Overview, Cascadeable ez-screen – Banner EZ-SCREEN Low-Profile Safety Light Curtain Systems User Manual

60

P/N 133487

Banner Engineering Corp.

•

Minneapolis, U.S.A.

www.bannerengineering.com • Tel: 763.544.3164

Overview

60

P/N 140044 rev.

E

Banner Engineering Corp.

•

Minneapolis, U.S.A.

www.bannerengineering.com • Tel: 763.544.3164

EZ-SCREEN LP

Instruction Manual

Cascadeable EZ-SCREEN

Individual Response Time and Safety (Minimum) Distance

When calculating individual safety (minimum) distance for each

emitter/receiver pair, the pair’s position in the cascade impacts

its response time, which then impacts its safety distance (see

safety distance formulas in Section 3.1.1). The “individual”

method results in the closest possible safety distance for each

light screen in the cascade, while ensuring that each sensor pair

is located at an adequate distance from the hazard.
Response time depends on how far “downstream” the light

screen is from the machine control. Each light screen position in

the cascade, starting from the first light screen in the cascade,

increases the light screen’s response time by 2 ms.
Figure 7-5 depicts a four-pair cascade. The 25 mm resolution,

550 mm EZ-SCREEN LP emitter/receiver pairs each begin with

a response time of 11 ms. The pair in position #1 (connected

directly to the machine control), maintains its 11 ms response

time. Response time for the second pair in the cascade circuit

increases by 2 ms, to 13 ms; for the third pair by 4 ms, to 15

ms, and for the fourth pair by 6 ms, to 17 ms. To calculate

response time (Tr) for individual placement of each emitter/

receiver pair in the cascaded system use the formulas:

Position #1: Tr

(cascade1)

= Tr*

Position #2: Tr

(cascade2)

= Tr + 2 ms

Position #3: Tr

(cascade3)

= Tr + 4 ms

Position #4: Tr

(cascade4)

= Tr + 6 ms

*See Sections 7.2 and 7.3 for listed response times.

Overall Response Time and Safety (Minimum) Distance

The cascaded system’s Overall Response Time (Tr) is equal

to the response time of the individual sensor pair with the most

beams (i.e., the slowest individual response time), plus an adder

resulting from the number of systems in the cascade. Tr can be

found by the following formula:

Tr = Tr

(max)

+ [(N-1) x 2 ms]

where:
Tr

(max)

is the response time of the slowest individual pair in the

cascade (i.e., the pair with the most beams; see Section 7.2).

N is the number of sensor pairs in the cascade.

Use this Tr value in the formula in Section 3.1.1 to determine

Overall Safety Distance (Ds). This will ensure that all sensor

pairs will be located at an adequate distance from the hazard,

no matter how the system is installed.
When contacts (e.g., an E-stop button) are connected to a

cascaded receiver (per Section 7.8), CSSI response time is

40 ms plus the 2 ms adder for each additional light screen,

similar to the defined area Tr.

Tr

(CSSI)

= 40 ms + [(N-1) x 2 ms]

Figure 7-5. Calculating the individual response times of four

cascaded safety light screens, each 550 mm long, with
25 mm resolution

Cascade Configuration vs. Response Time

When light screens of different lengths or different resolutions

(and therefore different response times) are used in one circuit,

their positions in the cascade may become a consideration.
For example, consider the light screen circuits depicted in

Figure 7-6. Each example contains three safety light screens,

one 1810 mm long (with a response time of 43.5 ms), and two

410 mm long (13.5 ms response each). Depending on their

placement in the cascade, the individual response time for the

same three light screens can vary.

Simplified Method for Determining Response Time

If the safety distance does not need to be optimized (at a

minimum), simply add 6 ms to the response time of the receiver

with the greatest number of beams (worst case Tr), and use that

number as the overall response time. The 6 ms adder increases

safety distance a total of 10 mm (0.4") when using 1600 mm/s for

the hand speed constant K (see Section 3.1.1).

Tr = Tr

(max)

+ 6 ms

EZ-SCREEN LP
Position #3
11 + 2 + 2 = 15
15 ms Response

Emitters

Receivers

EZ-SCREEN LP
Position #4
11 + 2 + 2 + 2 = 17
17 ms Response

E-Stop (CSSI Input)

EZ-SCREEN LP
Position #2
11 + 2 = 13
13 ms Response

*Light screens of other lengths / resolutions will have different response times.

EZ-SCREEN LP
Position #1
11 ms Response

EZ-SCREEN LP Cascade Overall System Response (for system as shown)*

11 + [(4 – 1) × 2 ms]

11 + 6

17 ms response

Machine
Control

CSSI Response Time = 40 ms + [(4 – 1) × 2 ms]

= 46 ms