D K 2 2 2 A - 5 4 HITACHI NO MORE PRODUCED Native| Translation ------+-----+-----+----- Form 2.5"/SUPERSLIMLINE Cylinders 2605| | | Capacity form/unform 540/ MB Heads 4| | | Seek time / track 12.0/ ms Sector/track | | | Controller IDE / ATA2 FAST/ENHA Precompensation Cache/Buffer 64 KB READ/WRITE Landing Zone Data transfer rate 5.000 MB/S int Bytes/Sector 512 11.100 MB/S ext PIO3 Recording method RLL 1/7 operating | non-operating -------------+-------------- Supply voltage 5 V Temperature *C | Power: sleep W Humidity % | standby W Altitude km 3.000| 12.000 idle 2.0 W Shock g 150 | 250 seek W Rotation RPM 4464 read/write W Acoustic dBA 33 spin-up W ECC Bit MTBF h 300000 Warranty Month Lift/Lock/Park YES Certificates ********************************************************************** L A Y O U T ********************************************************************** HITACHI DK212A/222A DISK DRIVE SPECIFICATION REV. 7 K6600782 10/95 ----+---------------------------------------------------+-PCB- | B D f 2 4 o o o o o o o o o o o o o o o o o o o 44| | A C e 1 3 o o o o o o o o o o o o o o o o o o o 43| +---------------------------------------------------+ ********************************************************************** J U M P E R S ********************************************************************** HITACHI DK212A/222A DISK DRIVE SPECIFICATIONS REV. 7 K6600782 10/95 Jumper Setting ============== Master/Slave Setting -------------------- When the drive is connected to the host bus, Master/Slave setting is necessary to configure a drive as a master or a slave. Master/Slave setting is established between drives on the interface connector by using jumper 0-2 (pin# A,B,C). The master drive is assigned to drive address 0, the slave drive is assigned to drive address 1. (1) Master (or single) +43-------------------1---C-A-+ | o o ----------- o o o o o | If all of pin# A, B, C are open, | o o ----------- o o o o o | the drive is a master (or single). +44-------------------2---D-B-+ (2) Slave +43-------------------1---C-A-+ | o o ----------- o o o o X | If Jumper Position A-B is used, | o o ----------- o o o o X | the drive is slave. +44-------------------2---D-B-+ (3) CSEL Selection +43-------------------1---C-A-+ | o o ----------- o o o xxx | If Jumper Position A-C is used, | o o ----------- o o o o o | Master/Slave setting is determinated +44-------------------2---D-B-+ by the condition of CSEL signal (pin# 28). Connector Pin Assignments ------------------------- +------+----------------+------+---------------+ | Pin | Function | Pin | Function | +------+----------------+------+---------------+ | A | JUMPER 0 | B | JUMPER 1 | +------+----------------+------+---------------+ | C | JUMPER 2 | D | RESERVED | +------+----------------+------+---------------+ | E | KEY (REMOVED) | F | KEY (REMOVED) | +------+----------------+------+---------------+ | 1 | RESET- | 2 | GND | +------+----------------+------+---------------+ | 3 | DD7 | 4 | DD8 | +------+----------------+------+---------------+ | 5 | DD6 | 6 | DD9 | +------+----------------+------+---------------+ | 7 | DD5 | 8 | DD10 | +------+----------------+------+---------------+ | 9 | DD4 | 10 | DD11 | +------+----------------+------+---------------+ | 11 | DD3 | 12 | DD12 | +------+----------------+------+---------------+ | 13 | DD2 | 14 | DD13 | +------+----------------+------+---------------+ | 15 | DD1 | 16 | DD14 | +------+----------------+------+---------------+ | 17 | DD0 | 18 | DD15 | +------+----------------+------+---------------+ | 19 | GND | 20 | KEY (REMOVED) | +------+----------------+------+---------------+ | 21 | DMARQ | 22 | GND | +------+----------------+------+---------------+ | 23 | DIOW- | 24 | GND | +------+----------------+------+---------------+ | 25 | DIOR- | 26 | GND | +------+----------------+------+---------------+ | 27 | IORDY | 28 | CSEL | +------+----------------+------+---------------+ | 29 | DMACK- | 30 | GND | +------+----------------+------+---------------+ | 31 | INTRQ | 32 | IOCS16- | +------+----------------+------+---------------+ | 33 | DA1 | 34 | PDIAG- | +------+----------------+------+---------------+ | 35 | DA0 | 36 | DA2 | +------+----------------+------+---------------+ | 37 | CS1FX- | 38 | CS3FX | +------+----------------+------+---------------+ | 39 | DASP- | 40 | GND (MOTOR) | +------+----------------+------+---------------+ | 41 | 5VDC (LOGIC) | 42 | 5VDC (MOTOR) | +------+----------------+------+---------------+ | 43 | GND (LOGIC) | 44 | RESERVED | +------+----------------+------+---------------+ Description of the Interface Signals ------------------------------------ The interface is an ATA (IDE) interface. Reserved pins should be left unconnected. The following table shows the signal definitions. "I" of I/O type represents an input signal for the drive and "O" represents an input signal from the drive. +------------+-----+--------+---------------------------------------+ |Signal name | Pin |I/O type| Description | |RESET- | 1 | I | This is a reset signal output from the| | | | | host system and to be used for inter- | | | | | face logical circuit. | +------------+-----+--------+---------------------------------------+ |DD0-DD15 | 3-18| I/O | This is a 16 bit directional bus. The | | | | | lower 8 bits are used for register | | | | | access other than data register. | +------------+-----+--------+---------------------------------------+ |DIOW- | 23 | I | The rising edge of this Write Strobe | | | | | signal enables data from a register on| | | | | the drive. | +------------+-----+--------+---------------------------------------+ |DIOR- | 25 | I | Activating this Read Strobe signal | | | | | enables data from a register on the | | | | | drive to be clocked onto the host data| | | | | bus. The rising edge of this signal | | | | | latches data at the host. | +------------+-----+--------+---------------------------------------+ |IORDY | 27 | O | This signal is used to temporarily | | | | | stop the host register access (read or| | | | | write) when the drive is not ready to | | | | | respond to a data transfer request. | +------------+-----+--------+---------------------------------------+ |CSEL | 28 | I | This signal is used to configure a | | | | | drive as either Drive 0 or 1 when CSEL| | | | | mode is selected. This signal is | | | | | pulled up inside the drive. | | | | | +-----+--------------+ | | | | | |CSEL |Drive address | | | | | | +-----+--------------+ | | | | | |GND | 0 | | | | | | +-----+--------------+ | | | | | |OPEN | 1 | | | | | | +-----+--------------+ | +------------+-----+--------+---------------------------------------+ |INTRQ | 31 | O | This is an interruption signal for the| | | | | host system. This signal is asserted | | | | | by a selected drive when the nIEN bit | | | | | in the Device Control Register is "0".| | | | | In other cases, this signal should be | | | | | a high impedance state. | +------------+-----+--------+---------------------------------------+ |IOCS16- | 32 | O | This signal indicates to the host that| | | | | the 16 bis data port has been | | | | | addressed an a 16 bit word can be read| | | | | or written to the drive. | +------------+-----+--------+---------------------------------------+ |DA0-2 |33,35| I | This is a register address signal from| | | 36 | | the host system. | +------------+-----+--------+---------------------------------------+ |PDIAG- | 34 | I/O | This signal is asserted by Drive 1 to | | | | | indicate to Drive 0 that it has | | | | | completed diagnostics. This signal is | | | | | pulled up inside the drive. | +------------+-----+--------+---------------------------------------+ |CS1FX- | 37 | I | This drive chip selection signal is | | | | | used to select the Command Block | | | | | Registers from the host system. | +------------+-----+--------+---------------------------------------+ |CS3FX- | 38 | I | This drive chip selection signal is | | | | | used to select the Control Block | | | | | Registers from the host system. | +------------+-----+--------+---------------------------------------+ |DASP- | 39 | I/O | This signal indicates that a drive is | | | | | active or that Drive 1 is present | | | | | when power is turned on | +------------+-----+--------+---------------------------------------+ |DMARQ | 21 | O | This signal, used for DMA data | | | | | transfers between host and drive, | | | | | shall be asserted by the drive when | | | | | it is ready to transfer data. | +------------+-----+--------+---------------------------------------+ |DMACK- | 29 | I | This signal shall be used by the host | | | | | in reponse to DMARQ to either | | | | | acknowledge that data has been | | | | | accepted, or that data is available. | +------------+-----+--------+---------------------------------------+ ********************************************************************** I N S T A L L ********************************************************************** HITACHI DK212A/222A DISK DRIVE SPECIFICATION K6600782 26/10/95 Notes On Installation ===================== Installation direction ---------------------- horizontally vertically +-----------------+ +--+ +--+ | | | +-----+ +-----+ | | | | | | | | | +-+-----------------+-+ | | | | | | +---------------------+ | | | | | | | | | | | | | | | | | | +---------------------+ | +-----+ +-----+ | +-+-----------------+-+ +--+ +--+ | | | | +-----------------+ The drive will operate in all axis (6 directions). Screws: M3 (3.5mm) Connector --------- This device has 2mm pitch interface connector which contains a power line. The connector part list is showm in the following table. +--------------------+-----------------+----------------------+ |Interface cable side| Signal Connector| molex 87259-4413 | | | Receptacle | or equivalent | | +-----------------+----------------------+ | | Cable | AWG#28 or equivalent | +--------------------+-----------------+----------------------+ |Drive side | Signal Connector| molex 87400-5005 or | | | Plug | equivalent | +--------------------+-----------------+----------------------+ The I/O signal levels are as follows: Input signal High level +2.0V Vcc+0.5V Low level -0.5V 0.8V Output signal High level +2.4V +5.25V or an open circuit Low level +0.4V or less (IOL=2mA) +0.5V or less (IOL=24mA) The I/F cable should be no longer than 50cm (include the circuit pattern length in the host system). Recommended type of jumper socket: Vendor: Kyocera Elco Corporation Part Number: 20-8387-002-005-801 ********************************************************************** F E A T U R E S ********************************************************************** HITACHI DK212A/222A DISK DRIVE SPECIFICATION REV. 7 K6600782 10/95 Introduction ------------ The DK212/222A series disk drive embodies large capacity such as 1080MB, 810MB (19mm height) and 540MB (12.5mm height) in spite of the small size (2.5 inch) by applying the latest high-density record technology. It provides high performances such as 12ms of average seeking time and up to 11MB of transmission rate (Pio mode3). It also realizes high long-run reliability by reducing the number of parts dramatically and controlling the quality severely. Compared with 3.5 inch disk drives, the DK212/222 series disk drives improves power consumption economy drastically. It supports the standard ATA-2 (IDE) interface. Execute drive diagnostic [90h] ------------------------------ This command allows the drive to perform a self-diagnostics. When DRV0 and DRV1 are connected in the daisy chain mode, this command is executed for both of the drives. When the drive receives this command, it sets BSY=1 and executes the self-diagnostic operation. Then the drive registers the diagnostic result in the Error register, clears BSY, and generates an interrupt. Diagnostic Codes +------+---------------------+ | Code | Contents | +------+---------------------+ | 01 | NO ERROR | +------+---------------------+ | 02 | CONTROLLER ERROR | +------+---------------------+ | 03 | SECTOR BUFFER ERROR| +------+---------------------+ | 04 | ECC CIRCUITRY ERROR| +------+---------------------+ | 05 | CPU ERROR | +------+---------------------+ | 8X | DRV1 ERROR | +------+---------------------+