1OM-1626-001_w.pdf - 第96页

1OM-1610 5. V arious Functions : Chap.1 1-39 091 1-001 5. V arious Functions 5.1 PEC Recognition Function In normal cases, two ducial marks are put on a PCB and the coordinate data and positional deviations are detected…

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4.1.8 PCB Output

The PCB where the components have already been placed is sent to the output

machine through the buffer.

Note

When the out-of-standard output method is used and the PCB transfer speed is

lower in the output machine, set the same transfer speed for the machine as that

in the output machine.

Otherwise, the PCB might be caught in the conveyor position Y arranging

operation.

Set the "Output Machine Set Transfer Speed (Default Value: 300 [mm/sec])" to

the same value in the output machine on the "PCB Transfer Mode Setup".

Reference

Refer to "3.1.3 PCB Transfer Mode Setup" in "Chapter 2 (Volume 3)" for details.

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5. Various Functions

5.1 PEC Recognition Function

In normal cases, two ducial marks are put on a PCB and the coordinate data and

positional deviations are detected by the PEC recognition camera. This function

automatically corrects placement positions of components according to the

recognized positional deviations.

There are three kinds of PEC recognition functions - "Global", "Image", and

"Local". The global recognition function covers all positional deviations over one

PCB and is used to correct them. The image recognition function is used to correct

positional deviations for each individual patterns. The local recognition function

is used to correct positional deviations for each component placement point.

Note

(a) When PCBs are positioned on the PCB positioning section and

mechanical accuracy in PCB positioning varies due to variation in

outer dimensions of PCBs, the PEC recognition function can work

effectively to reduce such inaccuracy.

(b) Fiducial marks are put to detect the position of placement patterns.

Therefore, the positional relation between ducial marks and placement

patterns must be constant. Otherwise, the placement accuracy cannot be

improved.

5.2 Functions related to Component Picks and Placement

5.2.1 Automatic Feeder Axis Adjustment Function

When a component is picked up by the vacuum nozzle and shifted from the

correct pick-up position, this function uses the recognition system to correct the

deviations for accurate component placement. By feeding the recognized amount

of correction back to the pickup position, the pickup position can also be brought

close to the specied one.

5.2.2 Pickup Position Automatic Teaching Function

When a tape feeder is pulled out or inserted, the feeder position is automatically

recognized and the recognized position is fed back to the pickup position data,

making it possible to bring the pickup position as close to the accurate (specied)

one as possible.

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5.3 Functions related to Component Replenishment

5.3.1 Alternate Feeder Function (Mode)

When a feeder becomes short of components, this function selects a prepared

spare feeder. After all components are picked up from the spare feeder, another

spare feeder is selected. The prepared spare feeders must contain the components

of frequently used types.

The feeders can be replenished collectively with components, prolonging the

interval time for component replenishment.

5.3.2 Automatic Recovery Function

When this function is used and a component shortage error is detected, the

machine is not stopped and a message is issued as machine information,

prompting the operator to replenish components.

The machine continues to place the components other than the missing ones

(component-shortage detected ones). After it has placed all components (excluding

the missing ones), it stops running without discharging the PCB.

When component shortage errors, etc., are detected in different feeders at a short

interval, the loss time can be reduced because the components in short can be

replenished collectively.

5.3.3 Component Remainder Management Function

This function controls the number of remaining components and issues a warning

message, indicating that the machine will soon become short of components.

When the waring message is received, the component replenishment can be

prepared beforehand, reducing some loss time.

5.3.4 Splicing Function

This function makes it possible to splice the end of the component tape of the tape

feeder and a new component tape for component replenishment.

Thus, the time of the automatic operation stop can be reduced.

A splicing tape and a tape cutting jig (option) are required for the tape splicing.