3OM-996-005.pdf - 第330页
0510-002 5-47 AIM01EDTP *4 Auto feeder axis adjustment set # of picks [times], (X) adjustment [%], (Y) adjustment [%] Set the sensitivity parameters which follow up the data learned by using the statistical method in the…
• Sheet Composition
*1 Auto nozzle bypass (Auto Nozzle bypass counts) [times]
The specified number of pickup errors is used to automatically by-
pass the nozzle (to avoid using the nozzle for component picks)
where pickup error have occurred continuously during automatic
operation.
When pickup errors have occurred continuously the specified num-
ber of times, the nozzle is automatically bypassed and the informa-
tion is displayed as machine information.
(a) The data input range is "0 to 9" (times).
(b) When "0" (zero) is set, the automatic nozzle bypass
function becomes unusable.
*2 Auto nozzle bypass rate per # of picks
Error counts [times], # of picks [times]
The specified parameters are used to automatically bypass the
nozzle whose pickup rate has deteriorated during automatic opera-
tion.
When the number of picks has reached the specified value, the
parameter in the "Bad counts [times]" text box is cleared.
When the number of pickup errors has reached the specified bad
counts before the number of picks reaches the specified number of
picks, the nozzle is automatically bypassed and the information is
displayed as machine information.
(a) The data input range is "0 to 9999" for both "Bad
Counts" and "# of Picks".
(b) When "0" (zero) is set for "# of Picks" and "Bad Counts"
or the parameter in the "Bad counts [times]" text box is
larger than the parameter in the "# of picks [times]"
text box, the automatic nozzle bypass function does
not work.
*3 Closed loop Max counts [times]
(Not Available)
3.3 "Auto Operation" Tab
0305-001 5-46 AIM01EDTP
Note
Note
0510-002 5-47 AIM01EDTP
*4 Auto feeder axis adjustment set
# of picks [times], (X) adjustment [%], (Y) adjustment [%]
Set the sensitivity parameters which follow up the data learned by
using the statistical method in the feeder (B) offset data.
New "FDR. (B) OFFSET" = Old "FDR. (B) OFFSET" +
(mean of deviation obtained n times) * Coefficient
# of picks [times]
Set the total number of collected samples when data is updated or
changed.
(a) The data input range is "1 to 10".
(b) The standard value is "3".
(X) adjustment [%]
Set the feedback coefficient of the mean of the feeder axis’ X-direc-
tion deviation.
(a) The data input range is "10 to 100%".
(b) The standard value is "50%".
(Y) adjustment [%]
Set the feedback coefficient of the mean of the feeder axis’ Y-direc-
tion deviation.
(a) The data input range is "10 to 100%"
(b) The standard value is "50%"
3.3 "Auto Operation" Tab
Note
Note
Note
3.3 "Auto Operation" Tab
Mode
"Standard", "Bias", or "Sampling Bias" can be selected.
Standard
Only the normal auto feeder axis adjustment is performed.
Bias
Compared with "Standard", it is possible to set larger follow-up
sensitivity coefficients of the first and second corrections made
after component replacement.
First Follow-Up
Mean of Deviations (Corrected Values) as Results of n-Time Component Recognitions ×
(((X)
adjustment [%] , (Y) adjustment [%]) + (Bias coefficient (X) [%], Bias coefficient (Y) [%]))
Second Follow-Up
Mean of Deviations (Corrected Values) as Results of n-Time Component Recognitions ×
(((X) adjustment [%] , (Y) adjustment [%]) + (Bias coefficient (X) [%], Bias coefficient (Y) [%])/2)
(a) As for the third and subsequent follow-ups, the de-
viations are the same as those in the standard
specifications.
(b) The result of the 1-time component recognition is
adopted only when "n" is set as "1" (n = 1).
(c) When the coefficients "((X) adjustment [%] , (Y) ad-
justment [%]) + (Bias coefficient (X) [%], Bias coef-
ficient (Y) [%])" or "((X) adjustment [%] , (Y) ad-
justment [%]) + (Bias coefficient (X) [%], Bias coef-
ficient (Y) [%])/2" are calculated to be "more than
100%", they are regarded as "100%".
Note
0510-001 5-47-1 AIM01EDTP