A Power Ripple Compensator for DC Nanogrids via a Solid-State Converter by Ahmad Khan (6067526)

“…The analysis and results demonstrated that a 50 μF total capacitance is sufficient at the DC bus for 500V/5kW DC nanogrid to achieve negligible DC bus voltage ripple. …”

A Quadratic Non-Isolated High Step-Up Single-Input Dual-Output DC–DC Topology Based on Coupled Inductors with Low Input Current Ripple by Vafa Marzang (17347048)

“…The proposed SIDO (or SISO) topology includes two CI, two independent switches, four (three) diodes, and five (four) capacitors. The proposed converter produces high DC output voltages at a low value of duty cycles and low voltage stress across the power MOSFETs. …”

Design and analysis of PV fed high-voltage gain DC-DC converter using PI and NN controllers by Madisa V.G., Varaprasad

“…In this article, a modified High-Voltage DC-DC converter was explained. …”
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Football-induced fatigue in hypoxia impairs repeated sprint ability and perceptual-cognitive skills by Samuel A. Pullinger (8154627)

“…RS were affected by football-induced fatigue for DC (4.8%;ES=0.68) and AV (5.5%;ES=0.79). In hypoxia, a 6.5% was found for DC, 6.3% for AV and 3.1% for PV at 1500-m compared to 0-m (P<0.05). …”

Characterization of Electronic and Ionic Transport in Li_1-_<em>x</em>Ni_0.33Mn_0.33Co_0.33O₂(NMC₃₃₃) and Li... by Ruhul Amin (2113627)

“…Here, the transport properties of NMC₃₃₃ and NMC₅₂₃ are investigated using impedance spectroscopy and DC polarization and depolarization techniques. The electronic conductivity is found to increase with decreasing Li-content (increasing state-of-charge) from ∼10⁻⁷ Scm⁻¹ to ∼10⁻² Scm⁻¹ over Li concentrations <i>x</i> = 0.00 to 0.75, corresponding to an upper charge voltage of 4.8 V with respect to Li/Li⁺. …”