This study investigates the application of PID algorithm-based temperature control systems in pig house environmental management and its impact on agricultural production efficiency. Through field experiments conducted at Dongshun Aquaculture Ecological Development Co., Ltd. in Nanping City, Fujian Province, we evaluated the system’s effectiveness in energy efficiency, production performance, and animal health. Results show that...
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Innovating for a greener future: BatStateU’s 2024 summit synergizes sustainability with academic excellence
In a significant step towards a greener future, Batangas State University, The National Engineering University (BatStateU The NEU), became the epicenter of progressive cross-disciplinary dialogue by hosting its 2024 Sustainability Summit under the inspiring theme of “Sustainability Synergy: Integrating Quality Education into Every Discipline,” at Narra Hall, Jose Rizal Building, Pablo Borbon Campus, Batangas City...
Gas Sensor-Based Nondestructive Testing for Jackfruit Ripeness Level
Jackfruit is a fruit native to South and Southeast Asia that is now cultivated all over the world due to its adaptability, as it can be eaten both ripe and unripe. This study was conducted to accurately identify the Jackfruit’s ripeness. Four MQ families have been identified as the most effective for classifying the ripeness...
Improving Rice Farming Productivity through Solar-Powered Electronic Stirring with SMS Notifications
This research project aims to address the challenges farmers face in drying paddy rice to produce high-quality paddy grain due to a lack of manpower. The study presents an Electronic Stirring Rice Paddy system with SMS Notification and Solar Charging that stirs the rice every thirty minutes until it is dried, with features that notify...
Development and performance evaluation of a self-sustaining electric generator with automatic control
Energy plays an important role globally. Industrial growth, coupled with high system losses, has resulted in a major demand-supply imbalance resulting in an energy shortage with a devastating effect on the economies of countries. The pollution brought by the combusting energy source and the price-increasing-motion of fuel tends people to explore and use greener and...
Optimization of the Dip Coating Parameters for Depositing Cesium Lead Halide Perovskite Quantum Dot Films on Gallium Arsenide Substrates
Solution concentration and several dip cycles are key factors that determine the thickness and quality of perovskite quantum dot (PQD) films. Dip coating is an effective technique used for depositing solution-processed PQDs in substrates which are common passivation layers in solar cells. The optimum dip-coating parameters for depositing cesium lead halide PQDs on GaAs substrates...
SDG forum and exhibit on WED 2023
Centered on the theme “Leadership in Collaborative Innovations for a Stronger Nation” Supreme Student Council (SSC) Alangilan, the Office of Student Organizations, the Center for Innovations in Engineering Education (CIEE), and the College of Engineering organized the Sustainable Development Forum on the second day of celebrating the World Engineering Day 2023. The forum shed light...
DevCom, CSD collab for SDG exhibit
BS Development Communication students in collaboration with the Center for Sustainable Development staged a one-day exhibit that highlighted the University’s sustainable initiatives in the achievement of the 17 UN SDGs. DevCom students featured various sustainability efforts through a wide array of IEC materials such as pamphlets, brochures, dioramas, charts, and diagrams as well as videos...
A 16-nm FinFET 28.8-mW 800-MHz 8-Bit All-N-Transistor Logic Carry Look-Ahead Adder
Low-power and high-speed calculation is very important nowadays for energy-efficient demand of electronic devices. With the usage of ANT (All-N-transistor) logic, the speed constraint caused by PMOS transistors can be overcome through an auxiliary current path across NMOS transistors. This study presents a 800-MHz 28.8-mW 8-bit carry look-ahead adder (CLA) using ANT logic implemented on...
Single-chip DC–DC buck converter design based on PWM with high-efficiency in light load
This research illustrates a DC–DC buck converter with a pulse width modulation (PWM) feedback control loop and capable of power supply voltage range from VDD to 2.5× VDD, which is equivalent to 5–14 V. It is a single chip with area of 1.379 × 0.813 mm2 using 0.5 µm HV CMOS process, where high voltage (HV) MOSFETs, a Dead-time detector, a...
