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+\documentclass{decsectionalv2}
+\product{RF71 Integrated Storage Element}
+\title{Installation Manual}
+\ordernumber{EK-RF71D-IM-001}
+\author{digital equipment corporation}
+\address{maynard, massachusetts}
+\pubmonth{January}
+\pubyear{1989}
+
+\renewcommand\seename{See}
+\renewcommand\see[2]{\par\hspace*{1em}\seename #1}
+
+\makeatletter
+\newcommand{\Index}[1]{\imki@wrindexentry{MyIndex}{#1}{\thechapter-\thepage}}
+\makeatother
+\makeindex[name=MyIndex, columns=2, title=Index, options= -s dec_2column.ist]
+
+
+\begin{document}
+\maketitle
+
+\toc
+
+\newpage
+\uchapter{About This Manual}
+\thispagestyle{preface}
+This manual provides information and procedures for installing the RF71
+integreated storage element (ISE) into the BA213, BA215 and R215F
+enclosures.
+
+\subsection*{Intended Audience}
+
+This document is intended for Digital Field Service personnel or qualified
+self-maintenance customers only.
+
+\subsection*{For the Customer}
+
+The RF71 ISE is intended for use in systems with either a KA640 CPU or
+Digital Storage System Interconnect (DSSI) adapter, such as the KFQSA
+adapter, installed.
+
+It is the customer's responsibility to perform a software backup prior to
+the arrival of Digital Field Service personnel at the site. This step is
+important to ensure data is not lost during any installation process.
+
+If you are not qualified to install the RF71 ISE, call Digital Field Service
+to schedule an installation.
+
+To install the RF71, follow the instructions and procedures for your
+system outlined in this manual. If you have any difficulty performing the
+installation, call Digital Field Service for assistance.
+\newpage
+Customers may order additional documents from:
+
+\begin{quote}
+Ditgital Equipment Corporation\\
+Peripherals and Supplies Group\\
+P.O. Box CS2008\\
+Nashua, NG 03081
+\end{quote}
+
+\subsection*{For Field Service}
+
+The RF71 ISE can be used on any MicroVAX system that has a DSSI
+storage adapter installed. The procedures in this manual can
+be followed if an adapter and all necessary DSSI cabling are in place.
+Refer to your system or adapter installation manual for instructions
+on installing, configuring, and cabling a DSSI subsystem.
+
+To install the RF71 ISE, follow the installation procedures for the
+appropriate system outlined in this manual. When you have completed
+the installation, submit a labor activity reporting system (LARS) form.
+For installation on completing this form, contact your unit manager.
+
+Digital personnel may order hardcopy documents from:
+
+\begin{quote}
+Digital Equipment Corporation\\
+444 Whitney Street\\
+Northboro, MA 01532\\
+Attn: Publishing and Circulation Services\\
+EK-RF71D-IM-001.tex(NR03/W3) Order Processing Section
+\end{quote}
+
+\newpage
+\setcounter{page}{1}
+\pagenumbering{arabic}
+\pagestyle{main}
+
+\chapter{General Information}
+This chapter describes the RF71 integrated storage element (ISE) and the
+enclosures into which it can be installed.
+
+All installations should be documented using LARS. The correct system
+name, option name, and serial numbers should be recorded for proper
+installation tracking.
+
+\section{RF71 ISE Overview}
+
+The RF71 ISE (\figref{1-1}) is a full-height, 5-1/4-inch fixed disk mass
+storage device. It is one of a family of storage devices based on the Digital
+storage architecture (DSA) utilizing the DSSI bus and interface. The term
+integrated storage element (ISE) refers to the fact that the RF71 has
+embedded within it an intelligent controller and Mass Storage Control
+Protocol (MSCP) server.
+
+DSSI devices support up to seven ISEs daisy chained through a single
+cable to an adapter in the host. DSSI adapters can be adapters embedded
+within a CPU module (for example the KA640 module) or non-embedded
+modules, such as the KFQSA adapter.
+
+\fig{RF71-ISE-IMAGE}{The RF71 Integrated Storage Element}
+
+\section{The BA213 Enclosure}
+
+The BA213 enclosure (\figref{1-2}) has a mass storage bay above the card
+cage that contains either a TK70 tape drive or a TK50 tape drive, and up
+to three DSSI ISEs.
+
+Mass storage devices are mounted sideways on shock-mounting hardware
+with a sliding track attached to each side of the device. One shock-resistant 
+support attaches to the top of the mass storage, and
+the other support attaches to the bottom of the device. The supports
+are attached by two screws enclosed in rubber shock bushings. The
+shock-mounting hardware is different for each ISE model that can be
+installed.
+\fig{RF71-BA213-IMAGE}{The BA213 Enclosure}
+
+\section{The BA215 Enclosure}
+EK-RF71D-IM-001.tex
+The BA215 enclosure (\figref{1-3}) has a mass storage bay that extends
+across the top of the enclosure. It contains a TK70 tape drive or TK50
+tape drive, and either one or two ISEs.
+
+Mass storage devices are mounted sideways on shock-mounting hardware,
+with a sliding track attached to each side of the device. One shock-resilient
+support attaches to the top of the mass storage area, and the other support 
+attaches to the bottom of the device. The supports are attached by two screws
+enclosed in rubber shock bushings. The shock-mounting hardware is different
+for each ISE model that can be installed.
+
+\fig{RF71-BA215-IMAGE}{The BA215 Enclosure}
+
+\section{The R215F Enclosure}
+
+The RF215F enclosure is a BA215 enclosure with the card cage removed
+and an additional mass storage bay. It has three mass storage bays: two
+bays in the top of the cabinet, and a third bay in the misdle of the cabinet.
+Each mass storage bay can hold one 13.3 cm (5.25-inch) ISE. \figref{1-4} is
+a typical RF215 configuration that includes an RF215F expansion enclosure
+and a MicroVAX 3400 in a BA213 enclosure.
+
+Mass storage devices are mounted sideways on shock-mounting hardware
+with a sliding track attached to each side of the device. One shock-resistant
+support attaches to the top of the mass storage are, and the other support
+attaches to the bottom of the device. The uspports are attached by two screws
+enclosed in rubber shock bushings. The shock-mounting hardware is different
+for each ISE model installed.
+
+\fig{RF71-R215F-IMAGE}{R215F Configuration (Example)}
+
+\chapter{Unpacking Information}
+
+Unpacking the RF71 ISE consists of removing it from the shipping
+container and inspecting for damage. Report any damage to the shipper
+and notify your Digital representative.
+
+\section{Unpacking Instructions}
+\begin{enumerate}
+\item Before opening any container, check for external damage such as
+dents, holes, or crushed corners.
+\item Open and unpack the shipping container. Remove the ISE from the
+conductive plastic bag.
+\end{enumerate}
+
+
+\caution{When handling the RF71 ISE, observe all precautions to be sure
+that you do not damage the device by accidental electrostatic
+discharge.}
+
+\note{Shipping containers and packing materials should be retained for
+possible future use.}
+
+\figref{2-1} illustrates all the parts included in the RF71E-SF Option Kit.
+
+\fig{RF71-RF71E-SF}{RF71E-SF Option Kit}
+
+\section{Inspection}
+
+\begin{enumerate}
+\item Inspect the RF71 ISE for physical damage.
+\item Check the contents agains the bill of materials. \tabref{2-1} lists the
+parts supplied with the RF71E-SF (field installed) option kit.
+\end{enumerate}
+
+
+\begin{tbl}{Parts List for the RF71E-SF Option Kit}{l l l}
+\textbf{Part Number} & \textbf{Quantity} & \textbf{Description}\\
+\hline
+RF71-SA & 1 & RF71-AA (ISE without skid plate) \\
+70-25452-03 & 1 & Upper shock mount \\
+70-25453-04 & 1 & Lower shock mount \\
+74-35498-01 & 2 & Slide rails \\
+90-00039-28 & 4 & Slide rail mounting screws \\
+17-01936-01 & 1 & DSSI OCP cable (10-conductor) \\
+12-267766-19 & 10 & DSSI node ID plugs \\
+EK-RF71D-IM & 1 & RF71 ISE Installation Manual \\
+EK-RF71D-UG & 1 & RF30{/}RF71 ISE User Guide \\
+\end{tbl}
+
+\chapter{Controls and Indicators}
+
+This chapter describes the controls and indicators for the RF71 ISE.
+
+\section{RF71 ISE Switches and LEDs}
+
+\figref{3-1} shows the location of the switches and LEDs on the RF71 ISE.
+
+\fig{RF71-SWITCHES}{RF71 ISE Switch and LED Locations}
+
+\subsection{DSSI Node ID Select Switches}
+
+The RF71 ISE had a DIP switchpack located next to the DSSI connector
+that is used to assign a DSSI node IDE number to the ISE. Each device on
+the DSSI bus must be assigned a unique node IDE between zero and seven.
+
+Assignment of the DSSI node ID is made during installation by setting
+the 3-position DIP switch to the binary equivalent of the desired ID
+number (see \tabref{3-1}).
+
+\begin{tbl}{DSSI Node ID Selection}{c l l l}
+\textbf{DSSI Node} & \multicolumn{3}{l}{\textbf{Switch Positions\textsuperscript{1}}} \\
+\textbf{Address} & \textbf{Switch 1} & \textbf{Switch 2} & \textbf{Switch 3} \\
+\hline
+0 & Down & Down & Down \\
+1 & Down & Down & Up \\
+2 & Down & Up & Down \\
+3 & Down & Up & Up \\
+4 & Up & Down & Down \\
+5 & Up & Down & Up \\
+6 & Up & Up & Down \\
+7\textsuperscript{2} & Up & Up & Up \\
+\hline
+\multicolumn{4}{l}{\textsuperscript{1}Up is toward the HDA, down is toward the module.}\\
+\multicolumn{4}{l}{\textsuperscript{2}Normally assigned to a host node.}\\
+\end{tbl}
+
+\note{These switches are ignored by the RF71 ISE when it is connected to an operator control
+panel (OCP). In this case, use the OCP controls described in \hyperlink{section.3.9}{Section 3.9} 
+to select the DSSI node ID.}
+
+\subsection{READY Indicator}
+
+This indicator is a green LED. When the ISE is powered up, this indicator is turned on. After successful
+completion of the power-on self-test (POST), the indicator is turned off until the ISE is read/write ready.
+
+The READY LED is turned off during a seek until the drive heads are on a cylinder
+and read/write ready. Then the indicator is turned on again for as long as the heads remain
+on track. Thus, during read or write operations, the indicator flickers on and off rapidly.
+
+\subsection{FAULT Indicator}
+
+This indicator is a red LED. It is turned on when a read/write error or serious physical
+error condition is detected. Initially, when the ISE is powered up, this indicator
+is turned on. Upon successful completion of POST, this indicator is turned off.
+
+\section{Operator Control Panel (OCP)}
+
+When the RF71 ISE is installed in a BA213, BA215 or R215F enclosure,
+the operator interfave is a control panel on the enclosure. \figref{3-2}
+shows the OCP. Its functions are described in \tabref{3-2}. Each RF-series
+ISE is connected to the OCP through a 10-conductor ribbon cable.
+
+The OCP has three columns of controls and indicators. The standard convention is 
+to use the right column for ISE 0, the center column for ISE 1, and the left column
+for ISE 2. Note, howeverm that the DSSI node IDE address is determined by the drive
+select plug rather than its position on the OCP. The address that will be assigned to 
+the ISE is labeled on the plug.
+
+\note{The DSSI address assigned by the plug is read only during the power-up sequence. If
+you change the plugs without reinitialising the ISE by a power-up or reset, the new DSSI
+address is not recognised.}
+
+\caution{Do not install two plugs with the same number on the OCP.}
+
+\fig{RF71-OCP-LAYOUT}{BA200-Series Operator Control panel for DSSI ISEs}
+
+\begin{tbl}{Description of OCP Indicators and Switches}{p{1cm} p{1cm} p{8cm}}
+\textbf{Control/{\newline}Indicator} & \textbf{Setting} & \textbf{Function} \\
+\hline
+\multirow[t]{2}{1cm}{System DC OK}		& 	On						& 	DC power is within regulation.	\\
+										& 	Off						& 	DC power not present or not 
+																		within regulation.				\\
+\multirow[t]{2}{1cm}{Drive Select Plug}	& 	Installed				&	Sets DSSI node ID to the number 
+																		specified on the plug (normal 
+																		operating position). Plug must 
+																		be installed if	ISE is connected 
+																		to OCP.							\\
+										& 	Removed					& 	DSSI address indefined. If ISE 
+																		is present, Fault LED flashes 
+																		rapidly.						\\
+\multirow[t]{4}{1cm}{Fault LED}			& 	On						& 	Fault condition is present.		\\
+										& 	Off						& 	No fault (normal operating 
+																		condition).						\\
+										& 	Flashing				& 	Module-to-HDA calibrations 
+																		are being performed.			\\
+										& 	Flashing				& 	OCP failure or drive select 
+																		plug missing.					\\
+\multirow[t]{2}{1cm}{Write-{\newline}Protect}		&	Out{\newline}LED off	&	The system can read and write
+																		to the disk (normal operating
+																		position)						\\
+										&	In{\newline}LED on		&	The system cannot write to the
+																		disk. The system can still read
+																		from the disk.					\\
+\multirow[t]{2}{1cm}{Ready}				&	Out{\newline}LED on		&	ISE is on-line (normal operating
+																		position). The system can read
+																		from and write to the disk.		\\
+										&	In{\newline}LED off		&	ISE is off-line. The system
+																		cannot read from or write to
+																		the disk.						\\
+\multirow[t]{2}{1cm}{CPU Halt}			&	In{\newline}LED on		&	The CPU is in console IO mode.
+																		The console emulation program
+																		is running.						\\
+										&	Out{\newline}LED off	&	The CPU can run system software
+																		(normal operating position).	\\
+Restart									&	Pressed					&	Reinitialises system state. 
+																		Work in progress is lost.		\\
+\end{tbl}
+
+
+\chapter{Installation Procedure}
+
+This chapter explains how to install the RF71 ISE into a BA200 Series enclosure.
+
+\caution{Only qualified service personnel should attempt this installation procedure.
+Before beginning the installation, make sure that the system manager has backed up
+all files. Have the system manager perform a shutdown of the operating system before
+turning the power off.}
+
+\section{The BA213 Enclosure}
+
+The BA213 enclosure holds up to three RF71 ISEs and a tape storage device. \figref{4-1}
+shows a standard DSSI configuration in a BA213 enclosure.
+
+To install an RF71 ISE in the BA213 enclosure, use the following procedure. This procedure
+is written on the assumption that either a KA640 module or a KFQSA adapter module is already
+installed in the system, and that DSSI cabling is in place. Refer to your system or
+adapter documentation for instructions on installing these devices.
+
+\fig{RF71-BA213-DSSI}{The BA213 Enclosure with DSSI ISEs}
+
+\subsection{Opening the Enclosure}
+
+The front door has a 3-position lock that limits access to system controls.
+The controls are located behind a plastic window at the upper right of the
+cover (\figref{4-2}). Open the door as follows:
+
+\begin{enumerate}
+\item 	Insert the key into the lock on the front door. Turn the key to the
+		bottom position (fully clockwise).
+
+\item	Slide the window all the way down.
+
+\item	Turn the \keystroke{1 0} power switch off (to the right) and unpluf the ac power
+		cord from the wall outlet.
+
+\item	Pull the release latch outward and use the latch as a hand grip to lift
+		the front door and remove it from the system (\figref{4-2}).
+\end{enumerate}
+
+\caution{Do not use a screwdriver or other tool to pry open the release latch
+as this may damage the latch.}
+
+\fig{RF71-BA213-LATCH}{BA213 Front Cover Removal}
+
+\subsection{Gaining Access to the Mass Storage Bays}
+
+\begin{enumerate}
+\item	Remove the media faceplate from the front panel of the mass storage bays
+		by releasing the five captive screws and pulling the cover forward
+		(\figref{4-3}).
+
+\item	Remove the two screws from the top of the OCP chassis and lift the
+		OCP out of the enclosure.
+\end{enumerate}
+
+\fig{RF71-BA213-ACCESS}{Removing the Media Faceplate and OCP}
+
+\subsection{Installing the Mass Storage Shock Mounts}
+
+Install the upper and lower shock mounts in the mass storage bay
+using the following procedure:
+
+\caution{Make sure to install the shock mounts shipped with the option
+kit. Check the part number against \tabref{2-1}. Installing the wrong
+shock mounts may result in damage to the ISE.}
+
+\begin{enumerate}
+\item	Carefully disconnect any cables that are in the way and mark them
+		for reinstallation later.
+
+\item	Make sure the metal shipping brackets are in the released position.
+		Instructions for releasing the shipping brackets are printer on a
+		sticker attached to the front of the OCP.
+\end{enumerate}
+\caution{Release the shipping brackets before operating the ISEs or they
+may be damaged.}
+\begin{enumerate}[resume]
+\item	Using a short flat-head screwdriver, attach the top bracket assembly
+		to the screw holes in the top of the appropriate mass storage bay.
+		Make sure the open end of the bracket is facing the rear of the mass 
+		storage area.
+
+\item	Holding the bottom bracket assembly, place the hole on the metal
+		grounding strip located on the rear of the assembly over the exposed
+		threads of the rear screw (\figref{4-4}).
+
+\item	Using a short flat-head screwdriver, attach the bottom bracket
+		assembly to the two screw holes in the bottom of the appropriate
+		mass storage area. Make sure the open end of the bracket is facing
+		the rear of the mass storage area.
+\end{enumerate}
+
+\fig{RF71-SHOCK-INSTALL}{Attaching the Metal Ground Strip}
+
+\subsection{Installing the ISE Into the Enclosure}
+
+\caution{The RF71 ISE is susceptible to electrostatic damage. Do not
+handle it unless you are wearing an antistatic wrist strap that is
+properly grounded to the system cabinet. When you have removed
+the ISE from its shipping container, place it on an antistatic pad.
+Use the static-protective Field Service kit (PN 29-26246).}
+
+\begin{enumerate}
+\item	Install the slide rails using the four screws provided (\figref{4-5}).
+\end{enumerate}
+
+\caution{Make sure you use the screws provided. Longer screws may
+damage the ISE.}
+
+\fig{RF71-INSTALL-SLIDE}{Installing the Slide Rails}
+
+\begin{enumerate}[resume]
+\item	Slide the ISE into the mass storage bay (drive module to the left) and
+		hand tighten the slide rail screws.
+
+\item	Connect the power cable to the ISE.
+
+\item	Use the 10-conductor cable provided to connect the ISE to the OCP.
+
+\item	Connect the DSSI cable to the ISE.
+
+\item	Replace the OCP and the media faceplate.
+
+\item	Install the correct drive select plug on the OCP.
+\end{enumerate}
+
+\section{The BA215 Enclosure}
+
+The BA215 enclosure holds one or two RF71 ISEs and a TK70 tape drive
+or TK50 tape drive.
+
+\subsection{Removing the Front Panel}
+The front panel has a 3-position lock that limits access to the system controls.
+The controls are located behind a plastic window at the upper right of the
+cover.
+
+Remove the front panel as follows:
+
+\begin{enumerate}
+\item	Insert the key into the lock on the front door. Turn the key to the
+		bottom position (fully clockwise).
+
+\item	Slide the window all the way down.
+
+\item	Turn the \keystroke{1 0} power switch off (to the right) and unplug the ac power
+		cord from the wall outlet.
+
+\item	Pull the release latch outward and use the latch as a hand grip to lift
+		the front door and remove it from the system.
+\end{enumerate}
+\caution{Do not use a screwdriver or other tool to pry open the release
+latch as this may damage the latch.}
+
+\subsection{Gaining Access to the Top Mass Storage Bays}
+\caution{Static electricity can damage integrated circuits. Use an
+antitstatic wrist strap and mat when performing this procedure.}
+
+\begin{enumerate}
+\item	Release the four captive screws that hold the media faceplate to the
+		BA215 frame and remove the faceplate.
+
+\item	Remove the screw from the top of the OCP chassis ans lift the OCP
+		out of the enclosure.
+
+\item	The shipping brackets inside the mass storage area(s) should have
+		been released during installation of the unit. If they were not
+		released, make sure the four orange plain-slotted screws are loosened
+		to release the shipping brackets. Retighten the screws against the
+		frame after the brackets are released.
+\end{enumerate}
+\caution{Failure to release the shipping brackets prior to use may result in
+damage to the ISEs.}
+
+\begin{enumerate}[resume]
+\item	Remove the terminator and DSSI cable.
+\end{enumerate}
+
+\subsection{Installing the RF71 ISE}
+\caution{The RF71 ISE is susceptible to electrostatic damage. Do not
+handle it unless you are wearing an antistatic wrist strap that is
+properly grounded to the system cabinet. When you have removed
+the ISE from its shipping container, place it on an antistatic pad.
+Use the static-protective Field Service kit (PN 29-26246).}
+
+\begin{enumerate}
+\item	Install the upper and lower shock mounts in the mass storage bay
+		using the procedure outlined in \hyperlink{subsection.4.1.3}{Section 4.1.3}.
+\end{enumerate}
+
+\caution{Make sure you install the shock mounts shipped with the devices.
+Check the part number agains \tabref{2-1}. Installing the wrong
+shock mounts may result in damage to the ISE.}
+
+\begin{enumerate}[resume]
+\item	Slide the ISE into the mass storage bay (drive module to the left) and
+		hand tighten the slide rail screws.
+
+\item	Connect the power cable to the power connector on the ISE (see \figref{4-6}).
+
+\item	Use the 10-conductor cable provided to connect the ISE to the OCP.
+
+\item	Connect the DSSI cable to the DSSI connector on the ISE.
+
+\item	Replace the OCP and the media faceplate.
+
+\item	Install the correct drive select plug on the OCP.
+\end{enumerate}
+
+\fig{RF71-CONNECTOR-LOCS}{DSSI Bus, Power, and OCP Connectors}
+
+\section{The R215F Enclosure}
+The R215F expansion enclosure holds up to three RF21 ISEs.
+
+\subsection{Removing the Front Panel}
+
+The front panel has a 3-position lock that limits access to system controls.
+The controls are located behind a plastic window at the upper right of the
+cover.
+
+Remove the front panel as follows:
+
+\begin{enumerate}
+\item	Insert the key into the lock on the front door. Turn the key to the
+		bottom position (fully clockwise).
+
+\item	Slide the window all the way down.
+
+\item	Turn the \keystroke{1 0} power switch off (to the right) and unplug the ac power
+		cord from the wall outlet.
+
+\item	Halt any bus activity on the host system. Then, remove the DSSI
+		expansion cable.
+\end{enumerate}
+\caution{Make sure you stop any bus activity before removing the DSSI
+expansion cable to prevent high error rates.}
+\begin{enumerate}[resume]
+\item	Loosen the two slotted captive screws attaching the DSSI cable to the
+		R215F bis connector (immediately to the left of the OCP) and remove
+		the cable.
+
+\item	Pull the release latch outward and use the latch as a hand grip to lift
+		the front door and remove it from the system.
+\end{enumerate}
+\caution{Do not use a screwdriver or other tool to pry open the release
+latch as this may damage the latch.}
+
+\subsection{Gaining access to the Top Mass Storage Bays}
+\caution{Static electricity can damage integrated circuits. Use an antistatic
+wrist strap and mat when performing this procedure.}
+
+\begin{enumerate}
+\item	Loosen the four captive screws that hold the top media faceplate to
+		the R215F frame and remove the faceplate (\figref{4-7}).
+
+\item	Remove the two screws from the top of the OCP chassis and lift the
+		OCP out of the enclosure.
+\end{enumerate}
+
+\fig{RF71-B215F-SCREWS}{Removing the Top Media Faceplate}
+
+\begin{enumerate}[resume]
+\item	The shipping brackets inside the mass storage area(s) should already
+		have been released during installation of the unit. If they were not
+		released, make sure the four orange plain-slotted screws are loosened
+		to release the shipping brackets. Retighten the screws against the
+		frame after the brackets are released (see \figref{4-6}).
+\end{enumerate}
+
+\caution{Failure to release the shipping brackets prior to use may result in
+damage to the ISEs..}
+
+\fig{RF71-B215F-SHIPPING}{R215F Shipping Bracket Screws}
+
+\subsection{Gaining Access to the Bottom Storage Bay}
+\caution{Static electricity can damage integrated circuits. Use an
+antistatic wrist strap and mat when performing this procedure.}
+
+Loosen the four captive screws that hold the bottom media faceplaye to 
+the R215F frame and remove the faceplate (\figref{4-9}).
+
+\fig{RF71-R215F-LOWER}{Removing the Bottom Media Faceplate}
+
+\subsection{Installing the RF71 ISE}
+
+\caution{The RF71 ISE is susceptible to electrostatic damage. Do not
+handle it unless you are wearing an antistatic wrist strap that is
+properly grounded to the system cabinet. When you have removed the ISE from
+its shipping container, place it on an antistatic pad. Use the static-protective
+Field Service kit (PN 29-26246).}
+
+\begin{enumerate}
+\item	Install the upper and lower shock mounts in the mass storage bay
+		using the procedure outlined in \hyperlink{subsection.4.1.3}{Section 4.1.3}.
+\end{enumerate}
+
+\caution{Make sure you install the shock mounts shipped with the device.
+Check the part number against \tabref{2-1}. Installing the wrong shock mounts
+may result in damage to the ISE.}
+
+\begin{enumerate}[resume]
+\item	Install the slide rails using the four screws provided. Refer to
+\figref{4-5} for the location of the screws.
+\end{enumerate}
+
+\caution{Make sure you use the screws provided. Longers screws may
+damage the ISE.}
+
+\begin{enumerate}[resume]
+\item	Slide the ISE into the mass storage bay (drive module to the left) and
+		hand tighten the slide rail screws.
+
+\item	Connect the power cables to the ISE.
+
+\item	Use the 10-conductor cable provided to connect the ISE to the OCP.
+
+\item	Connect the DSSI cable to the ISE.
+
+\item	Replace the signal distribution assembly and the media faceplate.
+
+\item	Install the correct drive select plug on the OCP.
+\end{enumerate}
+
+\chapter{Verification}
+
+This chapter explains how to verify the correct operation of the ISE once it is installed.
+
+\section{Verifying the Correct Operation of an ISE}
+
+\begin{enumerate}
+\item	Check all cable connections to the device. Make sure all connectors
+		are seated properly and that there is an appropriate amount of slack
+		in the DSSI cable to allow for vibration of the ISE.
+
+\item	Replace all panels on the enclosure.
+
+\item	Make sure the DSSI cable is properly connected to both host and
+		expansion box (if applicable).
+
+\item	Apply power to the host and to the expansion box (if applicable). The
+		RF71 ISE goes through the power-on self-test (POST) described in
+		\hyperlink{chapter.6}{Chapter 6}. Make sure the green LED in the
+		center of the READY button on the OCP comes on for that ISE. If the red
+		FAULT LED comes on, test the ISE.
+
+\item	Once the READY LED lights, access the local program DRVTST using
+		the following procedure:
+
+\begin{enumerate}
+	\item	For a MicroVAX running VMS Version 5.0 or later, type the
+			following command:
+
+			\texttt{\$ SET HOST/DUP/SERVER-MSCP\$DUP/TASK-DRVTST node-name}
+
+			where:
+
+			node-name = the node name of the device
+
+			Add the qualifier /log=filename.exe to produce a file in your
+			directory of what appears on the screen.
+				
+			To learn the node name of the device, type either SHOW DEVICES
+			or SHOW CLUSTER at the \$ prompt.
+
+	\item	For a MicroVAX using a KA640 module with an embedded DSSI
+			adapter, use the following console command:
+
+			\texttt{{>}{>}{>} SET HOST/DUP/DSSI \#}
+
+			where:
+
+			\# is the DSSI node address of the device you want to access.
+
+			To learn the DSSI node address and node names of the DSSI devices, use
+			the following console command:
+
+			\texttt{{>}{>}{>} SHOW DSSI}
+
+	\end{enumerate}
+\end{enumerate}	
+
+
+\note{To abort or prematurely terminate the program and return
+control to the system, press \keystroke{CTRL/C} or \keystroke{CTRL/Y}.}
+
+\begin{enumerate}[resume]
+\item	Once DRVTST passes, use PARAMS to set device parameters such as
+		node name and allocation class.
+
+\item	Fill out a LARS form to complete the installation.
+\end{enumerate}
+
+\chapter{Diagnostics}
+
+This chapter describes the diagnostics available for verifying the operation
+of the RF71 ISE.
+
+\section{Power-On Self-Test (POST)}
+
+All DSSI devices run a power-on self-test (POST) at power-up or when
+the device is reset to check the integrity of the device hardware. POST
+has two functions: it performs a sequence of tests to check that the ISE
+hardware is functioning properly, and it performs start-up procedures to
+make the ISE operational before becoming available to the host.
+
+POST is executed whenever power is applied. If it is executed successfully,
+the green READY indicator lights and the red FAULT indicator goes out.
+If POST fails, the red FAULT indicator remains lit and the READY
+indicator does not come on, or both indicators remain on.
+
+When POST is initialised, it first activates the spindle spin-up sequence.
+Spindle spin-up is started first because of the time required for the
+spindle to come up to speed. Other tests are performed while the spindle
+is spinning up. When there is more than one ISE on the system, spindle
+spin-up is staggered to limit the starting current drawn from the power
+supply for this function. The system controls the staggering through the
+ACOK signal.
+
+POST is also used to handle the following types of error conditions:
+
+\begin{enumerate}
+\item	\textit{Controller errors} - These are error caused by the hardware
+		associated with the controller function of the drive module.
+		These errors are fatal to the operation of the ISE, since the
+		controller can't establish a logical connection to the host.
+		The result of a failure due to controller error is that the
+		red FAULT LED lights.
+
+\item	\textit{Device errors} - These are errors caused by the hardware
+		associated with the device control function of the drive
+		module. These errors are not fatal, since the ISE can establish
+		a logical connection and report the error to the host. The
+		result of failure due to an ISE error is that both LEDs
+		go out for about one second, then the red FAULT LED lights.
+		In this case, run either DRVTST, DRVEXR, or PARAMS (as
+		explained in the next section) to determine the error code.
+\end{enumerate}
+
+\section{Device Resident Diagnostics}
+
+The RF71 ISE uses the following local programs to run device diagnostics.
+These programs use the Diagnostic Utility Protocol (DUP) standard
+dialog.
+
+\begin{itemize}
+\item	\textit{DIRECT} - provides the directory of available local programs
+\item	\textit{DRVTST} - verifies that the hardware is functioning properly
+\item	\textit{DRVEXR} - exercises the RF30 ISE
+\item	\textit{HISTRY} - displays information retained by the ISE
+\item	\textit{ERASE} - erases all user data from the ISE
+\end{itemize}
+
+A description of each diagnostic local program follows, including a table
+showing the dialogue of each program. The table also indicates the type
+of messages contained in the dialogue, although the screen display does
+not indicate the message type. Message types are abbreviated as
+
+\begin{itemize}
+\item	\textit{Q} - question
+\item	\textit{I} - information
+\item	\textit{T} - termination
+\item	\textit{FE} - fatal error
+\end{itemize}
+
+Local programs can be accessed by using console commands (for MicroVAX
+3000-series systems) or the MDM utility, or through VMS using the SET
+HOST/DUP command. Once the connection is established, operations are
+performed under the control of the local program. When the program
+terminates, control is returned to the system.
+
+\subsection{DIRECT}
+
+DIRECT provides a directory of all available local programs resident in
+the RF71 ISE. An example of a DIRECT program display is:
+
+\begin{ttfig*}
+	Copyright © 1988 Digital Equipment Corporation
+	DIRECT    V1.0   D   1-NOV-1988    13:39:09
+	DRVEXR    V1.1   D   1-NOV-1988    13:39:09
+	DRVTST    V1.1   D   1-NOV-1988    13:30:09
+	ERASE     V1.3   D   1-NOV-1988    13:30:09
+	HISTRY    V1.0   D   1-NOV-1988    13:30:09
+	PARAMS    V1.2   D   1-NOV-1988    13:30:09
+	End of Directory
+\end{ttfig*}
+
+\subsection{DRVTST}
+
+DRVTST invokes a comprehensive test of the RF71 ISE hardware. Errors
+detected by this program are isolated to the FRU level. Dialogue for this
+test includes:
+
+\begin{tbl}{}{p{1cm} l}
+\textbf{Message Type} & \textbf{Message} \\
+\hline
+I & Copyright \copy 1988 Digital Equipment Corporation \\
+Q & Write/read anywhere on the medium? [1=yes/(0=no)] \\
+Q & User data will be corrupted. Proceed? [1=yes/(0=no)] \\
+I & 5 minutes to complete. \\
+T & Test passed. \\
+\multicolumn{2}{c}{or} \\
+FE & Unit is currently in use. \textsuperscript{1} \\
+FE & Operation aborted by user. \\
+FE & xxxx - Unit diagnostics failed. \textsuperscript{2} \\
+FE & xxxx - Unit read/write test failed. \textsuperscript{2} \\
+\hline 
+\multicolumn{2}{p{10cm}}{\textsuperscript{1}This can mean either
+the device is inoperative, is in use by a host, or is currently running
+another local program.} \\
+\multicolumn{2}{p{10cm}}{\textsuperscript{2}For the available
+error codes, refer to the diagnostic error code table at the end of this
+chapter.} \\
+\end{tbl}
+
+Answering no to the first question results in a read-only test, and
+DRVTST writes are limited to a diagnostic area on the disk. Answering
+yes to the first question results in the second question being asked.
+
+Answering no to the second question has the same effect as answering no
+to the first question. Answering yes to the second question permits write
+and read operations anywhere on the medium.
+
+\note{If the WRITE PROTECT switch on the OCP is pressed in (LED on)
+and the answer to the second question is yes, the device does not 
+allow the test to run. The error message ``2006 - Unit read/write
+test failed'' is displayed. In this case, the test has not failed, but
+has been prevented from running.}
+
+DRVTST resets the ECC error counters and then calls the timed I/O
+routine. After the timed I/O routine completes (five minutes), DRVTST
+saves the counters again. It computes the uncorrectable error rate and
+byte (symbol) error rate. If either rate is too high, the test fails and the
+appropriate error code is displayed.
+
+\howtoorder
+\end{document}
+
diff --git a/EK-VSTAA-MG-001-ch4.tex b/EK-VSTAA-MG-001-ch4.tex
new file mode 100644
index 0000000..1ae21e1
--- /dev/null
+++ b/EK-VSTAA-MG-001-ch4.tex
@@ -0,0 +1,156 @@
+\chapter{Video Monitor Adjustments (VAXstation 2000)}
+\setcounter{page}{1}
+
+
+\section{Introduction}
+
+This chapter describes how to adjust the VR260 monochrome monitor for
+its best picture. Alignment and adjustments for MicroVAX 2000's terminals
+are not covered in this guide. See the terminal's pocket service guide for
+all alignments to MicroVAX 2000's terminals.
+
+\section{VR260 Monochrome Monitor}
+
+Adjustments to the monitor are made with its cover removed. If the monitor's 
+cover is not already removed, remove it (\para{3.12.1}) and then
+reconnect the power cable and the video cable to the monitor.
+
+FoUow the procedures in order. The success of one adjustment may depend
+on the accuracy of preceding checks and adjustments with the exception of
+the focus and G2 adjustments.
+
+When the procedure teils you to display a test pattern, enter console mode
+(\para{2.2.2}), attach a loopback connector (p/n 29-24795) to the 25-pin
+communication port, and then type the appropriate test command listed in
+\tabref{4-1}. \tabref{4-1} lists the base video alignment patterns and the test
+commands that invoke them.
+
+\begin{tbl}{Base Video Alignment Test Commands}{c l c}
+\textbf{Test Command} & \textbf{Test Pattern} & \textbf{Loopback Required} \\
+\hline
+60	&	Circle cross-hatch		&	X \\
+61	&	Screen of all E's		&	\\
+62	&	White screen pattern	&	\\
+\end{tbl}
+\newpage
+You will need the followine tools to adjust the VR260 monitor.
+
+\begin{itemize}
+\item	Alignment tool (p/n 29-24746-00)
+\item	Metric measuring tape (p/n 29-25342)
+\end{itemize}
+
+\subsection{Preparations}
+\begin{enumerate}
+\item	Switch on power to the VR260 monitor and the system.
+
+\item	Set the brightness and contrast controls to their maximum positions (\figref{4-1}).
+
+\item	Wait 30 seconds for the monitor to warm up, then adjust the brightness
+		to extinguish the raster.
+
+\item	Adjust the contrast for normal viewing level.
+\end{enumerate}
+
+Refer to \figref{4-2} for the adjustment locations on the VR260 monitor.
+
+\newpage
+
+\fig{MA-7567-83}{Brightness and Contrast Controls}
+\newpage
+
+\fig{MA-0116-87}{VR260 Infernal Adjustment Locations}
+\subsection{Horizontal and Vertical Linearity and Focus
+Adjustments}
+\begin{enumerate}
+\item	Display the circle cross-hatch pattern (TEST 60). If the customer is having 
+		problems with text, display the all E's pattern (TEST 61) for a 
+		reference check.
+
+\newpage
+
+\item	Adjust the horizontal linearity (UN) (use the hex trimpot) for horizontal
+		uniformity of the squares across the display. The display should contain
+		32 horizontal squares and fill the screen. Refer to \figref{4-3}.
+
+\fig{MA-0117-87}{Circle Cross-Hatch Display}
+
+\item	Adjust the vertical linearity (VL) (use the flat-bladed trimpot) for vertical
+		uniformity of the squares up and down the screen. The display should
+		contain 27 vertical squares and fill the screen.
+
+\item	Adjust the focus (use a long handled flat-blade screwdriver) for the best
+		vertical/horizontal line sharpness. Check an intersection of the crosshatch 
+		pattern that is at least three squares in from any one of the four corners.
+\end{enumerate}
+\newpage
+\subsection{Width, Height, and Centering Adjustments}
+
+\begin{enumerate}
+\item	Display the white screen display (TEST 62).
+
+\item	Adjust the brightness so the raster is visible.
+
+\item	Adjust the contrast for normal viewing level.
+
+\item	Adjust horizontal centering (H CENT) (use the flat-blade screwdriver)
+		until the raster is centered.
+
+\item	Adjust the horizontal phase (HP) so the video is centered in the raster.
+
+\item	Adjust the brightness to extinguish the raster.
+
+\item	Measure the width of the display with the tape measure as shown in
+		\figref{4-4}. The display should have a 334 mm width. Adjust width (use
+		the hex trimpot) until the display measures 334 mm across.
+
+\caution{Avoid scratching the screen surface with the metal clip of the tape.
+		 Start the measurement at 10 cm (100 mm) as shown below.}
+
+\fig{MA-0756-85}{Width and Height Measurements}
+\newpage
+\item	Adjust the vertical height (VH) and the vertical centering (VC) so that
+		the display touches the top and bottoni edges of the screen at the same
+		time.
+
+\item	Measure the height of the display with the tape measure. The display
+		should have a 282 mm height. Adjust the vertical height (VH) until the
+		display measures 282 mm top to bottom.
+
+\end{enumerate}
+
+\subsection{Rechecklng the Display}
+
+\begin{enumerate}
+\item	Display the circle cross-hatch pattern (TEST 60).
+
+\item	Check the vertical and horizontal linearity of the Squares. Readjust if
+		needed (\para{4.2.2}, steps 2 and 3).
+
+\item	Check the vertical and horizontal centering, the height, and the width
+		of the display. Readjust if needed (\para{4.2.3}).
+\end{enumerate}
+
+\subsection{Adjusting Minimum Raster}
+\begin{enumerate}
+\item	Set the brightness to maximum and the contrast to minimum. A raster
+		should be faintly visible.
+
+\item	If no raster is visible, adjust G2 (use a flat-blade screwdriver) until a
+		raster is faintly visible.
+
+\item	Adjust the brightness and contrast for normal viewing.
+\end{enumerate}
+
+\subsection{Reassembling the VR260 Monitor}
+
+\begin{enumerate}
+\item	Switch the System power switch and the monitor power switch off.
+
+\warning{Wait at least 30 seconds after you turn off power to unplug the
+		 power cord. Static electricity dissipates for 30 seconds after power is tumed off.}
+
+\item	Disconnect the power cord and the video cable from the monitor.
+
+\item	Reverse the procedure in \para{3.12.1}.
+\end{enumerate}
diff --git a/decsectionalv2.cls b/decsectionalv2.cls
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+    First Edition, {\@pubmonth} {\@pubyear}
+
+	Copyright \copyright{\@pubyear} by Digital Equipment Corporation.\\
+	All Rights Reserved.\\
+	Printed in U.S.A.
+
+    The information in this document is subject to change without notice and should not be construed as a commitment by Digital Equipment Corporation.
+
+    Digital Equipment Corporation assumes no responsibility for any errors that may appear in this document.
+
+    The software, if any, described in this document is furnished under a license and may be used or copied only in accordance with the terms of
+    such license. No responsibility is assumed for the use or reliability of software or equipment that is not supplied by Digital Equipment Corporation
+    or its affiliated companies.
+
+    The following are trademarks of Digital Equipment Corporation:
+
+    \begin{tabular}{ m{3.5cm} m{3.5cm} l}
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+\raisebox{-0.35\height}{\includegraphics[height=10pt]{logos/digital}} \textsuperscript{TM} & EDCS & RSTS \\
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+BIBus & MASSBUS & RT \\
+COMPACTape & Micro/RSTS & ThinWire \\
+DEC & MicroPDP-11 & UNIBUS \\
+DECconnect & Micro/RSX & VAX \\
+DEC/MAP & MicroVAX II & VAXeluster \\
+DECmate & PDP & VAXstation II \\
+DECnet & P/OS & VAXstation II/GPX \\
+DECUS & Professional & VMS \\
+DECwriter & Q-Bus & VT \\
+DIBOL & Rainbow & \\
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+
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