Stainless Steel Barrel-style Photoelectric Sensors EZ-BEAM Series
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EZ-BEAM® Series Sensors
Stainless Steel Barrel-style Photoelectric Sensors
EZ-BEAM Series Features
threaded-barrel sensor choose SPDT (complementary) outputs (150 max. ea.) Easy use; adjustments necessary Advanced self-diagnostics with separate alarm output; dual system indicates sensor performance Choice integral cable Euro-style quick disconnect connector Epoxy-encapsulated circuitry; IP67 (NEMA construction harsh sensing environments Brackets available wide array mounting options
U.S. patent 5087838 (see Specifications, page
EZ-BEAM Series Sensing Mode Options
Opposed
Retroreflective
Diffuse
Fixed-Field
Infrared,
Series Opposed-Mode Emitter Receiver
Models
M186E M186EQ M18SN6R M18SN6RQ M18SP6R M18SP6RQ (66')
Range
Cable*
(6.5') 4-Pin Euro-style (6.5') 4-Pin Euro-style (6.5') 4-Pin Euro-style
Supply Voltage
Output Type
1000
Excess Gain
Series
Beam Width
Effective Beam:
1500 1000
Series
Opposed Mode
Opposed Mode
10-30V
1000 1500
DISTANCE
DISTANCE
(30') cables available adding suffix "W/30" model number cabled sensor (e.g., M18SN6R W/30). model with connector requires optional mating cable. page more information.
Printed
49201E9A
EZ-BEAM Series Sensors
Non-Polarized, Polarized
Series Retroreflective Mode
Models Range Cable Supply Voltage Output Type
1000
Excess Gain
Series
Beam Pattern
Non-Polarized (Infrared,
M18SN6L M18SN6LQ (79") M18SP6L M18SP6LQ (6.5') 4-Pin Euro-style (6.5') 4-Pin Euro-style 10-30V
Series
Non-Polarized Retro
Non-Polarized Retro
with BRT-3 Reflector
with BRT-3 Reflector
.033
DISTANCE
DISTANCE
Polarized (Visible red,
M18SN6LP M18SN6LPQ (79") M18SP6LP M18SP6LPQ (6.5') 4-Pin Euro-style (6.5') 4-Pin Euro-style 10-30V
1000
Series
Series
Polarized Retro
Polarized Retro
with BRT-3 Reflector
with BRT-3 Reflector
.033
DISTANCE
DISTANCE
Infrared,
Series Diffuse Mode
Models Range Cable Supply Voltage Output Type
1000
Excess Gain
Beam Pattern
Performance based reflectance white test card
Series
Range
M18SN6D M18SN6DQ (4") M18SP6D M18SP6DQ (6.5') 4-Pin Euro-style (6.5') 4-Pin Euro-style 10-30V
Series
Short Range Diffuse
Short Range Diffuse Mode Maximum Gain
Minimum Gain
1000
DISTANCE
DISTANCE
Range
M18SN6DL M18SN6DLQ (12") M18SP6DL M18SP6DLQ (6.5') 4-Pin Euro-style (6.5') 4-Pin Euro-style 10-30V
1000
Series
Series
Long Range Diffuse
Maximum Gain
Long Range Diffuse Mode
Minimum Gain
1000
DISTANCE
DISTANCE
page
Banner Engineering Corp. Minneapolis, U.S.A. Website: http://www.baneng.com Tel: 888.373.6767
EZ-BEAM Series Sensors
Infrared,
Series Fixed-Field Mode
Models Cutoff Point Cable Supply Voltage Output Type Excess Gain
Performance based reflectance white test card
1000
With Limit Cutoff
M18SN6FF25 M18SN6FF25Q (1") M18SP6FF25 M18SP6FF25Q (6.5') 4-Pin Euro-style (6.5') 4-Pin Euro-style 10-30V
Series
Fixed-field mode with limit cutoff
.004
DISTANCE
With Limit Cutoff
M18SN6FF50 M18SN6FF50Q (2") M18SP6FF50 M18SP6FF50Q (6.5') 4-Pin Euro-style (6.5') 4-Pin Euro-style 10-30V
1000
Series
Fixed-field mode with limit cutoff
.004
DISTANCE
With Limit Cutoff
M18SN6FF100 M18SN6FF100Q (4") M18SP6FF100 M18SP6FF100Q (6.5') 4-Pin Euro-style (6.5') 4-Pin Euro-style 10-30V
1000
Series
Fixed-field mode with limit cutoff
.004
DISTANCE
(30') cables available adding suffix "W/30" model number cabled sensor (e.g., M18SN6FF25 W/30). model with connector requires optional mating cable. page more information.
excess gain curves above show excess gain sensing distance Series fixed-field sensors with 25-, 100-millimeter cutoffs. Maximum excess gain 25-mm models occurs lens-to-object distance about 50-mm models, about 100-mm models, about Sensing near these distances will make maximum each sensor's available sensing power. Backgrounds background objects must always placed beyond cutoff distance. These excess gain curves were generated using white test card reflectance.
Banner Engineering Corp. Minneapolis, U.S.A. Website: http://www.baneng.com Tel: 888.373.6767
Objects with reflectivity less than reflect less light back sensor, thus require proportionately more excess gain order sensed with same reliability more reflective objects. When sensing object very reflectivity, especially important sense near distance maximum excess gain. effects object reflectivity cutoff distance, though small, important some applications. Sensing objects less than reflectivity causes cutoff distances "pulled" slightly closer sensor. example, excess gain object that reflects 1/10 much light white card represented heavy horizontal
graph line excess gain object this reflectivity results limit cutoffs approximately (for 25-, 100-mm cutoff models, respectively). Objects with reflectivity greater than return more light sensor. this reason, highly reflective backgrounds background objects such mirrors, polished metal, other sources specular reflections require special consideration. necessary highly reflective background, should placed beyond cutoff distance possible angled direct reflected light away from sensor (see page
page
EZ-BEAM Series Sensors
EZ-BEAM Series Fixed-Field Sensor Setup Tips
General highest sensitivity, sensor-to-object distance should such that object will sensed near point maximum excess gain (see page background must placed beyond cutoff distance. Following these guidelines makes possible detect objects reflectivity, even against close-in reflective backgrounds. drawings discussion this page, letters identify sensor's three optical elements (Emitter "E", Near Detector "R1", Detector "R2") line across face sensor. Figures these elements align vertically; Figure they align horizontally. Note position tabs front sensor helps define sensing axis sensor (Figure right). sensing axis becomes important situations like those illustrated Figures below. Background reflectivity placement Avoid mirror-like backgrounds that produce specular reflections. False sensor response will occur background surface reflects sensor's light more strongly near detector (R1) than detector (R2). result false condition (Figure diffusely-reflective (matte) background will cure this problem. Other possible solutions either angle sensor angle background plane) that background does reflect back sensor (see Figure object beyond cutoff distance, either moving stationary (and when positioned shown Figure cause unwanted triggering sensor because reflects more light near detector than detector. Remedy problem easily rotating sensor (Figure align sensing axis horizontally. object then reflects fields equally, resulting false triggering. better solution, possible, reposition object sensor. Unwanted triggering sensor from object beyond cutoff also caused attempting sense small object moving perpendicular sensor face, object moving through off-center position shown Figure Making object larger, centering sensor relative object, rotating sensor place sensing axis perpendicular longer dimension object (Figure will solve problem.
Sensing Axis
general rule, most reliable sensing object approaching from side occurs when line approach parallel sensing axis.
Figure Sensing axis
Fixed Sensing Field M18FF Sensor Emitter Near Detector Detector Core Emitted Beam Strong Direct Reflection
Cutoff Distance
Reflective Background
Figure Reflective background problem
Fixed Sensing Field M18FF Sensor Emitter Near Detector Detector Core Emitted Beam
Cutoff Distance Reflective Background
Fixed Sensing Field Cutoff Distance
Reflective Background Moving Object M18FF Sensor
Fixed Sensing Field
Strong Direct Reflection Away From Sensor
Cutoff Distance Reflective Background Moving Object
M18FF Sensor
Figure Reflective background solution
Response Emitter Response Near Detector Detector Area Response Area Response Area Response
Emitter Near Detector Detector Area Response
Figure Object beyond cutoff problem
page
Figure Object beyond cutoff solution
Banner Engineering Corp. Minneapolis, U.S.A. Website: http://www.baneng.com Tel: 888.373.6767
EZ-BEAM Series Sensors
EZ-BEAM Series Specifications
Supply Voltage Current Opposed Mode Emitters: Opposed Mode Receivers: Polarized Retro: Non-polarized Retro: Fixed-field: Diffuse: Supply Protection Circuitry Output Configuration (10% maximum ripple); Supply current (exclusive load current): Protected against reverse polarity transient voltages SPDT (complementary) solid-state switch; choose (current sinking) (current sourcing) models. Light operate: N.O. output conducts when sensor sees emitter's) modulated light Dark operate: N.C. output conducts when sensor sees dark; N.C. (normally closed) output wired normally open alarm output, depending upon hookup power supply (U.S. patent 5087838)
Output Rating
maximum (each) standard hookup; When wired alarm output, total load exceed Off-state leakage current microamp On-state saturation voltage 1.5V Protected against false pulse power-up continuous overload short circuit outputs Opposed: milliseconds milliseconds OFF; Polarized Retro, Non-Polarized Retro, Fixed-field Diffuse: milliseconds NOTE: millisecond delay power-up; outputs conduct during this time Opposed mode: microseconds; Polarized Retro, Non-Polarized Retro, Fixed-field Diffuse modes: microseconds; Repeatability response independent signal strength LEDs: Green Yellow Green glowing steadily Green flashing Yellow glowing steadily Yellow flashing power sensor output overloaded normally open output conducting excess gain marginal (1-1.5x) light condition
Output Protection Circuitry Output Response Time
Repeatability Indicators
Construction Environmental Rating Connections Operating Conditions Vibration Mechanical Shock
Housings Stainless Steel; Lenses Lexan® (opposed models) acrylic Rated NEMA (IEC IP67) (6.5') (30') attached cable, 4-pin Euro-style quick disconnect fitting Temperature: -40° +70°C (-40° 158°F) Maximum relative humidity: 50°C (non-condensing) models meet Mil. Std. 202F requirements. Method 201A (Vibration; frequency max., double amplitude 0.06" acceleration 10G). Method 213B conditions (Shock: with unit operating; 100G non-operation)
Banner Engineering Corp. Minneapolis, U.S.A. Website: http://www.baneng.com Tel: 888.373.6767
page
EZ-BEAM Series Sensors
EZ-BEAM Series Dimensions
Models with Attached Cable
Yellow Output Indicator (6.5') Cable Green Power Indicator 37.0 (1.46") Nuts Provided) Thread
Models with Quick-Disconnect
Yellow Output Indicator Green Power Indicator
59.2 (2.33")
78.0 (3.07")
Polarized retroreflective fixed-field cabled models 65.0 (2.56")
Polarized retroreflective fixed-field models 83.8 (3.30")
EZ-BEAM Series Hookups
Sensors with (Sinking) Outputs Standard Hookup
10-30V
Load Load
Sensors with (Sourcing) Outputs Standard Hookup
10-30V
Emitters with Attached Cable
Load Load
10-30V
Alarm Hookup
10-30V
Load Alarm
Alarm Hookup
10-30V
Emitters with Quick Disconnect
connection wires cable.) 10-30V
Load Alarm
NOTE: hookups same either integral cable.
Quick-disconnect (QD) Cables
Style Model
MQDC-406 MQDC-415 MQDC-430 MQDC-406RA MQDC-415RA MQDC-430RA
Length
(6.5') (15') (30') (6.5') (15') (30')
Connector
Straight Straight Straight Right-Angle Right-Angle Right-Angle
White Wire Brown Wire Blue Wire Black Wire
4-Pin Euro-style
page
Banner Engineering Corp. Minneapolis, U.S.A. Website: http://www.baneng.com Tel: 888.373.6767
EZ-BEAM Series Sensors
Mounting Brackets
SMB18A 11-gauge stainless steel Right-angle bracket with curved mounting slot versatility orientation
18.5 (0.73")
SMB18C
split clamp, black thermoplastic polyester Stainless steel mounting hardware included
40.0 (1.60")
(0.5")
(1.2")
25.4 (1.00") (1.6")
42.4 (1.67")
21.1 (0.83") Plate Screw
24.2 (0.95") (0.18") (0.18") (0.30")
(1.8")
(#8) screws mount bracket. Drill screw holes 24.2 (0.95") apart.
14.0 (0.55") 30.0 (1.18")
(0.10")
Clearance (#8) hardware
SMB18SF
swivel bracket Black thermoplastic polyester
SMB18UR
2-piece universal swivel bracket sensors series stainless steel
36.0 (1.42") internal thread 42.0 (1.65") 10.6 (0.42")
16.0 (0.63 SMB18UR (0.72")
22.9 (0.9")
66.0 (2.60") 27.2 (1.07") 50.8 (2.0") (0.10") 45.2 (1.78")
50.8 (2.00")
25.4 (1.00")
SMB30SK
Flat-mount swivel bracket with extended range motion Black reinforced thermoplastic polyester stainless steel
20.8 (0.82") 41.7 (1.64")
(0.80") (1.20") R2.5 (0.10")
24.6 (0.97") SMB18UR Bottom
Clearance
46.7 (1.84") 25.4 (1.00")
(0.38") (0.27")
50.8 (2.00") 66.5 (2.62") 78.0 (3.07")
41.7 (1.64") (0.32")
20.3 (0.80") 20.3 (0.80") (1.20") #10-32 Thru
20.8 (0.82")
25.4 (1.00")
33.8 (1.33")
56.7 (2.31") Assembled
63.5 (2.50")
68.0 (2.68")
29.0 (1.14")
71.1 (2.80")
(0.10")
Banner Engineering Corp. Minneapolis, U.S.A. Website: http://www.baneng.com Tel: 888.373.6767
page
EZ-BEAM Series Sensors
Aperture Kits Series Opposed-Mode Sensors
Aperture kits available Series opposed-mode sensors. Apertures used narrow and/or shape sensor's effective beam specialized applications.
Model
Description
NOTE: Aperture adds 3/16" sensor length. Aperture styles available
AP18SC
includes round apertures (0.02"), (0.04") (0.10") diameter
Round
Rectangular
Aperture (Rectangular type shown) Lens
AP18SR
includes rectangular apertures (0.02"), (0.04") (0.10") wide Each also includes thread-on aperture housing, Teflon lens 0-rings
Housing
O-ring
22.4 (0.88") Outside Diameter
12.7 (0.50")
These sensors include self-checking redundant circuitry necessary allow their personnel safety applications. sensor failure malfunction cause either energized de-energized sensor output condition. Consult your current Banner Safety Products catalog safety products which meet OSHA, ANSI standards personnel protection.
WARNING Used Personnel Protection Never these products sensing devices personnel protection. Doing could lead serious injury death.
WARRANTY: Banner Engineering Corp. warrants products free from defects year. Banner Engineering Corp. will repair replace, free charge, product manufacture found defective time returned factory during warranty period. This warranty does cover damage liability improper application Banner products. This warranty lieu other warranty either expressed implied.
Banner Engineering Corp., 9714 Tenth Ave. No., Minneapolis, 55441 Phone: 888.373.6767 www.baneng.com Email: sensors@baneng.com
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