Australia Active Electronic Components Market Overview, 2030

Australia’s active electronic parts market is transforming into a crucial supporter for some of the country’s most important and rapidly expanding sectors, particularly mining, industrial electronics, and renewable energy. Within the mining sector, which is vital to Australia’s economic landscape, sturdy semiconductors, power electronics, and sensor systems are pivotal for automation, predictive upkeep, and environmental assessment in tough, isolated environments. Devices such as programmable logic controllers PLCs, industrial-grade microcontrollers, RF communication units, and optoelectronic sensors guarantee dependable functioning of autonomous transportation systems, drilling machinery, and ore processing facilities. The industrial electronics sector encompasses manufacturing automation, procedure management, and robotics, utilizing active components like motor controllers, industrial networking integrated circuits, precision measurement units, and control semiconductors to enhance efficiency, safety, and productivity across industries from food production to defense manufacturing. On another front, the renewable energy sector is growing swiftly, propelled by extensive solar farms, wind energy initiatives, and pioneering battery storage projects that align with Australia’s goals for decarbonization. In this area, wide-bandgap power devices SiC, GaN, inverters, maximum power point tracking MPPT controllers, and grid-stabilizing electronics facilitate effective energy conversion, integration, and distribution. The market’s expansion is supported by a greater embrace of IoT and AI in industrial systems, increased investments in local manufacturing capabilities, and adherence to international standards such as ISO 9001 for quality, IEC and AS/NZS electrical safety regulations, and environmental guidelines like RoHS. These certifications not only guarantee dependability and safety but also enhance export potential for components designed in Australia. Government efforts encouraging the adoption of Industry 4.0, the shift toward renewable energy, and national capability in essential technologies are fostering a conducive environment for R&D collaborations among universities, startups, and established suppliers.

According to the research report, ""Australia Active Electronic Component Market Overview, 2030,"" published by Bonafide Research, the Australia Active Electronic Component market is anticipated to grow at more than 8.55% CAGR from 2025 to 2030. Australia's market for active electronic parts is strategically situated to take advantage of new chances in the energy and telecommunications fields, tapping into both local demand and international export opportunities. Within the energy sector, the continued growth of renewable energy sources such as solar, wind, and large-scale storage necessitates the use of advanced power electronic devices, inverters, grid management controllers, and protective relays that function effectively in Australia's varied climate. The use of wide-bandgap semiconductors like SiC and GaN promotes better conversion efficiency and lower thermal losses, while built-in monitoring and IoT-enabled control systems improve grid reliability and help with predictive maintenance. In the telecommunications field, the extensive deployment of 5G networks and improvements to fiber connections are increasing the need for high-frequency RF components, optical transceivers, low-noise amplifiers, and rapid processors that are crucial for base stations, data centers, and satellite access points, particularly in rural and regional locations. These developments not only ensure quicker and more dependable connections for users and businesses but also make room for innovations like smart grids, remote operations, and real-time monitoring of industries. In both sectors, meeting Australian Standards AS/NZS which address electrical safety, electromagnetic compatibility EMC, and environmental regulations like RoHS guarantees that components fulfill exacting safety, efficiency, and ecological standards. Regulations such as AS/NZS 3000 Wiring Rules and the AS/NZS CISPR series for EMC help protect equipment reliability, safeguard users, and promote interoperability in intricate systems. Compliance also enhances market trust and simplifies entry into export markets that have similar or aligned regulations.

Australia's semiconductor sector by product is divided into Semiconductor Devices, Display Devices, Optoelectronic, Vacuum Tubes and Others. Mining, an essential part of the national economy, depends on sturdy power semiconductors, control integrated circuits, and tough microcontrollers to facilitate automation systems, ore-sorting machinery, and environmental monitoring, ensuring operations are efficient and safe in remote and challenging environments. The energy sector, which includes both traditional and renewable power sources, relies on highly efficient inverters, wide-bandgap components such as SiC MOSFETs, and controllers that stabilize the grid to back solar farms, wind initiatives, and battery storage integration, all in line with Australia’s goals for lowering carbon emissions. Industrial automation requires motor drivers, programmable logic devices, and sensing integrated circuits for robotics, process management, and precise manufacturing, helping to enhance productivity in manufacturing, logistics, and resource processing. In the consumer market, display devices like LCD, OLED, and micro-LED driver integrated circuits are common in televisions, smartphones, and household appliances, representing a large volume and innovation-centric area. Optoelectronics, which includes photodiodes, laser diodes, and optical transceivers, have a significant role in telecommunications and defense, facilitating rapid data transmission in 5G backhaul, satellite communications, and secure fiber networks, as well as sophisticated targeting and surveillance systems. Although vacuum tubes have generally been replaced by solid-state technology, they remain a specialty in unique defense, scientific, and high-end audio applications where their distinctive performance traits are appreciated. Adding to this are sensors ranging from pressure and temperature sensors to LiDAR modules widely utilized in industrial settings for monitoring equipment conditions, implementing safety interlocks, and optimizing processes. Adhering to regulatory standards, especially Australian Standards AS/NZS for electrical safety, electromagnetic compatibility EMC, and environmental regulations like RoHS, guarantees that all sectors provide reliability, safety, and compatibility.

Australia's extensive electronic marketplace by end user is divided into Consumer electronics, Healthcare, Automotives, Aerospace and defense, Information Technology and Others. Consumer electronics usage is increasing swiftly, driven by higher household incomes, the digitalization of lifestyles, and the adoption of smart-home devices. This category includes smartphones, tablets, wearable tech, gaming consoles, and connected home appliances, all supported by high-performance processors, display drivers, and power-management integrated circuits. Within healthcare, sophisticated diagnostic tools, imaging technologies MRI, CT scans, ultrasounds, patient monitoring instruments, and portable testing devices rely on accurate analog components, integrated processors, and sensor arrays to provide precise, immediate data for clinical choices. The automotive industry is quickly incorporating vehicle electronics, including engine control units ECUs, advanced driver-assistance technologies ADAS, entertainment systems, battery management systems BMS for electric vehicles, and safety sensors—all of which depend on robust semiconductors that comply with strict automotive-grade standards AEC-Q100. The Aerospace & Defense sector is significantly dependent on avionics, navigation technologies, radar systems, secure communication tools, and flight control electronics, utilizing radiation-hardened and high-reliability components to fulfill essential performance needs and withstand environmental challenges. The information technology IT field includes data centers, servers, personal computers, and networking frameworks, fueled by the demand for powerful computing processors, fast memory, and sophisticated storage controllers that facilitate cloud services, artificial intelligence functions, and cybersecurity measures. Other sectors, particularly industrial automation, incorporate various sensors pressure, proximity, visual, temperature, and motion along with programmable logic controllers PLCs and industrial networking components for the manufacturing, logistics, and processing sectors. Adherence to Australian Standards AS/NZS for electrical safety, electromagnetic compatibility EMC, and environmental rules such as RoHS assures safety, interoperability, and dependability across all industries, while also granting access to international markets.

Considered in this report
• Historic Year: 2019
• Base year: 2024
• Estimated year: 2025
• Forecast year: 2030

Aspects covered in this report
• Active Electronic Components Market with its value and forecast along with its segments
• Various drivers and challenges
• On-going trends and developments
• Top profiled companies
• Strategic recommendation

By Product
• Semiconductor Devices
• Display Devices
• Optoelectronic
• Vacuum Tubes
• Others

By End User
• Consumer electronics
• Healthcare
• Automotives
• Aerospace and defense
• Information Technology
• Others Show more