In recent years, global warming has become an increasingly critical issue, which has led to an increase in awareness of energy conservation and carbon reduction. Thus, manufacturers are actively introducing energy-saving technologies into traditional home appliances. Traditional air conditioners consume the most energy among electrical home appliances, and compressors are the most energy-intensive equipment in air-conditioning. Introducing emerging technologies and saving energy is the most important issue at present. The magnetic floating centrifugal compressor is the latest technology in air-conditioning. Due to the magnetic floating technology, the compressor can overcome energy losses being caused by traditional bearing, gear transmission, and refrigeration system oil exchange. Its energy efficiency is 20%–30% higher than that of the existing compressors, while its body can be reduced to less than a quarter of the conventional compressor. As compressors are a critical part of the current refrigeration and air-conditioning technology, patent landscaping to enhance competitiveness is the most important strategy for the downstream refrigeration and air-conditioning manufacturers. However, related research is limited. Therefore, the present study intends to conduct patent analysis and landscaping, so that a research and development (R&D) strategy can be defined accordingly. In order to carry out patent landscaping, the study first analyzes the technical scope, searches the U.S. Patent and Trademark Office (USTPO), and defines the technology-function matrix by searching for the result. The study uses principal component analysis (PCA) to summarize the criteria that manufacturers could use in choosing their patent landscaping techniques. Multiple-criteria decision-making (MCDM) methods integrate the decision-making trial and evaluation laboratory (DEMATEL)–based analytic network process (ANP) and the modified VIKOR (Vlse Kriterijumska Optimizacija Kompromisno Resenje) model to evaluate the techniques that could be developed by focal companies. Finally, a competence set expansion based on the fuzzy multiple attribute decision-making method will be used to define the technology roadmap. An empirical study of a newer Taiwanese air-conditioning manufacturer will be used to demonstrate the feasibility of the proposed analytic framework. Based on the analytic results, the roadmap of each technology can easy-catch the strategy. The well-verified analytic framework can serve as a basis for R&D strategy definitions by fast-catching manufacturers of air conditioners for patent landscaping and R&D strategy definitions.