This standard specifies the test procedures for evaluating the performance and safety of grid-connected photovoltaic (PV) inverters. It covers critical tests such as conversion efficiency, power quality (harmonics, DC injection), and protection functions like anti-islanding. Compliance with this standard is essential for ensuring inverters are safe, reliable, and compatible with the Indian electrical grid.
Provides a test procedure for evaluating the performance and protection functions of utility-interconnected photovoltaic (PV) inverters.
Quick Reference Values
Sensible heat gain from person at rest (seated)75 W
Default lighting heat gain for offices12 W/m²
Default equipment heat gain for offices15 W/m²
Standard indoor design temperature (cooling)25 °C
Standard indoor design temperature (heating)21 °C
Key Formulas
Q_H,nd = Q_H,ht - η_H,gn * Q_H,gn — Annual energy need for heating
Q_C,nd = Q_C,gn - η_C,ls * Q_C,ht — Annual energy need for cooling
Φ_tr = H_tr * (θ_int - θ_ext) — Heat transfer by transmission
Φ_ve = H_ve * (θ_int - θ_sup) — Heat transfer by ventilation
Practical Notes
This code provides the methodology, but actual implementation is almost always done using specialized energy simulation software like EnergyPlus, eQuest, or IES VE.
The accuracy of the results heavily depends on the quality of input data, particularly climatic data, building envelope properties (U-values, SHGC), and operational schedules.
This standard is often used in conjunction with the Energy Conservation Building Code (ECBC) and for green building rating systems like GRIHA and IGBC to demonstrate performance.