Better layout

EK-RF71D-IM-001.tex

@@ -7,14 +7,14 @@
 \address{maynard, massachusetts}
 \pubmonth{January}
 \pubyear{1989}
-
+\renewcommand\thepage{\thechapter-\arabic{\page}}
 \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]
+\makeindex[name=MyIndex, columns=2, title=Index, options= -s dec_2column_small.ist]
 
 
 \begin{document}
@@ -29,12 +29,12 @@ This manual provides information and procedures for installing the RF71
 integreated storage element (ISE) into the BA213, BA215 and R215F
 enclosures.
 
-\subsection*{Intended Audience}
+\subsubsection*{Intended Audience}
 
 This document is intended for Digital Field Service personnel or qualified
 self-maintenance customers only.
 
-\subsection*{For the Customer}
+\subsubsection*{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
@@ -60,7 +60,7 @@ P.O. Box CS2008\\
 Nashua, NG 03081
 \end{quote}
 
-\subsection*{For Field Service}
+\subsubsection*{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
@@ -80,7 +80,7 @@ Digital Equipment Corporation\\
 444 Whitney Street\\
 Northboro, MA 01532\\
 Attn: Publishing and Circulation Services\\
-EK-RF71D-IM-001.tex(NR03/W3) Order Processing Section
+(NR03/W3) Order Processing Section
 \end{quote}
 
 \newpage
@@ -126,7 +126,7 @@ 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}
+\fig[0.7]{RF71-BA213-IMAGE}{The BA213 Enclosure}
 
 \newpage
 
@@ -295,13 +295,13 @@ address is not recognised.}
 
 \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}}
+\begin{tbl}{Description of OCP Indicators and Switches}{p{1.5cm} p{1.5cm} p{8cm}}
 \textbf{Control/{\newline}Indicator} & \textbf{Setting} & \textbf{Function} \\
 \hline
-\multirow[t]{2}{1cm}{System DC OK}		& 	On						& 	DC power is within regulation.	\\
+\multirow[t]{2}{1.5cm}{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 
+\multirow[t]{2}{1.5cm}{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 
@@ -309,26 +309,26 @@ address is not recognised.}
 										& 	Removed					& 	DSSI address indefined. If ISE 
 																		is present, Fault LED flashes 
 																		rapidly.						\\
-\multirow[t]{4}{1cm}{Fault LED}			& 	On						& 	Fault condition is present.		\\
+\multirow[t]{4}{1.5cm}{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
+\multirow[t]{2}{1.5cm}{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
+\multirow[t]{2}{1.5cm}{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.
+\multirow[t]{2}{1.5cm}{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
@@ -450,7 +450,7 @@ Use the static-protective Field Service kit (PN 29-26246).}
 damage the ISE.}
 
 \fig{RF71-INSTALL-SLIDE}{Installing the Slide Rails}
-
+\newpage
 \begin{enumerate}[resume]
 \item	Slide the ISE into the mass storage bay (drive module to the left) and
 		hand tighten the slide rail screws.
@@ -620,7 +620,7 @@ wrist strap and mat when performing this procedure.}
 damage to the ISEs..}
 
 \fig{RF71-B215F-SHIPPING}{R215F Shipping Bracket Screws}
-
+\newpage
 \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.}
@@ -855,10 +855,10 @@ 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
+\multicolumn{2}{p{10cm}}{\footnotesize \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
+\multicolumn{2}{p{10cm}}{\footnotesize \textsuperscript{2}For the available
 error codes, refer to the diagnostic error code table at the end of this
 chapter.} \\
 \end{tbl}
@@ -905,7 +905,7 @@ T & Complete \\
 FE & Unit is currently in use.\textsuperscript{1}\\
 \end{tbl}
 
-\textsuperscript{1}This can mean either the device is inoperative, is in use by a host, or is currently running another local program.
+{\footnotesize \textsuperscript{1}This can mean either the device is inoperative, is in use by a host, or is currently running another local program.}
 
 \newpage
 
@@ -969,8 +969,8 @@ I	&	5	&	Power cycles \\
 I\textsuperscript{2} & 4 & Hexadecimal fault code \\
 T	&		&	Complete. \\
 \hline
-\multicolumn{3}{p{10cm}}{\textsuperscript{1}Number of ASCII characters}\\
-\multicolumn{3}{p{10cm}}{\textsuperscript{2}This displays the last 11 fault codes as Information messages. For available error codes, refer to the diagnostic error code table at the end of this chapter.}\\
+\multicolumn{3}{p{10cm}}{\footnotesize\textsuperscript{1}Number of ASCII characters}\\
+\multicolumn{3}{p{10cm}}{\footnotesize\textsuperscript{2}This displays the last 11 fault codes as Information messages. For available error codes, refer to the diagnostic error code table at the end of this chapter.}\\
 \end{tbl}
 \newpage
 The following is an example of what appears on the screen when HISTRY
@@ -1029,8 +1029,8 @@ FE	&	Operation aborted by user. \\
 FE	&	xxxx - Unit diagnostics failed. \textsuperscript{1} \\
 FE	&	xxxx - Operation failed. \textsuperscript{2} \\
 \hline
-\multicolumn{2}{p{10cm}}{\textsuperscript{1}For the available error codes, refer to the diagnostic error code table at the end of this chapter.} \\
-\multicolumn{2}{p{10cm}}{\textsuperscript{2}xxxx = one of the following error codes:
+\multicolumn{2}{p{10cm}}{\footnotesize\textsuperscript{1}For the available error codes, refer to the diagnostic error code table at the end of this chapter.} \\
+\multicolumn{2}{p{10cm}}{\footnotesize\textsuperscript{2}xxxx = one of the following error codes:
 \begin{itemize}
 \item	000D : cannot write the RCT
 \item	000E : cannot read the RCT
@@ -1085,7 +1085,7 @@ be displayed when running these local programs.
 					mechanics set. \\
 9801H - A031H	&	Replace the drive module. \\
 \end{tbl}
-\textsuperscript{1}Front panel is broken. Could be either the module or the OCP or both.
+{\footnotesize\textsuperscript{1}Front panel is broken. Could be either the module or the OCP or both.}
 \newpage
 \begin{tbl}{}{l p{7cm}}
 \textbf{Code} & \textbf{Meaning} \\
@@ -1099,13 +1099,13 @@ A03BH - A04FH	&	Replace the drive module. \\
 A100H - BF0SH	&	Firmware bugcheck, replace the drive module or contact
 					Field Service support. \\
 \hline
-\multicolumn{2}{p{10cm}}{\textsuperscript{2}FLT bit of the spindle control status register was asserted for one of the following reasons.
+\multicolumn{2}{p{10cm}}{\footnotesize\textsuperscript{2}FLT bit of the spindle control status register was asserted for one of the following reasons.
 \begin{enumerate}
 \item	Reference clock not present
 \item	Stuck rotor
 \item	Bad connection between HDA and module
 \end{enumerate}}\\
-\multicolumn{2}{p{10cm}}{\textsuperscript{3}Cannot spin up, ACLOW is set in WrtFlt. Did not see ACOK signal which is supplied by the host system power supply for staggered spin-up.}\\
+\multicolumn{2}{p{10cm}}{\footnotesize\textsuperscript{3}Cannot spin up, ACLOW is set in WrtFlt. Did not see ACOK signal which is supplied by the host system power supply for staggered spin-up.}\\
 \end{tbl}
 
 \chapter{The PARAMS Utility}
@@ -1187,7 +1187,7 @@ This sets the node name of the ISE to SUSAN.
 
 This sets the node name of an RF71 with a DSSI node ID of 0 to RF30A.
 
-\begin{tbl}{Summary of SET and SHOW User Parameters}{l l p{6cm}}
+\begin{tbl}{Summary of SET and SHOW User Parameters}{l l p{8cm}}
 \textbf{Parameter} & \textbf{Class} & \textbf{Definition} \\
 \hline
 VOLSERNO	&	DRIVE	&	Shows the volume serial number as a quadword. \\