IBM 1116 manual Loading card stock, Tray

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11 Loading card stock

For occasional printing on index Bristol or tag card stock, load up to 10 sheets of card stock or index cards in tray 1. Load one sheet of card stock or one index card at a time in the manual feeder.

In tray 1

1Extend the rear paper support until you hear a click.

2For best results, open the front output door for a straight-through paper path.

3Load up to 10 sheets of card stock or 10 index cards with the print side facing you.

Note: Use card stock with a pressure of 25 psi that can withstand temperatures of 200°C (392°F) without releasing hazardous emissions.

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Argecy Computer Corporation 248-324-1800

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Contents User’s Reference Argecy Computer Corporation User’s Reference Argecy Computer Corporation Table of contents Loading labels Iii Argecy Computer Corporation About your printer Printer overviewUse this feature When you want to Operator panel has 6 lights and 1 operator panel button Using the operator panelArgecy Computer Corporation From a Macintosh computer Canceling a print jobFrom the printer operator panel From a Windows computerPrinting from a Windows environment Setting up a print jobArgecy Computer Corporation Printing from a Macintosh computer Choosing the right print media Media types and sizes Media Size Weight CapacityPrinter media sources Argecy Computer Corporation Tray Loading paperArgecy Computer Corporation Manual feed Argecy Computer Corporation Optional tray Corner bucklers Argecy Computer Corporation Loading transparencies Argecy Computer Corporation Manual feed Argecy Computer Corporation Loading envelopes Manual feed Argecy Computer Corporation Loading labels Argecy Computer Corporation Manual feed Argecy Computer Corporation Loading card stock Manual feed Argecy Computer Corporation Printing on both sides of the paper Short Edge means the pages are bound along the short edge Conserving supplies Removing the old print cartridge Replacing the print cartridgeInstalling the new print cartridge Fuser Clearing jams Remove the print cartridge it may be warm Argecy Computer Corporation Argecy Computer Corporation Reinstall the tray and resume printing Understandinglightsthe operator panel Argecy Computer Corporation Secondary error code Toner low Argecy Computer Corporation What this light sequence means Argecy Computer Corporation Argecy Computer Corporation Printer is flushing corrupted print data Argecy Computer Corporation Argecy Computer Corporation Print the other side of your duplex print job Argecy Computer Corporation Argecy Computer Corporation Printer flash memory is full Argecy Computer Corporation Printer memory is full Printer has received a page that is too complex to print Toner is low and the toner alarm is set to on Argecy Computer Corporation Argecy Computer Corporation Printer has a service error and printing has stopped Problem What to do Solving print quality problemsCartridge Printer or the computer Loading Paper From the special function menu, select Hex Trace mode to Using the special function menu Resetting user defaultsEnter the special function menu Restoring factory defaultsUsing Hex Trace mode Advanced troubleshooting mode Using print quality test pagesAdvanced troubleshooting Argecy Computer Corporation Factory default Argecy Computer Corporation Default Argecy Computer Corporation USB NPA Mode is set to Auto, the factory default Auto CRLF/LFCR is set to Off, the factory default Setting up the network printer Connect the hardware Print a network setupEnvironments we support Requirements Configure and printPrint Server TCP/IP Setup Utility Set the IP address, netmask and gatewayTroubleshooting InstallationStatic ARP entry and telnet Print to a queue on a Windows NT server Set up to printSet up IP printing on Windows NT 4.0/2000 Part 1 Install printer drivers and TCP/IP network supportPart 2 Create a Network Port Set up IP printing on Windows 95/98/Me Part 2 Create a Network Port Part 1 Installing printer drivers and TCP/IP network support Install a shared printer on a Windows NT 4.0/2000 serverPart 3 Sharing the printer on the network Part 2 Creating a Network PortSetting up clients point and print Install a shared printer on network clientsSetting up clients peer-to-peer Novell NetWare Nprinter in IntraNetWare NDS Choosing NPRINTER/RPRINTER or PserverAdvantages of using Pserver in NDS Disadvantage of using Pserver in NDSPserver in IntraNetWare NDS Rprinter vs. Pserver in NetWare Rprinter in NetWarePserver in NetWare Creating a desktop printer icon Finding the default AppleTalk nameAppleTalk Queue-based printingChanging the printer name Changing the zoneQuickDraw GX environment Updating printer hardwareLaserWriter 8 environment prior to LaserWriter LaserWriter 8 environment LaserWriter 8.4.1 and laterNormal conditions Print server light patternsError conditions Trademarks Edition noticeSafety information Industry Canada compliance statement Electronic emission noticesJapanese Vcci notice United Kingdom Telecommunications Act German acoustics statementAvis de conformité aux normes d’Industrie Canada European Community EC directives conformityLaser notice Dhcp Index113 114 Argecy Computer Corporation Part Number 53P9570

1116 specifications

The IBM 1116 is a renowned mini-computer that was introduced in the mid-1970s, symbolizing a significant leap forward in computing technology during that era. It was primarily designed for scientific and engineering applications, showcasing IBM's commitment to developing versatile and powerful computing solutions.

One of the standout features of the IBM 1116 is its ability to execute a wide range of instructions, accommodating various programming needs. The architecture of the 1116 was based on the System/360, which allowed it to leverage existing software and programming languages, such as Fortran, COBOL, and assembler. This compatibility made it easier for businesses to transition to the new system without having to develop new software from scratch.

The 1116 came equipped with a robust memory architecture, supporting up to 64 KB of core memory that could be expanded with additional memory modules. This expandability was crucial for businesses, as it allowed them to scale their computing resources in accordance with their growing computational needs. The system also featured floating-point hardware, which enabled efficient calculations required in scientific tasks, improving performance significantly for users engaged in data analysis and simulation.

In terms of I/O capabilities, the IBM 1116 supported various devices, including magnetic tapes, disk drives, and printers, which enhanced its versatility in different operational settings. Its design emphasized modularity, enabling easy upgrades and maintenance, which was a significant advantage for organizations looking to optimize their IT infrastructure.

The IBM 1116 also boasted a user-friendly operating environment. It supported multiprogramming, which allowed multiple users to run different jobs simultaneously. This capability significantly improved resource utilization and reduced downtime, making the system more efficient.

Overall, the IBM 1116 represented a perfect blend of versatility, expandability, and processing power. Its compatibility with existing software and a wide array of peripherals made it a vital asset for organizations in diverse industries. While it may seem obsolete today, the IBM 1116's influence is still felt in modern computing, showcasing the enduring legacy of IBM’s innovative designs during the mini-computer revolution. The characteristics and technologies embedded in the IBM 1116 paved the way for future advancements in computing, illustrating its historical significance in the evolution of information technology.