MQAC-430RA [BANNER]
Q60LAF Series Laser Adjustable-Field Sensors;
| 型号: | MQAC-430RA |
| 厂家: | 
Banner Engineering |
| 描述: | Q60LAF Series Laser Adjustable-Field Sensors |
| 文件: | 总12页 (文件大小:403K) |
| 中文: | 中文翻译 | 下载: | 下载PDF数据表文档文件 |
Q60LAF Series Laser Adjustable-Field Sensors
Datasheet
Long-Range Self-Contained Adjustable-Field Laser Sensors
•
Long-range adjustable-field background suppression sensor detects objects within a
defined sensing field, and ignores objects located beyond the sensing field cutoff
•
•
Powerful visible red laser sensing beam, class 1 and class 2 models available
Two-turn, logarithmic cutoff point adjustment for easy seꢀng of cutoff point at long
range; rotaꢁng pointer indicates relaꢁve cutoff point seꢀng
•
Easy push-buꢂon or remote programming of light/dark operate and output ꢁming;
conꢁnuous status indicators verify all seꢀngs at a glance
•
•
•
Output ON and/or OFF delays adjustable from 8 milliseconds to 16 seconds
Tough ABS/polycarbonate blend housing is rated IEC IP67; NEMA 6
Models available for 10 to 30 V dc operaꢁon or universal voltage (12 to 250 V dc or 24
to 250 V ac, 50/60 Hz)
WARNING: Not To Be Used for Personnel Protecꢀon
Never use this device as a sensing device for personnel protecꢀon. Doing so could lead to serious injury or
death. This device does not include the self-checking redundant circuitry necessary to allow its use in personnel
safety applicaꢁons. A sensor failure or malfuncꢁon can cause either an energized or de-energized sensor output
condiꢁon.
Models
Class 1 Laser
Models
Cutoff Point
Cable
Supply Voltage
Output Type
Q60BB6LAF1400
5-wire 2 m (6.5 ꢃ)
5-pin Euro-style QD
Q60BB6LAF1400Q
10 V dc to 30 V dc
Bipolar NPN/PNP
5-pin Euro-style QD 150 mm
(6 in)
Q60BB6LAF1400QP
Q60VR3LAF1400
Adjustable:
200 mm to 1400 mm (8 in to
55 in)
E/M Relay (SPDT), normally
closed and normally open
contacts
Universal Voltage
5-wire 2 m (6.5 ꢃ)
12 V dc to 250 V dc
or
24 V ac to 250 V ac
E/M Relay (SPST), normally
open contact
Q60VR3LAF1400Q1
4-pin Micro-style QD
Class 2 Laser
Models
1
Cutoff Point
Cable
Supply Voltage
Output Type
Q60BB6LAF2000
5-wire 2 m (6.5 ꢃ)
Q60BB6LAF2000Q
5-pin Euro-style QD
10 V dc to 30 V dc
Bipolar NPN/PNP
5-pin Euro-style QD 150
mm (6 in)
Q60BB6LAF2000QP
Q60VR3LAF2000
Adjustable:
200 mm to 2000 mm (8 in to
80 in)
E/M Relay (SPDT), normally
closed and normally open
contacts
Universal Voltage
5-wire 2 m (6.5 ꢃ)
12 V dc to 250 V dc
or
24 V ac to 250 V ac
E/M Relay (SPST), normally
open contact
Q60VR3LAF2000Q1
4-pin Micro-style QD
1
To order the 9 m (30 ꢃ) PVC cable model, add the suffix "W/30" to the cabled model number. For example, Q60BB6LAF1400 W/30. Models
with a quick disconnect require a maꢁng cordset.
Original Document
114348 Rev. A
10 February 2017
114348
Q60LAF Series Laser Adjustable-Field Sensors
Overview
The Q60LAF sensor is a full-featured adjustable-field sensor. These adjustable-field sensors are able to detect objects of relaꢁvely low
reꢄecꢁvity, while ignoring other objects in the background (beyond the cutoff point). The cutoff distance is mechanically adjustable,
using the 2-turn adjustment screw on the top of the sensor. A rotaꢁng pointer indicates the relaꢁve cutoff posiꢁon. The indicator moves
clockwise to show increasing distance.
The collimated laser emiꢂer produces a small, bright spot, allowing easy alignment and precision sensing of relaꢁvely small objects at
long range.
Two push buꢂons (ON Delay and OFF Delay) are used to set the output delay opꢁons, to toggle between light and dark operate modes
and to lock out the push buꢂons for security purposes. These funcꢁons also may be accomplished using the remote wire (available on
some models).
Seven LED indicators show, during RUN mode, the sensor configuraꢁon and operaꢁng status. During Delay Configuraꢁon, 5 of the LEDs
combine to form a single light bar that indicates relaꢁve ON or OFF delay ꢁme.
Note: When an object approaches from the side, the most reliable sensing usually occurs when the line of approach
is parallel to the sensing axis.
Note: Sensing at closer than the minimum specified range is not guaranteed.
Features and Indicators
Note: Outputs are acꢁve during on/off ꢁming selecꢁon mode.
ON Delay
ON/OFF Delay Push
Buttons and Indicators
Steady Green: Run mode, ON delay is acꢁve
Flashing Green: ON Delay Selecꢁon mode is acꢁve
Cutoff Adjustment Screw
OFF Delay
Light Sensed Indicator
Steady Green: Run mode, OFF delay is acꢁve
Flashing Green: OFF Delay Selecꢁon mode is acꢁve
Light Operate Selected
Push Button
Lockout Indicator
5-Segment Light Bar
Dark Operate Selected
Indicates relaꢁve delay ꢁme during ON or OFF Delay
Selecꢁon modes
Output Indicator
Output Conducting
(Bi-color Amber/Green)
Steady Amber: Outputs are conducꢁng
Steady Green: During ON/OFF Delay Selecꢁon modes
Dark Operate Indicator
Steady Green: Dark Operate is selected
Lockout Indicator
The indicators, above right, also funcꢁon as a 5-
segment light gar during delay selecꢁon modes
Steady Green: Buꢂons are locked out
Light Operate Indicator
Steady Green: Light Operate is selected
Signal Indicator
Steady Green: Sensor is receiving signal
Flashing Green: Marginal signal (1.0 to 2.25 excess
gain)
Adjustable-Field Sensing—Theory of Operaꢀon
The Q60LAF compares the reꢄecꢁons of its emiꢂed light beam (E) from an object back to the sensor’s two differently-aimed detectors
R1 and R2 (see Figure 1 on page 3). If the near detector (R1) light signal is stronger than the far detector (R2) light signal (see object
A, closer than the cutoff distance), the sensor responds to the object. If the far detector (R2) light signal is stronger than the near
detector (R1) light signal (see object B, object beyond the cutoff distance), the sensor ignores the object.
The cutoff distance for these sensors is adjustable. Objects lying beyond the cutoff distance are ignored, even if they are highly
reꢄecꢁve. However, it is possible to falsely detect a background object, under certain condiꢁons (see Background Reꢀecꢁvity and
Placement on page 4).
2
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P/N 114348 Rev. A
Q60LAF Series Laser Adjustable-Field Sensors
Cutoff
Distance
Receiver
Elements
Object
A
Object B
or
Background
Near
Detector
R1
Lenses
Far
Detector
Receiver
Elements
R2
Emitter
E
Sensing
Axis
Sensing
Range
Figure 1. Adjustable field sensing concept
Figure 2. Sensing Axis
In the drawings and informaꢁon provided in this document, the leꢂers E, R1, and R2 idenꢁfy how the sensor’s three opꢁcal elements
(Emiꢂer “E”, Near Detector “R1”, and Far Detector “R2”) line up across the face of the sensor. The locaꢁon of these elements defines
the sensing axis (see Figure 2 on page 3). The sensing axis becomes important in certain situaꢁons, such as those illustrated in Figure 7
on page 5 and Figure 8 on page 5.
Installaꢀon
Wiring Diagrams
Q60BB6xx(Q)
Q60VR3xx
Cabled and QD Models, 10 to 30 V dc
Cabled Model, 24 to 250 V ac (50/60Hz) or 12 to 250 V
dc
1
1
Key
+
10-30V dc
24 - 250V ac or 12 - 250V dc
3
1 = Brown
2 = White
3 = Blue
4 = Black
5 = Gray
3
2
4
–
2
N.C.
5
Load
Load
C
4
N.O.
5
Remote
Program
Q60VR3xxQ1
QD Model, 24 to 250 V ac (50/60Hz) or 12 to 250 V dc
Key
1
24-250V ac
or 12-250V dc*
1 = Red/Black
2 = Red/White
3 = Red
2
3
4
N.O.
C
4 = Green
3 A max. load
*NOTE: Connection of dc power is without regard to polarity.
Set the Cutoff Distance
The cutoff distance for Q60LAF sensors can be adjusted between 200 mm and 1400 mm (8 in to 55 in) for Class 1 laser models, and
between 200 mm and 2000 mm (8 in to 80 in) for Class 2 laser models.
P/N 114348 Rev. A
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3
Q60LAF Series Laser Adjustable-Field Sensors
To maximize contrast, posiꢁon the lightest possible background to be used, at the closest posiꢁon it will come to the sensor during use.
Using a small screwdriver in the adjustment screw, adjust the cutoff distance unꢁl the threshold is reached and the green Light Sensed
indicator changes state. If the indicator never turns ON, the background is beyond the maximum sensing cutoff and will be ignored.
Note the posiꢁon of the rotaꢁng cutoff posiꢁon indicator at this posiꢁon. Then repeat the procedure, using the darkest target, placed in
its most distant posiꢁon for sensing. Adjust the cutoff so that the indicator is midway between the two posiꢁons.
Target
Background
Farthest Target Object
RANGE
R1
R2
Set Cutoff Midway
Between
ON
Closest Background
DELAY
E
DO
LO
OFF
DELAY
SIG
Cutoff
Distance
Figure 3. Set the cutoff distance approximately midway between the
farthest target and the closest background
Figure 4. Seꢂng the cutoff distance
Note: Seꢀng the cutoff distance adjustment screw to its maximum clockwise posiꢁon places the receiver lens
directly in front of the receiver elements and results in the Q60 performing as a long-range diffuse sensor.
Sensing Reliability
For highest sensiꢁvity, the sensor-to-object distance should be such that the object will be sensed at or near the point of maximum
excess gain. The excess gain curves show excess gain versus sensing distance for 200 mm, 1200 mm, and 2 m cutoffs. Maximum excess
gain for a 200 mm cutoff occurs at a lens-to-object distance of about 150 mm, and for a 2 m cutoff, at about 500 mm. The background
must be placed beyond the cutoff distance. Following these two guidelines makes it possible to detect objects of low reꢄecꢁvity, even
against close-in reꢄecꢁve backgrounds.
Background Reꢁecꢀvity and Placement
Avoid mirror-like backgrounds that produce specular reꢄecꢁons. A false sensor response occurs if a background surface reꢄects the
sensor's light more to the near detector (R1) than to the far detector (R2). The result is a false ON condiꢁon (Figure 5 on page 4).
Correct this problem by using a diffusely reꢄecꢁve (maꢂe) background, or angling either the sensor or the background (in any plane) so
the background does not reꢄect light back to the sensor (Figure 6 on page 4). Posiꢁon the background as far beyond the cutoff
distance as possible.
An object beyond the cutoff distance, either staꢁonary (and when posiꢁoned as shown in Figure 7 on page 5), or moving past the
face of the sensor in a direcꢁon perpendicular to the sensing axis, may cause unwanted triggering of the sensor if more light is reꢄected
to the near detector than to the far detector. Correct the problem by rotaꢁng the sensor 90° (Figure 8 on page 5). The object then
reꢄects the R1 and R2 fields equally, resulꢁng in no false triggering. A beꢂer soluꢁon, if possible, may be to reposiꢁon the object or the
sensor.
Sensing
Field
Cutoff
Distance
Sensing
Field
Cutoff
Distance
Reflective
Background
Strong
Direct
Reflection
to R1
R1
R2
R1
R2
Core of
Emitted
Beam
E
Core of
Emitted
Beam
E
Reflective
Background
Strong
Direct
Reflection
Away From
Sensor
E
R1
R2
=
=
=
Emitter
Near Detector
Far Detector
E
R1
R2
=
=
=
Emitter
Near Detector
Far Detector
Figure 5. Reꢀecꢁve Background - Problem
Figure 6. Reꢀecꢁve Background - Soluꢁon
4
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P/N 114348 Rev. A
Q60LAF Series Laser Adjustable-Field Sensors
Cutoff
Distance
E, R1, R2
R1
R2
E
Sensing
Field
Sensing
Field
A reꢄecꢁve background object in this posiꢁon or moving across the sensor face
in this axis and direcꢁon may cause a false sensor response.
A reꢄecꢁve background object in this posiꢁon or moving across the sensor face
in this axis is ignored.
Figure 7. Object Beyond Cutoff - Problem
Figure 8. Object Beyond Cutoff - Soluꢁon
Color Sensiꢀvity
The effects of object reꢄecꢁvity on cutoff distance, though small, may be important for some applicaꢁons. It is expected that at any
given cutoff seꢀng, the actual cutoff distance for lower reꢄectance targets is slightly shorter than for higher reꢄectance targets. This
behavior is known as color sensiꢁvity.
These excess gain curves were generated using a white test card of 90% reꢄectance. Objects with reꢄecꢁvity of less than 90% reꢄect
less light back to the sensor, and thus require proporꢁonately more excess gain in order to be sensed with the same reliability as more
reꢄecꢁve objects. When sensing an object of very low reꢄecꢁvity, it may be especially important to sense it at or near the distance of
maximum excess gain.
The percentage of deviaꢁon indicates a change in the cutoff point for either 18% gray or 6% black targets, relaꢁve to the cutoff point set
for a 90% reꢄecꢁve white test card.
For example, the cutoff point decreases 10% for a 6% reꢄectance black target when the cutoff point is adjusted for 1700 mm (67 in)
using a 90% reꢄectance white test card. In other words, the cutoff point for the black target is 1530 mm (60 in) for this seꢀng.
Minimum Range vs. Cutoff Setting*
Cutoff Point Deviation
300
250
0
Class 1
-1
-2
-3
Class 2
200
150
100
-4
-5
-6
-7
-8
50
0
-9
-10
200 400 600 800 1000 1200 1400 1600 1800 2000
-12
Cutoff Distance (mm) with 90% White Card
200 400 600 800 1000 1200 1400 1600 1800 2000
Cutoff Setting (90% White Card)
*NOTE: Minimum range is independent of target reflectivity
Figure 9. Cutoff Point Deviaꢁon
Figure 10. Q60 Minium Range Versus Cutoff Seꢂng
Hysteresis
6.0
Class 1 Laser 18% Gray Card
6% Black Card
4.0
2.0
0
Class 2 Laser 18% Gray Card
6% Black Card
200 400 600 800 1000 1200 1400 1600 1800 2000
Cutoff Setting (mm) with 90% White Card
Figure 11. Hysteresis
P/N 114348 Rev. A
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5
Q60LAF Series Laser Adjustable-Field Sensors
Configuring a Sensor
Set the Output Delay
The output of the Q60LAF sensor may be delayed between 0.008 and Major increments, displayed by a single full-intensity LED, are
16 seconds, in any of 72 increments. Delay is indicated on the 5-
segment light bar using single LED segments or combinaꢁons of them,
in varying stages of intensity.
shown:
Step #
Delay Time
LED Status
To set a delay, single-click the appropriate buꢂon or pulse the remote
wire to enable the process (as described in the following procedures).
Then use the + or – buꢂon or the appropriate remote wire pulse
procedure to increase or decrease the delay (single-click adjusts the
delay by one step at a ꢁme, and holding the buꢂon in provides a rapid
increase/decrease).
0
No Delay
8
0.062 second
0.250 second
1.00 second
4.0 seconds
16 seconds
24
40
56
72
Increase or Decrease the ON Delay
T = 40 – 800 ms
Press and Hold > 800 ms unless otherwise noted
Increase the ON Delay—4-second ꢀme-out
Enter ON Delay Setup
Enable Delay Increment
Step Increment
Rapid Increment
Press and Hold
Single-Click
Single-Click
Push Buꢂon
N/A
T
>800 ms
T
>800 ms
T >800 ms
>800 ms
Remote Input
Decrease the ON Delay—4-second ꢀme-out
Enter ON Delay Setup
Enable Delay Decrement
Step Decrement
Rapid Decrement
Press and Hold
Single-Click
Single-Click
Push Buꢂon
N/A
T
>800 ms
T
>800 ms
>800 ms
T
T T >800 ms
Remote Input
Increase or Decrease the OFF Delay
T = 40 – 800 ms
Press and Hold > 800 ms unless otherwise noted
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P/N 114348 Rev. A
Q60LAF Series Laser Adjustable-Field Sensors
Increase the OFF Delay—4-second ꢀme-out
Enter OFF Delay Setup
Enable Delay Increment
Step Increment
Rapid Increment
Press and Hold
Single-Click
Single-Click
Push Buꢂon
N/A
T
>800 ms
T
>800 ms
>800 ms
T
T T >800 ms
Remote Input
Decrease the OFF Delay—4-second ꢀme-out
Enter OFF Delay Setup
Enable Delay Decrement
Step Decrement
Rapid Decrement
Press and Hold
Single-Click
Single-Click
Push Buꢂon
N/A
T
>800 ms
>800 ms
T
T
T
>800 ms
T T T >800 ms
Remote Input
Select Light Operate or Dark Operate
Select Light Operate or Dark Operate mode using the two push buꢂons or a triple-pulse of the remote line to toggle between the
selecꢁons.
LO/DO Toggle
Concurrent Triple-Click
Push Buꢂon
T
T
T
Remote Input
T
T
Lock the Push Buꢂons
For security, the push buꢂons can be locked out using either the remote line or the push buꢂons themselves.
Push Buꢂon Lockout Toggle
Concurrent Quad-Click
Push Buꢂon
T
T T T T T T >800 ms
Remote Input
Enable or Disable the Laser
The laser is disabled aꢃer remote line is held low for 800 ms and will remain disabled unꢁl remote line is released.
Note: 500 ms maximum delay aꢃer laser is enabled; outputs will default to “No Light” state.
Disable the Laser
Push Buꢂon Not available
>800 ms
Remote Input
P/N 114348 Rev. A
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7
Q60LAF Series Laser Adjustable-Field Sensors
Laser Descripꢀon and Safety Informaꢀon
CAUTION: Do Not Disassemble for Repair
This device contains no user-serviceable components. Do not
aꢂempt to disassemble for repair. Use of controls or adjustments or
performance of procedures other than those specified herein may
result in hazardous radiaꢁon exposure. A defecꢁve unit must be
returned to the manufacturer.
Aperture
Ø 3.76 mm
(0.148")
16.76 mm
(0.66")
12.5 mm
(0.49")
Figure 12. Laser Aperture Locaꢁon
Class 1 Lasers
Class 1 lasers are lasers that are safe under reasonably foreseeable condiꢁons of operaꢁon,
including the use of opꢁcal instruments for intrabeam viewing.
Reference IEC 60825-1:2001, Secꢁon 8.2.
Class 2 Lasers
Class 2 lasers are lasers that emit visible radiaꢁon in the wavelength range from 400 nm to
700 nm, where eye protecꢁon is normally afforded by aversion responses, including the
blink reꢄex. This reacꢁon may be expected to provide adequate protecꢁon under
reasonably foreseeable condiꢁons of operaꢁon, including the use of opꢁcal instruments for
intrabeam viewing.
CLASS 2
LASER PRODUCT
Pulse Power < 2.6mW 650-670
nm, 2kHz, 15.5 uS Pulse.
Complies to 21 CFR 1040.01 &
EN60825-1:2001 except for
deviations pursuant to laser
notice No. 50, dated 7-26-01.
Reference IEC 60825-1:2001, Secꢁon 8.2.
Class 2 Laser Safety Notes
Low-power lasers are, by definiꢁon, incapable of causing eye injury within the duraꢁon of a
blink (aversion response) of 0.25 seconds. They also must emit only visible wavelengths (400
to 700 nm). Therefore, an ocular hazard may exist only if individuals overcome their natural
aversion to bright light and stare directly into the laser beam.
LASER RADIATION EMITTED
FROM THIS APPERTURE
DO NOT STARE
INTO BEAM
For Safe Laser Use (Class 1 or Class 2):
•
•
•
•
Do not stare at the laser.
Do not point the laser at a person’s eye.
Mount open laser beam paths either above or below eye level, where pracꢁcal.
Terminate the beam emiꢂed by the laser product at the end of its useful path.
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P/N 114348 Rev. A
Q60LAF Series Laser Adjustable-Field Sensors
Specificaꢀons
Supply Voltage and Current
Adjustments
Q60BB6LAF models: 10 to 30 V dc (10% maximum ripple) at less than 50 mA
Sloꢂed, geared, 2-turn, cutoff range adjustment screw (mechanical stops on
exclusive of load
both ends of travel)
Q60VR3LAF Universal models: 12 to 250 V dc or 24 to 250 V ac, 50/60 Hz
Input power: 1.5 W maximum
2 momentary push buꢂons: ON Delay (+) and OFF Delay (–); DC models also
have a remote program wire
ON Delay select: 8 ms to 16 seconds
OFF Delay select: 8 ms to 16 seconds
LO/DO select
Supply Protecꢀon Circuitry
Protected against reverse polarity and transient voltages
The dc wiring for model Q60VR3 is without regard to polarity
Push buꢂon lockout for security
Output Configuraꢀon
Laser Enable/Disable (remote wire only)
Q60BB6LAF models: Bipolar; one NPN (current sinking) and one PNP (current
Construcꢀon
sourcing) open-collector transistor
Q60VR3LAF cabled model: E/M Relay (SPDT), normally closed and normally
open contacts
Housing: ABS polycarbonate blend
Lens: Acrylic
Q60VR3LAFQ1 (QD) model: E/M Relay (SPST), normally open contact
Environmental Raꢀng
Output Raꢀng—Q60BB6LAF models
IEC IP67; NEMA 6
150 mA maximum each output @ 25 °C
Off-state leakage current: < 5 μA @ 30 V dc
Output saturaꢁon NPN: < 200 mV @ 10 mA and < 1 V @150 mA
Output saturaꢁon PNP: < 1 V at 10 mA; < 1.5 V at 150 mA
Connecꢀons
Q60BB6LAF models: 2 m (6.5 ꢃ) or 9 m (30 ꢃ) aꢂached cable, 5-pin Euro-style
integral QD, or 5-pin Euro-style 150 mm (6 in) QD
Q60VR3LAF Universal models: 2 m (6.5 ꢃ) or 9 m (30 ꢃ) aꢂached cable, or 5-
pin Micro-style 150 mm (6 in) QD
Output Raꢀng—Q60VR3LAF Universal models
Minimum voltage and current: 5 V dc, 10 mA
Mechanical life of relay: 50,000,000 operaꢁons
Electrical life of relay at full resisꢁve load: 100,000 operaꢁons
Maximum switching power (resisꢁve load):
Cabled models: 1250 VA, 150 W
Operaꢀng Condiꢀons
Temperature:
Q60BB6LAF models: −10 °C to +50 °C (+14 °F to +122 °F)
Q60VR3LAF Universal models: −10 °C to +45 °C (+14 °F to +113 °F)
90% at +50 °C maximum relaꢁve humidity (non-condensing)
Required Overcurrent Protecꢀon
QD models: 750 VA, 90 W
Maximum switching voltage (resisꢁve load):
Cabled models: 250 V ac, 125 V dc
QD models: 250 V ac, 125 V dc
WARNING: Electrical connecꢁons must be made
by qualified personnel in accordance with local
and naꢁonal electrical codes and regulaꢁons.
Maximum switching current (resisꢁve load):
Cabled models: 5 A @ 250 V ac, 5 A @ 30 V dc derated to 200 mA @ 125 V
dc
Overcurrent protecꢁon is required to be provided by end product applicaꢁon
per the supplied table.
QD models: 3 A @ 250 V ac, 3 A @ 30 V dc derated to 200 mA @ 125 V dc
Overcurrent protecꢁon may be provided with external fusing or via Current
Limiꢁng, Class 2 Power Supply.
Output Protecꢀon Circuitry
Q60BB6LAF models: Protected against conꢁnuous overload or short circuit of
Supply wiring leads < 24 AWG shall not be spliced.
For addiꢁonal product support, go to www.bannerengineering.com.
outputs
All models: Protected against false pulse on power-up
Supply Wiring (AWG)
Required Overcurrent Protecꢀon (Amps)
Note: 1 second maximum delay at power up
(outputs do not conduct during this ꢁme)
20
22
24
26
28
30
5.0
3.0
2.0
1.0
0.8
0.5
Output Response Time
Q60BB6LAF models: 2 milliseconds ON and OFF
Q60VR3LAF Universal models: 15 milliseconds ON and OFF
Repeatability
500 microseconds
Sensing Hysteresis
See Figure 11 on page 5
Laser Characterisꢀcs
Spot Size: approximately 4 × 2 mm throughout range (collimated beam)
Angle of Divergence: 5 milliradians
Cerꢀficaꢀons
Note: Contact Banner Engineering for a custom
laser spot size.
P/N 114348 Rev. A
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9
Q60LAF Series Laser Adjustable-Field Sensors
Dimensions
60.0 mm
(2.36")
25.0 mm
(0.98")
15.2 mm
(0.60")
4.0 mm
(0.16")
52.0 mm
(2.05")
4.9 mm
(0.19")
4.0 mm
(0.16")
2x ø4.2 mm
(0.17")
14.0 mm
(0.55")
Q60BB6AFV200
Q60BB6AFV200Q
bn
bu
bn
bu
+
+
75.0 mm
(2.95")
10-30V dc
–
10-30V dc
–
67.0 mm
(2.64")
52.0 mm
(2.05")
wh
wh
Load
Load
bk
bk
Load
Load
gy
gy
Remote Teach
Remote Teach
M3 hardware is included
17.0 mm
(0.67")
77.6 mm
(3.06")
Performance Curves
Performance is based on a 90% reꢄectance white test card.
Class 1 Laser Models—Excess Gain at 200 mm and 1200 mm
Cutoff
Class 2 Laser Models—Excess Gain at 1200mm and 2000 mm
Cutoff
1000
1000
at 200 mm
at 1200 mm
at 2000 mm
E
at 1200 mm
X
C
E
S
S
100
10
100
10
G
A
I
N
1
1
10 mm
(0.396")
100 mm
(3.96")
1000 mm
(39.6")
10000 mm
(396")
10 mm
(0.396")
100 mm
(3.96")
1000 mm
(39.6")
10000 mm
(396")
DISTANCE
DISTANCE
10
www.bannerengineering.com - Tel: +1-763-544-3164
P/N 114348 Rev. A
Q60LAF Series Laser Adjustable-Field Sensors
Accessories
Cordsets
4-Pin Micro-Style Cordsets
Model
Length
Style
Dimensions
Pinout (Female)
MQAC-406
MQAC-415
1.83 m (6 ꢃ)
42 Typ.
4.57 m (15 ꢃ)
Straight
1/2-20 UNF-28
ø 14.5
MQAC-430
9.14 m (30 ꢃ)
4
3
1
MQAC-406RA
MQAC-415RA
1.83 m (6 ꢃ)
2
32 Typ
4.57 m (15 ꢃ)
1 = Red/Black
2 = Red/White
3 = Red
28 Typ
Right-Angle
4 = Green
MQAC-430RA
9.14 m (30 ꢃ)
1/2-20 UNF-28
ø 14.5
5-Pin Threaded M12/Euro-Style Cordsets—Single Ended
Model
Length
Style
Dimensions
Pinout (Female)
MQDC1-501.5
MQDC1-506
MQDC1-515
0.50 m (1.5 ꢃ)
1.83 m (6 ꢃ)
4.57 m (15 ꢃ)
44 Typ.
Straight
M12 x 1
ø 14.5
2
MQDC1-530
9.14 m (30 ꢃ)
1
4
3
5
MQDC1-506RA
MQDC1-515RA
1.83 m (6 ꢃ)
32 Typ.
[1.26"]
4.57 m (15 ꢃ)
1 = Brown
2 = White
3 = Blue
4 = Black
5 = Gray
30 Typ.
[1.18"]
Right-Angle
MQDC1-530RA
9.14 m (30 ꢃ)
M12 x 1
ø 14.5 [0.57"]
Brackets
60
ø3.8
82
SMBQ60
•
•
Right-angle bracket
14-ga., 304 Stainless Steel
ø4.5
22
P/N 114348 Rev. A
www.bannerengineering.com - Tel: +1-763-544-3164
11
Q60LAF Series Laser Adjustable-Field Sensors
Banner Engineering Corp. Limited Warranty
Banner Engineering Corp. warrants its products to be free from defects in material and workmanship for one year following the date of shipment. Banner Engineering Corp. will repair or
replace, free of charge, any product of its manufacture which, at the ꢁme it is returned to the factory, is found to have been defecꢁve during the warranty period. This warranty does not cover
damage or liability for misuse, abuse, or the improper applicaꢁon or installaꢁon of the Banner product.
THIS LIMITED WARRANTY IS EXCLUSIVE AND IN LIEU OF ALL OTHER WARRANTIES WHETHER EXPRESS OR IMPLIED (INCLUDING, WITHOUT LIMITATION, ANY WARRANTY OF
MERCHANTABILITY OR FITNESS FOR A PARTICULAR PURPOSE), AND WHETHER ARISING UNDER COURSE OF PERFORMANCE, COURSE OF DEALING OR TRADE USAGE.
This Warranty is exclusive and limited to repair or, at the discreꢁon of Banner Engineering Corp., replacement. IN NO EVENT SHALL BANNER ENGINEERING CORP. BE LIABLE TO BUYER OR ANY
OTHER PERSON OR ENTITY FOR ANY EXTRA COSTS, EXPENSES, LOSSES, LOSS OF PROFITS, OR ANY INCIDENTAL, CONSEQUENTIAL OR SPECIAL DAMAGES RESULTING FROM ANY PRODUCT
DEFECT OR FROM THE USE OR INABILITY TO USE THE PRODUCT, WHETHER ARISING IN CONTRACT OR WARRANTY, STATUTE, TORT, STRICT LIABILITY, NEGLIGENCE, OR OTHERWISE.
Banner Engineering Corp. reserves the right to change, modify or improve the design of the product without assuming any obligaꢁons or liabiliꢁes relaꢁng to any product previously
manufactured by Banner Engineering Corp. Any misuse, abuse, or improper applicaꢁon or installaꢁon of this product or use of the product for personal protecꢁon applicaꢁons when the
product is idenꢁfied as not intended for such purposes will void the product warranty. Any modificaꢁons to this product without prior express approval by Banner Engineering Corp will void the
product warranꢁes. All specificaꢁons published in this document are subject to change; Banner reserves the right to modify product specificaꢁons or update documentaꢁon at any ꢁme.
Specificaꢁons and product informaꢁon in English supersede that which is provided in any other language. For the most recent version of any documentaꢁon, refer to:
www.bannerengineering.com.
©
Banner Engineering Corp. All rights reserved
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