Power Optimizer Market by Emerging Growth Analysis, Future Demand and Business Opportunities 2025

Power optimizer market size is likely to increase on a substantial basis from residential application as the segment. Apparently, the segment is set to witness an annual installation of over 10 million units by 2025-end. An array of factors such as net metering, governing subsidies and FIT’s will potentially underscore growth in power optimizer market during the assessment period 2019-2025.

The power optimizer market size to exceed an annual installation of staggering 30 million units by 2025.

Buoyant demand for energy in regions witnessing constrained grid access or complete isolation has had a positive influence on the growth of stand-alone power optimizer industry share. Markedly, development witnessed in micro-grid infrastructure meant for large-scale renewable adoption has presented a sanguine outlook across the developed countries. Nevertheless, stand-alone unit is on course to gain footholds in the power optimizer market.

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Nevertheless, power optimizer has been prevalent as a substitute for module level power monitoring, thereby helping end-users reap reward from MPPT with higher operational efficiency of string inverters. Furthermore, facets such as module mismatch resonance and alleviation of module shading impact are expected to fuel growth in power optimizer market.

Governed by a stringent regulatory landscape, power optimizer market size is likely to proliferate in the ensuing years, given the product’s ample deployment across myriad applications. Power optimizer has been popular as an ideal alternative for power monitoring and module level management, thereby bolstering the MPPT benefits with sophisticated operational efficiencies of string investors.

A ubiquitous DC-DC converter, buck converter units tend to convert a high voltage to a low voltage aptly. Riding high on the popularity of buck units, buck converter market is slated to account for 0.9 bn of power optimizer market share by 2025.

As prominent companies look to gain ground in the optimizer market, they have introduced advanced power optimizers that will automatically maintain a fixed string voltage and allow installers tremendous flexibility with longer strings and strings of various lengths.

With automatic module DC voltage shutdown for firefighter and installers safety, predominant companies are offering real-time and sophisticated performance measurement.   

At the time when incentive capping, rigorous regulations and FiTs have derailed penetration of solar installation in Europe, regulators are increasingly focusing towards photovoltaic (PV) units and distributed energy storage systems through the provision of investment grants.

In a bid to acknowledge the integration of sustainable technologies, the European Commission has implemented similar legislative schemes. As such, Europe is likely to provide lucrative growth opportunities to prominent players in power optimizer market.

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Escalating environment concerns with respect to curbing carbon emissions have led to the adoption of advanced technologies. Besides, regulatory and operational amendments underpinned by technological developments linked with flexibility, product operations, and efficiency have had an impact on power optimizer market trends. Periodic upgrades and technological variations have also bolstered manufacturers’ product portfolio, further augmenting the market share.

Table of Contents (ToC) of the report:

Chapter 1    Methodology & Scope

1.1    Methodology

1.2    Market definitions

1.3    Market estimation and forecast parameters

1.4    Data Sources

1.4.1    Primary sources:

1.4.2    Secondary sources    Paid Sources    Public Sources

Chapter 2    Executive Summary

2.1    Global power optimizer market 3600 synopsis, 2014 – 2025

2.1.1    Business trends

2.1.2    Connectivity trends

2.1.3    Converter trends

2.1.4    Application trends

2.1.5    End use trends

2.1.6    Regional trends

Chapter 3    Global Power Optimizer Market Insights

3.1    Industry segmentation

3.2    Industry landscape, 2014 – 2025 (USD Million)

3.3    Industry ecosystem analysis

3.3.1    Vendor Matrix

3.4    Technology & innovation landscape

3.4.1    SolarEdge

3.4.2    Tigo

3.4.3    GreenBrilliance

3.5    Regulatory Landscape

3.5.1    U.S.    U.S. Feed-in Tariff Programs

3.5.2    Brazil    Brazil Renewable Energy Targets

3.5.3    Japan

3.5.4    UK    The UK’s National Energy Efficiency Action Plan    Feed-In Tariff (FIT)    Export Feed-In Tariff (FIT)

3.5.5    Spain    Spain’s Second Renewable Energy Auction 2017    Support schemes    Policies

3.5.6    Mexico

3.5.7    Smart Inverters    Rule 21    Applicability    Overview of Tariff Provisions

3.6    Feed in Tariff landscape

3.7    Price trend analysis

3.7.1    Cost structure analysis

3.7.2    Price Learning Curve for PV technologies

3.7.3    Capital cost breakdown analysis for solar PV plant, 2018

3.8    Leading investment scenario in the solar industry, 2018 & 2017

3.8.1    India

3.8.2    China

3.8.3    Chile

3.8.4    Saudi Arabia

3.8.5    Egypt

3.8.6    Russia

3.8.7    Australia

3.9    Invested capital in RE Market, 2018

3.10    Investments across the global clean energy sector (USD Billion), 2017

3.10.1    Investments across the global clean energy sector (USD Billion)

3.10.2    Investments across the global clean energy sector, by region (USD Billion)

3.10.3    Investments across the global clean energy sector, by technology (USD Billion)

3.10.4    Investments across the global clean energy sector, by investment stage (USD Billion)

3.10.5    VC/PE investments in clean energy sector, (USD Billion)

3.10.6    Major VC/PE transactions, 2016

3.10.7    Major VC/PE transactions, 2017

3.11    Capex & Opex trend prevailing across solar PV industry

3.11.1    U.S.    Capex    Opex

3.11.2    Brazil    Capex    Opex

3.11.3    Australia    Capex    Opex

3.11.4    Indonesia    Capex    Opex

3.11.5    Mexico    Capex    Opex

3.11.6    Vietnam    Capex    Opex

3.12    LCOE trend

3.12.1    U.S.

3.12.2    Brazil

3.12.3    Australia

3.12.4    Japan

3.12.5    Indonesia

3.12.6    Mexico

3.12.7    Vietnam

3.13    Equity IRRs/financial returns of PV plants across major countries

3.13.1    U.S.    Assumptions

3.13.2    Brazil    Assumptions

3.13.3    Australia    Assumption    IRR prevailing across key region (Australia)

3.13.4    Japan    Assumption

3.14    Global average energy cost

3.15    Average Solar PV CUF/PLF trend across leading countries

3.15.1    U.S.

3.15.2    Brazil

3.15.3    Australia

3.15.4    Japan

3.16    Solar grid parity status

3.17    Key Investors across solar PV industry

3.18    Key Customer requirements

3.19    Customer group requirement

3.19.1    Residential & Commercial

3.19.2    Industrial

3.20    Entry barrier

3.21    Degree of industrial competition

3.21.1    North America

3.21.2    Europe

3.21.3    Asia Pacific

3.21.4    Middle East

3.21.5    Africa

3.21.6    Latin America

3.22    Industry impact forces

3.22.1    Growth drivers    North America & Europe    Positive clean energy outlook    Favorable regulatory inclination towards sustainable energy    Asia Pacific    Large-scale renewable integration    Growing energy demand across isolated areas    Middle East & Africa    Restructuring & revamping of existing electrical infrastructure    Large scale renewable integration prospects    Latin America    Integration of a sustainable energy infrastructure

3.22.2    Restraint    Availability of auxiliary technologies

3.23    Growth potential analysis

3.24    Porter’s Analysis

3.25    Competitive landscape, 2018

3.25.1    Strategy Dashboard    SolarEdge Technologies    ABB    SMA Solar Technology    Tigo Energy    igrenEnergi

3.26    PESTEL analysis

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