Increase Lightning Protection System Types with TAKO since 1979

Lightning Protection System Type

Introduction: Fortify Lightning Protection System Types with TAKO since 1979

As a leader in strengthening Lightning Protection System Types since 1979, TAKO guarantees all-encompassing protection against the devastating power of lightning strikes. With more than 20 years of experience, TAKO provides a Total Solution Concept to protect electrical systems and building structures from the dangers of damages caused by lightning surges. In the face of thunderstorms, TAKO’s dedication to complete protection—which includes everything from establishing sturdy earthing infrastructure and shielding electronic equipment to fixing already-existing systems—remains unparalleled in the industry.

With a legacy dating back to 1979, TAKO has emerged as a trailblazer in fortifying Lightning Protection System Types. Leveraging over two decades of expertise, TAKO delivers an encompassing Total Solution Concept, ensuring robust defense against the formidable force of lightning strikes. From pioneering sturdy earthing infrastructure to shielding electronic equipment, TAKO’s commitment to comprehensive protection stands unmatched. Our dedicated approach extends beyond mere installation, encompassing the meticulous maintenance and enhancement of existing systems, guaranteeing sustained resilience in the face of thunderstorms.

At the forefront of the industry, TAKO’s Total Solution Concept addresses every facet of lightning protection, embodying resilience against the dynamic challenges posed by lightning surges. With a focus on establishing state-of-the-art grounding systems and integrating surge protection devices, we ensure the safety and longevity of electrical systems and building structures. TAKO’s unwavering dedication to innovation and excellence ensures that clients receive unparalleled protection, empowering them to weather storms with confidence and peace of mind.

Uncovering the True Essence of Lightning

lightning protection system types

With an average of 280 lightning days annually, Malaysia is ranked second in the world for the most lightning strikes. Lightning strikes pose a severe threat to businesses due to their potent and quick nature, which can result in disruptions and even catastrophic events. Due to its tropical climate and geographic location, Malaysia is extremely vulnerable to lightning strikes despite having highly developed infrastructure and technological capabilities. Temperatures that are warm, excessive humidity, and atmospheric instability all contribute to this sensitivity.

Businesses in Malaysia must be proactive in lowering the possible dangers related to lightning strikes. Lightning warning alert systems are vital early warning systems that provide organizations with crucial time to prepare and maybe prevent disasters. These innovative solutions operate as sentinels, alerting businesses to impending lightning activity so they can take the necessary precautions.

Investing in lightning alert equipment can help businesses in Malaysia considerably lessen the impact of lightning on their operations and safety procedures. Through proactive protection of people and infrastructure, these devices help prevent equipment damage, power outages, and the risk of fatalities or serious injuries from lightning strikes.

Lightning Protection System Types

lightning protection system types

  1. Lightning Rods (Air Terminals): Probably the most identifiable part of an LPS are lightning rods, also referred to as air terminals. In order to attract lightning strikes, these metal rods are positioned strategically on the highest points of buildings. Lightning strikes the rod, which minimizes damage to the structure by giving the electrical current a direct path to the ground.
  2. Conductor Cables: To collect the electrical current from lightning strikes that the lightning rods intercept, conductor cables are placed along a building’s edges, ridges, and roofline. By directing the current downward and into the grounding system, these cables shield the building’s structural and electrical elements from potential harm.
  3. Grounding System: A grounding system is made up of conductive materials that are buried deeply in the ground around a structure, such as copper or aluminum rods. These rods lower the possibility of electrical fires, equipment damage, and occupant injuries by offering a low-resistance path for the lightning-induced current to dissipate harmlessly into the earth.
  4. Surge Protection Devices (SPDs): Designed to defend against lightning-induced transient over voltages, surge protection devices are installed within the electrical system. These devices stop damage and downtime from power surges by absorbing and redirecting excess voltage away from appliances and other sensitive equipment.
  5. Early Streamer Emission (ESE) Systems: These systems create an upward streamer that catches lightning strikes before they reach the protected structure by using specialized air terminals outfitted with ionization technology. These systems try to draw lightning from a farther distance by releasing an early streamer, which improves protection for bigger spaces and buildings.

Functions of Lightning Protection System

Lightning Protection System Type

  1. Dissipation of Electrical Current: An LPS’s main job is to give lightning-induced electrical current a low-resistance route that will allow it to safely reach the earth. Through grounding rods and conductors, the system dissipates electrical charge into the soil, preventing excess voltage from building up inside the structure and lowering the risk of electrical fires, equipment damage, and occupancy injuries.
  2. Lightning Strike Interception: To attract lightning strikes, lightning rods, also known as air terminals, are positioned strategically on the highest points of buildings. These rods assist in lowering the possibility of a direct strike to the structure, thereby lowering the possibility of catastrophic damage, by catching the lightning bolt and offering a preferred path for the electrical current to take.
  3. Protection of Electrical Systems: Lightning strikes have the potential to cause transient overvoltage, or surges, in electrical systems and wiring, which puts delicate appliances and equipment at serious risk. By rerouting excess energy away from susceptible components, surge protection devices (SPDs) installed inside the electrical system assist in mitigating these surges and guarantee the lifetime and continuous operation of electrical devices.
  4. Preventing Structural Damage: Through direct hits, explosive consequences, and subsequent flames, lightning strikes can result in structural damage to structures. An efficient LPS helps safeguard the structural integrity of buildings, lowering the chance of collapse and minimizing maintenance costs by dispersing electrical energy securely into the ground and minimizing the risk of ignite.
  5. Safety for Occupants: One of the most significant benefits of a well-maintained and installed lightning protection system is its ability to increase occupant safety during thunderstorms. An LPS gives residents or workers in the protected area peace of mind and guarantees a safe environment by reducing the risk of electrical shocks, fires, and injuries from lightning strikes.

Why Choose TAKO Astatic Technology for Lightning Protection System

lightning protection system types

  1. All-inclusive Solution: We provide a whole suite of products that include surge protection, grounding systems, alarm systems, detectors, and other components that are necessary for lightning protection.
  2. Effective System Installation and Maintenance: To guarantee peak performance, our experienced specialists install systems precisely and carry out routine maintenance.
  3. Without Charge Site Assessment: Our professionals carefully examine your unique requirements before recommending the best system for your establishment.
  4. Expertise in the Field: We comprehend the distinct obstacles faced by various industries and customize remedies appropriately.
  5. Constant Support and Training: Our staff is always ready to answer your questions and give your employees continual training.


In conclusion, the threat posed by lightning strikes is a significant concern for businesses, particularly in regions like Malaysia, which experience a high frequency of lightning activity. TAKO Astatic Technology stands as a leader in Lightning Protection System Types, offering comprehensive solutions tailored to address the unique challenges faced by different industries. With over 20 years of experience, TAKO ensures complete protection against lightning surges, from thorough site evaluations and precise installations to ongoing maintenance and support, providing peace of mind and safety assurance for businesses and occupants alike.

By choosing TAKO Astatic Technology for lightning protection needs, businesses in Malaysia can proactively mitigate the risks associated with lightning strikes, safeguarding their infrastructure, operations, and personnel. With a commitment to excellence, industry expertise, and a comprehensive suite of solutions, TAKO ensures optimal protection against the devastating impacts of lightning, helping businesses thrive in the face of nature’s powerful forces.

For more information about our lightning warning alarm systems and to schedule a free consultation, visit our website or get in touch with one of our experts right now! 


Which one is the most effective lightning protective system type?

Among the various lightning protection system types, Early Streamer Emission (ESE) Systems stand out as one of the most effective solutions for safeguarding structures against lightning strikes. By generating an upward streamer using specialized air terminals equipped with ionization technology, ESE systems have the capability to intercept lightning strikes before they reach the protected structure. This proactive approach allows for greater coverage and protection, especially for larger spaces and buildings, by attracting lightning from a greater distance. With its advanced technology and ability to provide early warning and interception, ESE systems offer enhanced safety and minimize the risk of damage to buildings, occupants, and electrical systems, making them a highly efficient choice for lightning protection.

What is the lightning arrester’s grounding?

A device utilized in power transmission and telecommunication systems is called a lightning arrester, sometimes known as a lightning arrestor. It is made up of a space for air between the ground and an electrical line. The arrester protects insulation and conductors from lightning damage by rerouting the current to the ground when lightning surges flow along the power line.

Where should a lightning arrestor to be put in place?

To prevent lightning strikes from reaching sensitive regions, lightning arrestors should be put at high places on structures (small cottage home to sky-scrappers), such as rooftops, chimneys, or mast poles.

What are Lightning Protection Type that are used for houses?

For residential properties, several lightning protection types are commonly employed to mitigate the risk of lightning strikes. Lightning rods, also known as air terminals, are frequently installed on the highest points of houses to attract lightning strikes and provide a direct path for the electrical current to dissipate harmlessly into the ground. Additionally, surge protection devices (SPDs) are integrated into the electrical system to safeguard appliances and electronic devices from transient overvoltage caused by lightning strikes. Grounding systems, consisting of conductive materials buried around the house, further dissipate the electrical charge into the earth, reducing the risk of fires, equipment damage, and injuries. These combined measures offer comprehensive protection for residential properties against the devastating effects of lightning strikes, ensuring the safety of occupants and the integrity of the structure.

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