How Does Utility and Power Sector Expand Indian High-Capacity Inverters Industry?

In 2021, the Indian non-solar high-capacity inverter market generates $391.3 million, advancing at a rate of 7.7% from 2021 to 2030, to capture $760.1 million in revenue in 2030. It is ascribed to the growing demand for power backup solutions across residential, commercial, and industrial sectors, along with the growing requirement for inverters in tier II and tier III cities of the country. 

In addition, the sales of solar high-capacity inverters in India generate revenue, amounting to $426.0 million in 2021, and it is projected to reach $1199.0 million, rising at a rate of 12.2% in the coming future. It is led by the rising use of solar power for various applications, government initiatives for encouraging the adoption of renewable power sources, more specifically solar energy, and the geographical location of the country garnering benefits of massive solar energy sources. 

The advancements in the solar energy sector concerning power generation and usage contribute to the rise in the number of solar PV installations for numerous applications in India. Moreover, the growing adoption of renewable energy in the country results in increasing sales of renewable power inverters in the country.

The substantial utility & power sector application of the solar high-capacity inverters contributes the largest revenue to the industry, accounting for 91.7%, and it is projected to follow the same trend in the near future, growing at a rate of 12.3%. It is ascribed to the massive usage of these inverters in solar power plants. In addition, Govt. of India focuses on expanding the solar power capacity from 288 GW to 50 GW by 2030. 

Presently, 20% of the everyday power demand of Karnataka is catered by solar power the country, accounting for 7,346 MW. Moreover, the biggest solar plant is established in Pavagada, Tumakuru. 

In addition, the geographical location of Karnataka suits solar energy generation with the presence of a massive number of players. In addition, the earth's movements with respect to the sun, resulting in an appropriate tilt of the rotational axis of the earth with favorable attenuation results in high solar energy intensity. Moreover, Karnataka is the largest high-capacity inverters market in the country. 

Therefore, the geographical location of the country favors power generation by solar energy resources, and thus results in industry propulsion.

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Telecom Power System Market To hit a Value of Above $7,360 Million in 2030

The total size of the telecom power system market was above $3,974 million in the year 2021, and it will reach a value of above $7,360 million in 2030, advancing at a CAGR of over 7% by the end of this decade. The growth is helped by the increasing penetration of telecom towers in diverse regions, like APAC and Africa, and the booming acceptance of telecom services.

The largest share in the telecom power system market, of about 30%, was with generators, as they are considerably utilized as a standby source of power to offer safe operations against power cuts and insufficient power supply. Furthermore, diesel is less inflammable as compared to natural gas, thus it is a safer fuel for generators for backups of telecom towers. Further, diesel generators last longer than others, since they operate at lower temperatures.

North America will be the fastest-growing market in the near future, because of the solid network connectivity, 4G-LTE networks, and mobile usage. The growing ICT industry, comprising telecommunications along with high-tech sectors, is probably at the center of the market growth of the region. Additionally, the U.S. will register a more distinct 5G cycle with peak smartphone growth in the future, which will further tempt service providers to create better telecom infra. 

DC power systems had over 60% demand in 2021 and will lead the telecom power system market in the years to come too, because of the wide uses of DC power systems in the telecom industry. This power is not restricted to frequency disparity or leading power factor. Moreover, it can be stowed, and hence, backup for telecom buses can be provided by batteries without a power conversion loss. 

With the increasing use of smartphones and a developing telecom infra, there is a surge in the demand for telecom power systems around the globe.

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