TM5761.Badmark Transfer.pdf - 第6页
S M T S o f t w a r e E n g i n e e r i n g G r o u p I M O p e r a t i o n s Y A M A H A M O T O R C O . , L T D . MDOC-SOFT501 16 6/48 2.2. Basic configurati on The basic configurat ion of the badmark transfer is a s f…
SMT Software Engineering Group
IM Operations YAMAHA MOTOR CO., LTD.
MDOC-SOFT50116 5/48
2.1.2. Special application examples
As the created badmark recognition result file is loaded to the upstream machine, even a
board that cannot prepare the badmark on it can handle the badmark.
Since the badmark on the board is not referred to, the badmark recognition result that is
different from the badmark on the board can be processed. Therefore, the operation with the
inspection results after printing reflected on the badmark recognition results becomes
possible.
Inspection results are reflected on the badmark recognition results
OK,NG,
NG,NG
OK,NG,
NG,OK OK,NG,
NG,NG
OK,NG,
NG,NG
OK,NG,
NG,OK OK,NG,
NG,OK
OK,NG,
NG,OK
OK,NG,
NG,OK
Badmark cannot be written (size, material).
Mounter
Mounter
Mounter
Printer
Mounter
Mounter
SMT Software Engineering Group
IM Operations YAMAHA MOTOR CO., LTD.
MDOC-SOFT50116 6/48
2.2. Basic configuration
The basic configuration of the badmark transfer is as follows.
Object Q’ty Remarks
Printer Arbitrary 0 or more
Mounter Essential 1 or more
Transfer signal cable Essential 1 or more The transfer signal is the SMEMA or
ADVANCED GATE.
Server PC Essential 1 There are no other restrictions when the file
is shared during machine operation.
LAN cable Essential 1 or more
Hub Essential 1 or more
Buffer conveyor Arbitrary 0 or more
Custom specification Arbitrary 0 or more Required when using “Actualfirst operation”.
Option Arbitrary 0 or more Required when using “TakeOver”.
Write
Read
Printer
Mounter
Mounter
Mounter
Printer
Buffer conveyor Mounter
Mounter
Mounter
Server PC
Hub
LAN cable
Transfer signal cable
SMT Software Engineering Group
IM Operations YAMAHA MOTOR CO., LTD.
MDOC-SOFT50116 7/48
2.3. Use of the badmark transfer
About employment of badmark transfer is explained.
2.3.1. Outline explanation of badmark transfer mode
The kind of the badmark transfer mode, and outline and condition of use, is explained.
For details about settings, see section “4.1.2 Machine common setting”.
(Caution) Unify the badmark transfer mode of each machine in the line.
Kind of the badmark
transfer mode
Outline explanation
NON The badmark transfer is performed without using "Actualfirst production".
(Caution)
This mode cannot be performed in the configuration including other machine.
BOARD ID The Badmark transfer is performed in "Actualfirst production".
2D code on the board is scanned by the camera of each machine (mounter and
printer). That specifies the badmark recognition result for the board, and production
is performed.
This mode can be performed in the configuration including other machine.
(Caution)
To use this function, a special function (Tok1265: PCB 2D CodeScan) is needed.
TAKE OVER The Badmark transfer is performed in "Actualfirst production".
The board ID is succeeded from upstream machine by "option function (Op003:
Auto Program Change Over)", and specifies the badmark recognition result for the
board ID. And production is performed.
(Caution)
This mode cannot be performed in the configuration including other machine.
(Caution)
To use this function, a option function (Op003: Auto Program Change Over) is
needed. In addition, about "Auto Plan Mode" it is necessary for machine of the
line top to set it in "BOARD ID".
It is necessary for subsequent downstream machine to set it in "TAKE OVER".
NON (UNIQUE ID) The badmark transfer is performed without using "Actualfirst production".
This mode can be performed in the configuration including other machine.
(Caution)
Do not use this mode in the use of "2.1.2 Special application examples".