Produits Huaris pour le profilage et la surveillance des faisceaux laser

// Solutions dédiées au diagnostic préventif des faisceaux laser

Découvrez les produits Huaris dans le domaine
des systèmes de profileurs de faisceau laser

// Caméra de profilage de faisceau laser

Huaris One – profileur de faisceau laser 1 Mpx

Profileur de faisceau laser basé sur une caméra de 1 mégapixel pour le diagnostic laser et la maintenance préventive. Notre entreprise est propriétaire de la marque déposée Huaris, qui désigne les profileurs utilisés pour caractériser la qualité des faisceaux laser. Nous sommes fabricants de profileurs de faisceau laser alimentés par l’intelligence artificielle.

// Caméra de profilage de faisceau laser

Huaris Five – profileur de faisceau laser 5 Mpx

Profileur de faisceau laser basé sur une caméra de 5 mégapixels pour le diagnostic laser et la maintenance préventive. Notre entreprise est propriétaire de la marque déposée Huaris, qui désigne les profileurs utilisés pour caractériser la qualité des faisceaux laser. Nous sommes fabricants de profileurs de faisceau laser alimentés par l’intelligence artificielle.

// Profileur de faisceau laser + tablette

Huaris One Mobi – kit de profileur de faisceau laser à distance

Huaris One Mobi se compose de deux éléments principaux : le profilomètre de faisceau laser Huaris One et une tablette 7″ avec le logiciel nécessaire. Au moment de la livraison au client, l’ensemble est entièrement préparé et configuré pour le fonctionnement. Il suffit de connecter l’alimentation pour commencer les mesures.

// Profileur de faisceau laser + tablette

Huaris Five Mobi

Huaris Five Mobi se compose de deux éléments principaux : le profilomètre de faisceau laser Huaris Five et une tablette 7″ avec le logiciel nécessaire. Au moment de la livraison au client, l’ensemble est entièrement préparé et configuré pour le fonctionnement. Il suffit de connecter l’alimentation pour commencer les mesures.

// Système de surveillance à distance

HLC – Huaris Laser Cloud alimenté par l’IA

Le système Huaris Laser Cloud est la première solution au monde utilisant l’apprentissage automatique pour automatiser le diagnostic des faisceaux laser. Nous avons rendu les lasers enfin gérables à distance. Huaris Laser Cloud est la première implémentation de la maintenance préventive dans les systèmes laser. Le système est protégé par brevet.

// Wattmètre laser

HS2515-U

Le wattmètre laser portable HS2515-U est un appareil précis et fiable destiné à la mesure de la puissance laser dans une plage de 10 mW à 15 W. Il prend en charge différentes longueurs d’onde, niveaux de puissance et énergies d’impulsion. Grâce à sa construction robuste et à ses mesures précises, le wattmètre laser HS2515-U est un outil essentiel pour les professionnels des technologies laser.

« Nous croyons à la haute technologie et à son impact social ! »

CEO-Founder of Perspectiva Solutions

// Solutions intégrées pour le profilage de faisceau laser

Logiciels compatibles avec le système Huaris

Les profilomètres de la gamme Huaris s’intègrent parfaitement avec le logiciel Huaris Profiling Desktop et Huaris Laser Cloud, offrant un écosystème logiciel convivial et complet, conçu pour un profilage précis et efficace. Le wattmètre Huaris HS2515-U est équipé des logiciels dédiés Huaris Power Meter Manager et Huaris Laser Cloud.

Huaris Profiling Software

Huaris Laser Cloud AI System

Huaris Laser Power Meter

// Profileur de faisceau laser apprécié par les ingénieurs

Le système Huaris est finaliste de l’Innovation Award

Le système HUARIS, basé sur l’IA (intelligence artificielle) pour la maintenance préventive des lasers, est finaliste dans une catégorie de l’Innovation Award au salon Laser World of Photonics à Munich en 2022. Perspectiva Solutions a été reconnue pour le système Huaris comme l’une des 101 startups et entreprises les plus innovantes en apprentissage automatique en Pologne.

Selon Data Magazine au Royaume-Uni, notre entreprise a été reconnue comme l’une des entités les plus innovantes en Pologne dans le domaine du machine learning !

// Kit portable d’analyse de faisceau laser

Huaris Mobi – solutions de diagnostic de faisceau laser

Huaris Mobi est le premier profileur de faisceau laser mobile. Il permet d’effectuer efficacement des fonctions de diagnostic tout en économisant de l’espace dans les laboratoires laser.

Huaris Mobi est un instrument de mesure complet composé de deux éléments :

profileur de faisceau laser Huaris One ou Huaris Five,
tablette 7 pouces avec logiciel préinstallé, configuré et calibré.

Prêt pour le profilage de faisceau laser dès la sortie de la boîte

Le profileur de faisceau laser Huaris permet d’effectuer efficacement des fonctions de diagnostic tout en économisant de l’espace dans les laboratoires laser. Le produit est léger et prêt à l’emploi dès la sortie de l’emballage. Il évite l’utilisation d’un ordinateur standard. Toutes les fonctions nécessaires au diagnostic laser sont incluses dans le kit. De plus, une tablette 7 pouces assure la communication avec le Laser Cloud.

profilage de faisceau laser à distance

La surveillance à long terme du faisceau laser
permet de prédire efficacement les pannes laser

// Intelligence artificielle pour les systèmes laser

Système Huaris Laser Cloud AI pour la surveillance laser à distance

Alimenté par l’intelligence artificielle
Surveillance du faisceau à distance
Surveillance à long terme des paramètres du faisceau laser
Alarmes automatiques
Suggestions d’actions de maintenance préventive
Support à distance par des ingénieurs expérimentés
Source centralisée d’informations techniques
Pour les propriétaires de lasers et le personnel de maintenance

Le système Huaris est devenu finaliste de l’Innovation Award lors du salon Laser World of Photonics à Munich en 2022.

Read Most Frequent Questions
about laser beam profilers

What is laser beam profile?

A laser beam profile refers to the two-dimensional intensity distribution of a laser beam as it propagates through space. It is a graphical representation of the spatial characteristics of the laser beam, which can be measured using a laser beam profiler. The beam profile can provide information about the shape, size, and power density of the laser beam, as well as its uniformity and symmetry. It is an important parameter to consider in various laser applications, such as laser material processing, medical procedures, and scientific research.

What does a laser beam profile do?

A laser beam profiler is a device that measures the spatial intensity distribution of a laser beam. It provides valuable information about the beam’s size, shape, and power density, which are essential for optimizing laser performance and ensuring that it is suitable for its intended application. By analyzing the beam profile, users can make adjustments to the laser system, such as adjusting the optics, to achieve the desired beam quality and performance.

What is laser profiling?

Laser profiling is the process of measuring and analyzing the spatial characteristics of a laser beam, such as its beam profile, intensity distribution, size, shape, and divergence. Laser profiling is essential for optimizing laser-based systems and applications, such as laser material processing, medical and scientific research, telecommunications, and more. It helps to ensure that the laser beam is focused, collimated, or diverged to the required specifications, and that its properties remain stable and consistent over time. Laser profiling can be performed using various techniques, such as scanning slit, knife-edge, beam profiling cameras, and more.

Why laser beam quality is important?

Laser beam quality is important because it affects the performance of a laser in various applications. A laser beam with high quality has a low divergence angle, which means that the beam can be focused to a smaller spot size, providing higher power density at the target. This makes it possible to process materials more precisely and efficiently, as well as to achieve longer ranges and higher resolution in laser sensing and imaging applications. In addition, a laser beam with high quality is less prone to distortion, which results in a more stable and consistent output power over time, improving the reliability and repeatability of laser-based processes. Therefore, understanding and controlling laser beam quality is crucial for achieving optimal performance in many laser applications.

What is perfect laser beam?

A perfect laser beam refers to a beam of laser light that has ideal characteristics, such as a uniform intensity distribution, a well-defined beam size, and a stable and consistent output power. It also has high spatial and temporal coherence, which means that the phase and frequency of the light wave are the same for all points in the beam over time and space. A perfect laser beam is essential for many laser applications, such as in manufacturing, materials processing, medicine, and scientific research, as it ensures precise and accurate results. Perfect beam has also very high beam pointing stability. Which means that beam does not move in space in time.

How often between laser sessions?

The recommended time between laser sessions depends on the specific laser treatment and individual factors such as skin type and the area being treated. In general, laser treatments for hair removal are typically spaced 4 to 6 weeks apart, while laser treatments for skin rejuvenation may be spaced 2 to 6 weeks apart. However, it’s important to consult with a qualified laser specialist or dermatologist who can provide personalized recommendations based on your unique needs and goals.

How laser beam is produced?

A laser beam is produced by a process called stimulated emission. This process occurs when atoms, molecules, plasma or free electrons called a gain medium are excited to a higher energy level, typically through the input of electrical energy or light. When one of these excited atoms or molecules spontaneously emits a photon, it triggers other excited atoms or molecules to emit photons in phase with the first photon. The result is a cascade of photons that are coherent and monochromatic, meaning they are all in phase with each other and have the same wavelength. These photons bounce back and forth between two mirrors, creating an amplification effect that produces a high-intensity laser beam that can be used for various applications.

What is laser beam profiler?

A laser beam profiler is a device that measures the spatial distribution of a laser beam. It is used to analyze the characteristics of a laser beam such as its size (width), shape, divergence, and uniformity. This information is crucial for optimizing the performance of laser-based systems, such as laser cutting, welding, and drilling. Laser beam profilers typically use imaging sensors, such as cameras or CCD / CMOS arrays, to capture the laser beam profile, and software to analyze and display the data.

Who invented laser beams?

Laser beams were invented by a team of scientists led by Theodore H. Maiman at Hughes Research Laboratories in California in 1960.

What is the difference between laser in-line profiler and laser beam profiler

The main difference between a laser in-line profiler and a laser beam profiler is the way they are used and the type of measurements they make. A laser in-line profiler is typically used in industrial settings to measure the dimensions and shape of objects as they move along a production line. It uses a laser to create a line of light that is projected onto the object, and a camera captures the image of the line or a laser beam spot. The shape of the object can then be determined by analyzing the distortion of the projected line. This type of measurement is useful for ensuring the quality of manufactured parts and detecting defects. On the other hand, a laser beam profiler is used to measure the characteristics of a laser beam itself, such as its shape, intensity, and focus. It may use a camera to capture an image of the laser beam intensity distribution, which is then analyzed to provide information about the beam’s properties. This type of measurement is useful to evaluate the quality of the beam or the laser performance. For more information about the laser beam profiling check our article here (https://www.laser-beam-profile.com/laser-beam-profile-what-is-it/) and for more information about the evaluation of the laser beam quality check this article (https://www.laser-beam-profile.com/laser-beam-quality-evaluation/)

Laser beam profile classification

Laser beam profiles can be classified into several types, including:

Gaussian beam profile: a bell-shaped intensity profile, which is the most common type of laser beam profile.
Top-hat beam profile: a flat-top intensity profile, which is useful for applications where a uniform intensity is required over a certain area.
Super-Gaussian beam profile: a higher order Gaussian beam profile that has a flatter top and steeper edges.
Bessel beam profile: a non-diffracting beam profile that maintains its shape over long distances.
Doughnut beam profile: a beam profile that has a dark spot in the center and a bright ring around it.
Multi-mode beam profile: a beam profile that has multiple intensity peaks, which is common in lasers with large diameter gain media.
Elliptical beam profile: a beam profile that has a non-circular shape, which can occur due to misalignment or aberrations in the laser optics.

The choice of laser beam profile depends on the specific application requirements, such as beam quality, intensity distribution, and focusability.

How beam quality impacts cutting process?

Beam quality is a critical factor that impacts the cutting process in laser cutting machines. A perfect laser beam with high beam quality produces a tightly focused beam with a small spot size, high power density, and low divergence. This allows the laser to cut with precision, speed, and accuracy, resulting in clean and smooth cuts with minimal heat-affected zones (HAZ) and minimal material waste.

In contrast, low beam quality results in a larger spot size, low power density, and high divergence. This leads to slower cutting speeds, inaccurate cuts, and rough edges with a significant HAZ. In addition, low beam quality also requires higher laser power, resulting in increased operating costs and reduced machine lifespan.

Therefore, having high beam quality is essential for achieving optimal cutting performance, reducing operating costs, and improving overall machine efficiency.

How beam quality impacts welding process?

Beam quality can have a significant impact on the welding process. A high-quality laser beam can result in a stable and consistent weld, with a narrow and well-defined weld bead. This is because a high-quality beam will have a small and uniform spot size, which allows for precise control over the heat input and reduces the amount of distortion or warping in the material being welded.

On the other hand, a low-quality beam can result in an inconsistent weld, with a wider and less defined weld bead. This is because a low-quality beam will have a larger and less uniform spot size, which can lead to uneven heating and poor penetration into the material. This can result in a weaker weld with a higher risk of defects such as cracking or porosity.

Therefore, ensuring a high beam quality is crucial for achieving a successful welding process with high-quality and reliable results.

Are laser beams real?

This may be a funny question for some, but it is asked quite often when searching for topics about laser beams.

Yes, laser beams are real. They are a physical phenomenon produced by a device called a laser, which emits coherent, collimated light. Laser beams have a wide range of practical applications in various fields, including medicine, manufacturing, communications, and entertainment.

// Presentation - Huaris laser beam profiler system

Webinar of Huaris System
- Innovation Award Shortlist Quantum category + Sensors

The webinar presenters were the finalists of the Innovation Award of Laser World of Photonics event in Munich this year in the metrology category. Perspectiva Solutions representatives had show how do we address the problem of long downtimes and automatic, remote monitoring of laser systems using artificial intelligence.

Presentation of the Huris system by Perspectiva Solutions for Electro Optics – Subject :

« Artificial intelligence in predictive maintenance of the laser systems »

Go to Huaris
YouTube channel

Contact Us

We would be grateful for your feedback about the product. Also, if you would like to receive quotation for our product, please use the contact form below.

Our Office in Poland

Perspectiva Solutions
Młyńska 27 St.
22-400 Zamość, Poland

We work on working days CET (Central European Standard Time) in the following hours:

Md. – Fr. 8:00 – 16:00
Sat. – Sun. – Closed

Free Consultation

Huaris inquiries:

info@perspectivasolutions.com

Phone inquiries:

(+48) 730 709 490

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Produits de profilage de faisceau laser

Découvrez les produits Huaris dans le domaine des systèmes de profileurs de faisceau laser