HP SureStore Fibre Channel SCSI Bridge 2100 ER User Guide Edition 3 Part Number C6340-90003 February 2000 Printed in: Greeley, CO USA © Copyright 2000 Hewlett-Packard Company
Notice This document contains information that is protected by copyright. All rights are reserved. No part of this document may be photocopied, reproduced, or translated to another language. The information contained in this document is subject to change without notice. See Appendix C for important safety and regulatory information. Warranty HP PRODUCT: HP SureStore 2100 ER SCSI Fibre Channel Bridge C6340F DURATION OF LIMITED WARRANTY: Two Years 1.
5. The warranty period begins on the date of delivery or on the date of installation if installed by HP. If customer schedules or delays HP installation more than 30 days after delivery, warranty begins on the 31st day from delivery. 6.
Printing History This guide is the first edition of all included material. The guide printing date and part number indicate the current edition. The printing date changes when a new edition is printed. (Minor corrections and updates incorporated at reprint do not change this date.
Typographical Conventions The following typographical conventions are used in this guide: Italic font: Denotes important information. KEYCAP : Denotes keystrokes. Computer Output: Denotes information displayed in the control panel and screen menu items that you select. WARNING Warnings call attention to a procedure or practice that could result in personal injury if not correctly performed. Do not proceed until you fully understand and meet the required conditions.
In This Guide In this guide, the following areas are described: Chapter 1 Introduction: Contents of the parts kit, supported products, environmental requirements for the Fibre Bridge, and sample configurations. Chapter 2 Setting Up the Fibre Bridge: How to install the Fibre Bridge, including rackmounting and cabling. Chapter 3 Operating the Fibre Bridge: The Fibre Bridge start sequence, default settings (and how to change them), and verification of the system setup.
Table of Contents Contents 1. Introduction Chapter Overview ....................................................................... 1-2 Fibre Bridge Components and Supported Products.................... 1-3 Product Components.............................................................. 1-3 Supported Products ................................................................ 1-5 Choosing a Location ................................................................... 1-6 Physical Specifications .............
Contents Making Configuration Changes.................................................. 3-9 Reconfigure the Fibre Channel Address ................................ 3-11 Change the Trace Settings ....................................................3-13 Fibre Channel to SCSI Mapping Configuration .................... 3-14 4. Troubleshooting Guide Chapter Overview ....................................................................... 4-2 Troubleshooting .......................................................
Table of Contents Contents HP FIRST/QUICK FAX Faxback Services........................... B-5 Electronic Support Services................................................... B-8 Customer Care Centers .......................................................... B-9 Telephone Support After Warranty ....................................... B-11 C. Safety and Regulatory Information Chapter Overview ....................................................................... C-2 CDRH Regulations (USA Only)............
Contents x
Table of Tables Tables Table 1-1. Supplied Components . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 1-3 Table 1-2. Supported Products . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 1-5 Table 1-3. Physical Specifications of the Fibre Bridge . . . . . . . . . . . . . 1-6 Table 1-4. Location Criteria . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 1-6 Table 2-1. Assembly Components . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 2-3 Table 2-2.
Tables xii
Table of Figures Figures Figure 1-1. Sample Fibre Channel Configuration—Basic. . . . . . . . . . . 1-7 Figure 1-2. Sample Fibre Channel Configuration— Minimum Expansion . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 1-8 Figure 1-3. Sample Fibre Channel Configuration— Maximum Expansion . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 1-9 Figure 2-1. Assembling L-brackets to the Fibre Bridge . . . . . . . . . . . . 2-4 Figure 2-2.
Figures xiv
Introduction 1 Introduction 1-1
Introduction Chapter Overview Chapter Overview This chapter provides the following information: • Fibre Bridge Components and Supported Products • Choosing a Location • Fibre Channel Configurations 1-2 Chapter 1
Introduction Fibre Bridge Components and Supported Products This section includes a list of all parts supplied with the Fibre Bridge, products that Hewlett-Packard supports for use with the Fibre Bridge, environmental considerations, and sample system configurations. Product Components Table 1-1 lists the parts that are supplied with the Fibre Bridge. Table 1-1 Supplied Components Item Quantity Description Feet 4 Rubber pads for bottom of Fibre Bridge. (Not required for rackmount installation.
Introduction Fibre Bridge Components and Supported Products Item Quantity Description SCSI Cables (for Digitial Linear Tape libraries) 2 Two Single-ended, 2 meter length - 68 pin high density. SCSI Cable (for Magneto-Optical libraries) 2 Two Single-ended, 2 meter length - 50-to-68 pin, high density. Serial Cable 1 RJ-11 to RJ-11 cable, included for troubleshooting and reconfiguration purposes only. SW Optical FC Cable 1 Short Wave Optical Fibre Channel Cable, 16 meter length.
Introduction Fibre Bridge Components and Supported Products Introduction Supported Products Table 1-2 shows the products that Hewlett-Packard supports for connection with the Fibre Bridge: Table 1-2 Supported Products Product Description HP DLT libraries and autoloaders with single-ended SCSI interfaces Library models are subject to change. Consult with your sales representative. HP magneto-optical (MO) libraries with single-ended SCSI interfaces Library models are subject to change.
Introduction Choosing a Location Choosing a Location Physical Specifications The Fibre Bridge is designed for rackmounting. The unit can be mounted in most standard 19-inch rack configurations. The physical characteristics are as follows: Table 1-3 Physical Specifications of the Fibre Bridge Height 1.7 inches (4.2 cm) Width 16.9 inches (42.9 cm) Depth 9 inches (22.8 cm) Physical package weight Approximately 8 pounds (3.
Introduction Fibre Channel Configurations The Fibre Bridge is supported in a basic configuration on Digital Linear Tape (DLT) and Magneto-Optical (MO) libraries. The bridge is support in expanded configurations on DLT libraries. A basic configuration is comprised of only one Fibre Bridge (two SCSI buses available) and a host. Expanded configurations may include multiple hubs and hosts, usually connected to one or more networks.
Introduction Fibre Channel Configurations Expanded Configuration (DLT libraries only) Figure 1-2 and Figure 1-3 shows the Fibre Bridge in two possible expanded configurations . These configurations are supported on DLT libraries only.
Introduction Fibre Channel Configurations Figure 1-3 Sample Fibre Channel Configuration—Maximum Expansion Chapter 1 1-9
Introduction Fibre Channel Configurations 1-10 Chapter 1
Setting Up the Fibre Bridge 2 Setting Up the Fibre Bridge 2-1
Setting Up the Fibre Bridge Chapter Overview Chapter Overview This chapter provides instructions on completing the following setup procedures: • Mounting the Fibre Bridge in a Rack • Installing Cables 2-2 Chapter 2
Setting Up the Fibre Bridge Mounting the Fibre Bridge in a Rack Mounting the Fibre Bridge in a Rack NOTE All connections and user displays are located on the back of the Fibre Bridge. Consequently, mount toward the back of a rack. Before you begin, verify you have the assembly components listed in Table 2-1. Table 2-1 Assembly Components Tool 1 #2 Phillips screwdriver (not supplied). Mounting brackets 1 pair L-brackets, for assembly with Fibre Bridge.
Setting Up the Fibre Bridge Mounting the Fibre Bridge in a Rack Assemble the L-brackets to the Fibre Bridge 1. Facing the back of the Fibre Bridge, position the first L-bracket with the mounting tab toward the back of the rack and pointing away from the unit, as shown in Figure 2-1. 2. Insert 6x32 screws through the first and third holes from the mounting tab and tighten. Use the first and third holes (from the mounting tab end of the bracket) for mounting in a Hewlett-Packard rack.
Setting Up the Fibre Bridge Mounting the Fibre Bridge in a Rack Install the Fibre Bridge in the Rack 1. Facing the back of the rack, install a total of four clip nuts above any existing product, two into each of the rails. Install the clip nuts so that the top nut aligns with the top hole of the L-bracket and the other with the bottom hole. (Figure 2-2). NOTE The Fibre Bridge mounts from the back of the rack. All user functionality is located on the back of the unit; no access to the front is required.
Setting Up the Fibre Bridge Installing Cables Installing Cables The Fibre Bridge can be used in either basic or expanded system configurations. This section provides the steps to install cables in both configurations. NOTE The following section explains overall configuration cabling. For complete installation procedures, refer to the INSTALL subdirectory on the CD-ROM shipped with the bridge.
Setting Up the Fibre Bridge Installing Cables 3. Connect one end of the optical cable into the GBIC on the Fibre Bridge and the other end into the GBIC on the Fibre Channel HBA in the host. 4. Connect the power cord from the Fibre Bridge to an grounded outlet. 6. Go to “Powering on the System” in Chapter 3. Figure 2-3 Fibre Bridge Connection, Basic Configuration (DLT and MO Libraries) Chapter 2 2-7 Setting Up the Fibre Bridge 5.
Setting Up the Fibre Bridge Installing Cables Fibre Bridge Connection, Expanded Configuration Example (DLT Libraries Only) 1. Properly shut down all peripheral devices that will be connected to the Fibre Bridge, including the hub(s). Check with the system administrator before turning off power to either hubs or libraries. CAUTION Failure to turn off all power could result in damage to the devices. 2. Connect a SCSI cable from bus 1 on the Fibre Bridge to bus 1 on the library one.
Setting Up the Fibre Bridge Installing Cables Figure 2-4 Fibre Bridge Connection, Expanded Configuration (Minimum) (DLT Only) Setting Up the Fibre Bridge Chapter 2 2-9
Setting Up the Fibre Bridge Installing Cables Figure 2-5 Fibre Bridge Connection, Expanded Configuration (Maximum) (DLT Only) 2-10 Chapter 2
Setting Up the Fibre Bridge Installing Cables Optical Fibre Channel Cable Options The Fibre Bridge uses fiber-optic cables available in the lengths listed in Figure 2-2: Table 2-2 Fiber-Optic Cable Options Product Number NOTE Length D6980A 164 ft (50 m) D6981A 328 ft (100 m) For additional information regarding the Fibre Channel environment, configuration, and other Fibre issues, refer to Appendix A, “Fibre Channel Overview.
Setting Up the Fibre Bridge Installing Cables 2-12 Chapter 2
Operating the Fibre Bridge 3 Operating the Fibre Bridge 3-1
Operating the Fibre Bridge Chapter Overview Chapter Overview This chapter provides the following information: • Powering on the System • Changing the Default Settings • Making Configuration Changes 3-2 Chapter 3
Operating the Fibre Bridge Powering on the System Powering on the System The HP SureStore Fibre Channel SCSI Bridge 2100 ER is configured for most Fibre Channel installations without intervention. The basic configuration uses one Fibre Bridge connected directly to a Fibre Channel Host Bus Adapter (HBA) within a host computer. In expanded configurations (DLT libraries only), the Fibre Bridge may be connected to either a Fibre Channel HBA or a Fibre Channel hub.
Operating the Fibre Bridge Powering on the System Figure 3-1 Fibre Bridge, Back View 3-4 Chapter 3
Operating the Fibre Bridge Changing the Default Settings Changing the Default Settings The basic Fibre Bridge configuration assumes there is only one Fibre Bridge included in the system. If this is a DLT installation and more than one Fibre bridge will be installed, or if there is another Fibre Channel device using the same address, you must change the fibre channel address, using the serial port of the Fibre Bridge. Connecting the Serial Cable • The default configuration must be changed.
Operating the Fibre Bridge Changing the Default Settings Figure 3-2 Connecting the Serial Cable 1 4 H No t Su itab le 3 for Ha rd Dri ve Su bsy ste ms 2 1 Fibre Bridge 2 RJ-11 connector 3 Serial cable 4 RJ-11 to DB9 adapter 3-6 Chapter 3
Operating the Fibre Bridge Changing the Default Settings Serial Port Setup Before communicating, the PC serial port must be connected to the Fibre Bridge and terminal emulation software (Hyperterminal, or similar) must be installed on the host. Configure the terminal emulation program to use the settings in Table 3-1 on page 3-8 for the PC’s serial port. NOTE When initially powered on, the Fibre Bridge uses the default (or previously set) baud rate during self-tests.
Operating the Fibre Bridge Changing the Default Settings Table 3-1 Fibre Bridge Default Configuration Settings Serial Port • Baud rates: 9600, 19200, 38400, 57600, 115200 (baud rate will auto-configure). • No handshake. • No parity. • 8 data bits. • 1 stop bit. Fibre Channel • Hard address mode uses address 0x82. SCSI Initiator address 7. • User may change both address mode and hard address. Bus automatically negotiates for wide ultra SCSI performance, per ANSI SCSI specifications.
Operating the Fibre Bridge Making Configuration Changes Making Configuration Changes To make configuration changes, follow these steps: 1. Start your terminal emulation application software. 2. Press the ENTER key. The following menu will display: NOTE Figure 3-3 The user may need to press ENTER several times to prompt the Fibre Bridge to recognize the serial port settings. Fibre Bridge Configuration, Main Menu Operating the Fibre Bridge 3.
Operating the Fibre Bridge Making Configuration Changes Figure 3-4 Fibre Bridge Configuration Menu 4. To initiate a change, enter the number of any item on the list. After all changes have been completed, save the changes by pressing a on the keyboard. To make changes take effect, restart the Fibre Bridge. CAUTION Making changes under options B or C does not change the settings in memory. Before closing the configuration menu and restarting the Fibre Bridge, always select option A, “Save Configuration”.
Operating the Fibre Bridge Making Configuration Changes Reconfigure the Fibre Channel Address Use the Fibre Channel Configuration menu to change from the hard address mode to the soft address mode. NOTE The Fibre Bridge default setting is hard addressing, where the address is preset to 71 (0x82). Use this procedure when an additional bridge is installed in a system or to resolve a Fibre Channel device ID conflict. 1.
Operating the Fibre Bridge Making Configuration Changes Selecting the “Change ALPA Value (option 2 in the previous menu) produces the following list of addresses: Figure 3-6 Fibre Channel Addresses 4. Select an address by entering the number before the colon. Pressing any key, except a valid number, will display an invalid entry message. The address will not be changed. The firmware will return to the Fibre Channel Configuration menu.
Operating the Fibre Bridge Making Configuration Changes Change the Trace Settings CAUTION Changing options in the Trace Settings menu directly affects the current operation of the Fibre Bridge. Pressing U changes the current operating parameters without restarting the Fibre Bridge. The Trace Level menu is included for troubleshooting purposes. The Trace Settings menu enables options in the Fibre Bridge firmware.
Operating the Fibre Bridge Making Configuration Changes Fibre Channel to SCSI Mapping Configuration Use the Fibre Channel to SCSI Mapping Configuration menu to display the SCSI devices that are present on the Fibre Bridge.
Troubleshooting Guide 4 Troubleshooting Guide 4-1
Troubleshooting Guide Chapter Overview Chapter Overview This chapter provides the following information: • Possible problems that a user may encounter when installing the Fibre Bridge. • Recommended procedures for analyzing and solving problems. • What to do when problems cannot be resolved using the documented approach.
Troubleshooting Guide Troubleshooting Troubleshooting This section describes potential problems and solutions. If you are unable to diagnose and solve a problem using these guidelines, contact an HP service representative or your sales representative. By using these suggested procedures, you can determine in advance some of the information that a service technician will need.
Troubleshooting Guide Troubleshooting Problem: Only) Cannot Turn On the Hub (DLT If the hub will not power-up, use the following steps before taking further action: 1. Verify all power connections, breakers, and switch settings are working and correct. 2. Confirm that the power indicator is illuminated. 3. Verify that the fault indicator is not illuminated. 4. If the fault indicator is illuminated, the hub is inoperable; further diagnostic procedures cannot be performed.
Troubleshooting Guide Troubleshooting 2. Make sure the libraries, Fibre Bridge, and hubs (DLT only) are powered on and connected appropriately before powering on workstations. If they were not connected, powered on, and configured properly before the NT workstation was powered on, restart the workstation (and any other on the loop, one at a time) so they can re-discover the library. NOTE (DLT Only) Do not restart multiple NT workstations on a Fibre Channel loop at the same time.
Troubleshooting Guide Troubleshooting 3. If the workstation does not display the SCSI devices under the Fibre Channel HBA in the control panel, restart the workstation and then recheck for the appearance of the library SCSI devices. 4. (If DLT) Run the tape diagnostic utility from the NT workstation to verify that the library and drives are detected and pass all self-tests.
Troubleshooting Guide Troubleshooting 6. Verify SCSI bus operation: Use the serial connection between the NT workstation and the Fibre Bridge. See Chapter 3, “Fibre Bridge Default Configuration Settings,” on page 3-8 for default settings and for steps to initiate the following procedures: • Perform a Fibre Bridge self-test. • Verify device locations using the Fibre Channel to SCSI Mapping menu. See Chapter 3, “Fibre Channel to SCSI Mapping Configuration,” on page 3-14.
Troubleshooting Guide Troubleshooting 4-8 Chapter 4
Fibre Channel Overview A Fibre Channel Overview A-1
Fibre Channel Overview Overview Overview In this appendix, we will describe the following: • Defining Fibre Channel • Implementing Fibre Channel • Working With Fibre Channel • Problems with Fibre Channel A-2 Appendix A
Fibre Channel Overview Defining Fibre Channel Defining Fibre Channel This overview of Fibre Channel is intended to briefly explain the technology, its potential uses, and possible problems that a user should consider. Individuals requiring more information should consider additional publications, seminars, and Fibre Channel user groups. Fibre Channel is an information transport protocol that can be used to send information between computers and computer sub-systems.
Fibre Channel Overview Defining Fibre Channel A fully implemented Fabric system supports over 16 million device addresses, allowing a user to send data from each device at 100 MB per second. Using fiber optic cable, Fibre Channel devices can be spaced at maximum intervals of 10 km, supporting distributed hosts in a campus environment, with centralized storage systems.
Fibre Channel Overview Implementing Fibre Channel Implementing Fibre Channel Whether designing a new system or enhancing a system that is in place, Fibre Channel offers significant speed and distance and cost advantages. Fibre Channel works with existing systems and software, with the addition of a Fibre Channel HBA; new systems are not required to take advantage of Fibre Channel technology.
Fibre Channel Overview Working With Fibre Channel Working With Fibre Channel Fibre Channel is a transport protocol. Differing from protocols such as SCSI, Fibre Channel does not use data manipulation commands. An addressing scheme with advance handshaking requirements verifies that data was transferred correctly. Fibre Channel specifications are divided into multi-layered, functional levels.
Fibre Channel Overview Working With Fibre Channel The Fibre Channel protocol will work when devices are connected or disconnected while data is being transferred because of this additional information. Error detection and recovery at all levels of the protocol are also provided. A fairness algorithm is built into the FCAL protocol so that all devices have equal access to the system.
Fibre Channel Overview Working With Fibre Channel Fibre Channel devices may use either of two modes: soft or hard addressing. Hard addressing is similar to the existing SCSI approach. Fibre Channel devices can only use the assigned address. If that address is already being used by another device, the Fibre Channel device will not respond to any bus activity. Soft addressing is similar to LAN addressing, where the system determines device addresses.
Fibre Channel Overview Problems with Fibre Channel Problems with Fibre Channel Fibre Channel accommodates many protocols and physical interfaces. Problems result in the attempt to do many things with one solution. Awareness of the potential problems helps users create and maintain reliable systems.
Fibre Channel Overview Problems with Fibre Channel Additional optical cable considerations are as follows: • Cable between two nodes must use the same core size. NOTE The limitation on mixing core sizes applies only to cable between two nodes and is only a concern when splicing or connecting optical cables directly together. Different size optical cable can be used in the same Fabric between different sets of nodes. • Three core sizes supported by Fibre Channel are: 62.5 micron, 50 micron, and 9 micron.
Fibre Channel Overview Problems with Fibre Channel Laser Power Control Systems There are two types of systems approved for use: OFC and non-OFC. These two types of control systems can exist on the same network, but are not optically compatible and cannot be hooked up to the same optical cable. Device Addressing The two modes of addressing used in Fibre Channel, included on page A-7, are hard and soft addressing. In small, controlled environments, hard addressing works well.
Fibre Channel Overview Problems with Fibre Channel A-12 Appendix A
Support and Customer Service B-1 Support and Customer Service B
Support and Customer Service Chapter Overview Chapter Overview This chapter contains information to help users obtain supplies and obtain support.
Support and Customer Service Supplies and Accessories Supplies and Accessories A full range of supplies may be ordered through a Hewlett-Packard authorized dealer, sales office, or through HP Direct. To contact HP Direct, call 1-800-227-8164. Call 1-800-752-0900 for the location of the nearest authorized Hewlett-Packard dealer.
Support and Customer Service Hewlett-Packard Customer Support Hewlett-Packard Customer Support If a Fibre Bridge fails during the warranty period, and the troubleshooting guide and user manual do not solve the problem, you can receive support by doing the following: • Consult HP FIRST or QUICK FAX for faxback services. See “HP FIRST/QUICK FAX Faxback Services” on page B-5. • Consult one of the computer/modem connectivity services available, such as America Online or CompuServe.
Support and Customer Service Hewlett-Packard Customer Support Support Pack Service Contract If you purchased a Support Pack from Hewlett-Packard to upgrade the support level, make sure that you immediately send in the registration card. Failure to submit the Support Pack registration card may delay the on-site response time. NOTE Registering allows the local repair office to prepare for the proper response level needed.
Support and Customer Service Hewlett-Packard Customer Support Asia-Pacific Australia (03) 9272 2627 China (81610) 65055280 Hong Kong 800-96-7729 India +91 (0) 11 682 6031 Indonesia 6221-350-3408 Japan (3) 3335-8622 Korea (02) 769-0543 Malaysia 800-1611 New Zealand (09) 356 6642 Philippines 632-867-3551 Singapore (65) 291-7951 Taiwan (02) 719 5589 Thailand (02) 661 4011 Vietnam 001- (84) 823-4530 B-6 Appendix B
Support and Customer Service Hewlett-Packard Customer Support Europe Austria 06 60 63 86 Belgium, Dutch 0800 11906 Belgium, French 0800 17043 Denmark 800 10453 Finland 0800 13134 France 05 905900 Germany 0130 810 061 Ireland 01 662 5525 Italy 1678 59020 Netherlands 06 022 2420 Norway 800 11319 Portugal 01 441 7199 Spain 900 993123 Sweden 020 795743 Switzerland, German 0800 55 1527 Switzerland, French 0800 55 1526 United Kingdom 0800 960271 31 20 681 5792 Support and Customer Se
Support and Customer Service Hewlett-Packard Customer Support Electronic Support Services For 24-hour access to information over your modem: On-line Service Providers Technical information is available on CompuServe and America Online. Service Provider Description Address CompuServe To download software, firmware, and support documents, and to discuss issues in user forums. Go HPSYS America Online To download software, firmware, and support documents, and to discuss issues in user forums.
Support and Customer Service Hewlett-Packard Customer Support Customer Care Centers NOTE Contact the Customer Care Center in your area for technical assistance during the warranty of your product. North and South America (includes Canada) Monday - Friday, 7 am - 5 pm MST (970) 635-1500 European Customer Care Centers Monday - Friday, 8:30 - 18:00 (C.E.T) NOTE Language or country support might not be available for all products.
Support and Customer Service Hewlett-Packard Customer Support Israel 09 952 4848 Russia 095 797 3520 Turkey 0212 221 6969 Asia-Pacific Australia . +61 (3) 8877 8000 China . +86 10 656 45959 Hong Kong . 800 96 7729 India . + 91 (0) 11 682 6035 Indonesia . +62 21 350 3408 Japan . +81 3 3335 8333 Korea . +82 (0) 2 3270 0700 Outside Seoul: 080 999 0700 Malaysia . +60 3 295 2566 New Zealand . +64 (9) 356 6640 Philippines . +63 2 867 3551 Singapore . +65 272 5300 Taiwan .
Support and Customer Service Hewlett-Packard Customer Support Telephone Support After Warranty Before Calling Before calling, please complete the following information so that you will have it ready for the support center representative: • Serial number of product ____________________ • Brand and model of host computer ________________________ • Version of software used; driver selected ________________________ US and Canada Using a VISA or MasterCard, call one of the following: • (800) 810-0130: Per inci
Support and Customer Service Hewlett-Packard Customer Support B-12 Appendix B
C Safety and Regulatory Information Safety and Regulatory C-1
Safety and Regulatory Information Chapter Overview Chapter Overview This section contains important safety and regulatory information for the United States, Finland, Sweden, Germany, United Kingdom, European Union, and Japan.
Safety and Regulatory Information Chapter Overview CDRH Regulations (USA Only) The Center for Devices and Radiological Health (CDRH) of the U.S. Food and Drug Administration implemented regulations for laser products on August 2, 1976. These regulations apply to laser products manufactured from August 1, 1976. Compliance is mandatory for products marketed in the United States.
Safety and Regulatory Information Chapter Overview C-4 Appendix C
Safety and Regulatory Information Chapter Overview Herstellerbescheinigung Diese Information steht im Zusammenhang mit den Anforderungen der Maschinenlärn information sverordnung vom 18 Januar 1991. Schalldruckpegel Lp < 70 dB(A) • am arbeitsplatz • normaler betrieb • nach ISO 7779:1988/EN 27779:1991 (Typprüfung) English Translation of German Sound Emission Directive This statement is provided to comply with the requirements of the German Sound Emission Directive, from 18 January 1991.
Safety and Regulatory Information Chapter Overview Turvallisuusyhteenveto Laserturvallisuus LUOKAN 1 LASERLAITE KLASS 1 LASER APPARAT HP SureStore Fibre Channel SCSI Bridge - laitteeseen on asennettu optista tiedonsiirtoa varten laserlähetin, joker lähettää signaalit siihen kytketyn optisen kuidun kautta. Optisessa lähetinmoduulissa ei ole huollettavia kohteita eikä sen tehtaalla tehtyjä säätöjä tule muuttaa.
Safety and Regulatory Information Chapter Overview English Translation of Finland Regulatory Information Laser Safety CLASS 1 LASER DEVICE HP SureStore Fibre Channel SCSI Bridge has a laser transmitter module installed for optical data transmission. Optical fibre connected to the module is used for data transmission. Under normal operating conditions the transmitter is a safe Class 1 laser device for the user and the user cannot be exposed to the laser radiation it generates.
Safety and Regulatory Information Chapter Overview Japanese VCCI Statement This equipment is in the Class A category information technology equipment based on the rules of Voluntary Control Council For Interference by Information Technology Equipment (VCCI). When used in a residential area, radio interference may be caused. In this case, user may be required to take appropriate corrective actions.
Glossary A F ANSI An acronym for the American National Standards Institute, the coordinating organization for voluntary standards in the United States. Fabric Fibre Channel-defined interconnection methodology that supports high-speed data routing in Fibre Channel networks. Arbitrated loop topology Fibre Channel topology that provides a low-cost solution to attach multiple communicating ports in a loop without switches.
Glossary Fibre Channel A switched protocol that allows concurrent communication among workstations, supercomputers, mainframes, data storage devices, and other periperals. Fibre Channel is capable of transmitting at rates exceeding one gigabit per second in both directions simultaneously. L G M GBIC An acronym for the Gigabit Interface Converter. MIA An acronym for the Media Interface Adapter plug-ins, which allow you to go from copper to optical or visa versa.
Glossary Narrow SCSI A SCSI implementation that utilizes a 50pin cable; can be single-ended or differential. Protocol A data transmission convention encompassing timing, control formatting, and data representation. Non-OFC An acronym for Non Open-Ended Fibre Control. This approach does not drop the laser power when a cable link is dropped. Non-OFC uses a lower power laser than an OFC system. R O OFC An acronym for Open-Ended Fibre Control.
Glossary T Topology The logical and/or physical arrangement of stations on a network. TCP/IP Transmission Control Protocol/Internet Protocol. W Wide SCSI A SCSI implementation that utilizes a 68pin cable; can be single-ended or differential.
Index A ANSI Glossary1 Arbitrated loop topology Glossary1 Asynchronous Glossary1 Assembling brackets to 2-4 Mounting in a Rack 2-3–2-5 Fibre Channel Glossary2 Host Bus Adapter (HBA) 3-3 Reconfiguring the Address 3-11 B Basic Configuration 1-7, 2-6 G Gigabit Glossary2 Gigabit Interface Converter (GBIC) Glossary2 GLM Glossary2 C Cable installation 2-6–2-11 CDB Glossary1 Changing the Default Settings 3-5–3-8 Changing the Trace Settings 3-13 Configuration Basic 1-7, 2-6 Expanded 1-8, 2-8 Making Changes 3-9