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  • Thermal Inspection prevents potential US$43.2M losses!

    Maximizing Pipe Integrity with Expert Thermographic Services: A Tailings Pipeline Success Story.

    Ensuring the integrity of pipes in industrial systems is critical to maintaining smooth operations, preventing costly repairs, and avoiding unexpected shutdowns. Expert thermographic services offer a non-invasive, reliable solution for identifying pipe integrity issues across various applications, all while keeping production activities running as normal.

    Thermographic inspections use infrared imaging to detect abnormal heat patterns, indicating potential weaknesses such as blockages, leaks, or worn sections in pipes. This technique is highly effective, as it can be applied without halting production or disrupting workflows, making it an ideal option for industries relying on continuous operation.

    Yellotec Service Division’s Tailings Pipeline Success.

    Recently, Yellotec Service Division partnered with a client to address the challenges of maintaining a tailings pipeline that carries slurry to a tailings dam. The goal was to develop an inspection regime that could be implemented during normal production, providing early detection of potential issues without requiring a complete shutdown.

    Through thermographic inspection, Yellotec’s experts identified areas of concern in the pipeline that could have led to significant failures. This proactive approach enabled the client to make minor repairs during a planned shutdown, significantly minimizing maintenance costs and downtime.

    The results were impressive: the inspection regime helped the client avoid potential losses and repair costs of US$43.2 million. By addressing issues early, the client was able to safeguard their operations and protect their bottom line.

    Thermographic Services for Proactive Pipeline Maintenance.

    With expert thermographic services, companies can detect pipe issues before they escalate into major problems. This case study highlights the benefits of partnering with professionals who have the skills and technology to keep your operations running smoothly while avoiding unnecessary risks and costs.

  • Navigating EU Regulations-2024: Mitigating Fugitive Gas Emissions

    Join us for an informative webinar on managing fugitive gas emissions in response to evolving regulations.

    As governments strengthen environmental standards, companies are under increasing pressure to reduce emissions and avoid substantial fines.In this session, industry experts will discuss the latest technologies for monitoring, detecting, and mitigating fugitive emissions. We will highlight the importance of proper record-keeping, which ensures your organisation meets regulatory requirements and is well-prepared for future audits and inspections.

    Date and Time:

    • Thursday, 14 November 2024
    • 14h00 SAST

    Recording and Presentation will only be available for Registered Participants

    Agenda:

    • Welcome & Introduction
    • What is FGE, LDAR, VOC, OGI
    • New Regulation Relating to FGE
    • Case Study: Measure, Control & Record Keeping
    • New Monitoring Methods & Technologies
    • Q&A Session


    Register Now

    Featuring Panel of Speakers:

    Reynhard Heymans

    Reynhard Heymans // Yellotec

    Reynhard Heymans, as a young electrical engineer, was introduced to Thermal Imaging Cameras in 1997 by the legendary Tjaart Broodryk.

    Over the subsequent 18 years, his ardor for Condition Based Maintenance became evident through its diverse applications, encompassing electrical, mechanical, refractory, enterprise risk management, and more. In 2016, he earned a Masters Degree in Business Administration, strategically positioning himself for a transition into New Business Development. Throughout his career evolution, he has maintained valuable partnerships with prominent Global OEM companies like Atten2, Teledyne FLIR, FLUKE Reliability, and other. Even after more than 25 years, Reynhard Heymans continues to be driven by a passion for pioneering tools and methodologies aimed at enhancing overall equipment effectiveness and reducing operational costs for his clients.

    Johan Van Vurren Bio Image

    Johan Van Vuuren // Yellotec

    Johan Janse van Vuuren is an accomplished Registered Engineering Technician registered with (ECSA) with a career spanning over three decades in electrical maintenance and thermography. His journey began as an apprentice in the gold mines of South Africa, where he honed his skills in electrical and mechanical disciplines. In 1992, Johan earned his National Diploma in Electrical and Mechanical Engineering, solidifying his expertise in the field.

    Driven by a passion for continuous learning, Johan furthered his education by completing the Middle Management Programme at Northwest University in Vanderbijlpark. His career took an exciting turn when he was introduced to thermography, a cutting-edge field that uses infrared technology and gas detection to detect issues in electrical, mechanical, and petrochemical facilities. As a certified Level III Thermographer (ITC & ISO 18436-7), Johan became a pioneer in the use of GasfindIR (OGI) cameras in South Africa. In 2007, he became the first technician in the country trained to use and sell these advanced cameras, which play a crucial role in reducing VOC emissions and enhancing predictive maintenance programs.

    Johan joined Yellotec in 2007, where he serves as a Sales Engineer and a key trainer for Optical Gas Imaging (OGI) gas detection courses. His expertise, dedication, and leadership in the field have made him a trusted figure in the application of thermography technology for maintenance in various industries, including electrical, mechanical, and petrochemical sectors.

  • Azima DLI

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    AI-powered vibration analytics and remote condition monitoring that you can rely on. Azima DLI helps you move from reactive to predictive maintenance.

    Predict Failures Months Before They Happen

    In today’s fast-paced industrial landscape, equipment reliability is critical to maintaining efficiency and avoiding costly downtime. With the advent of AI-enabled vibration diagnostics, you can now foresee and avert issues well before they arise. This advanced technology pinpoints faults, predicts time-to-failure, and recommends corrective action, transforming your maintenance strategy from reactive to proactive.


    The Most Advanced Diagnostic Engine Available

    Our AI-powered diagnostic engine is the most sophisticated in the industry, leveraging 30 years of maintenance data. It analyzes over 100 trillion data points across 50 different machinery component types to deliver precise and accurate maintenance analysis. This level of insight allows you to identify potential failures months before they occur, ensuring your operations remain smooth and uninterrupted.

    World-Class Vibration Experts

    Our team of ISO Level II-IV trained analysts, armed with cutting-edge AI tools, are five times more efficient than traditional analysts. This combination of human expertise and AI precision ensures that you receive the most accurate diagnostics and maintenance recommendations. Our experts are dedicated to helping you optimize your machinery’s performance and extend its lifespan.


    Rapid Time-To-Value

    One of the standout features of our AI-enabled vibration diagnostics is the rapid time-to-value. Unlike competitors who require a lengthy 12-18 month setup period, we provide accurate, actionable results from day one. We can get your first machine online within 24 hours, allowing you to immediately benefit from reduced downtime and improved efficiency.

    More Uptime, Lower Costs

    Our solution has helped customers reduce major faults by 90%, lower vibration program costs by 30%, and boost production capacity by 2%. By implementing our advanced diagnostics, you can achieve similar results, leading to more uptime, lower maintenance costs, and increased production output.


    Enterprise Reporting

    Demonstrate the return on investment (ROI) of your reliability program with our comprehensive enterprise reporting. Our executive-level reports detail key saves, identify blind spots, and assess production risks, providing you with a clear picture of your program’s effectiveness and areas for improvement.

    With AI-enabled vibration diagnostics, you can predict failures months before they happen, ensuring your operations remain efficient and cost-effective. Experience the benefits of the most advanced diagnostic engine, world-class expertise, rapid deployment, and comprehensive reporting. Transform your maintenance strategy today and secure a future of uninterrupted productivity.

    Related Product:

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    Azima Watchman AirAccel 310

    Wireless vibration with actionable diagnostics.

    High resolution data allows for the detection of more machine faults, giving users better insights to emerging problems and root causes.

    The Expert Automated Diagnostic System can identify 1,200+ unique fault types on 50+ common machine components using over 6000 diagnostic rules, providing prioritized recommended repair actions on machines meeting the below criteria:

    Prime mover speed from 300 RPM to 6000 Rpm.

    Download Datasheet

  • Electra Mining Africa

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    Visit our stand at Electra Mining 2024: Showcasing Yellotec’s Machine Health and Reliability Solutions.

    Yellotec strives to offer the most effective and efficient technology in all machine health and reliability monitoring equipment. We are excited to announce our participation in the Electra Mining 2024 event, taking place from 2 – 6 September 2024 at the Johannesburg Expo Centre. This premier mining, industrial, construction, and electrical trade show provides a unique platform for industry leaders to showcase cutting-edge technologies, solutions, and services.

    At Electra Mining, Yellotec will present its latest innovations and demonstrate how our solutions can help clients improve efficiency, safety, and sustainability in their operations. We invite all attendees to visit our booth and learn more about how our solutions can meet the evolving needs of the mining and industrial sectors. For more information or to schedule a meeting with our team at the event, please contact info@yellotec.com.

    Date: 2 – 6 September 2024
    Time: 09:00-17:00
    Venue: Johannesburg Expo Centre
    Yellotec stand: Hall 5, D1


    Register to Electra Mining 2024

    Some of our innovative highlights at the exhibition this year will include:

    Ranked as one of the world’s largest mining shows and the biggest mining, manufacturing, automation, electrical, and power trade show in Southern Africa, Electra Mining Africa has a proven track record of driving sales, generating leads, and building brand awareness. They say the trick to seeing the future is knowing where to look. With nearly five decades of accumulated experience since its inaugural show, Electra Mining Africa has built a reputation for being a trade show that adapts to changing times and consistently delivers a strong return on investment for exhibitors, even during challenging economic conditions.

    Yellotec History at Electra Mining

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    Electra Mining 2010

    Electra mining 2012
    Electra Mining 2012

    Electra Mining 2014
    Electra Mining 2014

    electra mining africa 2016
    Electra Mining 2016

    Electra Mining 2018

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    Electra Mining 2022

  • Stator Looseness identified with Electrical Motor Testing

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    Join the Yellotec Webinar and learn how advanced Electrical Motor Testing and Analysis helped a Petrochemical Plant identify potential failures caused by stator looseness.

    Motor Circuit Analysis enables easy detection of pending equipment failure and root causes. Unplanned downtime can be extremely costly, with potential losses reaching up to $22,000 per minute.

    Date and Time:
    • Thursday, 15 August 2024
    • 14h00 SAST

    Recording and Presentation will only be available for Registered Participants

    Agenda:
    • What is Motor Circuit Analysis
    • Why do Motor Circuit Analysis
    • New Technologies for Motor Circuit Analysis
    • Case Study: Detecting Stator Looseness
    • Q&A Session

    Join industry-leading speakers from Yellotec and ALL-Test Pro to gain expert insights into the latest advancements and practical applications in motor diagnostics. This session is designed for professionals seeking to enhance their understanding and skills in Motor Circuit Analysis (MCA) and Electrical Signature Analysis (ESA) to improve reliability.

    Featuring Panel of Speakers:
    Reynhard Heymans
    Reynhard Heymans // Yellotec

    Reynhard Heymans, as a young electrical engineer, was introduced to Thermal Imaging Cameras in 1997 by the legendary Tjaart Broodryk.

    Over the subsequent 18 years, his ardor for Condition Based Maintenance became evident through its diverse applications, encompassing electrical, mechanical, refractory, enterprise risk management, and more. In 2016, he earned a Masters Degree in Business Administration, strategically positioning himself for a transition into New Business Development. Throughout his career evolution, he has maintained valuable partnerships with prominent Global OEM companies like Atten2, Teledyne FLIR, FLUKE Reliability, and other. Even after more than 25 years, Reynhard Heymans continues to be driven by a passion for pioneering tools and methodologies aimed at enhancing overall equipment effectiveness and reducing operational costs for his clients.

    Riaan Greeff bio image
    Riaan Greeff // Vaal University of Technology

    Mr. Riaan Greeff – Vaal University of Technology, Consultant to Specialised Equipment and Technology Solutions (Pty) Ltd. (SETS)

    Born in Umtata, Transkei, in 1973, Riaan Greeff has been passionate about electrical and electronic technology since childhood. He excelled in Technical Electronics in high school and earned his B.Tech in Engineering with honors from Vaal Triangle Technikon in 1995.

    Mr. Greeff has worked at the Vaal University of Technology since 1996, supporting research and innovation in electronic engineering. Over his 27-year career, he has held roles as a technician, lecturer, consultant, and examiner, and served as Coordinator for the French South African Schneider Electric Education Centre (F’SASEC).

    Currently, Mr. Greeff is a Master of Engineering candidate at the University of Johannesburg, focusing on the statistical analysis of circuit breakers.

  • IRT Application Series: Tank Level Inspection

    Using thermal imaging to see the liquids, solids and foam levels inside a tank.

    The Challenge

    Accurate tank level gauging in the oil and gas industry is a necessity. Maintenance teams need to be able to:

    • Check on product/by-product levels
    • Determine presence of interfaces between liquids, liquids/solids and emulsions.
    • Calculate tank flow rates
    • Calculate existing volume and remaining tank capacity
    • Estimate current product value, or calculate offloading requirements for transport

    Traditional methods (dip-sticking and strapping) are dangerous and inaccurate.

    The Solution

    Thermal imaging can be done from a safe distance, and eliminates any need for direct contact. Very small internal temperature differences between liquids, solids, foams and vapours can be visually detected on the tank exterior. Such inspections can be carried out by utilising either the FLIR ONE Pro, which attaches to a smartphone and couples with an app to calculate tank volumes. Alternatively, a FLIR E-Series can be used where inspection can only be carried out at a safe distance, or higher thermal resolution is required.

    The Result

    Unlike traditional inspection methods, thermal imaging allows level and volumes of products/bi-products to be safely and accurately determined. Users will be able to see uneven levels such as sludge accumulation, thereby preventing sludge being sucked into pumps, and also calculate lost tank capacity from sludge build up. This further allows planning for sludge removal during shutdown – reducing downtime, costs, and improving reliability. 

    The Importance of Tank Level Gauging in the Oil and Gas Industry

    Tank level gauging is a necessity for various applications in the oil and gas industry. Accurate monitoring of tank levels can help maintenance teams avoid tank overflows, calculate tank flow rates, and optimize storage capacity.

    Benefits of Thermal Imaging for Tank Level Gauging

    Thermal imaging is an advanced technology that allows oil and gas companies to gauge tank levels without direct contact. This non-intrusive method provides several advantages:

    • Safety and Efficiency: By eliminating the need for physical contact, thermal imaging reduces the risk of accidents and improves the efficiency of the gauging process.
    • Precision in Measurement: Thermal imaging can detect small changes in temperature, which is crucial for distinguishing between liquids or solids of varying densities. This precise measurement is essential for managing materials with specific heat characteristics.
    • Early Detection of Anomalies: Thermal imaging can identify temperature anomalies that may indicate potential issues, allowing for early intervention and maintenance before problems escalate.

    In conclusion, integrating thermal imaging into tank level gauging processes offers significant benefits for oil and gas operations. It enhances safety, accuracy, and overall efficiency, making it an invaluable tool for the industry.

  • Tackling Fugitive Gas Emissions Conference: Regulations, Innovations, and Future Directions

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    Join us at the Conference on Fugitive Gas Emissions (FGE’s), a premier event bringing together leading experts, policymakers, and industry professionals to address the pressing issue of FGE’s.

    Conference Details: 

    Date: 14th and 15th October 2025
    Place: Cape Town (Venue to be confirmed)
    Cost: $980 per delegate
    Travel & Accommodation for own account

    QUALIFY NOW FOR THE EARLY REGISTRATION DISCOUNT

    Book your seat at before Friday, 6 September 2025, and receive an Early Registration Discount of 50% from cost.

    The 2024 amendments to Regulation (EU) 2019/942 are revolutionising how we tackle fugitive gas emissions in the energy sector. This conference will delve into the latest requirements mandating the use of optical gas imaging (OGI) cameras in Leak Detection and Repair (LDAR) programs.

    Over two insightful days, participants will explore the latest advancements in detection technologies, regulatory frameworks, and mitigation strategies. Engage in thought-provoking discussions, gain practical knowledge from real-world case studies, and discover innovative solutions aimed at reducing FGE and protecting our environment. Don’t miss this opportunity to be at the forefront of FGE management and contribute to a sustainable future.

    Download Info Sheet
    View New Regulations


    Agenda:

    Day 1: Understanding FGE, Regulatory Frameworks, and Detection Technologies.

    Morning Sessions:

    1. Introduction to Fugitive Gas Emissions:Overview, significance, and impact on the environment and public health.
    2. Global and Regional Regulatory Frameworks: Examination of current legislation, compliance requirements, and future trends in FGE regulation.
    3. Health and Safety Considerations:Addressing the health and safety impacts of FGE and strategies to protect workers and communities.

    Afternoon Sessions:

    1. Mitigation and Reduction Strategies: Overview of techniques and practices to reduce FGE, including equipment upgrades and leak repair methodologies.
    2. Renewable Energy and FGE Reduction:Exploring how renewable energy sources can help in reducing FGE and transitioning to a lower carbon future.
    3. Training and Awareness: Overview of available training and certification as well as discussion on awareness levels needed depending on the profession.
    4. Case Studies on Mitigation Successes:Examples of successful mitigation strategies and the lessons learned.
    5. Panel Discussion:Industry Best Practices: A discussion with industry experts on overcoming challenges in FGE detection and compliance.

    Day 2: Mitigation Strategies, Case Studies, and Future Directions.

    Morning Sessions:

    1. Advancements in Detection Technologies: Emerging technologies in detecting FGE, including drones, infrared cameras, and satellite monitoring.
    2. Quantification Methods and Challenges: Techniques for quantifying FGE and the challenges involved in accurate measurement.
    3. Data Management and Analytics: Utilizing data for better decision-making, predictive analysis, and trend identification in FGE monitoring.
    4. Case Studies on FGE Detection: Real-world examples of successful detection and management strategies.

    Afternoon Sessions:

    1. Innovations in FGE Mitigation: Future technologies and innovations aimed at reducing FGE emissions more efficiently.
    2. Regulatory Compliance and Reporting: Best practices for ensuring compliance with regulatory requirements and effective reporting.
    3. Panel Discussion: The Future of FGE Management: Insights into the future challenges and opportunities in FGE management.
    4. Workshop: Using Detection Technologies: Hands-on session with the latest tools and technologies for FGE detection.

    Please complete the form below to request registration or to receive more information.

    Be sure to include what you’re specifically interested in within the Message field so we can better assist you.

  • Ensuring Compliance with the EU Methane Regulation – EU 2019/942

    The 2024 amendments to Regulation (EU) 2019/942, now part of Regulation (EU) 2024/1106, bring significant changes to Leak Detection and Repair (LDAR) programs in the EU’s energy sector. 

    The Oil & Gas Methane Partnership 2.0 (OGMP 2.0) is the flagship oil and gas reporting and mitigation programme of the United Nations Environment Programme (UNEP). It is the only comprehensive, measurement-based international reporting framework for the sector. 

    Test conducted on the Flir Gx320 and Gx620 Intrinsically Safe dual use optical gas imaging cameras, exhibit the ability to image gasses, with emission rates of 17g/h and 18g/h from a distance of 2m, with air/background temperatures and calm wind conditions taken into consideration. Methane and Propane gasses which are commonly found at petrochemical facilities were tested. Both cameras met the EPA Appendix K, section 6 standards both in Normal and patented HSM modes for finding small leaks faster. 

    Both cameras have MWIR detectors spectrally filtered to see methane and volatile organic compounds (3.2 to 3.4 μm). They also complies with U.S: EPA OOOOa and Appendix K Regulations. The cameras also have quantification analytics onboard to do immediate leak detection rates onsite. 

    EPA-0000a Compliance Certificate
    Regulation (EU) 2019/942 Certificate

    EU’s 2024 Methane Emission Regulations: A Major Step Towards Cleaner Energy

    In a significant move to combat climate change and stabilize energy markets, the European Union has updated Regulation (EU) 2019/942 to address methane emissions from the energy sector. Let’s break down the key aspects of these new regulations, which came into force in April 2024.

    The Path to Regulation

    The journey began in September 2023, with the European Parliament’s committee adopting a negotiating position. By November 2023, an informal agreement was reached, leading to formal endorsements by the European Parliament and the Council in early 2024. The regulation was signed into law on April 11, 2024, and published in the Official Journal on April 17, 2024. This rigorous process highlights the EU’s commitment to effective climate action.

    Tackling Methane Emissions

    Central to the new regulation is a heightened focus on reducing methane emissions, a potent greenhouse gas. The EU emphasizes robust Leak Detection and Repair (LDAR) programs to find and fix leaks quickly, aligning with its broader climate goals and the Methane Strategy.

    Strengthened Monitoring and Reporting

    Energy companies now face stricter monitoring and reporting requirements. They must promptly detect and repair methane leaks, ensuring transparency and accountability in their operations. These measures are aimed at minimizing the environmental impact and promoting sustainable practices within the sector.

    Integration with Market Rules

    The regulation also aligns energy market rules with financial market legislation, strengthening the enforcement of market manipulation laws. This integration ensures that companies uphold high standards of operational and environmental integrity, indirectly supporting effective LDAR programs.

    Protecting Consumers and Markets

    Enhanced LDAR programs are crucial for preventing large-scale methane leaks, which can disrupt energy markets and cause significant economic and environmental damage. By mitigating these risks, the EU aims to protect consumers and ensure a stable energy market.

    A Greener Future

    The 2024 amendments to Regulation (EU) 2019/942 reinforce the EU’s commitment to reducing greenhouse gas emissions and fostering a transparent, sustainable energy sector. These changes are a vital part of the EU’s broader strategy to tackle climate change and ensure market stability.

    With these updates, the EU sets a strong example for integrating environmental responsibility with economic stability, paving the way for a sustainable energy future.

  • Advanced Motor Diagnostics with ATPOL III™ and ALL-TEST PRO 7™ Professional

    In the realm of motor diagnostics, two standout tools are revolutionizing the industry: the ATPOL III™ Power Quality and Motor Analyzer and the ALL-TEST PRO 7™ Professional.

    These devices offer unparalleled capabilities for ensuring the health and efficiency of motors, transformers, and generators, making them indispensable for industrial maintenance and reliability professionals.

    ATPOL III™ Power Quality and Motor Analyzer
    • Dual Functionality: Acts as both a Power Quality Analyzer (PQA) and Electrical Signature Analyzer (ESA).
    • Rapid Testing: Delivers comprehensive assessments in just 60 seconds.
    • Data Logging: Extensive data tracking, including energy usage, harmonic analysis, and voltage/current charting
    • Early Fault Detection: Identifies issues early to prevent motor failure.
    • Versatile Analysis: Evaluates incoming power, control circuits, and driven loads.
    • Robust Software: ESA software for tracking, trending, and reporting motor conditions.
    • High Compliance: Meets CAT III 1000V and CAT IV 600V safety ratings.
    • Comprehensive Testing: Assesses both electrical and mechanical efficiencies of AC/DC motors, generators, and transformers.

    ALL-TEST PRO 7™ Professional
    • Comprehensive Testing: Suitable for AC and DC motors, generators, and transformers.
    • Quick and Efficient: Conducts tests in less than 3 minutes.
    • Advanced Troubleshooting: Features like the Z/θ Test for identifying specific motor issues.
    • Condition Monitoring: Allows continuous monitoring and trending of motor health.
    • Custom Reporting: Generates detailed, tailored reports.
    • Patented Technologies: Uses TVS™ and Stator and Rotor Signatures™ for precise diagnostics.
    • Multi-functional Analysis: Detects a variety of faults, including stator, rotor, ground, winding faults, and open connections.
    Why These are Essential:

    Both ATPOL III™ and ALL-TEST PRO 7™ Professional are designed to enhance productivity, ensure safety, and provide accurate diagnostics. They are built to withstand industrial environments, making them ideal for field and on-site applications.

    By incorporating the ATPOL III™ and ALL-TEST PRO 7™ Professional into your maintenance toolkit, you ensure that your motors and electrical equipment are in optimal condition, reducing downtime and improving overall efficiency.

    Yellotec offer a comprehensive range of products and services for Motor Circuit Analysis, Electric Motor Testing, Electrical Signature Analysis, and other.

  • Introducing the Next Generation of X-Series High Performance Infrared Cameras from Teledyne FLIR

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    We are thrilled to invite you to the Yellotec Tech Tour, hosted in collaboration with esteemed guests from FLIR. This exciting event will take place at the CSIR Auditorium on the 18th of July, 2024.

    Event Highlights:
    Don’t miss out on this chance to witness cutting-edge technology and gain valuable insights from the top minds at FLIR.
    Date: 18th July 2024
    Location: CSIR Auditorium

    Special Guests from FLIR:
    Matthew Hasty – Senior Global Product Manager
    Dr. Raphaël Danjoux – Application Support, Solutions, Sensors

    Focus of the Tech Tour:
    The tour will center on the release of FLIR’s newly launched science cameras, offering a unique opportunity to explore the latest advancements in thermal imaging technology.

    Join us for an insightful day filled with informative presentations, demonstrations, and networking opportunities with industry leaders and experts.

    Please contact Alex Turpin at a.turpin@yellotec.com for reservations and any further information you may need.

    We look forward to seeing you there!

    Yellotec, the proud African Channel Partner of Teledyne FLIR, is excited to announce four new models in the X-series of science-grade thermal cameras.

    Designed for research and development (R&D) applications, these cameras cater to both mid-wave infrared (MWIR) and longwave infrared (LWIR) spectrums. The new models, the X6980-HS high-speed series and the X8580-HS high-resolution series, enhance the FLIR X-Series’ performance capabilities.

    The high-speed (HS) models feature 10GigE and CoaXPress (CXP) 2.1 interfaces for over an hour of rapid image streaming and data transfer. Additionally, they offer on-camera recording with a removable NVMe SSD, ensuring lossless recording of critical thermal events. A four-terabyte (TB) high-speed SSD is standard on all X-Series HS cameras, enabling hours of thermal data recording without frame drops.

    Jerry Beeney, Business Development Director at FLIR, stated, “The FLIR X-series science thermal cameras have set the industry benchmark for applications requiring high-speed or high-resolution thermal data capture. With the new X-series HS infrared cameras, operators can benefit from lossless onboard recording, high-speed streaming, and proprietary trigger and synchronization for accurate recording.” When used with FLIR Research Studio software, the X-series HS infrared cameras allow for merging data sets and synchronizing multiple sensors, including other FLIR A-series, X-series, and T-series cameras, for comprehensive analyses and improved decision-making. Standardizing on the FLIR platform offers cost savings and interchangeability for various applications, including electronic board-level design and testing, defence research, and commercial and academic use. Stay ahead in your field with the new X-Series high performance infrared cameras from Teledyne FLIR, available through Yellotec.