Q60LAF Series Laser Adjustable-Field Sensors Long-Range Self-Contained Adjustable-Field Laser Sensors Features * 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 setting of cutoff point at long range; rotating pointer indicates relative cutoff point setting * Easy push-button or remote setting of light/dark operate and output timing; continuous status indicators verify all settings 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 10-30V dc operation or universal voltage (12 to 250V dc or 24 to 250V ac, 50/60 Hz) Visible Red, 650 nm Models Models Cutoff Point Cable* Supply Voltage Excess Gain Output Type (performance based on 90% reflectance white test card) Class 1 Laser Q60BB6LAF1400 Q60BB6LAF1400Q Adjustable: 200 mm Q60BB6LAF1400QP to 1400 mm Q60VR3LAF1400 (8" to 55") Q60VR3LAF1400Q1 5-wire 2 m (6.5') 5-pin Euro-style QD fitting 1000 10 to 30V dc 5-pin Euro-style QD pigtail 5-wire 2 m (6.5') 4-pin Micro-style QD fitting Universal Voltage 12 to 250V dc or 24 to 250V ac Bipolar NPN/PNP E/M Relay (SPDT), N.C. and N.O. contacts E X C E S S G A I N at 200 mm at 1200 mm 100 10 1 10 mm (0.396") E/M Relay (SPST), N.O. contact 100 mm (3.96") 1000 mm (39.6") 10000 mm (396") DISTANCE Class 2 Laser Q60BB6LAF2000 Q60BB6LAF2000Q Adjustable: 200 mm Q60BB6LAF2000QP to 2000 mm (8" to 80") Q60VR3LAF2000 Q60VR3LAF2000Q1 5-wire 2 m (6.5') 5-pin Euro-style QD fitting 10 to 30V dc Bipolar NPN/PNP 5-pin Euro-style QD pigtail 5-wire 2 m (6.5') 4-pin Micro-style QD fitting Universal Voltage 12 to 250V dc or 24 to 250V ac E/M Relay (SPDT), N.C. and N.O. contacts E/M Relay (SPST), N.O. contact * 9 meter cables are available by adding suffix "W/30" to the model number of any cabled sensor (e.g., Q60BB6LAF1400 W/30). A model with a QD connector requires a mating cable; see page 8. See Safety Use Warning on back page. Printed in USA 06/03 P/N 114348 Q60LAF Series Laser Adjustable-Field Sensors Overview The Q60LAF sensor is a full-featured adjustable-field sensor. These adjustablefield sensors are able to detect objects of relatively low reflectivity, while ignoring other objects in the background (beyond the cutoff point). The cutoff distance is mechanically adjustable, using the 2-turn adjustment screw (Figure 1). A rotating pointer indicates the relative cutoff position. (The indicator moves clockwise to show increasing distance.) The collimated laser emitter produces a small, bright spot, allowing easy alignment and precision sensing of relatively small objects at long range. Two push buttons (ON Delay and OFF Delay) are used to set the output delay options, to toggle between light and dark operate modes and to lock out the push buttons for security purposes. For 10 to 30V dc models, these functions also may be accomplished using the remote wire. Seven LED indicators show, during RUN mode, the sensor configuration and operating status. During Delay Configuration, 5 of the LEDs combine to form a single light bar that indicates relative ON or OFF delay time. - Figure 1. Q60LAF features Cutoff Distance Adjustable-Field Sensing - Theory of Operation In operation, the Q60LAF compares the reflections of its emitted light beam (E) from an object back to the sensor's two differently-aimed detectors R1 and R2 (see Figure 2). 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 Q60LAF sensors is adjustable from 200 to 1400 mm (8" to 55") for Class 1 laser models, and 200 to 2000 mm (8" to 80") for Class 2 laser models. Objects lying beyond the cutoff distance are ignored. In the drawings and discussion on this page and page 4, the letters E, R1, and R2 identify how the sensor's three optical elements (Emitter "E", Near Detector "R1", and Far Detector "R2") line up across the face of the sensor. The location of these elements defines the sensing axis (see Figure 3). The sensing axis becomes important in certain situations, such as those illustrated in Figures 7 and 8. Receiver Elements Near Detector R1 Object B or Background Object A Lenses Far Detector R2 E Sensing Range Figure 2. Adjustable field sensing concept Receiver Elements Emitter Sensing Axis When an object approaches from the side, the most reliable sensing usually occurs when the line of approach is parallel to the sensing axis. Figure 3. Q60 sensing axis 2 P/N 114348 Banner Engineering Corp. * Minneapolis MN, U.S.A. www.bannerengineering.com * Tel: 763.544.3164 Q60LAF Series Laser Adjustable-Field Sensors Color Sensitivity The effects of object reflectivity on cutoff distance, though small, may be important for some applications. The excess gain curves on page 1 were generated using a white test card of 90% reflectance. Objects with reflectivity of less than 90% reflect less light back to the sensor, and thus require proportionately more excess gain in order to be sensed with the same reliability as more reflective objects. When sensing an object of very low reflectivity, it may be especially important to sense it at or near the distance of maximum excess gain. It is expected that at any given cutoff setting, the actual cutoff distance for lower reflectance targets will be slightly shorter than for higher reflectance targets (see Figure 4). This behavior is known as color sensitivity. The percentage of deviation indicates a change in the cutoff point for either 18% gray or 6% black targets, relative to the cutoff point set for a 90% reflective white test card. For example, the cutoff point decreases 10% for a 6% reflectance black target when the cutoff point is adjusted for 1700 mm (67") using a 90% reflectance white test card. In other words, the cutoff point for the black target is 1530 mm (60") for this setting. NOTE: Sensing at closer than the minimum specified range is not guaranteed. Cutoff Point Deviation 0 300 -1 -2 250 Percent Deviation -4 -5 -6 -7 -8 -9 -10 -12 200 Class 2 Minimum Range vs. Cutoff Setting* 200 300 Class 1 150 100 50 Minimum Range (mm) Minimum Range (mm) Class 1 -3 250 400 600 800 1000 1200 1400 1600 1800 2000 Hysteresis Class 2 200 150 100 0 200 400 Cutoff Setting (90% White Card) Hysteresis (% of Cutoff) Minimum Range vs. Cutoff Setting* 50 600 800 1000 1200 1400 1600 1800 2000 Cutoff Distance (mm) with 90% White Card 0 200 400 600 800 1000 1200 1400 1600 1800 2000 *NOTE: Minimum range is independent of target reflectivity Cutoff Distance (mm) with 90% White Card *NOTE: Minimum range is independent of target reflectivity 6.0 Class 1 Laser 18% Gray Card 6% Black Card 4.0 Class 1 Laser 18% Gray Card Black Card Class 2 Laser 18% Gray6% Card Black Class 26% Laser 18%Card Gray Card 2.0 0 200 6% Black Card 400 600 800 1000 1200 1400 1600 1800 2000 Cutoff Setting (mm) with 90% White Card Figure 4. Q60LAF performance Banner Engineering Corp. * Minneapolis MN, U.S.A. www.bannerengineering.com * Tel: 763.544.3164 P/N 114348 3 Q60LAF Series Laser Adjustable-Field Sensors Setting the Cutoff Distance The cutoff distance for Q60LAF sensors may be adjusted between 200 mm and 1400 mm (8" to 55") for Class 1 laser models, and between 200 mm and 2000 mm (8" to 80") for Class 2 laser models. Target To maximize contrast, position the lightest possible background to be used, at the closest position it will come to the sensor during use (Figure 5). Using a small screwdriver in the adjustment screw, adjust the cutoff distance until the threshold is reached and the green Light Sensed indicator changes state. (If the indicator never comes ON, the background is beyond the maximum sensing cutoff and will be ignored.) Note the position of the rotating cutoff position indicator at this position. Then repeat the procedure, using the darkest target, placed in its most distant position for sensing. Adjust the cutoff so that the indicator is midway between the two positions (Figure 6). Background R1 R2 E Cutoff Distance Figure 5. Set cutoff distance approximately midway between the farthest target and the closest background NOTE: Setting the cutoff distance adjustment screw to its maximum clockwise position places the receiver lens directly in front of the receiver elements and results in the Q60 performing as a long-range diffuse sensor. Increas ing For highest sensitivity, the sensor should be mounted so that the target object will be sensed at or near the point of maximum excess gain. The excess gain curves on page 1 show excess gain vs. sensing distance for 200 mm, 1,200 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 reflectivity, even against close-in reflective backgrounds. Di nce sta Sensing Reliabilty RANGE ON DELAY Farthest Target Object Set Cutoff Midway Between Closest Background DO LO Background Reflectivity and Placement Avoid mirror-like backgrounds that produce specular reflections. False sensor response will occur if a background surface reflects the sensor's light more strongly to the near detector (R1) than to the far detector (R2). The result is a false ON condition (Figure 7). Use of a diffusely-reflective (matte) background will cure this problem. Other possible solutions are to angle either the sensor or the background (in any plane) so that the background does not reflect back to the sensor. DELAY Figure 6.SIG Setting the cutoff distance An object beyond the cutoff distance, either moving or stationary (and when positioned as shown in Figure 8), can cause unwanted triggering of the sensor because it reflects more light to the near detector than to the far detector. The problem is easily remedied by rotating the sensor 90 to align the sensing axis horizontally. The object then reflects the R1 and R2 fields equally, resulting in no false triggering. 4 P/N 114348 Banner Engineering Corp. * Minneapolis MN, U.S.A. www.bannerengineering.com * Tel: 763.544.3164 Q60LAF Series Laser Adjustable-Field Sensors Problem Solution Sensing Field Core of Emitted Beam Cutoff Distance Reflective Background Strong Direct Reflection to R1 R1 R2 E Sensing Field Cutoff Distance R1 R2 Core of Emitted Beam E Reflective Background E = Emitter R1 = Near Detector R2 = Far Detector E = Emitter R1 = Near Detector R2 = Far Detector Strong Direct Reflection Away From Receiver Figure 7. Reflective background - problem and solution Problem Solution Cutoff Distance R1 R2 LO DO SIG ON DELAY E, R1, R2 RANGE DELAY OFF E Sensing Field Sensing Field Figure 8. Object beyond cutoff distance -- problem and solution Banner Engineering Corp. * Minneapolis MN, U.S.A. www.bannerengineering.com * Tel: 763.544.3164 P/N 114348 5 Q60LAF Series Laser Adjustable-Field Sensors Setting the Output Delay Single-Click Single-Click Enter ON-Delay Setup + 4.0 72 16 ON DELAY + - DELAY OFF Increase ON-Delay 56 ON Decrease ON-Delay 1.0 DELAY ON or or >800 ms Rapid Decrement >800 ms Single-Click ON ON DELAY DELAY DELAY + - OFF OFF DELAY ON ON DELAY DELAY DELAY - + OFF OFF DELAY - ON DELAY DELAY + ON - Enable OFF-Delay Increment Increment PressRapid and Hold Rapid Increment T >800 ms + + - T T T >800 ms Enable OFF-Delay Increment + or or - DELAY ON - T >800 ms >800 ms StepT Increment Step Increment or or >800 ms >800 ms Rapid Increment Rapid Increment T T T >800 ms DELAY DELAY OFF DELAY DELAY OFF Press and Hold Press and Hold Press andTHold T T >800 ms OFF OFFDELAY + ON DELAY DELAY + - DELAY OFF OFFDELAY ON DELAY + -- DELAY Step Increment Single-Click Step Increment Single-Click Press and Hold or or Step Increment Rapid Increment Remote (DC models only) Rapid Decrement Step Increment Rapid Increment 0.04 sec. < T < 0.8 sec. Single-Click Single-Click Single-Click OFF Enter OFF-Delay Setup ON DELAY + - DELAY OFF ON DELAY - + DELAY OFF + - ON + - T >800 ms Output OFF-Delay -or4 second time-out >800 ms T >800 ms >800 ms Push Button ON - + + ON - ON DELAY + - DELAY OFF ON + - DELAY DELAY T T T >800 ms T >800Increment ms Enable OFF-Delay Decrement Enable OFF-Delay or Increment Enable OFF-Delay Decrement StepTIncrement Rapid Increment Enable OFF-Delay T T >800 ms T >800 ms or >800 ms or ms T T T >800 T T T >800 ms T >800 ms >800 ms Enable OFF-Delay Increment Step Increment Rapid Increment Step Increment Rapid Increment Enable OFF-Delay Increment Step Increment Rapid Increment OFF Increase OFF-Delay 40 Rapid Decrement Enable ON-Delay Decrement Step Decrement Single-Click Press and Hold Enable ON-Delay Decrement Step Decrement ON Enable Delay Increment DELAY T T T >800 ms - Enable OFF-Delay Increment P/N 114348 + T >800 ms DELAY Step Increment OFF ON - + DELAY DELAY or T T T >800 ms T >800 msT T T >800 >800ms ms T >800 ms T T TRapid >800 ms T >800 ms Single-Click Press and Hold Enable Delay Increment Step Increment Increment Enable OFF-Delay Decrement or Increment Enable OFF-Delay T T T >800 ms T >800 ms >800 ms Enable OFF-Delay Decrement Enable OFF-Delay Increment or Enable OFF-Delay Increment Step Increment Rapid Increment T >800 ms >800 ms OFF Decrease OFF-Delay 0.25 Rapid Increment T T T >800 ms T >800 ms T >800 ms Enable ON-Delay Decrement Step Decrement Enable ON-Delay Increment Enable ON-Delay Increment 6 - DELAY OFF ON DELAY DELAY DELAY Step Increment Rapid Increment T T T >800 ms Rapid Decrement T >800 ms T T T 24 Step Decrement Rapid Decrement or >800 ms Rapid Decrement DELAY DELAY + - Step Decrement OFF + ON DELAY - DELAY or >800 ms OFF ON DELAY DELAY OFF or or 0.062 T >800 ms Rapid Increment OFF T >800 ms + ON DELAY + - DELAY OFF ON DELAY + - DELAY OFF Press and Hold Press and Hold Step Increment - ON DELAY OFF DELAY + - DELAY OFF Single-Click Step Decrement Single-Click 8 Single-Click Press and Hold T >800 ms or >800 ms T >800 ms Step Increment Rapid Increment or Single-Click Press and Hold Step Increment Rapid Increment T >800 ms or Enable ON-Delay Increment Press and Hold or T >800 ms Step Increment ON - DELAY 0.04 sec. < T < 0.8 sec. Single-Click No Delay Figure 9. ON/OFF Delay options (major increments depicted) Step Increment Rapid Increment Remote (DC models only) Push Button Single-Click or DELAY ON + DELAY + OFF - DELAY OFF Output ON-Delay - 4 second time-out Press and Hold 0 LED Status DO DO DO DODO DO DO DO DODO DO DO DO DODO DO DO DO DODO DO DO DO DODO DO DO DO DODO DO DO DO DO DO DO To set a delay, single-click the appropriate button or pulse the remote wire (DC models only) to enable the process. Then use the + or - button or the appropriate remote wire pulses to increase or decrease the delay (single-click to adjust the delay by one step, or hold the button for a rapid increase/decrease). Delay Time (Seconds) LO LO LO LOLOLO LO LO LO LOLOLO LO LO LO LOLOLO LO LO LO LOLOLO LO LO LO LOLOLO LO LO LO LOLOLO The Q60LAF output may be delayed from 0.008 to 16 seconds, in 72 increments. Delay is indicated on the 5-segment light bar using single LED segments or combinations of them, in varying stages of intensity; see Figure 9. Step Number SIGSIG SIGSIG SIGSIG SIGSIG SIGSIG SIGSIG SIGSIG SIGSIG SIGSIG SIGSIG SIGSIG SIGSIG SIG SIG SIG SIG SIG SIG SIG SIG SIG SIG SIG SIG When target objects are in motion, an output delay can help prevent "hunting" or multiple outputs from process control equipment. A delay also can be used to monitor product flow, "downed goods", or "jams" (product that is no longer being conveyed properly). A delay can also create a "smart zone," enabling certain equipment to be directly controlled by the sensor, rather than requiring a PLC I/O. Rapid Increment Step Decrement T T T >800 ms Enable OFF-Delay Decrement or T >800 ms >800 ms Step Increment Rapid Increment Rapid Decrement Banner Engineering Corp. * Minneapolis MN, U.S.A. www.bannerengineering.com * Tel: 763.544.3164 Q60LAF Series Laser Adjustable-Field Sensors Sensor Setup Light/Dark Operate Light Operate or Dark Operate mode may be selected using the two push buttons or triple-click the remote line to toggle between the selections. Push Button Lockout For security, the push buttons may be locked out using either the remote line (for DC models only) or the push buttons themselves. Repeat the process to change the setting. Laser Enable/Disable (DC models only) Laser will be disabled after remote line is held low for 800 ms and will remain disabled until remote line is released. NOTE: 500 ms max. delay after laser is enabled; outputs will default to "No Light" state. Concurrent Triple-Click T ON - DELAY T + DELAY OFF LO/DO Toggle Concurrent Quad-Click Concurrent T T Quad-Click T ON DELAY - + DELAY OFF Push Button Lockout Toggle + - ON DELAY + - DELAY Lasar Enable/ Disable ON DELAY DELAY 0.04 sec. < T < 0.8 sec. T OFF Banner Engineering Corp. * Minneapolis MN, U.S.A. www.bannerengineering.com * Tel: 763.544.3164 Concurrent Triple-Click Remote (DC models only) OFF Push Button T Not T T Available T T T T >800 ms T T T T T T T >800 ms >800 ms P/N 114348 7 Q60LAF Series Laser Adjustable-Field Sensors PROPOSED Q60 LASER CLICHES Laser Classifications Class 1 Lasers that are safe under reasonably foreseeable conditions of operation, including the use of optical instruments for intrabeam viewing. Reference 60825-1 Amend. 2 (c) IEC:2001(E), section 8.2. Class 2 PROPOSED Q60 LASER CLICHES Lasers that emit visible radiation in the wavelength range from 400 nm to 700 nm where eye protection is normally afforded by aversion responses, including the blink reflex. This reaction may be expected to provide adequate protection under reasonably foreseeable conditions of operation, including the use of optical instruments for intrabeam viewing. CLASS 1 LASER PRODUCT Reference 60825-1 Amend. 2 (c) IEC:2001(E), section 8.2. CLASS 1 LASER PRODUCT Figure 10. Laser aperture location Class 2 Laser Safety Notes: Low-power lasers are, by definition, incapable of causing eye injury within the duration of the blink (aversion response) of 0.25 seconds. They also must emit only visible wavelengths (400 - 700 nm). Therefore, an ocular hazard can exist only if an individual overcomes their natural aversion to bright light and stares directly into the laser beam. For safe laser use: * Do not permit a person to stare at the laser from within the beam. * Do not point the laser at a person's eye at close range. * Terminate the beam emitted by a Class 2 laser product at the end of its useful path. Locate open laser beam paths either above or below eye level, where practical. ! Caution Use of controls or adjustments or performance of procedures other than those specified herein may result in hazardous radiation exposure; per EN 60825. Do NOT attempt to disassemble this sensor for repair. A defective unit must be returned to the manufacturer. 8 P/N 114348 Banner Engineering Corp. * Minneapolis MN, U.S.A. www.bannerengineering.com * Tel: 763.544.3164 Q60LAF Series Laser Adjustable-Field Sensors Specifications Supply Voltage and Current Q60BB6LAF models: 10 to 30V dc (10% maximum ripple) at less than 35 mA exclusive of load Q60VR3LAF Universal models: 12 to 250V dc or 24 to 250V ac, 50/60 Hz Input power 1.5 W maximum Supply Protection Protected against reverse polarity and transient voltages (Q60VR3 models' dc hookup is without regard to polarity) Output Configuration Q60BB6LAF models: Bipolar; one NPN (current sinking) and one PNP (current sourcing) open-collector transistor Q60VR3LAF cabled model: E/M Relay (SPDT), normally closed and normally open contacts Q60VR3LAFQ1 (QD) model: E/M Relay (SPST), normally open contact Q60BB6LAF models 150 mA maximum each output @ 25 C Off-state leakage current: < 5A @ 30V dc Output saturation NPN: < 200 mV @ 10 mA and < 1V @150mA Output saturation PNP: < 1V at 10 mA; < 1.5V at 150 mA Output Rating Q60VR3LAF Universal models Min. voltage and current: 5V dc, 10 mA Mechanical life of relay: 50,000,000 operations Electrical life of relay at full resistive load: 100,000 operations Max. switching power (resistive load): Cabled models: 1250VA, 150 W QD models: 750VA, 90W Max. switching voltage (resistive load): Cabled models: 250V ac, 125V dc QD models: 250V ac, 125V dc Max. switching current (resistive load): Cabled models: 5 A @ 250V ac, 5 A @ 30V dc derated to 200 mA @ 125V dc QD models: 3 A @ 250V ac, 3 A @ 30V dc derated to 200 mA @ 125V dc Output Protection Circuitry Q60BB6LAF models: Protected against continuous overload or short circuit of outputs All models: Protected against false pulse on power-up NOTE: 1 second max. delay at power up (outputs do not conduct during this time). 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 4. ON Green: RUN mode, ON-delay active Flashing Green: ON-Delay Selection mode OFF-Delay ON Green: RUN mode, OFF-delay active Flashing Green: OFF-Delay Selection mode 5-Segment Light Bar* ON/OFF-Delay Selection: Indicates relative delay time RUN Mode: Output ON Yellow: Outputs are conducting ON Green: ON/OFF-Delay Selection Dark Operate ON Green: Dark Operate selected Lockout ON Green: Buttons locked out Light Operate ON Green: Light Operate selected Signal ON Green: Sensor receiving signal Flashing Green: Marginal signal (1.0 to 2.25 excess gain) ON-Delay Indicators (see Figure 1) NOTE: Outputs are active during on/off timing selection mode. Laser Characteristics Spot Size: approximately 4 x 2 mm throughout range (collimated beam) Angle of Divergence: 5 milliradians NOTE: Contact factory for custom laser spot size. Banner Engineering Corp. * Minneapolis MN, U.S.A. www.bannerengineering.com * Tel: 763.544.3164 P/N 114348 9 Q60LAF Series Laser Adjustable-Field Sensors Specifications, continued Adjustments Slotted, geared, 2-turn, cutoff range adjustment screw (mechanical stops on both ends of travel) 2 momentary push buttons: ON-Delay (+) and OFF-Delay (-) (DC models also have remote program wire) ON-Delay select: 8 ms to 16 seconds OFF-Delay select: 8 ms to 16 seconds LO/DO select Push button lockout for security Laser Enable/Disable (remote wire only) Construction Housing: ABS/polycarbonate Window: Acrylic Environmental Rating IEC IP67; NEMA 6 Connections Q60BB6LAF (DC) models: 2 m (6.5') or 9 m (30') attached cable, 5-pin Euro-style integral QD fitting, or 5-pin Euro-style 150 mm (6") QD pigtail Q60VR3LAF Universal models: 2 m (6.5') or 9 m (30') attached cable, or 5-pin Micro-style 150 mm (6") QD fitting Operating Conditions Temperature: Q60BB6LAF (DC) models: -10 to +50C (+14 to 121F) Q60VR3LAF Universal models: -10 to +45C (+14 to 113F) Maximum Relative Humidity: 90% at 50C (non-condensing) Dimensions 15.2 mm (0.60") 4.0 mm (0.16") 4.9 mm 4.0 mm (0.19") (0.16") - DELAY OFF + M3 hardware is included: 2 screws (M3 x 0.5 x 30 ppms) 2 hex nuts 2 lock washers SIG LO ON DELAY DO 25.0 mm (0.98") RANGE 60.0 mm (2.36") 52.0 mm (2.05") 2x o4.2 mm (0.17") 14.0 mm (0.55") Q60BB6AFV200 52.0 mm (2.05") 75.0 mm (2.95") Q60BB6AFV200Q 67.0 mm (2.64") 17.0 mm (0.67") 77.6 mm (3.06") 10 P/N 114348 Banner Engineering Corp. * Minneapolis MN, U.S.A. www.bannerengineering.com * Tel: 763.544.3164 Q60LAF Series Laser Adjustable-Field Sensors Hookups Quick-Disconnect (QD) Cables DC Models (Cabled, QD, and QP Models) 5-pin Euro-style - DC Models bn + 10-30V dc - bu wh bk Load Model Length Connector Pin-out White Wire MQDC1-506 MQDC1-515 MQDC1-530 2 m (6.5') 5 m (15') 9 m (30') Straight MQDC1-506RA MQDC1-515RA MQDC1-530RA 2 m (6.5') 5 m (15') 9 m (30') Right-angle Brown Wire Blue Wire Black Wire Gray Wire Load gy Remote Configure Universal Voltage Models (Cabled Models) bn AC/DC bu wh NC ye (cable connector shown) 4-pin Micro-style - Universal Voltage Models Model MQAC-406 MQAC-415 MQAC-430 Length Connector 2 m (6.5') 5 m (15') 9 m (30') Straight NO 5A max. load (QD Models) Green Wire Red Wire Red/White Wire C bk Pin-out MQAC-406RA MQAC-415RA MQAC-430RA 2 m (6.5') 5 m (15') 9 m (30') Red/Black Wire Right-angle (cable connector shown) rd/bk rd/wh rd gn AC/DC NO C 3A max. load Banner Engineering Corp. * Minneapolis MN, U.S.A. www.bannerengineering.com * Tel: 763.544.3164 P/N 114348 11 Q60LAF Series Laser Adjustable-Field Sensors Accessory Bracket SMBQ60 8.0 mm (0.31") 4.0 mm (0.16") * Right-angle bracket * 14-ga., 304 Stainless Steel 11.0 mm (0.43") 20.0 mm (0.79") 4.0 mm (0.16") o3.8 mm (0.15") 1.9 mm (0.75") 58.0 mm (2.28") R84.8 mm (3.34") 15.0 mm (0.59") 8.0 mm (0.31") 82.0 mm (3.23") 19.0 mm (0.75") 3 4.0 mm (0.16") 6 37.8 10.0 mm (0.39") 4.2 mm (0.17") o4.5 mm (0.18") R24.1 mm (0.95") 10.0 5.0 2x R2.25 (0.88") 32.0 mm (1.26") 64.0 mm (2.52") ! WARNING . . . Not To Be Used for Personnel Protection Never use these products as sensing devices for personnel protection. Doing so could lead to serious injury or death. These sensors do NOT include the self-checking redundant circuitry necessary to allow their use in personnel safety applications. A sensor failure or malfunction can cause either an energized or de-energized sensor output condition. Consult your current Banner Safety Products catalog for safety products which meet OSHA, ANSI and IEC standards for personnel protection. WARRANTY: Banner Engineering Corp. warrants its products to be free from defects for one year. Banner Engineering Corp. will repair or replace, free of charge, any product of its manufacture found to be defective at the time it is returned to the factory during the warranty period. This warranty does not cover damage or liability for the improper application of Banner products. This warranty is in lieu of any other warranty either expressed or implied. P/N 114348 Banner Engineering Corp., 9714 Tenth Ave. No., Minneapolis, MN 55441 * Phone: 763.544.3164 * www.bannerengineering.com * Email: sensors@bannerengineering.com