GRID TIE Inverter Tester
Exeliq provides advanced inverter PCBA testing, end of line testing, and functional testing built for precision, safety, and reliability helping solar inverter manufacturers and R&D labs meet IEC/IS standards while driving efficiency, durability, and performance.
Test System Features
- Supports inverter PCBA testing and end of line testing up to 120 kW
- Functional testing — MPPT, THD, PF, sync, transient response
- Regenerative testing feeds power back to grid — up to 80% energy savings
- Programmable DC Source up to 1,000V / 300A per string
- AC Grid Simulator up to 120 kVA
- High voltage testing — HV 5 kV AC / 6 kV DC
- Insulation resistance testing up to 1,000V
- Isolation testing — Earth Bond up to 25A (≤100 mΩ)
- Thermal stress testing — Burn-in from 24 to 240 hours
- IEC 62109 & IS Standards compliance-ready
- Automated LabVIEW-based test sequences and report generation
- Modular architecture for R&D, certification labs & production QA
SPECIFICATIONS
| TYPE OF TESTS | SPECIFICATIONS |
|---|---|
| Inverter PCBA Testing | DC Input: 1,000V / 300A per string |
| End of Line Testing | AC Grid Simulator: 120 kVA Regenerative |
| Functional Testing | Load Bank: 0 – 120 kW (RL / Regenerative) |
| Output Voltage Testing | MPPT, THD, PF, Sync |
| Current Testing | Transient Response |
| Frequency Compliance | Grid Sync & Frequency Deviation |
| Load Testing | 0 – 120 kW RL / Regenerative |
| Thermal Stress Testing | 24 to 240 hours / 25°C – 60°C |
| High Voltage Testing | HV: 5 kV AC / 6 kV DC |
| Insulation Resistance Testing | IR: Up to 1,000V |
| Isolation Testing | Earth Bond: Up to 25A (≤100 mΩ) |
| Safety and Protection Testing | OVP, OCP, OTP, Anti-islanding |
KEY FEATURES
| INVERTER TESTER | SAFETY & AGEING |
|---|---|
| Supports testing up to 120 kW (Single-Phase & Three-Phase) | High voltage testing — HV 5 kV AC / 6 kV DC |
| Functional testing + HV/IR Safety + Burn-In in one integrated system | Insulation resistance testing up to 1,000V |
| Regenerative testing — up to 80% energy savings | Isolation testing — Earth Bond up to 25A (≤100 mΩ) |
| Programmable DC Source up to 1,000V / 300A per string | Thermal stress testing — 24 to 240 hours |
| AC Grid Simulator up to 120 kVA | Thermal Chamber (Optional): 25°C – 60°C |
| Output voltage testing — MPPT, THD, PF, sync, transient response | Load cycling & grid variation support |
| Frequency compliance & current testing per string | IEC 62109 & IS Standards compliant |
| LabVIEW automation + traceability reports | Modular for R&D, certification & production QA |
What we offer
Exeliq conducts complete solar inverter validation to assess inverter PCBA, functional performance, and end-of-line readiness under varied grid and load conditions. Our Grid Tie Inverter Test Solution supports inverter PCBA testing, end of line testing, functional testing, output voltage testing, current testing, frequency compliance, load testing, thermal stress testing, safety and protection testing, insulation resistance testing, isolation testing, and high voltage testing from individual boards to complete inverter systems, ensuring reliability and effectiveness in diverse environments.
FAQs
A grid tie inverter tester is an automated test system used to perform inverter PCBA testing, end of line testing, functional testing, high voltage testing, insulation resistance testing, and safety and protection testing, ensuring every solar inverter meets IEC 62109 and IS standards before leaving the production facility.
A solar inverter testing machine is used to perform inverter PCBA testing, end of line testing, output voltage testing, current testing, frequency compliance, load testing, thermal stress testing, insulation resistance testing, isolation testing, and high voltage testing, covering all functional, safety, and reliability parameters required for inverter certification and production quality assurance.
Yes. Exeliq's Grid Tie Inverter Test System supports both inverter PCBA testing at board level and complete end of line testing for finished inverter units, with automated LabVIEW test sequences, pass/fail reporting, and full traceability built in as standard.
Yes. With power capacity up to 120 kW, fully automated test sequences, and LabVIEW-based reporting, the system is purpose-built for high-throughput end of line testing and functional testing on solar inverter production lines handling both single-phase and three-phase inverters.
Yes. The system includes a 0–120 kW RL/regenerative load bank for load testing and supports burn-in thermal stress testing from 24 to 240 hours with an optional thermal chamber operating between 25°C and 60°C for accelerated ageing and reliability validation.
Publication
Exeliq Introduces GridX-120 Grid Tied Inverter Test System to Support India’s Rapidly Evolving Solar Market
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Exeliq Launches 120 kW Grid-Tied Inverter Test System to Strengthen Domestic Solar Testing
Exeliq Tech Solutions Launches GridX-120, 120 kW Grid-Tied Inverter Test System to Boost India’s Solar Validation Infrastructure
Exeliq Introduces GridX-120 to Support India’s Growing Solar Sector
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