Fujitsu Develops Outpatient Guidance Solution based on Electronic Paper Technology
No one likes the stress of waiting in the hospital waiting room, and if you ever got stuck in hospital or clinic waiting room, this solution may come as a relief both for sake of using your time more effectively as well as minimizing your chances of catching that special type of flue from someone close to you in that waiting room. Typical clinic and hospitals now a days use the electronic signage in their waiting rooms to let visiting patients who will be called next, however this solution requires all patients to stay near the waiting room and the display screen, resulting in crowding the place. In order to offer healthcare facilities with a way of improving their services and amenities that they provide to their outpatients as well as relieving patients from stress of waiting and providing them with the means to use their time more effectively, Fujitsu has come up with a outpatient information solution that is based on electronic paper technology. Read more
Development of an Amplifier based on Gallium Nitride HEMT Technology paving the way for Smaller, Lighter Radar Equipment and Wireless Communication System by FUJITSU
Fujitsu Laboratories made an announcement on development of a new amplifier based on gallium nitride (GaN) High Electron Mobility Transistor (HEMT) technology featuring output power of 12.9W, representing the world’s highest amplification output, when operating within wide band range of the C-band, X-band, and Ku-band radio frequency spectrums between 6GHz-18GHz. The use of new amplifier will contribute in development of smaller, lighter radar equipment as well as wireless communications systems that are capable of covering wide areas. In the past in order to achieve the output power needed to cover large spectrum such as the C- to Ku-bands, multiple transistors have been connected in parallel formation in order to create an amplification circuit, but since the circuit is physically longer, line loss increases and as a result making it difficult to extend coverage up to 18GHz. Read more
