, and other devices without worrying about compatibility issues. Additionally, the switch allows for USB device sharing, enabling multiple computers to access the same peripherals efficiently.

Security is a significant concern in today’s IT environments, and the Black Box SRX ServSwitch addresses this through its advanced security features. It includes support for secure booting and end-to-end encryption, ensuring that data remains protected when switching between systems. This makes it suitable for environments that handle sensitive information, such as financial institutions or healthcare facilities.

The design of the SRX ServSwitch is another standout characteristic. With its easy-to-use interface, users can quickly switch between connected systems using hotkey commands or the push-button interface. This usability improves productivity since users can manage multiple systems without the hassle of different keyboards and mice.

Furthermore, the SRX ServSwitch is built to be scalable, allowing for the addition of more channels as needed. This flexibility means that organizations can adapt their KVM switch setup as their operational needs grow. It supports both local and remote management, offering organizations the ability to control systems from various locations seamlessly.

The build quality of the Black Box SRX ServSwitch is robust, designed to handle the rigors of continuous use in demanding environments. It is compatible with various operating systems, ensuring that users can integrate it into their existing setups without significant reconfiguration.

In summary, the Black Box SRX ServSwitch offers a comprehensive solution for KVM management, characterized by high-resolution video support, USB compatibility, security features, easy usability, scalability, and durability. It is a valuable investment for organizations seeking an efficient way to manage multiple systems centrally.