LT3BDQ

**L-GAGE[®] LT3BD Long-Range Time-of-Flight Laser Sensor** 

## **Datasheet** 

- Extremely long range: 5 m with white targets or 3 m with gray targets for diffuse mode sensors, up to 50 m for retroreflective models 

- Two discrete (switched) outputs in each sensor, with independent window limits1 

- Discrete output can be used for precise background suppression 

- Choose NPN or PNP discrete outputs using the output select wire 

- • Fast, easy-to-use integrated push button TEACH-mode programming; no potentiometer adjustments 

- Remote TEACH-function for security and convenience 

- Output response is programmable for three speeds 

- High-grade retroreflective target included with each retroreflective-mode sensor 

- • Choose 2 m or 9 m unterminated cable, or 8-pin Euro-style swivel quick-disconnect connector 

- Rugged construction withstands demanding sensing environments; IEC IP67, NEMA 6 

## **WARNING: Not To Be Used for Personnel Protection** 

**Never use this device as a sensing device for personnel protection. 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 applications. A sensor failure or malfunction can cause either an energized or de-energized sensor output condition. 

## **CAUTION: Do Not Disassemble for Repair** 

This device contains no user-serviceable components. Do not attempt to disassemble for repair. Use of controls or adjustments or performance of procedures other than those specified herein may result in hazardous radiation exposure. A defective unit must be returned to the manufacturer. 

## **Models** 

|**Models**|**Sensing Mode**|**Laser Class**|**Sensing Distance**|**Cable**<br>2|
|---|---|---|---|---|
|**LT3BD**|Diffuse|Class 2|0.3 m to 5 m (11.8 in to 16.4 ft)|2 m (6.5 ft) unterminated 8-wire cable|
|**LT3BDQ**||||Integral 8-pin M12/Euro-style male quick<br>disconnect (QD)|
|**LT3BDLV**|Retroreflective|Class 1|0.5 m to 50 m<br>3 (20 in to 164 ft)|2 m (6.5 ft) unterminated 8-wire cable|
|**LT3BDLVQ**||||Integral 8-pin M12/Euro-style male quick<br>disconnect (QD)|



## **Theory of Operation** 

A short electrical pulse drives a semiconductor laser diode to emit a pulse of light. The emitted light is collimated through a lens, which produces a very narrow laser beam. The laser beam bounces off the target, scattering some of its light through the sensor’s receiving lens to a photodiode, which creates an electrical pulse. The time interval between the two electrical pulses (transmitting and receiving the beam) is used to calculate the distance to the target, using the speed of light as a constant. 

Multiple pulses are evaluated by the sensor’s microprocessor, which calculates the appropriate output value. The analog output provides a variable signal (4 mA to 20 mA or 0 V dc to 10 V dc, depending on model) that is proportional to the target’s position within the user-programmed analog window limits. The discrete (switched) output energizes whenever the target is located between the userprogrammed discrete window limits. Window limits for the analog and discrete outputs may be the same, or they may be programmed independently. 

> 1 See Banner website ( _www.bannerengineering.com_ ) for information on analog/discrete models. 2 To order the 9 m cable models, add the suffix “W/30” to the model number of any cabled sensor (e.g., LT3BD W/30). A model with a QD connector requires a mating cable. 

> 3 Retroreflective range specified using included model BRT-TVHG-8X10P high-grade target. 

Original Document 68503 Rev. F 

7 November 2017 

68503 

L-GAGE[®] LT3BD Long-Range Time-of-Flight Laser Sensor 

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**----- Start of picture text -----**<br>
User<br>Interface<br>Laser Lenses Target<br>Emitter<br>Emitter<br>E<br>Circuitry<br>Microprocessor<br>Analog<br>Time-of-Flight Signal R<br>Engine Processing Receiver<br>Element<br>Output<br>Circuitry<br>**----- End of picture text -----**<br>


_Figure 1. Theory of Operation_ 

## **Class 2 Laser Safety Notes** 

## **LASER LIGHT** 

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DO NOT STARE INTO BEAM CLASS 2 LASER PRODUCT 

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Avoid exposure -<br>laser light emitted<br>from this aperture<br>**----- End of picture text -----**<br>


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. 

These lasers are required to have a “hazard” label and to have an indicator light to indicate that laser emission is occurring. 

When operating a Class 2 laser: 

RADIANT POWER 0.5 mW 650 - 670 nm COMPLIES WITH 21 CFR PART 1040.10 AND EN60825-1:1994 

- 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. 

- 

## **Configuration Instructions** 

## **Sensor Power-Up and Laser-Enable** 

Power up the sensor for 30 minutes to allow the sensor’s internal temperature to stabilize before operating or attempting to program the sensor. If the sensor is used in applications where the temperature is several degrees higher or lower than the ambient temperature, allow the sensor to stabilize in that condition before programming the window limits. The range decreases when the sensor warms up. 

The Laser-Enable feature allows the sensor to be continually powered and enabled only when being used. This eliminates the need for the extended warm-up period between uses. 

The sensor’s red Signal LED indicates the condition of the received signal from the object being measured. When programming the window limits, this LED must be on (not flashing) for the sensor to accept the setting. To ensure the received signal will not be marginal during operation, move the target object 300 mm beyond the furthest desired switch point during setup and verify the signal LED is still on. 

www.bannerengineering.com - Tel: +1-763-544-3164 

P/N 68503 Rev. F 

2 

L-GAGE[®] LT3BD Long-Range Time-of-Flight Laser Sensor 

## **Indicators** 

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S IG N A LO U T P U T<br>Signal LED Output LED<br>FA S T<br>Response SpeedIndicators M E D S P EE D Response SpeedButton<br>S L O W<br>Discrete Output 1  TE A C H Discrete Output 2<br>Teach LED Teach LED<br>Discrete Output 1  D D Discrete Output 2<br>Programming  P O W E R Programming<br>Button Button<br>**----- End of picture text -----**<br>


Power ON/OFF LED 

**Power ON/OFF LED** (green)—Indicates the operating status of the sensor. 

**Power ON/OFF LED Status Indicates** Off Power is off Flashing at 2 Hz Discrete output is overloaded (Run mode) Flashing at 1 Hz Power is on; laser is disabled On Power is on; the sensor is operating normally and the laser is enabled ~~———~~ **Power-Up/Laser-Enable Indicators** —When powering up the sensor all LEDs turn on for one second. Allow a 0.6-second delay for LaserEnable. **Selected Response Speed Laser-Enable Time Laser-Disable Time** Slow 150 ms 50 ms Medium 60 ms Fast 51 ms ~~————~~ **Output LED** (amber)—Indicates when the discrete load output is conducting. **Response Speed** (amber)—Indicates the response speed setting. **Signal LED** (red)—Indicates the strength and condition of the sensor’s incoming signal. **Signal LED Status Indicates** On Good signal Off No signal is received or the target is beyond the range limitations of the sensor (with some tolerance beyond the recommended minimum and maximum sensing distance) Flashing Marginal signal strength (cannot teach limits) ~~——~~ **Response Speed** Before setting window limits, use the sensor’s speed button to toggle between the three response speed settings. The selected speed will be indicated by one of the three response speed indicator LEDs. **Discrete Output Response Speed** Slow 100 ms ON and OFF Medium 10 ms ON and OFF Fast 1 ms ON and OFF ~~——————~~ 

P/N 68503 Rev. F 

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3 

L-GAGE[®] LT3BD Long-Range Time-of-Flight Laser Sensor 

## **Programming** 

**Push-Button Programming** — Both outputs may be taught simultaneously, when complementary operation is required (while one output is conducting, the other is not). When taught separately, each output may be taught different limits (one output may be taught a window, and the other may be programmed for background suppression, for example). 

**Remote Programming** — To program the sensor remotely or to disable the keypad, the Remote Programming function may be used. Disabling the keypad prevents accidental or unauthorized adjustment of any programming settings. Connect the yellow wire of the sensor to +5 to 24 V dc, with a remote programming switch connected between them. 

**Note:** The impedance of the remote teach input is 55 kΩ. 

Program the sensor by following a sequence of input pulses. The duration of each pulse (corresponding to a push button “click”), and the period between multiple pulses, are defined as T, where T is 0.04 seconds < T < 0.8 seconds. 

## **Teaching Limits for Background Suppression** 

For some applications, ignoring objects beyond a certain distance may be required. To suppress the background, place a target object at the selected distance, and teach the position twice. The sensor’s discrete output will activate when an object is detected between the sensor’s minimum sensing distance and the taught position. 

**Note:** The sensor allows for some forgiveness in this procedure. If the two limits are not exactly the same (but less than 20 mm apart), the sensor will put the set point at the “average” of the two limits. 

Output 1 and Output 2 may be taught independent limits for background suppression. To set both outputs at exactly the same limits, set them simultaneously. This results in complementary outputs (while one output is conducting, the other is not). Hysteresis will be controlled by Output 1 and Output 2 will follow. 

## **Teaching Independent Limits for Either Output** 

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Output 1<br>Teach<br>Output 2 Point 1<br>Teach<br>Near Point 2 Far<br>Sensing Sensing<br>Range Range<br>**----- End of picture text -----**<br>


_Figure 2. Each output has its own limit for background suppression_ 

To exit Program mode without saving changes, press and hold the same push button (or hold the remote line high) for longer than 2 seconds (before teaching the second limit). The sensor will revert to the last saved program. 

1. Enter programming mode. 

||**Method**<br>**Action**|**Result**|
|---|---|---|
||**Push Button**<br>Push and hold the button for either output for longer than 2 seconds. The sensor will<br>return to RUN mode if first TEACH-condition is not registered within 120 seconds.|The appropriate TEACH-LED turns ON. The<br>sensor is waiting for first limit.|
||**Remote Input**<br>No action required.||
|2.<br>Teach the first limit.<br>**Method**<br>**Action**<br>**Push Button**<br>Position the target for the first limit. Click the same button.<br>~~a~~||**Result**|
||Position the target for the first limit.|The appropriate TEACH LED turns ON then|
||**Remote Input**<br>For output 1, single-pulse the remote line.<br>**T**<br>LT|flashes at 2 Hz. The sensor learns the first limit<br>and waits for the second limit.|
||**T**<br>**T**||
||For output 2, double-pulse the remote line.<br>**T**||



www.bannerengineering.com - Tel: +1-763-544-3164 

P/N 68503 Rev. F 

4 

L-GAGE[®] LT3BD Long-Range Time-of-Flight Laser Sensor 

3. Teach the second limit. 

|**Method**|**Acton**|**Result**|
|---|---|---|
|**Push Buton**|Positon the target for the second limit. Click the same buton.|The TEACH LED goes OFF. The sensor learns<br>the second limit and returns automatcally to<br>Run mode.|
|**Remote Input**|Positon the target for the second limit and single-pulse the remote line.<br>**T**||



4. Program the second output by repeating steps two and three. 

## **Teaching Identical Limits to Both Outputs** 

When teaching limits simultaneously, both the outputs will have identical limits. 

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Output 1<br>Output 2<br>Near Teach Far<br>Sensing Point Sensing<br>Range Range<br>**----- End of picture text -----**<br>


_Figure 3. The two outputs share identical limits for background suppression, but are complementary (while one output is conducting, the other is not)_ 

To exit Program mode without saving changes, press and hold the same push button (or hold the remote line high) for longer than 2 seconds (before teaching the second limit). The sensor will revert to the last saved program. 

1. Enter programming mode. 

|**Method**|**Acton**|**Result**|
|---|---|---|
|**Push Buton**|Push and hold the buton for either output for longer than 2 seconds. The sensor will<br>return to RUN mode if the frst TEACH conditon is not registered within 120 seconds.|The appropriate TEACH LED turns ON.|
||Briefy click the other output buton.|The appropriate TEACH LED turns ON. The<br>sensor is waitng for the frst limit.|
|**Remote Input**|No acton required.||



2. Teach the first limit. 

|**Method**|**Acton**|**Result**|
|---|---|---|
|**Push Buton**|Positon the target for the frst limit. Click either output buton.|Both TEACH LEDs fash at 2 Hz, alternatng red<br>and green. The sensor learns the frst limit and<br>waits for the second limit.|
|**Remote Input**|Positon the target for the frst limit, then triple-pulse the remote line.<br>**T**<br>**T**<br>**T**<br>**T**<br>**T**|Both TEACH LEDs turn ON. The sensor learns<br>the frst limit and waits for the second limit.<br>Both TEACH LEDs fash at 2 Hz, alternatng red<br>and green.|



3. Teach the second limit. 

|**Method**|**Acton**|**Result**|
|---|---|---|
|**Push Buton**|Positon the target for the second limit. Click either output buton.|Both TEACH LEDs go OFF. The sensor learns<br>the second limit and returns automatcally to<br>Run mode.|
|**Remote Input**|Positon the target for the second limit, then single-pulse the remote line.<br>**T**||



## **Enabling or Disabling the Push Button** 

In addition to its programming function, the remote line may be used to disable the push buttons for security. Disabling the push buttons prevents undesired tampering with the sensor configuration settings. 

1. Connect the sensor’s gray wire. 

2. Four-pulse the remote line to enable or disable the push button. 

The sensor toggles between enable and disable settings and returns to RUN mode. 

P/N 68503 Rev. F 

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5 

L-GAGE[®] LT3BD Long-Range Time-of-Flight Laser Sensor 

**Installation Instructions** 

## **Wiring Diagrams** 

|**NPN Wiring**|**NPN Wiring**|**NPN Wiring**|**NPN Wiring**|**NPN Wiring**|**NPN Wiring**|**PNP Wiring**<br>**Key**|**PNP Wiring**<br>**Key**|**PNP Wiring**<br>**Key**|**PNP Wiring**<br>**Key**|**PNP Wiring**<br>**Key**|**PNP Wiring**<br>**Key**|**PNP Wiring**<br>**Key**|
|---|---|---|---|---|---|---|---|---|---|---|---|---|
|2<br>Teach<br>Laser ON<br>7<br>5<br>1<br>6<br>3<br>4<br>Load 2<br>Load 1<br> OutputSele||||||+<br>12–24 V dc<br>+5–24 V dc<br>0–1.8 V dc<br>+5–24 V dc<br>Shield<br>–<br>ct<br>2<br>+<br>12–24 V dc<br>+5–24 V dc<br>+5–24 V dc<br>Shield<br>Teach<br>Laser ON<br>–<br>7<br>5<br>1<br>6<br>3<br>4<br>Load 2<br>Load 1<br> OutputSelect<br>+5–24 V dc<br>1.<br>White<br>2.<br>Brown<br>3.<br>Green<br>4.<br>Yellow<br>5.<br>Gray<br>6.<br>Pink<br>7.<br>Blue<br>8.<br>Shield|||||||
||2<br>Teach<br>Laser ON<br>7<br>5<br>1<br>6<br>3<br>4<br>Load 2<br>Load 1<br> OutputSele|2|||||||||2<br>||
|||7|||||||||7||
|||Teach<br>Laser ON<br>5<br>1<br>6<br>3<br>4<br>Load 2<br>Load 1<br> OutputSele|||||||||||
||||Load 1|||||||||Load 1|
||||||||||||5||
||||Load 2|||||||||Load 2|
||||||||||||||
|||||||<br>0<br> <br><br>ct|+5–24 V dc<br>–1.8 V dc<br>+5–24 V dc<br>Shield||||||
||||||||||||||



Cabled wiring diagrams are shown. Quick disconnect (QD) wiring diagrams are functionally identical. 

## **Specifications** 

|**Specifcatons**||
|---|---|
|**Sensing Range (Difuse Model)**|**Supply Voltage and Current**|
|90% White card: 0.3 to 5 m|12 V dc to 24 V dc (10% maximum ripple)|
|18% Gray card: 0.3 to 3 m|108 mA maximum at 24 V dc or [2600/V dc] mA|
|6% Black card: 0.3 to 2 m<br>**Sensing Range (Retrorefectve Model)**|**Supply Protecton Circuitry**<br>Protected against reverse polarity and transient voltages|
|0.5 to 50 m (using BRT-TVHG-8X10P)|**Delay at Power Up**|
|**Sensing Beam**|1 second; outputs do not conduct during this tme|
|Typical beam dia: 6 mm at 3 m<br>Typical laser lifetme: 75,000 hours<br>Difuse model: 658 nm visible red IEC and CDRH Class 2 laser; 0.5 mW max.<br>radiant output power<br>Retrorefectve model: 658 nm visible red IEC and CDRH Class 1 laser; 0.15 mW<br>max. radiant output power|**Output Protecton**<br>Protected against short circuit conditons<br>**Output Confguraton**<br>Discrete (switched): SPST solid-state switch; selectable NPN (current sinking) or<br>PNP (current sourcing)|



**Color Sensitivity (Diffuse Models)** 90% white to 18% gray: <10 mm 90% white to 6% black: < 20 mm **Output Rating (Discrete) Output Response Time (Discrete)** 100 mA maximum Fast: 1 ms ON and OFF Off-state leakage current: < 5 μA Medium: 10 ms ON and OFF Output saturation NPN: < 200 mV at 10 mA and < 600 mV at 100 mA Slow: 100 ms ON and OFF Output saturation PNP: < 1.2 V at 10 mA; < 1.6 V at 100 mA **Resolution/Repeatability Temperature Effect** See Performance Curves Diffuse models: < 2mm / °C **Discrete Output Hysteresis (Diffuse model)** Retroreflective models: < 3 mm / °C Fast: 10 mm **Minimum Window Size** Medium: 5mm Diffuse model: 20 mm Slow: 3mm Retroreflective model: 40 mm **Discrete Output Hysteresis (Retroreflective model) Factory Default Settings** Fast: 20 mm Response speed: 150 ms Medium: 10 mm Window limits 0.3 m to 5 m using a 90% reflectivity white card Slow: 6 mm Push buttons enabled **Remote Teach Input Construction** 18 kΩ minimum (65 kΩ at 5 V dc) ABS housing; acrylic window; ABS/polycarbonate blend quick disconnect fitting **Application Notes Laser Control** Allow 30-minute warm-up before programming or operating Enable: connect red wire to +5 to 24 V dc Retroreflective performance specifications are based on use with BRTDisable: connect to 0 to +1.8 V dc (or open connection) TVHG-8X10P high-grade target; results may vary with other retroreflective **Operating Conditions** 

**Remote Teach Input** 18 kΩ minimum (65 kΩ at 5 V dc) **Application Notes** Allow 30-minute warm-up before programming or operating Retroreflective performance specifications are based on use with BRTTVHG-8X10P high-grade target; results may vary with other retroreflective target materials 

0 °C to +50 °C (+32 °F to +122 °F) 90% at +50 °C maximum relative humidity (non-condensing) **Certifications** 

**Connections** 2 m (6.5 ft) or 9 m (30 ft) shielded 7-conductor (with drain) PVC-jacketed attached cable or 8-pin M12/Euro-style quick-disconnect **Environmental Rating** IEC IP67; NEMA 6 

www.bannerengineering.com - Tel: +1-763-544-3164 

P/N 68503 Rev. F 

6 

L-GAGE[®] LT3BD Long-Range Time-of-Flight Laser Sensor 

## **Performance Curves** 

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Resolution/Repeatability vs. Distance<br>5<br>6% Black<br>4 Fast 18% Gray90% White<br>3<br>Medium<br>2<br>1<br>Slow<br>0<br>0 1 2 3 4 5<br>Distance (m)<br>Resolution (mm)<br>**----- End of picture text -----**<br>


_Figure 4. Resolution/Repeatability vs Distance (Diffuse Mode)_ 

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Typical Color Sensitivity<br>20<br>10 90% White to 18% Gray<br>90% White to 6% Black<br>0<br>-10<br>-20<br>-30<br>-40<br>0 1 2 3 4 5<br>Distance (m)<br>Color Sensitivity (mm)<br>**----- End of picture text -----**<br>


_Figure 5. Typical Color Sensitivity (Diffuse Mode)_ 

## Resolution/Repeatability vs. Distance 

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20<br>18<br>16<br>14 Fast<br>12<br>10<br>8 Medium<br>6<br>4 Slow<br>2<br>0<br>0 10 20 30 40 50<br>Distance (m)<br>Resolution/Repeatability (mm)<br>**----- End of picture text -----**<br>


_Figure 6. Resolution/Repeatability vs Distance (Retroreflective Mode)_ 

## **Dimensions** 

Mounting Hardware: 

M4 x 0.7 x 40 socket-head cap screw. 

- M4 x 0.7 hex nut with captured, toothed lock washer. M3 short-arm hex key. 

P/N 68503 Rev. F 

www.bannerengineering.com - Tel: +1-763-544-3164 

7 

L-GAGE[®] LT3BD Long-Range Time-of-Flight Laser Sensor 

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102.7 mm<br>(4.04")<br>86.9 mm<br>(3.42")<br>— —<br>35.3 mm<br>(1.38")<br>87.0 mm 5.9 mm 75.6 mm<br>(3.43") (0.23") (2.98")<br>on<br>1. Press and hold appropriate Teach button untill Teach<br>RADIANT POWER 0.5mW10ns PULSE, 1MHz650 - 670nmCOMPLIES TO 21 CFR PART 1040.10 AND EN60825-1:1994Avoid exposure–laser light emitted from this aperture 40.6 mm 48.8 mm(1.92") 2. Adjust target to 1st limit point. Press Teach 3. Adjust target to 2nd limit point. light turns ON.button. (Teach flashes.)Press Teach button. (Teach turns OFF.) 68.5 mm(2.70") buwhgnrdyebngyL-GAGEDiscreteLT3NIQ4-20mATeachLaser ControlLoad [™] 12-24V dc5-24V dc5-24V dcShield–+<br>(1.59")<br>19.5 mm<br>(0.76")<br>_ |<br>15.0 mm<br>5.2 mm iS (0.59")<br>(0.20")<br>2x ø4.5 mm (0.18")<br>C'sink ø7.3 mm (0.29"), 5.3 mm (0.21") deep<br>OUTPUT SPEED D POWER<br>TEACH<br>SIGNAL FAST MED SLOW A<br>**----- End of picture text -----**<br>


## **Description of Laser Classes** 

**Class 1 Laser Label (Retroreflective Models)** 

**Class 2 Laser Label (Diffuse Models)** 

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LASER LIGHT<br>CLASS 1 LASER PRODUCT<br>RADIANT POWER 0.15mW<br>10ns PULSE, 1MHz<br>Complies with IEC 60825-1:2001<br>and 21 CFR 1040.10 & 1040.11<br>except for deviations pursuant to<br>Laser Notice No. 50, dated<br>July 26, 2001<br>Laser light<br>emitted from<br>this aperture<br>650 - 670  nm<br>**----- End of picture text -----**<br>


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**----- Start of picture text -----**<br>
LASER LIGHT<br>DO NOT STARE INTO BEAM<br>CLASS 2  LASER PRODUCT<br>RADIANT POWER 0.5mW<br>10ns PULSE, 1MHz<br>650 - 670 nm<br>COMPLIES TO 21 CFR PART<br>1040.10 AND EN60825-1:1994<br>Avoid exposure- laser<br>      light emitted from<br>             this aperture<br>**----- End of picture text -----**<br>


Class 1 lasers are lasers that are safe under reasonably foreseeable conditions of operation, including the use of optical instruments for intrabeam viewing. 

Reference IEC 60825-1:2001, Section 8.2. 

Class 2 lasers are 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. Reference IEC 60825-1:2001, Section 8.2. 

## **Accessories** 

## **8-Pin Threaded M12/Euro-Style Cordsets with Shield** 

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Model Length Style Dimensions Pinout (Female)<br>44 Typ. 2<br>3<br>MQDC-806 1.83 m (6 ft) Straight 1 4<br>7<br>5<br>M12 x 1 6<br>8<br>=r ø 14.5<br>**----- End of picture text -----**<br>


www.bannerengineering.com - Tel: +1-763-544-3164 

P/N 68503 Rev. F 

8 

L-GAGE[®] LT3BD Long-Range Time-of-Flight Laser Sensor 

|**8-Pin Threaded M12/Euro-Style Cordsets with Shield**|**8-Pin Threaded M12/Euro-Style Cordsets with Shield**|**8-Pin Threaded M12/Euro-Style Cordsets with Shield**|**8-Pin Threaded M12/Euro-Style Cordsets with Shield**|||
|---|---|---|---|---|---|
|**Model**|**Length**|**Style**|**Dimensions**|**Pinout (Female)**||
|**MQDC-815**|4.57 m (15 ft)|||1 = White<br>2 = Brown<br>3 = Green<br>4 = Yellow|5 = Gray<br>6 = Pink<br>7 = Blue<br>8 = Shield|
|**MQDC-830**|9.14 m (30 ft)|||||



**Retroreflectors Model Reflectivity Maximum Size Note:** Retroreflective material has a **Factor Temperature** pressure-sensitive adhesive on it. Surfaces must be clean and dry before applying the **BRT-TVHG-8X10P** 0.8 +60 °C (+140 °F) 203 × 254 mm adhesive. For best results, use a full-size ~~po~~ - target and trim it if needed. 

## **Mounting Brackets** 

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SMBLT31 •• Right-angle bracket300 series stainless steel 13.0 mm(0.51") 8.0 mm(0.31") 20.5 mm(0.81") 24.1 mm(0.94") 2x R2.5 (0.10")5.0 10.0 SMBLT3IP • Replaceable windows forwelding environments 2 X 29.7 mm(1.18") 89.6 mm(3.53") Ø 4.5 mm(0.18") 12.7 mm(0.50")41.4 mm(1.63")<br>•<br>ø5.0 mm(0.20")R89.6 mm(3.53") 2x ø4.0 mm(0.16")R172 mm (6.77")R47.5 mm(1.87") • Stainless steel constructionIncludes 2 weld-resistantwindows 2 X 55.9 mm(2.20") 10° 130.5 mm(5.11") 115.0 mm(4.50")<br>33.5 31.5 2x R2.5(0.10") 20°<br>14 68.0 mm(2.67")13.0 mm(0.51") i |_S 14.0 mm(0.55")ø5.0 mm(0.20") ‘ l 56° 82.5 mm(3.25") _ 31.2 mm(1.23") 42.9 mm(1.69") 2.7 mm(0.10")<br>85.5 mm(3.36")65.0 mm(2.56") 5.0 mm(0.20") 32.0 mm(1.26") 4 X R 3.3 mm(0.13")20° 14.5 mm(0.57")<br>54.1 mm(2.13") 107.9 mm(4.25")<br>SMBLT32<br>•<br>Heavy-duty protective<br>bracket<br>• 304 series stainless steel 73 mm<br>• ce [2.88”]<br>Mounting hardware<br>included<br>w el<br>Js i q<br>80 mm<br>[3.15”] 72 mm PS.<br>[2.84”]<br>**----- End of picture text -----**<br>


## **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 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 (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 discretion 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 obligations or liabilities relating to any product previously manufactured by Banner Engineering Corp. Any misuse, abuse, or improper application or installation 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 product 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 language. For the most recent version of any documentation, refer to: _www.bannerengineering.com_ . 

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