The Best Arduino Laser Range Sensor of 2022 – Reviewed and Top Rated

After hours researching and comparing all models on the market, we find out the Best Arduino Laser Range Sensor of 2022. Check our ranking below.

2,667 (random num) Reviews Scanned

Rank No. #1

MakerFocus Lidar Range Finder Sensor Module TF-Luna, Single-Point Micro Ranging Module 0.2 to 8m Compatible with Pixhawk, Ar duino and Raspberry Pi with UART / I2C Communication Interface

Note: TF-Luna module comes with UART and I2C interface, the default is UART, if you need to use I2C interface, please set it yourself
Working Principle: TF-Luna is a single-point ranging LiDAR, based on TOF principle. With unique optical and electrical design, it can achieve stable, accurate and highly sensitive range measurement
Product Characteristics: The product is built with algorithms adapted to various application environments and adopts multiple adjustable configurations and parameters so as to offer excellent distance measurement performances in complex application fields and scenarios
Extreme Cost Performance: Low-cost ranging LiDAR module, with 0.2-8m operating range. TF-Luna has a highly stable, accurate, sensitive range detection
Slim Figure Yet Big Skill: Small size, easy to install and integrate; light weight, suitable for scenes with strict load requirements; low power consumption, suitable for battery-powered or low-power consumption scenarios

Rank No. #2

DiGiYes 4Pcs VL53L0X Time-of-Flight (ToF) 940nm Laser Ranging Sensor Breakout GY-VL53L0XV2 Distance Measurement Module Fit for Arduino

The VL53L0X time-of-flight range sensor is a next generation laser range module. The VL53LOX is a fully integrated sensor with embedded infrared, human eye safe laser, advanced filters and ultra high speed photon detection arrays for longer range, speed and accuracy.
The VL53LOX ToF laser ranging module housed in the smallest package on the market today, providing accurate distance measurement whatever the target reflectance unlike conventional technologies. It can measure absolute distances up to 2m, setting a new benchmark in ranging performance levels, opening the door to various new applications.
The VL53LOX integrates a leading-edge SPAD array (Single Photon Avalanche Diodes) and embeds second generation flight sense patented technology.
The VL53LOX's 940nm VCSEL emitter (Vertical Cavity Surface Emitting Laser), is totally invisible to the human eye, coupled with internal physical infrared filters, it enables longer ranging distance, higher immunity to ambient light and better robustness to cover glass optical cross-talk.
The sensing capability of the VL53LOX can support a wide range of functions including gesture or proximity detection for a variety of innovative user interfaces, obstacle detection and collision avoidance systems for floor sweepers and service robots, user presence detection or power on/off monitors for home appliances and laptops, as well as drones and Internet of Things (IoT) products.

Rank No. #3

ACEIRMC 2pcs VL53L0X Time-of-Flight Flight Distance Measurement Sensor Breakout VL53L0X ToF Laser Range Finder for Arduino (Black)

1.The VL53L0X from ST Microelectronics is a time-of-flight ranging system integrated into a compact module. This board is a carrier for the VL53L0X, so we recommend careful reading of the VL53L0X datasheet (1MB pdf) before using this product.
2.The VL53L0 uses ST's FlightSense technology to precisely measure how long it takes for emitted pulses of infrared laser light to reach the nearest object and be reflected back to a detector, so it can be considered a tiny, self-contained lidar system.
3.Ranging measurements are available through the sensor's I⊃2;C (TWI) interface, which is also used to configure sensor settings, and the sensor provides two additional pins: a shutdown input and an interrupt output.
4.The VL53L0X is a great IC, but its small, leadless, LGA package makes it difficult for the typical student or hobbyist to use. It also operates at a recommended voltage of 2.8 V, which can make interfacing difficult for microcontrollers operating at 3.3 V or 5 V. Our breakout board addresses these issues, making it easier to get started using the sensor, while keeping the overall size as small as possible.
5.A time-of-flight ranging system integrated into a compact module

Rank No. #4

M18 Infrared Photoelectric Switch Sensor Easy to Install Detect Accurate Proximity Switch DC 6-36V Proximity Switch for Arduino Robot Car NPN NO

【Accurate Detection】Photoelectric switch sensor utilizes a beam blocked by the test object, detected via synchronous loop gating circuit.
【Specification】Output Form: 3 Wires; Voltage: DC 6-36V; Output State: NPN NO; Detection range: 5m±10%(198in±10%); Detection range regulation: Fixed; Response time: 1ms; Connection delay: 1.5ms; Light source: Infrared light 660nm Input Form: 2 Wires
【Application】Through-beam photoelectric sensors for automation, robot obstacle avoidance, assembly lines, 3D printers, limit, positioning, counting and speed testing in light industry, etc.
【Features】This is a photoelectric sensor integrating transmission and reception, featuring a large detection range, low interference from visible light, easy assembly, easy use, less susceptible to interference, and long service life.
Photoelectric sensors have been used as position detection, liquid level control, product counting, width discrimination, speed detection, fixed length cutting, holes recognition, signal delay, automatic door sensing, color scale detection, punching and cutting Machine and security and many other areas.

Rank No. #5

Acxico 2Sets Laser Sensor Module For Arduino AVR(KY-008 Laser Transmitter +Laser Receiver Sensor Module Non-modulator Tube)

Operating voltage: 5V
Source wavelength: 650 nm
Apply to: for Arduino AVR
Model: 1*Laser Receiver Sensor Module+ 1* KY-008 Laser Transmitter Module
Laser Receiver Sensor Module uses the non modulated laser receiver, please use in the room where without the light, the sunlight or other lamps and lanterns will interfere, suggested in the dark environment use.

SaleRank No. #6

ALAMSCN VL53L0X Time-of-Flight (ToF) Laser Ranging Sensor Breakout VL53L0XV2 Laser Flight Distance Measurement Module I2C IIC for Arduino(Pack of 4)

The VL53L0 uses ST's FlightSense technology to precisely measure how long it takes for emitted pulses of infrared laser light to reach the nearest object and be reflected back to a detector, so it can be considered a tiny, self-contained lidar system.
ST's VL53L0 module is simple and easy to use (6 valid pins), provides an I2C interface, is equipped with a full set of API drivers and technical documents, making system integration fast and simple. The module package supports the reflow soldering process, complies with the RoHS hazardous substance restriction standards, and is fully compatible with various glass covers and appearance designs.
Unlike traditional infrared proximity sensors, the color and reflected light of the target object will not affect the distance measurement results. But its effective range and accuracy largely depend on environmental conditions and target characteristics, such as reflectivity and size, and sensor configuration. (The accuracy of the sensor is specified as ±3% at the highest, and it is over ±10% under the next best conditions.)
The internal laser emits non-visible light with a wavelength of 940nm, which does not harm the eyes, eliminates the problem of distracting people from emitting red light with other infrared proximity sensors, and enhances the anti-interference performance of external light sources. The sensor's digital architecture and automatic compensation function make it still have a high performance in scenes with high ambient light intensity.
The sensing capability of VL53L0X can support various functions, including gesture sensing or proximity of various innovative user interfaces; wall detection, cliff detection, and collision detection of household appliances such as sweeping robots; bathroom products, such as faucets, soap dispensers, and Cell phones and flushers; other target applications include laptop user presence or power switch monitors, drones and Internet of Things (IoT) products.

Rank No. #7

DIYmall Benewake TFmini Plus Laser Level Distance Sensor Waterproof IP65 Lidar Range Finder UART Anti-dust 12m 1000Hz UART for Arduino Raspberry Pi STM32

Document link: http://en(dot)benewake(dot)com/support_data?catename=03c54a91-8f9a-409f-985d-37acc68f7bf4&supportid=aa1f432c-e06b-4e39-924a-7a78ac05714b
Feature: Operating range: 0.1m-12m, Range solution：5mm, FOV: 3.6 degree, Frame rate: 1-1000Hz(adjustable)
Waterproof IP65 and anti-dust
Interface: UART, I/O and IIC. Default is UART, you can send comment to set it to I/O or IIC
Application: industrial security, smart transportation, smart home, Smart Dressing Mirror, autonomous vehicles, Smart Logistics, UAV & Drone, volume detection system, Coal Volume Measuring

Rank No. #8

Stemedu 2PCS Benewake TF-LC02 Lidar Sensor Laser Range Finder Module DC 3-3.6V TTL 3cm~200cm Short Distance Sensor for Arduino for Raspberry Pi STM32

🚩 TF-LC02 is a LiDAR ranging module including a high-precision ToF sensor, and it has a built-in TDC (ie-to-digital converter) circuit. It can be used for ranging of various electronic devices such as sweepers, robots, drones and smart home products.
🚩 TF-LC02 lidar ranging module is easy to operate and install, and supports UART communication.
🚩 Measuring range: 3cm~200cm @ 90% reflectivity丨 Detection speed: 33msec丨 Accuracy:±2cm @ (3cm~100cm); ±5% @ (100~200cm)
🚩 Light source: VCSEL
🚩 This ranging module is recommended to be used in indoor ambient light conditions. Strong outdoor light will interfere with this product and cause performance degradation.

Rank No. #9

JESSINIE 2Pcs JSN-SR04T Ultrasonic Distance Measuring Module JSN-SR04T-V3.0 21~600CM 3mm High Precision Ultrasonic Distance Measure with Waterproof Sensor for Arduino

JSN-SR04T-V3.0 ultrasonic ranging module can provide a non-contact distance sensing function of 21cm-600cm, and the ranging accuracy can reach up to 3mm
This product adopts industrial-grade integrated ultrasonic probe design, waterproof type, Can be used in humid and harsh environment，stable performance.
JSN-SR04T-V3.0 is updated to version 3.0, which solves the problem of blind spot data beating and improves the stability of the product.
The module consists of an ultrasonic sensor and a control circuit that includes a transceiver, compatible with all MCU work in the market.
DC3.0-5.5V power supply range is wide, low power consumption, 6 working modes are available for customers to choose from

Rank No. #10

Coliao 5pcs Laser Sensor Module Non-Modulator Tube Laser Receiver Module with 5pcs KY-008 650nm Laser Transmitter Module

Model: Laser Receiver Sensor Module+ KY-008 Laser Transmitter Module.
Operating voltage: 5V; KY-008 source wavelength:650 nm.
Output: High level when there is laser irradiation, low level when there is no laser irradiation.
Note:This sensor uses a non-modulated laser receiver. Please use it in a place where there is no light indoors. Sunlight or other lamps may interfere. It is recommended to use it in a dark environment.
Package Content:5pcs Laser Sensor Receiver Module with 5pcs KY-008 650nm Laser Transmitter Module.

Last update on 2025-03-18 / Affiliate links / Images from Amazon Product Advertising API

How Do You Buy The Best Arduino Laser Range Sensor?

Do you get stressed out thinking about shopping for a great Arduino Laser Range Sensor? Do doubts keep creeping into your mind? We understand, because we’ve already gone through the whole process of researching Arduino Laser Range Sensor, which is why we have assembled a comprehensive list of the greatest Arduino Laser Range Sensor available in the current market. We’ve also come up with a list of questions that you probably have yourself.

We’ve done the best we can with our thoughts and recommendations, but it’s still crucial that you do thorough research on your own for Arduino Laser Range Sensor that you consider buying. Your questions might include the following:

Is it worth buying an Arduino Laser Range Sensor?
What benefits are there with buying an Arduino Laser Range Sensor?
What factors deserve consideration when shopping for an effective Arduino Laser Range Sensor?
Why is it crucial to invest in any Arduino Laser Range Sensor, much less the best one?
Which Arduino Laser Range Sensor are good in the current market?
Where can you find information like this about Arduino Laser Range Sensor?

We’re convinced that you likely have far more questions than just these regarding Arduino Laser Range Sensor, and the only real way to satisfy your need for knowledge is to get information from as many reputable online sources as you possibly can.

Potential sources can include buying guides for Arduino Laser Range Sensor, rating websites, word-of-mouth testimonials, online forums, and product reviews. Thorough and mindful research is crucial to making sure you get your hands on the best-possible Arduino Laser Range Sensor. Make sure that you are only using trustworthy and credible websites and sources.

We provide an Arduino Laser Range Sensor buying guide, and the information is totally objective and authentic. We employ both AI and big data in proofreading the collected information. How did we create this buying guide? We did it using a custom-created selection of algorithms that lets us manifest a top-10 list of the best available Arduino Laser Range Sensor currently available on the market.

This technology we use to assemble our list depends on a variety of factors, including but not limited to the following:

Brand Value: Every brand of Arduino Laser Range Sensor has a value all its own. Most brands offer some sort of unique selling proposition that’s supposed to bring something different to the table than their competitors.
Features: What bells and whistles matter for an Arduino Laser Range Sensor?
Specifications: How powerful they are can be measured.
Product Value: This simply is how much bang for the buck you get from your Arduino Laser Range Sensor.
Customer Ratings: Number ratings grade Arduino Laser Range Sensor objectively.
Customer Reviews: Closely related to ratings, these paragraphs give you first-hand and detailed information from real-world users about their Arduino Laser Range Sensor.
Product Quality: You don’t always get what you pay for with an Arduino Laser Range Sensor, sometimes less, and sometimes more.
Product Reliability: How sturdy and durable an Arduino Laser Range Sensor is should be an indication of how long it will work out for you.

We always remember that maintaining Arduino Laser Range Sensor information to stay current is a top priority, which is why we are constantly updating our websites. Learn more about us using online sources.

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The Best Arduino Laser Range Sensor of 2022 – Reviewed and Top Rated

How Do You Buy The Best Arduino Laser Range Sensor?

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