n DC-600C/CF/CD:ISA Bus
n DC-620B:EISA Bus
n DC-680T/C/CD:VL-Bus
n DC-690C/CD:PCI
(Peripheral Component
Interconnect)
Bus
This manual is for DC-600C/CF/CD (ISA-Bus), DC-620B (EISA-
Bus), DC-680T/C/CD (VL-Bus) and DC-690C/CD (PCI-Bus), and
the DC-6X0 is short for these models.
VESA and VL-Bus are trademarks of the Video Electronics Standards Association
Novell and NetWare are trademarks of Novell, Inc.
MS-DOS and Windows are trademarks of the Microsoft Corporation.
SCO is a trademark of Santa Cruz Operation Inc.
ISC is a trademark of Interactive Systems Corporation.
UNIX is a trademark of AT&T Bell Lab.
OS/2 is a trademark of IBM.
Green-Cache is a trademark of TEKRAM Technology Co., Ltd.
(other trademarks shown are the property of their respective owners)
.
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LED Jumper Setting (JP1)
IDE Caching Controller
Four-pin cap
How to do with CACHE:
1. 256KB/1MB/4MB 80ns SIMM are required & can be
mixed for different combinations.
2. two SIMMs as a bank, & must be with the same type.
3. Bank-0 must be installed with DRAM SIMMs,
Bank-1 is O.K. to install or not.
two-pin cap
leftmost
two-pin cap
rightmost
Warning
It is especially important with a
caching controller that you do not
power-off the system while the
hard drive activity LED is still
active.
Doing so will result in loss of data!
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IDE Caching Controller
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For DC-690C(D) with A Paddle Board
That the DC-690C(D) equips with a paddle board is to resolve the IRQ14/15
problem, which is mainly caused by specification inconsistency between
Standard IDE and PCI Interrupt Protocol. This Paddle Board can be inserted
onto an ISA or EISA bus slot and re-routes IRQ14/15 signals directly from
ISA/EISA bus on the mainboard to DC-690C(D), and thus resolves the
possible compatibility problem caused by some of the mainboards.
To add the Paddle Board or not is up to you, if your system already can work
without it. If you have compatibility problem as explained in the above, toinstall the paddleboard would be necessary:
CN3:Legacy Header (5x2) -> connect to paddleboard
JP3:PCI Configuration Space (PnP support). Pin1-2: disable
& Pin2-3: enable. (for DC-690C only)
* Keep mainboard's setting for INTA-D# as its default value, i.e.,
don't have to change anything.
The Paddle Board provides one 5x2 connector for connecting to CN3 of the
DC-690C(D).
The Green Cache controller is designed to meet the environmental
protection requirements by switching storage system into sleeping mode
in order to reduce the power consumption. This controller offers RAID-
1 (Redundant Array of Inexpensive Disks, Level 1) hardware-based disk
mirroring with Jumper-Less installation utility under all operating
systems to safeguard your valuable data.Its caching capability is to
relieve the bottleneck between slow I/O bus interface and IDE disk
subsystems. Microprocessor-controlled Caching Algorithms are employed to easily handle heavy bus loading. It also provides the most
flexible means of installing and upgrading the IDE drive, and is compatible with all major operating systems.
Its on-screen Advanced Configuration Menu, or ACM, provides assorted
utilities:
nDisk Parameter Setup: Allows you to mirror/link two drives into
one logical drive and enable the Track-Remapping function for
>528MB drive under DOS environment.
nController Option Select: Green Cache (power saving), max 4
drives support, cache line size, and other settings for controller.
nDisplay Drive Information: Displays all the drive information, such
as Drive model/Firmware version/Serial #/Cylinder/Head/sector.
nLow Level Format
nMirror Initialization/Repair: Ease your initialization/repair prepa-
ration for mirroring pair drives.
nMirror Drive Verification: Check if the mirroring pair have identi-
cal data.
nDisk Image Copy/Compare: Copy/Compare the whole disk data
from SOURCE disk to TARGET disk.
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IDE Caching Controller
Green Cache (Power Saving)
The Green Cache controller not only saves power for IDE drive(s) but also the
board itself:
q Board: During its IDLE state, i.e., no access activity to the storage
subsystem, the clock signal generated by on-board processor would be
turned off automatically, and thus force the rest power-consuming
components into the SLEEPING states. The Power saving during this
GREEN period is tremendous:
Main ComponentActiveGREEN (sleeping)Power Saved
80C2861.4W0.025W98.21%
E2ROM15mW0.25mW98.33%
q IDE Drive: Those drives featured with the "MOTOR OFF" command
would enjoy even more power saving from the GREEN CACHE. This is
because the controller would turn off the drive's motor after a specific period
of IDLE time by using this optional command. The following is an example
based upon an ALPS 312C drive:
StatePower Consumption
Idle2.5W
GREEN (Standby)0.6W
====================================
Power Saved76%
Refer to Green Cache Mode of Controller Option Select module in the ACM
(Chapter 3) for details.
Disk Mirroring (RAID-1)
This disk fault tolerance feature is available for all operating systems without
sacrificing the performance. It's transparent to both the user and operating
system. With this feature enabled, the controller would write to two hard disks
at the same time and keeps your system running, even when one of the drives
is crashed. Refer to Attribute of Disk Parameter Setup module in the ACM
(Chapter 3) for details.
4 Drives Support
The Green Cache controller provides you three options to optimize the storage
subsystem and supports up to four drives. These three options can be mixed
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within the same system and thus give you great flexibility on the disk subsystem.
q 4 Individual Drives: It allows you to work with up to four independent
drives, i.e., physical drives C:, D:, E: & F:, and change the bootingdrive to any one of them at your own will. This not only overcomes the
only_two_drives limitation under DOS, but also provides you the flexibility to handle different kinds of operating systems within one machine,
which may require to boot from another O.S. from time to time. If two of
them are installed, one as primary & the other one as secondary, you can
even control up to eight individual drives.
q Mirroring: Two mirrored drives would function as one logical drive
with fault tolerance capability. This advanced option allows you to
maintain data security for disk sub-system. With the ACM, you are free
to re-configure your drives into mirroring or just individual ones without
opening the cabinet, and eventually costs you nothing to have this RAID1 feature. Maximum 2 pairs for each controller.
q Linking: Two linked drives would be seen as one logical drive with
capacities summed together. It provides you an alternative to expand the
desired drive capacity from your current used drives without purchasing
another new drive of larger capacity. Maximum two pairs for each
controller.
Refer to
(Chapter 3) for details.
More Than 2 Drives of Controller Option Select module in the ACM
Driver Support
32-bit drivers are supported for DOS, Windows, OS/2, NetWare, AT&T
UNIX, SCO UNIX and ISC UNIX. These drivers also support you to install
two DC-6X0 controllers and work with maximum eight individual drives.
Newly updated drivers will be put in the driver diskettes without notice in the
manual. Please check the README in the Novell driver diskette for further
details.
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Chapter 1:
Preparation
With ACM menu and jumper-less design, the DC-6X0 is extremely easy to
configure and install. Normally, the DC-6X0 has four SIMM sockets, yet
some of the models may have two 512KB DRAM chips mounted to replace
the two SIMM sockets on Bank-0. JP3 and JP4 on the DC-680T are for
manufacturing purpose.
1.1 JP1 - Hard Drive LED Indicator
JP1 is used to indicate hard disk activity and connected to the hard disk
activity LED in the front panel of your system. This LED also flashes some
diagnostics codes right after power-up.
The following shows the flash frequency of each fatal error condition:
n One short flash: No Cache DRAM installed
n Two short flashes: CPU error
n Three short flashes: SRAM error
n Four short flashes: Timer error
The DC-6X0 supports write back mode to achieve the best performance for
a caching controller. It would write modified cache data back to disk when
the system is idle, or when a cache read request misses and it becomes
necessary to flush the modified cache line buffers to make room for new data.
If the system is busy, DC-6X0 would ensure the modified data to be written
back to disk after 0.5 second from the update command was issued to further
prevent potential data corruption by accidental wrong doing or system
malfunctioning. Write back mode results in superior cache performance
because it permits the cache controller to combine and sort write operations
prior to updating the disk, and because the updating is done in the background
when the system is idle or the write time threshold is reached.
Due to the nature of Write Back, you must be cautious when turning the
power down: Do not Power-down the system while this LED is still active.
Doing so may result in loss of data as the contents of the cache buffer
have not been completely written to the disk.
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1.2 JP2 - Mirroring Beeper
JP2 is used to issue the warning beep through a speaker when an error occurs
during the process of disk mirroring. It can be connected to the SPEAKER in
the front panel of your system or to another speaker complying with the same
specification of the system’s SPEAKER.
1.3 JP3 - A T API CD-ROM Jumper (for DC-600CD/680CD only)
When JP3 is installed, the DC-600CD/680CD would allow you to install up
to four hard drives (on the Primary port) and two ATAPI CD-ROM drives
(on the Secondary port: 170H).
If you install two DC-6x0 in a single system, then you cannot use the ATAPI
interface on either board. This is due to the fact that each board requires a
primary or secondary port address. Once the secondary port address 170H is
used for the ATAPI connector, there will be no additional port address for
one of the boards. So you must disable this option to install two DC-6x0 in
a single system.
For the DC-690CD, please refer to Sec.3.2 for how to enable/disable ATAPI
CD-ROM installation.
1.4 Cable Connection (CN1, CN2, CN3, CN4)
CN1 and CN2 are for hard drive connection. If you are attaching a single
new or used IDE drive to the DC-6X0, connect the drive to the IDE BUS1
connector, CN1, on the DC-6X0 using either an existing or the supplied 40
pin data/control cable.
If you are attaching “two or more” IDE drives to the DC-6X0, refer to the
advanced installation instructions in Chapter 3 before continuing.
CN3 is for floppy cabling. The 34-pin flat cable should be connected to CN3
with its colored edge, normally red, aligning with Pin 1 of CN3.
Note: CN3 on the DC-690C/CD is a 5x2 header, which is for Legacy
Header and not the floppy drive.
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CN4 is for ATAPI CD-ROM cabling and available for DC-6x0CD only.
The standard 40-pin AT flat cable should be connected to CN4 with its
colored edge, normally red, aligning with Pin 1 of CN4.
Note: To work with ATAPI CD-ROM(s) the JP3 for DC-600CD/680CD
must be properly set. Refer to Sec. 1.3 for details.
1.5 Cache DRAM Installation
The DC-6X0 features four SIMM sockets, arranged in two separate banks,
for flexible cache DRAM installation. 256KB/1MB/4MB “fast page mode”
SIMMs are required, with a minimum rated access of 80ns or faster, and can
be mixed in any combination. Bank-0 must be installed with DRAM forproper operation and Bank-1 is optional. Beware that two SIMMs installed
in the same bank must be of same size. If your controller has two DRAM
chips mounted on Bank-0 location already, you then have only two SIMM
sockets for cache expansion on Bank-1 and can boot the system without
installing any other SIMMs.
SIMM specification:256KB/1MB/4MB “fast page mode”
80ns or faster
Bank 0:(256KB x 2)/(1MB x 2) /(4MB x 2)
Bank 1:(0MB x 2)/(256KB x 2)/(1MB x 2)/(4MB x 2)
1.6 If I/O Card ROM Address Conflicts
For most installations, the factory default jumper settings will ensure proper
operation. However, if the system contains a second hard or floppy controller, or other boards that use reserved memory (e.g. a network card), you may
need to remove other card(s) first and configure the DC-6X0 to avoid potential address conflicts. Refer to ROM BIOS Address setting in the ControllerOption Select module of ACM for further details.
1.7 Running the ECU (for DC-620B only)
Since DC-620B is an EISA card, the system would require you to run the
ECU (EISA Configuration Utility), which shipped along with your mainboard, in order to register the DC-620B into the EISA system configuration.
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To achieve this, you have to copy the file, !TRM0620.CFG, from the Novell
driver diskette of DC-620B to the ECU diskette. Still, all other setups have to
be done in the ACM (refer to the following two chapters). There is no
functional discrepancy between running the ECU or not, except that a warning message, "Invalid configuration information for SLOT ??", will be issued
by the system if not running the ECU and you won't be able to view the DC620B information from the ECU.
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Chapter 2:
Quick Setup
Once the jumpers, cabling and cache DRAM have been properly installed,
the DC-6X0 is ready to work in your system. If you are upgrading an
existing IDE hard drive subsystem, it is advisable to do a complete file-byfile (as opposed to image) backup of your data to removable media.
The DC-6X0 requires a specific bus slot, depending on which model you're
using, and, for most installations, can be treated as a direct replacement for
an IDE hard bus controller (or “paddleboard”). If another IDE bus controller
wants to coexist with the DC-6X0, then these two controllers must be set as
primary and secondary, respectively (refer to the Sec. 3.2 for Controller IO
Port). Also, only one of the two controllers can enable its floppy, and the
other one must be disabled or removed. If co-exists with another SCSI
adapter, you must put the DC-6X0's ROM address prior to that of SCSI
adapter.
2.1 CMOS Configuration
When installing a single new IDE drive for the first time, it is necessary to
configure the Drive C: in the system CMOS Setup to type 1. This enables the
system to sense the presence of the DC-6X0, where the actual drive parameter tables are stored. Two drives linked or mirrored as a pair will be seen as
a logical drive and needs only to set the Drive C: to type 1.
If two individual drives or link/mirror pairs are installed, you have to set both
the Drive C: and D: to type 1.
If more than two individual drives, link/mirror pair treated as one logical
drive, are installed, the third drive or the fourth will behandled by the DC-6X0 BIOS. Check More Than 2 Drives option of Controller Option Select
module for details. Also, the DRIVE TYPE C: & D: in CMOS Setup are
only for the first two drives controlled by the Primary DC-6X0. You don't
need to do anything about the third & fourth drives of the Primary DC6X0 or those controlled by the Secondary one in the CMSO Setup.
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The following concludes the discussion above. Beware that link/mirror pair
is treated as one single drive.
# of Drive(s) System CMOS/Drive Type More_than_2_drives
If necessary, refer to your motherboard or system manual for further instructions on configuring the system CMOS. If you are upgrading an existing IDE
drive subsystem, the values previously stored in the system CMOS are
unlikely to require modification.
2.2 Auto Setup
For most single new or used IDE drive installations, no additional steps are
necessary to ensure proper operation of the DC-6X0 with your disk subsystem. Power up the system and ensure that the system POST (Power On
Self-Test) is functioning properly. The DC-6X0 should display its own
POST test and messages immediately below and after the system POST test
and messages. An example screen is depicted below.
Primary xxx-Bus IDE Cache Controller
TEKRAM Technology Co., Ltd. (V2.00)
Press F2 or F6 to enter advanced configuration menu.
4096K bytes of CACHE DRAM installed.
If the DC-6X0 POST test and messages do not appear, there may be a ROM
address or timing conflict between the DC-6X0 and other adapter cards in
the system. Re-check the ROM address set for the DC-6X0 (ROM BIOS
Address option of Controller Option Select module) against the ROM
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address of any other adapter cards in the system for potential conflicts. If
conflict did exist, you can adjust the ROM address of other card(s). Otherwise, you have to turn the power off, pull out other card(s), and then power
up the system and enter the Advanced Configuration Menu (ACM) to select
a proper location to avoid the conflict.
If the system contains a 16-bit VGA adapter with a Fast address Decode
option, disable that feature. Due to its wider address decoding range, this
feature might cause some potential conflicts with the DC-6X0 or any other
cards implemented with 8-bit memory mapped I/O.
2.3 Drive Parameters
For most single new or used IDE drive installations, there is generally no
need to access the ACM to ensure proper operation of the DC-6X0 with your
IDE drive. The DC-6X0 obtains the correct drive parameters directly from
the drive itself, by automatically issuing an IDE Identify Drive command. If
you are upgrading a single existing IDE drive subsystem with the DC-6X0,
the drive will function exactly as before. If you are installing a new IDE
drive, the drive is now ready for operating system installation; refer to your
operating system manual for further instructions.
Note: IDE drives are factory low-level formatted. It is unneces-
sary and inadvisable to low-level format a NEW IDE drive.
Some IDE drives either do not respond correctly to the IDE Identity Drive
command, or respond with the physical parameters, rather than the
manufacturer’s recommended translation parameters. In such cases, the DC6X0 will generally issue an error message similar to the one depicted below.
=ERROR=
IDE BUS1 drive 0: Bad drive or drive parameter error!
Get the correct parameter from drive manufacturer & enter
Advanced Configuration menu to reconfigure the system.
If you receive this message, you must enter the ACM and manually enter the
correct drive parameters in the Disk Parameter Setup module. Refer to your
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drive manual for the correct parameters of a new IDE drive. If you are
upgrading an existing used IDE drive subsystem, the drive parameters previously stored in the system CMOS will be correct.
Once you have entered the correct drive parameters in the Disk ParameterSetup module, press <Esc> and save the updated parameters. The system
will reboot and the new parameters will be checked by the DC-6X0 to ensure
they are correct. If correct, a used IDE drive will function exactly as before,
while a new IDE drive is now ready for operating system installation. If an
error message is still displayed, you must verify and re-enter the correct drive
parameters.
If necessary, refer to Disk Parameter Setup module in Chapter 3 for detailed instructions on entering correct drive parameters.
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Chapter 3:
Advanced Configuration Menu (ACM)
The Advanced Configuration Menu, or ACM, is the DC-6X0’s setup and
configuration program, and gives you control over drive arrangements and
cache operations. The program (and default settings) are stored in an onboard EPROM and EEPROM, which allows you to save your own preferences as power-on defaults.
The ACM is accessible during the DC-6X0’s POST test on powering up or
resetting the system, when the following message appears on screen:
Primary XXX-Bus IDE Cache Controller
TEKRAM Technology Co., Ltd. (V2.00)
Press F2 or F6 to enter advanced configuration menu.
4096K bytes of CACHE DRAM installed
Pressing [F2] or [F6] at this time will access the ACM main menu, which is
illustrated below.
Select the function for operation
Disk Parameter Setup
Controller Option Select
Display Drive Information
Low Level Format
Mirror Initialization or Repair
Mirror Drive Verification
Disk Image Copy
Disk Image Compare
Each option on the main menu takes you to a different module of the ACM,
all of which are discussed in detail in this chapter.
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3.1 Disk Parameter Setup
This module allows you to install, link and mirror drives. It is divided into
three functional feature blocks, as depicted below, which control, respectively, physical drive information, logical drive information, and installed
drive information.
AttributeCylindersHeads Sectors Trk-Remap Capacity
Drive C [D0] 683 16 38Disabled 202 MB
Drive D [D1] 952 7 62Disabled 201 MB
Drive E [D2] 0 0 0Disabled 0 MB
Drive F [D3] 0 0 0Disabled 0 MB
IDE BUS1 Drive 0--- Maxtor 7213 AT
IDE BUS1 Drive 1--IDE BUS2 Drive 0--- ALPS ELECTRIC Co., LTD. DR312C
IDE BUS2 Drive 1---
Physical Drive Information
The first block displays the parameters (cylinders, heads and sectors) for
each physical IDE drive connected to the DC-6X0. In this case, we see two
drives, with capacity of 202MB and 201MB, separately connected to IDE
BUS1 and IDE BUS2.
CylindersHeads SectorsCapacity
IDE BUS1 Drive 0 [D0] 683 16 38 202 MB
IDE BUS1 Drive 1 [D2] 0 0 0 0 MB
IDE BUS2 Drive 0 [D1] 2108 4 49 201 MB
IDE BUS2 Drive 1 [D3] 0 0 0 0 MB
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Capacity = (Cylinders) x (Heads) x (Sectors) x 512 Bytes
These parameters are normally read from the IDE drive and automatically
updated without user intervention. However, if an IDE drive fails to respond
to the IDE Identify Drive request issued by the DC-6X0, you may need to
manually enter the correct parameters based on the manufacturer’s recommendations.
[D0] is short for IDE BUS1 Drive0 and [D2] is for Drive1. As for drives
connected to IDE BUS2, [D1] is short for Drive 0 and [D3] is for Drive1.
These short names will correspond to the next block of this module for
further settings, such as link or mirror.
Logical Drive Information
The second feature block of this module displays the parameters of the four
logical drives units supported by the DC-6X0 and presented to the operating
system. The logical drive here maybe an individual drive, linking pair of two
drives or mirroring pair of two drives.
The following block shows two individual drives installed:
AttributeCylindersHeads Sectors Trk-Remap Capacity
Drive C [D0] 683 16 38Disabled 202 MB
Drive D [D1] 952 7 62Disabled 201 MB
Drive E [D2] 0 0 0Disabled 0 MB
Drive F [D3] 0 0 0Disabled 0 MB
Note:1. Drive C, D, E, and F shown in this block are for ordering
purpose only and not related to system's drive ordering. For
example, if 201MB drive is installed on the IDE BUS1 Drive1,
i.e., [D2], this block will display [D2] as Drive E. But from the
system, it see [D2] as Drive D.
2. If the drive's cylinder number shown in the top block is greater
than 1024, the controller may translate the parameters into its
format for proper operation.
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Attribute
Initially, [D0] to [D3] shown in this column are corresponding to that of
upper block. If you're working with individual drive(s) only, then no settings
need to be done. If Linking or Mirroring is needed, this attribute will provide
you necessary setting options for operation. Beware that you must set one
of the pair to [Non-installed] first to have the Link/Mirror option show
for the other drive.
The following full screen shows [D0] and [D1] are mirrored as a pair. The
Linking case is similar.
Drive C [D0 mirror D1] 952 7 62Disabled 201 MB
Drive D [Non-installed] 0 0 0Disabled 0 MB
Drive E [D2] 0 0 0Disabled 0 MB
Drive F [D3] 0 0 0Disabled 0 MB
IDE BUS1 Drive 0--- Maxtor 7213 AT
IDE BUS1 Drive 1--IDE BUS2 Drive 0--- ALPS ELECTRIC Co., LTD. DR312C
IDE BUS2 Drive 1---
Note:1. To select the proper attribute for Mirroring, you must set one of
the drive to [Non-installed], in this case [D1], and then set the other drive to
[D? mirror D?], in this case [D0 mirror D1]. The capacity shown in this
block will be the one with smaller capacity. To optimize the performance of
dual channel design, the mirroring function requires you to work with two
drives connected to two individual buses, i.e., IDE BUS1 and IDE BUS2.
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Cannot do mirroring for two linking pairs on the two buses, either. Four
possible linking pairs, from physical drive point of view:
IDE BUS1 ======> Drive 0 [D0]Drive 1 [D2]
IDE BUS2 ======> Drive 0 [D1]Drive 1 [D3]
2. The setting for Linking is similar to Mirroring, except the Linking
function would require you to work with two drives on the same bus, either
IDE BUS1 or IDE BUS2. So there are two possible linking pairs for each
controller. The capacity shown in this block will be the summation of the two
mirroring drives.
3. To properly set the attribute, you are able to boot from different
drive each time. For example, you have two drives installed with different
operating systems and would work with them from time to time. If you work
with DOS at the beginning, the setting may look like this:
4. If more than two drives, link/mirror pair treated as one, are
installed, you have to enable the More Than 2 Drives option of Controller
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Option Select module. Please also refer to the same section for two DC-6x0
installed.
Trk-Remap
This Track-Remapping function is disabled by default and should be en-
abled only when capacity of the following partitions used by the logical
drive exceed 528MB: 1. DOS, 2. OS/2 (FAT File System) & 3. Windows
NT (FAT File System).
Note: The
INT13 BIOS Selection option in the Controller Option Select
module has to be set to Enhanced INT13 (Shadowed or not).
Installed Drive Information
This block indicates physical bus connection of drive(s) controlled by the
DC-6X0. The following shows two drives connected to IDE BUS1 and IDE
BUS2, respectively.
IDE BUS1 Drive 0--- Maxtor 7213 AT
IDE BUS1 Drive 1---
IDE BUS2 Drive 0--- ALPS ELECTRIC Co., LTD. DR312C
IDE BUS2 Drive 1---
3.2 Controller Option Select
This module gives you access to the advanced features supported by the DC6X0. The following is the main screen for DC-690C/CD only.
Controller Option Setup
Cache Line Size -----------0.5K-- Default
More Than 2 Drives -------- Disabled-- Default
INT13 BIOS Selection ---Enhanced INT13 Shadowed -- Default
Cache Function ------------Enabled-- Default
Controller IO Port ---------Primary-- Default
ROM BIOS Address ------C800H-- Default
Green Cache Mode --------Disabled-- Default
CD-ROM Port (At 170H) - Enabled-- Default
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The main screen for other DC-6x0 would look like:
Controller Option Setup
Cache Line Size ----------- 0.5K-- Default
More Than 2 Drives --------Disabled-- Default
INT13 BIOS Selection --- Enhanced INT13 Shadowed-- Default
Cache Function ------------ Enabled-- Default
Controller IO Port --------- Primary-- Default
Floppy Controller --------- Enabled-- Default
ROM BIOS Address ------ C800H-- Default
Green Cache Mode -------- Disabled-- Default
Cache Line Size
Five options available in kilobytes: 0.5 (default)/1/2/4/8. Normally, there is
no need to change to options other than the default one. You are allowed to
try other options for your specific application. For example, you may like to
choose 4K for NetWare system if the block size of its File System is also
4KB.
More Than 2 Drives
The "drive" here means logical drive, which may be an individual drive,
linking pair or mirroring pair. This option supports more than two logical
drives under DOS 5.0 and the above versions. It's also applicable to Windows and NetWare. If there is another DC-6X0 working as Secondary
controller, you must enable this option on it to make the drive(s) controlled
by the Secondary controller accessible under the above mentioned operating systems. In this way, you're able to control up to eight individual
drives. For OS/2 and Windows NT, you must install the driver to support
Secondary Controller and More Than 2 Drives features.
Note:1. To activate this function, you still have to set another option,
INT13 BIOS Selection, in the same module to Enhanced INT13
(Shadowed or not).
2. To support More than two drive function for other operating
systems, you have to install their respective drivers.
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3. If another DC-6x0 is added to be the Secondary Controller, you
are able to control up to 8 IDE drives in total (4 for each controller). Several things needed to be taken care of:
*
More Than 2 Drives option must be Enabled
*
INT13 BIOS Selection option must be set to EnhancedINT13 (shadowed or not)
*
Controller IO Port option must be set to Secondary
*
ROM BIOS Address option must be set to be higher than
the Primary Controller. In this case, the address of Secondary Controller (CC00H) is high than that of Primary
Controller (C800H).
The following is a sample setup screen for the Secondary DC6X0:
Controller Option Setup
Cache Line Size ----------- 0.5K-- Default
More Than 2 Drives -------INT13 BIOS Selection --- Enhanced INT13 Shadowed -- Default
Cache Function ------------ Enabled-- Default
Controller IO Port --------- Secondary
Floppy Controller ---------Enabled-- Default
ROM BIOS Address ------ CC00H
Green Cache Mode --------
Enabled
1 minute
INT13 BIOS Selection
INT 13 BIOS allows you to select the INT 13 handler, a DOS software
interrupt used to control hard disk I/O (read/write operations). Three options
exist: Enhanced INT13 shadowed to system RAM (default), Enhanced INT13
and Mainboard INT13.
Enhanced INT13 Shadowed: This option takes that portion of the controller’s
ROM which normally handles INT 13, and remaps it to conventional memory
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(0-640KB), where it occupies 1KB (639KB-640KB). This option is provided, and enabled by default, to ensure compatibility with some early system
BIOSes, which may otherwise experience timing problems with the DC-6X0
(and IDE drives generally).
Enhanced INT13: It functions like the previous option except it instructs the
controller to handle INT 13 from its ROM address in reserved memory and
doesn't occupy 1KB from the system memory.
Mainboard INT13: This option assigns the handling of INT 13 to the
system BIOS instead of the controller BIOS. Some system BIOSes also
support the remapping to conventional memory of the INT 13 BIOS handling
routines; consult your system manual for details.
Note: Enhanced INT13 (Shadowed or not) option must be set to work
with (1). More Than 2 Drives environment & (2). DOS partition
greater than 528MB per drive with Trk-Remap option enabled.
Cache Function
This function allows you to set the cache as Enabled or Disabled. The cache
is Enabled by default, but you may find it necessary to temporarily disable
the cache (e.g. when installing a new operating system or hardware). When
Cache status is disabled, data transfer requests and commands are passed
directly to the drive itself.
Controller IO Port
Two options:Primary=> port address (1F0-1F7) --> default
Secondary => port address (170-177)
The option secondary will be quite useful when another IDE card is installed
in the same system. Remember to enable the More Than 2 Drives option to
make the drive(s) controlled by the Secondary controller accessible. You
are allowed to put two DC-6X0 controllers in the system and thus can
control up to eight individual drives. For operating systems other than
DOS, device drivers are needed.
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Controller IRQ (for DC-690C/690CD only)
The default option, Legacy Header, is for using the paddleboard, which
complies to the specification defined by PCI Special Interest Group, to work
with your DC-690C.
If your mainboard can work without adding the paddleboard, you would need
to properly select the right option, INTA-D#, to work with the mainboard.
Please check with the mainboard menu for detailed information on INTA-D#
setting.
Floppy Controller (not for DC-690C/690CD)
This option is able to set as Enabled (default) or Disabled. Note that only one
floppy controller can be enabled in the system.
ROM BIOS Address
It has six options: DC00:0, D800:0, D400:0, D000:0, CC00:0, & C800:0
(default). The ROM BIOS address of DC-6x0 should NOT be SHAD-
OWED in the mainboard's CMOS setup, if available.
Once an I/O ROM address conflicting happens between or among add-on
cards installed in the system, you have to switch the ROM addresses on those
cards to different locations. One way is to adjust other card’s ROM address
to avoid conflicting. The other way is pulling out the other card(s) first,
entering this module to adjust the right position, and then plugging back the
other card(s) for system operation. Note that the DC-6X0's ROM address is
always prior to that of other SCSI adapter(s). Also, if two DC-6x0s
installed, the Primary one should have lower ROM BIOS address than the
Secondary one.
Green Cache Mode (Power Saving)
It is also called Power Saving mode. If enabled, the DC-6X0 will start to
monitor the access activities to the storage subsystem. If the duration of
IDLE state exceeds the time limit defined in this mode, the DC-6X0 will then
turn the drive(s) and controller itself into MOTOR OFF and SLEEPING
modes, respectively, in order to save power. The following are eight options
available: Disabled (default), 1/2 to 30 minutes.
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CD-ROM Port (At 170H) (for DC-690CD only)
To enable this option, the DC-690CD would allow you to install up to four
hard drives (on the Primary port) and two ATAPI CD-ROM drives (on the
Secondary port: 170H).
If you install two DC-6x0 in a single system, then you cannot use the ATAPI
interface on either board. This is due to the fact that each board requires a
primary or secondary port address. Once the secondary port address 170H is
used for the ATAPI connector, there will be no additional port address for
one of the boards. So you must disable this option to install two DC-6x0 in
a single system.
3.3 Display Drive Information
This module displays information auto scanned from the physical drives
attached to the DC-6X0. Note that not all drives respond to the IDE IdentifyDrive request, and, among those that do, not all respond with the same
quantity of information; some also respond with the physical parameters,
rather than the manufacturer’s recommended translation parameters.
A sample screen is depicted below:
IDE BUS1 Drive 0
Drive model ........................Maxtor 7213 AT
Firmware revision ...............5ADF1750
Serial # ...............................B10F4JBS
Cylinders.............................683
Heads ..................................16
Sectors ................................38
Buffer type..........................dual port multiple sector with look ahead
PIO timing ..........................Mode 0 : 600 ns cycle time
Read write multiple ............32 sectors per interrupt
Switch to another screen to view the information of the other drive:
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IDE BUS1 Drive 0
Drive model ........................Maxtor 7213 AT
Firmware revision ...............5ADF1750
Serial # ...............................B10F4JBS
Cylinders.............................683
Heads ..................................16
Sectors ................................38
Buffer type..........................dual port multiple sector with look ahead
PIO timing ..........................Mode 0 : 600 ns cycle time
Read write multiple ............32 sectors per interrupt
3.4 Low Level Format
IDE drives are factory low level formatted for optimum performance, and
readied for operating system installation, when shipped by the manufacturer.
Under normal circumstances, it is both unnecessary and inadvisable to low
level format an IDE drive. In the event that a low level format seems
necessary (e.g. multiple bad sectors), contact your dealer or drive manufacturer before proceeding. Some IDE drive manufacturers build low level
format routines into the drive itself, and supply special model-specific software programs for this purpose.
If you choose to execute a low level format from the ACM, enter the
manufacturer’s recommended drive parameters or obtain the parameters
from the Display Drive Information module of the ACM. IDE drives normally support 1-to-1, or non-interleaved, operation.
Note:If enabled, Linking or Mirroring pair of two drives will be
formatted together.
A sample screen is depicted below:
Select a drive for low level format
IDE BUS1 Drive0 ----------Maxtor 7213AT
IDE BUS2 Drive0 ---------- ALPS ELECTRIC Co., LTD. DR312C
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Warning: Performing a low-level format causes all information and data on
the drive to be lost.
3.5 Mirror Initialization or Repair
The pair of mirroring drives are defined in the attribute option of Disk
Parameter Setup module. This module will help you prepare the necessary
procedures before performing disk mirroring and restore the data once one of
the mirror-pair drives is in trouble. By executing this initialization utility,
you are able to make an exact duplicate of the Source drive.
Select the mirror drive for initialization or repair
Status
IDE BUS1 Drive0 -- Maxtor 7213AT U
IDE BUS2 Drive0 -- ALPS ELECTRIC Co., LTD. DR312C U
Status column is to indicate the status of mirror pair and will show only after
the attribute of Disk Parameter Setup module is properly set. It could be
any one of the three:
U: Un-Initialized Drive (before mirror initialization is done)
O: Drive OK (once mirror initialization or repair is completed)
D: Drive Damaged (any one of the mirror pair is crashed)
The mirror initialization always duplicates the Source Disk to the Target
Disk. You can try to adjust the proper Source-Target relation by pressing the
<Space Bar> to put things in order.
Select the mirror drive for initialization or repair
Status
IDE BUS1 Drive0 -- Maxtor 7213AT USource
IDE BUS2 Drive0 -- ALPS ELECTRIC Co., LTD. DR312C UTarget
After the Mirror Initialization is completed, Status should display O for both
mirroring drives, which signifies they are ready to work as a mirror pair.
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Select the mirror drive for initialization or repair
Status
IDE BUS1 Drive0 -- Maxtor 7213ATOSource
IDE BUS2 Drive0 -- ALPS ELECTRIC Co., LTD. DR312COTarget
If one of the drives in the Mirror-Pair is malfunctioning or crashed, the
mirroring beeper will start to issue alarms, if JP2 is properly connected. The
real cause for a mirroring problem may lie in Bad Cable Connection, Bad
Drive, Bad Power Supply ... etc, and all these will cause inconsistency
between two drives of the mirror pair. You may then back to this module to
check which drive is damaged.
Select the mirror drive for initialization or repair
Status
IDE BUS1 Drive0 -- Maxtor 7213AT OSource
IDE BUS2 Drive0 -- ALPS ELECTRIC Co., LTD. DR312CDTarget
After clarifying the problem, you should be able to restore the mirror pair
back to its working condition. Beware that you must set the drive marked asD to Target and the one marked as O to Source. The beeping alarm will
cease right after the Mirror Repair is completed.
3.6 Mirror Drive Verification
This module performs a disk comparison between the two drives of the same
mirror pair. You may need to re-do the Mirror Initialization if incorrect data
found in one of the drives.
Select the mirror drive for Verification
Status
IDE BUS1 Drive0 -- Maxtor 7213AT 0Source
IDE BUS2 Drive0 -- ALPS ELECTRIC Co., LTD. DR312C 0Target
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3.7 Disk Image Copy
This module copies the data from the Source Disk to the Target Disk on a
drive-to-drive basis. Still, you have to set the copy-pair drives, one to SourceDisk and the other to Target Disk, by pressing the <Space Bar>.
Select source and target disks for image copy
IDE BUS1 Drive0 -- Maxtor 7213AT Source
IDE BUS2 Drive0 -- ALPS ELECTRIC Co., LTD. DR312C Target
3.8 Disk Image Compare
This module compares the data of the Source Disk with that of the Target
Disk on a drive-to-drive basis. Still, you have to set the compare-pair drives,
one to Source Disk and the other to Target Disk, by pressing the <Space
Bar>.
Select source and target disks for image compare
IDE BUS1 Drive0 -- Maxtor 7213AT Source
IDE BUS2 Drive0 -- ALPS ELECTRIC Co., LTD. DR312C Target
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Chapter 4:
Driver Installations
You may need drivers to gain 32-bit power when running under assorted
operating systems, such as DOS, Windows (& Windows for WorkGroup),
Windows NT, UNIX, NetWare, and OS/2. These software drivers are stored
in two diskettes, except the DOS driver which resides in DC-6X0’s ROM
already (refer to INT13 BIOS Selection option of Controller Option Select
module). Before installing, please browse the “README” directory of No-
vell driver diskette for specific driver installation procedures. Beware that
UNIX driver diskette is UNIX formatted and cannot be read from DOS
environment.
The following are driver installation for some of the operating systems
supported by your controller. Please also refer to the <README> in the
driver diskette for other driver installations and updated information, if there
is any.
<Windows 3.x> (& Windows for WorkGroup 3.x)
This driver requires you to install Windows 3.x (or Windows for WorkGroup
3.x) in the system before driver installation.
(A). Driver Installation:
1. Execute the file “\WINDRV\SETUP.EXE” from the floppy drive
or
2. Enter your Windows and run the same file “\WINDRV\SETUP.EXE”
(C). Driver Removal:
1. During the driver installtion, the original SYSTEM.INI under your
Windows directory will be renamed as SYSTEM.001. Rename SYS-
TEM.001 back to SYSTEM.INI, you’ll have the driver removed.
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<NETWARE.40x>
This subdirectory contains the NETWARE V4.00/4.01/4.02/4.1 device drivers,
IDENV40.DSK and IDENV40.DDI. The following explains major procedures
during driver installtion:
After seeing a message block showing "Scanning for available drivers ..."
during the installation, you'll find a list of default supported drivers.
Press <Ins> key to install the driver, IDENV40.DSK, from drive A:.
Press <F3> key to specify the path: >A:\NETWARE.40. Select the
IDENV40.DSK and press the <Enter> for loading this driver.
Press another <Return> key to proceed the setting for I/O port address and
IRQ.
<NETWARE.31x>
This subdirectory contains the NETWARE V3.11/3.12/SFT-III device driver,
IDENV31X.DSK. The installation procedure is the same as V31, except the
driver loaded here is IDENV31X.DSK.
<NETWARE.31>
This subdirectory contains the NETWARE V3.1 device driver,
IDENV31.DSK. The following explains the installation procedures:
For One card installation
STEP 1 ==> Install the DC-6X0
. Remove other add-on cards that may conflict with DC-6X0’s ROM
space
. Select this card as primary
. Select the ROM space of DC-6X0
. Enable floppy diskette
STEP 2 ==> Plug another add-on card if necessary
STEP 3 ==> Running the NETWARE server up to the prompt “:” appeared
STEP 4 ==> load IDENV31
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For duplexing is required
STEP 1 ==> Install the secondary DC-6X0 first
. Remove other add-on cards that may conflict with DC-6X0’s ROM
space
. Select this card as secondary
. Select the ROM space of DC-6X0
. Disable floppy diskette
STEP 2 ==> Install the primary DC-6X0
. Select this card as primary
. Select the ROM space of DC-6X0
. Enable floppy diskette
STEP 3 ==> Plug another add-on card if necessary
STEP 4 ==> Running the NETWARE server up to the prompt “:”appears
STEP 5 ==> load IDENV31
STEP 6 ==> load IDENV31
<NETWARE V2.15>
This diskette is also labeled as DSK_DRV_003 and two files
IDENV2XX.DSK and IDENV2XX.OBJ in the root directory are used as
hard disk device driver for NETWARE V2.15 and V2.2. Follow the NETWARE V2.15 and V2.2’s installation guide to install the server.
<OS/2 v2.X/Warp_3.X>
(A). Driver Installation:
1. Insert the driver diskette into Floppy Drive A:
2. Under OS/2 V2.X install the driver by keying the following command:
[C:\] ddinstal
This command copies the file, OS2_32.ADD, from driver diskette to
C:\OS2 directory. The old CONFIG.SYS will be re-named as
CONFIG.1, which also resides in
3. Re-boot the system
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IDE Caching Controller
(B). Driver Removal:
1. During the driver installation, the original CONFIG.SYS under your
C:\ directory will be re-named as CONFIG.1. Rename CONFIG.1
back to CONFIG.SYS, you'll have the driver removed.
[C:\] COPY CONFIG.1 CONFIG.SYS
2. Re-boot the system
<Windows NT v3.X>
(A). Driver Installation:
1. Enter your Windows NT and login with "Administrator"
2. Run SETUP.EXE from the drive that contains this driver
3. Follow NT's SHUTDOWN procedures to re-boot the system for
completing the driver installation
(B). Driver Removal:
1. Enter your Windows NT and login with "Administrator"
2. Run UNINSTAL.EXE from the drive that contains this driver
3. Follow NT's SHUTDOWN procedures to re-boot the system for
completing the driver removal (O.S. default driver will be loaded
and used from now on)
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Appendix A:
Technical Specifications
Performance
ZHardware disk mirroring support for all O.S.
ZGreen Cache: Power saving supports for both controller and drive(s)
ZEffective disk seek time: < 0.3 msec
ZMaximum DTR (Disk-to-Cache): 5MB/sec
ZMaximum DTR (ISA Bus-to-Cache): 5MB/sec
ZSustained DTR (CoreTest):
ZBus standard: 16-bit ISA Bus (DC-600C(F)/CD); 32-bit Bus (EISA: DC-
620B, VL: DC-680T/C/CD, PCI: DC-690C/CD)
ZCache DRAM: 80ns (or faster) 256KB/1MB/4MB SIMMs & can be mixed
ZFlexible cache expandability: from 512KB to 16MB
ZMaximum I/O bus speed: 12MHz (DC-600C(F)/CD); 8.33MHZ (DC-
620B); 25-50MHz (DC-680T/C/CD: same as mainboard clock); 33MHz
(DC-690C/CD)
ZMaximum 4 IDE drives for each controller (& 2 ATAPI CD-ROMs for
DC-6x0CD), Maximum two controllers
ZMaximum 4GB capacity per drive
ZMaximum floppy drives supported: 2 (not for DC-690C/CD)
ZROM addressing: on-screen selectable
Functional
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ZJump-less design & auto drive parameter scanning make Plug-&-Play
possible
ZCompatible with all major operating systems & 32-bit driver supports
ZWD-1003 Emulation mode support
ZBooting drive can be switchable among multiple drives controlled by your
controller
ZTrack-Remapping support for drive capacity over 528MB under DOS
environment
ZEnhanced INT 13 BIOS relocation
ZTrack remapping and automatic type table creation
ZCaching algorithms: fully associated LRU, automatic read ahead, deferred
write back, & elevated seeking
ZDirect replacement for standard AT Bus interface card without reformat-
ting the drive(s)
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Appendix B:
Product Support Form
The following information should be provided to your supplier
in writing to obtain technical support assistance:
0. Ever try General Troubleshooting Tips in Appendix C and
without success? Yes? ____ No? ____
1. DC-6X0 Information
Model #: ______________________
Serial #: ______________________
Purchase Date : ______________________
Firmware Version #: ______________________
BIOS Version # : ______________________
2. System Hardware Configuration (please list the manufacturer/model/
chip)
Motherboard Speed: ___________________
M/B DRAM/SRAM: ___________________
Video card: ___________________
Hard disk/Floppy card : 1. ___________________
2. ___________________
Network card: ___________________
Hard disk drive(s): 1 . ___________________
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2. ___________________
3. ___________________
4. ___________________
Floppy drive(s): 1. ___________________
2. ___________________
Other devices: 1. ___________________
(SCSI/ESDI)2 ___________________
3. ___________________
4. ___________________
3. System Software Configuration (please list the version)
Operating System :
Application Program:
4. Detailed description of error messages and symptoms:
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Appendix C:
Error Messages and General Troubleshooting
Tips
Error codes may be generated at various stages in the DC-6X0’s BIOS
initialization procedure. If an error occurs, the BIOS will display a message
accompanied by one of several error codes, which are listed below.
1Controller Failure!Extended command enabled
2Controller Failure!Query controller information
3Cache Operation Failure!Write back cache to drive and
flush cache
4Cache Operation Failure!Disable cache
5Cache Operation Failure!Write cache DRAM
6Cache Operation Failure!Read cache DRAM
7Controller Failure!Query controller information
error during DRAM test
8Cache RAM Error at Bank 0DRAM error at bank 0
9Cache RAM Error at Bank 1DRAM error at bank 1
10 Cache RAM Error at Bank 2DRAM error at bank 2
11 Cache RAM Error at Bank 3DRAM error at bank 3
12 No Cache RAM Installed!No DRAM installed
13 Controller Failure!Read EEPROM
14 Controller Failure!Write EEPROM
15 Controller EPROM Checksum Error!Controller EPROM
checksum error
On powering up the system, if the DC-6X0 issues the message Error Code =
1 with no further details, one of four possibilities exist:
Controller is not functional
No Cache DRAM is installed
TAG SRAM test failure
Parity error on cache DRAM
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IDE Caching Controller
Power off the system, wait a few moments and then power the system back
on. Some system BIOSes may issue a HDD Controller Failure message if no
cache DRAM is installed.
General Troubleshooting Tips
Most controller errors are traceable to external factors, such as conflicts with
other installed cards, bad or incorrectly configured drives, loose cables or
other installation errors.
When a trouble happens in your system, you can always try to verify the
possible causes by changing various components in your system, such as I/O
card, motherboard, DRAM SIMM, or CPU. The following are general guidelines for some specific error conditions:
0. The LED connected to JP1 flashes some diagnostics right after power-up.
The following shows the flash frequency of each fatal error condition:
n One short flash: No Cache DRAM installed
n Two short flashes: CPU error
n Three short flashes: SRAM error
n Four short flashes: Timer error
1. no BIOS message from DC-6X0, i.e. <Press F2 or F6 ...>, appears on the
screen:
n ROM address conflicting with other I/O card(s) -> check the ROM
addresses of all the I/O cards and make sure no conflicting.
n VGA card with “Fast Address Decode” option enabled -> this may
cause all I/O cards that employ 8-bit ROM BIOS, DC-6X0 included,
not to be recognized. Please disable this option, if available.
2. missing operating system:
n Could be the parameters scanned by the DC-6X0, directly from the
drive itself, differ from drive supplier’s -> enter the Drive Parameter
Setup module of ACM and key in the parameters provided by drive
supplier manually.
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3. System hang after running a while:
n ROM BIOS might be “shadowed” by motherboard -> check the setup
of your motherboard and disable the “shadow” option on DC-6X0’s
ROM address.
n Cabling (error condition varies)
4. FDC error:
n Could be more than one FDC enabled: make sure only one FDC is
allowed to be enabled.
5. Cannot access HDD:
n Check if the HDD type in your system’s CMOS is set to “1”.
6. Cannot recognize the HDD's parameters or cannot save them correctly:
n Try to place the jumper cap over JDR0, i.e., short, if the HDD is
connected to the FIRST IDE BUS. If connected to SECOND IDE
BUS, then short the JDR1.
7. Possible incompatible conditions for default option (Enhanced INT13
Shadowed) of INT13 BIOS Selection:
n The default option gains the optimal performance. Due to its nature of
occupying 1KB (639KB-640KB), some software programs may issue
false alarms, such as virus-protection software. The above problems
can be avoided by choosing another option "Mainboard INT13".
n Due to the same nature of 1KB occupancy, the default option may
have conflict during executing the OS/2. Since the OS/2 would only
employ its disk I/O routines, the above problem can also be avoided
by choosing another option "Mainboard INT13" without degrading
any performance.
n Since the Enhanced INT13 options are for DOS (Windows) and not
related to UNIX, it is recommended to choose the "Mainboard INT13"
to operate under these environments.
8. Not able to execute Power-Saving functon for your HDD that is capable
of:
n Can try to set the Green Cache Mode/Controller Option Setup to a
desired timing first. If failes, then try to choose the INT13 BIOS
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Selection/Controller Option Setup option to "Mainboard INT13"
and set the proper option during the mainboard CMOS setup.
9. The capacity of HDD shown is much smaller than it should be:
n Check if your HDD is for DOS partition with capacity over 528MB,
because there is DOS constraint forbidding you to cross that limitation.
The DC-6x0 provides a solution to overcome it by enabling the "TrkRemap" feature in Disk Parameter Setup module of ACM. Refer to
Sec. 3.1.
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