H 3 2 5 6 - A 3 IBM NO MORE PRODUCED Native| Translation ------+-----+-----+----- Form 3.5"/SLIMLINE Cylinders 1280| 872| | Capacity form/unform 256/ MB Heads 3| 16| | Seek time / track 14.0/ 4.0 ms Sector/track | 36| | Controller IDE / AT Precompensation Cache/Buffer 96 KB SEGMENTED Landing Zone Data transfer rate 3.000 MB/S int Bytes/Sector 512 8.300 MB/S ext PIO2 Recording method RLL operating | non-operating -------------+-------------- Supply voltage 5/12 V Temperature *C 5 55 | -40 65 Power: sleep W Humidity % 8 90 | 5 95 standby W Altitude km -0.300 3.000| -0.300 12.000 idle W Shock g 10 | seek W Rotation RPM 3600 read/write W Acoustic dBA spin-up W ECC Bit ON THE FLY MTBF h 250000 Warranty Month Lift/Lock/Park YES Certificates CSA,FCC,IEC380,IEC435,IEC9... ********************************************************************** L A Y O U T ********************************************************************** IBM H3XXX-AX OEM FUNCTIONAL SPECIFICATIONS SC18-2274-00 6/1993 +---------------------------------------------------------+ | +------------------------------------------------- |XX Power | | |xx | | |XX | | |XX AT | | |XX | | |XX I | | |XX N | | |XX T | | Logic Card |XX E | | |XX R | | |XX F | +---------------------------------------------+ |XX A | Back Side of the Drive JP1+++ |XX C | : | | |XX E | : | | | | JP7+++ |XX | +--- |XX Power +---------------------------------------------------------+ ********************************************************************** J U M P E R S ********************************************************************** IBM H3XXX-AX OEM FUNCTIONAL DESCRIPTIONS SC18-2274-00 6/1993 Jumper Setting ============== The seven-position jumper block shown below is used to select the master or slave, the cable selection, and the LED output port. JP2 JP3 JP1 Slave Cable JP7 Master | Selection LED | | | JP4 JP5 JP6 | +--+ +--+ +--+ +--+ +--+ +--+ +--+ |1 | |3 | |5 | | | | | | | |13| +--+ +--+ +--+ +--+ +--+ +--+ +--+ +--+ +--+ +--+ +--+ +--+ +--+ +--+ |2 | |4 | |6 | | | | | | | |14| +--+ +--+ +--+ +--+ +--+ +--+ +--+ --------------------------------------- -----------Raw-Card-------------------- NOTES 1. Jumpers for JP1, 2, and 3 should not be selected concurrently. 2. JP1 is for Master, JP2 is for Slave, JP3 is for Cable Selection mode. 3. To enable Cable Selection mode, the JP3 jumper must be installed. In the Cable Selection mode, the drive address is determined as follows: - When CSEL is grounded or at a low level, the drive address is 0 (master). - When CSEL is open or at high level, the drive address is 1 (slave). The CSEL signal, ATA interface pin 28, is controlled by the host system. 4. Position JP4/JP5/JP6 are not used. 5. JP7 is the position for an external LED. The Jumper Pin Assignments -------------------------- +--+-------+------+-----------------------------+------------+ |JP|Pin No.|Status|Description |Signal Name | +--+-------+------+-----------------------------+------------+ | 1| 1 | --- | GND | | | | 2 | IN | -Device Address Select Line | -C/+D | +--+-------+------+-----------------------------+------------+ | 2| 3 | --- | NC (Slave position) | | | | 4 | --- | NC | | +--+-------+------+-----------------------------+------------+ | 3| 5 | IN | Cable Selection (Pin 28) | | | | 6 | IN | -Device Address Select Line | -C/+D | +--+-------+------+-----------------------------+------------+ | 4| 7 | --- | NC | | | | 8 | --- | NC | | +--+-------+------+-----------------------------+------------+ | 5| 9 | --- | NC | | | | 10 | --- | NC | | +--+-------+------+-----------------------------+------------+ | 6| 11 | --- | NC | | | | 12 | --- | NC | | +--+-------+------+-----------------------------+------------+ | 7| 13 | OUT | +LED | +LED | | | 14 | OUT | -LED | -LED | +--+-------+------+-----------------------------+------------+ ON = INSTALLED, OFF = NOT INSTALLED - LED output (+LED pin 13) This pin has a maximum current source capability of +18 mA at a nominal condition. This pin is designed to drive an LED. - LED output (-LED pin 14) This pin has a current sink capability of -100 mA at 0.25V for the worst case. This pin is designed to drive an LED. Default Setting --------------- The default jumper setting at shipment is as follows. Position:|JP1| JP2| JP3| JP4| JP5 | JP6 | JP7 Pin: |1-2| 3-4| 5-6| 7-8| 9-10|11-12|13-14 ---------+---+----+----+----+-----+-----+------ Jumper: | ON| OFF| OFF| OFF| OFF | OFF | OFF | | | +-- No LED load. | | +------------------------ Cable Selection | +----------------------------- Device ID = Slave +---------------------------------- Device ID = Master ********************************************************************** I N S T A L L ********************************************************************** IBM H3XXX-AX OEM FUNCTIONAL SPECIFICATIONS SC18-2274-00 6/1993 Notes on Installation ===================== Installation direction ---------------------- horizontally vertically +-----------------+ +--+ +--+ | | | +-----+ +-----+ | | | | | | | | | +-+-----------------+-+ | | | | | | +---------------------+ | | | | | | | | | | | | | | | | | | +---------------------+ | +-----+ +-----+ | +-+-----------------+-+ +--+ +--+ | | | | +-----------------+ Drive Mounting -------------- The drive functions in all axes (6 directions). Performance and error rate stay within specification limits even if the drive is operated in other orientations from which it was formatted. For reliable operation, it is recommended to mount the drive in the system securely enough to prevent excessive motion or vibration of the drive during seek operation or spindle rotation, using appropriate screws or equivalent mounting hardware. Consult with the issuer of this specification for the actual application, if necessary. The drive level vibration test and the shock test are to be conducted with the drive is mounted to the table using four bottom screws (6-32 UNC). Identification Labels --------------------- The following labels are affixed to every hard disk drive shipped from the manufacturing location in accordance with appropriate hard disk drive assembly drawing. - A label contaning the IBM logo, IBM part number and the statement "Made by IBM Japan Ltd.". - A label containing the drive model number, date code, formatted capacity, place of manufacture, and UL/CSA/TUV logos. - A bar code label containing the drive serial number. - An user designed label per agreement. The labels may be integrated with the other labels. Cabling ------- The maximum cable length from the host system to the HDD, plus the circuit pattern length in the host system, cannot exceed 45.7 cm. Interface Logic Signal Levels ----------------------------- The interface logic signal have the following electrical specifications: Inputs: Input High Voltage 2.0 V min. Input Low Voltage 0.8 V max. Outputs: Output High Voltage 2.4 V min. Output Low Voltage 0.5 V max. There is a choice of 2 power connections to this drive. One DC power connector is designed to mate with AMP part 1-480424-0 (using AMP pins P/N 350078-4). The other (3 pin) DC power connector is designed to mate with MOLEX 5480-03 (using MOLEX pins 5479). Equivalent connectors may be used. Pin assignments are shown below, as viewed from the end of the drive. +-----+ +-------+ |1 2 3| |4 3 2 1| +-----+ +-------+ | | +- GND | | | +-- +12V | +--- +12V | | +---- GND +----- +5V | +------ GND +-------- +5V Packaging --------- The drive must be protected against Electro-Static Discharge especially when being handled. The safest way to avoid damage is to put the drive in an anti static bag before ESD wrist straps etc. are removed. Drives should only be shipped in approved containers, severe damage can be caused to the drive if the packaging does not adequately protect against the shock levels induced when a box is dropped. Consult your IBM marketing representative if you do not have an approved shipping container. ********************************************************************** F E A T U R E S ********************************************************************** IBM H3XXX-AX OEM FUNCTIONAL SPECIFICATIONS SC18-2274-00 6/1993 General Features ---------------- - Sector format of 512 bytes/sector - Close-loop actuator servo - Dedicated head landing zone - Automatic actuator look - Interleave factor 1:1 - Three segmented 32KB of buffer implementation with read look-ahead buffer - 96KB sector buffer - ECC On The Fly (EOF) - Automatic Error Recovery Procedures for Read and Write commands - Self Diagnostics during Power On and resident diagnostics - PIO Data Transfer - Mode 2 Error Register -------------- +-----------------------------------+ | Error Register | +---+---+---+----+--+----+-----+----+ | 7 | 6 | 5 | 4 |3 | 2 | 1 | 0 | |BBK|UNC| 0 |IDNF|0 |ABRT|TK0NF|AMNF| +---+---+---+----+--+----+-----+----+ This register contains status from the last command executed by the drive, or a diagnostic code. At the completion of any command except Execute Drive Diagnostics, the contents of this register are valid when ERR equals 1 in the status register. After a power on, a reset, or completion of an Execute Drive Diagnostic command, this register contains a diagnostic code. Bit Definitions BBK Bad Block. BBK = 1 indicates a bad block mark was detected in the requested sector's ID field. UNC Uncorrectable Data Error. UNC = 1 indicates an uncorrectable data error has been encountered. IDNF(IDN) ID Not Found. IDN = 1 indicates the requested sector's ID field could not be found. ABRT(ABT) Aborted Command. ABT = 1 indicates the requested command has been aupported to a drive status error or an invalid parameter in an output register. TK0NF Track 0 Not Found. T0N = 1 indicates track 0 was not found (T0N) during a Recalibrate command. AMNF(AMN) Address Mark Not Found. AMN = 1 indicates the data address mark has not been found after finding the correct ID field for the requested sector. Head Disk Assembly ------------------ The head disk assembly (HDA) is assembled in a clean room environment and contains the disk and actuaor assembly. Air is constantly circulated and filtered when the drive is operational. Ventilation of HDA is accomplished via an absolute breather filter. The spindle is directly driven by an in-hub, brushless, sensorless DC drive motor. Dynamic braking is used to quickly stop the spindle. Actuator -------- The read/write heads are mounted in the actuator. The actuator is a swing-arm driven by a voice coil motor. A closed-loop positioning servo controls the movement of the actuator. An embedded servo pattern supplies feedback to the positioning servo to keep the read/ write heads centered over the desired track. The actuator assembly is balanced to allow vertical or horizontal mounting without adjustment. When the drive is stopped by a power-off condition, the actuator automatically moves the head to a dedicated landing zone outside of the data area, where the actuator is locked. Cable Noise Interference ------------------------ To avoid any degradation of performance throughput or error rate when the interface cable is routed on top or comes in contact with the HDA assembly, the drive must be grounded electrically to the system frame by four screws. The common mode noise or voltage level difference between the system frame and power cable ground or AT interface cable ground should b ein the allowable level specified in the power requirement section. Unit Sound Power Level Testing ------------------------------ Sound power emission levels are measured according to ISO 7779. The statistical upper limit of the A-weighted sound power levels given in Bels relative to 1 pico Watt are shown in the following table. +---------+------------------------+ |Mode |Statistical upper limit | +---------+------------------------+ |Idle | 4.5 Bels | +---------+------------------------+ |Operating| 4.8 Bels | +---------+------------------------+ Shipping Zone and Lock ---------------------- A dedicated "shipping" (or "landing") zone on the disk, not on the data area of the disk, is provided to protect the disk data during shipping, movement, or storage. At power down, the heads are auto- matically parked and a head locking mechanism secures the heads in this zone. ********************************************************************** G E N E R A L ********************************************************************** IBM AT INSTALLATION (IDE-AT1) IDE Installation Guide Generic Installation requirements ------------------------- To install an IDE drive inside your computer, you must have: 1 The documentation that came with your computer. 2 The documentation that came with your hard drive. 3 A small, flat blade screwdriver. WARNING: Do not open the static-protective bag containing the drive until instructed to do so. Static electricity can damage the drive. Preparing the drive for installation ------------------------------------ Master drive If this drive is the first or primary hard disk drive to be installed inside your computer, check the manual that came with your hard drive to locate the Master setting. If your drive is set to a Master, do not change the jumper position. Slave drive If this drive is the second or secondary hard disk drive in your computer, you must change the jumper position on the drive to Slave. Refer to the manual that came with your hard disk drive to locate the Slave setting. To change the jumper on the hard disk drive: 1 Remove the drive from the static-protective bag and place it on top of the bag. 2 Refer to your manual and locate the pins. 3 If you need to change the setting, grasp the jumper and pull it off the pins. 4 Line up the two holes in the bottom of the jumper with the approprate two pins on the drive. Push the jumper onto the pins until the jumper is completely seated and covers both pins. Installing the drive -------------------- For the specific information on installing a hard disk drive, refer to the documentation that came with your computer. You will be required to mount the drive inside your computer, connect signal and power cables to the hard drive, and update the configuration information. Handling precautions -------------------- 01 Turn off all attached devices first; then turn off the computer. 02 Unplug all the power cords from electrical outlets before starting installation. 03 Disconnect all power cables from your computer and attached devices before starting installation. 04 Limit your movement. Movement can cause static electricity to build up around you. 05 Handle the drive carefully and by the edges. 06 Do not touch any exposed printed circuitry. 07 Prevent other people from touching the components or the drive. 08 When you are installing the drive, touch the static-protective package containing the drive to a metal expansion-slot screw or other unpainted metal surface on the computer, for at least 2 seconds. (This drains static electricity from the package and your body.) 09 When possible, remove the drive and install it directly into the computer without setting it down. If this is not possible, place the drive, component side up, on the static-protective bag on a flat surface until the drive is installed. 10 Do not place the drive on the computer cover or on a metal table. Note: Be sure to use the correct screws provided with your drive. Using the wrong ones might cause damage to the drive. Completing the installation procedure ------------------------------------- The installation of the drive is complete. Reinstall the cover on the computer or storage enclosure. Store these instructions and any extra parts in a safe place in case you change your configuration. After installing your hard disk drive, use the information that came with your computer to reconfigure your system. When you power on your system, turn on all attached devices first; then turn on the computer. If you have any problems at this point, turn off all attached devices; then, turn off the computer and check that: 1 The cables are installed correctly 2 No options or cables are loose 3 The jumpers are properly set Turn on all attached devices; then, turn on the computer. If you still have a problem, refer to the troubleshooting information in the documentation that came with your computer. Update configuration -------------------- Whenever you add or remove an option from your computer, you must update the configuration information. Your computer might have an automatic configuration program, or you might have to follow a specific procedure. For more information, refer to the documentation that came with your computer. Preparing the drive for use --------------------------- Having successfully installed the hard disk drive, you need to prepare it for use. Depending on the operating system you are using, you might need to partition then format the hard disk. Refer to the documentation that came with your operating system for information on how to format your new drive. To make the drive just installed your primary drive, you might need to create a new system partition on the drive. For information on creating a new system partition, refer to the documentation that came with your operating system. Troubleshooting --------------- You might be able to solve a problem yourself. Before calling IBM, you might want to try some or all of the following troubleshooting procedures. 1 Remove and reattach all drive cables 2 Remove and reseat the drive 3 Place the drive in a different slot, if one is available 4 If your drive contains jumpers or switches, check that they are set as specified 5 Reread any software instructions; be sure software settings are correct 6 Inspect the drive for damage, such as bent pins 7 Check the computer manual for instructions about the installation of upgrades. Look for a section about system setup or system configuration. Follow all procedures. 8 After completing these steps, reassemble the computer and connect the power cord If you are still having problems and want to call IBM technical support, have available as much of the following information as possible: 1 Drive model or P/N and description 2 Computer manufacturer and model 3 Exact wording of error message (if any) 4 Description of the problem 5 Hardware and software configuration information for your system If possible, be at your computer. Your technical support rep might want to walk you through the problem during the call.