NEC 703-A0368-001 manual Safety Information, Ozone Emission, Laser Safety, Cdrh Regulations

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APPENDIX C

SAFETY INFORMATION

This chapter provides safety information and product specifications for SuperScript color laser printers. As you operate your printer, please be aware of the following safety considerations.

It takes two people to lift this printer and keep it level!

Ozone Emission

The corona assemblies found in laser printers and photocopiers generate ozone gas (O3) as a by-product of the electrophotographic process. Ozone is only generated while the printer is printing (while the coronas are energized).

UL Standards for Ozone

The only existing standard for ozone emissions has been established by Underwriters Laboratory (UL). All SuperScript family printers meet this standard when shipped from the factory to our customers.

Employer Responsibilities

Because ozone can be an irritant, various regulatory agencies have established limits to the amount of ozone to which employees may be exposed. The employer is responsible for providing a safe work environment that meets the agencies’ standards.

Recommendations for Minimizing Ozone Exposure

Almost all ozone concerns arise from abnormal site or operating conditions. The following conditions may generate an ozone complaint:

Installation of multiple laser printers in a confined area

Extremely low relative humidity

Poor room ventilation

The exhaust port of the printer is directed towards the face of personnel

The existing ozone filter is in poor condition

Long, continuous printing combined with any of the above

Inspect your work environment for the operating conditions listed above if you believe ozone emissions are a problem in your area. Some people may be ultra-sensitive to ozone odor. If these situations are encountered, it is advisable to position the printer away from the sensitive user.

Laser Safety

This printer is certified as a Class 1 laser product under the U.S. Department of Health and Human Services (DHHS) Radiation Performance Standard according to the Radiation Control for Health and Safety Act of 1968. This means that the printer does not produce hazardous laser radiation.

Since radiation emitted inside the printer is completely confined within protective housings and external covers, the laser beam cannot escape from the machine during any phase of user operation.

CDRH Regulations

The Center of 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 after August 1, 1976. Compliance is mandatory for products marketed in the United States. The printer’s rear panel indicates compliance with the CDRH regulations and must be attached to laser products marketed in the United States.

Caution! Use of controls, adjustments, or performance of procedures other than those specified in this user’s guide may result in hazardous radiation exposure.

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Contents P E R S C R I P T C O L O R L a S E R Proprietary Notice and Liability Disclaimer Table of Contents Web Printing Setup Unix SetupAppendix C Safety Information Appendix a TroubleshootingIntroduction Network Setup TasksOverview From Windows 95/98Types of Network Topologies Typical Network SetupsPrinter Server Topology Printer Sharing Topology Microsoft Printer Sharing TopologyNIC Installation Installing the Network Interface Card NICWhat You Will Need Installing the NIC Preparing the PrinterPreparing the Printer Installing the NIC Connecting the NIC Testing the NICNetwork Settings Network SettingsRestoring Factory Default Settings Resetting the NICNIC Features To reset the NIC to factory default settingsObtaining the Printer’s IP Address IP AddressSelecting an IP Address Assignment Method Assigning the IP AddressCommunications Menu Using the Operator PanelInstalling MAP Using MAPMAP Operating Requirements Running MAP and Selecting a PrinterUsing BOOTPL32 Installing the TCP/IP ProtocolAssigning the IP Address Using ARP Using Dhcp Accessing the Network Administration Network AdministrationUsing the Network Administration System FunctionsSuperScript Color Laser Network Guide Protocol Functions Network AdministrationOther Functions Installing Peer-to-Peer Software Windows SetupIP vs. IPX Peer-to-Peer Printing Windows PEER-TO-PEERAdding the Peer-to-Peer Printer Windows Setup Setting UP Windows NT Setting LPR Printing on an NT NetworkMoving a Peer-to-Peer Printer Removing Peer-to-Peer SoftwareShared Printing in Windows 95/98 SuperScript Color Laser Network Guide Netware Setup Attaching the PrinterNetware 5.X Print Server Name field and click the Create button Netware Setup SuperScript Color Laser Network Guide Configuring the Network Printer Installing the Printer DriverStarting Pconsole Installing and Configuring Your Printer DriverDefining the Print Queue Defining the Print ServerSoftware Requirements Macintosh SetupHardware Requirements Macintosh RequirementsInstalling the PPD Setting UP the PrinterConfiguring the Printer Printing Renaming Your PrinterSetup Uninstalling the DriverMAC PEER-TO-PEER Setting UP on a Unix System Setting Up Your Printing ModeInstalling the Printer in Your System Configuring the IP Address on the PrinterAdding a SuperScript Color Laser Printer to SCO OpenServer Printer Home Page Features WEB Printing SetupPrintAgent Remote Printing NEC PrintAgent Pull PrintingSystem Requirements Print Agent Remote Printing SetupRemote Printing SuperScript Color Laser HomeRemote Printing From Your Desktop Add RedipS Enabled Printer Dialog BoxPrinter’s Window Select Components Dialog BoxPrintAgent Status Window Menu Bar Getting Printer StatusPrintAgent Buttons Admin ButtonDetails Button Help ButtonFirst access the PrintAgent program from here Start PrintAgent Program Menus PrintAgent Program Menu CommandsStop Monitor a PrinterReset Add printers here Uninstall PrintAgent here Remove PrintersUninstall Check proxy settings herePull Printing from Your Desktop Pull PrintingSending a Pull Print Job Pull Printing Setup PullPrinter Properties Changing Properties and Saving SettingsView Status Monitor PrintAgent Status MonitorServer Status Print Job History Server StatusPull Printing User Settings PrintAgent Core and Server Installation Setting Up a Pull Printing ServerServer System Requirements Server System RecommendationSuperScript Color Laser Network Guide WEB Printing Setup Pull Printing CD-ROM drive\NECdisk\ncss44rn About the Secondary File ServerURL Configuration Configuring Server URLsPlug Ins Starting the Pull Printing Server Troubleshooting Troubleshooting for NetWare Troubleshooting for NT ServerTroubleshooting for MacOS NIC/File Server/Printer ChecklistComputer to NIC Connection Checklist SuperScript Color Laser Network Guide Using WEB Jetadmin WEB JetadminLocating the Files Copying the FilesResetting Web JetAdmin Discovery WEB Jetadmin SuperScript Color Laser Network Guide Laser Safety Safety InformationOzone Emission Cdrh RegulationsFor United States Use Only FCC StatementFor Canadian Use Only Declaration of ConformityIndex 46, 51

703-A0368-001 specifications

The NEC 703-A0368-001 is a powerful and innovative product designed for modern electronic applications. This device is part of NEC's extensive lineup of high-quality components aimed at enhancing efficiency and performance in various systems. It is commonly utilized in diverse industries, including telecommunications, computing, and industrial automation, where reliability and advanced capabilities are paramount.

One of the main features of the NEC 703-A0368-001 is its impressive processing power. Equipped with a cutting-edge microcontroller, it provides enhanced computational capabilities, allowing for rapid data processing and analysis. This results in improved responsiveness in applications, which is crucial for tasks that require real-time data handling. The microcontroller is designed to minimize latency, ensuring that systems operate smoothly and efficiently.

In addition to its processing power, the NEC 703-A0368-001 incorporates advanced communication technologies. The device supports multiple communication protocols, facilitating seamless interfacing with various peripherals and systems. This versatility makes it ideal for integration into a wide range of applications, from simple control systems to complex networked environments.

Another significant characteristic of the NEC 703-A0368-001 is its power efficiency. Designed with energy-saving features, this device minimizes power consumption without sacrificing performance. This attribute is particularly beneficial in applications where battery life is critical, such as mobile devices and remote sensor systems. Additionally, the low heat generation of the device contributes to its longevity and reliability.

Durability is another key feature of the NEC 703-A0368-001. Its robust design is built to withstand harsh environmental conditions, making it suitable for deployment in challenging industrial settings. The components used in this device are rigorously tested for reliability and stability, ensuring that they can perform consistently under various operational stresses.

Overall, the NEC 703-A0368-001 stands out as a versatile and reliable component that caters to the demands of modern technology. With its advanced processing capabilities, exceptional communication features, energy efficiency, and durable construction, it is poised to meet the needs of various industries and applications effectively. This device represents NEC's commitment to providing high-quality solutions that contribute to the evolution of technology in the digital age.
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