Voltage rise. During normal operation, the voltage rise caused by the RGS at the point of common coupling shall not exceed by 3% the magnitude of the voltage when the RGS is not connected. APPENDIX 1 SAMPLE ELECTRICAL ONE-LINE DIAGRAM Centre-tapped PV grid-interconnected PV system APPENDIX 2 SUMMARY OF PV AND INTERCONNECTION-RELATED TECHNICAL STANDARDS IEEE Std 928 Recommended Criteria for Terrestrial PV Power Systems IEEE Std 1547 Standard for Distributed Resources Interconnected with Electric Power Systems – standard for technical interconnection requirements IEEE Std 519 Recommended Practices and Requirements for Harmonic Control in Electrical Power Systems - standard for allowable harmonic waveform distortions IEEE Std 1262 Recommended Practice for Qualification of Photovoltaic Modules IEEE Std 1374 Guide for Terrestrial Photovoltaic Power System Safety IEEE Std 1479 Recommended Practice for the Evaluation of Photovoltaic Module Energy Production UL Std 1741 Static Inverters and Charge Controllers for use in PV Power Systems – a testing protocol that certifies the safe operation of grid-connected inverters XX Xxx 0000 Xxxx-Xxxxx Photovoltaic Modules and Panels NFPA 70 Article 690 (NEC Code) Solar Photovoltaic Systems – standard for installation of PV systems NFPA 70 Article 705 (NEC Code) Interconnected Electric Power Production Sources – standard for installation of grid-connected systems VDE-AR-N-4105 German Standard “Power Generation Systems Connected to the Low Voltage Distribution Network IEC 00000-0-0 Harmonic current emissions in case of load currents up to 16A IEC 00000-0-0 Harmonic current emissions in case of load currents greater than 16A APPENDIX 3 SAMPLE OF UTILITY WARNING SIGN OF CUSTOMER GENERATION (Size not less than 8” x 6”, Font shall be 1.25 inches in height, black in colour with a yellow background.) APPENDIX 4 SAMPLE OF SAFETY DISCONNECT SWITCH APPENDIX 5 CONFIGURATIONS N.B this drawing is intended for illustration purposes only in the application for interconnection and does not represent a design or installation manual Fig. 1 Configuration 1 (net production to grid) N.B this drawing is intended for illustration purposes only in the application for interconnection and does not represent a design or installation manual Fig.2 Configuration 2 – total production to grid Configuration of Battery Backed Inverter with Output to Critical Loads Configuration of Battery Backed Inverter with All Loads Connected at the Inverter Output APPENDIX 6 RGS INTERC...
Voltage rise. On the field survey, we examined the logs of the Udon Thani No. 1 substation, which showed a lead phase7 in three of nine feeders during the night when the demand is low. The voltage in these circuits rose above the rated value at the receiving end. This excess voltage can be expected to put a strain on electrical equipment. In short, while the public are asleep the consumption of electricity drops and the load on distribution lines lightens. When this happens, the voltage supplied to the receiving end of the circuit rises, placing a strain on automatic pumps, light fittings etc. For the future, it is very important to study and implement measures that will solve this kind of problem described above. In this survey, we were unable to inspect other substations, so we cannot say whether this is a common phenomenon nationwide, but we were able to confirm the existence of this problem through interviews in other areas. Therefore, PEA must conduct a nationwide study of the quality of the electric power it provides and study whatever corrective measures may be necessary.
