M 2 6 1 6 E T FUJITSU NO MORE PRODUCED Native| Translation ------+-----+-----+----- Form 3.5"/SLIMLINE Cylinders 1542| 771| | Capacity form/unform 104/ MB Heads 4| 8| | Seek time / track 20.0/ 8.0 ms Sector/track 33| 33| | Controller IDE / AT Precompensation 65535 Cache/Buffer 56 KB FIFO BUFFER Landing Zone 1541 Data transfer rate 1.250 MB/S int Bytes/Sector 512 7.400 MB/S ext Recording method RLL 1/7 operating | non-operating -------------+-------------- Supply voltage 5/12 V Temperature *C 5 45 | -45 60 Power: sleep W Humidity % 20 80 | 5 95 standby 2.5 W Altitude km -0.060 3.000| 12.000 idle W Shock g 5 | 50 seek 5.5 W Rotation RPM 3490 read/write 5.5 W Acoustic dBA 43 spin-up W ECC Bit 32,56 MTBF h 50000 Warranty Month Lift/Lock/Park YES Certificates ********************************************************************** L A Y O U T ********************************************************************** FUJITSU M2616ET OEM MANUAL 41FH5061E-01 +--------------------------------------------------------+ | |XX CN6 | |XX Power | LED | | +---+ |XX I | +---+ |XX N | |XX T | |XX E | |XX R | |XX F | |XX A | 6 1 |XX C | +-----------+ |XX E | +-SW1-------+ |XX | +------+ | | +-SW2--+ |XX | 4 1 |XX Power | |XX CN2 +--------------------------------------------------------+ ********************************************************************** J U M P E R S ********************************************************************** FUJITSU M2616ET OEM MANUAL 41FH5061E-01 Switches locations ================== x = Jumpers are set from factory SW1 IRQ14/RSVD switch ---------------------- 1 OFF After exchange pin 29 = IRQ14 2 ON pin 31 = RESERVED x 1 ON Normal status pin 29 = RESERVED x 2 OFF pin 31 = IRQ14 This operation is to exchange settings of pins 29 and 31 to eliminate crosstalk influence in the host interface cable. SW1 Slave present mode/Active mode ------------------------------------ 3 ON Slave present mode 4 OFF x 3 OFF Active mode x 4 ON This operation is to set the slave present or active mode. This setting should be set in active mode on daisy-chained connection of both M2616ET. SW2 MASTER/SLAVE ------------------ 1 OFF SLAVE side of 2-drive system 2 ON x 1 ON MASTER drive x 2 OFF SW2 1-drive/2-drive --------------------- 3 ON 2-drive x 3 OFF 1-drive SW2 Write-protect ------------------- 4 ON Write-protected x 4 OFF Write-enabled The write protect switch is provided as an option SW2 I/O channel ready (IOCHRDY) output ---------------------------------------- 5 ON pin 27 = IOCHRDY x 5 OFF pin 27 = RESERVED When the data transfer rate of the host becomes very high (near 3.7 MW/s or more), the M2616ET must provide wait state to synchronize data transfer. This setting is used to output IOCHRDY to pin 27 of the host interface. SW2 ECC bytes --------------- 6 ON 4 Byte x 6 OFF 7 Byte ********************************************************************** I N S T A L L ********************************************************************** FUJITSU M2616ET OEM MANUAL 41FH5061E-01 Notes on installation ===================== Installation direction ---------------------- horizontally vertically +---------------+ +--+ +--+ | | | +-----+ +-----+ | | | | | | | | | +--+---------------+---+ | | | | | | +----------------------+ | | | | | | | | | | | | X X | | | | | | +------X-------X-------+ | | | | | | +--+-----X---X-----+---+ | +-----+ +-----+ | | XX | +--+ +--+ | X X | +--X--------X---+ X X If the drive is installed in any of the above three installation directions, the level deviation must not exceed 5*. The PCA must be on the bottom! Ambient temperature ------------------- The operating temperature range for the IDD in a cabinet is specified at a distance of 3 cm from the IDD. Design the air flow in the cabi- net to keep. The maximum ambient temperature with in 45* C. The air circulation in the cabinet must be designed so that the PCA side of the IDD is particularly cooled. Multi-drive connection ---------------------- Up to two IDDs are connectable. Note: In principle, perfect operation cannot be guaranteed in case of daisy-chained combination (2-drive-system) of drive and other manufacturer's drive. Cable requirements ------------------ The cable of twisted pairs and neighboring line separated individu- ally is not allowed to use for the host interface cable. It is because that the location of signal lines in these cables is not fixed, and so the problem on the crosstalk among signal lines may occur. Cable length: 0.5m Max. DC power supply --------------- DC voltages of +5 V and +12 V are available. The IDD has two types of power connectors, the one is big type (4 pins), the other is small type (CN6, 3 pins). ********************************************************************** F E A T U R E S ********************************************************************** FUJITSU M2616ET OEM MANUAL 41FH5061E-01 Media Defect ============ When a physical track contains two or more bad sectors, all sectors in the track are given BAD flags in formatting before the drive is shipped. As regards media defect, it defines with number of bad tracks as follows. (provided that CYL0 is defect free) Number of bad tracks per drive: 24 Max. Power Save Mode =============== The drive supports two power modes which are selectable by the POWER command: idle mode and power save mode. In power save mode, power is supplied to the disk controller but not to the disk to save power. (In this state, the spindle keeps on revolving.) This is low power consumption mode. Drive BIOS specification ======================== The PC-AT BIOS specification (parameters such as the number of cylin- ders, the number of heads and the number of sectors/track) is not always equal to the physical specification of the IDD. The PC-AT BIOS does not support operation in the full range of the physical specifications of the IDD. To make the IDD work most effi- ciently according to its physical specification, the logical specifi- cations should be converted in the controller. As BIOS has a limitation of number of cylinders (< 1024), a host can- not be operated by physical parameters. Therefore, logical/physical translation (emulation) is needed, a host has to use the drive by logical parameters. BIOS specifications are defined by "SET PARA- METERS" command which a host issues. A customer who can modify "FIXED DISK PARAMETER TABLE" in the BIOS selects parameter freely and can set BIOS specification. However, the parameter must be se- lected WITHIN THE STORAGE CAPACITY which the drive has. And it is possible that customer uses the drive by selecting appropriate DRIVE TYPE in the BIOS. In this case, the drive works in the storage ca- pacity which customers selected. Logical parameter which can use without loss of physical capacity of the drive: Physical Logical -------------------+--------+-------+ Number of cylinders| 1542 | 771 | Number of heads | 4 | 8 | Sectors/track | 33 | 33 | When the drive is operated by TEST PROGRAM (Bench Mark Test etc.) which is for measurement of the performance of the HDD, according to BIOS specifications, actual performance may not be measured. For example, in BIOS specification Number of cylinders| 771 | Number of heads | 12 | Sectors/track | 17 | -------------------+------+ Total capacity | 104MB| Track to track seek becomes 2 position seek. In the drive, example of BIOS specification that actual performance can measure and loss ca- pacity least is shown following. However, the result of Bench Mark Test etc. and the performance of the actual use are not always equal. BIOS specification needs to decide that result of file access depen- ding on systems is evaluated synthetic. Interleave ========== Even when receiving a non-1:1 interleaving table from the host, the IDD internally performs 1:1 formatting. This is because: interleaving is nit required as the look-ahead-cache function performs high speed data transfer at a place where hitting is made. interleaving is substantially unnecessary since formatting (e.g. 17 sectors/track) is performed on two consective heads or cylinders ********************************************************************** 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.