Hard Drive: INTEGRAL: COBRA 1882P 85MB PCMCIA III PCMCIA
C O B R A 1 8 8 2 P INTEGRAL
Native| Translation
------+-----+-----+-----
Form PCMCIA TYPE III Cylinders | 977| |
Capacity form/unform 85/ MB Heads 3| 10| |
Seek time / track 18.0/ 8.0 ms Sector/track | 17| |
Controller PCMCIA Precompensation
Cache/Buffer 32 KB LOOK-AHEAD Landing Zone
Data transfer rate 2.500 MB/S int Bytes/Sector 512
6.000 MB/S ext
Recording method RLL 1/7 operating | non-operating
-------------+--------------
Supply voltage 5 V Temperature *C 5 55 | -40 70
Power: sleep 0.1 W Humidity % 10 90 |
standby 0.4 W Altitude km -0.305 3.048| 12.192
idle 0.9 W Shock g 100 | 500
seek 1.5 W Rotation RPM 3571
read/write 1.5 W Acoustic dBA 34
spin-up 2.0 W ECC Bit AUTOMA.ERROR CORR.
MTBF h 150000
Warranty Month
Lift/Lock/Park YES Certificates CSA,IEC380,IEC435,IEC950,U...
Layout
INTEGRAL COBRA 1882P PRODUCT MANUAL 10000856 REV. A 8/7/92
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Jumpers
INTEGRAL COBRA 1882P PRODUCT MANUAL 10000856 REV. A 8/7/92
Customer Options ---------------- The Model 1882P can operate as a single drive or in a dual drive configuration. As shipped from the factory, the drive is set to indicate single drive or master. To utilize the drive as a master, the interface +MST/-SLV signal should be connected to VCC or left open. To configure a drive for use as a second drive or slave, the interface +MST/-SLV signal should be shorted to ground.
Interface Description --------------------- Pin Signal 07 -CS0 42 -CS1 17 VCC 51 VCC 55 +MST/-SLV 62 -DASP 63 -PDIAG 58 -RESET
All signal levels are TTL compatible. A logic "1" is > 2.0 volts. A logic "0" is from 0.00 volts to .70 volts. All logic 0 active signals are prefixed with a "-" designation. All logic 1 active are prefixed with a "+" designation.
Interface Connector Pin Assignment ---------------------------------- +---+---+--------------------------+ |Pin|I/O|PCMCIA Memory Signal | +---+---+--------------------------+ | 01| |GND Ground | +---+---+--------------------------+ | 02|I/O|D3 Data Bit 3 | +---+---+--------------------------+ | 03|I/O|D4 Data Bit 4 | +---+---+--------------------------+ | 04|I/O|D5 Data Bit 5 | +---+---+--------------------------+ | 05|I/O|D6 Data Bit 6 | +---+---+--------------------------+ | 06|I/O|D7 Data Bit 7 | +---+---+--------------------------+ | 07|I |CS0- Chip select | +---+---+--------------------------+ | 08| | | +---+---+--------------------------+ | 09| | | +---+---+--------------------------+ | 10| | | +---+---+--------------------------+ | 11| | | +---+---+--------------------------+ | 12| | | +---+---+--------------------------+ | 13| | | +---+---+--------------------------+ | 14| | | +---+---+--------------------------+ | 15| | | +---+---+--------------------------+ | 16|O |+IRQ | +---+---+--------------------------+ | 17|I |Vcc | +---+---+--------------------------+ | 18| | | +---+---+--------------------------+ | 19| | | +---+---+--------------------------+ | 20| | | +---+---+--------------------------+ | 21| | | +---+---+--------------------------+ | 22| | | +---+---+--------------------------+ | 23| | | +---+---+--------------------------+ | 24| | | +---+---+--------------------------+ | 25| | | +---+---+--------------------------+ | 26| | | +---+---+--------------------------+ | 27|I |A2 Address Bit 2 | +---+---+--------------------------+ | 28|I |A1 Address Bit 1 | +---+---+--------------------------+ | 29|I |A0 Address Bit 0 | +---+---+--------------------------+ | 30|I/O|D0 Data Bit 0 | +---+---+--------------------------+ | 31|I/O|D1 Data Bit 1 | +---+---+--------------------------+ | 32|I/O|D2 Data Bit 2 | +---+---+--------------------------+ | 33|O |-IOCS16 | +---+---+--------------------------+ | 34| |GND Ground | +---+---+--------------------------+ | 35| |GND Ground | +---+---+--------------------------+ | 36|O |CD1- Card Detect | +---+---+--------------------------+ | 37|I/O|D11 Data Bit 11 | +---+---+--------------------------+ | 38|I/O|D12 Data Bit 12 | +---+---+--------------------------+ | 39|I/O|D13 Data Bit 13 | +---+---+--------------------------+ | 40|I/O|D14 Data Bit 14 | +---+---+--------------------------+ | 41|I/O|D15 Data Bit 15 | +---+---+--------------------------+ | 42|I |-CS1 | +---+---+--------------------------+ | 43| | | +---+---+--------------------------+ | 44|I |-IOR | +---+---+--------------------------+ | 45|I |-IOW | +---+---+--------------------------+ | 46| | | +---+---+--------------------------+ | 47| | | +---+---+--------------------------+ | 48| | | +---+---+--------------------------+ | 49| | | +---+---+--------------------------+ | 50| | | +---+---+--------------------------+ | 51|I |Vcc | +---+---+--------------------------+ | 52| | | +---+---+--------------------------+ | 53| | | +---+---+--------------------------+ | 54| |VU Vendor Unique |Must Open at the Host +---+---+--------------------------+ | 55|I |+MST/-SLV | +---+---+--------------------------+ | 56| | | +---+---+--------------------------+ | 57| | | +---+---+--------------------------+ | 58|I |RESET Card Reset | +---+---+--------------------------+ | 59|O |+IOCHRDY | +---+---+--------------------------+ | 60| | | +---+---+--------------------------+ | 61| | | +---+---+--------------------------+ | 62|I/O|-DASP | +---+---+--------------------------+ | 63|I/O|-PDIAG | +---+---+--------------------------+ | 64|I/O|+DATA 8 Data Bit 8 | +---+---+--------------------------+ | 65|I/O|D9 Data Bit 9 | +---+---+--------------------------+ | 66|I/O|D10 Data Bit 10 | +---+---+--------------------------+ | 67|O |CD2- Card Detect | +---+---+--------------------------+ | 68| |GND Ground | +---+---+--------------------------+
Install
INTEGRAL COBRA 1882P PRODUCT MANUAL 1000856 REV. A 8/7/92
Notes On Installation
=====================
Installation direction
----------------------
horizontally vertically
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+-+-----------------+-+ | | | | | |
+---------------------+ | | | | | |
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+---------------------+ | +-----+ +-----+ |
+-+-----------------+-+ +--+ +--+
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Envelope and Mounting Drawings
------------------------------
The features which allow greater shock and vibration tolerance
include the dynamically loaded heads, a fully balanced rotary
actuator, an inertial rotary actuator lock, and the low overall mass
and weight of the drive and moving masses. The drive may be mounted
in any attitude as long as it is properly retained. Adequate
ventilation must also be provided to the drive to ensure reliable
operation over the specified operating temperature range.
Read/Write and Control Electronics
----------------------------------
The Model 1882P has an integrated circuit attached to the flex
circuit connected to the actuator arm and read/write heads to provide
head selection, read preamplification, and write drive circuitry.
Drive Mechanism
---------------
The spin speed of the brushless DC drive spindle motor is maintained
by using the motor in a synchronous mode. Energy stored in the
spindle motor is used to unload the read/write heads upon drive power
down.
Head Positioning Mechanism
--------------------------
The read/write heads of the Model 1882P are directly attached to the
actuator body which also supports the moving coil. The read/write
heads are unloaded when the drive is spin down. This dynamically
ramp loaded mechanism eliminates head/media contact associated with
power cycling.
Read/Write Heads and Disks
--------------------------
Data is recorded on two 48mm diameter disks using 70% MIG heads.
Air filtration system
---------------------
The Model 1882P HDA breathers through a high efficiency ambient
filter. A high flow recirculative filter maintains a clean
environment of better than class 100 for the heads and disk
enclosure.
Features
INTEGRAL COBRA 1882P PRODUCT MANUAL 10000856 REV. A 8/7/92
Enhanced Ruggedness
-------------------
Notebook, subnotebook and handheld computers used in mobile field
applications must be capable of surviving a high degree of shock and
vibration due to the often unpredictable and adverse conditions
under which they are operated. Int gral's products address these
requirements with a unique ramp loading mechanism for loading and un-
loading the heads without touching the media, providing several
benefits relating to ruggedness, reliability and low power
consumption.
Int gral's dynamic ramp loading technology represents an
innovative approach to solving the environmental challenges of 1.8
inch disk drive engineering by virtually eliminating the possibility
of head slap in the power down state when the drive has been re-
moved from the system. As a result, Int gral's drives can withstand
greater than a 500G shock force in the non-operating mode. The
benefits of ramp loading perhaps can best be illustrated by the
start/stop specification of Int gral drives: a minimum of 250,000
successful start/stops is guaranteed, while a conventional contact
start/stop drive typically specifies only 40,000.
Functional Description
----------------------
The Model 1882P disk drive contains all the necessary mechanical
and electronic components to interpret control signals, properly
position the recording heads, read and write data, and maintain a
contaminant free environment for the disks and recording heads.
Key Features
------------
- 1.8 inch form factor hard drive designed to meet the requirements of a PCMCIA TYPE III PC Card with the exception of dimensions T3.
- Metallic packaging enclosure for ESD protection.
- High capacity 1.8 inch providing the lowest power, lowest weight for the palm top environment.
- Unique ramp loading mechanism for loading and unloading the disk heads during power downs and periods of inactivity which provides high shock durability and protection from stiction.
- User invoked low power and power down modes for power sensitive applications.
- High performance rotary voice coil actuator with embedded servo system.
- Automatic actuator lock to protect against rotary shock.
- On board controller with a single connector for AT interface and power. Additionally, the interface supports master/slave protocol.
- 32K buffer cache with look ahead read.
- Automatic error detection and correction.
Diagnostic Routines
-------------------
Upon power up the microprocessor circuitry of the Model 1882P per-
forms diagnostics. If an error is detected the drive will not come
ready.
Start Sequence
--------------
When power is applied to the drive, it will interrogate the -IDE1
signal to determine is the slot is expecting an IDE drive. If
this line is high during this interrogation, the drive will into a
deep sleep mode. The only way to recover from this mode is to cycle
the VCC input to the drive.
During the deep sleep mode, if a -RESET signal occurs on the
interface, a portion of the drive will wake up and then return to the
deep sleep mode without effect on the interface signals.
If the -IDE1 signal is low during the initial power on interrogation,
the drive will spin up, do a servo calibration, perform internal
diagnostics and come ready. This requires a total time of 5 seconds.
Subsequent spin up from power saving modes do not require calibration
so will be completed within 1.5 seconds.
Translate Mode
--------------
Since the model 1882P does not have the same number of sectors on
all cylinders, the drive always functions in the translate mode. Upon
initial power up, the drive will default to 10 heads, 977 cylinders
and 17 sectors per track. The initialize Parameters command can be
used to change these values.
Read Buffer
-----------
The Read Buffer command allows the host to read the current contents
of the drive's sector buffer. Only the Command register is valid for
this command. When this command is issued, the drive will set BSY set
up the sector buffer for a read operation, set the DRQ bit, reset
BSY, and generate an interrupt. The host may then read 512 bytes of
data from the buffer.
Write Buffer
------------
The Write Buffer command allows the host to overwrite the contents of
the drive's sector buffer with any data pattern desired. Only the
Command register is valid for this command. When this command is
issued, the drive will set up the sector buffer for a write operation
and set the DRQ bit. The host may then write 512 bytes of data to the
buffer.
Identify Drive
--------------
The Identify command allows the host to receive parameter information
from the drive. When the command is issued, the drive sets BSY,
stores the required parameter information in the sector buffer, sets
the DRQ bit, resets BSY, and generates an interrupt. The host may
then read the information out of the buffer.
Standby Commands
----------------
These commands are available to immediately go into or out of the
Standby mode, or to enable or disable a timer to automatically go to
Standby. The timer will be running any time it is enabled and the
drive is in the Active mode. When enabled, each disk access will
reset the timer to its initial value. When the timer times out, the
drive will enter the Standby mode. When the drive is in Standby, any
disk access will cause the drive to go to the Active mode. When a
command is given to enable the timer, the value in the Sector Count
register specifies the number of 5 second increments to be used by
the timer. The Standby commands follow:
E0 The drive will immediately go to the Standby mode.
E1 The drive will immediately go to Active mode.
E2 The drive will immediately go to the Standby mode. If the Sector
Count register is zero then the timer will be disabled. If the
Sector Count register is non-zero the timer will be enabled and
initialized with the Sector Count value.
E3 The drive will immediately go to the Active mode. If the Sector
Count register is zero then the timer will be disabled. If the
Sector Count register is non-zero the timer will be enabled and
initialized with the Sector Count value.
E5 If the drive is in the Active mode, the Sector Count register will
be set to hex FF. If the drive is in, going to, or recovering from
the Standby mode, the Sector Count register will be set to hex 00.
E6 The drive enters the Sleep mode. Either a software or hardware
reset is required to recover from this mode. Upon receiving a
reset, the drive will enter the Standby mode.
In addition to the modes described above, if -IDE1 is not low after
application of power, the drive will enter a deep sleep mode that
requires a power cycle to reactivate the drive.
Execute Drive Diagnostic
------------------------
This command performs the internal diagnostic tests implemented by
the drive. The drive sets BSY immediately upon receipt of the
command, performs the diagnostic tests and saves the results. If
unsuccessful, it sets its Error register as described below. The
drive resets BSY, and generates an interrupt. The value in the Error
register should be viewed as a unique 8 bit code and not as the
single bit flags defined previosly. The registers are set to initial
values except for the Error register if error.
The table below details the codes in the Error register and a
corresponding explanation. Additional codes may be implemented at the
manufacturer's option.
Error Code Description
------------------------
01 No error detected
02 Controller error
03 Sector buffer error
05 Control processor error
8X Slave drive failed. If the slave fails diagnostics, the
master will "OR" 80 hex with its own status and load
that code in the Error register. If the slave passes or
is not connected, the master will set bit 7 of the Error
register to zero.
Error Correction
----------------
The Model 1882P performs internal error correction through the use of
a polynominal capable of correcting one error burst with a maximum of
22 bits, or two error bursts each with a maximum of 11 bits, per 512
byte block. Single burst errors of 11 bits or less are corrected with
no performance degradation.
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