PHYSIOLOGICAL PROFILING AND MICROORGANISMS COMMUNITY ANALYSIS IN CIANJUR TAUCO FERMENTATION
To increase the utilization of solar energy, dc microgrid network systems will generally be made. This dc microgrid networks will be connected to the battery by using a bidirectional dc-dc convetrer. This converter will step-up the output voltage of the battery (36-42 V) to be in accordance with the...
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| Format: | Final Project |
| Language: | Indonesia |
| Subjects: | |
| Online Access: | https://digilib.itb.ac.id/gdl/view/48190 |
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| Institution: | Institut Teknologi Bandung |
| Language: | Indonesia |
| Summary: | To increase the utilization of solar energy, dc microgrid network systems will generally be made. This dc microgrid networks will be connected to the battery by using a bidirectional dc-dc convetrer. This converter will step-up the output voltage of the battery (36-42 V) to be in accordance with the dc microgrid network (400V). This research will propose the new topology of modular multilevel dc-dc converter based on cuk converter as a solution of all problems for other multilevel dc-dc converter that has been developed. To increase the voltage from 36-42 V to 400V, if we use this converter we need to set the duty-cycle of the lowest cell/level become 0,75 and the other cell/level can be fixed to 0,5. The output voltage only be affected of duty-cycle not the value of component from this converter like inductor and capacitor. So, the converter has the ability to independently maintain the same voltage at each level. |
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