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Wafer Handling Robots Market

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Wafer Handling Robots Market

Wafer Handling Robots Market Share, Size, Trends, Industry Analysis Report, By Type, By Number of Arms, By Application and Region 2022 - 2030

Global Wafer Handling Robots Market, By Type (Vacuum Wafer Handling Robots, Atmospheric Wafer Handling Robots) By Number of Arms (Single Arm Wafer Handling Robots, Dual Arm Wafer Handling Robots, Other,), By Application (200mm Wafer Size, 300mm Wafer Size Others) and Region - COVID-19 Impact Analysis and Forecast to 2030

 

Industry Overview:

The market for wafer handling robots is fueling in the current times owing to demand from manufacturers for hybrid vehicles, rising semiconductor and electronics manufacturing sector, advent of advanced intuitive technologies embedded in wafer handling robots mainly artificial intelligence, IoT, Big Data, and other is accelerating the market growth. For instance, in May 2020, Yaskawa Electric Corporation announced the launch of a new clean robots for semiconductor wafer transfer, the “SEMISTAR-GEKKO MD124D” which equipped the direct drive motor (DD motor) contributing to the improvement of semiconductor wafer productivity and low-damage transport. Similarly, KUKA, a Germany-based company, recently announced that it has built a wafer-handling framework for semiconductor handling. This system integrates a robotic arm with an autonomous wheeled platform. The system enables component transfer from one step to the next. Owing to the abovementioned factors, the market for wafer handling robots is likely to robust in the future times.

 


Key Market Drivers:
Rising semiconductor and electronics, manufacturing sector globally is likely to fuel the product demand.

Key Market Restraint:
Lack of skilled labours to operate the wafer handling robots is one of the significant challenges hindering 
the market

 

Key Players Covered:

Some of the key competitors in the Wafer Handling Robots market include Brooks Automation, Inc., DAIHEN, Milara Inc., Kawasaki Heavy Industries, Kensington Laboratories, Nidec, RORZE, Ludl Electronic Products, JEL Corporation. and others

 

Regional Analysis:

North America hold dominant position in the global Wafer Handling Robots market owing to presence of major manufacturers operating in the market, high investments in research & development activities to fuel the wafer handling robots, rising infrastructure development and automation solutions further contributing to the wafer handling robots market.

 

Wafer Handling Robots Market Report Scope

Segmentation of the Global Wafer Handling Robots Market, 2022 – 2030

By Type

 

  1. Vacuum Wafer Handling Robots
  2. Atmospheric Wafer Handling Robots

By Number of Arms 

 

  1. Single Arm Wafer Handling Robots
  2. Dual Arm Wafer Handling Robots 
  3. Other

By Application

 

  1. 200mm Wafer Size
  2. 300mm Wafer Size
  3. Others

By Region
  1. North America (U.S., Canada and Mexico)
  2. Europe (Germany, United Kingdom, France, Italy, Spain, Russia, Nordics, Benelux and Rest of Europe)
  3. Asia Pacific (China, India, Japan, South Korea, Oceania, and Rest of Asia Pacific)
  4. Middle East & Africa (GCC, South Africa and Rest of the Middle East & Africa)
  5. South America (Brazil, Argentina, Chile, Peru, and Rest of South America)

 

Key Market Segmentation

Global Wafer Handling Robots Market- By Type

 o   Vacuum Wafer Handling Robots

 o   Atmospheric Wafer Handling Robots

 

Global Wafer Handling Robots Market- By Number of Arms

 o   Single Arm Wafer Handling Robots

 o   Dual Arm Wafer Handling Robots

 o   Others

 

Global Wafer Handling Robots Market- By Application

 o   200mm Wafer Size

 o   300mm Wafer Size

 o   Others

 

Global Wafer Handling Robots Market- By Region

North America

 o   US

 o   Canada

 o   Mexico

 Europe

 o   Germany

 o    UK

 o    France

 o    Italy

 o   Spain

 o   Russia

 o   Benelux

 o   Nordics

 o   Rest of Europe

 Asia-Pacific

 o    China

 o    India

 o    Japan

 o    South Korea

 o    Rest of Asia-Pacific

 Middle East and Africa

 South America

1.       Methodology & Scope

1.1. Market Definition and Scope

1.2. Market Segmentation

1.3. Key Research Objectives

1.4. Research Highlights

1.5. List of abbreviations

2.       Assumptions

3.       Research Methodology

3.1. Data Mining

3.2. Secondary Research

3.3. Primary Research

3.4. Data Sources

3.5. Data Triangulation

3.6. Bottom-up Approach

3.7. Top Down Approach

4.       Executive Summary

4.1. Market Overview

4.2. Global Wafer Handling Robots Market Geographical Analysis (CAGR %)

4.3. Global Wafer Handling Robots Market, By Type (US$ Million)

4.4. Global Wafer Handling Robots Market, By Number of Arms (US$ Million)

4.5. Global Wafer Handling Robots Market, By Application (US$ Million)

4.6. Future Market Opportunities

4.7. Global Market Split

5.       Market Dynamics

5.1. Market Drivers

5.2. Market Restraints

5.3. Opportunities Analysis

5.4. Emerging Trends Analysis

5.4.1. Demand Side Analysis

5.4.2. Supply Side Analysis

6.       Key Insights

6.1. Macro and Micro Economic Indicators

6.2. Consolidated SWOT Analysis of Key Players.

6.3. Porter’s Five Forces Analysis

6.3.1. Bargaining power of buyers

6.3.2. Bargaining power of suppliers

6.3.3. Threat of new entrants

6.3.4. Threat of substitutes

6.3.5. Threat of rivalry

6.3.6. Market condition

6.4. PESTEL Analysis

6.5. Key Product Developments

6.6. Value Chain Analysis

6.7. Cost Structure Analysis

6.8. Price Trend Analysis

6.8.1. Weighted Average Price

6.8.2. Price Impact-COVID-19

7.       Impact Analysis of COVID-19 on Global Wafer Handling Robots Market

7.1. Short Term Impact of COVID-19 on the Global Wafer Handling Robots Market

7.2. Long Term Impact of COVID-19 Global Wafer Handling Robots Market

7.3. Impact of COVID-19 on the Parent Market

7.4. Sales and Financial Analysis of  Wafer Handling Robots Market

8.       Global Wafer Handling Robots Market Analysis, Insights and Forecast, 2017-2028

8.1. Key Findings / Summary

8.2. Market Size Estimates and Forecasts

8.2.1. By Type (Value)

8.2.1.1. Vacuum Wafer Handling Robots

8.2.1.2. Atmospheric Wafer Handling Robots

8.2.2. By Number of Arms (Value)

8.2.2.1. Single Arm Wafer Handling Robots

8.2.2.2. Dual Arm Wafer Handling Robots

8.2.2.3. Other

8.2.3. By Application (Value)

8.2.3.1. 200mm Wafer Size

8.2.3.2. 300mm Wafer Size

8.2.3.3. Others

8.2.4. By Region (Value)

8.2.4.1. North America

8.2.4.2. Europe

8.2.4.3. Asia Pacific

8.2.4.4. Middle East and Africa

8.2.4.5. South America

9.       North America Wafer Handling Robots Market Analysis, Insights and Forecast, 2017-2028

9.1. Market Size Estimates and Forecasts

9.1.1. By Type (Value)

9.1.1.1. Vacuum Wafer Handling Robots

9.1.1.2. Atmospheric Wafer Handling Robots

9.1.2. By Number of Arms (Value)

9.1.2.1. Single Arm Wafer Handling Robots

9.1.2.2. Dual Arm Wafer Handling Robots

9.1.2.3. Other

9.1.3. By Application (Value)

9.1.3.1. 200mm Wafer Size

9.1.3.2. 300mm Wafer Size

9.1.3.3. Others

9.1.4. By Country (Value)

9.1.4.1. U.S.

9.1.4.2. Canada

9.1.4.3. Mexico

10.    Europe Wafer Handling Robots Market Analysis, Insights and Forecast, 2017-2028

10.1. Market Size Estimates and Forecasts

10.1.1. By Type (Value)

10.1.1.1. Vacuum Wafer Handling Robots

10.1.1.2. Atmospheric Wafer Handling Robots

10.1.2. By Number of Arms (Value)

10.1.2.1. Single Arm Wafer Handling Robots

10.1.2.2. Dual Arm Wafer Handling Robots

10.1.2.3. Other

10.1.3. By Application (Value)

10.1.3.1. 200mm Wafer Size

10.1.3.2. 300mm Wafer Size

10.1.3.3. Others

10.1.4. By Country (Value)

10.1.4.1. Germany

10.1.4.2. United Kingdom

10.1.4.3. France

10.1.4.4. Italy

10.1.4.5. Spain

10.1.4.6. Russia

10.1.4.7. Benelux

10.1.4.8. Nordics

10.1.4.9. Rest of Europe

11.    Asia Pacific Wafer Handling Robots Market Analysis, Insights and Forecast, 2017-2028

11.1. Market Size Estimates and Forecasts

11.1.1. By Type (Value)

11.1.1.1. Vacuum Wafer Handling Robots

11.1.1.2. Atmospheric Wafer Handling Robots

11.1.2. By Number of Arms (Value)

11.1.2.1. Single Arm Wafer Handling Robots

11.1.2.2. Dual Arm Wafer Handling Robots

11.1.2.3. Other

11.1.3. By Application (Value)

11.1.3.1. 200mm Wafer Size

11.1.3.2. 300mm Wafer Size

11.1.3.3. Others

11.1.4. By Country (Value)

11.1.4.1. China

11.1.4.2. Japan

11.1.4.3. India

11.1.4.4. Southeast Asia

11.1.4.5. Oceania

11.1.4.6. Rest of Asia Pacific

12.    Middle East and Africa Wafer Handling Robots Market Analysis, Insights and Forecast, 2017-2028

12.1. Market Size Estimates and Forecasts

12.1.1. By Type (Value)

12.1.1.1. Vacuum Wafer Handling Robots

12.1.1.2. Atmospheric Wafer Handling Robots

12.1.2. By Number of Arms (Value)

12.1.2.1. Single Arm Wafer Handling Robots

12.1.2.2. Dual Arm Wafer Handling Robots

12.1.2.3. Other

12.1.3. By Application (Value)

12.1.3.1. 200mm Wafer Size

12.1.3.2. 300mm Wafer Size

12.1.3.3. Others

12.1.4. By Country (Value)

12.1.4.1. South Africa

12.1.4.2. GCC

12.1.4.3. Rest of Middle East and Africa

13.    South America Wafer Handling Robots Market Analysis, Insights and Forecast, 2017-2028

13.1. Market Size Estimates and Forecasts

13.1.1. By Type (Value)

13.1.1.1. Vacuum Wafer Handling Robots

13.1.1.2. Atmospheric Wafer Handling Robots

13.1.2. By Number of Arms (Value)

13.1.2.1. Single Arm Wafer Handling Robots

13.1.2.2. Dual Arm Wafer Handling Robots

13.1.2.3. Other

13.1.3. By Application (Value)

13.1.3.1. 200mm Wafer Size

13.1.3.2. 300mm Wafer Size

13.1.3.3. Others

13.1.4. By Country (Value)

13.1.4.1. Brazil

13.1.4.2. Argentina

13.1.4.3. Chile

13.1.4.4. Peru

13.1.4.5. Rest of South America

14.    Competition Matrix

14.1. Business Strategies & Insights Adopted by Leading Players

15.    Global Wafer Handling Robots Market Revenue Share Analysis, By Key Market Participants, 2021

16.    Company Profiles

16.1. Brooks Automation

16.1.1. Company Overview

16.1.2. Description

16.1.3. Product Benchmarking

16.1.4. Financials Performance (Data as available in public domain and/or on paid databases)

16.1.5. Recent Developments

16.1.6. COVID – 19 Response

16.1.7. Strategy & Business Overview

Similar information shall be provided for all the below companies

17.    Key Takeaways

18.    Transcripts of the Primary Interview Respondents

Key Market Segmentation

Global Wafer Handling Robots Market- By Type

 o   Vacuum Wafer Handling Robots

 o   Atmospheric Wafer Handling Robots

 

Global Wafer Handling Robots Market- By Number of Arms

 o   Single Arm Wafer Handling Robots

 o   Dual Arm Wafer Handling Robots

 o   Others

 

Global Wafer Handling Robots Market- By Application

 o   200mm Wafer Size

 o   300mm Wafer Size

 o   Others

 

Global Wafer Handling Robots Market- By Region

North America

 o   US

 o   Canada

 o   Mexico

 Europe

 o   Germany

 o    UK

 o   France

 o    Italy

 o   Spain

 o   Russia

 o   Benelux

 o   Nordics

 o   Rest of Europe

 Asia-Pacific

 o   China

 o    India

 o    Japan

 o    South Korea

 o    Rest of Asia-Pacific

 Middle East and Africa

 South America

Frequently Asked Questions (FAQ):

report

Report ID: VBI45
----------------- Feb-2023
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Format: PDF/Excel

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