This project is about to design and development of ultra- low power wireless device. Which is used for wireless devices and wireless applications. Requirements the design of microelectronic circuits with the low power blow out. Additionally, the size and complexity of the chip are parallel increases with the demands. In order to extend the life span of battery powered wireless sensor network lumps. This move on from the power module, nRF24L01 and Atmega328 to design ultra- low power wireless module. The lumps increase the power module’s ability maximally. At the same time, it makes use of ultra- low power data processing module. The energy consumption of wireless device which has the practical importance of expanding the application and its effects ona wireless device.
Reliable and steady supply of electrical energy to consumers at distribution voltage level in every network is of fundamental importance to both service providers their customerscostormers. For the customercostormer equipment to function properly the quaility of supply must be assured, therefore there must be a method of performing a reliability assessment the network in question. This paper presents an analytical approach in reliability assessment of some parts of the 33/11kV Port Harcourt Electricity Distribution (PHED) network. The assessment was carried out using some of the 2017 power outage data from the PHED operator.