Global High Voltage Disconnector (33KV – 765KV) Market 2025 – 2034

Reports Description

Research Team, the High Voltage Dis connector (33KV – 765KV) Market across the globe is projected to realize a CAGR of 6.2% by 2025-2034. The market size will be competent to a valuation of USD 2.1 Billion in the year 2025. The valuation is expected to hit USD 3.8 Billion by the year 2034.

Overview

This is a market of high voltage disconnectors, which has been growing steadily as a result of a rise in demand associated with transmission, substations and renewable integration solutions. The largest segment of the applications might be mentioned as the transmission lines following the growing grid expansion, the increased appearance of the electrification projects, and the further development of the UHVDC and HVAC systems. The second-largest market segment is substations, which have been greatly adopted owing to development in advanced technology on gas-insulated and smart disconnectors.

Renewable energy integration, on the contrary, wind farm connections, solar inverters, and offshore grids have been framed as one of the fastest-growing segments with the quick pace of digital integration and fault isolation advancements as the accelerators. Regionally, Asia-Pacific is the most powerful market with tremendous investments in infrastructure, power grids and higher adoption of electrification. Europe comes second on the list due to the robust regulatory system and renewable requirements.

North America is the most booming sector, where the US, Canada, and Mexico are at the forefront in enhancing grid resilience, government incentives, local manufacturing ecosystems, and encouraging uptake. Overall, they suggest a market moving away from the old units that use SF6 to the new ones that are eco-friendly and intelligent and offer reliability and are made available to a broader and broader array of utility groups. High Voltage Disconnector (33KV -765KV) Market Trends- High Growth Factors.

Key Trends & Drivers

The High Voltage Disconnector (33KV – 765KV) Market Trends present significant growth opportunities due to several factors:

• Aging Grid Infrastructure and Electrification Drive: The most notable driver is the rapidly growing demand of grid modernization throughout the world and the global rates of electrification are projected to hit 90 by 2030. As the load increases, the number of faults and outages increases thereby maintaining the demand for disconnectors of types like the vertical break and pantograph types. Likewise, the exacerbation of the situation by the increasing rates of renewable incorporation and EV charging stations is one of the key features of this market. The resulting infrastructure alteration generates a long-term requirement and utilities and renewables have become a major and important target group for HV disconnector solutions worldwide.

• Technological Advancements and Smart Grid Integration: The fast tracked technological change induces equal fast tracked adoption in the high voltage disconnector world. Artificial intelligence, the Internet of Things, Robotics, and sensor fusion technologies are used to transform classical disconnectors into intelligent and adaptive systems. Examples may include AI-controlled fault detection, remote controlled pantographs and eco-friendly vacuum design. These systems give more functionality, experience, and reliability to the user. Ongoing research work and the convergence of digital utilities can generate a compelling attraction of advanced HV disconnectors among both grid operators and end user in the world market.

• Policy Support and Renewable Energy Programs: Government initiatives, along with a positive renewable policy, will further enhance market Government programs, coupled with an optimistic renewable policy, will also enhance more accessibility in the market. Certain nations subsidize or offer incentives on SF6-free equipment or develop government procurement schemes on transmission and substation disconnectors, which otherwise impede the technology to a utility. Conversely, the international agencies are working towards net-zero based on the Paris Agreement scheme. These supportive policies are incentives for adoption in vulnerable grids and also in incentives to invest in product innovation. This form of regulatory and institutional assistance is important in ensuring that access and development could be scaled on a sustainable basis in the global HV disconnector industry.

• Growing Awareness and Grid Resilience to Climate Events: The awareness and integration of HV disconnectors are making a significant change towards creating a greater market. There is an increase in the utilization of remote monitoring equipment and surge protectors and more robust equipment to help with extreme weather resilience in transmission and renewables. Other critical stakeholders that help maintain reliability and educate users on the available solutions to them are non-profits and advocacy organizations. Such a high degree of awareness results in a decrease in the risks of outage and a higher rate of adoption on a regional basis, therefore, an expansion of the potential consumer base; therefore, resilience and awareness are a strong foundation for growing the market.

Significant Threats

The High Voltage Disconnector (33KV-765KV) Market is facing a number of threats that will impede its growth and profitability in the short run and the long run and they include:

• High Costs and Affordability Issues: Although sophisticated technologies have been created over recent years, the prices of advanced disconnectors like SF6-free pantographs or intelligent vertical breaks are too high to be afforded by most new utilities. The tariffs and import duties in the low- and middle-income economies raise the prices even higher, which are no longer affordable to the masses of the population in dire need. Price-hampering these trends in effect limits the possibilities of expansion and leaves millions of people without a solution so much needed. The problem will not be fixed by policy changes, local production and more complex pricing methodologies and will only serve to block market growth and create even more concern about accessibility in developing economies.

• Regulatory and Reimbursement Issues: The HV disconnecter market has a regulatory and reimbursement complication in the different regions. The grid-grade devices may require years to be approved in most locations hence disincentivising fast innovation and commercialisation. In addition, uneven environmental criteria on compliance or safety can reduce or remove financial subsidization to the users thus discouraging adoption even when there is a demand. As an example, certified schemes are provided in the North American and European regions, but in the third world they are barely covered. These dissimilarities create unequal development, prevent investment and challenge internationalization efforts in global expansion by disconnector firms. This regulation fragmentation will be a major issue that will determine the sustainability of growth in the long term.

Opportunities

• AI and Digital Integration: A combination of artificial intelligence, the internet of things, and advanced robotics is also in harmony to come up with new smart and adaptive designs in disconnectors. The battery of sensor integration and robot actuators, which are supported by AI, are reliable and usable; therefore, they are another source of income. The transition to digital grid ecosystems will enable various companies to offer disconnectors products that are associated with distance SCADA and predictive maintenance services. As power systems increasingly look at a more resilient operation, the technology-based solutions that have placed disconnector providers at the edge of new technology have enlarged the market scope and expanded the adoption of the applications in the transmission, substations, and renewable areas around the world.

• Emerging Market Expansion: There is a potential for growth in the emerging markets, including India, Brazil, and Southeast Asia, which follows due to increased grid investments, government efforts, and publicity on electrification. The incentive penetration is still small, thereby increasing the affordability and accessibility due to higher coverage, interventions of energy bodies, and local manufacturing. Businesses that offer affordable local goods in these new markets will have access to large population segments that remain largely untapped by other companies. Such markets are projected to be rapid expansion hubs towards the implementation of HV disconnectors in the coming decade, and growth expansion prospects drive the global aspect.

Category Wise Insights

By Voltage Rating

• 33KV – 72.5KV: The 33KV – 72.5KV segment is still the backbone of the HV disconnector market, and the new units at the distribution level are advanced in insulation, compact actuators and arc resistant technologies, although they are gradually gaining immense popularity. As more and more attention is paid to urban distribution and renewable tie-ins due to solar and wind projects, more disconnectors at 33 kV – 72.5 kV are being adopted. Large-scale manufacturers have started designing lightweight and plug and play forms to be easily installed and utilities on remote operation to be efficient in maintenance. These allow a wider reach by providing government subsidies or incentive schemes to encourage growth particularly in Asia-Pacific and Europe.

• 72.5KV – 145KV: The utilities are beginning to purchase an increased number of 72.5KV – 145KV disconnectors at sub-transmission, which are sought by the utilities as offering them the additional reliability, fault clearance, and grid stability. The driving forces of acceptance are technological improvements, such as SF6-free, IoT, and user-friendly maneuverability. The demand is high, particularly with the developed markets whose infrastructure is old, and some of their uptake is hampered in emerging markets due to affordability. The segment has an exposure to the channels of distribution of OEMs, e-commerce, and utility suppliers. Manufacturers design their products to such an extent that they declare them compact, environmentally friendly, and all-weather type, thereby rendering 72.5 kV-145 kV a versatile choice of medium voltage.

• 145KV – 245KV: 145KV – 245KV units, switches, or breakers are nothing but cost-effective and easily available It is nothing more than a cost-saving and readily available solution to the transmission using 145 kV-245 kV units and switches or breakers. This market is expanded to utilities that have a problem with upgrading their lines, recovering after downtime, and businesses eager to have minimal downtime. This market segment is gradually expanding because of its low cost, convenience, and distribution in specialty and retail stores. The popularity of interlock-based pantograph types increases day by day. This market requires products with a low level of complexity and low costs of production that meet the needs of this market in low- and middle-income economies worldwide.

• 245KV – 550KV: The disconnectors of 245KV – 550KV have been capable of taking a huge leap forward with the improvement of technology in the area of gas insulation, high-speed actuators, and lightweight composites. The demand is being driven as the long-distance transmission and HVDC at the global level continue to occur. More and more disconnectors are being designed with conceptual functional flexibility, such as rapid action center breaks with sensory feedback, and the designs are tailored to seismic zones. The principal factors that influence direct access are variations in distributions and in cost. The energy bodies, government, and manufacturers must work together to ensure that these technologies are lowered to the utilities.

• 550KV – 765KV: The category comprises niche transmission solutions such as UHV levels such as 800 KV and hybrid designs. Intercontinental lines and mega-grids are being considered to be operated by UHV disconnectors, which provide powered isolation to large capacities. Mass adoption is costly since it is very expensive in nature, but it can be expected that in the near future a technological breakthrough will produce less expensive alternatives. Adaptive controls and monitoring services are user-specific and improve the heterogeneity of the market. This subsegment is a highly promising innovation area, and it is only a few compared to lower voltages, investing in research and development by both startups and power technology companies worldwide.

By Type

• Vertical Break: Disconnectors dominate the vertical break segment because it is more durable and occupies less space and is mindful of various substation layout combinations. Vertical breaks are largely allocated to the transmission and renewable stations. The sophisticated categorization in modularity has also minimized footprint and in exchange, the site acceptance has been enhanced. Connectivity with SCADA and remote operation features are added to enhance usability. Affordability in emerging markets however has a problem despite their increased acceptance. Therefore, incentives and government programs have played a critical role in securing greater access to vertical break disconnectors in the global arena.

• Horizontal Break: Horizontal break disconnectors are installed at linear operation and are selected when utility companies are interested in simplicity and ease of maintenance, producing a simple feeling of uniqueness and accessibility. It is especially said that they fit well in the substation and generation industries that could require moderate to high-voltage requirements. Technological advancements have enabled the connection of horizontal units by way of wireless connection and automation in the name of reliability. They, conversely, are failing in compact designs relative to vertical ones due to their bigger footprint. Given the utility consciousness over strong, low-maintenance gadgets, the horizontal breaks can be placed as a key growth sub-segment particularly between the conventional grids.

• Pantograph: Pantograph disconnectors are compact and effective, with the required reach, and hence are situated between the small and the big side of the performance. They are increasingly becoming popular in 145 kV up to 550 kV conditions. They are assistive devices with technological improvements, as they are motorized driven, sensor integrated, and fast operating to enhance isolation during fault conditions. Moreover, it is an advantage since this segment is experiencing a rise in awareness, and its marketing targets space-constrained sites. Pantograph instruments are expanding both in the developed and developing fields because they will address the increasing utility need of space saving, technology-driven isolation systems at new affordable rates.

• Center Break: Having a dual-motion feature, which is the most advanced solution in high-voltage isolation, center break options are becoming more widespread, as the requirements of the smart grids have grown along with the creation of remote operation programs. The speed and reliability is too high to implement into the urban substations but currently, there are numerous integrators involved, working to streamline the designs, among others. The technological advancements and changes are done, with the latest hybrid combinations of the vacuum centers and centers, which will expand the number of candidates. The utility adoption also perpetuates growth in the market and further maintains long term sustainability of the markets, hence securing the critical infrastructure.

• Others: Such types are double-break and rotary disconnectors that contain specialised systems and specialised mechanisms. These solutions are used in addition to the conventional types as they are designed to fulfill a particular user needs e.g. seismic or coastal environment. Rotary systems are best used where space requirements are of a compact substation. This category is small compared with vertical or horizontal which is dominant in the market, but it will not fail to diversify the landscape, thus creating accessibility to diverse forms of isolation impairments. The region is full of prospects particularly in the specialized renewables and access to public infrastructural development initiatives across the globe.

By Application

• Transmission Lines: The most popular and most desired application is transmission lines, particularly in utilities that require long-haul HVDC or HVAC. Some of the common disconnectors include fixed, mobile and integrated disconnectors. The usability of these devices is being enhanced by technological advances like remote sensing and better durability and movability of mobile units. They are present in the life of a prospective user because of their accessibility, reliability and availability through their OEM and supplier channels. Old-fashioned horizontal units prevail in the market, but the pantograph types are slowly conquering their positions as operators seek to find more application opportunities in line and more solutions to maintenance work.

• Substations: An isolated tactile system is a substation system, which changes grid segments into isolated tactile space and forms part of the network reliability of load centers and transformers. In urban and rural environments, substation disconnectors are required, particularly when it has a high load and a fault prone circuit. Newer state plans and energy organizations are attempting to fit within the cost-effectiveness of such systems, despite the prohibitive cost keeping their adoption in high demand. There are others that are taken to obtain multi-bay refreshable isolation. An increasing demand for smart substations and minimizing outages will contribute to increased growth, which will make substations the key to grid stability.

• Power Generation: One of the emerging applications is power generation whereby thermal, hydro, and gas utilization are increasing at an annual rate. They adopt the use of break-to-isolate conversion or precision so that operators can have access to safe maintenance on their own. These systems have been used in the plant and turbine setting and are important in relation to the safety standards. The reason why the hardware-based systems are growing at a faster rate than the manual solutions is due to the reliability benefit and the ability to integrate with the mainstream control systems. It is projected that as various companies in collaboration with the power companies, the disconnector providers, will continue to add their functionality and affordability.

• Renewable Energy Integration: Renewable integration is a new segment of integrating sensors and controls to assist in wind, solar, and offshore farm integration. They are among the most advanced fields of HV technology, but the adoption is limited by the problems with the costs and grid code compatibility. Pilot projects and work with research institutions precondition the potential development. As the idea of modularity and cost-efficiency continues to evolve further, the renewable integration will enter the mainstream in the supply of the stable feeds and the enhancement of the quality of energy delivery to the population of the grid.

• Others: Other uses include industrial parks, trainers and other special power equipment. Some of these are aimed at factories and mines, as well as certification centers in order that these specialized institutions can utilize safe isolation in the work. Once, despite the fact that transmission and substations were greatly superior on the commercial scale, these much smaller devices were useful in the development of opportunities for fair industrial growth. Examples of niche inventions are the surge-protected kits and assembly aids of adaptive setups. The expansion path will be through inclusion schemes led by the government and programs led by the NGOs in the field of energy in the name of accessibility by all sectors.

Historical Context

In the past the high voltage disconnector market was serviced by support of basic air-break and oil-immersed high voltage disconnectors to provide low level of remote operation and monitoring and to meet fundamental safety requirements in the transmission and substations. The adoption was low because it was expensive, required material maintenance, and had little support in the policy particularly in developing economies. Yet the past few decades saw technological innovation introduce SF6-free designs, vacuum breakers, and IoT-enabling disconnectors, which massively enhanced dependability, arc suppression, and remote control.

AI, IoT, robotics, and environmentally friendly materials will ensure the market is informed by these technologies that produce smarter and more sustainable solutions in the coming years. Through grid modernization, renewable integration, and growing energy investments, reliability, environmental compliance, and digital integration to smart grids will be the new priority, therefore making high voltage disconnectors the core of resilient global power infrastructure.

Impact of Recent Tariff Policies

Tariffs have now taken the form of a significant feature of how the high voltage disconnector market operates, where impacts on compressing affordability into a small range and attracting supply chains along more curvy lines have been experienced. The billions of duties that are virtually required to be paid by the importers in most of the low- and middle-income states on their much-needed disconnector goods, which can be substituted with each other to indicate a few examples of such products are approximately a tenth to a quarter of the total incident-value sum.

Therefore, the bigger the tariff, the greater the obstacles to entry and therefore the less adoptions by needy utilities. Nevertheless, few such targeted reforms, such as the exemptions of power equipment through the PLI scheme in India, promise a way forward in facilitation. In the advanced economies, electrical components such as the insulators, actuators and electronic controls have been charged duties and this makes the process of production and importation more expensive hence the price of the devices in the market.

According toindustry sources, companies like ABB will lose hundreds of millions of dollars in expenses related to tariffs, so much that the business even considers alterations in the domestic production, further diversification of the supply base, and possibilities of adjustment in prices. Any change of such policy, which is protective through the trade prism, can plunge the innovation process and create an even greater access divide. Therefore, one of the external forces that significantly affect the affordability, distribution, and adoption of high voltage disconnectors in the global market is the tariffs.

Report Scope

Regional Analysis

The High Voltage Disconnecter (33KV -765KV) Market is structured based on the major regions and covers the specific analysis of the main countries. An overview of the market dynamics in each country will be brief as discussed below:

North America: The highest share globally is the North American High Voltage Disconnector (33KV -765KV) Market that has powerful power base, knowledge and incentive system that can be used to sell. The transmission, substation and renewable technologies are mostly funded with federal grants and private funds hence being offered at competitive prices. High levels of R&D, multinationals, and rapid implementation of AI, IoT, and digital twins on disconnectioner products put the market under competition to be the leader. The region experiences grid stress, which makes remote systems and monitoring aids applicable in utilities.

• US: The adoption in the US High Voltage Disconnector (33 kV – 765 kV) Market is controlled by strong DOE policies, the leading manufacturers, and high-quality distribution networks. The substation pantographs, vertical transmission breaks, and AI-powered renewable tools are among the dominant demands. The smart grid technology will also be well adopted in the country.

• Canada: Canada is a hydro-rich nation that has utility advantages established in such a way that anyone can use disconnection technologies. Hydro demand facilitates the generation and assistive technology of clean energy, as well as the active involvement of energy bodies, leading to the onward development of the market.

Europe: Tough EU guidelines on decarbonization, full funding coverage, and maturing grid systems favor the European High Voltage Disconnector (33KV -765KV) market. A renewable orientation has a direct effect on the demand for transmission aids, substations, and generation solutions. It is quite possible that public funding programs and the viability of green-inclusive efforts, some degree of regulatory support, and service generation are agreed upon. The digital grids are also being invested in in Europe, which increases the demand for smart disconnectors, SF6 free units, and other automation assistants. Innovation in technology, which is evident in both Germany and the UK, renders the entire region a challenging competitor to the high pace of development of HV disconnectors in the world.

• Germany: In Germany, the High Voltage Disconnector (33KV – 765KV) Market benefits due to the constantly growing EEG incentive system, the need to purchase high-end substation appliances, and effective regulation. An Energiewende focus is likely to maintain a good demand for renewables and transmission support.

• UK: Net-zero laws are strict and Ofgem-sponsored to encourage adoption in the UK High Voltage Disconnector (33 kV – 765 kV) Market. The growing interest in inclusive grids and renewable practices in the country is demonstrated in much demand of the pantograph devices and the monitoring systems.

• France: The French High Voltage Disconnector (33 kV – 765 kV) market has subsidies and public programs that are aimed at nuclear care and renewable assistive technologies. France can be referred to as one of the fastest-growing grid facilities as the modernization of the grid facilities provides help in adopting these technologies in the field of transmission and generation.

Asia-Pacific: The Asia-Pacific High Voltage Disconnector (33KV -765KV) Market has been highly supported by the high population, and this resulted in the rapid growth trend globally, with the grid development in China coupled with the policies that were instituted by the government to electrify the region. As the level of power demand increases, investments in infrastructure escalate and local production is on the rise, affordability is one of the barriers. Startups are becoming the innovation centers particularly in India and Japan and the rising energy literacy continues to generate a need for transmission-based assistive technologies. This is because the group of developed economies and emerging economies in the region is an opportunity to develop the market, and the growth prospects are even greater in substation aids transmission, generation, and renewable learning.

• Japan: The High Voltage Disconnector market (33 kV–765 kV) in Japan has an opportunity to create innovation in the transmission and substation solution due to technological leadership in earthquake resistance designs and intelligent systems coupled with a stable grid population. The government sponsorship results in high adoption levels.

• China: As the Chinese manufacturing plants are developed and the reforms of the Chinese government are going on, the supply of the urban grids is facilitated by the introduction of transmission and substation assists. Conversely, the affordability in the rural setting is still a concern to be addressed, and enlargement is still carried out.

• India: Cooperative arrangements have aided adoption of the Indian High Voltage Disconnector (33 kV – 765 kV) Market including government, energy bodies and native solutions, which are cost-effective. The affordability limit persists and the production is being done to enhance its presence in the urban and semi-urban locations.

LAMEA: The LAMEA high voltage disconnector market was expanding in a slow yet steady manner with the concept of grid modernization, energy inclusion programmes and utility schemes. Certain nations are stalling the adoption because of price concerns, lopsided infrastructure, and limited incentive policies. The demand would be increased in Latin America due to government reforms and awareness campaigns whereas in the Middle East focused investments would be received towards power accessibility. Energy bodies and donors in Africa would still make it available with their programs, particularly in the rural areas. In responding to the needs of transmission and substation aids, this area has a potential for expansion with low cost alternatives that are manufactured locally.

• Brazil: Brazil High Voltage Disconnector Market (33 KV – 765 KV) attracts the adoption of a scheme through energy reforms through the combination of government utility programs and subsidies. Demand for the vertical break and substation systems in cities is even greater, and the question of access is ever more emphasized by the question of inaccessibility in the country.

• South Africa: In the South Africa High Voltage Disconnector (33KV – 765KV) Market, the market growth is driven by the development of urban grids and energy body interventions. The cities have high penetration and renewable aid adoption, but more penetration is not achievable in the rural regions due to affordability and awareness.

Key Developments

High Voltage Disconnector (33KV-765KV) Market has experienced several significant changes in recent years as players in the industry seek to broaden their geographical prescriptive and increase their product offering and profitability by leveraging synergies.

• In July 2025, Siemens AG created SF6 disconnectors with IoT integration to monitor the real-time status of the 245 KV substation, which has 245 KV slip-free pantographs to improve grid resilience.

• ABB Ltd., in cooperation with a large US utility in July 2025 launched horizontal break disconnectors in the renewable integration projects to serve 500 MW solar farms.

• In June 2025, the Power Grid Expo 2025 was an exhibition of such advanced equipment as AI-based center break systems, 550 kV vacuum interrupters, remote pantographs, and environmentally friendly horizontal ones, and thus paved the way to direct user feedback and orders.

• The new market-shaping guide of HV equipment by IEA was released in June 2025. It establishes guidelines by which disconnector markets will be evaluated and in which interventions will be developed to be more reliable, cheaper, and sustainable.

Such activities have enabled the firms to devise their product lines more and enhance their competitive advantage to make use of the growth potential of the High Voltage Disconnector (33KV – 765KV) Market.

Leading Players

The High Voltage Disconnector (33 KV – 765 KV) Market is fairly consolidated with large-scale companies having infrastructure and governmental support. The major market participants are:

• Siemens AG
• ABB Ltd.
• General Electric Company
• Schneider Electric SE
• Eaton Corporation
• Hyundai Heavy Industries Co. Ltd.
• Tavrida Electric
• Southern States LLC
• G&W Electric Co.
• Littelfuse Inc.
• Nanjing Easun Power Co. Ltd.
• Hengshui Haijiang Electric Co. Ltd.
• Zhejiang Huamei Electric Power Equipment Co. Ltd.
• Others

In the mid-consolidation level, the global leaders and regional manufacturers as well as start-up manufacturers in niche markets all mix in the high voltage disconnection market. In this instance, Siemens, ABB, GE, and Schneider in the field of transmission, substations, and renewables, respectively, would be considered large multinationals with a heavy distribution network and deep pockets engaged in R&D activity. Conversely, niche players and startups have been directing most of the innovation in digital disconnection solutions, AI monitoring tools, and tools aimed at utilities.

They are segregated by technological innovation, pricing tactics, and being an innovation-based market. The barriers to entry are comparatively middle range regarding regulatory regulations, massive research and development expenses, and the capacity to seek certification. Conversely, entry would be more open by collaborating with governments, energy institutions, and utilities. In general, it is a competition situation of established superiority and disruptive innovation, and the factors of rivalry are pricing, dependability, and technology integration.

The High Voltage Disconnector (33KV – 765KV) Market is segmented as follows:

By Voltage Rating

• 33KV – 72.5KV
• 72.5KV – 145KV
• 145KV – 245KV
• 245KV – 550KV
• 550KV – 765KV

By Type

• Vertical Break
• Horizontal Break
• Pantograph
• Center Break
• Others

By Application

• Transmission Lines
• Substations
• Power Generation
• Renewable Energy Integration
• Others

Regional Coverage:

North America

• U.S.
• Canada
• Mexico
• Rest of North America

Europe

• Germany
• France
• U.K.
• Russia
• Italy
• Spain
• Netherlands
• Rest of Europe

Asia Pacific

• China
• Japan
• India
• New Zealand
• Australia
• South Korea
• Taiwan
• Rest of Asia Pacific

The Middle East & Africa

• Saudi Arabia
• UAE
• Egypt
• Kuwait
• South Africa
• Rest of the Middle East & Africa

Latin America

• Brazil
• Argentina
• Rest of Latin America