M 2 6 9 1 H FUJITSU NO MORE PRODUCED Native| Translation ------+-----+-----+----- Form 3.5"/HH Cylinders 1819| | | Capacity form/unform 583/ 756 MB Heads 9| | | Seek time / track 9.5/ 2.5 ms Sector/track | | | Controller SCSI2 DIFFERENTIAL Precompensation Cache/Buffer 256 KB FIFO BUFFER Landing Zone Data transfer rate 4.170 MB/S int Bytes/Sector 256 10.000 MB/S ext SYNC Recording method RLL 1/7 operating | non-operating -------------+-------------- Supply voltage 5/12 V Temperature *C 5 45 | -40 60 Power: sleep W Humidity % 20 80 | 5 95 standby W Altitude km 3.000| 12.000 idle W Shock g 5 | 50 seek W Rotation RPM 4400 read/write 14.0 W Acoustic dBA 43 spin-up W ECC Bit 64 MTBF h 300000 Warranty Month Lift/Lock/Park YES Certificates ********************************************************************** L A Y O U T ********************************************************************** FUJITSU M2691/2692/2693/2694-H/HA/HB OEM MANUAL 41FH5072-01/5072E-IM +---------------------------------------------------------+ | 2 4 2 |XX | CNH2+-+ ++ CNH6 |XX | +-+ ++ |XX I | 1 3 1 |XX N | |XX T | |XX E | |XX R | |XX F | 1+-CN7-+ |XX A | 3+-----+ |XX C | |XX E |1+----+ 2 9 2 18 |XX |2+-CN5+ +-----+---------+ |XX | +CNH7-+--CNH1---+ | | 2 1 1 10 1 17 |xx | CNH3 +--+ +CN6+|XX Power | +--+ +++++|XX CN1 +---------------------------------------------------------+ P/N B17B-2060-0100A ********************************************************************** J U M P E R S ********************************************************************** FUJITSU M2691/2692/2693/2694-H/HA/HB/S/SA/SB OEM MANUAL 41FH5072E-01 Switches loacations =================== x = Jumpers are set from factory The user must set the following terminals and SCSI terminating resis- tor before installing the IDD in system: CNH1, CNH6, CNH7, CNH3, SCSI terminating resistor (M269xS only) The user must not change the setting of terminals not described in this section. Do not change setting statuses set at factory shipment. Do not change the setting of terminals except CNH1 (offline self diagnostics), CNH7 (write protect) or do not connect or disconnect the SCSI terminating resistor module when power is turning on. CNH1 For factory use only -------------------------- 1- 2 User setting inhibited CHN1 SCSI level setting ------------------------ +-------+------------------------------------+---------+---------+ | | INQUIRY data | | | | +----------+-----------+-------------+ | | | Mode |Byte 2, |Byte 3, | Byte 7 | INQUIRY | 3-4 | | |bits 2 to |bits 3 to 0| (Provided | VPD | | | |0 (ANSI |(Response | function) | informa-| | | |version) |data format| | tion | | +-------+----------+-----------+-------------+---------+---------+ x | SCSI-2| '0,1,0' | '0,0,1,0' |Indicates | Valid | | | mode |(SCSI-2) | (SCSI-2) |the function | | Open | | | | |of the IDD | | | | | | |for each bit.| | | +-------+----------+-----------+-------------+---------+---------+ | | '0,0,1,' |'0,0,0,1' | | | | | SCSI-1|ANSIX3.131|ANSIX3T9.2/|All bits '0' | Invalid | Short | | CSS |1986 |85-52 | | | | | mode |(SCSI-1) |(CCS) | | | | +-------+----------+-----------+-------------+---------+---------+ Set the display contens of data posted to the initiator from the IDD with the INQUIRY command according to table. When the SCSI-1/CCS mode is selected, parameters transfered by the MODE SENSE command are as follows. Page code 3F (all pages equipped in the IDD are transferred) Page 7 and page 8 are not transferred Page 1, page 2, page 4 are transferred with the specified length of CCS. When the page 1, page 2 or page 4 is specified individually, it is transferred with the specified length of CCS. When the page 7 or page 8 is specified individually, it is trans- ferred with the specified length of SCSI-2. For the recovery parameter of the VERIFY, the recovery parameter in page 1 is used. When the SCSI-1/CCS mode is selected and the REQUEST SENSE command is isssued with specifying the transfer byte length to 0, the IDD trans- feres the 4-byte sense data. Refer to SCSI Logical Specifications Manual for the details of the INQUIRY command, MODE SENSE command and REQUEST SENSE command. CNH1 Offline self-diagnostics setting -------------------------------------- 5-6 Short Executed (diagnostic mode) x Open Stopped (normal operation mode) Set starting/stopping the IDD offline self-diagnostics according to table. The offline self-diagnostics tests the IDD controller func- tions and the basic read/write operation on the disk drive. In normal operations, this setting terminal must be opened. CHN1 UNIT ATTENTION report mode setting ---------------------------------------- x 7-8 Short For a command other than INQUIRY, REQUEST SENSE, or PRIORITY RESERVE the IDD responsed with the CHECK CONDITION status. (SCSI standard) Open All received commands are executed normally. (The CHECK CONDITION status caused by the UNIT ATTENTION condition is not reported) Sets the response method against the received commands when the IDD keeps the UNIT ATTENTION condition. This mode is set for system requirements, however, it is recommended to use the SCSI standard setting. CHN1 Reselection retry setting ------------------------------- x 9-10 Short (unlimited) Open 10 Set the retry mode of the RESELECTION phase. CNH1 SCSI bus parity setting ----------------------------- x 11-12 Short Executed Open Not executed CNH1 Synchronous mode transfer request setting ----------------------------------------------- x 13-14 Short Enabled Open Disabled When the synchronous mode data transfer is enabled, the IDD responds the SYNCHRONOUS DATA TRANSFER REQUEST message to the INIT that issues the first command after power-on. Note: This setting does not affect asynchronous mode transfer. When synchronous mode transfer request is disabled, the IDD operates as follows: - When the SYNCHRONOUS DATA TRANSFER REQUEST message is sent from the INIT, the IDD replys to that message and the DATA IN and the DATA OUT phases of the SCSI bus can be executed in synchronous mode. - The IDD does not send the SYNCHRONOUS DATA TRANSFER REQUEST message to the INIT. The maximum data transfer rate in synchronous mode is determined when the SYNCHRONOUS DATA TRANSFER REQUEST message is exchanged between the IDD and INIT. The INIT must determine the parameter sent to the IDD when the message is exchanged in consideration of the signal transfer characteristics of the system SCSI bus and the data reception capacity of the INIT. The IDD can transfer up to 10 MB/s in synchronous mode. However, since the configuration of the SCSI bus and its transfer character- istics differ depending on the system, the maximum transfer rate in which data can be transferred in a stable condition must be determined for each system. For reference, the IDD data transfer rate in synchronous mode and the restrictions on the system configuration of the SCSI bus are shown below: The following values are rough standards. The values must be evalua- ted for each system. +----------------------+------------------+---------------------+ | Maximum transfer |Maximum length of |Number of connectable| |rate of the IDD (MB/s)|the SCSI cable (m)| SCSI devices | +----------------------+------------------+---------------------+ | 3 - 10 | * | * | +----------------------+------------------+---------------------+ | 2.67 or less | 6 M269xS | 8 | | | 25 M269xH | | +----------------------+------------------+---------------------+ * The maximum SCSI cable length and the number of connectable SCSI devices must be determined for each system. CNH1 LED display requirement setting ------------------------------------- x 15-16 Short Light when the IDD operates. Open Light when the IDD is ready. CNH1 Motor start mode setting ------------------------------ x 17-18 Short The motor is started immediately after power is turned on. Open Starting the motor is controlled with the START/STOP command. This setting only determines the operation mode when power is turned on. Stopping or restarting the spindle motor can be controlled with the START/STOP UNIT command for both modes. CNH2 For testing at factory ---------------------- ----- 1-2 Open User setting inhibited 3-4 Open User setting inhibited The user must not be change CNH2 and CNH5 setting as factory ship- ment (the IDD does not operate correctly when shorted), and must not short CNH8. CNH6 Power supply to SCSI terminating resistor circuit on IDD Single-Ended type (M269xS only) --------------------------------------------------------------- x 3-4 SHORT Power is supplied to the terminating resistor x 1-2 SHORT from IDD and TERMPWR pin. Power is supplied to the TERMPWR pin from the IDD. 3-4 OPEN TERMPWR pin is not used. Power is supplied to 1-2 SHORT the IDD terminating resistor only from IDD. 3-4 SHORT Power is not supplied to the terminating 1-2 OPEN resistor the IDD. Power is supplied to the IDD terminating resistor only from the TERMPWR pin. When the IDD connects to a position other than both ends of the SCSI cable, do not mount the terminating resistor module on the IDD. +-----------------------------------------------------+ | +------ CNH6 -----+ -+- +5V DC| +++ | 3 4 2 1 | | | | TERMPWR +------+ +-+--+-----+----+-+ + Diode | S *---------+ FUSE +-----+ | | +------+ | C |26 +------+ +-----+----+ | S | +------+-----+ | I *-----------------------------+ Terminator | | | SIGNAL Mounted | resistor | | +++ +----+ in socket+------+-----+ | | +----+IDD + GND | +-----------------------------------------------------+ CNH6 Power supply to terminal resistor circuit on SCSI Differential type (M269xH only) ---------------------------------------------------------------- x 1-2 Short Power is supplied from the IDD Open Power is supplied from TERMPWR pin only (IDD power supplied is not used) +-----------------------------------------------------+ | + CNH6 + -+- +5V DC| +++ | 2 1 | | | | TERMPWR +-+--+-+ + Diode | S *----------------------+ | +------+ | | C |25 | +---+ Fuse +------+ | S |26 | +------+ | I *----------------------+ | | TERMPWR | +++ +---+ | | +---+ IDD | +-----------------------------------------------------+ CNH7 SCSI ID setting --------------------- SCSI ID | 5-6 | 3-4 | 1-2 --------+-------+------+---- x 0 | Open |Open |Open --------+-------+------+---- 1 | Open |Open |Short --------+-------+------+---- 2 | Open |Short |Open --------+-------+------+---- 3 | Open |Short |Short --------+-------+------+---- 4 | Short |Open |Open --------+-------+------+---- 5 | Short |Open |Short --------+-------+------+---- 6 | Short |Short |Open --------+-------+------+---- 7 | Short |Short |Short 1. Set the SCSI ID so that there are no duplicates between SCSI devices on the same SCSI bus. 2. The priority of SCSI bus use in ARBITRATION phase is determinated by SCSI ID as follows: 7 > 6 > 5 > 4 > 3 > 2 > 1 > 0 CNH7 Write protect setting --------------------------- 7-8 Open Write operation is inhibited. x Short Write operation is enabled. By setting this write protect function, writing into disk medium is inhibited. CNH7 For factory use only -------------------------- 9-10 OPEN User setting inhibited CN5 External LED ------------------ The external LED is identical in indication to the LED on the front of the IDD. The indication can be changed with a setting terminal. Pin number Signal -------------------- 01 LED (V) 02 -LED CN6 External operator panel connector --------------------------------------- When the external operator panel is connected to CN6, pins of CNH7 corresponding to signals set by CN6 should be opened. When the external operator panel is not connected to CN6, CN6 should be opended (default). Pin number Signal -------------------- 01 GND 02 -ID2 03 GND 04 -ID1 05 GND 06 -ID0 CN7 Spindle sync connector --------------------------- Pin number Signal -------------------- 01 GND IN 02 SS IN 03 GND OUT 04 SS OUT ********************************************************************** I N S T A L L ********************************************************************** FUJITSU M2691/2692/2693/2694-H/HA/HB/S/SA/SB OEM MANUAL 41FH5072E-01 Installation direction ---------------------- horizontally vertically +-----------------+ +--+ +--+ | | | +-----+ +-----+ | | | | | | | | | +-+-----------------+-+ | | | | | | +---------------------+ | | | | | | | | | | | | x x | | | | | | +------x------x-------+ | +-----+ +-----+ | +-+------x--x-------+-+ +--+ +--+ | xx | | x x | +---x--------x----+ x x The permissible orientations of the IDD are shown above, and the tolerance of the angle is 5* from the horizontal plane. Mounting frame structure ------------------------ The disk enclosure (DE) of the IDD serves as a signal ground (SG) and is insulated from the mounting frame (frame ground: FG). As this insulation is maintained after the IDD is mounted in the system, the following precautions must be followed. Generally, SG an FG are connected at one point in the system enclosure. Therefore, use following procedure to maintain the insulation when mounting the IDD: a) Use the frame with an embossed structure or the like to avoid contact between the DE base and FG. Mount the IDD with making a gap of 2.5 mm or more between the IDD and the frame of the system. b) The inward projection of the screw from the IDD frame wall at the corner must be 4 mm or less. Limitatation of side-mounting: When the drive is mounted using side screw holes, do not use the center hole. Check that the DE (signal ground) does not touch the system cabinet chassis (frame ground). There must be a 2.5mm or more space between the DE and chassis. Use mounting screws whose length inside the drive mounting frame are 4mm or less when the screws are tightened. External magnetic field ----------------------- The drive should not be installed near the ferromagnetic body like a speaker to avoid the influence of the external magnetic field. Ambient temperature ------------------- When the IDD is operating, the ambient temperature measured 3 cm from the disk enclosure (DE) surface and from the PCA surface must satisfy the specified requirement. For the DE surface temperature at opera- ting, the contact temperature at the measurement point must satisfy the specified requirement. Sequential starting of spindle motors ------------------------------------- After the power is turned on to the IDD, a large amount of current flows in the +12 V DC line when the spindle motor rotation starts. Therefore, if more than one IDD is used, the spindle motors should be started sequentially using one of the following procedures to pre- vent overload of the power supply unit. 1. Issue START/STOP UNIT commands at 20-second intervals to start the spindle motors. 2. Turn on the +12 V DC power in the power supply unit at 30-second intervals to start the spindle motors sequentially. Noise filter ------------ To eliminate AC line noise, a noise filter should be installed at the AC input terminal on the IDD power supply unit. The specification of this noise filter is as follows: Attenuation: 40 dB or more at 10 MHz. Circuit construction: T-configuration is recommended. SCSI cable ---------- All SCSI devices on one bus are daisy-chained with an SCSI cable. A terminating resistor must be mounted in the SCSI device at each end of the SCSI cable. The maximum number of SCSI devices that can be connected to the SCSI bus is 8, including the host adapter, IDD, and other SCSI equipment. The maximum length of the SCSI cable is as follows. If more than one SCSI device is connected, the total cable length must not exceed the following. 6m cable length Single-Ended type SCSI (M269xS) 25m cable length Differential type SCSI (M269xH) The use of a 25-pair twisted cable satisfying the following require- ments is recommended: Conductor size: 28 American Wire Gauge (AWG) or bigger Characteristic Impedance: 100 to 132 Each pair of wires in the 25-pair twisted cable must be connected to pins n and n+1 (where n is an odd number) on the interface connector. Cables having an identical impedance must be use on the same SCSI bus to reduce signal reflection and maintain transmission characteristics When a SCSI device is connected to the SCSI cable except at either end of the cable, connection to the SCSI connector must be at a branchpoint of the cable. If a SCSI device is connected to one end of the SCSI bus, no cable should be connected after the last SCSI device except when the cable has a terminating resistor. Check that system power is off before connecting or disconnecting cables. Do not connect or disconnect cables when power is on. Fix the cables so that they do not touch the DE and PCAs, or so that the smooth flow of the cooling air in the system cabinet is assured. Be careful of the insertion directions of the SCSI connectors. With the system in which terminating resistor power is supplied via the SCSI cable, if the power is turned on, the overcurrent protection fuse of the terminating resistor power supplier may be blown or the cable may be burnt if overcurrent protection is not provided. Power cable ----------- IDDs must be star-connected to the DC power sypply (one to one con- nection) to reduce the influence of load variations. Signal ground connector ----------------------- A DC ground cable may or may not be installed depending on the system requirements (system installation environment, cabinet structure, power supply system). This cable is generally connected to the ground of the power supply unit. It is recommended to connect with a daisy chain (one by one connection). Terminator ---------- All SCSI devices on one bus are daisy-chained with a SCSI cable. A terminating resistor must be mounted in the SCSI device at each end of the SCSI cable. Since a SCSI terminating resistor module is mounted in the IDD on shipment, it must be removed when the IDD is not connected at either end of the SCSI cable. Also, a method for the power supply to the terminating resistor must be selected with the setting terminal on the IDD. When connecting the IDD to either end of the SCSI cable, do not de- mount the terminating resistor module. When connecting the IDD to a position other than both ends of the SCSI cable, demount terminating resistor modules. SCSI cable SCSI cable ----------++-------+ ----------++-------++-------X TERM +---++--+ +-xxx---+ +---++--+ +--++---+ | | | TERM | | | | | | | | | | | | | | IDD | | IDD | | IDD | | IDD | +-------+ +-------+ +-------+ +-------+ Correct M269xS only! Correct M269xS and M269xH SCSI cable SCSI cable ---------+ ----------++-------X TERM +-xxx---+ +---++--+ | TERM | | | | | | | | IDD | | IDD | +-------+ +-------+ Correct M269xS only! Correct M269xS and M269xH SCSI cable ----------++-------X TERM +--xxx--+ | TERM | | | | IDD | +-------+ INCORRECT! SCSI terminating resistor (M269xS only) --------------------------------------- When removing the terminating resistor module from the socket, be careful not to damage the resistor module pins, mount socket and contiguous parts. When mounting the terminating resistor module, check the mounting direction and wether the module is fixed. +- Marker shows pin 1 +- Marker shows pin 1 | | | +-----------------+ | | |* * * * * * * * *| | +*-*-*-*-*-*-*-*-*+ +- * | +- * Resistor | |* * * * * * * * *| +*-*-*-*-*-*-*-*-*+ +-----------------+ Socket, terminating resistor module not present External operator panel connector --------------------------------- When the external operator panel is not connected to CN6, CN6 should be opened. (default setting) When the external operator panel is connected, pins of CNH7 corres- ponding to the signals set by the external operator panel should be opened. CN6 +------+ | 1 2| ID2 | 3 4| ID1 | 5 6| ID0 +------+ External LED ------------ CN5 +---+ | 1-+--------------------+ | 2-+---------+<---------+ +---+ external LED The external LED is identical in indication to the LED on the front of the IDD. The indication can be changed with a setting terminal. Any load other than the external LED should not be connected to the LED terminals. Confirming initial operations ----------------------------- Do not move the drive when power is turned on! 1. Initial operation in the case where the jumper is set so that motor starts at power-on. 1. When power is turned on, the LED blinks an instant and the IDD executes initial self-diagnosis. 2. If an error is detected in the initial self-diagnosis, the LED on the front panel blinks periodically. The spindle motor may or may not start rotating in this stage. 3. When the LED display requirements are set to "READY status", the LED on the front panel lights 15 seconds after power is turned on. 4. When the LED display requirements are set to "the IDD operates" the LED on the front panel remains off (when the initiator accesses the IDD via the SCSI bus, the LED lights). 2. Initial operation in the case where the jumper is removed so that motor starts with a START/STOP command. 1. When power is turned on, the LED blinks an instant and the IDD executes initial self-diagnosis. 2. If an error is detected in the initial self-diagnosis, the LED on the front panel blinks. 3. The spindle motor does not start rotation until the START/STOP UNIT command for the start is issued. The INIT needs to issue the START/STOP UNIT command to start the spindle motor. 4. The disk drive enters the READY status 15 seconds after the START/STOP UNIT command is issued. At this time, the IDD reads "system information" from the system space on the disk. 5. When the LED requirements are set to "READY status", the LED on the front panel ligths as in step 4. 6. When the LED display requirements are set to "the IDD operates" the LED blinks during command execution. 3. Items to check if an error occurs. * Check that cables are mounted correctly. * Check that power and voltages are supplied correctly. * Check the setting of each jumper setting terminal. The initial operation depends on the setting of the motor start mode and LED display requirements. * If an error is detected in initial self-diagnosis, the LED on the front panel blinks. In this case, it is recommended to issue the REQUEST SENSE command from the initiator (host system) to obtain information (sense data) for error analysis. When the LED display requirements are set to "READY status", the LED is turned off while the drive continues command execution. However, since the LED is turned off for only one blink, the LED may seem to be turned on and off or not turned off at all. When the LED display requirements are set to "in connection with SCSI bus", the LED lights during the IDD is executing a command. However, in some commands the lighting time is only an instant. Therefore it may seem that the LED blinks or the LED remains off. Since the IDD has the automatic readjustment function of positi- oning (seek) control, it automatically executes the adjustment operations with seek at specific intervals from power on (first adjustment: 5 minutes after power on). The seek sound is heard during the adjustment but this does not indicate a drive error. Dismounting drives ------------------ Take the drive offline. Disconnect system power before removing the drive. Do not remove mounting screws holding the cables and drive while power is on. Do not move the drive until it completely stops (30 seconds after spindle motor is stopped with START/STOP UNIT command or after power is turned off). FUJITSU DISK-SUPPORT -------------------- Harddisk parameters for SUN-OS (UNIX) +--------+---------+---------+----------+-----+-------+ |Disk Typ|Data Cyl.|alt. Cyl.|phys. Cyl.|Heads|sec/trk| +--------+---------+---------+----------+-----+-------+ |M2694Sx | 1454 | 2 | 1456 | 16 | 91 | +--------+---------+---------+----------+-----+-------+ Macintosh Version ----------------- Apple does not currently supply suitable formatting and partitioning software to support the Fujitsu drive, but there are a number of third party software vendors who can supply non-specific driver soft- ware that provides these functions, e.g. DiskManager Mac from Ontrack, StorWare from Unimac and Silverlining from La Cie. In order to use these drives in an Apple Macintosh SE or Macintosh II product you must obtain the necessary mounting kit if used internally, or a suitable enclosure and power supply if an external unit is required. ********************************************************************** F E A T U R E S ********************************************************************** FUJITSU M2691/2692/2693/2694-H/HA/HB/S/SA/SB OEM MANUAL 41FH5072E-01 Media defects ------------- The number of allowable media defects are as follows. The maximum defect length is 8 bytes. M2691: 378 and less M2692: 462 and less M2693: 546 and less M2694: 630 and less High speed data transfer ------------------------ The data transfer rate on the SCSI bus is 4MB/s maximum in asynchro- nous mode and 10MB/s in synchronous mode. Such a high data transfer rate on the SCSI bus can be useful with the large capacity buffer in the IDD. The maximum data transfer rate in asynchronous mode may be limited by the response time of the initiator and the length of SCSI bus length. The maximum data transfer in synchronous mode on the single-ended SCSI bus may be limited by the cable length and transmission charac- teristics of the SCSI bus and the connected SCSI device number. 256KB programmable multi-segment data buffer -------------------------------------------- Data is transfered between SCSI bus and disk media through the em- bedded 256KB data buffer in the IDD. This buffer can be divided into maximum 8 areas. This feature provides the suitable usage environment for users. Since the initiator can control the disconnect/reconnect timing on the SCSI bus by specifying the condition of stored data in the data buffer or empty condition of the data buffer, the initiator can per- form the effective input/output operations with utilizing high data transfer capability of the SCSI bus regardless of actual data trans- fer rate of the disk drive. Read-Ahead cache feature ------------------------ After executing the READ command, the IDD reads automatically and stores (prefetches) the subsequent data blocks into the data buffer (Read-Ahead caching). The high speed sequential data access can be achieved by transfering the data from the data buffer without reaccessing the disk in case the subsequent command requests the prefetched data blocks. SCSI command specification --------------------------- ANSI X3.131 - 1986 and CCS (Rev. 4B) Supports a part of SCSI-2 command FUJITSU unique command Command queuing feature ----------------------- The IDD can queue maximum 128 commands, and optimize the issuing order of queued commands by the reordering function. This feature realizes the high speed processing. Landing zone ------------ The actuator positions heads on the innermost landing zones over the disk and is locked by the mechanical lock when the power is off or the spindle motor is stopped. SCSI bus configuration ---------------------- Up to eight SCSI devices can be connected to the SCSI bus, with any combination of the SCSI devices that operate as initiator and that operate as target. Each SCSI device on the bus has its own unique address (SCSI-ID: #n). For input/output operation, a peripheral device attached to the SCSI bus that operates as target is addressed in unit called as logical unit. A unique address (LUN: logical unit number) is assigned for each logical unit. The initiator selects one SCSI device by specifying that SCSI ID, then specifies the LUN to select the peripheral device for input/ output operation. The IDD is constructed so that the whole volume of disk drive is a single logical unit, the selectable numbers of SCSI ID and LUN are as follows: SCSI ID: Selectable from 0 to 7 LUN: 0 (fixed) +-------------+ +-------------+ SCSI bus +----------+LUN=0 | Host system +--+Host Adapter +-------+---+ IDD |(fixed) | | | ID #7 | | | ID #0 | +-------------+ +-------------+ | +----------+ | +----------+LUN=0 +---+ IDD |(fixed) | | ID #1 | | +----------+ | +------------+ +---+ Controller +--+----+-- | | ID #2 | LUN0 LUN1 | +------------+ Mean Time Between Failures (MTBF) --------------------------------- MTBF of the IDD during its life time is 300.000 hours. Operating time (hours) MTBF = ---------------------------------- The number of equipment failures Failure of the equipment means failure that requires repair, adjust- ments or replacement. Mishandling by the operator, failures due to bad environmental conditions, power trouble, host system trouble, cable failures or other failures not caused by the equipment are not considered. Mean Time To Repair (MTTR) -------------------------- MTTR is the average time taken by a well-trined service mechanic to diagnose and repair a drive malfunction. The drive is designed for a MTTR of 30 minutes or less. Service life ------------ Overhaul of the drive is not required for following period which ever earlier if handled correctly. - DE surface temperature: 48*C or less......5 years - DE surface temperature: 48*C and more.....5 years or 20,000 power-on hours Data security at power failure ------------------------------ Integrity of the data on the disk is guaranteed against all forms of DC power failure except on blocks where a write operation was being performed. The above does not applied to formatting disks or assign- ing alternate blocks. DISCLAIMER ---------- Failure of the intelligent disk drives is defined as a failure requiring adjustments, repairs or replacement. Fujitsu is not responsible for drive failures caused by misuse by the user, poor environmental conditions, power trouble, host problems, cable fai- lures, or any failures not caused by the drive itself. Track format ------------ Sectors/track +-------------------+----+----+----+----+----+----+ |Data block length | 180| 256| 512|1024|2048|4096| +-------------------+----+----+----+----+----+----+ |Zone I | 225| 172| 96| 51| 26| 13| +-------------------+----+----+----+----+----+----+ |Zone II | 213| 163| 91| 48| 25| 12| +-------------------+----+----+----+----+----+----+ |Zone III | 199| 153| 85| 45| 23| 11| +-------------------+----+----+----+----+----+----+ |Zone IV | 187| 143| 80| 42| 22| 11| +-------------------+----+----+----+----+----+----+ |Zone V | 175| 134| 75| 40| 20| 10| +-------------------+----+----+----+----+----+----+ |Zone VI | 162| 124| 69| 37| 19| 9| +-------------------+----+----+----+----+----+----+ |Zone VII | 149| 114| 64| 34| 17| 8| +-------------------+----+----+----+----+----+----+ |Zone VIII | 136| 105| 58| 31| 16| 8| +-------------------+----+----+----+----+----+----+ Zone partition and track capacity +-------------------+---------+----------+ | |Cylinder |Byte/track| +-------------------+---------+----------+ |Zone I | 0- 399| 56889 | +-------------------+---------+----------+ |Zone II | 400- 538| 53751 | +-------------------+---------+----------+ |Zone III | 539- 677| 50477 | +-------------------+---------+----------+ |Zone IV | 678- 877| 47339 | +-------------------+---------+----------+ |Zone V | 878-1059| 44201 | +-------------------+---------+----------+ |Zone VI |1060-1424| 41064 | +-------------------+---------+----------+ |Zone VII |1425-1632| 37789 | +-------------------+---------+----------+ |Zone VIII |1633-1830| 34652 | +-------------------+---------+----------+ ********************************************************************** G E N E R A L ********************************************************************** FUJITSU => GDT Tips & Hints about ICP controllers and other peripherals ======================================================== Tagged queues and Fujitsu M 26xx harddisks ------------------------------------------ Fujitsu Harddisks of the M26XX series do not support the SCSI-II feature tagged queues. You should disable this feature in the initialize disks menue of the GDTSetup program. An inquiry command shows, that the harddisk supports tagged queues (this is why you can enable it in the GDTSetup) but this is not true as stated by Fujitsu Germany.