All the system data for the 240-node real distribution system are taken from [1].

[1] F. Bu, Y. Yuan, Z. Wang, K. Dehghanpour, and A. Kimber, “A time-series distribution test system based on real utility data,” in 2019 North AmericanPower Symposium (NAPS), Wichita, KS, USA, USA, 2019, pp. 1–6

The MATLAB and OpedDSS integration of the system are are available in http://wzy.ece.iastate.edu/Testsystem.html

Iowa Distribution Test Systems A Real 240-Node Distribution System with One-Year Smart Meter Data Summary System description One year smart meter data OpenDSS model Quasi-static time-series analysis Update history

In these given data we have added PV systems at various nodes and the voltage measurements are taken from these nodes to use them for the proposed work.

The description of the python file are as follows. For 240 node system Matlab_OpenDSS_interface.m: This is the main program that integrates MATLAB and OpenDSS, this contains the PV system addition on the various nodes. This program will require the following files. FeederA_P.mat FeederA_P_W_Header.mat FeederA_Q.mat FeederB_P.mat FeederB_P_W_Header.mat FeederB_Q.mat FeederC_P.mat FeederC_P_W_Header.mat FeederC_Q.mat irradiance.csv temperature.csv Capacitor.dss CircuitBreaker.dss DistriTransformer.dss Lines.dss Linecode.dss Load.dss Master.dss pvdata.dss RegControl.dss SubTransformer.dss Vsources.dss

The .dss (except pvdata.dss) and .mat files were obtained from the link provided above. Two excel files are solar irradiance and the temperature data. For IEEE 123-node system The integrated .dss data obtained for this case were obtained from EPRI https://sourceforge.net/projects/electricdss/ We integrated the OpenDSS with the MATLAB to run the quasi-time series simulation. All the data are provided inside the folder.

All the source code and the program is available in this link https://drive.google.com/drive/u/1/folders/1AMr7XEDzXxuwL5ObIR0QVis1shWaMfU6