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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}
--- a/EK-VSTAA-MG-001-ch4.tex
+++ 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}
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--- a/fig/RF71/RF41-ISE-IMAGE.png
+++ b/fig/RF71/RF41-ISE-IMAGE.png
--- a/fig/RF71/RF71-B215F-SCREWS.png
+++ b/fig/RF71/RF71-B215F-SCREWS.png
--- a/fig/RF71/RF71-B215F-SHIPPING.png
+++ b/fig/RF71/RF71-B215F-SHIPPING.png
--- a/fig/RF71/RF71-BA213-ACCESS.png
+++ b/fig/RF71/RF71-BA213-ACCESS.png
--- a/fig/RF71/RF71-BA213-DSSI.png
+++ b/fig/RF71/RF71-BA213-DSSI.png
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--- a/fig/RF71/RF71-CONNECTOR-LOCS.png
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--- a/fig/RF71/RF71-INSTALL-SLIDE.png
+++ b/fig/RF71/RF71-INSTALL-SLIDE.png
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+++ b/fig/RF71/RF71-ISE-IMAGE.png
--- a/fig/RF71/RF71-OCP-LAYOUT.png
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--- a/fig/RF71/RF71-R215F-IMAGE.png
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+++ b/fig/RF71/RF71-SHOCK-INSTALL.png
--- a/fig/RF71/RF71-SWITCHES.png
+++ b/fig/RF71/RF71-SWITCHES.png