5 scanning methods, Control module configuration – Banner A-GAGE MINI-ARRAY Series User Manual

Control Module Configuration

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4.5 Scanning Methods

The control module offers the choice of one of four scanning methods:
• Straight scan

• Interlaced scan

• Edge scan

• Skip scan
Straight Scan is the default mode in which all beams are scanned in sequence from the

bottom end (cable end) to the top end of the array. This scanning method requires the

longest scan times and provides the smallest object detection size.
To calculate scan time for Straight Scan, multiply the number of beams by 55

microseconds, and add post process time.
Interlaced Scan alternates a straight scan with a slanted-beam scan to improve optical

resolution within the middle one-third of the scanning range (see Figure 4-1). A slanted-

beam scan begins with a beam between emitter channel 1 and receiver channel 2, then

between emitter channel 2 and receiver channel 3, and so on. The last emitter channel

beams to the last receiver channel to complete the scan. After this sequence, the emitter/

receiver pair performs a standard straight-across scan (emitter channel 1 – receiver

channel 1, and so on).
To calculate scan time for Interlaced Scan, double the number of beams in the array,

multiply by 55 microseconds, and add post process time.
Edge Scan is designed to speed sensing response time, by measuring or locating only

one edge of an object. Edge scan activates only the beams located near the top edge of

an object in the light screen. (NOTE: “Top edge” refers to the edge of the object passing

farthest from the cabled end of the sensors.) When the array is clear, the system will

execute straight scans. Edge scan begins when a blocked channel is detected. Each scan

begins six beams prior to the last beam blocked during the previous scan. The scan

continues from this point and moves upward to the first unblocked beam, where the scan

is completed. Use of Edge Scan mode limits the Scan Analysis mode selection to only

LBB (Last Beam Blocked). Edge Scan requires the following configuration: Analysis Mode

1 – LLB; Anaylsis Mode 2 – None; and all beams active (no blanking).
Scan time for Edge Scan mode will vary, depending on what size objects are in the array

at a given time.
Skip Scan speeds sensing response time at the expense of decreased sensing resolution.

Skip Scan mode allows from one to seven beams to be skipped during each scan. For

example, with one beam skipped, only beams 1, 3, 5, 7, etc. will be interrogated; with

two beams skipped, only beams 1, 4, 7, 10, etc. will be interrogated. Skip Scan also has

some restrictions: the object should provide a solid obstruction, and the size of the

object will determine the maximum step size (the target object cannot be smaller than

the distance between two consecutive beams).
To calculate scan time for Skip Scan, first determine how many beams are being used. (For

example, if the array has 16 beams, and it is configured to skip 1 beam, then half the

beams – 8 – are in use. If the array is configured to skip 3 beams, then every fourth beam

– a total of 4 for this array – is in use.) Multiply the number of beams by 55 microseconds,

and add post process time.
Post Process Time

Post process time is determined by the number of beams “fired” in a given scan, and

measured in milliseconds. To compute post process time, use the following formula:

PPT* (in milliseconds) =

(

Beam Channels Fired + 10

)

x 0.12 ms +1 ms

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* Approximate Value

Resolution is

increased in

the center

third of

the range

Figure 4-1. Interlaced Scan Mode improves

optical resolution in the middle

third of the scanning range.

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