Storage Technology C.orporation

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SEPARATOR SET Pt>V8:3464:'

THls..Sf.PARATOR:. SEt ,COtfr-AINS 19·

TABS TOTAL .IN THE)'oi,iQW1NG<

_.ORDER:

MAINTENANCg,·MANUAL. _. _{. .} . ... ;j.-

1. I N rR:Op~~TloN .

:'L ·!-N"STAlLAitON- .

4~ ·STGR,A:~E.r£~::~J~J~"CE~·, 5.: JNDUST~¥.;·I!'lTe:~~:~CE,

6.:~SCSf: INTERFACE

7~ ·YS .H'i~iRFACE'

a~ F UNC ·TloNAi....Pes'6R::~r'fON

9.:MAINJENANCE ~.

1 Q-~. RE MO VAL1REP~~C'tMbn'

.1 1._ D I AGNOST I Cs APPENDICES IPC

PN COMPATIBILITY MMlL

21/22/25 STD & 25 IND SiD'FCD 21/22 IND STD FCD

2925 SCSI FCD

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Storage Technology C.orporation

2920:

Tape

S~Q~x~t~m

_.~. _.

Maintenance. M.anual

'" • ..;~ . . . . : ~ :;-"'. "'~ . 'I. ~'~ • • '

~ ;t "

. PN 95521 JANUAR'l,·:1986

(3)

Ihformation contained in this publication is subject to change. In the event of changes, the publication will be revised. Comments concerning the contents of this manual should be directed· to Technical Publications at -the address below.

This publication was prepared by Storage Technology CorporatioQ, Technical Publications, 2270 South 88th Street, . Louisville, Colorado 80028-2286.

Copyright ^@ 1987 by

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LIST OF EFFECTIVE PAGES

Manual PN 95521

Issue Date: AUGUST 1983 EC 49546 Reissue Date:

Change Date: APRIL 1988 CHANGE 5 EC 26275 KIT PN 88219 Incorporates EC: 26275

Total number of pages in this document is 410. consisting of the fo 110wi ng pages:

PAGE

Ti t le

i i i i i

iv thru xxi i

~ - 1

1 - 11 thru 1-12 2-1 thru 2-24 3-1 thru 3-32 4-1 thru 4-48 5-1 thru 5-28 6-1 thru 6-74 7-1 thru 7-30 8-1 thru 8-20 9-1 thru 9-12 10-1 thru 10-2 10-3

10-4 thru 10-28

11 - 1 thru 11-7

11-8 thru 11- 18 11 - 19 and 11 - 20 A-l thru A-2 B-1 thru B-8 C-l thru C-6 D-1 thru 0-6 E-1 thru E-6 F - 1 thru F-10 G-l thru G-2

Index 1 thru 10

Reader's Comment Form Business Reply Mailer

EC NO.

26026 26275 26026 26026

23585 26026 26026 26026 26275 26026 26026 26026A 26026A

23585

KIT PN

DISPOSITION

88063

88219 Replace

88063 88063

83440 88063 88063 88063

88219 Replace

88063 88063 88171 88171

83440

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(INTENTIONALLY LEFT BLANK)

(6)

TABLE OF CONTENTS CONT

Title Gravity Mount

Manual Thread/Load--Vertical or Center of Gravity Mount

Midtape Load, EDT Area.

Rewind . . . . . Unload

Operator Maintenance . .

Read/Write Head and Tape Cleaner Block EDT/BOT and Leader Sensors

Tape Guides, Rollers, and Swing Arms Capstan

F i 1 e Ree 1 Hub

Tape Motion Characteristics Start/Stop Mode

Streaming Mode InterblocK Gap (IBG) Reposition Timing Reinstruct Times Speed Change Turnaround Duty Cycle Cache Buffer

Buffered Mode Operation Long-Record Mode Operation Cache-Specific Commands Early EDT

Maximum BlocK Size CHAPTER 3 INSTALLATION

3. 1

3.2 3.3 3.5 3.4 3.6 3.7 3.8 3.9 3. 10

Introduct ion Inspection

Power Connection Preliminary ChecKout

Vertical Cabinet Mounting . . . . Center of Gravity (Horizontal) Cabinet

Mount

StorageteK Standard Interface Cabling Industry Standard Interface Cabling Address Selection

Reshipping

CHAPTER 4 STORAGE TECHNOLOGY STANDARD INTERFACE

4. 1 Introduction

Page 2-10 2-10 2-11 2-11 2-11 2 -11 2-13 2-13 2-13 2-13 2-15 2-15 2-15 2-16 2-17 2-19 2-19 2-20 2-21 2-21 2-22 2-22 2-23 2-23 2-24 2-24

3-1 3 - 1

3-2 3-4 3-6 3-10 3-10 3-12 3-12 3-12

4-1

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Paragraph 4.2

4.2.1 4.2.2 4.2.3 4.2.4 4.2.5 4.2.6 4.2.7 4.2.8 4.2.9 4.3 4.3. 1

4.3.2 4.3.3 4.3.4 4.3.5 4.3.6 4.3.7 4.3.8 4.3.9 4.3. 10 4.3. 11

4.3.12 4.3.13 4.3.14 4.3.15 4.3.15.1 4.3. 15-.2 4.3.15.3 4.3.15.4 4.3.16 4.3.17 4.3.18 4.3.19 4.3.20 4.3.21 4.3.22 4.3.23 4.3.24 4.3.25 4.4 4.4, 1 4.4 .. 1 . 1 4.4.1.2 4.4. 1 .3 4.4.1.4 4.4.1.5

TABLE OF CONTENTS CONT

Ti t le Input Line Definitions .

MTS Address (ADO, AD1) .

Initiate Command (START) .

Command Select (CMDO, CMD1, CMD2, CMD3) Density Select (DSO, 051) . . . . Transfer AcKnowledge (TRAK) . . Terminate Command (STOP) . S ^ystem R e se t (R ESE T ) . . .

t:":' , __ ~ U •• 1 • ~ .... 1 e ^v Î^c:Îy n ^c:Î^{'f 1} c:: I 'i ') \

,;:)~I~l,;l IYlUI'-ltJ1 '" \~ .... "v, ..., .... "1, v~,,_,

Bi-Directional Data (DATA 0-7,P) Output Line Definitions

Transfer Request (TREQ) Expecting Data (RECV) Block Sensed (BLOCK) Oscillator (OSC)

End of Data Pulse (ENDATP) Busy (BUSY)

Identification Burst (10 BRST) Tape Mark Status (TMS)

Command REJECT (REJECT)

Operation Incomplete (oP INC) Overrun Status (oVRNS)

EPROM Error (ROMPS)

Slave Status Change (SSC) Data Check (DATA CHK)

Error Multiplex (ERRMX 0-7,P) Mux Byte 0

Mux Byte 1

Mux Byte 2 MUX Byte 3

Corrected Error (CRERR)

Data Bus Parity Error (BUPER) Online Status (ONLS)

Ready Status (RDYS)

Beginning of Tape Status (BaTS) End of Tape Status (EOTS)

File Protect Status (FPTS) . Write Status (WRTS)

High Density Status (HDNS) Rewinding Status (REWS)

Functional Mode Command Descriptions General Information

Command Initiation REJECT Conditions Operation Completed Ending Status Validity End of Tape Status (EOTS)

Page 4-1 4-5 4-1 4-5 4-6 4-6 4-7 4-7 4-7 4-8 4-8 4-8 4-8 4-9 4-9 4-9 4-9 4-9 4-10 4-10 4:-10 4-10 4-11 4-11 4 - 11 4-11 4-11 4-11 4-14 4-i4 4-14 4-14 4-17 4-17 4-17 4-17 4-17 4-17 4-17 4-18 4-18 4-18 4-18 4-18 4-19 4-19 4-20

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Paragraph 4.4.1 .6 4.4.1 .7 4.4.2 4.4.3 4.4.4 4.4.4.1 4.4.4.2 4.4.4.3 4.4.4.4 4.4.4.5 4.4.4.6 4.4.4.7 4.4.4.7.1 4.4.4.7.2 4.4.5 4.4.5.1 4.4.5.2 4.4.5.3 4.4.6 4.4.6.1 4.4.6.2 4.4.7 4.4.7.1 4.4.7.2 4.4.8 4.4.9 4.4.9.1 4.4.10 4.4.10.1 4.4.10.2 4.4.10.3 4.4. 11 4.4.11.1 4.4.12 4.4.12.1 4.4.12.2 4.4.12.3

TABLE OF CONTENTS C-ONT

Title

Commands with MTS in Write Status Improper Command Sequences

No Operation (NaP) Command (0000) Drive Clear (CLR) Command (0001)

Diagnostic Mode Set (OMS) Command (0010) . OMS/Nap (Status Lines Test Command) DMS/WRT (SLX 2,1,0 = 000) (Write In

Place Command) . .

DMS/WRT (SLX 2,1,0 = 001) (Write No Mo t ion Corrmand)

DMS/RDF (SLX 2,1,0 = 000) (Read No Mo t i on Command)

DMS/WRT (SLX 2,1,0 = 111) (Functional Speed/Gap Select)

DMS/FSF (SLX 2,1,0,= 000) (Perform Loaded Diagnostics)

DM5lF S8 (SLX 2, 1 ^j0= 000) (Per form All Diagnostics)

"DSB5 and DSB6 Description

OSB8 Through DSB55 Description Read Forward a BlocK (ROF) -Command

(0100)

Signal Sequence ROF/BOT

ROF/Tape MarK BlocKs

Read BacKward a Block (ROB) Command

( a

^{101 )}

ROB/BOT

ROB/Tape MarK BlocKs

Write a Data Block (WRT) Command (0110) Signal Sequence

WRT/BOT

Loop Write-to-Read (LWR) Command (0111) BacKspace a File (BSF) Command (1000)

BSF/BOT .

BacKspace a BlocK (BSB) Command (1001) Signal Sequence

BSB/BOT . . . . BSB/Tape MarK

Forward Space a File (FSF) Command ( 1010)

FSF/BOT

Forward Space a BlocK (FSB) Command ( 1 0 11 )

Signal Sequence FSB/BOT . . . . FSB/Tape Mark

Page 4-20 4-20 4-20 4-20 4-21 4-21 4-24 4-24 4-24 4-25 4-25 4-25 4-26 4-26 4-26 4-27 4-28 4-29 4-29 4-29 4-29 4-30 4-30 4-31 4-32 4-32 4-32 4-32 4-33 4-33 4-33 4-33 4-33 4-34 4-34 4-34 4-34

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TABLE OF CONTENTS CONT

Paragraph Ti t le

4.4.13 Wr i te Tape MarK (WTM) Coornand ^{( 1100)}

4.4.13.1 WTM/BOT

4.4.14 Erase Gap (ERG) Corrmand (1101)

4.4.14.1 ERG/BOT

. · ·

4.4.15 Rewind (REW) Comnand (1110)

· ·

4.4.15.1 REW/BOT

. _· .

4.4.16 Rewind and Unload (RUN) Corrmand ( 1 1 1 1 )

A A 1 ~ 1 RUN/BOT

. .

-r • • • I"" ••

4.4.17 Sense Drive Status i ,.. ... ,.. \

COffiliand

'''''ii\

\ ~I~~ I \ UU I 1/

4.4.17.1 Signal Sequence

·

4.4.17.2 Sense Bytes Description CHAPTER 5 INDUSTRY STANDARD INTERFACE 5. 1

5.2 5.2. 1

5.2.2 5.2.3 5.2.4 5.2.5 5.2.6 5.2.7 5.2.8 5.2.9 5.2.10 5.3 5.3.1 5.3.2 5.3.3 5.3.4 5.3.5 5.3.6 5.3.7 5.3.8 5.3.9 5.3.10 5.3. 11 5.3.12 5.3.13 5.3.14 5.3.15 5.3.15.1

Introduction

Input Line Definitions

MTS Address (FFAD, FTADO, FTAD1) Initiate Command (FGO) . Rewind To BOT (FREW)

Command Offline (FOFL) Formatter Enable (FFEN) Last Word (FLWO)

Write Data Lines (FWDO-7,p) .

High Speed Select (FHISP) (2922 devices on 1 y) .

Long Gap Select (FLGAP) (2922 devices

only) .

Command Select Lines (CMDO, 1, 2, 3, and

4) •

Output Signal Definitions Formatter Busy (FFBY) Data Busy (FOBY) .

Identification Burst (FLO) . Hard Error (FHER)

File MarK Detected (FFMK) Corrected Error (FCER) Ready (FRDY) .

On 1 i ne . ( FaN L ) Rewind (FRWD)

End Of Tape (FEaT) File Protect (FFPT)

Load Point (FLOP) .

High Speed Streaming (FHSPD) . . High Density Status (GCR) . . Demand Write Data Strobe (FDWDS)

FDWDS Timing, 50 IPS Operations

Page 4-34 4-34 4-35 4-35 4-35 4-35 4-35 4-36

4~36

4-36 4-36

5-1 5-1 5-6 5-7 5-7 5-7 5-8 5-8 5-8 5-8 5-8 5-8 5-10 5-10 5-10 5-10 5 -11 5 - 11 5-11 5-11 5-11 5-11 5-12 5-12 5-12 5-12 5-12 5-12 5-12

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Paragraph 5.3.15.2 5.3.16 5.3.16.1 5.3.16.2 5.3.17 5.4 5.4.1 5.4.2 5.4.3 5.4.4 5.4.5 5.4.6 5.4.7 5.4.8 5.4.9 5.4.10 5.4. 11 5.4.12 5.4. 13 5.4.14 5.4.15 5.5 5.5. 1 5.5.2 5.5.3 5.5.4 5.5.4.1 5.5.4.2 5.5.5 5.5.6 5.5.7 5.6 5.6. 1

5.6. 1 . 1 5.6.1.2 5.6.2 5.6.3

5~6.4

5,6.5 5.6.6 5.7

TABLE OF CONTENTS CONT

Ti t le

FDWDS Timing, 100 IPS Operations Read Data Strobe (FRSTR)

FRSTR Timing, 50 IPS Operation FRSTR Timing, 100 IPS Operation

Read Data Lines 0-7,p (FRDO-7, p) . Command Lines Decodes - Functional Commands

Description . . . .

Read Forward Command (00000) Read Reverse Command (01000) . Write Command (00100) .

Write File Mark Command (00110) Write Extended Command (01110) Fixed Erase Command (00111)

Controlled Erase Command (00101) Data Security Erase Command (10111) Space Forward Command (00001)

Space Reverse Comnand (01001)

File Search Forward Command (Ignore Data) (00011) .

File Search Reverse Command (Ignore Data) (01011)

Select PE Command (10011) Select GCR Command (11011) Read Sense Command (11001)

Detailed Functional Sense Bytes Description Sense Byte

a

(Faults, Mode And Not

Ready)

Sense Byte 1 (Last Command Issued) Sense Byte 2 (Tape Status)

Sense Bytes 3 And 4 (Hard Errors) Sense Byte 3

Sense Byte 4

Sense Byte 5 (Reject Status)

Sense Byte 6 (Corrected Error And Dead TracK P)

Sense Byte 7 (Dead Track register)

Command Lines Decodes - Diagnostic Commands Description

Invoke Diagnostics (01100)

Run Diagnostic Package (Byte 1

=

01) Run Loaded Diagnostics (Byte 1

=

02) Loop Write to Read (01111)

Initiate Status Sequencer (10000) Command to Status Wrap (10001) Data Loopback (1111)

Read Extended Sense (11101)

Detailed Diagnostic Sense Bytes Description

Page 5-13 5-13 5-14 5-14 5-14 5-15 5-15 5-15 5-15 5-16 5-16 5-16 5-17 5-17 5-17 5-17 5-17 5-18 5-18 5-18 5-18 5-18 5-19 5-19 5-19 5-19 5-19 5-20 5-20 5-20 5-21 5-21 5-21 5-21 5-24 5-24 5-24 5-25 5-26 5-26 5-27

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Paragraph 5.7. 1

5.7.2 5.7.3

TABLE OF CONTENTS CONT

Tit le

OSSO and ^DSB1 Description DSB2 and DSB3 Description"

0588 Through 05855 Description . . CHAPTER 6 SMALL COMPUTER SYSTEMS INTERFACE

6. 1 6 . 1 • 1 6 . 1 . 1 . 1 6. 1 • 1 .2 6.1 .2 6.1 .3 6.1 .4 6. 1 .5 6.1 .6 6. 1 .7 6.1 .8 6.2 6.3 6.3.1 6.3.2

6~3.3

6.3.4 6.3.5 6.3.5.1 6.3.5.2 6.3.6

~ ~ 7

Vo 'tJ_ I

6.3.7.1 6.3.7.2 6.3.8 6.3.9 6.3.9.1 6.3.9.2 6.3.10 6.4 6.4. 1 6.4.2 6.4.3 6.5 6.5.1 . 6.5.2 6.5.3 6.5.4 6.5.5 6.5.6

Physical and Electrical Descriptions Interface Circuits . .

Single-Ended Alternative Differential Alternative Interface Cables .

SCSI Interface Connector Interface Termination Terminator Power

Differential Sense SCSI Device Address

Switch-Selectable Options SCSI Bus Signals

SCSI Sus Phases Bus Free Phase Arbitration Phase Selection Phase

Reselection Phase •

Information Transfer Phases . . Asynchronous Information Transfer Synchronous Data Transfer .

Comnand Phase Data Phase

Data In Phase Data Out Phase Status Phase . Message Phase

Message In Phase Message Out Phase SCSI Bus Phase Sequences SCSI Bus Conditions . .

Attention Condition Reset Condition . . Unit Attention Condition SCSI Message System . .

Command Complete (OOH) Extended Message (01H) Save Data Pointer (02H) Restore ~ointers (03H)

Disconnect (04H) .

Initiator Detected Error (05H)

Page 5-27 5-27 5-27

6-1 6-1 6-1 6-1 6-1 6-3 6-4 ,.. ,..

0-0

6-6 6-6 6-6 6-7 6-8 6-8 6-8 6-8 6-9 6-9 6-10 6-10 6-10 6-10 6-10 6-10 6-10 6-11 6-11 6-11 6-11 6-14 6-14 6-14 6-14 6-15 6-16 6-16 6-16 6-17 6-17 6-17

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Paragraph 6.5.7 6.5.8 6.5.9 6.5.10 6.5.11 6.5.12 6.5.13 6.5.14 6.5.15 6.6 6.6.1 6.6.2 6.6.3 6.6.4 6.7 6.7. 1

6.7.2 6:1.3 6.7.4 6.7.5 6.8 6.8.1 6".8.2 6.8.3 6"8.4 6.8.5 6.8.6 6.8.7 6.8.8 6.8.9 6.8.10 6.8. 11

6.8.12 6.8.13 6.8.14 6.8.15 6.8.16 6.8.17 6.8.18 6.8.19 6.8.20 6.8.21 6.8.21.1 6.8.21.2 6.8.22 6.8.23

TABLE OF CONTENTS CONT

Title Abort (06H)

Message Reject (07H) No Operation (08H)

Message Parity Error (09H) Linked Command Complete (OAH)

Linked Command Camp 1 ete Wi th Flag (OBH) _ . Bus Device Reset (OCH)

Identify (80H to FFH) Extended Messages SCSI Bus Error Recovery

Message Out Parity Error Message In Parity Error

Information In Parity Error Information Out Parity Error SCSI Status

Good (OOH)

Check Condition (02H) Busy (D8H)

Intermediate (lOH)

Reservation Conflict (18H) SCSI COfTlllands

Test Unit Ready Command (OOH) Rewind Command (OlH)

Request Sense Command (03H) Read BlocK Limits Command (05H) Read Command (08H)

Write Command (OAH)

Read Reverse Command (OFH) Write Fi lemarKs Command (10H) Space Command (11H)

Inquiry Command (12H) Verify Command (13H)

Recover Buffered Data Command (14H) Mode Select Command (15H)

Reserve Unit Command (16H) Release Unit Command (17H) Copy Command (18H)

Erase Command (19H) . Mode Sense Command (lAH) Load/Unload Command (lBH)

Receive Diagnostic Results Command (lCH) Send Diagnostic Command (lDH)

Se1f-Test Bit (1) Commands Self-Test Bit (0) Commands Write Buffer Command (3BH) Read Buffer Command (3CH)

Page 6-17 6-17 6-18 6-18 6-18 6-18 6-19 6-19 6-19 6-19 6-20 6-20 6-20 6-21 6-21 6-21 6-21 6-21 6-22 6-22 6-22 6-22 6-25 6-26 6-40 6-42 6-45 6-4£

6-49 6-50 6-52 6-54 6-55 6-57 6-60 6-62 6-63 6-64 6-65 6-68 6-69 6-70 6-70 6-71 6-72 6-73

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TABLE OF CONTENTS CONT

Paragraph Title

CHAPTER 7 VS SIGNAL REQUIREMENTS

7 . 1 7.3 7.2 7.4 7.5

7 c::

I • V

7 .6.1 7.6.2 7.6.3 7.6.4 7.6.5 7.6.6 7.6.7 7.7 7 . 7 . 1 7.7.2 7.7.3 7.7.4 7.7.5 7.7.6 7.7.7 7.7.8 7.7.9 7 . 7 .10 7 . 7 . 11 7 . 7.12 7.7.13 7 .7.14 7 .7.15 7.7.16 7.8 7 . 8.1 7 . 8. 1 • 1 7 .8.1 .2 7.8.1 .3 7.8.1.3.1 7.8.1.3.2 7.8.2 7.8.3 7 .8.3.1 7.8.3.2 7.8.3.3

Interface Circuits Interface levels . Interface Connectors Interface Cables Signal Lines

VS Interface Input Signal Definitions.

MTS Address (FTADO, FTADl and FFAO) Go, Initiate a Command (FGO)

Command Lines (Command 0-4) Rewind and Offline (FREW, FOFL) Formatter Enable (FFEN)

Last Word (FLWD)

Write Data lines 0-7, P (FWDO-7, FWDP) VS Interface Output Signal Definitions

Formatter Busy (FFBY) Data Busy (FDBY)

Identification Burst (FLO) Hard Error (FHER)

File Mark Detected (FFMK) Corrected Error (FCER) MTS Ready (FRDY)

MTS Online (FONL) MTS Rewind (FRWD) End of Tape (FEOT) File Protect (FFPT) Load Point (FLOP)

High Speed Streaming (FHSPD) Demand Write Data Strobe (FDWDS) Read Data Strobe (FRSTR)

Read Data Lines 0-7, P (FRDO-7, FRDP) Functional Mode Command Descriptions

Read Forward Command Non-Cached Operation

. Cached Operation (Multiple Buffered Records)

Read Forward/Tape Mark Blocks Non-Cached Operation

Cached Operation (Multiple Buffered Records)

Read Reverse Command Write COrmland

Non-Cached Operation

Cached Operation (Multiple Buffered Records)

WRT/Early EOT (Buffered Mode)

Page

7-1 7-1 7-1 7-1 7-2 7-3 7-3 7-8 7-8 7-9 7-10 7-10 7-10 7-10 7-10 7-10 7-11 7-11 7-11 7 - 11 7-12 7-12 7-12 7-12 7-12 7-12 7-12 7-13 7-13 7-13 7-15 7-15 7-15 7-17 7-17 7-18 7-18 7-18

·7-18 7-18 7-19 7-19

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TABLE OF CONTENTS CONT

Paragraph Ti t le

7.8.4 Write Tape MarK Command 7.8.5 Write Extended Command

7.8.6 Fixed Erase/Erase Gap Coomand 7.8.7 Controlled Erase Command

7.8.8 Security Erase Command

. .

7.8.9 Space Forward Command 7 .8.10 Space Reverse Command

7 . 8. 11 File Mark Search Forward Command (Ignore Data)

.

7.8.12 File Mark Search Reverse Conmand (Ignore Data)

7 .8.13 Select PE Density Command 7 .8.14 Select GCR Density Command 7 . 8.15 Rewind Command

7 .8.16 Offline Command 7.9 Sense Comnands

7 .9.1 Sense Data, 8 Bytes 7.9.2 Read Controller Sense CHAPTER 8 FUNCTIONAL DESCRIPTION

8. 1

8.2 8.3 804 8.5 8.6 8.6.1 8.6.2 8.7 8.8

Introduction . . . .

Interface/Microprocessor (IF Card) Write Data Path (DP Card)

Write Drivers (WR Card) . Read (RD Card) . . . Read Data Path (DP Card)

PE Opera t ion . . . . . GCR Opera t ion . . . . Servo System (SV Card) Power System . . . . . CHAPTER 9 MAINTENANCE

9. 1 9.2 9.3 9.4 9.4.1 9.4.2 9.5 9.6 9.7

Introduction . . . . Quarterly Preventive Maintenance Checklist Quarterly Power Supply Check . . . . Tape Tracking and Skew Adjustment after

par ts rep 1 acement . . . . Capstan Alignment (Tape Tracking) . . Head Skew Adjustment . . . . Quarterly Tape Skew. Checks . . . . Bit Position Check After Part Replacement Quar ter 1 y Read Amp 1 i tude Checks . . . . .

.

Page 7-20 7-20 7-21 7-21 7-21 7-21 7-21 7-21 7-22 7-22 7-22 7-22 7-22 7-22 7-22 7-27

8-1 8-1 8-4 8-6 . - 8-9 8-6 8-9 8-11 8-12 8-12

9-1 9-1 9-2 9-2 9-3 9-5 9-9 9-10 9 - 11

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TABLE OF CONTENTS CONT

Paragraph Title

CHAPTER 1

a

REMOVAL AND REPLACEMENT 10. 1

10. 1 . 1 10. 1 .2 10.2 10.2. 1 10.2=2 10.2.3 10.2.4 10.2.5 10.3 10.3. 1 10.3.2 10.3.3 10.3.4 10.3.5 10.4 10.4. ^·1 10.4.2 10.4.3 10.4.4 10.4.5 10.5 10.5. 1 10.5.2 10.5.3 10.5.4 10.5.5 10.6 10.6. 1 10.6.2 10.6.3 10.6.4 10.7 10.7.1 10.7.2 10.7.3 10.7.4

Introduct ion Fuses

Torx Screws

Tape P a t h . . . EDT/BOT Sensor Replacement Leader Sensor Replacement . . Tape Cleaner BlocK Replacement File Protect Sensor Replacement Read/Write Head Replacement Swing Arm Assemblies

Lower Swing Arm Assembly Replacement Lower Swing Arm Tach Assembly

Replacement

Upper Swing Arm Assembly Replacement Upper Swing Arm Tach Assembly

Replacement

Retractor Assembly Replacement Capstan, Reels, and Blower

Capstan Motor Replacement

F i 1 e Ree 1 Hub Rep 1 acement ..

File Reel Motor Replacement Machine Reel Motor Replacement Vacuum Blower Replacement

Circuit Cards

Card Cage Circuit Cards Replacement Front Operator Panel Replacement AK Card Replacement

PK Card Replacement Motherboard Replacement Power Supply and Fans

Regulator Assembly Replacement Transformer Replacement

Main Circuit Breaker Replacement Cooling Fan Replacement

Cable Harness Replacement Cable Harness, Power Cable Harness, AC Cable Harness, Motor Cable Harness, Sensor

CHAPTER 11 DIAGNOSTIC/MAINTENANCE PROGRAMS

1 1 , 1 1 1 . 1 . 1

Introduction . . . .

Test Initiation . . . .

Page

10- 1 10-1 10-1 10-3 10-3 10-4 10-4 10-4 10-5 10-7 10-7

;0-;0 10-11 10-13 10-15 10-17 10-18 10-19 10-19 10-20 10-21 10-21 10-21 10-22 10-22 10-23 10-23 10-24 10-24 10-25 10-25 10-26 10-26 10-26 10-27 10-27 10-27

11-1

11- 1

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Paragraph

1

r.

1 .2 1 1 .2

11 .2. 1 11 .2.2 11.2.3 11.2.4 11 .2.5 11.2.6 11 .2. 7

11 .2.8 11 .2.9

11.2.10 11.2.11 11.2.12 11.2.13 11.2.14 11.2.15 11 . 3 1 1 . 3. 1 11.3.1.1 11.3.1.2 11 .3. 1 . 3

11.3.1.3.1 11.3.1.3.2 11.3.1.4 11.3.1.4.1 11.3.1.4.2 11.3.1.5 11.3.1.6 11.3.1.7 11.3.1.8 11.3.1.9 11.3.1.10 11.3.1.11 11 .3.2 11.3.2.1 11.3.2.2 11.3.2.3 11.3.2.4 11.3.2.5 11.3.2.6

TABLE OF CONTENTS CONT

Title Status Buffers

Section 0 - Maintenance Routines Forward Motion (00)

Backward Motion ⁽⁰¹⁾ Shoeshine Motion (02) . Start/Stop Motion (03) .

Speed Select Option ⁽⁰⁴⁾ Continue Option (05)

Loop Option (06)

Bypass Error Option (07)

Keyboard/LED Driver (08)

Reel/Capstan Driver (09) Status A Display (OA) Status B Display (DB) Status C Display (DC) Maintenance Write (OE) Maintenance Write (OF)

InternalDiagno~tic5

Section 1 - Power-Up Tests Test Package Initiator (10) Memory/PROM Checksum ⁽¹²⁾

IF Test 1- (13) .,

Routine 13- for StorageTek Interface Card

Routine 13 for Industry Standard Interface Card

1FT es t 2 (14)

Routine ¹⁴ for StorageTek Interface Card

Routine 14 for Industry Standard Interface Card

Keyboard Status (15)

Cache/IF Card Communications ⁽¹⁶⁾ Cache Card Internal Test (17)

Servo-LSI Register Loop (18)

Data Path Status (1B) Write Card Status (10)

Release/Retract Swing Arms (1F)

Section 2 - Formatter Tests

PE Basic Loop Write-to-Read, 50 IPS (22 )

PE LWR Velocity ⁽²³⁾

GCR Basic Loop Write-to-Read, 50 IPS

(24 )

GCR LWR Velocity (25)

PE LWR, One Track Dead (26)

GCR LWR, One Track Dead (27)

Page

11-2 11-2 11-2 11-2 11-3 11-3 11 -4

11-4 11-4 11-5 11 - 5 11 -5

11 -6

11 -6 11-6 11 -6 11 -7

11 -7 11 -7

11-9 11 -9 11 -9

11 -9 1 1 - 10 11 - 10 11 - 10 11- 10 11 - 10 11 - 10 11-1 1 1 1 - 11 11 - 11 11 - 11 11- 12 11 - 12 11 - 12 11 - 13 11 - 13 11 - 13 1 1 - 14 1 1 - 14

(18)

Paragraph il.3.2.7 11.3.2.8 11.3.2.9 11.3.2.10 11 .3.3 11.3.3.1 11.3.3.2 11.3.3.3

1 1 ~ ~ l1.

I I .. " " . " " . T

11 .3.4 11 .3.4. 1

11.3.4.2 11.3.4.3 11.3.4.4 11.3.4.5 11.3.4.6 11.3.4.7 11.3.4.8 11.3.4.9 11.3.4.10 11 .3 . 5 11.3.5.1 11.3.5.2

11 .4

TABLE OF CONTENTS CONT

Title

PE LWR, Two TracKs Dead (28) GCR, LWR, Two Tracks Dead (29) PE Basic LWR, 100 IPS (2C) . . GCR Basic LWR, 100 IPS (2E) . . Section 3 - Transport Tests

Unload/Load (32) . . . ⁰ ^{• • •}

Dr i ve Bas i c Mo t i on, 5

a

IPS ( 34 ) . . . . Drive Basic Motion, 100 IPS (35)

Drive Rewind (36) . . . . Section 4 (50 IPS) and Section 5 (100

IPS) - R/W Tests . . . . PE Amplitude Sensor (42=50 IPS,

52=100 IPS) . . . . GCR Amplitude Sensor (43=50 IPS,

53=100 IPS) . . . . PE Write Records (48=50 IPS, 58=100 IPS) . . . . PE Read Forward (49=50 IPS, 59=100

IPS) . . . . PE Read Backward (4A=50 IPS, 5A=100

IPS) . ... . . . PE Pos·;tioning (4B=50 IPS, 5B=100

IPS) . . . . GCR Write Records (4C=50 IPS, 5B=100

IPS) . . . . GCR Read Forward (40=50 IPS, 50=100

IPS) . . . . GCR Read Backward (4E=50 IPS, 5E=100

IPS) . . . . GCR Positioning (4F=50 IPS, 5F=100

IPS) . . . . Section 6 - Cache Buffer Tests . . . .

Cache Buffer Extended Memory Test

(62) . . ... . . . . . . . Early EDT Test (64) .

External Diagnostics . . . .

APPENDIX A SPECIAL TEST EQUIPMENT, TOOLS, AND SUPPLIES

APPENDIX 8 DATA FORMATS

Page

11 - 15 11 - 15

11-15 11-15

11 -16 11 - 16

<f <f _ of t!' 1 1 - 10

11 - 16

11 - 17 11 - 17 11 - 1 7 11 -17 11 - 18

11 -18

11 - 18 11 - 18

11 - 18

1 1 - 19

11 - 19

11 - 19 1 1 - 19 11 - 19

APPENDIX C MEMORY ALLOCATION, STK

sro

INTERFACE - 2921

(19)

TABLE OF CONTENTS CONT

Paragraph Title Page

APPENDIX D MEMORY ALLOCATION, STK STD INTERFACE - 2922

APPENDIX E MEMORY ALLOCATION, INDUSTRY STD ITF - 292X

APPENDIX F MEMORY ALLOCATION STK STD INTERFACE 2925

APPENDIX G 2920-3910 EXTERNAL DIAGNOSTIC ROUTINES

INDEX

(20)

Figure

1 - 1

1-2 1-3 1-4 1-5 1-6 2-1 2-2 2-3 2-4 2-5 2-6 3-1 3-2 3-3 3-4 3-5 3-6 3-7 3-8 3-9 3-10 4-1 4-2 4-3 4-4 4-5 5-1

5-2

5-3 6-1 6-2 6-3 6-4 6-5

LIST OF ILLUSTRATIONS

Ti t le

Model 292X MTS Front View (Vertical Mount) Model 292X MTS Front View tCenter of Gravity

Mount) . . . . Model 292X MTS Rear View (Vertical Mount) . . . . Model 292X MTS Rear View (Center of Gravity

Mount) . . . . Model 292X MTS STORAGETEK Standard Card Cage

Model 292X MTS Industry Standard Card Cage Opera tor Pane 1, Ver t i ca 1 Mount . . . .

Operator Panel, Center of Gravity Mount . . . . . Tape Thread Path . . . .

Tape Path Components--Tape Not Loaded . . Start/Stop Mode Velocity Profile

Capstan Velocity ^Profile

Cables and Connectors . . . .

Interface Card Address, . . . . IF Card Terminator and Address Switch Locations.

Vertical Mounting Installation

Vertical Mounting Dimension$ . . . ,.

Sugges ted L i f t i ng Methods . . . ". . .

Center of Gravi ty Mount ing Dimensions . . . . Storagetek Standard Interface Cabling . . . . Storagetek Standard Interface Cable

Configuration . . . .

Industry Standard Interface Cabl ing . . . . MTS-User Interface Circuits . . . . Command Initiation, Operation, and Completion RDF or ROB Command TREQ, TRAK, and DATA Timing Write Commands Initiating TREQ/TRAK/DATA Timing

(Applies to First Byte of Data) . . . . WRT Command TREQ, TRAK and DATA Timing (Applies

to A 11 Subsequent Bytes of Da ta) . . . . . Standard Industry Interface Circuits .

Interface Timing For 50 IPS Start Stop, Case . . . . Interface Timing For 100 IPS Streaming,

Case . . . . 2925 MTS SCSI Bus Cabl ing . . . . Termination for Single-Ended Devices

Worst Worst

Termination for Differential Devices . . . . Phase Sequences without Arbitration . . . .

Phase Sequences with Arbitration

Page 1-2 1-3 1-4 1-5 1-9 1 - 10 2-2 2-3 2-12 2-14 2-16 2-18 3-3 3-6 3-7 3-11 3-12 3-13 3-16 3-17 3-19 3-22 4-2 4-19 4-28 4-31 4-31 5-.2' 5-13 5-14 6-2 6-5 6-12 6-6 6-13

(21)

Figure

7 - 1 7-2 7-3 7-4 7-5 8-1 8-2 8-3 8-4 8-5 8-6 8-7 8-8 8-9 8-10 8 - 11

9-1 9-2 9-3 9-4 10- 1 10-2 10-3 10-4 B-1 B-2 B-3

LIST OF ILLUSTRATIONS CONT

Title Interface Circuits . . . . Standard Interface Cabling MTS Interface Cabling.

Write Timing . . . Read Timing . . . .

MTS Block Diagram . . . . Interface/Microprocessor Block Diagram (IF

Card) . . . . . . . .

W r i t ePa t h Block D i ag ram (D P Car d ) . . . . Write Driver Block Diagram (WR Card) . . . . Read Block Diagram (RD Card)

Read Path Block Diagram (DP Card) . . . . Capstan Servo System Block Diagram . . . . Reel Servo System Block Diagram . . . . CB Card Block Diagram . . . .

CP Card Block Diagram . . . . Power System Block Diagram . . . . S ta tic and Dynami c Skew and Tu"rnaround Jump Capstan and Read/Write Head Alignment . . +Dif Analog Test Points . . . .

Bit Position Check . . . . 2920 MTS Deck (Front) . .

Read/Wr i te Head . . . . . Swing Arm Assemblies

Retractor Assembly PE Tape Format

GCR Tape Format . . . . GCR Data Block Format (Sheet 1 of 3).

Page 7-2 7-5 7-6 7-14 7-14 8-2 8-3 8-5 8-7 8-8 8-10 8-13 8-14 8-16 8-17 8-t8 9-3 9-4 9-7 9 -11 10-2 10-6 10-8 10-16 B-2 B-4

B-5

(22)

Table

1 - 1

1-2 1-3 2-1 2-2 2-4 2-3

')-~

" oJ

3-1 4-1 4-2 . 4-4 4-3 4-5 4-6 4-7 4-8 4-9 4-10

4- 11

4-12 4-13 4-14 4-15 4-16 5-1 5-2 5-3 5-4 5-5 5-6 5-7 5-8 5-9 5-10 5 - 11

5-12 6 - 1 .

6-2 6-3 6-4

LIST OF TABLES

Title

Performance Specifications . . . . Nominal Access Time From Stop (milliseconds) Power Requirements . . . . Generated InterblocK Gap Lengths (Inches) Selectable InterblocK Gaps

Reposition Times (Milliseconds) .

Nominal Reinstruct Times (Maximum Gap) Nominal Reinstruct Times (Minimum Gap) PK Board Wiring for Input Power . . . STK St~ndard Interface Output Lines . . STK Standard Interface Input Lines

MTS Address Line Decode . . . Command Select Decode . . . . Density Select Line Decode . Select Multiplex Decode . . .

Error Conditions Setting DATA CHK . . . . Error Multiplex Bus Decode for Functional Mode S tat us Line s Ass e r ted wit h . W T M C H K .. . . . REJECT Codes (Sheet ¹of 2) . . . . Status Line Assertion For DMS/NOP Command Sheet

1 of 2 . . . . Status Line Assertion For Diagnostic Wrap Mode Speed And Gap Selection Decodes . . . . Diagnostics Extended Sense Bytes Summary . A-O Through C-F Sense Bytes Cross Reference . Operational Sense Bytes Summary . . . .

Industry Standard Interface Input Lines.

Industry Standard Interface Output Lines . . . . Interface Connector J6 Pin Functions . . . . Interface Connector J7 Pin Functions

MTS Address Line Decodes . . . . Functional Command Lines Decodes Diagnostic Command Lines Decodes

Reject Codes (Sheet 1 of 2) . . . . . . . .

Status Line Assertion for ISS Command . . . . Status Line Assertion For Diagnostic Wrap Mode Diagnostic Sense Bytes Summary . . . A-O Through C-F Sense Bytes Cross Reference . Single-Ended Pin Assignments . . . .

Differential Pin Assignments Informa t ion Transfer Phases . . . Messages Implemented by the MTS

Page 1-6 1-6 1-15 2-18 2-18 2-19 2-20 2-20 3-4 4-3 4-5

4~5

4-5 4-6 4-8 4-12 4-12 4-13 4-15 4-22 4-26 4-25 4-26 4-28 4-36 5-3 5-5 '5-9 5-7 5 - 11

5-9 5-9 5-22 5-25 5-25 5-26 5-28 6-3 6-4 6-9 6-16

(23)

Table 6-6 6-5 6-7 6-8 6-9 6-10 6-11 6-12 6-13 6-14 6-15 6-16 6-17 6-18 6-19 6-20 6-21.

7-1 7-2 7-3 7-4 7-5 7-6 7-7 7-8 7-9 7-10

9-1 1 1 - 1

11- 2

LIST OF TABLES CONT

Ti t le

Synchronous Data Transfer Request . . . . . S ta tus Bytes . . . . SCSI Commands . . . . Sense Key (OH-7H) Descriptions . . . . . Sense Key (8H-FH) Descriptions . . . . Request Sense Data (Bytes 0-19) . . . . Current Tape Drive Status (Bytes 20-27) . StorageTeK Cache Sense (Bytes 28-43)

StorageTeK Cache Sense (Bytes 44-59) .

StorageTeK Drive Sense (Bytes 60-115) . . . . Additional Sense Code Definitions (Sense Bytes

12 and 13) . . . . Read BlocK Limits Data . Inquiry Data . . . .

Mode Select Parameters Mode Sense Data . . . . . Diagnostic Parameter Data Diagnostic IDs

Interface Connectors . . . . Interface Lines.

MTS Address Lines . . . . . Command Lines . . . .

Interface Timing Data Transfer Timing

Ramp Times . . . . . . . . . . Speed/Gap Selection Decodes and Cache Mode Set

Decode . . . .

Reject Codes . . . . Read Controller Sense . . . Capstan Alignment Instructions Maintenance Routines

Internal Diagnostics

Page 6-20 6-21 6-23 6-29 6-30 6-33 6-32 6-32 6-33 6-34 6-36 6-40 6-53 6-58 6-66 6-71 6-71 7-2 7-3 7-8 7-9 7-15 7-15 7-15 7-20 7-26 7-29 9-4 11 - 3 11-8

(24)

SEPARATOR SET PN 83464

THIS SEPARATOR SET CONTAINS 19 TABS TOTAL IN THE FOLLOWING ORDER:

MAINTENANCE MANUAL 1. INTRODUCTION 2. OPERA T f ON 3. INSTALLATIQN

4. STORAGETEK INTERFACE 5. INDUSTRY INTERFACE 6. SCS I INTERFACE 7. VS INTERFACE

8. FUNCTIONAL DESCRIPTION 9. MAINTENANCE

lQ REMOVAL/REPLACEMENT 11. DIAGNOSTICS

APPENDICES IPC

PN COMPATIBILITY MMLL

21/22/25 STD & 25 IND STD FCD 21/22 IND STD FCD

2925 SCSI FCD

Z - f

;C o

o c:

C") -I

o Z

(25)

CHAPTER 1 GENERAL INFORMATION

1.1 INTRODUCTION

Th is chapter is an in t roduc t i on to the S tor age Tech"no logy Corporation Model 292X .Magnetic Tape Subsystem (MTS). This chapter includes a general description of the physical and functional layout of the MTS and includes the MTS specifications.

Two model types are avaiiabie, the 2921 and the 2922. The 2921 has a tape speed of 50 inches per second (ips) (127 cmps), start/stop. The 2922 has a tape speed of 50 ips (127 cmps) start/stop and 100 ips (254 cmps) streaming.

1.2 GENERAL DESCRIPTION

The MTS (Figures 1-1 through 1-4) is an integrated tape formatter/controller and half-inch (12.7 cm) tape drive packaged as a single self-contained unit (1x1). The MTS is a dual-density device capable of recording and reading ANSI compatible tapes in phase-encoded (PE) format at 1600 bits per inch (bpi) (63 bpmm) and group-coded recording (GCR) format at 6250 bpi (246 bpmm) at a tape speed of 50 (127 cmps) or 50/100 ips (127 cmps/254 cmps) , depending on the model.

The MTS is a low-cost, medium performance device intended for use in normal tape processing and/or disk off-loading. The device features automatic or "semiautomatic tape threading/loading of open reel sizes 7, 8.5, and 10.5 inches; tension arm tape buffering; microprocessor capstan servo and mic~oprocessor reel servo; and on-board diagnostics for functional verification and fau 1 t detect ion.

Data can be read when tape is moving either forward or backward but recording can be performed during forward tape motion only~

Performance specifications are shown in Table 1-1.

Nominal access time from stop is shown in Table 1-2 for the models 2921 and 2922. Access time is defined as the time from assertion of Busy on receipt of a read or write command at the interface to the time the beginning of the record is read from or written to tape. This is assuming tape starts from a stopped position, no turn-around condition is required, and tape is not positioned at BOT. See Chapter 2 for a detailed description of

the access time and interblock gap generation.

(26)

MACHINE REEL COVER

FILE REEL

THREADING COVER

Figure 1-1. Model 292X MTS Front View (Vertical Mount)

12050

(27)

l ,r

^I: ^,.

FILE_~~\\&

REEL· ^I'~

THREADING COVER

OPERATOR PANEL ASSEMBLY

/

12052

Figure 1-2. Model 292X MTS Front View (Center of Gravity Mount)

(28)

PLENUM COVER

Figure 1-3. Model 292X MTS Rear View (Vertical Mount)

120151

(29)

INTERLOCK SWITCH

PLENUM COVER

12053

Figure 1-4e Model 292X MTS Rear View (Center of Gravity Mount)

(30)

Table 1-1. Performance Specifications

Tape Speed 50 ips/127 emps 100 ips/254 emps Data Density

GCR 6250 bpi (246 bpnm) 6250 ·bp i ( 246 bpnm) PE 1600 bpi(63 bpnm) 1600 bpi(63. bpnm) Data Transfer Rate

GCR 313 kB/s 625 KB/s

PE 80 kB/s 160 KB/s

Access Time (nom i na 1 ) 5.0 ms See Table 1-2 Write lnterblock ^Gap

(nomina 1 )

GCR 0.45 in.(1.14 em) See Chapter 2

PE 0.60 in.(1.52 em)

Rewind Time (nominal) 2.5 mjnutes 2.5 minutes (2400- foot ree 1 )

(731.52 meter reel)

Table 1-2. Nomina 1 Acces.s Time From Stop (mi 11 i seconds) -

2921/2922

MODE IBG READ WRITE

Start/Stop 0.28 in./O.71 em 5.6 ms

--

6250 bpi 0.30 in./0.76 em 6.0 ms

- -

246 bpnm 0.45 in./l.14 em 9.0 ms 6.0 ms Start/Stop 0.50 in./l.27 em 5.6 ms

- -

1600 bpi 0.60 in./l.52 em 7.6 ms 6.0 ms 63 bpmm

Streaming 0.28

-

1 .2 in./ 12.0 ms

--

0.71

-

3.05 em

6250 bpi 0.30 in./0.76 em

- -

^{12.5 ms}

246 bpnm

Streaming 0.5

-

1 .2 in./ 12.0 ms

- -

1 .27

-

3.05 em

1600 bpi 0.60 in./l.52 em

--

^{12.5 ms}

63 bpmm

(31)

1.2. 1 Power Features

-Models ~921 and 2922 operate from either a 120 Vac, 60 Hz power source or a 220 Vac, 50 Hz power source. Chapter 8 provides a description of the power supply.

1.2.2 interface Features

Both models can be provided with either the StorageTek Standard Interface or the Industry Standard Interface (Pertec). The STK Standard Interface is described in Chapter 4 and the Industry Standard Interface is described in Chapter 5.

1.2.3 Mounting Options

Both models are available with either gravity (horizontal) mounting options.

installation.

1.2.4 Diagnostic Features

vertical or center of Chapter 3 describes each

The internal diagnostics programs are capable of detecting fault conditions in the tape subsystem and isolating fai.lures within a' specific number of field replaceable units (FRUs). A unique package is required for machines using the Industry Standard Interface. Optional programs are available on floppy diskettes to provide 292X interface verification and limited online exercising. See Chapter 11 for details.

1.2.5 Electronics

The electronics of the MTS are located on five plug-in printed circuit cards located in a card cage below the operator panel.

The Industry Standard Interface requires two additional cards: PA and PB adaptor cards. These cards are identified in Figures 1-5 and 1-6. In addition, there is an operator panel circuit card (KK) and three power supply circuit cards: the AK and NK regulator cards and the PK power circuit damage protection card.

Chapter 8 describes the functions of each card.

(32)

I

00

lO U1

FOR MODELS 2921 & 2922 ONLY

REAR

~ ~

RD CARD (READ) DP CARD (DATA PATH)

IF CARD (INTERFACE PROCESSOR) SV CARD' (SERVO) CB OR CP CARD (2925 ONLY)

12048

(33)

CD U1 U1

"-l

FOR MODELS 2921 & 2922 ONLY

FOR MODEL 2925 ONLY

CARD CAGE

REAR

PB CARD PA CARD

DP CARD (DATA PATH)

IF CARD (INTERFACE PROCESSOR) - - SV CARD (SERVO) CB OR CP CARD (2925 ONLY)

12045

(34)

1.3 SPECIFICATIONS

Physical, environmental and power requirements for the MTS are as follows:

1.3.1 Physical Dimensions

The nominal outside dimensions of the MTS are:

Height Width Depth

Project ion Weight

24.5 inches (62.2 cm) 19.0 inches (48.3 cm) 16.0 inches (40.6 em)

4.8 inches (12.2 em) from RETMA

125 pounds (57 kg) mounting surface 1.3.2 Environmental Requirements

Temperature (Ambient Room Air):

Opt imum Operating Non-Operating Relative Humidity:

Opt imum Operating Storage Shipping

+ 16°C to +22°C (+BOo F to +72° F) +16°C to +31°C (+60⁰F to +90⁰F) -40°C to +70 oC (-40°F to +158°F)

37% to 42%, noncondensing 20% to 80%, noncondensing 10% to 90%, noncondensing Any, noncondensing

The storage environment must not exist outside the limits of the operating environment for a period longer than six months.

The MTS must not be subjected to a temperature change greater than

aoc

(15°F) per hour.

Altitude:

Operating Up to 1830 meters .(6,000 feet) standard Up to 3050 meters (10,000 feet) with

manual-assisted thread Non-Operating Up to 15,240 meters (50,000 feet)

(35)

'1.3.3 Power Requirements

The MTS is designed to operate on anyone" of the following single-phase power sources (refer to Table 1-3)

Table 1-3. Power Requirements

Nominal Voltage Maximum

Vo 1 tage Range Frequency Current 100 Vac 85-110 60 ^(±1 ) Hz 4 amps

_'" ac • ",400 - '..,4 ^IJ'IJ \ - I I IZ "'t amps l'Jn V

100 Vac· 85-110 50 ^(±1 ) Hz 4 amps 200 Vac 170-:220 50 ^{( ± 1 )} Hz 2 amps 220 Vac 187-242 50 ^{( ± 1 )} Hz 2 amps 240 Vac 204-264 50 ^{( ±}^{1 )} Hz 2 amps

The MTS is assembled and shipped to operate from either a 120 Vac, 60 Hz power source or a 220 Vac,· 50 Hz power source.

Conversidn to other power sources requires changes to the primary -side wiring of the MTS input power transformer (refer

to

^chapter

3) •

(36)

(INTENTIONALLY LEFT BLANK)

(37)

SEPARATOR SET PN 83464

THIS SEPARATOR SET CONTAINS 19 TABS TOTAL IN THE FOLLOWING ORDER:

MAINTENANCE MANUAL 1. INTRODUCTION 2. OPERA T I ON 3. INSTALLATION

4. STORAGETEK INTERFACE 5. INDUSTRY INTERFACE 6. SCSI INTERFACE 7. VS INTERFACE

8. FUNCTIONAL DESCR!PTION 9. MAINTENANCE

10. REMOVAL/REPLACEMENT 11. DIAGNOSTICS

APPENDICES IPC

PN COMPATIBILITY MMLL

21/22/25 STD & 25 IND STD FeD 21/22 IND STD FCD

2925 SCS I FCD

N o

"

r"'I

:c >

-f

o Z

(38)

CHAPTER 2 OPERATION

2. 1 INTRODUCTION

This chapter describes the operator panel functions and status indicators, the common MTS operating procedures, and the required operator maintenance.

2.2 POVVER ON/OFF SVVITCH

The Power On/Off switch is used to power up or power down the MTS. When powered up, the MTS initializes and invokes a series of power-up diagnostics.

2.3 DISPLAY

The operator panel contains a four-character display. When the MTS is in Online Status, the display is blank. During machine check conditions, the display contains a three-digit fault cod~.

When "the MTS is offline and at idle, the display contains four dashes indicating that the MTS is ready to accept diagnostic commands. When a key is" depressed, all segments of the display are lit to indicate that the key has been recognized and accepted. When pressure is removed from the key, the display returns to its previous state.

Throughout this manual, display conditions are shown enclosed within parentheses. To summarize the display conditions and their meanings:

( ) (---- )

(@n ) (@nn ) ( nn) (nnnn) ( ??) (????) ( nnn)

On 1 i ne

Offline, panel idle, test successfully completed Executing maintenance routine

Executing diagnostic routine

Displaying data (flashing if from probe) Displaying address

Request for data or test 1D input Request for address input

Fault code (refer to Fault Code Dictionary PN 97712 or 87004)

2.4 OPERATOR FUNCTIONS AREA

The operator functions area of the operator panel and 2-2) provides status indicators and a keypad control of the normal functions of the MTS.

(Figures 2-1 for operator

(39)

DISPLAY

----

OPERATOR FUNCTIONS -

L...-

Power

IITlI

_On _Off

I 0

r"--I _I

I ^Ready I I ^Select I I ^EOT/BOT I I ^{On Une} I I ^{Mach Chk} I I File Prot I I ^{Sys Sel} I

I ⁶²⁵⁰ I

I ¹⁸⁰⁰ I

I

^Density^111111/

I

^RewlUn~^1111111

-

I

^Ruet^1111111

I

^{Load Rew}^1111111

I

^{On U...}^1111111

~

~ L..--

II

^I

I

⁰

~11e-

^~

(/)

0

0 ~~DD

^Addr ^Add'

r;;JODD

~DDD

[;] [;]

I I I

DIAGNOSTIC KEYPAD

Figure 2-1. Operator Panel, Vertical Mount

CIRCUIT BREAKER

12049

(40)

C8:!REAOY

~(

^{REW UNLO}

⁾

(~6~R O)(~~ 1)c==J~

C8J SELECT

(

^RESET

] [[]c=Jc=JCJ

C8J ^EOT/BOT

(

^{LOAD REW}

) Wo~8c=JCJc]

C8J ON LINE [81 SYS SEL

C8J MACH CHK [816250

(

^{ON LINE}

_)~c=3CJc]

l

C8:l FILE PROT)

l

^C8:l1600

) l

^r ^DENSITY ) (ENTER )[

1(

) (CLEAR )

12039

Figure 2-2. Operator Panel, Center of Gravity Mount 2.4.1 Ready Indicator (Green)

The Ready indicator is illuminated when the MTS is fully loaded- and not performing a rewind operation. The indicator is active whether or not the MTS is in Online Status. In the model 2925

this indicator flashes along with the Machine Check Indicator to signify the inability to write a record in cache mode when other write records_are in the buffer.

2.4.2 Select Indicator (Yellow)

The Select indicator is illuminated when the MTS is in Online Status and has been selected for use by the USER (that is, the MTS Address lines match the address of the MTS).

2.4.3 EOT/BOT Indicator (Green)

The EDT/BOT indicator is illuminated when EaT or BOT Status is set in the MTS; that is, when the BOT marker is detected by the BOT sensor or when the EDT marker has been detected by or is past the EDT sensor. When the indicator is lit at EDT, it remains illuminated until a rewind or backward read operation moves the EDT marker back past the EDT sensor.

(41)

2.4.4 On Line Indicator (Green)

The On Line indicator is illuminated when Online Status is set in the MTS; that is, when the MTS is avai lable to the user.

2.4.5 Machine Check Indicator (Red)

The Machine Check (MACH CHK) indicator flashes to signal either a load check, which may be operator correctable, or to signal a malfunction of the MTS that requires service. A fault code of three characters is posted in the display. In model 2925 this indicator flashes along with the Ready Indicator to signify the inability to write a record while in cache made when other write records are in the buffer.

2.4.6 File Protect Indicator (Red)

The File Protect (FILE PROT) indicator is illuminated when tape is loaded and a write enable ring is not in place on the file reel. Write operations can not be performed when this indicator is illuminated.

2.4.7 System Select.! 1600/6250 Indicators (Yellow)

The System Select (SYS SEl), 1600, and 6250 indicators ~re used to show the current operating density of the MiS. The operator may select a density mode using the Density Select key when the MTS is either not loaded or loaded and positioned at BOT. The selected mode determines the density in which a tape is to be

written. .

Illumination of the 1600 indicator alone indicates that the tape wi11 be written in 1600 bpi density (PE format). Illumination of the 6250 indicator alone indicates that the tape will be written in 6250 bpi density (GCR format). Illumination of the System Select indicator in combination with illumination of the 1600 indicator indicates that the recording density is to be selected by the CPU. On power up, the MTS will indicate System Select and

1600.

A read operation will be in the correct density regardless of the initial setting of the indicators. When the density of the tape being read has been determined, the corresponding indicator (1600 or 6250) is illuminated.

2.4.8 Density Select Key

The Density Select (DENSITY) key is ~sed to select a recording density when the drive is unloaded or tape is loaded and at BOT.

(42)

Successive actuations of the key causes the MTS to cycle through the possible density modes. Upon power up, the MTS will be set to SYS SEL/1600 mode. Pressing DENSITY causes the MTS to go to 1600 bpi density. A second press causes the MTS to go to 6250 bpi density. Entering DENSITY a third time returns the MiS to SYS

SEL/1600 mode.

Execution of a diagnostic routine may cause the density status of the MTS to change. A tape load operation will reinitialize the MTS to SYS SEL/1600 mode.

2.4.9 Rewind/Unload Key

The Rewind/Unload (REW/UNLD) key is used to unload tape. If tape is not at BOT when the key is pressed, a high speed rewind to BOT is initiated, the swing arms are retracted, and tape is unloaded from the tape path. Select and Ready Status are reset by this key. This key is not accepted if the MTS is in Online Status.

2.4.10 Reset Key

The Reset key is used to generate a subsystem reset. Pressing this key resets Select, puts the MTS in Offline Status, terminates any operation and tape motion that is in progress, cleats ~ny·machine check condition, and returns the display to

idle (---- ),.

2.4.11 Load/Rewind Key

The Load/Rewind (LOAD/REW) key serves a dual p~rpose. If tape is not loaded, this key is used to load tape and position tape at BOT. If tape is loaded, this key causes tape to be rewound and positioned at BOT. This key is disabled if the MTS is in Online Status.

2.4.12 On Line Key

The On Line key is used to set the MTS to Online Status. Setting the MTS to online status will cause all presently on-going MTS operations to cease. Online status disables the Rewind/Unload and Load/Rewind keys. The online condition is reset by the reset key.

2.5 DIAGNOSTIC KEYPAD

Commands entered on the diagnostic keypad (Figures 2-1 and 2-2) allow access to various functions. These include maintenance programs execution, internal diagnostics execution, memory examination and modification, and a continuous readout of a

Storage Technology C.orporation

Storage Technology C.orporation

2920:

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Maintenance. M.anual

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CHAPTER 1

GENERAL INFORMATION

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