# PHOTOELECTRIC SENSOR, 3M, IP67, 10-30VDC

![Product image](https://novapart.co/image/farnell:4292857/)

**URL**: https://novapart.co/products/Q5XKLAF3000-Q8./photoelectric-sensor-3m-ip67-10-30vdc
**SKU**: Q5XKLAF3000-Q8.
**Manufacturer**: BANNER ENGINEERING
**Price**: €395.8700
**Stock**: 10+
**Lead Time**: 76 days (indicative)

## Description

Sensor Type:Photoelectric Sensor; Sensing Method:Background/Foreground Suppression, Proximity; Output Type:Digital - PNP / NPN; Product Range:Q5X Series; Supp 83AK3694

## Specifications

| Parameter | Value |
|---|---|
| Ip Rating | IP67 |
| Output Type | Digital - PNP / NPN |
| Sensor Type | Photoelectric Sensor |
| Light Source | Red Laser |
| Product Range | Q5X Series |
| Qualification | - |
| Sensing Method | Background/Foreground Suppression, Proximity |
| Connection Method | 4 Pin M12 Integral Quick Disconnect Connector |
| Sensing Range Max | 3m |
| Sensor Output Type | NPN / PNP |
| Supply Voltage Max | 30VDC |
| Supply Voltage Min | 10VDC |
| Sensing Distance Max | 3m |
| Supply Voltage Dc Max | 30V |
| Supply Voltage Dc Min | 10V |
| Operating Temperature Max | 50°C |
| Operating Temperature Min | -10°C |

## Datasheet

📄 [Download PDF](https://novapart.co/datasheet/farnell:4292857/)

Q5X with Dual Discrete Outputs and IOLink Quick Start Guide 

## Product Description for the Q5X Dual Discrete 

This guide is designed to help you set up and install the Q5X Laser Measurement Sensor. For complete information on programming, perfor­ mance, troubleshooting, dimensions, and accessories, please refer to the Instruction Manual at www.bannerengineering.com. Search for p/ n 208794 to view the Instruction Manual. Use of this document assumes familiarity with pertinent industry standards and practices. 

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## WARNING: 

- Do not use this device for personnel protection 

- Using this device for personnel protection could result in serious injury or death. 

- This device does not include the self­checking redundant circuitry necessary to allow its use in personnel safe­ ty applications. A device failure or malfunction can cause either an energized (on) or de-energized (off) output condition. 

## Features 

The Q5X Laser Measurement Sensor has three major features. 

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Q5X Features<br>2<br>3<br>1<br>1. Two output indicators (amber)<br>2. Display<br>3. Buttons<br>**----- End of picture text -----**<br>


## Display and Indicators 

The display is a 4­digit, 7­segment LED. Run mode is the primary view displayed. 

For 2-pt, BGS, FGS, and DYN TEACH modes, the display shows the current distance to the target in centimeters. For Dual TEACH mode, the display shows the percentage matched to the taught reference surface. A display value of 999P indicates the sensor has not been taught. 

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Display in Run Mode<br>1 2 1. Stability Indicator (STB—Green)<br>STB DYN FGS BGS 2. Active TEACH IndicatorsActive TEACH Indicators<br>◦ DYN—Dynamic (Amber)<br>◦<br>◦<br>**----- End of picture text -----**<br>


2. Active TEACH IndicatorsActive TEACH Indicators ◦ DYN—Dynamic (Amber) ◦ FGS—Foreground Suppression (Amber) ◦ BGS—Background Suppression (Amber) 

## Output Indicator 

Active TEACH Indicators (DYN, FGS, and BGS) 

On: The output is on 

DYN, FGS, and BGS all off—Two­point TEACH mode select­ ed (default) 

Off: The output is off 

DYN on—Dynamic TEACH mode selected 

Stability Indicator (STB) 

FGS on—Foreground suppression TEACH mode selected BGS on—Background suppression TEACH mode selected DYN, FGS, and BGS all on—Dual TEACH mode selected 

On—Stable signal within the specified sensing range 

Flashing—Marginal signal (low excess gain), the target is out­ side the limits of the specified sensing range, or a multiple peak condition exists 

Off—No target is detected within the specified sensing range 

Original Instructions July 25, 2023 

© Banner Engineering Corp. 

p/n: 208795 Rev. H 208795 

Q5X with Dual Discrete Outputs and IO-Link Quick Start Guide 

## Buttons 

Use the sensor buttons (SELECT)(TEACH) , (+)(CH1/CH2) , and (-)(MODE) to program the sensor. 

## _Button Layout_ 

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## (SELECT/TEACH) 

Press to select menu items in Setup mode Press and hold for longer than 2 seconds to start the currently selected TEACH mode (the default is two-point TEACH) 

## (+)(CH1/CH2) 

## (-)(MODE) 

Press to navigate the sensor menu in Setup mode Press to change setting values; press and hold to decrease numeric values 

Press and hold for longer than 2 seconds to enter Setup mode 

Press to navigate the sensor menu in Setup mode Press to change setting values; press and hold to increase numeric values 

Press and hold for longer than 2 seconds to switch between Channel 1 and Channel 2 

NOTE: When navigating the menu, the menu items loop. 

## Class 2 Laser Description and Safety Information 

Read the following safety information for proper use of a Class 2 laser. 

- CAUTION: • Return defective units to the manufacturer. • Use of controls or adjustments or performance of procedures other than those specified herein may result in hazardous radiation exposure. 

- • Do not attempt to disassemble this sensor for repair. A defective unit must be returned to the manufacturer. 

## CAUTION: 

- Never stare directly into the sensor lens. 

- • Laser light can damage your eyes. • Avoid placing any mirror-like object in the beam. Never use a mirror as a retroreflective target. 

   - For Safe Laser Use - Class 2 Lasers • 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 practical. • Terminate the beam emitted by the laser product at the end of its useful path. 

Class 2 lasers are lasers that emit visible radiation in the wavelength range from 400 nm to 700 nm, where eye protection is normally afford­ ed by aversion responses, including the blink reflex. This reaction may be expected to provide adequate protection under reasonably fore­ seeable conditions of operation, including the use of optical instruments for intrabeam viewing. 

Low-power lasers are, by definition, incapable of causing eye injury within the duration 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. 

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Q5X with Dual Discrete Outputs and IO-Link Quick Start Guide 

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Class 2 Red Laser models with maximum range of 2000 mm: Reference IEC 60825­1:2007<br>Output:  < 1.0 mW<br>FDA (CDRH) warning label (Class<br>2) Laser wavelength:  640 to 670 nm<br>LASER LIGHT<br>DO NOT STARE INTO BEAM<br>CLASS 2 LASER PRODUCT<br>IEC 60825-1:2007. Wavelength<br>21 CFR 1040.10 and 1040.11 except for640-670nm; 1.0mW max. Complies with Pulse Duration:  20 µs to 2 ms<br>deviations pursuant to Laser Notice<br>No. 50, dated June 24, 2007.<br>Class 2 Red Laser models with maximum range > 2000 mm: Reference IEC 60825­1:2014<br>Output:  < 1.0 mW<br>FDA (CDRH) warning label (Class<br>2) Laser wavelength:  640 to 670 nm<br>LASER LIGHT<br>DO NOT STARE INTO BEAM<br>CLASS 2 LASER PRODUCT<br>IEC 60825-1:2014. Wavelength<br>640-670nm; 1.0mW max. Complies with Pulse Duration for <5 m Models:  20 µs to 2 ms<br>21 CFR 1040.10 and 1040.11 except forconformance with IEC 60825-1: 2014 Pulse Duration for ≥ 5 m Models:  3 µs<br>as described in Laser Notice<br> No. 56, dated May 8, 2019.<br>**----- End of picture text -----**<br>


## Installation 

## Sensor Orientation for the Triangulation Models 

Optimize detection reliability and minimum object separation performance with correct sensor­to­target orientation. 

To ensure reliable detection, orient the sensor as shown in relation to the target to be detected. 

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Optimal Orientation of Target to Sensor<br>**----- End of picture text -----**<br>


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See the following figures for examples of correct and incorrect sensor-to-target orientation as certain placements may pose problems for sensing some targets. The Q5X can be used in the less preferred orientation and at steep angles of incidence and still provide reliable detec­ tion performance due to its high excess gain. For the minimum object separation distance required for each case, refer to "Q5X Dual Dis­ crete with IO-Link Performance Curves" on page 14. 

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Q5X with Dual Discrete Outputs and IO-Link Quick Start Guide 

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Orientation for a moving ob­ Orientation for a height dif­<br> Orientation by a wall<br>ject ference<br>i / A i wh |<br>i ani : y i if<br>Correct Incorrect < <<br>Correct Incorrect Correct Incorrect<br>Orientation for a color or  Orientation for highly reflec­<br>luster difference tive target [(1)]<br>i @ a<br>——S —S aa<br>(Optimal) Reflective<br>Horizontal Vertical Surface<br>Orientation Orientation (optional)<br>C<br>**----- End of picture text -----**<br>


## Mount the Device 

1. If a bracket is needed, mount the device onto the bracket. 

2. Mount the device (or the device and the bracket) to the machine or equipment at the desired location. Do not tighten the mounting screws at this time. 

3. Check the device alignment. 

4. Tighten the mounting screws to secure the device (or the device and the bracket) in the aligned position. 

## Wiring Diagram 

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Channel 2 as PNP Discrete or PFM<br>Channel 2 as Remote Input<br>Output<br>bn (1) + 4a bn (1) + 1<br>CH1 10-30 V DC<br>bk (4) CH1 10-30 V DC bk (4) Load 2<br>|]= Load 5!41 7 (iS<br>bu (3) 1 – OMD1: bu (3) CH2 5 – 3 \\Cy 4<br>wh (2)<br>wh (2)CH2<br>| [| Load * ;-———)0 0 Remote Input CE<br>**----- End of picture text -----**<br>


NOTE: Open lead wires must be connected to a terminal block. 

NOTE: The Channel 2 wire function and polarity is user­selectable. The default for the wire is PNP output. Refer to the Instruction Manual (p/n 208794) for details regarding use as a remote input or pulse frequency modulation (PFM) out­ put. 

_(1) Applying tilt to sensor may improve performance on reflective targets. The direction and magnitude of the tilt depends on the application, but a 15° tilt is often sufficient._ 

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Channel 1 = NPN Output, Channel 2 = NPN Output Channel 1 = PNP Output, Channel 2 = PNP Output<br>bn (1) + bn (1) +<br>CH1 10–30 V DC<br>bk (4) CH1 10-30 V DC bk (4)<br>Load Load<br>bu (3) – bu (3) –<br>CH2<br>wh (2) CH2 wh (2)<br>Load Load<br>**----- End of picture text -----**<br>


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Channel 1 = PNP Output, Channel 2 = PNP Output<br>**----- End of picture text -----**<br>


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Channel 1 = NPN Output, Channel 2 = NPN Re­ Channel 1 = PNP Output, Channel 2 = PNP Re­<br>mote Input mote Input<br>bn (1) + bn (1) +<br>10–30 V DC CH1 10-30 V DC<br>bk (4) CH1 bk (4)<br>Load Load<br>bu (3) – bu (3) –<br>CH2<br>wh (2) CH2 Remote wh (2)<br>Input Remote Input<br>**----- End of picture text -----**<br>


## Cleaning and Maintenance 

## Clean the sensor when soiled and use with care. 

Handle the sensor with care during installation and operation. Sensor windows soiled by fingerprints, dust, water, oil, etc. may create stray light that may degrade the peak performance of the sensor. Blow the window clear using filtered, compressed air, then clean as necessary using only water and a lint-free cloth. 

## Connecting to RSD1 

The following diagram depicts the connection of the Q5X to the optional RSD1 accessory. 

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Q5X to RSD1<br>**----- End of picture text -----**<br>


Double Ended Shielded MQDEC3-503SS MQDEC3-506SS Q5X MQDEC3-515SS MQDEC3-530SS Double Ended Sensor Pin 2 to Pin 5 Flying Lead Shielded MQDC-4501SS MQDEC2-506 MQDC-4506SS MQDEC2-515 RSD1 MQDEC2-530 

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Use these cordsets to connect the RSD1 to the Q5X sensor. 

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4­Pin Female and 5­Pin Male Threaded M12 Cordset—Double Ended<br>Model  Length "L1"  Style  Pinout<br>MQDC-4501SS 0.30 m (0.98 ft)   Male<br>1 1 = Brown<br>2 2 = Not Used<br> Female Straight/ Male Straight  4 3 = Blue<br>MQDC-4506SS 1.83 m (6.00 ft)  4 = Black<br>3 5 5 = White<br>Continued on page 6<br>**----- End of picture text -----**<br>


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Continued from page 5<br>4­Pin Female and 5­Pin Male Threaded M12 Cordset—Double Ended<br>Model  Length "L1"  Style  Pinout<br>M12 X 1.0<br>M12 X 1.0<br>Female<br>ø 14.5 ø 14.5 2 1 = Brown<br>1 2 = White<br>ø 5.9 4 3 3 = Blue 4 = Black<br>43.5 ± 0.5 40 ± 0.5<br>“L1”<br>**----- End of picture text -----**<br>


Use these cordsets to connect the RSD1 to any PLC or IO block. 

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5­Pin Male Threaded and 5­Pin Female Quick Disconnect M12 Cordset with Shield—Double Ended<br>Model  Length "L1"  Style  Pinout (Male)  Pinout (Female)<br>MQDEC3-503SS 0.91 m (2.99 ft)<br>2<br>1<br>MQDEC3-506SS 1.83 m (6 ft)  1<br>2<br>MQDEC3-515SS 4.58 m (15 ft)  Female Straight/Male Straight  4 3<br>4 5<br>3 5<br>MQDEC3-530SS 9.2 m (30.2 ft)<br>M12 x 1 M12 x 1<br>14.5 14.5<br>1 = Brown<br>4 = Black<br>2 = White<br>ø 5.9 3 = Blue  5 = Gray<br>47.4<br>47.4<br>“L1”<br>5­Pin Threaded M12 Cordsets with Shield—Single Ended<br>Model  Length  Style  Dimensions  Pinout (Female)<br>MQDEC2-506 2 m (6.56 ft)<br>44 Typ.<br>MQDEC2-515 5 m (16.4 ft)<br>MQDEC2-530 9 m (29.5 ft)<br>Straight<br>MQDEC2-550 15 m (49.2 ft)  M12 x 1<br>2<br>MQDEC2-575 23 m (75.44 ft)  ø 14.5 1<br>MQDEC2-5100 30.5 m (100 ft)  3<br>MQDEC2-506RA 2 m (6.56 ft)  32 Typ. 4 5<br>[1.26"] 1 = Brown<br>MQDEC2-515RA 5 m (16.4 ft)  2 = White<br>3 = Blue<br>MQDEC2-530RA 9 m (29.5 ft)  4 = Black<br>30 Typ.<br>5 = Gray<br>MQDEC2-550RA 15 m (49.2 ft)  Right­Angle  [1.18"]<br>MQDEC2-575RA 23 m (75.44 ft)<br>M12 x 1<br>MQDEC2-5100RA 31 m (101.68 ft)  ø 14.5 [0.57"]<br>**----- End of picture text -----**<br>


## Button Map from RSD1 to Sensor 

The sensor may be optionally connected to the Banner RSD1 remote display accessory. Refer to this table for the RSD1 button association with your sensor. 

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Q5X with Dual Discrete Outputs and IO-Link Quick Start Guide 

## Button association between the RSD1 and the Q4X/Q5X sensors 

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Device  Up Button  Down Button  Enter Button  Escape Button<br>RSD1<br>Q4X  and  Q5X N/A<br>**----- End of picture text -----**<br>


## Sensor Programming 

Program the sensor using the buttons on the sensor or the remote input (limited programming options). 

In addition to programming the sensor, use the remote input to disable the buttons for security, preventing unauthorized or accidental pro­ gramming changes. See the Instruction Manual, p/n 208794 for more information. 

## Setup Mode 

Access Setup mode and the sensor menu from Run mode by pressing and holding MODE for longer than 2 seconds. 

Use + and - to navigate through the menu. Press SELECT to select a menu option and access the submenus. Use + and - to navigate through the submenus. Press SELECT to select a submenu option and return to the top menu, or press and hold SELECT for longer than 2 seconds to select a submenu option and return immediately to Run mode. 

To exit Setup mode and return to Run mode, navigate to End and press SELECT . 

NOTE: The number that follows a menu option, for example tch1 , indicates the channel that is selected. For menu items without a number (excluding submenu items), these menu options are only available from Channel 1 and the set­ tings apply to both channels. 

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Sensor Menu Map—Channel 1<br>**----- End of picture text -----**<br>


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_Sensor Menu Map—Channel 2_ 

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Q5X with Dual Discrete Outputs and IO-Link Quick Start Guide 

## Basic TEACH Instructions 

Use the following instructions to teach the Q5X sensor. The instructions provided on the sensor display vary depending on the type of TEACH mode selected. Two-point TEACH is the default TEACH mode. 

1. Press and hold TEACH for longer than 2 seconds to start the selected TEACH mode. 

2. 

- Present the target. 

3. Press TEACH to teach the target. The target is taught and the sensor waits for the second target, if required by the selected TEACH mode, or returns to Run mode. 

4. Complete these steps only if it is required for the selected TEACH mode. 

   - a. Present the second target. 

   - b. Press TEACH to teach the target. The target is taught and the sensor returns to Run mode. 

See the Instruction Manual for detailed instructions and other available TEACH modes. The TEACH modes include: 

- Two­point static background suppression —Two­point TEACH sets a single switch point.  The sensor sets the switch point between two taught target distances, relative to the shifted origin location. 

- Dynamic background suppression —Dynamic TEACH sets a single switch point during machine run conditions. The sensor takes multiple samples and the switch point is set between the minimum and the maximum sampled distances. 

- One­point window (foreground suppression) —One-point window sets a window (two switch points) centered around the taught target distance. 

- One­point background suppression —One­point background suppression sets a single switch point in front of the taught tar­ get distance. Objects beyond the taught switch point are ignored. 

- Dual intensity + distance —Dual mode records the distance and amount of light received from the reference surface. See "Dual Mode Reference Surface Considerations" on page 16 for more information about selecting a reference surface. The out­ put switches when an object passing between the sensor and the reference surface changes the perceived distance or amount of returned light. 

## Manual Adjustments 

Manually adjust the sensor switch point using the + and - buttons. 

1. From Run mode, press either + or - one time. The selected channel displays briefly, then the current switch point value flashes slow­ ly. 

2. Press + to move the switch point up or - to move the switch point down. After 1 second of inactivity, the new switch point value flash­ es rapidly, the new setting is accepted, and the sensor returns to Run mode. 

NOTE: When FGS mode is selected (FGS indicator is on), manual adjustment moves both sides of the symmetrical threshold window simultaneously, expanding and collapsing the window size. Manual adjustment does not move the center point of the window. 

NOTE: When dual mode is selected (DYN, FGS, and BGS indicators are on), after the TEACH process is completed, use the manual adjustment to adjust the sensitivity of the thresholds around the taught reference point. The taught ref­ erence point is a combination of the measured distance and returned signal intensity from the reference target. Manual adjustment does not move the taught reference point, but pressing + increases the sensitivity, and pressing - decreas­ es the sensitivity. When re­positioning the sensor or changing the reference target, re­teach the sensor. 

## Locking and Unlocking the Sensor Buttons 

Use the lock and unlock feature to prevent unauthorized or accidental programming changes. 

Three settings are available: 

- —The sensor is unlocked and all settings can be modified (default). 

- —The sensor is locked and no changes can be made. 

- —The switch point value can be changed by teaching or manual adjustment, but no sensor settings can be changed through 

- the menu. 

When the sensor is in either Loc or 0Loc mode, the active channel can be changed using (+) (CH1/CH2) . 

When in Loc mode, Loc displays when the (SELECT)(TEACH) button is pressed. The switch point displays when (+) (CH1/CH2) or (-) (MODE) are pressed, but Loc displays if the buttons are pressed and held. 

When in 0Loc mode, Loc displays when (-)(MODE) is pressed and held. To access the manual adjust options, briefly press and re­ lease (+) (CH1/CH2) or (-)(MODE) . To enter TEACH mode, press the (SELECT)(TEACH) button and hold for longer than 2 seconds. 

To enter Loc mode, hold + and press - four times. To enter 0Loc mode, hold + and press - seven times. Holding + and pressing - four times unlocks the sensor from either lock mode and the sensor displays uLoc . 

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Q5X with Dual Discrete Outputs and IO-Link Quick Start Guide 

## Q5X Dual Discrete with IO-Link Specifications 

Power and Beam Specifications 

## Supply Voltage (Vcc) 

10 to 30 V DC (Class 2 supply) (10% max ripple within limits) 

Supply Protection Circuitry 

Protected against reverse polarity and transient overvoltages 

Power and Current Consumption, exclusive of load 

2000 mm and 3000 mm models: < 1 W 5000 mm model: < 1.4 W 10000 mm model: < 1.4 W 

Sensing Beam Visible red Class 2 laser models, 650 nm 

## Sensing Range 

2000 mm model: 95 mm to 2000 mm (3.74 in to 78.74 in) 3000 mm model: 95 mm to 3000 mm (3.74 in to 118.11 in) 5000 mm model: 50 mm to 5000 mm (2 in to 16.4 ft) 10000 mm model: 50 to 10000 mm (2 in to 32.8 ft) 

Delay at Power Up < 2.5 s 

## Boresighting 

2000 mm model: ±43 mm at 2000 mm 3000 mm model: ± 65 mm at 3000 mm 5000 mm model: ±86 mm at 5000 mm 10000 mm model: ±172 mm at 10000 mm 

## Housing and Construction 

Construction Housing: ABS Lens cover: PMMA acrylic Lightpipe: polycarbonate Connector Integral 4-pin M12 male quick-disconnect connector 

Maximum Torque 

Side mounting: 1 N·m (9 in·lbs) 

## IO-Link Interface 

IO Link Revision V1.1 

Smart Sensor Profile: Yes Baud Rate: 38400 bps Process Data In Length: 32 bits Process Data Out Length: 8 bits Minimum Cycle Time: 3.6 ms 

## Environmental Rating 

IP67 per IEC60529 

Vibration 

MIL-STD-202G, Method 201A (Vibration: 10 Hz to 55 Hz, 0.06 inch (1.52 mm) double amplitude, 2 hours each along X, Y and Z axes), with device operating 

## Operating Conditions 

–10 °C to +50 °C (+14 °F to +122 °F) 

35% to 95% relative humidity 

## Shock 

MIL-STD-202G, Method 213B, Condition I (100G 6x along X, Y, and Z axes, 18 shocks), with device operating 

## Storage Temperature 

–25 °C to +70 °C (–13 °F to +158 °F) 

IODD files: Provides all programming options of the display, plus additional functionality. 

Performance and Output Ratings 

## Output Configuration 

Channel 1: IO-Link, Push/pull output, configurable PNP or NPN output 

Channel 2: Multi-function remote input/output, configurable PNP or NPN, or pulse frequency modulated output 

## Response Speed 

2000 mm model: User selectable 3, 5, 15, 25, or 50 ms 3000 mm model: User selectable 

5000 mm model: User selectable 2, 5, 15, 50, or 250 ms 10000 mm model: User selectable 2, 5, 15, 50, or 250 ms 

## Ambient Light Immunity 

## Remote Input 

Allowable Input Voltage Range: 0 to Vsupply 

Active High (internal weak pull­down): High state > (Vsupply – 2.25 V) at 2 mA maximum 

Active Low (internal weak pull-up): Low state < 2.25 V at 2 mA maximum 

## Application Note 

For optimum performance, allow 10 minutes for the sensor to warm up for the 2000 mm models and 20 minutes for the 5000 and 10000 mm models. 

## Advanced Capabilities 

2000 mm model: 

5000 lux at 1 m 2000 lux at 2 m 

5000 and 10000 mm models: 5000 lux 

## Temperature Effect (Typical) for 2000 and 3000 mm Models 

< 0.5 mm/°C at < 500 mm 

< 1.0 mm/°C at < 1000 mm 

- < 2.0 mm/°C at < 2000 mm < 5 mm/°C for < 3000 mm 

Temperature Effect (Typical) for 5000 and 10000 mm Models 

- < 0.5mm/°C for up to 3000 mm 

- < 0.75mm/°C for up to 5000 mm 

- < 2.0 mm/C for up to 7500 mm 

- < 6.0 mm/C for up to 10000 mm 

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## Output Rating 

Current rating: 50 mA maximum 

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Black wire specifications per configuration<br>Output High:  ≥ Vsupply ­ 2.5 V<br>IO­Link Push/Pull<br>Output Low:  ≤ 2.5 V<br>Output High:  ≥ Vsupply ­ 2.5 V<br>PNP<br>Output Low:  ≤ 1V (loads ≤ 1 MegΩ)<br>Output High:  ≥ Vsupply ­ 2.5 V (loads ≤ 50 kΩ)<br>NPN<br>Output Low:  ≤ 2.5 V<br>White wire specifications per configuration<br>Output High:  ≥ Vsupply ­ 2.5 V<br>PNP<br>Output Low:  ≤ 2.5 V (loads ≤ 70 kΩ)<br>Output High:  ≥ Vsupply ­ 2.5 V (loads ≤ 70 kΩ)<br>NPN<br>Output Low:  ≤ 2.5 V<br>**----- End of picture text -----**<br>


## Discrete Output Distance Repeatability 

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Repeatability (2000<br>Distance (mm)  Repeatability (3000 mm Models)<br>mm Models)<br>95 to 300  ± 0.5 mm  ± 0.5 mm<br>300 to 1000  ± 0.25%  ± 0.25%<br>1000 to 2000  ± 0.25%  ± 0.25%<br>2000 to 3000 ± 1.0%<br>**----- End of picture text -----**<br>


See the charts for the Repeatability of the 5000 mm and 10000 mm models. 

Typical Excess Gain for the 2000 mm Model 

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High Excess Gain (Standard Excess Gain) Using a 90% White Card<br>Response<br>at 100 mm  at 500 mm  at 1000 mm  at 2000 mm<br>Speed (ms)<br>3  125  50  15  4<br>5  125  50  15  4<br>15  575 (175)  250 (75)  70 (25)  15 (6)<br>25  1000 (650)  450 (250)  125 (70)  30 (15)<br>50  2000 (1000)  900 (450)  250 (125)  60 (30)<br>**----- End of picture text -----**<br>


Typical Excess Gain for the 3000 mm Model 

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**----- Start of picture text -----**<br>
High Excess Gain (Standard Excess Gain) Using a 90% White Card<br>Response<br>at 100 mm at 500 mm at 1000 mm at 2000 mm at 3000 mm<br>Speed (ms)<br>200 0 25 6 3<br>200 0 25 6 3<br>920 400 100 25 12<br>1600 700 200 50 25<br>3200 1400 400 100 50<br>**----- End of picture text -----**<br>


Standard excess gain is available in 15, 25, and 50 ms re­ sponse speeds; standard excess gain provides increased noise immunity. 

Typical Excess Gain for the 5000 mm Model 

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**----- Start of picture text -----**<br>
Typical Excess Gain Using a 90% White Card (Performance Gain Mode)<br>at 50 mm  at 600 mm  at 1000 mm  at 2000 mm  at 5000 mm<br>50  400  400  175  30<br>**----- End of picture text -----**<br>


Excess gain is consistent for 15, 50, and 250 ms response speeds. Excess gain is approximately 10% lower in 2 ms and 5 ms response speed modes. 

Excess gain in black gain mode is approximately three times higher than in performance gain mode. It is useful for low­re­ flectivity targets. 

Excess gain in shiny gain mode is approximately one-third the excess gain of performance gain mode values. It is useful for highly reflective targets. 

Typical Excess Gain for the 10000 mm Model 

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**----- Start of picture text -----**<br>
Typical Excess Gain Using a 90% White Card<br>at<br>at 50  at 600  at 1000  at 2000  at 5000  at 6000  at 7500<br>10000<br>mm  mm  mm  mm  mm  mm  mm<br>mm<br>50  400  400  175  30  20  10  5<br>**----- End of picture text -----**<br>


Excess gain is consistent for 15, 50, and 250 ms response speeds. Excess gain is approximately 10% lower in 2 ms and 5 ms response speed modes. 

Excess gain in black gain mode is approximately three times higher than in performance gain mode. It is useful for low­re­ flectivity targets. 

Excess gain in shiny gain mode is approximately one-third the excess gain of performance gain mode values. It is useful for highly reflective targets. 

Standard excess gain is available in 15, 25, and 50 ms re­ sponse speeds; standard excess gain provides increased noise immunity. 

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Q5X with Dual Discrete Outputs and IO-Link Quick Start Guide 

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**----- Start of picture text -----**<br>
Beam Spot Size<br>Beam<br>y Spot<br>Pattern<br>x<br>**----- End of picture text -----**<br>


Beam spot sizes are measured X × Y mm at specific dis­ tances. 

2000 mm Models: 

2.6 × 1.5 mm at 100 mm 

4.2 × 2.5 mm at 1000 mm 

6 × 3.6 mm at 2000 mm 

3000 mm Models: 

2.6 × 1.5 mm at 100 mm 

4.2 × 2.5 mm at 1000 mm 6 × 3.6 mm at 2000 mm 7.8 × 4.7 mm at 3000 mm 

5000 mm Models: 

6 × 4 mm at 100 mm 11 × 7 mm at 2500 mm 15 × 11 mm at 5000 mm 

10000 mm Models: 7 × 6 mm at 100 mm 16 × 11 mm at 2500 mm 25 × 19 mm at 5000 mm 32 × 25 mm at 7500 mm 41 × 31 mm at 10000 mm 

Beam spot size is calculated as 1.6 times the D4σ measured value 

## Certifications 

## Certifications 

Banner Engineering BV Park Lane, Culliganlaan 2F bus 3 1831 Diegem, BELGIUM 

## Required Overcurrent Protection 

**==> picture [32 x 42] intentionally omitted <==**

WARNING: Electrical connections must be made by qualified personnel in ac­ cordance with local and national electri­ cal codes and regulations. 

Overcurrent protection is required to be provided by end prod­ uct application per the supplied table. 

Class 2 power; UL Environmental Rating: Type 1 

Overcurrent protection may be provided with external fusing or via Current Limiting, Class 2 Power Supply. 

Supply wiring leads < 24 AWG shall not be spliced. 

For additional product support, go to www.bannerengineering.com. 

VCCI-CISPR 32 

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**----- Start of picture text -----**<br>
Supply  Supply<br>Required Overcurrent  Required Overcurrent<br>Wiring  Wiring<br>Protection (A) Protection (A)<br>(AWG) (AWG)<br>20 5.0 26 1.0<br>22 3.0 28 0.8<br>24 1.0 30 0.5<br>**----- End of picture text -----**<br>


## FCC Part 15 Class A 

This equipment has been tested and found to comply with the limits for a Class A digital device, pursuant to part 15 of the FCC Rules. These limits are designed to provide reasonable protection against harmful interference when the equipment is operated in a commercial environ­ ment. This equipment generates, uses, and can radiate radio frequency energy and, if not installed and used in accordance with the instruc­ tion manual, may cause harmful interference to radio communications. Operation of this equipment in a residential area is likely to cause harmful interference in which case the user will be required to correct the interference at his own expense. 

## Industry Canada ICES-003(A) 

This device complies with CAN ICES-3 (A)/NMB-3(A). Operation is subject to the following two conditions: 1) This device may not cause harmful interference; and 2) This device must accept any interference received, including interference that may cause undesired operation. 

Cet appareil est conforme à la norme NMB-3(A). Le fonctionnement est soumis aux deux conditions suivantes : (1) ce dispositif ne peut pas occasionner d'interférences, et (2) il doit tolérer toute interférence, y compris celles susceptibles de provoquer un fonctionnement non souhaité du dispositif. 

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Q5X with Dual Discrete Outputs and IO-Link Quick Start Guide 

## Q5X Dual Discrete with IO-Link Performance Curves 

_Minimum object separation distance (90% to 6% reflectance) for the 2000 mm models_ 

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Background<br>X<br>Y<br>Switch Point<br>Distance<br>**----- End of picture text -----**<br>


_Typical performance curves for the 2000 mm models_ 

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**----- Start of picture text -----**<br>
80<br>70<br>60<br>50<br>40<br>30<br>20<br>10<br>0<br>0 200 400 600 800 1000 1200 1400 1600 1800 2000<br>Distance to Target (mm)<br>Dimension  X<br>Dimension<br>Minimum Separation Target to Background (mm)<br>**----- End of picture text -----**<br>


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Q5X with Dual Discrete Outputs and IO-Link Quick Start Guide 

_Typical performance curves for the 3000 mm models_ 

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**----- Start of picture text -----**<br>
100<br>90 Matte targets with a non-uniform<br>reflectivity: 6% to 90%<br>80<br>70<br>60<br>50<br>40<br>30<br>Matte targets with uniform<br>reflectivity: 6% to 90%<br>20<br>10<br>0<br>0 500 1000 1500 2000 2500 3000 3500<br>Dimension  X<br>**----- End of picture text -----**<br>


Typical performance curves for the 5000 mm models 

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**----- Start of picture text -----**<br>
Minimum Object Separation for 50 ms Response<br>Time Repeatability for 50 ms Response Time<br>Minimum Object Separation Repeatability (50 ms)<br>100<br>14<br>80 12<br>10<br>60 8<br>40 6% black/90% white 64 6% black<br>20 2 18% Gray<br>90% white/90% white 0 90% white<br>0 0 1000 2000 3000 4000 5000<br>0 1000 2000 3000 4000 5000<br>(Dimension X)<br>(Dimension X)<br>1σ Repeatability in mm (inch)<br>**----- End of picture text -----**<br>


Typical performance curves for the 10000 mm models 

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**----- Start of picture text -----**<br>
Minimum Object Separation for 50 ms Response<br>Time Repeatability for 50 ms Response Time<br>Repeatability (50ms)<br>180 Minimum Object Separation (50 ms) 30<br>160 25 6% Black<br>140 6% black/90% white<br>120 20<br>100 15<br>80 10 18% Gray<br>60<br>40 90% white/90% white 5 90% White<br>20<br>0 0 1000 2000 3000 4000 5000 6000 7000 8000 9000 10 000 0 0 1000 2000 3000 4000 5000 6000 7000 8000 9000 10 000<br>(Dimension X)<br>(Dimension X)<br>1σ Repeatability in mm<br>**----- End of picture text -----**<br>


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Q5X with Dual Discrete Outputs and IO-Link Quick Start Guide 

## Dual Mode Reference Surface Considerations 

Optimize reliable detection by applying these principles when selecting your reference surface, positioning your sensor relative to the refer­ ence surface, and presenting your target. 

The robust detection capabilities of the Q5X allows successful detection even under non­ideal conditions in many cases. Typical reference surfaces are metal machine frames, conveyor side rails, or mounted plastic targets. Contact Banner Engineering if you require assistance setting up a stable reference surface in your application. 

For detailed instructions for detecting clear or transparent objects, refer to the Instruction Manual, p/n 208794. 

1. Select a reference surface with these characteristics where possible: 

   - Matte or diffuse surface finish 

   - Fixed surface with no vibration 

   - Dry surface with no build­up of oil, water, or dust 

2. Position the reference surface between 200 mm (20 cm) and the maximum sensing range. 

3. Position the target to be detected as close to the sensor as possible, and as far away from the reference surface as possible. 

4. Angle the sensing beam relative to the target and relative to the reference surface 10 degrees or more. 

## 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 ship­ ment. Banner Engineering Corp. will repair or replace, free of charge, any product of its manufacture which, at the time it is returned to the factory, is found to have been defective during the warranty period. This warranty does not cover damage or liability for misuse, abuse, or the improper application or installation of the Banner product. 

THIS LIMITED WARRANTY IS EXCLUSIVE AND IN LIEU OF ALL OTHER WARRANTIES WHETHER EXPRESS OR IMPLIED (INCLUD­ ING, 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 discretion of Banner Engineering Corp., replacement. IN NO EVENT SHALL BAN­ NER 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 obligations or lia­ bilities relating to any product previously manufactured by Banner Engineering Corp. Any misuse, abuse, or improper application or installa­ tion of this product or use of the product for personal protection applications when the product is identified as not intended for such purposes will void the product warranty. Any modifications to this product without prior express approval by Banner Engineering Corp will void the prod­ uct warranties. All specifications published in this document are subject to change; Banner reserves the right to modify product specifications or update documentation at any time. Specifications and product information in English supersede that which is provided in any other lan­ guage. For the most recent version of any documentation, refer to: www.bannerengineering.com. 

For patent information, see www.bannerengineering.com/patents. 

Document title: Q5X Laser Measurement Sensor with Dual Discrete Outputs and IO­Link Quick Start Guide Part number: 208795 

Revision: H Original Instructions 

© Banner Engineering Corp. All rights reserved. 

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**----- Start of picture text -----**<br>
208795<br>**----- End of picture text -----**<br>


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© Banner Engineering Corp. 



## Links

- [View this product on Novapart](https://novapart.co/products/Q5XKLAF3000-Q8./photoelectric-sensor-3m-ip67-10-30vdc)
- [Request a quote for this part](https://novapart.co/quote/)
- [Supplier page](https://es.farnell.com/banner-engineering/q5xklaf3000-q8/photoelectric-sensor-3m-ip67-10/dp/4292857)
---

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