Calculating scans/symbol – Rockwell Automation 2755 High Performance VLD Scanner User Manual

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Installation Considerations

Example 2:

Increasing the conveyor speed in Example 1 to 300 ft/min. decreases
the number of scans per symbol to less than 3. This means the
2755-LD4C1 scanner is no longer appropriate.

To increase the number of scans per symbol for picket fence
applications, you can do one of the following:

•

select a higher speed scanner

•

increase the usable beam length by backing the scanner away
from the bar code symbol

Selecting Higher Speed Scanner

The LD8C1 scanner has a scan rate of 500 scans/second. It reads 40
mil labels at a minimum distance of 10 inches. At 10 inches, the
LD8C1 has a usable beam length of 5.5 inches.

To calculate minimum scans per symbol, use these values:

A =

500 scans/second – 5% = 475 scans/second (minimum scan rate)

X =

5.5 inches

Y =

4.75 inches

Z

=

60 inch/second (equivalent to 300 ft/min. )

S = 475 scans/second x (5.5 inches – 4.75 inches) / (60 inches / second)
S = 5.94 scans

Since S (scans per symbol) is greater than 5 and the application uses
good quality labels, the 2755-LD8C1 scanner is appropriate for this
application.

Increasing Usable Beam Length

The LD4C1 scanner at 10 inches produces a usable beam length of
8.1 inches. Minimum scans per symbol are now calculated using
these values.

A =

200 scans/second – 5% = 190 scans/second (minimum scan rate)

X =

8.1 inches

Y =

4.75 inches

Z

=

60 inches/second (equivalent to 300 ft/min. )

S = 190 scans/second x (8.1 inches – 4.75 inches) / (60 inches / second)
S = 10.6 scans

Because of the increased scan angle of the LD4, some picket fence
applications can be performed with a higher number of reads using
the lower speed scanner.

Calculating Scans/Symbol