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PHOTOELECTRIC
SAFETY BARRIER
EOS4
IINNSSTTAALLLLAAZZIIOONNEE,, UUSSOO EE MMAANNUUTTEENNZZIIOONNEE
IINNSSTTAALLLLAATTIIOONN,, UUSSEE AANNDD MMAAIINNTTEENNAANNCCEE
IINNSSTTAALLLLAATTIIOONN,, UUTTIILLIISSAATTIIOONN EETT MMAAIINNTTEENNAANNCCEE
IINNSSTTAALLLLAATTIIOONN,, BBEEDDIIEENNUUNNGG UUNNDD WWAARRTTUUNNGG
IINNSSTTAALLAACCIIÓÓNN,, UUSSOO YY MMAANNTTEENNIIMMIIEENNTTOO
www.reer.it
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EOS4 SAFETY LIGHT CURTAIN
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INTRODUCTION
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PRINCIPLE OF OPERATION
Figure 1 - Resolution
P = Pitch between two lenses
D = Diameter of a lens
R = Resolution = P+D
P
R
D
Receiver
Emitter
Beam
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INSTALLATION
Table 1 – CF correction factors
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Positioning
EOS4E EOS4R
Incorrect positioning of the light curtain
Correct positioning of the light curtain
Figure 2 - Positioning
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Master/Slave Positioning
Figure 3 – Examples of Master/Slave configurations
Figure 4 - Example of Master/Slave application with mechanical guards
MASTER MASTER
SLAVE SLAVE2
SLAVE
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Calculation of safety distance
Table 2 – Safety distance
Figure 5 – Safety distance S
DANGEROUS ZONE
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Multiple systems
Figure 6 – Multiple systems
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Use of deflecting mirrors
Figure 7 – Deflecting mirrors
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Distance from reflective surfaces
d
d
Figure 8 - Reflective surfaces
l
Figure 9 - Minimum distance d
d
l
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Mechanical assembly and optical alignment
Figure 10 – Mechanical assembly
Figure 11 – Optical alignment
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Vertical positioning of the light curtain
Models with 14, 20mm resolution
Models with 30, 40mm resolution
S = 2000 (t1 + t2) + 8(D-14)
(D=resolution)
S = 1600 (t1 + t2) + 8(D-14)
ISO 13855 Standard.
Figure 12 - Vertical positioning
14mm, 20mm, 30mm, 40mm
Models with 50, 90mm resolution
S = 1600 (t1 + t2) + 850
(ISO 13855 Standard).
Figure 13 - 50mm, 90mm
Light curtain point of danger
direction of approach
reference plane
Light curtain
point of danger
direction of approach
reference plane
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Multibeam Models
S = 1600 (t1 + t2) + 850
(ISO 13855 Standard)
Figure 14 - Multibeam
Table 3 - Height H of Multibeam models
Horizontal positioning of the light curtain
S = 1600(t1 + t2) + 1200 – 0.4H
H = 15(D-50)
(D=resolution)
(ISO 13855 Standard)
Figure 15 - Horizontal positioning
Light grid
point of danger
direction of approach
reference plane
Light curtain
point of danger
direction of approach
reference plane
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Electrical connections
Layout of the connectors on MASTER/SLAVE light curtain
Figure 16 - Connector layout
SLAVE primary connector
SLAVE2 secondary connector
SLAVE
SLAVE 2
SLAVE2 primary connector
MASTER secondary connector
MASTER
MASTER primary connector
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Emitter connections
EOS4A - EOS4X (with integrated control functions) - EOS4XM (MASTER models) M12 5-pin primary connectors.
Brown
White
Blue
Black
Grey
Table 4 - M12, 5 pin Master/Standard/with integrated control functions TX
Table 5 – Range and TEST selection
EOS4XS - EOS4XS2 (SLAVE/SLAVE2 models) - M12, 5-pin primary connector.
Brown
White
Blue
Black
Grey
Table 6 - M12, 5-pin Primary Slave TX
EOS4XM (MASTER models) – M12, 5-pin secondary connector. EOS4XS2 (SLAVE2 models) – M12, 5-pin secondary connector.
Brown
White
Blue
Black
Grey
Table 7 - M12, 5-pin Secondary TX
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Receiver connections
EOS4A models - M12, 5-pin connector.
Brown
White
Blue
Black
Grey
Table 8 - M12, 5 pins Primary RX
EOS4X (models with integrated control functions) - M12, 8-pin connector. EOS4XM (MASTER models) - M12, 8-pin primary connector.
White
Brown
Green
Yellow
"Configuration and operating modes"
page 19
Grey
Pink
Blue
Red
Table 9 - M12, 8 pins RX
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EOS4XS - EOS4XS2 (SLAVE/SLAVE2 models) - M12, 5-pin primary connectors.
Brown
White
Blue
Black
Grey
Table 10 - M12, 5 pins Primary Slave RX
EOS4XM (MASTER models) - M12, 5-pin Secondary Connector. EOS4XS2 (SLAVE2 models) - M12, 5-pin Secondary Connector.
Brown
White
Blue
Black
Grey
Table 11 - M12, 5 pin Secondary RX
Warnings regarding connection cables
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Configuration and operating modes (Master Models / With integrated control functions)
( )
(via set of NC contacts of K1K2)
( )
(via RESTART button)
( )
(via RESTART button and set of NC contacts of K1K2)
( )
Table 12 –Setting of manual/automatic mode
Automatic operation
Manual operation
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Connection of external contactors K1 and K2
Figure 17 - Automatic
Figure 18 – Automatic with K1K2 feedback
Figure 19 - Manual
Figure 20 – Manual with K1K2 feedback
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Examples of connection with REER safety modules
Figure 21 - EOS4 A: Manual operation with AD SR1 module
Figure 22 - EOS4 X: Automatic operation with AD SR0 module
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Figure 23 - EOS4 X: Connection examples
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Figure 24 - EOS4 A: Connection examples
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OPERATION AND TECHNICAL DATA
Light signals
Figure 25 - Light signals
Emitter light signals
Table 13 – TX light signals
Receiver light signals
Table 14 – RX light signals EOS4 A / EOS4 Slave
Table 15 – RX light signals EOS4 X (With integrated control functions)
chapter
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Table 16 - RX light signals EOS4 14mm and H (20m)
Table 17 – RX light signals EOS4 (Master)
TEST function
Status of the outputs
The maximum permissible load for each output is 400mA@24VDC, corresponding to a resistive load of 60. The maximum OFF-state voltage is < 0,5VDC. The maximum output current in OFF-state (leakage current) is <2mA. The maximum load capacity corresponds to 0.82F@24VDC.
chapter
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24VDC
0VDC
Table 18 - Status of the outputs
Figure 26 – Correct load connection on the outputs
Technical specifications
*) Devices are not suitable for outdoor use without supplementary measures
RECEIVER
RECEIVER
Max. load
400mA
Max. load 400mA
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14 mm Resolution Models 151 301 451 601 751 901 1051 1201 1351 1501 1651 1801 1951
Number of beams 15 30 45 60 75 90 105 120 135 150 165 180 195
Response time ms 4 5,5 7,5 9 11 13 14,5 16,5 18 20 22 23,5 25
Response time (Master + 1 slave)
ms ttot = [0,06 * (Nrslave1 + Nrmaster ) + 0,9636] * 2
Response time (Master + 2 slaves)
ms ttot = [0,06 * (Nrslave1 + Nrslave2 + Nrmaster ) + 1,0036] * 2
Protected height mm 160 310 460 610 760 910 1060 1210 1360 1510 1660 1810 1960
PFHd * 1,11E-08 1,24E-08 1,38E-08 1,51E-08 1,65E-08 1,78E-08 1,91E-08 2,04E-08 2,18E-08 2,31E-08 2,45E-08 2,57E-08 2,71E-08
DCavg # 95,7% 95,6% 95,5% 95,5% 95,4% 95,3% 95,3% 95,2% 95,2% 95,1% 95,1% 95,1% 95,1%
MTTFd # years 529,1 476,4 431,5 395,8 364,3 338,5 315,2 295,8 277,8 262,6 248,3 236,1 224,5
CCF # 80%
30 mm Resolution Models 153 253 303 453 603 753 903 1053 1203 1353 1503 1653 1803 1953 2103 2253
Number of beams 8 13 16 23 31 38 46 53 61 68 76 83 91 98 106 113
Response time ms 4 5 5,5 7,5 9 10,5 12,5 14 15,5 17 19 20,5 22 23,5 25 26,5
Response time (Master + 1 slave)
ms ttot = [0,11 * (Nrslave1 + Nrmaster ) + 0,9376] * 2
Response time (Master + 2 slaves)
ms ttot = [0,11 * (Nrslave1 + Nrslave2 + Nrmaster ) + 1,0508] * 2
Protected height mm 160 260 310 460 610 760 910 1060 1210 1360 1510 1660 1810 1960 2110 2260
PFHd * 8,39E-09 9,37E-09 9,52E-09 1,08E-08 1,19E-08 1,32E-08 1,43E-08 1,56E-08 1,67E-08 1,80E-08 1,91E-08 2,04E-08 2,15E-08 2,28E-08 2,39E-08 2,51E-08
DCavg # 96,7% 96,9% 97,0% 97,2% 97,3% 97,4% 97,5% 97,6% 97,6% 97,7% 97,7% 97,7% 97,8% 97,8% 97,8% 97,8%
MTTFd # years 516,1 419,9 403,5 328,5 278,9 240,9 213,1 190,2 172,5 157,1 144,8 133,8 124,8 116,6 109,7 103,3
CCF # 80%
40 mm Resolution Models 154 254 304 454 604 754 904 1054 1204 1354 1504 1654 1804 1954 2104 2254
Number of beams 6 9 11 16 21 26 31 36 41 46 51 56 61 66 71 76
Response time ms 3,5 4 4,5 5,5 7 8 9 10 11 12,5 13,5 14,5 15,5 16,5 17,5 18,5
Response time (Master + 1 slave)
ms ttot = [0,11 * (Nrslave1 + Nrmaster ) + 0,9376] * 2
Response time (Master + 2 slaves)
ms ttot = [0,11 * (Nrslave1 + Nrslave2 + Nrmaster ) + 1,0508] * 2
Protected height mm 160 260 310 460 610 760 910 1060 1210 1360 1510 1660 1810 1960 2110 2260
PFHd * 8,14E-09 9,05E-09 9,07E-09 9,89E-09 1,08E-08 1,16E-08 1,26E-08 1,34E-08 1,43E-08 1,52E-08 1,61E-08 1,69E-08 1,79E-08 1,87E-08 1,96E-08 2,04E-08
DCavg # 96,5% 96,7% 96,7% 97,0% 97,1% 97,2% 97,3% 97,4% 97,5% 97,5% 97,5% 97,6% 97,6% 97,6% 97,7% 97,7%
MTTFd # years 570,6 465,5 463,3 391,5 337,8 298,0 265,9 240,6 219,2 201,7 186,4 173,6 162,2 152,4 143,5 135,8
CCF # 80%
50 mm Resolution Models 155 305 455 605 755 905 1055 1205 1355 1505 1655 1805 1955 2105 2255
Number of beams 4 8 12 16 20 24 28 32 36 40 44 48 52 56 60
Response time ms 3 4 4,5 5,5 6,5 7,5 8,5 9 10 11 12 13 14 15 16
Response time (Master + 1 slave)
ms ttot = [0,11 * (Nrslave1 + Nrmaster ) + 0,9376] * 2
Response time (Master + 2 slaves)
ms ttot = [0,11 * (Nrslave1 + Nrslave2 + Nrmaster ) + 1,0508] * 2
Protected height mm 160 310 460 610 760 910 1060 1210 1360 1510 1660 1810 1960 2110 2260
PFHd * 7,83E-09 8,46E-09 9,15E-09 9,78E-09 1,05E-08 1,11E-08 1,18E-08 1,24E-08 1,31E-08 1,37E-08 1,44E-08 1,51E-08 1,57E-08 1,64E-08 1,71E-08
DCavg # 96,5% 96,8% 96,9% 97,1% 97,2% 97,3% 97,4% 97,5% 97,5% 97,6% 97,6% 97,6% 97,6% 97,7% 97,7%
MTTFd # years 594,5 497,2 432,2 378,4 339,5 305,4 279,6 256,0 237,6 220,4 206,6 193,5 182,8 172,4 163,8
CCF # 80%
WITH: Nrslave1 = number of beams of slave1
Nrslave2 = number of beams of slave2
Nrmaster = number of beams of master
* IEC 61508 # ISO 13849-1 ttot = total response time
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90 mm Resolution Models 309 459 609 759 909 1059 1209 1359 1509 1659 1809 1959 2109 2259
Number of beams 4 6 8 10 12 14 16 18 20 22 24 26 28 30
Response time 3 3,5 4 4,5 5 5,5 5,5 6 6,5 7 7,5 8 8,5 9
Response time (Master + 1 slave)
ms ttot = [0,11 * (Nrslave1 + Nrmaster ) + 0,9376] * 2
Response time (Master + 2 slaves)
ms ttot = [0,11 * (Nrslave1 + Nrslave2 + Nrmaster ) + 1,0508] * 2
Protected height mm 310 460 610 760 910 1060 1210 1360 1510 1660 1810 1960 2110 2260
PFHd * 8,09E-09 8,63E-09 9,08E-09 9,62E-09 1,01E-08 1,06E-08 1,11E-08 1,16E-08 1,20E-08 1,26E-08 1,30E-08 1,36E-08 1,40E-08 1,46E-08
DCavg # 96,5% 96,6% 96,7% 96,8% 96,9% 96,9% 97,0% 97,1% 97,1% 97,1% 97,2% 97,2% 97,2% 97,3%
MTTFd # years 574,4 514,4 467,8 427,2 394,5 365,3 341,1 319,0 300,5 283,2 268,5 254,6 242,6 231,2
CCF # 80%
Multibeam Models 2B 3B 4B
Number of beams 2 3 4
Distance between the beams mm
500 400 300
Response time ms 2,5 3 3
Response time (Master +1 slave) ms
ttot = [0,11 * (Nrslave1 + Nrmaster ) + 0,9376] * 2
Response time (Master + 2 slaves) ms
ttot = [0,11 * (Nrslave1 + Nrslave2 + Nrmaster ) + 1,0508] * 2
PFHd * 8,19E-09 8,85E-09 9,51E-09
DCavg # 96,2% 96,2% 96,1%
607,3 560,5 520,4
CCF # 80%
WITH: Nrslave1 = number of beams of slave1
Nrslave2 = number of beams of slave2
Nrmaster = number of beams of master
* IEC 61508 # ISO 13849-1 ttot = total response time
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20 mm Resolution Models H 152 302 452 602 752 902 1052 1202 1352 1502 1652 1802 1952
Number of beams 15 30 45 60 75 90 105 120 135 150 165 180 195
Response time ms 4 5,5 7,5 9 11 13 14,5 16,5 18 20 22 23,5 25
Response time (Master + 1 slave)
ms ttot = [0,06 * (Nrslave1 + Nrmaster ) + 0,9636] * 2
Response time (Master + 2 slaves)
ms ttot = [0,06 * (Nrslave1 + Nrslave2 + Nrmaster ) + 1,0036] * 2
Protected height mm 160 310 460 610 760 910 1060 1210 1360 1510 1660 1810 1960
PFHd * 1,11E-08 1,24E-08 1,38E-08 1,51E-08 1,65E-08 1,78E-08 1,91E-08 2,04E-08 2,18E-08 2,31E-08 2,45E-08 2,57E-08 2,71E-08
DCavg # 95,7% 95,6% 95,5% 95,5% 95,4% 95,3% 95,3% 95,2% 95,2% 95,1% 95,1% 95,1% 95,1%
MTTFd # years 529,1 476,4 431,5 395,8 364,3 338,5 315,2 295,8 277,8 262,6 248,3 236,1 224,5
CCF # 80%
30 mm Resolution Models H 153 303 453 603 753 903 1053 1203 1353 1503 1653 1803 1953 2103 2253
Number of beams 8 16 23 31 38 46 53 61 68 76 83 91 98 106 113
Response time ms 3 4 5 6 6,5 7,5 8,5 9,5 10 11 12 13 14 14,5 15,5
Response time (Master + 1 slave)
ms ttot = [0,06 * (Nrslave1 + Nrmaster ) + 0,9636] * 2
Response time (Master + 2 slaves)
ms ttot = [0,06 * (Nrslave1 + Nrslave2 + Nrmaster ) + 1,0036] * 2
Protected height mm 160 310 460 610 760 910 1060 1210 1360 1510 1660 1810 1960 2110 2260
PFHd * 1,05E-08 1,11E-08 1,19E-08 1,25E-08 1,33E-08 1,39E-08 1,46E-08 1,53E-08 1,60E-08 1,67E-08 1,74E-08 1,80E-08 1,88E-08 1,94E-08 2,02E-08
DCavg # 95,8% 95,8% 95,7% 95,6% 95,6% 95,5% 95,5% 95,4% 95,4% 95,4% 95,3% 95,3% 95,2% 95,2% 95,2%
MTTFd # years 558,9 527,5 498,3 473,1 449,5 428,9 409,4 392,3 375,9 361,4 347,5 335,0 323,0 312,3 301,8
CCF # 80%
40 mm Resolution Models H 154 304 454 604 754 904 1054 1204 1354 1504 1654 1804 1954 2104 2254
Number of beams 6 11 16 21 26 31 36 41 46 51 56 61 66 72 78
Response time ms 3 3,5 4 4,5 5 6 6,5 7 7,5 8 8,5 9,5 10 10,5 11
Response time (Master + 1 slave)
ms ttot = [0,06 * (Nrslave1 + Nrmaster ) + 0,9636] * 2
Response time (Master + 2 slaves)
ms ttot = [0,06 * (Nrslave1 + Nrslave2 + Nrmaster ) + 1,0036] * 2
Protected height mm 160 310 460 610 760 910 1060 1210 1360 1510 1660 1810 1960 2110 2260
PFHd * 1,04E-08 1,10E-08 1,15E-08 1,20E-08 1,25E-08 1,30E-08 1,35E-08 1,41E-08 1,45E-08 1,51E-08 1,55E-08 1,61E-08 1,65E-08 1,71E-08 1,76E-08
DCavg # 95,8% 95,7% 95,7% 95,6% 95,6% 95,5% 95,5% 95,4% 95,4% 95,3% 95,3% 95,3% 95,3% 95,2% 95,2%
MTTFd # years 567,2 539,8 521,7 498,5 483,0 463,0 449,6 432,2 420,5 405,3 395,0 381,5 372,4 360,4 352,2
CCF # 80%
WITH: Nrslave1 = number of beams of slave1
Nrslave2 = number of beams of slave2
Nrmaster = number of beams of master
* IEC 61508 # ISO 13849-1 ttot = total response time
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50 mm Resolution Models H 155 305 455 605 755 905 1055 1205 1355 1505 1655 1805 1955 2105 2255
Number of beams 4 8 12 16 20 24 28 32 36 40 44 48 52 56 60
Response time ms 2,5 3 3,5 4 4,5 5 5,5 6 6,5 7 7 8 8 9 9
Response time (Master + 1 slave)
ms ttot = [0,06 * (Nrslave1 + Nrmaster ) + 0,9636] * 2
Response time (Master + 2 slaves)
ms ttot = [0,06 * (Nrslave1 + Nrslave2 + Nrmaster ) + 1,0036] * 2
Protected height mm 160 310 460 610 760 910 1060 1210 1360 1510 1660 1810 1960 2110 2260
PFHd * 1,02E-08 1,05E-08 1,09E-08 1,12E-08 1,16E-08 1,20E-08 1,24E-08 1,27E-08 1,31E-08 1,34E-08 1,38E-08 1,41E-08 1,46E-08 1,49E-08 1,53E-08
DCavg # 95,9% 95,8% 95,8% 95,7% 95,7% 95,7% 95,6% 95,6% 95,6% 95,5% 95,5% 95,5% 95,5% 95,4% 95,4%
MTTFd # years 576,7 559,5 540,6 525,5 508,8 495,4 480,5 468,5 455,2 444,5 432,5 422,7 411,8 403,0 393,1
CCF # 80%
90 mm Resolution Models H 309 459 609 759 909 1059 1209 1359 1509 1659 1809 1959 2109 2259
Number of beams 4 6 8 10 12 14 16 18 20 22 24 26 28 30
Response time ms 2,5 3 3 3,5 3,5 3,5 4 4 4,5 4,5 5 5,5 6 6
Response time (Master + 1 slave)
ms ttot = [0,06 * (Nrslave1 + Nrmaster ) + 0,9636] * 2
Response time (Master + 2 slaves)
ms ttot = [0,06 * (Nrslave1 + Nrslave2 + Nrmaster ) + 1,0036] * 2
Protected height mm 310 460 610 760 910 1060 1210 1360 1510 1660 1810 1960 2110 2260
PFHd * 1,04E-08 1,08E-08 1,10E-08 1,14E-08 1,16E-08 1,20E-08 1,23E-08 1,26E-08 1,29E-08 1,33E-08 1,35E-08 1,39E-08 1,42E-08 1,45E-08
DCavg # 95,8% 95,7% 95,7% 95,6% 95,6% 95,5% 95,5% 95,4% 95,4% 95,3% 95,3% 95,3% 95,2% 95,2%
MTTFd # years 570,6 556,3 545,4 532,3 522,4 510,3 501,2 490,1 481,6 471,4 463,5 454,1 446,8 438,0
CCF # 80%
Multibeam H Models 2B 3B 4B
Number of beams 2 3 4
Distance betweenthe beams mm 500 400 300
Response time ms 2,5 2,5 2,5
Response time (Master +1 slave) ms
ttot = [0,06 * (Nrslave1 + Nrmaster ) + 0,9836] * 2
Response time (Master + 2 slaves) ms
ttot = [0,06 * (Nrslave1 + Nrslave2 + Nrmaster ) + 1,0336] * 2
PFHd * 1,10E-08 1,15E-08 1,21E-08
DCavg # 95,6% 95,5% 95,4%
MTTFd # years 561,0 538,8 518,4
CCF # 80%
WITH: Nrslave1 = number of beams of slave1
Nrslave2 = number of beams of slave2
Nrmaster = number of beams of master
* IEC 61508 # ISO 13849-1 ttot = total response time
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Dimensions
Figure 27 - Emitter and Receiver
Figure 28 - FIE inserts and LE fastening brackets (provided)
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Figure 29 - Fastening brackets SFBE
Figure 30 - Fastening brackets SFB180E
Figure 31 - Deflection mirrors
Figure 32 - Fastening brackets for mirrors
Model H
SP100S 250
SP300S 400
SP400S 540
SP600S 715
SP700S 885
SP900S 1060
SP1100S 1230
SP1200S 1400
SP1300S 1450
SP1500S 1600
SP1600S 1750
SP1800S 1900
M8 Inserts
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CHECKOUTS AND MAINTENANCE
Functional checks
chapter
Figure 33 – Efficiency check
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Troubleshooting
Check connections of pins 2 & 4.
Send to REER for repair.
Check model compatibility
Check condition of the Master.
If in FAIL condition, check the type of fault.
If the fault persists, send the device to ReeR laboratories for repair.
Check Master/Slave connections.
Reset of the system.
If the fault persists, send Master and Slave to ReeR laboratories for repair
Check connections.
Check connections (pin 4).
Carefully locate the interfering Emitter and take action in one of the following ways:
Reduce the range of the interfering Emitter from High to Low
Swap over the position of Emitter and Receiver
Move the interfering Emitter so that it does not illuminate the Receiver
Shield the beams emitted by the interfering Emitter using opaque protections
Check connections.
If the fault persists, send to REER for repair.
Send the device to ReeR laboratories for repair
Check Master/Slave connections
If the fault persists, send the device to ReeR laboratories for repair.
Table 19 - Troubleshooting
EOS4 SAFETY LIGHT CURTAIN
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EOS4 SAFETY LIGHT CURTAIN
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Accessories/Spares
EOS4 SAFETY LIGHT CURTAIN
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GUARANTEE
Characteristics liable to modifications without prior notice. Complete or partial reproduction is forbidden without REER’s prior authorisation.
Dichiarazione CE di conformità
EC declaration of conformity
Torino, 05/12/2017
REER SpA
via Carcano 32
10153 – Torino
Italy
dichiara che le barriere fotoelettriche EOS4 sono Dispositivi Elettrosensibili di Sicurezza (ESPE) di :
Tipo 4 (secondo la Norma EN 61496-1:2013; EN 61496-2:2013) SIL 3 (secondo la Norma IEC 61508-1(ed.2); IEC 61508-2: (ed.2); IEC 61508-3: (ed.2); IEC 61508-4: (ed.2)) SILCL 3 (secondo la Norma IEC 62061:2005/A2:2015) Cat.4 - PL e (secondo la Norma EN ISO 13849-1:2015)
declares that the EOS4 photoelectric safety barriers are :
Type 4 (according the Standard EN 61496-1:2013; EN 61496-2:2013) SIL 3 (according the Standard IEC 61508-1(ed.2); IEC 61508-2: (ed.2); IEC 61508-3: (ed.2); IEC 61508-4: (ed.2)) SILCL 3 (according the Standard IEC 62061:2005/A2:2015) Cat.4 - PL e (according the Standard EN ISO 13849-1:2015)
Electro-sensitive Protective Equipments (ESPE)
realizzati in conformità alle seguenti Direttive Europee:
complying with the following European Directives:
2006/42/EC "Direttiva Macchine"
"Machine Directive"
2014/30/EU "Direttiva Compatibilità Elettromagnetica"
"Electromagnetic Compatibility Directive"
e alle seguenti Norme: /and to the following Standards:
EN 50178: 1997
EN 55022: 2006
EN 61000-6-2: 2005
e sono identiche all'esemplare esaminato ed approvato con esame di tipo CE da:
and are identical to the specimen examined and approved with a CE - type approval by:
TÜV SÜD Product Service GmbH – Zertifizierstelle – Ridlerstraße 65 – 80339 – München – Germany N.B. number: 0123 – Certificate No. Z10 16 05 24820 066
Responsabile per la documentazione tecnica: Carlo Pautasso
Responsible person for technical documentation:
Carlo Pautasso Simone Scaravelli
Direttore Tecnico Amministratore Delegato
Technical Director Managing director
REER S.p.A.
32 via Carcano 10153 Torino Italia
Tel. +39/0112482215 r.a. Fax +39/011859867 Internet: www.reer.it e-mail: [email protected]