CP45-英文版培训教材.pdf - 第125页
Operating Manual Reference Figure CP-45/55 Operation Process H o w e v e r ,i ft h e r ea r eal o to f defectives of unit PCB, the latter can decrease the work efficiency when comparing with the former. ^ <Optimizatio…
Operating Manual Reference Figure
CP-45/55 Operation Process
This determines the method for
optimizing the Array PCB in the
Optimizer. If selecting <By PCB>,
the step program will be created
on the optimizer making sure that
the optimized program for only
one PCB to be created and then
several unit PCBs are to be
edited in sequence. On the other
hand, if selecting <By Point>, by
considering the entire PCB as
one, the optimized program for
all mounting points will be
created. For example, for the
Array PCB which consists of unit
PCB of 4 sheets, it is
programmed in order that for
<By PCB> option, work of one
PCB to be completed and then
work of the next PCB to be
completed, and for <By Point>
option, the mounting work is to
be carried out with mixing of No.
1, 2, 3 and 4 PCBs. Generally
the latter can increase the entire
work efficiency.
Operating Manual Reference Figure
CP-45/55 Operation Process
However,iftherearealotof
defectives of unit PCB, the
latter can decrease the work
efficiency when comparing with
the former.
^ <Optimization Options> Area
This area is to set the self-
option of the optimized
algorithm executed on Optimizer.
Since basic selection is done,
you may use this as it is. For
the order of mounting the part
on PCB, mount the part in order
of from the higher to the lower.
Failing to observe this rule may
cause that the nozzle can be
crashed against the part which
has been mounted already.
<Component Height> option
determines how strictly this rule
applies. Applying this rule too
strictly may cause a program
of too low efficiency.
Operating Manual Reference Figure
CP-45/55 Operation Process
Select the <Normal> for general
PCB, and select <Strict> for PCB
requiring the application of strict
rule. <Search Depth> option is to
determine the execution method
of mounting order algorithm.
This is caused that it takes
too much time to execute the
optimizer generally for optimizing
the mounting order. Also, the
optimizer execution time
increases as the numbers of
mounting point increase. If you
selecting the <Quick>, you can
determine the mounting order
rapidly. However, in general, the
finial work efficiency is inferior
to a case which selects the
<Deep>. To increase the work
efficiency regardless of
optimizer execution time, select
the <Deep>.