6 research outputs found
An automatic fan controller by using wireless power transfer / Nur Nadiah Ahman & Nur Admiera Naqibah Zahri
During first semester of fifth semester of Final Year Project Programme at Universiti Teknologi Mara (UiTM), author was supervised by Mr. Muhammad Muzamil bin Mustam, the Faculty of Electrical Engineering Lecturer. His role is to make sure all the progress of this project went smoothly including the software and hardware. Author had to cooperate with technician staffs to complete this project. This is because this project is using high voltage of 240V AC current. So, author needs their skills and helped to cooperate with. All the discussions had done together with supervisor and technician staffs at the laboratory after this project is tested. Process of trouble shoot had done to help author to know and understand deeply the flow of this project. The study of this project is to determined that an automatic fan can be controlled by using wireless power transfer. The purposed of this project is wanted to prove that the presence of electricity without the existence of wires. Basically, this project is depended on the coupled of coil which is acted as transmitter and receiver to transfer the electricity to move the fan
Establishment of checklist of design for safety (DfS), life-cycle analysis (LCA) and design for manufacturing (DFM) for IVD medical device based on IEC 60601
By 2030, medical industries is projected to grow exponentially, progressive to more sustainable policies and better performance towards achieving healthcare Sustainable Development Goals (SDGs). Designing the uprising star of In-Vitro Diagnostic (IVD) device casing is choose as a case study in this research because the current discovery of non-invasive jaundice meter in Malaysia are still in lab scale form with wooding casing thus made it not user friendly and not safe to be used. Therefore, this research purpose a comprehensive checklist for designing new medical device casing by considering Design for Safety (DfS) extracted from the famous international standards on safety MS IEC 60601 and Life-Cycle Assessment (LCA) principles for environmental impact with real side-by-side industrial manufacturing requirement for injection molding process applied on a case study of jaundice meter casing. The checklist have help to minimize modification period thus comply to safety standards (MS IEC 60601). As a result, DfS-LCA-DFM comprehensive checklist helps to decrease trouble for designers to read on long pages of regulatory book to comply to safety standards, doing forensic of redesigning due to not suitable design for manufacturing and saving cost of raw material during early design stage
Industrial guideline for injection moulding: case of jaundice meter
In designing industries, a lot of measures need to be taken before coming to the final design phase. During the initial stage of designing a product, designers usually will design according to their sketching without considering guidelines for mass production manufacturing. This will consume soo much time on re-designing for to suit manufacturing requirement. There-fore this paper purpose to consider industrial guideline specifically on designing product directly for injection moulding. The most basic requirement on design for direct manufacturing that designers need to consider while designing are wall thick-ness, rib, boss and cored holes, suggested design for corners and materials selection. The guideline was applied to a jaun-dice meter prototype design as a case study
Industrial guideline for injection moulding : case of jaundice meter
In designing industries, a lot of measures need to be taken before coming to the final design phase. During the initial stage of designing a product, designers usually will design according to their sketching without considering guidelines for mass production manufacturing. This will consume soo much time on re-designing for to suit manufacturing requirement. There-fore this paper purpose to consider industrial guideline specifically on designing product directly for injection moulding. The most basic requirement on design for direct manufacturing that designers need to consider while designing are wall thick-ness, rib, boss and cored holes, suggested design for corners and materials selection. The guideline was applied to a jaun-dice meter prototype design as a case study
Review on Design for Medical Device
Medical devices are one of the uprising star in product development due to high demand among users. Developing safe, effective and usable design is indeed a challenging work which faced by designer nowadays. There are comparative methods in designing medical device to achieve desired outcome. Weather designing a “User-friendly”, “Safe to use” or “Eco-friendly” product requires an exclusive method. This review paper might illuminate some light to the designers and researchers who choose to integrate those aspect in their design work in healthcare sector. A review on current method used on user-friendly approach, ensuring safety, regulations on safety of medical device and suggested standards to ensure safety in less complicated way. Thus, there is no solid method or standard yet to establish on safety for medical device
Review on Design for Medical Device
Medical devices are one of the uprising star in product development due to high demand among users. Developing safe, effective and usable design is indeed a challenging work which faced by designer nowadays. There are comparative methods in designing medical device to achieve desired outcome. Weather designing a “User-friendly”, “Safe to use” or “Eco-friendly” product requires an exclusive method. This review paper might illuminate some light to the designers and researchers who choose to integrate those aspect in their design work in healthcare sector. A review on current method used on user-friendly approach, ensuring safety, regulations on safety of medical device and suggested standards to ensure safety in less complicated way. Thus, there is no solid method or standard yet to establish on safety for medical device
