Development of Automatic Switch using PIR and SSR for Day and Night Detection

None conservative attitude is observed among the African people in non-conservative utilization of public power supply. Individuals are often observed power on the lightings, cooling systems when not needed at homes, offices and commercial centers. This increases power bills and may hinders a nation from diverting power to industrial areas, limiting the process of industrialization and waste of energy. To avert these, this paper presents development of automatic switch using passive infrared sensor (PIR) and solid state relay (SSR) for day and night detection. The objective of this project is to replace the electromagnetic relays which may fail as a result of carbon forming resulting from arching in existing designs with solid state relay. Also, the system is to conserve energy more by ensuring that bulbs are not powered on during the day time except in cases of darkness. The circuit was designed using components such as; power supply, PIR sensor, Light Dependent resistor (LDR) sensor, Microcontroller and SSR, as showed in the circuit figures 1 and 8. The system is achieved using PIC16f628 which is programmed using Micro-C, SSR for switching, PIR for human detection and LDR to detect night and day. The system was tested and worked perfectly. It helped to conserve energy

Development of Automatic Switch using PIR and SSR for Day and Night Detection

None conservative attitude is observed among the African people in non-conservative utilization of public power supply. Individuals are often observed power on the lightings, cooling systems when not needed at homes, offices and commercial centers. This increases power bills and may hinders a nation from diverting power to industrial areas, limiting the process of industrialization and waste of energy. To avert these, this paper presents development of automatic switch using passive infrared sensor (PIR) and solid state relay (SSR) for day and night detection. The objective of this project is to replace the electromagnetic relays which may fail as a result of carbon forming resulting from arching in existing designs with solid state relay. Also, the system is to conserve energy more by ensuring that bulbs are not powered on during the day time except in cases of darkness. The circuit was designed using components such as; power supply, PIR sensor, Light Dependent resistor (LDR) sensor, Microcontroller and SSR, as showed in the circuit figures 1 and 8. The system is achieved using PIC16f628 which is programmed using Micro-C, SSR for switching, PIR for human detection and LDR to detect night and day. The system was tested and worked perfectly. It helped to conserve energy

Knowledge of COVID-19, use of personal protective equipment and other safety practices of healthcare workers in Southwest Nigeria

Background: Healthcare workers have a higher risk of SARS CoV2 infection with implications for transmission of infection and the safety of workers and patients. Objective: To assess knowledge on COVID-19 and the safety practices among selected healthcare workers in southwest Nigeria. Methods: A cross-sectional study of 210 workers providing direct care to patients during the COVID-19 pandemic was conducted. Respondents were recruited through simple random sampling of members of online platforms of healthcare workers in Osun, Ondo and Ekiti States. Information on sociodemographic characteristics, knowledge of PPE and safety practices was obtained through a close-ended questionnaire. Results: The mean age of the respondents was 36.5±7.5 years. About 29% and 30% of respondents were from the State and Federal Government-owned Teaching Hospitals, respectively. A little above half (58.1%) had good knowledge of COVID-19, while 62.1% used PPE always when attending to suspected COVID19 cases. More than half (53.8%) had been trained on infection prevention and control (IPC), but only 34.3% adhered to good safety practices. Healthcare workers in State government-owned teaching hospitals had lower odds of good safety practices than those in Federal Teaching Hospitals (OR = 0.42, 95% CI = 0.19-0.93, p = 0.031). Conclusion: The knowledge of appropriate PPE and practice of safety precautions among healthcare workers is sub- optimal. This may predispose to increased COVID-19 transmission among healthcare workers, patients, and their families. Training and retraining healthcare workers, especially those from hospitals identified by the study as having poor safety practices, should be encouraged