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Quantum Q280 User Manual

Quantum Q280
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Architecture
A
standard
8-bit
microprocessor
operated
at
12
MHz
controls
each
Q200
Series
drive.
An
8031
is
used
for
drives
without
DisCache,
an
8032
for
drives
with
it.
Firmware
is
in
a
plug-in
32
K X 8
EPROM.
Dif-
ferent
EPROMS
are
used
for
the
Q250
and
Q280,
and
for
drives
with
and
without
DisCache.
Special
EPROMs
may
be
used
for
custom
applications.
communication
between
the
major
circuit
components
is
over
the
8-bit
MAD
(multiplexed
address/data)
bus.
DICEY, a
proprietary
data-
controller
IC,
manages
access
to
the
buffer,
which
is
16
KBytes
of
dynamic
RAM
(64
KBytes
for
drives
with
DisCache).
The
upper
2
KBytes
of
RAM
(4
KBytes
with
DisCache)
is
reserved
for
Q250/Q280
use.
DICEY
is
the
DMA
controller,
performs
serial
to
parallel
and
parallel
to
serial
conversions,
handles
all
RLL
encoding
and
decoding,
and
generates
the
ECC
syndrome.
SCSI
Bus
Operations
Communications
with
the
host
and
other
SCSI
devices
is
over
the
SCSI
bus.
The
interface
is
implemented
with
a
5080
SCSI
Controller
IC
that
can
play
the
role
of
initiator
or
target,
and
performs
disconnect/
reconnect
and
arbitration
functions.
Before
the
disk
is
written
to,
a
full
sector
of
incoming
SCSI
data
is
accumulated
in
buffer
RAM
(via
DMA
transfers).
As
the
disk
is
being
read
from,
data
is
also
stored
in
RAM.
After
a
full
sector
is
read,
the
data
is
checked
with
the
error-correcting
code
(at
the
user's
option),
transferred
through
the
5080
via
DMA,
then
on
to
the
SCSI
bus.
Users
can
select
the
action
to
be
taken
in
the
event
that
an
error
is
detected,
via
the
MODE
SELECT
command.
Servo
While
track-following,
track
and
sector
numbers
of
the
current
posi-
tion
are
stored
in
buffer
RAM--the
microprocessor
knows
the
exact
head
position
at
all
times.
When a
READ
or
WRITE
command
arrives,
the
microprocessor
immediately
starts
a
seek
by
commanding
the
head
posi-
tion
DAC
(digital-to-analog
converter)
via
the
MAD
bus.
The
DAC
output
is
converted
to
a
high
current,
which
drives
the
actuator.
New
track
and
sector
numbers
are
read
on
the
fly
from
the
servo
bursts,
forming
a
closed
loop.
The
microprocessor
accelerates,
then
decelerates,
the
actuator
via
the
head
position
DAC
to
achieve
the
seek
in
the
shortest
time.
As
servo
bursts
pass
under
the
head,
their
amplitudes
are
measured
by
the
AMC
(amplitude
measurement
circuit),
and
placed
on
the
MAD
bus
by
the
servo
ADC
(analog-to-digital
converter).
When
seeking,
the
micro-
processor
reads
head
position
from
the
burst
with
the
highest
ampli-
tude,
if
possible.
Once
the
head
is
on
track,
the
microprocessor
2-7

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Quantum Q280 Specifications

General IconGeneral
BrandQuantum
ModelQ280
CategoryStorage
LanguageEnglish

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