Introduction TAKO since 1979
TAKO has become a leading global manufacturer of lightning protection systems (LPS) and ESD (Electrostatic Discharge) products. Starting with a strong local presence in Malaysia’s semiconductor industry, TAKO has grown significantly, establishing offices in Singapore, Thailand, Philippines, India, and China
TAKO’s unwavering commitment to quality, innovation, and customer satisfaction has positioned the company as a trusted and reliable partner for all lightning protection (LPS) and ESD needs. Its comprehensive range of products, services, and expertise makes TAKO a true leader within the industry.
TAKO’s commitment to excellence extends beyond its products and services. The company is also dedicated to environmental responsibility and sustainability. TAKO’s manufacturing facilities are certified to ISO 14001, and the company is constantly working to reduce its environmental impact.
If you are in need of ESD or lightning protection solutions, TAKO is the clear choice. With its extensive experience, innovative products, and commitment to customer satisfaction, TAKO is the perfect partner to help you protect your valuable assets.
How install Lightning Protection Systems
Lightning Protection Systems (LPS) are essential for protecting structures, equipment, and people from the harmful effects of lightning strikes. These systems are designed to intercept lightning currents, safely dissipate them into the ground, and minimize potential damage.
Components of an Lightning Protection System:
- Air termination system: This consists of rods, wires, or meshes installed on the highest points of the structure to attract lightning strikes.
- Down conductors: These are conductive paths made of metal that carry the lightning current from the air termination system to the ground.
- Earthing system: This network of buried electrodes or rods dissipates the lightning current into the ground.
- Bonding system: This connects all conductive parts of the structure to the down conductors, preventing side flashes and ensuring that the entire structure is protected.
Types of \:
- Conventional LPS: This is the most common type of Lightning Protection System and uses the components mentioned above.
- Early Streamer Emission (ESE) LPS: This type of Lightning Protection System uses air terminals that emit a streamer, increasing the capture radius and attracting lightning from a greater distance.
- Mesh LPS: This type of Lightning PS uses a mesh of conductors installed over the roof of the structure to provide complete protection.
Benefits of an Lightning Protection System:
- Protects structures from damage: Lightning Protection Systems can prevent fires, explosions, and structural damage caused by lightning strikes.
- Protects equipment and electronics: LPSs can safeguard sensitive electronic equipment from damage caused by electromagnetic pulses and surges.
- Protects people: LPSs can prevent injuries and fatalities caused by direct or indirect lightning strikes.
- Reduces downtime and costs: By preventing damage, LPSs can help to ensure business continuity and minimize downtime and associated costs.
- Complies with regulations: In many countries, Lightning Protection Systems are required by law for certain types of buildings and structures.
Factors to Consider When Choosing an Lightning Protection System:
- Size and type of the structure: The size and complexity of the structure will determine the type and extent of the Lightning Protection System required.
- Local lightning activity: The level of lightning activity in the region will influence the design of the Lightning Protection System.
- Building materials: The materials used in the construction of the structure will affect the design of the Lightning Protection System.
- Budget: The cost of the Lightning Protection Systems will vary depending on its size, complexity, and the materials used.
Lightning Protection Systems are an essential safety measure for protecting structures, equipment, and people from the dangers of lightning strikes. By understanding the principles and components of Lightning Protection Systems, you can make informed decisions about protecting your property and ensuring the safety of everyone around you.
TAKO Lightning Protection System Risk Assessment Software is a powerful tool designed to help you assess the risk of lightning strikes to your property and develop a comprehensive lightning protection system. The software is based on the latest international standards and guidelines, including IEC 62305 and NFPA 780.
TAKO Lightning Protection System Risk Assessment Software is a specialized tool designed to evaluate the potential risks associated with lightning strikes on structures or systems. It’s tailored to aid engineers, architects, and professionals involved in designing lightning protection systems for buildings, installations, or sensitive equipment.
How Install lightning protection system is essential for safeguarding your property and its occupants from the dangers of lightning strikes.
The installation process of a lightning protection systems involves several steps to ensure comprehensive coverage and effective protection against lightning strikes.
The specific process can vary depending on the size and complexity of the system, but it generally follows these steps:
- Risk Assessment: Conduct a thorough assessment of the structure or area to identify vulnerable points and determine the level of risk associated with lightning strikes. Ensure compliance with relevant standards and regulations (e.g., NFPA 780) during the assessment phase.
Design Considerations: Strategically place air terminals (lightning rods) on the structure, considering the building’s geometry, height, and electrical continuity. Install conductors to create a continuous path from the air terminals to the grounding system, minimizing resistance and providing a low-impedance path for lightning currents. Establish a robust grounding system to safely dissipate the lightning energy into the ground, preventing damage to the structure or equipment.
Installation Procedures: Install lightning rods at designated locations, ensuring they are securely anchored and positioned to intercept lightning strikes. Fix conductors along the structure, connecting them to the air terminals and guiding them towards the grounding system without sharp bends or breaks. Create an effective grounding network by installing ground rods or plates and connecting them to the conductors.
Surge Protection Devices:Install surge protection devices at vulnerable points in electrical systems to prevent damage from transient voltage surges caused by lightning.
- Verification and Testing: Verify the continuity of the lightning protection systems by conducting tests to ensure all components are properly connected. Perform resistance tests to confirm the efficiency of the grounding system. Ensure the installation meets quality standards and specifications before finalizing the setup.
- Documentation and Maintenance: Maintain detailed records of the lightning protection systems installation, including diagrams, test results, and compliance certificates. Implement a schedule for regular inspections and maintenance to ensure the system’s effectiveness over time.
- Certification and Compliance:Obtain certifications or approvals as per local or national regulations to ensure the lightning protection systems meets required standards.
Proper installation is crucial for the effectiveness of a lightning protection system. It’s often recommended to engage certified professionals or specialized companies experienced in lightning protection system installations to ensure safety and compliance with industry standards.
Risk assessment is a critical step in designing and implementing an effective lightning protection system. It helps identify the potential consequences of a lightning strike on a specific structure or location, allowing you to take necessary measures to mitigate the risks
Risk assessment in lightning protection involves evaluating the potential risks associated with lightning strikes to structures, buildings, or systems.
Effective risk assessment in lightning protection involves a comprehensive analysis of vulnerabilities, consequences, mitigation strategies, and ongoing evaluations to ensure the protection measures remain robust and aligned with potential risks.
Purpose and Funcationally of Risk Assessment Software
Risk assessment software serves a critical role in various industries by automating and enhancing the process of evaluating potential risks and vulnerabilities
Risk assessment software serves two main purposes:
- Identifying and analyzing potential risks:The software collects data and information from various sources, such as organizational data, industry benchmarks, and regulatory requirements.It uses this information to identify potential risks across various areas, including safety, security, compliance, environmental, and financial.The software then analyzes these risks, considering their likelihood, potential impact, and existing controls.
- Prioritizing and mitigating risks:Based on the analysis, the software prioritizes risks based on their severity and urgency.It then recommends mitigation strategies and action plans to address these risks. The software can also track the implementation of these plans and monitor their effectiveness.
Overall, risk assessment software streamlines and enhances the risk evaluation process, empowering organizations to make informed decisions, prioritize resources, and proactively manage potential risks more effectively
Risk assessment software is a valuable tool for organizations of all sizes to manage risk effectively. By utilizing its features and functionalities, organizations can identify, analyze, prioritize, and mitigate risks proactively, leading to a safer, more secure, and compliant environment.
TAKO Astatic Technology Sdn Bhd (TAKO) has a proven track record of successfully designing and installing lightning protection systems for a wide range of projects. Here are some case studies that highlight their expertise and the effectiveness of their solutions:
1. Sunway University, Malaysia:
Challenge: Sunway University, with its large campus and outdoor spaces, was concerned about the safety of students and staff during thunderstorms.
Solution: TAKO installed a comprehensive lightning protection systems, including air terminals, down conductors, and earthing electrodes. The system was designed to meet the requirements of the Malaysian Standards MS IEC 62305.
Results: The lightning protection systems successfully protected the university from lightning strikes, ensuring the safety of students, staff, and visitors. Additionally, the installation of a lightning protection systems provided timely alerts about approaching storms, allowing for proactive safety measures.
2. Petronas Refinery, Malaysia:
Challenge: The Petronas Refinery, a critical infrastructure facility, required a highly reliable lightning protection systems to protect its sensitive equipment and processes.
Solution: TAKO designed and installed a customized lightning protection systems incorporating advanced technologies like Early Streamer Emission (ESE) air terminals. These air terminals proactively emit a streamer, increasing the system’s capture radius and providing enhanced protection.
Results: The TAKO lightning protection systems has effectively safeguarded the Petronas Refinery from lightning strikes, minimizing downtime and ensuring uninterrupted operations.
3. Kuala Lumpur International Airport (KLIA), Malaysia:
Challenge: KLIA, a major international airport with a significant number of passengers and staff, demanded a lightning protection systems that could ensure uninterrupted operations and passenger safety.
Solution: TAKO installed a robust lightning protection systems covering the entire airport complex, including air terminals, down conductors, and earthing electrodes. The system was designed to meet the stringent international standards of the International Civil Aviation Organization (ICAO).
Results: The TAKO lightning protection systems has effectively protected KLIA from lightning strikes, ensuring the safety of passengers, staff, and aircraft. The system has also contributed to maintaining the smooth operation of the airport, minimizing disruptions and delays.
4. Singapore Cricket Club:
Challenge: The Singapore Cricket Club, a renowned sporting venue, required a lightning protection systems that could effectively protect players and spectators during outdoor events.
Solution: TAKO installed a lightning protection systems designed to comply with the relevant Singapore Standards. The system included air terminals positioned strategically around the playing field and spectator stands.
Results: The TAKO lightning protection systems has provided reliable protection during numerous cricket matches and other events at the Singapore Cricket Club. The system has helped ensure the safety of players and spectators, allowing them to enjoy the sporting events without worrying about lightning strikes.
These case studies demonstrate TAKO’s expertise in designing and installing lightning protection systems for various applications. Their commitment to quality, innovation, and customer satisfaction has earned them a reputation as a leading provider of lightning protection solutions in the Asia Pacific region.
Conclusion
In the realm of lightning protection systems, the need for robust risk assessment, meticulous planning, and reliable installations stands as paramount. The culmination of comprehensive risk assessment software, adept installations, and adherence to standards ensures a fortified shield against the unpredictable forces of nature.
As we navigate the complexities of safeguarding structures, equipment, and lives from the ravages of lightning strikes, it becomes evident that the synergy between sophisticated risk assessment tools like those potentially offered by TAKO and the expertise of installation companies like Astatic Technology Sdn Bhd is pivotal.
Through diligent risk evaluation, tailored solutions, and compliance with stringent standards, the collaborative efforts of technology and implementation entities promise enhanced safety, minimized disruptions, and fortified resilience against lightning-induced hazards.
However, in this pursuit, the journey doesn’t end with installations. Continuous monitoring, periodic assessments, and adaptability to evolving risks are vital to sustain the effectiveness of lightning protection systems. The commitment to regular inspections, updates, and proactive measures ensures a perpetually vigilant defense against lightning’s capricious nature.
In conclusion, the amalgamation of innovative risk assessment tools and expert installation services heralds a new era in lightning protection. By merging technological advancements with industry expertise, we forge a path towards safer environments, fortified infrastructure, and a shield against the whims of nature’s most electrifying force.