Leveraging Altair FEKO for the Creation of the World’s Smallest TV Antenna
Technology Category
- Sensors - Autonomous Driving Sensors
- Sensors - GPS
Applicable Industries
- Automotive
- Education
Applicable Functions
- Product Research & Development
Use Cases
- Time Sensitive Networking
- Vehicle Telematics
About The Customer
The customer in this case is the Universidad Autónoma del Estado de Morelos (UAEM) in Mexico. Established in 1938, UAEM has grown considerably over the years, developing programs of higher education and becoming an important source of knowledge for the research and development community. The Center for Research in Engineering and Applied Sciences (CIICAp) was established at UAEM to conduct innovative research that can be beneficial to the students but also bring benefits of the research to the masses at an affordable cost. Dr. Margarita Tecpoyotl-Torres leads a team of students and researchers at CIICAp to develop innovative antennas that are useful to society. She holds four patents, two copyrights, and one trademark, and has a research interest in MEMS, antenna design, and microwave devices.
The Challenge
The Universidad Autónoma del Estado de Morelos (UAEM) in Mexico was faced with the challenge of designing low-cost, lightweight antennas for TV and automotive applications. The goal was to make modern day communications, including TV and GPS, more affordable for the masses, particularly in developing countries. The challenge was particularly significant in the context of TV reception, where the successful transmission of signals to remote areas, especially indoors, was often problematic. The traditional solution, a Yagi array antenna, provided a directed beam towards the TV tower, but the team at UAEM sought to develop an antenna that was smaller, lighter, and improved signal stability.
The Solution
The team at UAEM, led by Dr. Margarita Tecpoyotl-Torres, utilized Altair’s FEKO, a powerful and reliable simulation technology for antenna design. They developed the world’s smallest TV antenna, measuring 11 centimeters in length, 7 centimeters wide, and 6.5 millimeters thick, and weighing only 12 grams. The design was novel, featuring not just a single antenna, but an array of two antennas. The antenna was designed to be fixed to a roof without an attached mast, and could operate under very low temperatures. It could also be used indoors and could be run through a signal splitter to connect to multiple TVs. It did not require electricity to operate. In addition to the TV antenna, the team also designed and fabricated a low-cost GPS antenna for automobile applications.
Operational Impact
Quantitative Benefit
Case Study missing?
Start adding your own!
Register with your work email and create a new case study profile for your business.
Related Case Studies.
Case Study
Integral Plant Maintenance
Mercedes-Benz and his partner GAZ chose Siemens to be its maintenance partner at a new engine plant in Yaroslavl, Russia. The new plant offers a capacity to manufacture diesel engines for the Russian market, for locally produced Sprinter Classic. In addition to engines for the local market, the Yaroslavl plant will also produce spare parts. Mercedes-Benz Russia and his partner needed a service partner in order to ensure the operation of these lines in a maintenance partnership arrangement. The challenges included coordinating the entire maintenance management operation, in particular inspections, corrective and predictive maintenance activities, and the optimizing spare parts management. Siemens developed a customized maintenance solution that includes all electronic and mechanical maintenance activities (Integral Plant Maintenance).
Case Study
Monitoring of Pressure Pumps in Automotive Industry
A large German/American producer of auto parts uses high-pressure pumps to deburr machined parts as a part of its production and quality check process. They decided to monitor these pumps to make sure they work properly and that they can see any indications leading to a potential failure before it affects their process.
