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This special page shows all uploaded files.

File list
Date Name Thumbnail Size Description
17:06, 26 September 2017 GLDMetricsClasses.png (file) 41 KB This diagram shows how metrics_collector is attached to each objects, collects and aggregates property values, and writes into JSON file using metrics_collector_writer.
22:13, 21 September 2017 Diesel dg PQ constant simulation result.png (file) 44 KB Reverted to version as of 22:09, 21 September 2017 (UTC)
21:56, 21 September 2017 TwoDroopVSIs.png (file) 28 KB This figure shows the simulation results of two VSIs in droop mode
21:39, 21 September 2017 IsochronousVSI droopVSI.png (file) 33 KB This figure shows the simulation results with one Isochronous VSI and one droop VSI.
21:27, 21 September 2017 InverterDroop.png (file) 33 KB This plot shows the real power output from the current source inverter with P droop and Q constant mode
16:20, 21 September 2017 Frequency.png (file) 26 KB This figure shows the frequency results of the two VSI in droop mode simulation
17:56, 30 August 2017 Inverter p f droop.png (file) 22 KB This block diagram shows the additional implementation on the PQ CONSTANT inverter. A predefined droop curve is used to obtain the updated Pref with the measured delayed frequency.
17:54, 30 August 2017 Inverter q v droop.png (file) 23 KB This block diagram shows the additional implementation on the original PQ CONSTANT inverter. A predefined droop curve is used to obtain the updated Qref with the measured delayed terminal voltage.
17:49, 30 August 2017 Inverter PI control original.png (file) 14 KB This block diagram illustrates the implementation for the original PQ constant inverter. The real and reactive power outputs are compared with the reference values, the output of the PI controller is the current injection from the inverter.
23:14, 17 August 2017 Diesel dg Q constant.png (file) 12 KB This block diagram shows how constant_Q mode is implemented.
23:12, 17 August 2017 Diesel dg P constant with actuator and time delay.png (file) 28 KB This block diagram shows how the P_CONSTANT diesel_dg is implemented. Main parts of this mode includes time delay and actuator.
21:22, 17 August 2017 VSI droop.png (file) 24 KB This diagram shows how two droop modes (f/p and v/q) in VSI are implemented. With the predefined droop curves, the corresponding f and V are calculated, and used to obtain the e_source value.
21:06, 17 August 2017 Voltage control of e source.png (file) 9 KB Diagram showing that the magnitude of isochronous mode VSI ''e_source'' is obtained by comparing the terminal voltage to the nominal value, and process through a PI controller.
20:56, 17 August 2017 VSI Norton to Thevenin.png (file) 19 KB The diagram showing that VSI is modeled as a Norton current source, and then is converted to a Thevenin voltage source to calculate the voltage source e_source magnitude and angle