Capteurs laser à temps de vol ou à déphasage : 5 différences clés pour guider votre choix

Time-of-Flight vs. Phase-Shift Laser Distance Sensors: Which Technology Is Better for Your Application?

Détecteurs de distance à laser are essential tools across various industries, from robotics and automation to construction and arpentage. Among the most widely used technologies are Time-of-Flight (TOF) and Phase-Shift sensors. Both offer unique advantages, making them suitable for different applications. In this article, we’ll provide a detailed comparison, backed by real-world research and examples, to help you choose the best sensor for your needs.

What is Time-of-Flight (TOF) Technology?

Time-of-Flight (TOF) sensors measure distances by emitting a short laser pulse and recording the time it takes for the pulse to travel to the target and return. They excel at measuring long distances and are effective even in varying lighting conditions.

Key Research Reference:

A study by Zhang et al. (2021) discusses the accuracy of Time-of-Flight sensors in long-range industrial applications. Read more here.

What is Phase-Shift Technology?

Phase-Shift sensors, on the other hand, emit a modulated laser beam and measure the phase difference between the emitted and reflected light to calculate distance. They excel in short-to-medium range applications with high precision.

Key Research Reference:

An experiment by Smith et al. (2020) highlights Phase-Shift sensors’ superior accuracy in manufacturing automation systems. Access the study here.

Key Differences Between TOF and Phase-Shift Sensors

Parameter	Time-of-Flight Sensors	Phase-Shift Sensors
Gamme	Up to hundreds of meters	Typically up to 100 meters
Précision	Moderate at short range, excellent at long range	Highly precise at short to medium range
Environmental Resilience	Performs well in varying lighting conditions	Performs best in controlled indoor environments
Coût	Higher due to complex processing	Plus rentable

Real-World Applications

TOF Sensor Use Cases:

Autonomous Vehicles: Used for long-range obstacle détection and navigation.
Surveying and Mapping: Effective for large-scale terrain mapping projects
Découvrez notre gamme de capteurs de distance laser de haute précision et bénéficiez de solutions sur mesure pour vos besoins en matière de surveillance de l'environnement.

Phase-Shift Sensor Use Cases:

Manufacturing Automation: Ensures precision in robotic arm positioning.
Warehouse Inventory Management: Reliable for measuring stockpile heights accurately

distance laser sensors

Which Sensor is Best for Your Application?

Choose Time-of-Flight Sensors for long-range measurements in outdoor environments with variable lighting.
Choose Phase-Shift Sensors for high-precision, short-to-medium range measurements in controlled indoor settings.

For an in-depth technical breakdown, you peut refer to “Advances in Laser Sensor Technologies for Industrial Applications” by Lin et al. (Read here).

Choosing the Right Laser Distance Sensor

Both Time-of-Flight and Phase-Shift capteurs laser offer unique strengths. The choice depends on your application’s requirements—range, accuracy, environmental conditions, and budget.

If you’re unsure which technology fits your needs, feel free to contact our team for a consultation. We’ll guide you in selecting the perfect solution tailored to your specific application.

En savoir plus sur nos services de capteurs personnalisés

iToF vs dToF: Which is Better for Laser Measurement?

Plus d'articles

Meskernel Laser Distance Sensor: From Core Innovation to Global Application

Discover the story of Meskernel laser distance sensor—high-precision, low-power, and compact solutions trusted worldwide. Learn how Meskernel drives innovation in UAVs, robotics, and industrial automation.

Comment choisir le meilleur capteur de distance de mesure

Découvrez comment choisir le meilleur capteur de distance de mesure pour votre projet. Comparez les capteurs laser, ultrasoniques et TOF, et bénéficiez de conseils en matière de précision et de fiabilité.

LiDAR ou capteur de distance laser : Lequel choisir pour une mesure précise de la distance ?

Comparez les capteurs de distance LiDAR et laser pour les mesures industrielles. Découvrez ce qui convient le mieux à votre application - cartographie 3D ou mesure linéaire précise. Découvrez les capteurs laser compacts et à longue portée de Meskernel.

Choisir la bonne interface pour les modules de distance laser : UART vs I2C vs USB

Vous ne savez pas quelle interface choisir pour les modules de distance laser ? Comparez les interfaces UART, I2C et USB pour trouver celle qui convient le mieux à votre application et garantir des performances optimales du capteur.

Envoyez-nous un message

Jouer

Meskernel Laser Distance Sensor: From Core Innovation to Global Application

Comment choisir le meilleur capteur de distance de mesure

LiDAR ou capteur de distance laser : Lequel choisir pour une mesure précise de la distance ?

Choisir la bonne interface pour les modules de distance laser : UART vs I2C vs USB

Micro Laser Distance Sensor LDL-T Module 80m Range Accurate Distance Measurement

Capteur de distance laser vert 200m pour mesures en extérieur Protection IP67 Poids léger

Meskernel Laser Distance Sensor: From Core Innovation to Global Application

Comment choisir le meilleur capteur de distance de mesure

LiDAR ou capteur de distance laser : Lequel choisir pour une mesure précise de la distance ?

Choisir la bonne interface pour les modules de distance laser : UART vs I2C vs USB

Micro Laser Distance Sensor LDL-T Module 80m Range Accurate Distance Measurement

Capteur de distance laser vert 200m pour mesures en extérieur Protection IP67 Poids léger

Prendre contact

Prendre contact