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darleneherringAug 20, 2025
Why is my INVT Inverter showing AC overvoltage?
- KKimberly BrownAug 20, 2025
AC overvoltage in your INVT Inverter is due to high voltage from the public grid.
Why is my INVT Inverter showing AC overvoltage?
AC overvoltage in your INVT Inverter is due to high voltage from the public grid.
Why is my INVT iMars BG30KTR Inverter showing AC undervoltage?
AC undervoltage in your INVT Inverter is caused by low voltage from the public grid.
What causes input overvoltage in INVT iMars BG30KTR?
Input overvoltage in your INVT Inverter is due to DC input overvoltage.
What does output short-circuit mean on my INVT Inverter?
Output short-circuit on your INVT Inverter means there is a short-circuit at the output.
What causes input overcurrent in my INVT iMars BG30KTR Inverter?
Input overcurrent in your INVT Inverter is due to DC input overcurrent.
What does AC overcurrent mean for INVT iMars BG30KTR?
AC overcurrent in your INVT Inverter indicates an internal AC overcurrent situation.
What causes AC overfrequency in INVT Inverter?
AC overfrequency in your INVT Inverter is due to high frequency from the public grid.
What causes AC underfrequency in INVT Inverter?
AC underfrequency in your INVT Inverter is due to low frequency from the public grid.
What does huge leakage current mean in my INVT Inverter?
A huge leakage current in the INVT Inverter indicates a substantial leakage current within the system or the inverter itself.
What does data consistency fault mean for INVT Inverter?
A data consistency fault in your INVT Inverter indicates inconsistent grid voltage, frequency, leakage current, or AC/DC injection.
Covers crucial safety rules for installation, operation, and maintenance.
Details safety measures for handling and installing the inverter.
Outlines safety requirements for grid-connected operation.
Safety protocols for performing maintenance and inspection.
Requirements and tools needed before proceeding with installation.
Step-by-step guide for physically mounting the inverter.
Instructions for safe electrical wiring and connections.
Guide for connecting the DC input from solar PV modules.
Steps for connecting the inverter to the AC grid.
Essential checks before powering on the inverter.
Step-by-step instructions for starting and operating the inverter.
Detailed breakdown of fault codes, messages, instructions, and analysis.
General| Rated Power | 30kW |
|---|---|
| Max. DC Input Voltage | 1100V |
| Maximum PV Input Voltage | 1100V |
| Number of MPPTs | 2 |
| Number of DC Inputs per MPPT | 2 |
| Rated AC Output Power | 30kW |
| Max. AC Output Power | 33kW |
| Maximum Output Power | 33kW |
| Rated AC Voltage | 400V |
| THDi | <3% |
| Euro Efficiency | 98.2% |
| DC Switch | Yes |
| Protection Level | IP65 |
| Weight | 45kg |
| Model | BG30KTR |
| Input Voltage Range | 200 V - 1000 V |
| MPPT Voltage Range | 200 V - 1000 V |
| AC Voltage Range | 310 V - 480 V |
| Rated Grid Frequency | 50/60Hz |
| Power Factor Adjustment Range | 0.8 leading - 0.8 lagging |
| Protection Class | I |
| Operating Temperature Range | -25 ~ +60°C |
| Cooling Method | Natural Convection |
| Communication | RS485, Wi-Fi, GPRS |
| Dimensions (W x H x D) | 250 mm |
