Manitowoc J450 Manual de usuario Pagina 17
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Valorado. / 5. Basado en revisión del cliente
US
2014/0097759
A1
period
may
be
any
suitable
number
and
duration
intended
to
suit
the
operational
characteristics
of
the
?xture/device
and
the
application.
In
the
event
that
a
particular
sensor-based
control
scheme
in
a
particular
zone
is
disabled
by
the
logic
module
and/
or
control
circuit,
the
?xture
or
device
is
intended
to
remain
operational
in
response
to
other
available
control
schemes
(e.g.
other
sensors,
time-based,
user
input
or
demand,
etc.).
The
data
logged
by
the
logic
module
and/or
control
circuit
may
also
be
used
in
a
‘learning
capacity’
so
that
the
controls
may
be
more
optimally
tuned
for
the
?xtures/
devices
in
a
particular
application
and/or
zone.
For
example,
the
logic
module
and/or
control
circuit
may
determine
that
disablement
of
a
particular
sensor-based
control feature
occurred
due
to
an
excessive
number
of
instructions
to
turn
on
(or
off)
based
on
signals
from
a
particular
sensor
that
occurred
within
a
particular
time
window,
and
may
be
reprogrammed
to
establish
an
alternate
monitoring
duration
that
excludes
this
particular
time
window
for
the
particular
sensor-based
control
scheme
to
‘avoid’
time
periods
that
are
determined
to
be
problematic.
This
ability
to
learn or
self-update
is
intended
to
permit
the
system
to
adjust
itself
to
update
the
sensor-based
control
schemes
to
different
time
periods
that
are
more
opti
mally
suited
for
such
a
control
scheme,
and
to
avoid
time
periods
that
are
less
optimum
for
such
a
particular
sensor
based
control
scheme.
[0043]
Referring
now
to
FIG.
4,
a
more
detailed
block
diagram
of
control
computer
252
is
shown,
according
to
an
exemplary
embodiment.
Control
computer
252
may
be
con
?gured
as
the
“master
controller”
described
in
Us.
applica
tion
Ser.
No.
12/240,805,
?led
Sep.
29,
2008,
and
incorpo
rated
herein
by
reference
in
its
entirety.
Control
computer
252
is
generally
con?gured
to
receive
user
inputs
(e. g.,
via
touch
screen
display
254)
and
to
set
or
change
settings
of
lighting
system
250
based
on
the
user
inputs.
[0044]
Referring
further
to
FIG.
4,
control
computer
252
is
shown
to
include
processing
circuit
402
including
memory
404
and
processor
406.
In
an
exemplary
embodiment,
control
computer
252 and
more
particularly
processing
circuit
402
are
con?gured
to
run
a
Microsoft
Windows
Operating
System
(e. g.,
XP,
Vista,
etc.)
and
are
con?gured
to
include
a
software
suite
con?gured
to
provide
the
features
described
herein.
The
software
suite
may
include
a
variety
of
modules
(e.g.,
mod
ules
408-414)
con?gured
to
complete
various
activities
of
control
computer
252.
Modules
408-414
may
be
or
include
computer
code,
analog
circuitry,
one
or
more
integrated
cir
cuits,
or
another
collection
of
logic
circuitry.
In
various
exem
plary
embodiments,
processor
406
may
be
a
general
purpose
processor,
a
speci?c
purpose
processor,
a
programmable
logic
controller
(PLC),
a
?eld
programmable
gate
array,
a
combination
thereof,
or
otherwise
and con?gured
to
com
plete,
cause
the
completion
of,
and/or
facilitate
the
comple
tion
of
the
activities
of
control
computer
252
described
herein.
Memory
404
may
be
con?gured
to
store
historical
data
received
from
lighting
?xture
controllers
or
other
build
ing
devices,
con?guration
information,
schedule
informa
tion,
setting
information,
zone
information,
or
other
tempo
rary
or
archived
information.
Memory
404
may
also
be
con?gured
to
store
computer
code
for
execution
by
processor
406.
When
executed,
such
computer
code
(e.g.,
stored
in
memory
404
or
otherwise,
script
code,
object
code,
etc.)
con?gures
processing
circuit
402,
processor
406
or
more
generally
control
computer
252
for
the
activities
described
herein.
Apr.
10,
2014
[0045]
Touch
screen
display
254 and
more
particularly
user
interface
module
408
are
con?gured
to
allow
and
facilitate
user
interaction
(e. g.,
input
and
output)
with
control
computer
252.
It
should
be
appreciated
that
in
alternative
embodiments
of
control
computer
252,
the
display
associated
with
control
computer
252
may
not
be
a
touch
screen,
may
be
separated
from
the
casing
housing
the
control
computer,
and/
or
may
be
distributed
from
the
control
computer
and
connected
via a
network
connection
(e. g.,
Internet
connection,
LAN
connec
tion,
WAN
connection,
etc.).
Further,
it
should
be
appreciated
that
control
computer
252
may
be
connected
to
a
mouse,
keyboard,
or
any
other
input
device
or
devices
for
providing
user
input
to
control
computer
252.
Control
computer
252
is
shown
to
include
a
communications
interface
256 con?gured
to
connect
to
a
wire
associated
with
master
transceiver
258.
[0046]
Communications
interface
256
may
be
a proprietary
circuit
for
communicating
with
master
transceiver
258
via a
proprietary
communications
protocol.
In
other
embodiments,
communications
interface
256
may
be
con?gured
to
commu
nicate
with
master
transceiver
258
via a
standard
communi
cations
protocol.
For
example,
communications
interface
256
may
include
Ethernet
communications
electronics
(e.g.,
an
Ethernet
card)
and
an
appropriate
port
(e.g.,
an
RJ45
port
con?gured
for
CAT5
cabling)
to
which
an
Ethernet
cable
is
run
from
control
computer
252
to
master
transceiver
258.
Master
transceiver
258
may
be
as
described
in
Us.
applica
tion
Ser.
Nos.
12/240,805,
12/057,217,
or
11/771,317,
which
are
each
incorporated herein
by
reference.
Communications
interface
256
and
more
generally
master
transceiver
258
are
controlled
by
logic
of
wireless
interface
module
412.
Wire
less
interface
module
412
may
include
drivers,
control
soft
ware,
con?guration
software,
or
other
logic
con?gured
to
facilitate
communications
activities
of
control
computer
252
with
lighting
?xture
controllers.
For
example,
wireless
inter
face
module
412
may
package,
address
format,
or
otherwise
prepare
messages
for
transmission
to
and
reception
by
par
ticular
controllers
or
zones.
Wireless
interface
module
412
may
also
interpret,
route,
decode,
or
otherwise
handle
com
munications
received
at
master
transceiver
258 and
commu
nications
interface
256.
[0047]
Referring
still
to
FIG.
4,
user
interface
module
408
may
include
the
software
and
other
resources
for
the
handling
of
automatic
or
user
inputs
received
at
the
graphical
user
interfaces
of
control
computer
252.
While
user
interface
mod
ule
408
is
executing
and
receiving
user
input,
user
interface
module
408
may
interpret
user
input
and
cause
various
other
modules,
algorithms,
routines,
or
sub-processes
to
be
called,
initiated,
or
otherwise
affected.
For
example,
control
logic
module
414
and/or
a
plurality
of
control
sub-processes
thereof
may
be
called
by
user
interface
module
408
upon
receiving
certain
user
input
events.
User
interface
module
408
may
also
be
con?gured
to
include
server
software
(e.g.,
web
server
software,
remote
desktop
software,
etc.)
con?gured
to
allow
remote
access
to
touch
screen
display
254.
User
inter
face
module
408
may
be
con?gured
to
complete
some
of
the
control
activities
described
herein
rather
than
control
logic
module
414. In
other
embodiments,
user
interface
module
408
merely
drives
the
graphical
user
interfaces
and
handles
user
input/output
events
while
control
logic
module
414 con
trols
the
majority
of
the
actual
control
logic.
[0048]
Control
logic
module
414
may
be
the
primary
logic
module
for
control
computer
252 and
may
be
the
main
routine
that
calls,
for
example,
modules
408, 410,
etc.
Control
logic
module
414
may
generally
be
con?gured
to
provide
lighting
- ' I 1
- Application 2
- Publication 2
- Wirelelss 4
- Transmission) 5
- Building 6
- 1022_“\\ 9
- Begin/Repeat 10
- DecrementDutyCycleTimer 11
- Increment 12
- Re-StrikeViolation 12
- 2014/0097759 13
- Figures 19
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